diff --git a/CHANGELOG.md b/CHANGELOG.md
index 91e8aa257dd40117311bffcd738b142ab597aa46..2d0af7e1cff8940d9da1c4658109910eb5e3543f 100644
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -1,4 +1,17 @@
# [Hyperledger Burrow](https://github.com/hyperledger/burrow) Changelog
+## [0.22.0] - 2018-09-21
+### Changed
+- Upgraded to Tendermint 0.24.0
+- Upgraded to IAVL 0.11.0
+
+### Fixed
+- Fixed non-determinism in Governance Tx
+- Fixed various abi issues
+
+## Added
+- burrow deploy displays revert reason when available
+- burrow deploy compiles contracts concurrently
+
## [0.21.0] - 2018-08-21
### Changed
- Upgraded to Tendermint 0.23.0
@@ -266,6 +279,7 @@ This release marks the start of Eris-DB as the full permissioned blockchain node
- [Blockchain] Fix getBlocks to respect block height cap.
+[0.22.0]: https://github.com/hyperledger/burrow/compare/v0.21.0...v0.22.0
[0.21.0]: https://github.com/hyperledger/burrow/compare/v0.20.1...v0.21.0
[0.20.1]: https://github.com/hyperledger/burrow/compare/v0.20.0...v0.20.1
[0.20.0]: https://github.com/hyperledger/burrow/compare/v0.19.0...v0.20.0
diff --git a/Gopkg.lock b/Gopkg.lock
index f640389d9d3e7f6796090d4aa90d53bb4722ec31..0e90ed6039c8ce59ddfbca855f1cb14db6f87060 100644
--- a/Gopkg.lock
+++ b/Gopkg.lock
@@ -39,7 +39,7 @@
name = "github.com/btcsuite/btcd"
packages = ["btcec"]
pruneopts = "NUT"
- revision = "f899737d7f2764dc13e4d01ff00108ec58f766a9"
+ revision = "cff30e1d23fc9e800b2b5b4b41ef1817dda07e9f"
[[projects]]
branch = "master"
@@ -50,12 +50,12 @@
revision = "21470bfc93b9903bce0beaebb037b1d04d0be523"
[[projects]]
- digest = "1:a2c1d0e43bd3baaa071d1b9ed72c27d78169b2b269f71c105ac4ba34b1be4a39"
+ digest = "1:ffe9824d294da03b391f44e1ae8281281b4afc1bdaa9588c9097785e3af10cec"
name = "github.com/davecgh/go-spew"
packages = ["spew"]
pruneopts = "NUT"
- revision = "346938d642f2ec3594ed81d874461961cd0faa76"
- version = "v1.1.0"
+ revision = "8991bc29aa16c548c550c7ff78260e27b9ab7c73"
+ version = "v1.1.1"
[[projects]]
digest = "1:4f0ac2a7cc350b14c72a9de0de046b908482d6f16183c8570ee4d6e17adc6a94"
@@ -140,12 +140,12 @@
version = "v3.4.0"
[[projects]]
- digest = "1:a1efdbc2762667c8a41cbf02b19a0549c846bf2c1d08cad4f445e3344089f1f0"
+ digest = "1:91358b3a314c1ddfd4d6445ca9c1fb846842c31c153e626730594b3c95f73f4a"
name = "github.com/go-stack/stack"
packages = ["."]
pruneopts = "NUT"
- revision = "259ab82a6cad3992b4e21ff5cac294ccb06474bc"
- version = "v1.7.0"
+ revision = "2fee6af1a9795aafbe0253a0cfbdf668e1fb8a9a"
+ version = "v1.8.0"
[[projects]]
digest = "1:35621fe20f140f05a0c4ef662c26c0ab4ee50bca78aa30fe87d33120bd28165e"
@@ -193,7 +193,6 @@
version = "v1.2.0"
[[projects]]
- branch = "master"
digest = "1:11c6c696067d3127ecf332b10f89394d386d9083f82baf71f40f2da31841a009"
name = "github.com/hashicorp/hcl"
packages = [
@@ -209,7 +208,8 @@
"json/token",
]
pruneopts = "NUT"
- revision = "ef8a98b0bbce4a65b5aa4c368430a80ddc533168"
+ revision = "8cb6e5b959231cc1119e43259c4a608f9c51a241"
+ version = "v1.0.0"
[[projects]]
branch = "master"
@@ -285,12 +285,12 @@
version = "v1.0.1"
[[projects]]
- branch = "master"
digest = "1:5fe20cfe4ef484c237cec9f947b2a6fa90bad4b8610fd014f0e4211e13d82d5d"
name = "github.com/mitchellh/mapstructure"
packages = ["."]
pruneopts = "NUT"
- revision = "f15292f7a699fcc1a38a80977f80a046874ba8ac"
+ revision = "fa473d140ef3c6adf42d6b391fe76707f1f243c8"
+ version = "v1.0.0"
[[projects]]
digest = "1:9a3c7cb3b6be10c156b8ac4f69bcf0bdf483b6e601005505e254958eeb599281"
@@ -356,7 +356,7 @@
[[projects]]
branch = "master"
- digest = "1:6621142cd60b7150ab66f38ff36303ca55843dc5a635c1f9a28f95ecddab72b4"
+ digest = "1:26a2f5e891cc4d2321f18a0caa84c8e788663c17bed6a487f3cbe2c4295292d0"
name = "github.com/prometheus/procfs"
packages = [
".",
@@ -365,7 +365,7 @@
"xfs",
]
pruneopts = "NUT"
- revision = "05ee40e3a273f7245e8777337fc7b46e533a9a92"
+ revision = "418d78d0b9a7b7de3a6bbc8a23def624cc977bb2"
[[projects]]
branch = "master"
@@ -391,8 +391,8 @@
"mem",
]
pruneopts = "NUT"
- revision = "787d034dfe70e44075ccc060d346146ef53270ad"
- version = "v1.1.1"
+ revision = "d40851caa0d747393da1ffb28f7f9d8b4eeffebd"
+ version = "v1.1.2"
[[projects]]
digest = "1:3fa7947ca83b98ae553590d993886e845a4bff19b7b007e869c6e0dd3b9da9cd"
@@ -403,12 +403,12 @@
version = "v1.2.0"
[[projects]]
- branch = "master"
digest = "1:f29f83301ed096daed24a90f4af591b7560cb14b9cc3e1827abbf04db7269ab5"
name = "github.com/spf13/jwalterweatherman"
packages = ["."]
pruneopts = "NUT"
- revision = "14d3d4c518341bea657dd8a226f5121c0ff8c9f2"
+ revision = "4a4406e478ca629068e7768fc33f3f044173c0a6"
+ version = "v1.0.0"
[[projects]]
digest = "1:e3707aeaccd2adc89eba6c062fec72116fe1fc1ba71097da85b4d8ae1668a675"
@@ -419,12 +419,12 @@
version = "v1.0.2"
[[projects]]
- digest = "1:454979540e2a1582f375a17c106cf4e11e3bcac4baffb4af23e515c87f87de13"
+ digest = "1:e37ec5ec59746bb63bda84331b5ff892e1a301648c1736364e78ec5df468ad72"
name = "github.com/spf13/viper"
packages = ["."]
pruneopts = "NUT"
- revision = "907c19d40d9a6c9bb55f040ff4ae45271a4754b9"
- version = "v1.1.0"
+ revision = "8fb642006536c8d3760c99d4fa2389f5e2205631"
+ version = "v1.2.0"
[[projects]]
branch = "master"
@@ -466,6 +466,13 @@
pruneopts = "NUT"
revision = "ae2bd5eed72d46b28834ec3f60db3a3ebedd8dbd"
+[[projects]]
+ digest = "1:0f300196893c040e7a5c6025051a696c068392fe2f836f2a7e8ab35d0af9cafa"
+ name = "github.com/tendermint/btcd"
+ packages = ["btcec"]
+ pruneopts = "NUT"
+ revision = "e5840949ff4fff0c56f9b6a541e22b63581ea9df"
+
[[projects]]
branch = "master"
digest = "1:087aaa7920e5d0bf79586feb57ce01c35c830396ab4392798112e8aae8c47722"
@@ -479,12 +486,12 @@
revision = "d8387025d2b9d158cf4efb07e7ebf814bcce2057"
[[projects]]
- digest = "1:0fbb744c7842baaec7f5b2e0eb9814668bf34c4eb3c4fe6fc9ac856a937a5eff"
+ digest = "1:27a7f2bb9b1f91a843e3a16c30b6d2b4254025e78efe8a8e6ed65b6af69d48da"
name = "github.com/tendermint/go-amino"
packages = ["."]
pruneopts = "NUT"
- revision = "2106ca61d91029c931fd54968c2bb02dc96b1412"
- version = "0.10.1"
+ revision = "faa6e731944e2b7b6a46ad202902851e8ce85bee"
+ version = "v0.12.0"
[[projects]]
digest = "1:95454de4bf99bf62e6e3b59724a712e954e1c8d9956e0bc098699179ad1168c6"
@@ -495,7 +502,7 @@
version = "v0.11.0"
[[projects]]
- digest = "1:77fa9bc72848b93790fdad4f728f4ae36a905a51d6056dc72752889157fc37c0"
+ digest = "1:aea6b9055ca880c3f6de07b59e4ef34bc181206633b97c8abe33e9ec7a340a95"
name = "github.com/tendermint/tendermint"
packages = [
"abci/client",
@@ -510,6 +517,8 @@
"crypto/ed25519",
"crypto/encoding/amino",
"crypto/merkle",
+ "crypto/multisig",
+ "crypto/multisig/bitarray",
"crypto/secp256k1",
"crypto/tmhash",
"evidence",
@@ -541,31 +550,32 @@
"state/txindex/kv",
"state/txindex/null",
"types",
+ "types/time",
"version",
]
pruneopts = "UT"
- revision = "013b9cef642f875634c614019ab13b17570778ad"
- version = "v0.23.0"
+ revision = "d419fffe18531317c28c29a292ad7d253f6cafdf"
+ version = "v0.24.0"
[[projects]]
branch = "master"
- digest = "1:ac0a19060bcaafa2abdeebbc9a40cdca961039cd01e639a0b728fdb7b8d2200a"
+ digest = "1:8f326b9b29560f9e661f6f692a66b8b30db788bdb8550b3e5791ed3ee607e4d7"
name = "github.com/tmthrgd/asm"
packages = ["."]
pruneopts = "NUT"
- revision = "e7da50cc23089806f643a8a72d1e6e2b4daefe91"
+ revision = "409546f4138f9ab0bd9b5fe426f362daeff840ec"
[[projects]]
branch = "master"
- digest = "1:cca27d0506f054ec7cef0eb1e60dd770e60337b83f4534e6316921bd288c4340"
+ digest = "1:acef19f6a48ca48abc8c7213ebcdcccd98e644114ad644a4b91b9134fdbc3b41"
name = "github.com/tmthrgd/go-hex"
packages = ["."]
pruneopts = "NUT"
- revision = "a82aa03cedda71045967f5cc69c22cada26f4e6c"
+ revision = "d1fb3dbb16a1d00be1dec2027f83714c7bd920f1"
[[projects]]
branch = "master"
- digest = "1:fda2fde01556c582685ab0a5cf270ea0bd657f572fbdfc89b9acc31e1d48dc8a"
+ digest = "1:23cfdc365552dca2692bdf285caec6938ca6d53277b07567ea5809ab490b3d25"
name = "golang.org/x/crypto"
packages = [
"chacha20poly1305",
@@ -585,7 +595,7 @@
"ssh/terminal",
]
pruneopts = "NUT"
- revision = "de0752318171da717af4ce24d0a2e8626afaeb11"
+ revision = "0e37d006457bf46f9e6692014ba72ef82c33022c"
[[projects]]
digest = "1:2822b75330f8a787dca2f7d861788811676b2c50cea125851bbe32e9fd31624c"
@@ -605,7 +615,7 @@
[[projects]]
branch = "master"
- digest = "1:60bc8320b223dd61541ea3d359a4dc241817695c826d571e2da23ae79f5521b7"
+ digest = "1:6e97edb6741f69c0c8d779f1c4f61bf3bebb000145f0230b20caf0b5beedc70a"
name = "golang.org/x/sys"
packages = [
"cpu",
@@ -613,7 +623,7 @@
"windows",
]
pruneopts = "NUT"
- revision = "1c9583448a9c3aa0f9a6a5241bf73c0bd8aafded"
+ revision = "d641721ec2dead6fe5ca284096fe4b1fcd49e427"
[[projects]]
digest = "1:e7071ed636b5422cc51c0e3a6cebc229d6c9fffc528814b519a980641422d619"
@@ -640,11 +650,11 @@
[[projects]]
branch = "master"
- digest = "1:077c1c599507b3b3e9156d17d36e1e61928ee9b53a5b420f10f28ebd4a0b275c"
+ digest = "1:56b0bca90b7e5d1facf5fbdacba23e4e0ce069d25381b8e2f70ef1e7ebfb9c1a"
name = "google.golang.org/genproto"
packages = ["googleapis/rpc/status"]
pruneopts = "NUT"
- revision = "d0a8f471bba2dbb160885b0000d814ee5d559bad"
+ revision = "c3f76f3b92d1ffa4c58a9ff842a58b8877655e0f"
[[projects]]
digest = "1:d0e5846da58e4e20d1bbd7502b24f31d37e3ac1e02a9042d95bd93c2d0c139dd"
diff --git a/Gopkg.toml b/Gopkg.toml
index a31c4f7eeb5d5709c5447c029f611e0dd11e19fb..d5082ab4ac45112929dd0fa2ffb001e75c2a26e4 100644
--- a/Gopkg.toml
+++ b/Gopkg.toml
@@ -16,7 +16,11 @@
# overriding here because of IAVL
[[override]]
name = "github.com/tendermint/tendermint"
- version = "=0.23.0"
+ version = "=0.24.0"
+
+[[override]]
+ name = "github.com/tendermint/go-amino"
+ version = "^0.12.0-rc0"
[[constraint]]
name = "github.com/tendermint/iavl"
diff --git a/NOTES.md b/NOTES.md
index 433102bc2379b725805f6a663690a31edadb6ad8..f301cdf69ea9550cfb247b00918401d66b85ea01 100644
--- a/NOTES.md
+++ b/NOTES.md
@@ -1,13 +1,11 @@
### Changed
-- Upgraded to Tendermint 0.23.0
-- Validator Set Power now takes Address
-- RPC/TM config renamed to RPC/Info
-
-### Added
-- Burrow deploy creates devdoc
-- Docker image has org.label-schema labels
+- Upgraded to Tendermint 0.24.0
+- Upgraded to IAVL 0.11.0
### Fixed
-- Upgrade to IAVL 0.10.0 and load previous versions immutably on boot - for chains with a long history > 20 minute load times could be observed because every previous root was being loaded from DB rather than lightweight version references as was intended
-- Metrics server does not panic on empty block metas and recovers from other panics
+- Fixed non-determinism in Governance Tx
+- Fixed various abi issues
+## Added
+- burrow deploy displays revert reason when available
+- burrow deploy compiles contracts concurrently
diff --git a/acm/validator/ring.go b/acm/validator/ring.go
index 635caed51296c89c6873bba2b329347970488b67..73ff93d632434d71336ec537f09122b87fed2cc0 100644
--- a/acm/validator/ring.go
+++ b/acm/validator/ring.go
@@ -21,6 +21,8 @@ type Ring struct {
head int64
// Number of buckets
size int64
+ // Number of buckets populated
+ populated int64
}
var big1 = big.NewInt(1)
@@ -158,6 +160,9 @@ func (vc *Ring) Rotate() (totalPowerChange *big.Int, totalFlow *big.Int, err err
vc.flow = NewSet()
// Subtract the previous bucket total power so we can add on the current buckets power after this
totalPowerChange = new(big.Int).Sub(vc.Cum().TotalPower(), vc.cum[vc.index(-1)].TotalPower())
+ if vc.populated < vc.size {
+ vc.populated++
+ }
return
}
@@ -165,8 +170,11 @@ func (vc *Ring) CurrentSet() *Set {
return vc.cum[vc.head]
}
-func (vc *Ring) PreviousSet() *Set {
- return vc.cum[vc.index(-1)]
+func (vc *Ring) PreviousSet(delay int64) *Set {
+ if delay > vc.populated {
+ delay = vc.populated
+ }
+ return vc.cum[vc.index(-delay)]
}
func (vc *Ring) Cum() *Set {
diff --git a/bcm/blockchain.go b/bcm/blockchain.go
index 1a146d42da5290e8b03691c35a44ad9df979f851..3e48d88f6df5b8949e3875fa868c950e4de3c985 100644
--- a/bcm/blockchain.go
+++ b/bcm/blockchain.go
@@ -275,10 +275,10 @@ func (bc *Blockchain) CurrentValidators() *validator.Set {
return bc.validatorCache.CurrentSet()
}
-func (bc *Blockchain) PreviousValidators() *validator.Set {
+func (bc *Blockchain) PreviousValidators(delay int) *validator.Set {
bc.RLock()
defer bc.RUnlock()
- return bc.validatorCache.PreviousSet()
+ return bc.validatorCache.PreviousSet(int64(delay))
}
func (bc *Blockchain) NumValidators() int {
diff --git a/consensus/tendermint/abci/app.go b/consensus/tendermint/abci/app.go
index 9a4982f419b5b0841788f93fe92b342ac455df8c..8df560137dfa0c12a1e7084d7931680fe8fe8da8 100644
--- a/consensus/tendermint/abci/app.go
+++ b/consensus/tendermint/abci/app.go
@@ -94,7 +94,8 @@ func (app *App) InitChain(chain abciTypes.RequestInitChain) (respInitChain abciT
len(chain.Validators), app.blockchain.NumValidators()))
}
for _, v := range chain.Validators {
- err := app.checkValidatorMatches(app.blockchain.Validators(), v)
+ pk, err := crypto.PublicKeyFromABCIPubKey(v.GetPubKey())
+ err = app.checkValidatorMatches(app.blockchain.Validators(), abciTypes.Validator{Address: pk.Address().Bytes(), Power: v.Power})
if err != nil {
panic(err)
}
@@ -113,13 +114,13 @@ func (app *App) BeginBlock(block abciTypes.RequestBeginBlock) (respBeginBlock ab
if block.Header.Height > 1 {
var err error
// Tendermint runs a block behind with the validators passed in here
- previousValidators := app.blockchain.PreviousValidators()
- if len(block.LastCommitInfo.Validators) != previousValidators.Count() {
- err = fmt.Errorf("Tendermint passes %d validators to BeginBlock but Burrow's Blockchain has %d",
- len(block.LastCommitInfo.Validators), previousValidators.Count())
+ previousValidators := app.blockchain.PreviousValidators(2)
+ if len(block.LastCommitInfo.Votes) != previousValidators.Count() {
+ err = fmt.Errorf("Tendermint passes %d validators to BeginBlock but Burrow's Blockchain has %d/ %v",
+ len(block.LastCommitInfo.Votes), previousValidators.Count(), previousValidators.String())
panic(err)
}
- for _, v := range block.LastCommitInfo.Validators {
+ for _, v := range block.LastCommitInfo.Votes {
err = app.checkValidatorMatches(previousValidators, v.Validator)
if err != nil {
panic(err)
@@ -217,13 +218,12 @@ func txExecutor(name string, executor execution.BatchExecutor, txDecoder txs.Dec
}
func (app *App) EndBlock(reqEndBlock abciTypes.RequestEndBlock) abciTypes.ResponseEndBlock {
- var validatorUpdates abciTypes.Validators
+ var validatorUpdates []abciTypes.ValidatorUpdate
app.blockchain.PendingValidators().Iterate(func(id crypto.Addressable, power *big.Int) (stop bool) {
app.logger.InfoMsg("Updating validator power", "validator_address", id.Address(),
"new_power", power)
- validatorUpdates = append(validatorUpdates, abciTypes.Validator{
- Address: id.Address().Bytes(),
- PubKey: id.PublicKey().ABCIPubKey(),
+ validatorUpdates = append(validatorUpdates, abciTypes.ValidatorUpdate{
+ PubKey: id.PublicKey().ABCIPubKey(),
// Must ensure power fits in an int64 during execution
Power: power.Int64(),
})
diff --git a/consensus/tendermint/node_view.go b/consensus/tendermint/node_view.go
index 50b0b900fd96ee077020108bb7cfe44322038eef..8df94fc7f1852f8f5320594fc1f8b27b6c8b0168 100644
--- a/consensus/tendermint/node_view.go
+++ b/consensus/tendermint/node_view.go
@@ -68,7 +68,7 @@ func (nv *NodeView) RunID() simpleuuid.UUID {
// Pass -1 to get all available transactions
func (nv *NodeView) MempoolTransactions(maxTxs int) ([]*txs.Envelope, error) {
var transactions []*txs.Envelope
- for _, txBytes := range nv.tmNode.MempoolReactor().Mempool.Reap(maxTxs) {
+ for _, txBytes := range nv.tmNode.MempoolReactor().Mempool.ReapMaxTxs(maxTxs) {
txEnv, err := nv.txDecoder.DecodeTx(txBytes)
if err != nil {
return nil, err
diff --git a/consensus/tendermint/tendermint.go b/consensus/tendermint/tendermint.go
index 918d2eee1b78fc1895a84e19af321b09eeed70e4..bdd99b866a01de585d54cba267ea207da4a53b46 100644
--- a/consensus/tendermint/tendermint.go
+++ b/consensus/tendermint/tendermint.go
@@ -55,9 +55,14 @@ func NewNode(conf *config.Config, privValidator tmTypes.PrivValidator, genesisDo
return nil, err
}
+ nodeKey, err := p2p.LoadOrGenNodeKey(conf.NodeKeyFile())
+ if err != nil {
+ return nil, err
+ }
+
nde := &Node{}
nde.Node, err = node.NewNode(conf, privValidator,
- proxy.NewLocalClientCreator(app),
+ nodeKey, proxy.NewLocalClientCreator(app),
func() (*tmTypes.GenesisDoc, error) {
return genesisDoc, nil
},
@@ -81,12 +86,16 @@ func DeriveGenesisDoc(burrowGenesisDoc *genesis.GenesisDoc) *tmTypes.GenesisDoc
Power: int64(validator.Amount),
}
}
+ consensusParams := tmTypes.DefaultConsensusParams()
+ // Default limit is 10KiB. Raise his to 1MiB
+ consensusParams.TxSize.MaxBytes = 1024 * 1024
+
return &tmTypes.GenesisDoc{
ChainID: burrowGenesisDoc.ChainID(),
GenesisTime: burrowGenesisDoc.GenesisTime,
Validators: validators,
AppHash: burrowGenesisDoc.Hash(),
- ConsensusParams: tmTypes.DefaultConsensusParams(),
+ ConsensusParams: consensusParams,
}
}
diff --git a/execution/exec/block_execution.go b/execution/exec/block_execution.go
index 15b35d8b016181f51465495641d1be25ed0078be..febf4199dd69ab84a40137d8ebb61ee7c9481944 100644
--- a/execution/exec/block_execution.go
+++ b/execution/exec/block_execution.go
@@ -73,7 +73,7 @@ func BlockHeaderFromHeader(header *abciTypes.Header) *BlockHeader {
bs, _ := json.Marshal(header)
return &BlockHeader{
JSON: string(bs),
- NumTxs: header.NumTxs,
+ NumTxs: int32(header.NumTxs),
}
}
diff --git a/project/history.go b/project/history.go
index 0e9bce2f1289ec874a91fab5abcb0143c6913600..72a2a2ef3475ce5a4a480d991dcc61bfd1a9d018 100644
--- a/project/history.go
+++ b/project/history.go
@@ -29,7 +29,19 @@ func FullVersion() string {
// To cut a new release add a release to the front of this slice then run the
// release tagging script: ./scripts/tag_release.sh
var History relic.ImmutableHistory = relic.NewHistory("Hyperledger Burrow", "https://github.com/hyperledger/burrow").
- MustDeclareReleases("0.21.0 - 2018-08-21",
+ MustDeclareReleases("0.22.0 - 2018-09-21",
+ `### Changed
+- Upgraded to Tendermint 0.24.0
+- Upgraded to IAVL 0.11.0
+
+### Fixed
+- Fixed non-determinism in Governance Tx
+- Fixed various abi issues
+
+## Added
+- burrow deploy displays revert reason when available
+- burrow deploy compiles contracts concurrently`,
+ "0.21.0 - 2018-08-21",
`### Changed
- Upgraded to Tendermint 0.23.0
- Validator Set Power now takes Address
diff --git a/storage/cache_db.go b/storage/cache_db.go
index 7ed6dd3a760e5318eac4cf342ed1cf335079c740..be6031735aa6081c1530a9047b927cb0a5159ba4 100644
--- a/storage/cache_db.go
+++ b/storage/cache_db.go
@@ -1,8 +1,6 @@
package storage
import (
- "fmt"
-
dbm "github.com/tendermint/tendermint/libs/db"
)
@@ -42,7 +40,6 @@ func (cdb *CacheDB) Iterator(start, end []byte) KVIterator {
}
func (cdb *CacheDB) ReverseIterator(start, end []byte) KVIterator {
- fmt.Printf("ReverseIterator(%s, %s)\n", string(start), string(end))
return Uniq(NewMultiIterator(true, cdb.cache.ReverseIterator(start, end), cdb.backend.ReverseIterator(start, end)))
}
diff --git a/tests/scripts/deps/solc.sh b/tests/scripts/deps/solc.sh
index 44754eb82c2bf91580c26cbbb5f93400c11fc20d..14944389c080c2ecc409193c463b7b2d9cd01857 100755
--- a/tests/scripts/deps/solc.sh
+++ b/tests/scripts/deps/solc.sh
@@ -1,7 +1,7 @@
#!/usr/bin/env bash
set -e
# Static solc that will run on linux included Alpine
-SOLC_URL="https://github.com/ethereum/solidity/releases/download/v0.4.24/solc-static-linux"
+SOLC_URL="https://github.com/ethereum/solidity/releases/download/v0.4.25/solc-static-linux"
SOLC_BIN="$1"
wget -O "$SOLC_BIN" "$SOLC_URL"
diff --git a/vendor/github.com/davecgh/go-spew/LICENSE b/vendor/github.com/davecgh/go-spew/LICENSE
index c836416192da3691281691dfb0d16e177dfd068b..bc52e96f2b0ea97cc450e2fefbbb4cc430d1ac5a 100644
--- a/vendor/github.com/davecgh/go-spew/LICENSE
+++ b/vendor/github.com/davecgh/go-spew/LICENSE
@@ -2,7 +2,7 @@ ISC License
Copyright (c) 2012-2016 Dave Collins <dave@davec.name>
-Permission to use, copy, modify, and distribute this software for any
+Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
diff --git a/vendor/github.com/davecgh/go-spew/spew/bypass.go b/vendor/github.com/davecgh/go-spew/spew/bypass.go
index 8a4a6589a2d42ca8efa4a2dc8477f602d8dff328..792994785e36ca74c5545a0d93a2cdecda006678 100644
--- a/vendor/github.com/davecgh/go-spew/spew/bypass.go
+++ b/vendor/github.com/davecgh/go-spew/spew/bypass.go
@@ -16,7 +16,9 @@
// when the code is not running on Google App Engine, compiled by GopherJS, and
// "-tags safe" is not added to the go build command line. The "disableunsafe"
// tag is deprecated and thus should not be used.
-// +build !js,!appengine,!safe,!disableunsafe
+// Go versions prior to 1.4 are disabled because they use a different layout
+// for interfaces which make the implementation of unsafeReflectValue more complex.
+// +build !js,!appengine,!safe,!disableunsafe,go1.4
package spew
@@ -34,80 +36,49 @@ const (
ptrSize = unsafe.Sizeof((*byte)(nil))
)
+type flag uintptr
+
var (
- // offsetPtr, offsetScalar, and offsetFlag are the offsets for the
- // internal reflect.Value fields. These values are valid before golang
- // commit ecccf07e7f9d which changed the format. The are also valid
- // after commit 82f48826c6c7 which changed the format again to mirror
- // the original format. Code in the init function updates these offsets
- // as necessary.
- offsetPtr = uintptr(ptrSize)
- offsetScalar = uintptr(0)
- offsetFlag = uintptr(ptrSize * 2)
-
- // flagKindWidth and flagKindShift indicate various bits that the
- // reflect package uses internally to track kind information.
- //
- // flagRO indicates whether or not the value field of a reflect.Value is
- // read-only.
- //
- // flagIndir indicates whether the value field of a reflect.Value is
- // the actual data or a pointer to the data.
- //
- // These values are valid before golang commit 90a7c3c86944 which
- // changed their positions. Code in the init function updates these
- // flags as necessary.
- flagKindWidth = uintptr(5)
- flagKindShift = uintptr(flagKindWidth - 1)
- flagRO = uintptr(1 << 0)
- flagIndir = uintptr(1 << 1)
+ // flagRO indicates whether the value field of a reflect.Value
+ // is read-only.
+ flagRO flag
+
+ // flagAddr indicates whether the address of the reflect.Value's
+ // value may be taken.
+ flagAddr flag
)
-func init() {
- // Older versions of reflect.Value stored small integers directly in the
- // ptr field (which is named val in the older versions). Versions
- // between commits ecccf07e7f9d and 82f48826c6c7 added a new field named
- // scalar for this purpose which unfortunately came before the flag
- // field, so the offset of the flag field is different for those
- // versions.
- //
- // This code constructs a new reflect.Value from a known small integer
- // and checks if the size of the reflect.Value struct indicates it has
- // the scalar field. When it does, the offsets are updated accordingly.
- vv := reflect.ValueOf(0xf00)
- if unsafe.Sizeof(vv) == (ptrSize * 4) {
- offsetScalar = ptrSize * 2
- offsetFlag = ptrSize * 3
- }
+// flagKindMask holds the bits that make up the kind
+// part of the flags field. In all the supported versions,
+// it is in the lower 5 bits.
+const flagKindMask = flag(0x1f)
- // Commit 90a7c3c86944 changed the flag positions such that the low
- // order bits are the kind. This code extracts the kind from the flags
- // field and ensures it's the correct type. When it's not, the flag
- // order has been changed to the newer format, so the flags are updated
- // accordingly.
- upf := unsafe.Pointer(uintptr(unsafe.Pointer(&vv)) + offsetFlag)
- upfv := *(*uintptr)(upf)
- flagKindMask := uintptr((1<<flagKindWidth - 1) << flagKindShift)
- if (upfv&flagKindMask)>>flagKindShift != uintptr(reflect.Int) {
- flagKindShift = 0
- flagRO = 1 << 5
- flagIndir = 1 << 6
-
- // Commit adf9b30e5594 modified the flags to separate the
- // flagRO flag into two bits which specifies whether or not the
- // field is embedded. This causes flagIndir to move over a bit
- // and means that flagRO is the combination of either of the
- // original flagRO bit and the new bit.
- //
- // This code detects the change by extracting what used to be
- // the indirect bit to ensure it's set. When it's not, the flag
- // order has been changed to the newer format, so the flags are
- // updated accordingly.
- if upfv&flagIndir == 0 {
- flagRO = 3 << 5
- flagIndir = 1 << 7
- }
+// Different versions of Go have used different
+// bit layouts for the flags type. This table
+// records the known combinations.
+var okFlags = []struct {
+ ro, addr flag
+}{{
+ // From Go 1.4 to 1.5
+ ro: 1 << 5,
+ addr: 1 << 7,
+}, {
+ // Up to Go tip.
+ ro: 1<<5 | 1<<6,
+ addr: 1 << 8,
+}}
+
+var flagValOffset = func() uintptr {
+ field, ok := reflect.TypeOf(reflect.Value{}).FieldByName("flag")
+ if !ok {
+ panic("reflect.Value has no flag field")
}
+ return field.Offset
+}()
+
+// flagField returns a pointer to the flag field of a reflect.Value.
+func flagField(v *reflect.Value) *flag {
+ return (*flag)(unsafe.Pointer(uintptr(unsafe.Pointer(v)) + flagValOffset))
}
// unsafeReflectValue converts the passed reflect.Value into a one that bypasses
@@ -119,34 +90,56 @@ func init() {
// This allows us to check for implementations of the Stringer and error
// interfaces to be used for pretty printing ordinarily unaddressable and
// inaccessible values such as unexported struct fields.
-func unsafeReflectValue(v reflect.Value) (rv reflect.Value) {
- indirects := 1
- vt := v.Type()
- upv := unsafe.Pointer(uintptr(unsafe.Pointer(&v)) + offsetPtr)
- rvf := *(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&v)) + offsetFlag))
- if rvf&flagIndir != 0 {
- vt = reflect.PtrTo(v.Type())
- indirects++
- } else if offsetScalar != 0 {
- // The value is in the scalar field when it's not one of the
- // reference types.
- switch vt.Kind() {
- case reflect.Uintptr:
- case reflect.Chan:
- case reflect.Func:
- case reflect.Map:
- case reflect.Ptr:
- case reflect.UnsafePointer:
- default:
- upv = unsafe.Pointer(uintptr(unsafe.Pointer(&v)) +
- offsetScalar)
- }
+func unsafeReflectValue(v reflect.Value) reflect.Value {
+ if !v.IsValid() || (v.CanInterface() && v.CanAddr()) {
+ return v
}
+ flagFieldPtr := flagField(&v)
+ *flagFieldPtr &^= flagRO
+ *flagFieldPtr |= flagAddr
+ return v
+}
- pv := reflect.NewAt(vt, upv)
- rv = pv
- for i := 0; i < indirects; i++ {
- rv = rv.Elem()
+// Sanity checks against future reflect package changes
+// to the type or semantics of the Value.flag field.
+func init() {
+ field, ok := reflect.TypeOf(reflect.Value{}).FieldByName("flag")
+ if !ok {
+ panic("reflect.Value has no flag field")
+ }
+ if field.Type.Kind() != reflect.TypeOf(flag(0)).Kind() {
+ panic("reflect.Value flag field has changed kind")
+ }
+ type t0 int
+ var t struct {
+ A t0
+ // t0 will have flagEmbedRO set.
+ t0
+ // a will have flagStickyRO set
+ a t0
+ }
+ vA := reflect.ValueOf(t).FieldByName("A")
+ va := reflect.ValueOf(t).FieldByName("a")
+ vt0 := reflect.ValueOf(t).FieldByName("t0")
+
+ // Infer flagRO from the difference between the flags
+ // for the (otherwise identical) fields in t.
+ flagPublic := *flagField(&vA)
+ flagWithRO := *flagField(&va) | *flagField(&vt0)
+ flagRO = flagPublic ^ flagWithRO
+
+ // Infer flagAddr from the difference between a value
+ // taken from a pointer and not.
+ vPtrA := reflect.ValueOf(&t).Elem().FieldByName("A")
+ flagNoPtr := *flagField(&vA)
+ flagPtr := *flagField(&vPtrA)
+ flagAddr = flagNoPtr ^ flagPtr
+
+ // Check that the inferred flags tally with one of the known versions.
+ for _, f := range okFlags {
+ if flagRO == f.ro && flagAddr == f.addr {
+ return
+ }
}
- return rv
+ panic("reflect.Value read-only flag has changed semantics")
}
diff --git a/vendor/github.com/davecgh/go-spew/spew/bypasssafe.go b/vendor/github.com/davecgh/go-spew/spew/bypasssafe.go
index 1fe3cf3d5d10ef9e2d4145186c691ccce698195c..205c28d68c474e4497e6aa1ce8b9fdeb260f4586 100644
--- a/vendor/github.com/davecgh/go-spew/spew/bypasssafe.go
+++ b/vendor/github.com/davecgh/go-spew/spew/bypasssafe.go
@@ -16,7 +16,7 @@
// when the code is running on Google App Engine, compiled by GopherJS, or
// "-tags safe" is added to the go build command line. The "disableunsafe"
// tag is deprecated and thus should not be used.
-// +build js appengine safe disableunsafe
+// +build js appengine safe disableunsafe !go1.4
package spew
diff --git a/vendor/github.com/davecgh/go-spew/spew/common.go b/vendor/github.com/davecgh/go-spew/spew/common.go
index 7c519ff47ac3cb8f39fa775e031dd9c5f27db58b..1be8ce9457612e02a64c01b2321d087ebd6415f2 100644
--- a/vendor/github.com/davecgh/go-spew/spew/common.go
+++ b/vendor/github.com/davecgh/go-spew/spew/common.go
@@ -180,7 +180,7 @@ func printComplex(w io.Writer, c complex128, floatPrecision int) {
w.Write(closeParenBytes)
}
-// printHexPtr outputs a uintptr formatted as hexidecimal with a leading '0x'
+// printHexPtr outputs a uintptr formatted as hexadecimal with a leading '0x'
// prefix to Writer w.
func printHexPtr(w io.Writer, p uintptr) {
// Null pointer.
diff --git a/vendor/github.com/davecgh/go-spew/spew/dump.go b/vendor/github.com/davecgh/go-spew/spew/dump.go
index df1d582a728aec65edfe02b828f75d8a7def892b..f78d89fc1f6c454df58cd1e346817db6e30c4299 100644
--- a/vendor/github.com/davecgh/go-spew/spew/dump.go
+++ b/vendor/github.com/davecgh/go-spew/spew/dump.go
@@ -35,16 +35,16 @@ var (
// cCharRE is a regular expression that matches a cgo char.
// It is used to detect character arrays to hexdump them.
- cCharRE = regexp.MustCompile("^.*\\._Ctype_char$")
+ cCharRE = regexp.MustCompile(`^.*\._Ctype_char$`)
// cUnsignedCharRE is a regular expression that matches a cgo unsigned
// char. It is used to detect unsigned character arrays to hexdump
// them.
- cUnsignedCharRE = regexp.MustCompile("^.*\\._Ctype_unsignedchar$")
+ cUnsignedCharRE = regexp.MustCompile(`^.*\._Ctype_unsignedchar$`)
// cUint8tCharRE is a regular expression that matches a cgo uint8_t.
// It is used to detect uint8_t arrays to hexdump them.
- cUint8tCharRE = regexp.MustCompile("^.*\\._Ctype_uint8_t$")
+ cUint8tCharRE = regexp.MustCompile(`^.*\._Ctype_uint8_t$`)
)
// dumpState contains information about the state of a dump operation.
@@ -143,10 +143,10 @@ func (d *dumpState) dumpPtr(v reflect.Value) {
// Display dereferenced value.
d.w.Write(openParenBytes)
switch {
- case nilFound == true:
+ case nilFound:
d.w.Write(nilAngleBytes)
- case cycleFound == true:
+ case cycleFound:
d.w.Write(circularBytes)
default:
diff --git a/vendor/github.com/davecgh/go-spew/spew/format.go b/vendor/github.com/davecgh/go-spew/spew/format.go
index c49875bacbb88a2252d942c1ee9b84381305fa29..b04edb7d7ac278ae0b873a1335f37822a00bfd7c 100644
--- a/vendor/github.com/davecgh/go-spew/spew/format.go
+++ b/vendor/github.com/davecgh/go-spew/spew/format.go
@@ -182,10 +182,10 @@ func (f *formatState) formatPtr(v reflect.Value) {
// Display dereferenced value.
switch {
- case nilFound == true:
+ case nilFound:
f.fs.Write(nilAngleBytes)
- case cycleFound == true:
+ case cycleFound:
f.fs.Write(circularShortBytes)
default:
diff --git a/vendor/github.com/go-stack/stack/stack.go b/vendor/github.com/go-stack/stack/stack.go
index 1bc6971d88970076bce5ad369d28d5b9a1820941..ac3b93b14f48fea3c94d23045a19a613f4c0d6c6 100644
--- a/vendor/github.com/go-stack/stack/stack.go
+++ b/vendor/github.com/go-stack/stack/stack.go
@@ -81,7 +81,9 @@ var ErrNoFunc = errors.New("no call stack information")
//
// It accepts the '+' and '#' flags for most of the verbs as follows.
//
-// %+s path of source file relative to the compile time GOPATH
+// %+s path of source file relative to the compile time GOPATH,
+// or the module path joined to the path of source file relative
+// to module root
// %#s full path of source file
// %+n import path qualified function name
// %+k full package path
@@ -100,7 +102,7 @@ func (c Call) Format(s fmt.State, verb rune) {
case s.Flag('#'):
// done
case s.Flag('+'):
- file = file[pkgIndex(file, c.frame.Function):]
+ file = pkgFilePath(&c.frame)
default:
const sep = "/"
if i := strings.LastIndex(file, sep); i != -1 {
@@ -285,6 +287,80 @@ func pkgIndex(file, funcName string) int {
return i + len(sep)
}
+// pkgFilePath returns the frame's filepath relative to the compile-time GOPATH,
+// or its module path joined to its path relative to the module root.
+//
+// As of Go 1.11 there is no direct way to know the compile time GOPATH or
+// module paths at runtime, but we can piece together the desired information
+// from available information. We note that runtime.Frame.Function contains the
+// function name qualified by the package path, which includes the module path
+// but not the GOPATH. We can extract the package path from that and append the
+// last segments of the file path to arrive at the desired package qualified
+// file path. For example, given:
+//
+// GOPATH /home/user
+// import path pkg/sub
+// frame.File /home/user/src/pkg/sub/file.go
+// frame.Function pkg/sub.Type.Method
+// Desired return pkg/sub/file.go
+//
+// It appears that we simply need to trim ".Type.Method" from frame.Function and
+// append "/" + path.Base(file).
+//
+// But there are other wrinkles. Although it is idiomatic to do so, the internal
+// name of a package is not required to match the last segment of its import
+// path. In addition, the introduction of modules in Go 1.11 allows working
+// without a GOPATH. So we also must make these work right:
+//
+// GOPATH /home/user
+// import path pkg/go-sub
+// package name sub
+// frame.File /home/user/src/pkg/go-sub/file.go
+// frame.Function pkg/sub.Type.Method
+// Desired return pkg/go-sub/file.go
+//
+// Module path pkg/v2
+// import path pkg/v2/go-sub
+// package name sub
+// frame.File /home/user/cloned-pkg/go-sub/file.go
+// frame.Function pkg/v2/sub.Type.Method
+// Desired return pkg/v2/go-sub/file.go
+//
+// We can handle all of these situations by using the package path extracted
+// from frame.Function up to, but not including, the last segment as the prefix
+// and the last two segments of frame.File as the suffix of the returned path.
+// This preserves the existing behavior when working in a GOPATH without modules
+// and a semantically equivalent behavior when used in module aware project.
+func pkgFilePath(frame *runtime.Frame) string {
+ pre := pkgPrefix(frame.Function)
+ post := pathSuffix(frame.File)
+ if pre == "" {
+ return post
+ }
+ return pre + "/" + post
+}
+
+// pkgPrefix returns the import path of the function's package with the final
+// segment removed.
+func pkgPrefix(funcName string) string {
+ const pathSep = "/"
+ end := strings.LastIndex(funcName, pathSep)
+ if end == -1 {
+ return ""
+ }
+ return funcName[:end]
+}
+
+// pathSuffix returns the last two segments of path.
+func pathSuffix(path string) string {
+ const pathSep = "/"
+ lastSep := strings.LastIndex(path, pathSep)
+ if lastSep == -1 {
+ return path
+ }
+ return path[strings.LastIndex(path[:lastSep], pathSep)+1:]
+}
+
var runtimePath string
func init() {
diff --git a/vendor/github.com/prometheus/procfs/proc.go b/vendor/github.com/prometheus/procfs/proc.go
index 7cf5b8acf95657a854f493a907595cc86fec295b..06bed0ef4a3ad33b8cf6f928a7115398919a137f 100644
--- a/vendor/github.com/prometheus/procfs/proc.go
+++ b/vendor/github.com/prometheus/procfs/proc.go
@@ -156,6 +156,26 @@ func (p Proc) Executable() (string, error) {
return exe, err
}
+// Cwd returns the absolute path to the current working directory of the process.
+func (p Proc) Cwd() (string, error) {
+ wd, err := os.Readlink(p.path("cwd"))
+ if os.IsNotExist(err) {
+ return "", nil
+ }
+
+ return wd, err
+}
+
+// RootDir returns the absolute path to the process's root directory (as set by chroot)
+func (p Proc) RootDir() (string, error) {
+ rdir, err := os.Readlink(p.path("root"))
+ if os.IsNotExist(err) {
+ return "", nil
+ }
+
+ return rdir, err
+}
+
// FileDescriptors returns the currently open file descriptors of a process.
func (p Proc) FileDescriptors() ([]uintptr, error) {
names, err := p.fileDescriptors()
diff --git a/vendor/github.com/spf13/viper/viper.go b/vendor/github.com/spf13/viper/viper.go
index f657b201d12ea758398a52edbf539a4ec4597a90..051a3effbf3148a5f257cf4bcf66b27b0d196e7e 100644
--- a/vendor/github.com/spf13/viper/viper.go
+++ b/vendor/github.com/spf13/viper/viper.go
@@ -648,8 +648,10 @@ func (v *Viper) Get(key string) interface{} {
return cast.ToBool(val)
case string:
return cast.ToString(val)
- case int64, int32, int16, int8, int:
+ case int32, int16, int8, int:
return cast.ToInt(val)
+ case int64:
+ return cast.ToInt64(val)
case float64, float32:
return cast.ToFloat64(val)
case time.Time:
@@ -1139,7 +1141,7 @@ func (v *Viper) SetDefault(key string, value interface{}) {
deepestMap[lastKey] = value
}
-// Set sets the value for the key in the override regiser.
+// Set sets the value for the key in the override register.
// Set is case-insensitive for a key.
// Will be used instead of values obtained via
// flags, config file, ENV, default, or key/value store.
diff --git a/vendor/github.com/tendermint/btcd/LICENSE b/vendor/github.com/tendermint/btcd/LICENSE
new file mode 100644
index 0000000000000000000000000000000000000000..53ba0c5608dd00a8f89fe6a3090bae0fd8971480
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/LICENSE
@@ -0,0 +1,16 @@
+ISC License
+
+Copyright (c) 2013-2017 The btcsuite developers
+Copyright (c) 2015-2016 The Decred developers
+
+Permission to use, copy, modify, and distribute this software for any
+purpose with or without fee is hereby granted, provided that the above
+copyright notice and this permission notice appear in all copies.
+
+THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
+WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
+MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
+ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
+WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
+ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
+OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
diff --git a/vendor/github.com/tendermint/btcd/btcec/btcec.go b/vendor/github.com/tendermint/btcd/btcec/btcec.go
new file mode 100644
index 0000000000000000000000000000000000000000..5e7ce875fde7d426d556ca682acdc5d436c78bcf
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/btcec.go
@@ -0,0 +1,958 @@
+// Copyright 2010 The Go Authors. All rights reserved.
+// Copyright 2011 ThePiachu. All rights reserved.
+// Copyright 2013-2014 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+// References:
+// [SECG]: Recommended Elliptic Curve Domain Parameters
+// http://www.secg.org/sec2-v2.pdf
+//
+// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone)
+
+// This package operates, internally, on Jacobian coordinates. For a given
+// (x, y) position on the curve, the Jacobian coordinates are (x1, y1, z1)
+// where x = x1/z1² and y = y1/z1³. The greatest speedups come when the whole
+// calculation can be performed within the transform (as in ScalarMult and
+// ScalarBaseMult). But even for Add and Double, it's faster to apply and
+// reverse the transform than to operate in affine coordinates.
+
+import (
+ "crypto/elliptic"
+ "math/big"
+ "sync"
+)
+
+var (
+ // fieldOne is simply the integer 1 in field representation. It is
+ // used to avoid needing to create it multiple times during the internal
+ // arithmetic.
+ fieldOne = new(fieldVal).SetInt(1)
+)
+
+// KoblitzCurve supports a koblitz curve implementation that fits the ECC Curve
+// interface from crypto/elliptic.
+type KoblitzCurve struct {
+ *elliptic.CurveParams
+ q *big.Int
+ H int // cofactor of the curve.
+ halfOrder *big.Int // half the order N
+
+ // byteSize is simply the bit size / 8 and is provided for convenience
+ // since it is calculated repeatedly.
+ byteSize int
+
+ // bytePoints
+ bytePoints *[32][256][3]fieldVal
+
+ // The next 6 values are used specifically for endomorphism
+ // optimizations in ScalarMult.
+
+ // lambda must fulfill lambda^3 = 1 mod N where N is the order of G.
+ lambda *big.Int
+
+ // beta must fulfill beta^3 = 1 mod P where P is the prime field of the
+ // curve.
+ beta *fieldVal
+
+ // See the EndomorphismVectors in gensecp256k1.go to see how these are
+ // derived.
+ a1 *big.Int
+ b1 *big.Int
+ a2 *big.Int
+ b2 *big.Int
+}
+
+// Params returns the parameters for the curve.
+func (curve *KoblitzCurve) Params() *elliptic.CurveParams {
+ return curve.CurveParams
+}
+
+// bigAffineToField takes an affine point (x, y) as big integers and converts
+// it to an affine point as field values.
+func (curve *KoblitzCurve) bigAffineToField(x, y *big.Int) (*fieldVal, *fieldVal) {
+ x3, y3 := new(fieldVal), new(fieldVal)
+ x3.SetByteSlice(x.Bytes())
+ y3.SetByteSlice(y.Bytes())
+
+ return x3, y3
+}
+
+// fieldJacobianToBigAffine takes a Jacobian point (x, y, z) as field values and
+// converts it to an affine point as big integers.
+func (curve *KoblitzCurve) fieldJacobianToBigAffine(x, y, z *fieldVal) (*big.Int, *big.Int) {
+ // Inversions are expensive and both point addition and point doubling
+ // are faster when working with points that have a z value of one. So,
+ // if the point needs to be converted to affine, go ahead and normalize
+ // the point itself at the same time as the calculation is the same.
+ var zInv, tempZ fieldVal
+ zInv.Set(z).Inverse() // zInv = Z^-1
+ tempZ.SquareVal(&zInv) // tempZ = Z^-2
+ x.Mul(&tempZ) // X = X/Z^2 (mag: 1)
+ y.Mul(tempZ.Mul(&zInv)) // Y = Y/Z^3 (mag: 1)
+ z.SetInt(1) // Z = 1 (mag: 1)
+
+ // Normalize the x and y values.
+ x.Normalize()
+ y.Normalize()
+
+ // Convert the field values for the now affine point to big.Ints.
+ x3, y3 := new(big.Int), new(big.Int)
+ x3.SetBytes(x.Bytes()[:])
+ y3.SetBytes(y.Bytes()[:])
+ return x3, y3
+}
+
+// IsOnCurve returns boolean if the point (x,y) is on the curve.
+// Part of the elliptic.Curve interface. This function differs from the
+// crypto/elliptic algorithm since a = 0 not -3.
+func (curve *KoblitzCurve) IsOnCurve(x, y *big.Int) bool {
+ // Convert big ints to field values for faster arithmetic.
+ fx, fy := curve.bigAffineToField(x, y)
+
+ // Elliptic curve equation for secp256k1 is: y^2 = x^3 + 7
+ y2 := new(fieldVal).SquareVal(fy).Normalize()
+ result := new(fieldVal).SquareVal(fx).Mul(fx).AddInt(7).Normalize()
+ return y2.Equals(result)
+}
+
+// addZ1AndZ2EqualsOne adds two Jacobian points that are already known to have
+// z values of 1 and stores the result in (x3, y3, z3). That is to say
+// (x1, y1, 1) + (x2, y2, 1) = (x3, y3, z3). It performs faster addition than
+// the generic add routine since less arithmetic is needed due to the ability to
+// avoid the z value multiplications.
+func (curve *KoblitzCurve) addZ1AndZ2EqualsOne(x1, y1, z1, x2, y2, x3, y3, z3 *fieldVal) {
+ // To compute the point addition efficiently, this implementation splits
+ // the equation into intermediate elements which are used to minimize
+ // the number of field multiplications using the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-mmadd-2007-bl
+ //
+ // In particular it performs the calculations using the following:
+ // H = X2-X1, HH = H^2, I = 4*HH, J = H*I, r = 2*(Y2-Y1), V = X1*I
+ // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*Y1*J, Z3 = 2*H
+ //
+ // This results in a cost of 4 field multiplications, 2 field squarings,
+ // 6 field additions, and 5 integer multiplications.
+
+ // When the x coordinates are the same for two points on the curve, the
+ // y coordinates either must be the same, in which case it is point
+ // doubling, or they are opposite and the result is the point at
+ // infinity per the group law for elliptic curve cryptography.
+ x1.Normalize()
+ y1.Normalize()
+ x2.Normalize()
+ y2.Normalize()
+ if x1.Equals(x2) {
+ if y1.Equals(y2) {
+ // Since x1 == x2 and y1 == y2, point doubling must be
+ // done, otherwise the addition would end up dividing
+ // by zero.
+ curve.doubleJacobian(x1, y1, z1, x3, y3, z3)
+ return
+ }
+
+ // Since x1 == x2 and y1 == -y2, the sum is the point at
+ // infinity per the group law.
+ x3.SetInt(0)
+ y3.SetInt(0)
+ z3.SetInt(0)
+ return
+ }
+
+ // Calculate X3, Y3, and Z3 according to the intermediate elements
+ // breakdown above.
+ var h, i, j, r, v fieldVal
+ var negJ, neg2V, negX3 fieldVal
+ h.Set(x1).Negate(1).Add(x2) // H = X2-X1 (mag: 3)
+ i.SquareVal(&h).MulInt(4) // I = 4*H^2 (mag: 4)
+ j.Mul2(&h, &i) // J = H*I (mag: 1)
+ r.Set(y1).Negate(1).Add(y2).MulInt(2) // r = 2*(Y2-Y1) (mag: 6)
+ v.Mul2(x1, &i) // V = X1*I (mag: 1)
+ negJ.Set(&j).Negate(1) // negJ = -J (mag: 2)
+ neg2V.Set(&v).MulInt(2).Negate(2) // neg2V = -(2*V) (mag: 3)
+ x3.Set(&r).Square().Add(&negJ).Add(&neg2V) // X3 = r^2-J-2*V (mag: 6)
+ negX3.Set(x3).Negate(6) // negX3 = -X3 (mag: 7)
+ j.Mul(y1).MulInt(2).Negate(2) // J = -(2*Y1*J) (mag: 3)
+ y3.Set(&v).Add(&negX3).Mul(&r).Add(&j) // Y3 = r*(V-X3)-2*Y1*J (mag: 4)
+ z3.Set(&h).MulInt(2) // Z3 = 2*H (mag: 6)
+
+ // Normalize the resulting field values to a magnitude of 1 as needed.
+ x3.Normalize()
+ y3.Normalize()
+ z3.Normalize()
+}
+
+// addZ1EqualsZ2 adds two Jacobian points that are already known to have the
+// same z value and stores the result in (x3, y3, z3). That is to say
+// (x1, y1, z1) + (x2, y2, z1) = (x3, y3, z3). It performs faster addition than
+// the generic add routine since less arithmetic is needed due to the known
+// equivalence.
+func (curve *KoblitzCurve) addZ1EqualsZ2(x1, y1, z1, x2, y2, x3, y3, z3 *fieldVal) {
+ // To compute the point addition efficiently, this implementation splits
+ // the equation into intermediate elements which are used to minimize
+ // the number of field multiplications using a slightly modified version
+ // of the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-mmadd-2007-bl
+ //
+ // In particular it performs the calculations using the following:
+ // A = X2-X1, B = A^2, C=Y2-Y1, D = C^2, E = X1*B, F = X2*B
+ // X3 = D-E-F, Y3 = C*(E-X3)-Y1*(F-E), Z3 = Z1*A
+ //
+ // This results in a cost of 5 field multiplications, 2 field squarings,
+ // 9 field additions, and 0 integer multiplications.
+
+ // When the x coordinates are the same for two points on the curve, the
+ // y coordinates either must be the same, in which case it is point
+ // doubling, or they are opposite and the result is the point at
+ // infinity per the group law for elliptic curve cryptography.
+ x1.Normalize()
+ y1.Normalize()
+ x2.Normalize()
+ y2.Normalize()
+ if x1.Equals(x2) {
+ if y1.Equals(y2) {
+ // Since x1 == x2 and y1 == y2, point doubling must be
+ // done, otherwise the addition would end up dividing
+ // by zero.
+ curve.doubleJacobian(x1, y1, z1, x3, y3, z3)
+ return
+ }
+
+ // Since x1 == x2 and y1 == -y2, the sum is the point at
+ // infinity per the group law.
+ x3.SetInt(0)
+ y3.SetInt(0)
+ z3.SetInt(0)
+ return
+ }
+
+ // Calculate X3, Y3, and Z3 according to the intermediate elements
+ // breakdown above.
+ var a, b, c, d, e, f fieldVal
+ var negX1, negY1, negE, negX3 fieldVal
+ negX1.Set(x1).Negate(1) // negX1 = -X1 (mag: 2)
+ negY1.Set(y1).Negate(1) // negY1 = -Y1 (mag: 2)
+ a.Set(&negX1).Add(x2) // A = X2-X1 (mag: 3)
+ b.SquareVal(&a) // B = A^2 (mag: 1)
+ c.Set(&negY1).Add(y2) // C = Y2-Y1 (mag: 3)
+ d.SquareVal(&c) // D = C^2 (mag: 1)
+ e.Mul2(x1, &b) // E = X1*B (mag: 1)
+ negE.Set(&e).Negate(1) // negE = -E (mag: 2)
+ f.Mul2(x2, &b) // F = X2*B (mag: 1)
+ x3.Add2(&e, &f).Negate(3).Add(&d) // X3 = D-E-F (mag: 5)
+ negX3.Set(x3).Negate(5).Normalize() // negX3 = -X3 (mag: 1)
+ y3.Set(y1).Mul(f.Add(&negE)).Negate(3) // Y3 = -(Y1*(F-E)) (mag: 4)
+ y3.Add(e.Add(&negX3).Mul(&c)) // Y3 = C*(E-X3)+Y3 (mag: 5)
+ z3.Mul2(z1, &a) // Z3 = Z1*A (mag: 1)
+
+ // Normalize the resulting field values to a magnitude of 1 as needed.
+ x3.Normalize()
+ y3.Normalize()
+}
+
+// addZ2EqualsOne adds two Jacobian points when the second point is already
+// known to have a z value of 1 (and the z value for the first point is not 1)
+// and stores the result in (x3, y3, z3). That is to say (x1, y1, z1) +
+// (x2, y2, 1) = (x3, y3, z3). It performs faster addition than the generic
+// add routine since less arithmetic is needed due to the ability to avoid
+// multiplications by the second point's z value.
+func (curve *KoblitzCurve) addZ2EqualsOne(x1, y1, z1, x2, y2, x3, y3, z3 *fieldVal) {
+ // To compute the point addition efficiently, this implementation splits
+ // the equation into intermediate elements which are used to minimize
+ // the number of field multiplications using the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-madd-2007-bl
+ //
+ // In particular it performs the calculations using the following:
+ // Z1Z1 = Z1^2, U2 = X2*Z1Z1, S2 = Y2*Z1*Z1Z1, H = U2-X1, HH = H^2,
+ // I = 4*HH, J = H*I, r = 2*(S2-Y1), V = X1*I
+ // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*Y1*J, Z3 = (Z1+H)^2-Z1Z1-HH
+ //
+ // This results in a cost of 7 field multiplications, 4 field squarings,
+ // 9 field additions, and 4 integer multiplications.
+
+ // When the x coordinates are the same for two points on the curve, the
+ // y coordinates either must be the same, in which case it is point
+ // doubling, or they are opposite and the result is the point at
+ // infinity per the group law for elliptic curve cryptography. Since
+ // any number of Jacobian coordinates can represent the same affine
+ // point, the x and y values need to be converted to like terms. Due to
+ // the assumption made for this function that the second point has a z
+ // value of 1 (z2=1), the first point is already "converted".
+ var z1z1, u2, s2 fieldVal
+ x1.Normalize()
+ y1.Normalize()
+ z1z1.SquareVal(z1) // Z1Z1 = Z1^2 (mag: 1)
+ u2.Set(x2).Mul(&z1z1).Normalize() // U2 = X2*Z1Z1 (mag: 1)
+ s2.Set(y2).Mul(&z1z1).Mul(z1).Normalize() // S2 = Y2*Z1*Z1Z1 (mag: 1)
+ if x1.Equals(&u2) {
+ if y1.Equals(&s2) {
+ // Since x1 == x2 and y1 == y2, point doubling must be
+ // done, otherwise the addition would end up dividing
+ // by zero.
+ curve.doubleJacobian(x1, y1, z1, x3, y3, z3)
+ return
+ }
+
+ // Since x1 == x2 and y1 == -y2, the sum is the point at
+ // infinity per the group law.
+ x3.SetInt(0)
+ y3.SetInt(0)
+ z3.SetInt(0)
+ return
+ }
+
+ // Calculate X3, Y3, and Z3 according to the intermediate elements
+ // breakdown above.
+ var h, hh, i, j, r, rr, v fieldVal
+ var negX1, negY1, negX3 fieldVal
+ negX1.Set(x1).Negate(1) // negX1 = -X1 (mag: 2)
+ h.Add2(&u2, &negX1) // H = U2-X1 (mag: 3)
+ hh.SquareVal(&h) // HH = H^2 (mag: 1)
+ i.Set(&hh).MulInt(4) // I = 4 * HH (mag: 4)
+ j.Mul2(&h, &i) // J = H*I (mag: 1)
+ negY1.Set(y1).Negate(1) // negY1 = -Y1 (mag: 2)
+ r.Set(&s2).Add(&negY1).MulInt(2) // r = 2*(S2-Y1) (mag: 6)
+ rr.SquareVal(&r) // rr = r^2 (mag: 1)
+ v.Mul2(x1, &i) // V = X1*I (mag: 1)
+ x3.Set(&v).MulInt(2).Add(&j).Negate(3) // X3 = -(J+2*V) (mag: 4)
+ x3.Add(&rr) // X3 = r^2+X3 (mag: 5)
+ negX3.Set(x3).Negate(5) // negX3 = -X3 (mag: 6)
+ y3.Set(y1).Mul(&j).MulInt(2).Negate(2) // Y3 = -(2*Y1*J) (mag: 3)
+ y3.Add(v.Add(&negX3).Mul(&r)) // Y3 = r*(V-X3)+Y3 (mag: 4)
+ z3.Add2(z1, &h).Square() // Z3 = (Z1+H)^2 (mag: 1)
+ z3.Add(z1z1.Add(&hh).Negate(2)) // Z3 = Z3-(Z1Z1+HH) (mag: 4)
+
+ // Normalize the resulting field values to a magnitude of 1 as needed.
+ x3.Normalize()
+ y3.Normalize()
+ z3.Normalize()
+}
+
+// addGeneric adds two Jacobian points (x1, y1, z1) and (x2, y2, z2) without any
+// assumptions about the z values of the two points and stores the result in
+// (x3, y3, z3). That is to say (x1, y1, z1) + (x2, y2, z2) = (x3, y3, z3). It
+// is the slowest of the add routines due to requiring the most arithmetic.
+func (curve *KoblitzCurve) addGeneric(x1, y1, z1, x2, y2, z2, x3, y3, z3 *fieldVal) {
+ // To compute the point addition efficiently, this implementation splits
+ // the equation into intermediate elements which are used to minimize
+ // the number of field multiplications using the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#addition-add-2007-bl
+ //
+ // In particular it performs the calculations using the following:
+ // Z1Z1 = Z1^2, Z2Z2 = Z2^2, U1 = X1*Z2Z2, U2 = X2*Z1Z1, S1 = Y1*Z2*Z2Z2
+ // S2 = Y2*Z1*Z1Z1, H = U2-U1, I = (2*H)^2, J = H*I, r = 2*(S2-S1)
+ // V = U1*I
+ // X3 = r^2-J-2*V, Y3 = r*(V-X3)-2*S1*J, Z3 = ((Z1+Z2)^2-Z1Z1-Z2Z2)*H
+ //
+ // This results in a cost of 11 field multiplications, 5 field squarings,
+ // 9 field additions, and 4 integer multiplications.
+
+ // When the x coordinates are the same for two points on the curve, the
+ // y coordinates either must be the same, in which case it is point
+ // doubling, or they are opposite and the result is the point at
+ // infinity. Since any number of Jacobian coordinates can represent the
+ // same affine point, the x and y values need to be converted to like
+ // terms.
+ var z1z1, z2z2, u1, u2, s1, s2 fieldVal
+ z1z1.SquareVal(z1) // Z1Z1 = Z1^2 (mag: 1)
+ z2z2.SquareVal(z2) // Z2Z2 = Z2^2 (mag: 1)
+ u1.Set(x1).Mul(&z2z2).Normalize() // U1 = X1*Z2Z2 (mag: 1)
+ u2.Set(x2).Mul(&z1z1).Normalize() // U2 = X2*Z1Z1 (mag: 1)
+ s1.Set(y1).Mul(&z2z2).Mul(z2).Normalize() // S1 = Y1*Z2*Z2Z2 (mag: 1)
+ s2.Set(y2).Mul(&z1z1).Mul(z1).Normalize() // S2 = Y2*Z1*Z1Z1 (mag: 1)
+ if u1.Equals(&u2) {
+ if s1.Equals(&s2) {
+ // Since x1 == x2 and y1 == y2, point doubling must be
+ // done, otherwise the addition would end up dividing
+ // by zero.
+ curve.doubleJacobian(x1, y1, z1, x3, y3, z3)
+ return
+ }
+
+ // Since x1 == x2 and y1 == -y2, the sum is the point at
+ // infinity per the group law.
+ x3.SetInt(0)
+ y3.SetInt(0)
+ z3.SetInt(0)
+ return
+ }
+
+ // Calculate X3, Y3, and Z3 according to the intermediate elements
+ // breakdown above.
+ var h, i, j, r, rr, v fieldVal
+ var negU1, negS1, negX3 fieldVal
+ negU1.Set(&u1).Negate(1) // negU1 = -U1 (mag: 2)
+ h.Add2(&u2, &negU1) // H = U2-U1 (mag: 3)
+ i.Set(&h).MulInt(2).Square() // I = (2*H)^2 (mag: 2)
+ j.Mul2(&h, &i) // J = H*I (mag: 1)
+ negS1.Set(&s1).Negate(1) // negS1 = -S1 (mag: 2)
+ r.Set(&s2).Add(&negS1).MulInt(2) // r = 2*(S2-S1) (mag: 6)
+ rr.SquareVal(&r) // rr = r^2 (mag: 1)
+ v.Mul2(&u1, &i) // V = U1*I (mag: 1)
+ x3.Set(&v).MulInt(2).Add(&j).Negate(3) // X3 = -(J+2*V) (mag: 4)
+ x3.Add(&rr) // X3 = r^2+X3 (mag: 5)
+ negX3.Set(x3).Negate(5) // negX3 = -X3 (mag: 6)
+ y3.Mul2(&s1, &j).MulInt(2).Negate(2) // Y3 = -(2*S1*J) (mag: 3)
+ y3.Add(v.Add(&negX3).Mul(&r)) // Y3 = r*(V-X3)+Y3 (mag: 4)
+ z3.Add2(z1, z2).Square() // Z3 = (Z1+Z2)^2 (mag: 1)
+ z3.Add(z1z1.Add(&z2z2).Negate(2)) // Z3 = Z3-(Z1Z1+Z2Z2) (mag: 4)
+ z3.Mul(&h) // Z3 = Z3*H (mag: 1)
+
+ // Normalize the resulting field values to a magnitude of 1 as needed.
+ x3.Normalize()
+ y3.Normalize()
+}
+
+// addJacobian adds the passed Jacobian points (x1, y1, z1) and (x2, y2, z2)
+// together and stores the result in (x3, y3, z3).
+func (curve *KoblitzCurve) addJacobian(x1, y1, z1, x2, y2, z2, x3, y3, z3 *fieldVal) {
+ // A point at infinity is the identity according to the group law for
+ // elliptic curve cryptography. Thus, ∞ + P = P and P + ∞ = P.
+ if (x1.IsZero() && y1.IsZero()) || z1.IsZero() {
+ x3.Set(x2)
+ y3.Set(y2)
+ z3.Set(z2)
+ return
+ }
+ if (x2.IsZero() && y2.IsZero()) || z2.IsZero() {
+ x3.Set(x1)
+ y3.Set(y1)
+ z3.Set(z1)
+ return
+ }
+
+ // Faster point addition can be achieved when certain assumptions are
+ // met. For example, when both points have the same z value, arithmetic
+ // on the z values can be avoided. This section thus checks for these
+ // conditions and calls an appropriate add function which is accelerated
+ // by using those assumptions.
+ z1.Normalize()
+ z2.Normalize()
+ isZ1One := z1.Equals(fieldOne)
+ isZ2One := z2.Equals(fieldOne)
+ switch {
+ case isZ1One && isZ2One:
+ curve.addZ1AndZ2EqualsOne(x1, y1, z1, x2, y2, x3, y3, z3)
+ return
+ case z1.Equals(z2):
+ curve.addZ1EqualsZ2(x1, y1, z1, x2, y2, x3, y3, z3)
+ return
+ case isZ2One:
+ curve.addZ2EqualsOne(x1, y1, z1, x2, y2, x3, y3, z3)
+ return
+ }
+
+ // None of the above assumptions are true, so fall back to generic
+ // point addition.
+ curve.addGeneric(x1, y1, z1, x2, y2, z2, x3, y3, z3)
+}
+
+// Add returns the sum of (x1,y1) and (x2,y2). Part of the elliptic.Curve
+// interface.
+func (curve *KoblitzCurve) Add(x1, y1, x2, y2 *big.Int) (*big.Int, *big.Int) {
+ // A point at infinity is the identity according to the group law for
+ // elliptic curve cryptography. Thus, ∞ + P = P and P + ∞ = P.
+ if x1.Sign() == 0 && y1.Sign() == 0 {
+ return x2, y2
+ }
+ if x2.Sign() == 0 && y2.Sign() == 0 {
+ return x1, y1
+ }
+
+ // Convert the affine coordinates from big integers to field values
+ // and do the point addition in Jacobian projective space.
+ fx1, fy1 := curve.bigAffineToField(x1, y1)
+ fx2, fy2 := curve.bigAffineToField(x2, y2)
+ fx3, fy3, fz3 := new(fieldVal), new(fieldVal), new(fieldVal)
+ fOne := new(fieldVal).SetInt(1)
+ curve.addJacobian(fx1, fy1, fOne, fx2, fy2, fOne, fx3, fy3, fz3)
+
+ // Convert the Jacobian coordinate field values back to affine big
+ // integers.
+ return curve.fieldJacobianToBigAffine(fx3, fy3, fz3)
+}
+
+// doubleZ1EqualsOne performs point doubling on the passed Jacobian point
+// when the point is already known to have a z value of 1 and stores
+// the result in (x3, y3, z3). That is to say (x3, y3, z3) = 2*(x1, y1, 1). It
+// performs faster point doubling than the generic routine since less arithmetic
+// is needed due to the ability to avoid multiplication by the z value.
+func (curve *KoblitzCurve) doubleZ1EqualsOne(x1, y1, x3, y3, z3 *fieldVal) {
+ // This function uses the assumptions that z1 is 1, thus the point
+ // doubling formulas reduce to:
+ //
+ // X3 = (3*X1^2)^2 - 8*X1*Y1^2
+ // Y3 = (3*X1^2)*(4*X1*Y1^2 - X3) - 8*Y1^4
+ // Z3 = 2*Y1
+ //
+ // To compute the above efficiently, this implementation splits the
+ // equation into intermediate elements which are used to minimize the
+ // number of field multiplications in favor of field squarings which
+ // are roughly 35% faster than field multiplications with the current
+ // implementation at the time this was written.
+ //
+ // This uses a slightly modified version of the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-mdbl-2007-bl
+ //
+ // In particular it performs the calculations using the following:
+ // A = X1^2, B = Y1^2, C = B^2, D = 2*((X1+B)^2-A-C)
+ // E = 3*A, F = E^2, X3 = F-2*D, Y3 = E*(D-X3)-8*C
+ // Z3 = 2*Y1
+ //
+ // This results in a cost of 1 field multiplication, 5 field squarings,
+ // 6 field additions, and 5 integer multiplications.
+ var a, b, c, d, e, f fieldVal
+ z3.Set(y1).MulInt(2) // Z3 = 2*Y1 (mag: 2)
+ a.SquareVal(x1) // A = X1^2 (mag: 1)
+ b.SquareVal(y1) // B = Y1^2 (mag: 1)
+ c.SquareVal(&b) // C = B^2 (mag: 1)
+ b.Add(x1).Square() // B = (X1+B)^2 (mag: 1)
+ d.Set(&a).Add(&c).Negate(2) // D = -(A+C) (mag: 3)
+ d.Add(&b).MulInt(2) // D = 2*(B+D)(mag: 8)
+ e.Set(&a).MulInt(3) // E = 3*A (mag: 3)
+ f.SquareVal(&e) // F = E^2 (mag: 1)
+ x3.Set(&d).MulInt(2).Negate(16) // X3 = -(2*D) (mag: 17)
+ x3.Add(&f) // X3 = F+X3 (mag: 18)
+ f.Set(x3).Negate(18).Add(&d).Normalize() // F = D-X3 (mag: 1)
+ y3.Set(&c).MulInt(8).Negate(8) // Y3 = -(8*C) (mag: 9)
+ y3.Add(f.Mul(&e)) // Y3 = E*F+Y3 (mag: 10)
+
+ // Normalize the field values back to a magnitude of 1.
+ x3.Normalize()
+ y3.Normalize()
+ z3.Normalize()
+}
+
+// doubleGeneric performs point doubling on the passed Jacobian point without
+// any assumptions about the z value and stores the result in (x3, y3, z3).
+// That is to say (x3, y3, z3) = 2*(x1, y1, z1). It is the slowest of the point
+// doubling routines due to requiring the most arithmetic.
+func (curve *KoblitzCurve) doubleGeneric(x1, y1, z1, x3, y3, z3 *fieldVal) {
+ // Point doubling formula for Jacobian coordinates for the secp256k1
+ // curve:
+ // X3 = (3*X1^2)^2 - 8*X1*Y1^2
+ // Y3 = (3*X1^2)*(4*X1*Y1^2 - X3) - 8*Y1^4
+ // Z3 = 2*Y1*Z1
+ //
+ // To compute the above efficiently, this implementation splits the
+ // equation into intermediate elements which are used to minimize the
+ // number of field multiplications in favor of field squarings which
+ // are roughly 35% faster than field multiplications with the current
+ // implementation at the time this was written.
+ //
+ // This uses a slightly modified version of the method shown at:
+ // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-dbl-2009-l
+ //
+ // In particular it performs the calculations using the following:
+ // A = X1^2, B = Y1^2, C = B^2, D = 2*((X1+B)^2-A-C)
+ // E = 3*A, F = E^2, X3 = F-2*D, Y3 = E*(D-X3)-8*C
+ // Z3 = 2*Y1*Z1
+ //
+ // This results in a cost of 1 field multiplication, 5 field squarings,
+ // 6 field additions, and 5 integer multiplications.
+ var a, b, c, d, e, f fieldVal
+ z3.Mul2(y1, z1).MulInt(2) // Z3 = 2*Y1*Z1 (mag: 2)
+ a.SquareVal(x1) // A = X1^2 (mag: 1)
+ b.SquareVal(y1) // B = Y1^2 (mag: 1)
+ c.SquareVal(&b) // C = B^2 (mag: 1)
+ b.Add(x1).Square() // B = (X1+B)^2 (mag: 1)
+ d.Set(&a).Add(&c).Negate(2) // D = -(A+C) (mag: 3)
+ d.Add(&b).MulInt(2) // D = 2*(B+D)(mag: 8)
+ e.Set(&a).MulInt(3) // E = 3*A (mag: 3)
+ f.SquareVal(&e) // F = E^2 (mag: 1)
+ x3.Set(&d).MulInt(2).Negate(16) // X3 = -(2*D) (mag: 17)
+ x3.Add(&f) // X3 = F+X3 (mag: 18)
+ f.Set(x3).Negate(18).Add(&d).Normalize() // F = D-X3 (mag: 1)
+ y3.Set(&c).MulInt(8).Negate(8) // Y3 = -(8*C) (mag: 9)
+ y3.Add(f.Mul(&e)) // Y3 = E*F+Y3 (mag: 10)
+
+ // Normalize the field values back to a magnitude of 1.
+ x3.Normalize()
+ y3.Normalize()
+ z3.Normalize()
+}
+
+// doubleJacobian doubles the passed Jacobian point (x1, y1, z1) and stores the
+// result in (x3, y3, z3).
+func (curve *KoblitzCurve) doubleJacobian(x1, y1, z1, x3, y3, z3 *fieldVal) {
+ // Doubling a point at infinity is still infinity.
+ if y1.IsZero() || z1.IsZero() {
+ x3.SetInt(0)
+ y3.SetInt(0)
+ z3.SetInt(0)
+ return
+ }
+
+ // Slightly faster point doubling can be achieved when the z value is 1
+ // by avoiding the multiplication on the z value. This section calls
+ // a point doubling function which is accelerated by using that
+ // assumption when possible.
+ if z1.Normalize().Equals(fieldOne) {
+ curve.doubleZ1EqualsOne(x1, y1, x3, y3, z3)
+ return
+ }
+
+ // Fall back to generic point doubling which works with arbitrary z
+ // values.
+ curve.doubleGeneric(x1, y1, z1, x3, y3, z3)
+}
+
+// Double returns 2*(x1,y1). Part of the elliptic.Curve interface.
+func (curve *KoblitzCurve) Double(x1, y1 *big.Int) (*big.Int, *big.Int) {
+ if y1.Sign() == 0 {
+ return new(big.Int), new(big.Int)
+ }
+
+ // Convert the affine coordinates from big integers to field values
+ // and do the point doubling in Jacobian projective space.
+ fx1, fy1 := curve.bigAffineToField(x1, y1)
+ fx3, fy3, fz3 := new(fieldVal), new(fieldVal), new(fieldVal)
+ fOne := new(fieldVal).SetInt(1)
+ curve.doubleJacobian(fx1, fy1, fOne, fx3, fy3, fz3)
+
+ // Convert the Jacobian coordinate field values back to affine big
+ // integers.
+ return curve.fieldJacobianToBigAffine(fx3, fy3, fz3)
+}
+
+// splitK returns a balanced length-two representation of k and their signs.
+// This is algorithm 3.74 from [GECC].
+//
+// One thing of note about this algorithm is that no matter what c1 and c2 are,
+// the final equation of k = k1 + k2 * lambda (mod n) will hold. This is
+// provable mathematically due to how a1/b1/a2/b2 are computed.
+//
+// c1 and c2 are chosen to minimize the max(k1,k2).
+func (curve *KoblitzCurve) splitK(k []byte) ([]byte, []byte, int, int) {
+ // All math here is done with big.Int, which is slow.
+ // At some point, it might be useful to write something similar to
+ // fieldVal but for N instead of P as the prime field if this ends up
+ // being a bottleneck.
+ bigIntK := new(big.Int)
+ c1, c2 := new(big.Int), new(big.Int)
+ tmp1, tmp2 := new(big.Int), new(big.Int)
+ k1, k2 := new(big.Int), new(big.Int)
+
+ bigIntK.SetBytes(k)
+ // c1 = round(b2 * k / n) from step 4.
+ // Rounding isn't really necessary and costs too much, hence skipped
+ c1.Mul(curve.b2, bigIntK)
+ c1.Div(c1, curve.N)
+ // c2 = round(b1 * k / n) from step 4 (sign reversed to optimize one step)
+ // Rounding isn't really necessary and costs too much, hence skipped
+ c2.Mul(curve.b1, bigIntK)
+ c2.Div(c2, curve.N)
+ // k1 = k - c1 * a1 - c2 * a2 from step 5 (note c2's sign is reversed)
+ tmp1.Mul(c1, curve.a1)
+ tmp2.Mul(c2, curve.a2)
+ k1.Sub(bigIntK, tmp1)
+ k1.Add(k1, tmp2)
+ // k2 = - c1 * b1 - c2 * b2 from step 5 (note c2's sign is reversed)
+ tmp1.Mul(c1, curve.b1)
+ tmp2.Mul(c2, curve.b2)
+ k2.Sub(tmp2, tmp1)
+
+ // Note Bytes() throws out the sign of k1 and k2. This matters
+ // since k1 and/or k2 can be negative. Hence, we pass that
+ // back separately.
+ return k1.Bytes(), k2.Bytes(), k1.Sign(), k2.Sign()
+}
+
+// moduloReduce reduces k from more than 32 bytes to 32 bytes and under. This
+// is done by doing a simple modulo curve.N. We can do this since G^N = 1 and
+// thus any other valid point on the elliptic curve has the same order.
+func (curve *KoblitzCurve) moduloReduce(k []byte) []byte {
+ // Since the order of G is curve.N, we can use a much smaller number
+ // by doing modulo curve.N
+ if len(k) > curve.byteSize {
+ // Reduce k by performing modulo curve.N.
+ tmpK := new(big.Int).SetBytes(k)
+ tmpK.Mod(tmpK, curve.N)
+ return tmpK.Bytes()
+ }
+
+ return k
+}
+
+// NAF takes a positive integer k and returns the Non-Adjacent Form (NAF) as two
+// byte slices. The first is where 1s will be. The second is where -1s will
+// be. NAF is convenient in that on average, only 1/3rd of its values are
+// non-zero. This is algorithm 3.30 from [GECC].
+//
+// Essentially, this makes it possible to minimize the number of operations
+// since the resulting ints returned will be at least 50% 0s.
+func NAF(k []byte) ([]byte, []byte) {
+ // The essence of this algorithm is that whenever we have consecutive 1s
+ // in the binary, we want to put a -1 in the lowest bit and get a bunch
+ // of 0s up to the highest bit of consecutive 1s. This is due to this
+ // identity:
+ // 2^n + 2^(n-1) + 2^(n-2) + ... + 2^(n-k) = 2^(n+1) - 2^(n-k)
+ //
+ // The algorithm thus may need to go 1 more bit than the length of the
+ // bits we actually have, hence bits being 1 bit longer than was
+ // necessary. Since we need to know whether adding will cause a carry,
+ // we go from right-to-left in this addition.
+ var carry, curIsOne, nextIsOne bool
+ // these default to zero
+ retPos := make([]byte, len(k)+1)
+ retNeg := make([]byte, len(k)+1)
+ for i := len(k) - 1; i >= 0; i-- {
+ curByte := k[i]
+ for j := uint(0); j < 8; j++ {
+ curIsOne = curByte&1 == 1
+ if j == 7 {
+ if i == 0 {
+ nextIsOne = false
+ } else {
+ nextIsOne = k[i-1]&1 == 1
+ }
+ } else {
+ nextIsOne = curByte&2 == 2
+ }
+ if carry {
+ if curIsOne {
+ // This bit is 1, so continue to carry
+ // and don't need to do anything.
+ } else {
+ // We've hit a 0 after some number of
+ // 1s.
+ if nextIsOne {
+ // Start carrying again since
+ // a new sequence of 1s is
+ // starting.
+ retNeg[i+1] += 1 << j
+ } else {
+ // Stop carrying since 1s have
+ // stopped.
+ carry = false
+ retPos[i+1] += 1 << j
+ }
+ }
+ } else if curIsOne {
+ if nextIsOne {
+ // If this is the start of at least 2
+ // consecutive 1s, set the current one
+ // to -1 and start carrying.
+ retNeg[i+1] += 1 << j
+ carry = true
+ } else {
+ // This is a singleton, not consecutive
+ // 1s.
+ retPos[i+1] += 1 << j
+ }
+ }
+ curByte >>= 1
+ }
+ }
+ if carry {
+ retPos[0] = 1
+ return retPos, retNeg
+ }
+ return retPos[1:], retNeg[1:]
+}
+
+// ScalarMult returns k*(Bx, By) where k is a big endian integer.
+// Part of the elliptic.Curve interface.
+func (curve *KoblitzCurve) ScalarMult(Bx, By *big.Int, k []byte) (*big.Int, *big.Int) {
+ // Point Q = ∞ (point at infinity).
+ qx, qy, qz := new(fieldVal), new(fieldVal), new(fieldVal)
+
+ // Decompose K into k1 and k2 in order to halve the number of EC ops.
+ // See Algorithm 3.74 in [GECC].
+ k1, k2, signK1, signK2 := curve.splitK(curve.moduloReduce(k))
+
+ // The main equation here to remember is:
+ // k * P = k1 * P + k2 * Ï•(P)
+ //
+ // P1 below is P in the equation, P2 below is Ï•(P) in the equation
+ p1x, p1y := curve.bigAffineToField(Bx, By)
+ p1yNeg := new(fieldVal).NegateVal(p1y, 1)
+ p1z := new(fieldVal).SetInt(1)
+
+ // NOTE: ϕ(x,y) = (βx,y). The Jacobian z coordinate is 1, so this math
+ // goes through.
+ p2x := new(fieldVal).Mul2(p1x, curve.beta)
+ p2y := new(fieldVal).Set(p1y)
+ p2yNeg := new(fieldVal).NegateVal(p2y, 1)
+ p2z := new(fieldVal).SetInt(1)
+
+ // Flip the positive and negative values of the points as needed
+ // depending on the signs of k1 and k2. As mentioned in the equation
+ // above, each of k1 and k2 are multiplied by the respective point.
+ // Since -k * P is the same thing as k * -P, and the group law for
+ // elliptic curves states that P(x, y) = -P(x, -y), it's faster and
+ // simplifies the code to just make the point negative.
+ if signK1 == -1 {
+ p1y, p1yNeg = p1yNeg, p1y
+ }
+ if signK2 == -1 {
+ p2y, p2yNeg = p2yNeg, p2y
+ }
+
+ // NAF versions of k1 and k2 should have a lot more zeros.
+ //
+ // The Pos version of the bytes contain the +1s and the Neg versions
+ // contain the -1s.
+ k1PosNAF, k1NegNAF := NAF(k1)
+ k2PosNAF, k2NegNAF := NAF(k2)
+ k1Len := len(k1PosNAF)
+ k2Len := len(k2PosNAF)
+
+ m := k1Len
+ if m < k2Len {
+ m = k2Len
+ }
+
+ // Add left-to-right using the NAF optimization. See algorithm 3.77
+ // from [GECC]. This should be faster overall since there will be a lot
+ // more instances of 0, hence reducing the number of Jacobian additions
+ // at the cost of 1 possible extra doubling.
+ var k1BytePos, k1ByteNeg, k2BytePos, k2ByteNeg byte
+ for i := 0; i < m; i++ {
+ // Since we're going left-to-right, pad the front with 0s.
+ if i < m-k1Len {
+ k1BytePos = 0
+ k1ByteNeg = 0
+ } else {
+ k1BytePos = k1PosNAF[i-(m-k1Len)]
+ k1ByteNeg = k1NegNAF[i-(m-k1Len)]
+ }
+ if i < m-k2Len {
+ k2BytePos = 0
+ k2ByteNeg = 0
+ } else {
+ k2BytePos = k2PosNAF[i-(m-k2Len)]
+ k2ByteNeg = k2NegNAF[i-(m-k2Len)]
+ }
+
+ for j := 7; j >= 0; j-- {
+ // Q = 2 * Q
+ curve.doubleJacobian(qx, qy, qz, qx, qy, qz)
+
+ if k1BytePos&0x80 == 0x80 {
+ curve.addJacobian(qx, qy, qz, p1x, p1y, p1z,
+ qx, qy, qz)
+ } else if k1ByteNeg&0x80 == 0x80 {
+ curve.addJacobian(qx, qy, qz, p1x, p1yNeg, p1z,
+ qx, qy, qz)
+ }
+
+ if k2BytePos&0x80 == 0x80 {
+ curve.addJacobian(qx, qy, qz, p2x, p2y, p2z,
+ qx, qy, qz)
+ } else if k2ByteNeg&0x80 == 0x80 {
+ curve.addJacobian(qx, qy, qz, p2x, p2yNeg, p2z,
+ qx, qy, qz)
+ }
+ k1BytePos <<= 1
+ k1ByteNeg <<= 1
+ k2BytePos <<= 1
+ k2ByteNeg <<= 1
+ }
+ }
+
+ // Convert the Jacobian coordinate field values back to affine big.Ints.
+ return curve.fieldJacobianToBigAffine(qx, qy, qz)
+}
+
+// ScalarBaseMult returns k*G where G is the base point of the group and k is a
+// big endian integer.
+// Part of the elliptic.Curve interface.
+func (curve *KoblitzCurve) ScalarBaseMult(k []byte) (*big.Int, *big.Int) {
+ newK := curve.moduloReduce(k)
+ diff := len(curve.bytePoints) - len(newK)
+
+ // Point Q = ∞ (point at infinity).
+ qx, qy, qz := new(fieldVal), new(fieldVal), new(fieldVal)
+
+ // curve.bytePoints has all 256 byte points for each 8-bit window. The
+ // strategy is to add up the byte points. This is best understood by
+ // expressing k in base-256 which it already sort of is.
+ // Each "digit" in the 8-bit window can be looked up using bytePoints
+ // and added together.
+ for i, byteVal := range newK {
+ p := curve.bytePoints[diff+i][byteVal]
+ curve.addJacobian(qx, qy, qz, &p[0], &p[1], &p[2], qx, qy, qz)
+ }
+ return curve.fieldJacobianToBigAffine(qx, qy, qz)
+}
+
+// QPlus1Div4 returns the Q+1/4 constant for the curve for use in calculating
+// square roots via exponention.
+func (curve *KoblitzCurve) QPlus1Div4() *big.Int {
+ return curve.q
+}
+
+var initonce sync.Once
+var secp256k1 KoblitzCurve
+
+func initAll() {
+ initS256()
+}
+
+// fromHex converts the passed hex string into a big integer pointer and will
+// panic is there is an error. This is only provided for the hard-coded
+// constants so errors in the source code can bet detected. It will only (and
+// must only) be called for initialization purposes.
+func fromHex(s string) *big.Int {
+ r, ok := new(big.Int).SetString(s, 16)
+ if !ok {
+ panic("invalid hex in source file: " + s)
+ }
+ return r
+}
+
+func initS256() {
+ // Curve parameters taken from [SECG] section 2.4.1.
+ secp256k1.CurveParams = new(elliptic.CurveParams)
+ secp256k1.P = fromHex("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F")
+ secp256k1.N = fromHex("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141")
+ secp256k1.B = fromHex("0000000000000000000000000000000000000000000000000000000000000007")
+ secp256k1.Gx = fromHex("79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798")
+ secp256k1.Gy = fromHex("483ADA7726A3C4655DA4FBFC0E1108A8FD17B448A68554199C47D08FFB10D4B8")
+ secp256k1.BitSize = 256
+ secp256k1.q = new(big.Int).Div(new(big.Int).Add(secp256k1.P,
+ big.NewInt(1)), big.NewInt(4))
+ secp256k1.H = 1
+ secp256k1.halfOrder = new(big.Int).Rsh(secp256k1.N, 1)
+
+ // Provided for convenience since this gets computed repeatedly.
+ secp256k1.byteSize = secp256k1.BitSize / 8
+
+ // Deserialize and set the pre-computed table used to accelerate scalar
+ // base multiplication. This is hard-coded data, so any errors are
+ // panics because it means something is wrong in the source code.
+ if err := loadS256BytePoints(); err != nil {
+ panic(err)
+ }
+
+ // Next 6 constants are from Hal Finney's bitcointalk.org post:
+ // https://bitcointalk.org/index.php?topic=3238.msg45565#msg45565
+ // May he rest in peace.
+ //
+ // They have also been independently derived from the code in the
+ // EndomorphismVectors function in gensecp256k1.go.
+ secp256k1.lambda = fromHex("5363AD4CC05C30E0A5261C028812645A122E22EA20816678DF02967C1B23BD72")
+ secp256k1.beta = new(fieldVal).SetHex("7AE96A2B657C07106E64479EAC3434E99CF0497512F58995C1396C28719501EE")
+ secp256k1.a1 = fromHex("3086D221A7D46BCDE86C90E49284EB15")
+ secp256k1.b1 = fromHex("-E4437ED6010E88286F547FA90ABFE4C3")
+ secp256k1.a2 = fromHex("114CA50F7A8E2F3F657C1108D9D44CFD8")
+ secp256k1.b2 = fromHex("3086D221A7D46BCDE86C90E49284EB15")
+
+ // Alternatively, we can use the parameters below, however, they seem
+ // to be about 8% slower.
+ // secp256k1.lambda = fromHex("AC9C52B33FA3CF1F5AD9E3FD77ED9BA4A880B9FC8EC739C2E0CFC810B51283CE")
+ // secp256k1.beta = new(fieldVal).SetHex("851695D49A83F8EF919BB86153CBCB16630FB68AED0A766A3EC693D68E6AFA40")
+ // secp256k1.a1 = fromHex("E4437ED6010E88286F547FA90ABFE4C3")
+ // secp256k1.b1 = fromHex("-3086D221A7D46BCDE86C90E49284EB15")
+ // secp256k1.a2 = fromHex("3086D221A7D46BCDE86C90E49284EB15")
+ // secp256k1.b2 = fromHex("114CA50F7A8E2F3F657C1108D9D44CFD8")
+}
+
+// S256 returns a Curve which implements secp256k1.
+func S256() *KoblitzCurve {
+ initonce.Do(initAll)
+ return &secp256k1
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/ciphering.go b/vendor/github.com/tendermint/btcd/btcec/ciphering.go
new file mode 100644
index 0000000000000000000000000000000000000000..b18c9b7a306cf8627f8614f42181d2dce5b52480
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/ciphering.go
@@ -0,0 +1,216 @@
+// Copyright (c) 2015-2016 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+import (
+ "bytes"
+ "crypto/aes"
+ "crypto/cipher"
+ "crypto/hmac"
+ "crypto/rand"
+ "crypto/sha256"
+ "crypto/sha512"
+ "errors"
+ "io"
+)
+
+var (
+ // ErrInvalidMAC occurs when Message Authentication Check (MAC) fails
+ // during decryption. This happens because of either invalid private key or
+ // corrupt ciphertext.
+ ErrInvalidMAC = errors.New("invalid mac hash")
+
+ // errInputTooShort occurs when the input ciphertext to the Decrypt
+ // function is less than 134 bytes long.
+ errInputTooShort = errors.New("ciphertext too short")
+
+ // errUnsupportedCurve occurs when the first two bytes of the encrypted
+ // text aren't 0x02CA (= 712 = secp256k1, from OpenSSL).
+ errUnsupportedCurve = errors.New("unsupported curve")
+
+ errInvalidXLength = errors.New("invalid X length, must be 32")
+ errInvalidYLength = errors.New("invalid Y length, must be 32")
+ errInvalidPadding = errors.New("invalid PKCS#7 padding")
+
+ // 0x02CA = 714
+ ciphCurveBytes = [2]byte{0x02, 0xCA}
+ // 0x20 = 32
+ ciphCoordLength = [2]byte{0x00, 0x20}
+)
+
+// GenerateSharedSecret generates a shared secret based on a private key and a
+// public key using Diffie-Hellman key exchange (ECDH) (RFC 4753).
+// RFC5903 Section 9 states we should only return x.
+func GenerateSharedSecret(privkey *PrivateKey, pubkey *PublicKey) []byte {
+ x, _ := pubkey.Curve.ScalarMult(pubkey.X, pubkey.Y, privkey.D.Bytes())
+ return x.Bytes()
+}
+
+// Encrypt encrypts data for the target public key using AES-256-CBC. It also
+// generates a private key (the pubkey of which is also in the output). The only
+// supported curve is secp256k1. The `structure' that it encodes everything into
+// is:
+//
+// struct {
+// // Initialization Vector used for AES-256-CBC
+// IV [16]byte
+// // Public Key: curve(2) + len_of_pubkeyX(2) + pubkeyX +
+// // len_of_pubkeyY(2) + pubkeyY (curve = 714)
+// PublicKey [70]byte
+// // Cipher text
+// Data []byte
+// // HMAC-SHA-256 Message Authentication Code
+// HMAC [32]byte
+// }
+//
+// The primary aim is to ensure byte compatibility with Pyelliptic. Also, refer
+// to section 5.8.1 of ANSI X9.63 for rationale on this format.
+func Encrypt(pubkey *PublicKey, in []byte) ([]byte, error) {
+ ephemeral, err := NewPrivateKey(S256())
+ if err != nil {
+ return nil, err
+ }
+ ecdhKey := GenerateSharedSecret(ephemeral, pubkey)
+ derivedKey := sha512.Sum512(ecdhKey)
+ keyE := derivedKey[:32]
+ keyM := derivedKey[32:]
+
+ paddedIn := addPKCSPadding(in)
+ // IV + Curve params/X/Y + padded plaintext/ciphertext + HMAC-256
+ out := make([]byte, aes.BlockSize+70+len(paddedIn)+sha256.Size)
+ iv := out[:aes.BlockSize]
+ if _, err = io.ReadFull(rand.Reader, iv); err != nil {
+ return nil, err
+ }
+ // start writing public key
+ pb := ephemeral.PubKey().SerializeUncompressed()
+ offset := aes.BlockSize
+
+ // curve and X length
+ copy(out[offset:offset+4], append(ciphCurveBytes[:], ciphCoordLength[:]...))
+ offset += 4
+ // X
+ copy(out[offset:offset+32], pb[1:33])
+ offset += 32
+ // Y length
+ copy(out[offset:offset+2], ciphCoordLength[:])
+ offset += 2
+ // Y
+ copy(out[offset:offset+32], pb[33:])
+ offset += 32
+
+ // start encryption
+ block, err := aes.NewCipher(keyE)
+ if err != nil {
+ return nil, err
+ }
+ mode := cipher.NewCBCEncrypter(block, iv)
+ mode.CryptBlocks(out[offset:len(out)-sha256.Size], paddedIn)
+
+ // start HMAC-SHA-256
+ hm := hmac.New(sha256.New, keyM)
+ hm.Write(out[:len(out)-sha256.Size]) // everything is hashed
+ copy(out[len(out)-sha256.Size:], hm.Sum(nil)) // write checksum
+
+ return out, nil
+}
+
+// Decrypt decrypts data that was encrypted using the Encrypt function.
+func Decrypt(priv *PrivateKey, in []byte) ([]byte, error) {
+ // IV + Curve params/X/Y + 1 block + HMAC-256
+ if len(in) < aes.BlockSize+70+aes.BlockSize+sha256.Size {
+ return nil, errInputTooShort
+ }
+
+ // read iv
+ iv := in[:aes.BlockSize]
+ offset := aes.BlockSize
+
+ // start reading pubkey
+ if !bytes.Equal(in[offset:offset+2], ciphCurveBytes[:]) {
+ return nil, errUnsupportedCurve
+ }
+ offset += 2
+
+ if !bytes.Equal(in[offset:offset+2], ciphCoordLength[:]) {
+ return nil, errInvalidXLength
+ }
+ offset += 2
+
+ xBytes := in[offset : offset+32]
+ offset += 32
+
+ if !bytes.Equal(in[offset:offset+2], ciphCoordLength[:]) {
+ return nil, errInvalidYLength
+ }
+ offset += 2
+
+ yBytes := in[offset : offset+32]
+ offset += 32
+
+ pb := make([]byte, 65)
+ pb[0] = byte(0x04) // uncompressed
+ copy(pb[1:33], xBytes)
+ copy(pb[33:], yBytes)
+ // check if (X, Y) lies on the curve and create a Pubkey if it does
+ pubkey, err := ParsePubKey(pb, S256())
+ if err != nil {
+ return nil, err
+ }
+
+ // check for cipher text length
+ if (len(in)-aes.BlockSize-offset-sha256.Size)%aes.BlockSize != 0 {
+ return nil, errInvalidPadding // not padded to 16 bytes
+ }
+
+ // read hmac
+ messageMAC := in[len(in)-sha256.Size:]
+
+ // generate shared secret
+ ecdhKey := GenerateSharedSecret(priv, pubkey)
+ derivedKey := sha512.Sum512(ecdhKey)
+ keyE := derivedKey[:32]
+ keyM := derivedKey[32:]
+
+ // verify mac
+ hm := hmac.New(sha256.New, keyM)
+ hm.Write(in[:len(in)-sha256.Size]) // everything is hashed
+ expectedMAC := hm.Sum(nil)
+ if !hmac.Equal(messageMAC, expectedMAC) {
+ return nil, ErrInvalidMAC
+ }
+
+ // start decryption
+ block, err := aes.NewCipher(keyE)
+ if err != nil {
+ return nil, err
+ }
+ mode := cipher.NewCBCDecrypter(block, iv)
+ // same length as ciphertext
+ plaintext := make([]byte, len(in)-offset-sha256.Size)
+ mode.CryptBlocks(plaintext, in[offset:len(in)-sha256.Size])
+
+ return removePKCSPadding(plaintext)
+}
+
+// Implement PKCS#7 padding with block size of 16 (AES block size).
+
+// addPKCSPadding adds padding to a block of data
+func addPKCSPadding(src []byte) []byte {
+ padding := aes.BlockSize - len(src)%aes.BlockSize
+ padtext := bytes.Repeat([]byte{byte(padding)}, padding)
+ return append(src, padtext...)
+}
+
+// removePKCSPadding removes padding from data that was added with addPKCSPadding
+func removePKCSPadding(src []byte) ([]byte, error) {
+ length := len(src)
+ padLength := int(src[length-1])
+ if padLength > aes.BlockSize || length < aes.BlockSize {
+ return nil, errInvalidPadding
+ }
+
+ return src[:length-padLength], nil
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/doc.go b/vendor/github.com/tendermint/btcd/btcec/doc.go
new file mode 100644
index 0000000000000000000000000000000000000000..fa8346ab0f917f935af034733bc0f726c2aa19f1
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/doc.go
@@ -0,0 +1,21 @@
+// Copyright (c) 2013-2014 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+/*
+Package btcec implements support for the elliptic curves needed for bitcoin.
+
+Bitcoin uses elliptic curve cryptography using koblitz curves
+(specifically secp256k1) for cryptographic functions. See
+http://www.secg.org/collateral/sec2_final.pdf for details on the
+standard.
+
+This package provides the data structures and functions implementing the
+crypto/elliptic Curve interface in order to permit using these curves
+with the standard crypto/ecdsa package provided with go. Helper
+functionality is provided to parse signatures and public keys from
+standard formats. It was designed for use with btcd, but should be
+general enough for other uses of elliptic curve crypto. It was originally based
+on some initial work by ThePiachu, but has significantly diverged since then.
+*/
+package btcec
diff --git a/vendor/github.com/tendermint/btcd/btcec/field.go b/vendor/github.com/tendermint/btcd/btcec/field.go
new file mode 100644
index 0000000000000000000000000000000000000000..0f2be74c0c2c89d7c9c6e97b8b78b84d1537644a
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/field.go
@@ -0,0 +1,1223 @@
+// Copyright (c) 2013-2016 The btcsuite developers
+// Copyright (c) 2013-2016 Dave Collins
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+// References:
+// [HAC]: Handbook of Applied Cryptography Menezes, van Oorschot, Vanstone.
+// http://cacr.uwaterloo.ca/hac/
+
+// All elliptic curve operations for secp256k1 are done in a finite field
+// characterized by a 256-bit prime. Given this precision is larger than the
+// biggest available native type, obviously some form of bignum math is needed.
+// This package implements specialized fixed-precision field arithmetic rather
+// than relying on an arbitrary-precision arithmetic package such as math/big
+// for dealing with the field math since the size is known. As a result, rather
+// large performance gains are achieved by taking advantage of many
+// optimizations not available to arbitrary-precision arithmetic and generic
+// modular arithmetic algorithms.
+//
+// There are various ways to internally represent each finite field element.
+// For example, the most obvious representation would be to use an array of 4
+// uint64s (64 bits * 4 = 256 bits). However, that representation suffers from
+// a couple of issues. First, there is no native Go type large enough to handle
+// the intermediate results while adding or multiplying two 64-bit numbers, and
+// second there is no space left for overflows when performing the intermediate
+// arithmetic between each array element which would lead to expensive carry
+// propagation.
+//
+// Given the above, this implementation represents the the field elements as
+// 10 uint32s with each word (array entry) treated as base 2^26. This was
+// chosen for the following reasons:
+// 1) Most systems at the current time are 64-bit (or at least have 64-bit
+// registers available for specialized purposes such as MMX) so the
+// intermediate results can typically be done using a native register (and
+// using uint64s to avoid the need for additional half-word arithmetic)
+// 2) In order to allow addition of the internal words without having to
+// propagate the the carry, the max normalized value for each register must
+// be less than the number of bits available in the register
+// 3) Since we're dealing with 32-bit values, 64-bits of overflow is a
+// reasonable choice for #2
+// 4) Given the need for 256-bits of precision and the properties stated in #1,
+// #2, and #3, the representation which best accommodates this is 10 uint32s
+// with base 2^26 (26 bits * 10 = 260 bits, so the final word only needs 22
+// bits) which leaves the desired 64 bits (32 * 10 = 320, 320 - 256 = 64) for
+// overflow
+//
+// Since it is so important that the field arithmetic is extremely fast for
+// high performance crypto, this package does not perform any validation where
+// it ordinarily would. For example, some functions only give the correct
+// result is the field is normalized and there is no checking to ensure it is.
+// While I typically prefer to ensure all state and input is valid for most
+// packages, this code is really only used internally and every extra check
+// counts.
+
+import (
+ "encoding/hex"
+)
+
+// Constants used to make the code more readable.
+const (
+ twoBitsMask = 0x3
+ fourBitsMask = 0xf
+ sixBitsMask = 0x3f
+ eightBitsMask = 0xff
+)
+
+// Constants related to the field representation.
+const (
+ // fieldWords is the number of words used to internally represent the
+ // 256-bit value.
+ fieldWords = 10
+
+ // fieldBase is the exponent used to form the numeric base of each word.
+ // 2^(fieldBase*i) where i is the word position.
+ fieldBase = 26
+
+ // fieldOverflowBits is the minimum number of "overflow" bits for each
+ // word in the field value.
+ fieldOverflowBits = 32 - fieldBase
+
+ // fieldBaseMask is the mask for the bits in each word needed to
+ // represent the numeric base of each word (except the most significant
+ // word).
+ fieldBaseMask = (1 << fieldBase) - 1
+
+ // fieldMSBBits is the number of bits in the most significant word used
+ // to represent the value.
+ fieldMSBBits = 256 - (fieldBase * (fieldWords - 1))
+
+ // fieldMSBMask is the mask for the bits in the most significant word
+ // needed to represent the value.
+ fieldMSBMask = (1 << fieldMSBBits) - 1
+
+ // fieldPrimeWordZero is word zero of the secp256k1 prime in the
+ // internal field representation. It is used during negation.
+ fieldPrimeWordZero = 0x3fffc2f
+
+ // fieldPrimeWordOne is word one of the secp256k1 prime in the
+ // internal field representation. It is used during negation.
+ fieldPrimeWordOne = 0x3ffffbf
+)
+
+// fieldVal implements optimized fixed-precision arithmetic over the
+// secp256k1 finite field. This means all arithmetic is performed modulo
+// 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f. It
+// represents each 256-bit value as 10 32-bit integers in base 2^26. This
+// provides 6 bits of overflow in each word (10 bits in the most significant
+// word) for a total of 64 bits of overflow (9*6 + 10 = 64). It only implements
+// the arithmetic needed for elliptic curve operations.
+//
+// The following depicts the internal representation:
+// -----------------------------------------------------------------
+// | n[9] | n[8] | ... | n[0] |
+// | 32 bits available | 32 bits available | ... | 32 bits available |
+// | 22 bits for value | 26 bits for value | ... | 26 bits for value |
+// | 10 bits overflow | 6 bits overflow | ... | 6 bits overflow |
+// | Mult: 2^(26*9) | Mult: 2^(26*8) | ... | Mult: 2^(26*0) |
+// -----------------------------------------------------------------
+//
+// For example, consider the number 2^49 + 1. It would be represented as:
+// n[0] = 1
+// n[1] = 2^23
+// n[2..9] = 0
+//
+// The full 256-bit value is then calculated by looping i from 9..0 and
+// doing sum(n[i] * 2^(26i)) like so:
+// n[9] * 2^(26*9) = 0 * 2^234 = 0
+// n[8] * 2^(26*8) = 0 * 2^208 = 0
+// ...
+// n[1] * 2^(26*1) = 2^23 * 2^26 = 2^49
+// n[0] * 2^(26*0) = 1 * 2^0 = 1
+// Sum: 0 + 0 + ... + 2^49 + 1 = 2^49 + 1
+type fieldVal struct {
+ n [10]uint32
+}
+
+// String returns the field value as a human-readable hex string.
+func (f fieldVal) String() string {
+ t := new(fieldVal).Set(&f).Normalize()
+ return hex.EncodeToString(t.Bytes()[:])
+}
+
+// Zero sets the field value to zero. A newly created field value is already
+// set to zero. This function can be useful to clear an existing field value
+// for reuse.
+func (f *fieldVal) Zero() {
+ f.n[0] = 0
+ f.n[1] = 0
+ f.n[2] = 0
+ f.n[3] = 0
+ f.n[4] = 0
+ f.n[5] = 0
+ f.n[6] = 0
+ f.n[7] = 0
+ f.n[8] = 0
+ f.n[9] = 0
+}
+
+// Set sets the field value equal to the passed value.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f := new(fieldVal).Set(f2).Add(1) so that f = f2 + 1 where f2 is not
+// modified.
+func (f *fieldVal) Set(val *fieldVal) *fieldVal {
+ *f = *val
+ return f
+}
+
+// SetInt sets the field value to the passed integer. This is a convenience
+// function since it is fairly common to perform some arithemetic with small
+// native integers.
+//
+// The field value is returned to support chaining. This enables syntax such
+// as f := new(fieldVal).SetInt(2).Mul(f2) so that f = 2 * f2.
+func (f *fieldVal) SetInt(ui uint) *fieldVal {
+ f.Zero()
+ f.n[0] = uint32(ui)
+ return f
+}
+
+// SetBytes packs the passed 32-byte big-endian value into the internal field
+// value representation.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f := new(fieldVal).SetBytes(byteArray).Mul(f2) so that f = ba * f2.
+func (f *fieldVal) SetBytes(b *[32]byte) *fieldVal {
+ // Pack the 256 total bits across the 10 uint32 words with a max of
+ // 26-bits per word. This could be done with a couple of for loops,
+ // but this unrolled version is significantly faster. Benchmarks show
+ // this is about 34 times faster than the variant which uses loops.
+ f.n[0] = uint32(b[31]) | uint32(b[30])<<8 | uint32(b[29])<<16 |
+ (uint32(b[28])&twoBitsMask)<<24
+ f.n[1] = uint32(b[28])>>2 | uint32(b[27])<<6 | uint32(b[26])<<14 |
+ (uint32(b[25])&fourBitsMask)<<22
+ f.n[2] = uint32(b[25])>>4 | uint32(b[24])<<4 | uint32(b[23])<<12 |
+ (uint32(b[22])&sixBitsMask)<<20
+ f.n[3] = uint32(b[22])>>6 | uint32(b[21])<<2 | uint32(b[20])<<10 |
+ uint32(b[19])<<18
+ f.n[4] = uint32(b[18]) | uint32(b[17])<<8 | uint32(b[16])<<16 |
+ (uint32(b[15])&twoBitsMask)<<24
+ f.n[5] = uint32(b[15])>>2 | uint32(b[14])<<6 | uint32(b[13])<<14 |
+ (uint32(b[12])&fourBitsMask)<<22
+ f.n[6] = uint32(b[12])>>4 | uint32(b[11])<<4 | uint32(b[10])<<12 |
+ (uint32(b[9])&sixBitsMask)<<20
+ f.n[7] = uint32(b[9])>>6 | uint32(b[8])<<2 | uint32(b[7])<<10 |
+ uint32(b[6])<<18
+ f.n[8] = uint32(b[5]) | uint32(b[4])<<8 | uint32(b[3])<<16 |
+ (uint32(b[2])&twoBitsMask)<<24
+ f.n[9] = uint32(b[2])>>2 | uint32(b[1])<<6 | uint32(b[0])<<14
+ return f
+}
+
+// SetByteSlice packs the passed big-endian value into the internal field value
+// representation. Only the first 32-bytes are used. As a result, it is up to
+// the caller to ensure numbers of the appropriate size are used or the value
+// will be truncated.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f := new(fieldVal).SetByteSlice(byteSlice)
+func (f *fieldVal) SetByteSlice(b []byte) *fieldVal {
+ var b32 [32]byte
+ for i := 0; i < len(b); i++ {
+ if i < 32 {
+ b32[i+(32-len(b))] = b[i]
+ }
+ }
+ return f.SetBytes(&b32)
+}
+
+// SetHex decodes the passed big-endian hex string into the internal field value
+// representation. Only the first 32-bytes are used.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f := new(fieldVal).SetHex("0abc").Add(1) so that f = 0x0abc + 1
+func (f *fieldVal) SetHex(hexString string) *fieldVal {
+ if len(hexString)%2 != 0 {
+ hexString = "0" + hexString
+ }
+ bytes, _ := hex.DecodeString(hexString)
+ return f.SetByteSlice(bytes)
+}
+
+// Normalize normalizes the internal field words into the desired range and
+// performs fast modular reduction over the secp256k1 prime by making use of the
+// special form of the prime.
+func (f *fieldVal) Normalize() *fieldVal {
+ // The field representation leaves 6 bits of overflow in each word so
+ // intermediate calculations can be performed without needing to
+ // propagate the carry to each higher word during the calculations. In
+ // order to normalize, we need to "compact" the full 256-bit value to
+ // the right while propagating any carries through to the high order
+ // word.
+ //
+ // Since this field is doing arithmetic modulo the secp256k1 prime, we
+ // also need to perform modular reduction over the prime.
+ //
+ // Per [HAC] section 14.3.4: Reduction method of moduli of special form,
+ // when the modulus is of the special form m = b^t - c, highly efficient
+ // reduction can be achieved.
+ //
+ // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits
+ // this criteria.
+ //
+ // 4294968273 in field representation (base 2^26) is:
+ // n[0] = 977
+ // n[1] = 64
+ // That is to say (2^26 * 64) + 977 = 4294968273
+ //
+ // The algorithm presented in the referenced section typically repeats
+ // until the quotient is zero. However, due to our field representation
+ // we already know to within one reduction how many times we would need
+ // to repeat as it's the uppermost bits of the high order word. Thus we
+ // can simply multiply the magnitude by the field representation of the
+ // prime and do a single iteration. After this step there might be an
+ // additional carry to bit 256 (bit 22 of the high order word).
+ t9 := f.n[9]
+ m := t9 >> fieldMSBBits
+ t9 = t9 & fieldMSBMask
+ t0 := f.n[0] + m*977
+ t1 := (t0 >> fieldBase) + f.n[1] + (m << 6)
+ t0 = t0 & fieldBaseMask
+ t2 := (t1 >> fieldBase) + f.n[2]
+ t1 = t1 & fieldBaseMask
+ t3 := (t2 >> fieldBase) + f.n[3]
+ t2 = t2 & fieldBaseMask
+ t4 := (t3 >> fieldBase) + f.n[4]
+ t3 = t3 & fieldBaseMask
+ t5 := (t4 >> fieldBase) + f.n[5]
+ t4 = t4 & fieldBaseMask
+ t6 := (t5 >> fieldBase) + f.n[6]
+ t5 = t5 & fieldBaseMask
+ t7 := (t6 >> fieldBase) + f.n[7]
+ t6 = t6 & fieldBaseMask
+ t8 := (t7 >> fieldBase) + f.n[8]
+ t7 = t7 & fieldBaseMask
+ t9 = (t8 >> fieldBase) + t9
+ t8 = t8 & fieldBaseMask
+
+ // At this point, the magnitude is guaranteed to be one, however, the
+ // value could still be greater than the prime if there was either a
+ // carry through to bit 256 (bit 22 of the higher order word) or the
+ // value is greater than or equal to the field characteristic. The
+ // following determines if either or these conditions are true and does
+ // the final reduction in constant time.
+ //
+ // Note that the if/else statements here intentionally do the bitwise
+ // operators even when it won't change the value to ensure constant time
+ // between the branches. Also note that 'm' will be zero when neither
+ // of the aforementioned conditions are true and the value will not be
+ // changed when 'm' is zero.
+ m = 1
+ if t9 == fieldMSBMask {
+ m &= 1
+ } else {
+ m &= 0
+ }
+ if t2&t3&t4&t5&t6&t7&t8 == fieldBaseMask {
+ m &= 1
+ } else {
+ m &= 0
+ }
+ if ((t0+977)>>fieldBase + t1 + 64) > fieldBaseMask {
+ m &= 1
+ } else {
+ m &= 0
+ }
+ if t9>>fieldMSBBits != 0 {
+ m |= 1
+ } else {
+ m |= 0
+ }
+ t0 = t0 + m*977
+ t1 = (t0 >> fieldBase) + t1 + (m << 6)
+ t0 = t0 & fieldBaseMask
+ t2 = (t1 >> fieldBase) + t2
+ t1 = t1 & fieldBaseMask
+ t3 = (t2 >> fieldBase) + t3
+ t2 = t2 & fieldBaseMask
+ t4 = (t3 >> fieldBase) + t4
+ t3 = t3 & fieldBaseMask
+ t5 = (t4 >> fieldBase) + t5
+ t4 = t4 & fieldBaseMask
+ t6 = (t5 >> fieldBase) + t6
+ t5 = t5 & fieldBaseMask
+ t7 = (t6 >> fieldBase) + t7
+ t6 = t6 & fieldBaseMask
+ t8 = (t7 >> fieldBase) + t8
+ t7 = t7 & fieldBaseMask
+ t9 = (t8 >> fieldBase) + t9
+ t8 = t8 & fieldBaseMask
+ t9 = t9 & fieldMSBMask // Remove potential multiple of 2^256.
+
+ // Finally, set the normalized and reduced words.
+ f.n[0] = t0
+ f.n[1] = t1
+ f.n[2] = t2
+ f.n[3] = t3
+ f.n[4] = t4
+ f.n[5] = t5
+ f.n[6] = t6
+ f.n[7] = t7
+ f.n[8] = t8
+ f.n[9] = t9
+ return f
+}
+
+// PutBytes unpacks the field value to a 32-byte big-endian value using the
+// passed byte array. There is a similar function, Bytes, which unpacks the
+// field value into a new array and returns that. This version is provided
+// since it can be useful to cut down on the number of allocations by allowing
+// the caller to reuse a buffer.
+//
+// The field value must be normalized for this function to return the correct
+// result.
+func (f *fieldVal) PutBytes(b *[32]byte) {
+ // Unpack the 256 total bits from the 10 uint32 words with a max of
+ // 26-bits per word. This could be done with a couple of for loops,
+ // but this unrolled version is a bit faster. Benchmarks show this is
+ // about 10 times faster than the variant which uses loops.
+ b[31] = byte(f.n[0] & eightBitsMask)
+ b[30] = byte((f.n[0] >> 8) & eightBitsMask)
+ b[29] = byte((f.n[0] >> 16) & eightBitsMask)
+ b[28] = byte((f.n[0]>>24)&twoBitsMask | (f.n[1]&sixBitsMask)<<2)
+ b[27] = byte((f.n[1] >> 6) & eightBitsMask)
+ b[26] = byte((f.n[1] >> 14) & eightBitsMask)
+ b[25] = byte((f.n[1]>>22)&fourBitsMask | (f.n[2]&fourBitsMask)<<4)
+ b[24] = byte((f.n[2] >> 4) & eightBitsMask)
+ b[23] = byte((f.n[2] >> 12) & eightBitsMask)
+ b[22] = byte((f.n[2]>>20)&sixBitsMask | (f.n[3]&twoBitsMask)<<6)
+ b[21] = byte((f.n[3] >> 2) & eightBitsMask)
+ b[20] = byte((f.n[3] >> 10) & eightBitsMask)
+ b[19] = byte((f.n[3] >> 18) & eightBitsMask)
+ b[18] = byte(f.n[4] & eightBitsMask)
+ b[17] = byte((f.n[4] >> 8) & eightBitsMask)
+ b[16] = byte((f.n[4] >> 16) & eightBitsMask)
+ b[15] = byte((f.n[4]>>24)&twoBitsMask | (f.n[5]&sixBitsMask)<<2)
+ b[14] = byte((f.n[5] >> 6) & eightBitsMask)
+ b[13] = byte((f.n[5] >> 14) & eightBitsMask)
+ b[12] = byte((f.n[5]>>22)&fourBitsMask | (f.n[6]&fourBitsMask)<<4)
+ b[11] = byte((f.n[6] >> 4) & eightBitsMask)
+ b[10] = byte((f.n[6] >> 12) & eightBitsMask)
+ b[9] = byte((f.n[6]>>20)&sixBitsMask | (f.n[7]&twoBitsMask)<<6)
+ b[8] = byte((f.n[7] >> 2) & eightBitsMask)
+ b[7] = byte((f.n[7] >> 10) & eightBitsMask)
+ b[6] = byte((f.n[7] >> 18) & eightBitsMask)
+ b[5] = byte(f.n[8] & eightBitsMask)
+ b[4] = byte((f.n[8] >> 8) & eightBitsMask)
+ b[3] = byte((f.n[8] >> 16) & eightBitsMask)
+ b[2] = byte((f.n[8]>>24)&twoBitsMask | (f.n[9]&sixBitsMask)<<2)
+ b[1] = byte((f.n[9] >> 6) & eightBitsMask)
+ b[0] = byte((f.n[9] >> 14) & eightBitsMask)
+}
+
+// Bytes unpacks the field value to a 32-byte big-endian value. See PutBytes
+// for a variant that allows the a buffer to be passed which can be useful to
+// to cut down on the number of allocations by allowing the caller to reuse a
+// buffer.
+//
+// The field value must be normalized for this function to return correct
+// result.
+func (f *fieldVal) Bytes() *[32]byte {
+ b := new([32]byte)
+ f.PutBytes(b)
+ return b
+}
+
+// IsZero returns whether or not the field value is equal to zero.
+func (f *fieldVal) IsZero() bool {
+ // The value can only be zero if no bits are set in any of the words.
+ // This is a constant time implementation.
+ bits := f.n[0] | f.n[1] | f.n[2] | f.n[3] | f.n[4] |
+ f.n[5] | f.n[6] | f.n[7] | f.n[8] | f.n[9]
+
+ return bits == 0
+}
+
+// IsOdd returns whether or not the field value is an odd number.
+//
+// The field value must be normalized for this function to return correct
+// result.
+func (f *fieldVal) IsOdd() bool {
+ // Only odd numbers have the bottom bit set.
+ return f.n[0]&1 == 1
+}
+
+// Equals returns whether or not the two field values are the same. Both
+// field values being compared must be normalized for this function to return
+// the correct result.
+func (f *fieldVal) Equals(val *fieldVal) bool {
+ // Xor only sets bits when they are different, so the two field values
+ // can only be the same if no bits are set after xoring each word.
+ // This is a constant time implementation.
+ bits := (f.n[0] ^ val.n[0]) | (f.n[1] ^ val.n[1]) | (f.n[2] ^ val.n[2]) |
+ (f.n[3] ^ val.n[3]) | (f.n[4] ^ val.n[4]) | (f.n[5] ^ val.n[5]) |
+ (f.n[6] ^ val.n[6]) | (f.n[7] ^ val.n[7]) | (f.n[8] ^ val.n[8]) |
+ (f.n[9] ^ val.n[9])
+
+ return bits == 0
+}
+
+// NegateVal negates the passed value and stores the result in f. The caller
+// must provide the magnitude of the passed value for a correct result.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.NegateVal(f2).AddInt(1) so that f = -f2 + 1.
+func (f *fieldVal) NegateVal(val *fieldVal, magnitude uint32) *fieldVal {
+ // Negation in the field is just the prime minus the value. However,
+ // in order to allow negation against a field value without having to
+ // normalize/reduce it first, multiply by the magnitude (that is how
+ // "far" away it is from the normalized value) to adjust. Also, since
+ // negating a value pushes it one more order of magnitude away from the
+ // normalized range, add 1 to compensate.
+ //
+ // For some intuition here, imagine you're performing mod 12 arithmetic
+ // (picture a clock) and you are negating the number 7. So you start at
+ // 12 (which is of course 0 under mod 12) and count backwards (left on
+ // the clock) 7 times to arrive at 5. Notice this is just 12-7 = 5.
+ // Now, assume you're starting with 19, which is a number that is
+ // already larger than the modulus and congruent to 7 (mod 12). When a
+ // value is already in the desired range, its magnitude is 1. Since 19
+ // is an additional "step", its magnitude (mod 12) is 2. Since any
+ // multiple of the modulus is conguent to zero (mod m), the answer can
+ // be shortcut by simply mulplying the magnitude by the modulus and
+ // subtracting. Keeping with the example, this would be (2*12)-19 = 5.
+ f.n[0] = (magnitude+1)*fieldPrimeWordZero - val.n[0]
+ f.n[1] = (magnitude+1)*fieldPrimeWordOne - val.n[1]
+ f.n[2] = (magnitude+1)*fieldBaseMask - val.n[2]
+ f.n[3] = (magnitude+1)*fieldBaseMask - val.n[3]
+ f.n[4] = (magnitude+1)*fieldBaseMask - val.n[4]
+ f.n[5] = (magnitude+1)*fieldBaseMask - val.n[5]
+ f.n[6] = (magnitude+1)*fieldBaseMask - val.n[6]
+ f.n[7] = (magnitude+1)*fieldBaseMask - val.n[7]
+ f.n[8] = (magnitude+1)*fieldBaseMask - val.n[8]
+ f.n[9] = (magnitude+1)*fieldMSBMask - val.n[9]
+
+ return f
+}
+
+// Negate negates the field value. The existing field value is modified. The
+// caller must provide the magnitude of the field value for a correct result.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.Negate().AddInt(1) so that f = -f + 1.
+func (f *fieldVal) Negate(magnitude uint32) *fieldVal {
+ return f.NegateVal(f, magnitude)
+}
+
+// AddInt adds the passed integer to the existing field value and stores the
+// result in f. This is a convenience function since it is fairly common to
+// perform some arithemetic with small native integers.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.AddInt(1).Add(f2) so that f = f + 1 + f2.
+func (f *fieldVal) AddInt(ui uint) *fieldVal {
+ // Since the field representation intentionally provides overflow bits,
+ // it's ok to use carryless addition as the carry bit is safely part of
+ // the word and will be normalized out.
+ f.n[0] += uint32(ui)
+
+ return f
+}
+
+// Add adds the passed value to the existing field value and stores the result
+// in f.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.Add(f2).AddInt(1) so that f = f + f2 + 1.
+func (f *fieldVal) Add(val *fieldVal) *fieldVal {
+ // Since the field representation intentionally provides overflow bits,
+ // it's ok to use carryless addition as the carry bit is safely part of
+ // each word and will be normalized out. This could obviously be done
+ // in a loop, but the unrolled version is faster.
+ f.n[0] += val.n[0]
+ f.n[1] += val.n[1]
+ f.n[2] += val.n[2]
+ f.n[3] += val.n[3]
+ f.n[4] += val.n[4]
+ f.n[5] += val.n[5]
+ f.n[6] += val.n[6]
+ f.n[7] += val.n[7]
+ f.n[8] += val.n[8]
+ f.n[9] += val.n[9]
+
+ return f
+}
+
+// Add2 adds the passed two field values together and stores the result in f.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f3.Add2(f, f2).AddInt(1) so that f3 = f + f2 + 1.
+func (f *fieldVal) Add2(val *fieldVal, val2 *fieldVal) *fieldVal {
+ // Since the field representation intentionally provides overflow bits,
+ // it's ok to use carryless addition as the carry bit is safely part of
+ // each word and will be normalized out. This could obviously be done
+ // in a loop, but the unrolled version is faster.
+ f.n[0] = val.n[0] + val2.n[0]
+ f.n[1] = val.n[1] + val2.n[1]
+ f.n[2] = val.n[2] + val2.n[2]
+ f.n[3] = val.n[3] + val2.n[3]
+ f.n[4] = val.n[4] + val2.n[4]
+ f.n[5] = val.n[5] + val2.n[5]
+ f.n[6] = val.n[6] + val2.n[6]
+ f.n[7] = val.n[7] + val2.n[7]
+ f.n[8] = val.n[8] + val2.n[8]
+ f.n[9] = val.n[9] + val2.n[9]
+
+ return f
+}
+
+// MulInt multiplies the field value by the passed int and stores the result in
+// f. Note that this function can overflow if multiplying the value by any of
+// the individual words exceeds a max uint32. Therefore it is important that
+// the caller ensures no overflows will occur before using this function.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.MulInt(2).Add(f2) so that f = 2 * f + f2.
+func (f *fieldVal) MulInt(val uint) *fieldVal {
+ // Since each word of the field representation can hold up to
+ // fieldOverflowBits extra bits which will be normalized out, it's safe
+ // to multiply each word without using a larger type or carry
+ // propagation so long as the values won't overflow a uint32. This
+ // could obviously be done in a loop, but the unrolled version is
+ // faster.
+ ui := uint32(val)
+ f.n[0] *= ui
+ f.n[1] *= ui
+ f.n[2] *= ui
+ f.n[3] *= ui
+ f.n[4] *= ui
+ f.n[5] *= ui
+ f.n[6] *= ui
+ f.n[7] *= ui
+ f.n[8] *= ui
+ f.n[9] *= ui
+
+ return f
+}
+
+// Mul multiplies the passed value to the existing field value and stores the
+// result in f. Note that this function can overflow if multiplying any
+// of the individual words exceeds a max uint32. In practice, this means the
+// magnitude of either value involved in the multiplication must be a max of
+// 8.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.Mul(f2).AddInt(1) so that f = (f * f2) + 1.
+func (f *fieldVal) Mul(val *fieldVal) *fieldVal {
+ return f.Mul2(f, val)
+}
+
+// Mul2 multiplies the passed two field values together and stores the result
+// result in f. Note that this function can overflow if multiplying any of
+// the individual words exceeds a max uint32. In practice, this means the
+// magnitude of either value involved in the multiplication must be a max of
+// 8.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f3.Mul2(f, f2).AddInt(1) so that f3 = (f * f2) + 1.
+func (f *fieldVal) Mul2(val *fieldVal, val2 *fieldVal) *fieldVal {
+ // This could be done with a couple of for loops and an array to store
+ // the intermediate terms, but this unrolled version is significantly
+ // faster.
+
+ // Terms for 2^(fieldBase*0).
+ m := uint64(val.n[0]) * uint64(val2.n[0])
+ t0 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*1).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[1]) +
+ uint64(val.n[1])*uint64(val2.n[0])
+ t1 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*2).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[2]) +
+ uint64(val.n[1])*uint64(val2.n[1]) +
+ uint64(val.n[2])*uint64(val2.n[0])
+ t2 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*3).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[3]) +
+ uint64(val.n[1])*uint64(val2.n[2]) +
+ uint64(val.n[2])*uint64(val2.n[1]) +
+ uint64(val.n[3])*uint64(val2.n[0])
+ t3 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*4).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[4]) +
+ uint64(val.n[1])*uint64(val2.n[3]) +
+ uint64(val.n[2])*uint64(val2.n[2]) +
+ uint64(val.n[3])*uint64(val2.n[1]) +
+ uint64(val.n[4])*uint64(val2.n[0])
+ t4 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*5).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[5]) +
+ uint64(val.n[1])*uint64(val2.n[4]) +
+ uint64(val.n[2])*uint64(val2.n[3]) +
+ uint64(val.n[3])*uint64(val2.n[2]) +
+ uint64(val.n[4])*uint64(val2.n[1]) +
+ uint64(val.n[5])*uint64(val2.n[0])
+ t5 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*6).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[6]) +
+ uint64(val.n[1])*uint64(val2.n[5]) +
+ uint64(val.n[2])*uint64(val2.n[4]) +
+ uint64(val.n[3])*uint64(val2.n[3]) +
+ uint64(val.n[4])*uint64(val2.n[2]) +
+ uint64(val.n[5])*uint64(val2.n[1]) +
+ uint64(val.n[6])*uint64(val2.n[0])
+ t6 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*7).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[7]) +
+ uint64(val.n[1])*uint64(val2.n[6]) +
+ uint64(val.n[2])*uint64(val2.n[5]) +
+ uint64(val.n[3])*uint64(val2.n[4]) +
+ uint64(val.n[4])*uint64(val2.n[3]) +
+ uint64(val.n[5])*uint64(val2.n[2]) +
+ uint64(val.n[6])*uint64(val2.n[1]) +
+ uint64(val.n[7])*uint64(val2.n[0])
+ t7 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*8).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[8]) +
+ uint64(val.n[1])*uint64(val2.n[7]) +
+ uint64(val.n[2])*uint64(val2.n[6]) +
+ uint64(val.n[3])*uint64(val2.n[5]) +
+ uint64(val.n[4])*uint64(val2.n[4]) +
+ uint64(val.n[5])*uint64(val2.n[3]) +
+ uint64(val.n[6])*uint64(val2.n[2]) +
+ uint64(val.n[7])*uint64(val2.n[1]) +
+ uint64(val.n[8])*uint64(val2.n[0])
+ t8 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*9).
+ m = (m >> fieldBase) +
+ uint64(val.n[0])*uint64(val2.n[9]) +
+ uint64(val.n[1])*uint64(val2.n[8]) +
+ uint64(val.n[2])*uint64(val2.n[7]) +
+ uint64(val.n[3])*uint64(val2.n[6]) +
+ uint64(val.n[4])*uint64(val2.n[5]) +
+ uint64(val.n[5])*uint64(val2.n[4]) +
+ uint64(val.n[6])*uint64(val2.n[3]) +
+ uint64(val.n[7])*uint64(val2.n[2]) +
+ uint64(val.n[8])*uint64(val2.n[1]) +
+ uint64(val.n[9])*uint64(val2.n[0])
+ t9 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*10).
+ m = (m >> fieldBase) +
+ uint64(val.n[1])*uint64(val2.n[9]) +
+ uint64(val.n[2])*uint64(val2.n[8]) +
+ uint64(val.n[3])*uint64(val2.n[7]) +
+ uint64(val.n[4])*uint64(val2.n[6]) +
+ uint64(val.n[5])*uint64(val2.n[5]) +
+ uint64(val.n[6])*uint64(val2.n[4]) +
+ uint64(val.n[7])*uint64(val2.n[3]) +
+ uint64(val.n[8])*uint64(val2.n[2]) +
+ uint64(val.n[9])*uint64(val2.n[1])
+ t10 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*11).
+ m = (m >> fieldBase) +
+ uint64(val.n[2])*uint64(val2.n[9]) +
+ uint64(val.n[3])*uint64(val2.n[8]) +
+ uint64(val.n[4])*uint64(val2.n[7]) +
+ uint64(val.n[5])*uint64(val2.n[6]) +
+ uint64(val.n[6])*uint64(val2.n[5]) +
+ uint64(val.n[7])*uint64(val2.n[4]) +
+ uint64(val.n[8])*uint64(val2.n[3]) +
+ uint64(val.n[9])*uint64(val2.n[2])
+ t11 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*12).
+ m = (m >> fieldBase) +
+ uint64(val.n[3])*uint64(val2.n[9]) +
+ uint64(val.n[4])*uint64(val2.n[8]) +
+ uint64(val.n[5])*uint64(val2.n[7]) +
+ uint64(val.n[6])*uint64(val2.n[6]) +
+ uint64(val.n[7])*uint64(val2.n[5]) +
+ uint64(val.n[8])*uint64(val2.n[4]) +
+ uint64(val.n[9])*uint64(val2.n[3])
+ t12 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*13).
+ m = (m >> fieldBase) +
+ uint64(val.n[4])*uint64(val2.n[9]) +
+ uint64(val.n[5])*uint64(val2.n[8]) +
+ uint64(val.n[6])*uint64(val2.n[7]) +
+ uint64(val.n[7])*uint64(val2.n[6]) +
+ uint64(val.n[8])*uint64(val2.n[5]) +
+ uint64(val.n[9])*uint64(val2.n[4])
+ t13 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*14).
+ m = (m >> fieldBase) +
+ uint64(val.n[5])*uint64(val2.n[9]) +
+ uint64(val.n[6])*uint64(val2.n[8]) +
+ uint64(val.n[7])*uint64(val2.n[7]) +
+ uint64(val.n[8])*uint64(val2.n[6]) +
+ uint64(val.n[9])*uint64(val2.n[5])
+ t14 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*15).
+ m = (m >> fieldBase) +
+ uint64(val.n[6])*uint64(val2.n[9]) +
+ uint64(val.n[7])*uint64(val2.n[8]) +
+ uint64(val.n[8])*uint64(val2.n[7]) +
+ uint64(val.n[9])*uint64(val2.n[6])
+ t15 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*16).
+ m = (m >> fieldBase) +
+ uint64(val.n[7])*uint64(val2.n[9]) +
+ uint64(val.n[8])*uint64(val2.n[8]) +
+ uint64(val.n[9])*uint64(val2.n[7])
+ t16 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*17).
+ m = (m >> fieldBase) +
+ uint64(val.n[8])*uint64(val2.n[9]) +
+ uint64(val.n[9])*uint64(val2.n[8])
+ t17 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*18).
+ m = (m >> fieldBase) + uint64(val.n[9])*uint64(val2.n[9])
+ t18 := m & fieldBaseMask
+
+ // What's left is for 2^(fieldBase*19).
+ t19 := m >> fieldBase
+
+ // At this point, all of the terms are grouped into their respective
+ // base.
+ //
+ // Per [HAC] section 14.3.4: Reduction method of moduli of special form,
+ // when the modulus is of the special form m = b^t - c, highly efficient
+ // reduction can be achieved per the provided algorithm.
+ //
+ // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits
+ // this criteria.
+ //
+ // 4294968273 in field representation (base 2^26) is:
+ // n[0] = 977
+ // n[1] = 64
+ // That is to say (2^26 * 64) + 977 = 4294968273
+ //
+ // Since each word is in base 26, the upper terms (t10 and up) start
+ // at 260 bits (versus the final desired range of 256 bits), so the
+ // field representation of 'c' from above needs to be adjusted for the
+ // extra 4 bits by multiplying it by 2^4 = 16. 4294968273 * 16 =
+ // 68719492368. Thus, the adjusted field representation of 'c' is:
+ // n[0] = 977 * 16 = 15632
+ // n[1] = 64 * 16 = 1024
+ // That is to say (2^26 * 1024) + 15632 = 68719492368
+ //
+ // To reduce the final term, t19, the entire 'c' value is needed instead
+ // of only n[0] because there are no more terms left to handle n[1].
+ // This means there might be some magnitude left in the upper bits that
+ // is handled below.
+ m = t0 + t10*15632
+ t0 = m & fieldBaseMask
+ m = (m >> fieldBase) + t1 + t10*1024 + t11*15632
+ t1 = m & fieldBaseMask
+ m = (m >> fieldBase) + t2 + t11*1024 + t12*15632
+ t2 = m & fieldBaseMask
+ m = (m >> fieldBase) + t3 + t12*1024 + t13*15632
+ t3 = m & fieldBaseMask
+ m = (m >> fieldBase) + t4 + t13*1024 + t14*15632
+ t4 = m & fieldBaseMask
+ m = (m >> fieldBase) + t5 + t14*1024 + t15*15632
+ t5 = m & fieldBaseMask
+ m = (m >> fieldBase) + t6 + t15*1024 + t16*15632
+ t6 = m & fieldBaseMask
+ m = (m >> fieldBase) + t7 + t16*1024 + t17*15632
+ t7 = m & fieldBaseMask
+ m = (m >> fieldBase) + t8 + t17*1024 + t18*15632
+ t8 = m & fieldBaseMask
+ m = (m >> fieldBase) + t9 + t18*1024 + t19*68719492368
+ t9 = m & fieldMSBMask
+ m = m >> fieldMSBBits
+
+ // At this point, if the magnitude is greater than 0, the overall value
+ // is greater than the max possible 256-bit value. In particular, it is
+ // "how many times larger" than the max value it is.
+ //
+ // The algorithm presented in [HAC] section 14.3.4 repeats until the
+ // quotient is zero. However, due to the above, we already know at
+ // least how many times we would need to repeat as it's the value
+ // currently in m. Thus we can simply multiply the magnitude by the
+ // field representation of the prime and do a single iteration. Notice
+ // that nothing will be changed when the magnitude is zero, so we could
+ // skip this in that case, however always running regardless allows it
+ // to run in constant time. The final result will be in the range
+ // 0 <= result <= prime + (2^64 - c), so it is guaranteed to have a
+ // magnitude of 1, but it is denormalized.
+ d := t0 + m*977
+ f.n[0] = uint32(d & fieldBaseMask)
+ d = (d >> fieldBase) + t1 + m*64
+ f.n[1] = uint32(d & fieldBaseMask)
+ f.n[2] = uint32((d >> fieldBase) + t2)
+ f.n[3] = uint32(t3)
+ f.n[4] = uint32(t4)
+ f.n[5] = uint32(t5)
+ f.n[6] = uint32(t6)
+ f.n[7] = uint32(t7)
+ f.n[8] = uint32(t8)
+ f.n[9] = uint32(t9)
+
+ return f
+}
+
+// Square squares the field value. The existing field value is modified. Note
+// that this function can overflow if multiplying any of the individual words
+// exceeds a max uint32. In practice, this means the magnitude of the field
+// must be a max of 8 to prevent overflow.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.Square().Mul(f2) so that f = f^2 * f2.
+func (f *fieldVal) Square() *fieldVal {
+ return f.SquareVal(f)
+}
+
+// SquareVal squares the passed value and stores the result in f. Note that
+// this function can overflow if multiplying any of the individual words
+// exceeds a max uint32. In practice, this means the magnitude of the field
+// being squred must be a max of 8 to prevent overflow.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f3.SquareVal(f).Mul(f) so that f3 = f^2 * f = f^3.
+func (f *fieldVal) SquareVal(val *fieldVal) *fieldVal {
+ // This could be done with a couple of for loops and an array to store
+ // the intermediate terms, but this unrolled version is significantly
+ // faster.
+
+ // Terms for 2^(fieldBase*0).
+ m := uint64(val.n[0]) * uint64(val.n[0])
+ t0 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*1).
+ m = (m >> fieldBase) + 2*uint64(val.n[0])*uint64(val.n[1])
+ t1 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*2).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[2]) +
+ uint64(val.n[1])*uint64(val.n[1])
+ t2 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*3).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[3]) +
+ 2*uint64(val.n[1])*uint64(val.n[2])
+ t3 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*4).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[4]) +
+ 2*uint64(val.n[1])*uint64(val.n[3]) +
+ uint64(val.n[2])*uint64(val.n[2])
+ t4 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*5).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[5]) +
+ 2*uint64(val.n[1])*uint64(val.n[4]) +
+ 2*uint64(val.n[2])*uint64(val.n[3])
+ t5 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*6).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[6]) +
+ 2*uint64(val.n[1])*uint64(val.n[5]) +
+ 2*uint64(val.n[2])*uint64(val.n[4]) +
+ uint64(val.n[3])*uint64(val.n[3])
+ t6 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*7).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[7]) +
+ 2*uint64(val.n[1])*uint64(val.n[6]) +
+ 2*uint64(val.n[2])*uint64(val.n[5]) +
+ 2*uint64(val.n[3])*uint64(val.n[4])
+ t7 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*8).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[8]) +
+ 2*uint64(val.n[1])*uint64(val.n[7]) +
+ 2*uint64(val.n[2])*uint64(val.n[6]) +
+ 2*uint64(val.n[3])*uint64(val.n[5]) +
+ uint64(val.n[4])*uint64(val.n[4])
+ t8 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*9).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[0])*uint64(val.n[9]) +
+ 2*uint64(val.n[1])*uint64(val.n[8]) +
+ 2*uint64(val.n[2])*uint64(val.n[7]) +
+ 2*uint64(val.n[3])*uint64(val.n[6]) +
+ 2*uint64(val.n[4])*uint64(val.n[5])
+ t9 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*10).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[1])*uint64(val.n[9]) +
+ 2*uint64(val.n[2])*uint64(val.n[8]) +
+ 2*uint64(val.n[3])*uint64(val.n[7]) +
+ 2*uint64(val.n[4])*uint64(val.n[6]) +
+ uint64(val.n[5])*uint64(val.n[5])
+ t10 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*11).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[2])*uint64(val.n[9]) +
+ 2*uint64(val.n[3])*uint64(val.n[8]) +
+ 2*uint64(val.n[4])*uint64(val.n[7]) +
+ 2*uint64(val.n[5])*uint64(val.n[6])
+ t11 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*12).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[3])*uint64(val.n[9]) +
+ 2*uint64(val.n[4])*uint64(val.n[8]) +
+ 2*uint64(val.n[5])*uint64(val.n[7]) +
+ uint64(val.n[6])*uint64(val.n[6])
+ t12 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*13).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[4])*uint64(val.n[9]) +
+ 2*uint64(val.n[5])*uint64(val.n[8]) +
+ 2*uint64(val.n[6])*uint64(val.n[7])
+ t13 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*14).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[5])*uint64(val.n[9]) +
+ 2*uint64(val.n[6])*uint64(val.n[8]) +
+ uint64(val.n[7])*uint64(val.n[7])
+ t14 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*15).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[6])*uint64(val.n[9]) +
+ 2*uint64(val.n[7])*uint64(val.n[8])
+ t15 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*16).
+ m = (m >> fieldBase) +
+ 2*uint64(val.n[7])*uint64(val.n[9]) +
+ uint64(val.n[8])*uint64(val.n[8])
+ t16 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*17).
+ m = (m >> fieldBase) + 2*uint64(val.n[8])*uint64(val.n[9])
+ t17 := m & fieldBaseMask
+
+ // Terms for 2^(fieldBase*18).
+ m = (m >> fieldBase) + uint64(val.n[9])*uint64(val.n[9])
+ t18 := m & fieldBaseMask
+
+ // What's left is for 2^(fieldBase*19).
+ t19 := m >> fieldBase
+
+ // At this point, all of the terms are grouped into their respective
+ // base.
+ //
+ // Per [HAC] section 14.3.4: Reduction method of moduli of special form,
+ // when the modulus is of the special form m = b^t - c, highly efficient
+ // reduction can be achieved per the provided algorithm.
+ //
+ // The secp256k1 prime is equivalent to 2^256 - 4294968273, so it fits
+ // this criteria.
+ //
+ // 4294968273 in field representation (base 2^26) is:
+ // n[0] = 977
+ // n[1] = 64
+ // That is to say (2^26 * 64) + 977 = 4294968273
+ //
+ // Since each word is in base 26, the upper terms (t10 and up) start
+ // at 260 bits (versus the final desired range of 256 bits), so the
+ // field representation of 'c' from above needs to be adjusted for the
+ // extra 4 bits by multiplying it by 2^4 = 16. 4294968273 * 16 =
+ // 68719492368. Thus, the adjusted field representation of 'c' is:
+ // n[0] = 977 * 16 = 15632
+ // n[1] = 64 * 16 = 1024
+ // That is to say (2^26 * 1024) + 15632 = 68719492368
+ //
+ // To reduce the final term, t19, the entire 'c' value is needed instead
+ // of only n[0] because there are no more terms left to handle n[1].
+ // This means there might be some magnitude left in the upper bits that
+ // is handled below.
+ m = t0 + t10*15632
+ t0 = m & fieldBaseMask
+ m = (m >> fieldBase) + t1 + t10*1024 + t11*15632
+ t1 = m & fieldBaseMask
+ m = (m >> fieldBase) + t2 + t11*1024 + t12*15632
+ t2 = m & fieldBaseMask
+ m = (m >> fieldBase) + t3 + t12*1024 + t13*15632
+ t3 = m & fieldBaseMask
+ m = (m >> fieldBase) + t4 + t13*1024 + t14*15632
+ t4 = m & fieldBaseMask
+ m = (m >> fieldBase) + t5 + t14*1024 + t15*15632
+ t5 = m & fieldBaseMask
+ m = (m >> fieldBase) + t6 + t15*1024 + t16*15632
+ t6 = m & fieldBaseMask
+ m = (m >> fieldBase) + t7 + t16*1024 + t17*15632
+ t7 = m & fieldBaseMask
+ m = (m >> fieldBase) + t8 + t17*1024 + t18*15632
+ t8 = m & fieldBaseMask
+ m = (m >> fieldBase) + t9 + t18*1024 + t19*68719492368
+ t9 = m & fieldMSBMask
+ m = m >> fieldMSBBits
+
+ // At this point, if the magnitude is greater than 0, the overall value
+ // is greater than the max possible 256-bit value. In particular, it is
+ // "how many times larger" than the max value it is.
+ //
+ // The algorithm presented in [HAC] section 14.3.4 repeats until the
+ // quotient is zero. However, due to the above, we already know at
+ // least how many times we would need to repeat as it's the value
+ // currently in m. Thus we can simply multiply the magnitude by the
+ // field representation of the prime and do a single iteration. Notice
+ // that nothing will be changed when the magnitude is zero, so we could
+ // skip this in that case, however always running regardless allows it
+ // to run in constant time. The final result will be in the range
+ // 0 <= result <= prime + (2^64 - c), so it is guaranteed to have a
+ // magnitude of 1, but it is denormalized.
+ n := t0 + m*977
+ f.n[0] = uint32(n & fieldBaseMask)
+ n = (n >> fieldBase) + t1 + m*64
+ f.n[1] = uint32(n & fieldBaseMask)
+ f.n[2] = uint32((n >> fieldBase) + t2)
+ f.n[3] = uint32(t3)
+ f.n[4] = uint32(t4)
+ f.n[5] = uint32(t5)
+ f.n[6] = uint32(t6)
+ f.n[7] = uint32(t7)
+ f.n[8] = uint32(t8)
+ f.n[9] = uint32(t9)
+
+ return f
+}
+
+// Inverse finds the modular multiplicative inverse of the field value. The
+// existing field value is modified.
+//
+// The field value is returned to support chaining. This enables syntax like:
+// f.Inverse().Mul(f2) so that f = f^-1 * f2.
+func (f *fieldVal) Inverse() *fieldVal {
+ // Fermat's little theorem states that for a nonzero number a and prime
+ // prime p, a^(p-1) = 1 (mod p). Since the multipliciative inverse is
+ // a*b = 1 (mod p), it follows that b = a*a^(p-2) = a^(p-1) = 1 (mod p).
+ // Thus, a^(p-2) is the multiplicative inverse.
+ //
+ // In order to efficiently compute a^(p-2), p-2 needs to be split into
+ // a sequence of squares and multipications that minimizes the number of
+ // multiplications needed (since they are more costly than squarings).
+ // Intermediate results are saved and reused as well.
+ //
+ // The secp256k1 prime - 2 is 2^256 - 4294968275.
+ //
+ // This has a cost of 258 field squarings and 33 field multiplications.
+ var a2, a3, a4, a10, a11, a21, a42, a45, a63, a1019, a1023 fieldVal
+ a2.SquareVal(f)
+ a3.Mul2(&a2, f)
+ a4.SquareVal(&a2)
+ a10.SquareVal(&a4).Mul(&a2)
+ a11.Mul2(&a10, f)
+ a21.Mul2(&a10, &a11)
+ a42.SquareVal(&a21)
+ a45.Mul2(&a42, &a3)
+ a63.Mul2(&a42, &a21)
+ a1019.SquareVal(&a63).Square().Square().Square().Mul(&a11)
+ a1023.Mul2(&a1019, &a4)
+ f.Set(&a63) // f = a^(2^6 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^11 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^16 - 1024)
+ f.Mul(&a1023) // f = a^(2^16 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^21 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^26 - 1024)
+ f.Mul(&a1023) // f = a^(2^26 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^31 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^36 - 1024)
+ f.Mul(&a1023) // f = a^(2^36 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^41 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^46 - 1024)
+ f.Mul(&a1023) // f = a^(2^46 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^51 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^56 - 1024)
+ f.Mul(&a1023) // f = a^(2^56 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^61 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^66 - 1024)
+ f.Mul(&a1023) // f = a^(2^66 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^71 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^76 - 1024)
+ f.Mul(&a1023) // f = a^(2^76 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^81 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^86 - 1024)
+ f.Mul(&a1023) // f = a^(2^86 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^91 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^96 - 1024)
+ f.Mul(&a1023) // f = a^(2^96 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^101 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^106 - 1024)
+ f.Mul(&a1023) // f = a^(2^106 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^111 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^116 - 1024)
+ f.Mul(&a1023) // f = a^(2^116 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^121 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^126 - 1024)
+ f.Mul(&a1023) // f = a^(2^126 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^131 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^136 - 1024)
+ f.Mul(&a1023) // f = a^(2^136 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^141 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^146 - 1024)
+ f.Mul(&a1023) // f = a^(2^146 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^151 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^156 - 1024)
+ f.Mul(&a1023) // f = a^(2^156 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^161 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^166 - 1024)
+ f.Mul(&a1023) // f = a^(2^166 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^171 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^176 - 1024)
+ f.Mul(&a1023) // f = a^(2^176 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^181 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^186 - 1024)
+ f.Mul(&a1023) // f = a^(2^186 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^191 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^196 - 1024)
+ f.Mul(&a1023) // f = a^(2^196 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^201 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^206 - 1024)
+ f.Mul(&a1023) // f = a^(2^206 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^211 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^216 - 1024)
+ f.Mul(&a1023) // f = a^(2^216 - 1)
+ f.Square().Square().Square().Square().Square() // f = a^(2^221 - 32)
+ f.Square().Square().Square().Square().Square() // f = a^(2^226 - 1024)
+ f.Mul(&a1019) // f = a^(2^226 - 5)
+ f.Square().Square().Square().Square().Square() // f = a^(2^231 - 160)
+ f.Square().Square().Square().Square().Square() // f = a^(2^236 - 5120)
+ f.Mul(&a1023) // f = a^(2^236 - 4097)
+ f.Square().Square().Square().Square().Square() // f = a^(2^241 - 131104)
+ f.Square().Square().Square().Square().Square() // f = a^(2^246 - 4195328)
+ f.Mul(&a1023) // f = a^(2^246 - 4194305)
+ f.Square().Square().Square().Square().Square() // f = a^(2^251 - 134217760)
+ f.Square().Square().Square().Square().Square() // f = a^(2^256 - 4294968320)
+ return f.Mul(&a45) // f = a^(2^256 - 4294968275) = a^(p-2)
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/genprecomps.go b/vendor/github.com/tendermint/btcd/btcec/genprecomps.go
new file mode 100644
index 0000000000000000000000000000000000000000..d4a9c1b8306089d194f13a7020e370de5abddba5
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/genprecomps.go
@@ -0,0 +1,63 @@
+// Copyright 2015 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+// This file is ignored during the regular build due to the following build tag.
+// It is called by go generate and used to automatically generate pre-computed
+// tables used to accelerate operations.
+// +build ignore
+
+package main
+
+import (
+ "bytes"
+ "compress/zlib"
+ "encoding/base64"
+ "fmt"
+ "log"
+ "os"
+
+ "github.com/btcsuite/btcd/btcec"
+)
+
+func main() {
+ fi, err := os.Create("secp256k1.go")
+ if err != nil {
+ log.Fatal(err)
+ }
+ defer fi.Close()
+
+ // Compress the serialized byte points.
+ serialized := btcec.S256().SerializedBytePoints()
+ var compressed bytes.Buffer
+ w := zlib.NewWriter(&compressed)
+ if _, err := w.Write(serialized); err != nil {
+ fmt.Println(err)
+ os.Exit(1)
+ }
+ w.Close()
+
+ // Encode the compressed byte points with base64.
+ encoded := make([]byte, base64.StdEncoding.EncodedLen(compressed.Len()))
+ base64.StdEncoding.Encode(encoded, compressed.Bytes())
+
+ fmt.Fprintln(fi, "// Copyright (c) 2015 The btcsuite developers")
+ fmt.Fprintln(fi, "// Use of this source code is governed by an ISC")
+ fmt.Fprintln(fi, "// license that can be found in the LICENSE file.")
+ fmt.Fprintln(fi)
+ fmt.Fprintln(fi, "package btcec")
+ fmt.Fprintln(fi)
+ fmt.Fprintln(fi, "// Auto-generated file (see genprecomps.go)")
+ fmt.Fprintln(fi, "// DO NOT EDIT")
+ fmt.Fprintln(fi)
+ fmt.Fprintf(fi, "var secp256k1BytePoints = %q\n", string(encoded))
+
+ a1, b1, a2, b2 := btcec.S256().EndomorphismVectors()
+ fmt.Println("The following values are the computed linearly " +
+ "independent vectors needed to make use of the secp256k1 " +
+ "endomorphism:")
+ fmt.Printf("a1: %x\n", a1)
+ fmt.Printf("b1: %x\n", b1)
+ fmt.Printf("a2: %x\n", a2)
+ fmt.Printf("b2: %x\n", b2)
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/gensecp256k1.go b/vendor/github.com/tendermint/btcd/btcec/gensecp256k1.go
new file mode 100644
index 0000000000000000000000000000000000000000..1928702da84ffeb2240c15b4faa13b5255b83a3b
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/gensecp256k1.go
@@ -0,0 +1,203 @@
+// Copyright (c) 2014-2015 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+// This file is ignored during the regular build due to the following build tag.
+// This build tag is set during go generate.
+// +build gensecp256k1
+
+package btcec
+
+// References:
+// [GECC]: Guide to Elliptic Curve Cryptography (Hankerson, Menezes, Vanstone)
+
+import (
+ "encoding/binary"
+ "math/big"
+)
+
+// secp256k1BytePoints are dummy points used so the code which generates the
+// real values can compile.
+var secp256k1BytePoints = ""
+
+// getDoublingPoints returns all the possible G^(2^i) for i in
+// 0..n-1 where n is the curve's bit size (256 in the case of secp256k1)
+// the coordinates are recorded as Jacobian coordinates.
+func (curve *KoblitzCurve) getDoublingPoints() [][3]fieldVal {
+ doublingPoints := make([][3]fieldVal, curve.BitSize)
+
+ // initialize px, py, pz to the Jacobian coordinates for the base point
+ px, py := curve.bigAffineToField(curve.Gx, curve.Gy)
+ pz := new(fieldVal).SetInt(1)
+ for i := 0; i < curve.BitSize; i++ {
+ doublingPoints[i] = [3]fieldVal{*px, *py, *pz}
+ // P = 2*P
+ curve.doubleJacobian(px, py, pz, px, py, pz)
+ }
+ return doublingPoints
+}
+
+// SerializedBytePoints returns a serialized byte slice which contains all of
+// the possible points per 8-bit window. This is used to when generating
+// secp256k1.go.
+func (curve *KoblitzCurve) SerializedBytePoints() []byte {
+ doublingPoints := curve.getDoublingPoints()
+
+ // Segregate the bits into byte-sized windows
+ serialized := make([]byte, curve.byteSize*256*3*10*4)
+ offset := 0
+ for byteNum := 0; byteNum < curve.byteSize; byteNum++ {
+ // Grab the 8 bits that make up this byte from doublingPoints.
+ startingBit := 8 * (curve.byteSize - byteNum - 1)
+ computingPoints := doublingPoints[startingBit : startingBit+8]
+
+ // Compute all points in this window and serialize them.
+ for i := 0; i < 256; i++ {
+ px, py, pz := new(fieldVal), new(fieldVal), new(fieldVal)
+ for j := 0; j < 8; j++ {
+ if i>>uint(j)&1 == 1 {
+ curve.addJacobian(px, py, pz, &computingPoints[j][0],
+ &computingPoints[j][1], &computingPoints[j][2], px, py, pz)
+ }
+ }
+ for i := 0; i < 10; i++ {
+ binary.LittleEndian.PutUint32(serialized[offset:], px.n[i])
+ offset += 4
+ }
+ for i := 0; i < 10; i++ {
+ binary.LittleEndian.PutUint32(serialized[offset:], py.n[i])
+ offset += 4
+ }
+ for i := 0; i < 10; i++ {
+ binary.LittleEndian.PutUint32(serialized[offset:], pz.n[i])
+ offset += 4
+ }
+ }
+ }
+
+ return serialized
+}
+
+// sqrt returns the square root of the provided big integer using Newton's
+// method. It's only compiled and used during generation of pre-computed
+// values, so speed is not a huge concern.
+func sqrt(n *big.Int) *big.Int {
+ // Initial guess = 2^(log_2(n)/2)
+ guess := big.NewInt(2)
+ guess.Exp(guess, big.NewInt(int64(n.BitLen()/2)), nil)
+
+ // Now refine using Newton's method.
+ big2 := big.NewInt(2)
+ prevGuess := big.NewInt(0)
+ for {
+ prevGuess.Set(guess)
+ guess.Add(guess, new(big.Int).Div(n, guess))
+ guess.Div(guess, big2)
+ if guess.Cmp(prevGuess) == 0 {
+ break
+ }
+ }
+ return guess
+}
+
+// EndomorphismVectors runs the first 3 steps of algorithm 3.74 from [GECC] to
+// generate the linearly independent vectors needed to generate a balanced
+// length-two representation of a multiplier such that k = k1 + k2λ (mod N) and
+// returns them. Since the values will always be the same given the fact that N
+// and λ are fixed, the final results can be accelerated by storing the
+// precomputed values with the curve.
+func (curve *KoblitzCurve) EndomorphismVectors() (a1, b1, a2, b2 *big.Int) {
+ bigMinus1 := big.NewInt(-1)
+
+ // This section uses an extended Euclidean algorithm to generate a
+ // sequence of equations:
+ // s[i] * N + t[i] * λ = r[i]
+
+ nSqrt := sqrt(curve.N)
+ u, v := new(big.Int).Set(curve.N), new(big.Int).Set(curve.lambda)
+ x1, y1 := big.NewInt(1), big.NewInt(0)
+ x2, y2 := big.NewInt(0), big.NewInt(1)
+ q, r := new(big.Int), new(big.Int)
+ qu, qx1, qy1 := new(big.Int), new(big.Int), new(big.Int)
+ s, t := new(big.Int), new(big.Int)
+ ri, ti := new(big.Int), new(big.Int)
+ a1, b1, a2, b2 = new(big.Int), new(big.Int), new(big.Int), new(big.Int)
+ found, oneMore := false, false
+ for u.Sign() != 0 {
+ // q = v/u
+ q.Div(v, u)
+
+ // r = v - q*u
+ qu.Mul(q, u)
+ r.Sub(v, qu)
+
+ // s = x2 - q*x1
+ qx1.Mul(q, x1)
+ s.Sub(x2, qx1)
+
+ // t = y2 - q*y1
+ qy1.Mul(q, y1)
+ t.Sub(y2, qy1)
+
+ // v = u, u = r, x2 = x1, x1 = s, y2 = y1, y1 = t
+ v.Set(u)
+ u.Set(r)
+ x2.Set(x1)
+ x1.Set(s)
+ y2.Set(y1)
+ y1.Set(t)
+
+ // As soon as the remainder is less than the sqrt of n, the
+ // values of a1 and b1 are known.
+ if !found && r.Cmp(nSqrt) < 0 {
+ // When this condition executes ri and ti represent the
+ // r[i] and t[i] values such that i is the greatest
+ // index for which r >= sqrt(n). Meanwhile, the current
+ // r and t values are r[i+1] and t[i+1], respectively.
+
+ // a1 = r[i+1], b1 = -t[i+1]
+ a1.Set(r)
+ b1.Mul(t, bigMinus1)
+ found = true
+ oneMore = true
+
+ // Skip to the next iteration so ri and ti are not
+ // modified.
+ continue
+
+ } else if oneMore {
+ // When this condition executes ri and ti still
+ // represent the r[i] and t[i] values while the current
+ // r and t are r[i+2] and t[i+2], respectively.
+
+ // sum1 = r[i]^2 + t[i]^2
+ rSquared := new(big.Int).Mul(ri, ri)
+ tSquared := new(big.Int).Mul(ti, ti)
+ sum1 := new(big.Int).Add(rSquared, tSquared)
+
+ // sum2 = r[i+2]^2 + t[i+2]^2
+ r2Squared := new(big.Int).Mul(r, r)
+ t2Squared := new(big.Int).Mul(t, t)
+ sum2 := new(big.Int).Add(r2Squared, t2Squared)
+
+ // if (r[i]^2 + t[i]^2) <= (r[i+2]^2 + t[i+2]^2)
+ if sum1.Cmp(sum2) <= 0 {
+ // a2 = r[i], b2 = -t[i]
+ a2.Set(ri)
+ b2.Mul(ti, bigMinus1)
+ } else {
+ // a2 = r[i+2], b2 = -t[i+2]
+ a2.Set(r)
+ b2.Mul(t, bigMinus1)
+ }
+
+ // All done.
+ break
+ }
+
+ ri.Set(r)
+ ti.Set(t)
+ }
+
+ return a1, b1, a2, b2
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/precompute.go b/vendor/github.com/tendermint/btcd/btcec/precompute.go
new file mode 100644
index 0000000000000000000000000000000000000000..034cd55332152ad05e501813528c98e12123ce59
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/precompute.go
@@ -0,0 +1,67 @@
+// Copyright 2015 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+import (
+ "compress/zlib"
+ "encoding/base64"
+ "encoding/binary"
+ "io/ioutil"
+ "strings"
+)
+
+//go:generate go run -tags gensecp256k1 genprecomps.go
+
+// loadS256BytePoints decompresses and deserializes the pre-computed byte points
+// used to accelerate scalar base multiplication for the secp256k1 curve. This
+// approach is used since it allows the compile to use significantly less ram
+// and be performed much faster than it is with hard-coding the final in-memory
+// data structure. At the same time, it is quite fast to generate the in-memory
+// data structure at init time with this approach versus computing the table.
+func loadS256BytePoints() error {
+ // There will be no byte points to load when generating them.
+ bp := secp256k1BytePoints
+ if len(bp) == 0 {
+ return nil
+ }
+
+ // Decompress the pre-computed table used to accelerate scalar base
+ // multiplication.
+ decoder := base64.NewDecoder(base64.StdEncoding, strings.NewReader(bp))
+ r, err := zlib.NewReader(decoder)
+ if err != nil {
+ return err
+ }
+ serialized, err := ioutil.ReadAll(r)
+ if err != nil {
+ return err
+ }
+
+ // Deserialize the precomputed byte points and set the curve to them.
+ offset := 0
+ var bytePoints [32][256][3]fieldVal
+ for byteNum := 0; byteNum < 32; byteNum++ {
+ // All points in this window.
+ for i := 0; i < 256; i++ {
+ px := &bytePoints[byteNum][i][0]
+ py := &bytePoints[byteNum][i][1]
+ pz := &bytePoints[byteNum][i][2]
+ for i := 0; i < 10; i++ {
+ px.n[i] = binary.LittleEndian.Uint32(serialized[offset:])
+ offset += 4
+ }
+ for i := 0; i < 10; i++ {
+ py.n[i] = binary.LittleEndian.Uint32(serialized[offset:])
+ offset += 4
+ }
+ for i := 0; i < 10; i++ {
+ pz.n[i] = binary.LittleEndian.Uint32(serialized[offset:])
+ offset += 4
+ }
+ }
+ }
+ secp256k1.bytePoints = &bytePoints
+ return nil
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/privkey.go b/vendor/github.com/tendermint/btcd/btcec/privkey.go
new file mode 100644
index 0000000000000000000000000000000000000000..676a8c3fb010b730fd3ce5efa722294dc275fbd3
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/privkey.go
@@ -0,0 +1,73 @@
+// Copyright (c) 2013-2016 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+import (
+ "crypto/ecdsa"
+ "crypto/elliptic"
+ "crypto/rand"
+ "math/big"
+)
+
+// PrivateKey wraps an ecdsa.PrivateKey as a convenience mainly for signing
+// things with the the private key without having to directly import the ecdsa
+// package.
+type PrivateKey ecdsa.PrivateKey
+
+// PrivKeyFromBytes returns a private and public key for `curve' based on the
+// private key passed as an argument as a byte slice.
+func PrivKeyFromBytes(curve elliptic.Curve, pk []byte) (*PrivateKey,
+ *PublicKey) {
+ x, y := curve.ScalarBaseMult(pk)
+
+ priv := &ecdsa.PrivateKey{
+ PublicKey: ecdsa.PublicKey{
+ Curve: curve,
+ X: x,
+ Y: y,
+ },
+ D: new(big.Int).SetBytes(pk),
+ }
+
+ return (*PrivateKey)(priv), (*PublicKey)(&priv.PublicKey)
+}
+
+// NewPrivateKey is a wrapper for ecdsa.GenerateKey that returns a PrivateKey
+// instead of the normal ecdsa.PrivateKey.
+func NewPrivateKey(curve elliptic.Curve) (*PrivateKey, error) {
+ key, err := ecdsa.GenerateKey(curve, rand.Reader)
+ if err != nil {
+ return nil, err
+ }
+ return (*PrivateKey)(key), nil
+}
+
+// PubKey returns the PublicKey corresponding to this private key.
+func (p *PrivateKey) PubKey() *PublicKey {
+ return (*PublicKey)(&p.PublicKey)
+}
+
+// ToECDSA returns the private key as a *ecdsa.PrivateKey.
+func (p *PrivateKey) ToECDSA() *ecdsa.PrivateKey {
+ return (*ecdsa.PrivateKey)(p)
+}
+
+// Sign generates an ECDSA signature for the provided hash (which should be the result
+// of hashing a larger message) using the private key. Produced signature
+// is deterministic (same message and same key yield the same signature) and canonical
+// in accordance with RFC6979 and BIP0062.
+func (p *PrivateKey) Sign(hash []byte) (*Signature, error) {
+ return signRFC6979(p, hash)
+}
+
+// PrivKeyBytesLen defines the length in bytes of a serialized private key.
+const PrivKeyBytesLen = 32
+
+// Serialize returns the private key number d as a big-endian binary-encoded
+// number, padded to a length of 32 bytes.
+func (p *PrivateKey) Serialize() []byte {
+ b := make([]byte, 0, PrivKeyBytesLen)
+ return paddedAppend(PrivKeyBytesLen, b, p.ToECDSA().D.Bytes())
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/pubkey.go b/vendor/github.com/tendermint/btcd/btcec/pubkey.go
new file mode 100644
index 0000000000000000000000000000000000000000..cf49807522573a78b61b1ae0926c893af47d7939
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/pubkey.go
@@ -0,0 +1,192 @@
+// Copyright (c) 2013-2014 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+import (
+ "crypto/ecdsa"
+ "errors"
+ "fmt"
+ "math/big"
+)
+
+// These constants define the lengths of serialized public keys.
+const (
+ PubKeyBytesLenCompressed = 33
+ PubKeyBytesLenUncompressed = 65
+ PubKeyBytesLenHybrid = 65
+)
+
+func isOdd(a *big.Int) bool {
+ return a.Bit(0) == 1
+}
+
+// decompressPoint decompresses a point on the given curve given the X point and
+// the solution to use.
+func decompressPoint(curve *KoblitzCurve, x *big.Int, ybit bool) (*big.Int, error) {
+ // TODO: This will probably only work for secp256k1 due to
+ // optimizations.
+
+ // Y = +-sqrt(x^3 + B)
+ x3 := new(big.Int).Mul(x, x)
+ x3.Mul(x3, x)
+ x3.Add(x3, curve.Params().B)
+ x3.Mod(x3, curve.Params().P)
+
+ // Now calculate sqrt mod p of x^3 + B
+ // This code used to do a full sqrt based on tonelli/shanks,
+ // but this was replaced by the algorithms referenced in
+ // https://bitcointalk.org/index.php?topic=162805.msg1712294#msg1712294
+ y := new(big.Int).Exp(x3, curve.QPlus1Div4(), curve.Params().P)
+
+ if ybit != isOdd(y) {
+ y.Sub(curve.Params().P, y)
+ }
+
+ // Check that y is a square root of x^3 + B.
+ y2 := new(big.Int).Mul(y, y)
+ y2.Mod(y2, curve.Params().P)
+ if y2.Cmp(x3) != 0 {
+ return nil, fmt.Errorf("invalid square root")
+ }
+
+ // Verify that y-coord has expected parity.
+ if ybit != isOdd(y) {
+ return nil, fmt.Errorf("ybit doesn't match oddness")
+ }
+
+ return y, nil
+}
+
+const (
+ pubkeyCompressed byte = 0x2 // y_bit + x coord
+ pubkeyUncompressed byte = 0x4 // x coord + y coord
+ pubkeyHybrid byte = 0x6 // y_bit + x coord + y coord
+)
+
+// IsCompressedPubKey returns true the the passed serialized public key has
+// been encoded in compressed format, and false otherwise.
+func IsCompressedPubKey(pubKey []byte) bool {
+ // The public key is only compressed if it is the correct length and
+ // the format (first byte) is one of the compressed pubkey values.
+ return len(pubKey) == PubKeyBytesLenCompressed &&
+ (pubKey[0]&^byte(0x1) == pubkeyCompressed)
+}
+
+// ParsePubKey parses a public key for a koblitz curve from a bytestring into a
+// ecdsa.Publickey, verifying that it is valid. It supports compressed,
+// uncompressed and hybrid signature formats.
+func ParsePubKey(pubKeyStr []byte, curve *KoblitzCurve) (key *PublicKey, err error) {
+ pubkey := PublicKey{}
+ pubkey.Curve = curve
+
+ if len(pubKeyStr) == 0 {
+ return nil, errors.New("pubkey string is empty")
+ }
+
+ format := pubKeyStr[0]
+ ybit := (format & 0x1) == 0x1
+ format &= ^byte(0x1)
+
+ switch len(pubKeyStr) {
+ case PubKeyBytesLenUncompressed:
+ if format != pubkeyUncompressed && format != pubkeyHybrid {
+ return nil, fmt.Errorf("invalid magic in pubkey str: "+
+ "%d", pubKeyStr[0])
+ }
+
+ pubkey.X = new(big.Int).SetBytes(pubKeyStr[1:33])
+ pubkey.Y = new(big.Int).SetBytes(pubKeyStr[33:])
+ // hybrid keys have extra information, make use of it.
+ if format == pubkeyHybrid && ybit != isOdd(pubkey.Y) {
+ return nil, fmt.Errorf("ybit doesn't match oddness")
+ }
+ case PubKeyBytesLenCompressed:
+ // format is 0x2 | solution, <X coordinate>
+ // solution determines which solution of the curve we use.
+ /// y^2 = x^3 + Curve.B
+ if format != pubkeyCompressed {
+ return nil, fmt.Errorf("invalid magic in compressed "+
+ "pubkey string: %d", pubKeyStr[0])
+ }
+ pubkey.X = new(big.Int).SetBytes(pubKeyStr[1:33])
+ pubkey.Y, err = decompressPoint(curve, pubkey.X, ybit)
+ if err != nil {
+ return nil, err
+ }
+ default: // wrong!
+ return nil, fmt.Errorf("invalid pub key length %d",
+ len(pubKeyStr))
+ }
+
+ if pubkey.X.Cmp(pubkey.Curve.Params().P) >= 0 {
+ return nil, fmt.Errorf("pubkey X parameter is >= to P")
+ }
+ if pubkey.Y.Cmp(pubkey.Curve.Params().P) >= 0 {
+ return nil, fmt.Errorf("pubkey Y parameter is >= to P")
+ }
+ if !pubkey.Curve.IsOnCurve(pubkey.X, pubkey.Y) {
+ return nil, fmt.Errorf("pubkey isn't on secp256k1 curve")
+ }
+ return &pubkey, nil
+}
+
+// PublicKey is an ecdsa.PublicKey with additional functions to
+// serialize in uncompressed, compressed, and hybrid formats.
+type PublicKey ecdsa.PublicKey
+
+// ToECDSA returns the public key as a *ecdsa.PublicKey.
+func (p *PublicKey) ToECDSA() *ecdsa.PublicKey {
+ return (*ecdsa.PublicKey)(p)
+}
+
+// SerializeUncompressed serializes a public key in a 65-byte uncompressed
+// format.
+func (p *PublicKey) SerializeUncompressed() []byte {
+ b := make([]byte, 0, PubKeyBytesLenUncompressed)
+ b = append(b, pubkeyUncompressed)
+ b = paddedAppend(32, b, p.X.Bytes())
+ return paddedAppend(32, b, p.Y.Bytes())
+}
+
+// SerializeCompressed serializes a public key in a 33-byte compressed format.
+func (p *PublicKey) SerializeCompressed() []byte {
+ b := make([]byte, 0, PubKeyBytesLenCompressed)
+ format := pubkeyCompressed
+ if isOdd(p.Y) {
+ format |= 0x1
+ }
+ b = append(b, format)
+ return paddedAppend(32, b, p.X.Bytes())
+}
+
+// SerializeHybrid serializes a public key in a 65-byte hybrid format.
+func (p *PublicKey) SerializeHybrid() []byte {
+ b := make([]byte, 0, PubKeyBytesLenHybrid)
+ format := pubkeyHybrid
+ if isOdd(p.Y) {
+ format |= 0x1
+ }
+ b = append(b, format)
+ b = paddedAppend(32, b, p.X.Bytes())
+ return paddedAppend(32, b, p.Y.Bytes())
+}
+
+// IsEqual compares this PublicKey instance to the one passed, returning true if
+// both PublicKeys are equivalent. A PublicKey is equivalent to another, if they
+// both have the same X and Y coordinate.
+func (p *PublicKey) IsEqual(otherPubKey *PublicKey) bool {
+ return p.X.Cmp(otherPubKey.X) == 0 &&
+ p.Y.Cmp(otherPubKey.Y) == 0
+}
+
+// paddedAppend appends the src byte slice to dst, returning the new slice.
+// If the length of the source is smaller than the passed size, leading zero
+// bytes are appended to the dst slice before appending src.
+func paddedAppend(size uint, dst, src []byte) []byte {
+ for i := 0; i < int(size)-len(src); i++ {
+ dst = append(dst, 0)
+ }
+ return append(dst, src...)
+}
diff --git a/vendor/github.com/tendermint/btcd/btcec/secp256k1.go b/vendor/github.com/tendermint/btcd/btcec/secp256k1.go
new file mode 100644
index 0000000000000000000000000000000000000000..1b1b8179e167f5e2d1d5d2c189b9bfec70c387a4
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/secp256k1.go
@@ -0,0 +1,10 @@
+// Copyright (c) 2015 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+// Auto-generated file (see genprecomps.go)
+// DO NOT EDIT
+
+var secp256k1BytePoints = "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"
diff --git a/vendor/github.com/tendermint/btcd/btcec/signature.go b/vendor/github.com/tendermint/btcd/btcec/signature.go
new file mode 100644
index 0000000000000000000000000000000000000000..2c14a14c514ce4788e810c98ece94731ffd890a4
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcec/signature.go
@@ -0,0 +1,393 @@
+// Copyright (c) 2013-2017 The btcsuite developers
+// Use of this source code is governed by an ISC
+// license that can be found in the LICENSE file.
+
+package btcec
+
+import (
+ "bytes"
+ "crypto/ecdsa"
+ "crypto/elliptic"
+ "crypto/hmac"
+ "crypto/sha256"
+ "errors"
+ "hash"
+ "math/big"
+)
+
+// Signature is a type representing an ecdsa signature.
+type Signature struct {
+ R *big.Int
+ S *big.Int
+}
+
+var (
+ // Used in RFC6979 implementation when testing the nonce for correctness
+ one = big.NewInt(1)
+
+ // oneInitializer is used to fill a byte slice with byte 0x01. It is provided
+ // here to avoid the need to create it multiple times.
+ oneInitializer = []byte{0x01}
+)
+
+// Serialize returns the ECDSA signature as r || s,
+// where both r and s are encoded into 32 byte big endian integers.
+// In order to remove malleability,
+// we set s = curve_order - s, if s is greater than curve.Order() / 2.
+func (sig *Signature) Serialize() []byte {
+ // low 'S' malleability breaker
+ sigS := sig.S
+ if sigS.Cmp(S256().halfOrder) == 1 {
+ sigS = new(big.Int).Sub(S256().N, sigS)
+ }
+ rBytes := sig.R.Bytes()
+ sBytes := sigS.Bytes()
+ sigBytes := make([]byte, 64)
+ // 0 pad the byte arrays from the left if they aren't big enough.
+ copy(sigBytes[32-len(rBytes):32], rBytes)
+ copy(sigBytes[64-len(sBytes):64], sBytes)
+ return sigBytes
+}
+
+// Verify calls ecdsa.Verify to verify the signature of hash using the public
+// key. It returns true if the signature is valid, false otherwise.
+// To break malleability, this fails on any signature where the `s` term is
+// negative, where negative is defined as being the lexicographically larger
+// element of s and -s.
+func (sig *Signature) Verify(hash []byte, pubKey *PublicKey) bool {
+ if sig.S.Cmp(S256().halfOrder) > 0 {
+ return false
+ }
+ return ecdsa.Verify(pubKey.ToECDSA(), hash, sig.R, sig.S)
+}
+
+// IsEqual compares this Signature instance to the one passed, returning true
+// if both Signatures are equivalent. A signature is equivalent to another, if
+// they both have the same scalar value for R and S.
+func (sig *Signature) IsEqual(otherSig *Signature) bool {
+ return sig.R.Cmp(otherSig.R) == 0 &&
+ sig.S.Cmp(otherSig.S) == 0
+}
+
+func parseSig(sigStr []byte, curve elliptic.Curve) (*Signature, error) {
+ if len(sigStr) != 64 {
+ return nil, errors.New("malformed signature: not 64 bytes")
+ }
+ signature := &Signature{}
+
+ signature.R = new(big.Int).SetBytes(sigStr[:32])
+ signature.S = new(big.Int).SetBytes(sigStr[32:64])
+
+ // Verify also checks this, but we can be more sure that we parsed
+ // correctly if we verify here too.
+ // FWIW the ecdsa spec states that R and S must be | 1, N - 1 |
+ // but crypto/ecdsa only checks for Sign != 0. Mirror that.
+ if signature.R.Sign() != 1 {
+ return nil, errors.New("signature R isn't 1 or more")
+ }
+ if signature.S.Sign() != 1 {
+ return nil, errors.New("signature S isn't 1 or more")
+ }
+ if signature.R.Cmp(curve.Params().N) >= 0 {
+ return nil, errors.New("signature R is >= curve.N")
+ }
+ if signature.S.Cmp(S256().halfOrder) > 0 {
+ return nil, errors.New("signature S is > (curve.N) / 2")
+ }
+
+ return signature, nil
+}
+
+// ParseSignature parses a signature as r || s, with r and s both encoded as
+// 32 byte integers, big endian
+func ParseSignature(sigStr []byte, curve elliptic.Curve) (*Signature, error) {
+ return parseSig(sigStr, curve)
+}
+
+// hashToInt converts a hash value to an integer. There is some disagreement
+// about how this is done. [NSA] suggests that this is done in the obvious
+// manner, but [SECG] truncates the hash to the bit-length of the curve order
+// first. We follow [SECG] because that's what OpenSSL does. Additionally,
+// OpenSSL right shifts excess bits from the number if the hash is too large
+// and we mirror that too.
+// This is borrowed from crypto/ecdsa.
+func hashToInt(hash []byte, c elliptic.Curve) *big.Int {
+ orderBits := c.Params().N.BitLen()
+ orderBytes := (orderBits + 7) / 8
+ if len(hash) > orderBytes {
+ hash = hash[:orderBytes]
+ }
+
+ ret := new(big.Int).SetBytes(hash)
+ excess := len(hash)*8 - orderBits
+ if excess > 0 {
+ ret.Rsh(ret, uint(excess))
+ }
+ return ret
+}
+
+// recoverKeyFromSignature recovers a public key from the signature "sig" on the
+// given message hash "msg". Based on the algorithm found in section 5.1.5 of
+// SEC 1 Ver 2.0, page 47-48 (53 and 54 in the pdf). This performs the details
+// in the inner loop in Step 1. The counter provided is actually the j parameter
+// of the loop * 2 - on the first iteration of j we do the R case, else the -R
+// case in step 1.6. This counter is used in the bitcoin compressed signature
+// format and thus we match bitcoind's behaviour here.
+func recoverKeyFromSignature(curve *KoblitzCurve, sig *Signature, msg []byte,
+ iter int, doChecks bool) (*PublicKey, error) {
+ // 1.1 x = (n * i) + r
+ Rx := new(big.Int).Mul(curve.Params().N,
+ new(big.Int).SetInt64(int64(iter/2)))
+ Rx.Add(Rx, sig.R)
+ if Rx.Cmp(curve.Params().P) != -1 {
+ return nil, errors.New("calculated Rx is larger than curve P")
+ }
+
+ // convert 02<Rx> to point R. (step 1.2 and 1.3). If we are on an odd
+ // iteration then 1.6 will be done with -R, so we calculate the other
+ // term when uncompressing the point.
+ Ry, err := decompressPoint(curve, Rx, iter%2 == 1)
+ if err != nil {
+ return nil, err
+ }
+
+ // 1.4 Check n*R is point at infinity
+ if doChecks {
+ nRx, nRy := curve.ScalarMult(Rx, Ry, curve.Params().N.Bytes())
+ if nRx.Sign() != 0 || nRy.Sign() != 0 {
+ return nil, errors.New("n*R does not equal the point at infinity")
+ }
+ }
+
+ // 1.5 calculate e from message using the same algorithm as ecdsa
+ // signature calculation.
+ e := hashToInt(msg, curve)
+
+ // Step 1.6.1:
+ // We calculate the two terms sR and eG separately multiplied by the
+ // inverse of r (from the signature). We then add them to calculate
+ // Q = r^-1(sR-eG)
+ invr := new(big.Int).ModInverse(sig.R, curve.Params().N)
+
+ // first term.
+ invrS := new(big.Int).Mul(invr, sig.S)
+ invrS.Mod(invrS, curve.Params().N)
+ sRx, sRy := curve.ScalarMult(Rx, Ry, invrS.Bytes())
+
+ // second term.
+ e.Neg(e)
+ e.Mod(e, curve.Params().N)
+ e.Mul(e, invr)
+ e.Mod(e, curve.Params().N)
+ minuseGx, minuseGy := curve.ScalarBaseMult(e.Bytes())
+
+ // TODO: this would be faster if we did a mult and add in one
+ // step to prevent the jacobian conversion back and forth.
+ Qx, Qy := curve.Add(sRx, sRy, minuseGx, minuseGy)
+
+ return &PublicKey{
+ Curve: curve,
+ X: Qx,
+ Y: Qy,
+ }, nil
+}
+
+// SignCompact produces a compact signature of the data in hash with the given
+// private key on the given koblitz curve. The isCompressed parameter should
+// be used to detail if the given signature should reference a compressed
+// public key or not. If successful the bytes of the compact signature will be
+// returned in the format:
+// <(byte of 27+public key solution)+4 if compressed >< padded bytes for signature R><padded bytes for signature S>
+// where the R and S parameters are padde up to the bitlengh of the curve.
+func SignCompact(curve *KoblitzCurve, key *PrivateKey,
+ hash []byte, isCompressedKey bool) ([]byte, error) {
+ sig, err := key.Sign(hash)
+ if err != nil {
+ return nil, err
+ }
+
+ // bitcoind checks the bit length of R and S here. The ecdsa signature
+ // algorithm returns R and S mod N therefore they will be the bitsize of
+ // the curve, and thus correctly sized.
+ for i := 0; i < (curve.H+1)*2; i++ {
+ pk, err := recoverKeyFromSignature(curve, sig, hash, i, true)
+ if err == nil && pk.X.Cmp(key.X) == 0 && pk.Y.Cmp(key.Y) == 0 {
+ result := make([]byte, 1, 2*curve.byteSize+1)
+ result[0] = 27 + byte(i)
+ if isCompressedKey {
+ result[0] += 4
+ }
+ // Not sure this needs rounding but safer to do so.
+ curvelen := (curve.BitSize + 7) / 8
+
+ // Pad R and S to curvelen if needed.
+ bytelen := (sig.R.BitLen() + 7) / 8
+ if bytelen < curvelen {
+ result = append(result,
+ make([]byte, curvelen-bytelen)...)
+ }
+ result = append(result, sig.R.Bytes()...)
+
+ bytelen = (sig.S.BitLen() + 7) / 8
+ if bytelen < curvelen {
+ result = append(result,
+ make([]byte, curvelen-bytelen)...)
+ }
+ result = append(result, sig.S.Bytes()...)
+
+ return result, nil
+ }
+ }
+
+ return nil, errors.New("no valid solution for pubkey found")
+}
+
+// RecoverCompact verifies the compact signature "signature" of "hash" for the
+// Koblitz curve in "curve". If the signature matches then the recovered public
+// key will be returned as well as a boolen if the original key was compressed
+// or not, else an error will be returned.
+func RecoverCompact(curve *KoblitzCurve, signature,
+ hash []byte) (*PublicKey, bool, error) {
+ bitlen := (curve.BitSize + 7) / 8
+ if len(signature) != 1+bitlen*2 {
+ return nil, false, errors.New("invalid compact signature size")
+ }
+
+ iteration := int((signature[0] - 27) & ^byte(4))
+
+ // format is <header byte><bitlen R><bitlen S>
+ sig := &Signature{
+ R: new(big.Int).SetBytes(signature[1 : bitlen+1]),
+ S: new(big.Int).SetBytes(signature[bitlen+1:]),
+ }
+ // The iteration used here was encoded
+ key, err := recoverKeyFromSignature(curve, sig, hash, iteration, false)
+ if err != nil {
+ return nil, false, err
+ }
+
+ return key, ((signature[0] - 27) & 4) == 4, nil
+}
+
+// signRFC6979 generates a deterministic ECDSA signature according to RFC 6979 and BIP 62.
+func signRFC6979(privateKey *PrivateKey, hash []byte) (*Signature, error) {
+
+ privkey := privateKey.ToECDSA()
+ N := S256().N
+ halfOrder := S256().halfOrder
+ k := nonceRFC6979(privkey.D, hash)
+ inv := new(big.Int).ModInverse(k, N)
+ r, _ := privkey.Curve.ScalarBaseMult(k.Bytes())
+ if r.Cmp(N) == 1 {
+ r.Sub(r, N)
+ }
+
+ if r.Sign() == 0 {
+ return nil, errors.New("calculated R is zero")
+ }
+
+ e := hashToInt(hash, privkey.Curve)
+ s := new(big.Int).Mul(privkey.D, r)
+ s.Add(s, e)
+ s.Mul(s, inv)
+ s.Mod(s, N)
+
+ if s.Cmp(halfOrder) == 1 {
+ s.Sub(N, s)
+ }
+ if s.Sign() == 0 {
+ return nil, errors.New("calculated S is zero")
+ }
+ return &Signature{R: r, S: s}, nil
+}
+
+// nonceRFC6979 generates an ECDSA nonce (`k`) deterministically according to RFC 6979.
+// It takes a 32-byte hash as an input and returns 32-byte nonce to be used in ECDSA algorithm.
+func nonceRFC6979(privkey *big.Int, hash []byte) *big.Int {
+
+ curve := S256()
+ q := curve.Params().N
+ x := privkey
+ alg := sha256.New
+
+ qlen := q.BitLen()
+ holen := alg().Size()
+ rolen := (qlen + 7) >> 3
+ bx := append(int2octets(x, rolen), bits2octets(hash, curve, rolen)...)
+
+ // Step B
+ v := bytes.Repeat(oneInitializer, holen)
+
+ // Step C (Go zeroes the all allocated memory)
+ k := make([]byte, holen)
+
+ // Step D
+ k = mac(alg, k, append(append(v, 0x00), bx...))
+
+ // Step E
+ v = mac(alg, k, v)
+
+ // Step F
+ k = mac(alg, k, append(append(v, 0x01), bx...))
+
+ // Step G
+ v = mac(alg, k, v)
+
+ // Step H
+ for {
+ // Step H1
+ var t []byte
+
+ // Step H2
+ for len(t)*8 < qlen {
+ v = mac(alg, k, v)
+ t = append(t, v...)
+ }
+
+ // Step H3
+ secret := hashToInt(t, curve)
+ if secret.Cmp(one) >= 0 && secret.Cmp(q) < 0 {
+ return secret
+ }
+ k = mac(alg, k, append(v, 0x00))
+ v = mac(alg, k, v)
+ }
+}
+
+// mac returns an HMAC of the given key and message.
+func mac(alg func() hash.Hash, k, m []byte) []byte {
+ h := hmac.New(alg, k)
+ h.Write(m)
+ return h.Sum(nil)
+}
+
+// https://tools.ietf.org/html/rfc6979#section-2.3.3
+func int2octets(v *big.Int, rolen int) []byte {
+ out := v.Bytes()
+
+ // left pad with zeros if it's too short
+ if len(out) < rolen {
+ out2 := make([]byte, rolen)
+ copy(out2[rolen-len(out):], out)
+ return out2
+ }
+
+ // drop most significant bytes if it's too long
+ if len(out) > rolen {
+ out2 := make([]byte, rolen)
+ copy(out2, out[len(out)-rolen:])
+ return out2
+ }
+
+ return out
+}
+
+// https://tools.ietf.org/html/rfc6979#section-2.3.4
+func bits2octets(in []byte, curve elliptic.Curve, rolen int) []byte {
+ z1 := hashToInt(in, curve)
+ z2 := new(big.Int).Sub(z1, curve.Params().N)
+ if z2.Sign() < 0 {
+ return int2octets(z1, rolen)
+ }
+ return int2octets(z2, rolen)
+}
diff --git a/vendor/github.com/tendermint/btcd/btcjson/CONTRIBUTORS b/vendor/github.com/tendermint/btcd/btcjson/CONTRIBUTORS
new file mode 100644
index 0000000000000000000000000000000000000000..b8d98b32f342e8e7c61229150dac1eec2e790cc5
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/btcjson/CONTRIBUTORS
@@ -0,0 +1,16 @@
+# This is the list of people who have contributed code to the repository.
+#
+# Names should be added to this file only after verifying that the individual
+# or the individual's organization has agreed to the LICENSE.
+#
+# Names should be added to this file like so:
+# Name <email address>
+
+John C. Vernaleo <jcv@conformal.com>
+Dave Collins <davec@conformal.com>
+Owain G. Ainsworth <oga@conformal.com>
+David Hill <dhill@conformal.com>
+Josh Rickmar <jrick@conformal.com>
+Andreas Metsälä <andreas.metsala@gmail.com>
+Francis Lam <flam@alum.mit.edu>
+Geert-Johan Riemer <geertjohan.riemer@gmail.com>
diff --git a/vendor/github.com/tendermint/btcd/rpcclient/CONTRIBUTORS b/vendor/github.com/tendermint/btcd/rpcclient/CONTRIBUTORS
new file mode 100644
index 0000000000000000000000000000000000000000..86c2b9938a18e4167a224fbe729d4ec2c8b5792f
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/rpcclient/CONTRIBUTORS
@@ -0,0 +1,13 @@
+# This is the list of people who have contributed code to the repository.
+#
+# Names should be added to this file only after verifying that the individual
+# or the individual's organization has agreed to the LICENSE.
+#
+# Names should be added to this file like so:
+# Name <email address>
+
+Dave Collins <davec@conformal.com>
+Geert-Johan Riemer <geertjohan.riemer@gmail.com>
+Josh Rickmar <jrick@conformal.com>
+Michalis Kargakis <michaliskargakis@gmail.com>
+Ruben de Vries <ruben@rubensayshi.com
diff --git a/vendor/github.com/tendermint/btcd/txscript/data/LICENSE b/vendor/github.com/tendermint/btcd/txscript/data/LICENSE
new file mode 100644
index 0000000000000000000000000000000000000000..30d808c5884bb9e81ffd24001704c4b0aabe5d53
--- /dev/null
+++ b/vendor/github.com/tendermint/btcd/txscript/data/LICENSE
@@ -0,0 +1,8 @@
+The json files in this directory come from the bitcoind project
+(https://github.com/bitcoin/bitcoin) and is released under the following
+license:
+
+ Copyright (c) 2012-2014 The Bitcoin Core developers
+ Distributed under the MIT/X11 software license, see the accompanying
+ file COPYING or http://www.opensource.org/licenses/mit-license.php.
+
diff --git a/vendor/github.com/tendermint/go-amino/amino.go b/vendor/github.com/tendermint/go-amino/amino.go
index 1f0f2a5313bbfbb74157702cb21d8baca1ac4774..d2c504e9e9feb51fa54909bcbb0e936bdbc7b8f2 100644
--- a/vendor/github.com/tendermint/go-amino/amino.go
+++ b/vendor/github.com/tendermint/go-amino/amino.go
@@ -8,14 +8,28 @@ import (
"fmt"
"io"
"reflect"
+ "time"
)
//----------------------------------------
// Global methods for global sealed codec.
var gcdc *Codec
+// we use this time to init. a zero value (opposed to reflect.Zero which gives time.Time{} / 01-01-01 00:00:00)
+var zeroTime time.Time
+
+const (
+ unixEpochStr = "1970-01-01 00:00:00 +0000 UTC"
+ epochFmt = "2006-01-02 15:04:05 +0000 UTC"
+)
+
func init() {
gcdc = NewCodec().Seal()
+ var err error
+ zeroTime, err = time.Parse(epochFmt, unixEpochStr)
+ if err != nil {
+ panic("couldn't parse Zero value for time")
+ }
}
func MarshalBinary(o interface{}) ([]byte, error) {
@@ -189,7 +203,7 @@ func (cdc *Codec) MarshalBinaryBare(o interface{}) ([]byte, error) {
if err != nil {
return nil, err
}
- err = cdc.encodeReflectBinary(buf, info, rv, FieldOptions{}, true)
+ err = cdc.encodeReflectBinary(buf, info, rv, FieldOptions{BinFieldNum: 1}, true)
if err != nil {
return nil, err
}
@@ -327,7 +341,7 @@ func (cdc *Codec) UnmarshalBinaryBare(bz []byte, ptr interface{}) error {
bz = bz[4:]
}
// Decode contents into rv.
- n, err := cdc.decodeReflectBinary(bz, info, rv, FieldOptions{}, true)
+ n, err := cdc.decodeReflectBinary(bz, info, rv, FieldOptions{BinFieldNum: 1}, true)
if err != nil {
return fmt.Errorf("unmarshal to %v failed after %d bytes (%v): %X", info.Type, n, err, bz)
}
diff --git a/vendor/github.com/tendermint/go-amino/binary-decode.go b/vendor/github.com/tendermint/go-amino/binary-decode.go
index 6e18bc37183d5878b15b655d2e3826db1ce96997..45da3b62c05e0737f7d4575f722a9262a9f057ca 100644
--- a/vendor/github.com/tendermint/go-amino/binary-decode.go
+++ b/vendor/github.com/tendermint/go-amino/binary-decode.go
@@ -401,6 +401,7 @@ func (cdc *Codec) decodeReflectBinaryByteArray(bz []byte, info *TypeInfo, rv ref
}
// CONTRACT: rv.CanAddr() is true.
+// NOTE: Keep the code structure similar to decodeReflectBinarySlice.
func (cdc *Codec) decodeReflectBinaryArray(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (n int, err error) {
if !rv.CanAddr() {
panic("rv not addressable")
@@ -461,6 +462,9 @@ func (cdc *Codec) decodeReflectBinaryArray(bz []byte, info *TypeInfo, rv reflect
return
}
} else {
+ // NOTE: ert is for the element value, while einfo.Type is dereferenced.
+ isErtStructPointer := ert.Kind() == reflect.Ptr && einfo.Type.Kind() == reflect.Struct
+
// Read elements in unpacked form.
for i := 0; i < length; i++ {
// Read field key (number and type).
@@ -480,10 +484,16 @@ func (cdc *Codec) decodeReflectBinaryArray(bz []byte, info *TypeInfo, rv reflect
}
// Decode the next ByteLength bytes into erv.
var erv = rv.Index(i)
- // Special case if next ByteLength bytes are 0x00, set nil.
- if len(bz) > 0 && bz[0] == 0x00 {
+ // Special case if:
+ // * next ByteLength bytes are 0x00, and
+ // * - erv is not a struct pointer, or
+ // - field option doesn't have EmptyElements set
+ // (the condition below uses demorgan's law)
+ if (len(bz) > 0 && bz[0] == 0x00) &&
+ !(isErtStructPointer && fopts.EmptyElements) {
+
slide(&bz, &n, 1)
- erv.Set(reflect.Zero(erv.Type()))
+ erv.Set(defaultValue(erv.Type()))
continue
}
// Normal case, read next non-nil element from bz.
@@ -547,6 +557,7 @@ func (cdc *Codec) decodeReflectBinaryByteSlice(bz []byte, info *TypeInfo, rv ref
}
// CONTRACT: rv.CanAddr() is true.
+// NOTE: Keep the code structure similar to decodeReflectBinaryArray.
func (cdc *Codec) decodeReflectBinarySlice(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (n int, err error) {
if !rv.CanAddr() {
panic("rv not addressable")
@@ -611,6 +622,9 @@ func (cdc *Codec) decodeReflectBinarySlice(bz []byte, info *TypeInfo, rv reflect
srv = reflect.Append(srv, erv)
}
} else {
+ // NOTE: ert is for the element value, while einfo.Type is dereferenced.
+ isErtStructPointer := ert.Kind() == reflect.Ptr && einfo.Type.Kind() == reflect.Struct
+
// Read elements in unpacked form.
for {
if len(bz) == 0 {
@@ -636,10 +650,16 @@ func (cdc *Codec) decodeReflectBinarySlice(bz []byte, info *TypeInfo, rv reflect
}
// Decode the next ByteLength bytes into erv.
erv, _n := reflect.New(ert).Elem(), int(0)
- // Special case if next ByteLength bytes are 0x00, set nil.
- if len(bz) > 0 && bz[0] == 0x00 {
+ // Special case if:
+ // * next ByteLength bytes are 0x00, and
+ // * - erv is not a struct pointer, or
+ // - field option doesn't have EmptyElements set
+ // (the condition below uses demorgan's law)
+ if (len(bz) > 0 && bz[0] == 0x00) &&
+ !(isErtStructPointer && fopts.EmptyElements) {
+
slide(&bz, &n, 1)
- erv.Set(reflect.Zero(erv.Type()))
+ erv.Set(defaultValue(erv.Type()))
srv = reflect.Append(srv, erv)
continue
}
@@ -703,7 +723,6 @@ func (cdc *Codec) decodeReflectBinaryStruct(bz []byte, info *TypeInfo, rv reflec
var lastFieldNum uint32
// Read each field.
for _, field := range info.Fields {
-
// Get field rv and info.
var frv = rv.Field(field.Index)
var finfo *TypeInfo
@@ -714,7 +733,7 @@ func (cdc *Codec) decodeReflectBinaryStruct(bz []byte, info *TypeInfo, rv reflec
// We're done if we've consumed all the bytes.
if len(bz) == 0 {
- frv.Set(reflect.Zero(frv.Type()))
+ frv.Set(defaultValue(frv.Type()))
continue
}
@@ -731,7 +750,7 @@ func (cdc *Codec) decodeReflectBinaryStruct(bz []byte, info *TypeInfo, rv reflec
fnum, typ, _n, err = decodeFieldNumberAndTyp3(bz)
if field.BinFieldNum < fnum {
// Set zero field value.
- frv.Set(reflect.Zero(frv.Type()))
+ frv.Set(defaultValue(frv.Type()))
continue
// Do not slide, we will read it again.
}
@@ -760,7 +779,6 @@ func (cdc *Codec) decodeReflectBinaryStruct(bz []byte, info *TypeInfo, rv reflec
typWanted, fnum, info.Type, typ))
return
}
-
// Decode field into frv.
_n, err = cdc.decodeReflectBinary(bz, finfo, frv, field.FieldOptions, false)
if slide(&bz, &n, _n) && err != nil {
diff --git a/vendor/github.com/tendermint/go-amino/binary-encode.go b/vendor/github.com/tendermint/go-amino/binary-encode.go
index 9f7e5831ac896e8adad9972bc67ebcb40f4820d3..23fde403b972b087f9672746f03dd9d2e7315119 100644
--- a/vendor/github.com/tendermint/go-amino/binary-encode.go
+++ b/vendor/github.com/tendermint/go-amino/binary-encode.go
@@ -24,10 +24,10 @@ import (
// CONTRACT: rv is valid.
func (cdc *Codec) encodeReflectBinary(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (err error) {
if rv.Kind() == reflect.Ptr {
- panic("should not happen")
+ panic("not allowed to be called with a reflect.Ptr")
}
if !rv.IsValid() {
- panic("should not happen")
+ panic("not allowed to be called with invalid / zero Value")
}
if printLog {
spew.Printf("(E) encodeReflectBinary(info: %v, rv: %#v (%v), fopts: %v)\n",
@@ -297,6 +297,9 @@ func (cdc *Codec) encodeReflectBinaryList(w io.Writer, info *TypeInfo, rv reflec
}
}
} else {
+ // NOTE: ert is for the element value, while einfo.Type is dereferenced.
+ isErtStructPointer := ert.Kind() == reflect.Ptr && einfo.Type.Kind() == reflect.Struct
+
// Write elems in unpacked form.
for i := 0; i < rv.Len(); i++ {
// Write elements as repeated fields of the parent struct.
@@ -307,6 +310,17 @@ func (cdc *Codec) encodeReflectBinaryList(w io.Writer, info *TypeInfo, rv reflec
// Get dereferenced element value and info.
var erv, isDefault = isDefaultValue(rv.Index(i))
if isDefault {
+ // Special case if:
+ // - erv is a struct pointer and
+ // - field option has EmptyElements set
+ if isErtStructPointer && fopts.EmptyElements {
+ // NOTE: Not sure what to do here, but for future-proofing,
+ // we explicitly fail on nil pointers, just like
+ // Proto3's Golang client does.
+ // This also makes it easier to upgrade to Amino2
+ // which would enable the encoding of nil structs.
+ return errors.New("nil struct pointers not supported when empty_elements field tag is set")
+ }
// Nothing to encode, so the length is 0.
err = EncodeByte(buf, byte(0x00))
if err != nil {
@@ -384,28 +398,42 @@ func (cdc *Codec) encodeReflectBinaryStruct(w io.Writer, info *TypeInfo, rv refl
return
}
// Get dereferenced field value and info.
- var frv, isDefault = isDefaultValue(rv.Field(field.Index))
- if isDefault {
- // Do not encode default value fields.
+ var frv = rv.Field(field.Index)
+ var frvIsPtr = frv.Kind() == reflect.Ptr
+ var dfrv, isDefault = isDefaultValue(frv)
+ if isDefault && !fopts.WriteEmpty {
+ // Do not encode default value fields
+ // (except when `amino:"write_empty"` is set).
continue
}
if field.UnpackedList {
// Write repeated field entries for each list item.
- err = cdc.encodeReflectBinaryList(buf, finfo, frv, field.FieldOptions, true)
+ err = cdc.encodeReflectBinaryList(buf, finfo, dfrv, field.FieldOptions, true)
if err != nil {
return
}
} else {
+ lBeforeKey := buf.Len()
// Write field key (number and type).
err = encodeFieldNumberAndTyp3(buf, field.BinFieldNum, typeToTyp3(finfo.Type, field.FieldOptions))
if err != nil {
return
}
- // Write field from rv.
- err = cdc.encodeReflectBinary(buf, finfo, frv, field.FieldOptions, false)
+ lBeforeValue := buf.Len()
+
+ // Write field value from rv.
+ err = cdc.encodeReflectBinary(buf, finfo, dfrv, field.FieldOptions, false)
if err != nil {
return
}
+ lAfterValue := buf.Len()
+
+ if !frvIsPtr && !fopts.WriteEmpty && lBeforeValue == lAfterValue-1 && buf.Bytes()[buf.Len()-1] == 0x00 {
+ // rollback typ3/fieldnum and last byte if
+ // not a pointer and empty:
+ buf.Truncate(lBeforeKey)
+ }
+
}
}
}
diff --git a/vendor/github.com/tendermint/go-amino/codec.go b/vendor/github.com/tendermint/go-amino/codec.go
index 605b9993ab6a1a44fc1f53ed16bd28fb69d028ca..4685f18c2c6548c0bf4490f57d2b9d4a7f4dc844 100644
--- a/vendor/github.com/tendermint/go-amino/codec.go
+++ b/vendor/github.com/tendermint/go-amino/codec.go
@@ -116,7 +116,10 @@ type FieldOptions struct {
BinFixed64 bool // (Binary) Encode as fixed64
BinFixed32 bool // (Binary) Encode as fixed32
BinFieldNum uint32 // (Binary) max 1<<29-1
- Unsafe bool // e.g. if this field is a float.
+
+ Unsafe bool // e.g. if this field is a float.
+ WriteEmpty bool // write empty structs and lists (default false except for pointers)
+ EmptyElements bool // Slice and Array elements are never nil, decode 0x00 as empty struct.
}
//----------------------------------------
@@ -505,8 +508,17 @@ func (cdc *Codec) parseFieldOptions(field reflect.StructField) (skip bool, fopts
}
// Parse amino tags.
- if aminoTag == "unsafe" {
- fopts.Unsafe = true
+ aminoTags := strings.Split(aminoTag, ",")
+ for _, aminoTag := range aminoTags {
+ if aminoTag == "unsafe" {
+ fopts.Unsafe = true
+ }
+ if aminoTag == "write_empty" {
+ fopts.WriteEmpty = true
+ }
+ if aminoTag == "empty_elements" {
+ fopts.EmptyElements = true
+ }
}
return
diff --git a/vendor/github.com/tendermint/go-amino/decoder.go b/vendor/github.com/tendermint/go-amino/decoder.go
index 9464a0c8174684bc925c74f224f24b2c55fac532..054e52d2561f28f98622ff0c9ed311c69488687e 100644
--- a/vendor/github.com/tendermint/go-amino/decoder.go
+++ b/vendor/github.com/tendermint/go-amino/decoder.go
@@ -17,7 +17,7 @@ func DecodeInt8(bz []byte) (i int8, n int, err error) {
if err != nil {
return
}
- if i64 > int64(math.MaxInt8) {
+ if i64 < int64(math.MinInt8) || i64 > int64(math.MaxInt8) {
err = errors.New("EOF decoding int8")
return
}
@@ -31,7 +31,7 @@ func DecodeInt16(bz []byte) (i int16, n int, err error) {
if err != nil {
return
}
- if i64 > int64(math.MaxInt16) {
+ if i64 < int64(math.MinInt16) || i64 > int64(math.MaxInt16) {
err = errors.New("EOF decoding int16")
return
}
@@ -198,59 +198,31 @@ func DecodeFloat64(bz []byte) (f float64, n int, err error) {
// undefined.
// TODO return error if behavior is undefined.
func DecodeTime(bz []byte) (t time.Time, n int, err error) {
+ // Defensively set default to to zeroTime (1970, not 0001)
+ t = zeroTime
- // TODO: This is a temporary measure until we support MarshalAmino/UnmarshalAmino.
- // Basically, MarshalAmino on time should return a struct.
- // This is how that struct would be encoded.
-
- { // Decode field number 1 and Typ3 (8Byte).
- var fieldNum, typ, _n = uint32(0), Typ3(0x00), int(0)
- fieldNum, typ, _n, err = decodeFieldNumberAndTyp3(bz)
- if slide(&bz, &n, _n) && err != nil {
- return
- }
- if fieldNum != 1 {
- err = fmt.Errorf("expected field number 1, got %v", fieldNum)
- return
- }
- if typ != Typ3_8Byte {
- err = fmt.Errorf("expected Typ3 bytes <8Bytes> for time field #1, got %v", typ)
+ // Read sec and nanosec.
+ var sec int64
+ var nsec int32
+ if len(bz) > 0 {
+ sec, n, err = decodeSeconds(&bz)
+ if err != nil {
return
}
}
- // Actually read the Int64.
- var sec, _n = int64(0), int(0)
- sec, _n, err = DecodeInt64(bz)
- if slide(&bz, &n, _n) && err != nil {
- return
- }
-
- { // Decode field number 2 and Typ3 (4Byte).
- var fieldNum, typ, _n = uint32(0), Typ3(0x00), int(0)
- fieldNum, typ, _n, err = decodeFieldNumberAndTyp3(bz)
- if slide(&bz, &n, _n) && err != nil {
- return
- }
- if fieldNum != 2 {
- err = fmt.Errorf("expected field number 2, got %v", fieldNum)
+ if len(bz) > 0 {
+ nsec, err = decodeNanos(&bz, &n)
+ if err != nil {
return
}
- if typ != Typ3_4Byte {
- err = fmt.Errorf("expected Typ3 bytes <4Byte> for time field #2, got %v", typ)
- return
- }
- }
- // Actually read the Int32.
- var nsec = int32(0)
- nsec, _n, err = DecodeInt32(bz)
- if slide(&bz, &n, _n) && err != nil {
- return
}
+
// Validation check.
if nsec < 0 || 999999999 < nsec {
err = fmt.Errorf("invalid time, nanoseconds out of bounds %v", nsec)
return
}
+
// Construct time.
t = time.Unix(sec, int64(nsec))
// Strip timezone and monotonic for deep equality.
@@ -258,6 +230,51 @@ func DecodeTime(bz []byte) (t time.Time, n int, err error) {
return
}
+func decodeSeconds(bz *[]byte) (int64, int, error) {
+ // Optionally decode field number 1 and Typ3 (8Byte).
+ // only slide if we need to:
+ n := 0
+ fieldNum, typ, _n, err := decodeFieldNumberAndTyp3(*bz)
+ if err != nil {
+ return 0, n, err
+ }
+ if fieldNum == 1 && typ == Typ3_8Byte {
+ slide(bz, &n, _n)
+ _n = 0
+ sec, _n, err := DecodeInt64(*bz)
+ if slide(bz, &n, _n) && err != nil {
+ return 0, n, err
+ } else {
+ return sec, n, err
+ }
+ } else if fieldNum == 2 && typ == Typ3_4Byte {
+ // skip: do not slide, no error, will read again
+ return 0, n, nil
+ } else {
+ return 0, n, fmt.Errorf("expected field number 1 <8Bytes> or field number 2 <4Bytes> , got %v", fieldNum)
+ }
+}
+
+func decodeNanos(bz *[]byte, n *int) (int32, error) {
+ // Optionally decode field number 2 and Typ3 (4Byte).
+ fieldNum, typ, _n, err := decodeFieldNumberAndTyp3(*bz)
+ if err != nil {
+ return 0, err
+ }
+ if fieldNum == 2 && typ == Typ3_4Byte {
+ slide(bz, n, _n)
+ _n = 0
+ // Actually read the Int32.
+ nsec, _n, err := DecodeInt32(*bz)
+ if slide(bz, n, _n) && err != nil {
+ return 0, err
+ }
+ return nsec, nil
+ }
+ // skip over (no error)
+ return 0, nil
+}
+
func DecodeByteSlice(bz []byte) (bz2 []byte, n int, err error) {
var count uint64
var _n int
diff --git a/vendor/github.com/tendermint/go-amino/encoder.go b/vendor/github.com/tendermint/go-amino/encoder.go
index 05fe73c998c97d5925f7d205e28b6d9ce94d4d92..abdc5661d8b2da8d630a9a7d8cd476342ce631c8 100644
--- a/vendor/github.com/tendermint/go-amino/encoder.go
+++ b/vendor/github.com/tendermint/go-amino/encoder.go
@@ -119,23 +119,27 @@ func EncodeTime(w io.Writer, t time.Time) (err error) {
var ns = int32(t.Nanosecond()) // this int64 -> int32 is safe.
// TODO: We are hand-encoding a struct until MarshalAmino/UnmarshalAmino is supported.
-
- err = encodeFieldNumberAndTyp3(w, 1, Typ3_8Byte)
- if err != nil {
- return
- }
- err = EncodeInt64(w, s)
- if err != nil {
- return
+ // skip if default/zero value:
+ if s != 0 {
+ err = encodeFieldNumberAndTyp3(w, 1, Typ3_8Byte)
+ if err != nil {
+ return
+ }
+ err = EncodeInt64(w, s)
+ if err != nil {
+ return
+ }
}
-
- err = encodeFieldNumberAndTyp3(w, 2, Typ3_4Byte)
- if err != nil {
- return
- }
- err = EncodeInt32(w, ns)
- if err != nil {
- return
+ // skip if default/zero value:
+ if ns != 0 {
+ err = encodeFieldNumberAndTyp3(w, 2, Typ3_4Byte)
+ if err != nil {
+ return
+ }
+ err = EncodeInt32(w, ns)
+ if err != nil {
+ return
+ }
}
return
diff --git a/vendor/github.com/tendermint/go-amino/reflect.go b/vendor/github.com/tendermint/go-amino/reflect.go
index 10a2cea95beb2e2b0f955eac74def7b7c0ea0a9a..da5dde661a335bb2bb4bd48d29b484080c04fe97 100644
--- a/vendor/github.com/tendermint/go-amino/reflect.go
+++ b/vendor/github.com/tendermint/go-amino/reflect.go
@@ -96,10 +96,12 @@ func derefPointersZero(rv reflect.Value) (drv reflect.Value, isPtr bool, isNilPt
return
}
-// Returns isDefaultValue=true iff is ultimately nil or empty after (recursive)
-// dereferencing. If isDefaultValue=false, erv is set to the non-nil non-empty
-// non-default dereferenced value.
-// A zero/empty struct is not considered default.
+// Returns isDefaultValue=true iff is ultimately nil or empty
+// after (recursive) dereferencing.
+// If isDefaultValue=false, erv is set to the non-nil non-default
+// dereferenced value.
+// A zero/empty struct is not considered default for this
+// function.
func isDefaultValue(rv reflect.Value) (erv reflect.Value, isDefaultValue bool) {
rv, _, isNilPtr := derefPointers(rv)
if isNilPtr {
@@ -124,6 +126,47 @@ func isDefaultValue(rv reflect.Value) (erv reflect.Value, isDefaultValue bool) {
}
}
+// Returns the default value of a type. For a time type or a pointer(s) to
+// time, the default value is not zero (or nil), but the time value of 1970.
+func defaultValue(rt reflect.Type) (rv reflect.Value) {
+ switch rt.Kind() {
+ case reflect.Ptr:
+ // Dereference all the way and see if it's a time type.
+ rt_, indirects := rt.Elem(), 1
+ for rt_.Kind() == reflect.Ptr {
+ rt_ = rt_.Elem()
+ indirects += 1
+ }
+ switch rt_ {
+ case timeType:
+ // Start from the top and construct pointers as needed.
+ rv = reflect.New(rt).Elem()
+ rt_, rv_ := rt, rv
+ for rt_.Kind() == reflect.Ptr {
+ newPtr := reflect.New(rt_.Elem())
+ rv_.Set(newPtr)
+ rt_ = rt_.Elem()
+ rv_ = rv_.Elem()
+ }
+ // Set to 1970, the whole point of this function.
+ rv_.Set(reflect.ValueOf(zeroTime))
+ return rv
+ }
+ case reflect.Struct:
+ switch rt {
+ case timeType:
+ // Set to 1970, the whole point of this function.
+ rv = reflect.New(rt).Elem()
+ rv.Set(reflect.ValueOf(zeroTime))
+ return rv
+ }
+ }
+
+ // Just return ithe default Go zero object.
+ // Return an empty struct.
+ return reflect.Zero(rt)
+}
+
func isNil(rv reflect.Value) bool {
switch rv.Kind() {
case reflect.Interface, reflect.Chan, reflect.Func, reflect.Map, reflect.Ptr, reflect.Slice:
diff --git a/vendor/github.com/tendermint/go-amino/version.go b/vendor/github.com/tendermint/go-amino/version.go
index ed348aaf42f88c0dd79af44a3013f4bc8d19221c..dca5619f4ee822f128fa3bac0dfe59215d56692e 100644
--- a/vendor/github.com/tendermint/go-amino/version.go
+++ b/vendor/github.com/tendermint/go-amino/version.go
@@ -1,4 +1,4 @@
package amino
// Version
-const Version = "0.10.1"
+const Version = "0.12.0"
diff --git a/vendor/github.com/tendermint/tendermint/abci/client/grpc_client.go b/vendor/github.com/tendermint/tendermint/abci/client/grpc_client.go
index a1f0994684fef40076e2bb42c89dc59e0fbe5ea1..4f37b17b660ebbb77db2d0bbab6e4d8877e6a837 100644
--- a/vendor/github.com/tendermint/tendermint/abci/client/grpc_client.go
+++ b/vendor/github.com/tendermint/tendermint/abci/client/grpc_client.go
@@ -22,6 +22,7 @@ type grpcClient struct {
mustConnect bool
client types.ABCIApplicationClient
+ conn *grpc.ClientConn
mtx sync.Mutex
addr string
@@ -60,6 +61,7 @@ RETRY_LOOP:
cli.Logger.Info("Dialed server. Waiting for echo.", "addr", cli.addr)
client := types.NewABCIApplicationClient(conn)
+ cli.conn = conn
ENSURE_CONNECTED:
for {
@@ -78,12 +80,10 @@ RETRY_LOOP:
func (cli *grpcClient) OnStop() {
cli.BaseService.OnStop()
- cli.mtx.Lock()
- defer cli.mtx.Unlock()
- // TODO: how to close conn? its not a net.Conn and grpc doesn't expose a Close()
- /*if cli.client.conn != nil {
- cli.client.conn.Close()
- }*/
+
+ if cli.conn != nil {
+ cli.conn.Close()
+ }
}
func (cli *grpcClient) StopForError(err error) {
diff --git a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/helpers.go b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/helpers.go
index 0e69fab9f6cf47fd5bb7b4f98d0cb9918ca0e62b..bb086dec0b973381803b16ee112c297024c0d9f6 100644
--- a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/helpers.go
+++ b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/helpers.go
@@ -7,12 +7,10 @@ import (
// RandVal creates one random validator, with a key derived
// from the input value
-func RandVal(i int) types.Validator {
- addr := cmn.RandBytes(20)
+func RandVal(i int) types.ValidatorUpdate {
pubkey := cmn.RandBytes(32)
power := cmn.RandUint16() + 1
- v := types.Ed25519Validator(pubkey, int64(power))
- v.Address = addr
+ v := types.Ed25519ValidatorUpdate(pubkey, int64(power))
return v
}
@@ -20,8 +18,8 @@ func RandVal(i int) types.Validator {
// the application. Note that the keys are deterministically
// derived from the index in the array, while the power is
// random (Change this if not desired)
-func RandVals(cnt int) []types.Validator {
- res := make([]types.Validator, cnt)
+func RandVals(cnt int) []types.ValidatorUpdate {
+ res := make([]types.ValidatorUpdate, cnt)
for i := 0; i < cnt; i++ {
res[i] = RandVal(i)
}
diff --git a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/kvstore.go b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/kvstore.go
index 0f72b44eafa106b329f91ed290044f0b3f8896dc..d8d18d5e242b6f25668d3aaeab9c4db628972770 100644
--- a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/kvstore.go
+++ b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/kvstore.go
@@ -81,8 +81,8 @@ func (app *KVStoreApplication) DeliverTx(tx []byte) types.ResponseDeliverTx {
app.state.Size += 1
tags := []cmn.KVPair{
- {[]byte("app.creator"), []byte("jae")},
- {[]byte("app.key"), key},
+ {Key: []byte("app.creator"), Value: []byte("jae")},
+ {Key: []byte("app.key"), Value: key},
}
return types.ResponseDeliverTx{Code: code.CodeTypeOK, Tags: tags}
}
diff --git a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/persistent_kvstore.go b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/persistent_kvstore.go
index 12ccbab782be0094fa6bb60526539a54d5c1a4d3..f969eebfefa5c106f018266e7f7cb5d9788dae41 100644
--- a/vendor/github.com/tendermint/tendermint/abci/example/kvstore/persistent_kvstore.go
+++ b/vendor/github.com/tendermint/tendermint/abci/example/kvstore/persistent_kvstore.go
@@ -9,7 +9,6 @@ import (
"github.com/tendermint/tendermint/abci/example/code"
"github.com/tendermint/tendermint/abci/types"
- cmn "github.com/tendermint/tendermint/libs/common"
dbm "github.com/tendermint/tendermint/libs/db"
"github.com/tendermint/tendermint/libs/log"
)
@@ -26,7 +25,7 @@ type PersistentKVStoreApplication struct {
app *KVStoreApplication
// validator set
- ValUpdates []types.Validator
+ ValUpdates []types.ValidatorUpdate
logger log.Logger
}
@@ -102,7 +101,7 @@ func (app *PersistentKVStoreApplication) InitChain(req types.RequestInitChain) t
// Track the block hash and header information
func (app *PersistentKVStoreApplication) BeginBlock(req types.RequestBeginBlock) types.ResponseBeginBlock {
// reset valset changes
- app.ValUpdates = make([]types.Validator, 0)
+ app.ValUpdates = make([]types.ValidatorUpdate, 0)
return types.ResponseBeginBlock{}
}
@@ -114,11 +113,11 @@ func (app *PersistentKVStoreApplication) EndBlock(req types.RequestEndBlock) typ
//---------------------------------------------
// update validators
-func (app *PersistentKVStoreApplication) Validators() (validators []types.Validator) {
+func (app *PersistentKVStoreApplication) Validators() (validators []types.ValidatorUpdate) {
itr := app.app.state.db.Iterator(nil, nil)
for ; itr.Valid(); itr.Next() {
if isValidatorTx(itr.Key()) {
- validator := new(types.Validator)
+ validator := new(types.ValidatorUpdate)
err := types.ReadMessage(bytes.NewBuffer(itr.Value()), validator)
if err != nil {
panic(err)
@@ -130,7 +129,7 @@ func (app *PersistentKVStoreApplication) Validators() (validators []types.Valida
}
func MakeValSetChangeTx(pubkey types.PubKey, power int64) []byte {
- return []byte(cmn.Fmt("val:%X/%d", pubkey.Data, power))
+ return []byte(fmt.Sprintf("val:%X/%d", pubkey.Data, power))
}
func isValidatorTx(tx []byte) bool {
@@ -168,11 +167,11 @@ func (app *PersistentKVStoreApplication) execValidatorTx(tx []byte) types.Respon
}
// update
- return app.updateValidator(types.Ed25519Validator(pubkey, int64(power)))
+ return app.updateValidator(types.Ed25519ValidatorUpdate(pubkey, int64(power)))
}
// add, update, or remove a validator
-func (app *PersistentKVStoreApplication) updateValidator(v types.Validator) types.ResponseDeliverTx {
+func (app *PersistentKVStoreApplication) updateValidator(v types.ValidatorUpdate) types.ResponseDeliverTx {
key := []byte("val:" + string(v.PubKey.Data))
if v.Power == 0 {
// remove validator
diff --git a/vendor/github.com/tendermint/tendermint/abci/types/pubkey.go b/vendor/github.com/tendermint/tendermint/abci/types/pubkey.go
index e5cd5fbf3e47942e51049a1aa2be446194ca56a4..46cd8c5e8873013a99b154d9f6ac85efeb4ab55e 100644
--- a/vendor/github.com/tendermint/tendermint/abci/types/pubkey.go
+++ b/vendor/github.com/tendermint/tendermint/abci/types/pubkey.go
@@ -4,8 +4,8 @@ const (
PubKeyEd25519 = "ed25519"
)
-func Ed25519Validator(pubkey []byte, power int64) Validator {
- return Validator{
+func Ed25519ValidatorUpdate(pubkey []byte, power int64) ValidatorUpdate {
+ return ValidatorUpdate{
// Address:
PubKey: PubKey{
Type: PubKeyEd25519,
diff --git a/vendor/github.com/tendermint/tendermint/abci/types/types.pb.go b/vendor/github.com/tendermint/tendermint/abci/types/types.pb.go
index ac71d91c8f95534f2e8cd1d9f49b36cba249176b..7873f0975ac24636b0664bdb4c578cda5425a827 100644
--- a/vendor/github.com/tendermint/tendermint/abci/types/types.pb.go
+++ b/vendor/github.com/tendermint/tendermint/abci/types/types.pb.go
@@ -1,7 +1,6 @@
// Code generated by protoc-gen-gogo. DO NOT EDIT.
