mirror of https://github.com/ethereum/go-ethereum
commit
bd7ebbcd5b
@ -0,0 +1,12 @@ |
||||
Jeffrey Wilcke <jeffrey@ethereum.org> |
||||
Jeffrey Wilcke <jeffrey@ethereum.org> <geffobscura@gmail.com> |
||||
Jeffrey Wilcke <jeffrey@ethereum.org> <obscuren@obscura.com> |
||||
Jeffrey Wilcke <jeffrey@ethereum.org> <obscuren@users.noreply.github.com> |
||||
|
||||
Viktor Trón <viktor.tron@gmail.com> |
||||
|
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Joseph Goulden <joegoulden@gmail.com> |
||||
|
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Nick Savers <nicksavers@gmail.com> |
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|
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Maran Hidskes <maran.hidskes@gmail.com> |
@ -1,25 +1,24 @@ |
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language: go |
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go: |
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- 1.3 |
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- 1.4.1 |
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before_install: |
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- sudo add-apt-repository ppa:ubuntu-sdk-team/ppa -y |
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- sudo add-apt-repository ppa:beineri/opt-qt54 -y |
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- sudo apt-get update -qq |
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- sudo apt-get install -yqq libgmp3-dev qtbase5-private-dev qtdeclarative5-private-dev libqt5opengl5-dev libreadline6-dev |
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- sudo apt-get install -yqq libgmp3-dev libreadline6-dev qt54quickcontrols qt54webengine |
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install: |
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- go get code.google.com/p/go.tools/cmd/goimports |
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- go get github.com/golang/lint/golint |
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# - go get code.google.com/p/go.tools/cmd/vet |
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- go get code.google.com/p/go.tools/cmd/cover |
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# - go get golang.org/x/tools/cmd/vet |
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- if ! go get code.google.com/p/go.tools/cmd/cover; then go get golang.org/x/tools/cmd/cover; fi |
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- go get github.com/mattn/goveralls |
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- ./install_deps.sh |
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before_script: |
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- gofmt -l -w . |
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- goimports -l -w . |
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- golint . |
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# - go vet ./... |
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# - go test -race ./... |
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script: |
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- ./gocoverage.sh && goveralls -coverprofile=profile.cov -service=travis-ci -repotoken $COVERALLS_TOKEN |
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- ./gocoverage.sh |
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after_success: |
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- if [ "$COVERALLS_TOKEN" ]; then goveralls -coverprofile=profile.cov -service=travis-ci -repotoken $COVERALLS_TOKEN; fi |
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env: |
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global: |
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- PKG_CONFIG_PATH=/opt/qt54/lib/pkgconfig |
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- LD_LIBRARY_PATH=/opt/qt54/lib |
||||
- secure: "U2U1AmkU4NJBgKR/uUAebQY87cNL0+1JHjnLOmmXwxYYyj5ralWb1aSuSH3qSXiT93qLBmtaUkuv9fberHVqrbAeVlztVdUsKAq7JMQH+M99iFkC9UiRMqHmtjWJ0ok4COD1sRYixxi21wb/JrMe3M1iL4QJVS61iltjHhVdM64=" |
||||
|
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|
@ -1,41 +1,40 @@ |
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FROM ubuntu:14.04 |
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FROM ubuntu:14.04.1 |
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|
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## Environment setup |
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ENV HOME /root |
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ENV GOPATH /root/go |
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ENV PATH /go/bin:/root/go/bin:/usr/local/go/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games |
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ENV PATH /root/go/bin:/usr/local/go/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games |
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|
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RUN mkdir -p /root/go |
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ENV DEBIAN_FRONTEND noninteractive |
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|
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## Install base dependencies |
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RUN apt-get update && apt-get upgrade -y |
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RUN apt-get install -y git mercurial build-essential software-properties-common pkg-config libgmp3-dev libreadline6-dev libpcre3-dev libpcre++-dev |
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|
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## Build and install Go |
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RUN hg clone -u release https://code.google.com/p/go |
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RUN cd go && hg update go1.4 |
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RUN cd go/src && ./all.bash && go version |
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|
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## Install GUI dependencies |
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RUN add-apt-repository ppa:ubuntu-sdk-team/ppa -y |
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RUN apt-get update -y |
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RUN apt-get install -y qtbase5-private-dev qtdeclarative5-private-dev libqt5opengl5-dev |
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|
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## Fetch and install serpent-go |
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RUN go get -v -d github.com/ethereum/serpent-go |
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WORKDIR $GOPATH/src/github.com/ethereum/serpent-go |
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RUN git checkout master |
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RUN git submodule update --init |
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RUN go install -v |
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|
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# Fetch and install go-ethereum |
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RUN apt-get install -y git mercurial build-essential software-properties-common wget pkg-config libgmp3-dev libreadline6-dev libpcre3-dev libpcre++-dev |
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|
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## Install Qt5.4 (not required for CLI) |
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# RUN add-apt-repository ppa:beineri/opt-qt54-trusty -y |
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# RUN apt-get update -y |
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# RUN apt-get install -y qt54quickcontrols qt54webengine mesa-common-dev libglu1-mesa-dev |
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# ENV PKG_CONFIG_PATH /opt/qt54/lib/pkgconfig |
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|
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# Install Golang |
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RUN wget https://storage.googleapis.com/golang/go1.4.1.linux-amd64.tar.gz |
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RUN tar -C /usr/local -xzf go*.tar.gz && go version |
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|
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# this is a workaround, to make sure that docker's cache is invalidated whenever the git repo changes |
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ADD https://api.github.com/repos/ethereum/go-ethereum/git/refs/heads/develop file_does_not_exist |
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|
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## Fetch and install go-ethereum |
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RUN go get -v github.com/tools/godep |
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RUN go get -v -d github.com/ethereum/go-ethereum/... |
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WORKDIR $GOPATH/src/github.com/ethereum/go-ethereum |
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RUN git checkout poc8 |
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RUN ETH_DEPS=$(go list -f '{{.Imports}} {{.TestImports}} {{.XTestImports}}' github.com/ethereum/go-ethereum/... | sed -e 's/\[//g' | sed -e 's/\]//g' | sed -e 's/C //g'); if [ "$ETH_DEPS" ]; then go get $ETH_DEPS; fi |
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RUN git checkout develop |
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RUN godep restore |
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RUN go install -v ./cmd/ethereum |
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|
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# Run JSON RPC |
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ENTRYPOINT ["ethereum", "-rpc=true", "-rpcport=8080"] |
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EXPOSE 8080 |
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## Run & expose JSON RPC |
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ENTRYPOINT ["ethereum", "-rpc=true", "-rpcport=8545"] |
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EXPOSE 8545 |
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|
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|
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|
@ -0,0 +1,118 @@ |
||||
{ |
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"ImportPath": "github.com/ethereum/go-ethereum", |
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"GoVersion": "go1.4.1", |
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"Packages": [ |
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"./..." |
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], |
||||
"Deps": [ |
||||
{ |
||||
"ImportPath": "bitbucket.org/kardianos/osext", |
||||
"Comment": "null-13", |
||||
"Rev": "5d3ddcf53a508cc2f7404eaebf546ef2cb5cdb6e" |
||||
}, |
||||
{ |
||||
"ImportPath": "code.google.com/p/go-uuid/uuid", |
||||
"Comment": "null-12", |
||||
"Rev": "7dda39b2e7d5e265014674c5af696ba4186679e9" |
||||
}, |
||||
{ |
||||
"ImportPath": "code.google.com/p/snappy-go/snappy", |
||||
"Comment": "null-15", |
||||
"Rev": "12e4b4183793ac4b061921e7980845e750679fd0" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/ethereum/serpent-go", |
||||
"Rev": "5767a0dbd759d313df3f404dadb7f98d7ab51443" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/howeyc/fsnotify", |
||||
"Comment": "v0.9.0-11-g6b1ef89", |
||||
"Rev": "6b1ef893dc11e0447abda6da20a5203481878dda" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/huin/goupnp", |
||||
"Rev": "4191d8a85005844ea202fde52799681971b12dfe" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/jackpal/go-nat-pmp", |
||||
"Rev": "a45aa3d54aef73b504e15eb71bea0e5565b5e6e1" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/obscuren/otto", |
||||
"Rev": "cf13cc4228c5e5ce0fe27a7aea90bc10091c4f19" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/obscuren/qml", |
||||
"Rev": "c288002b52e905973b131089a8a7c761d4a2c36a" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/rakyll/globalconf", |
||||
"Rev": "415abc325023f1a00cd2d9fa512e0e71745791a2" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/rakyll/goini", |
||||
"Rev": "907cca0f578a5316fb864ec6992dc3d9730ec58c" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/ast", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/dbg", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/file", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/parser", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/registry", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/robertkrimen/otto/token", |
||||
"Rev": "dea31a3d392779af358ec41f77a07fcc7e9d04ba" |
||||
}, |
||||
{ |
||||
"ImportPath": "github.com/syndtr/goleveldb/leveldb", |
||||
"Rev": "832fa7ed4d28545eab80f19e1831fc004305cade" |
||||
}, |
||||
{ |
||||
"ImportPath": "golang.org/x/crypto/pbkdf2", |
||||
"Rev": "4ed45ec682102c643324fae5dff8dab085b6c300" |
||||
}, |
||||
{ |
||||
"ImportPath": "golang.org/x/crypto/ripemd160", |
||||
"Rev": "4ed45ec682102c643324fae5dff8dab085b6c300" |
||||
}, |
||||
{ |
||||
"ImportPath": "golang.org/x/crypto/scrypt", |
||||
"Rev": "4ed45ec682102c643324fae5dff8dab085b6c300" |
||||
}, |
||||
{ |
||||
"ImportPath": "golang.org/x/net/websocket", |
||||
"Rev": "59b0df9b1f7abda5aab0495ee54f408daf182ce7" |
||||
}, |
||||
{ |
||||
"ImportPath": "gopkg.in/check.v1", |
||||
"Rev": "64131543e7896d5bcc6bd5a76287eb75ea96c673" |
||||
}, |
||||
{ |
||||
"ImportPath": "gopkg.in/fatih/set.v0", |
||||
"Comment": "v0.1.0-3-g27c4092", |
||||
"Rev": "27c40922c40b43fe04554d8223a402af3ea333f3" |
||||
}, |
||||
{ |
||||
"ImportPath": "gopkg.in/qml.v1/cdata", |
||||
"Rev": "1116cb9cd8dee23f8d444ded354eb53122739f99" |
||||
}, |
||||
{ |
||||
"ImportPath": "gopkg.in/qml.v1/gl/glbase", |
||||
"Rev": "1116cb9cd8dee23f8d444ded354eb53122739f99" |
||||
} |
||||
] |
||||
} |
@ -0,0 +1,5 @@ |
||||
This directory tree is generated automatically by godep. |
||||
|
||||
Please do not edit. |
||||
|
||||
See https://github.com/tools/godep for more information. |
@ -0,0 +1,2 @@ |
||||
/pkg |
||||
/bin |
@ -0,0 +1,20 @@ |
||||
Copyright (c) 2012 Daniel Theophanes |
||||
|
||||
This software is provided 'as-is', without any express or implied |
||||
warranty. In no event will the authors be held liable for any damages |
||||
arising from the use of this software. |
||||
|
||||
Permission is granted to anyone to use this software for any purpose, |
||||
including commercial applications, and to alter it and redistribute it |
||||
freely, subject to the following restrictions: |
||||
|
||||
1. The origin of this software must not be misrepresented; you must not |
||||
claim that you wrote the original software. If you use this software |
||||
in a product, an acknowledgment in the product documentation would be |
||||
appreciated but is not required. |
||||
|
||||
2. Altered source versions must be plainly marked as such, and must not be |
||||
misrepresented as being the original software. |
||||
|
||||
3. This notice may not be removed or altered from any source |
||||
distribution. |
@ -0,0 +1,32 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// Extensions to the standard "os" package.
|
||||
package osext |
||||
|
||||
import "path/filepath" |
||||
|
||||
// Executable returns an absolute path that can be used to
|
||||
// re-invoke the current program.
|
||||
// It may not be valid after the current program exits.
|
||||
func Executable() (string, error) { |
||||
p, err := executable() |
||||
return filepath.Clean(p), err |
||||
} |
||||
|
||||
// Returns same path as Executable, returns just the folder
|
||||
// path. Excludes the executable name.
|
||||
func ExecutableFolder() (string, error) { |
||||
p, err := Executable() |
||||
if err != nil { |
||||
return "", err |
||||
} |
||||
folder, _ := filepath.Split(p) |
||||
return folder, nil |
||||
} |
||||
|
||||
// Depricated. Same as Executable().
|
||||
func GetExePath() (exePath string, err error) { |
||||
return Executable() |
||||
} |
@ -0,0 +1,20 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package osext |
||||
|
||||
import ( |
||||
"syscall" |
||||
"os" |
||||
"strconv" |
||||
) |
||||
|
||||
func executable() (string, error) { |
||||
f, err := os.Open("/proc/" + strconv.Itoa(os.Getpid()) + "/text") |
||||
if err != nil { |
||||
return "", err |
||||
} |
||||
defer f.Close() |
||||
return syscall.Fd2path(int(f.Fd())) |
||||
} |
@ -0,0 +1,25 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// +build linux netbsd openbsd
|
||||
|
||||
package osext |
||||
|
||||
import ( |
||||
"errors" |
||||
"os" |
||||
"runtime" |
||||
) |
||||
|
||||
func executable() (string, error) { |
||||
switch runtime.GOOS { |
||||
case "linux": |
||||
return os.Readlink("/proc/self/exe") |
||||
case "netbsd": |
||||
return os.Readlink("/proc/curproc/exe") |
||||
case "openbsd": |
||||
return os.Readlink("/proc/curproc/file") |
||||
} |
||||
return "", errors.New("ExecPath not implemented for " + runtime.GOOS) |
||||
} |
@ -0,0 +1,79 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// +build darwin freebsd
|
||||
|
||||
package osext |
||||
|
||||
import ( |
||||
"os" |
||||
"path/filepath" |
||||
"runtime" |
||||
"syscall" |
||||
"unsafe" |
||||
) |
||||
|
||||
var initCwd, initCwdErr = os.Getwd() |
||||
|
||||
func executable() (string, error) { |
||||
var mib [4]int32 |
||||
switch runtime.GOOS { |
||||
case "freebsd": |
||||
mib = [4]int32{1 /* CTL_KERN */, 14 /* KERN_PROC */, 12 /* KERN_PROC_PATHNAME */, -1} |
||||
case "darwin": |
||||
mib = [4]int32{1 /* CTL_KERN */, 38 /* KERN_PROCARGS */, int32(os.Getpid()), -1} |
||||
} |
||||
|
||||
n := uintptr(0) |
||||
// Get length.
|
||||
_, _, errNum := syscall.Syscall6(syscall.SYS___SYSCTL, uintptr(unsafe.Pointer(&mib[0])), 4, 0, uintptr(unsafe.Pointer(&n)), 0, 0) |
||||
if errNum != 0 { |
||||
return "", errNum |
||||
} |
||||
if n == 0 { // This shouldn't happen.
|
||||
return "", nil |
||||
} |
||||
buf := make([]byte, n) |
||||
_, _, errNum = syscall.Syscall6(syscall.SYS___SYSCTL, uintptr(unsafe.Pointer(&mib[0])), 4, uintptr(unsafe.Pointer(&buf[0])), uintptr(unsafe.Pointer(&n)), 0, 0) |
||||
if errNum != 0 { |
||||
return "", errNum |
||||
} |
||||
if n == 0 { // This shouldn't happen.
|
||||
return "", nil |
||||
} |
||||
for i, v := range buf { |
||||
if v == 0 { |
||||
buf = buf[:i] |
||||
break |
||||
} |
||||
} |
||||
var err error |
||||
execPath := string(buf) |
||||
// execPath will not be empty due to above checks.
|
||||
// Try to get the absolute path if the execPath is not rooted.
|
||||
if execPath[0] != '/' { |
||||
execPath, err = getAbs(execPath) |
||||
if err != nil { |
||||
return execPath, err |
||||
} |
||||
} |
||||
// For darwin KERN_PROCARGS may return the path to a symlink rather than the
|
||||
// actual executable.
|
||||
if runtime.GOOS == "darwin" { |
||||
if execPath, err = filepath.EvalSymlinks(execPath); err != nil { |
||||
return execPath, err |
||||
} |
||||
} |
||||
return execPath, nil |
||||
} |
||||
|
||||
func getAbs(execPath string) (string, error) { |
||||
if initCwdErr != nil { |
||||
return execPath, initCwdErr |
||||
} |
||||
// The execPath may begin with a "../" or a "./" so clean it first.
|
||||
// Join the two paths, trailing and starting slashes undetermined, so use
|
||||
// the generic Join function.
|
||||
return filepath.Join(initCwd, filepath.Clean(execPath)), nil |
||||
} |
@ -0,0 +1,79 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// +build darwin linux freebsd netbsd windows
|
||||
|
||||
package osext |
||||
|
||||
import ( |
||||
"fmt" |
||||
"os" |
||||
oexec "os/exec" |
||||
"path/filepath" |
||||
"runtime" |
||||
"testing" |
||||
) |
||||
|
||||
const execPath_EnvVar = "OSTEST_OUTPUT_EXECPATH" |
||||
|
||||
func TestExecPath(t *testing.T) { |
||||
ep, err := Executable() |
||||
if err != nil { |
||||
t.Fatalf("ExecPath failed: %v", err) |
||||
} |
||||
// we want fn to be of the form "dir/prog"
|
||||
dir := filepath.Dir(filepath.Dir(ep)) |
||||
fn, err := filepath.Rel(dir, ep) |
||||
if err != nil { |
||||
t.Fatalf("filepath.Rel: %v", err) |
||||
} |
||||
cmd := &oexec.Cmd{} |
||||
// make child start with a relative program path
|
||||
cmd.Dir = dir |
||||
cmd.Path = fn |
||||
// forge argv[0] for child, so that we can verify we could correctly
|
||||
// get real path of the executable without influenced by argv[0].
|
||||
cmd.Args = []string{"-", "-test.run=XXXX"} |
||||
cmd.Env = []string{fmt.Sprintf("%s=1", execPath_EnvVar)} |
||||
out, err := cmd.CombinedOutput() |
||||
if err != nil { |
||||
t.Fatalf("exec(self) failed: %v", err) |
||||
} |
||||
outs := string(out) |
||||
if !filepath.IsAbs(outs) { |
||||
t.Fatalf("Child returned %q, want an absolute path", out) |
||||
} |
||||
if !sameFile(outs, ep) { |
||||
t.Fatalf("Child returned %q, not the same file as %q", out, ep) |
||||
} |
||||
} |
||||
|
||||
func sameFile(fn1, fn2 string) bool { |
||||
fi1, err := os.Stat(fn1) |
||||
if err != nil { |
||||
return false |
||||
} |
||||
fi2, err := os.Stat(fn2) |
||||
if err != nil { |
||||
return false |
||||
} |
||||
return os.SameFile(fi1, fi2) |
||||
} |
||||
|
||||
func init() { |
||||
if e := os.Getenv(execPath_EnvVar); e != "" { |
||||
// first chdir to another path
|
||||
dir := "/" |
||||
if runtime.GOOS == "windows" { |
||||
dir = filepath.VolumeName(".") |
||||
} |
||||
os.Chdir(dir) |
||||
if ep, err := Executable(); err != nil { |
||||
fmt.Fprint(os.Stderr, "ERROR: ", err) |
||||
} else { |
||||
fmt.Fprint(os.Stderr, ep) |
||||
} |
||||
os.Exit(0) |
||||
} |
||||
} |
@ -0,0 +1,34 @@ |
||||
// Copyright 2012 The Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package osext |
||||
|
||||
import ( |
||||
"syscall" |
||||
"unicode/utf16" |
||||
"unsafe" |
||||
) |
||||
|
||||
var ( |
||||
kernel = syscall.MustLoadDLL("kernel32.dll") |
||||
getModuleFileNameProc = kernel.MustFindProc("GetModuleFileNameW") |
||||
) |
||||
|
||||
// GetModuleFileName() with hModule = NULL
|
||||
func executable() (exePath string, err error) { |
||||
return getModuleFileName() |
||||
} |
||||
|
||||
func getModuleFileName() (string, error) { |
||||
var n uint32 |
||||
b := make([]uint16, syscall.MAX_PATH) |
||||
size := uint32(len(b)) |
||||
|
||||
r0, _, e1 := getModuleFileNameProc.Call(0, uintptr(unsafe.Pointer(&b[0])), uintptr(size)) |
||||
n = uint32(r0) |
||||
if n == 0 { |
||||
return "", e1 |
||||
} |
||||
return string(utf16.Decode(b[0:n])), nil |
||||
} |
@ -0,0 +1,27 @@ |
||||
Copyright (c) 2009 Google Inc. All rights reserved. |
||||
|
||||
Redistribution and use in source and binary forms, with or without |
||||
modification, are permitted provided that the following conditions are |
||||
met: |
||||
|
||||
* Redistributions of source code must retain the above copyright |
||||
notice, this list of conditions and the following disclaimer. |
||||
* Redistributions in binary form must reproduce the above |
||||
copyright notice, this list of conditions and the following disclaimer |
||||
in the documentation and/or other materials provided with the |
||||
distribution. |
||||
* Neither the name of Google Inc. nor the names of its |
||||
contributors may be used to endorse or promote products derived from |
||||
this software without specific prior written permission. |
||||
|
||||
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
||||
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
||||
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
||||
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
||||
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
||||
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
||||
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
||||
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
||||
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
||||
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
||||
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
@ -0,0 +1,84 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"encoding/binary" |
||||
"fmt" |
||||
"os" |
||||
) |
||||
|
||||
// A Domain represents a Version 2 domain
|
||||
type Domain byte |
||||
|
||||
// Domain constants for DCE Security (Version 2) UUIDs.
|
||||
const ( |
||||
Person = Domain(0) |
||||
Group = Domain(1) |
||||
Org = Domain(2) |
||||
) |
||||
|
||||
// NewDCESecurity returns a DCE Security (Version 2) UUID.
|
||||
//
|
||||
// The domain should be one of Person, Group or Org.
|
||||
// On a POSIX system the id should be the users UID for the Person
|
||||
// domain and the users GID for the Group. The meaning of id for
|
||||
// the domain Org or on non-POSIX systems is site defined.
|
||||
//
|
||||
// For a given domain/id pair the same token may be returned for up to
|
||||
// 7 minutes and 10 seconds.
|
||||
func NewDCESecurity(domain Domain, id uint32) UUID { |
||||
uuid := NewUUID() |
||||
if uuid != nil { |
||||
uuid[6] = (uuid[6] & 0x0f) | 0x20 // Version 2
|
||||
uuid[9] = byte(domain) |
||||
binary.BigEndian.PutUint32(uuid[0:], id) |
||||
} |
||||
return uuid |
||||
} |
||||
|
||||
// NewDCEPerson returns a DCE Security (Version 2) UUID in the person
|
||||
// domain with the id returned by os.Getuid.
|
||||
//
|
||||
// NewDCEPerson(Person, uint32(os.Getuid()))
|
||||
func NewDCEPerson() UUID { |
||||
return NewDCESecurity(Person, uint32(os.Getuid())) |
||||
} |
||||
|
||||
// NewDCEGroup returns a DCE Security (Version 2) UUID in the group
|
||||
// domain with the id returned by os.Getgid.
|
||||
//
|
||||
// NewDCEGroup(Group, uint32(os.Getgid()))
|
||||
func NewDCEGroup() UUID { |
||||
return NewDCESecurity(Group, uint32(os.Getgid())) |
||||
} |
||||
|
||||
// Domain returns the domain for a Version 2 UUID or false.
|
||||
func (uuid UUID) Domain() (Domain, bool) { |
||||
if v, _ := uuid.Version(); v != 2 { |
||||
return 0, false |
||||
} |
||||
return Domain(uuid[9]), true |
||||
} |
||||
|
||||
// Id returns the id for a Version 2 UUID or false.
|
||||
func (uuid UUID) Id() (uint32, bool) { |
||||
if v, _ := uuid.Version(); v != 2 { |
||||
return 0, false |
||||
} |
||||
return binary.BigEndian.Uint32(uuid[0:4]), true |
||||
} |
||||
|
||||
func (d Domain) String() string { |
||||
switch d { |
||||
case Person: |
||||
return "Person" |
||||
case Group: |
||||
return "Group" |
||||
case Org: |
||||
return "Org" |
||||
} |
||||
return fmt.Sprintf("Domain%d", int(d)) |
||||
} |
@ -0,0 +1,8 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// The uuid package generates and inspects UUIDs.
|
||||
//
|
||||
// UUIDs are based on RFC 4122 and DCE 1.1: Authentication and Security Services.
|
||||
package uuid |
@ -0,0 +1,53 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"crypto/md5" |
||||
"crypto/sha1" |
||||
"hash" |
||||
) |
||||
|
||||
// Well known Name Space IDs and UUIDs
|
||||
var ( |
||||
NameSpace_DNS = Parse("6ba7b810-9dad-11d1-80b4-00c04fd430c8") |
||||
NameSpace_URL = Parse("6ba7b811-9dad-11d1-80b4-00c04fd430c8") |
||||
NameSpace_OID = Parse("6ba7b812-9dad-11d1-80b4-00c04fd430c8") |
||||
NameSpace_X500 = Parse("6ba7b814-9dad-11d1-80b4-00c04fd430c8") |
||||
NIL = Parse("00000000-0000-0000-0000-000000000000") |
||||
) |
||||
|
||||
// NewHash returns a new UUID dervied from the hash of space concatenated with
|
||||
// data generated by h. The hash should be at least 16 byte in length. The
|
||||
// first 16 bytes of the hash are used to form the UUID. The version of the
|
||||
// UUID will be the lower 4 bits of version. NewHash is used to implement
|
||||
// NewMD5 and NewSHA1.
|
||||
func NewHash(h hash.Hash, space UUID, data []byte, version int) UUID { |
||||
h.Reset() |
||||
h.Write(space) |
||||
h.Write([]byte(data)) |
||||
s := h.Sum(nil) |
||||
uuid := make([]byte, 16) |
||||
copy(uuid, s) |
||||
uuid[6] = (uuid[6] & 0x0f) | uint8((version&0xf)<<4) |
||||
uuid[8] = (uuid[8] & 0x3f) | 0x80 // RFC 4122 variant
|
||||
return uuid |
||||
} |
||||
|
||||
// NewMD5 returns a new MD5 (Version 3) UUID based on the
|
||||
// supplied name space and data.
|
||||
//
|
||||
// NewHash(md5.New(), space, data, 3)
|
||||
func NewMD5(space UUID, data []byte) UUID { |
||||
return NewHash(md5.New(), space, data, 3) |
||||
} |
||||
|
||||
// NewSHA1 returns a new SHA1 (Version 5) UUID based on the
|
||||
// supplied name space and data.
|
||||
//
|
||||
// NewHash(sha1.New(), space, data, 5)
|
||||
func NewSHA1(space UUID, data []byte) UUID { |
||||
return NewHash(sha1.New(), space, data, 5) |
||||
} |
@ -0,0 +1,101 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import "net" |
||||
|
||||
var ( |
||||
interfaces []net.Interface // cached list of interfaces
|
||||
ifname string // name of interface being used
|
||||
nodeID []byte // hardware for version 1 UUIDs
|
||||
) |
||||
|
||||
// NodeInterface returns the name of the interface from which the NodeID was
|
||||
// derived. The interface "user" is returned if the NodeID was set by
|
||||
// SetNodeID.
|
||||
func NodeInterface() string { |
||||
return ifname |
||||
} |
||||
|
||||
// SetNodeInterface selects the hardware address to be used for Version 1 UUIDs.
|
||||
// If name is "" then the first usable interface found will be used or a random
|
||||
// Node ID will be generated. If a named interface cannot be found then false
|
||||
// is returned.
|
||||
//
|
||||
// SetNodeInterface never fails when name is "".
|
||||
func SetNodeInterface(name string) bool { |
||||
if interfaces == nil { |
||||
var err error |
||||
interfaces, err = net.Interfaces() |
||||
if err != nil && name != "" { |
||||
return false |
||||
} |
||||
} |
||||
|
||||
for _, ifs := range interfaces { |
||||
if len(ifs.HardwareAddr) >= 6 && (name == "" || name == ifs.Name) { |
||||
if setNodeID(ifs.HardwareAddr) { |
||||
ifname = ifs.Name |
||||
return true |
||||
} |
||||
} |
||||
} |
||||
|
||||
// We found no interfaces with a valid hardware address. If name
|
||||
// does not specify a specific interface generate a random Node ID
|
||||
// (section 4.1.6)
|
||||
if name == "" { |
||||
if nodeID == nil { |
||||
nodeID = make([]byte, 6) |
||||
} |
||||
randomBits(nodeID) |
||||
return true |
||||
} |
||||
return false |
||||
} |
||||
|
||||
// NodeID returns a slice of a copy of the current Node ID, setting the Node ID
|
||||
// if not already set.
|
||||
func NodeID() []byte { |
||||
if nodeID == nil { |
||||
SetNodeInterface("") |
||||
} |
||||
nid := make([]byte, 6) |
||||
copy(nid, nodeID) |
||||
return nid |
||||
} |
||||
|
||||
// SetNodeID sets the Node ID to be used for Version 1 UUIDs. The first 6 bytes
|
||||
// of id are used. If id is less than 6 bytes then false is returned and the
|
||||
// Node ID is not set.
|
||||
func SetNodeID(id []byte) bool { |
||||
if setNodeID(id) { |
||||
ifname = "user" |
||||
return true |
||||
} |
||||
return false |
||||
} |
||||
|
||||
func setNodeID(id []byte) bool { |
||||
if len(id) < 6 { |
||||
return false |
||||
} |
||||
if nodeID == nil { |
||||
nodeID = make([]byte, 6) |
||||
} |
||||
copy(nodeID, id) |
||||
return true |
||||
} |
||||
|
||||
// NodeID returns the 6 byte node id encoded in uuid. It returns nil if uuid is
|
||||
// not valid. The NodeID is only well defined for version 1 and 2 UUIDs.
|
||||
func (uuid UUID) NodeID() []byte { |
||||
if len(uuid) != 16 { |
||||
return nil |
||||
} |
||||
node := make([]byte, 6) |
||||
copy(node, uuid[10:]) |
||||
return node |
||||
} |
@ -0,0 +1,132 @@ |
||||
// Copyright 2014 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"encoding/binary" |
||||
"sync" |
||||
"time" |
||||
) |
||||
|
||||
// A Time represents a time as the number of 100's of nanoseconds since 15 Oct
|
||||
// 1582.
|
||||
type Time int64 |
||||
|
||||
const ( |
||||
lillian = 2299160 // Julian day of 15 Oct 1582
|
||||
unix = 2440587 // Julian day of 1 Jan 1970
|
||||
epoch = unix - lillian // Days between epochs
|
||||
g1582 = epoch * 86400 // seconds between epochs
|
||||
g1582ns100 = g1582 * 10000000 // 100s of a nanoseconds between epochs
|
||||
) |
||||
|
||||
var ( |
||||
mu sync.Mutex |
||||
lasttime uint64 // last time we returned
|
||||
clock_seq uint16 // clock sequence for this run
|
||||
|
||||
timeNow = time.Now // for testing
|
||||
) |
||||
|
||||
// UnixTime converts t the number of seconds and nanoseconds using the Unix
|
||||
// epoch of 1 Jan 1970.
|
||||
func (t Time) UnixTime() (sec, nsec int64) { |
||||
sec = int64(t - g1582ns100) |
||||
nsec = (sec % 10000000) * 100 |
||||
sec /= 10000000 |
||||
return sec, nsec |
||||
} |
||||
|
||||
// GetTime returns the current Time (100s of nanoseconds since 15 Oct 1582) and
|
||||
// adjusts the clock sequence as needed. An error is returned if the current
|
||||
// time cannot be determined.
|
||||
func GetTime() (Time, error) { |
||||
defer mu.Unlock() |
||||
mu.Lock() |
||||
return getTime() |
||||
} |
||||
|
||||
func getTime() (Time, error) { |
||||
t := timeNow() |
||||
|
||||
// If we don't have a clock sequence already, set one.
|
||||
if clock_seq == 0 { |
||||
setClockSequence(-1) |
||||
} |
||||
now := uint64(t.UnixNano()/100) + g1582ns100 |
||||
|
||||
// If time has gone backwards with this clock sequence then we
|
||||
// increment the clock sequence
|
||||
if now <= lasttime { |
||||
clock_seq = ((clock_seq + 1) & 0x3fff) | 0x8000 |
||||
} |
||||
lasttime = now |
||||
return Time(now), nil |
||||
} |
||||
|
||||
// ClockSequence returns the current clock sequence, generating one if not
|
||||
// already set. The clock sequence is only used for Version 1 UUIDs.
|
||||
//
|
||||
// The uuid package does not use global static storage for the clock sequence or
|
||||
// the last time a UUID was generated. Unless SetClockSequence a new random
|
||||
// clock sequence is generated the first time a clock sequence is requested by
|
||||
// ClockSequence, GetTime, or NewUUID. (section 4.2.1.1) sequence is generated
|
||||
// for
|
||||
func ClockSequence() int { |
||||
defer mu.Unlock() |
||||
mu.Lock() |
||||
return clockSequence() |
||||
} |
||||
|
||||
func clockSequence() int { |
||||
if clock_seq == 0 { |
||||
setClockSequence(-1) |
||||
} |
||||
return int(clock_seq & 0x3fff) |
||||
} |
||||
|
||||
// SetClockSeq sets the clock sequence to the lower 14 bits of seq. Setting to
|
||||
// -1 causes a new sequence to be generated.
|
||||
func SetClockSequence(seq int) { |
||||
defer mu.Unlock() |
||||
mu.Lock() |
||||
setClockSequence(seq) |
||||
} |
||||
|
||||
func setClockSequence(seq int) { |
||||
if seq == -1 { |
||||
var b [2]byte |
||||
randomBits(b[:]) // clock sequence
|
||||
seq = int(b[0])<<8 | int(b[1]) |
||||
} |
||||
old_seq := clock_seq |
||||
clock_seq = uint16(seq&0x3fff) | 0x8000 // Set our variant
|
||||
if old_seq != clock_seq { |
||||
lasttime = 0 |
||||
} |
||||
} |
||||
|
||||
// Time returns the time in 100s of nanoseconds since 15 Oct 1582 encoded in
|
||||
// uuid. It returns false if uuid is not valid. The time is only well defined
|
||||
// for version 1 and 2 UUIDs.
|
||||
func (uuid UUID) Time() (Time, bool) { |
||||
if len(uuid) != 16 { |
||||
return 0, false |
||||
} |
||||
time := int64(binary.BigEndian.Uint32(uuid[0:4])) |
||||
time |= int64(binary.BigEndian.Uint16(uuid[4:6])) << 32 |
||||
time |= int64(binary.BigEndian.Uint16(uuid[6:8])&0xfff) << 48 |
||||
return Time(time), true |
||||
} |
||||
|
||||
// ClockSequence returns the clock sequence encoded in uuid. It returns false
|
||||
// if uuid is not valid. The clock sequence is only well defined for version 1
|
||||
// and 2 UUIDs.
|
||||
func (uuid UUID) ClockSequence() (int, bool) { |
||||
if len(uuid) != 16 { |
||||
return 0, false |
||||
} |
||||
return int(binary.BigEndian.Uint16(uuid[8:10])) & 0x3fff, true |
||||
} |
@ -0,0 +1,43 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"io" |
||||
) |
||||
|
||||
// randomBits completely fills slice b with random data.
|
||||
func randomBits(b []byte) { |
||||
if _, err := io.ReadFull(rander, b); err != nil { |
||||
panic(err.Error()) // rand should never fail
|
||||
} |
||||
} |
||||
|
||||
// xvalues returns the value of a byte as a hexadecimal digit or 255.
|
||||
var xvalues = []byte{ |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 255, 255, 255, 255, 255, 255, |
||||
255, 10, 11, 12, 13, 14, 15, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 10, 11, 12, 13, 14, 15, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, |
||||
} |
||||
|
||||
// xtob converts the the first two hex bytes of x into a byte.
|
||||
func xtob(x string) (byte, bool) { |
||||
b1 := xvalues[x[0]] |
||||
b2 := xvalues[x[1]] |
||||
return (b1 << 4) | b2, b1 != 255 && b2 != 255 |
||||
} |
@ -0,0 +1,163 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"bytes" |
||||
"crypto/rand" |
||||
"fmt" |
||||
"io" |
||||
"strings" |
||||
) |
||||
|
||||
// A UUID is a 128 bit (16 byte) Universal Unique IDentifier as defined in RFC
|
||||
// 4122.
|
||||
type UUID []byte |
||||
|
||||
// A Version represents a UUIDs version.
|
||||
type Version byte |
||||
|
||||
// A Variant represents a UUIDs variant.
|
||||
type Variant byte |
||||
|
||||
// Constants returned by Variant.
|
||||
const ( |
||||
Invalid = Variant(iota) // Invalid UUID
|
||||
RFC4122 // The variant specified in RFC4122
|
||||
Reserved // Reserved, NCS backward compatibility.
|
||||
Microsoft // Reserved, Microsoft Corporation backward compatibility.
|
||||
Future // Reserved for future definition.
|
||||
) |
||||
|
||||
var rander = rand.Reader // random function
|
||||
|
||||
// New returns a new random (version 4) UUID as a string. It is a convenience
|
||||
// function for NewRandom().String().
|
||||
func New() string { |
||||
return NewRandom().String() |
||||
} |
||||
|
||||
// Parse decodes s into a UUID or returns nil. Both the UUID form of
|
||||
// xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx and
|
||||
// urn:uuid:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx are decoded.
|
||||
func Parse(s string) UUID { |
||||
if len(s) == 36+9 { |
||||
if strings.ToLower(s[:9]) != "urn:uuid:" { |
||||
return nil |
||||
} |
||||
s = s[9:] |
||||
} else if len(s) != 36 { |
||||
return nil |
||||
} |
||||
if s[8] != '-' || s[13] != '-' || s[18] != '-' || s[23] != '-' { |
||||
return nil |
||||
} |
||||
uuid := make([]byte, 16) |
||||
for i, x := range []int{ |
||||
0, 2, 4, 6, |
||||
9, 11, |
||||
14, 16, |
||||
19, 21, |
||||
24, 26, 28, 30, 32, 34} { |
||||
if v, ok := xtob(s[x:]); !ok { |
||||
return nil |
||||
} else { |
||||
uuid[i] = v |
||||
} |
||||
} |
||||
return uuid |
||||
} |
||||
|
||||
// Equal returns true if uuid1 and uuid2 are equal.
|
||||
func Equal(uuid1, uuid2 UUID) bool { |
||||
return bytes.Equal(uuid1, uuid2) |
||||
} |
||||
|
||||
// String returns the string form of uuid, xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
|
||||
// , or "" if uuid is invalid.
|
||||
func (uuid UUID) String() string { |
||||
if uuid == nil || len(uuid) != 16 { |
||||
return "" |
||||
} |
||||
b := []byte(uuid) |
||||
return fmt.Sprintf("%08x-%04x-%04x-%04x-%012x", |
||||
b[:4], b[4:6], b[6:8], b[8:10], b[10:]) |
||||
} |
||||
|
||||
// URN returns the RFC 2141 URN form of uuid,
|
||||
// urn:uuid:xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx, or "" if uuid is invalid.
|
||||
func (uuid UUID) URN() string { |
||||
if uuid == nil || len(uuid) != 16 { |
||||
return "" |
||||
} |
||||
b := []byte(uuid) |
||||
return fmt.Sprintf("urn:uuid:%08x-%04x-%04x-%04x-%012x", |
||||
b[:4], b[4:6], b[6:8], b[8:10], b[10:]) |
||||
} |
||||
|
||||
// Variant returns the variant encoded in uuid. It returns Invalid if
|
||||
// uuid is invalid.
|
||||
func (uuid UUID) Variant() Variant { |
||||
if len(uuid) != 16 { |
||||
return Invalid |
||||
} |
||||
switch { |
||||
case (uuid[8] & 0xc0) == 0x80: |
||||
return RFC4122 |
||||
case (uuid[8] & 0xe0) == 0xc0: |
||||
return Microsoft |
||||
case (uuid[8] & 0xe0) == 0xe0: |
||||
return Future |
||||
default: |
||||
return Reserved |
||||
} |
||||
panic("unreachable") |
||||
} |
||||
|
||||
// Version returns the verison of uuid. It returns false if uuid is not
|
||||
// valid.
|
||||
func (uuid UUID) Version() (Version, bool) { |
||||
if len(uuid) != 16 { |
||||
return 0, false |
||||
} |
||||
return Version(uuid[6] >> 4), true |
||||
} |
||||
|
||||
func (v Version) String() string { |
||||
if v > 15 { |
||||
return fmt.Sprintf("BAD_VERSION_%d", v) |
||||
} |
||||
return fmt.Sprintf("VERSION_%d", v) |
||||
} |
||||
|
||||
func (v Variant) String() string { |
||||
switch v { |
||||
case RFC4122: |
||||
return "RFC4122" |
||||
case Reserved: |
||||
return "Reserved" |
||||
case Microsoft: |
||||
return "Microsoft" |
||||
case Future: |
||||
return "Future" |
||||
case Invalid: |
||||
return "Invalid" |
||||
} |
||||
return fmt.Sprintf("BadVariant%d", int(v)) |
||||
} |
||||
|
||||
// SetRand sets the random number generator to r, which implents io.Reader.
|
||||
// If r.Read returns an error when the package requests random data then
|
||||
// a panic will be issued.
