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Migration vers bblot raft-boltdb v2

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This commit is contained in:
Mickael BOURNEUF 2025-02-17 09:05:58 +01:00
parent 6cb2813f94
commit e078abd68e
88 changed files with 6316 additions and 65094 deletions
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13
go.mod
View File

@ -5,13 +5,16 @@ go 1.23
toolchain go1.24.0
require (
github.com/Jille/raft-grpc-transport v1.6.1
github.com/denisbrodbeck/machineid v1.0.1
github.com/hashicorp/go-multierror v1.1.1
github.com/hashicorp/raft v1.7.2
github.com/hashicorp/raft-boltdb v0.0.0-20250113192317-e8660f88bcc9
github.com/hashicorp/raft-boltdb/v2 v2.3.1
github.com/pkg/errors v0.9.1
github.com/prometheus/client_golang v1.20.5
github.com/prometheus/common v0.62.0
github.com/rabbitmq/amqp091-go v1.10.0
go.etcd.io/etcd/client/v3 v3.5.18
go.uber.org/zap v1.27.0
google.golang.org/grpc v1.70.0
google.golang.org/protobuf v1.36.5
gopkg.in/ini.v1 v1.67.0
@ -34,8 +37,8 @@ require (
github.com/hashicorp/go-metrics v0.5.4 // indirect
github.com/hashicorp/go-msgpack v1.1.5 // indirect
github.com/hashicorp/go-msgpack/v2 v2.1.2 // indirect
github.com/hashicorp/go-multierror v1.1.1 // indirect
github.com/hashicorp/golang-lru v1.0.2 // indirect
github.com/hashicorp/raft-boltdb v0.0.0-20250113192317-e8660f88bcc9 // indirect
github.com/json-iterator/go v1.1.12 // indirect
github.com/klauspost/compress v1.17.11 // indirect
github.com/mattn/go-colorable v0.1.13 // indirect
@ -43,14 +46,12 @@ require (
github.com/modern-go/concurrent v0.0.0-20180306012644-bacd9c7ef1dd // indirect
github.com/modern-go/reflect2 v1.0.2 // indirect
github.com/munnerz/goautoneg v0.0.0-20191010083416-a7dc8b61c822 // indirect
github.com/pkg/errors v0.9.1 // indirect
github.com/prometheus/client_model v0.6.1 // indirect
github.com/prometheus/common v0.62.0 // indirect
github.com/prometheus/procfs v0.15.1 // indirect
go.etcd.io/bbolt v1.3.5 // indirect
go.etcd.io/etcd/api/v3 v3.5.18 // indirect
go.etcd.io/etcd/client/pkg/v3 v3.5.18 // indirect
go.uber.org/multierr v1.11.0 // indirect
go.uber.org/zap v1.27.0 // indirect
golang.org/x/net v0.35.0 // indirect
golang.org/x/sys v0.30.0 // indirect
golang.org/x/text v0.22.0 // indirect

172
go.sum
View File

@ -1,19 +1,11 @@
cloud.google.com/go v0.26.0/go.mod h1:aQUYkXzVsufM+DwF1aE+0xfcU+56JwCaLick0ClmMTw=
cloud.google.com/go v0.34.0/go.mod h1:aQUYkXzVsufM+DwF1aE+0xfcU+56JwCaLick0ClmMTw=
github.com/BurntSushi/toml v0.3.1/go.mod h1:xHWCNGjB5oqiDr8zfno3MHue2Ht5sIBksp03qcyfWMU=
github.com/DataDog/datadog-go v2.2.0+incompatible/go.mod h1:LButxg5PwREeZtORoXG3tL4fMGNddJ+vMq1mwgfaqoQ=
github.com/DataDog/datadog-go v3.2.0+incompatible/go.mod h1:LButxg5PwREeZtORoXG3tL4fMGNddJ+vMq1mwgfaqoQ=
github.com/DataDog/zstd v1.5.2/go.mod h1:g4AWEaM3yOg3HYfnJ3YIawPnVdXJh9QME85blwSAmyw=
github.com/Jille/raft-grpc-transport v1.6.1 h1:gN3sjapb+fVbiebS7AfQQgbV2ecTOI7ur7NPPC7Mhoc=
github.com/Jille/raft-grpc-transport v1.6.1/go.mod h1:HbOjEdu/yzCJ/mjTF6wEOJNbAUpHfU2UOA2hVD4CNFg=
github.com/OneOfOne/xxhash v1.2.2/go.mod h1:HSdplMjZKSmBqAxg5vPj2TmRDmfkzw+cTzAElWljhcU=
github.com/Sereal/Sereal/Go/sereal v0.0.0-20231009093132-b9187f1a92c6/go.mod h1:JwrycNnC8+sZPDyzM3MQ86LvaGzSpfxg885KOOwFRW4=
github.com/alecthomas/template v0.0.0-20160405071501-a0175ee3bccc/go.mod h1:LOuyumcjzFXgccqObfd/Ljyb9UuFJ6TxHnclSeseNhc=
github.com/alecthomas/template v0.0.0-20190718012654-fb15b899a751/go.mod h1:LOuyumcjzFXgccqObfd/Ljyb9UuFJ6TxHnclSeseNhc=
github.com/alecthomas/units v0.0.0-20151022065526-2efee857e7cf/go.mod h1:ybxpYRFXyAe+OPACYpWeL0wqObRcbAqCMya13uyzqw0=
github.com/alecthomas/units v0.0.0-20190717042225-c3de453c63f4/go.mod h1:ybxpYRFXyAe+OPACYpWeL0wqObRcbAqCMya13uyzqw0=
github.com/alecthomas/units v0.0.0-20190924025748-f65c72e2690d/go.mod h1:rBZYJk541a8SKzHPHnH3zbiI+7dagKZ0cgpgrD7Fyho=
github.com/antihax/optional v1.0.0/go.mod h1:uupD/76wgC+ih3iEmQUL+0Ugr19nfwCT1kdvxnR2qWY=
github.com/armon/go-metrics v0.0.0-20190430140413-ec5e00d3c878/go.mod h1:3AMJUQhVx52RsWOnlkpikZr01T/yAVN2gn0861vByNg=
github.com/armon/go-metrics v0.4.1 h1:hR91U9KYmb6bLBYLQjyM+3j+rcd/UhE+G78SFnF8gJA=
github.com/armon/go-metrics v0.4.1/go.mod h1:E6amYzXo6aW1tqzoZGT755KkbgrJsSdpwZ+3JqfkOG4=
@ -23,17 +15,11 @@ github.com/beorn7/perks v1.0.1 h1:VlbKKnNfV8bJzeqoa4cOKqO6bYr3WgKZxO8Z16+hsOM=
github.com/beorn7/perks v1.0.1/go.mod h1:G2ZrVWU2WbWT9wwq4/hrbKbnv/1ERSJQ0ibhJ6rlkpw=
github.com/boltdb/bolt v1.3.1 h1:JQmyP4ZBrce+ZQu0dY660FMfatumYDLun9hBCUVIkF4=
github.com/boltdb/bolt v1.3.1/go.mod h1:clJnj/oiGkjum5o1McbSZDSLxVThjynRyGBgiAx27Ps=
github.com/census-instrumentation/opencensus-proto v0.2.1/go.mod h1:f6KPmirojxKA12rnyqOA5BBL4O983OfeGPqjHWSTneU=
github.com/cespare/xxhash v1.1.0/go.mod h1:XrSqR1VqqWfGrhpAt58auRo0WTKS1nRRg3ghfAqPWnc=
github.com/cespare/xxhash/v2 v2.1.1/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs=
github.com/cespare/xxhash/v2 v2.3.0 h1:UL815xU9SqsFlibzuggzjXhog7bL6oX9BbNZnL2UFvs=
github.com/cespare/xxhash/v2 v2.3.0/go.mod h1:VGX0DQ3Q6kWi7AoAeZDth3/j3BFtOZR5XLFGgcrjCOs=
github.com/circonus-labs/circonus-gometrics v2.3.1+incompatible/go.mod h1:nmEj6Dob7S7YxXgwXpfOuvO54S+tGdZdw9fuRZt25Ag=
github.com/circonus-labs/circonusllhist v0.1.3/go.mod h1:kMXHVDlOchFAehlya5ePtbp5jckzBHf4XRpQvBOLI+I=
github.com/client9/misspell v0.3.4/go.mod h1:qj6jICC3Q7zFZvVWo7KLAzC3yx5G7kyvSDkc90ppPyw=
github.com/cncf/udpa/go v0.0.0-20191209042840-269d4d468f6f/go.mod h1:M8M6+tZqaGXZJjfX53e64911xZQV5JYwmTeXPW+k8Sc=
github.com/cncf/udpa/go v0.0.0-20201120205902-5459f2c99403/go.mod h1:WmhPx2Nbnhtbo57+VJT5O0JRkEi1Wbu0z5j0R8u5Hbk=
github.com/cncf/xds/go v0.0.0-20210312221358-fbca930ec8ed/go.mod h1:eXthEFrGJvWHgFFCl3hGmgk+/aYT6PnTQLykKQRLhEs=
github.com/coreos/go-semver v0.3.1 h1:yi21YpKnrx1gt5R+la8n5WgS0kCrsPp33dmEyHReZr4=
github.com/coreos/go-semver v0.3.1/go.mod h1:irMmmIw/7yzSRPWryHsK7EYSg09caPQL03VsM8rvUec=
github.com/coreos/go-systemd/v22 v22.5.0 h1:RrqgGjYQKalulkV8NGVIfkXQf6YYmOyiJKk8iXXhfZs=
@ -41,21 +27,11 @@ github.com/coreos/go-systemd/v22 v22.5.0/go.mod h1:Y58oyj3AT4RCenI/lSvhwexgC+NSV
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c=
github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-xdr v0.0.0-20161123171359-e6a2ba005892/go.mod h1:CTDl0pzVzE5DEzZhPfvhY/9sPFMQIxaJ9VAMs9AagrE=
github.com/dchest/siphash v1.2.3/go.mod h1:0NvQU092bT0ipiFN++/rXm69QG9tVxLAlQHIXMPAkHc=
github.com/denisbrodbeck/machineid v1.0.1 h1:geKr9qtkB876mXguW2X6TU4ZynleN6ezuMSRhl4D7AQ=
github.com/denisbrodbeck/machineid v1.0.1/go.mod h1:dJUwb7PTidGDeYyUBmXZ2GphQBbjJCrnectwCyxcUSI=
github.com/dgryski/go-ddmin v0.0.0-20210904190556-96a6d69f1034/go.mod h1:zz4KxBkcXUWKjIcrc+uphJ1gPh/t18ymGm3PmQ+VGTk=
github.com/envoyproxy/go-control-plane v0.9.0/go.mod h1:YTl/9mNaCwkRvm6d1a2C3ymFceY/DCBVvsKhRF0iEA4=
github.com/envoyproxy/go-control-plane v0.9.1-0.20191026205805-5f8ba28d4473/go.mod h1:YTl/9mNaCwkRvm6d1a2C3ymFceY/DCBVvsKhRF0iEA4=
github.com/envoyproxy/go-control-plane v0.9.4/go.mod h1:6rpuAdCZL397s3pYoYcLgu1mIlRU8Am5FuJP05cCM98=
github.com/envoyproxy/go-control-plane v0.9.9-0.20201210154907-fd9021fe5dad/go.mod h1:cXg6YxExXjJnVBQHBLXeUAgxn2UodCpnH306RInaBQk=
github.com/envoyproxy/go-control-plane v0.9.9-0.20210512163311-63b5d3c536b0/go.mod h1:hliV/p42l8fGbc6Y9bQ70uLwIvmJyVE5k4iMKlh8wCQ=
github.com/envoyproxy/protoc-gen-validate v0.1.0/go.mod h1:iSmxcyjqTsJpI2R4NaDN7+kN2VEUnK/pcBlmesArF7c=
github.com/fatih/color v1.13.0/go.mod h1:kLAiJbzzSOZDVNGyDpeOxJ47H46qBXwg5ILebYFFOfk=
github.com/fatih/color v1.15.0 h1:kOqh6YHBtK8aywxGerMG2Eq3H6Qgoqeo13Bk2Mv/nBs=
github.com/fatih/color v1.15.0/go.mod h1:0h5ZqXfHYED7Bhv2ZJamyIOUej9KtShiJESRwBDUSsw=
github.com/ghodss/yaml v1.0.0/go.mod h1:4dBDuWmgqj2HViK6kFavaiC9ZROes6MMH2rRYeMEF04=
github.com/go-kit/kit v0.8.0/go.mod h1:xBxKIO96dXMWWy0MnWVtmwkA9/13aqxPnvrjFYMA2as=
github.com/go-kit/kit v0.9.0/go.mod h1:xBxKIO96dXMWWy0MnWVtmwkA9/13aqxPnvrjFYMA2as=
github.com/go-kit/log v0.1.0/go.mod h1:zbhenjAZHb184qTLMA9ZjW7ThYL0H2mk7Q6pNt4vbaY=
@ -71,42 +47,28 @@ github.com/godbus/dbus/v5 v5.0.4/go.mod h1:xhWf0FNVPg57R7Z0UbKHbJfkEywrmjJnf7w5x
github.com/gogo/protobuf v1.1.1/go.mod h1:r8qH/GZQm5c6nD/R0oafs1akxWv10x8SbQlK7atdtwQ=
github.com/gogo/protobuf v1.3.2 h1:Ov1cvc58UF3b5XjBnZv7+opcTcQFZebYjWzi34vdm4Q=
github.com/gogo/protobuf v1.3.2/go.mod h1:P1XiOD3dCwIKUDQYPy72D8LYyHL2YPYrpS2s69NZV8Q=
github.com/golang/glog v0.0.0-20160126235308-23def4e6c14b/go.mod h1:SBH7ygxi8pfUlaOkMMuAQtPIUF8ecWP5IEl/CR7VP2Q=
github.com/golang/mock v1.1.1/go.mod h1:oTYuIxOrZwtPieC+H1uAHpcLFnEyAGVDL/k47Jfbm0A=
github.com/golang/protobuf v1.2.0/go.mod h1:6lQm79b+lXiMfvg/cZm0SGofjICqVBUtrP5yJMmIC1U=
github.com/golang/protobuf v1.3.1/go.mod h1:6lQm79b+lXiMfvg/cZm0SGofjICqVBUtrP5yJMmIC1U=
github.com/golang/protobuf v1.3.2/go.mod h1:6lQm79b+lXiMfvg/cZm0SGofjICqVBUtrP5yJMmIC1U=
github.com/golang/protobuf v1.3.3/go.mod h1:vzj43D7+SQXF/4pzW/hwtAqwc6iTitCiVSaWz5lYuqw=
github.com/golang/protobuf v1.4.0-rc.1/go.mod h1:ceaxUfeHdC40wWswd/P6IGgMaK3YpKi5j83Wpe3EHw8=
github.com/golang/protobuf v1.4.0-rc.1.0.20200221234624-67d41d38c208/go.mod h1:xKAWHe0F5eneWXFV3EuXVDTCmh+JuBKY0li0aMyXATA=
github.com/golang/protobuf v1.4.0-rc.2/go.mod h1:LlEzMj4AhA7rCAGe4KMBDvJI+AwstrUpVNzEA03Pprs=
github.com/golang/protobuf v1.4.0-rc.4.0.20200313231945-b860323f09d0/go.mod h1:WU3c8KckQ9AFe+yFwt9sWVRKCVIyN9cPHBJSNnbL67w=
github.com/golang/protobuf v1.4.0/go.mod h1:jodUvKwWbYaEsadDk5Fwe5c77LiNKVO9IDvqG2KuDX0=
github.com/golang/protobuf v1.4.1/go.mod h1:U8fpvMrcmy5pZrNK1lt4xCsGvpyWQ/VVv6QDs8UjoX8=
github.com/golang/protobuf v1.4.2/go.mod h1:oDoupMAO8OvCJWAcko0GGGIgR6R6ocIYbsSw735rRwI=
github.com/golang/protobuf v1.4.3/go.mod h1:oDoupMAO8OvCJWAcko0GGGIgR6R6ocIYbsSw735rRwI=
github.com/golang/protobuf v1.5.0/go.mod h1:FsONVRAS9T7sI+LIUmWTfcYkHO4aIWwzhcaSAoJOfIk=
github.com/golang/protobuf v1.5.2/go.mod h1:XVQd3VNwM+JqD3oG2Ue2ip4fOMUkwXdXDdiuN0vRsmY=
github.com/golang/protobuf v1.5.4 h1:i7eJL8qZTpSEXOPTxNKhASYpMn+8e5Q6AdndVa1dWek=
github.com/golang/protobuf v1.5.4/go.mod h1:lnTiLA8Wa4RWRcIUkrtSVa5nRhsEGBg48fD6rSs7xps=
github.com/golang/snappy v0.0.4/go.mod h1:/XxbfmMg8lxefKM7IXC3fBNl/7bRcc72aCRzEWrmP2Q=
github.com/google/go-cmp v0.2.0/go.mod h1:oXzfMopK8JAjlY9xF4vHSVASa0yLyX7SntLO5aqRK0M=
github.com/google/go-cmp v0.3.0/go.mod h1:8QqcDgzrUqlUb/G2PQTWiueGozuR1884gddMywk6iLU=
github.com/google/go-cmp v0.3.1/go.mod h1:8QqcDgzrUqlUb/G2PQTWiueGozuR1884gddMywk6iLU=
github.com/google/go-cmp v0.4.0/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.0/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.4/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.5/go.mod h1:v8dTdLbMG2kIc/vJvl+f65V22dbkXbowE6jgT/gNBxE=
github.com/google/go-cmp v0.5.9/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY=
github.com/google/go-cmp v0.6.0 h1:ofyhxvXcZhMsU5ulbFiLKl/XBFqE1GSq7atu8tAmTRI=
github.com/google/go-cmp v0.6.0/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY=
github.com/google/gofuzz v1.0.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg=
github.com/google/gofuzz v1.2.0 h1:xRy4A+RhZaiKjJ1bPfwQ8sedCA+YS2YcCHW6ec7JMi0=
github.com/google/gofuzz v1.2.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg=
github.com/google/uuid v1.1.2/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo=
github.com/google/uuid v1.6.0 h1:NIvaJDMOsjHA8n1jAhLSgzrAzy1Hgr+hNrb57e+94F0=
github.com/google/uuid v1.6.0/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo=
github.com/grpc-ecosystem/grpc-gateway v1.16.0/go.mod h1:BDjrQk3hbvj6Nolgz8mAMFbcEtjT1g+wF4CSlocrBnw=
github.com/hashicorp/errwrap v1.0.0/go.mod h1:YH+1FKiLXxHSkmPseP+kNlulaMuP3n2brvKWEqk/Jc4=
github.com/hashicorp/errwrap v1.1.0 h1:OxrOeh75EUXMY8TBjag2fzXGZ40LB6IKw45YeGUDY2I=
github.com/hashicorp/errwrap v1.1.0/go.mod h1:YH+1FKiLXxHSkmPseP+kNlulaMuP3n2brvKWEqk/Jc4=
@ -122,7 +84,6 @@ github.com/hashicorp/go-metrics v0.5.4/go.mod h1:CG5yz4NZ/AI/aQt9Ucm/vdBnbh7fvmv
github.com/hashicorp/go-msgpack v0.5.5/go.mod h1:ahLV/dePpqEmjfWmKiqvPkv/twdG7iPBM1vqhUKIvfM=
github.com/hashicorp/go-msgpack v1.1.5 h1:9byZdVjKTe5mce63pRVNP1L7UAmdHOTEMGehn6KvJWs=
github.com/hashicorp/go-msgpack v1.1.5/go.mod h1:gWVc3sv/wbDmR3rQsj1CAktEZzoz1YNK9NfGLXJ69/4=
github.com/hashicorp/go-msgpack/v2 v2.1.1/go.mod h1:upybraOAblm4S7rx0+jeNy+CWWhzywQsSRV5033mMu4=
github.com/hashicorp/go-msgpack/v2 v2.1.2 h1:4Ee8FTp834e+ewB71RDrQ0VKpyFdrKOjvYtnQ/ltVj0=
github.com/hashicorp/go-msgpack/v2 v2.1.2/go.mod h1:upybraOAblm4S7rx0+jeNy+CWWhzywQsSRV5033mMu4=
github.com/hashicorp/go-multierror v1.1.1 h1:H5DkEtf6CXdFp0N0Em5UCwQpXMWke8IA0+lD48awMYo=
@ -131,16 +92,16 @@ github.com/hashicorp/go-retryablehttp v0.5.3/go.mod h1:9B5zBasrRhHXnJnui7y6sL7es
github.com/hashicorp/go-uuid v1.0.0 h1:RS8zrF7PhGwyNPOtxSClXXj9HA8feRnJzgnI1RJCSnM=
github.com/hashicorp/go-uuid v1.0.0/go.mod h1:6SBZvOh/SIDV7/2o3Jml5SYk/TvGqwFJ/bN7x4byOro=
github.com/hashicorp/golang-lru v0.5.0/go.mod h1:/m3WP610KZHVQ1SGc6re/UDhFvYD7pJ4Ao+sR/qLZy8=
github.com/hashicorp/golang-lru v0.5.4/go.mod h1:iADmTwqILo4mZ8BN3D2Q6+9jd8WM5uGBxy+E8yxSoD4=
github.com/hashicorp/golang-lru v1.0.2 h1:dV3g9Z/unq5DpblPpw+Oqcv4dU/1omnb4Ok8iPY6p1c=
github.com/hashicorp/golang-lru v1.0.2/go.mod h1:iADmTwqILo4mZ8BN3D2Q6+9jd8WM5uGBxy+E8yxSoD4=
github.com/hashicorp/raft v1.1.0/go.mod h1:4Ak7FSPnuvmb0GV6vgIAJ4vYT4bek9bb6Q+7HVbyzqM=
github.com/hashicorp/raft v1.7.0/go.mod h1:N1sKh6Vn47mrWvEArQgILTyng8GoDRNYlgKyK7PMjs0=
github.com/hashicorp/raft v1.7.2 h1:pyvxhfJ4R8VIAlHKvLoKQWElZspsCVT6YWuxVxsPAgc=
github.com/hashicorp/raft v1.7.2/go.mod h1:DfvCGFxpAUPE0L4Uc8JLlTPtc3GzSbdH0MTJCLgnmJQ=
github.com/hashicorp/raft-boltdb v0.0.0-20250113192317-e8660f88bcc9 h1:DtRY4x+oreq0BTrrfF66XeCg6DPJuR2AL4Ejeipau/A=
github.com/hashicorp/raft-boltdb v0.0.0-20250113192317-e8660f88bcc9/go.mod h1:FLQZr+lEOtW/5JZQCqRihQOrmyqWRqpJ+pP1gjb8XTE=
github.com/josharian/intern v1.0.0/go.mod h1:5DoeVV0s6jJacbCEi61lwdGj/aVlrQvzHFFd8Hwg//Y=
github.com/hashicorp/raft-boltdb/v2 v2.3.1 h1:ackhdCNPKblmOhjEU9+4lHSJYFkJd6Jqyvj6eW9pwkc=
github.com/hashicorp/raft-boltdb/v2 v2.3.1/go.mod h1:n4S+g43dXF1tqDT+yzcXHhXM6y7MrlUd3TTwGRcUvQE=
github.com/jpillora/backoff v1.0.0 h1:uvFg412JmmHBHw7iwprIxkPMI+sGQ4kzOWsMeHnm2EA=
github.com/jpillora/backoff v1.0.0/go.mod h1:J/6gKK9jxlEcS3zixgDgUAsiuZ7yrSoa/FX5e0EB2j4=
github.com/json-iterator/go v1.1.6/go.mod h1:+SdeFBvtyEkXs7REEP0seUULqWtbJapLOCVDaaPEHmU=
github.com/json-iterator/go v1.1.9/go.mod h1:KdQUCv79m/52Kvf8AW2vK1V8akMuk1QjK/uOdHXbAo4=
@ -158,12 +119,10 @@ github.com/konsorten/go-windows-terminal-sequences v1.0.1/go.mod h1:T0+1ngSBFLxv
github.com/konsorten/go-windows-terminal-sequences v1.0.3/go.mod h1:T0+1ngSBFLxvqU3pZ+m/2kptfBszLMUkC4ZK/EgS/cQ=
github.com/kr/logfmt v0.0.0-20140226030751-b84e30acd515/go.mod h1:+0opPa2QZZtGFBFZlji/RkVcI2GknAs/DXo4wKdlNEc=
github.com/kr/pretty v0.1.0/go.mod h1:dAy3ld7l9f0ibDNOQOHHMYYIIbhfbHSm3C4ZsoJORNo=
github.com/kr/pretty v0.2.1/go.mod h1:ipq/a2n7PKx3OHsz4KJII5eveXtPO4qwEXGdVfWzfnI=
github.com/kr/pty v1.1.1/go.mod h1:pFQYn66WHrOpPYNljwOMqo10TkYh1fy3cYio2l3bCsQ=
github.com/kr/text v0.1.0/go.mod h1:4Jbv+DJW3UT/LiOwJeYQe1efqtUx/iVham/4vfdArNI=
github.com/kylelemons/godebug v1.1.0 h1:RPNrshWIDI6G2gRW9EHilWtl7Z6Sb1BR0xunSBf0SNc=
github.com/kylelemons/godebug v1.1.0/go.mod h1:9/0rRGxNHcop5bhtWyNeEfOS8JIWk580+fNqagV/RAw=
github.com/mailru/easyjson v0.7.7/go.mod h1:xzfreul335JAWq5oZzymOObrkdz5UnU4kGfJJLY9Nlc=
github.com/mattn/go-colorable v0.1.9/go.mod h1:u6P/XSegPjTcexA+o6vUJrdnUu04hMope9wVRipJSqc=
github.com/mattn/go-colorable v0.1.12/go.mod h1:u5H1YNBxpqRaxsYJYSkiCWKzEfiAb1Gb520KVy5xxl4=
github.com/mattn/go-colorable v0.1.13 h1:fFA4WZxdEF4tXPZVKMLwD8oUnCTTo08duU7wxecdEvA=
@ -184,17 +143,16 @@ github.com/modern-go/reflect2 v1.0.2/go.mod h1:yWuevngMOJpCy52FWWMvUC8ws7m/LJsjY
github.com/munnerz/goautoneg v0.0.0-20191010083416-a7dc8b61c822 h1:C3w9PqII01/Oq1c1nUAm88MOHcQC9l5mIlSMApZMrHA=
github.com/munnerz/goautoneg v0.0.0-20191010083416-a7dc8b61c822/go.mod h1:+n7T8mK8HuQTcFwEeznm/DIxMOiR9yIdICNftLE1DvQ=
github.com/mwitkow/go-conntrack v0.0.0-20161129095857-cc309e4a2223/go.mod h1:qRWi+5nqEBWmkhHvq77mSJWrCKwh8bxhgT7d/eI7P4U=
github.com/mwitkow/go-conntrack v0.0.0-20190716064945-2f068394615f h1:KUppIJq7/+SVif2QVs3tOP0zanoHgBEVAwHxUSIzRqU=
github.com/mwitkow/go-conntrack v0.0.0-20190716064945-2f068394615f/go.mod h1:qRWi+5nqEBWmkhHvq77mSJWrCKwh8bxhgT7d/eI7P4U=
github.com/pascaldekloe/goe v0.1.0 h1:cBOtyMzM9HTpWjXfbbunk26uA6nG3a8n06Wieeh0MwY=
github.com/pascaldekloe/goe v0.1.0/go.mod h1:lzWF7FIEvWOWxwDKqyGYQf6ZUaNfKdP144TG7ZOy1lc=
github.com/philhofer/fwd v1.1.2/go.mod h1:qkPdfjR2SIEbspLqpe1tO4n5yICnr2DY7mqEx2tUTP0=
github.com/pkg/errors v0.8.0/go.mod h1:bwawxfHBFNV+L2hUp1rHADufV3IMtnDRdf1r5NINEl0=
github.com/pkg/errors v0.8.1/go.mod h1:bwawxfHBFNV+L2hUp1rHADufV3IMtnDRdf1r5NINEl0=
github.com/pkg/errors v0.9.1 h1:FEBLx1zS214owpjy7qsBeixbURkuhQAwrK5UwLGTwt4=
github.com/pkg/errors v0.9.1/go.mod h1:bwawxfHBFNV+L2hUp1rHADufV3IMtnDRdf1r5NINEl0=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/pquerna/ffjson v0.0.0-20190930134022-aa0246cd15f7/go.mod h1:YARuvh7BUWHNhzDq2OM5tzR2RiCcN2D7sapiKyCel/M=
github.com/prometheus/client_golang v0.9.1/go.mod h1:7SWBe2y4D6OKWSNQJUaRYU/AaXPKyh/dDVn+NZz0KFw=
github.com/prometheus/client_golang v0.9.2/go.mod h1:OsXs2jCmiKlQ1lTBmv21f2mNfw4xf/QclQDMrYNZzcM=
github.com/prometheus/client_golang v1.0.0/go.mod h1:db9x61etRT2tGnBNRi70OPL5FsnadC4Ky3P0J6CfImo=
@ -205,7 +163,6 @@ github.com/prometheus/client_golang v1.20.5 h1:cxppBPuYhUnsO6yo/aoRol4L7q7UFfdm+
github.com/prometheus/client_golang v1.20.5/go.mod h1:PIEt8X02hGcP8JWbeHyeZ53Y/jReSnHgO035n//V5WE=
github.com/prometheus/client_model v0.0.0-20180712105110-5c3871d89910/go.mod h1:MbSGuTsp3dbXC40dX6PRTWyKYBIrTGTE9sqQNg2J8bo=
github.com/prometheus/client_model v0.0.0-20190129233127-fd36f4220a90/go.mod h1:xMI15A0UPsDsEKsMN9yxemIoYk6Tm2C1GtYGdfGttqA=
github.com/prometheus/client_model v0.0.0-20190812154241-14fe0d1b01d4/go.mod h1:xMI15A0UPsDsEKsMN9yxemIoYk6Tm2C1GtYGdfGttqA=
github.com/prometheus/client_model v0.2.0/go.mod h1:xMI15A0UPsDsEKsMN9yxemIoYk6Tm2C1GtYGdfGttqA=
github.com/prometheus/client_model v0.6.1 h1:ZKSh/rekM+n3CeS952MLRAdFwIKqeY8b62p8ais2e9E=
github.com/prometheus/client_model v0.6.1/go.mod h1:OrxVMOVHjw3lKMa8+x6HeMGkHMQyHDk9E3jmP2AmGiY=
@ -226,33 +183,22 @@ github.com/prometheus/procfs v0.15.1 h1:YagwOFzUgYfKKHX6Dr+sHT7km/hxC76UB0leargg
github.com/prometheus/procfs v0.15.1/go.mod h1:fB45yRUv8NstnjriLhBQLuOUt+WW4BsoGhij/e3PBqk=
github.com/rabbitmq/amqp091-go v1.10.0 h1:STpn5XsHlHGcecLmMFCtg7mqq0RnD+zFr4uzukfVhBw=
github.com/rabbitmq/amqp091-go v1.10.0/go.mod h1:Hy4jKW5kQART1u+JkDTF9YYOQUHXqMuhrgxOEeS7G4o=
github.com/rogpeppe/fastuuid v1.2.0/go.mod h1:jVj6XXZzXRy/MSR5jhDC/2q6DgLz+nrA6LYCDYWNEvQ=
github.com/sirupsen/logrus v1.2.0/go.mod h1:LxeOpSwHxABJmUn/MG1IvRgCAasNZTLOkJPxbbu5VWo=
github.com/sirupsen/logrus v1.4.2/go.mod h1:tLMulIdttU9McNUspp0xgXVQah82FyeX6MwdIuYE2rE=
github.com/sirupsen/logrus v1.6.0/go.mod h1:7uNnSEd1DgxDLC74fIahvMZmmYsHGZGEOFrfsX/uA88=
github.com/spaolacci/murmur3 v0.0.0-20180118202830-f09979ecbc72/go.mod h1:JwIasOWyU6f++ZhiEuf87xNszmSA2myDM2Kzu9HwQUA=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/objx v0.1.1/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/objx v0.4.0/go.mod h1:YvHI0jy2hoMjB+UWwv71VJQ9isScKT/TqJzVSSt89Yw=
github.com/stretchr/objx v0.5.0/go.mod h1:Yh+to48EsGEfYuaHDzXPcE3xhTkx73EhmCGUpEOglKo=
github.com/stretchr/testify v1.2.2/go.mod h1:a8OnRcib4nhh0OaRAV+Yts87kKdq0PP7pXfy6kDkUVs=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=
github.com/stretchr/testify v1.4.0/go.mod h1:j7eGeouHqKxXV5pUuKE4zz7dFj8WfuZ+81PSLYec5m4=
github.com/stretchr/testify v1.5.1/go.mod h1:5W2xD1RspED5o8YsWQXVCued0rvSQ+mT+I5cxcmMvtA=
github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.7.1/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.7.2/go.mod h1:R6va5+xMeoiuVRoj+gSkQ7d3FALtqAAGI1FQKckRals=
github.com/stretchr/testify v1.8.0/go.mod h1:yNjHg4UonilssWZ8iaSj1OCr/vHnekPRkoO+kdMU+MU=
github.com/stretchr/testify v1.8.2/go.mod h1:w2LPCIKwWwSfY2zedu0+kehJoqGctiVI29o6fzry7u4=
github.com/stretchr/testify v1.8.4/go.mod h1:sz/lmYIOXD/1dqDmKjjqLyZ2RngseejIcXlSw2iwfAo=
github.com/stretchr/testify v1.10.0 h1:Xv5erBjTwe/5IxqUQTdXv5kgmIvbHo3QQyRwhJsOfJA=
github.com/stretchr/testify v1.10.0/go.mod h1:r2ic/lqez/lEtzL7wO/rwa5dbSLXVDPFyf8C91i36aY=
github.com/tinylib/msgp v1.1.8/go.mod h1:qkpG+2ldGg4xRFmx+jfTvZPxfGFhi64BcnL9vkCm/Tw=
github.com/tv42/httpunix v0.0.0-20150427012821-b75d8614f926/go.mod h1:9ESjWnEqriFuLhtthL60Sar/7RFoluCcXsuvEwTV5KM=
github.com/yuin/goldmark v1.1.27/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74=
github.com/yuin/goldmark v1.2.1/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74=
github.com/yuin/goldmark v1.3.5/go.mod h1:mwnBkeHKe2W/ZEtQ+71ViKU8L12m81fl3OWwC1Zlc8k=
github.com/yuin/goldmark v1.4.13/go.mod h1:6yULJ656Px+3vBD8DxQVa3kxgyrAnzto9xy5taEt/CY=
go.etcd.io/bbolt v1.3.5 h1:XAzx9gjCb0Rxj7EoqcClPD1d5ZBxZJk0jbuoPHenBt0=
go.etcd.io/bbolt v1.3.5/go.mod h1:G5EMThwa9y8QZGBClrRx5EY+Yw9kAhnjy3bSjsnlVTQ=
go.etcd.io/etcd/api/v3 v3.5.18 h1:Q4oDAKnmwqTo5lafvB+afbgCDF7E35E4EYV2g+FNGhs=
go.etcd.io/etcd/api/v3 v3.5.18/go.mod h1:uY03Ob2H50077J7Qq0DeehjM/A9S8PhVfbQ1mSaMopU=
go.etcd.io/etcd/client/pkg/v3 v3.5.18 h1:mZPOYw4h8rTk7TeJ5+3udUkfVGBqc+GCjOJYd68QgNM=
@ -269,8 +215,6 @@ go.opentelemetry.io/otel/sdk/metric v1.32.0 h1:rZvFnvmvawYb0alrYkjraqJq0Z4ZUJAiy
go.opentelemetry.io/otel/sdk/metric v1.32.0/go.mod h1:PWeZlq0zt9YkYAp3gjKZ0eicRYvOh1Gd+X99x6GHpCQ=
go.opentelemetry.io/otel/trace v1.32.0 h1:WIC9mYrXf8TmY/EXuULKc8hR17vE+Hjv2cssQDe03fM=
go.opentelemetry.io/otel/trace v1.32.0/go.mod h1:+i4rkvCraA+tG6AzwloGaCtkx53Fa+L+V8e9a7YvhT8=
go.opentelemetry.io/proto/otlp v0.7.0/go.mod h1:PqfVotwruBrMGOCsRd/89rSnXhoiJIqeYNgFYFoEGnI=
go.uber.org/goleak v1.1.12/go.mod h1:cwTWslyiVhfpKIDGSZEM2HlOvcqm+tG4zioyIeLoqMQ=
go.uber.org/goleak v1.3.0 h1:2K3zAYmnTNqV73imy9J1T3WC+gmCePx2hEGkimedGto=
go.uber.org/goleak v1.3.0/go.mod h1:CoHD4mav9JJNrW/WLlf7HGZPjdw8EucARQHekz1X6bE=
go.uber.org/multierr v1.11.0 h1:blXXJkSxSSfBVBlC76pxqeO+LN3aDfLQo+309xJstO0=
@ -281,65 +225,30 @@ golang.org/x/crypto v0.0.0-20180904163835-0709b304e793/go.mod h1:6SG95UA2DQfeDnf
golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w=
golang.org/x/crypto v0.0.0-20191011191535-87dc89f01550/go.mod h1:yigFU9vqHzYiE8UmvKecakEJjdnWj3jj499lnFckfCI=
golang.org/x/crypto v0.0.0-20200622213623-75b288015ac9/go.mod h1:LzIPMQfyMNhhGPhUkYOs5KpL4U8rLKemX1yGLhDgUto=
golang.org/x/crypto v0.0.0-20210921155107-089bfa567519/go.mod h1:GvvjBRRGRdwPK5ydBHafDWAxML/pGHZbMvKqRZ5+Abc=
golang.org/x/crypto v0.13.0/go.mod h1:y6Z2r+Rw4iayiXXAIxJIDAJ1zMW4yaTpebo8fPOliYc=
golang.org/x/crypto v0.14.0/go.mod h1:MVFd36DqK4CsrnJYDkBA3VC4m2GkXAM0PvzMCn4JQf4=
golang.org/x/exp v0.0.0-20190121172915-509febef88a4/go.mod h1:CJ0aWSM057203Lf6IL+f9T1iT9GByDxfZKAQTCR3kQA=
golang.org/x/lint v0.0.0-20181026193005-c67002cb31c3/go.mod h1:UVdnD1Gm6xHRNCYTkRU2/jEulfH38KcIWyp/GAMgvoE=
golang.org/x/lint v0.0.0-20190227174305-5b3e6a55c961/go.mod h1:wehouNa3lNwaWXcvxsM5YxQ5yQlVC4a0KAMCusXpPoU=
golang.org/x/lint v0.0.0-20190313153728-d0100b6bd8b3/go.mod h1:6SW0HCj/g11FgYtHlgUYUwCkIfeOF89ocIRzGO/8vkc=
golang.org/x/lint v0.0.0-20190930215403-16217165b5de/go.mod h1:6SW0HCj/g11FgYtHlgUYUwCkIfeOF89ocIRzGO/8vkc=
golang.org/x/lint v0.0.0-20210508222113-6edffad5e616/go.mod h1:3xt1FjdF8hUf6vQPIChWIBhFzV8gjjsPE/fR3IyQdNY=
golang.org/x/mod v0.1.1-0.20191105210325-c90efee705ee/go.mod h1:QqPTAvyqsEbceGzBzNggFXnrqF1CaUcvgkdR5Ot7KZg=
golang.org/x/mod v0.2.0/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA=
golang.org/x/mod v0.3.0/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA=
golang.org/x/mod v0.4.2/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA=
golang.org/x/mod v0.6.0-dev.0.20220419223038-86c51ed26bb4/go.mod h1:jJ57K6gSWd91VN4djpZkiMVwK6gcyfeH4XE8wZrZaV4=
golang.org/x/mod v0.7.0/go.mod h1:iBbtSCu2XBx23ZKBPSOrRkjjQPZFPuis4dIYUhu/chs=
golang.org/x/mod v0.8.0/go.mod h1:iBbtSCu2XBx23ZKBPSOrRkjjQPZFPuis4dIYUhu/chs=
golang.org/x/mod v0.12.0/go.mod h1:iBbtSCu2XBx23ZKBPSOrRkjjQPZFPuis4dIYUhu/chs=
golang.org/x/mod v0.13.0/go.mod h1:hTbmBsO62+eylJbnUtE2MGJUyE7QWk4xUqPFrRgJ+7c=
golang.org/x/net v0.0.0-20180724234803-3673e40ba225/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20180826012351-8a410e7b638d/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20181114220301-adae6a3d119a/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20181201002055-351d144fa1fc/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20190108225652-1e06a53dbb7e/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20190213061140-3a22650c66bd/go.mod h1:mL1N/T3taQHkDXs73rZJwtUhF3w3ftmwwsq0BUmARs4=
golang.org/x/net v0.0.0-20190311183353-d8887717615a/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg=
golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg=
golang.org/x/net v0.0.0-20190603091049-60506f45cf65/go.mod h1:HSz+uSET+XFnRR8LxR5pz3Of3rY3CfYBVs4xY44aLks=
golang.org/x/net v0.0.0-20190613194153-d28f0bde5980/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20190620200207-3b0461eec859/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20200226121028-0de0cce0169b/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20200625001655-4c5254603344/go.mod h1:/O7V0waA8r7cgGh81Ro3o1hOxt32SMVPicZroKQ2sZA=
golang.org/x/net v0.0.0-20200822124328-c89045814202/go.mod h1:/O7V0waA8r7cgGh81Ro3o1hOxt32SMVPicZroKQ2sZA=
golang.org/x/net v0.0.0-20201021035429-f5854403a974/go.mod h1:sp8m0HH+o8qH0wwXwYZr8TS3Oi6o0r6Gce1SSxlDquU=
golang.org/x/net v0.0.0-20210226172049-e18ecbb05110/go.mod h1:m0MpNAwzfU5UDzcl9v0D8zg8gWTRqZa9RBIspLL5mdg=
golang.org/x/net v0.0.0-20210405180319-a5a99cb37ef4/go.mod h1:p54w0d4576C0XHj96bSt6lcn1PtDYWL6XObtHCRCNQM=
golang.org/x/net v0.0.0-20220722155237-a158d28d115b/go.mod h1:XRhObCWvk6IyKnWLug+ECip1KBveYUHfp+8e9klMJ9c=
golang.org/x/net v0.3.0/go.mod h1:MBQ8lrhLObU/6UmLb4fmbmk5OcyYmqtbGd/9yIeKjEE=
golang.org/x/net v0.6.0/go.mod h1:2Tu9+aMcznHK/AK1HMvgo6xiTLG5rD5rZLDS+rp2Bjs=
golang.org/x/net v0.10.0/go.mod h1:0qNGK6F8kojg2nk9dLZ2mShWaEBan6FAoqfSigmmuDg=
golang.org/x/net v0.15.0/go.mod h1:idbUs1IY1+zTqbi8yxTbhexhEEk5ur9LInksu6HrEpk=
golang.org/x/net v0.16.0/go.mod h1:NxSsAGuq816PNPmqtQdLE42eU2Fs7NoRIZrHJAlaCOE=
golang.org/x/net v0.35.0 h1:T5GQRQb2y08kTAByq9L4/bz8cipCdA8FbRTXewonqY8=
golang.org/x/net v0.35.0/go.mod h1:EglIi67kWsHKlRzzVMUD93VMSWGFOMSZgxFjparz1Qk=
golang.org/x/oauth2 v0.0.0-20180821212333-d2e6202438be/go.mod h1:N/0e6XlmueqKjAGxoOufVs8QHGRruUQn6yWY3a++T0U=
golang.org/x/oauth2 v0.0.0-20190226205417-e64efc72b421/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw=
golang.org/x/oauth2 v0.0.0-20200107190931-bf48bf16ab8d/go.mod h1:gOpvHmFTYa4IltrdGE7lF6nIHvwfUNPOp7c8zoXwtLw=
golang.org/x/sync v0.0.0-20180314180146-1d60e4601c6f/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/oauth2 v0.24.0 h1:KTBBxWqUa0ykRPLtV69rRto9TLXcqYkeswu48x/gvNE=
golang.org/x/oauth2 v0.24.0/go.mod h1:XYTD2NtWslqkgxebSiOHnXEap4TF09sJSc7H1sXbhtI=
golang.org/x/sync v0.0.0-20181108010431-42b317875d0f/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20181221193216-37e7f081c4d4/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20190423024810-112230192c58/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20190911185100-cd5d95a43a6e/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20201020160332-67f06af15bc9/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20201207232520-09787c993a3a/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20210220032951-036812b2e83c/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20220722155255-886fb9371eb4/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.1.0/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.3.0/go.mod h1:FU7BRWz2tNW+3quACPkgCx/L+uEAv1htQ0V83Z9Rj+Y=
golang.org/x/sync v0.4.0/go.mod h1:FU7BRWz2tNW+3quACPkgCx/L+uEAv1htQ0V83Z9Rj+Y=
golang.org/x/sys v0.0.0-20180830151530-49385e6e1522/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20180905080454-ebe1bf3edb33/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20181116152217-5ac8a444bdc5/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
@ -348,88 +257,40 @@ golang.org/x/sys v0.0.0-20190422165155-953cdadca894/go.mod h1:h1NjWce9XRLGQEsW7w
golang.org/x/sys v0.0.0-20200106162015-b016eb3dc98e/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200116001909-b77594299b42/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200122134326-e047566fdf82/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200202164722-d101bd2416d5/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200223170610-d5e6a3e2c0ae/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200323222414-85ca7c5b95cd/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200615200032-f1bc736245b1/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200625212154-ddb9806d33ae/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200930185726-fdedc70b468f/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210124154548-22da62e12c0c/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210330210617-4fbd30eecc44/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210510120138-977fb7262007/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20210603081109-ebe580a85c40/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20210615035016-665e8c7367d1/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20210630005230-0f9fa26af87c/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20210927094055-39ccf1dd6fa6/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220503163025-988cb79eb6c6/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220520151302-bc2c85ada10a/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220722155257-8c9f86f7a55f/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220811171246-fbc7d0a398ab/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.3.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.5.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.6.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.8.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.12.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.13.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.30.0 h1:QjkSwP/36a20jFYWkSue1YwXzLmsV5Gfq7Eiy72C1uc=
golang.org/x/sys v0.30.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo=
golang.org/x/term v0.0.0-20210927222741-03fcf44c2211/go.mod h1:jbD1KX2456YbFQfuXm/mYQcufACuNUgVhRMnK/tPxf8=
golang.org/x/term v0.3.0/go.mod h1:q750SLmJuPmVoN1blW3UFBPREJfb1KmY3vwxfr+nFDA=
golang.org/x/term v0.5.0/go.mod h1:jMB1sMXY+tzblOD4FWmEbocvup2/aLOaQEp7JmGp78k=
golang.org/x/term v0.8.0/go.mod h1:xPskH00ivmX89bAKVGSKKtLOWNx2+17Eiy94tnKShWo=
golang.org/x/term v0.12.0/go.mod h1:owVbMEjm3cBLCHdkQu9b1opXd4ETQWc3BhuQGKgXgvU=
golang.org/x/term v0.13.0/go.mod h1:LTmsnFJwVN6bCy1rVCoS+qHT1HhALEFxKncY3WNNh4U=
golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
golang.org/x/text v0.3.2/go.mod h1:bEr9sfX3Q8Zfm5fL9x+3itogRgK3+ptLWKqgva+5dAk=
golang.org/x/text v0.3.3/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/text v0.3.5/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/text v0.3.7/go.mod h1:u+2+/6zg+i71rQMx5EYifcz6MCKuco9NR6JIITiCfzQ=
golang.org/x/text v0.5.0/go.mod h1:mrYo+phRRbMaCq/xk9113O4dZlRixOauAjOtrjsXDZ8=
golang.org/x/text v0.7.0/go.mod h1:mrYo+phRRbMaCq/xk9113O4dZlRixOauAjOtrjsXDZ8=
golang.org/x/text v0.9.0/go.mod h1:e1OnstbJyHTd6l/uOt8jFFHp6TRDWZR/bV3emEE/zU8=
golang.org/x/text v0.13.0/go.mod h1:TvPlkZtksWOMsz7fbANvkp4WM8x/WCo/om8BMLbz+aE=
golang.org/x/text v0.22.0 h1:bofq7m3/HAFvbF51jz3Q9wLg3jkvSPuiZu/pD1XwgtM=
golang.org/x/text v0.22.0/go.mod h1:YRoo4H8PVmsu+E3Ou7cqLVH8oXWIHVoX0jqUWALQhfY=
golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ=
golang.org/x/tools v0.0.0-20190114222345-bf090417da8b/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ=
golang.org/x/tools v0.0.0-20190226205152-f727befe758c/go.mod h1:9Yl7xja0Znq3iFh3HoIrodX9oNMXvdceNzlUR8zjMvY=
golang.org/x/tools v0.0.0-20190311212946-11955173bddd/go.mod h1:LCzVGOaR6xXOjkQ3onu1FJEFr0SW1gC7cKk1uF8kGRs=
golang.org/x/tools v0.0.0-20190424220101-1e8e1cfdf96b/go.mod h1:RgjU9mgBXZiqYHBnxXauZ1Gv1EHHAz9KjViQ78xBX0Q=
golang.org/x/tools v0.0.0-20190524140312-2c0ae7006135/go.mod h1:RgjU9mgBXZiqYHBnxXauZ1Gv1EHHAz9KjViQ78xBX0Q=
golang.org/x/tools v0.0.0-20191119224855-298f0cb1881e/go.mod h1:b+2E5dAYhXwXZwtnZ6UAqBI28+e2cm9otk0dWdXHAEo=
golang.org/x/tools v0.0.0-20200130002326-2f3ba24bd6e7/go.mod h1:TB2adYChydJhpapKDTa4BR/hXlZSLoq2Wpct/0txZ28=
golang.org/x/tools v0.0.0-20200619180055-7c47624df98f/go.mod h1:EkVYQZoAsY45+roYkvgYkIh4xh/qjgUK9TdY2XT94GE=
golang.org/x/tools v0.0.0-20210106214847-113979e3529a/go.mod h1:emZCQorbCU4vsT4fOWvOPXz4eW1wZW4PmDk9uLelYpA=
golang.org/x/tools v0.1.5/go.mod h1:o0xws9oXOQQZyjljx8fwUC0k7L1pTE6eaCbjGeHmOkk=
golang.org/x/tools v0.1.12/go.mod h1:hNGJHUnrk76NpqgfD5Aqm5Crs+Hm0VOH/i9J2+nxYbc=
golang.org/x/tools v0.4.0/go.mod h1:UE5sM2OK9E/d67R0ANs2xJizIymRP5gJU295PvKXxjQ=
golang.org/x/tools v0.6.0/go.mod h1:Xwgl3UAJ/d3gWutnCtw505GrjyAbvKui8lOU390QaIU=
golang.org/x/tools v0.13.0/go.mod h1:HvlwmtVNQAhOuCjW7xxvovg8wbNq7LwfXh/k7wXUl58=
golang.org/x/tools v0.14.0/go.mod h1:uYBEerGOWcJyEORxN+Ek8+TT266gXkNlHdJBwexUsBg=
golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=
golang.org/x/xerrors v0.0.0-20191011141410-1b5146add898/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=
golang.org/x/xerrors v0.0.0-20191204190536-9bdfabe68543/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=
golang.org/x/xerrors v0.0.0-20200804184101-5ec99f83aff1/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=
google.golang.org/appengine v1.1.0/go.mod h1:EbEs0AVv82hx2wNQdGPgUI5lhzA/G0D9YwlJXL52JkM=
google.golang.org/appengine v1.4.0/go.mod h1:xpcJRLb0r/rnEns0DIKYYv+WjYCduHsrkT7/EB5XEv4=
google.golang.org/appengine v1.6.7/go.mod h1:8WjMMxjGQR8xUklV/ARdw2HLXBOI7O7uCIDZVag1xfc=
google.golang.org/genproto v0.0.0-20180817151627-c66870c02cf8/go.mod h1:JiN7NxoALGmiZfu7CAH4rXhgtRTLTxftemlI0sWmxmc=
google.golang.org/genproto v0.0.0-20190819201941-24fa4b261c55/go.mod h1:DMBHOl98Agz4BDEuKkezgsaosCRResVns1a3J2ZsMNc=
google.golang.org/genproto v0.0.0-20200513103714-09dca8ec2884/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
google.golang.org/genproto v0.0.0-20200526211855-cb27e3aa2013/go.mod h1:NbSheEEYHJ7i3ixzK3sjbqSGDJWnxyFXZblF3eUsNvo=
google.golang.org/genproto v0.0.0-20210903162649-d08c68adba83/go.mod h1:eFjDcFEctNawg4eG61bRv87N7iHBWyVhJu7u1kqDUXY=
google.golang.org/genproto/googleapis/api v0.0.0-20250207221924-e9438ea467c6 h1:L9JNMl/plZH9wmzQUHleO/ZZDSN+9Gh41wPczNy+5Fk=
google.golang.org/genproto/googleapis/api v0.0.0-20250207221924-e9438ea467c6/go.mod h1:iYONQfRdizDB8JJBybql13nArx91jcUk7zCXEsOofM4=
google.golang.org/genproto/googleapis/rpc v0.0.0-20250207221924-e9438ea467c6 h1:2duwAxN2+k0xLNpjnHTXoMUgnv6VPSp5fiqTuwSxjmI=
google.golang.org/genproto/googleapis/rpc v0.0.0-20250207221924-e9438ea467c6/go.mod h1:8BS3B93F/U1juMFq9+EDk+qOT5CO1R9IzXxG3PTqiRk=
google.golang.org/grpc v1.19.0/go.mod h1:mqu4LbDTu4XGKhr4mRzUsmM4RtVoemTSY81AxZiDr8c=
google.golang.org/grpc v1.23.0/go.mod h1:Y5yQAOtifL1yxbo5wqy6BxZv8vAUGQwXBOALyacEbxg=
google.golang.org/grpc v1.25.1/go.mod h1:c3i+UQWmh7LiEpx4sFZnkU36qjEYZ0imhYfXVyQciAY=
google.golang.org/grpc v1.27.0/go.mod h1:qbnxyOmOxrQa7FizSgH+ReBfzJrCY1pSN7KXBS8abTk=
google.golang.org/grpc v1.33.1/go.mod h1:fr5YgcSWrqhRRxogOsw7RzIpsmvOZ6IcH4kBYTpR3n0=
google.golang.org/grpc v1.36.0/go.mod h1:qjiiYl8FncCW8feJPdyg3v6XW24KsRHe+dy9BAGRRjU=
google.golang.org/grpc v1.40.0/go.mod h1:ogyxbiOoUXAkP+4+xa6PZSE9DZgIHtSpzjDTB9KAK34=
google.golang.org/grpc v1.70.0 h1:pWFv03aZoHzlRKHWicjsZytKAiYCtNS0dHbXnIdq7jQ=
google.golang.org/grpc v1.70.0/go.mod h1:ofIJqVKDXx/JiXrwr2IG4/zwdH9txy3IlF40RmcJSQw=
google.golang.org/protobuf v0.0.0-20200109180630-ec00e32a8dfd/go.mod h1:DFci5gLYBciE7Vtevhsrf46CRTquxDuWsQurQQe4oz8=
@ -437,36 +298,23 @@ google.golang.org/protobuf v0.0.0-20200221191635-4d8936d0db64/go.mod h1:kwYJMbMJ
google.golang.org/protobuf v0.0.0-20200228230310-ab0ca4ff8a60/go.mod h1:cfTl7dwQJ+fmap5saPgwCLgHXTUD7jkjRqWcaiX5VyM=
google.golang.org/protobuf v1.20.1-0.20200309200217-e05f789c0967/go.mod h1:A+miEFZTKqfCUM6K7xSMQL9OKL/b6hQv+e19PK+JZNE=
google.golang.org/protobuf v1.21.0/go.mod h1:47Nbq4nVaFHyn7ilMalzfO3qCViNmqZ2kzikPIcrTAo=
google.golang.org/protobuf v1.22.0/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
google.golang.org/protobuf v1.23.0/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
google.golang.org/protobuf v1.23.1-0.20200526195155-81db48ad09cc/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
google.golang.org/protobuf v1.25.0/go.mod h1:9JNX74DMeImyA3h4bdi1ymwjUzf21/xIlbajtzgsN7c=
google.golang.org/protobuf v1.26.0-rc.1/go.mod h1:jlhhOSvTdKEhbULTjvd4ARK9grFBp09yW+WbY/TyQbw=
google.golang.org/protobuf v1.26.0/go.mod h1:9q0QmTI4eRPtz6boOQmLYwt+qCgq0jsYwAQnmE0givc=
google.golang.org/protobuf v1.27.1/go.mod h1:9q0QmTI4eRPtz6boOQmLYwt+qCgq0jsYwAQnmE0givc=
google.golang.org/protobuf v1.28.1/go.mod h1:HV8QOd/L58Z+nl8r43ehVNZIU/HEI6OcFqwMG9pJV4I=
google.golang.org/protobuf v1.36.5 h1:tPhr+woSbjfYvY6/GPufUoYizxw1cF/yFoxJ2fmpwlM=
google.golang.org/protobuf v1.36.5/go.mod h1:9fA7Ob0pmnwhb644+1+CVWFRbNajQ6iRojtC/QF5bRE=
gopkg.in/alecthomas/kingpin.v2 v2.2.6/go.mod h1:FMv+mEhP44yOT+4EoQTLFTRgOQ1FBLkstjWtayDeSgw=
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/check.v1 v1.0.0-20190902080502-41f04d3bba15/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/check.v1 v1.0.0-20201130134442-10cb98267c6c/go.mod h1:JHkPIbrfpd72SG/EVd6muEfDQjcINNoR0C8j2r3qZ4Q=
gopkg.in/ini.v1 v1.67.0 h1:Dgnx+6+nfE+IfzjUEISNeydPJh9AXNNsWbGP9KzCsOA=
gopkg.in/ini.v1 v1.67.0/go.mod h1:pNLf8WUiyNEtQjuu5G5vTm06TEv9tsIgeAvK8hOrP4k=
gopkg.in/mgo.v2 v2.0.0-20190816093944-a6b53ec6cb22/go.mod h1:yeKp02qBN3iKW1OzL3MGk2IdtZzaj7SFntXj72NppTA=
gopkg.in/vmihailenco/msgpack.v2 v2.9.2/go.mod h1:/3Dn1Npt9+MYyLpYYXjInO/5jvMLamn+AEGwNEOatn8=
gopkg.in/yaml.v2 v2.2.1/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.2.3/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.2.4/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.2.5/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.3.0/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v2 v2.4.0 h1:D8xgwECY7CYvx+Y2n4sBz93Jn9JRvxdiyyo8CTfuKaY=
gopkg.in/yaml.v2 v2.4.0/go.mod h1:RDklbk79AGWmwhnvt/jBztapEOGDOx6ZbXqjP6csGnQ=
gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
gopkg.in/yaml.v3 v3.0.1 h1:fxVm/GzAzEWqLHuvctI91KS9hhNmmWOoWu0XTYJS7CA=
gopkg.in/yaml.v3 v3.0.1/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
honnef.co/go/tools v0.0.0-20190102054323-c2f93a96b099/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
honnef.co/go/tools v0.0.0-20190523083050-ea95bdfd59fc/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
libvirt.org/go/libvirt v1.11001.0 h1:QJgpslxY7qkpXZIDxdMHpkDl7FfhgQJwqRTGBbg/S8E=
libvirt.org/go/libvirt v1.11001.0/go.mod h1:1WiFE8EjZfq+FCVog+rvr1yatKbKZ9FaFMZgEqxEJqQ=