// source: abci/types/types.proto
-//nolint
package types
import proto "github.com/gogo/protobuf/proto"
@@ -16,8 +15,10 @@ import time "time"
import bytes "bytes"
-import context "golang.org/x/net/context"
-import grpc "google.golang.org/grpc"
+import (
+ context "golang.org/x/net/context"
+ grpc "google.golang.org/grpc"
+)
import github_com_gogo_protobuf_types "github.com/gogo/protobuf/types"
@@ -59,7 +60,7 @@ func (m *Request) Reset() { *m = Request{} }
func (m *Request) String() string { return proto.CompactTextString(m) }
func (*Request) ProtoMessage() {}
func (*Request) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{0}
+ return fileDescriptor_types_c68d3007ea320b94, []int{0}
}
func (m *Request) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -481,7 +482,7 @@ func (m *RequestEcho) Reset() { *m = RequestEcho{} }
func (m *RequestEcho) String() string { return proto.CompactTextString(m) }
func (*RequestEcho) ProtoMessage() {}
func (*RequestEcho) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{1}
+ return fileDescriptor_types_c68d3007ea320b94, []int{1}
}
func (m *RequestEcho) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -527,7 +528,7 @@ func (m *RequestFlush) Reset() { *m = RequestFlush{} }
func (m *RequestFlush) String() string { return proto.CompactTextString(m) }
func (*RequestFlush) ProtoMessage() {}
func (*RequestFlush) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{2}
+ return fileDescriptor_types_c68d3007ea320b94, []int{2}
}
func (m *RequestFlush) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -567,7 +568,7 @@ func (m *RequestInfo) Reset() { *m = RequestInfo{} }
func (m *RequestInfo) String() string { return proto.CompactTextString(m) }
func (*RequestInfo) ProtoMessage() {}
func (*RequestInfo) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{3}
+ return fileDescriptor_types_c68d3007ea320b94, []int{3}
}
func (m *RequestInfo) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -616,7 +617,7 @@ func (m *RequestSetOption) Reset() { *m = RequestSetOption{} }
func (m *RequestSetOption) String() string { return proto.CompactTextString(m) }
func (*RequestSetOption) ProtoMessage() {}
func (*RequestSetOption) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{4}
+ return fileDescriptor_types_c68d3007ea320b94, []int{4}
}
func (m *RequestSetOption) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -660,21 +661,21 @@ func (m *RequestSetOption) GetValue() string {
}
type RequestInitChain struct {
- Time time.Time `protobuf:"bytes,1,opt,name=time,stdtime" json:"time"`
- ChainId string `protobuf:"bytes,2,opt,name=chain_id,json=chainId,proto3" json:"chain_id,omitempty"`
- ConsensusParams *ConsensusParams `protobuf:"bytes,3,opt,name=consensus_params,json=consensusParams" json:"consensus_params,omitempty"`
- Validators []Validator `protobuf:"bytes,4,rep,name=validators" json:"validators"`
- AppStateBytes []byte `protobuf:"bytes,5,opt,name=app_state_bytes,json=appStateBytes,proto3" json:"app_state_bytes,omitempty"`
- XXX_NoUnkeyedLiteral struct{} `json:"-"`
- XXX_unrecognized []byte `json:"-"`
- XXX_sizecache int32 `json:"-"`
+ Time time.Time `protobuf:"bytes,1,opt,name=time,stdtime" json:"time"`
+ ChainId string `protobuf:"bytes,2,opt,name=chain_id,json=chainId,proto3" json:"chain_id,omitempty"`
+ ConsensusParams *ConsensusParams `protobuf:"bytes,3,opt,name=consensus_params,json=consensusParams" json:"consensus_params,omitempty"`
+ Validators []ValidatorUpdate `protobuf:"bytes,4,rep,name=validators" json:"validators"`
+ AppStateBytes []byte `protobuf:"bytes,5,opt,name=app_state_bytes,json=appStateBytes,proto3" json:"app_state_bytes,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
func (m *RequestInitChain) Reset() { *m = RequestInitChain{} }
func (m *RequestInitChain) String() string { return proto.CompactTextString(m) }
func (*RequestInitChain) ProtoMessage() {}
func (*RequestInitChain) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{5}
+ return fileDescriptor_types_c68d3007ea320b94, []int{5}
}
func (m *RequestInitChain) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -724,7 +725,7 @@ func (m *RequestInitChain) GetConsensusParams() *ConsensusParams {
return nil
}
-func (m *RequestInitChain) GetValidators() []Validator {
+func (m *RequestInitChain) GetValidators() []ValidatorUpdate {
if m != nil {
return m.Validators
}
@@ -752,7 +753,7 @@ func (m *RequestQuery) Reset() { *m = RequestQuery{} }
func (m *RequestQuery) String() string { return proto.CompactTextString(m) }
func (*RequestQuery) ProtoMessage() {}
func (*RequestQuery) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{6}
+ return fileDescriptor_types_c68d3007ea320b94, []int{6}
}
func (m *RequestQuery) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -824,7 +825,7 @@ func (m *RequestBeginBlock) Reset() { *m = RequestBeginBlock{} }
func (m *RequestBeginBlock) String() string { return proto.CompactTextString(m) }
func (*RequestBeginBlock) ProtoMessage() {}
func (*RequestBeginBlock) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{7}
+ return fileDescriptor_types_c68d3007ea320b94, []int{7}
}
func (m *RequestBeginBlock) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -892,7 +893,7 @@ func (m *RequestCheckTx) Reset() { *m = RequestCheckTx{} }
func (m *RequestCheckTx) String() string { return proto.CompactTextString(m) }
func (*RequestCheckTx) ProtoMessage() {}
func (*RequestCheckTx) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{8}
+ return fileDescriptor_types_c68d3007ea320b94, []int{8}
}
func (m *RequestCheckTx) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -939,7 +940,7 @@ func (m *RequestDeliverTx) Reset() { *m = RequestDeliverTx{} }
func (m *RequestDeliverTx) String() string { return proto.CompactTextString(m) }
func (*RequestDeliverTx) ProtoMessage() {}
func (*RequestDeliverTx) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{9}
+ return fileDescriptor_types_c68d3007ea320b94, []int{9}
}
func (m *RequestDeliverTx) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -986,7 +987,7 @@ func (m *RequestEndBlock) Reset() { *m = RequestEndBlock{} }
func (m *RequestEndBlock) String() string { return proto.CompactTextString(m) }
func (*RequestEndBlock) ProtoMessage() {}
func (*RequestEndBlock) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{10}
+ return fileDescriptor_types_c68d3007ea320b94, []int{10}
}
func (m *RequestEndBlock) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1032,7 +1033,7 @@ func (m *RequestCommit) Reset() { *m = RequestCommit{} }
func (m *RequestCommit) String() string { return proto.CompactTextString(m) }
func (*RequestCommit) ProtoMessage() {}
func (*RequestCommit) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{11}
+ return fileDescriptor_types_c68d3007ea320b94, []int{11}
}
func (m *RequestCommit) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1085,7 +1086,7 @@ func (m *Response) Reset() { *m = Response{} }
func (m *Response) String() string { return proto.CompactTextString(m) }
func (*Response) ProtoMessage() {}
func (*Response) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{12}
+ return fileDescriptor_types_c68d3007ea320b94, []int{12}
}
func (m *Response) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1538,7 +1539,7 @@ func (m *ResponseException) Reset() { *m = ResponseException{} }
func (m *ResponseException) String() string { return proto.CompactTextString(m) }
func (*ResponseException) ProtoMessage() {}
func (*ResponseException) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{13}
+ return fileDescriptor_types_c68d3007ea320b94, []int{13}
}
func (m *ResponseException) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1585,7 +1586,7 @@ func (m *ResponseEcho) Reset() { *m = ResponseEcho{} }
func (m *ResponseEcho) String() string { return proto.CompactTextString(m) }
func (*ResponseEcho) ProtoMessage() {}
func (*ResponseEcho) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{14}
+ return fileDescriptor_types_c68d3007ea320b94, []int{14}
}
func (m *ResponseEcho) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1631,7 +1632,7 @@ func (m *ResponseFlush) Reset() { *m = ResponseFlush{} }
func (m *ResponseFlush) String() string { return proto.CompactTextString(m) }
func (*ResponseFlush) ProtoMessage() {}
func (*ResponseFlush) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{15}
+ return fileDescriptor_types_c68d3007ea320b94, []int{15}
}
func (m *ResponseFlush) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1674,7 +1675,7 @@ func (m *ResponseInfo) Reset() { *m = ResponseInfo{} }
func (m *ResponseInfo) String() string { return proto.CompactTextString(m) }
func (*ResponseInfo) ProtoMessage() {}
func (*ResponseInfo) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{16}
+ return fileDescriptor_types_c68d3007ea320b94, []int{16}
}
func (m *ResponseInfo) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1746,7 +1747,7 @@ func (m *ResponseSetOption) Reset() { *m = ResponseSetOption{} }
func (m *ResponseSetOption) String() string { return proto.CompactTextString(m) }
func (*ResponseSetOption) ProtoMessage() {}
func (*ResponseSetOption) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{17}
+ return fileDescriptor_types_c68d3007ea320b94, []int{17}
}
func (m *ResponseSetOption) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1797,18 +1798,18 @@ func (m *ResponseSetOption) GetInfo() string {
}
type ResponseInitChain struct {
- ConsensusParams *ConsensusParams `protobuf:"bytes,1,opt,name=consensus_params,json=consensusParams" json:"consensus_params,omitempty"`
- Validators []Validator `protobuf:"bytes,2,rep,name=validators" json:"validators"`
- XXX_NoUnkeyedLiteral struct{} `json:"-"`
- XXX_unrecognized []byte `json:"-"`
- XXX_sizecache int32 `json:"-"`
+ ConsensusParams *ConsensusParams `protobuf:"bytes,1,opt,name=consensus_params,json=consensusParams" json:"consensus_params,omitempty"`
+ Validators []ValidatorUpdate `protobuf:"bytes,2,rep,name=validators" json:"validators"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
func (m *ResponseInitChain) Reset() { *m = ResponseInitChain{} }
func (m *ResponseInitChain) String() string { return proto.CompactTextString(m) }
func (*ResponseInitChain) ProtoMessage() {}
func (*ResponseInitChain) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{18}
+ return fileDescriptor_types_c68d3007ea320b94, []int{18}
}
func (m *ResponseInitChain) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1844,7 +1845,7 @@ func (m *ResponseInitChain) GetConsensusParams() *ConsensusParams {
return nil
}
-func (m *ResponseInitChain) GetValidators() []Validator {
+func (m *ResponseInitChain) GetValidators() []ValidatorUpdate {
if m != nil {
return m.Validators
}
@@ -1870,7 +1871,7 @@ func (m *ResponseQuery) Reset() { *m = ResponseQuery{} }
func (m *ResponseQuery) String() string { return proto.CompactTextString(m) }
func (*ResponseQuery) ProtoMessage() {}
func (*ResponseQuery) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{19}
+ return fileDescriptor_types_c68d3007ea320b94, []int{19}
}
func (m *ResponseQuery) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -1966,7 +1967,7 @@ func (m *ResponseBeginBlock) Reset() { *m = ResponseBeginBlock{} }
func (m *ResponseBeginBlock) String() string { return proto.CompactTextString(m) }
func (*ResponseBeginBlock) ProtoMessage() {}
func (*ResponseBeginBlock) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{20}
+ return fileDescriptor_types_c68d3007ea320b94, []int{20}
}
func (m *ResponseBeginBlock) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2019,7 +2020,7 @@ func (m *ResponseCheckTx) Reset() { *m = ResponseCheckTx{} }
func (m *ResponseCheckTx) String() string { return proto.CompactTextString(m) }
func (*ResponseCheckTx) ProtoMessage() {}
func (*ResponseCheckTx) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{21}
+ return fileDescriptor_types_c68d3007ea320b94, []int{21}
}
func (m *ResponseCheckTx) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2114,7 +2115,7 @@ func (m *ResponseDeliverTx) Reset() { *m = ResponseDeliverTx{} }
func (m *ResponseDeliverTx) String() string { return proto.CompactTextString(m) }
func (*ResponseDeliverTx) ProtoMessage() {}
func (*ResponseDeliverTx) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{22}
+ return fileDescriptor_types_c68d3007ea320b94, []int{22}
}
func (m *ResponseDeliverTx) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2193,19 +2194,19 @@ func (m *ResponseDeliverTx) GetTags() []common.KVPair {
}
type ResponseEndBlock struct {
- ValidatorUpdates []Validator `protobuf:"bytes,1,rep,name=validator_updates,json=validatorUpdates" json:"validator_updates"`
- ConsensusParamUpdates *ConsensusParams `protobuf:"bytes,2,opt,name=consensus_param_updates,json=consensusParamUpdates" json:"consensus_param_updates,omitempty"`
- Tags []common.KVPair `protobuf:"bytes,3,rep,name=tags" json:"tags,omitempty"`
- XXX_NoUnkeyedLiteral struct{} `json:"-"`
- XXX_unrecognized []byte `json:"-"`
- XXX_sizecache int32 `json:"-"`
+ ValidatorUpdates []ValidatorUpdate `protobuf:"bytes,1,rep,name=validator_updates,json=validatorUpdates" json:"validator_updates"`
+ ConsensusParamUpdates *ConsensusParams `protobuf:"bytes,2,opt,name=consensus_param_updates,json=consensusParamUpdates" json:"consensus_param_updates,omitempty"`
+ Tags []common.KVPair `protobuf:"bytes,3,rep,name=tags" json:"tags,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
func (m *ResponseEndBlock) Reset() { *m = ResponseEndBlock{} }
func (m *ResponseEndBlock) String() string { return proto.CompactTextString(m) }
func (*ResponseEndBlock) ProtoMessage() {}
func (*ResponseEndBlock) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{23}
+ return fileDescriptor_types_c68d3007ea320b94, []int{23}
}
func (m *ResponseEndBlock) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2234,7 +2235,7 @@ func (m *ResponseEndBlock) XXX_DiscardUnknown() {
var xxx_messageInfo_ResponseEndBlock proto.InternalMessageInfo
-func (m *ResponseEndBlock) GetValidatorUpdates() []Validator {
+func (m *ResponseEndBlock) GetValidatorUpdates() []ValidatorUpdate {
if m != nil {
return m.ValidatorUpdates
}
@@ -2267,7 +2268,7 @@ func (m *ResponseCommit) Reset() { *m = ResponseCommit{} }
func (m *ResponseCommit) String() string { return proto.CompactTextString(m) }
func (*ResponseCommit) ProtoMessage() {}
func (*ResponseCommit) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{24}
+ return fileDescriptor_types_c68d3007ea320b94, []int{24}
}
func (m *ResponseCommit) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2318,7 +2319,7 @@ func (m *ConsensusParams) Reset() { *m = ConsensusParams{} }
func (m *ConsensusParams) String() string { return proto.CompactTextString(m) }
func (*ConsensusParams) ProtoMessage() {}
func (*ConsensusParams) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{25}
+ return fileDescriptor_types_c68d3007ea320b94, []int{25}
}
func (m *ConsensusParams) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2371,8 +2372,7 @@ func (m *ConsensusParams) GetBlockGossip() *BlockGossip {
// BlockSize contains limits on the block size.
type BlockSize struct {
MaxBytes int32 `protobuf:"varint,1,opt,name=max_bytes,json=maxBytes,proto3" json:"max_bytes,omitempty"`
- MaxTxs int32 `protobuf:"varint,2,opt,name=max_txs,json=maxTxs,proto3" json:"max_txs,omitempty"`
- MaxGas int64 `protobuf:"varint,3,opt,name=max_gas,json=maxGas,proto3" json:"max_gas,omitempty"`
+ MaxGas int64 `protobuf:"varint,2,opt,name=max_gas,json=maxGas,proto3" json:"max_gas,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
XXX_unrecognized []byte `json:"-"`
XXX_sizecache int32 `json:"-"`
@@ -2382,7 +2382,7 @@ func (m *BlockSize) Reset() { *m = BlockSize{} }
func (m *BlockSize) String() string { return proto.CompactTextString(m) }
func (*BlockSize) ProtoMessage() {}
func (*BlockSize) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{26}
+ return fileDescriptor_types_c68d3007ea320b94, []int{26}
}
func (m *BlockSize) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2418,13 +2418,6 @@ func (m *BlockSize) GetMaxBytes() int32 {
return 0
}
-func (m *BlockSize) GetMaxTxs() int32 {
- if m != nil {
- return m.MaxTxs
- }
- return 0
-}
-
func (m *BlockSize) GetMaxGas() int64 {
if m != nil {
return m.MaxGas
@@ -2445,7 +2438,7 @@ func (m *TxSize) Reset() { *m = TxSize{} }
func (m *TxSize) String() string { return proto.CompactTextString(m) }
func (*TxSize) ProtoMessage() {}
func (*TxSize) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{27}
+ return fileDescriptor_types_c68d3007ea320b94, []int{27}
}
func (m *TxSize) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2502,7 +2495,7 @@ func (m *BlockGossip) Reset() { *m = BlockGossip{} }
func (m *BlockGossip) String() string { return proto.CompactTextString(m) }
func (*BlockGossip) ProtoMessage() {}
func (*BlockGossip) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{28}
+ return fileDescriptor_types_c68d3007ea320b94, []int{28}
}
func (m *BlockGossip) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2539,18 +2532,18 @@ func (m *BlockGossip) GetBlockPartSizeBytes() int32 {
}
type LastCommitInfo struct {
- CommitRound int32 `protobuf:"varint,1,opt,name=commit_round,json=commitRound,proto3" json:"commit_round,omitempty"`
- Validators []SigningValidator `protobuf:"bytes,2,rep,name=validators" json:"validators"`
- XXX_NoUnkeyedLiteral struct{} `json:"-"`
- XXX_unrecognized []byte `json:"-"`
- XXX_sizecache int32 `json:"-"`
+ Round int32 `protobuf:"varint,1,opt,name=round,proto3" json:"round,omitempty"`
+ Votes []VoteInfo `protobuf:"bytes,2,rep,name=votes" json:"votes"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
func (m *LastCommitInfo) Reset() { *m = LastCommitInfo{} }
func (m *LastCommitInfo) String() string { return proto.CompactTextString(m) }
func (*LastCommitInfo) ProtoMessage() {}
func (*LastCommitInfo) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{29}
+ return fileDescriptor_types_c68d3007ea320b94, []int{29}
}
func (m *LastCommitInfo) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2579,45 +2572,51 @@ func (m *LastCommitInfo) XXX_DiscardUnknown() {
var xxx_messageInfo_LastCommitInfo proto.InternalMessageInfo
-func (m *LastCommitInfo) GetCommitRound() int32 {
+func (m *LastCommitInfo) GetRound() int32 {
if m != nil {
- return m.CommitRound
+ return m.Round
}
return 0
}
-func (m *LastCommitInfo) GetValidators() []SigningValidator {
+func (m *LastCommitInfo) GetVotes() []VoteInfo {
if m != nil {
- return m.Validators
+ return m.Votes
}
return nil
}
-// just the minimum the app might need
type Header struct {
- // basics
- ChainID string `protobuf:"bytes,1,opt,name=chain_id,json=chainId,proto3" json:"chain_id,omitempty"`
- Height int64 `protobuf:"varint,2,opt,name=height,proto3" json:"height,omitempty"`
- Time time.Time `protobuf:"bytes,3,opt,name=time,stdtime" json:"time"`
- // txs
- NumTxs int32 `protobuf:"varint,4,opt,name=num_txs,json=numTxs,proto3" json:"num_txs,omitempty"`
- TotalTxs int64 `protobuf:"varint,5,opt,name=total_txs,json=totalTxs,proto3" json:"total_txs,omitempty"`
- // hashes
- LastBlockHash []byte `protobuf:"bytes,6,opt,name=last_block_hash,json=lastBlockHash,proto3" json:"last_block_hash,omitempty"`
- ValidatorsHash []byte `protobuf:"bytes,7,opt,name=validators_hash,json=validatorsHash,proto3" json:"validators_hash,omitempty"`
- AppHash []byte `protobuf:"bytes,8,opt,name=app_hash,json=appHash,proto3" json:"app_hash,omitempty"`
- // consensus
- Proposer Validator `protobuf:"bytes,9,opt,name=proposer" json:"proposer"`
- XXX_NoUnkeyedLiteral struct{} `json:"-"`
- XXX_unrecognized []byte `json:"-"`
- XXX_sizecache int32 `json:"-"`
+ // basic block info
+ ChainID string `protobuf:"bytes,1,opt,name=chain_id,json=chainId,proto3" json:"chain_id,omitempty"`
+ Height int64 `protobuf:"varint,2,opt,name=height,proto3" json:"height,omitempty"`
+ Time time.Time `protobuf:"bytes,3,opt,name=time,stdtime" json:"time"`
+ NumTxs int64 `protobuf:"varint,4,opt,name=num_txs,json=numTxs,proto3" json:"num_txs,omitempty"`
+ TotalTxs int64 `protobuf:"varint,5,opt,name=total_txs,json=totalTxs,proto3" json:"total_txs,omitempty"`
+ // prev block info
+ LastBlockId BlockID `protobuf:"bytes,6,opt,name=last_block_id,json=lastBlockId" json:"last_block_id"`
+ // hashes of block data
+ LastCommitHash []byte `protobuf:"bytes,7,opt,name=last_commit_hash,json=lastCommitHash,proto3" json:"last_commit_hash,omitempty"`
+ DataHash []byte `protobuf:"bytes,8,opt,name=data_hash,json=dataHash,proto3" json:"data_hash,omitempty"`
+ // hashes from the app output from the prev block
+ ValidatorsHash []byte `protobuf:"bytes,9,opt,name=validators_hash,json=validatorsHash,proto3" json:"validators_hash,omitempty"`
+ NextValidatorsHash []byte `protobuf:"bytes,10,opt,name=next_validators_hash,json=nextValidatorsHash,proto3" json:"next_validators_hash,omitempty"`
+ ConsensusHash []byte `protobuf:"bytes,11,opt,name=consensus_hash,json=consensusHash,proto3" json:"consensus_hash,omitempty"`
+ AppHash []byte `protobuf:"bytes,12,opt,name=app_hash,json=appHash,proto3" json:"app_hash,omitempty"`
+ LastResultsHash []byte `protobuf:"bytes,13,opt,name=last_results_hash,json=lastResultsHash,proto3" json:"last_results_hash,omitempty"`
+ // consensus info
+ EvidenceHash []byte `protobuf:"bytes,14,opt,name=evidence_hash,json=evidenceHash,proto3" json:"evidence_hash,omitempty"`
+ ProposerAddress []byte `protobuf:"bytes,15,opt,name=proposer_address,json=proposerAddress,proto3" json:"proposer_address,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
func (m *Header) Reset() { *m = Header{} }
func (m *Header) String() string { return proto.CompactTextString(m) }
func (*Header) ProtoMessage() {}
func (*Header) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{30}
+ return fileDescriptor_types_c68d3007ea320b94, []int{30}
}
func (m *Header) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2667,7 +2666,7 @@ func (m *Header) GetTime() time.Time {
return time.Time{}
}
-func (m *Header) GetNumTxs() int32 {
+func (m *Header) GetNumTxs() int64 {
if m != nil {
return m.NumTxs
}
@@ -2681,9 +2680,23 @@ func (m *Header) GetTotalTxs() int64 {
return 0
}
-func (m *Header) GetLastBlockHash() []byte {
+func (m *Header) GetLastBlockId() BlockID {
+ if m != nil {
+ return m.LastBlockId
+ }
+ return BlockID{}
+}
+
+func (m *Header) GetLastCommitHash() []byte {
if m != nil {
- return m.LastBlockHash
+ return m.LastCommitHash
+ }
+ return nil
+}
+
+func (m *Header) GetDataHash() []byte {
+ if m != nil {
+ return m.DataHash
}
return nil
}
@@ -2695,6 +2708,20 @@ func (m *Header) GetValidatorsHash() []byte {
return nil
}
+func (m *Header) GetNextValidatorsHash() []byte {
+ if m != nil {
+ return m.NextValidatorsHash
+ }
+ return nil
+}
+
+func (m *Header) GetConsensusHash() []byte {
+ if m != nil {
+ return m.ConsensusHash
+ }
+ return nil
+}
+
func (m *Header) GetAppHash() []byte {
if m != nil {
return m.AppHash
@@ -2702,17 +2729,141 @@ func (m *Header) GetAppHash() []byte {
return nil
}
-func (m *Header) GetProposer() Validator {
+func (m *Header) GetLastResultsHash() []byte {
if m != nil {
- return m.Proposer
+ return m.LastResultsHash
}
- return Validator{}
+ return nil
+}
+
+func (m *Header) GetEvidenceHash() []byte {
+ if m != nil {
+ return m.EvidenceHash
+ }
+ return nil
+}
+
+func (m *Header) GetProposerAddress() []byte {
+ if m != nil {
+ return m.ProposerAddress
+ }
+ return nil
+}
+
+type BlockID struct {
+ Hash []byte `protobuf:"bytes,1,opt,name=hash,proto3" json:"hash,omitempty"`
+ PartsHeader PartSetHeader `protobuf:"bytes,2,opt,name=parts_header,json=partsHeader" json:"parts_header"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
+}
+
+func (m *BlockID) Reset() { *m = BlockID{} }
+func (m *BlockID) String() string { return proto.CompactTextString(m) }
+func (*BlockID) ProtoMessage() {}
+func (*BlockID) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_c68d3007ea320b94, []int{31}
+}
+func (m *BlockID) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *BlockID) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_BlockID.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *BlockID) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_BlockID.Merge(dst, src)
+}
+func (m *BlockID) XXX_Size() int {
+ return m.Size()
+}
+func (m *BlockID) XXX_DiscardUnknown() {
+ xxx_messageInfo_BlockID.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_BlockID proto.InternalMessageInfo
+
+func (m *BlockID) GetHash() []byte {
+ if m != nil {
+ return m.Hash
+ }
+ return nil
+}
+
+func (m *BlockID) GetPartsHeader() PartSetHeader {
+ if m != nil {
+ return m.PartsHeader
+ }
+ return PartSetHeader{}
+}
+
+type PartSetHeader struct {
+ Total int32 `protobuf:"varint,1,opt,name=total,proto3" json:"total,omitempty"`
+ Hash []byte `protobuf:"bytes,2,opt,name=hash,proto3" json:"hash,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
+}
+
+func (m *PartSetHeader) Reset() { *m = PartSetHeader{} }
+func (m *PartSetHeader) String() string { return proto.CompactTextString(m) }
+func (*PartSetHeader) ProtoMessage() {}
+func (*PartSetHeader) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_c68d3007ea320b94, []int{32}
+}
+func (m *PartSetHeader) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *PartSetHeader) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_PartSetHeader.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *PartSetHeader) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_PartSetHeader.Merge(dst, src)
+}
+func (m *PartSetHeader) XXX_Size() int {
+ return m.Size()
+}
+func (m *PartSetHeader) XXX_DiscardUnknown() {
+ xxx_messageInfo_PartSetHeader.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_PartSetHeader proto.InternalMessageInfo
+
+func (m *PartSetHeader) GetTotal() int32 {
+ if m != nil {
+ return m.Total
+ }
+ return 0
+}
+
+func (m *PartSetHeader) GetHash() []byte {
+ if m != nil {
+ return m.Hash
+ }
+ return nil
}
// Validator
type Validator struct {
- Address []byte `protobuf:"bytes,1,opt,name=address,proto3" json:"address,omitempty"`
- PubKey PubKey `protobuf:"bytes,2,opt,name=pub_key,json=pubKey" json:"pub_key"`
+ Address []byte `protobuf:"bytes,1,opt,name=address,proto3" json:"address,omitempty"`
+ // PubKey pub_key = 2 [(gogoproto.nullable)=false];
Power int64 `protobuf:"varint,3,opt,name=power,proto3" json:"power,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
XXX_unrecognized []byte `json:"-"`
@@ -2723,7 +2874,7 @@ func (m *Validator) Reset() { *m = Validator{} }
func (m *Validator) String() string { return proto.CompactTextString(m) }
func (*Validator) ProtoMessage() {}
func (*Validator) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{31}
+ return fileDescriptor_types_c68d3007ea320b94, []int{33}
}
func (m *Validator) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2759,22 +2910,71 @@ func (m *Validator) GetAddress() []byte {
return nil
}
-func (m *Validator) GetPubKey() PubKey {
+func (m *Validator) GetPower() int64 {
+ if m != nil {
+ return m.Power
+ }
+ return 0
+}
+
+// ValidatorUpdate
+type ValidatorUpdate struct {
+ PubKey PubKey `protobuf:"bytes,1,opt,name=pub_key,json=pubKey" json:"pub_key"`
+ Power int64 `protobuf:"varint,2,opt,name=power,proto3" json:"power,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
+}
+
+func (m *ValidatorUpdate) Reset() { *m = ValidatorUpdate{} }
+func (m *ValidatorUpdate) String() string { return proto.CompactTextString(m) }
+func (*ValidatorUpdate) ProtoMessage() {}
+func (*ValidatorUpdate) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_c68d3007ea320b94, []int{34}
+}
+func (m *ValidatorUpdate) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *ValidatorUpdate) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_ValidatorUpdate.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *ValidatorUpdate) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_ValidatorUpdate.Merge(dst, src)
+}
+func (m *ValidatorUpdate) XXX_Size() int {
+ return m.Size()
+}
+func (m *ValidatorUpdate) XXX_DiscardUnknown() {
+ xxx_messageInfo_ValidatorUpdate.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_ValidatorUpdate proto.InternalMessageInfo
+
+func (m *ValidatorUpdate) GetPubKey() PubKey {
if m != nil {
return m.PubKey
}
return PubKey{}
}
-func (m *Validator) GetPower() int64 {
+func (m *ValidatorUpdate) GetPower() int64 {
if m != nil {
return m.Power
}
return 0
}
-// Validator with an extra bool
-type SigningValidator struct {
+// VoteInfo
+type VoteInfo struct {
Validator Validator `protobuf:"bytes,1,opt,name=validator" json:"validator"`
SignedLastBlock bool `protobuf:"varint,2,opt,name=signed_last_block,json=signedLastBlock,proto3" json:"signed_last_block,omitempty"`
XXX_NoUnkeyedLiteral struct{} `json:"-"`
@@ -2782,18 +2982,18 @@ type SigningValidator struct {
XXX_sizecache int32 `json:"-"`
}
-func (m *SigningValidator) Reset() { *m = SigningValidator{} }
-func (m *SigningValidator) String() string { return proto.CompactTextString(m) }
-func (*SigningValidator) ProtoMessage() {}
-func (*SigningValidator) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{32}
+func (m *VoteInfo) Reset() { *m = VoteInfo{} }
+func (m *VoteInfo) String() string { return proto.CompactTextString(m) }
+func (*VoteInfo) ProtoMessage() {}
+func (*VoteInfo) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_c68d3007ea320b94, []int{35}
}
-func (m *SigningValidator) XXX_Unmarshal(b []byte) error {
+func (m *VoteInfo) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
}
-func (m *SigningValidator) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+func (m *VoteInfo) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
if deterministic {
- return xxx_messageInfo_SigningValidator.Marshal(b, m, deterministic)
+ return xxx_messageInfo_VoteInfo.Marshal(b, m, deterministic)
} else {
b = b[:cap(b)]
n, err := m.MarshalTo(b)
@@ -2803,26 +3003,26 @@ func (m *SigningValidator) XXX_Marshal(b []byte, deterministic bool) ([]byte, er
return b[:n], nil
}
}
-func (dst *SigningValidator) XXX_Merge(src proto.Message) {
- xxx_messageInfo_SigningValidator.Merge(dst, src)
+func (dst *VoteInfo) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_VoteInfo.Merge(dst, src)
}
-func (m *SigningValidator) XXX_Size() int {
+func (m *VoteInfo) XXX_Size() int {
return m.Size()
}
-func (m *SigningValidator) XXX_DiscardUnknown() {
- xxx_messageInfo_SigningValidator.DiscardUnknown(m)
+func (m *VoteInfo) XXX_DiscardUnknown() {
+ xxx_messageInfo_VoteInfo.DiscardUnknown(m)
}
-var xxx_messageInfo_SigningValidator proto.InternalMessageInfo
+var xxx_messageInfo_VoteInfo proto.InternalMessageInfo
-func (m *SigningValidator) GetValidator() Validator {
+func (m *VoteInfo) GetValidator() Validator {
if m != nil {
return m.Validator
}
return Validator{}
}
-func (m *SigningValidator) GetSignedLastBlock() bool {
+func (m *VoteInfo) GetSignedLastBlock() bool {
if m != nil {
return m.SignedLastBlock
}
@@ -2841,7 +3041,7 @@ func (m *PubKey) Reset() { *m = PubKey{} }
func (m *PubKey) String() string { return proto.CompactTextString(m) }
func (*PubKey) ProtoMessage() {}
func (*PubKey) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{33}
+ return fileDescriptor_types_c68d3007ea320b94, []int{36}
}
func (m *PubKey) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -2899,7 +3099,7 @@ func (m *Evidence) Reset() { *m = Evidence{} }
func (m *Evidence) String() string { return proto.CompactTextString(m) }
func (*Evidence) ProtoMessage() {}
func (*Evidence) Descriptor() ([]byte, []int) {
- return fileDescriptor_types_d8da2202f45d32c0, []int{34}
+ return fileDescriptor_types_c68d3007ea320b94, []int{37}
}
func (m *Evidence) XXX_Unmarshal(b []byte) error {
return m.Unmarshal(b)
@@ -3026,10 +3226,16 @@ func init() {
golang_proto.RegisterType((*LastCommitInfo)(nil), "types.LastCommitInfo")
proto.RegisterType((*Header)(nil), "types.Header")
golang_proto.RegisterType((*Header)(nil), "types.Header")
+ proto.RegisterType((*BlockID)(nil), "types.BlockID")
+ golang_proto.RegisterType((*BlockID)(nil), "types.BlockID")
+ proto.RegisterType((*PartSetHeader)(nil), "types.PartSetHeader")
+ golang_proto.RegisterType((*PartSetHeader)(nil), "types.PartSetHeader")
proto.RegisterType((*Validator)(nil), "types.Validator")
golang_proto.RegisterType((*Validator)(nil), "types.Validator")
- proto.RegisterType((*SigningValidator)(nil), "types.SigningValidator")
- golang_proto.RegisterType((*SigningValidator)(nil), "types.SigningValidator")
+ proto.RegisterType((*ValidatorUpdate)(nil), "types.ValidatorUpdate")
+ golang_proto.RegisterType((*ValidatorUpdate)(nil), "types.ValidatorUpdate")
+ proto.RegisterType((*VoteInfo)(nil), "types.VoteInfo")
+ golang_proto.RegisterType((*VoteInfo)(nil), "types.VoteInfo")
proto.RegisterType((*PubKey)(nil), "types.PubKey")
golang_proto.RegisterType((*PubKey)(nil), "types.PubKey")
proto.RegisterType((*Evidence)(nil), "types.Evidence")
@@ -4474,9 +4680,6 @@ func (this *BlockSize) Equal(that interface{}) bool {
if this.MaxBytes != that1.MaxBytes {
return false
}
- if this.MaxTxs != that1.MaxTxs {
- return false
- }
if this.MaxGas != that1.MaxGas {
return false
}
@@ -4561,14 +4764,14 @@ func (this *LastCommitInfo) Equal(that interface{}) bool {
} else if this == nil {
return false
}
- if this.CommitRound != that1.CommitRound {
+ if this.Round != that1.Round {
return false
}
- if len(this.Validators) != len(that1.Validators) {
+ if len(this.Votes) != len(that1.Votes) {
return false
}
- for i := range this.Validators {
- if !this.Validators[i].Equal(&that1.Validators[i]) {
+ for i := range this.Votes {
+ if !this.Votes[i].Equal(&that1.Votes[i]) {
return false
}
}
@@ -4611,16 +4814,94 @@ func (this *Header) Equal(that interface{}) bool {
if this.TotalTxs != that1.TotalTxs {
return false
}
- if !bytes.Equal(this.LastBlockHash, that1.LastBlockHash) {
+ if !this.LastBlockId.Equal(&that1.LastBlockId) {
+ return false
+ }
+ if !bytes.Equal(this.LastCommitHash, that1.LastCommitHash) {
+ return false
+ }
+ if !bytes.Equal(this.DataHash, that1.DataHash) {
return false
}
if !bytes.Equal(this.ValidatorsHash, that1.ValidatorsHash) {
return false
}
+ if !bytes.Equal(this.NextValidatorsHash, that1.NextValidatorsHash) {
+ return false
+ }
+ if !bytes.Equal(this.ConsensusHash, that1.ConsensusHash) {
+ return false
+ }
if !bytes.Equal(this.AppHash, that1.AppHash) {
return false
}
- if !this.Proposer.Equal(&that1.Proposer) {
+ if !bytes.Equal(this.LastResultsHash, that1.LastResultsHash) {
+ return false
+ }
+ if !bytes.Equal(this.EvidenceHash, that1.EvidenceHash) {
+ return false
+ }
+ if !bytes.Equal(this.ProposerAddress, that1.ProposerAddress) {
+ return false
+ }
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
+ return true
+}
+func (this *BlockID) Equal(that interface{}) bool {
+ if that == nil {
+ return this == nil
+ }
+
+ that1, ok := that.(*BlockID)
+ if !ok {
+ that2, ok := that.(BlockID)
+ if ok {
+ that1 = &that2
+ } else {
+ return false
+ }
+ }
+ if that1 == nil {
+ return this == nil
+ } else if this == nil {
+ return false
+ }
+ if !bytes.Equal(this.Hash, that1.Hash) {
+ return false
+ }
+ if !this.PartsHeader.Equal(&that1.PartsHeader) {
+ return false
+ }
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
+ return true
+}
+func (this *PartSetHeader) Equal(that interface{}) bool {
+ if that == nil {
+ return this == nil
+ }
+
+ that1, ok := that.(*PartSetHeader)
+ if !ok {
+ that2, ok := that.(PartSetHeader)
+ if ok {
+ that1 = &that2
+ } else {
+ return false
+ }
+ }
+ if that1 == nil {
+ return this == nil
+ } else if this == nil {
+ return false
+ }
+ if this.Total != that1.Total {
+ return false
+ }
+ if !bytes.Equal(this.Hash, that1.Hash) {
return false
}
if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
@@ -4650,6 +4931,33 @@ func (this *Validator) Equal(that interface{}) bool {
if !bytes.Equal(this.Address, that1.Address) {
return false
}
+ if this.Power != that1.Power {
+ return false
+ }
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
+ return true
+}
+func (this *ValidatorUpdate) Equal(that interface{}) bool {
+ if that == nil {
+ return this == nil
+ }
+
+ that1, ok := that.(*ValidatorUpdate)
+ if !ok {
+ that2, ok := that.(ValidatorUpdate)
+ if ok {
+ that1 = &that2
+ } else {
+ return false
+ }
+ }
+ if that1 == nil {
+ return this == nil
+ } else if this == nil {
+ return false
+ }
if !this.PubKey.Equal(&that1.PubKey) {
return false
}
@@ -4661,14 +4969,14 @@ func (this *Validator) Equal(that interface{}) bool {
}
return true
}
-func (this *SigningValidator) Equal(that interface{}) bool {
+func (this *VoteInfo) Equal(that interface{}) bool {
if that == nil {
return this == nil
}
- that1, ok := that.(*SigningValidator)
+ that1, ok := that.(*VoteInfo)
if !ok {
- that2, ok := that.(SigningValidator)
+ that2, ok := that.(VoteInfo)
if ok {
that1 = &that2
} else {
@@ -4769,8 +5077,9 @@ var _ grpc.ClientConn
// is compatible with the grpc package it is being compiled against.
const _ = grpc.SupportPackageIsVersion4
-// Client API for ABCIApplication service
-
+// ABCIApplicationClient is the client API for ABCIApplication service.
+//
+// For semantics around ctx use and closing/ending streaming RPCs, please refer to https://godoc.org/google.golang.org/grpc#ClientConn.NewStream.
type ABCIApplicationClient interface {
Echo(ctx context.Context, in *RequestEcho, opts ...grpc.CallOption) (*ResponseEcho, error)
Flush(ctx context.Context, in *RequestFlush, opts ...grpc.CallOption) (*ResponseFlush, error)
@@ -6502,13 +6811,8 @@ func (m *BlockSize) MarshalTo(dAtA []byte) (int, error) {
i++
i = encodeVarintTypes(dAtA, i, uint64(m.MaxBytes))
}
- if m.MaxTxs != 0 {
- dAtA[i] = 0x10
- i++
- i = encodeVarintTypes(dAtA, i, uint64(m.MaxTxs))
- }
if m.MaxGas != 0 {
- dAtA[i] = 0x18
+ dAtA[i] = 0x10
i++
i = encodeVarintTypes(dAtA, i, uint64(m.MaxGas))
}
@@ -6590,13 +6894,13 @@ func (m *LastCommitInfo) MarshalTo(dAtA []byte) (int, error) {
_ = i
var l int
_ = l
- if m.CommitRound != 0 {
+ if m.Round != 0 {
dAtA[i] = 0x8
i++
- i = encodeVarintTypes(dAtA, i, uint64(m.CommitRound))
+ i = encodeVarintTypes(dAtA, i, uint64(m.Round))
}
- if len(m.Validators) > 0 {
- for _, msg := range m.Validators {
+ if len(m.Votes) > 0 {
+ for _, msg := range m.Votes {
dAtA[i] = 0x12
i++
i = encodeVarintTypes(dAtA, i, uint64(msg.Size()))
@@ -6657,32 +6961,135 @@ func (m *Header) MarshalTo(dAtA []byte) (int, error) {
i++
i = encodeVarintTypes(dAtA, i, uint64(m.TotalTxs))
}
- if len(m.LastBlockHash) > 0 {
- dAtA[i] = 0x32
- i++
- i = encodeVarintTypes(dAtA, i, uint64(len(m.LastBlockHash)))
- i += copy(dAtA[i:], m.LastBlockHash)
+ dAtA[i] = 0x32
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(m.LastBlockId.Size()))
+ n36, err := m.LastBlockId.MarshalTo(dAtA[i:])
+ if err != nil {
+ return 0, err
}
- if len(m.ValidatorsHash) > 0 {
+ i += n36
+ if len(m.LastCommitHash) > 0 {
dAtA[i] = 0x3a
i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.LastCommitHash)))
+ i += copy(dAtA[i:], m.LastCommitHash)
+ }
+ if len(m.DataHash) > 0 {
+ dAtA[i] = 0x42
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.DataHash)))
+ i += copy(dAtA[i:], m.DataHash)
+ }
+ if len(m.ValidatorsHash) > 0 {
+ dAtA[i] = 0x4a
+ i++
i = encodeVarintTypes(dAtA, i, uint64(len(m.ValidatorsHash)))
i += copy(dAtA[i:], m.ValidatorsHash)
}
+ if len(m.NextValidatorsHash) > 0 {
+ dAtA[i] = 0x52
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.NextValidatorsHash)))
+ i += copy(dAtA[i:], m.NextValidatorsHash)
+ }
+ if len(m.ConsensusHash) > 0 {
+ dAtA[i] = 0x5a
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.ConsensusHash)))
+ i += copy(dAtA[i:], m.ConsensusHash)
+ }
if len(m.AppHash) > 0 {
- dAtA[i] = 0x42
+ dAtA[i] = 0x62
i++
i = encodeVarintTypes(dAtA, i, uint64(len(m.AppHash)))
i += copy(dAtA[i:], m.AppHash)
}
- dAtA[i] = 0x4a
+ if len(m.LastResultsHash) > 0 {
+ dAtA[i] = 0x6a
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.LastResultsHash)))
+ i += copy(dAtA[i:], m.LastResultsHash)
+ }
+ if len(m.EvidenceHash) > 0 {
+ dAtA[i] = 0x72
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.EvidenceHash)))
+ i += copy(dAtA[i:], m.EvidenceHash)
+ }
+ if len(m.ProposerAddress) > 0 {
+ dAtA[i] = 0x7a
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.ProposerAddress)))
+ i += copy(dAtA[i:], m.ProposerAddress)
+ }
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
+ return i, nil
+}
+
+func (m *BlockID) Marshal() (dAtA []byte, err error) {
+ size := m.Size()
+ dAtA = make([]byte, size)
+ n, err := m.MarshalTo(dAtA)
+ if err != nil {
+ return nil, err
+ }
+ return dAtA[:n], nil
+}
+
+func (m *BlockID) MarshalTo(dAtA []byte) (int, error) {
+ var i int
+ _ = i
+ var l int
+ _ = l
+ if len(m.Hash) > 0 {
+ dAtA[i] = 0xa
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.Hash)))
+ i += copy(dAtA[i:], m.Hash)
+ }
+ dAtA[i] = 0x12
i++
- i = encodeVarintTypes(dAtA, i, uint64(m.Proposer.Size()))
- n36, err := m.Proposer.MarshalTo(dAtA[i:])
+ i = encodeVarintTypes(dAtA, i, uint64(m.PartsHeader.Size()))
+ n37, err := m.PartsHeader.MarshalTo(dAtA[i:])
if err != nil {
return 0, err
}
- i += n36
+ i += n37
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
+ return i, nil
+}
+
+func (m *PartSetHeader) Marshal() (dAtA []byte, err error) {
+ size := m.Size()
+ dAtA = make([]byte, size)
+ n, err := m.MarshalTo(dAtA)
+ if err != nil {
+ return nil, err
+ }
+ return dAtA[:n], nil
+}
+
+func (m *PartSetHeader) MarshalTo(dAtA []byte) (int, error) {
+ var i int
+ _ = i
+ var l int
+ _ = l
+ if m.Total != 0 {
+ dAtA[i] = 0x8
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(m.Total))
+ }
+ if len(m.Hash) > 0 {
+ dAtA[i] = 0x12
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(len(m.Hash)))
+ i += copy(dAtA[i:], m.Hash)
+ }
if m.XXX_unrecognized != nil {
i += copy(dAtA[i:], m.XXX_unrecognized)
}
@@ -6710,16 +7117,42 @@ func (m *Validator) MarshalTo(dAtA []byte) (int, error) {
i = encodeVarintTypes(dAtA, i, uint64(len(m.Address)))
i += copy(dAtA[i:], m.Address)
}
- dAtA[i] = 0x12
+ if m.Power != 0 {
+ dAtA[i] = 0x18
+ i++
+ i = encodeVarintTypes(dAtA, i, uint64(m.Power))
+ }
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
+ return i, nil
+}
+
+func (m *ValidatorUpdate) Marshal() (dAtA []byte, err error) {
+ size := m.Size()
+ dAtA = make([]byte, size)
+ n, err := m.MarshalTo(dAtA)
+ if err != nil {
+ return nil, err
+ }
+ return dAtA[:n], nil
+}
+
+func (m *ValidatorUpdate) MarshalTo(dAtA []byte) (int, error) {
+ var i int
+ _ = i
+ var l int
+ _ = l
+ dAtA[i] = 0xa
i++
i = encodeVarintTypes(dAtA, i, uint64(m.PubKey.Size()))
- n37, err := m.PubKey.MarshalTo(dAtA[i:])
+ n38, err := m.PubKey.MarshalTo(dAtA[i:])
if err != nil {
return 0, err
}
- i += n37
+ i += n38
if m.Power != 0 {
- dAtA[i] = 0x18
+ dAtA[i] = 0x10
i++
i = encodeVarintTypes(dAtA, i, uint64(m.Power))
}
@@ -6729,7 +7162,7 @@ func (m *Validator) MarshalTo(dAtA []byte) (int, error) {
return i, nil
}
-func (m *SigningValidator) Marshal() (dAtA []byte, err error) {
+func (m *VoteInfo) Marshal() (dAtA []byte, err error) {
size := m.Size()
dAtA = make([]byte, size)
n, err := m.MarshalTo(dAtA)
@@ -6739,7 +7172,7 @@ func (m *SigningValidator) Marshal() (dAtA []byte, err error) {
return dAtA[:n], nil
}
-func (m *SigningValidator) MarshalTo(dAtA []byte) (int, error) {
+func (m *VoteInfo) MarshalTo(dAtA []byte) (int, error) {
var i int
_ = i
var l int
@@ -6747,11 +7180,11 @@ func (m *SigningValidator) MarshalTo(dAtA []byte) (int, error) {
dAtA[i] = 0xa
i++
i = encodeVarintTypes(dAtA, i, uint64(m.Validator.Size()))
- n38, err := m.Validator.MarshalTo(dAtA[i:])
+ n39, err := m.Validator.MarshalTo(dAtA[i:])
if err != nil {
return 0, err
}
- i += n38
+ i += n39
if m.SignedLastBlock {
dAtA[i] = 0x10
i++
@@ -6825,11 +7258,11 @@ func (m *Evidence) MarshalTo(dAtA []byte) (int, error) {
dAtA[i] = 0x12
i++
i = encodeVarintTypes(dAtA, i, uint64(m.Validator.Size()))
- n39, err := m.Validator.MarshalTo(dAtA[i:])
+ n40, err := m.Validator.MarshalTo(dAtA[i:])
if err != nil {
return 0, err
}
- i += n39
+ i += n40
if m.Height != 0 {
dAtA[i] = 0x18
i++
@@ -6838,11 +7271,11 @@ func (m *Evidence) MarshalTo(dAtA []byte) (int, error) {
dAtA[i] = 0x22
i++
i = encodeVarintTypes(dAtA, i, uint64(github_com_gogo_protobuf_types.SizeOfStdTime(m.Time)))
- n40, err := github_com_gogo_protobuf_types.StdTimeMarshalTo(m.Time, dAtA[i:])
+ n41, err := github_com_gogo_protobuf_types.StdTimeMarshalTo(m.Time, dAtA[i:])
if err != nil {
return 0, err
}
- i += n40
+ i += n41
if m.TotalVotingPower != 0 {
dAtA[i] = 0x28
i++
@@ -6997,9 +7430,9 @@ func NewPopulatedRequestInitChain(r randyTypes, easy bool) *RequestInitChain {
}
if r.Intn(10) != 0 {
v2 := r.Intn(5)
- this.Validators = make([]Validator, v2)
+ this.Validators = make([]ValidatorUpdate, v2)
for i := 0; i < v2; i++ {
- v3 := NewPopulatedValidator(r, easy)
+ v3 := NewPopulatedValidatorUpdate(r, easy)
this.Validators[i] = *v3
}
}
@@ -7262,9 +7695,9 @@ func NewPopulatedResponseInitChain(r randyTypes, easy bool) *ResponseInitChain {
}
if r.Intn(10) != 0 {
v14 := r.Intn(5)
- this.Validators = make([]Validator, v14)
+ this.Validators = make([]ValidatorUpdate, v14)
for i := 0; i < v14; i++ {
- v15 := NewPopulatedValidator(r, easy)
+ v15 := NewPopulatedValidatorUpdate(r, easy)
this.Validators[i] = *v15
}
}
@@ -7392,9 +7825,9 @@ func NewPopulatedResponseEndBlock(r randyTypes, easy bool) *ResponseEndBlock {
this := &ResponseEndBlock{}
if r.Intn(10) != 0 {
v27 := r.Intn(5)
- this.ValidatorUpdates = make([]Validator, v27)
+ this.ValidatorUpdates = make([]ValidatorUpdate, v27)
for i := 0; i < v27; i++ {
- v28 := NewPopulatedValidator(r, easy)
+ v28 := NewPopulatedValidatorUpdate(r, easy)
this.ValidatorUpdates[i] = *v28
}
}
@@ -7451,16 +7884,12 @@ func NewPopulatedBlockSize(r randyTypes, easy bool) *BlockSize {
if r.Intn(2) == 0 {
this.MaxBytes *= -1
}
- this.MaxTxs = int32(r.Int31())
- if r.Intn(2) == 0 {
- this.MaxTxs *= -1
- }
this.MaxGas = int64(r.Int63())
if r.Intn(2) == 0 {
this.MaxGas *= -1
}
if !easy && r.Intn(10) != 0 {
- this.XXX_unrecognized = randUnrecognizedTypes(r, 4)
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
}
return this
}
@@ -7495,16 +7924,16 @@ func NewPopulatedBlockGossip(r randyTypes, easy bool) *BlockGossip {
func NewPopulatedLastCommitInfo(r randyTypes, easy bool) *LastCommitInfo {
this := &LastCommitInfo{}
- this.CommitRound = int32(r.Int31())
+ this.Round = int32(r.Int31())
if r.Intn(2) == 0 {
- this.CommitRound *= -1
+ this.Round *= -1
}
if r.Intn(10) != 0 {
v32 := r.Intn(5)
- this.Validators = make([]SigningValidator, v32)
+ this.Votes = make([]VoteInfo, v32)
for i := 0; i < v32; i++ {
- v33 := NewPopulatedSigningValidator(r, easy)
- this.Validators[i] = *v33
+ v33 := NewPopulatedVoteInfo(r, easy)
+ this.Votes[i] = *v33
}
}
if !easy && r.Intn(10) != 0 {
@@ -7522,7 +7951,7 @@ func NewPopulatedHeader(r randyTypes, easy bool) *Header {
}
v34 := github_com_gogo_protobuf_types.NewPopulatedStdTime(r, easy)
this.Time = *v34
- this.NumTxs = int32(r.Int31())
+ this.NumTxs = int64(r.Int63())
if r.Intn(2) == 0 {
this.NumTxs *= -1
}
@@ -7530,38 +7959,98 @@ func NewPopulatedHeader(r randyTypes, easy bool) *Header {
if r.Intn(2) == 0 {
this.TotalTxs *= -1
}
- v35 := r.Intn(100)
- this.LastBlockHash = make([]byte, v35)
- for i := 0; i < v35; i++ {
- this.LastBlockHash[i] = byte(r.Intn(256))
- }
+ v35 := NewPopulatedBlockID(r, easy)
+ this.LastBlockId = *v35
v36 := r.Intn(100)
- this.ValidatorsHash = make([]byte, v36)
+ this.LastCommitHash = make([]byte, v36)
for i := 0; i < v36; i++ {
- this.ValidatorsHash[i] = byte(r.Intn(256))
+ this.LastCommitHash[i] = byte(r.Intn(256))
}
v37 := r.Intn(100)
- this.AppHash = make([]byte, v37)
+ this.DataHash = make([]byte, v37)
for i := 0; i < v37; i++ {
+ this.DataHash[i] = byte(r.Intn(256))
+ }
+ v38 := r.Intn(100)
+ this.ValidatorsHash = make([]byte, v38)
+ for i := 0; i < v38; i++ {
+ this.ValidatorsHash[i] = byte(r.Intn(256))
+ }
+ v39 := r.Intn(100)
+ this.NextValidatorsHash = make([]byte, v39)
+ for i := 0; i < v39; i++ {
+ this.NextValidatorsHash[i] = byte(r.Intn(256))
+ }
+ v40 := r.Intn(100)
+ this.ConsensusHash = make([]byte, v40)
+ for i := 0; i < v40; i++ {
+ this.ConsensusHash[i] = byte(r.Intn(256))
+ }
+ v41 := r.Intn(100)
+ this.AppHash = make([]byte, v41)
+ for i := 0; i < v41; i++ {
this.AppHash[i] = byte(r.Intn(256))
}
- v38 := NewPopulatedValidator(r, easy)
- this.Proposer = *v38
+ v42 := r.Intn(100)
+ this.LastResultsHash = make([]byte, v42)
+ for i := 0; i < v42; i++ {
+ this.LastResultsHash[i] = byte(r.Intn(256))
+ }
+ v43 := r.Intn(100)
+ this.EvidenceHash = make([]byte, v43)
+ for i := 0; i < v43; i++ {
+ this.EvidenceHash[i] = byte(r.Intn(256))
+ }
+ v44 := r.Intn(100)
+ this.ProposerAddress = make([]byte, v44)
+ for i := 0; i < v44; i++ {
+ this.ProposerAddress[i] = byte(r.Intn(256))
+ }
if !easy && r.Intn(10) != 0 {
- this.XXX_unrecognized = randUnrecognizedTypes(r, 10)
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 16)
+ }
+ return this
+}
+
+func NewPopulatedBlockID(r randyTypes, easy bool) *BlockID {
+ this := &BlockID{}
+ v45 := r.Intn(100)
+ this.Hash = make([]byte, v45)
+ for i := 0; i < v45; i++ {
+ this.Hash[i] = byte(r.Intn(256))
+ }
+ v46 := NewPopulatedPartSetHeader(r, easy)
+ this.PartsHeader = *v46
+ if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
+ }
+ return this
+}
+
+func NewPopulatedPartSetHeader(r randyTypes, easy bool) *PartSetHeader {
+ this := &PartSetHeader{}
+ this.Total = int32(r.Int31())
+ if r.Intn(2) == 0 {
+ this.Total *= -1
+ }
+ v47 := r.Intn(100)
+ this.Hash = make([]byte, v47)
+ for i := 0; i < v47; i++ {
+ this.Hash[i] = byte(r.Intn(256))
+ }
+ if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
}
return this
}
func NewPopulatedValidator(r randyTypes, easy bool) *Validator {
this := &Validator{}
- v39 := r.Intn(100)
- this.Address = make([]byte, v39)
- for i := 0; i < v39; i++ {
+ v48 := r.Intn(100)
+ this.Address = make([]byte, v48)
+ for i := 0; i < v48; i++ {
this.Address[i] = byte(r.Intn(256))
}
- v40 := NewPopulatedPubKey(r, easy)
- this.PubKey = *v40
this.Power = int64(r.Int63())
if r.Intn(2) == 0 {
this.Power *= -1
@@ -7572,10 +8061,24 @@ func NewPopulatedValidator(r randyTypes, easy bool) *Validator {
return this
}
-func NewPopulatedSigningValidator(r randyTypes, easy bool) *SigningValidator {
- this := &SigningValidator{}
- v41 := NewPopulatedValidator(r, easy)
- this.Validator = *v41
+func NewPopulatedValidatorUpdate(r randyTypes, easy bool) *ValidatorUpdate {
+ this := &ValidatorUpdate{}
+ v49 := NewPopulatedPubKey(r, easy)
+ this.PubKey = *v49
+ this.Power = int64(r.Int63())
+ if r.Intn(2) == 0 {
+ this.Power *= -1
+ }
+ if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
+ }
+ return this
+}
+
+func NewPopulatedVoteInfo(r randyTypes, easy bool) *VoteInfo {
+ this := &VoteInfo{}
+ v50 := NewPopulatedValidator(r, easy)
+ this.Validator = *v50
this.SignedLastBlock = bool(bool(r.Intn(2) == 0))
if !easy && r.Intn(10) != 0 {
this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
@@ -7586,9 +8089,9 @@ func NewPopulatedSigningValidator(r randyTypes, easy bool) *SigningValidator {
func NewPopulatedPubKey(r randyTypes, easy bool) *PubKey {
this := &PubKey{}
this.Type = string(randStringTypes(r))
- v42 := r.Intn(100)
- this.Data = make([]byte, v42)
- for i := 0; i < v42; i++ {
+ v51 := r.Intn(100)
+ this.Data = make([]byte, v51)
+ for i := 0; i < v51; i++ {
this.Data[i] = byte(r.Intn(256))
}
if !easy && r.Intn(10) != 0 {
@@ -7600,14 +8103,14 @@ func NewPopulatedPubKey(r randyTypes, easy bool) *PubKey {
func NewPopulatedEvidence(r randyTypes, easy bool) *Evidence {
this := &Evidence{}
this.Type = string(randStringTypes(r))
- v43 := NewPopulatedValidator(r, easy)
- this.Validator = *v43
+ v52 := NewPopulatedValidator(r, easy)
+ this.Validator = *v52
this.Height = int64(r.Int63())
if r.Intn(2) == 0 {
this.Height *= -1
}
- v44 := github_com_gogo_protobuf_types.NewPopulatedStdTime(r, easy)
- this.Time = *v44
+ v53 := github_com_gogo_protobuf_types.NewPopulatedStdTime(r, easy)
+ this.Time = *v53
this.TotalVotingPower = int64(r.Int63())
if r.Intn(2) == 0 {
this.TotalVotingPower *= -1
@@ -7637,9 +8140,9 @@ func randUTF8RuneTypes(r randyTypes) rune {
return rune(ru + 61)
}
func randStringTypes(r randyTypes) string {
- v45 := r.Intn(100)
- tmps := make([]rune, v45)
- for i := 0; i < v45; i++ {
+ v54 := r.Intn(100)
+ tmps := make([]rune, v54)
+ for i := 0; i < v54; i++ {
tmps[i] = randUTF8RuneTypes(r)
}
return string(tmps)
@@ -7661,11 +8164,11 @@ func randFieldTypes(dAtA []byte, r randyTypes, fieldNumber int, wire int) []byte
switch wire {
case 0:
dAtA = encodeVarintPopulateTypes(dAtA, uint64(key))
- v46 := r.Int63()
+ v55 := r.Int63()
if r.Intn(2) == 0 {
- v46 *= -1
+ v55 *= -1
}
- dAtA = encodeVarintPopulateTypes(dAtA, uint64(v46))
+ dAtA = encodeVarintPopulateTypes(dAtA, uint64(v55))
case 1:
dAtA = encodeVarintPopulateTypes(dAtA, uint64(key))
dAtA = append(dAtA, byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)), byte(r.Intn(256)))
@@ -8383,9 +8886,6 @@ func (m *BlockSize) Size() (n int) {
if m.MaxBytes != 0 {
n += 1 + sovTypes(uint64(m.MaxBytes))
}
- if m.MaxTxs != 0 {
- n += 1 + sovTypes(uint64(m.MaxTxs))
- }
if m.MaxGas != 0 {
n += 1 + sovTypes(uint64(m.MaxGas))
}
@@ -8425,11 +8925,11 @@ func (m *BlockGossip) Size() (n int) {
func (m *LastCommitInfo) Size() (n int) {
var l int
_ = l
- if m.CommitRound != 0 {
- n += 1 + sovTypes(uint64(m.CommitRound))
+ if m.Round != 0 {
+ n += 1 + sovTypes(uint64(m.Round))
}
- if len(m.Validators) > 0 {
- for _, e := range m.Validators {
+ if len(m.Votes) > 0 {
+ for _, e := range m.Votes {
l = e.Size()
n += 1 + l + sovTypes(uint64(l))
}
@@ -8458,7 +8958,13 @@ func (m *Header) Size() (n int) {
if m.TotalTxs != 0 {
n += 1 + sovTypes(uint64(m.TotalTxs))
}
- l = len(m.LastBlockHash)
+ l = m.LastBlockId.Size()
+ n += 1 + l + sovTypes(uint64(l))
+ l = len(m.LastCommitHash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ l = len(m.DataHash)
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
@@ -8466,11 +8972,44 @@ func (m *Header) Size() (n int) {
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
+ l = len(m.NextValidatorsHash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ l = len(m.ConsensusHash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
l = len(m.AppHash)
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
- l = m.Proposer.Size()
+ l = len(m.LastResultsHash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ l = len(m.EvidenceHash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ l = len(m.ProposerAddress)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
+ return n
+}
+
+func (m *BlockID) Size() (n int) {
+ var l int
+ _ = l
+ l = len(m.Hash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ l = m.PartsHeader.Size()
n += 1 + l + sovTypes(uint64(l))
if m.XXX_unrecognized != nil {
n += len(m.XXX_unrecognized)
@@ -8478,6 +9017,22 @@ func (m *Header) Size() (n int) {
return n
}
+func (m *PartSetHeader) Size() (n int) {
+ var l int
+ _ = l
+ if m.Total != 0 {
+ n += 1 + sovTypes(uint64(m.Total))
+ }
+ l = len(m.Hash)
+ if l > 0 {
+ n += 1 + l + sovTypes(uint64(l))
+ }
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
+ return n
+}
+
func (m *Validator) Size() (n int) {
var l int
_ = l
@@ -8485,6 +9040,18 @@ func (m *Validator) Size() (n int) {
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
+ if m.Power != 0 {
+ n += 1 + sovTypes(uint64(m.Power))
+ }
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
+ return n
+}
+
+func (m *ValidatorUpdate) Size() (n int) {
+ var l int
+ _ = l
l = m.PubKey.Size()
n += 1 + l + sovTypes(uint64(l))
if m.Power != 0 {
@@ -8496,7 +9063,7 @@ func (m *Validator) Size() (n int) {
return n
}
-func (m *SigningValidator) Size() (n int) {
+func (m *VoteInfo) Size() (n int) {
var l int
_ = l
l = m.Validator.Size()
@@ -9433,7 +10000,7 @@ func (m *RequestInitChain) Unmarshal(dAtA []byte) error {
if postIndex > l {
return io.ErrUnexpectedEOF
}
- m.Validators = append(m.Validators, Validator{})
+ m.Validators = append(m.Validators, ValidatorUpdate{})
if err := m.Validators[len(m.Validators)-1].Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
return err
}
@@ -11120,7 +11687,7 @@ func (m *ResponseInitChain) Unmarshal(dAtA []byte) error {
if postIndex > l {
return io.ErrUnexpectedEOF
}
- m.Validators = append(m.Validators, Validator{})
+ m.Validators = append(m.Validators, ValidatorUpdate{})
if err := m.Validators[len(m.Validators)-1].Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
return err
}
@@ -11999,7 +12566,7 @@ func (m *ResponseEndBlock) Unmarshal(dAtA []byte) error {
if postIndex > l {
return io.ErrUnexpectedEOF
}
- m.ValidatorUpdates = append(m.ValidatorUpdates, Validator{})
+ m.ValidatorUpdates = append(m.ValidatorUpdates, ValidatorUpdate{})
if err := m.ValidatorUpdates[len(m.ValidatorUpdates)-1].Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
return err
}
@@ -12371,25 +12938,6 @@ func (m *BlockSize) Unmarshal(dAtA []byte) error {
}
}
case 2:
- if wireType != 0 {
- return fmt.Errorf("proto: wrong wireType = %d for field MaxTxs", wireType)
- }
- m.MaxTxs = 0
- for shift := uint(0); ; shift += 7 {
- if shift >= 64 {
- return ErrIntOverflowTypes
- }
- if iNdEx >= l {
- return io.ErrUnexpectedEOF
- }
- b := dAtA[iNdEx]
- iNdEx++
- m.MaxTxs |= (int32(b) & 0x7F) << shift
- if b < 0x80 {
- break
- }
- }
- case 3:
if wireType != 0 {
return fmt.Errorf("proto: wrong wireType = %d for field MaxGas", wireType)
}
@@ -12620,9 +13168,9 @@ func (m *LastCommitInfo) Unmarshal(dAtA []byte) error {
switch fieldNum {
case 1:
if wireType != 0 {
- return fmt.Errorf("proto: wrong wireType = %d for field CommitRound", wireType)
+ return fmt.Errorf("proto: wrong wireType = %d for field Round", wireType)
}
- m.CommitRound = 0
+ m.Round = 0
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return ErrIntOverflowTypes
@@ -12632,14 +13180,14 @@ func (m *LastCommitInfo) Unmarshal(dAtA []byte) error {
}
b := dAtA[iNdEx]
iNdEx++
- m.CommitRound |= (int32(b) & 0x7F) << shift
+ m.Round |= (int32(b) & 0x7F) << shift
if b < 0x80 {
break
}
}
case 2:
if wireType != 2 {
- return fmt.Errorf("proto: wrong wireType = %d for field Validators", wireType)
+ return fmt.Errorf("proto: wrong wireType = %d for field Votes", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
@@ -12663,8 +13211,8 @@ func (m *LastCommitInfo) Unmarshal(dAtA []byte) error {
if postIndex > l {
return io.ErrUnexpectedEOF
}
- m.Validators = append(m.Validators, SigningValidator{})
- if err := m.Validators[len(m.Validators)-1].Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
+ m.Votes = append(m.Votes, VoteInfo{})
+ if err := m.Votes[len(m.Votes)-1].Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
return err
}
iNdEx = postIndex
@@ -12811,7 +13359,7 @@ func (m *Header) Unmarshal(dAtA []byte) error {
}
b := dAtA[iNdEx]
iNdEx++
- m.NumTxs |= (int32(b) & 0x7F) << shift
+ m.NumTxs |= (int64(b) & 0x7F) << shift
if b < 0x80 {
break
}
@@ -12837,9 +13385,9 @@ func (m *Header) Unmarshal(dAtA []byte) error {
}
case 6:
if wireType != 2 {
- return fmt.Errorf("proto: wrong wireType = %d for field LastBlockHash", wireType)
+ return fmt.Errorf("proto: wrong wireType = %d for field LastBlockId", wireType)
}
- var byteLen int
+ var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return ErrIntOverflowTypes
@@ -12849,26 +13397,87 @@ func (m *Header) Unmarshal(dAtA []byte) error {
}
b := dAtA[iNdEx]
iNdEx++
- byteLen |= (int(b) & 0x7F) << shift
+ msglen |= (int(b) & 0x7F) << shift
if b < 0x80 {
break
}
}
- if byteLen < 0 {
+ if msglen < 0 {
return ErrInvalidLengthTypes
}
- postIndex := iNdEx + byteLen
+ postIndex := iNdEx + msglen
if postIndex > l {
return io.ErrUnexpectedEOF
}
- m.LastBlockHash = append(m.LastBlockHash[:0], dAtA[iNdEx:postIndex]...)
- if m.LastBlockHash == nil {
- m.LastBlockHash = []byte{}
+ if err := m.LastBlockId.Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
+ return err
}
iNdEx = postIndex
case 7:
if wireType != 2 {
- return fmt.Errorf("proto: wrong wireType = %d for field ValidatorsHash", wireType)
+ return fmt.Errorf("proto: wrong wireType = %d for field LastCommitHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.LastCommitHash = append(m.LastCommitHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.LastCommitHash == nil {
+ m.LastCommitHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 8:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field DataHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.DataHash = append(m.DataHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.DataHash == nil {
+ m.DataHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 9:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field ValidatorsHash", wireType)
}
var byteLen int
for shift := uint(0); ; shift += 7 {
@@ -12897,7 +13506,69 @@ func (m *Header) Unmarshal(dAtA []byte) error {
m.ValidatorsHash = []byte{}
}
iNdEx = postIndex
- case 8:
+ case 10:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field NextValidatorsHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.NextValidatorsHash = append(m.NextValidatorsHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.NextValidatorsHash == nil {
+ m.NextValidatorsHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 11:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field ConsensusHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.ConsensusHash = append(m.ConsensusHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.ConsensusHash == nil {
+ m.ConsensusHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 12:
if wireType != 2 {
return fmt.Errorf("proto: wrong wireType = %d for field AppHash", wireType)
}
@@ -12928,9 +13599,184 @@ func (m *Header) Unmarshal(dAtA []byte) error {
m.AppHash = []byte{}
}
iNdEx = postIndex
- case 9:
+ case 13:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field LastResultsHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.LastResultsHash = append(m.LastResultsHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.LastResultsHash == nil {
+ m.LastResultsHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 14:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field EvidenceHash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.EvidenceHash = append(m.EvidenceHash[:0], dAtA[iNdEx:postIndex]...)
+ if m.EvidenceHash == nil {
+ m.EvidenceHash = []byte{}
+ }
+ iNdEx = postIndex
+ case 15:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field ProposerAddress", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.ProposerAddress = append(m.ProposerAddress[:0], dAtA[iNdEx:postIndex]...)
+ if m.ProposerAddress == nil {
+ m.ProposerAddress = []byte{}
+ }
+ iNdEx = postIndex
+ default:
+ iNdEx = preIndex
+ skippy, err := skipTypes(dAtA[iNdEx:])
+ if err != nil {
+ return err
+ }
+ if skippy < 0 {
+ return ErrInvalidLengthTypes
+ }
+ if (iNdEx + skippy) > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
+ iNdEx += skippy
+ }
+ }
+
+ if iNdEx > l {
+ return io.ErrUnexpectedEOF
+ }
+ return nil
+}
+func (m *BlockID) Unmarshal(dAtA []byte) error {
+ l := len(dAtA)
+ iNdEx := 0
+ for iNdEx < l {
+ preIndex := iNdEx
+ var wire uint64
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ wire |= (uint64(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ fieldNum := int32(wire >> 3)
+ wireType := int(wire & 0x7)
+ if wireType == 4 {
+ return fmt.Errorf("proto: BlockID: wiretype end group for non-group")
+ }
+ if fieldNum <= 0 {
+ return fmt.Errorf("proto: BlockID: illegal tag %d (wire type %d)", fieldNum, wire)
+ }
+ switch fieldNum {
+ case 1:
if wireType != 2 {
- return fmt.Errorf("proto: wrong wireType = %d for field Proposer", wireType)
+ return fmt.Errorf("proto: wrong wireType = %d for field Hash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.Hash = append(m.Hash[:0], dAtA[iNdEx:postIndex]...)
+ if m.Hash == nil {
+ m.Hash = []byte{}
+ }
+ iNdEx = postIndex
+ case 2:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field PartsHeader", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
@@ -12954,7 +13800,7 @@ func (m *Header) Unmarshal(dAtA []byte) error {
if postIndex > l {
return io.ErrUnexpectedEOF
}
- if err := m.Proposer.Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
+ if err := m.PartsHeader.Unmarshal(dAtA[iNdEx:postIndex]); err != nil {
return err
}
iNdEx = postIndex
@@ -12980,6 +13826,107 @@ func (m *Header) Unmarshal(dAtA []byte) error {
}
return nil
}
+func (m *PartSetHeader) Unmarshal(dAtA []byte) error {
+ l := len(dAtA)
+ iNdEx := 0
+ for iNdEx < l {
+ preIndex := iNdEx
+ var wire uint64
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ wire |= (uint64(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ fieldNum := int32(wire >> 3)
+ wireType := int(wire & 0x7)
+ if wireType == 4 {
+ return fmt.Errorf("proto: PartSetHeader: wiretype end group for non-group")
+ }
+ if fieldNum <= 0 {
+ return fmt.Errorf("proto: PartSetHeader: illegal tag %d (wire type %d)", fieldNum, wire)
+ }
+ switch fieldNum {
+ case 1:
+ if wireType != 0 {
+ return fmt.Errorf("proto: wrong wireType = %d for field Total", wireType)
+ }
+ m.Total = 0
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ m.Total |= (int32(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ case 2:
+ if wireType != 2 {
+ return fmt.Errorf("proto: wrong wireType = %d for field Hash", wireType)
+ }
+ var byteLen int
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ byteLen |= (int(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ if byteLen < 0 {
+ return ErrInvalidLengthTypes
+ }
+ postIndex := iNdEx + byteLen
+ if postIndex > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.Hash = append(m.Hash[:0], dAtA[iNdEx:postIndex]...)
+ if m.Hash == nil {
+ m.Hash = []byte{}
+ }
+ iNdEx = postIndex
+ default:
+ iNdEx = preIndex
+ skippy, err := skipTypes(dAtA[iNdEx:])
+ if err != nil {
+ return err
+ }
+ if skippy < 0 {
+ return ErrInvalidLengthTypes
+ }
+ if (iNdEx + skippy) > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
+ iNdEx += skippy
+ }
+ }
+
+ if iNdEx > l {
+ return io.ErrUnexpectedEOF
+ }
+ return nil
+}
func (m *Validator) Unmarshal(dAtA []byte) error {
l := len(dAtA)
iNdEx := 0
@@ -13040,7 +13987,77 @@ func (m *Validator) Unmarshal(dAtA []byte) error {
m.Address = []byte{}
}
iNdEx = postIndex
- case 2:
+ case 3:
+ if wireType != 0 {
+ return fmt.Errorf("proto: wrong wireType = %d for field Power", wireType)
+ }
+ m.Power = 0
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ m.Power |= (int64(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ default:
+ iNdEx = preIndex
+ skippy, err := skipTypes(dAtA[iNdEx:])
+ if err != nil {
+ return err
+ }
+ if skippy < 0 {
+ return ErrInvalidLengthTypes
+ }
+ if (iNdEx + skippy) > l {
+ return io.ErrUnexpectedEOF
+ }
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
+ iNdEx += skippy
+ }
+ }
+
+ if iNdEx > l {
+ return io.ErrUnexpectedEOF
+ }
+ return nil
+}
+func (m *ValidatorUpdate) Unmarshal(dAtA []byte) error {
+ l := len(dAtA)
+ iNdEx := 0
+ for iNdEx < l {
+ preIndex := iNdEx
+ var wire uint64
+ for shift := uint(0); ; shift += 7 {
+ if shift >= 64 {
+ return ErrIntOverflowTypes
+ }
+ if iNdEx >= l {
+ return io.ErrUnexpectedEOF
+ }
+ b := dAtA[iNdEx]
+ iNdEx++
+ wire |= (uint64(b) & 0x7F) << shift
+ if b < 0x80 {
+ break
+ }
+ }
+ fieldNum := int32(wire >> 3)
+ wireType := int(wire & 0x7)
+ if wireType == 4 {
+ return fmt.Errorf("proto: ValidatorUpdate: wiretype end group for non-group")
+ }
+ if fieldNum <= 0 {
+ return fmt.Errorf("proto: ValidatorUpdate: illegal tag %d (wire type %d)", fieldNum, wire)
+ }
+ switch fieldNum {
+ case 1:
if wireType != 2 {
return fmt.Errorf("proto: wrong wireType = %d for field PubKey", wireType)
}
@@ -13070,7 +14087,7 @@ func (m *Validator) Unmarshal(dAtA []byte) error {
return err
}
iNdEx = postIndex
- case 3:
+ case 2:
if wireType != 0 {
return fmt.Errorf("proto: wrong wireType = %d for field Power", wireType)
}
@@ -13111,7 +14128,7 @@ func (m *Validator) Unmarshal(dAtA []byte) error {
}
return nil
}
-func (m *SigningValidator) Unmarshal(dAtA []byte) error {
+func (m *VoteInfo) Unmarshal(dAtA []byte) error {
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
@@ -13134,10 +14151,10 @@ func (m *SigningValidator) Unmarshal(dAtA []byte) error {
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
- return fmt.Errorf("proto: SigningValidator: wiretype end group for non-group")
+ return fmt.Errorf("proto: VoteInfo: wiretype end group for non-group")
}
if fieldNum <= 0 {
- return fmt.Errorf("proto: SigningValidator: illegal tag %d (wire type %d)", fieldNum, wire)
+ return fmt.Errorf("proto: VoteInfo: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
@@ -13606,134 +14623,143 @@ var (
ErrIntOverflowTypes = fmt.Errorf("proto: integer overflow")
)
-func init() { proto.RegisterFile("abci/types/types.proto", fileDescriptor_types_d8da2202f45d32c0) }
+func init() { proto.RegisterFile("abci/types/types.proto", fileDescriptor_types_c68d3007ea320b94) }
func init() {
- golang_proto.RegisterFile("abci/types/types.proto", fileDescriptor_types_d8da2202f45d32c0)
+ golang_proto.RegisterFile("abci/types/types.proto", fileDescriptor_types_c68d3007ea320b94)
}
-var fileDescriptor_types_d8da2202f45d32c0 = []byte{
- // 1959 bytes of a gzipped FileDescriptorProto
+var fileDescriptor_types_c68d3007ea320b94 = []byte{
+ // 2099 bytes of a gzipped FileDescriptorProto
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+ 0xfb, 0x9f, 0x0d, 0xa8, 0x47, 0xcd, 0x6c, 0xa1, 0x50, 0xe6, 0xd2, 0xa5, 0x57, 0xbd, 0xf4, 0xbc,
+ 0x17, 0x81, 0x28, 0x8b, 0x54, 0x5e, 0x3b, 0x8b, 0xec, 0x02, 0x51, 0xc9, 0xe2, 0xc2, 0x17, 0xae,
+ 0x37, 0xb4, 0x95, 0xad, 0x55, 0xd6, 0x58, 0x41, 0xca, 0x19, 0x12, 0x4e, 0xe5, 0xfa, 0xc1, 0xe7,
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+ 0x05, 0x7b, 0x89, 0x82, 0x57, 0xcc, 0x6e, 0x51, 0x53, 0x4b, 0x0e, 0x60, 0x11, 0x5b, 0x0a, 0x52,
+ 0xf4, 0x98, 0xd9, 0x2d, 0xec, 0x6d, 0xe5, 0x21, 0xaa, 0xe9, 0xb8, 0xfe, 0xa6, 0xd9, 0x2d, 0x6a,
+ 0x70, 0xc9, 0x87, 0xd0, 0x48, 0x9a, 0x81, 0x79, 0x2f, 0x9b, 0xdd, 0xb9, 0xad, 0xae, 0x94, 0x4f,
+ 0x6a, 0xb0, 0x79, 0x0f, 0x74, 0xdd, 0xb9, 0x3d, 0x21, 0x39, 0x84, 0x5a, 0x54, 0x9b, 0x16, 0xbf,
+ 0x3d, 0x76, 0xe7, 0xb4, 0xa1, 0xd2, 0x3c, 0xaa, 0xbe, 0x2f, 0x7a, 0x20, 0xed, 0x16, 0xf6, 0xca,
+ 0xe4, 0x2e, 0x54, 0x75, 0xb1, 0x51, 0xf8, 0xfe, 0xd8, 0x2d, 0x6e, 0x26, 0xa5, 0x92, 0x49, 0x87,
+ 0x33, 0xef, 0x11, 0xb7, 0x3b, 0xb7, 0xa9, 0x27, 0x47, 0x00, 0xa9, 0x9a, 0x7e, 0xee, 0xeb, 0x6c,
+ 0x77, 0x7e, 0xb3, 0x4e, 0xee, 0x43, 0x3d, 0x79, 0x80, 0x29, 0x7e, 0x6f, 0xed, 0xce, 0xeb, 0x9f,
+ 0x7b, 0x5f, 0xff, 0xef, 0x3f, 0x36, 0x8d, 0xdf, 0x5c, 0x6d, 0x1a, 0xbf, 0xbb, 0xda, 0x34, 0xbe,
+ 0xbc, 0xda, 0x34, 0xfe, 0x78, 0xb5, 0x69, 0xfc, 0xfd, 0x6a, 0xd3, 0xf8, 0xfd, 0x3f, 0x37, 0x8d,
+ 0x7e, 0x15, 0xdd, 0xff, 0xbd, 0xff, 0x05, 0x00, 0x00, 0xff, 0xff, 0x48, 0x26, 0x13, 0xca, 0x22,
+ 0x18, 0x00, 0x00,
}
diff --git a/vendor/github.com/tendermint/tendermint/abci/types/types.proto b/vendor/github.com/tendermint/tendermint/abci/types/types.proto
index 6e6b1cd3671a542833b635755ba6cab361cd52ac..75a53ac46f8e1ae505740162e658aaec92314c3a 100644
--- a/vendor/github.com/tendermint/tendermint/abci/types/types.proto
+++ b/vendor/github.com/tendermint/tendermint/abci/types/types.proto
@@ -60,7 +60,7 @@ message RequestInitChain {
google.protobuf.Timestamp time = 1 [(gogoproto.nullable)=false, (gogoproto.stdtime)=true];
string chain_id = 2;
ConsensusParams consensus_params = 3;
- repeated Validator validators = 4 [(gogoproto.nullable)=false];
+ repeated ValidatorUpdate validators = 4 [(gogoproto.nullable)=false];
bytes app_state_bytes = 5;
}
@@ -143,7 +143,7 @@ message ResponseSetOption {
message ResponseInitChain {
ConsensusParams consensus_params = 1;
- repeated Validator validators = 2 [(gogoproto.nullable)=false];
+ repeated ValidatorUpdate validators = 2 [(gogoproto.nullable)=false];
}
message ResponseQuery {
@@ -183,7 +183,7 @@ message ResponseDeliverTx {
}
message ResponseEndBlock {
- repeated Validator validator_updates = 1 [(gogoproto.nullable)=false];
+ repeated ValidatorUpdate validator_updates = 1 [(gogoproto.nullable)=false];
ConsensusParams consensus_param_updates = 2;
repeated common.KVPair tags = 3 [(gogoproto.nullable)=false, (gogoproto.jsontag)="tags,omitempty"];
}
@@ -207,8 +207,7 @@ message ConsensusParams {
// BlockSize contains limits on the block size.
message BlockSize {
int32 max_bytes = 1;
- int32 max_txs = 2;
- int64 max_gas = 3;
+ int64 max_gas = 2;
}
// TxSize contains limits on the tx size.
@@ -225,42 +224,65 @@ message BlockGossip {
}
message LastCommitInfo {
- int32 commit_round = 1;
- repeated SigningValidator validators = 2 [(gogoproto.nullable)=false];
+ int32 round = 1;
+ repeated VoteInfo votes = 2 [(gogoproto.nullable)=false];
}
//----------------------------------------
// Blockchain Types
-// just the minimum the app might need
message Header {
- // basics
+ // basic block info
string chain_id = 1 [(gogoproto.customname)="ChainID"];
int64 height = 2;
google.protobuf.Timestamp time = 3 [(gogoproto.nullable)=false, (gogoproto.stdtime)=true];
-
- // txs
- int32 num_txs = 4;
+ int64 num_txs = 4;
int64 total_txs = 5;
- // hashes
- bytes last_block_hash = 6;
- bytes validators_hash = 7;
- bytes app_hash = 8;
+ // prev block info
+ BlockID last_block_id = 6 [(gogoproto.nullable)=false];
+
+ // hashes of block data
+ bytes last_commit_hash = 7; // commit from validators from the last block
+ bytes data_hash = 8; // transactions
- // consensus
- Validator proposer = 9 [(gogoproto.nullable)=false];
+ // hashes from the app output from the prev block
+ bytes validators_hash = 9; // validators for the current block
+ bytes next_validators_hash = 10; // validators for the next block
+ bytes consensus_hash = 11; // consensus params for current block
+ bytes app_hash = 12; // state after txs from the previous block
+ bytes last_results_hash = 13;// root hash of all results from the txs from the previous block
+
+ // consensus info
+ bytes evidence_hash = 14; // evidence included in the block
+ bytes proposer_address = 15; // original proposer of the block
+}
+
+message BlockID {
+ bytes hash = 1;
+ PartSetHeader parts_header = 2 [(gogoproto.nullable)=false];
+}
+
+message PartSetHeader {
+ int32 total = 1;
+ bytes hash = 2;
}
// Validator
message Validator {
bytes address = 1;
- PubKey pub_key = 2 [(gogoproto.nullable)=false];
+ //PubKey pub_key = 2 [(gogoproto.nullable)=false];
int64 power = 3;
}
-// Validator with an extra bool
-message SigningValidator {
+// ValidatorUpdate
+message ValidatorUpdate {
+ PubKey pub_key = 1 [(gogoproto.nullable)=false];
+ int64 power = 2;
+}
+
+// VoteInfo
+message VoteInfo {
Validator validator = 1 [(gogoproto.nullable)=false];
bool signed_last_block = 2;
}
diff --git a/vendor/github.com/tendermint/tendermint/abci/types/util.go b/vendor/github.com/tendermint/tendermint/abci/types/util.go
index 458024c581bdef48e824036e68d63c65686468a1..3cde882320aacdde4ba1b18864849d9fb9692550 100644
--- a/vendor/github.com/tendermint/tendermint/abci/types/util.go
+++ b/vendor/github.com/tendermint/tendermint/abci/types/util.go
@@ -2,58 +2,33 @@ package types
import (
"bytes"
- "encoding/json"
"sort"
-
- cmn "github.com/tendermint/tendermint/libs/common"
)
//------------------------------------------------------------------------------
-// Validators is a list of validators that implements the Sort interface
-type Validators []Validator
+// ValidatorUpdates is a list of validators that implements the Sort interface
+type ValidatorUpdates []ValidatorUpdate
-var _ sort.Interface = (Validators)(nil)
+var _ sort.Interface = (ValidatorUpdates)(nil)
-// All these methods for Validators:
+// All these methods for ValidatorUpdates:
// Len, Less and Swap
-// are for Validators to implement sort.Interface
+// are for ValidatorUpdates to implement sort.Interface
// which will be used by the sort package.
// See Issue https://github.com/tendermint/abci/issues/212
-func (v Validators) Len() int {
+func (v ValidatorUpdates) Len() int {
return len(v)
}
// XXX: doesn't distinguish same validator with different power
-func (v Validators) Less(i, j int) bool {
+func (v ValidatorUpdates) Less(i, j int) bool {
return bytes.Compare(v[i].PubKey.Data, v[j].PubKey.Data) <= 0
}
-func (v Validators) Swap(i, j int) {
+func (v ValidatorUpdates) Swap(i, j int) {
v1 := v[i]
v[i] = v[j]
v[j] = v1
}
-
-func ValidatorsString(vs Validators) string {
- s := make([]validatorPretty, len(vs))
- for i, v := range vs {
- s[i] = validatorPretty{
- Address: v.Address,
- PubKey: v.PubKey.Data,
- Power: v.Power,
- }
- }
- b, err := json.Marshal(s)
- if err != nil {
- panic(err.Error())
- }
- return string(b)
-}
-
-type validatorPretty struct {
- Address cmn.HexBytes `json:"address"`
- PubKey []byte `json:"pub_key"`
- Power int64 `json:"power"`
-}
diff --git a/vendor/github.com/tendermint/tendermint/blockchain/pool.go b/vendor/github.com/tendermint/tendermint/blockchain/pool.go
index a881c7cb736a470b80955bf1784056695072539f..c7864a646308145dd276a297aa475ec7156f1c70 100644
--- a/vendor/github.com/tendermint/tendermint/blockchain/pool.go
+++ b/vendor/github.com/tendermint/tendermint/blockchain/pool.go
@@ -365,10 +365,10 @@ func (pool *BlockPool) debug() string {
nextHeight := pool.height + pool.requestersLen()
for h := pool.height; h < nextHeight; h++ {
if pool.requesters[h] == nil {
- str += cmn.Fmt("H(%v):X ", h)
+ str += fmt.Sprintf("H(%v):X ", h)
} else {
- str += cmn.Fmt("H(%v):", h)
- str += cmn.Fmt("B?(%v) ", pool.requesters[h].block != nil)
+ str += fmt.Sprintf("H(%v):", h)
+ str += fmt.Sprintf("B?(%v) ", pool.requesters[h].block != nil)
}
}
return str
diff --git a/vendor/github.com/tendermint/tendermint/blockchain/reactor.go b/vendor/github.com/tendermint/tendermint/blockchain/reactor.go
index f00df50c32879213186eed250dde5e6263d2dd28..f975737c6d8ac542d32f923b74011fc484c36074 100644
--- a/vendor/github.com/tendermint/tendermint/blockchain/reactor.go
+++ b/vendor/github.com/tendermint/tendermint/blockchain/reactor.go
@@ -201,7 +201,7 @@ func (bcR *BlockchainReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte)
// Got a peer status. Unverified.
bcR.pool.SetPeerHeight(src.ID(), msg.Height)
default:
- bcR.Logger.Error(cmn.Fmt("Unknown message type %v", reflect.TypeOf(msg)))
+ bcR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
}
@@ -321,7 +321,7 @@ FOR_LOOP:
state, err = bcR.blockExec.ApplyBlock(state, firstID, first)
if err != nil {
// TODO This is bad, are we zombie?
- cmn.PanicQ(cmn.Fmt("Failed to process committed block (%d:%X): %v",
+ cmn.PanicQ(fmt.Sprintf("Failed to process committed block (%d:%X): %v",
first.Height, first.Hash(), err))
}
blocksSynced++
@@ -356,11 +356,11 @@ type BlockchainMessage interface{}
func RegisterBlockchainMessages(cdc *amino.Codec) {
cdc.RegisterInterface((*BlockchainMessage)(nil), nil)
- cdc.RegisterConcrete(&bcBlockRequestMessage{}, "tendermint/mempool/BlockRequest", nil)
- cdc.RegisterConcrete(&bcBlockResponseMessage{}, "tendermint/mempool/BlockResponse", nil)
- cdc.RegisterConcrete(&bcNoBlockResponseMessage{}, "tendermint/mempool/NoBlockResponse", nil)
- cdc.RegisterConcrete(&bcStatusResponseMessage{}, "tendermint/mempool/StatusResponse", nil)
- cdc.RegisterConcrete(&bcStatusRequestMessage{}, "tendermint/mempool/StatusRequest", nil)
+ cdc.RegisterConcrete(&bcBlockRequestMessage{}, "tendermint/blockchain/BlockRequest", nil)
+ cdc.RegisterConcrete(&bcBlockResponseMessage{}, "tendermint/blockchain/BlockResponse", nil)
+ cdc.RegisterConcrete(&bcNoBlockResponseMessage{}, "tendermint/blockchain/NoBlockResponse", nil)
+ cdc.RegisterConcrete(&bcStatusResponseMessage{}, "tendermint/blockchain/StatusResponse", nil)
+ cdc.RegisterConcrete(&bcStatusRequestMessage{}, "tendermint/blockchain/StatusRequest", nil)
}
func decodeMsg(bz []byte) (msg BlockchainMessage, err error) {
@@ -378,7 +378,7 @@ type bcBlockRequestMessage struct {
}
func (m *bcBlockRequestMessage) String() string {
- return cmn.Fmt("[bcBlockRequestMessage %v]", m.Height)
+ return fmt.Sprintf("[bcBlockRequestMessage %v]", m.Height)
}
type bcNoBlockResponseMessage struct {
@@ -386,7 +386,7 @@ type bcNoBlockResponseMessage struct {
}
func (brm *bcNoBlockResponseMessage) String() string {
- return cmn.Fmt("[bcNoBlockResponseMessage %d]", brm.Height)
+ return fmt.Sprintf("[bcNoBlockResponseMessage %d]", brm.Height)
}
//-------------------------------------
@@ -396,7 +396,7 @@ type bcBlockResponseMessage struct {
}
func (m *bcBlockResponseMessage) String() string {
- return cmn.Fmt("[bcBlockResponseMessage %v]", m.Block.Height)
+ return fmt.Sprintf("[bcBlockResponseMessage %v]", m.Block.Height)
}
//-------------------------------------
@@ -406,7 +406,7 @@ type bcStatusRequestMessage struct {
}
func (m *bcStatusRequestMessage) String() string {
- return cmn.Fmt("[bcStatusRequestMessage %v]", m.Height)
+ return fmt.Sprintf("[bcStatusRequestMessage %v]", m.Height)
}
//-------------------------------------
@@ -416,5 +416,5 @@ type bcStatusResponseMessage struct {
}
func (m *bcStatusResponseMessage) String() string {
- return cmn.Fmt("[bcStatusResponseMessage %v]", m.Height)
+ return fmt.Sprintf("[bcStatusResponseMessage %v]", m.Height)
}
diff --git a/vendor/github.com/tendermint/tendermint/blockchain/store.go b/vendor/github.com/tendermint/tendermint/blockchain/store.go
index f02d4facbcfca728bce2333ef6a92c5ae8b3b69a..fa9ee5189f83b4d60d03d6e786e3eadee7624ea2 100644
--- a/vendor/github.com/tendermint/tendermint/blockchain/store.go
+++ b/vendor/github.com/tendermint/tendermint/blockchain/store.go
@@ -148,10 +148,10 @@ func (bs *BlockStore) SaveBlock(block *types.Block, blockParts *types.PartSet, s
}
height := block.Height
if g, w := height, bs.Height()+1; g != w {
- cmn.PanicSanity(cmn.Fmt("BlockStore can only save contiguous blocks. Wanted %v, got %v", w, g))
+ cmn.PanicSanity(fmt.Sprintf("BlockStore can only save contiguous blocks. Wanted %v, got %v", w, g))
}
if !blockParts.IsComplete() {
- cmn.PanicSanity(cmn.Fmt("BlockStore can only save complete block part sets"))
+ cmn.PanicSanity(fmt.Sprintf("BlockStore can only save complete block part sets"))
}
// Save block meta
@@ -188,7 +188,7 @@ func (bs *BlockStore) SaveBlock(block *types.Block, blockParts *types.PartSet, s
func (bs *BlockStore) saveBlockPart(height int64, index int, part *types.Part) {
if height != bs.Height()+1 {
- cmn.PanicSanity(cmn.Fmt("BlockStore can only save contiguous blocks. Wanted %v, got %v", bs.Height()+1, height))
+ cmn.PanicSanity(fmt.Sprintf("BlockStore can only save contiguous blocks. Wanted %v, got %v", bs.Height()+1, height))
}
partBytes := cdc.MustMarshalBinaryBare(part)
bs.db.Set(calcBlockPartKey(height, index), partBytes)
@@ -224,7 +224,7 @@ type BlockStoreStateJSON struct {
func (bsj BlockStoreStateJSON) Save(db dbm.DB) {
bytes, err := cdc.MarshalJSON(bsj)
if err != nil {
- cmn.PanicSanity(cmn.Fmt("Could not marshal state bytes: %v", err))
+ cmn.PanicSanity(fmt.Sprintf("Could not marshal state bytes: %v", err))
}
db.SetSync(blockStoreKey, bytes)
}
diff --git a/vendor/github.com/tendermint/tendermint/config/config.go b/vendor/github.com/tendermint/tendermint/config/config.go
index fb8e79086d014eed3cb4f14ccc2c0caa2f567af3..c0882546f1a0550c7c996d559fe4c71826a57b96 100644
--- a/vendor/github.com/tendermint/tendermint/config/config.go
+++ b/vendor/github.com/tendermint/tendermint/config/config.go
@@ -94,7 +94,6 @@ func (cfg *Config) SetRoot(root string) *Config {
// BaseConfig defines the base configuration for a Tendermint node
type BaseConfig struct {
-
// chainID is unexposed and immutable but here for convenience
chainID string
@@ -102,49 +101,49 @@ type BaseConfig struct {
// This should be set in viper so it can unmarshal into this struct
RootDir string `mapstructure:"home"`
+ // TCP or UNIX socket address of the ABCI application,
+ // or the name of an ABCI application compiled in with the Tendermint binary
+ ProxyApp string `mapstructure:"proxy_app"`
+
+ // A custom human readable name for this node
+ Moniker string `mapstructure:"moniker"`
+
+ // If this node is many blocks behind the tip of the chain, FastSync
+ // allows them to catchup quickly by downloading blocks in parallel
+ // and verifying their commits
+ FastSync bool `mapstructure:"fast_sync"`
+
+ // Database backend: leveldb | memdb
+ DBBackend string `mapstructure:"db_backend"`
+
+ // Database directory
+ DBPath string `mapstructure:"db_dir"`
+
+ // Output level for logging
+ LogLevel string `mapstructure:"log_level"`
+
// Path to the JSON file containing the initial validator set and other meta data
Genesis string `mapstructure:"genesis_file"`
// Path to the JSON file containing the private key to use as a validator in the consensus protocol
PrivValidator string `mapstructure:"priv_validator_file"`
- // A JSON file containing the private key to use for p2p authenticated encryption
- NodeKey string `mapstructure:"node_key_file"`
-
- // A custom human readable name for this node
- Moniker string `mapstructure:"moniker"`
-
// TCP or UNIX socket address for Tendermint to listen on for
// connections from an external PrivValidator process
PrivValidatorListenAddr string `mapstructure:"priv_validator_laddr"`
- // TCP or UNIX socket address of the ABCI application,
- // or the name of an ABCI application compiled in with the Tendermint binary
- ProxyApp string `mapstructure:"proxy_app"`
+ // A JSON file containing the private key to use for p2p authenticated encryption
+ NodeKey string `mapstructure:"node_key_file"`
// Mechanism to connect to the ABCI application: socket | grpc
ABCI string `mapstructure:"abci"`
- // Output level for logging
- LogLevel string `mapstructure:"log_level"`
-
// TCP or UNIX socket address for the profiling server to listen on
ProfListenAddress string `mapstructure:"prof_laddr"`
- // If this node is many blocks behind the tip of the chain, FastSync
- // allows them to catchup quickly by downloading blocks in parallel
- // and verifying their commits
- FastSync bool `mapstructure:"fast_sync"`
-
// If true, query the ABCI app on connecting to a new peer
// so the app can decide if we should keep the connection or not
FilterPeers bool `mapstructure:"filter_peers"` // false
-
- // Database backend: leveldb | memdb
- DBBackend string `mapstructure:"db_backend"`
-
- // Database directory
- DBPath string `mapstructure:"db_dir"`
}
// DefaultBaseConfig returns a default base configuration for a Tendermint node
@@ -239,6 +238,8 @@ type RPCConfig struct {
// If you want to accept more significant number than the default, make sure
// you increase your OS limits.
// 0 - unlimited.
+ // Should be < {ulimit -Sn} - {MaxNumInboundPeers} - {MaxNumOutboundPeers} - {N of wal, db and other open files}
+ // 1024 - 40 - 10 - 50 = 924 = ~900
MaxOpenConnections int `mapstructure:"max_open_connections"`
}
@@ -248,11 +249,9 @@ func DefaultRPCConfig() *RPCConfig {
ListenAddress: "tcp://0.0.0.0:26657",
GRPCListenAddress: "",
- GRPCMaxOpenConnections: 900, // no ipv4
+ GRPCMaxOpenConnections: 900,
- Unsafe: false,
- // should be < {ulimit -Sn} - {MaxNumPeers} - {N of wal, db and other open files}
- // 1024 - 50 - 50 = 924 = ~900
+ Unsafe: false,
MaxOpenConnections: 900,
}
}
@@ -293,10 +292,14 @@ type P2PConfig struct {
AddrBook string `mapstructure:"addr_book_file"`
// Set true for strict address routability rules
+ // Set false for private or local networks
AddrBookStrict bool `mapstructure:"addr_book_strict"`
- // Maximum number of peers to connect to
- MaxNumPeers int `mapstructure:"max_num_peers"`
+ // Maximum number of inbound peers
+ MaxNumInboundPeers int `mapstructure:"max_num_inbound_peers"`
+
+ // Maximum number of outbound peers to connect to, excluding persistent peers
+ MaxNumOutboundPeers int `mapstructure:"max_num_outbound_peers"`
// Time to wait before flushing messages out on the connection, in ms
FlushThrottleTimeout int `mapstructure:"flush_throttle_timeout"`
@@ -346,7 +349,8 @@ func DefaultP2PConfig() *P2PConfig {
UPNP: false,
AddrBook: defaultAddrBookPath,
AddrBookStrict: true,
- MaxNumPeers: 50,
+ MaxNumInboundPeers: 40,
+ MaxNumOutboundPeers: 10,
FlushThrottleTimeout: 100,
MaxPacketMsgPayloadSize: 1024, // 1 kB
SendRate: 5120000, // 5 mB/s
@@ -417,8 +421,10 @@ func DefaultMempoolConfig() *MempoolConfig {
RecheckEmpty: true,
Broadcast: true,
WalPath: filepath.Join(defaultDataDir, "mempool.wal"),
- Size: 100000,
- CacheSize: 100000,
+ // Each signature verification takes .5ms, size reduced until we implement
+ // ABCI Recheck
+ Size: 5000,
+ CacheSize: 10000,
}
}
@@ -463,6 +469,9 @@ type ConsensusConfig struct {
// Reactor sleep duration parameters are in milliseconds
PeerGossipSleepDuration int `mapstructure:"peer_gossip_sleep_duration"`
PeerQueryMaj23SleepDuration int `mapstructure:"peer_query_maj23_sleep_duration"`
+
+ // Block time parameters in milliseconds. Corresponds to the minimum time increment between consecutive blocks.
+ BlockTimeIota int `mapstructure:"blocktime_iota"`
}
// DefaultConsensusConfig returns a default configuration for the consensus service
@@ -481,6 +490,7 @@ func DefaultConsensusConfig() *ConsensusConfig {
CreateEmptyBlocksInterval: 0,
PeerGossipSleepDuration: 100,
PeerQueryMaj23SleepDuration: 2000,
+ BlockTimeIota: 1000,
}
}
@@ -497,9 +507,17 @@ func TestConsensusConfig() *ConsensusConfig {
cfg.SkipTimeoutCommit = true
cfg.PeerGossipSleepDuration = 5
cfg.PeerQueryMaj23SleepDuration = 250
+ cfg.BlockTimeIota = 10
return cfg
}
+// MinValidVoteTime returns the minimum acceptable block time.
+// See the [BFT time spec](https://godoc.org/github.com/tendermint/tendermint/docs/spec/consensus/bft-time.md).
+func (cfg *ConsensusConfig) MinValidVoteTime(lastBlockTime time.Time) time.Time {
+ return lastBlockTime.
+ Add(time.Duration(cfg.BlockTimeIota) * time.Millisecond)
+}
+
// WaitForTxs returns true if the consensus should wait for transactions before entering the propose step
func (cfg *ConsensusConfig) WaitForTxs() bool {
return !cfg.CreateEmptyBlocks || cfg.CreateEmptyBlocksInterval > 0
@@ -556,8 +574,8 @@ func (cfg *ConsensusConfig) SetWalFile(walFile string) {
//-----------------------------------------------------------------------------
// TxIndexConfig
-// TxIndexConfig defines the configuration for the transaction
-// indexer, including tags to index.
+// TxIndexConfig defines the configuration for the transaction indexer,
+// including tags to index.
type TxIndexConfig struct {
// What indexer to use for transactions
//
@@ -566,16 +584,21 @@ type TxIndexConfig struct {
// 2) "kv" (default) - the simplest possible indexer, backed by key-value storage (defaults to levelDB; see DBBackend).
Indexer string `mapstructure:"indexer"`
- // Comma-separated list of tags to index (by default the only tag is tx hash)
+ // Comma-separated list of tags to index (by default the only tag is "tx.hash")
//
+ // You can also index transactions by height by adding "tx.height" tag here.
+ //
// It's recommended to index only a subset of tags due to possible memory
// bloat. This is, of course, depends on the indexer's DB and the volume of
// transactions.
IndexTags string `mapstructure:"index_tags"`
- // When set to true, tells indexer to index all tags. Note this may be not
- // desirable (see the comment above). IndexTags has a precedence over
- // IndexAllTags (i.e. when given both, IndexTags will be indexed).
+ // When set to true, tells indexer to index all tags (predefined tags:
+ // "tx.hash", "tx.height" and all tags from DeliverTx responses).
+ //
+ // Note this may be not desirable (see the comment above). IndexTags has a
+ // precedence over IndexAllTags (i.e. when given both, IndexTags will be
+ // indexed).
IndexAllTags bool `mapstructure:"index_all_tags"`
}
diff --git a/vendor/github.com/tendermint/tendermint/config/toml.go b/vendor/github.com/tendermint/tendermint/config/toml.go
index 60ce15de84e2ed8f8cd54d700794a6469d27f708..2a35d7c36dee664e5df0890ceb80d59c7692ccf4 100644
--- a/vendor/github.com/tendermint/tendermint/config/toml.go
+++ b/vendor/github.com/tendermint/tendermint/config/toml.go
@@ -81,7 +81,7 @@ fast_sync = {{ .BaseConfig.FastSync }}
db_backend = "{{ .BaseConfig.DBBackend }}"
# Database directory
-db_path = "{{ js .BaseConfig.DBPath }}"
+db_dir = "{{ js .BaseConfig.DBPath }}"
# Output level for logging, including package level options
log_level = "{{ .BaseConfig.LogLevel }}"
@@ -94,6 +94,10 @@ genesis_file = "{{ js .BaseConfig.Genesis }}"
# Path to the JSON file containing the private key to use as a validator in the consensus protocol
priv_validator_file = "{{ js .BaseConfig.PrivValidator }}"
+# TCP or UNIX socket address for Tendermint to listen on for
+# connections from an external PrivValidator process
+priv_validator_laddr = "{{ .BaseConfig.PrivValidatorListenAddr }}"
+
# Path to the JSON file containing the private key to use for node authentication in the p2p protocol
node_key_file = "{{ js .BaseConfig.NodeKey}}"
@@ -124,6 +128,8 @@ grpc_laddr = "{{ .RPC.GRPCListenAddress }}"
# If you want to accept more significant number than the default, make sure
# you increase your OS limits.
# 0 - unlimited.
+# Should be < {ulimit -Sn} - {MaxNumInboundPeers} - {MaxNumOutboundPeers} - {N of wal, db and other open files}
+# 1024 - 40 - 10 - 50 = 924 = ~900
grpc_max_open_connections = {{ .RPC.GRPCMaxOpenConnections }}
# Activate unsafe RPC commands like /dial_seeds and /unsafe_flush_mempool
@@ -134,6 +140,8 @@ unsafe = {{ .RPC.Unsafe }}
# If you want to accept more significant number than the default, make sure
# you increase your OS limits.
# 0 - unlimited.
+# Should be < {ulimit -Sn} - {MaxNumInboundPeers} - {MaxNumOutboundPeers} - {N of wal, db and other open files}
+# 1024 - 40 - 10 - 50 = 924 = ~900
max_open_connections = {{ .RPC.MaxOpenConnections }}
##### peer to peer configuration options #####
@@ -161,13 +169,17 @@ upnp = {{ .P2P.UPNP }}
addr_book_file = "{{ js .P2P.AddrBook }}"
# Set true for strict address routability rules
+# Set false for private or local networks
addr_book_strict = {{ .P2P.AddrBookStrict }}
# Time to wait before flushing messages out on the connection, in ms
flush_throttle_timeout = {{ .P2P.FlushThrottleTimeout }}
-# Maximum number of peers to connect to
-max_num_peers = {{ .P2P.MaxNumPeers }}
+# Maximum number of inbound peers
+max_num_inbound_peers = {{ .P2P.MaxNumInboundPeers }}
+
+# Maximum number of outbound peers to connect to, excluding persistent peers
+max_num_outbound_peers = {{ .P2P.MaxNumOutboundPeers }}
# Maximum size of a message packet payload, in bytes
max_packet_msg_payload_size = {{ .P2P.MaxPacketMsgPayloadSize }}
@@ -239,16 +251,21 @@ peer_query_maj23_sleep_duration = {{ .Consensus.PeerQueryMaj23SleepDuration }}
# 2) "kv" - the simplest possible indexer, backed by key-value storage (defaults to levelDB; see DBBackend).
indexer = "{{ .TxIndex.Indexer }}"
-# Comma-separated list of tags to index (by default the only tag is tx hash)
+# Comma-separated list of tags to index (by default the only tag is "tx.hash")
+#
+# You can also index transactions by height by adding "tx.height" tag here.
#
# It's recommended to index only a subset of tags due to possible memory
# bloat. This is, of course, depends on the indexer's DB and the volume of
# transactions.
index_tags = "{{ .TxIndex.IndexTags }}"
-# When set to true, tells indexer to index all tags. Note this may be not
-# desirable (see the comment above). IndexTags has a precedence over
-# IndexAllTags (i.e. when given both, IndexTags will be indexed).
+# When set to true, tells indexer to index all tags (predefined tags:
+# "tx.hash", "tx.height" and all tags from DeliverTx responses).
+#
+# Note this may be not desirable (see the comment above). IndexTags has a
+# precedence over IndexAllTags (i.e. when given both, IndexTags will be
+# indexed).
index_all_tags = {{ .TxIndex.IndexAllTags }}
##### instrumentation configuration options #####
diff --git a/vendor/github.com/tendermint/tendermint/consensus/reactor.go b/vendor/github.com/tendermint/tendermint/consensus/reactor.go
index 58ff42ae2b75928c1f580b0798d8d3229371e52a..6ba8172641c3ab10b0a0230f7ab13e9929add117 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/reactor.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/reactor.go
@@ -17,6 +17,7 @@ import (
"github.com/tendermint/tendermint/p2p"
sm "github.com/tendermint/tendermint/state"
"github.com/tendermint/tendermint/types"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
const (
@@ -241,7 +242,7 @@ func (conR *ConsensusReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte)
"height", hb.Height, "round", hb.Round, "sequence", hb.Sequence,
"valIdx", hb.ValidatorIndex, "valAddr", hb.ValidatorAddress)
default:
- conR.Logger.Error(cmn.Fmt("Unknown message type %v", reflect.TypeOf(msg)))
+ conR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
case DataChannel:
@@ -262,7 +263,7 @@ func (conR *ConsensusReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte)
}
conR.conS.peerMsgQueue <- msgInfo{msg, src.ID()}
default:
- conR.Logger.Error(cmn.Fmt("Unknown message type %v", reflect.TypeOf(msg)))
+ conR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
case VoteChannel:
@@ -287,7 +288,7 @@ func (conR *ConsensusReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte)
default:
// don't punish (leave room for soft upgrades)
- conR.Logger.Error(cmn.Fmt("Unknown message type %v", reflect.TypeOf(msg)))
+ conR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
case VoteSetBitsChannel:
@@ -319,11 +320,11 @@ func (conR *ConsensusReactor) Receive(chID byte, src p2p.Peer, msgBytes []byte)
}
default:
// don't punish (leave room for soft upgrades)
- conR.Logger.Error(cmn.Fmt("Unknown message type %v", reflect.TypeOf(msg)))
+ conR.Logger.Error(fmt.Sprintf("Unknown message type %v", reflect.TypeOf(msg)))
}
default:
- conR.Logger.Error(cmn.Fmt("Unknown chId %X", chID))
+ conR.Logger.Error(fmt.Sprintf("Unknown chId %X", chID))
}
if err != nil {
@@ -482,7 +483,7 @@ OUTER_LOOP:
if prs.ProposalBlockParts == nil {
blockMeta := conR.conS.blockStore.LoadBlockMeta(prs.Height)
if blockMeta == nil {
- cmn.PanicCrisis(cmn.Fmt("Failed to load block %d when blockStore is at %d",
+ cmn.PanicCrisis(fmt.Sprintf("Failed to load block %d when blockStore is at %d",
prs.Height, conR.conS.blockStore.Height()))
}
ps.InitProposalBlockParts(blockMeta.BlockID.PartsHeader)
@@ -1034,7 +1035,7 @@ func (ps *PeerState) ensureCatchupCommitRound(height int64, round int, numValida
NOTE: This is wrong, 'round' could change.
e.g. if orig round is not the same as block LastCommit round.
if ps.CatchupCommitRound != -1 && ps.CatchupCommitRound != round {
- cmn.PanicSanity(cmn.Fmt("Conflicting CatchupCommitRound. Height: %v, Orig: %v, New: %v", height, ps.CatchupCommitRound, round))
+ cmn.PanicSanity(fmt.Sprintf("Conflicting CatchupCommitRound. Height: %v, Orig: %v, New: %v", height, ps.CatchupCommitRound, round))
}
*/
if ps.PRS.CatchupCommitRound == round {
@@ -1138,7 +1139,7 @@ func (ps *PeerState) SetHasVote(vote *types.Vote) {
}
func (ps *PeerState) setHasVote(height int64, round int, type_ byte, index int) {
- logger := ps.logger.With("peerH/R", cmn.Fmt("%d/%d", ps.PRS.Height, ps.PRS.Round), "H/R", cmn.Fmt("%d/%d", height, round))
+ logger := ps.logger.With("peerH/R", fmt.Sprintf("%d/%d", ps.PRS.Height, ps.PRS.Round), "H/R", fmt.Sprintf("%d/%d", height, round))
logger.Debug("setHasVote", "type", type_, "index", index)
// NOTE: some may be nil BitArrays -> no side effects.
@@ -1165,7 +1166,7 @@ func (ps *PeerState) ApplyNewRoundStepMessage(msg *NewRoundStepMessage) {
psCatchupCommitRound := ps.PRS.CatchupCommitRound
psCatchupCommit := ps.PRS.CatchupCommit
- startTime := time.Now().Add(-1 * time.Duration(msg.SecondsSinceStartTime) * time.Second)
+ startTime := tmtime.Now().Add(-1 * time.Duration(msg.SecondsSinceStartTime) * time.Second)
ps.PRS.Height = msg.Height
ps.PRS.Round = msg.Round
ps.PRS.Step = msg.Step
diff --git a/vendor/github.com/tendermint/tendermint/consensus/replay.go b/vendor/github.com/tendermint/tendermint/consensus/replay.go
index bb1f2e46db9f6c4d33103d4c1bbe1c13a76009e8..c92654f2ce9e36c01e368e2f49a26484d814772c 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/replay.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/replay.go
@@ -264,15 +264,15 @@ func (h *Handshaker) ReplayBlocks(state sm.State, appHash []byte, appBlockHeight
stateBlockHeight := state.LastBlockHeight
h.logger.Info("ABCI Replay Blocks", "appHeight", appBlockHeight, "storeHeight", storeBlockHeight, "stateHeight", stateBlockHeight)
- // If appBlockHeight == 0 it means that we are at genesis and hence should send InitChain
+ // If appBlockHeight == 0 it means that we are at genesis and hence should send InitChain.
if appBlockHeight == 0 {
- validators := types.TM2PB.Validators(state.Validators)
+ nextVals := types.TM2PB.ValidatorUpdates(state.NextValidators) // state.Validators would work too.
csParams := types.TM2PB.ConsensusParams(h.genDoc.ConsensusParams)
req := abci.RequestInitChain{
Time: h.genDoc.GenesisTime,
ChainId: h.genDoc.ChainID,
ConsensusParams: csParams,
- Validators: validators,
+ Validators: nextVals,
AppStateBytes: h.genDoc.AppState,
}
res, err := proxyApp.Consensus().InitChainSync(req)
@@ -280,11 +280,9 @@ func (h *Handshaker) ReplayBlocks(state sm.State, appHash []byte, appBlockHeight
return nil, err
}
- // if the app returned validators
- // or consensus params, update the state
- // with the them
+ // If the app returned validators or consensus params, update the state.
if len(res.Validators) > 0 {
- vals, err := types.PB2TM.Validators(res.Validators)
+ vals, err := types.PB2TM.ValidatorUpdates(res.Validators)
if err != nil {
return nil, err
}
@@ -296,7 +294,7 @@ func (h *Handshaker) ReplayBlocks(state sm.State, appHash []byte, appBlockHeight
sm.SaveState(h.stateDB, state)
}
- // First handle edge cases and constraints on the storeBlockHeight
+ // First handle edge cases and constraints on the storeBlockHeight.
if storeBlockHeight == 0 {
return appHash, checkAppHash(state, appHash)
@@ -306,11 +304,11 @@ func (h *Handshaker) ReplayBlocks(state sm.State, appHash []byte, appBlockHeight
} else if storeBlockHeight < stateBlockHeight {
// the state should never be ahead of the store (this is under tendermint's control)
- cmn.PanicSanity(cmn.Fmt("StateBlockHeight (%d) > StoreBlockHeight (%d)", stateBlockHeight, storeBlockHeight))
+ cmn.PanicSanity(fmt.Sprintf("StateBlockHeight (%d) > StoreBlockHeight (%d)", stateBlockHeight, storeBlockHeight))
} else if storeBlockHeight > stateBlockHeight+1 {
// store should be at most one ahead of the state (this is under tendermint's control)
- cmn.PanicSanity(cmn.Fmt("StoreBlockHeight (%d) > StateBlockHeight + 1 (%d)", storeBlockHeight, stateBlockHeight+1))
+ cmn.PanicSanity(fmt.Sprintf("StoreBlockHeight (%d) > StateBlockHeight + 1 (%d)", storeBlockHeight, stateBlockHeight+1))
}
var err error
diff --git a/vendor/github.com/tendermint/tendermint/consensus/replay_file.go b/vendor/github.com/tendermint/tendermint/consensus/replay_file.go
index 0c0b0dcb169299d09768ce580ea0a80d5cf09833..e4b9f01960ad18c3a39e2001fae6a8b6c9d90cc0 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/replay_file.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/replay_file.go
@@ -13,12 +13,12 @@ import (
bc "github.com/tendermint/tendermint/blockchain"
cfg "github.com/tendermint/tendermint/config"
- "github.com/tendermint/tendermint/proxy"
- sm "github.com/tendermint/tendermint/state"
- "github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tendermint/libs/common"
dbm "github.com/tendermint/tendermint/libs/db"
"github.com/tendermint/tendermint/libs/log"
+ "github.com/tendermint/tendermint/proxy"
+ sm "github.com/tendermint/tendermint/state"
+ "github.com/tendermint/tendermint/types"
)
const (
@@ -34,7 +34,7 @@ func RunReplayFile(config cfg.BaseConfig, csConfig *cfg.ConsensusConfig, console
consensusState := newConsensusStateForReplay(config, csConfig)
if err := consensusState.ReplayFile(csConfig.WalFile(), console); err != nil {
- cmn.Exit(cmn.Fmt("Error during consensus replay: %v", err))
+ cmn.Exit(fmt.Sprintf("Error during consensus replay: %v", err))
}
}
@@ -302,12 +302,12 @@ func newConsensusStateForReplay(config cfg.BaseConfig, csConfig *cfg.ConsensusCo
NewHandshaker(stateDB, state, blockStore, gdoc))
err = proxyApp.Start()
if err != nil {
- cmn.Exit(cmn.Fmt("Error starting proxy app conns: %v", err))
+ cmn.Exit(fmt.Sprintf("Error starting proxy app conns: %v", err))
}
eventBus := types.NewEventBus()
if err := eventBus.Start(); err != nil {
- cmn.Exit(cmn.Fmt("Failed to start event bus: %v", err))
+ cmn.Exit(fmt.Sprintf("Failed to start event bus: %v", err))
}
mempool, evpool := sm.MockMempool{}, sm.MockEvidencePool{}
diff --git a/vendor/github.com/tendermint/tendermint/consensus/state.go b/vendor/github.com/tendermint/tendermint/consensus/state.go
index 6ffe6ef643196e6bac6a49fa24eeb8acbf2f07b4..d77afafe983ffd32f4aa603b2ddb6e1a6a6a496f 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/state.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/state.go
@@ -12,6 +12,7 @@ import (
fail "github.com/ebuchman/fail-test"
cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/libs/log"
+ tmtime "github.com/tendermint/tendermint/types/time"
cfg "github.com/tendermint/tendermint/config"
cstypes "github.com/tendermint/tendermint/consensus/types"
@@ -74,7 +75,6 @@ type ConsensusState struct {
privValidator types.PrivValidator // for signing votes
// services for creating and executing blocks
- // TODO: encapsulate all of this in one "BlockManager"
blockExec *sm.BlockExecutor
blockStore sm.BlockStore
mempool sm.Mempool
@@ -154,6 +154,7 @@ func NewConsensusState(
cs.setProposal = cs.defaultSetProposal
cs.updateToState(state)
+
// Don't call scheduleRound0 yet.
// We do that upon Start().
cs.reconstructLastCommit(state)
@@ -187,7 +188,7 @@ func WithMetrics(metrics *Metrics) CSOption {
// String returns a string.
func (cs *ConsensusState) String() string {
// better not to access shared variables
- return cmn.Fmt("ConsensusState") //(H:%v R:%v S:%v", cs.Height, cs.Round, cs.Step)
+ return fmt.Sprintf("ConsensusState") //(H:%v R:%v S:%v", cs.Height, cs.Round, cs.Step)
}
// GetState returns a copy of the chain state.
@@ -197,6 +198,15 @@ func (cs *ConsensusState) GetState() sm.State {
return cs.state.Copy()
}
+// GetLastHeight returns the last height committed.
+// If there were no blocks, returns 0.
+func (cs *ConsensusState) GetLastHeight() int64 {
+ cs.mtx.Lock()
+ defer cs.mtx.Unlock()
+
+ return cs.RoundState.Height - 1
+}
+
// GetRoundState returns a shallow copy of the internal consensus state.
func (cs *ConsensusState) GetRoundState() *cstypes.RoundState {
cs.mtx.RLock()
@@ -413,8 +423,8 @@ func (cs *ConsensusState) updateRoundStep(round int, step cstypes.RoundStepType)
// enterNewRound(height, 0) at cs.StartTime.
func (cs *ConsensusState) scheduleRound0(rs *cstypes.RoundState) {
- //cs.Logger.Info("scheduleRound0", "now", time.Now(), "startTime", cs.StartTime)
- sleepDuration := rs.StartTime.Sub(time.Now()) // nolint: gotype, gosimple
+ //cs.Logger.Info("scheduleRound0", "now", tmtime.Now(), "startTime", cs.StartTime)
+ sleepDuration := rs.StartTime.Sub(tmtime.Now()) // nolint: gotype, gosimple
cs.scheduleTimeout(sleepDuration, rs.Height, 0, cstypes.RoundStepNewHeight)
}
@@ -451,7 +461,7 @@ func (cs *ConsensusState) reconstructLastCommit(state sm.State) {
}
added, err := lastPrecommits.AddVote(precommit)
if !added || err != nil {
- cmn.PanicCrisis(cmn.Fmt("Failed to reconstruct LastCommit: %v", err))
+ cmn.PanicCrisis(fmt.Sprintf("Failed to reconstruct LastCommit: %v", err))
}
}
if !lastPrecommits.HasTwoThirdsMajority() {
@@ -464,13 +474,13 @@ func (cs *ConsensusState) reconstructLastCommit(state sm.State) {
// The round becomes 0 and cs.Step becomes cstypes.RoundStepNewHeight.
func (cs *ConsensusState) updateToState(state sm.State) {
if cs.CommitRound > -1 && 0 < cs.Height && cs.Height != state.LastBlockHeight {
- cmn.PanicSanity(cmn.Fmt("updateToState() expected state height of %v but found %v",
+ cmn.PanicSanity(fmt.Sprintf("updateToState() expected state height of %v but found %v",
cs.Height, state.LastBlockHeight))
}
if !cs.state.IsEmpty() && cs.state.LastBlockHeight+1 != cs.Height {
// This might happen when someone else is mutating cs.state.
// Someone forgot to pass in state.Copy() somewhere?!
- cmn.PanicSanity(cmn.Fmt("Inconsistent cs.state.LastBlockHeight+1 %v vs cs.Height %v",
+ cmn.PanicSanity(fmt.Sprintf("Inconsistent cs.state.LastBlockHeight+1 %v vs cs.Height %v",
cs.state.LastBlockHeight+1, cs.Height))
}
@@ -507,7 +517,7 @@ func (cs *ConsensusState) updateToState(state sm.State) {
// to be gathered for the first block.
// And alternative solution that relies on clocks:
// cs.StartTime = state.LastBlockTime.Add(timeoutCommit)
- cs.StartTime = cs.config.Commit(time.Now())
+ cs.StartTime = cs.config.Commit(tmtime.Now())
} else {
cs.StartTime = cs.config.Commit(cs.CommitTime)
}
@@ -690,7 +700,7 @@ func (cs *ConsensusState) handleTimeout(ti timeoutInfo, rs cstypes.RoundState) {
cs.eventBus.PublishEventTimeoutWait(cs.RoundStateEvent())
cs.enterNewRound(ti.Height, ti.Round+1)
default:
- panic(cmn.Fmt("Invalid timeout step: %v", ti.Step))
+ panic(fmt.Sprintf("Invalid timeout step: %v", ti.Step))
}
}
@@ -716,15 +726,15 @@ func (cs *ConsensusState) enterNewRound(height int64, round int) {
logger := cs.Logger.With("height", height, "round", round)
if cs.Height != height || round < cs.Round || (cs.Round == round && cs.Step != cstypes.RoundStepNewHeight) {
- logger.Debug(cmn.Fmt("enterNewRound(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterNewRound(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
- if now := time.Now(); cs.StartTime.After(now) {
+ if now := tmtime.Now(); cs.StartTime.After(now) {
logger.Info("Need to set a buffer and log message here for sanity.", "startTime", cs.StartTime, "now", now)
}
- logger.Info(cmn.Fmt("enterNewRound(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterNewRound(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
// Increment validators if necessary
validators := cs.Validators
@@ -811,10 +821,10 @@ func (cs *ConsensusState) enterPropose(height int64, round int) {
logger := cs.Logger.With("height", height, "round", round)
if cs.Height != height || round < cs.Round || (cs.Round == round && cstypes.RoundStepPropose <= cs.Step) {
- logger.Debug(cmn.Fmt("enterPropose(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterPropose(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
- logger.Info(cmn.Fmt("enterPropose(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterPropose(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
defer func() {
// Done enterPropose:
@@ -894,7 +904,7 @@ func (cs *ConsensusState) defaultDecideProposal(height int64, round int) {
cs.sendInternalMessage(msgInfo{&BlockPartMessage{cs.Height, cs.Round, part}, ""})
}
cs.Logger.Info("Signed proposal", "height", height, "round", round, "proposal", proposal)
- cs.Logger.Debug(cmn.Fmt("Signed proposal block: %v", block))
+ cs.Logger.Debug(fmt.Sprintf("Signed proposal block: %v", block))
} else {
if !cs.replayMode {
cs.Logger.Error("enterPropose: Error signing proposal", "height", height, "round", round, "err", err)
@@ -938,13 +948,25 @@ func (cs *ConsensusState) createProposalBlock() (block *types.Block, blockParts
return
}
+ maxBytes := cs.state.ConsensusParams.BlockSize.MaxBytes
+ // bound evidence to 1/10th of the block
+ evidence := cs.evpool.PendingEvidence(maxBytes / 10)
// Mempool validated transactions
- txs := cs.mempool.Reap(cs.state.ConsensusParams.BlockSize.MaxTxs)
- evidence := cs.evpool.PendingEvidence()
- block, parts := cs.state.MakeBlock(cs.Height, txs, commit, evidence)
+ txs := cs.mempool.ReapMaxBytes(maxDataBytes(maxBytes, cs.state.Validators.Size(), len(evidence)))
+ proposerAddr := cs.privValidator.GetAddress()
+ block, parts := cs.state.MakeBlock(cs.Height, txs, commit, evidence, proposerAddr)
+
return block, parts
}
+func maxDataBytes(maxBytes, valsCount, evidenceCount int) int {
+ return maxBytes -
+ types.MaxAminoOverheadForBlock -
+ types.MaxHeaderBytes -
+ (valsCount * types.MaxVoteBytes) -
+ (evidenceCount * types.MaxEvidenceBytes)
+}
+
// Enter: `timeoutPropose` after entering Propose.
// Enter: proposal block and POL is ready.
// Enter: any +2/3 prevotes for future round.
@@ -952,7 +974,7 @@ func (cs *ConsensusState) createProposalBlock() (block *types.Block, blockParts
// Otherwise vote nil.
func (cs *ConsensusState) enterPrevote(height int64, round int) {
if cs.Height != height || round < cs.Round || (cs.Round == round && cstypes.RoundStepPrevote <= cs.Step) {
- cs.Logger.Debug(cmn.Fmt("enterPrevote(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ cs.Logger.Debug(fmt.Sprintf("enterPrevote(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
@@ -970,7 +992,7 @@ func (cs *ConsensusState) enterPrevote(height int64, round int) {
// TODO: catchup event?
}
- cs.Logger.Info(cmn.Fmt("enterPrevote(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ cs.Logger.Info(fmt.Sprintf("enterPrevote(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
// Sign and broadcast vote as necessary
cs.doPrevote(height, round)
@@ -1016,13 +1038,13 @@ func (cs *ConsensusState) enterPrevoteWait(height int64, round int) {
logger := cs.Logger.With("height", height, "round", round)
if cs.Height != height || round < cs.Round || (cs.Round == round && cstypes.RoundStepPrevoteWait <= cs.Step) {
- logger.Debug(cmn.Fmt("enterPrevoteWait(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterPrevoteWait(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
if !cs.Votes.Prevotes(round).HasTwoThirdsAny() {
- cmn.PanicSanity(cmn.Fmt("enterPrevoteWait(%v/%v), but Prevotes does not have any +2/3 votes", height, round))
+ cmn.PanicSanity(fmt.Sprintf("enterPrevoteWait(%v/%v), but Prevotes does not have any +2/3 votes", height, round))
}
- logger.Info(cmn.Fmt("enterPrevoteWait(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterPrevoteWait(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
defer func() {
// Done enterPrevoteWait:
@@ -1044,11 +1066,11 @@ func (cs *ConsensusState) enterPrecommit(height int64, round int) {
logger := cs.Logger.With("height", height, "round", round)
if cs.Height != height || round < cs.Round || (cs.Round == round && cstypes.RoundStepPrecommit <= cs.Step) {
- logger.Debug(cmn.Fmt("enterPrecommit(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterPrecommit(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
- logger.Info(cmn.Fmt("enterPrecommit(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterPrecommit(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
defer func() {
// Done enterPrecommit:
@@ -1076,7 +1098,7 @@ func (cs *ConsensusState) enterPrecommit(height int64, round int) {
// the latest POLRound should be this round.
polRound, _ := cs.Votes.POLInfo()
if polRound < round {
- cmn.PanicSanity(cmn.Fmt("This POLRound should be %v but got %", round, polRound))
+ cmn.PanicSanity(fmt.Sprintf("This POLRound should be %v but got %v", round, polRound))
}
// +2/3 prevoted nil. Unlock and precommit nil.
@@ -1110,7 +1132,7 @@ func (cs *ConsensusState) enterPrecommit(height int64, round int) {
logger.Info("enterPrecommit: +2/3 prevoted proposal block. Locking", "hash", blockID.Hash)
// Validate the block.
if err := cs.blockExec.ValidateBlock(cs.state, cs.ProposalBlock); err != nil {
- cmn.PanicConsensus(cmn.Fmt("enterPrecommit: +2/3 prevoted for an invalid block: %v", err))
+ cmn.PanicConsensus(fmt.Sprintf("enterPrecommit: +2/3 prevoted for an invalid block: %v", err))
}
cs.LockedRound = round
cs.LockedBlock = cs.ProposalBlock
@@ -1140,13 +1162,13 @@ func (cs *ConsensusState) enterPrecommitWait(height int64, round int) {
logger := cs.Logger.With("height", height, "round", round)
if cs.Height != height || round < cs.Round || (cs.Round == round && cstypes.RoundStepPrecommitWait <= cs.Step) {
- logger.Debug(cmn.Fmt("enterPrecommitWait(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterPrecommitWait(%v/%v): Invalid args. Current step: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
return
}
if !cs.Votes.Precommits(round).HasTwoThirdsAny() {
- cmn.PanicSanity(cmn.Fmt("enterPrecommitWait(%v/%v), but Precommits does not have any +2/3 votes", height, round))
+ cmn.PanicSanity(fmt.Sprintf("enterPrecommitWait(%v/%v), but Precommits does not have any +2/3 votes", height, round))
}
- logger.Info(cmn.Fmt("enterPrecommitWait(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterPrecommitWait(%v/%v). Current: %v/%v/%v", height, round, cs.Height, cs.Round, cs.Step))
defer func() {
// Done enterPrecommitWait:
@@ -1164,17 +1186,17 @@ func (cs *ConsensusState) enterCommit(height int64, commitRound int) {
logger := cs.Logger.With("height", height, "commitRound", commitRound)
if cs.Height != height || cstypes.RoundStepCommit <= cs.Step {
- logger.Debug(cmn.Fmt("enterCommit(%v/%v): Invalid args. Current step: %v/%v/%v", height, commitRound, cs.Height, cs.Round, cs.Step))
+ logger.Debug(fmt.Sprintf("enterCommit(%v/%v): Invalid args. Current step: %v/%v/%v", height, commitRound, cs.Height, cs.Round, cs.Step))
return
}
- logger.Info(cmn.Fmt("enterCommit(%v/%v). Current: %v/%v/%v", height, commitRound, cs.Height, cs.Round, cs.Step))
+ logger.Info(fmt.Sprintf("enterCommit(%v/%v). Current: %v/%v/%v", height, commitRound, cs.Height, cs.Round, cs.Step))
defer func() {
// Done enterCommit:
// keep cs.Round the same, commitRound points to the right Precommits set.
cs.updateRoundStep(cs.Round, cstypes.RoundStepCommit)
cs.CommitRound = commitRound
- cs.CommitTime = time.Now()
+ cs.CommitTime = tmtime.Now()
cs.newStep()
// Maybe finalize immediately.
@@ -1214,7 +1236,7 @@ func (cs *ConsensusState) tryFinalizeCommit(height int64) {
logger := cs.Logger.With("height", height)
if cs.Height != height {
- cmn.PanicSanity(cmn.Fmt("tryFinalizeCommit() cs.Height: %v vs height: %v", cs.Height, height))
+ cmn.PanicSanity(fmt.Sprintf("tryFinalizeCommit() cs.Height: %v vs height: %v", cs.Height, height))
}
blockID, ok := cs.Votes.Precommits(cs.CommitRound).TwoThirdsMajority()
@@ -1236,7 +1258,7 @@ func (cs *ConsensusState) tryFinalizeCommit(height int64) {
// Increment height and goto cstypes.RoundStepNewHeight
func (cs *ConsensusState) finalizeCommit(height int64) {
if cs.Height != height || cs.Step != cstypes.RoundStepCommit {
- cs.Logger.Debug(cmn.Fmt("finalizeCommit(%v): Invalid args. Current step: %v/%v/%v", height, cs.Height, cs.Round, cs.Step))
+ cs.Logger.Debug(fmt.Sprintf("finalizeCommit(%v): Invalid args. Current step: %v/%v/%v", height, cs.Height, cs.Round, cs.Step))
return
}
@@ -1244,21 +1266,21 @@ func (cs *ConsensusState) finalizeCommit(height int64) {
block, blockParts := cs.ProposalBlock, cs.ProposalBlockParts
if !ok {
- cmn.PanicSanity(cmn.Fmt("Cannot finalizeCommit, commit does not have two thirds majority"))
+ cmn.PanicSanity(fmt.Sprintf("Cannot finalizeCommit, commit does not have two thirds majority"))
}
if !blockParts.HasHeader(blockID.PartsHeader) {
- cmn.PanicSanity(cmn.Fmt("Expected ProposalBlockParts header to be commit header"))
+ cmn.PanicSanity(fmt.Sprintf("Expected ProposalBlockParts header to be commit header"))
}
if !block.HashesTo(blockID.Hash) {
- cmn.PanicSanity(cmn.Fmt("Cannot finalizeCommit, ProposalBlock does not hash to commit hash"))
+ cmn.PanicSanity(fmt.Sprintf("Cannot finalizeCommit, ProposalBlock does not hash to commit hash"))
}
if err := cs.blockExec.ValidateBlock(cs.state, block); err != nil {
- cmn.PanicConsensus(cmn.Fmt("+2/3 committed an invalid block: %v", err))
+ cmn.PanicConsensus(fmt.Sprintf("+2/3 committed an invalid block: %v", err))
}
- cs.Logger.Info(cmn.Fmt("Finalizing commit of block with %d txs", block.NumTxs),
+ cs.Logger.Info(fmt.Sprintf("Finalizing commit of block with %d txs", block.NumTxs),
"height", block.Height, "hash", block.Hash(), "root", block.AppHash)
- cs.Logger.Info(cmn.Fmt("%v", block))
+ cs.Logger.Info(fmt.Sprintf("%v", block))
fail.Fail() // XXX
@@ -1429,7 +1451,11 @@ func (cs *ConsensusState) addProposalBlockPart(msg *BlockPartMessage, peerID p2p
}
if added && cs.ProposalBlockParts.IsComplete() {
// Added and completed!
- _, err = cdc.UnmarshalBinaryReader(cs.ProposalBlockParts.GetReader(), &cs.ProposalBlock, int64(cs.state.ConsensusParams.BlockSize.MaxBytes))
+ _, err = cdc.UnmarshalBinaryReader(
+ cs.ProposalBlockParts.GetReader(),
+ &cs.ProposalBlock,
+ int64(cs.state.ConsensusParams.BlockSize.MaxBytes),
+ )
if err != nil {
return true, err
}
@@ -1510,7 +1536,7 @@ func (cs *ConsensusState) addVote(vote *types.Vote, peerID p2p.ID) (added bool,
return added, err
}
- cs.Logger.Info(cmn.Fmt("Added to lastPrecommits: %v", cs.LastCommit.StringShort()))
+ cs.Logger.Info(fmt.Sprintf("Added to lastPrecommits: %v", cs.LastCommit.StringShort()))
cs.eventBus.PublishEventVote(types.EventDataVote{vote})
cs.evsw.FireEvent(types.EventVote, vote)
@@ -1626,7 +1652,7 @@ func (cs *ConsensusState) addVote(vote *types.Vote, peerID p2p.ID) (added bool,
cs.enterPrecommitWait(height, vote.Round)
}
default:
- panic(cmn.Fmt("Unexpected vote type %X", vote.Type)) // go-wire should prevent this.
+ panic(fmt.Sprintf("Unexpected vote type %X", vote.Type)) // go-wire should prevent this.
}
return
@@ -1635,12 +1661,13 @@ func (cs *ConsensusState) addVote(vote *types.Vote, peerID p2p.ID) (added bool,
func (cs *ConsensusState) signVote(type_ byte, hash []byte, header types.PartSetHeader) (*types.Vote, error) {
addr := cs.privValidator.GetAddress()
valIndex, _ := cs.Validators.GetByAddress(addr)
+
vote := &types.Vote{
ValidatorAddress: addr,
ValidatorIndex: valIndex,
Height: cs.Height,
Round: cs.Round,
- Timestamp: time.Now().UTC(),
+ Timestamp: cs.voteTime(),
Type: type_,
BlockID: types.BlockID{hash, header},
}
@@ -1648,6 +1675,23 @@ func (cs *ConsensusState) signVote(type_ byte, hash []byte, header types.PartSet
return vote, err
}
+func (cs *ConsensusState) voteTime() time.Time {
+ now := tmtime.Now()
+ minVoteTime := now
+ // TODO: We should remove next line in case we don't vote for v in case cs.ProposalBlock == nil,
+ // even if cs.LockedBlock != nil. See https://github.com/tendermint/spec.
+ if cs.LockedBlock != nil {
+ minVoteTime = cs.config.MinValidVoteTime(cs.LockedBlock.Time)
+ } else if cs.ProposalBlock != nil {
+ minVoteTime = cs.config.MinValidVoteTime(cs.ProposalBlock.Time)
+ }
+
+ if now.After(minVoteTime) {
+ return now
+ }
+ return minVoteTime
+}
+
// sign the vote and publish on internalMsgQueue
func (cs *ConsensusState) signAddVote(type_ byte, hash []byte, header types.PartSetHeader) *types.Vote {
// if we don't have a key or we're not in the validator set, do nothing
diff --git a/vendor/github.com/tendermint/tendermint/consensus/types/height_vote_set.go b/vendor/github.com/tendermint/tendermint/consensus/types/height_vote_set.go
index 70a38668ff91fe043f3238baf5d58e3d92dc8861..1c8ac67cb3912907b100854f012f252d1b1aa8dc 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/types/height_vote_set.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/types/height_vote_set.go
@@ -6,9 +6,9 @@ import (
"strings"
"sync"
+ cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/p2p"
"github.com/tendermint/tendermint/types"
- cmn "github.com/tendermint/tendermint/libs/common"
)
type RoundVoteSet struct {
@@ -169,7 +169,7 @@ func (hvs *HeightVoteSet) getVoteSet(round int, type_ byte) *types.VoteSet {
case types.VoteTypePrecommit:
return rvs.Precommits
default:
- cmn.PanicSanity(cmn.Fmt("Unexpected vote type %X", type_))
+ cmn.PanicSanity(fmt.Sprintf("Unexpected vote type %X", type_))
return nil
}
}
@@ -219,7 +219,7 @@ func (hvs *HeightVoteSet) StringIndented(indent string) string {
voteSetString = roundVoteSet.Precommits.StringShort()
vsStrings = append(vsStrings, voteSetString)
}
- return cmn.Fmt(`HeightVoteSet{H:%v R:0~%v
+ return fmt.Sprintf(`HeightVoteSet{H:%v R:0~%v
%s %v
%s}`,
hvs.height, hvs.round,
diff --git a/vendor/github.com/tendermint/tendermint/consensus/types/peer_round_state.go b/vendor/github.com/tendermint/tendermint/consensus/types/peer_round_state.go
index 7a5d69b8eb9e080b00a90f90596d7f436ad758fc..e42395bc3aaaa0e333baf6784bfa3a0735a48eef 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/types/peer_round_state.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/types/peer_round_state.go
@@ -4,8 +4,8 @@ import (
"fmt"
"time"
- "github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tendermint/libs/common"
+ "github.com/tendermint/tendermint/types"
)
//-----------------------------------------------------------------------------
diff --git a/vendor/github.com/tendermint/tendermint/consensus/types/round_state.go b/vendor/github.com/tendermint/tendermint/consensus/types/round_state.go
index cca560ccf83d39280043069a14026782dfd265fb..c22880c2b8e5eedbb70ecf08e6259601f1fbe405 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/types/round_state.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/types/round_state.go
@@ -5,8 +5,8 @@ import (
"fmt"
"time"
- "github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tendermint/libs/common"
+ "github.com/tendermint/tendermint/types"
)
//-----------------------------------------------------------------------------
diff --git a/vendor/github.com/tendermint/tendermint/consensus/version.go b/vendor/github.com/tendermint/tendermint/consensus/version.go
index 5c74a16db37ecd86d99f92db0de41cd41286f376..c04d2ac7dbd47be601557b342b7099a2aa1085b8 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/version.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/version.go
@@ -1,8 +1,6 @@
package consensus
-import (
- cmn "github.com/tendermint/tendermint/libs/common"
-)
+import "fmt"
// kind of arbitrary
var Spec = "1" // async
@@ -10,4 +8,4 @@ var Major = "0" //
var Minor = "2" // replay refactor
var Revision = "2" // validation -> commit
-var Version = cmn.Fmt("v%s/%s.%s.%s", Spec, Major, Minor, Revision)
+var Version = fmt.Sprintf("v%s/%s.%s.%s", Spec, Major, Minor, Revision)
diff --git a/vendor/github.com/tendermint/tendermint/consensus/wal.go b/vendor/github.com/tendermint/tendermint/consensus/wal.go
index 8c4c10bc7b04305383547d685de5379ff69af648..870701f1c444f7445bdbe12f83e91c7531fed657 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/wal.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/wal.go
@@ -11,9 +11,10 @@ import (
"github.com/pkg/errors"
amino "github.com/tendermint/go-amino"
- "github.com/tendermint/tendermint/types"
auto "github.com/tendermint/tendermint/libs/autofile"
cmn "github.com/tendermint/tendermint/libs/common"
+ "github.com/tendermint/tendermint/types"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
const (
@@ -119,8 +120,8 @@ func (wal *baseWAL) Write(msg WALMessage) {
}
// Write the wal message
- if err := wal.enc.Encode(&TimedWALMessage{time.Now(), msg}); err != nil {
- panic(cmn.Fmt("Error writing msg to consensus wal: %v \n\nMessage: %v", err, msg))
+ if err := wal.enc.Encode(&TimedWALMessage{tmtime.Now(), msg}); err != nil {
+ panic(fmt.Sprintf("Error writing msg to consensus wal: %v \n\nMessage: %v", err, msg))
}
}
@@ -134,7 +135,7 @@ func (wal *baseWAL) WriteSync(msg WALMessage) {
wal.Write(msg)
if err := wal.group.Flush(); err != nil {
- panic(cmn.Fmt("Error flushing consensus wal buf to file. Error: %v \n", err))
+ panic(fmt.Sprintf("Error flushing consensus wal buf to file. Error: %v \n", err))
}
}
diff --git a/vendor/github.com/tendermint/tendermint/consensus/wal_generator.go b/vendor/github.com/tendermint/tendermint/consensus/wal_generator.go
index f3a365809cec0ebe1a00c07a8b4b460d2c25871f..6d889aa6fc8efa0c0c4272bde597b092a4a4a5c7 100644
--- a/vendor/github.com/tendermint/tendermint/consensus/wal_generator.go
+++ b/vendor/github.com/tendermint/tendermint/consensus/wal_generator.go
@@ -13,14 +13,14 @@ import (
"github.com/tendermint/tendermint/abci/example/kvstore"
bc "github.com/tendermint/tendermint/blockchain"
cfg "github.com/tendermint/tendermint/config"
- "github.com/tendermint/tendermint/privval"
- "github.com/tendermint/tendermint/proxy"
- sm "github.com/tendermint/tendermint/state"
- "github.com/tendermint/tendermint/types"
auto "github.com/tendermint/tendermint/libs/autofile"
cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/libs/db"
"github.com/tendermint/tendermint/libs/log"
+ "github.com/tendermint/tendermint/privval"
+ "github.com/tendermint/tendermint/proxy"
+ sm "github.com/tendermint/tendermint/state"
+ "github.com/tendermint/tendermint/types"
)
// WALWithNBlocks generates a consensus WAL. It does this by spining up a
diff --git a/vendor/github.com/tendermint/tendermint/crypto/ed25519/ed25519.go b/vendor/github.com/tendermint/tendermint/crypto/ed25519/ed25519.go
index fa7526f3fcf716d8ab185a1279e1ef6f9a2c74fe..c55b3588f532a327581096b8ded2937175d27d6e 100644
--- a/vendor/github.com/tendermint/tendermint/crypto/ed25519/ed25519.go
+++ b/vendor/github.com/tendermint/tendermint/crypto/ed25519/ed25519.go
@@ -18,11 +18,11 @@ import (
var _ crypto.PrivKey = PrivKeyEd25519{}
const (
- Ed25519PrivKeyAminoRoute = "tendermint/PrivKeyEd25519"
- Ed25519PubKeyAminoRoute = "tendermint/PubKeyEd25519"
+ PrivKeyAminoRoute = "tendermint/PrivKeyEd25519"
+ PubKeyAminoRoute = "tendermint/PubKeyEd25519"
// Size of an Edwards25519 signature. Namely the size of a compressed
// Edwards25519 point, and a field element. Both of which are 32 bytes.
- SignatureEd25519Size = 64
+ SignatureSize = 64
)
var cdc = amino.NewCodec()
@@ -30,11 +30,11 @@ var cdc = amino.NewCodec()
func init() {
cdc.RegisterInterface((*crypto.PubKey)(nil), nil)
cdc.RegisterConcrete(PubKeyEd25519{},
- Ed25519PubKeyAminoRoute, nil)
+ PubKeyAminoRoute, nil)
cdc.RegisterInterface((*crypto.PrivKey)(nil), nil)
cdc.RegisterConcrete(PrivKeyEd25519{},
- Ed25519PrivKeyAminoRoute, nil)
+ PrivKeyAminoRoute, nil)
}
// PrivKeyEd25519 implements crypto.PrivKey.
@@ -158,10 +158,10 @@ func (pubKey PubKeyEd25519) Bytes() []byte {
func (pubKey PubKeyEd25519) VerifyBytes(msg []byte, sig_ []byte) bool {
// make sure we use the same algorithm to sign
- if len(sig_) != SignatureEd25519Size {
+ if len(sig_) != SignatureSize {
return false
}
- sig := new([SignatureEd25519Size]byte)
+ sig := new([SignatureSize]byte)
copy(sig[:], sig_)
pubKeyBytes := [PubKeyEd25519Size]byte(pubKey)
return ed25519.Verify(&pubKeyBytes, msg, sig)
diff --git a/vendor/github.com/tendermint/tendermint/crypto/encoding/amino/amino.go b/vendor/github.com/tendermint/tendermint/crypto/encoding/amino/amino.go
index fd9a08442e839c2cd675550fdc14b5e0c9385f68..7728e6afbea3d2b6b11f682d4fc6fbe799f1e820 100644
--- a/vendor/github.com/tendermint/tendermint/crypto/encoding/amino/amino.go
+++ b/vendor/github.com/tendermint/tendermint/crypto/encoding/amino/amino.go
@@ -2,8 +2,10 @@ package cryptoAmino
import (
amino "github.com/tendermint/go-amino"
+
"github.com/tendermint/tendermint/crypto"
"github.com/tendermint/tendermint/crypto/ed25519"
+ "github.com/tendermint/tendermint/crypto/multisig"
"github.com/tendermint/tendermint/crypto/secp256k1"
)
@@ -24,15 +26,17 @@ func RegisterAmino(cdc *amino.Codec) {
// These are all written here instead of
cdc.RegisterInterface((*crypto.PubKey)(nil), nil)
cdc.RegisterConcrete(ed25519.PubKeyEd25519{},
- "tendermint/PubKeyEd25519", nil)
+ ed25519.PubKeyAminoRoute, nil)
cdc.RegisterConcrete(secp256k1.PubKeySecp256k1{},
- "tendermint/PubKeySecp256k1", nil)
+ secp256k1.PubKeyAminoRoute, nil)
+ cdc.RegisterConcrete(multisig.PubKeyMultisigThreshold{},
+ multisig.PubKeyMultisigThresholdAminoRoute, nil)
cdc.RegisterInterface((*crypto.PrivKey)(nil), nil)
cdc.RegisterConcrete(ed25519.PrivKeyEd25519{},
- "tendermint/PrivKeyEd25519", nil)
+ ed25519.PrivKeyAminoRoute, nil)
cdc.RegisterConcrete(secp256k1.PrivKeySecp256k1{},
- "tendermint/PrivKeySecp256k1", nil)
+ secp256k1.PrivKeyAminoRoute, nil)
}
func PrivKeyFromBytes(privKeyBytes []byte) (privKey crypto.PrivKey, err error) {
diff --git a/vendor/github.com/tendermint/tendermint/crypto/multisig/bitarray/compact_bit_array.go b/vendor/github.com/tendermint/tendermint/crypto/multisig/bitarray/compact_bit_array.go
new file mode 100644
index 0000000000000000000000000000000000000000..0152db724693e7028e5f139ef6c4e741a82696a8
--- /dev/null
+++ b/vendor/github.com/tendermint/tendermint/crypto/multisig/bitarray/compact_bit_array.go
@@ -0,0 +1,233 @@
+package bitarray
+
+import (
+ "bytes"
+ "encoding/binary"
+ "errors"
+ "fmt"
+ "regexp"
+ "strings"
+)
+
+// CompactBitArray is an implementation of a space efficient bit array.
+// This is used to ensure that the encoded data takes up a minimal amount of
+// space after amino encoding.
+// This is not thread safe, and is not intended for concurrent usage.
+type CompactBitArray struct {
+ ExtraBitsStored byte `json:"extra_bits"` // The number of extra bits in elems.
+ Elems []byte `json:"bits"`
+}
+
+// NewCompactBitArray returns a new compact bit array.
+// It returns nil if the number of bits is zero.
+func NewCompactBitArray(bits int) *CompactBitArray {
+ if bits <= 0 {
+ return nil
+ }
+ return &CompactBitArray{
+ ExtraBitsStored: byte(bits % 8),
+ Elems: make([]byte, (bits+7)/8),
+ }
+}
+
+// Size returns the number of bits in the bitarray
+func (bA *CompactBitArray) Size() int {
+ if bA == nil {
+ return 0
+ } else if bA.ExtraBitsStored == byte(0) {
+ return len(bA.Elems) * 8
+ }
+ // num_bits = 8*num_full_bytes + overflow_in_last_byte
+ // num_full_bytes = (len(bA.Elems)-1)
+ return (len(bA.Elems)-1)*8 + int(bA.ExtraBitsStored)
+}
+
+// GetIndex returns the bit at index i within the bit array.
+// The behavior is undefined if i >= bA.Size()
+func (bA *CompactBitArray) GetIndex(i int) bool {
+ if bA == nil {
+ return false
+ }
+ if i >= bA.Size() {
+ return false
+ }
+ return bA.Elems[i>>3]&(uint8(1)<<uint8(7-(i%8))) > 0
+}
+
+// SetIndex sets the bit at index i within the bit array.
+// The behavior is undefined if i >= bA.Size()
+func (bA *CompactBitArray) SetIndex(i int, v bool) bool {
+ if bA == nil {
+ return false
+ }
+ if i >= bA.Size() {
+ return false
+ }
+ if v {
+ bA.Elems[i>>3] |= (uint8(1) << uint8(7-(i%8)))
+ } else {
+ bA.Elems[i>>3] &= ^(uint8(1) << uint8(7-(i%8)))
+ }
+ return true
+}
+
+// NumTrueBitsBefore returns the number of bits set to true before the
+// given index. e.g. if bA = _XX__XX, NumOfTrueBitsBefore(4) = 2, since
+// there are two bits set to true before index 4.
+func (bA *CompactBitArray) NumTrueBitsBefore(index int) int {
+ numTrueValues := 0
+ for i := 0; i < index; i++ {
+ if bA.GetIndex(i) {
+ numTrueValues++
+ }
+ }
+ return numTrueValues
+}
+
+// Copy returns a copy of the provided bit array.
+func (bA *CompactBitArray) Copy() *CompactBitArray {
+ if bA == nil {
+ return nil
+ }
+ c := make([]byte, len(bA.Elems))
+ copy(c, bA.Elems)
+ return &CompactBitArray{
+ ExtraBitsStored: bA.ExtraBitsStored,
+ Elems: c,
+ }
+}
+
+// String returns a string representation of CompactBitArray: BA{<bit-string>},
+// where <bit-string> is a sequence of 'x' (1) and '_' (0).
+// The <bit-string> includes spaces and newlines to help people.
+// For a simple sequence of 'x' and '_' characters with no spaces or newlines,
+// see the MarshalJSON() method.
+// Example: "BA{_x_}" or "nil-BitArray" for nil.
+func (bA *CompactBitArray) String() string {
+ return bA.StringIndented("")
+}
+
+// StringIndented returns the same thing as String(), but applies the indent
+// at every 10th bit, and twice at every 50th bit.
+func (bA *CompactBitArray) StringIndented(indent string) string {
+ if bA == nil {
+ return "nil-BitArray"
+ }
+ lines := []string{}
+ bits := ""
+ size := bA.Size()
+ for i := 0; i < size; i++ {
+ if bA.GetIndex(i) {
+ bits += "x"
+ } else {
+ bits += "_"
+ }
+ if i%100 == 99 {
+ lines = append(lines, bits)
+ bits = ""
+ }
+ if i%10 == 9 {
+ bits += indent
+ }
+ if i%50 == 49 {
+ bits += indent
+ }
+ }
+ if len(bits) > 0 {
+ lines = append(lines, bits)
+ }
+ return fmt.Sprintf("BA{%v:%v}", size, strings.Join(lines, indent))
+}
+
+// MarshalJSON implements json.Marshaler interface by marshaling bit array
+// using a custom format: a string of '-' or 'x' where 'x' denotes the 1 bit.
+func (bA *CompactBitArray) MarshalJSON() ([]byte, error) {
+ if bA == nil {
+ return []byte("null"), nil
+ }
+
+ bits := `"`
+ size := bA.Size()
+ for i := 0; i < size; i++ {
+ if bA.GetIndex(i) {
+ bits += `x`
+ } else {
+ bits += `_`
+ }
+ }
+ bits += `"`
+ return []byte(bits), nil
+}
+
+var bitArrayJSONRegexp = regexp.MustCompile(`\A"([_x]*)"\z`)
+
+// UnmarshalJSON implements json.Unmarshaler interface by unmarshaling a custom
+// JSON description.
+func (bA *CompactBitArray) UnmarshalJSON(bz []byte) error {
+ b := string(bz)
+ if b == "null" {
+ // This is required e.g. for encoding/json when decoding
+ // into a pointer with pre-allocated BitArray.
+ bA.ExtraBitsStored = 0
+ bA.Elems = nil
+ return nil
+ }
+
+ // Validate 'b'.
+ match := bitArrayJSONRegexp.FindStringSubmatch(b)
+ if match == nil {
+ return fmt.Errorf("BitArray in JSON should be a string of format %q but got %s", bitArrayJSONRegexp.String(), b)
+ }
+ bits := match[1]
+
+ // Construct new CompactBitArray and copy over.
+ numBits := len(bits)
+ bA2 := NewCompactBitArray(numBits)
+ for i := 0; i < numBits; i++ {
+ if bits[i] == 'x' {
+ bA2.SetIndex(i, true)
+ }
+ }
+ *bA = *bA2
+ return nil
+}
+
+// CompactMarshal is a space efficient encoding for CompactBitArray.
+// It is not amino compatible.
+func (bA *CompactBitArray) CompactMarshal() []byte {
+ size := bA.Size()
+ if size <= 0 {
+ return []byte("null")
+ }
+ bz := make([]byte, 0, size/8)
+ // length prefix number of bits, not number of bytes. This difference
+ // takes 3-4 bits in encoding, as opposed to instead encoding the number of
+ // bytes (saving 3-4 bits) and including the offset as a full byte.
+ bz = appendUvarint(bz, uint64(size))
+ bz = append(bz, bA.Elems...)
+ return bz
+}
+
+// CompactUnmarshal is a space efficient decoding for CompactBitArray.
+// It is not amino compatible.
+func CompactUnmarshal(bz []byte) (*CompactBitArray, error) {
+ if len(bz) < 2 {
+ return nil, errors.New("compact bit array: invalid compact unmarshal size")
+ } else if bytes.Equal(bz, []byte("null")) {
+ return NewCompactBitArray(0), nil
+ }
+ size, n := binary.Uvarint(bz)
+ bz = bz[n:]
+ if len(bz) != int(size+7)/8 {
+ return nil, errors.New("compact bit array: invalid compact unmarshal size")
+ }
+
+ bA := &CompactBitArray{byte(int(size % 8)), bz}
+ return bA, nil
+}
+
+func appendUvarint(b []byte, x uint64) []byte {
+ var a [binary.MaxVarintLen64]byte
+ n := binary.PutUvarint(a[:], x)
+ return append(b, a[:n]...)
+}
diff --git a/vendor/github.com/tendermint/tendermint/crypto/multisig/multisignature.go b/vendor/github.com/tendermint/tendermint/crypto/multisig/multisignature.go
new file mode 100644
index 0000000000000000000000000000000000000000..0d1796890cb587eb4fa22ceafd9261ebf25cbd11
--- /dev/null
+++ b/vendor/github.com/tendermint/tendermint/crypto/multisig/multisignature.go
@@ -0,0 +1,70 @@
+package multisig
+
+import (
+ "errors"
+
+ "github.com/tendermint/tendermint/crypto"
+ "github.com/tendermint/tendermint/crypto/multisig/bitarray"
+)
+
+// Multisignature is used to represent the signature object used in the multisigs.
+// Sigs is a list of signatures, sorted by corresponding index.
+type Multisignature struct {
+ BitArray *bitarray.CompactBitArray
+ Sigs [][]byte
+}
+
+// NewMultisig returns a new Multisignature of size n.
+func NewMultisig(n int) *Multisignature {
+ // Default the signature list to have a capacity of two, since we can
+ // expect that most multisigs will require multiple signers.
+ return &Multisignature{bitarray.NewCompactBitArray(n), make([][]byte, 0, 2)}
+}
+
+// GetIndex returns the index of pk in keys. Returns -1 if not found
+func getIndex(pk crypto.PubKey, keys []crypto.PubKey) int {
+ for i := 0; i < len(keys); i++ {
+ if pk.Equals(keys[i]) {
+ return i
+ }
+ }
+ return -1
+}
+
+// AddSignature adds a signature to the multisig, at the corresponding index.
+// If the signature already exists, replace it.
+func (mSig *Multisignature) AddSignature(sig []byte, index int) {
+ newSigIndex := mSig.BitArray.NumTrueBitsBefore(index)
+ // Signature already exists, just replace the value there
+ if mSig.BitArray.GetIndex(index) {
+ mSig.Sigs[newSigIndex] = sig
+ return
+ }
+ mSig.BitArray.SetIndex(index, true)
+ // Optimization if the index is the greatest index
+ if newSigIndex == len(mSig.Sigs) {
+ mSig.Sigs = append(mSig.Sigs, sig)
+ return
+ }
+ // Expand slice by one with a dummy element, move all elements after i
+ // over by one, then place the new signature in that gap.
+ mSig.Sigs = append(mSig.Sigs, make([]byte, 0))
+ copy(mSig.Sigs[newSigIndex+1:], mSig.Sigs[newSigIndex:])
+ mSig.Sigs[newSigIndex] = sig
+}
+
+// AddSignatureFromPubKey adds a signature to the multisig,
+// at the index in keys corresponding to the provided pubkey.
+func (mSig *Multisignature) AddSignatureFromPubKey(sig []byte, pubkey crypto.PubKey, keys []crypto.PubKey) error {
+ index := getIndex(pubkey, keys)
+ if index == -1 {
+ return errors.New("provided key didn't exist in pubkeys")
+ }
+ mSig.AddSignature(sig, index)
+ return nil
+}
+
+// Marshal the multisignature with amino
+func (mSig *Multisignature) Marshal() []byte {
+ return cdc.MustMarshalBinaryBare(mSig)
+}
diff --git a/vendor/github.com/tendermint/tendermint/crypto/multisig/threshold_pubkey.go b/vendor/github.com/tendermint/tendermint/crypto/multisig/threshold_pubkey.go
new file mode 100644
index 0000000000000000000000000000000000000000..ca8d42303046ceeb27ac88360786344e018eb5e2
--- /dev/null
+++ b/vendor/github.com/tendermint/tendermint/crypto/multisig/threshold_pubkey.go
@@ -0,0 +1,92 @@
+package multisig
+
+import (
+ "github.com/tendermint/tendermint/crypto"
+ "github.com/tendermint/tendermint/crypto/tmhash"
+)
+
+// PubKeyMultisigThreshold implements a K of N threshold multisig.
+type PubKeyMultisigThreshold struct {
+ K uint `json:"threshold"`
+ PubKeys []crypto.PubKey `json:"pubkeys"`
+}
+
+var _ crypto.PubKey = &PubKeyMultisigThreshold{}
+
+// NewPubKeyMultisigThreshold returns a new PubKeyMultisigThreshold.
+// Panics if len(pubkeys) < k or 0 >= k.
+func NewPubKeyMultisigThreshold(k int, pubkeys []crypto.PubKey) crypto.PubKey {
+ if k <= 0 {
+ panic("threshold k of n multisignature: k <= 0")
+ }
+ if len(pubkeys) < k {
+ panic("threshold k of n multisignature: len(pubkeys) < k")
+ }
+ return &PubKeyMultisigThreshold{uint(k), pubkeys}
+}
+
+// VerifyBytes expects sig to be an amino encoded version of a MultiSignature.
+// Returns true iff the multisignature contains k or more signatures
+// for the correct corresponding keys,
+// and all signatures are valid. (Not just k of the signatures)
+// The multisig uses a bitarray, so multiple signatures for the same key is not
+// a concern.
+func (pk *PubKeyMultisigThreshold) VerifyBytes(msg []byte, marshalledSig []byte) bool {
+ var sig *Multisignature
+ err := cdc.UnmarshalBinaryBare(marshalledSig, &sig)
+ if err != nil {
+ return false
+ }
+ size := sig.BitArray.Size()
+ // ensure bit array is the correct size
+ if len(pk.PubKeys) != size {
+ return false
+ }
+ // ensure size of signature list
+ if len(sig.Sigs) < int(pk.K) || len(sig.Sigs) > size {
+ return false
+ }
+ // ensure at least k signatures are set
+ if sig.BitArray.NumTrueBitsBefore(size) < int(pk.K) {
+ return false
+ }
+ // index in the list of signatures which we are concerned with.
+ sigIndex := 0
+ for i := 0; i < size; i++ {
+ if sig.BitArray.GetIndex(i) {
+ if !pk.PubKeys[i].VerifyBytes(msg, sig.Sigs[sigIndex]) {
+ return false
+ }
+ sigIndex++
+ }
+ }
+ return true
+}
+
+// Bytes returns the amino encoded version of the PubKeyMultisigThreshold
+func (pk *PubKeyMultisigThreshold) Bytes() []byte {
+ return cdc.MustMarshalBinaryBare(pk)
+}
+
+// Address returns tmhash(PubKeyMultisigThreshold.Bytes())
+func (pk *PubKeyMultisigThreshold) Address() crypto.Address {
+ return crypto.Address(tmhash.Sum(pk.Bytes()))
+}
+
+// Equals returns true iff pk and other both have the same number of keys, and
+// all constituent keys are the same, and in the same order.
+func (pk *PubKeyMultisigThreshold) Equals(other crypto.PubKey) bool {
+ otherKey, sameType := other.(*PubKeyMultisigThreshold)
+ if !sameType {
+ return false
+ }
+ if pk.K != otherKey.K || len(pk.PubKeys) != len(otherKey.PubKeys) {
+ return false
+ }
+ for i := 0; i < len(pk.PubKeys); i++ {
+ if !pk.PubKeys[i].Equals(otherKey.PubKeys[i]) {
+ return false
+ }
+ }
+ return true
+}
diff --git a/vendor/github.com/tendermint/tendermint/crypto/multisig/wire.go b/vendor/github.com/tendermint/tendermint/crypto/multisig/wire.go
new file mode 100644
index 0000000000000000000000000000000000000000..68b84fbfb7a7d55fca9f5de7ebff9fa07ef91efd
--- /dev/null
+++ b/vendor/github.com/tendermint/tendermint/crypto/multisig/wire.go
@@ -0,0 +1,26 @@
+package multisig
+
+import (
+ amino "github.com/tendermint/go-amino"
+ "github.com/tendermint/tendermint/crypto"
+ "github.com/tendermint/tendermint/crypto/ed25519"
+ "github.com/tendermint/tendermint/crypto/secp256k1"
+)
+
+// TODO: Figure out API for others to either add their own pubkey types, or
+// to make verify / marshal accept a cdc.
+const (
+ PubKeyMultisigThresholdAminoRoute = "tendermint/PubKeyMultisigThreshold"
+)
+
+var cdc = amino.NewCodec()
+
+func init() {
+ cdc.RegisterInterface((*crypto.PubKey)(nil), nil)
+ cdc.RegisterConcrete(PubKeyMultisigThreshold{},
+ PubKeyMultisigThresholdAminoRoute, nil)
+ cdc.RegisterConcrete(ed25519.PubKeyEd25519{},
+ ed25519.PubKeyAminoRoute, nil)
+ cdc.RegisterConcrete(secp256k1.PubKeySecp256k1{},
+ secp256k1.PubKeyAminoRoute, nil)
+}
diff --git a/vendor/github.com/tendermint/tendermint/crypto/secp256k1/secp256k1.go b/vendor/github.com/tendermint/tendermint/crypto/secp256k1/secp256k1.go
index aee5dafe7a2154258bd7149742ae81bc212995e3..2c64d1e9dd55c7788ad6c2cbde42dae051335fec 100644
--- a/vendor/github.com/tendermint/tendermint/crypto/secp256k1/secp256k1.go
+++ b/vendor/github.com/tendermint/tendermint/crypto/secp256k1/secp256k1.go
@@ -7,7 +7,7 @@ import (
"fmt"
"io"
- secp256k1 "github.com/btcsuite/btcd/btcec"
+ secp256k1 "github.com/tendermint/btcd/btcec"
amino "github.com/tendermint/go-amino"
"github.com/tendermint/tendermint/crypto"
"golang.org/x/crypto/ripemd160"
@@ -15,8 +15,8 @@ import (
//-------------------------------------
const (
- Secp256k1PrivKeyAminoRoute = "tendermint/PrivKeySecp256k1"
- Secp256k1PubKeyAminoRoute = "tendermint/PubKeySecp256k1"
+ PrivKeyAminoRoute = "tendermint/PrivKeySecp256k1"
+ PubKeyAminoRoute = "tendermint/PubKeySecp256k1"
)
var cdc = amino.NewCodec()
@@ -24,11 +24,11 @@ var cdc = amino.NewCodec()
func init() {
cdc.RegisterInterface((*crypto.PubKey)(nil), nil)
cdc.RegisterConcrete(PubKeySecp256k1{},
- Secp256k1PubKeyAminoRoute, nil)
+ PubKeyAminoRoute, nil)
cdc.RegisterInterface((*crypto.PrivKey)(nil), nil)
cdc.RegisterConcrete(PrivKeySecp256k1{},
- Secp256k1PrivKeyAminoRoute, nil)
+ PrivKeyAminoRoute, nil)
}
//-------------------------------------
@@ -141,10 +141,12 @@ func (pubKey PubKeySecp256k1) VerifyBytes(msg []byte, sig []byte) bool {
if err != nil {
return false
}
- parsedSig, err := secp256k1.ParseDERSignature(sig[:], secp256k1.S256())
+ parsedSig, err := secp256k1.ParseSignature(sig[:], secp256k1.S256())
if err != nil {
return false
}
+ // Underlying library ensures that this signature is in canonical form, to
+ // prevent Secp256k1 malleability from altering the sign of the s term.
return parsedSig.Verify(crypto.Sha256(msg), pub)
}
diff --git a/vendor/github.com/tendermint/tendermint/evidence/pool.go b/vendor/github.com/tendermint/tendermint/evidence/pool.go
index 247629b6be4e61743ef35c6ce7aedbb013996a2a..21cab5e0746ef4baae58d4b714d9b7a421dc4643 100644
--- a/vendor/github.com/tendermint/tendermint/evidence/pool.go
+++ b/vendor/github.com/tendermint/tendermint/evidence/pool.go
@@ -57,9 +57,10 @@ func (evpool *EvidencePool) PriorityEvidence() []types.Evidence {
return evpool.evidenceStore.PriorityEvidence()
}
-// PendingEvidence returns all uncommitted evidence.
-func (evpool *EvidencePool) PendingEvidence() []types.Evidence {
- return evpool.evidenceStore.PendingEvidence()
+// PendingEvidence returns uncommitted evidence up to maxBytes.
+// If maxBytes is -1, all evidence is returned.
+func (evpool *EvidencePool) PendingEvidence(maxBytes int) []types.Evidence {
+ return evpool.evidenceStore.PendingEvidence(maxBytes)
}
// State returns the current state of the evpool.
diff --git a/vendor/github.com/tendermint/tendermint/evidence/store.go b/vendor/github.com/tendermint/tendermint/evidence/store.go
index 20b37bdb27a9c2d7f0336dffff3da758e5feeaae..60656f052c7eaae2b36360af81506360121e1cc6 100644
--- a/vendor/github.com/tendermint/tendermint/evidence/store.go
+++ b/vendor/github.com/tendermint/tendermint/evidence/store.go
@@ -3,8 +3,8 @@ package evidence
import (
"fmt"
- "github.com/tendermint/tendermint/types"
dbm "github.com/tendermint/tendermint/libs/db"
+ "github.com/tendermint/tendermint/types"
)
/*
@@ -78,7 +78,7 @@ func NewEvidenceStore(db dbm.DB) *EvidenceStore {
// PriorityEvidence returns the evidence from the outqueue, sorted by highest priority.
func (store *EvidenceStore) PriorityEvidence() (evidence []types.Evidence) {
// reverse the order so highest priority is first
- l := store.ListEvidence(baseKeyOutqueue)
+ l := store.listEvidence(baseKeyOutqueue, -1)
l2 := make([]types.Evidence, len(l))
for i := range l {
l2[i] = l[len(l)-1-i]
@@ -86,18 +86,26 @@ func (store *EvidenceStore) PriorityEvidence() (evidence []types.Evidence) {
return l2
}
-// PendingEvidence returns all known uncommitted evidence.
-func (store *EvidenceStore) PendingEvidence() (evidence []types.Evidence) {
- return store.ListEvidence(baseKeyPending)
+// PendingEvidence returns known uncommitted evidence up to maxBytes.
+// If maxBytes is -1, all evidence is returned.
+func (store *EvidenceStore) PendingEvidence(maxBytes int) (evidence []types.Evidence) {
+ return store.listEvidence(baseKeyPending, maxBytes)
}
-// ListEvidence lists the evidence for the given prefix key.
+// listEvidence lists the evidence for the given prefix key up to maxBytes.
// It is wrapped by PriorityEvidence and PendingEvidence for convenience.
-func (store *EvidenceStore) ListEvidence(prefixKey string) (evidence []types.Evidence) {
+// If maxBytes is -1, there's no cap on the size of returned evidence.
+func (store *EvidenceStore) listEvidence(prefixKey string, maxBytes int) (evidence []types.Evidence) {
+ var bytes int
iter := dbm.IteratePrefix(store.db, []byte(prefixKey))
for ; iter.Valid(); iter.Next() {
val := iter.Value()
+ if maxBytes > 0 && bytes+len(val) > maxBytes {
+ return evidence
+ }
+ bytes += len(val)
+
var ei EvidenceInfo
err := cdc.UnmarshalBinaryBare(val, &ei)
if err != nil {
diff --git a/vendor/github.com/tendermint/tendermint/libs/autofile/autofile.go b/vendor/github.com/tendermint/tendermint/libs/autofile/autofile.go
index 2f1bb4fd527a7aba72b82f5b8c18ddb8364f3a7d..b00585285963bb8425782f71ac8bd81c14b15ec8 100644
--- a/vendor/github.com/tendermint/tendermint/libs/autofile/autofile.go
+++ b/vendor/github.com/tendermint/tendermint/libs/autofile/autofile.go
@@ -67,11 +67,13 @@ func (af *AutoFile) Close() error {
}
func (af *AutoFile) processTicks() {
- select {
- case <-af.ticker.C:
- af.closeFile()
- case <-af.tickerStopped:
- return
+ for {
+ select {
+ case <-af.ticker.C:
+ af.closeFile()
+ case <-af.tickerStopped:
+ return
+ }
}
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/autofile/group.go b/vendor/github.com/tendermint/tendermint/libs/autofile/group.go
index e747f04dd9ead3aec643e2d87fa7ec1f528c9bab..286447cdaa9532cc2b8ce0981901d65f4f9dcc19 100644
--- a/vendor/github.com/tendermint/tendermint/libs/autofile/group.go
+++ b/vendor/github.com/tendermint/tendermint/libs/autofile/group.go
@@ -199,12 +199,14 @@ func (g *Group) Flush() error {
}
func (g *Group) processTicks() {
- select {
- case <-g.ticker.C:
- g.checkHeadSizeLimit()
- g.checkTotalSizeLimit()
- case <-g.Quit():
- return
+ for {
+ select {
+ case <-g.ticker.C:
+ g.checkHeadSizeLimit()
+ g.checkTotalSizeLimit()
+ case <-g.Quit():
+ return
+ }
}
}
@@ -724,11 +726,11 @@ func (gr *GroupReader) SetIndex(index int) error {
func MakeSimpleSearchFunc(prefix string, target int) SearchFunc {
return func(line string) (int, error) {
if !strings.HasPrefix(line, prefix) {
- return -1, errors.New(cmn.Fmt("Marker line did not have prefix: %v", prefix))
+ return -1, fmt.Errorf("Marker line did not have prefix: %v", prefix)
}
i, err := strconv.Atoi(line[len(prefix):])
if err != nil {
- return -1, errors.New(cmn.Fmt("Failed to parse marker line: %v", err.Error()))
+ return -1, fmt.Errorf("Failed to parse marker line: %v", err.Error())
}
if target < i {
return 1, nil
diff --git a/vendor/github.com/tendermint/tendermint/libs/clist/clist.go b/vendor/github.com/tendermint/tendermint/libs/clist/clist.go
index ccb1f5777a1357eb923275501a3dcc1b41f0c8e8..c69d3d5f3a738dbc939e9274a9e5cf490c95feb5 100644
--- a/vendor/github.com/tendermint/tendermint/libs/clist/clist.go
+++ b/vendor/github.com/tendermint/tendermint/libs/clist/clist.go
@@ -12,9 +12,15 @@ to ensure garbage collection of removed elements.
*/
import (
+ "fmt"
"sync"
)
+// MaxLength is the max allowed number of elements a linked list is
+// allowed to contain.
+// If more elements are pushed to the list it will panic.
+const MaxLength = int(^uint(0) >> 1)
+
/*
CElement is an element of a linked-list
@@ -115,43 +121,42 @@ func (e *CElement) Next() *CElement {
// Nonblocking, may return nil if at the end.
func (e *CElement) Prev() *CElement {
e.mtx.RLock()
- defer e.mtx.RUnlock()
-
- return e.prev
+ prev := e.prev
+ e.mtx.RUnlock()
+ return prev
}
func (e *CElement) Removed() bool {
e.mtx.RLock()
- defer e.mtx.RUnlock()
-
- return e.removed
+ isRemoved := e.removed
+ e.mtx.RUnlock()
+ return isRemoved
}
func (e *CElement) DetachNext() {
- if !e.Removed() {
+ e.mtx.Lock()
+ if !e.removed {
+ e.mtx.Unlock()
panic("DetachNext() must be called after Remove(e)")
}
- e.mtx.Lock()
- defer e.mtx.Unlock()
-
e.next = nil
+ e.mtx.Unlock()
}
func (e *CElement) DetachPrev() {
- if !e.Removed() {
+ e.mtx.Lock()
+ if !e.removed {
+ e.mtx.Unlock()
panic("DetachPrev() must be called after Remove(e)")
}
- e.mtx.Lock()
- defer e.mtx.Unlock()
-
e.prev = nil
+ e.mtx.Unlock()
}
// NOTE: This function needs to be safe for
// concurrent goroutines waiting on nextWg.
func (e *CElement) SetNext(newNext *CElement) {
e.mtx.Lock()
- defer e.mtx.Unlock()
oldNext := e.next
e.next = newNext
@@ -168,13 +173,13 @@ func (e *CElement) SetNext(newNext *CElement) {
e.nextWg.Done()
close(e.nextWaitCh)
}
+ e.mtx.Unlock()
}
// NOTE: This function needs to be safe for
// concurrent goroutines waiting on prevWg
func (e *CElement) SetPrev(newPrev *CElement) {
e.mtx.Lock()
- defer e.mtx.Unlock()
oldPrev := e.prev
e.prev = newPrev
@@ -186,11 +191,11 @@ func (e *CElement) SetPrev(newPrev *CElement) {
e.prevWg.Done()
close(e.prevWaitCh)
}
+ e.mtx.Unlock()
}
func (e *CElement) SetRemoved() {
e.mtx.Lock()
- defer e.mtx.Unlock()
e.removed = true
@@ -203,6 +208,7 @@ func (e *CElement) SetRemoved() {
e.nextWg.Done()
close(e.nextWaitCh)
}
+ e.mtx.Unlock()
}
//--------------------------------------------------------------------------------
@@ -210,6 +216,7 @@ func (e *CElement) SetRemoved() {
// CList represents a linked list.
// The zero value for CList is an empty list ready to use.
// Operations are goroutine-safe.
+// Panics if length grows beyond the max.
type CList struct {
mtx sync.RWMutex
wg *sync.WaitGroup
@@ -217,34 +224,44 @@ type CList struct {
head *CElement // first element
tail *CElement // last element
len int // list length
+ maxLen int // max list length
}
func (l *CList) Init() *CList {
l.mtx.Lock()
- defer l.mtx.Unlock()
l.wg = waitGroup1()
l.waitCh = make(chan struct{})
l.head = nil
l.tail = nil
l.len = 0
+ l.mtx.Unlock()
return l
}
-func New() *CList { return new(CList).Init() }
+// Return CList with MaxLength. CList will panic if it goes beyond MaxLength.
+func New() *CList { return newWithMax(MaxLength) }
+
+// Return CList with given maxLength.
+// Will panic if list exceeds given maxLength.
+func newWithMax(maxLength int) *CList {
+ l := new(CList)
+ l.maxLen = maxLength
+ return l.Init()
+}
func (l *CList) Len() int {
l.mtx.RLock()
- defer l.mtx.RUnlock()
-
- return l.len
+ len := l.len
+ l.mtx.RUnlock()
+ return len
}
func (l *CList) Front() *CElement {
l.mtx.RLock()
- defer l.mtx.RUnlock()
-
- return l.head
+ head := l.head
+ l.mtx.RUnlock()
+ return head
}
func (l *CList) FrontWait() *CElement {
@@ -265,9 +282,9 @@ func (l *CList) FrontWait() *CElement {
func (l *CList) Back() *CElement {
l.mtx.RLock()
- defer l.mtx.RUnlock()
-
- return l.tail
+ back := l.tail
+ l.mtx.RUnlock()
+ return back
}
func (l *CList) BackWait() *CElement {
@@ -295,9 +312,9 @@ func (l *CList) WaitChan() <-chan struct{} {
return l.waitCh
}
+// Panics if list grows beyond its max length.
func (l *CList) PushBack(v interface{}) *CElement {
l.mtx.Lock()
- defer l.mtx.Unlock()
// Construct a new element
e := &CElement{
@@ -316,6 +333,9 @@ func (l *CList) PushBack(v interface{}) *CElement {
l.wg.Done()
close(l.waitCh)
}
+ if l.len >= l.maxLen {
+ panic(fmt.Sprintf("clist: maximum length list reached %d", l.maxLen))
+ }
l.len++
// Modify the tail
@@ -327,7 +347,7 @@ func (l *CList) PushBack(v interface{}) *CElement {
l.tail.SetNext(e) // This will make e accessible.
l.tail = e // Update the list.
}
-
+ l.mtx.Unlock()
return e
}
@@ -335,18 +355,20 @@ func (l *CList) PushBack(v interface{}) *CElement {
// NOTE: As per the contract of CList, removed elements cannot be added back.
func (l *CList) Remove(e *CElement) interface{} {
l.mtx.Lock()
- defer l.mtx.Unlock()
prev := e.Prev()
next := e.Next()
if l.head == nil || l.tail == nil {
+ l.mtx.Unlock()
panic("Remove(e) on empty CList")
}
if prev == nil && l.head != e {
+ l.mtx.Unlock()
panic("Remove(e) with false head")
}
if next == nil && l.tail != e {
+ l.mtx.Unlock()
panic("Remove(e) with false tail")
}
@@ -374,6 +396,7 @@ func (l *CList) Remove(e *CElement) interface{} {
// Set .Done() on e, otherwise waiters will wait forever.
e.SetRemoved()
+ l.mtx.Unlock()
return e.Value
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/cmap.go b/vendor/github.com/tendermint/tendermint/libs/common/cmap.go
index c65c27d4c422e2c9923f192d046e3e2593a53dab..2f7720d2e125941906bf834836c13e462438e680 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/cmap.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/cmap.go
@@ -16,58 +16,60 @@ func NewCMap() *CMap {
func (cm *CMap) Set(key string, value interface{}) {
cm.l.Lock()
- defer cm.l.Unlock()
cm.m[key] = value
+ cm.l.Unlock()
}
func (cm *CMap) Get(key string) interface{} {
cm.l.Lock()
- defer cm.l.Unlock()
- return cm.m[key]
+ val := cm.m[key]
+ cm.l.Unlock()
+ return val
}
func (cm *CMap) Has(key string) bool {
cm.l.Lock()
- defer cm.l.Unlock()
_, ok := cm.m[key]
+ cm.l.Unlock()
return ok
}
func (cm *CMap) Delete(key string) {
cm.l.Lock()
- defer cm.l.Unlock()
delete(cm.m, key)
+ cm.l.Unlock()
}
func (cm *CMap) Size() int {
cm.l.Lock()
- defer cm.l.Unlock()
- return len(cm.m)
+ size := len(cm.m)
+ cm.l.Unlock()
+ return size
}
func (cm *CMap) Clear() {
cm.l.Lock()
- defer cm.l.Unlock()
cm.m = make(map[string]interface{})
+ cm.l.Unlock()
}
func (cm *CMap) Keys() []string {
cm.l.Lock()
- defer cm.l.Unlock()
keys := []string{}
for k := range cm.m {
keys = append(keys, k)
}
+ cm.l.Unlock()
return keys
}
func (cm *CMap) Values() []interface{} {
cm.l.Lock()
- defer cm.l.Unlock()
items := []interface{}{}
for _, v := range cm.m {
items = append(items, v)
}
+ cm.l.Unlock()
return items
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/colors.go b/vendor/github.com/tendermint/tendermint/libs/common/colors.go
index 049ce7a50563c1d5a26ac84d7e7ccd63468875b9..4837f97b49afb0367ff28bda3216929947a1554e 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/colors.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/colors.go
@@ -88,7 +88,7 @@ func ColoredBytes(data []byte, textColor, bytesColor func(...interface{}) string
if 0x21 <= b && b < 0x7F {
s += textColor(string(b))
} else {
- s += bytesColor(Fmt("%02X", b))
+ s += bytesColor(fmt.Sprintf("%02X", b))
}
}
return s
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/errors.go b/vendor/github.com/tendermint/tendermint/libs/common/errors.go
index 5c31b8968ddd17dda6b5860ac959a6e97c0e2195..1dc909e89a558435a2f9c9c93351d57d49929006 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/errors.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/errors.go
@@ -10,13 +10,13 @@ import (
func ErrorWrap(cause interface{}, format string, args ...interface{}) Error {
if causeCmnError, ok := cause.(*cmnError); ok {
- msg := Fmt(format, args...)
+ msg := fmt.Sprintf(format, args...)
return causeCmnError.Stacktrace().Trace(1, msg)
} else if cause == nil {
return newCmnError(FmtError{format, args}).Stacktrace()
} else {
// NOTE: causeCmnError is a typed nil here.
- msg := Fmt(format, args...)
+ msg := fmt.Sprintf(format, args...)
return newCmnError(cause).Stacktrace().Trace(1, msg)
}
}
@@ -98,7 +98,7 @@ func (err *cmnError) Stacktrace() Error {
// Add tracing information with msg.
// Set n=0 unless wrapped with some function, then n > 0.
func (err *cmnError) Trace(offset int, format string, args ...interface{}) Error {
- msg := Fmt(format, args...)
+ msg := fmt.Sprintf(format, args...)
return err.doTrace(msg, offset)
}
@@ -221,7 +221,7 @@ func (fe FmtError) Format() string {
// and some guarantee is not satisfied.
// XXX DEPRECATED
func PanicSanity(v interface{}) {
- panic(Fmt("Panicked on a Sanity Check: %v", v))
+ panic(fmt.Sprintf("Panicked on a Sanity Check: %v", v))
}
// A panic here means something has gone horribly wrong, in the form of data corruption or
@@ -229,18 +229,18 @@ func PanicSanity(v interface{}) {
// If they do, it's indicative of a much more serious problem.
// XXX DEPRECATED
func PanicCrisis(v interface{}) {
- panic(Fmt("Panicked on a Crisis: %v", v))
+ panic(fmt.Sprintf("Panicked on a Crisis: %v", v))
}
// Indicates a failure of consensus. Someone was malicious or something has
// gone horribly wrong. These should really boot us into an "emergency-recover" mode
// XXX DEPRECATED
func PanicConsensus(v interface{}) {
- panic(Fmt("Panicked on a Consensus Failure: %v", v))
+ panic(fmt.Sprintf("Panicked on a Consensus Failure: %v", v))
}
// For those times when we're not sure if we should panic
// XXX DEPRECATED
func PanicQ(v interface{}) {
- panic(Fmt("Panicked questionably: %v", v))
+ panic(fmt.Sprintf("Panicked questionably: %v", v))
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/math.go b/vendor/github.com/tendermint/tendermint/libs/common/math.go
index b037d1a71efbbc796ec65dc50bd2878d43fc57cc..ae91f2058dfe791c67e1518561a3a06a6ffc2dcb 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/math.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/math.go
@@ -1,47 +1,5 @@
package common
-func MaxInt8(a, b int8) int8 {
- if a > b {
- return a
- }
- return b
-}
-
-func MaxUint8(a, b uint8) uint8 {
- if a > b {
- return a
- }
- return b
-}
-
-func MaxInt16(a, b int16) int16 {
- if a > b {
- return a
- }
- return b
-}
-
-func MaxUint16(a, b uint16) uint16 {
- if a > b {
- return a
- }
- return b
-}
-
-func MaxInt32(a, b int32) int32 {
- if a > b {
- return a
- }
- return b
-}
-
-func MaxUint32(a, b uint32) uint32 {
- if a > b {
- return a
- }
- return b
-}
-
func MaxInt64(a, b int64) int64 {
if a > b {
return a
@@ -49,13 +7,6 @@ func MaxInt64(a, b int64) int64 {
return b
}
-func MaxUint64(a, b uint64) uint64 {
- if a > b {
- return a
- }
- return b
-}
-
func MaxInt(a, b int) int {
if a > b {
return a
@@ -63,57 +14,8 @@ func MaxInt(a, b int) int {
return b
}
-func MaxUint(a, b uint) uint {
- if a > b {
- return a
- }
- return b
-}
-
//-----------------------------------------------------------------------------
-func MinInt8(a, b int8) int8 {
- if a < b {
- return a
- }
- return b
-}
-
-func MinUint8(a, b uint8) uint8 {
- if a < b {
- return a
- }
- return b
-}
-
-func MinInt16(a, b int16) int16 {
- if a < b {
- return a
- }
- return b
-}
-
-func MinUint16(a, b uint16) uint16 {
- if a < b {
- return a
- }
- return b
-}
-
-func MinInt32(a, b int32) int32 {
- if a < b {
- return a
- }
- return b
-}
-
-func MinUint32(a, b uint32) uint32 {
- if a < b {
- return a
- }
- return b
-}
-
func MinInt64(a, b int64) int64 {
if a < b {
return a
@@ -121,37 +23,9 @@ func MinInt64(a, b int64) int64 {
return b
}
-func MinUint64(a, b uint64) uint64 {
- if a < b {
- return a
- }
- return b
-}
-
func MinInt(a, b int) int {
if a < b {
return a
}
return b
}
-
-func MinUint(a, b uint) uint {
- if a < b {
- return a
- }
- return b
-}
-
-//-----------------------------------------------------------------------------
-
-func ExpUint64(a, b uint64) uint64 {
- accum := uint64(1)
- for b > 0 {
- if b&1 == 1 {
- accum *= a
- }
- a *= a
- b >>= 1
- }
- return accum
-}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/os.go b/vendor/github.com/tendermint/tendermint/libs/common/os.go
index b8419764e9f82eef958fc99d903afeea8ecd68a9..501bb564008c3e1d59f31f8bc0b6e4158e4a308c 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/os.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/os.go
@@ -106,7 +106,7 @@ func ReadFile(filePath string) ([]byte, error) {
func MustReadFile(filePath string) []byte {
fileBytes, err := ioutil.ReadFile(filePath)
if err != nil {
- Exit(Fmt("MustReadFile failed: %v", err))
+ Exit(fmt.Sprintf("MustReadFile failed: %v", err))
return nil
}
return fileBytes
@@ -119,7 +119,7 @@ func WriteFile(filePath string, contents []byte, mode os.FileMode) error {
func MustWriteFile(filePath string, contents []byte, mode os.FileMode) {
err := WriteFile(filePath, contents, mode)
if err != nil {
- Exit(Fmt("MustWriteFile failed: %v", err))
+ Exit(fmt.Sprintf("MustWriteFile failed: %v", err))
}
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/random.go b/vendor/github.com/tendermint/tendermint/libs/common/random.go
index 4b0594d0e58daf5a9d9edb4e859c4d5911596cd6..2de65945c58b2e79a3519a81e2b942c119d379b4 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/random.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/random.go
@@ -295,7 +295,7 @@ func (r *Rand) Perm(n int) []int {
// NOTE: This relies on the os's random number generator.
// For real security, we should salt that with some seed.
-// See github.com/tendermint/go-crypto for a more secure reader.
+// See github.com/tendermint/tendermint/crypto for a more secure reader.
func cRandBytes(numBytes int) []byte {
b := make([]byte, numBytes)
_, err := crand.Read(b)
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/service.go b/vendor/github.com/tendermint/tendermint/libs/common/service.go
index b6f166e77cf9b46536f332dc4e5d3c8cd99bd893..03e392855d78a2798b6c606daf28de1be8f4ce79 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/service.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/service.go
@@ -123,10 +123,10 @@ func (bs *BaseService) SetLogger(l log.Logger) {
func (bs *BaseService) Start() error {
if atomic.CompareAndSwapUint32(&bs.started, 0, 1) {
if atomic.LoadUint32(&bs.stopped) == 1 {
- bs.Logger.Error(Fmt("Not starting %v -- already stopped", bs.name), "impl", bs.impl)
+ bs.Logger.Error(fmt.Sprintf("Not starting %v -- already stopped", bs.name), "impl", bs.impl)
return ErrAlreadyStopped
}
- bs.Logger.Info(Fmt("Starting %v", bs.name), "impl", bs.impl)
+ bs.Logger.Info(fmt.Sprintf("Starting %v", bs.name), "impl", bs.impl)
err := bs.impl.OnStart()
if err != nil {
// revert flag
@@ -135,7 +135,7 @@ func (bs *BaseService) Start() error {
}
return nil
}
- bs.Logger.Debug(Fmt("Not starting %v -- already started", bs.name), "impl", bs.impl)
+ bs.Logger.Debug(fmt.Sprintf("Not starting %v -- already started", bs.name), "impl", bs.impl)
return ErrAlreadyStarted
}
@@ -148,12 +148,12 @@ func (bs *BaseService) OnStart() error { return nil }
// channel. An error will be returned if the service is already stopped.
func (bs *BaseService) Stop() error {
if atomic.CompareAndSwapUint32(&bs.stopped, 0, 1) {
- bs.Logger.Info(Fmt("Stopping %v", bs.name), "impl", bs.impl)
+ bs.Logger.Info(fmt.Sprintf("Stopping %v", bs.name), "impl", bs.impl)
bs.impl.OnStop()
close(bs.quit)
return nil
}
- bs.Logger.Debug(Fmt("Stopping %v (ignoring: already stopped)", bs.name), "impl", bs.impl)
+ bs.Logger.Debug(fmt.Sprintf("Stopping %v (ignoring: already stopped)", bs.name), "impl", bs.impl)
return ErrAlreadyStopped
}
@@ -166,7 +166,7 @@ func (bs *BaseService) OnStop() {}
// will be returned if the service is running.
func (bs *BaseService) Reset() error {
if !atomic.CompareAndSwapUint32(&bs.stopped, 1, 0) {
- bs.Logger.Debug(Fmt("Can't reset %v. Not stopped", bs.name), "impl", bs.impl)
+ bs.Logger.Debug(fmt.Sprintf("Can't reset %v. Not stopped", bs.name), "impl", bs.impl)
return fmt.Errorf("can't reset running %s", bs.name)
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/string.go b/vendor/github.com/tendermint/tendermint/libs/common/string.go
index fac1be6c959ec5079d8a7df72ee014d5fcd41b9c..e341b49e8f328474e079a5d6f95d6dc9c8a28f50 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/string.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/string.go
@@ -6,14 +6,6 @@ import (
"strings"
)
-// Like fmt.Sprintf, but skips formatting if args are empty.
-var Fmt = func(format string, a ...interface{}) string {
- if len(a) == 0 {
- return format
- }
- return fmt.Sprintf(format, a...)
-}
-
// IsHex returns true for non-empty hex-string prefixed with "0x"
func IsHex(s string) bool {
if len(s) > 2 && strings.EqualFold(s[:2], "0x") {
diff --git a/vendor/github.com/tendermint/tendermint/libs/common/types.pb.go b/vendor/github.com/tendermint/tendermint/libs/common/types.pb.go
index 6442daeb49ae1df6a3c39e33b0e669869a67918f..9cd62273b3eec818414f5284f755bc60899013a4 100644
--- a/vendor/github.com/tendermint/tendermint/libs/common/types.pb.go
+++ b/vendor/github.com/tendermint/tendermint/libs/common/types.pb.go
@@ -1,16 +1,6 @@
// Code generated by protoc-gen-gogo. DO NOT EDIT.
// source: libs/common/types.proto
-/*
- Package common is a generated protocol buffer package.
-
- It is generated from these files:
- libs/common/types.proto
-
- It has these top-level messages:
- KVPair
- KI64Pair
-*/
//nolint
package common
@@ -38,14 +28,45 @@ const _ = proto.GoGoProtoPackageIsVersion2 // please upgrade the proto package
// Define these here for compatibility but use tmlibs/common.KVPair.
type KVPair struct {
- Key []byte `protobuf:"bytes,1,opt,name=key,proto3" json:"key,omitempty"`
- Value []byte `protobuf:"bytes,2,opt,name=value,proto3" json:"value,omitempty"`
+ Key []byte `protobuf:"bytes,1,opt,name=key,proto3" json:"key,omitempty"`
+ Value []byte `protobuf:"bytes,2,opt,name=value,proto3" json:"value,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
-func (m *KVPair) Reset() { *m = KVPair{} }
-func (m *KVPair) String() string { return proto.CompactTextString(m) }
-func (*KVPair) ProtoMessage() {}
-func (*KVPair) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{0} }
+func (m *KVPair) Reset() { *m = KVPair{} }
+func (m *KVPair) String() string { return proto.CompactTextString(m) }
+func (*KVPair) ProtoMessage() {}
+func (*KVPair) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_611b4364a8604338, []int{0}
+}
+func (m *KVPair) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *KVPair) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_KVPair.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *KVPair) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_KVPair.Merge(dst, src)
+}
+func (m *KVPair) XXX_Size() int {
+ return m.Size()
+}
+func (m *KVPair) XXX_DiscardUnknown() {
+ xxx_messageInfo_KVPair.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_KVPair proto.InternalMessageInfo
func (m *KVPair) GetKey() []byte {
if m != nil {
@@ -63,14 +84,45 @@ func (m *KVPair) GetValue() []byte {
// Define these here for compatibility but use tmlibs/common.KI64Pair.
type KI64Pair struct {
- Key []byte `protobuf:"bytes,1,opt,name=key,proto3" json:"key,omitempty"`
- Value int64 `protobuf:"varint,2,opt,name=value,proto3" json:"value,omitempty"`
+ Key []byte `protobuf:"bytes,1,opt,name=key,proto3" json:"key,omitempty"`
+ Value int64 `protobuf:"varint,2,opt,name=value,proto3" json:"value,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
+}
+
+func (m *KI64Pair) Reset() { *m = KI64Pair{} }
+func (m *KI64Pair) String() string { return proto.CompactTextString(m) }
+func (*KI64Pair) ProtoMessage() {}
+func (*KI64Pair) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_611b4364a8604338, []int{1}
+}
+func (m *KI64Pair) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *KI64Pair) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_KI64Pair.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *KI64Pair) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_KI64Pair.Merge(dst, src)
+}
+func (m *KI64Pair) XXX_Size() int {
+ return m.Size()
+}
+func (m *KI64Pair) XXX_DiscardUnknown() {
+ xxx_messageInfo_KI64Pair.DiscardUnknown(m)
}
-func (m *KI64Pair) Reset() { *m = KI64Pair{} }
-func (m *KI64Pair) String() string { return proto.CompactTextString(m) }
-func (*KI64Pair) ProtoMessage() {}
-func (*KI64Pair) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{1} }
+var xxx_messageInfo_KI64Pair proto.InternalMessageInfo
func (m *KI64Pair) GetKey() []byte {
if m != nil {
@@ -117,6 +169,9 @@ func (this *KVPair) Equal(that interface{}) bool {
if !bytes.Equal(this.Value, that1.Value) {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
func (this *KI64Pair) Equal(that interface{}) bool {
@@ -144,6 +199,9 @@ func (this *KI64Pair) Equal(that interface{}) bool {
if this.Value != that1.Value {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
func (m *KVPair) Marshal() (dAtA []byte, err error) {
@@ -173,6 +231,9 @@ func (m *KVPair) MarshalTo(dAtA []byte) (int, error) {
i = encodeVarintTypes(dAtA, i, uint64(len(m.Value)))
i += copy(dAtA[i:], m.Value)
}
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -202,6 +263,9 @@ func (m *KI64Pair) MarshalTo(dAtA []byte) (int, error) {
i++
i = encodeVarintTypes(dAtA, i, uint64(m.Value))
}
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -227,6 +291,7 @@ func NewPopulatedKVPair(r randyTypes, easy bool) *KVPair {
this.Value[i] = byte(r.Intn(256))
}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
}
return this
}
@@ -243,6 +308,7 @@ func NewPopulatedKI64Pair(r randyTypes, easy bool) *KI64Pair {
this.Value *= -1
}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
}
return this
}
@@ -330,6 +396,9 @@ func (m *KVPair) Size() (n int) {
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
@@ -343,6 +412,9 @@ func (m *KI64Pair) Size() (n int) {
if m.Value != 0 {
n += 1 + sovTypes(uint64(m.Value))
}
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
@@ -462,6 +534,7 @@ func (m *KVPair) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -562,6 +635,7 @@ func (m *KI64Pair) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -676,10 +750,12 @@ var (
ErrIntOverflowTypes = fmt.Errorf("proto: integer overflow")
)
-func init() { proto.RegisterFile("libs/common/types.proto", fileDescriptorTypes) }
-func init() { golang_proto.RegisterFile("libs/common/types.proto", fileDescriptorTypes) }
+func init() { proto.RegisterFile("libs/common/types.proto", fileDescriptor_types_611b4364a8604338) }
+func init() {
+ golang_proto.RegisterFile("libs/common/types.proto", fileDescriptor_types_611b4364a8604338)
+}
-var fileDescriptorTypes = []byte{
+var fileDescriptor_types_611b4364a8604338 = []byte{
// 174 bytes of a gzipped FileDescriptorProto
0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xff, 0xe2, 0x12, 0xcf, 0xc9, 0x4c, 0x2a,
0xd6, 0x4f, 0xce, 0xcf, 0xcd, 0xcd, 0xcf, 0xd3, 0x2f, 0xa9, 0x2c, 0x48, 0x2d, 0xd6, 0x2b, 0x28,
diff --git a/vendor/github.com/tendermint/tendermint/libs/db/go_level_db.go b/vendor/github.com/tendermint/tendermint/libs/db/go_level_db.go
index 349e447b2bf2045db646fe8ff62403c20b70079d..8a48879218c09addd5a9225c8611f37344670d51 100644
--- a/vendor/github.com/tendermint/tendermint/libs/db/go_level_db.go
+++ b/vendor/github.com/tendermint/tendermint/libs/db/go_level_db.go
@@ -28,8 +28,12 @@ type GoLevelDB struct {
}
func NewGoLevelDB(name string, dir string) (*GoLevelDB, error) {
+ return NewGoLevelDBWithOpts(name, dir, nil)
+}
+
+func NewGoLevelDBWithOpts(name string, dir string, o *opt.Options) (*GoLevelDB, error) {
dbPath := filepath.Join(dir, name+".db")
- db, err := leveldb.OpenFile(dbPath, nil)
+ db, err := leveldb.OpenFile(dbPath, o)
if err != nil {
return nil, err
}
diff --git a/vendor/github.com/tendermint/tendermint/libs/log/tmfmt_logger.go b/vendor/github.com/tendermint/tendermint/libs/log/tmfmt_logger.go
index d0397971858d3b40236ccfe3a925f42f0ee6ce95..de155fefab6547191263ed67868a38cfbc3f1434 100644
--- a/vendor/github.com/tendermint/tendermint/libs/log/tmfmt_logger.go
+++ b/vendor/github.com/tendermint/tendermint/libs/log/tmfmt_logger.go
@@ -90,7 +90,7 @@ func (l tmfmtLogger) Log(keyvals ...interface{}) error {
// D - first character of the level, uppercase (ASCII only)
// [05-02|11:06:44.322] - our time format (see https://golang.org/src/time/format.go)
// Stopping ... - message
- enc.buf.WriteString(fmt.Sprintf("%c[%s] %-44s ", lvl[0]-32, time.Now().UTC().Format("01-02|15:04:05.000"), msg))
+ enc.buf.WriteString(fmt.Sprintf("%c[%s] %-44s ", lvl[0]-32, time.Now().Format("01-02|15:04:05.000"), msg))
if module != unknown {
enc.buf.WriteString("module=" + module + " ")
diff --git a/vendor/github.com/tendermint/tendermint/libs/pubsub/pubsub.go b/vendor/github.com/tendermint/tendermint/libs/pubsub/pubsub.go
index 4c0d97e2ffc5f87a849a8a0dcc41f995729b3ef2..c104439f8bc23b41c8488ce171059c0f869d4956 100644
--- a/vendor/github.com/tendermint/tendermint/libs/pubsub/pubsub.go
+++ b/vendor/github.com/tendermint/tendermint/libs/pubsub/pubsub.go
@@ -291,7 +291,8 @@ loop:
}
func (state *state) add(clientID string, q Query, ch chan<- interface{}) {
- // add query if needed
+
+ // initialize clientToChannelMap per query if needed
if _, ok := state.queries[q]; !ok {
state.queries[q] = make(map[string]chan<- interface{})
}
diff --git a/vendor/github.com/tendermint/tendermint/mempool/mempool.go b/vendor/github.com/tendermint/tendermint/mempool/mempool.go
index e1ed4f260a4f5c11a81f912a21517ac544448fb5..381653e64ea683bddcc22a78d4e8348836c41da0 100644
--- a/vendor/github.com/tendermint/tendermint/mempool/mempool.go
+++ b/vendor/github.com/tendermint/tendermint/mempool/mempool.go
@@ -3,6 +3,8 @@ package mempool
import (
"bytes"
"container/list"
+ "crypto/sha256"
+ "encoding/binary"
"fmt"
"sync"
"sync/atomic"
@@ -79,6 +81,8 @@ type Mempool struct {
recheckEnd *clist.CElement // re-checking stops here
notifiedTxsAvailable bool
txsAvailable chan struct{} // fires once for each height, when the mempool is not empty
+ // Filter mempool to only accept txs for which filter(tx) returns true.
+ filter func(types.Tx) bool
// Keep a cache of already-seen txs.
// This reduces the pressure on the proxyApp.
@@ -138,6 +142,12 @@ func (mem *Mempool) SetLogger(l log.Logger) {
mem.logger = l
}
+// WithFilter sets a filter for mempool to only accept txs for which f(tx)
+// returns true.
+func WithFilter(f func(types.Tx) bool) MempoolOption {
+ return func(mem *Mempool) { mem.filter = f }
+}
+
// WithMetrics sets the metrics.
func WithMetrics(metrics *Metrics) MempoolOption {
return func(mem *Mempool) { mem.metrics = metrics }
@@ -239,6 +249,10 @@ func (mem *Mempool) CheckTx(tx types.Tx, cb func(*abci.Response)) (err error) {
return ErrMempoolIsFull
}
+ if mem.filter != nil && !mem.filter(tx) {
+ return
+ }
+
// CACHE
if !mem.cache.Push(tx) {
return ErrTxInCache
@@ -312,7 +326,7 @@ func (mem *Mempool) resCbRecheck(req *abci.Request, res *abci.Response) {
case *abci.Response_CheckTx:
memTx := mem.recheckCursor.Value.(*mempoolTx)
if !bytes.Equal(req.GetCheckTx().Tx, memTx.tx) {
- cmn.PanicSanity(cmn.Fmt("Unexpected tx response from proxy during recheck\n"+
+ cmn.PanicSanity(fmt.Sprintf("Unexpected tx response from proxy during recheck\n"+
"Expected %X, got %X", r.CheckTx.Data, memTx.tx))
}
if r.CheckTx.Code == abci.CodeTypeOK {
@@ -366,9 +380,12 @@ func (mem *Mempool) notifyTxsAvailable() {
}
}
-// Reap returns a list of transactions currently in the mempool.
-// If maxTxs is -1, there is no cap on the number of returned transactions.
-func (mem *Mempool) Reap(maxTxs int) types.Txs {
+// ReapMaxBytes reaps transactions from the mempool up to n bytes total.
+// If max is negative, there is no cap on the size of all returned
+// transactions (~ all available transactions).
+func (mem *Mempool) ReapMaxBytes(max int) types.Txs {
+ var buf [binary.MaxVarintLen64]byte
+
mem.proxyMtx.Lock()
defer mem.proxyMtx.Unlock()
@@ -377,19 +394,42 @@ func (mem *Mempool) Reap(maxTxs int) types.Txs {
time.Sleep(time.Millisecond * 10)
}
- txs := mem.collectTxs(maxTxs)
+ var cur int
+ // TODO: we will get a performance boost if we have a good estimate of avg
+ // size per tx, and set the initial capacity based off of that.
+ // txs := make([]types.Tx, 0, cmn.MinInt(mem.txs.Len(), max/mem.avgTxSize))
+ txs := make([]types.Tx, 0, mem.txs.Len())
+ for e := mem.txs.Front(); e != nil; e = e.Next() {
+ memTx := e.Value.(*mempoolTx)
+ // amino.UvarintSize is not used here because it won't be possible to reuse buf
+ aminoOverhead := binary.PutUvarint(buf[:], uint64(len(memTx.tx)))
+ if max > 0 && cur+len(memTx.tx)+aminoOverhead > max {
+ return txs
+ }
+ cur += len(memTx.tx) + aminoOverhead
+ txs = append(txs, memTx.tx)
+ }
return txs
}
-// maxTxs: -1 means uncapped, 0 means none
-func (mem *Mempool) collectTxs(maxTxs int) types.Txs {
- if maxTxs == 0 {
- return []types.Tx{}
- } else if maxTxs < 0 {
- maxTxs = mem.txs.Len()
+// ReapMaxTxs reaps up to max transactions from the mempool.
+// If max is negative, there is no cap on the size of all returned
+// transactions (~ all available transactions).
+func (mem *Mempool) ReapMaxTxs(max int) types.Txs {
+ mem.proxyMtx.Lock()
+ defer mem.proxyMtx.Unlock()
+
+ if max < 0 {
+ max = mem.txs.Len()
}
- txs := make([]types.Tx, 0, cmn.MinInt(mem.txs.Len(), maxTxs))
- for e := mem.txs.Front(); e != nil && len(txs) < maxTxs; e = e.Next() {
+
+ for atomic.LoadInt32(&mem.rechecking) > 0 {
+ // TODO: Something better?
+ time.Sleep(time.Millisecond * 10)
+ }
+
+ txs := make([]types.Tx, 0, cmn.MinInt(mem.txs.Len(), max))
+ for e := mem.txs.Front(); e != nil && len(txs) <= max; e = e.Next() {
memTx := e.Value.(*mempoolTx)
txs = append(txs, memTx.tx)
}
@@ -399,9 +439,9 @@ func (mem *Mempool) collectTxs(maxTxs int) types.Txs {
// Update informs the mempool that the given txs were committed and can be discarded.
// NOTE: this should be called *after* block is committed by consensus.
// NOTE: unsafe; Lock/Unlock must be managed by caller
-func (mem *Mempool) Update(height int64, txs types.Txs) error {
+func (mem *Mempool) Update(height int64, txs types.Txs, filter func(types.Tx) bool) error {
// First, create a lookup map of txns in new txs.
- txsMap := make(map[string]struct{})
+ txsMap := make(map[string]struct{}, len(txs))
for _, tx := range txs {
txsMap[string(tx)] = struct{}{}
}
@@ -410,6 +450,10 @@ func (mem *Mempool) Update(height int64, txs types.Txs) error {
mem.height = height
mem.notifiedTxsAvailable = false
+ if filter != nil {
+ mem.filter = filter
+ }
+
// Remove transactions that are already in txs.
goodTxs := mem.filterTxs(txsMap)
// Recheck mempool txs if any txs were committed in the block
@@ -422,7 +466,10 @@ func (mem *Mempool) Update(height int64, txs types.Txs) error {
// mem.recheckCursor re-scans mem.txs and possibly removes some txs.
// Before mem.Reap(), we should wait for mem.recheckCursor to be nil.
}
+
+ // Update metrics
mem.metrics.Size.Set(float64(mem.Size()))
+
return nil
}
@@ -484,11 +531,12 @@ type txCache interface {
Remove(tx types.Tx)
}
-// mapTxCache maintains a cache of transactions.
+// mapTxCache maintains a cache of transactions. This only stores
+// the hash of the tx, due to memory concerns.
type mapTxCache struct {
mtx sync.Mutex
size int
- map_ map[string]struct{}
+ map_ map[[sha256.Size]byte]*list.Element
list *list.List // to remove oldest tx when cache gets too big
}
@@ -498,7 +546,7 @@ var _ txCache = (*mapTxCache)(nil)
func newMapTxCache(cacheSize int) *mapTxCache {
return &mapTxCache{
size: cacheSize,
- map_: make(map[string]struct{}, cacheSize),
+ map_: make(map[[sha256.Size]byte]*list.Element, cacheSize),
list: list.New(),
}
}
@@ -506,7 +554,7 @@ func newMapTxCache(cacheSize int) *mapTxCache {
// Reset resets the cache to an empty state.
func (cache *mapTxCache) Reset() {
cache.mtx.Lock()
- cache.map_ = make(map[string]struct{}, cache.size)
+ cache.map_ = make(map[[sha256.Size]byte]*list.Element, cache.size)
cache.list.Init()
cache.mtx.Unlock()
}
@@ -517,27 +565,35 @@ func (cache *mapTxCache) Push(tx types.Tx) bool {
cache.mtx.Lock()
defer cache.mtx.Unlock()
- if _, exists := cache.map_[string(tx)]; exists {
+ // Use the tx hash in the cache
+ txHash := sha256.Sum256(tx)
+ if _, exists := cache.map_[txHash]; exists {
return false
}
if cache.list.Len() >= cache.size {
popped := cache.list.Front()
- poppedTx := popped.Value.(types.Tx)
- // NOTE: the tx may have already been removed from the map
- // but deleting a non-existent element is fine
- delete(cache.map_, string(poppedTx))
- cache.list.Remove(popped)
+ poppedTxHash := popped.Value.([sha256.Size]byte)
+ delete(cache.map_, poppedTxHash)
+ if popped != nil {
+ cache.list.Remove(popped)
+ }
}
- cache.map_[string(tx)] = struct{}{}
- cache.list.PushBack(tx)
+ cache.list.PushBack(txHash)
+ cache.map_[txHash] = cache.list.Back()
return true
}
// Remove removes the given tx from the cache.
func (cache *mapTxCache) Remove(tx types.Tx) {
cache.mtx.Lock()
- delete(cache.map_, string(tx))
+ txHash := sha256.Sum256(tx)
+ popped := cache.map_[txHash]
+ delete(cache.map_, txHash)
+ if popped != nil {
+ cache.list.Remove(popped)
+ }
+
cache.mtx.Unlock()
}
diff --git a/vendor/github.com/tendermint/tendermint/node/node.go b/vendor/github.com/tendermint/tendermint/node/node.go
index 0c3396dc6860e7d2f63da394d63f8c6b6bc94fad..76f23dfdd456bd3f5ec2fe65adf76834e89dccca 100644
--- a/vendor/github.com/tendermint/tendermint/node/node.go
+++ b/vendor/github.com/tendermint/tendermint/node/node.go
@@ -40,6 +40,7 @@ import (
"github.com/tendermint/tendermint/version"
_ "net/http/pprof"
+ "strings"
)
//------------------------------------------------------------------------------
@@ -80,8 +81,14 @@ type NodeProvider func(*cfg.Config, log.Logger) (*Node, error)
// PrivValidator, ClientCreator, GenesisDoc, and DBProvider.
// It implements NodeProvider.
func DefaultNewNode(config *cfg.Config, logger log.Logger) (*Node, error) {
+ // Generate node PrivKey
+ nodeKey, err := p2p.LoadOrGenNodeKey(config.NodeKeyFile())
+ if err != nil {
+ return nil, err
+ }
return NewNode(config,
privval.LoadOrGenFilePV(config.PrivValidatorFile()),
+ nodeKey,
proxy.DefaultClientCreator(config.ProxyApp, config.ABCI, config.DBDir()),
DefaultGenesisDocProviderFunc(config),
DefaultDBProvider,
@@ -119,6 +126,7 @@ type Node struct {
// network
sw *p2p.Switch // p2p connections
addrBook pex.AddrBook // known peers
+ nodeKey *p2p.NodeKey // our node privkey
// services
eventBus *types.EventBus // pub/sub for services
@@ -139,6 +147,7 @@ type Node struct {
// NewNode returns a new, ready to go, Tendermint Node.
func NewNode(config *cfg.Config,
privValidator types.PrivValidator,
+ nodeKey *p2p.NodeKey,
clientCreator proxy.ClientCreator,
genesisDocProvider GenesisDocProvider,
dbProvider DBProvider,
@@ -232,13 +241,15 @@ func NewNode(config *cfg.Config,
csMetrics, p2pMetrics, memplMetrics := metricsProvider()
// Make MempoolReactor
- mempoolLogger := logger.With("module", "mempool")
+ maxBytes := state.ConsensusParams.TxSize.MaxBytes
mempool := mempl.NewMempool(
config.Mempool,
proxyApp.Mempool(),
state.LastBlockHeight,
mempl.WithMetrics(memplMetrics),
+ mempl.WithFilter(func(tx types.Tx) bool { return len(tx) <= maxBytes }),
)
+ mempoolLogger := logger.With("module", "mempool")
mempool.SetLogger(mempoolLogger)
mempool.InitWAL() // no need to have the mempool wal during tests
mempoolReactor := mempl.NewMempoolReactor(config.Mempool, mempool)
@@ -293,6 +304,7 @@ func NewNode(config *cfg.Config,
sw.AddReactor("BLOCKCHAIN", bcReactor)
sw.AddReactor("CONSENSUS", consensusReactor)
sw.AddReactor("EVIDENCE", evidenceReactor)
+ p2pLogger.Info("P2P Node ID", "ID", nodeKey.ID(), "file", config.NodeKeyFile())
// Optionally, start the pex reactor
//
@@ -312,7 +324,7 @@ func NewNode(config *cfg.Config,
// TODO persistent peers ? so we can have their DNS addrs saved
pexReactor := pex.NewPEXReactor(addrBook,
&pex.PEXReactorConfig{
- Seeds: cmn.SplitAndTrim(config.P2P.Seeds, ",", " "),
+ Seeds: splitAndTrimEmpty(config.P2P.Seeds, ",", " "),
SeedMode: config.P2P.SeedMode,
})
pexReactor.SetLogger(p2pLogger)
@@ -327,7 +339,7 @@ func NewNode(config *cfg.Config,
if config.FilterPeers {
// NOTE: addr is ip:port
sw.SetAddrFilter(func(addr net.Addr) error {
- resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: cmn.Fmt("/p2p/filter/addr/%s", addr.String())})
+ resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: fmt.Sprintf("/p2p/filter/addr/%s", addr.String())})
if err != nil {
return err
}
@@ -337,7 +349,7 @@ func NewNode(config *cfg.Config,
return nil
})
sw.SetIDFilter(func(id p2p.ID) error {
- resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: cmn.Fmt("/p2p/filter/id/%s", id)})
+ resQuery, err := proxyApp.Query().QuerySync(abci.RequestQuery{Path: fmt.Sprintf("/p2p/filter/id/%s", id)})
if err != nil {
return err
}
@@ -364,7 +376,7 @@ func NewNode(config *cfg.Config,
return nil, err
}
if config.TxIndex.IndexTags != "" {
- txIndexer = kv.NewTxIndex(store, kv.IndexTags(cmn.SplitAndTrim(config.TxIndex.IndexTags, ",", " ")))
+ txIndexer = kv.NewTxIndex(store, kv.IndexTags(splitAndTrimEmpty(config.TxIndex.IndexTags, ",", " ")))
} else if config.TxIndex.IndexAllTags {
txIndexer = kv.NewTxIndex(store, kv.IndexAllTags())
} else {
@@ -392,6 +404,7 @@ func NewNode(config *cfg.Config,
sw: sw,
addrBook: addrBook,
+ nodeKey: nodeKey,
stateDB: stateDB,
blockStore: blockStore,
@@ -424,23 +437,15 @@ func (n *Node) OnStart() error {
n.Logger.With("module", "p2p"))
n.sw.AddListener(l)
- // Generate node PrivKey
- // TODO: pass in like privValidator
- nodeKey, err := p2p.LoadOrGenNodeKey(n.config.NodeKeyFile())
- if err != nil {
- return err
- }
- n.Logger.Info("P2P Node ID", "ID", nodeKey.ID(), "file", n.config.NodeKeyFile())
-
- nodeInfo := n.makeNodeInfo(nodeKey.ID())
+ nodeInfo := n.makeNodeInfo(n.nodeKey.ID())
n.sw.SetNodeInfo(nodeInfo)
- n.sw.SetNodeKey(nodeKey)
+ n.sw.SetNodeKey(n.nodeKey)
// Add ourselves to addrbook to prevent dialing ourselves
n.addrBook.AddOurAddress(nodeInfo.NetAddress())
// Add private IDs to addrbook to block those peers being added
- n.addrBook.AddPrivateIDs(cmn.SplitAndTrim(n.config.P2P.PrivatePeerIDs, ",", " "))
+ n.addrBook.AddPrivateIDs(splitAndTrimEmpty(n.config.P2P.PrivatePeerIDs, ",", " "))
// Start the RPC server before the P2P server
// so we can eg. receive txs for the first block
@@ -465,7 +470,7 @@ func (n *Node) OnStart() error {
// Always connect to persistent peers
if n.config.P2P.PersistentPeers != "" {
- err = n.sw.DialPeersAsync(n.addrBook, cmn.SplitAndTrim(n.config.P2P.PersistentPeers, ",", " "), true)
+ err = n.sw.DialPeersAsync(n.addrBook, splitAndTrimEmpty(n.config.P2P.PersistentPeers, ",", " "), true)
if err != nil {
return err
}
@@ -547,7 +552,7 @@ func (n *Node) ConfigureRPC() {
func (n *Node) startRPC() ([]net.Listener, error) {
n.ConfigureRPC()
- listenAddrs := cmn.SplitAndTrim(n.config.RPC.ListenAddress, ",", " ")
+ listenAddrs := splitAndTrimEmpty(n.config.RPC.ListenAddress, ",", " ")
coreCodec := amino.NewCodec()
ctypes.RegisterAmino(coreCodec)
@@ -683,11 +688,11 @@ func (n *Node) makeNodeInfo(nodeID p2p.ID) p2p.NodeInfo {
},
Moniker: n.config.Moniker,
Other: []string{
- cmn.Fmt("amino_version=%v", amino.Version),
- cmn.Fmt("p2p_version=%v", p2p.Version),
- cmn.Fmt("consensus_version=%v", cs.Version),
- cmn.Fmt("rpc_version=%v/%v", rpc.Version, rpccore.Version),
- cmn.Fmt("tx_index=%v", txIndexerStatus),
+ fmt.Sprintf("amino_version=%v", amino.Version),
+ fmt.Sprintf("p2p_version=%v", p2p.Version),
+ fmt.Sprintf("consensus_version=%v", cs.Version),
+ fmt.Sprintf("rpc_version=%v/%v", rpc.Version, rpccore.Version),
+ fmt.Sprintf("tx_index=%v", txIndexerStatus),
},
}
@@ -696,7 +701,7 @@ func (n *Node) makeNodeInfo(nodeID p2p.ID) p2p.NodeInfo {
}
rpcListenAddr := n.config.RPC.ListenAddress
- nodeInfo.Other = append(nodeInfo.Other, cmn.Fmt("rpc_addr=%v", rpcListenAddr))
+ nodeInfo.Other = append(nodeInfo.Other, fmt.Sprintf("rpc_addr=%v", rpcListenAddr))
if !n.sw.IsListening() {
return nodeInfo
@@ -705,7 +710,7 @@ func (n *Node) makeNodeInfo(nodeID p2p.ID) p2p.NodeInfo {
p2pListener := n.sw.Listeners()[0]
p2pHost := p2pListener.ExternalAddressHost()
p2pPort := p2pListener.ExternalAddress().Port
- nodeInfo.ListenAddr = cmn.Fmt("%v:%v", p2pHost, p2pPort)
+ nodeInfo.ListenAddr = fmt.Sprintf("%v:%v", p2pHost, p2pPort)
return nodeInfo
}
@@ -745,3 +750,25 @@ func saveGenesisDoc(db dbm.DB, genDoc *types.GenesisDoc) {
}
db.SetSync(genesisDocKey, bytes)
}
+
+
+// splitAndTrimEmpty slices s into all subslices separated by sep and returns a
+// slice of the string s with all leading and trailing Unicode code points
+// contained in cutset removed. If sep is empty, SplitAndTrim splits after each
+// UTF-8 sequence. First part is equivalent to strings.SplitN with a count of
+// -1. also filter out empty strings, only return non-empty strings.
+func splitAndTrimEmpty(s, sep, cutset string) []string {
+ if s == "" {
+ return []string{}
+ }
+
+ spl := strings.Split(s, sep)
+ nonEmptyStrings := make([]string, 0, len(spl))
+ for i := 0; i < len(spl); i++ {
+ element := strings.Trim(spl[i], cutset)
+ if element != "" {
+ nonEmptyStrings = append(nonEmptyStrings, element)
+ }
+ }
+ return nonEmptyStrings
+}
diff --git a/vendor/github.com/tendermint/tendermint/p2p/base_reactor.go b/vendor/github.com/tendermint/tendermint/p2p/base_reactor.go
index da1296da0d821c2aa15d92cb5ce575ce0fa3d7e8..be65d2f14d8aefd7524a4fd11ecc756a06f8a8b7 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/base_reactor.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/base_reactor.go
@@ -1,8 +1,8 @@
package p2p
import (
- "github.com/tendermint/tendermint/p2p/conn"
cmn "github.com/tendermint/tendermint/libs/common"
+ "github.com/tendermint/tendermint/p2p/conn"
)
type Reactor interface {
diff --git a/vendor/github.com/tendermint/tendermint/p2p/conn/connection.go b/vendor/github.com/tendermint/tendermint/p2p/conn/connection.go
index 9672e01174fa189c4040973e650f899d75cde286..bb67eab30750e056b03bd23e6e7cecac71ac582f 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/conn/connection.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/conn/connection.go
@@ -257,7 +257,7 @@ func (c *MConnection) Send(chID byte, msgBytes []byte) bool {
// Send message to channel.
channel, ok := c.channelsIdx[chID]
if !ok {
- c.Logger.Error(cmn.Fmt("Cannot send bytes, unknown channel %X", chID))
+ c.Logger.Error(fmt.Sprintf("Cannot send bytes, unknown channel %X", chID))
return false
}
@@ -286,7 +286,7 @@ func (c *MConnection) TrySend(chID byte, msgBytes []byte) bool {
// Send message to channel.
channel, ok := c.channelsIdx[chID]
if !ok {
- c.Logger.Error(cmn.Fmt("Cannot send bytes, unknown channel %X", chID))
+ c.Logger.Error(fmt.Sprintf("Cannot send bytes, unknown channel %X", chID))
return false
}
@@ -311,7 +311,7 @@ func (c *MConnection) CanSend(chID byte) bool {
channel, ok := c.channelsIdx[chID]
if !ok {
- c.Logger.Error(cmn.Fmt("Unknown channel %X", chID))
+ c.Logger.Error(fmt.Sprintf("Unknown channel %X", chID))
return false
}
return channel.canSend()
diff --git a/vendor/github.com/tendermint/tendermint/p2p/conn/secret_connection.go b/vendor/github.com/tendermint/tendermint/p2p/conn/secret_connection.go
index 75199ee6ba3273dd9add491338ea1996f09527f2..3628eb4a39c434152e29ed03b47999f5d96f8845 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/conn/secret_connection.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/conn/secret_connection.go
@@ -123,7 +123,7 @@ func (sc *SecretConnection) Write(data []byte) (n int, err error) {
data = nil
}
chunkLength := len(chunk)
- binary.BigEndian.PutUint32(frame, uint32(chunkLength))
+ binary.LittleEndian.PutUint32(frame, uint32(chunkLength))
copy(frame[dataLenSize:], chunk)
aead, err := chacha20poly1305.New(sc.sendSecret[:])
@@ -172,7 +172,7 @@ func (sc *SecretConnection) Read(data []byte) (n int, err error) {
incrNonce(sc.recvNonce)
// end decryption
- var chunkLength = binary.BigEndian.Uint32(frame) // read the first two bytes
+ var chunkLength = binary.LittleEndian.Uint32(frame) // read the first four bytes
if chunkLength > dataMaxSize {
return 0, errors.New("chunkLength is greater than dataMaxSize")
}
@@ -332,13 +332,12 @@ func shareAuthSignature(sc *SecretConnection, pubKey crypto.PubKey, signature []
//--------------------------------------------------------------------------------
-// increment nonce big-endian by 1 with wraparound.