|
||||
//
|
||||
// Calling SetRand with nil sets the random number generator to the default
|
||||
// generator.
|
||||
func SetRand(r io.Reader) { |
||||
if r == nil { |
||||
rander = rand.Reader |
||||
return |
||||
} |
||||
rander = r |
||||
} |
@ -0,0 +1,390 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"bytes" |
||||
"fmt" |
||||
"os" |
||||
"strings" |
||||
"testing" |
||||
"time" |
||||
) |
||||
|
||||
type test struct { |
||||
in string |
||||
version Version |
||||
variant Variant |
||||
isuuid bool |
||||
} |
||||
|
||||
var tests = []test{ |
||||
{"f47ac10b-58cc-0372-8567-0e02b2c3d479", 0, RFC4122, true}, |
||||
{"f47ac10b-58cc-1372-8567-0e02b2c3d479", 1, RFC4122, true}, |
||||
{"f47ac10b-58cc-2372-8567-0e02b2c3d479", 2, RFC4122, true}, |
||||
{"f47ac10b-58cc-3372-8567-0e02b2c3d479", 3, RFC4122, true}, |
||||
{"f47ac10b-58cc-4372-8567-0e02b2c3d479", 4, RFC4122, true}, |
||||
{"f47ac10b-58cc-5372-8567-0e02b2c3d479", 5, RFC4122, true}, |
||||
{"f47ac10b-58cc-6372-8567-0e02b2c3d479", 6, RFC4122, true}, |
||||
{"f47ac10b-58cc-7372-8567-0e02b2c3d479", 7, RFC4122, true}, |
||||
{"f47ac10b-58cc-8372-8567-0e02b2c3d479", 8, RFC4122, true}, |
||||
{"f47ac10b-58cc-9372-8567-0e02b2c3d479", 9, RFC4122, true}, |
||||
{"f47ac10b-58cc-a372-8567-0e02b2c3d479", 10, RFC4122, true}, |
||||
{"f47ac10b-58cc-b372-8567-0e02b2c3d479", 11, RFC4122, true}, |
||||
{"f47ac10b-58cc-c372-8567-0e02b2c3d479", 12, RFC4122, true}, |
||||
{"f47ac10b-58cc-d372-8567-0e02b2c3d479", 13, RFC4122, true}, |
||||
{"f47ac10b-58cc-e372-8567-0e02b2c3d479", 14, RFC4122, true}, |
||||
{"f47ac10b-58cc-f372-8567-0e02b2c3d479", 15, RFC4122, true}, |
||||
|
||||
{"urn:uuid:f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"URN:UUID:f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-0567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-1567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-2567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-3567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-4567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-5567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-6567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-7567-0e02b2c3d479", 4, Reserved, true}, |
||||
{"f47ac10b-58cc-4372-8567-0e02b2c3d479", 4, RFC4122, true}, |
||||
{"f47ac10b-58cc-4372-9567-0e02b2c3d479", 4, RFC4122, true}, |
||||
{"f47ac10b-58cc-4372-a567-0e02b2c3d479", 4, RFC4122, true}, |
||||
{"f47ac10b-58cc-4372-b567-0e02b2c3d479", 4, RFC4122, true}, |
||||
{"f47ac10b-58cc-4372-c567-0e02b2c3d479", 4, Microsoft, true}, |
||||
{"f47ac10b-58cc-4372-d567-0e02b2c3d479", 4, Microsoft, true}, |
||||
{"f47ac10b-58cc-4372-e567-0e02b2c3d479", 4, Future, true}, |
||||
{"f47ac10b-58cc-4372-f567-0e02b2c3d479", 4, Future, true}, |
||||
|
||||
{"f47ac10b158cc-5372-a567-0e02b2c3d479", 0, Invalid, false}, |
||||
{"f47ac10b-58cc25372-a567-0e02b2c3d479", 0, Invalid, false}, |
||||
{"f47ac10b-58cc-53723a567-0e02b2c3d479", 0, Invalid, false}, |
||||
{"f47ac10b-58cc-5372-a56740e02b2c3d479", 0, Invalid, false}, |
||||
{"f47ac10b-58cc-5372-a567-0e02-2c3d479", 0, Invalid, false}, |
||||
{"g47ac10b-58cc-4372-a567-0e02b2c3d479", 0, Invalid, false}, |
||||
} |
||||
|
||||
var constants = []struct { |
||||
c interface{} |
||||
name string |
||||
}{ |
||||
{Person, "Person"}, |
||||
{Group, "Group"}, |
||||
{Org, "Org"}, |
||||
{Invalid, "Invalid"}, |
||||
{RFC4122, "RFC4122"}, |
||||
{Reserved, "Reserved"}, |
||||
{Microsoft, "Microsoft"}, |
||||
{Future, "Future"}, |
||||
{Domain(17), "Domain17"}, |
||||
{Variant(42), "BadVariant42"}, |
||||
} |
||||
|
||||
func testTest(t *testing.T, in string, tt test) { |
||||
uuid := Parse(in) |
||||
if ok := (uuid != nil); ok != tt.isuuid { |
||||
t.Errorf("Parse(%s) got %v expected %v\b", in, ok, tt.isuuid) |
||||
} |
||||
if uuid == nil { |
||||
return |
||||
} |
||||
|
||||
if v := uuid.Variant(); v != tt.variant { |
||||
t.Errorf("Variant(%s) got %d expected %d\b", in, v, tt.variant) |
||||
} |
||||
if v, _ := uuid.Version(); v != tt.version { |
||||
t.Errorf("Version(%s) got %d expected %d\b", in, v, tt.version) |
||||
} |
||||
} |
||||
|
||||
func TestUUID(t *testing.T) { |
||||
for _, tt := range tests { |
||||
testTest(t, tt.in, tt) |
||||
testTest(t, strings.ToUpper(tt.in), tt) |
||||
} |
||||
} |
||||
|
||||
func TestConstants(t *testing.T) { |
||||
for x, tt := range constants { |
||||
v, ok := tt.c.(fmt.Stringer) |
||||
if !ok { |
||||
t.Errorf("%x: %v: not a stringer", x, v) |
||||
} else if s := v.String(); s != tt.name { |
||||
v, _ := tt.c.(int) |
||||
t.Errorf("%x: Constant %T:%d gives %q, expected %q\n", x, tt.c, v, s, tt.name) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func TestRandomUUID(t *testing.T) { |
||||
m := make(map[string]bool) |
||||
for x := 1; x < 32; x++ { |
||||
uuid := NewRandom() |
||||
s := uuid.String() |
||||
if m[s] { |
||||
t.Errorf("NewRandom returned duplicated UUID %s\n", s) |
||||
} |
||||
m[s] = true |
||||
if v, _ := uuid.Version(); v != 4 { |
||||
t.Errorf("Random UUID of version %s\n", v) |
||||
} |
||||
if uuid.Variant() != RFC4122 { |
||||
t.Errorf("Random UUID is variant %d\n", uuid.Variant()) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func TestNew(t *testing.T) { |
||||
m := make(map[string]bool) |
||||
for x := 1; x < 32; x++ { |
||||
s := New() |
||||
if m[s] { |
||||
t.Errorf("New returned duplicated UUID %s\n", s) |
||||
} |
||||
m[s] = true |
||||
uuid := Parse(s) |
||||
if uuid == nil { |
||||
t.Errorf("New returned %q which does not decode\n", s) |
||||
continue |
||||
} |
||||
if v, _ := uuid.Version(); v != 4 { |
||||
t.Errorf("Random UUID of version %s\n", v) |
||||
} |
||||
if uuid.Variant() != RFC4122 { |
||||
t.Errorf("Random UUID is variant %d\n", uuid.Variant()) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func clockSeq(t *testing.T, uuid UUID) int { |
||||
seq, ok := uuid.ClockSequence() |
||||
if !ok { |
||||
t.Fatalf("%s: invalid clock sequence\n", uuid) |
||||
} |
||||
return seq |
||||
} |
||||
|
||||
func TestClockSeq(t *testing.T) { |
||||
// Fake time.Now for this test to return a monotonically advancing time; restore it at end.
|
||||
defer func(orig func() time.Time) { timeNow = orig }(timeNow) |
||||
monTime := time.Now() |
||||
timeNow = func() time.Time { |
||||
monTime = monTime.Add(1 * time.Second) |
||||
return monTime |
||||
} |
||||
|
||||
SetClockSequence(-1) |
||||
uuid1 := NewUUID() |
||||
uuid2 := NewUUID() |
||||
|
||||
if clockSeq(t, uuid1) != clockSeq(t, uuid2) { |
||||
t.Errorf("clock sequence %d != %d\n", clockSeq(t, uuid1), clockSeq(t, uuid2)) |
||||
} |
||||
|
||||
SetClockSequence(-1) |
||||
uuid2 = NewUUID() |
||||
|
||||
// Just on the very off chance we generated the same sequence
|
||||
// two times we try again.
|
||||
if clockSeq(t, uuid1) == clockSeq(t, uuid2) { |
||||
SetClockSequence(-1) |
||||
uuid2 = NewUUID() |
||||
} |
||||
if clockSeq(t, uuid1) == clockSeq(t, uuid2) { |
||||
t.Errorf("Duplicate clock sequence %d\n", clockSeq(t, uuid1)) |
||||
} |
||||
|
||||
SetClockSequence(0x1234) |
||||
uuid1 = NewUUID() |
||||
if seq := clockSeq(t, uuid1); seq != 0x1234 { |
||||
t.Errorf("%s: expected seq 0x1234 got 0x%04x\n", uuid1, seq) |
||||
} |
||||
} |
||||
|
||||
func TestCoding(t *testing.T) { |
||||
text := "7d444840-9dc0-11d1-b245-5ffdce74fad2" |
||||
urn := "urn:uuid:7d444840-9dc0-11d1-b245-5ffdce74fad2" |
||||
data := UUID{ |
||||
0x7d, 0x44, 0x48, 0x40, |
||||
0x9d, 0xc0, |
||||
0x11, 0xd1, |
||||
0xb2, 0x45, |
||||
0x5f, 0xfd, 0xce, 0x74, 0xfa, 0xd2, |
||||
} |
||||
if v := data.String(); v != text { |
||||
t.Errorf("%x: encoded to %s, expected %s\n", data, v, text) |
||||
} |
||||
if v := data.URN(); v != urn { |
||||
t.Errorf("%x: urn is %s, expected %s\n", data, v, urn) |
||||
} |
||||
|
||||
uuid := Parse(text) |
||||
if !Equal(uuid, data) { |
||||
t.Errorf("%s: decoded to %s, expected %s\n", text, uuid, data) |
||||
} |
||||
} |
||||
|
||||
func TestVersion1(t *testing.T) { |
||||
uuid1 := NewUUID() |
||||
uuid2 := NewUUID() |
||||
|
||||
if Equal(uuid1, uuid2) { |
||||
t.Errorf("%s:duplicate uuid\n", uuid1) |
||||
} |
||||
if v, _ := uuid1.Version(); v != 1 { |
||||
t.Errorf("%s: version %s expected 1\n", uuid1, v) |
||||
} |
||||
if v, _ := uuid2.Version(); v != 1 { |
||||
t.Errorf("%s: version %s expected 1\n", uuid2, v) |
||||
} |
||||
n1 := uuid1.NodeID() |
||||
n2 := uuid2.NodeID() |
||||
if !bytes.Equal(n1, n2) { |
||||
t.Errorf("Different nodes %x != %x\n", n1, n2) |
||||
} |
||||
t1, ok := uuid1.Time() |
||||
if !ok { |
||||
t.Errorf("%s: invalid time\n", uuid1) |
||||
} |
||||
t2, ok := uuid2.Time() |
||||
if !ok { |
||||
t.Errorf("%s: invalid time\n", uuid2) |
||||
} |
||||
q1, ok := uuid1.ClockSequence() |
||||
if !ok { |
||||
t.Errorf("%s: invalid clock sequence\n", uuid1) |
||||
} |
||||
q2, ok := uuid2.ClockSequence() |
||||
if !ok { |
||||
t.Errorf("%s: invalid clock sequence", uuid2) |
||||
} |
||||
|
||||
switch { |
||||
case t1 == t2 && q1 == q2: |
||||
t.Errorf("time stopped\n") |
||||
case t1 > t2 && q1 == q2: |
||||
t.Errorf("time reversed\n") |
||||
case t1 < t2 && q1 != q2: |
||||
t.Errorf("clock sequence chaned unexpectedly\n") |
||||
} |
||||
} |
||||
|
||||
func TestNodeAndTime(t *testing.T) { |
||||
// Time is February 5, 1998 12:30:23.136364800 AM GMT
|
||||
|
||||
uuid := Parse("7d444840-9dc0-11d1-b245-5ffdce74fad2") |
||||
node := []byte{0x5f, 0xfd, 0xce, 0x74, 0xfa, 0xd2} |
||||
|
||||
ts, ok := uuid.Time() |
||||
if ok { |
||||
c := time.Unix(ts.UnixTime()) |
||||
want := time.Date(1998, 2, 5, 0, 30, 23, 136364800, time.UTC) |
||||
if !c.Equal(want) { |
||||
t.Errorf("Got time %v, want %v", c, want) |
||||
} |
||||
} else { |
||||
t.Errorf("%s: bad time\n", uuid) |
||||
} |
||||
if !bytes.Equal(node, uuid.NodeID()) { |
||||
t.Errorf("Expected node %v got %v\n", node, uuid.NodeID()) |
||||
} |
||||
} |
||||
|
||||
func TestMD5(t *testing.T) { |
||||
uuid := NewMD5(NameSpace_DNS, []byte("python.org")).String() |
||||
want := "6fa459ea-ee8a-3ca4-894e-db77e160355e" |
||||
if uuid != want { |
||||
t.Errorf("MD5: got %q expected %q\n", uuid, want) |
||||
} |
||||
} |
||||
|
||||
func TestSHA1(t *testing.T) { |
||||
uuid := NewSHA1(NameSpace_DNS, []byte("python.org")).String() |
||||
want := "886313e1-3b8a-5372-9b90-0c9aee199e5d" |
||||
if uuid != want { |
||||
t.Errorf("SHA1: got %q expected %q\n", uuid, want) |
||||
} |
||||
} |
||||
|
||||
func TestNodeID(t *testing.T) { |
||||
nid := []byte{1, 2, 3, 4, 5, 6} |
||||
SetNodeInterface("") |
||||
s := NodeInterface() |
||||
if s == "" || s == "user" { |
||||
t.Errorf("NodeInterface %q after SetInteface\n", s) |
||||
} |
||||
node1 := NodeID() |
||||
if node1 == nil { |
||||
t.Errorf("NodeID nil after SetNodeInterface\n", s) |
||||
} |
||||
SetNodeID(nid) |
||||
s = NodeInterface() |
||||
if s != "user" { |
||||
t.Errorf("Expected NodeInterface %q got %q\n", "user", s) |
||||
} |
||||
node2 := NodeID() |
||||
if node2 == nil { |
||||
t.Errorf("NodeID nil after SetNodeID\n", s) |
||||
} |
||||
if bytes.Equal(node1, node2) { |
||||
t.Errorf("NodeID not changed after SetNodeID\n", s) |
||||
} else if !bytes.Equal(nid, node2) { |
||||
t.Errorf("NodeID is %x, expected %x\n", node2, nid) |
||||
} |
||||
} |
||||
|
||||
func testDCE(t *testing.T, name string, uuid UUID, domain Domain, id uint32) { |
||||
if uuid == nil { |
||||
t.Errorf("%s failed\n", name) |
||||
return |
||||
} |
||||
if v, _ := uuid.Version(); v != 2 { |
||||
t.Errorf("%s: %s: expected version 2, got %s\n", name, uuid, v) |
||||
return |
||||
} |
||||
if v, ok := uuid.Domain(); !ok || v != domain { |
||||
if !ok { |
||||
t.Errorf("%s: %d: Domain failed\n", name, uuid) |
||||
} else { |
||||
t.Errorf("%s: %s: expected domain %d, got %d\n", name, uuid, domain, v) |
||||
} |
||||
} |
||||
if v, ok := uuid.Id(); !ok || v != id { |
||||
if !ok { |
||||
t.Errorf("%s: %d: Id failed\n", name, uuid) |
||||
} else { |
||||
t.Errorf("%s: %s: expected id %d, got %d\n", name, uuid, id, v) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func TestDCE(t *testing.T) { |
||||
testDCE(t, "NewDCESecurity", NewDCESecurity(42, 12345678), 42, 12345678) |
||||
testDCE(t, "NewDCEPerson", NewDCEPerson(), Person, uint32(os.Getuid())) |
||||
testDCE(t, "NewDCEGroup", NewDCEGroup(), Group, uint32(os.Getgid())) |
||||
} |
||||
|
||||
type badRand struct{} |
||||
|
||||
func (r badRand) Read(buf []byte) (int, error) { |
||||
for i, _ := range buf { |
||||
buf[i] = byte(i) |
||||
} |
||||
return len(buf), nil |
||||
} |
||||
|
||||
func TestBadRand(t *testing.T) { |
||||
SetRand(badRand{}) |
||||
uuid1 := New() |
||||
uuid2 := New() |
||||
if uuid1 != uuid2 { |
||||
t.Errorf("execpted duplicates, got %q and %q\n", uuid1, uuid2) |
||||
} |
||||
SetRand(nil) |
||||
uuid1 = New() |
||||
uuid2 = New() |
||||
if uuid1 == uuid2 { |
||||
t.Errorf("unexecpted duplicates, got %q\n", uuid1) |
||||
} |
||||
} |
@ -0,0 +1,41 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
import ( |
||||
"encoding/binary" |
||||
) |
||||
|
||||
// NewUUID returns a Version 1 UUID based on the current NodeID and clock
|
||||
// sequence, and the current time. If the NodeID has not been set by SetNodeID
|
||||
// or SetNodeInterface then it will be set automatically. If the NodeID cannot
|
||||
// be set NewUUID returns nil. If clock sequence has not been set by
|
||||
// SetClockSequence then it will be set automatically. If GetTime fails to
|
||||
// return the current NewUUID returns nil.
|
||||
func NewUUID() UUID { |
||||
if nodeID == nil { |
||||
SetNodeInterface("") |
||||
} |
||||
|
||||
now, err := GetTime() |
||||
if err != nil { |
||||
return nil |
||||
} |
||||
|
||||
uuid := make([]byte, 16) |
||||
|
||||
time_low := uint32(now & 0xffffffff) |
||||
time_mid := uint16((now >> 32) & 0xffff) |
||||
time_hi := uint16((now >> 48) & 0x0fff) |
||||
time_hi |= 0x1000 // Version 1
|
||||
|
||||
binary.BigEndian.PutUint32(uuid[0:], time_low) |
||||
binary.BigEndian.PutUint16(uuid[4:], time_mid) |
||||
binary.BigEndian.PutUint16(uuid[6:], time_hi) |
||||
binary.BigEndian.PutUint16(uuid[8:], clock_seq) |
||||
copy(uuid[10:], nodeID) |
||||
|
||||
return uuid |
||||
} |
@ -0,0 +1,25 @@ |
||||
// Copyright 2011 Google Inc. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package uuid |
||||
|
||||
// Random returns a Random (Version 4) UUID or panics.
|
||||
//
|
||||
// The strength of the UUIDs is based on the strength of the crypto/rand
|
||||
// package.
|
||||
//
|
||||
// A note about uniqueness derived from from the UUID Wikipedia entry:
|
||||
//
|
||||
// Randomly generated UUIDs have 122 random bits. One's annual risk of being
|
||||
// hit by a meteorite is estimated to be one chance in 17 billion, that
|
||||
// means the probability is about 0.00000000006 (6 × 10−11),
|
||||
// equivalent to the odds of creating a few tens of trillions of UUIDs in a
|
||||
// year and having one duplicate.
|
||||
func NewRandom() UUID { |
||||
uuid := make([]byte, 16) |
||||
randomBits([]byte(uuid)) |
||||
uuid[6] = (uuid[6] & 0x0f) | 0x40 // Version 4
|
||||
uuid[8] = (uuid[8] & 0x3f) | 0x80 // Variant is 10
|
||||
return uuid |
||||
} |
@ -0,0 +1,124 @@ |
||||
// Copyright 2011 The Snappy-Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package snappy |
||||
|
||||
import ( |
||||
"encoding/binary" |
||||
"errors" |
||||
) |
||||
|
||||
// ErrCorrupt reports that the input is invalid.
|
||||
var ErrCorrupt = errors.New("snappy: corrupt input") |
||||
|
||||
// DecodedLen returns the length of the decoded block.
|
||||
func DecodedLen(src []byte) (int, error) { |
||||
v, _, err := decodedLen(src) |
||||
return v, err |
||||
} |
||||
|
||||
// decodedLen returns the length of the decoded block and the number of bytes
|
||||
// that the length header occupied.
|
||||
func decodedLen(src []byte) (blockLen, headerLen int, err error) { |
||||
v, n := binary.Uvarint(src) |
||||
if n == 0 { |
||||
return 0, 0, ErrCorrupt |
||||
} |
||||
if uint64(int(v)) != v { |
||||
return 0, 0, errors.New("snappy: decoded block is too large") |
||||
} |
||||
return int(v), n, nil |
||||
} |
||||
|
||||
// Decode returns the decoded form of src. The returned slice may be a sub-
|
||||
// slice of dst if dst was large enough to hold the entire decoded block.
|
||||
// Otherwise, a newly allocated slice will be returned.
|
||||
// It is valid to pass a nil dst.
|
||||
func Decode(dst, src []byte) ([]byte, error) { |
||||
dLen, s, err := decodedLen(src) |
||||
if err != nil { |
||||
return nil, err |
||||
} |
||||
if len(dst) < dLen { |
||||
dst = make([]byte, dLen) |
||||
} |
||||
|
||||
var d, offset, length int |
||||
for s < len(src) { |
||||
switch src[s] & 0x03 { |
||||
case tagLiteral: |
||||
x := uint(src[s] >> 2) |
||||
switch { |
||||
case x < 60: |
||||
s += 1 |
||||
case x == 60: |
||||
s += 2 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
x = uint(src[s-1]) |
||||
case x == 61: |
||||
s += 3 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
x = uint(src[s-2]) | uint(src[s-1])<<8 |
||||
case x == 62: |
||||
s += 4 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
x = uint(src[s-3]) | uint(src[s-2])<<8 | uint(src[s-1])<<16 |
||||
case x == 63: |
||||
s += 5 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
x = uint(src[s-4]) | uint(src[s-3])<<8 | uint(src[s-2])<<16 | uint(src[s-1])<<24 |
||||
} |
||||
length = int(x + 1) |
||||
if length <= 0 { |
||||
return nil, errors.New("snappy: unsupported literal length") |
||||
} |
||||
if length > len(dst)-d || length > len(src)-s { |
||||
return nil, ErrCorrupt |
||||
} |
||||
copy(dst[d:], src[s:s+length]) |
||||
d += length |
||||
s += length |
||||
continue |
||||
|
||||
case tagCopy1: |
||||
s += 2 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
length = 4 + int(src[s-2])>>2&0x7 |
||||
offset = int(src[s-2])&0xe0<<3 | int(src[s-1]) |
||||
|
||||
case tagCopy2: |
||||
s += 3 |
||||
if s > len(src) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
length = 1 + int(src[s-3])>>2 |
||||
offset = int(src[s-2]) | int(src[s-1])<<8 |
||||
|
||||
case tagCopy4: |
||||
return nil, errors.New("snappy: unsupported COPY_4 tag") |
||||
} |
||||
|
||||
end := d + length |
||||
if offset > d || end > len(dst) { |
||||
return nil, ErrCorrupt |
||||
} |
||||
for ; d < end; d++ { |
||||
dst[d] = dst[d-offset] |
||||
} |
||||
} |
||||
if d != dLen { |
||||
return nil, ErrCorrupt |
||||
} |
||||
return dst[:d], nil |
||||
} |
@ -0,0 +1,174 @@ |
||||
// Copyright 2011 The Snappy-Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package snappy |
||||
|
||||
import ( |
||||
"encoding/binary" |
||||
) |
||||
|
||||
// We limit how far copy back-references can go, the same as the C++ code.
|
||||
const maxOffset = 1 << 15 |
||||
|
||||
// emitLiteral writes a literal chunk and returns the number of bytes written.
|
||||
func emitLiteral(dst, lit []byte) int { |
||||
i, n := 0, uint(len(lit)-1) |
||||
switch { |
||||
case n < 60: |
||||
dst[0] = uint8(n)<<2 | tagLiteral |
||||
i = 1 |
||||
case n < 1<<8: |
||||
dst[0] = 60<<2 | tagLiteral |
||||
dst[1] = uint8(n) |
||||
i = 2 |
||||
case n < 1<<16: |
||||
dst[0] = 61<<2 | tagLiteral |
||||
dst[1] = uint8(n) |
||||
dst[2] = uint8(n >> 8) |
||||
i = 3 |
||||
case n < 1<<24: |
||||
dst[0] = 62<<2 | tagLiteral |
||||
dst[1] = uint8(n) |
||||
dst[2] = uint8(n >> 8) |
||||
dst[3] = uint8(n >> 16) |
||||
i = 4 |
||||
case int64(n) < 1<<32: |
||||
dst[0] = 63<<2 | tagLiteral |
||||
dst[1] = uint8(n) |
||||
dst[2] = uint8(n >> 8) |
||||
dst[3] = uint8(n >> 16) |
||||
dst[4] = uint8(n >> 24) |
||||
i = 5 |
||||
default: |
||||
panic("snappy: source buffer is too long") |
||||
} |
||||
if copy(dst[i:], lit) != len(lit) { |
||||
panic("snappy: destination buffer is too short") |
||||
} |
||||
return i + len(lit) |
||||
} |
||||
|
||||
// emitCopy writes a copy chunk and returns the number of bytes written.
|
||||
func emitCopy(dst []byte, offset, length int) int { |
||||
i := 0 |
||||
for length > 0 { |
||||
x := length - 4 |
||||
if 0 <= x && x < 1<<3 && offset < 1<<11 { |
||||
dst[i+0] = uint8(offset>>8)&0x07<<5 | uint8(x)<<2 | tagCopy1 |
||||
dst[i+1] = uint8(offset) |
||||
i += 2 |
||||
break |
||||
} |
||||
|
||||
x = length |
||||
if x > 1<<6 { |
||||
x = 1 << 6 |
||||
} |
||||
dst[i+0] = uint8(x-1)<<2 | tagCopy2 |
||||
dst[i+1] = uint8(offset) |
||||
dst[i+2] = uint8(offset >> 8) |
||||
i += 3 |
||||
length -= x |
||||
} |
||||
return i |
||||
} |
||||
|
||||
// Encode returns the encoded form of src. The returned slice may be a sub-
|
||||
// slice of dst if dst was large enough to hold the entire encoded block.
|
||||
// Otherwise, a newly allocated slice will be returned.
|
||||
// It is valid to pass a nil dst.
|
||||
func Encode(dst, src []byte) ([]byte, error) { |
||||
if n := MaxEncodedLen(len(src)); len(dst) < n { |
||||
dst = make([]byte, n) |
||||
} |
||||
|
||||
// The block starts with the varint-encoded length of the decompressed bytes.
|
||||
d := binary.PutUvarint(dst, uint64(len(src))) |
||||
|
||||
// Return early if src is short.
|
||||
if len(src) <= 4 { |
||||
if len(src) != 0 { |
||||
d += emitLiteral(dst[d:], src) |
||||
} |
||||
return dst[:d], nil |
||||
} |
||||
|
||||
// Initialize the hash table. Its size ranges from 1<<8 to 1<<14 inclusive.
|
||||
const maxTableSize = 1 << 14 |
||||
shift, tableSize := uint(32-8), 1<<8 |
||||
for tableSize < maxTableSize && tableSize < len(src) { |
||||
shift-- |
||||
tableSize *= 2 |
||||
} |
||||
var table [maxTableSize]int |
||||
|
||||
// Iterate over the source bytes.
|
||||
var ( |
||||
s int // The iterator position.
|
||||
t int // The last position with the same hash as s.
|
||||
lit int // The start position of any pending literal bytes.
|
||||
) |
||||
for s+3 < len(src) { |
||||
// Update the hash table.
|
||||
b0, b1, b2, b3 := src[s], src[s+1], src[s+2], src[s+3] |
||||
h := uint32(b0) | uint32(b1)<<8 | uint32(b2)<<16 | uint32(b3)<<24 |
||||
p := &table[(h*0x1e35a7bd)>>shift] |
||||
// We need to to store values in [-1, inf) in table. To save
|
||||
// some initialization time, (re)use the table's zero value
|
||||
// and shift the values against this zero: add 1 on writes,
|
||||
// subtract 1 on reads.
|
||||
t, *p = *p-1, s+1 |
||||
// If t is invalid or src[s:s+4] differs from src[t:t+4], accumulate a literal byte.
|
||||
if t < 0 || s-t >= maxOffset || b0 != src[t] || b1 != src[t+1] || b2 != src[t+2] || b3 != src[t+3] { |
||||
s++ |
||||
continue |
||||
} |
||||
// Otherwise, we have a match. First, emit any pending literal bytes.
|
||||
if lit != s { |
||||
d += emitLiteral(dst[d:], src[lit:s]) |
||||
} |
||||
// Extend the match to be as long as possible.
|
||||
s0 := s |
||||
s, t = s+4, t+4 |
||||
for s < len(src) && src[s] == src[t] { |
||||
s++ |
||||
t++ |
||||
} |
||||
// Emit the copied bytes.
|
||||
d += emitCopy(dst[d:], s-t, s-s0) |
||||
lit = s |
||||
} |
||||
|
||||
// Emit any final pending literal bytes and return.
|
||||
if lit != len(src) { |
||||
d += emitLiteral(dst[d:], src[lit:]) |
||||
} |
||||
return dst[:d], nil |
||||
} |
||||
|
||||
// MaxEncodedLen returns the maximum length of a snappy block, given its
|
||||
// uncompressed length.
|
||||
func MaxEncodedLen(srcLen int) int { |
||||
// Compressed data can be defined as:
|
||||
// compressed := item* literal*
|
||||
// item := literal* copy
|
||||
//
|
||||
// The trailing literal sequence has a space blowup of at most 62/60
|
||||
// since a literal of length 60 needs one tag byte + one extra byte
|
||||
// for length information.
|
||||
//
|
||||
// Item blowup is trickier to measure. Suppose the "copy" op copies
|
||||
// 4 bytes of data. Because of a special check in the encoding code,
|
||||
// we produce a 4-byte copy only if the offset is < 65536. Therefore
|
||||
// the copy op takes 3 bytes to encode, and this type of item leads
|
||||
// to at most the 62/60 blowup for representing literals.
|
||||
//
|
||||
// Suppose the "copy" op copies 5 bytes of data. If the offset is big
|
||||
// enough, it will take 5 bytes to encode the copy op. Therefore the
|
||||
// worst case here is a one-byte literal followed by a five-byte copy.
|
||||
// That is, 6 bytes of input turn into 7 bytes of "compressed" data.
|
||||
//
|
||||
// This last factor dominates the blowup, so the final estimate is:
|
||||
return 32 + srcLen + srcLen/6 |
||||
} |
@ -0,0 +1,38 @@ |
||||
// Copyright 2011 The Snappy-Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// Package snappy implements the snappy block-based compression format.
|
||||
// It aims for very high speeds and reasonable compression.
|
||||
//
|
||||
// The C++ snappy implementation is at http://code.google.com/p/snappy/
|
||||
package snappy |
||||
|
||||
/* |
||||
Each encoded block begins with the varint-encoded length of the decoded data, |
||||
followed by a sequence of chunks. Chunks begin and end on byte boundaries. The |
||||
first byte of each chunk is broken into its 2 least and 6 most significant bits |
||||
called l and m: l ranges in [0, 4) and m ranges in [0, 64). l is the chunk tag. |
||||
Zero means a literal tag. All other values mean a copy tag. |
||||
|
||||
For literal tags: |
||||
- If m < 60, the next 1 + m bytes are literal bytes. |
||||
- Otherwise, let n be the little-endian unsigned integer denoted by the next |
||||
m - 59 bytes. The next 1 + n bytes after that are literal bytes. |
||||
|
||||
For copy tags, length bytes are copied from offset bytes ago, in the style of |
||||
Lempel-Ziv compression algorithms. In particular: |
||||
- For l == 1, the offset ranges in [0, 1<<11) and the length in [4, 12). |
||||
The length is 4 + the low 3 bits of m. The high 3 bits of m form bits 8-10 |
||||
of the offset. The next byte is bits 0-7 of the offset. |
||||
- For l == 2, the offset ranges in [0, 1<<16) and the length in [1, 65). |
||||
The length is 1 + m. The offset is the little-endian unsigned integer |
||||
denoted by the next 2 bytes. |
||||
- For l == 3, this tag is a legacy format that is no longer supported. |
||||
*/ |
||||
const ( |
||||
tagLiteral = 0x00 |
||||
tagCopy1 = 0x01 |
||||
tagCopy2 = 0x02 |
||||
tagCopy4 = 0x03 |
||||
) |
@ -0,0 +1,261 @@ |
||||
// Copyright 2011 The Snappy-Go Authors. All rights reserved.
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
package snappy |
||||
|
||||
import ( |
||||
"bytes" |
||||
"flag" |
||||
"fmt" |
||||
"io" |
||||
"io/ioutil" |
||||
"math/rand" |
||||
"net/http" |
||||
"os" |
||||
"path/filepath" |
||||
"strings" |
||||
"testing" |
||||
) |
||||
|
||||
var download = flag.Bool("download", false, "If true, download any missing files before running benchmarks") |
||||
|
||||
func roundtrip(b, ebuf, dbuf []byte) error { |
||||
e, err := Encode(ebuf, b) |
||||
if err != nil { |
||||
return fmt.Errorf("encoding error: %v", err) |
||||
} |
||||
d, err := Decode(dbuf, e) |
||||
if err != nil { |
||||
return fmt.Errorf("decoding error: %v", err) |
||||
} |
||||
if !bytes.Equal(b, d) { |
||||
return fmt.Errorf("roundtrip mismatch:\n\twant %v\n\tgot %v", b, d) |
||||
} |
||||
return nil |
||||
} |
||||
|
||||
func TestEmpty(t *testing.T) { |
||||
if err := roundtrip(nil, nil, nil); err != nil { |
||||
t.Fatal(err) |
||||
} |
||||
} |
||||
|
||||
func TestSmallCopy(t *testing.T) { |
||||
for _, ebuf := range [][]byte{nil, make([]byte, 20), make([]byte, 64)} { |
||||
for _, dbuf := range [][]byte{nil, make([]byte, 20), make([]byte, 64)} { |
||||
for i := 0; i < 32; i++ { |
||||
s := "aaaa" + strings.Repeat("b", i) + "aaaabbbb" |
||||
if err := roundtrip([]byte(s), ebuf, dbuf); err != nil { |
||||
t.Errorf("len(ebuf)=%d, len(dbuf)=%d, i=%d: %v", len(ebuf), len(dbuf), i, err) |
||||
} |
||||
} |
||||
} |
||||
} |
||||
} |
||||
|
||||
func TestSmallRand(t *testing.T) { |
||||
rand.Seed(27354294) |
||||
for n := 1; n < 20000; n += 23 { |
||||
b := make([]byte, n) |
||||
for i, _ := range b { |
||||
b[i] = uint8(rand.Uint32()) |
||||
} |
||||
if err := roundtrip(b, nil, nil); err != nil { |
||||
t.Fatal(err) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func TestSmallRegular(t *testing.T) { |
||||
for n := 1; n < 20000; n += 23 { |
||||
b := make([]byte, n) |
||||
for i, _ := range b { |
||||
b[i] = uint8(i%10 + 'a') |
||||
} |
||||
if err := roundtrip(b, nil, nil); err != nil { |
||||
t.Fatal(err) |
||||
} |
||||
} |
||||
} |
||||
|
||||
func benchDecode(b *testing.B, src []byte) { |
||||
encoded, err := Encode(nil, src) |
||||
if err != nil { |
||||
b.Fatal(err) |
||||
} |
||||
// Bandwidth is in amount of uncompressed data.
|
||||
b.SetBytes(int64(len(src))) |
||||
b.ResetTimer() |
||||
for i := 0; i < b.N; i++ { |
||||
Decode(src, encoded) |
||||
} |
||||
} |
||||
|
||||
func benchEncode(b *testing.B, src []byte) { |
||||
// Bandwidth is in amount of uncompressed data.
|
||||
b.SetBytes(int64(len(src))) |
||||
dst := make([]byte, MaxEncodedLen(len(src))) |
||||
b.ResetTimer() |
||||
for i := 0; i < b.N; i++ { |
||||
Encode(dst, src) |
||||
} |
||||
} |
||||
|
||||
func readFile(b *testing.B, filename string) []byte { |
||||
src, err := ioutil.ReadFile(filename) |
||||
if err != nil { |
||||
b.Fatalf("failed reading %s: %s", filename, err) |
||||
} |
||||
if len(src) == 0 { |
||||
b.Fatalf("%s has zero length", filename) |
||||
} |
||||
return src |
||||
} |
||||
|
||||
// expand returns a slice of length n containing repeated copies of src.
|
||||
func expand(src []byte, n int) []byte { |
||||
dst := make([]byte, n) |
||||
for x := dst; len(x) > 0; { |
||||
i := copy(x, src) |
||||
x = x[i:] |
||||
} |
||||
return dst |
||||
} |
||||
|
||||
func benchWords(b *testing.B, n int, decode bool) { |
||||
// Note: the file is OS-language dependent so the resulting values are not
|
||||
// directly comparable for non-US-English OS installations.
|
||||
data := expand(readFile(b, "/usr/share/dict/words"), n) |
||||
if decode { |
||||
benchDecode(b, data) |
||||
} else { |
||||
benchEncode(b, data) |
||||
} |
||||
} |
||||
|
||||
func BenchmarkWordsDecode1e3(b *testing.B) { benchWords(b, 1e3, true) } |
||||
func BenchmarkWordsDecode1e4(b *testing.B) { benchWords(b, 1e4, true) } |
||||
func BenchmarkWordsDecode1e5(b *testing.B) { benchWords(b, 1e5, true) } |
||||
func BenchmarkWordsDecode1e6(b *testing.B) { benchWords(b, 1e6, true) } |
||||
func BenchmarkWordsEncode1e3(b *testing.B) { benchWords(b, 1e3, false) } |
||||
func BenchmarkWordsEncode1e4(b *testing.B) { benchWords(b, 1e4, false) } |
||||
func BenchmarkWordsEncode1e5(b *testing.B) { benchWords(b, 1e5, false) } |
||||
func BenchmarkWordsEncode1e6(b *testing.B) { benchWords(b, 1e6, false) } |
||||
|
||||
// testFiles' values are copied directly from
|
||||
// https://code.google.com/p/snappy/source/browse/trunk/snappy_unittest.cc.
|
||||
// The label field is unused in snappy-go.
|
||||
var testFiles = []struct { |
||||
label string |
||||
filename string |
||||
}{ |
||||
{"html", "html"}, |
||||
{"urls", "urls.10K"}, |
||||
{"jpg", "house.jpg"}, |
||||
{"pdf", "mapreduce-osdi-1.pdf"}, |
||||
{"html4", "html_x_4"}, |
||||
{"cp", "cp.html"}, |
||||
{"c", "fields.c"}, |
||||
{"lsp", "grammar.lsp"}, |
||||
{"xls", "kennedy.xls"}, |
||||
{"txt1", "alice29.txt"}, |
||||
{"txt2", "asyoulik.txt"}, |
||||
{"txt3", "lcet10.txt"}, |
||||
{"txt4", "plrabn12.txt"}, |
||||
{"bin", "ptt5"}, |
||||
{"sum", "sum"}, |
||||
{"man", "xargs.1"}, |
||||
{"pb", "geo.protodata"}, |
||||
{"gaviota", "kppkn.gtb"}, |
||||
} |
||||
|
||||
// The test data files are present at this canonical URL.
|
||||
const baseURL = "https://snappy.googlecode.com/svn/trunk/testdata/" |
||||
|
||||
func downloadTestdata(basename string) (errRet error) { |
||||
filename := filepath.Join("testdata", basename) |
||||
f, err := os.Create(filename) |
||||
if err != nil { |
||||
return fmt.Errorf("failed to create %s: %s", filename, err) |
||||
} |
||||
defer f.Close() |
||||
defer func() { |
||||
if errRet != nil { |
||||
os.Remove(filename) |
||||
} |
||||
}() |
||||
resp, err := http.Get(baseURL + basename) |
||||
if err != nil { |
||||
return fmt.Errorf("failed to download %s: %s", baseURL+basename, err) |
||||
} |
||||
defer resp.Body.Close() |
||||
_, err = io.Copy(f, resp.Body) |
||||
if err != nil { |
||||
return fmt.Errorf("failed to write %s: %s", filename, err) |
||||
} |
||||
return nil |
||||
} |
||||
|
||||
func benchFile(b *testing.B, n int, decode bool) { |
||||
filename := filepath.Join("testdata", testFiles[n].filename) |
||||
if stat, err := os.Stat(filename); err != nil || stat.Size() == 0 { |
||||
if !*download { |
||||
b.Fatal("test data not found; skipping benchmark without the -download flag") |
||||
} |
||||
// Download the official snappy C++ implementation reference test data
|
||||
// files for benchmarking.