8
pkg/raft/node.go
View File

@ -11,7 +11,7 @@ import (
transport "deevirt.fr/compute/pkg/raft/transport"
"github.com/hashicorp/raft"
raftboltdb "github.com/hashicorp/raft-boltdb"
raftboltdb "github.com/hashicorp/raft-boltdb/v2"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
@ -98,10 +98,10 @@ func New(ctx context.Context, conf *config.Config, port int) (*raft.Raft, *trans
return nil, nil, fmt.Errorf(`boltdb.NewBoltStore(%q): %v`, filepath.Join(baseDir, "logs.dat"), err)
}
sdb, err := raftboltdb.NewBoltStore(filepath.Join(baseDir, "stable.dat"))
/*sdb, err := raftboltdb.NewBoltStore(filepath.Join(baseDir, "stable.dat"))
if err != nil {
return nil, nil, fmt.Errorf(`boltdb.NewBoltStore(%q): %v`, filepath.Join(baseDir, "stable.dat"), err)
}
}*/
fss, err := raft.NewFileSnapshotStore(baseDir, 3, os.Stderr)
if err != nil {
@ -116,7 +116,7 @@ func New(ctx context.Context, conf *config.Config, port int) (*raft.Raft, *trans
tm := transport.New(raft.ServerAddress(fmt.Sprintf("%s:%d", conf.AddressPrivate, port)), dialOption)
r, err := raft.NewRaft(c, nil, ldb, sdb, fss, tm.Transport())
r, err := raft.NewRaft(c, nil, ldb, ldb, fss, tm.Transport())
if err != nil {
return nil, nil, fmt.Errorf("raft.NewRaft: %v", err)
}

22
vendor/github.com/hashicorp/go-msgpack/LICENSE generated vendored
View File

@ -1,22 +0,0 @@
The MIT License (MIT)
Copyright (c) 2012-2015 Ugorji Nwoke.
All rights reserved.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

1203
vendor/github.com/hashicorp/go-msgpack/codec/binc.go generated vendored
View File

File diff suppressed because it is too large Load Diff

767
vendor/github.com/hashicorp/go-msgpack/codec/cbor.go generated vendored
View File

@ -1,767 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"math"
"reflect"
"time"
)
const (
cborMajorUint byte = iota
cborMajorNegInt
cborMajorBytes
cborMajorText
cborMajorArray
cborMajorMap
cborMajorTag
cborMajorOther
)
const (
cborBdFalse byte = 0xf4 + iota
cborBdTrue
cborBdNil
cborBdUndefined
cborBdExt
cborBdFloat16
cborBdFloat32
cborBdFloat64
)
const (
cborBdIndefiniteBytes byte = 0x5f
cborBdIndefiniteString byte = 0x7f
cborBdIndefiniteArray byte = 0x9f
cborBdIndefiniteMap byte = 0xbf
cborBdBreak byte = 0xff
)
// These define some in-stream descriptors for
// manual encoding e.g. when doing explicit indefinite-length
const (
CborStreamBytes byte = 0x5f
CborStreamString byte = 0x7f
CborStreamArray byte = 0x9f
CborStreamMap byte = 0xbf
CborStreamBreak byte = 0xff
)
const (
cborBaseUint byte = 0x00
cborBaseNegInt byte = 0x20
cborBaseBytes byte = 0x40
cborBaseString byte = 0x60
cborBaseArray byte = 0x80
cborBaseMap byte = 0xa0
cborBaseTag byte = 0xc0
cborBaseSimple byte = 0xe0
)
func cbordesc(bd byte) string {
switch bd {
case cborBdNil:
return "nil"
case cborBdFalse:
return "false"
case cborBdTrue:
return "true"
case cborBdFloat16, cborBdFloat32, cborBdFloat64:
return "float"
case cborBdIndefiniteBytes:
return "bytes*"
case cborBdIndefiniteString:
return "string*"
case cborBdIndefiniteArray:
return "array*"
case cborBdIndefiniteMap:
return "map*"
default:
switch {
case bd >= cborBaseUint && bd < cborBaseNegInt:
return "(u)int"
case bd >= cborBaseNegInt && bd < cborBaseBytes:
return "int"
case bd >= cborBaseBytes && bd < cborBaseString:
return "bytes"
case bd >= cborBaseString && bd < cborBaseArray:
return "string"
case bd >= cborBaseArray && bd < cborBaseMap:
return "array"
case bd >= cborBaseMap && bd < cborBaseTag:
return "map"
case bd >= cborBaseTag && bd < cborBaseSimple:
return "ext"
default:
return "unknown"
}
}
}
// -------------------
type cborEncDriver struct {
noBuiltInTypes
encDriverNoopContainerWriter
e *Encoder
w *encWriterSwitch
h *CborHandle
x [8]byte
// _ [3]uint64 // padding
}
func (e *cborEncDriver) EncodeNil() {
e.w.writen1(cborBdNil)
}
func (e *cborEncDriver) EncodeBool(b bool) {
if b {
e.w.writen1(cborBdTrue)
} else {
e.w.writen1(cborBdFalse)
}
}
func (e *cborEncDriver) EncodeFloat32(f float32) {
e.w.writen1(cborBdFloat32)
bigenHelper{e.x[:4], e.w}.writeUint32(math.Float32bits(f))
}
func (e *cborEncDriver) EncodeFloat64(f float64) {
e.w.writen1(cborBdFloat64)
bigenHelper{e.x[:8], e.w}.writeUint64(math.Float64bits(f))
}
func (e *cborEncDriver) encUint(v uint64, bd byte) {
if v <= 0x17 {
e.w.writen1(byte(v) + bd)
} else if v <= math.MaxUint8 {
e.w.writen2(bd+0x18, uint8(v))
} else if v <= math.MaxUint16 {
e.w.writen1(bd + 0x19)
bigenHelper{e.x[:2], e.w}.writeUint16(uint16(v))
} else if v <= math.MaxUint32 {
e.w.writen1(bd + 0x1a)
bigenHelper{e.x[:4], e.w}.writeUint32(uint32(v))
} else { // if v <= math.MaxUint64 {
e.w.writen1(bd + 0x1b)
bigenHelper{e.x[:8], e.w}.writeUint64(v)
}
}
func (e *cborEncDriver) EncodeInt(v int64) {
if v < 0 {
e.encUint(uint64(-1-v), cborBaseNegInt)
} else {
e.encUint(uint64(v), cborBaseUint)
}
}
func (e *cborEncDriver) EncodeUint(v uint64) {
e.encUint(v, cborBaseUint)
}
func (e *cborEncDriver) encLen(bd byte, length int) {
e.encUint(uint64(length), bd)
}
func (e *cborEncDriver) EncodeTime(t time.Time) {
if t.IsZero() {
e.EncodeNil()
} else if e.h.TimeRFC3339 {
e.encUint(0, cborBaseTag)
e.EncodeStringEnc(cUTF8, t.Format(time.RFC3339Nano))
} else {
e.encUint(1, cborBaseTag)
t = t.UTC().Round(time.Microsecond)
sec, nsec := t.Unix(), uint64(t.Nanosecond())
if nsec == 0 {
e.EncodeInt(sec)
} else {
e.EncodeFloat64(float64(sec) + float64(nsec)/1e9)
}
}
}
func (e *cborEncDriver) EncodeExt(rv interface{}, xtag uint64, ext Ext, en *Encoder) {
e.encUint(uint64(xtag), cborBaseTag)
if v := ext.ConvertExt(rv); v == nil {
e.EncodeNil()
} else {
en.encode(v)
}
}
func (e *cborEncDriver) EncodeRawExt(re *RawExt, en *Encoder) {
e.encUint(uint64(re.Tag), cborBaseTag)
// only encodes re.Value (never re.Data)
// if false && re.Data != nil {
// en.encode(re.Data)
// } else if re.Value != nil {
if re.Value != nil {
en.encode(re.Value)
} else {
e.EncodeNil()
}
}
func (e *cborEncDriver) WriteArrayStart(length int) {
if e.h.IndefiniteLength {
e.w.writen1(cborBdIndefiniteArray)
} else {
e.encLen(cborBaseArray, length)
}
}
func (e *cborEncDriver) WriteMapStart(length int) {
if e.h.IndefiniteLength {
e.w.writen1(cborBdIndefiniteMap)
} else {
e.encLen(cborBaseMap, length)
}
}
func (e *cborEncDriver) WriteMapEnd() {
if e.h.IndefiniteLength {
e.w.writen1(cborBdBreak)
}
}
func (e *cborEncDriver) WriteArrayEnd() {
if e.h.IndefiniteLength {
e.w.writen1(cborBdBreak)
}
}
func (e *cborEncDriver) EncodeString(c charEncoding, v string) {
e.encStringBytesS(cborBaseString, v)
}
func (e *cborEncDriver) EncodeStringEnc(c charEncoding, v string) {
e.encStringBytesS(cborBaseString, v)
}
func (e *cborEncDriver) EncodeStringBytes(c charEncoding, v []byte) {
if v == nil {
e.EncodeNil()
} else if c == cRAW {
e.encStringBytesS(cborBaseBytes, stringView(v))
} else {
e.encStringBytesS(cborBaseString, stringView(v))
}
}
func (e *cborEncDriver) EncodeStringBytesRaw(v []byte) {
if v == nil {
e.EncodeNil()
} else {
e.encStringBytesS(cborBaseBytes, stringView(v))
}
}
func (e *cborEncDriver) encStringBytesS(bb byte, v string) {
if e.h.IndefiniteLength {
if bb == cborBaseBytes {
e.w.writen1(cborBdIndefiniteBytes)
} else {
e.w.writen1(cborBdIndefiniteString)
}
var vlen uint = uint(len(v))
blen := vlen / 4
if blen == 0 {
blen = 64
} else if blen > 1024 {
blen = 1024
}
for i := uint(0); i < vlen; {
var v2 string
i2 := i + blen
if i2 < vlen {
v2 = v[i:i2]
} else {
v2 = v[i:]
}
e.encLen(bb, len(v2))
e.w.writestr(v2)
i = i2
}
e.w.writen1(cborBdBreak)
} else {
e.encLen(bb, len(v))
e.w.writestr(v)
}
}
// ----------------------
type cborDecDriver struct {
d *Decoder
h *CborHandle
r *decReaderSwitch
br bool // bytes reader
bdRead bool
bd byte
noBuiltInTypes
// decNoSeparator
decDriverNoopContainerReader
// _ [3]uint64 // padding
}
func (d *cborDecDriver) readNextBd() {
d.bd = d.r.readn1()
d.bdRead = true
}
func (d *cborDecDriver) uncacheRead() {
if d.bdRead {
d.r.unreadn1()
d.bdRead = false
}
}
func (d *cborDecDriver) ContainerType() (vt valueType) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == cborBdNil {
return valueTypeNil
} else if d.bd == cborBdIndefiniteBytes || (d.bd >= cborBaseBytes && d.bd < cborBaseString) {
return valueTypeBytes
} else if d.bd == cborBdIndefiniteString || (d.bd >= cborBaseString && d.bd < cborBaseArray) {
return valueTypeString
} else if d.bd == cborBdIndefiniteArray || (d.bd >= cborBaseArray && d.bd < cborBaseMap) {
return valueTypeArray
} else if d.bd == cborBdIndefiniteMap || (d.bd >= cborBaseMap && d.bd < cborBaseTag) {
return valueTypeMap
}
// else {
// d.d.errorf("isContainerType: unsupported parameter: %v", vt)
// }
return valueTypeUnset
}
func (d *cborDecDriver) TryDecodeAsNil() bool {
if !d.bdRead {
d.readNextBd()
}
// treat Nil and Undefined as nil values
if d.bd == cborBdNil || d.bd == cborBdUndefined {
d.bdRead = false
return true
}
return false
}
func (d *cborDecDriver) CheckBreak() bool {
if !d.bdRead {
d.readNextBd()
}
if d.bd == cborBdBreak {
d.bdRead = false
return true
}
return false
}
func (d *cborDecDriver) decUint() (ui uint64) {
v := d.bd & 0x1f
if v <= 0x17 {
ui = uint64(v)
} else {
if v == 0x18 {
ui = uint64(d.r.readn1())
} else if v == 0x19 {
ui = uint64(bigen.Uint16(d.r.readx(2)))
} else if v == 0x1a {
ui = uint64(bigen.Uint32(d.r.readx(4)))
} else if v == 0x1b {
ui = uint64(bigen.Uint64(d.r.readx(8)))
} else {
d.d.errorf("invalid descriptor decoding uint: %x/%s", d.bd, cbordesc(d.bd))
return
}
}
return
}
func (d *cborDecDriver) decCheckInteger() (neg bool) {
if !d.bdRead {
d.readNextBd()
}
major := d.bd >> 5
if major == cborMajorUint {
} else if major == cborMajorNegInt {
neg = true
} else {
d.d.errorf("not an integer - invalid major %v from descriptor %x/%s",
major, d.bd, cbordesc(d.bd))
return
}
return
}
func (d *cborDecDriver) DecodeInt64() (i int64) {
neg := d.decCheckInteger()
ui := d.decUint()
// check if this number can be converted to an int without overflow
if neg {
i = -(chkOvf.SignedIntV(ui + 1))
} else {
i = chkOvf.SignedIntV(ui)
}
d.bdRead = false
return
}
func (d *cborDecDriver) DecodeUint64() (ui uint64) {
if d.decCheckInteger() {
d.d.errorf("assigning negative signed value to unsigned type")
return
}
ui = d.decUint()
d.bdRead = false
return
}
func (d *cborDecDriver) DecodeFloat64() (f float64) {
if !d.bdRead {
d.readNextBd()
}
if bd := d.bd; bd == cborBdFloat16 {
f = float64(math.Float32frombits(halfFloatToFloatBits(bigen.Uint16(d.r.readx(2)))))
} else if bd == cborBdFloat32 {
f = float64(math.Float32frombits(bigen.Uint32(d.r.readx(4))))
} else if bd == cborBdFloat64 {
f = math.Float64frombits(bigen.Uint64(d.r.readx(8)))
} else if bd >= cborBaseUint && bd < cborBaseBytes {
f = float64(d.DecodeInt64())
} else {
d.d.errorf("float only valid from float16/32/64 - invalid descriptor %x/%s", bd, cbordesc(bd))
return
}
d.bdRead = false
return
}
// bool can be decoded from bool only (single byte).
func (d *cborDecDriver) DecodeBool() (b bool) {
if !d.bdRead {
d.readNextBd()
}
if bd := d.bd; bd == cborBdTrue {
b = true
} else if bd == cborBdFalse {
} else {
d.d.errorf("not bool - %s %x/%s", msgBadDesc, d.bd, cbordesc(d.bd))
return
}
d.bdRead = false
return
}
func (d *cborDecDriver) ReadMapStart() (length int) {
if !d.bdRead {
d.readNextBd()
}
d.bdRead = false
if d.bd == cborBdIndefiniteMap {
return -1
}
return d.decLen()
}
func (d *cborDecDriver) ReadArrayStart() (length int) {
if !d.bdRead {
d.readNextBd()
}
d.bdRead = false
if d.bd == cborBdIndefiniteArray {
return -1
}
return d.decLen()
}
func (d *cborDecDriver) decLen() int {
return int(d.decUint())
}
func (d *cborDecDriver) decAppendIndefiniteBytes(bs []byte) []byte {
d.bdRead = false
for {
if d.CheckBreak() {
break
}
if major := d.bd >> 5; major != cborMajorBytes && major != cborMajorText {
d.d.errorf("expect bytes/string major type in indefinite string/bytes;"+
" got major %v from descriptor %x/%x", major, d.bd, cbordesc(d.bd))
return nil
}
n := d.decLen()
oldLen := len(bs)
newLen := oldLen + n
if newLen > cap(bs) {
bs2 := make([]byte, newLen, 2*cap(bs)+n)
copy(bs2, bs)
bs = bs2
} else {
bs = bs[:newLen]
}
d.r.readb(bs[oldLen:newLen])
// bs = append(bs, d.r.readn()...)
d.bdRead = false
}
d.bdRead = false
return bs
}
func (d *cborDecDriver) DecodeBytes(bs []byte, zerocopy bool) (bsOut []byte) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == cborBdNil || d.bd == cborBdUndefined {
d.bdRead = false
return nil
}
if d.bd == cborBdIndefiniteBytes || d.bd == cborBdIndefiniteString {
d.bdRead = false
if bs == nil {
if zerocopy {
return d.decAppendIndefiniteBytes(d.d.b[:0])
}
return d.decAppendIndefiniteBytes(zeroByteSlice)
}
return d.decAppendIndefiniteBytes(bs[:0])
}
// check if an "array" of uint8's (see ContainerType for how to infer if an array)
if d.bd == cborBdIndefiniteArray || (d.bd >= cborBaseArray && d.bd < cborBaseMap) {
bsOut, _ = fastpathTV.DecSliceUint8V(bs, true, d.d)
return
}
clen := d.decLen()
d.bdRead = false
if zerocopy {
if d.br {
return d.r.readx(uint(clen))
} else if len(bs) == 0 {
bs = d.d.b[:]
}
}
return decByteSlice(d.r, clen, d.h.MaxInitLen, bs)
}
func (d *cborDecDriver) DecodeString() (s string) {
return string(d.DecodeBytes(d.d.b[:], true))
}
func (d *cborDecDriver) DecodeStringAsBytes() (s []byte) {
return d.DecodeBytes(d.d.b[:], true)
}
func (d *cborDecDriver) DecodeTime() (t time.Time) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == cborBdNil || d.bd == cborBdUndefined {
d.bdRead = false
return
}
xtag := d.decUint()
d.bdRead = false
return d.decodeTime(xtag)
}
func (d *cborDecDriver) decodeTime(xtag uint64) (t time.Time) {
if !d.bdRead {
d.readNextBd()
}
switch xtag {
case 0:
var err error
if t, err = time.Parse(time.RFC3339, stringView(d.DecodeStringAsBytes())); err != nil {
d.d.errorv(err)
}
case 1:
// decode an int64 or a float, and infer time.Time from there.
// for floats, round to microseconds, as that is what is guaranteed to fit well.
switch {
case d.bd == cborBdFloat16, d.bd == cborBdFloat32:
f1, f2 := math.Modf(d.DecodeFloat64())
t = time.Unix(int64(f1), int64(f2*1e9))
case d.bd == cborBdFloat64:
f1, f2 := math.Modf(d.DecodeFloat64())
t = time.Unix(int64(f1), int64(f2*1e9))
case d.bd >= cborBaseUint && d.bd < cborBaseNegInt,
d.bd >= cborBaseNegInt && d.bd < cborBaseBytes:
t = time.Unix(d.DecodeInt64(), 0)
default:
d.d.errorf("time.Time can only be decoded from a number (or RFC3339 string)")
}
default:
d.d.errorf("invalid tag for time.Time - expecting 0 or 1, got 0x%x", xtag)
}
t = t.UTC().Round(time.Microsecond)
return
}
func (d *cborDecDriver) DecodeExt(rv interface{}, xtag uint64, ext Ext) (realxtag uint64) {
if !d.bdRead {
d.readNextBd()
}
u := d.decUint()
d.bdRead = false
realxtag = u
if ext == nil {
re := rv.(*RawExt)
re.Tag = realxtag
d.d.decode(&re.Value)
} else if xtag != realxtag {
d.d.errorf("Wrong extension tag. Got %b. Expecting: %v", realxtag, xtag)
return
} else {
var v interface{}
d.d.decode(&v)
ext.UpdateExt(rv, v)
}
d.bdRead = false
return
}
func (d *cborDecDriver) DecodeNaked() {
if !d.bdRead {
d.readNextBd()
}
n := d.d.naked()
var decodeFurther bool
switch d.bd {
case cborBdNil:
n.v = valueTypeNil
case cborBdFalse:
n.v = valueTypeBool
n.b = false
case cborBdTrue:
n.v = valueTypeBool
n.b = true
case cborBdFloat16, cborBdFloat32, cborBdFloat64:
n.v = valueTypeFloat
n.f = d.DecodeFloat64()
case cborBdIndefiniteBytes:
decNakedReadRawBytes(d, d.d, n, d.h.RawToString)
case cborBdIndefiniteString:
n.v = valueTypeString
n.s = d.DecodeString()
case cborBdIndefiniteArray:
n.v = valueTypeArray
decodeFurther = true
case cborBdIndefiniteMap:
n.v = valueTypeMap
decodeFurther = true
default:
switch {
case d.bd >= cborBaseUint && d.bd < cborBaseNegInt:
if d.h.SignedInteger {
n.v = valueTypeInt
n.i = d.DecodeInt64()
} else {
n.v = valueTypeUint
n.u = d.DecodeUint64()
}
case d.bd >= cborBaseNegInt && d.bd < cborBaseBytes:
n.v = valueTypeInt
n.i = d.DecodeInt64()
case d.bd >= cborBaseBytes && d.bd < cborBaseString:
decNakedReadRawBytes(d, d.d, n, d.h.RawToString)
case d.bd >= cborBaseString && d.bd < cborBaseArray:
n.v = valueTypeString
n.s = d.DecodeString()
case d.bd >= cborBaseArray && d.bd < cborBaseMap:
n.v = valueTypeArray
decodeFurther = true
case d.bd >= cborBaseMap && d.bd < cborBaseTag:
n.v = valueTypeMap
decodeFurther = true
case d.bd >= cborBaseTag && d.bd < cborBaseSimple:
n.v = valueTypeExt
n.u = d.decUint()
n.l = nil
if n.u == 0 || n.u == 1 {
d.bdRead = false
n.v = valueTypeTime
n.t = d.decodeTime(n.u)
}
// d.bdRead = false
// d.d.decode(&re.Value) // handled by decode itself.
// decodeFurther = true
default:
d.d.errorf("decodeNaked: Unrecognized d.bd: 0x%x", d.bd)
return
}
}
if !decodeFurther {
d.bdRead = false
}
}
// -------------------------
// CborHandle is a Handle for the CBOR encoding format,
// defined at http://tools.ietf.org/html/rfc7049 and documented further at http://cbor.io .
//
// CBOR is comprehensively supported, including support for:
// - indefinite-length arrays/maps/bytes/strings
// - (extension) tags in range 0..0xffff (0 .. 65535)
// - half, single and double-precision floats
// - all numbers (1, 2, 4 and 8-byte signed and unsigned integers)
// - nil, true, false, ...
// - arrays and maps, bytes and text strings
//
// None of the optional extensions (with tags) defined in the spec are supported out-of-the-box.
// Users can implement them as needed (using SetExt), including spec-documented ones:
// - timestamp, BigNum, BigFloat, Decimals,
// - Encoded Text (e.g. URL, regexp, base64, MIME Message), etc.
type CborHandle struct {
binaryEncodingType
noElemSeparators
BasicHandle
// IndefiniteLength=true, means that we encode using indefinitelength
IndefiniteLength bool
// TimeRFC3339 says to encode time.Time using RFC3339 format.
// If unset, we encode time.Time using seconds past epoch.
TimeRFC3339 bool
// _ [1]uint64 // padding
}
// Name returns the name of the handle: cbor
func (h *CborHandle) Name() string { return "cbor" }
// SetInterfaceExt sets an extension
func (h *CborHandle) SetInterfaceExt(rt reflect.Type, tag uint64, ext InterfaceExt) (err error) {
return h.SetExt(rt, tag, &extWrapper{bytesExtFailer{}, ext})
}
func (h *CborHandle) newEncDriver(e *Encoder) encDriver {
return &cborEncDriver{e: e, w: e.w, h: h}
}
func (h *CborHandle) newDecDriver(d *Decoder) decDriver {
return &cborDecDriver{d: d, h: h, r: d.r, br: d.bytes}
}
func (e *cborEncDriver) reset() {
e.w = e.e.w
}
func (d *cborDecDriver) reset() {
d.r, d.br = d.d.r, d.d.bytes
d.bd, d.bdRead = 0, false
}
var _ decDriver = (*cborDecDriver)(nil)
var _ encDriver = (*cborEncDriver)(nil)

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// +build codecgen generated
package codec
// this file is here, to set the codecgen variable to true
// when the build tag codecgen is set.
//
// this allows us do specific things e.g. skip missing fields tests,
// when running in codecgen mode.
func init() {
codecgen = true
}

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// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
/*
Package codec provides a
High Performance, Feature-Rich Idiomatic Go 1.4+ codec/encoding library
for binc, msgpack, cbor, json.
Supported Serialization formats are:
- msgpack: https://github.com/msgpack/msgpack
- binc: http://github.com/ugorji/binc
- cbor: http://cbor.io http://tools.ietf.org/html/rfc7049
- json: http://json.org http://tools.ietf.org/html/rfc7159
- simple:
This package will carefully use 'package unsafe' for performance reasons in specific places.
You can build without unsafe use by passing the safe or appengine tag
i.e. 'go install -tags=safe ...'. Note that unsafe is only supported for the last 4
go releases e.g. current go release is go 1.12, so we support unsafe use only from
go 1.9+ . This is because supporting unsafe requires knowledge of implementation details.
For detailed usage information, read the primer at http://ugorji.net/blog/go-codec-primer .
The idiomatic Go support is as seen in other encoding packages in
the standard library (ie json, xml, gob, etc).
Rich Feature Set includes:
- Simple but extremely powerful and feature-rich API
- Support for go1.4 and above, while selectively using newer APIs for later releases
- Excellent code coverage ( > 90% )
- Very High Performance.
Our extensive benchmarks show us outperforming Gob, Json, Bson, etc by 2-4X.
- Careful selected use of 'unsafe' for targeted performance gains.
100% mode exists where 'unsafe' is not used at all.
- Lock-free (sans mutex) concurrency for scaling to 100's of cores
- In-place updates during decode, with option to zero value in maps and slices prior to decode
- Coerce types where appropriate
e.g. decode an int in the stream into a float, decode numbers from formatted strings, etc
- Corner Cases:
Overflows, nil maps/slices, nil values in streams are handled correctly
- Standard field renaming via tags
- Support for omitting empty fields during an encoding
- Encoding from any value and decoding into pointer to any value
(struct, slice, map, primitives, pointers, interface{}, etc)
- Extensions to support efficient encoding/decoding of any named types
- Support encoding.(Binary|Text)(M|Unm)arshaler interfaces
- Support IsZero() bool to determine if a value is a zero value.
Analogous to time.Time.IsZero() bool.
- Decoding without a schema (into a interface{}).
Includes Options to configure what specific map or slice type to use
when decoding an encoded list or map into a nil interface{}
- Mapping a non-interface type to an interface, so we can decode appropriately
into any interface type with a correctly configured non-interface value.
- Encode a struct as an array, and decode struct from an array in the data stream
- Option to encode struct keys as numbers (instead of strings)
(to support structured streams with fields encoded as numeric codes)
- Comprehensive support for anonymous fields
- Fast (no-reflection) encoding/decoding of common maps and slices
- Code-generation for faster performance.
- Support binary (e.g. messagepack, cbor) and text (e.g. json) formats
- Support indefinite-length formats to enable true streaming
(for formats which support it e.g. json, cbor)
- Support canonical encoding, where a value is ALWAYS encoded as same sequence of bytes.
This mostly applies to maps, where iteration order is non-deterministic.
- NIL in data stream decoded as zero value
- Never silently skip data when decoding.
User decides whether to return an error or silently skip data when keys or indexes
in the data stream do not map to fields in the struct.
- Detect and error when encoding a cyclic reference (instead of stack overflow shutdown)
- Encode/Decode from/to chan types (for iterative streaming support)
- Drop-in replacement for encoding/json. `json:` key in struct tag supported.
- Provides a RPC Server and Client Codec for net/rpc communication protocol.
- Handle unique idiosyncrasies of codecs e.g.
- For messagepack, configure how ambiguities in handling raw bytes are resolved
- For messagepack, provide rpc server/client codec to support
msgpack-rpc protocol defined at:
https://github.com/msgpack-rpc/msgpack-rpc/blob/master/spec.md
Extension Support
Users can register a function to handle the encoding or decoding of
their custom types.
There are no restrictions on what the custom type can be. Some examples:
type BisSet []int
type BitSet64 uint64
type UUID string
type MyStructWithUnexportedFields struct { a int; b bool; c []int; }
type GifImage struct { ... }
As an illustration, MyStructWithUnexportedFields would normally be
encoded as an empty map because it has no exported fields, while UUID
would be encoded as a string. However, with extension support, you can
encode any of these however you like.
Custom Encoding and Decoding
This package maintains symmetry in the encoding and decoding halfs.
We determine how to encode or decode by walking this decision tree
- is type a codec.Selfer?
- is there an extension registered for the type?
- is format binary, and is type a encoding.BinaryMarshaler and BinaryUnmarshaler?
- is format specifically json, and is type a encoding/json.Marshaler and Unmarshaler?
- is format text-based, and type an encoding.TextMarshaler and TextUnmarshaler?
- else we use a pair of functions based on the "kind" of the type e.g. map, slice, int64, etc
This symmetry is important to reduce chances of issues happening because the
encoding and decoding sides are out of sync e.g. decoded via very specific
encoding.TextUnmarshaler but encoded via kind-specific generalized mode.
Consequently, if a type only defines one-half of the symmetry
(e.g. it implements UnmarshalJSON() but not MarshalJSON() ),
then that type doesn't satisfy the check and we will continue walking down the
decision tree.
RPC
RPC Client and Server Codecs are implemented, so the codecs can be used
with the standard net/rpc package.
Usage
The Handle is SAFE for concurrent READ, but NOT SAFE for concurrent modification.
The Encoder and Decoder are NOT safe for concurrent use.
Consequently, the usage model is basically:
- Create and initialize the Handle before any use.
Once created, DO NOT modify it.
- Multiple Encoders or Decoders can now use the Handle concurrently.
They only read information off the Handle (never write).
- However, each Encoder or Decoder MUST not be used concurrently
- To re-use an Encoder/Decoder, call Reset(...) on it first.
This allows you use state maintained on the Encoder/Decoder.
Sample usage model:
// create and configure Handle
var (
bh codec.BincHandle
mh codec.MsgpackHandle
ch codec.CborHandle
)
mh.MapType = reflect.TypeOf(map[string]interface{}(nil))
// configure extensions
// e.g. for msgpack, define functions and enable Time support for tag 1
// mh.SetExt(reflect.TypeOf(time.Time{}), 1, myExt)
// create and use decoder/encoder
var (
r io.Reader
w io.Writer
b []byte
h = &bh // or mh to use msgpack
)
dec = codec.NewDecoder(r, h)
dec = codec.NewDecoderBytes(b, h)
err = dec.Decode(&v)
enc = codec.NewEncoder(w, h)
enc = codec.NewEncoderBytes(&b, h)
err = enc.Encode(v)
//RPC Server
go func() {
for {
conn, err := listener.Accept()
rpcCodec := codec.GoRpc.ServerCodec(conn, h)
//OR rpcCodec := codec.MsgpackSpecRpc.ServerCodec(conn, h)
rpc.ServeCodec(rpcCodec)
}
}()
//RPC Communication (client side)
conn, err = net.Dial("tcp", "localhost:5555")
rpcCodec := codec.GoRpc.ClientCodec(conn, h)
//OR rpcCodec := codec.MsgpackSpecRpc.ClientCodec(conn, h)
client := rpc.NewClientWithCodec(rpcCodec)
Running Tests
To run tests, use the following:
go test
To run the full suite of tests, use the following:
go test -tags alltests -run Suite
You can run the tag 'safe' to run tests or build in safe mode. e.g.
go test -tags safe -run Json
go test -tags "alltests safe" -run Suite
Running Benchmarks
cd bench
go test -bench . -benchmem -benchtime 1s
Please see http://github.com/ugorji/go-codec-bench .
Managing Binary Size
This package could add up to 10MB to the size of your binaries.
This is because we include some a auto-generated file: `fast-path.generated.go`
to help with performance when encoding/decoding slices and maps of
built in numeric, boolean, string and interface{} types.
You can override this by building (or running tests and benchmarks)
with the tag: `notfastpath`.
go install -tags notfastpath
go build -tags notfastpath
go test -tags notfastpath
Be aware that, at least in our representative microbenchmarks for cbor (for example),
we see up to 33% increase in decoding and 50% increase in encoding speeds.
YMMV.
Caveats
Struct fields matching the following are ignored during encoding and decoding
- struct tag value set to -
- func, complex numbers, unsafe pointers
- unexported and not embedded
- unexported and embedded and not struct kind
- unexported and embedded pointers (from go1.10)
Every other field in a struct will be encoded/decoded.
Embedded fields are encoded as if they exist in the top-level struct,
with some caveats. See Encode documentation.
*/
package codec

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// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build notfastpath
package codec
import "reflect"
const fastpathEnabled = false
// The generated fast-path code is very large, and adds a few seconds to the build time.
// This causes test execution, execution of small tools which use codec, etc
// to take a long time.
//
// To mitigate, we now support the notfastpath tag.
// This tag disables fastpath during build, allowing for faster build, test execution,
// short-program runs, etc.
func fastpathDecodeTypeSwitch(iv interface{}, d *Decoder) bool { return false }
func fastpathEncodeTypeSwitch(iv interface{}, e *Encoder) bool { return false }
func fastpathEncodeTypeSwitchSlice(iv interface{}, e *Encoder) bool { return false }
func fastpathEncodeTypeSwitchMap(iv interface{}, e *Encoder) bool { return false }
func fastpathDecodeSetZeroTypeSwitch(iv interface{}) bool { return false }
type fastpathT struct{}
type fastpathE struct {
rtid uintptr
rt reflect.Type
encfn func(*Encoder, *codecFnInfo, reflect.Value)
decfn func(*Decoder, *codecFnInfo, reflect.Value)
}
type fastpathA [0]fastpathE
func (x fastpathA) index(rtid uintptr) int { return -1 }
func (_ fastpathT) DecSliceUint8V(v []uint8, canChange bool, d *Decoder) (_ []uint8, changed bool) {
fn := d.h.fn(uint8SliceTyp, true, true)
d.kSlice(&fn.i, reflect.ValueOf(&v).Elem())
return v, true
}
var fastpathAV fastpathA
var fastpathTV fastpathT
// ----
type TestMammoth2Wrapper struct{} // to allow testMammoth work in notfastpath mode