+// Increment nonce little-endian by 1 with wraparound.
+// Due to chacha20poly1305 expecting a 12 byte nonce we do not use the first four
+// bytes. We only increment a 64 bit unsigned int in the remaining 8 bytes
+// (little-endian in nonce[4:]).
func incrNonce(nonce *[aeadNonceSize]byte) {
- for i := aeadNonceSize - 1; 0 <= i; i-- {
- nonce[i]++
- // if this byte wrapped around to zero, we need to increment the next byte
- if nonce[i] != 0 {
- return
- }
- }
+ counter := binary.LittleEndian.Uint64(nonce[4:])
+ counter++
+ binary.LittleEndian.PutUint64(nonce[4:], counter)
}
diff --git a/vendor/github.com/tendermint/tendermint/p2p/listener.go b/vendor/github.com/tendermint/tendermint/p2p/listener.go
index d73b3cabfefb1680e0d4e5f5aa8f1f3798568efd..d0dd3f42a9326c18c3ddd2a888a350e22b49d61e 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/listener.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/listener.go
@@ -259,7 +259,7 @@ func isIpv6(ip net.IP) bool {
func getNaiveExternalAddress(defaultToIPv4 bool, port int, settleForLocal bool, logger log.Logger) *NetAddress {
addrs, err := net.InterfaceAddrs()
if err != nil {
- panic(cmn.Fmt("Could not fetch interface addresses: %v", err))
+ panic(fmt.Sprintf("Could not fetch interface addresses: %v", err))
}
for _, a := range addrs {
diff --git a/vendor/github.com/tendermint/tendermint/p2p/netaddress.go b/vendor/github.com/tendermint/tendermint/p2p/netaddress.go
index ebac8cc82d5c578cf6b7bc48cc0d46262bb6e6d4..a42f0fddecf233c235f1ca783010db34ef83565c 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/netaddress.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/netaddress.go
@@ -44,7 +44,7 @@ func NewNetAddress(id ID, addr net.Addr) *NetAddress {
tcpAddr, ok := addr.(*net.TCPAddr)
if !ok {
if flag.Lookup("test.v") == nil { // normal run
- cmn.PanicSanity(cmn.Fmt("Only TCPAddrs are supported. Got: %v", addr))
+ cmn.PanicSanity(fmt.Sprintf("Only TCPAddrs are supported. Got: %v", addr))
} else { // in testing
netAddr := NewNetAddressIPPort(net.IP("0.0.0.0"), 0)
netAddr.ID = id
diff --git a/vendor/github.com/tendermint/tendermint/p2p/peer.go b/vendor/github.com/tendermint/tendermint/p2p/peer.go
index 4f59fef764615c5322203512976c8c7157e8e730..a5f0bbbd816bc4fd81e1da6ffee67c3fb153c27e 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/peer.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/peer.go
@@ -425,7 +425,7 @@ func createMConnection(
if reactor == nil {
// Note that its ok to panic here as it's caught in the conn._recover,
// which does onPeerError.
- panic(cmn.Fmt("Unknown channel %X", chID))
+ panic(fmt.Sprintf("Unknown channel %X", chID))
}
reactor.Receive(chID, p, msgBytes)
}
diff --git a/vendor/github.com/tendermint/tendermint/p2p/pex/addrbook.go b/vendor/github.com/tendermint/tendermint/p2p/pex/addrbook.go
index ad6e0c00be2d2603ecd8bb20e2321a719968717e..e0c0e0b9ccced3afc76c62deda088548c9e12a96 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/pex/addrbook.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/pex/addrbook.go
@@ -7,6 +7,7 @@ package pex
import (
"crypto/sha256"
"encoding/binary"
+ "fmt"
"math"
"net"
"sync"
@@ -559,11 +560,11 @@ func (a *addrBook) addToNewBucket(ka *knownAddress, bucketIdx int) {
func (a *addrBook) addToOldBucket(ka *knownAddress, bucketIdx int) bool {
// Sanity check
if ka.isNew() {
- a.Logger.Error(cmn.Fmt("Cannot add new address to old bucket: %v", ka))
+ a.Logger.Error(fmt.Sprintf("Cannot add new address to old bucket: %v", ka))
return false
}
if len(ka.Buckets) != 0 {
- a.Logger.Error(cmn.Fmt("Cannot add already old address to another old bucket: %v", ka))
+ a.Logger.Error(fmt.Sprintf("Cannot add already old address to another old bucket: %v", ka))
return false
}
@@ -594,7 +595,7 @@ func (a *addrBook) addToOldBucket(ka *knownAddress, bucketIdx int) bool {
func (a *addrBook) removeFromBucket(ka *knownAddress, bucketType byte, bucketIdx int) {
if ka.BucketType != bucketType {
- a.Logger.Error(cmn.Fmt("Bucket type mismatch: %v", ka))
+ a.Logger.Error(fmt.Sprintf("Bucket type mismatch: %v", ka))
return
}
bucket := a.getBucket(bucketType, bucketIdx)
@@ -690,7 +691,7 @@ func (a *addrBook) expireNew(bucketIdx int) {
for addrStr, ka := range a.bucketsNew[bucketIdx] {
// If an entry is bad, throw it away
if ka.isBad() {
- a.Logger.Info(cmn.Fmt("expiring bad address %v", addrStr))
+ a.Logger.Info(fmt.Sprintf("expiring bad address %v", addrStr))
a.removeFromBucket(ka, bucketTypeNew, bucketIdx)
return
}
@@ -707,11 +708,11 @@ func (a *addrBook) expireNew(bucketIdx int) {
func (a *addrBook) moveToOld(ka *knownAddress) {
// Sanity check
if ka.isOld() {
- a.Logger.Error(cmn.Fmt("Cannot promote address that is already old %v", ka))
+ a.Logger.Error(fmt.Sprintf("Cannot promote address that is already old %v", ka))
return
}
if len(ka.Buckets) == 0 {
- a.Logger.Error(cmn.Fmt("Cannot promote address that isn't in any new buckets %v", ka))
+ a.Logger.Error(fmt.Sprintf("Cannot promote address that isn't in any new buckets %v", ka))
return
}
@@ -733,7 +734,7 @@ func (a *addrBook) moveToOld(ka *knownAddress) {
// Finally, add our ka to old bucket again.
added = a.addToOldBucket(ka, oldBucketIdx)
if !added {
- a.Logger.Error(cmn.Fmt("Could not re-add ka %v to oldBucketIdx %v", ka, oldBucketIdx))
+ a.Logger.Error(fmt.Sprintf("Could not re-add ka %v to oldBucketIdx %v", ka, oldBucketIdx))
}
}
}
diff --git a/vendor/github.com/tendermint/tendermint/p2p/pex/file.go b/vendor/github.com/tendermint/tendermint/p2p/pex/file.go
index 3237e12537e296d5ddbf55d79a6369c54ec2535e..33fec03369590e5bca96392217b7f5cffb0eb48e 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/pex/file.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/pex/file.go
@@ -2,6 +2,7 @@ package pex
import (
"encoding/json"
+ "fmt"
"os"
cmn "github.com/tendermint/tendermint/libs/common"
@@ -53,14 +54,14 @@ func (a *addrBook) loadFromFile(filePath string) bool {
// Load addrBookJSON{}
r, err := os.Open(filePath)
if err != nil {
- cmn.PanicCrisis(cmn.Fmt("Error opening file %s: %v", filePath, err))
+ cmn.PanicCrisis(fmt.Sprintf("Error opening file %s: %v", filePath, err))
}
defer r.Close() // nolint: errcheck
aJSON := &addrBookJSON{}
dec := json.NewDecoder(r)
err = dec.Decode(aJSON)
if err != nil {
- cmn.PanicCrisis(cmn.Fmt("Error reading file %s: %v", filePath, err))
+ cmn.PanicCrisis(fmt.Sprintf("Error reading file %s: %v", filePath, err))
}
// Restore all the fields...
diff --git a/vendor/github.com/tendermint/tendermint/p2p/pex/pex_reactor.go b/vendor/github.com/tendermint/tendermint/p2p/pex/pex_reactor.go
index 288cb0d150e0fd5bde094130e4a7b27ddb1fb3c8..c919794ab0e09242342c7905bcc2d404f62f6d95 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/pex/pex_reactor.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/pex/pex_reactor.go
@@ -31,8 +31,7 @@ const (
maxMsgSize = maxAddressSize * maxGetSelection
// ensure we have enough peers
- defaultEnsurePeersPeriod = 30 * time.Second
- defaultMinNumOutboundPeers = p2p.DefaultMinNumOutboundPeers
+ defaultEnsurePeersPeriod = 30 * time.Second
// Seed/Crawler constants
@@ -362,7 +361,7 @@ func (r *PEXReactor) ensurePeersRoutine() {
func (r *PEXReactor) ensurePeers() {
var (
out, in, dial = r.Switch.NumPeers()
- numToDial = defaultMinNumOutboundPeers - (out + dial)
+ numToDial = r.Switch.MaxNumOutboundPeers() - (out + dial)
)
r.Logger.Info(
"Ensure peers",
@@ -393,10 +392,7 @@ func (r *PEXReactor) ensurePeers() {
if _, selected := toDial[try.ID]; selected {
continue
}
- if dialling := r.Switch.IsDialing(try.ID); dialling {
- continue
- }
- if connected := r.Switch.Peers().Has(try.ID); connected {
+ if r.Switch.IsDialingOrExistingAddress(try) {
continue
}
// TODO: consider moving some checks from toDial into here
diff --git a/vendor/github.com/tendermint/tendermint/p2p/switch.go b/vendor/github.com/tendermint/tendermint/p2p/switch.go
index da94fa4b04dd60dcb004bbcc8b83c452e16ff947..b5413dabf1b637f5135e14da9df9db1a381faa57 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/switch.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/switch.go
@@ -26,10 +26,6 @@ const (
// ie. 3**10 = 16hrs
reconnectBackOffAttempts = 10
reconnectBackOffBaseSeconds = 3
-
- // keep at least this many outbound peers
- // TODO: move to config
- DefaultMinNumOutboundPeers = 10
)
//-----------------------------------------------------------------------------
@@ -268,6 +264,11 @@ func (sw *Switch) NumPeers() (outbound, inbound, dialing int) {
return
}
+// MaxNumOutboundPeers returns a maximum number of outbound peers.
+func (sw *Switch) MaxNumOutboundPeers() int {
+ return sw.config.MaxNumOutboundPeers
+}
+
// Peers returns the set of peers that are connected to the switch.
func (sw *Switch) Peers() IPeerSet {
return sw.peers
@@ -375,11 +376,6 @@ func (sw *Switch) MarkPeerAsGood(peer Peer) {
//---------------------------------------------------------------------
// Dialing
-// IsDialing returns true if the switch is currently dialing the given ID.
-func (sw *Switch) IsDialing(id ID) bool {
- return sw.dialing.Has(string(id))
-}
-
// DialPeersAsync dials a list of peers asynchronously in random order (optionally, making them persistent).
// Used to dial peers from config on startup or from unsafe-RPC (trusted sources).
// TODO: remove addrBook arg since it's now set on the switch
@@ -416,10 +412,13 @@ func (sw *Switch) DialPeersAsync(addrBook AddrBook, peers []string, persistent b
for i := 0; i < len(perm); i++ {
go func(i int) {
j := perm[i]
-
addr := netAddrs[j]
- // do not dial ourselves
+
if addr.Same(ourAddr) {
+ sw.Logger.Debug("Ignore attempt to connect to ourselves", "addr", addr, "ourAddr", ourAddr)
+ return
+ } else if sw.IsDialingOrExistingAddress(addr) {
+ sw.Logger.Debug("Ignore attempt to connect to an existing peer", "addr", addr)
return
}
@@ -452,6 +451,14 @@ func (sw *Switch) randomSleep(interval time.Duration) {
time.Sleep(r + interval)
}
+// IsDialingOrExistingAddress returns true if switch has a peer with the given
+// address or dialing it at the moment.
+func (sw *Switch) IsDialingOrExistingAddress(addr *NetAddress) bool {
+ return sw.dialing.Has(string(addr.ID)) ||
+ sw.peers.Has(addr.ID) ||
+ (!sw.config.AllowDuplicateIP && sw.peers.HasIP(addr.IP))
+}
+
//------------------------------------------------------------------------------------
// Connection filtering
@@ -491,11 +498,15 @@ func (sw *Switch) listenerRoutine(l Listener) {
break
}
- // ignore connection if we already have enough
- // leave room for MinNumOutboundPeers
- maxPeers := sw.config.MaxNumPeers - DefaultMinNumOutboundPeers
- if maxPeers <= sw.peers.Size() {
- sw.Logger.Info("Ignoring inbound connection: already have enough peers", "address", inConn.RemoteAddr().String(), "numPeers", sw.peers.Size(), "max", maxPeers)
+ // Ignore connection if we already have enough peers.
+ _, in, _ := sw.NumPeers()
+ if in >= sw.config.MaxNumInboundPeers {
+ sw.Logger.Info(
+ "Ignoring inbound connection: already have enough inbound peers",
+ "address", inConn.RemoteAddr().String(),
+ "have", in,
+ "max", sw.config.MaxNumInboundPeers,
+ )
inConn.Close()
continue
}
@@ -602,8 +613,10 @@ func (sw *Switch) addPeer(pc peerConn) error {
addr := peerNodeInfo.NetAddress()
// remove the given address from the address book
// and add to our addresses to avoid dialing again
- sw.addrBook.RemoveAddress(addr)
- sw.addrBook.AddOurAddress(addr)
+ if sw.addrBook != nil {
+ sw.addrBook.RemoveAddress(addr)
+ sw.addrBook.AddOurAddress(addr)
+ }
return ErrSwitchConnectToSelf{addr}
}
diff --git a/vendor/github.com/tendermint/tendermint/p2p/test_util.go b/vendor/github.com/tendermint/tendermint/p2p/test_util.go
index fdf9ae76474c703df756ad1fcdb23e07de012dff..90bcba4f179bceb3282af28c6f43cf7b410c2d3e 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/test_util.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/test_util.go
@@ -35,7 +35,7 @@ func CreateRandomPeer(outbound bool) *peer {
func CreateRoutableAddr() (addr string, netAddr *NetAddress) {
for {
var err error
- addr = cmn.Fmt("%X@%v.%v.%v.%v:26656", cmn.RandBytes(20), cmn.RandInt()%256, cmn.RandInt()%256, cmn.RandInt()%256, cmn.RandInt()%256)
+ addr = fmt.Sprintf("%X@%v.%v.%v.%v:26656", cmn.RandBytes(20), cmn.RandInt()%256, cmn.RandInt()%256, cmn.RandInt()%256, cmn.RandInt()%256)
netAddr, err = NewNetAddressString(addr)
if err != nil {
panic(err)
@@ -142,7 +142,7 @@ func MakeSwitch(cfg *config.P2PConfig, i int, network, version string, initSwitc
sw = initSwitch(i, sw)
ni := NodeInfo{
ID: nodeKey.ID(),
- Moniker: cmn.Fmt("switch%d", i),
+ Moniker: fmt.Sprintf("switch%d", i),
Network: network,
Version: version,
ListenAddr: fmt.Sprintf("127.0.0.1:%d", cmn.RandIntn(64512)+1023),
diff --git a/vendor/github.com/tendermint/tendermint/p2p/upnp/probe.go b/vendor/github.com/tendermint/tendermint/p2p/upnp/probe.go
index 2de5e7905055875bb55c64cfa36f9644a531a90f..16a5372414431dbfeb5dcb5947a5746a444639f2 100644
--- a/vendor/github.com/tendermint/tendermint/p2p/upnp/probe.go
+++ b/vendor/github.com/tendermint/tendermint/p2p/upnp/probe.go
@@ -5,7 +5,6 @@ import (
"net"
"time"
- cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/libs/log"
)
@@ -19,19 +18,19 @@ func makeUPNPListener(intPort int, extPort int, logger log.Logger) (NAT, net.Lis
if err != nil {
return nil, nil, nil, fmt.Errorf("NAT upnp could not be discovered: %v", err)
}
- logger.Info(cmn.Fmt("ourIP: %v", nat.(*upnpNAT).ourIP))
+ logger.Info(fmt.Sprintf("ourIP: %v", nat.(*upnpNAT).ourIP))
ext, err := nat.GetExternalAddress()
if err != nil {
return nat, nil, nil, fmt.Errorf("External address error: %v", err)
}
- logger.Info(cmn.Fmt("External address: %v", ext))
+ logger.Info(fmt.Sprintf("External address: %v", ext))
port, err := nat.AddPortMapping("tcp", extPort, intPort, "Tendermint UPnP Probe", 0)
if err != nil {
return nat, nil, ext, fmt.Errorf("Port mapping error: %v", err)
}
- logger.Info(cmn.Fmt("Port mapping mapped: %v", port))
+ logger.Info(fmt.Sprintf("Port mapping mapped: %v", port))
// also run the listener, open for all remote addresses.
listener, err := net.Listen("tcp", fmt.Sprintf(":%v", intPort))
@@ -46,17 +45,17 @@ func testHairpin(listener net.Listener, extAddr string, logger log.Logger) (supp
go func() {
inConn, err := listener.Accept()
if err != nil {
- logger.Info(cmn.Fmt("Listener.Accept() error: %v", err))
+ logger.Info(fmt.Sprintf("Listener.Accept() error: %v", err))
return
}
- logger.Info(cmn.Fmt("Accepted incoming connection: %v -> %v", inConn.LocalAddr(), inConn.RemoteAddr()))
+ logger.Info(fmt.Sprintf("Accepted incoming connection: %v -> %v", inConn.LocalAddr(), inConn.RemoteAddr()))
buf := make([]byte, 1024)
n, err := inConn.Read(buf)
if err != nil {
- logger.Info(cmn.Fmt("Incoming connection read error: %v", err))
+ logger.Info(fmt.Sprintf("Incoming connection read error: %v", err))
return
}
- logger.Info(cmn.Fmt("Incoming connection read %v bytes: %X", n, buf))
+ logger.Info(fmt.Sprintf("Incoming connection read %v bytes: %X", n, buf))
if string(buf) == "test data" {
supportsHairpin = true
return
@@ -66,16 +65,16 @@ func testHairpin(listener net.Listener, extAddr string, logger log.Logger) (supp
// Establish outgoing
outConn, err := net.Dial("tcp", extAddr)
if err != nil {
- logger.Info(cmn.Fmt("Outgoing connection dial error: %v", err))
+ logger.Info(fmt.Sprintf("Outgoing connection dial error: %v", err))
return
}
n, err := outConn.Write([]byte("test data"))
if err != nil {
- logger.Info(cmn.Fmt("Outgoing connection write error: %v", err))
+ logger.Info(fmt.Sprintf("Outgoing connection write error: %v", err))
return
}
- logger.Info(cmn.Fmt("Outgoing connection wrote %v bytes", n))
+ logger.Info(fmt.Sprintf("Outgoing connection wrote %v bytes", n))
// Wait for data receipt
time.Sleep(1 * time.Second)
@@ -96,10 +95,10 @@ func Probe(logger log.Logger) (caps UPNPCapabilities, err error) {
// Deferred cleanup
defer func() {
if err := nat.DeletePortMapping("tcp", intPort, extPort); err != nil {
- logger.Error(cmn.Fmt("Port mapping delete error: %v", err))
+ logger.Error(fmt.Sprintf("Port mapping delete error: %v", err))
}
if err := listener.Close(); err != nil {
- logger.Error(cmn.Fmt("Listener closing error: %v", err))
+ logger.Error(fmt.Sprintf("Listener closing error: %v", err))
}
}()
diff --git a/vendor/github.com/tendermint/tendermint/privval/priv_validator.go b/vendor/github.com/tendermint/tendermint/privval/priv_validator.go
index a81751a9147f9d79faf0d2f50289e954c951e2cf..3ba0519cbf728556a5b741e137b1a39ae4bc2d3d 100644
--- a/vendor/github.com/tendermint/tendermint/privval/priv_validator.go
+++ b/vendor/github.com/tendermint/tendermint/privval/priv_validator.go
@@ -12,6 +12,7 @@ import (
"github.com/tendermint/tendermint/crypto/ed25519"
cmn "github.com/tendermint/tendermint/libs/common"
"github.com/tendermint/tendermint/types"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
// TODO: type ?
@@ -89,7 +90,7 @@ func LoadFilePV(filePath string) *FilePV {
pv := &FilePV{}
err = cdc.UnmarshalJSON(pvJSONBytes, &pv)
if err != nil {
- cmn.Exit(cmn.Fmt("Error reading PrivValidator from %v: %v\n", filePath, err))
+ cmn.Exit(fmt.Sprintf("Error reading PrivValidator from %v: %v\n", filePath, err))
}
// overwrite pubkey and address for convenience
@@ -153,7 +154,7 @@ func (pv *FilePV) SignVote(chainID string, vote *types.Vote) error {
pv.mtx.Lock()
defer pv.mtx.Unlock()
if err := pv.signVote(chainID, vote); err != nil {
- return errors.New(cmn.Fmt("Error signing vote: %v", err))
+ return fmt.Errorf("Error signing vote: %v", err)
}
return nil
}
@@ -324,7 +325,7 @@ func checkVotesOnlyDifferByTimestamp(lastSignBytes, newSignBytes []byte) (time.T
}
// set the times to the same value and check equality
- now := types.CanonicalTime(time.Now())
+ now := types.CanonicalTime(tmtime.Now())
lastVote.Timestamp = now
newVote.Timestamp = now
lastVoteBytes, _ := cdc.MarshalJSON(lastVote)
@@ -350,7 +351,7 @@ func checkProposalsOnlyDifferByTimestamp(lastSignBytes, newSignBytes []byte) (ti
}
// set the times to the same value and check equality
- now := types.CanonicalTime(time.Now())
+ now := types.CanonicalTime(tmtime.Now())
lastProposal.Timestamp = now
newProposal.Timestamp = now
lastProposalBytes, _ := cdc.MarshalJSON(lastProposal)
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/blocks.go b/vendor/github.com/tendermint/tendermint/rpc/core/blocks.go
index 671250db847e92a51c48d5955afaa950b39d8d4f..bb69db63f9aeff66f8beaa90e8e22caa91e649d3 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/blocks.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/blocks.go
@@ -370,16 +370,16 @@ func BlockResults(heightPtr *int64) (*ctypes.ResultBlockResults, error) {
return res, nil
}
-func getHeight(storeHeight int64, heightPtr *int64) (int64, error) {
+func getHeight(currentHeight int64, heightPtr *int64) (int64, error) {
if heightPtr != nil {
height := *heightPtr
if height <= 0 {
return 0, fmt.Errorf("Height must be greater than 0")
}
- if height > storeHeight {
+ if height > currentHeight {
return 0, fmt.Errorf("Height must be less than or equal to the current blockchain height")
}
return height, nil
}
- return storeHeight, nil
+ return currentHeight, nil
}
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/consensus.go b/vendor/github.com/tendermint/tendermint/rpc/core/consensus.go
index c026cd91f49caa2456ca2e4113d37ebf1e4ee40c..4e4c54dead19b8c679423bd5efbc4d6a16794306 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/consensus.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/consensus.go
@@ -44,8 +44,10 @@ import (
// }
// ```
func Validators(heightPtr *int64) (*ctypes.ResultValidators, error) {
- storeHeight := blockStore.Height()
- height, err := getHeight(storeHeight, heightPtr)
+ // The latest validator that we know is the
+ // NextValidator of the last block.
+ height := consensusState.GetState().LastBlockHeight + 1
+ height, err := getHeight(height, heightPtr)
if err != nil {
return nil, err
}
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/mempool.go b/vendor/github.com/tendermint/tendermint/rpc/core/mempool.go
index ecc41ce12b2e14d8b224ea97edf884877e9e7be7..728d77f63820fc4e48ab451894f936ae5b3b2139 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/mempool.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/mempool.go
@@ -8,9 +8,9 @@ import (
"github.com/pkg/errors"
abci "github.com/tendermint/tendermint/abci/types"
+ cmn "github.com/tendermint/tendermint/libs/common"
ctypes "github.com/tendermint/tendermint/rpc/core/types"
"github.com/tendermint/tendermint/types"
- cmn "github.com/tendermint/tendermint/libs/common"
)
//-----------------------------------------------------------------------------
@@ -243,7 +243,7 @@ func UnconfirmedTxs(limit int) (*ctypes.ResultUnconfirmedTxs, error) {
// reuse per_page validator
limit = validatePerPage(limit)
- txs := mempool.Reap(limit)
+ txs := mempool.ReapMaxTxs(limit)
return &ctypes.ResultUnconfirmedTxs{len(txs), txs}, nil
}
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/pipe.go b/vendor/github.com/tendermint/tendermint/rpc/core/pipe.go
index 128b3e9a7392809eeb661ba9bce349d1ac783937..1d1f61466b838cb99877fc0b2a6cf99ac587cf70 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/pipe.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/pipe.go
@@ -5,13 +5,14 @@ import (
"github.com/tendermint/tendermint/consensus"
crypto "github.com/tendermint/tendermint/crypto"
+ dbm "github.com/tendermint/tendermint/libs/db"
+ "github.com/tendermint/tendermint/libs/log"
+ mempl "github.com/tendermint/tendermint/mempool"
"github.com/tendermint/tendermint/p2p"
"github.com/tendermint/tendermint/proxy"
sm "github.com/tendermint/tendermint/state"
"github.com/tendermint/tendermint/state/txindex"
"github.com/tendermint/tendermint/types"
- dbm "github.com/tendermint/tendermint/libs/db"
- "github.com/tendermint/tendermint/libs/log"
)
const (
@@ -28,6 +29,7 @@ var subscribeTimeout = 5 * time.Second
type Consensus interface {
GetState() sm.State
GetValidators() (int64, []*types.Validator)
+ GetLastHeight() int64
GetRoundStateJSON() ([]byte, error)
GetRoundStateSimpleJSON() ([]byte, error)
}
@@ -52,7 +54,6 @@ var (
// interfaces defined in types and above
stateDB dbm.DB
blockStore sm.BlockStore
- mempool sm.Mempool
evidencePool sm.EvidencePool
consensusState Consensus
p2pSwitch P2P
@@ -64,6 +65,7 @@ var (
txIndexer txindex.TxIndexer
consensusReactor *consensus.ConsensusReactor
eventBus *types.EventBus // thread safe
+ mempool *mempl.Mempool
logger log.Logger
)
@@ -76,7 +78,7 @@ func SetBlockStore(bs sm.BlockStore) {
blockStore = bs
}
-func SetMempool(mem sm.Mempool) {
+func SetMempool(mem *mempl.Mempool) {
mempool = mem
}
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/status.go b/vendor/github.com/tendermint/tendermint/rpc/core/status.go
index 4cb7667b7568bde550258a2885c61325f90a91e4..e34f5244cd6868bbd004f576f58cce61de353dcc 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/status.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/status.go
@@ -64,7 +64,12 @@ import (
//}
// ```
func Status() (*ctypes.ResultStatus, error) {
- latestHeight := blockStore.Height()
+ var latestHeight int64 = -1
+ if consensusReactor.FastSync() {
+ latestHeight = blockStore.Height()
+ } else {
+ latestHeight = consensusState.GetLastHeight()
+ }
var (
latestBlockMeta *types.BlockMeta
latestBlockHash cmn.HexBytes
@@ -107,9 +112,8 @@ func Status() (*ctypes.ResultStatus, error) {
func validatorAtHeight(h int64) *types.Validator {
privValAddress := pubKey.Address()
+ // If we're still at height h, search in the current validator set.
lastBlockHeight, vals := consensusState.GetValidators()
-
- // if we're still at height h, search in the current validator set
if lastBlockHeight == h {
for _, val := range vals {
if bytes.Equal(val.Address, privValAddress) {
@@ -118,12 +122,11 @@ func validatorAtHeight(h int64) *types.Validator {
}
}
- // if we've moved to the next height, retrieve the validator set from DB
+ // If we've moved to the next height, retrieve the validator set from DB.
if lastBlockHeight > h {
vals, err := sm.LoadValidators(stateDB, h)
if err != nil {
- // should not happen
- return nil
+ return nil // should not happen
}
_, val := vals.GetByAddress(privValAddress)
return val
diff --git a/vendor/github.com/tendermint/tendermint/rpc/core/types/responses.go b/vendor/github.com/tendermint/tendermint/rpc/core/types/responses.go
index 4fec416eda1e7c45e590ce285694fdc823264ef6..dbb50ff6b684ad3f896bea7e8e10a228c6ca564c 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/core/types/responses.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/core/types/responses.go
@@ -33,10 +33,8 @@ type ResultBlock struct {
// Commit and Header
type ResultCommit struct {
- // SignedHeader is header and commit, embedded so we only have
- // one level in the json output
- types.SignedHeader
- CanonicalCommit bool `json:"canonical"`
+ types.SignedHeader `json:"signed_header"`
+ CanonicalCommit bool `json:"canonical"`
}
// ABCI results from a block
diff --git a/vendor/github.com/tendermint/tendermint/rpc/grpc/types.pb.go b/vendor/github.com/tendermint/tendermint/rpc/grpc/types.pb.go
index 8bc9761a40db7aba394b929515a4170fcf40be0a..b33397dab45a94ed0fd335a4f59f7340c079bbe2 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/grpc/types.pb.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/grpc/types.pb.go
@@ -1,18 +1,6 @@
// Code generated by protoc-gen-gogo. DO NOT EDIT.
// source: rpc/grpc/types.proto
-/*
- Package core_grpc is a generated protocol buffer package.
-
- It is generated from these files:
- rpc/grpc/types.proto
-
- It has these top-level messages:
- RequestPing
- RequestBroadcastTx
- ResponsePing
- ResponseBroadcastTx
-*/
//nolint
package core_grpc
@@ -25,8 +13,10 @@ import types "github.com/tendermint/tendermint/abci/types"
import bytes "bytes"
-import context "golang.org/x/net/context"
-import grpc "google.golang.org/grpc"
+import (
+ context "golang.org/x/net/context"
+ grpc "google.golang.org/grpc"
+)
import io "io"
@@ -43,21 +33,83 @@ var _ = math.Inf
const _ = proto.GoGoProtoPackageIsVersion2 // please upgrade the proto package
type RequestPing struct {
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
-func (m *RequestPing) Reset() { *m = RequestPing{} }
-func (m *RequestPing) String() string { return proto.CompactTextString(m) }
-func (*RequestPing) ProtoMessage() {}
-func (*RequestPing) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{0} }
+func (m *RequestPing) Reset() { *m = RequestPing{} }
+func (m *RequestPing) String() string { return proto.CompactTextString(m) }
+func (*RequestPing) ProtoMessage() {}
+func (*RequestPing) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_48bb8d9591d37e66, []int{0}
+}
+func (m *RequestPing) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *RequestPing) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_RequestPing.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *RequestPing) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_RequestPing.Merge(dst, src)
+}
+func (m *RequestPing) XXX_Size() int {
+ return m.Size()
+}
+func (m *RequestPing) XXX_DiscardUnknown() {
+ xxx_messageInfo_RequestPing.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_RequestPing proto.InternalMessageInfo
type RequestBroadcastTx struct {
- Tx []byte `protobuf:"bytes,1,opt,name=tx,proto3" json:"tx,omitempty"`
+ Tx []byte `protobuf:"bytes,1,opt,name=tx,proto3" json:"tx,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
-func (m *RequestBroadcastTx) Reset() { *m = RequestBroadcastTx{} }
-func (m *RequestBroadcastTx) String() string { return proto.CompactTextString(m) }
-func (*RequestBroadcastTx) ProtoMessage() {}
-func (*RequestBroadcastTx) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{1} }
+func (m *RequestBroadcastTx) Reset() { *m = RequestBroadcastTx{} }
+func (m *RequestBroadcastTx) String() string { return proto.CompactTextString(m) }
+func (*RequestBroadcastTx) ProtoMessage() {}
+func (*RequestBroadcastTx) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_48bb8d9591d37e66, []int{1}
+}
+func (m *RequestBroadcastTx) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *RequestBroadcastTx) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_RequestBroadcastTx.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *RequestBroadcastTx) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_RequestBroadcastTx.Merge(dst, src)
+}
+func (m *RequestBroadcastTx) XXX_Size() int {
+ return m.Size()
+}
+func (m *RequestBroadcastTx) XXX_DiscardUnknown() {
+ xxx_messageInfo_RequestBroadcastTx.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_RequestBroadcastTx proto.InternalMessageInfo
func (m *RequestBroadcastTx) GetTx() []byte {
if m != nil {
@@ -67,22 +119,84 @@ func (m *RequestBroadcastTx) GetTx() []byte {
}
type ResponsePing struct {
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
+}
+
+func (m *ResponsePing) Reset() { *m = ResponsePing{} }
+func (m *ResponsePing) String() string { return proto.CompactTextString(m) }
+func (*ResponsePing) ProtoMessage() {}
+func (*ResponsePing) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_48bb8d9591d37e66, []int{2}
+}
+func (m *ResponsePing) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *ResponsePing) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_ResponsePing.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *ResponsePing) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_ResponsePing.Merge(dst, src)
+}
+func (m *ResponsePing) XXX_Size() int {
+ return m.Size()
+}
+func (m *ResponsePing) XXX_DiscardUnknown() {
+ xxx_messageInfo_ResponsePing.DiscardUnknown(m)
}
-func (m *ResponsePing) Reset() { *m = ResponsePing{} }
-func (m *ResponsePing) String() string { return proto.CompactTextString(m) }
-func (*ResponsePing) ProtoMessage() {}
-func (*ResponsePing) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{2} }
+var xxx_messageInfo_ResponsePing proto.InternalMessageInfo
type ResponseBroadcastTx struct {
- CheckTx *types.ResponseCheckTx `protobuf:"bytes,1,opt,name=check_tx,json=checkTx" json:"check_tx,omitempty"`
- DeliverTx *types.ResponseDeliverTx `protobuf:"bytes,2,opt,name=deliver_tx,json=deliverTx" json:"deliver_tx,omitempty"`
+ CheckTx *types.ResponseCheckTx `protobuf:"bytes,1,opt,name=check_tx,json=checkTx" json:"check_tx,omitempty"`
+ DeliverTx *types.ResponseDeliverTx `protobuf:"bytes,2,opt,name=deliver_tx,json=deliverTx" json:"deliver_tx,omitempty"`
+ XXX_NoUnkeyedLiteral struct{} `json:"-"`
+ XXX_unrecognized []byte `json:"-"`
+ XXX_sizecache int32 `json:"-"`
}
-func (m *ResponseBroadcastTx) Reset() { *m = ResponseBroadcastTx{} }
-func (m *ResponseBroadcastTx) String() string { return proto.CompactTextString(m) }
-func (*ResponseBroadcastTx) ProtoMessage() {}
-func (*ResponseBroadcastTx) Descriptor() ([]byte, []int) { return fileDescriptorTypes, []int{3} }
+func (m *ResponseBroadcastTx) Reset() { *m = ResponseBroadcastTx{} }
+func (m *ResponseBroadcastTx) String() string { return proto.CompactTextString(m) }
+func (*ResponseBroadcastTx) ProtoMessage() {}
+func (*ResponseBroadcastTx) Descriptor() ([]byte, []int) {
+ return fileDescriptor_types_48bb8d9591d37e66, []int{3}
+}
+func (m *ResponseBroadcastTx) XXX_Unmarshal(b []byte) error {
+ return m.Unmarshal(b)
+}
+func (m *ResponseBroadcastTx) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
+ if deterministic {
+ return xxx_messageInfo_ResponseBroadcastTx.Marshal(b, m, deterministic)
+ } else {
+ b = b[:cap(b)]
+ n, err := m.MarshalTo(b)
+ if err != nil {
+ return nil, err
+ }
+ return b[:n], nil
+ }
+}
+func (dst *ResponseBroadcastTx) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_ResponseBroadcastTx.Merge(dst, src)
+}
+func (m *ResponseBroadcastTx) XXX_Size() int {
+ return m.Size()
+}
+func (m *ResponseBroadcastTx) XXX_DiscardUnknown() {
+ xxx_messageInfo_ResponseBroadcastTx.DiscardUnknown(m)
+}
+
+var xxx_messageInfo_ResponseBroadcastTx proto.InternalMessageInfo
func (m *ResponseBroadcastTx) GetCheckTx() *types.ResponseCheckTx {
if m != nil {
@@ -127,6 +241,9 @@ func (this *RequestPing) Equal(that interface{}) bool {
} else if this == nil {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
func (this *RequestBroadcastTx) Equal(that interface{}) bool {
@@ -151,6 +268,9 @@ func (this *RequestBroadcastTx) Equal(that interface{}) bool {
if !bytes.Equal(this.Tx, that1.Tx) {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
func (this *ResponsePing) Equal(that interface{}) bool {
@@ -172,6 +292,9 @@ func (this *ResponsePing) Equal(that interface{}) bool {
} else if this == nil {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
func (this *ResponseBroadcastTx) Equal(that interface{}) bool {
@@ -199,6 +322,9 @@ func (this *ResponseBroadcastTx) Equal(that interface{}) bool {
if !this.DeliverTx.Equal(that1.DeliverTx) {
return false
}
+ if !bytes.Equal(this.XXX_unrecognized, that1.XXX_unrecognized) {
+ return false
+ }
return true
}
@@ -210,8 +336,9 @@ var _ grpc.ClientConn
// is compatible with the grpc package it is being compiled against.
const _ = grpc.SupportPackageIsVersion4
-// Client API for BroadcastAPI service
-
+// BroadcastAPIClient is the client API for BroadcastAPI service.
+//
+// For semantics around ctx use and closing/ending streaming RPCs, please refer to https://godoc.org/google.golang.org/grpc#ClientConn.NewStream.
type BroadcastAPIClient interface {
Ping(ctx context.Context, in *RequestPing, opts ...grpc.CallOption) (*ResponsePing, error)
BroadcastTx(ctx context.Context, in *RequestBroadcastTx, opts ...grpc.CallOption) (*ResponseBroadcastTx, error)
@@ -227,7 +354,7 @@ func NewBroadcastAPIClient(cc *grpc.ClientConn) BroadcastAPIClient {
func (c *broadcastAPIClient) Ping(ctx context.Context, in *RequestPing, opts ...grpc.CallOption) (*ResponsePing, error) {
out := new(ResponsePing)
- err := grpc.Invoke(ctx, "/core_grpc.BroadcastAPI/Ping", in, out, c.cc, opts...)
+ err := c.cc.Invoke(ctx, "/core_grpc.BroadcastAPI/Ping", in, out, opts...)
if err != nil {
return nil, err
}
@@ -236,7 +363,7 @@ func (c *broadcastAPIClient) Ping(ctx context.Context, in *RequestPing, opts ...
func (c *broadcastAPIClient) BroadcastTx(ctx context.Context, in *RequestBroadcastTx, opts ...grpc.CallOption) (*ResponseBroadcastTx, error) {
out := new(ResponseBroadcastTx)
- err := grpc.Invoke(ctx, "/core_grpc.BroadcastAPI/BroadcastTx", in, out, c.cc, opts...)
+ err := c.cc.Invoke(ctx, "/core_grpc.BroadcastAPI/BroadcastTx", in, out, opts...)
if err != nil {
return nil, err
}
@@ -322,6 +449,9 @@ func (m *RequestPing) MarshalTo(dAtA []byte) (int, error) {
_ = i
var l int
_ = l
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -346,6 +476,9 @@ func (m *RequestBroadcastTx) MarshalTo(dAtA []byte) (int, error) {
i = encodeVarintTypes(dAtA, i, uint64(len(m.Tx)))
i += copy(dAtA[i:], m.Tx)
}
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -364,6 +497,9 @@ func (m *ResponsePing) MarshalTo(dAtA []byte) (int, error) {
_ = i
var l int
_ = l
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -402,6 +538,9 @@ func (m *ResponseBroadcastTx) MarshalTo(dAtA []byte) (int, error) {
}
i += n2
}
+ if m.XXX_unrecognized != nil {
+ i += copy(dAtA[i:], m.XXX_unrecognized)
+ }
return i, nil
}
@@ -417,6 +556,7 @@ func encodeVarintTypes(dAtA []byte, offset int, v uint64) int {
func NewPopulatedRequestPing(r randyTypes, easy bool) *RequestPing {
this := &RequestPing{}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 1)
}
return this
}
@@ -429,6 +569,7 @@ func NewPopulatedRequestBroadcastTx(r randyTypes, easy bool) *RequestBroadcastTx
this.Tx[i] = byte(r.Intn(256))
}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 2)
}
return this
}
@@ -436,6 +577,7 @@ func NewPopulatedRequestBroadcastTx(r randyTypes, easy bool) *RequestBroadcastTx
func NewPopulatedResponsePing(r randyTypes, easy bool) *ResponsePing {
this := &ResponsePing{}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 1)
}
return this
}
@@ -449,6 +591,7 @@ func NewPopulatedResponseBroadcastTx(r randyTypes, easy bool) *ResponseBroadcast
this.DeliverTx = types.NewPopulatedResponseDeliverTx(r, easy)
}
if !easy && r.Intn(10) != 0 {
+ this.XXX_unrecognized = randUnrecognizedTypes(r, 3)
}
return this
}
@@ -528,6 +671,9 @@ func encodeVarintPopulateTypes(dAtA []byte, v uint64) []byte {
func (m *RequestPing) Size() (n int) {
var l int
_ = l
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
@@ -538,12 +684,18 @@ func (m *RequestBroadcastTx) Size() (n int) {
if l > 0 {
n += 1 + l + sovTypes(uint64(l))
}
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
func (m *ResponsePing) Size() (n int) {
var l int
_ = l
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
@@ -558,6 +710,9 @@ func (m *ResponseBroadcastTx) Size() (n int) {
l = m.DeliverTx.Size()
n += 1 + l + sovTypes(uint64(l))
}
+ if m.XXX_unrecognized != nil {
+ n += len(m.XXX_unrecognized)
+ }
return n
}
@@ -615,6 +770,7 @@ func (m *RequestPing) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -696,6 +852,7 @@ func (m *RequestBroadcastTx) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -746,6 +903,7 @@ func (m *ResponsePing) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -862,6 +1020,7 @@ func (m *ResponseBroadcastTx) Unmarshal(dAtA []byte) error {
if (iNdEx + skippy) > l {
return io.ErrUnexpectedEOF
}
+ m.XXX_unrecognized = append(m.XXX_unrecognized, dAtA[iNdEx:iNdEx+skippy]...)
iNdEx += skippy
}
}
@@ -976,10 +1135,10 @@ var (
ErrIntOverflowTypes = fmt.Errorf("proto: integer overflow")
)
-func init() { proto.RegisterFile("rpc/grpc/types.proto", fileDescriptorTypes) }
-func init() { golang_proto.RegisterFile("rpc/grpc/types.proto", fileDescriptorTypes) }
+func init() { proto.RegisterFile("rpc/grpc/types.proto", fileDescriptor_types_48bb8d9591d37e66) }
+func init() { golang_proto.RegisterFile("rpc/grpc/types.proto", fileDescriptor_types_48bb8d9591d37e66) }
-var fileDescriptorTypes = []byte{
+var fileDescriptor_types_48bb8d9591d37e66 = []byte{
// 321 bytes of a gzipped FileDescriptorProto
0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xff, 0xe2, 0x12, 0x29, 0x2a, 0x48, 0xd6,
0x4f, 0x07, 0x11, 0x25, 0x95, 0x05, 0xa9, 0xc5, 0x7a, 0x05, 0x45, 0xf9, 0x25, 0xf9, 0x42, 0x9c,
diff --git a/vendor/github.com/tendermint/tendermint/rpc/lib/server/http_server.go b/vendor/github.com/tendermint/tendermint/rpc/lib/server/http_server.go
index 5d816ef22afce1a8d762f70e78bc3efb84e8ff5a..ff7173a101ec45dc0bfe54f653f3a61419fa6490 100644
--- a/vendor/github.com/tendermint/tendermint/rpc/lib/server/http_server.go
+++ b/vendor/github.com/tendermint/tendermint/rpc/lib/server/http_server.go
@@ -14,8 +14,8 @@ import (
"github.com/pkg/errors"
"golang.org/x/net/netutil"
- types "github.com/tendermint/tendermint/rpc/lib/types"
"github.com/tendermint/tendermint/libs/log"
+ types "github.com/tendermint/tendermint/rpc/lib/types"
)
// Config is an RPC server configuration.
@@ -61,7 +61,7 @@ func StartHTTPServer(
listener,
RecoverAndLogHandler(maxBytesHandler{h: handler, n: maxBodyBytes}, logger),
)
- logger.Error("RPC HTTP server stopped", "err", err)
+ logger.Info("RPC HTTP server stopped", "err", err)
}()
return listener, nil
}
diff --git a/vendor/github.com/tendermint/tendermint/state/errors.go b/vendor/github.com/tendermint/tendermint/state/errors.go
index d40c7e1413d3c5a536719cb3c2b05c1b90b0df51..6010ed9bbd647ac9190591ebad04b76e39f45f86 100644
--- a/vendor/github.com/tendermint/tendermint/state/errors.go
+++ b/vendor/github.com/tendermint/tendermint/state/errors.go
@@ -1,8 +1,6 @@
package state
-import (
- cmn "github.com/tendermint/tendermint/libs/common"
-)
+import "fmt"
type (
ErrInvalidBlock error
@@ -48,32 +46,32 @@ type (
)
func (e ErrUnknownBlock) Error() string {
- return cmn.Fmt("Could not find block #%d", e.Height)
+ return fmt.Sprintf("Could not find block #%d", e.Height)
}
func (e ErrBlockHashMismatch) Error() string {
- return cmn.Fmt("App block hash (%X) does not match core block hash (%X) for height %d", e.AppHash, e.CoreHash, e.Height)
+ return fmt.Sprintf("App block hash (%X) does not match core block hash (%X) for height %d", e.AppHash, e.CoreHash, e.Height)
}
func (e ErrAppBlockHeightTooHigh) Error() string {
- return cmn.Fmt("App block height (%d) is higher than core (%d)", e.AppHeight, e.CoreHeight)
+ return fmt.Sprintf("App block height (%d) is higher than core (%d)", e.AppHeight, e.CoreHeight)
}
func (e ErrLastStateMismatch) Error() string {
- return cmn.Fmt("Latest tendermint block (%d) LastAppHash (%X) does not match app's AppHash (%X)", e.Height, e.Core, e.App)
+ return fmt.Sprintf("Latest tendermint block (%d) LastAppHash (%X) does not match app's AppHash (%X)", e.Height, e.Core, e.App)
}
func (e ErrStateMismatch) Error() string {
- return cmn.Fmt("State after replay does not match saved state. Got ----\n%v\nExpected ----\n%v\n", e.Got, e.Expected)
+ return fmt.Sprintf("State after replay does not match saved state. Got ----\n%v\nExpected ----\n%v\n", e.Got, e.Expected)
}
func (e ErrNoValSetForHeight) Error() string {
- return cmn.Fmt("Could not find validator set for height #%d", e.Height)
+ return fmt.Sprintf("Could not find validator set for height #%d", e.Height)
}
func (e ErrNoConsensusParamsForHeight) Error() string {
- return cmn.Fmt("Could not find consensus params for height #%d", e.Height)
+ return fmt.Sprintf("Could not find consensus params for height #%d", e.Height)
}
func (e ErrNoABCIResponsesForHeight) Error() string {
- return cmn.Fmt("Could not find results for height #%d", e.Height)
+ return fmt.Sprintf("Could not find results for height #%d", e.Height)
}
diff --git a/vendor/github.com/tendermint/tendermint/state/execution.go b/vendor/github.com/tendermint/tendermint/state/execution.go
index 54e1ec73ae04de0cad695bb74625e33ab2e1acf9..b1859c2205047dea0bbfe96fb3291177ec92467f 100644
--- a/vendor/github.com/tendermint/tendermint/state/execution.go
+++ b/vendor/github.com/tendermint/tendermint/state/execution.go
@@ -80,19 +80,19 @@ func (blockExec *BlockExecutor) ApplyBlock(state State, blockID types.BlockID, b
fail.Fail() // XXX
- // save the results before we commit
+ // Save the results before we commit.
saveABCIResponses(blockExec.db, block.Height, abciResponses)
fail.Fail() // XXX
- // update the state with the block and responses
+ // Update the state with the block and responses.
state, err = updateState(state, blockID, &block.Header, abciResponses)
if err != nil {
return state, fmt.Errorf("Commit failed for application: %v", err)
}
- // lock mempool, commit app state, update mempoool
- appHash, err := blockExec.Commit(block)
+ // Lock mempool, commit app state, update mempoool.
+ appHash, err := blockExec.Commit(state, block)
if err != nil {
return state, fmt.Errorf("Commit failed for application: %v", err)
}
@@ -102,13 +102,13 @@ func (blockExec *BlockExecutor) ApplyBlock(state State, blockID types.BlockID, b
fail.Fail() // XXX
- // update the app hash and save the state
+ // Update the app hash and save the state.
state.AppHash = appHash
SaveState(blockExec.db, state)
fail.Fail() // XXX
- // events are fired after everything else
+ // Events are fired after everything else.
// NOTE: if we crash between Commit and Save, events wont be fired during replay
fireEvents(blockExec.logger, blockExec.eventBus, block, abciResponses)
@@ -119,7 +119,7 @@ func (blockExec *BlockExecutor) ApplyBlock(state State, blockID types.BlockID, b
// It returns the result of calling abci.Commit (the AppHash), and an error.
// The Mempool must be locked during commit and update because state is typically reset on Commit and old txs must be replayed
// against committed state before new txs are run in the mempool, lest they be invalid.
-func (blockExec *BlockExecutor) Commit(block *types.Block) ([]byte, error) {
+func (blockExec *BlockExecutor) Commit(state State, block *types.Block) ([]byte, error) {
blockExec.mempool.Lock()
defer blockExec.mempool.Unlock()
@@ -145,7 +145,9 @@ func (blockExec *BlockExecutor) Commit(block *types.Block) ([]byte, error) {
"appHash", fmt.Sprintf("%X", res.Data))
// Update mempool.
- if err := blockExec.mempool.Update(block.Height, block.Txs); err != nil {
+ maxBytes := state.ConsensusParams.TxSize.MaxBytes
+ filter := func(tx types.Tx) bool { return len(tx) <= maxBytes }
+ if err := blockExec.mempool.Update(block.Height, block.Txs, filter); err != nil {
return nil, err
}
@@ -164,7 +166,7 @@ func execBlockOnProxyApp(logger log.Logger, proxyAppConn proxy.AppConnConsensus,
txIndex := 0
abciResponses := NewABCIResponses(block)
- // Execute transactions and get hash
+ // Execute transactions and get hash.
proxyCb := func(req *abci.Request, res *abci.Response) {
switch r := res.Value.(type) {
case *abci.Response_DeliverTx:
@@ -184,16 +186,13 @@ func execBlockOnProxyApp(logger log.Logger, proxyAppConn proxy.AppConnConsensus,
}
proxyAppConn.SetResponseCallback(proxyCb)
- signVals, byzVals := getBeginBlockValidatorInfo(block, lastValSet, stateDB)
+ commitInfo, byzVals := getBeginBlockValidatorInfo(block, lastValSet, stateDB)
- // Begin block
+ // Begin block.
_, err := proxyAppConn.BeginBlockSync(abci.RequestBeginBlock{
- Hash: block.Hash(),
- Header: types.TM2PB.Header(&block.Header),
- LastCommitInfo: abci.LastCommitInfo{
- CommitRound: int32(block.LastCommit.Round()),
- Validators: signVals,
- },
+ Hash: block.Hash(),
+ Header: types.TM2PB.Header(&block.Header),
+ LastCommitInfo: commitInfo,
ByzantineValidators: byzVals,
})
if err != nil {
@@ -201,7 +200,7 @@ func execBlockOnProxyApp(logger log.Logger, proxyAppConn proxy.AppConnConsensus,
return nil, err
}
- // Run txs of block
+ // Run txs of block.
for _, tx := range block.Txs {
proxyAppConn.DeliverTxAsync(tx)
if err := proxyAppConn.Error(); err != nil {
@@ -209,7 +208,7 @@ func execBlockOnProxyApp(logger log.Logger, proxyAppConn proxy.AppConnConsensus,
}
}
- // End block
+ // End block.
abciResponses.EndBlock, err = proxyAppConn.EndBlockSync(abci.RequestEndBlock{Height: block.Height})
if err != nil {
logger.Error("Error in proxyAppConn.EndBlock", "err", err)
@@ -220,13 +219,14 @@ func execBlockOnProxyApp(logger log.Logger, proxyAppConn proxy.AppConnConsensus,
valUpdates := abciResponses.EndBlock.ValidatorUpdates
if len(valUpdates) > 0 {
- logger.Info("Updates to validators", "updates", abci.ValidatorsString(valUpdates))
+ // TODO: cleanup the formatting
+ logger.Info("Updates to validators", "updates", valUpdates)
}
return abciResponses, nil
}
-func getBeginBlockValidatorInfo(block *types.Block, lastValSet *types.ValidatorSet, stateDB dbm.DB) ([]abci.SigningValidator, []abci.Evidence) {
+func getBeginBlockValidatorInfo(block *types.Block, lastValSet *types.ValidatorSet, stateDB dbm.DB) (abci.LastCommitInfo, []abci.Evidence) {
// Sanity check that commit length matches validator set size -
// only applies after first block
@@ -240,18 +240,23 @@ func getBeginBlockValidatorInfo(block *types.Block, lastValSet *types.ValidatorS
}
}
- // determine which validators did not sign last block.
- signVals := make([]abci.SigningValidator, len(lastValSet.Validators))
+ // Collect the vote info (list of validators and whether or not they signed).
+ voteInfos := make([]abci.VoteInfo, len(lastValSet.Validators))
for i, val := range lastValSet.Validators {
var vote *types.Vote
if i < len(block.LastCommit.Precommits) {
vote = block.LastCommit.Precommits[i]
}
- val := abci.SigningValidator{
- Validator: types.TM2PB.ValidatorWithoutPubKey(val),
+ voteInfo := abci.VoteInfo{
+ Validator: types.TM2PB.Validator(val),
SignedLastBlock: vote != nil,
}
- signVals[i] = val
+ voteInfos[i] = voteInfo
+ }
+
+ commitInfo := abci.LastCommitInfo{
+ Round: int32(block.LastCommit.Round()),
+ Votes: voteInfos,
}
byzVals := make([]abci.Evidence, len(block.Evidence.Evidence))
@@ -266,15 +271,15 @@ func getBeginBlockValidatorInfo(block *types.Block, lastValSet *types.ValidatorS
byzVals[i] = types.TM2PB.Evidence(ev, valset, block.Time)
}
- return signVals, byzVals
+ return commitInfo, byzVals
}
// If more or equal than 1/3 of total voting power changed in one block, then
// a light client could never prove the transition externally. See
// ./lite/doc.go for details on how a light client tracks validators.
-func updateValidators(currentSet *types.ValidatorSet, abciUpdates []abci.Validator) error {
- updates, err := types.PB2TM.Validators(abciUpdates)
+func updateValidators(currentSet *types.ValidatorSet, abciUpdates []abci.ValidatorUpdate) error {
+ updates, err := types.PB2TM.ValidatorUpdates(abciUpdates)
if err != nil {
return err
}
@@ -314,26 +319,25 @@ func updateValidators(currentSet *types.ValidatorSet, abciUpdates []abci.Validat
func updateState(state State, blockID types.BlockID, header *types.Header,
abciResponses *ABCIResponses) (State, error) {
- // copy the valset so we can apply changes from EndBlock
- // and update s.LastValidators and s.Validators
- prevValSet := state.Validators.Copy()
- nextValSet := prevValSet.Copy()
+ // Copy the valset so we can apply changes from EndBlock
+ // and update s.LastValidators and s.Validators.
+ nValSet := state.NextValidators.Copy()
- // update the validator set with the latest abciResponses
+ // Update the validator set with the latest abciResponses.
lastHeightValsChanged := state.LastHeightValidatorsChanged
if len(abciResponses.EndBlock.ValidatorUpdates) > 0 {
- err := updateValidators(nextValSet, abciResponses.EndBlock.ValidatorUpdates)
+ err := updateValidators(nValSet, abciResponses.EndBlock.ValidatorUpdates)
if err != nil {
return state, fmt.Errorf("Error changing validator set: %v", err)
}
- // change results from this height but only applies to the next height
- lastHeightValsChanged = header.Height + 1
+ // Change results from this height but only applies to the next next height.
+ lastHeightValsChanged = header.Height + 1 + 1
}
- // Update validator accums and set state variables
- nextValSet.IncrementAccum(1)
+ // Update validator accums and set state variables.
+ nValSet.IncrementAccum(1)
- // update the params with the latest abciResponses
+ // Update the params with the latest abciResponses.
nextParams := state.ConsensusParams
lastHeightParamsChanged := state.LastHeightConsensusParamsChanged
if abciResponses.EndBlock.ConsensusParamUpdates != nil {
@@ -343,7 +347,7 @@ func updateState(state State, blockID types.BlockID, header *types.Header,
if err != nil {
return state, fmt.Errorf("Error updating consensus params: %v", err)
}
- // change results from this height but only applies to the next height
+ // Change results from this height but only applies to the next height.
lastHeightParamsChanged = header.Height + 1
}
@@ -355,7 +359,8 @@ func updateState(state State, blockID types.BlockID, header *types.Header,
LastBlockTotalTx: state.LastBlockTotalTx + header.NumTxs,
LastBlockID: blockID,
LastBlockTime: header.Time,
- Validators: nextValSet,
+ NextValidators: nValSet,
+ Validators: state.NextValidators.Copy(),
LastValidators: state.Validators.Copy(),
LastHeightValidatorsChanged: lastHeightValsChanged,
ConsensusParams: nextParams,
@@ -380,6 +385,14 @@ func fireEvents(logger log.Logger, eventBus types.BlockEventPublisher, block *ty
Result: *(abciResponses.DeliverTx[i]),
}})
}
+
+ abciValUpdates := abciResponses.EndBlock.ValidatorUpdates
+ if len(abciValUpdates) > 0 {
+ // if there were an error, we would've stopped in updateValidators
+ updates, _ := types.PB2TM.ValidatorUpdates(abciValUpdates)
+ eventBus.PublishEventValidatorSetUpdates(
+ types.EventDataValidatorSetUpdates{ValidatorUpdates: updates})
+ }
}
//----------------------------------------------------------------------------------------------------
diff --git a/vendor/github.com/tendermint/tendermint/state/services.go b/vendor/github.com/tendermint/tendermint/state/services.go
index c51fa97521a70f7da81ac48dac5620ab1f09dfef..13ab7383ff235bde6594d955b543f9259544d879 100644
--- a/vendor/github.com/tendermint/tendermint/state/services.go
+++ b/vendor/github.com/tendermint/tendermint/state/services.go
@@ -22,8 +22,8 @@ type Mempool interface {
Size() int
CheckTx(types.Tx, func(*abci.Response)) error
- Reap(int) types.Txs
- Update(height int64, txs types.Txs) error
+ ReapMaxBytes(max int) types.Txs
+ Update(height int64, txs types.Txs, filter func(types.Tx) bool) error
Flush()
FlushAppConn() error
@@ -32,19 +32,18 @@ type Mempool interface {
}
// MockMempool is an empty implementation of a Mempool, useful for testing.
-type MockMempool struct {
-}
-
-func (m MockMempool) Lock() {}
-func (m MockMempool) Unlock() {}
-func (m MockMempool) Size() int { return 0 }
-func (m MockMempool) CheckTx(tx types.Tx, cb func(*abci.Response)) error { return nil }
-func (m MockMempool) Reap(n int) types.Txs { return types.Txs{} }
-func (m MockMempool) Update(height int64, txs types.Txs) error { return nil }
-func (m MockMempool) Flush() {}
-func (m MockMempool) FlushAppConn() error { return nil }
-func (m MockMempool) TxsAvailable() <-chan struct{} { return make(chan struct{}) }
-func (m MockMempool) EnableTxsAvailable() {}
+type MockMempool struct{}
+
+func (MockMempool) Lock() {}
+func (MockMempool) Unlock() {}
+func (MockMempool) Size() int { return 0 }
+func (MockMempool) CheckTx(tx types.Tx, cb func(*abci.Response)) error { return nil }
+func (MockMempool) ReapMaxBytes(max int) types.Txs { return types.Txs{} }
+func (MockMempool) Update(height int64, txs types.Txs, filter func(types.Tx) bool) error { return nil }
+func (MockMempool) Flush() {}
+func (MockMempool) FlushAppConn() error { return nil }
+func (MockMempool) TxsAvailable() <-chan struct{} { return make(chan struct{}) }
+func (MockMempool) EnableTxsAvailable() {}
//------------------------------------------------------
// blockstore
@@ -72,15 +71,14 @@ type BlockStore interface {
// EvidencePool defines the EvidencePool interface used by the ConsensusState.
type EvidencePool interface {
- PendingEvidence() []types.Evidence
+ PendingEvidence(int) []types.Evidence
AddEvidence(types.Evidence) error
Update(*types.Block, State)
}
// MockMempool is an empty implementation of a Mempool, useful for testing.
-type MockEvidencePool struct {
-}
+type MockEvidencePool struct{}
-func (m MockEvidencePool) PendingEvidence() []types.Evidence { return nil }
-func (m MockEvidencePool) AddEvidence(types.Evidence) error { return nil }
-func (m MockEvidencePool) Update(*types.Block, State) {}
+func (m MockEvidencePool) PendingEvidence(int) []types.Evidence { return nil }
+func (m MockEvidencePool) AddEvidence(types.Evidence) error { return nil }
+func (m MockEvidencePool) Update(*types.Block, State) {}
diff --git a/vendor/github.com/tendermint/tendermint/state/state.go b/vendor/github.com/tendermint/tendermint/state/state.go
index fb589a2404b956922a57b724cbe5ae8f2518ea04..10da67e929ea0aea0c531b56c4ab4d75d981cca3 100644
--- a/vendor/github.com/tendermint/tendermint/state/state.go
+++ b/vendor/github.com/tendermint/tendermint/state/state.go
@@ -7,6 +7,7 @@ import (
"time"
"github.com/tendermint/tendermint/types"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
// database keys
@@ -24,7 +25,7 @@ var (
// Instead, use state.Copy() or state.NextState(...).
// NOTE: not goroutine-safe.
type State struct {
- // Immutable
+ // immutable
ChainID string
// LastBlockHeight=0 at genesis (ie. block(H=0) does not exist)
@@ -38,6 +39,7 @@ type State struct {
// so we can query for historical validator sets.
// Note that if s.LastBlockHeight causes a valset change,
// we set s.LastHeightValidatorsChanged = s.LastBlockHeight + 1
+ NextValidators *types.ValidatorSet
Validators *types.ValidatorSet
LastValidators *types.ValidatorSet
LastHeightValidatorsChanged int64
@@ -50,7 +52,7 @@ type State struct {
// Merkle root of the results from executing prev block
LastResultsHash []byte
- // The latest AppHash we've received from calling abci.Commit()
+ // the latest AppHash we've received from calling abci.Commit()
AppHash []byte
}
@@ -64,6 +66,7 @@ func (state State) Copy() State {
LastBlockID: state.LastBlockID,
LastBlockTime: state.LastBlockTime,
+ NextValidators: state.NextValidators.Copy(),
Validators: state.Validators.Copy(),
LastValidators: state.LastValidators.Copy(),
LastHeightValidatorsChanged: state.LastHeightValidatorsChanged,
@@ -93,20 +96,18 @@ func (state State) IsEmpty() bool {
return state.Validators == nil // XXX can't compare to Empty
}
-// GetValidators returns the last and current validator sets.
-func (state State) GetValidators() (last *types.ValidatorSet, current *types.ValidatorSet) {
- return state.LastValidators, state.Validators
-}
-
//------------------------------------------------------------------------
// Create a block from the latest state
-// MakeBlock builds a block from the current state with the given txs, commit, and evidence.
+// MakeBlock builds a block from the current state with the given txs, commit,
+// and evidence. Note it also takes a proposerAddress because the state does not
+// track rounds, and hence doesn't know the correct proposer. TODO: alleviate this!
func (state State) MakeBlock(
height int64,
txs []types.Tx,
commit *types.Commit,
evidence []types.Evidence,
+ proposerAddress []byte,
) (*types.Block, *types.PartSet) {
// Build base block with block data.
@@ -115,17 +116,52 @@ func (state State) MakeBlock(
// Fill rest of header with state data.
block.ChainID = state.ChainID
+ // Set time
+ if height == 1 {
+ block.Time = tmtime.Now()
+ if block.Time.Before(state.LastBlockTime) {
+ block.Time = state.LastBlockTime // state.LastBlockTime for height == 1 is genesis time
+ }
+ } else {
+ block.Time = MedianTime(commit, state.LastValidators)
+ }
+
block.LastBlockID = state.LastBlockID
block.TotalTxs = state.LastBlockTotalTx + block.NumTxs
block.ValidatorsHash = state.Validators.Hash()
+ block.NextValidatorsHash = state.NextValidators.Hash()
block.ConsensusHash = state.ConsensusParams.Hash()
block.AppHash = state.AppHash
block.LastResultsHash = state.LastResultsHash
+ // NOTE: we can't use the state.Validators because we don't
+ // IncrementAccum for rounds there.
+ block.ProposerAddress = proposerAddress
+
return block, block.MakePartSet(state.ConsensusParams.BlockGossip.BlockPartSizeBytes)
}
+// MedianTime computes a median time for a given Commit (based on Timestamp field of votes messages) and the
+// corresponding validator set. The computed time is always between timestamps of
+// the votes sent by honest processes, i.e., a faulty processes can not arbitrarily increase or decrease the
+// computed value.
+func MedianTime(commit *types.Commit, validators *types.ValidatorSet) time.Time {
+
+ weightedTimes := make([]*tmtime.WeightedTime, len(commit.Precommits))
+ totalVotingPower := int64(0)
+
+ for i, vote := range commit.Precommits {
+ if vote != nil {
+ _, validator := validators.GetByIndex(vote.ValidatorIndex)
+ totalVotingPower += validator.VotingPower
+ weightedTimes[i] = tmtime.NewWeightedTime(vote.Timestamp, validator.VotingPower)
+ }
+ }
+
+ return tmtime.WeightedMedian(weightedTimes, totalVotingPower)
+}
+
//------------------------------------------------------------------------
// Genesis
@@ -183,6 +219,7 @@ func MakeGenesisState(genDoc *types.GenesisDoc) (State, error) {
LastBlockID: types.BlockID{},
LastBlockTime: genDoc.GenesisTime,
+ NextValidators: types.NewValidatorSet(validators).CopyIncrementAccum(1),
Validators: types.NewValidatorSet(validators),
LastValidators: types.NewValidatorSet(nil),
LastHeightValidatorsChanged: 1,
diff --git a/vendor/github.com/tendermint/tendermint/state/store.go b/vendor/github.com/tendermint/tendermint/state/store.go
index 3a1a6231b73decd9e3f61c690cb114496133c724..2f90c747ea379a3ec1d9e86925ec004f87081c80 100644
--- a/vendor/github.com/tendermint/tendermint/state/store.go
+++ b/vendor/github.com/tendermint/tendermint/state/store.go
@@ -12,15 +12,15 @@ import (
//------------------------------------------------------------------------
func calcValidatorsKey(height int64) []byte {
- return []byte(cmn.Fmt("validatorsKey:%v", height))
+ return []byte(fmt.Sprintf("validatorsKey:%v", height))
}
func calcConsensusParamsKey(height int64) []byte {
- return []byte(cmn.Fmt("consensusParamsKey:%v", height))
+ return []byte(fmt.Sprintf("consensusParamsKey:%v", height))
}
func calcABCIResponsesKey(height int64) []byte {
- return []byte(cmn.Fmt("abciResponsesKey:%v", height))
+ return []byte(fmt.Sprintf("abciResponsesKey:%v", height))
}
// LoadStateFromDBOrGenesisFile loads the most recent state from the database,
@@ -71,7 +71,7 @@ func loadState(db dbm.DB, key []byte) (state State) {
err := cdc.UnmarshalBinaryBare(buf, &state)
if err != nil {
// DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED
- cmn.Exit(cmn.Fmt(`LoadState: Data has been corrupted or its spec has changed:
+ cmn.Exit(fmt.Sprintf(`LoadState: Data has been corrupted or its spec has changed:
%v\n`, err))
}
// TODO: ensure that buf is completely read.
@@ -87,7 +87,14 @@ func SaveState(db dbm.DB, state State) {
func saveState(db dbm.DB, state State, key []byte) {
nextHeight := state.LastBlockHeight + 1
- saveValidatorsInfo(db, nextHeight, state.LastHeightValidatorsChanged, state.Validators)
+ // If first block, save validators for block 1.
+ if nextHeight == 1 {
+ lastHeightVoteChanged := int64(1) // Due to Tendermint validator set changes being delayed 1 block.
+ saveValidatorsInfo(db, nextHeight, lastHeightVoteChanged, state.Validators)
+ }
+ // Save next validators.
+ saveValidatorsInfo(db, nextHeight+1, state.LastHeightValidatorsChanged, state.NextValidators)
+ // Save next consensus params.
saveConsensusParamsInfo(db, nextHeight, state.LastHeightConsensusParamsChanged, state.ConsensusParams)
db.SetSync(stateKey, state.Bytes())
}
@@ -137,7 +144,7 @@ func LoadABCIResponses(db dbm.DB, height int64) (*ABCIResponses, error) {
err := cdc.UnmarshalBinaryBare(buf, abciResponses)
if err != nil {
// DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED
- cmn.Exit(cmn.Fmt(`LoadABCIResponses: Data has been corrupted or its spec has
+ cmn.Exit(fmt.Sprintf(`LoadABCIResponses: Data has been corrupted or its spec has
changed: %v\n`, err))
}
// TODO: ensure that buf is completely read.
@@ -200,7 +207,7 @@ func loadValidatorsInfo(db dbm.DB, height int64) *ValidatorsInfo {
err := cdc.UnmarshalBinaryBare(buf, v)
if err != nil {
// DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED
- cmn.Exit(cmn.Fmt(`LoadValidators: Data has been corrupted or its spec has changed:
+ cmn.Exit(fmt.Sprintf(`LoadValidators: Data has been corrupted or its spec has changed:
%v\n`, err))
}
// TODO: ensure that buf is completely read.
@@ -271,7 +278,7 @@ func loadConsensusParamsInfo(db dbm.DB, height int64) *ConsensusParamsInfo {
err := cdc.UnmarshalBinaryBare(buf, paramsInfo)
if err != nil {
// DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED
- cmn.Exit(cmn.Fmt(`LoadConsensusParams: Data has been corrupted or its spec has changed:
+ cmn.Exit(fmt.Sprintf(`LoadConsensusParams: Data has been corrupted or its spec has changed:
%v\n`, err))
}
// TODO: ensure that buf is completely read.
diff --git a/vendor/github.com/tendermint/tendermint/state/txindex/kv/kv.go b/vendor/github.com/tendermint/tendermint/state/txindex/kv/kv.go
index 707325929aa5e0fc1b20491cec0c01906ba822b2..363ab1193ec8030d72ee6d8f61605b3dabda8a4c 100644
--- a/vendor/github.com/tendermint/tendermint/state/txindex/kv/kv.go
+++ b/vendor/github.com/tendermint/tendermint/state/txindex/kv/kv.go
@@ -89,6 +89,11 @@ func (txi *TxIndex) AddBatch(b *txindex.Batch) error {
}
}
+ // index tx by height
+ if txi.indexAllTags || cmn.StringInSlice(types.TxHeightKey, txi.tagsToIndex) {
+ storeBatch.Set(keyForHeight(result), hash)
+ }
+
// index tx by hash
rawBytes, err := cdc.MarshalBinaryBare(result)
if err != nil {
@@ -114,6 +119,11 @@ func (txi *TxIndex) Index(result *types.TxResult) error {
}
}
+ // index tx by height
+ if txi.indexAllTags || cmn.StringInSlice(types.TxHeightKey, txi.tagsToIndex) {
+ b.Set(keyForHeight(result), hash)
+ }
+
// index tx by hash
rawBytes, err := cdc.MarshalBinaryBare(result)
if err != nil {
@@ -153,12 +163,6 @@ func (txi *TxIndex) Search(q *query.Query) ([]*types.TxResult, error) {
// conditions to skip because they're handled before "everything else"
skipIndexes := make([]int, 0)
- // if there is a height condition ("tx.height=3"), extract it for faster lookups
- height, heightIndex := lookForHeight(conditions)
- if heightIndex >= 0 {
- skipIndexes = append(skipIndexes, heightIndex)
- }
-
// extract ranges
// if both upper and lower bounds exist, it's better to get them in order not
// no iterate over kvs that are not within range.
@@ -176,6 +180,9 @@ func (txi *TxIndex) Search(q *query.Query) ([]*types.TxResult, error) {
}
}
+ // if there is a height condition ("tx.height=3"), extract it
+ height := lookForHeight(conditions)
+
// for all other conditions
for i, c := range conditions {
if cmn.IntInSlice(i, skipIndexes) {
@@ -218,13 +225,13 @@ func lookForHash(conditions []query.Condition) (hash []byte, err error, ok bool)
return
}
-func lookForHeight(conditions []query.Condition) (height int64, index int) {
- for i, c := range conditions {
+func lookForHeight(conditions []query.Condition) (height int64) {
+ for _, c := range conditions {
if c.Tag == types.TxHeightKey {
- return c.Operand.(int64), i
+ return c.Operand.(int64)
}
}
- return 0, -1
+ return 0
}
// special map to hold range conditions
@@ -421,6 +428,10 @@ func keyForTag(tag cmn.KVPair, result *types.TxResult) []byte {
return []byte(fmt.Sprintf("%s/%s/%d/%d", tag.Key, tag.Value, result.Height, result.Index))
}
+func keyForHeight(result *types.TxResult) []byte {
+ return []byte(fmt.Sprintf("%s/%d/%d/%d", types.TxHeightKey, result.Height, result.Height, result.Index))
+}
+
///////////////////////////////////////////////////////////////////////////////
// Utils
diff --git a/vendor/github.com/tendermint/tendermint/state/validation.go b/vendor/github.com/tendermint/tendermint/state/validation.go
index c36339203222014e3bcdb9f2fbc0ff53821be7eb..ccfe1ef127a85d619880d9657a62d1ef7f6e0ad3 100644
--- a/vendor/github.com/tendermint/tendermint/state/validation.go
+++ b/vendor/github.com/tendermint/tendermint/state/validation.go
@@ -5,55 +5,84 @@ import (
"errors"
"fmt"
- "github.com/tendermint/tendermint/types"
+ "github.com/tendermint/tendermint/crypto/tmhash"
dbm "github.com/tendermint/tendermint/libs/db"
+ "github.com/tendermint/tendermint/types"
)
//-----------------------------------------------------
// Validate block
func validateBlock(stateDB dbm.DB, state State, block *types.Block) error {
- // validate internal consistency
+ // Validate internal consistency.
if err := block.ValidateBasic(); err != nil {
return err
}
- // validate basic info
+ // Validate basic info.
if block.ChainID != state.ChainID {
- return fmt.Errorf("Wrong Block.Header.ChainID. Expected %v, got %v", state.ChainID, block.ChainID)
+ return fmt.Errorf(
+ "Wrong Block.Header.ChainID. Expected %v, got %v",
+ state.ChainID,
+ block.ChainID,
+ )
}
if block.Height != state.LastBlockHeight+1 {
- return fmt.Errorf("Wrong Block.Header.Height. Expected %v, got %v", state.LastBlockHeight+1, block.Height)
+ return fmt.Errorf(
+ "Wrong Block.Header.Height. Expected %v, got %v",
+ state.LastBlockHeight+1,
+ block.Height,
+ )
}
- /* TODO: Determine bounds for Time
- See blockchain/reactor "stopSyncingDurationMinutes"
-
- if !block.Time.After(lastBlockTime) {
- return errors.New("Invalid Block.Header.Time")
- }
- */
- // validate prev block info
+ // Validate prev block info.
if !block.LastBlockID.Equals(state.LastBlockID) {
- return fmt.Errorf("Wrong Block.Header.LastBlockID. Expected %v, got %v", state.LastBlockID, block.LastBlockID)
+ return fmt.Errorf(
+ "Wrong Block.Header.LastBlockID. Expected %v, got %v",
+ state.LastBlockID,
+ block.LastBlockID,
+ )
}
newTxs := int64(len(block.Data.Txs))
if block.TotalTxs != state.LastBlockTotalTx+newTxs {
- return fmt.Errorf("Wrong Block.Header.TotalTxs. Expected %v, got %v", state.LastBlockTotalTx+newTxs, block.TotalTxs)
+ return fmt.Errorf(
+ "Wrong Block.Header.TotalTxs. Expected %v, got %v",
+ state.LastBlockTotalTx+newTxs,
+ block.TotalTxs,
+ )
}
- // validate app info
+ // Validate app info
if !bytes.Equal(block.AppHash, state.AppHash) {
- return fmt.Errorf("Wrong Block.Header.AppHash. Expected %X, got %v", state.AppHash, block.AppHash)
+ return fmt.Errorf(
+ "Wrong Block.Header.AppHash. Expected %X, got %v",
+ state.AppHash,
+ block.AppHash,
+ )
}
if !bytes.Equal(block.ConsensusHash, state.ConsensusParams.Hash()) {
- return fmt.Errorf("Wrong Block.Header.ConsensusHash. Expected %X, got %v", state.ConsensusParams.Hash(), block.ConsensusHash)
+ return fmt.Errorf(
+ "Wrong Block.Header.ConsensusHash. Expected %X, got %v",
+ state.ConsensusParams.Hash(),
+ block.ConsensusHash,
+ )
}
if !bytes.Equal(block.LastResultsHash, state.LastResultsHash) {
- return fmt.Errorf("Wrong Block.Header.LastResultsHash. Expected %X, got %v", state.LastResultsHash, block.LastResultsHash)
+ return fmt.Errorf(
+ "Wrong Block.Header.LastResultsHash. Expected %X, got %v",
+ state.LastResultsHash,
+ block.LastResultsHash,
+ )
}
if !bytes.Equal(block.ValidatorsHash, state.Validators.Hash()) {
- return fmt.Errorf("Wrong Block.Header.ValidatorsHash. Expected %X, got %v", state.Validators.Hash(), block.ValidatorsHash)
+ return fmt.Errorf(
+ "Wrong Block.Header.ValidatorsHash. Expected %X, got %v",
+ state.Validators.Hash(),
+ block.ValidatorsHash,
+ )
+ }
+ if !bytes.Equal(block.NextValidatorsHash, state.NextValidators.Hash()) {
+ return fmt.Errorf("Wrong Block.Header.NextValidatorsHash. Expected %X, got %v", state.NextValidators.Hash(), block.NextValidatorsHash)
}
// Validate block LastCommit.
@@ -63,8 +92,11 @@ func validateBlock(stateDB dbm.DB, state State, block *types.Block) error {
}
} else {
if len(block.LastCommit.Precommits) != state.LastValidators.Size() {
- return fmt.Errorf("Invalid block commit size. Expected %v, got %v",
- state.LastValidators.Size(), len(block.LastCommit.Precommits))
+ return fmt.Errorf(
+ "Invalid block commit size. Expected %v, got %v",
+ state.LastValidators.Size(),
+ len(block.LastCommit.Precommits),
+ )
}
err := state.LastValidators.VerifyCommit(
state.ChainID, state.LastBlockID, block.Height-1, block.LastCommit)
@@ -73,6 +105,27 @@ func validateBlock(stateDB dbm.DB, state State, block *types.Block) error {
}
}
+ // Validate block Time
+ if block.Height > 1 {
+ if !block.Time.After(state.LastBlockTime) {
+ return fmt.Errorf(
+ "Block time %v not greater than last block time %v",
+ block.Time,
+ state.LastBlockTime,
+ )
+ }
+
+ medianTime := MedianTime(block.LastCommit, state.LastValidators)
+ if !block.Time.Equal(medianTime) {
+ return fmt.Errorf(
+ "Invalid block time. Expected %v, got %v",
+ medianTime,
+ block.Time,
+ )
+ }
+ }
+
+ // Validate all evidence.
// TODO: Each check requires loading an old validator set.
// We should cap the amount of evidence per block
// to prevent potential proposer DoS.
@@ -82,6 +135,17 @@ func validateBlock(stateDB dbm.DB, state State, block *types.Block) error {
}
}
+ // NOTE: We can't actually verify it's the right proposer because we dont
+ // know what round the block was first proposed. So just check that it's
+ // a legit address and a known validator.
+ if len(block.ProposerAddress) != tmhash.Size ||
+ !state.Validators.HasAddress(block.ProposerAddress) {
+ return fmt.Errorf(
+ "Block.Header.ProposerAddress, %X, is not a validator",
+ block.ProposerAddress,
+ )
+ }
+
return nil
}
diff --git a/vendor/github.com/tendermint/tendermint/types/block.go b/vendor/github.com/tendermint/tendermint/types/block.go
index 304e8bdee4ecf44cbeb47a456756222b784cb74a..d0a1a826f558527580023c5fce13b5f5e3a3977e 100644
--- a/vendor/github.com/tendermint/tendermint/types/block.go
+++ b/vendor/github.com/tendermint/tendermint/types/block.go
@@ -13,6 +13,20 @@ import (
cmn "github.com/tendermint/tendermint/libs/common"
)
+const (
+ // MaxHeaderBytes is a maximum header size (including amino overhead).
+ MaxHeaderBytes = 511
+
+ // MaxAminoOverheadForBlock - maximum amino overhead to encode a block (up to
+ // MaxBlockSizeBytes in size) not including it's parts except Data.
+ //
+ // Uvarint length of MaxBlockSizeBytes: 4 bytes
+ // 2 fields (2 embedded): 2 bytes
+ // Uvarint length of Data.Txs: 4 bytes
+ // Data.Txs field: 1 byte
+ MaxAminoOverheadForBlock = 11
+)
+
// Block defines the atomic unit of a Tendermint blockchain.
// TODO: add Version byte
type Block struct {
@@ -23,20 +37,20 @@ type Block struct {
LastCommit *Commit `json:"last_commit"`
}
-// MakeBlock returns a new block with an empty header, except what can be computed from itself.
-// It populates the same set of fields validated by ValidateBasic
-func MakeBlock(height int64, txs []Tx, commit *Commit, evidence []Evidence) *Block {
+// MakeBlock returns a new block with an empty header, except what can be
+// computed from itself.
+// It populates the same set of fields validated by ValidateBasic.
+func MakeBlock(height int64, txs []Tx, lastCommit *Commit, evidence []Evidence) *Block {
block := &Block{
Header: Header{
Height: height,
- Time: time.Now(),
NumTxs: int64(len(txs)),
},
Data: Data{
Txs: txs,
},
Evidence: EvidenceData{Evidence: evidence},
- LastCommit: commit,
+ LastCommit: lastCommit,
}
block.fillHeader()
return block
@@ -53,10 +67,18 @@ func (b *Block) ValidateBasic() error {
newTxs := int64(len(b.Data.Txs))
if b.NumTxs != newTxs {
- return fmt.Errorf("Wrong Block.Header.NumTxs. Expected %v, got %v", newTxs, b.NumTxs)
+ return fmt.Errorf(
+ "Wrong Block.Header.NumTxs. Expected %v, got %v",
+ newTxs,
+ b.NumTxs,
+ )
}
if !bytes.Equal(b.LastCommitHash, b.LastCommit.Hash()) {
- return fmt.Errorf("Wrong Block.Header.LastCommitHash. Expected %v, got %v", b.LastCommitHash, b.LastCommit.Hash())
+ return fmt.Errorf(
+ "Wrong Block.Header.LastCommitHash. Expected %v, got %v",
+ b.LastCommitHash,
+ b.LastCommit.Hash(),
+ )
}
if b.Header.Height != 1 {
if err := b.LastCommit.ValidateBasic(); err != nil {
@@ -64,10 +86,18 @@ func (b *Block) ValidateBasic() error {
}
}
if !bytes.Equal(b.DataHash, b.Data.Hash()) {
- return fmt.Errorf("Wrong Block.Header.DataHash. Expected %v, got %v", b.DataHash, b.Data.Hash())
+ return fmt.Errorf(
+ "Wrong Block.Header.DataHash. Expected %v, got %v",
+ b.DataHash,
+ b.Data.Hash(),
+ )
}
if !bytes.Equal(b.EvidenceHash, b.Evidence.Hash()) {
- return errors.New(cmn.Fmt("Wrong Block.Header.EvidenceHash. Expected %v, got %v", b.EvidenceHash, b.Evidence.Hash()))
+ return fmt.Errorf(
+ "Wrong Block.Header.EvidenceHash. Expected %v, got %v",
+ b.EvidenceHash,
+ b.Evidence.Hash(),
+ )
}
return nil
}
@@ -177,29 +207,32 @@ func (b *Block) StringShort() string {
// Header defines the structure of a Tendermint block header
// TODO: limit header size
// NOTE: changes to the Header should be duplicated in the abci Header
+// and in /docs/spec/blockchain/blockchain.md
type Header struct {
// basic block info
- ChainID string `json:"chain_id"`
- Height int64 `json:"height"`
- Time time.Time `json:"time"`
- NumTxs int64 `json:"num_txs"`
+ ChainID string `json:"chain_id"`
+ Height int64 `json:"height"`
+ Time time.Time `json:"time"`
+ NumTxs int64 `json:"num_txs"`
+ TotalTxs int64 `json:"total_txs"`
// prev block info
LastBlockID BlockID `json:"last_block_id"`
- TotalTxs int64 `json:"total_txs"`
// hashes of block data
LastCommitHash cmn.HexBytes `json:"last_commit_hash"` // commit from validators from the last block
DataHash cmn.HexBytes `json:"data_hash"` // transactions
// hashes from the app output from the prev block
- ValidatorsHash cmn.HexBytes `json:"validators_hash"` // validators for the current block
- ConsensusHash cmn.HexBytes `json:"consensus_hash"` // consensus params for current block
- AppHash cmn.HexBytes `json:"app_hash"` // state after txs from the previous block
- LastResultsHash cmn.HexBytes `json:"last_results_hash"` // root hash of all results from the txs from the previous block
+ ValidatorsHash cmn.HexBytes `json:"validators_hash"` // validators for the current block
+ NextValidatorsHash cmn.HexBytes `json:"next_validators_hash"` // validators for the next block
+ ConsensusHash cmn.HexBytes `json:"consensus_hash"` // consensus params for current block
+ AppHash cmn.HexBytes `json:"app_hash"` // state after txs from the previous block
+ LastResultsHash cmn.HexBytes `json:"last_results_hash"` // root hash of all results from the txs from the previous block
// consensus info
- EvidenceHash cmn.HexBytes `json:"evidence_hash"` // evidence included in the block
+ EvidenceHash cmn.HexBytes `json:"evidence_hash"` // evidence included in the block
+ ProposerAddress Address `json:"proposer_address"` // original proposer of the block
}
// Hash returns the hash of the header.
@@ -211,19 +244,21 @@ func (h *Header) Hash() cmn.HexBytes {
return nil
}
return merkle.SimpleHashFromMap(map[string]merkle.Hasher{
- "ChainID": aminoHasher(h.ChainID),
- "Height": aminoHasher(h.Height),
- "Time": aminoHasher(h.Time),
- "NumTxs": aminoHasher(h.NumTxs),
- "TotalTxs": aminoHasher(h.TotalTxs),
- "LastBlockID": aminoHasher(h.LastBlockID),
- "LastCommit": aminoHasher(h.LastCommitHash),
- "Data": aminoHasher(h.DataHash),
- "Validators": aminoHasher(h.ValidatorsHash),
- "App": aminoHasher(h.AppHash),
- "Consensus": aminoHasher(h.ConsensusHash),
- "Results": aminoHasher(h.LastResultsHash),
- "Evidence": aminoHasher(h.EvidenceHash),
+ "ChainID": aminoHasher(h.ChainID),
+ "Height": aminoHasher(h.Height),
+ "Time": aminoHasher(h.Time),
+ "NumTxs": aminoHasher(h.NumTxs),
+ "TotalTxs": aminoHasher(h.TotalTxs),
+ "LastBlockID": aminoHasher(h.LastBlockID),
+ "LastCommit": aminoHasher(h.LastCommitHash),
+ "Data": aminoHasher(h.DataHash),
+ "Validators": aminoHasher(h.ValidatorsHash),
+ "NextValidators": aminoHasher(h.NextValidatorsHash),
+ "App": aminoHasher(h.AppHash),
+ "Consensus": aminoHasher(h.ConsensusHash),
+ "Results": aminoHasher(h.LastResultsHash),
+ "Evidence": aminoHasher(h.EvidenceHash),
+ "Proposer": aminoHasher(h.ProposerAddress),
})
}
@@ -242,10 +277,12 @@ func (h *Header) StringIndented(indent string) string {
%s LastCommit: %v
%s Data: %v
%s Validators: %v
+%s NextValidators: %v
%s App: %v
%s Consensus: %v
%s Results: %v
%s Evidence: %v
+%s Proposer: %v
%s}#%v`,
indent, h.ChainID,
indent, h.Height,
@@ -256,10 +293,12 @@ func (h *Header) StringIndented(indent string) string {
indent, h.LastCommitHash,
indent, h.DataHash,
indent, h.ValidatorsHash,
+ indent, h.NextValidatorsHash,
indent, h.AppHash,
indent, h.ConsensusHash,
indent, h.LastResultsHash,
indent, h.EvidenceHash,
+ indent, h.ProposerAddress,
indent, h.Hash())
}
@@ -353,6 +392,7 @@ func (commit *Commit) IsCommit() bool {
}
// ValidateBasic performs basic validation that doesn't involve state data.
+// Does not actually check the cryptographic signatures.
func (commit *Commit) ValidateBasic() error {
if commit.BlockID.IsZero() {
return errors.New("Commit cannot be for nil block")
@@ -362,23 +402,23 @@ func (commit *Commit) ValidateBasic() error {
}
height, round := commit.Height(), commit.Round()
- // validate the precommits
+ // Validate the precommits.
for _, precommit := range commit.Precommits {
// It's OK for precommits to be missing.
if precommit == nil {
continue
}
- // Ensure that all votes are precommits
+ // Ensure that all votes are precommits.
if precommit.Type != VoteTypePrecommit {
return fmt.Errorf("Invalid commit vote. Expected precommit, got %v",
precommit.Type)
}
- // Ensure that all heights are the same
+ // Ensure that all heights are the same.
if precommit.Height != height {
return fmt.Errorf("Invalid commit precommit height. Expected %v, got %v",
height, precommit.Height)
}
- // Ensure that all rounds are the same
+ // Ensure that all rounds are the same.
if precommit.Round != round {
return fmt.Errorf("Invalid commit precommit round. Expected %v, got %v",
round, precommit.Round)
@@ -413,19 +453,77 @@ func (commit *Commit) StringIndented(indent string) string {
}
return fmt.Sprintf(`Commit{
%s BlockID: %v
-%s Precommits: %v
+%s Precommits:
+%s %v
%s}#%v`,
indent, commit.BlockID,
- indent, strings.Join(precommitStrings, "\n"+indent+" "),
+ indent,
+ indent, strings.Join(precommitStrings, "\n"+indent+" "),
indent, commit.hash)
}
//-----------------------------------------------------------------------------
-// SignedHeader is a header along with the commits that prove it
+// SignedHeader is a header along with the commits that prove it.
type SignedHeader struct {
- Header *Header `json:"header"`
- Commit *Commit `json:"commit"`
+ *Header `json:"header"`
+ Commit *Commit `json:"commit"`
+}
+
+// ValidateBasic does basic consistency checks and makes sure the header
+// and commit are consistent.
+//
+// NOTE: This does not actually check the cryptographic signatures. Make
+// sure to use a Verifier to validate the signatures actually provide a
+// significantly strong proof for this header's validity.
+func (sh SignedHeader) ValidateBasic(chainID string) error {
+
+ // Make sure the header is consistent with the commit.
+ if sh.Header == nil {
+ return errors.New("SignedHeader missing header.")
+ }
+ if sh.Commit == nil {
+ return errors.New("SignedHeader missing commit (precommit votes).")
+ }
+ // Check ChainID.
+ if sh.ChainID != chainID {
+ return fmt.Errorf("Header belongs to another chain '%s' not '%s'",
+ sh.ChainID, chainID)
+ }
+ // Check Height.
+ if sh.Commit.Height() != sh.Height {
+ return fmt.Errorf("SignedHeader header and commit height mismatch: %v vs %v",
+ sh.Height, sh.Commit.Height())
+ }
+ // Check Hash.
+ hhash := sh.Hash()
+ chash := sh.Commit.BlockID.Hash
+ if !bytes.Equal(hhash, chash) {
+ return fmt.Errorf("SignedHeader commit signs block %X, header is block %X",
+ chash, hhash)
+ }
+ // ValidateBasic on the Commit.
+ err := sh.Commit.ValidateBasic()
+ if err != nil {
+ return cmn.ErrorWrap(err, "commit.ValidateBasic failed during SignedHeader.ValidateBasic")
+ }
+ return nil
+}
+
+func (sh SignedHeader) String() string {
+ return sh.StringIndented("")
+}
+
+// StringIndented returns a string representation of the SignedHeader.
+func (sh SignedHeader) StringIndented(indent string) string {
+ return fmt.Sprintf(`SignedHeader{
+%s %v
+%s %v
+%s}`,
+ indent, sh.Header.StringIndented(indent+" "),
+ indent, sh.Commit.StringIndented(indent+" "),
+ indent)
+ return ""
}
//-----------------------------------------------------------------------------
diff --git a/vendor/github.com/tendermint/tendermint/types/canonical_json.go b/vendor/github.com/tendermint/tendermint/types/canonical_json.go
index aca9e9b799cc10d9aeaadc304d35af841e53cd8c..d8399ff196a70f51e3c24b143d67b9c64171d2df 100644
--- a/vendor/github.com/tendermint/tendermint/types/canonical_json.go
+++ b/vendor/github.com/tendermint/tendermint/types/canonical_json.go
@@ -4,6 +4,7 @@ import (
"time"
cmn "github.com/tendermint/tendermint/libs/common"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
// Canonical json is amino's json for structs with fields in alphabetical order
@@ -110,5 +111,5 @@ func CanonicalTime(t time.Time) string {
// Note that sending time over amino resets it to
// local time, we need to force UTC here, so the
// signatures match
- return t.UTC().Format(TimeFormat)
+ return tmtime.Canonical(t).Format(TimeFormat)
}
diff --git a/vendor/github.com/tendermint/tendermint/types/event_bus.go b/vendor/github.com/tendermint/tendermint/types/event_bus.go
index b4965feee67b10fb895ee1998bd9b730a7834302..d11c65205326577c91f7292116eafda5d8c81865 100644
--- a/vendor/github.com/tendermint/tendermint/types/event_bus.go
+++ b/vendor/github.com/tendermint/tendermint/types/event_bus.go
@@ -71,34 +71,32 @@ func (b *EventBus) Publish(eventType string, eventData TMEventData) error {
return nil
}
-//--- block, tx, and vote events
-
-func (b *EventBus) PublishEventNewBlock(event EventDataNewBlock) error {
- return b.Publish(EventNewBlock, event)
+func (b *EventBus) PublishEventNewBlock(data EventDataNewBlock) error {
+ return b.Publish(EventNewBlock, data)
}
-func (b *EventBus) PublishEventNewBlockHeader(event EventDataNewBlockHeader) error {
- return b.Publish(EventNewBlockHeader, event)
+func (b *EventBus) PublishEventNewBlockHeader(data EventDataNewBlockHeader) error {
+ return b.Publish(EventNewBlockHeader, data)
}
-func (b *EventBus) PublishEventVote(event EventDataVote) error {
- return b.Publish(EventVote, event)
+func (b *EventBus) PublishEventVote(data EventDataVote) error {
+ return b.Publish(EventVote, data)
}
// PublishEventTx publishes tx event with tags from Result. Note it will add
// predefined tags (EventTypeKey, TxHashKey). Existing tags with the same names
// will be overwritten.
-func (b *EventBus) PublishEventTx(event EventDataTx) error {
+func (b *EventBus) PublishEventTx(data EventDataTx) error {
// no explicit deadline for publishing events
ctx := context.Background()
tags := make(map[string]string)
// validate and fill tags from tx result
- for _, tag := range event.Result.Tags {
+ for _, tag := range data.Result.Tags {
// basic validation
if len(tag.Key) == 0 {
- b.Logger.Info("Got tag with an empty key (skipping)", "tag", tag, "tx", event.Tx)
+ b.Logger.Info("Got tag with an empty key (skipping)", "tag", tag, "tx", data.Tx)
continue
}
tags[string(tag.Key)] = string(tag.Value)
@@ -109,55 +107,57 @@ func (b *EventBus) PublishEventTx(event EventDataTx) error {
tags[EventTypeKey] = EventTx
logIfTagExists(TxHashKey, tags, b.Logger)
- tags[TxHashKey] = fmt.Sprintf("%X", event.Tx.Hash())
+ tags[TxHashKey] = fmt.Sprintf("%X", data.Tx.Hash())
logIfTagExists(TxHeightKey, tags, b.Logger)
- tags[TxHeightKey] = fmt.Sprintf("%d", event.Height)
+ tags[TxHeightKey] = fmt.Sprintf("%d", data.Height)
- b.pubsub.PublishWithTags(ctx, event, tmpubsub.NewTagMap(tags))
+ b.pubsub.PublishWithTags(ctx, data, tmpubsub.NewTagMap(tags))
return nil
}
-func (b *EventBus) PublishEventProposalHeartbeat(event EventDataProposalHeartbeat) error {
- return b.Publish(EventProposalHeartbeat, event)
+func (b *EventBus) PublishEventProposalHeartbeat(data EventDataProposalHeartbeat) error {
+ return b.Publish(EventProposalHeartbeat, data)
}
-//--- EventDataRoundState events
+func (b *EventBus) PublishEventNewRoundStep(data EventDataRoundState) error {
+ return b.Publish(EventNewRoundStep, data)
+}
-func (b *EventBus) PublishEventNewRoundStep(event EventDataRoundState) error {
- return b.Publish(EventNewRoundStep, event)
+func (b *EventBus) PublishEventTimeoutPropose(data EventDataRoundState) error {
+ return b.Publish(EventTimeoutPropose, data)
}
-func (b *EventBus) PublishEventTimeoutPropose(event EventDataRoundState) error {
- return b.Publish(EventTimeoutPropose, event)
+func (b *EventBus) PublishEventTimeoutWait(data EventDataRoundState) error {
+ return b.Publish(EventTimeoutWait, data)
}
-func (b *EventBus) PublishEventTimeoutWait(event EventDataRoundState) error {
- return b.Publish(EventTimeoutWait, event)
+func (b *EventBus) PublishEventNewRound(data EventDataRoundState) error {
+ return b.Publish(EventNewRound, data)
}
-func (b *EventBus) PublishEventNewRound(event EventDataRoundState) error {
- return b.Publish(EventNewRound, event)
+func (b *EventBus) PublishEventCompleteProposal(data EventDataRoundState) error {
+ return b.Publish(EventCompleteProposal, data)
}
-func (b *EventBus) PublishEventCompleteProposal(event EventDataRoundState) error {
- return b.Publish(EventCompleteProposal, event)
+func (b *EventBus) PublishEventPolka(data EventDataRoundState) error {
+ return b.Publish(EventPolka, data)
}
-func (b *EventBus) PublishEventPolka(event EventDataRoundState) error {
- return b.Publish(EventPolka, event)
+func (b *EventBus) PublishEventUnlock(data EventDataRoundState) error {
+ return b.Publish(EventUnlock, data)
}
-func (b *EventBus) PublishEventUnlock(event EventDataRoundState) error {
- return b.Publish(EventUnlock, event)
+func (b *EventBus) PublishEventRelock(data EventDataRoundState) error {
+ return b.Publish(EventRelock, data)
}
-func (b *EventBus) PublishEventRelock(event EventDataRoundState) error {
- return b.Publish(EventRelock, event)
+func (b *EventBus) PublishEventLock(data EventDataRoundState) error {
+ return b.Publish(EventLock, data)
}
-func (b *EventBus) PublishEventLock(event EventDataRoundState) error {
- return b.Publish(EventLock, event)
+func (b *EventBus) PublishEventValidatorSetUpdates(data EventDataValidatorSetUpdates) error {
+ return b.Publish(EventValidatorSetUpdates, data)
}
func logIfTagExists(tag string, tags map[string]string, logger log.Logger) {
diff --git a/vendor/github.com/tendermint/tendermint/types/events.go b/vendor/github.com/tendermint/tendermint/types/events.go
index c26fecb71dd73e0c1cb2882eff84dd0a558a866c..09f7216e9ca8bf9ff68b95bc62c35369cc5bdece 100644
--- a/vendor/github.com/tendermint/tendermint/types/events.go
+++ b/vendor/github.com/tendermint/tendermint/types/events.go
@@ -8,42 +8,34 @@ import (
tmquery "github.com/tendermint/tendermint/libs/pubsub/query"
)
-// Reserved event types
+// Reserved event types (alphabetically sorted).
const (
- EventCompleteProposal = "CompleteProposal"
- EventLock = "Lock"
- EventNewBlock = "NewBlock"
- EventNewBlockHeader = "NewBlockHeader"
- EventNewRound = "NewRound"
- EventNewRoundStep = "NewRoundStep"
- EventPolka = "Polka"
- EventRelock = "Relock"
- EventTimeoutPropose = "TimeoutPropose"
- EventTimeoutWait = "TimeoutWait"
- EventTx = "Tx"
- EventUnlock = "Unlock"
- EventVote = "Vote"
- EventProposalHeartbeat = "ProposalHeartbeat"
+ EventCompleteProposal = "CompleteProposal"
+ EventLock = "Lock"
+ EventNewBlock = "NewBlock"
+ EventNewBlockHeader = "NewBlockHeader"
+ EventNewRound = "NewRound"
+ EventNewRoundStep = "NewRoundStep"
+ EventPolka = "Polka"
+ EventProposalHeartbeat = "ProposalHeartbeat"
+ EventRelock = "Relock"
+ EventTimeoutPropose = "TimeoutPropose"
+ EventTimeoutWait = "TimeoutWait"
+ EventTx = "Tx"
+ EventUnlock = "Unlock"
+ EventValidatorSetUpdates = "ValidatorSetUpdates"
+ EventVote = "Vote"
)
///////////////////////////////////////////////////////////////////////////////
// ENCODING / DECODING
///////////////////////////////////////////////////////////////////////////////
-// implements events.EventData
+// TMEventData implements events.EventData.
type TMEventData interface {
- AssertIsTMEventData()
// empty interface
}
-func (_ EventDataNewBlock) AssertIsTMEventData() {}
-func (_ EventDataNewBlockHeader) AssertIsTMEventData() {}
-func (_ EventDataTx) AssertIsTMEventData() {}
-func (_ EventDataRoundState) AssertIsTMEventData() {}
-func (_ EventDataVote) AssertIsTMEventData() {}
-func (_ EventDataProposalHeartbeat) AssertIsTMEventData() {}
-func (_ EventDataString) AssertIsTMEventData() {}
-
func RegisterEventDatas(cdc *amino.Codec) {
cdc.RegisterInterface((*TMEventData)(nil), nil)
cdc.RegisterConcrete(EventDataNewBlock{}, "tendermint/event/NewBlock", nil)
@@ -52,6 +44,7 @@ func RegisterEventDatas(cdc *amino.Codec) {
cdc.RegisterConcrete(EventDataRoundState{}, "tendermint/event/RoundState", nil)
cdc.RegisterConcrete(EventDataVote{}, "tendermint/event/Vote", nil)
cdc.RegisterConcrete(EventDataProposalHeartbeat{}, "tendermint/event/ProposalHeartbeat", nil)
+ cdc.RegisterConcrete(EventDataValidatorSetUpdates{}, "tendermint/event/ValidatorSetUpdates", nil)
cdc.RegisterConcrete(EventDataString(""), "tendermint/event/ProposalString", nil)
}
@@ -92,6 +85,10 @@ type EventDataVote struct {
type EventDataString string
+type EventDataValidatorSetUpdates struct {
+ ValidatorUpdates []*Validator `json:"validator_updates"`
+}
+
///////////////////////////////////////////////////////////////////////////////
// PUBSUB
///////////////////////////////////////////////////////////////////////////////
@@ -108,20 +105,21 @@ const (
)
var (
- EventQueryNewBlock = QueryForEvent(EventNewBlock)
- EventQueryNewBlockHeader = QueryForEvent(EventNewBlockHeader)
- EventQueryNewRound = QueryForEvent(EventNewRound)
- EventQueryNewRoundStep = QueryForEvent(EventNewRoundStep)
- EventQueryTimeoutPropose = QueryForEvent(EventTimeoutPropose)
- EventQueryCompleteProposal = QueryForEvent(EventCompleteProposal)
- EventQueryPolka = QueryForEvent(EventPolka)
- EventQueryUnlock = QueryForEvent(EventUnlock)
- EventQueryLock = QueryForEvent(EventLock)
- EventQueryRelock = QueryForEvent(EventRelock)
- EventQueryTimeoutWait = QueryForEvent(EventTimeoutWait)
- EventQueryVote = QueryForEvent(EventVote)
- EventQueryProposalHeartbeat = QueryForEvent(EventProposalHeartbeat)
- EventQueryTx = QueryForEvent(EventTx)
+ EventQueryCompleteProposal = QueryForEvent(EventCompleteProposal)
+ EventQueryLock = QueryForEvent(EventLock)
+ EventQueryNewBlock = QueryForEvent(EventNewBlock)
+ EventQueryNewBlockHeader = QueryForEvent(EventNewBlockHeader)
+ EventQueryNewRound = QueryForEvent(EventNewRound)
+ EventQueryNewRoundStep = QueryForEvent(EventNewRoundStep)
+ EventQueryPolka = QueryForEvent(EventPolka)
+ EventQueryProposalHeartbeat = QueryForEvent(EventProposalHeartbeat)
+ EventQueryRelock = QueryForEvent(EventRelock)
+ EventQueryTimeoutPropose = QueryForEvent(EventTimeoutPropose)
+ EventQueryTimeoutWait = QueryForEvent(EventTimeoutWait)
+ EventQueryTx = QueryForEvent(EventTx)
+ EventQueryUnlock = QueryForEvent(EventUnlock)
+ EventQueryValidatorSetUpdates = QueryForEvent(EventValidatorSetUpdates)
+ EventQueryVote = QueryForEvent(EventVote)
)
func EventQueryTxFor(tx Tx) tmpubsub.Query {
@@ -137,6 +135,7 @@ type BlockEventPublisher interface {
PublishEventNewBlock(block EventDataNewBlock) error
PublishEventNewBlockHeader(header EventDataNewBlockHeader) error
PublishEventTx(EventDataTx) error
+ PublishEventValidatorSetUpdates(EventDataValidatorSetUpdates) error
}
type TxEventPublisher interface {
diff --git a/vendor/github.com/tendermint/tendermint/types/evidence.go b/vendor/github.com/tendermint/tendermint/types/evidence.go
index 92675868fd6ba4a04b50830e00c581cf56fe0991..8377fcd7fdb1c548bea22ae4050532b6f40a55e2 100644
--- a/vendor/github.com/tendermint/tendermint/types/evidence.go
+++ b/vendor/github.com/tendermint/tendermint/types/evidence.go
@@ -10,6 +10,11 @@ import (
"github.com/tendermint/tendermint/crypto/merkle"
)
+const (
+ // MaxEvidenceBytes is a maximum size of any evidence (including amino overhead).
+ MaxEvidenceBytes = 440
+)
+
// ErrEvidenceInvalid wraps a piece of evidence and the error denoting how or why it is invalid.
type ErrEvidenceInvalid struct {
Evidence Evidence
diff --git a/vendor/github.com/tendermint/tendermint/types/genesis.go b/vendor/github.com/tendermint/tendermint/types/genesis.go
index 220ee0e0efcb02ec7dbaf006775491d0cc3052cd..4cf3b730986c8e8d7b8742d880824f64f43bbdea 100644
--- a/vendor/github.com/tendermint/tendermint/types/genesis.go
+++ b/vendor/github.com/tendermint/tendermint/types/genesis.go
@@ -2,11 +2,18 @@ package types
import (
"encoding/json"
+ "fmt"
"io/ioutil"
"time"
"github.com/tendermint/tendermint/crypto"
cmn "github.com/tendermint/tendermint/libs/common"
+ tmtime "github.com/tendermint/tendermint/types/time"
+)
+
+const (
+ // MaxChainIDLen is a maximum length of the chain ID.
+ MaxChainIDLen = 50
)
//------------------------------------------------------------
@@ -24,7 +31,7 @@ type GenesisDoc struct {
GenesisTime time.Time `json:"genesis_time"`
ChainID string `json:"chain_id"`
ConsensusParams *ConsensusParams `json:"consensus_params,omitempty"`
- Validators []GenesisValidator `json:"validators"`
+ Validators []GenesisValidator `json:"validators,omitempty"`
AppHash cmn.HexBytes `json:"app_hash"`
AppState json.RawMessage `json:"app_state,omitempty"`
}
@@ -51,10 +58,12 @@ func (genDoc *GenesisDoc) ValidatorHash() []byte {
// ValidateAndComplete checks that all necessary fields are present
// and fills in defaults for optional fields left empty
func (genDoc *GenesisDoc) ValidateAndComplete() error {
-
if genDoc.ChainID == "" {
return cmn.NewError("Genesis doc must include non-empty chain_id")
}
+ if len(genDoc.ChainID) > MaxChainIDLen {
+ return cmn.NewError(fmt.Sprintf("chain_id in genesis doc is too long (max: %d)", MaxChainIDLen))
+ }
if genDoc.ConsensusParams == nil {
genDoc.ConsensusParams = DefaultConsensusParams()
@@ -64,10 +73,6 @@ func (genDoc *GenesisDoc) ValidateAndComplete() error {
}
}
- if len(genDoc.Validators) == 0 {
- return cmn.NewError("The genesis file must have at least one validator")
- }
-
for _, v := range genDoc.Validators {
if v.Power == 0 {
return cmn.NewError("The genesis file cannot contain validators with no voting power: %v", v)
@@ -75,7 +80,7 @@ func (genDoc *GenesisDoc) ValidateAndComplete() error {
}
if genDoc.GenesisTime.IsZero() {
- genDoc.GenesisTime = time.Now()
+ genDoc.GenesisTime = tmtime.Now()
}
return nil
@@ -107,7 +112,7 @@ func GenesisDocFromFile(genDocFile string) (*GenesisDoc, error) {
}
genDoc, err := GenesisDocFromJSON(jsonBlob)
if err != nil {
- return nil, cmn.ErrorWrap(err, cmn.Fmt("Error reading GenesisDoc at %v", genDocFile))
+ return nil, cmn.ErrorWrap(err, fmt.Sprintf("Error reading GenesisDoc at %v", genDocFile))
}
return genDoc, nil
}
diff --git a/vendor/github.com/tendermint/tendermint/types/nop_event_bus.go b/vendor/github.com/tendermint/tendermint/types/nop_event_bus.go
index cd1eab8cd36d0cdbd8687edf12ca38d7d42895e6..93694da47b0e4d66c5645180b595df94541f8375 100644
--- a/vendor/github.com/tendermint/tendermint/types/nop_event_bus.go
+++ b/vendor/github.com/tendermint/tendermint/types/nop_event_bus.go
@@ -20,58 +20,58 @@ func (NopEventBus) UnsubscribeAll(ctx context.Context, subscriber string) error
return nil
}
-//--- block, tx, and vote events
-
-func (NopEventBus) PublishEventNewBlock(block EventDataNewBlock) error {
+func (NopEventBus) PublishEventNewBlock(data EventDataNewBlock) error {
return nil
}
-func (NopEventBus) PublishEventNewBlockHeader(header EventDataNewBlockHeader) error {
+func (NopEventBus) PublishEventNewBlockHeader(data EventDataNewBlockHeader) error {
return nil
}
-func (NopEventBus) PublishEventVote(vote EventDataVote) error {
+func (NopEventBus) PublishEventVote(data EventDataVote) error {
return nil
}
-func (NopEventBus) PublishEventTx(tx EventDataTx) error {
+func (NopEventBus) PublishEventTx(data EventDataTx) error {
return nil
}
-//--- EventDataRoundState events
+func (NopEventBus) PublishEventNewRoundStep(data EventDataRoundState) error {
+ return nil
+}
-func (NopEventBus) PublishEventNewRoundStep(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventTimeoutPropose(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventTimeoutPropose(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventTimeoutWait(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventTimeoutWait(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventNewRound(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventNewRound(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventCompleteProposal(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventCompleteProposal(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventPolka(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventPolka(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventUnlock(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventUnlock(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventRelock(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventRelock(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventLock(data EventDataRoundState) error {
return nil
}
-func (NopEventBus) PublishEventLock(rs EventDataRoundState) error {
+func (NopEventBus) PublishEventValidatorSetUpdates(data EventDataValidatorSetUpdates) error {
return nil
}
diff --git a/vendor/github.com/tendermint/tendermint/types/params.go b/vendor/github.com/tendermint/tendermint/types/params.go
index 3056c82a03839e704fd0d20c615c37bdcfd4bf0c..77f68eb7b3eecc0c676eb50b77d713462c372dc3 100644
--- a/vendor/github.com/tendermint/tendermint/types/params.go
+++ b/vendor/github.com/tendermint/tendermint/types/params.go
@@ -22,9 +22,8 @@ type ConsensusParams struct {
// BlockSize contain limits on the block size.
type BlockSize struct {
- MaxBytes int `json:"max_bytes"` // NOTE: must not be 0 nor greater than 100MB
- MaxTxs int `json:"max_txs"`
- MaxGas int64 `json:"max_gas"`
+ MaxBytes int `json:"max_txs_bytes"` // NOTE: must not be 0 nor greater than 100MB
+ MaxGas int64 `json:"max_gas"`
}
// TxSize contain limits on the tx size.
@@ -56,9 +55,8 @@ func DefaultConsensusParams() *ConsensusParams {
// DefaultBlockSize returns a default BlockSize.
func DefaultBlockSize() BlockSize {
return BlockSize{
- MaxBytes: 22020096, // 21MB
- MaxTxs: 10000,
- MaxGas: -1,
+ MaxBytes: 22020096, // 21MB
+ MaxGas: -1,
}
}
@@ -110,7 +108,6 @@ func (params *ConsensusParams) Hash() []byte {
"block_gossip_part_size_bytes": aminoHasher(params.BlockGossip.BlockPartSizeBytes),
"block_size_max_bytes": aminoHasher(params.BlockSize.MaxBytes),
"block_size_max_gas": aminoHasher(params.BlockSize.MaxGas),
- "block_size_max_txs": aminoHasher(params.BlockSize.MaxTxs),
"tx_size_max_bytes": aminoHasher(params.TxSize.MaxBytes),
"tx_size_max_gas": aminoHasher(params.TxSize.MaxGas),
})
@@ -132,9 +129,6 @@ func (params ConsensusParams) Update(params2 *abci.ConsensusParams) ConsensusPar
if params2.BlockSize.MaxBytes > 0 {
res.BlockSize.MaxBytes = int(params2.BlockSize.MaxBytes)
}
- if params2.BlockSize.MaxTxs > 0 {
- res.BlockSize.MaxTxs = int(params2.BlockSize.MaxTxs)
- }
if params2.BlockSize.MaxGas > 0 {
res.BlockSize.MaxGas = params2.BlockSize.MaxGas
}
diff --git a/vendor/github.com/tendermint/tendermint/types/proposal.go b/vendor/github.com/tendermint/tendermint/types/proposal.go
index 81a5e2c33f5143e90f9009f93d79f209f88713bc..97e0dca370bfabd953eb1af027b90e2ef1008bab 100644
--- a/vendor/github.com/tendermint/tendermint/types/proposal.go
+++ b/vendor/github.com/tendermint/tendermint/types/proposal.go
@@ -6,6 +6,7 @@ import (
"time"
cmn "github.com/tendermint/tendermint/libs/common"
+ tmtime "github.com/tendermint/tendermint/types/time"
)
var (
@@ -34,7 +35,7 @@ func NewProposal(height int64, round int, blockPartsHeader PartSetHeader, polRou
return &Proposal{
Height: height,
Round: round,
- Timestamp: time.Now().UTC(),
+ Timestamp: tmtime.Now(),
BlockPartsHeader: blockPartsHeader,
POLRound: polRound,
POLBlockID: polBlockID,
diff --git a/vendor/github.com/tendermint/tendermint/types/protobuf.go b/vendor/github.com/tendermint/tendermint/types/protobuf.go
index 01d4ebf0cbb3012dbd088aacdcd638ab5af47bd3..9c448cd848dc853297d2f340bcd1af7c0569c6cc 100644
--- a/vendor/github.com/tendermint/tendermint/types/protobuf.go
+++ b/vendor/github.com/tendermint/tendermint/types/protobuf.go
@@ -1,7 +1,6 @@
package types
import (
- "bytes"
"fmt"
"reflect"
"time"
@@ -35,34 +34,53 @@ type tm2pb struct{}
func (tm2pb) Header(header *Header) abci.Header {
return abci.Header{
- ChainID: header.ChainID,
- Height: header.Height,
-
+ ChainID: header.ChainID,
+ Height: header.Height,
Time: header.Time,
- NumTxs: int32(header.NumTxs), // XXX: overflow
+ NumTxs: header.NumTxs,
TotalTxs: header.TotalTxs,
- LastBlockHash: header.LastBlockID.Hash,
- ValidatorsHash: header.ValidatorsHash,
- AppHash: header.AppHash,
+ LastBlockId: TM2PB.BlockID(header.LastBlockID),
+
+ LastCommitHash: header.LastCommitHash,
+ DataHash: header.DataHash,
+
+ ValidatorsHash: header.ValidatorsHash,
+ ConsensusHash: header.ConsensusHash,
+ AppHash: header.AppHash,
+ LastResultsHash: header.LastResultsHash,
- // Proposer: TODO
+ EvidenceHash: header.EvidenceHash,
+ ProposerAddress: header.ProposerAddress,
}
}
-func (tm2pb) ValidatorWithoutPubKey(val *Validator) abci.Validator {
+func (tm2pb) Validator(val *Validator) abci.Validator {
return abci.Validator{
Address: val.PubKey.Address(),
Power: val.VotingPower,
}
}
+func (tm2pb) BlockID(blockID BlockID) abci.BlockID {
+ return abci.BlockID{
+ Hash: blockID.Hash,
+ PartsHeader: TM2PB.PartSetHeader(blockID.PartsHeader),
+ }
+}
+
+func (tm2pb) PartSetHeader(header PartSetHeader) abci.PartSetHeader {
+ return abci.PartSetHeader{
+ Total: int32(header.Total),
+ Hash: header.Hash,
+ }
+}
+
// XXX: panics on unknown pubkey type
-func (tm2pb) Validator(val *Validator) abci.Validator {
- return abci.Validator{
- Address: val.PubKey.Address(),
- PubKey: TM2PB.PubKey(val.PubKey),
- Power: val.VotingPower,
+func (tm2pb) ValidatorUpdate(val *Validator) abci.ValidatorUpdate {
+ return abci.ValidatorUpdate{
+ PubKey: TM2PB.PubKey(val.PubKey),
+ Power: val.VotingPower,
}
}
@@ -86,10 +104,10 @@ func (tm2pb) PubKey(pubKey crypto.PubKey) abci.PubKey {
}
// XXX: panics on nil or unknown pubkey type
-func (tm2pb) Validators(vals *ValidatorSet) []abci.Validator {
- validators := make([]abci.Validator, vals.Size())
+func (tm2pb) ValidatorUpdates(vals *ValidatorSet) []abci.ValidatorUpdate {
+ validators := make([]abci.ValidatorUpdate, vals.Size())
for i, val := range vals.Validators {
- validators[i] = TM2PB.Validator(val)
+ validators[i] = TM2PB.ValidatorUpdate(val)
}
return validators
}
@@ -97,10 +115,8 @@ func (tm2pb) Validators(vals *ValidatorSet) []abci.Validator {
func (tm2pb) ConsensusParams(params *ConsensusParams) *abci.ConsensusParams {
return &abci.ConsensusParams{
BlockSize: &abci.BlockSize{
-
- MaxBytes: int32(params.BlockSize.MaxBytes),
- MaxTxs: int32(params.BlockSize.MaxTxs),
- MaxGas: params.BlockSize.MaxGas,
+ MaxBytes: int32(params.BlockSize.MaxBytes),
+ MaxGas: params.BlockSize.MaxGas,
},
TxSize: &abci.TxSize{
MaxBytes: int32(params.TxSize.MaxBytes),
@@ -136,7 +152,7 @@ func (tm2pb) Evidence(ev Evidence, valSet *ValidatorSet, evTime time.Time) abci.
return abci.Evidence{
Type: evType,
- Validator: TM2PB.ValidatorWithoutPubKey(val),
+ Validator: TM2PB.Validator(val),
Height: ev.Height(),
Time: evTime,
TotalVotingPower: valSet.TotalVotingPower(),
@@ -144,12 +160,11 @@ func (tm2pb) Evidence(ev Evidence, valSet *ValidatorSet, evTime time.Time) abci.
}
// XXX: panics on nil or unknown pubkey type
-func (tm2pb) ValidatorFromPubKeyAndPower(pubkey crypto.PubKey, power int64) abci.Validator {
+func (tm2pb) NewValidatorUpdate(pubkey crypto.PubKey, power int64) abci.ValidatorUpdate {
pubkeyABCI := TM2PB.PubKey(pubkey)
- return abci.Validator{
- Address: pubkey.Address(),
- PubKey: pubkeyABCI,
- Power: power,
+ return abci.ValidatorUpdate{
+ PubKey: pubkeyABCI,
+ Power: power,
}
}
@@ -185,26 +200,14 @@ func (pb2tm) PubKey(pubKey abci.PubKey) (crypto.PubKey, error) {
}
}
-func (pb2tm) Validators(vals []abci.Validator) ([]*Validator, error) {
+func (pb2tm) ValidatorUpdates(vals []abci.ValidatorUpdate) ([]*Validator, error) {
tmVals := make([]*Validator, len(vals))
for i, v := range vals {
pub, err := PB2TM.PubKey(v.PubKey)
if err != nil {
return nil, err
}
- // If the app provided an address too, it must match.
- // This is just a sanity check.
- if len(v.Address) > 0 {
- if !bytes.Equal(pub.Address(), v.Address) {
- return nil, fmt.Errorf("Validator.Address (%X) does not match PubKey.Address (%X)",
- v.Address, pub.Address())
- }
- }
- tmVals[i] = &Validator{
- Address: pub.Address(),
- PubKey: pub,
- VotingPower: v.Power,
- }
+ tmVals[i] = NewValidator(pub, v.Power)
}
return tmVals, nil
}
@@ -212,9 +215,8 @@ func (pb2tm) Validators(vals []abci.Validator) ([]*Validator, error) {
func (pb2tm) ConsensusParams(csp *abci.ConsensusParams) ConsensusParams {
return ConsensusParams{
BlockSize: BlockSize{
- MaxBytes: int(csp.BlockSize.MaxBytes), // XXX
- MaxTxs: int(csp.BlockSize.MaxTxs), // XXX
- MaxGas: csp.BlockSize.MaxGas,
+ MaxBytes: int(csp.BlockSize.MaxBytes), // XXX
+ MaxGas: csp.BlockSize.MaxGas,
},
TxSize: TxSize{
MaxBytes: int(csp.TxSize.MaxBytes), // XXX
diff --git a/vendor/github.com/tendermint/tendermint/types/test_util.go b/vendor/github.com/tendermint/tendermint/types/test_util.go
index f21c2831fe2d92566ec7a33f7fc3e4c30bf3a4c8..e20ea212e07471cb1d86a6ca6b11b797d193871d 100644
--- a/vendor/github.com/tendermint/tendermint/types/test_util.go
+++ b/vendor/github.com/tendermint/tendermint/types/test_util.go
@@ -1,6 +1,8 @@
package types
-import "time"
+import (
+ tmtime "github.com/tendermint/tendermint/types/time"
+)
func MakeCommit(blockID BlockID, height int64, round int,
voteSet *VoteSet,
@@ -16,7 +18,7 @@ func MakeCommit(blockID BlockID, height int64, round int,
Round: round,
Type: VoteTypePrecommit,
BlockID: blockID,
- Timestamp: time.Now().UTC(),
+ Timestamp: tmtime.Now(),
}
_, err := signAddVote(validators[i], vote, voteSet)
diff --git a/vendor/github.com/tendermint/tendermint/types/time/time.go b/vendor/github.com/tendermint/tendermint/types/time/time.go
new file mode 100644
index 0000000000000000000000000000000000000000..022bdf574f8e6c56dea570d95d27e4ece48826ea
--- /dev/null
+++ b/vendor/github.com/tendermint/tendermint/types/time/time.go
@@ -0,0 +1,58 @@
+package time
+
+import (
+ "sort"
+ "time"
+)
+
+// Now returns the current time in UTC with no monotonic component.
+func Now() time.Time {
+ return Canonical(time.Now())
+}
+
+// Canonical returns UTC time with no monotonic component.
+// Stripping the monotonic component is for time equality.
+// See https://github.com/tendermint/tendermint/pull/2203#discussion_r215064334
+func Canonical(t time.Time) time.Time {
+ return t.Round(0).UTC()
+}
+
+// WeightedTime for computing a median.
+type WeightedTime struct {
+ Time time.Time
+ Weight int64
+}
+
+// NewWeightedTime with time and weight.
+func NewWeightedTime(time time.Time, weight int64) *WeightedTime {
+ return &WeightedTime{
+ Time: time,
+ Weight: weight,
+ }
+}
+
+// WeightedMedian computes weighted median time for a given array of WeightedTime and the total voting power.
+func WeightedMedian(weightedTimes []*WeightedTime, totalVotingPower int64) (res time.Time) {
+ median := totalVotingPower / 2
+
+ sort.Slice(weightedTimes, func(i, j int) bool {
+ if weightedTimes[i] == nil {
+ return false
+ }
+ if weightedTimes[j] == nil {
+ return true
+ }
+ return weightedTimes[i].Time.UnixNano() < weightedTimes[j].Time.UnixNano()
+ })
+
+ for _, weightedTime := range weightedTimes {
+ if weightedTime != nil {
+ if median <= weightedTime.Weight {
+ res = weightedTime.Time
+ break
+ }
+ median -= weightedTime.Weight
+ }
+ }
+ return
+}
diff --git a/vendor/github.com/tendermint/tendermint/types/validator_set.go b/vendor/github.com/tendermint/tendermint/types/validator_set.go
index 60fc2d83b598e001da76a1bd326df6415df46313..4dab4d84071cf6e188de57bbd3f06dc687a41d23 100644
--- a/vendor/github.com/tendermint/tendermint/types/validator_set.go
+++ b/vendor/github.com/tendermint/tendermint/types/validator_set.go
@@ -29,42 +29,57 @@ type ValidatorSet struct {
totalVotingPower int64
}
-func NewValidatorSet(vals []*Validator) *ValidatorSet {
- validators := make([]*Validator, len(vals))
- for i, val := range vals {
+func NewValidatorSet(valz []*Validator) *ValidatorSet {
+ if valz != nil && len(valz) == 0 {
+ panic("validator set initialization slice cannot be an empty slice (but it can be nil)")
+ }
+ validators := make([]*Validator, len(valz))
+ for i, val := range valz {
validators[i] = val.Copy()
}
sort.Sort(ValidatorsByAddress(validators))
- vs := &ValidatorSet{
+ vals := &ValidatorSet{
Validators: validators,
}
-
- if len(vals) > 0 {
- vs.IncrementAccum(1)
+ if len(valz) > 0 {
+ vals.IncrementAccum(1)
}
- return vs
+ return vals
+}
+
+// Nil or empty validator sets are invalid.
+func (vals *ValidatorSet) IsNilOrEmpty() bool {
+ return vals == nil || len(vals.Validators) == 0
+}
+
+// Increment Accum and update the proposer on a copy, and return it.
+func (vals *ValidatorSet) CopyIncrementAccum(times int) *ValidatorSet {
+ copy := vals.Copy()
+ copy.IncrementAccum(times)
+ return copy
}
// IncrementAccum increments accum of each validator and updates the
// proposer. Panics if validator set is empty.
-func (valSet *ValidatorSet) IncrementAccum(times int) {
+func (vals *ValidatorSet) IncrementAccum(times int) {
+
// Add VotingPower * times to each validator and order into heap.
validatorsHeap := cmn.NewHeap()
- for _, val := range valSet.Validators {
- // check for overflow both multiplication and sum
+ for _, val := range vals.Validators {
+ // Check for overflow both multiplication and sum.
val.Accum = safeAddClip(val.Accum, safeMulClip(val.VotingPower, int64(times)))
validatorsHeap.PushComparable(val, accumComparable{val})
}
- // Decrement the validator with most accum times times
+ // Decrement the validator with most accum times times.
for i := 0; i < times; i++ {
mostest := validatorsHeap.Peek().(*Validator)
// mind underflow
- mostest.Accum = safeSubClip(mostest.Accum, valSet.TotalVotingPower())
+ mostest.Accum = safeSubClip(mostest.Accum, vals.TotalVotingPower())
if i == times-1 {
- valSet.Proposer = mostest
+ vals.Proposer = mostest
} else {
validatorsHeap.Update(mostest, accumComparable{mostest})
}
@@ -72,36 +87,36 @@ func (valSet *ValidatorSet) IncrementAccum(times int) {
}
// Copy each validator into a new ValidatorSet
-func (valSet *ValidatorSet) Copy() *ValidatorSet {
- validators := make([]*Validator, len(valSet.Validators))
- for i, val := range valSet.Validators {
+func (vals *ValidatorSet) Copy() *ValidatorSet {
+ validators := make([]*Validator, len(vals.Validators))
+ for i, val := range vals.Validators {
// NOTE: must copy, since IncrementAccum updates in place.
validators[i] = val.Copy()
}
return &ValidatorSet{
Validators: validators,
- Proposer: valSet.Proposer,
- totalVotingPower: valSet.totalVotingPower,
+ Proposer: vals.Proposer,
+ totalVotingPower: vals.totalVotingPower,
}
}
// HasAddress returns true if address given is in the validator set, false -
// otherwise.
-func (valSet *ValidatorSet) HasAddress(address []byte) bool {
- idx := sort.Search(len(valSet.Validators), func(i int) bool {
- return bytes.Compare(address, valSet.Validators[i].Address) <= 0
+func (vals *ValidatorSet) HasAddress(address []byte) bool {
+ idx := sort.Search(len(vals.Validators), func(i int) bool {
+ return bytes.Compare(address, vals.Validators[i].Address) <= 0
})
- return idx < len(valSet.Validators) && bytes.Equal(valSet.Validators[idx].Address, address)
+ return idx < len(vals.Validators) && bytes.Equal(vals.Validators[idx].Address, address)
}
// GetByAddress returns an index of the validator with address and validator
// itself if found. Otherwise, -1 and nil are returned.
-func (valSet *ValidatorSet) GetByAddress(address []byte) (index int, val *Validator) {
- idx := sort.Search(len(valSet.Validators), func(i int) bool {
- return bytes.Compare(address, valSet.Validators[i].Address) <= 0
+func (vals *ValidatorSet) GetByAddress(address []byte) (index int, val *Validator) {
+ idx := sort.Search(len(vals.Validators), func(i int) bool {
+ return bytes.Compare(address, vals.Validators[i].Address) <= 0
})
- if idx < len(valSet.Validators) && bytes.Equal(valSet.Validators[idx].Address, address) {
- return idx, valSet.Validators[idx].Copy()
+ if idx < len(vals.Validators) && bytes.Equal(vals.Validators[idx].Address, address) {
+ return idx, vals.Validators[idx].Copy()
}
return -1, nil
}
@@ -109,45 +124,45 @@ func (valSet *ValidatorSet) GetByAddress(address []byte) (index int, val *Valida
// GetByIndex returns the validator's address and validator itself by index.
// It returns nil values if index is less than 0 or greater or equal to
// len(ValidatorSet.Validators).
-func (valSet *ValidatorSet) GetByIndex(index int) (address []byte, val *Validator) {
- if index < 0 || index >= len(valSet.Validators) {
+func (vals *ValidatorSet) GetByIndex(index int) (address []byte, val *Validator) {
+ if index < 0 || index >= len(vals.Validators) {
return nil, nil
}
- val = valSet.Validators[index]
+ val = vals.Validators[index]
return val.Address, val.Copy()
}
// Size returns the length of the validator set.
-func (valSet *ValidatorSet) Size() int {
- return len(valSet.Validators)
+func (vals *ValidatorSet) Size() int {
+ return len(vals.Validators)
}
// TotalVotingPower returns the sum of the voting powers of all validators.
-func (valSet *ValidatorSet) TotalVotingPower() int64 {
- if valSet.totalVotingPower == 0 {
- for _, val := range valSet.Validators {
+func (vals *ValidatorSet) TotalVotingPower() int64 {
+ if vals.totalVotingPower == 0 {
+ for _, val := range vals.Validators {
// mind overflow
- valSet.totalVotingPower = safeAddClip(valSet.totalVotingPower, val.VotingPower)
+ vals.totalVotingPower = safeAddClip(vals.totalVotingPower, val.VotingPower)
}
}
- return valSet.totalVotingPower
+ return vals.totalVotingPower
}
// GetProposer returns the current proposer. If the validator set is empty, nil
// is returned.
-func (valSet *ValidatorSet) GetProposer() (proposer *Validator) {
- if len(valSet.Validators) == 0 {
+func (vals *ValidatorSet) GetProposer() (proposer *Validator) {
+ if len(vals.Validators) == 0 {
return nil
}
- if valSet.Proposer == nil {
- valSet.Proposer = valSet.findProposer()
+ if vals.Proposer == nil {
+ vals.Proposer = vals.findProposer()
}
- return valSet.Proposer.Copy()
+ return vals.Proposer.Copy()
}
-func (valSet *ValidatorSet) findProposer() *Validator {
+func (vals *ValidatorSet) findProposer() *Validator {
var proposer *Validator
- for _, val := range valSet.Validators {
+ for _, val := range vals.Validators {
if proposer == nil || !bytes.Equal(val.Address, proposer.Address) {
proposer = proposer.CompareAccum(val)
}
@@ -157,12 +172,12 @@ func (valSet *ValidatorSet) findProposer() *Validator {
// Hash returns the Merkle root hash build using validators (as leaves) in the
// set.
-func (valSet *ValidatorSet) Hash() []byte {
- if len(valSet.Validators) == 0 {
+func (vals *ValidatorSet) Hash() []byte {
+ if len(vals.Validators) == 0 {
return nil
}
- hashers := make([]merkle.Hasher, len(valSet.Validators))
- for i, val := range valSet.Validators {
+ hashers := make([]merkle.Hasher, len(vals.Validators))
+ for i, val := range vals.Validators {
hashers[i] = val
}
return merkle.SimpleHashFromHashers(hashers)
@@ -170,70 +185,70 @@ func (valSet *ValidatorSet) Hash() []byte {
// Add adds val to the validator set and returns true. It returns false if val
// is already in the set.
-func (valSet *ValidatorSet) Add(val *Validator) (added bool) {
+func (vals *ValidatorSet) Add(val *Validator) (added bool) {
val = val.Copy()
- idx := sort.Search(len(valSet.Validators), func(i int) bool {
- return bytes.Compare(val.Address, valSet.Validators[i].Address) <= 0
+ idx := sort.Search(len(vals.Validators), func(i int) bool {
+ return bytes.Compare(val.Address, vals.Validators[i].Address) <= 0
})
- if idx >= len(valSet.Validators) {
- valSet.Validators = append(valSet.Validators, val)
+ if idx >= len(vals.Validators) {
+ vals.Validators = append(vals.Validators, val)
// Invalidate cache
- valSet.Proposer = nil
- valSet.totalVotingPower = 0
+ vals.Proposer = nil
+ vals.totalVotingPower = 0
return true
- } else if bytes.Equal(valSet.Validators[idx].Address, val.Address) {
+ } else if bytes.Equal(vals.Validators[idx].Address, val.Address) {
return false
} else {
- newValidators := make([]*Validator, len(valSet.Validators)+1)
- copy(newValidators[:idx], valSet.Validators[:idx])
+ newValidators := make([]*Validator, len(vals.Validators)+1)
+ copy(newValidators[:idx], vals.Validators[:idx])
newValidators[idx] = val
- copy(newValidators[idx+1:], valSet.Validators[idx:])
- valSet.Validators = newValidators
+ copy(newValidators[idx+1:], vals.Validators[idx:])
+ vals.Validators = newValidators
// Invalidate cache
- valSet.Proposer = nil
- valSet.totalVotingPower = 0
+ vals.Proposer = nil
+ vals.totalVotingPower = 0
return true
}
}
// Update updates val and returns true. It returns false if val is not present
// in the set.
-func (valSet *ValidatorSet) Update(val *Validator) (updated bool) {
- index, sameVal := valSet.GetByAddress(val.Address)
+func (vals *ValidatorSet) Update(val *Validator) (updated bool) {
+ index, sameVal := vals.GetByAddress(val.Address)
if sameVal == nil {
return false
}
- valSet.Validators[index] = val.Copy()
+ vals.Validators[index] = val.Copy()
// Invalidate cache
- valSet.Proposer = nil
- valSet.totalVotingPower = 0
+ vals.Proposer = nil
+ vals.totalVotingPower = 0
return true
}
// Remove deletes the validator with address. It returns the validator removed
// and true. If returns nil and false if validator is not present in the set.
-func (valSet *ValidatorSet) Remove(address []byte) (val *Validator, removed bool) {
- idx := sort.Search(len(valSet.Validators), func(i int) bool {
- return bytes.Compare(address, valSet.Validators[i].Address) <= 0
+func (vals *ValidatorSet) Remove(address []byte) (val *Validator, removed bool) {
+ idx := sort.Search(len(vals.Validators), func(i int) bool {
+ return bytes.Compare(address, vals.Validators[i].Address) <= 0
})
- if idx >= len(valSet.Validators) || !bytes.Equal(valSet.Validators[idx].Address, address) {
+ if idx >= len(vals.Validators) || !bytes.Equal(vals.Validators[idx].Address, address) {
return nil, false
}
- removedVal := valSet.Validators[idx]
- newValidators := valSet.Validators[:idx]
- if idx+1 < len(valSet.Validators) {
- newValidators = append(newValidators, valSet.Validators[idx+1:]...)
+ removedVal := vals.Validators[idx]
+ newValidators := vals.Validators[:idx]
+ if idx+1 < len(vals.Validators) {
+ newValidators = append(newValidators, vals.Validators[idx+1:]...)
}
- valSet.Validators = newValidators
+ vals.Validators = newValidators
// Invalidate cache
- valSet.Proposer = nil
- valSet.totalVotingPower = 0
+ vals.Proposer = nil
+ vals.totalVotingPower = 0
return removedVal, true
}
// Iterate will run the given function over the set.
-func (valSet *ValidatorSet) Iterate(fn func(index int, val *Validator) bool) {
- for i, val := range valSet.Validators {
+func (vals *ValidatorSet) Iterate(fn func(index int, val *Validator) bool) {
+ for i, val := range vals.Validators {
stop := fn(i, val.Copy())
if stop {
break
@@ -241,87 +256,106 @@ func (valSet *ValidatorSet) Iterate(fn func(index int, val *Validator) bool) {
}
}
-// Verify that +2/3 of the set had signed the given signBytes
-func (valSet *ValidatorSet) VerifyCommit(chainID string, blockID BlockID, height int64, commit *Commit) error {
- if valSet.Size() != len(commit.Precommits) {
- return fmt.Errorf("Invalid commit -- wrong set size: %v vs %v", valSet.Size(), len(commit.Precommits))
+// Verify that +2/3 of the set had signed the given signBytes.
+func (vals *ValidatorSet) VerifyCommit(chainID string, blockID BlockID, height int64, commit *Commit) error {
+ if vals.Size() != len(commit.Precommits) {
+ return fmt.Errorf("Invalid commit -- wrong set size: %v vs %v", vals.Size(), len(commit.Precommits))
}
if height != commit.Height() {
return fmt.Errorf("Invalid commit -- wrong height: %v vs %v", height, commit.Height())
}
+ if !blockID.Equals(commit.BlockID) {
+ return fmt.Errorf("Invalid commit -- wrong block id: want %v got %v",
+ blockID, commit.BlockID)
+ }
talliedVotingPower := int64(0)
round := commit.Round()
for idx, precommit := range commit.Precommits {
- // may be nil if validator skipped.
if precommit == nil {
- continue
+ continue // OK, some precommits can be missing.
}
if precommit.Height != height {
- return fmt.Errorf("Invalid commit -- wrong height: %v vs %v", height, precommit.Height)
+ return fmt.Errorf("Invalid commit -- wrong height: want %v got %v", height, precommit.Height)
}
if precommit.Round != round {
- return fmt.Errorf("Invalid commit -- wrong round: %v vs %v", round, precommit.Round)
+ return fmt.Errorf("Invalid commit -- wrong round: want %v got %v", round, precommit.Round)
}
if precommit.Type != VoteTypePrecommit {
return fmt.Errorf("Invalid commit -- not precommit @ index %v", idx)
}
- _, val := valSet.GetByIndex(idx)
- // Validate signature
+ _, val := vals.GetByIndex(idx)
+ // Validate signature.
precommitSignBytes := precommit.SignBytes(chainID)
if !val.PubKey.VerifyBytes(precommitSignBytes, precommit.Signature) {
return fmt.Errorf("Invalid commit -- invalid signature: %v", precommit)
}
- if !blockID.Equals(precommit.BlockID) {
- continue // Not an error, but doesn't count
- }
// Good precommit!
- talliedVotingPower += val.VotingPower
+ if blockID.Equals(precommit.BlockID) {
+ talliedVotingPower += val.VotingPower
+ } else {
+ // It's OK that the BlockID doesn't match. We include stray
+ // precommits to measure validator availability.
+ }
}
- if talliedVotingPower > valSet.TotalVotingPower()*2/3 {
+ if talliedVotingPower > vals.TotalVotingPower()*2/3 {
return nil
}
return fmt.Errorf("Invalid commit -- insufficient voting power: got %v, needed %v",
- talliedVotingPower, (valSet.TotalVotingPower()*2/3 + 1))
+ talliedVotingPower, (vals.TotalVotingPower()*2/3 + 1))
}
-// VerifyCommitAny will check to see if the set would
-// be valid with a different validator set.
+// VerifyFutureCommit will check to see if the set would be valid with a different
+// validator set.
+//
+// vals is the old validator set that we know. Over 2/3 of the power in old
+// signed this block.
+//
+// In Tendermint, 1/3 of the voting power can halt or fork the chain, but 1/3
+// can't make arbitrary state transitions. You still need > 2/3 Byzantine to
+// make arbitrary state transitions.
//
-// valSet is the validator set that we know
-// * over 2/3 of the power in old signed this block
+// To preserve this property in the light client, we also require > 2/3 of the
+// old vals to sign the future commit at H, that way we preserve the property
+// that if they weren't being truthful about the validator set at H (block hash
+// -> vals hash) or about the app state (block hash -> app hash) we can slash
+// > 2/3. Otherwise, the lite client isn't providing the same security
+// guarantees.
//
-// newSet is the validator set that signed this block
-// * only votes from old are sufficient for 2/3 majority
-// in the new set as well
+// Even if we added a slashing condition that if you sign a block header with
+// the wrong validator set, then we would only need > 1/3 of signatures from
+// the old vals on the new commit, it wouldn't be sufficient because the new
+// vals can be arbitrary and commit some arbitrary app hash.
//
-// That means that:
-// * 10% of the valset can't just declare themselves kings
-// * If the validator set is 3x old size, we need more proof to trust
-func (valSet *ValidatorSet) VerifyCommitAny(newSet *ValidatorSet, chainID string,
+// newSet is the validator set that signed this block. Only votes from new are
+// sufficient for 2/3 majority in the new set as well, for it to be a valid
+// commit.
+//
+// NOTE: This doesn't check whether the commit is a future commit, because the
+// current height isn't part of the ValidatorSet. Caller must check that the
+// commit height is greater than the height for this validator set.
+func (vals *ValidatorSet) VerifyFutureCommit(newSet *ValidatorSet, chainID string,
blockID BlockID, height int64, commit *Commit) error {
+ oldVals := vals
- if newSet.Size() != len(commit.Precommits) {
- return cmn.NewError("Invalid commit -- wrong set size: %v vs %v", newSet.Size(), len(commit.Precommits))
- }
- if height != commit.Height() {
- return cmn.NewError("Invalid commit -- wrong height: %v vs %v", height, commit.Height())
+ // Commit must be a valid commit for newSet.
+ err := newSet.VerifyCommit(chainID, blockID, height, commit)
+ if err != nil {
+ return err
}
+ // Check old voting power.
oldVotingPower := int64(0)
- newVotingPower := int64(0)
seen := map[int]bool{}
round := commit.Round()
for idx, precommit := range commit.Precommits {
- // first check as in VerifyCommit
if precommit == nil {
continue
}
if precommit.Height != height {
- // return certerr.ErrHeightMismatch(height, precommit.Height)
return cmn.NewError("Blocks don't match - %d vs %d", round, precommit.Round)
}
if precommit.Round != round {
@@ -330,54 +364,45 @@ func (valSet *ValidatorSet) VerifyCommitAny(newSet *ValidatorSet, chainID string
if precommit.Type != VoteTypePrecommit {
return cmn.NewError("Invalid commit -- not precommit @ index %v", idx)
}
- if !blockID.Equals(precommit.BlockID) {
- continue // Not an error, but doesn't count
- }
-
- // we only grab by address, ignoring unknown validators
- vi, ov := valSet.GetByAddress(precommit.ValidatorAddress)
- if ov == nil || seen[vi] {
+ // See if this validator is in oldVals.
+ idx, val := oldVals.GetByAddress(precommit.ValidatorAddress)
+ if val == nil || seen[idx] {
continue // missing or double vote...
}
- seen[vi] = true
+ seen[idx] = true
- // Validate signature old school
+ // Validate signature.
precommitSignBytes := precommit.SignBytes(chainID)
- if !ov.PubKey.VerifyBytes(precommitSignBytes, precommit.Signature) {
+ if !val.PubKey.VerifyBytes(precommitSignBytes, precommit.Signature) {
return cmn.NewError("Invalid commit -- invalid signature: %v", precommit)
}
// Good precommit!
- oldVotingPower += ov.VotingPower
-
- // check new school
- _, cv := newSet.GetByIndex(idx)
- if cv.PubKey.Equals(ov.PubKey) {
- // make sure this is properly set in the current block as well
- newVotingPower += cv.VotingPower
+ if blockID.Equals(precommit.BlockID) {
+ oldVotingPower += val.VotingPower
+ } else {
+ // It's OK that the BlockID doesn't match. We include stray
+ // precommits to measure validator availability.
}
}
- if oldVotingPower <= valSet.TotalVotingPower()*2/3 {
+ if oldVotingPower <= oldVals.TotalVotingPower()*2/3 {
return cmn.NewError("Invalid commit -- insufficient old voting power: got %v, needed %v",
- oldVotingPower, (valSet.TotalVotingPower()*2/3 + 1))
- } else if newVotingPower <= newSet.TotalVotingPower()*2/3 {
- return cmn.NewError("Invalid commit -- insufficient cur voting power: got %v, needed %v",
- newVotingPower, (newSet.TotalVotingPower()*2/3 + 1))
+ oldVotingPower, (oldVals.TotalVotingPower()*2/3 + 1))
}
return nil
}
-func (valSet *ValidatorSet) String() string {
- return valSet.StringIndented("")
+func (vals *ValidatorSet) String() string {
+ return vals.StringIndented("")
}
// String
-func (valSet *ValidatorSet) StringIndented(indent string) string {
- if valSet == nil {
+func (vals *ValidatorSet) StringIndented(indent string) string {
+ if vals == nil {
return "nil-ValidatorSet"
}
valStrings := []string{}
- valSet.Iterate(func(index int, val *Validator) bool {
+ vals.Iterate(func(index int, val *Validator) bool {
valStrings = append(valStrings, val.String())
return false
})
@@ -386,9 +411,9 @@ func (valSet *ValidatorSet) StringIndented(indent string) string {
%s Validators:
%s %v
%s}`,
- indent, valSet.GetProposer().String(),
+ indent, vals.GetProposer().String(),
indent,
- indent, strings.Join(valStrings, "\n"+indent+" "),
+ indent, strings.Join(valStrings, "\n"+indent+" "),
indent)
}
@@ -399,18 +424,18 @@ func (valSet *ValidatorSet) StringIndented(indent string) string {
// Sort validators by address
type ValidatorsByAddress []*Validator
-func (vs ValidatorsByAddress) Len() int {
- return len(vs)
+func (valz ValidatorsByAddress) Len() int {
+ return len(valz)
}
-func (vs ValidatorsByAddress) Less(i, j int) bool {
- return bytes.Compare(vs[i].Address, vs[j].Address) == -1
+func (valz ValidatorsByAddress) Less(i, j int) bool {
+ return bytes.Compare(valz[i].Address, valz[j].Address) == -1
}
-func (vs ValidatorsByAddress) Swap(i, j int) {
- it := vs[i]
- vs[i] = vs[j]
- vs[j] = it
+func (valz ValidatorsByAddress) Swap(i, j int) {
+ it := valz[i]
+ valz[i] = valz[j]
+ valz[j] = it
}
//-------------------------------------
@@ -434,16 +459,16 @@ func (ac accumComparable) Less(o interface{}) bool {
// NOTE: PrivValidator are in order.
// UNSTABLE
func RandValidatorSet(numValidators int, votingPower int64) (*ValidatorSet, []PrivValidator) {
- vals := make([]*Validator, numValidators)
+ valz := make([]*Validator, numValidators)
privValidators := make([]PrivValidator, numValidators)
for i := 0; i < numValidators; i++ {
val, privValidator := RandValidator(false, votingPower)
- vals[i] = val
+ valz[i] = val
privValidators[i] = privValidator
}
- valSet := NewValidatorSet(vals)
+ vals := NewValidatorSet(valz)
sort.Sort(PrivValidatorsByAddress(privValidators))
- return valSet, privValidators
+ return vals, privValidators
}
///////////////////////////////////////////////////////////////////////////////
diff --git a/vendor/github.com/tendermint/tendermint/types/vote.go b/vendor/github.com/tendermint/tendermint/types/vote.go
index 9a6180d75567975f92959b814a3024e8ff51659f..6481f56b9c5db53b1f20ba4094717de9c0ab09a3 100644
--- a/vendor/github.com/tendermint/tendermint/types/vote.go
+++ b/vendor/github.com/tendermint/tendermint/types/vote.go
@@ -10,6 +10,11 @@ import (
cmn "github.com/tendermint/tendermint/libs/common"
)
+const (
+ // MaxVoteBytes is a maximum vote size (including amino overhead).
+ MaxVoteBytes = 200
+)
+
var (
ErrVoteUnexpectedStep = errors.New("Unexpected step")
ErrVoteInvalidValidatorIndex = errors.New("Invalid validator index")
diff --git a/vendor/github.com/tendermint/tendermint/types/vote_set.go b/vendor/github.com/tendermint/tendermint/types/vote_set.go
index 36bf5ef7e3293a4963ab5bbcebb83cf19dc3bfd8..dbcacbbdb885371a923cbae87925797324b37b6a 100644
--- a/vendor/github.com/tendermint/tendermint/types/vote_set.go
+++ b/vendor/github.com/tendermint/tendermint/types/vote_set.go
@@ -170,7 +170,7 @@ func (voteSet *VoteSet) addVote(vote *Vote) (added bool, err error) {
"Cannot find validator %d in valSet of size %d", valIndex, voteSet.valSet.Size())
}
- // Ensure that the signer has the right address
+ // Ensure that the signer has the right address.
if !bytes.Equal(valAddr, lookupAddr) {
return false, errors.Wrapf(ErrVoteInvalidValidatorAddress,
"vote.ValidatorAddress (%X) does not match address (%X) for vote.ValidatorIndex (%d)\nEnsure the genesis file is correct across all validators.",
@@ -190,7 +190,7 @@ func (voteSet *VoteSet) addVote(vote *Vote) (added bool, err error) {
return false, errors.Wrapf(err, "Failed to verify vote with ChainID %s and PubKey %s", voteSet.chainID, val.PubKey)
}
- // Add vote and get conflicting vote if any
+ // Add vote and get conflicting vote if any.
added, conflicting := voteSet.addVerifiedVote(vote, blockKey, val.VotingPower)
if conflicting != nil {
return added, NewConflictingVoteError(val, conflicting, vote)
@@ -201,7 +201,7 @@ func (voteSet *VoteSet) addVote(vote *Vote) (added bool, err error) {
return added, nil
}
-// Returns (vote, true) if vote exists for valIndex and blockKey
+// Returns (vote, true) if vote exists for valIndex and blockKey.
func (voteSet *VoteSet) getVote(valIndex int, blockKey string) (vote *Vote, ok bool) {
if existing := voteSet.votes[valIndex]; existing != nil && existing.BlockID.Key() == blockKey {
return existing, true
diff --git a/vendor/github.com/tendermint/tendermint/version/version.go b/vendor/github.com/tendermint/tendermint/version/version.go
index 04880cfe0de35b5a548a9fb034cb14ae6ab9623e..337ce4eadf2e3d0f5c8e58e0911b48d0b9306ac3 100644
--- a/vendor/github.com/tendermint/tendermint/version/version.go
+++ b/vendor/github.com/tendermint/tendermint/version/version.go
@@ -3,19 +3,22 @@ package version
// Version components
const (
Maj = "0"
- Min = "23"
+ Min = "24"
Fix = "0"
)
var (
// Version is the current version of Tendermint
// Must be a string because scripts like dist.sh read this file.
- Version = "0.23.0"
+ Version = "0.24.0"
// GitCommit is the current HEAD set using ldflags.
GitCommit string
)
+// ABCIVersion is the version of the ABCI library
+const ABCIVersion = "0.14.0"
+
func init() {
if GitCommit != "" {
Version += "-" + GitCommit
diff --git a/vendor/github.com/tmthrgd/asm/asm.go b/vendor/github.com/tmthrgd/asm/asm.go
index f407798d6d0cebad4081d4aa876cbc8f323e449d..a850ae244e7e104d6fab7d7820652a60c23af674 100644
--- a/vendor/github.com/tmthrgd/asm/asm.go
+++ b/vendor/github.com/tmthrgd/asm/asm.go
@@ -690,17 +690,3 @@ func (o Opcodes) Jnz(ops ...Operand) { o.a.op("JNZ", ops...) }
func (o Opcodes) JNZ(ops ...Operand) { o.a.op("JNZ", ops...) }
func (o Opcodes) Jc(ops ...Operand) { o.a.op("JC", ops...) }
func (o Opcodes) JC(ops ...Operand) { o.a.op("JC", ops...) }
-
-// faulty/incomplete opcodes
-
-// TODO: remove when go1.11 lands (see https://github.com/golang/go/commit/b80b4a23d1)
-func (o Opcodes) Pextrw(ops ...Operand) { o.a.unsupOp("PEXTRW", ops...) }
-func (o Opcodes) PEXTRW(ops ...Operand) { o.a.unsupOp("PEXTRW", ops...) }
-
-// unsupported opcodes
-
-// TODO: remove when go1.11 lands (see https://github.com/golang/go/commit/b80b4a23d1)
-func (o Opcodes) Pblendvb(ops ...Operand) { o.a.unsupOp("PBLENDVB", ops...) }
-func (o Opcodes) PBLENDVB(ops ...Operand) { o.a.unsupOp("PBLENDVB", ops...) }
-func (o Opcodes) Cmpxchg16b(ops ...Operand) { o.a.unsupOp("CMPXCHG16B", ops...) }
-func (o Opcodes) CMPXCHG16B(ops ...Operand) { o.a.unsupOp("CMPXCHG16B", ops...) }
diff --git a/vendor/github.com/tmthrgd/asm/opcode.go b/vendor/github.com/tmthrgd/asm/opcode.go
index 6bd86be5c816e1e2b5d0e507dfedbffe8472b829..397bb59b395736fd012b6738c70637bf5f534e5b 100644
--- a/vendor/github.com/tmthrgd/asm/opcode.go
+++ b/vendor/github.com/tmthrgd/asm/opcode.go
@@ -3,2251 +3,3191 @@
package asm
-func (o Opcodes) Aad(ops ...Operand) { o.a.op("AAD", ops...) }
-func (o Opcodes) AAD(ops ...Operand) { o.a.op("AAD", ops...) }
-func (o Opcodes) Aam(ops ...Operand) { o.a.op("AAM", ops...) }
-func (o Opcodes) AAM(ops ...Operand) { o.a.op("AAM", ops...) }
-func (o Opcodes) Aas(ops ...Operand) { o.a.op("AAS", ops...) }
-func (o Opcodes) AAS(ops ...Operand) { o.a.op("AAS", ops...) }
-func (o Opcodes) Adcb(ops ...Operand) { o.a.op("ADCB", ops...) }
-func (o Opcodes) ADCB(ops ...Operand) { o.a.op("ADCB", ops...) }
-func (o Opcodes) Adcl(ops ...Operand) { o.a.op("ADCL", ops...) }
-func (o Opcodes) ADCL(ops ...Operand) { o.a.op("ADCL", ops...) }
-func (o Opcodes) Adcq(ops ...Operand) { o.a.op("ADCQ", ops...) }
-func (o Opcodes) ADCQ(ops ...Operand) { o.a.op("ADCQ", ops...) }
-func (o Opcodes) Adcw(ops ...Operand) { o.a.op("ADCW", ops...) }
-func (o Opcodes) ADCW(ops ...Operand) { o.a.op("ADCW", ops...) }
-func (o Opcodes) Adcxl(ops ...Operand) { o.a.op("ADCXL", ops...) }
-func (o Opcodes) ADCXL(ops ...Operand) { o.a.op("ADCXL", ops...) }
-func (o Opcodes) Adcxq(ops ...Operand) { o.a.op("ADCXQ", ops...) }
-func (o Opcodes) ADCXQ(ops ...Operand) { o.a.op("ADCXQ", ops...) }
-func (o Opcodes) Addb(ops ...Operand) { o.a.op("ADDB", ops...) }
-func (o Opcodes) ADDB(ops ...Operand) { o.a.op("ADDB", ops...) }
-func (o Opcodes) Addl(ops ...Operand) { o.a.op("ADDL", ops...) }
-func (o Opcodes) ADDL(ops ...Operand) { o.a.op("ADDL", ops...) }
-func (o Opcodes) Addpd(ops ...Operand) { o.a.op("ADDPD", ops...) }
-func (o Opcodes) ADDPD(ops ...Operand) { o.a.op("ADDPD", ops...) }
-func (o Opcodes) Addps(ops ...Operand) { o.a.op("ADDPS", ops...) }
-func (o Opcodes) ADDPS(ops ...Operand) { o.a.op("ADDPS", ops...) }
-func (o Opcodes) Addq(ops ...Operand) { o.a.op("ADDQ", ops...) }
-func (o Opcodes) ADDQ(ops ...Operand) { o.a.op("ADDQ", ops...) }
-func (o Opcodes) Addsd(ops ...Operand) { o.a.op("ADDSD", ops...) }
-func (o Opcodes) ADDSD(ops ...Operand) { o.a.op("ADDSD", ops...) }
-func (o Opcodes) Addss(ops ...Operand) { o.a.op("ADDSS", ops...) }
-func (o Opcodes) ADDSS(ops ...Operand) { o.a.op("ADDSS", ops...) }
-func (o Opcodes) Addsubpd(ops ...Operand) { o.a.op("ADDSUBPD", ops...) }
-func (o Opcodes) ADDSUBPD(ops ...Operand) { o.a.op("ADDSUBPD", ops...) }
-func (o Opcodes) Addsubps(ops ...Operand) { o.a.op("ADDSUBPS", ops...) }
-func (o Opcodes) ADDSUBPS(ops ...Operand) { o.a.op("ADDSUBPS", ops...) }
-func (o Opcodes) Addw(ops ...Operand) { o.a.op("ADDW", ops...) }
-func (o Opcodes) ADDW(ops ...Operand) { o.a.op("ADDW", ops...) }
-func (o Opcodes) Adjsp(ops ...Operand) { o.a.op("ADJSP", ops...) }
-func (o Opcodes) ADJSP(ops ...Operand) { o.a.op("ADJSP", ops...) }
-func (o Opcodes) Adoxl(ops ...Operand) { o.a.op("ADOXL", ops...) }
-func (o Opcodes) ADOXL(ops ...Operand) { o.a.op("ADOXL", ops...) }
-func (o Opcodes) Adoxq(ops ...Operand) { o.a.op("ADOXQ", ops...) }
-func (o Opcodes) ADOXQ(ops ...Operand) { o.a.op("ADOXQ", ops...) }
-func (o Opcodes) Aesdec(ops ...Operand) { o.a.op("AESDEC", ops...) }
-func (o Opcodes) AESDEC(ops ...Operand) { o.a.op("AESDEC", ops...) }
-func (o Opcodes) Aesdeclast(ops ...Operand) { o.a.op("AESDECLAST", ops...) }
-func (o Opcodes) AESDECLAST(ops ...Operand) { o.a.op("AESDECLAST", ops...) }
-func (o Opcodes) Aesenc(ops ...Operand) { o.a.op("AESENC", ops...) }
-func (o Opcodes) AESENC(ops ...Operand) { o.a.op("AESENC", ops...) }
-func (o Opcodes) Aesenclast(ops ...Operand) { o.a.op("AESENCLAST", ops...) }
-func (o Opcodes) AESENCLAST(ops ...Operand) { o.a.op("AESENCLAST", ops...) }
-func (o Opcodes) Aesimc(ops ...Operand) { o.a.op("AESIMC", ops...) }
-func (o Opcodes) AESIMC(ops ...Operand) { o.a.op("AESIMC", ops...) }
-func (o Opcodes) Aeskeygenassist(ops ...Operand) { o.a.op("AESKEYGENASSIST", ops...) }
-func (o Opcodes) AESKEYGENASSIST(ops ...Operand) { o.a.op("AESKEYGENASSIST", ops...) }
-func (o Opcodes) Andb(ops ...Operand) { o.a.op("ANDB", ops...) }
-func (o Opcodes) ANDB(ops ...Operand) { o.a.op("ANDB", ops...) }
-func (o Opcodes) Andl(ops ...Operand) { o.a.op("ANDL", ops...) }
-func (o Opcodes) ANDL(ops ...Operand) { o.a.op("ANDL", ops...) }
-func (o Opcodes) Andnl(ops ...Operand) { o.a.op("ANDNL", ops...) }
-func (o Opcodes) ANDNL(ops ...Operand) { o.a.op("ANDNL", ops...) }
-func (o Opcodes) Andnpd(ops ...Operand) { o.a.op("ANDNPD", ops...) }
-func (o Opcodes) ANDNPD(ops ...Operand) { o.a.op("ANDNPD", ops...) }
-func (o Opcodes) Andnps(ops ...Operand) { o.a.op("ANDNPS", ops...) }
-func (o Opcodes) ANDNPS(ops ...Operand) { o.a.op("ANDNPS", ops...) }
-func (o Opcodes) Andnq(ops ...Operand) { o.a.op("ANDNQ", ops...) }
-func (o Opcodes) ANDNQ(ops ...Operand) { o.a.op("ANDNQ", ops...) }
-func (o Opcodes) Andpd(ops ...Operand) { o.a.op("ANDPD", ops...) }
-func (o Opcodes) ANDPD(ops ...Operand) { o.a.op("ANDPD", ops...) }
-func (o Opcodes) Andps(ops ...Operand) { o.a.op("ANDPS", ops...) }
-func (o Opcodes) ANDPS(ops ...Operand) { o.a.op("ANDPS", ops...) }
-func (o Opcodes) Andq(ops ...Operand) { o.a.op("ANDQ", ops...) }
-func (o Opcodes) ANDQ(ops ...Operand) { o.a.op("ANDQ", ops...) }
-func (o Opcodes) Andw(ops ...Operand) { o.a.op("ANDW", ops...) }
-func (o Opcodes) ANDW(ops ...Operand) { o.a.op("ANDW", ops...) }
-func (o Opcodes) Arpl(ops ...Operand) { o.a.op("ARPL", ops...) }
-func (o Opcodes) ARPL(ops ...Operand) { o.a.op("ARPL", ops...) }
-func (o Opcodes) Bextrl(ops ...Operand) { o.a.op("BEXTRL", ops...) }
-func (o Opcodes) BEXTRL(ops ...Operand) { o.a.op("BEXTRL", ops...) }
-func (o Opcodes) Bextrq(ops ...Operand) { o.a.op("BEXTRQ", ops...) }
-func (o Opcodes) BEXTRQ(ops ...Operand) { o.a.op("BEXTRQ", ops...) }
-func (o Opcodes) Blendpd(ops ...Operand) { o.a.op("BLENDPD", ops...) }
-func (o Opcodes) BLENDPD(ops ...Operand) { o.a.op("BLENDPD", ops...) }
-func (o Opcodes) Blendps(ops ...Operand) { o.a.op("BLENDPS", ops...) }
-func (o Opcodes) BLENDPS(ops ...Operand) { o.a.op("BLENDPS", ops...) }
-func (o Opcodes) Blsil(ops ...Operand) { o.a.op("BLSIL", ops...) }
-func (o Opcodes) BLSIL(ops ...Operand) { o.a.op("BLSIL", ops...) }
-func (o Opcodes) Blsiq(ops ...Operand) { o.a.op("BLSIQ", ops...) }
-func (o Opcodes) BLSIQ(ops ...Operand) { o.a.op("BLSIQ", ops...) }
-func (o Opcodes) Blsmskl(ops ...Operand) { o.a.op("BLSMSKL", ops...) }
-func (o Opcodes) BLSMSKL(ops ...Operand) { o.a.op("BLSMSKL", ops...) }
-func (o Opcodes) Blsmskq(ops ...Operand) { o.a.op("BLSMSKQ", ops...) }
-func (o Opcodes) BLSMSKQ(ops ...Operand) { o.a.op("BLSMSKQ", ops...) }
-func (o Opcodes) Blsrl(ops ...Operand) { o.a.op("BLSRL", ops...) }
-func (o Opcodes) BLSRL(ops ...Operand) { o.a.op("BLSRL", ops...) }
-func (o Opcodes) Blsrq(ops ...Operand) { o.a.op("BLSRQ", ops...) }
-func (o Opcodes) BLSRQ(ops ...Operand) { o.a.op("BLSRQ", ops...) }
-func (o Opcodes) Boundl(ops ...Operand) { o.a.op("BOUNDL", ops...) }
-func (o Opcodes) BOUNDL(ops ...Operand) { o.a.op("BOUNDL", ops...) }
-func (o Opcodes) Boundw(ops ...Operand) { o.a.op("BOUNDW", ops...) }
-func (o Opcodes) BOUNDW(ops ...Operand) { o.a.op("BOUNDW", ops...) }
-func (o Opcodes) Bsfl(ops ...Operand) { o.a.op("BSFL", ops...) }
-func (o Opcodes) BSFL(ops ...Operand) { o.a.op("BSFL", ops...) }
-func (o Opcodes) Bsfq(ops ...Operand) { o.a.op("BSFQ", ops...) }
-func (o Opcodes) BSFQ(ops ...Operand) { o.a.op("BSFQ", ops...) }
-func (o Opcodes) Bsfw(ops ...Operand) { o.a.op("BSFW", ops...) }
-func (o Opcodes) BSFW(ops ...Operand) { o.a.op("BSFW", ops...) }
-func (o Opcodes) Bsrl(ops ...Operand) { o.a.op("BSRL", ops...) }
-func (o Opcodes) BSRL(ops ...Operand) { o.a.op("BSRL", ops...) }
-func (o Opcodes) Bsrq(ops ...Operand) { o.a.op("BSRQ", ops...) }
-func (o Opcodes) BSRQ(ops ...Operand) { o.a.op("BSRQ", ops...) }
-func (o Opcodes) Bsrw(ops ...Operand) { o.a.op("BSRW", ops...) }
-func (o Opcodes) BSRW(ops ...Operand) { o.a.op("BSRW", ops...) }
-func (o Opcodes) Bswapl(ops ...Operand) { o.a.op("BSWAPL", ops...) }
-func (o Opcodes) BSWAPL(ops ...Operand) { o.a.op("BSWAPL", ops...) }
-func (o Opcodes) Bswapq(ops ...Operand) { o.a.op("BSWAPQ", ops...) }
-func (o Opcodes) BSWAPQ(ops ...Operand) { o.a.op("BSWAPQ", ops...) }
-func (o Opcodes) Btcl(ops ...Operand) { o.a.op("BTCL", ops...) }
-func (o Opcodes) BTCL(ops ...Operand) { o.a.op("BTCL", ops...) }
-func (o Opcodes) Btcq(ops ...Operand) { o.a.op("BTCQ", ops...) }
-func (o Opcodes) BTCQ(ops ...Operand) { o.a.op("BTCQ", ops...) }
-func (o Opcodes) Btcw(ops ...Operand) { o.a.op("BTCW", ops...) }
-func (o Opcodes) BTCW(ops ...Operand) { o.a.op("BTCW", ops...) }
-func (o Opcodes) Btl(ops ...Operand) { o.a.op("BTL", ops...) }
-func (o Opcodes) BTL(ops ...Operand) { o.a.op("BTL", ops...) }
-func (o Opcodes) Btq(ops ...Operand) { o.a.op("BTQ", ops...) }
-func (o Opcodes) BTQ(ops ...Operand) { o.a.op("BTQ", ops...) }
-func (o Opcodes) Btrl(ops ...Operand) { o.a.op("BTRL", ops...) }
-func (o Opcodes) BTRL(ops ...Operand) { o.a.op("BTRL", ops...) }
-func (o Opcodes) Btrq(ops ...Operand) { o.a.op("BTRQ", ops...) }
-func (o Opcodes) BTRQ(ops ...Operand) { o.a.op("BTRQ", ops...) }
-func (o Opcodes) Btrw(ops ...Operand) { o.a.op("BTRW", ops...) }
-func (o Opcodes) BTRW(ops ...Operand) { o.a.op("BTRW", ops...) }
-func (o Opcodes) Btsl(ops ...Operand) { o.a.op("BTSL", ops...) }
-func (o Opcodes) BTSL(ops ...Operand) { o.a.op("BTSL", ops...) }
-func (o Opcodes) Btsq(ops ...Operand) { o.a.op("BTSQ", ops...) }
-func (o Opcodes) BTSQ(ops ...Operand) { o.a.op("BTSQ", ops...) }
-func (o Opcodes) Btsw(ops ...Operand) { o.a.op("BTSW", ops...) }
-func (o Opcodes) BTSW(ops ...Operand) { o.a.op("BTSW", ops...) }
-func (o Opcodes) Btw(ops ...Operand) { o.a.op("BTW", ops...) }
-func (o Opcodes) BTW(ops ...Operand) { o.a.op("BTW", ops...) }
-func (o Opcodes) Byte(ops ...Operand) { o.a.op("BYTE", ops...) }
-func (o Opcodes) BYTE(ops ...Operand) { o.a.op("BYTE", ops...) }
-func (o Opcodes) Bzhil(ops ...Operand) { o.a.op("BZHIL", ops...) }
-func (o Opcodes) BZHIL(ops ...Operand) { o.a.op("BZHIL", ops...) }
-func (o Opcodes) Bzhiq(ops ...Operand) { o.a.op("BZHIQ", ops...) }
-func (o Opcodes) BZHIQ(ops ...Operand) { o.a.op("BZHIQ", ops...) }
-func (o Opcodes) Cdq(ops ...Operand) { o.a.op("CDQ", ops...) }
-func (o Opcodes) CDQ(ops ...Operand) { o.a.op("CDQ", ops...) }
-func (o Opcodes) Clc(ops ...Operand) { o.a.op("CLC", ops...) }
-func (o Opcodes) CLC(ops ...Operand) { o.a.op("CLC", ops...) }
-func (o Opcodes) Cld(ops ...Operand) { o.a.op("CLD", ops...) }
-func (o Opcodes) CLD(ops ...Operand) { o.a.op("CLD", ops...) }
-func (o Opcodes) Clflush(ops ...Operand) { o.a.op("CLFLUSH", ops...) }
-func (o Opcodes) CLFLUSH(ops ...Operand) { o.a.op("CLFLUSH", ops...) }
-func (o Opcodes) Cli(ops ...Operand) { o.a.op("CLI", ops...) }
-func (o Opcodes) CLI(ops ...Operand) { o.a.op("CLI", ops...) }
-func (o Opcodes) Clts(ops ...Operand) { o.a.op("CLTS", ops...) }
-func (o Opcodes) CLTS(ops ...Operand) { o.a.op("CLTS", ops...) }
-func (o Opcodes) Cmc(ops ...Operand) { o.a.op("CMC", ops...) }
-func (o Opcodes) CMC(ops ...Operand) { o.a.op("CMC", ops...) }
-func (o Opcodes) Cmovlcc(ops ...Operand) { o.a.op("CMOVLCC", ops...) }
-func (o Opcodes) CMOVLCC(ops ...Operand) { o.a.op("CMOVLCC", ops...) }
-func (o Opcodes) Cmovlcs(ops ...Operand) { o.a.op("CMOVLCS", ops...) }
-func (o Opcodes) CMOVLCS(ops ...Operand) { o.a.op("CMOVLCS", ops...) }
-func (o Opcodes) Cmovleq(ops ...Operand) { o.a.op("CMOVLEQ", ops...) }
-func (o Opcodes) CMOVLEQ(ops ...Operand) { o.a.op("CMOVLEQ", ops...) }
-func (o Opcodes) Cmovlge(ops ...Operand) { o.a.op("CMOVLGE", ops...) }
-func (o Opcodes) CMOVLGE(ops ...Operand) { o.a.op("CMOVLGE", ops...) }
-func (o Opcodes) Cmovlgt(ops ...Operand) { o.a.op("CMOVLGT", ops...) }
-func (o Opcodes) CMOVLGT(ops ...Operand) { o.a.op("CMOVLGT", ops...) }
-func (o Opcodes) Cmovlhi(ops ...Operand) { o.a.op("CMOVLHI", ops...) }
-func (o Opcodes) CMOVLHI(ops ...Operand) { o.a.op("CMOVLHI", ops...) }
-func (o Opcodes) Cmovlle(ops ...Operand) { o.a.op("CMOVLLE", ops...) }
-func (o Opcodes) CMOVLLE(ops ...Operand) { o.a.op("CMOVLLE", ops...) }
-func (o Opcodes) Cmovlls(ops ...Operand) { o.a.op("CMOVLLS", ops...) }
-func (o Opcodes) CMOVLLS(ops ...Operand) { o.a.op("CMOVLLS", ops...) }
-func (o Opcodes) Cmovllt(ops ...Operand) { o.a.op("CMOVLLT", ops...) }
-func (o Opcodes) CMOVLLT(ops ...Operand) { o.a.op("CMOVLLT", ops...) }
-func (o Opcodes) Cmovlmi(ops ...Operand) { o.a.op("CMOVLMI", ops...) }
-func (o Opcodes) CMOVLMI(ops ...Operand) { o.a.op("CMOVLMI", ops...) }
-func (o Opcodes) Cmovlne(ops ...Operand) { o.a.op("CMOVLNE", ops...) }
-func (o Opcodes) CMOVLNE(ops ...Operand) { o.a.op("CMOVLNE", ops...) }
-func (o Opcodes) Cmovloc(ops ...Operand) { o.a.op("CMOVLOC", ops...) }
-func (o Opcodes) CMOVLOC(ops ...Operand) { o.a.op("CMOVLOC", ops...) }
-func (o Opcodes) Cmovlos(ops ...Operand) { o.a.op("CMOVLOS", ops...) }
-func (o Opcodes) CMOVLOS(ops ...Operand) { o.a.op("CMOVLOS", ops...) }
-func (o Opcodes) Cmovlpc(ops ...Operand) { o.a.op("CMOVLPC", ops...) }
-func (o Opcodes) CMOVLPC(ops ...Operand) { o.a.op("CMOVLPC", ops...) }
-func (o Opcodes) Cmovlpl(ops ...Operand) { o.a.op("CMOVLPL", ops...) }
-func (o Opcodes) CMOVLPL(ops ...Operand) { o.a.op("CMOVLPL", ops...) }
-func (o Opcodes) Cmovlps(ops ...Operand) { o.a.op("CMOVLPS", ops...) }
-func (o Opcodes) CMOVLPS(ops ...Operand) { o.a.op("CMOVLPS", ops...) }
-func (o Opcodes) Cmovqcc(ops ...Operand) { o.a.op("CMOVQCC", ops...) }
-func (o Opcodes) CMOVQCC(ops ...Operand) { o.a.op("CMOVQCC", ops...) }
-func (o Opcodes) Cmovqcs(ops ...Operand) { o.a.op("CMOVQCS", ops...) }
-func (o Opcodes) CMOVQCS(ops ...Operand) { o.a.op("CMOVQCS", ops...) }
-func (o Opcodes) Cmovqeq(ops ...Operand) { o.a.op("CMOVQEQ", ops...) }
-func (o Opcodes) CMOVQEQ(ops ...Operand) { o.a.op("CMOVQEQ", ops...) }
-func (o Opcodes) Cmovqge(ops ...Operand) { o.a.op("CMOVQGE", ops...) }
-func (o Opcodes) CMOVQGE(ops ...Operand) { o.a.op("CMOVQGE", ops...) }
-func (o Opcodes) Cmovqgt(ops ...Operand) { o.a.op("CMOVQGT", ops...) }
-func (o Opcodes) CMOVQGT(ops ...Operand) { o.a.op("CMOVQGT", ops...) }
-func (o Opcodes) Cmovqhi(ops ...Operand) { o.a.op("CMOVQHI", ops...) }
-func (o Opcodes) CMOVQHI(ops ...Operand) { o.a.op("CMOVQHI", ops...) }
-func (o Opcodes) Cmovqle(ops ...Operand) { o.a.op("CMOVQLE", ops...) }
-func (o Opcodes) CMOVQLE(ops ...Operand) { o.a.op("CMOVQLE", ops...) }
-func (o Opcodes) Cmovqls(ops ...Operand) { o.a.op("CMOVQLS", ops...) }
-func (o Opcodes) CMOVQLS(ops ...Operand) { o.a.op("CMOVQLS", ops...) }
-func (o Opcodes) Cmovqlt(ops ...Operand) { o.a.op("CMOVQLT", ops...) }
-func (o Opcodes) CMOVQLT(ops ...Operand) { o.a.op("CMOVQLT", ops...) }
-func (o Opcodes) Cmovqmi(ops ...Operand) { o.a.op("CMOVQMI", ops...) }
-func (o Opcodes) CMOVQMI(ops ...Operand) { o.a.op("CMOVQMI", ops...) }
-func (o Opcodes) Cmovqne(ops ...Operand) { o.a.op("CMOVQNE", ops...) }
-func (o Opcodes) CMOVQNE(ops ...Operand) { o.a.op("CMOVQNE", ops...) }
-func (o Opcodes) Cmovqoc(ops ...Operand) { o.a.op("CMOVQOC", ops...) }
-func (o Opcodes) CMOVQOC(ops ...Operand) { o.a.op("CMOVQOC", ops...) }
-func (o Opcodes) Cmovqos(ops ...Operand) { o.a.op("CMOVQOS", ops...) }
-func (o Opcodes) CMOVQOS(ops ...Operand) { o.a.op("CMOVQOS", ops...) }
-func (o Opcodes) Cmovqpc(ops ...Operand) { o.a.op("CMOVQPC", ops...) }
-func (o Opcodes) CMOVQPC(ops ...Operand) { o.a.op("CMOVQPC", ops...) }
-func (o Opcodes) Cmovqpl(ops ...Operand) { o.a.op("CMOVQPL", ops...) }
-func (o Opcodes) CMOVQPL(ops ...Operand) { o.a.op("CMOVQPL", ops...) }
-func (o Opcodes) Cmovqps(ops ...Operand) { o.a.op("CMOVQPS", ops...) }
-func (o Opcodes) CMOVQPS(ops ...Operand) { o.a.op("CMOVQPS", ops...) }
-func (o Opcodes) Cmovwcc(ops ...Operand) { o.a.op("CMOVWCC", ops...) }
-func (o Opcodes) CMOVWCC(ops ...Operand) { o.a.op("CMOVWCC", ops...) }
-func (o Opcodes) Cmovwcs(ops ...Operand) { o.a.op("CMOVWCS", ops...) }
-func (o Opcodes) CMOVWCS(ops ...Operand) { o.a.op("CMOVWCS", ops...) }
-func (o Opcodes) Cmovweq(ops ...Operand) { o.a.op("CMOVWEQ", ops...) }
-func (o Opcodes) CMOVWEQ(ops ...Operand) { o.a.op("CMOVWEQ", ops...) }
-func (o Opcodes) Cmovwge(ops ...Operand) { o.a.op("CMOVWGE", ops...) }
-func (o Opcodes) CMOVWGE(ops ...Operand) { o.a.op("CMOVWGE", ops...) }
-func (o Opcodes) Cmovwgt(ops ...Operand) { o.a.op("CMOVWGT", ops...) }
-func (o Opcodes) CMOVWGT(ops ...Operand) { o.a.op("CMOVWGT", ops...) }
-func (o Opcodes) Cmovwhi(ops ...Operand) { o.a.op("CMOVWHI", ops...) }
-func (o Opcodes) CMOVWHI(ops ...Operand) { o.a.op("CMOVWHI", ops...) }
-func (o Opcodes) Cmovwle(ops ...Operand) { o.a.op("CMOVWLE", ops...) }
-func (o Opcodes) CMOVWLE(ops ...Operand) { o.a.op("CMOVWLE", ops...) }
-func (o Opcodes) Cmovwls(ops ...Operand) { o.a.op("CMOVWLS", ops...) }
-func (o Opcodes) CMOVWLS(ops ...Operand) { o.a.op("CMOVWLS", ops...) }
-func (o Opcodes) Cmovwlt(ops ...Operand) { o.a.op("CMOVWLT", ops...) }
-func (o Opcodes) CMOVWLT(ops ...Operand) { o.a.op("CMOVWLT", ops...) }
-func (o Opcodes) Cmovwmi(ops ...Operand) { o.a.op("CMOVWMI", ops...) }
-func (o Opcodes) CMOVWMI(ops ...Operand) { o.a.op("CMOVWMI", ops...) }
-func (o Opcodes) Cmovwne(ops ...Operand) { o.a.op("CMOVWNE", ops...) }
-func (o Opcodes) CMOVWNE(ops ...Operand) { o.a.op("CMOVWNE", ops...) }
-func (o Opcodes) Cmovwoc(ops ...Operand) { o.a.op("CMOVWOC", ops...) }
-func (o Opcodes) CMOVWOC(ops ...Operand) { o.a.op("CMOVWOC", ops...) }
-func (o Opcodes) Cmovwos(ops ...Operand) { o.a.op("CMOVWOS", ops...) }
-func (o Opcodes) CMOVWOS(ops ...Operand) { o.a.op("CMOVWOS", ops...) }
-func (o Opcodes) Cmovwpc(ops ...Operand) { o.a.op("CMOVWPC", ops...) }
-func (o Opcodes) CMOVWPC(ops ...Operand) { o.a.op("CMOVWPC", ops...) }
-func (o Opcodes) Cmovwpl(ops ...Operand) { o.a.op("CMOVWPL", ops...) }
-func (o Opcodes) CMOVWPL(ops ...Operand) { o.a.op("CMOVWPL", ops...) }
-func (o Opcodes) Cmovwps(ops ...Operand) { o.a.op("CMOVWPS", ops...) }
-func (o Opcodes) CMOVWPS(ops ...Operand) { o.a.op("CMOVWPS", ops...) }
-func (o Opcodes) Cmpb(ops ...Operand) { o.a.op("CMPB", ops...) }
-func (o Opcodes) CMPB(ops ...Operand) { o.a.op("CMPB", ops...) }
-func (o Opcodes) Cmpl(ops ...Operand) { o.a.op("CMPL", ops...) }
-func (o Opcodes) CMPL(ops ...Operand) { o.a.op("CMPL", ops...) }
-func (o Opcodes) Cmppd(ops ...Operand) { o.a.op("CMPPD", ops...) }
-func (o Opcodes) CMPPD(ops ...Operand) { o.a.op("CMPPD", ops...) }
-func (o Opcodes) Cmpps(ops ...Operand) { o.a.op("CMPPS", ops...) }
-func (o Opcodes) CMPPS(ops ...Operand) { o.a.op("CMPPS", ops...) }
-func (o Opcodes) Cmpq(ops ...Operand) { o.a.op("CMPQ", ops...) }
-func (o Opcodes) CMPQ(ops ...Operand) { o.a.op("CMPQ", ops...) }
-func (o Opcodes) Cmpsb(ops ...Operand) { o.a.op("CMPSB", ops...) }
-func (o Opcodes) CMPSB(ops ...Operand) { o.a.op("CMPSB", ops...) }
-func (o Opcodes) Cmpsd(ops ...Operand) { o.a.op("CMPSD", ops...) }
-func (o Opcodes) CMPSD(ops ...Operand) { o.a.op("CMPSD", ops...) }
-func (o Opcodes) Cmpsl(ops ...Operand) { o.a.op("CMPSL", ops...) }
-func (o Opcodes) CMPSL(ops ...Operand) { o.a.op("CMPSL", ops...) }
-func (o Opcodes) Cmpsq(ops ...Operand) { o.a.op("CMPSQ", ops...) }
-func (o Opcodes) CMPSQ(ops ...Operand) { o.a.op("CMPSQ", ops...) }
-func (o Opcodes) Cmpss(ops ...Operand) { o.a.op("CMPSS", ops...) }
-func (o Opcodes) CMPSS(ops ...Operand) { o.a.op("CMPSS", ops...) }
-func (o Opcodes) Cmpsw(ops ...Operand) { o.a.op("CMPSW", ops...) }
-func (o Opcodes) CMPSW(ops ...Operand) { o.a.op("CMPSW", ops...) }
-func (o Opcodes) Cmpw(ops ...Operand) { o.a.op("CMPW", ops...) }
-func (o Opcodes) CMPW(ops ...Operand) { o.a.op("CMPW", ops...) }
-func (o Opcodes) Cmpxchg8b(ops ...Operand) { o.a.op("CMPXCHG8B", ops...) }
-func (o Opcodes) CMPXCHG8B(ops ...Operand) { o.a.op("CMPXCHG8B", ops...) }
-func (o Opcodes) Cmpxchgb(ops ...Operand) { o.a.op("CMPXCHGB", ops...) }
-func (o Opcodes) CMPXCHGB(ops ...Operand) { o.a.op("CMPXCHGB", ops...) }
-func (o Opcodes) Cmpxchgl(ops ...Operand) { o.a.op("CMPXCHGL", ops...) }
-func (o Opcodes) CMPXCHGL(ops ...Operand) { o.a.op("CMPXCHGL", ops...) }
-func (o Opcodes) Cmpxchgq(ops ...Operand) { o.a.op("CMPXCHGQ", ops...) }
-func (o Opcodes) CMPXCHGQ(ops ...Operand) { o.a.op("CMPXCHGQ", ops...) }
-func (o Opcodes) Cmpxchgw(ops ...Operand) { o.a.op("CMPXCHGW", ops...) }
-func (o Opcodes) CMPXCHGW(ops ...Operand) { o.a.op("CMPXCHGW", ops...) }
-func (o Opcodes) Comisd(ops ...Operand) { o.a.op("COMISD", ops...) }
-func (o Opcodes) COMISD(ops ...Operand) { o.a.op("COMISD", ops...) }
-func (o Opcodes) Comiss(ops ...Operand) { o.a.op("COMISS", ops...) }
-func (o Opcodes) COMISS(ops ...Operand) { o.a.op("COMISS", ops...) }
-func (o Opcodes) Cpuid(ops ...Operand) { o.a.op("CPUID", ops...) }
-func (o Opcodes) CPUID(ops ...Operand) { o.a.op("CPUID", ops...) }
-func (o Opcodes) Cqo(ops ...Operand) { o.a.op("CQO", ops...) }
-func (o Opcodes) CQO(ops ...Operand) { o.a.op("CQO", ops...) }
-func (o Opcodes) Crc32b(ops ...Operand) { o.a.op("CRC32B", ops...) }
-func (o Opcodes) CRC32B(ops ...Operand) { o.a.op("CRC32B", ops...) }
-func (o Opcodes) Crc32q(ops ...Operand) { o.a.op("CRC32Q", ops...) }
-func (o Opcodes) CRC32Q(ops ...Operand) { o.a.op("CRC32Q", ops...) }
-func (o Opcodes) Cvtpd2pl(ops ...Operand) { o.a.op("CVTPD2PL", ops...) }
-func (o Opcodes) CVTPD2PL(ops ...Operand) { o.a.op("CVTPD2PL", ops...) }
-func (o Opcodes) Cvtpd2ps(ops ...Operand) { o.a.op("CVTPD2PS", ops...) }
-func (o Opcodes) CVTPD2PS(ops ...Operand) { o.a.op("CVTPD2PS", ops...) }
-func (o Opcodes) Cvtpl2pd(ops ...Operand) { o.a.op("CVTPL2PD", ops...) }
-func (o Opcodes) CVTPL2PD(ops ...Operand) { o.a.op("CVTPL2PD", ops...) }
-func (o Opcodes) Cvtpl2ps(ops ...Operand) { o.a.op("CVTPL2PS", ops...) }
-func (o Opcodes) CVTPL2PS(ops ...Operand) { o.a.op("CVTPL2PS", ops...) }
-func (o Opcodes) Cvtps2pd(ops ...Operand) { o.a.op("CVTPS2PD", ops...) }
-func (o Opcodes) CVTPS2PD(ops ...Operand) { o.a.op("CVTPS2PD", ops...) }
-func (o Opcodes) Cvtps2pl(ops ...Operand) { o.a.op("CVTPS2PL", ops...) }
-func (o Opcodes) CVTPS2PL(ops ...Operand) { o.a.op("CVTPS2PL", ops...) }
-func (o Opcodes) Cvtsd2sl(ops ...Operand) { o.a.op("CVTSD2SL", ops...) }
-func (o Opcodes) CVTSD2SL(ops ...Operand) { o.a.op("CVTSD2SL", ops...) }
-func (o Opcodes) Cvtsd2sq(ops ...Operand) { o.a.op("CVTSD2SQ", ops...) }
-func (o Opcodes) CVTSD2SQ(ops ...Operand) { o.a.op("CVTSD2SQ", ops...) }
-func (o Opcodes) Cvtsd2ss(ops ...Operand) { o.a.op("CVTSD2SS", ops...) }
-func (o Opcodes) CVTSD2SS(ops ...Operand) { o.a.op("CVTSD2SS", ops...) }
-func (o Opcodes) Cvtsl2sd(ops ...Operand) { o.a.op("CVTSL2SD", ops...) }
-func (o Opcodes) CVTSL2SD(ops ...Operand) { o.a.op("CVTSL2SD", ops...) }
-func (o Opcodes) Cvtsl2ss(ops ...Operand) { o.a.op("CVTSL2SS", ops...) }
-func (o Opcodes) CVTSL2SS(ops ...Operand) { o.a.op("CVTSL2SS", ops...) }
-func (o Opcodes) Cvtsq2sd(ops ...Operand) { o.a.op("CVTSQ2SD", ops...) }
-func (o Opcodes) CVTSQ2SD(ops ...Operand) { o.a.op("CVTSQ2SD", ops...) }
-func (o Opcodes) Cvtsq2ss(ops ...Operand) { o.a.op("CVTSQ2SS", ops...) }
-func (o Opcodes) CVTSQ2SS(ops ...Operand) { o.a.op("CVTSQ2SS", ops...) }
-func (o Opcodes) Cvtss2sd(ops ...Operand) { o.a.op("CVTSS2SD", ops...) }
-func (o Opcodes) CVTSS2SD(ops ...Operand) { o.a.op("CVTSS2SD", ops...) }
-func (o Opcodes) Cvtss2sl(ops ...Operand) { o.a.op("CVTSS2SL", ops...) }
-func (o Opcodes) CVTSS2SL(ops ...Operand) { o.a.op("CVTSS2SL", ops...) }
-func (o Opcodes) Cvtss2sq(ops ...Operand) { o.a.op("CVTSS2SQ", ops...) }
-func (o Opcodes) CVTSS2SQ(ops ...Operand) { o.a.op("CVTSS2SQ", ops...) }
-func (o Opcodes) Cvttpd2pl(ops ...Operand) { o.a.op("CVTTPD2PL", ops...) }
-func (o Opcodes) CVTTPD2PL(ops ...Operand) { o.a.op("CVTTPD2PL", ops...) }
-func (o Opcodes) Cvttps2pl(ops ...Operand) { o.a.op("CVTTPS2PL", ops...) }
-func (o Opcodes) CVTTPS2PL(ops ...Operand) { o.a.op("CVTTPS2PL", ops...) }
-func (o Opcodes) Cvttsd2sl(ops ...Operand) { o.a.op("CVTTSD2SL", ops...) }
-func (o Opcodes) CVTTSD2SL(ops ...Operand) { o.a.op("CVTTSD2SL", ops...) }
-func (o Opcodes) Cvttsd2sq(ops ...Operand) { o.a.op("CVTTSD2SQ", ops...) }
-func (o Opcodes) CVTTSD2SQ(ops ...Operand) { o.a.op("CVTTSD2SQ", ops...) }
-func (o Opcodes) Cvttss2sl(ops ...Operand) { o.a.op("CVTTSS2SL", ops...) }
-func (o Opcodes) CVTTSS2SL(ops ...Operand) { o.a.op("CVTTSS2SL", ops...) }
-func (o Opcodes) Cvttss2sq(ops ...Operand) { o.a.op("CVTTSS2SQ", ops...) }
-func (o Opcodes) CVTTSS2SQ(ops ...Operand) { o.a.op("CVTTSS2SQ", ops...) }
-func (o Opcodes) Cwd(ops ...Operand) { o.a.op("CWD", ops...) }
-func (o Opcodes) CWD(ops ...Operand) { o.a.op("CWD", ops...) }
-func (o Opcodes) Daa(ops ...Operand) { o.a.op("DAA", ops...) }
-func (o Opcodes) DAA(ops ...Operand) { o.a.op("DAA", ops...) }
-func (o Opcodes) Das(ops ...Operand) { o.a.op("DAS", ops...) }
-func (o Opcodes) DAS(ops ...Operand) { o.a.op("DAS", ops...) }
-func (o Opcodes) Decb(ops ...Operand) { o.a.op("DECB", ops...) }
-func (o Opcodes) DECB(ops ...Operand) { o.a.op("DECB", ops...) }
-func (o Opcodes) Decl(ops ...Operand) { o.a.op("DECL", ops...) }
-func (o Opcodes) DECL(ops ...Operand) { o.a.op("DECL", ops...) }
-func (o Opcodes) Decq(ops ...Operand) { o.a.op("DECQ", ops...) }
-func (o Opcodes) DECQ(ops ...Operand) { o.a.op("DECQ", ops...) }
-func (o Opcodes) Decw(ops ...Operand) { o.a.op("DECW", ops...) }
-func (o Opcodes) DECW(ops ...Operand) { o.a.op("DECW", ops...) }
-func (o Opcodes) Divb(ops ...Operand) { o.a.op("DIVB", ops...) }
-func (o Opcodes) DIVB(ops ...Operand) { o.a.op("DIVB", ops...) }
-func (o Opcodes) Divl(ops ...Operand) { o.a.op("DIVL", ops...) }
-func (o Opcodes) DIVL(ops ...Operand) { o.a.op("DIVL", ops...) }
-func (o Opcodes) Divpd(ops ...Operand) { o.a.op("DIVPD", ops...) }
-func (o Opcodes) DIVPD(ops ...Operand) { o.a.op("DIVPD", ops...) }
-func (o Opcodes) Divps(ops ...Operand) { o.a.op("DIVPS", ops...) }
-func (o Opcodes) DIVPS(ops ...Operand) { o.a.op("DIVPS", ops...) }
-func (o Opcodes) Divq(ops ...Operand) { o.a.op("DIVQ", ops...) }
-func (o Opcodes) DIVQ(ops ...Operand) { o.a.op("DIVQ", ops...) }
-func (o Opcodes) Divsd(ops ...Operand) { o.a.op("DIVSD", ops...) }
-func (o Opcodes) DIVSD(ops ...Operand) { o.a.op("DIVSD", ops...) }
-func (o Opcodes) Divss(ops ...Operand) { o.a.op("DIVSS", ops...) }
-func (o Opcodes) DIVSS(ops ...Operand) { o.a.op("DIVSS", ops...) }
-func (o Opcodes) Divw(ops ...Operand) { o.a.op("DIVW", ops...) }
-func (o Opcodes) DIVW(ops ...Operand) { o.a.op("DIVW", ops...) }
-func (o Opcodes) Dppd(ops ...Operand) { o.a.op("DPPD", ops...) }
-func (o Opcodes) DPPD(ops ...Operand) { o.a.op("DPPD", ops...) }
-func (o Opcodes) Dpps(ops ...Operand) { o.a.op("DPPS", ops...) }
-func (o Opcodes) DPPS(ops ...Operand) { o.a.op("DPPS", ops...) }
-func (o Opcodes) Emms(ops ...Operand) { o.a.op("EMMS", ops...) }
-func (o Opcodes) EMMS(ops ...Operand) { o.a.op("EMMS", ops...) }
-func (o Opcodes) Enter(ops ...Operand) { o.a.op("ENTER", ops...) }
-func (o Opcodes) ENTER(ops ...Operand) { o.a.op("ENTER", ops...) }
-func (o Opcodes) Extractps(ops ...Operand) { o.a.op("EXTRACTPS", ops...) }
-func (o Opcodes) EXTRACTPS(ops ...Operand) { o.a.op("EXTRACTPS", ops...) }
-func (o Opcodes) F2xm1(ops ...Operand) { o.a.op("F2XM1", ops...) }
-func (o Opcodes) F2XM1(ops ...Operand) { o.a.op("F2XM1", ops...) }
-func (o Opcodes) Fabs(ops ...Operand) { o.a.op("FABS", ops...) }
-func (o Opcodes) FABS(ops ...Operand) { o.a.op("FABS", ops...) }
-func (o Opcodes) Faddd(ops ...Operand) { o.a.op("FADDD", ops...) }
-func (o Opcodes) FADDD(ops ...Operand) { o.a.op("FADDD", ops...) }
-func (o Opcodes) Fadddp(ops ...Operand) { o.a.op("FADDDP", ops...) }
-func (o Opcodes) FADDDP(ops ...Operand) { o.a.op("FADDDP", ops...) }
-func (o Opcodes) Faddf(ops ...Operand) { o.a.op("FADDF", ops...) }
-func (o Opcodes) FADDF(ops ...Operand) { o.a.op("FADDF", ops...) }
-func (o Opcodes) Faddl(ops ...Operand) { o.a.op("FADDL", ops...) }
-func (o Opcodes) FADDL(ops ...Operand) { o.a.op("FADDL", ops...) }
-func (o Opcodes) Faddw(ops ...Operand) { o.a.op("FADDW", ops...) }
-func (o Opcodes) FADDW(ops ...Operand) { o.a.op("FADDW", ops...) }
-func (o Opcodes) Fchs(ops ...Operand) { o.a.op("FCHS", ops...) }
-func (o Opcodes) FCHS(ops ...Operand) { o.a.op("FCHS", ops...) }
-func (o Opcodes) Fclex(ops ...Operand) { o.a.op("FCLEX", ops...) }
-func (o Opcodes) FCLEX(ops ...Operand) { o.a.op("FCLEX", ops...) }
-func (o Opcodes) Fcmovcc(ops ...Operand) { o.a.op("FCMOVCC", ops...) }
-func (o Opcodes) FCMOVCC(ops ...Operand) { o.a.op("FCMOVCC", ops...) }
-func (o Opcodes) Fcmovcs(ops ...Operand) { o.a.op("FCMOVCS", ops...) }
-func (o Opcodes) FCMOVCS(ops ...Operand) { o.a.op("FCMOVCS", ops...) }
-func (o Opcodes) Fcmoveq(ops ...Operand) { o.a.op("FCMOVEQ", ops...) }