|
||||
if err := os.Mkdir("testdata", 0777); err != nil && !os.IsExist(err) { |
||||
b.Fatalf("failed to create testdata: %s", err) |
||||
} |
||||
for _, tf := range testFiles { |
||||
if err := downloadTestdata(tf.filename); err != nil { |
||||
b.Fatalf("failed to download testdata: %s", err) |
||||
} |
||||
} |
||||
} |
||||
data := readFile(b, filename) |
||||
if decode { |
||||
benchDecode(b, data) |
||||
} else { |
||||
benchEncode(b, data) |
||||
} |
||||
} |
||||
|
||||
// Naming convention is kept similar to what snappy's C++ implementation uses.
|
||||
func Benchmark_UFlat0(b *testing.B) { benchFile(b, 0, true) } |
||||
func Benchmark_UFlat1(b *testing.B) { benchFile(b, 1, true) } |
||||
func Benchmark_UFlat2(b *testing.B) { benchFile(b, 2, true) } |
||||
func Benchmark_UFlat3(b *testing.B) { benchFile(b, 3, true) } |
||||
func Benchmark_UFlat4(b *testing.B) { benchFile(b, 4, true) } |
||||
func Benchmark_UFlat5(b *testing.B) { benchFile(b, 5, true) } |
||||
func Benchmark_UFlat6(b *testing.B) { benchFile(b, 6, true) } |
||||
func Benchmark_UFlat7(b *testing.B) { benchFile(b, 7, true) } |
||||
func Benchmark_UFlat8(b *testing.B) { benchFile(b, 8, true) } |
||||
func Benchmark_UFlat9(b *testing.B) { benchFile(b, 9, true) } |
||||
func Benchmark_UFlat10(b *testing.B) { benchFile(b, 10, true) } |
||||
func Benchmark_UFlat11(b *testing.B) { benchFile(b, 11, true) } |
||||
func Benchmark_UFlat12(b *testing.B) { benchFile(b, 12, true) } |
||||
func Benchmark_UFlat13(b *testing.B) { benchFile(b, 13, true) } |
||||
func Benchmark_UFlat14(b *testing.B) { benchFile(b, 14, true) } |
||||
func Benchmark_UFlat15(b *testing.B) { benchFile(b, 15, true) } |
||||
func Benchmark_UFlat16(b *testing.B) { benchFile(b, 16, true) } |
||||
func Benchmark_UFlat17(b *testing.B) { benchFile(b, 17, true) } |
||||
func Benchmark_ZFlat0(b *testing.B) { benchFile(b, 0, false) } |
||||
func Benchmark_ZFlat1(b *testing.B) { benchFile(b, 1, false) } |
||||
func Benchmark_ZFlat2(b *testing.B) { benchFile(b, 2, false) } |
||||
func Benchmark_ZFlat3(b *testing.B) { benchFile(b, 3, false) } |
||||
func Benchmark_ZFlat4(b *testing.B) { benchFile(b, 4, false) } |
||||
func Benchmark_ZFlat5(b *testing.B) { benchFile(b, 5, false) } |
||||
func Benchmark_ZFlat6(b *testing.B) { benchFile(b, 6, false) } |
||||
func Benchmark_ZFlat7(b *testing.B) { benchFile(b, 7, false) } |
||||
func Benchmark_ZFlat8(b *testing.B) { benchFile(b, 8, false) } |
||||
func Benchmark_ZFlat9(b *testing.B) { benchFile(b, 9, false) } |
||||
func Benchmark_ZFlat10(b *testing.B) { benchFile(b, 10, false) } |
||||
func Benchmark_ZFlat11(b *testing.B) { benchFile(b, 11, false) } |
||||
func Benchmark_ZFlat12(b *testing.B) { benchFile(b, 12, false) } |
||||
func Benchmark_ZFlat13(b *testing.B) { benchFile(b, 13, false) } |
||||
func Benchmark_ZFlat14(b *testing.B) { benchFile(b, 14, false) } |
||||
func Benchmark_ZFlat15(b *testing.B) { benchFile(b, 15, false) } |
||||
func Benchmark_ZFlat16(b *testing.B) { benchFile(b, 16, false) } |
||||
func Benchmark_ZFlat17(b *testing.B) { benchFile(b, 17, false) } |
@ -0,0 +1,5 @@ |
||||
/tmp |
||||
*/**/*un~ |
||||
*un~ |
||||
.DS_Store |
||||
*/**/.DS_Store |
@ -0,0 +1,3 @@ |
||||
[submodule "serp"] |
||||
path = serpent |
||||
url = https://github.com/ethereum/serpent.git |
@ -0,0 +1,12 @@ |
||||
[serpent](https://github.com/ethereum/serpent) go bindings. |
||||
|
||||
## Build instructions |
||||
|
||||
``` |
||||
go get -d github.com/ethereum/serpent-go |
||||
cd $GOPATH/src/github.com/ethereum/serpent-go |
||||
git submodule init |
||||
git submodule update |
||||
``` |
||||
|
||||
You're now ready to go :-) |
@ -0,0 +1,16 @@ |
||||
#include "serpent/bignum.cpp" |
||||
#include "serpent/util.cpp" |
||||
#include "serpent/tokenize.cpp" |
||||
#include "serpent/parser.cpp" |
||||
#include "serpent/compiler.cpp" |
||||
#include "serpent/funcs.cpp" |
||||
#include "serpent/lllparser.cpp" |
||||
#include "serpent/rewriter.cpp" |
||||
|
||||
#include "serpent/opcodes.cpp" |
||||
#include "serpent/optimize.cpp" |
||||
#include "serpent/functions.cpp" |
||||
#include "serpent/preprocess.cpp" |
||||
#include "serpent/rewriteutils.cpp" |
||||
|
||||
#include "cpp/api.cpp" |
@ -0,0 +1,26 @@ |
||||
#include <string> |
||||
|
||||
#include "serpent/lllparser.h" |
||||
#include "serpent/bignum.h" |
||||
#include "serpent/util.h" |
||||
#include "serpent/tokenize.h" |
||||
#include "serpent/parser.h" |
||||
#include "serpent/compiler.h" |
||||
|
||||
#include "cpp/api.h" |
||||
|
||||
const char *compileGo(char *code, int *err) |
||||
{ |
||||
try { |
||||
std::string c = binToHex(compile(std::string(code))); |
||||
|
||||
return c.c_str(); |
||||
} |
||||
catch(std::string &error) { |
||||
*err = 1; |
||||
return error.c_str(); |
||||
} |
||||
catch(...) { |
||||
return "Unknown error"; |
||||
} |
||||
} |
@ -0,0 +1,14 @@ |
||||
#ifndef CPP_API_H |
||||
#define CPP_API_H |
||||
|
||||
#ifdef __cplusplus |
||||
extern "C" { |
||||
#endif |
||||
|
||||
const char *compileGo(char *code, int *err); |
||||
|
||||
#ifdef __cplusplus |
||||
} |
||||
#endif |
||||
|
||||
#endif |
@ -0,0 +1,27 @@ |
||||
package serpent |
||||
|
||||
// #cgo CXXFLAGS: -I. -Ilangs/ -std=c++0x -Wall -fno-strict-aliasing
|
||||
// #cgo LDFLAGS: -lstdc++
|
||||
//
|
||||
// #include "cpp/api.h"
|
||||
//
|
||||
import "C" |
||||
|
||||
import ( |
||||
"encoding/hex" |
||||
"errors" |
||||
"unsafe" |
||||
) |
||||
|
||||
func Compile(str string) ([]byte, error) { |
||||
var err C.int |
||||
out := C.GoString(C.compileGo(C.CString(str), (*C.int)(unsafe.Pointer(&err)))) |
||||
|
||||
if err == C.int(1) { |
||||
return nil, errors.New(out) |
||||
} |
||||
|
||||
bytes, _ := hex.DecodeString(out) |
||||
|
||||
return bytes, nil |
||||
} |
@ -0,0 +1,12 @@ |
||||
[._]*.s[a-w][a-z] |
||||
[._]s[a-w][a-z] |
||||
*.un~ |
||||
Session.vim |
||||
.netrwhist |
||||
*~ |
||||
*.o |
||||
serpent |
||||
libserpent.a |
||||
pyserpent.so |
||||
dist |
||||
*.egg-info |
@ -0,0 +1,5 @@ |
||||
include *.cpp |
||||
include *.h |
||||
include *py |
||||
include README.md |
||||
include Makefile |
@ -0,0 +1,55 @@ |
||||
PLATFORM_OPTS =
|
||||
PYTHON = /usr/include/python2.7
|
||||
CXXFLAGS = -fPIC
|
||||
# -g3 -O0
|
||||
BOOST_INC = /usr/include
|
||||
BOOST_LIB = /usr/lib
|
||||
TARGET = pyserpent
|
||||
COMMON_OBJS = bignum.o util.o tokenize.o lllparser.o parser.o opcodes.o optimize.o functions.o rewriteutils.o preprocess.o rewriter.o compiler.o funcs.o
|
||||
HEADERS = bignum.h util.h tokenize.h lllparser.h parser.h opcodes.h functions.h optimize.h rewriteutils.h preprocess.h rewriter.h compiler.h funcs.h
|
||||
PYTHON_VERSION = 2.7
|
||||
|
||||
serpent : serpentc lib |
||||
|
||||
lib: |
||||
ar rvs libserpent.a $(COMMON_OBJS)
|
||||
g++ $(CXXFLAGS) -shared $(COMMON_OBJS) -o libserpent.so
|
||||
|
||||
serpentc: $(COMMON_OBJS) cmdline.o |
||||
rm -rf serpent
|
||||
g++ -Wall $(COMMON_OBJS) cmdline.o -o serpent
|
||||
|
||||
bignum.o : bignum.cpp bignum.h |
||||
|
||||
opcodes.o : opcodes.cpp opcodes.h |
||||
|
||||
util.o : util.cpp util.h bignum.o |
||||
|
||||
tokenize.o : tokenize.cpp tokenize.h util.o |
||||
|
||||
lllparser.o : lllparser.cpp lllparser.h tokenize.o util.o |
||||
|
||||
parser.o : parser.cpp parser.h tokenize.o util.o |
||||
|
||||
rewriter.o : rewriter.cpp rewriter.h lllparser.o util.o rewriteutils.o preprocess.o opcodes.o functions.o |
||||
|
||||
preprocessor.o: rewriteutils.o functions.o |
||||
|
||||
compiler.o : compiler.cpp compiler.h util.o |
||||
|
||||
funcs.o : funcs.cpp funcs.h |
||||
|
||||
cmdline.o: cmdline.cpp |
||||
|
||||
pyext.o: pyext.cpp |
||||
|
||||
clean: |
||||
rm -f serpent *\.o libserpent.a libserpent.so
|
||||
|
||||
install: |
||||
cp serpent /usr/local/bin
|
||||
cp libserpent.a /usr/local/lib
|
||||
cp libserpent.so /usr/local/lib
|
||||
rm -rf /usr/local/include/libserpent
|
||||
mkdir -p /usr/local/include/libserpent
|
||||
cp $(HEADERS) /usr/local/include/libserpent
|
@ -0,0 +1,3 @@ |
||||
Installation: |
||||
|
||||
```make && sudo make install``` |
@ -0,0 +1,112 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "bignum.h" |
||||
|
||||
//Integer to string conversion
|
||||
std::string unsignedToDecimal(unsigned branch) { |
||||
if (branch < 10) return nums.substr(branch, 1); |
||||
else return unsignedToDecimal(branch / 10) + nums.substr(branch % 10,1); |
||||
} |
||||
|
||||
//Add two strings representing decimal values
|
||||
std::string decimalAdd(std::string a, std::string b) { |
||||
std::string o = a; |
||||
while (b.length() < a.length()) b = "0" + b; |
||||
while (o.length() < b.length()) o = "0" + o; |
||||
bool carry = false; |
||||
for (int i = o.length() - 1; i >= 0; i--) { |
||||
o[i] = o[i] + b[i] - '0'; |
||||
if (carry) o[i]++; |
||||
if (o[i] > '9') { |
||||
o[i] -= 10; |
||||
carry = true; |
||||
} |
||||
else carry = false; |
||||
} |
||||
if (carry) o = "1" + o; |
||||
return o; |
||||
} |
||||
|
||||
//Helper function for decimalMul
|
||||
std::string decimalDigitMul(std::string a, int dig) { |
||||
if (dig == 0) return "0"; |
||||
else return decimalAdd(a, decimalDigitMul(a, dig - 1)); |
||||
} |
||||
|
||||
//Multiply two strings representing decimal values
|
||||
std::string decimalMul(std::string a, std::string b) { |
||||
std::string o = "0"; |
||||
for (unsigned i = 0; i < b.length(); i++) { |
||||
std::string n = decimalDigitMul(a, b[i] - '0'); |
||||
if (n != "0") { |
||||
for (unsigned j = i + 1; j < b.length(); j++) n += "0"; |
||||
} |
||||
o = decimalAdd(o, n); |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
//Modexp
|
||||
std::string decimalModExp(std::string b, std::string e, std::string m) { |
||||
if (e == "0") return "1"; |
||||
else if (e == "1") return b; |
||||
else if (decimalMod(e, "2") == "0") { |
||||
std::string o = decimalModExp(b, decimalDiv(e, "2"), m); |
||||
return decimalMod(decimalMul(o, o), m); |
||||
} |
||||
else { |
||||
std::string o = decimalModExp(b, decimalDiv(e, "2"), m); |
||||
return decimalMod(decimalMul(decimalMul(o, o), b), m); |
||||
} |
||||
} |
||||
|
||||
//Is a greater than b? Flag allows equality
|
||||
bool decimalGt(std::string a, std::string b, bool eqAllowed) { |
||||
if (a == b) return eqAllowed; |
||||
return (a.length() > b.length()) || (a.length() >= b.length() && a > b); |
||||
} |
||||
|
||||
//Subtract the two strings representing decimal values
|
||||
std::string decimalSub(std::string a, std::string b) { |
||||
if (b == "0") return a; |
||||
if (b == a) return "0"; |
||||
while (b.length() < a.length()) b = "0" + b; |
||||
std::string c = b; |
||||
for (unsigned i = 0; i < c.length(); i++) c[i] = '0' + ('9' - c[i]); |
||||
std::string o = decimalAdd(decimalAdd(a, c).substr(1), "1"); |
||||
while (o.size() > 1 && o[0] == '0') o = o.substr(1); |
||||
return o; |
||||
} |
||||
|
||||
//Divide the two strings representing decimal values
|
||||
std::string decimalDiv(std::string a, std::string b) { |
||||
std::string c = b; |
||||
if (decimalGt(c, a)) return "0"; |
||||
int zeroes = -1; |
||||
while (decimalGt(a, c, true)) { |
||||
zeroes += 1; |
||||
c = c + "0"; |
||||
} |
||||
c = c.substr(0, c.size() - 1); |
||||
std::string quot = "0"; |
||||
while (decimalGt(a, c, true)) { |
||||
a = decimalSub(a, c); |
||||
quot = decimalAdd(quot, "1"); |
||||
} |
||||
for (int i = 0; i < zeroes; i++) quot += "0"; |
||||
return decimalAdd(quot, decimalDiv(a, b)); |
||||
} |
||||
|
||||
//Modulo the two strings representing decimal values
|
||||
std::string decimalMod(std::string a, std::string b) { |
||||
return decimalSub(a, decimalMul(decimalDiv(a, b), b)); |
||||
} |
||||
|
||||
//String to int conversion
|
||||
unsigned decimalToUnsigned(std::string a) { |
||||
if (a.size() == 0) return 0; |
||||
else return (a[a.size() - 1] - '0')
|
||||
+ decimalToUnsigned(a.substr(0,a.size()-1)) * 10; |
||||
} |
@ -0,0 +1,41 @@ |
||||
#ifndef ETHSERP_BIGNUM |
||||
#define ETHSERP_BIGNUM |
||||
|
||||
const std::string nums = "0123456789"; |
||||
|
||||
const std::string tt256 =
|
||||
"115792089237316195423570985008687907853269984665640564039457584007913129639936" |
||||
; |
||||
|
||||
const std::string tt256m1 =
|
||||
"115792089237316195423570985008687907853269984665640564039457584007913129639935" |
||||
; |
||||
|
||||
const std::string tt255 = |
||||
"57896044618658097711785492504343953926634992332820282019728792003956564819968"; |
||||
|
||||
const std::string tt176 = |
||||
"95780971304118053647396689196894323976171195136475136"; |
||||
|
||||
std::string unsignedToDecimal(unsigned branch); |
||||
|
||||
std::string decimalAdd(std::string a, std::string b); |
||||
|
||||
std::string decimalMul(std::string a, std::string b); |
||||
|
||||
std::string decimalSub(std::string a, std::string b); |
||||
|
||||
std::string decimalDiv(std::string a, std::string b); |
||||
|
||||
std::string decimalMod(std::string a, std::string b); |
||||
|
||||
std::string decimalModExp(std::string b, std::string e, std::string m); |
||||
|
||||
bool decimalGt(std::string a, std::string b, bool eqAllowed=false); |
||||
|
||||
unsigned decimalToUnsigned(std::string a); |
||||
|
||||
#define utd unsignedToDecimal |
||||
#define dtu decimalToUnsigned |
||||
|
||||
#endif |
@ -0,0 +1,132 @@ |
||||
#include <stdio.h> |
||||
#include <string> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "funcs.h" |
||||
|
||||
int main(int argv, char** argc) { |
||||
if (argv == 1) { |
||||
std::cerr << "Must provide a command and arguments! Try parse, rewrite, compile, assemble\n"; |
||||
return 0; |
||||
} |
||||
if (argv == 2 && std::string(argc[1]) == "--help" || std::string(argc[1]) == "-h" ) { |
||||
std::cout << argc[1] << "\n"; |
||||
|
||||
std::cout << "serpent command input\n"; |
||||
std::cout << "where input -s for from stdin, a file, or interpreted as serpent code if does not exist as file."; |
||||
std::cout << "where command: \n"; |
||||
std::cout << " parse: Just parses and returns s-expression code.\n"; |
||||
std::cout << " rewrite: Parse, use rewrite rules print s-expressions of result.\n"; |
||||
std::cout << " compile: Return resulting compiled EVM code in hex.\n"; |
||||
std::cout << " assemble: Return result from step before compilation.\n"; |
||||
return 0; |
||||
} |
||||
|
||||
std::string flag = ""; |
||||
std::string command = argc[1]; |
||||
std::string input; |
||||
std::string secondInput; |
||||
if (std::string(argc[1]) == "-s") { |
||||
flag = command.substr(1); |
||||
command = argc[2]; |
||||
input = ""; |
||||
std::string line; |
||||
while (std::getline(std::cin, line)) { |
||||
input += line + "\n"; |
||||
} |
||||
secondInput = argv == 3 ? "" : argc[3]; |
||||
} |
||||
else { |
||||
if (argv == 2) { |
||||
std::cerr << "Not enough arguments for serpent cmdline\n"; |
||||
throw(0); |
||||
} |
||||
input = argc[2]; |
||||
secondInput = argv == 3 ? "" : argc[3]; |
||||
} |
||||
bool haveSec = secondInput.length() > 0; |
||||
if (command == "parse" || command == "parse_serpent") { |
||||
std::cout << printAST(parseSerpent(input), haveSec) << "\n"; |
||||
} |
||||
else if (command == "rewrite") { |
||||
std::cout << printAST(rewrite(parseLLL(input, true)), haveSec) << "\n"; |
||||
} |
||||
else if (command == "compile_to_lll") { |
||||
std::cout << printAST(compileToLLL(input), haveSec) << "\n"; |
||||
} |
||||
else if (command == "rewrite_chunk") { |
||||
std::cout << printAST(rewriteChunk(parseLLL(input, true)), haveSec) << "\n"; |
||||
} |
||||
else if (command == "compile_chunk_to_lll") { |
||||
std::cout << printAST(compileChunkToLLL(input), haveSec) << "\n"; |
||||
} |
||||
else if (command == "build_fragtree") { |
||||
std::cout << printAST(buildFragmentTree(parseLLL(input, true))) << "\n"; |
||||
} |
||||
else if (command == "compile_lll") { |
||||
std::cout << binToHex(compileLLL(parseLLL(input, true))) << "\n"; |
||||
} |
||||
else if (command == "dereference") { |
||||
std::cout << printAST(dereference(parseLLL(input, true)), haveSec) <<"\n"; |
||||
} |
||||
else if (command == "pretty_assemble") { |
||||
std::cout << printTokens(prettyAssemble(parseLLL(input, true))) <<"\n"; |
||||
} |
||||
else if (command == "pretty_compile_lll") { |
||||
std::cout << printTokens(prettyCompileLLL(parseLLL(input, true))) << "\n"; |
||||
} |
||||
else if (command == "pretty_compile") { |
||||
std::cout << printTokens(prettyCompile(input)) << "\n"; |
||||
} |
||||
else if (command == "pretty_compile_chunk") { |
||||
std::cout << printTokens(prettyCompileChunk(input)) << "\n"; |
||||
} |
||||
else if (command == "assemble") { |
||||
std::cout << assemble(parseLLL(input, true)) << "\n"; |
||||
} |
||||
else if (command == "serialize") { |
||||
std::cout << binToHex(serialize(tokenize(input, Metadata(), false))) << "\n"; |
||||
} |
||||
else if (command == "flatten") { |
||||
std::cout << printTokens(flatten(parseLLL(input, true))) << "\n"; |
||||
} |
||||
else if (command == "deserialize") { |
||||
std::cout << printTokens(deserialize(hexToBin(input))) << "\n"; |
||||
} |
||||
else if (command == "compile") { |
||||
std::cout << binToHex(compile(input)) << "\n"; |
||||
} |
||||
else if (command == "compile_chunk") { |
||||
std::cout << binToHex(compileChunk(input)) << "\n"; |
||||
} |
||||
else if (command == "encode_datalist") { |
||||
std::vector<Node> tokens = tokenize(input); |
||||
std::vector<std::string> o; |
||||
for (int i = 0; i < (int)tokens.size(); i++) { |
||||
o.push_back(tokens[i].val); |
||||
} |
||||
std::cout << binToHex(encodeDatalist(o)) << "\n"; |
||||
} |
||||
else if (command == "decode_datalist") { |
||||
std::vector<std::string> o = decodeDatalist(hexToBin(input)); |
||||
std::vector<Node> tokens; |
||||
for (int i = 0; i < (int)o.size(); i++) |
||||
tokens.push_back(token(o[i])); |
||||
std::cout << printTokens(tokens) << "\n"; |
||||
} |
||||
else if (command == "tokenize") { |
||||
std::cout << printTokens(tokenize(input)); |
||||
} |
||||
else if (command == "biject") { |
||||
if (argv == 3) |
||||
std::cerr << "Not enough arguments for biject\n"; |
||||
int pos = decimalToUnsigned(secondInput); |
||||
std::vector<Node> n = prettyCompile(input); |
||||
if (pos >= (int)n.size()) |
||||
std::cerr << "Code position too high\n"; |
||||
Metadata m = n[pos].metadata; |
||||
std::cout << "Opcode: " << n[pos].val << ", file: " << m.file <<
|
||||
", line: " << m.ln << ", char: " << m.ch << "\n"; |
||||
} |
||||
} |
@ -0,0 +1,554 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "bignum.h" |
||||
#include "opcodes.h" |
||||
|
||||
struct programAux { |
||||
std::map<std::string, std::string> vars; |
||||
int nextVarMem; |
||||
bool allocUsed; |
||||
bool calldataUsed; |
||||
int step; |
||||
int labelLength; |
||||
}; |
||||
|
||||
struct programVerticalAux { |
||||
int height; |
||||
std::string innerScopeName; |
||||
std::map<std::string, int> dupvars; |
||||
std::map<std::string, int> funvars; |
||||
std::vector<mss> scopes; |
||||
}; |
||||
|
||||
struct programData { |
||||
programAux aux; |
||||
Node code; |
||||
int outs; |
||||
}; |
||||
|
||||
programAux Aux() { |
||||
programAux o; |
||||
o.allocUsed = false; |
||||
o.calldataUsed = false; |
||||
o.step = 0; |
||||
o.nextVarMem = 32; |
||||
return o; |
||||
} |
||||
|
||||
programVerticalAux verticalAux() { |
||||
programVerticalAux o; |
||||
o.height = 0; |
||||
o.dupvars = std::map<std::string, int>(); |
||||
o.funvars = std::map<std::string, int>(); |
||||
o.scopes = std::vector<mss>(); |
||||
return o; |
||||
} |
||||
|
||||
programData pd(programAux aux = Aux(), Node code=token("_"), int outs=0) { |
||||
programData o; |
||||
o.aux = aux; |
||||
o.code = code; |
||||
o.outs = outs; |
||||
return o; |
||||
} |
||||
|
||||
Node multiToken(Node nodes[], int len, Metadata met) { |
||||
std::vector<Node> out; |
||||
for (int i = 0; i < len; i++) { |
||||
out.push_back(nodes[i]); |
||||
} |
||||
return astnode("_", out, met); |
||||
} |
||||
|
||||
Node finalize(programData c); |
||||
|
||||
Node popwrap(Node node) { |
||||
Node nodelist[] = { |
||||
node, |
||||
token("POP", node.metadata) |
||||
}; |
||||
return multiToken(nodelist, 2, node.metadata); |
||||
} |
||||
|
||||
// Grabs variables
|
||||
mss getVariables(Node node, mss cur=mss()) { |
||||
Metadata m = node.metadata; |
||||
// Tokens don't contain any variables
|
||||
if (node.type == TOKEN) |
||||
return cur; |
||||
// Don't descend into call fragments
|
||||
else if (node.val == "lll") |
||||
return getVariables(node.args[1], cur); |
||||
// At global scope get/set/ref also declare
|
||||
else if (node.val == "get" || node.val == "set" || node.val == "ref") { |
||||
if (node.args[0].type != TOKEN) |
||||
err("Variable name must be simple token," |
||||
" not complex expression!", m); |
||||
if (!cur.count(node.args[0].val)) { |
||||
cur[node.args[0].val] = utd(cur.size() * 32 + 32); |
||||
//std::cerr << node.args[0].val << " " << cur[node.args[0].val] << "\n";
|
||||
} |
||||
} |
||||
// Recursively process children
|
||||
for (unsigned i = 0; i < node.args.size(); i++) { |
||||
cur = getVariables(node.args[i], cur); |
||||
} |
||||
return cur; |
||||
} |
||||
|
||||
// Turns LLL tree into tree of code fragments
|
||||
programData opcodeify(Node node, |
||||
programAux aux=Aux(), |
||||
programVerticalAux vaux=verticalAux()) { |
||||
std::string symb = "_"+mkUniqueToken(); |
||||
Metadata m = node.metadata; |
||||
// Get variables
|
||||
if (!aux.vars.size()) { |
||||
aux.vars = getVariables(node); |
||||
aux.nextVarMem = aux.vars.size() * 32 + 32; |
||||
} |
||||
// Numbers
|
||||
if (node.type == TOKEN) { |
||||
return pd(aux, nodeToNumeric(node), 1); |
||||
} |
||||
else if (node.val == "ref" || node.val == "get" || node.val == "set") { |
||||
std::string varname = node.args[0].val; |
||||
// Determine reference to variable
|
||||
Node varNode = tkn(aux.vars[varname], m); |
||||
//std::cerr << varname << " " << printSimple(varNode) << "\n";
|
||||
// Set variable
|
||||
if (node.val == "set") { |
||||
programData sub = opcodeify(node.args[1], aux, vaux); |
||||
if (!sub.outs) |
||||
err("Value to set variable must have nonzero arity!", m); |
||||
// What if we are setting a stack variable?
|
||||
if (vaux.dupvars.count(node.args[0].val)) { |
||||
int h = vaux.height - vaux.dupvars[node.args[0].val]; |
||||
if (h > 16) err("Too deep for stack variable (max 16)", m); |
||||
Node nodelist[] = { |
||||
sub.code, |
||||
token("SWAP"+unsignedToDecimal(h), m), |
||||
token("POP", m) |
||||
}; |
||||
return pd(sub.aux, multiToken(nodelist, 3, m), 0);
|
||||
} |
||||
// Setting a memory variable
|
||||
else { |
||||
Node nodelist[] = { |
||||
sub.code, |
||||
varNode, |
||||
token("MSTORE", m), |
||||
}; |
||||
return pd(sub.aux, multiToken(nodelist, 3, m), 0);
|
||||
} |
||||
} |
||||
// Get variable
|
||||
else if (node.val == "get") { |
||||
// Getting a stack variable
|
||||
if (vaux.dupvars.count(node.args[0].val)) { |
||||
int h = vaux.height - vaux.dupvars[node.args[0].val]; |
||||
if (h > 16) err("Too deep for stack variable (max 16)", m); |
||||
return pd(aux, token("DUP"+unsignedToDecimal(h)), 1);
|
||||
} |
||||
// Getting a memory variable
|
||||
else { |
||||
Node nodelist[] =
|
||||
{ varNode, token("MLOAD", m) }; |
||||
return pd(aux, multiToken(nodelist, 2, m), 1); |
||||
} |
||||
} |
||||
// Refer variable
|
||||
else if (node.val == "ref") { |
||||
if (vaux.dupvars.count(node.args[0].val)) |
||||
err("Cannot ref stack variable!", m); |
||||
return pd(aux, varNode, 1); |
||||
} |
||||
} |
||||
// Comments do nothing
|
||||
else if (node.val == "comment") { |
||||
Node nodelist[] = { }; |
||||
return pd(aux, multiToken(nodelist, 0, m), 0); |
||||
} |
||||
// Custom operation sequence
|
||||
// eg. (ops bytez id msize swap1 msize add 0 swap1 mstore) == alloc
|
||||
if (node.val == "ops") { |
||||
std::vector<Node> subs2; |
||||
int depth = 0; |
||||
for (unsigned i = 0; i < node.args.size(); i++) { |
||||
std::string op = upperCase(node.args[i].val); |
||||
if (node.args[i].type == ASTNODE || opinputs(op) == -1) { |
||||
programVerticalAux vaux2 = vaux; |
||||
vaux2.height = vaux.height - i - 1 + node.args.size(); |
||||
programData sub = opcodeify(node.args[i], aux, vaux2); |
||||
aux = sub.aux; |
||||
depth += sub.outs; |
||||
subs2.push_back(sub.code); |
||||
} |
||||
else { |
||||
subs2.push_back(token(op, m)); |
||||
depth += opoutputs(op) - opinputs(op); |
||||
} |
||||
} |
||||
if (depth < 0 || depth > 1) err("Stack depth mismatch", m); |
||||
return pd(aux, astnode("_", subs2, m), 0); |
||||
} |
||||
// Code blocks
|
||||
if (node.val == "lll" && node.args.size() == 2) { |
||||
if (node.args[1].val != "0") aux.allocUsed = true; |
||||
std::vector<Node> o; |
||||
o.push_back(finalize(opcodeify(node.args[0]))); |
||||
programData sub = opcodeify(node.args[1], aux, vaux); |
||||
Node code = astnode("____CODE", o, m); |
||||
Node nodelist[] = { |
||||
token("$begincode"+symb+".endcode"+symb, m), token("DUP1", m), |
||||
token("$begincode"+symb, m), sub.code, token("CODECOPY", m), |
||||
token("$endcode"+symb, m), token("JUMP", m), |
||||
token("~begincode"+symb, m), code,
|
||||
token("~endcode"+symb, m), token("JUMPDEST", m) |
||||
}; |
||||
return pd(sub.aux, multiToken(nodelist, 11, m), 1); |
||||
} |
||||
// Stack variables
|
||||
if (node.val == "with") { |
||||
programData initial = opcodeify(node.args[1], aux, vaux); |
||||
programVerticalAux vaux2 = vaux; |
||||
vaux2.dupvars[node.args[0].val] = vaux.height; |
||||
vaux2.height += 1; |
||||
if (!initial.outs) |
||||
err("Initial variable value must have nonzero arity!", m); |
||||
programData sub = opcodeify(node.args[2], initial.aux, vaux2); |
||||
Node nodelist[] = { |
||||
initial.code, |
||||
sub.code |
||||
}; |
||||
programData o = pd(sub.aux, multiToken(nodelist, 2, m), sub.outs); |
||||
if (sub.outs) |
||||
o.code.args.push_back(token("SWAP1", m)); |
||||
o.code.args.push_back(token("POP", m)); |
||||
return o; |
||||
} |
||||
// Seq of multiple statements
|
||||
if (node.val == "seq") { |
||||
std::vector<Node> children; |
||||
int lastOut = 0; |
||||
for (unsigned i = 0; i < node.args.size(); i++) { |
||||
programData sub = opcodeify(node.args[i], aux, vaux); |
||||
aux = sub.aux; |
||||
if (sub.outs == 1) { |
||||
if (i < node.args.size() - 1) sub.code = popwrap(sub.code); |
||||
else lastOut = 1; |
||||
} |
||||
children.push_back(sub.code); |
||||
} |
||||
return pd(aux, astnode("_", children, m), lastOut); |
||||
} |
||||
// 2-part conditional (if gets rewritten to unless in rewrites)
|
||||
else if (node.val == "unless" && node.args.size() == 2) { |
||||
programData cond = opcodeify(node.args[0], aux, vaux); |
||||
programData action = opcodeify(node.args[1], cond.aux, vaux); |
||||
aux = action.aux; |
||||
if (!cond.outs) err("Condition of if/unless statement has arity 0", m); |
||||
if (action.outs) action.code = popwrap(action.code); |
||||
Node nodelist[] = { |
||||
cond.code, |
||||
token("$endif"+symb, m), token("JUMPI", m), |
||||
action.code, |
||||
token("~endif"+symb, m), token("JUMPDEST", m) |
||||
}; |
||||
return pd(aux, multiToken(nodelist, 6, m), 0); |
||||
} |
||||
// 3-part conditional
|
||||
else if (node.val == "if" && node.args.size() == 3) { |
||||
programData ifd = opcodeify(node.args[0], aux, vaux); |
||||
programData thend = opcodeify(node.args[1], ifd.aux, vaux); |
||||
programData elsed = opcodeify(node.args[2], thend.aux, vaux); |
||||
aux = elsed.aux; |
||||
if (!ifd.outs) |
||||
err("Condition of if/unless statement has arity 0", m); |
||||
// Handle cases where one conditional outputs something
|
||||
// and the other does not
|
||||
int outs = (thend.outs && elsed.outs) ? 1 : 0; |
||||
if (thend.outs > outs) thend.code = popwrap(thend.code); |
||||
if (elsed.outs > outs) elsed.code = popwrap(elsed.code); |
||||
Node nodelist[] = { |
||||
ifd.code, |
||||
token("ISZERO", m), |
||||
token("$else"+symb, m), token("JUMPI", m), |
||||
thend.code, |
||||
token("$endif"+symb, m), token("JUMP", m), |
||||
token("~else"+symb, m), token("JUMPDEST", m), |
||||
elsed.code, |
||||
token("~endif"+symb, m), token("JUMPDEST", m) |
||||
}; |
||||
return pd(aux, multiToken(nodelist, 12, m), outs); |
||||
} |
||||
// While (rewritten to this in rewrites)
|
||||
else if (node.val == "until") { |
||||
programData cond = opcodeify(node.args[0], aux, vaux); |
||||
programData action = opcodeify(node.args[1], cond.aux, vaux); |
||||
aux = action.aux; |
||||
if (!cond.outs) |
||||
err("Condition of while/until loop has arity 0", m); |
||||
if (action.outs) action.code = popwrap(action.code); |
||||
Node nodelist[] = { |
||||
token("~beg"+symb, m), token("JUMPDEST", m), |
||||
cond.code, |
||||
token("$end"+symb, m), token("JUMPI", m), |
||||
action.code, |
||||
token("$beg"+symb, m), token("JUMP", m), |
||||
token("~end"+symb, m), token("JUMPDEST", m), |
||||
}; |
||||
return pd(aux, multiToken(nodelist, 10, m)); |
||||
} |
||||
// Memory allocations
|
||||
else if (node.val == "alloc") { |
||||
programData bytez = opcodeify(node.args[0], aux, vaux); |
||||
aux = bytez.aux; |
||||
if (!bytez.outs) |
||||
err("Alloc input has arity 0", m); |
||||
aux.allocUsed = true; |
||||
Node nodelist[] = { |
||||
bytez.code, |
||||
token("MSIZE", m), token("SWAP1", m), token("MSIZE", m), |
||||
token("ADD", m),
|
||||
token("0", m), token("SWAP1", m), token("MSTORE", m) |
||||
}; |
||||
return pd(aux, multiToken(nodelist, 8, m), 1); |
||||
} |
||||
// All other functions/operators
|
||||
else { |
||||
std::vector<Node> subs2; |
||||
int depth = opinputs(upperCase(node.val)); |
||||
if (depth == -1) |
||||
err("Not a function or opcode: "+node.val, m); |
||||
if ((int)node.args.size() != depth) |
||||
err("Invalid arity for "+node.val, m); |
||||
for (int i = node.args.size() - 1; i >= 0; i--) { |
||||
programVerticalAux vaux2 = vaux; |
||||
vaux2.height = vaux.height - i - 1 + node.args.size(); |
||||
programData sub = opcodeify(node.args[i], aux, vaux2); |
||||
aux = sub.aux; |
||||
if (!sub.outs) |
||||
err("Input "+unsignedToDecimal(i)+" has arity 0", sub.code.metadata); |
||||
subs2.push_back(sub.code); |
||||
} |
||||
subs2.push_back(token(upperCase(node.val), m)); |
||||
int outdepth = opoutputs(upperCase(node.val)); |
||||
return pd(aux, astnode("_", subs2, m), outdepth); |
||||
} |
||||
} |
||||
|
||||
// Adds necessary wrappers to a program
|
||||
Node finalize(programData c) { |
||||
std::vector<Node> bottom; |
||||
Metadata m = c.code.metadata; |
||||
// If we are using both alloc and variables, we need to pre-zfill
|
||||
// some memory
|
||||
if ((c.aux.allocUsed || c.aux.calldataUsed) && c.aux.vars.size() > 0) { |
||||
Node nodelist[] = { |
||||
token("0", m),
|
||||
token(unsignedToDecimal(c.aux.nextVarMem - 1)), |
||||
token("MSTORE8", m) |
||||
}; |
||||
bottom.push_back(multiToken(nodelist, 3, m)); |
||||
} |
||||
// The actual code
|
||||
bottom.push_back(c.code); |
||||
return astnode("_", bottom, m); |
||||
} |
||||
|
||||
//LLL -> code fragment tree
|
||||
Node buildFragmentTree(Node node) { |
||||
return finalize(opcodeify(node)); |
||||
} |
||||
|
||||
|
||||
// Builds a dictionary mapping labels to variable names
|
||||
programAux buildDict(Node program, programAux aux, int labelLength) { |
||||
Metadata m = program.metadata; |
||||
// Token
|
||||
if (program.type == TOKEN) { |
||||
if (isNumberLike(program)) { |
||||
aux.step += 1 + toByteArr(program.val, m).size(); |
||||
} |
||||
else if (program.val[0] == '~') { |
||||
aux.vars[program.val.substr(1)] = unsignedToDecimal(aux.step); |
||||
} |
||||
else if (program.val[0] == '$') { |
||||
aux.step += labelLength + 1; |
||||
} |
||||
else aux.step += 1; |
||||
} |
||||
// A sub-program (ie. LLL)
|
||||
else if (program.val == "____CODE") { |
||||
programAux auks = Aux(); |
||||
for (unsigned i = 0; i < program.args.size(); i++) { |
||||
auks = buildDict(program.args[i], auks, labelLength); |
||||
} |
||||
for (std::map<std::string,std::string>::iterator it=auks.vars.begin(); |
||||
it != auks.vars.end(); |
||||
it++) { |
||||
aux.vars[(*it).first] = (*it).second; |
||||
} |
||||
aux.step += auks.step; |
||||
} |
||||
// Normal sub-block
|
||||
else { |
||||
for (unsigned i = 0; i < program.args.size(); i++) { |
||||
aux = buildDict(program.args[i], aux, labelLength); |
||||
} |
||||
} |
||||
return aux; |
||||
} |
||||
|
||||
// Applies that dictionary
|
||||
Node substDict(Node program, programAux aux, int labelLength) { |
||||
Metadata m = program.metadata; |
||||
std::vector<Node> out; |
||||
std::vector<Node> inner; |
||||
if (program.type == TOKEN) { |
||||
if (program.val[0] == '$') { |
||||
std::string tokStr = "PUSH"+unsignedToDecimal(labelLength); |
||||
out.push_back(token(tokStr, m)); |
||||
int dotLoc = program.val.find('.'); |
||||
if (dotLoc == -1) { |
||||
std::string val = aux.vars[program.val.substr(1)]; |
||||
inner = toByteArr(val, m, labelLength); |
||||
} |
||||
else { |
||||
std::string start = aux.vars[program.val.substr(1, dotLoc-1)], |
||||
end = aux.vars[program.val.substr(dotLoc + 1)], |
||||
dist = decimalSub(end, start); |
||||
inner = toByteArr(dist, m, labelLength); |
||||
} |
||||
out.push_back(astnode("_", inner, m)); |
||||
} |
||||
else if (program.val[0] == '~') { } |
||||
else if (isNumberLike(program)) { |
||||
inner = toByteArr(program.val, m); |
||||
out.push_back(token("PUSH"+unsignedToDecimal(inner.size()))); |
||||
out.push_back(astnode("_", inner, m)); |
||||
} |
||||
else return program; |
||||
} |
||||
else { |
||||
for (unsigned i = 0; i < program.args.size(); i++) { |
||||
Node n = substDict(program.args[i], aux, labelLength); |
||||
if (n.type == TOKEN || n.args.size()) out.push_back(n); |
||||
} |
||||
} |
||||
return astnode("_", out, m); |
||||
} |
||||
|
||||
// Compiled fragtree -> compiled fragtree without labels
|
||||
Node dereference(Node program) { |
||||
int sz = treeSize(program) * 4; |
||||
int labelLength = 1; |
||||
while (sz >= 256) { labelLength += 1; sz /= 256; } |
||||
programAux aux = buildDict(program, Aux(), labelLength); |
||||
return substDict(program, aux, labelLength); |
||||
} |
||||
|
||||
// Dereferenced fragtree -> opcodes
|
||||
std::vector<Node> flatten(Node derefed) { |
||||
std::vector<Node> o; |
||||
if (derefed.type == TOKEN) { |
||||
o.push_back(derefed); |
||||
} |
||||
else { |
||||