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// comment this out // + build ignore
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// Code generated from gen-helper.go.tmpl - DO NOT EDIT.
package codec
import (
"encoding"
"reflect"
)
// GenVersion is the current version of codecgen.
const GenVersion = 10
// This file is used to generate helper code for codecgen.
// The values here i.e. genHelper(En|De)coder are not to be used directly by
// library users. They WILL change continuously and without notice.
//
// To help enforce this, we create an unexported type with exported members.
// The only way to get the type is via the one exported type that we control (somewhat).
//
// When static codecs are created for types, they will use this value
// to perform encoding or decoding of primitives or known slice or map types.
// GenHelperEncoder is exported so that it can be used externally by codecgen.
//
// Library users: DO NOT USE IT DIRECTLY. IT WILL CHANGE CONTINOUSLY WITHOUT NOTICE.
func GenHelperEncoder(e *Encoder) (ge genHelperEncoder, ee genHelperEncDriver) {
ge = genHelperEncoder{e: e}
ee = genHelperEncDriver{encDriver: e.e}
return
}
// GenHelperDecoder is exported so that it can be used externally by codecgen.
//
// Library users: DO NOT USE IT DIRECTLY. IT WILL CHANGE CONTINOUSLY WITHOUT NOTICE.
func GenHelperDecoder(d *Decoder) (gd genHelperDecoder, dd genHelperDecDriver) {
gd = genHelperDecoder{d: d}
dd = genHelperDecDriver{decDriver: d.d}
return
}
type genHelperEncDriver struct {
encDriver
}
func (x genHelperEncDriver) EncodeBuiltin(rt uintptr, v interface{}) {}
func (x genHelperEncDriver) EncStructFieldKey(keyType valueType, s string) {
encStructFieldKey(s, x.encDriver, nil, keyType, false, false)
}
func (x genHelperEncDriver) EncodeSymbol(s string) {
x.encDriver.EncodeStringEnc(cUTF8, s)
}
type genHelperDecDriver struct {
decDriver
C checkOverflow
}
func (x genHelperDecDriver) DecodeBuiltin(rt uintptr, v interface{}) {}
func (x genHelperDecDriver) DecStructFieldKey(keyType valueType, buf *[decScratchByteArrayLen]byte) []byte {
return decStructFieldKey(x.decDriver, keyType, buf)
}
func (x genHelperDecDriver) DecodeInt(bitsize uint8) (i int64) {
return x.C.IntV(x.decDriver.DecodeInt64(), bitsize)
}
func (x genHelperDecDriver) DecodeUint(bitsize uint8) (ui uint64) {
return x.C.UintV(x.decDriver.DecodeUint64(), bitsize)
}
func (x genHelperDecDriver) DecodeFloat(chkOverflow32 bool) (f float64) {
f = x.DecodeFloat64()
if chkOverflow32 && chkOvf.Float32(f) {
panicv.errorf("float32 overflow: %v", f)
}
return
}
func (x genHelperDecDriver) DecodeFloat32As64() (f float64) {
f = x.DecodeFloat64()
if chkOvf.Float32(f) {
panicv.errorf("float32 overflow: %v", f)
}
return
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
type genHelperEncoder struct {
M must
e *Encoder
F fastpathT
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
type genHelperDecoder struct {
C checkOverflow
d *Decoder
F fastpathT
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBasicHandle() *BasicHandle {
return f.e.h
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBinary() bool {
return f.e.be // f.e.hh.isBinaryEncoding()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) IsJSONHandle() bool {
return f.e.js
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncFallback(iv interface{}) {
// println(">>>>>>>>> EncFallback")
// f.e.encodeI(iv, false, false)
f.e.encodeValue(reflect.ValueOf(iv), nil, false)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncTextMarshal(iv encoding.TextMarshaler) {
bs, fnerr := iv.MarshalText()
f.e.marshalUtf8(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncJSONMarshal(iv jsonMarshaler) {
bs, fnerr := iv.MarshalJSON()
f.e.marshalAsis(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBinaryMarshal(iv encoding.BinaryMarshaler) {
bs, fnerr := iv.MarshalBinary()
f.e.marshalRaw(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncRaw(iv Raw) { f.e.rawBytes(iv) }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: builtin no longer supported - so we make this method a no-op,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) TimeRtidIfBinc() (v uintptr) { return }
// func (f genHelperEncoder) TimeRtidIfBinc() uintptr {
// if _, ok := f.e.hh.(*BincHandle); ok {
// return timeTypId
// }
// }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) I2Rtid(v interface{}) uintptr {
return i2rtid(v)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) Extension(rtid uintptr) (xfn *extTypeTagFn) {
return f.e.h.getExt(rtid)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncExtension(v interface{}, xfFn *extTypeTagFn) {
f.e.e.EncodeExt(v, xfFn.tag, xfFn.ext, f.e)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) WriteStr(s string) {
f.e.w.writestr(s)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) BytesView(v string) []byte { return bytesView(v) }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) HasExtensions() bool {
return len(f.e.h.extHandle) != 0
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) EncExt(v interface{}) (r bool) {
if xfFn := f.e.h.getExt(i2rtid(v)); xfFn != nil {
f.e.e.EncodeExt(v, xfFn.tag, xfFn.ext, f.e)
return true
}
return false
}
// ---------------- DECODER FOLLOWS -----------------
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBasicHandle() *BasicHandle {
return f.d.h
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBinary() bool {
return f.d.be // f.d.hh.isBinaryEncoding()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecSwallow() { f.d.swallow() }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecScratchBuffer() []byte {
return f.d.b[:]
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecScratchArrayBuffer() *[decScratchByteArrayLen]byte {
return &f.d.b
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecFallback(iv interface{}, chkPtr bool) {
// println(">>>>>>>>> DecFallback")
rv := reflect.ValueOf(iv)
if chkPtr {
rv = f.d.ensureDecodeable(rv)
}
f.d.decodeValue(rv, nil, false)
// f.d.decodeValueFallback(rv)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecSliceHelperStart() (decSliceHelper, int) {
return f.d.decSliceHelperStart()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecStructFieldNotFound(index int, name string) {
f.d.structFieldNotFound(index, name)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecArrayCannotExpand(sliceLen, streamLen int) {
f.d.arrayCannotExpand(sliceLen, streamLen)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecTextUnmarshal(tm encoding.TextUnmarshaler) {
fnerr := tm.UnmarshalText(f.d.d.DecodeStringAsBytes())
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecJSONUnmarshal(tm jsonUnmarshaler) {
// bs := f.dd.DecodeStringAsBytes()
// grab the bytes to be read, as UnmarshalJSON needs the full JSON so as to unmarshal it itself.
fnerr := tm.UnmarshalJSON(f.d.nextValueBytes())
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBinaryUnmarshal(bm encoding.BinaryUnmarshaler) {
fnerr := bm.UnmarshalBinary(f.d.d.DecodeBytes(nil, true))
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecRaw() []byte { return f.d.rawBytes() }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: builtin no longer supported - so we make this method a no-op,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) TimeRtidIfBinc() (v uintptr) { return }
// func (f genHelperDecoder) TimeRtidIfBinc() uintptr {
// // Note: builtin is no longer supported - so make this a no-op
// if _, ok := f.d.hh.(*BincHandle); ok {
// return timeTypId
// }
// return 0
// }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) IsJSONHandle() bool {
return f.d.js
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) I2Rtid(v interface{}) uintptr {
return i2rtid(v)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) Extension(rtid uintptr) (xfn *extTypeTagFn) {
return f.d.h.getExt(rtid)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecExtension(v interface{}, xfFn *extTypeTagFn) {
f.d.d.DecodeExt(v, xfFn.tag, xfFn.ext)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) HasExtensions() bool {
return len(f.d.h.extHandle) != 0
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) DecExt(v interface{}) (r bool) {
if xfFn := f.d.h.getExt(i2rtid(v)); xfFn != nil {
f.d.d.DecodeExt(v, xfFn.tag, xfFn.ext)
return true
}
return false
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecInferLen(clen, maxlen, unit int) (rvlen int) {
return decInferLen(clen, maxlen, unit)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: no longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) StringView(v []byte) string { return stringView(v) }

164
vendor/github.com/hashicorp/go-msgpack/codec/gen.generated.go generated vendored
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@ -1,164 +0,0 @@
// +build codecgen.exec
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
// DO NOT EDIT. THIS FILE IS AUTO-GENERATED FROM gen-dec-(map|array).go.tmpl
const genDecMapTmpl = `
{{var "v"}} := *{{ .Varname }}
{{var "l"}} := r.ReadMapStart()
{{var "bh"}} := z.DecBasicHandle()
if {{var "v"}} == nil {
{{var "rl"}} := z.DecInferLen({{var "l"}}, {{var "bh"}}.MaxInitLen, {{ .Size }})
{{var "v"}} = make(map[{{ .KTyp }}]{{ .Typ }}, {{var "rl"}})
*{{ .Varname }} = {{var "v"}}
}
var {{var "mk"}} {{ .KTyp }}
var {{var "mv"}} {{ .Typ }}
var {{var "mg"}}, {{var "mdn"}} {{if decElemKindPtr}}, {{var "ms"}}, {{var "mok"}}{{end}} bool
if {{var "bh"}}.MapValueReset {
{{if decElemKindPtr}}{{var "mg"}} = true
{{else if decElemKindIntf}}if !{{var "bh"}}.InterfaceReset { {{var "mg"}} = true }
{{else if not decElemKindImmutable}}{{var "mg"}} = true
{{end}} }
if {{var "l"}} != 0 {
{{var "hl"}} := {{var "l"}} > 0
for {{var "j"}} := 0; ({{var "hl"}} && {{var "j"}} < {{var "l"}}) || !({{var "hl"}} || r.CheckBreak()); {{var "j"}}++ {
r.ReadMapElemKey() {{/* z.DecSendContainerState(codecSelfer_containerMapKey{{ .Sfx }}) */}}
{{ $x := printf "%vmk%v" .TempVar .Rand }}{{ decLineVarK $x }}
{{ if eq .KTyp "interface{}" }}{{/* // special case if a byte array. */}}if {{var "bv"}}, {{var "bok"}} := {{var "mk"}}.([]byte); {{var "bok"}} {
{{var "mk"}} = string({{var "bv"}})
}{{ end }}{{if decElemKindPtr}}
{{var "ms"}} = true{{end}}
if {{var "mg"}} {
{{if decElemKindPtr}}{{var "mv"}}, {{var "mok"}} = {{var "v"}}[{{var "mk"}}]
if {{var "mok"}} {
{{var "ms"}} = false
} {{else}}{{var "mv"}} = {{var "v"}}[{{var "mk"}}] {{end}}
} {{if not decElemKindImmutable}}else { {{var "mv"}} = {{decElemZero}} }{{end}}
r.ReadMapElemValue() {{/* z.DecSendContainerState(codecSelfer_containerMapValue{{ .Sfx }}) */}}
{{var "mdn"}} = false
{{ $x := printf "%vmv%v" .TempVar .Rand }}{{ $y := printf "%vmdn%v" .TempVar .Rand }}{{ decLineVar $x $y }}
if {{var "mdn"}} {
if {{ var "bh" }}.DeleteOnNilMapValue { delete({{var "v"}}, {{var "mk"}}) } else { {{var "v"}}[{{var "mk"}}] = {{decElemZero}} }
} else if {{if decElemKindPtr}} {{var "ms"}} && {{end}} {{var "v"}} != nil {
{{var "v"}}[{{var "mk"}}] = {{var "mv"}}
}
}
} // else len==0: TODO: Should we clear map entries?
r.ReadMapEnd() {{/* z.DecSendContainerState(codecSelfer_containerMapEnd{{ .Sfx }}) */}}
`
const genDecListTmpl = `
{{var "v"}} := {{if not isArray}}*{{end}}{{ .Varname }}
{{var "h"}}, {{var "l"}} := z.DecSliceHelperStart() {{/* // helper, containerLenS */}}{{if not isArray}}
var {{var "c"}} bool {{/* // changed */}}
_ = {{var "c"}}{{end}}
if {{var "l"}} == 0 {
{{if isSlice }}if {{var "v"}} == nil {
{{var "v"}} = []{{ .Typ }}{}
{{var "c"}} = true
} else if len({{var "v"}}) != 0 {
{{var "v"}} = {{var "v"}}[:0]
{{var "c"}} = true
} {{else if isChan }}if {{var "v"}} == nil {
{{var "v"}} = make({{ .CTyp }}, 0)
{{var "c"}} = true
} {{end}}
} else {
{{var "hl"}} := {{var "l"}} > 0
var {{var "rl"}} int
_ = {{var "rl"}}
{{if isSlice }} if {{var "hl"}} {
if {{var "l"}} > cap({{var "v"}}) {
{{var "rl"}} = z.DecInferLen({{var "l"}}, z.DecBasicHandle().MaxInitLen, {{ .Size }})
if {{var "rl"}} <= cap({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "rl"}}]
} else {
{{var "v"}} = make([]{{ .Typ }}, {{var "rl"}})
}
{{var "c"}} = true
} else if {{var "l"}} != len({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "l"}}]
{{var "c"}} = true
}
} {{end}}
var {{var "j"}} int
// var {{var "dn"}} bool
for {{var "j"}} = 0; ({{var "hl"}} && {{var "j"}} < {{var "l"}}) || !({{var "hl"}} || r.CheckBreak()); {{var "j"}}++ { // bounds-check-elimination
{{if not isArray}} if {{var "j"}} == 0 && {{var "v"}} == nil {
if {{var "hl"}} {
{{var "rl"}} = z.DecInferLen({{var "l"}}, z.DecBasicHandle().MaxInitLen, {{ .Size }})
} else {
{{var "rl"}} = {{if isSlice}}8{{else if isChan}}64{{end}}
}
{{var "v"}} = make({{if isSlice}}[]{{ .Typ }}{{else if isChan}}{{.CTyp}}{{end}}, {{var "rl"}})
{{var "c"}} = true
}{{end}}
{{var "h"}}.ElemContainerState({{var "j"}})
{{/* {{var "dn"}} = r.TryDecodeAsNil() */}}{{/* commented out, as decLineVar handles this already each time */}}
{{if isChan}}{{ $x := printf "%[1]vvcx%[2]v" .TempVar .Rand }}var {{$x}} {{ .Typ }}
{{ decLineVar $x }}
{{var "v"}} <- {{ $x }}
// println(">>>> sending ", {{ $x }}, " into ", {{var "v"}}) // TODO: remove this
{{else}}{{/* // if indefinite, etc, then expand the slice if necessary */}}
var {{var "db"}} bool
if {{var "j"}} >= len({{var "v"}}) {
{{if isSlice }} {{var "v"}} = append({{var "v"}}, {{ zero }})
{{var "c"}} = true
{{else}} z.DecArrayCannotExpand(len(v), {{var "j"}}+1); {{var "db"}} = true
{{end}}
}
if {{var "db"}} {
z.DecSwallow()
} else {
{{ $x := printf "%[1]vv%[2]v[%[1]vj%[2]v]" .TempVar .Rand }}{{ decLineVar $x }}
}
{{end}}
}
{{if isSlice}} if {{var "j"}} < len({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "j"}}]
{{var "c"}} = true
} else if {{var "j"}} == 0 && {{var "v"}} == nil {
{{var "v"}} = make([]{{ .Typ }}, 0)
{{var "c"}} = true
} {{end}}
}
{{var "h"}}.End()
{{if not isArray }}if {{var "c"}} {
*{{ .Varname }} = {{var "v"}}
}{{end}}
`
const genEncChanTmpl = `
{{.Label}}:
switch timeout{{.Sfx}} := z.EncBasicHandle().ChanRecvTimeout; {
case timeout{{.Sfx}} == 0: // only consume available
for {
select {
case b{{.Sfx}} := <-{{.Chan}}:
{{ .Slice }} = append({{.Slice}}, b{{.Sfx}})
default:
break {{.Label}}
}
}
case timeout{{.Sfx}} > 0: // consume until timeout
tt{{.Sfx}} := time.NewTimer(timeout{{.Sfx}})
for {
select {
case b{{.Sfx}} := <-{{.Chan}}:
{{.Slice}} = append({{.Slice}}, b{{.Sfx}})
case <-tt{{.Sfx}}.C:
// close(tt.C)
break {{.Label}}
}
}
default: // consume until close
for b{{.Sfx}} := range {{.Chan}} {
{{.Slice}} = append({{.Slice}}, b{{.Sfx}})
}
}
`

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vendor/github.com/hashicorp/go-msgpack/codec/gen.go generated vendored
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vendor/github.com/hashicorp/go-msgpack/codec/goversion_arrayof_gte_go15.go generated vendored
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@ -1,14 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.5
package codec
import "reflect"
const reflectArrayOfSupported = true
func reflectArrayOf(count int, elem reflect.Type) reflect.Type {
return reflect.ArrayOf(count, elem)
}

14
vendor/github.com/hashicorp/go-msgpack/codec/goversion_arrayof_lt_go15.go generated vendored
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@ -1,14 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build !go1.5
package codec
import "reflect"
const reflectArrayOfSupported = false
func reflectArrayOf(count int, elem reflect.Type) reflect.Type {
panic("codec: reflect.ArrayOf unsupported in this go version")
}

15
vendor/github.com/hashicorp/go-msgpack/codec/goversion_makemap_gte_go19.go generated vendored
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@ -1,15 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.9
package codec
import "reflect"
func makeMapReflect(t reflect.Type, size int) reflect.Value {
if size < 0 {
return reflect.MakeMapWithSize(t, 4)
}
return reflect.MakeMapWithSize(t, size)
}

12
vendor/github.com/hashicorp/go-msgpack/codec/goversion_makemap_lt_go19.go generated vendored
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@ -1,12 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build !go1.9
package codec
import "reflect"
func makeMapReflect(t reflect.Type, size int) reflect.Value {
return reflect.MakeMap(t)
}

8
vendor/github.com/hashicorp/go-msgpack/codec/goversion_unexportedembeddedptr_gte_go110.go generated vendored
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@ -1,8 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.10
package codec
const allowSetUnexportedEmbeddedPtr = false

8
vendor/github.com/hashicorp/go-msgpack/codec/goversion_unexportedembeddedptr_lt_go110.go generated vendored
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@ -1,8 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build !go1.10
package codec
const allowSetUnexportedEmbeddedPtr = true

17
vendor/github.com/hashicorp/go-msgpack/codec/goversion_unsupported_lt_go14.go generated vendored
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@ -1,17 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build !go1.4
package codec
// This codec package will only work for go1.4 and above.
// This is for the following reasons:
// - go 1.4 was released in 2014
// - go runtime is written fully in go
// - interface only holds pointers
// - reflect.Value is stabilized as 3 words
func init() {
panic("codec: go 1.3 and below are not supported")
}

10
vendor/github.com/hashicorp/go-msgpack/codec/goversion_vendor_eq_go15.go generated vendored
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@ -1,10 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.5,!go1.6
package codec
import "os"
var genCheckVendor = os.Getenv("GO15VENDOREXPERIMENT") == "1"

10
vendor/github.com/hashicorp/go-msgpack/codec/goversion_vendor_eq_go16.go generated vendored
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@ -1,10 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.6,!go1.7
package codec
import "os"
var genCheckVendor = os.Getenv("GO15VENDOREXPERIMENT") != "0"

8
vendor/github.com/hashicorp/go-msgpack/codec/goversion_vendor_gte_go17.go generated vendored
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@ -1,8 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build go1.7
package codec
const genCheckVendor = true

8
vendor/github.com/hashicorp/go-msgpack/codec/goversion_vendor_lt_go15.go generated vendored
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@ -1,8 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// +build !go1.5
package codec
var genCheckVendor = false

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vendor/github.com/hashicorp/go-msgpack/codec/helper.go generated vendored
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vendor/github.com/hashicorp/go-msgpack/codec/helper_internal.go generated vendored
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// Copyright (c) 2012-2015 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
// All non-std package dependencies live in this file,
// so porting to different environment is easy (just update functions).
func pruneSignExt(v []byte, pos bool) (n int) {
if len(v) < 2 {
} else if pos && v[0] == 0 {
for ; v[n] == 0 && n+1 < len(v) && (v[n+1]&(1<<7) == 0); n++ {
}
} else if !pos && v[0] == 0xff {
for ; v[n] == 0xff && n+1 < len(v) && (v[n+1]&(1<<7) != 0); n++ {
}
}
return
}
// validate that this function is correct ...
// culled from OGRE (Object-Oriented Graphics Rendering Engine)
// function: halfToFloatI (http://stderr.org/doc/ogre-doc/api/OgreBitwise_8h-source.html)
func halfFloatToFloatBits(yy uint16) (d uint32) {
y := uint32(yy)
s := (y >> 15) & 0x01
e := (y >> 10) & 0x1f
m := y & 0x03ff
if e == 0 {
if m == 0 { // plu or minus 0
return s << 31
}
// Denormalized number -- renormalize it
for (m & 0x00000400) == 0 {
m <<= 1
e -= 1
}
e += 1
const zz uint32 = 0x0400
m &= ^zz
} else if e == 31 {
if m == 0 { // Inf
return (s << 31) | 0x7f800000
}
return (s << 31) | 0x7f800000 | (m << 13) // NaN
}
e = e + (127 - 15)
m = m << 13
return (s << 31) | (e << 23) | m
}
// GrowCap will return a new capacity for a slice, given the following:
// - oldCap: current capacity
// - unit: in-memory size of an element
// - num: number of elements to add
func growCap(oldCap, unit, num int) (newCap int) {
// appendslice logic (if cap < 1024, *2, else *1.25):
// leads to many copy calls, especially when copying bytes.
// bytes.Buffer model (2*cap + n): much better for bytes.
// smarter way is to take the byte-size of the appended element(type) into account
// maintain 3 thresholds:
// t1: if cap <= t1, newcap = 2x
// t2: if cap <= t2, newcap = 1.75x
// t3: if cap <= t3, newcap = 1.5x
// else newcap = 1.25x
//
// t1, t2, t3 >= 1024 always.
// i.e. if unit size >= 16, then always do 2x or 1.25x (ie t1, t2, t3 are all same)
//
// With this, appending for bytes increase by:
// 100% up to 4K
// 75% up to 8K
// 50% up to 16K
// 25% beyond that
// unit can be 0 e.g. for struct{}{}; handle that appropriately
var t1, t2, t3 int // thresholds
if unit <= 1 {
t1, t2, t3 = 4*1024, 8*1024, 16*1024
} else if unit < 16 {
t3 = 16 / unit * 1024
t1 = t3 * 1 / 4
t2 = t3 * 2 / 4
} else {
t1, t2, t3 = 1024, 1024, 1024
}
var x int // temporary variable
// x is multiplier here: one of 5, 6, 7 or 8; incr of 25%, 50%, 75% or 100% respectively
if oldCap <= t1 { // [0,t1]
x = 8
} else if oldCap > t3 { // (t3,infinity]
x = 5
} else if oldCap <= t2 { // (t1,t2]
x = 7
} else { // (t2,t3]
x = 6
}
newCap = x * oldCap / 4
if num > 0 {
newCap += num
}
// ensure newCap is a multiple of 64 (if it is > 64) or 16.
if newCap > 64 {
if x = newCap % 64; x != 0 {
x = newCap / 64
newCap = 64 * (x + 1)
}
} else {
if x = newCap % 16; x != 0 {
x = newCap / 16
newCap = 16 * (x + 1)
}
}
return
}

331
vendor/github.com/hashicorp/go-msgpack/codec/helper_not_unsafe.go generated vendored
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@ -1,331 +0,0 @@
// +build !go1.7 safe appengine
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"reflect"
"sync/atomic"
"time"
)
const safeMode = true
// stringView returns a view of the []byte as a string.
// In unsafe mode, it doesn't incur allocation and copying caused by conversion.
// In regular safe mode, it is an allocation and copy.
//
// Usage: Always maintain a reference to v while result of this call is in use,
// and call keepAlive4BytesView(v) at point where done with view.
func stringView(v []byte) string {
return string(v)
}
// bytesView returns a view of the string as a []byte.
// In unsafe mode, it doesn't incur allocation and copying caused by conversion.
// In regular safe mode, it is an allocation and copy.
//
// Usage: Always maintain a reference to v while result of this call is in use,
// and call keepAlive4BytesView(v) at point where done with view.
func bytesView(v string) []byte {
return []byte(v)
}
func definitelyNil(v interface{}) bool {
// this is a best-effort option.
// We just return false, so we don't unnecessarily incur the cost of reflection this early.
return false
}
func rv2i(rv reflect.Value) interface{} {
return rv.Interface()
}
func rt2id(rt reflect.Type) uintptr {
return reflect.ValueOf(rt).Pointer()
}
// func rv2rtid(rv reflect.Value) uintptr {
// return reflect.ValueOf(rv.Type()).Pointer()
// }
func i2rtid(i interface{}) uintptr {
return reflect.ValueOf(reflect.TypeOf(i)).Pointer()
}
// --------------------------
func isEmptyValue(v reflect.Value, tinfos *TypeInfos, deref, checkStruct bool) bool {
switch v.Kind() {
case reflect.Invalid:
return true
case reflect.Array, reflect.Map, reflect.Slice, reflect.String:
return v.Len() == 0
case reflect.Bool:
return !v.Bool()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.Int() == 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return v.Uint() == 0
case reflect.Float32, reflect.Float64:
return v.Float() == 0
case reflect.Interface, reflect.Ptr:
if deref {
if v.IsNil() {
return true
}
return isEmptyValue(v.Elem(), tinfos, deref, checkStruct)
}
return v.IsNil()
case reflect.Struct:
return isEmptyStruct(v, tinfos, deref, checkStruct)
}
return false
}
// --------------------------
// type ptrToRvMap struct{}
// func (*ptrToRvMap) init() {}
// func (*ptrToRvMap) get(i interface{}) reflect.Value {
// return reflect.ValueOf(i).Elem()
// }
// --------------------------
type atomicClsErr struct {
v atomic.Value
}
func (x *atomicClsErr) load() (e clsErr) {
if i := x.v.Load(); i != nil {
e = i.(clsErr)
}
return
}
func (x *atomicClsErr) store(p clsErr) {
x.v.Store(p)
}
// --------------------------
type atomicTypeInfoSlice struct { // expected to be 2 words
v atomic.Value
}
func (x *atomicTypeInfoSlice) load() (e []rtid2ti) {
if i := x.v.Load(); i != nil {
e = i.([]rtid2ti)
}
return
}
func (x *atomicTypeInfoSlice) store(p []rtid2ti) {
x.v.Store(p)
}
// --------------------------
type atomicRtidFnSlice struct { // expected to be 2 words
v atomic.Value
}
func (x *atomicRtidFnSlice) load() (e []codecRtidFn) {
if i := x.v.Load(); i != nil {
e = i.([]codecRtidFn)
}
return
}
func (x *atomicRtidFnSlice) store(p []codecRtidFn) {
x.v.Store(p)
}
// --------------------------
func (n *decNaked) ru() reflect.Value {
return reflect.ValueOf(&n.u).Elem()
}
func (n *decNaked) ri() reflect.Value {
return reflect.ValueOf(&n.i).Elem()
}
func (n *decNaked) rf() reflect.Value {
return reflect.ValueOf(&n.f).Elem()
}
func (n *decNaked) rl() reflect.Value {
return reflect.ValueOf(&n.l).Elem()
}
func (n *decNaked) rs() reflect.Value {
return reflect.ValueOf(&n.s).Elem()
}
func (n *decNaked) rt() reflect.Value {
return reflect.ValueOf(&n.t).Elem()
}
func (n *decNaked) rb() reflect.Value {
return reflect.ValueOf(&n.b).Elem()
}
// --------------------------
func (d *Decoder) raw(f *codecFnInfo, rv reflect.Value) {
rv.SetBytes(d.rawBytes())
}
func (d *Decoder) kString(f *codecFnInfo, rv reflect.Value) {
rv.SetString(d.d.DecodeString())
}
func (d *Decoder) kBool(f *codecFnInfo, rv reflect.Value) {
rv.SetBool(d.d.DecodeBool())
}
func (d *Decoder) kTime(f *codecFnInfo, rv reflect.Value) {
rv.Set(reflect.ValueOf(d.d.DecodeTime()))
}
func (d *Decoder) kFloat32(f *codecFnInfo, rv reflect.Value) {
fv := d.d.DecodeFloat64()
if chkOvf.Float32(fv) {
d.errorf("float32 overflow: %v", fv)
}
rv.SetFloat(fv)
}
func (d *Decoder) kFloat64(f *codecFnInfo, rv reflect.Value) {
rv.SetFloat(d.d.DecodeFloat64())
}
func (d *Decoder) kInt(f *codecFnInfo, rv reflect.Value) {
rv.SetInt(chkOvf.IntV(d.d.DecodeInt64(), intBitsize))
}
func (d *Decoder) kInt8(f *codecFnInfo, rv reflect.Value) {
rv.SetInt(chkOvf.IntV(d.d.DecodeInt64(), 8))
}
func (d *Decoder) kInt16(f *codecFnInfo, rv reflect.Value) {
rv.SetInt(chkOvf.IntV(d.d.DecodeInt64(), 16))
}
func (d *Decoder) kInt32(f *codecFnInfo, rv reflect.Value) {
rv.SetInt(chkOvf.IntV(d.d.DecodeInt64(), 32))
}
func (d *Decoder) kInt64(f *codecFnInfo, rv reflect.Value) {
rv.SetInt(d.d.DecodeInt64())
}
func (d *Decoder) kUint(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))
}
func (d *Decoder) kUintptr(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))
}
func (d *Decoder) kUint8(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(chkOvf.UintV(d.d.DecodeUint64(), 8))
}
func (d *Decoder) kUint16(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(chkOvf.UintV(d.d.DecodeUint64(), 16))
}
func (d *Decoder) kUint32(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(chkOvf.UintV(d.d.DecodeUint64(), 32))
}
func (d *Decoder) kUint64(f *codecFnInfo, rv reflect.Value) {
rv.SetUint(d.d.DecodeUint64())
}
// ----------------
func (e *Encoder) kBool(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeBool(rv.Bool())
}
func (e *Encoder) kTime(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeTime(rv2i(rv).(time.Time))
}
func (e *Encoder) kString(f *codecFnInfo, rv reflect.Value) {
s := rv.String()
if e.h.StringToRaw {
e.e.EncodeStringBytesRaw(bytesView(s))
} else {
e.e.EncodeStringEnc(cUTF8, s)
}
}
func (e *Encoder) kFloat64(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeFloat64(rv.Float())
}
func (e *Encoder) kFloat32(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeFloat32(float32(rv.Float()))
}
func (e *Encoder) kInt(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeInt(rv.Int())
}
func (e *Encoder) kInt8(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeInt(rv.Int())
}
func (e *Encoder) kInt16(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeInt(rv.Int())
}
func (e *Encoder) kInt32(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeInt(rv.Int())
}
func (e *Encoder) kInt64(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeInt(rv.Int())
}
func (e *Encoder) kUint(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
func (e *Encoder) kUint8(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
func (e *Encoder) kUint16(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
func (e *Encoder) kUint32(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
func (e *Encoder) kUint64(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
func (e *Encoder) kUintptr(f *codecFnInfo, rv reflect.Value) {
e.e.EncodeUint(rv.Uint())
}
// // keepAlive4BytesView maintains a reference to the input parameter for bytesView.
// //
// // Usage: call this at point where done with the bytes view.
// func keepAlive4BytesView(v string) {}
// // keepAlive4BytesView maintains a reference to the input parameter for stringView.
// //
// // Usage: call this at point where done with the string view.
// func keepAlive4StringView(v []byte) {}
// func definitelyNil(v interface{}) bool {
// rv := reflect.ValueOf(v)
// switch rv.Kind() {
// case reflect.Invalid:
// return true
// case reflect.Ptr, reflect.Interface, reflect.Chan, reflect.Slice, reflect.Map, reflect.Func:
// return rv.IsNil()
// default:
// return false
// }
// }

745
vendor/github.com/hashicorp/go-msgpack/codec/helper_unsafe.go generated vendored
View File

@ -1,745 +0,0 @@
// +build !safe
// +build !appengine
// +build go1.7
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"reflect"
"sync/atomic"
"time"
"unsafe"
)
// This file has unsafe variants of some helper methods.
// NOTE: See helper_not_unsafe.go for the usage information.
// var zeroRTv [4]uintptr
const safeMode = false
const unsafeFlagIndir = 1 << 7 // keep in sync with GO_ROOT/src/reflect/value.go
type unsafeString struct {
Data unsafe.Pointer
Len int
}
type unsafeSlice struct {
Data unsafe.Pointer
Len int
Cap int
}
type unsafeIntf struct {
typ unsafe.Pointer
word unsafe.Pointer
}
type unsafeReflectValue struct {
typ unsafe.Pointer
ptr unsafe.Pointer
flag uintptr
}
func stringView(v []byte) string {
if len(v) == 0 {
return ""
}
bx := (*unsafeSlice)(unsafe.Pointer(&v))
return *(*string)(unsafe.Pointer(&unsafeString{bx.Data, bx.Len}))
}
func bytesView(v string) []byte {
if len(v) == 0 {
return zeroByteSlice
}
sx := (*unsafeString)(unsafe.Pointer(&v))
return *(*[]byte)(unsafe.Pointer(&unsafeSlice{sx.Data, sx.Len, sx.Len}))
}
func definitelyNil(v interface{}) bool {
// There is no global way of checking if an interface is nil.
// For true references (map, ptr, func, chan), you can just look
// at the word of the interface. However, for slices, you have to dereference
// the word, and get a pointer to the 3-word interface value.
//
// However, the following are cheap calls
// - TypeOf(interface): cheap 2-line call.
// - ValueOf(interface{}): expensive
// - type.Kind: cheap call through an interface
// - Value.Type(): cheap call
// except it's a method value (e.g. r.Read, which implies that it is a Func)
return ((*unsafeIntf)(unsafe.Pointer(&v))).word == nil
}
func rv2i(rv reflect.Value) interface{} {
// TODO: consider a more generally-known optimization for reflect.Value ==> Interface
//
// Currently, we use this fragile method that taps into implememtation details from
// the source go stdlib reflect/value.go, and trims the implementation.
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// true references (map, func, chan, ptr - NOT slice) may be double-referenced as flagIndir
var ptr unsafe.Pointer
if refBitset.isset(byte(urv.flag&(1<<5-1))) && urv.flag&unsafeFlagIndir != 0 {
ptr = *(*unsafe.Pointer)(urv.ptr)
} else {
ptr = urv.ptr
}
return *(*interface{})(unsafe.Pointer(&unsafeIntf{typ: urv.typ, word: ptr}))
}
func rt2id(rt reflect.Type) uintptr {
return uintptr(((*unsafeIntf)(unsafe.Pointer(&rt))).word)
}
// func rv2rtid(rv reflect.Value) uintptr {
// return uintptr((*unsafeReflectValue)(unsafe.Pointer(&rv)).typ)
// }
func i2rtid(i interface{}) uintptr {
return uintptr(((*unsafeIntf)(unsafe.Pointer(&i))).typ)
}
// --------------------------
func isEmptyValue(v reflect.Value, tinfos *TypeInfos, deref, checkStruct bool) bool {
urv := (*unsafeReflectValue)(unsafe.Pointer(&v))
if urv.flag == 0 {
return true
}
switch v.Kind() {
case reflect.Invalid:
return true
case reflect.String:
return (*unsafeString)(urv.ptr).Len == 0
case reflect.Slice:
return (*unsafeSlice)(urv.ptr).Len == 0
case reflect.Bool:
return !*(*bool)(urv.ptr)
case reflect.Int:
return *(*int)(urv.ptr) == 0
case reflect.Int8:
return *(*int8)(urv.ptr) == 0
case reflect.Int16:
return *(*int16)(urv.ptr) == 0
case reflect.Int32:
return *(*int32)(urv.ptr) == 0
case reflect.Int64:
return *(*int64)(urv.ptr) == 0
case reflect.Uint:
return *(*uint)(urv.ptr) == 0
case reflect.Uint8:
return *(*uint8)(urv.ptr) == 0
case reflect.Uint16:
return *(*uint16)(urv.ptr) == 0
case reflect.Uint32:
return *(*uint32)(urv.ptr) == 0
case reflect.Uint64:
return *(*uint64)(urv.ptr) == 0
case reflect.Uintptr:
return *(*uintptr)(urv.ptr) == 0
case reflect.Float32:
return *(*float32)(urv.ptr) == 0
case reflect.Float64:
return *(*float64)(urv.ptr) == 0
case reflect.Interface:
isnil := urv.ptr == nil || *(*unsafe.Pointer)(urv.ptr) == nil
if deref {
if isnil {
return true
}
return isEmptyValue(v.Elem(), tinfos, deref, checkStruct)
}
return isnil
case reflect.Ptr:
// isnil := urv.ptr == nil (not sufficient, as a pointer value encodes the type)
isnil := urv.ptr == nil || *(*unsafe.Pointer)(urv.ptr) == nil
if deref {
if isnil {
return true
}
return isEmptyValue(v.Elem(), tinfos, deref, checkStruct)
}
return isnil
case reflect.Struct:
return isEmptyStruct(v, tinfos, deref, checkStruct)
case reflect.Map, reflect.Array, reflect.Chan:
return v.Len() == 0
}
return false
}
// --------------------------
// atomicXXX is expected to be 2 words (for symmetry with atomic.Value)
//
// Note that we do not atomically load/store length and data pointer separately,
// as this could lead to some races. Instead, we atomically load/store cappedSlice.
//
// Note: with atomic.(Load|Store)Pointer, we MUST work with an unsafe.Pointer directly.
// ----------------------
type atomicTypeInfoSlice struct {
v unsafe.Pointer // *[]rtid2ti
_ uintptr // padding (atomicXXX expected to be 2 words)
}
func (x *atomicTypeInfoSlice) load() (s []rtid2ti) {
x2 := atomic.LoadPointer(&x.v)
if x2 != nil {
s = *(*[]rtid2ti)(x2)
}
return
}
func (x *atomicTypeInfoSlice) store(p []rtid2ti) {
atomic.StorePointer(&x.v, unsafe.Pointer(&p))
}
// --------------------------
type atomicRtidFnSlice struct {
v unsafe.Pointer // *[]codecRtidFn
_ uintptr // padding (atomicXXX expected to be 2 words)
}
func (x *atomicRtidFnSlice) load() (s []codecRtidFn) {
x2 := atomic.LoadPointer(&x.v)
if x2 != nil {
s = *(*[]codecRtidFn)(x2)
}
return
}
func (x *atomicRtidFnSlice) store(p []codecRtidFn) {
atomic.StorePointer(&x.v, unsafe.Pointer(&p))
}
// --------------------------
type atomicClsErr struct {
v unsafe.Pointer // *clsErr
_ uintptr // padding (atomicXXX expected to be 2 words)
}
func (x *atomicClsErr) load() (e clsErr) {
x2 := (*clsErr)(atomic.LoadPointer(&x.v))
if x2 != nil {
e = *x2
}
return
}
func (x *atomicClsErr) store(p clsErr) {
atomic.StorePointer(&x.v, unsafe.Pointer(&p))
}
// --------------------------
// to create a reflect.Value for each member field of decNaked,
// we first create a global decNaked, and create reflect.Value
// for them all.
// This way, we have the flags and type in the reflect.Value.
// Then, when a reflect.Value is called, we just copy it,
// update the ptr to the decNaked's, and return it.
type unsafeDecNakedWrapper struct {
decNaked
ru, ri, rf, rl, rs, rb, rt reflect.Value // mapping to the primitives above
}
func (n *unsafeDecNakedWrapper) init() {
n.ru = reflect.ValueOf(&n.u).Elem()
n.ri = reflect.ValueOf(&n.i).Elem()
n.rf = reflect.ValueOf(&n.f).Elem()
n.rl = reflect.ValueOf(&n.l).Elem()
n.rs = reflect.ValueOf(&n.s).Elem()
n.rt = reflect.ValueOf(&n.t).Elem()
n.rb = reflect.ValueOf(&n.b).Elem()
// n.rr[] = reflect.ValueOf(&n.)
}
var defUnsafeDecNakedWrapper unsafeDecNakedWrapper
func init() {
defUnsafeDecNakedWrapper.init()
}
func (n *decNaked) ru() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.ru
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.u)
return
}
func (n *decNaked) ri() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.ri
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.i)
return
}
func (n *decNaked) rf() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.rf
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.f)
return
}
func (n *decNaked) rl() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.rl
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.l)
return
}
func (n *decNaked) rs() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.rs
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.s)
return
}
func (n *decNaked) rt() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.rt
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.t)
return
}
func (n *decNaked) rb() (v reflect.Value) {
v = defUnsafeDecNakedWrapper.rb
((*unsafeReflectValue)(unsafe.Pointer(&v))).ptr = unsafe.Pointer(&n.b)
return
}
// --------------------------
func (d *Decoder) raw(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*[]byte)(urv.ptr) = d.rawBytes()
}
func (d *Decoder) kString(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*string)(urv.ptr) = d.d.DecodeString()
}
func (d *Decoder) kBool(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*bool)(urv.ptr) = d.d.DecodeBool()
}
func (d *Decoder) kTime(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*time.Time)(urv.ptr) = d.d.DecodeTime()
}
func (d *Decoder) kFloat32(f *codecFnInfo, rv reflect.Value) {
fv := d.d.DecodeFloat64()
if chkOvf.Float32(fv) {
d.errorf("float32 overflow: %v", fv)
}
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*float32)(urv.ptr) = float32(fv)
}
func (d *Decoder) kFloat64(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*float64)(urv.ptr) = d.d.DecodeFloat64()
}
func (d *Decoder) kInt(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*int)(urv.ptr) = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize))
}
func (d *Decoder) kInt8(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*int8)(urv.ptr) = int8(chkOvf.IntV(d.d.DecodeInt64(), 8))
}
func (d *Decoder) kInt16(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*int16)(urv.ptr) = int16(chkOvf.IntV(d.d.DecodeInt64(), 16))
}
func (d *Decoder) kInt32(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*int32)(urv.ptr) = int32(chkOvf.IntV(d.d.DecodeInt64(), 32))
}
func (d *Decoder) kInt64(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*int64)(urv.ptr) = d.d.DecodeInt64()
}
func (d *Decoder) kUint(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uint)(urv.ptr) = uint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))
}
func (d *Decoder) kUintptr(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uintptr)(urv.ptr) = uintptr(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))
}
func (d *Decoder) kUint8(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uint8)(urv.ptr) = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8))
}
func (d *Decoder) kUint16(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uint16)(urv.ptr) = uint16(chkOvf.UintV(d.d.DecodeUint64(), 16))
}
func (d *Decoder) kUint32(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uint32)(urv.ptr) = uint32(chkOvf.UintV(d.d.DecodeUint64(), 32))
}
func (d *Decoder) kUint64(f *codecFnInfo, rv reflect.Value) {
urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
*(*uint64)(urv.ptr) = d.d.DecodeUint64()
}
// ------------
func (e *Encoder) kBool(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeBool(*(*bool)(v.ptr))
}
func (e *Encoder) kTime(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeTime(*(*time.Time)(v.ptr))
}
func (e *Encoder) kString(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
s := *(*string)(v.ptr)
if e.h.StringToRaw {
e.e.EncodeStringBytesRaw(bytesView(s))
} else {
e.e.EncodeStringEnc(cUTF8, s)
}
}
func (e *Encoder) kFloat64(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeFloat64(*(*float64)(v.ptr))
}
func (e *Encoder) kFloat32(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeFloat32(*(*float32)(v.ptr))
}
func (e *Encoder) kInt(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeInt(int64(*(*int)(v.ptr)))
}
func (e *Encoder) kInt8(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeInt(int64(*(*int8)(v.ptr)))
}
func (e *Encoder) kInt16(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeInt(int64(*(*int16)(v.ptr)))
}
func (e *Encoder) kInt32(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeInt(int64(*(*int32)(v.ptr)))
}
func (e *Encoder) kInt64(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeInt(int64(*(*int64)(v.ptr)))
}
func (e *Encoder) kUint(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uint)(v.ptr)))
}
func (e *Encoder) kUint8(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uint8)(v.ptr)))
}
func (e *Encoder) kUint16(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uint16)(v.ptr)))
}
func (e *Encoder) kUint32(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uint32)(v.ptr)))
}
func (e *Encoder) kUint64(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uint64)(v.ptr)))
}
func (e *Encoder) kUintptr(f *codecFnInfo, rv reflect.Value) {
v := (*unsafeReflectValue)(unsafe.Pointer(&rv))
e.e.EncodeUint(uint64(*(*uintptr)(v.ptr)))
}
// ------------
// func (d *Decoder) raw(f *codecFnInfo, rv reflect.Value) {
// urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// // if urv.flag&unsafeFlagIndir != 0 {
// // urv.ptr = *(*unsafe.Pointer)(urv.ptr)
// // }
// *(*[]byte)(urv.ptr) = d.rawBytes()
// }
// func rv0t(rt reflect.Type) reflect.Value {
// ut := (*unsafeIntf)(unsafe.Pointer(&rt))
// // we need to determine whether ifaceIndir, and then whether to just pass 0 as the ptr
// uv := unsafeReflectValue{ut.word, &zeroRTv, flag(rt.Kind())}
// return *(*reflect.Value)(unsafe.Pointer(&uv})
// }
// func rv2i(rv reflect.Value) interface{} {
// urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// // true references (map, func, chan, ptr - NOT slice) may be double-referenced as flagIndir
// var ptr unsafe.Pointer
// // kk := reflect.Kind(urv.flag & (1<<5 - 1))
// // if (kk == reflect.Map || kk == reflect.Ptr || kk == reflect.Chan || kk == reflect.Func) && urv.flag&unsafeFlagIndir != 0 {
// if refBitset.isset(byte(urv.flag&(1<<5-1))) && urv.flag&unsafeFlagIndir != 0 {
// ptr = *(*unsafe.Pointer)(urv.ptr)
// } else {
// ptr = urv.ptr
// }
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{typ: urv.typ, word: ptr}))
// // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: *(*unsafe.Pointer)(urv.ptr), typ: urv.typ}))
// // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// }
// func definitelyNil(v interface{}) bool {
// var ui *unsafeIntf = (*unsafeIntf)(unsafe.Pointer(&v))
// if ui.word == nil {
// return true
// }
// var tk = reflect.TypeOf(v).Kind()
// return (tk == reflect.Interface || tk == reflect.Slice) && *(*unsafe.Pointer)(ui.word) == nil
// fmt.Printf(">>>> definitely nil: isnil: %v, TYPE: \t%T, word: %v, *word: %v, type: %v, nil: %v\n",
// v == nil, v, word, *((*unsafe.Pointer)(word)), ui.typ, nil)
// }
// func keepAlive4BytesView(v string) {
// runtime.KeepAlive(v)
// }
// func keepAlive4StringView(v []byte) {
// runtime.KeepAlive(v)
// }
// func rt2id(rt reflect.Type) uintptr {
// return uintptr(((*unsafeIntf)(unsafe.Pointer(&rt))).word)
// // var i interface{} = rt
// // // ui := (*unsafeIntf)(unsafe.Pointer(&i))
// // return ((*unsafeIntf)(unsafe.Pointer(&i))).word
// }
// func rv2i(rv reflect.Value) interface{} {
// urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// // non-reference type: already indir
// // reference type: depend on flagIndir property ('cos maybe was double-referenced)
// // const (unsafeRvFlagKindMask = 1<<5 - 1 , unsafeRvFlagIndir = 1 << 7 )
// // rvk := reflect.Kind(urv.flag & (1<<5 - 1))
// // if (rvk == reflect.Chan ||
// // rvk == reflect.Func ||
// // rvk == reflect.Interface ||
// // rvk == reflect.Map ||
// // rvk == reflect.Ptr ||
// // rvk == reflect.UnsafePointer) && urv.flag&(1<<8) != 0 {
// // fmt.Printf(">>>>> ---- double indirect reference: %v, %v\n", rvk, rv.Type())
// // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: *(*unsafe.Pointer)(urv.ptr), typ: urv.typ}))
// // }
// if urv.flag&(1<<5-1) == uintptr(reflect.Map) && urv.flag&(1<<7) != 0 {
// // fmt.Printf(">>>>> ---- double indirect reference: %v, %v\n", rvk, rv.Type())
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: *(*unsafe.Pointer)(urv.ptr), typ: urv.typ}))
// }
// // fmt.Printf(">>>>> ++++ direct reference: %v, %v\n", rvk, rv.Type())
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// }
// const (
// unsafeRvFlagKindMask = 1<<5 - 1
// unsafeRvKindDirectIface = 1 << 5
// unsafeRvFlagIndir = 1 << 7
// unsafeRvFlagAddr = 1 << 8
// unsafeRvFlagMethod = 1 << 9
// _USE_RV_INTERFACE bool = false
// _UNSAFE_RV_DEBUG = true
// )
// type unsafeRtype struct {
// _ [2]uintptr
// _ uint32
// _ uint8
// _ uint8
// _ uint8
// kind uint8
// _ [2]uintptr
// _ int32
// }
// func _rv2i(rv reflect.Value) interface{} {
// // Note: From use,
// // - it's never an interface
// // - the only calls here are for ifaceIndir types.
// // (though that conditional is wrong)
// // To know for sure, we need the value of t.kind (which is not exposed).
// //
// // Need to validate the path: type is indirect ==> only value is indirect ==> default (value is direct)
// // - Type indirect, Value indirect: ==> numbers, boolean, slice, struct, array, string
// // - Type Direct, Value indirect: ==> map???
// // - Type Direct, Value direct: ==> pointers, unsafe.Pointer, func, chan, map
// //
// // TRANSLATES TO:
// // if typeIndirect { } else if valueIndirect { } else { }
// //
// // Since we don't deal with funcs, then "flagNethod" is unset, and can be ignored.
// if _USE_RV_INTERFACE {
// return rv.Interface()
// }
// urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// // if urv.flag&unsafeRvFlagMethod != 0 || urv.flag&unsafeRvFlagKindMask == uintptr(reflect.Interface) {
// // println("***** IS flag method or interface: delegating to rv.Interface()")
// // return rv.Interface()
// // }
// // if urv.flag&unsafeRvFlagKindMask == uintptr(reflect.Interface) {
// // println("***** IS Interface: delegate to rv.Interface")
// // return rv.Interface()
// // }
// // if urv.flag&unsafeRvFlagKindMask&unsafeRvKindDirectIface == 0 {
// // if urv.flag&unsafeRvFlagAddr == 0 {
// // println("***** IS ifaceIndir typ")
// // // ui := unsafeIntf{word: urv.ptr, typ: urv.typ}
// // // return *(*interface{})(unsafe.Pointer(&ui))
// // // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// // }
// // } else if urv.flag&unsafeRvFlagIndir != 0 {
// // println("***** IS flagindir")
// // // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: *(*unsafe.Pointer)(urv.ptr), typ: urv.typ}))
// // } else {
// // println("***** NOT flagindir")
// // return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// // }
// // println("***** default: delegate to rv.Interface")
// urt := (*unsafeRtype)(unsafe.Pointer(urv.typ))
// if _UNSAFE_RV_DEBUG {
// fmt.Printf(">>>> start: %v: ", rv.Type())
// fmt.Printf("%v - %v\n", *urv, *urt)
// }
// if urt.kind&unsafeRvKindDirectIface == 0 {
// if _UNSAFE_RV_DEBUG {
// fmt.Printf("**** +ifaceIndir type: %v\n", rv.Type())
// }
// // println("***** IS ifaceIndir typ")
// // if true || urv.flag&unsafeRvFlagAddr == 0 {
// // // println(" ***** IS NOT addr")
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// // }
// } else if urv.flag&unsafeRvFlagIndir != 0 {
// if _UNSAFE_RV_DEBUG {
// fmt.Printf("**** +flagIndir type: %v\n", rv.Type())
// }
// // println("***** IS flagindir")
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: *(*unsafe.Pointer)(urv.ptr), typ: urv.typ}))
// } else {
// if _UNSAFE_RV_DEBUG {
// fmt.Printf("**** -flagIndir type: %v\n", rv.Type())
// }
// // println("***** NOT flagindir")
// return *(*interface{})(unsafe.Pointer(&unsafeIntf{word: urv.ptr, typ: urv.typ}))
// }
// // println("***** default: delegating to rv.Interface()")
// // return rv.Interface()
// }
// var staticM0 = make(map[string]uint64)
// var staticI0 = (int32)(-5)
// func staticRv2iTest() {
// i0 := (int32)(-5)
// m0 := make(map[string]uint16)
// m0["1"] = 1
// for _, i := range []interface{}{
// (int)(7),
// (uint)(8),
// (int16)(-9),
// (uint16)(19),
// (uintptr)(77),
// (bool)(true),
// float32(-32.7),
// float64(64.9),
// complex(float32(19), 5),
// complex(float64(-32), 7),
// [4]uint64{1, 2, 3, 4},
// (chan<- int)(nil), // chan,
// rv2i, // func
// io.Writer(ioutil.Discard),
// make(map[string]uint),
// (map[string]uint)(nil),
// staticM0,
// m0,
// &m0,
// i0,
// &i0,
// &staticI0,
// &staticM0,
// []uint32{6, 7, 8},
// "abc",
// Raw{},
// RawExt{},
// &Raw{},
// &RawExt{},
// unsafe.Pointer(&i0),
// } {
// i2 := rv2i(reflect.ValueOf(i))
// eq := reflect.DeepEqual(i, i2)
// fmt.Printf(">>>> %v == %v? %v\n", i, i2, eq)
// }
// // os.Exit(0)
// }
// func init() {
// staticRv2iTest()
// }
// func rv2i(rv reflect.Value) interface{} {
// if _USE_RV_INTERFACE || rv.Kind() == reflect.Interface || rv.CanAddr() {
// return rv.Interface()
// }
// // var i interface{}
// // ui := (*unsafeIntf)(unsafe.Pointer(&i))
// var ui unsafeIntf
// urv := (*unsafeReflectValue)(unsafe.Pointer(&rv))
// // fmt.Printf("urv: flag: %b, typ: %b, ptr: %b\n", urv.flag, uintptr(urv.typ), uintptr(urv.ptr))
// if (urv.flag&unsafeRvFlagKindMask)&unsafeRvKindDirectIface == 0 {
// if urv.flag&unsafeRvFlagAddr != 0 {
// println("***** indirect and addressable! Needs typed move - delegate to rv.Interface()")
// return rv.Interface()
// }
// println("****** indirect type/kind")
// ui.word = urv.ptr
// } else if urv.flag&unsafeRvFlagIndir != 0 {
// println("****** unsafe rv flag indir")
// ui.word = *(*unsafe.Pointer)(urv.ptr)
// } else {
// println("****** default: assign prt to word directly")
// ui.word = urv.ptr
// }
// // ui.word = urv.ptr
// ui.typ = urv.typ
// // fmt.Printf("(pointers) ui.typ: %p, word: %p\n", ui.typ, ui.word)
// // fmt.Printf("(binary) ui.typ: %b, word: %b\n", uintptr(ui.typ), uintptr(ui.word))
// return *(*interface{})(unsafe.Pointer(&ui))
// // return i
// }

