// Copyright 2015 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. // Toolstash provides a way to save, run, and restore a known good copy of the Go toolchain // and to compare the object files generated by two toolchains. // // Usage: // // toolstash [-n] [-v] save [tool...] // toolstash [-n] [-v] restore [tool...] // toolstash [-n] [-v] [-t] go run x.go // toolstash [-n] [-v] [-t] [-cmp] compile x.go // // The toolstash command manages a ``stashed'' copy of the Go toolchain // kept in $GOROOT/pkg/toolstash. In this case, the toolchain means the // tools available with the 'go tool' command as well as the go, godoc, and gofmt // binaries. // // The command ``toolstash save'', typically run when the toolchain is known to be working, // copies the toolchain from its installed location to the toolstash directory. // Its inverse, ``toolchain restore'', typically run when the toolchain is known to be broken, // copies the toolchain from the toolstash directory back to the installed locations. // If additional arguments are given, the save or restore applies only to the named tools. // Otherwise, it applies to all tools. // // Otherwise, toolstash's arguments should be a command line beginning with the // name of a toolchain binary, which may be a short name like compile or a complete path // to an installed binary. Toolstash runs the command line using the stashed // copy of the binary instead of the installed one. // // The -n flag causes toolstash to print the commands that would be executed // but not execute them. The combination -n -cmp shows the two commands // that would be compared and then exits successfully. A real -cmp run might // run additional commands for diagnosis of an output mismatch. // // The -v flag causes toolstash to print the commands being executed. // // The -t flag causes toolstash to print the time elapsed during while the // command ran. // // Comparing // // The -cmp flag causes toolstash to run both the installed and the stashed // copy of an assembler or compiler and check that they produce identical // object files. If not, toolstash reports the mismatch and exits with a failure status. // As part of reporting the mismatch, toolstash reinvokes the command with // the -S flag and identifies the first divergence in the assembly output. // If the command is a Go compiler, toolstash also determines whether the // difference is triggered by optimization passes. // On failure, toolstash leaves additional information in files named // similarly to the default output file. If the compilation would normally // produce a file x.6, the output from the stashed tool is left in x.6.stash // and the debugging traces are left in x.6.log and x.6.stash.log. // // The -cmp flag is a no-op when the command line is not invoking an // assembler or compiler. // // For example, when working on code cleanup that should not affect // compiler output, toolstash can be used to compare the old and new // compiler output: // // toolstash save // // go tool dist install cmd/compile # install compiler only // toolstash -cmp compile x.go // // Go Command Integration // // The go command accepts a -toolexec flag that specifies a program // to use to run the build tools. // // To build with the stashed tools: // // go build -toolexec toolstash x.go // // To build with the stashed go command and the stashed tools: // // toolstash go build -toolexec toolstash x.go // // To verify that code cleanup in the compilers does not make any // changes to the objects being generated for the entire tree: // // # Build working tree and save tools. // ./make.bash // toolstash save // // // // # Install new tools, but do not rebuild the rest of tree, // # since the compilers might generate buggy code. // go tool dist install cmd/compile // // # Check that new tools behave identically to saved tools. // go build -toolexec 'toolstash -cmp' -a std // // # If not, restore, in order to keep working on Go code. // toolstash restore // // Version Skew // // The Go tools write the current Go version to object files, and (outside // release branches) that version includes the hash and time stamp // of the most recent Git commit. Functionally equivalent // compilers built at different Git versions may produce object files that // differ only in the recorded version. Toolstash ignores version mismatches // when comparing object files, but the standard tools will refuse to compile // or link together packages with different object versions. // // For the full