for (unsigned i = 0; i < derefed.args.size(); i++) { |
||||
std::vector<Node> oprime = flatten(derefed.args[i]); |
||||
for (unsigned j = 0; j < oprime.size(); j++) o.push_back(oprime[j]); |
||||
} |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// Opcodes -> bin
|
||||
std::string serialize(std::vector<Node> codons) { |
||||
std::string o; |
||||
for (unsigned i = 0; i < codons.size(); i++) { |
||||
int v; |
||||
if (isNumberLike(codons[i])) { |
||||
v = decimalToUnsigned(codons[i].val); |
||||
} |
||||
else if (codons[i].val.substr(0,4) == "PUSH") { |
||||
v = 95 + decimalToUnsigned(codons[i].val.substr(4)); |
||||
} |
||||
else { |
||||
v = opcode(codons[i].val); |
||||
} |
||||
o += (char)v; |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// Bin -> opcodes
|
||||
std::vector<Node> deserialize(std::string ser) { |
||||
std::vector<Node> o; |
||||
int backCount = 0; |
||||
for (unsigned i = 0; i < ser.length(); i++) { |
||||
unsigned char v = (unsigned char)ser[i]; |
||||
std::string oper = op((int)v); |
||||
if (oper != "" && backCount <= 0) o.push_back(token(oper)); |
||||
else if (v >= 96 && v < 128 && backCount <= 0) { |
||||
o.push_back(token("PUSH"+unsignedToDecimal(v - 95))); |
||||
} |
||||
else o.push_back(token(unsignedToDecimal(v))); |
||||
if (v >= 96 && v < 128 && backCount <= 0) { |
||||
backCount = v - 95; |
||||
} |
||||
else backCount--; |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// Fragtree -> bin
|
||||
std::string assemble(Node fragTree) { |
||||
return serialize(flatten(dereference(fragTree))); |
||||
} |
||||
|
||||
// Fragtree -> tokens
|
||||
std::vector<Node> prettyAssemble(Node fragTree) { |
||||
return flatten(dereference(fragTree)); |
||||
} |
||||
|
||||
// LLL -> bin
|
||||
std::string compileLLL(Node program) { |
||||
return assemble(buildFragmentTree(program)); |
||||
} |
||||
|
||||
// LLL -> tokens
|
||||
std::vector<Node> prettyCompileLLL(Node program) { |
||||
return prettyAssemble(buildFragmentTree(program)); |
||||
} |
||||
|
||||
// Converts a list of integer values to binary transaction data
|
||||
std::string encodeDatalist(std::vector<std::string> vals) { |
||||
std::string o; |
||||
for (unsigned i = 0; i < vals.size(); i++) { |
||||
std::vector<Node> n = toByteArr(strToNumeric(vals[i]), Metadata(), 32); |
||||
for (unsigned j = 0; j < n.size(); j++) { |
||||
int v = decimalToUnsigned(n[j].val); |
||||
o += (char)v; |
||||
} |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// Converts binary transaction data into a list of integer values
|
||||
std::vector<std::string> decodeDatalist(std::string ser) { |
||||
std::vector<std::string> out; |
||||
for (unsigned i = 0; i < ser.length(); i+= 32) { |
||||
std::string o = "0"; |
||||
for (unsigned j = i; j < i + 32; j++) { |
||||
int vj = (int)(unsigned char)ser[j]; |
||||
o = decimalAdd(decimalMul(o, "256"), unsignedToDecimal(vj)); |
||||
} |
||||
out.push_back(o); |
||||
} |
||||
return out; |
||||
} |
@ -0,0 +1,43 @@ |
||||
#ifndef ETHSERP_COMPILER |
||||
#define ETHSERP_COMPILER |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// Compiled fragtree -> compiled fragtree without labels
|
||||
Node dereference(Node program); |
||||
|
||||
// LLL -> fragtree
|
||||
Node buildFragmentTree(Node program); |
||||
|
||||
// Dereferenced fragtree -> opcodes
|
||||
std::vector<Node> flatten(Node derefed); |
||||
|
||||
// opcodes -> bin
|
||||
std::string serialize(std::vector<Node> codons); |
||||
|
||||
// Fragtree -> bin
|
||||
std::string assemble(Node fragTree); |
||||
|
||||
// Fragtree -> opcodes
|
||||
std::vector<Node> prettyAssemble(Node fragTree); |
||||
|
||||
// LLL -> bin
|
||||
std::string compileLLL(Node program); |
||||
|
||||
// LLL -> opcodes
|
||||
std::vector<Node> prettyCompileLLL(Node program); |
||||
|
||||
// bin -> opcodes
|
||||
std::vector<Node> deserialize(std::string ser); |
||||
|
||||
// Converts a list of integer values to binary transaction data
|
||||
std::string encodeDatalist(std::vector<std::string> vals); |
||||
|
||||
// Converts binary transaction data into a list of integer values
|
||||
std::vector<std::string> decodeDatalist(std::string ser); |
||||
|
||||
#endif |
@ -0,0 +1,11 @@ |
||||
#include <libserpent/funcs.h> |
||||
#include <libserpent/bignum.h> |
||||
#include <iostream> |
||||
|
||||
using namespace std; |
||||
|
||||
int main() { |
||||
cout << printAST(compileToLLL(get_file_contents("examples/namecoin.se"))) << "\n"; |
||||
cout << decimalSub("10234", "10234") << "\n"; |
||||
cout << decimalSub("10234", "10233") << "\n"; |
||||
} |
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/collatz.se
generated
vendored
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/collatz.se
generated
vendored
@ -0,0 +1,11 @@ |
||||
x = msg.data[0] |
||||
steps = 0 |
||||
|
||||
while x > 1: |
||||
steps += 1 |
||||
if (x % 2) == 0: |
||||
x /= 2 |
||||
else: |
||||
x = 3 * x + 1 |
||||
|
||||
return(steps) |
@ -0,0 +1,274 @@ |
||||
# Ethereum forks Counterparty in 340 lines of serpent |
||||
# Not yet tested |
||||
|
||||
# assets[i] = a registered asset, assets[i].holders[j] = former or current i-holder |
||||
data assets[2^50](creator, name, calldate, callprice, dividend_paid, holders[2^50], holdersCount) |
||||
data nextAssetId |
||||
|
||||
# holdersMap: holdersMap[addr][asset] = 1 if addr holds asset |
||||
data holdersMap[2^160][2^50] |
||||
|
||||
# balances[x][y] = how much of y x holds |
||||
data balances[2^160][2^50] |
||||
|
||||
# orders[a][b] = heap of indices to (c, d, e) |
||||
# = c offers to sell d units of a at a price of e units of b per 10^18 units |
||||
# of a |
||||
data orderbooks[2^50][2^50] |
||||
|
||||
# store of general order data |
||||
data orders[2^50](seller, asset_sold, quantity, price) |
||||
data ordersCount |
||||
|
||||
# data feeds |
||||
data feeds[2^50](owner, value) |
||||
data feedCount |
||||
|
||||
# heap |
||||
data heap |
||||
extern heap: [register, push, pop, top, size] |
||||
|
||||
data cfds[2^50](maker, acceptor, feed, asset, strike, leverage, min, max, maturity) |
||||
data cfdCount |
||||
|
||||
data bets[2^50](maker, acceptor, feed, asset, makerstake, acceptorstake, eqtest, maturity) |
||||
data betCount |
||||
|
||||
def init(): |
||||
heap = create('heap.se') |
||||
|
||||
# Add units (internal method) |
||||
def add(to, asset, value): |
||||
assert msg.sender == self |
||||
self.balances[to][asset] += value |
||||
# Add the holder to the holders list |
||||
if not self.holdersMap[to][asset]: |
||||
self.holdersMap[to][asset] = 1 |
||||
c = self.assets[asset].holdersCount |
||||
self.assets[asset].holders[c] = to |
||||
self.assets[asset].holdersCount = c + 1 |
||||
|
||||
# Register a new asset |
||||
def register_asset(q, name, calldate, callprice): |
||||
newid = self.nextAssetId |
||||
self.assets[newid].creator = msg.sender |
||||
self.assets[newid].name = name |
||||
self.assets[newid].calldate = calldate |
||||
self.assets[newid].callprice = callprice |
||||
self.assets[newid].holders[0] = msg.sender |
||||
self.assets[newid].holdersCount = 1 |
||||
self.balances[msg.sender][newid] = q |
||||
self.holdersMap[msg.sender][newid] = 1 |
||||
|
||||
# Send |
||||
def send(to, asset, value): |
||||
fromval = self.balances[msg.sender][asset] |
||||
if fromval >= value: |
||||
self.balances[msg.sender][asset] -= value |
||||
self.add(to, asset, value) |
||||
|
||||
# Order |
||||
def mkorder(selling, buying, quantity, price): |
||||
# Make sure you have enough to pay for the order |
||||
assert self.balances[msg.sender][selling] >= quantity: |
||||
# Try to match existing orders |
||||
o = orderbooks[buying][selling] |
||||
if not o: |
||||
o = self.heap.register() |
||||
orderbooks[selling][buying] = o |
||||
sz = self.heap.size(o) |
||||
invprice = 10^36 / price |
||||
while quantity > 0 and sz > 0: |
||||
orderid = self.heap.pop() |
||||
p = self.orders[orderid].price |
||||
if p > invprice: |
||||
sz = 0 |
||||
else: |
||||
q = self.orders[orderid].quantity |
||||
oq = min(q, quantity) |
||||
b = self.orders[orderid].seller |
||||
self.balances[msg.sender][selling] -= oq * p / 10^18 |
||||
self.add(msg.sender, buying, oq) |
||||
self.add(b, selling, oq * p / 10^18) |
||||
self.orders[orderid].quantity = q - oq |
||||
if oq == q: |
||||
self.orders[orderid].seller = 0 |
||||
self.orders[orderid].price = 0 |
||||
self.orders[orderid].asset_sold = 0 |
||||
quantity -= oq |
||||
sz -= 1 |
||||
assert quantity > 0 |
||||
# Make the order |
||||
c = self.ordersCount |
||||
self.orders[c].seller = msg.sender |
||||
self.orders[c].asset_sold = selling |
||||
self.orders[c].quantity = quantity |
||||
self.orders[c].price = price |
||||
self.ordersCount += 1 |
||||
# Add it to the heap |
||||
o = orderbooks[selling][buying] |
||||
if not o: |
||||
o = self.heap.register() |
||||
orderbooks[selling][buying] = o |
||||
self.balances[msg.sender][selling] -= quantity |
||||
self.heap.push(o, price, c) |
||||
return(c) |
||||
|
||||
def cancel_order(id): |
||||
if self.orders[id].seller == msg.sender: |
||||
self.orders[id].seller = 0 |
||||
self.orders[id].price = 0 |
||||
self.balances[msg.sender][self.orders[id].asset_sold] += self.orders[id].quantity |
||||
self.orders[id].quantity = 0 |
||||
self.orders[id].asset_sold = 0 |
||||
|
||||
def register_feed(): |
||||
c = self.feedCount |
||||
self.feeds[c].owner = msg.sender |
||||
self.feedCount = c + 1 |
||||
return(c) |
||||
|
||||
def set_feed(id, v): |
||||
if self.feeds[id].owner == msg.sender: |
||||
self.feeds[id].value = v |
||||
|
||||
def mk_cfd_offer(feed, asset, strike, leverage, min, max, maturity): |
||||
b = self.balances[msg.sender][asset] |
||||
req = max((strike - min) * leverage, (strike - max) * leverage) |
||||
assert b >= req |
||||
self.balances[msg.sender][asset] = b - req |
||||
c = self.cfdCount |
||||
self.cfds[c].maker = msg.sender |
||||
self.cfds[c].feed = feed |
||||
self.cfds[c].asset = asset |
||||
self.cfds[c].strike = strike |
||||
self.cfds[c].leverage = leverage |
||||
self.cfds[c].min = min |
||||
self.cfds[c].max = max |
||||
self.cfds[c].maturity = maturity |
||||
self.cfdCount = c + 1 |
||||
return(c) |
||||
|
||||
def accept_cfd_offer(c): |
||||
assert not self.cfds[c].acceptor and self.cfds[c].maker |
||||
asset = self.cfds[c].asset |
||||
strike = self.cfds[c].strike |
||||
min = self.cfds[c].min |
||||
max = self.cfds[c].max |
||||
leverage = self.cfds[c].leverage |
||||
b = self.balances[msg.sender][asset] |
||||
req = max((min - strike) * leverage, (max - strike) * leverage) |
||||
assert b >= req |
||||
self.balances[msg.sender][asset] = b - req |
||||
self.cfds[c].acceptor = msg.sender |
||||
self.cfds[c].maturity += block.timestamp |
||||
|
||||
def claim_cfd_offer(c): |
||||
asset = self.cfds[c].asset |
||||
strike = self.cfds[c].strike |
||||
min = self.cfds[c].min |
||||
max = self.cfds[c].max |
||||
leverage = self.cfds[c].leverage |
||||
v = self.feeds[self.cfds[c].feed].value |
||||
assert v <= min or v >= max or block.timestamp >= self.cfds[c].maturity |
||||
maker_req = max((strike - min) * leverage, (strike - max) * leverage) |
||||
acceptor_req = max((min - strike) * leverage, (max - strike) * leverage) |
||||
paydelta = (strike - v) * leverage |
||||
self.add(self.cfds[c].maker, asset, maker_req + paydelta) |
||||
self.add(self.cfds[c].acceptor, asset, acceptor_req - paydelta) |
||||
self.cfds[c].maker = 0 |
||||
self.cfds[c].acceptor = 0 |
||||
self.cfds[c].feed = 0 |
||||
self.cfds[c].asset = 0 |
||||
self.cfds[c].strike = 0 |
||||
self.cfds[c].leverage = 0 |
||||
self.cfds[c].min = 0 |
||||
self.cfds[c].max = 0 |
||||
self.cfds[c].maturity = 0 |
||||
|
||||
def withdraw_cfd_offer(c): |
||||
if self.cfds[c].maker == msg.sender and not self.cfds[c].acceptor: |
||||
asset = self.cfds[c].asset |
||||
strike = self.cfds[c].strike |
||||
min = self.cfds[c].min |
||||
max = self.cfds[c].max |
||||
leverage = self.cfds[c].leverage |
||||
maker_req = max((strike - min) * leverage, (strike - max) * leverage) |
||||
self.balances[self.cfds[c].maker][asset] += maker_req |
||||
self.cfds[c].maker = 0 |
||||
self.cfds[c].acceptor = 0 |
||||
self.cfds[c].feed = 0 |
||||
self.cfds[c].asset = 0 |
||||
self.cfds[c].strike = 0 |
||||
self.cfds[c].leverage = 0 |
||||
self.cfds[c].min = 0 |
||||
self.cfds[c].max = 0 |
||||
self.cfds[c].maturity = 0 |
||||
|
||||
|
||||
def mk_bet_offer(feed, asset, makerstake, acceptorstake, eqtest, maturity): |
||||
assert self.balances[msg.sender][asset] >= makerstake |
||||
c = self.betCount |
||||
self.bets[c].maker = msg.sender |
||||
self.bets[c].feed = feed |
||||
self.bets[c].asset = asset |
||||
self.bets[c].makerstake = makerstake |
||||
self.bets[c].acceptorstake = acceptorstake |
||||
self.bets[c].eqtest = eqtest |
||||
self.bets[c].maturity = maturity |
||||
self.balances[msg.sender][asset] -= makerstake |
||||
self.betCount = c + 1 |
||||
return(c) |
||||
|
||||
def accept_bet_offer(c): |
||||
assert self.bets[c].maker and not self.bets[c].acceptor |
||||
asset = self.bets[c].asset |
||||
acceptorstake = self.bets[c].acceptorstake |
||||
assert self.balances[msg.sender][asset] >= acceptorstake |
||||
self.balances[msg.sender][asset] -= acceptorstake |
||||
self.bets[c].acceptor = msg.sender |
||||
|
||||
def claim_bet_offer(c): |
||||
assert block.timestamp >= self.bets[c].maturity |
||||
v = self.feeds[self.bets[c].feed].value |
||||
totalstake = self.bets[c].makerstake + self.bets[c].acceptorstake |
||||
if v == self.bets[c].eqtest: |
||||
self.add(self.bets[c].maker, self.bets[c].asset, totalstake) |
||||
else: |
||||
self.add(self.bets[c].acceptor, self.bets[c].asset, totalstake) |
||||
self.bets[c].maker = 0 |
||||
self.bets[c].feed = 0 |
||||
self.bets[c].asset = 0 |
||||
self.bets[c].makerstake = 0 |
||||
self.bets[c].acceptorstake = 0 |
||||
self.bets[c].eqtest = 0 |
||||
self.bets[c].maturity = 0 |
||||
|
||||
def cancel_bet(c): |
||||
assert not self.bets[c].acceptor and msg.sender == self.bets[c].maker |
||||
self.balances[msg.sender][self.bets[c].asset] += self.bets[c].makerstake |
||||
self.bets[c].maker = 0 |
||||
self.bets[c].feed = 0 |
||||
self.bets[c].asset = 0 |
||||
self.bets[c].makerstake = 0 |
||||
self.bets[c].acceptorstake = 0 |
||||
self.bets[c].eqtest = 0 |
||||
self.bets[c].maturity = 0 |
||||
|
||||
def dividend(holder_asset, divvying_asset, ratio): |
||||
i = 0 |
||||
sz = self.assets[holder_asset].holdersCount |
||||
t = 0 |
||||
holders = array(sz) |
||||
payments = array(sz) |
||||
while i < sz: |
||||
holders[i] = self.assets[holder_asset].holders[i] |
||||
payments[i] = self.balances[holders[i]][holder_asset] * ratio / 10^18 |
||||
t += payments[i] |
||||
i += 1 |
||||
if self.balances[msg.sender][divvying_asset] >= t: |
||||
i = 0 |
||||
while i < sz: |
||||
self.add(holders[i], divvying_asset, payments[i]) |
||||
i += 1 |
||||
self.balances[msg.sender][divvying_asset] -= t |
@ -0,0 +1,69 @@ |
||||
data heaps[2^50](owner, size, nodes[2^50](key, value)) |
||||
data heapIndex |
||||
|
||||
def register(): |
||||
i = self.heapIndex |
||||
self.heaps[i].owner = msg.sender |
||||
self.heapIndex = i + 1 |
||||
return(i) |
||||
|
||||
def push(heap, key, value): |
||||
assert msg.sender == self.heaps[heap].owner |
||||
sz = self.heaps[heap].size |
||||
self.heaps[heap].nodes[sz].key = key |
||||
self.heaps[heap].nodes[sz].value = value |
||||
k = sz + 1 |
||||
while k > 1: |
||||
bottom = self.heaps[heap].nodes[k].key |
||||
top = self.heaps[heap].nodes[k/2].key |
||||
if bottom < top: |
||||
tvalue = self.heaps[heap].nodes[k/2].value |
||||
bvalue = self.heaps[heap].nodes[k].value |
||||
self.heaps[heap].nodes[k].key = top |
||||
self.heaps[heap].nodes[k].value = tvalue |
||||
self.heaps[heap].nodes[k/2].key = bottom |
||||
self.heaps[heap].nodes[k/2].value = bvalue |
||||
k /= 2 |
||||
else: |
||||
k = 0 |
||||
self.heaps[heap].size = sz + 1 |
||||
|
||||
def pop(heap): |
||||
sz = self.heaps[heap].size |
||||
assert sz |
||||
prevtop = self.heaps[heap].nodes[1].value |
||||
self.heaps[heap].nodes[1].key = self.heaps[heap].nodes[sz].key |
||||
self.heaps[heap].nodes[1].value = self.heaps[heap].nodes[sz].value |
||||
self.heaps[heap].nodes[sz].key = 0 |
||||
self.heaps[heap].nodes[sz].value = 0 |
||||
top = self.heaps[heap].nodes[1].key |
||||
k = 1 |
||||
while k * 2 < sz: |
||||
bottom1 = self.heaps[heap].nodes[k * 2].key |
||||
bottom2 = self.heaps[heap].nodes[k * 2 + 1].key |
||||
if bottom1 < top and (bottom1 < bottom2 or k * 2 + 1 >= sz): |
||||
tvalue = self.heaps[heap].nodes[1].value |
||||
bvalue = self.heaps[heap].nodes[k * 2].value |
||||
self.heaps[heap].nodes[k].key = bottom1 |
||||
self.heaps[heap].nodes[k].value = bvalue |
||||
self.heaps[heap].nodes[k * 2].key = top |
||||
self.heaps[heap].nodes[k * 2].value = tvalue |
||||
k = k * 2 |
||||
elif bottom2 < top and bottom2 < bottom1 and k * 2 + 1 < sz: |
||||
tvalue = self.heaps[heap].nodes[1].value |
||||
bvalue = self.heaps[heap].nodes[k * 2 + 1].value |
||||
self.heaps[heap].nodes[k].key = bottom2 |
||||
self.heaps[heap].nodes[k].value = bvalue |
||||
self.heaps[heap].nodes[k * 2 + 1].key = top |
||||
self.heaps[heap].nodes[k * 2 + 1].value = tvalue |
||||
k = k * 2 + 1 |
||||
else: |
||||
k = sz |
||||
self.heaps[heap].size = sz - 1 |
||||
return(prevtop) |
||||
|
||||
def top(heap): |
||||
return(self.heaps[heap].nodes[1].value) |
||||
|
||||
def size(heap): |
||||
return(self.heaps[heap].size) |
53
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/crowdfund.se
generated
vendored
53
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/crowdfund.se
generated
vendored
@ -0,0 +1,53 @@ |
||||
data campaigns[2^80](recipient, goal, deadline, contrib_total, contrib_count, contribs[2^50](sender, value)) |
||||
|
||||
def create_campaign(id, recipient, goal, timelimit): |
||||
if self.campaigns[id].recipient: |
||||
return(0) |
||||
self.campaigns[id].recipient = recipient |
||||
self.campaigns[id].goal = goal |
||||
self.campaigns[id].deadline = block.timestamp + timelimit |
||||
|
||||
def contribute(id): |
||||
# Update contribution total |
||||
total_contributed = self.campaigns[id].contrib_total + msg.value |
||||
self.campaigns[id].contrib_total = total_contributed |
||||
|
||||
# Record new contribution |
||||
sub_index = self.campaigns[id].contrib_count |
||||
self.campaigns[id].contribs[sub_index].sender = msg.sender |
||||
self.campaigns[id].contribs[sub_index].value = msg.value |
||||
self.campaigns[id].contrib_count = sub_index + 1 |
||||
|
||||
# Enough funding? |
||||
if total_contributed >= self.campaigns[id].goal: |
||||
send(self.campaigns[id].recipient, total_contributed) |
||||
self.clear(id) |
||||
return(1) |
||||
|
||||
# Expired? |
||||
if block.timestamp > self.campaigns[id].deadline: |
||||
i = 0 |
||||
c = self.campaigns[id].contrib_count |
||||
while i < c: |
||||
send(self.campaigns[id].contribs[i].sender, self.campaigns[id].contribs[i].value) |
||||
i += 1 |
||||
self.clear(id) |
||||
return(2) |
||||
|
||||
def progress_report(id): |
||||
return(self.campaigns[id].contrib_total) |
||||
|
||||
# Clearing function for internal use |
||||
def clear(id): |
||||
if self == msg.sender: |
||||
self.campaigns[id].recipient = 0 |
||||
self.campaigns[id].goal = 0 |
||||
self.campaigns[id].deadline = 0 |
||||
c = self.campaigns[id].contrib_count |
||||
self.campaigns[id].contrib_count = 0 |
||||
self.campaigns[id].contrib_total = 0 |
||||
i = 0 |
||||
while i < c: |
||||
self.campaigns[id].contribs[i].sender = 0 |
||||
self.campaigns[id].contribs[i].value = 0 |
||||
i += 1 |
136
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/futarchy.se
generated
vendored
136
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/futarchy.se
generated
vendored
@ -0,0 +1,136 @@ |
||||
# 0: current epoch |
||||
# 1: number of proposals |
||||
# 2: master currency |
||||
# 3: last winning market |
||||
# 4: last txid |
||||
# 5: long-term ema currency units purchased |
||||
# 6: last block when currency units purchased |
||||
# 7: ether allocated to last round |
||||
# 8: last block when currency units claimed |
||||
# 9: ether allocated to current round |
||||
# 1000+: [proposal address, market ID, totprice, totvolume] |
||||
|
||||
init: |
||||
# We technically have two levels of epoch here. We have |
||||
# one epoch of 1000, to synchronize with the 1000 epoch |
||||
# of the market, and then 100 of those epochs make a |
||||
# meta-epoch (I'll nominate the term "seculum") over |
||||
# which the futarchy protocol will take place |
||||
contract.storage[0] = block.number / 1000 |
||||
# The master currency of the futarchy. The futarchy will |
||||
# assign currency units to whoever the prediction market |
||||
# thinks will best increase the currency's value |
||||
master_currency = create('subcurrency.se') |
||||
contract.storage[2] = master_currency |
||||
code: |
||||
curepoch = block.number / 1000 |
||||
prevepoch = contract.storage[0] |
||||
if curepoch > prevepoch: |
||||
if (curepoch % 100) > 50: |
||||
# Collect price data |
||||
# We take an average over 50 subepochs to determine |
||||
# the price of each asset, weighting by volume to |
||||
# prevent abuse |
||||
contract.storage[0] = curepoch |
||||
i = 0 |
||||
numprop = contract.storage[1] |
||||
while i < numprop: |
||||
market = contract.storage[1001 + i * 4] |
||||
price = call(market, 2) |
||||
volume = call(market, 3) |
||||
contract.storage[1002 + i * 4] += price |
||||
contract.storage[1003 + i * 4] += volume * price |
||||
i += 1 |
||||
if (curepoch / 100) > (prevepoch / 100): |
||||
# If we are entering a new seculum, we determine the |
||||
# market with the highest total average price |
||||
best = 0 |
||||
bestmarket = 0 |
||||
besti = 0 |
||||
i = 0 |
||||
while i < numprop: |
||||
curtotprice = contract.storage[1002 + i * 4] |
||||
curvolume = contract.storage[1002 + i * 4] |
||||
curavgprice = curtotprice / curvolume |
||||
if curavgprice > best: |
||||
best = curavgprice |
||||
besti = i |
||||
bestmarket = contract.storage[1003 + i * 4] |
||||
i += 1 |
||||
# Reset the number of proposals to 0 |
||||
contract.storage[1] = 0 |
||||
# Reward the highest proposal |
||||
call(contract.storage[2], [best, 10^9, 0], 3) |
||||
# Record the winning market so we can later appropriately |
||||
# compensate the participants |
||||
contract.storage[2] = bestmarket |
||||
# The amount of ether allocated to the last round |
||||
contract.storage[7] = contract.storage[9] |
||||
# The amount of ether allocated to the next round |
||||
contract.storage[9] = contract.balance / 2 |
||||
# Make a proposal [0, address] |
||||
if msg.data[0] == 0 and curepoch % 100 < 50: |
||||
pid = contract.storage[1] |
||||
market = create('market.se') |
||||
c1 = create('subcurrency.se') |
||||
c2 = create('subcurrency.se') |
||||
call(market, [c1, c2], 2) |
||||
contract.storage[1000 + pid * 4] = msg.data[1] |
||||
contract.storage[1001 + pid * 4] = market |
||||
contract.storage[1] += 1 |
||||
# Claim ether [1, address] |
||||
# One unit of the first currency in the last round's winning |
||||
# market entitles you to a quantity of ether that was decided |
||||
# at the start of that epoch |
||||
elif msg.data[0] == 1: |
||||
first_subcurrency = call(contract.storage[2], 3) |
||||
# We ask the first subcurrency contract what the last transaction was. The |
||||
# way to make a claim is to send the amount of first currency units that |
||||
# you wish to claim with, and then immediately call this contract. For security |
||||
# it makes sense to set up a tx which sends both messages in sequence atomically |
||||
data = call(first_subcurrency, [], 0, 4) |
||||
from = data[0] |
||||
to = data[1] |
||||
value = data[2] |
||||
txid = data[3] |
||||
if txid > contract.storage[4] and to == contract.address: |
||||
send(to, contract.storage[7] * value / 10^9) |
||||
contract.storage[4] = txid |
||||
# Claim second currency [2, address] |
||||
# One unit of the second currency in the last round's winning |
||||
# market entitles you to one unit of the futarchy's master |
||||
# currency |
||||
elif msg.data[0] == 2: |
||||
second_subcurrency = call(contract.storage[2], 3) |
||||
data = call(first_subcurrency, [], 0, 4) |
||||
from = data[0] |
||||
to = data[1] |
||||
value = data[2] |
||||
txid = data[3] |
||||
if txid > contract.storage[4] and to == contract.address: |
||||
call(contract.storage[2], [to, value], 2) |
||||
contract.storage[4] = txid |
||||
# Purchase currency for ether (target releasing 10^9 units per seculum) |
||||
# Price starts off 1 eth for 10^9 units but increases hyperbolically to |
||||
# limit issuance |
||||
elif msg.data[0] == 3: |
||||
pre_ema = contract.storage[5] |
||||
post_ema = pre_ema + msg.value |
||||
pre_reserve = 10^18 / (10^9 + pre_ema / 10^9) |
||||
post_reserve = 10^18 / (10^9 + post_ema / 10^9) |
||||
call(contract.storage[2], [msg.sender, pre_reserve - post_reserve], 2) |
||||
last_sold = contract.storage[6] |
||||
contract.storage[5] = pre_ema * (100000 + last_sold - block.number) + msg.value |
||||
contract.storage[6] = block.number |
||||
# Claim all currencies as the ether miner of the current block |
||||
elif msg.data[0] == 2 and msg.sender == block.coinbase and block.number > contract.storage[8]: |
||||
i = 0 |
||||
numproposals = contract.storage[1] |
||||
while i < numproposals: |
||||
market = contract.storage[1001 + i * 3] |
||||
fc = call(market, 4) |
||||
sc = call(market, 5) |
||||
call(fc, [msg.sender, 1000], 2) |
||||
call(sc, [msg.sender, 1000], 2) |
||||
i += 1 |
||||
contract.storage[8] = block.number |
55
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/heap.se
generated
vendored
55
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/heap.se
generated
vendored
@ -0,0 +1,55 @@ |
||||
# 0: size |
||||
# 1-n: elements |
||||
|
||||
init: |
||||
contract.storage[1000] = msg.sender |
||||
code: |
||||
# Only owner of the heap is allowed to modify it |
||||
if contract.storage[1000] != msg.sender: |
||||
stop |
||||
# push |
||||
if msg.data[0] == 0: |
||||
sz = contract.storage[0] |
||||
contract.storage[sz + 1] = msg.data[1] |
||||
k = sz + 1 |
||||
while k > 1: |
||||
bottom = contract.storage[k] |
||||
top = contract.storage[k/2] |
||||
if bottom < top: |
||||
contract.storage[k] = top |
||||
contract.storage[k/2] = bottom |
||||
k /= 2 |
||||
else: |
||||
k = 0 |
||||
contract.storage[0] = sz + 1 |
||||
# pop |
||||
elif msg.data[0] == 1: |
||||
sz = contract.storage[0] |
||||
if !sz: |
||||
return(0) |
||||
prevtop = contract.storage[1] |
||||
contract.storage[1] = contract.storage[sz] |
||||
contract.storage[sz] = 0 |
||||
top = contract.storage[1] |
||||
k = 1 |
||||
while k * 2 < sz: |
||||
bottom1 = contract.storage[k * 2] |
||||
bottom2 = contract.storage[k * 2 + 1] |
||||
if bottom1 < top and (bottom1 < bottom2 or k * 2 + 1 >= sz): |
||||
contract.storage[k] = bottom1 |
||||
contract.storage[k * 2] = top |
||||
k = k * 2 |
||||
elif bottom2 < top and bottom2 < bottom1 and k * 2 + 1 < sz: |
||||
contract.storage[k] = bottom2 |
||||
contract.storage[k * 2 + 1] = top |
||||
k = k * 2 + 1 |
||||
else: |
||||
k = sz |
||||
contract.storage[0] = sz - 1 |
||||
return(prevtop) |
||||
# top |
||||
elif msg.data[0] == 2: |
||||
return(contract.storage[1]) |
||||
# size |
||||
elif msg.data[0] == 3: |
||||
return(contract.storage[0]) |
117
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/market.se
generated
vendored
117
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/market.se
generated
vendored
@ -0,0 +1,117 @@ |
||||
# Creates a decentralized market between any two subcurrencies |
||||
|
||||
# Here, the first subcurrency is the base asset and the second |
||||
# subcurrency is the asset priced against the base asset. Hence, |
||||
# "buying" refers to trading the first for the second, and |
||||
# "selling" refers to trading the second for the first |
||||
|
||||
# storage 0: buy orders |
||||
# storage 1: sell orders |
||||
# storage 1000: first subcurrency |
||||
# storage 1001: last first subcurrency txid |
||||
# storage 2000: second subcurrency |
||||
# storage 2001: last second subcurrency txid |
||||
# storage 3000: current epoch |
||||
# storage 4000: price |
||||
# storage 4001: volume |
||||
|
||||
init: |
||||
# Heap for buy orders |
||||
contract.storage[0] = create('heap.se') |
||||
# Heap for sell orders |
||||
contract.storage[1] = create('heap.se') |
||||
code: |
||||
# Initialize with [ first_subcurrency, second_subcurrency ] |
||||
if !contract.storage[1000]: |
||||
contract.storage[1000] = msg.data[0] # First subcurrency |
||||
contract.storage[1001] = -1 |
||||
contract.storage[2000] = msg.data[1] # Second subcurrency |
||||
contract.storage[2001] = -1 |
||||
contract.storage[3000] = block.number / 1000 |
||||
stop |
||||
first_subcurrency = contract.storage[1000] |
||||
second_subcurrency = contract.storage[2000] |
||||
buy_heap = contract.storage[0] |
||||
sell_heap = contract.storage[1] |
||||
# This contract operates in "epochs" of 100 blocks |
||||
# At the end of each epoch, we process all orders |
||||
# simultaneously, independent of order. This algorithm |
||||
# prevents front-running, and generates a profit from |
||||
# the spread. The profit is permanently kept in the |
||||
# market (ie. destroyed), making both subcurrencies |
||||
# more valuable |
||||
|
||||
# Epoch transition code |
||||
if contract.storage[3000] < block.number / 100: |
||||
done = 0 |
||||
volume = 0 |
||||
while !done: |
||||
# Grab the top buy and sell order from each heap |
||||
topbuy = call(buy_heap, 1) |
||||
topsell = call(sell_heap, 1) |
||||
# An order is recorded in the heap as: |
||||
# Buys: (2^48 - 1 - price) * 2^208 + units of first currency * 2^160 + from |
||||
# Sells: price * 2^208 + units of second currency * 2^160 + from |
||||
buyprice = -(topbuy / 2^208) |
||||
buyfcvalue = (topbuy / 2^160) % 2^48 |
||||
buyer = topbuy % 2^160 |
||||
sellprice = topsell / 2^208 |
||||
sellscvalue = (topsell / 2^160) % 2^48 |
||||
seller = topsell % 2^160 |
||||
# Heap empty, or no more matching orders |
||||
if not topbuy or not topsell or buyprice < sellprice: |
||||
done = 1 |
||||
else: |
||||
# Add to volume counter |
||||
volume += buyfcvalue |
||||
# Calculate how much of the second currency the buyer gets, and |
||||
# how much of the first currency the seller gets |
||||
sellfcvalue = sellscvalue / buyprice |
||||
buyscvalue = buyfcvalue * sellprice |
||||
# Send the currency units along |
||||
call(second_subcurrency, [buyer, buyscvalue], 2) |
||||
call(first_subcurrency, [seller, sellfcvalue], 2) |
||||
if volume: |
||||
contract.storage[4000] = (buyprice + sellprice) / 2 |
||||
contract.storage[4001] = volume |
||||
contract.storage[3000] = block.number / 100 |
||||
# Make buy order [0, price] |
||||
if msg.data[0] == 0: |
||||
# We ask the first subcurrency contract what the last transaction was. The |
||||
# way to make a buy order is to send the amount of first currency units that |
||||
# you wish to buy with, and then immediately call this contract. For security |
||||
# it makes sense to set up a tx which sends both messages in sequence atomically |
||||
data = call(first_subcurrency, [], 0, 4) |
||||
from = data[0] |
||||
to = data[1] |
||||
value = data[2] |
||||
txid = data[3] |
||||
price = msg.data[1] |
||||
if txid > contract.storage[1001] and to == contract.address: |
||||
contract.storage[1001] = txid |
||||
# Adds the order to the heap |
||||
call(buy_heap, [0, -price * 2^208 + (value % 2^48) * 2^160 + from], 2) |
||||
# Make sell order [1, price] |
||||
elif msg.data[0] == 1: |
||||
# Same mechanics as buying |
||||
data = call(second_subcurrency, [], 0, 4) |
||||
from = data[0] |
||||
to = data[1] |
||||
value = data[2] |
||||
txid = data[3] |
||||
price = msg.data[1] |
||||
if txid > contract.storage[2001] and to == contract.address: |
||||
contract.storage[2001] = txid |
||||
call(sell_heap, [0, price * 2^208 + (value % 2^48) * 2^160 + from], 2) |
||||
# Ask for price |
||||
elif msg.data[0] == 2: |
||||
return(contract.storage[4000]) |
||||
# Ask for volume |
||||
elif msg.data[0] == 3: |
||||
return(contract.storage[1000]) |
||||
# Ask for first currency |
||||
elif msg.data[0] == 4: |
||||
return(contract.storage[2000]) |
||||
# Ask for second currency |
||||
elif msg.data[0] == 5: |
||||
return(contract.storage[4001]) |
@ -0,0 +1,35 @@ |
||||
# Initialization |
||||
# Admin can issue and delete at will |
||||
init: |
||||
contract.storage[0] = msg.sender |
||||
code: |
||||
# If a message with one item is sent, that's a balance query |
||||
if msg.datasize == 1: |
||||
addr = msg.data[0] |
||||
return(contract.storage[addr]) |
||||
# If a message with two items [to, value] are sent, that's a transfer request |
||||
elif msg.datasize == 2: |
||||
from = msg.sender |
||||
fromvalue = contract.storage[from] |
||||
to = msg.data[0] |
||||
value = msg.data[1] |
||||
if fromvalue >= value and value > 0 and to > 4: |
||||
contract.storage[from] = fromvalue - value |
||||
contract.storage[to] += value |
||||
contract.storage[2] = from |
||||
contract.storage[3] = to |
||||
contract.storage[4] = value |
||||
contract.storage[5] += 1 |
||||
return(1) |
||||
return(0) |
||||
elif msg.datasize == 3 and msg.sender == contract.storage[0]: |
||||
# Admin can issue at will by sending a [to, value, 0] message |
||||
if msg.data[2] == 0: |
||||
contract.storage[msg.data[0]] += msg.data[1] |
||||
# Change admin [ newadmin, 0, 1 ] |
||||
# Set admin to 0 to disable administration |
||||
elif msg.data[2] == 1: |
||||
contract.storage[0] = msg.data[0] |
||||
# Fetch last transaction |
||||
else: |
||||
return([contract.storage[2], contract.storage[3], contract.storage[4], contract.storage[5]], 4) |
39
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/test.py
generated
vendored
39
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/cyberdyne/test.py
generated
vendored
@ -0,0 +1,39 @@ |
||||
from __future__ import print_function |
||||
import pyethereum |
||||
t = pyethereum.tester |
||||
s = t.state() |
||||
# Create currencies |
||||
c1 = s.contract('subcurrency.se') |
||||
print("First currency: %s" % c1) |
||||
c2 = s.contract('subcurrency.se') |
||||
print("First currency: %s" % c2) |
||||
# Allocate units |
||||
s.send(t.k0, c1, 0, [t.a0, 1000, 0]) |
||||
