// Copyright 2011 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 main import ( "bytes" "flag" "fmt" "io" "io/ioutil" "log" "os" "path/filepath" "regexp" "runtime" "strings" "time" "code.google.com/p/go.tools/go/vcs" ) const ( codeProject = "go" codePyScript = "misc/dashboard/googlecode_upload.py" goImportPath = "code.google.com/p/go" gofrontendImportPath = "code.google.com/p/gofrontend" mkdirPerm = 0750 waitInterval = 30 * time.Second // time to wait before checking for new revs pkgBuildInterval = 24 * time.Hour // rebuild packages every 24 hours ) type Builder struct { goroot *Repo name string goos, goarch string key string env builderEnv } var ( buildroot = flag.String("buildroot", defaultBuildRoot(), "Directory under which to build") dashboard = flag.String("dashboard", "build.golang.org", "Go Dashboard Host") buildRelease = flag.Bool("release", false, "Build and upload binary release archives") buildRevision = flag.String("rev", "", "Build specified revision and exit") buildCmd = flag.String("cmd", filepath.Join(".", allCmd), "Build command (specify relative to go/src/)") buildTool = flag.String("tool", "go", "Tool to build.") gccPath = flag.String("gccpath", "svn://gcc.gnu.org/svn/gcc/trunk", "Path to download gcc from") failAll = flag.Bool("fail", false, "fail all builds") parallel = flag.Bool("parallel", false, "Build multiple targets in parallel") buildTimeout = flag.Duration("buildTimeout", 60*time.Minute, "Maximum time to wait for builds and tests") cmdTimeout = flag.Duration("cmdTimeout", 10*time.Minute, "Maximum time to wait for an external command") commitInterval = flag.Duration("commitInterval", 1*time.Minute, "Time to wait between polling for new commits (0 disables commit poller)") verbose = flag.Bool("v", false, "verbose") ) var ( binaryTagRe = regexp.MustCompile(`^(release\.r|weekly\.)[0-9\-.]+`) releaseRe = regexp.MustCompile(`^release\.r[0-9\-.]+`) allCmd = "all" + suffix raceCmd = "race" + suffix cleanCmd = "clean" + suffix suffix = defaultSuffix() ) func main() { flag.Usage = func() { fmt.Fprintf(os.Stderr, "usage: %s goos-goarch...\n", os.Args[0]) flag.PrintDefaults() os.Exit(2) } flag.Parse() if len(flag.Args()) == 0 { flag.Usage() } vcs.ShowCmd = *verbose vcs.Verbose = *verbose rr, err := repoForTool() if err != nil { log.Fatal("Error finding repository:", err) } rootPath := filepath.Join(*buildroot, "goroot") goroot := &Repo{ Path: rootPath, Master: rr, } // set up work environment, use existing enviroment if possible if goroot.Exists() || *failAll { log.Print("Found old workspace, will use it") } else { if err := os.RemoveAll(*buildroot); err != nil { log.Fatalf("Error removing build root (%s): %s", *buildroot, err) } if err := os.Mkdir(*buildroot, mkdirPerm); err != nil { log.Fatalf("Error making build root (%s): %s", *buildroot, err) } var err error goroot, err = RemoteRepo(goroot.Master.Root, rootPath) if err != nil { log.Fatalf("Error creating repository with url (%s): %s", goroot.Master.Root, err) } goroot, err = goroot.Clone(goroot.Path, "tip") if err != nil { log.Fatal("Error cloning repository:", err) } } // set up builders builders := make([]*Builder, len(flag.Args())) for i, name := range flag.Args() { b, err := NewBuilder(goroot, name) if err != nil { log.Fatal(err) } builders[i] = b } if *failAll { failMode(builders) return } // if specified, build revision and return if *buildRevision != "" { hash, err := goroot.FullHash(*buildRevision) if err != nil { log.Fatal("Error finding revision: ", err) } for _, b := range builders { if err := b.buildHash(hash); err != nil { log.Println(err) } } return } // Start commit watcher go commitWatcher(goroot) // go