1491
vendor/github.com/hashicorp/go-msgpack/codec/json.go generated vendored
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1130
vendor/github.com/hashicorp/go-msgpack/codec/msgpack.go generated vendored
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225
vendor/github.com/hashicorp/go-msgpack/codec/rpc.go generated vendored
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@ -1,225 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"bufio"
"errors"
"io"
"net/rpc"
)
var errRpcJsonNeedsTermWhitespace = errors.New("rpc requires JsonHandle with TermWhitespace=true")
// Rpc provides a rpc Server or Client Codec for rpc communication.
type Rpc interface {
ServerCodec(conn io.ReadWriteCloser, h Handle) rpc.ServerCodec
ClientCodec(conn io.ReadWriteCloser, h Handle) rpc.ClientCodec
}
// RPCOptions holds options specific to rpc functionality
type RPCOptions struct {
// RPCNoBuffer configures whether we attempt to buffer reads and writes during RPC calls.
//
// Set RPCNoBuffer=true to turn buffering off.
// Buffering can still be done if buffered connections are passed in, or
// buffering is configured on the handle.
RPCNoBuffer bool
}
// rpcCodec defines the struct members and common methods.
type rpcCodec struct {
c io.Closer
r io.Reader
w io.Writer
f ioFlusher
dec *Decoder
enc *Encoder
// bw *bufio.Writer
// br *bufio.Reader
h Handle
cls atomicClsErr
}
func newRPCCodec(conn io.ReadWriteCloser, h Handle) rpcCodec {
// return newRPCCodec2(bufio.NewReader(conn), bufio.NewWriter(conn), conn, h)
return newRPCCodec2(conn, conn, conn, h)
}
func newRPCCodec2(r io.Reader, w io.Writer, c io.Closer, h Handle) rpcCodec {
// defensive: ensure that jsonH has TermWhitespace turned on.
if jsonH, ok := h.(*JsonHandle); ok && !jsonH.TermWhitespace {
panic(errRpcJsonNeedsTermWhitespace)
}
// always ensure that we use a flusher, and always flush what was written to the connection.
// we lose nothing by using a buffered writer internally.
f, ok := w.(ioFlusher)
bh := basicHandle(h)
if !bh.RPCNoBuffer {
if bh.WriterBufferSize <= 0 {
if !ok {
bw := bufio.NewWriter(w)
f, w = bw, bw
}
}
if bh.ReaderBufferSize <= 0 {
if _, ok = w.(ioPeeker); !ok {
if _, ok = w.(ioBuffered); !ok {
br := bufio.NewReader(r)
r = br
}
}
}
}
return rpcCodec{
c: c,
w: w,
r: r,
f: f,
h: h,
enc: NewEncoder(w, h),
dec: NewDecoder(r, h),
}
}
func (c *rpcCodec) write(obj1, obj2 interface{}, writeObj2 bool) (err error) {
if c.c != nil {
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
}
err = c.enc.Encode(obj1)
if err == nil {
if writeObj2 {
err = c.enc.Encode(obj2)
}
// if err == nil && c.f != nil {
// err = c.f.Flush()
// }
}
if c.f != nil {
if err == nil {
err = c.f.Flush()
} else {
_ = c.f.Flush() // swallow flush error, so we maintain prior error on write
}
}
return
}
func (c *rpcCodec) swallow(err *error) {
defer panicToErr(c.dec, err)
c.dec.swallow()
}
func (c *rpcCodec) read(obj interface{}) (err error) {
if c.c != nil {
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
}
//If nil is passed in, we should read and discard
if obj == nil {
// var obj2 interface{}
// return c.dec.Decode(&obj2)
c.swallow(&err)
return
}
return c.dec.Decode(obj)
}
func (c *rpcCodec) Close() error {
if c.c == nil {
return nil
}
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
cls.errClosed = c.c.Close()
cls.closed = true
c.cls.store(cls)
return cls.errClosed
}
func (c *rpcCodec) ReadResponseBody(body interface{}) error {
return c.read(body)
}
// -------------------------------------
type goRpcCodec struct {
rpcCodec
}
func (c *goRpcCodec) WriteRequest(r *rpc.Request, body interface{}) error {
return c.write(r, body, true)
}
func (c *goRpcCodec) WriteResponse(r *rpc.Response, body interface{}) error {
return c.write(r, body, true)
}
func (c *goRpcCodec) ReadResponseHeader(r *rpc.Response) error {
return c.read(r)
}
func (c *goRpcCodec) ReadRequestHeader(r *rpc.Request) error {
return c.read(r)
}
func (c *goRpcCodec) ReadRequestBody(body interface{}) error {
return c.read(body)
}
// -------------------------------------
// goRpc is the implementation of Rpc that uses the communication protocol
// as defined in net/rpc package.
type goRpc struct{}
// GoRpc implements Rpc using the communication protocol defined in net/rpc package.
//
// Note: network connection (from net.Dial, of type io.ReadWriteCloser) is not buffered.
//
// For performance, you should configure WriterBufferSize and ReaderBufferSize on the handle.
// This ensures we use an adequate buffer during reading and writing.
// If not configured, we will internally initialize and use a buffer during reads and writes.
// This can be turned off via the RPCNoBuffer option on the Handle.
// var handle codec.JsonHandle
// handle.RPCNoBuffer = true // turns off attempt by rpc module to initialize a buffer
//
// Example 1: one way of configuring buffering explicitly:
// var handle codec.JsonHandle // codec handle
// handle.ReaderBufferSize = 1024
// handle.WriterBufferSize = 1024
// var conn io.ReadWriteCloser // connection got from a socket
// var serverCodec = GoRpc.ServerCodec(conn, handle)
// var clientCodec = GoRpc.ClientCodec(conn, handle)
//
// Example 2: you can also explicitly create a buffered connection yourself,
// and not worry about configuring the buffer sizes in the Handle.
// var handle codec.Handle // codec handle
// var conn io.ReadWriteCloser // connection got from a socket
// var bufconn = struct { // bufconn here is a buffered io.ReadWriteCloser
// io.Closer
// *bufio.Reader
// *bufio.Writer
// }{conn, bufio.NewReader(conn), bufio.NewWriter(conn)}
// var serverCodec = GoRpc.ServerCodec(bufconn, handle)
// var clientCodec = GoRpc.ClientCodec(bufconn, handle)
//
var GoRpc goRpc
func (x goRpc) ServerCodec(conn io.ReadWriteCloser, h Handle) rpc.ServerCodec {
return &goRpcCodec{newRPCCodec(conn, h)}
}
func (x goRpc) ClientCodec(conn io.ReadWriteCloser, h Handle) rpc.ClientCodec {
return &goRpcCodec{newRPCCodec(conn, h)}
}

666
vendor/github.com/hashicorp/go-msgpack/codec/simple.go generated vendored
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@ -1,666 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"math"
"reflect"
"time"
)
const (
_ uint8 = iota
simpleVdNil = 1
simpleVdFalse = 2
simpleVdTrue = 3
simpleVdFloat32 = 4
simpleVdFloat64 = 5
// each lasts for 4 (ie n, n+1, n+2, n+3)
simpleVdPosInt = 8
simpleVdNegInt = 12
simpleVdTime = 24
// containers: each lasts for 4 (ie n, n+1, n+2, ... n+7)
simpleVdString = 216
simpleVdByteArray = 224
simpleVdArray = 232
simpleVdMap = 240
simpleVdExt = 248
)
type simpleEncDriver struct {
noBuiltInTypes
// encNoSeparator
e *Encoder
h *SimpleHandle
w *encWriterSwitch
b [8]byte
// c containerState
encDriverTrackContainerWriter
// encDriverNoopContainerWriter
_ [3]uint64 // padding
}
func (e *simpleEncDriver) EncodeNil() {
e.w.writen1(simpleVdNil)
}
func (e *simpleEncDriver) EncodeBool(b bool) {
if e.h.EncZeroValuesAsNil && e.c != containerMapKey && !b {
e.EncodeNil()
return
}
if b {
e.w.writen1(simpleVdTrue)
} else {
e.w.writen1(simpleVdFalse)
}
}
func (e *simpleEncDriver) EncodeFloat32(f float32) {
if e.h.EncZeroValuesAsNil && e.c != containerMapKey && f == 0.0 {
e.EncodeNil()
return
}
e.w.writen1(simpleVdFloat32)
bigenHelper{e.b[:4], e.w}.writeUint32(math.Float32bits(f))
}
func (e *simpleEncDriver) EncodeFloat64(f float64) {
if e.h.EncZeroValuesAsNil && e.c != containerMapKey && f == 0.0 {
e.EncodeNil()
return
}
e.w.writen1(simpleVdFloat64)
bigenHelper{e.b[:8], e.w}.writeUint64(math.Float64bits(f))
}
func (e *simpleEncDriver) EncodeInt(v int64) {
if v < 0 {
e.encUint(uint64(-v), simpleVdNegInt)
} else {
e.encUint(uint64(v), simpleVdPosInt)
}
}
func (e *simpleEncDriver) EncodeUint(v uint64) {
e.encUint(v, simpleVdPosInt)
}
func (e *simpleEncDriver) encUint(v uint64, bd uint8) {
if e.h.EncZeroValuesAsNil && e.c != containerMapKey && v == 0 {
e.EncodeNil()
return
}
if v <= math.MaxUint8 {
e.w.writen2(bd, uint8(v))
} else if v <= math.MaxUint16 {
e.w.writen1(bd + 1)
bigenHelper{e.b[:2], e.w}.writeUint16(uint16(v))
} else if v <= math.MaxUint32 {
e.w.writen1(bd + 2)
bigenHelper{e.b[:4], e.w}.writeUint32(uint32(v))
} else { // if v <= math.MaxUint64 {
e.w.writen1(bd + 3)
bigenHelper{e.b[:8], e.w}.writeUint64(v)
}
}
func (e *simpleEncDriver) encLen(bd byte, length int) {
if length == 0 {
e.w.writen1(bd)
} else if length <= math.MaxUint8 {
e.w.writen1(bd + 1)
e.w.writen1(uint8(length))
} else if length <= math.MaxUint16 {
e.w.writen1(bd + 2)
bigenHelper{e.b[:2], e.w}.writeUint16(uint16(length))
} else if int64(length) <= math.MaxUint32 {
e.w.writen1(bd + 3)
bigenHelper{e.b[:4], e.w}.writeUint32(uint32(length))
} else {
e.w.writen1(bd + 4)
bigenHelper{e.b[:8], e.w}.writeUint64(uint64(length))
}
}
func (e *simpleEncDriver) EncodeExt(rv interface{}, xtag uint64, ext Ext, _ *Encoder) {
bs := ext.WriteExt(rv)
if bs == nil {
e.EncodeNil()
return
}
e.encodeExtPreamble(uint8(xtag), len(bs))
e.w.writeb(bs)
}
func (e *simpleEncDriver) EncodeRawExt(re *RawExt, _ *Encoder) {
e.encodeExtPreamble(uint8(re.Tag), len(re.Data))
e.w.writeb(re.Data)
}
func (e *simpleEncDriver) encodeExtPreamble(xtag byte, length int) {
e.encLen(simpleVdExt, length)
e.w.writen1(xtag)
}
func (e *simpleEncDriver) WriteArrayStart(length int) {
e.c = containerArrayStart
e.encLen(simpleVdArray, length)
}
func (e *simpleEncDriver) WriteMapStart(length int) {
e.c = containerMapStart
e.encLen(simpleVdMap, length)
}
// func (e *simpleEncDriver) EncodeSymbol(v string) {
// e.EncodeStringEnc(cUTF8, v)
// }
func (e *simpleEncDriver) EncodeStringEnc(c charEncoding, v string) {
if false && e.h.EncZeroValuesAsNil && e.c != containerMapKey && v == "" {
e.EncodeNil()
return
}
e.encLen(simpleVdString, len(v))
e.w.writestr(v)
}
func (e *simpleEncDriver) EncodeString(c charEncoding, v string) {
e.EncodeStringEnc(c, v)
}
func (e *simpleEncDriver) EncodeStringBytes(c charEncoding, v []byte) {
e.EncodeStringBytesRaw(v)
}
func (e *simpleEncDriver) EncodeStringBytesRaw(v []byte) {
// if e.h.EncZeroValuesAsNil && e.c != containerMapKey && v == nil {
if v == nil {
e.EncodeNil()
return
}
e.encLen(simpleVdByteArray, len(v))
e.w.writeb(v)
}
func (e *simpleEncDriver) EncodeTime(t time.Time) {
// if e.h.EncZeroValuesAsNil && e.c != containerMapKey && t.IsZero() {
if t.IsZero() {
e.EncodeNil()
return
}
v, err := t.MarshalBinary()
if err != nil {
e.e.errorv(err)
return
}
// time.Time marshalbinary takes about 14 bytes.
e.w.writen2(simpleVdTime, uint8(len(v)))
e.w.writeb(v)
}
//------------------------------------
type simpleDecDriver struct {
d *Decoder
h *SimpleHandle
r *decReaderSwitch
bdRead bool
bd byte
br bool // a bytes reader?
c containerState
// b [scratchByteArrayLen]byte
noBuiltInTypes
// noStreamingCodec
decDriverNoopContainerReader
// _ [3]uint64 // padding
}
func (d *simpleDecDriver) readNextBd() {
d.bd = d.r.readn1()
d.bdRead = true
}
func (d *simpleDecDriver) uncacheRead() {
if d.bdRead {
d.r.unreadn1()
d.bdRead = false
}
}
func (d *simpleDecDriver) ContainerType() (vt valueType) {
if !d.bdRead {
d.readNextBd()
}
switch d.bd {
case simpleVdNil:
return valueTypeNil
case simpleVdByteArray, simpleVdByteArray + 1,
simpleVdByteArray + 2, simpleVdByteArray + 3, simpleVdByteArray + 4:
return valueTypeBytes
case simpleVdString, simpleVdString + 1,
simpleVdString + 2, simpleVdString + 3, simpleVdString + 4:
return valueTypeString
case simpleVdArray, simpleVdArray + 1,
simpleVdArray + 2, simpleVdArray + 3, simpleVdArray + 4:
return valueTypeArray
case simpleVdMap, simpleVdMap + 1,
simpleVdMap + 2, simpleVdMap + 3, simpleVdMap + 4:
return valueTypeMap
// case simpleVdTime:
// return valueTypeTime
}
// else {
// d.d.errorf("isContainerType: unsupported parameter: %v", vt)
// }
return valueTypeUnset
}
func (d *simpleDecDriver) TryDecodeAsNil() bool {
if !d.bdRead {
d.readNextBd()
}
if d.bd == simpleVdNil {
d.bdRead = false
return true
}
return false
}
func (d *simpleDecDriver) decCheckInteger() (ui uint64, neg bool) {
if !d.bdRead {
d.readNextBd()
}
switch d.bd {
case simpleVdPosInt:
ui = uint64(d.r.readn1())
case simpleVdPosInt + 1:
ui = uint64(bigen.Uint16(d.r.readx(2)))
case simpleVdPosInt + 2:
ui = uint64(bigen.Uint32(d.r.readx(4)))
case simpleVdPosInt + 3:
ui = uint64(bigen.Uint64(d.r.readx(8)))
case simpleVdNegInt:
ui = uint64(d.r.readn1())
neg = true
case simpleVdNegInt + 1:
ui = uint64(bigen.Uint16(d.r.readx(2)))
neg = true
case simpleVdNegInt + 2:
ui = uint64(bigen.Uint32(d.r.readx(4)))
neg = true
case simpleVdNegInt + 3:
ui = uint64(bigen.Uint64(d.r.readx(8)))
neg = true
default:
d.d.errorf("integer only valid from pos/neg integer1..8. Invalid descriptor: %v", d.bd)
return
}
// don't do this check, because callers may only want the unsigned value.
// if ui > math.MaxInt64 {
// d.d.errorf("decIntAny: Integer out of range for signed int64: %v", ui)
// return
// }
return
}
func (d *simpleDecDriver) DecodeInt64() (i int64) {
ui, neg := d.decCheckInteger()
i = chkOvf.SignedIntV(ui)
if neg {
i = -i
}
d.bdRead = false
return
}
func (d *simpleDecDriver) DecodeUint64() (ui uint64) {
ui, neg := d.decCheckInteger()
if neg {
d.d.errorf("assigning negative signed value to unsigned type")
return
}
d.bdRead = false
return
}
func (d *simpleDecDriver) DecodeFloat64() (f float64) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == simpleVdFloat32 {
f = float64(math.Float32frombits(bigen.Uint32(d.r.readx(4))))
} else if d.bd == simpleVdFloat64 {
f = math.Float64frombits(bigen.Uint64(d.r.readx(8)))
} else {
if d.bd >= simpleVdPosInt && d.bd <= simpleVdNegInt+3 {
f = float64(d.DecodeInt64())
} else {
d.d.errorf("float only valid from float32/64: Invalid descriptor: %v", d.bd)
return
}
}
d.bdRead = false
return
}
// bool can be decoded from bool only (single byte).
func (d *simpleDecDriver) DecodeBool() (b bool) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == simpleVdTrue {
b = true
} else if d.bd == simpleVdFalse {
} else {
d.d.errorf("cannot decode bool - %s: %x", msgBadDesc, d.bd)
return
}
d.bdRead = false
return
}
func (d *simpleDecDriver) ReadMapStart() (length int) {
if !d.bdRead {
d.readNextBd()
}
d.bdRead = false
d.c = containerMapStart
return d.decLen()
}
func (d *simpleDecDriver) ReadArrayStart() (length int) {
if !d.bdRead {
d.readNextBd()
}
d.bdRead = false
d.c = containerArrayStart
return d.decLen()
}
func (d *simpleDecDriver) ReadArrayElem() {
d.c = containerArrayElem
}
func (d *simpleDecDriver) ReadArrayEnd() {
d.c = containerArrayEnd
}
func (d *simpleDecDriver) ReadMapElemKey() {
d.c = containerMapKey
}
func (d *simpleDecDriver) ReadMapElemValue() {
d.c = containerMapValue
}
func (d *simpleDecDriver) ReadMapEnd() {
d.c = containerMapEnd
}
func (d *simpleDecDriver) decLen() int {
switch d.bd % 8 {
case 0:
return 0
case 1:
return int(d.r.readn1())
case 2:
return int(bigen.Uint16(d.r.readx(2)))
case 3:
ui := uint64(bigen.Uint32(d.r.readx(4)))
if chkOvf.Uint(ui, intBitsize) {
d.d.errorf("overflow integer: %v", ui)
return 0
}
return int(ui)
case 4:
ui := bigen.Uint64(d.r.readx(8))
if chkOvf.Uint(ui, intBitsize) {
d.d.errorf("overflow integer: %v", ui)
return 0
}
return int(ui)
}
d.d.errorf("cannot read length: bd%%8 must be in range 0..4. Got: %d", d.bd%8)
return -1
}
func (d *simpleDecDriver) DecodeString() (s string) {
return string(d.DecodeBytes(d.d.b[:], true))
}
func (d *simpleDecDriver) DecodeStringAsBytes() (s []byte) {
return d.DecodeBytes(d.d.b[:], true)
}
func (d *simpleDecDriver) DecodeBytes(bs []byte, zerocopy bool) (bsOut []byte) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == simpleVdNil {
d.bdRead = false
return
}
// check if an "array" of uint8's (see ContainerType for how to infer if an array)
if d.bd >= simpleVdArray && d.bd <= simpleVdMap+4 {
if len(bs) == 0 && zerocopy {
bs = d.d.b[:]
}
bsOut, _ = fastpathTV.DecSliceUint8V(bs, true, d.d)
return
}
clen := d.decLen()
d.bdRead = false
if zerocopy {
if d.br {
return d.r.readx(uint(clen))
} else if len(bs) == 0 {
bs = d.d.b[:]
}
}
return decByteSlice(d.r, clen, d.d.h.MaxInitLen, bs)
}
func (d *simpleDecDriver) DecodeTime() (t time.Time) {
if !d.bdRead {
d.readNextBd()
}
if d.bd == simpleVdNil {
d.bdRead = false
return
}
if d.bd != simpleVdTime {
d.d.errorf("invalid descriptor for time.Time - expect 0x%x, received 0x%x", simpleVdTime, d.bd)
return
}
d.bdRead = false
clen := int(d.r.readn1())
b := d.r.readx(uint(clen))
if err := (&t).UnmarshalBinary(b); err != nil {
d.d.errorv(err)
}
return
}
func (d *simpleDecDriver) DecodeExt(rv interface{}, xtag uint64, ext Ext) (realxtag uint64) {
if xtag > 0xff {
d.d.errorf("ext: tag must be <= 0xff; got: %v", xtag)
return
}
realxtag1, xbs := d.decodeExtV(ext != nil, uint8(xtag))
realxtag = uint64(realxtag1)
if ext == nil {
re := rv.(*RawExt)
re.Tag = realxtag
re.Data = detachZeroCopyBytes(d.br, re.Data, xbs)
} else {
ext.ReadExt(rv, xbs)
}
return
}
func (d *simpleDecDriver) decodeExtV(verifyTag bool, tag byte) (xtag byte, xbs []byte) {
if !d.bdRead {
d.readNextBd()
}
switch d.bd {
case simpleVdExt, simpleVdExt + 1, simpleVdExt + 2, simpleVdExt + 3, simpleVdExt + 4:
l := d.decLen()
xtag = d.r.readn1()
if verifyTag && xtag != tag {
d.d.errorf("wrong extension tag. Got %b. Expecting: %v", xtag, tag)
return
}
if d.br {
xbs = d.r.readx(uint(l))
} else {
xbs = decByteSlice(d.r, l, d.d.h.MaxInitLen, d.d.b[:])
}
case simpleVdByteArray, simpleVdByteArray + 1,
simpleVdByteArray + 2, simpleVdByteArray + 3, simpleVdByteArray + 4:
xbs = d.DecodeBytes(nil, true)
default:
d.d.errorf("ext - %s - expecting extensions/bytearray, got: 0x%x", msgBadDesc, d.bd)
return
}
d.bdRead = false
return
}
func (d *simpleDecDriver) DecodeNaked() {
if !d.bdRead {
d.readNextBd()
}
n := d.d.naked()
var decodeFurther bool
switch d.bd {
case simpleVdNil:
n.v = valueTypeNil
case simpleVdFalse:
n.v = valueTypeBool
n.b = false
case simpleVdTrue:
n.v = valueTypeBool
n.b = true
case simpleVdPosInt, simpleVdPosInt + 1, simpleVdPosInt + 2, simpleVdPosInt + 3:
if d.h.SignedInteger {
n.v = valueTypeInt
n.i = d.DecodeInt64()
} else {
n.v = valueTypeUint
n.u = d.DecodeUint64()
}
case simpleVdNegInt, simpleVdNegInt + 1, simpleVdNegInt + 2, simpleVdNegInt + 3:
n.v = valueTypeInt
n.i = d.DecodeInt64()
case simpleVdFloat32:
n.v = valueTypeFloat
n.f = d.DecodeFloat64()
case simpleVdFloat64:
n.v = valueTypeFloat
n.f = d.DecodeFloat64()
case simpleVdTime:
n.v = valueTypeTime
n.t = d.DecodeTime()
case simpleVdString, simpleVdString + 1,
simpleVdString + 2, simpleVdString + 3, simpleVdString + 4:
n.v = valueTypeString
n.s = d.DecodeString()
case simpleVdByteArray, simpleVdByteArray + 1,
simpleVdByteArray + 2, simpleVdByteArray + 3, simpleVdByteArray + 4:
decNakedReadRawBytes(d, d.d, n, d.h.RawToString)
case simpleVdExt, simpleVdExt + 1, simpleVdExt + 2, simpleVdExt + 3, simpleVdExt + 4:
n.v = valueTypeExt
l := d.decLen()
n.u = uint64(d.r.readn1())
if d.br {
n.l = d.r.readx(uint(l))
} else {
n.l = decByteSlice(d.r, l, d.d.h.MaxInitLen, d.d.b[:])
}
case simpleVdArray, simpleVdArray + 1, simpleVdArray + 2,
simpleVdArray + 3, simpleVdArray + 4:
n.v = valueTypeArray
decodeFurther = true
case simpleVdMap, simpleVdMap + 1, simpleVdMap + 2, simpleVdMap + 3, simpleVdMap + 4:
n.v = valueTypeMap
decodeFurther = true
default:
d.d.errorf("cannot infer value - %s 0x%x", msgBadDesc, d.bd)
}
if !decodeFurther {
d.bdRead = false
}
}
//------------------------------------
// SimpleHandle is a Handle for a very simple encoding format.
//
// simple is a simplistic codec similar to binc, but not as compact.
// - Encoding of a value is always preceded by the descriptor byte (bd)
// - True, false, nil are encoded fully in 1 byte (the descriptor)
// - Integers (intXXX, uintXXX) are encoded in 1, 2, 4 or 8 bytes (plus a descriptor byte).
// There are positive (uintXXX and intXXX >= 0) and negative (intXXX < 0) integers.
// - Floats are encoded in 4 or 8 bytes (plus a descriptor byte)
// - Length of containers (strings, bytes, array, map, extensions)
// are encoded in 0, 1, 2, 4 or 8 bytes.
// Zero-length containers have no length encoded.
// For others, the number of bytes is given by pow(2, bd%3)
// - maps are encoded as [bd] [length] [[key][value]]...
// - arrays are encoded as [bd] [length] [value]...
// - extensions are encoded as [bd] [length] [tag] [byte]...
// - strings/bytearrays are encoded as [bd] [length] [byte]...
// - time.Time are encoded as [bd] [length] [byte]...
//
// The full spec will be published soon.
type SimpleHandle struct {
BasicHandle
binaryEncodingType
noElemSeparators
// EncZeroValuesAsNil says to encode zero values for numbers, bool, string, etc as nil
EncZeroValuesAsNil bool
// _ [1]uint64 // padding
}
// Name returns the name of the handle: simple
func (h *SimpleHandle) Name() string { return "simple" }
// SetBytesExt sets an extension
func (h *SimpleHandle) SetBytesExt(rt reflect.Type, tag uint64, ext BytesExt) (err error) {
return h.SetExt(rt, tag, &extWrapper{ext, interfaceExtFailer{}})
}
func (h *SimpleHandle) hasElemSeparators() bool { return true } // as it implements Write(Map|Array)XXX
func (h *SimpleHandle) newEncDriver(e *Encoder) encDriver {
return &simpleEncDriver{e: e, w: e.w, h: h}
}
func (h *SimpleHandle) newDecDriver(d *Decoder) decDriver {
return &simpleDecDriver{d: d, h: h, r: d.r, br: d.bytes}
}
func (e *simpleEncDriver) reset() {
e.c = 0
e.w = e.e.w
}
func (d *simpleDecDriver) reset() {
d.c = 0
d.r, d.br = d.d.r, d.d.bytes
d.bd, d.bdRead = 0, false
}
var _ decDriver = (*simpleDecDriver)(nil)
var _ encDriver = (*simpleEncDriver)(nil)

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The MIT License (MIT)
Copyright (c) 2012-2015 Ugorji Nwoke.
All rights reserved.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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//go:build codecgen || generated
// +build codecgen generated
package codec
// this file is here, to set the codecgen variable to true
// when the build tag codecgen is set.
//
// this allows us do specific things e.g. skip missing fields tests,
// when running in codecgen mode.
func init() {
codecgen = true
}

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// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
/*
Package codec provides a High Performance, Feature-Rich Idiomatic
codec/encoding library for msgpack, json.
Supported Serialization formats are:
- msgpack: https://github.com/msgpack/msgpack
- json: http://json.org http://tools.ietf.org/html/rfc7159
For detailed usage information, read the primer at
http://ugorji.net/blog/go-codec-primer .
The idiomatic Go support is as seen in other encoding packages in the
standard library (ie json, xml, gob, etc).
Rich Feature Set includes:
- Simple but extremely powerful and feature-rich API
- Excellent code coverage ( > 90% )
- Very High Performance.
Our extensive benchmarks show us outperforming Gob, Json, Bson, etc by 2-4X.
- Lock-free (sans mutex) concurrency for scaling to 100's of cores
- In-place updates during decode, with option to zero value in maps and slices prior to decode
- Coerce types where appropriate
e.g. decode an int in the stream into a float, decode numbers from formatted strings, etc
- Corner Cases:
Overflows, nil maps/slices, nil values in streams are handled correctly
- Standard field renaming via tags
- Support for omitting empty fields during an encoding
- Encoding from any value and decoding into pointer to any value
(struct, slice, map, primitives, pointers, interface{}, etc)
- Extensions to support efficient encoding/decoding of any named types
- Support encoding.(Binary|Text)(M|Unm)arshaler interfaces
- Support IsZero() bool to determine if a value is a zero value.
Analogous to time.Time.IsZero() bool.
- Decoding without a schema (into a interface{}).
Includes Options to configure what specific map or slice type to use
when decoding an encoded list or map into a nil interface{}
- Mapping a non-interface type to an interface, so we can decode appropriately
into any interface type with a correctly configured non-interface value.
- Encode a struct as an array, and decode struct from an array in the data stream
- Option to encode struct keys as numbers (instead of strings)
(to support structured streams with fields encoded as numeric codes)
- Comprehensive support for anonymous fields
- Fast (no-reflection) encoding/decoding of common maps and slices
- Code-generation for faster performance.
- Support binary (e.g. messagepack) and text (e.g. json) formats
- Support indefinite-length formats to enable true streaming
(for formats which support it e.g. json)
- Support canonical encoding, where a value is ALWAYS encoded as same sequence of bytes.
This mostly applies to maps, where iteration order is non-deterministic.
- NIL in data stream decoded as zero value
- Never silently skip data when decoding.
User decides whether to return an error or silently skip data when keys or indexes
in the data stream do not map to fields in the struct.
- Detect and error when encoding a cyclic reference (instead of stack overflow shutdown)
- Encode/Decode from/to chan types (for iterative streaming support)
- Drop-in replacement for encoding/json. `json:` key in struct tag supported.
- Provides a RPC Server and Client Codec for net/rpc communication protocol.
- Handle unique idiosyncrasies of codecs e.g.
- For messagepack, configure how ambiguities in handling raw bytes are resolved
- For messagepack, provide rpc server/client codec to support
msgpack-rpc protocol defined at:
https://github.com/msgpack-rpc/msgpack-rpc/blob/master/spec.md
## Extension Support
Users can register a function to handle the encoding or decoding of their
custom types.
There are no restrictions on what the custom type can be. Some examples:
```go
type BisSet []int
type BitSet64 uint64
type UUID string
type MyStructWithUnexportedFields struct { a int; b bool; c []int; }
type GifImage struct { ... }
```
As an illustration, MyStructWithUnexportedFields would normally be encoded
as an empty map because it has no exported fields, while UUID would be
encoded as a string. However, with extension support, you can encode any of
these however you like.
## Custom Encoding and Decoding
This package maintains symmetry in the encoding and decoding halfs. We
determine how to encode or decode by walking this decision tree
- is type a codec.Selfer?
- is there an extension registered for the type?
- is format binary, and is type a encoding.BinaryMarshaler and BinaryUnmarshaler?
- is format specifically json, and is type a encoding/json.Marshaler and Unmarshaler?
- is format text-based, and type an encoding.TextMarshaler and TextUnmarshaler?
- else we use a pair of functions based on the "kind" of the type e.g. map, slice, int64, etc
This symmetry is important to reduce chances of issues happening because the
encoding and decoding sides are out of sync e.g. decoded via very specific
encoding.TextUnmarshaler but encoded via kind-specific generalized mode.
Consequently, if a type only defines one-half of the symmetry (e.g. it
implements UnmarshalJSON() but not MarshalJSON() ), then that type doesn't
satisfy the check and we will continue walking down the decision tree.
## RPC
RPC Client and Server Codecs are implemented, so the codecs can be used with
the standard net/rpc package.
## Usage
The Handle is SAFE for concurrent READ, but NOT SAFE for concurrent
modification.
The Encoder and Decoder are NOT safe for concurrent use.
Consequently, the usage model is basically:
- Create and initialize the Handle before any use.
Once created, DO NOT modify it.
- Multiple Encoders or Decoders can now use the Handle concurrently.
They only read information off the Handle (never write).
- However, each Encoder or Decoder MUST not be used concurrently
- To re-use an Encoder/Decoder, call Reset(...) on it first.
This allows you use state maintained on the Encoder/Decoder.
Sample usage model:
```go
// create and configure Handle
var (
mh codec.MsgpackHandle
)
mh.MapType = reflect.TypeOf(map[string]interface{}(nil))
// configure extensions
// e.g. for msgpack, define functions and enable Time support for tag 1
mh.SetExt(reflect.TypeOf(time.Time{}), 1, myExt)
// create and use decoder/encoder
var (
r io.Reader
w io.Writer
b []byte
h = &mh
)
dec = codec.NewDecoder(r, h)
dec = codec.NewDecoderBytes(b, h)
err = dec.Decode(&v)
enc = codec.NewEncoder(w, h)
enc = codec.NewEncoderBytes(&b, h)
err = enc.Encode(v)
//RPC Server
go func() {
for {
conn, err := listener.Accept()
rpcCodec := codec.GoRpc.ServerCodec(conn, h)
//OR rpcCodec := codec.MsgpackSpecRpc.ServerCodec(conn, h)
rpc.ServeCodec(rpcCodec)
}
}()
//RPC Communication (client side)
conn, err = net.Dial("tcp", "localhost:5555")
rpcCodec := codec.GoRpc.ClientCodec(conn, h)
//OR rpcCodec := codec.MsgpackSpecRpc.ClientCodec(conn, h)
client := rpc.NewClientWithCodec(rpcCodec)
```
## Running Tests
To run tests, use the following:
```
go test
```
To run the full suite of tests, use the following:
```
go test -tags alltests -run Suite
```
You can run the tag 'safe' to run tests or build in safe mode. e.g.
```
go test -tags safe -run Json
go test -tags "alltests safe" -run Suite
```
## Running Benchmarks
```
cd codec/bench
./bench.sh -d
./bench.sh -c
./bench.sh -s
go test -bench . -benchmem -benchtime 1s
```
Please see http://github.com/hashicorp/go-codec-bench .
## Caveats
Struct fields matching the following are ignored during encoding and
decoding
- struct tag value set to -
- func, complex numbers, unsafe pointers
- unexported and not embedded
- unexported and embedded and not struct kind
- unexported and embedded pointers
Every other field in a struct will be encoded/decoded.
Embedded fields are encoded as if they exist in the top-level struct, with
some caveats. See Encode documentation.
*/
package codec

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// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import "reflect"
// fastpath was removed for safety reasons
const fastpathEnabled = false
func fastpathDecodeTypeSwitch(iv interface{}, d *Decoder) bool { return false }
func fastpathEncodeTypeSwitch(iv interface{}, e *Encoder) bool { return false }
func fastpathEncodeTypeSwitchSlice(iv interface{}, e *Encoder) bool { return false }
func fastpathEncodeTypeSwitchMap(iv interface{}, e *Encoder) bool { return false }
func fastpathDecodeSetZeroTypeSwitch(iv interface{}) bool { return false }
type fastpathT struct{}
type fastpathE struct {
rtid uintptr
rt reflect.Type
encfn func(*Encoder, *codecFnInfo, reflect.Value)
decfn func(*Decoder, *codecFnInfo, reflect.Value)
}
type fastpathA [0]fastpathE
func (x fastpathA) index(rtid uintptr) int { return -1 }
func (_ fastpathT) DecSliceUint8V(v []uint8, canChange bool, d *Decoder) (_ []uint8, changed bool) {
fn := d.h.fn(uint8SliceTyp, true, true)
d.kSlice(&fn.i, reflect.ValueOf(&v).Elem())
return v, true
}
var fastpathAV fastpathA
var fastpathTV fastpathT
// ----
// type TestMammoth2Wrapper struct{}

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// comment this out // + build ignore
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
// Code generated from gen-helper.go.tmpl - DO NOT EDIT.
package codec
import (
"encoding"
"reflect"
)
// GenVersion is the current version of codecgen.
const GenVersion = 10
// This file is used to generate helper code for codecgen.
// The values here i.e. genHelper(En|De)coder are not to be used directly by
// library users. They WILL change continuously and without notice.
//
// To help enforce this, we create an unexported type with exported members.
// The only way to get the type is via the one exported type that we control (somewhat).
//
// When static codecs are created for types, they will use this value
// to perform encoding or decoding of primitives or known slice or map types.
// GenHelperEncoder is exported so that it can be used externally by codecgen.
//
// Library users: DO NOT USE IT DIRECTLY. IT WILL CHANGE CONTINOUSLY WITHOUT NOTICE.
func GenHelperEncoder(e *Encoder) (ge genHelperEncoder, ee genHelperEncDriver) {
ge = genHelperEncoder{e: e}
ee = genHelperEncDriver{encDriver: e.e}
return
}
// GenHelperDecoder is exported so that it can be used externally by codecgen.
//
// Library users: DO NOT USE IT DIRECTLY. IT WILL CHANGE CONTINOUSLY WITHOUT NOTICE.
func GenHelperDecoder(d *Decoder) (gd genHelperDecoder, dd genHelperDecDriver) {
gd = genHelperDecoder{d: d}
dd = genHelperDecDriver{decDriver: d.d}
return
}
type genHelperEncDriver struct {
encDriver
}
func (x genHelperEncDriver) EncodeBuiltin(rt uintptr, v interface{}) {}
func (x genHelperEncDriver) EncStructFieldKey(keyType valueType, s string) {
encStructFieldKey(s, x.encDriver, nil, keyType, false, false)
}
func (x genHelperEncDriver) EncodeSymbol(s string) {
x.encDriver.EncodeStringEnc(cUTF8, s)
}
type genHelperDecDriver struct {
decDriver
C checkOverflow
}
func (x genHelperDecDriver) DecodeBuiltin(rt uintptr, v interface{}) {}
func (x genHelperDecDriver) DecStructFieldKey(keyType valueType, buf *[decScratchByteArrayLen]byte) []byte {
return decStructFieldKey(x.decDriver, keyType, buf)
}
func (x genHelperDecDriver) DecodeInt(bitsize uint8) (i int64) {
return x.C.IntV(x.decDriver.DecodeInt64(), bitsize)
}
func (x genHelperDecDriver) DecodeUint(bitsize uint8) (ui uint64) {
return x.C.UintV(x.decDriver.DecodeUint64(), bitsize)
}
func (x genHelperDecDriver) DecodeFloat(chkOverflow32 bool) (f float64) {
f = x.DecodeFloat64()
if chkOverflow32 && chkOvf.Float32(f) {
panicv.errorf("float32 overflow: %v", f)
}
return
}
func (x genHelperDecDriver) DecodeFloat32As64() (f float64) {
f = x.DecodeFloat64()
if chkOvf.Float32(f) {
panicv.errorf("float32 overflow: %v", f)
}
return
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
type genHelperEncoder struct {
M must
e *Encoder
F fastpathT
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
type genHelperDecoder struct {
C checkOverflow
d *Decoder
F fastpathT
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBasicHandle() *BasicHandle {
return f.e.h
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBinary() bool {
return f.e.be // f.e.hh.isBinaryEncoding()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) IsJSONHandle() bool {
return f.e.js
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncFallback(iv interface{}) {
// println(">>>>>>>>> EncFallback")
// f.e.encodeI(iv, false, false)
f.e.encodeValue(reflect.ValueOf(iv), nil, false)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncTextMarshal(iv encoding.TextMarshaler) {
bs, fnerr := iv.MarshalText()
f.e.marshalUtf8(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncJSONMarshal(iv jsonMarshaler) {
bs, fnerr := iv.MarshalJSON()
f.e.marshalAsis(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncBinaryMarshal(iv encoding.BinaryMarshaler) {
bs, fnerr := iv.MarshalBinary()
f.e.marshalRaw(bs, fnerr)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncRaw(iv Raw) { f.e.rawBytes(iv) }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: builtin no longer supported - so we make this method a no-op,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) TimeRtidIfBinc() (v uintptr) { return }
// func (f genHelperEncoder) TimeRtidIfBinc() uintptr {
// if _, ok := f.e.hh.(*BincHandle); ok {
// return timeTypId
// }
// }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) I2Rtid(v interface{}) uintptr {
return i2rtid(v)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) Extension(rtid uintptr) (xfn *extTypeTagFn) {
return f.e.h.getExt(rtid)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) EncExtension(v interface{}, xfFn *extTypeTagFn) {
f.e.e.EncodeExt(v, xfFn.tag, xfFn.ext, f.e)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) WriteStr(s string) {
f.e.w.writestr(s)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperEncoder) BytesView(v string) []byte { return bytesView(v) }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) HasExtensions() bool {
return len(f.e.h.extHandle) != 0
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperEncoder) EncExt(v interface{}) (r bool) {
if xfFn := f.e.h.getExt(i2rtid(v)); xfFn != nil {
f.e.e.EncodeExt(v, xfFn.tag, xfFn.ext, f.e)
return true
}
return false
}
// ---------------- DECODER FOLLOWS -----------------
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBasicHandle() *BasicHandle {
return f.d.h
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBinary() bool {
return f.d.be // f.d.hh.isBinaryEncoding()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecSwallow() { f.d.swallow() }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecScratchBuffer() []byte {
return f.d.b[:]
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecScratchArrayBuffer() *[decScratchByteArrayLen]byte {
return &f.d.b
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecFallback(iv interface{}, chkPtr bool) {
// println(">>>>>>>>> DecFallback")
rv := reflect.ValueOf(iv)
if chkPtr {
rv = f.d.ensureDecodeable(rv)
}
f.d.decodeValue(rv, nil, false)
// f.d.decodeValueFallback(rv)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecSliceHelperStart() (decSliceHelper, int) {
return f.d.decSliceHelperStart()
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecStructFieldNotFound(index int, name string) {
f.d.structFieldNotFound(index, name)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecArrayCannotExpand(sliceLen, streamLen int) {
f.d.arrayCannotExpand(sliceLen, streamLen)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecTextUnmarshal(tm encoding.TextUnmarshaler) {
fnerr := tm.UnmarshalText(f.d.d.DecodeStringAsBytes())
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecJSONUnmarshal(tm jsonUnmarshaler) {
// bs := f.dd.DecodeStringAsBytes()
// grab the bytes to be read, as UnmarshalJSON needs the full JSON so as to unmarshal it itself.
fnerr := tm.UnmarshalJSON(f.d.nextValueBytes())
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecBinaryUnmarshal(bm encoding.BinaryUnmarshaler) {
fnerr := bm.UnmarshalBinary(f.d.d.DecodeBytes(nil, true))
if fnerr != nil {
panic(fnerr)
}
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecRaw() []byte { return f.d.rawBytes() }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: builtin no longer supported - so we make this method a no-op,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) TimeRtidIfBinc() (v uintptr) { return }
// func (f genHelperDecoder) TimeRtidIfBinc() uintptr {
// // Note: builtin is no longer supported - so make this a no-op
// if _, ok := f.d.hh.(*BincHandle); ok {
// return timeTypId
// }
// return 0
// }
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) IsJSONHandle() bool {
return f.d.js
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) I2Rtid(v interface{}) uintptr {
return i2rtid(v)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) Extension(rtid uintptr) (xfn *extTypeTagFn) {
return f.d.h.getExt(rtid)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecExtension(v interface{}, xfFn *extTypeTagFn) {
f.d.d.DecodeExt(v, xfFn.tag, xfFn.ext)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) HasExtensions() bool {
return len(f.d.h.extHandle) != 0
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: No longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) DecExt(v interface{}) (r bool) {
if xfFn := f.d.h.getExt(i2rtid(v)); xfFn != nil {
f.d.d.DecodeExt(v, xfFn.tag, xfFn.ext)
return true
}
return false
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
func (f genHelperDecoder) DecInferLen(clen, maxlen, unit int) (rvlen int) {
return decInferLen(clen, maxlen, unit)
}
// FOR USE BY CODECGEN ONLY. IT *WILL* CHANGE WITHOUT NOTICE. *DO NOT USE*
//
// Deprecated: no longer used,
// but leave in-place so that old generated files continue to work without regeneration.
func (f genHelperDecoder) StringView(v []byte) string { return stringView(v) }