s.send(t.k0, c1, 0, [t.a1, 1000, 0]) |
||||
s.send(t.k0, c2, 0, [t.a2, 1000000, 0]) |
||||
s.send(t.k0, c2, 0, [t.a3, 1000000, 0]) |
||||
print("Allocated units") |
||||
# Market |
||||
m = s.contract('market.se') |
||||
s.send(t.k0, m, 0, [c1, c2]) |
||||
# Place orders |
||||
s.send(t.k0, c1, 0, [m, 1000]) |
||||
s.send(t.k0, m, 0, [0, 1200]) |
||||
s.send(t.k1, c1, 0, [m, 1000]) |
||||
s.send(t.k1, m, 0, [0, 1400]) |
||||
s.send(t.k2, c2, 0, [m, 1000000]) |
||||
s.send(t.k2, m, 0, [1, 800]) |
||||
s.send(t.k3, c2, 0, [m, 1000000]) |
||||
s.send(t.k3, m, 0, [1, 600]) |
||||
print("Orders placed") |
||||
# Next epoch and ping |
||||
s.mine(100) |
||||
print("Mined 100") |
||||
s.send(t.k0, m, 0, []) |
||||
print("Updating") |
||||
# Check |
||||
assert s.send(t.k0, c2, 0, [t.a0]) == [800000] |
||||
assert s.send(t.k0, c2, 0, [t.a1]) == [600000] |
||||
assert s.send(t.k0, c1, 0, [t.a2]) == [833] |
||||
assert s.send(t.k0, c1, 0, [t.a3]) == [714] |
||||
print("Balance checks passed") |
12
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/datafeed.se
generated
vendored
12
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/datafeed.se
generated
vendored
@ -0,0 +1,12 @@ |
||||
# Database updateable only by the original creator |
||||
data creator |
||||
|
||||
def init(): |
||||
self.creator = msg.sender |
||||
|
||||
def update(k, v): |
||||
if msg.sender == self.creator: |
||||
self.storage[k] = v |
||||
|
||||
def query(k): |
||||
return(self.storage[k]) |
40
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/ecrecover.se
generated
vendored
40
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/ecrecover.se
generated
vendored
@ -0,0 +1,40 @@ |
||||
# So I looked up on Wikipedia what Jacobian form actually is, and noticed that it's |
||||
# actually a rather different and more clever construction than the naive version |
||||
# that I created. It may possible to achieve a further 20-50% savings by applying |
||||
# that version. |
||||
|
||||
extern all: [call] |
||||
|
||||
data JORDANMUL |
||||
data JORDANADD |
||||
data EXP |
||||
|
||||
def init(): |
||||
self.JORDANMUL = create('jacobian_mul.se') |
||||
self.JORDANADD = create('jacobian_add.se') |
||||
self.EXP = create('modexp.se') |
||||
|
||||
def call(h, v, r, s): |
||||
N = -432420386565659656852420866394968145599 |
||||
P = -4294968273 |
||||
h = mod(h, N) |
||||
r = mod(r, P) |
||||
s = mod(s, N) |
||||
Gx = 55066263022277343669578718895168534326250603453777594175500187360389116729240 |
||||
Gy = 32670510020758816978083085130507043184471273380659243275938904335757337482424 |
||||
x = r |
||||
xcubed = mulmod(mulmod(x, x, P), x, P) |
||||
beta = self.EXP.call(addmod(xcubed, 7, P), div(P + 1, 4), P) |
||||
|
||||
# Static-gascost ghetto conditional |
||||
y_is_positive = mod(v, 2) xor mod(beta, 2) |
||||
y = beta * y_is_positive + (P - beta) * (1 - y_is_positive) |
||||
|
||||
GZ = self.JORDANMUL.call(Gx, 1, Gy, 1, N - h, outsz=4) |
||||
XY = self.JORDANMUL.call(x, 1, y, 1, s, outsz=4) |
||||
COMB = self.JORDANADD.call(GZ[0], GZ[1], GZ[2], GZ[3], XY[0], XY[1], XY[2], XY[3], 1, outsz=5) |
||||
COMB[4] = self.EXP.call(r, N - 2, N) |
||||
Q = self.JORDANMUL.call(data=COMB, datasz=5, outsz=4) |
||||
ox = mulmod(Q[0], self.EXP.call(Q[1], P - 2, P), P) |
||||
oy = mulmod(Q[2], self.EXP.call(Q[3], P - 2, P), P) |
||||
return([ox, oy], 2) |
File diff suppressed because one or more lines are too long
@ -0,0 +1,32 @@ |
||||
extern all: [call] |
||||
data DOUBLE |
||||
|
||||
def init(): |
||||
self.DOUBLE = create('jacobian_double.se') |
||||
|
||||
def call(axn, axd, ayn, ayd, bxn, bxd, byn, byd): |
||||
if !axn and !ayn: |
||||
o = [bxn, bxd, byn, byd] |
||||
if !bxn and !byn: |
||||
o = [axn, axd, ayn, ayd] |
||||
if o: |
||||
return(o, 4) |
||||
with P = -4294968273: |
||||
if addmod(mulmod(axn, bxd, P), P - mulmod(axd, bxn, P), P) == 0: |
||||
if addmod(mulmod(ayn, byd, P), P - mulmod(ayd, byn, P), P) == 0: |
||||
return(self.DOUBLE.call(axn, axd, ayn, ayd, outsz=4), 4) |
||||
else: |
||||
return([0, 1, 0, 1], 4) |
||||
with mn = mulmod(addmod(mulmod(byn, ayd, P), P - mulmod(ayn, byd, P), P), mulmod(bxd, axd, P), P): |
||||
with md = mulmod(mulmod(byd, ayd, P), addmod(mulmod(bxn, axd, P), P - mulmod(axn, bxd, P), P), P): |
||||
with msqn = mulmod(mn, mn, P): |
||||
with msqd = mulmod(md, md, P): |
||||
with msqman = addmod(mulmod(msqn, axd, P), P - mulmod(msqd, axn, P), P): |
||||
with msqmad = mulmod(msqd, axd, P): |
||||
with xn = addmod(mulmod(msqman, bxd, P), P - mulmod(msqmad, bxn, P), P): |
||||
with xd = mulmod(msqmad, bxd, P): |
||||
with mamxn = mulmod(mn, addmod(mulmod(axn, xd, P), P - mulmod(xn, axd, P), P), P): |
||||
with mamxd = mulmod(md, mulmod(axd, xd, P), P): |
||||
with yn = addmod(mulmod(mamxn, ayd, P), P - mulmod(mamxd, ayn, P), P): |
||||
with yd = mulmod(mamxd, ayd, P): |
||||
return([xn, xd, yn, yd], 4) |
@ -0,0 +1,16 @@ |
||||
def call(axn, axd, ayn, ayd): |
||||
if !axn and !ayn: |
||||
return([0, 1, 0, 1], 4) |
||||
with P = -4294968273: |
||||
# No need to add (A, 1) because A = 0 for bitcoin |
||||
with mn = mulmod(mulmod(mulmod(axn, axn, P), 3, P), ayd, P): |
||||
with md = mulmod(mulmod(axd, axd, P), mulmod(ayn, 2, P), P): |
||||
with msqn = mulmod(mn, mn, P): |
||||
with msqd = mulmod(md, md, P): |
||||
with xn = addmod(mulmod(msqn, axd, P), P - mulmod(msqd, mulmod(axn, 2, P), P), P): |
||||
with xd = mulmod(msqd, axd, P): |
||||
with mamxn = mulmod(addmod(mulmod(axn, xd, P), P - mulmod(axd, xn, P), P), mn, P): |
||||
with mamxd = mulmod(mulmod(axd, xd, P), md, P): |
||||
with yn = addmod(mulmod(mamxn, ayd, P), P - mulmod(mamxd, ayn, P), P): |
||||
with yd = mulmod(mamxd, ayd, P): |
||||
return([xn, xd, yn, yd], 4) |
@ -0,0 +1,37 @@ |
||||
# Expected gas cost |
||||
# |
||||
# def expect(n, point_at_infinity=False): |
||||
# n = n % (2**256 - 432420386565659656852420866394968145599) |
||||
# if point_at_infinity: |
||||
# return 79 |
||||
# if n == 0: |
||||
# return 34479 |
||||
# L = int(1 + math.log(n) / math.log(2)) |
||||
# H = len([x for x in b.encode(n, 2) if x == '1']) |
||||
# return 34221 + 94 * L + 343 * H |
||||
|
||||
data DOUBLE |
||||
data ADD |
||||
|
||||
def init(): |
||||
self.DOUBLE = create('jacobian_double.se') |
||||
self.ADD = create('jacobian_add.se') |
||||
|
||||
def call(axn, axd, ayn, ayd, n): |
||||
n = mod(n, -432420386565659656852420866394968145599) |
||||
if !axn * !ayn + !n: # Constant-gas version of !axn and !ayn or !n |
||||
return([0, 1, 0, 1], 4) |
||||
with o = [0, 0, 1, 0, 1, 0, 0, 0, 0]: |
||||
with b = 2 ^ 255: |
||||
while gt(b, 0): |
||||
if n & b: |
||||
~call(20000, self.DOUBLE, 0, o + 31, 129, o + 32, 128) |
||||
o[5] = axn |
||||
o[6] = axd |
||||
o[7] = ayn |
||||
o[8] = ayd |
||||
~call(20000, self.ADD, 0, o + 31, 257, o + 32, 128) |
||||
else: |
||||
~call(20000, self.DOUBLE, 0, o + 31, 129, o + 32, 128) |
||||
b = div(b, 2) |
||||
return(o + 32, 4) |
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/modexp.se
generated
vendored
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/modexp.se
generated
vendored
@ -0,0 +1,11 @@ |
||||
def call(b, e, m): |
||||
with o = 1: |
||||
with bit = 2 ^ 255: |
||||
while gt(bit, 0): |
||||
# A touch of loop unrolling for 20% efficiency gain |
||||
o = mulmod(mulmod(o, o, m), b ^ !(!(e & bit)), m) |
||||
o = mulmod(mulmod(o, o, m), b ^ !(!(e & div(bit, 2))), m) |
||||
o = mulmod(mulmod(o, o, m), b ^ !(!(e & div(bit, 4))), m) |
||||
o = mulmod(mulmod(o, o, m), b ^ !(!(e & div(bit, 8))), m) |
||||
bit = div(bit, 16) |
||||
return(o) |
78
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/substitutes.py
generated
vendored
78
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/substitutes.py
generated
vendored
@ -0,0 +1,78 @@ |
||||
import bitcoin as b |
||||
import math |
||||
import sys |
||||
|
||||
|
||||
def signed(o): |
||||
return map(lambda x: x - 2**256 if x >= 2**255 else x, o) |
||||
|
||||
|
||||
def hamming_weight(n): |
||||
return len([x for x in b.encode(n, 2) if x == '1']) |
||||
|
||||
|
||||
def binary_length(n): |
||||
return len(b.encode(n, 2)) |
||||
|
||||
|
||||
def jacobian_mul_substitute(A, B, C, D, N): |
||||
if A == 0 and C == 0 or (N % b.N) == 0: |
||||
return {"gas": 86, "output": [0, 1, 0, 1]} |
||||
else: |
||||
output = b.jordan_multiply(((A, B), (C, D)), N) |
||||
return { |
||||
"gas": 35262 + 95 * binary_length(N % b.N) + 355 * hamming_weight(N % b.N), |
||||
"output": signed(list(output[0]) + list(output[1])) |
||||
} |
||||
|
||||
|
||||
def jacobian_add_substitute(A, B, C, D, E, F, G, H): |
||||
if A == 0 or E == 0: |
||||
gas = 149 |
||||
elif (A * F - B * E) % b.P == 0: |
||||
if (C * H - D * G) % b.P == 0: |
||||
gas = 442 |
||||
else: |
||||
gas = 177 |
||||
else: |
||||
gas = 301 |
||||
output = b.jordan_add(((A, B), (C, D)), ((E, F), (G, H))) |
||||
return { |
||||
"gas": gas, |
||||
"output": signed(list(output[0]) + list(output[1])) |
||||
} |
||||
|
||||
|
||||
def modexp_substitute(base, exp, mod): |
||||
return { |
||||
"gas": 5150, |
||||
"output": signed([pow(base, exp, mod) if mod > 0 else 0]) |
||||
} |
||||
|
||||
|
||||
def ecrecover_substitute(z, v, r, s): |
||||
P, A, B, N, Gx, Gy = b.P, b.A, b.B, b.N, b.Gx, b.Gy |
||||
x = r |
||||
beta = pow(x*x*x+A*x+B, (P + 1) / 4, P) |
||||
BETA_PREMIUM = modexp_substitute(x, (P + 1) / 4, P)["gas"] |
||||
y = beta if v % 2 ^ beta % 2 else (P - beta) |
||||
Gz = b.jordan_multiply(((Gx, 1), (Gy, 1)), (N - z) % N) |
||||
GZ_PREMIUM = jacobian_mul_substitute(Gx, 1, Gy, 1, (N - z) % N)["gas"] |
||||
XY = b.jordan_multiply(((x, 1), (y, 1)), s) |
||||
XY_PREMIUM = jacobian_mul_substitute(x, 1, y, 1, s % N)["gas"] |
||||
Qr = b.jordan_add(Gz, XY) |
||||
QR_PREMIUM = jacobian_add_substitute(Gz[0][0], Gz[0][1], Gz[1][0], Gz[1][1], |
||||
XY[0][0], XY[0][1], XY[1][0], XY[1][1] |
||||
)["gas"] |
||||
Q = b.jordan_multiply(Qr, pow(r, N - 2, N)) |
||||
Q_PREMIUM = jacobian_mul_substitute(Qr[0][0], Qr[0][1], Qr[1][0], Qr[1][1], |
||||
pow(r, N - 2, N))["gas"] |
||||
R_PREMIUM = modexp_substitute(r, N - 2, N)["gas"] |
||||
OX_PREMIUM = modexp_substitute(Q[0][1], P - 2, P)["gas"] |
||||
OY_PREMIUM = modexp_substitute(Q[1][1], P - 2, P)["gas"] |
||||
Q = b.from_jordan(Q) |
||||
return { |
||||
"gas": 991 + BETA_PREMIUM + GZ_PREMIUM + XY_PREMIUM + QR_PREMIUM + |
||||
Q_PREMIUM + R_PREMIUM + OX_PREMIUM + OY_PREMIUM, |
||||
"output": signed(Q) |
||||
} |
129
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/test.py
generated
vendored
129
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/ecc/test.py
generated
vendored
@ -0,0 +1,129 @@ |
||||
import bitcoin as b |
||||
import random |
||||
import sys |
||||
import math |
||||
from pyethereum import tester as t |
||||
import substitutes |
||||
import time |
||||
|
||||
vals = [random.randrange(2**256) for i in range(12)] |
||||
|
||||
test_points = [list(p[0]) + list(p[1]) for p in |
||||
[b.jordan_multiply(((b.Gx, 1), (b.Gy, 1)), r) for r in vals]] |
||||
|
||||
G = [b.Gx, 1, b.Gy, 1] |
||||
Z = [0, 1, 0, 1] |
||||
|
||||
|
||||
def neg_point(p): |
||||
return [p[0], b.P - p[1], p[2], b.P - p[3]] |
||||
|
||||
s = t.state() |
||||
s.block.gas_limit = 10000000 |
||||
t.gas_limit = 1000000 |
||||
|
||||
|
||||
c = s.contract('modexp.se') |
||||
print "Starting modexp tests" |
||||
|
||||
for i in range(0, len(vals) - 2, 3): |
||||
o1 = substitutes.modexp_substitute(vals[i], vals[i+1], vals[i+2]) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=vals[i:i+3]) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
c = s.contract('jacobian_add.se') |
||||
print "Starting addition tests" |
||||
|
||||
for i in range(2): |
||||
P = test_points[i * 2] |
||||
Q = test_points[i * 2 + 1] |
||||
NP = neg_point(P) |
||||
|
||||
o1 = substitutes.jacobian_add_substitute(*(P + Q)) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=P + Q) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
o1 = substitutes.jacobian_add_substitute(*(P + NP)) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=P + NP) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
o1 = substitutes.jacobian_add_substitute(*(P + P)) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=P + P) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
o1 = substitutes.jacobian_add_substitute(*(P + Z)) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=P + Z) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
o1 = substitutes.jacobian_add_substitute(*(Z + P)) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=Z + P) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2) |
||||
assert o1["output"] == o2["output"], (o1, o2) |
||||
|
||||
|
||||
c = s.contract('jacobian_mul.se') |
||||
print "Starting multiplication tests" |
||||
|
||||
|
||||
mul_tests = [ |
||||
Z + [0], |
||||
Z + [vals[0]], |
||||
test_points[0] + [0], |
||||
test_points[1] + [b.N], |
||||
test_points[2] + [1], |
||||
test_points[2] + [2], |
||||
test_points[2] + [3], |
||||
test_points[2] + [4], |
||||
test_points[3] + [5], |
||||
test_points[3] + [6], |
||||
test_points[4] + [7], |
||||
test_points[4] + [2**254], |
||||
test_points[4] + [vals[1]], |
||||
test_points[4] + [vals[2]], |
||||
test_points[4] + [vals[3]], |
||||
test_points[5] + [2**256 - 1], |
||||
] |
||||
|
||||
for i, test in enumerate(mul_tests): |
||||
print 'trying mul_test %i' % i, test |
||||
o1 = substitutes.jacobian_mul_substitute(*test) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=test) |
||||
# assert o1["gas"] == o2["gas"], (o1, o2, test) |
||||
assert o1["output"] == o2["output"], (o1, o2, test) |
||||
|
||||
c = s.contract('ecrecover.se') |
||||
print "Starting ecrecover tests" |
||||
|
||||
for i in range(5): |
||||
print 'trying ecrecover_test', vals[i*2], vals[i*2+1] |
||||
k = vals[i*2] |
||||
h = vals[i*2+1] |
||||
V, R, S = b.ecdsa_raw_sign(b.encode(h, 256, 32), k) |
||||
aa = time.time() |
||||
o1 = substitutes.ecrecover_substitute(h, V, R, S) |
||||
print 'sub', time.time() - aa |
||||
a = time.time() |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=[h, V, R, S]) |
||||
print time.time() - a |
||||
# assert o1["gas"] == o2["gas"], (o1, o2, h, V, R, S) |
||||
assert o1["output"] == o2["output"], (o1, o2, h, V, R, S) |
||||
|
||||
# Explicit tests |
||||
|
||||
data = [[ |
||||
0xf007a9c78a4b2213220adaaf50c89a49d533fbefe09d52bbf9b0da55b0b90b60, |
||||
0x1b, |
||||
0x5228fc9e2fabfe470c32f459f4dc17ef6a0a81026e57e4d61abc3bc268fc92b5, |
||||
0x697d4221cd7bc5943b482173de95d3114b9f54c5f37cc7f02c6910c6dd8bd107 |
||||
]] |
||||
|
||||
for datum in data: |
||||
o1 = substitutes.ecrecover_substitute(*datum) |
||||
o2 = s.profile(t.k0, c, 0, funid=0, abi=datum) |
||||
#assert o1["gas"] == o2["gas"], (o1, o2, datum) |
||||
assert o1["output"] == o2["output"], (o1, o2, datum) |
45
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/channel.se
generated
vendored
45
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/channel.se
generated
vendored
@ -0,0 +1,45 @@ |
||||
if msg.data[0] == 0: |
||||
new_id = contract.storage[-1] |
||||
# store [from, to, value, maxvalue, timeout] in contract storage |
||||
contract.storage[new_id] = msg.sender |
||||
contract.storage[new_id + 1] = msg.data[1] |
||||
contract.storage[new_id + 2] = 0 |
||||
contract.storage[new_id + 3] = msg.value |
||||
contract.storage[new_id + 4] = 2^254 |
||||
# increment next id |
||||
contract.storage[-1] = new_id + 10 |
||||
# return id of this channel |
||||
return(new_id) |
||||
|
||||
# Increase payment on channel: [1, id, value, v, r, s] |
||||
elif msg.data[0] == 1: |
||||
# Ecrecover native extension; will be a different address in testnet and live |
||||
ecrecover = 0x46a8d0b21b1336d83b06829f568d7450df36883f |
||||
# Message data parameters |
||||
id = msg.data[1] % 2^160 |
||||
value = msg.data[2] |
||||
# Determine sender from signature |
||||
h = sha3([id, value], 2) |
||||
sender = call(ecrecover, [h, msg.data[3], msg.data[4], msg.data[5]], 4) |
||||
# Check sender matches and new value is greater than old |
||||
if sender == contract.storage[id]: |
||||
if value > contract.storage[id + 2] and value <= contract.storage[id + 3]: |
||||
# Update channel, increasing value and setting timeout |
||||
contract.storage[id + 2] = value |
||||
contract.storage[id + 4] = block.number + 1000 |
||||
|
||||
# Cash out channel: [2, id] |
||||
elif msg.data[0] == 2: |
||||
id = msg.data[1] % 2^160 |
||||
# Check if timeout has run out |
||||
if block.number >= contract.storage[id + 3]: |
||||
# Send funds |
||||
send(contract.storage[id + 1], contract.storage[id + 2]) |
||||
# Send refund |
||||
send(contract.storage[id], contract.storage[id + 3] - contract.storage[id + 2]) |
||||
# Clear storage |
||||
contract.storage[id] = 0 |
||||
contract.storage[id + 1] = 0 |
||||
contract.storage[id + 2] = 0 |
||||
contract.storage[id + 3] = 0 |
||||
contract.storage[id + 4] = 0 |
19
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/map.se
generated
vendored
19
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/map.se
generated
vendored
@ -0,0 +1,19 @@ |
||||
# An implementation of a contract for storing a key/value binding |
||||
init: |
||||
# Set owner |
||||
contract.storage[0] = msg.sender |
||||
code: |
||||
# Check ownership |
||||
if msg.sender == contract.storage[0]: |
||||
# Get: returns (found, val) |
||||
if msg.data[0] == 0: |
||||
s = sha3(msg.data[1]) |
||||
return([contract.storage[s], contract.storage[s+1]], 2) |
||||
# Set: sets map[k] = v |
||||
elif msg.data[0] == 1: |
||||
s = sha3(msg.data[1]) |
||||
contract.storage[s] = 1 |
||||
contract.storage[s + 1] = msg.data[2] |
||||
# Suicide |
||||
elif msg.data[2] == 1: |
||||
suicide(0) |
@ -0,0 +1,14 @@ |
||||
init: |
||||
contract.storage[0] = msg.sender |
||||
code: |
||||
if msg.sender != contract.storage[0]: |
||||
stop |
||||
i = 0 |
||||
while i < ~calldatasize(): |
||||
to = ~calldataload(i) |
||||
value = ~calldataload(i+20) / 256^12 |
||||
datasize = ~calldataload(i+32) / 256^30 |
||||
data = alloc(datasize) |
||||
~calldatacopy(data, i+34, datasize) |
||||
~call(tx.gas - 25, to, value, data, datasize, 0, 0) |
||||
i += 34 + datasize |
166
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/shadowchain.se
generated
vendored
166
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/eth15/shadowchain.se
generated
vendored
@ -0,0 +1,166 @@ |
||||
# Exists in state: |
||||
# (i) last committed block |
||||
# (ii) chain of uncommitted blocks (linear only) |
||||
# (iii) transactions, each tx with an associated block number |
||||
# |
||||
# Uncommitted block = |
||||
# [ numtxs, numkvs, tx1 (N words), tx2 (N words) ..., [k1, v1], [k2, v2], [k3, v3] ... ] |
||||
# |
||||
# Block checking process |
||||
# |
||||
# Suppose last committed state is m |
||||
# Last uncommitted state is n |
||||
# Contested block is b |
||||
# |
||||
# 1. Temporarily apply all state transitions from |
||||
# m to b |
||||
# 2. Run code, get list of changes |
||||
# 3. Check is list of changes matches deltas |
||||
# * if yes, do nothing |
||||
# * if no, set last uncommitted state to pre-b |
||||
# |
||||
# Storage variables: |
||||
# |
||||
# Last committed block: 0 |
||||
# Last uncommitted block: 1 |
||||
# Contract holding code: 2 |
||||
# Uncommitted map: 3 |
||||
# Transaction length (parameter): 4 |
||||
# Block b: 2^160 + b * 2^40: |
||||
# + 1: submission blknum |
||||
# + 2: submitter |
||||
# + 3: data in uncommitted block format above |
||||
# Last committed storage: |
||||
# sha3(k): index k |
||||
|
||||
# Initialize: [0, c, txlength], set address of the code-holding contract and the transaction |
||||
# length |
||||
if not contract.storage[2]: |
||||
contract.storage[2] = msg.data[1] |
||||
contract.storage[4] = msg.data[2] |
||||
stop |
||||
|
||||
# Sequentially commit all uncommitted blocks that are more than 1000 mainchain-blocks old |
||||
last_committed_block = contract.storage[0] |
||||
last_uncommitted_block = contract.storage[1] |
||||
lcb_storage_index = 2^160 + last_committed_block * 2^40 |
||||
while contract.storage[lcb_storage_index + 1] < block.number - 1000 and last_committed_block < last_uncommitted_block: |
||||
kvpairs = contract.storage[lcb_storage_index] |
||||
i = 0 |
||||
while i < kvpairs: |
||||
k = contract.storage[lcb_storage_index + 3 + i * 2] |
||||
v = contract.storage[lcb_storage_index + 4 + i * 2] |
||||
contract.storage[sha3(k)] = v |
||||
i += 1 |
||||
last_committed_block += 1 |
||||
lcb_storage_index += 2^40 |
||||
contract.storage[0] = last_committed_block |
||||
|
||||
|
||||
# Propose block: [ 0, block number, data in block format above ... ] |
||||
if msg.data[0] == 0: |
||||
blknumber = msg.data[1] |
||||
# Block number must be correct |
||||
if blknumber != contract.storage[1]: |
||||
stop |
||||
# Deposit requirement |
||||
if msg.value < 10^19: |
||||
stop |
||||
# Store the proposal in storage as |
||||
# [ 0, main-chain block number, sender, block data...] |
||||
start_index = 2^160 + blknumber * 2^40 |
||||
numkvs = (msg.datasize - 2) / 2 |
||||
contract.storage[start_index + 1] = block.number |
||||
1ontract.storage[start_index + 2] = msg.sender |
||||
i = 0 |
||||
while i < msg.datasize - 2: |
||||
contract.storage[start_index + 3 + i] = msg.data[2 + i] |
||||
i += 1 |
||||
contract.storage[1] = blknumber + 1 |
||||
|
||||
# Challenge block: [ 1, b ] |
||||
elif msg.data[0] == 1: |
||||
blknumber = msg.data[1] |
||||
txwidth = contract.storage[4] |
||||
last_uncommitted_block = contract.storage[1] |
||||
last_committed_block = contract.storage[0] |
||||
# Cannot challenge nonexistent or committed blocks |
||||
if blknumber <= last_uncommitted_block or blknumber > last_committed_block: |
||||
stop |
||||
# Create a contract to serve as a map that maintains keys and values |
||||
# temporarily |
||||
tempstore = create('map.se') |
||||
contract.storage[3] = tempstore |
||||
# Unquestioningly apply the state transitions from the last committed block |
||||
# up to b |
||||
b = last_committed_block |
||||
cur_storage_index = 2^160 + last_committed_block * 2^40 |
||||
while b < blknumber: |
||||
numtxs = contract.storage[cur_storage_index + 3] |
||||
numkvs = contract.storage[cur_storage_index + 4] |
||||
kv0index = cur_storage_index + 5 + numtxs * txwidth |
||||
i = 0 |
||||
while i < numkvs: |
||||
k = contract.storage[kv0index + i * 2] |
||||
v = contract.storage[kx0index + i * 2 + 1] |
||||
call(tempstore, [1, k, v], 3) |
||||
i += 1 |
||||
b += 1 |
||||
cur_storage_index += 2^40 |
||||
# Run the actual code, and see what state transitions it outputs |
||||
# The way that the code is expected to work is to: |
||||
# |
||||
# (1) take as input the list of transactions (the contract should |
||||
# use msg.datasize to determine how many txs there are, and it should |
||||
# be aware of the value of txwidth) |
||||
# (2) call this contract with [2, k] to read current state data |
||||
# (3) call this contract with [3, k, v] to write current state data |
||||
# (4) return as output a list of all state transitions that it made |
||||
# in the form [kvcount, k1, v1, k2, v2 ... ] |
||||
# |
||||
# The reason for separating (2) from (3) is that sometimes the state |
||||
# transition may end up changing a given key many times, and we don't |
||||
# need to inefficiently store that in storage |
||||
numkvs = contract.storage[cur_storage_index + 3] |
||||
numtxs = contract.storage[cur_storage_index + 4] |
||||
# Populate input array |
||||
inpwidth = numtxs * txwidth |
||||
inp = array(inpwidth) |
||||
i = 0 |
||||
while i < inpwidth: |
||||
inp[i] = contract.storage[cur_storage_index + 5 + i] |
||||
i += 1 |
||||
out = call(contract.storage[2], inp, inpwidth, numkvs * 2 + 1) |
||||
# Check that the number of state transitions is the same |
||||
if out[0] != kvcount: |
||||
send(msg.sender, 10^19) |
||||
contract.storage[0] = last_committed_block |
||||
stop |
||||
kv0index = cur_storage_index + 5 + numtxs * txwidth |
||||
i = 0 |
||||
while i < kvcount: |
||||
# Check that each individual state transition matches |
||||
k = contract.storage[kv0index + i * 2 + 1] |
||||
v = contract.storage[kv0index + i * 2 + 2] |
||||
if k != out[i * 2 + 1] or v != out[i * 2 + 2]: |
||||
send(msg.sender, 10^19) |
||||
contract.storage[0] = last_committed_block |
||||
stop |
||||
i += 1 |
||||
# Suicide tempstore |
||||
call(tempstore, 2) |
||||
|
||||
|
||||
# Read data [2, k] |
||||
elif msg.data[0] == 2: |
||||
tempstore = contract.storage[3] |
||||
o = call(tempstore, [0, msg.data[1]], 2, 2) |
||||
if o[0]: |
||||
return(o[1]) |
||||
else: |
||||
return contract.storage[sha3(msg.data[1])] |
||||
|
||||
# Write data [3, k, v] |
||||
elif msg.data[0] == 3: |
||||
tempstore = contract.storage[3] |
||||
call(tempstore, [1, msg.data[1], msg.data[2]], 3, 2) |
31
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/fixedpoint.se
generated
vendored
31
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/fixedpoint.se
generated
vendored
@ -0,0 +1,31 @@ |
||||
type f: [a, b, c, d, e] |
||||
|
||||
macro f($a) + f($b): |
||||
f(add($a, $b)) |
||||
|
||||
macro f($a) - f($b): |
||||
f(sub($a, $b)) |
||||
|
||||
macro f($a) * f($b): |
||||
f(mul($a, $b) / 10000) |
||||
|
||||
macro f($a) / f($b): |
||||
f(sdiv($a * 10000, $b)) |
||||
|
||||
macro f($a) % f($b): |
||||
f(smod($a, $b)) |
||||
|
||||
macro f($v) = f($w): |
||||
$v = $w |
||||
|
||||
macro unfify(f($a)): |
||||
$a / 10000 |
||||
|
||||
macro fify($a): |
||||
f($a * 10000) |
||||
|
||||
a = fify(5) |
||||
b = fify(2) |
||||
c = a / b |
||||
e = c + (a / b) |
||||
return(unfify(e)) |
116
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/long_integer_macros.se
generated
vendored
116
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/long_integer_macros.se
generated
vendored
@ -0,0 +1,116 @@ |
||||
macro smin($a, $b): |
||||
with $1 = $a: |
||||
with $2 = $b: |
||||
if(slt($1, $2), $1, $2) |
||||
|
||||
macro smax($a, $b): |
||||
with $1 = $a: |
||||
with $2 = $b: |
||||
if(slt($1, $2), $2, $1) |
||||
|
||||
def omul(x, y): |
||||
o = expose(mklong(x) * mklong(y)) |
||||
return(slice(o, 1), o[0]+1) |
||||
|
||||
def oadd(x, y): |
||||
o = expose(mklong(x) + mklong(y)) |
||||
return(slice(o, 1), o[0]+1) |
||||
|
||||
def osub(x, y): |
||||
o = expose(mklong(x) - mklong(y)) |
||||
return(slice(o, 1), o[0]+1) |
||||
|
||||
def odiv(x, y): |
||||
o = expose(mklong(x) / mklong(y)) |
||||
return(slice(o, 1), o[0]+1) |
||||
|
||||
def comb(a:a, b:a, sign): |
||||
sz = smax(a[0], b[0]) |
||||
msz = smin(a[0], b[0]) |
||||
c = array(sz + 2) |
||||
c[0] = sz |
||||
i = 0 |
||||
carry = 0 |
||||
while i < msz: |
||||
m = a[i + 1] + sign * b[i + 1] + carry |
||||
c[i + 1] = mod(m + 2^127, 2^128) - 2^127 |
||||
carry = (div(m + 2^127, 2^128) + 2^127) % 2^128 - 2^127 |
||||
i += 1 |
||||
u = if(a[0] > msz, a, b) |
||||
s = if(a[0] > msz, 1, sign) |
||||
while i < sz: |
||||
m = s * u[i + 1] + carry |
||||
c[i + 1] = mod(m + 2^127, 2^128) - 2^127 |
||||
carry = (div(m + 2^127, 2^128) + 2^127) % 2^128 - 2^127 |
||||
i += 1 |
||||
if carry: |
||||
c[0] += 1 |
||||
c[sz + 1] = carry |
||||
return(c, c[0]+1) |
||||
|
||||
def mul(a:a, b:a): |
||||
c = array(a[0] + b[0] + 2) |
||||
c[0] = a[0] + b[0] |
||||
i = 0 |
||||
while i < a[0]: |
||||
j = 0 |
||||
carry = 0 |
||||
while j < b[0]: |
||||
m = c[i + j + 1] + a[i + 1] * b[j + 1] + carry |
||||
c[i + j + 1] = mod(m + 2^127, 2^128) - 2^127 |
||||
carry = (div(m + 2^127, 2^128) + 2^127) % 2^128 - 2^127 |
||||
j += 1 |
||||
if carry: |
||||
c[0] = a[0] + b[0] + 1 |
||||
c[i + j + 1] += carry |
||||
i += 1 |
||||
return(c, c[0]+1) |
||||
|
||||
macro long($a) + long($b): |
||||
long(self.comb($a:$a[0]+1, $b:$b[0]+1, 1, outsz=$a[0]+$b[0]+2)) |
||||
|
||||
macro long($a) - long($b): |
||||
long(self.comb($a:$a[0]+1, $b:$b[0]+1, -1, outsz=$a[0]+$b[0]+2)) |
||||
|
||||
macro long($a) * long($b): |
||||
long(self.mul($a:$a[0]+1, $b:$b[0]+1, outsz=$a[0]+$b[0]+2)) |
||||
|
||||
macro long($a) / long($b): |
||||
long(self.div($a:$a[0]+1, $b:$b[0]+1, outsz=$a[0]+$b[0]+2)) |
||||
|
||||
macro mulexpand(long($a), $k, $m): |
||||
long: |
||||
with $c = array($a[0]+k+2): |
||||
$c[0] = $a[0]+$k |
||||
with i = 0: |
||||
while i < $a[0]: |
||||
v = $a[i+1] * $m + $c[i+$k+1] |
||||
$c[i+$k+1] = mod(v + 2^127, 2^128) - 2^127 |
||||
$c[i+$k+2] = div(v + 2^127, 2^128) |
||||
i += 1 |
||||
$c |
||||
|
||||
def div(a:a, b:a): |
||||
asz = a[0] |
||||
bsz = b[0] |
||||
while b[bsz] == 0 and bsz > 0: |
||||
bsz -= 1 |
||||
c = array(asz+2) |
||||
c[0] = asz+1 |
||||
while 1: |
||||
while a[asz] == 0 and asz > 0: |
||||
asz -= 1 |
||||
if asz < bsz: |
||||
return(c, c[0]+1) |
||||
sub = expose(mulexpand(long(b), asz - bsz, a[asz] / b[bsz])) |
||||
c[asz - bsz+1] = a[asz] / b[bsz] |
||||
a = expose(long(a) - long(sub)) |
||||
a[asz-1] += 2^128 * a[asz] |
||||
a[asz] = 0 |
||||
|
||||
macro mklong($i): |
||||
long([2, mod($i + 2^127, 2^128) - 2^127, div($i + 2^127, 2^128)]) |
||||
|
||||
macro expose(long($i)): |
||||
$i |
||||
|
@ -0,0 +1,2 @@ |
||||
def double(v): |
||||
return(v*2) |
187
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/mutuala.se
generated
vendored
187
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/mutuala.se
generated
vendored
@ -0,0 +1,187 @@ |
||||
# mutuala - subcurrency |
||||
|
||||
# We want to issue a currency that reduces in value as you store it through negative interest. |
||||
# That negative interest would be stored in a commons account. It's like the p2p version of a |
||||
# capital tax |
||||
|
||||
# the same things goes for transactions - you pay as you use the currency. However, the more |
||||
# you pay, the more you get to say about what the tax is used for |
||||
|
||||
# each participant can propose a recipient for a payout to be made out of the commons account, |
||||
# others can vote on it by awarding it tax_credits. |
||||
|
||||
# TODO should proposal have expiration timestamp?, after which the tax_credits are refunded |
||||
# TODO multiple proposals can take more credits that available in the Commons, how to handle this |
||||
# TODO how to handle lost accounts, after which no longer possible to get 2/3 majority |
||||
|
||||
shared: |
||||
COMMONS = 42 |
||||
ADMIN = 666 |
||||
CAPITAL_TAX_PER_DAY = 7305 # 5% per year |
||||
PAYMENT_TAX = 20 # 5% |
||||
|
||||
ACCOUNT_LIST_OFFSET = 2^160 |
||||
ACCOUNT_MAP_OFFSET = 2^161 |
||||
PROPOSAL_LIST_OFFSET = 2^162 |
||||
PROPOSAL_MAP_OFFSET = 2^163 |
||||
|
||||
init: |
||||
contract.storage[ADMIN] = msg.sender |
||||
contract.storage[ACCOUNT_LIST_OFFSET - 1] = 1 |
||||
contract.storage[ACCOUNT_LIST_OFFSET] = msg.sender |
||||
contract.storage[ACCOUNT_MAP_OFFSET + msg.sender] = 10^12 |
||||
contract.storage[ACCOUNT_MAP_OFFSET + msg.sender + 1] = block.timestamp |
||||
|
||||
# contract.storage[COMMONS] = balance commons |
||||
|
||||
# contract.storage[ACCOUNT_LIST_OFFSET - 1] = number of accounts |
||||
# contract.storage[ACCOUNT_LIST_OFFSET + n] = account n |
||||
|
||||
# contract.storage[PROPOSAL_LIST_OFFSET - 1] contains the number of proposals |
||||
# contract.storage[PROPOSAL_LIST_OFFSET + n] = proposal n |
||||
|
||||
# per account: |
||||
# contract.storage[ACCOUNT_MAP_OFFSET + account] = balance |
||||
# contract.storage[ACCOUNT_MAP_OFFSET + account+1] = timestamp_last_transaction |
||||
# contract.storage[ACCOUNT_MAP_OFFSET + account+2] = tax_credits |
||||
|
||||
# per proposal: |
||||
# contract.storage[PROPOSAL_MAP_OFFSET + proposal_id] = recipient |
||||
# contract.storage[PROPOSAL_MAP_OFFSET + proposal_id+1] = amount |
||||
# contract.storage[PROPOSAL_MAP_OFFSET + proposal_id+2] = total vote credits |
||||
|
||||
code: |
||||
if msg.data[0] == "suicide" and msg.sender == contract.storage[ADMIN]: |
||||
suicide(msg.sender) |
||||
|
||||
elif msg.data[0] == "balance": |
||||
addr = msg.data[1] |
||||
return(contract.storage[ACCOUNT_MAP_OFFSET + addr]) |
||||
|
||||
elif msg.data[0] == "pay": |
||||
from = msg.sender |
||||
fromvalue = contract.storage[ACCOUNT_MAP_OFFSET + from] |
||||
to = msg.data[1] |
||||
if to == 0 or to >= 2^160: |
||||
return([0, "invalid address"], 2) |
||||
value = msg.data[2] |
||||
tax = value / PAYMENT_TAX |
||||
|
||||
if fromvalue >= value + tax: |
||||
contract.storage[ACCOUNT_MAP_OFFSET + from] = fromvalue - (value + tax) |
||||
contract.storage[ACCOUNT_MAP_OFFSET + to] += value |
||||
# tax |
||||
contract.storage[COMMONS] += tax |
||||
contract.storage[ACCOUNT_MAP_OFFSET + from + 2] += tax |
||||
|
||||
# check timestamp field to see if target account exists |
||||
if contract.storage[ACCOUNT_MAP_OFFSET + to + 1] == 0: |
||||
# register new account |
||||
nr_accounts = contract.storage[ACCOUNT_LIST_OFFSET - 1] |
||||
contract.storage[ACCOUNT_LIST_OFFSET + nr_accounts] = to |
||||
contract.storage[ACCOUNT_LIST_OFFSET - 1] += 1 |
||||
contract.storage[ACCOUNT_MAP_OFFSET + to + 1] = block.timestamp |
||||
|
||||
return(1) |
||||
else: |
||||
return([0, "insufficient balance"], 2) |
||||
|
||||
elif msg.data[0] == "hash": |
||||
proposal_id = sha3(msg.data[1]) |
||||
return(proposal_id) |
||||
|
||||
elif msg.data[0] == "propose": |
||||
from = msg.sender |
||||
# check if sender has an account and has tax credits |
||||
if contract.storage[ACCOUNT_MAP_OFFSET + from + 2] == 0: |
||||
return([0, "sender has no tax credits"], 2) |
||||
|
||||
proposal_id = sha3(msg.data[1]) |
||||
# check if proposal doesn't already exist |
||||
if contract.storage[PROPOSAL_MAP_OFFSET + proposal_id]: |
||||
return([0, "proposal already exists"]) |
||||
|
||||
to = msg.data[2] |
||||
# check if recipient is a valid address and has an account (with timestamp) |
||||
if to == 0 or to >= 2^160: |
||||
return([0, "invalid address"], 2) |
||||
if contract.storage[ACCOUNT_MAP_OFFSET + to + 1] == 0: |
||||
return([0, "invalid to account"], 2) |
||||
|
||||
value = msg.data[3] |
||||
# check if there is enough money in the commons account |
||||
if value > contract.storage[COMMONS]: |
||||
return([0, "not enough credits in commons"], 2) |
||||
|
||||
# record proposal in list |
||||
nr_proposals = contract.storage[PROPOSAL_LIST_OFFSET - 1] |
||||
contract.storage[PROPOSAL_LIST_OFFSET + nr_proposals] = proposal_id |
||||
contract.storage[PROPOSAL_LIST_OFFSET - 1] += 1 |
||||
|
||||
# record proposal in map |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id] = to |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 1] = value |
||||