continuous build mode // check for new commits and build them for { built := false t := time.Now() if *parallel { done := make(chan bool) for _, b := range builders { go func(b *Builder) { done <- b.build() }(b) } for _ = range builders { built = <-done || built } } else { for _, b := range builders { built = b.build() || built } } // sleep if there was nothing to build if !built { time.Sleep(waitInterval) } // sleep if we're looping too fast. dt := time.Now().Sub(t) if dt < waitInterval { time.Sleep(waitInterval - dt) } } } // go continuous fail mode // check for new commits and FAIL them func failMode(builders []*Builder) { for { built := false for _, b := range builders { built = b.failBuild() || built } // stop if there was nothing to fail if !built { break } } } func NewBuilder(goroot *Repo, name string) (*Builder, error) { b := &Builder{ goroot: goroot, name: name, } // get builderEnv for this tool var err error if b.env, err = b.builderEnv(name); err != nil { return nil, err } // read keys from keyfile fn := "" if runtime.GOOS == "windows" { fn = os.Getenv("HOMEDRIVE") + os.Getenv("HOMEPATH") } else { fn = os.Getenv("HOME") } fn = filepath.Join(fn, ".gobuildkey") if s := fn + "-" + b.name; isFile(s) { // builder-specific file fn = s } c, err := ioutil.ReadFile(fn) if err != nil { return nil, fmt.Errorf("readKeys %s (%s): %s", b.name, fn, err) } b.key = string(bytes.TrimSpace(bytes.SplitN(c, []byte("\n"), 2)[0])) return b, nil } // builderEnv returns the builderEnv for this buildTool. func (b *Builder) builderEnv(name string) (builderEnv, error) { // get goos/goarch from builder string s := strings.SplitN(b.name, "-", 3) if len(s) < 2 { return nil, fmt.Errorf("unsupported builder form: %s", name) } b.goos = s[0] b.goarch = s[1] switch *buildTool { case "go": return &goEnv{ goos: s[0], goarch: s[1], }, nil case "gccgo": return &gccgoEnv{}, nil default: return nil, fmt.Errorf("unsupported build tool: %s", *buildTool) } } // buildCmd returns the build command to invoke. // Builders which contain the string '-race' in their // name will override *buildCmd and return raceCmd. func (b *Builder) buildCmd() string { if strings.Contains(b.name, "-race") { return raceCmd } return *buildCmd } // build checks for a new commit for this builder // and builds it if one is found. // It returns true if a build was attempted. func (b *Builder) build() bool { hash, err := b.todo("build-go-commit", "", "") if err != nil { log.Println(err) return false } if hash == "" { return false } if err := b.buildHash(hash); err != nil { log.Println(err) } return true } func (b *Builder) buildHash(hash string) error { log.Println(b.name, "building", hash) // create place in which to do work workpath := filepath.Join(*buildroot, b.name+"-"+hash[:12]) if err := os.Mkdir(workpath, mkdirPerm); err != nil { return err } defer os.RemoveAll(workpath) // pull before cloning to ensure we have the revision if err := b.goroot.Pull(); err != nil { return err } // set up builder's environment. srcDir, err := b.env.setup(b.goroot, workpath, hash, b.envv()) if err != nil { return err } // build var buildlog bytes.Buffer logfile := filepath.Join(workpath, "build.log") f, err := os.Create(logfile) if err != nil { return err } defer f.Close() w := io.MultiWriter(f, &buildlog) cmd := b.buildCmd() // go's build command is a script relative to the srcDir, whereas // gccgo's build command is usually "make check-go" in the srcDir. if *buildTool == "go" { if !filepath.IsAbs(cmd) { cmd = filepath.Join(srcDir, cmd) } } // make sure commands with extra arguments are handled properly splitCmd := strings.Split(cmd, " ") startTime := time.Now() ok, err := runOutput(*buildTimeout, b.envv(), w, srcDir, splitCmd...) runTime := time.Now().Sub(startTime) errf := func() string { if err != nil { return fmt.Sprintf("error: %v", err) } if !ok { return "failed" } return "success" } fmt.Fprintf(w, "Build complete, duration %v. Result: %v\n", runTime, errf()) if err != nil || !ok { // record failure return b.recordResult(false, "", hash, "", buildlog.String(), runTime) } // record success if err = b.recordResult(true, "", hash, "", "", runTime); err != nil { return fmt.Errorf("recordResult: %s", err) } // build sub-repositories goRoot := filepath.Join(workpath, *buildTool) goPath := workpath b.buildSubrepos(goRoot, goPath, hash) return nil } // failBuild checks for a new commit for this builder // and fails it if one is found. // It returns true if a build was "attempted". func (b *Builder) failBuild() bool { hash, err := b.todo("build-go-commit", "", "") if err != nil { log.Println(err) return false } if hash == "" { return false } log.Printf("fail %s %s\n", b.name, hash) if err := b.recordResult(false, "", hash, "", "auto-fail mode run by "+os.Getenv("USER"), 0); err != nil { log.Print(err) } return true } func (b *Builder) buildSubrepos(goRoot, goPath, goHash string) { for _, pkg := range dashboardPackages("subrepo") { // get the latest todo for this package hash, err := b.todo("build-package", pkg, goHash) if err != nil { log.Printf("buildSubrepos %s: %v", pkg, err) continue } if hash == "" { continue } // build the package if *verbose { log.Printf("buildSubrepos %s: building %q", pkg, hash) } buildLog, err := b.buildSubrepo(goRoot, goPath, pkg, hash) if err != nil { if buildLog == "" { buildLog = err.Error() } log.Printf("buildSubrepos %s: %v", pkg, err) } // record the result err = b.recordResult(err == nil, pkg, hash, goHash, buildLog, 0) if err != nil { log.Printf("buildSubrepos %s: %v", pkg, err) } } } // buildSubrepo fetches the given package, updates it to the specified hash, // and runs 'go test -short pkg/...'. It returns the build log and any error. func (b *Builder) buildSubrepo(goRoot, goPath, pkg, hash string) (string, error) { goTool := filepath.Join(goRoot, "bin", "go") env := append(b.envv(), "GOROOT="+goRoot, "GOPATH="+goPath) // add $GOROOT/bin and $GOPATH/bin to PATH for i, e := range env { const p = "PATH=" if !strings.HasPrefix(e, p) { continue } sep := string(os.PathListSeparator) env[i] = p + filepath.Join(goRoot, "bin") + sep + filepath.Join(goPath, "bin") + sep + e[len(p):] } // fetch package and dependencies log, ok, err := runLog(*cmdTimeout, env, goPath, goTool, "get", "-d", pkg+"/...") if err == nil && !ok { err = fmt.Errorf("go exited with status 1") } if err != nil { return log, err } // hg update to the specified hash repo := Repo{Path: filepath.Join(goPath, "src", pkg)} if err := repo.UpdateTo(hash); err != nil { return "", err } // test the package log, ok, err = runLog(*buildTimeout, env, goPath, goTool, "test", "-short", pkg+"/...") if err == nil && !ok { err = fmt.Errorf("go exited with status 1") } return log, err } // repoForTool returns the correct RepoRoot for the buildTool, or an error if // the tool is unknown. func repoForTool() (*vcs.RepoRoot, error) { switch *buildTool { case "go": return vcs.RepoRootForImportPath(goImportPath, *verbose) case "gccgo": return vcs.RepoRootForImportPath(gofrontendImportPath, *verbose) default: return nil, fmt.Errorf("unknown build tool: %s", *buildTool) } } func isDirectory(name string) bool { s, err := os.Stat(name) return err == nil && s.IsDir() } func isFile(name string) bool { s, err := os.Stat(name) return err == nil && !s.IsDir() } // commitWatcher