284
vendor/github.com/hashicorp/go-msgpack/v2/codec/gen-internal.go generated vendored
View File

@ -1,284 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"bytes"
"errors"
"go/format"
"io"
"io/ioutil"
"strings"
"sync"
"text/template"
)
const genVersion = 10
func genInternalEncCommandAsString(s string, vname string) string {
switch s {
case "uint", "uint8", "uint16", "uint32", "uint64":
return "ee.EncodeUint(uint64(" + vname + "))"
case "int", "int8", "int16", "int32", "int64":
return "ee.EncodeInt(int64(" + vname + "))"
case "string":
return "if e.h.StringToRaw { ee.EncodeStringBytesRaw(bytesView(" + vname + ")) " +
"} else { ee.EncodeStringEnc(cUTF8, " + vname + ") }"
case "float32":
return "ee.EncodeFloat32(" + vname + ")"
case "float64":
return "ee.EncodeFloat64(" + vname + ")"
case "bool":
return "ee.EncodeBool(" + vname + ")"
// case "symbol":
// return "ee.EncodeSymbol(" + vname + ")"
default:
return "e.encode(" + vname + ")"
}
}
func genInternalDecCommandAsString(s string) string {
switch s {
case "uint":
return "uint(chkOvf.UintV(dd.DecodeUint64(), uintBitsize))"
case "uint8":
return "uint8(chkOvf.UintV(dd.DecodeUint64(), 8))"
case "uint16":
return "uint16(chkOvf.UintV(dd.DecodeUint64(), 16))"
case "uint32":
return "uint32(chkOvf.UintV(dd.DecodeUint64(), 32))"
case "uint64":
return "dd.DecodeUint64()"
case "uintptr":
return "uintptr(chkOvf.UintV(dd.DecodeUint64(), uintBitsize))"
case "int":
return "int(chkOvf.IntV(dd.DecodeInt64(), intBitsize))"
case "int8":
return "int8(chkOvf.IntV(dd.DecodeInt64(), 8))"
case "int16":
return "int16(chkOvf.IntV(dd.DecodeInt64(), 16))"
case "int32":
return "int32(chkOvf.IntV(dd.DecodeInt64(), 32))"
case "int64":
return "dd.DecodeInt64()"
case "string":
return "dd.DecodeString()"
case "float32":
return "float32(chkOvf.Float32V(dd.DecodeFloat64()))"
case "float64":
return "dd.DecodeFloat64()"
case "bool":
return "dd.DecodeBool()"
default:
panic(errors.New("gen internal: unknown type for decode: " + s))
}
}
func genInternalZeroValue(s string) string {
switch s {
case "interface{}", "interface {}":
return "nil"
case "bool":
return "false"
case "string":
return `""`
default:
return "0"
}
}
var genInternalNonZeroValueIdx [5]uint64
var genInternalNonZeroValueStrs = [2][5]string{
{`"string-is-an-interface"`, "true", `"some-string"`, "11.1", "33"},
{`"string-is-an-interface-2"`, "true", `"some-string-2"`, "22.2", "44"},
}
func genInternalNonZeroValue(s string) string {
switch s {
case "interface{}", "interface {}":
genInternalNonZeroValueIdx[0]++
return genInternalNonZeroValueStrs[genInternalNonZeroValueIdx[0]%2][0] // return string, to remove ambiguity
case "bool":
genInternalNonZeroValueIdx[1]++
return genInternalNonZeroValueStrs[genInternalNonZeroValueIdx[1]%2][1]
case "string":
genInternalNonZeroValueIdx[2]++
return genInternalNonZeroValueStrs[genInternalNonZeroValueIdx[2]%2][2]
case "float32", "float64", "float", "double":
genInternalNonZeroValueIdx[3]++
return genInternalNonZeroValueStrs[genInternalNonZeroValueIdx[3]%2][3]
default:
genInternalNonZeroValueIdx[4]++
return genInternalNonZeroValueStrs[genInternalNonZeroValueIdx[4]%2][4]
}
}
func genInternalSortType(s string, elem bool) string {
for _, v := range [...]string{"int", "uint", "float", "bool", "string"} {
if strings.HasPrefix(s, v) {
if elem {
if v == "int" || v == "uint" || v == "float" {
return v + "64"
} else {
return v
}
}
return v + "Slice"
}
}
panic("sorttype: unexpected type: " + s)
}
type genV struct {
// genV is either a primitive (Primitive != "") or a map (MapKey != "") or a slice
MapKey string
Elem string
Primitive string
Size int
}
type genInternal struct {
Version int
Values []genV
}
func (x genInternal) FastpathLen() (l int) {
for _, v := range x.Values {
if v.Primitive == "" && !(v.MapKey == "" && v.Elem == "uint8") {
l++
}
}
return
}
// var genInternalMu sync.Mutex
var genInternalV = genInternal{Version: genVersion}
var genInternalTmplFuncs template.FuncMap
var genInternalOnce sync.Once
func genInternalInit() {
types := [...]string{
"interface{}",
"string",
"float32",
"float64",
"uint",
"uint8",
"uint16",
"uint32",
"uint64",
"uintptr",
"int",
"int8",
"int16",
"int32",
"int64",
"bool",
}
// keep as slice, so it is in specific iteration order.
// Initial order was uint64, string, interface{}, int, int64
mapvaltypes := [...]string{
"interface{}",
"string",
"uint",
"uint8",
"uint16",
"uint32",
"uint64",
"uintptr",
"int",
"int8",
"int16",
"int32",
"int64",
"float32",
"float64",
"bool",
}
wordSizeBytes := int(intBitsize) / 8
mapvaltypes2 := map[string]int{
"interface{}": 2 * wordSizeBytes,
"string": 2 * wordSizeBytes,
"uint": 1 * wordSizeBytes,
"uint8": 1,
"uint16": 2,
"uint32": 4,
"uint64": 8,
"uintptr": 1 * wordSizeBytes,
"int": 1 * wordSizeBytes,
"int8": 1,
"int16": 2,
"int32": 4,
"int64": 8,
"float32": 4,
"float64": 8,
"bool": 1,
}
var gt = genInternal{Version: genVersion}
// For each slice or map type, there must be a (symmetrical) Encode and Decode fast-path function
for _, s := range types {
gt.Values = append(gt.Values, genV{Primitive: s, Size: mapvaltypes2[s]})
// if s != "uint8" { // do not generate fast path for slice of bytes. Treat specially already.
// gt.Values = append(gt.Values, genV{Elem: s, Size: mapvaltypes2[s]})
// }
gt.Values = append(gt.Values, genV{Elem: s, Size: mapvaltypes2[s]})
if _, ok := mapvaltypes2[s]; !ok {
gt.Values = append(gt.Values, genV{MapKey: s, Elem: s, Size: 2 * mapvaltypes2[s]})
}
for _, ms := range mapvaltypes {
gt.Values = append(gt.Values, genV{MapKey: s, Elem: ms, Size: mapvaltypes2[s] + mapvaltypes2[ms]})
}
}
funcs := make(template.FuncMap)
// funcs["haspfx"] = strings.HasPrefix
funcs["encmd"] = genInternalEncCommandAsString
funcs["decmd"] = genInternalDecCommandAsString
funcs["zerocmd"] = genInternalZeroValue
funcs["nonzerocmd"] = genInternalNonZeroValue
funcs["hasprefix"] = strings.HasPrefix
funcs["sorttype"] = genInternalSortType
genInternalV = gt
genInternalTmplFuncs = funcs
}
// genInternalGoFile is used to generate source files from templates.
// It is run by the program author alone.
// Unfortunately, it has to be exported so that it can be called from a command line tool.
// *** DO NOT USE ***
func genInternalGoFile(r io.Reader, w io.Writer) (err error) {
genInternalOnce.Do(genInternalInit)
gt := genInternalV
t := template.New("").Funcs(genInternalTmplFuncs)
tmplstr, err := ioutil.ReadAll(r)
if err != nil {
return
}
if t, err = t.Parse(string(tmplstr)); err != nil {
return
}
var out bytes.Buffer
err = t.Execute(&out, gt)
if err != nil {
return
}
bout, err := format.Source(out.Bytes())
if err != nil {
w.Write(out.Bytes()) // write out if error, so we can still see.
// w.Write(bout) // write out if error, as much as possible, so we can still see.
return
}
w.Write(bout)
return
}

165
vendor/github.com/hashicorp/go-msgpack/v2/codec/gen.generated.go generated vendored
View File

@ -1,165 +0,0 @@
//go:build codecgen.exec
// +build codecgen.exec
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
// DO NOT EDIT. THIS FILE IS AUTO-GENERATED FROM gen-dec-(map|array).go.tmpl
const genDecMapTmpl = `
{{var "v"}} := *{{ .Varname }}
{{var "l"}} := r.ReadMapStart()
{{var "bh"}} := z.DecBasicHandle()
if {{var "v"}} == nil {
{{var "rl"}} := z.DecInferLen({{var "l"}}, {{var "bh"}}.MaxInitLen, {{ .Size }})
{{var "v"}} = make(map[{{ .KTyp }}]{{ .Typ }}, {{var "rl"}})
*{{ .Varname }} = {{var "v"}}
}
var {{var "mk"}} {{ .KTyp }}
var {{var "mv"}} {{ .Typ }}
var {{var "mg"}}, {{var "mdn"}} {{if decElemKindPtr}}, {{var "ms"}}, {{var "mok"}}{{end}} bool
if {{var "bh"}}.MapValueReset {
{{if decElemKindPtr}}{{var "mg"}} = true
{{else if decElemKindIntf}}if !{{var "bh"}}.InterfaceReset { {{var "mg"}} = true }
{{else if not decElemKindImmutable}}{{var "mg"}} = true
{{end}} }
if {{var "l"}} != 0 {
{{var "hl"}} := {{var "l"}} > 0
for {{var "j"}} := 0; ({{var "hl"}} && {{var "j"}} < {{var "l"}}) || !({{var "hl"}} || r.CheckBreak()); {{var "j"}}++ {
r.ReadMapElemKey() {{/* z.DecSendContainerState(codecSelfer_containerMapKey{{ .Sfx }}) */}}
{{ $x := printf "%vmk%v" .TempVar .Rand }}{{ decLineVarK $x }}
{{ if eq .KTyp "interface{}" }}{{/* // special case if a byte array. */}}if {{var "bv"}}, {{var "bok"}} := {{var "mk"}}.([]byte); {{var "bok"}} {
{{var "mk"}} = string({{var "bv"}})
}{{ end }}{{if decElemKindPtr}}
{{var "ms"}} = true{{end}}
if {{var "mg"}} {
{{if decElemKindPtr}}{{var "mv"}}, {{var "mok"}} = {{var "v"}}[{{var "mk"}}]
if {{var "mok"}} {
{{var "ms"}} = false
} {{else}}{{var "mv"}} = {{var "v"}}[{{var "mk"}}] {{end}}
} {{if not decElemKindImmutable}}else { {{var "mv"}} = {{decElemZero}} }{{end}}
r.ReadMapElemValue() {{/* z.DecSendContainerState(codecSelfer_containerMapValue{{ .Sfx }}) */}}
{{var "mdn"}} = false
{{ $x := printf "%vmv%v" .TempVar .Rand }}{{ $y := printf "%vmdn%v" .TempVar .Rand }}{{ decLineVar $x $y }}
if {{var "mdn"}} {
if {{ var "bh" }}.DeleteOnNilMapValue { delete({{var "v"}}, {{var "mk"}}) } else { {{var "v"}}[{{var "mk"}}] = {{decElemZero}} }
} else if {{if decElemKindPtr}} {{var "ms"}} && {{end}} {{var "v"}} != nil {
{{var "v"}}[{{var "mk"}}] = {{var "mv"}}
}
}
} // else len==0: TODO: Should we clear map entries?
r.ReadMapEnd() {{/* z.DecSendContainerState(codecSelfer_containerMapEnd{{ .Sfx }}) */}}
`
const genDecListTmpl = `
{{var "v"}} := {{if not isArray}}*{{end}}{{ .Varname }}
{{var "h"}}, {{var "l"}} := z.DecSliceHelperStart() {{/* // helper, containerLenS */}}{{if not isArray}}
var {{var "c"}} bool {{/* // changed */}}
_ = {{var "c"}}{{end}}
if {{var "l"}} == 0 {
{{if isSlice }}if {{var "v"}} == nil {
{{var "v"}} = []{{ .Typ }}{}
{{var "c"}} = true
} else if len({{var "v"}}) != 0 {
{{var "v"}} = {{var "v"}}[:0]
{{var "c"}} = true
} {{else if isChan }}if {{var "v"}} == nil {
{{var "v"}} = make({{ .CTyp }}, 0)
{{var "c"}} = true
} {{end}}
} else {
{{var "hl"}} := {{var "l"}} > 0
var {{var "rl"}} int
_ = {{var "rl"}}
{{if isSlice }} if {{var "hl"}} {
if {{var "l"}} > cap({{var "v"}}) {
{{var "rl"}} = z.DecInferLen({{var "l"}}, z.DecBasicHandle().MaxInitLen, {{ .Size }})
if {{var "rl"}} <= cap({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "rl"}}]
} else {
{{var "v"}} = make([]{{ .Typ }}, {{var "rl"}})
}
{{var "c"}} = true
} else if {{var "l"}} != len({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "l"}}]
{{var "c"}} = true
}
} {{end}}
var {{var "j"}} int
// var {{var "dn"}} bool
for {{var "j"}} = 0; ({{var "hl"}} && {{var "j"}} < {{var "l"}}) || !({{var "hl"}} || r.CheckBreak()); {{var "j"}}++ { // bounds-check-elimination
{{if not isArray}} if {{var "j"}} == 0 && {{var "v"}} == nil {
if {{var "hl"}} {
{{var "rl"}} = z.DecInferLen({{var "l"}}, z.DecBasicHandle().MaxInitLen, {{ .Size }})
} else {
{{var "rl"}} = {{if isSlice}}8{{else if isChan}}64{{end}}
}
{{var "v"}} = make({{if isSlice}}[]{{ .Typ }}{{else if isChan}}{{.CTyp}}{{end}}, {{var "rl"}})
{{var "c"}} = true
}{{end}}
{{var "h"}}.ElemContainerState({{var "j"}})
{{/* {{var "dn"}} = r.TryDecodeAsNil() */}}{{/* commented out, as decLineVar handles this already each time */}}
{{if isChan}}{{ $x := printf "%[1]vvcx%[2]v" .TempVar .Rand }}var {{$x}} {{ .Typ }}
{{ decLineVar $x }}
{{var "v"}} <- {{ $x }}
// println(">>>> sending ", {{ $x }}, " into ", {{var "v"}}) // TODO: remove this
{{else}}{{/* // if indefinite, etc, then expand the slice if necessary */}}
var {{var "db"}} bool
if {{var "j"}} >= len({{var "v"}}) {
{{if isSlice }} {{var "v"}} = append({{var "v"}}, {{ zero }})
{{var "c"}} = true
{{else}} z.DecArrayCannotExpand(len(v), {{var "j"}}+1); {{var "db"}} = true
{{end}}
}
if {{var "db"}} {
z.DecSwallow()
} else {
{{ $x := printf "%[1]vv%[2]v[%[1]vj%[2]v]" .TempVar .Rand }}{{ decLineVar $x }}
}
{{end}}
}
{{if isSlice}} if {{var "j"}} < len({{var "v"}}) {
{{var "v"}} = {{var "v"}}[:{{var "j"}}]
{{var "c"}} = true
} else if {{var "j"}} == 0 && {{var "v"}} == nil {
{{var "v"}} = make([]{{ .Typ }}, 0)
{{var "c"}} = true
} {{end}}
}
{{var "h"}}.End()
{{if not isArray }}if {{var "c"}} {
*{{ .Varname }} = {{var "v"}}
}{{end}}
`
const genEncChanTmpl = `
{{.Label}}:
switch timeout{{.Sfx}} := z.EncBasicHandle().ChanRecvTimeout; {
case timeout{{.Sfx}} == 0: // only consume available
for {
select {
case b{{.Sfx}} := <-{{.Chan}}:
{{ .Slice }} = append({{.Slice}}, b{{.Sfx}})
default:
break {{.Label}}
}
}
case timeout{{.Sfx}} > 0: // consume until timeout
tt{{.Sfx}} := time.NewTimer(timeout{{.Sfx}})
for {
select {
case b{{.Sfx}} := <-{{.Chan}}:
{{.Slice}} = append({{.Slice}}, b{{.Sfx}})
case <-tt{{.Sfx}}.C:
// close(tt.C)
break {{.Label}}
}
}
default: // consume until close
for b{{.Sfx}} := range {{.Chan}} {
{{.Slice}} = append({{.Slice}}, b{{.Sfx}})
}
}
`

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89
vendor/github.com/hashicorp/go-msgpack/v2/codec/helper_internal.go generated vendored
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@ -1,89 +0,0 @@
// Copyright (c) 2012-2015 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
// All non-std package dependencies live in this file,
// so porting to different environment is easy (just update functions).
func pruneSignExt(v []byte, pos bool) (n int) {
if len(v) < 2 {
} else if pos && v[0] == 0 {
for ; v[n] == 0 && n+1 < len(v) && (v[n+1]&(1<<7) == 0); n++ {
}
} else if !pos && v[0] == 0xff {
for ; v[n] == 0xff && n+1 < len(v) && (v[n+1]&(1<<7) != 0); n++ {
}
}
return
}
// GrowCap will return a new capacity for a slice, given the following:
// - oldCap: current capacity
// - unit: in-memory size of an element
// - num: number of elements to add
func growCap(oldCap, unit, num int) (newCap int) {
// appendslice logic (if cap < 1024, *2, else *1.25):
// leads to many copy calls, especially when copying bytes.
// bytes.Buffer model (2*cap + n): much better for bytes.
// smarter way is to take the byte-size of the appended element(type) into account
// maintain 3 thresholds:
// t1: if cap <= t1, newcap = 2x
// t2: if cap <= t2, newcap = 1.75x
// t3: if cap <= t3, newcap = 1.5x
// else newcap = 1.25x
//
// t1, t2, t3 >= 1024 always.
// i.e. if unit size >= 16, then always do 2x or 1.25x (ie t1, t2, t3 are all same)
//
// With this, appending for bytes increase by:
// 100% up to 4K
// 75% up to 8K
// 50% up to 16K
// 25% beyond that
// unit can be 0 e.g. for struct{}{}; handle that appropriately
var t1, t2, t3 int // thresholds
if unit <= 1 {
t1, t2, t3 = 4*1024, 8*1024, 16*1024
} else if unit < 16 {
t3 = 16 / unit * 1024
t1 = t3 * 1 / 4
t2 = t3 * 2 / 4
} else {
t1, t2, t3 = 1024, 1024, 1024
}
var x int // temporary variable
// x is multiplier here: one of 5, 6, 7 or 8; incr of 25%, 50%, 75% or 100% respectively
if oldCap <= t1 { // [0,t1]
x = 8
} else if oldCap > t3 { // (t3,infinity]
x = 5
} else if oldCap <= t2 { // (t1,t2]
x = 7
} else { // (t2,t3]
x = 6
}
newCap = x * oldCap / 4
if num > 0 {
newCap += num
}
// ensure newCap is a multiple of 64 (if it is > 64) or 16.
if newCap > 64 {
if x = newCap % 64; x != 0 {
x = newCap / 64
newCap = 64 * (x + 1)
}
} else {
if x = newCap % 16; x != 0 {
x = newCap / 16
newCap = 16 * (x + 1)
}
}
return
}

1491
vendor/github.com/hashicorp/go-msgpack/v2/codec/json.go generated vendored
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vendor/github.com/hashicorp/go-msgpack/v2/codec/msgpack.go generated vendored
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227
vendor/github.com/hashicorp/go-msgpack/v2/codec/rpc.go generated vendored
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@ -1,227 +0,0 @@
// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import (
"bufio"
"errors"
"io"
"net/rpc"
)
var errRpcJsonNeedsTermWhitespace = errors.New("rpc requires JsonHandle with TermWhitespace=true")
// Rpc provides a rpc Server or Client Codec for rpc communication.
type Rpc interface {
ServerCodec(conn io.ReadWriteCloser, h Handle) rpc.ServerCodec
ClientCodec(conn io.ReadWriteCloser, h Handle) rpc.ClientCodec
}
// RPCOptions holds options specific to rpc functionality
type RPCOptions struct {
// RPCNoBuffer configures whether we attempt to buffer reads and writes during RPC calls.
//
// Set RPCNoBuffer=true to turn buffering off.
// Buffering can still be done if buffered connections are passed in, or
// buffering is configured on the handle.
RPCNoBuffer bool
}
// rpcCodec defines the struct members and common methods.
type rpcCodec struct {
c io.Closer
r io.Reader
w io.Writer
f ioFlusher
dec *Decoder
enc *Encoder
// bw *bufio.Writer
// br *bufio.Reader
h Handle
cls atomicClsErr
}
func newRPCCodec(conn io.ReadWriteCloser, h Handle) rpcCodec {
// return newRPCCodec2(bufio.NewReader(conn), bufio.NewWriter(conn), conn, h)
return newRPCCodec2(conn, conn, conn, h)
}
func newRPCCodec2(r io.Reader, w io.Writer, c io.Closer, h Handle) rpcCodec {
// defensive: ensure that jsonH has TermWhitespace turned on.
if jsonH, ok := h.(*JsonHandle); ok && !jsonH.TermWhitespace {
panic(errRpcJsonNeedsTermWhitespace)
}
// always ensure that we use a flusher, and always flush what was written to the connection.
// we lose nothing by using a buffered writer internally.
f, ok := w.(ioFlusher)
bh := basicHandle(h)
if !bh.RPCNoBuffer {
if bh.WriterBufferSize <= 0 {
if !ok {
bw := bufio.NewWriter(w)
f, w = bw, bw
}
}
if bh.ReaderBufferSize <= 0 {
if _, ok = w.(ioPeeker); !ok {
if _, ok = w.(ioBuffered); !ok {
br := bufio.NewReader(r)
r = br
}
}
}
}
return rpcCodec{
c: c,
w: w,
r: r,
f: f,
h: h,
enc: NewEncoder(w, h),
dec: NewDecoder(r, h),
}
}
func (c *rpcCodec) write(obj1, obj2 interface{}, writeObj2 bool) (err error) {
if c.c != nil {
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
}
err = c.enc.Encode(obj1)
if err == nil {
if writeObj2 {
err = c.enc.Encode(obj2)
}
// if err == nil && c.f != nil {
// err = c.f.Flush()
// }
}
if c.f != nil {
if err == nil {
err = c.f.Flush()
} else {
_ = c.f.Flush() // swallow flush error, so we maintain prior error on write
}
}
return
}
func (c *rpcCodec) swallow(err *error) {
defer panicToErr(c.dec, err)
c.dec.swallow()
}
func (c *rpcCodec) read(obj interface{}) (err error) {
if c.c != nil {
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
}
//If nil is passed in, we should read and discard
if obj == nil {
// var obj2 interface{}
// return c.dec.Decode(&obj2)
c.swallow(&err)
return
}
return c.dec.Decode(obj)
}
func (c *rpcCodec) Close() error {
if c.c == nil {
return nil
}
cls := c.cls.load()
if cls.closed {
return cls.errClosed
}
cls.errClosed = c.c.Close()
cls.closed = true
c.cls.store(cls)
return cls.errClosed
}
func (c *rpcCodec) ReadResponseBody(body interface{}) error {
return c.read(body)
}
// -------------------------------------
type goRpcCodec struct {
rpcCodec
}
func (c *goRpcCodec) WriteRequest(r *rpc.Request, body interface{}) error {
return c.write(r, body, true)
}
func (c *goRpcCodec) WriteResponse(r *rpc.Response, body interface{}) error {
return c.write(r, body, true)
}
func (c *goRpcCodec) ReadResponseHeader(r *rpc.Response) error {
return c.read(r)
}
func (c *goRpcCodec) ReadRequestHeader(r *rpc.Request) error {
return c.read(r)
}
func (c *goRpcCodec) ReadRequestBody(body interface{}) error {
return c.read(body)
}
// -------------------------------------
// goRpc is the implementation of Rpc that uses the communication protocol
// as defined in net/rpc package.
type goRpc struct{}
// GoRpc implements Rpc using the communication protocol defined in net/rpc package.
//
// Note: network connection (from net.Dial, of type io.ReadWriteCloser) is not buffered.
//
// For performance, you should configure WriterBufferSize and ReaderBufferSize on the handle.
// This ensures we use an adequate buffer during reading and writing.
// If not configured, we will internally initialize and use a buffer during reads and writes.
// This can be turned off via the RPCNoBuffer option on the Handle.
//
// var handle codec.JsonHandle
// handle.RPCNoBuffer = true // turns off attempt by rpc module to initialize a buffer
//
// Example 1: one way of configuring buffering explicitly:
//
// var handle codec.JsonHandle // codec handle
// handle.ReaderBufferSize = 1024
// handle.WriterBufferSize = 1024
// var conn io.ReadWriteCloser // connection got from a socket
// var serverCodec = GoRpc.ServerCodec(conn, handle)
// var clientCodec = GoRpc.ClientCodec(conn, handle)
//
// Example 2: you can also explicitly create a buffered connection yourself,
// and not worry about configuring the buffer sizes in the Handle.
//
// var handle codec.Handle // codec handle
// var conn io.ReadWriteCloser // connection got from a socket
// var bufconn = struct { // bufconn here is a buffered io.ReadWriteCloser
// io.Closer
// *bufio.Reader
// *bufio.Writer
// }{conn, bufio.NewReader(conn), bufio.NewWriter(conn)}
// var serverCodec = GoRpc.ServerCodec(bufconn, handle)
// var clientCodec = GoRpc.ClientCodec(bufconn, handle)
var GoRpc goRpc
func (x goRpc) ServerCodec(conn io.ReadWriteCloser, h Handle) rpc.ServerCodec {
return &goRpcCodec{newRPCCodec(conn, h)}
}
func (x goRpc) ClientCodec(conn io.ReadWriteCloser, h Handle) rpc.ClientCodec {
return &goRpcCodec{newRPCCodec(conn, h)}
}

11
vendor/github.com/hashicorp/raft-boltdb/Makefile generated vendored
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@ -1,11 +0,0 @@
DEPS = $(go list -f '{{range .TestImports}}{{.}} {{end}}' ./...)
.PHONY: test deps
test:
go test -timeout=30s ./...
deps:
go get -d -v ./...
echo $(DEPS) | xargs -n1 go get -d

0
vendor/github.com/hashicorp/raft-boltdb/LICENSE → vendor/github.com/hashicorp/raft-boltdb/v2/LICENSE generated vendored
View File

14
vendor/github.com/hashicorp/raft-boltdb/README.md → vendor/github.com/hashicorp/raft-boltdb/v2/README.md generated vendored
View File

@ -1,14 +1,9 @@
raft-boltdb
raft-boltdb/v2
===========
This repository provides the `raftboltdb` package. The package exports the
`BoltStore` which is an implementation of both a `LogStore` and `StableStore`.
This implementation uses the maintained version of BoltDB, [BBolt](https://github.com/etcd-io/bbolt). This is the primary version of `raft-boltdb` and should be used whenever possible.
It is meant to be used as a backend for the `raft` [package
here](https://github.com/hashicorp/raft).
This implementation uses [BoltDB](https://github.com/boltdb/bolt). BoltDB is
a simple key/value store implemented in pure Go, and inspired by LMDB.
There is no breaking API change to the library. However, there is the potential for disk format incompatibilities so it was decided to be conservative and making it a separate import path. This separate import path will allow both versions (original and v2) to be imported to perform a safe in-place upgrade of old files read with the old version and written back out with the new one.
## Metrics Emission and Compatibility
@ -33,7 +28,7 @@ To migrate an application currently using the older `armon/go-metrics` to instea
* Replace all application imports of `github.com/armon/go-metrics` with `github.com/hashicorp/go-metrics`
* Instrument your build system to build with the `hashicorpmetrics` tag.
Eventually once the default behavior changes to use `hashicorp/go-metrics` by default (mid-2025), you can drop the `hashicorpmetrics` build tag.
Eventually once the default behavior changes to use `hashicorp/go-metrics` by default (mid-2025), you can drop the `hashicorpmetrics` build tag.
## Metrics
@ -65,3 +60,4 @@ The following table details all the metrics emitted by this library. One note is
| `raft.boltdb.txstats.write` | writes | counter | Counts the number of writes to the db since Consul was started. |
| `raft.boltdb.txstats.writeTime` | ms | timer | Measures the amount of time spent performing writes to the db. |
| `raft.boltdb.writeCapacity` | logs/second | sample | Theoretical write capacity in terms of the number of logs that can be written per second. Each sample outputs what the capacity would be if future batched log write operations were similar to this one. This similarity encompasses 4 things: batch size, byte size, disk performance and boltdb performance. While none of these will be static and its highly likely individual samples of this metric will vary, aggregating this metric over a larger time window should provide a decent picture into how this BoltDB store can perform |

111
vendor/github.com/hashicorp/raft-boltdb/bolt_store.go → vendor/github.com/hashicorp/raft-boltdb/v2/bolt_store.go generated vendored
View File

@ -5,11 +5,14 @@ package raftboltdb
import (
"errors"
"fmt"
"os"
"time"
"github.com/boltdb/bolt"
metrics "github.com/hashicorp/go-metrics/compat"
v1 "github.com/boltdb/bolt"
"github.com/hashicorp/go-metrics/compat"
"github.com/hashicorp/raft"
"go.etcd.io/bbolt"
)
const (
@ -27,30 +30,38 @@ var (
ErrKeyNotFound = errors.New("not found")
)
// BoltStore provides access to BoltDB for Raft to store and retrieve
// BoltStore provides access to Bbolt for Raft to store and retrieve
// log entries. It also provides key/value storage, and can be used as
// a LogStore and StableStore.
type BoltStore struct {
// conn is the underlying handle to the db.
conn *bolt.DB
conn *bbolt.DB
// The path to the Bolt database file
path string
msgpackUseNewTimeFormat bool
}
// Options contains all the configuration used to open the BoltDB
// Options contains all the configuration used to open the Bbolt
type Options struct {
// Path is the file path to the BoltDB to use
// Path is the file path to the Bbolt to use
Path string
// BoltOptions contains any specific BoltDB options you might
// BoltOptions contains any specific Bbolt options you might
// want to specify [e.g. open timeout]
BoltOptions *bolt.Options
BoltOptions *bbolt.Options
// NoSync causes the database to skip fsync calls after each
// write to the log. This is unsafe, so it should be used
// with caution.
NoSync bool
// MsgpackUseNewTimeFormat when set to true, force the underlying msgpack
// codec to use the new format of time.Time when encoding (used in
// go-msgpack v1.1.5 by default). Decoding is not affected, as all
// go-msgpack v2.1.0+ decoders know how to decode both formats.
MsgpackUseNewTimeFormat bool
}
// readOnly returns true if the contained bolt options say to open
@ -65,10 +76,10 @@ func NewBoltStore(path string) (*BoltStore, error) {
return New(Options{Path: path})
}
// New uses the supplied options to open the BoltDB and prepare it for use as a raft backend.
// New uses the supplied options to open the Bbolt and prepare it for use as a raft backend.
func New(options Options) (*BoltStore, error) {
// Try to connect
handle, err := bolt.Open(options.Path, dbFileMode, options.BoltOptions)
handle, err := bbolt.Open(options.Path, dbFileMode, options.BoltOptions)
if err != nil {
return nil, err
}
@ -76,8 +87,9 @@ func New(options Options) (*BoltStore, error) {
// Create the new store
store := &BoltStore{
conn: handle,
path: options.Path,
conn: handle,
path: options.Path,
msgpackUseNewTimeFormat: options.MsgpackUseNewTimeFormat,
}
// If the store was opened read-only, don't try and create buckets
@ -110,6 +122,10 @@ func (b *BoltStore) initialize() error {
return tx.Commit()
}
func (b *BoltStore) Stats() bbolt.Stats {
return b.conn.Stats()
}
// Close is used to gracefully close the DB connection.
func (b *BoltStore) Close() error {
return b.conn.Close()
@ -147,8 +163,10 @@ func (b *BoltStore) LastIndex() (uint64, error) {
}
}
// GetLog is used to retrieve a log from BoltDB at a given index.
// GetLog is used to retrieve a log from Bbolt at a given index.
func (b *BoltStore) GetLog(idx uint64, log *raft.Log) error {
defer metrics.MeasureSince([]string{"raft", "boltdb", "getLog"}, time.Now())
tx, err := b.conn.Begin(false)
if err != nil {
return err
@ -172,6 +190,7 @@ func (b *BoltStore) StoreLog(log *raft.Log) error {
// StoreLogs is used to store a set of raft logs
func (b *BoltStore) StoreLogs(logs []*raft.Log) error {
now := time.Now()
tx, err := b.conn.Begin(true)
if err != nil {
return err
@ -181,7 +200,7 @@ func (b *BoltStore) StoreLogs(logs []*raft.Log) error {
batchSize := 0
for _, log := range logs {
key := uint64ToBytes(log.Index)
val, err := encodeMsgPack(log)
val, err := encodeMsgPack(log, b.msgpackUseNewTimeFormat)
if err != nil {
return err
}
@ -290,3 +309,67 @@ func (b *BoltStore) GetUint64(key []byte) (uint64, error) {
func (b *BoltStore) Sync() error {
return b.conn.Sync()
}
// MigrateToV2 reads in the source file path of a BoltDB file
// and outputs all the data migrated to a Bbolt destination file
func MigrateToV2(source, destination string) (*BoltStore, error) {
_, err := os.Stat(destination)
if err == nil {
return nil, fmt.Errorf("file exists in destination %v", destination)
}
srcDb, err := v1.Open(source, dbFileMode, &v1.Options{
ReadOnly: true,
Timeout: 1 * time.Minute,
})
if err != nil {
return nil, fmt.Errorf("failed opening source database: %v", err)
}
//Start a connection to the source
srctx, err := srcDb.Begin(false)
if err != nil {
return nil, fmt.Errorf("failed connecting to source database: %v", err)
}
defer srctx.Rollback()
//Create the destination
destDb, err := New(Options{Path: destination})
if err != nil {
return nil, fmt.Errorf("failed creating destination database: %v", err)
}
//Start a connection to the new
desttx, err := destDb.conn.Begin(true)
if err != nil {
destDb.Close()
os.Remove(destination)
return nil, fmt.Errorf("failed connecting to destination database: %v", err)
}
defer desttx.Rollback()
//Loop over both old buckets and set them in the new
buckets := [][]byte{dbConf, dbLogs}
for _, b := range buckets {
srcB := srctx.Bucket(b)
destB := desttx.Bucket(b)
err = srcB.ForEach(func(k, v []byte) error {
return destB.Put(k, v)
})
if err != nil {
destDb.Close()
os.Remove(destination)
return nil, fmt.Errorf("failed to copy %v bucket: %v", string(b), err)
}
}
//If the commit fails, clean up
if err := desttx.Commit(); err != nil {
destDb.Close()
os.Remove(destination)
return nil, fmt.Errorf("failed commiting data to destination: %v", err)
}
return destDb, nil
}

4
vendor/github.com/hashicorp/raft-boltdb/metrics.go → vendor/github.com/hashicorp/raft-boltdb/v2/metrics.go generated vendored
View File

@ -7,8 +7,8 @@ import (
"context"
"time"
"github.com/boltdb/bolt"
metrics "github.com/hashicorp/go-metrics/compat"
"go.etcd.io/bbolt"
)
const (
@ -36,7 +36,7 @@ func (b *BoltStore) RunMetrics(ctx context.Context, interval time.Duration) {
}
}
func (b *BoltStore) emitMetrics(prev *bolt.Stats) *bolt.Stats {
func (b *BoltStore) emitMetrics(prev *bbolt.Stats) *bbolt.Stats {
newStats := b.conn.Stats()
stats := newStats

10
vendor/github.com/hashicorp/raft-boltdb/util.go → vendor/github.com/hashicorp/raft-boltdb/v2/util.go generated vendored
View File

@ -7,7 +7,7 @@ import (
"bytes"
"encoding/binary"
"github.com/hashicorp/go-msgpack/codec"
"github.com/hashicorp/go-msgpack/v2/codec"
)
// Decode reverses the encode operation on a byte slice input
@ -19,9 +19,13 @@ func decodeMsgPack(buf []byte, out interface{}) error {
}
// Encode writes an encoded object to a new bytes buffer
func encodeMsgPack(in interface{}) (*bytes.Buffer, error) {
func encodeMsgPack(in interface{}, useNewTimeFormat bool) (*bytes.Buffer, error) {
buf := bytes.NewBuffer(nil)
hd := codec.MsgpackHandle{}
hd := codec.MsgpackHandle{
BasicHandle: codec.BasicHandle{
TimeNotBuiltin: !useNewTimeFormat,
},
}
enc := codec.NewEncoder(buf, &hd)
err := enc.Encode(in)
return buf, err

20
vendor/go.etcd.io/bbolt/LICENSE generated vendored Normal file
View File

@ -0,0 +1,20 @@
The MIT License (MIT)
Copyright (c) 2013 Ben Johnson
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

38
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BRANCH=`git rev-parse --abbrev-ref HEAD`
COMMIT=`git rev-parse --short HEAD`
GOLDFLAGS="-X main.branch $(BRANCH) -X main.commit $(COMMIT)"
default: build
race:
@TEST_FREELIST_TYPE=hashmap go test -v -race -test.run="TestSimulate_(100op|1000op)"
@echo "array freelist test"
@TEST_FREELIST_TYPE=array go test -v -race -test.run="TestSimulate_(100op|1000op)"
fmt:
!(gofmt -l -s -d $(shell find . -name \*.go) | grep '[a-z]')
# go get honnef.co/go/tools/simple
gosimple:
gosimple ./...
# go get honnef.co/go/tools/unused
unused:
unused ./...
# go get github.com/kisielk/errcheck
errcheck:
@errcheck -ignorepkg=bytes -ignore=os:Remove go.etcd.io/bbolt
test:
TEST_FREELIST_TYPE=hashmap go test -timeout 20m -v -coverprofile cover.out -covermode atomic
# Note: gets "program not an importable package" in out of path builds
TEST_FREELIST_TYPE=hashmap go test -v ./cmd/bbolt
@echo "array freelist test"
@TEST_FREELIST_TYPE=array go test -timeout 20m -v -coverprofile cover.out -covermode atomic
# Note: gets "program not an importable package" in out of path builds
@TEST_FREELIST_TYPE=array go test -v ./cmd/bbolt
.PHONY: race fmt errcheck test gosimple unused