|
||||
return(proposal_id) |
||||
|
||||
elif msg.data[0] == "vote": |
||||
from = msg.sender |
||||
proposal_id = sha3(msg.data[1]) |
||||
value = msg.data[2] |
||||
# check if sender has an account and has tax credits |
||||
if value < contract.storage[ACCOUNT_MAP_OFFSET + from + 2]: |
||||
return([0, "sender doesn't have enough tax credits"], 2) |
||||
|
||||
# check if proposal exist |
||||
if contract.storage[PROPOSAL_MAP_OFFSET + proposal_id] == 0: |
||||
return([0, "proposal doesn't exist"], 2) |
||||
|
||||
# increase votes |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 2] += value |
||||
# withdraw tax credits |
||||
contract.storage[ACCOUNT_MAP_OFFSET + from + 2] -= value |
||||
|
||||
# did we reach 2/3 threshold? |
||||
if contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 2] >= contract.storage[COMMONS] * 2 / 3: |
||||
# got majority |
||||
to = contract.storage[PROPOSAL_MAP_OFFSET + proposal_id] |
||||
amount = contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 1] |
||||
|
||||
# adjust balances |
||||
contract.storage[ACCOUNT_MAP_OFFSET + to] += amount |
||||
contract.storage[COMMONS] -= amount |
||||
|
||||
# reset proposal |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id] = 0 |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 1] = 0 |
||||
contract.storage[PROPOSAL_MAP_OFFSET + proposal_id + 2] = 0 |
||||
return(1) |
||||
|
||||
return(proposal_id) |
||||
|
||||
elif msg.data[0] == "tick": |
||||
nr_accounts = contract.storage[ACCOUNT_LIST_OFFSET - 1] |
||||
account_idx = 0 |
||||
tax_paid = 0 |
||||
# process all accounts and see if they have to pay their daily capital tax |
||||
while account_idx < nr_accounts: |
||||
cur_account = contract.storage[ACCOUNT_LIST_OFFSET + account_idx] |
||||
last_timestamp = contract.storage[ACCOUNT_MAP_OFFSET + cur_account + 1] |
||||
time_diff = block.timestamp - last_timestamp |
||||
if time_diff >= 86400: |
||||
tax_days = time_diff / 86400 |
||||
balance = contract.storage[ACCOUNT_MAP_OFFSET + cur_account] |
||||
tax = tax_days * (balance / CAPITAL_TAX_PER_DAY) |
||||
if tax > 0: |
||||
# charge capital tax, but give tax credits in return |
||||
contract.storage[ACCOUNT_MAP_OFFSET + cur_account] -= tax |
||||
contract.storage[ACCOUNT_MAP_OFFSET + cur_account + 1] += tax_days * 86400 |
||||
contract.storage[ACCOUNT_MAP_OFFSET + cur_account + 2] += tax |
||||
|
||||
contract.storage[COMMONS] += tax |
||||
tax_paid += 1 |
||||
account_idx += 1 |
||||
return(tax_paid) # how many accounts did we charge tax on |
||||
|
||||
else: |
||||
return([0, "unknown command"], 2) |
7
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/namecoin.se
generated
vendored
7
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/namecoin.se
generated
vendored
@ -0,0 +1,7 @@ |
||||
def register(k, v): |
||||
if !self.storage[k]: # Is the key not yet taken? |
||||
# Then take it! |
||||
self.storage[k] = v |
||||
return(1) |
||||
else: |
||||
return(0) // Otherwise do nothing |
43
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/peano.se
generated
vendored
43
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/peano.se
generated
vendored
@ -0,0 +1,43 @@ |
||||
macro padd($x, psuc($y)): |
||||
psuc(padd($x, $y)) |
||||
|
||||
macro padd($x, z()): |
||||
$x |
||||
|
||||
macro dec(psuc($x)): |
||||
dec($x) + 1 |
||||
|
||||
macro dec(z()): |
||||
0 |
||||
|
||||
macro pmul($x, z()): |
||||
z() |
||||
|
||||
macro pmul($x, psuc($y)): |
||||
padd(pmul($x, $y), $x) |
||||
|
||||
macro pexp($x, z()): |
||||
one() |
||||
|
||||
macro pexp($x, psuc($y)): |
||||
pmul($x, pexp($x, $y)) |
||||
|
||||
macro fac(z()): |
||||
one() |
||||
|
||||
macro fac(psuc($x)): |
||||
pmul(psuc($x), fac($x)) |
||||
|
||||
macro one(): |
||||
psuc(z()) |
||||
|
||||
macro two(): |
||||
psuc(psuc(z())) |
||||
|
||||
macro three(): |
||||
psuc(psuc(psuc(z()))) |
||||
|
||||
macro five(): |
||||
padd(three(), two()) |
||||
|
||||
return([dec(pmul(three(), pmul(three(), three()))), dec(fac(five()))], 2) |
4
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/returnten.se
generated
vendored
4
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/returnten.se
generated
vendored
@ -0,0 +1,4 @@ |
||||
extern mul2: [double] |
||||
|
||||
x = create("mul2.se") |
||||
return(x.double(5)) |
@ -0,0 +1,33 @@ |
||||
def kall(): |
||||
argcount = ~calldatasize() / 32 |
||||
if argcount == 1: |
||||
return(~calldataload(1)) |
||||
|
||||
args = array(argcount) |
||||
~calldatacopy(args, 1, argcount * 32) |
||||
low = array(argcount) |
||||
lsz = 0 |
||||
high = array(argcount) |
||||
hsz = 0 |
||||
i = 1 |
||||
while i < argcount: |
||||
if args[i] < args[0]: |
||||
low[lsz] = args[i] |
||||
lsz += 1 |
||||
else: |
||||
high[hsz] = args[i] |
||||
hsz += 1 |
||||
i += 1 |
||||
low = self.kall(data=low, datasz=lsz, outsz=lsz) |
||||
high = self.kall(data=high, datasz=hsz, outsz=hsz) |
||||
o = array(argcount) |
||||
i = 0 |
||||
while i < lsz: |
||||
o[i] = low[i] |
||||
i += 1 |
||||
o[lsz] = args[0] |
||||
j = 0 |
||||
while j < hsz: |
||||
o[lsz + 1 + j] = high[j] |
||||
j += 1 |
||||
return(o, argcount) |
@ -0,0 +1,46 @@ |
||||
# Quicksort pairs |
||||
# eg. input of the form [ 30, 1, 90, 2, 70, 3, 50, 4] |
||||
# outputs [ 30, 1, 50, 4, 70, 3, 90, 2 ] |
||||
# |
||||
# Note: this can be used as a generalized sorting algorithm: |
||||
# map every object to [ key, ref ] where `ref` is the index |
||||
# in memory to all of the properties and `key` is the key to |
||||
# sort by |
||||
|
||||
|
||||
def kall(): |
||||
argcount = ~calldatasize() / 64 |
||||
if argcount == 1: |
||||
return([~calldataload(1), ~calldataload(33)], 2) |
||||
|
||||
args = array(argcount * 2) |
||||
~calldatacopy(args, 1, argcount * 64) |
||||
low = array(argcount * 2) |
||||
lsz = 0 |
||||
high = array(argcount * 2) |
||||
hsz = 0 |
||||
i = 2 |
||||
while i < argcount * 2: |
||||
if args[i] < args[0]: |
||||
low[lsz] = args[i] |
||||
low[lsz + 1] = args[i + 1] |
||||
lsz += 2 |
||||
else: |
||||
high[hsz] = args[i] |
||||
high[hsz + 1] = args[i + 1] |
||||
hsz += 2 |
||||
i = i + 2 |
||||
low = self.kall(data=low, datasz=lsz, outsz=lsz) |
||||
high = self.kall(data=high, datasz=hsz, outsz=hsz) |
||||
o = array(argcount * 2) |
||||
i = 0 |
||||
while i < lsz: |
||||
o[i] = low[i] |
||||
i += 1 |
||||
o[lsz] = args[0] |
||||
o[lsz + 1] = args[1] |
||||
j = 0 |
||||
while j < hsz: |
||||
o[lsz + 2 + j] = high[j] |
||||
j += 1 |
||||
return(o, argcount * 2) |
@ -0,0 +1,94 @@ |
||||
# SchellingCoin implementation |
||||
# |
||||
# Epoch length: 100 blocks |
||||
# Target savings depletion rate: 0.1% per epoch |
||||
|
||||
data epoch |
||||
data hashes_submitted |
||||
data output |
||||
data quicksort_pairs |
||||
data accounts[2^160] |
||||
data submissions[2^80](hash, deposit, address, value) |
||||
extern any: [call] |
||||
|
||||
|
||||
def init(): |
||||
self.epoch = block.number / 100 |
||||
self.quicksort_pairs = create('quicksort_pairs.se') |
||||
|
||||
def any(): |
||||
if block.number / 100 > epoch: |
||||
# Sort all values submitted |
||||
N = self.hashes_submitted |
||||
o = array(N * 2) |
||||
i = 0 |
||||
j = 0 |
||||
while i < N: |
||||
v = self.submissions[i].value |
||||
if v: |
||||
o[j] = v |
||||
o[j + 1] = i |
||||
j += 2 |
||||
i += 1 |
||||
values = self.quicksort_pairs.call(data=o, datasz=j, outsz=j) |
||||
|
||||
# Calculate total deposit, refund non-submitters and |
||||
# cleanup |
||||
|
||||
deposits = array(j / 2) |
||||
addresses = array(j / 2) |
||||
|
||||
i = 0 |
||||
total_deposit = 0 |
||||
while i < j / 2: |
||||
base_index = HASHES + values[i * 2 + 1] * 3 |
||||
deposits[i] = self.submissions[i].deposit |
||||
addresses[i] = self.submissions[i].address |
||||
if self.submissions[values[i * 2 + 1]].value: |
||||
total_deposit += deposits[i] |
||||
else: |
||||
send(addresses[i], deposits[i] * 999 / 1000) |
||||
i += 1 |
||||
|
||||
inverse_profit_ratio = total_deposit / (contract.balance / 1000) + 1 |
||||
|
||||
# Reward everyone |
||||
i = 0 |
||||
running_deposit_sum = 0 |
||||
halfway_passed = 0 |
||||
while i < j / 2: |
||||
new_deposit_sum = running_deposit_sum + deposits[i] |
||||
if new_deposit_sum > total_deposit / 4 and running_deposit_sum < total_deposit * 3 / 4: |
||||
send(addresses[i], deposits[i] + deposits[i] / inverse_profit_ratio * 2) |
||||
else: |
||||
send(addresses[i], deposits[i] - deposits[i] / inverse_profit_ratio) |
||||
|
||||
if not halfway_passed and new_deposit_sum > total_deposit / 2: |
||||
self.output = self.submissions[i].value |
||||
halfway_passed = 1 |
||||
self.submissions[i].value = 0 |
||||
running_deposit_sum = new_deposit_sum |
||||
i += 1 |
||||
self.epoch = block.number / 100 |
||||
self.hashes_submitted = 0 |
||||
|
||||
def submit_hash(h): |
||||
if block.number % 100 < 50: |
||||
cur = self.hashes_submitted |
||||
pos = HASHES + cur * 3 |
||||
self.submissions[cur].hash = h |
||||
self.submissions[cur].deposit = msg.value |
||||
self.submissions[cur].address = msg.sender |
||||
self.hashes_submitted = cur + 1 |
||||
return(cur) |
||||
|
||||
def submit_value(index, v): |
||||
if sha3([msg.sender, v], 2) == self.submissions[index].hash: |
||||
self.submissions[index].value = v |
||||
return(1) |
||||
|
||||
def request_balance(): |
||||
return(contract.balance) |
||||
|
||||
def request_output(): |
||||
return(self.output) |
@ -0,0 +1,171 @@ |
||||
# Hedged zero-supply dollar implementation |
||||
# Uses SchellingCoin as price-determining backend |
||||
# |
||||
# Stored variables: |
||||
# |
||||
# 0: Schelling coin contract |
||||
# 1: Last epoch |
||||
# 2: Genesis block of contract |
||||
# 3: USD exposure |
||||
# 4: ETH exposure |
||||
# 5: Cached price |
||||
# 6: Last interest rate |
||||
# 2^160 + k: interest rate accumulator at k epochs |
||||
# 2^161 + ADDR * 3: eth-balance of a particular address |
||||
# 2^161 + ADDR * 3 + 1: usd-balance of a particular address |
||||
# 2^161 + ADDR * 3 + 1: last accessed epoch of a particular address |
||||
# |
||||
# Transaction types: |
||||
# |
||||
# [1, to, val]: send ETH |
||||
# [2, to, val]: send USD |
||||
# [3, wei_amount]: convert ETH to USD |
||||
# [4, usd_amount]: converts USD to ETH |
||||
# [5]: deposit |
||||
# [6, amount]: withdraw |
||||
# [7]: my balance query |
||||
# [7, acct]: balance query for any acct |
||||
# [8]: global state query |
||||
# [9]: liquidation test any account |
||||
# |
||||
# The purpose of the contract is to serve as a sort of cryptographic |
||||
# bank account where users can store both ETH and USD. ETH must be |
||||
# stored in zero or positive quantities, but USD balances can be |
||||
# positive or negative. If the USD balance is negative, the invariant |
||||
# usdbal * 10 >= ethbal * 9 must be satisfied; if any account falls |
||||
# below this value, then that account's balances are zeroed. Note |
||||
# that there is a 2% bounty to ping the app if an account does go |
||||
# below zero; one weakness is that if no one does ping then it is |
||||
# quite possible for accounts to go negative-net-worth, then zero |
||||
# themselves out, draining the reserves of the "bank" and potentially |
||||
# bankrupting it. A 0.1% fee on ETH <-> USD trade is charged to |
||||
# minimize this risk. Additionally, the bank itself will inevitably |
||||
# end up with positive or negative USD exposure; to mitigate this, |
||||
# it automatically updates interest rates on USD to keep exposure |
||||
# near zero. |
||||
|
||||
data schelling_coin |
||||
data last_epoch |
||||
data starting_block |
||||
data usd_exposure |
||||
data eth_exposure |
||||
data price |
||||
data last_interest_rate |
||||
data interest_rate_accum[2^50] |
||||
data accounts[2^160](eth, usd, last_epoch) |
||||
|
||||
extern sc: [submit_hash, submit_value, request_balance, request_output] |
||||
|
||||
def init(): |
||||
self.schelling_coin = create('schellingcoin.se') |
||||
self.price = self.schelling_coin.request_output() |
||||
self.interest_rate_accum[0] = 10^18 |
||||
self.starting_block = block.number |
||||
|
||||
def any(): |
||||
sender = msg.sender |
||||
epoch = (block.number - self.starting_block) / 100 |
||||
last_epoch = self.last_epoch |
||||
usdprice = self.price |
||||
|
||||
# Update contract epochs |
||||
if epoch > last_epoch: |
||||
delta = epoch - last_epoch |
||||
last_interest_rate = self.last_interest_rate |
||||
usd_exposure - self.usd_exposure |
||||
last_accum = self.interest_rate_accum[last_epoch] |
||||
|
||||
if usd_exposure < 0: |
||||
self.last_interest_rate = last_interest_rate - 10000 * delta |
||||
elif usd_exposure > 0: |
||||
self.last_interest_rate = last_interest_rate + 10000 * delta |
||||
|
||||
self.interest_rate_accum[epoch] = last_accum + last_accum * last_interest_rate * delta / 10^9 |
||||
|
||||
# Proceeds go to support the SchellingCoin feeding it price data, ultimately providing the depositors |
||||
# of the SchellingCoin an interest rate |
||||
bal = max(self.balance - self.eth_exposure, 0) / 10000 |
||||
usdprice = self.schelling_coin.request_output() |
||||
self.price = usdprice |
||||
self.last_epoch = epoch |
||||
|
||||
ethbal = self.accounts[msg.sender].eth |
||||
usdbal = self.accounts[msg.sender].usd |
||||
|
||||
# Apply interest rates to sender and liquidation-test self |
||||
if msg.sender != self: |
||||
self.ping(self) |
||||
|
||||
def send_eth(to, value): |
||||
if value > 0 and value <= ethbal and usdbal * usdprice * 2 + (ethbal - value) >= 0: |
||||
self.accounts[msg.sender].eth = ethbal - value |
||||
self.ping(to) |
||||
self.accounts[to].eth += value |
||||
return(1) |
||||
|
||||
def send_usd(to, value): |
||||
if value > 0 and value <= usdbal and (usdbal - value) * usdprice * 2 + ethbal >= 0: |
||||
self.accounts[msg.sender].usd = usdbal - value |
||||
self.ping(to) |
||||
self.accounts[to].usd += value |
||||
return(1) |
||||
|
||||
def convert_to_eth(usdvalue): |
||||
ethplus = usdvalue * usdprice * 999 / 1000 |
||||
if usdvalue > 0 and (usdbal - usdvalue) * usdprice * 2 + (ethbal + ethplus) >= 0: |
||||
self.accounts[msg.sender].eth = ethbal + ethplus |
||||
self.accounts[msg.sender].usd = usdbal - usdvalue |
||||
self.eth_exposure += ethplus |
||||
self.usd_exposure -= usdvalue |
||||
return([ethbal + ethplus, usdbal - usdvalue], 2) |
||||
|
||||
def convert_to_usd(ethvalue): |
||||
usdplus = ethvalue / usdprice * 999 / 1000 |
||||
if ethvalue > 0 and (usdbal + usdplus) * usdprice * 2 + (ethbal - ethvalue) >= 0: |
||||
self.accounts[msg.sender].eth = ethbal - ethvalue |
||||
self.accounts[msg.sender].usd = usdbal + usdplus |
||||
self.eth_exposure -= ethvalue |
||||
self.usd_exposure += usdplus |
||||
return([ethbal - ethvalue, usdbal + usdplus], 2) |
||||
|
||||
def deposit(): |
||||
self.accounts[msg.sender].eth = ethbal + msg.value |
||||
self.eth_exposure += msg.value |
||||
return(ethbal + msg.value) |
||||
|
||||
def withdraw(value): |
||||
if value > 0 and value <= ethbal and usdbal * usdprice * 2 + (ethbal - value) >= 0: |
||||
self.accounts[msg.sender].eth -= value |
||||
self.eth_exposure -= value |
||||
return(ethbal - value) |
||||
|
||||
def balance(acct): |
||||
self.ping(acct) |
||||
return([self.accounts[acct].eth, self.accounts[acct].usd], 2) |
||||
|
||||
def global_state_query(acct): |
||||
interest = self.last_interest_rate |
||||
usd_exposure = self.usd_exposure |
||||
eth_exposure = self.eth_exposure |
||||
eth_balance = self.balance |
||||
return([epoch, usdprice, interest, usd_exposure, eth_exposure, eth_balance], 6) |
||||
|
||||
def ping(acct): |
||||
account_last_epoch = self.accounts[acct].last_epoch |
||||
if account_last_epoch != epoch: |
||||
cur_usd_balance = self.accounts[acct].usd |
||||
new_usd_balance = cur_usd_balance * self.interest_rate_accum[epoch] / self.interest_rate_accum[account_last_epoch] |
||||
self.accounts[acct].usd = new_usd_balance |
||||
self.accounts[acct].last_epoch = epoch |
||||
self.usd_exposure += new_usd_balance - cur_usd_balance |
||||
|
||||
ethbal = self.accounts[acct].eth |
||||
|
||||
if new_usd_balance * usdval * 10 + ethbal * 9 < 0: |
||||
self.accounts[acct].eth = 0 |
||||
self.accounts[acct].usd = 0 |
||||
self.accounts[msg.sender].eth += ethbal / 50 |
||||
self.eth_exposure += -ethbal + ethbal / 50 |
||||
self.usd_exposure += new_usd_balance |
||||
return(1) |
||||
return(0) |
@ -0,0 +1 @@ |
||||
return(sha3([msg.sender, msg.data[0]], 2)) |
@ -0,0 +1,3 @@ |
||||
def register(k, v): |
||||
if !self.storage[k]: |
||||
self.storage[k] = v |
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/subcurrency.se
generated
vendored
11
Godeps/_workspace/src/github.com/ethereum/serpent-go/serpent/examples/subcurrency.se
generated
vendored
@ -0,0 +1,11 @@ |
||||
def init(): |
||||
self.storage[msg.sender] = 1000000 |
||||
|
||||
def balance_query(k): |
||||
return(self.storage[addr]) |
||||
|
||||
def send(to, value): |
||||
fromvalue = self.storage[msg.sender] |
||||
if fromvalue >= value: |
||||
self.storage[from] = fromvalue - value |
||||
self.storage[to] += value |
@ -0,0 +1,35 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include "funcs.h" |
||||
#include "bignum.h" |
||||
#include "util.h" |
||||
#include "parser.h" |
||||
#include "lllparser.h" |
||||
#include "compiler.h" |
||||
#include "rewriter.h" |
||||
#include "tokenize.h" |
||||
|
||||
Node compileToLLL(std::string input) { |
||||
return rewrite(parseSerpent(input)); |
||||
} |
||||
|
||||
Node compileChunkToLLL(std::string input) { |
||||
return rewriteChunk(parseSerpent(input)); |
||||
} |
||||
|
||||
std::string compile(std::string input) { |
||||
return compileLLL(compileToLLL(input)); |
||||
} |
||||
|
||||
std::vector<Node> prettyCompile(std::string input) { |
||||
return prettyCompileLLL(compileToLLL(input)); |
||||
} |
||||
|
||||
std::string compileChunk(std::string input) { |
||||
return compileLLL(compileChunkToLLL(input)); |
||||
} |
||||
|
||||
std::vector<Node> prettyCompileChunk(std::string input) { |
||||
return prettyCompileLLL(compileChunkToLLL(input)); |
||||
} |
@ -0,0 +1,35 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include "bignum.h" |
||||
#include "util.h" |
||||
#include "parser.h" |
||||
#include "lllparser.h" |
||||
#include "compiler.h" |
||||
#include "rewriter.h" |
||||
#include "tokenize.h" |
||||
|
||||
// Function listing:
|
||||
//
|
||||
// parseSerpent (serpent -> AST) std::string -> Node
|
||||
// parseLLL (LLL -> AST) std::string -> Node
|
||||
// rewrite (apply rewrite rules) Node -> Node
|
||||
// compileToLLL (serpent -> LLL) std::string -> Node
|
||||
// compileLLL (LLL -> EVMhex) Node -> std::string
|
||||
// prettyCompileLLL (LLL -> EVMasm) Node -> std::vector<Node>
|
||||
// prettyCompile (serpent -> EVMasm) std::string -> std::vector>Node>
|
||||
// compile (serpent -> EVMhex) std::string -> std::string
|
||||
// get_file_contents (filename -> file) std::string -> std::string
|
||||
// exists (does file exist?) std::string -> bool
|
||||
|
||||
Node compileToLLL(std::string input); |
||||
|
||||
Node compileChunkToLLL(std::string input); |
||||
|
||||
std::string compile(std::string input); |
||||
|
||||
std::vector<Node> prettyCompile(std::string input); |
||||
|
||||
std::string compileChunk(std::string input); |
||||
|
||||
std::vector<Node> prettyCompileChunk(std::string input); |
@ -0,0 +1,203 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "bignum.h" |
||||
#include "optimize.h" |
||||
#include "rewriteutils.h" |
||||
#include "preprocess.h" |
||||
#include "functions.h" |
||||
|
||||
std::string getSignature(std::vector<Node> args) { |
||||
std::string o; |
||||
for (unsigned i = 0; i < args.size(); i++) { |
||||
if (args[i].val == ":" && args[i].args[1].val == "s") |
||||
o += "s"; |
||||
else if (args[i].val == ":" && args[i].args[1].val == "a") |
||||
o += "a"; |
||||
else |
||||
o += "i"; |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// Convert a list of arguments into a node containing a
|
||||
// < datastart, datasz > pair
|
||||
|
||||
Node packArguments(std::vector<Node> args, std::string sig, |
||||
int funId, Metadata m) { |
||||
// Plain old 32 byte arguments
|
||||
std::vector<Node> nargs; |
||||
// Variable-sized arguments
|
||||
std::vector<Node> vargs; |
||||
// Variable sizes
|
||||
std::vector<Node> sizes; |
||||
// Is a variable an array?
|
||||
std::vector<bool> isArray; |
||||
// Fill up above three argument lists
|
||||
int argCount = 0; |
||||
for (unsigned i = 0; i < args.size(); i++) { |
||||
Metadata m = args[i].metadata; |
||||
if (args[i].val == "=") { |
||||
// do nothing
|
||||
} |
||||
else { |
||||
// Determine the correct argument type
|
||||
char argType; |
||||
if (sig.size() > 0) { |
||||
if (argCount >= (signed)sig.size()) |
||||
err("Too many args", m); |
||||
argType = sig[argCount]; |
||||
} |
||||
else argType = 'i'; |
||||
// Integer (also usable for short strings)
|
||||
if (argType == 'i') { |
||||
if (args[i].val == ":") |
||||
err("Function asks for int, provided string or array", m); |
||||
nargs.push_back(args[i]); |
||||
} |
||||
// Long string
|
||||
else if (argType == 's') { |
||||
if (args[i].val != ":") |
||||
err("Must specify string length", m); |
||||
vargs.push_back(args[i].args[0]); |
||||
sizes.push_back(args[i].args[1]); |
||||
isArray.push_back(false); |
||||
} |
||||
// Array
|
||||
else if (argType == 'a') { |
||||
if (args[i].val != ":") |
||||
err("Must specify array length", m); |
||||
vargs.push_back(args[i].args[0]); |
||||
sizes.push_back(args[i].args[1]); |
||||
isArray.push_back(true); |
||||
} |
||||
else err("Invalid arg type in signature", m); |
||||
argCount++; |
||||
} |
||||
} |
||||
int static_arg_size = 1 + (vargs.size() + nargs.size()) * 32; |
||||
// Start off by saving the size variables and calculating the total
|
||||
msn kwargs; |
||||
kwargs["funid"] = tkn(utd(funId), m); |
||||
std::string pattern = |
||||
"(with _sztot "+utd(static_arg_size)+" " |
||||
" (with _sizes (alloc "+utd(sizes.size() * 32)+") " |
||||
" (seq "; |
||||
for (unsigned i = 0; i < sizes.size(); i++) { |
||||
std::string sizeIncrement =
|
||||
isArray[i] ? "(mul 32 _x)" : "_x"; |
||||
pattern += |
||||
"(with _x $sz"+utd(i)+"(seq " |
||||
" (mstore (add _sizes "+utd(i * 32)+") _x) " |
||||
" (set _sztot (add _sztot "+sizeIncrement+" )))) "; |
||||
kwargs["sz"+utd(i)] = sizes[i]; |
||||
} |
||||
// Allocate memory, and set first data byte
|
||||
pattern += |
||||
"(with _datastart (alloc (add _sztot 32)) (seq " |
||||
" (mstore8 _datastart $funid) "; |
||||
// Copy over size variables
|
||||
for (unsigned i = 0; i < sizes.size(); i++) { |
||||
int v = 1 + i * 32; |
||||
pattern += |
||||
" (mstore " |
||||
" (add _datastart "+utd(v)+") " |
||||
" (mload (add _sizes "+utd(v-1)+"))) "; |
||||
} |
||||
// Store normal arguments
|
||||
for (unsigned i = 0; i < nargs.size(); i++) { |
||||
int v = 1 + (i + sizes.size()) * 32; |
||||
pattern += |
||||
" (mstore (add _datastart "+utd(v)+") $"+utd(i)+") "; |
||||
kwargs[utd(i)] = nargs[i]; |
||||
} |
||||
// Loop through variable-sized arguments, store them
|
||||
pattern +=
|
||||
" (with _pos (add _datastart "+utd(static_arg_size)+") (seq"; |
||||
for (unsigned i = 0; i < vargs.size(); i++) { |
||||
std::string copySize = |
||||
isArray[i] ? "(mul 32 (mload (add _sizes "+utd(i * 32)+")))" |
||||
: "(mload (add _sizes "+utd(i * 32)+"))"; |
||||
pattern += |
||||
" (unsafe_mcopy _pos $vl"+utd(i)+" "+copySize+") " |
||||
" (set _pos (add _pos "+copySize+")) "; |
||||
kwargs["vl"+utd(i)] = vargs[i]; |
||||
} |
||||
// Return a 2-item array containing the start and size
|
||||
pattern += " (array_lit _datastart _sztot))))))))"; |
||||
std::string prefix = "_temp_"+mkUniqueToken(); |
||||
// Fill in pattern, return triple
|
||||
return subst(parseLLL(pattern), kwargs, prefix, m); |
||||
} |
||||
|
||||
// Create a node for argument unpacking
|
||||
Node unpackArguments(std::vector<Node> vars, Metadata m) { |
||||
std::vector<std::string> varNames; |
||||
std::vector<std::string> longVarNames; |
||||
std::vector<bool> longVarIsArray; |
||||
// Fill in variable and long variable names, as well as which
|
||||
// long variables are arrays and which are strings
|
||||
for (unsigned i = 0; i < vars.size(); i++) { |
||||
if (vars[i].val == ":") { |
||||
if (vars[i].args.size() != 2) |
||||
err("Malformed def!", m); |
||||
longVarNames.push_back(vars[i].args[0].val); |
||||
std::string tag = vars[i].args[1].val; |
||||
if (tag == "s") |
||||
longVarIsArray.push_back(false); |
||||
else if (tag == "a") |
||||
longVarIsArray.push_back(true); |
||||
else |
||||
err("Function value can only be string or array", m); |
||||
} |
||||
else { |
||||
varNames.push_back(vars[i].val); |
||||
} |
||||
} |
||||
std::vector<Node> sub; |
||||
if (!varNames.size() && !longVarNames.size()) { |
||||
// do nothing if we have no arguments
|
||||
} |
||||
else { |
||||
std::vector<Node> varNodes; |
||||
for (unsigned i = 0; i < longVarNames.size(); i++) |
||||
varNodes.push_back(token(longVarNames[i], m)); |
||||
for (unsigned i = 0; i < varNames.size(); i++) |
||||
varNodes.push_back(token(varNames[i], m)); |
||||
// Copy over variable lengths and short variables
|
||||
for (unsigned i = 0; i < varNodes.size(); i++) { |
||||
int pos = 1 + i * 32; |
||||
std::string prefix = (i < longVarNames.size()) ? "_len_" : ""; |
||||
sub.push_back(asn("untyped", asn("set", |
||||
token(prefix+varNodes[i].val, m), |
||||
asn("calldataload", tkn(utd(pos), m), m), |
||||
m))); |
||||
} |
||||
// Copy over long variables
|
||||
if (longVarNames.size() > 0) { |
||||
std::vector<Node> sub2; |
||||
int pos = varNodes.size() * 32 + 1; |
||||
Node tot = tkn("_tot", m); |
||||
for (unsigned i = 0; i < longVarNames.size(); i++) { |
||||
Node var = tkn(longVarNames[i], m); |
||||
Node varlen = longVarIsArray[i]
|
||||
? asn("mul", tkn("32", m), tkn("_len_"+longVarNames[i], m)) |
||||
: tkn("_len_"+longVarNames[i], m); |
||||
sub2.push_back(asn("untyped", |
||||
asn("set", var, asn("alloc", varlen)))); |
||||
sub2.push_back(asn("calldatacopy", var, tot, varlen)); |
||||
sub2.push_back(asn("set", tot, asn("add", tot, varlen))); |
||||
} |
||||
std::string prefix = "_temp_"+mkUniqueToken(); |
||||
sub.push_back(subst( |
||||
astnode("with", tot, tkn(utd(pos), m), asn("seq", sub2)), |
||||
msn(), |
||||
prefix, |
||||
m)); |
||||
} |
||||
} |
||||
return asn("seq", sub, m); |
||||
} |
@ -0,0 +1,39 @@ |
||||
#ifndef ETHSERP_FUNCTIONS |
||||
#define ETHSERP_FUNCTIONS |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "bignum.h" |
||||
#include "optimize.h" |
||||
#include "rewriteutils.h" |
||||
#include "preprocess.h" |
||||
|
||||
|
||||
class argPack { |
||||
public: |
||||
argPack(Node a, Node b, Node c) { |
||||
pre = a; |
||||
datastart = b; |
||||
datasz = c; |
||||
} |
||||
Node pre; |
||||
Node datastart; |
||||
Node datasz; |
||||
}; |
||||
|
||||
// Get a signature from a function
|
||||
std::string getSignature(std::vector<Node> args); |
||||
|
||||
// Convert a list of arguments into a <pre, mstart, msize> node
|
||||
// triple, given the signature of a function
|
||||
Node packArguments(std::vector<Node> args, std::string sig, |
||||
int funId, Metadata m); |
||||
|
||||
// Create a node for argument unpacking
|
||||
Node unpackArguments(std::vector<Node> vars, Metadata m); |
||||
|
||||
#endif |
@ -0,0 +1,70 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "tokenize.h" |
||||
|
||||
struct _parseOutput { |
||||
Node node; |
||||
int newpos; |
||||
}; |
||||
|
||||
// Helper, returns subtree and position of start of next node
|
||||
_parseOutput _parse(std::vector<Node> inp, int pos) { |
||||
Metadata met = inp[pos].metadata; |
||||
_parseOutput o; |
||||
// Bracket: keep grabbing tokens until we get to the
|
||||
// corresponding closing bracket
|
||||
if (inp[pos].val == "(" || inp[pos].val == "[") { |
||||
std::string fun, rbrack; |
||||
std::vector<Node> args; |
||||
pos += 1; |
||||
if (inp[pos].val == "[") { |
||||
fun = "access"; |
||||
rbrack = "]"; |
||||
} |
||||
else rbrack = ")"; |
||||
// First argument is the function
|
||||
while (inp[pos].val != ")") { |
||||
_parseOutput po = _parse(inp, pos); |
||||
if (fun.length() == 0 && po.node.type == 1) { |
||||
std::cerr << "Error: first arg must be function\n"; |
||||
fun = po.node.val; |
||||
} |
||||
else if (fun.length() == 0) { |
||||
fun = po.node.val; |
||||
} |
||||
else { |
||||
args.push_back(po.node); |
||||
} |
||||
pos = po.newpos; |
||||
} |
||||
o.newpos = pos + 1; |
||||
o.node = astnode(fun, args, met); |
||||
} |
||||
// Normal token, return it and advance to next token
|
||||
else { |
||||
o.newpos = pos + 1; |
||||
o.node = token(inp[pos].val, met); |
||||
} |
||||
return o; |
||||
} |
||||
|
||||
// stream of tokens -> lisp parse tree
|
||||
Node parseLLLTokenStream(std::vector<Node> inp) { |
||||
_parseOutput o = _parse(inp, 0); |
||||
return o.node; |
||||
} |
||||
|
||||
// Parses LLL
|
||||
Node parseLLL(std::string s, bool allowFileRead) { |
||||
std::string input = s; |
||||
std::string file = "main"; |
||||
if (exists(s) && allowFileRead) { |
||||
file = s; |
||||
input = get_file_contents(s); |
||||
} |
||||
return parseLLLTokenStream(tokenize(s, Metadata(file, 0, 0), true)); |
||||
} |
@ -0,0 +1,13 @@ |
||||
#ifndef ETHSERP_LLLPARSER |
||||
#define ETHSERP_LLLPARSER |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// LLL text -> parse tree
|
||||
Node parseLLL(std::string s, bool allowFileRead=false); |
||||
|
||||
#endif |
@ -0,0 +1,154 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "opcodes.h" |
||||
#include "util.h" |
||||
#include "bignum.h" |
||||
|
||||
Mapping mapping[] = { |
||||
Mapping("STOP", 0x00, 0, 0), |
||||
Mapping("ADD", 0x01, 2, 1), |
||||
Mapping("MUL", 0x02, 2, 1), |
||||
Mapping("SUB", 0x03, 2, 1), |
||||
Mapping("DIV", 0x04, 2, 1), |
||||
Mapping("SDIV", 0x05, 2, 1), |
||||
Mapping("MOD", 0x06, 2, 1), |
||||
Mapping("SMOD", 0x07, 2, 1), |
||||
Mapping("ADDMOD", 0x08, 3, 1), |
||||
Mapping("MULMOD", 0x09, 3, 1), |
||||
Mapping("EXP", 0x0a, 2, 1), |
||||
Mapping("SIGNEXTEND", 0x0b, 2, 1), |
||||
Mapping("LT", 0x10, 2, 1), |
||||
Mapping("GT", 0x11, 2, 1), |
||||
Mapping("SLT", 0x12, 2, 1), |
||||
Mapping("SGT", 0x13, 2, 1), |
||||
Mapping("EQ", 0x14, 2, 1), |
||||
Mapping("ISZERO", 0x15, 1, 1), |
||||
Mapping("AND", 0x16, 2, 1), |
||||
Mapping("OR", 0x17, 2, 1), |
||||
Mapping("XOR", 0x18, 2, 1), |
||||
Mapping("NOT", 0x19, 1, 1), |
||||
Mapping("BYTE", 0x1a, 2, 1), |
||||
Mapping("SHA3", 0x20, 2, 1), |
||||
Mapping("ADDRESS", 0x30, 0, 1), |
||||
Mapping("BALANCE", 0x31, 1, 1), |
||||
Mapping("ORIGIN", 0x32, 0, 1), |
||||
Mapping("CALLER", 0x33, 0, 1), |
||||
Mapping("CALLVALUE", 0x34, 0, 1), |
||||
Mapping("CALLDATALOAD", 0x35, 1, 1), |
||||
Mapping("CALLDATASIZE", 0x36, 0, 1), |
||||
Mapping("CALLDATACOPY", 0x37, 3, 0), |
||||
Mapping("CODESIZE", 0x38, 0, 1), |
||||
Mapping("CODECOPY", 0x39, 3, 0), |
||||
Mapping("GASPRICE", 0x3a, 0, 1), |
||||
Mapping("EXTCODESIZE", 0x3b, 1, 1), |
||||
Mapping("EXTCODECOPY", 0x3c, 4, 0), |
||||
Mapping("PREVHASH", 0x40, 0, 1), |
||||
Mapping("COINBASE", 0x41, 0, 1), |
||||
Mapping("TIMESTAMP", 0x42, 0, 1), |
||||
Mapping("NUMBER", 0x43, 0, 1), |
||||
Mapping("DIFFICULTY", 0x44, 0, 1), |
||||
Mapping("GASLIMIT", 0x45, 0, 1), |
||||
Mapping("POP", 0x50, 1, 0), |
||||
Mapping("MLOAD", 0x51, 1, 1), |
||||
Mapping("MSTORE", 0x52, 2, 0), |
||||
Mapping("MSTORE8", 0x53, 2, 0), |
||||
Mapping("SLOAD", 0x54, 1, 1), |
||||
Mapping("SSTORE", 0x55, 2, 0), |
||||
Mapping("JUMP", 0x56, 1, 0), |
||||
Mapping("JUMPI", 0x57, 2, 0), |
||||
Mapping("PC", 0x58, 0, 1), |
||||
Mapping("MSIZE", 0x59, 0, 1), |
||||
Mapping("GAS", 0x5a, 0, 1), |
||||
Mapping("JUMPDEST", 0x5b, 0, 0), |
||||
Mapping("LOG0", 0xa0, 2, 0), |
||||
Mapping("LOG1", 0xa1, 3, 0), |
||||
Mapping("LOG2", 0xa2, 4, 0), |
||||
Mapping("LOG3", 0xa3, 5, 0), |
||||
Mapping("LOG4", 0xa4, 6, 0), |
||||
Mapping("CREATE", 0xf0, 3, 1), |
||||
Mapping("CALL", 0xf1, 7, 1), |
||||
Mapping("CALLCODE", 0xf2, 7, 1), |
||||
Mapping("RETURN", 0xf3, 2, 0), |
||||
Mapping("SUICIDE", 0xff, 1, 0), |
||||
Mapping("---END---", 0x00, 0, 0), |
||||
}; |
||||
|
||||
std::map<std::string, std::vector<int> > opcodes; |
||||
std::map<int, std::string> reverseOpcodes; |
||||
|
||||
// Fetches everything EXCEPT PUSH1..32
|
||||
std::pair<std::string, std::vector<int> > _opdata(std::string ops, int opi) { |
||||
if (!opcodes.size()) { |
||||
int i = 0; |
||||
while (mapping[i].op != "---END---") { |
||||
Mapping mi = mapping[i]; |
||||
opcodes[mi.op] = triple(mi.opcode, mi.in, mi.out); |
||||
i++; |
||||
} |
||||
for (i = 1; i <= 16; i++) { |
||||
opcodes["DUP"+unsignedToDecimal(i)] = triple(0x7f + i, i, i+1); |
||||
opcodes["SWAP"+unsignedToDecimal(i)] = triple(0x8f + i, i+1, i+1); |
||||
} |
||||
for (std::map<std::string, std::vector<int> >::iterator it=opcodes.begin(); |
||||
it != opcodes.end(); |
||||
it++) { |
||||
reverseOpcodes[(*it).second[0]] = (*it).first; |
||||
} |
||||
} |
||||
ops = upperCase(ops); |
||||
std::string op; |
||||
std::vector<int> opdata; |
||||
op = reverseOpcodes.count(opi) ? reverseOpcodes[opi] : ""; |
||||
opdata = opcodes.count(ops) ? opcodes[ops] : triple(-1, -1, -1); |
||||
return std::pair<std::string, std::vector<int> >(op, opdata); |
||||
} |
||||
|
||||
int opcode(std::string op) { |
||||
return _opdata(op, -1).second[0]; |
||||
} |
||||
|
||||
int opinputs(std::string op) { |
||||
return _opdata(op, -1).second[1]; |
||||
} |
||||
|
||||
int opoutputs(std::string op) { |
||||
return _opdata(op, -1).second[2]; |
||||
} |
||||
|
||||
std::string op(int opcode) { |
||||
return _opdata("", opcode).first; |
||||
} |
||||
|
||||
std::string lllSpecials[][3] = { |
||||
{ "ref", "1", "1" }, |
||||
{ "get", "1", "1" }, |
||||
{ "set", "2", "2" }, |
||||
{ "with", "3", "3" }, |
||||
{ "comment", "0", "2147483647" }, |
||||
{ "ops", "0", "2147483647" }, |
||||
{ "lll", "2", "2" }, |
||||
{ "seq", "0", "2147483647" }, |
||||
{ "if", "3", "3" }, |
||||
{ "unless", "2", "2" }, |
||||
{ "until", "2", "2" }, |
||||
{ "alloc", "1", "1" }, |
||||
{ "---END---", "0", "0" }, |
||||
}; |
||||
|
||||
std::map<std::string, std::pair<int, int> > lllMap; |
||||
|
||||
// Is a function name one of the valid functions above?