-func (o Opcodes) FCMOVEQ(ops ...Operand) { o.a.op("FCMOVEQ", ops...) }
-func (o Opcodes) Fcmovhi(ops ...Operand) { o.a.op("FCMOVHI", ops...) }
-func (o Opcodes) FCMOVHI(ops ...Operand) { o.a.op("FCMOVHI", ops...) }
-func (o Opcodes) Fcmovls(ops ...Operand) { o.a.op("FCMOVLS", ops...) }
-func (o Opcodes) FCMOVLS(ops ...Operand) { o.a.op("FCMOVLS", ops...) }
-func (o Opcodes) Fcmovne(ops ...Operand) { o.a.op("FCMOVNE", ops...) }
-func (o Opcodes) FCMOVNE(ops ...Operand) { o.a.op("FCMOVNE", ops...) }
-func (o Opcodes) Fcmovnu(ops ...Operand) { o.a.op("FCMOVNU", ops...) }
-func (o Opcodes) FCMOVNU(ops ...Operand) { o.a.op("FCMOVNU", ops...) }
-func (o Opcodes) Fcmovun(ops ...Operand) { o.a.op("FCMOVUN", ops...) }
-func (o Opcodes) FCMOVUN(ops ...Operand) { o.a.op("FCMOVUN", ops...) }
-func (o Opcodes) Fcomd(ops ...Operand) { o.a.op("FCOMD", ops...) }
-func (o Opcodes) FCOMD(ops ...Operand) { o.a.op("FCOMD", ops...) }
-func (o Opcodes) Fcomdp(ops ...Operand) { o.a.op("FCOMDP", ops...) }
-func (o Opcodes) FCOMDP(ops ...Operand) { o.a.op("FCOMDP", ops...) }
-func (o Opcodes) Fcomdpp(ops ...Operand) { o.a.op("FCOMDPP", ops...) }
-func (o Opcodes) FCOMDPP(ops ...Operand) { o.a.op("FCOMDPP", ops...) }
-func (o Opcodes) Fcomf(ops ...Operand) { o.a.op("FCOMF", ops...) }
-func (o Opcodes) FCOMF(ops ...Operand) { o.a.op("FCOMF", ops...) }
-func (o Opcodes) Fcomfp(ops ...Operand) { o.a.op("FCOMFP", ops...) }
-func (o Opcodes) FCOMFP(ops ...Operand) { o.a.op("FCOMFP", ops...) }
-func (o Opcodes) Fcomi(ops ...Operand) { o.a.op("FCOMI", ops...) }
-func (o Opcodes) FCOMI(ops ...Operand) { o.a.op("FCOMI", ops...) }
-func (o Opcodes) Fcomip(ops ...Operand) { o.a.op("FCOMIP", ops...) }
-func (o Opcodes) FCOMIP(ops ...Operand) { o.a.op("FCOMIP", ops...) }
-func (o Opcodes) Fcoml(ops ...Operand) { o.a.op("FCOML", ops...) }
-func (o Opcodes) FCOML(ops ...Operand) { o.a.op("FCOML", ops...) }
-func (o Opcodes) Fcomlp(ops ...Operand) { o.a.op("FCOMLP", ops...) }
-func (o Opcodes) FCOMLP(ops ...Operand) { o.a.op("FCOMLP", ops...) }
-func (o Opcodes) Fcomw(ops ...Operand) { o.a.op("FCOMW", ops...) }
-func (o Opcodes) FCOMW(ops ...Operand) { o.a.op("FCOMW", ops...) }
-func (o Opcodes) Fcomwp(ops ...Operand) { o.a.op("FCOMWP", ops...) }
-func (o Opcodes) FCOMWP(ops ...Operand) { o.a.op("FCOMWP", ops...) }
-func (o Opcodes) Fcos(ops ...Operand) { o.a.op("FCOS", ops...) }
-func (o Opcodes) FCOS(ops ...Operand) { o.a.op("FCOS", ops...) }
-func (o Opcodes) Fdecstp(ops ...Operand) { o.a.op("FDECSTP", ops...) }
-func (o Opcodes) FDECSTP(ops ...Operand) { o.a.op("FDECSTP", ops...) }
-func (o Opcodes) Fdivd(ops ...Operand) { o.a.op("FDIVD", ops...) }
-func (o Opcodes) FDIVD(ops ...Operand) { o.a.op("FDIVD", ops...) }
-func (o Opcodes) Fdivdp(ops ...Operand) { o.a.op("FDIVDP", ops...) }
-func (o Opcodes) FDIVDP(ops ...Operand) { o.a.op("FDIVDP", ops...) }
-func (o Opcodes) Fdivf(ops ...Operand) { o.a.op("FDIVF", ops...) }
-func (o Opcodes) FDIVF(ops ...Operand) { o.a.op("FDIVF", ops...) }
-func (o Opcodes) Fdivl(ops ...Operand) { o.a.op("FDIVL", ops...) }
-func (o Opcodes) FDIVL(ops ...Operand) { o.a.op("FDIVL", ops...) }
-func (o Opcodes) Fdivrd(ops ...Operand) { o.a.op("FDIVRD", ops...) }
-func (o Opcodes) FDIVRD(ops ...Operand) { o.a.op("FDIVRD", ops...) }
-func (o Opcodes) Fdivrdp(ops ...Operand) { o.a.op("FDIVRDP", ops...) }
-func (o Opcodes) FDIVRDP(ops ...Operand) { o.a.op("FDIVRDP", ops...) }
-func (o Opcodes) Fdivrf(ops ...Operand) { o.a.op("FDIVRF", ops...) }
-func (o Opcodes) FDIVRF(ops ...Operand) { o.a.op("FDIVRF", ops...) }
-func (o Opcodes) Fdivrl(ops ...Operand) { o.a.op("FDIVRL", ops...) }
-func (o Opcodes) FDIVRL(ops ...Operand) { o.a.op("FDIVRL", ops...) }
-func (o Opcodes) Fdivrw(ops ...Operand) { o.a.op("FDIVRW", ops...) }
-func (o Opcodes) FDIVRW(ops ...Operand) { o.a.op("FDIVRW", ops...) }
-func (o Opcodes) Fdivw(ops ...Operand) { o.a.op("FDIVW", ops...) }
-func (o Opcodes) FDIVW(ops ...Operand) { o.a.op("FDIVW", ops...) }
-func (o Opcodes) Ffree(ops ...Operand) { o.a.op("FFREE", ops...) }
-func (o Opcodes) FFREE(ops ...Operand) { o.a.op("FFREE", ops...) }
-func (o Opcodes) Fincstp(ops ...Operand) { o.a.op("FINCSTP", ops...) }
-func (o Opcodes) FINCSTP(ops ...Operand) { o.a.op("FINCSTP", ops...) }
-func (o Opcodes) Finit(ops ...Operand) { o.a.op("FINIT", ops...) }
-func (o Opcodes) FINIT(ops ...Operand) { o.a.op("FINIT", ops...) }
-func (o Opcodes) Fld1(ops ...Operand) { o.a.op("FLD1", ops...) }
-func (o Opcodes) FLD1(ops ...Operand) { o.a.op("FLD1", ops...) }
-func (o Opcodes) Fldcw(ops ...Operand) { o.a.op("FLDCW", ops...) }
-func (o Opcodes) FLDCW(ops ...Operand) { o.a.op("FLDCW", ops...) }
-func (o Opcodes) Fldenv(ops ...Operand) { o.a.op("FLDENV", ops...) }
-func (o Opcodes) FLDENV(ops ...Operand) { o.a.op("FLDENV", ops...) }
-func (o Opcodes) Fldl2e(ops ...Operand) { o.a.op("FLDL2E", ops...) }
-func (o Opcodes) FLDL2E(ops ...Operand) { o.a.op("FLDL2E", ops...) }
-func (o Opcodes) Fldl2t(ops ...Operand) { o.a.op("FLDL2T", ops...) }
-func (o Opcodes) FLDL2T(ops ...Operand) { o.a.op("FLDL2T", ops...) }
-func (o Opcodes) Fldlg2(ops ...Operand) { o.a.op("FLDLG2", ops...) }
-func (o Opcodes) FLDLG2(ops ...Operand) { o.a.op("FLDLG2", ops...) }
-func (o Opcodes) Fldln2(ops ...Operand) { o.a.op("FLDLN2", ops...) }
-func (o Opcodes) FLDLN2(ops ...Operand) { o.a.op("FLDLN2", ops...) }
-func (o Opcodes) Fldpi(ops ...Operand) { o.a.op("FLDPI", ops...) }
-func (o Opcodes) FLDPI(ops ...Operand) { o.a.op("FLDPI", ops...) }
-func (o Opcodes) Fldz(ops ...Operand) { o.a.op("FLDZ", ops...) }
-func (o Opcodes) FLDZ(ops ...Operand) { o.a.op("FLDZ", ops...) }
-func (o Opcodes) Fmovb(ops ...Operand) { o.a.op("FMOVB", ops...) }
-func (o Opcodes) FMOVB(ops ...Operand) { o.a.op("FMOVB", ops...) }
-func (o Opcodes) Fmovbp(ops ...Operand) { o.a.op("FMOVBP", ops...) }
-func (o Opcodes) FMOVBP(ops ...Operand) { o.a.op("FMOVBP", ops...) }
-func (o Opcodes) Fmovd(ops ...Operand) { o.a.op("FMOVD", ops...) }
-func (o Opcodes) FMOVD(ops ...Operand) { o.a.op("FMOVD", ops...) }
-func (o Opcodes) Fmovdp(ops ...Operand) { o.a.op("FMOVDP", ops...) }
-func (o Opcodes) FMOVDP(ops ...Operand) { o.a.op("FMOVDP", ops...) }
-func (o Opcodes) Fmovf(ops ...Operand) { o.a.op("FMOVF", ops...) }
-func (o Opcodes) FMOVF(ops ...Operand) { o.a.op("FMOVF", ops...) }
-func (o Opcodes) Fmovfp(ops ...Operand) { o.a.op("FMOVFP", ops...) }
-func (o Opcodes) FMOVFP(ops ...Operand) { o.a.op("FMOVFP", ops...) }
-func (o Opcodes) Fmovl(ops ...Operand) { o.a.op("FMOVL", ops...) }
-func (o Opcodes) FMOVL(ops ...Operand) { o.a.op("FMOVL", ops...) }
-func (o Opcodes) Fmovlp(ops ...Operand) { o.a.op("FMOVLP", ops...) }
-func (o Opcodes) FMOVLP(ops ...Operand) { o.a.op("FMOVLP", ops...) }
-func (o Opcodes) Fmovv(ops ...Operand) { o.a.op("FMOVV", ops...) }
-func (o Opcodes) FMOVV(ops ...Operand) { o.a.op("FMOVV", ops...) }
-func (o Opcodes) Fmovvp(ops ...Operand) { o.a.op("FMOVVP", ops...) }
-func (o Opcodes) FMOVVP(ops ...Operand) { o.a.op("FMOVVP", ops...) }
-func (o Opcodes) Fmovw(ops ...Operand) { o.a.op("FMOVW", ops...) }
-func (o Opcodes) FMOVW(ops ...Operand) { o.a.op("FMOVW", ops...) }
-func (o Opcodes) Fmovwp(ops ...Operand) { o.a.op("FMOVWP", ops...) }
-func (o Opcodes) FMOVWP(ops ...Operand) { o.a.op("FMOVWP", ops...) }
-func (o Opcodes) Fmovx(ops ...Operand) { o.a.op("FMOVX", ops...) }
-func (o Opcodes) FMOVX(ops ...Operand) { o.a.op("FMOVX", ops...) }
-func (o Opcodes) Fmovxp(ops ...Operand) { o.a.op("FMOVXP", ops...) }
-func (o Opcodes) FMOVXP(ops ...Operand) { o.a.op("FMOVXP", ops...) }
-func (o Opcodes) Fmuld(ops ...Operand) { o.a.op("FMULD", ops...) }
-func (o Opcodes) FMULD(ops ...Operand) { o.a.op("FMULD", ops...) }
-func (o Opcodes) Fmuldp(ops ...Operand) { o.a.op("FMULDP", ops...) }
-func (o Opcodes) FMULDP(ops ...Operand) { o.a.op("FMULDP", ops...) }
-func (o Opcodes) Fmulf(ops ...Operand) { o.a.op("FMULF", ops...) }
-func (o Opcodes) FMULF(ops ...Operand) { o.a.op("FMULF", ops...) }
-func (o Opcodes) Fmull(ops ...Operand) { o.a.op("FMULL", ops...) }
-func (o Opcodes) FMULL(ops ...Operand) { o.a.op("FMULL", ops...) }
-func (o Opcodes) Fmulw(ops ...Operand) { o.a.op("FMULW", ops...) }
-func (o Opcodes) FMULW(ops ...Operand) { o.a.op("FMULW", ops...) }
-func (o Opcodes) Fnop(ops ...Operand) { o.a.op("FNOP", ops...) }
-func (o Opcodes) FNOP(ops ...Operand) { o.a.op("FNOP", ops...) }
-func (o Opcodes) Fpatan(ops ...Operand) { o.a.op("FPATAN", ops...) }
-func (o Opcodes) FPATAN(ops ...Operand) { o.a.op("FPATAN", ops...) }
-func (o Opcodes) Fprem(ops ...Operand) { o.a.op("FPREM", ops...) }
-func (o Opcodes) FPREM(ops ...Operand) { o.a.op("FPREM", ops...) }
-func (o Opcodes) Fprem1(ops ...Operand) { o.a.op("FPREM1", ops...) }
-func (o Opcodes) FPREM1(ops ...Operand) { o.a.op("FPREM1", ops...) }
-func (o Opcodes) Fptan(ops ...Operand) { o.a.op("FPTAN", ops...) }
-func (o Opcodes) FPTAN(ops ...Operand) { o.a.op("FPTAN", ops...) }
-func (o Opcodes) Frndint(ops ...Operand) { o.a.op("FRNDINT", ops...) }
-func (o Opcodes) FRNDINT(ops ...Operand) { o.a.op("FRNDINT", ops...) }
-func (o Opcodes) Frstor(ops ...Operand) { o.a.op("FRSTOR", ops...) }
-func (o Opcodes) FRSTOR(ops ...Operand) { o.a.op("FRSTOR", ops...) }
-func (o Opcodes) Fsave(ops ...Operand) { o.a.op("FSAVE", ops...) }
-func (o Opcodes) FSAVE(ops ...Operand) { o.a.op("FSAVE", ops...) }
-func (o Opcodes) Fscale(ops ...Operand) { o.a.op("FSCALE", ops...) }
-func (o Opcodes) FSCALE(ops ...Operand) { o.a.op("FSCALE", ops...) }
-func (o Opcodes) Fsin(ops ...Operand) { o.a.op("FSIN", ops...) }
-func (o Opcodes) FSIN(ops ...Operand) { o.a.op("FSIN", ops...) }
-func (o Opcodes) Fsincos(ops ...Operand) { o.a.op("FSINCOS", ops...) }
-func (o Opcodes) FSINCOS(ops ...Operand) { o.a.op("FSINCOS", ops...) }
-func (o Opcodes) Fsqrt(ops ...Operand) { o.a.op("FSQRT", ops...) }
-func (o Opcodes) FSQRT(ops ...Operand) { o.a.op("FSQRT", ops...) }
-func (o Opcodes) Fstcw(ops ...Operand) { o.a.op("FSTCW", ops...) }
-func (o Opcodes) FSTCW(ops ...Operand) { o.a.op("FSTCW", ops...) }
-func (o Opcodes) Fstenv(ops ...Operand) { o.a.op("FSTENV", ops...) }
-func (o Opcodes) FSTENV(ops ...Operand) { o.a.op("FSTENV", ops...) }
-func (o Opcodes) Fstsw(ops ...Operand) { o.a.op("FSTSW", ops...) }
-func (o Opcodes) FSTSW(ops ...Operand) { o.a.op("FSTSW", ops...) }
-func (o Opcodes) Fsubd(ops ...Operand) { o.a.op("FSUBD", ops...) }
-func (o Opcodes) FSUBD(ops ...Operand) { o.a.op("FSUBD", ops...) }
-func (o Opcodes) Fsubdp(ops ...Operand) { o.a.op("FSUBDP", ops...) }
-func (o Opcodes) FSUBDP(ops ...Operand) { o.a.op("FSUBDP", ops...) }
-func (o Opcodes) Fsubf(ops ...Operand) { o.a.op("FSUBF", ops...) }
-func (o Opcodes) FSUBF(ops ...Operand) { o.a.op("FSUBF", ops...) }
-func (o Opcodes) Fsubl(ops ...Operand) { o.a.op("FSUBL", ops...) }
-func (o Opcodes) FSUBL(ops ...Operand) { o.a.op("FSUBL", ops...) }
-func (o Opcodes) Fsubrd(ops ...Operand) { o.a.op("FSUBRD", ops...) }
-func (o Opcodes) FSUBRD(ops ...Operand) { o.a.op("FSUBRD", ops...) }
-func (o Opcodes) Fsubrdp(ops ...Operand) { o.a.op("FSUBRDP", ops...) }
-func (o Opcodes) FSUBRDP(ops ...Operand) { o.a.op("FSUBRDP", ops...) }
-func (o Opcodes) Fsubrf(ops ...Operand) { o.a.op("FSUBRF", ops...) }
-func (o Opcodes) FSUBRF(ops ...Operand) { o.a.op("FSUBRF", ops...) }
-func (o Opcodes) Fsubrl(ops ...Operand) { o.a.op("FSUBRL", ops...) }
-func (o Opcodes) FSUBRL(ops ...Operand) { o.a.op("FSUBRL", ops...) }
-func (o Opcodes) Fsubrw(ops ...Operand) { o.a.op("FSUBRW", ops...) }
-func (o Opcodes) FSUBRW(ops ...Operand) { o.a.op("FSUBRW", ops...) }
-func (o Opcodes) Fsubw(ops ...Operand) { o.a.op("FSUBW", ops...) }
-func (o Opcodes) FSUBW(ops ...Operand) { o.a.op("FSUBW", ops...) }
-func (o Opcodes) Ftst(ops ...Operand) { o.a.op("FTST", ops...) }
-func (o Opcodes) FTST(ops ...Operand) { o.a.op("FTST", ops...) }
-func (o Opcodes) Fucom(ops ...Operand) { o.a.op("FUCOM", ops...) }
-func (o Opcodes) FUCOM(ops ...Operand) { o.a.op("FUCOM", ops...) }
-func (o Opcodes) Fucomi(ops ...Operand) { o.a.op("FUCOMI", ops...) }
-func (o Opcodes) FUCOMI(ops ...Operand) { o.a.op("FUCOMI", ops...) }
-func (o Opcodes) Fucomip(ops ...Operand) { o.a.op("FUCOMIP", ops...) }
-func (o Opcodes) FUCOMIP(ops ...Operand) { o.a.op("FUCOMIP", ops...) }
-func (o Opcodes) Fucomp(ops ...Operand) { o.a.op("FUCOMP", ops...) }
-func (o Opcodes) FUCOMP(ops ...Operand) { o.a.op("FUCOMP", ops...) }
-func (o Opcodes) Fucompp(ops ...Operand) { o.a.op("FUCOMPP", ops...) }
-func (o Opcodes) FUCOMPP(ops ...Operand) { o.a.op("FUCOMPP", ops...) }
-func (o Opcodes) Fxam(ops ...Operand) { o.a.op("FXAM", ops...) }
-func (o Opcodes) FXAM(ops ...Operand) { o.a.op("FXAM", ops...) }
-func (o Opcodes) Fxchd(ops ...Operand) { o.a.op("FXCHD", ops...) }
-func (o Opcodes) FXCHD(ops ...Operand) { o.a.op("FXCHD", ops...) }
-func (o Opcodes) Fxrstor(ops ...Operand) { o.a.op("FXRSTOR", ops...) }
-func (o Opcodes) FXRSTOR(ops ...Operand) { o.a.op("FXRSTOR", ops...) }
-func (o Opcodes) Fxrstor64(ops ...Operand) { o.a.op("FXRSTOR64", ops...) }
-func (o Opcodes) FXRSTOR64(ops ...Operand) { o.a.op("FXRSTOR64", ops...) }
-func (o Opcodes) Fxsave(ops ...Operand) { o.a.op("FXSAVE", ops...) }
-func (o Opcodes) FXSAVE(ops ...Operand) { o.a.op("FXSAVE", ops...) }
-func (o Opcodes) Fxsave64(ops ...Operand) { o.a.op("FXSAVE64", ops...) }
-func (o Opcodes) FXSAVE64(ops ...Operand) { o.a.op("FXSAVE64", ops...) }
-func (o Opcodes) Fxtract(ops ...Operand) { o.a.op("FXTRACT", ops...) }
-func (o Opcodes) FXTRACT(ops ...Operand) { o.a.op("FXTRACT", ops...) }
-func (o Opcodes) Fyl2x(ops ...Operand) { o.a.op("FYL2X", ops...) }
-func (o Opcodes) FYL2X(ops ...Operand) { o.a.op("FYL2X", ops...) }
-func (o Opcodes) Fyl2xp1(ops ...Operand) { o.a.op("FYL2XP1", ops...) }
-func (o Opcodes) FYL2XP1(ops ...Operand) { o.a.op("FYL2XP1", ops...) }
-func (o Opcodes) Haddpd(ops ...Operand) { o.a.op("HADDPD", ops...) }
-func (o Opcodes) HADDPD(ops ...Operand) { o.a.op("HADDPD", ops...) }
-func (o Opcodes) Haddps(ops ...Operand) { o.a.op("HADDPS", ops...) }
-func (o Opcodes) HADDPS(ops ...Operand) { o.a.op("HADDPS", ops...) }
-func (o Opcodes) Hlt(ops ...Operand) { o.a.op("HLT", ops...) }
-func (o Opcodes) HLT(ops ...Operand) { o.a.op("HLT", ops...) }
-func (o Opcodes) Hsubpd(ops ...Operand) { o.a.op("HSUBPD", ops...) }
-func (o Opcodes) HSUBPD(ops ...Operand) { o.a.op("HSUBPD", ops...) }
-func (o Opcodes) Hsubps(ops ...Operand) { o.a.op("HSUBPS", ops...) }
-func (o Opcodes) HSUBPS(ops ...Operand) { o.a.op("HSUBPS", ops...) }
-func (o Opcodes) Idivb(ops ...Operand) { o.a.op("IDIVB", ops...) }
-func (o Opcodes) IDIVB(ops ...Operand) { o.a.op("IDIVB", ops...) }
-func (o Opcodes) Idivl(ops ...Operand) { o.a.op("IDIVL", ops...) }
-func (o Opcodes) IDIVL(ops ...Operand) { o.a.op("IDIVL", ops...) }
-func (o Opcodes) Idivq(ops ...Operand) { o.a.op("IDIVQ", ops...) }
-func (o Opcodes) IDIVQ(ops ...Operand) { o.a.op("IDIVQ", ops...) }
-func (o Opcodes) Idivw(ops ...Operand) { o.a.op("IDIVW", ops...) }
-func (o Opcodes) IDIVW(ops ...Operand) { o.a.op("IDIVW", ops...) }
-func (o Opcodes) Imul3q(ops ...Operand) { o.a.op("IMUL3Q", ops...) }
-func (o Opcodes) IMUL3Q(ops ...Operand) { o.a.op("IMUL3Q", ops...) }
-func (o Opcodes) Imulb(ops ...Operand) { o.a.op("IMULB", ops...) }
-func (o Opcodes) IMULB(ops ...Operand) { o.a.op("IMULB", ops...) }
-func (o Opcodes) Imull(ops ...Operand) { o.a.op("IMULL", ops...) }
-func (o Opcodes) IMULL(ops ...Operand) { o.a.op("IMULL", ops...) }
-func (o Opcodes) Imulq(ops ...Operand) { o.a.op("IMULQ", ops...) }
-func (o Opcodes) IMULQ(ops ...Operand) { o.a.op("IMULQ", ops...) }
-func (o Opcodes) Imulw(ops ...Operand) { o.a.op("IMULW", ops...) }
-func (o Opcodes) IMULW(ops ...Operand) { o.a.op("IMULW", ops...) }
-func (o Opcodes) Inb(ops ...Operand) { o.a.op("INB", ops...) }
-func (o Opcodes) INB(ops ...Operand) { o.a.op("INB", ops...) }
-func (o Opcodes) Incb(ops ...Operand) { o.a.op("INCB", ops...) }
-func (o Opcodes) INCB(ops ...Operand) { o.a.op("INCB", ops...) }
-func (o Opcodes) Incl(ops ...Operand) { o.a.op("INCL", ops...) }
-func (o Opcodes) INCL(ops ...Operand) { o.a.op("INCL", ops...) }
-func (o Opcodes) Incq(ops ...Operand) { o.a.op("INCQ", ops...) }
-func (o Opcodes) INCQ(ops ...Operand) { o.a.op("INCQ", ops...) }
-func (o Opcodes) Incw(ops ...Operand) { o.a.op("INCW", ops...) }
-func (o Opcodes) INCW(ops ...Operand) { o.a.op("INCW", ops...) }
-func (o Opcodes) Inl(ops ...Operand) { o.a.op("INL", ops...) }
-func (o Opcodes) INL(ops ...Operand) { o.a.op("INL", ops...) }
-func (o Opcodes) Insb(ops ...Operand) { o.a.op("INSB", ops...) }
-func (o Opcodes) INSB(ops ...Operand) { o.a.op("INSB", ops...) }
-func (o Opcodes) Insertps(ops ...Operand) { o.a.op("INSERTPS", ops...) }
-func (o Opcodes) INSERTPS(ops ...Operand) { o.a.op("INSERTPS", ops...) }
-func (o Opcodes) Insl(ops ...Operand) { o.a.op("INSL", ops...) }
-func (o Opcodes) INSL(ops ...Operand) { o.a.op("INSL", ops...) }
-func (o Opcodes) Insw(ops ...Operand) { o.a.op("INSW", ops...) }
-func (o Opcodes) INSW(ops ...Operand) { o.a.op("INSW", ops...) }
-func (o Opcodes) Int(ops ...Operand) { o.a.op("INT", ops...) }
-func (o Opcodes) INT(ops ...Operand) { o.a.op("INT", ops...) }
-func (o Opcodes) Into(ops ...Operand) { o.a.op("INTO", ops...) }
-func (o Opcodes) INTO(ops ...Operand) { o.a.op("INTO", ops...) }
-func (o Opcodes) Invd(ops ...Operand) { o.a.op("INVD", ops...) }
-func (o Opcodes) INVD(ops ...Operand) { o.a.op("INVD", ops...) }
-func (o Opcodes) Invlpg(ops ...Operand) { o.a.op("INVLPG", ops...) }
-func (o Opcodes) INVLPG(ops ...Operand) { o.a.op("INVLPG", ops...) }
-func (o Opcodes) Inw(ops ...Operand) { o.a.op("INW", ops...) }
-func (o Opcodes) INW(ops ...Operand) { o.a.op("INW", ops...) }
-func (o Opcodes) Iretl(ops ...Operand) { o.a.op("IRETL", ops...) }
-func (o Opcodes) IRETL(ops ...Operand) { o.a.op("IRETL", ops...) }
-func (o Opcodes) Iretq(ops ...Operand) { o.a.op("IRETQ", ops...) }
-func (o Opcodes) IRETQ(ops ...Operand) { o.a.op("IRETQ", ops...) }
-func (o Opcodes) Iretw(ops ...Operand) { o.a.op("IRETW", ops...) }
-func (o Opcodes) IRETW(ops ...Operand) { o.a.op("IRETW", ops...) }
-func (o Opcodes) Jcc(ops ...Operand) { o.a.op("JCC", ops...) }
-func (o Opcodes) JCC(ops ...Operand) { o.a.op("JCC", ops...) }
-func (o Opcodes) Jcs(ops ...Operand) { o.a.op("JCS", ops...) }
-func (o Opcodes) JCS(ops ...Operand) { o.a.op("JCS", ops...) }
-func (o Opcodes) Jcxzl(ops ...Operand) { o.a.op("JCXZL", ops...) }
-func (o Opcodes) JCXZL(ops ...Operand) { o.a.op("JCXZL", ops...) }
-func (o Opcodes) Jcxzq(ops ...Operand) { o.a.op("JCXZQ", ops...) }
-func (o Opcodes) JCXZQ(ops ...Operand) { o.a.op("JCXZQ", ops...) }
-func (o Opcodes) Jcxzw(ops ...Operand) { o.a.op("JCXZW", ops...) }
-func (o Opcodes) JCXZW(ops ...Operand) { o.a.op("JCXZW", ops...) }
-func (o Opcodes) Jeq(ops ...Operand) { o.a.op("JEQ", ops...) }
-func (o Opcodes) JEQ(ops ...Operand) { o.a.op("JEQ", ops...) }
-func (o Opcodes) Jge(ops ...Operand) { o.a.op("JGE", ops...) }
-func (o Opcodes) JGE(ops ...Operand) { o.a.op("JGE", ops...) }
-func (o Opcodes) Jgt(ops ...Operand) { o.a.op("JGT", ops...) }
-func (o Opcodes) JGT(ops ...Operand) { o.a.op("JGT", ops...) }
-func (o Opcodes) Jhi(ops ...Operand) { o.a.op("JHI", ops...) }
-func (o Opcodes) JHI(ops ...Operand) { o.a.op("JHI", ops...) }
-func (o Opcodes) Jle(ops ...Operand) { o.a.op("JLE", ops...) }
-func (o Opcodes) JLE(ops ...Operand) { o.a.op("JLE", ops...) }
-func (o Opcodes) Jls(ops ...Operand) { o.a.op("JLS", ops...) }
-func (o Opcodes) JLS(ops ...Operand) { o.a.op("JLS", ops...) }
-func (o Opcodes) Jlt(ops ...Operand) { o.a.op("JLT", ops...) }
-func (o Opcodes) JLT(ops ...Operand) { o.a.op("JLT", ops...) }
-func (o Opcodes) Jmi(ops ...Operand) { o.a.op("JMI", ops...) }
-func (o Opcodes) JMI(ops ...Operand) { o.a.op("JMI", ops...) }
-func (o Opcodes) Jne(ops ...Operand) { o.a.op("JNE", ops...) }
-func (o Opcodes) JNE(ops ...Operand) { o.a.op("JNE", ops...) }
-func (o Opcodes) Joc(ops ...Operand) { o.a.op("JOC", ops...) }
-func (o Opcodes) JOC(ops ...Operand) { o.a.op("JOC", ops...) }
-func (o Opcodes) Jos(ops ...Operand) { o.a.op("JOS", ops...) }
-func (o Opcodes) JOS(ops ...Operand) { o.a.op("JOS", ops...) }
-func (o Opcodes) Jpc(ops ...Operand) { o.a.op("JPC", ops...) }
-func (o Opcodes) JPC(ops ...Operand) { o.a.op("JPC", ops...) }
-func (o Opcodes) Jpl(ops ...Operand) { o.a.op("JPL", ops...) }
-func (o Opcodes) JPL(ops ...Operand) { o.a.op("JPL", ops...) }
-func (o Opcodes) Jps(ops ...Operand) { o.a.op("JPS", ops...) }
-func (o Opcodes) JPS(ops ...Operand) { o.a.op("JPS", ops...) }
-func (o Opcodes) Lahf(ops ...Operand) { o.a.op("LAHF", ops...) }
-func (o Opcodes) LAHF(ops ...Operand) { o.a.op("LAHF", ops...) }
-func (o Opcodes) Larl(ops ...Operand) { o.a.op("LARL", ops...) }
-func (o Opcodes) LARL(ops ...Operand) { o.a.op("LARL", ops...) }
-func (o Opcodes) Larw(ops ...Operand) { o.a.op("LARW", ops...) }
-func (o Opcodes) LARW(ops ...Operand) { o.a.op("LARW", ops...) }
-func (o Opcodes) Lddqu(ops ...Operand) { o.a.op("LDDQU", ops...) }
-func (o Opcodes) LDDQU(ops ...Operand) { o.a.op("LDDQU", ops...) }
-func (o Opcodes) Ldmxcsr(ops ...Operand) { o.a.op("LDMXCSR", ops...) }
-func (o Opcodes) LDMXCSR(ops ...Operand) { o.a.op("LDMXCSR", ops...) }
-func (o Opcodes) Leal(ops ...Operand) { o.a.op("LEAL", ops...) }
-func (o Opcodes) LEAL(ops ...Operand) { o.a.op("LEAL", ops...) }
-func (o Opcodes) Leaq(ops ...Operand) { o.a.op("LEAQ", ops...) }
-func (o Opcodes) LEAQ(ops ...Operand) { o.a.op("LEAQ", ops...) }
-func (o Opcodes) Leavel(ops ...Operand) { o.a.op("LEAVEL", ops...) }
-func (o Opcodes) LEAVEL(ops ...Operand) { o.a.op("LEAVEL", ops...) }
-func (o Opcodes) Leaveq(ops ...Operand) { o.a.op("LEAVEQ", ops...) }
-func (o Opcodes) LEAVEQ(ops ...Operand) { o.a.op("LEAVEQ", ops...) }
-func (o Opcodes) Leavew(ops ...Operand) { o.a.op("LEAVEW", ops...) }
-func (o Opcodes) LEAVEW(ops ...Operand) { o.a.op("LEAVEW", ops...) }
-func (o Opcodes) Leaw(ops ...Operand) { o.a.op("LEAW", ops...) }
-func (o Opcodes) LEAW(ops ...Operand) { o.a.op("LEAW", ops...) }
-func (o Opcodes) Lfence(ops ...Operand) { o.a.op("LFENCE", ops...) }
-func (o Opcodes) LFENCE(ops ...Operand) { o.a.op("LFENCE", ops...) }
-func (o Opcodes) Lock(ops ...Operand) { o.a.op("LOCK", ops...) }
-func (o Opcodes) LOCK(ops ...Operand) { o.a.op("LOCK", ops...) }
-func (o Opcodes) Lodsb(ops ...Operand) { o.a.op("LODSB", ops...) }
-func (o Opcodes) LODSB(ops ...Operand) { o.a.op("LODSB", ops...) }
-func (o Opcodes) Lodsl(ops ...Operand) { o.a.op("LODSL", ops...) }
-func (o Opcodes) LODSL(ops ...Operand) { o.a.op("LODSL", ops...) }
-func (o Opcodes) Lodsq(ops ...Operand) { o.a.op("LODSQ", ops...) }
-func (o Opcodes) LODSQ(ops ...Operand) { o.a.op("LODSQ", ops...) }
-func (o Opcodes) Lodsw(ops ...Operand) { o.a.op("LODSW", ops...) }
-func (o Opcodes) LODSW(ops ...Operand) { o.a.op("LODSW", ops...) }
-func (o Opcodes) Long(ops ...Operand) { o.a.op("LONG", ops...) }
-func (o Opcodes) LONG(ops ...Operand) { o.a.op("LONG", ops...) }
-func (o Opcodes) Loop(ops ...Operand) { o.a.op("LOOP", ops...) }
-func (o Opcodes) LOOP(ops ...Operand) { o.a.op("LOOP", ops...) }
-func (o Opcodes) Loopeq(ops ...Operand) { o.a.op("LOOPEQ", ops...) }
-func (o Opcodes) LOOPEQ(ops ...Operand) { o.a.op("LOOPEQ", ops...) }
-func (o Opcodes) Loopne(ops ...Operand) { o.a.op("LOOPNE", ops...) }
-func (o Opcodes) LOOPNE(ops ...Operand) { o.a.op("LOOPNE", ops...) }
-func (o Opcodes) Lsll(ops ...Operand) { o.a.op("LSLL", ops...) }
-func (o Opcodes) LSLL(ops ...Operand) { o.a.op("LSLL", ops...) }
-func (o Opcodes) Lslw(ops ...Operand) { o.a.op("LSLW", ops...) }
-func (o Opcodes) LSLW(ops ...Operand) { o.a.op("LSLW", ops...) }
-func (o Opcodes) Maskmovou(ops ...Operand) { o.a.op("MASKMOVOU", ops...) }
-func (o Opcodes) MASKMOVOU(ops ...Operand) { o.a.op("MASKMOVOU", ops...) }
-func (o Opcodes) Maskmovq(ops ...Operand) { o.a.op("MASKMOVQ", ops...) }
-func (o Opcodes) MASKMOVQ(ops ...Operand) { o.a.op("MASKMOVQ", ops...) }
-func (o Opcodes) Maxpd(ops ...Operand) { o.a.op("MAXPD", ops...) }
-func (o Opcodes) MAXPD(ops ...Operand) { o.a.op("MAXPD", ops...) }
-func (o Opcodes) Maxps(ops ...Operand) { o.a.op("MAXPS", ops...) }
-func (o Opcodes) MAXPS(ops ...Operand) { o.a.op("MAXPS", ops...) }
-func (o Opcodes) Maxsd(ops ...Operand) { o.a.op("MAXSD", ops...) }
-func (o Opcodes) MAXSD(ops ...Operand) { o.a.op("MAXSD", ops...) }
-func (o Opcodes) Maxss(ops ...Operand) { o.a.op("MAXSS", ops...) }
-func (o Opcodes) MAXSS(ops ...Operand) { o.a.op("MAXSS", ops...) }
-func (o Opcodes) Mfence(ops ...Operand) { o.a.op("MFENCE", ops...) }
-func (o Opcodes) MFENCE(ops ...Operand) { o.a.op("MFENCE", ops...) }
-func (o Opcodes) Minpd(ops ...Operand) { o.a.op("MINPD", ops...) }
-func (o Opcodes) MINPD(ops ...Operand) { o.a.op("MINPD", ops...) }
-func (o Opcodes) Minps(ops ...Operand) { o.a.op("MINPS", ops...) }
-func (o Opcodes) MINPS(ops ...Operand) { o.a.op("MINPS", ops...) }
-func (o Opcodes) Minsd(ops ...Operand) { o.a.op("MINSD", ops...) }
-func (o Opcodes) MINSD(ops ...Operand) { o.a.op("MINSD", ops...) }
-func (o Opcodes) Minss(ops ...Operand) { o.a.op("MINSS", ops...) }
-func (o Opcodes) MINSS(ops ...Operand) { o.a.op("MINSS", ops...) }
-func (o Opcodes) Movapd(ops ...Operand) { o.a.op("MOVAPD", ops...) }
-func (o Opcodes) MOVAPD(ops ...Operand) { o.a.op("MOVAPD", ops...) }
-func (o Opcodes) Movaps(ops ...Operand) { o.a.op("MOVAPS", ops...) }
-func (o Opcodes) MOVAPS(ops ...Operand) { o.a.op("MOVAPS", ops...) }
-func (o Opcodes) Movb(ops ...Operand) { o.a.op("MOVB", ops...) }
-func (o Opcodes) MOVB(ops ...Operand) { o.a.op("MOVB", ops...) }
-func (o Opcodes) Movblsx(ops ...Operand) { o.a.op("MOVBLSX", ops...) }
-func (o Opcodes) MOVBLSX(ops ...Operand) { o.a.op("MOVBLSX", ops...) }
-func (o Opcodes) Movblzx(ops ...Operand) { o.a.op("MOVBLZX", ops...) }
-func (o Opcodes) MOVBLZX(ops ...Operand) { o.a.op("MOVBLZX", ops...) }
-func (o Opcodes) Movbqsx(ops ...Operand) { o.a.op("MOVBQSX", ops...) }
-func (o Opcodes) MOVBQSX(ops ...Operand) { o.a.op("MOVBQSX", ops...) }
-func (o Opcodes) Movbqzx(ops ...Operand) { o.a.op("MOVBQZX", ops...) }
-func (o Opcodes) MOVBQZX(ops ...Operand) { o.a.op("MOVBQZX", ops...) }
-func (o Opcodes) Movbwsx(ops ...Operand) { o.a.op("MOVBWSX", ops...) }
-func (o Opcodes) MOVBWSX(ops ...Operand) { o.a.op("MOVBWSX", ops...) }
-func (o Opcodes) Movbwzx(ops ...Operand) { o.a.op("MOVBWZX", ops...) }
-func (o Opcodes) MOVBWZX(ops ...Operand) { o.a.op("MOVBWZX", ops...) }
-func (o Opcodes) Movddup(ops ...Operand) { o.a.op("MOVDDUP", ops...) }
-func (o Opcodes) MOVDDUP(ops ...Operand) { o.a.op("MOVDDUP", ops...) }
-func (o Opcodes) Movhlps(ops ...Operand) { o.a.op("MOVHLPS", ops...) }
-func (o Opcodes) MOVHLPS(ops ...Operand) { o.a.op("MOVHLPS", ops...) }
-func (o Opcodes) Movhpd(ops ...Operand) { o.a.op("MOVHPD", ops...) }
-func (o Opcodes) MOVHPD(ops ...Operand) { o.a.op("MOVHPD", ops...) }
-func (o Opcodes) Movhps(ops ...Operand) { o.a.op("MOVHPS", ops...) }
-func (o Opcodes) MOVHPS(ops ...Operand) { o.a.op("MOVHPS", ops...) }
-func (o Opcodes) Movl(ops ...Operand) { o.a.op("MOVL", ops...) }
-func (o Opcodes) MOVL(ops ...Operand) { o.a.op("MOVL", ops...) }
-func (o Opcodes) Movlhps(ops ...Operand) { o.a.op("MOVLHPS", ops...) }
-func (o Opcodes) MOVLHPS(ops ...Operand) { o.a.op("MOVLHPS", ops...) }
-func (o Opcodes) Movlpd(ops ...Operand) { o.a.op("MOVLPD", ops...) }
-func (o Opcodes) MOVLPD(ops ...Operand) { o.a.op("MOVLPD", ops...) }
-func (o Opcodes) Movlps(ops ...Operand) { o.a.op("MOVLPS", ops...) }
-func (o Opcodes) MOVLPS(ops ...Operand) { o.a.op("MOVLPS", ops...) }
-func (o Opcodes) Movlqsx(ops ...Operand) { o.a.op("MOVLQSX", ops...) }
-func (o Opcodes) MOVLQSX(ops ...Operand) { o.a.op("MOVLQSX", ops...) }
-func (o Opcodes) Movlqzx(ops ...Operand) { o.a.op("MOVLQZX", ops...) }
-func (o Opcodes) MOVLQZX(ops ...Operand) { o.a.op("MOVLQZX", ops...) }
-func (o Opcodes) Movmskpd(ops ...Operand) { o.a.op("MOVMSKPD", ops...) }
-func (o Opcodes) MOVMSKPD(ops ...Operand) { o.a.op("MOVMSKPD", ops...) }
-func (o Opcodes) Movmskps(ops ...Operand) { o.a.op("MOVMSKPS", ops...) }
-func (o Opcodes) MOVMSKPS(ops ...Operand) { o.a.op("MOVMSKPS", ops...) }
-func (o Opcodes) Movntdqa(ops ...Operand) { o.a.op("MOVNTDQA", ops...) }
-func (o Opcodes) MOVNTDQA(ops ...Operand) { o.a.op("MOVNTDQA", ops...) }
-func (o Opcodes) Movntil(ops ...Operand) { o.a.op("MOVNTIL", ops...) }
-func (o Opcodes) MOVNTIL(ops ...Operand) { o.a.op("MOVNTIL", ops...) }
-func (o Opcodes) Movntiq(ops ...Operand) { o.a.op("MOVNTIQ", ops...) }
-func (o Opcodes) MOVNTIQ(ops ...Operand) { o.a.op("MOVNTIQ", ops...) }
-func (o Opcodes) Movnto(ops ...Operand) { o.a.op("MOVNTO", ops...) }
-func (o Opcodes) MOVNTO(ops ...Operand) { o.a.op("MOVNTO", ops...) }
-func (o Opcodes) Movntpd(ops ...Operand) { o.a.op("MOVNTPD", ops...) }
-func (o Opcodes) MOVNTPD(ops ...Operand) { o.a.op("MOVNTPD", ops...) }
-func (o Opcodes) Movntps(ops ...Operand) { o.a.op("MOVNTPS", ops...) }
-func (o Opcodes) MOVNTPS(ops ...Operand) { o.a.op("MOVNTPS", ops...) }
-func (o Opcodes) Movntq(ops ...Operand) { o.a.op("MOVNTQ", ops...) }
-func (o Opcodes) MOVNTQ(ops ...Operand) { o.a.op("MOVNTQ", ops...) }
-func (o Opcodes) Movo(ops ...Operand) { o.a.op("MOVO", ops...) }
-func (o Opcodes) MOVO(ops ...Operand) { o.a.op("MOVO", ops...) }
-func (o Opcodes) Movou(ops ...Operand) { o.a.op("MOVOU", ops...) }
-func (o Opcodes) MOVOU(ops ...Operand) { o.a.op("MOVOU", ops...) }
-func (o Opcodes) Movq(ops ...Operand) { o.a.op("MOVQ", ops...) }
-func (o Opcodes) MOVQ(ops ...Operand) { o.a.op("MOVQ", ops...) }
-func (o Opcodes) Movql(ops ...Operand) { o.a.op("MOVQL", ops...) }
-func (o Opcodes) MOVQL(ops ...Operand) { o.a.op("MOVQL", ops...) }
-func (o Opcodes) Movqozx(ops ...Operand) { o.a.op("MOVQOZX", ops...) }
-func (o Opcodes) MOVQOZX(ops ...Operand) { o.a.op("MOVQOZX", ops...) }
-func (o Opcodes) Movsb(ops ...Operand) { o.a.op("MOVSB", ops...) }
-func (o Opcodes) MOVSB(ops ...Operand) { o.a.op("MOVSB", ops...) }
-func (o Opcodes) Movsd(ops ...Operand) { o.a.op("MOVSD", ops...) }
-func (o Opcodes) MOVSD(ops ...Operand) { o.a.op("MOVSD", ops...) }
-func (o Opcodes) Movshdup(ops ...Operand) { o.a.op("MOVSHDUP", ops...) }
-func (o Opcodes) MOVSHDUP(ops ...Operand) { o.a.op("MOVSHDUP", ops...) }
-func (o Opcodes) Movsl(ops ...Operand) { o.a.op("MOVSL", ops...) }
-func (o Opcodes) MOVSL(ops ...Operand) { o.a.op("MOVSL", ops...) }
-func (o Opcodes) Movsldup(ops ...Operand) { o.a.op("MOVSLDUP", ops...) }
-func (o Opcodes) MOVSLDUP(ops ...Operand) { o.a.op("MOVSLDUP", ops...) }
-func (o Opcodes) Movsq(ops ...Operand) { o.a.op("MOVSQ", ops...) }
-func (o Opcodes) MOVSQ(ops ...Operand) { o.a.op("MOVSQ", ops...) }
-func (o Opcodes) Movss(ops ...Operand) { o.a.op("MOVSS", ops...) }
-func (o Opcodes) MOVSS(ops ...Operand) { o.a.op("MOVSS", ops...) }
-func (o Opcodes) Movsw(ops ...Operand) { o.a.op("MOVSW", ops...) }
-func (o Opcodes) MOVSW(ops ...Operand) { o.a.op("MOVSW", ops...) }
-func (o Opcodes) Movupd(ops ...Operand) { o.a.op("MOVUPD", ops...) }
-func (o Opcodes) MOVUPD(ops ...Operand) { o.a.op("MOVUPD", ops...) }
-func (o Opcodes) Movups(ops ...Operand) { o.a.op("MOVUPS", ops...) }
-func (o Opcodes) MOVUPS(ops ...Operand) { o.a.op("MOVUPS", ops...) }
-func (o Opcodes) Movw(ops ...Operand) { o.a.op("MOVW", ops...) }
-func (o Opcodes) MOVW(ops ...Operand) { o.a.op("MOVW", ops...) }
-func (o Opcodes) Movwlsx(ops ...Operand) { o.a.op("MOVWLSX", ops...) }
-func (o Opcodes) MOVWLSX(ops ...Operand) { o.a.op("MOVWLSX", ops...) }
-func (o Opcodes) Movwlzx(ops ...Operand) { o.a.op("MOVWLZX", ops...) }
-func (o Opcodes) MOVWLZX(ops ...Operand) { o.a.op("MOVWLZX", ops...) }
-func (o Opcodes) Movwqsx(ops ...Operand) { o.a.op("MOVWQSX", ops...) }
-func (o Opcodes) MOVWQSX(ops ...Operand) { o.a.op("MOVWQSX", ops...) }
-func (o Opcodes) Movwqzx(ops ...Operand) { o.a.op("MOVWQZX", ops...) }
-func (o Opcodes) MOVWQZX(ops ...Operand) { o.a.op("MOVWQZX", ops...) }
-func (o Opcodes) Mpsadbw(ops ...Operand) { o.a.op("MPSADBW", ops...) }
-func (o Opcodes) MPSADBW(ops ...Operand) { o.a.op("MPSADBW", ops...) }
-func (o Opcodes) Mulb(ops ...Operand) { o.a.op("MULB", ops...) }
-func (o Opcodes) MULB(ops ...Operand) { o.a.op("MULB", ops...) }
-func (o Opcodes) Mull(ops ...Operand) { o.a.op("MULL", ops...) }
-func (o Opcodes) MULL(ops ...Operand) { o.a.op("MULL", ops...) }
-func (o Opcodes) Mulpd(ops ...Operand) { o.a.op("MULPD", ops...) }
-func (o Opcodes) MULPD(ops ...Operand) { o.a.op("MULPD", ops...) }
-func (o Opcodes) Mulps(ops ...Operand) { o.a.op("MULPS", ops...) }
-func (o Opcodes) MULPS(ops ...Operand) { o.a.op("MULPS", ops...) }
-func (o Opcodes) Mulq(ops ...Operand) { o.a.op("MULQ", ops...) }
-func (o Opcodes) MULQ(ops ...Operand) { o.a.op("MULQ", ops...) }
-func (o Opcodes) Mulsd(ops ...Operand) { o.a.op("MULSD", ops...) }
-func (o Opcodes) MULSD(ops ...Operand) { o.a.op("MULSD", ops...) }
-func (o Opcodes) Mulss(ops ...Operand) { o.a.op("MULSS", ops...) }
-func (o Opcodes) MULSS(ops ...Operand) { o.a.op("MULSS", ops...) }
-func (o Opcodes) Mulw(ops ...Operand) { o.a.op("MULW", ops...) }
-func (o Opcodes) MULW(ops ...Operand) { o.a.op("MULW", ops...) }
-func (o Opcodes) Mulxl(ops ...Operand) { o.a.op("MULXL", ops...) }
-func (o Opcodes) MULXL(ops ...Operand) { o.a.op("MULXL", ops...) }
-func (o Opcodes) Mulxq(ops ...Operand) { o.a.op("MULXQ", ops...) }
-func (o Opcodes) MULXQ(ops ...Operand) { o.a.op("MULXQ", ops...) }
-func (o Opcodes) Negb(ops ...Operand) { o.a.op("NEGB", ops...) }
-func (o Opcodes) NEGB(ops ...Operand) { o.a.op("NEGB", ops...) }
-func (o Opcodes) Negl(ops ...Operand) { o.a.op("NEGL", ops...) }
-func (o Opcodes) NEGL(ops ...Operand) { o.a.op("NEGL", ops...) }
-func (o Opcodes) Negq(ops ...Operand) { o.a.op("NEGQ", ops...) }
-func (o Opcodes) NEGQ(ops ...Operand) { o.a.op("NEGQ", ops...) }
-func (o Opcodes) Negw(ops ...Operand) { o.a.op("NEGW", ops...) }
-func (o Opcodes) NEGW(ops ...Operand) { o.a.op("NEGW", ops...) }
-func (o Opcodes) Notb(ops ...Operand) { o.a.op("NOTB", ops...) }
-func (o Opcodes) NOTB(ops ...Operand) { o.a.op("NOTB", ops...) }
-func (o Opcodes) Notl(ops ...Operand) { o.a.op("NOTL", ops...) }
-func (o Opcodes) NOTL(ops ...Operand) { o.a.op("NOTL", ops...) }
-func (o Opcodes) Notq(ops ...Operand) { o.a.op("NOTQ", ops...) }
-func (o Opcodes) NOTQ(ops ...Operand) { o.a.op("NOTQ", ops...) }
-func (o Opcodes) Notw(ops ...Operand) { o.a.op("NOTW", ops...) }
-func (o Opcodes) NOTW(ops ...Operand) { o.a.op("NOTW", ops...) }
-func (o Opcodes) Orb(ops ...Operand) { o.a.op("ORB", ops...) }
-func (o Opcodes) ORB(ops ...Operand) { o.a.op("ORB", ops...) }
-func (o Opcodes) Orl(ops ...Operand) { o.a.op("ORL", ops...) }
-func (o Opcodes) ORL(ops ...Operand) { o.a.op("ORL", ops...) }
-func (o Opcodes) Orpd(ops ...Operand) { o.a.op("ORPD", ops...) }
-func (o Opcodes) ORPD(ops ...Operand) { o.a.op("ORPD", ops...) }
-func (o Opcodes) Orps(ops ...Operand) { o.a.op("ORPS", ops...) }
-func (o Opcodes) ORPS(ops ...Operand) { o.a.op("ORPS", ops...) }
-func (o Opcodes) Orq(ops ...Operand) { o.a.op("ORQ", ops...) }
-func (o Opcodes) ORQ(ops ...Operand) { o.a.op("ORQ", ops...) }
-func (o Opcodes) Orw(ops ...Operand) { o.a.op("ORW", ops...) }
-func (o Opcodes) ORW(ops ...Operand) { o.a.op("ORW", ops...) }
-func (o Opcodes) Outb(ops ...Operand) { o.a.op("OUTB", ops...) }
-func (o Opcodes) OUTB(ops ...Operand) { o.a.op("OUTB", ops...) }
-func (o Opcodes) Outl(ops ...Operand) { o.a.op("OUTL", ops...) }
-func (o Opcodes) OUTL(ops ...Operand) { o.a.op("OUTL", ops...) }
-func (o Opcodes) Outsb(ops ...Operand) { o.a.op("OUTSB", ops...) }
-func (o Opcodes) OUTSB(ops ...Operand) { o.a.op("OUTSB", ops...) }
-func (o Opcodes) Outsl(ops ...Operand) { o.a.op("OUTSL", ops...) }
-func (o Opcodes) OUTSL(ops ...Operand) { o.a.op("OUTSL", ops...) }
-func (o Opcodes) Outsw(ops ...Operand) { o.a.op("OUTSW", ops...) }
-func (o Opcodes) OUTSW(ops ...Operand) { o.a.op("OUTSW", ops...) }
-func (o Opcodes) Outw(ops ...Operand) { o.a.op("OUTW", ops...) }
-func (o Opcodes) OUTW(ops ...Operand) { o.a.op("OUTW", ops...) }
-func (o Opcodes) Pabsb(ops ...Operand) { o.a.op("PABSB", ops...) }
-func (o Opcodes) PABSB(ops ...Operand) { o.a.op("PABSB", ops...) }
-func (o Opcodes) Pabsd(ops ...Operand) { o.a.op("PABSD", ops...) }
-func (o Opcodes) PABSD(ops ...Operand) { o.a.op("PABSD", ops...) }
-func (o Opcodes) Pabsw(ops ...Operand) { o.a.op("PABSW", ops...) }
-func (o Opcodes) PABSW(ops ...Operand) { o.a.op("PABSW", ops...) }
-func (o Opcodes) Packsslw(ops ...Operand) { o.a.op("PACKSSLW", ops...) }
-func (o Opcodes) PACKSSLW(ops ...Operand) { o.a.op("PACKSSLW", ops...) }
-func (o Opcodes) Packsswb(ops ...Operand) { o.a.op("PACKSSWB", ops...) }
-func (o Opcodes) PACKSSWB(ops ...Operand) { o.a.op("PACKSSWB", ops...) }
-func (o Opcodes) Packusdw(ops ...Operand) { o.a.op("PACKUSDW", ops...) }
-func (o Opcodes) PACKUSDW(ops ...Operand) { o.a.op("PACKUSDW", ops...) }
-func (o Opcodes) Packuswb(ops ...Operand) { o.a.op("PACKUSWB", ops...) }
-func (o Opcodes) PACKUSWB(ops ...Operand) { o.a.op("PACKUSWB", ops...) }
-func (o Opcodes) Paddb(ops ...Operand) { o.a.op("PADDB", ops...) }
-func (o Opcodes) PADDB(ops ...Operand) { o.a.op("PADDB", ops...) }
-func (o Opcodes) Paddl(ops ...Operand) { o.a.op("PADDL", ops...) }
-func (o Opcodes) PADDL(ops ...Operand) { o.a.op("PADDL", ops...) }
-func (o Opcodes) Paddq(ops ...Operand) { o.a.op("PADDQ", ops...) }
-func (o Opcodes) PADDQ(ops ...Operand) { o.a.op("PADDQ", ops...) }
-func (o Opcodes) Paddsb(ops ...Operand) { o.a.op("PADDSB", ops...) }
-func (o Opcodes) PADDSB(ops ...Operand) { o.a.op("PADDSB", ops...) }
-func (o Opcodes) Paddsw(ops ...Operand) { o.a.op("PADDSW", ops...) }
-func (o Opcodes) PADDSW(ops ...Operand) { o.a.op("PADDSW", ops...) }
-func (o Opcodes) Paddusb(ops ...Operand) { o.a.op("PADDUSB", ops...) }
-func (o Opcodes) PADDUSB(ops ...Operand) { o.a.op("PADDUSB", ops...) }
-func (o Opcodes) Paddusw(ops ...Operand) { o.a.op("PADDUSW", ops...) }
-func (o Opcodes) PADDUSW(ops ...Operand) { o.a.op("PADDUSW", ops...) }
-func (o Opcodes) Paddw(ops ...Operand) { o.a.op("PADDW", ops...) }
-func (o Opcodes) PADDW(ops ...Operand) { o.a.op("PADDW", ops...) }
-func (o Opcodes) Palignr(ops ...Operand) { o.a.op("PALIGNR", ops...) }
-func (o Opcodes) PALIGNR(ops ...Operand) { o.a.op("PALIGNR", ops...) }
-func (o Opcodes) Pand(ops ...Operand) { o.a.op("PAND", ops...) }
-func (o Opcodes) PAND(ops ...Operand) { o.a.op("PAND", ops...) }
-func (o Opcodes) Pandn(ops ...Operand) { o.a.op("PANDN", ops...) }
-func (o Opcodes) PANDN(ops ...Operand) { o.a.op("PANDN", ops...) }
-func (o Opcodes) Pause(ops ...Operand) { o.a.op("PAUSE", ops...) }
-func (o Opcodes) PAUSE(ops ...Operand) { o.a.op("PAUSE", ops...) }
-func (o Opcodes) Pavgb(ops ...Operand) { o.a.op("PAVGB", ops...) }
-func (o Opcodes) PAVGB(ops ...Operand) { o.a.op("PAVGB", ops...) }
-func (o Opcodes) Pavgw(ops ...Operand) { o.a.op("PAVGW", ops...) }
-func (o Opcodes) PAVGW(ops ...Operand) { o.a.op("PAVGW", ops...) }
-func (o Opcodes) Pblendw(ops ...Operand) { o.a.op("PBLENDW", ops...) }
-func (o Opcodes) PBLENDW(ops ...Operand) { o.a.op("PBLENDW", ops...) }
-func (o Opcodes) Pclmulqdq(ops ...Operand) { o.a.op("PCLMULQDQ", ops...) }
-func (o Opcodes) PCLMULQDQ(ops ...Operand) { o.a.op("PCLMULQDQ", ops...) }
-func (o Opcodes) Pcmpeqb(ops ...Operand) { o.a.op("PCMPEQB", ops...) }
-func (o Opcodes) PCMPEQB(ops ...Operand) { o.a.op("PCMPEQB", ops...) }
-func (o Opcodes) Pcmpeql(ops ...Operand) { o.a.op("PCMPEQL", ops...) }
-func (o Opcodes) PCMPEQL(ops ...Operand) { o.a.op("PCMPEQL", ops...) }
-func (o Opcodes) Pcmpeqq(ops ...Operand) { o.a.op("PCMPEQQ", ops...) }
-func (o Opcodes) PCMPEQQ(ops ...Operand) { o.a.op("PCMPEQQ", ops...) }
-func (o Opcodes) Pcmpeqw(ops ...Operand) { o.a.op("PCMPEQW", ops...) }
-func (o Opcodes) PCMPEQW(ops ...Operand) { o.a.op("PCMPEQW", ops...) }
-func (o Opcodes) Pcmpestri(ops ...Operand) { o.a.op("PCMPESTRI", ops...) }
-func (o Opcodes) PCMPESTRI(ops ...Operand) { o.a.op("PCMPESTRI", ops...) }
-func (o Opcodes) Pcmpestrm(ops ...Operand) { o.a.op("PCMPESTRM", ops...) }
-func (o Opcodes) PCMPESTRM(ops ...Operand) { o.a.op("PCMPESTRM", ops...) }
-func (o Opcodes) Pcmpgtb(ops ...Operand) { o.a.op("PCMPGTB", ops...) }
-func (o Opcodes) PCMPGTB(ops ...Operand) { o.a.op("PCMPGTB", ops...) }
-func (o Opcodes) Pcmpgtl(ops ...Operand) { o.a.op("PCMPGTL", ops...) }
-func (o Opcodes) PCMPGTL(ops ...Operand) { o.a.op("PCMPGTL", ops...) }
-func (o Opcodes) Pcmpgtq(ops ...Operand) { o.a.op("PCMPGTQ", ops...) }
-func (o Opcodes) PCMPGTQ(ops ...Operand) { o.a.op("PCMPGTQ", ops...) }
-func (o Opcodes) Pcmpgtw(ops ...Operand) { o.a.op("PCMPGTW", ops...) }
-func (o Opcodes) PCMPGTW(ops ...Operand) { o.a.op("PCMPGTW", ops...) }
-func (o Opcodes) Pcmpistri(ops ...Operand) { o.a.op("PCMPISTRI", ops...) }
-func (o Opcodes) PCMPISTRI(ops ...Operand) { o.a.op("PCMPISTRI", ops...) }
-func (o Opcodes) Pcmpistrm(ops ...Operand) { o.a.op("PCMPISTRM", ops...) }
-func (o Opcodes) PCMPISTRM(ops ...Operand) { o.a.op("PCMPISTRM", ops...) }
-func (o Opcodes) Pdepl(ops ...Operand) { o.a.op("PDEPL", ops...) }
-func (o Opcodes) PDEPL(ops ...Operand) { o.a.op("PDEPL", ops...) }
-func (o Opcodes) Pdepq(ops ...Operand) { o.a.op("PDEPQ", ops...) }
-func (o Opcodes) PDEPQ(ops ...Operand) { o.a.op("PDEPQ", ops...) }
-func (o Opcodes) Pextl(ops ...Operand) { o.a.op("PEXTL", ops...) }
-func (o Opcodes) PEXTL(ops ...Operand) { o.a.op("PEXTL", ops...) }
-func (o Opcodes) Pextq(ops ...Operand) { o.a.op("PEXTQ", ops...) }
-func (o Opcodes) PEXTQ(ops ...Operand) { o.a.op("PEXTQ", ops...) }
-func (o Opcodes) Pextrb(ops ...Operand) { o.a.op("PEXTRB", ops...) }
-func (o Opcodes) PEXTRB(ops ...Operand) { o.a.op("PEXTRB", ops...) }
-func (o Opcodes) Pextrd(ops ...Operand) { o.a.op("PEXTRD", ops...) }
-func (o Opcodes) PEXTRD(ops ...Operand) { o.a.op("PEXTRD", ops...) }
-func (o Opcodes) Pextrq(ops ...Operand) { o.a.op("PEXTRQ", ops...) }
-func (o Opcodes) PEXTRQ(ops ...Operand) { o.a.op("PEXTRQ", ops...) }
-func (o Opcodes) Phaddd(ops ...Operand) { o.a.op("PHADDD", ops...) }
-func (o Opcodes) PHADDD(ops ...Operand) { o.a.op("PHADDD", ops...) }
-func (o Opcodes) Phaddsw(ops ...Operand) { o.a.op("PHADDSW", ops...) }
-func (o Opcodes) PHADDSW(ops ...Operand) { o.a.op("PHADDSW", ops...) }
-func (o Opcodes) Phaddw(ops ...Operand) { o.a.op("PHADDW", ops...) }
-func (o Opcodes) PHADDW(ops ...Operand) { o.a.op("PHADDW", ops...) }
-func (o Opcodes) Phminposuw(ops ...Operand) { o.a.op("PHMINPOSUW", ops...) }
-func (o Opcodes) PHMINPOSUW(ops ...Operand) { o.a.op("PHMINPOSUW", ops...) }
-func (o Opcodes) Phsubd(ops ...Operand) { o.a.op("PHSUBD", ops...) }
-func (o Opcodes) PHSUBD(ops ...Operand) { o.a.op("PHSUBD", ops...) }
-func (o Opcodes) Phsubsw(ops ...Operand) { o.a.op("PHSUBSW", ops...) }
-func (o Opcodes) PHSUBSW(ops ...Operand) { o.a.op("PHSUBSW", ops...) }
-func (o Opcodes) Phsubw(ops ...Operand) { o.a.op("PHSUBW", ops...) }
-func (o Opcodes) PHSUBW(ops ...Operand) { o.a.op("PHSUBW", ops...) }
-func (o Opcodes) Pinsrb(ops ...Operand) { o.a.op("PINSRB", ops...) }
-func (o Opcodes) PINSRB(ops ...Operand) { o.a.op("PINSRB", ops...) }
-func (o Opcodes) Pinsrd(ops ...Operand) { o.a.op("PINSRD", ops...) }
-func (o Opcodes) PINSRD(ops ...Operand) { o.a.op("PINSRD", ops...) }
-func (o Opcodes) Pinsrq(ops ...Operand) { o.a.op("PINSRQ", ops...) }
-func (o Opcodes) PINSRQ(ops ...Operand) { o.a.op("PINSRQ", ops...) }
-func (o Opcodes) Pinsrw(ops ...Operand) { o.a.op("PINSRW", ops...) }
-func (o Opcodes) PINSRW(ops ...Operand) { o.a.op("PINSRW", ops...) }
-func (o Opcodes) Pmaddubsw(ops ...Operand) { o.a.op("PMADDUBSW", ops...) }
-func (o Opcodes) PMADDUBSW(ops ...Operand) { o.a.op("PMADDUBSW", ops...) }
-func (o Opcodes) Pmaddwl(ops ...Operand) { o.a.op("PMADDWL", ops...) }
-func (o Opcodes) PMADDWL(ops ...Operand) { o.a.op("PMADDWL", ops...) }
-func (o Opcodes) Pmaxsb(ops ...Operand) { o.a.op("PMAXSB", ops...) }
-func (o Opcodes) PMAXSB(ops ...Operand) { o.a.op("PMAXSB", ops...) }
-func (o Opcodes) Pmaxsd(ops ...Operand) { o.a.op("PMAXSD", ops...) }
-func (o Opcodes) PMAXSD(ops ...Operand) { o.a.op("PMAXSD", ops...) }
-func (o Opcodes) Pmaxsw(ops ...Operand) { o.a.op("PMAXSW", ops...) }
-func (o Opcodes) PMAXSW(ops ...Operand) { o.a.op("PMAXSW", ops...) }
-func (o Opcodes) Pmaxub(ops ...Operand) { o.a.op("PMAXUB", ops...) }
-func (o Opcodes) PMAXUB(ops ...Operand) { o.a.op("PMAXUB", ops...) }
-func (o Opcodes) Pmaxud(ops ...Operand) { o.a.op("PMAXUD", ops...) }
-func (o Opcodes) PMAXUD(ops ...Operand) { o.a.op("PMAXUD", ops...) }
-func (o Opcodes) Pmaxuw(ops ...Operand) { o.a.op("PMAXUW", ops...) }
-func (o Opcodes) PMAXUW(ops ...Operand) { o.a.op("PMAXUW", ops...) }
-func (o Opcodes) Pminsb(ops ...Operand) { o.a.op("PMINSB", ops...) }
-func (o Opcodes) PMINSB(ops ...Operand) { o.a.op("PMINSB", ops...) }
-func (o Opcodes) Pminsd(ops ...Operand) { o.a.op("PMINSD", ops...) }
-func (o Opcodes) PMINSD(ops ...Operand) { o.a.op("PMINSD", ops...) }
-func (o Opcodes) Pminsw(ops ...Operand) { o.a.op("PMINSW", ops...) }
-func (o Opcodes) PMINSW(ops ...Operand) { o.a.op("PMINSW", ops...) }
-func (o Opcodes) Pminub(ops ...Operand) { o.a.op("PMINUB", ops...) }
-func (o Opcodes) PMINUB(ops ...Operand) { o.a.op("PMINUB", ops...) }
-func (o Opcodes) Pminud(ops ...Operand) { o.a.op("PMINUD", ops...) }
-func (o Opcodes) PMINUD(ops ...Operand) { o.a.op("PMINUD", ops...) }
-func (o Opcodes) Pminuw(ops ...Operand) { o.a.op("PMINUW", ops...) }
-func (o Opcodes) PMINUW(ops ...Operand) { o.a.op("PMINUW", ops...) }
-func (o Opcodes) Pmovmskb(ops ...Operand) { o.a.op("PMOVMSKB", ops...) }
-func (o Opcodes) PMOVMSKB(ops ...Operand) { o.a.op("PMOVMSKB", ops...) }
-func (o Opcodes) Pmovsxbd(ops ...Operand) { o.a.op("PMOVSXBD", ops...) }
-func (o Opcodes) PMOVSXBD(ops ...Operand) { o.a.op("PMOVSXBD", ops...) }
-func (o Opcodes) Pmovsxbq(ops ...Operand) { o.a.op("PMOVSXBQ", ops...) }
-func (o Opcodes) PMOVSXBQ(ops ...Operand) { o.a.op("PMOVSXBQ", ops...) }
-func (o Opcodes) Pmovsxbw(ops ...Operand) { o.a.op("PMOVSXBW", ops...) }
-func (o Opcodes) PMOVSXBW(ops ...Operand) { o.a.op("PMOVSXBW", ops...) }
-func (o Opcodes) Pmovsxdq(ops ...Operand) { o.a.op("PMOVSXDQ", ops...) }
-func (o Opcodes) PMOVSXDQ(ops ...Operand) { o.a.op("PMOVSXDQ", ops...) }
-func (o Opcodes) Pmovsxwd(ops ...Operand) { o.a.op("PMOVSXWD", ops...) }
-func (o Opcodes) PMOVSXWD(ops ...Operand) { o.a.op("PMOVSXWD", ops...) }
-func (o Opcodes) Pmovsxwq(ops ...Operand) { o.a.op("PMOVSXWQ", ops...) }
-func (o Opcodes) PMOVSXWQ(ops ...Operand) { o.a.op("PMOVSXWQ", ops...) }
-func (o Opcodes) Pmovzxbd(ops ...Operand) { o.a.op("PMOVZXBD", ops...) }
-func (o Opcodes) PMOVZXBD(ops ...Operand) { o.a.op("PMOVZXBD", ops...) }
-func (o Opcodes) Pmovzxbq(ops ...Operand) { o.a.op("PMOVZXBQ", ops...) }
-func (o Opcodes) PMOVZXBQ(ops ...Operand) { o.a.op("PMOVZXBQ", ops...) }
-func (o Opcodes) Pmovzxbw(ops ...Operand) { o.a.op("PMOVZXBW", ops...) }
-func (o Opcodes) PMOVZXBW(ops ...Operand) { o.a.op("PMOVZXBW", ops...) }
-func (o Opcodes) Pmovzxdq(ops ...Operand) { o.a.op("PMOVZXDQ", ops...) }
-func (o Opcodes) PMOVZXDQ(ops ...Operand) { o.a.op("PMOVZXDQ", ops...) }
-func (o Opcodes) Pmovzxwd(ops ...Operand) { o.a.op("PMOVZXWD", ops...) }
-func (o Opcodes) PMOVZXWD(ops ...Operand) { o.a.op("PMOVZXWD", ops...) }
-func (o Opcodes) Pmovzxwq(ops ...Operand) { o.a.op("PMOVZXWQ", ops...) }
-func (o Opcodes) PMOVZXWQ(ops ...Operand) { o.a.op("PMOVZXWQ", ops...) }
-func (o Opcodes) Pmuldq(ops ...Operand) { o.a.op("PMULDQ", ops...) }
-func (o Opcodes) PMULDQ(ops ...Operand) { o.a.op("PMULDQ", ops...) }
-func (o Opcodes) Pmulhrsw(ops ...Operand) { o.a.op("PMULHRSW", ops...) }
-func (o Opcodes) PMULHRSW(ops ...Operand) { o.a.op("PMULHRSW", ops...) }
-func (o Opcodes) Pmulhuw(ops ...Operand) { o.a.op("PMULHUW", ops...) }
-func (o Opcodes) PMULHUW(ops ...Operand) { o.a.op("PMULHUW", ops...) }
-func (o Opcodes) Pmulhw(ops ...Operand) { o.a.op("PMULHW", ops...) }
-func (o Opcodes) PMULHW(ops ...Operand) { o.a.op("PMULHW", ops...) }
-func (o Opcodes) Pmulld(ops ...Operand) { o.a.op("PMULLD", ops...) }
-func (o Opcodes) PMULLD(ops ...Operand) { o.a.op("PMULLD", ops...) }
-func (o Opcodes) Pmullw(ops ...Operand) { o.a.op("PMULLW", ops...) }
-func (o Opcodes) PMULLW(ops ...Operand) { o.a.op("PMULLW", ops...) }
-func (o Opcodes) Pmululq(ops ...Operand) { o.a.op("PMULULQ", ops...) }
-func (o Opcodes) PMULULQ(ops ...Operand) { o.a.op("PMULULQ", ops...) }
-func (o Opcodes) Popal(ops ...Operand) { o.a.op("POPAL", ops...) }
-func (o Opcodes) POPAL(ops ...Operand) { o.a.op("POPAL", ops...) }
-func (o Opcodes) Popaw(ops ...Operand) { o.a.op("POPAW", ops...) }
-func (o Opcodes) POPAW(ops ...Operand) { o.a.op("POPAW", ops...) }
-func (o Opcodes) Popcntl(ops ...Operand) { o.a.op("POPCNTL", ops...) }
-func (o Opcodes) POPCNTL(ops ...Operand) { o.a.op("POPCNTL", ops...) }
-func (o Opcodes) Popcntq(ops ...Operand) { o.a.op("POPCNTQ", ops...) }
-func (o Opcodes) POPCNTQ(ops ...Operand) { o.a.op("POPCNTQ", ops...) }
-func (o Opcodes) Popcntw(ops ...Operand) { o.a.op("POPCNTW", ops...) }
-func (o Opcodes) POPCNTW(ops ...Operand) { o.a.op("POPCNTW", ops...) }
-func (o Opcodes) Popfl(ops ...Operand) { o.a.op("POPFL", ops...) }
-func (o Opcodes) POPFL(ops ...Operand) { o.a.op("POPFL", ops...) }
-func (o Opcodes) Popfq(ops ...Operand) { o.a.op("POPFQ", ops...) }
-func (o Opcodes) POPFQ(ops ...Operand) { o.a.op("POPFQ", ops...) }
-func (o Opcodes) Popfw(ops ...Operand) { o.a.op("POPFW", ops...) }
-func (o Opcodes) POPFW(ops ...Operand) { o.a.op("POPFW", ops...) }
-func (o Opcodes) Popl(ops ...Operand) { o.a.op("POPL", ops...) }
-func (o Opcodes) POPL(ops ...Operand) { o.a.op("POPL", ops...) }
-func (o Opcodes) Popq(ops ...Operand) { o.a.op("POPQ", ops...) }
-func (o Opcodes) POPQ(ops ...Operand) { o.a.op("POPQ", ops...) }
-func (o Opcodes) Popw(ops ...Operand) { o.a.op("POPW", ops...) }
-func (o Opcodes) POPW(ops ...Operand) { o.a.op("POPW", ops...) }
-func (o Opcodes) Por(ops ...Operand) { o.a.op("POR", ops...) }
-func (o Opcodes) POR(ops ...Operand) { o.a.op("POR", ops...) }
-func (o Opcodes) Prefetchnta(ops ...Operand) { o.a.op("PREFETCHNTA", ops...) }
-func (o Opcodes) PREFETCHNTA(ops ...Operand) { o.a.op("PREFETCHNTA", ops...) }
-func (o Opcodes) Prefetcht0(ops ...Operand) { o.a.op("PREFETCHT0", ops...) }
-func (o Opcodes) PREFETCHT0(ops ...Operand) { o.a.op("PREFETCHT0", ops...) }
-func (o Opcodes) Prefetcht1(ops ...Operand) { o.a.op("PREFETCHT1", ops...) }
-func (o Opcodes) PREFETCHT1(ops ...Operand) { o.a.op("PREFETCHT1", ops...) }
-func (o Opcodes) Prefetcht2(ops ...Operand) { o.a.op("PREFETCHT2", ops...) }
-func (o Opcodes) PREFETCHT2(ops ...Operand) { o.a.op("PREFETCHT2", ops...) }
-func (o Opcodes) Psadbw(ops ...Operand) { o.a.op("PSADBW", ops...) }
-func (o Opcodes) PSADBW(ops ...Operand) { o.a.op("PSADBW", ops...) }
-func (o Opcodes) Pshufb(ops ...Operand) { o.a.op("PSHUFB", ops...) }
-func (o Opcodes) PSHUFB(ops ...Operand) { o.a.op("PSHUFB", ops...) }
-func (o Opcodes) Pshufd(ops ...Operand) { o.a.op("PSHUFD", ops...) }
-func (o Opcodes) PSHUFD(ops ...Operand) { o.a.op("PSHUFD", ops...) }
-func (o Opcodes) Pshufhw(ops ...Operand) { o.a.op("PSHUFHW", ops...) }
-func (o Opcodes) PSHUFHW(ops ...Operand) { o.a.op("PSHUFHW", ops...) }
-func (o Opcodes) Pshufl(ops ...Operand) { o.a.op("PSHUFL", ops...) }
-func (o Opcodes) PSHUFL(ops ...Operand) { o.a.op("PSHUFL", ops...) }
-func (o Opcodes) Pshuflw(ops ...Operand) { o.a.op("PSHUFLW", ops...) }
-func (o Opcodes) PSHUFLW(ops ...Operand) { o.a.op("PSHUFLW", ops...) }
-func (o Opcodes) Pshufw(ops ...Operand) { o.a.op("PSHUFW", ops...) }
-func (o Opcodes) PSHUFW(ops ...Operand) { o.a.op("PSHUFW", ops...) }
-func (o Opcodes) Psignb(ops ...Operand) { o.a.op("PSIGNB", ops...) }
-func (o Opcodes) PSIGNB(ops ...Operand) { o.a.op("PSIGNB", ops...) }
-func (o Opcodes) Psignd(ops ...Operand) { o.a.op("PSIGND", ops...) }
-func (o Opcodes) PSIGND(ops ...Operand) { o.a.op("PSIGND", ops...) }
-func (o Opcodes) Psignw(ops ...Operand) { o.a.op("PSIGNW", ops...) }
-func (o Opcodes) PSIGNW(ops ...Operand) { o.a.op("PSIGNW", ops...) }
-func (o Opcodes) Pslll(ops ...Operand) { o.a.op("PSLLL", ops...) }
-func (o Opcodes) PSLLL(ops ...Operand) { o.a.op("PSLLL", ops...) }
-func (o Opcodes) Psllo(ops ...Operand) { o.a.op("PSLLO", ops...) }
-func (o Opcodes) PSLLO(ops ...Operand) { o.a.op("PSLLO", ops...) }
-func (o Opcodes) Psllq(ops ...Operand) { o.a.op("PSLLQ", ops...) }
-func (o Opcodes) PSLLQ(ops ...Operand) { o.a.op("PSLLQ", ops...) }
-func (o Opcodes) Psllw(ops ...Operand) { o.a.op("PSLLW", ops...) }
-func (o Opcodes) PSLLW(ops ...Operand) { o.a.op("PSLLW", ops...) }
-func (o Opcodes) Psral(ops ...Operand) { o.a.op("PSRAL", ops...) }
-func (o Opcodes) PSRAL(ops ...Operand) { o.a.op("PSRAL", ops...) }
-func (o Opcodes) Psraw(ops ...Operand) { o.a.op("PSRAW", ops...) }
-func (o Opcodes) PSRAW(ops ...Operand) { o.a.op("PSRAW", ops...) }
-func (o Opcodes) Psrll(ops ...Operand) { o.a.op("PSRLL", ops...) }
-func (o Opcodes) PSRLL(ops ...Operand) { o.a.op("PSRLL", ops...) }
-func (o Opcodes) Psrlo(ops ...Operand) { o.a.op("PSRLO", ops...) }
-func (o Opcodes) PSRLO(ops ...Operand) { o.a.op("PSRLO", ops...) }
-func (o Opcodes) Psrlq(ops ...Operand) { o.a.op("PSRLQ", ops...) }
-func (o Opcodes) PSRLQ(ops ...Operand) { o.a.op("PSRLQ", ops...) }
-func (o Opcodes) Psrlw(ops ...Operand) { o.a.op("PSRLW", ops...) }
-func (o Opcodes) PSRLW(ops ...Operand) { o.a.op("PSRLW", ops...) }
-func (o Opcodes) Psubb(ops ...Operand) { o.a.op("PSUBB", ops...) }
-func (o Opcodes) PSUBB(ops ...Operand) { o.a.op("PSUBB", ops...) }
-func (o Opcodes) Psubl(ops ...Operand) { o.a.op("PSUBL", ops...) }
-func (o Opcodes) PSUBL(ops ...Operand) { o.a.op("PSUBL", ops...) }
-func (o Opcodes) Psubq(ops ...Operand) { o.a.op("PSUBQ", ops...) }
-func (o Opcodes) PSUBQ(ops ...Operand) { o.a.op("PSUBQ", ops...) }
-func (o Opcodes) Psubsb(ops ...Operand) { o.a.op("PSUBSB", ops...) }
-func (o Opcodes) PSUBSB(ops ...Operand) { o.a.op("PSUBSB", ops...) }
-func (o Opcodes) Psubsw(ops ...Operand) { o.a.op("PSUBSW", ops...) }
-func (o Opcodes) PSUBSW(ops ...Operand) { o.a.op("PSUBSW", ops...) }
-func (o Opcodes) Psubusb(ops ...Operand) { o.a.op("PSUBUSB", ops...) }
-func (o Opcodes) PSUBUSB(ops ...Operand) { o.a.op("PSUBUSB", ops...) }
-func (o Opcodes) Psubusw(ops ...Operand) { o.a.op("PSUBUSW", ops...) }
-func (o Opcodes) PSUBUSW(ops ...Operand) { o.a.op("PSUBUSW", ops...) }
-func (o Opcodes) Psubw(ops ...Operand) { o.a.op("PSUBW", ops...) }
-func (o Opcodes) PSUBW(ops ...Operand) { o.a.op("PSUBW", ops...) }
-func (o Opcodes) Ptest(ops ...Operand) { o.a.op("PTEST", ops...) }
-func (o Opcodes) PTEST(ops ...Operand) { o.a.op("PTEST", ops...) }
-func (o Opcodes) Punpckhbw(ops ...Operand) { o.a.op("PUNPCKHBW", ops...) }
-func (o Opcodes) PUNPCKHBW(ops ...Operand) { o.a.op("PUNPCKHBW", ops...) }
-func (o Opcodes) Punpckhlq(ops ...Operand) { o.a.op("PUNPCKHLQ", ops...) }
-func (o Opcodes) PUNPCKHLQ(ops ...Operand) { o.a.op("PUNPCKHLQ", ops...) }
-func (o Opcodes) Punpckhqdq(ops ...Operand) { o.a.op("PUNPCKHQDQ", ops...) }
-func (o Opcodes) PUNPCKHQDQ(ops ...Operand) { o.a.op("PUNPCKHQDQ", ops...) }
-func (o Opcodes) Punpckhwl(ops ...Operand) { o.a.op("PUNPCKHWL", ops...) }
-func (o Opcodes) PUNPCKHWL(ops ...Operand) { o.a.op("PUNPCKHWL", ops...) }
-func (o Opcodes) Punpcklbw(ops ...Operand) { o.a.op("PUNPCKLBW", ops...) }
-func (o Opcodes) PUNPCKLBW(ops ...Operand) { o.a.op("PUNPCKLBW", ops...) }
-func (o Opcodes) Punpckllq(ops ...Operand) { o.a.op("PUNPCKLLQ", ops...) }
-func (o Opcodes) PUNPCKLLQ(ops ...Operand) { o.a.op("PUNPCKLLQ", ops...) }
-func (o Opcodes) Punpcklqdq(ops ...Operand) { o.a.op("PUNPCKLQDQ", ops...) }
-func (o Opcodes) PUNPCKLQDQ(ops ...Operand) { o.a.op("PUNPCKLQDQ", ops...) }
-func (o Opcodes) Punpcklwl(ops ...Operand) { o.a.op("PUNPCKLWL", ops...) }
-func (o Opcodes) PUNPCKLWL(ops ...Operand) { o.a.op("PUNPCKLWL", ops...) }
-func (o Opcodes) Pushal(ops ...Operand) { o.a.op("PUSHAL", ops...) }
-func (o Opcodes) PUSHAL(ops ...Operand) { o.a.op("PUSHAL", ops...) }
-func (o Opcodes) Pushaw(ops ...Operand) { o.a.op("PUSHAW", ops...) }
-func (o Opcodes) PUSHAW(ops ...Operand) { o.a.op("PUSHAW", ops...) }
-func (o Opcodes) Pushfl(ops ...Operand) { o.a.op("PUSHFL", ops...) }
-func (o Opcodes) PUSHFL(ops ...Operand) { o.a.op("PUSHFL", ops...) }
-func (o Opcodes) Pushfq(ops ...Operand) { o.a.op("PUSHFQ", ops...) }
-func (o Opcodes) PUSHFQ(ops ...Operand) { o.a.op("PUSHFQ", ops...) }
-func (o Opcodes) Pushfw(ops ...Operand) { o.a.op("PUSHFW", ops...) }
-func (o Opcodes) PUSHFW(ops ...Operand) { o.a.op("PUSHFW", ops...) }
-func (o Opcodes) Pushl(ops ...Operand) { o.a.op("PUSHL", ops...) }
-func (o Opcodes) PUSHL(ops ...Operand) { o.a.op("PUSHL", ops...) }
-func (o Opcodes) Pushq(ops ...Operand) { o.a.op("PUSHQ", ops...) }
-func (o Opcodes) PUSHQ(ops ...Operand) { o.a.op("PUSHQ", ops...) }
-func (o Opcodes) Pushw(ops ...Operand) { o.a.op("PUSHW", ops...) }
-func (o Opcodes) PUSHW(ops ...Operand) { o.a.op("PUSHW", ops...) }
-func (o Opcodes) Pxor(ops ...Operand) { o.a.op("PXOR", ops...) }
-func (o Opcodes) PXOR(ops ...Operand) { o.a.op("PXOR", ops...) }
-func (o Opcodes) Quad(ops ...Operand) { o.a.op("QUAD", ops...) }
-func (o Opcodes) QUAD(ops ...Operand) { o.a.op("QUAD", ops...) }
-func (o Opcodes) Rclb(ops ...Operand) { o.a.op("RCLB", ops...) }
-func (o Opcodes) RCLB(ops ...Operand) { o.a.op("RCLB", ops...) }
-func (o Opcodes) Rcll(ops ...Operand) { o.a.op("RCLL", ops...) }
-func (o Opcodes) RCLL(ops ...Operand) { o.a.op("RCLL", ops...) }
-func (o Opcodes) Rclq(ops ...Operand) { o.a.op("RCLQ", ops...) }
-func (o Opcodes) RCLQ(ops ...Operand) { o.a.op("RCLQ", ops...) }
-func (o Opcodes) Rclw(ops ...Operand) { o.a.op("RCLW", ops...) }
-func (o Opcodes) RCLW(ops ...Operand) { o.a.op("RCLW", ops...) }
-func (o Opcodes) Rcpps(ops ...Operand) { o.a.op("RCPPS", ops...) }
-func (o Opcodes) RCPPS(ops ...Operand) { o.a.op("RCPPS", ops...) }
-func (o Opcodes) Rcpss(ops ...Operand) { o.a.op("RCPSS", ops...) }
-func (o Opcodes) RCPSS(ops ...Operand) { o.a.op("RCPSS", ops...) }
-func (o Opcodes) Rcrb(ops ...Operand) { o.a.op("RCRB", ops...) }
-func (o Opcodes) RCRB(ops ...Operand) { o.a.op("RCRB", ops...) }
-func (o Opcodes) Rcrl(ops ...Operand) { o.a.op("RCRL", ops...) }
-func (o Opcodes) RCRL(ops ...Operand) { o.a.op("RCRL", ops...) }
-func (o Opcodes) Rcrq(ops ...Operand) { o.a.op("RCRQ", ops...) }
-func (o Opcodes) RCRQ(ops ...Operand) { o.a.op("RCRQ", ops...) }
-func (o Opcodes) Rcrw(ops ...Operand) { o.a.op("RCRW", ops...) }
-func (o Opcodes) RCRW(ops ...Operand) { o.a.op("RCRW", ops...) }
-func (o Opcodes) Rdmsr(ops ...Operand) { o.a.op("RDMSR", ops...) }
-func (o Opcodes) RDMSR(ops ...Operand) { o.a.op("RDMSR", ops...) }
-func (o Opcodes) Rdpmc(ops ...Operand) { o.a.op("RDPMC", ops...) }
-func (o Opcodes) RDPMC(ops ...Operand) { o.a.op("RDPMC", ops...) }
-func (o Opcodes) Rdtsc(ops ...Operand) { o.a.op("RDTSC", ops...) }
-func (o Opcodes) RDTSC(ops ...Operand) { o.a.op("RDTSC", ops...) }
-func (o Opcodes) Rep(ops ...Operand) { o.a.op("REP", ops...) }
-func (o Opcodes) REP(ops ...Operand) { o.a.op("REP", ops...) }
-func (o Opcodes) Repn(ops ...Operand) { o.a.op("REPN", ops...) }
-func (o Opcodes) REPN(ops ...Operand) { o.a.op("REPN", ops...) }
-func (o Opcodes) Retfl(ops ...Operand) { o.a.op("RETFL", ops...) }
-func (o Opcodes) RETFL(ops ...Operand) { o.a.op("RETFL", ops...) }
-func (o Opcodes) Retfq(ops ...Operand) { o.a.op("RETFQ", ops...) }
-func (o Opcodes) RETFQ(ops ...Operand) { o.a.op("RETFQ", ops...) }
-func (o Opcodes) Retfw(ops ...Operand) { o.a.op("RETFW", ops...) }
-func (o Opcodes) RETFW(ops ...Operand) { o.a.op("RETFW", ops...) }
-func (o Opcodes) Rolb(ops ...Operand) { o.a.op("ROLB", ops...) }
-func (o Opcodes) ROLB(ops ...Operand) { o.a.op("ROLB", ops...) }
-func (o Opcodes) Roll(ops ...Operand) { o.a.op("ROLL", ops...) }
-func (o Opcodes) ROLL(ops ...Operand) { o.a.op("ROLL", ops...) }
-func (o Opcodes) Rolq(ops ...Operand) { o.a.op("ROLQ", ops...) }
-func (o Opcodes) ROLQ(ops ...Operand) { o.a.op("ROLQ", ops...) }
-func (o Opcodes) Rolw(ops ...Operand) { o.a.op("ROLW", ops...) }
-func (o Opcodes) ROLW(ops ...Operand) { o.a.op("ROLW", ops...) }
-func (o Opcodes) Rorb(ops ...Operand) { o.a.op("RORB", ops...) }
-func (o Opcodes) RORB(ops ...Operand) { o.a.op("RORB", ops...) }
-func (o Opcodes) Rorl(ops ...Operand) { o.a.op("RORL", ops...) }
-func (o Opcodes) RORL(ops ...Operand) { o.a.op("RORL", ops...) }
-func (o Opcodes) Rorq(ops ...Operand) { o.a.op("RORQ", ops...) }
-func (o Opcodes) RORQ(ops ...Operand) { o.a.op("RORQ", ops...) }
-func (o Opcodes) Rorw(ops ...Operand) { o.a.op("RORW", ops...) }
-func (o Opcodes) RORW(ops ...Operand) { o.a.op("RORW", ops...) }
-func (o Opcodes) Rorxl(ops ...Operand) { o.a.op("RORXL", ops...) }
-func (o Opcodes) RORXL(ops ...Operand) { o.a.op("RORXL", ops...) }
-func (o Opcodes) Rorxq(ops ...Operand) { o.a.op("RORXQ", ops...) }
-func (o Opcodes) RORXQ(ops ...Operand) { o.a.op("RORXQ", ops...) }
-func (o Opcodes) Roundpd(ops ...Operand) { o.a.op("ROUNDPD", ops...) }
-func (o Opcodes) ROUNDPD(ops ...Operand) { o.a.op("ROUNDPD", ops...) }
-func (o Opcodes) Roundps(ops ...Operand) { o.a.op("ROUNDPS", ops...) }
-func (o Opcodes) ROUNDPS(ops ...Operand) { o.a.op("ROUNDPS", ops...) }
-func (o Opcodes) Roundsd(ops ...Operand) { o.a.op("ROUNDSD", ops...) }
-func (o Opcodes) ROUNDSD(ops ...Operand) { o.a.op("ROUNDSD", ops...) }
-func (o Opcodes) Roundss(ops ...Operand) { o.a.op("ROUNDSS", ops...) }
-func (o Opcodes) ROUNDSS(ops ...Operand) { o.a.op("ROUNDSS", ops...) }
-func (o Opcodes) Rsm(ops ...Operand) { o.a.op("RSM", ops...) }
-func (o Opcodes) RSM(ops ...Operand) { o.a.op("RSM", ops...) }
-func (o Opcodes) Rsqrtps(ops ...Operand) { o.a.op("RSQRTPS", ops...) }
-func (o Opcodes) RSQRTPS(ops ...Operand) { o.a.op("RSQRTPS", ops...) }
-func (o Opcodes) Rsqrtss(ops ...Operand) { o.a.op("RSQRTSS", ops...) }
-func (o Opcodes) RSQRTSS(ops ...Operand) { o.a.op("RSQRTSS", ops...) }
-func (o Opcodes) Sahf(ops ...Operand) { o.a.op("SAHF", ops...) }
-func (o Opcodes) SAHF(ops ...Operand) { o.a.op("SAHF", ops...) }
-func (o Opcodes) Salb(ops ...Operand) { o.a.op("SALB", ops...) }
-func (o Opcodes) SALB(ops ...Operand) { o.a.op("SALB", ops...) }
-func (o Opcodes) Sall(ops ...Operand) { o.a.op("SALL", ops...) }
-func (o Opcodes) SALL(ops ...Operand) { o.a.op("SALL", ops...) }
-func (o Opcodes) Salq(ops ...Operand) { o.a.op("SALQ", ops...) }
-func (o Opcodes) SALQ(ops ...Operand) { o.a.op("SALQ", ops...) }
-func (o Opcodes) Salw(ops ...Operand) { o.a.op("SALW", ops...) }
-func (o Opcodes) SALW(ops ...Operand) { o.a.op("SALW", ops...) }
-func (o Opcodes) Sarb(ops ...Operand) { o.a.op("SARB", ops...) }
-func (o Opcodes) SARB(ops ...Operand) { o.a.op("SARB", ops...) }
-func (o Opcodes) Sarl(ops ...Operand) { o.a.op("SARL", ops...) }
-func (o Opcodes) SARL(ops ...Operand) { o.a.op("SARL", ops...) }
-func (o Opcodes) Sarq(ops ...Operand) { o.a.op("SARQ", ops...) }
-func (o Opcodes) SARQ(ops ...Operand) { o.a.op("SARQ", ops...) }
-func (o Opcodes) Sarw(ops ...Operand) { o.a.op("SARW", ops...) }
-func (o Opcodes) SARW(ops ...Operand) { o.a.op("SARW", ops...) }
-func (o Opcodes) Sarxl(ops ...Operand) { o.a.op("SARXL", ops...) }
-func (o Opcodes) SARXL(ops ...Operand) { o.a.op("SARXL", ops...) }
-func (o Opcodes) Sarxq(ops ...Operand) { o.a.op("SARXQ", ops...) }
-func (o Opcodes) SARXQ(ops ...Operand) { o.a.op("SARXQ", ops...) }
-func (o Opcodes) Sbbb(ops ...Operand) { o.a.op("SBBB", ops...) }
-func (o Opcodes) SBBB(ops ...Operand) { o.a.op("SBBB", ops...) }
-func (o Opcodes) Sbbl(ops ...Operand) { o.a.op("SBBL", ops...) }
-func (o Opcodes) SBBL(ops ...Operand) { o.a.op("SBBL", ops...) }
-func (o Opcodes) Sbbq(ops ...Operand) { o.a.op("SBBQ", ops...) }
-func (o Opcodes) SBBQ(ops ...Operand) { o.a.op("SBBQ", ops...) }
-func (o Opcodes) Sbbw(ops ...Operand) { o.a.op("SBBW", ops...) }
-func (o Opcodes) SBBW(ops ...Operand) { o.a.op("SBBW", ops...) }
-func (o Opcodes) Scasb(ops ...Operand) { o.a.op("SCASB", ops...) }
-func (o Opcodes) SCASB(ops ...Operand) { o.a.op("SCASB", ops...) }
-func (o Opcodes) Scasl(ops ...Operand) { o.a.op("SCASL", ops...) }
-func (o Opcodes) SCASL(ops ...Operand) { o.a.op("SCASL", ops...) }
-func (o Opcodes) Scasq(ops ...Operand) { o.a.op("SCASQ", ops...) }
-func (o Opcodes) SCASQ(ops ...Operand) { o.a.op("SCASQ", ops...) }
-func (o Opcodes) Scasw(ops ...Operand) { o.a.op("SCASW", ops...) }
-func (o Opcodes) SCASW(ops ...Operand) { o.a.op("SCASW", ops...) }
-func (o Opcodes) Setcc(ops ...Operand) { o.a.op("SETCC", ops...) }
-func (o Opcodes) SETCC(ops ...Operand) { o.a.op("SETCC", ops...) }
-func (o Opcodes) Setcs(ops ...Operand) { o.a.op("SETCS", ops...) }
-func (o Opcodes) SETCS(ops ...Operand) { o.a.op("SETCS", ops...) }
-func (o Opcodes) Seteq(ops ...Operand) { o.a.op("SETEQ", ops...) }
-func (o Opcodes) SETEQ(ops ...Operand) { o.a.op("SETEQ", ops...) }
-func (o Opcodes) Setge(ops ...Operand) { o.a.op("SETGE", ops...) }
-func (o Opcodes) SETGE(ops ...Operand) { o.a.op("SETGE", ops...) }
-func (o Opcodes) Setgt(ops ...Operand) { o.a.op("SETGT", ops...) }
-func (o Opcodes) SETGT(ops ...Operand) { o.a.op("SETGT", ops...) }
-func (o Opcodes) Sethi(ops ...Operand) { o.a.op("SETHI", ops...) }
-func (o Opcodes) SETHI(ops ...Operand) { o.a.op("SETHI", ops...) }
-func (o Opcodes) Setle(ops ...Operand) { o.a.op("SETLE", ops...) }
-func (o Opcodes) SETLE(ops ...Operand) { o.a.op("SETLE", ops...) }
-func (o Opcodes) Setls(ops ...Operand) { o.a.op("SETLS", ops...) }
-func (o Opcodes) SETLS(ops ...Operand) { o.a.op("SETLS", ops...) }
-func (o Opcodes) Setlt(ops ...Operand) { o.a.op("SETLT", ops...) }
-func (o Opcodes) SETLT(ops ...Operand) { o.a.op("SETLT", ops...) }
-func (o Opcodes) Setmi(ops ...Operand) { o.a.op("SETMI", ops...) }
-func (o Opcodes) SETMI(ops ...Operand) { o.a.op("SETMI", ops...) }
-func (o Opcodes) Setne(ops ...Operand) { o.a.op("SETNE", ops...) }
-func (o Opcodes) SETNE(ops ...Operand) { o.a.op("SETNE", ops...) }
-func (o Opcodes) Setoc(ops ...Operand) { o.a.op("SETOC", ops...) }
-func (o Opcodes) SETOC(ops ...Operand) { o.a.op("SETOC", ops...) }
-func (o Opcodes) Setos(ops ...Operand) { o.a.op("SETOS", ops...) }
-func (o Opcodes) SETOS(ops ...Operand) { o.a.op("SETOS", ops...) }
-func (o Opcodes) Setpc(ops ...Operand) { o.a.op("SETPC", ops...) }
-func (o Opcodes) SETPC(ops ...Operand) { o.a.op("SETPC", ops...) }
-func (o Opcodes) Setpl(ops ...Operand) { o.a.op("SETPL", ops...) }
-func (o Opcodes) SETPL(ops ...Operand) { o.a.op("SETPL", ops...) }
-func (o Opcodes) Setps(ops ...Operand) { o.a.op("SETPS", ops...) }
-func (o Opcodes) SETPS(ops ...Operand) { o.a.op("SETPS", ops...) }
-func (o Opcodes) Sfence(ops ...Operand) { o.a.op("SFENCE", ops...) }
-func (o Opcodes) SFENCE(ops ...Operand) { o.a.op("SFENCE", ops...) }
-func (o Opcodes) Shlb(ops ...Operand) { o.a.op("SHLB", ops...) }
-func (o Opcodes) SHLB(ops ...Operand) { o.a.op("SHLB", ops...) }
-func (o Opcodes) Shll(ops ...Operand) { o.a.op("SHLL", ops...) }
-func (o Opcodes) SHLL(ops ...Operand) { o.a.op("SHLL", ops...) }
-func (o Opcodes) Shlq(ops ...Operand) { o.a.op("SHLQ", ops...) }
-func (o Opcodes) SHLQ(ops ...Operand) { o.a.op("SHLQ", ops...) }
-func (o Opcodes) Shlw(ops ...Operand) { o.a.op("SHLW", ops...) }
-func (o Opcodes) SHLW(ops ...Operand) { o.a.op("SHLW", ops...) }
-func (o Opcodes) Shlxl(ops ...Operand) { o.a.op("SHLXL", ops...) }
-func (o Opcodes) SHLXL(ops ...Operand) { o.a.op("SHLXL", ops...) }
-func (o Opcodes) Shlxq(ops ...Operand) { o.a.op("SHLXQ", ops...) }
-func (o Opcodes) SHLXQ(ops ...Operand) { o.a.op("SHLXQ", ops...) }
-func (o Opcodes) Shrb(ops ...Operand) { o.a.op("SHRB", ops...) }
-func (o Opcodes) SHRB(ops ...Operand) { o.a.op("SHRB", ops...) }
-func (o Opcodes) Shrl(ops ...Operand) { o.a.op("SHRL", ops...) }
-func (o Opcodes) SHRL(ops ...Operand) { o.a.op("SHRL", ops...) }
-func (o Opcodes) Shrq(ops ...Operand) { o.a.op("SHRQ", ops...) }
-func (o Opcodes) SHRQ(ops ...Operand) { o.a.op("SHRQ", ops...) }
-func (o Opcodes) Shrw(ops ...Operand) { o.a.op("SHRW", ops...) }
-func (o Opcodes) SHRW(ops ...Operand) { o.a.op("SHRW", ops...) }
-func (o Opcodes) Shrxl(ops ...Operand) { o.a.op("SHRXL", ops...) }
-func (o Opcodes) SHRXL(ops ...Operand) { o.a.op("SHRXL", ops...) }
-func (o Opcodes) Shrxq(ops ...Operand) { o.a.op("SHRXQ", ops...) }
-func (o Opcodes) SHRXQ(ops ...Operand) { o.a.op("SHRXQ", ops...) }
-func (o Opcodes) Shufpd(ops ...Operand) { o.a.op("SHUFPD", ops...) }
-func (o Opcodes) SHUFPD(ops ...Operand) { o.a.op("SHUFPD", ops...) }
-func (o Opcodes) Shufps(ops ...Operand) { o.a.op("SHUFPS", ops...) }
-func (o Opcodes) SHUFPS(ops ...Operand) { o.a.op("SHUFPS", ops...) }
-func (o Opcodes) Sqrtpd(ops ...Operand) { o.a.op("SQRTPD", ops...) }
-func (o Opcodes) SQRTPD(ops ...Operand) { o.a.op("SQRTPD", ops...) }
-func (o Opcodes) Sqrtps(ops ...Operand) { o.a.op("SQRTPS", ops...) }
-func (o Opcodes) SQRTPS(ops ...Operand) { o.a.op("SQRTPS", ops...) }
-func (o Opcodes) Sqrtsd(ops ...Operand) { o.a.op("SQRTSD", ops...) }
-func (o Opcodes) SQRTSD(ops ...Operand) { o.a.op("SQRTSD", ops...) }
-func (o Opcodes) Sqrtss(ops ...Operand) { o.a.op("SQRTSS", ops...) }
-func (o Opcodes) SQRTSS(ops ...Operand) { o.a.op("SQRTSS", ops...) }
-func (o Opcodes) Stc(ops ...Operand) { o.a.op("STC", ops...) }
-func (o Opcodes) STC(ops ...Operand) { o.a.op("STC", ops...) }
-func (o Opcodes) Std(ops ...Operand) { o.a.op("STD", ops...) }
-func (o Opcodes) STD(ops ...Operand) { o.a.op("STD", ops...) }
-func (o Opcodes) Sti(ops ...Operand) { o.a.op("STI", ops...) }
-func (o Opcodes) STI(ops ...Operand) { o.a.op("STI", ops...) }
-func (o Opcodes) Stmxcsr(ops ...Operand) { o.a.op("STMXCSR", ops...) }
-func (o Opcodes) STMXCSR(ops ...Operand) { o.a.op("STMXCSR", ops...) }
-func (o Opcodes) Stosb(ops ...Operand) { o.a.op("STOSB", ops...) }
-func (o Opcodes) STOSB(ops ...Operand) { o.a.op("STOSB", ops...) }
-func (o Opcodes) Stosl(ops ...Operand) { o.a.op("STOSL", ops...) }
-func (o Opcodes) STOSL(ops ...Operand) { o.a.op("STOSL", ops...) }
-func (o Opcodes) Stosq(ops ...Operand) { o.a.op("STOSQ", ops...) }
-func (o Opcodes) STOSQ(ops ...Operand) { o.a.op("STOSQ", ops...) }
-func (o Opcodes) Stosw(ops ...Operand) { o.a.op("STOSW", ops...) }
-func (o Opcodes) STOSW(ops ...Operand) { o.a.op("STOSW", ops...) }
-func (o Opcodes) Subb(ops ...Operand) { o.a.op("SUBB", ops...) }
-func (o Opcodes) SUBB(ops ...Operand) { o.a.op("SUBB", ops...) }
-func (o Opcodes) Subl(ops ...Operand) { o.a.op("SUBL", ops...) }
-func (o Opcodes) SUBL(ops ...Operand) { o.a.op("SUBL", ops...) }
-func (o Opcodes) Subpd(ops ...Operand) { o.a.op("SUBPD", ops...) }
-func (o Opcodes) SUBPD(ops ...Operand) { o.a.op("SUBPD", ops...) }
-func (o Opcodes) Subps(ops ...Operand) { o.a.op("SUBPS", ops...) }
-func (o Opcodes) SUBPS(ops ...Operand) { o.a.op("SUBPS", ops...) }
-func (o Opcodes) Subq(ops ...Operand) { o.a.op("SUBQ", ops...) }
-func (o Opcodes) SUBQ(ops ...Operand) { o.a.op("SUBQ", ops...) }
-func (o Opcodes) Subsd(ops ...Operand) { o.a.op("SUBSD", ops...) }
-func (o Opcodes) SUBSD(ops ...Operand) { o.a.op("SUBSD", ops...) }
-func (o Opcodes) Subss(ops ...Operand) { o.a.op("SUBSS", ops...) }
-func (o Opcodes) SUBSS(ops ...Operand) { o.a.op("SUBSS", ops...) }
-func (o Opcodes) Subw(ops ...Operand) { o.a.op("SUBW", ops...) }
-func (o Opcodes) SUBW(ops ...Operand) { o.a.op("SUBW", ops...) }
-func (o Opcodes) Swapgs(ops ...Operand) { o.a.op("SWAPGS", ops...) }
-func (o Opcodes) SWAPGS(ops ...Operand) { o.a.op("SWAPGS", ops...) }
-func (o Opcodes) Syscall(ops ...Operand) { o.a.op("SYSCALL", ops...) }
-func (o Opcodes) SYSCALL(ops ...Operand) { o.a.op("SYSCALL", ops...) }
-func (o Opcodes) Sysret(ops ...Operand) { o.a.op("SYSRET", ops...) }
-func (o Opcodes) SYSRET(ops ...Operand) { o.a.op("SYSRET", ops...) }
-func (o Opcodes) Testb(ops ...Operand) { o.a.op("TESTB", ops...) }
-func (o Opcodes) TESTB(ops ...Operand) { o.a.op("TESTB", ops...) }
-func (o Opcodes) Testl(ops ...Operand) { o.a.op("TESTL", ops...) }
-func (o Opcodes) TESTL(ops ...Operand) { o.a.op("TESTL", ops...) }
-func (o Opcodes) Testq(ops ...Operand) { o.a.op("TESTQ", ops...) }
-func (o Opcodes) TESTQ(ops ...Operand) { o.a.op("TESTQ", ops...) }
-func (o Opcodes) Testw(ops ...Operand) { o.a.op("TESTW", ops...) }
-func (o Opcodes) TESTW(ops ...Operand) { o.a.op("TESTW", ops...) }
-func (o Opcodes) Ucomisd(ops ...Operand) { o.a.op("UCOMISD", ops...) }
-func (o Opcodes) UCOMISD(ops ...Operand) { o.a.op("UCOMISD", ops...) }
-func (o Opcodes) Ucomiss(ops ...Operand) { o.a.op("UCOMISS", ops...) }
-func (o Opcodes) UCOMISS(ops ...Operand) { o.a.op("UCOMISS", ops...) }
-func (o Opcodes) Unpckhpd(ops ...Operand) { o.a.op("UNPCKHPD", ops...) }
-func (o Opcodes) UNPCKHPD(ops ...Operand) { o.a.op("UNPCKHPD", ops...) }
-func (o Opcodes) Unpckhps(ops ...Operand) { o.a.op("UNPCKHPS", ops...) }
-func (o Opcodes) UNPCKHPS(ops ...Operand) { o.a.op("UNPCKHPS", ops...) }
-func (o Opcodes) Unpcklpd(ops ...Operand) { o.a.op("UNPCKLPD", ops...) }
-func (o Opcodes) UNPCKLPD(ops ...Operand) { o.a.op("UNPCKLPD", ops...) }
-func (o Opcodes) Unpcklps(ops ...Operand) { o.a.op("UNPCKLPS", ops...) }
-func (o Opcodes) UNPCKLPS(ops ...Operand) { o.a.op("UNPCKLPS", ops...) }
-func (o Opcodes) Vaddpd(ops ...Operand) { o.a.op("VADDPD", ops...) }
-func (o Opcodes) VADDPD(ops ...Operand) { o.a.op("VADDPD", ops...) }
-func (o Opcodes) Vaddps(ops ...Operand) { o.a.op("VADDPS", ops...) }
-func (o Opcodes) VADDPS(ops ...Operand) { o.a.op("VADDPS", ops...) }
-func (o Opcodes) Vaddsd(ops ...Operand) { o.a.op("VADDSD", ops...) }
-func (o Opcodes) VADDSD(ops ...Operand) { o.a.op("VADDSD", ops...) }
-func (o Opcodes) Vaddss(ops ...Operand) { o.a.op("VADDSS", ops...) }
-func (o Opcodes) VADDSS(ops ...Operand) { o.a.op("VADDSS", ops...) }
-func (o Opcodes) Vaddsubpd(ops ...Operand) { o.a.op("VADDSUBPD", ops...) }
-func (o Opcodes) VADDSUBPD(ops ...Operand) { o.a.op("VADDSUBPD", ops...) }
-func (o Opcodes) Vaddsubps(ops ...Operand) { o.a.op("VADDSUBPS", ops...) }
-func (o Opcodes) VADDSUBPS(ops ...Operand) { o.a.op("VADDSUBPS", ops...) }
-func (o Opcodes) Vaesdec(ops ...Operand) { o.a.op("VAESDEC", ops...) }
-func (o Opcodes) VAESDEC(ops ...Operand) { o.a.op("VAESDEC", ops...) }
-func (o Opcodes) Vaesdeclast(ops ...Operand) { o.a.op("VAESDECLAST", ops...) }
-func (o Opcodes) VAESDECLAST(ops ...Operand) { o.a.op("VAESDECLAST", ops...) }
-func (o Opcodes) Vaesenc(ops ...Operand) { o.a.op("VAESENC", ops...) }
-func (o Opcodes) VAESENC(ops ...Operand) { o.a.op("VAESENC", ops...) }
-func (o Opcodes) Vaesenclast(ops ...Operand) { o.a.op("VAESENCLAST", ops...) }
-func (o Opcodes) VAESENCLAST(ops ...Operand) { o.a.op("VAESENCLAST", ops...) }
-func (o Opcodes) Vaesimc(ops ...Operand) { o.a.op("VAESIMC", ops...) }
-func (o Opcodes) VAESIMC(ops ...Operand) { o.a.op("VAESIMC", ops...) }
-func (o Opcodes) Vaeskeygenassist(ops ...Operand) { o.a.op("VAESKEYGENASSIST", ops...) }
-func (o Opcodes) VAESKEYGENASSIST(ops ...Operand) { o.a.op("VAESKEYGENASSIST", ops...) }
-func (o Opcodes) Vandnpd(ops ...Operand) { o.a.op("VANDNPD", ops...) }
-func (o Opcodes) VANDNPD(ops ...Operand) { o.a.op("VANDNPD", ops...) }
-func (o Opcodes) Vandnps(ops ...Operand) { o.a.op("VANDNPS", ops...) }
-func (o Opcodes) VANDNPS(ops ...Operand) { o.a.op("VANDNPS", ops...) }
-func (o Opcodes) Vandpd(ops ...Operand) { o.a.op("VANDPD", ops...) }
-func (o Opcodes) VANDPD(ops ...Operand) { o.a.op("VANDPD", ops...) }
-func (o Opcodes) Vandps(ops ...Operand) { o.a.op("VANDPS", ops...) }
-func (o Opcodes) VANDPS(ops ...Operand) { o.a.op("VANDPS", ops...) }
-func (o Opcodes) Vblendpd(ops ...Operand) { o.a.op("VBLENDPD", ops...) }
-func (o Opcodes) VBLENDPD(ops ...Operand) { o.a.op("VBLENDPD", ops...) }
-func (o Opcodes) Vblendps(ops ...Operand) { o.a.op("VBLENDPS", ops...) }
-func (o Opcodes) VBLENDPS(ops ...Operand) { o.a.op("VBLENDPS", ops...) }
-func (o Opcodes) Vblendvpd(ops ...Operand) { o.a.op("VBLENDVPD", ops...) }
-func (o Opcodes) VBLENDVPD(ops ...Operand) { o.a.op("VBLENDVPD", ops...) }
-func (o Opcodes) Vblendvps(ops ...Operand) { o.a.op("VBLENDVPS", ops...) }
-func (o Opcodes) VBLENDVPS(ops ...Operand) { o.a.op("VBLENDVPS", ops...) }
-func (o Opcodes) Vbroadcastf128(ops ...Operand) { o.a.op("VBROADCASTF128", ops...) }
-func (o Opcodes) VBROADCASTF128(ops ...Operand) { o.a.op("VBROADCASTF128", ops...) }
-func (o Opcodes) Vbroadcasti128(ops ...Operand) { o.a.op("VBROADCASTI128", ops...) }
-func (o Opcodes) VBROADCASTI128(ops ...Operand) { o.a.op("VBROADCASTI128", ops...) }
-func (o Opcodes) Vbroadcastsd(ops ...Operand) { o.a.op("VBROADCASTSD", ops...) }
-func (o Opcodes) VBROADCASTSD(ops ...Operand) { o.a.op("VBROADCASTSD", ops...) }
-func (o Opcodes) Vbroadcastss(ops ...Operand) { o.a.op("VBROADCASTSS", ops...) }
-func (o Opcodes) VBROADCASTSS(ops ...Operand) { o.a.op("VBROADCASTSS", ops...) }
-func (o Opcodes) Vcmppd(ops ...Operand) { o.a.op("VCMPPD", ops...) }
-func (o Opcodes) VCMPPD(ops ...Operand) { o.a.op("VCMPPD", ops...) }
-func (o Opcodes) Vcmpps(ops ...Operand) { o.a.op("VCMPPS", ops...) }
-func (o Opcodes) VCMPPS(ops ...Operand) { o.a.op("VCMPPS", ops...) }
-func (o Opcodes) Vcmpsd(ops ...Operand) { o.a.op("VCMPSD", ops...) }
-func (o Opcodes) VCMPSD(ops ...Operand) { o.a.op("VCMPSD", ops...) }
-func (o Opcodes) Vcmpss(ops ...Operand) { o.a.op("VCMPSS", ops...) }
-func (o Opcodes) VCMPSS(ops ...Operand) { o.a.op("VCMPSS", ops...) }
-func (o Opcodes) Vcomisd(ops ...Operand) { o.a.op("VCOMISD", ops...) }
-func (o Opcodes) VCOMISD(ops ...Operand) { o.a.op("VCOMISD", ops...) }
-func (o Opcodes) Vcomiss(ops ...Operand) { o.a.op("VCOMISS", ops...) }
-func (o Opcodes) VCOMISS(ops ...Operand) { o.a.op("VCOMISS", ops...) }
-func (o Opcodes) Vcvtdq2pd(ops ...Operand) { o.a.op("VCVTDQ2PD", ops...) }
-func (o Opcodes) VCVTDQ2PD(ops ...Operand) { o.a.op("VCVTDQ2PD", ops...) }
-func (o Opcodes) Vcvtdq2ps(ops ...Operand) { o.a.op("VCVTDQ2PS", ops...) }
-func (o Opcodes) VCVTDQ2PS(ops ...Operand) { o.a.op("VCVTDQ2PS", ops...) }
-func (o Opcodes) Vcvtpd2dqx(ops ...Operand) { o.a.op("VCVTPD2DQX", ops...) }
-func (o Opcodes) VCVTPD2DQX(ops ...Operand) { o.a.op("VCVTPD2DQX", ops...) }
-func (o Opcodes) Vcvtpd2dqy(ops ...Operand) { o.a.op("VCVTPD2DQY", ops...) }
-func (o Opcodes) VCVTPD2DQY(ops ...Operand) { o.a.op("VCVTPD2DQY", ops...) }
-func (o Opcodes) Vcvtpd2psx(ops ...Operand) { o.a.op("VCVTPD2PSX", ops...) }
-func (o Opcodes) VCVTPD2PSX(ops ...Operand) { o.a.op("VCVTPD2PSX", ops...) }
-func (o Opcodes) Vcvtpd2psy(ops ...Operand) { o.a.op("VCVTPD2PSY", ops...) }
-func (o Opcodes) VCVTPD2PSY(ops ...Operand) { o.a.op("VCVTPD2PSY", ops...) }
-func (o Opcodes) Vcvtph2ps(ops ...Operand) { o.a.op("VCVTPH2PS", ops...) }
-func (o Opcodes) VCVTPH2PS(ops ...Operand) { o.a.op("VCVTPH2PS", ops...) }
-func (o Opcodes) Vcvtps2dq(ops ...Operand) { o.a.op("VCVTPS2DQ", ops...) }
-func (o Opcodes) VCVTPS2DQ(ops ...Operand) { o.a.op("VCVTPS2DQ", ops...) }
-func (o Opcodes) Vcvtps2pd(ops ...Operand) { o.a.op("VCVTPS2PD", ops...) }
-func (o Opcodes) VCVTPS2PD(ops ...Operand) { o.a.op("VCVTPS2PD", ops...) }
-func (o Opcodes) Vcvtps2ph(ops ...Operand) { o.a.op("VCVTPS2PH", ops...) }
-func (o Opcodes) VCVTPS2PH(ops ...Operand) { o.a.op("VCVTPS2PH", ops...) }
-func (o Opcodes) Vcvtsd2si(ops ...Operand) { o.a.op("VCVTSD2SI", ops...) }
-func (o Opcodes) VCVTSD2SI(ops ...Operand) { o.a.op("VCVTSD2SI", ops...) }
-func (o Opcodes) Vcvtsd2siq(ops ...Operand) { o.a.op("VCVTSD2SIQ", ops...) }
-func (o Opcodes) VCVTSD2SIQ(ops ...Operand) { o.a.op("VCVTSD2SIQ", ops...) }
-func (o Opcodes) Vcvtsd2ss(ops ...Operand) { o.a.op("VCVTSD2SS", ops...) }
-func (o Opcodes) VCVTSD2SS(ops ...Operand) { o.a.op("VCVTSD2SS", ops...) }
-func (o Opcodes) Vcvtsi2sdl(ops ...Operand) { o.a.op("VCVTSI2SDL", ops...) }
-func (o Opcodes) VCVTSI2SDL(ops ...Operand) { o.a.op("VCVTSI2SDL", ops...) }
-func (o Opcodes) Vcvtsi2sdq(ops ...Operand) { o.a.op("VCVTSI2SDQ", ops...) }
-func (o Opcodes) VCVTSI2SDQ(ops ...Operand) { o.a.op("VCVTSI2SDQ", ops...) }
-func (o Opcodes) Vcvtsi2ssl(ops ...Operand) { o.a.op("VCVTSI2SSL", ops...) }
-func (o Opcodes) VCVTSI2SSL(ops ...Operand) { o.a.op("VCVTSI2SSL", ops...) }
-func (o Opcodes) Vcvtsi2ssq(ops ...Operand) { o.a.op("VCVTSI2SSQ", ops...) }
-func (o Opcodes) VCVTSI2SSQ(ops ...Operand) { o.a.op("VCVTSI2SSQ", ops...) }
-func (o Opcodes) Vcvtss2sd(ops ...Operand) { o.a.op("VCVTSS2SD", ops...) }
-func (o Opcodes) VCVTSS2SD(ops ...Operand) { o.a.op("VCVTSS2SD", ops...) }
-func (o Opcodes) Vcvtss2si(ops ...Operand) { o.a.op("VCVTSS2SI", ops...) }
-func (o Opcodes) VCVTSS2SI(ops ...Operand) { o.a.op("VCVTSS2SI", ops...) }
-func (o Opcodes) Vcvtss2siq(ops ...Operand) { o.a.op("VCVTSS2SIQ", ops...) }
-func (o Opcodes) VCVTSS2SIQ(ops ...Operand) { o.a.op("VCVTSS2SIQ", ops...) }
-func (o Opcodes) Vcvttpd2dqx(ops ...Operand) { o.a.op("VCVTTPD2DQX", ops...) }
-func (o Opcodes) VCVTTPD2DQX(ops ...Operand) { o.a.op("VCVTTPD2DQX", ops...) }
-func (o Opcodes) Vcvttpd2dqy(ops ...Operand) { o.a.op("VCVTTPD2DQY", ops...) }
-func (o Opcodes) VCVTTPD2DQY(ops ...Operand) { o.a.op("VCVTTPD2DQY", ops...) }
-func (o Opcodes) Vcvttps2dq(ops ...Operand) { o.a.op("VCVTTPS2DQ", ops...) }
-func (o Opcodes) VCVTTPS2DQ(ops ...Operand) { o.a.op("VCVTTPS2DQ", ops...) }
-func (o Opcodes) Vcvttsd2si(ops ...Operand) { o.a.op("VCVTTSD2SI", ops...) }
-func (o Opcodes) VCVTTSD2SI(ops ...Operand) { o.a.op("VCVTTSD2SI", ops...) }
-func (o Opcodes) Vcvttsd2siq(ops ...Operand) { o.a.op("VCVTTSD2SIQ", ops...) }
-func (o Opcodes) VCVTTSD2SIQ(ops ...Operand) { o.a.op("VCVTTSD2SIQ", ops...) }
-func (o Opcodes) Vcvttss2si(ops ...Operand) { o.a.op("VCVTTSS2SI", ops...) }
-func (o Opcodes) VCVTTSS2SI(ops ...Operand) { o.a.op("VCVTTSS2SI", ops...) }
-func (o Opcodes) Vcvttss2siq(ops ...Operand) { o.a.op("VCVTTSS2SIQ", ops...) }
-func (o Opcodes) VCVTTSS2SIQ(ops ...Operand) { o.a.op("VCVTTSS2SIQ", ops...) }
-func (o Opcodes) Vdivpd(ops ...Operand) { o.a.op("VDIVPD", ops...) }
-func (o Opcodes) VDIVPD(ops ...Operand) { o.a.op("VDIVPD", ops...) }
-func (o Opcodes) Vdivps(ops ...Operand) { o.a.op("VDIVPS", ops...) }
-func (o Opcodes) VDIVPS(ops ...Operand) { o.a.op("VDIVPS", ops...) }
-func (o Opcodes) Vdivsd(ops ...Operand) { o.a.op("VDIVSD", ops...) }
-func (o Opcodes) VDIVSD(ops ...Operand) { o.a.op("VDIVSD", ops...) }
-func (o Opcodes) Vdivss(ops ...Operand) { o.a.op("VDIVSS", ops...) }
-func (o Opcodes) VDIVSS(ops ...Operand) { o.a.op("VDIVSS", ops...) }
-func (o Opcodes) Vdppd(ops ...Operand) { o.a.op("VDPPD", ops...) }
-func (o Opcodes) VDPPD(ops ...Operand) { o.a.op("VDPPD", ops...) }
-func (o Opcodes) Vdpps(ops ...Operand) { o.a.op("VDPPS", ops...) }
-func (o Opcodes) VDPPS(ops ...Operand) { o.a.op("VDPPS", ops...) }
-func (o Opcodes) Verr(ops ...Operand) { o.a.op("VERR", ops...) }
-func (o Opcodes) VERR(ops ...Operand) { o.a.op("VERR", ops...) }
-func (o Opcodes) Verw(ops ...Operand) { o.a.op("VERW", ops...) }
-func (o Opcodes) VERW(ops ...Operand) { o.a.op("VERW", ops...) }
-func (o Opcodes) Vextractf128(ops ...Operand) { o.a.op("VEXTRACTF128", ops...) }
-func (o Opcodes) VEXTRACTF128(ops ...Operand) { o.a.op("VEXTRACTF128", ops...) }
-func (o Opcodes) Vextracti128(ops ...Operand) { o.a.op("VEXTRACTI128", ops...) }
-func (o Opcodes) VEXTRACTI128(ops ...Operand) { o.a.op("VEXTRACTI128", ops...) }
-func (o Opcodes) Vextractps(ops ...Operand) { o.a.op("VEXTRACTPS", ops...) }
-func (o Opcodes) VEXTRACTPS(ops ...Operand) { o.a.op("VEXTRACTPS", ops...) }
-func (o Opcodes) Vfmadd132pd(ops ...Operand) { o.a.op("VFMADD132PD", ops...) }
-func (o Opcodes) VFMADD132PD(ops ...Operand) { o.a.op("VFMADD132PD", ops...) }
-func (o Opcodes) Vfmadd132ps(ops ...Operand) { o.a.op("VFMADD132PS", ops...) }
-func (o Opcodes) VFMADD132PS(ops ...Operand) { o.a.op("VFMADD132PS", ops...) }
-func (o Opcodes) Vfmadd132sd(ops ...Operand) { o.a.op("VFMADD132SD", ops...) }
-func (o Opcodes) VFMADD132SD(ops ...Operand) { o.a.op("VFMADD132SD", ops...) }
-func (o Opcodes) Vfmadd132ss(ops ...Operand) { o.a.op("VFMADD132SS", ops...) }
-func (o Opcodes) VFMADD132SS(ops ...Operand) { o.a.op("VFMADD132SS", ops...) }
-func (o Opcodes) Vfmadd213pd(ops ...Operand) { o.a.op("VFMADD213PD", ops...) }
-func (o Opcodes) VFMADD213PD(ops ...Operand) { o.a.op("VFMADD213PD", ops...) }
-func (o Opcodes) Vfmadd213ps(ops ...Operand) { o.a.op("VFMADD213PS", ops...) }
-func (o Opcodes) VFMADD213PS(ops ...Operand) { o.a.op("VFMADD213PS", ops...) }
-func (o Opcodes) Vfmadd213sd(ops ...Operand) { o.a.op("VFMADD213SD", ops...) }
-func (o Opcodes) VFMADD213SD(ops ...Operand) { o.a.op("VFMADD213SD", ops...) }
-func (o Opcodes) Vfmadd213ss(ops ...Operand) { o.a.op("VFMADD213SS", ops...) }
-func (o Opcodes) VFMADD213SS(ops ...Operand) { o.a.op("VFMADD213SS", ops...) }
-func (o Opcodes) Vfmadd231pd(ops ...Operand) { o.a.op("VFMADD231PD", ops...) }
-func (o Opcodes) VFMADD231PD(ops ...Operand) { o.a.op("VFMADD231PD", ops...) }
-func (o Opcodes) Vfmadd231ps(ops ...Operand) { o.a.op("VFMADD231PS", ops...) }
-func (o Opcodes) VFMADD231PS(ops ...Operand) { o.a.op("VFMADD231PS", ops...) }
-func (o Opcodes) Vfmadd231sd(ops ...Operand) { o.a.op("VFMADD231SD", ops...) }
-func (o Opcodes) VFMADD231SD(ops ...Operand) { o.a.op("VFMADD231SD", ops...) }
-func (o Opcodes) Vfmadd231ss(ops ...Operand) { o.a.op("VFMADD231SS", ops...) }
-func (o Opcodes) VFMADD231SS(ops ...Operand) { o.a.op("VFMADD231SS", ops...) }
-func (o Opcodes) Vfmaddsub132pd(ops ...Operand) { o.a.op("VFMADDSUB132PD", ops...) }
-func (o Opcodes) VFMADDSUB132PD(ops ...Operand) { o.a.op("VFMADDSUB132PD", ops...) }
-func (o Opcodes) Vfmaddsub132ps(ops ...Operand) { o.a.op("VFMADDSUB132PS", ops...) }
-func (o Opcodes) VFMADDSUB132PS(ops ...Operand) { o.a.op("VFMADDSUB132PS", ops...) }
-func (o Opcodes) Vfmaddsub213pd(ops ...Operand) { o.a.op("VFMADDSUB213PD", ops...) }
-func (o Opcodes) VFMADDSUB213PD(ops ...Operand) { o.a.op("VFMADDSUB213PD", ops...) }
-func (o Opcodes) Vfmaddsub213ps(ops ...Operand) { o.a.op("VFMADDSUB213PS", ops...) }
-func (o Opcodes) VFMADDSUB213PS(ops ...Operand) { o.a.op("VFMADDSUB213PS", ops...) }
-func (o Opcodes) Vfmaddsub231pd(ops ...Operand) { o.a.op("VFMADDSUB231PD", ops...) }
-func (o Opcodes) VFMADDSUB231PD(ops ...Operand) { o.a.op("VFMADDSUB231PD", ops...) }
-func (o Opcodes) Vfmaddsub231ps(ops ...Operand) { o.a.op("VFMADDSUB231PS", ops...) }
-func (o Opcodes) VFMADDSUB231PS(ops ...Operand) { o.a.op("VFMADDSUB231PS", ops...) }
-func (o Opcodes) Vfmsub132pd(ops ...Operand) { o.a.op("VFMSUB132PD", ops...) }
-func (o Opcodes) VFMSUB132PD(ops ...Operand) { o.a.op("VFMSUB132PD", ops...) }
-func (o Opcodes) Vfmsub132ps(ops ...Operand) { o.a.op("VFMSUB132PS", ops...) }
-func (o Opcodes) VFMSUB132PS(ops ...Operand) { o.a.op("VFMSUB132PS", ops...) }
-func (o Opcodes) Vfmsub132sd(ops ...Operand) { o.a.op("VFMSUB132SD", ops...) }
-func (o Opcodes) VFMSUB132SD(ops ...Operand) { o.a.op("VFMSUB132SD", ops...) }
-func (o Opcodes) Vfmsub132ss(ops ...Operand) { o.a.op("VFMSUB132SS", ops...) }
-func (o Opcodes) VFMSUB132SS(ops ...Operand) { o.a.op("VFMSUB132SS", ops...) }
-func (o Opcodes) Vfmsub213pd(ops ...Operand) { o.a.op("VFMSUB213PD", ops...) }
-func (o Opcodes) VFMSUB213PD(ops ...Operand) { o.a.op("VFMSUB213PD", ops...) }
-func (o Opcodes) Vfmsub213ps(ops ...Operand) { o.a.op("VFMSUB213PS", ops...) }
-func (o Opcodes) VFMSUB213PS(ops ...Operand) { o.a.op("VFMSUB213PS", ops...) }
-func (o Opcodes) Vfmsub213sd(ops ...Operand) { o.a.op("VFMSUB213SD", ops...) }
-func (o Opcodes) VFMSUB213SD(ops ...Operand) { o.a.op("VFMSUB213SD", ops...) }
-func (o Opcodes) Vfmsub213ss(ops ...Operand) { o.a.op("VFMSUB213SS", ops...) }
-func (o Opcodes) VFMSUB213SS(ops ...Operand) { o.a.op("VFMSUB213SS", ops...) }
-func (o Opcodes) Vfmsub231pd(ops ...Operand) { o.a.op("VFMSUB231PD", ops...) }
-func (o Opcodes) VFMSUB231PD(ops ...Operand) { o.a.op("VFMSUB231PD", ops...) }
-func (o Opcodes) Vfmsub231ps(ops ...Operand) { o.a.op("VFMSUB231PS", ops...) }
-func (o Opcodes) VFMSUB231PS(ops ...Operand) { o.a.op("VFMSUB231PS", ops...) }
-func (o Opcodes) Vfmsub231sd(ops ...Operand) { o.a.op("VFMSUB231SD", ops...) }
-func (o Opcodes) VFMSUB231SD(ops ...Operand) { o.a.op("VFMSUB231SD", ops...) }
-func (o Opcodes) Vfmsub231ss(ops ...Operand) { o.a.op("VFMSUB231SS", ops...) }
-func (o Opcodes) VFMSUB231SS(ops ...Operand) { o.a.op("VFMSUB231SS", ops...) }
-func (o Opcodes) Vfmsubadd132pd(ops ...Operand) { o.a.op("VFMSUBADD132PD", ops...) }
-func (o Opcodes) VFMSUBADD132PD(ops ...Operand) { o.a.op("VFMSUBADD132PD", ops...) }
-func (o Opcodes) Vfmsubadd132ps(ops ...Operand) { o.a.op("VFMSUBADD132PS", ops...) }
-func (o Opcodes) VFMSUBADD132PS(ops ...Operand) { o.a.op("VFMSUBADD132PS", ops...) }
-func (o Opcodes) Vfmsubadd213pd(ops ...Operand) { o.a.op("VFMSUBADD213PD", ops...) }
-func (o Opcodes) VFMSUBADD213PD(ops ...Operand) { o.a.op("VFMSUBADD213PD", ops...) }
-func (o Opcodes) Vfmsubadd213ps(ops ...Operand) { o.a.op("VFMSUBADD213PS", ops...) }
-func (o Opcodes) VFMSUBADD213PS(ops ...Operand) { o.a.op("VFMSUBADD213PS", ops...) }
-func (o Opcodes) Vfmsubadd231pd(ops ...Operand) { o.a.op("VFMSUBADD231PD", ops...) }
-func (o Opcodes) VFMSUBADD231PD(ops ...Operand) { o.a.op("VFMSUBADD231PD", ops...) }
-func (o Opcodes) Vfmsubadd231ps(ops ...Operand) { o.a.op("VFMSUBADD231PS", ops...) }
-func (o Opcodes) VFMSUBADD231PS(ops ...Operand) { o.a.op("VFMSUBADD231PS", ops...) }
-func (o Opcodes) Vfnmadd132pd(ops ...Operand) { o.a.op("VFNMADD132PD", ops...) }
-func (o Opcodes) VFNMADD132PD(ops ...Operand) { o.a.op("VFNMADD132PD", ops...) }
-func (o Opcodes) Vfnmadd132ps(ops ...Operand) { o.a.op("VFNMADD132PS", ops...) }
-func (o Opcodes) VFNMADD132PS(ops ...Operand) { o.a.op("VFNMADD132PS", ops...) }
-func (o Opcodes) Vfnmadd132sd(ops ...Operand) { o.a.op("VFNMADD132SD", ops...) }
-func (o Opcodes) VFNMADD132SD(ops ...Operand) { o.a.op("VFNMADD132SD", ops...) }
-func (o Opcodes) Vfnmadd132ss(ops ...Operand) { o.a.op("VFNMADD132SS", ops...) }
-func (o Opcodes) VFNMADD132SS(ops ...Operand) { o.a.op("VFNMADD132SS", ops...) }
-func (o Opcodes) Vfnmadd213pd(ops ...Operand) { o.a.op("VFNMADD213PD", ops...) }
-func (o Opcodes) VFNMADD213PD(ops ...Operand) { o.a.op("VFNMADD213PD", ops...) }
-func (o Opcodes) Vfnmadd213ps(ops ...Operand) { o.a.op("VFNMADD213PS", ops...) }
-func (o Opcodes) VFNMADD213PS(ops ...Operand) { o.a.op("VFNMADD213PS", ops...) }
-func (o Opcodes) Vfnmadd213sd(ops ...Operand) { o.a.op("VFNMADD213SD", ops...) }
-func (o Opcodes) VFNMADD213SD(ops ...Operand) { o.a.op("VFNMADD213SD", ops...) }
-func (o Opcodes) Vfnmadd213ss(ops ...Operand) { o.a.op("VFNMADD213SS", ops...) }
-func (o Opcodes) VFNMADD213SS(ops ...Operand) { o.a.op("VFNMADD213SS", ops...) }
-func (o Opcodes) Vfnmadd231pd(ops ...Operand) { o.a.op("VFNMADD231PD", ops...) }
-func (o Opcodes) VFNMADD231PD(ops ...Operand) { o.a.op("VFNMADD231PD", ops...) }
-func (o Opcodes) Vfnmadd231ps(ops ...Operand) { o.a.op("VFNMADD231PS", ops...) }
-func (o Opcodes) VFNMADD231PS(ops ...Operand) { o.a.op("VFNMADD231PS", ops...) }
-func (o Opcodes) Vfnmadd231sd(ops ...Operand) { o.a.op("VFNMADD231SD", ops...) }
-func (o Opcodes) VFNMADD231SD(ops ...Operand) { o.a.op("VFNMADD231SD", ops...) }
-func (o Opcodes) Vfnmadd231ss(ops ...Operand) { o.a.op("VFNMADD231SS", ops...) }
-func (o Opcodes) VFNMADD231SS(ops ...Operand) { o.a.op("VFNMADD231SS", ops...) }
-func (o Opcodes) Vfnmsub132pd(ops ...Operand) { o.a.op("VFNMSUB132PD", ops...) }
-func (o Opcodes) VFNMSUB132PD(ops ...Operand) { o.a.op("VFNMSUB132PD", ops...) }
-func (o Opcodes) Vfnmsub132ps(ops ...Operand) { o.a.op("VFNMSUB132PS", ops...) }
-func (o Opcodes) VFNMSUB132PS(ops ...Operand) { o.a.op("VFNMSUB132PS", ops...) }
-func (o Opcodes) Vfnmsub132sd(ops ...Operand) { o.a.op("VFNMSUB132SD", ops...) }
-func (o Opcodes) VFNMSUB132SD(ops ...Operand) { o.a.op("VFNMSUB132SD", ops...) }
-func (o Opcodes) Vfnmsub132ss(ops ...Operand) { o.a.op("VFNMSUB132SS", ops...) }
-func (o Opcodes) VFNMSUB132SS(ops ...Operand) { o.a.op("VFNMSUB132SS", ops...) }
-func (o Opcodes) Vfnmsub213pd(ops ...Operand) { o.a.op("VFNMSUB213PD", ops...) }
-func (o Opcodes) VFNMSUB213PD(ops ...Operand) { o.a.op("VFNMSUB213PD", ops...) }
-func (o Opcodes) Vfnmsub213ps(ops ...Operand) { o.a.op("VFNMSUB213PS", ops...) }
-func (o Opcodes) VFNMSUB213PS(ops ...Operand) { o.a.op("VFNMSUB213PS", ops...) }
-func (o Opcodes) Vfnmsub213sd(ops ...Operand) { o.a.op("VFNMSUB213SD", ops...) }
-func (o Opcodes) VFNMSUB213SD(ops ...Operand) { o.a.op("VFNMSUB213SD", ops...) }
-func (o Opcodes) Vfnmsub213ss(ops ...Operand) { o.a.op("VFNMSUB213SS", ops...) }
-func (o Opcodes) VFNMSUB213SS(ops ...Operand) { o.a.op("VFNMSUB213SS", ops...) }
-func (o Opcodes) Vfnmsub231pd(ops ...Operand) { o.a.op("VFNMSUB231PD", ops...) }
-func (o Opcodes) VFNMSUB231PD(ops ...Operand) { o.a.op("VFNMSUB231PD", ops...) }
-func (o Opcodes) Vfnmsub231ps(ops ...Operand) { o.a.op("VFNMSUB231PS", ops...) }
-func (o Opcodes) VFNMSUB231PS(ops ...Operand) { o.a.op("VFNMSUB231PS", ops...) }
-func (o Opcodes) Vfnmsub231sd(ops ...Operand) { o.a.op("VFNMSUB231SD", ops...) }
-func (o Opcodes) VFNMSUB231SD(ops ...Operand) { o.a.op("VFNMSUB231SD", ops...) }
-func (o Opcodes) Vfnmsub231ss(ops ...Operand) { o.a.op("VFNMSUB231SS", ops...) }
-func (o Opcodes) VFNMSUB231SS(ops ...Operand) { o.a.op("VFNMSUB231SS", ops...) }
-func (o Opcodes) Vgatherdpd(ops ...Operand) { o.a.op("VGATHERDPD", ops...) }
-func (o Opcodes) VGATHERDPD(ops ...Operand) { o.a.op("VGATHERDPD", ops...) }
-func (o Opcodes) Vgatherdps(ops ...Operand) { o.a.op("VGATHERDPS", ops...) }
-func (o Opcodes) VGATHERDPS(ops ...Operand) { o.a.op("VGATHERDPS", ops...) }
-func (o Opcodes) Vgatherqpd(ops ...Operand) { o.a.op("VGATHERQPD", ops...) }
-func (o Opcodes) VGATHERQPD(ops ...Operand) { o.a.op("VGATHERQPD", ops...) }
-func (o Opcodes) Vgatherqps(ops ...Operand) { o.a.op("VGATHERQPS", ops...) }
-func (o Opcodes) VGATHERQPS(ops ...Operand) { o.a.op("VGATHERQPS", ops...) }
-func (o Opcodes) Vhaddpd(ops ...Operand) { o.a.op("VHADDPD", ops...) }
-func (o Opcodes) VHADDPD(ops ...Operand) { o.a.op("VHADDPD", ops...) }
-func (o Opcodes) Vhaddps(ops ...Operand) { o.a.op("VHADDPS", ops...) }
-func (o Opcodes) VHADDPS(ops ...Operand) { o.a.op("VHADDPS", ops...) }
-func (o Opcodes) Vhsubpd(ops ...Operand) { o.a.op("VHSUBPD", ops...) }
-func (o Opcodes) VHSUBPD(ops ...Operand) { o.a.op("VHSUBPD", ops...) }
-func (o Opcodes) Vhsubps(ops ...Operand) { o.a.op("VHSUBPS", ops...) }
-func (o Opcodes) VHSUBPS(ops ...Operand) { o.a.op("VHSUBPS", ops...) }
-func (o Opcodes) Vinsertf128(ops ...Operand) { o.a.op("VINSERTF128", ops...) }
-func (o Opcodes) VINSERTF128(ops ...Operand) { o.a.op("VINSERTF128", ops...) }
-func (o Opcodes) Vinserti128(ops ...Operand) { o.a.op("VINSERTI128", ops...) }
-func (o Opcodes) VINSERTI128(ops ...Operand) { o.a.op("VINSERTI128", ops...) }
-func (o Opcodes) Vinsertps(ops ...Operand) { o.a.op("VINSERTPS", ops...) }
-func (o Opcodes) VINSERTPS(ops ...Operand) { o.a.op("VINSERTPS", ops...) }
-func (o Opcodes) Vlddqu(ops ...Operand) { o.a.op("VLDDQU", ops...) }
-func (o Opcodes) VLDDQU(ops ...Operand) { o.a.op("VLDDQU", ops...) }
-func (o Opcodes) Vldmxcsr(ops ...Operand) { o.a.op("VLDMXCSR", ops...) }
-func (o Opcodes) VLDMXCSR(ops ...Operand) { o.a.op("VLDMXCSR", ops...) }
-func (o Opcodes) Vmaskmovdqu(ops ...Operand) { o.a.op("VMASKMOVDQU", ops...) }
-func (o Opcodes) VMASKMOVDQU(ops ...Operand) { o.a.op("VMASKMOVDQU", ops...) }
-func (o Opcodes) Vmaskmovpd(ops ...Operand) { o.a.op("VMASKMOVPD", ops...) }
-func (o Opcodes) VMASKMOVPD(ops ...Operand) { o.a.op("VMASKMOVPD", ops...) }
-func (o Opcodes) Vmaskmovps(ops ...Operand) { o.a.op("VMASKMOVPS", ops...) }
-func (o Opcodes) VMASKMOVPS(ops ...Operand) { o.a.op("VMASKMOVPS", ops...) }
-func (o Opcodes) Vmaxpd(ops ...Operand) { o.a.op("VMAXPD", ops...) }
-func (o Opcodes) VMAXPD(ops ...Operand) { o.a.op("VMAXPD", ops...) }
-func (o Opcodes) Vmaxps(ops ...Operand) { o.a.op("VMAXPS", ops...) }
-func (o Opcodes) VMAXPS(ops ...Operand) { o.a.op("VMAXPS", ops...) }
-func (o Opcodes) Vmaxsd(ops ...Operand) { o.a.op("VMAXSD", ops...) }
-func (o Opcodes) VMAXSD(ops ...Operand) { o.a.op("VMAXSD", ops...) }
-func (o Opcodes) Vmaxss(ops ...Operand) { o.a.op("VMAXSS", ops...) }
-func (o Opcodes) VMAXSS(ops ...Operand) { o.a.op("VMAXSS", ops...) }
-func (o Opcodes) Vminpd(ops ...Operand) { o.a.op("VMINPD", ops...) }
-func (o Opcodes) VMINPD(ops ...Operand) { o.a.op("VMINPD", ops...) }
-func (o Opcodes) Vminps(ops ...Operand) { o.a.op("VMINPS", ops...) }
-func (o Opcodes) VMINPS(ops ...Operand) { o.a.op("VMINPS", ops...) }
-func (o Opcodes) Vminsd(ops ...Operand) { o.a.op("VMINSD", ops...) }
-func (o Opcodes) VMINSD(ops ...Operand) { o.a.op("VMINSD", ops...) }
-func (o Opcodes) Vminss(ops ...Operand) { o.a.op("VMINSS", ops...) }
-func (o Opcodes) VMINSS(ops ...Operand) { o.a.op("VMINSS", ops...) }
-func (o Opcodes) Vmovapd(ops ...Operand) { o.a.op("VMOVAPD", ops...) }
-func (o Opcodes) VMOVAPD(ops ...Operand) { o.a.op("VMOVAPD", ops...) }
-func (o Opcodes) Vmovaps(ops ...Operand) { o.a.op("VMOVAPS", ops...) }
-func (o Opcodes) VMOVAPS(ops ...Operand) { o.a.op("VMOVAPS", ops...) }
-func (o Opcodes) Vmovd(ops ...Operand) { o.a.op("VMOVD", ops...) }
-func (o Opcodes) VMOVD(ops ...Operand) { o.a.op("VMOVD", ops...) }
-func (o Opcodes) Vmovddup(ops ...Operand) { o.a.op("VMOVDDUP", ops...) }
-func (o Opcodes) VMOVDDUP(ops ...Operand) { o.a.op("VMOVDDUP", ops...) }
-func (o Opcodes) Vmovdqa(ops ...Operand) { o.a.op("VMOVDQA", ops...) }
-func (o Opcodes) VMOVDQA(ops ...Operand) { o.a.op("VMOVDQA", ops...) }
-func (o Opcodes) Vmovdqu(ops ...Operand) { o.a.op("VMOVDQU", ops...) }
-func (o Opcodes) VMOVDQU(ops ...Operand) { o.a.op("VMOVDQU", ops...) }
-func (o Opcodes) Vmovhlps(ops ...Operand) { o.a.op("VMOVHLPS", ops...) }
-func (o Opcodes) VMOVHLPS(ops ...Operand) { o.a.op("VMOVHLPS", ops...) }
-func (o Opcodes) Vmovhpd(ops ...Operand) { o.a.op("VMOVHPD", ops...) }
-func (o Opcodes) VMOVHPD(ops ...Operand) { o.a.op("VMOVHPD", ops...) }
-func (o Opcodes) Vmovhps(ops ...Operand) { o.a.op("VMOVHPS", ops...) }
-func (o Opcodes) VMOVHPS(ops ...Operand) { o.a.op("VMOVHPS", ops...) }
-func (o Opcodes) Vmovlhps(ops ...Operand) { o.a.op("VMOVLHPS", ops...) }
-func (o Opcodes) VMOVLHPS(ops ...Operand) { o.a.op("VMOVLHPS", ops...) }
-func (o Opcodes) Vmovlpd(ops ...Operand) { o.a.op("VMOVLPD", ops...) }
-func (o Opcodes) VMOVLPD(ops ...Operand) { o.a.op("VMOVLPD", ops...) }
-func (o Opcodes) Vmovlps(ops ...Operand) { o.a.op("VMOVLPS", ops...) }
-func (o Opcodes) VMOVLPS(ops ...Operand) { o.a.op("VMOVLPS", ops...) }
-func (o Opcodes) Vmovmskpd(ops ...Operand) { o.a.op("VMOVMSKPD", ops...) }
-func (o Opcodes) VMOVMSKPD(ops ...Operand) { o.a.op("VMOVMSKPD", ops...) }
-func (o Opcodes) Vmovmskps(ops ...Operand) { o.a.op("VMOVMSKPS", ops...) }
-func (o Opcodes) VMOVMSKPS(ops ...Operand) { o.a.op("VMOVMSKPS", ops...) }
-func (o Opcodes) Vmovntdq(ops ...Operand) { o.a.op("VMOVNTDQ", ops...) }
-func (o Opcodes) VMOVNTDQ(ops ...Operand) { o.a.op("VMOVNTDQ", ops...) }
-func (o Opcodes) Vmovntdqa(ops ...Operand) { o.a.op("VMOVNTDQA", ops...) }
-func (o Opcodes) VMOVNTDQA(ops ...Operand) { o.a.op("VMOVNTDQA", ops...) }
-func (o Opcodes) Vmovntpd(ops ...Operand) { o.a.op("VMOVNTPD", ops...) }
-func (o Opcodes) VMOVNTPD(ops ...Operand) { o.a.op("VMOVNTPD", ops...) }
-func (o Opcodes) Vmovntps(ops ...Operand) { o.a.op("VMOVNTPS", ops...) }
-func (o Opcodes) VMOVNTPS(ops ...Operand) { o.a.op("VMOVNTPS", ops...) }
-func (o Opcodes) Vmovq(ops ...Operand) { o.a.op("VMOVQ", ops...) }
-func (o Opcodes) VMOVQ(ops ...Operand) { o.a.op("VMOVQ", ops...) }
-func (o Opcodes) Vmovsd(ops ...Operand) { o.a.op("VMOVSD", ops...) }
-func (o Opcodes) VMOVSD(ops ...Operand) { o.a.op("VMOVSD", ops...) }
-func (o Opcodes) Vmovshdup(ops ...Operand) { o.a.op("VMOVSHDUP", ops...) }
-func (o Opcodes) VMOVSHDUP(ops ...Operand) { o.a.op("VMOVSHDUP", ops...) }
-func (o Opcodes) Vmovsldup(ops ...Operand) { o.a.op("VMOVSLDUP", ops...) }
-func (o Opcodes) VMOVSLDUP(ops ...Operand) { o.a.op("VMOVSLDUP", ops...) }
-func (o Opcodes) Vmovss(ops ...Operand) { o.a.op("VMOVSS", ops...) }
-func (o Opcodes) VMOVSS(ops ...Operand) { o.a.op("VMOVSS", ops...) }
-func (o Opcodes) Vmovupd(ops ...Operand) { o.a.op("VMOVUPD", ops...) }
-func (o Opcodes) VMOVUPD(ops ...Operand) { o.a.op("VMOVUPD", ops...) }
-func (o Opcodes) Vmovups(ops ...Operand) { o.a.op("VMOVUPS", ops...) }
-func (o Opcodes) VMOVUPS(ops ...Operand) { o.a.op("VMOVUPS", ops...) }
-func (o Opcodes) Vmpsadbw(ops ...Operand) { o.a.op("VMPSADBW", ops...) }
-func (o Opcodes) VMPSADBW(ops ...Operand) { o.a.op("VMPSADBW", ops...) }
-func (o Opcodes) Vmulpd(ops ...Operand) { o.a.op("VMULPD", ops...) }
-func (o Opcodes) VMULPD(ops ...Operand) { o.a.op("VMULPD", ops...) }
-func (o Opcodes) Vmulps(ops ...Operand) { o.a.op("VMULPS", ops...) }
-func (o Opcodes) VMULPS(ops ...Operand) { o.a.op("VMULPS", ops...) }
-func (o Opcodes) Vmulsd(ops ...Operand) { o.a.op("VMULSD", ops...) }
-func (o Opcodes) VMULSD(ops ...Operand) { o.a.op("VMULSD", ops...) }
-func (o Opcodes) Vmulss(ops ...Operand) { o.a.op("VMULSS", ops...) }
-func (o Opcodes) VMULSS(ops ...Operand) { o.a.op("VMULSS", ops...) }
-func (o Opcodes) Vorpd(ops ...Operand) { o.a.op("VORPD", ops...) }
-func (o Opcodes) VORPD(ops ...Operand) { o.a.op("VORPD", ops...) }
-func (o Opcodes) Vorps(ops ...Operand) { o.a.op("VORPS", ops...) }
-func (o Opcodes) VORPS(ops ...Operand) { o.a.op("VORPS", ops...) }
-func (o Opcodes) Vpabsb(ops ...Operand) { o.a.op("VPABSB", ops...) }
-func (o Opcodes) VPABSB(ops ...Operand) { o.a.op("VPABSB", ops...) }
-func (o Opcodes) Vpabsd(ops ...Operand) { o.a.op("VPABSD", ops...) }
-func (o Opcodes) VPABSD(ops ...Operand) { o.a.op("VPABSD", ops...) }
-func (o Opcodes) Vpabsw(ops ...Operand) { o.a.op("VPABSW", ops...) }
-func (o Opcodes) VPABSW(ops ...Operand) { o.a.op("VPABSW", ops...) }
-func (o Opcodes) Vpackssdw(ops ...Operand) { o.a.op("VPACKSSDW", ops...) }
-func (o Opcodes) VPACKSSDW(ops ...Operand) { o.a.op("VPACKSSDW", ops...) }
-func (o Opcodes) Vpacksswb(ops ...Operand) { o.a.op("VPACKSSWB", ops...) }
-func (o Opcodes) VPACKSSWB(ops ...Operand) { o.a.op("VPACKSSWB", ops...) }
-func (o Opcodes) Vpackusdw(ops ...Operand) { o.a.op("VPACKUSDW", ops...) }
-func (o Opcodes) VPACKUSDW(ops ...Operand) { o.a.op("VPACKUSDW", ops...) }
-func (o Opcodes) Vpackuswb(ops ...Operand) { o.a.op("VPACKUSWB", ops...) }
-func (o Opcodes) VPACKUSWB(ops ...Operand) { o.a.op("VPACKUSWB", ops...) }
-func (o Opcodes) Vpaddb(ops ...Operand) { o.a.op("VPADDB", ops...) }
-func (o Opcodes) VPADDB(ops ...Operand) { o.a.op("VPADDB", ops...) }
-func (o Opcodes) Vpaddd(ops ...Operand) { o.a.op("VPADDD", ops...) }
-func (o Opcodes) VPADDD(ops ...Operand) { o.a.op("VPADDD", ops...) }
-func (o Opcodes) Vpaddq(ops ...Operand) { o.a.op("VPADDQ", ops...) }
-func (o Opcodes) VPADDQ(ops ...Operand) { o.a.op("VPADDQ", ops...) }
-func (o Opcodes) Vpaddsb(ops ...Operand) { o.a.op("VPADDSB", ops...) }
-func (o Opcodes) VPADDSB(ops ...Operand) { o.a.op("VPADDSB", ops...) }
-func (o Opcodes) Vpaddsw(ops ...Operand) { o.a.op("VPADDSW", ops...) }
-func (o Opcodes) VPADDSW(ops ...Operand) { o.a.op("VPADDSW", ops...) }
-func (o Opcodes) Vpaddusb(ops ...Operand) { o.a.op("VPADDUSB", ops...) }
-func (o Opcodes) VPADDUSB(ops ...Operand) { o.a.op("VPADDUSB", ops...) }
-func (o Opcodes) Vpaddusw(ops ...Operand) { o.a.op("VPADDUSW", ops...) }
-func (o Opcodes) VPADDUSW(ops ...Operand) { o.a.op("VPADDUSW", ops...) }
-func (o Opcodes) Vpaddw(ops ...Operand) { o.a.op("VPADDW", ops...) }
-func (o Opcodes) VPADDW(ops ...Operand) { o.a.op("VPADDW", ops...) }
-func (o Opcodes) Vpalignr(ops ...Operand) { o.a.op("VPALIGNR", ops...) }
-func (o Opcodes) VPALIGNR(ops ...Operand) { o.a.op("VPALIGNR", ops...) }
-func (o Opcodes) Vpand(ops ...Operand) { o.a.op("VPAND", ops...) }
-func (o Opcodes) VPAND(ops ...Operand) { o.a.op("VPAND", ops...) }
-func (o Opcodes) Vpandn(ops ...Operand) { o.a.op("VPANDN", ops...) }
-func (o Opcodes) VPANDN(ops ...Operand) { o.a.op("VPANDN", ops...) }
-func (o Opcodes) Vpavgb(ops ...Operand) { o.a.op("VPAVGB", ops...) }
-func (o Opcodes) VPAVGB(ops ...Operand) { o.a.op("VPAVGB", ops...) }
-func (o Opcodes) Vpavgw(ops ...Operand) { o.a.op("VPAVGW", ops...) }
-func (o Opcodes) VPAVGW(ops ...Operand) { o.a.op("VPAVGW", ops...) }
-func (o Opcodes) Vpblendd(ops ...Operand) { o.a.op("VPBLENDD", ops...) }
-func (o Opcodes) VPBLENDD(ops ...Operand) { o.a.op("VPBLENDD", ops...) }
-func (o Opcodes) Vpblendvb(ops ...Operand) { o.a.op("VPBLENDVB", ops...) }
-func (o Opcodes) VPBLENDVB(ops ...Operand) { o.a.op("VPBLENDVB", ops...) }
-func (o Opcodes) Vpblendw(ops ...Operand) { o.a.op("VPBLENDW", ops...) }
-func (o Opcodes) VPBLENDW(ops ...Operand) { o.a.op("VPBLENDW", ops...) }
-func (o Opcodes) Vpbroadcastb(ops ...Operand) { o.a.op("VPBROADCASTB", ops...) }
-func (o Opcodes) VPBROADCASTB(ops ...Operand) { o.a.op("VPBROADCASTB", ops...) }
-func (o Opcodes) Vpbroadcastd(ops ...Operand) { o.a.op("VPBROADCASTD", ops...) }
-func (o Opcodes) VPBROADCASTD(ops ...Operand) { o.a.op("VPBROADCASTD", ops...) }
-func (o Opcodes) Vpbroadcastq(ops ...Operand) { o.a.op("VPBROADCASTQ", ops...) }
-func (o Opcodes) VPBROADCASTQ(ops ...Operand) { o.a.op("VPBROADCASTQ", ops...) }
-func (o Opcodes) Vpbroadcastw(ops ...Operand) { o.a.op("VPBROADCASTW", ops...) }
-func (o Opcodes) VPBROADCASTW(ops ...Operand) { o.a.op("VPBROADCASTW", ops...) }
-func (o Opcodes) Vpclmulqdq(ops ...Operand) { o.a.op("VPCLMULQDQ", ops...) }
-func (o Opcodes) VPCLMULQDQ(ops ...Operand) { o.a.op("VPCLMULQDQ", ops...) }
-func (o Opcodes) Vpcmpeqb(ops ...Operand) { o.a.op("VPCMPEQB", ops...) }
-func (o Opcodes) VPCMPEQB(ops ...Operand) { o.a.op("VPCMPEQB", ops...) }
-func (o Opcodes) Vpcmpeqd(ops ...Operand) { o.a.op("VPCMPEQD", ops...) }
-func (o Opcodes) VPCMPEQD(ops ...Operand) { o.a.op("VPCMPEQD", ops...) }
-func (o Opcodes) Vpcmpeqq(ops ...Operand) { o.a.op("VPCMPEQQ", ops...) }
-func (o Opcodes) VPCMPEQQ(ops ...Operand) { o.a.op("VPCMPEQQ", ops...) }
-func (o Opcodes) Vpcmpeqw(ops ...Operand) { o.a.op("VPCMPEQW", ops...) }
-func (o Opcodes) VPCMPEQW(ops ...Operand) { o.a.op("VPCMPEQW", ops...) }
-func (o Opcodes) Vpcmpestri(ops ...Operand) { o.a.op("VPCMPESTRI", ops...) }
-func (o Opcodes) VPCMPESTRI(ops ...Operand) { o.a.op("VPCMPESTRI", ops...) }
-func (o Opcodes) Vpcmpestrm(ops ...Operand) { o.a.op("VPCMPESTRM", ops...) }
-func (o Opcodes) VPCMPESTRM(ops ...Operand) { o.a.op("VPCMPESTRM", ops...) }
-func (o Opcodes) Vpcmpgtb(ops ...Operand) { o.a.op("VPCMPGTB", ops...) }
-func (o Opcodes) VPCMPGTB(ops ...Operand) { o.a.op("VPCMPGTB", ops...) }
-func (o Opcodes) Vpcmpgtd(ops ...Operand) { o.a.op("VPCMPGTD", ops...) }
-func (o Opcodes) VPCMPGTD(ops ...Operand) { o.a.op("VPCMPGTD", ops...) }
-func (o Opcodes) Vpcmpgtq(ops ...Operand) { o.a.op("VPCMPGTQ", ops...) }
-func (o Opcodes) VPCMPGTQ(ops ...Operand) { o.a.op("VPCMPGTQ", ops...) }
-func (o Opcodes) Vpcmpgtw(ops ...Operand) { o.a.op("VPCMPGTW", ops...) }
-func (o Opcodes) VPCMPGTW(ops ...Operand) { o.a.op("VPCMPGTW", ops...) }
-func (o Opcodes) Vpcmpistri(ops ...Operand) { o.a.op("VPCMPISTRI", ops...) }
-func (o Opcodes) VPCMPISTRI(ops ...Operand) { o.a.op("VPCMPISTRI", ops...) }
-func (o Opcodes) Vpcmpistrm(ops ...Operand) { o.a.op("VPCMPISTRM", ops...) }
-func (o Opcodes) VPCMPISTRM(ops ...Operand) { o.a.op("VPCMPISTRM", ops...) }
-func (o Opcodes) Vperm2f128(ops ...Operand) { o.a.op("VPERM2F128", ops...) }
-func (o Opcodes) VPERM2F128(ops ...Operand) { o.a.op("VPERM2F128", ops...) }
-func (o Opcodes) Vperm2i128(ops ...Operand) { o.a.op("VPERM2I128", ops...) }
-func (o Opcodes) VPERM2I128(ops ...Operand) { o.a.op("VPERM2I128", ops...) }
-func (o Opcodes) Vpermd(ops ...Operand) { o.a.op("VPERMD", ops...) }
-func (o Opcodes) VPERMD(ops ...Operand) { o.a.op("VPERMD", ops...) }
-func (o Opcodes) Vpermilpd(ops ...Operand) { o.a.op("VPERMILPD", ops...) }
-func (o Opcodes) VPERMILPD(ops ...Operand) { o.a.op("VPERMILPD", ops...) }
-func (o Opcodes) Vpermilps(ops ...Operand) { o.a.op("VPERMILPS", ops...) }
-func (o Opcodes) VPERMILPS(ops ...Operand) { o.a.op("VPERMILPS", ops...) }
-func (o Opcodes) Vpermpd(ops ...Operand) { o.a.op("VPERMPD", ops...) }
-func (o Opcodes) VPERMPD(ops ...Operand) { o.a.op("VPERMPD", ops...) }
-func (o Opcodes) Vpermps(ops ...Operand) { o.a.op("VPERMPS", ops...) }
-func (o Opcodes) VPERMPS(ops ...Operand) { o.a.op("VPERMPS", ops...) }
-func (o Opcodes) Vpermq(ops ...Operand) { o.a.op("VPERMQ", ops...) }
-func (o Opcodes) VPERMQ(ops ...Operand) { o.a.op("VPERMQ", ops...) }
-func (o Opcodes) Vpextrb(ops ...Operand) { o.a.op("VPEXTRB", ops...) }
-func (o Opcodes) VPEXTRB(ops ...Operand) { o.a.op("VPEXTRB", ops...) }
-func (o Opcodes) Vpextrd(ops ...Operand) { o.a.op("VPEXTRD", ops...) }
-func (o Opcodes) VPEXTRD(ops ...Operand) { o.a.op("VPEXTRD", ops...) }
-func (o Opcodes) Vpextrq(ops ...Operand) { o.a.op("VPEXTRQ", ops...) }
-func (o Opcodes) VPEXTRQ(ops ...Operand) { o.a.op("VPEXTRQ", ops...) }
-func (o Opcodes) Vpextrw(ops ...Operand) { o.a.op("VPEXTRW", ops...) }
-func (o Opcodes) VPEXTRW(ops ...Operand) { o.a.op("VPEXTRW", ops...) }
-func (o Opcodes) Vpgatherdd(ops ...Operand) { o.a.op("VPGATHERDD", ops...) }
-func (o Opcodes) VPGATHERDD(ops ...Operand) { o.a.op("VPGATHERDD", ops...) }
-func (o Opcodes) Vpgatherdq(ops ...Operand) { o.a.op("VPGATHERDQ", ops...) }
-func (o Opcodes) VPGATHERDQ(ops ...Operand) { o.a.op("VPGATHERDQ", ops...) }
-func (o Opcodes) Vpgatherqd(ops ...Operand) { o.a.op("VPGATHERQD", ops...) }
-func (o Opcodes) VPGATHERQD(ops ...Operand) { o.a.op("VPGATHERQD", ops...) }
-func (o Opcodes) Vpgatherqq(ops ...Operand) { o.a.op("VPGATHERQQ", ops...) }
-func (o Opcodes) VPGATHERQQ(ops ...Operand) { o.a.op("VPGATHERQQ", ops...) }
-func (o Opcodes) Vphaddd(ops ...Operand) { o.a.op("VPHADDD", ops...) }
-func (o Opcodes) VPHADDD(ops ...Operand) { o.a.op("VPHADDD", ops...) }
-func (o Opcodes) Vphaddsw(ops ...Operand) { o.a.op("VPHADDSW", ops...) }
-func (o Opcodes) VPHADDSW(ops ...Operand) { o.a.op("VPHADDSW", ops...) }
-func (o Opcodes) Vphaddw(ops ...Operand) { o.a.op("VPHADDW", ops...) }
-func (o Opcodes) VPHADDW(ops ...Operand) { o.a.op("VPHADDW", ops...) }
-func (o Opcodes) Vphminposuw(ops ...Operand) { o.a.op("VPHMINPOSUW", ops...) }
-func (o Opcodes) VPHMINPOSUW(ops ...Operand) { o.a.op("VPHMINPOSUW", ops...) }
-func (o Opcodes) Vphsubd(ops ...Operand) { o.a.op("VPHSUBD", ops...) }
-func (o Opcodes) VPHSUBD(ops ...Operand) { o.a.op("VPHSUBD", ops...) }
-func (o Opcodes) Vphsubsw(ops ...Operand) { o.a.op("VPHSUBSW", ops...) }
-func (o Opcodes) VPHSUBSW(ops ...Operand) { o.a.op("VPHSUBSW", ops...) }
-func (o Opcodes) Vphsubw(ops ...Operand) { o.a.op("VPHSUBW", ops...) }
-func (o Opcodes) VPHSUBW(ops ...Operand) { o.a.op("VPHSUBW", ops...) }
-func (o Opcodes) Vpinsrb(ops ...Operand) { o.a.op("VPINSRB", ops...) }
-func (o Opcodes) VPINSRB(ops ...Operand) { o.a.op("VPINSRB", ops...) }
-func (o Opcodes) Vpinsrd(ops ...Operand) { o.a.op("VPINSRD", ops...) }
-func (o Opcodes) VPINSRD(ops ...Operand) { o.a.op("VPINSRD", ops...) }
-func (o Opcodes) Vpinsrq(ops ...Operand) { o.a.op("VPINSRQ", ops...) }
-func (o Opcodes) VPINSRQ(ops ...Operand) { o.a.op("VPINSRQ", ops...) }
-func (o Opcodes) Vpinsrw(ops ...Operand) { o.a.op("VPINSRW", ops...) }
-func (o Opcodes) VPINSRW(ops ...Operand) { o.a.op("VPINSRW", ops...) }
-func (o Opcodes) Vpmaddubsw(ops ...Operand) { o.a.op("VPMADDUBSW", ops...) }
-func (o Opcodes) VPMADDUBSW(ops ...Operand) { o.a.op("VPMADDUBSW", ops...) }
-func (o Opcodes) Vpmaddwd(ops ...Operand) { o.a.op("VPMADDWD", ops...) }
-func (o Opcodes) VPMADDWD(ops ...Operand) { o.a.op("VPMADDWD", ops...) }
-func (o Opcodes) Vpmaskmovd(ops ...Operand) { o.a.op("VPMASKMOVD", ops...) }
-func (o Opcodes) VPMASKMOVD(ops ...Operand) { o.a.op("VPMASKMOVD", ops...) }
-func (o Opcodes) Vpmaskmovq(ops ...Operand) { o.a.op("VPMASKMOVQ", ops...) }
-func (o Opcodes) VPMASKMOVQ(ops ...Operand) { o.a.op("VPMASKMOVQ", ops...) }
-func (o Opcodes) Vpmaxsb(ops ...Operand) { o.a.op("VPMAXSB", ops...) }
-func (o Opcodes) VPMAXSB(ops ...Operand) { o.a.op("VPMAXSB", ops...) }
-func (o Opcodes) Vpmaxsd(ops ...Operand) { o.a.op("VPMAXSD", ops...) }
-func (o Opcodes) VPMAXSD(ops ...Operand) { o.a.op("VPMAXSD", ops...) }
-func (o Opcodes) Vpmaxsw(ops ...Operand) { o.a.op("VPMAXSW", ops...) }
-func (o Opcodes) VPMAXSW(ops ...Operand) { o.a.op("VPMAXSW", ops...) }
-func (o Opcodes) Vpmaxub(ops ...Operand) { o.a.op("VPMAXUB", ops...) }
-func (o Opcodes) VPMAXUB(ops ...Operand) { o.a.op("VPMAXUB", ops...) }
-func (o Opcodes) Vpmaxud(ops ...Operand) { o.a.op("VPMAXUD", ops...) }
-func (o Opcodes) VPMAXUD(ops ...Operand) { o.a.op("VPMAXUD", ops...) }
-func (o Opcodes) Vpmaxuw(ops ...Operand) { o.a.op("VPMAXUW", ops...) }
-func (o Opcodes) VPMAXUW(ops ...Operand) { o.a.op("VPMAXUW", ops...) }
-func (o Opcodes) Vpminsb(ops ...Operand) { o.a.op("VPMINSB", ops...) }
-func (o Opcodes) VPMINSB(ops ...Operand) { o.a.op("VPMINSB", ops...) }
-func (o Opcodes) Vpminsd(ops ...Operand) { o.a.op("VPMINSD", ops...) }
-func (o Opcodes) VPMINSD(ops ...Operand) { o.a.op("VPMINSD", ops...) }
-func (o Opcodes) Vpminsw(ops ...Operand) { o.a.op("VPMINSW", ops...) }
-func (o Opcodes) VPMINSW(ops ...Operand) { o.a.op("VPMINSW", ops...) }
-func (o Opcodes) Vpminub(ops ...Operand) { o.a.op("VPMINUB", ops...) }
-func (o Opcodes) VPMINUB(ops ...Operand) { o.a.op("VPMINUB", ops...) }
-func (o Opcodes) Vpminud(ops ...Operand) { o.a.op("VPMINUD", ops...) }
-func (o Opcodes) VPMINUD(ops ...Operand) { o.a.op("VPMINUD", ops...) }
-func (o Opcodes) Vpminuw(ops ...Operand) { o.a.op("VPMINUW", ops...) }
-func (o Opcodes) VPMINUW(ops ...Operand) { o.a.op("VPMINUW", ops...) }
-func (o Opcodes) Vpmovmskb(ops ...Operand) { o.a.op("VPMOVMSKB", ops...) }
-func (o Opcodes) VPMOVMSKB(ops ...Operand) { o.a.op("VPMOVMSKB", ops...) }
-func (o Opcodes) Vpmovsxbd(ops ...Operand) { o.a.op("VPMOVSXBD", ops...) }
-func (o Opcodes) VPMOVSXBD(ops ...Operand) { o.a.op("VPMOVSXBD", ops...) }
-func (o Opcodes) Vpmovsxbq(ops ...Operand) { o.a.op("VPMOVSXBQ", ops...) }
-func (o Opcodes) VPMOVSXBQ(ops ...Operand) { o.a.op("VPMOVSXBQ", ops...) }
-func (o Opcodes) Vpmovsxbw(ops ...Operand) { o.a.op("VPMOVSXBW", ops...) }
-func (o Opcodes) VPMOVSXBW(ops ...Operand) { o.a.op("VPMOVSXBW", ops...) }
-func (o Opcodes) Vpmovsxdq(ops ...Operand) { o.a.op("VPMOVSXDQ", ops...) }
-func (o Opcodes) VPMOVSXDQ(ops ...Operand) { o.a.op("VPMOVSXDQ", ops...) }
-func (o Opcodes) Vpmovsxwd(ops ...Operand) { o.a.op("VPMOVSXWD", ops...) }
-func (o Opcodes) VPMOVSXWD(ops ...Operand) { o.a.op("VPMOVSXWD", ops...) }
-func (o Opcodes) Vpmovsxwq(ops ...Operand) { o.a.op("VPMOVSXWQ", ops...) }
-func (o Opcodes) VPMOVSXWQ(ops ...Operand) { o.a.op("VPMOVSXWQ", ops...) }
-func (o Opcodes) Vpmovzxbd(ops ...Operand) { o.a.op("VPMOVZXBD", ops...) }
-func (o Opcodes) VPMOVZXBD(ops ...Operand) { o.a.op("VPMOVZXBD", ops...) }
-func (o Opcodes) Vpmovzxbq(ops ...Operand) { o.a.op("VPMOVZXBQ", ops...) }
-func (o Opcodes) VPMOVZXBQ(ops ...Operand) { o.a.op("VPMOVZXBQ", ops...) }
-func (o Opcodes) Vpmovzxbw(ops ...Operand) { o.a.op("VPMOVZXBW", ops...) }
-func (o Opcodes) VPMOVZXBW(ops ...Operand) { o.a.op("VPMOVZXBW", ops...) }
-func (o Opcodes) Vpmovzxdq(ops ...Operand) { o.a.op("VPMOVZXDQ", ops...) }
-func (o Opcodes) VPMOVZXDQ(ops ...Operand) { o.a.op("VPMOVZXDQ", ops...) }
-func (o Opcodes) Vpmovzxwd(ops ...Operand) { o.a.op("VPMOVZXWD", ops...) }
-func (o Opcodes) VPMOVZXWD(ops ...Operand) { o.a.op("VPMOVZXWD", ops...) }
-func (o Opcodes) Vpmovzxwq(ops ...Operand) { o.a.op("VPMOVZXWQ", ops...) }
-func (o Opcodes) VPMOVZXWQ(ops ...Operand) { o.a.op("VPMOVZXWQ", ops...) }
-func (o Opcodes) Vpmuldq(ops ...Operand) { o.a.op("VPMULDQ", ops...) }
-func (o Opcodes) VPMULDQ(ops ...Operand) { o.a.op("VPMULDQ", ops...) }
-func (o Opcodes) Vpmulhrsw(ops ...Operand) { o.a.op("VPMULHRSW", ops...) }
-func (o Opcodes) VPMULHRSW(ops ...Operand) { o.a.op("VPMULHRSW", ops...) }
-func (o Opcodes) Vpmulhuw(ops ...Operand) { o.a.op("VPMULHUW", ops...) }
-func (o Opcodes) VPMULHUW(ops ...Operand) { o.a.op("VPMULHUW", ops...) }
-func (o Opcodes) Vpmulhw(ops ...Operand) { o.a.op("VPMULHW", ops...) }
-func (o Opcodes) VPMULHW(ops ...Operand) { o.a.op("VPMULHW", ops...) }
-func (o Opcodes) Vpmulld(ops ...Operand) { o.a.op("VPMULLD", ops...) }
-func (o Opcodes) VPMULLD(ops ...Operand) { o.a.op("VPMULLD", ops...) }
-func (o Opcodes) Vpmullw(ops ...Operand) { o.a.op("VPMULLW", ops...) }
-func (o Opcodes) VPMULLW(ops ...Operand) { o.a.op("VPMULLW", ops...) }
-func (o Opcodes) Vpmuludq(ops ...Operand) { o.a.op("VPMULUDQ", ops...) }
-func (o Opcodes) VPMULUDQ(ops ...Operand) { o.a.op("VPMULUDQ", ops...) }
-func (o Opcodes) Vpor(ops ...Operand) { o.a.op("VPOR", ops...) }
-func (o Opcodes) VPOR(ops ...Operand) { o.a.op("VPOR", ops...) }
-func (o Opcodes) Vpsadbw(ops ...Operand) { o.a.op("VPSADBW", ops...) }
-func (o Opcodes) VPSADBW(ops ...Operand) { o.a.op("VPSADBW", ops...) }
-func (o Opcodes) Vpshufb(ops ...Operand) { o.a.op("VPSHUFB", ops...) }
-func (o Opcodes) VPSHUFB(ops ...Operand) { o.a.op("VPSHUFB", ops...) }
-func (o Opcodes) Vpshufd(ops ...Operand) { o.a.op("VPSHUFD", ops...) }
-func (o Opcodes) VPSHUFD(ops ...Operand) { o.a.op("VPSHUFD", ops...) }
-func (o Opcodes) Vpshufhw(ops ...Operand) { o.a.op("VPSHUFHW", ops...) }
-func (o Opcodes) VPSHUFHW(ops ...Operand) { o.a.op("VPSHUFHW", ops...) }
-func (o Opcodes) Vpshuflw(ops ...Operand) { o.a.op("VPSHUFLW", ops...) }
-func (o Opcodes) VPSHUFLW(ops ...Operand) { o.a.op("VPSHUFLW", ops...) }
-func (o Opcodes) Vpsignb(ops ...Operand) { o.a.op("VPSIGNB", ops...) }
-func (o Opcodes) VPSIGNB(ops ...Operand) { o.a.op("VPSIGNB", ops...) }
-func (o Opcodes) Vpsignd(ops ...Operand) { o.a.op("VPSIGND", ops...) }
-func (o Opcodes) VPSIGND(ops ...Operand) { o.a.op("VPSIGND", ops...) }
-func (o Opcodes) Vpsignw(ops ...Operand) { o.a.op("VPSIGNW", ops...) }
-func (o Opcodes) VPSIGNW(ops ...Operand) { o.a.op("VPSIGNW", ops...) }
-func (o Opcodes) Vpslld(ops ...Operand) { o.a.op("VPSLLD", ops...) }
-func (o Opcodes) VPSLLD(ops ...Operand) { o.a.op("VPSLLD", ops...) }
-func (o Opcodes) Vpslldq(ops ...Operand) { o.a.op("VPSLLDQ", ops...) }
-func (o Opcodes) VPSLLDQ(ops ...Operand) { o.a.op("VPSLLDQ", ops...) }
-func (o Opcodes) Vpsllq(ops ...Operand) { o.a.op("VPSLLQ", ops...) }
-func (o Opcodes) VPSLLQ(ops ...Operand) { o.a.op("VPSLLQ", ops...) }
-func (o Opcodes) Vpsllvd(ops ...Operand) { o.a.op("VPSLLVD", ops...) }
-func (o Opcodes) VPSLLVD(ops ...Operand) { o.a.op("VPSLLVD", ops...) }
-func (o Opcodes) Vpsllvq(ops ...Operand) { o.a.op("VPSLLVQ", ops...) }
-func (o Opcodes) VPSLLVQ(ops ...Operand) { o.a.op("VPSLLVQ", ops...) }
-func (o Opcodes) Vpsllw(ops ...Operand) { o.a.op("VPSLLW", ops...) }
-func (o Opcodes) VPSLLW(ops ...Operand) { o.a.op("VPSLLW", ops...) }
-func (o Opcodes) Vpsrad(ops ...Operand) { o.a.op("VPSRAD", ops...) }
-func (o Opcodes) VPSRAD(ops ...Operand) { o.a.op("VPSRAD", ops...) }
-func (o Opcodes) Vpsravd(ops ...Operand) { o.a.op("VPSRAVD", ops...) }
-func (o Opcodes) VPSRAVD(ops ...Operand) { o.a.op("VPSRAVD", ops...) }
-func (o Opcodes) Vpsraw(ops ...Operand) { o.a.op("VPSRAW", ops...) }
-func (o Opcodes) VPSRAW(ops ...Operand) { o.a.op("VPSRAW", ops...) }
-func (o Opcodes) Vpsrld(ops ...Operand) { o.a.op("VPSRLD", ops...) }
-func (o Opcodes) VPSRLD(ops ...Operand) { o.a.op("VPSRLD", ops...) }
-func (o Opcodes) Vpsrldq(ops ...Operand) { o.a.op("VPSRLDQ", ops...) }
-func (o Opcodes) VPSRLDQ(ops ...Operand) { o.a.op("VPSRLDQ", ops...) }
-func (o Opcodes) Vpsrlq(ops ...Operand) { o.a.op("VPSRLQ", ops...) }
-func (o Opcodes) VPSRLQ(ops ...Operand) { o.a.op("VPSRLQ", ops...) }
-func (o Opcodes) Vpsrlvd(ops ...Operand) { o.a.op("VPSRLVD", ops...) }
-func (o Opcodes) VPSRLVD(ops ...Operand) { o.a.op("VPSRLVD", ops...) }
-func (o Opcodes) Vpsrlvq(ops ...Operand) { o.a.op("VPSRLVQ", ops...) }
-func (o Opcodes) VPSRLVQ(ops ...Operand) { o.a.op("VPSRLVQ", ops...) }
-func (o Opcodes) Vpsrlw(ops ...Operand) { o.a.op("VPSRLW", ops...) }
-func (o Opcodes) VPSRLW(ops ...Operand) { o.a.op("VPSRLW", ops...) }
-func (o Opcodes) Vpsubb(ops ...Operand) { o.a.op("VPSUBB", ops...) }
-func (o Opcodes) VPSUBB(ops ...Operand) { o.a.op("VPSUBB", ops...) }
-func (o Opcodes) Vpsubd(ops ...Operand) { o.a.op("VPSUBD", ops...) }
-func (o Opcodes) VPSUBD(ops ...Operand) { o.a.op("VPSUBD", ops...) }
-func (o Opcodes) Vpsubq(ops ...Operand) { o.a.op("VPSUBQ", ops...) }
-func (o Opcodes) VPSUBQ(ops ...Operand) { o.a.op("VPSUBQ", ops...) }
-func (o Opcodes) Vpsubsb(ops ...Operand) { o.a.op("VPSUBSB", ops...) }
-func (o Opcodes) VPSUBSB(ops ...Operand) { o.a.op("VPSUBSB", ops...) }
-func (o Opcodes) Vpsubsw(ops ...Operand) { o.a.op("VPSUBSW", ops...) }
-func (o Opcodes) VPSUBSW(ops ...Operand) { o.a.op("VPSUBSW", ops...) }
-func (o Opcodes) Vpsubusb(ops ...Operand) { o.a.op("VPSUBUSB", ops...) }
-func (o Opcodes) VPSUBUSB(ops ...Operand) { o.a.op("VPSUBUSB", ops...) }
-func (o Opcodes) Vpsubusw(ops ...Operand) { o.a.op("VPSUBUSW", ops...) }
-func (o Opcodes) VPSUBUSW(ops ...Operand) { o.a.op("VPSUBUSW", ops...) }
-func (o Opcodes) Vpsubw(ops ...Operand) { o.a.op("VPSUBW", ops...) }
-func (o Opcodes) VPSUBW(ops ...Operand) { o.a.op("VPSUBW", ops...) }
-func (o Opcodes) Vptest(ops ...Operand) { o.a.op("VPTEST", ops...) }
-func (o Opcodes) VPTEST(ops ...Operand) { o.a.op("VPTEST", ops...) }
-func (o Opcodes) Vpunpckhbw(ops ...Operand) { o.a.op("VPUNPCKHBW", ops...) }
-func (o Opcodes) VPUNPCKHBW(ops ...Operand) { o.a.op("VPUNPCKHBW", ops...) }
-func (o Opcodes) Vpunpckhdq(ops ...Operand) { o.a.op("VPUNPCKHDQ", ops...) }
-func (o Opcodes) VPUNPCKHDQ(ops ...Operand) { o.a.op("VPUNPCKHDQ", ops...) }
-func (o Opcodes) Vpunpckhqdq(ops ...Operand) { o.a.op("VPUNPCKHQDQ", ops...) }
-func (o Opcodes) VPUNPCKHQDQ(ops ...Operand) { o.a.op("VPUNPCKHQDQ", ops...) }
-func (o Opcodes) Vpunpckhwd(ops ...Operand) { o.a.op("VPUNPCKHWD", ops...) }
-func (o Opcodes) VPUNPCKHWD(ops ...Operand) { o.a.op("VPUNPCKHWD", ops...) }
-func (o Opcodes) Vpunpcklbw(ops ...Operand) { o.a.op("VPUNPCKLBW", ops...) }
-func (o Opcodes) VPUNPCKLBW(ops ...Operand) { o.a.op("VPUNPCKLBW", ops...) }
-func (o Opcodes) Vpunpckldq(ops ...Operand) { o.a.op("VPUNPCKLDQ", ops...) }
-func (o Opcodes) VPUNPCKLDQ(ops ...Operand) { o.a.op("VPUNPCKLDQ", ops...) }
-func (o Opcodes) Vpunpcklqdq(ops ...Operand) { o.a.op("VPUNPCKLQDQ", ops...) }
-func (o Opcodes) VPUNPCKLQDQ(ops ...Operand) { o.a.op("VPUNPCKLQDQ", ops...) }
-func (o Opcodes) Vpunpcklwd(ops ...Operand) { o.a.op("VPUNPCKLWD", ops...) }
-func (o Opcodes) VPUNPCKLWD(ops ...Operand) { o.a.op("VPUNPCKLWD", ops...) }
-func (o Opcodes) Vpxor(ops ...Operand) { o.a.op("VPXOR", ops...) }
-func (o Opcodes) VPXOR(ops ...Operand) { o.a.op("VPXOR", ops...) }
-func (o Opcodes) Vrcpps(ops ...Operand) { o.a.op("VRCPPS", ops...) }
-func (o Opcodes) VRCPPS(ops ...Operand) { o.a.op("VRCPPS", ops...) }
-func (o Opcodes) Vrcpss(ops ...Operand) { o.a.op("VRCPSS", ops...) }
-func (o Opcodes) VRCPSS(ops ...Operand) { o.a.op("VRCPSS", ops...) }
-func (o Opcodes) Vroundpd(ops ...Operand) { o.a.op("VROUNDPD", ops...) }
-func (o Opcodes) VROUNDPD(ops ...Operand) { o.a.op("VROUNDPD", ops...) }
-func (o Opcodes) Vroundps(ops ...Operand) { o.a.op("VROUNDPS", ops...) }
-func (o Opcodes) VROUNDPS(ops ...Operand) { o.a.op("VROUNDPS", ops...) }
-func (o Opcodes) Vroundsd(ops ...Operand) { o.a.op("VROUNDSD", ops...) }
-func (o Opcodes) VROUNDSD(ops ...Operand) { o.a.op("VROUNDSD", ops...) }
-func (o Opcodes) Vroundss(ops ...Operand) { o.a.op("VROUNDSS", ops...) }
-func (o Opcodes) VROUNDSS(ops ...Operand) { o.a.op("VROUNDSS", ops...) }
-func (o Opcodes) Vrsqrtps(ops ...Operand) { o.a.op("VRSQRTPS", ops...) }
-func (o Opcodes) VRSQRTPS(ops ...Operand) { o.a.op("VRSQRTPS", ops...) }
-func (o Opcodes) Vrsqrtss(ops ...Operand) { o.a.op("VRSQRTSS", ops...) }
-func (o Opcodes) VRSQRTSS(ops ...Operand) { o.a.op("VRSQRTSS", ops...) }
-func (o Opcodes) Vshufpd(ops ...Operand) { o.a.op("VSHUFPD", ops...) }
-func (o Opcodes) VSHUFPD(ops ...Operand) { o.a.op("VSHUFPD", ops...) }
-func (o Opcodes) Vshufps(ops ...Operand) { o.a.op("VSHUFPS", ops...) }
-func (o Opcodes) VSHUFPS(ops ...Operand) { o.a.op("VSHUFPS", ops...) }
-func (o Opcodes) Vsqrtpd(ops ...Operand) { o.a.op("VSQRTPD", ops...) }
-func (o Opcodes) VSQRTPD(ops ...Operand) { o.a.op("VSQRTPD", ops...) }
-func (o Opcodes) Vsqrtps(ops ...Operand) { o.a.op("VSQRTPS", ops...) }
-func (o Opcodes) VSQRTPS(ops ...Operand) { o.a.op("VSQRTPS", ops...) }
-func (o Opcodes) Vsqrtsd(ops ...Operand) { o.a.op("VSQRTSD", ops...) }
-func (o Opcodes) VSQRTSD(ops ...Operand) { o.a.op("VSQRTSD", ops...) }
-func (o Opcodes) Vsqrtss(ops ...Operand) { o.a.op("VSQRTSS", ops...) }
-func (o Opcodes) VSQRTSS(ops ...Operand) { o.a.op("VSQRTSS", ops...) }
-func (o Opcodes) Vstmxcsr(ops ...Operand) { o.a.op("VSTMXCSR", ops...) }
-func (o Opcodes) VSTMXCSR(ops ...Operand) { o.a.op("VSTMXCSR", ops...) }
-func (o Opcodes) Vsubpd(ops ...Operand) { o.a.op("VSUBPD", ops...) }
-func (o Opcodes) VSUBPD(ops ...Operand) { o.a.op("VSUBPD", ops...) }
-func (o Opcodes) Vsubps(ops ...Operand) { o.a.op("VSUBPS", ops...) }
-func (o Opcodes) VSUBPS(ops ...Operand) { o.a.op("VSUBPS", ops...) }
-func (o Opcodes) Vsubsd(ops ...Operand) { o.a.op("VSUBSD", ops...) }
-func (o Opcodes) VSUBSD(ops ...Operand) { o.a.op("VSUBSD", ops...) }
-func (o Opcodes) Vsubss(ops ...Operand) { o.a.op("VSUBSS", ops...) }
-func (o Opcodes) VSUBSS(ops ...Operand) { o.a.op("VSUBSS", ops...) }
-func (o Opcodes) Vtestpd(ops ...Operand) { o.a.op("VTESTPD", ops...) }
-func (o Opcodes) VTESTPD(ops ...Operand) { o.a.op("VTESTPD", ops...) }
-func (o Opcodes) Vtestps(ops ...Operand) { o.a.op("VTESTPS", ops...) }
-func (o Opcodes) VTESTPS(ops ...Operand) { o.a.op("VTESTPS", ops...) }
-func (o Opcodes) Vucomisd(ops ...Operand) { o.a.op("VUCOMISD", ops...) }
-func (o Opcodes) VUCOMISD(ops ...Operand) { o.a.op("VUCOMISD", ops...) }
-func (o Opcodes) Vucomiss(ops ...Operand) { o.a.op("VUCOMISS", ops...) }
-func (o Opcodes) VUCOMISS(ops ...Operand) { o.a.op("VUCOMISS", ops...) }
-func (o Opcodes) Vunpckhpd(ops ...Operand) { o.a.op("VUNPCKHPD", ops...) }
-func (o Opcodes) VUNPCKHPD(ops ...Operand) { o.a.op("VUNPCKHPD", ops...) }
-func (o Opcodes) Vunpckhps(ops ...Operand) { o.a.op("VUNPCKHPS", ops...) }
-func (o Opcodes) VUNPCKHPS(ops ...Operand) { o.a.op("VUNPCKHPS", ops...) }
-func (o Opcodes) Vunpcklpd(ops ...Operand) { o.a.op("VUNPCKLPD", ops...) }
-func (o Opcodes) VUNPCKLPD(ops ...Operand) { o.a.op("VUNPCKLPD", ops...) }
-func (o Opcodes) Vunpcklps(ops ...Operand) { o.a.op("VUNPCKLPS", ops...) }
-func (o Opcodes) VUNPCKLPS(ops ...Operand) { o.a.op("VUNPCKLPS", ops...) }
-func (o Opcodes) Vxorpd(ops ...Operand) { o.a.op("VXORPD", ops...) }
-func (o Opcodes) VXORPD(ops ...Operand) { o.a.op("VXORPD", ops...) }
-func (o Opcodes) Vxorps(ops ...Operand) { o.a.op("VXORPS", ops...) }
-func (o Opcodes) VXORPS(ops ...Operand) { o.a.op("VXORPS", ops...) }
-func (o Opcodes) Vzeroall(ops ...Operand) { o.a.op("VZEROALL", ops...) }
-func (o Opcodes) VZEROALL(ops ...Operand) { o.a.op("VZEROALL", ops...) }
-func (o Opcodes) Vzeroupper(ops ...Operand) { o.a.op("VZEROUPPER", ops...) }
-func (o Opcodes) VZEROUPPER(ops ...Operand) { o.a.op("VZEROUPPER", ops...) }
-func (o Opcodes) Wait(ops ...Operand) { o.a.op("WAIT", ops...) }
-func (o Opcodes) WAIT(ops ...Operand) { o.a.op("WAIT", ops...) }
-func (o Opcodes) Wbinvd(ops ...Operand) { o.a.op("WBINVD", ops...) }
-func (o Opcodes) WBINVD(ops ...Operand) { o.a.op("WBINVD", ops...) }
-func (o Opcodes) Word(ops ...Operand) { o.a.op("WORD", ops...) }
-func (o Opcodes) WORD(ops ...Operand) { o.a.op("WORD", ops...) }
-func (o Opcodes) Wrmsr(ops ...Operand) { o.a.op("WRMSR", ops...) }
-func (o Opcodes) WRMSR(ops ...Operand) { o.a.op("WRMSR", ops...) }
-func (o Opcodes) Xabort(ops ...Operand) { o.a.op("XABORT", ops...) }
-func (o Opcodes) XABORT(ops ...Operand) { o.a.op("XABORT", ops...) }
-func (o Opcodes) Xacquire(ops ...Operand) { o.a.op("XACQUIRE", ops...) }
-func (o Opcodes) XACQUIRE(ops ...Operand) { o.a.op("XACQUIRE", ops...) }
-func (o Opcodes) Xaddb(ops ...Operand) { o.a.op("XADDB", ops...) }
-func (o Opcodes) XADDB(ops ...Operand) { o.a.op("XADDB", ops...) }
-func (o Opcodes) Xaddl(ops ...Operand) { o.a.op("XADDL", ops...) }
-func (o Opcodes) XADDL(ops ...Operand) { o.a.op("XADDL", ops...) }
-func (o Opcodes) Xaddq(ops ...Operand) { o.a.op("XADDQ", ops...) }
-func (o Opcodes) XADDQ(ops ...Operand) { o.a.op("XADDQ", ops...) }
-func (o Opcodes) Xaddw(ops ...Operand) { o.a.op("XADDW", ops...) }
-func (o Opcodes) XADDW(ops ...Operand) { o.a.op("XADDW", ops...) }
-func (o Opcodes) Xbegin(ops ...Operand) { o.a.op("XBEGIN", ops...) }
-func (o Opcodes) XBEGIN(ops ...Operand) { o.a.op("XBEGIN", ops...) }
-func (o Opcodes) Xchgb(ops ...Operand) { o.a.op("XCHGB", ops...) }
-func (o Opcodes) XCHGB(ops ...Operand) { o.a.op("XCHGB", ops...) }
-func (o Opcodes) Xchgl(ops ...Operand) { o.a.op("XCHGL", ops...) }
-func (o Opcodes) XCHGL(ops ...Operand) { o.a.op("XCHGL", ops...) }
-func (o Opcodes) Xchgq(ops ...Operand) { o.a.op("XCHGQ", ops...) }
-func (o Opcodes) XCHGQ(ops ...Operand) { o.a.op("XCHGQ", ops...) }
-func (o Opcodes) Xchgw(ops ...Operand) { o.a.op("XCHGW", ops...) }
-func (o Opcodes) XCHGW(ops ...Operand) { o.a.op("XCHGW", ops...) }
-func (o Opcodes) Xend(ops ...Operand) { o.a.op("XEND", ops...) }
-func (o Opcodes) XEND(ops ...Operand) { o.a.op("XEND", ops...) }
-func (o Opcodes) Xgetbv(ops ...Operand) { o.a.op("XGETBV", ops...) }
-func (o Opcodes) XGETBV(ops ...Operand) { o.a.op("XGETBV", ops...) }
-func (o Opcodes) Xlat(ops ...Operand) { o.a.op("XLAT", ops...) }
-func (o Opcodes) XLAT(ops ...Operand) { o.a.op("XLAT", ops...) }
-func (o Opcodes) Xorb(ops ...Operand) { o.a.op("XORB", ops...) }
-func (o Opcodes) XORB(ops ...Operand) { o.a.op("XORB", ops...) }
-func (o Opcodes) Xorl(ops ...Operand) { o.a.op("XORL", ops...) }
-func (o Opcodes) XORL(ops ...Operand) { o.a.op("XORL", ops...) }
-func (o Opcodes) Xorpd(ops ...Operand) { o.a.op("XORPD", ops...) }
-func (o Opcodes) XORPD(ops ...Operand) { o.a.op("XORPD", ops...) }
-func (o Opcodes) Xorps(ops ...Operand) { o.a.op("XORPS", ops...) }
-func (o Opcodes) XORPS(ops ...Operand) { o.a.op("XORPS", ops...) }
-func (o Opcodes) Xorq(ops ...Operand) { o.a.op("XORQ", ops...) }
-func (o Opcodes) XORQ(ops ...Operand) { o.a.op("XORQ", ops...) }
-func (o Opcodes) Xorw(ops ...Operand) { o.a.op("XORW", ops...) }
-func (o Opcodes) XORW(ops ...Operand) { o.a.op("XORW", ops...) }
-func (o Opcodes) Xrelease(ops ...Operand) { o.a.op("XRELEASE", ops...) }
-func (o Opcodes) XRELEASE(ops ...Operand) { o.a.op("XRELEASE", ops...) }
-func (o Opcodes) Xtest(ops ...Operand) { o.a.op("XTEST", ops...) }
-func (o Opcodes) XTEST(ops ...Operand) { o.a.op("XTEST", ops...) }
-func (o Opcodes) Last(ops ...Operand) { o.a.op("LAST", ops...) }
-func (o Opcodes) LAST(ops ...Operand) { o.a.op("LAST", ops...) }
+func (o Opcodes) Aad(ops ...Operand) { o.a.op("AAD", ops...) }
+func (o Opcodes) AAD(ops ...Operand) { o.a.op("AAD", ops...) }
+func (o Opcodes) Aam(ops ...Operand) { o.a.op("AAM", ops...) }
+func (o Opcodes) AAM(ops ...Operand) { o.a.op("AAM", ops...) }
+func (o Opcodes) Aas(ops ...Operand) { o.a.op("AAS", ops...) }
+func (o Opcodes) AAS(ops ...Operand) { o.a.op("AAS", ops...) }
+func (o Opcodes) Adcb(ops ...Operand) { o.a.op("ADCB", ops...) }
+func (o Opcodes) ADCB(ops ...Operand) { o.a.op("ADCB", ops...) }
+func (o Opcodes) Adcl(ops ...Operand) { o.a.op("ADCL", ops...) }
+func (o Opcodes) ADCL(ops ...Operand) { o.a.op("ADCL", ops...) }
+func (o Opcodes) Adcq(ops ...Operand) { o.a.op("ADCQ", ops...) }
+func (o Opcodes) ADCQ(ops ...Operand) { o.a.op("ADCQ", ops...) }
+func (o Opcodes) Adcw(ops ...Operand) { o.a.op("ADCW", ops...) }
+func (o Opcodes) ADCW(ops ...Operand) { o.a.op("ADCW", ops...) }
+func (o Opcodes) Adcxl(ops ...Operand) { o.a.op("ADCXL", ops...) }
+func (o Opcodes) ADCXL(ops ...Operand) { o.a.op("ADCXL", ops...) }
+func (o Opcodes) Adcxq(ops ...Operand) { o.a.op("ADCXQ", ops...) }
+func (o Opcodes) ADCXQ(ops ...Operand) { o.a.op("ADCXQ", ops...) }
+func (o Opcodes) Addb(ops ...Operand) { o.a.op("ADDB", ops...) }
+func (o Opcodes) ADDB(ops ...Operand) { o.a.op("ADDB", ops...) }
+func (o Opcodes) Addl(ops ...Operand) { o.a.op("ADDL", ops...) }
+func (o Opcodes) ADDL(ops ...Operand) { o.a.op("ADDL", ops...) }
+func (o Opcodes) Addpd(ops ...Operand) { o.a.op("ADDPD", ops...) }
+func (o Opcodes) ADDPD(ops ...Operand) { o.a.op("ADDPD", ops...) }
+func (o Opcodes) Addps(ops ...Operand) { o.a.op("ADDPS", ops...) }
+func (o Opcodes) ADDPS(ops ...Operand) { o.a.op("ADDPS", ops...) }
+func (o Opcodes) Addq(ops ...Operand) { o.a.op("ADDQ", ops...) }
+func (o Opcodes) ADDQ(ops ...Operand) { o.a.op("ADDQ", ops...) }
+func (o Opcodes) Addsd(ops ...Operand) { o.a.op("ADDSD", ops...) }
+func (o Opcodes) ADDSD(ops ...Operand) { o.a.op("ADDSD", ops...) }
+func (o Opcodes) Addss(ops ...Operand) { o.a.op("ADDSS", ops...) }
+func (o Opcodes) ADDSS(ops ...Operand) { o.a.op("ADDSS", ops...) }
+func (o Opcodes) Addsubpd(ops ...Operand) { o.a.op("ADDSUBPD", ops...) }
+func (o Opcodes) ADDSUBPD(ops ...Operand) { o.a.op("ADDSUBPD", ops...) }
+func (o Opcodes) Addsubps(ops ...Operand) { o.a.op("ADDSUBPS", ops...) }
+func (o Opcodes) ADDSUBPS(ops ...Operand) { o.a.op("ADDSUBPS", ops...) }
+func (o Opcodes) Addw(ops ...Operand) { o.a.op("ADDW", ops...) }
+func (o Opcodes) ADDW(ops ...Operand) { o.a.op("ADDW", ops...) }
+func (o Opcodes) Adjsp(ops ...Operand) { o.a.op("ADJSP", ops...) }
+func (o Opcodes) ADJSP(ops ...Operand) { o.a.op("ADJSP", ops...) }
+func (o Opcodes) Adoxl(ops ...Operand) { o.a.op("ADOXL", ops...) }
+func (o Opcodes) ADOXL(ops ...Operand) { o.a.op("ADOXL", ops...) }
+func (o Opcodes) Adoxq(ops ...Operand) { o.a.op("ADOXQ", ops...) }
+func (o Opcodes) ADOXQ(ops ...Operand) { o.a.op("ADOXQ", ops...) }
+func (o Opcodes) Aesdec(ops ...Operand) { o.a.op("AESDEC", ops...) }
+func (o Opcodes) AESDEC(ops ...Operand) { o.a.op("AESDEC", ops...) }
+func (o Opcodes) Aesdeclast(ops ...Operand) { o.a.op("AESDECLAST", ops...) }
+func (o Opcodes) AESDECLAST(ops ...Operand) { o.a.op("AESDECLAST", ops...) }
+func (o Opcodes) Aesenc(ops ...Operand) { o.a.op("AESENC", ops...) }
+func (o Opcodes) AESENC(ops ...Operand) { o.a.op("AESENC", ops...) }
+func (o Opcodes) Aesenclast(ops ...Operand) { o.a.op("AESENCLAST", ops...) }
+func (o Opcodes) AESENCLAST(ops ...Operand) { o.a.op("AESENCLAST", ops...) }
+func (o Opcodes) Aesimc(ops ...Operand) { o.a.op("AESIMC", ops...) }
+func (o Opcodes) AESIMC(ops ...Operand) { o.a.op("AESIMC", ops...) }
+func (o Opcodes) Aeskeygenassist(ops ...Operand) { o.a.op("AESKEYGENASSIST", ops...) }
+func (o Opcodes) AESKEYGENASSIST(ops ...Operand) { o.a.op("AESKEYGENASSIST", ops...) }
+func (o Opcodes) Andb(ops ...Operand) { o.a.op("ANDB", ops...) }
+func (o Opcodes) ANDB(ops ...Operand) { o.a.op("ANDB", ops...) }
+func (o Opcodes) Andl(ops ...Operand) { o.a.op("ANDL", ops...) }
+func (o Opcodes) ANDL(ops ...Operand) { o.a.op("ANDL", ops...) }
+func (o Opcodes) Andnl(ops ...Operand) { o.a.op("ANDNL", ops...) }
+func (o Opcodes) ANDNL(ops ...Operand) { o.a.op("ANDNL", ops...) }
+func (o Opcodes) Andnpd(ops ...Operand) { o.a.op("ANDNPD", ops...) }
+func (o Opcodes) ANDNPD(ops ...Operand) { o.a.op("ANDNPD", ops...) }
+func (o Opcodes) Andnps(ops ...Operand) { o.a.op("ANDNPS", ops...) }
+func (o Opcodes) ANDNPS(ops ...Operand) { o.a.op("ANDNPS", ops...) }
+func (o Opcodes) Andnq(ops ...Operand) { o.a.op("ANDNQ", ops...) }
+func (o Opcodes) ANDNQ(ops ...Operand) { o.a.op("ANDNQ", ops...) }
+func (o Opcodes) Andpd(ops ...Operand) { o.a.op("ANDPD", ops...) }
+func (o Opcodes) ANDPD(ops ...Operand) { o.a.op("ANDPD", ops...) }
+func (o Opcodes) Andps(ops ...Operand) { o.a.op("ANDPS", ops...) }
+func (o Opcodes) ANDPS(ops ...Operand) { o.a.op("ANDPS", ops...) }
+func (o Opcodes) Andq(ops ...Operand) { o.a.op("ANDQ", ops...) }
+func (o Opcodes) ANDQ(ops ...Operand) { o.a.op("ANDQ", ops...) }
+func (o Opcodes) Andw(ops ...Operand) { o.a.op("ANDW", ops...) }
+func (o Opcodes) ANDW(ops ...Operand) { o.a.op("ANDW", ops...) }
+func (o Opcodes) Arpl(ops ...Operand) { o.a.op("ARPL", ops...) }
+func (o Opcodes) ARPL(ops ...Operand) { o.a.op("ARPL", ops...) }
+func (o Opcodes) Bextrl(ops ...Operand) { o.a.op("BEXTRL", ops...) }
+func (o Opcodes) BEXTRL(ops ...Operand) { o.a.op("BEXTRL", ops...) }
+func (o Opcodes) Bextrq(ops ...Operand) { o.a.op("BEXTRQ", ops...) }
+func (o Opcodes) BEXTRQ(ops ...Operand) { o.a.op("BEXTRQ", ops...) }
+func (o Opcodes) Blendpd(ops ...Operand) { o.a.op("BLENDPD", ops...) }
+func (o Opcodes) BLENDPD(ops ...Operand) { o.a.op("BLENDPD", ops...) }
+func (o Opcodes) Blendps(ops ...Operand) { o.a.op("BLENDPS", ops...) }
+func (o Opcodes) BLENDPS(ops ...Operand) { o.a.op("BLENDPS", ops...) }
+func (o Opcodes) Blendvpd(ops ...Operand) { o.a.op("BLENDVPD", ops...) }
+func (o Opcodes) BLENDVPD(ops ...Operand) { o.a.op("BLENDVPD", ops...) }
+func (o Opcodes) Blendvps(ops ...Operand) { o.a.op("BLENDVPS", ops...) }
+func (o Opcodes) BLENDVPS(ops ...Operand) { o.a.op("BLENDVPS", ops...) }
+func (o Opcodes) Blsil(ops ...Operand) { o.a.op("BLSIL", ops...) }
+func (o Opcodes) BLSIL(ops ...Operand) { o.a.op("BLSIL", ops...) }
+func (o Opcodes) Blsiq(ops ...Operand) { o.a.op("BLSIQ", ops...) }
+func (o Opcodes) BLSIQ(ops ...Operand) { o.a.op("BLSIQ", ops...) }
+func (o Opcodes) Blsmskl(ops ...Operand) { o.a.op("BLSMSKL", ops...) }
+func (o Opcodes) BLSMSKL(ops ...Operand) { o.a.op("BLSMSKL", ops...) }
+func (o Opcodes) Blsmskq(ops ...Operand) { o.a.op("BLSMSKQ", ops...) }
+func (o Opcodes) BLSMSKQ(ops ...Operand) { o.a.op("BLSMSKQ", ops...) }
+func (o Opcodes) Blsrl(ops ...Operand) { o.a.op("BLSRL", ops...) }
+func (o Opcodes) BLSRL(ops ...Operand) { o.a.op("BLSRL", ops...) }
+func (o Opcodes) Blsrq(ops ...Operand) { o.a.op("BLSRQ", ops...) }
+func (o Opcodes) BLSRQ(ops ...Operand) { o.a.op("BLSRQ", ops...) }
+func (o Opcodes) Boundl(ops ...Operand) { o.a.op("BOUNDL", ops...) }
+func (o Opcodes) BOUNDL(ops ...Operand) { o.a.op("BOUNDL", ops...) }
+func (o Opcodes) Boundw(ops ...Operand) { o.a.op("BOUNDW", ops...) }
+func (o Opcodes) BOUNDW(ops ...Operand) { o.a.op("BOUNDW", ops...) }
+func (o Opcodes) Bsfl(ops ...Operand) { o.a.op("BSFL", ops...) }
+func (o Opcodes) BSFL(ops ...Operand) { o.a.op("BSFL", ops...) }
+func (o Opcodes) Bsfq(ops ...Operand) { o.a.op("BSFQ", ops...) }
+func (o Opcodes) BSFQ(ops ...Operand) { o.a.op("BSFQ", ops...) }
+func (o Opcodes) Bsfw(ops ...Operand) { o.a.op("BSFW", ops...) }
+func (o Opcodes) BSFW(ops ...Operand) { o.a.op("BSFW", ops...) }
+func (o Opcodes) Bsrl(ops ...Operand) { o.a.op("BSRL", ops...) }
+func (o Opcodes) BSRL(ops ...Operand) { o.a.op("BSRL", ops...) }
+func (o Opcodes) Bsrq(ops ...Operand) { o.a.op("BSRQ", ops...) }
+func (o Opcodes) BSRQ(ops ...Operand) { o.a.op("BSRQ", ops...) }
+func (o Opcodes) Bsrw(ops ...Operand) { o.a.op("BSRW", ops...) }
+func (o Opcodes) BSRW(ops ...Operand) { o.a.op("BSRW", ops...) }
+func (o Opcodes) Bswapl(ops ...Operand) { o.a.op("BSWAPL", ops...) }
+func (o Opcodes) BSWAPL(ops ...Operand) { o.a.op("BSWAPL", ops...) }
+func (o Opcodes) Bswapq(ops ...Operand) { o.a.op("BSWAPQ", ops...) }
+func (o Opcodes) BSWAPQ(ops ...Operand) { o.a.op("BSWAPQ", ops...) }
+func (o Opcodes) Bswapw(ops ...Operand) { o.a.op("BSWAPW", ops...) }
+func (o Opcodes) BSWAPW(ops ...Operand) { o.a.op("BSWAPW", ops...) }
+func (o Opcodes) Btcl(ops ...Operand) { o.a.op("BTCL", ops...) }
+func (o Opcodes) BTCL(ops ...Operand) { o.a.op("BTCL", ops...) }
+func (o Opcodes) Btcq(ops ...Operand) { o.a.op("BTCQ", ops...) }
+func (o Opcodes) BTCQ(ops ...Operand) { o.a.op("BTCQ", ops...) }
+func (o Opcodes) Btcw(ops ...Operand) { o.a.op("BTCW", ops...) }
+func (o Opcodes) BTCW(ops ...Operand) { o.a.op("BTCW", ops...) }
+func (o Opcodes) Btl(ops ...Operand) { o.a.op("BTL", ops...) }
+func (o Opcodes) BTL(ops ...Operand) { o.a.op("BTL", ops...) }
+func (o Opcodes) Btq(ops ...Operand) { o.a.op("BTQ", ops...) }
+func (o Opcodes) BTQ(ops ...Operand) { o.a.op("BTQ", ops...) }
+func (o Opcodes) Btrl(ops ...Operand) { o.a.op("BTRL", ops...) }
+func (o Opcodes) BTRL(ops ...Operand) { o.a.op("BTRL", ops...) }
+func (o Opcodes) Btrq(ops ...Operand) { o.a.op("BTRQ", ops...) }
+func (o Opcodes) BTRQ(ops ...Operand) { o.a.op("BTRQ", ops...) }
+func (o Opcodes) Btrw(ops ...Operand) { o.a.op("BTRW", ops...) }
+func (o Opcodes) BTRW(ops ...Operand) { o.a.op("BTRW", ops...) }
+func (o Opcodes) Btsl(ops ...Operand) { o.a.op("BTSL", ops...) }
+func (o Opcodes) BTSL(ops ...Operand) { o.a.op("BTSL", ops...) }
+func (o Opcodes) Btsq(ops ...Operand) { o.a.op("BTSQ", ops...) }
+func (o Opcodes) BTSQ(ops ...Operand) { o.a.op("BTSQ", ops...) }
+func (o Opcodes) Btsw(ops ...Operand) { o.a.op("BTSW", ops...) }
+func (o Opcodes) BTSW(ops ...Operand) { o.a.op("BTSW", ops...) }
+func (o Opcodes) Btw(ops ...Operand) { o.a.op("BTW", ops...) }
+func (o Opcodes) BTW(ops ...Operand) { o.a.op("BTW", ops...) }
+func (o Opcodes) Byte(ops ...Operand) { o.a.op("BYTE", ops...) }
+func (o Opcodes) BYTE(ops ...Operand) { o.a.op("BYTE", ops...) }
+func (o Opcodes) Bzhil(ops ...Operand) { o.a.op("BZHIL", ops...) }
+func (o Opcodes) BZHIL(ops ...Operand) { o.a.op("BZHIL", ops...) }
+func (o Opcodes) Bzhiq(ops ...Operand) { o.a.op("BZHIQ", ops...) }
+func (o Opcodes) BZHIQ(ops ...Operand) { o.a.op("BZHIQ", ops...) }
+func (o Opcodes) Cbw(ops ...Operand) { o.a.op("CBW", ops...) }
+func (o Opcodes) CBW(ops ...Operand) { o.a.op("CBW", ops...) }
+func (o Opcodes) Cdq(ops ...Operand) { o.a.op("CDQ", ops...) }
+func (o Opcodes) CDQ(ops ...Operand) { o.a.op("CDQ", ops...) }
+func (o Opcodes) Cdqe(ops ...Operand) { o.a.op("CDQE", ops...) }
+func (o Opcodes) CDQE(ops ...Operand) { o.a.op("CDQE", ops...) }
+func (o Opcodes) Clac(ops ...Operand) { o.a.op("CLAC", ops...) }
+func (o Opcodes) CLAC(ops ...Operand) { o.a.op("CLAC", ops...) }
+func (o Opcodes) Clc(ops ...Operand) { o.a.op("CLC", ops...) }
+func (o Opcodes) CLC(ops ...Operand) { o.a.op("CLC", ops...) }
+func (o Opcodes) Cld(ops ...Operand) { o.a.op("CLD", ops...) }
+func (o Opcodes) CLD(ops ...Operand) { o.a.op("CLD", ops...) }
+func (o Opcodes) Clflush(ops ...Operand) { o.a.op("CLFLUSH", ops...) }
+func (o Opcodes) CLFLUSH(ops ...Operand) { o.a.op("CLFLUSH", ops...) }
+func (o Opcodes) Clflushopt(ops ...Operand) { o.a.op("CLFLUSHOPT", ops...) }
+func (o Opcodes) CLFLUSHOPT(ops ...Operand) { o.a.op("CLFLUSHOPT", ops...) }
+func (o Opcodes) Cli(ops ...Operand) { o.a.op("CLI", ops...) }
+func (o Opcodes) CLI(ops ...Operand) { o.a.op("CLI", ops...) }
+func (o Opcodes) Clts(ops ...Operand) { o.a.op("CLTS", ops...) }
+func (o Opcodes) CLTS(ops ...Operand) { o.a.op("CLTS", ops...) }
+func (o Opcodes) Cmc(ops ...Operand) { o.a.op("CMC", ops...) }
+func (o Opcodes) CMC(ops ...Operand) { o.a.op("CMC", ops...) }
+func (o Opcodes) Cmovlcc(ops ...Operand) { o.a.op("CMOVLCC", ops...) }
+func (o Opcodes) CMOVLCC(ops ...Operand) { o.a.op("CMOVLCC", ops...) }
+func (o Opcodes) Cmovlcs(ops ...Operand) { o.a.op("CMOVLCS", ops...) }
+func (o Opcodes) CMOVLCS(ops ...Operand) { o.a.op("CMOVLCS", ops...) }
+func (o Opcodes) Cmovleq(ops ...Operand) { o.a.op("CMOVLEQ", ops...) }
+func (o Opcodes) CMOVLEQ(ops ...Operand) { o.a.op("CMOVLEQ", ops...) }
+func (o Opcodes) Cmovlge(ops ...Operand) { o.a.op("CMOVLGE", ops...) }
+func (o Opcodes) CMOVLGE(ops ...Operand) { o.a.op("CMOVLGE", ops...) }
+func (o Opcodes) Cmovlgt(ops ...Operand) { o.a.op("CMOVLGT", ops...) }
+func (o Opcodes) CMOVLGT(ops ...Operand) { o.a.op("CMOVLGT", ops...) }
+func (o Opcodes) Cmovlhi(ops ...Operand) { o.a.op("CMOVLHI", ops...) }
+func (o Opcodes) CMOVLHI(ops ...Operand) { o.a.op("CMOVLHI", ops...) }
+func (o Opcodes) Cmovlle(ops ...Operand) { o.a.op("CMOVLLE", ops...) }
+func (o Opcodes) CMOVLLE(ops ...Operand) { o.a.op("CMOVLLE", ops...) }
+func (o Opcodes) Cmovlls(ops ...Operand) { o.a.op("CMOVLLS", ops...) }
+func (o Opcodes) CMOVLLS(ops ...Operand) { o.a.op("CMOVLLS", ops...) }
+func (o Opcodes) Cmovllt(ops ...Operand) { o.a.op("CMOVLLT", ops...) }
+func (o Opcodes) CMOVLLT(ops ...Operand) { o.a.op("CMOVLLT", ops...) }
+func (o Opcodes) Cmovlmi(ops ...Operand) { o.a.op("CMOVLMI", ops...) }
+func (o Opcodes) CMOVLMI(ops ...Operand) { o.a.op("CMOVLMI", ops...) }
+func (o Opcodes) Cmovlne(ops ...Operand) { o.a.op("CMOVLNE", ops...) }
+func (o Opcodes) CMOVLNE(ops ...Operand) { o.a.op("CMOVLNE", ops...) }
+func (o Opcodes) Cmovloc(ops ...Operand) { o.a.op("CMOVLOC", ops...) }
+func (o Opcodes) CMOVLOC(ops ...Operand) { o.a.op("CMOVLOC", ops...) }
+func (o Opcodes) Cmovlos(ops ...Operand) { o.a.op("CMOVLOS", ops...) }
+func (o Opcodes) CMOVLOS(ops ...Operand) { o.a.op("CMOVLOS", ops...) }
+func (o Opcodes) Cmovlpc(ops ...Operand) { o.a.op("CMOVLPC", ops...) }
+func (o Opcodes) CMOVLPC(ops ...Operand) { o.a.op("CMOVLPC", ops...) }
+func (o Opcodes) Cmovlpl(ops ...Operand) { o.a.op("CMOVLPL", ops...) }
+func (o Opcodes) CMOVLPL(ops ...Operand) { o.a.op("CMOVLPL", ops...) }
+func (o Opcodes) Cmovlps(ops ...Operand) { o.a.op("CMOVLPS", ops...) }
+func (o Opcodes) CMOVLPS(ops ...Operand) { o.a.op("CMOVLPS", ops...) }
+func (o Opcodes) Cmovqcc(ops ...Operand) { o.a.op("CMOVQCC", ops...) }
+func (o Opcodes) CMOVQCC(ops ...Operand) { o.a.op("CMOVQCC", ops...) }
+func (o Opcodes) Cmovqcs(ops ...Operand) { o.a.op("CMOVQCS", ops...) }
+func (o Opcodes) CMOVQCS(ops ...Operand) { o.a.op("CMOVQCS", ops...) }
+func (o Opcodes) Cmovqeq(ops ...Operand) { o.a.op("CMOVQEQ", ops...) }
+func (o Opcodes) CMOVQEQ(ops ...Operand) { o.a.op("CMOVQEQ", ops...) }
+func (o Opcodes) Cmovqge(ops ...Operand) { o.a.op("CMOVQGE", ops...) }
+func (o Opcodes) CMOVQGE(ops ...Operand) { o.a.op("CMOVQGE", ops...) }
+func (o Opcodes) Cmovqgt(ops ...Operand) { o.a.op("CMOVQGT", ops...) }
+func (o Opcodes) CMOVQGT(ops ...Operand) { o.a.op("CMOVQGT", ops...) }
+func (o Opcodes) Cmovqhi(ops ...Operand) { o.a.op("CMOVQHI", ops...) }
+func (o Opcodes) CMOVQHI(ops ...Operand) { o.a.op("CMOVQHI", ops...) }
+func (o Opcodes) Cmovqle(ops ...Operand) { o.a.op("CMOVQLE", ops...) }
+func (o Opcodes) CMOVQLE(ops ...Operand) { o.a.op("CMOVQLE", ops...) }
+func (o Opcodes) Cmovqls(ops ...Operand) { o.a.op("CMOVQLS", ops...) }
+func (o Opcodes) CMOVQLS(ops ...Operand) { o.a.op("CMOVQLS", ops...) }
+func (o Opcodes) Cmovqlt(ops ...Operand) { o.a.op("CMOVQLT", ops...) }
+func (o Opcodes) CMOVQLT(ops ...Operand) { o.a.op("CMOVQLT", ops...) }
+func (o Opcodes) Cmovqmi(ops ...Operand) { o.a.op("CMOVQMI", ops...) }
+func (o Opcodes) CMOVQMI(ops ...Operand) { o.a.op("CMOVQMI", ops...) }
+func (o Opcodes) Cmovqne(ops ...Operand) { o.a.op("CMOVQNE", ops...) }
+func (o Opcodes) CMOVQNE(ops ...Operand) { o.a.op("CMOVQNE", ops...) }
+func (o Opcodes) Cmovqoc(ops ...Operand) { o.a.op("CMOVQOC", ops...) }
+func (o Opcodes) CMOVQOC(ops ...Operand) { o.a.op("CMOVQOC", ops...) }
+func (o Opcodes) Cmovqos(ops ...Operand) { o.a.op("CMOVQOS", ops...) }
+func (o Opcodes) CMOVQOS(ops ...Operand) { o.a.op("CMOVQOS", ops...) }
+func (o Opcodes) Cmovqpc(ops ...Operand) { o.a.op("CMOVQPC", ops...) }
+func (o Opcodes) CMOVQPC(ops ...Operand) { o.a.op("CMOVQPC", ops...) }
+func (o Opcodes) Cmovqpl(ops ...Operand) { o.a.op("CMOVQPL", ops...) }
+func (o Opcodes) CMOVQPL(ops ...Operand) { o.a.op("CMOVQPL", ops...) }
+func (o Opcodes) Cmovqps(ops ...Operand) { o.a.op("CMOVQPS", ops...) }
+func (o Opcodes) CMOVQPS(ops ...Operand) { o.a.op("CMOVQPS", ops...) }
+func (o Opcodes) Cmovwcc(ops ...Operand) { o.a.op("CMOVWCC", ops...) }
+func (o Opcodes) CMOVWCC(ops ...Operand) { o.a.op("CMOVWCC", ops...) }
+func (o Opcodes) Cmovwcs(ops ...Operand) { o.a.op("CMOVWCS", ops...) }
+func (o Opcodes) CMOVWCS(ops ...Operand) { o.a.op("CMOVWCS", ops...) }
+func (o Opcodes) Cmovweq(ops ...Operand) { o.a.op("CMOVWEQ", ops...) }
+func (o Opcodes) CMOVWEQ(ops ...Operand) { o.a.op("CMOVWEQ", ops...) }
+func (o Opcodes) Cmovwge(ops ...Operand) { o.a.op("CMOVWGE", ops...) }
+func (o Opcodes) CMOVWGE(ops ...Operand) { o.a.op("CMOVWGE", ops...) }
+func (o Opcodes) Cmovwgt(ops ...Operand) { o.a.op("CMOVWGT", ops...) }
+func (o Opcodes) CMOVWGT(ops ...Operand) { o.a.op("CMOVWGT", ops...) }
+func (o Opcodes) Cmovwhi(ops ...Operand) { o.a.op("CMOVWHI", ops...) }
+func (o Opcodes) CMOVWHI(ops ...Operand) { o.a.op("CMOVWHI", ops...) }
+func (o Opcodes) Cmovwle(ops ...Operand) { o.a.op("CMOVWLE", ops...) }
+func (o Opcodes) CMOVWLE(ops ...Operand) { o.a.op("CMOVWLE", ops...) }
+func (o Opcodes) Cmovwls(ops ...Operand) { o.a.op("CMOVWLS", ops...) }
+func (o Opcodes) CMOVWLS(ops ...Operand) { o.a.op("CMOVWLS", ops...) }
+func (o Opcodes) Cmovwlt(ops ...Operand) { o.a.op("CMOVWLT", ops...) }
+func (o Opcodes) CMOVWLT(ops ...Operand) { o.a.op("CMOVWLT", ops...) }
+func (o Opcodes) Cmovwmi(ops ...Operand) { o.a.op("CMOVWMI", ops...) }
+func (o Opcodes) CMOVWMI(ops ...Operand) { o.a.op("CMOVWMI", ops...) }
+func (o Opcodes) Cmovwne(ops ...Operand) { o.a.op("CMOVWNE", ops...) }
+func (o Opcodes) CMOVWNE(ops ...Operand) { o.a.op("CMOVWNE", ops...) }
+func (o Opcodes) Cmovwoc(ops ...Operand) { o.a.op("CMOVWOC", ops...) }
+func (o Opcodes) CMOVWOC(ops ...Operand) { o.a.op("CMOVWOC", ops...) }
+func (o Opcodes) Cmovwos(ops ...Operand) { o.a.op("CMOVWOS", ops...) }
+func (o Opcodes) CMOVWOS(ops ...Operand) { o.a.op("CMOVWOS", ops...) }
+func (o Opcodes) Cmovwpc(ops ...Operand) { o.a.op("CMOVWPC", ops...) }
+func (o Opcodes) CMOVWPC(ops ...Operand) { o.a.op("CMOVWPC", ops...) }
+func (o Opcodes) Cmovwpl(ops ...Operand) { o.a.op("CMOVWPL", ops...) }
+func (o Opcodes) CMOVWPL(ops ...Operand) { o.a.op("CMOVWPL", ops...) }
+func (o Opcodes) Cmovwps(ops ...Operand) { o.a.op("CMOVWPS", ops...) }
+func (o Opcodes) CMOVWPS(ops ...Operand) { o.a.op("CMOVWPS", ops...) }
+func (o Opcodes) Cmpb(ops ...Operand) { o.a.op("CMPB", ops...) }
+func (o Opcodes) CMPB(ops ...Operand) { o.a.op("CMPB", ops...) }
+func (o Opcodes) Cmpl(ops ...Operand) { o.a.op("CMPL", ops...) }
+func (o Opcodes) CMPL(ops ...Operand) { o.a.op("CMPL", ops...) }
+func (o Opcodes) Cmppd(ops ...Operand) { o.a.op("CMPPD", ops...) }
+func (o Opcodes) CMPPD(ops ...Operand) { o.a.op("CMPPD", ops...) }
+func (o Opcodes) Cmpps(ops ...Operand) { o.a.op("CMPPS", ops...) }
+func (o Opcodes) CMPPS(ops ...Operand) { o.a.op("CMPPS", ops...) }
+func (o Opcodes) Cmpq(ops ...Operand) { o.a.op("CMPQ", ops...) }
+func (o Opcodes) CMPQ(ops ...Operand) { o.a.op("CMPQ", ops...) }
+func (o Opcodes) Cmpsb(ops ...Operand) { o.a.op("CMPSB", ops...) }
+func (o Opcodes) CMPSB(ops ...Operand) { o.a.op("CMPSB", ops...) }
+func (o Opcodes) Cmpsd(ops ...Operand) { o.a.op("CMPSD", ops...) }
+func (o Opcodes) CMPSD(ops ...Operand) { o.a.op("CMPSD", ops...) }
+func (o Opcodes) Cmpsl(ops ...Operand) { o.a.op("CMPSL", ops...) }
+func (o Opcodes) CMPSL(ops ...Operand) { o.a.op("CMPSL", ops...) }
+func (o Opcodes) Cmpsq(ops ...Operand) { o.a.op("CMPSQ", ops...) }
+func (o Opcodes) CMPSQ(ops ...Operand) { o.a.op("CMPSQ", ops...) }
+func (o Opcodes) Cmpss(ops ...Operand) { o.a.op("CMPSS", ops...) }
+func (o Opcodes) CMPSS(ops ...Operand) { o.a.op("CMPSS", ops...) }
+func (o Opcodes) Cmpsw(ops ...Operand) { o.a.op("CMPSW", ops...) }
+func (o Opcodes) CMPSW(ops ...Operand) { o.a.op("CMPSW", ops...) }
+func (o Opcodes) Cmpw(ops ...Operand) { o.a.op("CMPW", ops...) }
+func (o Opcodes) CMPW(ops ...Operand) { o.a.op("CMPW", ops...) }
+func (o Opcodes) Cmpxchg16b(ops ...Operand) { o.a.op("CMPXCHG16B", ops...) }
+func (o Opcodes) CMPXCHG16B(ops ...Operand) { o.a.op("CMPXCHG16B", ops...) }
+func (o Opcodes) Cmpxchg8b(ops ...Operand) { o.a.op("CMPXCHG8B", ops...) }
+func (o Opcodes) CMPXCHG8B(ops ...Operand) { o.a.op("CMPXCHG8B", ops...) }
+func (o Opcodes) Cmpxchgb(ops ...Operand) { o.a.op("CMPXCHGB", ops...) }
+func (o Opcodes) CMPXCHGB(ops ...Operand) { o.a.op("CMPXCHGB", ops...) }
+func (o Opcodes) Cmpxchgl(ops ...Operand) { o.a.op("CMPXCHGL", ops...) }
+func (o Opcodes) CMPXCHGL(ops ...Operand) { o.a.op("CMPXCHGL", ops...) }
+func (o Opcodes) Cmpxchgq(ops ...Operand) { o.a.op("CMPXCHGQ", ops...) }
+func (o Opcodes) CMPXCHGQ(ops ...Operand) { o.a.op("CMPXCHGQ", ops...) }
+func (o Opcodes) Cmpxchgw(ops ...Operand) { o.a.op("CMPXCHGW", ops...) }
+func (o Opcodes) CMPXCHGW(ops ...Operand) { o.a.op("CMPXCHGW", ops...) }
+func (o Opcodes) Comisd(ops ...Operand) { o.a.op("COMISD", ops...) }
+func (o Opcodes) COMISD(ops ...Operand) { o.a.op("COMISD", ops...) }
+func (o Opcodes) Comiss(ops ...Operand) { o.a.op("COMISS", ops...) }
+func (o Opcodes) COMISS(ops ...Operand) { o.a.op("COMISS", ops...) }
+func (o Opcodes) Cpuid(ops ...Operand) { o.a.op("CPUID", ops...) }
+func (o Opcodes) CPUID(ops ...Operand) { o.a.op("CPUID", ops...) }
+func (o Opcodes) Cqo(ops ...Operand) { o.a.op("CQO", ops...) }
+func (o Opcodes) CQO(ops ...Operand) { o.a.op("CQO", ops...) }
+func (o Opcodes) Crc32b(ops ...Operand) { o.a.op("CRC32B", ops...) }
+func (o Opcodes) CRC32B(ops ...Operand) { o.a.op("CRC32B", ops...) }
+func (o Opcodes) Crc32l(ops ...Operand) { o.a.op("CRC32L", ops...) }
+func (o Opcodes) CRC32L(ops ...Operand) { o.a.op("CRC32L", ops...) }
+func (o Opcodes) Crc32q(ops ...Operand) { o.a.op("CRC32Q", ops...) }
+func (o Opcodes) CRC32Q(ops ...Operand) { o.a.op("CRC32Q", ops...) }
+func (o Opcodes) Crc32w(ops ...Operand) { o.a.op("CRC32W", ops...) }
+func (o Opcodes) CRC32W(ops ...Operand) { o.a.op("CRC32W", ops...) }
+func (o Opcodes) Cvtpd2pl(ops ...Operand) { o.a.op("CVTPD2PL", ops...) }
+func (o Opcodes) CVTPD2PL(ops ...Operand) { o.a.op("CVTPD2PL", ops...) }
+func (o Opcodes) Cvtpd2ps(ops ...Operand) { o.a.op("CVTPD2PS", ops...) }
+func (o Opcodes) CVTPD2PS(ops ...Operand) { o.a.op("CVTPD2PS", ops...) }
+func (o Opcodes) Cvtpl2pd(ops ...Operand) { o.a.op("CVTPL2PD", ops...) }
+func (o Opcodes) CVTPL2PD(ops ...Operand) { o.a.op("CVTPL2PD", ops...) }
+func (o Opcodes) Cvtpl2ps(ops ...Operand) { o.a.op("CVTPL2PS", ops...) }
+func (o Opcodes) CVTPL2PS(ops ...Operand) { o.a.op("CVTPL2PS", ops...) }
+func (o Opcodes) Cvtps2pd(ops ...Operand) { o.a.op("CVTPS2PD", ops...) }
+func (o Opcodes) CVTPS2PD(ops ...Operand) { o.a.op("CVTPS2PD", ops...) }
+func (o Opcodes) Cvtps2pl(ops ...Operand) { o.a.op("CVTPS2PL", ops...) }
+func (o Opcodes) CVTPS2PL(ops ...Operand) { o.a.op("CVTPS2PL", ops...) }
+func (o Opcodes) Cvtsd2sl(ops ...Operand) { o.a.op("CVTSD2SL", ops...) }
+func (o Opcodes) CVTSD2SL(ops ...Operand) { o.a.op("CVTSD2SL", ops...) }
+func (o Opcodes) Cvtsd2sq(ops ...Operand) { o.a.op("CVTSD2SQ", ops...) }
+func (o Opcodes) CVTSD2SQ(ops ...Operand) { o.a.op("CVTSD2SQ", ops...) }
+func (o Opcodes) Cvtsd2ss(ops ...Operand) { o.a.op("CVTSD2SS", ops...) }
+func (o Opcodes) CVTSD2SS(ops ...Operand) { o.a.op("CVTSD2SS", ops...) }
+func (o Opcodes) Cvtsl2sd(ops ...Operand) { o.a.op("CVTSL2SD", ops...) }
+func (o Opcodes) CVTSL2SD(ops ...Operand) { o.a.op("CVTSL2SD", ops...) }
+func (o Opcodes) Cvtsl2ss(ops ...Operand) { o.a.op("CVTSL2SS", ops...) }
+func (o Opcodes) CVTSL2SS(ops ...Operand) { o.a.op("CVTSL2SS", ops...) }
+func (o Opcodes) Cvtsq2sd(ops ...Operand) { o.a.op("CVTSQ2SD", ops...) }
+func (o Opcodes) CVTSQ2SD(ops ...Operand) { o.a.op("CVTSQ2SD", ops...) }
+func (o Opcodes) Cvtsq2ss(ops ...Operand) { o.a.op("CVTSQ2SS", ops...) }
+func (o Opcodes) CVTSQ2SS(ops ...Operand) { o.a.op("CVTSQ2SS", ops...) }
+func (o Opcodes) Cvtss2sd(ops ...Operand) { o.a.op("CVTSS2SD", ops...) }
+func (o Opcodes) CVTSS2SD(ops ...Operand) { o.a.op("CVTSS2SD", ops...) }
+func (o Opcodes) Cvtss2sl(ops ...Operand) { o.a.op("CVTSS2SL", ops...) }
+func (o Opcodes) CVTSS2SL(ops ...Operand) { o.a.op("CVTSS2SL", ops...) }
+func (o Opcodes) Cvtss2sq(ops ...Operand) { o.a.op("CVTSS2SQ", ops...) }
+func (o Opcodes) CVTSS2SQ(ops ...Operand) { o.a.op("CVTSS2SQ", ops...) }
+func (o Opcodes) Cvttpd2pl(ops ...Operand) { o.a.op("CVTTPD2PL", ops...) }
+func (o Opcodes) CVTTPD2PL(ops ...Operand) { o.a.op("CVTTPD2PL", ops...) }
+func (o Opcodes) Cvttps2pl(ops ...Operand) { o.a.op("CVTTPS2PL", ops...) }
+func (o Opcodes) CVTTPS2PL(ops ...Operand) { o.a.op("CVTTPS2PL", ops...) }
+func (o Opcodes) Cvttsd2sl(ops ...Operand) { o.a.op("CVTTSD2SL", ops...) }
+func (o Opcodes) CVTTSD2SL(ops ...Operand) { o.a.op("CVTTSD2SL", ops...) }
+func (o Opcodes) Cvttsd2sq(ops ...Operand) { o.a.op("CVTTSD2SQ", ops...) }
+func (o Opcodes) CVTTSD2SQ(ops ...Operand) { o.a.op("CVTTSD2SQ", ops...) }
+func (o Opcodes) Cvttss2sl(ops ...Operand) { o.a.op("CVTTSS2SL", ops...) }
+func (o Opcodes) CVTTSS2SL(ops ...Operand) { o.a.op("CVTTSS2SL", ops...) }
+func (o Opcodes) Cvttss2sq(ops ...Operand) { o.a.op("CVTTSS2SQ", ops...) }
+func (o Opcodes) CVTTSS2SQ(ops ...Operand) { o.a.op("CVTTSS2SQ", ops...) }
+func (o Opcodes) Cwd(ops ...Operand) { o.a.op("CWD", ops...) }
+func (o Opcodes) CWD(ops ...Operand) { o.a.op("CWD", ops...) }
+func (o Opcodes) Cwde(ops ...Operand) { o.a.op("CWDE", ops...) }
+func (o Opcodes) CWDE(ops ...Operand) { o.a.op("CWDE", ops...) }
+func (o Opcodes) Daa(ops ...Operand) { o.a.op("DAA", ops...) }
+func (o Opcodes) DAA(ops ...Operand) { o.a.op("DAA", ops...) }
+func (o Opcodes) Das(ops ...Operand) { o.a.op("DAS", ops...) }
+func (o Opcodes) DAS(ops ...Operand) { o.a.op("DAS", ops...) }
+func (o Opcodes) Decb(ops ...Operand) { o.a.op("DECB", ops...) }
+func (o Opcodes) DECB(ops ...Operand) { o.a.op("DECB", ops...) }
+func (o Opcodes) Decl(ops ...Operand) { o.a.op("DECL", ops...) }
+func (o Opcodes) DECL(ops ...Operand) { o.a.op("DECL", ops...) }
+func (o Opcodes) Decq(ops ...Operand) { o.a.op("DECQ", ops...) }
+func (o Opcodes) DECQ(ops ...Operand) { o.a.op("DECQ", ops...) }
+func (o Opcodes) Decw(ops ...Operand) { o.a.op("DECW", ops...) }
+func (o Opcodes) DECW(ops ...Operand) { o.a.op("DECW", ops...) }
+func (o Opcodes) Divb(ops ...Operand) { o.a.op("DIVB", ops...) }
+func (o Opcodes) DIVB(ops ...Operand) { o.a.op("DIVB", ops...) }
+func (o Opcodes) Divl(ops ...Operand) { o.a.op("DIVL", ops...) }
+func (o Opcodes) DIVL(ops ...Operand) { o.a.op("DIVL", ops...) }
+func (o Opcodes) Divpd(ops ...Operand) { o.a.op("DIVPD", ops...) }
+func (o Opcodes) DIVPD(ops ...Operand) { o.a.op("DIVPD", ops...) }
+func (o Opcodes) Divps(ops ...Operand) { o.a.op("DIVPS", ops...) }
+func (o Opcodes) DIVPS(ops ...Operand) { o.a.op("DIVPS", ops...) }
+func (o Opcodes) Divq(ops ...Operand) { o.a.op("DIVQ", ops...) }
+func (o Opcodes) DIVQ(ops ...Operand) { o.a.op("DIVQ", ops...) }
+func (o Opcodes) Divsd(ops ...Operand) { o.a.op("DIVSD", ops...) }
+func (o Opcodes) DIVSD(ops ...Operand) { o.a.op("DIVSD", ops...) }
+func (o Opcodes) Divss(ops ...Operand) { o.a.op("DIVSS", ops...) }
+func (o Opcodes) DIVSS(ops ...Operand) { o.a.op("DIVSS", ops...) }
+func (o Opcodes) Divw(ops ...Operand) { o.a.op("DIVW", ops...) }
+func (o Opcodes) DIVW(ops ...Operand) { o.a.op("DIVW", ops...) }
+func (o Opcodes) Dppd(ops ...Operand) { o.a.op("DPPD", ops...) }
+func (o Opcodes) DPPD(ops ...Operand) { o.a.op("DPPD", ops...) }
+func (o Opcodes) Dpps(ops ...Operand) { o.a.op("DPPS", ops...) }
+func (o Opcodes) DPPS(ops ...Operand) { o.a.op("DPPS", ops...) }
+func (o Opcodes) Emms(ops ...Operand) { o.a.op("EMMS", ops...) }
+func (o Opcodes) EMMS(ops ...Operand) { o.a.op("EMMS", ops...) }
+func (o Opcodes) Enter(ops ...Operand) { o.a.op("ENTER", ops...) }
+func (o Opcodes) ENTER(ops ...Operand) { o.a.op("ENTER", ops...) }
+func (o Opcodes) Extractps(ops ...Operand) { o.a.op("EXTRACTPS", ops...) }
+func (o Opcodes) EXTRACTPS(ops ...Operand) { o.a.op("EXTRACTPS", ops...) }
+func (o Opcodes) F2xm1(ops ...Operand) { o.a.op("F2XM1", ops...) }
+func (o Opcodes) F2XM1(ops ...Operand) { o.a.op("F2XM1", ops...) }
+func (o Opcodes) Fabs(ops ...Operand) { o.a.op("FABS", ops...) }
+func (o Opcodes) FABS(ops ...Operand) { o.a.op("FABS", ops...) }
+func (o Opcodes) Faddd(ops ...Operand) { o.a.op("FADDD", ops...) }
+func (o Opcodes) FADDD(ops ...Operand) { o.a.op("FADDD", ops...) }
+func (o Opcodes) Fadddp(ops ...Operand) { o.a.op("FADDDP", ops...) }
+func (o Opcodes) FADDDP(ops ...Operand) { o.a.op("FADDDP", ops...) }
+func (o Opcodes) Faddf(ops ...Operand) { o.a.op("FADDF", ops...) }
+func (o Opcodes) FADDF(ops ...Operand) { o.a.op("FADDF", ops...) }
+func (o Opcodes) Faddl(ops ...Operand) { o.a.op("FADDL", ops...) }
+func (o Opcodes) FADDL(ops ...Operand) { o.a.op("FADDL", ops...) }
+func (o Opcodes) Faddw(ops ...Operand) { o.a.op("FADDW", ops...) }
+func (o Opcodes) FADDW(ops ...Operand) { o.a.op("FADDW", ops...) }
+func (o Opcodes) Fbld(ops ...Operand) { o.a.op("FBLD", ops...) }
+func (o Opcodes) FBLD(ops ...Operand) { o.a.op("FBLD", ops...) }
+func (o Opcodes) Fbstp(ops ...Operand) { o.a.op("FBSTP", ops...) }
+func (o Opcodes) FBSTP(ops ...Operand) { o.a.op("FBSTP", ops...) }
+func (o Opcodes) Fchs(ops ...Operand) { o.a.op("FCHS", ops...) }
+func (o Opcodes) FCHS(ops ...Operand) { o.a.op("FCHS", ops...) }
+func (o Opcodes) Fclex(ops ...Operand) { o.a.op("FCLEX", ops...) }
+func (o Opcodes) FCLEX(ops ...Operand) { o.a.op("FCLEX", ops...) }
+func (o Opcodes) Fcmovb(ops ...Operand) { o.a.op("FCMOVB", ops...) }
+func (o Opcodes) FCMOVB(ops ...Operand) { o.a.op("FCMOVB", ops...) }
+func (o Opcodes) Fcmovbe(ops ...Operand) { o.a.op("FCMOVBE", ops...) }
+func (o Opcodes) FCMOVBE(ops ...Operand) { o.a.op("FCMOVBE", ops...) }
+func (o Opcodes) Fcmovcc(ops ...Operand) { o.a.op("FCMOVCC", ops...) }
+func (o Opcodes) FCMOVCC(ops ...Operand) { o.a.op("FCMOVCC", ops...) }
+func (o Opcodes) Fcmovcs(ops ...Operand) { o.a.op("FCMOVCS", ops...) }
+func (o Opcodes) FCMOVCS(ops ...Operand) { o.a.op("FCMOVCS", ops...) }
+func (o Opcodes) Fcmove(ops ...Operand) { o.a.op("FCMOVE", ops...) }
+func (o Opcodes) FCMOVE(ops ...Operand) { o.a.op("FCMOVE", ops...) }
+func (o Opcodes) Fcmoveq(ops ...Operand) { o.a.op("FCMOVEQ", ops...) }
+func (o Opcodes) FCMOVEQ(ops ...Operand) { o.a.op("FCMOVEQ", ops...) }
+func (o Opcodes) Fcmovhi(ops ...Operand) { o.a.op("FCMOVHI", ops...) }
+func (o Opcodes) FCMOVHI(ops ...Operand) { o.a.op("FCMOVHI", ops...) }
+func (o Opcodes) Fcmovls(ops ...Operand) { o.a.op("FCMOVLS", ops...) }
+func (o Opcodes) FCMOVLS(ops ...Operand) { o.a.op("FCMOVLS", ops...) }
+func (o Opcodes) Fcmovnb(ops ...Operand) { o.a.op("FCMOVNB", ops...) }
+func (o Opcodes) FCMOVNB(ops ...Operand) { o.a.op("FCMOVNB", ops...) }
+func (o Opcodes) Fcmovnbe(ops ...Operand) { o.a.op("FCMOVNBE", ops...) }
+func (o Opcodes) FCMOVNBE(ops ...Operand) { o.a.op("FCMOVNBE", ops...) }
+func (o Opcodes) Fcmovne(ops ...Operand) { o.a.op("FCMOVNE", ops...) }
+func (o Opcodes) FCMOVNE(ops ...Operand) { o.a.op("FCMOVNE", ops...) }
+func (o Opcodes) Fcmovnu(ops ...Operand) { o.a.op("FCMOVNU", ops...) }
+func (o Opcodes) FCMOVNU(ops ...Operand) { o.a.op("FCMOVNU", ops...) }
+func (o Opcodes) Fcmovu(ops ...Operand) { o.a.op("FCMOVU", ops...) }
+func (o Opcodes) FCMOVU(ops ...Operand) { o.a.op("FCMOVU", ops...) }
+func (o Opcodes) Fcmovun(ops ...Operand) { o.a.op("FCMOVUN", ops...) }
+func (o Opcodes) FCMOVUN(ops ...Operand) { o.a.op("FCMOVUN", ops...) }
+func (o Opcodes) Fcomd(ops ...Operand) { o.a.op("FCOMD", ops...) }
+func (o Opcodes) FCOMD(ops ...Operand) { o.a.op("FCOMD", ops...) }
+func (o Opcodes) Fcomdp(ops ...Operand) { o.a.op("FCOMDP", ops...) }
+func (o Opcodes) FCOMDP(ops ...Operand) { o.a.op("FCOMDP", ops...) }
+func (o Opcodes) Fcomdpp(ops ...Operand) { o.a.op("FCOMDPP", ops...) }
+func (o Opcodes) FCOMDPP(ops ...Operand) { o.a.op("FCOMDPP", ops...) }
+func (o Opcodes) Fcomf(ops ...Operand) { o.a.op("FCOMF", ops...) }
+func (o Opcodes) FCOMF(ops ...Operand) { o.a.op("FCOMF", ops...) }
+func (o Opcodes) Fcomfp(ops ...Operand) { o.a.op("FCOMFP", ops...) }
+func (o Opcodes) FCOMFP(ops ...Operand) { o.a.op("FCOMFP", ops...) }
+func (o Opcodes) Fcomi(ops ...Operand) { o.a.op("FCOMI", ops...) }
+func (o Opcodes) FCOMI(ops ...Operand) { o.a.op("FCOMI", ops...) }
+func (o Opcodes) Fcomip(ops ...Operand) { o.a.op("FCOMIP", ops...) }
+func (o Opcodes) FCOMIP(ops ...Operand) { o.a.op("FCOMIP", ops...) }
+func (o Opcodes) Fcoml(ops ...Operand) { o.a.op("FCOML", ops...) }
+func (o Opcodes) FCOML(ops ...Operand) { o.a.op("FCOML", ops...) }
+func (o Opcodes) Fcomlp(ops ...Operand) { o.a.op("FCOMLP", ops...) }
+func (o Opcodes) FCOMLP(ops ...Operand) { o.a.op("FCOMLP", ops...) }
+func (o Opcodes) Fcomw(ops ...Operand) { o.a.op("FCOMW", ops...) }
+func (o Opcodes) FCOMW(ops ...Operand) { o.a.op("FCOMW", ops...) }
+func (o Opcodes) Fcomwp(ops ...Operand) { o.a.op("FCOMWP", ops...) }
+func (o Opcodes) FCOMWP(ops ...Operand) { o.a.op("FCOMWP", ops...) }
+func (o Opcodes) Fcos(ops ...Operand) { o.a.op("FCOS", ops...) }
+func (o Opcodes) FCOS(ops ...Operand) { o.a.op("FCOS", ops...) }
+func (o Opcodes) Fdecstp(ops ...Operand) { o.a.op("FDECSTP", ops...) }
+func (o Opcodes) FDECSTP(ops ...Operand) { o.a.op("FDECSTP", ops...) }
+func (o Opcodes) Fdivd(ops ...Operand) { o.a.op("FDIVD", ops...) }
+func (o Opcodes) FDIVD(ops ...Operand) { o.a.op("FDIVD", ops...) }
+func (o Opcodes) Fdivdp(ops ...Operand) { o.a.op("FDIVDP", ops...) }
+func (o Opcodes) FDIVDP(ops ...Operand) { o.a.op("FDIVDP", ops...) }
+func (o Opcodes) Fdivf(ops ...Operand) { o.a.op("FDIVF", ops...) }