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bbolt
=====
[![Go Report Card](https://goreportcard.com/badge/github.com/etcd-io/bbolt?style=flat-square)](https://goreportcard.com/report/github.com/etcd-io/bbolt)
[![Coverage](https://codecov.io/gh/etcd-io/bbolt/branch/master/graph/badge.svg)](https://codecov.io/gh/etcd-io/bbolt)
[![Build Status Travis](https://img.shields.io/travis/etcd-io/bboltlabs.svg?style=flat-square&&branch=master)](https://travis-ci.com/etcd-io/bbolt)
[![Godoc](http://img.shields.io/badge/go-documentation-blue.svg?style=flat-square)](https://godoc.org/github.com/etcd-io/bbolt)
[![Releases](https://img.shields.io/github/release/etcd-io/bbolt/all.svg?style=flat-square)](https://github.com/etcd-io/bbolt/releases)
[![LICENSE](https://img.shields.io/github/license/etcd-io/bbolt.svg?style=flat-square)](https://github.com/etcd-io/bbolt/blob/master/LICENSE)
bbolt is a fork of [Ben Johnson's][gh_ben] [Bolt][bolt] key/value
store. The purpose of this fork is to provide the Go community with an active
maintenance and development target for Bolt; the goal is improved reliability
and stability. bbolt includes bug fixes, performance enhancements, and features
not found in Bolt while preserving backwards compatibility with the Bolt API.
Bolt is a pure Go key/value store inspired by [Howard Chu's][hyc_symas]
[LMDB project][lmdb]. The goal of the project is to provide a simple,
fast, and reliable database for projects that don't require a full database
server such as Postgres or MySQL.
Since Bolt is meant to be used as such a low-level piece of functionality,
simplicity is key. The API will be small and only focus on getting values
and setting values. That's it.
[gh_ben]: https://github.com/benbjohnson
[bolt]: https://github.com/boltdb/bolt
[hyc_symas]: https://twitter.com/hyc_symas
[lmdb]: http://symas.com/mdb/
## Project Status
Bolt is stable, the API is fixed, and the file format is fixed. Full unit
test coverage and randomized black box testing are used to ensure database
consistency and thread safety. Bolt is currently used in high-load production
environments serving databases as large as 1TB. Many companies such as
Shopify and Heroku use Bolt-backed services every day.
## Project versioning
bbolt uses [semantic versioning](http://semver.org).
API should not change between patch and minor releases.
New minor versions may add additional features to the API.
## Table of Contents
- [Getting Started](#getting-started)
- [Installing](#installing)
- [Opening a database](#opening-a-database)
- [Transactions](#transactions)
- [Read-write transactions](#read-write-transactions)
- [Read-only transactions](#read-only-transactions)
- [Batch read-write transactions](#batch-read-write-transactions)
- [Managing transactions manually](#managing-transactions-manually)
- [Using buckets](#using-buckets)
- [Using key/value pairs](#using-keyvalue-pairs)
- [Autoincrementing integer for the bucket](#autoincrementing-integer-for-the-bucket)
- [Iterating over keys](#iterating-over-keys)
- [Prefix scans](#prefix-scans)
- [Range scans](#range-scans)
- [ForEach()](#foreach)
- [Nested buckets](#nested-buckets)
- [Database backups](#database-backups)
- [Statistics](#statistics)
- [Read-Only Mode](#read-only-mode)
- [Mobile Use (iOS/Android)](#mobile-use-iosandroid)
- [Resources](#resources)
- [Comparison with other databases](#comparison-with-other-databases)
- [Postgres, MySQL, & other relational databases](#postgres-mysql--other-relational-databases)
- [LevelDB, RocksDB](#leveldb-rocksdb)
- [LMDB](#lmdb)
- [Caveats & Limitations](#caveats--limitations)
- [Reading the Source](#reading-the-source)
- [Other Projects Using Bolt](#other-projects-using-bolt)
## Getting Started
### Installing
To start using Bolt, install Go and run `go get`:
```sh
$ go get go.etcd.io/bbolt/...
```
This will retrieve the library and install the `bolt` command line utility into
your `$GOBIN` path.
### Importing bbolt
To use bbolt as an embedded key-value store, import as:
```go
import bolt "go.etcd.io/bbolt"
db, err := bolt.Open(path, 0666, nil)
if err != nil {
return err
}
defer db.Close()
```
### Opening a database
The top-level object in Bolt is a `DB`. It is represented as a single file on
your disk and represents a consistent snapshot of your data.
To open your database, simply use the `bolt.Open()` function:
```go
package main
import (
"log"
bolt "go.etcd.io/bbolt"
)
func main() {
// Open the my.db data file in your current directory.
// It will be created if it doesn't exist.
db, err := bolt.Open("my.db", 0600, nil)
if err != nil {
log.Fatal(err)
}
defer db.Close()
...
}
```
Please note that Bolt obtains a file lock on the data file so multiple processes
cannot open the same database at the same time. Opening an already open Bolt
database will cause it to hang until the other process closes it. To prevent
an indefinite wait you can pass a timeout option to the `Open()` function:
```go
db, err := bolt.Open("my.db", 0600, &bolt.Options{Timeout: 1 * time.Second})
```
### Transactions
Bolt allows only one read-write transaction at a time but allows as many
read-only transactions as you want at a time. Each transaction has a consistent
view of the data as it existed when the transaction started.
Individual transactions and all objects created from them (e.g. buckets, keys)
are not thread safe. To work with data in multiple goroutines you must start
a transaction for each one or use locking to ensure only one goroutine accesses
a transaction at a time. Creating transaction from the `DB` is thread safe.
Transactions should not depend on one another and generally shouldn't be opened
simultaneously in the same goroutine. This can cause a deadlock as the read-write
transaction needs to periodically re-map the data file but it cannot do so while
any read-only transaction is open. Even a nested read-only transaction can cause
a deadlock, as the child transaction can block the parent transaction from releasing
its resources.
#### Read-write transactions
To start a read-write transaction, you can use the `DB.Update()` function:
```go
err := db.Update(func(tx *bolt.Tx) error {
...
return nil
})
```
Inside the closure, you have a consistent view of the database. You commit the
transaction by returning `nil` at the end. You can also rollback the transaction
at any point by returning an error. All database operations are allowed inside
a read-write transaction.
Always check the return error as it will report any disk failures that can cause
your transaction to not complete. If you return an error within your closure
it will be passed through.
#### Read-only transactions
To start a read-only transaction, you can use the `DB.View()` function:
```go
err := db.View(func(tx *bolt.Tx) error {
...
return nil
})
```
You also get a consistent view of the database within this closure, however,
no mutating operations are allowed within a read-only transaction. You can only
retrieve buckets, retrieve values, and copy the database within a read-only
transaction.
#### Batch read-write transactions
Each `DB.Update()` waits for disk to commit the writes. This overhead
can be minimized by combining multiple updates with the `DB.Batch()`
function:
```go
err := db.Batch(func(tx *bolt.Tx) error {
...
return nil
})
```
Concurrent Batch calls are opportunistically combined into larger
transactions. Batch is only useful when there are multiple goroutines
calling it.
The trade-off is that `Batch` can call the given
function multiple times, if parts of the transaction fail. The
function must be idempotent and side effects must take effect only
after a successful return from `DB.Batch()`.
For example: don't display messages from inside the function, instead
set variables in the enclosing scope:
```go
var id uint64
err := db.Batch(func(tx *bolt.Tx) error {
// Find last key in bucket, decode as bigendian uint64, increment
// by one, encode back to []byte, and add new key.
...
id = newValue
return nil
})
if err != nil {
return ...
}
fmt.Println("Allocated ID %d", id)
```
#### Managing transactions manually
The `DB.View()` and `DB.Update()` functions are wrappers around the `DB.Begin()`
function. These helper functions will start the transaction, execute a function,
and then safely close your transaction if an error is returned. This is the
recommended way to use Bolt transactions.
However, sometimes you may want to manually start and end your transactions.
You can use the `DB.Begin()` function directly but **please** be sure to close
the transaction.
```go
// Start a writable transaction.
tx, err := db.Begin(true)
if err != nil {
return err
}
defer tx.Rollback()
// Use the transaction...
_, err := tx.CreateBucket([]byte("MyBucket"))
if err != nil {
return err
}
// Commit the transaction and check for error.
if err := tx.Commit(); err != nil {
return err
}
```
The first argument to `DB.Begin()` is a boolean stating if the transaction
should be writable.
### Using buckets
Buckets are collections of key/value pairs within the database. All keys in a
bucket must be unique. You can create a bucket using the `Tx.CreateBucket()`
function:
```go
db.Update(func(tx *bolt.Tx) error {
b, err := tx.CreateBucket([]byte("MyBucket"))
if err != nil {
return fmt.Errorf("create bucket: %s", err)
}
return nil
})
```
You can also create a bucket only if it doesn't exist by using the
`Tx.CreateBucketIfNotExists()` function. It's a common pattern to call this
function for all your top-level buckets after you open your database so you can
guarantee that they exist for future transactions.
To delete a bucket, simply call the `Tx.DeleteBucket()` function.
### Using key/value pairs
To save a key/value pair to a bucket, use the `Bucket.Put()` function:
```go
db.Update(func(tx *bolt.Tx) error {
b := tx.Bucket([]byte("MyBucket"))
err := b.Put([]byte("answer"), []byte("42"))
return err
})
```
This will set the value of the `"answer"` key to `"42"` in the `MyBucket`
bucket. To retrieve this value, we can use the `Bucket.Get()` function:
```go
db.View(func(tx *bolt.Tx) error {
b := tx.Bucket([]byte("MyBucket"))
v := b.Get([]byte("answer"))
fmt.Printf("The answer is: %s\n", v)
return nil
})
```
The `Get()` function does not return an error because its operation is
guaranteed to work (unless there is some kind of system failure). If the key
exists then it will return its byte slice value. If it doesn't exist then it
will return `nil`. It's important to note that you can have a zero-length value
set to a key which is different than the key not existing.
Use the `Bucket.Delete()` function to delete a key from the bucket.
Please note that values returned from `Get()` are only valid while the
transaction is open. If you need to use a value outside of the transaction
then you must use `copy()` to copy it to another byte slice.
### Autoincrementing integer for the bucket
By using the `NextSequence()` function, you can let Bolt determine a sequence
which can be used as the unique identifier for your key/value pairs. See the
example below.
```go
// CreateUser saves u to the store. The new user ID is set on u once the data is persisted.
func (s *Store) CreateUser(u *User) error {
return s.db.Update(func(tx *bolt.Tx) error {
// Retrieve the users bucket.
// This should be created when the DB is first opened.
b := tx.Bucket([]byte("users"))
// Generate ID for the user.
// This returns an error only if the Tx is closed or not writeable.
// That can't happen in an Update() call so I ignore the error check.
id, _ := b.NextSequence()
u.ID = int(id)
// Marshal user data into bytes.
buf, err := json.Marshal(u)
if err != nil {
return err
}
// Persist bytes to users bucket.
return b.Put(itob(u.ID), buf)
})
}
// itob returns an 8-byte big endian representation of v.
func itob(v int) []byte {
b := make([]byte, 8)
binary.BigEndian.PutUint64(b, uint64(v))
return b
}
type User struct {
ID int
...
}
```
### Iterating over keys
Bolt stores its keys in byte-sorted order within a bucket. This makes sequential
iteration over these keys extremely fast. To iterate over keys we'll use a
`Cursor`:
```go
db.View(func(tx *bolt.Tx) error {
// Assume bucket exists and has keys
b := tx.Bucket([]byte("MyBucket"))
c := b.Cursor()
for k, v := c.First(); k != nil; k, v = c.Next() {
fmt.Printf("key=%s, value=%s\n", k, v)
}
return nil
})
```
The cursor allows you to move to a specific point in the list of keys and move
forward or backward through the keys one at a time.
The following functions are available on the cursor:
```
First() Move to the first key.
Last() Move to the last key.
Seek() Move to a specific key.
Next() Move to the next key.
Prev() Move to the previous key.
```
Each of those functions has a return signature of `(key []byte, value []byte)`.
When you have iterated to the end of the cursor then `Next()` will return a
`nil` key. You must seek to a position using `First()`, `Last()`, or `Seek()`
before calling `Next()` or `Prev()`. If you do not seek to a position then
these functions will return a `nil` key.
During iteration, if the key is non-`nil` but the value is `nil`, that means
the key refers to a bucket rather than a value. Use `Bucket.Bucket()` to
access the sub-bucket.
#### Prefix scans
To iterate over a key prefix, you can combine `Seek()` and `bytes.HasPrefix()`:
```go
db.View(func(tx *bolt.Tx) error {
// Assume bucket exists and has keys
c := tx.Bucket([]byte("MyBucket")).Cursor()
prefix := []byte("1234")
for k, v := c.Seek(prefix); k != nil && bytes.HasPrefix(k, prefix); k, v = c.Next() {
fmt.Printf("key=%s, value=%s\n", k, v)
}
return nil
})
```
#### Range scans
Another common use case is scanning over a range such as a time range. If you
use a sortable time encoding such as RFC3339 then you can query a specific
date range like this:
```go
db.View(func(tx *bolt.Tx) error {
// Assume our events bucket exists and has RFC3339 encoded time keys.
c := tx.Bucket([]byte("Events")).Cursor()
// Our time range spans the 90's decade.
min := []byte("1990-01-01T00:00:00Z")
max := []byte("2000-01-01T00:00:00Z")
// Iterate over the 90's.
for k, v := c.Seek(min); k != nil && bytes.Compare(k, max) <= 0; k, v = c.Next() {
fmt.Printf("%s: %s\n", k, v)
}
return nil
})
```
Note that, while RFC3339 is sortable, the Golang implementation of RFC3339Nano does not use a fixed number of digits after the decimal point and is therefore not sortable.
#### ForEach()
You can also use the function `ForEach()` if you know you'll be iterating over
all the keys in a bucket:
```go
db.View(func(tx *bolt.Tx) error {
// Assume bucket exists and has keys
b := tx.Bucket([]byte("MyBucket"))
b.ForEach(func(k, v []byte) error {
fmt.Printf("key=%s, value=%s\n", k, v)
return nil
})
return nil
})
```
Please note that keys and values in `ForEach()` are only valid while
the transaction is open. If you need to use a key or value outside of
the transaction, you must use `copy()` to copy it to another byte
slice.
### Nested buckets
You can also store a bucket in a key to create nested buckets. The API is the
same as the bucket management API on the `DB` object:
```go
func (*Bucket) CreateBucket(key []byte) (*Bucket, error)
func (*Bucket) CreateBucketIfNotExists(key []byte) (*Bucket, error)
func (*Bucket) DeleteBucket(key []byte) error
```
Say you had a multi-tenant application where the root level bucket was the account bucket. Inside of this bucket was a sequence of accounts which themselves are buckets. And inside the sequence bucket you could have many buckets pertaining to the Account itself (Users, Notes, etc) isolating the information into logical groupings.
```go
// createUser creates a new user in the given account.
func createUser(accountID int, u *User) error {
// Start the transaction.
tx, err := db.Begin(true)
if err != nil {
return err
}
defer tx.Rollback()
// Retrieve the root bucket for the account.
// Assume this has already been created when the account was set up.
root := tx.Bucket([]byte(strconv.FormatUint(accountID, 10)))
// Setup the users bucket.
bkt, err := root.CreateBucketIfNotExists([]byte("USERS"))
if err != nil {
return err
}
// Generate an ID for the new user.
userID, err := bkt.NextSequence()
if err != nil {
return err
}
u.ID = userID
// Marshal and save the encoded user.
if buf, err := json.Marshal(u); err != nil {
return err
} else if err := bkt.Put([]byte(strconv.FormatUint(u.ID, 10)), buf); err != nil {
return err
}
// Commit the transaction.
if err := tx.Commit(); err != nil {
return err
}
return nil
}
```
### Database backups
Bolt is a single file so it's easy to backup. You can use the `Tx.WriteTo()`
function to write a consistent view of the database to a writer. If you call
this from a read-only transaction, it will perform a hot backup and not block
your other database reads and writes.
By default, it will use a regular file handle which will utilize the operating
system's page cache. See the [`Tx`](https://godoc.org/go.etcd.io/bbolt#Tx)
documentation for information about optimizing for larger-than-RAM datasets.
One common use case is to backup over HTTP so you can use tools like `cURL` to
do database backups:
```go
func BackupHandleFunc(w http.ResponseWriter, req *http.Request) {
err := db.View(func(tx *bolt.Tx) error {
w.Header().Set("Content-Type", "application/octet-stream")
w.Header().Set("Content-Disposition", `attachment; filename="my.db"`)
w.Header().Set("Content-Length", strconv.Itoa(int(tx.Size())))
_, err := tx.WriteTo(w)
return err
})
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
}
}
```
Then you can backup using this command:
```sh
$ curl http://localhost/backup > my.db
```
Or you can open your browser to `http://localhost/backup` and it will download
automatically.
If you want to backup to another file you can use the `Tx.CopyFile()` helper
function.
### Statistics
The database keeps a running count of many of the internal operations it
performs so you can better understand what's going on. By grabbing a snapshot
of these stats at two points in time we can see what operations were performed
in that time range.
For example, we could start a goroutine to log stats every 10 seconds:
```go
go func() {
// Grab the initial stats.
prev := db.Stats()
for {
// Wait for 10s.
time.Sleep(10 * time.Second)
// Grab the current stats and diff them.
stats := db.Stats()
diff := stats.Sub(&prev)
// Encode stats to JSON and print to STDERR.
json.NewEncoder(os.Stderr).Encode(diff)
// Save stats for the next loop.
prev = stats
}
}()
```
It's also useful to pipe these stats to a service such as statsd for monitoring
or to provide an HTTP endpoint that will perform a fixed-length sample.
### Read-Only Mode
Sometimes it is useful to create a shared, read-only Bolt database. To this,
set the `Options.ReadOnly` flag when opening your database. Read-only mode
uses a shared lock to allow multiple processes to read from the database but
it will block any processes from opening the database in read-write mode.
```go
db, err := bolt.Open("my.db", 0666, &bolt.Options{ReadOnly: true})
if err != nil {
log.Fatal(err)
}
```
### Mobile Use (iOS/Android)
Bolt is able to run on mobile devices by leveraging the binding feature of the
[gomobile](https://github.com/golang/mobile) tool. Create a struct that will
contain your database logic and a reference to a `*bolt.DB` with a initializing
constructor that takes in a filepath where the database file will be stored.
Neither Android nor iOS require extra permissions or cleanup from using this method.
```go
func NewBoltDB(filepath string) *BoltDB {
db, err := bolt.Open(filepath+"/demo.db", 0600, nil)
if err != nil {
log.Fatal(err)
}
return &BoltDB{db}
}
type BoltDB struct {
db *bolt.DB
...
}
func (b *BoltDB) Path() string {
return b.db.Path()
}
func (b *BoltDB) Close() {
b.db.Close()
}
```
Database logic should be defined as methods on this wrapper struct.
To initialize this struct from the native language (both platforms now sync
their local storage to the cloud. These snippets disable that functionality for the
database file):
#### Android
```java
String path;
if (android.os.Build.VERSION.SDK_INT >=android.os.Build.VERSION_CODES.LOLLIPOP){
path = getNoBackupFilesDir().getAbsolutePath();
} else{
path = getFilesDir().getAbsolutePath();
}
Boltmobiledemo.BoltDB boltDB = Boltmobiledemo.NewBoltDB(path)
```
#### iOS
```objc
- (void)demo {
NSString* path = [NSSearchPathForDirectoriesInDomains(NSLibraryDirectory,
NSUserDomainMask,
YES) objectAtIndex:0];
GoBoltmobiledemoBoltDB * demo = GoBoltmobiledemoNewBoltDB(path);
[self addSkipBackupAttributeToItemAtPath:demo.path];
//Some DB Logic would go here
[demo close];
}
- (BOOL)addSkipBackupAttributeToItemAtPath:(NSString *) filePathString
{
NSURL* URL= [NSURL fileURLWithPath: filePathString];
assert([[NSFileManager defaultManager] fileExistsAtPath: [URL path]]);
NSError *error = nil;
BOOL success = [URL setResourceValue: [NSNumber numberWithBool: YES]
forKey: NSURLIsExcludedFromBackupKey error: &error];
if(!success){
NSLog(@"Error excluding %@ from backup %@", [URL lastPathComponent], error);
}
return success;
}
```
## Resources
For more information on getting started with Bolt, check out the following articles:
* [Intro to BoltDB: Painless Performant Persistence](http://npf.io/2014/07/intro-to-boltdb-painless-performant-persistence/) by [Nate Finch](https://github.com/natefinch).
* [Bolt -- an embedded key/value database for Go](https://www.progville.com/go/bolt-embedded-db-golang/) by Progville
## Comparison with other databases
### Postgres, MySQL, & other relational databases
Relational databases structure data into rows and are only accessible through
the use of SQL. This approach provides flexibility in how you store and query
your data but also incurs overhead in parsing and planning SQL statements. Bolt
accesses all data by a byte slice key. This makes Bolt fast to read and write
data by key but provides no built-in support for joining values together.
Most relational databases (with the exception of SQLite) are standalone servers
that run separately from your application. This gives your systems
flexibility to connect multiple application servers to a single database
server but also adds overhead in serializing and transporting data over the
network. Bolt runs as a library included in your application so all data access
has to go through your application's process. This brings data closer to your
application but limits multi-process access to the data.
### LevelDB, RocksDB
LevelDB and its derivatives (RocksDB, HyperLevelDB) are similar to Bolt in that
they are libraries bundled into the application, however, their underlying
structure is a log-structured merge-tree (LSM tree). An LSM tree optimizes
random writes by using a write ahead log and multi-tiered, sorted files called
SSTables. Bolt uses a B+tree internally and only a single file. Both approaches
have trade-offs.
If you require a high random write throughput (>10,000 w/sec) or you need to use
spinning disks then LevelDB could be a good choice. If your application is
read-heavy or does a lot of range scans then Bolt could be a good choice.
One other important consideration is that LevelDB does not have transactions.
It supports batch writing of key/values pairs and it supports read snapshots
but it will not give you the ability to do a compare-and-swap operation safely.
Bolt supports fully serializable ACID transactions.
### LMDB
Bolt was originally a port of LMDB so it is architecturally similar. Both use
a B+tree, have ACID semantics with fully serializable transactions, and support
lock-free MVCC using a single writer and multiple readers.
The two projects have somewhat diverged. LMDB heavily focuses on raw performance
while Bolt has focused on simplicity and ease of use. For example, LMDB allows
several unsafe actions such as direct writes for the sake of performance. Bolt
opts to disallow actions which can leave the database in a corrupted state. The
only exception to this in Bolt is `DB.NoSync`.
There are also a few differences in API. LMDB requires a maximum mmap size when
opening an `mdb_env` whereas Bolt will handle incremental mmap resizing
automatically. LMDB overloads the getter and setter functions with multiple
flags whereas Bolt splits these specialized cases into their own functions.
## Caveats & Limitations
It's important to pick the right tool for the job and Bolt is no exception.
Here are a few things to note when evaluating and using Bolt:
* Bolt is good for read intensive workloads. Sequential write performance is
also fast but random writes can be slow. You can use `DB.Batch()` or add a
write-ahead log to help mitigate this issue.
* Bolt uses a B+tree internally so there can be a lot of random page access.
SSDs provide a significant performance boost over spinning disks.
* Try to avoid long running read transactions. Bolt uses copy-on-write so
old pages cannot be reclaimed while an old transaction is using them.
* Byte slices returned from Bolt are only valid during a transaction. Once the
transaction has been committed or rolled back then the memory they point to
can be reused by a new page or can be unmapped from virtual memory and you'll
see an `unexpected fault address` panic when accessing it.
* Bolt uses an exclusive write lock on the database file so it cannot be
shared by multiple processes.
* Be careful when using `Bucket.FillPercent`. Setting a high fill percent for
buckets that have random inserts will cause your database to have very poor
page utilization.
* Use larger buckets in general. Smaller buckets causes poor page utilization
once they become larger than the page size (typically 4KB).
* Bulk loading a lot of random writes into a new bucket can be slow as the
page will not split until the transaction is committed. Randomly inserting
more than 100,000 key/value pairs into a single new bucket in a single
transaction is not advised.
* Bolt uses a memory-mapped file so the underlying operating system handles the
caching of the data. Typically, the OS will cache as much of the file as it
can in memory and will release memory as needed to other processes. This means
that Bolt can show very high memory usage when working with large databases.
However, this is expected and the OS will release memory as needed. Bolt can
handle databases much larger than the available physical RAM, provided its
memory-map fits in the process virtual address space. It may be problematic
on 32-bits systems.
* The data structures in the Bolt database are memory mapped so the data file
will be endian specific. This means that you cannot copy a Bolt file from a
little endian machine to a big endian machine and have it work. For most
users this is not a concern since most modern CPUs are little endian.
* Because of the way pages are laid out on disk, Bolt cannot truncate data files
and return free pages back to the disk. Instead, Bolt maintains a free list
of unused pages within its data file. These free pages can be reused by later
transactions. This works well for many use cases as databases generally tend
to grow. However, it's important to note that deleting large chunks of data
will not allow you to reclaim that space on disk.
For more information on page allocation, [see this comment][page-allocation].
[page-allocation]: https://github.com/boltdb/bolt/issues/308#issuecomment-74811638
## Reading the Source
Bolt is a relatively small code base (<5KLOC) for an embedded, serializable,
transactional key/value database so it can be a good starting point for people
interested in how databases work.
The best places to start are the main entry points into Bolt:
- `Open()` - Initializes the reference to the database. It's responsible for
creating the database if it doesn't exist, obtaining an exclusive lock on the
file, reading the meta pages, & memory-mapping the file.
- `DB.Begin()` - Starts a read-only or read-write transaction depending on the
value of the `writable` argument. This requires briefly obtaining the "meta"
lock to keep track of open transactions. Only one read-write transaction can
exist at a time so the "rwlock" is acquired during the life of a read-write
transaction.
- `Bucket.Put()` - Writes a key/value pair into a bucket. After validating the
arguments, a cursor is used to traverse the B+tree to the page and position
where they key & value will be written. Once the position is found, the bucket
materializes the underlying page and the page's parent pages into memory as
"nodes". These nodes are where mutations occur during read-write transactions.
These changes get flushed to disk during commit.
- `Bucket.Get()` - Retrieves a key/value pair from a bucket. This uses a cursor
to move to the page & position of a key/value pair. During a read-only
transaction, the key and value data is returned as a direct reference to the
underlying mmap file so there's no allocation overhead. For read-write
transactions, this data may reference the mmap file or one of the in-memory
node values.
- `Cursor` - This object is simply for traversing the B+tree of on-disk pages
or in-memory nodes. It can seek to a specific key, move to the first or last
value, or it can move forward or backward. The cursor handles the movement up
and down the B+tree transparently to the end user.
- `Tx.Commit()` - Converts the in-memory dirty nodes and the list of free pages
into pages to be written to disk. Writing to disk then occurs in two phases.
First, the dirty pages are written to disk and an `fsync()` occurs. Second, a
new meta page with an incremented transaction ID is written and another
`fsync()` occurs. This two phase write ensures that partially written data
pages are ignored in the event of a crash since the meta page pointing to them
is never written. Partially written meta pages are invalidated because they
are written with a checksum.
If you have additional notes that could be helpful for others, please submit
them via pull request.
## Other Projects Using Bolt
Below is a list of public, open source projects that use Bolt:
* [Algernon](https://github.com/xyproto/algernon) - A HTTP/2 web server with built-in support for Lua. Uses BoltDB as the default database backend.
* [Bazil](https://bazil.org/) - A file system that lets your data reside where it is most convenient for it to reside.
* [bolter](https://github.com/hasit/bolter) - Command-line app for viewing BoltDB file in your terminal.
* [boltcli](https://github.com/spacewander/boltcli) - the redis-cli for boltdb with Lua script support.
* [BoltHold](https://github.com/timshannon/bolthold) - An embeddable NoSQL store for Go types built on BoltDB
* [BoltStore](https://github.com/yosssi/boltstore) - Session store using Bolt.
* [Boltdb Boilerplate](https://github.com/bobintornado/boltdb-boilerplate) - Boilerplate wrapper around bolt aiming to make simple calls one-liners.
* [BoltDbWeb](https://github.com/evnix/boltdbweb) - A web based GUI for BoltDB files.
* [bleve](http://www.blevesearch.com/) - A pure Go search engine similar to ElasticSearch that uses Bolt as the default storage backend.
* [btcwallet](https://github.com/btcsuite/btcwallet) - A bitcoin wallet.
* [buckets](https://github.com/joyrexus/buckets) - a bolt wrapper streamlining
simple tx and key scans.
* [cayley](https://github.com/google/cayley) - Cayley is an open-source graph database using Bolt as optional backend.
* [ChainStore](https://github.com/pressly/chainstore) - Simple key-value interface to a variety of storage engines organized as a chain of operations.
* [Consul](https://github.com/hashicorp/consul) - Consul is service discovery and configuration made easy. Distributed, highly available, and datacenter-aware.
* [DVID](https://github.com/janelia-flyem/dvid) - Added Bolt as optional storage engine and testing it against Basho-tuned leveldb.
* [dcrwallet](https://github.com/decred/dcrwallet) - A wallet for the Decred cryptocurrency.
* [drive](https://github.com/odeke-em/drive) - drive is an unofficial Google Drive command line client for \*NIX operating systems.
* [event-shuttle](https://github.com/sclasen/event-shuttle) - A Unix system service to collect and reliably deliver messages to Kafka.
* [Freehold](http://tshannon.bitbucket.org/freehold/) - An open, secure, and lightweight platform for your files and data.
* [Go Report Card](https://goreportcard.com/) - Go code quality report cards as a (free and open source) service.
* [GoWebApp](https://github.com/josephspurrier/gowebapp) - A basic MVC web application in Go using BoltDB.
* [GoShort](https://github.com/pankajkhairnar/goShort) - GoShort is a URL shortener written in Golang and BoltDB for persistent key/value storage and for routing it's using high performent HTTPRouter.
* [gopherpit](https://github.com/gopherpit/gopherpit) - A web service to manage Go remote import paths with custom domains
* [gokv](https://github.com/philippgille/gokv) - Simple key-value store abstraction and implementations for Go (Redis, Consul, etcd, bbolt, BadgerDB, LevelDB, Memcached, DynamoDB, S3, PostgreSQL, MongoDB, CockroachDB and many more)
* [Gitchain](https://github.com/gitchain/gitchain) - Decentralized, peer-to-peer Git repositories aka "Git meets Bitcoin".
* [InfluxDB](https://influxdata.com) - Scalable datastore for metrics, events, and real-time analytics.
* [ipLocator](https://github.com/AndreasBriese/ipLocator) - A fast ip-geo-location-server using bolt with bloom filters.
* [ipxed](https://github.com/kelseyhightower/ipxed) - Web interface and api for ipxed.
* [Ironsmith](https://github.com/timshannon/ironsmith) - A simple, script-driven continuous integration (build - > test -> release) tool, with no external dependencies
* [Kala](https://github.com/ajvb/kala) - Kala is a modern job scheduler optimized to run on a single node. It is persistent, JSON over HTTP API, ISO 8601 duration notation, and dependent jobs.
* [Key Value Access Langusge (KVAL)](https://github.com/kval-access-language) - A proposed grammar for key-value datastores offering a bbolt binding.
* [LedisDB](https://github.com/siddontang/ledisdb) - A high performance NoSQL, using Bolt as optional storage.
* [lru](https://github.com/crowdriff/lru) - Easy to use Bolt-backed Least-Recently-Used (LRU) read-through cache with chainable remote stores.
* [mbuckets](https://github.com/abhigupta912/mbuckets) - A Bolt wrapper that allows easy operations on multi level (nested) buckets.
* [MetricBase](https://github.com/msiebuhr/MetricBase) - Single-binary version of Graphite.
* [MuLiFS](https://github.com/dankomiocevic/mulifs) - Music Library Filesystem creates a filesystem to organise your music files.
* [NATS](https://github.com/nats-io/nats-streaming-server) - NATS Streaming uses bbolt for message and metadata storage.
* [Operation Go: A Routine Mission](http://gocode.io) - An online programming game for Golang using Bolt for user accounts and a leaderboard.
* [photosite/session](https://godoc.org/bitbucket.org/kardianos/photosite/session) - Sessions for a photo viewing site.
* [Prometheus Annotation Server](https://github.com/oliver006/prom_annotation_server) - Annotation server for PromDash & Prometheus service monitoring system.
* [reef-pi](https://github.com/reef-pi/reef-pi) - reef-pi is an award winning, modular, DIY reef tank controller using easy to learn electronics based on a Raspberry Pi.
* [Request Baskets](https://github.com/darklynx/request-baskets) - A web service to collect arbitrary HTTP requests and inspect them via REST API or simple web UI, similar to [RequestBin](http://requestb.in/) service
* [Seaweed File System](https://github.com/chrislusf/seaweedfs) - Highly scalable distributed key~file system with O(1) disk read.
* [stow](https://github.com/djherbis/stow) - a persistence manager for objects
backed by boltdb.
* [Storm](https://github.com/asdine/storm) - Simple and powerful ORM for BoltDB.
* [SimpleBolt](https://github.com/xyproto/simplebolt) - A simple way to use BoltDB. Deals mainly with strings.
* [Skybox Analytics](https://github.com/skybox/skybox) - A standalone funnel analysis tool for web analytics.
* [Scuttlebutt](https://github.com/benbjohnson/scuttlebutt) - Uses Bolt to store and process all Twitter mentions of GitHub projects.
* [tentacool](https://github.com/optiflows/tentacool) - REST api server to manage system stuff (IP, DNS, Gateway...) on a linux server.
* [torrent](https://github.com/anacrolix/torrent) - Full-featured BitTorrent client package and utilities in Go. BoltDB is a storage backend in development.
* [Wiki](https://github.com/peterhellberg/wiki) - A tiny wiki using Goji, BoltDB and Blackfriday.
If you are using Bolt in a project please send a pull request to add it to the list.

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package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0x7FFFFFFF // 2GB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0xFFFFFFF

7
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@ -0,0 +1,7 @@
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

7
vendor/go.etcd.io/bbolt/bolt_arm.go generated vendored Normal file
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@ -0,0 +1,7 @@
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0x7FFFFFFF // 2GB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0xFFFFFFF

9
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@ -0,0 +1,9 @@
// +build arm64
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

10
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@ -0,0 +1,10 @@
package bbolt
import (
"syscall"
)
// fdatasync flushes written data to a file descriptor.
func fdatasync(db *DB) error {
return syscall.Fdatasync(int(db.file.Fd()))
}

9
vendor/go.etcd.io/bbolt/bolt_mips64x.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build mips64 mips64le
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0x8000000000 // 512GB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

9
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@ -0,0 +1,9 @@
// +build mips mipsle
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0x40000000 // 1GB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0xFFFFFFF

27
vendor/go.etcd.io/bbolt/bolt_openbsd.go generated vendored Normal file
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@ -0,0 +1,27 @@
package bbolt
import (
"syscall"
"unsafe"
)
const (
msAsync = 1 << iota // perform asynchronous writes
msSync // perform synchronous writes
msInvalidate // invalidate cached data
)
func msync(db *DB) error {
_, _, errno := syscall.Syscall(syscall.SYS_MSYNC, uintptr(unsafe.Pointer(db.data)), uintptr(db.datasz), msInvalidate)
if errno != 0 {
return errno
}
return nil
}
func fdatasync(db *DB) error {
if db.data != nil {
return msync(db)
}
return db.file.Sync()
}

9
vendor/go.etcd.io/bbolt/bolt_ppc.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build ppc
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0x7FFFFFFF // 2GB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0xFFFFFFF

9
vendor/go.etcd.io/bbolt/bolt_ppc64.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build ppc64
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

9
vendor/go.etcd.io/bbolt/bolt_ppc64le.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build ppc64le
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

9
vendor/go.etcd.io/bbolt/bolt_riscv64.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build riscv64
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

9
vendor/go.etcd.io/bbolt/bolt_s390x.go generated vendored Normal file
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@ -0,0 +1,9 @@
// +build s390x
package bbolt
// maxMapSize represents the largest mmap size supported by Bolt.
const maxMapSize = 0xFFFFFFFFFFFF // 256TB
// maxAllocSize is the size used when creating array pointers.
const maxAllocSize = 0x7FFFFFFF

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vendor/go.etcd.io/bbolt/bolt_unix.go generated vendored Normal file
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@ -0,0 +1,93 @@
// +build !windows,!plan9,!solaris,!aix
package bbolt
import (
"fmt"
"syscall"
"time"
"unsafe"
)
// flock acquires an advisory lock on a file descriptor.
func flock(db *DB, exclusive bool, timeout time.Duration) error {
var t time.Time
if timeout != 0 {
t = time.Now()
}
fd := db.file.Fd()
flag := syscall.LOCK_NB
if exclusive {
flag |= syscall.LOCK_EX
} else {
flag |= syscall.LOCK_SH
}
for {
// Attempt to obtain an exclusive lock.
err := syscall.Flock(int(fd), flag)
if err == nil {
return nil
} else if err != syscall.EWOULDBLOCK {
return err
}
// If we timed out then return an error.
if timeout != 0 && time.Since(t) > timeout-flockRetryTimeout {
return ErrTimeout
}
// Wait for a bit and try again.
time.Sleep(flockRetryTimeout)
}
}
// funlock releases an advisory lock on a file descriptor.
func funlock(db *DB) error {
return syscall.Flock(int(db.file.Fd()), syscall.LOCK_UN)
}
// mmap memory maps a DB's data file.
func mmap(db *DB, sz int) error {
// Map the data file to memory.
b, err := syscall.Mmap(int(db.file.Fd()), 0, sz, syscall.PROT_READ, syscall.MAP_SHARED|db.MmapFlags)
if err != nil {
return err
}
// Advise the kernel that the mmap is accessed randomly.
err = madvise(b, syscall.MADV_RANDOM)
if err != nil && err != syscall.ENOSYS {
// Ignore not implemented error in kernel because it still works.
return fmt.Errorf("madvise: %s", err)
}
// Save the original byte slice and convert to a byte array pointer.
db.dataref = b
db.data = (*[maxMapSize]byte)(unsafe.Pointer(&b[0]))
db.datasz = sz
return nil
}
// munmap unmaps a DB's data file from memory.
func munmap(db *DB) error {
// Ignore the unmap if we have no mapped data.
if db.dataref == nil {
return nil
}
// Unmap using the original byte slice.
err := syscall.Munmap(db.dataref)
db.dataref = nil
db.data = nil
db.datasz = 0
return err
}
// NOTE: This function is copied from stdlib because it is not available on darwin.
func madvise(b []byte, advice int) (err error) {
_, _, e1 := syscall.Syscall(syscall.SYS_MADVISE, uintptr(unsafe.Pointer(&b[0])), uintptr(len(b)), uintptr(advice))
if e1 != 0 {
err = e1
}
return
}

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vendor/go.etcd.io/bbolt/bolt_unix_aix.go generated vendored Normal file
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@ -0,0 +1,90 @@
// +build aix
package bbolt
import (
"fmt"
"syscall"
"time"
"unsafe"
"golang.org/x/sys/unix"
)
// flock acquires an advisory lock on a file descriptor.
func flock(db *DB, exclusive bool, timeout time.Duration) error {
var t time.Time
if timeout != 0 {
t = time.Now()
}
fd := db.file.Fd()
var lockType int16
if exclusive {
lockType = syscall.F_WRLCK
} else {
lockType = syscall.F_RDLCK
}
for {
// Attempt to obtain an exclusive lock.
lock := syscall.Flock_t{Type: lockType}
err := syscall.FcntlFlock(fd, syscall.F_SETLK, &lock)
if err == nil {
return nil
} else if err != syscall.EAGAIN {
return err
}
// If we timed out then return an error.
if timeout != 0 && time.Since(t) > timeout-flockRetryTimeout {
return ErrTimeout
}
// Wait for a bit and try again.
time.Sleep(flockRetryTimeout)
}
}
// funlock releases an advisory lock on a file descriptor.
func funlock(db *DB) error {
var lock syscall.Flock_t
lock.Start = 0
lock.Len = 0
lock.Type = syscall.F_UNLCK
lock.Whence = 0
return syscall.FcntlFlock(uintptr(db.file.Fd()), syscall.F_SETLK, &lock)
}
// mmap memory maps a DB's data file.
func mmap(db *DB, sz int) error {
// Map the data file to memory.
b, err := unix.Mmap(int(db.file.Fd()), 0, sz, syscall.PROT_READ, syscall.MAP_SHARED|db.MmapFlags)
if err != nil {
return err
}
// Advise the kernel that the mmap is accessed randomly.
if err := unix.Madvise(b, syscall.MADV_RANDOM); err != nil {
return fmt.Errorf("madvise: %s", err)
}
// Save the original byte slice and convert to a byte array pointer.
db.dataref = b
db.data = (*[maxMapSize]byte)(unsafe.Pointer(&b[0]))
db.datasz = sz
return nil
}
// munmap unmaps a DB's data file from memory.
func munmap(db *DB) error {
// Ignore the unmap if we have no mapped data.
if db.dataref == nil {
return nil
}
// Unmap using the original byte slice.
err := unix.Munmap(db.dataref)
db.dataref = nil
db.data = nil
db.datasz = 0
return err
}

88
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@ -0,0 +1,88 @@
package bbolt
import (
"fmt"
"syscall"
"time"
"unsafe"
"golang.org/x/sys/unix"
)
// flock acquires an advisory lock on a file descriptor.
func flock(db *DB, exclusive bool, timeout time.Duration) error {
var t time.Time
if timeout != 0 {
t = time.Now()
}
fd := db.file.Fd()
var lockType int16
if exclusive {
lockType = syscall.F_WRLCK
} else {
lockType = syscall.F_RDLCK
}
for {
// Attempt to obtain an exclusive lock.
lock := syscall.Flock_t{Type: lockType}
err := syscall.FcntlFlock(fd, syscall.F_SETLK, &lock)
if err == nil {
return nil
} else if err != syscall.EAGAIN {
return err
}
// If we timed out then return an error.
if timeout != 0 && time.Since(t) > timeout-flockRetryTimeout {
return ErrTimeout
}
// Wait for a bit and try again.
time.Sleep(flockRetryTimeout)
}
}
// funlock releases an advisory lock on a file descriptor.
func funlock(db *DB) error {
var lock syscall.Flock_t
lock.Start = 0
lock.Len = 0
lock.Type = syscall.F_UNLCK
lock.Whence = 0
return syscall.FcntlFlock(uintptr(db.file.Fd()), syscall.F_SETLK, &lock)
}
// mmap memory maps a DB's data file.
func mmap(db *DB, sz int) error {
// Map the data file to memory.
b, err := unix.Mmap(int(db.file.Fd()), 0, sz, syscall.PROT_READ, syscall.MAP_SHARED|db.MmapFlags)
if err != nil {
return err
}
// Advise the kernel that the mmap is accessed randomly.
if err := unix.Madvise(b, syscall.MADV_RANDOM); err != nil {
return fmt.Errorf("madvise: %s", err)
}
// Save the original byte slice and convert to a byte array pointer.
db.dataref = b
db.data = (*[maxMapSize]byte)(unsafe.Pointer(&b[0]))
db.datasz = sz
return nil
}
// munmap unmaps a DB's data file from memory.
func munmap(db *DB) error {
// Ignore the unmap if we have no mapped data.
if db.dataref == nil {
return nil
}
// Unmap using the original byte slice.
err := unix.Munmap(db.dataref)
db.dataref = nil
db.data = nil
db.datasz = 0
return err
}

141
vendor/go.etcd.io/bbolt/bolt_windows.go generated vendored Normal file
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@ -0,0 +1,141 @@
package bbolt
import (
"fmt"
"os"
"syscall"
"time"
"unsafe"
)
// LockFileEx code derived from golang build filemutex_windows.go @ v1.5.1
var (
modkernel32 = syscall.NewLazyDLL("kernel32.dll")
procLockFileEx = modkernel32.NewProc("LockFileEx")
procUnlockFileEx = modkernel32.NewProc("UnlockFileEx")
)
const (
// see https://msdn.microsoft.com/en-us/library/windows/desktop/aa365203(v=vs.85).aspx
flagLockExclusive = 2
flagLockFailImmediately = 1
// see https://msdn.microsoft.com/en-us/library/windows/desktop/ms681382(v=vs.85).aspx
errLockViolation syscall.Errno = 0x21
)
func lockFileEx(h syscall.Handle, flags, reserved, locklow, lockhigh uint32, ol *syscall.Overlapped) (err error) {
r, _, err := procLockFileEx.Call(uintptr(h), uintptr(flags), uintptr(reserved), uintptr(locklow), uintptr(lockhigh), uintptr(unsafe.Pointer(ol)))
if r == 0 {
return err
}
return nil
}
func unlockFileEx(h syscall.Handle, reserved, locklow, lockhigh uint32, ol *syscall.Overlapped) (err error) {
r, _, err := procUnlockFileEx.Call(uintptr(h), uintptr(reserved), uintptr(locklow), uintptr(lockhigh), uintptr(unsafe.Pointer(ol)), 0)
if r == 0 {
return err
}
return nil
}
// fdatasync flushes written data to a file descriptor.
func fdatasync(db *DB) error {
return db.file.Sync()
}
// flock acquires an advisory lock on a file descriptor.
func flock(db *DB, exclusive bool, timeout time.Duration) error {
var t time.Time
if timeout != 0 {
t = time.Now()
}
var flag uint32 = flagLockFailImmediately
if exclusive {
flag |= flagLockExclusive
}
for {
// Fix for https://github.com/etcd-io/bbolt/issues/121. Use byte-range
// -1..0 as the lock on the database file.
var m1 uint32 = (1 << 32) - 1 // -1 in a uint32
err := lockFileEx(syscall.Handle(db.file.Fd()), flag, 0, 1, 0, &syscall.Overlapped{
Offset: m1,
OffsetHigh: m1,
})
if err == nil {
return nil
} else if err != errLockViolation {
return err
}
// If we timed oumercit then return an error.
if timeout != 0 && time.Since(t) > timeout-flockRetryTimeout {
return ErrTimeout
}
// Wait for a bit and try again.
time.Sleep(flockRetryTimeout)
}
}
// funlock releases an advisory lock on a file descriptor.
func funlock(db *DB) error {
var m1 uint32 = (1 << 32) - 1 // -1 in a uint32
err := unlockFileEx(syscall.Handle(db.file.Fd()), 0, 1, 0, &syscall.Overlapped{
Offset: m1,
OffsetHigh: m1,
})
return err
}
// mmap memory maps a DB's data file.
// Based on: https://github.com/edsrzf/mmap-go
func mmap(db *DB, sz int) error {
if !db.readOnly {
// Truncate the database to the size of the mmap.
if err := db.file.Truncate(int64(sz)); err != nil {
return fmt.Errorf("truncate: %s", err)
}
}
// Open a file mapping handle.
sizelo := uint32(sz >> 32)
sizehi := uint32(sz) & 0xffffffff
h, errno := syscall.CreateFileMapping(syscall.Handle(db.file.Fd()), nil, syscall.PAGE_READONLY, sizelo, sizehi, nil)
if h == 0 {
return os.NewSyscallError("CreateFileMapping", errno)
}
// Create the memory map.
addr, errno := syscall.MapViewOfFile(h, syscall.FILE_MAP_READ, 0, 0, uintptr(sz))
if addr == 0 {
return os.NewSyscallError("MapViewOfFile", errno)
}
// Close mapping handle.
if err := syscall.CloseHandle(syscall.Handle(h)); err != nil {
return os.NewSyscallError("CloseHandle", err)
}
// Convert to a byte array.
db.data = ((*[maxMapSize]byte)(unsafe.Pointer(addr)))
db.datasz = sz
return nil
}
// munmap unmaps a pointer from a file.
// Based on: https://github.com/edsrzf/mmap-go
func munmap(db *DB) error {
if db.data == nil {
return nil
}
addr := (uintptr)(unsafe.Pointer(&db.data[0]))
if err := syscall.UnmapViewOfFile(addr); err != nil {
return os.NewSyscallError("UnmapViewOfFile", err)
}
return nil
}

8
vendor/go.etcd.io/bbolt/boltsync_unix.go generated vendored Normal file
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@ -0,0 +1,8 @@
// +build !windows,!plan9,!linux,!openbsd
package bbolt
// fdatasync flushes written data to a file descriptor.
func fdatasync(db *DB) error {
return db.file.Sync()
}