|
||||
bool isValidLLLFunc(std::string f, int argc) { |
||||
if (lllMap.size() == 0) { |
||||
for (int i = 0; ; i++) { |
||||
if (lllSpecials[i][0] == "---END---") break; |
||||
lllMap[lllSpecials[i][0]] = std::pair<int, int>( |
||||
dtu(lllSpecials[i][1]), dtu(lllSpecials[i][2])); |
||||
} |
||||
} |
||||
return lllMap.count(f) |
||||
&& argc >= lllMap[f].first |
||||
&& argc <= lllMap[f].second; |
||||
} |
@ -0,0 +1,45 @@ |
||||
#ifndef ETHSERP_OPCODES |
||||
#define ETHSERP_OPCODES |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
class Mapping { |
||||
public: |
||||
Mapping(std::string Op, int Opcode, int In, int Out) { |
||||
op = Op; |
||||
opcode = Opcode; |
||||
in = In; |
||||
out = Out; |
||||
} |
||||
std::string op; |
||||
int opcode; |
||||
int in; |
||||
int out; |
||||
}; |
||||
|
||||
extern Mapping mapping[]; |
||||
|
||||
extern std::map<std::string, std::vector<int> > opcodes; |
||||
extern std::map<int, std::string> reverseOpcodes; |
||||
|
||||
std::pair<std::string, std::vector<int> > _opdata(std::string ops, int opi); |
||||
|
||||
int opcode(std::string op); |
||||
|
||||
int opinputs(std::string op); |
||||
|
||||
int opoutputs(std::string op); |
||||
|
||||
std::string op(int opcode); |
||||
|
||||
extern std::string lllSpecials[][3]; |
||||
|
||||
extern std::map<std::string, std::pair<int, int> > lllMap; |
||||
|
||||
bool isValidLLLFunc(std::string f, int argc); |
||||
|
||||
#endif |
@ -0,0 +1,98 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "bignum.h" |
||||
|
||||
// Compile-time arithmetic calculations
|
||||
Node optimize(Node inp) { |
||||
if (inp.type == TOKEN) { |
||||
Node o = tryNumberize(inp); |
||||
if (decimalGt(o.val, tt256, true)) |
||||
err("Value too large (exceeds 32 bytes or 2^256)", inp.metadata); |
||||
return o; |
||||
} |
||||
for (unsigned i = 0; i < inp.args.size(); i++) { |
||||
inp.args[i] = optimize(inp.args[i]); |
||||
} |
||||
// Arithmetic-specific transform
|
||||
if (inp.val == "+") inp.val = "add"; |
||||
if (inp.val == "*") inp.val = "mul"; |
||||
if (inp.val == "-") inp.val = "sub"; |
||||
if (inp.val == "/") inp.val = "sdiv"; |
||||
if (inp.val == "^") inp.val = "exp"; |
||||
if (inp.val == "**") inp.val = "exp"; |
||||
if (inp.val == "%") inp.val = "smod"; |
||||
// Degenerate cases for add and mul
|
||||
if (inp.args.size() == 2) { |
||||
if (inp.val == "add" && inp.args[0].type == TOKEN &&
|
||||
inp.args[0].val == "0") { |
||||
Node x = inp.args[1]; |
||||
inp = x; |
||||
} |
||||
if (inp.val == "add" && inp.args[1].type == TOKEN &&
|
||||
inp.args[1].val == "0") { |
||||
Node x = inp.args[0]; |
||||
inp = x; |
||||
} |
||||
if (inp.val == "mul" && inp.args[0].type == TOKEN &&
|
||||
inp.args[0].val == "1") { |
||||
Node x = inp.args[1]; |
||||
inp = x; |
||||
} |
||||
if (inp.val == "mul" && inp.args[1].type == TOKEN &&
|
||||
inp.args[1].val == "1") { |
||||
Node x = inp.args[0]; |
||||
inp = x; |
||||
} |
||||
} |
||||
// Arithmetic computation
|
||||
if (inp.args.size() == 2
|
||||
&& inp.args[0].type == TOKEN
|
||||
&& inp.args[1].type == TOKEN) { |
||||
std::string o; |
||||
if (inp.val == "add") { |
||||
o = decimalMod(decimalAdd(inp.args[0].val, inp.args[1].val), tt256); |
||||
} |
||||
else if (inp.val == "sub") { |
||||
if (decimalGt(inp.args[0].val, inp.args[1].val, true)) |
||||
o = decimalSub(inp.args[0].val, inp.args[1].val); |
||||
} |
||||
else if (inp.val == "mul") { |
||||
o = decimalMod(decimalMul(inp.args[0].val, inp.args[1].val), tt256); |
||||
} |
||||
else if (inp.val == "div" && inp.args[1].val != "0") { |
||||
o = decimalDiv(inp.args[0].val, inp.args[1].val); |
||||
} |
||||
else if (inp.val == "sdiv" && inp.args[1].val != "0" |
||||
&& decimalGt(tt255, inp.args[0].val) |
||||
&& decimalGt(tt255, inp.args[1].val)) { |
||||
o = decimalDiv(inp.args[0].val, inp.args[1].val); |
||||
} |
||||
else if (inp.val == "mod" && inp.args[1].val != "0") { |
||||
o = decimalMod(inp.args[0].val, inp.args[1].val); |
||||
} |
||||
else if (inp.val == "smod" && inp.args[1].val != "0" |
||||
&& decimalGt(tt255, inp.args[0].val) |
||||
&& decimalGt(tt255, inp.args[1].val)) { |
||||
o = decimalMod(inp.args[0].val, inp.args[1].val); |
||||
}
|
||||
else if (inp.val == "exp") { |
||||
o = decimalModExp(inp.args[0].val, inp.args[1].val, tt256); |
||||
} |
||||
if (o.length()) return token(o, inp.metadata); |
||||
} |
||||
return inp; |
||||
} |
||||
|
||||
// Is a node degenerate (ie. trivial to calculate) ?
|
||||
bool isDegenerate(Node n) { |
||||
return optimize(n).type == TOKEN; |
||||
} |
||||
|
||||
// Is a node purely arithmetic?
|
||||
bool isPureArithmetic(Node n) { |
||||
return isNumberLike(optimize(n)); |
||||
} |
@ -0,0 +1,19 @@ |
||||
#ifndef ETHSERP_OPTIMIZER |
||||
#define ETHSERP_OPTIMIZER |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// Compile-time arithmetic calculations
|
||||
Node optimize(Node inp); |
||||
|
||||
// Is a node degenerate (ie. trivial to calculate) ?
|
||||
bool isDegenerate(Node n); |
||||
|
||||
// Is a node purely arithmetic?
|
||||
bool isPureArithmetic(Node n); |
||||
|
||||
#endif |
@ -0,0 +1,430 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "parser.h" |
||||
#include "tokenize.h" |
||||
|
||||
// Extended BEDMAS precedence order
|
||||
int precedence(Node tok) { |
||||
std::string v = tok.val; |
||||
if (v == ".") return -1; |
||||
else if (v == "!" || v == "not") return 1; |
||||
else if (v=="^" || v == "**") return 2; |
||||
else if (v=="*" || v=="/" || v=="%") return 3; |
||||
else if (v=="+" || v=="-") return 4; |
||||
else if (v=="<" || v==">" || v=="<=" || v==">=") return 5; |
||||
else if (v=="&" || v=="|" || v=="xor" || v=="==" || v == "!=") return 6; |
||||
else if (v=="&&" || v=="and") return 7;
|
||||
else if (v=="||" || v=="or") return 8; |
||||
else if (v=="=") return 10; |
||||
else if (v=="+=" || v=="-=" || v=="*=" || v=="/=" || v=="%=") return 10; |
||||
else if (v==":" || v == "::") return 11; |
||||
else return 0; |
||||
} |
||||
|
||||
// Token classification for shunting-yard purposes
|
||||
int toktype(Node tok) { |
||||
if (tok.type == ASTNODE) return COMPOUND; |
||||
std::string v = tok.val; |
||||
if (v == "(" || v == "[" || v == "{") return LPAREN; |
||||
else if (v == ")" || v == "]" || v == "}") return RPAREN; |
||||
else if (v == ",") return COMMA; |
||||
else if (v == "!" || v == "~" || v == "not") return UNARY_OP; |
||||
else if (precedence(tok) > 0) return BINARY_OP; |
||||
else if (precedence(tok) < 0) return TOKEN_SPLITTER; |
||||
if (tok.val[0] != '"' && tok.val[0] != '\'') { |
||||
for (unsigned i = 0; i < tok.val.length(); i++) { |
||||
if (chartype(tok.val[i]) == SYMB) { |
||||
err("Invalid symbol: "+tok.val, tok.metadata); |
||||
} |
||||
} |
||||
} |
||||
return ALPHANUM; |
||||
} |
||||
|
||||
|
||||
// Converts to reverse polish notation
|
||||
std::vector<Node> shuntingYard(std::vector<Node> tokens) { |
||||
std::vector<Node> iq; |
||||
for (int i = tokens.size() - 1; i >= 0; i--) { |
||||
iq.push_back(tokens[i]); |
||||
} |
||||
std::vector<Node> oq; |
||||
std::vector<Node> stack; |
||||
Node prev, tok; |
||||
int prevtyp = 0, toktyp = 0; |
||||
|
||||
while (iq.size()) { |
||||
prev = tok; |
||||
prevtyp = toktyp; |
||||
tok = iq.back(); |
||||
toktyp = toktype(tok); |
||||
iq.pop_back(); |
||||
// Alphanumerics go straight to output queue
|
||||
if (toktyp == ALPHANUM) { |
||||
oq.push_back(tok); |
||||
} |
||||
// Left parens go on stack and output queue
|
||||
else if (toktyp == LPAREN) { |
||||
while (stack.size() && toktype(stack.back()) == TOKEN_SPLITTER) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
if (prevtyp != ALPHANUM && prevtyp != RPAREN) { |
||||
oq.push_back(token("id", tok.metadata)); |
||||
} |
||||
stack.push_back(tok); |
||||
oq.push_back(tok); |
||||
} |
||||
// If rparen, keep moving from stack to output queue until lparen
|
||||
else if (toktyp == RPAREN) { |
||||
while (stack.size() && toktype(stack.back()) != LPAREN) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
if (stack.size()) { |
||||
stack.pop_back(); |
||||
} |
||||
oq.push_back(tok); |
||||
} |
||||
else if (toktyp == UNARY_OP) { |
||||
stack.push_back(tok); |
||||
} |
||||
// If token splitter, just push it to the stack
|
||||
else if (toktyp == TOKEN_SPLITTER) { |
||||
while (stack.size() && toktype(stack.back()) == TOKEN_SPLITTER) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
stack.push_back(tok); |
||||
} |
||||
// If binary op, keep popping from stack while higher bedmas precedence
|
||||
else if (toktyp == BINARY_OP) { |
||||
if (tok.val == "-" && prevtyp != ALPHANUM && prevtyp != RPAREN) { |
||||
stack.push_back(tok); |
||||
oq.push_back(token("0", tok.metadata)); |
||||
} |
||||
else { |
||||
int prec = precedence(tok); |
||||
while (stack.size()
|
||||
&& (toktype(stack.back()) == BINARY_OP
|
||||
|| toktype(stack.back()) == UNARY_OP |
||||
|| toktype(stack.back()) == TOKEN_SPLITTER) |
||||
&& precedence(stack.back()) <= prec) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
stack.push_back(tok); |
||||
} |
||||
} |
||||
// Comma means finish evaluating the argument
|
||||
else if (toktyp == COMMA) { |
||||
while (stack.size() && toktype(stack.back()) != LPAREN) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
} |
||||
} |
||||
while (stack.size()) { |
||||
oq.push_back(stack.back()); |
||||
stack.pop_back(); |
||||
} |
||||
return oq; |
||||
} |
||||
|
||||
// Converts reverse polish notation into tree
|
||||
Node treefy(std::vector<Node> stream) { |
||||
std::vector<Node> iq; |
||||
for (int i = stream.size() -1; i >= 0; i--) { |
||||
iq.push_back(stream[i]); |
||||
} |
||||
std::vector<Node> oq; |
||||
while (iq.size()) { |
||||
Node tok = iq.back(); |
||||
iq.pop_back(); |
||||
int typ = toktype(tok); |
||||
// If unary, take node off end of oq and wrap it with the operator
|
||||
// If binary, do the same with two nodes
|
||||
if (typ == UNARY_OP || typ == BINARY_OP || typ == TOKEN_SPLITTER) { |
||||
std::vector<Node> args; |
||||
int rounds = (typ == UNARY_OP) ? 1 : 2; |
||||
for (int i = 0; i < rounds; i++) { |
||||
if (oq.size() == 0) { |
||||
err("Line malformed, not enough args for "+tok.val, |
||||
tok.metadata); |
||||
} |
||||
args.push_back(oq.back()); |
||||
oq.pop_back(); |
||||
} |
||||
std::vector<Node> args2; |
||||
while (args.size()) { |
||||
args2.push_back(args.back()); |
||||
args.pop_back(); |
||||
} |
||||
oq.push_back(astnode(tok.val, args2, tok.metadata)); |
||||
} |
||||
// If rparen, keep grabbing until we get to an lparen
|
||||
else if (typ == RPAREN) { |
||||
std::vector<Node> args; |
||||
while (1) { |
||||
if (toktype(oq.back()) == LPAREN) break; |
||||
args.push_back(oq.back()); |
||||
oq.pop_back(); |
||||
if (!oq.size()) err("Bracket without matching", tok.metadata); |
||||
} |
||||
oq.pop_back(); |
||||
args.push_back(oq.back()); |
||||
oq.pop_back(); |
||||
// We represent a[b] as (access a b)
|
||||
if (tok.val == "]") |
||||
args.push_back(token("access", tok.metadata)); |
||||
if (args.back().type == ASTNODE) |
||||
args.push_back(token("fun", tok.metadata)); |
||||
std::string fun = args.back().val; |
||||
args.pop_back(); |
||||
// We represent [1,2,3] as (array_lit 1 2 3)
|
||||
if (fun == "access" && args.size() && args.back().val == "id") { |
||||
fun = "array_lit"; |
||||
args.pop_back(); |
||||
} |
||||
std::vector<Node> args2; |
||||
while (args.size()) { |
||||
args2.push_back(args.back()); |
||||
args.pop_back(); |
||||
} |
||||
// When evaluating 2 + (3 * 5), the shunting yard algo turns that
|
||||
// into 2 ( id 3 5 * ) +, effectively putting "id" as a dummy
|
||||
// function where the algo was expecting a function to call the
|
||||
// thing inside the brackets. This reverses that step
|
||||
if (fun == "id" && args2.size() == 1) { |
||||
oq.push_back(args2[0]); |
||||
} |
||||
else { |
||||
oq.push_back(astnode(fun, args2, tok.metadata)); |
||||
} |
||||
} |
||||
else oq.push_back(tok); |
||||
// This is messy, but has to be done. Import/inset other files here
|
||||
std::string v = oq.back().val; |
||||
if ((v == "inset" || v == "import" || v == "create")
|
||||
&& oq.back().args.size() == 1 |
||||
&& oq.back().args[0].type == TOKEN) { |
||||
int lastSlashPos = tok.metadata.file.rfind("/"); |
||||
std::string root; |
||||
if (lastSlashPos >= 0) |
||||
root = tok.metadata.file.substr(0, lastSlashPos) + "/"; |
||||
else |
||||
root = ""; |
||||
std::string filename = oq.back().args[0].val; |
||||
filename = filename.substr(1, filename.length() - 2); |
||||
if (!exists(root + filename)) |
||||
err("File does not exist: "+root + filename, tok.metadata); |
||||
oq.back().args.pop_back(); |
||||
oq.back().args.push_back(parseSerpent(root + filename)); |
||||
} |
||||
//Useful for debugging
|
||||
//for (int i = 0; i < oq.size(); i++) {
|
||||
// std::cerr << printSimple(oq[i]) << " ";
|
||||
//}
|
||||
//std::cerr << " <-\n";
|
||||
} |
||||
// Output must have one argument
|
||||
if (oq.size() == 0) { |
||||
err("Output blank", Metadata()); |
||||
} |
||||
else if (oq.size() > 1) { |
||||
return asn("multi", oq, oq[0].metadata); |
||||
} |
||||
|
||||
return oq[0]; |
||||
} |
||||
|
||||
|
||||
// Parses one line of serpent
|
||||
Node parseSerpentTokenStream(std::vector<Node> s) { |
||||
return treefy(shuntingYard(s)); |
||||
} |
||||
|
||||
|
||||
// Count spaces at beginning of line
|
||||
int spaceCount(std::string s) { |
||||
unsigned pos = 0; |
||||
while (pos < s.length() && (s[pos] == ' ' || s[pos] == '\t')) |
||||
pos++; |
||||
return pos; |
||||
} |
||||
|
||||
// Is this a command that takes an argument on the same line?
|
||||
bool bodied(std::string tok) { |
||||
return tok == "if" || tok == "elif" || tok == "while" |
||||
|| tok == "with" || tok == "def" || tok == "extern" |
||||
|| tok == "data" || tok == "assert" || tok == "return" |
||||
|| tok == "fun" || tok == "scope" || tok == "macro" |
||||
|| tok == "type"; |
||||
} |
||||
|
||||
// Are the two commands meant to continue each other?
|
||||
bool bodiedContinued(std::string prev, std::string tok) { |
||||
return (prev == "if" && tok == "elif") |
||||
|| (prev == "elif" && tok == "else") |
||||
|| (prev == "elif" && tok == "elif") |
||||
|| (prev == "if" && tok == "else"); |
||||
} |
||||
|
||||
// Is a line of code empty?
|
||||
bool isLineEmpty(std::string line) { |
||||
std::vector<Node> tokens = tokenize(line); |
||||
if (!tokens.size() || tokens[0].val == "#" || tokens[0].val == "//") |
||||
return true; |
||||
return false; |
||||
} |
||||
|
||||
// Parse lines of serpent (helper function)
|
||||
Node parseLines(std::vector<std::string> lines, Metadata metadata, int sp) { |
||||
std::vector<Node> o; |
||||
int origLine = metadata.ln; |
||||
unsigned i = 0; |
||||
while (i < lines.size()) { |
||||
metadata.ln = origLine + i;
|
||||
std::string main = lines[i]; |
||||
if (isLineEmpty(main)) { |
||||
i += 1; |
||||
continue; |
||||
} |
||||
int spaces = spaceCount(main); |
||||
if (spaces != sp) { |
||||
err("Indent mismatch", metadata); |
||||
} |
||||
// Tokenize current line
|
||||
std::vector<Node> tokens = tokenize(main.substr(sp), metadata); |
||||
// Remove comments
|
||||
std::vector<Node> tokens2; |
||||
for (unsigned j = 0; j < tokens.size(); j++) { |
||||
if (tokens[j].val == "#" || tokens[j].val == "//") break; |
||||
tokens2.push_back(tokens[j]); |
||||
} |
||||
bool expectingChildBlock = false; |
||||
if (tokens2.size() > 0 && tokens2.back().val == ":") { |
||||
tokens2.pop_back(); |
||||
expectingChildBlock = true; |
||||
} |
||||
// Parse current line
|
||||
Node out = parseSerpentTokenStream(tokens2); |
||||
// Parse child block
|
||||
int childIndent = 999999; |
||||
std::vector<std::string> childBlock; |
||||
while (1) { |
||||
i++; |
||||
if (i >= lines.size()) |
||||
break; |
||||
bool ile = isLineEmpty(lines[i]); |
||||
if (!ile) { |
||||
int spaces = spaceCount(lines[i]); |
||||
if (spaces <= sp) break; |
||||
childBlock.push_back(lines[i]); |
||||
if (spaces < childIndent) childIndent = spaces; |
||||
} |
||||
else childBlock.push_back(""); |
||||
} |
||||
// Child block empty?
|
||||
bool cbe = true; |
||||
for (unsigned i = 0; i < childBlock.size(); i++) { |
||||
if (childBlock[i].length() > 0) { cbe = false; break; } |
||||
} |
||||
// Add child block to AST
|
||||
if (expectingChildBlock) { |
||||
if (cbe) |
||||
err("Expected indented child block!", out.metadata); |
||||
out.type = ASTNODE; |
||||
metadata.ln += 1; |
||||
out.args.push_back(parseLines(childBlock, metadata, childIndent)); |
||||
metadata.ln -= 1; |
||||
} |
||||
else if (!cbe) |
||||
err("Did not expect indented child block!", out.metadata); |
||||
else if (out.args.size() && out.args[out.args.size() - 1].val == ":") { |
||||
Node n = out.args[out.args.size() - 1]; |
||||
out.args.pop_back(); |
||||
out.args.push_back(n.args[0]); |
||||
out.args.push_back(n.args[1]); |
||||
} |
||||
// Bring back if / elif into AST
|
||||
if (bodied(tokens[0].val)) { |
||||
if (out.val != "multi") { |
||||
// token not being used in bodied form
|
||||
} |
||||
else if (out.args[0].val == "id") |
||||
out = astnode(tokens[0].val, out.args[1].args, out.metadata); |
||||
else if (out.args[0].type == TOKEN) { |
||||
std::vector<Node> out2; |
||||
for (unsigned i = 1; i < out.args.size(); i++) |
||||
out2.push_back(out.args[i]); |
||||
out = astnode(tokens[0].val, out2, out.metadata); |
||||
} |
||||
else |
||||
out = astnode("fun", out.args, out.metadata); |
||||
} |
||||
// Multi not supported
|
||||
if (out.val == "multi") |
||||
err("Multiple expressions or unclosed bracket", out.metadata); |
||||
// Convert top-level colon expressions into non-colon expressions;
|
||||
// makes if statements and the like equivalent indented or not
|
||||
//if (out.val == ":" && out.args[0].type == TOKEN)
|
||||
// out = asn(out.args[0].val, out.args[1], out.metadata);
|
||||
//if (bodied(tokens[0].val) && out.args[0].val == ":")
|
||||
// out = asn(tokens[0].val, out.args[0].args);
|
||||
if (o.size() == 0 || o.back().type == TOKEN) { |
||||
o.push_back(out); |
||||
continue; |
||||
} |
||||
// This is a little complicated. Basically, the idea here is to build
|
||||
// constructions like [if [< x 5] [a] [elif [< x 10] [b] [else [c]]]]
|
||||
std::vector<Node> u; |
||||
u.push_back(o.back()); |
||||
if (bodiedContinued(o.back().val, out.val)) { |
||||
while (1) { |
||||
if (!bodiedContinued(u.back().val, out.val)) { |
||||
u.pop_back(); |
||||
break; |
||||
} |
||||
if (!u.back().args.size() |
||||
|| !bodiedContinued(u.back().val, u.back().args.back().val)) { |
||||
break; |
||||
} |
||||
u.push_back(u.back().args.back()); |
||||
} |
||||
u.back().args.push_back(out); |
||||
while (u.size() > 1) { |
||||
Node v = u.back(); |
||||
u.pop_back(); |
||||
u.back().args.pop_back(); |
||||
u.back().args.push_back(v); |
||||
} |
||||
o.pop_back(); |
||||
o.push_back(u[0]); |
||||
} |
||||
else o.push_back(out); |
||||
} |
||||
if (o.size() == 1) |
||||
return o[0]; |
||||
else if (o.size()) |
||||
return astnode("seq", o, o[0].metadata); |
||||
else |
||||
return astnode("seq", o, Metadata()); |
||||
} |
||||
|
||||
// Parses serpent code
|
||||
Node parseSerpent(std::string s) { |
||||
std::string input = s; |
||||
std::string file = "main"; |
||||
if (exists(s)) { |
||||
file = s; |
||||
input = get_file_contents(s); |
||||
} |
||||
return parseLines(splitLines(input), Metadata(file, 0, 0), 0); |
||||
} |
||||
|
||||
|
||||
using namespace std; |
@ -0,0 +1,13 @@ |
||||
#ifndef ETHSERP_PARSER |
||||
#define ETHSERP_PARSER |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// Serpent text -> parse tree
|
||||
Node parseSerpent(std::string s); |
||||
|
||||
#endif |
@ -0,0 +1,299 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "bignum.h" |
||||
#include "rewriteutils.h" |
||||
#include "optimize.h" |
||||
#include "preprocess.h" |
||||
#include "functions.h" |
||||
#include "opcodes.h" |
||||
|
||||
// Convert a function of the form (def (f x y z) (do stuff)) into
|
||||
// (if (first byte of ABI is correct) (seq (setup x y z) (do stuff)))
|
||||
Node convFunction(Node node, int functionCount) { |
||||
std::string prefix = "_temp"+mkUniqueToken()+"_"; |
||||
Metadata m = node.metadata; |
||||
|
||||
if (node.args.size() != 2) |
||||
err("Malformed def!", m); |
||||
// Collect the list of variable names and variable byte counts
|
||||
Node unpack = unpackArguments(node.args[0].args, m); |
||||
// And the actual code
|
||||
Node body = node.args[1]; |
||||
// Main LLL-based function body
|
||||
return astnode("if", |
||||
astnode("eq", |
||||
astnode("get", token("__funid", m), m), |
||||
token(unsignedToDecimal(functionCount), m), |
||||
m), |
||||
astnode("seq", unpack, body, m)); |
||||
} |
||||
|
||||
// Populate an svObj with the arguments needed to determine
|
||||
// the storage position of a node
|
||||
svObj getStorageVars(svObj pre, Node node, std::string prefix, |
||||
int index) { |
||||
Metadata m = node.metadata; |
||||
if (!pre.globalOffset.size()) pre.globalOffset = "0"; |
||||
std::vector<Node> h; |
||||
std::vector<std::string> coefficients; |
||||
// Array accesses or atoms
|
||||
if (node.val == "access" || node.type == TOKEN) { |
||||
std::string tot = "1"; |
||||
h = listfyStorageAccess(node); |
||||
coefficients.push_back("1"); |
||||
for (unsigned i = h.size() - 1; i >= 1; i--) { |
||||
// Array sizes must be constant or at least arithmetically
|
||||
// evaluable at compile time
|
||||
if (!isPureArithmetic(h[i])) |
||||
err("Array size must be fixed value", m); |
||||
// Create a list of the coefficient associated with each
|
||||
// array index
|
||||
coefficients.push_back(decimalMul(coefficients.back(), h[i].val)); |
||||
} |
||||
} |
||||
// Tuples
|
||||
else { |
||||
int startc; |
||||
// Handle the (fun <fun_astnode> args...) case
|
||||
if (node.val == "fun") { |
||||
startc = 1; |
||||
h = listfyStorageAccess(node.args[0]); |
||||
} |
||||
// Handle the (<fun_name> args...) case, which
|
||||
// the serpent parser produces when the function
|
||||
// is a simple name and not a complex astnode
|
||||
else { |
||||
startc = 0; |
||||
h = listfyStorageAccess(token(node.val, m)); |
||||
} |
||||
svObj sub = pre; |
||||
sub.globalOffset = "0"; |
||||
// Evaluate tuple elements recursively
|
||||
for (unsigned i = startc; i < node.args.size(); i++) { |
||||
sub = getStorageVars(sub, |
||||
node.args[i], |
||||
prefix+h[0].val.substr(2)+".", |
||||
i-startc); |
||||
} |
||||
coefficients.push_back(sub.globalOffset); |
||||
for (unsigned i = h.size() - 1; i >= 1; i--) { |
||||
// Array sizes must be constant or at least arithmetically
|
||||
// evaluable at compile time
|
||||
if (!isPureArithmetic(h[i])) |
||||
err("Array size must be fixed value", m); |
||||
// Create a list of the coefficient associated with each
|
||||
// array index
|
||||
coefficients.push_back(decimalMul(coefficients.back(), h[i].val)); |
||||
} |
||||
pre.offsets = sub.offsets; |
||||
pre.coefficients = sub.coefficients; |
||||
pre.nonfinal = sub.nonfinal; |
||||
pre.nonfinal[prefix+h[0].val.substr(2)] = true; |
||||
} |
||||
pre.coefficients[prefix+h[0].val.substr(2)] = coefficients; |
||||
pre.offsets[prefix+h[0].val.substr(2)] = pre.globalOffset; |
||||
pre.indices[prefix+h[0].val.substr(2)] = index; |
||||
if (decimalGt(tt176, coefficients.back())) |
||||
pre.globalOffset = decimalAdd(pre.globalOffset, coefficients.back()); |
||||
return pre; |
||||
} |
||||
|
||||
// Preprocess input containing functions
|
||||
//
|
||||
// localExterns is a map of the form, eg,
|
||||
//
|
||||
// { x: { foo: 0, bar: 1, baz: 2 }, y: { qux: 0, foo: 1 } ... }
|
||||
//
|
||||
// localExternSigs is a map of the form, eg,
|
||||
//
|
||||
// { x : { foo: iii, bar: iis, baz: ia }, y: { qux: i, foo: as } ... }
|
||||
//
|
||||
// Signifying that x.foo = 0, x.baz = 2, y.foo = 1, etc
|
||||
// and that x.foo has three integers as arguments, x.bar has two
|
||||
// integers and a variable-length string, and baz has an integer
|
||||
// and an array
|
||||
//
|
||||
// globalExterns is a one-level map, eg from above
|
||||
//
|
||||
// { foo: 1, bar: 1, baz: 2, qux: 0 }
|
||||
//
|
||||
// globalExternSigs is a one-level map, eg from above
|
||||
//
|
||||
// { foo: as, bar: iis, baz: ia, qux: i}
|
||||
//
|
||||
// Note that globalExterns and globalExternSigs may be ambiguous
|
||||
// Also, a null signature implies an infinite tail of integers
|
||||
preprocessResult preprocessInit(Node inp) { |
||||
Metadata m = inp.metadata; |
||||
if (inp.val != "seq") |
||||
inp = astnode("seq", inp, m); |
||||
std::vector<Node> empty = std::vector<Node>(); |
||||
Node init = astnode("seq", empty, m); |
||||
Node shared = astnode("seq", empty, m); |
||||
std::vector<Node> any; |
||||
std::vector<Node> functions; |
||||
preprocessAux out = preprocessAux(); |
||||
out.localExterns["self"] = std::map<std::string, int>(); |
||||
int functionCount = 0; |
||||
int storageDataCount = 0; |
||||
for (unsigned i = 0; i < inp.args.size(); i++) { |
||||
Node obj = inp.args[i]; |
||||
// Functions
|
||||
if (obj.val == "def") { |
||||
if (obj.args.size() == 0) |
||||
err("Empty def", m); |
||||
std::string funName = obj.args[0].val; |
||||
// Init, shared and any are special functions
|
||||
if (funName == "init" || funName == "shared" || funName == "any") { |
||||
if (obj.args[0].args.size()) |
||||
err(funName+" cannot have arguments", m); |
||||
} |
||||
if (funName == "init") init = obj.args[1]; |
||||
else if (funName == "shared") shared = obj.args[1]; |
||||
else if (funName == "any") any.push_back(obj.args[1]); |
||||
else { |
||||
// Other functions
|
||||
functions.push_back(convFunction(obj, functionCount)); |
||||
out.localExterns["self"][obj.args[0].val] = functionCount; |
||||
out.localExternSigs["self"][obj.args[0].val]
|
||||
= getSignature(obj.args[0].args); |
||||
functionCount++; |
||||
} |
||||
} |
||||
// Extern declarations
|
||||
else if (obj.val == "extern") { |
||||
std::string externName = obj.args[0].val; |
||||
Node al = obj.args[1]; |
||||
if (!out.localExterns.count(externName)) |
||||
out.localExterns[externName] = std::map<std::string, int>(); |
||||
for (unsigned i = 0; i < al.args.size(); i++) { |
||||
if (al.args[i].val == ":") { |
||||
std::string v = al.args[i].args[0].val; |
||||
std::string sig = al.args[i].args[1].val; |
||||
out.globalExterns[v] = i; |
||||
out.globalExternSigs[v] = sig; |
||||
out.localExterns[externName][v] = i; |
||||
out.localExternSigs[externName][v] = sig; |
||||
} |
||||
else { |
||||
std::string v = al.args[i].val; |
||||
out.globalExterns[v] = i; |
||||
out.globalExternSigs[v] = ""; |
||||
out.localExterns[externName][v] = i; |
||||
out.localExternSigs[externName][v] = ""; |
||||
} |
||||
} |
||||
} |
||||
// Custom macros
|
||||
else if (obj.val == "macro") { |
||||
// Rules for valid macros:
|
||||
//
|
||||
// There are only four categories of valid macros:
|
||||
//
|
||||
// 1. a macro where the outer function is something
|
||||
// which is NOT an existing valid function/extern/datum
|
||||
// 2. a macro of the form set(c(x), d) where c must NOT
|
||||
// be an existing valid function/extern/datum
|
||||
// 3. something of the form access(c(x)), where c must NOT
|
||||
// be an existing valid function/extern/datum
|
||||
// 4. something of the form set(access(c(x)), d) where c must
|
||||
// NOT be an existing valid function/extern/datum
|
||||
bool valid = false; |
||||
Node pattern = obj.args[0]; |
||||
Node substitution = obj.args[1]; |
||||
if (opcode(pattern.val) < 0 && !isValidFunctionName(pattern.val)) |
||||
valid = true; |
||||
if (pattern.val == "set" && |
||||
opcode(pattern.args[0].val) < 0 && |
||||
!isValidFunctionName(pattern.args[0].val)) |
||||
valid = true; |
||||
if (pattern.val == "access" && |
||||
opcode(pattern.args[0].val) < 0 && |
||||
!isValidFunctionName(pattern.args[0].val)) |
||||
if (pattern.val == "set" && |
||||
pattern.args[0].val == "access" && |
||||
opcode(pattern.args[0].args[0].val) < 0 && |
||||
!isValidFunctionName(pattern.args[0].args[0].val)) |
||||
valid = true; |
||||
if (valid) { |
||||
out.customMacros.push_back(rewriteRule(pattern, substitution)); |
||||
} |
||||
} |
||||
// Variable types
|
||||
else if (obj.val == "type") { |
||||
std::string typeName = obj.args[0].val; |
||||
std::vector<Node> vars = obj.args[1].args; |
||||
for (unsigned i = 0; i < vars.size(); i++) |
||||
out.types[vars[i].val] = typeName; |
||||
} |
||||
// Storage variables/structures
|
||||
else if (obj.val == "data") { |
||||
out.storageVars = getStorageVars(out.storageVars, |
||||
obj.args[0], |
||||
"", |
||||
storageDataCount); |
||||
storageDataCount += 1; |
||||
} |
||||
else any.push_back(obj); |
||||
} |
||||
std::vector<Node> main; |
||||
if (shared.args.size()) main.push_back(shared); |
||||
if (init.args.size()) main.push_back(init); |
||||
|
||||
std::vector<Node> code; |
||||
if (shared.args.size()) code.push_back(shared); |
||||
for (unsigned i = 0; i < any.size(); i++) |
||||
code.push_back(any[i]); |
||||
for (unsigned i = 0; i < functions.size(); i++) |
||||
code.push_back(functions[i]); |
||||
Node codeNode; |
||||
if (functions.size() > 0) { |
||||
codeNode = astnode("with", |
||||
token("__funid", m), |
||||
astnode("byte", |
||||
token("0", m), |
||||
astnode("calldataload", token("0", m), m), |
||||
m), |
||||
astnode("seq", code, m), |
||||
m); |
||||
} |
||||
else codeNode = astnode("seq", code, m); |
||||
main.push_back(astnode("~return", |
||||
token("0", m), |
||||
astnode("lll", |
||||
codeNode, |
||||
token("0", m), |
||||
m), |
||||
m)); |
||||
|
||||
|
||||
Node result; |
||||
if (main.size() == 1) result = main[0]; |
||||
else result = astnode("seq", main, inp.metadata); |
||||
return preprocessResult(result, out); |
||||
} |
||||
|
||||
preprocessResult processTypes (preprocessResult pr) { |
||||
preprocessAux aux = pr.second; |
||||
Node node = pr.first; |
||||
if (node.type == TOKEN && aux.types.count(node.val)) { |
||||
node = asn(aux.types[node.val], node, node.metadata); |
||||
} |
||||
else if (node.val == "untyped") |
||||
return preprocessResult(node.args[0], aux); |
||||
else { |
||||
for (unsigned i = 0; i < node.args.size(); i++) { |
||||
node.args[i] = |
||||
processTypes(preprocessResult(node.args[i], aux)).first; |
||||
} |
||||
} |
||||
return preprocessResult(node, aux); |
||||
} |
||||
|
||||
preprocessResult preprocess(Node n) { |
||||
return processTypes(preprocessInit(n)); |
||||
} |
@ -0,0 +1,58 @@ |
||||
#ifndef ETHSERP_PREPROCESSOR |
||||
#define ETHSERP_PREPROCESSOR |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// Storage variable index storing object
|
||||
struct svObj { |
||||
std::map<std::string, std::string> offsets; |
||||
std::map<std::string, int> indices; |
||||
std::map<std::string, std::vector<std::string> > coefficients; |
||||
std::map<std::string, bool> nonfinal; |
||||
std::string globalOffset; |
||||
}; |
||||
|
||||
class rewriteRule { |
||||
public: |
||||
rewriteRule(Node p, Node s) { |
||||
pattern = p; |
||||
substitution = s; |
||||
} |
||||
Node pattern; |
||||
Node substitution; |
||||
}; |
||||
|
||||
|
||||
// Preprocessing result storing object
|
||||
class preprocessAux { |
||||
public: |
||||
preprocessAux() { |
||||
globalExterns = std::map<std::string, int>(); |
||||
localExterns = std::map<std::string, std::map<std::string, int> >(); |
||||
localExterns["self"] = std::map<std::string, int>(); |
||||
} |
||||
std::map<std::string, int> globalExterns; |
||||
std::map<std::string, std::string> globalExternSigs; |
||||
std::map<std::string, std::map<std::string, int> > localExterns; |
||||
std::map<std::string, std::map<std::string, std::string> > localExternSigs; |
||||
std::vector<rewriteRule> customMacros; |
||||
std::map<std::string, std::string> types; |
||||
svObj storageVars; |
||||
}; |
||||
|
||||
#define preprocessResult std::pair<Node, preprocessAux> |
||||
|
||||
// Populate an svObj with the arguments needed to determine
|
||||
// the storage position of a node
|
||||
svObj getStorageVars(svObj pre, Node node, std::string prefix="", |
||||
int index=0); |
||||
|
||||
// Preprocess a function (see cpp for details)
|
||||
preprocessResult preprocess(Node inp); |
||||
|
||||
|
||||
#endif |
@ -0,0 +1,173 @@ |
||||
#include <Python.h> |
||||
#include "structmember.h" |
||||
|
||||
#include <stdlib.h> |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include "funcs.h" |
||||
|
||||
#define PYMETHOD(name, FROM, method, TO) \ |
||||
static PyObject * name(PyObject *, PyObject *args) { \
|
||||
try { \
|
||||
FROM(med) \