polls hg for new commits and tells the dashboard about them. func commitWatcher(goroot *Repo) { if *commitInterval == 0 { log.Printf("commitInterval is %s, disabling commitWatcher", *commitInterval) return } // Create builder just to get master key. b, err := NewBuilder(goroot, "mercurial-commit") if err != nil { log.Fatal(err) } key := b.key for { if *verbose { log.Printf("poll...") } // Main Go repository. commitPoll(goroot, "", key) // Go sub-repositories. for _, pkg := range dashboardPackages("subrepo") { pkgmaster, err := vcs.RepoRootForImportPath(pkg, *verbose) if err != nil { log.Fatalf("Error finding subrepo (%s): %s", pkg, err) } pkgroot := &Repo{ Path: filepath.Join(*buildroot, pkg), Master: pkgmaster, } commitPoll(pkgroot, pkg, key) } if *verbose { log.Printf("sleep...") } time.Sleep(*commitInterval) } } // logByHash is a cache of all Mercurial revisions we know about, // indexed by full hash. var logByHash = map[string]*HgLog{} // commitPoll pulls any new revisions from the hg server // and tells the server about them. func commitPoll(repo *Repo, pkg, key string) { pkgPath := filepath.Join(*buildroot, repo.Master.Root) if !repo.Exists() { var err error repo, err = RemoteRepo(pkg, pkgPath) if err != nil { log.Printf("Error cloning package (%s): %s", pkg, err) } repo, err = repo.Clone(repo.Path, "tip") if err != nil { log.Printf("%s: hg clone failed: %v", pkg, err) if err := os.RemoveAll(repo.Path); err != nil { log.Printf("%s: %v", pkg, err) } } return } logs, err := repo.Log() // repo.Log calls repo.Pull internally if err != nil { log.Printf("hg log: %v", err) return } // Pass 1. Fill in parents and add new log entries to logsByHash. // Empty parent means take parent from next log entry. // Non-empty parent has form 1234:hashhashhash; we want full hash. for i := range logs { l := &logs[i] if l.Parent == "" && i+1 < len(logs) { l.Parent = logs[i+1].Hash } else if l.Parent != "" { l.Parent, _ = repo.FullHash(l.Parent) } if *verbose { log.Printf("hg log %s: %s < %s\n", pkg, l.Hash, l.Parent) } if logByHash[l.Hash] == nil { // Make copy to avoid pinning entire slice when only one entry is new. t := *l logByHash[t.Hash] = &t } } for _, l := range logs { addCommit(pkg, l.Hash, key) } } // addCommit adds the commit with the named hash to the dashboard. // key is the secret key for authentication to the dashboard. // It avoids duplicate effort. func addCommit(pkg, hash, key string) bool { l := logByHash[hash] if l == nil { return false } if l.added { return true } // Check for already added, perhaps in an earlier run. if dashboardCommit(pkg, hash) { log.Printf("%s already on dashboard\n", hash) // Record that this hash is on the dashboard, // as must be all its parents. for l != nil { l.added = true l = logByHash[l.Parent] } return true } // Create parent first, to maintain some semblance of order. if l.Parent != "" { if !addCommit(pkg, l.Parent, key) { return false } } // Create commit. if err := postCommit(key, pkg, l); err != nil { log.Printf("failed to add %s to dashboard: %v", key, err) return false } return true } // defaultSuffix returns file extension used for command files in // current os environment. func defaultSuffix() string { switch runtime.GOOS { case "windows": return ".bat" case "plan9": return ".rc" default: return ".bash" } } // defaultBuildRoot returns default buildroot directory. func defaultBuildRoot() string { var d string if runtime.GOOS == "windows" { // will use c:\, otherwise absolute paths become too long // during builder run, see http://golang.org/issue/3358. d = `c:\` } else { d = os.TempDir() } return filepath.Join(d, "gobuilder") }