+func (o Opcodes) FDIVF(ops ...Operand) { o.a.op("FDIVF", ops...) }
+func (o Opcodes) Fdivl(ops ...Operand) { o.a.op("FDIVL", ops...) }
+func (o Opcodes) FDIVL(ops ...Operand) { o.a.op("FDIVL", ops...) }
+func (o Opcodes) Fdivrd(ops ...Operand) { o.a.op("FDIVRD", ops...) }
+func (o Opcodes) FDIVRD(ops ...Operand) { o.a.op("FDIVRD", ops...) }
+func (o Opcodes) Fdivrdp(ops ...Operand) { o.a.op("FDIVRDP", ops...) }
+func (o Opcodes) FDIVRDP(ops ...Operand) { o.a.op("FDIVRDP", ops...) }
+func (o Opcodes) Fdivrf(ops ...Operand) { o.a.op("FDIVRF", ops...) }
+func (o Opcodes) FDIVRF(ops ...Operand) { o.a.op("FDIVRF", ops...) }
+func (o Opcodes) Fdivrl(ops ...Operand) { o.a.op("FDIVRL", ops...) }
+func (o Opcodes) FDIVRL(ops ...Operand) { o.a.op("FDIVRL", ops...) }
+func (o Opcodes) Fdivrw(ops ...Operand) { o.a.op("FDIVRW", ops...) }
+func (o Opcodes) FDIVRW(ops ...Operand) { o.a.op("FDIVRW", ops...) }
+func (o Opcodes) Fdivw(ops ...Operand) { o.a.op("FDIVW", ops...) }
+func (o Opcodes) FDIVW(ops ...Operand) { o.a.op("FDIVW", ops...) }
+func (o Opcodes) Ffree(ops ...Operand) { o.a.op("FFREE", ops...) }
+func (o Opcodes) FFREE(ops ...Operand) { o.a.op("FFREE", ops...) }
+func (o Opcodes) Fincstp(ops ...Operand) { o.a.op("FINCSTP", ops...) }
+func (o Opcodes) FINCSTP(ops ...Operand) { o.a.op("FINCSTP", ops...) }
+func (o Opcodes) Finit(ops ...Operand) { o.a.op("FINIT", ops...) }
+func (o Opcodes) FINIT(ops ...Operand) { o.a.op("FINIT", ops...) }
+func (o Opcodes) Fld1(ops ...Operand) { o.a.op("FLD1", ops...) }
+func (o Opcodes) FLD1(ops ...Operand) { o.a.op("FLD1", ops...) }
+func (o Opcodes) Fldcw(ops ...Operand) { o.a.op("FLDCW", ops...) }
+func (o Opcodes) FLDCW(ops ...Operand) { o.a.op("FLDCW", ops...) }
+func (o Opcodes) Fldenv(ops ...Operand) { o.a.op("FLDENV", ops...) }
+func (o Opcodes) FLDENV(ops ...Operand) { o.a.op("FLDENV", ops...) }
+func (o Opcodes) Fldl2e(ops ...Operand) { o.a.op("FLDL2E", ops...) }
+func (o Opcodes) FLDL2E(ops ...Operand) { o.a.op("FLDL2E", ops...) }
+func (o Opcodes) Fldl2t(ops ...Operand) { o.a.op("FLDL2T", ops...) }
+func (o Opcodes) FLDL2T(ops ...Operand) { o.a.op("FLDL2T", ops...) }
+func (o Opcodes) Fldlg2(ops ...Operand) { o.a.op("FLDLG2", ops...) }
+func (o Opcodes) FLDLG2(ops ...Operand) { o.a.op("FLDLG2", ops...) }
+func (o Opcodes) Fldln2(ops ...Operand) { o.a.op("FLDLN2", ops...) }
+func (o Opcodes) FLDLN2(ops ...Operand) { o.a.op("FLDLN2", ops...) }
+func (o Opcodes) Fldpi(ops ...Operand) { o.a.op("FLDPI", ops...) }
+func (o Opcodes) FLDPI(ops ...Operand) { o.a.op("FLDPI", ops...) }
+func (o Opcodes) Fldz(ops ...Operand) { o.a.op("FLDZ", ops...) }
+func (o Opcodes) FLDZ(ops ...Operand) { o.a.op("FLDZ", ops...) }
+func (o Opcodes) Fmovb(ops ...Operand) { o.a.op("FMOVB", ops...) }
+func (o Opcodes) FMOVB(ops ...Operand) { o.a.op("FMOVB", ops...) }
+func (o Opcodes) Fmovbp(ops ...Operand) { o.a.op("FMOVBP", ops...) }
+func (o Opcodes) FMOVBP(ops ...Operand) { o.a.op("FMOVBP", ops...) }
+func (o Opcodes) Fmovd(ops ...Operand) { o.a.op("FMOVD", ops...) }
+func (o Opcodes) FMOVD(ops ...Operand) { o.a.op("FMOVD", ops...) }
+func (o Opcodes) Fmovdp(ops ...Operand) { o.a.op("FMOVDP", ops...) }
+func (o Opcodes) FMOVDP(ops ...Operand) { o.a.op("FMOVDP", ops...) }
+func (o Opcodes) Fmovf(ops ...Operand) { o.a.op("FMOVF", ops...) }
+func (o Opcodes) FMOVF(ops ...Operand) { o.a.op("FMOVF", ops...) }
+func (o Opcodes) Fmovfp(ops ...Operand) { o.a.op("FMOVFP", ops...) }
+func (o Opcodes) FMOVFP(ops ...Operand) { o.a.op("FMOVFP", ops...) }
+func (o Opcodes) Fmovl(ops ...Operand) { o.a.op("FMOVL", ops...) }
+func (o Opcodes) FMOVL(ops ...Operand) { o.a.op("FMOVL", ops...) }
+func (o Opcodes) Fmovlp(ops ...Operand) { o.a.op("FMOVLP", ops...) }
+func (o Opcodes) FMOVLP(ops ...Operand) { o.a.op("FMOVLP", ops...) }
+func (o Opcodes) Fmovv(ops ...Operand) { o.a.op("FMOVV", ops...) }
+func (o Opcodes) FMOVV(ops ...Operand) { o.a.op("FMOVV", ops...) }
+func (o Opcodes) Fmovvp(ops ...Operand) { o.a.op("FMOVVP", ops...) }
+func (o Opcodes) FMOVVP(ops ...Operand) { o.a.op("FMOVVP", ops...) }
+func (o Opcodes) Fmovw(ops ...Operand) { o.a.op("FMOVW", ops...) }
+func (o Opcodes) FMOVW(ops ...Operand) { o.a.op("FMOVW", ops...) }
+func (o Opcodes) Fmovwp(ops ...Operand) { o.a.op("FMOVWP", ops...) }
+func (o Opcodes) FMOVWP(ops ...Operand) { o.a.op("FMOVWP", ops...) }
+func (o Opcodes) Fmovx(ops ...Operand) { o.a.op("FMOVX", ops...) }
+func (o Opcodes) FMOVX(ops ...Operand) { o.a.op("FMOVX", ops...) }
+func (o Opcodes) Fmovxp(ops ...Operand) { o.a.op("FMOVXP", ops...) }
+func (o Opcodes) FMOVXP(ops ...Operand) { o.a.op("FMOVXP", ops...) }
+func (o Opcodes) Fmuld(ops ...Operand) { o.a.op("FMULD", ops...) }
+func (o Opcodes) FMULD(ops ...Operand) { o.a.op("FMULD", ops...) }
+func (o Opcodes) Fmuldp(ops ...Operand) { o.a.op("FMULDP", ops...) }
+func (o Opcodes) FMULDP(ops ...Operand) { o.a.op("FMULDP", ops...) }
+func (o Opcodes) Fmulf(ops ...Operand) { o.a.op("FMULF", ops...) }
+func (o Opcodes) FMULF(ops ...Operand) { o.a.op("FMULF", ops...) }
+func (o Opcodes) Fmull(ops ...Operand) { o.a.op("FMULL", ops...) }
+func (o Opcodes) FMULL(ops ...Operand) { o.a.op("FMULL", ops...) }
+func (o Opcodes) Fmulw(ops ...Operand) { o.a.op("FMULW", ops...) }
+func (o Opcodes) FMULW(ops ...Operand) { o.a.op("FMULW", ops...) }
+func (o Opcodes) Fnop(ops ...Operand) { o.a.op("FNOP", ops...) }
+func (o Opcodes) FNOP(ops ...Operand) { o.a.op("FNOP", ops...) }
+func (o Opcodes) Fpatan(ops ...Operand) { o.a.op("FPATAN", ops...) }
+func (o Opcodes) FPATAN(ops ...Operand) { o.a.op("FPATAN", ops...) }
+func (o Opcodes) Fprem(ops ...Operand) { o.a.op("FPREM", ops...) }
+func (o Opcodes) FPREM(ops ...Operand) { o.a.op("FPREM", ops...) }
+func (o Opcodes) Fprem1(ops ...Operand) { o.a.op("FPREM1", ops...) }
+func (o Opcodes) FPREM1(ops ...Operand) { o.a.op("FPREM1", ops...) }
+func (o Opcodes) Fptan(ops ...Operand) { o.a.op("FPTAN", ops...) }
+func (o Opcodes) FPTAN(ops ...Operand) { o.a.op("FPTAN", ops...) }
+func (o Opcodes) Frndint(ops ...Operand) { o.a.op("FRNDINT", ops...) }
+func (o Opcodes) FRNDINT(ops ...Operand) { o.a.op("FRNDINT", ops...) }
+func (o Opcodes) Frstor(ops ...Operand) { o.a.op("FRSTOR", ops...) }
+func (o Opcodes) FRSTOR(ops ...Operand) { o.a.op("FRSTOR", ops...) }
+func (o Opcodes) Fsave(ops ...Operand) { o.a.op("FSAVE", ops...) }
+func (o Opcodes) FSAVE(ops ...Operand) { o.a.op("FSAVE", ops...) }
+func (o Opcodes) Fscale(ops ...Operand) { o.a.op("FSCALE", ops...) }
+func (o Opcodes) FSCALE(ops ...Operand) { o.a.op("FSCALE", ops...) }
+func (o Opcodes) Fsin(ops ...Operand) { o.a.op("FSIN", ops...) }
+func (o Opcodes) FSIN(ops ...Operand) { o.a.op("FSIN", ops...) }
+func (o Opcodes) Fsincos(ops ...Operand) { o.a.op("FSINCOS", ops...) }
+func (o Opcodes) FSINCOS(ops ...Operand) { o.a.op("FSINCOS", ops...) }
+func (o Opcodes) Fsqrt(ops ...Operand) { o.a.op("FSQRT", ops...) }
+func (o Opcodes) FSQRT(ops ...Operand) { o.a.op("FSQRT", ops...) }
+func (o Opcodes) Fstcw(ops ...Operand) { o.a.op("FSTCW", ops...) }
+func (o Opcodes) FSTCW(ops ...Operand) { o.a.op("FSTCW", ops...) }
+func (o Opcodes) Fstenv(ops ...Operand) { o.a.op("FSTENV", ops...) }
+func (o Opcodes) FSTENV(ops ...Operand) { o.a.op("FSTENV", ops...) }
+func (o Opcodes) Fstsw(ops ...Operand) { o.a.op("FSTSW", ops...) }
+func (o Opcodes) FSTSW(ops ...Operand) { o.a.op("FSTSW", ops...) }
+func (o Opcodes) Fsubd(ops ...Operand) { o.a.op("FSUBD", ops...) }
+func (o Opcodes) FSUBD(ops ...Operand) { o.a.op("FSUBD", ops...) }
+func (o Opcodes) Fsubdp(ops ...Operand) { o.a.op("FSUBDP", ops...) }
+func (o Opcodes) FSUBDP(ops ...Operand) { o.a.op("FSUBDP", ops...) }
+func (o Opcodes) Fsubf(ops ...Operand) { o.a.op("FSUBF", ops...) }
+func (o Opcodes) FSUBF(ops ...Operand) { o.a.op("FSUBF", ops...) }
+func (o Opcodes) Fsubl(ops ...Operand) { o.a.op("FSUBL", ops...) }
+func (o Opcodes) FSUBL(ops ...Operand) { o.a.op("FSUBL", ops...) }
+func (o Opcodes) Fsubrd(ops ...Operand) { o.a.op("FSUBRD", ops...) }
+func (o Opcodes) FSUBRD(ops ...Operand) { o.a.op("FSUBRD", ops...) }
+func (o Opcodes) Fsubrdp(ops ...Operand) { o.a.op("FSUBRDP", ops...) }
+func (o Opcodes) FSUBRDP(ops ...Operand) { o.a.op("FSUBRDP", ops...) }
+func (o Opcodes) Fsubrf(ops ...Operand) { o.a.op("FSUBRF", ops...) }
+func (o Opcodes) FSUBRF(ops ...Operand) { o.a.op("FSUBRF", ops...) }
+func (o Opcodes) Fsubrl(ops ...Operand) { o.a.op("FSUBRL", ops...) }
+func (o Opcodes) FSUBRL(ops ...Operand) { o.a.op("FSUBRL", ops...) }
+func (o Opcodes) Fsubrw(ops ...Operand) { o.a.op("FSUBRW", ops...) }
+func (o Opcodes) FSUBRW(ops ...Operand) { o.a.op("FSUBRW", ops...) }
+func (o Opcodes) Fsubw(ops ...Operand) { o.a.op("FSUBW", ops...) }
+func (o Opcodes) FSUBW(ops ...Operand) { o.a.op("FSUBW", ops...) }
+func (o Opcodes) Ftst(ops ...Operand) { o.a.op("FTST", ops...) }
+func (o Opcodes) FTST(ops ...Operand) { o.a.op("FTST", ops...) }
+func (o Opcodes) Fucom(ops ...Operand) { o.a.op("FUCOM", ops...) }
+func (o Opcodes) FUCOM(ops ...Operand) { o.a.op("FUCOM", ops...) }
+func (o Opcodes) Fucomi(ops ...Operand) { o.a.op("FUCOMI", ops...) }
+func (o Opcodes) FUCOMI(ops ...Operand) { o.a.op("FUCOMI", ops...) }
+func (o Opcodes) Fucomip(ops ...Operand) { o.a.op("FUCOMIP", ops...) }
+func (o Opcodes) FUCOMIP(ops ...Operand) { o.a.op("FUCOMIP", ops...) }
+func (o Opcodes) Fucomp(ops ...Operand) { o.a.op("FUCOMP", ops...) }
+func (o Opcodes) FUCOMP(ops ...Operand) { o.a.op("FUCOMP", ops...) }
+func (o Opcodes) Fucompp(ops ...Operand) { o.a.op("FUCOMPP", ops...) }
+func (o Opcodes) FUCOMPP(ops ...Operand) { o.a.op("FUCOMPP", ops...) }
+func (o Opcodes) Fxam(ops ...Operand) { o.a.op("FXAM", ops...) }
+func (o Opcodes) FXAM(ops ...Operand) { o.a.op("FXAM", ops...) }
+func (o Opcodes) Fxchd(ops ...Operand) { o.a.op("FXCHD", ops...) }
+func (o Opcodes) FXCHD(ops ...Operand) { o.a.op("FXCHD", ops...) }
+func (o Opcodes) Fxrstor(ops ...Operand) { o.a.op("FXRSTOR", ops...) }
+func (o Opcodes) FXRSTOR(ops ...Operand) { o.a.op("FXRSTOR", ops...) }
+func (o Opcodes) Fxrstor64(ops ...Operand) { o.a.op("FXRSTOR64", ops...) }
+func (o Opcodes) FXRSTOR64(ops ...Operand) { o.a.op("FXRSTOR64", ops...) }
+func (o Opcodes) Fxsave(ops ...Operand) { o.a.op("FXSAVE", ops...) }
+func (o Opcodes) FXSAVE(ops ...Operand) { o.a.op("FXSAVE", ops...) }
+func (o Opcodes) Fxsave64(ops ...Operand) { o.a.op("FXSAVE64", ops...) }
+func (o Opcodes) FXSAVE64(ops ...Operand) { o.a.op("FXSAVE64", ops...) }
+func (o Opcodes) Fxtract(ops ...Operand) { o.a.op("FXTRACT", ops...) }
+func (o Opcodes) FXTRACT(ops ...Operand) { o.a.op("FXTRACT", ops...) }
+func (o Opcodes) Fyl2x(ops ...Operand) { o.a.op("FYL2X", ops...) }
+func (o Opcodes) FYL2X(ops ...Operand) { o.a.op("FYL2X", ops...) }
+func (o Opcodes) Fyl2xp1(ops ...Operand) { o.a.op("FYL2XP1", ops...) }
+func (o Opcodes) FYL2XP1(ops ...Operand) { o.a.op("FYL2XP1", ops...) }
+func (o Opcodes) Haddpd(ops ...Operand) { o.a.op("HADDPD", ops...) }
+func (o Opcodes) HADDPD(ops ...Operand) { o.a.op("HADDPD", ops...) }
+func (o Opcodes) Haddps(ops ...Operand) { o.a.op("HADDPS", ops...) }
+func (o Opcodes) HADDPS(ops ...Operand) { o.a.op("HADDPS", ops...) }
+func (o Opcodes) Hlt(ops ...Operand) { o.a.op("HLT", ops...) }
+func (o Opcodes) HLT(ops ...Operand) { o.a.op("HLT", ops...) }
+func (o Opcodes) Hsubpd(ops ...Operand) { o.a.op("HSUBPD", ops...) }
+func (o Opcodes) HSUBPD(ops ...Operand) { o.a.op("HSUBPD", ops...) }
+func (o Opcodes) Hsubps(ops ...Operand) { o.a.op("HSUBPS", ops...) }
+func (o Opcodes) HSUBPS(ops ...Operand) { o.a.op("HSUBPS", ops...) }
+func (o Opcodes) Icebp(ops ...Operand) { o.a.op("ICEBP", ops...) }
+func (o Opcodes) ICEBP(ops ...Operand) { o.a.op("ICEBP", ops...) }
+func (o Opcodes) Idivb(ops ...Operand) { o.a.op("IDIVB", ops...) }
+func (o Opcodes) IDIVB(ops ...Operand) { o.a.op("IDIVB", ops...) }
+func (o Opcodes) Idivl(ops ...Operand) { o.a.op("IDIVL", ops...) }
+func (o Opcodes) IDIVL(ops ...Operand) { o.a.op("IDIVL", ops...) }
+func (o Opcodes) Idivq(ops ...Operand) { o.a.op("IDIVQ", ops...) }
+func (o Opcodes) IDIVQ(ops ...Operand) { o.a.op("IDIVQ", ops...) }
+func (o Opcodes) Idivw(ops ...Operand) { o.a.op("IDIVW", ops...) }
+func (o Opcodes) IDIVW(ops ...Operand) { o.a.op("IDIVW", ops...) }
+func (o Opcodes) Imul3l(ops ...Operand) { o.a.op("IMUL3L", ops...) }
+func (o Opcodes) IMUL3L(ops ...Operand) { o.a.op("IMUL3L", ops...) }
+func (o Opcodes) Imul3q(ops ...Operand) { o.a.op("IMUL3Q", ops...) }
+func (o Opcodes) IMUL3Q(ops ...Operand) { o.a.op("IMUL3Q", ops...) }
+func (o Opcodes) Imul3w(ops ...Operand) { o.a.op("IMUL3W", ops...) }
+func (o Opcodes) IMUL3W(ops ...Operand) { o.a.op("IMUL3W", ops...) }
+func (o Opcodes) Imulb(ops ...Operand) { o.a.op("IMULB", ops...) }
+func (o Opcodes) IMULB(ops ...Operand) { o.a.op("IMULB", ops...) }
+func (o Opcodes) Imull(ops ...Operand) { o.a.op("IMULL", ops...) }
+func (o Opcodes) IMULL(ops ...Operand) { o.a.op("IMULL", ops...) }
+func (o Opcodes) Imulq(ops ...Operand) { o.a.op("IMULQ", ops...) }
+func (o Opcodes) IMULQ(ops ...Operand) { o.a.op("IMULQ", ops...) }
+func (o Opcodes) Imulw(ops ...Operand) { o.a.op("IMULW", ops...) }
+func (o Opcodes) IMULW(ops ...Operand) { o.a.op("IMULW", ops...) }
+func (o Opcodes) Inb(ops ...Operand) { o.a.op("INB", ops...) }
+func (o Opcodes) INB(ops ...Operand) { o.a.op("INB", ops...) }
+func (o Opcodes) Incb(ops ...Operand) { o.a.op("INCB", ops...) }
+func (o Opcodes) INCB(ops ...Operand) { o.a.op("INCB", ops...) }
+func (o Opcodes) Incl(ops ...Operand) { o.a.op("INCL", ops...) }
+func (o Opcodes) INCL(ops ...Operand) { o.a.op("INCL", ops...) }
+func (o Opcodes) Incq(ops ...Operand) { o.a.op("INCQ", ops...) }
+func (o Opcodes) INCQ(ops ...Operand) { o.a.op("INCQ", ops...) }
+func (o Opcodes) Incw(ops ...Operand) { o.a.op("INCW", ops...) }
+func (o Opcodes) INCW(ops ...Operand) { o.a.op("INCW", ops...) }
+func (o Opcodes) Inl(ops ...Operand) { o.a.op("INL", ops...) }
+func (o Opcodes) INL(ops ...Operand) { o.a.op("INL", ops...) }
+func (o Opcodes) Insb(ops ...Operand) { o.a.op("INSB", ops...) }
+func (o Opcodes) INSB(ops ...Operand) { o.a.op("INSB", ops...) }
+func (o Opcodes) Insertps(ops ...Operand) { o.a.op("INSERTPS", ops...) }
+func (o Opcodes) INSERTPS(ops ...Operand) { o.a.op("INSERTPS", ops...) }
+func (o Opcodes) Insl(ops ...Operand) { o.a.op("INSL", ops...) }
+func (o Opcodes) INSL(ops ...Operand) { o.a.op("INSL", ops...) }
+func (o Opcodes) Insw(ops ...Operand) { o.a.op("INSW", ops...) }
+func (o Opcodes) INSW(ops ...Operand) { o.a.op("INSW", ops...) }
+func (o Opcodes) Int(ops ...Operand) { o.a.op("INT", ops...) }
+func (o Opcodes) INT(ops ...Operand) { o.a.op("INT", ops...) }
+func (o Opcodes) Into(ops ...Operand) { o.a.op("INTO", ops...) }
+func (o Opcodes) INTO(ops ...Operand) { o.a.op("INTO", ops...) }
+func (o Opcodes) Invd(ops ...Operand) { o.a.op("INVD", ops...) }
+func (o Opcodes) INVD(ops ...Operand) { o.a.op("INVD", ops...) }
+func (o Opcodes) Invlpg(ops ...Operand) { o.a.op("INVLPG", ops...) }
+func (o Opcodes) INVLPG(ops ...Operand) { o.a.op("INVLPG", ops...) }
+func (o Opcodes) Invpcid(ops ...Operand) { o.a.op("INVPCID", ops...) }
+func (o Opcodes) INVPCID(ops ...Operand) { o.a.op("INVPCID", ops...) }
+func (o Opcodes) Inw(ops ...Operand) { o.a.op("INW", ops...) }
+func (o Opcodes) INW(ops ...Operand) { o.a.op("INW", ops...) }
+func (o Opcodes) Iretl(ops ...Operand) { o.a.op("IRETL", ops...) }
+func (o Opcodes) IRETL(ops ...Operand) { o.a.op("IRETL", ops...) }
+func (o Opcodes) Iretq(ops ...Operand) { o.a.op("IRETQ", ops...) }
+func (o Opcodes) IRETQ(ops ...Operand) { o.a.op("IRETQ", ops...) }
+func (o Opcodes) Iretw(ops ...Operand) { o.a.op("IRETW", ops...) }
+func (o Opcodes) IRETW(ops ...Operand) { o.a.op("IRETW", ops...) }
+func (o Opcodes) Jcc(ops ...Operand) { o.a.op("JCC", ops...) }
+func (o Opcodes) JCC(ops ...Operand) { o.a.op("JCC", ops...) }
+func (o Opcodes) Jcs(ops ...Operand) { o.a.op("JCS", ops...) }
+func (o Opcodes) JCS(ops ...Operand) { o.a.op("JCS", ops...) }
+func (o Opcodes) Jcxzl(ops ...Operand) { o.a.op("JCXZL", ops...) }
+func (o Opcodes) JCXZL(ops ...Operand) { o.a.op("JCXZL", ops...) }
+func (o Opcodes) Jcxzq(ops ...Operand) { o.a.op("JCXZQ", ops...) }
+func (o Opcodes) JCXZQ(ops ...Operand) { o.a.op("JCXZQ", ops...) }
+func (o Opcodes) Jcxzw(ops ...Operand) { o.a.op("JCXZW", ops...) }
+func (o Opcodes) JCXZW(ops ...Operand) { o.a.op("JCXZW", ops...) }
+func (o Opcodes) Jeq(ops ...Operand) { o.a.op("JEQ", ops...) }
+func (o Opcodes) JEQ(ops ...Operand) { o.a.op("JEQ", ops...) }
+func (o Opcodes) Jge(ops ...Operand) { o.a.op("JGE", ops...) }
+func (o Opcodes) JGE(ops ...Operand) { o.a.op("JGE", ops...) }
+func (o Opcodes) Jgt(ops ...Operand) { o.a.op("JGT", ops...) }
+func (o Opcodes) JGT(ops ...Operand) { o.a.op("JGT", ops...) }
+func (o Opcodes) Jhi(ops ...Operand) { o.a.op("JHI", ops...) }
+func (o Opcodes) JHI(ops ...Operand) { o.a.op("JHI", ops...) }
+func (o Opcodes) Jle(ops ...Operand) { o.a.op("JLE", ops...) }
+func (o Opcodes) JLE(ops ...Operand) { o.a.op("JLE", ops...) }
+func (o Opcodes) Jls(ops ...Operand) { o.a.op("JLS", ops...) }
+func (o Opcodes) JLS(ops ...Operand) { o.a.op("JLS", ops...) }
+func (o Opcodes) Jlt(ops ...Operand) { o.a.op("JLT", ops...) }
+func (o Opcodes) JLT(ops ...Operand) { o.a.op("JLT", ops...) }
+func (o Opcodes) Jmi(ops ...Operand) { o.a.op("JMI", ops...) }
+func (o Opcodes) JMI(ops ...Operand) { o.a.op("JMI", ops...) }
+func (o Opcodes) Jne(ops ...Operand) { o.a.op("JNE", ops...) }
+func (o Opcodes) JNE(ops ...Operand) { o.a.op("JNE", ops...) }
+func (o Opcodes) Joc(ops ...Operand) { o.a.op("JOC", ops...) }
+func (o Opcodes) JOC(ops ...Operand) { o.a.op("JOC", ops...) }
+func (o Opcodes) Jos(ops ...Operand) { o.a.op("JOS", ops...) }
+func (o Opcodes) JOS(ops ...Operand) { o.a.op("JOS", ops...) }
+func (o Opcodes) Jpc(ops ...Operand) { o.a.op("JPC", ops...) }
+func (o Opcodes) JPC(ops ...Operand) { o.a.op("JPC", ops...) }
+func (o Opcodes) Jpl(ops ...Operand) { o.a.op("JPL", ops...) }
+func (o Opcodes) JPL(ops ...Operand) { o.a.op("JPL", ops...) }
+func (o Opcodes) Jps(ops ...Operand) { o.a.op("JPS", ops...) }
+func (o Opcodes) JPS(ops ...Operand) { o.a.op("JPS", ops...) }
+func (o Opcodes) Kaddb(ops ...Operand) { o.a.op("KADDB", ops...) }
+func (o Opcodes) KADDB(ops ...Operand) { o.a.op("KADDB", ops...) }
+func (o Opcodes) Kaddd(ops ...Operand) { o.a.op("KADDD", ops...) }
+func (o Opcodes) KADDD(ops ...Operand) { o.a.op("KADDD", ops...) }
+func (o Opcodes) Kaddq(ops ...Operand) { o.a.op("KADDQ", ops...) }
+func (o Opcodes) KADDQ(ops ...Operand) { o.a.op("KADDQ", ops...) }
+func (o Opcodes) Kaddw(ops ...Operand) { o.a.op("KADDW", ops...) }
+func (o Opcodes) KADDW(ops ...Operand) { o.a.op("KADDW", ops...) }
+func (o Opcodes) Kandb(ops ...Operand) { o.a.op("KANDB", ops...) }
+func (o Opcodes) KANDB(ops ...Operand) { o.a.op("KANDB", ops...) }
+func (o Opcodes) Kandd(ops ...Operand) { o.a.op("KANDD", ops...) }
+func (o Opcodes) KANDD(ops ...Operand) { o.a.op("KANDD", ops...) }
+func (o Opcodes) Kandnb(ops ...Operand) { o.a.op("KANDNB", ops...) }
+func (o Opcodes) KANDNB(ops ...Operand) { o.a.op("KANDNB", ops...) }
+func (o Opcodes) Kandnd(ops ...Operand) { o.a.op("KANDND", ops...) }
+func (o Opcodes) KANDND(ops ...Operand) { o.a.op("KANDND", ops...) }
+func (o Opcodes) Kandnq(ops ...Operand) { o.a.op("KANDNQ", ops...) }
+func (o Opcodes) KANDNQ(ops ...Operand) { o.a.op("KANDNQ", ops...) }
+func (o Opcodes) Kandnw(ops ...Operand) { o.a.op("KANDNW", ops...) }
+func (o Opcodes) KANDNW(ops ...Operand) { o.a.op("KANDNW", ops...) }
+func (o Opcodes) Kandq(ops ...Operand) { o.a.op("KANDQ", ops...) }
+func (o Opcodes) KANDQ(ops ...Operand) { o.a.op("KANDQ", ops...) }
+func (o Opcodes) Kandw(ops ...Operand) { o.a.op("KANDW", ops...) }
+func (o Opcodes) KANDW(ops ...Operand) { o.a.op("KANDW", ops...) }
+func (o Opcodes) Kmovb(ops ...Operand) { o.a.op("KMOVB", ops...) }
+func (o Opcodes) KMOVB(ops ...Operand) { o.a.op("KMOVB", ops...) }
+func (o Opcodes) Kmovd(ops ...Operand) { o.a.op("KMOVD", ops...) }
+func (o Opcodes) KMOVD(ops ...Operand) { o.a.op("KMOVD", ops...) }
+func (o Opcodes) Kmovq(ops ...Operand) { o.a.op("KMOVQ", ops...) }
+func (o Opcodes) KMOVQ(ops ...Operand) { o.a.op("KMOVQ", ops...) }
+func (o Opcodes) Kmovw(ops ...Operand) { o.a.op("KMOVW", ops...) }
+func (o Opcodes) KMOVW(ops ...Operand) { o.a.op("KMOVW", ops...) }
+func (o Opcodes) Knotb(ops ...Operand) { o.a.op("KNOTB", ops...) }
+func (o Opcodes) KNOTB(ops ...Operand) { o.a.op("KNOTB", ops...) }
+func (o Opcodes) Knotd(ops ...Operand) { o.a.op("KNOTD", ops...) }
+func (o Opcodes) KNOTD(ops ...Operand) { o.a.op("KNOTD", ops...) }
+func (o Opcodes) Knotq(ops ...Operand) { o.a.op("KNOTQ", ops...) }
+func (o Opcodes) KNOTQ(ops ...Operand) { o.a.op("KNOTQ", ops...) }
+func (o Opcodes) Knotw(ops ...Operand) { o.a.op("KNOTW", ops...) }
+func (o Opcodes) KNOTW(ops ...Operand) { o.a.op("KNOTW", ops...) }
+func (o Opcodes) Korb(ops ...Operand) { o.a.op("KORB", ops...) }
+func (o Opcodes) KORB(ops ...Operand) { o.a.op("KORB", ops...) }
+func (o Opcodes) Kord(ops ...Operand) { o.a.op("KORD", ops...) }
+func (o Opcodes) KORD(ops ...Operand) { o.a.op("KORD", ops...) }
+func (o Opcodes) Korq(ops ...Operand) { o.a.op("KORQ", ops...) }
+func (o Opcodes) KORQ(ops ...Operand) { o.a.op("KORQ", ops...) }
+func (o Opcodes) Kortestb(ops ...Operand) { o.a.op("KORTESTB", ops...) }
+func (o Opcodes) KORTESTB(ops ...Operand) { o.a.op("KORTESTB", ops...) }
+func (o Opcodes) Kortestd(ops ...Operand) { o.a.op("KORTESTD", ops...) }
+func (o Opcodes) KORTESTD(ops ...Operand) { o.a.op("KORTESTD", ops...) }
+func (o Opcodes) Kortestq(ops ...Operand) { o.a.op("KORTESTQ", ops...) }
+func (o Opcodes) KORTESTQ(ops ...Operand) { o.a.op("KORTESTQ", ops...) }
+func (o Opcodes) Kortestw(ops ...Operand) { o.a.op("KORTESTW", ops...) }
+func (o Opcodes) KORTESTW(ops ...Operand) { o.a.op("KORTESTW", ops...) }
+func (o Opcodes) Korw(ops ...Operand) { o.a.op("KORW", ops...) }
+func (o Opcodes) KORW(ops ...Operand) { o.a.op("KORW", ops...) }
+func (o Opcodes) Kshiftlb(ops ...Operand) { o.a.op("KSHIFTLB", ops...) }
+func (o Opcodes) KSHIFTLB(ops ...Operand) { o.a.op("KSHIFTLB", ops...) }
+func (o Opcodes) Kshiftld(ops ...Operand) { o.a.op("KSHIFTLD", ops...) }
+func (o Opcodes) KSHIFTLD(ops ...Operand) { o.a.op("KSHIFTLD", ops...) }
+func (o Opcodes) Kshiftlq(ops ...Operand) { o.a.op("KSHIFTLQ", ops...) }
+func (o Opcodes) KSHIFTLQ(ops ...Operand) { o.a.op("KSHIFTLQ", ops...) }
+func (o Opcodes) Kshiftlw(ops ...Operand) { o.a.op("KSHIFTLW", ops...) }
+func (o Opcodes) KSHIFTLW(ops ...Operand) { o.a.op("KSHIFTLW", ops...) }
+func (o Opcodes) Kshiftrb(ops ...Operand) { o.a.op("KSHIFTRB", ops...) }
+func (o Opcodes) KSHIFTRB(ops ...Operand) { o.a.op("KSHIFTRB", ops...) }
+func (o Opcodes) Kshiftrd(ops ...Operand) { o.a.op("KSHIFTRD", ops...) }
+func (o Opcodes) KSHIFTRD(ops ...Operand) { o.a.op("KSHIFTRD", ops...) }
+func (o Opcodes) Kshiftrq(ops ...Operand) { o.a.op("KSHIFTRQ", ops...) }
+func (o Opcodes) KSHIFTRQ(ops ...Operand) { o.a.op("KSHIFTRQ", ops...) }
+func (o Opcodes) Kshiftrw(ops ...Operand) { o.a.op("KSHIFTRW", ops...) }
+func (o Opcodes) KSHIFTRW(ops ...Operand) { o.a.op("KSHIFTRW", ops...) }
+func (o Opcodes) Ktestb(ops ...Operand) { o.a.op("KTESTB", ops...) }
+func (o Opcodes) KTESTB(ops ...Operand) { o.a.op("KTESTB", ops...) }
+func (o Opcodes) Ktestd(ops ...Operand) { o.a.op("KTESTD", ops...) }
+func (o Opcodes) KTESTD(ops ...Operand) { o.a.op("KTESTD", ops...) }
+func (o Opcodes) Ktestq(ops ...Operand) { o.a.op("KTESTQ", ops...) }
+func (o Opcodes) KTESTQ(ops ...Operand) { o.a.op("KTESTQ", ops...) }
+func (o Opcodes) Ktestw(ops ...Operand) { o.a.op("KTESTW", ops...) }
+func (o Opcodes) KTESTW(ops ...Operand) { o.a.op("KTESTW", ops...) }
+func (o Opcodes) Kunpckbw(ops ...Operand) { o.a.op("KUNPCKBW", ops...) }
+func (o Opcodes) KUNPCKBW(ops ...Operand) { o.a.op("KUNPCKBW", ops...) }
+func (o Opcodes) Kunpckdq(ops ...Operand) { o.a.op("KUNPCKDQ", ops...) }
+func (o Opcodes) KUNPCKDQ(ops ...Operand) { o.a.op("KUNPCKDQ", ops...) }
+func (o Opcodes) Kunpckwd(ops ...Operand) { o.a.op("KUNPCKWD", ops...) }
+func (o Opcodes) KUNPCKWD(ops ...Operand) { o.a.op("KUNPCKWD", ops...) }
+func (o Opcodes) Kxnorb(ops ...Operand) { o.a.op("KXNORB", ops...) }
+func (o Opcodes) KXNORB(ops ...Operand) { o.a.op("KXNORB", ops...) }
+func (o Opcodes) Kxnord(ops ...Operand) { o.a.op("KXNORD", ops...) }
+func (o Opcodes) KXNORD(ops ...Operand) { o.a.op("KXNORD", ops...) }
+func (o Opcodes) Kxnorq(ops ...Operand) { o.a.op("KXNORQ", ops...) }
+func (o Opcodes) KXNORQ(ops ...Operand) { o.a.op("KXNORQ", ops...) }
+func (o Opcodes) Kxnorw(ops ...Operand) { o.a.op("KXNORW", ops...) }
+func (o Opcodes) KXNORW(ops ...Operand) { o.a.op("KXNORW", ops...) }
+func (o Opcodes) Kxorb(ops ...Operand) { o.a.op("KXORB", ops...) }
+func (o Opcodes) KXORB(ops ...Operand) { o.a.op("KXORB", ops...) }
+func (o Opcodes) Kxord(ops ...Operand) { o.a.op("KXORD", ops...) }
+func (o Opcodes) KXORD(ops ...Operand) { o.a.op("KXORD", ops...) }
+func (o Opcodes) Kxorq(ops ...Operand) { o.a.op("KXORQ", ops...) }
+func (o Opcodes) KXORQ(ops ...Operand) { o.a.op("KXORQ", ops...) }
+func (o Opcodes) Kxorw(ops ...Operand) { o.a.op("KXORW", ops...) }
+func (o Opcodes) KXORW(ops ...Operand) { o.a.op("KXORW", ops...) }
+func (o Opcodes) Lahf(ops ...Operand) { o.a.op("LAHF", ops...) }
+func (o Opcodes) LAHF(ops ...Operand) { o.a.op("LAHF", ops...) }
+func (o Opcodes) Larl(ops ...Operand) { o.a.op("LARL", ops...) }
+func (o Opcodes) LARL(ops ...Operand) { o.a.op("LARL", ops...) }
+func (o Opcodes) Larq(ops ...Operand) { o.a.op("LARQ", ops...) }
+func (o Opcodes) LARQ(ops ...Operand) { o.a.op("LARQ", ops...) }
+func (o Opcodes) Larw(ops ...Operand) { o.a.op("LARW", ops...) }
+func (o Opcodes) LARW(ops ...Operand) { o.a.op("LARW", ops...) }
+func (o Opcodes) Lddqu(ops ...Operand) { o.a.op("LDDQU", ops...) }
+func (o Opcodes) LDDQU(ops ...Operand) { o.a.op("LDDQU", ops...) }
+func (o Opcodes) Ldmxcsr(ops ...Operand) { o.a.op("LDMXCSR", ops...) }
+func (o Opcodes) LDMXCSR(ops ...Operand) { o.a.op("LDMXCSR", ops...) }
+func (o Opcodes) Leal(ops ...Operand) { o.a.op("LEAL", ops...) }
+func (o Opcodes) LEAL(ops ...Operand) { o.a.op("LEAL", ops...) }
+func (o Opcodes) Leaq(ops ...Operand) { o.a.op("LEAQ", ops...) }
+func (o Opcodes) LEAQ(ops ...Operand) { o.a.op("LEAQ", ops...) }
+func (o Opcodes) Leavel(ops ...Operand) { o.a.op("LEAVEL", ops...) }
+func (o Opcodes) LEAVEL(ops ...Operand) { o.a.op("LEAVEL", ops...) }
+func (o Opcodes) Leaveq(ops ...Operand) { o.a.op("LEAVEQ", ops...) }
+func (o Opcodes) LEAVEQ(ops ...Operand) { o.a.op("LEAVEQ", ops...) }
+func (o Opcodes) Leavew(ops ...Operand) { o.a.op("LEAVEW", ops...) }
+func (o Opcodes) LEAVEW(ops ...Operand) { o.a.op("LEAVEW", ops...) }
+func (o Opcodes) Leaw(ops ...Operand) { o.a.op("LEAW", ops...) }
+func (o Opcodes) LEAW(ops ...Operand) { o.a.op("LEAW", ops...) }
+func (o Opcodes) Lfence(ops ...Operand) { o.a.op("LFENCE", ops...) }
+func (o Opcodes) LFENCE(ops ...Operand) { o.a.op("LFENCE", ops...) }
+func (o Opcodes) Lfsl(ops ...Operand) { o.a.op("LFSL", ops...) }
+func (o Opcodes) LFSL(ops ...Operand) { o.a.op("LFSL", ops...) }
+func (o Opcodes) Lfsq(ops ...Operand) { o.a.op("LFSQ", ops...) }
+func (o Opcodes) LFSQ(ops ...Operand) { o.a.op("LFSQ", ops...) }
+func (o Opcodes) Lfsw(ops ...Operand) { o.a.op("LFSW", ops...) }
+func (o Opcodes) LFSW(ops ...Operand) { o.a.op("LFSW", ops...) }
+func (o Opcodes) Lgdt(ops ...Operand) { o.a.op("LGDT", ops...) }
+func (o Opcodes) LGDT(ops ...Operand) { o.a.op("LGDT", ops...) }
+func (o Opcodes) Lgsl(ops ...Operand) { o.a.op("LGSL", ops...) }
+func (o Opcodes) LGSL(ops ...Operand) { o.a.op("LGSL", ops...) }
+func (o Opcodes) Lgsq(ops ...Operand) { o.a.op("LGSQ", ops...) }
+func (o Opcodes) LGSQ(ops ...Operand) { o.a.op("LGSQ", ops...) }
+func (o Opcodes) Lgsw(ops ...Operand) { o.a.op("LGSW", ops...) }
+func (o Opcodes) LGSW(ops ...Operand) { o.a.op("LGSW", ops...) }
+func (o Opcodes) Lidt(ops ...Operand) { o.a.op("LIDT", ops...) }
+func (o Opcodes) LIDT(ops ...Operand) { o.a.op("LIDT", ops...) }
+func (o Opcodes) Lldt(ops ...Operand) { o.a.op("LLDT", ops...) }
+func (o Opcodes) LLDT(ops ...Operand) { o.a.op("LLDT", ops...) }
+func (o Opcodes) Lmsw(ops ...Operand) { o.a.op("LMSW", ops...) }
+func (o Opcodes) LMSW(ops ...Operand) { o.a.op("LMSW", ops...) }
+func (o Opcodes) Lock(ops ...Operand) { o.a.op("LOCK", ops...) }
+func (o Opcodes) LOCK(ops ...Operand) { o.a.op("LOCK", ops...) }
+func (o Opcodes) Lodsb(ops ...Operand) { o.a.op("LODSB", ops...) }
+func (o Opcodes) LODSB(ops ...Operand) { o.a.op("LODSB", ops...) }
+func (o Opcodes) Lodsl(ops ...Operand) { o.a.op("LODSL", ops...) }
+func (o Opcodes) LODSL(ops ...Operand) { o.a.op("LODSL", ops...) }
+func (o Opcodes) Lodsq(ops ...Operand) { o.a.op("LODSQ", ops...) }
+func (o Opcodes) LODSQ(ops ...Operand) { o.a.op("LODSQ", ops...) }
+func (o Opcodes) Lodsw(ops ...Operand) { o.a.op("LODSW", ops...) }
+func (o Opcodes) LODSW(ops ...Operand) { o.a.op("LODSW", ops...) }
+func (o Opcodes) Long(ops ...Operand) { o.a.op("LONG", ops...) }
+func (o Opcodes) LONG(ops ...Operand) { o.a.op("LONG", ops...) }
+func (o Opcodes) Loop(ops ...Operand) { o.a.op("LOOP", ops...) }
+func (o Opcodes) LOOP(ops ...Operand) { o.a.op("LOOP", ops...) }
+func (o Opcodes) Loopeq(ops ...Operand) { o.a.op("LOOPEQ", ops...) }
+func (o Opcodes) LOOPEQ(ops ...Operand) { o.a.op("LOOPEQ", ops...) }
+func (o Opcodes) Loopne(ops ...Operand) { o.a.op("LOOPNE", ops...) }
+func (o Opcodes) LOOPNE(ops ...Operand) { o.a.op("LOOPNE", ops...) }
+func (o Opcodes) Lsll(ops ...Operand) { o.a.op("LSLL", ops...) }
+func (o Opcodes) LSLL(ops ...Operand) { o.a.op("LSLL", ops...) }
+func (o Opcodes) Lslq(ops ...Operand) { o.a.op("LSLQ", ops...) }
+func (o Opcodes) LSLQ(ops ...Operand) { o.a.op("LSLQ", ops...) }
+func (o Opcodes) Lslw(ops ...Operand) { o.a.op("LSLW", ops...) }
+func (o Opcodes) LSLW(ops ...Operand) { o.a.op("LSLW", ops...) }
+func (o Opcodes) Lssl(ops ...Operand) { o.a.op("LSSL", ops...) }
+func (o Opcodes) LSSL(ops ...Operand) { o.a.op("LSSL", ops...) }
+func (o Opcodes) Lssq(ops ...Operand) { o.a.op("LSSQ", ops...) }
+func (o Opcodes) LSSQ(ops ...Operand) { o.a.op("LSSQ", ops...) }
+func (o Opcodes) Lssw(ops ...Operand) { o.a.op("LSSW", ops...) }
+func (o Opcodes) LSSW(ops ...Operand) { o.a.op("LSSW", ops...) }
+func (o Opcodes) Ltr(ops ...Operand) { o.a.op("LTR", ops...) }
+func (o Opcodes) LTR(ops ...Operand) { o.a.op("LTR", ops...) }
+func (o Opcodes) Lzcntl(ops ...Operand) { o.a.op("LZCNTL", ops...) }
+func (o Opcodes) LZCNTL(ops ...Operand) { o.a.op("LZCNTL", ops...) }
+func (o Opcodes) Lzcntq(ops ...Operand) { o.a.op("LZCNTQ", ops...) }
+func (o Opcodes) LZCNTQ(ops ...Operand) { o.a.op("LZCNTQ", ops...) }
+func (o Opcodes) Lzcntw(ops ...Operand) { o.a.op("LZCNTW", ops...) }
+func (o Opcodes) LZCNTW(ops ...Operand) { o.a.op("LZCNTW", ops...) }
+func (o Opcodes) Maskmovou(ops ...Operand) { o.a.op("MASKMOVOU", ops...) }
+func (o Opcodes) MASKMOVOU(ops ...Operand) { o.a.op("MASKMOVOU", ops...) }
+func (o Opcodes) Maskmovq(ops ...Operand) { o.a.op("MASKMOVQ", ops...) }
+func (o Opcodes) MASKMOVQ(ops ...Operand) { o.a.op("MASKMOVQ", ops...) }
+func (o Opcodes) Maxpd(ops ...Operand) { o.a.op("MAXPD", ops...) }
+func (o Opcodes) MAXPD(ops ...Operand) { o.a.op("MAXPD", ops...) }
+func (o Opcodes) Maxps(ops ...Operand) { o.a.op("MAXPS", ops...) }
+func (o Opcodes) MAXPS(ops ...Operand) { o.a.op("MAXPS", ops...) }
+func (o Opcodes) Maxsd(ops ...Operand) { o.a.op("MAXSD", ops...) }
+func (o Opcodes) MAXSD(ops ...Operand) { o.a.op("MAXSD", ops...) }
+func (o Opcodes) Maxss(ops ...Operand) { o.a.op("MAXSS", ops...) }
+func (o Opcodes) MAXSS(ops ...Operand) { o.a.op("MAXSS", ops...) }
+func (o Opcodes) Mfence(ops ...Operand) { o.a.op("MFENCE", ops...) }
+func (o Opcodes) MFENCE(ops ...Operand) { o.a.op("MFENCE", ops...) }
+func (o Opcodes) Minpd(ops ...Operand) { o.a.op("MINPD", ops...) }
+func (o Opcodes) MINPD(ops ...Operand) { o.a.op("MINPD", ops...) }
+func (o Opcodes) Minps(ops ...Operand) { o.a.op("MINPS", ops...) }
+func (o Opcodes) MINPS(ops ...Operand) { o.a.op("MINPS", ops...) }
+func (o Opcodes) Minsd(ops ...Operand) { o.a.op("MINSD", ops...) }
+func (o Opcodes) MINSD(ops ...Operand) { o.a.op("MINSD", ops...) }
+func (o Opcodes) Minss(ops ...Operand) { o.a.op("MINSS", ops...) }
+func (o Opcodes) MINSS(ops ...Operand) { o.a.op("MINSS", ops...) }
+func (o Opcodes) Monitor(ops ...Operand) { o.a.op("MONITOR", ops...) }
+func (o Opcodes) MONITOR(ops ...Operand) { o.a.op("MONITOR", ops...) }
+func (o Opcodes) Movapd(ops ...Operand) { o.a.op("MOVAPD", ops...) }
+func (o Opcodes) MOVAPD(ops ...Operand) { o.a.op("MOVAPD", ops...) }
+func (o Opcodes) Movaps(ops ...Operand) { o.a.op("MOVAPS", ops...) }
+func (o Opcodes) MOVAPS(ops ...Operand) { o.a.op("MOVAPS", ops...) }
+func (o Opcodes) Movb(ops ...Operand) { o.a.op("MOVB", ops...) }
+func (o Opcodes) MOVB(ops ...Operand) { o.a.op("MOVB", ops...) }
+func (o Opcodes) Movbell(ops ...Operand) { o.a.op("MOVBELL", ops...) }
+func (o Opcodes) MOVBELL(ops ...Operand) { o.a.op("MOVBELL", ops...) }
+func (o Opcodes) Movbeqq(ops ...Operand) { o.a.op("MOVBEQQ", ops...) }
+func (o Opcodes) MOVBEQQ(ops ...Operand) { o.a.op("MOVBEQQ", ops...) }
+func (o Opcodes) Movbeww(ops ...Operand) { o.a.op("MOVBEWW", ops...) }
+func (o Opcodes) MOVBEWW(ops ...Operand) { o.a.op("MOVBEWW", ops...) }
+func (o Opcodes) Movblsx(ops ...Operand) { o.a.op("MOVBLSX", ops...) }
+func (o Opcodes) MOVBLSX(ops ...Operand) { o.a.op("MOVBLSX", ops...) }
+func (o Opcodes) Movblzx(ops ...Operand) { o.a.op("MOVBLZX", ops...) }
+func (o Opcodes) MOVBLZX(ops ...Operand) { o.a.op("MOVBLZX", ops...) }
+func (o Opcodes) Movbqsx(ops ...Operand) { o.a.op("MOVBQSX", ops...) }
+func (o Opcodes) MOVBQSX(ops ...Operand) { o.a.op("MOVBQSX", ops...) }
+func (o Opcodes) Movbqzx(ops ...Operand) { o.a.op("MOVBQZX", ops...) }
+func (o Opcodes) MOVBQZX(ops ...Operand) { o.a.op("MOVBQZX", ops...) }
+func (o Opcodes) Movbwsx(ops ...Operand) { o.a.op("MOVBWSX", ops...) }
+func (o Opcodes) MOVBWSX(ops ...Operand) { o.a.op("MOVBWSX", ops...) }
+func (o Opcodes) Movbwzx(ops ...Operand) { o.a.op("MOVBWZX", ops...) }
+func (o Opcodes) MOVBWZX(ops ...Operand) { o.a.op("MOVBWZX", ops...) }
+func (o Opcodes) Movddup(ops ...Operand) { o.a.op("MOVDDUP", ops...) }
+func (o Opcodes) MOVDDUP(ops ...Operand) { o.a.op("MOVDDUP", ops...) }
+func (o Opcodes) Movhlps(ops ...Operand) { o.a.op("MOVHLPS", ops...) }
+func (o Opcodes) MOVHLPS(ops ...Operand) { o.a.op("MOVHLPS", ops...) }
+func (o Opcodes) Movhpd(ops ...Operand) { o.a.op("MOVHPD", ops...) }
+func (o Opcodes) MOVHPD(ops ...Operand) { o.a.op("MOVHPD", ops...) }
+func (o Opcodes) Movhps(ops ...Operand) { o.a.op("MOVHPS", ops...) }
+func (o Opcodes) MOVHPS(ops ...Operand) { o.a.op("MOVHPS", ops...) }
+func (o Opcodes) Movl(ops ...Operand) { o.a.op("MOVL", ops...) }
+func (o Opcodes) MOVL(ops ...Operand) { o.a.op("MOVL", ops...) }
+func (o Opcodes) Movlhps(ops ...Operand) { o.a.op("MOVLHPS", ops...) }
+func (o Opcodes) MOVLHPS(ops ...Operand) { o.a.op("MOVLHPS", ops...) }
+func (o Opcodes) Movlpd(ops ...Operand) { o.a.op("MOVLPD", ops...) }
+func (o Opcodes) MOVLPD(ops ...Operand) { o.a.op("MOVLPD", ops...) }
+func (o Opcodes) Movlps(ops ...Operand) { o.a.op("MOVLPS", ops...) }
+func (o Opcodes) MOVLPS(ops ...Operand) { o.a.op("MOVLPS", ops...) }
+func (o Opcodes) Movlqsx(ops ...Operand) { o.a.op("MOVLQSX", ops...) }
+func (o Opcodes) MOVLQSX(ops ...Operand) { o.a.op("MOVLQSX", ops...) }
+func (o Opcodes) Movlqzx(ops ...Operand) { o.a.op("MOVLQZX", ops...) }
+func (o Opcodes) MOVLQZX(ops ...Operand) { o.a.op("MOVLQZX", ops...) }
+func (o Opcodes) Movmskpd(ops ...Operand) { o.a.op("MOVMSKPD", ops...) }
+func (o Opcodes) MOVMSKPD(ops ...Operand) { o.a.op("MOVMSKPD", ops...) }
+func (o Opcodes) Movmskps(ops ...Operand) { o.a.op("MOVMSKPS", ops...) }
+func (o Opcodes) MOVMSKPS(ops ...Operand) { o.a.op("MOVMSKPS", ops...) }
+func (o Opcodes) Movntdqa(ops ...Operand) { o.a.op("MOVNTDQA", ops...) }
+func (o Opcodes) MOVNTDQA(ops ...Operand) { o.a.op("MOVNTDQA", ops...) }
+func (o Opcodes) Movntil(ops ...Operand) { o.a.op("MOVNTIL", ops...) }
+func (o Opcodes) MOVNTIL(ops ...Operand) { o.a.op("MOVNTIL", ops...) }
+func (o Opcodes) Movntiq(ops ...Operand) { o.a.op("MOVNTIQ", ops...) }
+func (o Opcodes) MOVNTIQ(ops ...Operand) { o.a.op("MOVNTIQ", ops...) }
+func (o Opcodes) Movnto(ops ...Operand) { o.a.op("MOVNTO", ops...) }
+func (o Opcodes) MOVNTO(ops ...Operand) { o.a.op("MOVNTO", ops...) }
+func (o Opcodes) Movntpd(ops ...Operand) { o.a.op("MOVNTPD", ops...) }
+func (o Opcodes) MOVNTPD(ops ...Operand) { o.a.op("MOVNTPD", ops...) }
+func (o Opcodes) Movntps(ops ...Operand) { o.a.op("MOVNTPS", ops...) }
+func (o Opcodes) MOVNTPS(ops ...Operand) { o.a.op("MOVNTPS", ops...) }
+func (o Opcodes) Movntq(ops ...Operand) { o.a.op("MOVNTQ", ops...) }
+func (o Opcodes) MOVNTQ(ops ...Operand) { o.a.op("MOVNTQ", ops...) }
+func (o Opcodes) Movo(ops ...Operand) { o.a.op("MOVO", ops...) }
+func (o Opcodes) MOVO(ops ...Operand) { o.a.op("MOVO", ops...) }
+func (o Opcodes) Movou(ops ...Operand) { o.a.op("MOVOU", ops...) }
+func (o Opcodes) MOVOU(ops ...Operand) { o.a.op("MOVOU", ops...) }
+func (o Opcodes) Movq(ops ...Operand) { o.a.op("MOVQ", ops...) }
+func (o Opcodes) MOVQ(ops ...Operand) { o.a.op("MOVQ", ops...) }
+func (o Opcodes) Movql(ops ...Operand) { o.a.op("MOVQL", ops...) }
+func (o Opcodes) MOVQL(ops ...Operand) { o.a.op("MOVQL", ops...) }
+func (o Opcodes) Movqozx(ops ...Operand) { o.a.op("MOVQOZX", ops...) }
+func (o Opcodes) MOVQOZX(ops ...Operand) { o.a.op("MOVQOZX", ops...) }
+func (o Opcodes) Movsb(ops ...Operand) { o.a.op("MOVSB", ops...) }
+func (o Opcodes) MOVSB(ops ...Operand) { o.a.op("MOVSB", ops...) }
+func (o Opcodes) Movsd(ops ...Operand) { o.a.op("MOVSD", ops...) }
+func (o Opcodes) MOVSD(ops ...Operand) { o.a.op("MOVSD", ops...) }
+func (o Opcodes) Movshdup(ops ...Operand) { o.a.op("MOVSHDUP", ops...) }
+func (o Opcodes) MOVSHDUP(ops ...Operand) { o.a.op("MOVSHDUP", ops...) }
+func (o Opcodes) Movsl(ops ...Operand) { o.a.op("MOVSL", ops...) }
+func (o Opcodes) MOVSL(ops ...Operand) { o.a.op("MOVSL", ops...) }
+func (o Opcodes) Movsldup(ops ...Operand) { o.a.op("MOVSLDUP", ops...) }
+func (o Opcodes) MOVSLDUP(ops ...Operand) { o.a.op("MOVSLDUP", ops...) }
+func (o Opcodes) Movsq(ops ...Operand) { o.a.op("MOVSQ", ops...) }
+func (o Opcodes) MOVSQ(ops ...Operand) { o.a.op("MOVSQ", ops...) }
+func (o Opcodes) Movss(ops ...Operand) { o.a.op("MOVSS", ops...) }
+func (o Opcodes) MOVSS(ops ...Operand) { o.a.op("MOVSS", ops...) }
+func (o Opcodes) Movsw(ops ...Operand) { o.a.op("MOVSW", ops...) }
+func (o Opcodes) MOVSW(ops ...Operand) { o.a.op("MOVSW", ops...) }
+func (o Opcodes) Movsww(ops ...Operand) { o.a.op("MOVSWW", ops...) }
+func (o Opcodes) MOVSWW(ops ...Operand) { o.a.op("MOVSWW", ops...) }
+func (o Opcodes) Movupd(ops ...Operand) { o.a.op("MOVUPD", ops...) }
+func (o Opcodes) MOVUPD(ops ...Operand) { o.a.op("MOVUPD", ops...) }
+func (o Opcodes) Movups(ops ...Operand) { o.a.op("MOVUPS", ops...) }
+func (o Opcodes) MOVUPS(ops ...Operand) { o.a.op("MOVUPS", ops...) }
+func (o Opcodes) Movw(ops ...Operand) { o.a.op("MOVW", ops...) }
+func (o Opcodes) MOVW(ops ...Operand) { o.a.op("MOVW", ops...) }
+func (o Opcodes) Movwlsx(ops ...Operand) { o.a.op("MOVWLSX", ops...) }
+func (o Opcodes) MOVWLSX(ops ...Operand) { o.a.op("MOVWLSX", ops...) }
+func (o Opcodes) Movwlzx(ops ...Operand) { o.a.op("MOVWLZX", ops...) }
+func (o Opcodes) MOVWLZX(ops ...Operand) { o.a.op("MOVWLZX", ops...) }
+func (o Opcodes) Movwqsx(ops ...Operand) { o.a.op("MOVWQSX", ops...) }
+func (o Opcodes) MOVWQSX(ops ...Operand) { o.a.op("MOVWQSX", ops...) }
+func (o Opcodes) Movwqzx(ops ...Operand) { o.a.op("MOVWQZX", ops...) }
+func (o Opcodes) MOVWQZX(ops ...Operand) { o.a.op("MOVWQZX", ops...) }
+func (o Opcodes) Movzww(ops ...Operand) { o.a.op("MOVZWW", ops...) }
+func (o Opcodes) MOVZWW(ops ...Operand) { o.a.op("MOVZWW", ops...) }
+func (o Opcodes) Mpsadbw(ops ...Operand) { o.a.op("MPSADBW", ops...) }
+func (o Opcodes) MPSADBW(ops ...Operand) { o.a.op("MPSADBW", ops...) }
+func (o Opcodes) Mulb(ops ...Operand) { o.a.op("MULB", ops...) }
+func (o Opcodes) MULB(ops ...Operand) { o.a.op("MULB", ops...) }
+func (o Opcodes) Mull(ops ...Operand) { o.a.op("MULL", ops...) }
+func (o Opcodes) MULL(ops ...Operand) { o.a.op("MULL", ops...) }
+func (o Opcodes) Mulpd(ops ...Operand) { o.a.op("MULPD", ops...) }
+func (o Opcodes) MULPD(ops ...Operand) { o.a.op("MULPD", ops...) }
+func (o Opcodes) Mulps(ops ...Operand) { o.a.op("MULPS", ops...) }
+func (o Opcodes) MULPS(ops ...Operand) { o.a.op("MULPS", ops...) }
+func (o Opcodes) Mulq(ops ...Operand) { o.a.op("MULQ", ops...) }
+func (o Opcodes) MULQ(ops ...Operand) { o.a.op("MULQ", ops...) }
+func (o Opcodes) Mulsd(ops ...Operand) { o.a.op("MULSD", ops...) }
+func (o Opcodes) MULSD(ops ...Operand) { o.a.op("MULSD", ops...) }
+func (o Opcodes) Mulss(ops ...Operand) { o.a.op("MULSS", ops...) }
+func (o Opcodes) MULSS(ops ...Operand) { o.a.op("MULSS", ops...) }
+func (o Opcodes) Mulw(ops ...Operand) { o.a.op("MULW", ops...) }
+func (o Opcodes) MULW(ops ...Operand) { o.a.op("MULW", ops...) }
+func (o Opcodes) Mulxl(ops ...Operand) { o.a.op("MULXL", ops...) }
+func (o Opcodes) MULXL(ops ...Operand) { o.a.op("MULXL", ops...) }
+func (o Opcodes) Mulxq(ops ...Operand) { o.a.op("MULXQ", ops...) }
+func (o Opcodes) MULXQ(ops ...Operand) { o.a.op("MULXQ", ops...) }
+func (o Opcodes) Mwait(ops ...Operand) { o.a.op("MWAIT", ops...) }
+func (o Opcodes) MWAIT(ops ...Operand) { o.a.op("MWAIT", ops...) }
+func (o Opcodes) Negb(ops ...Operand) { o.a.op("NEGB", ops...) }
+func (o Opcodes) NEGB(ops ...Operand) { o.a.op("NEGB", ops...) }
+func (o Opcodes) Negl(ops ...Operand) { o.a.op("NEGL", ops...) }
+func (o Opcodes) NEGL(ops ...Operand) { o.a.op("NEGL", ops...) }
+func (o Opcodes) Negq(ops ...Operand) { o.a.op("NEGQ", ops...) }
+func (o Opcodes) NEGQ(ops ...Operand) { o.a.op("NEGQ", ops...) }
+func (o Opcodes) Negw(ops ...Operand) { o.a.op("NEGW", ops...) }
+func (o Opcodes) NEGW(ops ...Operand) { o.a.op("NEGW", ops...) }
+func (o Opcodes) Nopl(ops ...Operand) { o.a.op("NOPL", ops...) }
+func (o Opcodes) NOPL(ops ...Operand) { o.a.op("NOPL", ops...) }
+func (o Opcodes) Nopw(ops ...Operand) { o.a.op("NOPW", ops...) }
+func (o Opcodes) NOPW(ops ...Operand) { o.a.op("NOPW", ops...) }
+func (o Opcodes) Notb(ops ...Operand) { o.a.op("NOTB", ops...) }
+func (o Opcodes) NOTB(ops ...Operand) { o.a.op("NOTB", ops...) }
+func (o Opcodes) Notl(ops ...Operand) { o.a.op("NOTL", ops...) }
+func (o Opcodes) NOTL(ops ...Operand) { o.a.op("NOTL", ops...) }
+func (o Opcodes) Notq(ops ...Operand) { o.a.op("NOTQ", ops...) }
+func (o Opcodes) NOTQ(ops ...Operand) { o.a.op("NOTQ", ops...) }
+func (o Opcodes) Notw(ops ...Operand) { o.a.op("NOTW", ops...) }
+func (o Opcodes) NOTW(ops ...Operand) { o.a.op("NOTW", ops...) }
+func (o Opcodes) Orb(ops ...Operand) { o.a.op("ORB", ops...) }
+func (o Opcodes) ORB(ops ...Operand) { o.a.op("ORB", ops...) }
+func (o Opcodes) Orl(ops ...Operand) { o.a.op("ORL", ops...) }
+func (o Opcodes) ORL(ops ...Operand) { o.a.op("ORL", ops...) }
+func (o Opcodes) Orpd(ops ...Operand) { o.a.op("ORPD", ops...) }
+func (o Opcodes) ORPD(ops ...Operand) { o.a.op("ORPD", ops...) }
+func (o Opcodes) Orps(ops ...Operand) { o.a.op("ORPS", ops...) }
+func (o Opcodes) ORPS(ops ...Operand) { o.a.op("ORPS", ops...) }
+func (o Opcodes) Orq(ops ...Operand) { o.a.op("ORQ", ops...) }
+func (o Opcodes) ORQ(ops ...Operand) { o.a.op("ORQ", ops...) }
+func (o Opcodes) Orw(ops ...Operand) { o.a.op("ORW", ops...) }
+func (o Opcodes) ORW(ops ...Operand) { o.a.op("ORW", ops...) }
+func (o Opcodes) Outb(ops ...Operand) { o.a.op("OUTB", ops...) }
+func (o Opcodes) OUTB(ops ...Operand) { o.a.op("OUTB", ops...) }
+func (o Opcodes) Outl(ops ...Operand) { o.a.op("OUTL", ops...) }
+func (o Opcodes) OUTL(ops ...Operand) { o.a.op("OUTL", ops...) }
+func (o Opcodes) Outsb(ops ...Operand) { o.a.op("OUTSB", ops...) }
+func (o Opcodes) OUTSB(ops ...Operand) { o.a.op("OUTSB", ops...) }
+func (o Opcodes) Outsl(ops ...Operand) { o.a.op("OUTSL", ops...) }
+func (o Opcodes) OUTSL(ops ...Operand) { o.a.op("OUTSL", ops...) }
+func (o Opcodes) Outsw(ops ...Operand) { o.a.op("OUTSW", ops...) }
+func (o Opcodes) OUTSW(ops ...Operand) { o.a.op("OUTSW", ops...) }
+func (o Opcodes) Outw(ops ...Operand) { o.a.op("OUTW", ops...) }
+func (o Opcodes) OUTW(ops ...Operand) { o.a.op("OUTW", ops...) }
+func (o Opcodes) Pabsb(ops ...Operand) { o.a.op("PABSB", ops...) }
+func (o Opcodes) PABSB(ops ...Operand) { o.a.op("PABSB", ops...) }
+func (o Opcodes) Pabsd(ops ...Operand) { o.a.op("PABSD", ops...) }
+func (o Opcodes) PABSD(ops ...Operand) { o.a.op("PABSD", ops...) }
+func (o Opcodes) Pabsw(ops ...Operand) { o.a.op("PABSW", ops...) }
+func (o Opcodes) PABSW(ops ...Operand) { o.a.op("PABSW", ops...) }
+func (o Opcodes) Packsslw(ops ...Operand) { o.a.op("PACKSSLW", ops...) }
+func (o Opcodes) PACKSSLW(ops ...Operand) { o.a.op("PACKSSLW", ops...) }
+func (o Opcodes) Packsswb(ops ...Operand) { o.a.op("PACKSSWB", ops...) }
+func (o Opcodes) PACKSSWB(ops ...Operand) { o.a.op("PACKSSWB", ops...) }
+func (o Opcodes) Packusdw(ops ...Operand) { o.a.op("PACKUSDW", ops...) }
+func (o Opcodes) PACKUSDW(ops ...Operand) { o.a.op("PACKUSDW", ops...) }
+func (o Opcodes) Packuswb(ops ...Operand) { o.a.op("PACKUSWB", ops...) }
+func (o Opcodes) PACKUSWB(ops ...Operand) { o.a.op("PACKUSWB", ops...) }
+func (o Opcodes) Paddb(ops ...Operand) { o.a.op("PADDB", ops...) }
+func (o Opcodes) PADDB(ops ...Operand) { o.a.op("PADDB", ops...) }
+func (o Opcodes) Paddl(ops ...Operand) { o.a.op("PADDL", ops...) }
+func (o Opcodes) PADDL(ops ...Operand) { o.a.op("PADDL", ops...) }
+func (o Opcodes) Paddq(ops ...Operand) { o.a.op("PADDQ", ops...) }
+func (o Opcodes) PADDQ(ops ...Operand) { o.a.op("PADDQ", ops...) }
+func (o Opcodes) Paddsb(ops ...Operand) { o.a.op("PADDSB", ops...) }
+func (o Opcodes) PADDSB(ops ...Operand) { o.a.op("PADDSB", ops...) }
+func (o Opcodes) Paddsw(ops ...Operand) { o.a.op("PADDSW", ops...) }
+func (o Opcodes) PADDSW(ops ...Operand) { o.a.op("PADDSW", ops...) }
+func (o Opcodes) Paddusb(ops ...Operand) { o.a.op("PADDUSB", ops...) }
+func (o Opcodes) PADDUSB(ops ...Operand) { o.a.op("PADDUSB", ops...) }
+func (o Opcodes) Paddusw(ops ...Operand) { o.a.op("PADDUSW", ops...) }
+func (o Opcodes) PADDUSW(ops ...Operand) { o.a.op("PADDUSW", ops...) }
+func (o Opcodes) Paddw(ops ...Operand) { o.a.op("PADDW", ops...) }
+func (o Opcodes) PADDW(ops ...Operand) { o.a.op("PADDW", ops...) }
+func (o Opcodes) Palignr(ops ...Operand) { o.a.op("PALIGNR", ops...) }
+func (o Opcodes) PALIGNR(ops ...Operand) { o.a.op("PALIGNR", ops...) }
+func (o Opcodes) Pand(ops ...Operand) { o.a.op("PAND", ops...) }
+func (o Opcodes) PAND(ops ...Operand) { o.a.op("PAND", ops...) }
+func (o Opcodes) Pandn(ops ...Operand) { o.a.op("PANDN", ops...) }
+func (o Opcodes) PANDN(ops ...Operand) { o.a.op("PANDN", ops...) }
+func (o Opcodes) Pause(ops ...Operand) { o.a.op("PAUSE", ops...) }
+func (o Opcodes) PAUSE(ops ...Operand) { o.a.op("PAUSE", ops...) }
+func (o Opcodes) Pavgb(ops ...Operand) { o.a.op("PAVGB", ops...) }
+func (o Opcodes) PAVGB(ops ...Operand) { o.a.op("PAVGB", ops...) }
+func (o Opcodes) Pavgw(ops ...Operand) { o.a.op("PAVGW", ops...) }
+func (o Opcodes) PAVGW(ops ...Operand) { o.a.op("PAVGW", ops...) }
+func (o Opcodes) Pblendvb(ops ...Operand) { o.a.op("PBLENDVB", ops...) }
+func (o Opcodes) PBLENDVB(ops ...Operand) { o.a.op("PBLENDVB", ops...) }
+func (o Opcodes) Pblendw(ops ...Operand) { o.a.op("PBLENDW", ops...) }
+func (o Opcodes) PBLENDW(ops ...Operand) { o.a.op("PBLENDW", ops...) }
+func (o Opcodes) Pclmulqdq(ops ...Operand) { o.a.op("PCLMULQDQ", ops...) }
+func (o Opcodes) PCLMULQDQ(ops ...Operand) { o.a.op("PCLMULQDQ", ops...) }
+func (o Opcodes) Pcmpeqb(ops ...Operand) { o.a.op("PCMPEQB", ops...) }
+func (o Opcodes) PCMPEQB(ops ...Operand) { o.a.op("PCMPEQB", ops...) }
+func (o Opcodes) Pcmpeql(ops ...Operand) { o.a.op("PCMPEQL", ops...) }
+func (o Opcodes) PCMPEQL(ops ...Operand) { o.a.op("PCMPEQL", ops...) }
+func (o Opcodes) Pcmpeqq(ops ...Operand) { o.a.op("PCMPEQQ", ops...) }
+func (o Opcodes) PCMPEQQ(ops ...Operand) { o.a.op("PCMPEQQ", ops...) }
+func (o Opcodes) Pcmpeqw(ops ...Operand) { o.a.op("PCMPEQW", ops...) }
+func (o Opcodes) PCMPEQW(ops ...Operand) { o.a.op("PCMPEQW", ops...) }
+func (o Opcodes) Pcmpestri(ops ...Operand) { o.a.op("PCMPESTRI", ops...) }
+func (o Opcodes) PCMPESTRI(ops ...Operand) { o.a.op("PCMPESTRI", ops...) }
+func (o Opcodes) Pcmpestrm(ops ...Operand) { o.a.op("PCMPESTRM", ops...) }
+func (o Opcodes) PCMPESTRM(ops ...Operand) { o.a.op("PCMPESTRM", ops...) }
+func (o Opcodes) Pcmpgtb(ops ...Operand) { o.a.op("PCMPGTB", ops...) }
+func (o Opcodes) PCMPGTB(ops ...Operand) { o.a.op("PCMPGTB", ops...) }
+func (o Opcodes) Pcmpgtl(ops ...Operand) { o.a.op("PCMPGTL", ops...) }
+func (o Opcodes) PCMPGTL(ops ...Operand) { o.a.op("PCMPGTL", ops...) }
+func (o Opcodes) Pcmpgtq(ops ...Operand) { o.a.op("PCMPGTQ", ops...) }
+func (o Opcodes) PCMPGTQ(ops ...Operand) { o.a.op("PCMPGTQ", ops...) }
+func (o Opcodes) Pcmpgtw(ops ...Operand) { o.a.op("PCMPGTW", ops...) }
+func (o Opcodes) PCMPGTW(ops ...Operand) { o.a.op("PCMPGTW", ops...) }
+func (o Opcodes) Pcmpistri(ops ...Operand) { o.a.op("PCMPISTRI", ops...) }
+func (o Opcodes) PCMPISTRI(ops ...Operand) { o.a.op("PCMPISTRI", ops...) }
+func (o Opcodes) Pcmpistrm(ops ...Operand) { o.a.op("PCMPISTRM", ops...) }
+func (o Opcodes) PCMPISTRM(ops ...Operand) { o.a.op("PCMPISTRM", ops...) }
+func (o Opcodes) Pdepl(ops ...Operand) { o.a.op("PDEPL", ops...) }
+func (o Opcodes) PDEPL(ops ...Operand) { o.a.op("PDEPL", ops...) }
+func (o Opcodes) Pdepq(ops ...Operand) { o.a.op("PDEPQ", ops...) }
+func (o Opcodes) PDEPQ(ops ...Operand) { o.a.op("PDEPQ", ops...) }
+func (o Opcodes) Pextl(ops ...Operand) { o.a.op("PEXTL", ops...) }
+func (o Opcodes) PEXTL(ops ...Operand) { o.a.op("PEXTL", ops...) }
+func (o Opcodes) Pextq(ops ...Operand) { o.a.op("PEXTQ", ops...) }
+func (o Opcodes) PEXTQ(ops ...Operand) { o.a.op("PEXTQ", ops...) }
+func (o Opcodes) Pextrb(ops ...Operand) { o.a.op("PEXTRB", ops...) }
+func (o Opcodes) PEXTRB(ops ...Operand) { o.a.op("PEXTRB", ops...) }
+func (o Opcodes) Pextrd(ops ...Operand) { o.a.op("PEXTRD", ops...) }
+func (o Opcodes) PEXTRD(ops ...Operand) { o.a.op("PEXTRD", ops...) }
+func (o Opcodes) Pextrq(ops ...Operand) { o.a.op("PEXTRQ", ops...) }
+func (o Opcodes) PEXTRQ(ops ...Operand) { o.a.op("PEXTRQ", ops...) }
+func (o Opcodes) Pextrw(ops ...Operand) { o.a.op("PEXTRW", ops...) }
+func (o Opcodes) PEXTRW(ops ...Operand) { o.a.op("PEXTRW", ops...) }
+func (o Opcodes) Phaddd(ops ...Operand) { o.a.op("PHADDD", ops...) }
+func (o Opcodes) PHADDD(ops ...Operand) { o.a.op("PHADDD", ops...) }
+func (o Opcodes) Phaddsw(ops ...Operand) { o.a.op("PHADDSW", ops...) }
+func (o Opcodes) PHADDSW(ops ...Operand) { o.a.op("PHADDSW", ops...) }
+func (o Opcodes) Phaddw(ops ...Operand) { o.a.op("PHADDW", ops...) }
+func (o Opcodes) PHADDW(ops ...Operand) { o.a.op("PHADDW", ops...) }
+func (o Opcodes) Phminposuw(ops ...Operand) { o.a.op("PHMINPOSUW", ops...) }
+func (o Opcodes) PHMINPOSUW(ops ...Operand) { o.a.op("PHMINPOSUW", ops...) }
+func (o Opcodes) Phsubd(ops ...Operand) { o.a.op("PHSUBD", ops...) }
+func (o Opcodes) PHSUBD(ops ...Operand) { o.a.op("PHSUBD", ops...) }
+func (o Opcodes) Phsubsw(ops ...Operand) { o.a.op("PHSUBSW", ops...) }
+func (o Opcodes) PHSUBSW(ops ...Operand) { o.a.op("PHSUBSW", ops...) }
+func (o Opcodes) Phsubw(ops ...Operand) { o.a.op("PHSUBW", ops...) }
+func (o Opcodes) PHSUBW(ops ...Operand) { o.a.op("PHSUBW", ops...) }
+func (o Opcodes) Pinsrb(ops ...Operand) { o.a.op("PINSRB", ops...) }
+func (o Opcodes) PINSRB(ops ...Operand) { o.a.op("PINSRB", ops...) }
+func (o Opcodes) Pinsrd(ops ...Operand) { o.a.op("PINSRD", ops...) }
+func (o Opcodes) PINSRD(ops ...Operand) { o.a.op("PINSRD", ops...) }
+func (o Opcodes) Pinsrq(ops ...Operand) { o.a.op("PINSRQ", ops...) }
+func (o Opcodes) PINSRQ(ops ...Operand) { o.a.op("PINSRQ", ops...) }
+func (o Opcodes) Pinsrw(ops ...Operand) { o.a.op("PINSRW", ops...) }
+func (o Opcodes) PINSRW(ops ...Operand) { o.a.op("PINSRW", ops...) }
+func (o Opcodes) Pmaddubsw(ops ...Operand) { o.a.op("PMADDUBSW", ops...) }
+func (o Opcodes) PMADDUBSW(ops ...Operand) { o.a.op("PMADDUBSW", ops...) }
+func (o Opcodes) Pmaddwl(ops ...Operand) { o.a.op("PMADDWL", ops...) }
+func (o Opcodes) PMADDWL(ops ...Operand) { o.a.op("PMADDWL", ops...) }
+func (o Opcodes) Pmaxsb(ops ...Operand) { o.a.op("PMAXSB", ops...) }
+func (o Opcodes) PMAXSB(ops ...Operand) { o.a.op("PMAXSB", ops...) }
+func (o Opcodes) Pmaxsd(ops ...Operand) { o.a.op("PMAXSD", ops...) }
+func (o Opcodes) PMAXSD(ops ...Operand) { o.a.op("PMAXSD", ops...) }
+func (o Opcodes) Pmaxsw(ops ...Operand) { o.a.op("PMAXSW", ops...) }
+func (o Opcodes) PMAXSW(ops ...Operand) { o.a.op("PMAXSW", ops...) }
+func (o Opcodes) Pmaxub(ops ...Operand) { o.a.op("PMAXUB", ops...) }
+func (o Opcodes) PMAXUB(ops ...Operand) { o.a.op("PMAXUB", ops...) }
+func (o Opcodes) Pmaxud(ops ...Operand) { o.a.op("PMAXUD", ops...) }
+func (o Opcodes) PMAXUD(ops ...Operand) { o.a.op("PMAXUD", ops...) }
+func (o Opcodes) Pmaxuw(ops ...Operand) { o.a.op("PMAXUW", ops...) }
+func (o Opcodes) PMAXUW(ops ...Operand) { o.a.op("PMAXUW", ops...) }
+func (o Opcodes) Pminsb(ops ...Operand) { o.a.op("PMINSB", ops...) }
+func (o Opcodes) PMINSB(ops ...Operand) { o.a.op("PMINSB", ops...) }
+func (o Opcodes) Pminsd(ops ...Operand) { o.a.op("PMINSD", ops...) }
+func (o Opcodes) PMINSD(ops ...Operand) { o.a.op("PMINSD", ops...) }
+func (o Opcodes) Pminsw(ops ...Operand) { o.a.op("PMINSW", ops...) }
+func (o Opcodes) PMINSW(ops ...Operand) { o.a.op("PMINSW", ops...) }
+func (o Opcodes) Pminub(ops ...Operand) { o.a.op("PMINUB", ops...) }
+func (o Opcodes) PMINUB(ops ...Operand) { o.a.op("PMINUB", ops...) }
+func (o Opcodes) Pminud(ops ...Operand) { o.a.op("PMINUD", ops...) }
+func (o Opcodes) PMINUD(ops ...Operand) { o.a.op("PMINUD", ops...) }
+func (o Opcodes) Pminuw(ops ...Operand) { o.a.op("PMINUW", ops...) }
+func (o Opcodes) PMINUW(ops ...Operand) { o.a.op("PMINUW", ops...) }
+func (o Opcodes) Pmovmskb(ops ...Operand) { o.a.op("PMOVMSKB", ops...) }
+func (o Opcodes) PMOVMSKB(ops ...Operand) { o.a.op("PMOVMSKB", ops...) }
+func (o Opcodes) Pmovsxbd(ops ...Operand) { o.a.op("PMOVSXBD", ops...) }
+func (o Opcodes) PMOVSXBD(ops ...Operand) { o.a.op("PMOVSXBD", ops...) }
+func (o Opcodes) Pmovsxbq(ops ...Operand) { o.a.op("PMOVSXBQ", ops...) }
+func (o Opcodes) PMOVSXBQ(ops ...Operand) { o.a.op("PMOVSXBQ", ops...) }
+func (o Opcodes) Pmovsxbw(ops ...Operand) { o.a.op("PMOVSXBW", ops...) }
+func (o Opcodes) PMOVSXBW(ops ...Operand) { o.a.op("PMOVSXBW", ops...) }
+func (o Opcodes) Pmovsxdq(ops ...Operand) { o.a.op("PMOVSXDQ", ops...) }
+func (o Opcodes) PMOVSXDQ(ops ...Operand) { o.a.op("PMOVSXDQ", ops...) }
+func (o Opcodes) Pmovsxwd(ops ...Operand) { o.a.op("PMOVSXWD", ops...) }
+func (o Opcodes) PMOVSXWD(ops ...Operand) { o.a.op("PMOVSXWD", ops...) }
+func (o Opcodes) Pmovsxwq(ops ...Operand) { o.a.op("PMOVSXWQ", ops...) }
+func (o Opcodes) PMOVSXWQ(ops ...Operand) { o.a.op("PMOVSXWQ", ops...) }
+func (o Opcodes) Pmovzxbd(ops ...Operand) { o.a.op("PMOVZXBD", ops...) }
+func (o Opcodes) PMOVZXBD(ops ...Operand) { o.a.op("PMOVZXBD", ops...) }
+func (o Opcodes) Pmovzxbq(ops ...Operand) { o.a.op("PMOVZXBQ", ops...) }
+func (o Opcodes) PMOVZXBQ(ops ...Operand) { o.a.op("PMOVZXBQ", ops...) }
+func (o Opcodes) Pmovzxbw(ops ...Operand) { o.a.op("PMOVZXBW", ops...) }
+func (o Opcodes) PMOVZXBW(ops ...Operand) { o.a.op("PMOVZXBW", ops...) }
+func (o Opcodes) Pmovzxdq(ops ...Operand) { o.a.op("PMOVZXDQ", ops...) }
+func (o Opcodes) PMOVZXDQ(ops ...Operand) { o.a.op("PMOVZXDQ", ops...) }
+func (o Opcodes) Pmovzxwd(ops ...Operand) { o.a.op("PMOVZXWD", ops...) }
+func (o Opcodes) PMOVZXWD(ops ...Operand) { o.a.op("PMOVZXWD", ops...) }
+func (o Opcodes) Pmovzxwq(ops ...Operand) { o.a.op("PMOVZXWQ", ops...) }
+func (o Opcodes) PMOVZXWQ(ops ...Operand) { o.a.op("PMOVZXWQ", ops...) }
+func (o Opcodes) Pmuldq(ops ...Operand) { o.a.op("PMULDQ", ops...) }
+func (o Opcodes) PMULDQ(ops ...Operand) { o.a.op("PMULDQ", ops...) }
+func (o Opcodes) Pmulhrsw(ops ...Operand) { o.a.op("PMULHRSW", ops...) }
+func (o Opcodes) PMULHRSW(ops ...Operand) { o.a.op("PMULHRSW", ops...) }
+func (o Opcodes) Pmulhuw(ops ...Operand) { o.a.op("PMULHUW", ops...) }
+func (o Opcodes) PMULHUW(ops ...Operand) { o.a.op("PMULHUW", ops...) }
+func (o Opcodes) Pmulhw(ops ...Operand) { o.a.op("PMULHW", ops...) }
+func (o Opcodes) PMULHW(ops ...Operand) { o.a.op("PMULHW", ops...) }
+func (o Opcodes) Pmulld(ops ...Operand) { o.a.op("PMULLD", ops...) }
+func (o Opcodes) PMULLD(ops ...Operand) { o.a.op("PMULLD", ops...) }
+func (o Opcodes) Pmullw(ops ...Operand) { o.a.op("PMULLW", ops...) }
+func (o Opcodes) PMULLW(ops ...Operand) { o.a.op("PMULLW", ops...) }
+func (o Opcodes) Pmululq(ops ...Operand) { o.a.op("PMULULQ", ops...) }
+func (o Opcodes) PMULULQ(ops ...Operand) { o.a.op("PMULULQ", ops...) }
+func (o Opcodes) Popal(ops ...Operand) { o.a.op("POPAL", ops...) }
+func (o Opcodes) POPAL(ops ...Operand) { o.a.op("POPAL", ops...) }
+func (o Opcodes) Popaw(ops ...Operand) { o.a.op("POPAW", ops...) }
+func (o Opcodes) POPAW(ops ...Operand) { o.a.op("POPAW", ops...) }
+func (o Opcodes) Popcntl(ops ...Operand) { o.a.op("POPCNTL", ops...) }
+func (o Opcodes) POPCNTL(ops ...Operand) { o.a.op("POPCNTL", ops...) }
+func (o Opcodes) Popcntq(ops ...Operand) { o.a.op("POPCNTQ", ops...) }
+func (o Opcodes) POPCNTQ(ops ...Operand) { o.a.op("POPCNTQ", ops...) }
+func (o Opcodes) Popcntw(ops ...Operand) { o.a.op("POPCNTW", ops...) }
+func (o Opcodes) POPCNTW(ops ...Operand) { o.a.op("POPCNTW", ops...) }
+func (o Opcodes) Popfl(ops ...Operand) { o.a.op("POPFL", ops...) }
+func (o Opcodes) POPFL(ops ...Operand) { o.a.op("POPFL", ops...) }
+func (o Opcodes) Popfq(ops ...Operand) { o.a.op("POPFQ", ops...) }
+func (o Opcodes) POPFQ(ops ...Operand) { o.a.op("POPFQ", ops...) }
+func (o Opcodes) Popfw(ops ...Operand) { o.a.op("POPFW", ops...) }
+func (o Opcodes) POPFW(ops ...Operand) { o.a.op("POPFW", ops...) }
+func (o Opcodes) Popl(ops ...Operand) { o.a.op("POPL", ops...) }
+func (o Opcodes) POPL(ops ...Operand) { o.a.op("POPL", ops...) }
+func (o Opcodes) Popq(ops ...Operand) { o.a.op("POPQ", ops...) }
+func (o Opcodes) POPQ(ops ...Operand) { o.a.op("POPQ", ops...) }
+func (o Opcodes) Popw(ops ...Operand) { o.a.op("POPW", ops...) }
+func (o Opcodes) POPW(ops ...Operand) { o.a.op("POPW", ops...) }
+func (o Opcodes) Por(ops ...Operand) { o.a.op("POR", ops...) }
+func (o Opcodes) POR(ops ...Operand) { o.a.op("POR", ops...) }
+func (o Opcodes) Prefetchnta(ops ...Operand) { o.a.op("PREFETCHNTA", ops...) }
+func (o Opcodes) PREFETCHNTA(ops ...Operand) { o.a.op("PREFETCHNTA", ops...) }
+func (o Opcodes) Prefetcht0(ops ...Operand) { o.a.op("PREFETCHT0", ops...) }
+func (o Opcodes) PREFETCHT0(ops ...Operand) { o.a.op("PREFETCHT0", ops...) }
+func (o Opcodes) Prefetcht1(ops ...Operand) { o.a.op("PREFETCHT1", ops...) }
+func (o Opcodes) PREFETCHT1(ops ...Operand) { o.a.op("PREFETCHT1", ops...) }
+func (o Opcodes) Prefetcht2(ops ...Operand) { o.a.op("PREFETCHT2", ops...) }
+func (o Opcodes) PREFETCHT2(ops ...Operand) { o.a.op("PREFETCHT2", ops...) }
+func (o Opcodes) Psadbw(ops ...Operand) { o.a.op("PSADBW", ops...) }
+func (o Opcodes) PSADBW(ops ...Operand) { o.a.op("PSADBW", ops...) }
+func (o Opcodes) Pshufb(ops ...Operand) { o.a.op("PSHUFB", ops...) }
+func (o Opcodes) PSHUFB(ops ...Operand) { o.a.op("PSHUFB", ops...) }
+func (o Opcodes) Pshufd(ops ...Operand) { o.a.op("PSHUFD", ops...) }
+func (o Opcodes) PSHUFD(ops ...Operand) { o.a.op("PSHUFD", ops...) }
+func (o Opcodes) Pshufhw(ops ...Operand) { o.a.op("PSHUFHW", ops...) }
+func (o Opcodes) PSHUFHW(ops ...Operand) { o.a.op("PSHUFHW", ops...) }
+func (o Opcodes) Pshufl(ops ...Operand) { o.a.op("PSHUFL", ops...) }
+func (o Opcodes) PSHUFL(ops ...Operand) { o.a.op("PSHUFL", ops...) }
+func (o Opcodes) Pshuflw(ops ...Operand) { o.a.op("PSHUFLW", ops...) }
+func (o Opcodes) PSHUFLW(ops ...Operand) { o.a.op("PSHUFLW", ops...) }
+func (o Opcodes) Pshufw(ops ...Operand) { o.a.op("PSHUFW", ops...) }
+func (o Opcodes) PSHUFW(ops ...Operand) { o.a.op("PSHUFW", ops...) }
+func (o Opcodes) Psignb(ops ...Operand) { o.a.op("PSIGNB", ops...) }
+func (o Opcodes) PSIGNB(ops ...Operand) { o.a.op("PSIGNB", ops...) }
+func (o Opcodes) Psignd(ops ...Operand) { o.a.op("PSIGND", ops...) }
+func (o Opcodes) PSIGND(ops ...Operand) { o.a.op("PSIGND", ops...) }
+func (o Opcodes) Psignw(ops ...Operand) { o.a.op("PSIGNW", ops...) }
+func (o Opcodes) PSIGNW(ops ...Operand) { o.a.op("PSIGNW", ops...) }
+func (o Opcodes) Pslll(ops ...Operand) { o.a.op("PSLLL", ops...) }
+func (o Opcodes) PSLLL(ops ...Operand) { o.a.op("PSLLL", ops...) }
+func (o Opcodes) Psllo(ops ...Operand) { o.a.op("PSLLO", ops...) }
+func (o Opcodes) PSLLO(ops ...Operand) { o.a.op("PSLLO", ops...) }
+func (o Opcodes) Psllq(ops ...Operand) { o.a.op("PSLLQ", ops...) }
+func (o Opcodes) PSLLQ(ops ...Operand) { o.a.op("PSLLQ", ops...) }
+func (o Opcodes) Psllw(ops ...Operand) { o.a.op("PSLLW", ops...) }
+func (o Opcodes) PSLLW(ops ...Operand) { o.a.op("PSLLW", ops...) }
+func (o Opcodes) Psral(ops ...Operand) { o.a.op("PSRAL", ops...) }
+func (o Opcodes) PSRAL(ops ...Operand) { o.a.op("PSRAL", ops...) }
+func (o Opcodes) Psraw(ops ...Operand) { o.a.op("PSRAW", ops...) }
+func (o Opcodes) PSRAW(ops ...Operand) { o.a.op("PSRAW", ops...) }
+func (o Opcodes) Psrll(ops ...Operand) { o.a.op("PSRLL", ops...) }
+func (o Opcodes) PSRLL(ops ...Operand) { o.a.op("PSRLL", ops...) }
+func (o Opcodes) Psrlo(ops ...Operand) { o.a.op("PSRLO", ops...) }
+func (o Opcodes) PSRLO(ops ...Operand) { o.a.op("PSRLO", ops...) }
+func (o Opcodes) Psrlq(ops ...Operand) { o.a.op("PSRLQ", ops...) }
+func (o Opcodes) PSRLQ(ops ...Operand) { o.a.op("PSRLQ", ops...) }
+func (o Opcodes) Psrlw(ops ...Operand) { o.a.op("PSRLW", ops...) }
+func (o Opcodes) PSRLW(ops ...Operand) { o.a.op("PSRLW", ops...) }
+func (o Opcodes) Psubb(ops ...Operand) { o.a.op("PSUBB", ops...) }
+func (o Opcodes) PSUBB(ops ...Operand) { o.a.op("PSUBB", ops...) }
+func (o Opcodes) Psubl(ops ...Operand) { o.a.op("PSUBL", ops...) }
+func (o Opcodes) PSUBL(ops ...Operand) { o.a.op("PSUBL", ops...) }
+func (o Opcodes) Psubq(ops ...Operand) { o.a.op("PSUBQ", ops...) }
+func (o Opcodes) PSUBQ(ops ...Operand) { o.a.op("PSUBQ", ops...) }
+func (o Opcodes) Psubsb(ops ...Operand) { o.a.op("PSUBSB", ops...) }
+func (o Opcodes) PSUBSB(ops ...Operand) { o.a.op("PSUBSB", ops...) }
+func (o Opcodes) Psubsw(ops ...Operand) { o.a.op("PSUBSW", ops...) }
+func (o Opcodes) PSUBSW(ops ...Operand) { o.a.op("PSUBSW", ops...) }
+func (o Opcodes) Psubusb(ops ...Operand) { o.a.op("PSUBUSB", ops...) }
+func (o Opcodes) PSUBUSB(ops ...Operand) { o.a.op("PSUBUSB", ops...) }
+func (o Opcodes) Psubusw(ops ...Operand) { o.a.op("PSUBUSW", ops...) }
+func (o Opcodes) PSUBUSW(ops ...Operand) { o.a.op("PSUBUSW", ops...) }
+func (o Opcodes) Psubw(ops ...Operand) { o.a.op("PSUBW", ops...) }
+func (o Opcodes) PSUBW(ops ...Operand) { o.a.op("PSUBW", ops...) }
+func (o Opcodes) Ptest(ops ...Operand) { o.a.op("PTEST", ops...) }
+func (o Opcodes) PTEST(ops ...Operand) { o.a.op("PTEST", ops...) }
+func (o Opcodes) Punpckhbw(ops ...Operand) { o.a.op("PUNPCKHBW", ops...) }
+func (o Opcodes) PUNPCKHBW(ops ...Operand) { o.a.op("PUNPCKHBW", ops...) }
+func (o Opcodes) Punpckhlq(ops ...Operand) { o.a.op("PUNPCKHLQ", ops...) }
+func (o Opcodes) PUNPCKHLQ(ops ...Operand) { o.a.op("PUNPCKHLQ", ops...) }
+func (o Opcodes) Punpckhqdq(ops ...Operand) { o.a.op("PUNPCKHQDQ", ops...) }
+func (o Opcodes) PUNPCKHQDQ(ops ...Operand) { o.a.op("PUNPCKHQDQ", ops...) }
+func (o Opcodes) Punpckhwl(ops ...Operand) { o.a.op("PUNPCKHWL", ops...) }
+func (o Opcodes) PUNPCKHWL(ops ...Operand) { o.a.op("PUNPCKHWL", ops...) }
+func (o Opcodes) Punpcklbw(ops ...Operand) { o.a.op("PUNPCKLBW", ops...) }
+func (o Opcodes) PUNPCKLBW(ops ...Operand) { o.a.op("PUNPCKLBW", ops...) }
+func (o Opcodes) Punpckllq(ops ...Operand) { o.a.op("PUNPCKLLQ", ops...) }
+func (o Opcodes) PUNPCKLLQ(ops ...Operand) { o.a.op("PUNPCKLLQ", ops...) }
+func (o Opcodes) Punpcklqdq(ops ...Operand) { o.a.op("PUNPCKLQDQ", ops...) }
+func (o Opcodes) PUNPCKLQDQ(ops ...Operand) { o.a.op("PUNPCKLQDQ", ops...) }
+func (o Opcodes) Punpcklwl(ops ...Operand) { o.a.op("PUNPCKLWL", ops...) }
+func (o Opcodes) PUNPCKLWL(ops ...Operand) { o.a.op("PUNPCKLWL", ops...) }
+func (o Opcodes) Pushal(ops ...Operand) { o.a.op("PUSHAL", ops...) }
+func (o Opcodes) PUSHAL(ops ...Operand) { o.a.op("PUSHAL", ops...) }
+func (o Opcodes) Pushaw(ops ...Operand) { o.a.op("PUSHAW", ops...) }
+func (o Opcodes) PUSHAW(ops ...Operand) { o.a.op("PUSHAW", ops...) }
+func (o Opcodes) Pushfl(ops ...Operand) { o.a.op("PUSHFL", ops...) }
+func (o Opcodes) PUSHFL(ops ...Operand) { o.a.op("PUSHFL", ops...) }
+func (o Opcodes) Pushfq(ops ...Operand) { o.a.op("PUSHFQ", ops...) }
+func (o Opcodes) PUSHFQ(ops ...Operand) { o.a.op("PUSHFQ", ops...) }
+func (o Opcodes) Pushfw(ops ...Operand) { o.a.op("PUSHFW", ops...) }
+func (o Opcodes) PUSHFW(ops ...Operand) { o.a.op("PUSHFW", ops...) }
+func (o Opcodes) Pushl(ops ...Operand) { o.a.op("PUSHL", ops...) }
+func (o Opcodes) PUSHL(ops ...Operand) { o.a.op("PUSHL", ops...) }
+func (o Opcodes) Pushq(ops ...Operand) { o.a.op("PUSHQ", ops...) }
+func (o Opcodes) PUSHQ(ops ...Operand) { o.a.op("PUSHQ", ops...) }
+func (o Opcodes) Pushw(ops ...Operand) { o.a.op("PUSHW", ops...) }
+func (o Opcodes) PUSHW(ops ...Operand) { o.a.op("PUSHW", ops...) }
+func (o Opcodes) Pxor(ops ...Operand) { o.a.op("PXOR", ops...) }
+func (o Opcodes) PXOR(ops ...Operand) { o.a.op("PXOR", ops...) }
+func (o Opcodes) Quad(ops ...Operand) { o.a.op("QUAD", ops...) }
+func (o Opcodes) QUAD(ops ...Operand) { o.a.op("QUAD", ops...) }
+func (o Opcodes) Rclb(ops ...Operand) { o.a.op("RCLB", ops...) }
+func (o Opcodes) RCLB(ops ...Operand) { o.a.op("RCLB", ops...) }
+func (o Opcodes) Rcll(ops ...Operand) { o.a.op("RCLL", ops...) }
+func (o Opcodes) RCLL(ops ...Operand) { o.a.op("RCLL", ops...) }
+func (o Opcodes) Rclq(ops ...Operand) { o.a.op("RCLQ", ops...) }
+func (o Opcodes) RCLQ(ops ...Operand) { o.a.op("RCLQ", ops...) }
+func (o Opcodes) Rclw(ops ...Operand) { o.a.op("RCLW", ops...) }
+func (o Opcodes) RCLW(ops ...Operand) { o.a.op("RCLW", ops...) }
+func (o Opcodes) Rcpps(ops ...Operand) { o.a.op("RCPPS", ops...) }
+func (o Opcodes) RCPPS(ops ...Operand) { o.a.op("RCPPS", ops...) }
+func (o Opcodes) Rcpss(ops ...Operand) { o.a.op("RCPSS", ops...) }
+func (o Opcodes) RCPSS(ops ...Operand) { o.a.op("RCPSS", ops...) }
+func (o Opcodes) Rcrb(ops ...Operand) { o.a.op("RCRB", ops...) }
+func (o Opcodes) RCRB(ops ...Operand) { o.a.op("RCRB", ops...) }
+func (o Opcodes) Rcrl(ops ...Operand) { o.a.op("RCRL", ops...) }
+func (o Opcodes) RCRL(ops ...Operand) { o.a.op("RCRL", ops...) }
+func (o Opcodes) Rcrq(ops ...Operand) { o.a.op("RCRQ", ops...) }
+func (o Opcodes) RCRQ(ops ...Operand) { o.a.op("RCRQ", ops...) }
+func (o Opcodes) Rcrw(ops ...Operand) { o.a.op("RCRW", ops...) }
+func (o Opcodes) RCRW(ops ...Operand) { o.a.op("RCRW", ops...) }
+func (o Opcodes) Rdfsbasel(ops ...Operand) { o.a.op("RDFSBASEL", ops...) }
+func (o Opcodes) RDFSBASEL(ops ...Operand) { o.a.op("RDFSBASEL", ops...) }
+func (o Opcodes) Rdfsbaseq(ops ...Operand) { o.a.op("RDFSBASEQ", ops...) }
+func (o Opcodes) RDFSBASEQ(ops ...Operand) { o.a.op("RDFSBASEQ", ops...) }
+func (o Opcodes) Rdgsbasel(ops ...Operand) { o.a.op("RDGSBASEL", ops...) }
+func (o Opcodes) RDGSBASEL(ops ...Operand) { o.a.op("RDGSBASEL", ops...) }
+func (o Opcodes) Rdgsbaseq(ops ...Operand) { o.a.op("RDGSBASEQ", ops...) }
+func (o Opcodes) RDGSBASEQ(ops ...Operand) { o.a.op("RDGSBASEQ", ops...) }
+func (o Opcodes) Rdmsr(ops ...Operand) { o.a.op("RDMSR", ops...) }
+func (o Opcodes) RDMSR(ops ...Operand) { o.a.op("RDMSR", ops...) }
+func (o Opcodes) Rdpkru(ops ...Operand) { o.a.op("RDPKRU", ops...) }
+func (o Opcodes) RDPKRU(ops ...Operand) { o.a.op("RDPKRU", ops...) }
+func (o Opcodes) Rdpmc(ops ...Operand) { o.a.op("RDPMC", ops...) }
+func (o Opcodes) RDPMC(ops ...Operand) { o.a.op("RDPMC", ops...) }
+func (o Opcodes) Rdrandl(ops ...Operand) { o.a.op("RDRANDL", ops...) }
+func (o Opcodes) RDRANDL(ops ...Operand) { o.a.op("RDRANDL", ops...) }
+func (o Opcodes) Rdrandq(ops ...Operand) { o.a.op("RDRANDQ", ops...) }
+func (o Opcodes) RDRANDQ(ops ...Operand) { o.a.op("RDRANDQ", ops...) }
+func (o Opcodes) Rdrandw(ops ...Operand) { o.a.op("RDRANDW", ops...) }
+func (o Opcodes) RDRANDW(ops ...Operand) { o.a.op("RDRANDW", ops...) }
+func (o Opcodes) Rdseedl(ops ...Operand) { o.a.op("RDSEEDL", ops...) }
+func (o Opcodes) RDSEEDL(ops ...Operand) { o.a.op("RDSEEDL", ops...) }
+func (o Opcodes) Rdseedq(ops ...Operand) { o.a.op("RDSEEDQ", ops...) }
+func (o Opcodes) RDSEEDQ(ops ...Operand) { o.a.op("RDSEEDQ", ops...) }
+func (o Opcodes) Rdseedw(ops ...Operand) { o.a.op("RDSEEDW", ops...) }
+func (o Opcodes) RDSEEDW(ops ...Operand) { o.a.op("RDSEEDW", ops...) }
+func (o Opcodes) Rdtsc(ops ...Operand) { o.a.op("RDTSC", ops...) }
+func (o Opcodes) RDTSC(ops ...Operand) { o.a.op("RDTSC", ops...) }
+func (o Opcodes) Rdtscp(ops ...Operand) { o.a.op("RDTSCP", ops...) }
+func (o Opcodes) RDTSCP(ops ...Operand) { o.a.op("RDTSCP", ops...) }
+func (o Opcodes) Rep(ops ...Operand) { o.a.op("REP", ops...) }
+func (o Opcodes) REP(ops ...Operand) { o.a.op("REP", ops...) }
+func (o Opcodes) Repn(ops ...Operand) { o.a.op("REPN", ops...) }
+func (o Opcodes) REPN(ops ...Operand) { o.a.op("REPN", ops...) }
+func (o Opcodes) Retfl(ops ...Operand) { o.a.op("RETFL", ops...) }
+func (o Opcodes) RETFL(ops ...Operand) { o.a.op("RETFL", ops...) }
+func (o Opcodes) Retfq(ops ...Operand) { o.a.op("RETFQ", ops...) }
+func (o Opcodes) RETFQ(ops ...Operand) { o.a.op("RETFQ", ops...) }
+func (o Opcodes) Retfw(ops ...Operand) { o.a.op("RETFW", ops...) }
+func (o Opcodes) RETFW(ops ...Operand) { o.a.op("RETFW", ops...) }
+func (o Opcodes) Rolb(ops ...Operand) { o.a.op("ROLB", ops...) }
+func (o Opcodes) ROLB(ops ...Operand) { o.a.op("ROLB", ops...) }
+func (o Opcodes) Roll(ops ...Operand) { o.a.op("ROLL", ops...) }
+func (o Opcodes) ROLL(ops ...Operand) { o.a.op("ROLL", ops...) }
+func (o Opcodes) Rolq(ops ...Operand) { o.a.op("ROLQ", ops...) }
+func (o Opcodes) ROLQ(ops ...Operand) { o.a.op("ROLQ", ops...) }
+func (o Opcodes) Rolw(ops ...Operand) { o.a.op("ROLW", ops...) }
+func (o Opcodes) ROLW(ops ...Operand) { o.a.op("ROLW", ops...) }
+func (o Opcodes) Rorb(ops ...Operand) { o.a.op("RORB", ops...) }
+func (o Opcodes) RORB(ops ...Operand) { o.a.op("RORB", ops...) }
+func (o Opcodes) Rorl(ops ...Operand) { o.a.op("RORL", ops...) }
+func (o Opcodes) RORL(ops ...Operand) { o.a.op("RORL", ops...) }
+func (o Opcodes) Rorq(ops ...Operand) { o.a.op("RORQ", ops...) }
+func (o Opcodes) RORQ(ops ...Operand) { o.a.op("RORQ", ops...) }
+func (o Opcodes) Rorw(ops ...Operand) { o.a.op("RORW", ops...) }
+func (o Opcodes) RORW(ops ...Operand) { o.a.op("RORW", ops...) }
+func (o Opcodes) Rorxl(ops ...Operand) { o.a.op("RORXL", ops...) }
+func (o Opcodes) RORXL(ops ...Operand) { o.a.op("RORXL", ops...) }
+func (o Opcodes) Rorxq(ops ...Operand) { o.a.op("RORXQ", ops...) }
+func (o Opcodes) RORXQ(ops ...Operand) { o.a.op("RORXQ", ops...) }
+func (o Opcodes) Roundpd(ops ...Operand) { o.a.op("ROUNDPD", ops...) }
+func (o Opcodes) ROUNDPD(ops ...Operand) { o.a.op("ROUNDPD", ops...) }
+func (o Opcodes) Roundps(ops ...Operand) { o.a.op("ROUNDPS", ops...) }
+func (o Opcodes) ROUNDPS(ops ...Operand) { o.a.op("ROUNDPS", ops...) }
+func (o Opcodes) Roundsd(ops ...Operand) { o.a.op("ROUNDSD", ops...) }
+func (o Opcodes) ROUNDSD(ops ...Operand) { o.a.op("ROUNDSD", ops...) }
+func (o Opcodes) Roundss(ops ...Operand) { o.a.op("ROUNDSS", ops...) }
+func (o Opcodes) ROUNDSS(ops ...Operand) { o.a.op("ROUNDSS", ops...) }
+func (o Opcodes) Rsm(ops ...Operand) { o.a.op("RSM", ops...) }
+func (o Opcodes) RSM(ops ...Operand) { o.a.op("RSM", ops...) }
+func (o Opcodes) Rsqrtps(ops ...Operand) { o.a.op("RSQRTPS", ops...) }
+func (o Opcodes) RSQRTPS(ops ...Operand) { o.a.op("RSQRTPS", ops...) }
+func (o Opcodes) Rsqrtss(ops ...Operand) { o.a.op("RSQRTSS", ops...) }
+func (o Opcodes) RSQRTSS(ops ...Operand) { o.a.op("RSQRTSS", ops...) }
+func (o Opcodes) Sahf(ops ...Operand) { o.a.op("SAHF", ops...) }
+func (o Opcodes) SAHF(ops ...Operand) { o.a.op("SAHF", ops...) }
+func (o Opcodes) Salb(ops ...Operand) { o.a.op("SALB", ops...) }
+func (o Opcodes) SALB(ops ...Operand) { o.a.op("SALB", ops...) }
+func (o Opcodes) Sall(ops ...Operand) { o.a.op("SALL", ops...) }
+func (o Opcodes) SALL(ops ...Operand) { o.a.op("SALL", ops...) }
+func (o Opcodes) Salq(ops ...Operand) { o.a.op("SALQ", ops...) }
+func (o Opcodes) SALQ(ops ...Operand) { o.a.op("SALQ", ops...) }
+func (o Opcodes) Salw(ops ...Operand) { o.a.op("SALW", ops...) }
+func (o Opcodes) SALW(ops ...Operand) { o.a.op("SALW", ops...) }
+func (o Opcodes) Sarb(ops ...Operand) { o.a.op("SARB", ops...) }
+func (o Opcodes) SARB(ops ...Operand) { o.a.op("SARB", ops...) }
+func (o Opcodes) Sarl(ops ...Operand) { o.a.op("SARL", ops...) }
+func (o Opcodes) SARL(ops ...Operand) { o.a.op("SARL", ops...) }
+func (o Opcodes) Sarq(ops ...Operand) { o.a.op("SARQ", ops...) }
+func (o Opcodes) SARQ(ops ...Operand) { o.a.op("SARQ", ops...) }
+func (o Opcodes) Sarw(ops ...Operand) { o.a.op("SARW", ops...) }
+func (o Opcodes) SARW(ops ...Operand) { o.a.op("SARW", ops...) }
+func (o Opcodes) Sarxl(ops ...Operand) { o.a.op("SARXL", ops...) }
+func (o Opcodes) SARXL(ops ...Operand) { o.a.op("SARXL", ops...) }
+func (o Opcodes) Sarxq(ops ...Operand) { o.a.op("SARXQ", ops...) }
+func (o Opcodes) SARXQ(ops ...Operand) { o.a.op("SARXQ", ops...) }
+func (o Opcodes) Sbbb(ops ...Operand) { o.a.op("SBBB", ops...) }
+func (o Opcodes) SBBB(ops ...Operand) { o.a.op("SBBB", ops...) }
+func (o Opcodes) Sbbl(ops ...Operand) { o.a.op("SBBL", ops...) }
+func (o Opcodes) SBBL(ops ...Operand) { o.a.op("SBBL", ops...) }
+func (o Opcodes) Sbbq(ops ...Operand) { o.a.op("SBBQ", ops...) }
+func (o Opcodes) SBBQ(ops ...Operand) { o.a.op("SBBQ", ops...) }
+func (o Opcodes) Sbbw(ops ...Operand) { o.a.op("SBBW", ops...) }
+func (o Opcodes) SBBW(ops ...Operand) { o.a.op("SBBW", ops...) }
+func (o Opcodes) Scasb(ops ...Operand) { o.a.op("SCASB", ops...) }
+func (o Opcodes) SCASB(ops ...Operand) { o.a.op("SCASB", ops...) }
+func (o Opcodes) Scasl(ops ...Operand) { o.a.op("SCASL", ops...) }
+func (o Opcodes) SCASL(ops ...Operand) { o.a.op("SCASL", ops...) }
+func (o Opcodes) Scasq(ops ...Operand) { o.a.op("SCASQ", ops...) }
+func (o Opcodes) SCASQ(ops ...Operand) { o.a.op("SCASQ", ops...) }
+func (o Opcodes) Scasw(ops ...Operand) { o.a.op("SCASW", ops...) }
+func (o Opcodes) SCASW(ops ...Operand) { o.a.op("SCASW", ops...) }
+func (o Opcodes) Setcc(ops ...Operand) { o.a.op("SETCC", ops...) }
+func (o Opcodes) SETCC(ops ...Operand) { o.a.op("SETCC", ops...) }
+func (o Opcodes) Setcs(ops ...Operand) { o.a.op("SETCS", ops...) }
+func (o Opcodes) SETCS(ops ...Operand) { o.a.op("SETCS", ops...) }
+func (o Opcodes) Seteq(ops ...Operand) { o.a.op("SETEQ", ops...) }
+func (o Opcodes) SETEQ(ops ...Operand) { o.a.op("SETEQ", ops...) }
+func (o Opcodes) Setge(ops ...Operand) { o.a.op("SETGE", ops...) }
+func (o Opcodes) SETGE(ops ...Operand) { o.a.op("SETGE", ops...) }
+func (o Opcodes) Setgt(ops ...Operand) { o.a.op("SETGT", ops...) }
+func (o Opcodes) SETGT(ops ...Operand) { o.a.op("SETGT", ops...) }
+func (o Opcodes) Sethi(ops ...Operand) { o.a.op("SETHI", ops...) }
+func (o Opcodes) SETHI(ops ...Operand) { o.a.op("SETHI", ops...) }
+func (o Opcodes) Setle(ops ...Operand) { o.a.op("SETLE", ops...) }
+func (o Opcodes) SETLE(ops ...Operand) { o.a.op("SETLE", ops...) }
+func (o Opcodes) Setls(ops ...Operand) { o.a.op("SETLS", ops...) }
+func (o Opcodes) SETLS(ops ...Operand) { o.a.op("SETLS", ops...) }
+func (o Opcodes) Setlt(ops ...Operand) { o.a.op("SETLT", ops...) }
+func (o Opcodes) SETLT(ops ...Operand) { o.a.op("SETLT", ops...) }
+func (o Opcodes) Setmi(ops ...Operand) { o.a.op("SETMI", ops...) }
+func (o Opcodes) SETMI(ops ...Operand) { o.a.op("SETMI", ops...) }
+func (o Opcodes) Setne(ops ...Operand) { o.a.op("SETNE", ops...) }
+func (o Opcodes) SETNE(ops ...Operand) { o.a.op("SETNE", ops...) }
+func (o Opcodes) Setoc(ops ...Operand) { o.a.op("SETOC", ops...) }
+func (o Opcodes) SETOC(ops ...Operand) { o.a.op("SETOC", ops...) }
+func (o Opcodes) Setos(ops ...Operand) { o.a.op("SETOS", ops...) }
+func (o Opcodes) SETOS(ops ...Operand) { o.a.op("SETOS", ops...) }
+func (o Opcodes) Setpc(ops ...Operand) { o.a.op("SETPC", ops...) }
+func (o Opcodes) SETPC(ops ...Operand) { o.a.op("SETPC", ops...) }
+func (o Opcodes) Setpl(ops ...Operand) { o.a.op("SETPL", ops...) }
+func (o Opcodes) SETPL(ops ...Operand) { o.a.op("SETPL", ops...) }
+func (o Opcodes) Setps(ops ...Operand) { o.a.op("SETPS", ops...) }
+func (o Opcodes) SETPS(ops ...Operand) { o.a.op("SETPS", ops...) }
+func (o Opcodes) Sfence(ops ...Operand) { o.a.op("SFENCE", ops...) }
+func (o Opcodes) SFENCE(ops ...Operand) { o.a.op("SFENCE", ops...) }
+func (o Opcodes) Sgdt(ops ...Operand) { o.a.op("SGDT", ops...) }
+func (o Opcodes) SGDT(ops ...Operand) { o.a.op("SGDT", ops...) }
+func (o Opcodes) Sha1msg1(ops ...Operand) { o.a.op("SHA1MSG1", ops...) }
+func (o Opcodes) SHA1MSG1(ops ...Operand) { o.a.op("SHA1MSG1", ops...) }
+func (o Opcodes) Sha1msg2(ops ...Operand) { o.a.op("SHA1MSG2", ops...) }
+func (o Opcodes) SHA1MSG2(ops ...Operand) { o.a.op("SHA1MSG2", ops...) }
+func (o Opcodes) Sha1nexte(ops ...Operand) { o.a.op("SHA1NEXTE", ops...) }
+func (o Opcodes) SHA1NEXTE(ops ...Operand) { o.a.op("SHA1NEXTE", ops...) }
+func (o Opcodes) Sha1rnds4(ops ...Operand) { o.a.op("SHA1RNDS4", ops...) }
+func (o Opcodes) SHA1RNDS4(ops ...Operand) { o.a.op("SHA1RNDS4", ops...) }
+func (o Opcodes) Sha256msg1(ops ...Operand) { o.a.op("SHA256MSG1", ops...) }
+func (o Opcodes) SHA256MSG1(ops ...Operand) { o.a.op("SHA256MSG1", ops...) }
+func (o Opcodes) Sha256msg2(ops ...Operand) { o.a.op("SHA256MSG2", ops...) }
+func (o Opcodes) SHA256MSG2(ops ...Operand) { o.a.op("SHA256MSG2", ops...) }
+func (o Opcodes) Sha256rnds2(ops ...Operand) { o.a.op("SHA256RNDS2", ops...) }
+func (o Opcodes) SHA256RNDS2(ops ...Operand) { o.a.op("SHA256RNDS2", ops...) }
+func (o Opcodes) Shlb(ops ...Operand) { o.a.op("SHLB", ops...) }
+func (o Opcodes) SHLB(ops ...Operand) { o.a.op("SHLB", ops...) }
+func (o Opcodes) Shll(ops ...Operand) { o.a.op("SHLL", ops...) }
+func (o Opcodes) SHLL(ops ...Operand) { o.a.op("SHLL", ops...) }
+func (o Opcodes) Shlq(ops ...Operand) { o.a.op("SHLQ", ops...) }
+func (o Opcodes) SHLQ(ops ...Operand) { o.a.op("SHLQ", ops...) }
+func (o Opcodes) Shlw(ops ...Operand) { o.a.op("SHLW", ops...) }
+func (o Opcodes) SHLW(ops ...Operand) { o.a.op("SHLW", ops...) }
+func (o Opcodes) Shlxl(ops ...Operand) { o.a.op("SHLXL", ops...) }
+func (o Opcodes) SHLXL(ops ...Operand) { o.a.op("SHLXL", ops...) }
+func (o Opcodes) Shlxq(ops ...Operand) { o.a.op("SHLXQ", ops...) }
+func (o Opcodes) SHLXQ(ops ...Operand) { o.a.op("SHLXQ", ops...) }
+func (o Opcodes) Shrb(ops ...Operand) { o.a.op("SHRB", ops...) }
+func (o Opcodes) SHRB(ops ...Operand) { o.a.op("SHRB", ops...) }
+func (o Opcodes) Shrl(ops ...Operand) { o.a.op("SHRL", ops...) }
+func (o Opcodes) SHRL(ops ...Operand) { o.a.op("SHRL", ops...) }
+func (o Opcodes) Shrq(ops ...Operand) { o.a.op("SHRQ", ops...) }
+func (o Opcodes) SHRQ(ops ...Operand) { o.a.op("SHRQ", ops...) }
+func (o Opcodes) Shrw(ops ...Operand) { o.a.op("SHRW", ops...) }
+func (o Opcodes) SHRW(ops ...Operand) { o.a.op("SHRW", ops...) }
+func (o Opcodes) Shrxl(ops ...Operand) { o.a.op("SHRXL", ops...) }
+func (o Opcodes) SHRXL(ops ...Operand) { o.a.op("SHRXL", ops...) }
+func (o Opcodes) Shrxq(ops ...Operand) { o.a.op("SHRXQ", ops...) }
+func (o Opcodes) SHRXQ(ops ...Operand) { o.a.op("SHRXQ", ops...) }
+func (o Opcodes) Shufpd(ops ...Operand) { o.a.op("SHUFPD", ops...) }
+func (o Opcodes) SHUFPD(ops ...Operand) { o.a.op("SHUFPD", ops...) }
+func (o Opcodes) Shufps(ops ...Operand) { o.a.op("SHUFPS", ops...) }
+func (o Opcodes) SHUFPS(ops ...Operand) { o.a.op("SHUFPS", ops...) }
+func (o Opcodes) Sidt(ops ...Operand) { o.a.op("SIDT", ops...) }
+func (o Opcodes) SIDT(ops ...Operand) { o.a.op("SIDT", ops...) }
+func (o Opcodes) Sldtl(ops ...Operand) { o.a.op("SLDTL", ops...) }
+func (o Opcodes) SLDTL(ops ...Operand) { o.a.op("SLDTL", ops...) }
+func (o Opcodes) Sldtq(ops ...Operand) { o.a.op("SLDTQ", ops...) }
+func (o Opcodes) SLDTQ(ops ...Operand) { o.a.op("SLDTQ", ops...) }
+func (o Opcodes) Sldtw(ops ...Operand) { o.a.op("SLDTW", ops...) }
+func (o Opcodes) SLDTW(ops ...Operand) { o.a.op("SLDTW", ops...) }
+func (o Opcodes) Smswl(ops ...Operand) { o.a.op("SMSWL", ops...) }
+func (o Opcodes) SMSWL(ops ...Operand) { o.a.op("SMSWL", ops...) }
+func (o Opcodes) Smswq(ops ...Operand) { o.a.op("SMSWQ", ops...) }
+func (o Opcodes) SMSWQ(ops ...Operand) { o.a.op("SMSWQ", ops...) }
+func (o Opcodes) Smsww(ops ...Operand) { o.a.op("SMSWW", ops...) }
+func (o Opcodes) SMSWW(ops ...Operand) { o.a.op("SMSWW", ops...) }
+func (o Opcodes) Sqrtpd(ops ...Operand) { o.a.op("SQRTPD", ops...) }
+func (o Opcodes) SQRTPD(ops ...Operand) { o.a.op("SQRTPD", ops...) }
+func (o Opcodes) Sqrtps(ops ...Operand) { o.a.op("SQRTPS", ops...) }
+func (o Opcodes) SQRTPS(ops ...Operand) { o.a.op("SQRTPS", ops...) }
+func (o Opcodes) Sqrtsd(ops ...Operand) { o.a.op("SQRTSD", ops...) }
+func (o Opcodes) SQRTSD(ops ...Operand) { o.a.op("SQRTSD", ops...) }
+func (o Opcodes) Sqrtss(ops ...Operand) { o.a.op("SQRTSS", ops...) }
+func (o Opcodes) SQRTSS(ops ...Operand) { o.a.op("SQRTSS", ops...) }
+func (o Opcodes) Stac(ops ...Operand) { o.a.op("STAC", ops...) }
+func (o Opcodes) STAC(ops ...Operand) { o.a.op("STAC", ops...) }
+func (o Opcodes) Stc(ops ...Operand) { o.a.op("STC", ops...) }
+func (o Opcodes) STC(ops ...Operand) { o.a.op("STC", ops...) }
+func (o Opcodes) Std(ops ...Operand) { o.a.op("STD", ops...) }
+func (o Opcodes) STD(ops ...Operand) { o.a.op("STD", ops...) }
+func (o Opcodes) Sti(ops ...Operand) { o.a.op("STI", ops...) }
+func (o Opcodes) STI(ops ...Operand) { o.a.op("STI", ops...) }
+func (o Opcodes) Stmxcsr(ops ...Operand) { o.a.op("STMXCSR", ops...) }
+func (o Opcodes) STMXCSR(ops ...Operand) { o.a.op("STMXCSR", ops...) }
+func (o Opcodes) Stosb(ops ...Operand) { o.a.op("STOSB", ops...) }
+func (o Opcodes) STOSB(ops ...Operand) { o.a.op("STOSB", ops...) }
+func (o Opcodes) Stosl(ops ...Operand) { o.a.op("STOSL", ops...) }
+func (o Opcodes) STOSL(ops ...Operand) { o.a.op("STOSL", ops...) }
+func (o Opcodes) Stosq(ops ...Operand) { o.a.op("STOSQ", ops...) }
+func (o Opcodes) STOSQ(ops ...Operand) { o.a.op("STOSQ", ops...) }
+func (o Opcodes) Stosw(ops ...Operand) { o.a.op("STOSW", ops...) }
+func (o Opcodes) STOSW(ops ...Operand) { o.a.op("STOSW", ops...) }
+func (o Opcodes) Strl(ops ...Operand) { o.a.op("STRL", ops...) }
+func (o Opcodes) STRL(ops ...Operand) { o.a.op("STRL", ops...) }
+func (o Opcodes) Strq(ops ...Operand) { o.a.op("STRQ", ops...) }
+func (o Opcodes) STRQ(ops ...Operand) { o.a.op("STRQ", ops...) }
+func (o Opcodes) Strw(ops ...Operand) { o.a.op("STRW", ops...) }
+func (o Opcodes) STRW(ops ...Operand) { o.a.op("STRW", ops...) }
+func (o Opcodes) Subb(ops ...Operand) { o.a.op("SUBB", ops...) }
+func (o Opcodes) SUBB(ops ...Operand) { o.a.op("SUBB", ops...) }
+func (o Opcodes) Subl(ops ...Operand) { o.a.op("SUBL", ops...) }
+func (o Opcodes) SUBL(ops ...Operand) { o.a.op("SUBL", ops...) }
+func (o Opcodes) Subpd(ops ...Operand) { o.a.op("SUBPD", ops...) }
+func (o Opcodes) SUBPD(ops ...Operand) { o.a.op("SUBPD", ops...) }
+func (o Opcodes) Subps(ops ...Operand) { o.a.op("SUBPS", ops...) }
+func (o Opcodes) SUBPS(ops ...Operand) { o.a.op("SUBPS", ops...) }
+func (o Opcodes) Subq(ops ...Operand) { o.a.op("SUBQ", ops...) }
+func (o Opcodes) SUBQ(ops ...Operand) { o.a.op("SUBQ", ops...) }
+func (o Opcodes) Subsd(ops ...Operand) { o.a.op("SUBSD", ops...) }
+func (o Opcodes) SUBSD(ops ...Operand) { o.a.op("SUBSD", ops...) }
+func (o Opcodes) Subss(ops ...Operand) { o.a.op("SUBSS", ops...) }
+func (o Opcodes) SUBSS(ops ...Operand) { o.a.op("SUBSS", ops...) }
+func (o Opcodes) Subw(ops ...Operand) { o.a.op("SUBW", ops...) }
+func (o Opcodes) SUBW(ops ...Operand) { o.a.op("SUBW", ops...) }
+func (o Opcodes) Swapgs(ops ...Operand) { o.a.op("SWAPGS", ops...) }
+func (o Opcodes) SWAPGS(ops ...Operand) { o.a.op("SWAPGS", ops...) }
+func (o Opcodes) Syscall(ops ...Operand) { o.a.op("SYSCALL", ops...) }
+func (o Opcodes) SYSCALL(ops ...Operand) { o.a.op("SYSCALL", ops...) }
+func (o Opcodes) Sysenter(ops ...Operand) { o.a.op("SYSENTER", ops...) }
+func (o Opcodes) SYSENTER(ops ...Operand) { o.a.op("SYSENTER", ops...) }
+func (o Opcodes) Sysenter64(ops ...Operand) { o.a.op("SYSENTER64", ops...) }
+func (o Opcodes) SYSENTER64(ops ...Operand) { o.a.op("SYSENTER64", ops...) }
+func (o Opcodes) Sysexit(ops ...Operand) { o.a.op("SYSEXIT", ops...) }
+func (o Opcodes) SYSEXIT(ops ...Operand) { o.a.op("SYSEXIT", ops...) }
+func (o Opcodes) Sysexit64(ops ...Operand) { o.a.op("SYSEXIT64", ops...) }
+func (o Opcodes) SYSEXIT64(ops ...Operand) { o.a.op("SYSEXIT64", ops...) }
+func (o Opcodes) Sysret(ops ...Operand) { o.a.op("SYSRET", ops...) }
+func (o Opcodes) SYSRET(ops ...Operand) { o.a.op("SYSRET", ops...) }
+func (o Opcodes) Testb(ops ...Operand) { o.a.op("TESTB", ops...) }
+func (o Opcodes) TESTB(ops ...Operand) { o.a.op("TESTB", ops...) }
+func (o Opcodes) Testl(ops ...Operand) { o.a.op("TESTL", ops...) }
+func (o Opcodes) TESTL(ops ...Operand) { o.a.op("TESTL", ops...) }
+func (o Opcodes) Testq(ops ...Operand) { o.a.op("TESTQ", ops...) }
+func (o Opcodes) TESTQ(ops ...Operand) { o.a.op("TESTQ", ops...) }
+func (o Opcodes) Testw(ops ...Operand) { o.a.op("TESTW", ops...) }
+func (o Opcodes) TESTW(ops ...Operand) { o.a.op("TESTW", ops...) }
+func (o Opcodes) Tzcntl(ops ...Operand) { o.a.op("TZCNTL", ops...) }
+func (o Opcodes) TZCNTL(ops ...Operand) { o.a.op("TZCNTL", ops...) }
+func (o Opcodes) Tzcntq(ops ...Operand) { o.a.op("TZCNTQ", ops...) }
+func (o Opcodes) TZCNTQ(ops ...Operand) { o.a.op("TZCNTQ", ops...) }
+func (o Opcodes) Tzcntw(ops ...Operand) { o.a.op("TZCNTW", ops...) }
+func (o Opcodes) TZCNTW(ops ...Operand) { o.a.op("TZCNTW", ops...) }
+func (o Opcodes) Ucomisd(ops ...Operand) { o.a.op("UCOMISD", ops...) }
+func (o Opcodes) UCOMISD(ops ...Operand) { o.a.op("UCOMISD", ops...) }
+func (o Opcodes) Ucomiss(ops ...Operand) { o.a.op("UCOMISS", ops...) }
+func (o Opcodes) UCOMISS(ops ...Operand) { o.a.op("UCOMISS", ops...) }
+func (o Opcodes) Ud1(ops ...Operand) { o.a.op("UD1", ops...) }
+func (o Opcodes) UD1(ops ...Operand) { o.a.op("UD1", ops...) }
+func (o Opcodes) Ud2(ops ...Operand) { o.a.op("UD2", ops...) }
+func (o Opcodes) UD2(ops ...Operand) { o.a.op("UD2", ops...) }
+func (o Opcodes) Unpckhpd(ops ...Operand) { o.a.op("UNPCKHPD", ops...) }
+func (o Opcodes) UNPCKHPD(ops ...Operand) { o.a.op("UNPCKHPD", ops...) }
+func (o Opcodes) Unpckhps(ops ...Operand) { o.a.op("UNPCKHPS", ops...) }
+func (o Opcodes) UNPCKHPS(ops ...Operand) { o.a.op("UNPCKHPS", ops...) }
+func (o Opcodes) Unpcklpd(ops ...Operand) { o.a.op("UNPCKLPD", ops...) }
+func (o Opcodes) UNPCKLPD(ops ...Operand) { o.a.op("UNPCKLPD", ops...) }
+func (o Opcodes) Unpcklps(ops ...Operand) { o.a.op("UNPCKLPS", ops...) }
+func (o Opcodes) UNPCKLPS(ops ...Operand) { o.a.op("UNPCKLPS", ops...) }
+func (o Opcodes) V4fmaddps(ops ...Operand) { o.a.op("V4FMADDPS", ops...) }
+func (o Opcodes) V4FMADDPS(ops ...Operand) { o.a.op("V4FMADDPS", ops...) }
+func (o Opcodes) V4fmaddss(ops ...Operand) { o.a.op("V4FMADDSS", ops...) }
+func (o Opcodes) V4FMADDSS(ops ...Operand) { o.a.op("V4FMADDSS", ops...) }
+func (o Opcodes) V4fnmaddps(ops ...Operand) { o.a.op("V4FNMADDPS", ops...) }
+func (o Opcodes) V4FNMADDPS(ops ...Operand) { o.a.op("V4FNMADDPS", ops...) }
+func (o Opcodes) V4fnmaddss(ops ...Operand) { o.a.op("V4FNMADDSS", ops...) }
+func (o Opcodes) V4FNMADDSS(ops ...Operand) { o.a.op("V4FNMADDSS", ops...) }
+func (o Opcodes) Vaddpd(ops ...Operand) { o.a.op("VADDPD", ops...) }
+func (o Opcodes) VADDPD(ops ...Operand) { o.a.op("VADDPD", ops...) }
+func (o Opcodes) Vaddps(ops ...Operand) { o.a.op("VADDPS", ops...) }
+func (o Opcodes) VADDPS(ops ...Operand) { o.a.op("VADDPS", ops...) }
+func (o Opcodes) Vaddsd(ops ...Operand) { o.a.op("VADDSD", ops...) }
+func (o Opcodes) VADDSD(ops ...Operand) { o.a.op("VADDSD", ops...) }
+func (o Opcodes) Vaddss(ops ...Operand) { o.a.op("VADDSS", ops...) }
+func (o Opcodes) VADDSS(ops ...Operand) { o.a.op("VADDSS", ops...) }
+func (o Opcodes) Vaddsubpd(ops ...Operand) { o.a.op("VADDSUBPD", ops...) }
+func (o Opcodes) VADDSUBPD(ops ...Operand) { o.a.op("VADDSUBPD", ops...) }
+func (o Opcodes) Vaddsubps(ops ...Operand) { o.a.op("VADDSUBPS", ops...) }
+func (o Opcodes) VADDSUBPS(ops ...Operand) { o.a.op("VADDSUBPS", ops...) }
+func (o Opcodes) Vaesdec(ops ...Operand) { o.a.op("VAESDEC", ops...) }
+func (o Opcodes) VAESDEC(ops ...Operand) { o.a.op("VAESDEC", ops...) }
+func (o Opcodes) Vaesdeclast(ops ...Operand) { o.a.op("VAESDECLAST", ops...) }
+func (o Opcodes) VAESDECLAST(ops ...Operand) { o.a.op("VAESDECLAST", ops...) }
+func (o Opcodes) Vaesenc(ops ...Operand) { o.a.op("VAESENC", ops...) }
+func (o Opcodes) VAESENC(ops ...Operand) { o.a.op("VAESENC", ops...) }
+func (o Opcodes) Vaesenclast(ops ...Operand) { o.a.op("VAESENCLAST", ops...) }
+func (o Opcodes) VAESENCLAST(ops ...Operand) { o.a.op("VAESENCLAST", ops...) }
+func (o Opcodes) Vaesimc(ops ...Operand) { o.a.op("VAESIMC", ops...) }
+func (o Opcodes) VAESIMC(ops ...Operand) { o.a.op("VAESIMC", ops...) }
+func (o Opcodes) Vaeskeygenassist(ops ...Operand) { o.a.op("VAESKEYGENASSIST", ops...) }
+func (o Opcodes) VAESKEYGENASSIST(ops ...Operand) { o.a.op("VAESKEYGENASSIST", ops...) }
+func (o Opcodes) Valignd(ops ...Operand) { o.a.op("VALIGND", ops...) }
+func (o Opcodes) VALIGND(ops ...Operand) { o.a.op("VALIGND", ops...) }
+func (o Opcodes) Valignq(ops ...Operand) { o.a.op("VALIGNQ", ops...) }
+func (o Opcodes) VALIGNQ(ops ...Operand) { o.a.op("VALIGNQ", ops...) }
+func (o Opcodes) Vandnpd(ops ...Operand) { o.a.op("VANDNPD", ops...) }
+func (o Opcodes) VANDNPD(ops ...Operand) { o.a.op("VANDNPD", ops...) }
+func (o Opcodes) Vandnps(ops ...Operand) { o.a.op("VANDNPS", ops...) }
+func (o Opcodes) VANDNPS(ops ...Operand) { o.a.op("VANDNPS", ops...) }
+func (o Opcodes) Vandpd(ops ...Operand) { o.a.op("VANDPD", ops...) }
+func (o Opcodes) VANDPD(ops ...Operand) { o.a.op("VANDPD", ops...) }
+func (o Opcodes) Vandps(ops ...Operand) { o.a.op("VANDPS", ops...) }
+func (o Opcodes) VANDPS(ops ...Operand) { o.a.op("VANDPS", ops...) }
+func (o Opcodes) Vblendmpd(ops ...Operand) { o.a.op("VBLENDMPD", ops...) }
+func (o Opcodes) VBLENDMPD(ops ...Operand) { o.a.op("VBLENDMPD", ops...) }
+func (o Opcodes) Vblendmps(ops ...Operand) { o.a.op("VBLENDMPS", ops...) }
+func (o Opcodes) VBLENDMPS(ops ...Operand) { o.a.op("VBLENDMPS", ops...) }
+func (o Opcodes) Vblendpd(ops ...Operand) { o.a.op("VBLENDPD", ops...) }
+func (o Opcodes) VBLENDPD(ops ...Operand) { o.a.op("VBLENDPD", ops...) }
+func (o Opcodes) Vblendps(ops ...Operand) { o.a.op("VBLENDPS", ops...) }
+func (o Opcodes) VBLENDPS(ops ...Operand) { o.a.op("VBLENDPS", ops...) }
+func (o Opcodes) Vblendvpd(ops ...Operand) { o.a.op("VBLENDVPD", ops...) }
+func (o Opcodes) VBLENDVPD(ops ...Operand) { o.a.op("VBLENDVPD", ops...) }
+func (o Opcodes) Vblendvps(ops ...Operand) { o.a.op("VBLENDVPS", ops...) }
+func (o Opcodes) VBLENDVPS(ops ...Operand) { o.a.op("VBLENDVPS", ops...) }
+func (o Opcodes) Vbroadcastf128(ops ...Operand) { o.a.op("VBROADCASTF128", ops...) }
+func (o Opcodes) VBROADCASTF128(ops ...Operand) { o.a.op("VBROADCASTF128", ops...) }
+func (o Opcodes) Vbroadcastf32x2(ops ...Operand) { o.a.op("VBROADCASTF32X2", ops...) }
+func (o Opcodes) VBROADCASTF32X2(ops ...Operand) { o.a.op("VBROADCASTF32X2", ops...) }
+func (o Opcodes) Vbroadcastf32x4(ops ...Operand) { o.a.op("VBROADCASTF32X4", ops...) }
+func (o Opcodes) VBROADCASTF32X4(ops ...Operand) { o.a.op("VBROADCASTF32X4", ops...) }
+func (o Opcodes) Vbroadcastf32x8(ops ...Operand) { o.a.op("VBROADCASTF32X8", ops...) }
+func (o Opcodes) VBROADCASTF32X8(ops ...Operand) { o.a.op("VBROADCASTF32X8", ops...) }
+func (o Opcodes) Vbroadcastf64x2(ops ...Operand) { o.a.op("VBROADCASTF64X2", ops...) }
+func (o Opcodes) VBROADCASTF64X2(ops ...Operand) { o.a.op("VBROADCASTF64X2", ops...) }
+func (o Opcodes) Vbroadcastf64x4(ops ...Operand) { o.a.op("VBROADCASTF64X4", ops...) }
+func (o Opcodes) VBROADCASTF64X4(ops ...Operand) { o.a.op("VBROADCASTF64X4", ops...) }
+func (o Opcodes) Vbroadcasti128(ops ...Operand) { o.a.op("VBROADCASTI128", ops...) }
+func (o Opcodes) VBROADCASTI128(ops ...Operand) { o.a.op("VBROADCASTI128", ops...) }
+func (o Opcodes) Vbroadcasti32x2(ops ...Operand) { o.a.op("VBROADCASTI32X2", ops...) }
+func (o Opcodes) VBROADCASTI32X2(ops ...Operand) { o.a.op("VBROADCASTI32X2", ops...) }
+func (o Opcodes) Vbroadcasti32x4(ops ...Operand) { o.a.op("VBROADCASTI32X4", ops...) }
+func (o Opcodes) VBROADCASTI32X4(ops ...Operand) { o.a.op("VBROADCASTI32X4", ops...) }
+func (o Opcodes) Vbroadcasti32x8(ops ...Operand) { o.a.op("VBROADCASTI32X8", ops...) }
+func (o Opcodes) VBROADCASTI32X8(ops ...Operand) { o.a.op("VBROADCASTI32X8", ops...) }
+func (o Opcodes) Vbroadcasti64x2(ops ...Operand) { o.a.op("VBROADCASTI64X2", ops...) }
+func (o Opcodes) VBROADCASTI64X2(ops ...Operand) { o.a.op("VBROADCASTI64X2", ops...) }
+func (o Opcodes) Vbroadcasti64x4(ops ...Operand) { o.a.op("VBROADCASTI64X4", ops...) }
+func (o Opcodes) VBROADCASTI64X4(ops ...Operand) { o.a.op("VBROADCASTI64X4", ops...) }
+func (o Opcodes) Vbroadcastsd(ops ...Operand) { o.a.op("VBROADCASTSD", ops...) }
+func (o Opcodes) VBROADCASTSD(ops ...Operand) { o.a.op("VBROADCASTSD", ops...) }
+func (o Opcodes) Vbroadcastss(ops ...Operand) { o.a.op("VBROADCASTSS", ops...) }
+func (o Opcodes) VBROADCASTSS(ops ...Operand) { o.a.op("VBROADCASTSS", ops...) }
+func (o Opcodes) Vcmppd(ops ...Operand) { o.a.op("VCMPPD", ops...) }
+func (o Opcodes) VCMPPD(ops ...Operand) { o.a.op("VCMPPD", ops...) }
+func (o Opcodes) Vcmpps(ops ...Operand) { o.a.op("VCMPPS", ops...) }
+func (o Opcodes) VCMPPS(ops ...Operand) { o.a.op("VCMPPS", ops...) }
+func (o Opcodes) Vcmpsd(ops ...Operand) { o.a.op("VCMPSD", ops...) }
+func (o Opcodes) VCMPSD(ops ...Operand) { o.a.op("VCMPSD", ops...) }
+func (o Opcodes) Vcmpss(ops ...Operand) { o.a.op("VCMPSS", ops...) }
+func (o Opcodes) VCMPSS(ops ...Operand) { o.a.op("VCMPSS", ops...) }
+func (o Opcodes) Vcomisd(ops ...Operand) { o.a.op("VCOMISD", ops...) }
+func (o Opcodes) VCOMISD(ops ...Operand) { o.a.op("VCOMISD", ops...) }
+func (o Opcodes) Vcomiss(ops ...Operand) { o.a.op("VCOMISS", ops...) }
+func (o Opcodes) VCOMISS(ops ...Operand) { o.a.op("VCOMISS", ops...) }
+func (o Opcodes) Vcompresspd(ops ...Operand) { o.a.op("VCOMPRESSPD", ops...) }
+func (o Opcodes) VCOMPRESSPD(ops ...Operand) { o.a.op("VCOMPRESSPD", ops...) }
+func (o Opcodes) Vcompressps(ops ...Operand) { o.a.op("VCOMPRESSPS", ops...) }
+func (o Opcodes) VCOMPRESSPS(ops ...Operand) { o.a.op("VCOMPRESSPS", ops...) }
+func (o Opcodes) Vcvtdq2pd(ops ...Operand) { o.a.op("VCVTDQ2PD", ops...) }
+func (o Opcodes) VCVTDQ2PD(ops ...Operand) { o.a.op("VCVTDQ2PD", ops...) }
+func (o Opcodes) Vcvtdq2ps(ops ...Operand) { o.a.op("VCVTDQ2PS", ops...) }
+func (o Opcodes) VCVTDQ2PS(ops ...Operand) { o.a.op("VCVTDQ2PS", ops...) }
+func (o Opcodes) Vcvtpd2dq(ops ...Operand) { o.a.op("VCVTPD2DQ", ops...) }
+func (o Opcodes) VCVTPD2DQ(ops ...Operand) { o.a.op("VCVTPD2DQ", ops...) }
+func (o Opcodes) Vcvtpd2dqx(ops ...Operand) { o.a.op("VCVTPD2DQX", ops...) }
+func (o Opcodes) VCVTPD2DQX(ops ...Operand) { o.a.op("VCVTPD2DQX", ops...) }
+func (o Opcodes) Vcvtpd2dqy(ops ...Operand) { o.a.op("VCVTPD2DQY", ops...) }
+func (o Opcodes) VCVTPD2DQY(ops ...Operand) { o.a.op("VCVTPD2DQY", ops...) }
+func (o Opcodes) Vcvtpd2ps(ops ...Operand) { o.a.op("VCVTPD2PS", ops...) }
+func (o Opcodes) VCVTPD2PS(ops ...Operand) { o.a.op("VCVTPD2PS", ops...) }
+func (o Opcodes) Vcvtpd2psx(ops ...Operand) { o.a.op("VCVTPD2PSX", ops...) }
+func (o Opcodes) VCVTPD2PSX(ops ...Operand) { o.a.op("VCVTPD2PSX", ops...) }
+func (o Opcodes) Vcvtpd2psy(ops ...Operand) { o.a.op("VCVTPD2PSY", ops...) }
+func (o Opcodes) VCVTPD2PSY(ops ...Operand) { o.a.op("VCVTPD2PSY", ops...) }
+func (o Opcodes) Vcvtpd2qq(ops ...Operand) { o.a.op("VCVTPD2QQ", ops...) }
+func (o Opcodes) VCVTPD2QQ(ops ...Operand) { o.a.op("VCVTPD2QQ", ops...) }
+func (o Opcodes) Vcvtpd2udq(ops ...Operand) { o.a.op("VCVTPD2UDQ", ops...) }
+func (o Opcodes) VCVTPD2UDQ(ops ...Operand) { o.a.op("VCVTPD2UDQ", ops...) }
+func (o Opcodes) Vcvtpd2udqx(ops ...Operand) { o.a.op("VCVTPD2UDQX", ops...) }
+func (o Opcodes) VCVTPD2UDQX(ops ...Operand) { o.a.op("VCVTPD2UDQX", ops...) }
+func (o Opcodes) Vcvtpd2udqy(ops ...Operand) { o.a.op("VCVTPD2UDQY", ops...) }
+func (o Opcodes) VCVTPD2UDQY(ops ...Operand) { o.a.op("VCVTPD2UDQY", ops...) }
+func (o Opcodes) Vcvtpd2uqq(ops ...Operand) { o.a.op("VCVTPD2UQQ", ops...) }
+func (o Opcodes) VCVTPD2UQQ(ops ...Operand) { o.a.op("VCVTPD2UQQ", ops...) }
+func (o Opcodes) Vcvtph2ps(ops ...Operand) { o.a.op("VCVTPH2PS", ops...) }
+func (o Opcodes) VCVTPH2PS(ops ...Operand) { o.a.op("VCVTPH2PS", ops...) }
+func (o Opcodes) Vcvtps2dq(ops ...Operand) { o.a.op("VCVTPS2DQ", ops...) }
+func (o Opcodes) VCVTPS2DQ(ops ...Operand) { o.a.op("VCVTPS2DQ", ops...) }
+func (o Opcodes) Vcvtps2pd(ops ...Operand) { o.a.op("VCVTPS2PD", ops...) }
+func (o Opcodes) VCVTPS2PD(ops ...Operand) { o.a.op("VCVTPS2PD", ops...) }
+func (o Opcodes) Vcvtps2ph(ops ...Operand) { o.a.op("VCVTPS2PH", ops...) }
+func (o Opcodes) VCVTPS2PH(ops ...Operand) { o.a.op("VCVTPS2PH", ops...) }
+func (o Opcodes) Vcvtps2qq(ops ...Operand) { o.a.op("VCVTPS2QQ", ops...) }
+func (o Opcodes) VCVTPS2QQ(ops ...Operand) { o.a.op("VCVTPS2QQ", ops...) }
+func (o Opcodes) Vcvtps2udq(ops ...Operand) { o.a.op("VCVTPS2UDQ", ops...) }
+func (o Opcodes) VCVTPS2UDQ(ops ...Operand) { o.a.op("VCVTPS2UDQ", ops...) }
+func (o Opcodes) Vcvtps2uqq(ops ...Operand) { o.a.op("VCVTPS2UQQ", ops...) }
+func (o Opcodes) VCVTPS2UQQ(ops ...Operand) { o.a.op("VCVTPS2UQQ", ops...) }
+func (o Opcodes) Vcvtqq2pd(ops ...Operand) { o.a.op("VCVTQQ2PD", ops...) }
+func (o Opcodes) VCVTQQ2PD(ops ...Operand) { o.a.op("VCVTQQ2PD", ops...) }
+func (o Opcodes) Vcvtqq2ps(ops ...Operand) { o.a.op("VCVTQQ2PS", ops...) }
+func (o Opcodes) VCVTQQ2PS(ops ...Operand) { o.a.op("VCVTQQ2PS", ops...) }
+func (o Opcodes) Vcvtqq2psx(ops ...Operand) { o.a.op("VCVTQQ2PSX", ops...) }
+func (o Opcodes) VCVTQQ2PSX(ops ...Operand) { o.a.op("VCVTQQ2PSX", ops...) }
+func (o Opcodes) Vcvtqq2psy(ops ...Operand) { o.a.op("VCVTQQ2PSY", ops...) }
+func (o Opcodes) VCVTQQ2PSY(ops ...Operand) { o.a.op("VCVTQQ2PSY", ops...) }
+func (o Opcodes) Vcvtsd2si(ops ...Operand) { o.a.op("VCVTSD2SI", ops...) }
+func (o Opcodes) VCVTSD2SI(ops ...Operand) { o.a.op("VCVTSD2SI", ops...) }
+func (o Opcodes) Vcvtsd2siq(ops ...Operand) { o.a.op("VCVTSD2SIQ", ops...) }
+func (o Opcodes) VCVTSD2SIQ(ops ...Operand) { o.a.op("VCVTSD2SIQ", ops...) }
+func (o Opcodes) Vcvtsd2ss(ops ...Operand) { o.a.op("VCVTSD2SS", ops...) }
+func (o Opcodes) VCVTSD2SS(ops ...Operand) { o.a.op("VCVTSD2SS", ops...) }
+func (o Opcodes) Vcvtsd2usi(ops ...Operand) { o.a.op("VCVTSD2USI", ops...) }
+func (o Opcodes) VCVTSD2USI(ops ...Operand) { o.a.op("VCVTSD2USI", ops...) }
+func (o Opcodes) Vcvtsd2usil(ops ...Operand) { o.a.op("VCVTSD2USIL", ops...) }
+func (o Opcodes) VCVTSD2USIL(ops ...Operand) { o.a.op("VCVTSD2USIL", ops...) }
+func (o Opcodes) Vcvtsd2usiq(ops ...Operand) { o.a.op("VCVTSD2USIQ", ops...) }
+func (o Opcodes) VCVTSD2USIQ(ops ...Operand) { o.a.op("VCVTSD2USIQ", ops...) }
+func (o Opcodes) Vcvtsi2sdl(ops ...Operand) { o.a.op("VCVTSI2SDL", ops...) }
+func (o Opcodes) VCVTSI2SDL(ops ...Operand) { o.a.op("VCVTSI2SDL", ops...) }
+func (o Opcodes) Vcvtsi2sdq(ops ...Operand) { o.a.op("VCVTSI2SDQ", ops...) }
+func (o Opcodes) VCVTSI2SDQ(ops ...Operand) { o.a.op("VCVTSI2SDQ", ops...) }
+func (o Opcodes) Vcvtsi2ssl(ops ...Operand) { o.a.op("VCVTSI2SSL", ops...) }
+func (o Opcodes) VCVTSI2SSL(ops ...Operand) { o.a.op("VCVTSI2SSL", ops...) }
+func (o Opcodes) Vcvtsi2ssq(ops ...Operand) { o.a.op("VCVTSI2SSQ", ops...) }
+func (o Opcodes) VCVTSI2SSQ(ops ...Operand) { o.a.op("VCVTSI2SSQ", ops...) }
+func (o Opcodes) Vcvtss2sd(ops ...Operand) { o.a.op("VCVTSS2SD", ops...) }
+func (o Opcodes) VCVTSS2SD(ops ...Operand) { o.a.op("VCVTSS2SD", ops...) }
+func (o Opcodes) Vcvtss2si(ops ...Operand) { o.a.op("VCVTSS2SI", ops...) }
+func (o Opcodes) VCVTSS2SI(ops ...Operand) { o.a.op("VCVTSS2SI", ops...) }
+func (o Opcodes) Vcvtss2siq(ops ...Operand) { o.a.op("VCVTSS2SIQ", ops...) }
+func (o Opcodes) VCVTSS2SIQ(ops ...Operand) { o.a.op("VCVTSS2SIQ", ops...) }
+func (o Opcodes) Vcvtss2usi(ops ...Operand) { o.a.op("VCVTSS2USI", ops...) }
+func (o Opcodes) VCVTSS2USI(ops ...Operand) { o.a.op("VCVTSS2USI", ops...) }
+func (o Opcodes) Vcvtss2usil(ops ...Operand) { o.a.op("VCVTSS2USIL", ops...) }
+func (o Opcodes) VCVTSS2USIL(ops ...Operand) { o.a.op("VCVTSS2USIL", ops...) }
+func (o Opcodes) Vcvtss2usiq(ops ...Operand) { o.a.op("VCVTSS2USIQ", ops...) }
+func (o Opcodes) VCVTSS2USIQ(ops ...Operand) { o.a.op("VCVTSS2USIQ", ops...) }
+func (o Opcodes) Vcvttpd2dq(ops ...Operand) { o.a.op("VCVTTPD2DQ", ops...) }
+func (o Opcodes) VCVTTPD2DQ(ops ...Operand) { o.a.op("VCVTTPD2DQ", ops...) }
+func (o Opcodes) Vcvttpd2dqx(ops ...Operand) { o.a.op("VCVTTPD2DQX", ops...) }
+func (o Opcodes) VCVTTPD2DQX(ops ...Operand) { o.a.op("VCVTTPD2DQX", ops...) }
+func (o Opcodes) Vcvttpd2dqy(ops ...Operand) { o.a.op("VCVTTPD2DQY", ops...) }
+func (o Opcodes) VCVTTPD2DQY(ops ...Operand) { o.a.op("VCVTTPD2DQY", ops...) }
+func (o Opcodes) Vcvttpd2qq(ops ...Operand) { o.a.op("VCVTTPD2QQ", ops...) }
+func (o Opcodes) VCVTTPD2QQ(ops ...Operand) { o.a.op("VCVTTPD2QQ", ops...) }
+func (o Opcodes) Vcvttpd2udq(ops ...Operand) { o.a.op("VCVTTPD2UDQ", ops...) }
+func (o Opcodes) VCVTTPD2UDQ(ops ...Operand) { o.a.op("VCVTTPD2UDQ", ops...) }
+func (o Opcodes) Vcvttpd2udqx(ops ...Operand) { o.a.op("VCVTTPD2UDQX", ops...) }
+func (o Opcodes) VCVTTPD2UDQX(ops ...Operand) { o.a.op("VCVTTPD2UDQX", ops...) }
+func (o Opcodes) Vcvttpd2udqy(ops ...Operand) { o.a.op("VCVTTPD2UDQY", ops...) }
+func (o Opcodes) VCVTTPD2UDQY(ops ...Operand) { o.a.op("VCVTTPD2UDQY", ops...) }
+func (o Opcodes) Vcvttpd2uqq(ops ...Operand) { o.a.op("VCVTTPD2UQQ", ops...) }
+func (o Opcodes) VCVTTPD2UQQ(ops ...Operand) { o.a.op("VCVTTPD2UQQ", ops...) }
+func (o Opcodes) Vcvttps2dq(ops ...Operand) { o.a.op("VCVTTPS2DQ", ops...) }
+func (o Opcodes) VCVTTPS2DQ(ops ...Operand) { o.a.op("VCVTTPS2DQ", ops...) }
+func (o Opcodes) Vcvttps2qq(ops ...Operand) { o.a.op("VCVTTPS2QQ", ops...) }
+func (o Opcodes) VCVTTPS2QQ(ops ...Operand) { o.a.op("VCVTTPS2QQ", ops...) }
+func (o Opcodes) Vcvttps2udq(ops ...Operand) { o.a.op("VCVTTPS2UDQ", ops...) }
+func (o Opcodes) VCVTTPS2UDQ(ops ...Operand) { o.a.op("VCVTTPS2UDQ", ops...) }
+func (o Opcodes) Vcvttps2uqq(ops ...Operand) { o.a.op("VCVTTPS2UQQ", ops...) }
+func (o Opcodes) VCVTTPS2UQQ(ops ...Operand) { o.a.op("VCVTTPS2UQQ", ops...) }
+func (o Opcodes) Vcvttsd2si(ops ...Operand) { o.a.op("VCVTTSD2SI", ops...) }
+func (o Opcodes) VCVTTSD2SI(ops ...Operand) { o.a.op("VCVTTSD2SI", ops...) }
+func (o Opcodes) Vcvttsd2siq(ops ...Operand) { o.a.op("VCVTTSD2SIQ", ops...) }
+func (o Opcodes) VCVTTSD2SIQ(ops ...Operand) { o.a.op("VCVTTSD2SIQ", ops...) }
+func (o Opcodes) Vcvttsd2usi(ops ...Operand) { o.a.op("VCVTTSD2USI", ops...) }
+func (o Opcodes) VCVTTSD2USI(ops ...Operand) { o.a.op("VCVTTSD2USI", ops...) }
+func (o Opcodes) Vcvttsd2usil(ops ...Operand) { o.a.op("VCVTTSD2USIL", ops...) }
+func (o Opcodes) VCVTTSD2USIL(ops ...Operand) { o.a.op("VCVTTSD2USIL", ops...) }
+func (o Opcodes) Vcvttsd2usiq(ops ...Operand) { o.a.op("VCVTTSD2USIQ", ops...) }
+func (o Opcodes) VCVTTSD2USIQ(ops ...Operand) { o.a.op("VCVTTSD2USIQ", ops...) }
+func (o Opcodes) Vcvttss2si(ops ...Operand) { o.a.op("VCVTTSS2SI", ops...) }
+func (o Opcodes) VCVTTSS2SI(ops ...Operand) { o.a.op("VCVTTSS2SI", ops...) }
+func (o Opcodes) Vcvttss2siq(ops ...Operand) { o.a.op("VCVTTSS2SIQ", ops...) }
+func (o Opcodes) VCVTTSS2SIQ(ops ...Operand) { o.a.op("VCVTTSS2SIQ", ops...) }
+func (o Opcodes) Vcvttss2usi(ops ...Operand) { o.a.op("VCVTTSS2USI", ops...) }
+func (o Opcodes) VCVTTSS2USI(ops ...Operand) { o.a.op("VCVTTSS2USI", ops...) }
+func (o Opcodes) Vcvttss2usil(ops ...Operand) { o.a.op("VCVTTSS2USIL", ops...) }
+func (o Opcodes) VCVTTSS2USIL(ops ...Operand) { o.a.op("VCVTTSS2USIL", ops...) }
+func (o Opcodes) Vcvttss2usiq(ops ...Operand) { o.a.op("VCVTTSS2USIQ", ops...) }
+func (o Opcodes) VCVTTSS2USIQ(ops ...Operand) { o.a.op("VCVTTSS2USIQ", ops...) }
+func (o Opcodes) Vcvtudq2pd(ops ...Operand) { o.a.op("VCVTUDQ2PD", ops...) }
+func (o Opcodes) VCVTUDQ2PD(ops ...Operand) { o.a.op("VCVTUDQ2PD", ops...) }
+func (o Opcodes) Vcvtudq2ps(ops ...Operand) { o.a.op("VCVTUDQ2PS", ops...) }
+func (o Opcodes) VCVTUDQ2PS(ops ...Operand) { o.a.op("VCVTUDQ2PS", ops...) }
+func (o Opcodes) Vcvtuqq2pd(ops ...Operand) { o.a.op("VCVTUQQ2PD", ops...) }
+func (o Opcodes) VCVTUQQ2PD(ops ...Operand) { o.a.op("VCVTUQQ2PD", ops...) }
+func (o Opcodes) Vcvtuqq2ps(ops ...Operand) { o.a.op("VCVTUQQ2PS", ops...) }
+func (o Opcodes) VCVTUQQ2PS(ops ...Operand) { o.a.op("VCVTUQQ2PS", ops...) }
+func (o Opcodes) Vcvtuqq2psx(ops ...Operand) { o.a.op("VCVTUQQ2PSX", ops...) }
+func (o Opcodes) VCVTUQQ2PSX(ops ...Operand) { o.a.op("VCVTUQQ2PSX", ops...) }
+func (o Opcodes) Vcvtuqq2psy(ops ...Operand) { o.a.op("VCVTUQQ2PSY", ops...) }
+func (o Opcodes) VCVTUQQ2PSY(ops ...Operand) { o.a.op("VCVTUQQ2PSY", ops...) }
+func (o Opcodes) Vcvtusi2sd(ops ...Operand) { o.a.op("VCVTUSI2SD", ops...) }
+func (o Opcodes) VCVTUSI2SD(ops ...Operand) { o.a.op("VCVTUSI2SD", ops...) }
+func (o Opcodes) Vcvtusi2sdl(ops ...Operand) { o.a.op("VCVTUSI2SDL", ops...) }
+func (o Opcodes) VCVTUSI2SDL(ops ...Operand) { o.a.op("VCVTUSI2SDL", ops...) }
+func (o Opcodes) Vcvtusi2sdq(ops ...Operand) { o.a.op("VCVTUSI2SDQ", ops...) }
+func (o Opcodes) VCVTUSI2SDQ(ops ...Operand) { o.a.op("VCVTUSI2SDQ", ops...) }
+func (o Opcodes) Vcvtusi2ss(ops ...Operand) { o.a.op("VCVTUSI2SS", ops...) }
+func (o Opcodes) VCVTUSI2SS(ops ...Operand) { o.a.op("VCVTUSI2SS", ops...) }
+func (o Opcodes) Vcvtusi2ssl(ops ...Operand) { o.a.op("VCVTUSI2SSL", ops...) }
+func (o Opcodes) VCVTUSI2SSL(ops ...Operand) { o.a.op("VCVTUSI2SSL", ops...) }
+func (o Opcodes) Vcvtusi2ssq(ops ...Operand) { o.a.op("VCVTUSI2SSQ", ops...) }
+func (o Opcodes) VCVTUSI2SSQ(ops ...Operand) { o.a.op("VCVTUSI2SSQ", ops...) }
+func (o Opcodes) Vdbpsadbw(ops ...Operand) { o.a.op("VDBPSADBW", ops...) }
+func (o Opcodes) VDBPSADBW(ops ...Operand) { o.a.op("VDBPSADBW", ops...) }
+func (o Opcodes) Vdivpd(ops ...Operand) { o.a.op("VDIVPD", ops...) }
+func (o Opcodes) VDIVPD(ops ...Operand) { o.a.op("VDIVPD", ops...) }
+func (o Opcodes) Vdivps(ops ...Operand) { o.a.op("VDIVPS", ops...) }
+func (o Opcodes) VDIVPS(ops ...Operand) { o.a.op("VDIVPS", ops...) }
+func (o Opcodes) Vdivsd(ops ...Operand) { o.a.op("VDIVSD", ops...) }
+func (o Opcodes) VDIVSD(ops ...Operand) { o.a.op("VDIVSD", ops...) }
+func (o Opcodes) Vdivss(ops ...Operand) { o.a.op("VDIVSS", ops...) }
+func (o Opcodes) VDIVSS(ops ...Operand) { o.a.op("VDIVSS", ops...) }
+func (o Opcodes) Vdppd(ops ...Operand) { o.a.op("VDPPD", ops...) }
+func (o Opcodes) VDPPD(ops ...Operand) { o.a.op("VDPPD", ops...) }
+func (o Opcodes) Vdpps(ops ...Operand) { o.a.op("VDPPS", ops...) }
+func (o Opcodes) VDPPS(ops ...Operand) { o.a.op("VDPPS", ops...) }
+func (o Opcodes) Verr(ops ...Operand) { o.a.op("VERR", ops...) }
+func (o Opcodes) VERR(ops ...Operand) { o.a.op("VERR", ops...) }
+func (o Opcodes) Verw(ops ...Operand) { o.a.op("VERW", ops...) }
+func (o Opcodes) VERW(ops ...Operand) { o.a.op("VERW", ops...) }
+func (o Opcodes) Vexp2pd(ops ...Operand) { o.a.op("VEXP2PD", ops...) }
+func (o Opcodes) VEXP2PD(ops ...Operand) { o.a.op("VEXP2PD", ops...) }
+func (o Opcodes) Vexp2ps(ops ...Operand) { o.a.op("VEXP2PS", ops...) }
+func (o Opcodes) VEXP2PS(ops ...Operand) { o.a.op("VEXP2PS", ops...) }
+func (o Opcodes) Vexpandpd(ops ...Operand) { o.a.op("VEXPANDPD", ops...) }
+func (o Opcodes) VEXPANDPD(ops ...Operand) { o.a.op("VEXPANDPD", ops...) }
+func (o Opcodes) Vexpandps(ops ...Operand) { o.a.op("VEXPANDPS", ops...) }
+func (o Opcodes) VEXPANDPS(ops ...Operand) { o.a.op("VEXPANDPS", ops...) }
+func (o Opcodes) Vextractf128(ops ...Operand) { o.a.op("VEXTRACTF128", ops...) }
+func (o Opcodes) VEXTRACTF128(ops ...Operand) { o.a.op("VEXTRACTF128", ops...) }
+func (o Opcodes) Vextractf32x4(ops ...Operand) { o.a.op("VEXTRACTF32X4", ops...) }
+func (o Opcodes) VEXTRACTF32X4(ops ...Operand) { o.a.op("VEXTRACTF32X4", ops...) }
+func (o Opcodes) Vextractf32x8(ops ...Operand) { o.a.op("VEXTRACTF32X8", ops...) }
+func (o Opcodes) VEXTRACTF32X8(ops ...Operand) { o.a.op("VEXTRACTF32X8", ops...) }
+func (o Opcodes) Vextractf64x2(ops ...Operand) { o.a.op("VEXTRACTF64X2", ops...) }
+func (o Opcodes) VEXTRACTF64X2(ops ...Operand) { o.a.op("VEXTRACTF64X2", ops...) }
+func (o Opcodes) Vextractf64x4(ops ...Operand) { o.a.op("VEXTRACTF64X4", ops...) }
+func (o Opcodes) VEXTRACTF64X4(ops ...Operand) { o.a.op("VEXTRACTF64X4", ops...) }
+func (o Opcodes) Vextracti128(ops ...Operand) { o.a.op("VEXTRACTI128", ops...) }
+func (o Opcodes) VEXTRACTI128(ops ...Operand) { o.a.op("VEXTRACTI128", ops...) }
+func (o Opcodes) Vextracti32x4(ops ...Operand) { o.a.op("VEXTRACTI32X4", ops...) }
+func (o Opcodes) VEXTRACTI32X4(ops ...Operand) { o.a.op("VEXTRACTI32X4", ops...) }
+func (o Opcodes) Vextracti32x8(ops ...Operand) { o.a.op("VEXTRACTI32X8", ops...) }
+func (o Opcodes) VEXTRACTI32X8(ops ...Operand) { o.a.op("VEXTRACTI32X8", ops...) }
+func (o Opcodes) Vextracti64x2(ops ...Operand) { o.a.op("VEXTRACTI64X2", ops...) }
+func (o Opcodes) VEXTRACTI64X2(ops ...Operand) { o.a.op("VEXTRACTI64X2", ops...) }
+func (o Opcodes) Vextracti64x4(ops ...Operand) { o.a.op("VEXTRACTI64X4", ops...) }
+func (o Opcodes) VEXTRACTI64X4(ops ...Operand) { o.a.op("VEXTRACTI64X4", ops...) }
+func (o Opcodes) Vextractps(ops ...Operand) { o.a.op("VEXTRACTPS", ops...) }
+func (o Opcodes) VEXTRACTPS(ops ...Operand) { o.a.op("VEXTRACTPS", ops...) }
+func (o Opcodes) Vfixupimmpd(ops ...Operand) { o.a.op("VFIXUPIMMPD", ops...) }
+func (o Opcodes) VFIXUPIMMPD(ops ...Operand) { o.a.op("VFIXUPIMMPD", ops...) }
+func (o Opcodes) Vfixupimmps(ops ...Operand) { o.a.op("VFIXUPIMMPS", ops...) }
+func (o Opcodes) VFIXUPIMMPS(ops ...Operand) { o.a.op("VFIXUPIMMPS", ops...) }
+func (o Opcodes) Vfixupimmsd(ops ...Operand) { o.a.op("VFIXUPIMMSD", ops...) }
+func (o Opcodes) VFIXUPIMMSD(ops ...Operand) { o.a.op("VFIXUPIMMSD", ops...) }
+func (o Opcodes) Vfixupimmss(ops ...Operand) { o.a.op("VFIXUPIMMSS", ops...) }
+func (o Opcodes) VFIXUPIMMSS(ops ...Operand) { o.a.op("VFIXUPIMMSS", ops...) }
+func (o Opcodes) Vfmadd132pd(ops ...Operand) { o.a.op("VFMADD132PD", ops...) }
+func (o Opcodes) VFMADD132PD(ops ...Operand) { o.a.op("VFMADD132PD", ops...) }
+func (o Opcodes) Vfmadd132ps(ops ...Operand) { o.a.op("VFMADD132PS", ops...) }
+func (o Opcodes) VFMADD132PS(ops ...Operand) { o.a.op("VFMADD132PS", ops...) }
+func (o Opcodes) Vfmadd132sd(ops ...Operand) { o.a.op("VFMADD132SD", ops...) }
+func (o Opcodes) VFMADD132SD(ops ...Operand) { o.a.op("VFMADD132SD", ops...) }
+func (o Opcodes) Vfmadd132ss(ops ...Operand) { o.a.op("VFMADD132SS", ops...) }
+func (o Opcodes) VFMADD132SS(ops ...Operand) { o.a.op("VFMADD132SS", ops...) }
+func (o Opcodes) Vfmadd213pd(ops ...Operand) { o.a.op("VFMADD213PD", ops...) }
+func (o Opcodes) VFMADD213PD(ops ...Operand) { o.a.op("VFMADD213PD", ops...) }
+func (o Opcodes) Vfmadd213ps(ops ...Operand) { o.a.op("VFMADD213PS", ops...) }
+func (o Opcodes) VFMADD213PS(ops ...Operand) { o.a.op("VFMADD213PS", ops...) }
+func (o Opcodes) Vfmadd213sd(ops ...Operand) { o.a.op("VFMADD213SD", ops...) }
+func (o Opcodes) VFMADD213SD(ops ...Operand) { o.a.op("VFMADD213SD", ops...) }
+func (o Opcodes) Vfmadd213ss(ops ...Operand) { o.a.op("VFMADD213SS", ops...) }
+func (o Opcodes) VFMADD213SS(ops ...Operand) { o.a.op("VFMADD213SS", ops...) }
+func (o Opcodes) Vfmadd231pd(ops ...Operand) { o.a.op("VFMADD231PD", ops...) }
+func (o Opcodes) VFMADD231PD(ops ...Operand) { o.a.op("VFMADD231PD", ops...) }
+func (o Opcodes) Vfmadd231ps(ops ...Operand) { o.a.op("VFMADD231PS", ops...) }
+func (o Opcodes) VFMADD231PS(ops ...Operand) { o.a.op("VFMADD231PS", ops...) }
+func (o Opcodes) Vfmadd231sd(ops ...Operand) { o.a.op("VFMADD231SD", ops...) }
+func (o Opcodes) VFMADD231SD(ops ...Operand) { o.a.op("VFMADD231SD", ops...) }
+func (o Opcodes) Vfmadd231ss(ops ...Operand) { o.a.op("VFMADD231SS", ops...) }
+func (o Opcodes) VFMADD231SS(ops ...Operand) { o.a.op("VFMADD231SS", ops...) }
+func (o Opcodes) Vfmaddsub132pd(ops ...Operand) { o.a.op("VFMADDSUB132PD", ops...) }
+func (o Opcodes) VFMADDSUB132PD(ops ...Operand) { o.a.op("VFMADDSUB132PD", ops...) }
+func (o Opcodes) Vfmaddsub132ps(ops ...Operand) { o.a.op("VFMADDSUB132PS", ops...) }
+func (o Opcodes) VFMADDSUB132PS(ops ...Operand) { o.a.op("VFMADDSUB132PS", ops...) }
+func (o Opcodes) Vfmaddsub213pd(ops ...Operand) { o.a.op("VFMADDSUB213PD", ops...) }
+func (o Opcodes) VFMADDSUB213PD(ops ...Operand) { o.a.op("VFMADDSUB213PD", ops...) }
+func (o Opcodes) Vfmaddsub213ps(ops ...Operand) { o.a.op("VFMADDSUB213PS", ops...) }
+func (o Opcodes) VFMADDSUB213PS(ops ...Operand) { o.a.op("VFMADDSUB213PS", ops...) }
+func (o Opcodes) Vfmaddsub231pd(ops ...Operand) { o.a.op("VFMADDSUB231PD", ops...) }
+func (o Opcodes) VFMADDSUB231PD(ops ...Operand) { o.a.op("VFMADDSUB231PD", ops...) }
+func (o Opcodes) Vfmaddsub231ps(ops ...Operand) { o.a.op("VFMADDSUB231PS", ops...) }
+func (o Opcodes) VFMADDSUB231PS(ops ...Operand) { o.a.op("VFMADDSUB231PS", ops...) }
+func (o Opcodes) Vfmsub132pd(ops ...Operand) { o.a.op("VFMSUB132PD", ops...) }
+func (o Opcodes) VFMSUB132PD(ops ...Operand) { o.a.op("VFMSUB132PD", ops...) }
+func (o Opcodes) Vfmsub132ps(ops ...Operand) { o.a.op("VFMSUB132PS", ops...) }
+func (o Opcodes) VFMSUB132PS(ops ...Operand) { o.a.op("VFMSUB132PS", ops...) }
+func (o Opcodes) Vfmsub132sd(ops ...Operand) { o.a.op("VFMSUB132SD", ops...) }
+func (o Opcodes) VFMSUB132SD(ops ...Operand) { o.a.op("VFMSUB132SD", ops...) }
+func (o Opcodes) Vfmsub132ss(ops ...Operand) { o.a.op("VFMSUB132SS", ops...) }
+func (o Opcodes) VFMSUB132SS(ops ...Operand) { o.a.op("VFMSUB132SS", ops...) }
+func (o Opcodes) Vfmsub213pd(ops ...Operand) { o.a.op("VFMSUB213PD", ops...) }
+func (o Opcodes) VFMSUB213PD(ops ...Operand) { o.a.op("VFMSUB213PD", ops...) }
+func (o Opcodes) Vfmsub213ps(ops ...Operand) { o.a.op("VFMSUB213PS", ops...) }
+func (o Opcodes) VFMSUB213PS(ops ...Operand) { o.a.op("VFMSUB213PS", ops...) }
+func (o Opcodes) Vfmsub213sd(ops ...Operand) { o.a.op("VFMSUB213SD", ops...) }
+func (o Opcodes) VFMSUB213SD(ops ...Operand) { o.a.op("VFMSUB213SD", ops...) }
+func (o Opcodes) Vfmsub213ss(ops ...Operand) { o.a.op("VFMSUB213SS", ops...) }
+func (o Opcodes) VFMSUB213SS(ops ...Operand) { o.a.op("VFMSUB213SS", ops...) }
+func (o Opcodes) Vfmsub231pd(ops ...Operand) { o.a.op("VFMSUB231PD", ops...) }
+func (o Opcodes) VFMSUB231PD(ops ...Operand) { o.a.op("VFMSUB231PD", ops...) }
+func (o Opcodes) Vfmsub231ps(ops ...Operand) { o.a.op("VFMSUB231PS", ops...) }
+func (o Opcodes) VFMSUB231PS(ops ...Operand) { o.a.op("VFMSUB231PS", ops...) }
+func (o Opcodes) Vfmsub231sd(ops ...Operand) { o.a.op("VFMSUB231SD", ops...) }
+func (o Opcodes) VFMSUB231SD(ops ...Operand) { o.a.op("VFMSUB231SD", ops...) }
+func (o Opcodes) Vfmsub231ss(ops ...Operand) { o.a.op("VFMSUB231SS", ops...) }
+func (o Opcodes) VFMSUB231SS(ops ...Operand) { o.a.op("VFMSUB231SS", ops...) }
+func (o Opcodes) Vfmsubadd132pd(ops ...Operand) { o.a.op("VFMSUBADD132PD", ops...) }
+func (o Opcodes) VFMSUBADD132PD(ops ...Operand) { o.a.op("VFMSUBADD132PD", ops...) }
+func (o Opcodes) Vfmsubadd132ps(ops ...Operand) { o.a.op("VFMSUBADD132PS", ops...) }
+func (o Opcodes) VFMSUBADD132PS(ops ...Operand) { o.a.op("VFMSUBADD132PS", ops...) }
+func (o Opcodes) Vfmsubadd213pd(ops ...Operand) { o.a.op("VFMSUBADD213PD", ops...) }
+func (o Opcodes) VFMSUBADD213PD(ops ...Operand) { o.a.op("VFMSUBADD213PD", ops...) }
+func (o Opcodes) Vfmsubadd213ps(ops ...Operand) { o.a.op("VFMSUBADD213PS", ops...) }
+func (o Opcodes) VFMSUBADD213PS(ops ...Operand) { o.a.op("VFMSUBADD213PS", ops...) }
+func (o Opcodes) Vfmsubadd231pd(ops ...Operand) { o.a.op("VFMSUBADD231PD", ops...) }
+func (o Opcodes) VFMSUBADD231PD(ops ...Operand) { o.a.op("VFMSUBADD231PD", ops...) }
+func (o Opcodes) Vfmsubadd231ps(ops ...Operand) { o.a.op("VFMSUBADD231PS", ops...) }
+func (o Opcodes) VFMSUBADD231PS(ops ...Operand) { o.a.op("VFMSUBADD231PS", ops...) }
+func (o Opcodes) Vfnmadd132pd(ops ...Operand) { o.a.op("VFNMADD132PD", ops...) }
+func (o Opcodes) VFNMADD132PD(ops ...Operand) { o.a.op("VFNMADD132PD", ops...) }
+func (o Opcodes) Vfnmadd132ps(ops ...Operand) { o.a.op("VFNMADD132PS", ops...) }
+func (o Opcodes) VFNMADD132PS(ops ...Operand) { o.a.op("VFNMADD132PS", ops...) }
+func (o Opcodes) Vfnmadd132sd(ops ...Operand) { o.a.op("VFNMADD132SD", ops...) }
+func (o Opcodes) VFNMADD132SD(ops ...Operand) { o.a.op("VFNMADD132SD", ops...) }
+func (o Opcodes) Vfnmadd132ss(ops ...Operand) { o.a.op("VFNMADD132SS", ops...) }
+func (o Opcodes) VFNMADD132SS(ops ...Operand) { o.a.op("VFNMADD132SS", ops...) }
+func (o Opcodes) Vfnmadd213pd(ops ...Operand) { o.a.op("VFNMADD213PD", ops...) }
+func (o Opcodes) VFNMADD213PD(ops ...Operand) { o.a.op("VFNMADD213PD", ops...) }
+func (o Opcodes) Vfnmadd213ps(ops ...Operand) { o.a.op("VFNMADD213PS", ops...) }
+func (o Opcodes) VFNMADD213PS(ops ...Operand) { o.a.op("VFNMADD213PS", ops...) }
+func (o Opcodes) Vfnmadd213sd(ops ...Operand) { o.a.op("VFNMADD213SD", ops...) }
+func (o Opcodes) VFNMADD213SD(ops ...Operand) { o.a.op("VFNMADD213SD", ops...) }
+func (o Opcodes) Vfnmadd213ss(ops ...Operand) { o.a.op("VFNMADD213SS", ops...) }
+func (o Opcodes) VFNMADD213SS(ops ...Operand) { o.a.op("VFNMADD213SS", ops...) }
+func (o Opcodes) Vfnmadd231pd(ops ...Operand) { o.a.op("VFNMADD231PD", ops...) }
+func (o Opcodes) VFNMADD231PD(ops ...Operand) { o.a.op("VFNMADD231PD", ops...) }
+func (o Opcodes) Vfnmadd231ps(ops ...Operand) { o.a.op("VFNMADD231PS", ops...) }
+func (o Opcodes) VFNMADD231PS(ops ...Operand) { o.a.op("VFNMADD231PS", ops...) }
+func (o Opcodes) Vfnmadd231sd(ops ...Operand) { o.a.op("VFNMADD231SD", ops...) }
+func (o Opcodes) VFNMADD231SD(ops ...Operand) { o.a.op("VFNMADD231SD", ops...) }
+func (o Opcodes) Vfnmadd231ss(ops ...Operand) { o.a.op("VFNMADD231SS", ops...) }
+func (o Opcodes) VFNMADD231SS(ops ...Operand) { o.a.op("VFNMADD231SS", ops...) }
+func (o Opcodes) Vfnmsub132pd(ops ...Operand) { o.a.op("VFNMSUB132PD", ops...) }
+func (o Opcodes) VFNMSUB132PD(ops ...Operand) { o.a.op("VFNMSUB132PD", ops...) }
+func (o Opcodes) Vfnmsub132ps(ops ...Operand) { o.a.op("VFNMSUB132PS", ops...) }
+func (o Opcodes) VFNMSUB132PS(ops ...Operand) { o.a.op("VFNMSUB132PS", ops...) }
+func (o Opcodes) Vfnmsub132sd(ops ...Operand) { o.a.op("VFNMSUB132SD", ops...) }
+func (o Opcodes) VFNMSUB132SD(ops ...Operand) { o.a.op("VFNMSUB132SD", ops...) }
+func (o Opcodes) Vfnmsub132ss(ops ...Operand) { o.a.op("VFNMSUB132SS", ops...) }
+func (o Opcodes) VFNMSUB132SS(ops ...Operand) { o.a.op("VFNMSUB132SS", ops...) }
+func (o Opcodes) Vfnmsub213pd(ops ...Operand) { o.a.op("VFNMSUB213PD", ops...) }
+func (o Opcodes) VFNMSUB213PD(ops ...Operand) { o.a.op("VFNMSUB213PD", ops...) }
+func (o Opcodes) Vfnmsub213ps(ops ...Operand) { o.a.op("VFNMSUB213PS", ops...) }
+func (o Opcodes) VFNMSUB213PS(ops ...Operand) { o.a.op("VFNMSUB213PS", ops...) }
+func (o Opcodes) Vfnmsub213sd(ops ...Operand) { o.a.op("VFNMSUB213SD", ops...) }
+func (o Opcodes) VFNMSUB213SD(ops ...Operand) { o.a.op("VFNMSUB213SD", ops...) }
+func (o Opcodes) Vfnmsub213ss(ops ...Operand) { o.a.op("VFNMSUB213SS", ops...) }
+func (o Opcodes) VFNMSUB213SS(ops ...Operand) { o.a.op("VFNMSUB213SS", ops...) }
+func (o Opcodes) Vfnmsub231pd(ops ...Operand) { o.a.op("VFNMSUB231PD", ops...) }
+func (o Opcodes) VFNMSUB231PD(ops ...Operand) { o.a.op("VFNMSUB231PD", ops...) }
+func (o Opcodes) Vfnmsub231ps(ops ...Operand) { o.a.op("VFNMSUB231PS", ops...) }
+func (o Opcodes) VFNMSUB231PS(ops ...Operand) { o.a.op("VFNMSUB231PS", ops...) }
+func (o Opcodes) Vfnmsub231sd(ops ...Operand) { o.a.op("VFNMSUB231SD", ops...) }
+func (o Opcodes) VFNMSUB231SD(ops ...Operand) { o.a.op("VFNMSUB231SD", ops...) }
+func (o Opcodes) Vfnmsub231ss(ops ...Operand) { o.a.op("VFNMSUB231SS", ops...) }
+func (o Opcodes) VFNMSUB231SS(ops ...Operand) { o.a.op("VFNMSUB231SS", ops...) }
+func (o Opcodes) Vfpclasspd(ops ...Operand) { o.a.op("VFPCLASSPD", ops...) }
+func (o Opcodes) VFPCLASSPD(ops ...Operand) { o.a.op("VFPCLASSPD", ops...) }
+func (o Opcodes) Vfpclasspdx(ops ...Operand) { o.a.op("VFPCLASSPDX", ops...) }
+func (o Opcodes) VFPCLASSPDX(ops ...Operand) { o.a.op("VFPCLASSPDX", ops...) }
+func (o Opcodes) Vfpclasspdy(ops ...Operand) { o.a.op("VFPCLASSPDY", ops...) }
+func (o Opcodes) VFPCLASSPDY(ops ...Operand) { o.a.op("VFPCLASSPDY", ops...) }
+func (o Opcodes) Vfpclasspdz(ops ...Operand) { o.a.op("VFPCLASSPDZ", ops...) }
+func (o Opcodes) VFPCLASSPDZ(ops ...Operand) { o.a.op("VFPCLASSPDZ", ops...) }
+func (o Opcodes) Vfpclassps(ops ...Operand) { o.a.op("VFPCLASSPS", ops...) }
+func (o Opcodes) VFPCLASSPS(ops ...Operand) { o.a.op("VFPCLASSPS", ops...) }
+func (o Opcodes) Vfpclasspsx(ops ...Operand) { o.a.op("VFPCLASSPSX", ops...) }
+func (o Opcodes) VFPCLASSPSX(ops ...Operand) { o.a.op("VFPCLASSPSX", ops...) }
+func (o Opcodes) Vfpclasspsy(ops ...Operand) { o.a.op("VFPCLASSPSY", ops...) }
+func (o Opcodes) VFPCLASSPSY(ops ...Operand) { o.a.op("VFPCLASSPSY", ops...) }
+func (o Opcodes) Vfpclasspsz(ops ...Operand) { o.a.op("VFPCLASSPSZ", ops...) }
+func (o Opcodes) VFPCLASSPSZ(ops ...Operand) { o.a.op("VFPCLASSPSZ", ops...) }
+func (o Opcodes) Vfpclasssd(ops ...Operand) { o.a.op("VFPCLASSSD", ops...) }
+func (o Opcodes) VFPCLASSSD(ops ...Operand) { o.a.op("VFPCLASSSD", ops...) }
+func (o Opcodes) Vfpclassss(ops ...Operand) { o.a.op("VFPCLASSSS", ops...) }
+func (o Opcodes) VFPCLASSSS(ops ...Operand) { o.a.op("VFPCLASSSS", ops...) }
+func (o Opcodes) Vgatherdpd(ops ...Operand) { o.a.op("VGATHERDPD", ops...) }
+func (o Opcodes) VGATHERDPD(ops ...Operand) { o.a.op("VGATHERDPD", ops...) }
+func (o Opcodes) Vgatherdps(ops ...Operand) { o.a.op("VGATHERDPS", ops...) }
+func (o Opcodes) VGATHERDPS(ops ...Operand) { o.a.op("VGATHERDPS", ops...) }
+func (o Opcodes) Vgatherpf0dpd(ops ...Operand) { o.a.op("VGATHERPF0DPD", ops...) }
+func (o Opcodes) VGATHERPF0DPD(ops ...Operand) { o.a.op("VGATHERPF0DPD", ops...) }
+func (o Opcodes) Vgatherpf0dps(ops ...Operand) { o.a.op("VGATHERPF0DPS", ops...) }
+func (o Opcodes) VGATHERPF0DPS(ops ...Operand) { o.a.op("VGATHERPF0DPS", ops...) }
+func (o Opcodes) Vgatherpf0qpd(ops ...Operand) { o.a.op("VGATHERPF0QPD", ops...) }
+func (o Opcodes) VGATHERPF0QPD(ops ...Operand) { o.a.op("VGATHERPF0QPD", ops...) }
+func (o Opcodes) Vgatherpf0qps(ops ...Operand) { o.a.op("VGATHERPF0QPS", ops...) }
+func (o Opcodes) VGATHERPF0QPS(ops ...Operand) { o.a.op("VGATHERPF0QPS", ops...) }
+func (o Opcodes) Vgatherpf1dpd(ops ...Operand) { o.a.op("VGATHERPF1DPD", ops...) }
+func (o Opcodes) VGATHERPF1DPD(ops ...Operand) { o.a.op("VGATHERPF1DPD", ops...) }
+func (o Opcodes) Vgatherpf1dps(ops ...Operand) { o.a.op("VGATHERPF1DPS", ops...) }
+func (o Opcodes) VGATHERPF1DPS(ops ...Operand) { o.a.op("VGATHERPF1DPS", ops...) }
+func (o Opcodes) Vgatherpf1qpd(ops ...Operand) { o.a.op("VGATHERPF1QPD", ops...) }
+func (o Opcodes) VGATHERPF1QPD(ops ...Operand) { o.a.op("VGATHERPF1QPD", ops...) }
+func (o Opcodes) Vgatherpf1qps(ops ...Operand) { o.a.op("VGATHERPF1QPS", ops...) }
+func (o Opcodes) VGATHERPF1QPS(ops ...Operand) { o.a.op("VGATHERPF1QPS", ops...) }
+func (o Opcodes) Vgatherqpd(ops ...Operand) { o.a.op("VGATHERQPD", ops...) }
+func (o Opcodes) VGATHERQPD(ops ...Operand) { o.a.op("VGATHERQPD", ops...) }
+func (o Opcodes) Vgatherqps(ops ...Operand) { o.a.op("VGATHERQPS", ops...) }
+func (o Opcodes) VGATHERQPS(ops ...Operand) { o.a.op("VGATHERQPS", ops...) }
+func (o Opcodes) Vgetexppd(ops ...Operand) { o.a.op("VGETEXPPD", ops...) }
+func (o Opcodes) VGETEXPPD(ops ...Operand) { o.a.op("VGETEXPPD", ops...) }
+func (o Opcodes) Vgetexpps(ops ...Operand) { o.a.op("VGETEXPPS", ops...) }
+func (o Opcodes) VGETEXPPS(ops ...Operand) { o.a.op("VGETEXPPS", ops...) }
+func (o Opcodes) Vgetexpsd(ops ...Operand) { o.a.op("VGETEXPSD", ops...) }
+func (o Opcodes) VGETEXPSD(ops ...Operand) { o.a.op("VGETEXPSD", ops...) }
+func (o Opcodes) Vgetexpss(ops ...Operand) { o.a.op("VGETEXPSS", ops...) }
+func (o Opcodes) VGETEXPSS(ops ...Operand) { o.a.op("VGETEXPSS", ops...) }
+func (o Opcodes) Vgetmantpd(ops ...Operand) { o.a.op("VGETMANTPD", ops...) }
+func (o Opcodes) VGETMANTPD(ops ...Operand) { o.a.op("VGETMANTPD", ops...) }
+func (o Opcodes) Vgetmantps(ops ...Operand) { o.a.op("VGETMANTPS", ops...) }
+func (o Opcodes) VGETMANTPS(ops ...Operand) { o.a.op("VGETMANTPS", ops...) }
+func (o Opcodes) Vgetmantsd(ops ...Operand) { o.a.op("VGETMANTSD", ops...) }
+func (o Opcodes) VGETMANTSD(ops ...Operand) { o.a.op("VGETMANTSD", ops...) }
+func (o Opcodes) Vgetmantss(ops ...Operand) { o.a.op("VGETMANTSS", ops...) }
+func (o Opcodes) VGETMANTSS(ops ...Operand) { o.a.op("VGETMANTSS", ops...) }
+func (o Opcodes) Vgf2p8affineinvqb(ops ...Operand) { o.a.op("VGF2P8AFFINEINVQB", ops...) }
+func (o Opcodes) VGF2P8AFFINEINVQB(ops ...Operand) { o.a.op("VGF2P8AFFINEINVQB", ops...) }
+func (o Opcodes) Vgf2p8affineqb(ops ...Operand) { o.a.op("VGF2P8AFFINEQB", ops...) }
+func (o Opcodes) VGF2P8AFFINEQB(ops ...Operand) { o.a.op("VGF2P8AFFINEQB", ops...) }
+func (o Opcodes) Vgf2p8mulb(ops ...Operand) { o.a.op("VGF2P8MULB", ops...) }
+func (o Opcodes) VGF2P8MULB(ops ...Operand) { o.a.op("VGF2P8MULB", ops...) }
+func (o Opcodes) Vhaddpd(ops ...Operand) { o.a.op("VHADDPD", ops...) }
+func (o Opcodes) VHADDPD(ops ...Operand) { o.a.op("VHADDPD", ops...) }
+func (o Opcodes) Vhaddps(ops ...Operand) { o.a.op("VHADDPS", ops...) }
+func (o Opcodes) VHADDPS(ops ...Operand) { o.a.op("VHADDPS", ops...) }
+func (o Opcodes) Vhsubpd(ops ...Operand) { o.a.op("VHSUBPD", ops...) }
+func (o Opcodes) VHSUBPD(ops ...Operand) { o.a.op("VHSUBPD", ops...) }
+func (o Opcodes) Vhsubps(ops ...Operand) { o.a.op("VHSUBPS", ops...) }
+func (o Opcodes) VHSUBPS(ops ...Operand) { o.a.op("VHSUBPS", ops...) }
+func (o Opcodes) Vinsertf128(ops ...Operand) { o.a.op("VINSERTF128", ops...) }
+func (o Opcodes) VINSERTF128(ops ...Operand) { o.a.op("VINSERTF128", ops...) }
+func (o Opcodes) Vinsertf32x4(ops ...Operand) { o.a.op("VINSERTF32X4", ops...) }
+func (o Opcodes) VINSERTF32X4(ops ...Operand) { o.a.op("VINSERTF32X4", ops...) }
+func (o Opcodes) Vinsertf32x8(ops ...Operand) { o.a.op("VINSERTF32X8", ops...) }
+func (o Opcodes) VINSERTF32X8(ops ...Operand) { o.a.op("VINSERTF32X8", ops...) }
+func (o Opcodes) Vinsertf64x2(ops ...Operand) { o.a.op("VINSERTF64X2", ops...) }
+func (o Opcodes) VINSERTF64X2(ops ...Operand) { o.a.op("VINSERTF64X2", ops...) }
+func (o Opcodes) Vinsertf64x4(ops ...Operand) { o.a.op("VINSERTF64X4", ops...) }
+func (o Opcodes) VINSERTF64X4(ops ...Operand) { o.a.op("VINSERTF64X4", ops...) }
+func (o Opcodes) Vinserti128(ops ...Operand) { o.a.op("VINSERTI128", ops...) }
+func (o Opcodes) VINSERTI128(ops ...Operand) { o.a.op("VINSERTI128", ops...) }
+func (o Opcodes) Vinserti32x4(ops ...Operand) { o.a.op("VINSERTI32X4", ops...) }
+func (o Opcodes) VINSERTI32X4(ops ...Operand) { o.a.op("VINSERTI32X4", ops...) }
+func (o Opcodes) Vinserti32x8(ops ...Operand) { o.a.op("VINSERTI32X8", ops...) }
+func (o Opcodes) VINSERTI32X8(ops ...Operand) { o.a.op("VINSERTI32X8", ops...) }
+func (o Opcodes) Vinserti64x2(ops ...Operand) { o.a.op("VINSERTI64X2", ops...) }
+func (o Opcodes) VINSERTI64X2(ops ...Operand) { o.a.op("VINSERTI64X2", ops...) }
+func (o Opcodes) Vinserti64x4(ops ...Operand) { o.a.op("VINSERTI64X4", ops...) }
+func (o Opcodes) VINSERTI64X4(ops ...Operand) { o.a.op("VINSERTI64X4", ops...) }
+func (o Opcodes) Vinsertps(ops ...Operand) { o.a.op("VINSERTPS", ops...) }
+func (o Opcodes) VINSERTPS(ops ...Operand) { o.a.op("VINSERTPS", ops...) }
+func (o Opcodes) Vlddqu(ops ...Operand) { o.a.op("VLDDQU", ops...) }
+func (o Opcodes) VLDDQU(ops ...Operand) { o.a.op("VLDDQU", ops...) }
+func (o Opcodes) Vldmxcsr(ops ...Operand) { o.a.op("VLDMXCSR", ops...) }
+func (o Opcodes) VLDMXCSR(ops ...Operand) { o.a.op("VLDMXCSR", ops...) }
+func (o Opcodes) Vmaskmovdqu(ops ...Operand) { o.a.op("VMASKMOVDQU", ops...) }
+func (o Opcodes) VMASKMOVDQU(ops ...Operand) { o.a.op("VMASKMOVDQU", ops...) }
+func (o Opcodes) Vmaskmovpd(ops ...Operand) { o.a.op("VMASKMOVPD", ops...) }
+func (o Opcodes) VMASKMOVPD(ops ...Operand) { o.a.op("VMASKMOVPD", ops...) }
+func (o Opcodes) Vmaskmovps(ops ...Operand) { o.a.op("VMASKMOVPS", ops...) }
+func (o Opcodes) VMASKMOVPS(ops ...Operand) { o.a.op("VMASKMOVPS", ops...) }
+func (o Opcodes) Vmaxpd(ops ...Operand) { o.a.op("VMAXPD", ops...) }
+func (o Opcodes) VMAXPD(ops ...Operand) { o.a.op("VMAXPD", ops...) }
+func (o Opcodes) Vmaxps(ops ...Operand) { o.a.op("VMAXPS", ops...) }
+func (o Opcodes) VMAXPS(ops ...Operand) { o.a.op("VMAXPS", ops...) }
+func (o Opcodes) Vmaxsd(ops ...Operand) { o.a.op("VMAXSD", ops...) }
+func (o Opcodes) VMAXSD(ops ...Operand) { o.a.op("VMAXSD", ops...) }
+func (o Opcodes) Vmaxss(ops ...Operand) { o.a.op("VMAXSS", ops...) }
+func (o Opcodes) VMAXSS(ops ...Operand) { o.a.op("VMAXSS", ops...) }
+func (o Opcodes) Vminpd(ops ...Operand) { o.a.op("VMINPD", ops...) }
+func (o Opcodes) VMINPD(ops ...Operand) { o.a.op("VMINPD", ops...) }
+func (o Opcodes) Vminps(ops ...Operand) { o.a.op("VMINPS", ops...) }
+func (o Opcodes) VMINPS(ops ...Operand) { o.a.op("VMINPS", ops...) }
+func (o Opcodes) Vminsd(ops ...Operand) { o.a.op("VMINSD", ops...) }
+func (o Opcodes) VMINSD(ops ...Operand) { o.a.op("VMINSD", ops...) }
+func (o Opcodes) Vminss(ops ...Operand) { o.a.op("VMINSS", ops...) }
+func (o Opcodes) VMINSS(ops ...Operand) { o.a.op("VMINSS", ops...) }
+func (o Opcodes) Vmovapd(ops ...Operand) { o.a.op("VMOVAPD", ops...) }
+func (o Opcodes) VMOVAPD(ops ...Operand) { o.a.op("VMOVAPD", ops...) }
+func (o Opcodes) Vmovaps(ops ...Operand) { o.a.op("VMOVAPS", ops...) }
+func (o Opcodes) VMOVAPS(ops ...Operand) { o.a.op("VMOVAPS", ops...) }
+func (o Opcodes) Vmovd(ops ...Operand) { o.a.op("VMOVD", ops...) }
+func (o Opcodes) VMOVD(ops ...Operand) { o.a.op("VMOVD", ops...) }
+func (o Opcodes) Vmovddup(ops ...Operand) { o.a.op("VMOVDDUP", ops...) }
+func (o Opcodes) VMOVDDUP(ops ...Operand) { o.a.op("VMOVDDUP", ops...) }
+func (o Opcodes) Vmovdqa(ops ...Operand) { o.a.op("VMOVDQA", ops...) }
+func (o Opcodes) VMOVDQA(ops ...Operand) { o.a.op("VMOVDQA", ops...) }
+func (o Opcodes) Vmovdqa32(ops ...Operand) { o.a.op("VMOVDQA32", ops...) }
+func (o Opcodes) VMOVDQA32(ops ...Operand) { o.a.op("VMOVDQA32", ops...) }
+func (o Opcodes) Vmovdqa64(ops ...Operand) { o.a.op("VMOVDQA64", ops...) }
+func (o Opcodes) VMOVDQA64(ops ...Operand) { o.a.op("VMOVDQA64", ops...) }
+func (o Opcodes) Vmovdqu(ops ...Operand) { o.a.op("VMOVDQU", ops...) }
+func (o Opcodes) VMOVDQU(ops ...Operand) { o.a.op("VMOVDQU", ops...) }
+func (o Opcodes) Vmovdqu16(ops ...Operand) { o.a.op("VMOVDQU16", ops...) }
+func (o Opcodes) VMOVDQU16(ops ...Operand) { o.a.op("VMOVDQU16", ops...) }
+func (o Opcodes) Vmovdqu32(ops ...Operand) { o.a.op("VMOVDQU32", ops...) }
+func (o Opcodes) VMOVDQU32(ops ...Operand) { o.a.op("VMOVDQU32", ops...) }
+func (o Opcodes) Vmovdqu64(ops ...Operand) { o.a.op("VMOVDQU64", ops...) }
+func (o Opcodes) VMOVDQU64(ops ...Operand) { o.a.op("VMOVDQU64", ops...) }
+func (o Opcodes) Vmovdqu8(ops ...Operand) { o.a.op("VMOVDQU8", ops...) }
+func (o Opcodes) VMOVDQU8(ops ...Operand) { o.a.op("VMOVDQU8", ops...) }
+func (o Opcodes) Vmovhlps(ops ...Operand) { o.a.op("VMOVHLPS", ops...) }
+func (o Opcodes) VMOVHLPS(ops ...Operand) { o.a.op("VMOVHLPS", ops...) }
+func (o Opcodes) Vmovhpd(ops ...Operand) { o.a.op("VMOVHPD", ops...) }
+func (o Opcodes) VMOVHPD(ops ...Operand) { o.a.op("VMOVHPD", ops...) }
+func (o Opcodes) Vmovhps(ops ...Operand) { o.a.op("VMOVHPS", ops...) }
+func (o Opcodes) VMOVHPS(ops ...Operand) { o.a.op("VMOVHPS", ops...) }
+func (o Opcodes) Vmovlhps(ops ...Operand) { o.a.op("VMOVLHPS", ops...) }
+func (o Opcodes) VMOVLHPS(ops ...Operand) { o.a.op("VMOVLHPS", ops...) }
+func (o Opcodes) Vmovlpd(ops ...Operand) { o.a.op("VMOVLPD", ops...) }
+func (o Opcodes) VMOVLPD(ops ...Operand) { o.a.op("VMOVLPD", ops...) }
+func (o Opcodes) Vmovlps(ops ...Operand) { o.a.op("VMOVLPS", ops...) }
+func (o Opcodes) VMOVLPS(ops ...Operand) { o.a.op("VMOVLPS", ops...) }
+func (o Opcodes) Vmovmskpd(ops ...Operand) { o.a.op("VMOVMSKPD", ops...) }
+func (o Opcodes) VMOVMSKPD(ops ...Operand) { o.a.op("VMOVMSKPD", ops...) }
+func (o Opcodes) Vmovmskps(ops ...Operand) { o.a.op("VMOVMSKPS", ops...) }
+func (o Opcodes) VMOVMSKPS(ops ...Operand) { o.a.op("VMOVMSKPS", ops...) }
+func (o Opcodes) Vmovntdq(ops ...Operand) { o.a.op("VMOVNTDQ", ops...) }
+func (o Opcodes) VMOVNTDQ(ops ...Operand) { o.a.op("VMOVNTDQ", ops...) }
+func (o Opcodes) Vmovntdqa(ops ...Operand) { o.a.op("VMOVNTDQA", ops...) }
+func (o Opcodes) VMOVNTDQA(ops ...Operand) { o.a.op("VMOVNTDQA", ops...) }
+func (o Opcodes) Vmovntpd(ops ...Operand) { o.a.op("VMOVNTPD", ops...) }
+func (o Opcodes) VMOVNTPD(ops ...Operand) { o.a.op("VMOVNTPD", ops...) }
+func (o Opcodes) Vmovntps(ops ...Operand) { o.a.op("VMOVNTPS", ops...) }
+func (o Opcodes) VMOVNTPS(ops ...Operand) { o.a.op("VMOVNTPS", ops...) }
+func (o Opcodes) Vmovq(ops ...Operand) { o.a.op("VMOVQ", ops...) }
+func (o Opcodes) VMOVQ(ops ...Operand) { o.a.op("VMOVQ", ops...) }
+func (o Opcodes) Vmovsd(ops ...Operand) { o.a.op("VMOVSD", ops...) }
+func (o Opcodes) VMOVSD(ops ...Operand) { o.a.op("VMOVSD", ops...) }
+func (o Opcodes) Vmovshdup(ops ...Operand) { o.a.op("VMOVSHDUP", ops...) }
+func (o Opcodes) VMOVSHDUP(ops ...Operand) { o.a.op("VMOVSHDUP", ops...) }
+func (o Opcodes) Vmovsldup(ops ...Operand) { o.a.op("VMOVSLDUP", ops...) }
+func (o Opcodes) VMOVSLDUP(ops ...Operand) { o.a.op("VMOVSLDUP", ops...) }
+func (o Opcodes) Vmovss(ops ...Operand) { o.a.op("VMOVSS", ops...) }
+func (o Opcodes) VMOVSS(ops ...Operand) { o.a.op("VMOVSS", ops...) }
+func (o Opcodes) Vmovupd(ops ...Operand) { o.a.op("VMOVUPD", ops...) }
+func (o Opcodes) VMOVUPD(ops ...Operand) { o.a.op("VMOVUPD", ops...) }
+func (o Opcodes) Vmovups(ops ...Operand) { o.a.op("VMOVUPS", ops...) }
+func (o Opcodes) VMOVUPS(ops ...Operand) { o.a.op("VMOVUPS", ops...) }
+func (o Opcodes) Vmpsadbw(ops ...Operand) { o.a.op("VMPSADBW", ops...) }
+func (o Opcodes) VMPSADBW(ops ...Operand) { o.a.op("VMPSADBW", ops...) }
+func (o Opcodes) Vmulpd(ops ...Operand) { o.a.op("VMULPD", ops...) }
+func (o Opcodes) VMULPD(ops ...Operand) { o.a.op("VMULPD", ops...) }
+func (o Opcodes) Vmulps(ops ...Operand) { o.a.op("VMULPS", ops...) }
+func (o Opcodes) VMULPS(ops ...Operand) { o.a.op("VMULPS", ops...) }
+func (o Opcodes) Vmulsd(ops ...Operand) { o.a.op("VMULSD", ops...) }
+func (o Opcodes) VMULSD(ops ...Operand) { o.a.op("VMULSD", ops...) }
+func (o Opcodes) Vmulss(ops ...Operand) { o.a.op("VMULSS", ops...) }
+func (o Opcodes) VMULSS(ops ...Operand) { o.a.op("VMULSS", ops...) }
+func (o Opcodes) Vorpd(ops ...Operand) { o.a.op("VORPD", ops...) }
+func (o Opcodes) VORPD(ops ...Operand) { o.a.op("VORPD", ops...) }
+func (o Opcodes) Vorps(ops ...Operand) { o.a.op("VORPS", ops...) }
+func (o Opcodes) VORPS(ops ...Operand) { o.a.op("VORPS", ops...) }
+func (o Opcodes) Vp4dpwssd(ops ...Operand) { o.a.op("VP4DPWSSD", ops...) }
+func (o Opcodes) VP4DPWSSD(ops ...Operand) { o.a.op("VP4DPWSSD", ops...) }
+func (o Opcodes) Vp4dpwssds(ops ...Operand) { o.a.op("VP4DPWSSDS", ops...) }
+func (o Opcodes) VP4DPWSSDS(ops ...Operand) { o.a.op("VP4DPWSSDS", ops...) }
+func (o Opcodes) Vpabsb(ops ...Operand) { o.a.op("VPABSB", ops...) }
+func (o Opcodes) VPABSB(ops ...Operand) { o.a.op("VPABSB", ops...) }
+func (o Opcodes) Vpabsd(ops ...Operand) { o.a.op("VPABSD", ops...) }
+func (o Opcodes) VPABSD(ops ...Operand) { o.a.op("VPABSD", ops...) }
+func (o Opcodes) Vpabsq(ops ...Operand) { o.a.op("VPABSQ", ops...) }
+func (o Opcodes) VPABSQ(ops ...Operand) { o.a.op("VPABSQ", ops...) }
+func (o Opcodes) Vpabsw(ops ...Operand) { o.a.op("VPABSW", ops...) }
+func (o Opcodes) VPABSW(ops ...Operand) { o.a.op("VPABSW", ops...) }
+func (o Opcodes) Vpackssdw(ops ...Operand) { o.a.op("VPACKSSDW", ops...) }
+func (o Opcodes) VPACKSSDW(ops ...Operand) { o.a.op("VPACKSSDW", ops...) }
+func (o Opcodes) Vpacksswb(ops ...Operand) { o.a.op("VPACKSSWB", ops...) }
+func (o Opcodes) VPACKSSWB(ops ...Operand) { o.a.op("VPACKSSWB", ops...) }
+func (o Opcodes) Vpackusdw(ops ...Operand) { o.a.op("VPACKUSDW", ops...) }
+func (o Opcodes) VPACKUSDW(ops ...Operand) { o.a.op("VPACKUSDW", ops...) }
+func (o Opcodes) Vpackuswb(ops ...Operand) { o.a.op("VPACKUSWB", ops...) }
+func (o Opcodes) VPACKUSWB(ops ...Operand) { o.a.op("VPACKUSWB", ops...) }
+func (o Opcodes) Vpaddb(ops ...Operand) { o.a.op("VPADDB", ops...) }
+func (o Opcodes) VPADDB(ops ...Operand) { o.a.op("VPADDB", ops...) }
+func (o Opcodes) Vpaddd(ops ...Operand) { o.a.op("VPADDD", ops...) }
+func (o Opcodes) VPADDD(ops ...Operand) { o.a.op("VPADDD", ops...) }
+func (o Opcodes) Vpaddq(ops ...Operand) { o.a.op("VPADDQ", ops...) }
+func (o Opcodes) VPADDQ(ops ...Operand) { o.a.op("VPADDQ", ops...) }
+func (o Opcodes) Vpaddsb(ops ...Operand) { o.a.op("VPADDSB", ops...) }
+func (o Opcodes) VPADDSB(ops ...Operand) { o.a.op("VPADDSB", ops...) }
+func (o Opcodes) Vpaddsw(ops ...Operand) { o.a.op("VPADDSW", ops...) }
+func (o Opcodes) VPADDSW(ops ...Operand) { o.a.op("VPADDSW", ops...) }
+func (o Opcodes) Vpaddusb(ops ...Operand) { o.a.op("VPADDUSB", ops...) }
+func (o Opcodes) VPADDUSB(ops ...Operand) { o.a.op("VPADDUSB", ops...) }
+func (o Opcodes) Vpaddusw(ops ...Operand) { o.a.op("VPADDUSW", ops...) }
+func (o Opcodes) VPADDUSW(ops ...Operand) { o.a.op("VPADDUSW", ops...) }
+func (o Opcodes) Vpaddw(ops ...Operand) { o.a.op("VPADDW", ops...) }
+func (o Opcodes) VPADDW(ops ...Operand) { o.a.op("VPADDW", ops...) }
+func (o Opcodes) Vpalignr(ops ...Operand) { o.a.op("VPALIGNR", ops...) }
+func (o Opcodes) VPALIGNR(ops ...Operand) { o.a.op("VPALIGNR", ops...) }
+func (o Opcodes) Vpand(ops ...Operand) { o.a.op("VPAND", ops...) }
+func (o Opcodes) VPAND(ops ...Operand) { o.a.op("VPAND", ops...) }
+func (o Opcodes) Vpandd(ops ...Operand) { o.a.op("VPANDD", ops...) }
+func (o Opcodes) VPANDD(ops ...Operand) { o.a.op("VPANDD", ops...) }
+func (o Opcodes) Vpandn(ops ...Operand) { o.a.op("VPANDN", ops...) }
+func (o Opcodes) VPANDN(ops ...Operand) { o.a.op("VPANDN", ops...) }
+func (o Opcodes) Vpandnd(ops ...Operand) { o.a.op("VPANDND", ops...) }
+func (o Opcodes) VPANDND(ops ...Operand) { o.a.op("VPANDND", ops...) }
+func (o Opcodes) Vpandnq(ops ...Operand) { o.a.op("VPANDNQ", ops...) }
+func (o Opcodes) VPANDNQ(ops ...Operand) { o.a.op("VPANDNQ", ops...) }
+func (o Opcodes) Vpandq(ops ...Operand) { o.a.op("VPANDQ", ops...) }
+func (o Opcodes) VPANDQ(ops ...Operand) { o.a.op("VPANDQ", ops...) }
+func (o Opcodes) Vpavgb(ops ...Operand) { o.a.op("VPAVGB", ops...) }
+func (o Opcodes) VPAVGB(ops ...Operand) { o.a.op("VPAVGB", ops...) }
+func (o Opcodes) Vpavgw(ops ...Operand) { o.a.op("VPAVGW", ops...) }
+func (o Opcodes) VPAVGW(ops ...Operand) { o.a.op("VPAVGW", ops...) }
+func (o Opcodes) Vpblendd(ops ...Operand) { o.a.op("VPBLENDD", ops...) }
+func (o Opcodes) VPBLENDD(ops ...Operand) { o.a.op("VPBLENDD", ops...) }
+func (o Opcodes) Vpblendmb(ops ...Operand) { o.a.op("VPBLENDMB", ops...) }
+func (o Opcodes) VPBLENDMB(ops ...Operand) { o.a.op("VPBLENDMB", ops...) }
+func (o Opcodes) Vpblendmd(ops ...Operand) { o.a.op("VPBLENDMD", ops...) }
+func (o Opcodes) VPBLENDMD(ops ...Operand) { o.a.op("VPBLENDMD", ops...) }
+func (o Opcodes) Vpblendmq(ops ...Operand) { o.a.op("VPBLENDMQ", ops...) }
+func (o Opcodes) VPBLENDMQ(ops ...Operand) { o.a.op("VPBLENDMQ", ops...) }
+func (o Opcodes) Vpblendmw(ops ...Operand) { o.a.op("VPBLENDMW", ops...) }
+func (o Opcodes) VPBLENDMW(ops ...Operand) { o.a.op("VPBLENDMW", ops...) }
+func (o Opcodes) Vpblendvb(ops ...Operand) { o.a.op("VPBLENDVB", ops...) }
+func (o Opcodes) VPBLENDVB(ops ...Operand) { o.a.op("VPBLENDVB", ops...) }
+func (o Opcodes) Vpblendw(ops ...Operand) { o.a.op("VPBLENDW", ops...) }
+func (o Opcodes) VPBLENDW(ops ...Operand) { o.a.op("VPBLENDW", ops...) }
+func (o Opcodes) Vpbroadcastb(ops ...Operand) { o.a.op("VPBROADCASTB", ops...) }
+func (o Opcodes) VPBROADCASTB(ops ...Operand) { o.a.op("VPBROADCASTB", ops...) }
+func (o Opcodes) Vpbroadcastd(ops ...Operand) { o.a.op("VPBROADCASTD", ops...) }
+func (o Opcodes) VPBROADCASTD(ops ...Operand) { o.a.op("VPBROADCASTD", ops...) }
+func (o Opcodes) Vpbroadcastmb2q(ops ...Operand) { o.a.op("VPBROADCASTMB2Q", ops...) }
+func (o Opcodes) VPBROADCASTMB2Q(ops ...Operand) { o.a.op("VPBROADCASTMB2Q", ops...) }
+func (o Opcodes) Vpbroadcastmw2d(ops ...Operand) { o.a.op("VPBROADCASTMW2D", ops...) }
+func (o Opcodes) VPBROADCASTMW2D(ops ...Operand) { o.a.op("VPBROADCASTMW2D", ops...) }
+func (o Opcodes) Vpbroadcastq(ops ...Operand) { o.a.op("VPBROADCASTQ", ops...) }
+func (o Opcodes) VPBROADCASTQ(ops ...Operand) { o.a.op("VPBROADCASTQ", ops...) }
+func (o Opcodes) Vpbroadcastw(ops ...Operand) { o.a.op("VPBROADCASTW", ops...) }
+func (o Opcodes) VPBROADCASTW(ops ...Operand) { o.a.op("VPBROADCASTW", ops...) }
+func (o Opcodes) Vpclmulqdq(ops ...Operand) { o.a.op("VPCLMULQDQ", ops...) }
+func (o Opcodes) VPCLMULQDQ(ops ...Operand) { o.a.op("VPCLMULQDQ", ops...) }
+func (o Opcodes) Vpcmpb(ops ...Operand) { o.a.op("VPCMPB", ops...) }
+func (o Opcodes) VPCMPB(ops ...Operand) { o.a.op("VPCMPB", ops...) }
+func (o Opcodes) Vpcmpd(ops ...Operand) { o.a.op("VPCMPD", ops...) }
+func (o Opcodes) VPCMPD(ops ...Operand) { o.a.op("VPCMPD", ops...) }
+func (o Opcodes) Vpcmpeqb(ops ...Operand) { o.a.op("VPCMPEQB", ops...) }
+func (o Opcodes) VPCMPEQB(ops ...Operand) { o.a.op("VPCMPEQB", ops...) }
+func (o Opcodes) Vpcmpeqd(ops ...Operand) { o.a.op("VPCMPEQD", ops...) }
+func (o Opcodes) VPCMPEQD(ops ...Operand) { o.a.op("VPCMPEQD", ops...) }
+func (o Opcodes) Vpcmpeqq(ops ...Operand) { o.a.op("VPCMPEQQ", ops...) }
+func (o Opcodes) VPCMPEQQ(ops ...Operand) { o.a.op("VPCMPEQQ", ops...) }
+func (o Opcodes) Vpcmpeqw(ops ...Operand) { o.a.op("VPCMPEQW", ops...) }
+func (o Opcodes) VPCMPEQW(ops ...Operand) { o.a.op("VPCMPEQW", ops...) }
+func (o Opcodes) Vpcmpestri(ops ...Operand) { o.a.op("VPCMPESTRI", ops...) }
+func (o Opcodes) VPCMPESTRI(ops ...Operand) { o.a.op("VPCMPESTRI", ops...) }
+func (o Opcodes) Vpcmpestrm(ops ...Operand) { o.a.op("VPCMPESTRM", ops...) }
+func (o Opcodes) VPCMPESTRM(ops ...Operand) { o.a.op("VPCMPESTRM", ops...) }
+func (o Opcodes) Vpcmpgtb(ops ...Operand) { o.a.op("VPCMPGTB", ops...) }
+func (o Opcodes) VPCMPGTB(ops ...Operand) { o.a.op("VPCMPGTB", ops...) }
+func (o Opcodes) Vpcmpgtd(ops ...Operand) { o.a.op("VPCMPGTD", ops...) }
+func (o Opcodes) VPCMPGTD(ops ...Operand) { o.a.op("VPCMPGTD", ops...) }
+func (o Opcodes) Vpcmpgtq(ops ...Operand) { o.a.op("VPCMPGTQ", ops...) }
+func (o Opcodes) VPCMPGTQ(ops ...Operand) { o.a.op("VPCMPGTQ", ops...) }
+func (o Opcodes) Vpcmpgtw(ops ...Operand) { o.a.op("VPCMPGTW", ops...) }
+func (o Opcodes) VPCMPGTW(ops ...Operand) { o.a.op("VPCMPGTW", ops...) }
+func (o Opcodes) Vpcmpistri(ops ...Operand) { o.a.op("VPCMPISTRI", ops...) }
+func (o Opcodes) VPCMPISTRI(ops ...Operand) { o.a.op("VPCMPISTRI", ops...) }
+func (o Opcodes) Vpcmpistrm(ops ...Operand) { o.a.op("VPCMPISTRM", ops...) }
+func (o Opcodes) VPCMPISTRM(ops ...Operand) { o.a.op("VPCMPISTRM", ops...) }
+func (o Opcodes) Vpcmpq(ops ...Operand) { o.a.op("VPCMPQ", ops...) }
+func (o Opcodes) VPCMPQ(ops ...Operand) { o.a.op("VPCMPQ", ops...) }
+func (o Opcodes) Vpcmpub(ops ...Operand) { o.a.op("VPCMPUB", ops...) }
+func (o Opcodes) VPCMPUB(ops ...Operand) { o.a.op("VPCMPUB", ops...) }
+func (o Opcodes) Vpcmpud(ops ...Operand) { o.a.op("VPCMPUD", ops...) }
+func (o Opcodes) VPCMPUD(ops ...Operand) { o.a.op("VPCMPUD", ops...) }
+func (o Opcodes) Vpcmpuq(ops ...Operand) { o.a.op("VPCMPUQ", ops...) }
+func (o Opcodes) VPCMPUQ(ops ...Operand) { o.a.op("VPCMPUQ", ops...) }
+func (o Opcodes) Vpcmpuw(ops ...Operand) { o.a.op("VPCMPUW", ops...) }
+func (o Opcodes) VPCMPUW(ops ...Operand) { o.a.op("VPCMPUW", ops...) }
+func (o Opcodes) Vpcmpw(ops ...Operand) { o.a.op("VPCMPW", ops...) }
+func (o Opcodes) VPCMPW(ops ...Operand) { o.a.op("VPCMPW", ops...) }
+func (o Opcodes) Vpcompressb(ops ...Operand) { o.a.op("VPCOMPRESSB", ops...) }
+func (o Opcodes) VPCOMPRESSB(ops ...Operand) { o.a.op("VPCOMPRESSB", ops...) }
+func (o Opcodes) Vpcompressd(ops ...Operand) { o.a.op("VPCOMPRESSD", ops...) }
+func (o Opcodes) VPCOMPRESSD(ops ...Operand) { o.a.op("VPCOMPRESSD", ops...) }
+func (o Opcodes) Vpcompressq(ops ...Operand) { o.a.op("VPCOMPRESSQ", ops...) }
+func (o Opcodes) VPCOMPRESSQ(ops ...Operand) { o.a.op("VPCOMPRESSQ", ops...) }
+func (o Opcodes) Vpcompressw(ops ...Operand) { o.a.op("VPCOMPRESSW", ops...) }
+func (o Opcodes) VPCOMPRESSW(ops ...Operand) { o.a.op("VPCOMPRESSW", ops...) }
+func (o Opcodes) Vpconflictd(ops ...Operand) { o.a.op("VPCONFLICTD", ops...) }
+func (o Opcodes) VPCONFLICTD(ops ...Operand) { o.a.op("VPCONFLICTD", ops...) }
+func (o Opcodes) Vpconflictq(ops ...Operand) { o.a.op("VPCONFLICTQ", ops...) }
+func (o Opcodes) VPCONFLICTQ(ops ...Operand) { o.a.op("VPCONFLICTQ", ops...) }
+func (o Opcodes) Vpdpbusd(ops ...Operand) { o.a.op("VPDPBUSD", ops...) }
+func (o Opcodes) VPDPBUSD(ops ...Operand) { o.a.op("VPDPBUSD", ops...) }
+func (o Opcodes) Vpdpbusds(ops ...Operand) { o.a.op("VPDPBUSDS", ops...) }
+func (o Opcodes) VPDPBUSDS(ops ...Operand) { o.a.op("VPDPBUSDS", ops...) }
+func (o Opcodes) Vpdpwssd(ops ...Operand) { o.a.op("VPDPWSSD", ops...) }
+func (o Opcodes) VPDPWSSD(ops ...Operand) { o.a.op("VPDPWSSD", ops...) }
+func (o Opcodes) Vpdpwssds(ops ...Operand) { o.a.op("VPDPWSSDS", ops...) }
+func (o Opcodes) VPDPWSSDS(ops ...Operand) { o.a.op("VPDPWSSDS", ops...) }
+func (o Opcodes) Vperm2f128(ops ...Operand) { o.a.op("VPERM2F128", ops...) }
+func (o Opcodes) VPERM2F128(ops ...Operand) { o.a.op("VPERM2F128", ops...) }
+func (o Opcodes) Vperm2i128(ops ...Operand) { o.a.op("VPERM2I128", ops...) }
+func (o Opcodes) VPERM2I128(ops ...Operand) { o.a.op("VPERM2I128", ops...) }
+func (o Opcodes) Vpermb(ops ...Operand) { o.a.op("VPERMB", ops...) }
+func (o Opcodes) VPERMB(ops ...Operand) { o.a.op("VPERMB", ops...) }
+func (o Opcodes) Vpermd(ops ...Operand) { o.a.op("VPERMD", ops...) }
+func (o Opcodes) VPERMD(ops ...Operand) { o.a.op("VPERMD", ops...) }
+func (o Opcodes) Vpermi2b(ops ...Operand) { o.a.op("VPERMI2B", ops...) }
+func (o Opcodes) VPERMI2B(ops ...Operand) { o.a.op("VPERMI2B", ops...) }
+func (o Opcodes) Vpermi2d(ops ...Operand) { o.a.op("VPERMI2D", ops...) }
+func (o Opcodes) VPERMI2D(ops ...Operand) { o.a.op("VPERMI2D", ops...) }
+func (o Opcodes) Vpermi2pd(ops ...Operand) { o.a.op("VPERMI2PD", ops...) }
+func (o Opcodes) VPERMI2PD(ops ...Operand) { o.a.op("VPERMI2PD", ops...) }
+func (o Opcodes) Vpermi2ps(ops ...Operand) { o.a.op("VPERMI2PS", ops...) }
+func (o Opcodes) VPERMI2PS(ops ...Operand) { o.a.op("VPERMI2PS", ops...) }
+func (o Opcodes) Vpermi2q(ops ...Operand) { o.a.op("VPERMI2Q", ops...) }
+func (o Opcodes) VPERMI2Q(ops ...Operand) { o.a.op("VPERMI2Q", ops...) }
+func (o Opcodes) Vpermi2w(ops ...Operand) { o.a.op("VPERMI2W", ops...) }
+func (o Opcodes) VPERMI2W(ops ...Operand) { o.a.op("VPERMI2W", ops...) }
+func (o Opcodes) Vpermilpd(ops ...Operand) { o.a.op("VPERMILPD", ops...) }
+func (o Opcodes) VPERMILPD(ops ...Operand) { o.a.op("VPERMILPD", ops...) }
+func (o Opcodes) Vpermilps(ops ...Operand) { o.a.op("VPERMILPS", ops...) }
+func (o Opcodes) VPERMILPS(ops ...Operand) { o.a.op("VPERMILPS", ops...) }
+func (o Opcodes) Vpermpd(ops ...Operand) { o.a.op("VPERMPD", ops...) }
+func (o Opcodes) VPERMPD(ops ...Operand) { o.a.op("VPERMPD", ops...) }
+func (o Opcodes) Vpermps(ops ...Operand) { o.a.op("VPERMPS", ops...) }
+func (o Opcodes) VPERMPS(ops ...Operand) { o.a.op("VPERMPS", ops...) }
+func (o Opcodes) Vpermq(ops ...Operand) { o.a.op("VPERMQ", ops...) }
+func (o Opcodes) VPERMQ(ops ...Operand) { o.a.op("VPERMQ", ops...) }
+func (o Opcodes) Vpermt2b(ops ...Operand) { o.a.op("VPERMT2B", ops...) }
+func (o Opcodes) VPERMT2B(ops ...Operand) { o.a.op("VPERMT2B", ops...) }
+func (o Opcodes) Vpermt2d(ops ...Operand) { o.a.op("VPERMT2D", ops...) }
+func (o Opcodes) VPERMT2D(ops ...Operand) { o.a.op("VPERMT2D", ops...) }
+func (o Opcodes) Vpermt2pd(ops ...Operand) { o.a.op("VPERMT2PD", ops...) }
+func (o Opcodes) VPERMT2PD(ops ...Operand) { o.a.op("VPERMT2PD", ops...) }
+func (o Opcodes) Vpermt2ps(ops ...Operand) { o.a.op("VPERMT2PS", ops...) }
+func (o Opcodes) VPERMT2PS(ops ...Operand) { o.a.op("VPERMT2PS", ops...) }
+func (o Opcodes) Vpermt2q(ops ...Operand) { o.a.op("VPERMT2Q", ops...) }
+func (o Opcodes) VPERMT2Q(ops ...Operand) { o.a.op("VPERMT2Q", ops...) }
+func (o Opcodes) Vpermt2w(ops ...Operand) { o.a.op("VPERMT2W", ops...) }
+func (o Opcodes) VPERMT2W(ops ...Operand) { o.a.op("VPERMT2W", ops...) }
+func (o Opcodes) Vpermw(ops ...Operand) { o.a.op("VPERMW", ops...) }
+func (o Opcodes) VPERMW(ops ...Operand) { o.a.op("VPERMW", ops...) }
+func (o Opcodes) Vpexpandb(ops ...Operand) { o.a.op("VPEXPANDB", ops...) }
+func (o Opcodes) VPEXPANDB(ops ...Operand) { o.a.op("VPEXPANDB", ops...) }
+func (o Opcodes) Vpexpandd(ops ...Operand) { o.a.op("VPEXPANDD", ops...) }
+func (o Opcodes) VPEXPANDD(ops ...Operand) { o.a.op("VPEXPANDD", ops...) }
+func (o Opcodes) Vpexpandq(ops ...Operand) { o.a.op("VPEXPANDQ", ops...) }
+func (o Opcodes) VPEXPANDQ(ops ...Operand) { o.a.op("VPEXPANDQ", ops...) }
+func (o Opcodes) Vpexpandw(ops ...Operand) { o.a.op("VPEXPANDW", ops...) }
+func (o Opcodes) VPEXPANDW(ops ...Operand) { o.a.op("VPEXPANDW", ops...) }
+func (o Opcodes) Vpextrb(ops ...Operand) { o.a.op("VPEXTRB", ops...) }
+func (o Opcodes) VPEXTRB(ops ...Operand) { o.a.op("VPEXTRB", ops...) }
+func (o Opcodes) Vpextrd(ops ...Operand) { o.a.op("VPEXTRD", ops...) }
+func (o Opcodes) VPEXTRD(ops ...Operand) { o.a.op("VPEXTRD", ops...) }
+func (o Opcodes) Vpextrq(ops ...Operand) { o.a.op("VPEXTRQ", ops...) }
+func (o Opcodes) VPEXTRQ(ops ...Operand) { o.a.op("VPEXTRQ", ops...) }
+func (o Opcodes) Vpextrw(ops ...Operand) { o.a.op("VPEXTRW", ops...) }
+func (o Opcodes) VPEXTRW(ops ...Operand) { o.a.op("VPEXTRW", ops...) }
+func (o Opcodes) Vpgatherdd(ops ...Operand) { o.a.op("VPGATHERDD", ops...) }
+func (o Opcodes) VPGATHERDD(ops ...Operand) { o.a.op("VPGATHERDD", ops...) }
+func (o Opcodes) Vpgatherdq(ops ...Operand) { o.a.op("VPGATHERDQ", ops...) }
+func (o Opcodes) VPGATHERDQ(ops ...Operand) { o.a.op("VPGATHERDQ", ops...) }
+func (o Opcodes) Vpgatherqd(ops ...Operand) { o.a.op("VPGATHERQD", ops...) }
+func (o Opcodes) VPGATHERQD(ops ...Operand) { o.a.op("VPGATHERQD", ops...) }
+func (o Opcodes) Vpgatherqq(ops ...Operand) { o.a.op("VPGATHERQQ", ops...) }
+func (o Opcodes) VPGATHERQQ(ops ...Operand) { o.a.op("VPGATHERQQ", ops...) }
+func (o Opcodes) Vphaddd(ops ...Operand) { o.a.op("VPHADDD", ops...) }
+func (o Opcodes) VPHADDD(ops ...Operand) { o.a.op("VPHADDD", ops...) }
+func (o Opcodes) Vphaddsw(ops ...Operand) { o.a.op("VPHADDSW", ops...) }
+func (o Opcodes) VPHADDSW(ops ...Operand) { o.a.op("VPHADDSW", ops...) }
+func (o Opcodes) Vphaddw(ops ...Operand) { o.a.op("VPHADDW", ops...) }
+func (o Opcodes) VPHADDW(ops ...Operand) { o.a.op("VPHADDW", ops...) }
+func (o Opcodes) Vphminposuw(ops ...Operand) { o.a.op("VPHMINPOSUW", ops...) }
+func (o Opcodes) VPHMINPOSUW(ops ...Operand) { o.a.op("VPHMINPOSUW", ops...) }
+func (o Opcodes) Vphsubd(ops ...Operand) { o.a.op("VPHSUBD", ops...) }
+func (o Opcodes) VPHSUBD(ops ...Operand) { o.a.op("VPHSUBD", ops...) }
+func (o Opcodes) Vphsubsw(ops ...Operand) { o.a.op("VPHSUBSW", ops...) }
+func (o Opcodes) VPHSUBSW(ops ...Operand) { o.a.op("VPHSUBSW", ops...) }
+func (o Opcodes) Vphsubw(ops ...Operand) { o.a.op("VPHSUBW", ops...) }
+func (o Opcodes) VPHSUBW(ops ...Operand) { o.a.op("VPHSUBW", ops...) }
+func (o Opcodes) Vpinsrb(ops ...Operand) { o.a.op("VPINSRB", ops...) }
+func (o Opcodes) VPINSRB(ops ...Operand) { o.a.op("VPINSRB", ops...) }
+func (o Opcodes) Vpinsrd(ops ...Operand) { o.a.op("VPINSRD", ops...) }
+func (o Opcodes) VPINSRD(ops ...Operand) { o.a.op("VPINSRD", ops...) }
+func (o Opcodes) Vpinsrq(ops ...Operand) { o.a.op("VPINSRQ", ops...) }
+func (o Opcodes) VPINSRQ(ops ...Operand) { o.a.op("VPINSRQ", ops...) }
+func (o Opcodes) Vpinsrw(ops ...Operand) { o.a.op("VPINSRW", ops...) }
+func (o Opcodes) VPINSRW(ops ...Operand) { o.a.op("VPINSRW", ops...) }
+func (o Opcodes) Vplzcntd(ops ...Operand) { o.a.op("VPLZCNTD", ops...) }
+func (o Opcodes) VPLZCNTD(ops ...Operand) { o.a.op("VPLZCNTD", ops...) }
+func (o Opcodes) Vplzcntq(ops ...Operand) { o.a.op("VPLZCNTQ", ops...) }
+func (o Opcodes) VPLZCNTQ(ops ...Operand) { o.a.op("VPLZCNTQ", ops...) }
+func (o Opcodes) Vpmadd52huq(ops ...Operand) { o.a.op("VPMADD52HUQ", ops...) }
+func (o Opcodes) VPMADD52HUQ(ops ...Operand) { o.a.op("VPMADD52HUQ", ops...) }
+func (o Opcodes) Vpmadd52luq(ops ...Operand) { o.a.op("VPMADD52LUQ", ops...) }
+func (o Opcodes) VPMADD52LUQ(ops ...Operand) { o.a.op("VPMADD52LUQ", ops...) }
+func (o Opcodes) Vpmaddubsw(ops ...Operand) { o.a.op("VPMADDUBSW", ops...) }
+func (o Opcodes) VPMADDUBSW(ops ...Operand) { o.a.op("VPMADDUBSW", ops...) }
+func (o Opcodes) Vpmaddwd(ops ...Operand) { o.a.op("VPMADDWD", ops...) }
+func (o Opcodes) VPMADDWD(ops ...Operand) { o.a.op("VPMADDWD", ops...) }
+func (o Opcodes) Vpmaskmovd(ops ...Operand) { o.a.op("VPMASKMOVD", ops...) }
+func (o Opcodes) VPMASKMOVD(ops ...Operand) { o.a.op("VPMASKMOVD", ops...) }
+func (o Opcodes) Vpmaskmovq(ops ...Operand) { o.a.op("VPMASKMOVQ", ops...) }
+func (o Opcodes) VPMASKMOVQ(ops ...Operand) { o.a.op("VPMASKMOVQ", ops...) }
+func (o Opcodes) Vpmaxsb(ops ...Operand) { o.a.op("VPMAXSB", ops...) }
+func (o Opcodes) VPMAXSB(ops ...Operand) { o.a.op("VPMAXSB", ops...) }
+func (o Opcodes) Vpmaxsd(ops ...Operand) { o.a.op("VPMAXSD", ops...) }
+func (o Opcodes) VPMAXSD(ops ...Operand) { o.a.op("VPMAXSD", ops...) }
+func (o Opcodes) Vpmaxsq(ops ...Operand) { o.a.op("VPMAXSQ", ops...) }
+func (o Opcodes) VPMAXSQ(ops ...Operand) { o.a.op("VPMAXSQ", ops...) }
+func (o Opcodes) Vpmaxsw(ops ...Operand) { o.a.op("VPMAXSW", ops...) }
+func (o Opcodes) VPMAXSW(ops ...Operand) { o.a.op("VPMAXSW", ops...) }
+func (o Opcodes) Vpmaxub(ops ...Operand) { o.a.op("VPMAXUB", ops...) }
+func (o Opcodes) VPMAXUB(ops ...Operand) { o.a.op("VPMAXUB", ops...) }
+func (o Opcodes) Vpmaxud(ops ...Operand) { o.a.op("VPMAXUD", ops...) }
+func (o Opcodes) VPMAXUD(ops ...Operand) { o.a.op("VPMAXUD", ops...) }
+func (o Opcodes) Vpmaxuq(ops ...Operand) { o.a.op("VPMAXUQ", ops...) }
+func (o Opcodes) VPMAXUQ(ops ...Operand) { o.a.op("VPMAXUQ", ops...) }
+func (o Opcodes) Vpmaxuw(ops ...Operand) { o.a.op("VPMAXUW", ops...) }
+func (o Opcodes) VPMAXUW(ops ...Operand) { o.a.op("VPMAXUW", ops...) }
+func (o Opcodes) Vpminsb(ops ...Operand) { o.a.op("VPMINSB", ops...) }
+func (o Opcodes) VPMINSB(ops ...Operand) { o.a.op("VPMINSB", ops...) }
+func (o Opcodes) Vpminsd(ops ...Operand) { o.a.op("VPMINSD", ops...) }
+func (o Opcodes) VPMINSD(ops ...Operand) { o.a.op("VPMINSD", ops...) }
+func (o Opcodes) Vpminsq(ops ...Operand) { o.a.op("VPMINSQ", ops...) }
+func (o Opcodes) VPMINSQ(ops ...Operand) { o.a.op("VPMINSQ", ops...) }
+func (o Opcodes) Vpminsw(ops ...Operand) { o.a.op("VPMINSW", ops...) }
+func (o Opcodes) VPMINSW(ops ...Operand) { o.a.op("VPMINSW", ops...) }
+func (o Opcodes) Vpminub(ops ...Operand) { o.a.op("VPMINUB", ops...) }
+func (o Opcodes) VPMINUB(ops ...Operand) { o.a.op("VPMINUB", ops...) }
+func (o Opcodes) Vpminud(ops ...Operand) { o.a.op("VPMINUD", ops...) }
+func (o Opcodes) VPMINUD(ops ...Operand) { o.a.op("VPMINUD", ops...) }
+func (o Opcodes) Vpminuq(ops ...Operand) { o.a.op("VPMINUQ", ops...) }
+func (o Opcodes) VPMINUQ(ops ...Operand) { o.a.op("VPMINUQ", ops...) }
+func (o Opcodes) Vpminuw(ops ...Operand) { o.a.op("VPMINUW", ops...) }
+func (o Opcodes) VPMINUW(ops ...Operand) { o.a.op("VPMINUW", ops...) }
+func (o Opcodes) Vpmovb2m(ops ...Operand) { o.a.op("VPMOVB2M", ops...) }
+func (o Opcodes) VPMOVB2M(ops ...Operand) { o.a.op("VPMOVB2M", ops...) }
+func (o Opcodes) Vpmovd2m(ops ...Operand) { o.a.op("VPMOVD2M", ops...) }
+func (o Opcodes) VPMOVD2M(ops ...Operand) { o.a.op("VPMOVD2M", ops...) }
+func (o Opcodes) Vpmovdb(ops ...Operand) { o.a.op("VPMOVDB", ops...) }
+func (o Opcodes) VPMOVDB(ops ...Operand) { o.a.op("VPMOVDB", ops...) }
+func (o Opcodes) Vpmovdw(ops ...Operand) { o.a.op("VPMOVDW", ops...) }
+func (o Opcodes) VPMOVDW(ops ...Operand) { o.a.op("VPMOVDW", ops...) }
+func (o Opcodes) Vpmovm2b(ops ...Operand) { o.a.op("VPMOVM2B", ops...) }
+func (o Opcodes) VPMOVM2B(ops ...Operand) { o.a.op("VPMOVM2B", ops...) }
+func (o Opcodes) Vpmovm2d(ops ...Operand) { o.a.op("VPMOVM2D", ops...) }
+func (o Opcodes) VPMOVM2D(ops ...Operand) { o.a.op("VPMOVM2D", ops...) }
+func (o Opcodes) Vpmovm2q(ops ...Operand) { o.a.op("VPMOVM2Q", ops...) }
+func (o Opcodes) VPMOVM2Q(ops ...Operand) { o.a.op("VPMOVM2Q", ops...) }
+func (o Opcodes) Vpmovm2w(ops ...Operand) { o.a.op("VPMOVM2W", ops...) }
+func (o Opcodes) VPMOVM2W(ops ...Operand) { o.a.op("VPMOVM2W", ops...) }
+func (o Opcodes) Vpmovmskb(ops ...Operand) { o.a.op("VPMOVMSKB", ops...) }
+func (o Opcodes) VPMOVMSKB(ops ...Operand) { o.a.op("VPMOVMSKB", ops...) }
+func (o Opcodes) Vpmovq2m(ops ...Operand) { o.a.op("VPMOVQ2M", ops...) }
+func (o Opcodes) VPMOVQ2M(ops ...Operand) { o.a.op("VPMOVQ2M", ops...) }
+func (o Opcodes) Vpmovqb(ops ...Operand) { o.a.op("VPMOVQB", ops...) }
+func (o Opcodes) VPMOVQB(ops ...Operand) { o.a.op("VPMOVQB", ops...) }
+func (o Opcodes) Vpmovqd(ops ...Operand) { o.a.op("VPMOVQD", ops...) }
+func (o Opcodes) VPMOVQD(ops ...Operand) { o.a.op("VPMOVQD", ops...) }
+func (o Opcodes) Vpmovqw(ops ...Operand) { o.a.op("VPMOVQW", ops...) }
+func (o Opcodes) VPMOVQW(ops ...Operand) { o.a.op("VPMOVQW", ops...) }
+func (o Opcodes) Vpmovsdb(ops ...Operand) { o.a.op("VPMOVSDB", ops...) }
+func (o Opcodes) VPMOVSDB(ops ...Operand) { o.a.op("VPMOVSDB", ops...) }
+func (o Opcodes) Vpmovsdw(ops ...Operand) { o.a.op("VPMOVSDW", ops...) }
+func (o Opcodes) VPMOVSDW(ops ...Operand) { o.a.op("VPMOVSDW", ops...) }
+func (o Opcodes) Vpmovsqb(ops ...Operand) { o.a.op("VPMOVSQB", ops...) }
+func (o Opcodes) VPMOVSQB(ops ...Operand) { o.a.op("VPMOVSQB", ops...) }
+func (o Opcodes) Vpmovsqd(ops ...Operand) { o.a.op("VPMOVSQD", ops...) }
+func (o Opcodes) VPMOVSQD(ops ...Operand) { o.a.op("VPMOVSQD", ops...) }
+func (o Opcodes) Vpmovsqw(ops ...Operand) { o.a.op("VPMOVSQW", ops...) }
+func (o Opcodes) VPMOVSQW(ops ...Operand) { o.a.op("VPMOVSQW", ops...) }
+func (o Opcodes) Vpmovswb(ops ...Operand) { o.a.op("VPMOVSWB", ops...) }
+func (o Opcodes) VPMOVSWB(ops ...Operand) { o.a.op("VPMOVSWB", ops...) }
+func (o Opcodes) Vpmovsxbd(ops ...Operand) { o.a.op("VPMOVSXBD", ops...) }
+func (o Opcodes) VPMOVSXBD(ops ...Operand) { o.a.op("VPMOVSXBD", ops...) }
+func (o Opcodes) Vpmovsxbq(ops ...Operand) { o.a.op("VPMOVSXBQ", ops...) }
+func (o Opcodes) VPMOVSXBQ(ops ...Operand) { o.a.op("VPMOVSXBQ", ops...) }
+func (o Opcodes) Vpmovsxbw(ops ...Operand) { o.a.op("VPMOVSXBW", ops...) }
+func (o Opcodes) VPMOVSXBW(ops ...Operand) { o.a.op("VPMOVSXBW", ops...) }
+func (o Opcodes) Vpmovsxdq(ops ...Operand) { o.a.op("VPMOVSXDQ", ops...) }
+func (o Opcodes) VPMOVSXDQ(ops ...Operand) { o.a.op("VPMOVSXDQ", ops...) }
+func (o Opcodes) Vpmovsxwd(ops ...Operand) { o.a.op("VPMOVSXWD", ops...) }
+func (o Opcodes) VPMOVSXWD(ops ...Operand) { o.a.op("VPMOVSXWD", ops...) }
+func (o Opcodes) Vpmovsxwq(ops ...Operand) { o.a.op("VPMOVSXWQ", ops...) }
+func (o Opcodes) VPMOVSXWQ(ops ...Operand) { o.a.op("VPMOVSXWQ", ops...) }
+func (o Opcodes) Vpmovusdb(ops ...Operand) { o.a.op("VPMOVUSDB", ops...) }
+func (o Opcodes) VPMOVUSDB(ops ...Operand) { o.a.op("VPMOVUSDB", ops...) }
+func (o Opcodes) Vpmovusdw(ops ...Operand) { o.a.op("VPMOVUSDW", ops...) }
+func (o Opcodes) VPMOVUSDW(ops ...Operand) { o.a.op("VPMOVUSDW", ops...) }
+func (o Opcodes) Vpmovusqb(ops ...Operand) { o.a.op("VPMOVUSQB", ops...) }
+func (o Opcodes) VPMOVUSQB(ops ...Operand) { o.a.op("VPMOVUSQB", ops...) }
+func (o Opcodes) Vpmovusqd(ops ...Operand) { o.a.op("VPMOVUSQD", ops...) }
+func (o Opcodes) VPMOVUSQD(ops ...Operand) { o.a.op("VPMOVUSQD", ops...) }
+func (o Opcodes) Vpmovusqw(ops ...Operand) { o.a.op("VPMOVUSQW", ops...) }
+func (o Opcodes) VPMOVUSQW(ops ...Operand) { o.a.op("VPMOVUSQW", ops...) }
+func (o Opcodes) Vpmovuswb(ops ...Operand) { o.a.op("VPMOVUSWB", ops...) }
+func (o Opcodes) VPMOVUSWB(ops ...Operand) { o.a.op("VPMOVUSWB", ops...) }
+func (o Opcodes) Vpmovw2m(ops ...Operand) { o.a.op("VPMOVW2M", ops...) }
+func (o Opcodes) VPMOVW2M(ops ...Operand) { o.a.op("VPMOVW2M", ops...) }
+func (o Opcodes) Vpmovwb(ops ...Operand) { o.a.op("VPMOVWB", ops...) }
+func (o Opcodes) VPMOVWB(ops ...Operand) { o.a.op("VPMOVWB", ops...) }
+func (o Opcodes) Vpmovzxbd(ops ...Operand) { o.a.op("VPMOVZXBD", ops...) }
+func (o Opcodes) VPMOVZXBD(ops ...Operand) { o.a.op("VPMOVZXBD", ops...) }
+func (o Opcodes) Vpmovzxbq(ops ...Operand) { o.a.op("VPMOVZXBQ", ops...) }
+func (o Opcodes) VPMOVZXBQ(ops ...Operand) { o.a.op("VPMOVZXBQ", ops...) }
+func (o Opcodes) Vpmovzxbw(ops ...Operand) { o.a.op("VPMOVZXBW", ops...) }
+func (o Opcodes) VPMOVZXBW(ops ...Operand) { o.a.op("VPMOVZXBW", ops...) }
+func (o Opcodes) Vpmovzxdq(ops ...Operand) { o.a.op("VPMOVZXDQ", ops...) }
+func (o Opcodes) VPMOVZXDQ(ops ...Operand) { o.a.op("VPMOVZXDQ", ops...) }
+func (o Opcodes) Vpmovzxwd(ops ...Operand) { o.a.op("VPMOVZXWD", ops...) }
+func (o Opcodes) VPMOVZXWD(ops ...Operand) { o.a.op("VPMOVZXWD", ops...) }
+func (o Opcodes) Vpmovzxwq(ops ...Operand) { o.a.op("VPMOVZXWQ", ops...) }
+func (o Opcodes) VPMOVZXWQ(ops ...Operand) { o.a.op("VPMOVZXWQ", ops...) }
+func (o Opcodes) Vpmuldq(ops ...Operand) { o.a.op("VPMULDQ", ops...) }
+func (o Opcodes) VPMULDQ(ops ...Operand) { o.a.op("VPMULDQ", ops...) }
+func (o Opcodes) Vpmulhrsw(ops ...Operand) { o.a.op("VPMULHRSW", ops...) }
+func (o Opcodes) VPMULHRSW(ops ...Operand) { o.a.op("VPMULHRSW", ops...) }
+func (o Opcodes) Vpmulhuw(ops ...Operand) { o.a.op("VPMULHUW", ops...) }
+func (o Opcodes) VPMULHUW(ops ...Operand) { o.a.op("VPMULHUW", ops...) }
+func (o Opcodes) Vpmulhw(ops ...Operand) { o.a.op("VPMULHW", ops...) }
+func (o Opcodes) VPMULHW(ops ...Operand) { o.a.op("VPMULHW", ops...) }
+func (o Opcodes) Vpmulld(ops ...Operand) { o.a.op("VPMULLD", ops...) }
+func (o Opcodes) VPMULLD(ops ...Operand) { o.a.op("VPMULLD", ops...) }
+func (o Opcodes) Vpmullq(ops ...Operand) { o.a.op("VPMULLQ", ops...) }
+func (o Opcodes) VPMULLQ(ops ...Operand) { o.a.op("VPMULLQ", ops...) }
+func (o Opcodes) Vpmullw(ops ...Operand) { o.a.op("VPMULLW", ops...) }
+func (o Opcodes) VPMULLW(ops ...Operand) { o.a.op("VPMULLW", ops...) }
+func (o Opcodes) Vpmultishiftqb(ops ...Operand) { o.a.op("VPMULTISHIFTQB", ops...) }
+func (o Opcodes) VPMULTISHIFTQB(ops ...Operand) { o.a.op("VPMULTISHIFTQB", ops...) }
+func (o Opcodes) Vpmuludq(ops ...Operand) { o.a.op("VPMULUDQ", ops...) }
+func (o Opcodes) VPMULUDQ(ops ...Operand) { o.a.op("VPMULUDQ", ops...) }
+func (o Opcodes) Vpopcntb(ops ...Operand) { o.a.op("VPOPCNTB", ops...) }
+func (o Opcodes) VPOPCNTB(ops ...Operand) { o.a.op("VPOPCNTB", ops...) }
+func (o Opcodes) Vpopcntd(ops ...Operand) { o.a.op("VPOPCNTD", ops...) }
+func (o Opcodes) VPOPCNTD(ops ...Operand) { o.a.op("VPOPCNTD", ops...) }
+func (o Opcodes) Vpopcntq(ops ...Operand) { o.a.op("VPOPCNTQ", ops...) }
+func (o Opcodes) VPOPCNTQ(ops ...Operand) { o.a.op("VPOPCNTQ", ops...) }
+func (o Opcodes) Vpopcntw(ops ...Operand) { o.a.op("VPOPCNTW", ops...) }
+func (o Opcodes) VPOPCNTW(ops ...Operand) { o.a.op("VPOPCNTW", ops...) }
+func (o Opcodes) Vpor(ops ...Operand) { o.a.op("VPOR", ops...) }
+func (o Opcodes) VPOR(ops ...Operand) { o.a.op("VPOR", ops...) }
+func (o Opcodes) Vpord(ops ...Operand) { o.a.op("VPORD", ops...) }
+func (o Opcodes) VPORD(ops ...Operand) { o.a.op("VPORD", ops...) }