777
vendor/go.etcd.io/bbolt/bucket.go generated vendored Normal file
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@ -0,0 +1,777 @@
package bbolt
import (
"bytes"
"fmt"
"unsafe"
)
const (
// MaxKeySize is the maximum length of a key, in bytes.
MaxKeySize = 32768
// MaxValueSize is the maximum length of a value, in bytes.
MaxValueSize = (1 << 31) - 2
)
const bucketHeaderSize = int(unsafe.Sizeof(bucket{}))
const (
minFillPercent = 0.1
maxFillPercent = 1.0
)
// DefaultFillPercent is the percentage that split pages are filled.
// This value can be changed by setting Bucket.FillPercent.
const DefaultFillPercent = 0.5
// Bucket represents a collection of key/value pairs inside the database.
type Bucket struct {
*bucket
tx *Tx // the associated transaction
buckets map[string]*Bucket // subbucket cache
page *page // inline page reference
rootNode *node // materialized node for the root page.
nodes map[pgid]*node // node cache
// Sets the threshold for filling nodes when they split. By default,
// the bucket will fill to 50% but it can be useful to increase this
// amount if you know that your write workloads are mostly append-only.
//
// This is non-persisted across transactions so it must be set in every Tx.
FillPercent float64
}
// bucket represents the on-file representation of a bucket.
// This is stored as the "value" of a bucket key. If the bucket is small enough,
// then its root page can be stored inline in the "value", after the bucket
// header. In the case of inline buckets, the "root" will be 0.
type bucket struct {
root pgid // page id of the bucket's root-level page
sequence uint64 // monotonically incrementing, used by NextSequence()
}
// newBucket returns a new bucket associated with a transaction.
func newBucket(tx *Tx) Bucket {
var b = Bucket{tx: tx, FillPercent: DefaultFillPercent}
if tx.writable {
b.buckets = make(map[string]*Bucket)
b.nodes = make(map[pgid]*node)
}
return b
}
// Tx returns the tx of the bucket.
func (b *Bucket) Tx() *Tx {
return b.tx
}
// Root returns the root of the bucket.
func (b *Bucket) Root() pgid {
return b.root
}
// Writable returns whether the bucket is writable.
func (b *Bucket) Writable() bool {
return b.tx.writable
}
// Cursor creates a cursor associated with the bucket.
// The cursor is only valid as long as the transaction is open.
// Do not use a cursor after the transaction is closed.
func (b *Bucket) Cursor() *Cursor {
// Update transaction statistics.
b.tx.stats.CursorCount++
// Allocate and return a cursor.
return &Cursor{
bucket: b,
stack: make([]elemRef, 0),
}
}
// Bucket retrieves a nested bucket by name.
// Returns nil if the bucket does not exist.
// The bucket instance is only valid for the lifetime of the transaction.
func (b *Bucket) Bucket(name []byte) *Bucket {
if b.buckets != nil {
if child := b.buckets[string(name)]; child != nil {
return child
}
}
// Move cursor to key.
c := b.Cursor()
k, v, flags := c.seek(name)
// Return nil if the key doesn't exist or it is not a bucket.
if !bytes.Equal(name, k) || (flags&bucketLeafFlag) == 0 {
return nil
}
// Otherwise create a bucket and cache it.
var child = b.openBucket(v)
if b.buckets != nil {
b.buckets[string(name)] = child
}
return child
}
// Helper method that re-interprets a sub-bucket value
// from a parent into a Bucket
func (b *Bucket) openBucket(value []byte) *Bucket {
var child = newBucket(b.tx)
// Unaligned access requires a copy to be made.
const unalignedMask = unsafe.Alignof(struct {
bucket
page
}{}) - 1
unaligned := uintptr(unsafe.Pointer(&value[0]))&unalignedMask != 0
if unaligned {
value = cloneBytes(value)
}
// If this is a writable transaction then we need to copy the bucket entry.
// Read-only transactions can point directly at the mmap entry.
if b.tx.writable && !unaligned {
child.bucket = &bucket{}
*child.bucket = *(*bucket)(unsafe.Pointer(&value[0]))
} else {
child.bucket = (*bucket)(unsafe.Pointer(&value[0]))
}
// Save a reference to the inline page if the bucket is inline.
if child.root == 0 {
child.page = (*page)(unsafe.Pointer(&value[bucketHeaderSize]))
}
return &child
}
// CreateBucket creates a new bucket at the given key and returns the new bucket.
// Returns an error if the key already exists, if the bucket name is blank, or if the bucket name is too long.
// The bucket instance is only valid for the lifetime of the transaction.
func (b *Bucket) CreateBucket(key []byte) (*Bucket, error) {
if b.tx.db == nil {
return nil, ErrTxClosed
} else if !b.tx.writable {
return nil, ErrTxNotWritable
} else if len(key) == 0 {
return nil, ErrBucketNameRequired
}
// Move cursor to correct position.
c := b.Cursor()
k, _, flags := c.seek(key)
// Return an error if there is an existing key.
if bytes.Equal(key, k) {
if (flags & bucketLeafFlag) != 0 {
return nil, ErrBucketExists
}
return nil, ErrIncompatibleValue
}
// Create empty, inline bucket.
var bucket = Bucket{
bucket: &bucket{},
rootNode: &node{isLeaf: true},
FillPercent: DefaultFillPercent,
}
var value = bucket.write()
// Insert into node.
key = cloneBytes(key)
c.node().put(key, key, value, 0, bucketLeafFlag)
// Since subbuckets are not allowed on inline buckets, we need to
// dereference the inline page, if it exists. This will cause the bucket
// to be treated as a regular, non-inline bucket for the rest of the tx.
b.page = nil
return b.Bucket(key), nil
}
// CreateBucketIfNotExists creates a new bucket if it doesn't already exist and returns a reference to it.
// Returns an error if the bucket name is blank, or if the bucket name is too long.
// The bucket instance is only valid for the lifetime of the transaction.
func (b *Bucket) CreateBucketIfNotExists(key []byte) (*Bucket, error) {
child, err := b.CreateBucket(key)
if err == ErrBucketExists {
return b.Bucket(key), nil
} else if err != nil {
return nil, err
}
return child, nil
}
// DeleteBucket deletes a bucket at the given key.
// Returns an error if the bucket does not exist, or if the key represents a non-bucket value.
func (b *Bucket) DeleteBucket(key []byte) error {
if b.tx.db == nil {
return ErrTxClosed
} else if !b.Writable() {
return ErrTxNotWritable
}
// Move cursor to correct position.
c := b.Cursor()
k, _, flags := c.seek(key)
// Return an error if bucket doesn't exist or is not a bucket.
if !bytes.Equal(key, k) {
return ErrBucketNotFound
} else if (flags & bucketLeafFlag) == 0 {
return ErrIncompatibleValue
}
// Recursively delete all child buckets.
child := b.Bucket(key)
err := child.ForEach(func(k, v []byte) error {
if _, _, childFlags := child.Cursor().seek(k); (childFlags & bucketLeafFlag) != 0 {
if err := child.DeleteBucket(k); err != nil {
return fmt.Errorf("delete bucket: %s", err)
}
}
return nil
})
if err != nil {
return err
}
// Remove cached copy.
delete(b.buckets, string(key))
// Release all bucket pages to freelist.
child.nodes = nil
child.rootNode = nil
child.free()
// Delete the node if we have a matching key.
c.node().del(key)
return nil
}
// Get retrieves the value for a key in the bucket.
// Returns a nil value if the key does not exist or if the key is a nested bucket.
// The returned value is only valid for the life of the transaction.
func (b *Bucket) Get(key []byte) []byte {
k, v, flags := b.Cursor().seek(key)
// Return nil if this is a bucket.
if (flags & bucketLeafFlag) != 0 {
return nil
}
// If our target node isn't the same key as what's passed in then return nil.
if !bytes.Equal(key, k) {
return nil
}
return v
}
// Put sets the value for a key in the bucket.
// If the key exist then its previous value will be overwritten.
// Supplied value must remain valid for the life of the transaction.
// Returns an error if the bucket was created from a read-only transaction, if the key is blank, if the key is too large, or if the value is too large.
func (b *Bucket) Put(key []byte, value []byte) error {
if b.tx.db == nil {
return ErrTxClosed
} else if !b.Writable() {
return ErrTxNotWritable
} else if len(key) == 0 {
return ErrKeyRequired
} else if len(key) > MaxKeySize {
return ErrKeyTooLarge
} else if int64(len(value)) > MaxValueSize {
return ErrValueTooLarge
}
// Move cursor to correct position.
c := b.Cursor()
k, _, flags := c.seek(key)
// Return an error if there is an existing key with a bucket value.
if bytes.Equal(key, k) && (flags&bucketLeafFlag) != 0 {
return ErrIncompatibleValue
}
// Insert into node.
key = cloneBytes(key)
c.node().put(key, key, value, 0, 0)
return nil
}
// Delete removes a key from the bucket.
// If the key does not exist then nothing is done and a nil error is returned.
// Returns an error if the bucket was created from a read-only transaction.
func (b *Bucket) Delete(key []byte) error {
if b.tx.db == nil {
return ErrTxClosed
} else if !b.Writable() {
return ErrTxNotWritable
}
// Move cursor to correct position.
c := b.Cursor()
k, _, flags := c.seek(key)
// Return nil if the key doesn't exist.
if !bytes.Equal(key, k) {
return nil
}
// Return an error if there is already existing bucket value.
if (flags & bucketLeafFlag) != 0 {
return ErrIncompatibleValue
}
// Delete the node if we have a matching key.
c.node().del(key)
return nil
}
// Sequence returns the current integer for the bucket without incrementing it.
func (b *Bucket) Sequence() uint64 { return b.bucket.sequence }
// SetSequence updates the sequence number for the bucket.
func (b *Bucket) SetSequence(v uint64) error {
if b.tx.db == nil {
return ErrTxClosed
} else if !b.Writable() {
return ErrTxNotWritable
}
// Materialize the root node if it hasn't been already so that the
// bucket will be saved during commit.
if b.rootNode == nil {
_ = b.node(b.root, nil)
}
// Increment and return the sequence.
b.bucket.sequence = v
return nil
}
// NextSequence returns an autoincrementing integer for the bucket.
func (b *Bucket) NextSequence() (uint64, error) {
if b.tx.db == nil {
return 0, ErrTxClosed
} else if !b.Writable() {
return 0, ErrTxNotWritable
}
// Materialize the root node if it hasn't been already so that the
// bucket will be saved during commit.
if b.rootNode == nil {
_ = b.node(b.root, nil)
}
// Increment and return the sequence.
b.bucket.sequence++
return b.bucket.sequence, nil
}
// ForEach executes a function for each key/value pair in a bucket.
// If the provided function returns an error then the iteration is stopped and
// the error is returned to the caller. The provided function must not modify
// the bucket; this will result in undefined behavior.
func (b *Bucket) ForEach(fn func(k, v []byte) error) error {
if b.tx.db == nil {
return ErrTxClosed
}
c := b.Cursor()
for k, v := c.First(); k != nil; k, v = c.Next() {
if err := fn(k, v); err != nil {
return err
}
}
return nil
}
// Stat returns stats on a bucket.
func (b *Bucket) Stats() BucketStats {
var s, subStats BucketStats
pageSize := b.tx.db.pageSize
s.BucketN += 1
if b.root == 0 {
s.InlineBucketN += 1
}
b.forEachPage(func(p *page, depth int) {
if (p.flags & leafPageFlag) != 0 {
s.KeyN += int(p.count)
// used totals the used bytes for the page
used := pageHeaderSize
if p.count != 0 {
// If page has any elements, add all element headers.
used += leafPageElementSize * uintptr(p.count-1)
// Add all element key, value sizes.
// The computation takes advantage of the fact that the position
// of the last element's key/value equals to the total of the sizes
// of all previous elements' keys and values.
// It also includes the last element's header.
lastElement := p.leafPageElement(p.count - 1)
used += uintptr(lastElement.pos + lastElement.ksize + lastElement.vsize)
}
if b.root == 0 {
// For inlined bucket just update the inline stats
s.InlineBucketInuse += int(used)
} else {
// For non-inlined bucket update all the leaf stats
s.LeafPageN++
s.LeafInuse += int(used)
s.LeafOverflowN += int(p.overflow)
// Collect stats from sub-buckets.
// Do that by iterating over all element headers
// looking for the ones with the bucketLeafFlag.
for i := uint16(0); i < p.count; i++ {
e := p.leafPageElement(i)
if (e.flags & bucketLeafFlag) != 0 {
// For any bucket element, open the element value
// and recursively call Stats on the contained bucket.
subStats.Add(b.openBucket(e.value()).Stats())
}
}
}
} else if (p.flags & branchPageFlag) != 0 {
s.BranchPageN++
lastElement := p.branchPageElement(p.count - 1)
// used totals the used bytes for the page
// Add header and all element headers.
used := pageHeaderSize + (branchPageElementSize * uintptr(p.count-1))
// Add size of all keys and values.
// Again, use the fact that last element's position equals to
// the total of key, value sizes of all previous elements.
used += uintptr(lastElement.pos + lastElement.ksize)
s.BranchInuse += int(used)
s.BranchOverflowN += int(p.overflow)
}
// Keep track of maximum page depth.
if depth+1 > s.Depth {
s.Depth = (depth + 1)
}
})
// Alloc stats can be computed from page counts and pageSize.
s.BranchAlloc = (s.BranchPageN + s.BranchOverflowN) * pageSize
s.LeafAlloc = (s.LeafPageN + s.LeafOverflowN) * pageSize
// Add the max depth of sub-buckets to get total nested depth.
s.Depth += subStats.Depth
// Add the stats for all sub-buckets
s.Add(subStats)
return s
}
// forEachPage iterates over every page in a bucket, including inline pages.
func (b *Bucket) forEachPage(fn func(*page, int)) {
// If we have an inline page then just use that.
if b.page != nil {
fn(b.page, 0)
return
}
// Otherwise traverse the page hierarchy.
b.tx.forEachPage(b.root, 0, fn)
}
// forEachPageNode iterates over every page (or node) in a bucket.
// This also includes inline pages.
func (b *Bucket) forEachPageNode(fn func(*page, *node, int)) {
// If we have an inline page or root node then just use that.
if b.page != nil {
fn(b.page, nil, 0)
return
}
b._forEachPageNode(b.root, 0, fn)
}
func (b *Bucket) _forEachPageNode(pgid pgid, depth int, fn func(*page, *node, int)) {
var p, n = b.pageNode(pgid)
// Execute function.
fn(p, n, depth)
// Recursively loop over children.
if p != nil {
if (p.flags & branchPageFlag) != 0 {
for i := 0; i < int(p.count); i++ {
elem := p.branchPageElement(uint16(i))
b._forEachPageNode(elem.pgid, depth+1, fn)
}
}
} else {
if !n.isLeaf {
for _, inode := range n.inodes {
b._forEachPageNode(inode.pgid, depth+1, fn)
}
}
}
}
// spill writes all the nodes for this bucket to dirty pages.
func (b *Bucket) spill() error {
// Spill all child buckets first.
for name, child := range b.buckets {
// If the child bucket is small enough and it has no child buckets then
// write it inline into the parent bucket's page. Otherwise spill it
// like a normal bucket and make the parent value a pointer to the page.
var value []byte
if child.inlineable() {
child.free()
value = child.write()
} else {
if err := child.spill(); err != nil {
return err
}
// Update the child bucket header in this bucket.
value = make([]byte, unsafe.Sizeof(bucket{}))
var bucket = (*bucket)(unsafe.Pointer(&value[0]))
*bucket = *child.bucket
}
// Skip writing the bucket if there are no materialized nodes.
if child.rootNode == nil {
continue
}
// Update parent node.
var c = b.Cursor()
k, _, flags := c.seek([]byte(name))
if !bytes.Equal([]byte(name), k) {
panic(fmt.Sprintf("misplaced bucket header: %x -> %x", []byte(name), k))
}
if flags&bucketLeafFlag == 0 {
panic(fmt.Sprintf("unexpected bucket header flag: %x", flags))
}
c.node().put([]byte(name), []byte(name), value, 0, bucketLeafFlag)
}
// Ignore if there's not a materialized root node.
if b.rootNode == nil {
return nil
}
// Spill nodes.
if err := b.rootNode.spill(); err != nil {
return err
}
b.rootNode = b.rootNode.root()
// Update the root node for this bucket.
if b.rootNode.pgid >= b.tx.meta.pgid {
panic(fmt.Sprintf("pgid (%d) above high water mark (%d)", b.rootNode.pgid, b.tx.meta.pgid))
}
b.root = b.rootNode.pgid
return nil
}
// inlineable returns true if a bucket is small enough to be written inline
// and if it contains no subbuckets. Otherwise returns false.
func (b *Bucket) inlineable() bool {
var n = b.rootNode
// Bucket must only contain a single leaf node.
if n == nil || !n.isLeaf {
return false
}
// Bucket is not inlineable if it contains subbuckets or if it goes beyond
// our threshold for inline bucket size.
var size = pageHeaderSize
for _, inode := range n.inodes {
size += leafPageElementSize + uintptr(len(inode.key)) + uintptr(len(inode.value))
if inode.flags&bucketLeafFlag != 0 {
return false
} else if size > b.maxInlineBucketSize() {
return false
}
}
return true
}
// Returns the maximum total size of a bucket to make it a candidate for inlining.
func (b *Bucket) maxInlineBucketSize() uintptr {
return uintptr(b.tx.db.pageSize / 4)
}
// write allocates and writes a bucket to a byte slice.
func (b *Bucket) write() []byte {
// Allocate the appropriate size.
var n = b.rootNode
var value = make([]byte, bucketHeaderSize+n.size())
// Write a bucket header.
var bucket = (*bucket)(unsafe.Pointer(&value[0]))
*bucket = *b.bucket
// Convert byte slice to a fake page and write the root node.
var p = (*page)(unsafe.Pointer(&value[bucketHeaderSize]))
n.write(p)
return value
}
// rebalance attempts to balance all nodes.
func (b *Bucket) rebalance() {
for _, n := range b.nodes {
n.rebalance()
}
for _, child := range b.buckets {
child.rebalance()
}
}
// node creates a node from a page and associates it with a given parent.
func (b *Bucket) node(pgid pgid, parent *node) *node {
_assert(b.nodes != nil, "nodes map expected")
// Retrieve node if it's already been created.
if n := b.nodes[pgid]; n != nil {
return n
}
// Otherwise create a node and cache it.
n := &node{bucket: b, parent: parent}
if parent == nil {
b.rootNode = n
} else {
parent.children = append(parent.children, n)
}
// Use the inline page if this is an inline bucket.
var p = b.page
if p == nil {
p = b.tx.page(pgid)
}
// Read the page into the node and cache it.
n.read(p)
b.nodes[pgid] = n
// Update statistics.
b.tx.stats.NodeCount++
return n
}
// free recursively frees all pages in the bucket.
func (b *Bucket) free() {
if b.root == 0 {
return
}
var tx = b.tx
b.forEachPageNode(func(p *page, n *node, _ int) {
if p != nil {
tx.db.freelist.free(tx.meta.txid, p)
} else {
n.free()
}
})
b.root = 0
}
// dereference removes all references to the old mmap.
func (b *Bucket) dereference() {
if b.rootNode != nil {
b.rootNode.root().dereference()
}
for _, child := range b.buckets {
child.dereference()
}
}
// pageNode returns the in-memory node, if it exists.
// Otherwise returns the underlying page.
func (b *Bucket) pageNode(id pgid) (*page, *node) {
// Inline buckets have a fake page embedded in their value so treat them
// differently. We'll return the rootNode (if available) or the fake page.
if b.root == 0 {
if id != 0 {
panic(fmt.Sprintf("inline bucket non-zero page access(2): %d != 0", id))
}
if b.rootNode != nil {
return nil, b.rootNode
}
return b.page, nil
}
// Check the node cache for non-inline buckets.
if b.nodes != nil {
if n := b.nodes[id]; n != nil {
return nil, n
}
}
// Finally lookup the page from the transaction if no node is materialized.
return b.tx.page(id), nil
}
// BucketStats records statistics about resources used by a bucket.
type BucketStats struct {
// Page count statistics.
BranchPageN int // number of logical branch pages
BranchOverflowN int // number of physical branch overflow pages
LeafPageN int // number of logical leaf pages
LeafOverflowN int // number of physical leaf overflow pages
// Tree statistics.
KeyN int // number of keys/value pairs
Depth int // number of levels in B+tree
// Page size utilization.
BranchAlloc int // bytes allocated for physical branch pages
BranchInuse int // bytes actually used for branch data
LeafAlloc int // bytes allocated for physical leaf pages
LeafInuse int // bytes actually used for leaf data
// Bucket statistics
BucketN int // total number of buckets including the top bucket
InlineBucketN int // total number on inlined buckets
InlineBucketInuse int // bytes used for inlined buckets (also accounted for in LeafInuse)
}
func (s *BucketStats) Add(other BucketStats) {
s.BranchPageN += other.BranchPageN
s.BranchOverflowN += other.BranchOverflowN
s.LeafPageN += other.LeafPageN
s.LeafOverflowN += other.LeafOverflowN
s.KeyN += other.KeyN
if s.Depth < other.Depth {
s.Depth = other.Depth
}
s.BranchAlloc += other.BranchAlloc
s.BranchInuse += other.BranchInuse
s.LeafAlloc += other.LeafAlloc
s.LeafInuse += other.LeafInuse
s.BucketN += other.BucketN
s.InlineBucketN += other.InlineBucketN
s.InlineBucketInuse += other.InlineBucketInuse
}
// cloneBytes returns a copy of a given slice.
func cloneBytes(v []byte) []byte {
var clone = make([]byte, len(v))
copy(clone, v)
return clone
}

396
vendor/go.etcd.io/bbolt/cursor.go generated vendored Normal file
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@ -0,0 +1,396 @@
package bbolt
import (
"bytes"
"fmt"
"sort"
)
// Cursor represents an iterator that can traverse over all key/value pairs in a bucket in sorted order.
// Cursors see nested buckets with value == nil.
// Cursors can be obtained from a transaction and are valid as long as the transaction is open.
//
// Keys and values returned from the cursor are only valid for the life of the transaction.
//
// Changing data while traversing with a cursor may cause it to be invalidated
// and return unexpected keys and/or values. You must reposition your cursor
// after mutating data.
type Cursor struct {
bucket *Bucket
stack []elemRef
}
// Bucket returns the bucket that this cursor was created from.
func (c *Cursor) Bucket() *Bucket {
return c.bucket
}
// First moves the cursor to the first item in the bucket and returns its key and value.
// If the bucket is empty then a nil key and value are returned.
// The returned key and value are only valid for the life of the transaction.
func (c *Cursor) First() (key []byte, value []byte) {
_assert(c.bucket.tx.db != nil, "tx closed")
c.stack = c.stack[:0]
p, n := c.bucket.pageNode(c.bucket.root)
c.stack = append(c.stack, elemRef{page: p, node: n, index: 0})
c.first()
// If we land on an empty page then move to the next value.
// https://github.com/boltdb/bolt/issues/450
if c.stack[len(c.stack)-1].count() == 0 {
c.next()
}
k, v, flags := c.keyValue()
if (flags & uint32(bucketLeafFlag)) != 0 {
return k, nil
}
return k, v
}
// Last moves the cursor to the last item in the bucket and returns its key and value.
// If the bucket is empty then a nil key and value are returned.
// The returned key and value are only valid for the life of the transaction.
func (c *Cursor) Last() (key []byte, value []byte) {
_assert(c.bucket.tx.db != nil, "tx closed")
c.stack = c.stack[:0]
p, n := c.bucket.pageNode(c.bucket.root)
ref := elemRef{page: p, node: n}
ref.index = ref.count() - 1
c.stack = append(c.stack, ref)
c.last()
k, v, flags := c.keyValue()
if (flags & uint32(bucketLeafFlag)) != 0 {
return k, nil
}
return k, v
}
// Next moves the cursor to the next item in the bucket and returns its key and value.
// If the cursor is at the end of the bucket then a nil key and value are returned.
// The returned key and value are only valid for the life of the transaction.
func (c *Cursor) Next() (key []byte, value []byte) {
_assert(c.bucket.tx.db != nil, "tx closed")
k, v, flags := c.next()
if (flags & uint32(bucketLeafFlag)) != 0 {
return k, nil
}
return k, v
}
// Prev moves the cursor to the previous item in the bucket and returns its key and value.
// If the cursor is at the beginning of the bucket then a nil key and value are returned.
// The returned key and value are only valid for the life of the transaction.
func (c *Cursor) Prev() (key []byte, value []byte) {
_assert(c.bucket.tx.db != nil, "tx closed")
// Attempt to move back one element until we're successful.
// Move up the stack as we hit the beginning of each page in our stack.
for i := len(c.stack) - 1; i >= 0; i-- {
elem := &c.stack[i]
if elem.index > 0 {
elem.index--
break
}
c.stack = c.stack[:i]
}
// If we've hit the end then return nil.
if len(c.stack) == 0 {
return nil, nil
}
// Move down the stack to find the last element of the last leaf under this branch.
c.last()
k, v, flags := c.keyValue()
if (flags & uint32(bucketLeafFlag)) != 0 {
return k, nil
}
return k, v
}
// Seek moves the cursor to a given key and returns it.
// If the key does not exist then the next key is used. If no keys
// follow, a nil key is returned.
// The returned key and value are only valid for the life of the transaction.
func (c *Cursor) Seek(seek []byte) (key []byte, value []byte) {
k, v, flags := c.seek(seek)
// If we ended up after the last element of a page then move to the next one.
if ref := &c.stack[len(c.stack)-1]; ref.index >= ref.count() {
k, v, flags = c.next()
}
if k == nil {
return nil, nil
} else if (flags & uint32(bucketLeafFlag)) != 0 {
return k, nil
}
return k, v
}
// Delete removes the current key/value under the cursor from the bucket.
// Delete fails if current key/value is a bucket or if the transaction is not writable.
func (c *Cursor) Delete() error {
if c.bucket.tx.db == nil {
return ErrTxClosed
} else if !c.bucket.Writable() {
return ErrTxNotWritable
}
key, _, flags := c.keyValue()
// Return an error if current value is a bucket.
if (flags & bucketLeafFlag) != 0 {
return ErrIncompatibleValue
}
c.node().del(key)
return nil
}
// seek moves the cursor to a given key and returns it.
// If the key does not exist then the next key is used.
func (c *Cursor) seek(seek []byte) (key []byte, value []byte, flags uint32) {
_assert(c.bucket.tx.db != nil, "tx closed")
// Start from root page/node and traverse to correct page.
c.stack = c.stack[:0]
c.search(seek, c.bucket.root)
// If this is a bucket then return a nil value.
return c.keyValue()
}
// first moves the cursor to the first leaf element under the last page in the stack.
func (c *Cursor) first() {
for {
// Exit when we hit a leaf page.
var ref = &c.stack[len(c.stack)-1]
if ref.isLeaf() {
break
}
// Keep adding pages pointing to the first element to the stack.
var pgid pgid
if ref.node != nil {
pgid = ref.node.inodes[ref.index].pgid
} else {
pgid = ref.page.branchPageElement(uint16(ref.index)).pgid
}
p, n := c.bucket.pageNode(pgid)
c.stack = append(c.stack, elemRef{page: p, node: n, index: 0})
}
}
// last moves the cursor to the last leaf element under the last page in the stack.
func (c *Cursor) last() {
for {
// Exit when we hit a leaf page.
ref := &c.stack[len(c.stack)-1]
if ref.isLeaf() {
break
}
// Keep adding pages pointing to the last element in the stack.
var pgid pgid
if ref.node != nil {
pgid = ref.node.inodes[ref.index].pgid
} else {
pgid = ref.page.branchPageElement(uint16(ref.index)).pgid
}
p, n := c.bucket.pageNode(pgid)
var nextRef = elemRef{page: p, node: n}
nextRef.index = nextRef.count() - 1
c.stack = append(c.stack, nextRef)
}
}
// next moves to the next leaf element and returns the key and value.
// If the cursor is at the last leaf element then it stays there and returns nil.
func (c *Cursor) next() (key []byte, value []byte, flags uint32) {
for {
// Attempt to move over one element until we're successful.
// Move up the stack as we hit the end of each page in our stack.
var i int
for i = len(c.stack) - 1; i >= 0; i-- {
elem := &c.stack[i]
if elem.index < elem.count()-1 {
elem.index++
break
}
}
// If we've hit the root page then stop and return. This will leave the
// cursor on the last element of the last page.
if i == -1 {
return nil, nil, 0
}
// Otherwise start from where we left off in the stack and find the
// first element of the first leaf page.
c.stack = c.stack[:i+1]
c.first()
// If this is an empty page then restart and move back up the stack.
// https://github.com/boltdb/bolt/issues/450
if c.stack[len(c.stack)-1].count() == 0 {
continue
}
return c.keyValue()
}
}
// search recursively performs a binary search against a given page/node until it finds a given key.
func (c *Cursor) search(key []byte, pgid pgid) {
p, n := c.bucket.pageNode(pgid)
if p != nil && (p.flags&(branchPageFlag|leafPageFlag)) == 0 {
panic(fmt.Sprintf("invalid page type: %d: %x", p.id, p.flags))
}
e := elemRef{page: p, node: n}
c.stack = append(c.stack, e)
// If we're on a leaf page/node then find the specific node.
if e.isLeaf() {
c.nsearch(key)
return
}
if n != nil {
c.searchNode(key, n)
return
}
c.searchPage(key, p)
}
func (c *Cursor) searchNode(key []byte, n *node) {
var exact bool
index := sort.Search(len(n.inodes), func(i int) bool {
// TODO(benbjohnson): Optimize this range search. It's a bit hacky right now.
// sort.Search() finds the lowest index where f() != -1 but we need the highest index.
ret := bytes.Compare(n.inodes[i].key, key)
if ret == 0 {
exact = true
}
return ret != -1
})
if !exact && index > 0 {
index--
}
c.stack[len(c.stack)-1].index = index
// Recursively search to the next page.
c.search(key, n.inodes[index].pgid)
}
func (c *Cursor) searchPage(key []byte, p *page) {
// Binary search for the correct range.
inodes := p.branchPageElements()
var exact bool
index := sort.Search(int(p.count), func(i int) bool {
// TODO(benbjohnson): Optimize this range search. It's a bit hacky right now.
// sort.Search() finds the lowest index where f() != -1 but we need the highest index.
ret := bytes.Compare(inodes[i].key(), key)
if ret == 0 {
exact = true
}
return ret != -1
})
if !exact && index > 0 {
index--
}
c.stack[len(c.stack)-1].index = index
// Recursively search to the next page.
c.search(key, inodes[index].pgid)
}
// nsearch searches the leaf node on the top of the stack for a key.
func (c *Cursor) nsearch(key []byte) {
e := &c.stack[len(c.stack)-1]
p, n := e.page, e.node
// If we have a node then search its inodes.
if n != nil {
index := sort.Search(len(n.inodes), func(i int) bool {
return bytes.Compare(n.inodes[i].key, key) != -1
})
e.index = index
return
}
// If we have a page then search its leaf elements.
inodes := p.leafPageElements()
index := sort.Search(int(p.count), func(i int) bool {
return bytes.Compare(inodes[i].key(), key) != -1
})
e.index = index
}
// keyValue returns the key and value of the current leaf element.
func (c *Cursor) keyValue() ([]byte, []byte, uint32) {
ref := &c.stack[len(c.stack)-1]
// If the cursor is pointing to the end of page/node then return nil.
if ref.count() == 0 || ref.index >= ref.count() {
return nil, nil, 0
}
// Retrieve value from node.
if ref.node != nil {
inode := &ref.node.inodes[ref.index]
return inode.key, inode.value, inode.flags
}
// Or retrieve value from page.
elem := ref.page.leafPageElement(uint16(ref.index))
return elem.key(), elem.value(), elem.flags
}
// node returns the node that the cursor is currently positioned on.
func (c *Cursor) node() *node {
_assert(len(c.stack) > 0, "accessing a node with a zero-length cursor stack")
// If the top of the stack is a leaf node then just return it.
if ref := &c.stack[len(c.stack)-1]; ref.node != nil && ref.isLeaf() {
return ref.node
}
// Start from root and traverse down the hierarchy.
var n = c.stack[0].node
if n == nil {
n = c.bucket.node(c.stack[0].page.id, nil)
}
for _, ref := range c.stack[:len(c.stack)-1] {
_assert(!n.isLeaf, "expected branch node")
n = n.childAt(ref.index)
}
_assert(n.isLeaf, "expected leaf node")
return n
}
// elemRef represents a reference to an element on a given page/node.
type elemRef struct {
page *page
node *node
index int
}
// isLeaf returns whether the ref is pointing at a leaf page/node.
func (r *elemRef) isLeaf() bool {
if r.node != nil {
return r.node.isLeaf
}
return (r.page.flags & leafPageFlag) != 0
}
// count returns the number of inodes or page elements.
func (r *elemRef) count() int {
if r.node != nil {
return len(r.node.inodes)
}
return int(r.page.count)
}

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/*
package bbolt implements a low-level key/value store in pure Go. It supports
fully serializable transactions, ACID semantics, and lock-free MVCC with
multiple readers and a single writer. Bolt can be used for projects that
want a simple data store without the need to add large dependencies such as
Postgres or MySQL.
Bolt is a single-level, zero-copy, B+tree data store. This means that Bolt is
optimized for fast read access and does not require recovery in the event of a
system crash. Transactions which have not finished committing will simply be
rolled back in the event of a crash.
The design of Bolt is based on Howard Chu's LMDB database project.
Bolt currently works on Windows, Mac OS X, and Linux.
Basics
There are only a few types in Bolt: DB, Bucket, Tx, and Cursor. The DB is
a collection of buckets and is represented by a single file on disk. A bucket is
a collection of unique keys that are associated with values.
Transactions provide either read-only or read-write access to the database.
Read-only transactions can retrieve key/value pairs and can use Cursors to
iterate over the dataset sequentially. Read-write transactions can create and
delete buckets and can insert and remove keys. Only one read-write transaction
is allowed at a time.
Caveats
The database uses a read-only, memory-mapped data file to ensure that
applications cannot corrupt the database, however, this means that keys and
values returned from Bolt cannot be changed. Writing to a read-only byte slice
will cause Go to panic.
Keys and values retrieved from the database are only valid for the life of
the transaction. When used outside the transaction, these byte slices can
point to different data or can point to invalid memory which will cause a panic.
*/
package bbolt

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package bbolt
import "errors"
// These errors can be returned when opening or calling methods on a DB.
var (
// ErrDatabaseNotOpen is returned when a DB instance is accessed before it
// is opened or after it is closed.
ErrDatabaseNotOpen = errors.New("database not open")
// ErrDatabaseOpen is returned when opening a database that is
// already open.
ErrDatabaseOpen = errors.New("database already open")
// ErrInvalid is returned when both meta pages on a database are invalid.
// This typically occurs when a file is not a bolt database.
ErrInvalid = errors.New("invalid database")
// ErrVersionMismatch is returned when the data file was created with a
// different version of Bolt.
ErrVersionMismatch = errors.New("version mismatch")
// ErrChecksum is returned when either meta page checksum does not match.
ErrChecksum = errors.New("checksum error")
// ErrTimeout is returned when a database cannot obtain an exclusive lock
// on the data file after the timeout passed to Open().
ErrTimeout = errors.New("timeout")
)
// These errors can occur when beginning or committing a Tx.
var (
// ErrTxNotWritable is returned when performing a write operation on a
// read-only transaction.
ErrTxNotWritable = errors.New("tx not writable")
// ErrTxClosed is returned when committing or rolling back a transaction
// that has already been committed or rolled back.
ErrTxClosed = errors.New("tx closed")
// ErrDatabaseReadOnly is returned when a mutating transaction is started on a
// read-only database.
ErrDatabaseReadOnly = errors.New("database is in read-only mode")
)
// These errors can occur when putting or deleting a value or a bucket.
var (
// ErrBucketNotFound is returned when trying to access a bucket that has
// not been created yet.
ErrBucketNotFound = errors.New("bucket not found")
// ErrBucketExists is returned when creating a bucket that already exists.
ErrBucketExists = errors.New("bucket already exists")
// ErrBucketNameRequired is returned when creating a bucket with a blank name.
ErrBucketNameRequired = errors.New("bucket name required")
// ErrKeyRequired is returned when inserting a zero-length key.
ErrKeyRequired = errors.New("key required")
// ErrKeyTooLarge is returned when inserting a key that is larger than MaxKeySize.
ErrKeyTooLarge = errors.New("key too large")
// ErrValueTooLarge is returned when inserting a value that is larger than MaxValueSize.
ErrValueTooLarge = errors.New("value too large")
// ErrIncompatibleValue is returned when trying create or delete a bucket
// on an existing non-bucket key or when trying to create or delete a
// non-bucket key on an existing bucket key.
ErrIncompatibleValue = errors.New("incompatible value")
)

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package bbolt
import (
"fmt"
"sort"
"unsafe"
)
// txPending holds a list of pgids and corresponding allocation txns
// that are pending to be freed.
type txPending struct {
ids []pgid
alloctx []txid // txids allocating the ids
lastReleaseBegin txid // beginning txid of last matching releaseRange
}
// pidSet holds the set of starting pgids which have the same span size
type pidSet map[pgid]struct{}
// freelist represents a list of all pages that are available for allocation.
// It also tracks pages that have been freed but are still in use by open transactions.
type freelist struct {
freelistType FreelistType // freelist type
ids []pgid // all free and available free page ids.
allocs map[pgid]txid // mapping of txid that allocated a pgid.
pending map[txid]*txPending // mapping of soon-to-be free page ids by tx.
cache map[pgid]bool // fast lookup of all free and pending page ids.
freemaps map[uint64]pidSet // key is the size of continuous pages(span), value is a set which contains the starting pgids of same size
forwardMap map[pgid]uint64 // key is start pgid, value is its span size
backwardMap map[pgid]uint64 // key is end pgid, value is its span size
allocate func(txid txid, n int) pgid // the freelist allocate func
free_count func() int // the function which gives you free page number
mergeSpans func(ids pgids) // the mergeSpan func
getFreePageIDs func() []pgid // get free pgids func
readIDs func(pgids []pgid) // readIDs func reads list of pages and init the freelist
}
// newFreelist returns an empty, initialized freelist.
func newFreelist(freelistType FreelistType) *freelist {
f := &freelist{
freelistType: freelistType,
allocs: make(map[pgid]txid),
pending: make(map[txid]*txPending),
cache: make(map[pgid]bool),
freemaps: make(map[uint64]pidSet),
forwardMap: make(map[pgid]uint64),
backwardMap: make(map[pgid]uint64),
}
if freelistType == FreelistMapType {
f.allocate = f.hashmapAllocate
f.free_count = f.hashmapFreeCount
f.mergeSpans = f.hashmapMergeSpans
f.getFreePageIDs = f.hashmapGetFreePageIDs
f.readIDs = f.hashmapReadIDs
} else {
f.allocate = f.arrayAllocate
f.free_count = f.arrayFreeCount
f.mergeSpans = f.arrayMergeSpans
f.getFreePageIDs = f.arrayGetFreePageIDs
f.readIDs = f.arrayReadIDs
}
return f
}
// size returns the size of the page after serialization.
func (f *freelist) size() int {
n := f.count()
if n >= 0xFFFF {
// The first element will be used to store the count. See freelist.write.
n++
}
return int(pageHeaderSize) + (int(unsafe.Sizeof(pgid(0))) * n)
}
// count returns count of pages on the freelist
func (f *freelist) count() int {
return f.free_count() + f.pending_count()
}
// arrayFreeCount returns count of free pages(array version)
func (f *freelist) arrayFreeCount() int {
return len(f.ids)
}
// pending_count returns count of pending pages
func (f *freelist) pending_count() int {
var count int
for _, txp := range f.pending {
count += len(txp.ids)
}
return count
}
// copyall copies a list of all free ids and all pending ids in one sorted list.
// f.count returns the minimum length required for dst.
func (f *freelist) copyall(dst []pgid) {
m := make(pgids, 0, f.pending_count())
for _, txp := range f.pending {
m = append(m, txp.ids...)
}
sort.Sort(m)
mergepgids(dst, f.getFreePageIDs(), m)
}
// arrayAllocate returns the starting page id of a contiguous list of pages of a given size.
// If a contiguous block cannot be found then 0 is returned.
func (f *freelist) arrayAllocate(txid txid, n int) pgid {
if len(f.ids) == 0 {
return 0
}
var initial, previd pgid
for i, id := range f.ids {
if id <= 1 {
panic(fmt.Sprintf("invalid page allocation: %d", id))
}
// Reset initial page if this is not contiguous.
if previd == 0 || id-previd != 1 {
initial = id
}
// If we found a contiguous block then remove it and return it.
if (id-initial)+1 == pgid(n) {
// If we're allocating off the beginning then take the fast path
// and just adjust the existing slice. This will use extra memory
// temporarily but the append() in free() will realloc the slice
// as is necessary.
if (i + 1) == n {
f.ids = f.ids[i+1:]
} else {
copy(f.ids[i-n+1:], f.ids[i+1:])
f.ids = f.ids[:len(f.ids)-n]
}
// Remove from the free cache.
for i := pgid(0); i < pgid(n); i++ {
delete(f.cache, initial+i)
}
f.allocs[initial] = txid
return initial
}
previd = id
}
return 0
}
// free releases a page and its overflow for a given transaction id.
// If the page is already free then a panic will occur.
func (f *freelist) free(txid txid, p *page) {
if p.id <= 1 {
panic(fmt.Sprintf("cannot free page 0 or 1: %d", p.id))
}
// Free page and all its overflow pages.
txp := f.pending[txid]
if txp == nil {
txp = &txPending{}
f.pending[txid] = txp
}
allocTxid, ok := f.allocs[p.id]
if ok {
delete(f.allocs, p.id)
} else if (p.flags & freelistPageFlag) != 0 {
// Freelist is always allocated by prior tx.
allocTxid = txid - 1
}
for id := p.id; id <= p.id+pgid(p.overflow); id++ {
// Verify that page is not already free.
if f.cache[id] {
panic(fmt.Sprintf("page %d already freed", id))
}
// Add to the freelist and cache.
txp.ids = append(txp.ids, id)
txp.alloctx = append(txp.alloctx, allocTxid)
f.cache[id] = true
}
}
// release moves all page ids for a transaction id (or older) to the freelist.
func (f *freelist) release(txid txid) {
m := make(pgids, 0)
for tid, txp := range f.pending {
if tid <= txid {
// Move transaction's pending pages to the available freelist.
// Don't remove from the cache since the page is still free.
m = append(m, txp.ids...)
delete(f.pending, tid)
}
}
f.mergeSpans(m)
}
// releaseRange moves pending pages allocated within an extent [begin,end] to the free list.
func (f *freelist) releaseRange(begin, end txid) {
if begin > end {
return
}
var m pgids
for tid, txp := range f.pending {
if tid < begin || tid > end {
continue
}
// Don't recompute freed pages if ranges haven't updated.
if txp.lastReleaseBegin == begin {
continue
}
for i := 0; i < len(txp.ids); i++ {
if atx := txp.alloctx[i]; atx < begin || atx > end {
continue
}
m = append(m, txp.ids[i])
txp.ids[i] = txp.ids[len(txp.ids)-1]
txp.ids = txp.ids[:len(txp.ids)-1]
txp.alloctx[i] = txp.alloctx[len(txp.alloctx)-1]
txp.alloctx = txp.alloctx[:len(txp.alloctx)-1]
i--
}
txp.lastReleaseBegin = begin
if len(txp.ids) == 0 {
delete(f.pending, tid)
}
}
f.mergeSpans(m)
}
// rollback removes the pages from a given pending tx.
func (f *freelist) rollback(txid txid) {
// Remove page ids from cache.
txp := f.pending[txid]
if txp == nil {
return
}
var m pgids
for i, pgid := range txp.ids {
delete(f.cache, pgid)
tx := txp.alloctx[i]
if tx == 0 {
continue
}
if tx != txid {
// Pending free aborted; restore page back to alloc list.
f.allocs[pgid] = tx
} else {
// Freed page was allocated by this txn; OK to throw away.
m = append(m, pgid)
}
}
// Remove pages from pending list and mark as free if allocated by txid.
delete(f.pending, txid)
f.mergeSpans(m)
}
// freed returns whether a given page is in the free list.
func (f *freelist) freed(pgid pgid) bool {
return f.cache[pgid]
}
// read initializes the freelist from a freelist page.
func (f *freelist) read(p *page) {
if (p.flags & freelistPageFlag) == 0 {
panic(fmt.Sprintf("invalid freelist page: %d, page type is %s", p.id, p.typ()))
}
// If the page.count is at the max uint16 value (64k) then it's considered
// an overflow and the size of the freelist is stored as the first element.
var idx, count = 0, int(p.count)
if count == 0xFFFF {
idx = 1
c := *(*pgid)(unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p)))
count = int(c)
if count < 0 {
panic(fmt.Sprintf("leading element count %d overflows int", c))
}
}
// Copy the list of page ids from the freelist.
if count == 0 {
f.ids = nil
} else {
var ids []pgid
data := unsafeIndex(unsafe.Pointer(p), unsafe.Sizeof(*p), unsafe.Sizeof(ids[0]), idx)
unsafeSlice(unsafe.Pointer(&ids), data, count)
// copy the ids, so we don't modify on the freelist page directly
idsCopy := make([]pgid, count)
copy(idsCopy, ids)
// Make sure they're sorted.
sort.Sort(pgids(idsCopy))
f.readIDs(idsCopy)
}
}
// arrayReadIDs initializes the freelist from a given list of ids.
func (f *freelist) arrayReadIDs(ids []pgid) {
f.ids = ids
f.reindex()
}
func (f *freelist) arrayGetFreePageIDs() []pgid {
return f.ids
}
// write writes the page ids onto a freelist page. All free and pending ids are
// saved to disk since in the event of a program crash, all pending ids will
// become free.
func (f *freelist) write(p *page) error {
// Combine the old free pgids and pgids waiting on an open transaction.
// Update the header flag.
p.flags |= freelistPageFlag
// The page.count can only hold up to 64k elements so if we overflow that
// number then we handle it by putting the size in the first element.
l := f.count()
if l == 0 {
p.count = uint16(l)
} else if l < 0xFFFF {
p.count = uint16(l)
var ids []pgid
data := unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p))
unsafeSlice(unsafe.Pointer(&ids), data, l)
f.copyall(ids)
} else {
p.count = 0xFFFF
var ids []pgid
data := unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p))
unsafeSlice(unsafe.Pointer(&ids), data, l+1)
ids[0] = pgid(l)
f.copyall(ids[1:])
}
return nil
}
// reload reads the freelist from a page and filters out pending items.
func (f *freelist) reload(p *page) {
f.read(p)
// Build a cache of only pending pages.
pcache := make(map[pgid]bool)
for _, txp := range f.pending {
for _, pendingID := range txp.ids {
pcache[pendingID] = true
}
}
// Check each page in the freelist and build a new available freelist
// with any pages not in the pending lists.
var a []pgid
for _, id := range f.getFreePageIDs() {
if !pcache[id] {
a = append(a, id)
}
}
f.readIDs(a)
}
// noSyncReload reads the freelist from pgids and filters out pending items.
func (f *freelist) noSyncReload(pgids []pgid) {
// Build a cache of only pending pages.
pcache := make(map[pgid]bool)
for _, txp := range f.pending {
for _, pendingID := range txp.ids {
pcache[pendingID] = true
}
}
// Check each page in the freelist and build a new available freelist
// with any pages not in the pending lists.
var a []pgid
for _, id := range pgids {
if !pcache[id] {
a = append(a, id)
}
}
f.readIDs(a)
}
// reindex rebuilds the free cache based on available and pending free lists.
func (f *freelist) reindex() {
ids := f.getFreePageIDs()
f.cache = make(map[pgid]bool, len(ids))
for _, id := range ids {
f.cache[id] = true
}
for _, txp := range f.pending {
for _, pendingID := range txp.ids {
f.cache[pendingID] = true
}
}
}
// arrayMergeSpans try to merge list of pages(represented by pgids) with existing spans but using array
func (f *freelist) arrayMergeSpans(ids pgids) {
sort.Sort(ids)
f.ids = pgids(f.ids).merge(ids)
}

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package bbolt
import "sort"
// hashmapFreeCount returns count of free pages(hashmap version)
func (f *freelist) hashmapFreeCount() int {
// use the forwardmap to get the total count
count := 0
for _, size := range f.forwardMap {
count += int(size)
}
return count
}
// hashmapAllocate serves the same purpose as arrayAllocate, but use hashmap as backend
func (f *freelist) hashmapAllocate(txid txid, n int) pgid {
if n == 0 {
return 0
}
// if we have a exact size match just return short path
if bm, ok := f.freemaps[uint64(n)]; ok {
for pid := range bm {
// remove the span
f.delSpan(pid, uint64(n))
f.allocs[pid] = txid
for i := pgid(0); i < pgid(n); i++ {
delete(f.cache, pid+i)
}
return pid
}
}
// lookup the map to find larger span
for size, bm := range f.freemaps {
if size < uint64(n) {
continue
}
for pid := range bm {
// remove the initial
f.delSpan(pid, uint64(size))
f.allocs[pid] = txid
remain := size - uint64(n)
// add remain span
f.addSpan(pid+pgid(n), remain)
for i := pgid(0); i < pgid(n); i++ {
delete(f.cache, pid+pgid(i))
}
return pid
}
}
return 0
}
// hashmapReadIDs reads pgids as input an initial the freelist(hashmap version)
func (f *freelist) hashmapReadIDs(pgids []pgid) {
f.init(pgids)
// Rebuild the page cache.
f.reindex()
}
// hashmapGetFreePageIDs returns the sorted free page ids
func (f *freelist) hashmapGetFreePageIDs() []pgid {
count := f.free_count()
if count == 0 {
return nil
}
m := make([]pgid, 0, count)
for start, size := range f.forwardMap {
for i := 0; i < int(size); i++ {
m = append(m, start+pgid(i))
}
}
sort.Sort(pgids(m))
return m
}
// hashmapMergeSpans try to merge list of pages(represented by pgids) with existing spans
func (f *freelist) hashmapMergeSpans(ids pgids) {
for _, id := range ids {
// try to see if we can merge and update
f.mergeWithExistingSpan(id)
}
}
// mergeWithExistingSpan merges pid to the existing free spans, try to merge it backward and forward
func (f *freelist) mergeWithExistingSpan(pid pgid) {
prev := pid - 1
next := pid + 1
preSize, mergeWithPrev := f.backwardMap[prev]
nextSize, mergeWithNext := f.forwardMap[next]
newStart := pid
newSize := uint64(1)
if mergeWithPrev {
//merge with previous span
start := prev + 1 - pgid(preSize)
f.delSpan(start, preSize)
newStart -= pgid(preSize)
newSize += preSize
}
if mergeWithNext {
// merge with next span
f.delSpan(next, nextSize)
newSize += nextSize
}
f.addSpan(newStart, newSize)
}
func (f *freelist) addSpan(start pgid, size uint64) {
f.backwardMap[start-1+pgid(size)] = size
f.forwardMap[start] = size
if _, ok := f.freemaps[size]; !ok {
f.freemaps[size] = make(map[pgid]struct{})
}
f.freemaps[size][start] = struct{}{}
}
func (f *freelist) delSpan(start pgid, size uint64) {
delete(f.forwardMap, start)
delete(f.backwardMap, start+pgid(size-1))
delete(f.freemaps[size], start)
if len(f.freemaps[size]) == 0 {
delete(f.freemaps, size)
}
}
// initial from pgids using when use hashmap version
// pgids must be sorted
func (f *freelist) init(pgids []pgid) {
if len(pgids) == 0 {
return
}
size := uint64(1)
start := pgids[0]
if !sort.SliceIsSorted([]pgid(pgids), func(i, j int) bool { return pgids[i] < pgids[j] }) {
panic("pgids not sorted")
}
f.freemaps = make(map[uint64]pidSet)
f.forwardMap = make(map[pgid]uint64)
f.backwardMap = make(map[pgid]uint64)
for i := 1; i < len(pgids); i++ {
// continuous page
if pgids[i] == pgids[i-1]+1 {
size++
} else {
f.addSpan(start, size)
size = 1
start = pgids[i]
}
}
// init the tail
if size != 0 && start != 0 {
f.addSpan(start, size)
}
}