|
||||
return TO(method(med)); \
|
||||
} \
|
||||
catch (std::string e) { \
|
||||
PyErr_SetString(PyExc_Exception, e.c_str()); \
|
||||
return NULL; \
|
||||
} \
|
||||
} |
||||
|
||||
#define FROMSTR(v) \ |
||||
const char *command; \
|
||||
int len; \
|
||||
if (!PyArg_ParseTuple(args, "s#", &command, &len)) \
|
||||
return NULL; \
|
||||
std::string v = std::string(command, len); \
|
||||
|
||||
#define FROMNODE(v) \ |
||||
PyObject *node; \
|
||||
if (!PyArg_ParseTuple(args, "O", &node)) \
|
||||
return NULL; \
|
||||
Node v = cppifyNode(node); |
||||
|
||||
#define FROMLIST(v) \ |
||||
PyObject *node; \
|
||||
if (!PyArg_ParseTuple(args, "O", &node)) \
|
||||
return NULL; \
|
||||
std::vector<Node> v = cppifyNodeList(node); |
||||
|
||||
// Convert metadata into python wrapper form [file, ln, ch]
|
||||
PyObject* pyifyMetadata(Metadata m) { |
||||
PyObject* a = PyList_New(0); |
||||
PyList_Append(a, Py_BuildValue("s#", m.file.c_str(), m.file.length())); |
||||
PyList_Append(a, Py_BuildValue("i", m.ln)); |
||||
PyList_Append(a, Py_BuildValue("i", m.ch)); |
||||
return a; |
||||
} |
||||
|
||||
// Convert node into python wrapper form
|
||||
// [token=0/astnode=1, val, metadata, args]
|
||||
PyObject* pyifyNode(Node n) { |
||||
PyObject* a = PyList_New(0); |
||||
PyList_Append(a, Py_BuildValue("i", n.type == ASTNODE)); |
||||
PyList_Append(a, Py_BuildValue("s#", n.val.c_str(), n.val.length())); |
||||
PyList_Append(a, pyifyMetadata(n.metadata)); |
||||
for (unsigned i = 0; i < n.args.size(); i++) |
||||
PyList_Append(a, pyifyNode(n.args[i])); |
||||
return a; |
||||
} |
||||
|
||||
// Convert string into python wrapper form
|
||||
PyObject* pyifyString(std::string s) { |
||||
return Py_BuildValue("s#", s.c_str(), s.length()); |
||||
} |
||||
|
||||
// Convert list of nodes into python wrapper form
|
||||
PyObject* pyifyNodeList(std::vector<Node> n) { |
||||
PyObject* a = PyList_New(0); |
||||
for (unsigned i = 0; i < n.size(); i++) |
||||
PyList_Append(a, pyifyNode(n[i])); |
||||
return a; |
||||
} |
||||
|
||||
// Convert pyobject int into normal form
|
||||
int cppifyInt(PyObject* o) { |
||||
int out; |
||||
if (!PyArg_Parse(o, "i", &out)) |
||||
err("Argument should be integer", Metadata()); |
||||
return out; |
||||
} |
||||
|
||||
// Convert pyobject string into normal form
|
||||
std::string cppifyString(PyObject* o) { |
||||
const char *command; |
||||
if (!PyArg_Parse(o, "s", &command)) |
||||
err("Argument should be string", Metadata()); |
||||
return std::string(command); |
||||
} |
||||
|
||||
// Convert metadata from python wrapper form
|
||||
Metadata cppifyMetadata(PyObject* o) { |
||||
std::string file = cppifyString(PyList_GetItem(o, 0)); |
||||
int ln = cppifyInt(PyList_GetItem(o, 1)); |
||||
int ch = cppifyInt(PyList_GetItem(o, 2)); |
||||
return Metadata(file, ln, ch); |
||||
} |
||||
|
||||
// Convert node from python wrapper form
|
||||
Node cppifyNode(PyObject* o) { |
||||
Node n; |
||||
int isAstNode = cppifyInt(PyList_GetItem(o, 0)); |
||||
n.type = isAstNode ? ASTNODE : TOKEN; |
||||
n.val = cppifyString(PyList_GetItem(o, 1)); |
||||
n.metadata = cppifyMetadata(PyList_GetItem(o, 2)); |
||||
std::vector<Node> args; |
||||
for (int i = 3; i < PyList_Size(o); i++) { |
||||
args.push_back(cppifyNode(PyList_GetItem(o, i))); |
||||
} |
||||
n.args = args; |
||||
return n; |
||||
} |
||||
|
||||
//Convert list of nodes into normal form
|
||||
std::vector<Node> cppifyNodeList(PyObject* o) { |
||||
std::vector<Node> out; |
||||
for (int i = 0; i < PyList_Size(o); i++) { |
||||
out.push_back(cppifyNode(PyList_GetItem(o,i))); |
||||
} |
||||
return out; |
||||
} |
||||
|
||||
PYMETHOD(ps_compile, FROMSTR, compile, pyifyString) |
||||
PYMETHOD(ps_compile_chunk, FROMSTR, compileChunk, pyifyString) |
||||
PYMETHOD(ps_compile_to_lll, FROMSTR, compileToLLL, pyifyNode) |
||||
PYMETHOD(ps_compile_chunk_to_lll, FROMSTR, compileChunkToLLL, pyifyNode) |
||||
PYMETHOD(ps_compile_lll, FROMNODE, compileLLL, pyifyString) |
||||
PYMETHOD(ps_parse, FROMSTR, parseSerpent, pyifyNode) |
||||
PYMETHOD(ps_rewrite, FROMNODE, rewrite, pyifyNode) |
||||
PYMETHOD(ps_rewrite_chunk, FROMNODE, rewriteChunk, pyifyNode) |
||||
PYMETHOD(ps_pretty_compile, FROMSTR, prettyCompile, pyifyNodeList) |
||||
PYMETHOD(ps_pretty_compile_chunk, FROMSTR, prettyCompileChunk, pyifyNodeList) |
||||
PYMETHOD(ps_pretty_compile_lll, FROMNODE, prettyCompileLLL, pyifyNodeList) |
||||
PYMETHOD(ps_serialize, FROMLIST, serialize, pyifyString) |
||||
PYMETHOD(ps_deserialize, FROMSTR, deserialize, pyifyNodeList) |
||||
PYMETHOD(ps_parse_lll, FROMSTR, parseLLL, pyifyNode) |
||||
|
||||
|
||||
static PyMethodDef PyextMethods[] = { |
||||
{"compile", ps_compile, METH_VARARGS, |
||||
"Compile code."}, |
||||
{"compile_chunk", ps_compile_chunk, METH_VARARGS, |
||||
"Compile code chunk (no wrappers)."}, |
||||
{"compile_to_lll", ps_compile_to_lll, METH_VARARGS, |
||||
"Compile code to LLL."}, |
||||
{"compile_chunk_to_lll", ps_compile_chunk_to_lll, METH_VARARGS, |
||||
"Compile code chunk to LLL (no wrappers)."}, |
||||
{"compile_lll", ps_compile_lll, METH_VARARGS, |
||||
"Compile LLL to EVM."}, |
||||
{"parse", ps_parse, METH_VARARGS, |
||||
"Parse serpent"}, |
||||
{"rewrite", ps_rewrite, METH_VARARGS, |
||||
"Rewrite parsed serpent to LLL"}, |
||||
{"rewrite_chunk", ps_rewrite_chunk, METH_VARARGS, |
||||
"Rewrite parsed serpent to LLL (no wrappers)"}, |
||||
{"pretty_compile", ps_pretty_compile, METH_VARARGS, |
||||
"Compile to EVM opcodes"}, |
||||
{"pretty_compile_chunk", ps_pretty_compile_chunk, METH_VARARGS, |
||||
"Compile chunk to EVM opcodes (no wrappers)"}, |
||||
{"pretty_compile_lll", ps_pretty_compile_lll, METH_VARARGS, |
||||
"Compile LLL to EVM opcodes"}, |
||||
{"serialize", ps_serialize, METH_VARARGS, |
||||
"Convert EVM opcodes to bin"}, |
||||
{"deserialize", ps_deserialize, METH_VARARGS, |
||||
"Convert EVM bin to opcodes"}, |
||||
{"parse_lll", ps_parse_lll, METH_VARARGS, |
||||
"Parse LLL"}, |
||||
{NULL, NULL, 0, NULL} /* Sentinel */ |
||||
}; |
||||
|
||||
PyMODINIT_FUNC initserpent_pyext(void) |
||||
{ |
||||
Py_InitModule( "serpent_pyext", PyextMethods ); |
||||
} |
@ -0,0 +1 @@ |
||||
from serpent import * |
@ -0,0 +1,804 @@ |
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
#include "lllparser.h" |
||||
#include "bignum.h" |
||||
#include "optimize.h" |
||||
#include "rewriteutils.h" |
||||
#include "preprocess.h" |
||||
#include "functions.h" |
||||
#include "opcodes.h" |
||||
|
||||
// Rewrite rules
|
||||
std::string macros[][2] = { |
||||
{ |
||||
"(seq $x)", |
||||
"$x" |
||||
}, |
||||
{ |
||||
"(seq (seq) $x)", |
||||
"$x" |
||||
}, |
||||
{ |
||||
"(+= $a $b)", |
||||
"(set $a (+ $a $b))" |
||||
}, |
||||
{ |
||||
"(*= $a $b)", |
||||
"(set $a (* $a $b))" |
||||
}, |
||||
{ |
||||
"(-= $a $b)", |
||||
"(set $a (- $a $b))" |
||||
}, |
||||
{ |
||||
"(/= $a $b)", |
||||
"(set $a (/ $a $b))" |
||||
}, |
||||
{ |
||||
"(%= $a $b)", |
||||
"(set $a (% $a $b))" |
||||
}, |
||||
{ |
||||
"(^= $a $b)", |
||||
"(set $a (^ $a $b))" |
||||
}, |
||||
{ |
||||
"(!= $a $b)", |
||||
"(iszero (eq $a $b))" |
||||
}, |
||||
{ |
||||
"(assert $x)", |
||||
"(unless $x (stop))" |
||||
}, |
||||
{ |
||||
"(min $a $b)", |
||||
"(with $1 $a (with $2 $b (if (lt $1 $2) $1 $2)))" |
||||
}, |
||||
{ |
||||
"(max $a $b)", |
||||
"(with $1 $a (with $2 $b (if (lt $1 $2) $2 $1)))" |
||||
}, |
||||
{ |
||||
"(smin $a $b)", |
||||
"(with $1 $a (with $2 $b (if (slt $1 $2) $1 $2)))" |
||||
}, |
||||
{ |
||||
"(smax $a $b)", |
||||
"(with $1 $a (with $2 $b (if (slt $1 $2) $2 $1)))" |
||||
}, |
||||
{ |
||||
"(if $cond $do (else $else))", |
||||
"(if $cond $do $else)" |
||||
}, |
||||
{ |
||||
"(code $code)", |
||||
"$code" |
||||
}, |
||||
{ |
||||
"(slice $arr $pos)", |
||||
"(add $arr (mul 32 $pos))", |
||||
}, |
||||
{ |
||||
"(array $len)", |
||||
"(alloc (mul 32 $len))" |
||||
}, |
||||
{ |
||||
"(while $cond $do)", |
||||
"(until (iszero $cond) $do)", |
||||
}, |
||||
{ |
||||
"(while (iszero $cond) $do)", |
||||
"(until $cond $do)", |
||||
}, |
||||
{ |
||||
"(if $cond $do)", |
||||
"(unless (iszero $cond) $do)", |
||||
}, |
||||
{ |
||||
"(if (iszero $cond) $do)", |
||||
"(unless $cond $do)", |
||||
}, |
||||
{ |
||||
"(access (. self storage) $ind)", |
||||
"(sload $ind)" |
||||
}, |
||||
{ |
||||
"(access $var $ind)", |
||||
"(mload (add $var (mul 32 $ind)))" |
||||
}, |
||||
{ |
||||
"(set (access (. self storage) $ind) $val)", |
||||
"(sstore $ind $val)" |
||||
}, |
||||
{ |
||||
"(set (access $var $ind) $val)", |
||||
"(mstore (add $var (mul 32 $ind)) $val)" |
||||
}, |
||||
{ |
||||
"(getch $var $ind)", |
||||
"(mod (mload (sub (add $var $ind) 31)) 256)" |
||||
}, |
||||
{ |
||||
"(setch $var $ind $val)", |
||||
"(mstore8 (add $var $ind) $val)", |
||||
}, |
||||
{ |
||||
"(send $to $value)", |
||||
"(~call (sub (gas) 25) $to $value 0 0 0 0)" |
||||
}, |
||||
{ |
||||
"(send $gas $to $value)", |
||||
"(~call $gas $to $value 0 0 0 0)" |
||||
}, |
||||
{ |
||||
"(sha3 $x)", |
||||
"(seq (set $1 $x) (~sha3 (ref $1) 32))" |
||||
}, |
||||
{ |
||||
"(sha3 $mstart (= chars $msize))", |
||||
"(~sha3 $mstart $msize)" |
||||
}, |
||||
{ |
||||
"(sha3 $mstart $msize)", |
||||
"(~sha3 $mstart (mul 32 $msize))" |
||||
}, |
||||
{ |
||||
"(id $0)", |
||||
"$0" |
||||
}, |
||||
{ |
||||
"(return $x)", |
||||
"(seq (set $1 $x) (~return (ref $1) 32))" |
||||
}, |
||||
{ |
||||
"(return $mstart (= chars $msize))", |
||||
"(~return $mstart $msize)" |
||||
}, |
||||
{ |
||||
"(return $start $len)", |
||||
"(~return $start (mul 32 $len))" |
||||
}, |
||||
{ |
||||
"(&& $x $y)", |
||||
"(if $x $y 0)" |
||||
}, |
||||
{ |
||||
"(|| $x $y)", |
||||
"(with $1 $x (if $1 $1 $y))" |
||||
}, |
||||
{ |
||||
"(>= $x $y)", |
||||
"(iszero (slt $x $y))" |
||||
}, |
||||
{ |
||||
"(<= $x $y)", |
||||
"(iszero (sgt $x $y))" |
||||
}, |
||||
{ |
||||
"(create $code)", |
||||
"(create 0 $code)" |
||||
}, |
||||
{ |
||||
"(create $endowment $code)", |
||||
"(with $1 (msize) (create $endowment (get $1) (lll (outer $code) (msize))))" |
||||
}, |
||||
{ |
||||
"(sha256 $x)", |
||||
"(with $1 (alloc 64) (seq (mstore (add (get $1) 32) $x) (pop (~call 101 2 0 (add (get $1) 32) 32 (get $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(sha256 $arr (= chars $sz))", |
||||
"(with $1 (alloc 32) (seq (pop (~call 101 2 0 $arr $sz (get $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(sha256 $arr $sz)", |
||||
"(with $1 (alloc 32) (seq (pop (~call 101 2 0 $arr (mul 32 $sz) (get $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(ripemd160 $x)", |
||||
"(with $1 (alloc 64) (seq (mstore (add (get $1) 32) $x) (pop (~call 101 3 0 (add (get $1) 32) 32 (get $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(ripemd160 $arr (= chars $sz))", |
||||
"(with $1 (alloc 32) (seq (pop (~call 101 3 0 $arr $sz (mload $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(ripemd160 $arr $sz)", |
||||
"(with $1 (alloc 32) (seq (pop (~call 101 3 0 $arr (mul 32 $sz) (get $1) 32)) (mload (get $1))))" |
||||
}, |
||||
{ |
||||
"(ecrecover $h $v $r $s)", |
||||
"(with $1 (alloc 160) (seq (mstore (get $1) $h) (mstore (add (get $1) 32) $v) (mstore (add (get $1) 64) $r) (mstore (add (get $1) 96) $s) (pop (~call 101 1 0 (get $1) 128 (add (get $1 128)) 32)) (mload (add (get $1) 128))))" |
||||
}, |
||||
{ |
||||
"(inset $x)", |
||||
"$x" |
||||
}, |
||||
{ |
||||
"(create $x)", |
||||
"(with $1 (msize) (create $val (get $1) (lll $code (get $1))))" |
||||
}, |
||||
{ |
||||
"(with (= $var $val) $cond)", |
||||
"(with $var $val $cond)" |
||||
}, |
||||
{ |
||||
"(log $t1)", |
||||
"(~log1 0 0 $t1)" |
||||
}, |
||||
{ |
||||
"(log $t1 $t2)", |
||||
"(~log2 0 0 $t1 $t2)" |
||||
}, |
||||
{ |
||||
"(log $t1 $t2 $t3)", |
||||
"(~log3 0 0 $t1 $t2 $t3)" |
||||
}, |
||||
{ |
||||
"(log $t1 $t2 $t3 $t4)", |
||||
"(~log4 0 0 $t1 $t2 $t3 $t4)" |
||||
}, |
||||
{ |
||||
"(logarr $a $sz)", |
||||
"(~log0 $a (mul 32 $sz))" |
||||
}, |
||||
{ |
||||
"(logarr $a $sz $t1)", |
||||
"(~log1 $a (mul 32 $sz) $t1)" |
||||
}, |
||||
{ |
||||
"(logarr $a $sz $t1 $t2)", |
||||
"(~log2 $a (mul 32 $sz) $t1 $t2)" |
||||
}, |
||||
{ |
||||
"(logarr $a $sz $t1 $t2 $t3)", |
||||
"(~log3 $a (mul 32 $sz) $t1 $t2 $t3)" |
||||
}, |
||||
{ |
||||
"(logarr $a $sz $t1 $t2 $t3 $t4)", |
||||
"(~log4 $a (mul 32 $sz) $t1 $t2 $t3 $t4)" |
||||
}, |
||||
{ |
||||
"(save $loc $array (= chars $count))", |
||||
"(with $location (ref $loc) (with $c $count (with $end (div $c 32) (with $i 0 (seq (while (slt $i $end) (seq (sstore (add $i $location) (access $array $i)) (set $i (add $i 1)))) (sstore (add $i $location) (~and (access $array $i) (sub 0 (exp 256 (sub 32 (mod $c 32)))))))))))" |
||||
}, |
||||
{ |
||||
"(save $loc $array $count)", |
||||
"(with $location (ref $loc) (with $end $count (with $i 0 (while (slt $i $end) (seq (sstore (add $i $location) (access $array $i)) (set $i (add $i 1)))))))" |
||||
}, |
||||
{ |
||||
"(load $loc (= chars $count))", |
||||
"(with $location (ref $loc) (with $c $count (with $a (alloc $c) (with $i 0 (seq (while (slt $i (div $c 32)) (seq (set (access $a $i) (sload (add $location $i))) (set $i (add $i 1)))) (set (access $a $i) (~and (sload (add $location $i)) (sub 0 (exp 256 (sub 32 (mod $c 32)))))) $a)))))" |
||||
}, |
||||
{ |
||||
"(load $loc $count)", |
||||
"(with $location (ref $loc) (with $c $count (with $a (alloc $c) (with $i 0 (seq (while (slt $i $c) (seq (set (access $a $i) (sload (add $location $i))) (set $i (add $i 1)))) $a)))))" |
||||
}, |
||||
{ |
||||
"(unsafe_mcopy $to $from $sz)", |
||||
"(with _sz $sz (with _from $from (with _to $to (seq (comment STARTING UNSAFE MCOPY) (with _i 0 (while (lt _i _sz) (seq (mstore (add $to _i) (mload (add _from _i))) (set _i (add _i 32)))))))))" |
||||
}, |
||||
{ |
||||
"(mcopy $to $from $_sz)", |
||||
"(with _to $to (with _from $from (with _sz $sz (seq (comment STARTING MCOPY (with _i 0 (seq (while (lt (add _i 31) _sz) (seq (mstore (add _to _i) (mload (add _from _i))) (set _i (add _i 32)))) (with _mask (exp 256 (sub 32 (mod _sz 32))) (mstore (add $to _i) (add (mod (mload (add $to _i)) _mask) (and (mload (add $from _i)) (sub 0 _mask))))))))))))" |
||||
}, |
||||
{ "(. msg sender)", "(caller)" }, |
||||
{ "(. msg value)", "(callvalue)" }, |
||||
{ "(. tx gasprice)", "(gasprice)" }, |
||||
{ "(. tx origin)", "(origin)" }, |
||||
{ "(. tx gas)", "(gas)" }, |
||||
{ "(. $x balance)", "(balance $x)" }, |
||||
{ "self", "(address)" }, |
||||
{ "(. block prevhash)", "(prevhash)" }, |
||||
{ "(. block coinbase)", "(coinbase)" }, |
||||
{ "(. block timestamp)", "(timestamp)" }, |
||||
{ "(. block number)", "(number)" }, |
||||
{ "(. block difficulty)", "(difficulty)" }, |
||||
{ "(. block gaslimit)", "(gaslimit)" }, |
||||
{ "stop", "(stop)" }, |
||||
{ "---END---", "" } //Keep this line at the end of the list
|
||||
}; |
||||
|
||||
std::vector<rewriteRule> nodeMacros; |
||||
|
||||
// Token synonyms
|
||||
std::string synonyms[][2] = { |
||||
{ "or", "||" }, |
||||
{ "and", "&&" }, |
||||
{ "|", "~or" }, |
||||
{ "&", "~and" }, |
||||
{ "elif", "if" }, |
||||
{ "!", "iszero" }, |
||||
{ "~", "~not" }, |
||||
{ "not", "iszero" }, |
||||
{ "string", "alloc" }, |
||||
{ "+", "add" }, |
||||
{ "-", "sub" }, |
||||
{ "*", "mul" }, |
||||
{ "/", "sdiv" }, |
||||
{ "^", "exp" }, |
||||
{ "**", "exp" }, |
||||
{ "%", "smod" }, |
||||
{ "<", "slt" }, |
||||
{ ">", "sgt" }, |
||||
{ "=", "set" }, |
||||
{ "==", "eq" }, |
||||
{ ":", "kv" }, |
||||
{ "---END---", "" } //Keep this line at the end of the list
|
||||
}; |
||||
|
||||
// Custom setters (need to be registered separately
|
||||
// for use with managed storage)
|
||||
std::string setters[][2] = { |
||||
{ "+=", "+" }, |
||||
{ "-=", "-" }, |
||||
{ "*=", "*" }, |
||||
{ "/=", "/" }, |
||||
{ "%=", "%" }, |
||||
{ "^=", "^" }, |
||||
{ "---END---", "" } //Keep this line at the end of the list
|
||||
}; |
||||
|
||||
// Processes mutable array literals
|
||||
Node array_lit_transform(Node node) { |
||||
std::string prefix = "_temp"+mkUniqueToken() + "_"; |
||||
Metadata m = node.metadata; |
||||
std::map<std::string, Node> d; |
||||
std::string o = "(seq (set $arr (alloc "+utd(node.args.size()*32)+"))"; |
||||
for (unsigned i = 0; i < node.args.size(); i++) { |
||||
o += " (mstore (add (get $arr) "+utd(i * 32)+") $"+utd(i)+")"; |
||||
d[utd(i)] = node.args[i]; |
||||
} |
||||
o += " (get $arr))"; |
||||
return subst(parseLLL(o), d, prefix, m); |
||||
} |
||||
|
||||
|
||||
Node apply_rules(preprocessResult pr); |
||||
|
||||
// Transform "<variable>.<fun>(args...)" into
|
||||
// a call
|
||||
Node dotTransform(Node node, preprocessAux aux) { |
||||
Metadata m = node.metadata; |
||||
// We're gonna make lots of temporary variables,
|
||||
// so set up a unique flag for them
|
||||
std::string prefix = "_temp"+mkUniqueToken()+"_"; |
||||
// Check that the function name is a token
|
||||
if (node.args[0].args[1].type == ASTNODE) |
||||
err("Function name must be static", m); |
||||
|
||||
Node dotOwner = node.args[0].args[0]; |
||||
std::string dotMember = node.args[0].args[1].val; |
||||
// kwargs = map of special arguments
|
||||
std::map<std::string, Node> kwargs; |
||||
kwargs["value"] = token("0", m); |
||||
kwargs["gas"] = subst(parseLLL("(- (gas) 25)"), msn(), prefix, m); |
||||
// Search for as=? and call=code keywords, and isolate the actual
|
||||
// function arguments
|
||||
std::vector<Node> fnargs; |
||||
std::string as = ""; |
||||
std::string op = "call"; |
||||
for (unsigned i = 1; i < node.args.size(); i++) { |
||||
fnargs.push_back(node.args[i]); |
||||
Node arg = fnargs.back(); |
||||
if (arg.val == "=" || arg.val == "set") { |
||||
if (arg.args[0].val == "as") |
||||
as = arg.args[1].val; |
||||
if (arg.args[0].val == "call" && arg.args[1].val == "code") |
||||
op = "callcode"; |
||||
if (arg.args[0].val == "gas") |
||||
kwargs["gas"] = arg.args[1]; |
||||
if (arg.args[0].val == "value") |
||||
kwargs["value"] = arg.args[1]; |
||||
if (arg.args[0].val == "outsz") |
||||
kwargs["outsz"] = arg.args[1]; |
||||
} |
||||
} |
||||
if (dotOwner.val == "self") { |
||||
if (as.size()) err("Cannot use \"as\" when calling self!", m); |
||||
as = dotOwner.val; |
||||
} |
||||
// Determine the funId and sig assuming the "as" keyword was used
|
||||
int funId = 0; |
||||
std::string sig; |
||||
if (as.size() > 0 && aux.localExterns.count(as)) { |
||||
if (!aux.localExterns[as].count(dotMember)) |
||||
err("Invalid call: "+printSimple(dotOwner)+"."+dotMember, m); |
||||
funId = aux.localExterns[as][dotMember]; |
||||
sig = aux.localExternSigs[as][dotMember]; |
||||
} |
||||
// Determine the funId and sig otherwise
|
||||
else if (!as.size()) { |
||||
if (!aux.globalExterns.count(dotMember)) |
||||
err("Invalid call: "+printSimple(dotOwner)+"."+dotMember, m); |
||||
std::string key = unsignedToDecimal(aux.globalExterns[dotMember]); |
||||
funId = aux.globalExterns[dotMember]; |
||||
sig = aux.globalExternSigs[dotMember]; |
||||
} |
||||
else err("Invalid call: "+printSimple(dotOwner)+"."+dotMember, m); |
||||
// Pack arguments
|
||||
kwargs["data"] = packArguments(fnargs, sig, funId, m); |
||||
kwargs["to"] = dotOwner; |
||||
Node main; |
||||
// Pack output
|
||||
if (!kwargs.count("outsz")) { |
||||
main = parseLLL( |
||||
"(with _data $data (seq " |
||||
"(pop (~"+op+" $gas $to $value (access _data 0) (access _data 1) (ref $dataout) 32))" |
||||
"(get $dataout)))"); |
||||
} |
||||
else { |
||||
main = parseLLL( |
||||
"(with _data $data (with _outsz (mul 32 $outsz) (with _out (alloc _outsz) (seq " |
||||
"(pop (~"+op+" $gas $to $value (access _data 0) (access _data 1) _out _outsz))" |
||||
"(get _out)))))"); |
||||
} |
||||
// Set up main call
|
||||
|
||||
Node o = subst(main, kwargs, prefix, m); |
||||
return o; |
||||
} |
||||
|
||||
// Transform an access of the form self.bob, self.users[5], etc into
|
||||
// a storage access
|
||||
//
|
||||
// There exist two types of objects: finite objects, and infinite
|
||||
// objects. Finite objects are packed optimally tightly into storage
|
||||
// accesses; for example:
|
||||
//
|
||||
// data obj[100](a, b[2][4], c)
|
||||
//
|
||||
// obj[0].a -> 0
|
||||
// obj[0].b[0][0] -> 1
|
||||
// obj[0].b[1][3] -> 8
|
||||
// obj[45].c -> 459
|
||||
//
|
||||
// Infinite objects are accessed by sha3([v1, v2, v3 ... ]), where
|
||||
// the values are a list of array indices and keyword indices, for
|
||||
// example:
|
||||
// data obj[](a, b[2][4], c)
|
||||
// data obj2[](a, b[][], c)
|
||||
//
|
||||
// obj[0].a -> sha3([0, 0, 0])
|
||||
// obj[5].b[1][3] -> sha3([0, 5, 1, 1, 3])
|
||||
// obj[45].c -> sha3([0, 45, 2])
|
||||
// obj2[0].a -> sha3([1, 0, 0])
|
||||
// obj2[5].b[1][3] -> sha3([1, 5, 1, 1, 3])
|
||||
// obj2[45].c -> sha3([1, 45, 2])
|
||||
Node storageTransform(Node node, preprocessAux aux, |
||||
bool mapstyle=false, bool ref=false) { |
||||
Metadata m = node.metadata; |
||||
// Get a list of all of the "access parameters" used in order
|
||||
// eg. self.users[5].cow[4][m[2]][woof] ->
|
||||
// [--self, --users, 5, --cow, 4, m[2], woof]
|
||||
std::vector<Node> hlist = listfyStorageAccess(node); |
||||
// For infinite arrays, the terms array will just provide a list
|
||||
// of indices. For finite arrays, it's a list of index*coefficient
|
||||
std::vector<Node> terms; |
||||
std::string offset = "0"; |
||||
std::string prefix = ""; |
||||
std::string varPrefix = "_temp"+mkUniqueToken()+"_"; |
||||
int c = 0; |
||||
std::vector<std::string> coefficients; |
||||
coefficients.push_back(""); |
||||
for (unsigned i = 1; i < hlist.size(); i++) { |
||||
// We pre-add the -- flag to parameter-like terms. For example,
|
||||
// self.users[m] -> [--self, --users, m]
|
||||
// self.users.m -> [--self, --users, --m]
|
||||
if (hlist[i].val.substr(0, 2) == "--") { |
||||
prefix += hlist[i].val.substr(2) + "."; |
||||
std::string tempPrefix = prefix.substr(0, prefix.size()-1); |
||||
if (!aux.storageVars.offsets.count(tempPrefix)) |
||||
return node; |
||||
if (c < (signed)coefficients.size() - 1) |
||||
err("Too few array index lookups", m); |
||||
if (c > (signed)coefficients.size() - 1) |
||||
err("Too many array index lookups", m); |
||||
coefficients = aux.storageVars.coefficients[tempPrefix]; |
||||
// If the size of an object exceeds 2^176, we make it an infinite
|
||||
// array
|
||||
if (decimalGt(coefficients.back(), tt176) && !mapstyle) |
||||
return storageTransform(node, aux, true, ref); |
||||
offset = decimalAdd(offset, aux.storageVars.offsets[tempPrefix]); |
||||
c = 0; |
||||
if (mapstyle) |
||||
terms.push_back(token(unsignedToDecimal( |
||||
aux.storageVars.indices[tempPrefix]))); |
||||
} |
||||
else if (mapstyle) { |
||||
terms.push_back(hlist[i]); |
||||
c += 1; |
||||
} |
||||
else { |
||||
if (c > (signed)coefficients.size() - 2) |
||||
err("Too many array index lookups", m); |
||||
terms.push_back( |
||||
astnode("mul",
|
||||
hlist[i], |
||||
token(coefficients[coefficients.size() - 2 - c], m), |
||||
m)); |
||||
|
||||
c += 1; |
||||
} |
||||
} |
||||
if (aux.storageVars.nonfinal.count(prefix.substr(0, prefix.size()-1))) |
||||
err("Storage variable access not deep enough", m); |
||||
if (c < (signed)coefficients.size() - 1) { |
||||
err("Too few array index lookups", m); |
||||
} |
||||
if (c > (signed)coefficients.size() - 1) { |
||||
err("Too many array index lookups", m); |
||||
} |
||||
Node o; |
||||
if (mapstyle) { |
||||
std::string t = "_temp_"+mkUniqueToken(); |
||||
std::vector<Node> sub; |
||||
for (unsigned i = 0; i < terms.size(); i++) |
||||
sub.push_back(asn("mstore", |
||||
asn("add", |
||||
tkn(utd(i * 32), m), |
||||
asn("get", tkn(t+"pos", m), m), |
||||
m), |
||||
terms[i], |
||||
m)); |
||||
sub.push_back(tkn(t+"pos", m)); |
||||
Node main = asn("with", |
||||
tkn(t+"pos", m), |
||||
asn("alloc", tkn(utd(terms.size() * 32), m), m), |
||||
asn("seq", sub, m), |
||||
m); |
||||
Node sz = token(utd(terms.size() * 32), m); |
||||
o = astnode("~sha3", |
||||
main, |
||||
sz, |
||||
m); |
||||
} |
||||
else { |
||||
// We add up all the index*coefficients
|
||||
Node out = token(offset, node.metadata); |
||||
for (unsigned i = 0; i < terms.size(); i++) { |
||||
std::vector<Node> temp; |
||||
temp.push_back(out); |
||||
temp.push_back(terms[i]); |
||||
out = astnode("add", temp, node.metadata); |
||||
} |
||||
o = out; |
||||
} |
||||
if (ref) return o; |
||||
else return astnode("sload", o, node.metadata); |
||||
} |
||||
|
||||
|
||||
// Recursively applies rewrite rules
|
||||
std::pair<Node, bool> apply_rules_iter(preprocessResult pr) { |
||||
bool changed = false; |
||||
Node node = pr.first; |
||||
// If the rewrite rules have not yet been parsed, parse them
|
||||
if (!nodeMacros.size()) { |
||||
for (int i = 0; i < 9999; i++) { |
||||
std::vector<Node> o; |
||||
if (macros[i][0] == "---END---") break; |
||||
nodeMacros.push_back(rewriteRule( |
||||
parseLLL(macros[i][0]), |
||||
parseLLL(macros[i][1]) |
||||
)); |
||||
} |
||||
} |
||||
// Assignment transformations
|
||||
for (int i = 0; i < 9999; i++) { |
||||
if (setters[i][0] == "---END---") break; |
||||
if (node.val == setters[i][0]) { |
||||
node = astnode("=", |
||||
node.args[0], |
||||
astnode(setters[i][1], |
||||
node.args[0], |
||||
node.args[1], |
||||
node.metadata), |
||||
node.metadata); |
||||
} |
||||
} |
||||
// Do nothing to macros
|
||||
if (node.val == "macro") { |
||||
return std::pair<Node, bool>(node, changed); |
||||
} |
||||
// Ignore comments
|
||||
if (node.val == "comment") { |
||||
return std::pair<Node, bool>(node, changed); |
||||
} |
||||
// Special storage transformation
|
||||
if (isNodeStorageVariable(node)) { |
||||
node = storageTransform(node, pr.second); |
||||
changed = true; |
||||
} |
||||
if (node.val == "ref" && isNodeStorageVariable(node.args[0])) { |
||||
node = storageTransform(node.args[0], pr.second, false, true); |
||||
changed = true; |
||||
} |
||||
if (node.val == "=" && isNodeStorageVariable(node.args[0])) { |
||||
Node t = storageTransform(node.args[0], pr.second); |
||||
if (t.val == "sload") { |
||||
std::vector<Node> o; |
||||
o.push_back(t.args[0]); |
||||
o.push_back(node.args[1]); |
||||
node = astnode("sstore", o, node.metadata); |
||||
} |
||||
changed = true; |
||||
} |
||||
// Main code
|
||||
unsigned pos = 0; |
||||
std::string prefix = "_temp"+mkUniqueToken()+"_"; |
||||
while(1) { |
||||
if (synonyms[pos][0] == "---END---") { |
||||
break; |
||||
} |
||||
else if (node.type == ASTNODE && node.val == synonyms[pos][0]) { |
||||
node.val = synonyms[pos][1]; |
||||
changed = true; |
||||
} |
||||
pos++; |
||||
} |
||||
for (pos = 0; pos < nodeMacros.size() + pr.second.customMacros.size(); pos++) { |
||||
rewriteRule macro = pos < nodeMacros.size()
|
||||
? nodeMacros[pos]
|
||||
: pr.second.customMacros[pos - nodeMacros.size()]; |
||||
matchResult mr = match(macro.pattern, node); |
||||
if (mr.success) { |
||||
node = subst(macro.substitution, mr.map, prefix, node.metadata); |
||||
std::pair<Node, bool> o = |
||||
apply_rules_iter(preprocessResult(node, pr.second)); |
||||
o.second = true; |
||||
return o; |
||||
} |
||||
} |
||||
// Special transformations
|
||||
if (node.val == "outer") { |
||||
node = apply_rules(preprocess(node.args[0])); |
||||
changed = true; |
||||
} |
||||
if (node.val == "array_lit") { |
||||
node = array_lit_transform(node); |
||||
changed = true; |
||||
} |
||||
if (node.val == "fun" && node.args[0].val == ".") { |
||||
node = dotTransform(node, pr.second); |
||||
changed = true; |
||||
} |
||||
if (node.type == ASTNODE) { |
||||
unsigned i = 0; |
||||
if (node.val == "set" || node.val == "ref"
|
||||
|| node.val == "get" || node.val == "with") { |
||||
if (node.args[0].val.size() > 0 && node.args[0].val[0] != '\''
|
||||
&& node.args[0].type == TOKEN && node.args[0].val[0] != '$') { |
||||
node.args[0].val = "'" + node.args[0].val; |
||||
changed = true; |
||||
} |
||||
i = 1; |
||||
} |
||||
else if (node.val == "arglen") { |
||||
node.val = "get"; |
||||
node.args[0].val = "'_len_" + node.args[0].val; |
||||
i = 1; |
||||
changed = true; |
||||
} |
||||
for (; i < node.args.size(); i++) { |
||||
std::pair<Node, bool> r = |
||||
apply_rules_iter(preprocessResult(node.args[i], pr.second)); |
||||
node.args[i] = r.first; |
||||
changed = changed || r.second; |
||||
} |
||||
} |
||||
else if (node.type == TOKEN && !isNumberLike(node)) { |
||||
if (node.val.size() >= 2 |
||||
&& node.val[0] == '"' |
||||
&& node.val[node.val.size() - 1] == '"') { |
||||
std::string bin = node.val.substr(1, node.val.size() - 2); |
||||
unsigned sz = bin.size(); |
||||
std::vector<Node> o; |
||||
for (unsigned i = 0; i < sz; i += 32) { |
||||
std::string t = binToNumeric(bin.substr(i, 32)); |
||||
if ((sz - i) < 32 && (sz - i) > 0) { |
||||
while ((sz - i) < 32) { |
||||
t = decimalMul(t, "256"); |
||||
i--; |
||||
} |
||||
i = sz; |
||||
} |
||||
o.push_back(token(t, node.metadata)); |
||||
} |
||||
node = astnode("array_lit", o, node.metadata); |
||||
std::pair<Node, bool> r =
|
||||
apply_rules_iter(preprocessResult(node, pr.second)); |
||||
node = r.first; |
||||
changed = true; |
||||
} |
||||
else if (node.val.size() && node.val[0] != '\'' && node.val[0] != '$') { |
||||
node.val = "'" + node.val; |
||||
std::vector<Node> args; |
||||
args.push_back(node); |
||||
std::string v = node.val.substr(1); |
||||
node = astnode("get", args, node.metadata); |
||||
changed = true; |
||||
} |
||||
} |
||||
return std::pair<Node, bool>(node, changed); |
||||
} |
||||
|
||||
Node apply_rules(preprocessResult pr) { |
||||
for (unsigned i = 0; i < pr.second.customMacros.size(); i++) { |
||||
pr.second.customMacros[i].pattern = |
||||
apply_rules(preprocessResult(pr.second.customMacros[i].pattern, preprocessAux())); |
||||
} |
||||
while (1) { |
||||
//std::cerr << printAST(pr.first) <<
|
||||
// " " << pr.second.customMacros.size() << "\n";
|
||||
std::pair<Node, bool> r = apply_rules_iter(pr); |
||||
if (!r.second) { |
||||
return r.first; |
||||
} |
||||
pr.first = r.first; |
||||
} |
||||
} |
||||
|
||||
Node validate(Node inp) { |
||||
Metadata m = inp.metadata; |
||||
if (inp.type == ASTNODE) { |
||||
int i = 0; |
||||
while(validFunctions[i][0] != "---END---") { |
||||
if (inp.val == validFunctions[i][0]) { |
||||
std::string sz = unsignedToDecimal(inp.args.size()); |
||||
if (decimalGt(validFunctions[i][1], sz)) { |
||||
err("Too few arguments for "+inp.val, inp.metadata);
|
||||
} |
||||
if (decimalGt(sz, validFunctions[i][2])) { |
||||
err("Too many arguments for "+inp.val, inp.metadata);
|
||||
} |
||||
} |
||||
i++; |
||||
} |
||||
} |
||||
for (unsigned i = 0; i < inp.args.size(); i++) validate(inp.args[i]); |
||||
return inp; |
||||
} |
||||
|
||||
Node postValidate(Node inp) { |
||||
// This allows people to use ~x as a way of having functions with the same
|
||||
// name and arity as macros; the idea is that ~x is a "final" form, and
|
||||
// should not be remacroed, but it is converted back at the end
|
||||
if (inp.val.size() > 0 && inp.val[0] == '~') { |
||||
inp.val = inp.val.substr(1); |
||||
} |
||||
if (inp.type == ASTNODE) { |
||||
if (inp.val == ".") |
||||
err("Invalid object member (ie. a foo.bar not mapped to anything)", |
||||
inp.metadata); |
||||
else if (opcode(inp.val) >= 0) { |
||||
if ((signed)inp.args.size() < opinputs(inp.val)) |
||||
err("Too few arguments for "+inp.val, inp.metadata); |
||||
if ((signed)inp.args.size() > opinputs(inp.val)) |
||||
err("Too many arguments for "+inp.val, inp.metadata); |
||||
} |
||||
else if (isValidLLLFunc(inp.val, inp.args.size())) { |
||||
// do nothing
|
||||
} |
||||
else err ("Invalid argument count or LLL function: "+inp.val, inp.metadata); |
||||
for (unsigned i = 0; i < inp.args.size(); i++) { |
||||
inp.args[i] = postValidate(inp.args[i]); |
||||
} |
||||
} |
||||
return inp; |
||||
} |
||||
|
||||
Node rewrite(Node inp) { |
||||
return postValidate(optimize(apply_rules(preprocess(inp)))); |
||||
} |
||||
|
||||
Node rewriteChunk(Node inp) { |
||||
return postValidate(optimize(apply_rules( |
||||
preprocessResult( |
||||
validate(inp), preprocessAux())))); |
||||
} |
||||
|
||||
using namespace std; |
@ -0,0 +1,16 @@ |
||||
#ifndef ETHSERP_REWRITER |
||||
#define ETHSERP_REWRITER |
||||
|
||||
#include <stdio.h> |
||||
#include <iostream> |
||||
#include <vector> |
||||
#include <map> |
||||
#include "util.h" |
||||
|
||||
// Applies rewrite rules
|
||||
Node rewrite(Node inp); |
||||
|
||||
// Applies rewrite rules adding without wrapper
|
||||
Node rewriteChunk(Node inp); |
||||
|
||||
#endif |
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Reference in new issue