+func (o Opcodes) Vporq(ops ...Operand) { o.a.op("VPORQ", ops...) }
+func (o Opcodes) VPORQ(ops ...Operand) { o.a.op("VPORQ", ops...) }
+func (o Opcodes) Vprold(ops ...Operand) { o.a.op("VPROLD", ops...) }
+func (o Opcodes) VPROLD(ops ...Operand) { o.a.op("VPROLD", ops...) }
+func (o Opcodes) Vprolq(ops ...Operand) { o.a.op("VPROLQ", ops...) }
+func (o Opcodes) VPROLQ(ops ...Operand) { o.a.op("VPROLQ", ops...) }
+func (o Opcodes) Vprolvd(ops ...Operand) { o.a.op("VPROLVD", ops...) }
+func (o Opcodes) VPROLVD(ops ...Operand) { o.a.op("VPROLVD", ops...) }
+func (o Opcodes) Vprolvq(ops ...Operand) { o.a.op("VPROLVQ", ops...) }
+func (o Opcodes) VPROLVQ(ops ...Operand) { o.a.op("VPROLVQ", ops...) }
+func (o Opcodes) Vprord(ops ...Operand) { o.a.op("VPRORD", ops...) }
+func (o Opcodes) VPRORD(ops ...Operand) { o.a.op("VPRORD", ops...) }
+func (o Opcodes) Vprorq(ops ...Operand) { o.a.op("VPRORQ", ops...) }
+func (o Opcodes) VPRORQ(ops ...Operand) { o.a.op("VPRORQ", ops...) }
+func (o Opcodes) Vprorvd(ops ...Operand) { o.a.op("VPRORVD", ops...) }
+func (o Opcodes) VPRORVD(ops ...Operand) { o.a.op("VPRORVD", ops...) }
+func (o Opcodes) Vprorvq(ops ...Operand) { o.a.op("VPRORVQ", ops...) }
+func (o Opcodes) VPRORVQ(ops ...Operand) { o.a.op("VPRORVQ", ops...) }
+func (o Opcodes) Vpsadbw(ops ...Operand) { o.a.op("VPSADBW", ops...) }
+func (o Opcodes) VPSADBW(ops ...Operand) { o.a.op("VPSADBW", ops...) }
+func (o Opcodes) Vpscatterdd(ops ...Operand) { o.a.op("VPSCATTERDD", ops...) }
+func (o Opcodes) VPSCATTERDD(ops ...Operand) { o.a.op("VPSCATTERDD", ops...) }
+func (o Opcodes) Vpscatterdq(ops ...Operand) { o.a.op("VPSCATTERDQ", ops...) }
+func (o Opcodes) VPSCATTERDQ(ops ...Operand) { o.a.op("VPSCATTERDQ", ops...) }
+func (o Opcodes) Vpscatterqd(ops ...Operand) { o.a.op("VPSCATTERQD", ops...) }
+func (o Opcodes) VPSCATTERQD(ops ...Operand) { o.a.op("VPSCATTERQD", ops...) }
+func (o Opcodes) Vpscatterqq(ops ...Operand) { o.a.op("VPSCATTERQQ", ops...) }
+func (o Opcodes) VPSCATTERQQ(ops ...Operand) { o.a.op("VPSCATTERQQ", ops...) }
+func (o Opcodes) Vpshldd(ops ...Operand) { o.a.op("VPSHLDD", ops...) }
+func (o Opcodes) VPSHLDD(ops ...Operand) { o.a.op("VPSHLDD", ops...) }
+func (o Opcodes) Vpshldq(ops ...Operand) { o.a.op("VPSHLDQ", ops...) }
+func (o Opcodes) VPSHLDQ(ops ...Operand) { o.a.op("VPSHLDQ", ops...) }
+func (o Opcodes) Vpshldvd(ops ...Operand) { o.a.op("VPSHLDVD", ops...) }
+func (o Opcodes) VPSHLDVD(ops ...Operand) { o.a.op("VPSHLDVD", ops...) }
+func (o Opcodes) Vpshldvq(ops ...Operand) { o.a.op("VPSHLDVQ", ops...) }
+func (o Opcodes) VPSHLDVQ(ops ...Operand) { o.a.op("VPSHLDVQ", ops...) }
+func (o Opcodes) Vpshldvw(ops ...Operand) { o.a.op("VPSHLDVW", ops...) }
+func (o Opcodes) VPSHLDVW(ops ...Operand) { o.a.op("VPSHLDVW", ops...) }
+func (o Opcodes) Vpshldw(ops ...Operand) { o.a.op("VPSHLDW", ops...) }
+func (o Opcodes) VPSHLDW(ops ...Operand) { o.a.op("VPSHLDW", ops...) }
+func (o Opcodes) Vpshrdd(ops ...Operand) { o.a.op("VPSHRDD", ops...) }
+func (o Opcodes) VPSHRDD(ops ...Operand) { o.a.op("VPSHRDD", ops...) }
+func (o Opcodes) Vpshrdq(ops ...Operand) { o.a.op("VPSHRDQ", ops...) }
+func (o Opcodes) VPSHRDQ(ops ...Operand) { o.a.op("VPSHRDQ", ops...) }
+func (o Opcodes) Vpshrdvd(ops ...Operand) { o.a.op("VPSHRDVD", ops...) }
+func (o Opcodes) VPSHRDVD(ops ...Operand) { o.a.op("VPSHRDVD", ops...) }
+func (o Opcodes) Vpshrdvq(ops ...Operand) { o.a.op("VPSHRDVQ", ops...) }
+func (o Opcodes) VPSHRDVQ(ops ...Operand) { o.a.op("VPSHRDVQ", ops...) }
+func (o Opcodes) Vpshrdvw(ops ...Operand) { o.a.op("VPSHRDVW", ops...) }
+func (o Opcodes) VPSHRDVW(ops ...Operand) { o.a.op("VPSHRDVW", ops...) }
+func (o Opcodes) Vpshrdw(ops ...Operand) { o.a.op("VPSHRDW", ops...) }
+func (o Opcodes) VPSHRDW(ops ...Operand) { o.a.op("VPSHRDW", ops...) }
+func (o Opcodes) Vpshufb(ops ...Operand) { o.a.op("VPSHUFB", ops...) }
+func (o Opcodes) VPSHUFB(ops ...Operand) { o.a.op("VPSHUFB", ops...) }
+func (o Opcodes) Vpshufbitqmb(ops ...Operand) { o.a.op("VPSHUFBITQMB", ops...) }
+func (o Opcodes) VPSHUFBITQMB(ops ...Operand) { o.a.op("VPSHUFBITQMB", ops...) }
+func (o Opcodes) Vpshufd(ops ...Operand) { o.a.op("VPSHUFD", ops...) }
+func (o Opcodes) VPSHUFD(ops ...Operand) { o.a.op("VPSHUFD", ops...) }
+func (o Opcodes) Vpshufhw(ops ...Operand) { o.a.op("VPSHUFHW", ops...) }
+func (o Opcodes) VPSHUFHW(ops ...Operand) { o.a.op("VPSHUFHW", ops...) }
+func (o Opcodes) Vpshuflw(ops ...Operand) { o.a.op("VPSHUFLW", ops...) }
+func (o Opcodes) VPSHUFLW(ops ...Operand) { o.a.op("VPSHUFLW", ops...) }
+func (o Opcodes) Vpsignb(ops ...Operand) { o.a.op("VPSIGNB", ops...) }
+func (o Opcodes) VPSIGNB(ops ...Operand) { o.a.op("VPSIGNB", ops...) }
+func (o Opcodes) Vpsignd(ops ...Operand) { o.a.op("VPSIGND", ops...) }
+func (o Opcodes) VPSIGND(ops ...Operand) { o.a.op("VPSIGND", ops...) }
+func (o Opcodes) Vpsignw(ops ...Operand) { o.a.op("VPSIGNW", ops...) }
+func (o Opcodes) VPSIGNW(ops ...Operand) { o.a.op("VPSIGNW", ops...) }
+func (o Opcodes) Vpslld(ops ...Operand) { o.a.op("VPSLLD", ops...) }
+func (o Opcodes) VPSLLD(ops ...Operand) { o.a.op("VPSLLD", ops...) }
+func (o Opcodes) Vpslldq(ops ...Operand) { o.a.op("VPSLLDQ", ops...) }
+func (o Opcodes) VPSLLDQ(ops ...Operand) { o.a.op("VPSLLDQ", ops...) }
+func (o Opcodes) Vpsllq(ops ...Operand) { o.a.op("VPSLLQ", ops...) }
+func (o Opcodes) VPSLLQ(ops ...Operand) { o.a.op("VPSLLQ", ops...) }
+func (o Opcodes) Vpsllvd(ops ...Operand) { o.a.op("VPSLLVD", ops...) }
+func (o Opcodes) VPSLLVD(ops ...Operand) { o.a.op("VPSLLVD", ops...) }
+func (o Opcodes) Vpsllvq(ops ...Operand) { o.a.op("VPSLLVQ", ops...) }
+func (o Opcodes) VPSLLVQ(ops ...Operand) { o.a.op("VPSLLVQ", ops...) }
+func (o Opcodes) Vpsllvw(ops ...Operand) { o.a.op("VPSLLVW", ops...) }
+func (o Opcodes) VPSLLVW(ops ...Operand) { o.a.op("VPSLLVW", ops...) }
+func (o Opcodes) Vpsllw(ops ...Operand) { o.a.op("VPSLLW", ops...) }
+func (o Opcodes) VPSLLW(ops ...Operand) { o.a.op("VPSLLW", ops...) }
+func (o Opcodes) Vpsrad(ops ...Operand) { o.a.op("VPSRAD", ops...) }
+func (o Opcodes) VPSRAD(ops ...Operand) { o.a.op("VPSRAD", ops...) }
+func (o Opcodes) Vpsraq(ops ...Operand) { o.a.op("VPSRAQ", ops...) }
+func (o Opcodes) VPSRAQ(ops ...Operand) { o.a.op("VPSRAQ", ops...) }
+func (o Opcodes) Vpsravd(ops ...Operand) { o.a.op("VPSRAVD", ops...) }
+func (o Opcodes) VPSRAVD(ops ...Operand) { o.a.op("VPSRAVD", ops...) }
+func (o Opcodes) Vpsravq(ops ...Operand) { o.a.op("VPSRAVQ", ops...) }
+func (o Opcodes) VPSRAVQ(ops ...Operand) { o.a.op("VPSRAVQ", ops...) }
+func (o Opcodes) Vpsravw(ops ...Operand) { o.a.op("VPSRAVW", ops...) }
+func (o Opcodes) VPSRAVW(ops ...Operand) { o.a.op("VPSRAVW", ops...) }
+func (o Opcodes) Vpsraw(ops ...Operand) { o.a.op("VPSRAW", ops...) }
+func (o Opcodes) VPSRAW(ops ...Operand) { o.a.op("VPSRAW", ops...) }
+func (o Opcodes) Vpsrld(ops ...Operand) { o.a.op("VPSRLD", ops...) }
+func (o Opcodes) VPSRLD(ops ...Operand) { o.a.op("VPSRLD", ops...) }
+func (o Opcodes) Vpsrldq(ops ...Operand) { o.a.op("VPSRLDQ", ops...) }
+func (o Opcodes) VPSRLDQ(ops ...Operand) { o.a.op("VPSRLDQ", ops...) }
+func (o Opcodes) Vpsrlq(ops ...Operand) { o.a.op("VPSRLQ", ops...) }
+func (o Opcodes) VPSRLQ(ops ...Operand) { o.a.op("VPSRLQ", ops...) }
+func (o Opcodes) Vpsrlvd(ops ...Operand) { o.a.op("VPSRLVD", ops...) }
+func (o Opcodes) VPSRLVD(ops ...Operand) { o.a.op("VPSRLVD", ops...) }
+func (o Opcodes) Vpsrlvq(ops ...Operand) { o.a.op("VPSRLVQ", ops...) }
+func (o Opcodes) VPSRLVQ(ops ...Operand) { o.a.op("VPSRLVQ", ops...) }
+func (o Opcodes) Vpsrlvw(ops ...Operand) { o.a.op("VPSRLVW", ops...) }
+func (o Opcodes) VPSRLVW(ops ...Operand) { o.a.op("VPSRLVW", ops...) }
+func (o Opcodes) Vpsrlw(ops ...Operand) { o.a.op("VPSRLW", ops...) }
+func (o Opcodes) VPSRLW(ops ...Operand) { o.a.op("VPSRLW", ops...) }
+func (o Opcodes) Vpsubb(ops ...Operand) { o.a.op("VPSUBB", ops...) }
+func (o Opcodes) VPSUBB(ops ...Operand) { o.a.op("VPSUBB", ops...) }
+func (o Opcodes) Vpsubd(ops ...Operand) { o.a.op("VPSUBD", ops...) }
+func (o Opcodes) VPSUBD(ops ...Operand) { o.a.op("VPSUBD", ops...) }
+func (o Opcodes) Vpsubq(ops ...Operand) { o.a.op("VPSUBQ", ops...) }
+func (o Opcodes) VPSUBQ(ops ...Operand) { o.a.op("VPSUBQ", ops...) }
+func (o Opcodes) Vpsubsb(ops ...Operand) { o.a.op("VPSUBSB", ops...) }
+func (o Opcodes) VPSUBSB(ops ...Operand) { o.a.op("VPSUBSB", ops...) }
+func (o Opcodes) Vpsubsw(ops ...Operand) { o.a.op("VPSUBSW", ops...) }
+func (o Opcodes) VPSUBSW(ops ...Operand) { o.a.op("VPSUBSW", ops...) }
+func (o Opcodes) Vpsubusb(ops ...Operand) { o.a.op("VPSUBUSB", ops...) }
+func (o Opcodes) VPSUBUSB(ops ...Operand) { o.a.op("VPSUBUSB", ops...) }
+func (o Opcodes) Vpsubusw(ops ...Operand) { o.a.op("VPSUBUSW", ops...) }
+func (o Opcodes) VPSUBUSW(ops ...Operand) { o.a.op("VPSUBUSW", ops...) }
+func (o Opcodes) Vpsubw(ops ...Operand) { o.a.op("VPSUBW", ops...) }
+func (o Opcodes) VPSUBW(ops ...Operand) { o.a.op("VPSUBW", ops...) }
+func (o Opcodes) Vpternlogd(ops ...Operand) { o.a.op("VPTERNLOGD", ops...) }
+func (o Opcodes) VPTERNLOGD(ops ...Operand) { o.a.op("VPTERNLOGD", ops...) }
+func (o Opcodes) Vpternlogq(ops ...Operand) { o.a.op("VPTERNLOGQ", ops...) }
+func (o Opcodes) VPTERNLOGQ(ops ...Operand) { o.a.op("VPTERNLOGQ", ops...) }
+func (o Opcodes) Vptest(ops ...Operand) { o.a.op("VPTEST", ops...) }
+func (o Opcodes) VPTEST(ops ...Operand) { o.a.op("VPTEST", ops...) }
+func (o Opcodes) Vptestmb(ops ...Operand) { o.a.op("VPTESTMB", ops...) }
+func (o Opcodes) VPTESTMB(ops ...Operand) { o.a.op("VPTESTMB", ops...) }
+func (o Opcodes) Vptestmd(ops ...Operand) { o.a.op("VPTESTMD", ops...) }
+func (o Opcodes) VPTESTMD(ops ...Operand) { o.a.op("VPTESTMD", ops...) }
+func (o Opcodes) Vptestmq(ops ...Operand) { o.a.op("VPTESTMQ", ops...) }
+func (o Opcodes) VPTESTMQ(ops ...Operand) { o.a.op("VPTESTMQ", ops...) }
+func (o Opcodes) Vptestmw(ops ...Operand) { o.a.op("VPTESTMW", ops...) }
+func (o Opcodes) VPTESTMW(ops ...Operand) { o.a.op("VPTESTMW", ops...) }
+func (o Opcodes) Vptestnmb(ops ...Operand) { o.a.op("VPTESTNMB", ops...) }
+func (o Opcodes) VPTESTNMB(ops ...Operand) { o.a.op("VPTESTNMB", ops...) }
+func (o Opcodes) Vptestnmd(ops ...Operand) { o.a.op("VPTESTNMD", ops...) }
+func (o Opcodes) VPTESTNMD(ops ...Operand) { o.a.op("VPTESTNMD", ops...) }
+func (o Opcodes) Vptestnmq(ops ...Operand) { o.a.op("VPTESTNMQ", ops...) }
+func (o Opcodes) VPTESTNMQ(ops ...Operand) { o.a.op("VPTESTNMQ", ops...) }
+func (o Opcodes) Vptestnmw(ops ...Operand) { o.a.op("VPTESTNMW", ops...) }
+func (o Opcodes) VPTESTNMW(ops ...Operand) { o.a.op("VPTESTNMW", ops...) }
+func (o Opcodes) Vpunpckhbw(ops ...Operand) { o.a.op("VPUNPCKHBW", ops...) }
+func (o Opcodes) VPUNPCKHBW(ops ...Operand) { o.a.op("VPUNPCKHBW", ops...) }
+func (o Opcodes) Vpunpckhdq(ops ...Operand) { o.a.op("VPUNPCKHDQ", ops...) }
+func (o Opcodes) VPUNPCKHDQ(ops ...Operand) { o.a.op("VPUNPCKHDQ", ops...) }
+func (o Opcodes) Vpunpckhqdq(ops ...Operand) { o.a.op("VPUNPCKHQDQ", ops...) }
+func (o Opcodes) VPUNPCKHQDQ(ops ...Operand) { o.a.op("VPUNPCKHQDQ", ops...) }
+func (o Opcodes) Vpunpckhwd(ops ...Operand) { o.a.op("VPUNPCKHWD", ops...) }
+func (o Opcodes) VPUNPCKHWD(ops ...Operand) { o.a.op("VPUNPCKHWD", ops...) }
+func (o Opcodes) Vpunpcklbw(ops ...Operand) { o.a.op("VPUNPCKLBW", ops...) }
+func (o Opcodes) VPUNPCKLBW(ops ...Operand) { o.a.op("VPUNPCKLBW", ops...) }
+func (o Opcodes) Vpunpckldq(ops ...Operand) { o.a.op("VPUNPCKLDQ", ops...) }
+func (o Opcodes) VPUNPCKLDQ(ops ...Operand) { o.a.op("VPUNPCKLDQ", ops...) }
+func (o Opcodes) Vpunpcklqdq(ops ...Operand) { o.a.op("VPUNPCKLQDQ", ops...) }
+func (o Opcodes) VPUNPCKLQDQ(ops ...Operand) { o.a.op("VPUNPCKLQDQ", ops...) }
+func (o Opcodes) Vpunpcklwd(ops ...Operand) { o.a.op("VPUNPCKLWD", ops...) }
+func (o Opcodes) VPUNPCKLWD(ops ...Operand) { o.a.op("VPUNPCKLWD", ops...) }
+func (o Opcodes) Vpxor(ops ...Operand) { o.a.op("VPXOR", ops...) }
+func (o Opcodes) VPXOR(ops ...Operand) { o.a.op("VPXOR", ops...) }
+func (o Opcodes) Vpxord(ops ...Operand) { o.a.op("VPXORD", ops...) }
+func (o Opcodes) VPXORD(ops ...Operand) { o.a.op("VPXORD", ops...) }
+func (o Opcodes) Vpxorq(ops ...Operand) { o.a.op("VPXORQ", ops...) }
+func (o Opcodes) VPXORQ(ops ...Operand) { o.a.op("VPXORQ", ops...) }
+func (o Opcodes) Vrangepd(ops ...Operand) { o.a.op("VRANGEPD", ops...) }
+func (o Opcodes) VRANGEPD(ops ...Operand) { o.a.op("VRANGEPD", ops...) }
+func (o Opcodes) Vrangeps(ops ...Operand) { o.a.op("VRANGEPS", ops...) }
+func (o Opcodes) VRANGEPS(ops ...Operand) { o.a.op("VRANGEPS", ops...) }
+func (o Opcodes) Vrangesd(ops ...Operand) { o.a.op("VRANGESD", ops...) }
+func (o Opcodes) VRANGESD(ops ...Operand) { o.a.op("VRANGESD", ops...) }
+func (o Opcodes) Vrangess(ops ...Operand) { o.a.op("VRANGESS", ops...) }
+func (o Opcodes) VRANGESS(ops ...Operand) { o.a.op("VRANGESS", ops...) }
+func (o Opcodes) Vrcp14pd(ops ...Operand) { o.a.op("VRCP14PD", ops...) }
+func (o Opcodes) VRCP14PD(ops ...Operand) { o.a.op("VRCP14PD", ops...) }
+func (o Opcodes) Vrcp14ps(ops ...Operand) { o.a.op("VRCP14PS", ops...) }
+func (o Opcodes) VRCP14PS(ops ...Operand) { o.a.op("VRCP14PS", ops...) }
+func (o Opcodes) Vrcp14sd(ops ...Operand) { o.a.op("VRCP14SD", ops...) }
+func (o Opcodes) VRCP14SD(ops ...Operand) { o.a.op("VRCP14SD", ops...) }
+func (o Opcodes) Vrcp14ss(ops ...Operand) { o.a.op("VRCP14SS", ops...) }
+func (o Opcodes) VRCP14SS(ops ...Operand) { o.a.op("VRCP14SS", ops...) }
+func (o Opcodes) Vrcp28pd(ops ...Operand) { o.a.op("VRCP28PD", ops...) }
+func (o Opcodes) VRCP28PD(ops ...Operand) { o.a.op("VRCP28PD", ops...) }
+func (o Opcodes) Vrcp28ps(ops ...Operand) { o.a.op("VRCP28PS", ops...) }
+func (o Opcodes) VRCP28PS(ops ...Operand) { o.a.op("VRCP28PS", ops...) }
+func (o Opcodes) Vrcp28sd(ops ...Operand) { o.a.op("VRCP28SD", ops...) }
+func (o Opcodes) VRCP28SD(ops ...Operand) { o.a.op("VRCP28SD", ops...) }
+func (o Opcodes) Vrcp28ss(ops ...Operand) { o.a.op("VRCP28SS", ops...) }
+func (o Opcodes) VRCP28SS(ops ...Operand) { o.a.op("VRCP28SS", ops...) }
+func (o Opcodes) Vrcpps(ops ...Operand) { o.a.op("VRCPPS", ops...) }
+func (o Opcodes) VRCPPS(ops ...Operand) { o.a.op("VRCPPS", ops...) }
+func (o Opcodes) Vrcpss(ops ...Operand) { o.a.op("VRCPSS", ops...) }
+func (o Opcodes) VRCPSS(ops ...Operand) { o.a.op("VRCPSS", ops...) }
+func (o Opcodes) Vreducepd(ops ...Operand) { o.a.op("VREDUCEPD", ops...) }
+func (o Opcodes) VREDUCEPD(ops ...Operand) { o.a.op("VREDUCEPD", ops...) }
+func (o Opcodes) Vreduceps(ops ...Operand) { o.a.op("VREDUCEPS", ops...) }
+func (o Opcodes) VREDUCEPS(ops ...Operand) { o.a.op("VREDUCEPS", ops...) }
+func (o Opcodes) Vreducesd(ops ...Operand) { o.a.op("VREDUCESD", ops...) }
+func (o Opcodes) VREDUCESD(ops ...Operand) { o.a.op("VREDUCESD", ops...) }
+func (o Opcodes) Vreducess(ops ...Operand) { o.a.op("VREDUCESS", ops...) }
+func (o Opcodes) VREDUCESS(ops ...Operand) { o.a.op("VREDUCESS", ops...) }
+func (o Opcodes) Vrndscalepd(ops ...Operand) { o.a.op("VRNDSCALEPD", ops...) }
+func (o Opcodes) VRNDSCALEPD(ops ...Operand) { o.a.op("VRNDSCALEPD", ops...) }
+func (o Opcodes) Vrndscaleps(ops ...Operand) { o.a.op("VRNDSCALEPS", ops...) }
+func (o Opcodes) VRNDSCALEPS(ops ...Operand) { o.a.op("VRNDSCALEPS", ops...) }
+func (o Opcodes) Vrndscalesd(ops ...Operand) { o.a.op("VRNDSCALESD", ops...) }
+func (o Opcodes) VRNDSCALESD(ops ...Operand) { o.a.op("VRNDSCALESD", ops...) }
+func (o Opcodes) Vrndscaless(ops ...Operand) { o.a.op("VRNDSCALESS", ops...) }
+func (o Opcodes) VRNDSCALESS(ops ...Operand) { o.a.op("VRNDSCALESS", ops...) }
+func (o Opcodes) Vroundpd(ops ...Operand) { o.a.op("VROUNDPD", ops...) }
+func (o Opcodes) VROUNDPD(ops ...Operand) { o.a.op("VROUNDPD", ops...) }
+func (o Opcodes) Vroundps(ops ...Operand) { o.a.op("VROUNDPS", ops...) }
+func (o Opcodes) VROUNDPS(ops ...Operand) { o.a.op("VROUNDPS", ops...) }
+func (o Opcodes) Vroundsd(ops ...Operand) { o.a.op("VROUNDSD", ops...) }
+func (o Opcodes) VROUNDSD(ops ...Operand) { o.a.op("VROUNDSD", ops...) }
+func (o Opcodes) Vroundss(ops ...Operand) { o.a.op("VROUNDSS", ops...) }
+func (o Opcodes) VROUNDSS(ops ...Operand) { o.a.op("VROUNDSS", ops...) }
+func (o Opcodes) Vrsqrt14pd(ops ...Operand) { o.a.op("VRSQRT14PD", ops...) }
+func (o Opcodes) VRSQRT14PD(ops ...Operand) { o.a.op("VRSQRT14PD", ops...) }
+func (o Opcodes) Vrsqrt14ps(ops ...Operand) { o.a.op("VRSQRT14PS", ops...) }
+func (o Opcodes) VRSQRT14PS(ops ...Operand) { o.a.op("VRSQRT14PS", ops...) }
+func (o Opcodes) Vrsqrt14sd(ops ...Operand) { o.a.op("VRSQRT14SD", ops...) }
+func (o Opcodes) VRSQRT14SD(ops ...Operand) { o.a.op("VRSQRT14SD", ops...) }
+func (o Opcodes) Vrsqrt14ss(ops ...Operand) { o.a.op("VRSQRT14SS", ops...) }
+func (o Opcodes) VRSQRT14SS(ops ...Operand) { o.a.op("VRSQRT14SS", ops...) }
+func (o Opcodes) Vrsqrt28pd(ops ...Operand) { o.a.op("VRSQRT28PD", ops...) }
+func (o Opcodes) VRSQRT28PD(ops ...Operand) { o.a.op("VRSQRT28PD", ops...) }
+func (o Opcodes) Vrsqrt28ps(ops ...Operand) { o.a.op("VRSQRT28PS", ops...) }
+func (o Opcodes) VRSQRT28PS(ops ...Operand) { o.a.op("VRSQRT28PS", ops...) }
+func (o Opcodes) Vrsqrt28sd(ops ...Operand) { o.a.op("VRSQRT28SD", ops...) }
+func (o Opcodes) VRSQRT28SD(ops ...Operand) { o.a.op("VRSQRT28SD", ops...) }
+func (o Opcodes) Vrsqrt28ss(ops ...Operand) { o.a.op("VRSQRT28SS", ops...) }
+func (o Opcodes) VRSQRT28SS(ops ...Operand) { o.a.op("VRSQRT28SS", ops...) }
+func (o Opcodes) Vrsqrtps(ops ...Operand) { o.a.op("VRSQRTPS", ops...) }
+func (o Opcodes) VRSQRTPS(ops ...Operand) { o.a.op("VRSQRTPS", ops...) }
+func (o Opcodes) Vrsqrtss(ops ...Operand) { o.a.op("VRSQRTSS", ops...) }
+func (o Opcodes) VRSQRTSS(ops ...Operand) { o.a.op("VRSQRTSS", ops...) }
+func (o Opcodes) Vscalefpd(ops ...Operand) { o.a.op("VSCALEFPD", ops...) }
+func (o Opcodes) VSCALEFPD(ops ...Operand) { o.a.op("VSCALEFPD", ops...) }
+func (o Opcodes) Vscalefps(ops ...Operand) { o.a.op("VSCALEFPS", ops...) }
+func (o Opcodes) VSCALEFPS(ops ...Operand) { o.a.op("VSCALEFPS", ops...) }
+func (o Opcodes) Vscalefsd(ops ...Operand) { o.a.op("VSCALEFSD", ops...) }
+func (o Opcodes) VSCALEFSD(ops ...Operand) { o.a.op("VSCALEFSD", ops...) }
+func (o Opcodes) Vscalefss(ops ...Operand) { o.a.op("VSCALEFSS", ops...) }
+func (o Opcodes) VSCALEFSS(ops ...Operand) { o.a.op("VSCALEFSS", ops...) }
+func (o Opcodes) Vscatterdpd(ops ...Operand) { o.a.op("VSCATTERDPD", ops...) }
+func (o Opcodes) VSCATTERDPD(ops ...Operand) { o.a.op("VSCATTERDPD", ops...) }
+func (o Opcodes) Vscatterdps(ops ...Operand) { o.a.op("VSCATTERDPS", ops...) }
+func (o Opcodes) VSCATTERDPS(ops ...Operand) { o.a.op("VSCATTERDPS", ops...) }
+func (o Opcodes) Vscatterpf0dpd(ops ...Operand) { o.a.op("VSCATTERPF0DPD", ops...) }
+func (o Opcodes) VSCATTERPF0DPD(ops ...Operand) { o.a.op("VSCATTERPF0DPD", ops...) }
+func (o Opcodes) Vscatterpf0dps(ops ...Operand) { o.a.op("VSCATTERPF0DPS", ops...) }
+func (o Opcodes) VSCATTERPF0DPS(ops ...Operand) { o.a.op("VSCATTERPF0DPS", ops...) }
+func (o Opcodes) Vscatterpf0qpd(ops ...Operand) { o.a.op("VSCATTERPF0QPD", ops...) }
+func (o Opcodes) VSCATTERPF0QPD(ops ...Operand) { o.a.op("VSCATTERPF0QPD", ops...) }
+func (o Opcodes) Vscatterpf0qps(ops ...Operand) { o.a.op("VSCATTERPF0QPS", ops...) }
+func (o Opcodes) VSCATTERPF0QPS(ops ...Operand) { o.a.op("VSCATTERPF0QPS", ops...) }
+func (o Opcodes) Vscatterpf1dpd(ops ...Operand) { o.a.op("VSCATTERPF1DPD", ops...) }
+func (o Opcodes) VSCATTERPF1DPD(ops ...Operand) { o.a.op("VSCATTERPF1DPD", ops...) }
+func (o Opcodes) Vscatterpf1dps(ops ...Operand) { o.a.op("VSCATTERPF1DPS", ops...) }
+func (o Opcodes) VSCATTERPF1DPS(ops ...Operand) { o.a.op("VSCATTERPF1DPS", ops...) }
+func (o Opcodes) Vscatterpf1qpd(ops ...Operand) { o.a.op("VSCATTERPF1QPD", ops...) }
+func (o Opcodes) VSCATTERPF1QPD(ops ...Operand) { o.a.op("VSCATTERPF1QPD", ops...) }
+func (o Opcodes) Vscatterpf1qps(ops ...Operand) { o.a.op("VSCATTERPF1QPS", ops...) }
+func (o Opcodes) VSCATTERPF1QPS(ops ...Operand) { o.a.op("VSCATTERPF1QPS", ops...) }
+func (o Opcodes) Vscatterqpd(ops ...Operand) { o.a.op("VSCATTERQPD", ops...) }
+func (o Opcodes) VSCATTERQPD(ops ...Operand) { o.a.op("VSCATTERQPD", ops...) }
+func (o Opcodes) Vscatterqps(ops ...Operand) { o.a.op("VSCATTERQPS", ops...) }
+func (o Opcodes) VSCATTERQPS(ops ...Operand) { o.a.op("VSCATTERQPS", ops...) }
+func (o Opcodes) Vshuff32x4(ops ...Operand) { o.a.op("VSHUFF32X4", ops...) }
+func (o Opcodes) VSHUFF32X4(ops ...Operand) { o.a.op("VSHUFF32X4", ops...) }
+func (o Opcodes) Vshuff64x2(ops ...Operand) { o.a.op("VSHUFF64X2", ops...) }
+func (o Opcodes) VSHUFF64X2(ops ...Operand) { o.a.op("VSHUFF64X2", ops...) }
+func (o Opcodes) Vshufi32x4(ops ...Operand) { o.a.op("VSHUFI32X4", ops...) }
+func (o Opcodes) VSHUFI32X4(ops ...Operand) { o.a.op("VSHUFI32X4", ops...) }
+func (o Opcodes) Vshufi64x2(ops ...Operand) { o.a.op("VSHUFI64X2", ops...) }
+func (o Opcodes) VSHUFI64X2(ops ...Operand) { o.a.op("VSHUFI64X2", ops...) }
+func (o Opcodes) Vshufpd(ops ...Operand) { o.a.op("VSHUFPD", ops...) }
+func (o Opcodes) VSHUFPD(ops ...Operand) { o.a.op("VSHUFPD", ops...) }
+func (o Opcodes) Vshufps(ops ...Operand) { o.a.op("VSHUFPS", ops...) }
+func (o Opcodes) VSHUFPS(ops ...Operand) { o.a.op("VSHUFPS", ops...) }
+func (o Opcodes) Vsqrtpd(ops ...Operand) { o.a.op("VSQRTPD", ops...) }
+func (o Opcodes) VSQRTPD(ops ...Operand) { o.a.op("VSQRTPD", ops...) }
+func (o Opcodes) Vsqrtps(ops ...Operand) { o.a.op("VSQRTPS", ops...) }
+func (o Opcodes) VSQRTPS(ops ...Operand) { o.a.op("VSQRTPS", ops...) }
+func (o Opcodes) Vsqrtsd(ops ...Operand) { o.a.op("VSQRTSD", ops...) }
+func (o Opcodes) VSQRTSD(ops ...Operand) { o.a.op("VSQRTSD", ops...) }
+func (o Opcodes) Vsqrtss(ops ...Operand) { o.a.op("VSQRTSS", ops...) }
+func (o Opcodes) VSQRTSS(ops ...Operand) { o.a.op("VSQRTSS", ops...) }
+func (o Opcodes) Vstmxcsr(ops ...Operand) { o.a.op("VSTMXCSR", ops...) }
+func (o Opcodes) VSTMXCSR(ops ...Operand) { o.a.op("VSTMXCSR", ops...) }
+func (o Opcodes) Vsubpd(ops ...Operand) { o.a.op("VSUBPD", ops...) }
+func (o Opcodes) VSUBPD(ops ...Operand) { o.a.op("VSUBPD", ops...) }
+func (o Opcodes) Vsubps(ops ...Operand) { o.a.op("VSUBPS", ops...) }
+func (o Opcodes) VSUBPS(ops ...Operand) { o.a.op("VSUBPS", ops...) }
+func (o Opcodes) Vsubsd(ops ...Operand) { o.a.op("VSUBSD", ops...) }
+func (o Opcodes) VSUBSD(ops ...Operand) { o.a.op("VSUBSD", ops...) }
+func (o Opcodes) Vsubss(ops ...Operand) { o.a.op("VSUBSS", ops...) }
+func (o Opcodes) VSUBSS(ops ...Operand) { o.a.op("VSUBSS", ops...) }
+func (o Opcodes) Vtestpd(ops ...Operand) { o.a.op("VTESTPD", ops...) }
+func (o Opcodes) VTESTPD(ops ...Operand) { o.a.op("VTESTPD", ops...) }
+func (o Opcodes) Vtestps(ops ...Operand) { o.a.op("VTESTPS", ops...) }
+func (o Opcodes) VTESTPS(ops ...Operand) { o.a.op("VTESTPS", ops...) }
+func (o Opcodes) Vucomisd(ops ...Operand) { o.a.op("VUCOMISD", ops...) }
+func (o Opcodes) VUCOMISD(ops ...Operand) { o.a.op("VUCOMISD", ops...) }
+func (o Opcodes) Vucomiss(ops ...Operand) { o.a.op("VUCOMISS", ops...) }
+func (o Opcodes) VUCOMISS(ops ...Operand) { o.a.op("VUCOMISS", ops...) }
+func (o Opcodes) Vunpckhpd(ops ...Operand) { o.a.op("VUNPCKHPD", ops...) }
+func (o Opcodes) VUNPCKHPD(ops ...Operand) { o.a.op("VUNPCKHPD", ops...) }
+func (o Opcodes) Vunpckhps(ops ...Operand) { o.a.op("VUNPCKHPS", ops...) }
+func (o Opcodes) VUNPCKHPS(ops ...Operand) { o.a.op("VUNPCKHPS", ops...) }
+func (o Opcodes) Vunpcklpd(ops ...Operand) { o.a.op("VUNPCKLPD", ops...) }
+func (o Opcodes) VUNPCKLPD(ops ...Operand) { o.a.op("VUNPCKLPD", ops...) }
+func (o Opcodes) Vunpcklps(ops ...Operand) { o.a.op("VUNPCKLPS", ops...) }
+func (o Opcodes) VUNPCKLPS(ops ...Operand) { o.a.op("VUNPCKLPS", ops...) }
+func (o Opcodes) Vxorpd(ops ...Operand) { o.a.op("VXORPD", ops...) }
+func (o Opcodes) VXORPD(ops ...Operand) { o.a.op("VXORPD", ops...) }
+func (o Opcodes) Vxorps(ops ...Operand) { o.a.op("VXORPS", ops...) }
+func (o Opcodes) VXORPS(ops ...Operand) { o.a.op("VXORPS", ops...) }
+func (o Opcodes) Vzeroall(ops ...Operand) { o.a.op("VZEROALL", ops...) }
+func (o Opcodes) VZEROALL(ops ...Operand) { o.a.op("VZEROALL", ops...) }
+func (o Opcodes) Vzeroupper(ops ...Operand) { o.a.op("VZEROUPPER", ops...) }
+func (o Opcodes) VZEROUPPER(ops ...Operand) { o.a.op("VZEROUPPER", ops...) }
+func (o Opcodes) Wait(ops ...Operand) { o.a.op("WAIT", ops...) }
+func (o Opcodes) WAIT(ops ...Operand) { o.a.op("WAIT", ops...) }
+func (o Opcodes) Wbinvd(ops ...Operand) { o.a.op("WBINVD", ops...) }
+func (o Opcodes) WBINVD(ops ...Operand) { o.a.op("WBINVD", ops...) }
+func (o Opcodes) Word(ops ...Operand) { o.a.op("WORD", ops...) }
+func (o Opcodes) WORD(ops ...Operand) { o.a.op("WORD", ops...) }
+func (o Opcodes) Wrfsbasel(ops ...Operand) { o.a.op("WRFSBASEL", ops...) }
+func (o Opcodes) WRFSBASEL(ops ...Operand) { o.a.op("WRFSBASEL", ops...) }
+func (o Opcodes) Wrfsbaseq(ops ...Operand) { o.a.op("WRFSBASEQ", ops...) }
+func (o Opcodes) WRFSBASEQ(ops ...Operand) { o.a.op("WRFSBASEQ", ops...) }
+func (o Opcodes) Wrgsbasel(ops ...Operand) { o.a.op("WRGSBASEL", ops...) }
+func (o Opcodes) WRGSBASEL(ops ...Operand) { o.a.op("WRGSBASEL", ops...) }
+func (o Opcodes) Wrgsbaseq(ops ...Operand) { o.a.op("WRGSBASEQ", ops...) }
+func (o Opcodes) WRGSBASEQ(ops ...Operand) { o.a.op("WRGSBASEQ", ops...) }
+func (o Opcodes) Wrmsr(ops ...Operand) { o.a.op("WRMSR", ops...) }
+func (o Opcodes) WRMSR(ops ...Operand) { o.a.op("WRMSR", ops...) }
+func (o Opcodes) Wrpkru(ops ...Operand) { o.a.op("WRPKRU", ops...) }
+func (o Opcodes) WRPKRU(ops ...Operand) { o.a.op("WRPKRU", ops...) }
+func (o Opcodes) Xabort(ops ...Operand) { o.a.op("XABORT", ops...) }
+func (o Opcodes) XABORT(ops ...Operand) { o.a.op("XABORT", ops...) }
+func (o Opcodes) Xacquire(ops ...Operand) { o.a.op("XACQUIRE", ops...) }
+func (o Opcodes) XACQUIRE(ops ...Operand) { o.a.op("XACQUIRE", ops...) }
+func (o Opcodes) Xaddb(ops ...Operand) { o.a.op("XADDB", ops...) }
+func (o Opcodes) XADDB(ops ...Operand) { o.a.op("XADDB", ops...) }
+func (o Opcodes) Xaddl(ops ...Operand) { o.a.op("XADDL", ops...) }
+func (o Opcodes) XADDL(ops ...Operand) { o.a.op("XADDL", ops...) }
+func (o Opcodes) Xaddq(ops ...Operand) { o.a.op("XADDQ", ops...) }
+func (o Opcodes) XADDQ(ops ...Operand) { o.a.op("XADDQ", ops...) }
+func (o Opcodes) Xaddw(ops ...Operand) { o.a.op("XADDW", ops...) }
+func (o Opcodes) XADDW(ops ...Operand) { o.a.op("XADDW", ops...) }
+func (o Opcodes) Xbegin(ops ...Operand) { o.a.op("XBEGIN", ops...) }
+func (o Opcodes) XBEGIN(ops ...Operand) { o.a.op("XBEGIN", ops...) }
+func (o Opcodes) Xchgb(ops ...Operand) { o.a.op("XCHGB", ops...) }
+func (o Opcodes) XCHGB(ops ...Operand) { o.a.op("XCHGB", ops...) }
+func (o Opcodes) Xchgl(ops ...Operand) { o.a.op("XCHGL", ops...) }
+func (o Opcodes) XCHGL(ops ...Operand) { o.a.op("XCHGL", ops...) }
+func (o Opcodes) Xchgq(ops ...Operand) { o.a.op("XCHGQ", ops...) }
+func (o Opcodes) XCHGQ(ops ...Operand) { o.a.op("XCHGQ", ops...) }
+func (o Opcodes) Xchgw(ops ...Operand) { o.a.op("XCHGW", ops...) }
+func (o Opcodes) XCHGW(ops ...Operand) { o.a.op("XCHGW", ops...) }
+func (o Opcodes) Xend(ops ...Operand) { o.a.op("XEND", ops...) }
+func (o Opcodes) XEND(ops ...Operand) { o.a.op("XEND", ops...) }
+func (o Opcodes) Xgetbv(ops ...Operand) { o.a.op("XGETBV", ops...) }
+func (o Opcodes) XGETBV(ops ...Operand) { o.a.op("XGETBV", ops...) }
+func (o Opcodes) Xlat(ops ...Operand) { o.a.op("XLAT", ops...) }
+func (o Opcodes) XLAT(ops ...Operand) { o.a.op("XLAT", ops...) }
+func (o Opcodes) Xorb(ops ...Operand) { o.a.op("XORB", ops...) }
+func (o Opcodes) XORB(ops ...Operand) { o.a.op("XORB", ops...) }
+func (o Opcodes) Xorl(ops ...Operand) { o.a.op("XORL", ops...) }
+func (o Opcodes) XORL(ops ...Operand) { o.a.op("XORL", ops...) }
+func (o Opcodes) Xorpd(ops ...Operand) { o.a.op("XORPD", ops...) }
+func (o Opcodes) XORPD(ops ...Operand) { o.a.op("XORPD", ops...) }
+func (o Opcodes) Xorps(ops ...Operand) { o.a.op("XORPS", ops...) }
+func (o Opcodes) XORPS(ops ...Operand) { o.a.op("XORPS", ops...) }
+func (o Opcodes) Xorq(ops ...Operand) { o.a.op("XORQ", ops...) }
+func (o Opcodes) XORQ(ops ...Operand) { o.a.op("XORQ", ops...) }
+func (o Opcodes) Xorw(ops ...Operand) { o.a.op("XORW", ops...) }
+func (o Opcodes) XORW(ops ...Operand) { o.a.op("XORW", ops...) }
+func (o Opcodes) Xrelease(ops ...Operand) { o.a.op("XRELEASE", ops...) }
+func (o Opcodes) XRELEASE(ops ...Operand) { o.a.op("XRELEASE", ops...) }
+func (o Opcodes) Xrstor(ops ...Operand) { o.a.op("XRSTOR", ops...) }
+func (o Opcodes) XRSTOR(ops ...Operand) { o.a.op("XRSTOR", ops...) }
+func (o Opcodes) Xrstor64(ops ...Operand) { o.a.op("XRSTOR64", ops...) }
+func (o Opcodes) XRSTOR64(ops ...Operand) { o.a.op("XRSTOR64", ops...) }
+func (o Opcodes) Xrstors(ops ...Operand) { o.a.op("XRSTORS", ops...) }
+func (o Opcodes) XRSTORS(ops ...Operand) { o.a.op("XRSTORS", ops...) }
+func (o Opcodes) Xrstors64(ops ...Operand) { o.a.op("XRSTORS64", ops...) }
+func (o Opcodes) XRSTORS64(ops ...Operand) { o.a.op("XRSTORS64", ops...) }
+func (o Opcodes) Xsave(ops ...Operand) { o.a.op("XSAVE", ops...) }
+func (o Opcodes) XSAVE(ops ...Operand) { o.a.op("XSAVE", ops...) }
+func (o Opcodes) Xsave64(ops ...Operand) { o.a.op("XSAVE64", ops...) }
+func (o Opcodes) XSAVE64(ops ...Operand) { o.a.op("XSAVE64", ops...) }
+func (o Opcodes) Xsavec(ops ...Operand) { o.a.op("XSAVEC", ops...) }
+func (o Opcodes) XSAVEC(ops ...Operand) { o.a.op("XSAVEC", ops...) }
+func (o Opcodes) Xsavec64(ops ...Operand) { o.a.op("XSAVEC64", ops...) }
+func (o Opcodes) XSAVEC64(ops ...Operand) { o.a.op("XSAVEC64", ops...) }
+func (o Opcodes) Xsaveopt(ops ...Operand) { o.a.op("XSAVEOPT", ops...) }
+func (o Opcodes) XSAVEOPT(ops ...Operand) { o.a.op("XSAVEOPT", ops...) }
+func (o Opcodes) Xsaveopt64(ops ...Operand) { o.a.op("XSAVEOPT64", ops...) }
+func (o Opcodes) XSAVEOPT64(ops ...Operand) { o.a.op("XSAVEOPT64", ops...) }
+func (o Opcodes) Xsaves(ops ...Operand) { o.a.op("XSAVES", ops...) }
+func (o Opcodes) XSAVES(ops ...Operand) { o.a.op("XSAVES", ops...) }
+func (o Opcodes) Xsaves64(ops ...Operand) { o.a.op("XSAVES64", ops...) }
+func (o Opcodes) XSAVES64(ops ...Operand) { o.a.op("XSAVES64", ops...) }
+func (o Opcodes) Xsetbv(ops ...Operand) { o.a.op("XSETBV", ops...) }
+func (o Opcodes) XSETBV(ops ...Operand) { o.a.op("XSETBV", ops...) }
+func (o Opcodes) Xtest(ops ...Operand) { o.a.op("XTEST", ops...) }
+func (o Opcodes) XTEST(ops ...Operand) { o.a.op("XTEST", ops...) }
+func (o Opcodes) Last(ops ...Operand) { o.a.op("LAST", ops...) }
+func (o Opcodes) LAST(ops ...Operand) { o.a.op("LAST", ops...) }
diff --git a/vendor/github.com/tmthrgd/asm/opcode_gen.go b/vendor/github.com/tmthrgd/asm/opcode_gen.go
index 8aa47bbd010858dd9679c6e09a1e612e8bf25bb5..618d1f9507ca9a3491f67a38d3aa03406dde51d4 100644
--- a/vendor/github.com/tmthrgd/asm/opcode_gen.go
+++ b/vendor/github.com/tmthrgd/asm/opcode_gen.go
@@ -110,13 +110,8 @@ func main() {
continue
}
- switch sub[1] {
- case "PEXTRW":
- // Golangs PEXTRW is faulty/incomplete
- default:
- fmt.Fprintf(out, "func (o Opcodes) %s%s(ops ...Operand) { o.a.op(%q, ops...) }\n", sub[1][:1], strings.ToLower(sub[1][1:]), sub[1])
- fmt.Fprintf(out, "func (o Opcodes) %[1]s(ops ...Operand) { o.a.op(%[1]q, ops...) }\n", sub[1])
- }
+ fmt.Fprintf(out, "func (o Opcodes) %s%s(ops ...Operand) { o.a.op(%q, ops...) }\n", sub[1][:1], strings.ToLower(sub[1][1:]), sub[1])
+ fmt.Fprintf(out, "func (o Opcodes) %[1]s(ops ...Operand) { o.a.op(%[1]q, ops...) }\n", sub[1])
}
if s.Err() != nil {
diff --git a/vendor/github.com/tmthrgd/go-hex/asm_gen.go b/vendor/github.com/tmthrgd/go-hex/asm_gen.go
index a2ac965d5b74e7f4e0924db021e403fa2c50c6f3..f5b3106af93a0a6eccc6162ddc7ec91c2935d27f 100644
--- a/vendor/github.com/tmthrgd/go-hex/asm_gen.go
+++ b/vendor/github.com/tmthrgd/go-hex/asm_gen.go
@@ -43,8 +43,6 @@ type encode struct {
di, si, cx asm.Register
- ret asm.Label
-
alpha asm.Operand
mask asm.Data
@@ -115,28 +113,10 @@ func (e *encode) Convert(out2, out1, in, tmp asm.Operand, vpand, vpunpckhbw, vps
}
}
-func (e *encode) BigLoop(l asm.Label, vpand, vpunpckhbw, vpshufb func(ops ...asm.Operand)) {
- e.Label(l)
-
- e.Movou(asm.X0, asm.Address(e.si, e.cx, asm.SX1, -16))
-
- e.Convert(asm.X2, asm.X1, asm.X0, asm.X3, vpand, vpunpckhbw, vpshufb)
-
- for i, r := range []asm.Operand{asm.X2, asm.X1} {
- e.Movou(asm.Address(e.di, e.cx, asm.SX2, -16*(i+1)), r)
- }
-
- e.Subq(e.cx, asm.Constant(16))
- e.Jz(e.ret)
-
- e.Cmpq(asm.Constant(16), e.cx)
- e.Jae(l)
-}
-
-func encodeASM(a *asm.Asm) {
- mask := a.Data("encodeMask", repeat(0x0f, 16))
+func (e *encode) encodeASM(name string, vpand, vpunpckhbw, vpshufb func(ops ...asm.Operand)) {
+ a := e.Asm
- a.NewFunction("encodeASM")
+ a.NewFunction(name)
a.NoSplit()
dst := a.Argument("dst", 8)
@@ -146,23 +126,10 @@ func encodeASM(a *asm.Asm) {
a.Start()
- bigloop_avx := a.NewLabel("bigloop_avx")
- bigloop_sse := a.NewLabel("bigloop_sse")
+ bigloop := a.NewLabel("bigloop")
tail := a.NewLabel("tail")
ret := a.NewLabel("ret")
- e := &encode{
- a,
-
- asm.DI, asm.SI, asm.BX,
-
- ret,
-
- asm.X15,
-
- mask,
- }
-
a.Movq(e.di, dst)
a.Movq(e.si, src)
a.Movq(e.cx, length)
@@ -173,10 +140,21 @@ func encodeASM(a *asm.Asm) {
a.Cmpq(asm.Constant(16), e.cx)
a.Jb(tail)
- a.Cmpb(asm.Constant(1), asm.Data("·support_avx"))
- a.Jne(bigloop_sse)
+ e.Label(bigloop)
+
+ e.Movou(asm.X0, asm.Address(e.si, e.cx, asm.SX1, -16))
- e.BigLoop(bigloop_avx, a.Vpand, a.Vpunpckhbw, a.Vpshufb)
+ e.Convert(asm.X2, asm.X1, asm.X0, asm.X3, vpand, vpunpckhbw, vpshufb)
+
+ for i, r := range []asm.Operand{asm.X2, asm.X1} {
+ e.Movou(asm.Address(e.di, e.cx, asm.SX2, -16*(i+1)), r)
+ }
+
+ e.Subq(e.cx, asm.Constant(16))
+ e.Jz(ret)
+
+ e.Cmpq(asm.Constant(16), e.cx)
+ e.Jae(bigloop)
a.Label(tail)
@@ -218,7 +196,7 @@ func encodeASM(a *asm.Asm) {
a.Label(tailConv)
- e.Convert(asm.Invalid, asm.X1, asm.X0, asm.X3, e.vpand_sse, e.vpunpckhbw_sse, e.vpshufb_sse)
+ e.Convert(asm.Invalid, asm.X1, asm.X0, asm.X3, vpand, vpunpckhbw, vpshufb)
for i := 2; i < 8; i += 2 {
a.Cmpq(asm.Constant(i), e.cx)
@@ -258,9 +236,23 @@ func encodeASM(a *asm.Asm) {
a.Label(ret)
a.Ret()
+}
- e.BigLoop(bigloop_sse, e.vpand_sse, e.vpunpckhbw_sse, e.vpshufb_sse)
- a.Jmp(tail)
+func encodeASM(a *asm.Asm) {
+ mask := a.Data("encodeMask", repeat(0x0f, 16))
+
+ e := &encode{
+ a,
+
+ asm.DI, asm.SI, asm.BX,
+
+ asm.X15,
+
+ mask,
+ }
+
+ e.encodeASM("encodeAVX", a.Vpand, a.Vpunpckhbw, a.Vpshufb)
+ e.encodeASM("encodeSSE", e.vpand_sse, e.vpunpckhbw_sse, e.vpshufb_sse)
}
type decode struct {
@@ -268,8 +260,6 @@ type decode struct {
di, si, cx, invldMskOut, invldMskIn asm.Register
- ret, invalid asm.Label
-
base, toLower, high, low, valid, sign asm.Data
valid0, valid2 asm.Operand
@@ -323,7 +313,7 @@ func (d *decode) vpshufb_sse(ops ...asm.Operand) {
d.Pshufb(ops[0], ops[2])
}
-func (d *decode) Convert(io, tmp4, tmp3, tmp2, tmp1 asm.Operand, vpxor, vpcmpgtb, vpshufb func(ops ...asm.Operand)) {
+func (d *decode) Convert(io, tmp4, tmp3, tmp2, tmp1 asm.Operand, invalid asm.Label, vpxor, vpcmpgtb, vpshufb func(ops ...asm.Operand)) {
vpxor(tmp1, io, d.sign)
d.Por(io, d.toLower)
@@ -342,7 +332,7 @@ func (d *decode) Convert(io, tmp4, tmp3, tmp2, tmp1 asm.Operand, vpxor, vpcmpgtb
d.Pmovmskb(d.invldMskOut, tmp3)
d.Testw(d.invldMskIn, d.invldMskOut)
- d.Jnz(d.invalid)
+ d.Jnz(invalid)
d.Psubb(io, d.base.Offset(0))
@@ -356,42 +346,10 @@ func (d *decode) Convert(io, tmp4, tmp3, tmp2, tmp1 asm.Operand, vpxor, vpcmpgtb
d.Por(io, tmp3)
}
-func (d *decode) BigLoop(l asm.Label, vpxor, vpcmpgtb, vpshufb func(ops ...asm.Operand)) {
- d.Label(l)
-
- d.Movou(asm.X0, asm.Address(d.si))
-
- d.Convert(asm.X0, asm.X4, asm.X3, asm.X2, asm.X1, vpxor, vpcmpgtb, vpshufb)
-
- d.Movq(asm.Address(d.di), asm.X0)
-
- d.Subq(d.cx, asm.Constant(16))
- d.Jz(d.ret)
-
- d.Addq(d.si, asm.Constant(16))
- d.Addq(d.di, asm.Constant(8))
-
- d.Cmpq(asm.Constant(16), d.cx)
- d.Jae(l)
-}
-
-func decodeASM(a *asm.Asm) {
- base := a.Data("decodeBase", bytes.Join([][]byte{
- repeat('0', 16),
- repeat('a'-'0'-10, 16),
- }, nil))
- toLower := a.Data("decodeToLower", repeat(0x20, 16))
- high := a.Data64("decodeHigh", []uint64{0x0e0c0a0806040200, ^uint64(0)})
- low := a.Data64("decodeLow", []uint64{0x0f0d0b0907050301, ^uint64(0)})
- valid := a.Data("decodeValid", bytes.Join([][]byte{
- repeat('0'^0x80, 16),
- repeat('9'^0x80, 16),
- repeat('a'^0x80, 16),
- repeat('f'^0x80, 16),
- }, nil))
- sign := a.Data("decodeToSigned", repeat(0x80, 16))
+func (d *decode) decodeASM(name string, vpxor, vpcmpgtb, vpshufb func(ops ...asm.Operand)) {
+ a := d.Asm
- a.NewFunction("decodeASM")
+ a.NewFunction(name)
a.NoSplit()
dst := a.Argument("dst", 8)
@@ -402,24 +360,11 @@ func decodeASM(a *asm.Asm) {
a.Start()
- bigloop_avx := a.NewLabel("bigloop_avx")
- bigloop_sse := a.NewLabel("bigloop_sse")
+ bigloop := a.NewLabel("bigloop")
tail := a.NewLabel("tail")
ret := a.NewLabel("ret")
invalid := a.NewLabel("invalid")
- d := &decode{
- a,
-
- asm.DI, asm.SI, asm.BX, asm.AX, asm.DX,
-
- ret, invalid,
-
- base, toLower, high, low, valid, sign,
-
- asm.X14, asm.X15,
- }
-
a.Movq(d.di, dst)
a.Movq(d.si, src)
a.Movq(d.cx, length)
@@ -434,10 +379,22 @@ func decodeASM(a *asm.Asm) {
a.Cmpq(asm.Constant(16), d.cx)
a.Jb(tail)
- a.Cmpb(asm.Constant(1), asm.Data("·support_avx"))
- a.Jne(bigloop_sse)
+ d.Label(bigloop)
+
+ d.Movou(asm.X0, asm.Address(d.si))
+
+ d.Convert(asm.X0, asm.X4, asm.X3, asm.X2, asm.X1, invalid, vpxor, vpcmpgtb, vpshufb)
+
+ d.Movq(asm.Address(d.di), asm.X0)
- d.BigLoop(bigloop_avx, a.Vpxor, a.Vpcmpgtb, a.Vpshufb)
+ d.Subq(d.cx, asm.Constant(16))
+ d.Jz(ret)
+
+ d.Addq(d.si, asm.Constant(16))
+ d.Addq(d.di, asm.Constant(8))
+
+ d.Cmpq(asm.Constant(16), d.cx)
+ d.Jae(bigloop)
a.Label(tail)
@@ -476,7 +433,7 @@ func decodeASM(a *asm.Asm) {
a.Label(tailConv)
- d.Convert(asm.X0, asm.X4, asm.X3, asm.X2, asm.X1, d.vpxor_sse, d.vpcmpgtb_sse, d.vpshufb_sse)
+ d.Convert(asm.X0, asm.X4, asm.X3, asm.X2, asm.X1, invalid, vpxor, vpcmpgtb, vpshufb)
for i := 4; i <= 12; i += 4 {
a.Cmpq(asm.Constant(i), d.cx)
@@ -513,9 +470,36 @@ func decodeASM(a *asm.Asm) {
a.Movb(ok, asm.Constant(0))
a.Ret()
+}
- d.BigLoop(bigloop_sse, d.vpxor_sse, d.vpcmpgtb_sse, d.vpshufb_sse)
- a.Jmp(tail)
+func decodeASM(a *asm.Asm) {
+ base := a.Data("decodeBase", bytes.Join([][]byte{
+ repeat('0', 16),
+ repeat('a'-'0'-10, 16),
+ }, nil))
+ toLower := a.Data("decodeToLower", repeat(0x20, 16))
+ high := a.Data64("decodeHigh", []uint64{0x0e0c0a0806040200, ^uint64(0)})
+ low := a.Data64("decodeLow", []uint64{0x0f0d0b0907050301, ^uint64(0)})
+ valid := a.Data("decodeValid", bytes.Join([][]byte{
+ repeat('0'^0x80, 16),
+ repeat('9'^0x80, 16),
+ repeat('a'^0x80, 16),
+ repeat('f'^0x80, 16),
+ }, nil))
+ sign := a.Data("decodeToSigned", repeat(0x80, 16))
+
+ d := &decode{
+ a,
+
+ asm.DI, asm.SI, asm.BX, asm.AX, asm.DX,
+
+ base, toLower, high, low, valid, sign,
+
+ asm.X14, asm.X15,
+ }
+
+ d.decodeASM("decodeAVX", a.Vpxor, a.Vpcmpgtb, a.Vpshufb)
+ d.decodeASM("decodeSSE", d.vpxor_sse, d.vpcmpgtb_sse, d.vpshufb_sse)
}
func main() {
diff --git a/vendor/github.com/tmthrgd/go-hex/hex_amd64.go b/vendor/github.com/tmthrgd/go-hex/hex_amd64.go
index cf00d9485ec6d0bf8f88afb17e330c60e5d8181e..01495ca955f0d539e7d7ab7221c20c03fae59c60 100644
--- a/vendor/github.com/tmthrgd/go-hex/hex_amd64.go
+++ b/vendor/github.com/tmthrgd/go-hex/hex_amd64.go
@@ -9,8 +9,6 @@ package hex
import "golang.org/x/sys/cpu"
-var support_avx = cpu.X86.HasAVX
-
// RawEncode encodes src into EncodedLen(len(src))
// bytes of dst. As a convenience, it returns the number
// of bytes written to dst, but this value is always EncodedLen(len(src)).
@@ -28,7 +26,12 @@ func RawEncode(dst, src, alpha []byte) int {
return 0
}
- encodeASM(&dst[0], &src[0], uint64(len(src)), &alpha[0])
+ if cpu.X86.HasAVX {
+ encodeAVX(&dst[0], &src[0], uint64(len(src)), &alpha[0])
+ } else {
+ encodeSSE(&dst[0], &src[0], uint64(len(src)), &alpha[0])
+ }
+
return len(src) * 2
}
@@ -49,7 +52,17 @@ func Decode(dst, src []byte) (int, error) {
return 0, nil
}
- if n, ok := decodeASM(&dst[0], &src[0], uint64(len(src))); !ok {
+ var (
+ n uint64
+ ok bool
+ )
+ if cpu.X86.HasAVX {
+ n, ok = decodeAVX(&dst[0], &src[0], uint64(len(src)))
+ } else {
+ n, ok = decodeSSE(&dst[0], &src[0], uint64(len(src)))
+ }
+
+ if !ok {
return 0, InvalidByteError(src[n])
}
@@ -60,8 +73,16 @@ func Decode(dst, src []byte) (int, error) {
// This function is implemented in hex_encode_amd64.s
//go:noescape
-func encodeASM(dst *byte, src *byte, len uint64, alpha *byte)
+func encodeAVX(dst *byte, src *byte, len uint64, alpha *byte)
+
+// This function is implemented in hex_encode_amd64.s
+//go:noescape
+func encodeSSE(dst *byte, src *byte, len uint64, alpha *byte)
+
+// This function is implemented in hex_decode_amd64.s
+//go:noescape
+func decodeAVX(dst *byte, src *byte, len uint64) (n uint64, ok bool)
// This function is implemented in hex_decode_amd64.s
//go:noescape
-func decodeASM(dst *byte, src *byte, len uint64) (n uint64, ok bool)
+func decodeSSE(dst *byte, src *byte, len uint64) (n uint64, ok bool)
diff --git a/vendor/github.com/tmthrgd/go-hex/hex_decode_amd64.s b/vendor/github.com/tmthrgd/go-hex/hex_decode_amd64.s
index 5963c583ed8c0eb22d827e2a2e6114845d36942e..25d9cefb15f3d723754354de75caa5da7f4c7c0a 100644
--- a/vendor/github.com/tmthrgd/go-hex/hex_decode_amd64.s
+++ b/vendor/github.com/tmthrgd/go-hex/hex_decode_amd64.s
@@ -46,7 +46,7 @@ DATA decodeToSigned<>+0x00(SB)/8, $0x8080808080808080
DATA decodeToSigned<>+0x08(SB)/8, $0x8080808080808080
GLOBL decodeToSigned<>(SB),RODATA,$16
-TEXT ·decodeASM(SB),NOSPLIT,$0
+TEXT ·decodeAVX(SB),NOSPLIT,$0
MOVQ dst+0(FP), DI
MOVQ src+8(FP), SI
MOVQ len+16(FP), BX
@@ -56,9 +56,7 @@ TEXT ·decodeASM(SB),NOSPLIT,$0
MOVW $65535, DX
CMPQ BX, $16
JB tail
- CMPB ·support_avx(SB), $1
- JNE bigloop_sse
-bigloop_avx:
+bigloop:
MOVOU (SI), X0
VPXOR decodeToSigned<>(SB), X0, X1
POR decodeToLower<>(SB), X0
@@ -86,7 +84,7 @@ bigloop_avx:
ADDQ $16, SI
ADDQ $8, DI
CMPQ BX, $16
- JAE bigloop_avx
+ JAE bigloop
tail:
MOVQ $16, CX
SUBQ BX, CX
@@ -116,16 +114,12 @@ tail_in_4:
tail_in_2:
PINSRW $0, (SI), X0
tail_conv:
- MOVOU X0, X1
- PXOR decodeToSigned<>(SB), X1
+ VPXOR decodeToSigned<>(SB), X0, X1
POR decodeToLower<>(SB), X0
- MOVOU X0, X2
- PXOR decodeToSigned<>(SB), X2
- MOVOU X14, X3
- PCMPGTB X1, X3
+ VPXOR decodeToSigned<>(SB), X0, X2
+ VPCMPGTB X1, X14, X3
PCMPGTB decodeValid<>+0x10(SB), X1
- MOVOU X15, X4
- PCMPGTB X2, X4
+ VPCMPGTB X2, X15, X4
PCMPGTB decodeValid<>+0x30(SB), X2
PAND X4, X1
POR X2, X3
@@ -136,8 +130,7 @@ tail_conv:
PSUBB decodeBase<>(SB), X0
PANDN decodeBase<>+0x10(SB), X4
PSUBB X4, X0
- MOVOU X0, X3
- PSHUFB decodeLow<>(SB), X3
+ VPSHUFB decodeLow<>(SB), X0, X3
PSHUFB decodeHigh<>(SB), X0
PSLLW $4, X0
POR X3, X0
@@ -175,7 +168,18 @@ invalid:
MOVQ AX, n+24(FP)
MOVB $0, ok+32(FP)
RET
-bigloop_sse:
+
+TEXT ·decodeSSE(SB),NOSPLIT,$0
+ MOVQ dst+0(FP), DI
+ MOVQ src+8(FP), SI
+ MOVQ len+16(FP), BX
+ MOVQ SI, R15
+ MOVOU decodeValid<>(SB), X14
+ MOVOU decodeValid<>+0x20(SB), X15
+ MOVW $65535, DX
+ CMPQ BX, $16
+ JB tail
+bigloop:
MOVOU (SI), X0
MOVOU X0, X1
PXOR decodeToSigned<>(SB), X1
@@ -208,5 +212,92 @@ bigloop_sse:
ADDQ $16, SI
ADDQ $8, DI
CMPQ BX, $16
- JAE bigloop_sse
- JMP tail
+ JAE bigloop
+tail:
+ MOVQ $16, CX
+ SUBQ BX, CX
+ SHRW CX, DX
+ CMPQ BX, $4
+ JB tail_in_2
+ JE tail_in_4
+ CMPQ BX, $8
+ JB tail_in_6
+ JE tail_in_8
+ CMPQ BX, $12
+ JB tail_in_10
+ JE tail_in_12
+tail_in_14:
+ PINSRW $6, 12(SI), X0
+tail_in_12:
+ PINSRW $5, 10(SI), X0
+tail_in_10:
+ PINSRW $4, 8(SI), X0
+tail_in_8:
+ PINSRQ $0, (SI), X0
+ JMP tail_conv
+tail_in_6:
+ PINSRW $2, 4(SI), X0
+tail_in_4:
+ PINSRW $1, 2(SI), X0
+tail_in_2:
+ PINSRW $0, (SI), X0
+tail_conv:
+ MOVOU X0, X1
+ PXOR decodeToSigned<>(SB), X1
+ POR decodeToLower<>(SB), X0
+ MOVOU X0, X2
+ PXOR decodeToSigned<>(SB), X2
+ MOVOU X14, X3
+ PCMPGTB X1, X3
+ PCMPGTB decodeValid<>+0x10(SB), X1
+ MOVOU X15, X4
+ PCMPGTB X2, X4
+ PCMPGTB decodeValid<>+0x30(SB), X2
+ PAND X4, X1
+ POR X2, X3
+ POR X1, X3
+ PMOVMSKB X3, AX
+ TESTW AX, DX
+ JNZ invalid
+ PSUBB decodeBase<>(SB), X0
+ PANDN decodeBase<>+0x10(SB), X4
+ PSUBB X4, X0
+ MOVOU X0, X3
+ PSHUFB decodeLow<>(SB), X3
+ PSHUFB decodeHigh<>(SB), X0
+ PSLLW $4, X0
+ POR X3, X0
+ CMPQ BX, $4
+ JB tail_out_2
+ JE tail_out_4
+ CMPQ BX, $8
+ JB tail_out_6
+ JE tail_out_8
+ CMPQ BX, $12
+ JB tail_out_10
+ JE tail_out_12
+tail_out_14:
+ PEXTRB $6, X0, 6(DI)
+tail_out_12:
+ PEXTRB $5, X0, 5(DI)
+tail_out_10:
+ PEXTRB $4, X0, 4(DI)
+tail_out_8:
+ MOVL X0, (DI)
+ JMP ret
+tail_out_6:
+ PEXTRB $2, X0, 2(DI)
+tail_out_4:
+ PEXTRB $1, X0, 1(DI)
+tail_out_2:
+ PEXTRB $0, X0, (DI)
+ret:
+ MOVB $1, ok+32(FP)
+ RET
+invalid:
+ BSFW AX, AX
+ SUBQ R15, SI
+ ADDQ SI, AX
+ MOVQ AX, n+24(FP)
+ MOVB $0, ok+32(FP)
+ RET
diff --git a/vendor/github.com/tmthrgd/go-hex/hex_encode_amd64.s b/vendor/github.com/tmthrgd/go-hex/hex_encode_amd64.s
index 48d569d9186038239fd5f20342e88c230138450a..96e6e4caac5c9bbfcf4e82e03a3256d9a6db711e 100644
--- a/vendor/github.com/tmthrgd/go-hex/hex_encode_amd64.s
+++ b/vendor/github.com/tmthrgd/go-hex/hex_encode_amd64.s
@@ -18,7 +18,7 @@ DATA encodeMask<>+0x00(SB)/8, $0x0f0f0f0f0f0f0f0f
DATA encodeMask<>+0x08(SB)/8, $0x0f0f0f0f0f0f0f0f
GLOBL encodeMask<>(SB),RODATA,$16
-TEXT ·encodeASM(SB),NOSPLIT,$0
+TEXT ·encodeAVX(SB),NOSPLIT,$0
MOVQ dst+0(FP), DI
MOVQ src+8(FP), SI
MOVQ len+16(FP), BX
@@ -26,9 +26,7 @@ TEXT ·encodeASM(SB),NOSPLIT,$0
MOVOU (DX), X15
CMPQ BX, $16
JB tail
- CMPB ·support_avx(SB), $1
- JNE bigloop_sse
-bigloop_avx:
+bigloop:
MOVOU -16(SI)(BX*1), X0
VPAND encodeMask<>(SB), X0, X1
PSRLW $4, X0
@@ -42,7 +40,7 @@ bigloop_avx:
SUBQ $16, BX
JZ ret
CMPQ BX, $16
- JAE bigloop_avx
+ JAE bigloop
tail:
CMPQ BX, $2
JB tail_in_1
@@ -74,13 +72,11 @@ tail_in_2:
tail_in_1:
PINSRB $0, (SI), X0
tail_conv:
- MOVOU X0, X1
- PAND encodeMask<>(SB), X1
+ VPAND encodeMask<>(SB), X0, X1
PSRLW $4, X0
PAND encodeMask<>(SB), X0
PUNPCKLBW X1, X0
- MOVOU X15, X1
- PSHUFB X0, X1
+ VPSHUFB X0, X15, X1
CMPQ BX, $2
JB tail_out_1
JE tail_out_2
@@ -122,7 +118,16 @@ tail_out_1:
PEXTRB $0, X1, (DI)
ret:
RET
-bigloop_sse:
+
+TEXT ·encodeSSE(SB),NOSPLIT,$0
+ MOVQ dst+0(FP), DI
+ MOVQ src+8(FP), SI
+ MOVQ len+16(FP), BX
+ MOVQ alpha+24(FP), DX
+ MOVOU (DX), X15
+ CMPQ BX, $16
+ JB tail
+bigloop:
MOVOU -16(SI)(BX*1), X0
MOVOU X0, X1
PAND encodeMask<>(SB), X1
@@ -140,5 +145,83 @@ bigloop_sse:
SUBQ $16, BX
JZ ret
CMPQ BX, $16
- JAE bigloop_sse
+ JAE bigloop
+tail:
+ CMPQ BX, $2
+ JB tail_in_1
+ JE tail_in_2
+ CMPQ BX, $4
+ JB tail_in_3
+ JE tail_in_4
+ CMPQ BX, $6
+ JB tail_in_5
+ JE tail_in_6
+ CMPQ BX, $8
+ JB tail_in_7
+tail_in_8:
+ MOVQ (SI), X0
+ JMP tail_conv
+tail_in_7:
+ PINSRB $6, 6(SI), X0
+tail_in_6:
+ PINSRB $5, 5(SI), X0
+tail_in_5:
+ PINSRB $4, 4(SI), X0
+tail_in_4:
+ PINSRD $0, (SI), X0
+ JMP tail_conv
+tail_in_3:
+ PINSRB $2, 2(SI), X0
+tail_in_2:
+ PINSRB $1, 1(SI), X0
+tail_in_1:
+ PINSRB $0, (SI), X0
+tail_conv:
+ MOVOU X0, X1
+ PAND encodeMask<>(SB), X1
+ PSRLW $4, X0
+ PAND encodeMask<>(SB), X0
+ PUNPCKLBW X1, X0
+ MOVOU X15, X1
+ PSHUFB X0, X1
+ CMPQ BX, $2
+ JB tail_out_1
+ JE tail_out_2
+ CMPQ BX, $4
+ JB tail_out_3
+ JE tail_out_4
+ CMPQ BX, $6
+ JB tail_out_5
+ JE tail_out_6
+ CMPQ BX, $8
+ JB tail_out_7
+tail_out_8:
+ MOVOU X1, (DI)
+ SUBQ $8, BX
+ JZ ret
+ ADDQ $8, SI
+ ADDQ $16, DI
JMP tail
+tail_out_7:
+ PEXTRB $13, X1, 13(DI)
+ PEXTRB $12, X1, 12(DI)
+tail_out_6:
+ PEXTRB $11, X1, 11(DI)
+ PEXTRB $10, X1, 10(DI)
+tail_out_5:
+ PEXTRB $9, X1, 9(DI)
+ PEXTRB $8, X1, 8(DI)
+tail_out_4:
+ MOVQ X1, (DI)
+ RET
+tail_out_3:
+ PEXTRB $5, X1, 5(DI)
+ PEXTRB $4, X1, 4(DI)
+tail_out_2:
+ PEXTRB $3, X1, 3(DI)
+ PEXTRB $2, X1, 2(DI)
+tail_out_1:
+ PEXTRB $1, X1, 1(DI)
+ PEXTRB $0, X1, (DI)
+ret:
+ RET
diff --git a/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.go b/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.go
index ec13d138806546eb2fdc74abbc8dc5c35f3977d5..2aa4fd89dbac44b2430dc48873bebee1998e06b1 100644
--- a/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.go
+++ b/vendor/golang.org/x/crypto/chacha20poly1305/chacha20poly1305_amd64.go
@@ -20,7 +20,6 @@ func chacha20Poly1305Open(dst []byte, key []uint32, src, ad []byte) bool
func chacha20Poly1305Seal(dst []byte, key []uint32, src, ad []byte)
var (
- useASM = cpu.X86.HasSSSE3
useAVX2 = cpu.X86.HasAVX2 && cpu.X86.HasBMI2
)
@@ -48,7 +47,7 @@ func setupState(state *[16]uint32, key *[8]uint32, nonce []byte) {
}
func (c *chacha20poly1305) seal(dst, nonce, plaintext, additionalData []byte) []byte {
- if !useASM {
+ if !cpu.X86.HasSSSE3 {
return c.sealGeneric(dst, nonce, plaintext, additionalData)
}
@@ -64,7 +63,7 @@ func (c *chacha20poly1305) seal(dst, nonce, plaintext, additionalData []byte) []
}
func (c *chacha20poly1305) open(dst, nonce, ciphertext, additionalData []byte) ([]byte, error) {
- if !useASM {
+ if !cpu.X86.HasSSSE3 {
return c.openGeneric(dst, nonce, ciphertext, additionalData)
}
diff --git a/vendor/golang.org/x/sys/unix/aliases.go b/vendor/golang.org/x/sys/unix/aliases.go
index d87a681bb39ebe03caff22a91af6bd82e9e39c5f..951fce4d0d93f9b3ea3796465070bb78ab5717f9 100644
--- a/vendor/golang.org/x/sys/unix/aliases.go
+++ b/vendor/golang.org/x/sys/unix/aliases.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
// +build go1.9
package unix
diff --git a/vendor/golang.org/x/sys/unix/constants.go b/vendor/golang.org/x/sys/unix/constants.go
index a96f0ebc26446cc91688e8608663d40077efee82..3a6ac648dd5965584abf4afcc97c417b4bc8792f 100644
--- a/vendor/golang.org/x/sys/unix/constants.go
+++ b/vendor/golang.org/x/sys/unix/constants.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/dev_aix_ppc.go b/vendor/golang.org/x/sys/unix/dev_aix_ppc.go
new file mode 100644
index 0000000000000000000000000000000000000000..5e5fb451044aaba62809c8e3c4e1d45894b05b8f
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/dev_aix_ppc.go
@@ -0,0 +1,27 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build aix
+// +build ppc
+
+// Functions to access/create device major and minor numbers matching the
+// encoding used by AIX.
+
+package unix
+
+// Major returns the major component of a Linux device number.
+func Major(dev uint64) uint32 {
+ return uint32((dev >> 16) & 0xffff)
+}
+
+// Minor returns the minor component of a Linux device number.
+func Minor(dev uint64) uint32 {
+ return uint32(dev & 0xffff)
+}
+
+// Mkdev returns a Linux device number generated from the given major and minor
+// components.
+func Mkdev(major, minor uint32) uint64 {
+ return uint64(((major) << 16) | (minor))
+}
diff --git a/vendor/golang.org/x/sys/unix/dev_aix_ppc64.go b/vendor/golang.org/x/sys/unix/dev_aix_ppc64.go
new file mode 100644
index 0000000000000000000000000000000000000000..8b401244c419c3e77c0164cced93dba0fa910818
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/dev_aix_ppc64.go
@@ -0,0 +1,29 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build aix
+// +build ppc64
+
+// Functions to access/create device major and minor numbers matching the
+// encoding used AIX.
+
+package unix
+
+// Major returns the major component of a Linux device number.
+func Major(dev uint64) uint32 {
+ return uint32((dev & 0x3fffffff00000000) >> 32)
+}
+
+// Minor returns the minor component of a Linux device number.
+func Minor(dev uint64) uint32 {
+ return uint32((dev & 0x00000000ffffffff) >> 0)
+}
+
+// Mkdev returns a Linux device number generated from the given major and minor
+// components.
+func Mkdev(major, minor uint32) uint64 {
+ var DEVNO64 uint64
+ DEVNO64 = 0x8000000000000000
+ return ((uint64(major) << 32) | (uint64(minor) & 0x00000000FFFFFFFF) | DEVNO64)
+}
diff --git a/vendor/golang.org/x/sys/unix/dirent.go b/vendor/golang.org/x/sys/unix/dirent.go
index 95fd353171fa8cae3f7cdedd13715f9020281b8f..4407c505a369c83e8ef95c21b2607dd32badfa6a 100644
--- a/vendor/golang.org/x/sys/unix/dirent.go
+++ b/vendor/golang.org/x/sys/unix/dirent.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux nacl netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux nacl netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/env_unix.go b/vendor/golang.org/x/sys/unix/env_unix.go
index 706b3cd1dd30a26f5681e684853a02efe6b105f4..84178b0a134a9d425f7aa7c0c55c9fada0b86614 100644
--- a/vendor/golang.org/x/sys/unix/env_unix.go
+++ b/vendor/golang.org/x/sys/unix/env_unix.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
// Unix environment variables.
diff --git a/vendor/golang.org/x/sys/unix/gccgo.go b/vendor/golang.org/x/sys/unix/gccgo.go
index 50062e3c7430e85740bfedd3473a135385b52f3f..cd6f5a6133fe86c796b7458953ebe868edf3070c 100644
--- a/vendor/golang.org/x/sys/unix/gccgo.go
+++ b/vendor/golang.org/x/sys/unix/gccgo.go
@@ -3,6 +3,7 @@
// license that can be found in the LICENSE file.
// +build gccgo
+// +build !aix
package unix
diff --git a/vendor/golang.org/x/sys/unix/gccgo_c.c b/vendor/golang.org/x/sys/unix/gccgo_c.c
index 46523ced65d59e69212ca337ba840f8f924b66d5..c44730c5e99ff103d47bc8fa186fca401c560fda 100644
--- a/vendor/golang.org/x/sys/unix/gccgo_c.c
+++ b/vendor/golang.org/x/sys/unix/gccgo_c.c
@@ -3,6 +3,7 @@
// license that can be found in the LICENSE file.
// +build gccgo
+// +build !aix
#include <errno.h>
#include <stdint.h>
diff --git a/vendor/golang.org/x/sys/unix/ioctl.go b/vendor/golang.org/x/sys/unix/ioctl.go
index 8c9aaeb273e1e62c55e02188f0a2b839a176c492..f121a8d64b8c8dad3982f5233ff6605e6c705441 100644
--- a/vendor/golang.org/x/sys/unix/ioctl.go
+++ b/vendor/golang.org/x/sys/unix/ioctl.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/pagesize_unix.go b/vendor/golang.org/x/sys/unix/pagesize_unix.go
index 83c85e0196fafdbb4aa18a137c4f035f929583e2..bc2f3629a7a95c223ac63e8df1f611660d8327e8 100644
--- a/vendor/golang.org/x/sys/unix/pagesize_unix.go
+++ b/vendor/golang.org/x/sys/unix/pagesize_unix.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
// For Unix, get the pagesize from the runtime.
diff --git a/vendor/golang.org/x/sys/unix/race0.go b/vendor/golang.org/x/sys/unix/race0.go
index dd0820431e9a534cfef0f7d5036064759085f183..ad026678c7ca9d13c30922211d9ac1c1c5394d5f 100644
--- a/vendor/golang.org/x/sys/unix/race0.go
+++ b/vendor/golang.org/x/sys/unix/race0.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin,!race linux,!race freebsd,!race netbsd openbsd solaris dragonfly
+// +build aix darwin,!race linux,!race freebsd,!race netbsd openbsd solaris dragonfly
package unix
diff --git a/vendor/golang.org/x/sys/unix/sockcmsg_unix.go b/vendor/golang.org/x/sys/unix/sockcmsg_unix.go
index bb756ece15853a62fc554d862f722a7578ee75a0..f153c0673d6aedf6b80606bd48202aacd3440426 100644
--- a/vendor/golang.org/x/sys/unix/sockcmsg_unix.go
+++ b/vendor/golang.org/x/sys/unix/sockcmsg_unix.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
// Socket control messages
diff --git a/vendor/golang.org/x/sys/unix/str.go b/vendor/golang.org/x/sys/unix/str.go
index 35ed6643536f4db3c9ac52e66d4bacce25b1cde7..17fb698683132287d9f81b1d81462dc61df6be73 100644
--- a/vendor/golang.org/x/sys/unix/str.go
+++ b/vendor/golang.org/x/sys/unix/str.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/syscall.go b/vendor/golang.org/x/sys/unix/syscall.go
index ef35fce8041a1b1eb3681b5831dee3ea2d6e6740..0d4b1d7a20e6ade73e85a11088cf63e37ea8391a 100644
--- a/vendor/golang.org/x/sys/unix/syscall.go
+++ b/vendor/golang.org/x/sys/unix/syscall.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
// Package unix contains an interface to the low-level operating system
// primitives. OS details vary depending on the underlying system, and
diff --git a/vendor/golang.org/x/sys/unix/syscall_aix.go b/vendor/golang.org/x/sys/unix/syscall_aix.go
new file mode 100644
index 0000000000000000000000000000000000000000..df1f9ea3d5b9973ad9cafd8abb6758a507a771b6
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/syscall_aix.go
@@ -0,0 +1,564 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build aix
+
+// Aix system calls.
+// This file is compiled as ordinary Go code,
+// but it is also input to mksyscall,
+// which parses the //sys lines and generates system call stubs.
+// Note that sometimes we use a lowercase //sys name and
+// wrap it in our own nicer implementation.
+
+package unix
+
+import (
+ "syscall"
+ "unsafe"
+)
+
+/*
+ * Wrapped
+ */
+
+//sys utimes(path string, times *[2]Timeval) (err error)
+func Utimes(path string, tv []Timeval) error {
+ if len(tv) != 2 {
+ return EINVAL
+ }
+ return utimes(path, (*[2]Timeval)(unsafe.Pointer(&tv[0])))
+}
+
+//sys utimensat(dirfd int, path string, times *[2]Timespec, flag int) (err error)
+func UtimesNano(path string, ts []Timespec) error {
+ if len(ts) != 2 {
+ return EINVAL
+ }
+ return utimensat(AT_FDCWD, path, (*[2]Timespec)(unsafe.Pointer(&ts[0])), 0)
+}
+
+func UtimesNanoAt(dirfd int, path string, ts []Timespec, flags int) error {
+ if ts == nil {
+ return utimensat(dirfd, path, nil, flags)
+ }
+ if len(ts) != 2 {
+ return EINVAL
+ }
+ return utimensat(dirfd, path, (*[2]Timespec)(unsafe.Pointer(&ts[0])), flags)
+}
+
+func (sa *SockaddrInet4) sockaddr() (unsafe.Pointer, _Socklen, error) {
+ if sa.Port < 0 || sa.Port > 0xFFFF {
+ return nil, 0, EINVAL
+ }
+ sa.raw.Family = AF_INET
+ p := (*[2]byte)(unsafe.Pointer(&sa.raw.Port))
+ p[0] = byte(sa.Port >> 8)
+ p[1] = byte(sa.Port)
+ for i := 0; i < len(sa.Addr); i++ {
+ sa.raw.Addr[i] = sa.Addr[i]
+ }
+ return unsafe.Pointer(&sa.raw), SizeofSockaddrInet4, nil
+}
+
+func (sa *SockaddrInet6) sockaddr() (unsafe.Pointer, _Socklen, error) {
+ if sa.Port < 0 || sa.Port > 0xFFFF {
+ return nil, 0, EINVAL
+ }
+ sa.raw.Family = AF_INET6
+ p := (*[2]byte)(unsafe.Pointer(&sa.raw.Port))
+ p[0] = byte(sa.Port >> 8)
+ p[1] = byte(sa.Port)
+ sa.raw.Scope_id = sa.ZoneId
+ for i := 0; i < len(sa.Addr); i++ {
+ sa.raw.Addr[i] = sa.Addr[i]
+ }
+ return unsafe.Pointer(&sa.raw), SizeofSockaddrInet6, nil
+}
+
+func (sa *SockaddrUnix) sockaddr() (unsafe.Pointer, _Socklen, error) {
+ name := sa.Name
+ n := len(name)
+ if n > len(sa.raw.Path) {
+ return nil, 0, EINVAL
+ }
+ if n == len(sa.raw.Path) && name[0] != '@' {
+ return nil, 0, EINVAL
+ }
+ sa.raw.Family = AF_UNIX
+ for i := 0; i < n; i++ {
+ sa.raw.Path[i] = uint8(name[i])
+ }
+ // length is family (uint16), name, NUL.
+ sl := _Socklen(2)
+ if n > 0 {
+ sl += _Socklen(n) + 1
+ }
+ if sa.raw.Path[0] == '@' {
+ sa.raw.Path[0] = 0
+ // Don't count trailing NUL for abstract address.
+ sl--
+ }
+
+ return unsafe.Pointer(&sa.raw), sl, nil
+}
+
+func Getsockname(fd int) (sa Sockaddr, err error) {
+ var rsa RawSockaddrAny
+ var len _Socklen = SizeofSockaddrAny
+ if err = getsockname(fd, &rsa, &len); err != nil {
+ return
+ }
+ return anyToSockaddr(fd, &rsa)
+}
+
+//sys getcwd(buf []byte) (err error)
+
+const ImplementsGetwd = true
+
+func Getwd() (ret string, err error) {
+ for len := uint64(4096); ; len *= 2 {
+ b := make([]byte, len)
+ err := getcwd(b)
+ if err == nil {
+ i := 0
+ for b[i] != 0 {
+ i++
+ }
+ return string(b[0:i]), nil
+ }
+ if err != ERANGE {
+ return "", err
+ }
+ }
+}
+
+func Getcwd(buf []byte) (n int, err error) {
+ err = getcwd(buf)
+ if err == nil {
+ i := 0
+ for buf[i] != 0 {
+ i++
+ }
+ n = i + 1
+ }
+ return
+}
+
+func Getgroups() (gids []int, err error) {
+ n, err := getgroups(0, nil)
+ if err != nil {
+ return nil, err
+ }
+ if n == 0 {
+ return nil, nil
+ }
+
+ // Sanity check group count. Max is 16 on BSD.
+ if n < 0 || n > 1000 {
+ return nil, EINVAL
+ }
+
+ a := make([]_Gid_t, n)
+ n, err = getgroups(n, &a[0])
+ if err != nil {
+ return nil, err
+ }
+ gids = make([]int, n)
+ for i, v := range a[0:n] {
+ gids[i] = int(v)
+ }
+ return
+}
+
+func Setgroups(gids []int) (err error) {
+ if len(gids) == 0 {
+ return setgroups(0, nil)
+ }
+
+ a := make([]_Gid_t, len(gids))
+ for i, v := range gids {
+ a[i] = _Gid_t(v)
+ }
+ return setgroups(len(a), &a[0])
+}
+
+/*
+ * Socket
+ */
+
+//sys accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error)
+
+func Accept(fd int) (nfd int, sa Sockaddr, err error) {
+ var rsa RawSockaddrAny
+ var len _Socklen = SizeofSockaddrAny
+ nfd, err = accept(fd, &rsa, &len)
+ if nfd == -1 {
+ return
+ }
+ sa, err = anyToSockaddr(fd, &rsa)
+ if err != nil {
+ Close(nfd)
+ nfd = 0
+ }
+ return
+}
+
+func Recvmsg(fd int, p, oob []byte, flags int) (n, oobn int, recvflags int, from Sockaddr, err error) {
+ // Recvmsg not implemented on AIX
+ sa := new(SockaddrUnix)
+ return -1, -1, -1, sa, ENOSYS
+}
+
+func Sendmsg(fd int, p, oob []byte, to Sockaddr, flags int) (err error) {
+ _, err = SendmsgN(fd, p, oob, to, flags)
+ return
+}
+
+func SendmsgN(fd int, p, oob []byte, to Sockaddr, flags int) (n int, err error) {
+ // SendmsgN not implemented on AIX
+ return -1, ENOSYS
+}
+
+func anyToSockaddr(fd int, rsa *RawSockaddrAny) (Sockaddr, error) {
+ switch rsa.Addr.Family {
+
+ case AF_UNIX:
+ pp := (*RawSockaddrUnix)(unsafe.Pointer(rsa))
+ sa := new(SockaddrUnix)
+
+ // Some versions of AIX have a bug in getsockname (see IV78655).
+ // We can't rely on sa.Len being set correctly.
+ n := SizeofSockaddrUnix - 3 // substract leading Family, Len, terminating NUL.
+ for i := 0; i < n; i++ {
+ if pp.Path[i] == 0 {
+ n = i
+ break
+ }
+ }
+
+ bytes := (*[10000]byte)(unsafe.Pointer(&pp.Path[0]))[0:n]
+ sa.Name = string(bytes)
+ return sa, nil
+
+ case AF_INET:
+ pp := (*RawSockaddrInet4)(unsafe.Pointer(rsa))
+ sa := new(SockaddrInet4)
+ p := (*[2]byte)(unsafe.Pointer(&pp.Port))
+ sa.Port = int(p[0])<<8 + int(p[1])
+ for i := 0; i < len(sa.Addr); i++ {
+ sa.Addr[i] = pp.Addr[i]
+ }
+ return sa, nil
+
+ case AF_INET6:
+ pp := (*RawSockaddrInet6)(unsafe.Pointer(rsa))
+ sa := new(SockaddrInet6)
+ p := (*[2]byte)(unsafe.Pointer(&pp.Port))
+ sa.Port = int(p[0])<<8 + int(p[1])
+ sa.ZoneId = pp.Scope_id
+ for i := 0; i < len(sa.Addr); i++ {
+ sa.Addr[i] = pp.Addr[i]
+ }
+ return sa, nil
+ }
+ return nil, EAFNOSUPPORT
+}
+
+func Gettimeofday(tv *Timeval) (err error) {
+ err = gettimeofday(tv, nil)
+ return
+}
+
+// TODO
+func sendfile(outfd int, infd int, offset *int64, count int) (written int, err error) {
+ return -1, ENOSYS
+}
+
+//sys getdirent(fd int, buf []byte) (n int, err error)
+func ReadDirent(fd int, buf []byte) (n int, err error) {
+ return getdirent(fd, buf)
+}
+
+//sys wait4(pid Pid_t, status *_C_int, options int, rusage *Rusage) (wpid Pid_t, err error)
+func Wait4(pid int, wstatus *WaitStatus, options int, rusage *Rusage) (wpid int, err error) {
+ var status _C_int
+ var r Pid_t
+ err = ERESTART
+ // AIX wait4 may return with ERESTART errno, while the processus is still
+ // active.
+ for err == ERESTART {
+ r, err = wait4(Pid_t(pid), &status, options, rusage)
+ }
+ wpid = int(r)
+ if wstatus != nil {
+ *wstatus = WaitStatus(status)
+ }
+ return
+}
+
+/*
+ * Wait
+ */
+
+type WaitStatus uint32
+
+func (w WaitStatus) Stopped() bool { return w&0x40 != 0 }
+func (w WaitStatus) StopSignal() syscall.Signal {
+ if !w.Stopped() {
+ return -1
+ }
+ return syscall.Signal(w>>8) & 0xFF
+}
+
+func (w WaitStatus) Exited() bool { return w&0xFF == 0 }
+func (w WaitStatus) ExitStatus() int {
+ if !w.Exited() {
+ return -1
+ }
+ return int((w >> 8) & 0xFF)
+}
+
+func (w WaitStatus) Signaled() bool { return w&0x40 == 0 && w&0xFF != 0 }
+func (w WaitStatus) Signal() syscall.Signal {
+ if !w.Signaled() {
+ return -1
+ }
+ return syscall.Signal(w>>16) & 0xFF
+}
+
+func (w WaitStatus) Continued() bool { return w&0x01000000 != 0 }
+
+func (w WaitStatus) CoreDump() bool { return w&0x200 != 0 }
+
+func (w WaitStatus) TrapCause() int { return -1 }
+
+//sys ioctl(fd int, req uint, arg uintptr) (err error)
+
+// ioctl itself should not be exposed directly, but additional get/set
+// functions for specific types are permissible.
+
+// IoctlSetInt performs an ioctl operation which sets an integer value
+// on fd, using the specified request number.
+func IoctlSetInt(fd int, req uint, value int) error {
+ return ioctl(fd, req, uintptr(value))
+}
+
+func ioctlSetWinsize(fd int, req uint, value *Winsize) error {
+ return ioctl(fd, req, uintptr(unsafe.Pointer(value)))
+}
+
+func ioctlSetTermios(fd int, req uint, value *Termios) error {
+ return ioctl(fd, req, uintptr(unsafe.Pointer(value)))
+}
+
+// IoctlGetInt performs an ioctl operation which gets an integer value
+// from fd, using the specified request number.
+func IoctlGetInt(fd int, req uint) (int, error) {
+ var value int
+ err := ioctl(fd, req, uintptr(unsafe.Pointer(&value)))
+ return value, err
+}
+
+func IoctlGetWinsize(fd int, req uint) (*Winsize, error) {
+ var value Winsize
+ err := ioctl(fd, req, uintptr(unsafe.Pointer(&value)))
+ return &value, err
+}
+
+func IoctlGetTermios(fd int, req uint) (*Termios, error) {
+ var value Termios
+ err := ioctl(fd, req, uintptr(unsafe.Pointer(&value)))
+ return &value, err
+}
+
+// fcntl must never be called with cmd=F_DUP2FD because it doesn't work on AIX
+// There is no way to create a custom fcntl and to keep //sys fcntl easily,
+// Therefore, the programmer must call dup2 instead of fcntl in this case.
+
+// FcntlInt performs a fcntl syscall on fd with the provided command and argument.
+//sys FcntlInt(fd uintptr, cmd int, arg int) (r int,err error) = fcntl
+
+// FcntlFlock performs a fcntl syscall for the F_GETLK, F_SETLK or F_SETLKW command.
+//sys FcntlFlock(fd uintptr, cmd int, lk *Flock_t) (err error) = fcntl
+
+func Flock(fd int, how int) (err error) {
+ return syscall.Flock(fd, how)
+}
+
+/*
+ * Direct access
+ */
+
+//sys Acct(path string) (err error)
+//sys Chdir(path string) (err error)
+//sys Chroot(path string) (err error)
+//sys Close(fd int) (err error)
+//sys Dup(oldfd int) (fd int, err error)
+//sys Dup3(oldfd int, newfd int, flags int) (err error)
+//sys Exit(code int)
+//sys Faccessat(dirfd int, path string, mode uint32, flags int) (err error)
+//sys Fallocate(fd int, mode uint32, off int64, len int64) (err error)
+//sys Fchdir(fd int) (err error)
+//sys Fchmod(fd int, mode uint32) (err error)
+//sys Fchmodat(dirfd int, path string, mode uint32, flags int) (err error)
+//sys Fchownat(dirfd int, path string, uid int, gid int, flags int) (err error)
+//sys fcntl(fd int, cmd int, arg int) (val int, err error)
+//sys Fdatasync(fd int) (err error)
+//sys Fsync(fd int) (err error)
+// readdir_r
+//sysnb Getpgid(pid int) (pgid int, err error)
+
+//sys Getpgrp() (pid int)
+
+//sysnb Getpid() (pid int)
+//sysnb Getppid() (ppid int)
+//sys Getpriority(which int, who int) (prio int, err error)
+//sysnb Getrusage(who int, rusage *Rusage) (err error)
+//sysnb Getsid(pid int) (sid int, err error)
+//sysnb Kill(pid int, sig syscall.Signal) (err error)
+//sys Klogctl(typ int, buf []byte) (n int, err error) = syslog
+//sys Mkdir(dirfd int, path string, mode uint32) (err error)
+//sys Mkdirat(dirfd int, path string, mode uint32) (err error)
+//sys Mkfifo(path string, mode uint32) (err error)
+//sys Mknod(path string, mode uint32, dev int) (err error)
+//sys Mknodat(dirfd int, path string, mode uint32, dev int) (err error)
+//sys Nanosleep(time *Timespec, leftover *Timespec) (err error)
+//sys Open(path string, mode int, perm uint32) (fd int, err error) = open64
+//sys Openat(dirfd int, path string, flags int, mode uint32) (fd int, err error)
+//sys read(fd int, p []byte) (n int, err error)
+//sys Readlink(path string, buf []byte) (n int, err error)
+//sys Removexattr(path string, attr string) (err error)
+//sys Renameat(olddirfd int, oldpath string, newdirfd int, newpath string) (err error)
+//sys Setdomainname(p []byte) (err error)
+//sys Sethostname(p []byte) (err error)
+//sysnb Setpgid(pid int, pgid int) (err error)
+//sysnb Setsid() (pid int, err error)
+//sysnb Settimeofday(tv *Timeval) (err error)
+
+//sys Setuid(uid int) (err error)
+//sys Setgid(uid int) (err error)
+
+//sys Setpriority(which int, who int, prio int) (err error)
+//sys Statx(dirfd int, path string, flags int, mask int, stat *Statx_t) (err error)
+//sys Sync()
+//sys Tee(rfd int, wfd int, len int, flags int) (n int64, err error)
+//sysnb Times(tms *Tms) (ticks uintptr, err error)
+//sysnb Umask(mask int) (oldmask int)
+//sysnb Uname(buf *Utsname) (err error)
+//TODO umount
+// //sys Unmount(target string, flags int) (err error) = umount
+//sys Unlink(path string) (err error)
+//sys Unlinkat(dirfd int, path string, flags int) (err error)
+//sys Unshare(flags int) (err error)
+//sys Ustat(dev int, ubuf *Ustat_t) (err error)
+//sys write(fd int, p []byte) (n int, err error)
+//sys readlen(fd int, p *byte, np int) (n int, err error) = read
+//sys writelen(fd int, p *byte, np int) (n int, err error) = write
+
+//sys Dup2(oldfd int, newfd int) (err error)
+//sys Fadvise(fd int, offset int64, length int64, advice int) (err error) = posix_fadvise64
+//sys Fchown(fd int, uid int, gid int) (err error)
+//sys Fstat(fd int, stat *Stat_t) (err error)
+//sys Fstatat(dirfd int, path string, stat *Stat_t, flags int) (err error) = fstatat
+//sys Fstatfs(fd int, buf *Statfs_t) (err error)
+//sys Ftruncate(fd int, length int64) (err error)
+//sysnb Getegid() (egid int)
+//sysnb Geteuid() (euid int)
+//sysnb Getgid() (gid int)
+//sysnb Getuid() (uid int)
+//sys Lchown(path string, uid int, gid int) (err error)
+//sys Listen(s int, n int) (err error)
+//sys Lstat(path string, stat *Stat_t) (err error)
+//sys Pause() (err error)
+//sys Pread(fd int, p []byte, offset int64) (n int, err error) = pread64
+//sys Pwrite(fd int, p []byte, offset int64) (n int, err error) = pwrite64
+//TODO Select
+// //sys Select(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timeval) (n int, err error)
+//sys Pselect(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timespec, sigmask *Sigset_t) (n int, err error)
+//sysnb Setregid(rgid int, egid int) (err error)
+//sysnb Setreuid(ruid int, euid int) (err error)
+//sys Shutdown(fd int, how int) (err error)
+//sys Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error)
+//sys Stat(path string, stat *Stat_t) (err error)
+//sys Statfs(path string, buf *Statfs_t) (err error)
+//sys Truncate(path string, length int64) (err error)
+
+//sys bind(s int, addr unsafe.Pointer, addrlen _Socklen) (err error)
+//sys connect(s int, addr unsafe.Pointer, addrlen _Socklen) (err error)
+//sysnb getgroups(n int, list *_Gid_t) (nn int, err error)
+//sysnb setgroups(n int, list *_Gid_t) (err error)
+//sys getsockopt(s int, level int, name int, val unsafe.Pointer, vallen *_Socklen) (err error)
+//sys setsockopt(s int, level int, name int, val unsafe.Pointer, vallen uintptr) (err error)
+//sysnb socket(domain int, typ int, proto int) (fd int, err error)
+//sysnb socketpair(domain int, typ int, proto int, fd *[2]int32) (err error)
+//sysnb getpeername(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error)
+//sysnb getsockname(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error)
+//sys recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error)
+//sys sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error)
+//sys recvmsg(s int, msg *Msghdr, flags int) (n int, err error)
+//sys sendmsg(s int, msg *Msghdr, flags int) (n int, err error)
+
+//sys munmap(addr uintptr, length uintptr) (err error)
+
+var mapper = &mmapper{
+ active: make(map[*byte][]byte),
+ mmap: mmap,
+ munmap: munmap,
+}
+
+func Mmap(fd int, offset int64, length int, prot int, flags int) (data []byte, err error) {
+ return mapper.Mmap(fd, offset, length, prot, flags)
+}
+
+func Munmap(b []byte) (err error) {
+ return mapper.Munmap(b)
+}
+
+//sys Madvise(b []byte, advice int) (err error)
+//sys Mprotect(b []byte, prot int) (err error)
+//sys Mlock(b []byte) (err error)
+//sys Mlockall(flags int) (err error)
+//sys Msync(b []byte, flags int) (err error)
+//sys Munlock(b []byte) (err error)
+//sys Munlockall() (err error)
+
+//sysnb pipe(p *[2]_C_int) (err error)
+
+func Pipe(p []int) (err error) {
+ if len(p) != 2 {
+ return EINVAL
+ }
+ var pp [2]_C_int
+ err = pipe(&pp)
+ p[0] = int(pp[0])
+ p[1] = int(pp[1])
+ return
+}
+
+//sysnb pipe2(p *[2]_C_int, flags int) (err error)
+
+func Pipe2(p []int, flags int) (err error) {
+ if len(p) != 2 {
+ return EINVAL
+ }
+ var pp [2]_C_int
+ err = pipe2(&pp, flags)
+ p[0] = int(pp[0])
+ p[1] = int(pp[1])
+ return
+}
+
+//sys poll(fds *PollFd, nfds int, timeout int) (n int, err error)
+
+func Poll(fds []PollFd, timeout int) (n int, err error) {
+ if len(fds) == 0 {
+ return poll(nil, 0, timeout)
+ }
+ return poll(&fds[0], len(fds), timeout)
+}
+
+//sys gettimeofday(tv *Timeval, tzp *Timezone) (err error)
+//sysnb Time(t *Time_t) (tt Time_t, err error)
+//sys Utime(path string, buf *Utimbuf) (err error)
diff --git a/vendor/golang.org/x/sys/unix/syscall_aix_ppc.go b/vendor/golang.org/x/sys/unix/syscall_aix_ppc.go
new file mode 100644
index 0000000000000000000000000000000000000000..c28af1f86eb4f59b14751a132cae23e26925dbaf
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/syscall_aix_ppc.go
@@ -0,0 +1,34 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build aix
+// +build ppc
+
+package unix
+
+//sysnb Getrlimit(resource int, rlim *Rlimit) (err error) = getrlimit64
+//sysnb Setrlimit(resource int, rlim *Rlimit) (err error) = setrlimit64
+//sys Seek(fd int, offset int64, whence int) (off int64, err error) = lseek64
+
+//sys mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error)
+
+func setTimespec(sec, nsec int64) Timespec {
+ return Timespec{Sec: int32(sec), Nsec: int32(nsec)}
+}
+
+func setTimeval(sec, usec int64) Timeval {
+ return Timeval{Sec: int32(sec), Usec: int32(usec)}
+}
+
+func (iov *Iovec) SetLen(length int) {
+ iov.Len = uint32(length)
+}
+
+func (msghdr *Msghdr) SetControllen(length int) {
+ msghdr.Controllen = uint32(length)
+}
+
+func (cmsg *Cmsghdr) SetLen(length int) {
+ cmsg.Len = uint32(length)
+}
diff --git a/vendor/golang.org/x/sys/unix/syscall_aix_ppc64.go b/vendor/golang.org/x/sys/unix/syscall_aix_ppc64.go
new file mode 100644
index 0000000000000000000000000000000000000000..881cacc6cc5665a448256e997a4d43f5b62e013c
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/syscall_aix_ppc64.go
@@ -0,0 +1,34 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build aix
+// +build ppc64
+
+package unix
+
+//sysnb Getrlimit(resource int, rlim *Rlimit) (err error)
+//sysnb Setrlimit(resource int, rlim *Rlimit) (err error)
+//sys Seek(fd int, offset int64, whence int) (off int64, err error) = lseek
+
+//sys mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error) = mmap64
+
+func setTimespec(sec, nsec int64) Timespec {
+ return Timespec{Sec: sec, Nsec: nsec}
+}
+
+func setTimeval(sec, usec int64) Timeval {
+ return Timeval{Sec: int64(sec), Usec: int32(usec)}
+}
+
+func (iov *Iovec) SetLen(length int) {
+ iov.Len = uint64(length)
+}
+
+func (msghdr *Msghdr) SetControllen(length int) {
+ msghdr.Controllen = uint32(length)
+}
+
+func (cmsg *Cmsghdr) SetLen(length int) {
+ cmsg.Len = uint32(length)
+}
diff --git a/vendor/golang.org/x/sys/unix/syscall_freebsd.go b/vendor/golang.org/x/sys/unix/syscall_freebsd.go
index 7bc830d096cc1b126463ac355d8c70d0b4befc74..77a634c760a4a3607088b0e84687c7c5e6c81ca3 100644
--- a/vendor/golang.org/x/sys/unix/syscall_freebsd.go
+++ b/vendor/golang.org/x/sys/unix/syscall_freebsd.go
@@ -57,14 +57,21 @@ func nametomib(name string) (mib []_C_int, err error) {
return buf[0 : n/siz], nil
}
-//sysnb pipe() (r int, w int, err error)
-
func Pipe(p []int) (err error) {
+ return Pipe2(p, 0)
+}
+
+//sysnb pipe2(p *[2]_C_int, flags int) (err error)
+
+func Pipe2(p []int, flags int) error {
if len(p) != 2 {
return EINVAL
}
- p[0], p[1], err = pipe()
- return
+ var pp [2]_C_int
+ err := pipe2(&pp, flags)
+ p[0] = int(pp[0])
+ p[1] = int(pp[1])
+ return err
}
func GetsockoptIPMreqn(fd, level, opt int) (*IPMreqn, error) {
diff --git a/vendor/golang.org/x/sys/unix/syscall_linux.go b/vendor/golang.org/x/sys/unix/syscall_linux.go
index eb6335402ecfb2f20e9e344558ad8ef2e44f0a3b..e193fd30bc725ae2bc17f5cb3a5dab91b7ee2ae2 100644
--- a/vendor/golang.org/x/sys/unix/syscall_linux.go
+++ b/vendor/golang.org/x/sys/unix/syscall_linux.go
@@ -1320,6 +1320,7 @@ func Getpgrp() (pid int) {
//sys Llistxattr(path string, dest []byte) (sz int, err error)
//sys Lremovexattr(path string, attr string) (err error)
//sys Lsetxattr(path string, attr string, data []byte, flags int) (err error)
+//sys MemfdCreate(name string, flags int) (fd int, err error)
//sys Mkdirat(dirfd int, path string, mode uint32) (err error)
//sys Mknodat(dirfd int, path string, mode uint32, dev int) (err error)
//sys Nanosleep(time *Timespec, leftover *Timespec) (err error)
diff --git a/vendor/golang.org/x/sys/unix/syscall_linux_ppc64x.go b/vendor/golang.org/x/sys/unix/syscall_linux_ppc64x.go
index 8c6720f7f48521a61283b44be709ecbc781019a0..6a38dfd5b14b468bf8c0a67c776153a2b40a5dd5 100644
--- a/vendor/golang.org/x/sys/unix/syscall_linux_ppc64x.go
+++ b/vendor/golang.org/x/sys/unix/syscall_linux_ppc64x.go
@@ -44,7 +44,6 @@ package unix
//sys Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error)
//sys Stat(path string, stat *Stat_t) (err error)
//sys Statfs(path string, buf *Statfs_t) (err error)
-//sys SyncFileRange(fd int, off int64, n int64, flags int) (err error) = SYS_SYNC_FILE_RANGE2
//sys Truncate(path string, length int64) (err error)
//sys Ustat(dev int, ubuf *Ustat_t) (err error)
//sys accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error)
@@ -129,3 +128,11 @@ func Poll(fds []PollFd, timeout int) (n int, err error) {
}
return poll(&fds[0], len(fds), timeout)
}
+
+//sys syncFileRange2(fd int, flags int, off int64, n int64) (err error) = SYS_SYNC_FILE_RANGE2
+
+func SyncFileRange(fd int, off int64, n int64, flags int) error {
+ // The sync_file_range and sync_file_range2 syscalls differ only in the
+ // order of their arguments.
+ return syncFileRange2(fd, flags, off, n)
+}
diff --git a/vendor/golang.org/x/sys/unix/syscall_linux_riscv64.go b/vendor/golang.org/x/sys/unix/syscall_linux_riscv64.go
new file mode 100644
index 0000000000000000000000000000000000000000..512077fe8e44cefe815b35fbfd60a43085dd3b64
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/syscall_linux_riscv64.go
@@ -0,0 +1,212 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build riscv64,linux
+
+package unix
+
+import "unsafe"
+
+func EpollCreate(size int) (fd int, err error) {
+ if size <= 0 {
+ return -1, EINVAL
+ }
+ return EpollCreate1(0)
+}
+
+//sys EpollWait(epfd int, events []EpollEvent, msec int) (n int, err error) = SYS_EPOLL_PWAIT
+//sys Fadvise(fd int, offset int64, length int64, advice int) (err error) = SYS_FADVISE64
+//sys Fchown(fd int, uid int, gid int) (err error)
+//sys Fstat(fd int, stat *Stat_t) (err error)
+//sys Fstatat(fd int, path string, stat *Stat_t, flags int) (err error)
+//sys Fstatfs(fd int, buf *Statfs_t) (err error)
+//sys Ftruncate(fd int, length int64) (err error)
+//sysnb Getegid() (egid int)
+//sysnb Geteuid() (euid int)
+//sysnb Getgid() (gid int)
+//sysnb Getrlimit(resource int, rlim *Rlimit) (err error)
+//sysnb Getuid() (uid int)
+//sys Listen(s int, n int) (err error)
+//sys Pread(fd int, p []byte, offset int64) (n int, err error) = SYS_PREAD64
+//sys Pwrite(fd int, p []byte, offset int64) (n int, err error) = SYS_PWRITE64
+//sys Seek(fd int, offset int64, whence int) (off int64, err error) = SYS_LSEEK
+
+func Select(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timeval) (n int, err error) {
+ var ts *Timespec
+ if timeout != nil {
+ ts = &Timespec{Sec: timeout.Sec, Nsec: timeout.Usec * 1000}
+ }
+ return Pselect(nfd, r, w, e, ts, nil)
+}
+
+//sys sendfile(outfd int, infd int, offset *int64, count int) (written int, err error)
+//sys Setfsgid(gid int) (err error)
+//sys Setfsuid(uid int) (err error)
+//sysnb Setregid(rgid int, egid int) (err error)
+//sysnb Setresgid(rgid int, egid int, sgid int) (err error)
+//sysnb Setresuid(ruid int, euid int, suid int) (err error)
+//sysnb Setrlimit(resource int, rlim *Rlimit) (err error)
+//sysnb Setreuid(ruid int, euid int) (err error)
+//sys Shutdown(fd int, how int) (err error)
+//sys Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error)
+
+func Stat(path string, stat *Stat_t) (err error) {
+ return Fstatat(AT_FDCWD, path, stat, 0)
+}
+
+func Lchown(path string, uid int, gid int) (err error) {
+ return Fchownat(AT_FDCWD, path, uid, gid, AT_SYMLINK_NOFOLLOW)
+}
+
+func Lstat(path string, stat *Stat_t) (err error) {
+ return Fstatat(AT_FDCWD, path, stat, AT_SYMLINK_NOFOLLOW)
+}
+
+//sys Statfs(path string, buf *Statfs_t) (err error)
+//sys SyncFileRange(fd int, off int64, n int64, flags int) (err error)
+//sys Truncate(path string, length int64) (err error)
+
+func Ustat(dev int, ubuf *Ustat_t) (err error) {
+ return ENOSYS
+}
+
+//sys accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error)
+//sys accept4(s int, rsa *RawSockaddrAny, addrlen *_Socklen, flags int) (fd int, err error)
+//sys bind(s int, addr unsafe.Pointer, addrlen _Socklen) (err error)
+//sys connect(s int, addr unsafe.Pointer, addrlen _Socklen) (err error)
+//sysnb getgroups(n int, list *_Gid_t) (nn int, err error)
+//sysnb setgroups(n int, list *_Gid_t) (err error)
+//sys getsockopt(s int, level int, name int, val unsafe.Pointer, vallen *_Socklen) (err error)
+//sys setsockopt(s int, level int, name int, val unsafe.Pointer, vallen uintptr) (err error)
+//sysnb socket(domain int, typ int, proto int) (fd int, err error)
+//sysnb socketpair(domain int, typ int, proto int, fd *[2]int32) (err error)
+//sysnb getpeername(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error)
+//sysnb getsockname(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error)
+//sys recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error)
+//sys sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error)
+//sys recvmsg(s int, msg *Msghdr, flags int) (n int, err error)
+//sys sendmsg(s int, msg *Msghdr, flags int) (n int, err error)
+//sys mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error)
+
+//sysnb Gettimeofday(tv *Timeval) (err error)
+
+func setTimespec(sec, nsec int64) Timespec {
+ return Timespec{Sec: sec, Nsec: nsec}
+}
+
+func setTimeval(sec, usec int64) Timeval {
+ return Timeval{Sec: sec, Usec: usec}
+}
+
+func futimesat(dirfd int, path string, tv *[2]Timeval) (err error) {
+ if tv == nil {
+ return utimensat(dirfd, path, nil, 0)
+ }
+
+ ts := []Timespec{
+ NsecToTimespec(TimevalToNsec(tv[0])),
+ NsecToTimespec(TimevalToNsec(tv[1])),
+ }
+ return utimensat(dirfd, path, (*[2]Timespec)(unsafe.Pointer(&ts[0])), 0)
+}
+
+func Time(t *Time_t) (Time_t, error) {
+ var tv Timeval
+ err := Gettimeofday(&tv)
+ if err != nil {
+ return 0, err
+ }
+ if t != nil {
+ *t = Time_t(tv.Sec)
+ }
+ return Time_t(tv.Sec), nil
+}
+
+func Utime(path string, buf *Utimbuf) error {
+ tv := []Timeval{
+ {Sec: buf.Actime},
+ {Sec: buf.Modtime},
+ }
+ return Utimes(path, tv)
+}
+
+func utimes(path string, tv *[2]Timeval) (err error) {
+ if tv == nil {
+ return utimensat(AT_FDCWD, path, nil, 0)
+ }
+
+ ts := []Timespec{
+ NsecToTimespec(TimevalToNsec(tv[0])),
+ NsecToTimespec(TimevalToNsec(tv[1])),
+ }
+ return utimensat(AT_FDCWD, path, (*[2]Timespec)(unsafe.Pointer(&ts[0])), 0)
+}
+
+func Pipe(p []int) (err error) {
+ if len(p) != 2 {
+ return EINVAL
+ }
+ var pp [2]_C_int
+ err = pipe2(&pp, 0)
+ p[0] = int(pp[0])
+ p[1] = int(pp[1])
+ return
+}
+
+//sysnb pipe2(p *[2]_C_int, flags int) (err error)
+
+func Pipe2(p []int, flags int) (err error) {
+ if len(p) != 2 {
+ return EINVAL
+ }
+ var pp [2]_C_int
+ err = pipe2(&pp, flags)
+ p[0] = int(pp[0])
+ p[1] = int(pp[1])
+ return
+}
+
+func (r *PtraceRegs) PC() uint64 { return r.Pc }
+
+func (r *PtraceRegs) SetPC(pc uint64) { r.Pc = pc }
+
+func (iov *Iovec) SetLen(length int) {
+ iov.Len = uint64(length)
+}
+
+func (msghdr *Msghdr) SetControllen(length int) {
+ msghdr.Controllen = uint64(length)
+}
+
+func (cmsg *Cmsghdr) SetLen(length int) {
+ cmsg.Len = uint64(length)
+}
+
+func InotifyInit() (fd int, err error) {
+ return InotifyInit1(0)
+}
+
+func Dup2(oldfd int, newfd int) (err error) {
+ return Dup3(oldfd, newfd, 0)
+}
+
+func Pause() (err error) {
+ _, _, e1 := Syscall6(SYS_PPOLL, 0, 0, 0, 0, 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+func Poll(fds []PollFd, timeout int) (n int, err error) {
+ var ts *Timespec
+ if timeout >= 0 {
+ ts = new(Timespec)
+ *ts = NsecToTimespec(int64(timeout) * 1e6)
+ }
+ if len(fds) == 0 {
+ return ppoll(nil, 0, ts, nil)
+ }
+ return ppoll(&fds[0], len(fds), ts, nil)
+}
diff --git a/vendor/golang.org/x/sys/unix/syscall_unix.go b/vendor/golang.org/x/sys/unix/syscall_unix.go
index 95b2180aebe3ed7cd62937171375cc31f8921048..13956b795436267cf101c7c9fdcbb8f16621673e 100644
--- a/vendor/golang.org/x/sys/unix/syscall_unix.go
+++ b/vendor/golang.org/x/sys/unix/syscall_unix.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/timestruct.go b/vendor/golang.org/x/sys/unix/timestruct.go
index 47b9011ee9636fd7672764c0442cf463dc7b78f6..4a672f56942abd067302123f5da066b038d79807 100644
--- a/vendor/golang.org/x/sys/unix/timestruct.go
+++ b/vendor/golang.org/x/sys/unix/timestruct.go
@@ -2,7 +2,7 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
-// +build darwin dragonfly freebsd linux netbsd openbsd solaris
+// +build aix darwin dragonfly freebsd linux netbsd openbsd solaris
package unix
diff --git a/vendor/golang.org/x/sys/unix/types_aix.go b/vendor/golang.org/x/sys/unix/types_aix.go
new file mode 100644
index 0000000000000000000000000000000000000000..18fbddd52c505616653ebc3a46e06bdf88e20e8c
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/types_aix.go
@@ -0,0 +1,236 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+// +build ignore
+// +build aix
+
+/*
+Input to cgo -godefs. See also mkerrors.sh and mkall.sh
+*/
+
+// +godefs map struct_in_addr [4]byte /* in_addr */
+// +godefs map struct_in6_addr [16]byte /* in6_addr */
+
+package unix
+
+/*
+#include <sys/types.h>
+#include <sys/time.h>
+#include <sys/limits.h>
+#include <sys/un.h>
+#include <utime.h>
+#include <sys/utsname.h>
+#include <sys/poll.h>
+#include <sys/resource.h>
+#include <sys/stat.h>
+#include <sys/statfs.h>
+#include <sys/termio.h>
+#include <sys/ioctl.h>
+
+#include <termios.h>
+
+#include <net/if.h>
+#include <net/if_dl.h>
+#include <netinet/in.h>
+#include <netinet/icmp6.h>
+
+
+#include <dirent.h>
+#include <fcntl.h>
+
+enum {
+ sizeofPtr = sizeof(void*),
+};
+
+union sockaddr_all {
+ struct sockaddr s1; // this one gets used for fields
+ struct sockaddr_in s2; // these pad it out
+ struct sockaddr_in6 s3;
+ struct sockaddr_un s4;
+ struct sockaddr_dl s5;
+};
+
+struct sockaddr_any {
+ struct sockaddr addr;
+ char pad[sizeof(union sockaddr_all) - sizeof(struct sockaddr)];
+};
+
+*/
+import "C"
+
+// Machine characteristics; for internal use.
+
+const (
+ sizeofPtr = C.sizeofPtr
+ sizeofShort = C.sizeof_short
+ sizeofInt = C.sizeof_int
+ sizeofLong = C.sizeof_long
+ sizeofLongLong = C.sizeof_longlong
+ PathMax = C.PATH_MAX
+)
+
+// Basic types
+
+type (
+ _C_short C.short
+ _C_int C.int
+ _C_long C.long
+ _C_long_long C.longlong
+)
+
+type off64 C.off64_t
+type off C.off_t
+type Mode_t C.mode_t
+
+// Time
+
+type Timespec C.struct_timespec
+
+type StTimespec C.struct_st_timespec
+
+type Timeval C.struct_timeval
+
+type Timeval32 C.struct_timeval32
+
+type Timex C.struct_timex
+
+type Time_t C.time_t
+
+type Tms C.struct_tms
+
+type Utimbuf C.struct_utimbuf
+
+type Timezone C.struct_timezone
+
+// Processes
+
+type Rusage C.struct_rusage
+
+type Rlimit C.struct_rlimit64
+
+type Pid_t C.pid_t
+
+type _Gid_t C.gid_t
+
+type dev_t C.dev_t
+
+// Files
+
+type Stat_t C.struct_stat
+
+type StatxTimestamp C.struct_statx_timestamp
+
+type Statx_t C.struct_statx
+
+type Dirent C.struct_dirent
+
+// Sockets
+
+type RawSockaddrInet4 C.struct_sockaddr_in
+
+type RawSockaddrInet6 C.struct_sockaddr_in6
+
+type RawSockaddrUnix C.struct_sockaddr_un
+
+type RawSockaddr C.struct_sockaddr
+
+type RawSockaddrAny C.struct_sockaddr_any
+
+type _Socklen C.socklen_t
+
+type Cmsghdr C.struct_cmsghdr
+
+type ICMPv6Filter C.struct_icmp6_filter
+
+type Iovec C.struct_iovec
+
+type IPMreq C.struct_ip_mreq
+
+type IPv6Mreq C.struct_ipv6_mreq
+
+type IPv6MTUInfo C.struct_ip6_mtuinfo
+
+type Linger C.struct_linger
+
+type Msghdr C.struct_msghdr
+
+const (
+ SizeofSockaddrInet4 = C.sizeof_struct_sockaddr_in
+ SizeofSockaddrInet6 = C.sizeof_struct_sockaddr_in6
+ SizeofSockaddrAny = C.sizeof_struct_sockaddr_any
+ SizeofSockaddrUnix = C.sizeof_struct_sockaddr_un
+ SizeofLinger = C.sizeof_struct_linger
+ SizeofIPMreq = C.sizeof_struct_ip_mreq
+ SizeofIPv6Mreq = C.sizeof_struct_ipv6_mreq
+ SizeofIPv6MTUInfo = C.sizeof_struct_ip6_mtuinfo
+ SizeofMsghdr = C.sizeof_struct_msghdr
+ SizeofCmsghdr = C.sizeof_struct_cmsghdr
+ SizeofICMPv6Filter = C.sizeof_struct_icmp6_filter
+)
+
+// Routing and interface messages
+
+const (
+ SizeofIfMsghdr = C.sizeof_struct_if_msghdr
+)
+
+type IfMsgHdr C.struct_if_msghdr
+
+// Misc
+
+type FdSet C.fd_set
+
+type Utsname C.struct_utsname
+
+type Ustat_t C.struct_ustat
+
+type Sigset_t C.sigset_t
+
+const (
+ AT_FDCWD = C.AT_FDCWD
+ AT_REMOVEDIR = C.AT_REMOVEDIR
+ AT_SYMLINK_NOFOLLOW = C.AT_SYMLINK_NOFOLLOW
+)
+
+// Terminal handling
+
+type Termios C.struct_termios
+
+type Termio C.struct_termio
+
+type Winsize C.struct_winsize
+
+//poll
+
+type PollFd struct {
+ Fd int32
+ Events uint16
+ Revents uint16
+}
+
+const (
+ POLLERR = C.POLLERR
+ POLLHUP = C.POLLHUP
+ POLLIN = C.POLLIN
+ POLLNVAL = C.POLLNVAL
+ POLLOUT = C.POLLOUT
+ POLLPRI = C.POLLPRI
+ POLLRDBAND = C.POLLRDBAND
+ POLLRDNORM = C.POLLRDNORM
+ POLLWRBAND = C.POLLWRBAND
+ POLLWRNORM = C.POLLWRNORM
+)
+
+//flock_t
+
+type Flock_t C.struct_flock64
+
+// Statfs
+
+type Fsid_t C.struct_fsid_t
+type Fsid64_t C.struct_fsid64_t
+
+type Statfs_t C.struct_statfs
+
+const RNDGETENTCNT = 0x80045200
diff --git a/vendor/golang.org/x/sys/unix/types_solaris.go b/vendor/golang.org/x/sys/unix/types_solaris.go
index f7771554425467476ac60aed1d1a62cfe44107a3..8cef71bd45306bf280451ef465009e99bb8a7f50 100644
--- a/vendor/golang.org/x/sys/unix/types_solaris.go
+++ b/vendor/golang.org/x/sys/unix/types_solaris.go
@@ -118,23 +118,6 @@ type _Gid_t C.gid_t
// Files
-const ( // Directory mode bits
- S_IFMT = C.S_IFMT
- S_IFIFO = C.S_IFIFO
- S_IFCHR = C.S_IFCHR
- S_IFDIR = C.S_IFDIR
- S_IFBLK = C.S_IFBLK
- S_IFREG = C.S_IFREG
- S_IFLNK = C.S_IFLNK
- S_IFSOCK = C.S_IFSOCK
- S_ISUID = C.S_ISUID
- S_ISGID = C.S_ISGID
- S_ISVTX = C.S_ISVTX
- S_IRUSR = C.S_IRUSR
- S_IWUSR = C.S_IWUSR
- S_IXUSR = C.S_IXUSR
-)
-
type Stat_t C.struct_stat
type Flock_t C.struct_flock
diff --git a/vendor/golang.org/x/sys/unix/zerrors_aix_ppc.go b/vendor/golang.org/x/sys/unix/zerrors_aix_ppc.go
new file mode 100644
index 0000000000000000000000000000000000000000..4b7b965027da3d51bf50817f9be7e993fecb4409
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zerrors_aix_ppc.go
@@ -0,0 +1,1372 @@
+// mkerrors.sh -maix32
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build ppc,aix
+
+// Created by cgo -godefs - DO NOT EDIT
+// cgo -godefs -- -maix32 _const.go
+
+package unix
+
+import "syscall"
+
+const (
+ AF_APPLETALK = 0x10
+ AF_BYPASS = 0x19
+ AF_CCITT = 0xa
+ AF_CHAOS = 0x5
+ AF_DATAKIT = 0x9
+ AF_DECnet = 0xc
+ AF_DLI = 0xd
+ AF_ECMA = 0x8
+ AF_HYLINK = 0xf
+ AF_IMPLINK = 0x3
+ AF_INET = 0x2
+ AF_INET6 = 0x18
+ AF_INTF = 0x14
+ AF_ISO = 0x7
+ AF_LAT = 0xe
+ AF_LINK = 0x12
+ AF_LOCAL = 0x1
+ AF_MAX = 0x1e
+ AF_NDD = 0x17
+ AF_NETWARE = 0x16
+ AF_NS = 0x6
+ AF_OSI = 0x7
+ AF_PUP = 0x4
+ AF_RIF = 0x15
+ AF_ROUTE = 0x11
+ AF_SNA = 0xb
+ AF_UNIX = 0x1
+ AF_UNSPEC = 0x0
+ ALTWERASE = 0x400000
+ ARPHRD_802_3 = 0x6
+ ARPHRD_802_5 = 0x6
+ ARPHRD_ETHER = 0x1
+ ARPHRD_FDDI = 0x1
+ B0 = 0x0
+ B110 = 0x3
+ B1200 = 0x9
+ B134 = 0x4
+ B150 = 0x5
+ B1800 = 0xa
+ B19200 = 0xe
+ B200 = 0x6
+ B2400 = 0xb
+ B300 = 0x7
+ B38400 = 0xf
+ B4800 = 0xc
+ B50 = 0x1
+ B600 = 0x8
+ B75 = 0x2
+ B9600 = 0xd
+ BRKINT = 0x2
+ BS0 = 0x0
+ BS1 = 0x1000
+ BSDLY = 0x1000
+ CAP_AACCT = 0x6
+ CAP_ARM_APPLICATION = 0x5
+ CAP_BYPASS_RAC_VMM = 0x3
+ CAP_CLEAR = 0x0
+ CAP_CREDENTIALS = 0x7
+ CAP_EFFECTIVE = 0x1
+ CAP_EWLM_AGENT = 0x4
+ CAP_INHERITABLE = 0x2
+ CAP_MAXIMUM = 0x7
+ CAP_NUMA_ATTACH = 0x2
+ CAP_PERMITTED = 0x3
+ CAP_PROPAGATE = 0x1
+ CAP_PROPOGATE = 0x1
+ CAP_SET = 0x1
+ CBAUD = 0xf
+ CFLUSH = 0xf
+ CIBAUD = 0xf0000
+ CLOCAL = 0x800
+ CLOCK_MONOTONIC = 0xa
+ CLOCK_PROCESS_CPUTIME_ID = 0xb
+ CLOCK_REALTIME = 0x9
+ CLOCK_THREAD_CPUTIME_ID = 0xc
+ CR0 = 0x0
+ CR1 = 0x100
+ CR2 = 0x200
+ CR3 = 0x300
+ CRDLY = 0x300
+ CREAD = 0x80
+ CS5 = 0x0
+ CS6 = 0x10
+ CS7 = 0x20
+ CS8 = 0x30
+ CSIOCGIFCONF = -0x3ff796dc
+ CSIZE = 0x30
+ CSMAP_DIR = "/usr/lib/nls/csmap/"
+ CSTART = '\021'
+ CSTOP = '\023'
+ CSTOPB = 0x40
+ CSUSP = 0x1a
+ ECHO = 0x8
+ ECHOCTL = 0x20000
+ ECHOE = 0x10
+ ECHOK = 0x20
+ ECHOKE = 0x80000
+ ECHONL = 0x40
+ ECHOPRT = 0x40000
+ ECH_ICMPID = 0x2
+ ETHERNET_CSMACD = 0x6
+ EVENP = 0x80
+ EXCONTINUE = 0x0
+ EXDLOK = 0x3
+ EXIO = 0x2
+ EXPGIO = 0x0
+ EXRESUME = 0x2
+ EXRETURN = 0x1
+ EXSIG = 0x4
+ EXTA = 0xe
+ EXTB = 0xf
+ EXTRAP = 0x1
+ EYEC_RTENTRYA = 0x257274656e747241
+ EYEC_RTENTRYF = 0x257274656e747246
+ E_ACC = 0x0
+ FD_CLOEXEC = 0x1
+ FD_SETSIZE = 0xfffe
+ FF0 = 0x0
+ FF1 = 0x2000
+ FFDLY = 0x2000
+ FLUSHBAND = 0x40
+ FLUSHLOW = 0x8
+ FLUSHO = 0x100000
+ FLUSHR = 0x1
+ FLUSHRW = 0x3
+ FLUSHW = 0x2
+ F_CLOSEM = 0xa
+ F_DUP2FD = 0xe
+ F_DUPFD = 0x0
+ F_GETFD = 0x1
+ F_GETFL = 0x3
+ F_GETLK = 0x5
+ F_GETLK64 = 0xb
+ F_GETOWN = 0x8
+ F_LOCK = 0x1
+ F_OK = 0x0
+ F_RDLCK = 0x1
+ F_SETFD = 0x2
+ F_SETFL = 0x4
+ F_SETLK = 0x6
+ F_SETLK64 = 0xc
+ F_SETLKW = 0x7
+ F_SETLKW64 = 0xd
+ F_SETOWN = 0x9
+ F_TEST = 0x3
+ F_TLOCK = 0x2
+ F_TSTLK = 0xf
+ F_ULOCK = 0x0
+ F_UNLCK = 0x3
+ F_WRLCK = 0x2
+ HUPCL = 0x400
+ IBSHIFT = 0x10
+ ICANON = 0x2
+ ICMP6_FILTER = 0x26
+ ICMP6_SEC_SEND_DEL = 0x46
+ ICMP6_SEC_SEND_GET = 0x47
+ ICMP6_SEC_SEND_SET = 0x44
+ ICMP6_SEC_SEND_SET_CGA_ADDR = 0x45
+ ICRNL = 0x100
+ IEXTEN = 0x200000
+ IFA_FIRSTALIAS = 0x2000
+ IFA_ROUTE = 0x1
+ IFF_64BIT = 0x4000000
+ IFF_ALLCAST = 0x20000
+ IFF_ALLMULTI = 0x200
+ IFF_BPF = 0x8000000
+ IFF_BRIDGE = 0x40000
+ IFF_BROADCAST = 0x2
+ IFF_CANTCHANGE = 0x80c52
+ IFF_CHECKSUM_OFFLOAD = 0x10000000
+ IFF_D1 = 0x8000
+ IFF_D2 = 0x4000
+ IFF_D3 = 0x2000
+ IFF_D4 = 0x1000
+ IFF_DEBUG = 0x4
+ IFF_DEVHEALTH = 0x4000
+ IFF_DO_HW_LOOPBACK = 0x10000
+ IFF_GROUP_ROUTING = 0x2000000
+ IFF_IFBUFMGT = 0x800000
+ IFF_LINK0 = 0x100000
+ IFF_LINK1 = 0x200000
+ IFF_LINK2 = 0x400000
+ IFF_LOOPBACK = 0x8
+ IFF_MULTICAST = 0x80000
+ IFF_NOARP = 0x80
+ IFF_NOECHO = 0x800
+ IFF_NOTRAILERS = 0x20
+ IFF_OACTIVE = 0x400
+ IFF_POINTOPOINT = 0x10
+ IFF_PROMISC = 0x100
+ IFF_PSEG = 0x40000000
+ IFF_RUNNING = 0x40
+ IFF_SIMPLEX = 0x800
+ IFF_SNAP = 0x8000
+ IFF_TCP_DISABLE_CKSUM = 0x20000000
+ IFF_TCP_NOCKSUM = 0x1000000
+ IFF_UP = 0x1
+ IFF_VIPA = 0x80000000
+ IFNAMSIZ = 0x10
+ IFO_FLUSH = 0x1
+ IFT_1822 = 0x2
+ IFT_AAL5 = 0x31
+ IFT_ARCNET = 0x23
+ IFT_ARCNETPLUS = 0x24
+ IFT_ATM = 0x25
+ IFT_CEPT = 0x13
+ IFT_CLUSTER = 0x3e
+ IFT_DS3 = 0x1e
+ IFT_EON = 0x19
+ IFT_ETHER = 0x6
+ IFT_FCS = 0x3a
+ IFT_FDDI = 0xf
+ IFT_FRELAY = 0x20
+ IFT_FRELAYDCE = 0x2c
+ IFT_GIFTUNNEL = 0x3c
+ IFT_HDH1822 = 0x3
+ IFT_HF = 0x3d
+ IFT_HIPPI = 0x2f
+ IFT_HSSI = 0x2e
+ IFT_HY = 0xe
+ IFT_IB = 0xc7
+ IFT_ISDNBASIC = 0x14
+ IFT_ISDNPRIMARY = 0x15
+ IFT_ISO88022LLC = 0x29
+ IFT_ISO88023 = 0x7
+ IFT_ISO88024 = 0x8
+ IFT_ISO88025 = 0x9
+ IFT_ISO88026 = 0xa
+ IFT_LAPB = 0x10
+ IFT_LOCALTALK = 0x2a
+ IFT_LOOP = 0x18
+ IFT_MIOX25 = 0x26
+ IFT_MODEM = 0x30
+ IFT_NSIP = 0x1b
+ IFT_OTHER = 0x1
+ IFT_P10 = 0xc
+ IFT_P80 = 0xd
+ IFT_PARA = 0x22
+ IFT_PPP = 0x17
+ IFT_PROPMUX = 0x36
+ IFT_PROPVIRTUAL = 0x35
+ IFT_PTPSERIAL = 0x16
+ IFT_RS232 = 0x21
+ IFT_SDLC = 0x11
+ IFT_SIP = 0x1f
+ IFT_SLIP = 0x1c
+ IFT_SMDSDXI = 0x2b
+ IFT_SMDSICIP = 0x34
+ IFT_SN = 0x38
+ IFT_SONET = 0x27
+ IFT_SONETPATH = 0x32
+ IFT_SONETVT = 0x33
+ IFT_SP = 0x39
+ IFT_STARLAN = 0xb
+ IFT_T1 = 0x12
+ IFT_TUNNEL = 0x3b
+ IFT_ULTRA = 0x1d
+ IFT_V35 = 0x2d
+ IFT_VIPA = 0x37
+ IFT_X25 = 0x5
+ IFT_X25DDN = 0x4
+ IFT_X25PLE = 0x28
+ IFT_XETHER = 0x1a
+ IGNBRK = 0x1
+ IGNCR = 0x80
+ IGNPAR = 0x4
+ IMAXBEL = 0x10000
+ INLCR = 0x40
+ INPCK = 0x10
+ IN_CLASSA_HOST = 0xffffff
+ IN_CLASSA_MAX = 0x80
+ IN_CLASSA_NET = 0xff000000
+ IN_CLASSA_NSHIFT = 0x18
+ IN_CLASSB_HOST = 0xffff
+ IN_CLASSB_MAX = 0x10000
+ IN_CLASSB_NET = 0xffff0000
+ IN_CLASSB_NSHIFT = 0x10
+ IN_CLASSC_HOST = 0xff
+ IN_CLASSC_NET = 0xffffff00
+ IN_CLASSC_NSHIFT = 0x8
+ IN_CLASSD_HOST = 0xfffffff
+ IN_CLASSD_NET = 0xf0000000
+ IN_CLASSD_NSHIFT = 0x1c
+ IN_LOOPBACKNET = 0x7f
+ IN_USE = 0x1
+ IPPROTO_AH = 0x33
+ IPPROTO_BIP = 0x53
+ IPPROTO_DSTOPTS = 0x3c
+ IPPROTO_EGP = 0x8
+ IPPROTO_EON = 0x50
+ IPPROTO_ESP = 0x32
+ IPPROTO_FRAGMENT = 0x2c
+ IPPROTO_GGP = 0x3
+ IPPROTO_GIF = 0x8c
+ IPPROTO_GRE = 0x2f
+ IPPROTO_HOPOPTS = 0x0
+ IPPROTO_ICMP = 0x1
+ IPPROTO_ICMPV6 = 0x3a
+ IPPROTO_IDP = 0x16
+ IPPROTO_IGMP = 0x2
+ IPPROTO_IP = 0x0
+ IPPROTO_IPIP = 0x4
+ IPPROTO_IPV6 = 0x29
+ IPPROTO_LOCAL = 0x3f
+ IPPROTO_MAX = 0x100
+ IPPROTO_MH = 0x87
+ IPPROTO_NONE = 0x3b
+ IPPROTO_PUP = 0xc
+ IPPROTO_QOS = 0x2d
+ IPPROTO_RAW = 0xff
+ IPPROTO_ROUTING = 0x2b
+ IPPROTO_RSVP = 0x2e
+ IPPROTO_SCTP = 0x84
+ IPPROTO_TCP = 0x6
+ IPPROTO_TP = 0x1d
+ IPPROTO_UDP = 0x11
+ IPV6_ADDRFORM = 0x16
+ IPV6_ADDR_PREFERENCES = 0x4a
+ IPV6_ADD_MEMBERSHIP = 0xc
+ IPV6_AIXRAWSOCKET = 0x39
+ IPV6_CHECKSUM = 0x27
+ IPV6_DONTFRAG = 0x2d
+ IPV6_DROP_MEMBERSHIP = 0xd
+ IPV6_DSTOPTS = 0x36
+ IPV6_FLOWINFO_FLOWLABEL = 0xffffff
+ IPV6_FLOWINFO_PRIFLOW = 0xfffffff
+ IPV6_FLOWINFO_PRIORITY = 0xf000000
+ IPV6_FLOWINFO_SRFLAG = 0x10000000
+ IPV6_FLOWINFO_VERSION = 0xf0000000
+ IPV6_HOPLIMIT = 0x28
+ IPV6_HOPOPTS = 0x34
+ IPV6_JOIN_GROUP = 0xc
+ IPV6_LEAVE_GROUP = 0xd
+ IPV6_MIPDSTOPTS = 0x36
+ IPV6_MULTICAST_HOPS = 0xa
+ IPV6_MULTICAST_IF = 0x9
+ IPV6_MULTICAST_LOOP = 0xb
+ IPV6_NEXTHOP = 0x30
+ IPV6_NOPROBE = 0x1c
+ IPV6_PATHMTU = 0x2e
+ IPV6_PKTINFO = 0x21
+ IPV6_PKTOPTIONS = 0x24
+ IPV6_PRIORITY_10 = 0xa000000
+ IPV6_PRIORITY_11 = 0xb000000
+ IPV6_PRIORITY_12 = 0xc000000
+ IPV6_PRIORITY_13 = 0xd000000
+ IPV6_PRIORITY_14 = 0xe000000
+ IPV6_PRIORITY_15 = 0xf000000
+ IPV6_PRIORITY_8 = 0x8000000
+ IPV6_PRIORITY_9 = 0x9000000
+ IPV6_PRIORITY_BULK = 0x4000000
+ IPV6_PRIORITY_CONTROL = 0x7000000
+ IPV6_PRIORITY_FILLER = 0x1000000
+ IPV6_PRIORITY_INTERACTIVE = 0x6000000
+ IPV6_PRIORITY_RESERVED1 = 0x3000000
+ IPV6_PRIORITY_RESERVED2 = 0x5000000
+ IPV6_PRIORITY_UNATTENDED = 0x2000000
+ IPV6_PRIORITY_UNCHARACTERIZED = 0x0
+ IPV6_RECVDSTOPTS = 0x38
+ IPV6_RECVHOPLIMIT = 0x29
+ IPV6_RECVHOPOPTS = 0x35
+ IPV6_RECVHOPS = 0x22
+ IPV6_RECVIF = 0x1e
+ IPV6_RECVPATHMTU = 0x2f
+ IPV6_RECVPKTINFO = 0x23
+ IPV6_RECVRTHDR = 0x33
+ IPV6_RECVSRCRT = 0x1d
+ IPV6_RECVTCLASS = 0x2a
+ IPV6_RTHDR = 0x32
+ IPV6_RTHDRDSTOPTS = 0x37
+ IPV6_RTHDR_TYPE_0 = 0x0
+ IPV6_RTHDR_TYPE_2 = 0x2
+ IPV6_SENDIF = 0x1f
+ IPV6_SRFLAG_LOOSE = 0x0
+ IPV6_SRFLAG_STRICT = 0x10000000
+ IPV6_TCLASS = 0x2b
+ IPV6_TOKEN_LENGTH = 0x40
+ IPV6_UNICAST_HOPS = 0x4
+ IPV6_USE_MIN_MTU = 0x2c
+ IPV6_V6ONLY = 0x25
+ IPV6_VERSION = 0x60000000
+ IP_ADDRFORM = 0x16
+ IP_ADD_MEMBERSHIP = 0xc
+ IP_ADD_SOURCE_MEMBERSHIP = 0x3c
+ IP_BLOCK_SOURCE = 0x3a
+ IP_BROADCAST_IF = 0x10
+ IP_CACHE_LINE_SIZE = 0x80
+ IP_DEFAULT_MULTICAST_LOOP = 0x1
+ IP_DEFAULT_MULTICAST_TTL = 0x1
+ IP_DF = 0x4000
+ IP_DHCPMODE = 0x11
+ IP_DONTFRAG = 0x19
+ IP_DROP_MEMBERSHIP = 0xd
+ IP_DROP_SOURCE_MEMBERSHIP = 0x3d
+ IP_FINDPMTU = 0x1a
+ IP_HDRINCL = 0x2
+ IP_INC_MEMBERSHIPS = 0x14
+ IP_INIT_MEMBERSHIP = 0x14
+ IP_MAXPACKET = 0xffff
+ IP_MF = 0x2000
+ IP_MSS = 0x240
+ IP_MULTICAST_HOPS = 0xa
+ IP_MULTICAST_IF = 0x9
+ IP_MULTICAST_LOOP = 0xb
+ IP_MULTICAST_TTL = 0xa
+ IP_OPT = 0x1b
+ IP_OPTIONS = 0x1
+ IP_PMTUAGE = 0x1b
+ IP_RECVDSTADDR = 0x7
+ IP_RECVIF = 0x14
+ IP_RECVIFINFO = 0xf
+ IP_RECVINTERFACE = 0x20
+ IP_RECVMACHDR = 0xe
+ IP_RECVOPTS = 0x5
+ IP_RECVRETOPTS = 0x6
+ IP_RECVTTL = 0x22
+ IP_RETOPTS = 0x8
+ IP_SOURCE_FILTER = 0x48
+ IP_TOS = 0x3
+ IP_TTL = 0x4
+ IP_UNBLOCK_SOURCE = 0x3b
+ IP_UNICAST_HOPS = 0x4
+ ISIG = 0x1
+ ISTRIP = 0x20
+ IUCLC = 0x800
+ IXANY = 0x1000
+ IXOFF = 0x400
+ IXON = 0x200
+ I_FLUSH = 0x20005305
+ LNOFLSH = 0x8000
+ LOCK_EX = 0x2
+ LOCK_NB = 0x4
+ LOCK_SH = 0x1
+ LOCK_UN = 0x8
+ MADV_DONTNEED = 0x4
+ MADV_NORMAL = 0x0
+ MADV_RANDOM = 0x1
+ MADV_SEQUENTIAL = 0x2
+ MADV_SPACEAVAIL = 0x5
+ MADV_WILLNEED = 0x3
+ MAP_ANON = 0x10
+ MAP_ANONYMOUS = 0x10
+ MAP_FILE = 0x0
+ MAP_FIXED = 0x100
+ MAP_PRIVATE = 0x2
+ MAP_SHARED = 0x1
+ MAP_TYPE = 0xf0
+ MAP_VARIABLE = 0x0
+ MCL_CURRENT = 0x100
+ MCL_FUTURE = 0x200
+ MSG_ANY = 0x4
+ MSG_ARGEXT = 0x400
+ MSG_BAND = 0x2
+ MSG_COMPAT = 0x8000
+ MSG_CTRUNC = 0x20
+ MSG_DONTROUTE = 0x4
+ MSG_EOR = 0x8
+ MSG_HIPRI = 0x1
+ MSG_MAXIOVLEN = 0x10
+ MSG_MPEG2 = 0x80
+ MSG_NONBLOCK = 0x4000
+ MSG_NOSIGNAL = 0x100
+ MSG_OOB = 0x1
+ MSG_PEEK = 0x2
+ MSG_TRUNC = 0x10
+ MSG_WAITALL = 0x40
+ MSG_WAITFORONE = 0x200
+ MS_ASYNC = 0x10
+ MS_EINTR = 0x80
+ MS_INVALIDATE = 0x40
+ MS_PER_SEC = 0x3e8
+ MS_SYNC = 0x20
+ NL0 = 0x0
+ NL1 = 0x4000
+ NL2 = 0x8000
+ NL3 = 0xc000
+ NLDLY = 0x4000
+ NOFLSH = 0x80
+ NOFLUSH = 0x80000000
+ OCRNL = 0x8
+ OFDEL = 0x80
+ OFILL = 0x40
+ OLCUC = 0x2
+ ONLCR = 0x4
+ ONLRET = 0x20
+ ONOCR = 0x10
+ ONOEOT = 0x80000
+ OPOST = 0x1
+ OXTABS = 0x40000
+ O_ACCMODE = 0x23
+ O_APPEND = 0x8
+ O_CIO = 0x80
+ O_CIOR = 0x800000000
+ O_CLOEXEC = 0x800000
+ O_CREAT = 0x100
+ O_DEFER = 0x2000
+ O_DELAY = 0x4000
+ O_DIRECT = 0x8000000
+ O_DIRECTORY = 0x80000
+ O_DSYNC = 0x400000
+ O_EFSOFF = 0x400000000
+ O_EFSON = 0x200000000
+ O_EXCL = 0x400
+ O_EXEC = 0x20
+ O_LARGEFILE = 0x4000000
+ O_NDELAY = 0x8000
+ O_NOCACHE = 0x100000
+ O_NOCTTY = 0x800
+ O_NOFOLLOW = 0x1000000
+ O_NONBLOCK = 0x4
+ O_NONE = 0x3
+ O_NSHARE = 0x10000
+ O_RAW = 0x100000000
+ O_RDONLY = 0x0
+ O_RDWR = 0x2
+ O_RSHARE = 0x1000
+ O_RSYNC = 0x200000
+ O_SEARCH = 0x20
+ O_SNAPSHOT = 0x40
+ O_SYNC = 0x10
+ O_TRUNC = 0x200
+ O_TTY_INIT = 0x0
+ O_WRONLY = 0x1
+ PARENB = 0x100
+ PAREXT = 0x100000
+ PARMRK = 0x8
+ PARODD = 0x200
+ PENDIN = 0x20000000
+ PRIO_PGRP = 0x1
+ PRIO_PROCESS = 0x0
+ PRIO_USER = 0x2
+ PROT_EXEC = 0x4
+ PROT_NONE = 0x0
+ PROT_READ = 0x1
+ PROT_WRITE = 0x2
+ PR_64BIT = 0x20
+ PR_ADDR = 0x2
+ PR_ARGEXT = 0x400
+ PR_ATOMIC = 0x1
+ PR_CONNREQUIRED = 0x4
+ PR_FASTHZ = 0x5
+ PR_INP = 0x40
+ PR_INTRLEVEL = 0x8000
+ PR_MLS = 0x100
+ PR_MLS_1_LABEL = 0x200
+ PR_NOEOR = 0x4000
+ PR_RIGHTS = 0x10
+ PR_SLOWHZ = 0x2
+ PR_WANTRCVD = 0x8
+ RLIMIT_AS = 0x6
+ RLIMIT_CORE = 0x4
+ RLIMIT_CPU = 0x0
+ RLIMIT_DATA = 0x2
+ RLIMIT_FSIZE = 0x1
+ RLIMIT_NOFILE = 0x7
+ RLIMIT_NPROC = 0x9
+ RLIMIT_RSS = 0x5
+ RLIMIT_STACK = 0x3
+ RLIM_INFINITY = 0x7fffffff
+ RTAX_AUTHOR = 0x6
+ RTAX_BRD = 0x7
+ RTAX_DST = 0x0
+ RTAX_GATEWAY = 0x1
+ RTAX_GENMASK = 0x3
+ RTAX_IFA = 0x5
+ RTAX_IFP = 0x4
+ RTAX_MAX = 0x8
+ RTAX_NETMASK = 0x2
+ RTA_AUTHOR = 0x40
+ RTA_BRD = 0x80
+ RTA_DOWNSTREAM = 0x100
+ RTA_DST = 0x1
+ RTA_GATEWAY = 0x2
+ RTA_GENMASK = 0x8
+ RTA_IFA = 0x20
+ RTA_IFP = 0x10
+ RTA_NETMASK = 0x4
+ RTC_IA64 = 0x3
+ RTC_POWER = 0x1
+ RTC_POWER_PC = 0x2
+ RTF_ACTIVE_DGD = 0x1000000
+ RTF_BCE = 0x80000
+ RTF_BLACKHOLE = 0x1000
+ RTF_BROADCAST = 0x400000
+ RTF_BUL = 0x2000
+ RTF_CLONE = 0x10000
+ RTF_CLONED = 0x20000
+ RTF_CLONING = 0x100
+ RTF_DONE = 0x40
+ RTF_DYNAMIC = 0x10
+ RTF_FREE_IN_PROG = 0x4000000
+ RTF_GATEWAY = 0x2
+ RTF_HOST = 0x4
+ RTF_LLINFO = 0x400
+ RTF_LOCAL = 0x200000
+ RTF_MASK = 0x80
+ RTF_MODIFIED = 0x20
+ RTF_MULTICAST = 0x800000
+ RTF_PERMANENT6 = 0x8000000
+ RTF_PINNED = 0x100000
+ RTF_PROTO1 = 0x8000
+ RTF_PROTO2 = 0x4000
+ RTF_PROTO3 = 0x40000
+ RTF_REJECT = 0x8
+ RTF_SMALLMTU = 0x40000
+ RTF_STATIC = 0x800
+ RTF_STOPSRCH = 0x2000000
+ RTF_UNREACHABLE = 0x10000000
+ RTF_UP = 0x1
+ RTF_XRESOLVE = 0x200
+ RTM_ADD = 0x1
+ RTM_CHANGE = 0x3
+ RTM_DELADDR = 0xd
+ RTM_DELETE = 0x2
+ RTM_EXPIRE = 0xf
+ RTM_GET = 0x4
+ RTM_GETNEXT = 0x11
+ RTM_IFINFO = 0xe
+ RTM_LOCK = 0x8
+ RTM_LOSING = 0x5
+ RTM_MISS = 0x7
+ RTM_NEWADDR = 0xc
+ RTM_OLDADD = 0x9
+ RTM_OLDDEL = 0xa
+ RTM_REDIRECT = 0x6
+ RTM_RESOLVE = 0xb
+ RTM_RTLOST = 0x10
+ RTM_RTTUNIT = 0xf4240
+ RTM_SAMEADDR = 0x12
+ RTM_SET = 0x13
+ RTM_VERSION = 0x2
+ RTM_VERSION_GR = 0x4
+ RTM_VERSION_GR_COMPAT = 0x3
+ RTM_VERSION_POLICY = 0x5
+ RTM_VERSION_POLICY_EXT = 0x6
+ RTM_VERSION_POLICY_PRFN = 0x7
+ RTV_EXPIRE = 0x4
+ RTV_HOPCOUNT = 0x2
+ RTV_MTU = 0x1
+ RTV_RPIPE = 0x8
+ RTV_RTT = 0x40
+ RTV_RTTVAR = 0x80
+ RTV_SPIPE = 0x10
+ RTV_SSTHRESH = 0x20
+ RUSAGE_CHILDREN = -0x1
+ RUSAGE_SELF = 0x0
+ RUSAGE_THREAD = 0x1
+ SCM_RIGHTS = 0x1
+ SHUT_RD = 0x0
+ SHUT_RDWR = 0x2
+ SHUT_WR = 0x1
+ SIGMAX64 = 0xff
+ SIGQUEUE_MAX = 0x20
+ SIOCADDIFVIPA = 0x20006942
+ SIOCADDMTU = -0x7ffb9690
+ SIOCADDMULTI = -0x7fdf96cf
+ SIOCADDNETID = -0x7fd796a9
+ SIOCADDRT = -0x7fcf8df6
+ SIOCAIFADDR = -0x7fbf96e6
+ SIOCATMARK = 0x40047307
+ SIOCDARP = -0x7fb396e0
+ SIOCDELIFVIPA = 0x20006943
+ SIOCDELMTU = -0x7ffb968f
+ SIOCDELMULTI = -0x7fdf96ce
+ SIOCDELPMTU = -0x7fd78ff6
+ SIOCDELRT = -0x7fcf8df5
+ SIOCDIFADDR = -0x7fd796e7
+ SIOCDNETOPT = -0x3ffe9680
+ SIOCDX25XLATE = -0x7fd7969b
+ SIOCFIFADDR = -0x7fdf966d
+ SIOCGARP = -0x3fb396da
+ SIOCGETMTUS = 0x2000696f
+ SIOCGETSGCNT = -0x3feb8acc
+ SIOCGETVIFCNT = -0x3feb8acd
+ SIOCGHIWAT = 0x40047301
+ SIOCGIFADDR = -0x3fd796df
+ SIOCGIFADDRS = 0x2000698c
+ SIOCGIFBAUDRATE = -0x3fd79693
+ SIOCGIFBRDADDR = -0x3fd796dd
+ SIOCGIFCONF = -0x3ff796bb
+ SIOCGIFCONFGLOB = -0x3ff79670
+ SIOCGIFDSTADDR = -0x3fd796de
+ SIOCGIFFLAGS = -0x3fd796ef
+ SIOCGIFGIDLIST = 0x20006968
+ SIOCGIFHWADDR = -0x3fab966b
+ SIOCGIFMETRIC = -0x3fd796e9
+ SIOCGIFMTU = -0x3fd796aa
+ SIOCGIFNETMASK = -0x3fd796db
+ SIOCGIFOPTIONS = -0x3fd796d6
+ SIOCGISNO = -0x3fd79695
+ SIOCGLOADF = -0x3ffb967e
+ SIOCGLOWAT = 0x40047303
+ SIOCGNETOPT = -0x3ffe96a5
+ SIOCGNETOPT1 = -0x3fdf967f
+ SIOCGNMTUS = 0x2000696e
+ SIOCGPGRP = 0x40047309
+ SIOCGSIZIFCONF = 0x4004696a
+ SIOCGSRCFILTER = -0x3fe796cb
+ SIOCGTUNEPHASE = -0x3ffb9676
+ SIOCGX25XLATE = -0x3fd7969c
+ SIOCIFATTACH = -0x7fdf9699
+ SIOCIFDETACH = -0x7fdf969a
+ SIOCIFGETPKEY = -0x7fdf969b
+ SIOCIF_ATM_DARP = -0x7fdf9683
+ SIOCIF_ATM_DUMPARP = -0x7fdf9685
+ SIOCIF_ATM_GARP = -0x7fdf9682
+ SIOCIF_ATM_IDLE = -0x7fdf9686
+ SIOCIF_ATM_SARP = -0x7fdf9681
+ SIOCIF_ATM_SNMPARP = -0x7fdf9687
+ SIOCIF_ATM_SVC = -0x7fdf9684
+ SIOCIF_ATM_UBR = -0x7fdf9688
+ SIOCIF_DEVHEALTH = -0x7ffb966c
+ SIOCIF_IB_ARP_INCOMP = -0x7fdf9677
+ SIOCIF_IB_ARP_TIMER = -0x7fdf9678
+ SIOCIF_IB_CLEAR_PINFO = -0x3fdf966f
+ SIOCIF_IB_DEL_ARP = -0x7fdf967f
+ SIOCIF_IB_DEL_PINFO = -0x3fdf9670
+ SIOCIF_IB_DUMP_ARP = -0x7fdf9680
+ SIOCIF_IB_GET_ARP = -0x7fdf967e
+ SIOCIF_IB_GET_INFO = -0x3f879675
+ SIOCIF_IB_GET_STATS = -0x3f879672
+ SIOCIF_IB_NOTIFY_ADDR_REM = -0x3f87966a
+ SIOCIF_IB_RESET_STATS = -0x3f879671
+ SIOCIF_IB_RESIZE_CQ = -0x7fdf9679
+ SIOCIF_IB_SET_ARP = -0x7fdf967d
+ SIOCIF_IB_SET_PKEY = -0x7fdf967c
+ SIOCIF_IB_SET_PORT = -0x7fdf967b
+ SIOCIF_IB_SET_QKEY = -0x7fdf9676
+ SIOCIF_IB_SET_QSIZE = -0x7fdf967a
+ SIOCLISTIFVIPA = 0x20006944
+ SIOCSARP = -0x7fb396e2
+ SIOCSHIWAT = 0x80047300
+ SIOCSIFADDR = -0x7fd796f4
+ SIOCSIFADDRORI = -0x7fdb9673
+ SIOCSIFBRDADDR = -0x7fd796ed
+ SIOCSIFDSTADDR = -0x7fd796f2
+ SIOCSIFFLAGS = -0x7fd796f0
+ SIOCSIFGIDLIST = 0x20006969
+ SIOCSIFMETRIC = -0x7fd796e8
+ SIOCSIFMTU = -0x7fd796a8
+ SIOCSIFNETDUMP = -0x7fd796e4
+ SIOCSIFNETMASK = -0x7fd796ea
+ SIOCSIFOPTIONS = -0x7fd796d7
+ SIOCSIFSUBCHAN = -0x7fd796e5
+ SIOCSISNO = -0x7fd79694
+ SIOCSLOADF = -0x3ffb967d
+ SIOCSLOWAT = 0x80047302
+ SIOCSNETOPT = -0x7ffe96a6
+ SIOCSPGRP = 0x80047308
+ SIOCSX25XLATE = -0x7fd7969d
+ SOCK_CONN_DGRAM = 0x6
+ SOCK_DGRAM = 0x2
+ SOCK_RAW = 0x3
+ SOCK_RDM = 0x4
+ SOCK_SEQPACKET = 0x5
+ SOCK_STREAM = 0x1
+ SOL_SOCKET = 0xffff
+ SOMAXCONN = 0x400
+ SO_ACCEPTCONN = 0x2
+ SO_AUDIT = 0x8000
+ SO_BROADCAST = 0x20
+ SO_CKSUMRECV = 0x800
+ SO_DEBUG = 0x1
+ SO_DONTROUTE = 0x10
+ SO_ERROR = 0x1007
+ SO_KEEPALIVE = 0x8
+ SO_KERNACCEPT = 0x2000
+ SO_LINGER = 0x80
+ SO_NOMULTIPATH = 0x4000
+ SO_NOREUSEADDR = 0x1000
+ SO_OOBINLINE = 0x100
+ SO_PEERID = 0x1009
+ SO_RCVBUF = 0x1002
+ SO_RCVLOWAT = 0x1004
+ SO_RCVTIMEO = 0x1006
+ SO_REUSEADDR = 0x4
+ SO_REUSEPORT = 0x200
+ SO_SNDBUF = 0x1001
+ SO_SNDLOWAT = 0x1003
+ SO_SNDTIMEO = 0x1005
+ SO_TIMESTAMPNS = 0x100a
+ SO_TYPE = 0x1008
+ SO_USELOOPBACK = 0x40
+ SO_USE_IFBUFS = 0x400
+ S_BANDURG = 0x400
+ S_EMODFMT = 0x3c000000
+ S_ENFMT = 0x400
+ S_ERROR = 0x100
+ S_HANGUP = 0x200
+ S_HIPRI = 0x2
+ S_ICRYPTO = 0x80000
+ S_IEXEC = 0x40
+ S_IFBLK = 0x6000
+ S_IFCHR = 0x2000
+ S_IFDIR = 0x4000
+ S_IFIFO = 0x1000
+ S_IFJOURNAL = 0x10000
+ S_IFLNK = 0xa000
+ S_IFMPX = 0x2200
+ S_IFMT = 0xf000
+ S_IFPDIR = 0x4000000
+ S_IFPSDIR = 0x8000000
+ S_IFPSSDIR = 0xc000000
+ S_IFREG = 0x8000
+ S_IFSOCK = 0xc000
+ S_IFSYSEA = 0x30000000
+ S_INPUT = 0x1
+ S_IREAD = 0x100
+ S_IRGRP = 0x20
+ S_IROTH = 0x4
+ S_IRUSR = 0x100
+ S_IRWXG = 0x38
+ S_IRWXO = 0x7
+ S_IRWXU = 0x1c0
+ S_ISGID = 0x400
+ S_ISUID = 0x800
+ S_ISVTX = 0x200
+ S_ITCB = 0x1000000
+ S_ITP = 0x800000
+ S_IWGRP = 0x10
+ S_IWOTH = 0x2
+ S_IWRITE = 0x80
+ S_IWUSR = 0x80
+ S_IXACL = 0x2000000
+ S_IXATTR = 0x40000
+ S_IXGRP = 0x8
+ S_IXINTERFACE = 0x100000
+ S_IXMOD = 0x40000000
+ S_IXOTH = 0x1
+ S_IXUSR = 0x40
+ S_MSG = 0x8
+ S_OUTPUT = 0x4
+ S_RDBAND = 0x20
+ S_RDNORM = 0x10
+ S_RESERVED1 = 0x20000
+ S_RESERVED2 = 0x200000
+ S_RESERVED3 = 0x400000
+ S_RESERVED4 = 0x80000000
+ S_RESFMT1 = 0x10000000
+ S_RESFMT10 = 0x34000000
+ S_RESFMT11 = 0x38000000
+ S_RESFMT12 = 0x3c000000
+ S_RESFMT2 = 0x14000000
+ S_RESFMT3 = 0x18000000
+ S_RESFMT4 = 0x1c000000
+ S_RESFMT5 = 0x20000000
+ S_RESFMT6 = 0x24000000
+ S_RESFMT7 = 0x28000000
+ S_RESFMT8 = 0x2c000000
+ S_WRBAND = 0x80
+ S_WRNORM = 0x40
+ TAB0 = 0x0
+ TAB1 = 0x400
+ TAB2 = 0x800
+ TAB3 = 0xc00
+ TABDLY = 0xc00
+ TCFLSH = 0x540c
+ TCGETA = 0x5405
+ TCGETS = 0x5401
+ TCIFLUSH = 0x0
+ TCIOFF = 0x2
+ TCIOFLUSH = 0x2
+ TCION = 0x3
+ TCOFLUSH = 0x1
+ TCOOFF = 0x0
+ TCOON = 0x1
+ TCP_24DAYS_WORTH_OF_SLOWTICKS = 0x3f4800
+ TCP_ACLADD = 0x23
+ TCP_ACLBIND = 0x26
+ TCP_ACLCLEAR = 0x22
+ TCP_ACLDEL = 0x24
+ TCP_ACLDENY = 0x8
+ TCP_ACLFLUSH = 0x21
+ TCP_ACLGID = 0x1
+ TCP_ACLLS = 0x25
+ TCP_ACLSUBNET = 0x4
+ TCP_ACLUID = 0x2
+ TCP_CWND_DF = 0x16
+ TCP_CWND_IF = 0x15
+ TCP_DELAY_ACK_FIN = 0x2
+ TCP_DELAY_ACK_SYN = 0x1
+ TCP_FASTNAME = 0x101080a
+ TCP_KEEPCNT = 0x13
+ TCP_KEEPIDLE = 0x11
+ TCP_KEEPINTVL = 0x12
+ TCP_LSPRIV = 0x29
+ TCP_LUID = 0x20
+ TCP_MAXBURST = 0x8
+ TCP_MAXDF = 0x64
+ TCP_MAXIF = 0x64
+ TCP_MAXSEG = 0x2
+ TCP_MAXWIN = 0xffff
+ TCP_MAXWINDOWSCALE = 0xe
+ TCP_MAX_SACK = 0x4
+ TCP_MSS = 0x5b4
+ TCP_NODELAY = 0x1
+ TCP_NODELAYACK = 0x14
+ TCP_NOREDUCE_CWND_EXIT_FRXMT = 0x19
+ TCP_NOREDUCE_CWND_IN_FRXMT = 0x18
+ TCP_NOTENTER_SSTART = 0x17
+ TCP_OPT = 0x19
+ TCP_RFC1323 = 0x4
+ TCP_SETPRIV = 0x27
+ TCP_STDURG = 0x10
+ TCP_TIMESTAMP_OPTLEN = 0xc
+ TCP_UNSETPRIV = 0x28
+ TCSAFLUSH = 0x2
+ TCSBRK = 0x5409
+ TCSETA = 0x5406
+ TCSETAF = 0x5408
+ TCSETAW = 0x5407
+ TCSETS = 0x5402
+ TCSETSF = 0x5404
+ TCSETSW = 0x5403
+ TCXONC = 0x540b
+ TIOC = 0x5400
+ TIOCCBRK = 0x2000747a
+ TIOCCDTR = 0x20007478
+ TIOCCONS = 0x80047462
+ TIOCEXCL = 0x2000740d
+ TIOCFLUSH = 0x80047410
+ TIOCGETC = 0x40067412
+ TIOCGETD = 0x40047400
+ TIOCGETP = 0x40067408
+ TIOCGLTC = 0x40067474
+ TIOCGPGRP = 0x40047477
+ TIOCGSID = 0x40047448
+ TIOCGSIZE = 0x40087468
+ TIOCGWINSZ = 0x40087468
+ TIOCHPCL = 0x20007402
+ TIOCLBIC = 0x8004747e
+ TIOCLBIS = 0x8004747f
+ TIOCLGET = 0x4004747c
+ TIOCLSET = 0x8004747d
+ TIOCMBIC = 0x8004746b
+ TIOCMBIS = 0x8004746c
+ TIOCMGET = 0x4004746a
+ TIOCMIWAIT = 0x80047464
+ TIOCMODG = 0x40047403
+ TIOCMODS = 0x80047404
+ TIOCMSET = 0x8004746d
+ TIOCM_CAR = 0x40
+ TIOCM_CD = 0x40
+ TIOCM_CTS = 0x20
+ TIOCM_DSR = 0x100
+ TIOCM_DTR = 0x2
+ TIOCM_LE = 0x1
+ TIOCM_RI = 0x80
+ TIOCM_RNG = 0x80
+ TIOCM_RTS = 0x4
+ TIOCM_SR = 0x10
+ TIOCM_ST = 0x8
+ TIOCNOTTY = 0x20007471
+ TIOCNXCL = 0x2000740e
+ TIOCOUTQ = 0x40047473
+ TIOCPKT = 0x80047470
+ TIOCPKT_DATA = 0x0
+ TIOCPKT_DOSTOP = 0x20
+ TIOCPKT_FLUSHREAD = 0x1
+ TIOCPKT_FLUSHWRITE = 0x2
+ TIOCPKT_NOSTOP = 0x10
+ TIOCPKT_START = 0x8
+ TIOCPKT_STOP = 0x4
+ TIOCREMOTE = 0x80047469
+ TIOCSBRK = 0x2000747b
+ TIOCSDTR = 0x20007479
+ TIOCSETC = 0x80067411
+ TIOCSETD = 0x80047401
+ TIOCSETN = 0x8006740a
+ TIOCSETP = 0x80067409
+ TIOCSLTC = 0x80067475
+ TIOCSPGRP = 0x80047476
+ TIOCSSIZE = 0x80087467
+ TIOCSTART = 0x2000746e
+ TIOCSTI = 0x80017472
+ TIOCSTOP = 0x2000746f
+ TIOCSWINSZ = 0x80087467
+ TIOCUCNTL = 0x80047466
+ TOSTOP = 0x10000
+ UTIME_NOW = -0x2
+ UTIME_OMIT = -0x3
+ VDISCRD = 0xc
+ VDSUSP = 0xa
+ VEOF = 0x4
+ VEOL = 0x5
+ VEOL2 = 0x6
+ VERASE = 0x2
+ VINTR = 0x0
+ VKILL = 0x3
+ VLNEXT = 0xe
+ VMIN = 0x4
+ VQUIT = 0x1
+ VREPRINT = 0xb
+ VSTART = 0x7
+ VSTOP = 0x8
+ VSTRT = 0x7
+ VSUSP = 0x9
+ VT0 = 0x0
+ VT1 = 0x8000
+ VTDELAY = 0x2000
+ VTDLY = 0x8000
+ VTIME = 0x5
+ VWERSE = 0xd
+ WPARSTART = 0x1
+ WPARSTOP = 0x2
+ WPARTTYNAME = "Global"
+ XCASE = 0x4
+ XTABS = 0xc00
+ _FDATAFLUSH = 0x2000000000
+)
+
+// Errors
+const (
+ E2BIG = syscall.Errno(0x7)
+ EACCES = syscall.Errno(0xd)
+ EADDRINUSE = syscall.Errno(0x43)
+ EADDRNOTAVAIL = syscall.Errno(0x44)
+ EAFNOSUPPORT = syscall.Errno(0x42)
+ EAGAIN = syscall.Errno(0xb)
+ EALREADY = syscall.Errno(0x38)
+ EBADF = syscall.Errno(0x9)
+ EBADMSG = syscall.Errno(0x78)
+ EBUSY = syscall.Errno(0x10)
+ ECANCELED = syscall.Errno(0x75)
+ ECHILD = syscall.Errno(0xa)
+ ECHRNG = syscall.Errno(0x25)
+ ECLONEME = syscall.Errno(0x52)
+ ECONNABORTED = syscall.Errno(0x48)
+ ECONNREFUSED = syscall.Errno(0x4f)
+ ECONNRESET = syscall.Errno(0x49)
+ ECORRUPT = syscall.Errno(0x59)
+ EDEADLK = syscall.Errno(0x2d)
+ EDESTADDREQ = syscall.Errno(0x3a)
+ EDESTADDRREQ = syscall.Errno(0x3a)
+ EDIST = syscall.Errno(0x35)
+ EDOM = syscall.Errno(0x21)
+ EDQUOT = syscall.Errno(0x58)
+ EEXIST = syscall.Errno(0x11)
+ EFAULT = syscall.Errno(0xe)
+ EFBIG = syscall.Errno(0x1b)
+ EFORMAT = syscall.Errno(0x30)
+ EHOSTDOWN = syscall.Errno(0x50)
+ EHOSTUNREACH = syscall.Errno(0x51)
+ EIDRM = syscall.Errno(0x24)
+ EILSEQ = syscall.Errno(0x74)
+ EINPROGRESS = syscall.Errno(0x37)
+ EINTR = syscall.Errno(0x4)
+ EINVAL = syscall.Errno(0x16)
+ EIO = syscall.Errno(0x5)
+ EISCONN = syscall.Errno(0x4b)
+ EISDIR = syscall.Errno(0x15)
+ EL2HLT = syscall.Errno(0x2c)
+ EL2NSYNC = syscall.Errno(0x26)
+ EL3HLT = syscall.Errno(0x27)
+ EL3RST = syscall.Errno(0x28)
+ ELNRNG = syscall.Errno(0x29)
+ ELOOP = syscall.Errno(0x55)
+ EMEDIA = syscall.Errno(0x6e)
+ EMFILE = syscall.Errno(0x18)
+ EMLINK = syscall.Errno(0x1f)
+ EMSGSIZE = syscall.Errno(0x3b)
+ EMULTIHOP = syscall.Errno(0x7d)
+ ENAMETOOLONG = syscall.Errno(0x56)
+ ENETDOWN = syscall.Errno(0x45)
+ ENETRESET = syscall.Errno(0x47)
+ ENETUNREACH = syscall.Errno(0x46)
+ ENFILE = syscall.Errno(0x17)
+ ENOATTR = syscall.Errno(0x70)
+ ENOBUFS = syscall.Errno(0x4a)
+ ENOCONNECT = syscall.Errno(0x32)
+ ENOCSI = syscall.Errno(0x2b)
+ ENODATA = syscall.Errno(0x7a)
+ ENODEV = syscall.Errno(0x13)
+ ENOENT = syscall.Errno(0x2)
+ ENOEXEC = syscall.Errno(0x8)
+ ENOLCK = syscall.Errno(0x31)
+ ENOLINK = syscall.Errno(0x7e)
+ ENOMEM = syscall.Errno(0xc)
+ ENOMSG = syscall.Errno(0x23)
+ ENOPROTOOPT = syscall.Errno(0x3d)
+ ENOSPC = syscall.Errno(0x1c)
+ ENOSR = syscall.Errno(0x76)
+ ENOSTR = syscall.Errno(0x7b)
+ ENOSYS = syscall.Errno(0x6d)
+ ENOTBLK = syscall.Errno(0xf)
+ ENOTCONN = syscall.Errno(0x4c)
+ ENOTDIR = syscall.Errno(0x14)
+ ENOTEMPTY = syscall.Errno(0x11)
+ ENOTREADY = syscall.Errno(0x2e)
+ ENOTRECOVERABLE = syscall.Errno(0x5e)
+ ENOTRUST = syscall.Errno(0x72)
+ ENOTSOCK = syscall.Errno(0x39)
+ ENOTSUP = syscall.Errno(0x7c)
+ ENOTTY = syscall.Errno(0x19)
+ ENXIO = syscall.Errno(0x6)
+ EOPNOTSUPP = syscall.Errno(0x40)
+ EOVERFLOW = syscall.Errno(0x7f)
+ EOWNERDEAD = syscall.Errno(0x5f)
+ EPERM = syscall.Errno(0x1)
+ EPFNOSUPPORT = syscall.Errno(0x41)
+ EPIPE = syscall.Errno(0x20)
+ EPROCLIM = syscall.Errno(0x53)
+ EPROTO = syscall.Errno(0x79)
+ EPROTONOSUPPORT = syscall.Errno(0x3e)
+ EPROTOTYPE = syscall.Errno(0x3c)
+ ERANGE = syscall.Errno(0x22)
+ EREMOTE = syscall.Errno(0x5d)
+ ERESTART = syscall.Errno(0x52)
+ EROFS = syscall.Errno(0x1e)
+ ESAD = syscall.Errno(0x71)
+ ESHUTDOWN = syscall.Errno(0x4d)
+ ESOCKTNOSUPPORT = syscall.Errno(0x3f)
+ ESOFT = syscall.Errno(0x6f)
+ ESPIPE = syscall.Errno(0x1d)
+ ESRCH = syscall.Errno(0x3)
+ ESTALE = syscall.Errno(0x34)
+ ESYSERROR = syscall.Errno(0x5a)
+ ETIME = syscall.Errno(0x77)
+ ETIMEDOUT = syscall.Errno(0x4e)
+ ETOOMANYREFS = syscall.Errno(0x73)
+ ETXTBSY = syscall.Errno(0x1a)
+ EUNATCH = syscall.Errno(0x2a)
+ EUSERS = syscall.Errno(0x54)
+ EWOULDBLOCK = syscall.Errno(0xb)
+ EWRPROTECT = syscall.Errno(0x2f)
+ EXDEV = syscall.Errno(0x12)
+)
+
+// Signals
+const (
+ SIGABRT = syscall.Signal(0x6)
+ SIGAIO = syscall.Signal(0x17)
+ SIGALRM = syscall.Signal(0xe)
+ SIGALRM1 = syscall.Signal(0x26)
+ SIGBUS = syscall.Signal(0xa)
+ SIGCAPI = syscall.Signal(0x31)
+ SIGCHLD = syscall.Signal(0x14)
+ SIGCLD = syscall.Signal(0x14)
+ SIGCONT = syscall.Signal(0x13)
+ SIGCPUFAIL = syscall.Signal(0x3b)
+ SIGDANGER = syscall.Signal(0x21)
+ SIGEMT = syscall.Signal(0x7)
+ SIGFPE = syscall.Signal(0x8)
+ SIGGRANT = syscall.Signal(0x3c)
+ SIGHUP = syscall.Signal(0x1)
+ SIGILL = syscall.Signal(0x4)
+ SIGINT = syscall.Signal(0x2)
+ SIGIO = syscall.Signal(0x17)
+ SIGIOINT = syscall.Signal(0x10)
+ SIGIOT = syscall.Signal(0x6)
+ SIGKAP = syscall.Signal(0x3c)
+ SIGKILL = syscall.Signal(0x9)
+ SIGLOST = syscall.Signal(0x6)
+ SIGMAX = syscall.Signal(0x3f)
+ SIGMAX32 = syscall.Signal(0x3f)
+ SIGMIGRATE = syscall.Signal(0x23)
+ SIGMSG = syscall.Signal(0x1b)
+ SIGPIPE = syscall.Signal(0xd)
+ SIGPOLL = syscall.Signal(0x17)
+ SIGPRE = syscall.Signal(0x24)
+ SIGPROF = syscall.Signal(0x20)
+ SIGPTY = syscall.Signal(0x17)
+ SIGPWR = syscall.Signal(0x1d)
+ SIGQUIT = syscall.Signal(0x3)
+ SIGRECONFIG = syscall.Signal(0x3a)
+ SIGRETRACT = syscall.Signal(0x3d)
+ SIGSAK = syscall.Signal(0x3f)
+ SIGSEGV = syscall.Signal(0xb)
+ SIGSOUND = syscall.Signal(0x3e)
+ SIGSTOP = syscall.Signal(0x11)
+ SIGSYS = syscall.Signal(0xc)
+ SIGSYSERROR = syscall.Signal(0x30)
+ SIGTALRM = syscall.Signal(0x26)
+ SIGTERM = syscall.Signal(0xf)
+ SIGTRAP = syscall.Signal(0x5)
+ SIGTSTP = syscall.Signal(0x12)
+ SIGTTIN = syscall.Signal(0x15)
+ SIGTTOU = syscall.Signal(0x16)
+ SIGURG = syscall.Signal(0x10)
+ SIGUSR1 = syscall.Signal(0x1e)
+ SIGUSR2 = syscall.Signal(0x1f)
+ SIGVIRT = syscall.Signal(0x25)
+ SIGVTALRM = syscall.Signal(0x22)
+ SIGWAITING = syscall.Signal(0x27)
+ SIGWINCH = syscall.Signal(0x1c)
+ SIGXCPU = syscall.Signal(0x18)
+ SIGXFSZ = syscall.Signal(0x19)
+)
+
+// Error table
+var errorList = [...]struct {
+ num syscall.Errno
+ name string
+ desc string
+}{
+ {1, "EPERM", "not owner"},
+ {2, "ENOENT", "no such file or directory"},
+ {3, "ESRCH", "no such process"},
+ {4, "EINTR", "interrupted system call"},
+ {5, "EIO", "I/O error"},
+ {6, "ENXIO", "no such device or address"},
+ {7, "E2BIG", "arg list too long"},
+ {8, "ENOEXEC", "exec format error"},
+ {9, "EBADF", "bad file number"},
+ {10, "ECHILD", "no child processes"},
+ {11, "EWOULDBLOCK", "resource temporarily unavailable"},
+ {12, "ENOMEM", "not enough space"},
+ {13, "EACCES", "permission denied"},
+ {14, "EFAULT", "bad address"},
+ {15, "ENOTBLK", "block device required"},
+ {16, "EBUSY", "device busy"},
+ {17, "ENOTEMPTY", "file exists"},
+ {18, "EXDEV", "cross-device link"},
+ {19, "ENODEV", "no such device"},
+ {20, "ENOTDIR", "not a directory"},
+ {21, "EISDIR", "is a directory"},
+ {22, "EINVAL", "invalid argument"},
+ {23, "ENFILE", "file table overflow"},
+ {24, "EMFILE", "too many open files"},
+ {25, "ENOTTY", "not a typewriter"},
+ {26, "ETXTBSY", "text file busy"},
+ {27, "EFBIG", "file too large"},
+ {28, "ENOSPC", "no space left on device"},
+ {29, "ESPIPE", "illegal seek"},
+ {30, "EROFS", "read-only file system"},
+ {31, "EMLINK", "too many links"},
+ {32, "EPIPE", "broken pipe"},
+ {33, "EDOM", "argument out of domain"},
+ {34, "ERANGE", "result too large"},
+ {35, "ENOMSG", "no message of desired type"},
+ {36, "EIDRM", "identifier removed"},
+ {37, "ECHRNG", "channel number out of range"},
+ {38, "EL2NSYNC", "level 2 not synchronized"},
+ {39, "EL3HLT", "level 3 halted"},
+ {40, "EL3RST", "level 3 reset"},
+ {41, "ELNRNG", "link number out of range"},
+ {42, "EUNATCH", "protocol driver not attached"},
+ {43, "ENOCSI", "no CSI structure available"},
+ {44, "EL2HLT", "level 2 halted"},
+ {45, "EDEADLK", "deadlock condition if locked"},
+ {46, "ENOTREADY", "device not ready"},
+ {47, "EWRPROTECT", "write-protected media"},
+ {48, "EFORMAT", "unformatted or incompatible media"},
+ {49, "ENOLCK", "no locks available"},
+ {50, "ENOCONNECT", "cannot Establish Connection"},
+ {52, "ESTALE", "missing file or filesystem"},
+ {53, "EDIST", "requests blocked by Administrator"},
+ {55, "EINPROGRESS", "operation now in progress"},
+ {56, "EALREADY", "operation already in progress"},
+ {57, "ENOTSOCK", "socket operation on non-socket"},
+ {58, "EDESTADDREQ", "destination address required"},
+ {59, "EMSGSIZE", "message too long"},
+ {60, "EPROTOTYPE", "protocol wrong type for socket"},
+ {61, "ENOPROTOOPT", "protocol not available"},
+ {62, "EPROTONOSUPPORT", "protocol not supported"},
+ {63, "ESOCKTNOSUPPORT", "socket type not supported"},
+ {64, "EOPNOTSUPP", "operation not supported on socket"},
+ {65, "EPFNOSUPPORT", "protocol family not supported"},
+ {66, "EAFNOSUPPORT", "addr family not supported by protocol"},
+ {67, "EADDRINUSE", "address already in use"},
+ {68, "EADDRNOTAVAIL", "can't assign requested address"},
+ {69, "ENETDOWN", "network is down"},
+ {70, "ENETUNREACH", "network is unreachable"},
+ {71, "ENETRESET", "network dropped connection on reset"},
+ {72, "ECONNABORTED", "software caused connection abort"},
+ {73, "ECONNRESET", "connection reset by peer"},
+ {74, "ENOBUFS", "no buffer space available"},
+ {75, "EISCONN", "socket is already connected"},
+ {76, "ENOTCONN", "socket is not connected"},
+ {77, "ESHUTDOWN", "can't send after socket shutdown"},
+ {78, "ETIMEDOUT", "connection timed out"},
+ {79, "ECONNREFUSED", "connection refused"},
+ {80, "EHOSTDOWN", "host is down"},
+ {81, "EHOSTUNREACH", "no route to host"},
+ {82, "ERESTART", "restart the system call"},
+ {83, "EPROCLIM", "too many processes"},
+ {84, "EUSERS", "too many users"},
+ {85, "ELOOP", "too many levels of symbolic links"},
+ {86, "ENAMETOOLONG", "file name too long"},
+ {88, "EDQUOT", "disk quota exceeded"},
+ {89, "ECORRUPT", "invalid file system control data detected"},
+ {90, "ESYSERROR", "for future use "},
+ {93, "EREMOTE", "item is not local to host"},
+ {94, "ENOTRECOVERABLE", "state not recoverable "},
+ {95, "EOWNERDEAD", "previous owner died "},
+ {109, "ENOSYS", "function not implemented"},
+ {110, "EMEDIA", "media surface error"},
+ {111, "ESOFT", "I/O completed, but needs relocation"},
+ {112, "ENOATTR", "no attribute found"},
+ {113, "ESAD", "security Authentication Denied"},
+ {114, "ENOTRUST", "not a Trusted Program"},
+ {115, "ETOOMANYREFS", "too many references: can't splice"},
+ {116, "EILSEQ", "invalid wide character"},
+ {117, "ECANCELED", "asynchronous I/O cancelled"},
+ {118, "ENOSR", "out of STREAMS resources"},
+ {119, "ETIME", "system call timed out"},
+ {120, "EBADMSG", "next message has wrong type"},
+ {121, "EPROTO", "error in protocol"},
+ {122, "ENODATA", "no message on stream head read q"},
+ {123, "ENOSTR", "fd not associated with a stream"},
+ {124, "ENOTSUP", "unsupported attribute value"},
+ {125, "EMULTIHOP", "multihop is not allowed"},
+ {126, "ENOLINK", "the server link has been severed"},
+ {127, "EOVERFLOW", "value too large to be stored in data type"},
+}
+
+// Signal table
+var signalList = [...]struct {
+ num syscall.Signal
+ name string
+ desc string
+}{
+ {1, "SIGHUP", "hangup"},
+ {2, "SIGINT", "interrupt"},
+ {3, "SIGQUIT", "quit"},
+ {4, "SIGILL", "illegal instruction"},
+ {5, "SIGTRAP", "trace/BPT trap"},
+ {6, "SIGIOT", "IOT/Abort trap"},
+ {7, "SIGEMT", "EMT trap"},
+ {8, "SIGFPE", "floating point exception"},
+ {9, "SIGKILL", "killed"},
+ {10, "SIGBUS", "bus error"},
+ {11, "SIGSEGV", "segmentation fault"},
+ {12, "SIGSYS", "bad system call"},
+ {13, "SIGPIPE", "broken pipe"},
+ {14, "SIGALRM", "alarm clock"},
+ {15, "SIGTERM", "terminated"},
+ {16, "SIGURG", "urgent I/O condition"},
+ {17, "SIGSTOP", "stopped (signal)"},
+ {18, "SIGTSTP", "stopped"},
+ {19, "SIGCONT", "continued"},
+ {20, "SIGCHLD", "child exited"},
+ {21, "SIGTTIN", "stopped (tty input)"},
+ {22, "SIGTTOU", "stopped (tty output)"},
+ {23, "SIGIO", "I/O possible/complete"},
+ {24, "SIGXCPU", "cputime limit exceeded"},
+ {25, "SIGXFSZ", "filesize limit exceeded"},
+ {27, "SIGMSG", "input device data"},
+ {28, "SIGWINCH", "window size changes"},
+ {29, "SIGPWR", "power-failure"},
+ {30, "SIGUSR1", "user defined signal 1"},
+ {31, "SIGUSR2", "user defined signal 2"},
+ {32, "SIGPROF", "profiling timer expired"},
+ {33, "SIGDANGER", "paging space low"},
+ {34, "SIGVTALRM", "virtual timer expired"},
+ {35, "SIGMIGRATE", "signal 35"},
+ {36, "SIGPRE", "signal 36"},
+ {37, "SIGVIRT", "signal 37"},
+ {38, "SIGTALRM", "signal 38"},
+ {39, "SIGWAITING", "signal 39"},
+ {48, "SIGSYSERROR", "signal 48"},
+ {49, "SIGCAPI", "signal 49"},
+ {58, "SIGRECONFIG", "signal 58"},
+ {59, "SIGCPUFAIL", "CPU Failure Predicted"},
+ {60, "SIGKAP", "monitor mode granted"},
+ {61, "SIGRETRACT", "monitor mode retracted"},
+ {62, "SIGSOUND", "sound completed"},
+ {63, "SIGSAK", "secure attention"},
+}
diff --git a/vendor/golang.org/x/sys/unix/zerrors_aix_ppc64.go b/vendor/golang.org/x/sys/unix/zerrors_aix_ppc64.go
new file mode 100644
index 0000000000000000000000000000000000000000..ed04fd1b77db90de9cb95d6dea68a28811215bc8
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zerrors_aix_ppc64.go
@@ -0,0 +1,1373 @@
+// mkerrors.sh -maix64
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build ppc64,aix
+
+// Created by cgo -godefs - DO NOT EDIT
+// cgo -godefs -- -maix64 _const.go
+
+package unix
+
+import "syscall"
+
+const (
+ AF_APPLETALK = 0x10
+ AF_BYPASS = 0x19
+ AF_CCITT = 0xa
+ AF_CHAOS = 0x5
+ AF_DATAKIT = 0x9
+ AF_DECnet = 0xc
+ AF_DLI = 0xd
+ AF_ECMA = 0x8
+ AF_HYLINK = 0xf
+ AF_IMPLINK = 0x3
+ AF_INET = 0x2
+ AF_INET6 = 0x18
+ AF_INTF = 0x14
+ AF_ISO = 0x7
+ AF_LAT = 0xe
+ AF_LINK = 0x12
+ AF_LOCAL = 0x1
+ AF_MAX = 0x1e
+ AF_NDD = 0x17
+ AF_NETWARE = 0x16
+ AF_NS = 0x6
+ AF_OSI = 0x7
+ AF_PUP = 0x4
+ AF_RIF = 0x15
+ AF_ROUTE = 0x11
+ AF_SNA = 0xb
+ AF_UNIX = 0x1
+ AF_UNSPEC = 0x0
+ ALTWERASE = 0x400000
+ ARPHRD_802_3 = 0x6
+ ARPHRD_802_5 = 0x6
+ ARPHRD_ETHER = 0x1
+ ARPHRD_FDDI = 0x1
+ B0 = 0x0
+ B110 = 0x3
+ B1200 = 0x9
+ B134 = 0x4
+ B150 = 0x5
+ B1800 = 0xa
+ B19200 = 0xe
+ B200 = 0x6
+ B2400 = 0xb
+ B300 = 0x7
+ B38400 = 0xf
+ B4800 = 0xc
+ B50 = 0x1
+ B600 = 0x8
+ B75 = 0x2
+ B9600 = 0xd
+ BRKINT = 0x2
+ BS0 = 0x0
+ BS1 = 0x1000
+ BSDLY = 0x1000
+ CAP_AACCT = 0x6
+ CAP_ARM_APPLICATION = 0x5
+ CAP_BYPASS_RAC_VMM = 0x3
+ CAP_CLEAR = 0x0
+ CAP_CREDENTIALS = 0x7
+ CAP_EFFECTIVE = 0x1
+ CAP_EWLM_AGENT = 0x4
+ CAP_INHERITABLE = 0x2
+ CAP_MAXIMUM = 0x7
+ CAP_NUMA_ATTACH = 0x2
+ CAP_PERMITTED = 0x3
+ CAP_PROPAGATE = 0x1
+ CAP_PROPOGATE = 0x1
+ CAP_SET = 0x1
+ CBAUD = 0xf
+ CFLUSH = 0xf
+ CIBAUD = 0xf0000
+ CLOCAL = 0x800
+ CLOCK_MONOTONIC = 0xa
+ CLOCK_PROCESS_CPUTIME_ID = 0xb
+ CLOCK_REALTIME = 0x9
+ CLOCK_THREAD_CPUTIME_ID = 0xc
+ CR0 = 0x0
+ CR1 = 0x100
+ CR2 = 0x200
+ CR3 = 0x300
+ CRDLY = 0x300
+ CREAD = 0x80
+ CS5 = 0x0
+ CS6 = 0x10
+ CS7 = 0x20
+ CS8 = 0x30
+ CSIOCGIFCONF = -0x3fef96dc
+ CSIZE = 0x30
+ CSMAP_DIR = "/usr/lib/nls/csmap/"
+ CSTART = '\021'
+ CSTOP = '\023'
+ CSTOPB = 0x40
+ CSUSP = 0x1a
+ ECHO = 0x8
+ ECHOCTL = 0x20000
+ ECHOE = 0x10
+ ECHOK = 0x20
+ ECHOKE = 0x80000
+ ECHONL = 0x40
+ ECHOPRT = 0x40000
+ ECH_ICMPID = 0x2
+ ETHERNET_CSMACD = 0x6
+ EVENP = 0x80
+ EXCONTINUE = 0x0
+ EXDLOK = 0x3
+ EXIO = 0x2
+ EXPGIO = 0x0
+ EXRESUME = 0x2
+ EXRETURN = 0x1
+ EXSIG = 0x4
+ EXTA = 0xe
+ EXTB = 0xf
+ EXTRAP = 0x1
+ EYEC_RTENTRYA = 0x257274656e747241
+ EYEC_RTENTRYF = 0x257274656e747246
+ E_ACC = 0x0
+ FD_CLOEXEC = 0x1
+ FD_SETSIZE = 0xfffe
+ FF0 = 0x0
+ FF1 = 0x2000
+ FFDLY = 0x2000
+ FLUSHBAND = 0x40
+ FLUSHLOW = 0x8
+ FLUSHO = 0x100000
+ FLUSHR = 0x1
+ FLUSHRW = 0x3
+ FLUSHW = 0x2
+ F_CLOSEM = 0xa
+ F_DUP2FD = 0xe
+ F_DUPFD = 0x0
+ F_GETFD = 0x1
+ F_GETFL = 0x3
+ F_GETLK = 0xb
+ F_GETLK64 = 0xb
+ F_GETOWN = 0x8
+ F_LOCK = 0x1
+ F_OK = 0x0
+ F_RDLCK = 0x1
+ F_SETFD = 0x2
+ F_SETFL = 0x4
+ F_SETLK = 0xc
+ F_SETLK64 = 0xc
+ F_SETLKW = 0xd
+ F_SETLKW64 = 0xd
+ F_SETOWN = 0x9
+ F_TEST = 0x3
+ F_TLOCK = 0x2
+ F_TSTLK = 0xf
+ F_ULOCK = 0x0
+ F_UNLCK = 0x3
+ F_WRLCK = 0x2
+ HUPCL = 0x400
+ IBSHIFT = 0x10
+ ICANON = 0x2
+ ICMP6_FILTER = 0x26
+ ICMP6_SEC_SEND_DEL = 0x46
+ ICMP6_SEC_SEND_GET = 0x47
+ ICMP6_SEC_SEND_SET = 0x44
+ ICMP6_SEC_SEND_SET_CGA_ADDR = 0x45
+ ICRNL = 0x100
+ IEXTEN = 0x200000
+ IFA_FIRSTALIAS = 0x2000
+ IFA_ROUTE = 0x1
+ IFF_64BIT = 0x4000000
+ IFF_ALLCAST = 0x20000
+ IFF_ALLMULTI = 0x200
+ IFF_BPF = 0x8000000
+ IFF_BRIDGE = 0x40000
+ IFF_BROADCAST = 0x2
+ IFF_CANTCHANGE = 0x80c52
+ IFF_CHECKSUM_OFFLOAD = 0x10000000
+ IFF_D1 = 0x8000
+ IFF_D2 = 0x4000
+ IFF_D3 = 0x2000
+ IFF_D4 = 0x1000
+ IFF_DEBUG = 0x4
+ IFF_DEVHEALTH = 0x4000
+ IFF_DO_HW_LOOPBACK = 0x10000
+ IFF_GROUP_ROUTING = 0x2000000
+ IFF_IFBUFMGT = 0x800000
+ IFF_LINK0 = 0x100000
+ IFF_LINK1 = 0x200000
+ IFF_LINK2 = 0x400000
+ IFF_LOOPBACK = 0x8
+ IFF_MULTICAST = 0x80000
+ IFF_NOARP = 0x80
+ IFF_NOECHO = 0x800
+ IFF_NOTRAILERS = 0x20
+ IFF_OACTIVE = 0x400
+ IFF_POINTOPOINT = 0x10
+ IFF_PROMISC = 0x100
+ IFF_PSEG = 0x40000000
+ IFF_RUNNING = 0x40
+ IFF_SIMPLEX = 0x800
+ IFF_SNAP = 0x8000
+ IFF_TCP_DISABLE_CKSUM = 0x20000000
+ IFF_TCP_NOCKSUM = 0x1000000
+ IFF_UP = 0x1
+ IFF_VIPA = 0x80000000
+ IFNAMSIZ = 0x10
+ IFO_FLUSH = 0x1
+ IFT_1822 = 0x2
+ IFT_AAL5 = 0x31
+ IFT_ARCNET = 0x23
+ IFT_ARCNETPLUS = 0x24
+ IFT_ATM = 0x25
+ IFT_CEPT = 0x13
+ IFT_CLUSTER = 0x3e
+ IFT_DS3 = 0x1e
+ IFT_EON = 0x19
+ IFT_ETHER = 0x6
+ IFT_FCS = 0x3a
+ IFT_FDDI = 0xf
+ IFT_FRELAY = 0x20
+ IFT_FRELAYDCE = 0x2c
+ IFT_GIFTUNNEL = 0x3c
+ IFT_HDH1822 = 0x3
+ IFT_HF = 0x3d
+ IFT_HIPPI = 0x2f
+ IFT_HSSI = 0x2e
+ IFT_HY = 0xe
+ IFT_IB = 0xc7
+ IFT_ISDNBASIC = 0x14
+ IFT_ISDNPRIMARY = 0x15
+ IFT_ISO88022LLC = 0x29
+ IFT_ISO88023 = 0x7
+ IFT_ISO88024 = 0x8
+ IFT_ISO88025 = 0x9
+ IFT_ISO88026 = 0xa
+ IFT_LAPB = 0x10
+ IFT_LOCALTALK = 0x2a
+ IFT_LOOP = 0x18
+ IFT_MIOX25 = 0x26
+ IFT_MODEM = 0x30
+ IFT_NSIP = 0x1b
+ IFT_OTHER = 0x1
+ IFT_P10 = 0xc
+ IFT_P80 = 0xd
+ IFT_PARA = 0x22
+ IFT_PPP = 0x17
+ IFT_PROPMUX = 0x36
+ IFT_PROPVIRTUAL = 0x35
+ IFT_PTPSERIAL = 0x16
+ IFT_RS232 = 0x21
+ IFT_SDLC = 0x11
+ IFT_SIP = 0x1f
+ IFT_SLIP = 0x1c
+ IFT_SMDSDXI = 0x2b
+ IFT_SMDSICIP = 0x34
+ IFT_SN = 0x38
+ IFT_SONET = 0x27
+ IFT_SONETPATH = 0x32
+ IFT_SONETVT = 0x33
+ IFT_SP = 0x39
+ IFT_STARLAN = 0xb
+ IFT_T1 = 0x12
+ IFT_TUNNEL = 0x3b
+ IFT_ULTRA = 0x1d
+ IFT_V35 = 0x2d
+ IFT_VIPA = 0x37
+ IFT_X25 = 0x5
+ IFT_X25DDN = 0x4
+ IFT_X25PLE = 0x28
+ IFT_XETHER = 0x1a
+ IGNBRK = 0x1
+ IGNCR = 0x80
+ IGNPAR = 0x4
+ IMAXBEL = 0x10000
+ INLCR = 0x40
+ INPCK = 0x10
+ IN_CLASSA_HOST = 0xffffff
+ IN_CLASSA_MAX = 0x80
+ IN_CLASSA_NET = 0xff000000
+ IN_CLASSA_NSHIFT = 0x18
+ IN_CLASSB_HOST = 0xffff
+ IN_CLASSB_MAX = 0x10000
+ IN_CLASSB_NET = 0xffff0000
+ IN_CLASSB_NSHIFT = 0x10
+ IN_CLASSC_HOST = 0xff
+ IN_CLASSC_NET = 0xffffff00
+ IN_CLASSC_NSHIFT = 0x8
+ IN_CLASSD_HOST = 0xfffffff
+ IN_CLASSD_NET = 0xf0000000
+ IN_CLASSD_NSHIFT = 0x1c
+ IN_LOOPBACKNET = 0x7f
+ IN_USE = 0x1
+ IPPROTO_AH = 0x33
+ IPPROTO_BIP = 0x53
+ IPPROTO_DSTOPTS = 0x3c
+ IPPROTO_EGP = 0x8
+ IPPROTO_EON = 0x50
+ IPPROTO_ESP = 0x32
+ IPPROTO_FRAGMENT = 0x2c
+ IPPROTO_GGP = 0x3
+ IPPROTO_GIF = 0x8c
+ IPPROTO_GRE = 0x2f
+ IPPROTO_HOPOPTS = 0x0
+ IPPROTO_ICMP = 0x1
+ IPPROTO_ICMPV6 = 0x3a
+ IPPROTO_IDP = 0x16
+ IPPROTO_IGMP = 0x2
+ IPPROTO_IP = 0x0
+ IPPROTO_IPIP = 0x4
+ IPPROTO_IPV6 = 0x29
+ IPPROTO_LOCAL = 0x3f
+ IPPROTO_MAX = 0x100
+ IPPROTO_MH = 0x87
+ IPPROTO_NONE = 0x3b
+ IPPROTO_PUP = 0xc
+ IPPROTO_QOS = 0x2d
+ IPPROTO_RAW = 0xff
+ IPPROTO_ROUTING = 0x2b
+ IPPROTO_RSVP = 0x2e
+ IPPROTO_SCTP = 0x84
+ IPPROTO_TCP = 0x6
+ IPPROTO_TP = 0x1d
+ IPPROTO_UDP = 0x11
+ IPV6_ADDRFORM = 0x16
+ IPV6_ADDR_PREFERENCES = 0x4a
+ IPV6_ADD_MEMBERSHIP = 0xc
+ IPV6_AIXRAWSOCKET = 0x39
+ IPV6_CHECKSUM = 0x27
+ IPV6_DONTFRAG = 0x2d
+ IPV6_DROP_MEMBERSHIP = 0xd
+ IPV6_DSTOPTS = 0x36
+ IPV6_FLOWINFO_FLOWLABEL = 0xffffff
+ IPV6_FLOWINFO_PRIFLOW = 0xfffffff
+ IPV6_FLOWINFO_PRIORITY = 0xf000000
+ IPV6_FLOWINFO_SRFLAG = 0x10000000
+ IPV6_FLOWINFO_VERSION = 0xf0000000
+ IPV6_HOPLIMIT = 0x28
+ IPV6_HOPOPTS = 0x34
+ IPV6_JOIN_GROUP = 0xc
+ IPV6_LEAVE_GROUP = 0xd
+ IPV6_MIPDSTOPTS = 0x36
+ IPV6_MULTICAST_HOPS = 0xa
+ IPV6_MULTICAST_IF = 0x9
+ IPV6_MULTICAST_LOOP = 0xb
+ IPV6_NEXTHOP = 0x30
+ IPV6_NOPROBE = 0x1c
+ IPV6_PATHMTU = 0x2e
+ IPV6_PKTINFO = 0x21
+ IPV6_PKTOPTIONS = 0x24
+ IPV6_PRIORITY_10 = 0xa000000
+ IPV6_PRIORITY_11 = 0xb000000
+ IPV6_PRIORITY_12 = 0xc000000
+ IPV6_PRIORITY_13 = 0xd000000
+ IPV6_PRIORITY_14 = 0xe000000
+ IPV6_PRIORITY_15 = 0xf000000
+ IPV6_PRIORITY_8 = 0x8000000
+ IPV6_PRIORITY_9 = 0x9000000
+ IPV6_PRIORITY_BULK = 0x4000000
+ IPV6_PRIORITY_CONTROL = 0x7000000
+ IPV6_PRIORITY_FILLER = 0x1000000
+ IPV6_PRIORITY_INTERACTIVE = 0x6000000
+ IPV6_PRIORITY_RESERVED1 = 0x3000000
+ IPV6_PRIORITY_RESERVED2 = 0x5000000
+ IPV6_PRIORITY_UNATTENDED = 0x2000000
+ IPV6_PRIORITY_UNCHARACTERIZED = 0x0
+ IPV6_RECVDSTOPTS = 0x38
+ IPV6_RECVHOPLIMIT = 0x29
+ IPV6_RECVHOPOPTS = 0x35
+ IPV6_RECVHOPS = 0x22
+ IPV6_RECVIF = 0x1e
+ IPV6_RECVPATHMTU = 0x2f
+ IPV6_RECVPKTINFO = 0x23
+ IPV6_RECVRTHDR = 0x33
+ IPV6_RECVSRCRT = 0x1d
+ IPV6_RECVTCLASS = 0x2a
+ IPV6_RTHDR = 0x32
+ IPV6_RTHDRDSTOPTS = 0x37
+ IPV6_RTHDR_TYPE_0 = 0x0
+ IPV6_RTHDR_TYPE_2 = 0x2
+ IPV6_SENDIF = 0x1f
+ IPV6_SRFLAG_LOOSE = 0x0
+ IPV6_SRFLAG_STRICT = 0x10000000
+ IPV6_TCLASS = 0x2b
+ IPV6_TOKEN_LENGTH = 0x40
+ IPV6_UNICAST_HOPS = 0x4
+ IPV6_USE_MIN_MTU = 0x2c
+ IPV6_V6ONLY = 0x25
+ IPV6_VERSION = 0x60000000
+ IP_ADDRFORM = 0x16
+ IP_ADD_MEMBERSHIP = 0xc
+ IP_ADD_SOURCE_MEMBERSHIP = 0x3c
+ IP_BLOCK_SOURCE = 0x3a
+ IP_BROADCAST_IF = 0x10
+ IP_CACHE_LINE_SIZE = 0x80
+ IP_DEFAULT_MULTICAST_LOOP = 0x1
+ IP_DEFAULT_MULTICAST_TTL = 0x1
+ IP_DF = 0x4000
+ IP_DHCPMODE = 0x11
+ IP_DONTFRAG = 0x19
+ IP_DROP_MEMBERSHIP = 0xd
+ IP_DROP_SOURCE_MEMBERSHIP = 0x3d
+ IP_FINDPMTU = 0x1a
+ IP_HDRINCL = 0x2
+ IP_INC_MEMBERSHIPS = 0x14
+ IP_INIT_MEMBERSHIP = 0x14
+ IP_MAXPACKET = 0xffff
+ IP_MF = 0x2000
+ IP_MSS = 0x240
+ IP_MULTICAST_HOPS = 0xa
+ IP_MULTICAST_IF = 0x9
+ IP_MULTICAST_LOOP = 0xb
+ IP_MULTICAST_TTL = 0xa
+ IP_OPT = 0x1b
+ IP_OPTIONS = 0x1
+ IP_PMTUAGE = 0x1b
+ IP_RECVDSTADDR = 0x7
+ IP_RECVIF = 0x14
+ IP_RECVIFINFO = 0xf
+ IP_RECVINTERFACE = 0x20
+ IP_RECVMACHDR = 0xe
+ IP_RECVOPTS = 0x5
+ IP_RECVRETOPTS = 0x6
+ IP_RECVTTL = 0x22
+ IP_RETOPTS = 0x8
+ IP_SOURCE_FILTER = 0x48
+ IP_TOS = 0x3
+ IP_TTL = 0x4
+ IP_UNBLOCK_SOURCE = 0x3b
+ IP_UNICAST_HOPS = 0x4
+ ISIG = 0x1
+ ISTRIP = 0x20
+ IUCLC = 0x800
+ IXANY = 0x1000
+ IXOFF = 0x400
+ IXON = 0x200
+ I_FLUSH = 0x20005305
+ LNOFLSH = 0x8000
+ LOCK_EX = 0x2
+ LOCK_NB = 0x4
+ LOCK_SH = 0x1
+ LOCK_UN = 0x8
+ MADV_DONTNEED = 0x4
+ MADV_NORMAL = 0x0
+ MADV_RANDOM = 0x1
+ MADV_SEQUENTIAL = 0x2
+ MADV_SPACEAVAIL = 0x5
+ MADV_WILLNEED = 0x3
+ MAP_ANON = 0x10
+ MAP_ANONYMOUS = 0x10
+ MAP_FILE = 0x0
+ MAP_FIXED = 0x100
+ MAP_PRIVATE = 0x2
+ MAP_SHARED = 0x1
+ MAP_TYPE = 0xf0
+ MAP_VARIABLE = 0x0
+ MCL_CURRENT = 0x100
+ MCL_FUTURE = 0x200
+ MSG_ANY = 0x4
+ MSG_ARGEXT = 0x400
+ MSG_BAND = 0x2
+ MSG_COMPAT = 0x8000
+ MSG_CTRUNC = 0x20
+ MSG_DONTROUTE = 0x4
+ MSG_EOR = 0x8
+ MSG_HIPRI = 0x1
+ MSG_MAXIOVLEN = 0x10
+ MSG_MPEG2 = 0x80
+ MSG_NONBLOCK = 0x4000
+ MSG_NOSIGNAL = 0x100
+ MSG_OOB = 0x1
+ MSG_PEEK = 0x2
+ MSG_TRUNC = 0x10
+ MSG_WAITALL = 0x40
+ MSG_WAITFORONE = 0x200
+ MS_ASYNC = 0x10
+ MS_EINTR = 0x80
+ MS_INVALIDATE = 0x40
+ MS_PER_SEC = 0x3e8
+ MS_SYNC = 0x20
+ NL0 = 0x0
+ NL1 = 0x4000
+ NL2 = 0x8000
+ NL3 = 0xc000
+ NLDLY = 0x4000
+ NOFLSH = 0x80
+ NOFLUSH = 0x80000000
+ OCRNL = 0x8
+ OFDEL = 0x80
+ OFILL = 0x40
+ OLCUC = 0x2
+ ONLCR = 0x4
+ ONLRET = 0x20
+ ONOCR = 0x10
+ ONOEOT = 0x80000
+ OPOST = 0x1
+ OXTABS = 0x40000
+ O_ACCMODE = 0x23
+ O_APPEND = 0x8
+ O_CIO = 0x80
+ O_CIOR = 0x800000000
+ O_CLOEXEC = 0x800000
+ O_CREAT = 0x100
+ O_DEFER = 0x2000
+ O_DELAY = 0x4000
+ O_DIRECT = 0x8000000
+ O_DIRECTORY = 0x80000
+ O_DSYNC = 0x400000
+ O_EFSOFF = 0x400000000
+ O_EFSON = 0x200000000
+ O_EXCL = 0x400
+ O_EXEC = 0x20
+ O_LARGEFILE = 0x4000000
+ O_NDELAY = 0x8000
+ O_NOCACHE = 0x100000
+ O_NOCTTY = 0x800
+ O_NOFOLLOW = 0x1000000
+ O_NONBLOCK = 0x4
+ O_NONE = 0x3
+ O_NSHARE = 0x10000
+ O_RAW = 0x100000000
+ O_RDONLY = 0x0
+ O_RDWR = 0x2
+ O_RSHARE = 0x1000
+ O_RSYNC = 0x200000
+ O_SEARCH = 0x20
+ O_SNAPSHOT = 0x40
+ O_SYNC = 0x10
+ O_TRUNC = 0x200
+ O_TTY_INIT = 0x0
+ O_WRONLY = 0x1
+ PARENB = 0x100
+ PAREXT = 0x100000
+ PARMRK = 0x8
+ PARODD = 0x200
+ PENDIN = 0x20000000
+ PRIO_PGRP = 0x1
+ PRIO_PROCESS = 0x0
+ PRIO_USER = 0x2
+ PROT_EXEC = 0x4
+ PROT_NONE = 0x0
+ PROT_READ = 0x1
+ PROT_WRITE = 0x2
+ PR_64BIT = 0x20
+ PR_ADDR = 0x2
+ PR_ARGEXT = 0x400
+ PR_ATOMIC = 0x1
+ PR_CONNREQUIRED = 0x4
+ PR_FASTHZ = 0x5
+ PR_INP = 0x40
+ PR_INTRLEVEL = 0x8000
+ PR_MLS = 0x100
+ PR_MLS_1_LABEL = 0x200
+ PR_NOEOR = 0x4000
+ PR_RIGHTS = 0x10
+ PR_SLOWHZ = 0x2
+ PR_WANTRCVD = 0x8
+ RLIMIT_AS = 0x6
+ RLIMIT_CORE = 0x4
+ RLIMIT_CPU = 0x0
+ RLIMIT_DATA = 0x2
+ RLIMIT_FSIZE = 0x1
+ RLIMIT_NOFILE = 0x7
+ RLIMIT_NPROC = 0x9
+ RLIMIT_RSS = 0x5
+ RLIMIT_STACK = 0x3
+ RLIM_INFINITY = 0x7fffffffffffffff
+ RTAX_AUTHOR = 0x6
+ RTAX_BRD = 0x7
+ RTAX_DST = 0x0
+ RTAX_GATEWAY = 0x1
+ RTAX_GENMASK = 0x3
+ RTAX_IFA = 0x5
+ RTAX_IFP = 0x4
+ RTAX_MAX = 0x8
+ RTAX_NETMASK = 0x2
+ RTA_AUTHOR = 0x40
+ RTA_BRD = 0x80
+ RTA_DOWNSTREAM = 0x100
+ RTA_DST = 0x1
+ RTA_GATEWAY = 0x2
+ RTA_GENMASK = 0x8
+ RTA_IFA = 0x20
+ RTA_IFP = 0x10
+ RTA_NETMASK = 0x4
+ RTC_IA64 = 0x3
+ RTC_POWER = 0x1
+ RTC_POWER_PC = 0x2
+ RTF_ACTIVE_DGD = 0x1000000
+ RTF_BCE = 0x80000
+ RTF_BLACKHOLE = 0x1000
+ RTF_BROADCAST = 0x400000
+ RTF_BUL = 0x2000
+ RTF_CLONE = 0x10000
+ RTF_CLONED = 0x20000
+ RTF_CLONING = 0x100
+ RTF_DONE = 0x40
+ RTF_DYNAMIC = 0x10
+ RTF_FREE_IN_PROG = 0x4000000
+ RTF_GATEWAY = 0x2
+ RTF_HOST = 0x4
+ RTF_LLINFO = 0x400
+ RTF_LOCAL = 0x200000
+ RTF_MASK = 0x80
+ RTF_MODIFIED = 0x20
+ RTF_MULTICAST = 0x800000
+ RTF_PERMANENT6 = 0x8000000
+ RTF_PINNED = 0x100000
+ RTF_PROTO1 = 0x8000
+ RTF_PROTO2 = 0x4000
+ RTF_PROTO3 = 0x40000
+ RTF_REJECT = 0x8
+ RTF_SMALLMTU = 0x40000
+ RTF_STATIC = 0x800
+ RTF_STOPSRCH = 0x2000000
+ RTF_UNREACHABLE = 0x10000000
+ RTF_UP = 0x1
+ RTF_XRESOLVE = 0x200
+ RTM_ADD = 0x1
+ RTM_CHANGE = 0x3
+ RTM_DELADDR = 0xd
+ RTM_DELETE = 0x2
+ RTM_EXPIRE = 0xf
+ RTM_GET = 0x4
+ RTM_GETNEXT = 0x11
+ RTM_IFINFO = 0xe
+ RTM_LOCK = 0x8
+ RTM_LOSING = 0x5
+ RTM_MISS = 0x7
+ RTM_NEWADDR = 0xc
+ RTM_OLDADD = 0x9
+ RTM_OLDDEL = 0xa
+ RTM_REDIRECT = 0x6
+ RTM_RESOLVE = 0xb
+ RTM_RTLOST = 0x10
+ RTM_RTTUNIT = 0xf4240
+ RTM_SAMEADDR = 0x12
+ RTM_SET = 0x13
+ RTM_VERSION = 0x2
+ RTM_VERSION_GR = 0x4
+ RTM_VERSION_GR_COMPAT = 0x3
+ RTM_VERSION_POLICY = 0x5
+ RTM_VERSION_POLICY_EXT = 0x6
+ RTM_VERSION_POLICY_PRFN = 0x7
+ RTV_EXPIRE = 0x4
+ RTV_HOPCOUNT = 0x2
+ RTV_MTU = 0x1
+ RTV_RPIPE = 0x8
+ RTV_RTT = 0x40
+ RTV_RTTVAR = 0x80
+ RTV_SPIPE = 0x10
+ RTV_SSTHRESH = 0x20
+ RUSAGE_CHILDREN = -0x1
+ RUSAGE_SELF = 0x0
+ RUSAGE_THREAD = 0x1
+ SCM_RIGHTS = 0x1
+ SHUT_RD = 0x0
+ SHUT_RDWR = 0x2
+ SHUT_WR = 0x1
+ SIGMAX64 = 0xff
+ SIGQUEUE_MAX = 0x20
+ SIOCADDIFVIPA = 0x20006942
+ SIOCADDMTU = -0x7ffb9690
+ SIOCADDMULTI = -0x7fdf96cf
+ SIOCADDNETID = -0x7fd796a9
+ SIOCADDRT = -0x7fc78df6
+ SIOCAIFADDR = -0x7fbf96e6
+ SIOCATMARK = 0x40047307
+ SIOCDARP = -0x7fb396e0
+ SIOCDELIFVIPA = 0x20006943
+ SIOCDELMTU = -0x7ffb968f
+ SIOCDELMULTI = -0x7fdf96ce
+ SIOCDELPMTU = -0x7fd78ff6
+ SIOCDELRT = -0x7fc78df5
+ SIOCDIFADDR = -0x7fd796e7
+ SIOCDNETOPT = -0x3ffe9680
+ SIOCDX25XLATE = -0x7fd7969b
+ SIOCFIFADDR = -0x7fdf966d
+ SIOCGARP = -0x3fb396da
+ SIOCGETMTUS = 0x2000696f
+ SIOCGETSGCNT = -0x3feb8acc
+ SIOCGETVIFCNT = -0x3feb8acd
+ SIOCGHIWAT = 0x40047301
+ SIOCGIFADDR = -0x3fd796df
+ SIOCGIFADDRS = 0x2000698c
+ SIOCGIFBAUDRATE = -0x3fd79693
+ SIOCGIFBRDADDR = -0x3fd796dd
+ SIOCGIFCONF = -0x3fef96bb
+ SIOCGIFCONFGLOB = -0x3fef9670
+ SIOCGIFDSTADDR = -0x3fd796de
+ SIOCGIFFLAGS = -0x3fd796ef
+ SIOCGIFGIDLIST = 0x20006968
+ SIOCGIFHWADDR = -0x3fab966b
+ SIOCGIFMETRIC = -0x3fd796e9
+ SIOCGIFMTU = -0x3fd796aa
+ SIOCGIFNETMASK = -0x3fd796db
+ SIOCGIFOPTIONS = -0x3fd796d6
+ SIOCGISNO = -0x3fd79695
+ SIOCGLOADF = -0x3ffb967e
+ SIOCGLOWAT = 0x40047303
+ SIOCGNETOPT = -0x3ffe96a5
+ SIOCGNETOPT1 = -0x3fdf967f
+ SIOCGNMTUS = 0x2000696e
+ SIOCGPGRP = 0x40047309
+ SIOCGSIZIFCONF = 0x4004696a
+ SIOCGSRCFILTER = -0x3fe796cb
+ SIOCGTUNEPHASE = -0x3ffb9676
+ SIOCGX25XLATE = -0x3fd7969c
+ SIOCIFATTACH = -0x7fdf9699
+ SIOCIFDETACH = -0x7fdf969a
+ SIOCIFGETPKEY = -0x7fdf969b
+ SIOCIF_ATM_DARP = -0x7fdf9683
+ SIOCIF_ATM_DUMPARP = -0x7fdf9685
+ SIOCIF_ATM_GARP = -0x7fdf9682
+ SIOCIF_ATM_IDLE = -0x7fdf9686
+ SIOCIF_ATM_SARP = -0x7fdf9681
+ SIOCIF_ATM_SNMPARP = -0x7fdf9687
+ SIOCIF_ATM_SVC = -0x7fdf9684
+ SIOCIF_ATM_UBR = -0x7fdf9688
+ SIOCIF_DEVHEALTH = -0x7ffb966c
+ SIOCIF_IB_ARP_INCOMP = -0x7fdf9677
+ SIOCIF_IB_ARP_TIMER = -0x7fdf9678
+ SIOCIF_IB_CLEAR_PINFO = -0x3fdf966f
+ SIOCIF_IB_DEL_ARP = -0x7fdf967f
+ SIOCIF_IB_DEL_PINFO = -0x3fdf9670
+ SIOCIF_IB_DUMP_ARP = -0x7fdf9680
+ SIOCIF_IB_GET_ARP = -0x7fdf967e
+ SIOCIF_IB_GET_INFO = -0x3f879675
+ SIOCIF_IB_GET_STATS = -0x3f879672
+ SIOCIF_IB_NOTIFY_ADDR_REM = -0x3f87966a
+ SIOCIF_IB_RESET_STATS = -0x3f879671
+ SIOCIF_IB_RESIZE_CQ = -0x7fdf9679
+ SIOCIF_IB_SET_ARP = -0x7fdf967d
+ SIOCIF_IB_SET_PKEY = -0x7fdf967c
+ SIOCIF_IB_SET_PORT = -0x7fdf967b
+ SIOCIF_IB_SET_QKEY = -0x7fdf9676
+ SIOCIF_IB_SET_QSIZE = -0x7fdf967a
+ SIOCLISTIFVIPA = 0x20006944
+ SIOCSARP = -0x7fb396e2
+ SIOCSHIWAT = 0xffffffff80047300
+ SIOCSIFADDR = -0x7fd796f4
+ SIOCSIFADDRORI = -0x7fdb9673
+ SIOCSIFBRDADDR = -0x7fd796ed
+ SIOCSIFDSTADDR = -0x7fd796f2
+ SIOCSIFFLAGS = -0x7fd796f0
+ SIOCSIFGIDLIST = 0x20006969
+ SIOCSIFMETRIC = -0x7fd796e8
+ SIOCSIFMTU = -0x7fd796a8
+ SIOCSIFNETDUMP = -0x7fd796e4
+ SIOCSIFNETMASK = -0x7fd796ea
+ SIOCSIFOPTIONS = -0x7fd796d7
+ SIOCSIFSUBCHAN = -0x7fd796e5
+ SIOCSISNO = -0x7fd79694
+ SIOCSLOADF = -0x3ffb967d
+ SIOCSLOWAT = 0xffffffff80047302
+ SIOCSNETOPT = -0x7ffe96a6
+ SIOCSPGRP = 0xffffffff80047308
+ SIOCSX25XLATE = -0x7fd7969d
+ SOCK_CONN_DGRAM = 0x6
+ SOCK_DGRAM = 0x2
+ SOCK_RAW = 0x3
+ SOCK_RDM = 0x4
+ SOCK_SEQPACKET = 0x5
+ SOCK_STREAM = 0x1
+ SOL_SOCKET = 0xffff
+ SOMAXCONN = 0x400
+ SO_ACCEPTCONN = 0x2
+ SO_AUDIT = 0x8000
+ SO_BROADCAST = 0x20
+ SO_CKSUMRECV = 0x800
+ SO_DEBUG = 0x1
+ SO_DONTROUTE = 0x10
+ SO_ERROR = 0x1007
+ SO_KEEPALIVE = 0x8
+ SO_KERNACCEPT = 0x2000
+ SO_LINGER = 0x80
+ SO_NOMULTIPATH = 0x4000
+ SO_NOREUSEADDR = 0x1000
+ SO_OOBINLINE = 0x100
+ SO_PEERID = 0x1009
+ SO_RCVBUF = 0x1002
+ SO_RCVLOWAT = 0x1004
+ SO_RCVTIMEO = 0x1006
+ SO_REUSEADDR = 0x4
+ SO_REUSEPORT = 0x200
+ SO_SNDBUF = 0x1001
+ SO_SNDLOWAT = 0x1003
+ SO_SNDTIMEO = 0x1005
+ SO_TIMESTAMPNS = 0x100a
+ SO_TYPE = 0x1008
+ SO_USELOOPBACK = 0x40
+ SO_USE_IFBUFS = 0x400
+ S_BANDURG = 0x400
+ S_EMODFMT = 0x3c000000
+ S_ENFMT = 0x400
+ S_ERROR = 0x100
+ S_HANGUP = 0x200
+ S_HIPRI = 0x2
+ S_ICRYPTO = 0x80000
+ S_IEXEC = 0x40
+ S_IFBLK = 0x6000
+ S_IFCHR = 0x2000
+ S_IFDIR = 0x4000
+ S_IFIFO = 0x1000
+ S_IFJOURNAL = 0x10000
+ S_IFLNK = 0xa000
+ S_IFMPX = 0x2200
+ S_IFMT = 0xf000
+ S_IFPDIR = 0x4000000
+ S_IFPSDIR = 0x8000000
+ S_IFPSSDIR = 0xc000000
+ S_IFREG = 0x8000
+ S_IFSOCK = 0xc000
+ S_IFSYSEA = 0x30000000
+ S_INPUT = 0x1
+ S_IREAD = 0x100
+ S_IRGRP = 0x20
+ S_IROTH = 0x4
+ S_IRUSR = 0x100
+ S_IRWXG = 0x38
+ S_IRWXO = 0x7
+ S_IRWXU = 0x1c0
+ S_ISGID = 0x400
+ S_ISUID = 0x800
+ S_ISVTX = 0x200
+ S_ITCB = 0x1000000
+ S_ITP = 0x800000
+ S_IWGRP = 0x10
+ S_IWOTH = 0x2
+ S_IWRITE = 0x80
+ S_IWUSR = 0x80
+ S_IXACL = 0x2000000
+ S_IXATTR = 0x40000
+ S_IXGRP = 0x8
+ S_IXINTERFACE = 0x100000
+ S_IXMOD = 0x40000000
+ S_IXOTH = 0x1
+ S_IXUSR = 0x40
+ S_MSG = 0x8
+ S_OUTPUT = 0x4
+ S_RDBAND = 0x20
+ S_RDNORM = 0x10
+ S_RESERVED1 = 0x20000
+ S_RESERVED2 = 0x200000
+ S_RESERVED3 = 0x400000
+ S_RESERVED4 = 0x80000000
+ S_RESFMT1 = 0x10000000
+ S_RESFMT10 = 0x34000000
+ S_RESFMT11 = 0x38000000
+ S_RESFMT12 = 0x3c000000
+ S_RESFMT2 = 0x14000000
+ S_RESFMT3 = 0x18000000
+ S_RESFMT4 = 0x1c000000
+ S_RESFMT5 = 0x20000000
+ S_RESFMT6 = 0x24000000
+ S_RESFMT7 = 0x28000000
+ S_RESFMT8 = 0x2c000000
+ S_WRBAND = 0x80
+ S_WRNORM = 0x40
+ TAB0 = 0x0
+ TAB1 = 0x400
+ TAB2 = 0x800
+ TAB3 = 0xc00
+ TABDLY = 0xc00
+ TCFLSH = 0x540c
+ TCGETA = 0x5405
+ TCGETS = 0x5401
+ TCIFLUSH = 0x0
+ TCIOFF = 0x2
+ TCIOFLUSH = 0x2
+ TCION = 0x3
+ TCOFLUSH = 0x1
+ TCOOFF = 0x0
+ TCOON = 0x1
+ TCP_24DAYS_WORTH_OF_SLOWTICKS = 0x3f4800
+ TCP_ACLADD = 0x23
+ TCP_ACLBIND = 0x26
+ TCP_ACLCLEAR = 0x22
+ TCP_ACLDEL = 0x24
+ TCP_ACLDENY = 0x8
+ TCP_ACLFLUSH = 0x21
+ TCP_ACLGID = 0x1
+ TCP_ACLLS = 0x25
+ TCP_ACLSUBNET = 0x4
+ TCP_ACLUID = 0x2
+ TCP_CWND_DF = 0x16
+ TCP_CWND_IF = 0x15
+ TCP_DELAY_ACK_FIN = 0x2
+ TCP_DELAY_ACK_SYN = 0x1
+ TCP_FASTNAME = 0x101080a
+ TCP_KEEPCNT = 0x13
+ TCP_KEEPIDLE = 0x11
+ TCP_KEEPINTVL = 0x12
+ TCP_LSPRIV = 0x29
+ TCP_LUID = 0x20
+ TCP_MAXBURST = 0x8
+ TCP_MAXDF = 0x64
+ TCP_MAXIF = 0x64
+ TCP_MAXSEG = 0x2
+ TCP_MAXWIN = 0xffff
+ TCP_MAXWINDOWSCALE = 0xe
+ TCP_MAX_SACK = 0x4
+ TCP_MSS = 0x5b4
+ TCP_NODELAY = 0x1
+ TCP_NODELAYACK = 0x14
+ TCP_NOREDUCE_CWND_EXIT_FRXMT = 0x19
+ TCP_NOREDUCE_CWND_IN_FRXMT = 0x18
+ TCP_NOTENTER_SSTART = 0x17
+ TCP_OPT = 0x19
+ TCP_RFC1323 = 0x4
+ TCP_SETPRIV = 0x27
+ TCP_STDURG = 0x10
+ TCP_TIMESTAMP_OPTLEN = 0xc
+ TCP_UNSETPRIV = 0x28
+ TCSAFLUSH = 0x2
+ TCSBRK = 0x5409
+ TCSETA = 0x5406
+ TCSETAF = 0x5408
+ TCSETAW = 0x5407
+ TCSETS = 0x5402
+ TCSETSF = 0x5404
+ TCSETSW = 0x5403
+ TCXONC = 0x540b
+ TIOC = 0x5400
+ TIOCCBRK = 0x2000747a
+ TIOCCDTR = 0x20007478
+ TIOCCONS = 0xffffffff80047462
+ TIOCEXCL = 0x2000740d
+ TIOCFLUSH = 0xffffffff80047410
+ TIOCGETC = 0x40067412
+ TIOCGETD = 0x40047400
+ TIOCGETP = 0x40067408
+ TIOCGLTC = 0x40067474
+ TIOCGPGRP = 0x40047477
+ TIOCGSID = 0x40047448
+ TIOCGSIZE = 0x40087468
+ TIOCGWINSZ = 0x40087468
+ TIOCHPCL = 0x20007402
+ TIOCLBIC = 0xffffffff8004747e
+ TIOCLBIS = 0xffffffff8004747f
+ TIOCLGET = 0x4004747c
+ TIOCLSET = 0xffffffff8004747d
+ TIOCMBIC = 0xffffffff8004746b
+ TIOCMBIS = 0xffffffff8004746c
+ TIOCMGET = 0x4004746a
+ TIOCMIWAIT = 0xffffffff80047464
+ TIOCMODG = 0x40047403
+ TIOCMODS = 0xffffffff80047404
+ TIOCMSET = 0xffffffff8004746d
+ TIOCM_CAR = 0x40
+ TIOCM_CD = 0x40
+ TIOCM_CTS = 0x20
+ TIOCM_DSR = 0x100
+ TIOCM_DTR = 0x2
+ TIOCM_LE = 0x1
+ TIOCM_RI = 0x80
+ TIOCM_RNG = 0x80
+ TIOCM_RTS = 0x4
+ TIOCM_SR = 0x10
+ TIOCM_ST = 0x8
+ TIOCNOTTY = 0x20007471
+ TIOCNXCL = 0x2000740e
+ TIOCOUTQ = 0x40047473
+ TIOCPKT = 0xffffffff80047470
+ TIOCPKT_DATA = 0x0
+ TIOCPKT_DOSTOP = 0x20
+ TIOCPKT_FLUSHREAD = 0x1
+ TIOCPKT_FLUSHWRITE = 0x2
+ TIOCPKT_NOSTOP = 0x10
+ TIOCPKT_START = 0x8
+ TIOCPKT_STOP = 0x4
+ TIOCREMOTE = 0xffffffff80047469
+ TIOCSBRK = 0x2000747b
+ TIOCSDTR = 0x20007479
+ TIOCSETC = 0xffffffff80067411
+ TIOCSETD = 0xffffffff80047401
+ TIOCSETN = 0xffffffff8006740a
+ TIOCSETP = 0xffffffff80067409
+ TIOCSLTC = 0xffffffff80067475
+ TIOCSPGRP = 0xffffffff80047476
+ TIOCSSIZE = 0xffffffff80087467
+ TIOCSTART = 0x2000746e
+ TIOCSTI = 0xffffffff80017472
+ TIOCSTOP = 0x2000746f
+ TIOCSWINSZ = 0xffffffff80087467
+ TIOCUCNTL = 0xffffffff80047466
+ TOSTOP = 0x10000
+ UTIME_NOW = -0x2
+ UTIME_OMIT = -0x3
+ VDISCRD = 0xc
+ VDSUSP = 0xa
+ VEOF = 0x4
+ VEOL = 0x5
+ VEOL2 = 0x6
+ VERASE = 0x2
+ VINTR = 0x0
+ VKILL = 0x3
+ VLNEXT = 0xe
+ VMIN = 0x4
+ VQUIT = 0x1
+ VREPRINT = 0xb
+ VSTART = 0x7
+ VSTOP = 0x8
+ VSTRT = 0x7
+ VSUSP = 0x9
+ VT0 = 0x0
+ VT1 = 0x8000
+ VTDELAY = 0x2000
+ VTDLY = 0x8000
+ VTIME = 0x5
+ VWERSE = 0xd
+ WPARSTART = 0x1
+ WPARSTOP = 0x2
+ WPARTTYNAME = "Global"
+ XCASE = 0x4
+ XTABS = 0xc00
+ _FDATAFLUSH = 0x2000000000
+)
+
+// Errors
+const (
+ E2BIG = syscall.Errno(0x7)
+ EACCES = syscall.Errno(0xd)
+ EADDRINUSE = syscall.Errno(0x43)
+ EADDRNOTAVAIL = syscall.Errno(0x44)
+ EAFNOSUPPORT = syscall.Errno(0x42)
+ EAGAIN = syscall.Errno(0xb)
+ EALREADY = syscall.Errno(0x38)
+ EBADF = syscall.Errno(0x9)
+ EBADMSG = syscall.Errno(0x78)
+ EBUSY = syscall.Errno(0x10)
+ ECANCELED = syscall.Errno(0x75)
+ ECHILD = syscall.Errno(0xa)
+ ECHRNG = syscall.Errno(0x25)
+ ECLONEME = syscall.Errno(0x52)
+ ECONNABORTED = syscall.Errno(0x48)
+ ECONNREFUSED = syscall.Errno(0x4f)
+ ECONNRESET = syscall.Errno(0x49)
+ ECORRUPT = syscall.Errno(0x59)
+ EDEADLK = syscall.Errno(0x2d)
+ EDESTADDREQ = syscall.Errno(0x3a)
+ EDESTADDRREQ = syscall.Errno(0x3a)
+ EDIST = syscall.Errno(0x35)
+ EDOM = syscall.Errno(0x21)
+ EDQUOT = syscall.Errno(0x58)
+ EEXIST = syscall.Errno(0x11)
+ EFAULT = syscall.Errno(0xe)
+ EFBIG = syscall.Errno(0x1b)
+ EFORMAT = syscall.Errno(0x30)
+ EHOSTDOWN = syscall.Errno(0x50)
+ EHOSTUNREACH = syscall.Errno(0x51)
+ EIDRM = syscall.Errno(0x24)
+ EILSEQ = syscall.Errno(0x74)
+ EINPROGRESS = syscall.Errno(0x37)
+ EINTR = syscall.Errno(0x4)
+ EINVAL = syscall.Errno(0x16)
+ EIO = syscall.Errno(0x5)
+ EISCONN = syscall.Errno(0x4b)
+ EISDIR = syscall.Errno(0x15)
+ EL2HLT = syscall.Errno(0x2c)
+ EL2NSYNC = syscall.Errno(0x26)
+ EL3HLT = syscall.Errno(0x27)
+ EL3RST = syscall.Errno(0x28)
+ ELNRNG = syscall.Errno(0x29)
+ ELOOP = syscall.Errno(0x55)
+ EMEDIA = syscall.Errno(0x6e)
+ EMFILE = syscall.Errno(0x18)
+ EMLINK = syscall.Errno(0x1f)
+ EMSGSIZE = syscall.Errno(0x3b)
+ EMULTIHOP = syscall.Errno(0x7d)
+ ENAMETOOLONG = syscall.Errno(0x56)
+ ENETDOWN = syscall.Errno(0x45)
+ ENETRESET = syscall.Errno(0x47)
+ ENETUNREACH = syscall.Errno(0x46)
+ ENFILE = syscall.Errno(0x17)
+ ENOATTR = syscall.Errno(0x70)
+ ENOBUFS = syscall.Errno(0x4a)
+ ENOCONNECT = syscall.Errno(0x32)
+ ENOCSI = syscall.Errno(0x2b)
+ ENODATA = syscall.Errno(0x7a)
+ ENODEV = syscall.Errno(0x13)
+ ENOENT = syscall.Errno(0x2)
+ ENOEXEC = syscall.Errno(0x8)
+ ENOLCK = syscall.Errno(0x31)
+ ENOLINK = syscall.Errno(0x7e)
+ ENOMEM = syscall.Errno(0xc)
+ ENOMSG = syscall.Errno(0x23)
+ ENOPROTOOPT = syscall.Errno(0x3d)
+ ENOSPC = syscall.Errno(0x1c)
+ ENOSR = syscall.Errno(0x76)
+ ENOSTR = syscall.Errno(0x7b)
+ ENOSYS = syscall.Errno(0x6d)
+ ENOTBLK = syscall.Errno(0xf)
+ ENOTCONN = syscall.Errno(0x4c)
+ ENOTDIR = syscall.Errno(0x14)
+ ENOTEMPTY = syscall.Errno(0x11)
+ ENOTREADY = syscall.Errno(0x2e)
+ ENOTRECOVERABLE = syscall.Errno(0x5e)
+ ENOTRUST = syscall.Errno(0x72)
+ ENOTSOCK = syscall.Errno(0x39)
+ ENOTSUP = syscall.Errno(0x7c)
+ ENOTTY = syscall.Errno(0x19)
+ ENXIO = syscall.Errno(0x6)
+ EOPNOTSUPP = syscall.Errno(0x40)
+ EOVERFLOW = syscall.Errno(0x7f)
+ EOWNERDEAD = syscall.Errno(0x5f)
+ EPERM = syscall.Errno(0x1)
+ EPFNOSUPPORT = syscall.Errno(0x41)
+ EPIPE = syscall.Errno(0x20)
+ EPROCLIM = syscall.Errno(0x53)
+ EPROTO = syscall.Errno(0x79)
+ EPROTONOSUPPORT = syscall.Errno(0x3e)
+ EPROTOTYPE = syscall.Errno(0x3c)
+ ERANGE = syscall.Errno(0x22)
+ EREMOTE = syscall.Errno(0x5d)
+ ERESTART = syscall.Errno(0x52)
+ EROFS = syscall.Errno(0x1e)
+ ESAD = syscall.Errno(0x71)
+ ESHUTDOWN = syscall.Errno(0x4d)
+ ESOCKTNOSUPPORT = syscall.Errno(0x3f)
+ ESOFT = syscall.Errno(0x6f)
+ ESPIPE = syscall.Errno(0x1d)
+ ESRCH = syscall.Errno(0x3)
+ ESTALE = syscall.Errno(0x34)
+ ESYSERROR = syscall.Errno(0x5a)
+ ETIME = syscall.Errno(0x77)
+ ETIMEDOUT = syscall.Errno(0x4e)
+ ETOOMANYREFS = syscall.Errno(0x73)
+ ETXTBSY = syscall.Errno(0x1a)
+ EUNATCH = syscall.Errno(0x2a)
+ EUSERS = syscall.Errno(0x54)
+ EWOULDBLOCK = syscall.Errno(0xb)
+ EWRPROTECT = syscall.Errno(0x2f)
+ EXDEV = syscall.Errno(0x12)
+)
+
+// Signals
+const (
+ SIGABRT = syscall.Signal(0x6)
+ SIGAIO = syscall.Signal(0x17)
+ SIGALRM = syscall.Signal(0xe)
+ SIGALRM1 = syscall.Signal(0x26)
+ SIGBUS = syscall.Signal(0xa)
+ SIGCAPI = syscall.Signal(0x31)
+ SIGCHLD = syscall.Signal(0x14)
+ SIGCLD = syscall.Signal(0x14)
+ SIGCONT = syscall.Signal(0x13)
+ SIGCPUFAIL = syscall.Signal(0x3b)
+ SIGDANGER = syscall.Signal(0x21)
+ SIGEMT = syscall.Signal(0x7)
+ SIGFPE = syscall.Signal(0x8)
+ SIGGRANT = syscall.Signal(0x3c)
+ SIGHUP = syscall.Signal(0x1)
+ SIGILL = syscall.Signal(0x4)
+ SIGINT = syscall.Signal(0x2)
+ SIGIO = syscall.Signal(0x17)
+ SIGIOINT = syscall.Signal(0x10)
+ SIGIOT = syscall.Signal(0x6)
+ SIGKAP = syscall.Signal(0x3c)
+ SIGKILL = syscall.Signal(0x9)
+ SIGLOST = syscall.Signal(0x6)
+ SIGMAX = syscall.Signal(0xff)
+ SIGMAX32 = syscall.Signal(0x3f)
+ SIGMIGRATE = syscall.Signal(0x23)
+ SIGMSG = syscall.Signal(0x1b)
+ SIGPIPE = syscall.Signal(0xd)
+ SIGPOLL = syscall.Signal(0x17)
+ SIGPRE = syscall.Signal(0x24)
+ SIGPROF = syscall.Signal(0x20)
+ SIGPTY = syscall.Signal(0x17)
+ SIGPWR = syscall.Signal(0x1d)
+ SIGQUIT = syscall.Signal(0x3)
+ SIGRECONFIG = syscall.Signal(0x3a)
+ SIGRETRACT = syscall.Signal(0x3d)
+ SIGSAK = syscall.Signal(0x3f)
+ SIGSEGV = syscall.Signal(0xb)
+ SIGSOUND = syscall.Signal(0x3e)
+ SIGSTOP = syscall.Signal(0x11)
+ SIGSYS = syscall.Signal(0xc)
+ SIGSYSERROR = syscall.Signal(0x30)
+ SIGTALRM = syscall.Signal(0x26)
+ SIGTERM = syscall.Signal(0xf)
+ SIGTRAP = syscall.Signal(0x5)
+ SIGTSTP = syscall.Signal(0x12)
+ SIGTTIN = syscall.Signal(0x15)
+ SIGTTOU = syscall.Signal(0x16)
+ SIGURG = syscall.Signal(0x10)
+ SIGUSR1 = syscall.Signal(0x1e)
+ SIGUSR2 = syscall.Signal(0x1f)
+ SIGVIRT = syscall.Signal(0x25)
+ SIGVTALRM = syscall.Signal(0x22)
+ SIGWAITING = syscall.Signal(0x27)
+ SIGWINCH = syscall.Signal(0x1c)
+ SIGXCPU = syscall.Signal(0x18)
+ SIGXFSZ = syscall.Signal(0x19)
+)
+
+// Error table
+var errorList = [...]struct {
+ num syscall.Errno
+ name string
+ desc string
+}{
+ {1, "EPERM", "not owner"},
+ {2, "ENOENT", "no such file or directory"},
+ {3, "ESRCH", "no such process"},
+ {4, "EINTR", "interrupted system call"},
+ {5, "EIO", "I/O error"},
+ {6, "ENXIO", "no such device or address"},
+ {7, "E2BIG", "arg list too long"},
+ {8, "ENOEXEC", "exec format error"},
+ {9, "EBADF", "bad file number"},
+ {10, "ECHILD", "no child processes"},
+ {11, "EWOULDBLOCK", "resource temporarily unavailable"},
+ {12, "ENOMEM", "not enough space"},
+ {13, "EACCES", "permission denied"},
+ {14, "EFAULT", "bad address"},
+ {15, "ENOTBLK", "block device required"},
+ {16, "EBUSY", "device busy"},
+ {17, "ENOTEMPTY", "file exists"},
+ {18, "EXDEV", "cross-device link"},
+ {19, "ENODEV", "no such device"},
+ {20, "ENOTDIR", "not a directory"},
+ {21, "EISDIR", "is a directory"},
+ {22, "EINVAL", "invalid argument"},
+ {23, "ENFILE", "file table overflow"},
+ {24, "EMFILE", "too many open files"},
+ {25, "ENOTTY", "not a typewriter"},
+ {26, "ETXTBSY", "text file busy"},
+ {27, "EFBIG", "file too large"},
+ {28, "ENOSPC", "no space left on device"},
+ {29, "ESPIPE", "illegal seek"},
+ {30, "EROFS", "read-only file system"},
+ {31, "EMLINK", "too many links"},
+ {32, "EPIPE", "broken pipe"},
+ {33, "EDOM", "argument out of domain"},
+ {34, "ERANGE", "result too large"},
+ {35, "ENOMSG", "no message of desired type"},
+ {36, "EIDRM", "identifier removed"},
+ {37, "ECHRNG", "channel number out of range"},
+ {38, "EL2NSYNC", "level 2 not synchronized"},
+ {39, "EL3HLT", "level 3 halted"},
+ {40, "EL3RST", "level 3 reset"},
+ {41, "ELNRNG", "link number out of range"},
+ {42, "EUNATCH", "protocol driver not attached"},
+ {43, "ENOCSI", "no CSI structure available"},
+ {44, "EL2HLT", "level 2 halted"},
+ {45, "EDEADLK", "deadlock condition if locked"},
+ {46, "ENOTREADY", "device not ready"},
+ {47, "EWRPROTECT", "write-protected media"},
+ {48, "EFORMAT", "unformatted or incompatible media"},
+ {49, "ENOLCK", "no locks available"},
+ {50, "ENOCONNECT", "cannot Establish Connection"},
+ {52, "ESTALE", "missing file or filesystem"},
+ {53, "EDIST", "requests blocked by Administrator"},
+ {55, "EINPROGRESS", "operation now in progress"},
+ {56, "EALREADY", "operation already in progress"},
+ {57, "ENOTSOCK", "socket operation on non-socket"},
+ {58, "EDESTADDREQ", "destination address required"},
+ {59, "EMSGSIZE", "message too long"},
+ {60, "EPROTOTYPE", "protocol wrong type for socket"},
+ {61, "ENOPROTOOPT", "protocol not available"},
+ {62, "EPROTONOSUPPORT", "protocol not supported"},
+ {63, "ESOCKTNOSUPPORT", "socket type not supported"},
+ {64, "EOPNOTSUPP", "operation not supported on socket"},
+ {65, "EPFNOSUPPORT", "protocol family not supported"},
+ {66, "EAFNOSUPPORT", "addr family not supported by protocol"},
+ {67, "EADDRINUSE", "address already in use"},
+ {68, "EADDRNOTAVAIL", "can't assign requested address"},
+ {69, "ENETDOWN", "network is down"},
+ {70, "ENETUNREACH", "network is unreachable"},
+ {71, "ENETRESET", "network dropped connection on reset"},
+ {72, "ECONNABORTED", "software caused connection abort"},
+ {73, "ECONNRESET", "connection reset by peer"},
+ {74, "ENOBUFS", "no buffer space available"},
+ {75, "EISCONN", "socket is already connected"},
+ {76, "ENOTCONN", "socket is not connected"},
+ {77, "ESHUTDOWN", "can't send after socket shutdown"},
+ {78, "ETIMEDOUT", "connection timed out"},
+ {79, "ECONNREFUSED", "connection refused"},
+ {80, "EHOSTDOWN", "host is down"},
+ {81, "EHOSTUNREACH", "no route to host"},
+ {82, "ERESTART", "restart the system call"},
+ {83, "EPROCLIM", "too many processes"},
+ {84, "EUSERS", "too many users"},
+ {85, "ELOOP", "too many levels of symbolic links"},
+ {86, "ENAMETOOLONG", "file name too long"},
+ {88, "EDQUOT", "disk quota exceeded"},
+ {89, "ECORRUPT", "invalid file system control data detected"},
+ {90, "ESYSERROR", "for future use "},
+ {93, "EREMOTE", "item is not local to host"},
+ {94, "ENOTRECOVERABLE", "state not recoverable "},
+ {95, "EOWNERDEAD", "previous owner died "},
+ {109, "ENOSYS", "function not implemented"},
+ {110, "EMEDIA", "media surface error"},
+ {111, "ESOFT", "I/O completed, but needs relocation"},
+ {112, "ENOATTR", "no attribute found"},
+ {113, "ESAD", "security Authentication Denied"},
+ {114, "ENOTRUST", "not a Trusted Program"},
+ {115, "ETOOMANYREFS", "too many references: can't splice"},
+ {116, "EILSEQ", "invalid wide character"},
+ {117, "ECANCELED", "asynchronous I/O cancelled"},
+ {118, "ENOSR", "out of STREAMS resources"},
+ {119, "ETIME", "system call timed out"},
+ {120, "EBADMSG", "next message has wrong type"},
+ {121, "EPROTO", "error in protocol"},
+ {122, "ENODATA", "no message on stream head read q"},
+ {123, "ENOSTR", "fd not associated with a stream"},
+ {124, "ENOTSUP", "unsupported attribute value"},
+ {125, "EMULTIHOP", "multihop is not allowed"},
+ {126, "ENOLINK", "the server link has been severed"},
+ {127, "EOVERFLOW", "value too large to be stored in data type"},
+}
+
+// Signal table
+var signalList = [...]struct {
+ num syscall.Signal
+ name string
+ desc string
+}{
+ {1, "SIGHUP", "hangup"},
+ {2, "SIGINT", "interrupt"},
+ {3, "SIGQUIT", "quit"},
+ {4, "SIGILL", "illegal instruction"},
+ {5, "SIGTRAP", "trace/BPT trap"},
+ {6, "SIGIOT", "IOT/Abort trap"},
+ {7, "SIGEMT", "EMT trap"},
+ {8, "SIGFPE", "floating point exception"},
+ {9, "SIGKILL", "killed"},
+ {10, "SIGBUS", "bus error"},
+ {11, "SIGSEGV", "segmentation fault"},
+ {12, "SIGSYS", "bad system call"},
+ {13, "SIGPIPE", "broken pipe"},
+ {14, "SIGALRM", "alarm clock"},
+ {15, "SIGTERM", "terminated"},
+ {16, "SIGURG", "urgent I/O condition"},
+ {17, "SIGSTOP", "stopped (signal)"},
+ {18, "SIGTSTP", "stopped"},
+ {19, "SIGCONT", "continued"},
+ {20, "SIGCHLD", "child exited"},
+ {21, "SIGTTIN", "stopped (tty input)"},
+ {22, "SIGTTOU", "stopped (tty output)"},
+ {23, "SIGIO", "I/O possible/complete"},
+ {24, "SIGXCPU", "cputime limit exceeded"},
+ {25, "SIGXFSZ", "filesize limit exceeded"},
+ {27, "SIGMSG", "input device data"},
+ {28, "SIGWINCH", "window size changes"},
+ {29, "SIGPWR", "power-failure"},
+ {30, "SIGUSR1", "user defined signal 1"},
+ {31, "SIGUSR2", "user defined signal 2"},
+ {32, "SIGPROF", "profiling timer expired"},
+ {33, "SIGDANGER", "paging space low"},
+ {34, "SIGVTALRM", "virtual timer expired"},
+ {35, "SIGMIGRATE", "signal 35"},
+ {36, "SIGPRE", "signal 36"},
+ {37, "SIGVIRT", "signal 37"},
+ {38, "SIGTALRM", "signal 38"},
+ {39, "SIGWAITING", "signal 39"},
+ {48, "SIGSYSERROR", "signal 48"},
+ {49, "SIGCAPI", "signal 49"},
+ {58, "SIGRECONFIG", "signal 58"},
+ {59, "SIGCPUFAIL", "CPU Failure Predicted"},
+ {60, "SIGGRANT", "monitor mode granted"},
+ {61, "SIGRETRACT", "monitor mode retracted"},
+ {62, "SIGSOUND", "sound completed"},
+ {63, "SIGMAX32", "secure attention"},
+ {255, "SIGMAX", "signal 255"},
+}
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_386.go b/vendor/golang.org/x/sys/unix/zerrors_linux_386.go
index 34c9590cb76f7181492519f3ebdaeab432c8ccd9..3800ff37393418135002f83152d42b3d170d81dd 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_386.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_386.go
@@ -977,6 +977,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1891,6 +1906,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2123,6 +2141,21 @@ const (
TUNSETVNETBE = 0x400454de
TUNSETVNETHDRSZ = 0x400454d8
TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go
index 22d9527db9433e50807aef3aac63b806ab3f14e2..9c204cf7b057191bd2a33095cbc14aee0509d4b7 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_amd64.go
@@ -977,6 +977,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1892,6 +1907,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2124,6 +2142,21 @@ const (
TUNSETVNETBE = 0x400454de
TUNSETVNETHDRSZ = 0x400454d8
TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go b/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go
index 0deac0b3996d731646921347c950df52ae1f7e24..03e2b3414de08f1f7a8a2d4443a2e3b833fcbf98 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_arm.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1898,6 +1913,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2130,6 +2148,21 @@ const (
TUNSETVNETBE = 0x400454de
TUNSETVNETHDRSZ = 0x400454d8
TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go
index 3c3917697f15726cdc8a48b15360491c3f58ca78..bc9a8bb9c1b0bff92dba382e98d4d2fb6618c723 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_arm64.go
@@ -978,6 +978,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1883,6 +1898,9 @@ const (
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
SVE_MAGIC = 0x53564501
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2115,6 +2133,21 @@ const (
TUNSETVNETBE = 0x400454de
TUNSETVNETHDRSZ = 0x400454d8
TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go
index c17a0d0f3b092c9ed2525c06fb54d7658095c931..2309829ec5c0fbf957fea58f5205475c4fafd0b7 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1892,6 +1907,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2125,6 +2143,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go
index 7dd9c861254c45fdba4f696d7954a2e61d19d799..0660b02dcaaf532b4b6812aafc5b7ab271721ce8 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1892,6 +1907,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2125,6 +2143,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go
index 1563da142e0f3a2a9a8008fcab55280b95c7d103..2761f2a63a67722e9fb51c9fc1da414973a11469 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mips64le.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1892,6 +1907,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2125,6 +2143,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go b/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go
index 15ece7991adcfebd4809890b11fceda0ee2eb79b..127bf06fd8ed06f4298bc97d33dd79ec9a906aba 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_mipsle.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1892,6 +1907,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2125,6 +2143,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go
index 890ae83accffaf438d441eafdc6d3be265f07ad9..d972fd82709f316d5870b8e34a65cd1fb4bb9b15 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64.go
@@ -974,6 +974,21 @@ const (
MCL_CURRENT = 0x2000
MCL_FUTURE = 0x4000
MCL_ONFAULT = 0x8000
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1947,6 +1962,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2183,6 +2201,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go
index d5b75355ba4b18524e38a3345511a533e93f48b6..b6e169aa76a46c5c5f17bbb64faf9c773c4ca4aa 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_ppc64le.go
@@ -974,6 +974,21 @@ const (
MCL_CURRENT = 0x2000
MCL_FUTURE = 0x4000
MCL_ONFAULT = 0x8000
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1947,6 +1962,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2183,6 +2201,21 @@ const (
TUNSETVNETBE = 0x800454de
TUNSETVNETHDRSZ = 0x800454d8
TUNSETVNETLE = 0x800454dc
+ UBI_IOCATT = 0x80186f40
+ UBI_IOCDET = 0x80046f41
+ UBI_IOCEBCH = 0x80044f02
+ UBI_IOCEBER = 0x80044f01
+ UBI_IOCEBISMAP = 0x40044f05
+ UBI_IOCEBMAP = 0x80084f03
+ UBI_IOCEBUNMAP = 0x80044f04
+ UBI_IOCMKVOL = 0x80986f00
+ UBI_IOCRMVOL = 0x80046f01
+ UBI_IOCRNVOL = 0x91106f03
+ UBI_IOCRSVOL = 0x800c6f02
+ UBI_IOCSETVOLPROP = 0x80104f06
+ UBI_IOCVOLCRBLK = 0x80804f07
+ UBI_IOCVOLRMBLK = 0x20004f08
+ UBI_IOCVOLUP = 0x80084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go b/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go
new file mode 100644
index 0000000000000000000000000000000000000000..de94141fe5ebd118decf4076e6a28eac975c1479
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_riscv64.go
@@ -0,0 +1,2640 @@
+// mkerrors.sh -Wall -Werror -static -I/tmp/include
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build riscv64,linux
+
+// Code generated by cmd/cgo -godefs; DO NOT EDIT.