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vendor/go.etcd.io/bbolt/node.go generated vendored Normal file
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package bbolt
import (
"bytes"
"fmt"
"sort"
"unsafe"
)
// node represents an in-memory, deserialized page.
type node struct {
bucket *Bucket
isLeaf bool
unbalanced bool
spilled bool
key []byte
pgid pgid
parent *node
children nodes
inodes inodes
}
// root returns the top-level node this node is attached to.
func (n *node) root() *node {
if n.parent == nil {
return n
}
return n.parent.root()
}
// minKeys returns the minimum number of inodes this node should have.
func (n *node) minKeys() int {
if n.isLeaf {
return 1
}
return 2
}
// size returns the size of the node after serialization.
func (n *node) size() int {
sz, elsz := pageHeaderSize, n.pageElementSize()
for i := 0; i < len(n.inodes); i++ {
item := &n.inodes[i]
sz += elsz + uintptr(len(item.key)) + uintptr(len(item.value))
}
return int(sz)
}
// sizeLessThan returns true if the node is less than a given size.
// This is an optimization to avoid calculating a large node when we only need
// to know if it fits inside a certain page size.
func (n *node) sizeLessThan(v uintptr) bool {
sz, elsz := pageHeaderSize, n.pageElementSize()
for i := 0; i < len(n.inodes); i++ {
item := &n.inodes[i]
sz += elsz + uintptr(len(item.key)) + uintptr(len(item.value))
if sz >= v {
return false
}
}
return true
}
// pageElementSize returns the size of each page element based on the type of node.
func (n *node) pageElementSize() uintptr {
if n.isLeaf {
return leafPageElementSize
}
return branchPageElementSize
}
// childAt returns the child node at a given index.
func (n *node) childAt(index int) *node {
if n.isLeaf {
panic(fmt.Sprintf("invalid childAt(%d) on a leaf node", index))
}
return n.bucket.node(n.inodes[index].pgid, n)
}
// childIndex returns the index of a given child node.
func (n *node) childIndex(child *node) int {
index := sort.Search(len(n.inodes), func(i int) bool { return bytes.Compare(n.inodes[i].key, child.key) != -1 })
return index
}
// numChildren returns the number of children.
func (n *node) numChildren() int {
return len(n.inodes)
}
// nextSibling returns the next node with the same parent.
func (n *node) nextSibling() *node {
if n.parent == nil {
return nil
}
index := n.parent.childIndex(n)
if index >= n.parent.numChildren()-1 {
return nil
}
return n.parent.childAt(index + 1)
}
// prevSibling returns the previous node with the same parent.
func (n *node) prevSibling() *node {
if n.parent == nil {
return nil
}
index := n.parent.childIndex(n)
if index == 0 {
return nil
}
return n.parent.childAt(index - 1)
}
// put inserts a key/value.
func (n *node) put(oldKey, newKey, value []byte, pgid pgid, flags uint32) {
if pgid >= n.bucket.tx.meta.pgid {
panic(fmt.Sprintf("pgid (%d) above high water mark (%d)", pgid, n.bucket.tx.meta.pgid))
} else if len(oldKey) <= 0 {
panic("put: zero-length old key")
} else if len(newKey) <= 0 {
panic("put: zero-length new key")
}
// Find insertion index.
index := sort.Search(len(n.inodes), func(i int) bool { return bytes.Compare(n.inodes[i].key, oldKey) != -1 })
// Add capacity and shift nodes if we don't have an exact match and need to insert.
exact := (len(n.inodes) > 0 && index < len(n.inodes) && bytes.Equal(n.inodes[index].key, oldKey))
if !exact {
n.inodes = append(n.inodes, inode{})
copy(n.inodes[index+1:], n.inodes[index:])
}
inode := &n.inodes[index]
inode.flags = flags
inode.key = newKey
inode.value = value
inode.pgid = pgid
_assert(len(inode.key) > 0, "put: zero-length inode key")
}
// del removes a key from the node.
func (n *node) del(key []byte) {
// Find index of key.
index := sort.Search(len(n.inodes), func(i int) bool { return bytes.Compare(n.inodes[i].key, key) != -1 })
// Exit if the key isn't found.
if index >= len(n.inodes) || !bytes.Equal(n.inodes[index].key, key) {
return
}
// Delete inode from the node.
n.inodes = append(n.inodes[:index], n.inodes[index+1:]...)
// Mark the node as needing rebalancing.
n.unbalanced = true
}
// read initializes the node from a page.
func (n *node) read(p *page) {
n.pgid = p.id
n.isLeaf = ((p.flags & leafPageFlag) != 0)
n.inodes = make(inodes, int(p.count))
for i := 0; i < int(p.count); i++ {
inode := &n.inodes[i]
if n.isLeaf {
elem := p.leafPageElement(uint16(i))
inode.flags = elem.flags
inode.key = elem.key()
inode.value = elem.value()
} else {
elem := p.branchPageElement(uint16(i))
inode.pgid = elem.pgid
inode.key = elem.key()
}
_assert(len(inode.key) > 0, "read: zero-length inode key")
}
// Save first key so we can find the node in the parent when we spill.
if len(n.inodes) > 0 {
n.key = n.inodes[0].key
_assert(len(n.key) > 0, "read: zero-length node key")
} else {
n.key = nil
}
}
// write writes the items onto one or more pages.
func (n *node) write(p *page) {
// Initialize page.
if n.isLeaf {
p.flags |= leafPageFlag
} else {
p.flags |= branchPageFlag
}
if len(n.inodes) >= 0xFFFF {
panic(fmt.Sprintf("inode overflow: %d (pgid=%d)", len(n.inodes), p.id))
}
p.count = uint16(len(n.inodes))
// Stop here if there are no items to write.
if p.count == 0 {
return
}
// Loop over each item and write it to the page.
// off tracks the offset into p of the start of the next data.
off := unsafe.Sizeof(*p) + n.pageElementSize()*uintptr(len(n.inodes))
for i, item := range n.inodes {
_assert(len(item.key) > 0, "write: zero-length inode key")
// Create a slice to write into of needed size and advance
// byte pointer for next iteration.
sz := len(item.key) + len(item.value)
b := unsafeByteSlice(unsafe.Pointer(p), off, 0, sz)
off += uintptr(sz)
// Write the page element.
if n.isLeaf {
elem := p.leafPageElement(uint16(i))
elem.pos = uint32(uintptr(unsafe.Pointer(&b[0])) - uintptr(unsafe.Pointer(elem)))
elem.flags = item.flags
elem.ksize = uint32(len(item.key))
elem.vsize = uint32(len(item.value))
} else {
elem := p.branchPageElement(uint16(i))
elem.pos = uint32(uintptr(unsafe.Pointer(&b[0])) - uintptr(unsafe.Pointer(elem)))
elem.ksize = uint32(len(item.key))
elem.pgid = item.pgid
_assert(elem.pgid != p.id, "write: circular dependency occurred")
}
// Write data for the element to the end of the page.
l := copy(b, item.key)
copy(b[l:], item.value)
}
// DEBUG ONLY: n.dump()
}
// split breaks up a node into multiple smaller nodes, if appropriate.
// This should only be called from the spill() function.
func (n *node) split(pageSize uintptr) []*node {
var nodes []*node
node := n
for {
// Split node into two.
a, b := node.splitTwo(pageSize)
nodes = append(nodes, a)
// If we can't split then exit the loop.
if b == nil {
break
}
// Set node to b so it gets split on the next iteration.
node = b
}
return nodes
}
// splitTwo breaks up a node into two smaller nodes, if appropriate.
// This should only be called from the split() function.
func (n *node) splitTwo(pageSize uintptr) (*node, *node) {
// Ignore the split if the page doesn't have at least enough nodes for
// two pages or if the nodes can fit in a single page.
if len(n.inodes) <= (minKeysPerPage*2) || n.sizeLessThan(pageSize) {
return n, nil
}
// Determine the threshold before starting a new node.
var fillPercent = n.bucket.FillPercent
if fillPercent < minFillPercent {
fillPercent = minFillPercent
} else if fillPercent > maxFillPercent {
fillPercent = maxFillPercent
}
threshold := int(float64(pageSize) * fillPercent)
// Determine split position and sizes of the two pages.
splitIndex, _ := n.splitIndex(threshold)
// Split node into two separate nodes.
// If there's no parent then we'll need to create one.
if n.parent == nil {
n.parent = &node{bucket: n.bucket, children: []*node{n}}
}
// Create a new node and add it to the parent.
next := &node{bucket: n.bucket, isLeaf: n.isLeaf, parent: n.parent}
n.parent.children = append(n.parent.children, next)
// Split inodes across two nodes.
next.inodes = n.inodes[splitIndex:]
n.inodes = n.inodes[:splitIndex]
// Update the statistics.
n.bucket.tx.stats.Split++
return n, next
}
// splitIndex finds the position where a page will fill a given threshold.
// It returns the index as well as the size of the first page.
// This is only be called from split().
func (n *node) splitIndex(threshold int) (index, sz uintptr) {
sz = pageHeaderSize
// Loop until we only have the minimum number of keys required for the second page.
for i := 0; i < len(n.inodes)-minKeysPerPage; i++ {
index = uintptr(i)
inode := n.inodes[i]
elsize := n.pageElementSize() + uintptr(len(inode.key)) + uintptr(len(inode.value))
// If we have at least the minimum number of keys and adding another
// node would put us over the threshold then exit and return.
if index >= minKeysPerPage && sz+elsize > uintptr(threshold) {
break
}
// Add the element size to the total size.
sz += elsize
}
return
}
// spill writes the nodes to dirty pages and splits nodes as it goes.
// Returns an error if dirty pages cannot be allocated.
func (n *node) spill() error {
var tx = n.bucket.tx
if n.spilled {
return nil
}
// Spill child nodes first. Child nodes can materialize sibling nodes in
// the case of split-merge so we cannot use a range loop. We have to check
// the children size on every loop iteration.
sort.Sort(n.children)
for i := 0; i < len(n.children); i++ {
if err := n.children[i].spill(); err != nil {
return err
}
}
// We no longer need the child list because it's only used for spill tracking.
n.children = nil
// Split nodes into appropriate sizes. The first node will always be n.
var nodes = n.split(uintptr(tx.db.pageSize))
for _, node := range nodes {
// Add node's page to the freelist if it's not new.
if node.pgid > 0 {
tx.db.freelist.free(tx.meta.txid, tx.page(node.pgid))
node.pgid = 0
}
// Allocate contiguous space for the node.
p, err := tx.allocate((node.size() + tx.db.pageSize - 1) / tx.db.pageSize)
if err != nil {
return err
}
// Write the node.
if p.id >= tx.meta.pgid {
panic(fmt.Sprintf("pgid (%d) above high water mark (%d)", p.id, tx.meta.pgid))
}
node.pgid = p.id
node.write(p)
node.spilled = true
// Insert into parent inodes.
if node.parent != nil {
var key = node.key
if key == nil {
key = node.inodes[0].key
}
node.parent.put(key, node.inodes[0].key, nil, node.pgid, 0)
node.key = node.inodes[0].key
_assert(len(node.key) > 0, "spill: zero-length node key")
}
// Update the statistics.
tx.stats.Spill++
}
// If the root node split and created a new root then we need to spill that
// as well. We'll clear out the children to make sure it doesn't try to respill.
if n.parent != nil && n.parent.pgid == 0 {
n.children = nil
return n.parent.spill()
}
return nil
}
// rebalance attempts to combine the node with sibling nodes if the node fill
// size is below a threshold or if there are not enough keys.
func (n *node) rebalance() {
if !n.unbalanced {
return
}
n.unbalanced = false
// Update statistics.
n.bucket.tx.stats.Rebalance++
// Ignore if node is above threshold (25%) and has enough keys.
var threshold = n.bucket.tx.db.pageSize / 4
if n.size() > threshold && len(n.inodes) > n.minKeys() {
return
}
// Root node has special handling.
if n.parent == nil {
// If root node is a branch and only has one node then collapse it.
if !n.isLeaf && len(n.inodes) == 1 {
// Move root's child up.
child := n.bucket.node(n.inodes[0].pgid, n)
n.isLeaf = child.isLeaf
n.inodes = child.inodes[:]
n.children = child.children
// Reparent all child nodes being moved.
for _, inode := range n.inodes {
if child, ok := n.bucket.nodes[inode.pgid]; ok {
child.parent = n
}
}
// Remove old child.
child.parent = nil
delete(n.bucket.nodes, child.pgid)
child.free()
}
return
}
// If node has no keys then just remove it.
if n.numChildren() == 0 {
n.parent.del(n.key)
n.parent.removeChild(n)
delete(n.bucket.nodes, n.pgid)
n.free()
n.parent.rebalance()
return
}
_assert(n.parent.numChildren() > 1, "parent must have at least 2 children")
// Destination node is right sibling if idx == 0, otherwise left sibling.
var target *node
var useNextSibling = (n.parent.childIndex(n) == 0)
if useNextSibling {
target = n.nextSibling()
} else {
target = n.prevSibling()
}
// If both this node and the target node are too small then merge them.
if useNextSibling {
// Reparent all child nodes being moved.
for _, inode := range target.inodes {
if child, ok := n.bucket.nodes[inode.pgid]; ok {
child.parent.removeChild(child)
child.parent = n
child.parent.children = append(child.parent.children, child)
}
}
// Copy over inodes from target and remove target.
n.inodes = append(n.inodes, target.inodes...)
n.parent.del(target.key)
n.parent.removeChild(target)
delete(n.bucket.nodes, target.pgid)
target.free()
} else {
// Reparent all child nodes being moved.
for _, inode := range n.inodes {
if child, ok := n.bucket.nodes[inode.pgid]; ok {
child.parent.removeChild(child)
child.parent = target
child.parent.children = append(child.parent.children, child)
}
}
// Copy over inodes to target and remove node.
target.inodes = append(target.inodes, n.inodes...)
n.parent.del(n.key)
n.parent.removeChild(n)
delete(n.bucket.nodes, n.pgid)
n.free()
}
// Either this node or the target node was deleted from the parent so rebalance it.
n.parent.rebalance()
}
// removes a node from the list of in-memory children.
// This does not affect the inodes.
func (n *node) removeChild(target *node) {
for i, child := range n.children {
if child == target {
n.children = append(n.children[:i], n.children[i+1:]...)
return
}
}
}
// dereference causes the node to copy all its inode key/value references to heap memory.
// This is required when the mmap is reallocated so inodes are not pointing to stale data.
func (n *node) dereference() {
if n.key != nil {
key := make([]byte, len(n.key))
copy(key, n.key)
n.key = key
_assert(n.pgid == 0 || len(n.key) > 0, "dereference: zero-length node key on existing node")
}
for i := range n.inodes {
inode := &n.inodes[i]
key := make([]byte, len(inode.key))
copy(key, inode.key)
inode.key = key
_assert(len(inode.key) > 0, "dereference: zero-length inode key")
value := make([]byte, len(inode.value))
copy(value, inode.value)
inode.value = value
}
// Recursively dereference children.
for _, child := range n.children {
child.dereference()
}
// Update statistics.
n.bucket.tx.stats.NodeDeref++
}
// free adds the node's underlying page to the freelist.
func (n *node) free() {
if n.pgid != 0 {
n.bucket.tx.db.freelist.free(n.bucket.tx.meta.txid, n.bucket.tx.page(n.pgid))
n.pgid = 0
}
}
// dump writes the contents of the node to STDERR for debugging purposes.
/*
func (n *node) dump() {
// Write node header.
var typ = "branch"
if n.isLeaf {
typ = "leaf"
}
warnf("[NODE %d {type=%s count=%d}]", n.pgid, typ, len(n.inodes))
// Write out abbreviated version of each item.
for _, item := range n.inodes {
if n.isLeaf {
if item.flags&bucketLeafFlag != 0 {
bucket := (*bucket)(unsafe.Pointer(&item.value[0]))
warnf("+L %08x -> (bucket root=%d)", trunc(item.key, 4), bucket.root)
} else {
warnf("+L %08x -> %08x", trunc(item.key, 4), trunc(item.value, 4))
}
} else {
warnf("+B %08x -> pgid=%d", trunc(item.key, 4), item.pgid)
}
}
warn("")
}
*/
type nodes []*node
func (s nodes) Len() int { return len(s) }
func (s nodes) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func (s nodes) Less(i, j int) bool {
return bytes.Compare(s[i].inodes[0].key, s[j].inodes[0].key) == -1
}
// inode represents an internal node inside of a node.
// It can be used to point to elements in a page or point
// to an element which hasn't been added to a page yet.
type inode struct {
flags uint32
pgid pgid
key []byte
value []byte
}
type inodes []inode

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vendor/go.etcd.io/bbolt/page.go generated vendored Normal file
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package bbolt
import (
"fmt"
"os"
"sort"
"unsafe"
)
const pageHeaderSize = unsafe.Sizeof(page{})
const minKeysPerPage = 2
const branchPageElementSize = unsafe.Sizeof(branchPageElement{})
const leafPageElementSize = unsafe.Sizeof(leafPageElement{})
const (
branchPageFlag = 0x01
leafPageFlag = 0x02
metaPageFlag = 0x04
freelistPageFlag = 0x10
)
const (
bucketLeafFlag = 0x01
)
type pgid uint64
type page struct {
id pgid
flags uint16
count uint16
overflow uint32
}
// typ returns a human readable page type string used for debugging.
func (p *page) typ() string {
if (p.flags & branchPageFlag) != 0 {
return "branch"
} else if (p.flags & leafPageFlag) != 0 {
return "leaf"
} else if (p.flags & metaPageFlag) != 0 {
return "meta"
} else if (p.flags & freelistPageFlag) != 0 {
return "freelist"
}
return fmt.Sprintf("unknown<%02x>", p.flags)
}
// meta returns a pointer to the metadata section of the page.
func (p *page) meta() *meta {
return (*meta)(unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p)))
}
// leafPageElement retrieves the leaf node by index
func (p *page) leafPageElement(index uint16) *leafPageElement {
return (*leafPageElement)(unsafeIndex(unsafe.Pointer(p), unsafe.Sizeof(*p),
leafPageElementSize, int(index)))
}
// leafPageElements retrieves a list of leaf nodes.
func (p *page) leafPageElements() []leafPageElement {
if p.count == 0 {
return nil
}
var elems []leafPageElement
data := unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p))
unsafeSlice(unsafe.Pointer(&elems), data, int(p.count))
return elems
}
// branchPageElement retrieves the branch node by index
func (p *page) branchPageElement(index uint16) *branchPageElement {
return (*branchPageElement)(unsafeIndex(unsafe.Pointer(p), unsafe.Sizeof(*p),
unsafe.Sizeof(branchPageElement{}), int(index)))
}
// branchPageElements retrieves a list of branch nodes.
func (p *page) branchPageElements() []branchPageElement {
if p.count == 0 {
return nil
}
var elems []branchPageElement
data := unsafeAdd(unsafe.Pointer(p), unsafe.Sizeof(*p))
unsafeSlice(unsafe.Pointer(&elems), data, int(p.count))
return elems
}
// dump writes n bytes of the page to STDERR as hex output.
func (p *page) hexdump(n int) {
buf := unsafeByteSlice(unsafe.Pointer(p), 0, 0, n)
fmt.Fprintf(os.Stderr, "%x\n", buf)
}
type pages []*page
func (s pages) Len() int { return len(s) }
func (s pages) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func (s pages) Less(i, j int) bool { return s[i].id < s[j].id }
// branchPageElement represents a node on a branch page.
type branchPageElement struct {
pos uint32
ksize uint32
pgid pgid
}
// key returns a byte slice of the node key.
func (n *branchPageElement) key() []byte {
return unsafeByteSlice(unsafe.Pointer(n), 0, int(n.pos), int(n.pos)+int(n.ksize))
}
// leafPageElement represents a node on a leaf page.
type leafPageElement struct {
flags uint32
pos uint32
ksize uint32
vsize uint32
}
// key returns a byte slice of the node key.
func (n *leafPageElement) key() []byte {
i := int(n.pos)
j := i + int(n.ksize)
return unsafeByteSlice(unsafe.Pointer(n), 0, i, j)
}
// value returns a byte slice of the node value.
func (n *leafPageElement) value() []byte {
i := int(n.pos) + int(n.ksize)
j := i + int(n.vsize)
return unsafeByteSlice(unsafe.Pointer(n), 0, i, j)
}
// PageInfo represents human readable information about a page.
type PageInfo struct {
ID int
Type string
Count int
OverflowCount int
}
type pgids []pgid
func (s pgids) Len() int { return len(s) }
func (s pgids) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func (s pgids) Less(i, j int) bool { return s[i] < s[j] }
// merge returns the sorted union of a and b.
func (a pgids) merge(b pgids) pgids {
// Return the opposite slice if one is nil.
if len(a) == 0 {
return b
}
if len(b) == 0 {
return a
}
merged := make(pgids, len(a)+len(b))
mergepgids(merged, a, b)
return merged
}
// mergepgids copies the sorted union of a and b into dst.
// If dst is too small, it panics.
func mergepgids(dst, a, b pgids) {
if len(dst) < len(a)+len(b) {
panic(fmt.Errorf("mergepgids bad len %d < %d + %d", len(dst), len(a), len(b)))
}
// Copy in the opposite slice if one is nil.
if len(a) == 0 {
copy(dst, b)
return
}
if len(b) == 0 {
copy(dst, a)
return
}
// Merged will hold all elements from both lists.
merged := dst[:0]
// Assign lead to the slice with a lower starting value, follow to the higher value.
lead, follow := a, b
if b[0] < a[0] {
lead, follow = b, a
}
// Continue while there are elements in the lead.
for len(lead) > 0 {
// Merge largest prefix of lead that is ahead of follow[0].
n := sort.Search(len(lead), func(i int) bool { return lead[i] > follow[0] })
merged = append(merged, lead[:n]...)
if n >= len(lead) {
break
}
// Swap lead and follow.
lead, follow = follow, lead[n:]
}
// Append what's left in follow.
_ = append(merged, follow...)
}

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vendor/go.etcd.io/bbolt/tx.go generated vendored Normal file
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package bbolt
import (
"fmt"
"io"
"os"
"sort"
"strings"
"time"
"unsafe"
)
// txid represents the internal transaction identifier.
type txid uint64
// Tx represents a read-only or read/write transaction on the database.
// Read-only transactions can be used for retrieving values for keys and creating cursors.
// Read/write transactions can create and remove buckets and create and remove keys.
//
// IMPORTANT: You must commit or rollback transactions when you are done with
// them. Pages can not be reclaimed by the writer until no more transactions
// are using them. A long running read transaction can cause the database to
// quickly grow.
type Tx struct {
writable bool
managed bool
db *DB
meta *meta
root Bucket
pages map[pgid]*page
stats TxStats
commitHandlers []func()
// WriteFlag specifies the flag for write-related methods like WriteTo().
// Tx opens the database file with the specified flag to copy the data.
//
// By default, the flag is unset, which works well for mostly in-memory
// workloads. For databases that are much larger than available RAM,
// set the flag to syscall.O_DIRECT to avoid trashing the page cache.
WriteFlag int
}
// init initializes the transaction.
func (tx *Tx) init(db *DB) {
tx.db = db
tx.pages = nil
// Copy the meta page since it can be changed by the writer.
tx.meta = &meta{}
db.meta().copy(tx.meta)
// Copy over the root bucket.
tx.root = newBucket(tx)
tx.root.bucket = &bucket{}
*tx.root.bucket = tx.meta.root
// Increment the transaction id and add a page cache for writable transactions.
if tx.writable {
tx.pages = make(map[pgid]*page)
tx.meta.txid += txid(1)
}
}
// ID returns the transaction id.
func (tx *Tx) ID() int {
return int(tx.meta.txid)
}
// DB returns a reference to the database that created the transaction.
func (tx *Tx) DB() *DB {
return tx.db
}
// Size returns current database size in bytes as seen by this transaction.
func (tx *Tx) Size() int64 {
return int64(tx.meta.pgid) * int64(tx.db.pageSize)
}
// Writable returns whether the transaction can perform write operations.
func (tx *Tx) Writable() bool {
return tx.writable
}
// Cursor creates a cursor associated with the root bucket.
// All items in the cursor will return a nil value because all root bucket keys point to buckets.
// The cursor is only valid as long as the transaction is open.
// Do not use a cursor after the transaction is closed.
func (tx *Tx) Cursor() *Cursor {
return tx.root.Cursor()
}
// Stats retrieves a copy of the current transaction statistics.
func (tx *Tx) Stats() TxStats {
return tx.stats
}
// Bucket retrieves a bucket by name.
// Returns nil if the bucket does not exist.
// The bucket instance is only valid for the lifetime of the transaction.
func (tx *Tx) Bucket(name []byte) *Bucket {
return tx.root.Bucket(name)
}
// CreateBucket creates a new bucket.
// Returns an error if the bucket already exists, if the bucket name is blank, or if the bucket name is too long.
// The bucket instance is only valid for the lifetime of the transaction.
func (tx *Tx) CreateBucket(name []byte) (*Bucket, error) {
return tx.root.CreateBucket(name)
}
// CreateBucketIfNotExists creates a new bucket if it doesn't already exist.
// Returns an error if the bucket name is blank, or if the bucket name is too long.
// The bucket instance is only valid for the lifetime of the transaction.
func (tx *Tx) CreateBucketIfNotExists(name []byte) (*Bucket, error) {
return tx.root.CreateBucketIfNotExists(name)
}
// DeleteBucket deletes a bucket.
// Returns an error if the bucket cannot be found or if the key represents a non-bucket value.
func (tx *Tx) DeleteBucket(name []byte) error {
return tx.root.DeleteBucket(name)
}
// ForEach executes a function for each bucket in the root.
// If the provided function returns an error then the iteration is stopped and
// the error is returned to the caller.
func (tx *Tx) ForEach(fn func(name []byte, b *Bucket) error) error {
return tx.root.ForEach(func(k, v []byte) error {
return fn(k, tx.root.Bucket(k))
})
}
// OnCommit adds a handler function to be executed after the transaction successfully commits.
func (tx *Tx) OnCommit(fn func()) {
tx.commitHandlers = append(tx.commitHandlers, fn)
}
// Commit writes all changes to disk and updates the meta page.
// Returns an error if a disk write error occurs, or if Commit is
// called on a read-only transaction.
func (tx *Tx) Commit() error {
_assert(!tx.managed, "managed tx commit not allowed")
if tx.db == nil {
return ErrTxClosed
} else if !tx.writable {
return ErrTxNotWritable
}
// TODO(benbjohnson): Use vectorized I/O to write out dirty pages.
// Rebalance nodes which have had deletions.
var startTime = time.Now()
tx.root.rebalance()
if tx.stats.Rebalance > 0 {
tx.stats.RebalanceTime += time.Since(startTime)
}
// spill data onto dirty pages.
startTime = time.Now()
if err := tx.root.spill(); err != nil {
tx.rollback()
return err
}
tx.stats.SpillTime += time.Since(startTime)
// Free the old root bucket.
tx.meta.root.root = tx.root.root
// Free the old freelist because commit writes out a fresh freelist.
if tx.meta.freelist != pgidNoFreelist {
tx.db.freelist.free(tx.meta.txid, tx.db.page(tx.meta.freelist))
}
if !tx.db.NoFreelistSync {
err := tx.commitFreelist()
if err != nil {
return err
}
} else {
tx.meta.freelist = pgidNoFreelist
}
// Write dirty pages to disk.
startTime = time.Now()
if err := tx.write(); err != nil {
tx.rollback()
return err
}
// If strict mode is enabled then perform a consistency check.
// Only the first consistency error is reported in the panic.
if tx.db.StrictMode {
ch := tx.Check()
var errs []string
for {
err, ok := <-ch
if !ok {
break
}
errs = append(errs, err.Error())
}
if len(errs) > 0 {
panic("check fail: " + strings.Join(errs, "\n"))
}
}
// Write meta to disk.
if err := tx.writeMeta(); err != nil {
tx.rollback()
return err
}
tx.stats.WriteTime += time.Since(startTime)
// Finalize the transaction.
tx.close()
// Execute commit handlers now that the locks have been removed.
for _, fn := range tx.commitHandlers {
fn()
}
return nil
}
func (tx *Tx) commitFreelist() error {
// Allocate new pages for the new free list. This will overestimate
// the size of the freelist but not underestimate the size (which would be bad).
opgid := tx.meta.pgid
p, err := tx.allocate((tx.db.freelist.size() / tx.db.pageSize) + 1)
if err != nil {
tx.rollback()
return err
}
if err := tx.db.freelist.write(p); err != nil {
tx.rollback()
return err
}
tx.meta.freelist = p.id
// If the high water mark has moved up then attempt to grow the database.
if tx.meta.pgid > opgid {
if err := tx.db.grow(int(tx.meta.pgid+1) * tx.db.pageSize); err != nil {
tx.rollback()
return err
}
}
return nil
}
// Rollback closes the transaction and ignores all previous updates. Read-only
// transactions must be rolled back and not committed.
func (tx *Tx) Rollback() error {
_assert(!tx.managed, "managed tx rollback not allowed")
if tx.db == nil {
return ErrTxClosed
}
tx.nonPhysicalRollback()
return nil
}
// nonPhysicalRollback is called when user calls Rollback directly, in this case we do not need to reload the free pages from disk.
func (tx *Tx) nonPhysicalRollback() {
if tx.db == nil {
return
}
if tx.writable {
tx.db.freelist.rollback(tx.meta.txid)
}
tx.close()
}
// rollback needs to reload the free pages from disk in case some system error happens like fsync error.
func (tx *Tx) rollback() {
if tx.db == nil {
return
}
if tx.writable {
tx.db.freelist.rollback(tx.meta.txid)
if !tx.db.hasSyncedFreelist() {
// Reconstruct free page list by scanning the DB to get the whole free page list.
// Note: scaning the whole db is heavy if your db size is large in NoSyncFreeList mode.
tx.db.freelist.noSyncReload(tx.db.freepages())
} else {
// Read free page list from freelist page.
tx.db.freelist.reload(tx.db.page(tx.db.meta().freelist))
}
}
tx.close()
}
func (tx *Tx) close() {
if tx.db == nil {
return
}
if tx.writable {
// Grab freelist stats.
var freelistFreeN = tx.db.freelist.free_count()
var freelistPendingN = tx.db.freelist.pending_count()
var freelistAlloc = tx.db.freelist.size()
// Remove transaction ref & writer lock.
tx.db.rwtx = nil
tx.db.rwlock.Unlock()
// Merge statistics.
tx.db.statlock.Lock()
tx.db.stats.FreePageN = freelistFreeN
tx.db.stats.PendingPageN = freelistPendingN
tx.db.stats.FreeAlloc = (freelistFreeN + freelistPendingN) * tx.db.pageSize
tx.db.stats.FreelistInuse = freelistAlloc
tx.db.stats.TxStats.add(&tx.stats)
tx.db.statlock.Unlock()
} else {
tx.db.removeTx(tx)
}
// Clear all references.
tx.db = nil
tx.meta = nil
tx.root = Bucket{tx: tx}
tx.pages = nil
}
// Copy writes the entire database to a writer.
// This function exists for backwards compatibility.
//
// Deprecated; Use WriteTo() instead.
func (tx *Tx) Copy(w io.Writer) error {
_, err := tx.WriteTo(w)
return err
}
// WriteTo writes the entire database to a writer.
// If err == nil then exactly tx.Size() bytes will be written into the writer.
func (tx *Tx) WriteTo(w io.Writer) (n int64, err error) {
// Attempt to open reader with WriteFlag
f, err := tx.db.openFile(tx.db.path, os.O_RDONLY|tx.WriteFlag, 0)
if err != nil {
return 0, err
}
defer func() {
if cerr := f.Close(); err == nil {
err = cerr
}
}()
// Generate a meta page. We use the same page data for both meta pages.
buf := make([]byte, tx.db.pageSize)
page := (*page)(unsafe.Pointer(&buf[0]))
page.flags = metaPageFlag
*page.meta() = *tx.meta
// Write meta 0.
page.id = 0
page.meta().checksum = page.meta().sum64()
nn, err := w.Write(buf)
n += int64(nn)
if err != nil {
return n, fmt.Errorf("meta 0 copy: %s", err)
}
// Write meta 1 with a lower transaction id.
page.id = 1
page.meta().txid -= 1
page.meta().checksum = page.meta().sum64()
nn, err = w.Write(buf)
n += int64(nn)
if err != nil {
return n, fmt.Errorf("meta 1 copy: %s", err)
}
// Move past the meta pages in the file.
if _, err := f.Seek(int64(tx.db.pageSize*2), io.SeekStart); err != nil {
return n, fmt.Errorf("seek: %s", err)
}
// Copy data pages.
wn, err := io.CopyN(w, f, tx.Size()-int64(tx.db.pageSize*2))
n += wn
if err != nil {
return n, err
}
return n, nil
}
// CopyFile copies the entire database to file at the given path.
// A reader transaction is maintained during the copy so it is safe to continue
// using the database while a copy is in progress.
func (tx *Tx) CopyFile(path string, mode os.FileMode) error {
f, err := tx.db.openFile(path, os.O_RDWR|os.O_CREATE|os.O_TRUNC, mode)
if err != nil {
return err
}
err = tx.Copy(f)
if err != nil {
_ = f.Close()
return err
}
return f.Close()
}
// Check performs several consistency checks on the database for this transaction.
// An error is returned if any inconsistency is found.
//
// It can be safely run concurrently on a writable transaction. However, this
// incurs a high cost for large databases and databases with a lot of subbuckets
// because of caching. This overhead can be removed if running on a read-only
// transaction, however, it is not safe to execute other writer transactions at
// the same time.
func (tx *Tx) Check() <-chan error {
ch := make(chan error)
go tx.check(ch)
return ch
}
func (tx *Tx) check(ch chan error) {
// Force loading free list if opened in ReadOnly mode.
tx.db.loadFreelist()
// Check if any pages are double freed.
freed := make(map[pgid]bool)
all := make([]pgid, tx.db.freelist.count())
tx.db.freelist.copyall(all)
for _, id := range all {
if freed[id] {
ch <- fmt.Errorf("page %d: already freed", id)
}
freed[id] = true
}
// Track every reachable page.
reachable := make(map[pgid]*page)
reachable[0] = tx.page(0) // meta0
reachable[1] = tx.page(1) // meta1
if tx.meta.freelist != pgidNoFreelist {
for i := uint32(0); i <= tx.page(tx.meta.freelist).overflow; i++ {
reachable[tx.meta.freelist+pgid(i)] = tx.page(tx.meta.freelist)
}
}
// Recursively check buckets.
tx.checkBucket(&tx.root, reachable, freed, ch)
// Ensure all pages below high water mark are either reachable or freed.
for i := pgid(0); i < tx.meta.pgid; i++ {
_, isReachable := reachable[i]
if !isReachable && !freed[i] {
ch <- fmt.Errorf("page %d: unreachable unfreed", int(i))
}
}
// Close the channel to signal completion.
close(ch)
}
func (tx *Tx) checkBucket(b *Bucket, reachable map[pgid]*page, freed map[pgid]bool, ch chan error) {
// Ignore inline buckets.
if b.root == 0 {
return
}
// Check every page used by this bucket.
b.tx.forEachPage(b.root, 0, func(p *page, _ int) {
if p.id > tx.meta.pgid {
ch <- fmt.Errorf("page %d: out of bounds: %d", int(p.id), int(b.tx.meta.pgid))
}
// Ensure each page is only referenced once.
for i := pgid(0); i <= pgid(p.overflow); i++ {
var id = p.id + i
if _, ok := reachable[id]; ok {
ch <- fmt.Errorf("page %d: multiple references", int(id))
}
reachable[id] = p
}
// We should only encounter un-freed leaf and branch pages.
if freed[p.id] {
ch <- fmt.Errorf("page %d: reachable freed", int(p.id))
} else if (p.flags&branchPageFlag) == 0 && (p.flags&leafPageFlag) == 0 {
ch <- fmt.Errorf("page %d: invalid type: %s", int(p.id), p.typ())
}
})
// Check each bucket within this bucket.
_ = b.ForEach(func(k, v []byte) error {
if child := b.Bucket(k); child != nil {
tx.checkBucket(child, reachable, freed, ch)
}
return nil
})
}
// allocate returns a contiguous block of memory starting at a given page.
func (tx *Tx) allocate(count int) (*page, error) {
p, err := tx.db.allocate(tx.meta.txid, count)
if err != nil {
return nil, err
}
// Save to our page cache.
tx.pages[p.id] = p
// Update statistics.
tx.stats.PageCount += count
tx.stats.PageAlloc += count * tx.db.pageSize
return p, nil
}
// write writes any dirty pages to disk.
func (tx *Tx) write() error {
// Sort pages by id.
pages := make(pages, 0, len(tx.pages))
for _, p := range tx.pages {
pages = append(pages, p)
}
// Clear out page cache early.
tx.pages = make(map[pgid]*page)
sort.Sort(pages)
// Write pages to disk in order.
for _, p := range pages {
rem := (uint64(p.overflow) + 1) * uint64(tx.db.pageSize)
offset := int64(p.id) * int64(tx.db.pageSize)
var written uintptr
// Write out page in "max allocation" sized chunks.
for {
sz := rem
if sz > maxAllocSize-1 {
sz = maxAllocSize - 1
}
buf := unsafeByteSlice(unsafe.Pointer(p), written, 0, int(sz))
if _, err := tx.db.ops.writeAt(buf, offset); err != nil {
return err
}
// Update statistics.
tx.stats.Write++
// Exit inner for loop if we've written all the chunks.
rem -= sz
if rem == 0 {
break
}
// Otherwise move offset forward and move pointer to next chunk.
offset += int64(sz)
written += uintptr(sz)
}
}
// Ignore file sync if flag is set on DB.
if !tx.db.NoSync || IgnoreNoSync {
if err := fdatasync(tx.db); err != nil {
return err
}
}
// Put small pages back to page pool.
for _, p := range pages {
// Ignore page sizes over 1 page.
// These are allocated using make() instead of the page pool.
if int(p.overflow) != 0 {
continue
}
buf := unsafeByteSlice(unsafe.Pointer(p), 0, 0, tx.db.pageSize)
// See https://go.googlesource.com/go/+/f03c9202c43e0abb130669852082117ca50aa9b1
for i := range buf {
buf[i] = 0
}
tx.db.pagePool.Put(buf)
}
return nil
}
// writeMeta writes the meta to the disk.
func (tx *Tx) writeMeta() error {
// Create a temporary buffer for the meta page.
buf := make([]byte, tx.db.pageSize)
p := tx.db.pageInBuffer(buf, 0)
tx.meta.write(p)
// Write the meta page to file.
if _, err := tx.db.ops.writeAt(buf, int64(p.id)*int64(tx.db.pageSize)); err != nil {
return err
}
if !tx.db.NoSync || IgnoreNoSync {
if err := fdatasync(tx.db); err != nil {
return err
}
}
// Update statistics.
tx.stats.Write++
return nil
}
// page returns a reference to the page with a given id.
// If page has been written to then a temporary buffered page is returned.
func (tx *Tx) page(id pgid) *page {
// Check the dirty pages first.
if tx.pages != nil {
if p, ok := tx.pages[id]; ok {
return p
}
}
// Otherwise return directly from the mmap.
return tx.db.page(id)
}
// forEachPage iterates over every page within a given page and executes a function.
func (tx *Tx) forEachPage(pgid pgid, depth int, fn func(*page, int)) {
p := tx.page(pgid)
// Execute function.
fn(p, depth)
// Recursively loop over children.
if (p.flags & branchPageFlag) != 0 {
for i := 0; i < int(p.count); i++ {
elem := p.branchPageElement(uint16(i))
tx.forEachPage(elem.pgid, depth+1, fn)
}
}
}
// Page returns page information for a given page number.
// This is only safe for concurrent use when used by a writable transaction.
func (tx *Tx) Page(id int) (*PageInfo, error) {
if tx.db == nil {
return nil, ErrTxClosed
} else if pgid(id) >= tx.meta.pgid {
return nil, nil
}
// Build the page info.
p := tx.db.page(pgid(id))
info := &PageInfo{
ID: id,
Count: int(p.count),
OverflowCount: int(p.overflow),
}
// Determine the type (or if it's free).
if tx.db.freelist.freed(pgid(id)) {
info.Type = "free"
} else {
info.Type = p.typ()
}
return info, nil
}
// TxStats represents statistics about the actions performed by the transaction.
type TxStats struct {
// Page statistics.
PageCount int // number of page allocations
PageAlloc int // total bytes allocated
// Cursor statistics.
CursorCount int // number of cursors created
// Node statistics
NodeCount int // number of node allocations
NodeDeref int // number of node dereferences
// Rebalance statistics.
Rebalance int // number of node rebalances
RebalanceTime time.Duration // total time spent rebalancing
// Split/Spill statistics.
Split int // number of nodes split
Spill int // number of nodes spilled
SpillTime time.Duration // total time spent spilling
// Write statistics.
Write int // number of writes performed
WriteTime time.Duration // total time spent writing to disk
}
func (s *TxStats) add(other *TxStats) {
s.PageCount += other.PageCount
s.PageAlloc += other.PageAlloc
s.CursorCount += other.CursorCount
s.NodeCount += other.NodeCount
s.NodeDeref += other.NodeDeref
s.Rebalance += other.Rebalance
s.RebalanceTime += other.RebalanceTime
s.Split += other.Split
s.Spill += other.Spill
s.SpillTime += other.SpillTime
s.Write += other.Write
s.WriteTime += other.WriteTime
}
// Sub calculates and returns the difference between two sets of transaction stats.
// This is useful when obtaining stats at two different points and time and
// you need the performance counters that occurred within that time span.
func (s *TxStats) Sub(other *TxStats) TxStats {
var diff TxStats
diff.PageCount = s.PageCount - other.PageCount
diff.PageAlloc = s.PageAlloc - other.PageAlloc
diff.CursorCount = s.CursorCount - other.CursorCount
diff.NodeCount = s.NodeCount - other.NodeCount
diff.NodeDeref = s.NodeDeref - other.NodeDeref
diff.Rebalance = s.Rebalance - other.Rebalance
diff.RebalanceTime = s.RebalanceTime - other.RebalanceTime
diff.Split = s.Split - other.Split
diff.Spill = s.Spill - other.Spill
diff.SpillTime = s.SpillTime - other.SpillTime
diff.Write = s.Write - other.Write
diff.WriteTime = s.WriteTime - other.WriteTime
return diff
}

39
vendor/go.etcd.io/bbolt/unsafe.go generated vendored Normal file
View File

@ -0,0 +1,39 @@
package bbolt
import (
"reflect"
"unsafe"
)
func unsafeAdd(base unsafe.Pointer, offset uintptr) unsafe.Pointer {
return unsafe.Pointer(uintptr(base) + offset)
}
func unsafeIndex(base unsafe.Pointer, offset uintptr, elemsz uintptr, n int) unsafe.Pointer {
return unsafe.Pointer(uintptr(base) + offset + uintptr(n)*elemsz)
}
func unsafeByteSlice(base unsafe.Pointer, offset uintptr, i, j int) []byte {
// See: https://github.com/golang/go/wiki/cgo#turning-c-arrays-into-go-slices
//
// This memory is not allocated from C, but it is unmanaged by Go's
// garbage collector and should behave similarly, and the compiler
// should produce similar code. Note that this conversion allows a
// subslice to begin after the base address, with an optional offset,
// while the URL above does not cover this case and only slices from
// index 0. However, the wiki never says that the address must be to
// the beginning of a C allocation (or even that malloc was used at
// all), so this is believed to be correct.
return (*[maxAllocSize]byte)(unsafeAdd(base, offset))[i:j:j]
}
// unsafeSlice modifies the data, len, and cap of a slice variable pointed to by
// the slice parameter. This helper should be used over other direct
// manipulation of reflect.SliceHeader to prevent misuse, namely, converting
// from reflect.SliceHeader to a Go slice type.
func unsafeSlice(slice, data unsafe.Pointer, len int) {
s := (*reflect.SliceHeader)(slice)
s.Data = uintptr(data)
s.Cap = len
s.Len = len
}

10
vendor/modules.txt vendored
View File

@ -1,5 +1,3 @@
# github.com/Jille/raft-grpc-transport v1.6.1
## explicit; go 1.13
# github.com/armon/go-metrics v0.4.1
## explicit; go 1.12
github.com/armon/go-metrics
@ -47,7 +45,6 @@ github.com/hashicorp/go-metrics
github.com/hashicorp/go-metrics/compat
# github.com/hashicorp/go-msgpack v1.1.5
## explicit; go 1.13
github.com/hashicorp/go-msgpack/codec
# github.com/hashicorp/go-msgpack/v2 v2.1.2
## explicit; go 1.19
github.com/hashicorp/go-msgpack/v2/codec
@ -62,7 +59,9 @@ github.com/hashicorp/golang-lru/simplelru
github.com/hashicorp/raft
# github.com/hashicorp/raft-boltdb v0.0.0-20250113192317-e8660f88bcc9
## explicit; go 1.16
github.com/hashicorp/raft-boltdb
# github.com/hashicorp/raft-boltdb/v2 v2.3.1
## explicit; go 1.20
github.com/hashicorp/raft-boltdb/v2
# github.com/json-iterator/go v1.1.12
## explicit; go 1.12
github.com/json-iterator/go
@ -117,6 +116,9 @@ github.com/prometheus/procfs/internal/util
# github.com/rabbitmq/amqp091-go v1.10.0
## explicit; go 1.20
github.com/rabbitmq/amqp091-go
# go.etcd.io/bbolt v1.3.5
## explicit; go 1.12
go.etcd.io/bbolt
# go.etcd.io/etcd/api/v3 v3.5.18
## explicit; go 1.22
go.etcd.io/etcd/api/v3/authpb