+// cgo -godefs -- -Wall -Werror -static -I/tmp/include _const.go
+
+package unix
+
+import "syscall"
+
+const (
+ AAFS_MAGIC = 0x5a3c69f0
+ ADFS_SUPER_MAGIC = 0xadf5
+ AFFS_SUPER_MAGIC = 0xadff
+ AFS_FS_MAGIC = 0x6b414653
+ AFS_SUPER_MAGIC = 0x5346414f
+ AF_ALG = 0x26
+ AF_APPLETALK = 0x5
+ AF_ASH = 0x12
+ AF_ATMPVC = 0x8
+ AF_ATMSVC = 0x14
+ AF_AX25 = 0x3
+ AF_BLUETOOTH = 0x1f
+ AF_BRIDGE = 0x7
+ AF_CAIF = 0x25
+ AF_CAN = 0x1d
+ AF_DECnet = 0xc
+ AF_ECONET = 0x13
+ AF_FILE = 0x1
+ AF_IB = 0x1b
+ AF_IEEE802154 = 0x24
+ AF_INET = 0x2
+ AF_INET6 = 0xa
+ AF_IPX = 0x4
+ AF_IRDA = 0x17
+ AF_ISDN = 0x22
+ AF_IUCV = 0x20
+ AF_KCM = 0x29
+ AF_KEY = 0xf
+ AF_LLC = 0x1a
+ AF_LOCAL = 0x1
+ AF_MAX = 0x2c
+ AF_MPLS = 0x1c
+ AF_NETBEUI = 0xd
+ AF_NETLINK = 0x10
+ AF_NETROM = 0x6
+ AF_NFC = 0x27
+ AF_PACKET = 0x11
+ AF_PHONET = 0x23
+ AF_PPPOX = 0x18
+ AF_QIPCRTR = 0x2a
+ AF_RDS = 0x15
+ AF_ROSE = 0xb
+ AF_ROUTE = 0x10
+ AF_RXRPC = 0x21
+ AF_SECURITY = 0xe
+ AF_SMC = 0x2b
+ AF_SNA = 0x16
+ AF_TIPC = 0x1e
+ AF_UNIX = 0x1
+ AF_UNSPEC = 0x0
+ AF_VSOCK = 0x28
+ AF_WANPIPE = 0x19
+ AF_X25 = 0x9
+ ALG_OP_DECRYPT = 0x0
+ ALG_OP_ENCRYPT = 0x1
+ ALG_SET_AEAD_ASSOCLEN = 0x4
+ ALG_SET_AEAD_AUTHSIZE = 0x5
+ ALG_SET_IV = 0x2
+ ALG_SET_KEY = 0x1
+ ALG_SET_OP = 0x3
+ ANON_INODE_FS_MAGIC = 0x9041934
+ ARPHRD_6LOWPAN = 0x339
+ ARPHRD_ADAPT = 0x108
+ ARPHRD_APPLETLK = 0x8
+ ARPHRD_ARCNET = 0x7
+ ARPHRD_ASH = 0x30d
+ ARPHRD_ATM = 0x13
+ ARPHRD_AX25 = 0x3
+ ARPHRD_BIF = 0x307
+ ARPHRD_CAIF = 0x336
+ ARPHRD_CAN = 0x118
+ ARPHRD_CHAOS = 0x5
+ ARPHRD_CISCO = 0x201
+ ARPHRD_CSLIP = 0x101
+ ARPHRD_CSLIP6 = 0x103
+ ARPHRD_DDCMP = 0x205
+ ARPHRD_DLCI = 0xf
+ ARPHRD_ECONET = 0x30e
+ ARPHRD_EETHER = 0x2
+ ARPHRD_ETHER = 0x1
+ ARPHRD_EUI64 = 0x1b
+ ARPHRD_FCAL = 0x311
+ ARPHRD_FCFABRIC = 0x313
+ ARPHRD_FCPL = 0x312
+ ARPHRD_FCPP = 0x310
+ ARPHRD_FDDI = 0x306
+ ARPHRD_FRAD = 0x302
+ ARPHRD_HDLC = 0x201
+ ARPHRD_HIPPI = 0x30c
+ ARPHRD_HWX25 = 0x110
+ ARPHRD_IEEE1394 = 0x18
+ ARPHRD_IEEE802 = 0x6
+ ARPHRD_IEEE80211 = 0x321
+ ARPHRD_IEEE80211_PRISM = 0x322
+ ARPHRD_IEEE80211_RADIOTAP = 0x323
+ ARPHRD_IEEE802154 = 0x324
+ ARPHRD_IEEE802154_MONITOR = 0x325
+ ARPHRD_IEEE802_TR = 0x320
+ ARPHRD_INFINIBAND = 0x20
+ ARPHRD_IP6GRE = 0x337
+ ARPHRD_IPDDP = 0x309
+ ARPHRD_IPGRE = 0x30a
+ ARPHRD_IRDA = 0x30f
+ ARPHRD_LAPB = 0x204
+ ARPHRD_LOCALTLK = 0x305
+ ARPHRD_LOOPBACK = 0x304
+ ARPHRD_METRICOM = 0x17
+ ARPHRD_NETLINK = 0x338
+ ARPHRD_NETROM = 0x0
+ ARPHRD_NONE = 0xfffe
+ ARPHRD_PHONET = 0x334
+ ARPHRD_PHONET_PIPE = 0x335
+ ARPHRD_PIMREG = 0x30b
+ ARPHRD_PPP = 0x200
+ ARPHRD_PRONET = 0x4
+ ARPHRD_RAWHDLC = 0x206
+ ARPHRD_RAWIP = 0x207
+ ARPHRD_ROSE = 0x10e
+ ARPHRD_RSRVD = 0x104
+ ARPHRD_SIT = 0x308
+ ARPHRD_SKIP = 0x303
+ ARPHRD_SLIP = 0x100
+ ARPHRD_SLIP6 = 0x102
+ ARPHRD_TUNNEL = 0x300
+ ARPHRD_TUNNEL6 = 0x301
+ ARPHRD_VOID = 0xffff
+ ARPHRD_VSOCKMON = 0x33a
+ ARPHRD_X25 = 0x10f
+ AUTOFS_SUPER_MAGIC = 0x187
+ B0 = 0x0
+ B1000000 = 0x1008
+ B110 = 0x3
+ B115200 = 0x1002
+ B1152000 = 0x1009
+ B1200 = 0x9
+ B134 = 0x4
+ B150 = 0x5
+ B1500000 = 0x100a
+ B1800 = 0xa
+ B19200 = 0xe
+ B200 = 0x6
+ B2000000 = 0x100b
+ B230400 = 0x1003
+ B2400 = 0xb
+ B2500000 = 0x100c
+ B300 = 0x7
+ B3000000 = 0x100d
+ B3500000 = 0x100e
+ B38400 = 0xf
+ B4000000 = 0x100f
+ B460800 = 0x1004
+ B4800 = 0xc
+ B50 = 0x1
+ B500000 = 0x1005
+ B57600 = 0x1001
+ B576000 = 0x1006
+ B600 = 0x8
+ B75 = 0x2
+ B921600 = 0x1007
+ B9600 = 0xd
+ BALLOON_KVM_MAGIC = 0x13661366
+ BDEVFS_MAGIC = 0x62646576
+ BINFMTFS_MAGIC = 0x42494e4d
+ BLKBSZGET = 0x80081270
+ BLKBSZSET = 0x40081271
+ BLKFLSBUF = 0x1261
+ BLKFRAGET = 0x1265
+ BLKFRASET = 0x1264
+ BLKGETSIZE = 0x1260
+ BLKGETSIZE64 = 0x80081272
+ BLKPBSZGET = 0x127b
+ BLKRAGET = 0x1263
+ BLKRASET = 0x1262
+ BLKROGET = 0x125e
+ BLKROSET = 0x125d
+ BLKRRPART = 0x125f
+ BLKSECTGET = 0x1267
+ BLKSECTSET = 0x1266
+ BLKSSZGET = 0x1268
+ BOTHER = 0x1000
+ BPF_A = 0x10
+ BPF_ABS = 0x20
+ BPF_ADD = 0x0
+ BPF_ALU = 0x4
+ BPF_AND = 0x50
+ BPF_B = 0x10
+ BPF_DIV = 0x30
+ BPF_FS_MAGIC = 0xcafe4a11
+ BPF_H = 0x8
+ BPF_IMM = 0x0
+ BPF_IND = 0x40
+ BPF_JA = 0x0
+ BPF_JEQ = 0x10
+ BPF_JGE = 0x30
+ BPF_JGT = 0x20
+ BPF_JMP = 0x5
+ BPF_JSET = 0x40
+ BPF_K = 0x0
+ BPF_LD = 0x0
+ BPF_LDX = 0x1
+ BPF_LEN = 0x80
+ BPF_LL_OFF = -0x200000
+ BPF_LSH = 0x60
+ BPF_MAJOR_VERSION = 0x1
+ BPF_MAXINSNS = 0x1000
+ BPF_MEM = 0x60
+ BPF_MEMWORDS = 0x10
+ BPF_MINOR_VERSION = 0x1
+ BPF_MISC = 0x7
+ BPF_MOD = 0x90
+ BPF_MSH = 0xa0
+ BPF_MUL = 0x20
+ BPF_NEG = 0x80
+ BPF_NET_OFF = -0x100000
+ BPF_OR = 0x40
+ BPF_RET = 0x6
+ BPF_RSH = 0x70
+ BPF_ST = 0x2
+ BPF_STX = 0x3
+ BPF_SUB = 0x10
+ BPF_TAX = 0x0
+ BPF_TXA = 0x80
+ BPF_W = 0x0
+ BPF_X = 0x8
+ BPF_XOR = 0xa0
+ BRKINT = 0x2
+ BS0 = 0x0
+ BS1 = 0x2000
+ BSDLY = 0x2000
+ BTRFS_SUPER_MAGIC = 0x9123683e
+ BTRFS_TEST_MAGIC = 0x73727279
+ CAN_BCM = 0x2
+ CAN_EFF_FLAG = 0x80000000
+ CAN_EFF_ID_BITS = 0x1d
+ CAN_EFF_MASK = 0x1fffffff
+ CAN_ERR_FLAG = 0x20000000
+ CAN_ERR_MASK = 0x1fffffff
+ CAN_INV_FILTER = 0x20000000
+ CAN_ISOTP = 0x6
+ CAN_MAX_DLC = 0x8
+ CAN_MAX_DLEN = 0x8
+ CAN_MCNET = 0x5
+ CAN_MTU = 0x10
+ CAN_NPROTO = 0x7
+ CAN_RAW = 0x1
+ CAN_RAW_FILTER_MAX = 0x200
+ CAN_RTR_FLAG = 0x40000000
+ CAN_SFF_ID_BITS = 0xb
+ CAN_SFF_MASK = 0x7ff
+ CAN_TP16 = 0x3
+ CAN_TP20 = 0x4
+ CBAUD = 0x100f
+ CBAUDEX = 0x1000
+ CFLUSH = 0xf
+ CGROUP2_SUPER_MAGIC = 0x63677270
+ CGROUP_SUPER_MAGIC = 0x27e0eb
+ CIBAUD = 0x100f0000
+ CLOCAL = 0x800
+ CLOCK_BOOTTIME = 0x7
+ CLOCK_BOOTTIME_ALARM = 0x9
+ CLOCK_DEFAULT = 0x0
+ CLOCK_EXT = 0x1
+ CLOCK_INT = 0x2
+ CLOCK_MONOTONIC = 0x1
+ CLOCK_MONOTONIC_COARSE = 0x6
+ CLOCK_MONOTONIC_RAW = 0x4
+ CLOCK_PROCESS_CPUTIME_ID = 0x2
+ CLOCK_REALTIME = 0x0
+ CLOCK_REALTIME_ALARM = 0x8
+ CLOCK_REALTIME_COARSE = 0x5
+ CLOCK_TAI = 0xb
+ CLOCK_THREAD_CPUTIME_ID = 0x3
+ CLOCK_TXFROMRX = 0x4
+ CLOCK_TXINT = 0x3
+ CLONE_CHILD_CLEARTID = 0x200000
+ CLONE_CHILD_SETTID = 0x1000000
+ CLONE_DETACHED = 0x400000
+ CLONE_FILES = 0x400
+ CLONE_FS = 0x200
+ CLONE_IO = 0x80000000
+ CLONE_NEWCGROUP = 0x2000000
+ CLONE_NEWIPC = 0x8000000
+ CLONE_NEWNET = 0x40000000
+ CLONE_NEWNS = 0x20000
+ CLONE_NEWPID = 0x20000000
+ CLONE_NEWUSER = 0x10000000
+ CLONE_NEWUTS = 0x4000000
+ CLONE_PARENT = 0x8000
+ CLONE_PARENT_SETTID = 0x100000
+ CLONE_PTRACE = 0x2000
+ CLONE_SETTLS = 0x80000
+ CLONE_SIGHAND = 0x800
+ CLONE_SYSVSEM = 0x40000
+ CLONE_THREAD = 0x10000
+ CLONE_UNTRACED = 0x800000
+ CLONE_VFORK = 0x4000
+ CLONE_VM = 0x100
+ CMSPAR = 0x40000000
+ CODA_SUPER_MAGIC = 0x73757245
+ CR0 = 0x0
+ CR1 = 0x200
+ CR2 = 0x400
+ CR3 = 0x600
+ CRAMFS_MAGIC = 0x28cd3d45
+ CRDLY = 0x600
+ CREAD = 0x80
+ CRTSCTS = 0x80000000
+ CS5 = 0x0
+ CS6 = 0x10
+ CS7 = 0x20
+ CS8 = 0x30
+ CSIGNAL = 0xff
+ CSIZE = 0x30
+ CSTART = 0x11
+ CSTATUS = 0x0
+ CSTOP = 0x13
+ CSTOPB = 0x40
+ CSUSP = 0x1a
+ DAXFS_MAGIC = 0x64646178
+ DEBUGFS_MAGIC = 0x64626720
+ DEVPTS_SUPER_MAGIC = 0x1cd1
+ DT_BLK = 0x6
+ DT_CHR = 0x2
+ DT_DIR = 0x4
+ DT_FIFO = 0x1
+ DT_LNK = 0xa
+ DT_REG = 0x8
+ DT_SOCK = 0xc
+ DT_UNKNOWN = 0x0
+ DT_WHT = 0xe
+ ECHO = 0x8
+ ECHOCTL = 0x200
+ ECHOE = 0x10
+ ECHOK = 0x20
+ ECHOKE = 0x800
+ ECHONL = 0x40
+ ECHOPRT = 0x400
+ ECRYPTFS_SUPER_MAGIC = 0xf15f
+ EFD_CLOEXEC = 0x80000
+ EFD_NONBLOCK = 0x800
+ EFD_SEMAPHORE = 0x1
+ EFIVARFS_MAGIC = 0xde5e81e4
+ EFS_SUPER_MAGIC = 0x414a53
+ ENCODING_DEFAULT = 0x0
+ ENCODING_FM_MARK = 0x3
+ ENCODING_FM_SPACE = 0x4
+ ENCODING_MANCHESTER = 0x5
+ ENCODING_NRZ = 0x1
+ ENCODING_NRZI = 0x2
+ EPOLLERR = 0x8
+ EPOLLET = 0x80000000
+ EPOLLEXCLUSIVE = 0x10000000
+ EPOLLHUP = 0x10
+ EPOLLIN = 0x1
+ EPOLLMSG = 0x400
+ EPOLLONESHOT = 0x40000000
+ EPOLLOUT = 0x4
+ EPOLLPRI = 0x2
+ EPOLLRDBAND = 0x80
+ EPOLLRDHUP = 0x2000
+ EPOLLRDNORM = 0x40
+ EPOLLWAKEUP = 0x20000000
+ EPOLLWRBAND = 0x200
+ EPOLLWRNORM = 0x100
+ EPOLL_CLOEXEC = 0x80000
+ EPOLL_CTL_ADD = 0x1
+ EPOLL_CTL_DEL = 0x2
+ EPOLL_CTL_MOD = 0x3
+ ETH_P_1588 = 0x88f7
+ ETH_P_8021AD = 0x88a8
+ ETH_P_8021AH = 0x88e7
+ ETH_P_8021Q = 0x8100
+ ETH_P_80221 = 0x8917
+ ETH_P_802_2 = 0x4
+ ETH_P_802_3 = 0x1
+ ETH_P_802_3_MIN = 0x600
+ ETH_P_802_EX1 = 0x88b5
+ ETH_P_AARP = 0x80f3
+ ETH_P_AF_IUCV = 0xfbfb
+ ETH_P_ALL = 0x3
+ ETH_P_AOE = 0x88a2
+ ETH_P_ARCNET = 0x1a
+ ETH_P_ARP = 0x806
+ ETH_P_ATALK = 0x809b
+ ETH_P_ATMFATE = 0x8884
+ ETH_P_ATMMPOA = 0x884c
+ ETH_P_AX25 = 0x2
+ ETH_P_BATMAN = 0x4305
+ ETH_P_BPQ = 0x8ff
+ ETH_P_CAIF = 0xf7
+ ETH_P_CAN = 0xc
+ ETH_P_CANFD = 0xd
+ ETH_P_CONTROL = 0x16
+ ETH_P_CUST = 0x6006
+ ETH_P_DDCMP = 0x6
+ ETH_P_DEC = 0x6000
+ ETH_P_DIAG = 0x6005
+ ETH_P_DNA_DL = 0x6001
+ ETH_P_DNA_RC = 0x6002
+ ETH_P_DNA_RT = 0x6003
+ ETH_P_DSA = 0x1b
+ ETH_P_ECONET = 0x18
+ ETH_P_EDSA = 0xdada
+ ETH_P_ERSPAN = 0x88be
+ ETH_P_ERSPAN2 = 0x22eb
+ ETH_P_FCOE = 0x8906
+ ETH_P_FIP = 0x8914
+ ETH_P_HDLC = 0x19
+ ETH_P_HSR = 0x892f
+ ETH_P_IBOE = 0x8915
+ ETH_P_IEEE802154 = 0xf6
+ ETH_P_IEEEPUP = 0xa00
+ ETH_P_IEEEPUPAT = 0xa01
+ ETH_P_IFE = 0xed3e
+ ETH_P_IP = 0x800
+ ETH_P_IPV6 = 0x86dd
+ ETH_P_IPX = 0x8137
+ ETH_P_IRDA = 0x17
+ ETH_P_LAT = 0x6004
+ ETH_P_LINK_CTL = 0x886c
+ ETH_P_LOCALTALK = 0x9
+ ETH_P_LOOP = 0x60
+ ETH_P_LOOPBACK = 0x9000
+ ETH_P_MACSEC = 0x88e5
+ ETH_P_MAP = 0xf9
+ ETH_P_MOBITEX = 0x15
+ ETH_P_MPLS_MC = 0x8848
+ ETH_P_MPLS_UC = 0x8847
+ ETH_P_MVRP = 0x88f5
+ ETH_P_NCSI = 0x88f8
+ ETH_P_NSH = 0x894f
+ ETH_P_PAE = 0x888e
+ ETH_P_PAUSE = 0x8808
+ ETH_P_PHONET = 0xf5
+ ETH_P_PPPTALK = 0x10
+ ETH_P_PPP_DISC = 0x8863
+ ETH_P_PPP_MP = 0x8
+ ETH_P_PPP_SES = 0x8864
+ ETH_P_PREAUTH = 0x88c7
+ ETH_P_PRP = 0x88fb
+ ETH_P_PUP = 0x200
+ ETH_P_PUPAT = 0x201
+ ETH_P_QINQ1 = 0x9100
+ ETH_P_QINQ2 = 0x9200
+ ETH_P_QINQ3 = 0x9300
+ ETH_P_RARP = 0x8035
+ ETH_P_SCA = 0x6007
+ ETH_P_SLOW = 0x8809
+ ETH_P_SNAP = 0x5
+ ETH_P_TDLS = 0x890d
+ ETH_P_TEB = 0x6558
+ ETH_P_TIPC = 0x88ca
+ ETH_P_TRAILER = 0x1c
+ ETH_P_TR_802_2 = 0x11
+ ETH_P_TSN = 0x22f0
+ ETH_P_WAN_PPP = 0x7
+ ETH_P_WCCP = 0x883e
+ ETH_P_X25 = 0x805
+ ETH_P_XDSA = 0xf8
+ EXABYTE_ENABLE_NEST = 0xf0
+ EXT2_SUPER_MAGIC = 0xef53
+ EXT3_SUPER_MAGIC = 0xef53
+ EXT4_SUPER_MAGIC = 0xef53
+ EXTA = 0xe
+ EXTB = 0xf
+ EXTPROC = 0x10000
+ F2FS_SUPER_MAGIC = 0xf2f52010
+ FALLOC_FL_COLLAPSE_RANGE = 0x8
+ FALLOC_FL_INSERT_RANGE = 0x20
+ FALLOC_FL_KEEP_SIZE = 0x1
+ FALLOC_FL_NO_HIDE_STALE = 0x4
+ FALLOC_FL_PUNCH_HOLE = 0x2
+ FALLOC_FL_UNSHARE_RANGE = 0x40
+ FALLOC_FL_ZERO_RANGE = 0x10
+ FD_CLOEXEC = 0x1
+ FD_SETSIZE = 0x400
+ FF0 = 0x0
+ FF1 = 0x8000
+ FFDLY = 0x8000
+ FLUSHO = 0x1000
+ FS_ENCRYPTION_MODE_AES_128_CBC = 0x5
+ FS_ENCRYPTION_MODE_AES_128_CTS = 0x6
+ FS_ENCRYPTION_MODE_AES_256_CBC = 0x3
+ FS_ENCRYPTION_MODE_AES_256_CTS = 0x4
+ FS_ENCRYPTION_MODE_AES_256_GCM = 0x2
+ FS_ENCRYPTION_MODE_AES_256_XTS = 0x1
+ FS_ENCRYPTION_MODE_INVALID = 0x0
+ FS_ENCRYPTION_MODE_SPECK128_256_CTS = 0x8
+ FS_ENCRYPTION_MODE_SPECK128_256_XTS = 0x7
+ FS_IOC_GET_ENCRYPTION_POLICY = 0x400c6615
+ FS_IOC_GET_ENCRYPTION_PWSALT = 0x40106614
+ FS_IOC_SET_ENCRYPTION_POLICY = 0x800c6613
+ FS_KEY_DESCRIPTOR_SIZE = 0x8
+ FS_KEY_DESC_PREFIX = "fscrypt:"
+ FS_KEY_DESC_PREFIX_SIZE = 0x8
+ FS_MAX_KEY_SIZE = 0x40
+ FS_POLICY_FLAGS_PAD_16 = 0x2
+ FS_POLICY_FLAGS_PAD_32 = 0x3
+ FS_POLICY_FLAGS_PAD_4 = 0x0
+ FS_POLICY_FLAGS_PAD_8 = 0x1
+ FS_POLICY_FLAGS_PAD_MASK = 0x3
+ FS_POLICY_FLAGS_VALID = 0x3
+ FUTEXFS_SUPER_MAGIC = 0xbad1dea
+ F_ADD_SEALS = 0x409
+ F_DUPFD = 0x0
+ F_DUPFD_CLOEXEC = 0x406
+ F_EXLCK = 0x4
+ F_GETFD = 0x1
+ F_GETFL = 0x3
+ F_GETLEASE = 0x401
+ F_GETLK = 0x5
+ F_GETLK64 = 0x5
+ F_GETOWN = 0x9
+ F_GETOWN_EX = 0x10
+ F_GETPIPE_SZ = 0x408
+ F_GETSIG = 0xb
+ F_GET_FILE_RW_HINT = 0x40d
+ F_GET_RW_HINT = 0x40b
+ F_GET_SEALS = 0x40a
+ F_LOCK = 0x1
+ F_NOTIFY = 0x402
+ F_OFD_GETLK = 0x24
+ F_OFD_SETLK = 0x25
+ F_OFD_SETLKW = 0x26
+ F_OK = 0x0
+ F_RDLCK = 0x0
+ F_SEAL_GROW = 0x4
+ F_SEAL_SEAL = 0x1
+ F_SEAL_SHRINK = 0x2
+ F_SEAL_WRITE = 0x8
+ F_SETFD = 0x2
+ F_SETFL = 0x4
+ F_SETLEASE = 0x400
+ F_SETLK = 0x6
+ F_SETLK64 = 0x6
+ F_SETLKW = 0x7
+ F_SETLKW64 = 0x7
+ F_SETOWN = 0x8
+ F_SETOWN_EX = 0xf
+ F_SETPIPE_SZ = 0x407
+ F_SETSIG = 0xa
+ F_SET_FILE_RW_HINT = 0x40e
+ F_SET_RW_HINT = 0x40c
+ F_SHLCK = 0x8
+ F_TEST = 0x3
+ F_TLOCK = 0x2
+ F_ULOCK = 0x0
+ F_UNLCK = 0x2
+ F_WRLCK = 0x1
+ GENL_ADMIN_PERM = 0x1
+ GENL_CMD_CAP_DO = 0x2
+ GENL_CMD_CAP_DUMP = 0x4
+ GENL_CMD_CAP_HASPOL = 0x8
+ GENL_HDRLEN = 0x4
+ GENL_ID_CTRL = 0x10
+ GENL_ID_PMCRAID = 0x12
+ GENL_ID_VFS_DQUOT = 0x11
+ GENL_MAX_ID = 0x3ff
+ GENL_MIN_ID = 0x10
+ GENL_NAMSIZ = 0x10
+ GENL_START_ALLOC = 0x13
+ GENL_UNS_ADMIN_PERM = 0x10
+ GRND_NONBLOCK = 0x1
+ GRND_RANDOM = 0x2
+ HDIO_DRIVE_CMD = 0x31f
+ HDIO_DRIVE_CMD_AEB = 0x31e
+ HDIO_DRIVE_CMD_HDR_SIZE = 0x4
+ HDIO_DRIVE_HOB_HDR_SIZE = 0x8
+ HDIO_DRIVE_RESET = 0x31c
+ HDIO_DRIVE_TASK = 0x31e
+ HDIO_DRIVE_TASKFILE = 0x31d
+ HDIO_DRIVE_TASK_HDR_SIZE = 0x8
+ HDIO_GETGEO = 0x301
+ HDIO_GET_32BIT = 0x309
+ HDIO_GET_ACOUSTIC = 0x30f
+ HDIO_GET_ADDRESS = 0x310
+ HDIO_GET_BUSSTATE = 0x31a
+ HDIO_GET_DMA = 0x30b
+ HDIO_GET_IDENTITY = 0x30d
+ HDIO_GET_KEEPSETTINGS = 0x308
+ HDIO_GET_MULTCOUNT = 0x304
+ HDIO_GET_NICE = 0x30c
+ HDIO_GET_NOWERR = 0x30a
+ HDIO_GET_QDMA = 0x305
+ HDIO_GET_UNMASKINTR = 0x302
+ HDIO_GET_WCACHE = 0x30e
+ HDIO_OBSOLETE_IDENTITY = 0x307
+ HDIO_SCAN_HWIF = 0x328
+ HDIO_SET_32BIT = 0x324
+ HDIO_SET_ACOUSTIC = 0x32c
+ HDIO_SET_ADDRESS = 0x32f
+ HDIO_SET_BUSSTATE = 0x32d
+ HDIO_SET_DMA = 0x326
+ HDIO_SET_KEEPSETTINGS = 0x323
+ HDIO_SET_MULTCOUNT = 0x321
+ HDIO_SET_NICE = 0x329
+ HDIO_SET_NOWERR = 0x325
+ HDIO_SET_PIO_MODE = 0x327
+ HDIO_SET_QDMA = 0x32e
+ HDIO_SET_UNMASKINTR = 0x322
+ HDIO_SET_WCACHE = 0x32b
+ HDIO_SET_XFER = 0x306
+ HDIO_TRISTATE_HWIF = 0x31b
+ HDIO_UNREGISTER_HWIF = 0x32a
+ HOSTFS_SUPER_MAGIC = 0xc0ffee
+ HPFS_SUPER_MAGIC = 0xf995e849
+ HUGETLBFS_MAGIC = 0x958458f6
+ HUPCL = 0x400
+ IBSHIFT = 0x10
+ ICANON = 0x2
+ ICMPV6_FILTER = 0x1
+ ICRNL = 0x100
+ IEXTEN = 0x8000
+ IFA_F_DADFAILED = 0x8
+ IFA_F_DEPRECATED = 0x20
+ IFA_F_HOMEADDRESS = 0x10
+ IFA_F_MANAGETEMPADDR = 0x100
+ IFA_F_MCAUTOJOIN = 0x400
+ IFA_F_NODAD = 0x2
+ IFA_F_NOPREFIXROUTE = 0x200
+ IFA_F_OPTIMISTIC = 0x4
+ IFA_F_PERMANENT = 0x80
+ IFA_F_SECONDARY = 0x1
+ IFA_F_STABLE_PRIVACY = 0x800
+ IFA_F_TEMPORARY = 0x1
+ IFA_F_TENTATIVE = 0x40
+ IFA_MAX = 0x9
+ IFF_ALLMULTI = 0x200
+ IFF_ATTACH_QUEUE = 0x200
+ IFF_AUTOMEDIA = 0x4000
+ IFF_BROADCAST = 0x2
+ IFF_DEBUG = 0x4
+ IFF_DETACH_QUEUE = 0x400
+ IFF_DORMANT = 0x20000
+ IFF_DYNAMIC = 0x8000
+ IFF_ECHO = 0x40000
+ IFF_LOOPBACK = 0x8
+ IFF_LOWER_UP = 0x10000
+ IFF_MASTER = 0x400
+ IFF_MULTICAST = 0x1000
+ IFF_MULTI_QUEUE = 0x100
+ IFF_NAPI = 0x10
+ IFF_NAPI_FRAGS = 0x20
+ IFF_NOARP = 0x80
+ IFF_NOFILTER = 0x1000
+ IFF_NOTRAILERS = 0x20
+ IFF_NO_PI = 0x1000
+ IFF_ONE_QUEUE = 0x2000
+ IFF_PERSIST = 0x800
+ IFF_POINTOPOINT = 0x10
+ IFF_PORTSEL = 0x2000
+ IFF_PROMISC = 0x100
+ IFF_RUNNING = 0x40
+ IFF_SLAVE = 0x800
+ IFF_TAP = 0x2
+ IFF_TUN = 0x1
+ IFF_TUN_EXCL = 0x8000
+ IFF_UP = 0x1
+ IFF_VNET_HDR = 0x4000
+ IFF_VOLATILE = 0x70c5a
+ IFNAMSIZ = 0x10
+ IGNBRK = 0x1
+ IGNCR = 0x80
+ IGNPAR = 0x4
+ IMAXBEL = 0x2000
+ INLCR = 0x40
+ INPCK = 0x10
+ IN_ACCESS = 0x1
+ IN_ALL_EVENTS = 0xfff
+ IN_ATTRIB = 0x4
+ IN_CLASSA_HOST = 0xffffff
+ IN_CLASSA_MAX = 0x80
+ IN_CLASSA_NET = 0xff000000
+ IN_CLASSA_NSHIFT = 0x18
+ IN_CLASSB_HOST = 0xffff
+ IN_CLASSB_MAX = 0x10000
+ IN_CLASSB_NET = 0xffff0000
+ IN_CLASSB_NSHIFT = 0x10
+ IN_CLASSC_HOST = 0xff
+ IN_CLASSC_NET = 0xffffff00
+ IN_CLASSC_NSHIFT = 0x8
+ IN_CLOEXEC = 0x80000
+ IN_CLOSE = 0x18
+ IN_CLOSE_NOWRITE = 0x10
+ IN_CLOSE_WRITE = 0x8
+ IN_CREATE = 0x100
+ IN_DELETE = 0x200
+ IN_DELETE_SELF = 0x400
+ IN_DONT_FOLLOW = 0x2000000
+ IN_EXCL_UNLINK = 0x4000000
+ IN_IGNORED = 0x8000
+ IN_ISDIR = 0x40000000
+ IN_LOOPBACKNET = 0x7f
+ IN_MASK_ADD = 0x20000000
+ IN_MODIFY = 0x2
+ IN_MOVE = 0xc0
+ IN_MOVED_FROM = 0x40
+ IN_MOVED_TO = 0x80
+ IN_MOVE_SELF = 0x800
+ IN_NONBLOCK = 0x800
+ IN_ONESHOT = 0x80000000
+ IN_ONLYDIR = 0x1000000
+ IN_OPEN = 0x20
+ IN_Q_OVERFLOW = 0x4000
+ IN_UNMOUNT = 0x2000
+ IOCTL_VM_SOCKETS_GET_LOCAL_CID = 0x7b9
+ IPPROTO_AH = 0x33
+ IPPROTO_BEETPH = 0x5e
+ IPPROTO_COMP = 0x6c
+ IPPROTO_DCCP = 0x21
+ IPPROTO_DSTOPTS = 0x3c
+ IPPROTO_EGP = 0x8
+ IPPROTO_ENCAP = 0x62
+ IPPROTO_ESP = 0x32
+ IPPROTO_FRAGMENT = 0x2c
+ IPPROTO_GRE = 0x2f
+ IPPROTO_HOPOPTS = 0x0
+ IPPROTO_ICMP = 0x1
+ IPPROTO_ICMPV6 = 0x3a
+ IPPROTO_IDP = 0x16
+ IPPROTO_IGMP = 0x2
+ IPPROTO_IP = 0x0
+ IPPROTO_IPIP = 0x4
+ IPPROTO_IPV6 = 0x29
+ IPPROTO_MH = 0x87
+ IPPROTO_MPLS = 0x89
+ IPPROTO_MTP = 0x5c
+ IPPROTO_NONE = 0x3b
+ IPPROTO_PIM = 0x67
+ IPPROTO_PUP = 0xc
+ IPPROTO_RAW = 0xff
+ IPPROTO_ROUTING = 0x2b
+ IPPROTO_RSVP = 0x2e
+ IPPROTO_SCTP = 0x84
+ IPPROTO_TCP = 0x6
+ IPPROTO_TP = 0x1d
+ IPPROTO_UDP = 0x11
+ IPPROTO_UDPLITE = 0x88
+ IPV6_2292DSTOPTS = 0x4
+ IPV6_2292HOPLIMIT = 0x8
+ IPV6_2292HOPOPTS = 0x3
+ IPV6_2292PKTINFO = 0x2
+ IPV6_2292PKTOPTIONS = 0x6
+ IPV6_2292RTHDR = 0x5
+ IPV6_ADDRFORM = 0x1
+ IPV6_ADDR_PREFERENCES = 0x48
+ IPV6_ADD_MEMBERSHIP = 0x14
+ IPV6_AUTHHDR = 0xa
+ IPV6_AUTOFLOWLABEL = 0x46
+ IPV6_CHECKSUM = 0x7
+ IPV6_DONTFRAG = 0x3e
+ IPV6_DROP_MEMBERSHIP = 0x15
+ IPV6_DSTOPTS = 0x3b
+ IPV6_FREEBIND = 0x4e
+ IPV6_HDRINCL = 0x24
+ IPV6_HOPLIMIT = 0x34
+ IPV6_HOPOPTS = 0x36
+ IPV6_IPSEC_POLICY = 0x22
+ IPV6_JOIN_ANYCAST = 0x1b
+ IPV6_JOIN_GROUP = 0x14
+ IPV6_LEAVE_ANYCAST = 0x1c
+ IPV6_LEAVE_GROUP = 0x15
+ IPV6_MINHOPCOUNT = 0x49
+ IPV6_MTU = 0x18
+ IPV6_MTU_DISCOVER = 0x17
+ IPV6_MULTICAST_HOPS = 0x12
+ IPV6_MULTICAST_IF = 0x11
+ IPV6_MULTICAST_LOOP = 0x13
+ IPV6_NEXTHOP = 0x9
+ IPV6_ORIGDSTADDR = 0x4a
+ IPV6_PATHMTU = 0x3d
+ IPV6_PKTINFO = 0x32
+ IPV6_PMTUDISC_DO = 0x2
+ IPV6_PMTUDISC_DONT = 0x0
+ IPV6_PMTUDISC_INTERFACE = 0x4
+ IPV6_PMTUDISC_OMIT = 0x5
+ IPV6_PMTUDISC_PROBE = 0x3
+ IPV6_PMTUDISC_WANT = 0x1
+ IPV6_RECVDSTOPTS = 0x3a
+ IPV6_RECVERR = 0x19
+ IPV6_RECVFRAGSIZE = 0x4d
+ IPV6_RECVHOPLIMIT = 0x33
+ IPV6_RECVHOPOPTS = 0x35
+ IPV6_RECVORIGDSTADDR = 0x4a
+ IPV6_RECVPATHMTU = 0x3c
+ IPV6_RECVPKTINFO = 0x31
+ IPV6_RECVRTHDR = 0x38
+ IPV6_RECVTCLASS = 0x42
+ IPV6_ROUTER_ALERT = 0x16
+ IPV6_RTHDR = 0x39
+ IPV6_RTHDRDSTOPTS = 0x37
+ IPV6_RTHDR_LOOSE = 0x0
+ IPV6_RTHDR_STRICT = 0x1
+ IPV6_RTHDR_TYPE_0 = 0x0
+ IPV6_RXDSTOPTS = 0x3b
+ IPV6_RXHOPOPTS = 0x36
+ IPV6_TCLASS = 0x43
+ IPV6_TRANSPARENT = 0x4b
+ IPV6_UNICAST_HOPS = 0x10
+ IPV6_UNICAST_IF = 0x4c
+ IPV6_V6ONLY = 0x1a
+ IPV6_XFRM_POLICY = 0x23
+ IP_ADD_MEMBERSHIP = 0x23
+ IP_ADD_SOURCE_MEMBERSHIP = 0x27
+ IP_BIND_ADDRESS_NO_PORT = 0x18
+ IP_BLOCK_SOURCE = 0x26
+ IP_CHECKSUM = 0x17
+ IP_DEFAULT_MULTICAST_LOOP = 0x1
+ IP_DEFAULT_MULTICAST_TTL = 0x1
+ IP_DF = 0x4000
+ IP_DROP_MEMBERSHIP = 0x24
+ IP_DROP_SOURCE_MEMBERSHIP = 0x28
+ IP_FREEBIND = 0xf
+ IP_HDRINCL = 0x3
+ IP_IPSEC_POLICY = 0x10
+ IP_MAXPACKET = 0xffff
+ IP_MAX_MEMBERSHIPS = 0x14
+ IP_MF = 0x2000
+ IP_MINTTL = 0x15
+ IP_MSFILTER = 0x29
+ IP_MSS = 0x240
+ IP_MTU = 0xe
+ IP_MTU_DISCOVER = 0xa
+ IP_MULTICAST_ALL = 0x31
+ IP_MULTICAST_IF = 0x20
+ IP_MULTICAST_LOOP = 0x22
+ IP_MULTICAST_TTL = 0x21
+ IP_NODEFRAG = 0x16
+ IP_OFFMASK = 0x1fff
+ IP_OPTIONS = 0x4
+ IP_ORIGDSTADDR = 0x14
+ IP_PASSSEC = 0x12
+ IP_PKTINFO = 0x8
+ IP_PKTOPTIONS = 0x9
+ IP_PMTUDISC = 0xa
+ IP_PMTUDISC_DO = 0x2
+ IP_PMTUDISC_DONT = 0x0
+ IP_PMTUDISC_INTERFACE = 0x4
+ IP_PMTUDISC_OMIT = 0x5
+ IP_PMTUDISC_PROBE = 0x3
+ IP_PMTUDISC_WANT = 0x1
+ IP_RECVERR = 0xb
+ IP_RECVFRAGSIZE = 0x19
+ IP_RECVOPTS = 0x6
+ IP_RECVORIGDSTADDR = 0x14
+ IP_RECVRETOPTS = 0x7
+ IP_RECVTOS = 0xd
+ IP_RECVTTL = 0xc
+ IP_RETOPTS = 0x7
+ IP_RF = 0x8000
+ IP_ROUTER_ALERT = 0x5
+ IP_TOS = 0x1
+ IP_TRANSPARENT = 0x13
+ IP_TTL = 0x2
+ IP_UNBLOCK_SOURCE = 0x25
+ IP_UNICAST_IF = 0x32
+ IP_XFRM_POLICY = 0x11
+ ISIG = 0x1
+ ISOFS_SUPER_MAGIC = 0x9660
+ ISTRIP = 0x20
+ IUCLC = 0x200
+ IUTF8 = 0x4000
+ IXANY = 0x800
+ IXOFF = 0x1000
+ IXON = 0x400
+ JFFS2_SUPER_MAGIC = 0x72b6
+ KEYCTL_ASSUME_AUTHORITY = 0x10
+ KEYCTL_CHOWN = 0x4
+ KEYCTL_CLEAR = 0x7
+ KEYCTL_DESCRIBE = 0x6
+ KEYCTL_DH_COMPUTE = 0x17
+ KEYCTL_GET_KEYRING_ID = 0x0
+ KEYCTL_GET_PERSISTENT = 0x16
+ KEYCTL_GET_SECURITY = 0x11
+ KEYCTL_INSTANTIATE = 0xc
+ KEYCTL_INSTANTIATE_IOV = 0x14
+ KEYCTL_INVALIDATE = 0x15
+ KEYCTL_JOIN_SESSION_KEYRING = 0x1
+ KEYCTL_LINK = 0x8
+ KEYCTL_NEGATE = 0xd
+ KEYCTL_READ = 0xb
+ KEYCTL_REJECT = 0x13
+ KEYCTL_RESTRICT_KEYRING = 0x1d
+ KEYCTL_REVOKE = 0x3
+ KEYCTL_SEARCH = 0xa
+ KEYCTL_SESSION_TO_PARENT = 0x12
+ KEYCTL_SETPERM = 0x5
+ KEYCTL_SET_REQKEY_KEYRING = 0xe
+ KEYCTL_SET_TIMEOUT = 0xf
+ KEYCTL_UNLINK = 0x9
+ KEYCTL_UPDATE = 0x2
+ KEY_REQKEY_DEFL_DEFAULT = 0x0
+ KEY_REQKEY_DEFL_GROUP_KEYRING = 0x6
+ KEY_REQKEY_DEFL_NO_CHANGE = -0x1
+ KEY_REQKEY_DEFL_PROCESS_KEYRING = 0x2
+ KEY_REQKEY_DEFL_REQUESTOR_KEYRING = 0x7
+ KEY_REQKEY_DEFL_SESSION_KEYRING = 0x3
+ KEY_REQKEY_DEFL_THREAD_KEYRING = 0x1
+ KEY_REQKEY_DEFL_USER_KEYRING = 0x4
+ KEY_REQKEY_DEFL_USER_SESSION_KEYRING = 0x5
+ KEY_SPEC_GROUP_KEYRING = -0x6
+ KEY_SPEC_PROCESS_KEYRING = -0x2
+ KEY_SPEC_REQKEY_AUTH_KEY = -0x7
+ KEY_SPEC_REQUESTOR_KEYRING = -0x8
+ KEY_SPEC_SESSION_KEYRING = -0x3
+ KEY_SPEC_THREAD_KEYRING = -0x1
+ KEY_SPEC_USER_KEYRING = -0x4
+ KEY_SPEC_USER_SESSION_KEYRING = -0x5
+ LINUX_REBOOT_CMD_CAD_OFF = 0x0
+ LINUX_REBOOT_CMD_CAD_ON = 0x89abcdef
+ LINUX_REBOOT_CMD_HALT = 0xcdef0123
+ LINUX_REBOOT_CMD_KEXEC = 0x45584543
+ LINUX_REBOOT_CMD_POWER_OFF = 0x4321fedc
+ LINUX_REBOOT_CMD_RESTART = 0x1234567
+ LINUX_REBOOT_CMD_RESTART2 = 0xa1b2c3d4
+ LINUX_REBOOT_CMD_SW_SUSPEND = 0xd000fce2
+ LINUX_REBOOT_MAGIC1 = 0xfee1dead
+ LINUX_REBOOT_MAGIC2 = 0x28121969
+ LOCK_EX = 0x2
+ LOCK_NB = 0x4
+ LOCK_SH = 0x1
+ LOCK_UN = 0x8
+ MADV_DODUMP = 0x11
+ MADV_DOFORK = 0xb
+ MADV_DONTDUMP = 0x10
+ MADV_DONTFORK = 0xa
+ MADV_DONTNEED = 0x4
+ MADV_FREE = 0x8
+ MADV_HUGEPAGE = 0xe
+ MADV_HWPOISON = 0x64
+ MADV_KEEPONFORK = 0x13
+ MADV_MERGEABLE = 0xc
+ MADV_NOHUGEPAGE = 0xf
+ MADV_NORMAL = 0x0
+ MADV_RANDOM = 0x1
+ MADV_REMOVE = 0x9
+ MADV_SEQUENTIAL = 0x2
+ MADV_UNMERGEABLE = 0xd
+ MADV_WILLNEED = 0x3
+ MADV_WIPEONFORK = 0x12
+ MAP_ANON = 0x20
+ MAP_ANONYMOUS = 0x20
+ MAP_DENYWRITE = 0x800
+ MAP_EXECUTABLE = 0x1000
+ MAP_FILE = 0x0
+ MAP_FIXED = 0x10
+ MAP_FIXED_NOREPLACE = 0x100000
+ MAP_GROWSDOWN = 0x100
+ MAP_HUGETLB = 0x40000
+ MAP_HUGE_MASK = 0x3f
+ MAP_HUGE_SHIFT = 0x1a
+ MAP_LOCKED = 0x2000
+ MAP_NONBLOCK = 0x10000
+ MAP_NORESERVE = 0x4000
+ MAP_POPULATE = 0x8000
+ MAP_PRIVATE = 0x2
+ MAP_SHARED = 0x1
+ MAP_SHARED_VALIDATE = 0x3
+ MAP_STACK = 0x20000
+ MAP_SYNC = 0x80000
+ MAP_TYPE = 0xf
+ MCL_CURRENT = 0x1
+ MCL_FUTURE = 0x2
+ MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
+ MINIX2_SUPER_MAGIC = 0x2468
+ MINIX2_SUPER_MAGIC2 = 0x2478
+ MINIX3_SUPER_MAGIC = 0x4d5a
+ MINIX_SUPER_MAGIC = 0x137f
+ MINIX_SUPER_MAGIC2 = 0x138f
+ MNT_DETACH = 0x2
+ MNT_EXPIRE = 0x4
+ MNT_FORCE = 0x1
+ MSDOS_SUPER_MAGIC = 0x4d44
+ MSG_BATCH = 0x40000
+ MSG_CMSG_CLOEXEC = 0x40000000
+ MSG_CONFIRM = 0x800
+ MSG_CTRUNC = 0x8
+ MSG_DONTROUTE = 0x4
+ MSG_DONTWAIT = 0x40
+ MSG_EOR = 0x80
+ MSG_ERRQUEUE = 0x2000
+ MSG_FASTOPEN = 0x20000000
+ MSG_FIN = 0x200
+ MSG_MORE = 0x8000
+ MSG_NOSIGNAL = 0x4000
+ MSG_OOB = 0x1
+ MSG_PEEK = 0x2
+ MSG_PROXY = 0x10
+ MSG_RST = 0x1000
+ MSG_SYN = 0x400
+ MSG_TRUNC = 0x20
+ MSG_TRYHARD = 0x4
+ MSG_WAITALL = 0x100
+ MSG_WAITFORONE = 0x10000
+ MSG_ZEROCOPY = 0x4000000
+ MS_ACTIVE = 0x40000000
+ MS_ASYNC = 0x1
+ MS_BIND = 0x1000
+ MS_BORN = 0x20000000
+ MS_DIRSYNC = 0x80
+ MS_INVALIDATE = 0x2
+ MS_I_VERSION = 0x800000
+ MS_KERNMOUNT = 0x400000
+ MS_LAZYTIME = 0x2000000
+ MS_MANDLOCK = 0x40
+ MS_MGC_MSK = 0xffff0000
+ MS_MGC_VAL = 0xc0ed0000
+ MS_MOVE = 0x2000
+ MS_NOATIME = 0x400
+ MS_NODEV = 0x4
+ MS_NODIRATIME = 0x800
+ MS_NOEXEC = 0x8
+ MS_NOREMOTELOCK = 0x8000000
+ MS_NOSEC = 0x10000000
+ MS_NOSUID = 0x2
+ MS_NOUSER = -0x80000000
+ MS_POSIXACL = 0x10000
+ MS_PRIVATE = 0x40000
+ MS_RDONLY = 0x1
+ MS_REC = 0x4000
+ MS_RELATIME = 0x200000
+ MS_REMOUNT = 0x20
+ MS_RMT_MASK = 0x2800051
+ MS_SHARED = 0x100000
+ MS_SILENT = 0x8000
+ MS_SLAVE = 0x80000
+ MS_STRICTATIME = 0x1000000
+ MS_SUBMOUNT = 0x4000000
+ MS_SYNC = 0x4
+ MS_SYNCHRONOUS = 0x10
+ MS_UNBINDABLE = 0x20000
+ MS_VERBOSE = 0x8000
+ MTD_INODE_FS_MAGIC = 0x11307854
+ NAME_MAX = 0xff
+ NCP_SUPER_MAGIC = 0x564c
+ NETLINK_ADD_MEMBERSHIP = 0x1
+ NETLINK_AUDIT = 0x9
+ NETLINK_BROADCAST_ERROR = 0x4
+ NETLINK_CAP_ACK = 0xa
+ NETLINK_CONNECTOR = 0xb
+ NETLINK_CRYPTO = 0x15
+ NETLINK_DNRTMSG = 0xe
+ NETLINK_DROP_MEMBERSHIP = 0x2
+ NETLINK_ECRYPTFS = 0x13
+ NETLINK_EXT_ACK = 0xb
+ NETLINK_FIB_LOOKUP = 0xa
+ NETLINK_FIREWALL = 0x3
+ NETLINK_GENERIC = 0x10
+ NETLINK_INET_DIAG = 0x4
+ NETLINK_IP6_FW = 0xd
+ NETLINK_ISCSI = 0x8
+ NETLINK_KOBJECT_UEVENT = 0xf
+ NETLINK_LISTEN_ALL_NSID = 0x8
+ NETLINK_LIST_MEMBERSHIPS = 0x9
+ NETLINK_NETFILTER = 0xc
+ NETLINK_NFLOG = 0x5
+ NETLINK_NO_ENOBUFS = 0x5
+ NETLINK_PKTINFO = 0x3
+ NETLINK_RDMA = 0x14
+ NETLINK_ROUTE = 0x0
+ NETLINK_RX_RING = 0x6
+ NETLINK_SCSITRANSPORT = 0x12
+ NETLINK_SELINUX = 0x7
+ NETLINK_SMC = 0x16
+ NETLINK_SOCK_DIAG = 0x4
+ NETLINK_TX_RING = 0x7
+ NETLINK_UNUSED = 0x1
+ NETLINK_USERSOCK = 0x2
+ NETLINK_XFRM = 0x6
+ NETNSA_MAX = 0x3
+ NETNSA_NSID_NOT_ASSIGNED = -0x1
+ NFNETLINK_V0 = 0x0
+ NFNLGRP_ACCT_QUOTA = 0x8
+ NFNLGRP_CONNTRACK_DESTROY = 0x3
+ NFNLGRP_CONNTRACK_EXP_DESTROY = 0x6
+ NFNLGRP_CONNTRACK_EXP_NEW = 0x4
+ NFNLGRP_CONNTRACK_EXP_UPDATE = 0x5
+ NFNLGRP_CONNTRACK_NEW = 0x1
+ NFNLGRP_CONNTRACK_UPDATE = 0x2
+ NFNLGRP_MAX = 0x9
+ NFNLGRP_NFTABLES = 0x7
+ NFNLGRP_NFTRACE = 0x9
+ NFNLGRP_NONE = 0x0
+ NFNL_BATCH_MAX = 0x1
+ NFNL_MSG_BATCH_BEGIN = 0x10
+ NFNL_MSG_BATCH_END = 0x11
+ NFNL_NFA_NEST = 0x8000
+ NFNL_SUBSYS_ACCT = 0x7
+ NFNL_SUBSYS_COUNT = 0xc
+ NFNL_SUBSYS_CTHELPER = 0x9
+ NFNL_SUBSYS_CTNETLINK = 0x1
+ NFNL_SUBSYS_CTNETLINK_EXP = 0x2
+ NFNL_SUBSYS_CTNETLINK_TIMEOUT = 0x8
+ NFNL_SUBSYS_IPSET = 0x6
+ NFNL_SUBSYS_NFTABLES = 0xa
+ NFNL_SUBSYS_NFT_COMPAT = 0xb
+ NFNL_SUBSYS_NONE = 0x0
+ NFNL_SUBSYS_OSF = 0x5
+ NFNL_SUBSYS_QUEUE = 0x3
+ NFNL_SUBSYS_ULOG = 0x4
+ NFS_SUPER_MAGIC = 0x6969
+ NILFS_SUPER_MAGIC = 0x3434
+ NL0 = 0x0
+ NL1 = 0x100
+ NLA_ALIGNTO = 0x4
+ NLA_F_NESTED = 0x8000
+ NLA_F_NET_BYTEORDER = 0x4000
+ NLA_HDRLEN = 0x4
+ NLDLY = 0x100
+ NLMSG_ALIGNTO = 0x4
+ NLMSG_DONE = 0x3
+ NLMSG_ERROR = 0x2
+ NLMSG_HDRLEN = 0x10
+ NLMSG_MIN_TYPE = 0x10
+ NLMSG_NOOP = 0x1
+ NLMSG_OVERRUN = 0x4
+ NLM_F_ACK = 0x4
+ NLM_F_ACK_TLVS = 0x200
+ NLM_F_APPEND = 0x800
+ NLM_F_ATOMIC = 0x400
+ NLM_F_CAPPED = 0x100
+ NLM_F_CREATE = 0x400
+ NLM_F_DUMP = 0x300
+ NLM_F_DUMP_FILTERED = 0x20
+ NLM_F_DUMP_INTR = 0x10
+ NLM_F_ECHO = 0x8
+ NLM_F_EXCL = 0x200
+ NLM_F_MATCH = 0x200
+ NLM_F_MULTI = 0x2
+ NLM_F_NONREC = 0x100
+ NLM_F_REPLACE = 0x100
+ NLM_F_REQUEST = 0x1
+ NLM_F_ROOT = 0x100
+ NOFLSH = 0x80
+ NSFS_MAGIC = 0x6e736673
+ OCFS2_SUPER_MAGIC = 0x7461636f
+ OCRNL = 0x8
+ OFDEL = 0x80
+ OFILL = 0x40
+ OLCUC = 0x2
+ ONLCR = 0x4
+ ONLRET = 0x20
+ ONOCR = 0x10
+ OPENPROM_SUPER_MAGIC = 0x9fa1
+ OPOST = 0x1
+ OVERLAYFS_SUPER_MAGIC = 0x794c7630
+ O_ACCMODE = 0x3
+ O_APPEND = 0x400
+ O_ASYNC = 0x2000
+ O_CLOEXEC = 0x80000
+ O_CREAT = 0x40
+ O_DIRECT = 0x4000
+ O_DIRECTORY = 0x10000
+ O_DSYNC = 0x1000
+ O_EXCL = 0x80
+ O_FSYNC = 0x101000
+ O_LARGEFILE = 0x0
+ O_NDELAY = 0x800
+ O_NOATIME = 0x40000
+ O_NOCTTY = 0x100
+ O_NOFOLLOW = 0x20000
+ O_NONBLOCK = 0x800
+ O_PATH = 0x200000
+ O_RDONLY = 0x0
+ O_RDWR = 0x2
+ O_RSYNC = 0x101000
+ O_SYNC = 0x101000
+ O_TMPFILE = 0x410000
+ O_TRUNC = 0x200
+ O_WRONLY = 0x1
+ PACKET_ADD_MEMBERSHIP = 0x1
+ PACKET_AUXDATA = 0x8
+ PACKET_BROADCAST = 0x1
+ PACKET_COPY_THRESH = 0x7
+ PACKET_DROP_MEMBERSHIP = 0x2
+ PACKET_FANOUT = 0x12
+ PACKET_FANOUT_CBPF = 0x6
+ PACKET_FANOUT_CPU = 0x2
+ PACKET_FANOUT_DATA = 0x16
+ PACKET_FANOUT_EBPF = 0x7
+ PACKET_FANOUT_FLAG_DEFRAG = 0x8000
+ PACKET_FANOUT_FLAG_ROLLOVER = 0x1000
+ PACKET_FANOUT_FLAG_UNIQUEID = 0x2000
+ PACKET_FANOUT_HASH = 0x0
+ PACKET_FANOUT_LB = 0x1
+ PACKET_FANOUT_QM = 0x5
+ PACKET_FANOUT_RND = 0x4
+ PACKET_FANOUT_ROLLOVER = 0x3
+ PACKET_FASTROUTE = 0x6
+ PACKET_HDRLEN = 0xb
+ PACKET_HOST = 0x0
+ PACKET_KERNEL = 0x7
+ PACKET_LOOPBACK = 0x5
+ PACKET_LOSS = 0xe
+ PACKET_MR_ALLMULTI = 0x2
+ PACKET_MR_MULTICAST = 0x0
+ PACKET_MR_PROMISC = 0x1
+ PACKET_MR_UNICAST = 0x3
+ PACKET_MULTICAST = 0x2
+ PACKET_ORIGDEV = 0x9
+ PACKET_OTHERHOST = 0x3
+ PACKET_OUTGOING = 0x4
+ PACKET_QDISC_BYPASS = 0x14
+ PACKET_RECV_OUTPUT = 0x3
+ PACKET_RESERVE = 0xc
+ PACKET_ROLLOVER_STATS = 0x15
+ PACKET_RX_RING = 0x5
+ PACKET_STATISTICS = 0x6
+ PACKET_TIMESTAMP = 0x11
+ PACKET_TX_HAS_OFF = 0x13
+ PACKET_TX_RING = 0xd
+ PACKET_TX_TIMESTAMP = 0x10
+ PACKET_USER = 0x6
+ PACKET_VERSION = 0xa
+ PACKET_VNET_HDR = 0xf
+ PARENB = 0x100
+ PARITY_CRC16_PR0 = 0x2
+ PARITY_CRC16_PR0_CCITT = 0x4
+ PARITY_CRC16_PR1 = 0x3
+ PARITY_CRC16_PR1_CCITT = 0x5
+ PARITY_CRC32_PR0_CCITT = 0x6
+ PARITY_CRC32_PR1_CCITT = 0x7
+ PARITY_DEFAULT = 0x0
+ PARITY_NONE = 0x1
+ PARMRK = 0x8
+ PARODD = 0x200
+ PENDIN = 0x4000
+ PERF_EVENT_IOC_DISABLE = 0x2401
+ PERF_EVENT_IOC_ENABLE = 0x2400
+ PERF_EVENT_IOC_ID = 0x80082407
+ PERF_EVENT_IOC_MODIFY_ATTRIBUTES = 0x4008240b
+ PERF_EVENT_IOC_PAUSE_OUTPUT = 0x40042409
+ PERF_EVENT_IOC_PERIOD = 0x40082404
+ PERF_EVENT_IOC_QUERY_BPF = 0xc008240a
+ PERF_EVENT_IOC_REFRESH = 0x2402
+ PERF_EVENT_IOC_RESET = 0x2403
+ PERF_EVENT_IOC_SET_BPF = 0x40042408
+ PERF_EVENT_IOC_SET_FILTER = 0x40082406
+ PERF_EVENT_IOC_SET_OUTPUT = 0x2405
+ PIPEFS_MAGIC = 0x50495045
+ PRIO_PGRP = 0x1
+ PRIO_PROCESS = 0x0
+ PRIO_USER = 0x2
+ PROC_SUPER_MAGIC = 0x9fa0
+ PROT_EXEC = 0x4
+ PROT_GROWSDOWN = 0x1000000
+ PROT_GROWSUP = 0x2000000
+ PROT_NONE = 0x0
+ PROT_READ = 0x1
+ PROT_WRITE = 0x2
+ PR_CAPBSET_DROP = 0x18
+ PR_CAPBSET_READ = 0x17
+ PR_CAP_AMBIENT = 0x2f
+ PR_CAP_AMBIENT_CLEAR_ALL = 0x4
+ PR_CAP_AMBIENT_IS_SET = 0x1
+ PR_CAP_AMBIENT_LOWER = 0x3
+ PR_CAP_AMBIENT_RAISE = 0x2
+ PR_ENDIAN_BIG = 0x0
+ PR_ENDIAN_LITTLE = 0x1
+ PR_ENDIAN_PPC_LITTLE = 0x2
+ PR_FPEMU_NOPRINT = 0x1
+ PR_FPEMU_SIGFPE = 0x2
+ PR_FP_EXC_ASYNC = 0x2
+ PR_FP_EXC_DISABLED = 0x0
+ PR_FP_EXC_DIV = 0x10000
+ PR_FP_EXC_INV = 0x100000
+ PR_FP_EXC_NONRECOV = 0x1
+ PR_FP_EXC_OVF = 0x20000
+ PR_FP_EXC_PRECISE = 0x3
+ PR_FP_EXC_RES = 0x80000
+ PR_FP_EXC_SW_ENABLE = 0x80
+ PR_FP_EXC_UND = 0x40000
+ PR_FP_MODE_FR = 0x1
+ PR_FP_MODE_FRE = 0x2
+ PR_GET_CHILD_SUBREAPER = 0x25
+ PR_GET_DUMPABLE = 0x3
+ PR_GET_ENDIAN = 0x13
+ PR_GET_FPEMU = 0x9
+ PR_GET_FPEXC = 0xb
+ PR_GET_FP_MODE = 0x2e
+ PR_GET_KEEPCAPS = 0x7
+ PR_GET_NAME = 0x10
+ PR_GET_NO_NEW_PRIVS = 0x27
+ PR_GET_PDEATHSIG = 0x2
+ PR_GET_SECCOMP = 0x15
+ PR_GET_SECUREBITS = 0x1b
+ PR_GET_SPECULATION_CTRL = 0x34
+ PR_GET_THP_DISABLE = 0x2a
+ PR_GET_TID_ADDRESS = 0x28
+ PR_GET_TIMERSLACK = 0x1e
+ PR_GET_TIMING = 0xd
+ PR_GET_TSC = 0x19
+ PR_GET_UNALIGN = 0x5
+ PR_MCE_KILL = 0x21
+ PR_MCE_KILL_CLEAR = 0x0
+ PR_MCE_KILL_DEFAULT = 0x2
+ PR_MCE_KILL_EARLY = 0x1
+ PR_MCE_KILL_GET = 0x22
+ PR_MCE_KILL_LATE = 0x0
+ PR_MCE_KILL_SET = 0x1
+ PR_MPX_DISABLE_MANAGEMENT = 0x2c
+ PR_MPX_ENABLE_MANAGEMENT = 0x2b
+ PR_SET_CHILD_SUBREAPER = 0x24
+ PR_SET_DUMPABLE = 0x4
+ PR_SET_ENDIAN = 0x14
+ PR_SET_FPEMU = 0xa
+ PR_SET_FPEXC = 0xc
+ PR_SET_FP_MODE = 0x2d
+ PR_SET_KEEPCAPS = 0x8
+ PR_SET_MM = 0x23
+ PR_SET_MM_ARG_END = 0x9
+ PR_SET_MM_ARG_START = 0x8
+ PR_SET_MM_AUXV = 0xc
+ PR_SET_MM_BRK = 0x7
+ PR_SET_MM_END_CODE = 0x2
+ PR_SET_MM_END_DATA = 0x4
+ PR_SET_MM_ENV_END = 0xb
+ PR_SET_MM_ENV_START = 0xa
+ PR_SET_MM_EXE_FILE = 0xd
+ PR_SET_MM_MAP = 0xe
+ PR_SET_MM_MAP_SIZE = 0xf
+ PR_SET_MM_START_BRK = 0x6
+ PR_SET_MM_START_CODE = 0x1
+ PR_SET_MM_START_DATA = 0x3
+ PR_SET_MM_START_STACK = 0x5
+ PR_SET_NAME = 0xf
+ PR_SET_NO_NEW_PRIVS = 0x26
+ PR_SET_PDEATHSIG = 0x1
+ PR_SET_PTRACER = 0x59616d61
+ PR_SET_PTRACER_ANY = 0xffffffffffffffff
+ PR_SET_SECCOMP = 0x16
+ PR_SET_SECUREBITS = 0x1c
+ PR_SET_SPECULATION_CTRL = 0x35
+ PR_SET_THP_DISABLE = 0x29
+ PR_SET_TIMERSLACK = 0x1d
+ PR_SET_TIMING = 0xe
+ PR_SET_TSC = 0x1a
+ PR_SET_UNALIGN = 0x6
+ PR_SPEC_DISABLE = 0x4
+ PR_SPEC_ENABLE = 0x2
+ PR_SPEC_FORCE_DISABLE = 0x8
+ PR_SPEC_NOT_AFFECTED = 0x0
+ PR_SPEC_PRCTL = 0x1
+ PR_SPEC_STORE_BYPASS = 0x0
+ PR_SVE_GET_VL = 0x33
+ PR_SVE_SET_VL = 0x32
+ PR_SVE_SET_VL_ONEXEC = 0x40000
+ PR_SVE_VL_INHERIT = 0x20000
+ PR_SVE_VL_LEN_MASK = 0xffff
+ PR_TASK_PERF_EVENTS_DISABLE = 0x1f
+ PR_TASK_PERF_EVENTS_ENABLE = 0x20
+ PR_TIMING_STATISTICAL = 0x0
+ PR_TIMING_TIMESTAMP = 0x1
+ PR_TSC_ENABLE = 0x1
+ PR_TSC_SIGSEGV = 0x2
+ PR_UNALIGN_NOPRINT = 0x1
+ PR_UNALIGN_SIGBUS = 0x2
+ PSTOREFS_MAGIC = 0x6165676c
+ PTRACE_ATTACH = 0x10
+ PTRACE_CONT = 0x7
+ PTRACE_DETACH = 0x11
+ PTRACE_EVENT_CLONE = 0x3
+ PTRACE_EVENT_EXEC = 0x4
+ PTRACE_EVENT_EXIT = 0x6
+ PTRACE_EVENT_FORK = 0x1
+ PTRACE_EVENT_SECCOMP = 0x7
+ PTRACE_EVENT_STOP = 0x80
+ PTRACE_EVENT_VFORK = 0x2
+ PTRACE_EVENT_VFORK_DONE = 0x5
+ PTRACE_GETEVENTMSG = 0x4201
+ PTRACE_GETREGS = 0xc
+ PTRACE_GETREGSET = 0x4204
+ PTRACE_GETSIGINFO = 0x4202
+ PTRACE_GETSIGMASK = 0x420a
+ PTRACE_INTERRUPT = 0x4207
+ PTRACE_KILL = 0x8
+ PTRACE_LISTEN = 0x4208
+ PTRACE_O_EXITKILL = 0x100000
+ PTRACE_O_MASK = 0x3000ff
+ PTRACE_O_SUSPEND_SECCOMP = 0x200000
+ PTRACE_O_TRACECLONE = 0x8
+ PTRACE_O_TRACEEXEC = 0x10
+ PTRACE_O_TRACEEXIT = 0x40
+ PTRACE_O_TRACEFORK = 0x2
+ PTRACE_O_TRACESECCOMP = 0x80
+ PTRACE_O_TRACESYSGOOD = 0x1
+ PTRACE_O_TRACEVFORK = 0x4
+ PTRACE_O_TRACEVFORKDONE = 0x20
+ PTRACE_PEEKDATA = 0x2
+ PTRACE_PEEKSIGINFO = 0x4209
+ PTRACE_PEEKSIGINFO_SHARED = 0x1
+ PTRACE_PEEKTEXT = 0x1
+ PTRACE_PEEKUSR = 0x3
+ PTRACE_POKEDATA = 0x5
+ PTRACE_POKETEXT = 0x4
+ PTRACE_POKEUSR = 0x6
+ PTRACE_SECCOMP_GET_FILTER = 0x420c
+ PTRACE_SECCOMP_GET_METADATA = 0x420d
+ PTRACE_SEIZE = 0x4206
+ PTRACE_SETOPTIONS = 0x4200
+ PTRACE_SETREGS = 0xd
+ PTRACE_SETREGSET = 0x4205
+ PTRACE_SETSIGINFO = 0x4203
+ PTRACE_SETSIGMASK = 0x420b
+ PTRACE_SINGLESTEP = 0x9
+ PTRACE_SYSCALL = 0x18
+ PTRACE_TRACEME = 0x0
+ QNX4_SUPER_MAGIC = 0x2f
+ QNX6_SUPER_MAGIC = 0x68191122
+ RAMFS_MAGIC = 0x858458f6
+ RDTGROUP_SUPER_MAGIC = 0x7655821
+ REISERFS_SUPER_MAGIC = 0x52654973
+ RENAME_EXCHANGE = 0x2
+ RENAME_NOREPLACE = 0x1
+ RENAME_WHITEOUT = 0x4
+ RLIMIT_AS = 0x9
+ RLIMIT_CORE = 0x4
+ RLIMIT_CPU = 0x0
+ RLIMIT_DATA = 0x2
+ RLIMIT_FSIZE = 0x1
+ RLIMIT_LOCKS = 0xa
+ RLIMIT_MEMLOCK = 0x8
+ RLIMIT_MSGQUEUE = 0xc
+ RLIMIT_NICE = 0xd
+ RLIMIT_NOFILE = 0x7
+ RLIMIT_NPROC = 0x6
+ RLIMIT_RSS = 0x5
+ RLIMIT_RTPRIO = 0xe
+ RLIMIT_RTTIME = 0xf
+ RLIMIT_SIGPENDING = 0xb
+ RLIMIT_STACK = 0x3
+ RLIM_INFINITY = 0xffffffffffffffff
+ RTAX_ADVMSS = 0x8
+ RTAX_CC_ALGO = 0x10
+ RTAX_CWND = 0x7
+ RTAX_FASTOPEN_NO_COOKIE = 0x11
+ RTAX_FEATURES = 0xc
+ RTAX_FEATURE_ALLFRAG = 0x8
+ RTAX_FEATURE_ECN = 0x1
+ RTAX_FEATURE_MASK = 0xf
+ RTAX_FEATURE_SACK = 0x2
+ RTAX_FEATURE_TIMESTAMP = 0x4
+ RTAX_HOPLIMIT = 0xa
+ RTAX_INITCWND = 0xb
+ RTAX_INITRWND = 0xe
+ RTAX_LOCK = 0x1
+ RTAX_MAX = 0x11
+ RTAX_MTU = 0x2
+ RTAX_QUICKACK = 0xf
+ RTAX_REORDERING = 0x9
+ RTAX_RTO_MIN = 0xd
+ RTAX_RTT = 0x4
+ RTAX_RTTVAR = 0x5
+ RTAX_SSTHRESH = 0x6
+ RTAX_UNSPEC = 0x0
+ RTAX_WINDOW = 0x3
+ RTA_ALIGNTO = 0x4
+ RTA_MAX = 0x1d
+ RTCF_DIRECTSRC = 0x4000000
+ RTCF_DOREDIRECT = 0x1000000
+ RTCF_LOG = 0x2000000
+ RTCF_MASQ = 0x400000
+ RTCF_NAT = 0x800000
+ RTCF_VALVE = 0x200000
+ RTC_AF = 0x20
+ RTC_AIE_OFF = 0x7002
+ RTC_AIE_ON = 0x7001
+ RTC_ALM_READ = 0x80247008
+ RTC_ALM_SET = 0x40247007
+ RTC_EPOCH_READ = 0x8008700d
+ RTC_EPOCH_SET = 0x4008700e
+ RTC_IRQF = 0x80
+ RTC_IRQP_READ = 0x8008700b
+ RTC_IRQP_SET = 0x4008700c
+ RTC_MAX_FREQ = 0x2000
+ RTC_PF = 0x40
+ RTC_PIE_OFF = 0x7006
+ RTC_PIE_ON = 0x7005
+ RTC_PLL_GET = 0x80207011
+ RTC_PLL_SET = 0x40207012
+ RTC_RD_TIME = 0x80247009
+ RTC_SET_TIME = 0x4024700a
+ RTC_UF = 0x10
+ RTC_UIE_OFF = 0x7004
+ RTC_UIE_ON = 0x7003
+ RTC_VL_CLR = 0x7014
+ RTC_VL_READ = 0x80047013
+ RTC_WIE_OFF = 0x7010
+ RTC_WIE_ON = 0x700f
+ RTC_WKALM_RD = 0x80287010
+ RTC_WKALM_SET = 0x4028700f
+ RTF_ADDRCLASSMASK = 0xf8000000
+ RTF_ADDRCONF = 0x40000
+ RTF_ALLONLINK = 0x20000
+ RTF_BROADCAST = 0x10000000
+ RTF_CACHE = 0x1000000
+ RTF_DEFAULT = 0x10000
+ RTF_DYNAMIC = 0x10
+ RTF_FLOW = 0x2000000
+ RTF_GATEWAY = 0x2
+ RTF_HOST = 0x4
+ RTF_INTERFACE = 0x40000000
+ RTF_IRTT = 0x100
+ RTF_LINKRT = 0x100000
+ RTF_LOCAL = 0x80000000
+ RTF_MODIFIED = 0x20
+ RTF_MSS = 0x40
+ RTF_MTU = 0x40
+ RTF_MULTICAST = 0x20000000
+ RTF_NAT = 0x8000000
+ RTF_NOFORWARD = 0x1000
+ RTF_NONEXTHOP = 0x200000
+ RTF_NOPMTUDISC = 0x4000
+ RTF_POLICY = 0x4000000
+ RTF_REINSTATE = 0x8
+ RTF_REJECT = 0x200
+ RTF_STATIC = 0x400
+ RTF_THROW = 0x2000
+ RTF_UP = 0x1
+ RTF_WINDOW = 0x80
+ RTF_XRESOLVE = 0x800
+ RTM_BASE = 0x10
+ RTM_DELACTION = 0x31
+ RTM_DELADDR = 0x15
+ RTM_DELADDRLABEL = 0x49
+ RTM_DELLINK = 0x11
+ RTM_DELMDB = 0x55
+ RTM_DELNEIGH = 0x1d
+ RTM_DELNETCONF = 0x51
+ RTM_DELNSID = 0x59
+ RTM_DELQDISC = 0x25
+ RTM_DELROUTE = 0x19
+ RTM_DELRULE = 0x21
+ RTM_DELTCLASS = 0x29
+ RTM_DELTFILTER = 0x2d
+ RTM_F_CLONED = 0x200
+ RTM_F_EQUALIZE = 0x400
+ RTM_F_FIB_MATCH = 0x2000
+ RTM_F_LOOKUP_TABLE = 0x1000
+ RTM_F_NOTIFY = 0x100
+ RTM_F_PREFIX = 0x800
+ RTM_GETACTION = 0x32
+ RTM_GETADDR = 0x16
+ RTM_GETADDRLABEL = 0x4a
+ RTM_GETANYCAST = 0x3e
+ RTM_GETDCB = 0x4e
+ RTM_GETLINK = 0x12
+ RTM_GETMDB = 0x56
+ RTM_GETMULTICAST = 0x3a
+ RTM_GETNEIGH = 0x1e
+ RTM_GETNEIGHTBL = 0x42
+ RTM_GETNETCONF = 0x52
+ RTM_GETNSID = 0x5a
+ RTM_GETQDISC = 0x26
+ RTM_GETROUTE = 0x1a
+ RTM_GETRULE = 0x22
+ RTM_GETSTATS = 0x5e
+ RTM_GETTCLASS = 0x2a
+ RTM_GETTFILTER = 0x2e
+ RTM_MAX = 0x63
+ RTM_NEWACTION = 0x30
+ RTM_NEWADDR = 0x14
+ RTM_NEWADDRLABEL = 0x48
+ RTM_NEWCACHEREPORT = 0x60
+ RTM_NEWLINK = 0x10
+ RTM_NEWMDB = 0x54
+ RTM_NEWNDUSEROPT = 0x44
+ RTM_NEWNEIGH = 0x1c
+ RTM_NEWNEIGHTBL = 0x40
+ RTM_NEWNETCONF = 0x50
+ RTM_NEWNSID = 0x58
+ RTM_NEWPREFIX = 0x34
+ RTM_NEWQDISC = 0x24
+ RTM_NEWROUTE = 0x18
+ RTM_NEWRULE = 0x20
+ RTM_NEWSTATS = 0x5c
+ RTM_NEWTCLASS = 0x28
+ RTM_NEWTFILTER = 0x2c
+ RTM_NR_FAMILIES = 0x15
+ RTM_NR_MSGTYPES = 0x54
+ RTM_SETDCB = 0x4f
+ RTM_SETLINK = 0x13
+ RTM_SETNEIGHTBL = 0x43
+ RTNH_ALIGNTO = 0x4
+ RTNH_COMPARE_MASK = 0x19
+ RTNH_F_DEAD = 0x1
+ RTNH_F_LINKDOWN = 0x10
+ RTNH_F_OFFLOAD = 0x8
+ RTNH_F_ONLINK = 0x4
+ RTNH_F_PERVASIVE = 0x2
+ RTNH_F_UNRESOLVED = 0x20
+ RTN_MAX = 0xb
+ RTPROT_BABEL = 0x2a
+ RTPROT_BGP = 0xba
+ RTPROT_BIRD = 0xc
+ RTPROT_BOOT = 0x3
+ RTPROT_DHCP = 0x10
+ RTPROT_DNROUTED = 0xd
+ RTPROT_EIGRP = 0xc0
+ RTPROT_GATED = 0x8
+ RTPROT_ISIS = 0xbb
+ RTPROT_KERNEL = 0x2
+ RTPROT_MROUTED = 0x11
+ RTPROT_MRT = 0xa
+ RTPROT_NTK = 0xf
+ RTPROT_OSPF = 0xbc
+ RTPROT_RA = 0x9
+ RTPROT_REDIRECT = 0x1
+ RTPROT_RIP = 0xbd
+ RTPROT_STATIC = 0x4
+ RTPROT_UNSPEC = 0x0
+ RTPROT_XORP = 0xe
+ RTPROT_ZEBRA = 0xb
+ RT_CLASS_DEFAULT = 0xfd
+ RT_CLASS_LOCAL = 0xff
+ RT_CLASS_MAIN = 0xfe
+ RT_CLASS_MAX = 0xff
+ RT_CLASS_UNSPEC = 0x0
+ RUSAGE_CHILDREN = -0x1
+ RUSAGE_SELF = 0x0
+ RUSAGE_THREAD = 0x1
+ SCM_CREDENTIALS = 0x2
+ SCM_RIGHTS = 0x1
+ SCM_TIMESTAMP = 0x1d
+ SCM_TIMESTAMPING = 0x25
+ SCM_TIMESTAMPING_OPT_STATS = 0x36
+ SCM_TIMESTAMPING_PKTINFO = 0x3a
+ SCM_TIMESTAMPNS = 0x23
+ SCM_WIFI_STATUS = 0x29
+ SECCOMP_MODE_DISABLED = 0x0
+ SECCOMP_MODE_FILTER = 0x2
+ SECCOMP_MODE_STRICT = 0x1
+ SECURITYFS_MAGIC = 0x73636673
+ SELINUX_MAGIC = 0xf97cff8c
+ SHUT_RD = 0x0
+ SHUT_RDWR = 0x2
+ SHUT_WR = 0x1
+ SIOCADDDLCI = 0x8980
+ SIOCADDMULTI = 0x8931
+ SIOCADDRT = 0x890b
+ SIOCATMARK = 0x8905
+ SIOCBONDCHANGEACTIVE = 0x8995
+ SIOCBONDENSLAVE = 0x8990
+ SIOCBONDINFOQUERY = 0x8994
+ SIOCBONDRELEASE = 0x8991
+ SIOCBONDSETHWADDR = 0x8992
+ SIOCBONDSLAVEINFOQUERY = 0x8993
+ SIOCBRADDBR = 0x89a0
+ SIOCBRADDIF = 0x89a2
+ SIOCBRDELBR = 0x89a1
+ SIOCBRDELIF = 0x89a3
+ SIOCDARP = 0x8953
+ SIOCDELDLCI = 0x8981
+ SIOCDELMULTI = 0x8932
+ SIOCDELRT = 0x890c
+ SIOCDEVPRIVATE = 0x89f0
+ SIOCDIFADDR = 0x8936
+ SIOCDRARP = 0x8960
+ SIOCETHTOOL = 0x8946
+ SIOCGARP = 0x8954
+ SIOCGHWTSTAMP = 0x89b1
+ SIOCGIFADDR = 0x8915
+ SIOCGIFBR = 0x8940
+ SIOCGIFBRDADDR = 0x8919
+ SIOCGIFCONF = 0x8912
+ SIOCGIFCOUNT = 0x8938
+ SIOCGIFDSTADDR = 0x8917
+ SIOCGIFENCAP = 0x8925
+ SIOCGIFFLAGS = 0x8913
+ SIOCGIFHWADDR = 0x8927
+ SIOCGIFINDEX = 0x8933
+ SIOCGIFMAP = 0x8970
+ SIOCGIFMEM = 0x891f
+ SIOCGIFMETRIC = 0x891d
+ SIOCGIFMTU = 0x8921
+ SIOCGIFNAME = 0x8910
+ SIOCGIFNETMASK = 0x891b
+ SIOCGIFPFLAGS = 0x8935
+ SIOCGIFSLAVE = 0x8929
+ SIOCGIFTXQLEN = 0x8942
+ SIOCGIFVLAN = 0x8982
+ SIOCGMIIPHY = 0x8947
+ SIOCGMIIREG = 0x8948
+ SIOCGPGRP = 0x8904
+ SIOCGRARP = 0x8961
+ SIOCGSKNS = 0x894c
+ SIOCGSTAMP = 0x8906
+ SIOCGSTAMPNS = 0x8907
+ SIOCINQ = 0x541b
+ SIOCOUTQ = 0x5411
+ SIOCOUTQNSD = 0x894b
+ SIOCPROTOPRIVATE = 0x89e0
+ SIOCRTMSG = 0x890d
+ SIOCSARP = 0x8955
+ SIOCSHWTSTAMP = 0x89b0
+ SIOCSIFADDR = 0x8916
+ SIOCSIFBR = 0x8941
+ SIOCSIFBRDADDR = 0x891a
+ SIOCSIFDSTADDR = 0x8918
+ SIOCSIFENCAP = 0x8926
+ SIOCSIFFLAGS = 0x8914
+ SIOCSIFHWADDR = 0x8924
+ SIOCSIFHWBROADCAST = 0x8937
+ SIOCSIFLINK = 0x8911
+ SIOCSIFMAP = 0x8971
+ SIOCSIFMEM = 0x8920
+ SIOCSIFMETRIC = 0x891e
+ SIOCSIFMTU = 0x8922
+ SIOCSIFNAME = 0x8923
+ SIOCSIFNETMASK = 0x891c
+ SIOCSIFPFLAGS = 0x8934
+ SIOCSIFSLAVE = 0x8930
+ SIOCSIFTXQLEN = 0x8943
+ SIOCSIFVLAN = 0x8983
+ SIOCSMIIREG = 0x8949
+ SIOCSPGRP = 0x8902
+ SIOCSRARP = 0x8962
+ SIOCWANDEV = 0x894a
+ SMACK_MAGIC = 0x43415d53
+ SMART_AUTOSAVE = 0xd2
+ SMART_AUTO_OFFLINE = 0xdb
+ SMART_DISABLE = 0xd9
+ SMART_ENABLE = 0xd8
+ SMART_HCYL_PASS = 0xc2
+ SMART_IMMEDIATE_OFFLINE = 0xd4
+ SMART_LCYL_PASS = 0x4f
+ SMART_READ_LOG_SECTOR = 0xd5
+ SMART_READ_THRESHOLDS = 0xd1
+ SMART_READ_VALUES = 0xd0
+ SMART_SAVE = 0xd3
+ SMART_STATUS = 0xda
+ SMART_WRITE_LOG_SECTOR = 0xd6
+ SMART_WRITE_THRESHOLDS = 0xd7
+ SMB_SUPER_MAGIC = 0x517b
+ SOCKFS_MAGIC = 0x534f434b
+ SOCK_CLOEXEC = 0x80000
+ SOCK_DCCP = 0x6
+ SOCK_DGRAM = 0x2
+ SOCK_IOC_TYPE = 0x89
+ SOCK_NONBLOCK = 0x800
+ SOCK_PACKET = 0xa
+ SOCK_RAW = 0x3
+ SOCK_RDM = 0x4
+ SOCK_SEQPACKET = 0x5
+ SOCK_STREAM = 0x1
+ SOL_AAL = 0x109
+ SOL_ALG = 0x117
+ SOL_ATM = 0x108
+ SOL_CAIF = 0x116
+ SOL_CAN_BASE = 0x64
+ SOL_DCCP = 0x10d
+ SOL_DECNET = 0x105
+ SOL_ICMPV6 = 0x3a
+ SOL_IP = 0x0
+ SOL_IPV6 = 0x29
+ SOL_IRDA = 0x10a
+ SOL_IUCV = 0x115
+ SOL_KCM = 0x119
+ SOL_LLC = 0x10c
+ SOL_NETBEUI = 0x10b
+ SOL_NETLINK = 0x10e
+ SOL_NFC = 0x118
+ SOL_PACKET = 0x107
+ SOL_PNPIPE = 0x113
+ SOL_PPPOL2TP = 0x111
+ SOL_RAW = 0xff
+ SOL_RDS = 0x114
+ SOL_RXRPC = 0x110
+ SOL_SOCKET = 0x1
+ SOL_TCP = 0x6
+ SOL_TIPC = 0x10f
+ SOL_TLS = 0x11a
+ SOL_X25 = 0x106
+ SOMAXCONN = 0x80
+ SO_ACCEPTCONN = 0x1e
+ SO_ATTACH_BPF = 0x32
+ SO_ATTACH_FILTER = 0x1a
+ SO_ATTACH_REUSEPORT_CBPF = 0x33
+ SO_ATTACH_REUSEPORT_EBPF = 0x34
+ SO_BINDTODEVICE = 0x19
+ SO_BPF_EXTENSIONS = 0x30
+ SO_BROADCAST = 0x6
+ SO_BSDCOMPAT = 0xe
+ SO_BUSY_POLL = 0x2e
+ SO_CNX_ADVICE = 0x35
+ SO_COOKIE = 0x39
+ SO_DEBUG = 0x1
+ SO_DETACH_BPF = 0x1b
+ SO_DETACH_FILTER = 0x1b
+ SO_DOMAIN = 0x27
+ SO_DONTROUTE = 0x5
+ SO_ERROR = 0x4
+ SO_GET_FILTER = 0x1a
+ SO_INCOMING_CPU = 0x31
+ SO_INCOMING_NAPI_ID = 0x38
+ SO_KEEPALIVE = 0x9
+ SO_LINGER = 0xd
+ SO_LOCK_FILTER = 0x2c
+ SO_MARK = 0x24
+ SO_MAX_PACING_RATE = 0x2f
+ SO_MEMINFO = 0x37
+ SO_NOFCS = 0x2b
+ SO_NO_CHECK = 0xb
+ SO_OOBINLINE = 0xa
+ SO_PASSCRED = 0x10
+ SO_PASSSEC = 0x22
+ SO_PEEK_OFF = 0x2a
+ SO_PEERCRED = 0x11
+ SO_PEERGROUPS = 0x3b
+ SO_PEERNAME = 0x1c
+ SO_PEERSEC = 0x1f
+ SO_PRIORITY = 0xc
+ SO_PROTOCOL = 0x26
+ SO_RCVBUF = 0x8
+ SO_RCVBUFFORCE = 0x21
+ SO_RCVLOWAT = 0x12
+ SO_RCVTIMEO = 0x14
+ SO_REUSEADDR = 0x2
+ SO_REUSEPORT = 0xf
+ SO_RXQ_OVFL = 0x28
+ SO_SECURITY_AUTHENTICATION = 0x16
+ SO_SECURITY_ENCRYPTION_NETWORK = 0x18
+ SO_SECURITY_ENCRYPTION_TRANSPORT = 0x17
+ SO_SELECT_ERR_QUEUE = 0x2d
+ SO_SNDBUF = 0x7
+ SO_SNDBUFFORCE = 0x20
+ SO_SNDLOWAT = 0x13
+ SO_SNDTIMEO = 0x15
+ SO_TIMESTAMP = 0x1d
+ SO_TIMESTAMPING = 0x25
+ SO_TIMESTAMPNS = 0x23
+ SO_TYPE = 0x3
+ SO_VM_SOCKETS_BUFFER_MAX_SIZE = 0x2
+ SO_VM_SOCKETS_BUFFER_MIN_SIZE = 0x1
+ SO_VM_SOCKETS_BUFFER_SIZE = 0x0
+ SO_VM_SOCKETS_CONNECT_TIMEOUT = 0x6
+ SO_VM_SOCKETS_NONBLOCK_TXRX = 0x7
+ SO_VM_SOCKETS_PEER_HOST_VM_ID = 0x3
+ SO_VM_SOCKETS_TRUSTED = 0x5
+ SO_WIFI_STATUS = 0x29
+ SO_ZEROCOPY = 0x3c
+ SPLICE_F_GIFT = 0x8
+ SPLICE_F_MORE = 0x4
+ SPLICE_F_MOVE = 0x1
+ SPLICE_F_NONBLOCK = 0x2
+ SQUASHFS_MAGIC = 0x73717368
+ STACK_END_MAGIC = 0x57ac6e9d
+ STATX_ALL = 0xfff
+ STATX_ATIME = 0x20
+ STATX_ATTR_APPEND = 0x20
+ STATX_ATTR_AUTOMOUNT = 0x1000
+ STATX_ATTR_COMPRESSED = 0x4
+ STATX_ATTR_ENCRYPTED = 0x800
+ STATX_ATTR_IMMUTABLE = 0x10
+ STATX_ATTR_NODUMP = 0x40
+ STATX_BASIC_STATS = 0x7ff
+ STATX_BLOCKS = 0x400
+ STATX_BTIME = 0x800
+ STATX_CTIME = 0x80
+ STATX_GID = 0x10
+ STATX_INO = 0x100
+ STATX_MODE = 0x2
+ STATX_MTIME = 0x40
+ STATX_NLINK = 0x4
+ STATX_SIZE = 0x200
+ STATX_TYPE = 0x1
+ STATX_UID = 0x8
+ STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
+ SYSFS_MAGIC = 0x62656572
+ S_BLKSIZE = 0x200
+ S_IEXEC = 0x40
+ S_IFBLK = 0x6000
+ S_IFCHR = 0x2000
+ S_IFDIR = 0x4000
+ S_IFIFO = 0x1000
+ S_IFLNK = 0xa000
+ S_IFMT = 0xf000
+ S_IFREG = 0x8000
+ S_IFSOCK = 0xc000
+ S_IREAD = 0x100
+ S_IRGRP = 0x20
+ S_IROTH = 0x4
+ S_IRUSR = 0x100
+ S_IRWXG = 0x38
+ S_IRWXO = 0x7
+ S_IRWXU = 0x1c0
+ S_ISGID = 0x400
+ S_ISUID = 0x800
+ S_ISVTX = 0x200
+ S_IWGRP = 0x10
+ S_IWOTH = 0x2
+ S_IWRITE = 0x80
+ S_IWUSR = 0x80
+ S_IXGRP = 0x8
+ S_IXOTH = 0x1
+ S_IXUSR = 0x40
+ TAB0 = 0x0
+ TAB1 = 0x800
+ TAB2 = 0x1000
+ TAB3 = 0x1800
+ TABDLY = 0x1800
+ TASKSTATS_CMD_ATTR_MAX = 0x4
+ TASKSTATS_CMD_MAX = 0x2
+ TASKSTATS_GENL_NAME = "TASKSTATS"
+ TASKSTATS_GENL_VERSION = 0x1
+ TASKSTATS_TYPE_MAX = 0x6
+ TASKSTATS_VERSION = 0x8
+ TCFLSH = 0x540b
+ TCGETA = 0x5405
+ TCGETS = 0x5401
+ TCGETS2 = 0x802c542a
+ TCGETX = 0x5432
+ TCIFLUSH = 0x0
+ TCIOFF = 0x2
+ TCIOFLUSH = 0x2
+ TCION = 0x3
+ TCOFLUSH = 0x1
+ TCOOFF = 0x0
+ TCOON = 0x1
+ TCP_CC_INFO = 0x1a
+ TCP_CONGESTION = 0xd
+ TCP_COOKIE_IN_ALWAYS = 0x1
+ TCP_COOKIE_MAX = 0x10
+ TCP_COOKIE_MIN = 0x8
+ TCP_COOKIE_OUT_NEVER = 0x2
+ TCP_COOKIE_PAIR_SIZE = 0x20
+ TCP_COOKIE_TRANSACTIONS = 0xf
+ TCP_CORK = 0x3
+ TCP_DEFER_ACCEPT = 0x9
+ TCP_FASTOPEN = 0x17
+ TCP_FASTOPEN_CONNECT = 0x1e
+ TCP_FASTOPEN_KEY = 0x21
+ TCP_FASTOPEN_NO_COOKIE = 0x22
+ TCP_INFO = 0xb
+ TCP_KEEPCNT = 0x6
+ TCP_KEEPIDLE = 0x4
+ TCP_KEEPINTVL = 0x5
+ TCP_LINGER2 = 0x8
+ TCP_MAXSEG = 0x2
+ TCP_MAXWIN = 0xffff
+ TCP_MAX_WINSHIFT = 0xe
+ TCP_MD5SIG = 0xe
+ TCP_MD5SIG_EXT = 0x20
+ TCP_MD5SIG_FLAG_PREFIX = 0x1
+ TCP_MD5SIG_MAXKEYLEN = 0x50
+ TCP_MSS = 0x200
+ TCP_MSS_DEFAULT = 0x218
+ TCP_MSS_DESIRED = 0x4c4
+ TCP_NODELAY = 0x1
+ TCP_NOTSENT_LOWAT = 0x19
+ TCP_QUEUE_SEQ = 0x15
+ TCP_QUICKACK = 0xc
+ TCP_REPAIR = 0x13
+ TCP_REPAIR_OPTIONS = 0x16
+ TCP_REPAIR_QUEUE = 0x14
+ TCP_REPAIR_WINDOW = 0x1d
+ TCP_SAVED_SYN = 0x1c
+ TCP_SAVE_SYN = 0x1b
+ TCP_SYNCNT = 0x7
+ TCP_S_DATA_IN = 0x4
+ TCP_S_DATA_OUT = 0x8
+ TCP_THIN_DUPACK = 0x11
+ TCP_THIN_LINEAR_TIMEOUTS = 0x10
+ TCP_TIMESTAMP = 0x18
+ TCP_ULP = 0x1f
+ TCP_USER_TIMEOUT = 0x12
+ TCP_WINDOW_CLAMP = 0xa
+ TCSAFLUSH = 0x2
+ TCSBRK = 0x5409
+ TCSBRKP = 0x5425
+ TCSETA = 0x5406
+ TCSETAF = 0x5408
+ TCSETAW = 0x5407
+ TCSETS = 0x5402
+ TCSETS2 = 0x402c542b
+ TCSETSF = 0x5404
+ TCSETSF2 = 0x402c542d
+ TCSETSW = 0x5403
+ TCSETSW2 = 0x402c542c
+ TCSETX = 0x5433
+ TCSETXF = 0x5434
+ TCSETXW = 0x5435
+ TCXONC = 0x540a
+ TIOCCBRK = 0x5428
+ TIOCCONS = 0x541d
+ TIOCEXCL = 0x540c
+ TIOCGDEV = 0x80045432
+ TIOCGETD = 0x5424
+ TIOCGEXCL = 0x80045440
+ TIOCGICOUNT = 0x545d
+ TIOCGLCKTRMIOS = 0x5456
+ TIOCGPGRP = 0x540f
+ TIOCGPKT = 0x80045438
+ TIOCGPTLCK = 0x80045439
+ TIOCGPTN = 0x80045430
+ TIOCGPTPEER = 0x5441
+ TIOCGRS485 = 0x542e
+ TIOCGSERIAL = 0x541e
+ TIOCGSID = 0x5429
+ TIOCGSOFTCAR = 0x5419
+ TIOCGWINSZ = 0x5413
+ TIOCINQ = 0x541b
+ TIOCLINUX = 0x541c
+ TIOCMBIC = 0x5417
+ TIOCMBIS = 0x5416
+ TIOCMGET = 0x5415
+ TIOCMIWAIT = 0x545c
+ TIOCMSET = 0x5418
+ TIOCM_CAR = 0x40
+ TIOCM_CD = 0x40
+ TIOCM_CTS = 0x20
+ TIOCM_DSR = 0x100
+ TIOCM_DTR = 0x2
+ TIOCM_LE = 0x1
+ TIOCM_RI = 0x80
+ TIOCM_RNG = 0x80
+ TIOCM_RTS = 0x4
+ TIOCM_SR = 0x10
+ TIOCM_ST = 0x8
+ TIOCNOTTY = 0x5422
+ TIOCNXCL = 0x540d
+ TIOCOUTQ = 0x5411
+ TIOCPKT = 0x5420
+ TIOCPKT_DATA = 0x0
+ TIOCPKT_DOSTOP = 0x20
+ TIOCPKT_FLUSHREAD = 0x1
+ TIOCPKT_FLUSHWRITE = 0x2
+ TIOCPKT_IOCTL = 0x40
+ TIOCPKT_NOSTOP = 0x10
+ TIOCPKT_START = 0x8
+ TIOCPKT_STOP = 0x4
+ TIOCSBRK = 0x5427
+ TIOCSCTTY = 0x540e
+ TIOCSERCONFIG = 0x5453
+ TIOCSERGETLSR = 0x5459
+ TIOCSERGETMULTI = 0x545a
+ TIOCSERGSTRUCT = 0x5458
+ TIOCSERGWILD = 0x5454
+ TIOCSERSETMULTI = 0x545b
+ TIOCSERSWILD = 0x5455
+ TIOCSER_TEMT = 0x1
+ TIOCSETD = 0x5423
+ TIOCSIG = 0x40045436
+ TIOCSLCKTRMIOS = 0x5457
+ TIOCSPGRP = 0x5410
+ TIOCSPTLCK = 0x40045431
+ TIOCSRS485 = 0x542f
+ TIOCSSERIAL = 0x541f
+ TIOCSSOFTCAR = 0x541a
+ TIOCSTI = 0x5412
+ TIOCSWINSZ = 0x5414
+ TIOCVHANGUP = 0x5437
+ TMPFS_MAGIC = 0x1021994
+ TOSTOP = 0x100
+ TPACKET_ALIGNMENT = 0x10
+ TPACKET_HDRLEN = 0x34
+ TP_STATUS_AVAILABLE = 0x0
+ TP_STATUS_BLK_TMO = 0x20
+ TP_STATUS_COPY = 0x2
+ TP_STATUS_CSUMNOTREADY = 0x8
+ TP_STATUS_CSUM_VALID = 0x80
+ TP_STATUS_KERNEL = 0x0
+ TP_STATUS_LOSING = 0x4
+ TP_STATUS_SENDING = 0x2
+ TP_STATUS_SEND_REQUEST = 0x1
+ TP_STATUS_TS_RAW_HARDWARE = -0x80000000
+ TP_STATUS_TS_SOFTWARE = 0x20000000
+ TP_STATUS_TS_SYS_HARDWARE = 0x40000000
+ TP_STATUS_USER = 0x1
+ TP_STATUS_VLAN_TPID_VALID = 0x40
+ TP_STATUS_VLAN_VALID = 0x10
+ TP_STATUS_WRONG_FORMAT = 0x4
+ TRACEFS_MAGIC = 0x74726163
+ TS_COMM_LEN = 0x20
+ TUNATTACHFILTER = 0x401054d5
+ TUNDETACHFILTER = 0x401054d6
+ TUNGETFEATURES = 0x800454cf
+ TUNGETFILTER = 0x801054db
+ TUNGETIFF = 0x800454d2
+ TUNGETSNDBUF = 0x800454d3
+ TUNGETVNETBE = 0x800454df
+ TUNGETVNETHDRSZ = 0x800454d7
+ TUNGETVNETLE = 0x800454dd
+ TUNSETDEBUG = 0x400454c9
+ TUNSETFILTEREBPF = 0x800454e1
+ TUNSETGROUP = 0x400454ce
+ TUNSETIFF = 0x400454ca
+ TUNSETIFINDEX = 0x400454da
+ TUNSETLINK = 0x400454cd
+ TUNSETNOCSUM = 0x400454c8
+ TUNSETOFFLOAD = 0x400454d0
+ TUNSETOWNER = 0x400454cc
+ TUNSETPERSIST = 0x400454cb
+ TUNSETQUEUE = 0x400454d9
+ TUNSETSNDBUF = 0x400454d4
+ TUNSETSTEERINGEBPF = 0x800454e0
+ TUNSETTXFILTER = 0x400454d1
+ TUNSETVNETBE = 0x400454de
+ TUNSETVNETHDRSZ = 0x400454d8
+ TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
+ UDF_SUPER_MAGIC = 0x15013346
+ UMOUNT_NOFOLLOW = 0x8
+ USBDEVICE_SUPER_MAGIC = 0x9fa2
+ UTIME_NOW = 0x3fffffff
+ UTIME_OMIT = 0x3ffffffe
+ V9FS_MAGIC = 0x1021997
+ VDISCARD = 0xd
+ VEOF = 0x4
+ VEOL = 0xb
+ VEOL2 = 0x10
+ VERASE = 0x2
+ VINTR = 0x0
+ VKILL = 0x3
+ VLNEXT = 0xf
+ VMADDR_CID_ANY = 0xffffffff
+ VMADDR_CID_HOST = 0x2
+ VMADDR_CID_HYPERVISOR = 0x0
+ VMADDR_CID_RESERVED = 0x1
+ VMADDR_PORT_ANY = 0xffffffff
+ VMIN = 0x6
+ VM_SOCKETS_INVALID_VERSION = 0xffffffff
+ VQUIT = 0x1
+ VREPRINT = 0xc
+ VSTART = 0x8
+ VSTOP = 0x9
+ VSUSP = 0xa
+ VSWTC = 0x7
+ VT0 = 0x0
+ VT1 = 0x4000
+ VTDLY = 0x4000
+ VTIME = 0x5
+ VWERASE = 0xe
+ WALL = 0x40000000
+ WCLONE = 0x80000000
+ WCONTINUED = 0x8
+ WDIOC_GETBOOTSTATUS = 0x80045702
+ WDIOC_GETPRETIMEOUT = 0x80045709
+ WDIOC_GETSTATUS = 0x80045701
+ WDIOC_GETSUPPORT = 0x80285700
+ WDIOC_GETTEMP = 0x80045703
+ WDIOC_GETTIMELEFT = 0x8004570a
+ WDIOC_GETTIMEOUT = 0x80045707
+ WDIOC_KEEPALIVE = 0x80045705
+ WDIOC_SETOPTIONS = 0x80045704
+ WDIOC_SETPRETIMEOUT = 0xc0045708
+ WDIOC_SETTIMEOUT = 0xc0045706
+ WEXITED = 0x4
+ WIN_ACKMEDIACHANGE = 0xdb
+ WIN_CHECKPOWERMODE1 = 0xe5
+ WIN_CHECKPOWERMODE2 = 0x98
+ WIN_DEVICE_RESET = 0x8
+ WIN_DIAGNOSE = 0x90
+ WIN_DOORLOCK = 0xde
+ WIN_DOORUNLOCK = 0xdf
+ WIN_DOWNLOAD_MICROCODE = 0x92
+ WIN_FLUSH_CACHE = 0xe7
+ WIN_FLUSH_CACHE_EXT = 0xea
+ WIN_FORMAT = 0x50
+ WIN_GETMEDIASTATUS = 0xda
+ WIN_IDENTIFY = 0xec
+ WIN_IDENTIFY_DMA = 0xee
+ WIN_IDLEIMMEDIATE = 0xe1
+ WIN_INIT = 0x60
+ WIN_MEDIAEJECT = 0xed
+ WIN_MULTREAD = 0xc4
+ WIN_MULTREAD_EXT = 0x29
+ WIN_MULTWRITE = 0xc5
+ WIN_MULTWRITE_EXT = 0x39
+ WIN_NOP = 0x0
+ WIN_PACKETCMD = 0xa0
+ WIN_PIDENTIFY = 0xa1
+ WIN_POSTBOOT = 0xdc
+ WIN_PREBOOT = 0xdd
+ WIN_QUEUED_SERVICE = 0xa2
+ WIN_READ = 0x20
+ WIN_READDMA = 0xc8
+ WIN_READDMA_EXT = 0x25
+ WIN_READDMA_ONCE = 0xc9
+ WIN_READDMA_QUEUED = 0xc7
+ WIN_READDMA_QUEUED_EXT = 0x26
+ WIN_READ_BUFFER = 0xe4
+ WIN_READ_EXT = 0x24
+ WIN_READ_LONG = 0x22
+ WIN_READ_LONG_ONCE = 0x23
+ WIN_READ_NATIVE_MAX = 0xf8
+ WIN_READ_NATIVE_MAX_EXT = 0x27
+ WIN_READ_ONCE = 0x21
+ WIN_RECAL = 0x10
+ WIN_RESTORE = 0x10
+ WIN_SECURITY_DISABLE = 0xf6
+ WIN_SECURITY_ERASE_PREPARE = 0xf3
+ WIN_SECURITY_ERASE_UNIT = 0xf4
+ WIN_SECURITY_FREEZE_LOCK = 0xf5
+ WIN_SECURITY_SET_PASS = 0xf1
+ WIN_SECURITY_UNLOCK = 0xf2
+ WIN_SEEK = 0x70
+ WIN_SETFEATURES = 0xef
+ WIN_SETIDLE1 = 0xe3
+ WIN_SETIDLE2 = 0x97
+ WIN_SETMULT = 0xc6
+ WIN_SET_MAX = 0xf9
+ WIN_SET_MAX_EXT = 0x37
+ WIN_SLEEPNOW1 = 0xe6
+ WIN_SLEEPNOW2 = 0x99
+ WIN_SMART = 0xb0
+ WIN_SPECIFY = 0x91
+ WIN_SRST = 0x8
+ WIN_STANDBY = 0xe2
+ WIN_STANDBY2 = 0x96
+ WIN_STANDBYNOW1 = 0xe0
+ WIN_STANDBYNOW2 = 0x94
+ WIN_VERIFY = 0x40
+ WIN_VERIFY_EXT = 0x42
+ WIN_VERIFY_ONCE = 0x41
+ WIN_WRITE = 0x30
+ WIN_WRITEDMA = 0xca
+ WIN_WRITEDMA_EXT = 0x35
+ WIN_WRITEDMA_ONCE = 0xcb
+ WIN_WRITEDMA_QUEUED = 0xcc
+ WIN_WRITEDMA_QUEUED_EXT = 0x36
+ WIN_WRITE_BUFFER = 0xe8
+ WIN_WRITE_EXT = 0x34
+ WIN_WRITE_LONG = 0x32
+ WIN_WRITE_LONG_ONCE = 0x33
+ WIN_WRITE_ONCE = 0x31
+ WIN_WRITE_SAME = 0xe9
+ WIN_WRITE_VERIFY = 0x3c
+ WNOHANG = 0x1
+ WNOTHREAD = 0x20000000
+ WNOWAIT = 0x1000000
+ WORDSIZE = 0x40
+ WSTOPPED = 0x2
+ WUNTRACED = 0x2
+ XATTR_CREATE = 0x1
+ XATTR_REPLACE = 0x2
+ XCASE = 0x4
+ XENFS_SUPER_MAGIC = 0xabba1974
+ XTABS = 0x1800
+ ZSMALLOC_MAGIC = 0x58295829
+)
+
+// Errors
+const (
+ E2BIG = syscall.Errno(0x7)
+ EACCES = syscall.Errno(0xd)
+ EADDRINUSE = syscall.Errno(0x62)
+ EADDRNOTAVAIL = syscall.Errno(0x63)
+ EADV = syscall.Errno(0x44)
+ EAFNOSUPPORT = syscall.Errno(0x61)
+ EAGAIN = syscall.Errno(0xb)
+ EALREADY = syscall.Errno(0x72)
+ EBADE = syscall.Errno(0x34)
+ EBADF = syscall.Errno(0x9)
+ EBADFD = syscall.Errno(0x4d)
+ EBADMSG = syscall.Errno(0x4a)
+ EBADR = syscall.Errno(0x35)
+ EBADRQC = syscall.Errno(0x38)
+ EBADSLT = syscall.Errno(0x39)
+ EBFONT = syscall.Errno(0x3b)
+ EBUSY = syscall.Errno(0x10)
+ ECANCELED = syscall.Errno(0x7d)
+ ECHILD = syscall.Errno(0xa)
+ ECHRNG = syscall.Errno(0x2c)
+ ECOMM = syscall.Errno(0x46)
+ ECONNABORTED = syscall.Errno(0x67)
+ ECONNREFUSED = syscall.Errno(0x6f)
+ ECONNRESET = syscall.Errno(0x68)
+ EDEADLK = syscall.Errno(0x23)
+ EDEADLOCK = syscall.Errno(0x23)
+ EDESTADDRREQ = syscall.Errno(0x59)
+ EDOM = syscall.Errno(0x21)
+ EDOTDOT = syscall.Errno(0x49)
+ EDQUOT = syscall.Errno(0x7a)
+ EEXIST = syscall.Errno(0x11)
+ EFAULT = syscall.Errno(0xe)
+ EFBIG = syscall.Errno(0x1b)
+ EHOSTDOWN = syscall.Errno(0x70)
+ EHOSTUNREACH = syscall.Errno(0x71)
+ EHWPOISON = syscall.Errno(0x85)
+ EIDRM = syscall.Errno(0x2b)
+ EILSEQ = syscall.Errno(0x54)
+ EINPROGRESS = syscall.Errno(0x73)
+ EINTR = syscall.Errno(0x4)
+ EINVAL = syscall.Errno(0x16)
+ EIO = syscall.Errno(0x5)
+ EISCONN = syscall.Errno(0x6a)
+ EISDIR = syscall.Errno(0x15)
+ EISNAM = syscall.Errno(0x78)
+ EKEYEXPIRED = syscall.Errno(0x7f)
+ EKEYREJECTED = syscall.Errno(0x81)
+ EKEYREVOKED = syscall.Errno(0x80)
+ EL2HLT = syscall.Errno(0x33)
+ EL2NSYNC = syscall.Errno(0x2d)
+ EL3HLT = syscall.Errno(0x2e)
+ EL3RST = syscall.Errno(0x2f)
+ ELIBACC = syscall.Errno(0x4f)
+ ELIBBAD = syscall.Errno(0x50)
+ ELIBEXEC = syscall.Errno(0x53)
+ ELIBMAX = syscall.Errno(0x52)
+ ELIBSCN = syscall.Errno(0x51)
+ ELNRNG = syscall.Errno(0x30)
+ ELOOP = syscall.Errno(0x28)
+ EMEDIUMTYPE = syscall.Errno(0x7c)
+ EMFILE = syscall.Errno(0x18)
+ EMLINK = syscall.Errno(0x1f)
+ EMSGSIZE = syscall.Errno(0x5a)
+ EMULTIHOP = syscall.Errno(0x48)
+ ENAMETOOLONG = syscall.Errno(0x24)
+ ENAVAIL = syscall.Errno(0x77)
+ ENETDOWN = syscall.Errno(0x64)
+ ENETRESET = syscall.Errno(0x66)
+ ENETUNREACH = syscall.Errno(0x65)
+ ENFILE = syscall.Errno(0x17)
+ ENOANO = syscall.Errno(0x37)
+ ENOBUFS = syscall.Errno(0x69)
+ ENOCSI = syscall.Errno(0x32)
+ ENODATA = syscall.Errno(0x3d)
+ ENODEV = syscall.Errno(0x13)
+ ENOENT = syscall.Errno(0x2)
+ ENOEXEC = syscall.Errno(0x8)
+ ENOKEY = syscall.Errno(0x7e)
+ ENOLCK = syscall.Errno(0x25)
+ ENOLINK = syscall.Errno(0x43)
+ ENOMEDIUM = syscall.Errno(0x7b)
+ ENOMEM = syscall.Errno(0xc)
+ ENOMSG = syscall.Errno(0x2a)
+ ENONET = syscall.Errno(0x40)
+ ENOPKG = syscall.Errno(0x41)
+ ENOPROTOOPT = syscall.Errno(0x5c)
+ ENOSPC = syscall.Errno(0x1c)
+ ENOSR = syscall.Errno(0x3f)
+ ENOSTR = syscall.Errno(0x3c)
+ ENOSYS = syscall.Errno(0x26)
+ ENOTBLK = syscall.Errno(0xf)
+ ENOTCONN = syscall.Errno(0x6b)
+ ENOTDIR = syscall.Errno(0x14)
+ ENOTEMPTY = syscall.Errno(0x27)
+ ENOTNAM = syscall.Errno(0x76)
+ ENOTRECOVERABLE = syscall.Errno(0x83)
+ ENOTSOCK = syscall.Errno(0x58)
+ ENOTSUP = syscall.Errno(0x5f)
+ ENOTTY = syscall.Errno(0x19)
+ ENOTUNIQ = syscall.Errno(0x4c)
+ ENXIO = syscall.Errno(0x6)
+ EOPNOTSUPP = syscall.Errno(0x5f)
+ EOVERFLOW = syscall.Errno(0x4b)
+ EOWNERDEAD = syscall.Errno(0x82)
+ EPERM = syscall.Errno(0x1)
+ EPFNOSUPPORT = syscall.Errno(0x60)
+ EPIPE = syscall.Errno(0x20)
+ EPROTO = syscall.Errno(0x47)
+ EPROTONOSUPPORT = syscall.Errno(0x5d)
+ EPROTOTYPE = syscall.Errno(0x5b)
+ ERANGE = syscall.Errno(0x22)
+ EREMCHG = syscall.Errno(0x4e)
+ EREMOTE = syscall.Errno(0x42)
+ EREMOTEIO = syscall.Errno(0x79)
+ ERESTART = syscall.Errno(0x55)
+ ERFKILL = syscall.Errno(0x84)
+ EROFS = syscall.Errno(0x1e)
+ ESHUTDOWN = syscall.Errno(0x6c)
+ ESOCKTNOSUPPORT = syscall.Errno(0x5e)
+ ESPIPE = syscall.Errno(0x1d)
+ ESRCH = syscall.Errno(0x3)
+ ESRMNT = syscall.Errno(0x45)
+ ESTALE = syscall.Errno(0x74)
+ ESTRPIPE = syscall.Errno(0x56)
+ ETIME = syscall.Errno(0x3e)
+ ETIMEDOUT = syscall.Errno(0x6e)
+ ETOOMANYREFS = syscall.Errno(0x6d)
+ ETXTBSY = syscall.Errno(0x1a)
+ EUCLEAN = syscall.Errno(0x75)
+ EUNATCH = syscall.Errno(0x31)
+ EUSERS = syscall.Errno(0x57)
+ EWOULDBLOCK = syscall.Errno(0xb)
+ EXDEV = syscall.Errno(0x12)
+ EXFULL = syscall.Errno(0x36)
+)
+
+// Signals
+const (
+ SIGABRT = syscall.Signal(0x6)
+ SIGALRM = syscall.Signal(0xe)
+ SIGBUS = syscall.Signal(0x7)
+ SIGCHLD = syscall.Signal(0x11)
+ SIGCLD = syscall.Signal(0x11)
+ SIGCONT = syscall.Signal(0x12)
+ SIGFPE = syscall.Signal(0x8)
+ SIGHUP = syscall.Signal(0x1)
+ SIGILL = syscall.Signal(0x4)
+ SIGINT = syscall.Signal(0x2)
+ SIGIO = syscall.Signal(0x1d)
+ SIGIOT = syscall.Signal(0x6)
+ SIGKILL = syscall.Signal(0x9)
+ SIGPIPE = syscall.Signal(0xd)
+ SIGPOLL = syscall.Signal(0x1d)
+ SIGPROF = syscall.Signal(0x1b)
+ SIGPWR = syscall.Signal(0x1e)
+ SIGQUIT = syscall.Signal(0x3)
+ SIGSEGV = syscall.Signal(0xb)
+ SIGSTKFLT = syscall.Signal(0x10)
+ SIGSTOP = syscall.Signal(0x13)
+ SIGSYS = syscall.Signal(0x1f)
+ SIGTERM = syscall.Signal(0xf)
+ SIGTRAP = syscall.Signal(0x5)
+ SIGTSTP = syscall.Signal(0x14)
+ SIGTTIN = syscall.Signal(0x15)
+ SIGTTOU = syscall.Signal(0x16)
+ SIGURG = syscall.Signal(0x17)
+ SIGUSR1 = syscall.Signal(0xa)
+ SIGUSR2 = syscall.Signal(0xc)
+ SIGVTALRM = syscall.Signal(0x1a)
+ SIGWINCH = syscall.Signal(0x1c)
+ SIGXCPU = syscall.Signal(0x18)
+ SIGXFSZ = syscall.Signal(0x19)
+)
+
+// Error table
+var errorList = [...]struct {
+ num syscall.Errno
+ name string
+ desc string
+}{
+ {1, "EPERM", "operation not permitted"},
+ {2, "ENOENT", "no such file or directory"},
+ {3, "ESRCH", "no such process"},
+ {4, "EINTR", "interrupted system call"},
+ {5, "EIO", "input/output error"},
+ {6, "ENXIO", "no such device or address"},
+ {7, "E2BIG", "argument list too long"},
+ {8, "ENOEXEC", "exec format error"},
+ {9, "EBADF", "bad file descriptor"},
+ {10, "ECHILD", "no child processes"},
+ {11, "EAGAIN", "resource temporarily unavailable"},
+ {12, "ENOMEM", "cannot allocate memory"},
+ {13, "EACCES", "permission denied"},
+ {14, "EFAULT", "bad address"},
+ {15, "ENOTBLK", "block device required"},
+ {16, "EBUSY", "device or resource busy"},
+ {17, "EEXIST", "file exists"},
+ {18, "EXDEV", "invalid cross-device link"},
+ {19, "ENODEV", "no such device"},
+ {20, "ENOTDIR", "not a directory"},
+ {21, "EISDIR", "is a directory"},
+ {22, "EINVAL", "invalid argument"},
+ {23, "ENFILE", "too many open files in system"},
+ {24, "EMFILE", "too many open files"},
+ {25, "ENOTTY", "inappropriate ioctl for device"},
+ {26, "ETXTBSY", "text file busy"},
+ {27, "EFBIG", "file too large"},
+ {28, "ENOSPC", "no space left on device"},
+ {29, "ESPIPE", "illegal seek"},
+ {30, "EROFS", "read-only file system"},
+ {31, "EMLINK", "too many links"},
+ {32, "EPIPE", "broken pipe"},
+ {33, "EDOM", "numerical argument out of domain"},
+ {34, "ERANGE", "numerical result out of range"},
+ {35, "EDEADLK", "resource deadlock avoided"},
+ {36, "ENAMETOOLONG", "file name too long"},
+ {37, "ENOLCK", "no locks available"},
+ {38, "ENOSYS", "function not implemented"},
+ {39, "ENOTEMPTY", "directory not empty"},
+ {40, "ELOOP", "too many levels of symbolic links"},
+ {42, "ENOMSG", "no message of desired type"},
+ {43, "EIDRM", "identifier removed"},
+ {44, "ECHRNG", "channel number out of range"},
+ {45, "EL2NSYNC", "level 2 not synchronized"},
+ {46, "EL3HLT", "level 3 halted"},
+ {47, "EL3RST", "level 3 reset"},
+ {48, "ELNRNG", "link number out of range"},
+ {49, "EUNATCH", "protocol driver not attached"},
+ {50, "ENOCSI", "no CSI structure available"},
+ {51, "EL2HLT", "level 2 halted"},
+ {52, "EBADE", "invalid exchange"},
+ {53, "EBADR", "invalid request descriptor"},
+ {54, "EXFULL", "exchange full"},
+ {55, "ENOANO", "no anode"},
+ {56, "EBADRQC", "invalid request code"},
+ {57, "EBADSLT", "invalid slot"},
+ {59, "EBFONT", "bad font file format"},
+ {60, "ENOSTR", "device not a stream"},
+ {61, "ENODATA", "no data available"},
+ {62, "ETIME", "timer expired"},
+ {63, "ENOSR", "out of streams resources"},
+ {64, "ENONET", "machine is not on the network"},
+ {65, "ENOPKG", "package not installed"},
+ {66, "EREMOTE", "object is remote"},
+ {67, "ENOLINK", "link has been severed"},
+ {68, "EADV", "advertise error"},
+ {69, "ESRMNT", "srmount error"},
+ {70, "ECOMM", "communication error on send"},
+ {71, "EPROTO", "protocol error"},
+ {72, "EMULTIHOP", "multihop attempted"},
+ {73, "EDOTDOT", "RFS specific error"},
+ {74, "EBADMSG", "bad message"},
+ {75, "EOVERFLOW", "value too large for defined data type"},
+ {76, "ENOTUNIQ", "name not unique on network"},
+ {77, "EBADFD", "file descriptor in bad state"},
+ {78, "EREMCHG", "remote address changed"},
+ {79, "ELIBACC", "can not access a needed shared library"},
+ {80, "ELIBBAD", "accessing a corrupted shared library"},
+ {81, "ELIBSCN", ".lib section in a.out corrupted"},
+ {82, "ELIBMAX", "attempting to link in too many shared libraries"},
+ {83, "ELIBEXEC", "cannot exec a shared library directly"},
+ {84, "EILSEQ", "invalid or incomplete multibyte or wide character"},
+ {85, "ERESTART", "interrupted system call should be restarted"},
+ {86, "ESTRPIPE", "streams pipe error"},
+ {87, "EUSERS", "too many users"},
+ {88, "ENOTSOCK", "socket operation on non-socket"},
+ {89, "EDESTADDRREQ", "destination address required"},
+ {90, "EMSGSIZE", "message too long"},
+ {91, "EPROTOTYPE", "protocol wrong type for socket"},
+ {92, "ENOPROTOOPT", "protocol not available"},
+ {93, "EPROTONOSUPPORT", "protocol not supported"},
+ {94, "ESOCKTNOSUPPORT", "socket type not supported"},
+ {95, "ENOTSUP", "operation not supported"},
+ {96, "EPFNOSUPPORT", "protocol family not supported"},
+ {97, "EAFNOSUPPORT", "address family not supported by protocol"},
+ {98, "EADDRINUSE", "address already in use"},
+ {99, "EADDRNOTAVAIL", "cannot assign requested address"},
+ {100, "ENETDOWN", "network is down"},
+ {101, "ENETUNREACH", "network is unreachable"},
+ {102, "ENETRESET", "network dropped connection on reset"},
+ {103, "ECONNABORTED", "software caused connection abort"},
+ {104, "ECONNRESET", "connection reset by peer"},
+ {105, "ENOBUFS", "no buffer space available"},
+ {106, "EISCONN", "transport endpoint is already connected"},
+ {107, "ENOTCONN", "transport endpoint is not connected"},
+ {108, "ESHUTDOWN", "cannot send after transport endpoint shutdown"},
+ {109, "ETOOMANYREFS", "too many references: cannot splice"},
+ {110, "ETIMEDOUT", "connection timed out"},
+ {111, "ECONNREFUSED", "connection refused"},
+ {112, "EHOSTDOWN", "host is down"},
+ {113, "EHOSTUNREACH", "no route to host"},
+ {114, "EALREADY", "operation already in progress"},
+ {115, "EINPROGRESS", "operation now in progress"},
+ {116, "ESTALE", "stale file handle"},
+ {117, "EUCLEAN", "structure needs cleaning"},
+ {118, "ENOTNAM", "not a XENIX named type file"},
+ {119, "ENAVAIL", "no XENIX semaphores available"},
+ {120, "EISNAM", "is a named type file"},
+ {121, "EREMOTEIO", "remote I/O error"},
+ {122, "EDQUOT", "disk quota exceeded"},
+ {123, "ENOMEDIUM", "no medium found"},
+ {124, "EMEDIUMTYPE", "wrong medium type"},
+ {125, "ECANCELED", "operation canceled"},
+ {126, "ENOKEY", "required key not available"},
+ {127, "EKEYEXPIRED", "key has expired"},
+ {128, "EKEYREVOKED", "key has been revoked"},
+ {129, "EKEYREJECTED", "key was rejected by service"},
+ {130, "EOWNERDEAD", "owner died"},
+ {131, "ENOTRECOVERABLE", "state not recoverable"},
+ {132, "ERFKILL", "operation not possible due to RF-kill"},
+ {133, "EHWPOISON", "memory page has hardware error"},
+}
+
+// Signal table
+var signalList = [...]struct {
+ num syscall.Signal
+ name string
+ desc string
+}{
+ {1, "SIGHUP", "hangup"},
+ {2, "SIGINT", "interrupt"},
+ {3, "SIGQUIT", "quit"},
+ {4, "SIGILL", "illegal instruction"},
+ {5, "SIGTRAP", "trace/breakpoint trap"},
+ {6, "SIGABRT", "aborted"},
+ {7, "SIGBUS", "bus error"},
+ {8, "SIGFPE", "floating point exception"},
+ {9, "SIGKILL", "killed"},
+ {10, "SIGUSR1", "user defined signal 1"},
+ {11, "SIGSEGV", "segmentation fault"},
+ {12, "SIGUSR2", "user defined signal 2"},
+ {13, "SIGPIPE", "broken pipe"},
+ {14, "SIGALRM", "alarm clock"},
+ {15, "SIGTERM", "terminated"},
+ {16, "SIGSTKFLT", "stack fault"},
+ {17, "SIGCHLD", "child exited"},
+ {18, "SIGCONT", "continued"},
+ {19, "SIGSTOP", "stopped (signal)"},
+ {20, "SIGTSTP", "stopped"},
+ {21, "SIGTTIN", "stopped (tty input)"},
+ {22, "SIGTTOU", "stopped (tty output)"},
+ {23, "SIGURG", "urgent I/O condition"},
+ {24, "SIGXCPU", "CPU time limit exceeded"},
+ {25, "SIGXFSZ", "file size limit exceeded"},
+ {26, "SIGVTALRM", "virtual timer expired"},
+ {27, "SIGPROF", "profiling timer expired"},
+ {28, "SIGWINCH", "window changed"},
+ {29, "SIGIO", "I/O possible"},
+ {30, "SIGPWR", "power failure"},
+ {31, "SIGSYS", "bad system call"},
+}
diff --git a/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go b/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go
index 6054d05493f9b0e52abfb8ccafaaa9998c89c709..0e4dba121ee5d381b39acbbc7afc5301933ecefd 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_linux_s390x.go
@@ -975,6 +975,21 @@ const (
MCL_CURRENT = 0x1
MCL_FUTURE = 0x2
MCL_ONFAULT = 0x4
+ MFD_ALLOW_SEALING = 0x2
+ MFD_CLOEXEC = 0x1
+ MFD_HUGETLB = 0x4
+ MFD_HUGE_16GB = -0x78000000
+ MFD_HUGE_16MB = 0x60000000
+ MFD_HUGE_1GB = 0x78000000
+ MFD_HUGE_1MB = 0x50000000
+ MFD_HUGE_256MB = 0x70000000
+ MFD_HUGE_2GB = 0x7c000000
+ MFD_HUGE_2MB = 0x54000000
+ MFD_HUGE_512KB = 0x4c000000
+ MFD_HUGE_64KB = 0x40000000
+ MFD_HUGE_8MB = 0x5c000000
+ MFD_HUGE_MASK = 0x3f
+ MFD_HUGE_SHIFT = 0x1a
MINIX2_SUPER_MAGIC = 0x2468
MINIX2_SUPER_MAGIC2 = 0x2478
MINIX3_SUPER_MAGIC = 0x4d5a
@@ -1952,6 +1967,9 @@ const (
STATX_TYPE = 0x1
STATX_UID = 0x8
STATX__RESERVED = 0x80000000
+ SYNC_FILE_RANGE_WAIT_AFTER = 0x4
+ SYNC_FILE_RANGE_WAIT_BEFORE = 0x1
+ SYNC_FILE_RANGE_WRITE = 0x2
SYSFS_MAGIC = 0x62656572
S_BLKSIZE = 0x200
S_IEXEC = 0x40
@@ -2184,6 +2202,21 @@ const (
TUNSETVNETBE = 0x400454de
TUNSETVNETHDRSZ = 0x400454d8
TUNSETVNETLE = 0x400454dc
+ UBI_IOCATT = 0x40186f40
+ UBI_IOCDET = 0x40046f41
+ UBI_IOCEBCH = 0x40044f02
+ UBI_IOCEBER = 0x40044f01
+ UBI_IOCEBISMAP = 0x80044f05
+ UBI_IOCEBMAP = 0x40084f03
+ UBI_IOCEBUNMAP = 0x40044f04
+ UBI_IOCMKVOL = 0x40986f00
+ UBI_IOCRMVOL = 0x40046f01
+ UBI_IOCRNVOL = 0x51106f03
+ UBI_IOCRSVOL = 0x400c6f02
+ UBI_IOCSETVOLPROP = 0x40104f06
+ UBI_IOCVOLCRBLK = 0x40804f07
+ UBI_IOCVOLRMBLK = 0x4f08
+ UBI_IOCVOLUP = 0x40084f00
UDF_SUPER_MAGIC = 0x15013346
UMOUNT_NOFOLLOW = 0x8
USBDEVICE_SUPER_MAGIC = 0x9fa2
diff --git a/vendor/golang.org/x/sys/unix/zerrors_solaris_amd64.go b/vendor/golang.org/x/sys/unix/zerrors_solaris_amd64.go
index be42830cf3d382bb7a55deed8a552be087bdd351..22569db31d3cee8118632273ca349620d3271126 100644
--- a/vendor/golang.org/x/sys/unix/zerrors_solaris_amd64.go
+++ b/vendor/golang.org/x/sys/unix/zerrors_solaris_amd64.go
@@ -996,6 +996,39 @@ const (
SO_USELOOPBACK = 0x40
SO_VRRP = 0x1017
SO_WROFF = 0x2
+ S_ENFMT = 0x400
+ S_IAMB = 0x1ff
+ S_IEXEC = 0x40
+ S_IFBLK = 0x6000
+ S_IFCHR = 0x2000
+ S_IFDIR = 0x4000
+ S_IFDOOR = 0xd000
+ S_IFIFO = 0x1000
+ S_IFLNK = 0xa000
+ S_IFMT = 0xf000
+ S_IFNAM = 0x5000
+ S_IFPORT = 0xe000
+ S_IFREG = 0x8000
+ S_IFSOCK = 0xc000
+ S_INSEM = 0x1
+ S_INSHD = 0x2
+ S_IREAD = 0x100
+ S_IRGRP = 0x20
+ S_IROTH = 0x4
+ S_IRUSR = 0x100
+ S_IRWXG = 0x38
+ S_IRWXO = 0x7
+ S_IRWXU = 0x1c0
+ S_ISGID = 0x400
+ S_ISUID = 0x800
+ S_ISVTX = 0x200
+ S_IWGRP = 0x10
+ S_IWOTH = 0x2
+ S_IWRITE = 0x80
+ S_IWUSR = 0x80
+ S_IXGRP = 0x8
+ S_IXOTH = 0x1
+ S_IXUSR = 0x40
TAB0 = 0x0
TAB1 = 0x800
TAB2 = 0x1000
@@ -1102,6 +1135,8 @@ const (
TIOCSTOP = 0x746f
TIOCSWINSZ = 0x5467
TOSTOP = 0x100
+ UTIME_NOW = -0x1
+ UTIME_OMIT = -0x2
VCEOF = 0x8
VCEOL = 0x9
VDISCARD = 0xd
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc.go b/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc.go
new file mode 100644
index 0000000000000000000000000000000000000000..ab2f7612233bf7d6007de44b85e8f9b866801612
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc.go
@@ -0,0 +1,1519 @@
+// mksyscall_aix.pl -aix -tags aix,ppc syscall_aix.go syscall_aix_ppc.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build aix,ppc
+
+package unix
+
+/*
+#include <stdint.h>
+int utimes(uintptr_t, uintptr_t);
+int utimensat(int, uintptr_t, uintptr_t, int);
+int getcwd(uintptr_t, size_t);
+int accept(int, uintptr_t, uintptr_t);
+int getdirent(int, uintptr_t, size_t);
+int wait4(int, uintptr_t, int, uintptr_t);
+int ioctl(int, int, uintptr_t);
+int fcntl(uintptr_t, int, uintptr_t);
+int acct(uintptr_t);
+int chdir(uintptr_t);
+int chroot(uintptr_t);
+int close(int);
+int dup(int);
+int dup3(int, int, int);
+void exit(int);
+int faccessat(int, uintptr_t, unsigned int, int);
+int fallocate(int, unsigned int, long long, long long);
+int fchdir(int);
+int fchmod(int, unsigned int);
+int fchmodat(int, uintptr_t, unsigned int, int);
+int fchownat(int, uintptr_t, int, int, int);
+int fdatasync(int);
+int fsync(int);
+int getpgid(int);
+int getpgrp();
+int getpid();
+int getppid();
+int getpriority(int, int);
+int getrusage(int, uintptr_t);
+int getsid(int);
+int kill(int, int);
+int syslog(int, uintptr_t, size_t);
+int mkdir(int, uintptr_t, unsigned int);
+int mkdirat(int, uintptr_t, unsigned int);
+int mkfifo(uintptr_t, unsigned int);
+int mknod(uintptr_t, unsigned int, int);
+int mknodat(int, uintptr_t, unsigned int, int);
+int nanosleep(uintptr_t, uintptr_t);
+int open64(uintptr_t, int, unsigned int);
+int openat(int, uintptr_t, int, unsigned int);
+int read(int, uintptr_t, size_t);
+int readlink(uintptr_t, uintptr_t, size_t);
+int removexattr(uintptr_t, uintptr_t);
+int renameat(int, uintptr_t, int, uintptr_t);
+int setdomainname(uintptr_t, size_t);
+int sethostname(uintptr_t, size_t);
+int setpgid(int, int);
+int setsid();
+int settimeofday(uintptr_t);
+int setuid(int);
+int setgid(int);
+int setpriority(int, int, int);
+int statx(int, uintptr_t, int, int, uintptr_t);
+int sync();
+long long tee(int, int, int, int);
+uintptr_t times(uintptr_t);
+int umask(int);
+int uname(uintptr_t);
+int unlink(uintptr_t);
+int unlinkat(int, uintptr_t, int);
+int unshare(int);
+int ustat(int, uintptr_t);
+int write(int, uintptr_t, size_t);
+int dup2(int, int);
+int posix_fadvise64(int, long long, long long, int);
+int fchown(int, int, int);
+int fstat(int, uintptr_t);
+int fstatat(int, uintptr_t, uintptr_t, int);
+int fstatfs(int, uintptr_t);
+int ftruncate(int, long long);
+int getegid();
+int geteuid();
+int getgid();
+int getuid();
+int lchown(uintptr_t, int, int);
+int listen(int, int);
+int lstat(uintptr_t, uintptr_t);
+int pause();
+int pread64(int, uintptr_t, size_t, long long);
+int pwrite64(int, uintptr_t, size_t, long long);
+int pselect(int, uintptr_t, uintptr_t, uintptr_t, uintptr_t, uintptr_t);
+int setregid(int, int);
+int setreuid(int, int);
+int shutdown(int, int);
+long long splice(int, uintptr_t, int, uintptr_t, int, int);
+int stat(uintptr_t, uintptr_t);
+int statfs(uintptr_t, uintptr_t);
+int truncate(uintptr_t, long long);
+int bind(int, uintptr_t, uintptr_t);
+int connect(int, uintptr_t, uintptr_t);
+int getgroups(int, uintptr_t);
+int setgroups(int, uintptr_t);
+int getsockopt(int, int, int, uintptr_t, uintptr_t);
+int setsockopt(int, int, int, uintptr_t, uintptr_t);
+int socket(int, int, int);
+int socketpair(int, int, int, uintptr_t);
+int getpeername(int, uintptr_t, uintptr_t);
+int getsockname(int, uintptr_t, uintptr_t);
+int recvfrom(int, uintptr_t, size_t, int, uintptr_t, uintptr_t);
+int sendto(int, uintptr_t, size_t, int, uintptr_t, uintptr_t);
+int recvmsg(int, uintptr_t, int);
+int sendmsg(int, uintptr_t, int);
+int munmap(uintptr_t, uintptr_t);
+int madvise(uintptr_t, size_t, int);
+int mprotect(uintptr_t, size_t, int);
+int mlock(uintptr_t, size_t);
+int mlockall(int);
+int msync(uintptr_t, size_t, int);
+int munlock(uintptr_t, size_t);
+int munlockall();
+int pipe(uintptr_t);
+int pipe2(uintptr_t, int);
+int poll(uintptr_t, int, int);
+int gettimeofday(uintptr_t, uintptr_t);
+int time(uintptr_t);
+int utime(uintptr_t, uintptr_t);
+int getrlimit64(int, uintptr_t);
+int setrlimit64(int, uintptr_t);
+long long lseek64(int, long long, int);
+uintptr_t mmap(uintptr_t, uintptr_t, int, int, int, long long);
+
+*/
+import "C"
+import (
+ "syscall"
+ "unsafe"
+)
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func utimes(path string, times *[2]Timeval) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utimes(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(times))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func utimensat(dirfd int, path string, times *[2]Timespec, flag int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utimensat(C.int(dirfd), C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(times))), C.int(flag))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getcwd(buf []byte) (err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.getcwd(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error) {
+ r0, er := C.accept(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getdirent(fd int, buf []byte) (n int, err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.getdirent(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func wait4(pid Pid_t, status *_C_int, options int, rusage *Rusage) (wpid Pid_t, err error) {
+ r0, er := C.wait4(C.int(pid), C.uintptr_t(uintptr(unsafe.Pointer(status))), C.int(options), C.uintptr_t(uintptr(unsafe.Pointer(rusage))))
+ wpid = Pid_t(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ioctl(fd int, req uint, arg uintptr) (err error) {
+ r0, er := C.ioctl(C.int(fd), C.int(req), C.uintptr_t(arg))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func FcntlInt(fd uintptr, cmd int, arg int) (r int, err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(arg))
+ r = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func FcntlFlock(fd uintptr, cmd int, lk *Flock_t) (err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(uintptr(unsafe.Pointer(lk))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Acct(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.acct(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chdir(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.chdir(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chroot(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.chroot(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Close(fd int) (err error) {
+ r0, er := C.close(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup(oldfd int) (fd int, err error) {
+ r0, er := C.dup(C.int(oldfd))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup3(oldfd int, newfd int, flags int) (err error) {
+ r0, er := C.dup3(C.int(oldfd), C.int(newfd), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Exit(code int) {
+ C.exit(C.int(code))
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Faccessat(dirfd int, path string, mode uint32, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.faccessat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fallocate(fd int, mode uint32, off int64, len int64) (err error) {
+ r0, er := C.fallocate(C.int(fd), C.uint(mode), C.longlong(off), C.longlong(len))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchdir(fd int) (err error) {
+ r0, er := C.fchdir(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchmod(fd int, mode uint32) (err error) {
+ r0, er := C.fchmod(C.int(fd), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchmodat(dirfd int, path string, mode uint32, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fchmodat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchownat(dirfd int, path string, uid int, gid int, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fchownat(C.int(dirfd), C.uintptr_t(_p0), C.int(uid), C.int(gid), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func fcntl(fd int, cmd int, arg int) (val int, err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(arg))
+ val = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fdatasync(fd int) (err error) {
+ r0, er := C.fdatasync(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fsync(fd int) (err error) {
+ r0, er := C.fsync(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpgid(pid int) (pgid int, err error) {
+ r0, er := C.getpgid(C.int(pid))
+ pgid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpgrp() (pid int) {
+ r0, _ := C.getpgrp()
+ pid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpid() (pid int) {
+ r0, _ := C.getpid()
+ pid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getppid() (ppid int) {
+ r0, _ := C.getppid()
+ ppid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpriority(which int, who int) (prio int, err error) {
+ r0, er := C.getpriority(C.int(which), C.int(who))
+ prio = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrusage(who int, rusage *Rusage) (err error) {
+ r0, er := C.getrusage(C.int(who), C.uintptr_t(uintptr(unsafe.Pointer(rusage))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getsid(pid int) (sid int, err error) {
+ r0, er := C.getsid(C.int(pid))
+ sid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Kill(pid int, sig syscall.Signal) (err error) {
+ r0, er := C.kill(C.int(pid), C.int(sig))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Klogctl(typ int, buf []byte) (n int, err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.syslog(C.int(typ), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkdir(dirfd int, path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkdir(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkdirat(dirfd int, path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkdirat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkfifo(path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkfifo(C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mknod(path string, mode uint32, dev int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mknod(C.uintptr_t(_p0), C.uint(mode), C.int(dev))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mknodat(dirfd int, path string, mode uint32, dev int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mknodat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(dev))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Nanosleep(time *Timespec, leftover *Timespec) (err error) {
+ r0, er := C.nanosleep(C.uintptr_t(uintptr(unsafe.Pointer(time))), C.uintptr_t(uintptr(unsafe.Pointer(leftover))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Open(path string, mode int, perm uint32) (fd int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.open64(C.uintptr_t(_p0), C.int(mode), C.uint(perm))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Openat(dirfd int, path string, flags int, mode uint32) (fd int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.openat(C.int(dirfd), C.uintptr_t(_p0), C.int(flags), C.uint(mode))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func read(fd int, p []byte) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.read(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Readlink(path string, buf []byte) (n int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ var _p1 *byte
+ if len(buf) > 0 {
+ _p1 = &buf[0]
+ }
+ var _p2 int
+ _p2 = len(buf)
+ r0, er := C.readlink(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(_p1))), C.size_t(_p2))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Removexattr(path string, attr string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ _p1 := uintptr(unsafe.Pointer(C.CString(attr)))
+ r0, er := C.removexattr(C.uintptr_t(_p0), C.uintptr_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Renameat(olddirfd int, oldpath string, newdirfd int, newpath string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(oldpath)))
+ _p1 := uintptr(unsafe.Pointer(C.CString(newpath)))
+ r0, er := C.renameat(C.int(olddirfd), C.uintptr_t(_p0), C.int(newdirfd), C.uintptr_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setdomainname(p []byte) (err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.setdomainname(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sethostname(p []byte) (err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.sethostname(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpgid(pid int, pgid int) (err error) {
+ r0, er := C.setpgid(C.int(pid), C.int(pgid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setsid() (pid int, err error) {
+ r0, er := C.setsid()
+ pid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Settimeofday(tv *Timeval) (err error) {
+ r0, er := C.settimeofday(C.uintptr_t(uintptr(unsafe.Pointer(tv))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setuid(uid int) (err error) {
+ r0, er := C.setuid(C.int(uid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setgid(uid int) (err error) {
+ r0, er := C.setgid(C.int(uid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpriority(which int, who int, prio int) (err error) {
+ r0, er := C.setpriority(C.int(which), C.int(who), C.int(prio))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statx(dirfd int, path string, flags int, mask int, stat *Statx_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.statx(C.int(dirfd), C.uintptr_t(_p0), C.int(flags), C.int(mask), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sync() {
+ C.sync()
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Tee(rfd int, wfd int, len int, flags int) (n int64, err error) {
+ r0, er := C.tee(C.int(rfd), C.int(wfd), C.int(len), C.int(flags))
+ n = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Times(tms *Tms) (ticks uintptr, err error) {
+ r0, er := C.times(C.uintptr_t(uintptr(unsafe.Pointer(tms))))
+ ticks = uintptr(r0)
+ if uintptr(r0) == ^uintptr(0) && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Umask(mask int) (oldmask int) {
+ r0, _ := C.umask(C.int(mask))
+ oldmask = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Uname(buf *Utsname) (err error) {
+ r0, er := C.uname(C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unlink(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.unlink(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unlinkat(dirfd int, path string, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.unlinkat(C.int(dirfd), C.uintptr_t(_p0), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unshare(flags int) (err error) {
+ r0, er := C.unshare(C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Ustat(dev int, ubuf *Ustat_t) (err error) {
+ r0, er := C.ustat(C.int(dev), C.uintptr_t(uintptr(unsafe.Pointer(ubuf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func write(fd int, p []byte) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.write(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func readlen(fd int, p *byte, np int) (n int, err error) {
+ r0, er := C.read(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(p))), C.size_t(np))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func writelen(fd int, p *byte, np int) (n int, err error) {
+ r0, er := C.write(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(p))), C.size_t(np))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup2(oldfd int, newfd int) (err error) {
+ r0, er := C.dup2(C.int(oldfd), C.int(newfd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fadvise(fd int, offset int64, length int64, advice int) (err error) {
+ r0, er := C.posix_fadvise64(C.int(fd), C.longlong(offset), C.longlong(length), C.int(advice))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchown(fd int, uid int, gid int) (err error) {
+ r0, er := C.fchown(C.int(fd), C.int(uid), C.int(gid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstat(fd int, stat *Stat_t) (err error) {
+ r0, er := C.fstat(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatat(dirfd int, path string, stat *Stat_t, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fstatat(C.int(dirfd), C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatfs(fd int, buf *Statfs_t) (err error) {
+ r0, er := C.fstatfs(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Ftruncate(fd int, length int64) (err error) {
+ r0, er := C.ftruncate(C.int(fd), C.longlong(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getegid() (egid int) {
+ r0, _ := C.getegid()
+ egid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Geteuid() (euid int) {
+ r0, _ := C.geteuid()
+ euid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getgid() (gid int) {
+ r0, _ := C.getgid()
+ gid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getuid() (uid int) {
+ r0, _ := C.getuid()
+ uid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lchown(path string, uid int, gid int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.lchown(C.uintptr_t(_p0), C.int(uid), C.int(gid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Listen(s int, n int) (err error) {
+ r0, er := C.listen(C.int(s), C.int(n))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lstat(path string, stat *Stat_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.lstat(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pause() (err error) {
+ r0, er := C.pause()
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pread(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.pread64(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.longlong(offset))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pwrite(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.pwrite64(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.longlong(offset))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pselect(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timespec, sigmask *Sigset_t) (n int, err error) {
+ r0, er := C.pselect(C.int(nfd), C.uintptr_t(uintptr(unsafe.Pointer(r))), C.uintptr_t(uintptr(unsafe.Pointer(w))), C.uintptr_t(uintptr(unsafe.Pointer(e))), C.uintptr_t(uintptr(unsafe.Pointer(timeout))), C.uintptr_t(uintptr(unsafe.Pointer(sigmask))))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setregid(rgid int, egid int) (err error) {
+ r0, er := C.setregid(C.int(rgid), C.int(egid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setreuid(ruid int, euid int) (err error) {
+ r0, er := C.setreuid(C.int(ruid), C.int(euid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Shutdown(fd int, how int) (err error) {
+ r0, er := C.shutdown(C.int(fd), C.int(how))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error) {
+ r0, er := C.splice(C.int(rfd), C.uintptr_t(uintptr(unsafe.Pointer(roff))), C.int(wfd), C.uintptr_t(uintptr(unsafe.Pointer(woff))), C.int(len), C.int(flags))
+ n = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Stat(path string, stat *Stat_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.stat(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statfs(path string, buf *Statfs_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.statfs(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Truncate(path string, length int64) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.truncate(C.uintptr_t(_p0), C.longlong(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func bind(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ r0, er := C.bind(C.int(s), C.uintptr_t(uintptr(addr)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func connect(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ r0, er := C.connect(C.int(s), C.uintptr_t(uintptr(addr)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getgroups(n int, list *_Gid_t) (nn int, err error) {
+ r0, er := C.getgroups(C.int(n), C.uintptr_t(uintptr(unsafe.Pointer(list))))
+ nn = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setgroups(n int, list *_Gid_t) (err error) {
+ r0, er := C.setgroups(C.int(n), C.uintptr_t(uintptr(unsafe.Pointer(list))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockopt(s int, level int, name int, val unsafe.Pointer, vallen *_Socklen) (err error) {
+ r0, er := C.getsockopt(C.int(s), C.int(level), C.int(name), C.uintptr_t(uintptr(val)), C.uintptr_t(uintptr(unsafe.Pointer(vallen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setsockopt(s int, level int, name int, val unsafe.Pointer, vallen uintptr) (err error) {
+ r0, er := C.setsockopt(C.int(s), C.int(level), C.int(name), C.uintptr_t(uintptr(val)), C.uintptr_t(vallen))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socket(domain int, typ int, proto int) (fd int, err error) {
+ r0, er := C.socket(C.int(domain), C.int(typ), C.int(proto))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socketpair(domain int, typ int, proto int, fd *[2]int32) (err error) {
+ r0, er := C.socketpair(C.int(domain), C.int(typ), C.int(proto), C.uintptr_t(uintptr(unsafe.Pointer(fd))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getpeername(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ r0, er := C.getpeername(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockname(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ r0, er := C.getsockname(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.recvfrom(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags), C.uintptr_t(uintptr(unsafe.Pointer(from))), C.uintptr_t(uintptr(unsafe.Pointer(fromlen))))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.sendto(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags), C.uintptr_t(uintptr(to)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, er := C.recvmsg(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(msg))), C.int(flags))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, er := C.sendmsg(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(msg))), C.int(flags))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func munmap(addr uintptr, length uintptr) (err error) {
+ r0, er := C.munmap(C.uintptr_t(addr), C.uintptr_t(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Madvise(b []byte, advice int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.madvise(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(advice))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mprotect(b []byte, prot int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.mprotect(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(prot))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlock(b []byte) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.mlock(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlockall(flags int) (err error) {
+ r0, er := C.mlockall(C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Msync(b []byte, flags int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.msync(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlock(b []byte) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.munlock(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlockall() (err error) {
+ r0, er := C.munlockall()
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func pipe(p *[2]_C_int) (err error) {
+ r0, er := C.pipe(C.uintptr_t(uintptr(unsafe.Pointer(p))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ r0, er := C.pipe2(C.uintptr_t(uintptr(unsafe.Pointer(p))), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func poll(fds *PollFd, nfds int, timeout int) (n int, err error) {
+ r0, er := C.poll(C.uintptr_t(uintptr(unsafe.Pointer(fds))), C.int(nfds), C.int(timeout))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func gettimeofday(tv *Timeval, tzp *Timezone) (err error) {
+ r0, er := C.gettimeofday(C.uintptr_t(uintptr(unsafe.Pointer(tv))), C.uintptr_t(uintptr(unsafe.Pointer(tzp))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Time(t *Time_t) (tt Time_t, err error) {
+ r0, er := C.time(C.uintptr_t(uintptr(unsafe.Pointer(t))))
+ tt = Time_t(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Utime(path string, buf *Utimbuf) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utime(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrlimit(resource int, rlim *Rlimit) (err error) {
+ r0, er := C.getrlimit64(C.int(resource), C.uintptr_t(uintptr(unsafe.Pointer(rlim))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setrlimit(resource int, rlim *Rlimit) (err error) {
+ r0, er := C.setrlimit64(C.int(resource), C.uintptr_t(uintptr(unsafe.Pointer(rlim))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Seek(fd int, offset int64, whence int) (off int64, err error) {
+ r0, er := C.lseek64(C.int(fd), C.longlong(offset), C.int(whence))
+ off = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error) {
+ r0, er := C.mmap(C.uintptr_t(addr), C.uintptr_t(length), C.int(prot), C.int(flags), C.int(fd), C.longlong(offset))
+ xaddr = uintptr(r0)
+ if uintptr(r0) == ^uintptr(0) && er != nil {
+ err = er
+ }
+ return
+}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc64.go b/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc64.go
new file mode 100644
index 0000000000000000000000000000000000000000..2e4f93fb1f63956dcac3c16e4c01e54a736e96d9
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zsyscall_aix_ppc64.go
@@ -0,0 +1,1519 @@
+// mksyscall_aix.pl -aix -tags aix,ppc64 syscall_aix.go syscall_aix_ppc64.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build aix,ppc64
+
+package unix
+
+/*
+#include <stdint.h>
+int utimes(uintptr_t, uintptr_t);
+int utimensat(int, uintptr_t, uintptr_t, int);
+int getcwd(uintptr_t, size_t);
+int accept(int, uintptr_t, uintptr_t);
+int getdirent(int, uintptr_t, size_t);
+int wait4(int, uintptr_t, int, uintptr_t);
+int ioctl(int, int, uintptr_t);
+int fcntl(uintptr_t, int, uintptr_t);
+int acct(uintptr_t);
+int chdir(uintptr_t);
+int chroot(uintptr_t);
+int close(int);
+int dup(int);
+int dup3(int, int, int);
+void exit(int);
+int faccessat(int, uintptr_t, unsigned int, int);
+int fallocate(int, unsigned int, long long, long long);
+int fchdir(int);
+int fchmod(int, unsigned int);
+int fchmodat(int, uintptr_t, unsigned int, int);
+int fchownat(int, uintptr_t, int, int, int);
+int fdatasync(int);
+int fsync(int);
+int getpgid(int);
+int getpgrp();
+int getpid();
+int getppid();
+int getpriority(int, int);
+int getrusage(int, uintptr_t);
+int getsid(int);
+int kill(int, int);
+int syslog(int, uintptr_t, size_t);
+int mkdir(int, uintptr_t, unsigned int);
+int mkdirat(int, uintptr_t, unsigned int);
+int mkfifo(uintptr_t, unsigned int);
+int mknod(uintptr_t, unsigned int, int);
+int mknodat(int, uintptr_t, unsigned int, int);
+int nanosleep(uintptr_t, uintptr_t);
+int open64(uintptr_t, int, unsigned int);
+int openat(int, uintptr_t, int, unsigned int);
+int read(int, uintptr_t, size_t);
+int readlink(uintptr_t, uintptr_t, size_t);
+int removexattr(uintptr_t, uintptr_t);
+int renameat(int, uintptr_t, int, uintptr_t);
+int setdomainname(uintptr_t, size_t);
+int sethostname(uintptr_t, size_t);
+int setpgid(int, int);
+int setsid();
+int settimeofday(uintptr_t);
+int setuid(int);
+int setgid(int);
+int setpriority(int, int, int);
+int statx(int, uintptr_t, int, int, uintptr_t);
+int sync();
+long long tee(int, int, int, int);
+uintptr_t times(uintptr_t);
+int umask(int);
+int uname(uintptr_t);
+int unlink(uintptr_t);
+int unlinkat(int, uintptr_t, int);
+int unshare(int);
+int ustat(int, uintptr_t);
+int write(int, uintptr_t, size_t);
+int dup2(int, int);
+int posix_fadvise64(int, long long, long long, int);
+int fchown(int, int, int);
+int fstat(int, uintptr_t);
+int fstatat(int, uintptr_t, uintptr_t, int);
+int fstatfs(int, uintptr_t);
+int ftruncate(int, long long);
+int getegid();
+int geteuid();
+int getgid();
+int getuid();
+int lchown(uintptr_t, int, int);
+int listen(int, int);
+int lstat(uintptr_t, uintptr_t);
+int pause();
+int pread64(int, uintptr_t, size_t, long long);
+int pwrite64(int, uintptr_t, size_t, long long);
+int pselect(int, uintptr_t, uintptr_t, uintptr_t, uintptr_t, uintptr_t);
+int setregid(int, int);
+int setreuid(int, int);
+int shutdown(int, int);
+long long splice(int, uintptr_t, int, uintptr_t, int, int);
+int stat(uintptr_t, uintptr_t);
+int statfs(uintptr_t, uintptr_t);
+int truncate(uintptr_t, long long);
+int bind(int, uintptr_t, uintptr_t);
+int connect(int, uintptr_t, uintptr_t);
+int getgroups(int, uintptr_t);
+int setgroups(int, uintptr_t);
+int getsockopt(int, int, int, uintptr_t, uintptr_t);
+int setsockopt(int, int, int, uintptr_t, uintptr_t);
+int socket(int, int, int);
+int socketpair(int, int, int, uintptr_t);
+int getpeername(int, uintptr_t, uintptr_t);
+int getsockname(int, uintptr_t, uintptr_t);
+int recvfrom(int, uintptr_t, size_t, int, uintptr_t, uintptr_t);
+int sendto(int, uintptr_t, size_t, int, uintptr_t, uintptr_t);
+int recvmsg(int, uintptr_t, int);
+int sendmsg(int, uintptr_t, int);
+int munmap(uintptr_t, uintptr_t);
+int madvise(uintptr_t, size_t, int);
+int mprotect(uintptr_t, size_t, int);
+int mlock(uintptr_t, size_t);
+int mlockall(int);
+int msync(uintptr_t, size_t, int);
+int munlock(uintptr_t, size_t);
+int munlockall();
+int pipe(uintptr_t);
+int pipe2(uintptr_t, int);
+int poll(uintptr_t, int, int);
+int gettimeofday(uintptr_t, uintptr_t);
+int time(uintptr_t);
+int utime(uintptr_t, uintptr_t);
+int getrlimit(int, uintptr_t);
+int setrlimit(int, uintptr_t);
+long long lseek(int, long long, int);
+uintptr_t mmap64(uintptr_t, uintptr_t, int, int, int, long long);
+
+*/
+import "C"
+import (
+ "syscall"
+ "unsafe"
+)
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func utimes(path string, times *[2]Timeval) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utimes(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(times))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func utimensat(dirfd int, path string, times *[2]Timespec, flag int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utimensat(C.int(dirfd), C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(times))), C.int(flag))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getcwd(buf []byte) (err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.getcwd(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error) {
+ r0, er := C.accept(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getdirent(fd int, buf []byte) (n int, err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.getdirent(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func wait4(pid Pid_t, status *_C_int, options int, rusage *Rusage) (wpid Pid_t, err error) {
+ r0, er := C.wait4(C.int(pid), C.uintptr_t(uintptr(unsafe.Pointer(status))), C.int(options), C.uintptr_t(uintptr(unsafe.Pointer(rusage))))
+ wpid = Pid_t(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ioctl(fd int, req uint, arg uintptr) (err error) {
+ r0, er := C.ioctl(C.int(fd), C.int(req), C.uintptr_t(arg))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func FcntlInt(fd uintptr, cmd int, arg int) (r int, err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(arg))
+ r = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func FcntlFlock(fd uintptr, cmd int, lk *Flock_t) (err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(uintptr(unsafe.Pointer(lk))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Acct(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.acct(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chdir(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.chdir(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chroot(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.chroot(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Close(fd int) (err error) {
+ r0, er := C.close(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup(oldfd int) (fd int, err error) {
+ r0, er := C.dup(C.int(oldfd))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup3(oldfd int, newfd int, flags int) (err error) {
+ r0, er := C.dup3(C.int(oldfd), C.int(newfd), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Exit(code int) {
+ C.exit(C.int(code))
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Faccessat(dirfd int, path string, mode uint32, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.faccessat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fallocate(fd int, mode uint32, off int64, len int64) (err error) {
+ r0, er := C.fallocate(C.int(fd), C.uint(mode), C.longlong(off), C.longlong(len))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchdir(fd int) (err error) {
+ r0, er := C.fchdir(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchmod(fd int, mode uint32) (err error) {
+ r0, er := C.fchmod(C.int(fd), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchmodat(dirfd int, path string, mode uint32, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fchmodat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchownat(dirfd int, path string, uid int, gid int, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fchownat(C.int(dirfd), C.uintptr_t(_p0), C.int(uid), C.int(gid), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func fcntl(fd int, cmd int, arg int) (val int, err error) {
+ r0, er := C.fcntl(C.uintptr_t(fd), C.int(cmd), C.uintptr_t(arg))
+ val = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fdatasync(fd int) (err error) {
+ r0, er := C.fdatasync(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fsync(fd int) (err error) {
+ r0, er := C.fsync(C.int(fd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpgid(pid int) (pgid int, err error) {
+ r0, er := C.getpgid(C.int(pid))
+ pgid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpgrp() (pid int) {
+ r0, _ := C.getpgrp()
+ pid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpid() (pid int) {
+ r0, _ := C.getpid()
+ pid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getppid() (ppid int) {
+ r0, _ := C.getppid()
+ ppid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpriority(which int, who int) (prio int, err error) {
+ r0, er := C.getpriority(C.int(which), C.int(who))
+ prio = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrusage(who int, rusage *Rusage) (err error) {
+ r0, er := C.getrusage(C.int(who), C.uintptr_t(uintptr(unsafe.Pointer(rusage))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getsid(pid int) (sid int, err error) {
+ r0, er := C.getsid(C.int(pid))
+ sid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Kill(pid int, sig syscall.Signal) (err error) {
+ r0, er := C.kill(C.int(pid), C.int(sig))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Klogctl(typ int, buf []byte) (n int, err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.syslog(C.int(typ), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkdir(dirfd int, path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkdir(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkdirat(dirfd int, path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkdirat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkfifo(path string, mode uint32) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mkfifo(C.uintptr_t(_p0), C.uint(mode))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mknod(path string, mode uint32, dev int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mknod(C.uintptr_t(_p0), C.uint(mode), C.int(dev))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mknodat(dirfd int, path string, mode uint32, dev int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.mknodat(C.int(dirfd), C.uintptr_t(_p0), C.uint(mode), C.int(dev))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Nanosleep(time *Timespec, leftover *Timespec) (err error) {
+ r0, er := C.nanosleep(C.uintptr_t(uintptr(unsafe.Pointer(time))), C.uintptr_t(uintptr(unsafe.Pointer(leftover))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Open(path string, mode int, perm uint32) (fd int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.open64(C.uintptr_t(_p0), C.int(mode), C.uint(perm))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Openat(dirfd int, path string, flags int, mode uint32) (fd int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.openat(C.int(dirfd), C.uintptr_t(_p0), C.int(flags), C.uint(mode))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func read(fd int, p []byte) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.read(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Readlink(path string, buf []byte) (n int, err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ var _p1 *byte
+ if len(buf) > 0 {
+ _p1 = &buf[0]
+ }
+ var _p2 int
+ _p2 = len(buf)
+ r0, er := C.readlink(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(_p1))), C.size_t(_p2))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Removexattr(path string, attr string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ _p1 := uintptr(unsafe.Pointer(C.CString(attr)))
+ r0, er := C.removexattr(C.uintptr_t(_p0), C.uintptr_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Renameat(olddirfd int, oldpath string, newdirfd int, newpath string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(oldpath)))
+ _p1 := uintptr(unsafe.Pointer(C.CString(newpath)))
+ r0, er := C.renameat(C.int(olddirfd), C.uintptr_t(_p0), C.int(newdirfd), C.uintptr_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setdomainname(p []byte) (err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.setdomainname(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sethostname(p []byte) (err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.sethostname(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpgid(pid int, pgid int) (err error) {
+ r0, er := C.setpgid(C.int(pid), C.int(pgid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setsid() (pid int, err error) {
+ r0, er := C.setsid()
+ pid = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Settimeofday(tv *Timeval) (err error) {
+ r0, er := C.settimeofday(C.uintptr_t(uintptr(unsafe.Pointer(tv))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setuid(uid int) (err error) {
+ r0, er := C.setuid(C.int(uid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setgid(uid int) (err error) {
+ r0, er := C.setgid(C.int(uid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpriority(which int, who int, prio int) (err error) {
+ r0, er := C.setpriority(C.int(which), C.int(who), C.int(prio))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statx(dirfd int, path string, flags int, mask int, stat *Statx_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.statx(C.int(dirfd), C.uintptr_t(_p0), C.int(flags), C.int(mask), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sync() {
+ C.sync()
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Tee(rfd int, wfd int, len int, flags int) (n int64, err error) {
+ r0, er := C.tee(C.int(rfd), C.int(wfd), C.int(len), C.int(flags))
+ n = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Times(tms *Tms) (ticks uintptr, err error) {
+ r0, er := C.times(C.uintptr_t(uintptr(unsafe.Pointer(tms))))
+ ticks = uintptr(r0)
+ if uintptr(r0) == ^uintptr(0) && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Umask(mask int) (oldmask int) {
+ r0, _ := C.umask(C.int(mask))
+ oldmask = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Uname(buf *Utsname) (err error) {
+ r0, er := C.uname(C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unlink(path string) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.unlink(C.uintptr_t(_p0))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unlinkat(dirfd int, path string, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.unlinkat(C.int(dirfd), C.uintptr_t(_p0), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unshare(flags int) (err error) {
+ r0, er := C.unshare(C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Ustat(dev int, ubuf *Ustat_t) (err error) {
+ r0, er := C.ustat(C.int(dev), C.uintptr_t(uintptr(unsafe.Pointer(ubuf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func write(fd int, p []byte) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.write(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func readlen(fd int, p *byte, np int) (n int, err error) {
+ r0, er := C.read(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(p))), C.size_t(np))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func writelen(fd int, p *byte, np int) (n int, err error) {
+ r0, er := C.write(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(p))), C.size_t(np))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup2(oldfd int, newfd int) (err error) {
+ r0, er := C.dup2(C.int(oldfd), C.int(newfd))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fadvise(fd int, offset int64, length int64, advice int) (err error) {
+ r0, er := C.posix_fadvise64(C.int(fd), C.longlong(offset), C.longlong(length), C.int(advice))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchown(fd int, uid int, gid int) (err error) {
+ r0, er := C.fchown(C.int(fd), C.int(uid), C.int(gid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstat(fd int, stat *Stat_t) (err error) {
+ r0, er := C.fstat(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatat(dirfd int, path string, stat *Stat_t, flags int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.fstatat(C.int(dirfd), C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatfs(fd int, buf *Statfs_t) (err error) {
+ r0, er := C.fstatfs(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Ftruncate(fd int, length int64) (err error) {
+ r0, er := C.ftruncate(C.int(fd), C.longlong(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getegid() (egid int) {
+ r0, _ := C.getegid()
+ egid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Geteuid() (euid int) {
+ r0, _ := C.geteuid()
+ euid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getgid() (gid int) {
+ r0, _ := C.getgid()
+ gid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getuid() (uid int) {
+ r0, _ := C.getuid()
+ uid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lchown(path string, uid int, gid int) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.lchown(C.uintptr_t(_p0), C.int(uid), C.int(gid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Listen(s int, n int) (err error) {
+ r0, er := C.listen(C.int(s), C.int(n))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lstat(path string, stat *Stat_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.lstat(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pause() (err error) {
+ r0, er := C.pause()
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pread(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.pread64(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.longlong(offset))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pwrite(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.pwrite64(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.longlong(offset))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pselect(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timespec, sigmask *Sigset_t) (n int, err error) {
+ r0, er := C.pselect(C.int(nfd), C.uintptr_t(uintptr(unsafe.Pointer(r))), C.uintptr_t(uintptr(unsafe.Pointer(w))), C.uintptr_t(uintptr(unsafe.Pointer(e))), C.uintptr_t(uintptr(unsafe.Pointer(timeout))), C.uintptr_t(uintptr(unsafe.Pointer(sigmask))))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setregid(rgid int, egid int) (err error) {
+ r0, er := C.setregid(C.int(rgid), C.int(egid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setreuid(ruid int, euid int) (err error) {
+ r0, er := C.setreuid(C.int(ruid), C.int(euid))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Shutdown(fd int, how int) (err error) {
+ r0, er := C.shutdown(C.int(fd), C.int(how))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error) {
+ r0, er := C.splice(C.int(rfd), C.uintptr_t(uintptr(unsafe.Pointer(roff))), C.int(wfd), C.uintptr_t(uintptr(unsafe.Pointer(woff))), C.int(len), C.int(flags))
+ n = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Stat(path string, stat *Stat_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.stat(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(stat))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statfs(path string, buf *Statfs_t) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.statfs(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Truncate(path string, length int64) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.truncate(C.uintptr_t(_p0), C.longlong(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func bind(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ r0, er := C.bind(C.int(s), C.uintptr_t(uintptr(addr)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func connect(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ r0, er := C.connect(C.int(s), C.uintptr_t(uintptr(addr)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getgroups(n int, list *_Gid_t) (nn int, err error) {
+ r0, er := C.getgroups(C.int(n), C.uintptr_t(uintptr(unsafe.Pointer(list))))
+ nn = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setgroups(n int, list *_Gid_t) (err error) {
+ r0, er := C.setgroups(C.int(n), C.uintptr_t(uintptr(unsafe.Pointer(list))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockopt(s int, level int, name int, val unsafe.Pointer, vallen *_Socklen) (err error) {
+ r0, er := C.getsockopt(C.int(s), C.int(level), C.int(name), C.uintptr_t(uintptr(val)), C.uintptr_t(uintptr(unsafe.Pointer(vallen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setsockopt(s int, level int, name int, val unsafe.Pointer, vallen uintptr) (err error) {
+ r0, er := C.setsockopt(C.int(s), C.int(level), C.int(name), C.uintptr_t(uintptr(val)), C.uintptr_t(vallen))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socket(domain int, typ int, proto int) (fd int, err error) {
+ r0, er := C.socket(C.int(domain), C.int(typ), C.int(proto))
+ fd = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socketpair(domain int, typ int, proto int, fd *[2]int32) (err error) {
+ r0, er := C.socketpair(C.int(domain), C.int(typ), C.int(proto), C.uintptr_t(uintptr(unsafe.Pointer(fd))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getpeername(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ r0, er := C.getpeername(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockname(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ r0, er := C.getsockname(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(rsa))), C.uintptr_t(uintptr(unsafe.Pointer(addrlen))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error) {
+ var _p0 *byte
+ if len(p) > 0 {
+ _p0 = &p[0]
+ }
+ var _p1 int
+ _p1 = len(p)
+ r0, er := C.recvfrom(C.int(fd), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags), C.uintptr_t(uintptr(unsafe.Pointer(from))), C.uintptr_t(uintptr(unsafe.Pointer(fromlen))))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error) {
+ var _p0 *byte
+ if len(buf) > 0 {
+ _p0 = &buf[0]
+ }
+ var _p1 int
+ _p1 = len(buf)
+ r0, er := C.sendto(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags), C.uintptr_t(uintptr(to)), C.uintptr_t(uintptr(addrlen)))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, er := C.recvmsg(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(msg))), C.int(flags))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, er := C.sendmsg(C.int(s), C.uintptr_t(uintptr(unsafe.Pointer(msg))), C.int(flags))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func munmap(addr uintptr, length uintptr) (err error) {
+ r0, er := C.munmap(C.uintptr_t(addr), C.uintptr_t(length))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Madvise(b []byte, advice int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.madvise(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(advice))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mprotect(b []byte, prot int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.mprotect(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(prot))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlock(b []byte) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.mlock(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlockall(flags int) (err error) {
+ r0, er := C.mlockall(C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Msync(b []byte, flags int) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.msync(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlock(b []byte) (err error) {
+ var _p0 *byte
+ if len(b) > 0 {
+ _p0 = &b[0]
+ }
+ var _p1 int
+ _p1 = len(b)
+ r0, er := C.munlock(C.uintptr_t(uintptr(unsafe.Pointer(_p0))), C.size_t(_p1))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlockall() (err error) {
+ r0, er := C.munlockall()
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func pipe(p *[2]_C_int) (err error) {
+ r0, er := C.pipe(C.uintptr_t(uintptr(unsafe.Pointer(p))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ r0, er := C.pipe2(C.uintptr_t(uintptr(unsafe.Pointer(p))), C.int(flags))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func poll(fds *PollFd, nfds int, timeout int) (n int, err error) {
+ r0, er := C.poll(C.uintptr_t(uintptr(unsafe.Pointer(fds))), C.int(nfds), C.int(timeout))
+ n = int(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func gettimeofday(tv *Timeval, tzp *Timezone) (err error) {
+ r0, er := C.gettimeofday(C.uintptr_t(uintptr(unsafe.Pointer(tv))), C.uintptr_t(uintptr(unsafe.Pointer(tzp))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Time(t *Time_t) (tt Time_t, err error) {
+ r0, er := C.time(C.uintptr_t(uintptr(unsafe.Pointer(t))))
+ tt = Time_t(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Utime(path string, buf *Utimbuf) (err error) {
+ _p0 := uintptr(unsafe.Pointer(C.CString(path)))
+ r0, er := C.utime(C.uintptr_t(_p0), C.uintptr_t(uintptr(unsafe.Pointer(buf))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrlimit(resource int, rlim *Rlimit) (err error) {
+ r0, er := C.getrlimit(C.int(resource), C.uintptr_t(uintptr(unsafe.Pointer(rlim))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setrlimit(resource int, rlim *Rlimit) (err error) {
+ r0, er := C.setrlimit(C.int(resource), C.uintptr_t(uintptr(unsafe.Pointer(rlim))))
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Seek(fd int, offset int64, whence int) (off int64, err error) {
+ r0, er := C.lseek(C.int(fd), C.longlong(offset), C.int(whence))
+ off = int64(r0)
+ if r0 == -1 && er != nil {
+ err = er
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error) {
+ r0, er := C.mmap64(C.uintptr_t(addr), C.uintptr_t(length), C.int(prot), C.int(flags), C.int(fd), C.longlong(offset))
+ xaddr = uintptr(r0)
+ if uintptr(r0) == ^uintptr(0) && er != nil {
+ err = er
+ }
+ return
+}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_386.go b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_386.go
index a86434a7ba8f2282e43d0277a82f5febb93289d2..ad77882b85df808814bba02107351f0cefdaed17 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_386.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_386.go
@@ -377,10 +377,8 @@ func Munlockall() (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-func pipe() (r int, w int, err error) {
- r0, r1, e1 := RawSyscall(SYS_PIPE, 0, 0, 0)
- r = int(r0)
- w = int(r1)
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ _, _, e1 := RawSyscall(SYS_PIPE2, uintptr(unsafe.Pointer(p)), uintptr(flags), 0)
if e1 != 0 {
err = errnoErr(e1)
}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_amd64.go b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_amd64.go
index 040e2f760cd414b270057300f51f14db8eccb8e4..d3ba6c46f21a3b2d6cb22f585650ec8c7494de69 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_amd64.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_amd64.go
@@ -377,10 +377,8 @@ func Munlockall() (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-func pipe() (r int, w int, err error) {
- r0, r1, e1 := RawSyscall(SYS_PIPE, 0, 0, 0)
- r = int(r0)
- w = int(r1)
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ _, _, e1 := RawSyscall(SYS_PIPE2, uintptr(unsafe.Pointer(p)), uintptr(flags), 0)
if e1 != 0 {
err = errnoErr(e1)
}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_arm.go b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_arm.go
index cddc5e86b1976673f2fd8a8033b0fee2ba16964e..9dfd77b620773d49ac57f3e7f1e874bb74626e65 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_freebsd_arm.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_freebsd_arm.go
@@ -377,10 +377,8 @@ func Munlockall() (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-func pipe() (r int, w int, err error) {
- r0, r1, e1 := RawSyscall(SYS_PIPE, 0, 0, 0)
- r = int(r0)
- w = int(r1)
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ _, _, e1 := RawSyscall(SYS_PIPE2, uintptr(unsafe.Pointer(p)), uintptr(flags), 0)
if e1 != 0 {
err = errnoErr(e1)
}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_386.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_386.go
index 8e8d427d6cdc343a248ed6c7c32c7d4da9dcfac2..a1c7d785f4268e80fc9342cba37019f7a708d309 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_386.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_386.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_amd64.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_amd64.go
index 2f60780ca3a427e87985829f2d4a279a83d63bcc..47503919ada464742e41ddc87a2930dcf9e0792b 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_amd64.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_amd64.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_arm.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_arm.go
index d29a11c9465da7330228f8a2f49f62196fe55b60..389c42af3f4cd0733f49d565f9a7cdf45d258bfe 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_arm.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_arm.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_arm64.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_arm64.go
index d03eb296813289cc5c7f2f86cfb0f8faa8e94fd9..97f6a2c56a9b7f1e853b5ff0c360133326d35e4c 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_arm64.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_arm64.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips.go
index dea09328b5ab65e5e8fcbf8721ad548350c5a0ee..889eaf1a19caddfe695f718f01fbdccc701c4b98 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64.go
index 31bbcff44614dac9547779ab3d8a604f5a6bd6f5..06016870e167235e90ab36520eaf4da6c87d83dc 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64le.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64le.go
index e025a33aade8d4fb1f45cefc8199089fe2e65b09..76dc324b8b252b89392e478df06392ae9f9b6986 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64le.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_mips64le.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_mipsle.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_mipsle.go
index 57d7d931d8939f0682c6e331f4a6e965180da898..a8428e92362cc1e950fd3f95799c9af64881956e 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_mipsle.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_mipsle.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64.go
index 2f7110d7cf5b8539c0c0155dee6c7a84bbaa8fc3..1cb8eb4e121b89858807c2df0f2242b6f57d9fbc 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
@@ -1998,16 +2014,6 @@ func Statfs(path string, buf *Statfs_t) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-func SyncFileRange(fd int, off int64, n int64, flags int) (err error) {
- _, _, e1 := Syscall6(SYS_SYNC_FILE_RANGE2, uintptr(fd), uintptr(off), uintptr(n), uintptr(flags), 0, 0)
- if e1 != 0 {
- err = errnoErr(e1)
- }
- return
-}
-
-// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-
func Truncate(path string, length int64) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
@@ -2317,3 +2323,13 @@ func poll(fds *PollFd, nfds int, timeout int) (n int, err error) {
}
return
}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func syncFileRange2(fd int, flags int, off int64, n int64) (err error) {
+ _, _, e1 := Syscall6(SYS_SYNC_FILE_RANGE2, uintptr(fd), uintptr(flags), uintptr(off), uintptr(n), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64le.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64le.go
index bb3bd59560bb07b1153d9e65ebc761e01d907b17..5f0cb9d824c0f69df8499765345333bc89e23ec5 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64le.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_ppc64le.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
@@ -1998,16 +2014,6 @@ func Statfs(path string, buf *Statfs_t) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-func SyncFileRange(fd int, off int64, n int64, flags int) (err error) {
- _, _, e1 := Syscall6(SYS_SYNC_FILE_RANGE2, uintptr(fd), uintptr(off), uintptr(n), uintptr(flags), 0, 0)
- if e1 != 0 {
- err = errnoErr(e1)
- }
- return
-}
-
-// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
-
func Truncate(path string, length int64) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
@@ -2317,3 +2323,13 @@ func poll(fds *PollFd, nfds int, timeout int) (n int, err error) {
}
return
}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func syncFileRange2(fd int, flags int, off int64, n int64) (err error) {
+ _, _, e1 := Syscall6(SYS_SYNC_FILE_RANGE2, uintptr(fd), uintptr(flags), uintptr(off), uintptr(n), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_riscv64.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_riscv64.go
new file mode 100644
index 0000000000000000000000000000000000000000..6977f045dc0a55adc0ef5bfeeccaa8f231ca2692
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_riscv64.go
@@ -0,0 +1,2130 @@
+// mksyscall.pl -tags linux,riscv64 syscall_linux.go syscall_linux_riscv64.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build linux,riscv64
+
+package unix
+
+import (
+ "syscall"
+ "unsafe"
+)
+
+var _ syscall.Errno
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func fchmodat(dirfd int, path string, mode uint32) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_FCHMODAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(mode))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ioctl(fd int, req uint, arg uintptr) (err error) {
+ _, _, e1 := Syscall(SYS_IOCTL, uintptr(fd), uintptr(req), uintptr(arg))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Linkat(olddirfd int, oldpath string, newdirfd int, newpath string, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(oldpath)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(newpath)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_LINKAT, uintptr(olddirfd), uintptr(unsafe.Pointer(_p0)), uintptr(newdirfd), uintptr(unsafe.Pointer(_p1)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func openat(dirfd int, path string, flags int, mode uint32) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall6(SYS_OPENAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(flags), uintptr(mode), 0, 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ppoll(fds *PollFd, nfds int, timeout *Timespec, sigmask *Sigset_t) (n int, err error) {
+ r0, _, e1 := Syscall6(SYS_PPOLL, uintptr(unsafe.Pointer(fds)), uintptr(nfds), uintptr(unsafe.Pointer(timeout)), uintptr(unsafe.Pointer(sigmask)), 0, 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Readlinkat(dirfd int, path string, buf []byte) (n int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 unsafe.Pointer
+ if len(buf) > 0 {
+ _p1 = unsafe.Pointer(&buf[0])
+ } else {
+ _p1 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_READLINKAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(_p1), uintptr(len(buf)), 0, 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Symlinkat(oldpath string, newdirfd int, newpath string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(oldpath)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(newpath)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_SYMLINKAT, uintptr(unsafe.Pointer(_p0)), uintptr(newdirfd), uintptr(unsafe.Pointer(_p1)))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unlinkat(dirfd int, path string, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_UNLINKAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(flags))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func utimensat(dirfd int, path string, times *[2]Timespec, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_UTIMENSAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(times)), uintptr(flags), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getcwd(buf []byte) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_GETCWD, uintptr(_p0), uintptr(len(buf)), 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func wait4(pid int, wstatus *_C_int, options int, rusage *Rusage) (wpid int, err error) {
+ r0, _, e1 := Syscall6(SYS_WAIT4, uintptr(pid), uintptr(unsafe.Pointer(wstatus)), uintptr(options), uintptr(unsafe.Pointer(rusage)), 0, 0)
+ wpid = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func KeyctlInt(cmd int, arg2 int, arg3 int, arg4 int, arg5 int) (ret int, err error) {
+ r0, _, e1 := Syscall6(SYS_KEYCTL, uintptr(cmd), uintptr(arg2), uintptr(arg3), uintptr(arg4), uintptr(arg5), 0)
+ ret = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func KeyctlBuffer(cmd int, arg2 int, buf []byte, arg5 int) (ret int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_KEYCTL, uintptr(cmd), uintptr(arg2), uintptr(_p0), uintptr(len(buf)), uintptr(arg5), 0)
+ ret = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func keyctlJoin(cmd int, arg2 string) (ret int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(arg2)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_KEYCTL, uintptr(cmd), uintptr(unsafe.Pointer(_p0)), 0)
+ ret = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func keyctlSearch(cmd int, arg2 int, arg3 string, arg4 string, arg5 int) (ret int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(arg3)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(arg4)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall6(SYS_KEYCTL, uintptr(cmd), uintptr(arg2), uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(arg5), 0)
+ ret = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func keyctlIOV(cmd int, arg2 int, payload []Iovec, arg5 int) (err error) {
+ var _p0 unsafe.Pointer
+ if len(payload) > 0 {
+ _p0 = unsafe.Pointer(&payload[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall6(SYS_KEYCTL, uintptr(cmd), uintptr(arg2), uintptr(_p0), uintptr(len(payload)), uintptr(arg5), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func keyctlDH(cmd int, arg2 *KeyctlDHParams, buf []byte) (ret int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_KEYCTL, uintptr(cmd), uintptr(unsafe.Pointer(arg2)), uintptr(_p0), uintptr(len(buf)), 0, 0)
+ ret = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ptrace(request int, pid int, addr uintptr, data uintptr) (err error) {
+ _, _, e1 := Syscall6(SYS_PTRACE, uintptr(request), uintptr(pid), uintptr(addr), uintptr(data), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func reboot(magic1 uint, magic2 uint, cmd int, arg string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(arg)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_REBOOT, uintptr(magic1), uintptr(magic2), uintptr(cmd), uintptr(unsafe.Pointer(_p0)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func mount(source string, target string, fstype string, flags uintptr, data *byte) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(source)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(target)
+ if err != nil {
+ return
+ }
+ var _p2 *byte
+ _p2, err = BytePtrFromString(fstype)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_MOUNT, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(unsafe.Pointer(_p2)), uintptr(flags), uintptr(unsafe.Pointer(data)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Acct(path string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_ACCT, uintptr(unsafe.Pointer(_p0)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func AddKey(keyType string, description string, payload []byte, ringid int) (id int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(keyType)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(description)
+ if err != nil {
+ return
+ }
+ var _p2 unsafe.Pointer
+ if len(payload) > 0 {
+ _p2 = unsafe.Pointer(&payload[0])
+ } else {
+ _p2 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_ADD_KEY, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(_p2), uintptr(len(payload)), uintptr(ringid), 0)
+ id = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Adjtimex(buf *Timex) (state int, err error) {
+ r0, _, e1 := Syscall(SYS_ADJTIMEX, uintptr(unsafe.Pointer(buf)), 0, 0)
+ state = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chdir(path string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_CHDIR, uintptr(unsafe.Pointer(_p0)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Chroot(path string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_CHROOT, uintptr(unsafe.Pointer(_p0)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func ClockGettime(clockid int32, time *Timespec) (err error) {
+ _, _, e1 := Syscall(SYS_CLOCK_GETTIME, uintptr(clockid), uintptr(unsafe.Pointer(time)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Close(fd int) (err error) {
+ _, _, e1 := Syscall(SYS_CLOSE, uintptr(fd), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func CopyFileRange(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int, err error) {
+ r0, _, e1 := Syscall6(SYS_COPY_FILE_RANGE, uintptr(rfd), uintptr(unsafe.Pointer(roff)), uintptr(wfd), uintptr(unsafe.Pointer(woff)), uintptr(len), uintptr(flags))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup(oldfd int) (fd int, err error) {
+ r0, _, e1 := Syscall(SYS_DUP, uintptr(oldfd), 0, 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Dup3(oldfd int, newfd int, flags int) (err error) {
+ _, _, e1 := Syscall(SYS_DUP3, uintptr(oldfd), uintptr(newfd), uintptr(flags))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func EpollCreate1(flag int) (fd int, err error) {
+ r0, _, e1 := RawSyscall(SYS_EPOLL_CREATE1, uintptr(flag), 0, 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func EpollCtl(epfd int, op int, fd int, event *EpollEvent) (err error) {
+ _, _, e1 := RawSyscall6(SYS_EPOLL_CTL, uintptr(epfd), uintptr(op), uintptr(fd), uintptr(unsafe.Pointer(event)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Eventfd(initval uint, flags int) (fd int, err error) {
+ r0, _, e1 := Syscall(SYS_EVENTFD2, uintptr(initval), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Exit(code int) {
+ SyscallNoError(SYS_EXIT_GROUP, uintptr(code), 0, 0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fallocate(fd int, mode uint32, off int64, len int64) (err error) {
+ _, _, e1 := Syscall6(SYS_FALLOCATE, uintptr(fd), uintptr(mode), uintptr(off), uintptr(len), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchdir(fd int) (err error) {
+ _, _, e1 := Syscall(SYS_FCHDIR, uintptr(fd), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchmod(fd int, mode uint32) (err error) {
+ _, _, e1 := Syscall(SYS_FCHMOD, uintptr(fd), uintptr(mode), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchownat(dirfd int, path string, uid int, gid int, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_FCHOWNAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(uid), uintptr(gid), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func fcntl(fd int, cmd int, arg int) (val int, err error) {
+ r0, _, e1 := Syscall(SYS_FCNTL, uintptr(fd), uintptr(cmd), uintptr(arg))
+ val = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fdatasync(fd int) (err error) {
+ _, _, e1 := Syscall(SYS_FDATASYNC, uintptr(fd), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fgetxattr(fd int, attr string, dest []byte) (sz int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p1 unsafe.Pointer
+ if len(dest) > 0 {
+ _p1 = unsafe.Pointer(&dest[0])
+ } else {
+ _p1 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_FGETXATTR, uintptr(fd), uintptr(unsafe.Pointer(_p0)), uintptr(_p1), uintptr(len(dest)), 0, 0)
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Flistxattr(fd int, dest []byte) (sz int, err error) {
+ var _p0 unsafe.Pointer
+ if len(dest) > 0 {
+ _p0 = unsafe.Pointer(&dest[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_FLISTXATTR, uintptr(fd), uintptr(_p0), uintptr(len(dest)))
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Flock(fd int, how int) (err error) {
+ _, _, e1 := Syscall(SYS_FLOCK, uintptr(fd), uintptr(how), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fremovexattr(fd int, attr string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_FREMOVEXATTR, uintptr(fd), uintptr(unsafe.Pointer(_p0)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fsetxattr(fd int, attr string, dest []byte, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p1 unsafe.Pointer
+ if len(dest) > 0 {
+ _p1 = unsafe.Pointer(&dest[0])
+ } else {
+ _p1 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall6(SYS_FSETXATTR, uintptr(fd), uintptr(unsafe.Pointer(_p0)), uintptr(_p1), uintptr(len(dest)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fsync(fd int) (err error) {
+ _, _, e1 := Syscall(SYS_FSYNC, uintptr(fd), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getdents(fd int, buf []byte) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_GETDENTS64, uintptr(fd), uintptr(_p0), uintptr(len(buf)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpgid(pid int) (pgid int, err error) {
+ r0, _, e1 := RawSyscall(SYS_GETPGID, uintptr(pid), 0, 0)
+ pgid = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpid() (pid int) {
+ r0, _ := RawSyscallNoError(SYS_GETPID, 0, 0, 0)
+ pid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getppid() (ppid int) {
+ r0, _ := RawSyscallNoError(SYS_GETPPID, 0, 0, 0)
+ ppid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getpriority(which int, who int) (prio int, err error) {
+ r0, _, e1 := Syscall(SYS_GETPRIORITY, uintptr(which), uintptr(who), 0)
+ prio = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrandom(buf []byte, flags int) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_GETRANDOM, uintptr(_p0), uintptr(len(buf)), uintptr(flags))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrusage(who int, rusage *Rusage) (err error) {
+ _, _, e1 := RawSyscall(SYS_GETRUSAGE, uintptr(who), uintptr(unsafe.Pointer(rusage)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getsid(pid int) (sid int, err error) {
+ r0, _, e1 := RawSyscall(SYS_GETSID, uintptr(pid), 0, 0)
+ sid = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Gettid() (tid int) {
+ r0, _ := RawSyscallNoError(SYS_GETTID, 0, 0, 0)
+ tid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getxattr(path string, attr string, dest []byte) (sz int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p2 unsafe.Pointer
+ if len(dest) > 0 {
+ _p2 = unsafe.Pointer(&dest[0])
+ } else {
+ _p2 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_GETXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(_p2), uintptr(len(dest)), 0, 0)
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func InotifyAddWatch(fd int, pathname string, mask uint32) (watchdesc int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(pathname)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_INOTIFY_ADD_WATCH, uintptr(fd), uintptr(unsafe.Pointer(_p0)), uintptr(mask))
+ watchdesc = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func InotifyInit1(flags int) (fd int, err error) {
+ r0, _, e1 := RawSyscall(SYS_INOTIFY_INIT1, uintptr(flags), 0, 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func InotifyRmWatch(fd int, watchdesc uint32) (success int, err error) {
+ r0, _, e1 := RawSyscall(SYS_INOTIFY_RM_WATCH, uintptr(fd), uintptr(watchdesc), 0)
+ success = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Kill(pid int, sig syscall.Signal) (err error) {
+ _, _, e1 := RawSyscall(SYS_KILL, uintptr(pid), uintptr(sig), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Klogctl(typ int, buf []byte) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_SYSLOG, uintptr(typ), uintptr(_p0), uintptr(len(buf)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lgetxattr(path string, attr string, dest []byte) (sz int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p2 unsafe.Pointer
+ if len(dest) > 0 {
+ _p2 = unsafe.Pointer(&dest[0])
+ } else {
+ _p2 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_LGETXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(_p2), uintptr(len(dest)), 0, 0)
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Listxattr(path string, dest []byte) (sz int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 unsafe.Pointer
+ if len(dest) > 0 {
+ _p1 = unsafe.Pointer(&dest[0])
+ } else {
+ _p1 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_LISTXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(_p1), uintptr(len(dest)))
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Llistxattr(path string, dest []byte) (sz int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 unsafe.Pointer
+ if len(dest) > 0 {
+ _p1 = unsafe.Pointer(&dest[0])
+ } else {
+ _p1 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_LLISTXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(_p1), uintptr(len(dest)))
+ sz = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lremovexattr(path string, attr string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_LREMOVEXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p2 unsafe.Pointer
+ if len(data) > 0 {
+ _p2 = unsafe.Pointer(&data[0])
+ } else {
+ _p2 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall6(SYS_LSETXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(_p2), uintptr(len(data)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mkdirat(dirfd int, path string, mode uint32) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_MKDIRAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(mode))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mknodat(dirfd int, path string, mode uint32, dev int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_MKNODAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(mode), uintptr(dev), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Nanosleep(time *Timespec, leftover *Timespec) (err error) {
+ _, _, e1 := Syscall(SYS_NANOSLEEP, uintptr(unsafe.Pointer(time)), uintptr(unsafe.Pointer(leftover)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func PerfEventOpen(attr *PerfEventAttr, pid int, cpu int, groupFd int, flags int) (fd int, err error) {
+ r0, _, e1 := Syscall6(SYS_PERF_EVENT_OPEN, uintptr(unsafe.Pointer(attr)), uintptr(pid), uintptr(cpu), uintptr(groupFd), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func PivotRoot(newroot string, putold string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(newroot)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(putold)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_PIVOT_ROOT, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func prlimit(pid int, resource int, newlimit *Rlimit, old *Rlimit) (err error) {
+ _, _, e1 := RawSyscall6(SYS_PRLIMIT64, uintptr(pid), uintptr(resource), uintptr(unsafe.Pointer(newlimit)), uintptr(unsafe.Pointer(old)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Prctl(option int, arg2 uintptr, arg3 uintptr, arg4 uintptr, arg5 uintptr) (err error) {
+ _, _, e1 := Syscall6(SYS_PRCTL, uintptr(option), uintptr(arg2), uintptr(arg3), uintptr(arg4), uintptr(arg5), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pselect(nfd int, r *FdSet, w *FdSet, e *FdSet, timeout *Timespec, sigmask *Sigset_t) (n int, err error) {
+ r0, _, e1 := Syscall6(SYS_PSELECT6, uintptr(nfd), uintptr(unsafe.Pointer(r)), uintptr(unsafe.Pointer(w)), uintptr(unsafe.Pointer(e)), uintptr(unsafe.Pointer(timeout)), uintptr(unsafe.Pointer(sigmask)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func read(fd int, p []byte) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_READ, uintptr(fd), uintptr(_p0), uintptr(len(p)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Removexattr(path string, attr string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_REMOVEXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Renameat(olddirfd int, oldpath string, newdirfd int, newpath string) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(oldpath)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(newpath)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_RENAMEAT, uintptr(olddirfd), uintptr(unsafe.Pointer(_p0)), uintptr(newdirfd), uintptr(unsafe.Pointer(_p1)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Renameat2(olddirfd int, oldpath string, newdirfd int, newpath string, flags uint) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(oldpath)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(newpath)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_RENAMEAT2, uintptr(olddirfd), uintptr(unsafe.Pointer(_p0)), uintptr(newdirfd), uintptr(unsafe.Pointer(_p1)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func RequestKey(keyType string, description string, callback string, destRingid int) (id int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(keyType)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(description)
+ if err != nil {
+ return
+ }
+ var _p2 *byte
+ _p2, err = BytePtrFromString(callback)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall6(SYS_REQUEST_KEY, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(unsafe.Pointer(_p2)), uintptr(destRingid), 0, 0)
+ id = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setdomainname(p []byte) (err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_SETDOMAINNAME, uintptr(_p0), uintptr(len(p)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sethostname(p []byte) (err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_SETHOSTNAME, uintptr(_p0), uintptr(len(p)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpgid(pid int, pgid int) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETPGID, uintptr(pid), uintptr(pgid), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setsid() (pid int, err error) {
+ r0, _, e1 := RawSyscall(SYS_SETSID, 0, 0, 0)
+ pid = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Settimeofday(tv *Timeval) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETTIMEOFDAY, uintptr(unsafe.Pointer(tv)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setns(fd int, nstype int) (err error) {
+ _, _, e1 := Syscall(SYS_SETNS, uintptr(fd), uintptr(nstype), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setpriority(which int, who int, prio int) (err error) {
+ _, _, e1 := Syscall(SYS_SETPRIORITY, uintptr(which), uintptr(who), uintptr(prio))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setxattr(path string, attr string, data []byte, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ var _p1 *byte
+ _p1, err = BytePtrFromString(attr)
+ if err != nil {
+ return
+ }
+ var _p2 unsafe.Pointer
+ if len(data) > 0 {
+ _p2 = unsafe.Pointer(&data[0])
+ } else {
+ _p2 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall6(SYS_SETXATTR, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(_p1)), uintptr(_p2), uintptr(len(data)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statx(dirfd int, path string, flags int, mask int, stat *Statx_t) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_STATX, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(flags), uintptr(mask), uintptr(unsafe.Pointer(stat)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sync() {
+ SyscallNoError(SYS_SYNC, 0, 0, 0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Syncfs(fd int) (err error) {
+ _, _, e1 := Syscall(SYS_SYNCFS, uintptr(fd), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Sysinfo(info *Sysinfo_t) (err error) {
+ _, _, e1 := RawSyscall(SYS_SYSINFO, uintptr(unsafe.Pointer(info)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Tee(rfd int, wfd int, len int, flags int) (n int64, err error) {
+ r0, _, e1 := Syscall6(SYS_TEE, uintptr(rfd), uintptr(wfd), uintptr(len), uintptr(flags), 0, 0)
+ n = int64(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Tgkill(tgid int, tid int, sig syscall.Signal) (err error) {
+ _, _, e1 := RawSyscall(SYS_TGKILL, uintptr(tgid), uintptr(tid), uintptr(sig))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Times(tms *Tms) (ticks uintptr, err error) {
+ r0, _, e1 := RawSyscall(SYS_TIMES, uintptr(unsafe.Pointer(tms)), 0, 0)
+ ticks = uintptr(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Umask(mask int) (oldmask int) {
+ r0, _ := RawSyscallNoError(SYS_UMASK, uintptr(mask), 0, 0)
+ oldmask = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Uname(buf *Utsname) (err error) {
+ _, _, e1 := RawSyscall(SYS_UNAME, uintptr(unsafe.Pointer(buf)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unmount(target string, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(target)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_UMOUNT2, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Unshare(flags int) (err error) {
+ _, _, e1 := Syscall(SYS_UNSHARE, uintptr(flags), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func write(fd int, p []byte) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall(SYS_WRITE, uintptr(fd), uintptr(_p0), uintptr(len(p)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func exitThread(code int) (err error) {
+ _, _, e1 := Syscall(SYS_EXIT, uintptr(code), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func readlen(fd int, p *byte, np int) (n int, err error) {
+ r0, _, e1 := Syscall(SYS_READ, uintptr(fd), uintptr(unsafe.Pointer(p)), uintptr(np))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func writelen(fd int, p *byte, np int) (n int, err error) {
+ r0, _, e1 := Syscall(SYS_WRITE, uintptr(fd), uintptr(unsafe.Pointer(p)), uintptr(np))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func munmap(addr uintptr, length uintptr) (err error) {
+ _, _, e1 := Syscall(SYS_MUNMAP, uintptr(addr), uintptr(length), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Madvise(b []byte, advice int) (err error) {
+ var _p0 unsafe.Pointer
+ if len(b) > 0 {
+ _p0 = unsafe.Pointer(&b[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_MADVISE, uintptr(_p0), uintptr(len(b)), uintptr(advice))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mprotect(b []byte, prot int) (err error) {
+ var _p0 unsafe.Pointer
+ if len(b) > 0 {
+ _p0 = unsafe.Pointer(&b[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_MPROTECT, uintptr(_p0), uintptr(len(b)), uintptr(prot))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlock(b []byte) (err error) {
+ var _p0 unsafe.Pointer
+ if len(b) > 0 {
+ _p0 = unsafe.Pointer(&b[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_MLOCK, uintptr(_p0), uintptr(len(b)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Mlockall(flags int) (err error) {
+ _, _, e1 := Syscall(SYS_MLOCKALL, uintptr(flags), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Msync(b []byte, flags int) (err error) {
+ var _p0 unsafe.Pointer
+ if len(b) > 0 {
+ _p0 = unsafe.Pointer(&b[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_MSYNC, uintptr(_p0), uintptr(len(b)), uintptr(flags))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlock(b []byte) (err error) {
+ var _p0 unsafe.Pointer
+ if len(b) > 0 {
+ _p0 = unsafe.Pointer(&b[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall(SYS_MUNLOCK, uintptr(_p0), uintptr(len(b)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Munlockall() (err error) {
+ _, _, e1 := Syscall(SYS_MUNLOCKALL, 0, 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func faccessat(dirfd int, path string, mode uint32) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_FACCESSAT, uintptr(dirfd), uintptr(unsafe.Pointer(_p0)), uintptr(mode))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func EpollWait(epfd int, events []EpollEvent, msec int) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(events) > 0 {
+ _p0 = unsafe.Pointer(&events[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_EPOLL_PWAIT, uintptr(epfd), uintptr(_p0), uintptr(len(events)), uintptr(msec), 0, 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fadvise(fd int, offset int64, length int64, advice int) (err error) {
+ _, _, e1 := Syscall6(SYS_FADVISE64, uintptr(fd), uintptr(offset), uintptr(length), uintptr(advice), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fchown(fd int, uid int, gid int) (err error) {
+ _, _, e1 := Syscall(SYS_FCHOWN, uintptr(fd), uintptr(uid), uintptr(gid))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstat(fd int, stat *Stat_t) (err error) {
+ _, _, e1 := Syscall(SYS_FSTAT, uintptr(fd), uintptr(unsafe.Pointer(stat)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatat(fd int, path string, stat *Stat_t, flags int) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall6(SYS_FSTATAT, uintptr(fd), uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(stat)), uintptr(flags), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Fstatfs(fd int, buf *Statfs_t) (err error) {
+ _, _, e1 := Syscall(SYS_FSTATFS, uintptr(fd), uintptr(unsafe.Pointer(buf)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Ftruncate(fd int, length int64) (err error) {
+ _, _, e1 := Syscall(SYS_FTRUNCATE, uintptr(fd), uintptr(length), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getegid() (egid int) {
+ r0, _ := RawSyscallNoError(SYS_GETEGID, 0, 0, 0)
+ egid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Geteuid() (euid int) {
+ r0, _ := RawSyscallNoError(SYS_GETEUID, 0, 0, 0)
+ euid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getgid() (gid int) {
+ r0, _ := RawSyscallNoError(SYS_GETGID, 0, 0, 0)
+ gid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getrlimit(resource int, rlim *Rlimit) (err error) {
+ _, _, e1 := RawSyscall(SYS_GETRLIMIT, uintptr(resource), uintptr(unsafe.Pointer(rlim)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Getuid() (uid int) {
+ r0, _ := RawSyscallNoError(SYS_GETUID, 0, 0, 0)
+ uid = int(r0)
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Listen(s int, n int) (err error) {
+ _, _, e1 := Syscall(SYS_LISTEN, uintptr(s), uintptr(n), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pread(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_PREAD64, uintptr(fd), uintptr(_p0), uintptr(len(p)), uintptr(offset), 0, 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Pwrite(fd int, p []byte, offset int64) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_PWRITE64, uintptr(fd), uintptr(_p0), uintptr(len(p)), uintptr(offset), 0, 0)
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Seek(fd int, offset int64, whence int) (off int64, err error) {
+ r0, _, e1 := Syscall(SYS_LSEEK, uintptr(fd), uintptr(offset), uintptr(whence))
+ off = int64(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendfile(outfd int, infd int, offset *int64, count int) (written int, err error) {
+ r0, _, e1 := Syscall6(SYS_SENDFILE, uintptr(outfd), uintptr(infd), uintptr(unsafe.Pointer(offset)), uintptr(count), 0, 0)
+ written = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setfsgid(gid int) (err error) {
+ _, _, e1 := Syscall(SYS_SETFSGID, uintptr(gid), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setfsuid(uid int) (err error) {
+ _, _, e1 := Syscall(SYS_SETFSUID, uintptr(uid), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setregid(rgid int, egid int) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETREGID, uintptr(rgid), uintptr(egid), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setresgid(rgid int, egid int, sgid int) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETRESGID, uintptr(rgid), uintptr(egid), uintptr(sgid))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setresuid(ruid int, euid int, suid int) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETRESUID, uintptr(ruid), uintptr(euid), uintptr(suid))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setrlimit(resource int, rlim *Rlimit) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETRLIMIT, uintptr(resource), uintptr(unsafe.Pointer(rlim)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Setreuid(ruid int, euid int) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETREUID, uintptr(ruid), uintptr(euid), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Shutdown(fd int, how int) (err error) {
+ _, _, e1 := Syscall(SYS_SHUTDOWN, uintptr(fd), uintptr(how), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Splice(rfd int, roff *int64, wfd int, woff *int64, len int, flags int) (n int64, err error) {
+ r0, _, e1 := Syscall6(SYS_SPLICE, uintptr(rfd), uintptr(unsafe.Pointer(roff)), uintptr(wfd), uintptr(unsafe.Pointer(woff)), uintptr(len), uintptr(flags))
+ n = int64(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Statfs(path string, buf *Statfs_t) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_STATFS, uintptr(unsafe.Pointer(_p0)), uintptr(unsafe.Pointer(buf)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func SyncFileRange(fd int, off int64, n int64, flags int) (err error) {
+ _, _, e1 := Syscall6(SYS_SYNC_FILE_RANGE, uintptr(fd), uintptr(off), uintptr(n), uintptr(flags), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Truncate(path string, length int64) (err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(path)
+ if err != nil {
+ return
+ }
+ _, _, e1 := Syscall(SYS_TRUNCATE, uintptr(unsafe.Pointer(_p0)), uintptr(length), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func accept(s int, rsa *RawSockaddrAny, addrlen *_Socklen) (fd int, err error) {
+ r0, _, e1 := Syscall(SYS_ACCEPT, uintptr(s), uintptr(unsafe.Pointer(rsa)), uintptr(unsafe.Pointer(addrlen)))
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func accept4(s int, rsa *RawSockaddrAny, addrlen *_Socklen, flags int) (fd int, err error) {
+ r0, _, e1 := Syscall6(SYS_ACCEPT4, uintptr(s), uintptr(unsafe.Pointer(rsa)), uintptr(unsafe.Pointer(addrlen)), uintptr(flags), 0, 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func bind(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ _, _, e1 := Syscall(SYS_BIND, uintptr(s), uintptr(addr), uintptr(addrlen))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func connect(s int, addr unsafe.Pointer, addrlen _Socklen) (err error) {
+ _, _, e1 := Syscall(SYS_CONNECT, uintptr(s), uintptr(addr), uintptr(addrlen))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getgroups(n int, list *_Gid_t) (nn int, err error) {
+ r0, _, e1 := RawSyscall(SYS_GETGROUPS, uintptr(n), uintptr(unsafe.Pointer(list)), 0)
+ nn = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setgroups(n int, list *_Gid_t) (err error) {
+ _, _, e1 := RawSyscall(SYS_SETGROUPS, uintptr(n), uintptr(unsafe.Pointer(list)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockopt(s int, level int, name int, val unsafe.Pointer, vallen *_Socklen) (err error) {
+ _, _, e1 := Syscall6(SYS_GETSOCKOPT, uintptr(s), uintptr(level), uintptr(name), uintptr(val), uintptr(unsafe.Pointer(vallen)), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func setsockopt(s int, level int, name int, val unsafe.Pointer, vallen uintptr) (err error) {
+ _, _, e1 := Syscall6(SYS_SETSOCKOPT, uintptr(s), uintptr(level), uintptr(name), uintptr(val), uintptr(vallen), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socket(domain int, typ int, proto int) (fd int, err error) {
+ r0, _, e1 := RawSyscall(SYS_SOCKET, uintptr(domain), uintptr(typ), uintptr(proto))
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func socketpair(domain int, typ int, proto int, fd *[2]int32) (err error) {
+ _, _, e1 := RawSyscall6(SYS_SOCKETPAIR, uintptr(domain), uintptr(typ), uintptr(proto), uintptr(unsafe.Pointer(fd)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getpeername(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ _, _, e1 := RawSyscall(SYS_GETPEERNAME, uintptr(fd), uintptr(unsafe.Pointer(rsa)), uintptr(unsafe.Pointer(addrlen)))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func getsockname(fd int, rsa *RawSockaddrAny, addrlen *_Socklen) (err error) {
+ _, _, e1 := RawSyscall(SYS_GETSOCKNAME, uintptr(fd), uintptr(unsafe.Pointer(rsa)), uintptr(unsafe.Pointer(addrlen)))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error) {
+ var _p0 unsafe.Pointer
+ if len(p) > 0 {
+ _p0 = unsafe.Pointer(&p[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ r0, _, e1 := Syscall6(SYS_RECVFROM, uintptr(fd), uintptr(_p0), uintptr(len(p)), uintptr(flags), uintptr(unsafe.Pointer(from)), uintptr(unsafe.Pointer(fromlen)))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error) {
+ var _p0 unsafe.Pointer
+ if len(buf) > 0 {
+ _p0 = unsafe.Pointer(&buf[0])
+ } else {
+ _p0 = unsafe.Pointer(&_zero)
+ }
+ _, _, e1 := Syscall6(SYS_SENDTO, uintptr(s), uintptr(_p0), uintptr(len(buf)), uintptr(flags), uintptr(to), uintptr(addrlen))
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func recvmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, _, e1 := Syscall(SYS_RECVMSG, uintptr(s), uintptr(unsafe.Pointer(msg)), uintptr(flags))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func sendmsg(s int, msg *Msghdr, flags int) (n int, err error) {
+ r0, _, e1 := Syscall(SYS_SENDMSG, uintptr(s), uintptr(unsafe.Pointer(msg)), uintptr(flags))
+ n = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func mmap(addr uintptr, length uintptr, prot int, flags int, fd int, offset int64) (xaddr uintptr, err error) {
+ r0, _, e1 := Syscall6(SYS_MMAP, uintptr(addr), uintptr(length), uintptr(prot), uintptr(flags), uintptr(fd), uintptr(offset))
+ xaddr = uintptr(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func Gettimeofday(tv *Timeval) (err error) {
+ _, _, e1 := RawSyscall(SYS_GETTIMEOFDAY, uintptr(unsafe.Pointer(tv)), 0, 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
+func pipe2(p *[2]_C_int, flags int) (err error) {
+ _, _, e1 := RawSyscall(SYS_PIPE2, uintptr(unsafe.Pointer(p)), uintptr(flags), 0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
diff --git a/vendor/golang.org/x/sys/unix/zsyscall_linux_s390x.go b/vendor/golang.org/x/sys/unix/zsyscall_linux_s390x.go
index c637da95f70283f16923e6d154bb8c9fe3d579cf..2bfd3d0c45b2e2b39fc5fd05973a3991151053b0 100644
--- a/vendor/golang.org/x/sys/unix/zsyscall_linux_s390x.go
+++ b/vendor/golang.org/x/sys/unix/zsyscall_linux_s390x.go
@@ -979,6 +979,22 @@ func Lsetxattr(path string, attr string, data []byte, flags int) (err error) {
// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+func MemfdCreate(name string, flags int) (fd int, err error) {
+ var _p0 *byte
+ _p0, err = BytePtrFromString(name)
+ if err != nil {
+ return
+ }
+ r0, _, e1 := Syscall(SYS_MEMFD_CREATE, uintptr(unsafe.Pointer(_p0)), uintptr(flags), 0)
+ fd = int(r0)
+ if e1 != 0 {
+ err = errnoErr(e1)
+ }
+ return
+}
+
+// THIS FILE IS GENERATED BY THE COMMAND AT THE TOP; DO NOT EDIT
+
func Mkdirat(dirfd int, path string, mode uint32) (err error) {
var _p0 *byte
_p0, err = BytePtrFromString(path)
diff --git a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_386.go b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_386.go
index b64a8122ce4c32dff06f9af0b171a2a3af14287a..1ab8780c3b0b3922009197cc5e3569d211de0365 100644
--- a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_386.go
+++ b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_386.go
@@ -7,347 +7,397 @@ package unix
const (
// SYS_NOSYS = 0; // { int nosys(void); } syscall nosys_args int
- SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
- SYS_FORK = 2 // { int fork(void); }
- SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
- SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
- SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
- SYS_CLOSE = 6 // { int close(int fd); }
- SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
- SYS_LINK = 9 // { int link(char *path, char *link); }
- SYS_UNLINK = 10 // { int unlink(char *path); }
- SYS_CHDIR = 12 // { int chdir(char *path); }
- SYS_FCHDIR = 13 // { int fchdir(int fd); }
- SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
- SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
- SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
- SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
- SYS_GETPID = 20 // { pid_t getpid(void); }
- SYS_MOUNT = 21 // { int mount(char *type, char *path, \
- SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
- SYS_SETUID = 23 // { int setuid(uid_t uid); }
- SYS_GETUID = 24 // { uid_t getuid(void); }
- SYS_GETEUID = 25 // { uid_t geteuid(void); }
- SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
- SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
- SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
- SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
- SYS_ACCEPT = 30 // { int accept(int s, \
- SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
- SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
- SYS_ACCESS = 33 // { int access(char *path, int amode); }
- SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
- SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
- SYS_SYNC = 36 // { int sync(void); }
- SYS_KILL = 37 // { int kill(int pid, int signum); }
- SYS_GETPPID = 39 // { pid_t getppid(void); }
- SYS_DUP = 41 // { int dup(u_int fd); }
- SYS_PIPE = 42 // { int pipe(void); }
- SYS_GETEGID = 43 // { gid_t getegid(void); }
- SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
- SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
- SYS_GETGID = 47 // { gid_t getgid(void); }
- SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
- SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
- SYS_ACCT = 51 // { int acct(char *path); }
- SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
- SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
- SYS_REBOOT = 55 // { int reboot(int opt); }
- SYS_REVOKE = 56 // { int revoke(char *path); }
- SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
- SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
- SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
- SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
- SYS_CHROOT = 61 // { int chroot(char *path); }
- SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
- SYS_VFORK = 66 // { int vfork(void); }
- SYS_SBRK = 69 // { int sbrk(int incr); }
- SYS_SSTK = 70 // { int sstk(int incr); }
- SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
- SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
- SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
- SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
- SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
- SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
- SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
- SYS_GETPGRP = 81 // { int getpgrp(void); }
- SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
- SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
- SYS_SWAPON = 85 // { int swapon(char *name); }
- SYS_GETITIMER = 86 // { int getitimer(u_int which, \
- SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
- SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
- SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
- SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
- SYS_FSYNC = 95 // { int fsync(int fd); }
- SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
- SYS_SOCKET = 97 // { int socket(int domain, int type, \
- SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
- SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
- SYS_BIND = 104 // { int bind(int s, caddr_t name, \
- SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
- SYS_LISTEN = 106 // { int listen(int s, int backlog); }
- SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
- SYS_GETRUSAGE = 117 // { int getrusage(int who, \
- SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
- SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
- SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
- SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
- SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
- SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
- SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
- SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
- SYS_RENAME = 128 // { int rename(char *from, char *to); }
- SYS_FLOCK = 131 // { int flock(int fd, int how); }
- SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
- SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
- SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
- SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
- SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
- SYS_RMDIR = 137 // { int rmdir(char *path); }
- SYS_UTIMES = 138 // { int utimes(char *path, \
- SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
- SYS_SETSID = 147 // { int setsid(void); }
- SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
- SYS_LGETFH = 160 // { int lgetfh(char *fname, \
- SYS_GETFH = 161 // { int getfh(char *fname, \
- SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
- SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
- SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
- SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
- SYS_SETFIB = 175 // { int setfib(int fibnum); }
- SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
- SYS_SETGID = 181 // { int setgid(gid_t gid); }
- SYS_SETEGID = 182 // { int setegid(gid_t egid); }
- SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
- SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
- SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
- SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
- SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
- SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
- SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
- SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
- SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
- SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
- SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
- SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
- SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
- SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
- SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
- SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
- SYS_UNDELETE = 205 // { int undelete(char *path); }
- SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
- SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
- SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
- SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
- SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
- SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
- SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
- SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
- SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
- SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
- SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
- SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
- SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
- SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
- SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
- SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
- SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
- SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
- SYS_RFORK = 251 // { int rfork(int flags); }
- SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
- SYS_ISSETUGID = 253 // { int issetugid(void); }
- SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
- SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
- SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
- SYS_LUTIMES = 276 // { int lutimes(char *path, \
- SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
- SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
- SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
- SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
- SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
- SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
- SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
- SYS_MODNEXT = 300 // { int modnext(int modid); }
- SYS_MODSTAT = 301 // { int modstat(int modid, \
- SYS_MODFNEXT = 302 // { int modfnext(int modid); }
- SYS_MODFIND = 303 // { int modfind(const char *name); }
- SYS_KLDLOAD = 304 // { int kldload(const char *file); }
- SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
- SYS_KLDFIND = 306 // { int kldfind(const char *file); }
- SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
- SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
- SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
- SYS_GETSID = 310 // { int getsid(pid_t pid); }
- SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
- SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
- SYS_YIELD = 321 // { int yield(void); }
- SYS_MLOCKALL = 324 // { int mlockall(int how); }
- SYS_MUNLOCKALL = 325 // { int munlockall(void); }
- SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
- SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
- SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
- SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
- SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
- SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
- SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
- SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
- SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
- SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
- SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
- SYS_JAIL = 338 // { int jail(struct jail *jail); }
- SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
- SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
- SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
- SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
- SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
- SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
- SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
- SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
- SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
- SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
- SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
- SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
- SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
- SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
- SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
- SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
- SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
- SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
- SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
- SYS_KQUEUE = 362 // { int kqueue(void); }
- SYS_KEVENT = 363 // { int kevent(int fd, \
- SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
- SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
- SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
- SYS___SETUGID = 374 // { int __setugid(int flag); }
- SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
- SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
- SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
- SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
- SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
- SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
- SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
- SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
- SYS_KENV = 390 // { int kenv(int what, const char *name, \
- SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
- SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
- SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
- SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
- SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
- SYS_STATFS = 396 // { int statfs(char *path, \
- SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
- SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
- SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
- SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
- SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
- SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
- SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
- SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
- SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
- SYS_SIGACTION = 416 // { int sigaction(int sig, \
- SYS_SIGRETURN = 417 // { int sigreturn( \
- SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
- SYS_SETCONTEXT = 422 // { int setcontext( \
- SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
- SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
- SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
- SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
- SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
- SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
- SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
- SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
- SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
- SYS_THR_SELF = 432 // { int thr_self(long *id); }
- SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
- SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
- SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
- SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
- SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
- SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
- SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
- SYS_THR_SUSPEND = 442 // { int thr_suspend( \
- SYS_THR_WAKE = 443 // { int thr_wake(long id); }
- SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
- SYS_AUDIT = 445 // { int audit(const void *record, \
- SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
- SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
- SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
- SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
- SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
- SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
- SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
- SYS_AUDITCTL = 453 // { int auditctl(char *path); }
- SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
- SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
- SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
- SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
- SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
- SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
- SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
- SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
- SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
- SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
- SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
- SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
- SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
- SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
- SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
- SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
- SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
- SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
- SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
- SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
- SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
- SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
- SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
- SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
- SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
- SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
- SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
- SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
- SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
- SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
- SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
- SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
- SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
- SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
- SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
- SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
- SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
- SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
- SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
- SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
- SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
- SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
- SYS_CAP_ENTER = 516 // { int cap_enter(void); }
- SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
- SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
- SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
- SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
- SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
- SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
- SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
- SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
- SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
- SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
- SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
- SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
- SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
- SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
- SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
- SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
- SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
- SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
- SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
- SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
- SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
- SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
- SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
- SYS_ACCEPT4 = 541 // { int accept4(int s, \
- SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
- SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
- SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
- SYS_FUTIMENS = 546 // { int futimens(int fd, \
- SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
+ SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
+ SYS_FORK = 2 // { int fork(void); }
+ SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
+ SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
+ SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
+ SYS_CLOSE = 6 // { int close(int fd); }
+ SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
+ SYS_LINK = 9 // { int link(char *path, char *link); }
+ SYS_UNLINK = 10 // { int unlink(char *path); }
+ SYS_CHDIR = 12 // { int chdir(char *path); }
+ SYS_FCHDIR = 13 // { int fchdir(int fd); }
+ SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
+ SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
+ SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
+ SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
+ SYS_GETPID = 20 // { pid_t getpid(void); }
+ SYS_MOUNT = 21 // { int mount(char *type, char *path, \
+ SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
+ SYS_SETUID = 23 // { int setuid(uid_t uid); }
+ SYS_GETUID = 24 // { uid_t getuid(void); }
+ SYS_GETEUID = 25 // { uid_t geteuid(void); }
+ SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
+ SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
+ SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
+ SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
+ SYS_ACCEPT = 30 // { int accept(int s, \
+ SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
+ SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
+ SYS_ACCESS = 33 // { int access(char *path, int amode); }
+ SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
+ SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
+ SYS_SYNC = 36 // { int sync(void); }
+ SYS_KILL = 37 // { int kill(int pid, int signum); }
+ SYS_GETPPID = 39 // { pid_t getppid(void); }
+ SYS_DUP = 41 // { int dup(u_int fd); }
+ SYS_PIPE = 42 // { int pipe(void); }
+ SYS_GETEGID = 43 // { gid_t getegid(void); }
+ SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
+ SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
+ SYS_GETGID = 47 // { gid_t getgid(void); }
+ SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
+ SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
+ SYS_ACCT = 51 // { int acct(char *path); }
+ SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
+ SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
+ SYS_REBOOT = 55 // { int reboot(int opt); }
+ SYS_REVOKE = 56 // { int revoke(char *path); }
+ SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
+ SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
+ SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
+ SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
+ SYS_CHROOT = 61 // { int chroot(char *path); }
+ SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
+ SYS_VFORK = 66 // { int vfork(void); }
+ SYS_SBRK = 69 // { int sbrk(int incr); }
+ SYS_SSTK = 70 // { int sstk(int incr); }
+ SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
+ SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
+ SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
+ SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
+ SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
+ SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
+ SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
+ SYS_GETPGRP = 81 // { int getpgrp(void); }
+ SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
+ SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
+ SYS_SWAPON = 85 // { int swapon(char *name); }
+ SYS_GETITIMER = 86 // { int getitimer(u_int which, \
+ SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
+ SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
+ SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
+ SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
+ SYS_FSYNC = 95 // { int fsync(int fd); }
+ SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
+ SYS_SOCKET = 97 // { int socket(int domain, int type, \
+ SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
+ SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
+ SYS_BIND = 104 // { int bind(int s, caddr_t name, \
+ SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
+ SYS_LISTEN = 106 // { int listen(int s, int backlog); }
+ SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
+ SYS_GETRUSAGE = 117 // { int getrusage(int who, \
+ SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
+ SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
+ SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
+ SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
+ SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
+ SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
+ SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
+ SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
+ SYS_RENAME = 128 // { int rename(char *from, char *to); }
+ SYS_FLOCK = 131 // { int flock(int fd, int how); }
+ SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
+ SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
+ SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
+ SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
+ SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
+ SYS_RMDIR = 137 // { int rmdir(char *path); }
+ SYS_UTIMES = 138 // { int utimes(char *path, \
+ SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
+ SYS_SETSID = 147 // { int setsid(void); }
+ SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
+ SYS_NLM_SYSCALL = 154 // { int nlm_syscall(int debug_level, int grace_period, int addr_count, char **addrs); }
+ SYS_NFSSVC = 155 // { int nfssvc(int flag, caddr_t argp); }
+ SYS_LGETFH = 160 // { int lgetfh(char *fname, \
+ SYS_GETFH = 161 // { int getfh(char *fname, \
+ SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
+ SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
+ SYS_SEMSYS = 169 // { int semsys(int which, int a2, int a3, \
+ SYS_MSGSYS = 170 // { int msgsys(int which, int a2, int a3, \
+ SYS_SHMSYS = 171 // { int shmsys(int which, int a2, int a3, \
+ SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
+ SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
+ SYS_SETFIB = 175 // { int setfib(int fibnum); }
+ SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
+ SYS_SETGID = 181 // { int setgid(gid_t gid); }
+ SYS_SETEGID = 182 // { int setegid(gid_t egid); }
+ SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
+ SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
+ SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
+ SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
+ SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
+ SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
+ SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
+ SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
+ SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
+ SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
+ SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
+ SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
+ SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
+ SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
+ SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
+ SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
+ SYS_UNDELETE = 205 // { int undelete(char *path); }
+ SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
+ SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
+ SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
+ SYS_SEMGET = 221 // { int semget(key_t key, int nsems, \
+ SYS_SEMOP = 222 // { int semop(int semid, struct sembuf *sops, \
+ SYS_MSGGET = 225 // { int msgget(key_t key, int msgflg); }
+ SYS_MSGSND = 226 // { int msgsnd(int msqid, const void *msgp, \
+ SYS_MSGRCV = 227 // { int msgrcv(int msqid, void *msgp, \
+ SYS_SHMAT = 228 // { int shmat(int shmid, const void *shmaddr, \
+ SYS_SHMDT = 230 // { int shmdt(const void *shmaddr); }
+ SYS_SHMGET = 231 // { int shmget(key_t key, size_t size, \
+ SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
+ SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
+ SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
+ SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
+ SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
+ SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
+ SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
+ SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
+ SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
+ SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
+ SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
+ SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
+ SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
+ SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
+ SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
+ SYS_RFORK = 251 // { int rfork(int flags); }
+ SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
+ SYS_ISSETUGID = 253 // { int issetugid(void); }
+ SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
+ SYS_AIO_READ = 255 // { int aio_read(struct aiocb *aiocbp); }
+ SYS_AIO_WRITE = 256 // { int aio_write(struct aiocb *aiocbp); }
+ SYS_LIO_LISTIO = 257 // { int lio_listio(int mode, \
+ SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
+ SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
+ SYS_LUTIMES = 276 // { int lutimes(char *path, \
+ SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
+ SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
+ SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
+ SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
+ SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
+ SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
+ SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
+ SYS_MODNEXT = 300 // { int modnext(int modid); }
+ SYS_MODSTAT = 301 // { int modstat(int modid, \
+ SYS_MODFNEXT = 302 // { int modfnext(int modid); }
+ SYS_MODFIND = 303 // { int modfind(const char *name); }
+ SYS_KLDLOAD = 304 // { int kldload(const char *file); }
+ SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
+ SYS_KLDFIND = 306 // { int kldfind(const char *file); }
+ SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
+ SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
+ SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
+ SYS_GETSID = 310 // { int getsid(pid_t pid); }
+ SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
+ SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
+ SYS_AIO_RETURN = 314 // { int aio_return(struct aiocb *aiocbp); }
+ SYS_AIO_SUSPEND = 315 // { int aio_suspend( \
+ SYS_AIO_CANCEL = 316 // { int aio_cancel(int fd, \
+ SYS_AIO_ERROR = 317 // { int aio_error(struct aiocb *aiocbp); }
+ SYS_OAIO_READ = 318 // { int oaio_read(struct oaiocb *aiocbp); }
+ SYS_OAIO_WRITE = 319 // { int oaio_write(struct oaiocb *aiocbp); }
+ SYS_OLIO_LISTIO = 320 // { int olio_listio(int mode, \
+ SYS_YIELD = 321 // { int yield(void); }
+ SYS_MLOCKALL = 324 // { int mlockall(int how); }
+ SYS_MUNLOCKALL = 325 // { int munlockall(void); }
+ SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
+ SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
+ SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
+ SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
+ SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
+ SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
+ SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
+ SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
+ SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
+ SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
+ SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
+ SYS_JAIL = 338 // { int jail(struct jail *jail); }
+ SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
+ SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
+ SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
+ SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
+ SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
+ SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
+ SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
+ SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
+ SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
+ SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
+ SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
+ SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
+ SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
+ SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
+ SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
+ SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
+ SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
+ SYS_AIO_WAITCOMPLETE = 359 // { int aio_waitcomplete( \
+ SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
+ SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
+ SYS_KQUEUE = 362 // { int kqueue(void); }
+ SYS_KEVENT = 363 // { int kevent(int fd, \
+ SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
+ SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
+ SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
+ SYS___SETUGID = 374 // { int __setugid(int flag); }
+ SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
+ SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
+ SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
+ SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
+ SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
+ SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
+ SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
+ SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
+ SYS_KENV = 390 // { int kenv(int what, const char *name, \
+ SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
+ SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
+ SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
+ SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
+ SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
+ SYS_STATFS = 396 // { int statfs(char *path, \
+ SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
+ SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
+ SYS_KSEM_CLOSE = 400 // { int ksem_close(semid_t id); }
+ SYS_KSEM_POST = 401 // { int ksem_post(semid_t id); }
+ SYS_KSEM_WAIT = 402 // { int ksem_wait(semid_t id); }
+ SYS_KSEM_TRYWAIT = 403 // { int ksem_trywait(semid_t id); }
+ SYS_KSEM_INIT = 404 // { int ksem_init(semid_t *idp, \
+ SYS_KSEM_OPEN = 405 // { int ksem_open(semid_t *idp, \
+ SYS_KSEM_UNLINK = 406 // { int ksem_unlink(const char *name); }
+ SYS_KSEM_GETVALUE = 407 // { int ksem_getvalue(semid_t id, int *val); }
+ SYS_KSEM_DESTROY = 408 // { int ksem_destroy(semid_t id); }
+ SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
+ SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
+ SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
+ SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
+ SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
+ SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
+ SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
+ SYS_SIGACTION = 416 // { int sigaction(int sig, \
+ SYS_SIGRETURN = 417 // { int sigreturn( \
+ SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
+ SYS_SETCONTEXT = 422 // { int setcontext( \
+ SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
+ SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
+ SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
+ SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
+ SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
+ SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
+ SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
+ SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
+ SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
+ SYS_THR_SELF = 432 // { int thr_self(long *id); }
+ SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
+ SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
+ SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
+ SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
+ SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
+ SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
+ SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
+ SYS_KSEM_TIMEDWAIT = 441 // { int ksem_timedwait(semid_t id, \
+ SYS_THR_SUSPEND = 442 // { int thr_suspend( \
+ SYS_THR_WAKE = 443 // { int thr_wake(long id); }
+ SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
+ SYS_AUDIT = 445 // { int audit(const void *record, \
+ SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
+ SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
+ SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
+ SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
+ SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
+ SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
+ SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
+ SYS_AUDITCTL = 453 // { int auditctl(char *path); }
+ SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
+ SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
+ SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
+ SYS_KMQ_OPEN = 457 // { int kmq_open(const char *path, int flags, \
+ SYS_KMQ_SETATTR = 458 // { int kmq_setattr(int mqd, \
+ SYS_KMQ_TIMEDRECEIVE = 459 // { int kmq_timedreceive(int mqd, \
+ SYS_KMQ_TIMEDSEND = 460 // { int kmq_timedsend(int mqd, \
+ SYS_KMQ_NOTIFY = 461 // { int kmq_notify(int mqd, \
+ SYS_KMQ_UNLINK = 462 // { int kmq_unlink(const char *path); }
+ SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
+ SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
+ SYS_AIO_FSYNC = 465 // { int aio_fsync(int op, struct aiocb *aiocbp); }
+ SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
+ SYS_SCTP_PEELOFF = 471 // { int sctp_peeloff(int sd, uint32_t name); }
+ SYS_SCTP_GENERIC_SENDMSG = 472 // { int sctp_generic_sendmsg(int sd, caddr_t msg, int mlen, \
+ SYS_SCTP_GENERIC_SENDMSG_IOV = 473 // { int sctp_generic_sendmsg_iov(int sd, struct iovec *iov, int iovlen, \
+ SYS_SCTP_GENERIC_RECVMSG = 474 // { int sctp_generic_recvmsg(int sd, struct iovec *iov, int iovlen, \
+ SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
+ SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
+ SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
+ SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
+ SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
+ SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
+ SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
+ SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
+ SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
+ SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
+ SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
+ SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
+ SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
+ SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
+ SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
+ SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
+ SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
+ SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
+ SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
+ SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
+ SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
+ SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
+ SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
+ SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
+ SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
+ SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
+ SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
+ SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
+ SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
+ SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
+ SYS_GSSD_SYSCALL = 505 // { int gssd_syscall(char *path); }
+ SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
+ SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
+ SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
+ SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
+ SYS___SEMCTL = 510 // { int __semctl(int semid, int semnum, \
+ SYS_MSGCTL = 511 // { int msgctl(int msqid, int cmd, \
+ SYS_SHMCTL = 512 // { int shmctl(int shmid, int cmd, \
+ SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
+ SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
+ SYS_CAP_ENTER = 516 // { int cap_enter(void); }
+ SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
+ SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
+ SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
+ SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
+ SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
+ SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
+ SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
+ SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
+ SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
+ SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
+ SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
+ SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
+ SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
+ SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
+ SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
+ SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
+ SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
+ SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
+ SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
+ SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
+ SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
+ SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
+ SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
+ SYS_ACCEPT4 = 541 // { int accept4(int s, \
+ SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
+ SYS_AIO_MLOCK = 543 // { int aio_mlock(struct aiocb *aiocbp); }
+ SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
+ SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
+ SYS_FUTIMENS = 546 // { int futimens(int fd, \
+ SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
)
diff --git a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_amd64.go b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_amd64.go
index 81722ac9f3bdd1d17ad8091d320c9b789af49126..b66f900dff768edcd0ed4cdbf5cb4eec6ff6f88f 100644
--- a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_amd64.go
+++ b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_amd64.go
@@ -7,347 +7,397 @@ package unix
const (
// SYS_NOSYS = 0; // { int nosys(void); } syscall nosys_args int
- SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
- SYS_FORK = 2 // { int fork(void); }
- SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
- SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
- SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
- SYS_CLOSE = 6 // { int close(int fd); }
- SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
- SYS_LINK = 9 // { int link(char *path, char *link); }
- SYS_UNLINK = 10 // { int unlink(char *path); }
- SYS_CHDIR = 12 // { int chdir(char *path); }
- SYS_FCHDIR = 13 // { int fchdir(int fd); }
- SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
- SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
- SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
- SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
- SYS_GETPID = 20 // { pid_t getpid(void); }
- SYS_MOUNT = 21 // { int mount(char *type, char *path, \
- SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
- SYS_SETUID = 23 // { int setuid(uid_t uid); }
- SYS_GETUID = 24 // { uid_t getuid(void); }
- SYS_GETEUID = 25 // { uid_t geteuid(void); }
- SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
- SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
- SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
- SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
- SYS_ACCEPT = 30 // { int accept(int s, \
- SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
- SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
- SYS_ACCESS = 33 // { int access(char *path, int amode); }
- SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
- SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
- SYS_SYNC = 36 // { int sync(void); }
- SYS_KILL = 37 // { int kill(int pid, int signum); }
- SYS_GETPPID = 39 // { pid_t getppid(void); }
- SYS_DUP = 41 // { int dup(u_int fd); }
- SYS_PIPE = 42 // { int pipe(void); }
- SYS_GETEGID = 43 // { gid_t getegid(void); }
- SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
- SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
- SYS_GETGID = 47 // { gid_t getgid(void); }
- SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
- SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
- SYS_ACCT = 51 // { int acct(char *path); }
- SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
- SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
- SYS_REBOOT = 55 // { int reboot(int opt); }
- SYS_REVOKE = 56 // { int revoke(char *path); }
- SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
- SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
- SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
- SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
- SYS_CHROOT = 61 // { int chroot(char *path); }
- SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
- SYS_VFORK = 66 // { int vfork(void); }
- SYS_SBRK = 69 // { int sbrk(int incr); }
- SYS_SSTK = 70 // { int sstk(int incr); }
- SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
- SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
- SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
- SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
- SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
- SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
- SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
- SYS_GETPGRP = 81 // { int getpgrp(void); }
- SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
- SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
- SYS_SWAPON = 85 // { int swapon(char *name); }
- SYS_GETITIMER = 86 // { int getitimer(u_int which, \
- SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
- SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
- SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
- SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
- SYS_FSYNC = 95 // { int fsync(int fd); }
- SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
- SYS_SOCKET = 97 // { int socket(int domain, int type, \
- SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
- SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
- SYS_BIND = 104 // { int bind(int s, caddr_t name, \
- SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
- SYS_LISTEN = 106 // { int listen(int s, int backlog); }
- SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
- SYS_GETRUSAGE = 117 // { int getrusage(int who, \
- SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
- SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
- SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
- SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
- SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
- SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
- SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
- SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
- SYS_RENAME = 128 // { int rename(char *from, char *to); }
- SYS_FLOCK = 131 // { int flock(int fd, int how); }
- SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
- SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
- SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
- SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
- SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
- SYS_RMDIR = 137 // { int rmdir(char *path); }
- SYS_UTIMES = 138 // { int utimes(char *path, \
- SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
- SYS_SETSID = 147 // { int setsid(void); }
- SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
- SYS_LGETFH = 160 // { int lgetfh(char *fname, \
- SYS_GETFH = 161 // { int getfh(char *fname, \
- SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
- SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
- SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
- SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
- SYS_SETFIB = 175 // { int setfib(int fibnum); }
- SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
- SYS_SETGID = 181 // { int setgid(gid_t gid); }
- SYS_SETEGID = 182 // { int setegid(gid_t egid); }
- SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
- SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
- SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
- SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
- SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
- SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
- SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
- SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
- SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
- SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
- SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
- SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
- SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
- SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
- SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
- SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
- SYS_UNDELETE = 205 // { int undelete(char *path); }
- SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
- SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
- SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
- SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
- SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
- SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
- SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
- SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
- SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
- SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
- SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
- SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
- SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
- SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
- SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
- SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
- SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
- SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
- SYS_RFORK = 251 // { int rfork(int flags); }
- SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
- SYS_ISSETUGID = 253 // { int issetugid(void); }
- SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
- SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
- SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
- SYS_LUTIMES = 276 // { int lutimes(char *path, \
- SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
- SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
- SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
- SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
- SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
- SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
- SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
- SYS_MODNEXT = 300 // { int modnext(int modid); }
- SYS_MODSTAT = 301 // { int modstat(int modid, \
- SYS_MODFNEXT = 302 // { int modfnext(int modid); }
- SYS_MODFIND = 303 // { int modfind(const char *name); }
- SYS_KLDLOAD = 304 // { int kldload(const char *file); }
- SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
- SYS_KLDFIND = 306 // { int kldfind(const char *file); }
- SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
- SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
- SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
- SYS_GETSID = 310 // { int getsid(pid_t pid); }
- SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
- SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
- SYS_YIELD = 321 // { int yield(void); }
- SYS_MLOCKALL = 324 // { int mlockall(int how); }
- SYS_MUNLOCKALL = 325 // { int munlockall(void); }
- SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
- SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
- SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
- SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
- SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
- SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
- SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
- SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
- SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
- SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
- SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
- SYS_JAIL = 338 // { int jail(struct jail *jail); }
- SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
- SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
- SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
- SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
- SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
- SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
- SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
- SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
- SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
- SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
- SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
- SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
- SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
- SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
- SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
- SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
- SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
- SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
- SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
- SYS_KQUEUE = 362 // { int kqueue(void); }
- SYS_KEVENT = 363 // { int kevent(int fd, \
- SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
- SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
- SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
- SYS___SETUGID = 374 // { int __setugid(int flag); }
- SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
- SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
- SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
- SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
- SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
- SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
- SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
- SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
- SYS_KENV = 390 // { int kenv(int what, const char *name, \
- SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
- SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
- SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
- SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
- SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
- SYS_STATFS = 396 // { int statfs(char *path, \
- SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
- SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
- SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
- SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
- SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
- SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
- SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
- SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
- SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
- SYS_SIGACTION = 416 // { int sigaction(int sig, \
- SYS_SIGRETURN = 417 // { int sigreturn( \
- SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
- SYS_SETCONTEXT = 422 // { int setcontext( \
- SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
- SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
- SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
- SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
- SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
- SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
- SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
- SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
- SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
- SYS_THR_SELF = 432 // { int thr_self(long *id); }
- SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
- SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
- SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
- SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
- SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
- SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
- SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
- SYS_THR_SUSPEND = 442 // { int thr_suspend( \
- SYS_THR_WAKE = 443 // { int thr_wake(long id); }
- SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
- SYS_AUDIT = 445 // { int audit(const void *record, \
- SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
- SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
- SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
- SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
- SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
- SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
- SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
- SYS_AUDITCTL = 453 // { int auditctl(char *path); }
- SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
- SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
- SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
- SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
- SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
- SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
- SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
- SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
- SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
- SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
- SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
- SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
- SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
- SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
- SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
- SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
- SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
- SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
- SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
- SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
- SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
- SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
- SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
- SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
- SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
- SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
- SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
- SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
- SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
- SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
- SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
- SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
- SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
- SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
- SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
- SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
- SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
- SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
- SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
- SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
- SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
- SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
- SYS_CAP_ENTER = 516 // { int cap_enter(void); }
- SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
- SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
- SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
- SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
- SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
- SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
- SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
- SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
- SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
- SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
- SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
- SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
- SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
- SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
- SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
- SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
- SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
- SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
- SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
- SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
- SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
- SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
- SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
- SYS_ACCEPT4 = 541 // { int accept4(int s, \
- SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
- SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
- SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
- SYS_FUTIMENS = 546 // { int futimens(int fd, \
- SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
+ SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
+ SYS_FORK = 2 // { int fork(void); }
+ SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
+ SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
+ SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
+ SYS_CLOSE = 6 // { int close(int fd); }
+ SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
+ SYS_LINK = 9 // { int link(char *path, char *link); }
+ SYS_UNLINK = 10 // { int unlink(char *path); }
+ SYS_CHDIR = 12 // { int chdir(char *path); }
+ SYS_FCHDIR = 13 // { int fchdir(int fd); }
+ SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
+ SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
+ SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
+ SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
+ SYS_GETPID = 20 // { pid_t getpid(void); }
+ SYS_MOUNT = 21 // { int mount(char *type, char *path, \
+ SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
+ SYS_SETUID = 23 // { int setuid(uid_t uid); }
+ SYS_GETUID = 24 // { uid_t getuid(void); }
+ SYS_GETEUID = 25 // { uid_t geteuid(void); }
+ SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
+ SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
+ SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
+ SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
+ SYS_ACCEPT = 30 // { int accept(int s, \
+ SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
+ SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
+ SYS_ACCESS = 33 // { int access(char *path, int amode); }
+ SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
+ SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
+ SYS_SYNC = 36 // { int sync(void); }
+ SYS_KILL = 37 // { int kill(int pid, int signum); }
+ SYS_GETPPID = 39 // { pid_t getppid(void); }
+ SYS_DUP = 41 // { int dup(u_int fd); }
+ SYS_PIPE = 42 // { int pipe(void); }
+ SYS_GETEGID = 43 // { gid_t getegid(void); }
+ SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
+ SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
+ SYS_GETGID = 47 // { gid_t getgid(void); }
+ SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
+ SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
+ SYS_ACCT = 51 // { int acct(char *path); }
+ SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
+ SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
+ SYS_REBOOT = 55 // { int reboot(int opt); }
+ SYS_REVOKE = 56 // { int revoke(char *path); }
+ SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
+ SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
+ SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
+ SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
+ SYS_CHROOT = 61 // { int chroot(char *path); }
+ SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
+ SYS_VFORK = 66 // { int vfork(void); }
+ SYS_SBRK = 69 // { int sbrk(int incr); }
+ SYS_SSTK = 70 // { int sstk(int incr); }
+ SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
+ SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
+ SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
+ SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
+ SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
+ SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
+ SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
+ SYS_GETPGRP = 81 // { int getpgrp(void); }
+ SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
+ SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
+ SYS_SWAPON = 85 // { int swapon(char *name); }
+ SYS_GETITIMER = 86 // { int getitimer(u_int which, \
+ SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
+ SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
+ SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
+ SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
+ SYS_FSYNC = 95 // { int fsync(int fd); }
+ SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
+ SYS_SOCKET = 97 // { int socket(int domain, int type, \
+ SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
+ SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
+ SYS_BIND = 104 // { int bind(int s, caddr_t name, \
+ SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
+ SYS_LISTEN = 106 // { int listen(int s, int backlog); }
+ SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
+ SYS_GETRUSAGE = 117 // { int getrusage(int who, \
+ SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
+ SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
+ SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
+ SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
+ SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
+ SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
+ SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
+ SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
+ SYS_RENAME = 128 // { int rename(char *from, char *to); }
+ SYS_FLOCK = 131 // { int flock(int fd, int how); }
+ SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
+ SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
+ SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
+ SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
+ SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
+ SYS_RMDIR = 137 // { int rmdir(char *path); }
+ SYS_UTIMES = 138 // { int utimes(char *path, \
+ SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
+ SYS_SETSID = 147 // { int setsid(void); }
+ SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
+ SYS_NLM_SYSCALL = 154 // { int nlm_syscall(int debug_level, int grace_period, int addr_count, char **addrs); }
+ SYS_NFSSVC = 155 // { int nfssvc(int flag, caddr_t argp); }
+ SYS_LGETFH = 160 // { int lgetfh(char *fname, \
+ SYS_GETFH = 161 // { int getfh(char *fname, \
+ SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
+ SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
+ SYS_SEMSYS = 169 // { int semsys(int which, int a2, int a3, \
+ SYS_MSGSYS = 170 // { int msgsys(int which, int a2, int a3, \
+ SYS_SHMSYS = 171 // { int shmsys(int which, int a2, int a3, \
+ SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
+ SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
+ SYS_SETFIB = 175 // { int setfib(int fibnum); }
+ SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
+ SYS_SETGID = 181 // { int setgid(gid_t gid); }
+ SYS_SETEGID = 182 // { int setegid(gid_t egid); }
+ SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
+ SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
+ SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
+ SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
+ SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
+ SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
+ SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
+ SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
+ SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
+ SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
+ SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
+ SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
+ SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
+ SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
+ SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
+ SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
+ SYS_UNDELETE = 205 // { int undelete(char *path); }
+ SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
+ SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
+ SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
+ SYS_SEMGET = 221 // { int semget(key_t key, int nsems, \
+ SYS_SEMOP = 222 // { int semop(int semid, struct sembuf *sops, \
+ SYS_MSGGET = 225 // { int msgget(key_t key, int msgflg); }
+ SYS_MSGSND = 226 // { int msgsnd(int msqid, const void *msgp, \
+ SYS_MSGRCV = 227 // { int msgrcv(int msqid, void *msgp, \
+ SYS_SHMAT = 228 // { int shmat(int shmid, const void *shmaddr, \
+ SYS_SHMDT = 230 // { int shmdt(const void *shmaddr); }
+ SYS_SHMGET = 231 // { int shmget(key_t key, size_t size, \
+ SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
+ SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
+ SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
+ SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
+ SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
+ SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
+ SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
+ SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
+ SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
+ SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
+ SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
+ SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
+ SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
+ SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
+ SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
+ SYS_RFORK = 251 // { int rfork(int flags); }
+ SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
+ SYS_ISSETUGID = 253 // { int issetugid(void); }
+ SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
+ SYS_AIO_READ = 255 // { int aio_read(struct aiocb *aiocbp); }
+ SYS_AIO_WRITE = 256 // { int aio_write(struct aiocb *aiocbp); }
+ SYS_LIO_LISTIO = 257 // { int lio_listio(int mode, \
+ SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
+ SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
+ SYS_LUTIMES = 276 // { int lutimes(char *path, \
+ SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
+ SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
+ SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
+ SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
+ SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
+ SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
+ SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
+ SYS_MODNEXT = 300 // { int modnext(int modid); }
+ SYS_MODSTAT = 301 // { int modstat(int modid, \
+ SYS_MODFNEXT = 302 // { int modfnext(int modid); }
+ SYS_MODFIND = 303 // { int modfind(const char *name); }
+ SYS_KLDLOAD = 304 // { int kldload(const char *file); }
+ SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
+ SYS_KLDFIND = 306 // { int kldfind(const char *file); }
+ SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
+ SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
+ SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
+ SYS_GETSID = 310 // { int getsid(pid_t pid); }
+ SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
+ SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
+ SYS_AIO_RETURN = 314 // { int aio_return(struct aiocb *aiocbp); }
+ SYS_AIO_SUSPEND = 315 // { int aio_suspend( \
+ SYS_AIO_CANCEL = 316 // { int aio_cancel(int fd, \
+ SYS_AIO_ERROR = 317 // { int aio_error(struct aiocb *aiocbp); }
+ SYS_OAIO_READ = 318 // { int oaio_read(struct oaiocb *aiocbp); }
+ SYS_OAIO_WRITE = 319 // { int oaio_write(struct oaiocb *aiocbp); }
+ SYS_OLIO_LISTIO = 320 // { int olio_listio(int mode, \
+ SYS_YIELD = 321 // { int yield(void); }
+ SYS_MLOCKALL = 324 // { int mlockall(int how); }
+ SYS_MUNLOCKALL = 325 // { int munlockall(void); }
+ SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
+ SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
+ SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
+ SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
+ SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
+ SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
+ SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
+ SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
+ SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
+ SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
+ SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
+ SYS_JAIL = 338 // { int jail(struct jail *jail); }
+ SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
+ SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
+ SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
+ SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
+ SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
+ SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
+ SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
+ SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
+ SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
+ SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
+ SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
+ SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
+ SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
+ SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
+ SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
+ SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
+ SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
+ SYS_AIO_WAITCOMPLETE = 359 // { int aio_waitcomplete( \
+ SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
+ SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
+ SYS_KQUEUE = 362 // { int kqueue(void); }
+ SYS_KEVENT = 363 // { int kevent(int fd, \
+ SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
+ SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
+ SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
+ SYS___SETUGID = 374 // { int __setugid(int flag); }
+ SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
+ SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
+ SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
+ SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
+ SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
+ SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
+ SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
+ SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
+ SYS_KENV = 390 // { int kenv(int what, const char *name, \
+ SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
+ SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
+ SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
+ SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
+ SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
+ SYS_STATFS = 396 // { int statfs(char *path, \
+ SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
+ SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
+ SYS_KSEM_CLOSE = 400 // { int ksem_close(semid_t id); }
+ SYS_KSEM_POST = 401 // { int ksem_post(semid_t id); }
+ SYS_KSEM_WAIT = 402 // { int ksem_wait(semid_t id); }
+ SYS_KSEM_TRYWAIT = 403 // { int ksem_trywait(semid_t id); }
+ SYS_KSEM_INIT = 404 // { int ksem_init(semid_t *idp, \
+ SYS_KSEM_OPEN = 405 // { int ksem_open(semid_t *idp, \
+ SYS_KSEM_UNLINK = 406 // { int ksem_unlink(const char *name); }
+ SYS_KSEM_GETVALUE = 407 // { int ksem_getvalue(semid_t id, int *val); }
+ SYS_KSEM_DESTROY = 408 // { int ksem_destroy(semid_t id); }
+ SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
+ SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
+ SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
+ SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
+ SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
+ SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
+ SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
+ SYS_SIGACTION = 416 // { int sigaction(int sig, \
+ SYS_SIGRETURN = 417 // { int sigreturn( \
+ SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
+ SYS_SETCONTEXT = 422 // { int setcontext( \
+ SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
+ SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
+ SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
+ SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
+ SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
+ SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
+ SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
+ SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
+ SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
+ SYS_THR_SELF = 432 // { int thr_self(long *id); }
+ SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
+ SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
+ SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
+ SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
+ SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
+ SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
+ SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
+ SYS_KSEM_TIMEDWAIT = 441 // { int ksem_timedwait(semid_t id, \
+ SYS_THR_SUSPEND = 442 // { int thr_suspend( \
+ SYS_THR_WAKE = 443 // { int thr_wake(long id); }
+ SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
+ SYS_AUDIT = 445 // { int audit(const void *record, \
+ SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
+ SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
+ SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
+ SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
+ SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
+ SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
+ SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
+ SYS_AUDITCTL = 453 // { int auditctl(char *path); }
+ SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
+ SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
+ SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
+ SYS_KMQ_OPEN = 457 // { int kmq_open(const char *path, int flags, \
+ SYS_KMQ_SETATTR = 458 // { int kmq_setattr(int mqd, \
+ SYS_KMQ_TIMEDRECEIVE = 459 // { int kmq_timedreceive(int mqd, \
+ SYS_KMQ_TIMEDSEND = 460 // { int kmq_timedsend(int mqd, \
+ SYS_KMQ_NOTIFY = 461 // { int kmq_notify(int mqd, \
+ SYS_KMQ_UNLINK = 462 // { int kmq_unlink(const char *path); }
+ SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
+ SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
+ SYS_AIO_FSYNC = 465 // { int aio_fsync(int op, struct aiocb *aiocbp); }
+ SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
+ SYS_SCTP_PEELOFF = 471 // { int sctp_peeloff(int sd, uint32_t name); }
+ SYS_SCTP_GENERIC_SENDMSG = 472 // { int sctp_generic_sendmsg(int sd, caddr_t msg, int mlen, \
+ SYS_SCTP_GENERIC_SENDMSG_IOV = 473 // { int sctp_generic_sendmsg_iov(int sd, struct iovec *iov, int iovlen, \
+ SYS_SCTP_GENERIC_RECVMSG = 474 // { int sctp_generic_recvmsg(int sd, struct iovec *iov, int iovlen, \
+ SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
+ SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
+ SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
+ SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
+ SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
+ SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
+ SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
+ SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
+ SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
+ SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
+ SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
+ SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
+ SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
+ SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
+ SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
+ SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
+ SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
+ SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
+ SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
+ SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
+ SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
+ SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
+ SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
+ SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
+ SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
+ SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
+ SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
+ SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
+ SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
+ SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
+ SYS_GSSD_SYSCALL = 505 // { int gssd_syscall(char *path); }
+ SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
+ SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
+ SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
+ SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
+ SYS___SEMCTL = 510 // { int __semctl(int semid, int semnum, \
+ SYS_MSGCTL = 511 // { int msgctl(int msqid, int cmd, \
+ SYS_SHMCTL = 512 // { int shmctl(int shmid, int cmd, \
+ SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
+ SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
+ SYS_CAP_ENTER = 516 // { int cap_enter(void); }
+ SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
+ SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
+ SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
+ SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
+ SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
+ SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
+ SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
+ SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
+ SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
+ SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
+ SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
+ SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
+ SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
+ SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
+ SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
+ SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
+ SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
+ SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
+ SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
+ SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
+ SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
+ SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
+ SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
+ SYS_ACCEPT4 = 541 // { int accept4(int s, \
+ SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
+ SYS_AIO_MLOCK = 543 // { int aio_mlock(struct aiocb *aiocbp); }
+ SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
+ SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
+ SYS_FUTIMENS = 546 // { int futimens(int fd, \
+ SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
)
diff --git a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_arm.go b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_arm.go
index 448831418165bd250c91a15d159ae163ecd1b2f1..d61941ba7e0026db8cce3e0602aef86282c75330 100644
--- a/vendor/golang.org/x/sys/unix/zsysnum_freebsd_arm.go
+++ b/vendor/golang.org/x/sys/unix/zsysnum_freebsd_arm.go
@@ -7,347 +7,397 @@ package unix
const (
// SYS_NOSYS = 0; // { int nosys(void); } syscall nosys_args int
- SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
- SYS_FORK = 2 // { int fork(void); }
- SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
- SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
- SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
- SYS_CLOSE = 6 // { int close(int fd); }
- SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
- SYS_LINK = 9 // { int link(char *path, char *link); }
- SYS_UNLINK = 10 // { int unlink(char *path); }
- SYS_CHDIR = 12 // { int chdir(char *path); }
- SYS_FCHDIR = 13 // { int fchdir(int fd); }
- SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
- SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
- SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
- SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
- SYS_GETPID = 20 // { pid_t getpid(void); }
- SYS_MOUNT = 21 // { int mount(char *type, char *path, \
- SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
- SYS_SETUID = 23 // { int setuid(uid_t uid); }
- SYS_GETUID = 24 // { uid_t getuid(void); }
- SYS_GETEUID = 25 // { uid_t geteuid(void); }
- SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
- SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
- SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
- SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
- SYS_ACCEPT = 30 // { int accept(int s, \
- SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
- SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
- SYS_ACCESS = 33 // { int access(char *path, int amode); }
- SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
- SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
- SYS_SYNC = 36 // { int sync(void); }
- SYS_KILL = 37 // { int kill(int pid, int signum); }
- SYS_GETPPID = 39 // { pid_t getppid(void); }
- SYS_DUP = 41 // { int dup(u_int fd); }
- SYS_PIPE = 42 // { int pipe(void); }
- SYS_GETEGID = 43 // { gid_t getegid(void); }
- SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
- SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
- SYS_GETGID = 47 // { gid_t getgid(void); }
- SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
- SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
- SYS_ACCT = 51 // { int acct(char *path); }
- SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
- SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
- SYS_REBOOT = 55 // { int reboot(int opt); }
- SYS_REVOKE = 56 // { int revoke(char *path); }
- SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
- SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
- SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
- SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
- SYS_CHROOT = 61 // { int chroot(char *path); }
- SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
- SYS_VFORK = 66 // { int vfork(void); }
- SYS_SBRK = 69 // { int sbrk(int incr); }
- SYS_SSTK = 70 // { int sstk(int incr); }
- SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
- SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
- SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
- SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
- SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
- SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
- SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
- SYS_GETPGRP = 81 // { int getpgrp(void); }
- SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
- SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
- SYS_SWAPON = 85 // { int swapon(char *name); }
- SYS_GETITIMER = 86 // { int getitimer(u_int which, \
- SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
- SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
- SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
- SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
- SYS_FSYNC = 95 // { int fsync(int fd); }
- SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
- SYS_SOCKET = 97 // { int socket(int domain, int type, \
- SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
- SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
- SYS_BIND = 104 // { int bind(int s, caddr_t name, \
- SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
- SYS_LISTEN = 106 // { int listen(int s, int backlog); }
- SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
- SYS_GETRUSAGE = 117 // { int getrusage(int who, \
- SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
- SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
- SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
- SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
- SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
- SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
- SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
- SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
- SYS_RENAME = 128 // { int rename(char *from, char *to); }
- SYS_FLOCK = 131 // { int flock(int fd, int how); }
- SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
- SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
- SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
- SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
- SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
- SYS_RMDIR = 137 // { int rmdir(char *path); }
- SYS_UTIMES = 138 // { int utimes(char *path, \
- SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
- SYS_SETSID = 147 // { int setsid(void); }
- SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
- SYS_LGETFH = 160 // { int lgetfh(char *fname, \
- SYS_GETFH = 161 // { int getfh(char *fname, \
- SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
- SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
- SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
- SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
- SYS_SETFIB = 175 // { int setfib(int fibnum); }
- SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
- SYS_SETGID = 181 // { int setgid(gid_t gid); }
- SYS_SETEGID = 182 // { int setegid(gid_t egid); }
- SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
- SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
- SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
- SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
- SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
- SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
- SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
- SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
- SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
- SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
- SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
- SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
- SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
- SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
- SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
- SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
- SYS_UNDELETE = 205 // { int undelete(char *path); }
- SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
- SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
- SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
- SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
- SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
- SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
- SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
- SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
- SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
- SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
- SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
- SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
- SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
- SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
- SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
- SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
- SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
- SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
- SYS_RFORK = 251 // { int rfork(int flags); }
- SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
- SYS_ISSETUGID = 253 // { int issetugid(void); }
- SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
- SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
- SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
- SYS_LUTIMES = 276 // { int lutimes(char *path, \
- SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
- SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
- SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
- SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
- SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
- SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
- SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
- SYS_MODNEXT = 300 // { int modnext(int modid); }
- SYS_MODSTAT = 301 // { int modstat(int modid, \
- SYS_MODFNEXT = 302 // { int modfnext(int modid); }
- SYS_MODFIND = 303 // { int modfind(const char *name); }
- SYS_KLDLOAD = 304 // { int kldload(const char *file); }
- SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
- SYS_KLDFIND = 306 // { int kldfind(const char *file); }
- SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
- SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
- SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
- SYS_GETSID = 310 // { int getsid(pid_t pid); }
- SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
- SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
- SYS_YIELD = 321 // { int yield(void); }
- SYS_MLOCKALL = 324 // { int mlockall(int how); }
- SYS_MUNLOCKALL = 325 // { int munlockall(void); }
- SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
- SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
- SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
- SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
- SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
- SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
- SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
- SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
- SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
- SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
- SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
- SYS_JAIL = 338 // { int jail(struct jail *jail); }
- SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
- SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
- SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
- SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
- SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
- SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
- SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
- SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
- SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
- SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
- SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
- SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
- SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
- SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
- SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
- SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
- SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
- SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
- SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
- SYS_KQUEUE = 362 // { int kqueue(void); }
- SYS_KEVENT = 363 // { int kevent(int fd, \
- SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
- SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
- SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
- SYS___SETUGID = 374 // { int __setugid(int flag); }
- SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
- SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
- SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
- SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
- SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
- SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
- SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
- SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
- SYS_KENV = 390 // { int kenv(int what, const char *name, \
- SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
- SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
- SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
- SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
- SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
- SYS_STATFS = 396 // { int statfs(char *path, \
- SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
- SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
- SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
- SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
- SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
- SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
- SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
- SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
- SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
- SYS_SIGACTION = 416 // { int sigaction(int sig, \
- SYS_SIGRETURN = 417 // { int sigreturn( \
- SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
- SYS_SETCONTEXT = 422 // { int setcontext( \
- SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
- SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
- SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
- SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
- SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
- SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
- SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
- SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
- SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
- SYS_THR_SELF = 432 // { int thr_self(long *id); }
- SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
- SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
- SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
- SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
- SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
- SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
- SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
- SYS_THR_SUSPEND = 442 // { int thr_suspend( \
- SYS_THR_WAKE = 443 // { int thr_wake(long id); }
- SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
- SYS_AUDIT = 445 // { int audit(const void *record, \
- SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
- SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
- SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
- SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
- SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
- SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
- SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
- SYS_AUDITCTL = 453 // { int auditctl(char *path); }
- SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
- SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
- SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
- SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
- SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
- SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
- SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
- SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
- SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
- SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
- SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
- SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
- SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
- SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
- SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
- SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
- SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
- SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
- SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
- SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
- SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
- SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
- SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
- SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
- SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
- SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
- SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
- SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
- SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
- SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
- SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
- SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
- SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
- SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
- SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
- SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
- SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
- SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
- SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
- SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
- SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
- SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
- SYS_CAP_ENTER = 516 // { int cap_enter(void); }
- SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
- SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
- SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
- SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
- SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
- SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
- SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
- SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
- SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
- SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
- SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
- SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
- SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
- SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
- SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
- SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
- SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
- SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
- SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
- SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
- SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
- SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
- SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
- SYS_ACCEPT4 = 541 // { int accept4(int s, \
- SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
- SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
- SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
- SYS_FUTIMENS = 546 // { int futimens(int fd, \
- SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
+ SYS_EXIT = 1 // { void sys_exit(int rval); } exit \
+ SYS_FORK = 2 // { int fork(void); }
+ SYS_READ = 3 // { ssize_t read(int fd, void *buf, \
+ SYS_WRITE = 4 // { ssize_t write(int fd, const void *buf, \
+ SYS_OPEN = 5 // { int open(char *path, int flags, int mode); }
+ SYS_CLOSE = 6 // { int close(int fd); }
+ SYS_WAIT4 = 7 // { int wait4(int pid, int *status, \
+ SYS_LINK = 9 // { int link(char *path, char *link); }
+ SYS_UNLINK = 10 // { int unlink(char *path); }
+ SYS_CHDIR = 12 // { int chdir(char *path); }
+ SYS_FCHDIR = 13 // { int fchdir(int fd); }
+ SYS_MKNOD = 14 // { int mknod(char *path, int mode, int dev); }
+ SYS_CHMOD = 15 // { int chmod(char *path, int mode); }
+ SYS_CHOWN = 16 // { int chown(char *path, int uid, int gid); }
+ SYS_OBREAK = 17 // { int obreak(char *nsize); } break \
+ SYS_GETPID = 20 // { pid_t getpid(void); }
+ SYS_MOUNT = 21 // { int mount(char *type, char *path, \
+ SYS_UNMOUNT = 22 // { int unmount(char *path, int flags); }
+ SYS_SETUID = 23 // { int setuid(uid_t uid); }
+ SYS_GETUID = 24 // { uid_t getuid(void); }
+ SYS_GETEUID = 25 // { uid_t geteuid(void); }
+ SYS_PTRACE = 26 // { int ptrace(int req, pid_t pid, \
+ SYS_RECVMSG = 27 // { int recvmsg(int s, struct msghdr *msg, \
+ SYS_SENDMSG = 28 // { int sendmsg(int s, struct msghdr *msg, \
+ SYS_RECVFROM = 29 // { int recvfrom(int s, caddr_t buf, \
+ SYS_ACCEPT = 30 // { int accept(int s, \
+ SYS_GETPEERNAME = 31 // { int getpeername(int fdes, \
+ SYS_GETSOCKNAME = 32 // { int getsockname(int fdes, \
+ SYS_ACCESS = 33 // { int access(char *path, int amode); }
+ SYS_CHFLAGS = 34 // { int chflags(const char *path, u_long flags); }
+ SYS_FCHFLAGS = 35 // { int fchflags(int fd, u_long flags); }
+ SYS_SYNC = 36 // { int sync(void); }
+ SYS_KILL = 37 // { int kill(int pid, int signum); }
+ SYS_GETPPID = 39 // { pid_t getppid(void); }
+ SYS_DUP = 41 // { int dup(u_int fd); }
+ SYS_PIPE = 42 // { int pipe(void); }
+ SYS_GETEGID = 43 // { gid_t getegid(void); }
+ SYS_PROFIL = 44 // { int profil(caddr_t samples, size_t size, \
+ SYS_KTRACE = 45 // { int ktrace(const char *fname, int ops, \
+ SYS_GETGID = 47 // { gid_t getgid(void); }
+ SYS_GETLOGIN = 49 // { int getlogin(char *namebuf, u_int \
+ SYS_SETLOGIN = 50 // { int setlogin(char *namebuf); }
+ SYS_ACCT = 51 // { int acct(char *path); }
+ SYS_SIGALTSTACK = 53 // { int sigaltstack(stack_t *ss, \
+ SYS_IOCTL = 54 // { int ioctl(int fd, u_long com, \
+ SYS_REBOOT = 55 // { int reboot(int opt); }
+ SYS_REVOKE = 56 // { int revoke(char *path); }
+ SYS_SYMLINK = 57 // { int symlink(char *path, char *link); }
+ SYS_READLINK = 58 // { ssize_t readlink(char *path, char *buf, \
+ SYS_EXECVE = 59 // { int execve(char *fname, char **argv, \
+ SYS_UMASK = 60 // { int umask(int newmask); } umask umask_args \
+ SYS_CHROOT = 61 // { int chroot(char *path); }
+ SYS_MSYNC = 65 // { int msync(void *addr, size_t len, \
+ SYS_VFORK = 66 // { int vfork(void); }
+ SYS_SBRK = 69 // { int sbrk(int incr); }
+ SYS_SSTK = 70 // { int sstk(int incr); }
+ SYS_OVADVISE = 72 // { int ovadvise(int anom); } vadvise \
+ SYS_MUNMAP = 73 // { int munmap(void *addr, size_t len); }
+ SYS_MPROTECT = 74 // { int mprotect(const void *addr, size_t len, \
+ SYS_MADVISE = 75 // { int madvise(void *addr, size_t len, \
+ SYS_MINCORE = 78 // { int mincore(const void *addr, size_t len, \
+ SYS_GETGROUPS = 79 // { int getgroups(u_int gidsetsize, \
+ SYS_SETGROUPS = 80 // { int setgroups(u_int gidsetsize, \
+ SYS_GETPGRP = 81 // { int getpgrp(void); }
+ SYS_SETPGID = 82 // { int setpgid(int pid, int pgid); }
+ SYS_SETITIMER = 83 // { int setitimer(u_int which, struct \
+ SYS_SWAPON = 85 // { int swapon(char *name); }
+ SYS_GETITIMER = 86 // { int getitimer(u_int which, \
+ SYS_GETDTABLESIZE = 89 // { int getdtablesize(void); }
+ SYS_DUP2 = 90 // { int dup2(u_int from, u_int to); }
+ SYS_FCNTL = 92 // { int fcntl(int fd, int cmd, long arg); }
+ SYS_SELECT = 93 // { int select(int nd, fd_set *in, fd_set *ou, \
+ SYS_FSYNC = 95 // { int fsync(int fd); }
+ SYS_SETPRIORITY = 96 // { int setpriority(int which, int who, \
+ SYS_SOCKET = 97 // { int socket(int domain, int type, \
+ SYS_CONNECT = 98 // { int connect(int s, caddr_t name, \
+ SYS_GETPRIORITY = 100 // { int getpriority(int which, int who); }
+ SYS_BIND = 104 // { int bind(int s, caddr_t name, \
+ SYS_SETSOCKOPT = 105 // { int setsockopt(int s, int level, int name, \
+ SYS_LISTEN = 106 // { int listen(int s, int backlog); }
+ SYS_GETTIMEOFDAY = 116 // { int gettimeofday(struct timeval *tp, \
+ SYS_GETRUSAGE = 117 // { int getrusage(int who, \
+ SYS_GETSOCKOPT = 118 // { int getsockopt(int s, int level, int name, \
+ SYS_READV = 120 // { int readv(int fd, struct iovec *iovp, \
+ SYS_WRITEV = 121 // { int writev(int fd, struct iovec *iovp, \
+ SYS_SETTIMEOFDAY = 122 // { int settimeofday(struct timeval *tv, \
+ SYS_FCHOWN = 123 // { int fchown(int fd, int uid, int gid); }
+ SYS_FCHMOD = 124 // { int fchmod(int fd, int mode); }
+ SYS_SETREUID = 126 // { int setreuid(int ruid, int euid); }
+ SYS_SETREGID = 127 // { int setregid(int rgid, int egid); }
+ SYS_RENAME = 128 // { int rename(char *from, char *to); }
+ SYS_FLOCK = 131 // { int flock(int fd, int how); }
+ SYS_MKFIFO = 132 // { int mkfifo(char *path, int mode); }
+ SYS_SENDTO = 133 // { int sendto(int s, caddr_t buf, size_t len, \
+ SYS_SHUTDOWN = 134 // { int shutdown(int s, int how); }
+ SYS_SOCKETPAIR = 135 // { int socketpair(int domain, int type, \
+ SYS_MKDIR = 136 // { int mkdir(char *path, int mode); }
+ SYS_RMDIR = 137 // { int rmdir(char *path); }
+ SYS_UTIMES = 138 // { int utimes(char *path, \
+ SYS_ADJTIME = 140 // { int adjtime(struct timeval *delta, \
+ SYS_SETSID = 147 // { int setsid(void); }
+ SYS_QUOTACTL = 148 // { int quotactl(char *path, int cmd, int uid, \
+ SYS_NLM_SYSCALL = 154 // { int nlm_syscall(int debug_level, int grace_period, int addr_count, char **addrs); }
+ SYS_NFSSVC = 155 // { int nfssvc(int flag, caddr_t argp); }
+ SYS_LGETFH = 160 // { int lgetfh(char *fname, \
+ SYS_GETFH = 161 // { int getfh(char *fname, \
+ SYS_SYSARCH = 165 // { int sysarch(int op, char *parms); }
+ SYS_RTPRIO = 166 // { int rtprio(int function, pid_t pid, \
+ SYS_SEMSYS = 169 // { int semsys(int which, int a2, int a3, \
+ SYS_MSGSYS = 170 // { int msgsys(int which, int a2, int a3, \
+ SYS_SHMSYS = 171 // { int shmsys(int which, int a2, int a3, \
+ SYS_FREEBSD6_PREAD = 173 // { ssize_t freebsd6_pread(int fd, void *buf, \
+ SYS_FREEBSD6_PWRITE = 174 // { ssize_t freebsd6_pwrite(int fd, \
+ SYS_SETFIB = 175 // { int setfib(int fibnum); }
+ SYS_NTP_ADJTIME = 176 // { int ntp_adjtime(struct timex *tp); }
+ SYS_SETGID = 181 // { int setgid(gid_t gid); }
+ SYS_SETEGID = 182 // { int setegid(gid_t egid); }
+ SYS_SETEUID = 183 // { int seteuid(uid_t euid); }
+ SYS_STAT = 188 // { int stat(char *path, struct stat *ub); }
+ SYS_FSTAT = 189 // { int fstat(int fd, struct stat *sb); }
+ SYS_LSTAT = 190 // { int lstat(char *path, struct stat *ub); }
+ SYS_PATHCONF = 191 // { int pathconf(char *path, int name); }
+ SYS_FPATHCONF = 192 // { int fpathconf(int fd, int name); }
+ SYS_GETRLIMIT = 194 // { int getrlimit(u_int which, \
+ SYS_SETRLIMIT = 195 // { int setrlimit(u_int which, \
+ SYS_GETDIRENTRIES = 196 // { int getdirentries(int fd, char *buf, \
+ SYS_FREEBSD6_MMAP = 197 // { caddr_t freebsd6_mmap(caddr_t addr, \
+ SYS_FREEBSD6_LSEEK = 199 // { off_t freebsd6_lseek(int fd, int pad, \
+ SYS_FREEBSD6_TRUNCATE = 200 // { int freebsd6_truncate(char *path, int pad, \
+ SYS_FREEBSD6_FTRUNCATE = 201 // { int freebsd6_ftruncate(int fd, int pad, \
+ SYS___SYSCTL = 202 // { int __sysctl(int *name, u_int namelen, \
+ SYS_MLOCK = 203 // { int mlock(const void *addr, size_t len); }
+ SYS_MUNLOCK = 204 // { int munlock(const void *addr, size_t len); }
+ SYS_UNDELETE = 205 // { int undelete(char *path); }
+ SYS_FUTIMES = 206 // { int futimes(int fd, struct timeval *tptr); }
+ SYS_GETPGID = 207 // { int getpgid(pid_t pid); }
+ SYS_POLL = 209 // { int poll(struct pollfd *fds, u_int nfds, \
+ SYS_SEMGET = 221 // { int semget(key_t key, int nsems, \
+ SYS_SEMOP = 222 // { int semop(int semid, struct sembuf *sops, \
+ SYS_MSGGET = 225 // { int msgget(key_t key, int msgflg); }
+ SYS_MSGSND = 226 // { int msgsnd(int msqid, const void *msgp, \
+ SYS_MSGRCV = 227 // { int msgrcv(int msqid, void *msgp, \
+ SYS_SHMAT = 228 // { int shmat(int shmid, const void *shmaddr, \
+ SYS_SHMDT = 230 // { int shmdt(const void *shmaddr); }
+ SYS_SHMGET = 231 // { int shmget(key_t key, size_t size, \
+ SYS_CLOCK_GETTIME = 232 // { int clock_gettime(clockid_t clock_id, \
+ SYS_CLOCK_SETTIME = 233 // { int clock_settime( \
+ SYS_CLOCK_GETRES = 234 // { int clock_getres(clockid_t clock_id, \
+ SYS_KTIMER_CREATE = 235 // { int ktimer_create(clockid_t clock_id, \
+ SYS_KTIMER_DELETE = 236 // { int ktimer_delete(int timerid); }
+ SYS_KTIMER_SETTIME = 237 // { int ktimer_settime(int timerid, int flags, \
+ SYS_KTIMER_GETTIME = 238 // { int ktimer_gettime(int timerid, struct \
+ SYS_KTIMER_GETOVERRUN = 239 // { int ktimer_getoverrun(int timerid); }
+ SYS_NANOSLEEP = 240 // { int nanosleep(const struct timespec *rqtp, \
+ SYS_FFCLOCK_GETCOUNTER = 241 // { int ffclock_getcounter(ffcounter *ffcount); }
+ SYS_FFCLOCK_SETESTIMATE = 242 // { int ffclock_setestimate( \
+ SYS_FFCLOCK_GETESTIMATE = 243 // { int ffclock_getestimate( \
+ SYS_CLOCK_GETCPUCLOCKID2 = 247 // { int clock_getcpuclockid2(id_t id,\
+ SYS_NTP_GETTIME = 248 // { int ntp_gettime(struct ntptimeval *ntvp); }
+ SYS_MINHERIT = 250 // { int minherit(void *addr, size_t len, \
+ SYS_RFORK = 251 // { int rfork(int flags); }
+ SYS_OPENBSD_POLL = 252 // { int openbsd_poll(struct pollfd *fds, \
+ SYS_ISSETUGID = 253 // { int issetugid(void); }
+ SYS_LCHOWN = 254 // { int lchown(char *path, int uid, int gid); }
+ SYS_AIO_READ = 255 // { int aio_read(struct aiocb *aiocbp); }
+ SYS_AIO_WRITE = 256 // { int aio_write(struct aiocb *aiocbp); }
+ SYS_LIO_LISTIO = 257 // { int lio_listio(int mode, \
+ SYS_GETDENTS = 272 // { int getdents(int fd, char *buf, \
+ SYS_LCHMOD = 274 // { int lchmod(char *path, mode_t mode); }
+ SYS_LUTIMES = 276 // { int lutimes(char *path, \
+ SYS_NSTAT = 278 // { int nstat(char *path, struct nstat *ub); }
+ SYS_NFSTAT = 279 // { int nfstat(int fd, struct nstat *sb); }
+ SYS_NLSTAT = 280 // { int nlstat(char *path, struct nstat *ub); }
+ SYS_PREADV = 289 // { ssize_t preadv(int fd, struct iovec *iovp, \
+ SYS_PWRITEV = 290 // { ssize_t pwritev(int fd, struct iovec *iovp, \
+ SYS_FHOPEN = 298 // { int fhopen(const struct fhandle *u_fhp, \
+ SYS_FHSTAT = 299 // { int fhstat(const struct fhandle *u_fhp, \
+ SYS_MODNEXT = 300 // { int modnext(int modid); }
+ SYS_MODSTAT = 301 // { int modstat(int modid, \
+ SYS_MODFNEXT = 302 // { int modfnext(int modid); }
+ SYS_MODFIND = 303 // { int modfind(const char *name); }
+ SYS_KLDLOAD = 304 // { int kldload(const char *file); }
+ SYS_KLDUNLOAD = 305 // { int kldunload(int fileid); }
+ SYS_KLDFIND = 306 // { int kldfind(const char *file); }
+ SYS_KLDNEXT = 307 // { int kldnext(int fileid); }
+ SYS_KLDSTAT = 308 // { int kldstat(int fileid, struct \
+ SYS_KLDFIRSTMOD = 309 // { int kldfirstmod(int fileid); }
+ SYS_GETSID = 310 // { int getsid(pid_t pid); }
+ SYS_SETRESUID = 311 // { int setresuid(uid_t ruid, uid_t euid, \
+ SYS_SETRESGID = 312 // { int setresgid(gid_t rgid, gid_t egid, \
+ SYS_AIO_RETURN = 314 // { int aio_return(struct aiocb *aiocbp); }
+ SYS_AIO_SUSPEND = 315 // { int aio_suspend( \
+ SYS_AIO_CANCEL = 316 // { int aio_cancel(int fd, \
+ SYS_AIO_ERROR = 317 // { int aio_error(struct aiocb *aiocbp); }
+ SYS_OAIO_READ = 318 // { int oaio_read(struct oaiocb *aiocbp); }
+ SYS_OAIO_WRITE = 319 // { int oaio_write(struct oaiocb *aiocbp); }
+ SYS_OLIO_LISTIO = 320 // { int olio_listio(int mode, \
+ SYS_YIELD = 321 // { int yield(void); }
+ SYS_MLOCKALL = 324 // { int mlockall(int how); }
+ SYS_MUNLOCKALL = 325 // { int munlockall(void); }
+ SYS___GETCWD = 326 // { int __getcwd(char *buf, u_int buflen); }
+ SYS_SCHED_SETPARAM = 327 // { int sched_setparam (pid_t pid, \
+ SYS_SCHED_GETPARAM = 328 // { int sched_getparam (pid_t pid, struct \
+ SYS_SCHED_SETSCHEDULER = 329 // { int sched_setscheduler (pid_t pid, int \
+ SYS_SCHED_GETSCHEDULER = 330 // { int sched_getscheduler (pid_t pid); }
+ SYS_SCHED_YIELD = 331 // { int sched_yield (void); }
+ SYS_SCHED_GET_PRIORITY_MAX = 332 // { int sched_get_priority_max (int policy); }
+ SYS_SCHED_GET_PRIORITY_MIN = 333 // { int sched_get_priority_min (int policy); }
+ SYS_SCHED_RR_GET_INTERVAL = 334 // { int sched_rr_get_interval (pid_t pid, \
+ SYS_UTRACE = 335 // { int utrace(const void *addr, size_t len); }
+ SYS_KLDSYM = 337 // { int kldsym(int fileid, int cmd, \
+ SYS_JAIL = 338 // { int jail(struct jail *jail); }
+ SYS_SIGPROCMASK = 340 // { int sigprocmask(int how, \
+ SYS_SIGSUSPEND = 341 // { int sigsuspend(const sigset_t *sigmask); }
+ SYS_SIGPENDING = 343 // { int sigpending(sigset_t *set); }
+ SYS_SIGTIMEDWAIT = 345 // { int sigtimedwait(const sigset_t *set, \
+ SYS_SIGWAITINFO = 346 // { int sigwaitinfo(const sigset_t *set, \
+ SYS___ACL_GET_FILE = 347 // { int __acl_get_file(const char *path, \
+ SYS___ACL_SET_FILE = 348 // { int __acl_set_file(const char *path, \
+ SYS___ACL_GET_FD = 349 // { int __acl_get_fd(int filedes, \
+ SYS___ACL_SET_FD = 350 // { int __acl_set_fd(int filedes, \
+ SYS___ACL_DELETE_FILE = 351 // { int __acl_delete_file(const char *path, \
+ SYS___ACL_DELETE_FD = 352 // { int __acl_delete_fd(int filedes, \
+ SYS___ACL_ACLCHECK_FILE = 353 // { int __acl_aclcheck_file(const char *path, \
+ SYS___ACL_ACLCHECK_FD = 354 // { int __acl_aclcheck_fd(int filedes, \
+ SYS_EXTATTRCTL = 355 // { int extattrctl(const char *path, int cmd, \
+ SYS_EXTATTR_SET_FILE = 356 // { ssize_t extattr_set_file( \
+ SYS_EXTATTR_GET_FILE = 357 // { ssize_t extattr_get_file( \
+ SYS_EXTATTR_DELETE_FILE = 358 // { int extattr_delete_file(const char *path, \
+ SYS_AIO_WAITCOMPLETE = 359 // { int aio_waitcomplete( \
+ SYS_GETRESUID = 360 // { int getresuid(uid_t *ruid, uid_t *euid, \
+ SYS_GETRESGID = 361 // { int getresgid(gid_t *rgid, gid_t *egid, \
+ SYS_KQUEUE = 362 // { int kqueue(void); }
+ SYS_KEVENT = 363 // { int kevent(int fd, \
+ SYS_EXTATTR_SET_FD = 371 // { ssize_t extattr_set_fd(int fd, \
+ SYS_EXTATTR_GET_FD = 372 // { ssize_t extattr_get_fd(int fd, \
+ SYS_EXTATTR_DELETE_FD = 373 // { int extattr_delete_fd(int fd, \
+ SYS___SETUGID = 374 // { int __setugid(int flag); }
+ SYS_EACCESS = 376 // { int eaccess(char *path, int amode); }
+ SYS_NMOUNT = 378 // { int nmount(struct iovec *iovp, \
+ SYS___MAC_GET_PROC = 384 // { int __mac_get_proc(struct mac *mac_p); }
+ SYS___MAC_SET_PROC = 385 // { int __mac_set_proc(struct mac *mac_p); }
+ SYS___MAC_GET_FD = 386 // { int __mac_get_fd(int fd, \
+ SYS___MAC_GET_FILE = 387 // { int __mac_get_file(const char *path_p, \
+ SYS___MAC_SET_FD = 388 // { int __mac_set_fd(int fd, \
+ SYS___MAC_SET_FILE = 389 // { int __mac_set_file(const char *path_p, \
+ SYS_KENV = 390 // { int kenv(int what, const char *name, \
+ SYS_LCHFLAGS = 391 // { int lchflags(const char *path, \
+ SYS_UUIDGEN = 392 // { int uuidgen(struct uuid *store, \
+ SYS_SENDFILE = 393 // { int sendfile(int fd, int s, off_t offset, \
+ SYS_MAC_SYSCALL = 394 // { int mac_syscall(const char *policy, \
+ SYS_GETFSSTAT = 395 // { int getfsstat(struct statfs *buf, \
+ SYS_STATFS = 396 // { int statfs(char *path, \
+ SYS_FSTATFS = 397 // { int fstatfs(int fd, struct statfs *buf); }
+ SYS_FHSTATFS = 398 // { int fhstatfs(const struct fhandle *u_fhp, \
+ SYS_KSEM_CLOSE = 400 // { int ksem_close(semid_t id); }
+ SYS_KSEM_POST = 401 // { int ksem_post(semid_t id); }
+ SYS_KSEM_WAIT = 402 // { int ksem_wait(semid_t id); }
+ SYS_KSEM_TRYWAIT = 403 // { int ksem_trywait(semid_t id); }
+ SYS_KSEM_INIT = 404 // { int ksem_init(semid_t *idp, \
+ SYS_KSEM_OPEN = 405 // { int ksem_open(semid_t *idp, \
+ SYS_KSEM_UNLINK = 406 // { int ksem_unlink(const char *name); }
+ SYS_KSEM_GETVALUE = 407 // { int ksem_getvalue(semid_t id, int *val); }
+ SYS_KSEM_DESTROY = 408 // { int ksem_destroy(semid_t id); }
+ SYS___MAC_GET_PID = 409 // { int __mac_get_pid(pid_t pid, \
+ SYS___MAC_GET_LINK = 410 // { int __mac_get_link(const char *path_p, \
+ SYS___MAC_SET_LINK = 411 // { int __mac_set_link(const char *path_p, \
+ SYS_EXTATTR_SET_LINK = 412 // { ssize_t extattr_set_link( \
+ SYS_EXTATTR_GET_LINK = 413 // { ssize_t extattr_get_link( \
+ SYS_EXTATTR_DELETE_LINK = 414 // { int extattr_delete_link( \
+ SYS___MAC_EXECVE = 415 // { int __mac_execve(char *fname, char **argv, \
+ SYS_SIGACTION = 416 // { int sigaction(int sig, \
+ SYS_SIGRETURN = 417 // { int sigreturn( \
+ SYS_GETCONTEXT = 421 // { int getcontext(struct __ucontext *ucp); }
+ SYS_SETCONTEXT = 422 // { int setcontext( \
+ SYS_SWAPCONTEXT = 423 // { int swapcontext(struct __ucontext *oucp, \
+ SYS_SWAPOFF = 424 // { int swapoff(const char *name); }
+ SYS___ACL_GET_LINK = 425 // { int __acl_get_link(const char *path, \
+ SYS___ACL_SET_LINK = 426 // { int __acl_set_link(const char *path, \
+ SYS___ACL_DELETE_LINK = 427 // { int __acl_delete_link(const char *path, \
+ SYS___ACL_ACLCHECK_LINK = 428 // { int __acl_aclcheck_link(const char *path, \
+ SYS_SIGWAIT = 429 // { int sigwait(const sigset_t *set, \
+ SYS_THR_CREATE = 430 // { int thr_create(ucontext_t *ctx, long *id, \
+ SYS_THR_EXIT = 431 // { void thr_exit(long *state); }
+ SYS_THR_SELF = 432 // { int thr_self(long *id); }
+ SYS_THR_KILL = 433 // { int thr_kill(long id, int sig); }
+ SYS__UMTX_LOCK = 434 // { int _umtx_lock(struct umtx *umtx); }
+ SYS__UMTX_UNLOCK = 435 // { int _umtx_unlock(struct umtx *umtx); }
+ SYS_JAIL_ATTACH = 436 // { int jail_attach(int jid); }
+ SYS_EXTATTR_LIST_FD = 437 // { ssize_t extattr_list_fd(int fd, \
+ SYS_EXTATTR_LIST_FILE = 438 // { ssize_t extattr_list_file( \
+ SYS_EXTATTR_LIST_LINK = 439 // { ssize_t extattr_list_link( \
+ SYS_KSEM_TIMEDWAIT = 441 // { int ksem_timedwait(semid_t id, \
+ SYS_THR_SUSPEND = 442 // { int thr_suspend( \
+ SYS_THR_WAKE = 443 // { int thr_wake(long id); }
+ SYS_KLDUNLOADF = 444 // { int kldunloadf(int fileid, int flags); }
+ SYS_AUDIT = 445 // { int audit(const void *record, \
+ SYS_AUDITON = 446 // { int auditon(int cmd, void *data, \
+ SYS_GETAUID = 447 // { int getauid(uid_t *auid); }
+ SYS_SETAUID = 448 // { int setauid(uid_t *auid); }
+ SYS_GETAUDIT = 449 // { int getaudit(struct auditinfo *auditinfo); }
+ SYS_SETAUDIT = 450 // { int setaudit(struct auditinfo *auditinfo); }
+ SYS_GETAUDIT_ADDR = 451 // { int getaudit_addr( \
+ SYS_SETAUDIT_ADDR = 452 // { int setaudit_addr( \
+ SYS_AUDITCTL = 453 // { int auditctl(char *path); }
+ SYS__UMTX_OP = 454 // { int _umtx_op(void *obj, int op, \
+ SYS_THR_NEW = 455 // { int thr_new(struct thr_param *param, \
+ SYS_SIGQUEUE = 456 // { int sigqueue(pid_t pid, int signum, void *value); }
+ SYS_KMQ_OPEN = 457 // { int kmq_open(const char *path, int flags, \
+ SYS_KMQ_SETATTR = 458 // { int kmq_setattr(int mqd, \
+ SYS_KMQ_TIMEDRECEIVE = 459 // { int kmq_timedreceive(int mqd, \
+ SYS_KMQ_TIMEDSEND = 460 // { int kmq_timedsend(int mqd, \
+ SYS_KMQ_NOTIFY = 461 // { int kmq_notify(int mqd, \
+ SYS_KMQ_UNLINK = 462 // { int kmq_unlink(const char *path); }
+ SYS_ABORT2 = 463 // { int abort2(const char *why, int nargs, void **args); }
+ SYS_THR_SET_NAME = 464 // { int thr_set_name(long id, const char *name); }
+ SYS_AIO_FSYNC = 465 // { int aio_fsync(int op, struct aiocb *aiocbp); }
+ SYS_RTPRIO_THREAD = 466 // { int rtprio_thread(int function, \
+ SYS_SCTP_PEELOFF = 471 // { int sctp_peeloff(int sd, uint32_t name); }
+ SYS_SCTP_GENERIC_SENDMSG = 472 // { int sctp_generic_sendmsg(int sd, caddr_t msg, int mlen, \
+ SYS_SCTP_GENERIC_SENDMSG_IOV = 473 // { int sctp_generic_sendmsg_iov(int sd, struct iovec *iov, int iovlen, \
+ SYS_SCTP_GENERIC_RECVMSG = 474 // { int sctp_generic_recvmsg(int sd, struct iovec *iov, int iovlen, \
+ SYS_PREAD = 475 // { ssize_t pread(int fd, void *buf, \
+ SYS_PWRITE = 476 // { ssize_t pwrite(int fd, const void *buf, \
+ SYS_MMAP = 477 // { caddr_t mmap(caddr_t addr, size_t len, \
+ SYS_LSEEK = 478 // { off_t lseek(int fd, off_t offset, \
+ SYS_TRUNCATE = 479 // { int truncate(char *path, off_t length); }
+ SYS_FTRUNCATE = 480 // { int ftruncate(int fd, off_t length); }
+ SYS_THR_KILL2 = 481 // { int thr_kill2(pid_t pid, long id, int sig); }
+ SYS_SHM_OPEN = 482 // { int shm_open(const char *path, int flags, \
+ SYS_SHM_UNLINK = 483 // { int shm_unlink(const char *path); }
+ SYS_CPUSET = 484 // { int cpuset(cpusetid_t *setid); }
+ SYS_CPUSET_SETID = 485 // { int cpuset_setid(cpuwhich_t which, id_t id, \
+ SYS_CPUSET_GETID = 486 // { int cpuset_getid(cpulevel_t level, \
+ SYS_CPUSET_GETAFFINITY = 487 // { int cpuset_getaffinity(cpulevel_t level, \
+ SYS_CPUSET_SETAFFINITY = 488 // { int cpuset_setaffinity(cpulevel_t level, \
+ SYS_FACCESSAT = 489 // { int faccessat(int fd, char *path, int amode, \
+ SYS_FCHMODAT = 490 // { int fchmodat(int fd, char *path, mode_t mode, \
+ SYS_FCHOWNAT = 491 // { int fchownat(int fd, char *path, uid_t uid, \
+ SYS_FEXECVE = 492 // { int fexecve(int fd, char **argv, \
+ SYS_FSTATAT = 493 // { int fstatat(int fd, char *path, \
+ SYS_FUTIMESAT = 494 // { int futimesat(int fd, char *path, \
+ SYS_LINKAT = 495 // { int linkat(int fd1, char *path1, int fd2, \
+ SYS_MKDIRAT = 496 // { int mkdirat(int fd, char *path, mode_t mode); }
+ SYS_MKFIFOAT = 497 // { int mkfifoat(int fd, char *path, mode_t mode); }
+ SYS_MKNODAT = 498 // { int mknodat(int fd, char *path, mode_t mode, \
+ SYS_OPENAT = 499 // { int openat(int fd, char *path, int flag, \
+ SYS_READLINKAT = 500 // { int readlinkat(int fd, char *path, char *buf, \
+ SYS_RENAMEAT = 501 // { int renameat(int oldfd, char *old, int newfd, \
+ SYS_SYMLINKAT = 502 // { int symlinkat(char *path1, int fd, \
+ SYS_UNLINKAT = 503 // { int unlinkat(int fd, char *path, int flag); }
+ SYS_POSIX_OPENPT = 504 // { int posix_openpt(int flags); }
+ SYS_GSSD_SYSCALL = 505 // { int gssd_syscall(char *path); }
+ SYS_JAIL_GET = 506 // { int jail_get(struct iovec *iovp, \
+ SYS_JAIL_SET = 507 // { int jail_set(struct iovec *iovp, \
+ SYS_JAIL_REMOVE = 508 // { int jail_remove(int jid); }
+ SYS_CLOSEFROM = 509 // { int closefrom(int lowfd); }
+ SYS___SEMCTL = 510 // { int __semctl(int semid, int semnum, \
+ SYS_MSGCTL = 511 // { int msgctl(int msqid, int cmd, \
+ SYS_SHMCTL = 512 // { int shmctl(int shmid, int cmd, \
+ SYS_LPATHCONF = 513 // { int lpathconf(char *path, int name); }
+ SYS___CAP_RIGHTS_GET = 515 // { int __cap_rights_get(int version, \
+ SYS_CAP_ENTER = 516 // { int cap_enter(void); }
+ SYS_CAP_GETMODE = 517 // { int cap_getmode(u_int *modep); }
+ SYS_PDFORK = 518 // { int pdfork(int *fdp, int flags); }
+ SYS_PDKILL = 519 // { int pdkill(int fd, int signum); }
+ SYS_PDGETPID = 520 // { int pdgetpid(int fd, pid_t *pidp); }
+ SYS_PSELECT = 522 // { int pselect(int nd, fd_set *in, \
+ SYS_GETLOGINCLASS = 523 // { int getloginclass(char *namebuf, \
+ SYS_SETLOGINCLASS = 524 // { int setloginclass(const char *namebuf); }
+ SYS_RCTL_GET_RACCT = 525 // { int rctl_get_racct(const void *inbufp, \
+ SYS_RCTL_GET_RULES = 526 // { int rctl_get_rules(const void *inbufp, \
+ SYS_RCTL_GET_LIMITS = 527 // { int rctl_get_limits(const void *inbufp, \
+ SYS_RCTL_ADD_RULE = 528 // { int rctl_add_rule(const void *inbufp, \
+ SYS_RCTL_REMOVE_RULE = 529 // { int rctl_remove_rule(const void *inbufp, \
+ SYS_POSIX_FALLOCATE = 530 // { int posix_fallocate(int fd, \
+ SYS_POSIX_FADVISE = 531 // { int posix_fadvise(int fd, off_t offset, \
+ SYS_WAIT6 = 532 // { int wait6(idtype_t idtype, id_t id, \
+ SYS_CAP_RIGHTS_LIMIT = 533 // { int cap_rights_limit(int fd, \
+ SYS_CAP_IOCTLS_LIMIT = 534 // { int cap_ioctls_limit(int fd, \
+ SYS_CAP_IOCTLS_GET = 535 // { ssize_t cap_ioctls_get(int fd, \
+ SYS_CAP_FCNTLS_LIMIT = 536 // { int cap_fcntls_limit(int fd, \
+ SYS_CAP_FCNTLS_GET = 537 // { int cap_fcntls_get(int fd, \
+ SYS_BINDAT = 538 // { int bindat(int fd, int s, caddr_t name, \
+ SYS_CONNECTAT = 539 // { int connectat(int fd, int s, caddr_t name, \
+ SYS_CHFLAGSAT = 540 // { int chflagsat(int fd, const char *path, \
+ SYS_ACCEPT4 = 541 // { int accept4(int s, \
+ SYS_PIPE2 = 542 // { int pipe2(int *fildes, int flags); }
+ SYS_AIO_MLOCK = 543 // { int aio_mlock(struct aiocb *aiocbp); }
+ SYS_PROCCTL = 544 // { int procctl(idtype_t idtype, id_t id, \
+ SYS_PPOLL = 545 // { int ppoll(struct pollfd *fds, u_int nfds, \
+ SYS_FUTIMENS = 546 // { int futimens(int fd, \
+ SYS_UTIMENSAT = 547 // { int utimensat(int fd, \
)
diff --git a/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go b/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go
new file mode 100644
index 0000000000000000000000000000000000000000..41e4fd1d3ed6fbd6beff5779476fadfe56aa3be3
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/zsysnum_linux_riscv64.go
@@ -0,0 +1,286 @@
+// linux/mksysnum.pl -Wall -Werror -static -I/tmp/include /tmp/include/asm/unistd.h
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build riscv64,linux
+
+package unix
+
+const (
+ SYS_IO_SETUP = 0
+ SYS_IO_DESTROY = 1
+ SYS_IO_SUBMIT = 2
+ SYS_IO_CANCEL = 3
+ SYS_IO_GETEVENTS = 4
+ SYS_SETXATTR = 5
+ SYS_LSETXATTR = 6
+ SYS_FSETXATTR = 7
+ SYS_GETXATTR = 8
+ SYS_LGETXATTR = 9
+ SYS_FGETXATTR = 10
+ SYS_LISTXATTR = 11
+ SYS_LLISTXATTR = 12
+ SYS_FLISTXATTR = 13
+ SYS_REMOVEXATTR = 14
+ SYS_LREMOVEXATTR = 15
+ SYS_FREMOVEXATTR = 16
+ SYS_GETCWD = 17
+ SYS_LOOKUP_DCOOKIE = 18
+ SYS_EVENTFD2 = 19
+ SYS_EPOLL_CREATE1 = 20
+ SYS_EPOLL_CTL = 21
+ SYS_EPOLL_PWAIT = 22
+ SYS_DUP = 23
+ SYS_DUP3 = 24
+ SYS_FCNTL = 25
+ SYS_INOTIFY_INIT1 = 26
+ SYS_INOTIFY_ADD_WATCH = 27
+ SYS_INOTIFY_RM_WATCH = 28
+ SYS_IOCTL = 29
+ SYS_IOPRIO_SET = 30
+ SYS_IOPRIO_GET = 31
+ SYS_FLOCK = 32
+ SYS_MKNODAT = 33
+ SYS_MKDIRAT = 34
+ SYS_UNLINKAT = 35
+ SYS_SYMLINKAT = 36
+ SYS_LINKAT = 37
+ SYS_UMOUNT2 = 39
+ SYS_MOUNT = 40
+ SYS_PIVOT_ROOT = 41
+ SYS_NFSSERVCTL = 42
+ SYS_STATFS = 43
+ SYS_FSTATFS = 44
+ SYS_TRUNCATE = 45
+ SYS_FTRUNCATE = 46
+ SYS_FALLOCATE = 47
+ SYS_FACCESSAT = 48
+ SYS_CHDIR = 49
+ SYS_FCHDIR = 50
+ SYS_CHROOT = 51
+ SYS_FCHMOD = 52
+ SYS_FCHMODAT = 53
+ SYS_FCHOWNAT = 54
+ SYS_FCHOWN = 55
+ SYS_OPENAT = 56
+ SYS_CLOSE = 57
+ SYS_VHANGUP = 58
+ SYS_PIPE2 = 59
+ SYS_QUOTACTL = 60
+ SYS_GETDENTS64 = 61
+ SYS_LSEEK = 62
+ SYS_READ = 63
+ SYS_WRITE = 64
+ SYS_READV = 65
+ SYS_WRITEV = 66
+ SYS_PREAD64 = 67
+ SYS_PWRITE64 = 68
+ SYS_PREADV = 69
+ SYS_PWRITEV = 70
+ SYS_SENDFILE = 71
+ SYS_PSELECT6 = 72
+ SYS_PPOLL = 73
+ SYS_SIGNALFD4 = 74
+ SYS_VMSPLICE = 75
+ SYS_SPLICE = 76
+ SYS_TEE = 77
+ SYS_READLINKAT = 78
+ SYS_FSTATAT = 79
+ SYS_FSTAT = 80
+ SYS_SYNC = 81
+ SYS_FSYNC = 82
+ SYS_FDATASYNC = 83
+ SYS_SYNC_FILE_RANGE = 84
+ SYS_TIMERFD_CREATE = 85
+ SYS_TIMERFD_SETTIME = 86
+ SYS_TIMERFD_GETTIME = 87
+ SYS_UTIMENSAT = 88
+ SYS_ACCT = 89
+ SYS_CAPGET = 90
+ SYS_CAPSET = 91
+ SYS_PERSONALITY = 92
+ SYS_EXIT = 93
+ SYS_EXIT_GROUP = 94
+ SYS_WAITID = 95
+ SYS_SET_TID_ADDRESS = 96
+ SYS_UNSHARE = 97
+ SYS_FUTEX = 98
+ SYS_SET_ROBUST_LIST = 99
+ SYS_GET_ROBUST_LIST = 100
+ SYS_NANOSLEEP = 101
+ SYS_GETITIMER = 102
+ SYS_SETITIMER = 103
+ SYS_KEXEC_LOAD = 104
+ SYS_INIT_MODULE = 105
+ SYS_DELETE_MODULE = 106
+ SYS_TIMER_CREATE = 107
+ SYS_TIMER_GETTIME = 108
+ SYS_TIMER_GETOVERRUN = 109
+ SYS_TIMER_SETTIME = 110
+ SYS_TIMER_DELETE = 111
+ SYS_CLOCK_SETTIME = 112
+ SYS_CLOCK_GETTIME = 113
+ SYS_CLOCK_GETRES = 114
+ SYS_CLOCK_NANOSLEEP = 115
+ SYS_SYSLOG = 116
+ SYS_PTRACE = 117
+ SYS_SCHED_SETPARAM = 118
+ SYS_SCHED_SETSCHEDULER = 119
+ SYS_SCHED_GETSCHEDULER = 120
+ SYS_SCHED_GETPARAM = 121
+ SYS_SCHED_SETAFFINITY = 122
+ SYS_SCHED_GETAFFINITY = 123
+ SYS_SCHED_YIELD = 124
+ SYS_SCHED_GET_PRIORITY_MAX = 125
+ SYS_SCHED_GET_PRIORITY_MIN = 126
+ SYS_SCHED_RR_GET_INTERVAL = 127
+ SYS_RESTART_SYSCALL = 128
+ SYS_KILL = 129
+ SYS_TKILL = 130
+ SYS_TGKILL = 131
+ SYS_SIGALTSTACK = 132
+ SYS_RT_SIGSUSPEND = 133
+ SYS_RT_SIGACTION = 134
+ SYS_RT_SIGPROCMASK = 135
+ SYS_RT_SIGPENDING = 136
+ SYS_RT_SIGTIMEDWAIT = 137
+ SYS_RT_SIGQUEUEINFO = 138
+ SYS_RT_SIGRETURN = 139
+ SYS_SETPRIORITY = 140
+ SYS_GETPRIORITY = 141
+ SYS_REBOOT = 142
+ SYS_SETREGID = 143
+ SYS_SETGID = 144
+ SYS_SETREUID = 145
+ SYS_SETUID = 146
+ SYS_SETRESUID = 147
+ SYS_GETRESUID = 148
+ SYS_SETRESGID = 149
+ SYS_GETRESGID = 150
+ SYS_SETFSUID = 151
+ SYS_SETFSGID = 152
+ SYS_TIMES = 153
+ SYS_SETPGID = 154
+ SYS_GETPGID = 155
+ SYS_GETSID = 156
+ SYS_SETSID = 157
+ SYS_GETGROUPS = 158
+ SYS_SETGROUPS = 159
+ SYS_UNAME = 160
+ SYS_SETHOSTNAME = 161
+ SYS_SETDOMAINNAME = 162
+ SYS_GETRLIMIT = 163
+ SYS_SETRLIMIT = 164
+ SYS_GETRUSAGE = 165
+ SYS_UMASK = 166
+ SYS_PRCTL = 167
+ SYS_GETCPU = 168
+ SYS_GETTIMEOFDAY = 169
+ SYS_SETTIMEOFDAY = 170
+ SYS_ADJTIMEX = 171
+ SYS_GETPID = 172
+ SYS_GETPPID = 173
+ SYS_GETUID = 174
+ SYS_GETEUID = 175
+ SYS_GETGID = 176
+ SYS_GETEGID = 177
+ SYS_GETTID = 178
+ SYS_SYSINFO = 179
+ SYS_MQ_OPEN = 180
+ SYS_MQ_UNLINK = 181
+ SYS_MQ_TIMEDSEND = 182
+ SYS_MQ_TIMEDRECEIVE = 183
+ SYS_MQ_NOTIFY = 184
+ SYS_MQ_GETSETATTR = 185
+ SYS_MSGGET = 186
+ SYS_MSGCTL = 187
+ SYS_MSGRCV = 188
+ SYS_MSGSND = 189
+ SYS_SEMGET = 190
+ SYS_SEMCTL = 191
+ SYS_SEMTIMEDOP = 192
+ SYS_SEMOP = 193
+ SYS_SHMGET = 194
+ SYS_SHMCTL = 195
+ SYS_SHMAT = 196
+ SYS_SHMDT = 197
+ SYS_SOCKET = 198
+ SYS_SOCKETPAIR = 199
+ SYS_BIND = 200
+ SYS_LISTEN = 201
+ SYS_ACCEPT = 202
+ SYS_CONNECT = 203
+ SYS_GETSOCKNAME = 204
+ SYS_GETPEERNAME = 205
+ SYS_SENDTO = 206
+ SYS_RECVFROM = 207
+ SYS_SETSOCKOPT = 208
+ SYS_GETSOCKOPT = 209
+ SYS_SHUTDOWN = 210
+ SYS_SENDMSG = 211
+ SYS_RECVMSG = 212
+ SYS_READAHEAD = 213
+ SYS_BRK = 214
+ SYS_MUNMAP = 215
+ SYS_MREMAP = 216
+ SYS_ADD_KEY = 217
+ SYS_REQUEST_KEY = 218
+ SYS_KEYCTL = 219
+ SYS_CLONE = 220
+ SYS_EXECVE = 221
+ SYS_MMAP = 222
+ SYS_FADVISE64 = 223
+ SYS_SWAPON = 224
+ SYS_SWAPOFF = 225
+ SYS_MPROTECT = 226
+ SYS_MSYNC = 227
+ SYS_MLOCK = 228
+ SYS_MUNLOCK = 229
+ SYS_MLOCKALL = 230
+ SYS_MUNLOCKALL = 231
+ SYS_MINCORE = 232
+ SYS_MADVISE = 233
+ SYS_REMAP_FILE_PAGES = 234
+ SYS_MBIND = 235
+ SYS_GET_MEMPOLICY = 236
+ SYS_SET_MEMPOLICY = 237
+ SYS_MIGRATE_PAGES = 238
+ SYS_MOVE_PAGES = 239
+ SYS_RT_TGSIGQUEUEINFO = 240
+ SYS_PERF_EVENT_OPEN = 241
+ SYS_ACCEPT4 = 242
+ SYS_RECVMMSG = 243
+ SYS_ARCH_SPECIFIC_SYSCALL = 244
+ SYS_WAIT4 = 260
+ SYS_PRLIMIT64 = 261
+ SYS_FANOTIFY_INIT = 262
+ SYS_FANOTIFY_MARK = 263
+ SYS_NAME_TO_HANDLE_AT = 264
+ SYS_OPEN_BY_HANDLE_AT = 265
+ SYS_CLOCK_ADJTIME = 266
+ SYS_SYNCFS = 267
+ SYS_SETNS = 268
+ SYS_SENDMMSG = 269
+ SYS_PROCESS_VM_READV = 270
+ SYS_PROCESS_VM_WRITEV = 271
+ SYS_KCMP = 272
+ SYS_FINIT_MODULE = 273
+ SYS_SCHED_SETATTR = 274
+ SYS_SCHED_GETATTR = 275
+ SYS_RENAMEAT2 = 276
+ SYS_SECCOMP = 277
+ SYS_GETRANDOM = 278
+ SYS_MEMFD_CREATE = 279
+ SYS_BPF = 280
+ SYS_EXECVEAT = 281
+ SYS_USERFAULTFD = 282
+ SYS_MEMBARRIER = 283
+ SYS_MLOCK2 = 284
+ SYS_COPY_FILE_RANGE = 285
+ SYS_PREADV2 = 286
+ SYS_PWRITEV2 = 287
+ SYS_PKEY_MPROTECT = 288
+ SYS_PKEY_ALLOC = 289
+ SYS_PKEY_FREE = 290
+ SYS_STATX = 291
+ SYS_IO_PGETEVENTS = 292
+)
diff --git a/vendor/golang.org/x/sys/unix/ztypes_aix_ppc.go b/vendor/golang.org/x/sys/unix/ztypes_aix_ppc.go
new file mode 100644
index 0000000000000000000000000000000000000000..f1cfe7db159b131af160c86436d84042e6b318f7
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/ztypes_aix_ppc.go
@@ -0,0 +1,345 @@
+// cgo -godefs types_aix.go | go run mkpost.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build ppc,aix
+
+package unix
+
+const (
+ sizeofPtr = 0x4
+ sizeofShort = 0x2
+ sizeofInt = 0x4
+ sizeofLong = 0x4
+ sizeofLongLong = 0x8
+ PathMax = 0x3ff
+)
+
+type (
+ _C_short int16
+ _C_int int32
+ _C_long int32
+ _C_long_long int64
+)
+
+type off64 int64
+type off int32
+type Mode_t uint32
+
+type Timespec struct {
+ Sec int32
+ Nsec int32
+}
+
+type StTimespec struct {
+ Sec int32
+ Nsec int32
+}
+
+type Timeval struct {
+ Sec int32
+ Usec int32
+}
+
+type Timeval32 struct {
+ Sec int32
+ Usec int32
+}
+
+type Timex struct{}
+
+type Time_t int32
+
+type Tms struct{}
+
+type Utimbuf struct {
+ Actime int32
+ Modtime int32
+}
+
+type Timezone struct {
+ Minuteswest int32
+ Dsttime int32
+}
+
+type Rusage struct {
+ Utime Timeval
+ Stime Timeval
+ Maxrss int32
+ Ixrss int32
+ Idrss int32
+ Isrss int32
+ Minflt int32
+ Majflt int32
+ Nswap int32
+ Inblock int32
+ Oublock int32
+ Msgsnd int32
+ Msgrcv int32
+ Nsignals int32
+ Nvcsw int32
+ Nivcsw int32
+}
+
+type Rlimit struct {
+ Cur uint64
+ Max uint64
+}
+
+type Pid_t int32
+
+type _Gid_t uint32
+
+type dev_t uint32
+
+type Stat_t struct {
+ Dev uint32
+ Ino uint32
+ Mode uint32
+ Nlink int16
+ Flag uint16
+ Uid uint32
+ Gid uint32
+ Rdev uint32
+ Size int32
+ Atim StTimespec
+ Mtim StTimespec
+ Ctim StTimespec
+ Blksize int32
+ Blocks int32
+ Vfstype int32
+ Vfs uint32
+ Type uint32
+ Gen uint32
+ Reserved [9]uint32
+}
+
+type StatxTimestamp struct{}
+
+type Statx_t struct{}
+
+type Dirent struct {
+ Offset uint32
+ Ino uint32
+ Reclen uint16
+ Namlen uint16
+ Name [256]uint8
+}
+
+type RawSockaddrInet4 struct {
+ Len uint8
+ Family uint8
+ Port uint16
+ Addr [4]byte /* in_addr */
+ Zero [8]uint8
+}
+
+type RawSockaddrInet6 struct {
+ Len uint8
+ Family uint8
+ Port uint16
+ Flowinfo uint32
+ Addr [16]byte /* in6_addr */
+ Scope_id uint32
+}
+
+type RawSockaddrUnix struct {
+ Len uint8
+ Family uint8
+ Path [1023]uint8
+}
+
+type RawSockaddr struct {
+ Len uint8
+ Family uint8
+ Data [14]uint8
+}
+
+type RawSockaddrAny struct {
+ Addr RawSockaddr
+ Pad [1012]uint8
+}
+
+type _Socklen uint32
+
+type Cmsghdr struct {
+ Len uint32
+ Level int32
+ Type int32
+}
+
+type ICMPv6Filter struct {
+ Filt [8]uint32
+}
+
+type Iovec struct {
+ Base *byte
+ Len uint32
+}
+
+type IPMreq struct {
+ Multiaddr [4]byte /* in_addr */
+ Interface [4]byte /* in_addr */
+}
+
+type IPv6Mreq struct {
+ Multiaddr [16]byte /* in6_addr */
+ Interface uint32
+}
+
+type IPv6MTUInfo struct {
+ Addr RawSockaddrInet6
+ Mtu uint32
+}
+
+type Linger struct {
+ Onoff int32
+ Linger int32
+}
+
+type Msghdr struct {
+ Name *byte
+ Namelen uint32
+ Iov *Iovec
+ Iovlen int32
+ Control *byte
+ Controllen uint32
+ Flags int32
+}
+
+const (
+ SizeofSockaddrInet4 = 0x10
+ SizeofSockaddrInet6 = 0x1c
+ SizeofSockaddrAny = 0x404
+ SizeofSockaddrUnix = 0x401
+ SizeofLinger = 0x8
+ SizeofIPMreq = 0x8
+ SizeofIPv6Mreq = 0x14
+ SizeofIPv6MTUInfo = 0x20
+ SizeofMsghdr = 0x1c
+ SizeofCmsghdr = 0xc
+ SizeofICMPv6Filter = 0x20
+)
+
+const (
+ SizeofIfMsghdr = 0x10
+)
+
+type IfMsgHdr struct {
+ Msglen uint16
+ Version uint8
+ Type uint8
+ Addrs int32
+ Flags int32
+ Index uint16
+ Addrlen uint8
+ _ [1]byte
+}
+
+type FdSet struct {
+ Bits [2048]int32
+}
+
+type Utsname struct {
+ Sysname [32]byte
+ Nodename [32]byte
+ Release [32]byte
+ Version [32]byte
+ Machine [32]byte
+}
+
+type Ustat_t struct{}
+
+type Sigset_t struct {
+ Losigs uint32
+ Hisigs uint32
+}
+
+const (
+ AT_FDCWD = -0x2
+ AT_REMOVEDIR = 0x1
+ AT_SYMLINK_NOFOLLOW = 0x1
+)
+
+type Termios struct {
+ Iflag uint32
+ Oflag uint32
+ Cflag uint32
+ Lflag uint32
+ Cc [16]uint8
+}
+
+type Termio struct {
+ Iflag uint16
+ Oflag uint16
+ Cflag uint16
+ Lflag uint16
+ Line uint8
+ Cc [8]uint8
+ _ [1]byte
+}
+
+type Winsize struct {
+ Row uint16
+ Col uint16
+ Xpixel uint16
+ Ypixel uint16
+}
+
+type PollFd struct {
+ Fd int32
+ Events uint16
+ Revents uint16
+}
+
+const (
+ POLLERR = 0x4000
+ POLLHUP = 0x2000
+ POLLIN = 0x1
+ POLLNVAL = 0x8000
+ POLLOUT = 0x2
+ POLLPRI = 0x4
+ POLLRDBAND = 0x20
+ POLLRDNORM = 0x10
+ POLLWRBAND = 0x40
+ POLLWRNORM = 0x2
+)
+
+type Flock_t struct {
+ Type int16
+ Whence int16
+ Sysid uint32
+ Pid int32
+ Vfs int32
+ Start int64
+ Len int64
+}
+
+type Fsid_t struct {
+ Val [2]uint32
+}
+type Fsid64_t struct {
+ Val [2]uint64
+}
+
+type Statfs_t struct {
+ Version int32
+ Type int32
+ Bsize uint32
+ Blocks uint32
+ Bfree uint32
+ Bavail uint32
+ Files uint32
+ Ffree uint32
+ Fsid Fsid_t
+ Vfstype int32
+ Fsize uint32
+ Vfsnumber int32
+ Vfsoff int32
+ Vfslen int32
+ Vfsvers int32
+ Fname [32]uint8
+ Fpack [32]uint8
+ Name_max int32
+}
+
+const RNDGETENTCNT = 0x80045200
diff --git a/vendor/golang.org/x/sys/unix/ztypes_aix_ppc64.go b/vendor/golang.org/x/sys/unix/ztypes_aix_ppc64.go
new file mode 100644
index 0000000000000000000000000000000000000000..95581a3bc3e925c07bef988607aec1d8c7474e88
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/ztypes_aix_ppc64.go
@@ -0,0 +1,354 @@
+// cgo -godefs types_aix.go | go run mkpost.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build ppc64,aix
+
+package unix
+
+const (
+ sizeofPtr = 0x8
+ sizeofShort = 0x2
+ sizeofInt = 0x4
+ sizeofLong = 0x8
+ sizeofLongLong = 0x8
+ PathMax = 0x3ff
+)
+
+type (
+ _C_short int16
+ _C_int int32
+ _C_long int64
+ _C_long_long int64
+)
+
+type off64 int64
+type off int64
+type Mode_t uint32
+
+type Timespec struct {
+ Sec int64
+ Nsec int64
+}
+
+type StTimespec struct {
+ Sec int64
+ Nsec int32
+ _ [4]byte
+}
+
+type Timeval struct {
+ Sec int64
+ Usec int32
+ _ [4]byte
+}
+
+type Timeval32 struct {
+ Sec int32
+ Usec int32
+}
+
+type Timex struct{}
+
+type Time_t int64
+
+type Tms struct{}
+
+type Utimbuf struct {
+ Actime int64
+ Modtime int64
+}
+
+type Timezone struct {
+ Minuteswest int32
+ Dsttime int32
+}
+
+type Rusage struct {
+ Utime Timeval
+ Stime Timeval
+ Maxrss int64
+ Ixrss int64
+ Idrss int64
+ Isrss int64
+ Minflt int64
+ Majflt int64
+ Nswap int64
+ Inblock int64
+ Oublock int64
+ Msgsnd int64
+ Msgrcv int64
+ Nsignals int64
+ Nvcsw int64
+ Nivcsw int64
+}
+
+type Rlimit struct {
+ Cur uint64
+ Max uint64
+}
+
+type Pid_t int32
+
+type _Gid_t uint32
+
+type dev_t uint64
+
+type Stat_t struct {
+ Dev uint64
+ Ino uint64
+ Mode uint32
+ Nlink int16
+ Flag uint16
+ Uid uint32
+ Gid uint32
+ Rdev uint64
+ Ssize int32
+ _ [4]byte
+ Atim StTimespec
+ Mtim StTimespec
+ Ctim StTimespec
+ Blksize int64
+ Blocks int64
+ Vfstype int32
+ Vfs uint32
+ Type uint32
+ Gen uint32
+ Reserved [9]uint32
+ Padto_ll uint32
+ Size int64
+}
+
+type StatxTimestamp struct{}
+
+type Statx_t struct{}
+
+type Dirent struct {
+ Offset uint64
+ Ino uint64
+ Reclen uint16
+ Namlen uint16
+ Name [256]uint8
+ _ [4]byte
+}
+
+type RawSockaddrInet4 struct {
+ Len uint8
+ Family uint8
+ Port uint16
+ Addr [4]byte /* in_addr */
+ Zero [8]uint8
+}
+
+type RawSockaddrInet6 struct {
+ Len uint8
+ Family uint8
+ Port uint16
+ Flowinfo uint32
+ Addr [16]byte /* in6_addr */
+ Scope_id uint32
+}
+
+type RawSockaddrUnix struct {
+ Len uint8
+ Family uint8
+ Path [1023]uint8
+}
+
+type RawSockaddr struct {
+ Len uint8
+ Family uint8
+ Data [14]uint8
+}
+
+type RawSockaddrAny struct {
+ Addr RawSockaddr
+ Pad [1012]uint8
+}
+
+type _Socklen uint32
+
+type Cmsghdr struct {
+ Len uint32
+ Level int32
+ Type int32
+}
+
+type ICMPv6Filter struct {
+ Filt [8]uint32
+}
+
+type Iovec struct {
+ Base *byte
+ Len uint64
+}
+
+type IPMreq struct {
+ Multiaddr [4]byte /* in_addr */
+ Interface [4]byte /* in_addr */
+}
+
+type IPv6Mreq struct {
+ Multiaddr [16]byte /* in6_addr */
+ Interface uint32
+}
+
+type IPv6MTUInfo struct {
+ Addr RawSockaddrInet6
+ Mtu uint32
+}
+
+type Linger struct {
+ Onoff int32
+ Linger int32
+}
+
+type Msghdr struct {
+ Name *byte
+ Namelen uint32
+ _ [4]byte
+ Iov *Iovec
+ Iovlen int32
+ _ [4]byte
+ Control *byte
+ Controllen uint32
+ Flags int32
+}
+
+const (
+ SizeofSockaddrInet4 = 0x10
+ SizeofSockaddrInet6 = 0x1c
+ SizeofSockaddrAny = 0x404
+ SizeofSockaddrUnix = 0x401
+ SizeofLinger = 0x8
+ SizeofIPMreq = 0x8
+ SizeofIPv6Mreq = 0x14
+ SizeofIPv6MTUInfo = 0x20
+ SizeofMsghdr = 0x30
+ SizeofCmsghdr = 0xc
+ SizeofICMPv6Filter = 0x20
+)
+
+const (
+ SizeofIfMsghdr = 0x10
+)
+
+type IfMsgHdr struct {
+ Msglen uint16
+ Version uint8
+ Type uint8
+ Addrs int32
+ Flags int32
+ Index uint16
+ Addrlen uint8
+ _ [1]byte
+}
+
+type FdSet struct {
+ Bits [1024]int64
+}
+
+type Utsname struct {
+ Sysname [32]byte
+ Nodename [32]byte
+ Release [32]byte
+ Version [32]byte
+ Machine [32]byte
+}
+
+type Ustat_t struct{}
+
+type Sigset_t struct {
+ Set [4]uint64
+}
+
+const (
+ AT_FDCWD = -0x2
+ AT_REMOVEDIR = 0x1
+ AT_SYMLINK_NOFOLLOW = 0x1
+)
+
+type Termios struct {
+ Iflag uint32
+ Oflag uint32
+ Cflag uint32
+ Lflag uint32
+ Cc [16]uint8
+}
+
+type Termio struct {
+ Iflag uint16
+ Oflag uint16
+ Cflag uint16
+ Lflag uint16
+ Line uint8
+ Cc [8]uint8
+ _ [1]byte
+}
+
+type Winsize struct {
+ Row uint16
+ Col uint16
+ Xpixel uint16
+ Ypixel uint16
+}
+
+type PollFd struct {
+ Fd int32
+ Events uint16
+ Revents uint16
+}
+
+const (
+ POLLERR = 0x4000
+ POLLHUP = 0x2000
+ POLLIN = 0x1
+ POLLNVAL = 0x8000
+ POLLOUT = 0x2
+ POLLPRI = 0x4
+ POLLRDBAND = 0x20
+ POLLRDNORM = 0x10
+ POLLWRBAND = 0x40
+ POLLWRNORM = 0x2
+)
+
+type Flock_t struct {
+ Type int16
+ Whence int16
+ Sysid uint32
+ Pid int32
+ Vfs int32
+ Start int64
+ Len int64
+}
+
+type Fsid_t struct {
+ Val [2]uint32
+}
+type Fsid64_t struct {
+ Val [2]uint64
+}
+
+type Statfs_t struct {
+ Version int32
+ Type int32
+ Bsize uint64
+ Blocks uint64
+ Bfree uint64
+ Bavail uint64
+ Files uint64
+ Ffree uint64
+ Fsid Fsid64_t
+ Vfstype int32
+ _ [4]byte
+ Fsize uint64
+ Vfsnumber int32
+ Vfsoff int32
+ Vfslen int32
+ Vfsvers int32
+ Fname [32]uint8
+ Fpack [32]uint8
+ Name_max int32
+ _ [4]byte
+}
+
+const RNDGETENTCNT = 0x80045200
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_386.go b/vendor/golang.org/x/sys/unix/ztypes_linux_386.go
index cb3729eabb6ff560fb3675bb56bfb79a96586b14..964931716ffb425d7dbdda1700bd6ae9ce4db666 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_386.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_386.go
@@ -510,6 +510,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_amd64.go b/vendor/golang.org/x/sys/unix/ztypes_linux_amd64.go
index 0f3c0fb5454f9b185981e414f217694898614dc4..5408e882ff248acdb15bcbcad82703483d07a6cd 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_amd64.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_amd64.go
@@ -514,6 +514,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_arm.go b/vendor/golang.org/x/sys/unix/ztypes_linux_arm.go
index bd534da8775e648f932854ff1330d2c4d2ee4ec4..5c7c0522e38bd1d1537a55417f26fd56e523f98a 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_arm.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_arm.go
@@ -513,6 +513,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_arm64.go b/vendor/golang.org/x/sys/unix/ztypes_linux_arm64.go
index 3a72fd9f10030c80cefad17d8e28b516f1fe7d7c..99192a278f1d3f6f83b908c1c44db58fabc20812 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_arm64.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_arm64.go
@@ -515,6 +515,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_mips.go b/vendor/golang.org/x/sys/unix/ztypes_linux_mips.go
index cd360b2709dfe14cbbf4f55a829ec232a7b9fba0..97fd2a33fd1db6f095fbad49165869f2ba91f64f 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_mips.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_mips.go
@@ -511,6 +511,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_mips64.go b/vendor/golang.org/x/sys/unix/ztypes_linux_mips64.go
index d35ec6022737c5a7532378ce7c2dd94c388af762..af9246838cb5c0ee8e2c7f336b8b5f6e2459a13d 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_mips64.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_mips64.go
@@ -515,6 +515,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_mips64le.go b/vendor/golang.org/x/sys/unix/ztypes_linux_mips64le.go
index 0f4993024b89128ddb3fee66065958f53e3d96df..835e8e3702735d0f22450ff99c079eaff5fcf2c3 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_mips64le.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_mips64le.go
@@ -515,6 +515,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_mipsle.go b/vendor/golang.org/x/sys/unix/ztypes_linux_mipsle.go
index 55f97c5cc410a849df37cba933c21a23d59a273f..17190b24d3d0e793e85c520f0c2a4c6eee394438 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_mipsle.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_mipsle.go
@@ -511,6 +511,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64.go b/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64.go
index f1d426445345590288f660ec2e37513fed8dd8a9..17d8283fb582758a4c72834aad8d6751872563d9 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64.go
@@ -516,6 +516,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64le.go b/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64le.go
index 90ab1f7afee6f6ccf48ab8e9d394a0bcf03f50cf..19bda5bf5ac1d0d272aca46694c2c26c96122503 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64le.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_ppc64le.go
@@ -516,6 +516,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_riscv64.go b/vendor/golang.org/x/sys/unix/ztypes_linux_riscv64.go
new file mode 100644
index 0000000000000000000000000000000000000000..97875c3f7760c94436ee1343aa5cc883b4ba5ad0
--- /dev/null
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_riscv64.go
@@ -0,0 +1,1926 @@
+// cgo -godefs -- -Wall -Werror -static -I/tmp/include linux/types.go | go run mkpost.go
+// Code generated by the command above; see README.md. DO NOT EDIT.
+
+// +build riscv64,linux
+
+package unix
+
+const (
+ sizeofPtr = 0x8
+ sizeofShort = 0x2
+ sizeofInt = 0x4
+ sizeofLong = 0x8
+ sizeofLongLong = 0x8
+ PathMax = 0x1000
+)
+
+type (
+ _C_short int16
+ _C_int int32
+ _C_long int64
+ _C_long_long int64
+)
+
+type Timespec struct {
+ Sec int64
+ Nsec int64
+}
+
+type Timeval struct {
+ Sec int64
+ Usec int64
+}
+
+type Timex struct {
+ Modes uint32
+ _ [4]byte
+ Offset int64
+ Freq int64
+ Maxerror int64
+ Esterror int64
+ Status int32
+ _ [4]byte
+ Constant int64
+ Precision int64
+ Tolerance int64
+ Time Timeval
+ Tick int64
+ Ppsfreq int64
+ Jitter int64
+ Shift int32
+ _ [4]byte
+ Stabil int64
+ Jitcnt int64
+ Calcnt int64
+ Errcnt int64
+ Stbcnt int64
+ Tai int32
+ _ [44]byte
+}
+
+type Time_t int64
+
+type Tms struct {
+ Utime int64
+ Stime int64
+ Cutime int64
+ Cstime int64
+}
+
+type Utimbuf struct {
+ Actime int64
+ Modtime int64
+}
+
+type Rusage struct {
+ Utime Timeval
+ Stime Timeval
+ Maxrss int64
+ Ixrss int64
+ Idrss int64
+ Isrss int64
+ Minflt int64
+ Majflt int64
+ Nswap int64
+ Inblock int64
+ Oublock int64
+ Msgsnd int64
+ Msgrcv int64
+ Nsignals int64
+ Nvcsw int64
+ Nivcsw int64
+}
+
+type Rlimit struct {
+ Cur uint64
+ Max uint64
+}
+
+type _Gid_t uint32
+
+type Stat_t struct {
+ Dev uint64
+ Ino uint64
+ Mode uint32
+ Nlink uint32
+ Uid uint32
+ Gid uint32
+ Rdev uint64
+ _ uint64
+ Size int64
+ Blksize int32
+ _ int32
+ Blocks int64
+ Atim Timespec
+ Mtim Timespec
+ Ctim Timespec
+ _ [2]int32
+}
+
+type StatxTimestamp struct {
+ Sec int64
+ Nsec uint32
+ _ int32
+}
+
+type Statx_t struct {
+ Mask uint32
+ Blksize uint32
+ Attributes uint64
+ Nlink uint32
+ Uid uint32
+ Gid uint32
+ Mode uint16
+ _ [1]uint16
+ Ino uint64
+ Size uint64
+ Blocks uint64
+ Attributes_mask uint64
+ Atime StatxTimestamp
+ Btime StatxTimestamp
+ Ctime StatxTimestamp
+ Mtime StatxTimestamp
+ Rdev_major uint32
+ Rdev_minor uint32
+ Dev_major uint32
+ Dev_minor uint32
+ _ [14]uint64
+}
+
+type Dirent struct {
+ Ino uint64
+ Off int64
+ Reclen uint16
+ Type uint8
+ Name [256]uint8
+ _ [5]byte
+}
+
+type Fsid struct {
+ Val [2]int32
+}
+
+type Flock_t struct {
+ Type int16
+ Whence int16
+ _ [4]byte
+ Start int64
+ Len int64
+ Pid int32
+ _ [4]byte
+}
+
+type FscryptPolicy struct {
+ Version uint8
+ Contents_encryption_mode uint8
+ Filenames_encryption_mode uint8
+ Flags uint8
+ Master_key_descriptor [8]uint8
+}
+
+type FscryptKey struct {
+ Mode uint32
+ Raw [64]uint8
+ Size uint32
+}
+
+type KeyctlDHParams struct {
+ Private int32
+ Prime int32
+ Base int32
+}
+
+const (
+ FADV_NORMAL = 0x0
+ FADV_RANDOM = 0x1
+ FADV_SEQUENTIAL = 0x2
+ FADV_WILLNEED = 0x3
+ FADV_DONTNEED = 0x4
+ FADV_NOREUSE = 0x5
+)
+
+type RawSockaddrInet4 struct {
+ Family uint16
+ Port uint16
+ Addr [4]byte /* in_addr */
+ Zero [8]uint8
+}
+
+type RawSockaddrInet6 struct {
+ Family uint16
+ Port uint16
+ Flowinfo uint32
+ Addr [16]byte /* in6_addr */
+ Scope_id uint32
+}
+
+type RawSockaddrUnix struct {
+ Family uint16
+ Path [108]uint8
+}
+
+type RawSockaddrLinklayer struct {
+ Family uint16
+ Protocol uint16
+ Ifindex int32
+ Hatype uint16
+ Pkttype uint8
+ Halen uint8
+ Addr [8]uint8
+}
+
+type RawSockaddrNetlink struct {
+ Family uint16
+ Pad uint16
+ Pid uint32
+ Groups uint32
+}
+
+type RawSockaddrHCI struct {
+ Family uint16
+ Dev uint16
+ Channel uint16
+}
+
+type RawSockaddrL2 struct {
+ Family uint16
+ Psm uint16
+ Bdaddr [6]uint8
+ Cid uint16
+ Bdaddr_type uint8
+ _ [1]byte
+}
+
+type RawSockaddrRFCOMM struct {
+ Family uint16
+ Bdaddr [6]uint8
+ Channel uint8
+ _ [1]byte
+}
+
+type RawSockaddrCAN struct {
+ Family uint16
+ _ [2]byte
+ Ifindex int32
+ Addr [8]byte
+}
+
+type RawSockaddrALG struct {
+ Family uint16
+ Type [14]uint8
+ Feat uint32
+ Mask uint32
+ Name [64]uint8
+}
+
+type RawSockaddrVM struct {
+ Family uint16
+ Reserved1 uint16
+ Port uint32
+ Cid uint32
+ Zero [4]uint8
+}
+
+type RawSockaddr struct {
+ Family uint16
+ Data [14]uint8
+}
+
+type RawSockaddrAny struct {
+ Addr RawSockaddr
+ Pad [96]uint8
+}
+
+type _Socklen uint32
+
+type Linger struct {
+ Onoff int32
+ Linger int32
+}
+
+type Iovec struct {
+ Base *byte
+ Len uint64
+}
+
+type IPMreq struct {
+ Multiaddr [4]byte /* in_addr */
+ Interface [4]byte /* in_addr */
+}
+
+type IPMreqn struct {
+ Multiaddr [4]byte /* in_addr */
+ Address [4]byte /* in_addr */
+ Ifindex int32
+}
+
+type IPv6Mreq struct {
+ Multiaddr [16]byte /* in6_addr */
+ Interface uint32
+}
+
+type PacketMreq struct {
+ Ifindex int32
+ Type uint16
+ Alen uint16
+ Address [8]uint8
+}
+
+type Msghdr struct {
+ Name *byte
+ Namelen uint32
+ _ [4]byte
+ Iov *Iovec
+ Iovlen uint64
+ Control *byte
+ Controllen uint64
+ Flags int32
+ _ [4]byte
+}
+
+type Cmsghdr struct {
+ Len uint64
+ Level int32
+ Type int32
+}
+
+type Inet4Pktinfo struct {
+ Ifindex int32
+ Spec_dst [4]byte /* in_addr */
+ Addr [4]byte /* in_addr */
+}
+
+type Inet6Pktinfo struct {
+ Addr [16]byte /* in6_addr */
+ Ifindex uint32
+}
+
+type IPv6MTUInfo struct {
+ Addr RawSockaddrInet6
+ Mtu uint32
+}
+
+type ICMPv6Filter struct {
+ Data [8]uint32
+}
+
+type Ucred struct {
+ Pid int32
+ Uid uint32
+ Gid uint32
+}
+
+type TCPInfo struct {
+ State uint8
+ Ca_state uint8
+ Retransmits uint8
+ Probes uint8
+ Backoff uint8
+ Options uint8
+ _ [2]byte
+ Rto uint32
+ Ato uint32
+ Snd_mss uint32
+ Rcv_mss uint32
+ Unacked uint32
+ Sacked uint32
+ Lost uint32
+ Retrans uint32
+ Fackets uint32
+ Last_data_sent uint32
+ Last_ack_sent uint32
+ Last_data_recv uint32
+ Last_ack_recv uint32
+ Pmtu uint32
+ Rcv_ssthresh uint32
+ Rtt uint32
+ Rttvar uint32
+ Snd_ssthresh uint32
+ Snd_cwnd uint32
+ Advmss uint32
+ Reordering uint32
+ Rcv_rtt uint32
+ Rcv_space uint32
+ Total_retrans uint32
+}
+
+const (
+ SizeofSockaddrInet4 = 0x10
+ SizeofSockaddrInet6 = 0x1c
+ SizeofSockaddrAny = 0x70
+ SizeofSockaddrUnix = 0x6e
+ SizeofSockaddrLinklayer = 0x14
+ SizeofSockaddrNetlink = 0xc
+ SizeofSockaddrHCI = 0x6
+ SizeofSockaddrL2 = 0xe
+ SizeofSockaddrRFCOMM = 0xa
+ SizeofSockaddrCAN = 0x10
+ SizeofSockaddrALG = 0x58
+ SizeofSockaddrVM = 0x10
+ SizeofLinger = 0x8
+ SizeofIovec = 0x10
+ SizeofIPMreq = 0x8
+ SizeofIPMreqn = 0xc
+ SizeofIPv6Mreq = 0x14
+ SizeofPacketMreq = 0x10
+ SizeofMsghdr = 0x38
+ SizeofCmsghdr = 0x10
+ SizeofInet4Pktinfo = 0xc
+ SizeofInet6Pktinfo = 0x14
+ SizeofIPv6MTUInfo = 0x20
+ SizeofICMPv6Filter = 0x20
+ SizeofUcred = 0xc
+ SizeofTCPInfo = 0x68
+)
+
+const (
+ IFA_UNSPEC = 0x0
+ IFA_ADDRESS = 0x1
+ IFA_LOCAL = 0x2
+ IFA_LABEL = 0x3
+ IFA_BROADCAST = 0x4
+ IFA_ANYCAST = 0x5
+ IFA_CACHEINFO = 0x6
+ IFA_MULTICAST = 0x7
+ IFLA_UNSPEC = 0x0
+ IFLA_ADDRESS = 0x1
+ IFLA_BROADCAST = 0x2
+ IFLA_IFNAME = 0x3
+ IFLA_INFO_KIND = 0x1
+ IFLA_MTU = 0x4
+ IFLA_LINK = 0x5
+ IFLA_QDISC = 0x6
+ IFLA_STATS = 0x7
+ IFLA_COST = 0x8
+ IFLA_PRIORITY = 0x9
+ IFLA_MASTER = 0xa
+ IFLA_WIRELESS = 0xb
+ IFLA_PROTINFO = 0xc
+ IFLA_TXQLEN = 0xd
+ IFLA_MAP = 0xe
+ IFLA_WEIGHT = 0xf
+ IFLA_OPERSTATE = 0x10
+ IFLA_LINKMODE = 0x11
+ IFLA_LINKINFO = 0x12
+ IFLA_NET_NS_PID = 0x13
+ IFLA_IFALIAS = 0x14
+ IFLA_NUM_VF = 0x15
+ IFLA_VFINFO_LIST = 0x16
+ IFLA_STATS64 = 0x17
+ IFLA_VF_PORTS = 0x18
+ IFLA_PORT_SELF = 0x19
+ IFLA_AF_SPEC = 0x1a
+ IFLA_GROUP = 0x1b
+ IFLA_NET_NS_FD = 0x1c
+ IFLA_EXT_MASK = 0x1d
+ IFLA_PROMISCUITY = 0x1e
+ IFLA_NUM_TX_QUEUES = 0x1f
+ IFLA_NUM_RX_QUEUES = 0x20
+ IFLA_CARRIER = 0x21
+ IFLA_PHYS_PORT_ID = 0x22
+ IFLA_CARRIER_CHANGES = 0x23
+ IFLA_PHYS_SWITCH_ID = 0x24
+ IFLA_LINK_NETNSID = 0x25
+ IFLA_PHYS_PORT_NAME = 0x26
+ IFLA_PROTO_DOWN = 0x27
+ IFLA_GSO_MAX_SEGS = 0x28
+ IFLA_GSO_MAX_SIZE = 0x29
+ IFLA_PAD = 0x2a
+ IFLA_XDP = 0x2b
+ IFLA_EVENT = 0x2c
+ IFLA_NEW_NETNSID = 0x2d
+ IFLA_IF_NETNSID = 0x2e
+ IFLA_MAX = 0x31
+ RT_SCOPE_UNIVERSE = 0x0
+ RT_SCOPE_SITE = 0xc8
+ RT_SCOPE_LINK = 0xfd
+ RT_SCOPE_HOST = 0xfe
+ RT_SCOPE_NOWHERE = 0xff
+ RT_TABLE_UNSPEC = 0x0
+ RT_TABLE_COMPAT = 0xfc
+ RT_TABLE_DEFAULT = 0xfd
+ RT_TABLE_MAIN = 0xfe
+ RT_TABLE_LOCAL = 0xff
+ RT_TABLE_MAX = 0xffffffff
+ RTA_UNSPEC = 0x0
+ RTA_DST = 0x1
+ RTA_SRC = 0x2
+ RTA_IIF = 0x3
+ RTA_OIF = 0x4
+ RTA_GATEWAY = 0x5
+ RTA_PRIORITY = 0x6
+ RTA_PREFSRC = 0x7
+ RTA_METRICS = 0x8
+ RTA_MULTIPATH = 0x9
+ RTA_FLOW = 0xb
+ RTA_CACHEINFO = 0xc
+ RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
+ RTN_UNSPEC = 0x0
+ RTN_UNICAST = 0x1
+ RTN_LOCAL = 0x2
+ RTN_BROADCAST = 0x3
+ RTN_ANYCAST = 0x4
+ RTN_MULTICAST = 0x5
+ RTN_BLACKHOLE = 0x6
+ RTN_UNREACHABLE = 0x7
+ RTN_PROHIBIT = 0x8
+ RTN_THROW = 0x9
+ RTN_NAT = 0xa
+ RTN_XRESOLVE = 0xb
+ RTNLGRP_NONE = 0x0
+ RTNLGRP_LINK = 0x1
+ RTNLGRP_NOTIFY = 0x2
+ RTNLGRP_NEIGH = 0x3
+ RTNLGRP_TC = 0x4
+ RTNLGRP_IPV4_IFADDR = 0x5
+ RTNLGRP_IPV4_MROUTE = 0x6
+ RTNLGRP_IPV4_ROUTE = 0x7
+ RTNLGRP_IPV4_RULE = 0x8
+ RTNLGRP_IPV6_IFADDR = 0x9
+ RTNLGRP_IPV6_MROUTE = 0xa
+ RTNLGRP_IPV6_ROUTE = 0xb
+ RTNLGRP_IPV6_IFINFO = 0xc
+ RTNLGRP_IPV6_PREFIX = 0x12
+ RTNLGRP_IPV6_RULE = 0x13
+ RTNLGRP_ND_USEROPT = 0x14
+ SizeofNlMsghdr = 0x10
+ SizeofNlMsgerr = 0x14
+ SizeofRtGenmsg = 0x1
+ SizeofNlAttr = 0x4
+ SizeofRtAttr = 0x4
+ SizeofIfInfomsg = 0x10
+ SizeofIfAddrmsg = 0x8
+ SizeofRtMsg = 0xc
+ SizeofRtNexthop = 0x8
+)
+
+type NlMsghdr struct {
+ Len uint32
+ Type uint16
+ Flags uint16
+ Seq uint32
+ Pid uint32
+}
+
+type NlMsgerr struct {
+ Error int32
+ Msg NlMsghdr
+}
+
+type RtGenmsg struct {
+ Family uint8
+}
+
+type NlAttr struct {
+ Len uint16
+ Type uint16
+}
+
+type RtAttr struct {
+ Len uint16
+ Type uint16
+}
+
+type IfInfomsg struct {
+ Family uint8
+ _ uint8
+ Type uint16
+ Index int32
+ Flags uint32
+ Change uint32
+}
+
+type IfAddrmsg struct {
+ Family uint8
+ Prefixlen uint8
+ Flags uint8
+ Scope uint8
+ Index uint32
+}
+
+type RtMsg struct {
+ Family uint8
+ Dst_len uint8
+ Src_len uint8
+ Tos uint8
+ Table uint8
+ Protocol uint8
+ Scope uint8
+ Type uint8
+ Flags uint32
+}
+
+type RtNexthop struct {
+ Len uint16
+ Flags uint8
+ Hops uint8
+ Ifindex int32
+}
+
+const (
+ SizeofSockFilter = 0x8
+ SizeofSockFprog = 0x10
+)
+
+type SockFilter struct {
+ Code uint16
+ Jt uint8
+ Jf uint8
+ K uint32
+}
+
+type SockFprog struct {
+ Len uint16
+ _ [6]byte
+ Filter *SockFilter
+}
+
+type InotifyEvent struct {
+ Wd int32
+ Mask uint32
+ Cookie uint32
+ Len uint32
+}
+
+const SizeofInotifyEvent = 0x10
+
+type PtraceRegs struct {
+ Pc uint64
+ Ra uint64
+ Sp uint64
+ Gp uint64
+ Tp uint64
+ T0 uint64
+ T1 uint64
+ T2 uint64
+ S0 uint64
+ S1 uint64
+ A0 uint64
+ A1 uint64
+ A2 uint64
+ A3 uint64
+ A4 uint64
+ A5 uint64
+ A6 uint64
+ A7 uint64
+ S2 uint64
+ S3 uint64
+ S4 uint64
+ S5 uint64
+ S6 uint64
+ S7 uint64
+ S8 uint64
+ S9 uint64
+ S10 uint64
+ S11 uint64
+ T3 uint64
+ T4 uint64
+ T5 uint64
+ T6 uint64
+}
+
+type FdSet struct {
+ Bits [16]int64
+}
+
+type Sysinfo_t struct {
+ Uptime int64
+ Loads [3]uint64
+ Totalram uint64
+ Freeram uint64
+ Sharedram uint64
+ Bufferram uint64
+ Totalswap uint64
+ Freeswap uint64
+ Procs uint16
+ Pad uint16
+ _ [4]byte
+ Totalhigh uint64
+ Freehigh uint64
+ Unit uint32
+ _ [0]uint8
+ _ [4]byte
+}
+
+type Utsname struct {
+ Sysname [65]byte
+ Nodename [65]byte
+ Release [65]byte
+ Version [65]byte
+ Machine [65]byte
+ Domainname [65]byte
+}
+
+type Ustat_t struct {
+ Tfree int32
+ _ [4]byte
+ Tinode uint64
+ Fname [6]uint8
+ Fpack [6]uint8
+ _ [4]byte
+}
+
+type EpollEvent struct {
+ Events uint32
+ Fd int32
+ Pad int32
+}
+
+const (
+ AT_EMPTY_PATH = 0x1000
+ AT_FDCWD = -0x64
+ AT_NO_AUTOMOUNT = 0x800
+ AT_REMOVEDIR = 0x200
+
+ AT_STATX_SYNC_AS_STAT = 0x0
+ AT_STATX_FORCE_SYNC = 0x2000
+ AT_STATX_DONT_SYNC = 0x4000
+
+ AT_SYMLINK_FOLLOW = 0x400
+ AT_SYMLINK_NOFOLLOW = 0x100
+
+ AT_EACCESS = 0x200
+)
+
+type PollFd struct {
+ Fd int32
+ Events int16
+ Revents int16
+}
+
+const (
+ POLLIN = 0x1
+ POLLPRI = 0x2
+ POLLOUT = 0x4
+ POLLRDHUP = 0x2000
+ POLLERR = 0x8
+ POLLHUP = 0x10
+ POLLNVAL = 0x20
+)
+
+type Sigset_t struct {
+ Val [16]uint64
+}
+
+const RNDGETENTCNT = 0x80045200
+
+const PERF_IOC_FLAG_GROUP = 0x1
+
+type Termios struct {
+ Iflag uint32
+ Oflag uint32
+ Cflag uint32
+ Lflag uint32
+ Line uint8
+ Cc [19]uint8
+ Ispeed uint32
+ Ospeed uint32
+}
+
+type Winsize struct {
+ Row uint16
+ Col uint16
+ Xpixel uint16
+ Ypixel uint16
+}
+
+type Taskstats struct {
+ Version uint16
+ _ [2]byte
+ Ac_exitcode uint32
+ Ac_flag uint8
+ Ac_nice uint8
+ _ [6]byte
+ Cpu_count uint64
+ Cpu_delay_total uint64
+ Blkio_count uint64
+ Blkio_delay_total uint64
+ Swapin_count uint64
+ Swapin_delay_total uint64
+ Cpu_run_real_total uint64
+ Cpu_run_virtual_total uint64
+ Ac_comm [32]uint8
+ Ac_sched uint8
+ Ac_pad [3]uint8
+ _ [4]byte
+ Ac_uid uint32
+ Ac_gid uint32
+ Ac_pid uint32
+ Ac_ppid uint32
+ Ac_btime uint32
+ _ [4]byte
+ Ac_etime uint64
+ Ac_utime uint64
+ Ac_stime uint64
+ Ac_minflt uint64
+ Ac_majflt uint64
+ Coremem uint64
+ Virtmem uint64
+ Hiwater_rss uint64
+ Hiwater_vm uint64
+ Read_char uint64
+ Write_char uint64
+ Read_syscalls uint64
+ Write_syscalls uint64
+ Read_bytes uint64
+ Write_bytes uint64
+ Cancelled_write_bytes uint64
+ Nvcsw uint64
+ Nivcsw uint64
+ Ac_utimescaled uint64
+ Ac_stimescaled uint64
+ Cpu_scaled_run_real_total uint64
+ Freepages_count uint64
+ Freepages_delay_total uint64
+}
+
+const (
+ TASKSTATS_CMD_UNSPEC = 0x0
+ TASKSTATS_CMD_GET = 0x1
+ TASKSTATS_CMD_NEW = 0x2
+ TASKSTATS_TYPE_UNSPEC = 0x0
+ TASKSTATS_TYPE_PID = 0x1
+ TASKSTATS_TYPE_TGID = 0x2
+ TASKSTATS_TYPE_STATS = 0x3
+ TASKSTATS_TYPE_AGGR_PID = 0x4
+ TASKSTATS_TYPE_AGGR_TGID = 0x5
+ TASKSTATS_TYPE_NULL = 0x6
+ TASKSTATS_CMD_ATTR_UNSPEC = 0x0
+ TASKSTATS_CMD_ATTR_PID = 0x1
+ TASKSTATS_CMD_ATTR_TGID = 0x2
+ TASKSTATS_CMD_ATTR_REGISTER_CPUMASK = 0x3
+ TASKSTATS_CMD_ATTR_DEREGISTER_CPUMASK = 0x4
+)
+
+type CGroupStats struct {
+ Sleeping uint64
+ Running uint64
+ Stopped uint64
+ Uninterruptible uint64
+ Io_wait uint64
+}
+
+const (
+ CGROUPSTATS_CMD_UNSPEC = 0x3
+ CGROUPSTATS_CMD_GET = 0x4
+ CGROUPSTATS_CMD_NEW = 0x5
+ CGROUPSTATS_TYPE_UNSPEC = 0x0
+ CGROUPSTATS_TYPE_CGROUP_STATS = 0x1
+ CGROUPSTATS_CMD_ATTR_UNSPEC = 0x0
+ CGROUPSTATS_CMD_ATTR_FD = 0x1
+)
+
+type Genlmsghdr struct {
+ Cmd uint8
+ Version uint8
+ Reserved uint16
+}
+
+const (
+ CTRL_CMD_UNSPEC = 0x0
+ CTRL_CMD_NEWFAMILY = 0x1
+ CTRL_CMD_DELFAMILY = 0x2
+ CTRL_CMD_GETFAMILY = 0x3
+ CTRL_CMD_NEWOPS = 0x4
+ CTRL_CMD_DELOPS = 0x5
+ CTRL_CMD_GETOPS = 0x6
+ CTRL_CMD_NEWMCAST_GRP = 0x7
+ CTRL_CMD_DELMCAST_GRP = 0x8
+ CTRL_CMD_GETMCAST_GRP = 0x9
+ CTRL_ATTR_UNSPEC = 0x0
+ CTRL_ATTR_FAMILY_ID = 0x1
+ CTRL_ATTR_FAMILY_NAME = 0x2
+ CTRL_ATTR_VERSION = 0x3
+ CTRL_ATTR_HDRSIZE = 0x4
+ CTRL_ATTR_MAXATTR = 0x5
+ CTRL_ATTR_OPS = 0x6
+ CTRL_ATTR_MCAST_GROUPS = 0x7
+ CTRL_ATTR_OP_UNSPEC = 0x0
+ CTRL_ATTR_OP_ID = 0x1
+ CTRL_ATTR_OP_FLAGS = 0x2
+ CTRL_ATTR_MCAST_GRP_UNSPEC = 0x0
+ CTRL_ATTR_MCAST_GRP_NAME = 0x1
+ CTRL_ATTR_MCAST_GRP_ID = 0x2
+)
+
+type cpuMask uint64
+
+const (
+ _CPU_SETSIZE = 0x400
+ _NCPUBITS = 0x40
+)
+
+const (
+ BDADDR_BREDR = 0x0
+ BDADDR_LE_PUBLIC = 0x1
+ BDADDR_LE_RANDOM = 0x2
+)
+
+type PerfEventAttr struct {
+ Type uint32
+ Size uint32
+ Config uint64
+ Sample uint64
+ Sample_type uint64
+ Read_format uint64
+ Bits uint64
+ Wakeup uint32
+ Bp_type uint32
+ Ext1 uint64
+ Ext2 uint64
+ Branch_sample_type uint64
+ Sample_regs_user uint64
+ Sample_stack_user uint32
+ Clockid int32
+ Sample_regs_intr uint64
+ Aux_watermark uint32
+ _ uint32
+}
+
+type PerfEventMmapPage struct {
+ Version uint32
+ Compat_version uint32
+ Lock uint32
+ Index uint32
+ Offset int64
+ Time_enabled uint64
+ Time_running uint64
+ Capabilities uint64
+ Pmc_width uint16
+ Time_shift uint16
+ Time_mult uint32
+ Time_offset uint64
+ Time_zero uint64
+ Size uint32
+ _ [948]uint8
+ Data_head uint64
+ Data_tail uint64
+ Data_offset uint64
+ Data_size uint64
+ Aux_head uint64
+ Aux_tail uint64
+ Aux_offset uint64
+ Aux_size uint64
+}
+
+const (
+ PerfBitDisabled uint64 = CBitFieldMaskBit0
+ PerfBitInherit = CBitFieldMaskBit1
+ PerfBitPinned = CBitFieldMaskBit2
+ PerfBitExclusive = CBitFieldMaskBit3
+ PerfBitExcludeUser = CBitFieldMaskBit4
+ PerfBitExcludeKernel = CBitFieldMaskBit5
+ PerfBitExcludeHv = CBitFieldMaskBit6
+ PerfBitExcludeIdle = CBitFieldMaskBit7
+ PerfBitMmap = CBitFieldMaskBit8
+ PerfBitComm = CBitFieldMaskBit9
+ PerfBitFreq = CBitFieldMaskBit10
+ PerfBitInheritStat = CBitFieldMaskBit11
+ PerfBitEnableOnExec = CBitFieldMaskBit12
+ PerfBitTask = CBitFieldMaskBit13
+ PerfBitWatermark = CBitFieldMaskBit14
+ PerfBitPreciseIPBit1 = CBitFieldMaskBit15
+ PerfBitPreciseIPBit2 = CBitFieldMaskBit16
+ PerfBitMmapData = CBitFieldMaskBit17
+ PerfBitSampleIDAll = CBitFieldMaskBit18
+ PerfBitExcludeHost = CBitFieldMaskBit19
+ PerfBitExcludeGuest = CBitFieldMaskBit20
+ PerfBitExcludeCallchainKernel = CBitFieldMaskBit21
+ PerfBitExcludeCallchainUser = CBitFieldMaskBit22
+ PerfBitMmap2 = CBitFieldMaskBit23
+ PerfBitCommExec = CBitFieldMaskBit24
+ PerfBitUseClockID = CBitFieldMaskBit25
+ PerfBitContextSwitch = CBitFieldMaskBit26
+)
+
+const (
+ PERF_TYPE_HARDWARE = 0x0
+ PERF_TYPE_SOFTWARE = 0x1
+ PERF_TYPE_TRACEPOINT = 0x2
+ PERF_TYPE_HW_CACHE = 0x3
+ PERF_TYPE_RAW = 0x4
+ PERF_TYPE_BREAKPOINT = 0x5
+
+ PERF_COUNT_HW_CPU_CYCLES = 0x0
+ PERF_COUNT_HW_INSTRUCTIONS = 0x1
+ PERF_COUNT_HW_CACHE_REFERENCES = 0x2
+ PERF_COUNT_HW_CACHE_MISSES = 0x3
+ PERF_COUNT_HW_BRANCH_INSTRUCTIONS = 0x4
+ PERF_COUNT_HW_BRANCH_MISSES = 0x5
+ PERF_COUNT_HW_BUS_CYCLES = 0x6
+ PERF_COUNT_HW_STALLED_CYCLES_FRONTEND = 0x7
+ PERF_COUNT_HW_STALLED_CYCLES_BACKEND = 0x8
+ PERF_COUNT_HW_REF_CPU_CYCLES = 0x9
+
+ PERF_COUNT_HW_CACHE_L1D = 0x0
+ PERF_COUNT_HW_CACHE_L1I = 0x1
+ PERF_COUNT_HW_CACHE_LL = 0x2
+ PERF_COUNT_HW_CACHE_DTLB = 0x3
+ PERF_COUNT_HW_CACHE_ITLB = 0x4
+ PERF_COUNT_HW_CACHE_BPU = 0x5
+ PERF_COUNT_HW_CACHE_NODE = 0x6
+
+ PERF_COUNT_HW_CACHE_OP_READ = 0x0
+ PERF_COUNT_HW_CACHE_OP_WRITE = 0x1
+ PERF_COUNT_HW_CACHE_OP_PREFETCH = 0x2
+
+ PERF_COUNT_HW_CACHE_RESULT_ACCESS = 0x0
+ PERF_COUNT_HW_CACHE_RESULT_MISS = 0x1
+
+ PERF_COUNT_SW_CPU_CLOCK = 0x0
+ PERF_COUNT_SW_TASK_CLOCK = 0x1
+ PERF_COUNT_SW_PAGE_FAULTS = 0x2
+ PERF_COUNT_SW_CONTEXT_SWITCHES = 0x3
+ PERF_COUNT_SW_CPU_MIGRATIONS = 0x4
+ PERF_COUNT_SW_PAGE_FAULTS_MIN = 0x5
+ PERF_COUNT_SW_PAGE_FAULTS_MAJ = 0x6
+ PERF_COUNT_SW_ALIGNMENT_FAULTS = 0x7
+ PERF_COUNT_SW_EMULATION_FAULTS = 0x8
+ PERF_COUNT_SW_DUMMY = 0x9
+
+ PERF_SAMPLE_IP = 0x1
+ PERF_SAMPLE_TID = 0x2
+ PERF_SAMPLE_TIME = 0x4
+ PERF_SAMPLE_ADDR = 0x8
+ PERF_SAMPLE_READ = 0x10
+ PERF_SAMPLE_CALLCHAIN = 0x20
+ PERF_SAMPLE_ID = 0x40
+ PERF_SAMPLE_CPU = 0x80
+ PERF_SAMPLE_PERIOD = 0x100
+ PERF_SAMPLE_STREAM_ID = 0x200
+ PERF_SAMPLE_RAW = 0x400
+ PERF_SAMPLE_BRANCH_STACK = 0x800
+
+ PERF_SAMPLE_BRANCH_USER = 0x1
+ PERF_SAMPLE_BRANCH_KERNEL = 0x2
+ PERF_SAMPLE_BRANCH_HV = 0x4
+ PERF_SAMPLE_BRANCH_ANY = 0x8
+ PERF_SAMPLE_BRANCH_ANY_CALL = 0x10
+ PERF_SAMPLE_BRANCH_ANY_RETURN = 0x20
+ PERF_SAMPLE_BRANCH_IND_CALL = 0x40
+
+ PERF_FORMAT_TOTAL_TIME_ENABLED = 0x1
+ PERF_FORMAT_TOTAL_TIME_RUNNING = 0x2
+ PERF_FORMAT_ID = 0x4
+ PERF_FORMAT_GROUP = 0x8
+
+ PERF_RECORD_MMAP = 0x1
+ PERF_RECORD_LOST = 0x2
+ PERF_RECORD_COMM = 0x3
+ PERF_RECORD_EXIT = 0x4
+ PERF_RECORD_THROTTLE = 0x5
+ PERF_RECORD_UNTHROTTLE = 0x6
+ PERF_RECORD_FORK = 0x7
+ PERF_RECORD_READ = 0x8
+ PERF_RECORD_SAMPLE = 0x9
+
+ PERF_CONTEXT_HV = -0x20
+ PERF_CONTEXT_KERNEL = -0x80
+ PERF_CONTEXT_USER = -0x200
+
+ PERF_CONTEXT_GUEST = -0x800
+ PERF_CONTEXT_GUEST_KERNEL = -0x880
+ PERF_CONTEXT_GUEST_USER = -0xa00
+
+ PERF_FLAG_FD_NO_GROUP = 0x1
+ PERF_FLAG_FD_OUTPUT = 0x2
+ PERF_FLAG_PID_CGROUP = 0x4
+)
+
+const (
+ CBitFieldMaskBit0 = 0x1
+ CBitFieldMaskBit1 = 0x2
+ CBitFieldMaskBit2 = 0x4
+ CBitFieldMaskBit3 = 0x8
+ CBitFieldMaskBit4 = 0x10
+ CBitFieldMaskBit5 = 0x20
+ CBitFieldMaskBit6 = 0x40
+ CBitFieldMaskBit7 = 0x80
+ CBitFieldMaskBit8 = 0x100
+ CBitFieldMaskBit9 = 0x200
+ CBitFieldMaskBit10 = 0x400
+ CBitFieldMaskBit11 = 0x800
+ CBitFieldMaskBit12 = 0x1000
+ CBitFieldMaskBit13 = 0x2000
+ CBitFieldMaskBit14 = 0x4000
+ CBitFieldMaskBit15 = 0x8000
+ CBitFieldMaskBit16 = 0x10000
+ CBitFieldMaskBit17 = 0x20000
+ CBitFieldMaskBit18 = 0x40000
+ CBitFieldMaskBit19 = 0x80000
+ CBitFieldMaskBit20 = 0x100000
+ CBitFieldMaskBit21 = 0x200000
+ CBitFieldMaskBit22 = 0x400000
+ CBitFieldMaskBit23 = 0x800000
+ CBitFieldMaskBit24 = 0x1000000
+ CBitFieldMaskBit25 = 0x2000000
+ CBitFieldMaskBit26 = 0x4000000
+ CBitFieldMaskBit27 = 0x8000000
+ CBitFieldMaskBit28 = 0x10000000
+ CBitFieldMaskBit29 = 0x20000000
+ CBitFieldMaskBit30 = 0x40000000
+ CBitFieldMaskBit31 = 0x80000000
+ CBitFieldMaskBit32 = 0x100000000
+ CBitFieldMaskBit33 = 0x200000000
+ CBitFieldMaskBit34 = 0x400000000
+ CBitFieldMaskBit35 = 0x800000000
+ CBitFieldMaskBit36 = 0x1000000000
+ CBitFieldMaskBit37 = 0x2000000000
+ CBitFieldMaskBit38 = 0x4000000000
+ CBitFieldMaskBit39 = 0x8000000000
+ CBitFieldMaskBit40 = 0x10000000000
+ CBitFieldMaskBit41 = 0x20000000000
+ CBitFieldMaskBit42 = 0x40000000000
+ CBitFieldMaskBit43 = 0x80000000000
+ CBitFieldMaskBit44 = 0x100000000000
+ CBitFieldMaskBit45 = 0x200000000000
+ CBitFieldMaskBit46 = 0x400000000000
+ CBitFieldMaskBit47 = 0x800000000000
+ CBitFieldMaskBit48 = 0x1000000000000
+ CBitFieldMaskBit49 = 0x2000000000000
+ CBitFieldMaskBit50 = 0x4000000000000
+ CBitFieldMaskBit51 = 0x8000000000000
+ CBitFieldMaskBit52 = 0x10000000000000
+ CBitFieldMaskBit53 = 0x20000000000000
+ CBitFieldMaskBit54 = 0x40000000000000
+ CBitFieldMaskBit55 = 0x80000000000000
+ CBitFieldMaskBit56 = 0x100000000000000
+ CBitFieldMaskBit57 = 0x200000000000000
+ CBitFieldMaskBit58 = 0x400000000000000
+ CBitFieldMaskBit59 = 0x800000000000000
+ CBitFieldMaskBit60 = 0x1000000000000000
+ CBitFieldMaskBit61 = 0x2000000000000000
+ CBitFieldMaskBit62 = 0x4000000000000000
+ CBitFieldMaskBit63 = 0x8000000000000000
+)
+
+type SockaddrStorage struct {
+ Family uint16
+ _ [118]uint8
+ _ uint64
+}
+
+type TCPMD5Sig struct {
+ Addr SockaddrStorage
+ Flags uint8
+ Prefixlen uint8
+ Keylen uint16
+ _ uint32
+ Key [80]uint8
+}
+
+type HDDriveCmdHdr struct {
+ Command uint8
+ Number uint8
+ Feature uint8
+ Count uint8
+}
+
+type HDGeometry struct {
+ Heads uint8
+ Sectors uint8
+ Cylinders uint16
+ _ [4]byte
+ Start uint64
+}
+
+type HDDriveID struct {
+ Config uint16
+ Cyls uint16
+ Reserved2 uint16
+ Heads uint16
+ Track_bytes uint16
+ Sector_bytes uint16
+ Sectors uint16
+ Vendor0 uint16
+ Vendor1 uint16
+ Vendor2 uint16
+ Serial_no [20]uint8
+ Buf_type uint16
+ Buf_size uint16
+ Ecc_bytes uint16
+ Fw_rev [8]uint8
+ Model [40]uint8
+ Max_multsect uint8
+ Vendor3 uint8
+ Dword_io uint16
+ Vendor4 uint8
+ Capability uint8
+ Reserved50 uint16
+ Vendor5 uint8
+ TPIO uint8
+ Vendor6 uint8
+ TDMA uint8
+ Field_valid uint16
+ Cur_cyls uint16
+ Cur_heads uint16
+ Cur_sectors uint16
+ Cur_capacity0 uint16
+ Cur_capacity1 uint16
+ Multsect uint8
+ Multsect_valid uint8
+ Lba_capacity uint32
+ Dma_1word uint16
+ Dma_mword uint16
+ Eide_pio_modes uint16
+ Eide_dma_min uint16
+ Eide_dma_time uint16
+ Eide_pio uint16
+ Eide_pio_iordy uint16
+ Words69_70 [2]uint16
+ Words71_74 [4]uint16
+ Queue_depth uint16
+ Words76_79 [4]uint16
+ Major_rev_num uint16
+ Minor_rev_num uint16
+ Command_set_1 uint16
+ Command_set_2 uint16
+ Cfsse uint16
+ Cfs_enable_1 uint16
+ Cfs_enable_2 uint16
+ Csf_default uint16
+ Dma_ultra uint16
+ Trseuc uint16
+ TrsEuc uint16
+ CurAPMvalues uint16
+ Mprc uint16
+ Hw_config uint16
+ Acoustic uint16
+ Msrqs uint16
+ Sxfert uint16
+ Sal uint16
+ Spg uint32
+ Lba_capacity_2 uint64
+ Words104_125 [22]uint16
+ Last_lun uint16
+ Word127 uint16
+ Dlf uint16
+ Csfo uint16
+ Words130_155 [26]uint16
+ Word156 uint16
+ Words157_159 [3]uint16
+ Cfa_power uint16
+ Words161_175 [15]uint16
+ Words176_205 [30]uint16
+ Words206_254 [49]uint16
+ Integrity_word uint16
+}
+
+type Statfs_t struct {
+ Type int64
+ Bsize int64
+ Blocks uint64
+ Bfree uint64
+ Bavail uint64
+ Files uint64
+ Ffree uint64
+ Fsid Fsid
+ Namelen int64
+ Frsize int64
+ Flags int64
+ Spare [4]int64
+}
+
+const (
+ ST_MANDLOCK = 0x40
+ ST_NOATIME = 0x400
+ ST_NODEV = 0x4
+ ST_NODIRATIME = 0x800
+ ST_NOEXEC = 0x8
+ ST_NOSUID = 0x2
+ ST_RDONLY = 0x1
+ ST_RELATIME = 0x1000
+ ST_SYNCHRONOUS = 0x10
+)
+
+type TpacketHdr struct {
+ Status uint64
+ Len uint32
+ Snaplen uint32
+ Mac uint16
+ Net uint16
+ Sec uint32
+ Usec uint32
+ _ [4]byte
+}
+
+type Tpacket2Hdr struct {
+ Status uint32
+ Len uint32
+ Snaplen uint32
+ Mac uint16
+ Net uint16
+ Sec uint32
+ Nsec uint32
+ Vlan_tci uint16
+ Vlan_tpid uint16
+ _ [4]uint8
+}
+
+type Tpacket3Hdr struct {
+ Next_offset uint32
+ Sec uint32
+ Nsec uint32
+ Snaplen uint32
+ Len uint32
+ Status uint32
+ Mac uint16
+ Net uint16
+ Hv1 TpacketHdrVariant1
+ _ [8]uint8
+}
+
+type TpacketHdrVariant1 struct {
+ Rxhash uint32
+ Vlan_tci uint32
+ Vlan_tpid uint16
+ _ uint16
+}
+
+type TpacketBlockDesc struct {
+ Version uint32
+ To_priv uint32
+ Hdr [40]byte
+}
+
+type TpacketReq struct {
+ Block_size uint32
+ Block_nr uint32
+ Frame_size uint32
+ Frame_nr uint32
+}
+
+type TpacketReq3 struct {
+ Block_size uint32
+ Block_nr uint32
+ Frame_size uint32
+ Frame_nr uint32
+ Retire_blk_tov uint32
+ Sizeof_priv uint32
+ Feature_req_word uint32
+}
+
+type TpacketStats struct {
+ Packets uint32
+ Drops uint32
+}
+
+type TpacketStatsV3 struct {
+ Packets uint32
+ Drops uint32
+ Freeze_q_cnt uint32
+}
+
+type TpacketAuxdata struct {
+ Status uint32
+ Len uint32
+ Snaplen uint32
+ Mac uint16
+ Net uint16
+ Vlan_tci uint16
+ Vlan_tpid uint16
+}
+
+const (
+ TPACKET_V1 = 0x0
+ TPACKET_V2 = 0x1
+ TPACKET_V3 = 0x2
+)
+
+const (
+ SizeofTpacketHdr = 0x20
+ SizeofTpacket2Hdr = 0x20
+ SizeofTpacket3Hdr = 0x30
+)
+
+const (
+ NF_INET_PRE_ROUTING = 0x0
+ NF_INET_LOCAL_IN = 0x1
+ NF_INET_FORWARD = 0x2
+ NF_INET_LOCAL_OUT = 0x3
+ NF_INET_POST_ROUTING = 0x4
+ NF_INET_NUMHOOKS = 0x5
+)
+
+const (
+ NF_NETDEV_INGRESS = 0x0
+ NF_NETDEV_NUMHOOKS = 0x1
+)
+
+const (
+ NFPROTO_UNSPEC = 0x0
+ NFPROTO_INET = 0x1
+ NFPROTO_IPV4 = 0x2
+ NFPROTO_ARP = 0x3
+ NFPROTO_NETDEV = 0x5
+ NFPROTO_BRIDGE = 0x7
+ NFPROTO_IPV6 = 0xa
+ NFPROTO_DECNET = 0xc
+ NFPROTO_NUMPROTO = 0xd
+)
+
+type Nfgenmsg struct {
+ Nfgen_family uint8
+ Version uint8
+ Res_id uint16
+}
+
+const (
+ NFNL_BATCH_UNSPEC = 0x0
+ NFNL_BATCH_GENID = 0x1
+)
+
+const (
+ NFT_REG_VERDICT = 0x0
+ NFT_REG_1 = 0x1
+ NFT_REG_2 = 0x2
+ NFT_REG_3 = 0x3
+ NFT_REG_4 = 0x4
+ NFT_REG32_00 = 0x8
+ NFT_REG32_01 = 0x9
+ NFT_REG32_02 = 0xa
+ NFT_REG32_03 = 0xb
+ NFT_REG32_04 = 0xc
+ NFT_REG32_05 = 0xd
+ NFT_REG32_06 = 0xe
+ NFT_REG32_07 = 0xf
+ NFT_REG32_08 = 0x10
+ NFT_REG32_09 = 0x11
+ NFT_REG32_10 = 0x12
+ NFT_REG32_11 = 0x13
+ NFT_REG32_12 = 0x14
+ NFT_REG32_13 = 0x15
+ NFT_REG32_14 = 0x16
+ NFT_REG32_15 = 0x17
+ NFT_CONTINUE = -0x1
+ NFT_BREAK = -0x2
+ NFT_JUMP = -0x3
+ NFT_GOTO = -0x4
+ NFT_RETURN = -0x5
+ NFT_MSG_NEWTABLE = 0x0
+ NFT_MSG_GETTABLE = 0x1
+ NFT_MSG_DELTABLE = 0x2
+ NFT_MSG_NEWCHAIN = 0x3
+ NFT_MSG_GETCHAIN = 0x4
+ NFT_MSG_DELCHAIN = 0x5
+ NFT_MSG_NEWRULE = 0x6
+ NFT_MSG_GETRULE = 0x7
+ NFT_MSG_DELRULE = 0x8
+ NFT_MSG_NEWSET = 0x9
+ NFT_MSG_GETSET = 0xa
+ NFT_MSG_DELSET = 0xb
+ NFT_MSG_NEWSETELEM = 0xc
+ NFT_MSG_GETSETELEM = 0xd
+ NFT_MSG_DELSETELEM = 0xe
+ NFT_MSG_NEWGEN = 0xf
+ NFT_MSG_GETGEN = 0x10
+ NFT_MSG_TRACE = 0x11
+ NFT_MSG_NEWOBJ = 0x12
+ NFT_MSG_GETOBJ = 0x13
+ NFT_MSG_DELOBJ = 0x14
+ NFT_MSG_GETOBJ_RESET = 0x15
+ NFT_MSG_MAX = 0x19
+ NFTA_LIST_UNPEC = 0x0
+ NFTA_LIST_ELEM = 0x1
+ NFTA_HOOK_UNSPEC = 0x0
+ NFTA_HOOK_HOOKNUM = 0x1
+ NFTA_HOOK_PRIORITY = 0x2
+ NFTA_HOOK_DEV = 0x3
+ NFT_TABLE_F_DORMANT = 0x1
+ NFTA_TABLE_UNSPEC = 0x0
+ NFTA_TABLE_NAME = 0x1
+ NFTA_TABLE_FLAGS = 0x2
+ NFTA_TABLE_USE = 0x3
+ NFTA_CHAIN_UNSPEC = 0x0
+ NFTA_CHAIN_TABLE = 0x1
+ NFTA_CHAIN_HANDLE = 0x2
+ NFTA_CHAIN_NAME = 0x3
+ NFTA_CHAIN_HOOK = 0x4
+ NFTA_CHAIN_POLICY = 0x5
+ NFTA_CHAIN_USE = 0x6
+ NFTA_CHAIN_TYPE = 0x7
+ NFTA_CHAIN_COUNTERS = 0x8
+ NFTA_CHAIN_PAD = 0x9
+ NFTA_RULE_UNSPEC = 0x0
+ NFTA_RULE_TABLE = 0x1
+ NFTA_RULE_CHAIN = 0x2
+ NFTA_RULE_HANDLE = 0x3
+ NFTA_RULE_EXPRESSIONS = 0x4
+ NFTA_RULE_COMPAT = 0x5
+ NFTA_RULE_POSITION = 0x6
+ NFTA_RULE_USERDATA = 0x7
+ NFTA_RULE_PAD = 0x8
+ NFTA_RULE_ID = 0x9
+ NFT_RULE_COMPAT_F_INV = 0x2
+ NFT_RULE_COMPAT_F_MASK = 0x2
+ NFTA_RULE_COMPAT_UNSPEC = 0x0
+ NFTA_RULE_COMPAT_PROTO = 0x1
+ NFTA_RULE_COMPAT_FLAGS = 0x2
+ NFT_SET_ANONYMOUS = 0x1
+ NFT_SET_CONSTANT = 0x2
+ NFT_SET_INTERVAL = 0x4
+ NFT_SET_MAP = 0x8
+ NFT_SET_TIMEOUT = 0x10
+ NFT_SET_EVAL = 0x20
+ NFT_SET_OBJECT = 0x40
+ NFT_SET_POL_PERFORMANCE = 0x0
+ NFT_SET_POL_MEMORY = 0x1
+ NFTA_SET_DESC_UNSPEC = 0x0
+ NFTA_SET_DESC_SIZE = 0x1
+ NFTA_SET_UNSPEC = 0x0
+ NFTA_SET_TABLE = 0x1
+ NFTA_SET_NAME = 0x2
+ NFTA_SET_FLAGS = 0x3
+ NFTA_SET_KEY_TYPE = 0x4
+ NFTA_SET_KEY_LEN = 0x5
+ NFTA_SET_DATA_TYPE = 0x6
+ NFTA_SET_DATA_LEN = 0x7
+ NFTA_SET_POLICY = 0x8
+ NFTA_SET_DESC = 0x9
+ NFTA_SET_ID = 0xa
+ NFTA_SET_TIMEOUT = 0xb
+ NFTA_SET_GC_INTERVAL = 0xc
+ NFTA_SET_USERDATA = 0xd
+ NFTA_SET_PAD = 0xe
+ NFTA_SET_OBJ_TYPE = 0xf
+ NFT_SET_ELEM_INTERVAL_END = 0x1
+ NFTA_SET_ELEM_UNSPEC = 0x0
+ NFTA_SET_ELEM_KEY = 0x1
+ NFTA_SET_ELEM_DATA = 0x2
+ NFTA_SET_ELEM_FLAGS = 0x3
+ NFTA_SET_ELEM_TIMEOUT = 0x4
+ NFTA_SET_ELEM_EXPIRATION = 0x5
+ NFTA_SET_ELEM_USERDATA = 0x6
+ NFTA_SET_ELEM_EXPR = 0x7
+ NFTA_SET_ELEM_PAD = 0x8
+ NFTA_SET_ELEM_OBJREF = 0x9
+ NFTA_SET_ELEM_LIST_UNSPEC = 0x0
+ NFTA_SET_ELEM_LIST_TABLE = 0x1
+ NFTA_SET_ELEM_LIST_SET = 0x2
+ NFTA_SET_ELEM_LIST_ELEMENTS = 0x3
+ NFTA_SET_ELEM_LIST_SET_ID = 0x4
+ NFT_DATA_VALUE = 0x0
+ NFT_DATA_VERDICT = 0xffffff00
+ NFTA_DATA_UNSPEC = 0x0
+ NFTA_DATA_VALUE = 0x1
+ NFTA_DATA_VERDICT = 0x2
+ NFTA_VERDICT_UNSPEC = 0x0
+ NFTA_VERDICT_CODE = 0x1
+ NFTA_VERDICT_CHAIN = 0x2
+ NFTA_EXPR_UNSPEC = 0x0
+ NFTA_EXPR_NAME = 0x1
+ NFTA_EXPR_DATA = 0x2
+ NFTA_IMMEDIATE_UNSPEC = 0x0
+ NFTA_IMMEDIATE_DREG = 0x1
+ NFTA_IMMEDIATE_DATA = 0x2
+ NFTA_BITWISE_UNSPEC = 0x0
+ NFTA_BITWISE_SREG = 0x1
+ NFTA_BITWISE_DREG = 0x2
+ NFTA_BITWISE_LEN = 0x3
+ NFTA_BITWISE_MASK = 0x4
+ NFTA_BITWISE_XOR = 0x5
+ NFT_BYTEORDER_NTOH = 0x0
+ NFT_BYTEORDER_HTON = 0x1
+ NFTA_BYTEORDER_UNSPEC = 0x0
+ NFTA_BYTEORDER_SREG = 0x1
+ NFTA_BYTEORDER_DREG = 0x2
+ NFTA_BYTEORDER_OP = 0x3
+ NFTA_BYTEORDER_LEN = 0x4
+ NFTA_BYTEORDER_SIZE = 0x5
+ NFT_CMP_EQ = 0x0
+ NFT_CMP_NEQ = 0x1
+ NFT_CMP_LT = 0x2
+ NFT_CMP_LTE = 0x3
+ NFT_CMP_GT = 0x4
+ NFT_CMP_GTE = 0x5
+ NFTA_CMP_UNSPEC = 0x0
+ NFTA_CMP_SREG = 0x1
+ NFTA_CMP_OP = 0x2
+ NFTA_CMP_DATA = 0x3
+ NFT_RANGE_EQ = 0x0
+ NFT_RANGE_NEQ = 0x1
+ NFTA_RANGE_UNSPEC = 0x0
+ NFTA_RANGE_SREG = 0x1
+ NFTA_RANGE_OP = 0x2
+ NFTA_RANGE_FROM_DATA = 0x3
+ NFTA_RANGE_TO_DATA = 0x4
+ NFT_LOOKUP_F_INV = 0x1
+ NFTA_LOOKUP_UNSPEC = 0x0
+ NFTA_LOOKUP_SET = 0x1
+ NFTA_LOOKUP_SREG = 0x2
+ NFTA_LOOKUP_DREG = 0x3
+ NFTA_LOOKUP_SET_ID = 0x4
+ NFTA_LOOKUP_FLAGS = 0x5
+ NFT_DYNSET_OP_ADD = 0x0
+ NFT_DYNSET_OP_UPDATE = 0x1
+ NFT_DYNSET_F_INV = 0x1
+ NFTA_DYNSET_UNSPEC = 0x0
+ NFTA_DYNSET_SET_NAME = 0x1
+ NFTA_DYNSET_SET_ID = 0x2
+ NFTA_DYNSET_OP = 0x3
+ NFTA_DYNSET_SREG_KEY = 0x4
+ NFTA_DYNSET_SREG_DATA = 0x5
+ NFTA_DYNSET_TIMEOUT = 0x6
+ NFTA_DYNSET_EXPR = 0x7
+ NFTA_DYNSET_PAD = 0x8
+ NFTA_DYNSET_FLAGS = 0x9
+ NFT_PAYLOAD_LL_HEADER = 0x0
+ NFT_PAYLOAD_NETWORK_HEADER = 0x1
+ NFT_PAYLOAD_TRANSPORT_HEADER = 0x2
+ NFT_PAYLOAD_CSUM_NONE = 0x0
+ NFT_PAYLOAD_CSUM_INET = 0x1
+ NFT_PAYLOAD_L4CSUM_PSEUDOHDR = 0x1
+ NFTA_PAYLOAD_UNSPEC = 0x0
+ NFTA_PAYLOAD_DREG = 0x1
+ NFTA_PAYLOAD_BASE = 0x2
+ NFTA_PAYLOAD_OFFSET = 0x3
+ NFTA_PAYLOAD_LEN = 0x4
+ NFTA_PAYLOAD_SREG = 0x5
+ NFTA_PAYLOAD_CSUM_TYPE = 0x6
+ NFTA_PAYLOAD_CSUM_OFFSET = 0x7
+ NFTA_PAYLOAD_CSUM_FLAGS = 0x8
+ NFT_EXTHDR_F_PRESENT = 0x1
+ NFT_EXTHDR_OP_IPV6 = 0x0
+ NFT_EXTHDR_OP_TCPOPT = 0x1
+ NFTA_EXTHDR_UNSPEC = 0x0
+ NFTA_EXTHDR_DREG = 0x1
+ NFTA_EXTHDR_TYPE = 0x2
+ NFTA_EXTHDR_OFFSET = 0x3
+ NFTA_EXTHDR_LEN = 0x4
+ NFTA_EXTHDR_FLAGS = 0x5
+ NFTA_EXTHDR_OP = 0x6
+ NFTA_EXTHDR_SREG = 0x7
+ NFT_META_LEN = 0x0
+ NFT_META_PROTOCOL = 0x1
+ NFT_META_PRIORITY = 0x2
+ NFT_META_MARK = 0x3
+ NFT_META_IIF = 0x4
+ NFT_META_OIF = 0x5
+ NFT_META_IIFNAME = 0x6
+ NFT_META_OIFNAME = 0x7
+ NFT_META_IIFTYPE = 0x8
+ NFT_META_OIFTYPE = 0x9
+ NFT_META_SKUID = 0xa
+ NFT_META_SKGID = 0xb
+ NFT_META_NFTRACE = 0xc
+ NFT_META_RTCLASSID = 0xd
+ NFT_META_SECMARK = 0xe
+ NFT_META_NFPROTO = 0xf
+ NFT_META_L4PROTO = 0x10
+ NFT_META_BRI_IIFNAME = 0x11
+ NFT_META_BRI_OIFNAME = 0x12
+ NFT_META_PKTTYPE = 0x13
+ NFT_META_CPU = 0x14
+ NFT_META_IIFGROUP = 0x15
+ NFT_META_OIFGROUP = 0x16
+ NFT_META_CGROUP = 0x17
+ NFT_META_PRANDOM = 0x18
+ NFT_RT_CLASSID = 0x0
+ NFT_RT_NEXTHOP4 = 0x1
+ NFT_RT_NEXTHOP6 = 0x2
+ NFT_RT_TCPMSS = 0x3
+ NFT_HASH_JENKINS = 0x0
+ NFT_HASH_SYM = 0x1
+ NFTA_HASH_UNSPEC = 0x0
+ NFTA_HASH_SREG = 0x1
+ NFTA_HASH_DREG = 0x2
+ NFTA_HASH_LEN = 0x3
+ NFTA_HASH_MODULUS = 0x4
+ NFTA_HASH_SEED = 0x5
+ NFTA_HASH_OFFSET = 0x6
+ NFTA_HASH_TYPE = 0x7
+ NFTA_META_UNSPEC = 0x0
+ NFTA_META_DREG = 0x1
+ NFTA_META_KEY = 0x2
+ NFTA_META_SREG = 0x3
+ NFTA_RT_UNSPEC = 0x0
+ NFTA_RT_DREG = 0x1
+ NFTA_RT_KEY = 0x2
+ NFT_CT_STATE = 0x0
+ NFT_CT_DIRECTION = 0x1
+ NFT_CT_STATUS = 0x2
+ NFT_CT_MARK = 0x3
+ NFT_CT_SECMARK = 0x4
+ NFT_CT_EXPIRATION = 0x5
+ NFT_CT_HELPER = 0x6
+ NFT_CT_L3PROTOCOL = 0x7
+ NFT_CT_SRC = 0x8
+ NFT_CT_DST = 0x9
+ NFT_CT_PROTOCOL = 0xa
+ NFT_CT_PROTO_SRC = 0xb
+ NFT_CT_PROTO_DST = 0xc
+ NFT_CT_LABELS = 0xd
+ NFT_CT_PKTS = 0xe
+ NFT_CT_BYTES = 0xf
+ NFT_CT_AVGPKT = 0x10
+ NFT_CT_ZONE = 0x11
+ NFT_CT_EVENTMASK = 0x12
+ NFTA_CT_UNSPEC = 0x0
+ NFTA_CT_DREG = 0x1
+ NFTA_CT_KEY = 0x2
+ NFTA_CT_DIRECTION = 0x3
+ NFTA_CT_SREG = 0x4
+ NFT_LIMIT_PKTS = 0x0
+ NFT_LIMIT_PKT_BYTES = 0x1
+ NFT_LIMIT_F_INV = 0x1
+ NFTA_LIMIT_UNSPEC = 0x0
+ NFTA_LIMIT_RATE = 0x1
+ NFTA_LIMIT_UNIT = 0x2
+ NFTA_LIMIT_BURST = 0x3
+ NFTA_LIMIT_TYPE = 0x4
+ NFTA_LIMIT_FLAGS = 0x5
+ NFTA_LIMIT_PAD = 0x6
+ NFTA_COUNTER_UNSPEC = 0x0
+ NFTA_COUNTER_BYTES = 0x1
+ NFTA_COUNTER_PACKETS = 0x2
+ NFTA_COUNTER_PAD = 0x3
+ NFTA_LOG_UNSPEC = 0x0
+ NFTA_LOG_GROUP = 0x1
+ NFTA_LOG_PREFIX = 0x2
+ NFTA_LOG_SNAPLEN = 0x3
+ NFTA_LOG_QTHRESHOLD = 0x4
+ NFTA_LOG_LEVEL = 0x5
+ NFTA_LOG_FLAGS = 0x6
+ NFTA_QUEUE_UNSPEC = 0x0
+ NFTA_QUEUE_NUM = 0x1
+ NFTA_QUEUE_TOTAL = 0x2
+ NFTA_QUEUE_FLAGS = 0x3
+ NFTA_QUEUE_SREG_QNUM = 0x4
+ NFT_QUOTA_F_INV = 0x1
+ NFT_QUOTA_F_DEPLETED = 0x2
+ NFTA_QUOTA_UNSPEC = 0x0
+ NFTA_QUOTA_BYTES = 0x1
+ NFTA_QUOTA_FLAGS = 0x2
+ NFTA_QUOTA_PAD = 0x3
+ NFTA_QUOTA_CONSUMED = 0x4
+ NFT_REJECT_ICMP_UNREACH = 0x0
+ NFT_REJECT_TCP_RST = 0x1
+ NFT_REJECT_ICMPX_UNREACH = 0x2
+ NFT_REJECT_ICMPX_NO_ROUTE = 0x0
+ NFT_REJECT_ICMPX_PORT_UNREACH = 0x1
+ NFT_REJECT_ICMPX_HOST_UNREACH = 0x2
+ NFT_REJECT_ICMPX_ADMIN_PROHIBITED = 0x3
+ NFTA_REJECT_UNSPEC = 0x0
+ NFTA_REJECT_TYPE = 0x1
+ NFTA_REJECT_ICMP_CODE = 0x2
+ NFT_NAT_SNAT = 0x0
+ NFT_NAT_DNAT = 0x1
+ NFTA_NAT_UNSPEC = 0x0
+ NFTA_NAT_TYPE = 0x1
+ NFTA_NAT_FAMILY = 0x2
+ NFTA_NAT_REG_ADDR_MIN = 0x3
+ NFTA_NAT_REG_ADDR_MAX = 0x4
+ NFTA_NAT_REG_PROTO_MIN = 0x5
+ NFTA_NAT_REG_PROTO_MAX = 0x6
+ NFTA_NAT_FLAGS = 0x7
+ NFTA_MASQ_UNSPEC = 0x0
+ NFTA_MASQ_FLAGS = 0x1
+ NFTA_MASQ_REG_PROTO_MIN = 0x2
+ NFTA_MASQ_REG_PROTO_MAX = 0x3
+ NFTA_REDIR_UNSPEC = 0x0
+ NFTA_REDIR_REG_PROTO_MIN = 0x1
+ NFTA_REDIR_REG_PROTO_MAX = 0x2
+ NFTA_REDIR_FLAGS = 0x3
+ NFTA_DUP_UNSPEC = 0x0
+ NFTA_DUP_SREG_ADDR = 0x1
+ NFTA_DUP_SREG_DEV = 0x2
+ NFTA_FWD_UNSPEC = 0x0
+ NFTA_FWD_SREG_DEV = 0x1
+ NFTA_OBJREF_UNSPEC = 0x0
+ NFTA_OBJREF_IMM_TYPE = 0x1
+ NFTA_OBJREF_IMM_NAME = 0x2
+ NFTA_OBJREF_SET_SREG = 0x3
+ NFTA_OBJREF_SET_NAME = 0x4
+ NFTA_OBJREF_SET_ID = 0x5
+ NFTA_GEN_UNSPEC = 0x0
+ NFTA_GEN_ID = 0x1
+ NFTA_GEN_PROC_PID = 0x2
+ NFTA_GEN_PROC_NAME = 0x3
+ NFTA_FIB_UNSPEC = 0x0
+ NFTA_FIB_DREG = 0x1
+ NFTA_FIB_RESULT = 0x2
+ NFTA_FIB_FLAGS = 0x3
+ NFT_FIB_RESULT_UNSPEC = 0x0
+ NFT_FIB_RESULT_OIF = 0x1
+ NFT_FIB_RESULT_OIFNAME = 0x2
+ NFT_FIB_RESULT_ADDRTYPE = 0x3
+ NFTA_FIB_F_SADDR = 0x1
+ NFTA_FIB_F_DADDR = 0x2
+ NFTA_FIB_F_MARK = 0x4
+ NFTA_FIB_F_IIF = 0x8
+ NFTA_FIB_F_OIF = 0x10
+ NFTA_FIB_F_PRESENT = 0x20
+ NFTA_CT_HELPER_UNSPEC = 0x0
+ NFTA_CT_HELPER_NAME = 0x1
+ NFTA_CT_HELPER_L3PROTO = 0x2
+ NFTA_CT_HELPER_L4PROTO = 0x3
+ NFTA_OBJ_UNSPEC = 0x0
+ NFTA_OBJ_TABLE = 0x1
+ NFTA_OBJ_NAME = 0x2
+ NFTA_OBJ_TYPE = 0x3
+ NFTA_OBJ_DATA = 0x4
+ NFTA_OBJ_USE = 0x5
+ NFTA_TRACE_UNSPEC = 0x0
+ NFTA_TRACE_TABLE = 0x1
+ NFTA_TRACE_CHAIN = 0x2
+ NFTA_TRACE_RULE_HANDLE = 0x3
+ NFTA_TRACE_TYPE = 0x4
+ NFTA_TRACE_VERDICT = 0x5
+ NFTA_TRACE_ID = 0x6
+ NFTA_TRACE_LL_HEADER = 0x7
+ NFTA_TRACE_NETWORK_HEADER = 0x8
+ NFTA_TRACE_TRANSPORT_HEADER = 0x9
+ NFTA_TRACE_IIF = 0xa
+ NFTA_TRACE_IIFTYPE = 0xb
+ NFTA_TRACE_OIF = 0xc
+ NFTA_TRACE_OIFTYPE = 0xd
+ NFTA_TRACE_MARK = 0xe
+ NFTA_TRACE_NFPROTO = 0xf
+ NFTA_TRACE_POLICY = 0x10
+ NFTA_TRACE_PAD = 0x11
+ NFT_TRACETYPE_UNSPEC = 0x0
+ NFT_TRACETYPE_POLICY = 0x1
+ NFT_TRACETYPE_RETURN = 0x2
+ NFT_TRACETYPE_RULE = 0x3
+ NFTA_NG_UNSPEC = 0x0
+ NFTA_NG_DREG = 0x1
+ NFTA_NG_MODULUS = 0x2
+ NFTA_NG_TYPE = 0x3
+ NFTA_NG_OFFSET = 0x4
+ NFT_NG_INCREMENTAL = 0x0
+ NFT_NG_RANDOM = 0x1
+)
+
+type RTCTime struct {
+ Sec int32
+ Min int32
+ Hour int32
+ Mday int32
+ Mon int32
+ Year int32
+ Wday int32
+ Yday int32
+ Isdst int32
+}
+
+type RTCWkAlrm struct {
+ Enabled uint8
+ Pending uint8
+ _ [2]byte
+ Time RTCTime
+}
+
+type RTCPLLInfo struct {
+ Ctrl int32
+ Value int32
+ Max int32
+ Min int32
+ Posmult int32
+ Negmult int32
+ Clock int64
+}
+
+type BlkpgIoctlArg struct {
+ Op int32
+ Flags int32
+ Datalen int32
+ _ [4]byte
+ Data *byte
+}
+
+type BlkpgPartition struct {
+ Start int64
+ Length int64
+ Pno int32
+ Devname [64]uint8
+ Volname [64]uint8
+ _ [4]byte
+}
+
+const (
+ BLKPG = 0x1269
+ BLKPG_ADD_PARTITION = 0x1
+ BLKPG_DEL_PARTITION = 0x2
+ BLKPG_RESIZE_PARTITION = 0x3
+)
+
+const (
+ NETNSA_NONE = 0x0
+ NETNSA_NSID = 0x1
+ NETNSA_PID = 0x2
+ NETNSA_FD = 0x3
+)
diff --git a/vendor/golang.org/x/sys/unix/ztypes_linux_s390x.go b/vendor/golang.org/x/sys/unix/ztypes_linux_s390x.go
index 898ac45140e7fa7ef6aa812c0080209c9b879f4e..705f1239f374bc42703c2b0616f15832445b7ac4 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_linux_s390x.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_linux_s390x.go
@@ -514,6 +514,20 @@ const (
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
+ RTA_MARK = 0x10
+ RTA_MFC_STATS = 0x11
+ RTA_VIA = 0x12
+ RTA_NEWDST = 0x13
+ RTA_PREF = 0x14
+ RTA_ENCAP_TYPE = 0x15
+ RTA_ENCAP = 0x16
+ RTA_EXPIRES = 0x17
+ RTA_PAD = 0x18
+ RTA_UID = 0x19
+ RTA_TTL_PROPAGATE = 0x1a
+ RTA_IP_PROTO = 0x1b
+ RTA_SPORT = 0x1c
+ RTA_DPORT = 0x1d
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
diff --git a/vendor/golang.org/x/sys/unix/ztypes_solaris_amd64.go b/vendor/golang.org/x/sys/unix/ztypes_solaris_amd64.go
index 2248598d03f99f4ede7fbb6ca91601e3c1746f27..0543e1a49a24177768dbcb3485df5a7f070a19fe 100644
--- a/vendor/golang.org/x/sys/unix/ztypes_solaris_amd64.go
+++ b/vendor/golang.org/x/sys/unix/ztypes_solaris_amd64.go
@@ -75,23 +75,6 @@ type Rlimit struct {
type _Gid_t uint32
-const (
- S_IFMT = 0xf000
- S_IFIFO = 0x1000
- S_IFCHR = 0x2000
- S_IFDIR = 0x4000
- S_IFBLK = 0x6000
- S_IFREG = 0x8000
- S_IFLNK = 0xa000
- S_IFSOCK = 0xc000
- S_ISUID = 0x800
- S_ISGID = 0x400
- S_ISVTX = 0x200
- S_IRUSR = 0x100
- S_IWUSR = 0x80
- S_IXUSR = 0x40
-)
-
type Stat_t struct {
Dev uint64
Ino uint64
diff --git a/vendor/golang.org/x/sys/windows/syscall_windows.go b/vendor/golang.org/x/sys/windows/syscall_windows.go
index fd89e08e24f2f47cb9a3e44bb87ec763eee8174a..8a00b71f1d1adbe982f98af44c74cc4ea40f2fec 100644
--- a/vendor/golang.org/x/sys/windows/syscall_windows.go
+++ b/vendor/golang.org/x/sys/windows/syscall_windows.go
@@ -655,7 +655,7 @@ type RawSockaddr struct {
type RawSockaddrAny struct {
Addr RawSockaddr
- Pad [96]int8
+ Pad [100]int8
}
type Sockaddr interface {
@@ -704,19 +704,69 @@ func (sa *SockaddrInet6) sockaddr() (unsafe.Pointer, int32, error) {
return unsafe.Pointer(&sa.raw), int32(unsafe.Sizeof(sa.raw)), nil
}
+type RawSockaddrUnix struct {
+ Family uint16
+ Path [UNIX_PATH_MAX]int8
+}
+
type SockaddrUnix struct {
Name string
+ raw RawSockaddrUnix
}
func (sa *SockaddrUnix) sockaddr() (unsafe.Pointer, int32, error) {
- // TODO(brainman): implement SockaddrUnix.sockaddr()
- return nil, 0, syscall.EWINDOWS
+ name := sa.Name
+ n := len(name)
+ if n > len(sa.raw.Path) {
+ return nil, 0, syscall.EINVAL
+ }
+ if n == len(sa.raw.Path) && name[0] != '@' {
+ return nil, 0, syscall.EINVAL
+ }
+ sa.raw.Family = AF_UNIX
+ for i := 0; i < n; i++ {
+ sa.raw.Path[i] = int8(name[i])
+ }
+ // length is family (uint16), name, NUL.
+ sl := int32(2)
+ if n > 0 {
+ sl += int32(n) + 1
+ }
+ if sa.raw.Path[0] == '@' {
+ sa.raw.Path[0] = 0
+ // Don't count trailing NUL for abstract address.
+ sl--
+ }
+
+ return unsafe.Pointer(&sa.raw), sl, nil
}
func (rsa *RawSockaddrAny) Sockaddr() (Sockaddr, error) {
switch rsa.Addr.Family {
case AF_UNIX:
- return nil, syscall.EWINDOWS
+ pp := (*RawSockaddrUnix)(unsafe.Pointer(rsa))
+ sa := new(SockaddrUnix)
+ if pp.Path[0] == 0 {
+ // "Abstract" Unix domain socket.
+ // Rewrite leading NUL as @ for textual display.
+ // (This is the standard convention.)
+ // Not friendly to overwrite in place,
+ // but the callers below don't care.
+ pp.Path[0] = '@'
+ }
+
+ // Assume path ends at NUL.
+ // This is not technically the Linux semantics for
+ // abstract Unix domain sockets--they are supposed
+ // to be uninterpreted fixed-size binary blobs--but
+ // everyone uses this convention.
+ n := 0
+ for n < len(pp.Path) && pp.Path[n] != 0 {
+ n++
+ }
+ bytes := (*[10000]byte)(unsafe.Pointer(&pp.Path[0]))[0:n]
+ sa.Name = string(bytes)
+ return sa, nil
case AF_INET:
pp := (*RawSockaddrInet4)(unsafe.Pointer(rsa))
diff --git a/vendor/golang.org/x/sys/windows/types_windows.go b/vendor/golang.org/x/sys/windows/types_windows.go
index 7f8b3af48e801ff28b27159ebca135b3d62f2179..141ca81bd74d9f0fb95bd30827901178d1dc7389 100644
--- a/vendor/golang.org/x/sys/windows/types_windows.go
+++ b/vendor/golang.org/x/sys/windows/types_windows.go
@@ -1453,7 +1453,7 @@ type SmallRect struct {
Bottom int16
}
-// Used with GetConsoleScreenBuffer to retreive information about a console
+// Used with GetConsoleScreenBuffer to retrieve information about a console
// screen buffer. See
// https://docs.microsoft.com/en-us/windows/console/console-screen-buffer-info-str
// for details.
@@ -1465,3 +1465,5 @@ type ConsoleScreenBufferInfo struct {
Window SmallRect
MaximumWindowSize Coord
}
+
+const UNIX_PATH_MAX = 108 // defined in afunix.h
diff --git a/vendor/google.golang.org/genproto/googleapis/rpc/status/status.pb.go b/vendor/google.golang.org/genproto/googleapis/rpc/status/status.pb.go
index 7bfe37a3db708565da06a05bb8fb7d5ed70e35bb..d13bcbaf430b0340d2da85b782cb5acd51e12652 100644
--- a/vendor/google.golang.org/genproto/googleapis/rpc/status/status.pb.go
+++ b/vendor/google.golang.org/genproto/googleapis/rpc/status/status.pb.go
@@ -1,12 +1,14 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// source: google/rpc/status.proto
-package status // import "google.golang.org/genproto/googleapis/rpc/status"
+package status
-import proto "github.com/golang/protobuf/proto"
-import fmt "fmt"
-import math "math"
-import any "github.com/golang/protobuf/ptypes/any"
+import (
+ fmt "fmt"
+ proto "github.com/golang/protobuf/proto"
+ any "github.com/golang/protobuf/ptypes/any"
+ math "math"
+)
// Reference imports to suppress errors if they are not otherwise used.
var _ = proto.Marshal
@@ -90,16 +92,17 @@ func (m *Status) Reset() { *m = Status{} }
func (m *Status) String() string { return proto.CompactTextString(m) }
func (*Status) ProtoMessage() {}
func (*Status) Descriptor() ([]byte, []int) {
- return fileDescriptor_status_c6e4de62dcdf2edf, []int{0}
+ return fileDescriptor_24d244abaf643bfe, []int{0}
}
+
func (m *Status) XXX_Unmarshal(b []byte) error {
return xxx_messageInfo_Status.Unmarshal(m, b)
}
func (m *Status) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
return xxx_messageInfo_Status.Marshal(b, m, deterministic)
}
-func (dst *Status) XXX_Merge(src proto.Message) {
- xxx_messageInfo_Status.Merge(dst, src)
+func (m *Status) XXX_Merge(src proto.Message) {
+ xxx_messageInfo_Status.Merge(m, src)
}
func (m *Status) XXX_Size() int {
return xxx_messageInfo_Status.Size(m)
@@ -135,9 +138,9 @@ func init() {
proto.RegisterType((*Status)(nil), "google.rpc.Status")
}
-func init() { proto.RegisterFile("google/rpc/status.proto", fileDescriptor_status_c6e4de62dcdf2edf) }
+func init() { proto.RegisterFile("google/rpc/status.proto", fileDescriptor_24d244abaf643bfe) }
-var fileDescriptor_status_c6e4de62dcdf2edf = []byte{
+var fileDescriptor_24d244abaf643bfe = []byte{
// 209 bytes of a gzipped FileDescriptorProto
0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xff, 0xe2, 0x12, 0x4f, 0xcf, 0xcf, 0x4f,
0xcf, 0x49, 0xd5, 0x2f, 0x2a, 0x48, 0xd6, 0x2f, 0x2e, 0x49, 0x2c, 0x29, 0x2d, 0xd6, 0x2b, 0x28,