build in the final example above to work, both the stashed // and the installed tools must use the same version string. // One way to ensure this is not to commit any of the changes being // tested, so that the Git HEAD hash is the same for both builds. // A more robust way to force the tools to have the same version string // is to write a $GOROOT/VERSION file, which overrides the Git-based version // computation: // // echo devel >$GOROOT/VERSION // // The version can be arbitrary text, but to pass all.bash's API check, it must // contain the substring ``devel''. The VERSION file must be created before // building either version of the toolchain. // package main // import "golang.org/x/tools/cmd/toolstash" import ( "bufio" "flag" "fmt" "io" "io/ioutil" "log" "os" "os/exec" "path/filepath" "runtime" "strings" "time" ) var usageMessage = `usage: toolstash [-n] [-v] [-cmp] command line Examples: toolstash save toolstash restore toolstash go run x.go toolstash compile x.go toolstash -cmp compile x.go For details, godoc rsc.io/toolstash ` func usage() { fmt.Fprint(os.Stderr, usageMessage) os.Exit(2) } var ( norun = flag.Bool("n", false, "print but do not run commands") verbose = flag.Bool("v", false, "print commands being run") cmp = flag.Bool("cmp", false, "compare tool object files") timing = flag.Bool("t", false, "print time commands take") ) var ( cmd []string tool string // name of tool: "go", "compile", etc toolStash string // path to stashed tool goroot string toolDir string stashDir string binDir string ) func canCmp(name string) bool { switch name { case "compile", "link", "asm": return true } return len(name) == 2 && '0' <= name[0] && name[0] <= '9' && (name[1] == 'a' || name[1] == 'g' || name[1] == 'l') } var binTools = []string{"go", "godoc", "gofmt"} func isBinTool(name string) bool { return strings.HasPrefix(name, "go") } func main() { log.SetFlags(0) log.SetPrefix("toolstash: ") flag.Usage = usage flag.Parse() cmd = flag.Args() if len(cmd) < 1 { usage() } goroot = runtime.GOROOT() toolDir = filepath.Join(goroot, fmt.Sprintf("pkg/tool/%s_%s", runtime.GOOS, runtime.GOARCH)) stashDir = filepath.Join(goroot, "pkg/toolstash") binDir = os.Getenv("GOBIN") if binDir == "" { binDir = filepath.Join(goroot, "bin") } switch cmd[0] { case "save": save() return case "restore": restore() return } tool = cmd[0] if i := strings.LastIndex(tool, "/"); i >= 0 { tool = tool[i+1:] } if i := strings.LastIndex(tool, `\`); i >= 0 { tool = tool[i+1:] } if !strings.HasPrefix(tool, "a.out") { toolStash = filepath.Join(stashDir, tool) if _, err := os.Stat(toolStash); err != nil { log.Print(err) os.Exit(2) } if *cmp && canCmp(tool) { compareTool() return } cmd[0] = toolStash } if *norun { fmt.Printf("%s\n", strings.Join(cmd, " ")) return } if *verbose { log.Print(strings.Join(cmd, " ")) } xcmd := exec.Command(cmd[0], cmd[1:]...) xcmd.Stdin = os.Stdin xcmd.Stdout = os.Stdout xcmd.Stderr = os.Stderr err := xcmd.Run() if err != nil { log.Fatal(err) } os.Exit(0) } func compareTool() { if !strings.Contains(cmd[0], "/") && !strings.Contains(cmd[0], `\`) { cmd[0] = filepath.Join(toolDir, tool) } outfile, ok := cmpRun(false, cmd) if ok { os.Remove(outfile + ".stash") return } extra := "-S" switch { default: log.Fatalf("unknown tool %s", tool) case tool == "compile" || strings.HasSuffix(tool, "g"): // compiler useDashN := true for _, s := range cmd { if s == "-+" { // Compiling runtime. Don't use -N. useDashN = false break } } cmdN := injectflags(cmd, nil, useDashN) _, ok := cmpRun(false, cmdN) if !ok { if useDashN { log.Printf("compiler output differs, with optimizers disabled (-N)") } else { log.Printf("compiler output differs") } cmd = injectflags(cmd, []string{"-v", "-m=2"}, useDashN) break } cmd = injectflags(cmd, []string{"-v", "-m=2"}, false) log.Printf("compiler output differs, only with optimizers enabled") case tool == "asm" || strings.HasSuffix(tool, "a"): // assembler log.Printf("assembler output differs") case tool == "link" || strings.HasSuffix(tool, "l"): // linker log.Printf("linker output differs") extra = "-v=2" } cmdS := injectflags(cmd, []string{extra}, false) outfile, _ = cmpRun(true, cmdS) fmt.Fprintf(os.Stderr, "\n%s\n", compareLogs(outfile)) os.Exit(2) } func injectflags(cmd []string, extra []string, addDashN bool) []string { x := []string{cmd[0]} if addDashN { x = append(x, "-N") } x = append(x, extra...) x = append(x, cmd[1:]...) return x } func cmpRun(keepLog bool, cmd []string) (outfile string, match bool) { cmdStash := make([]string, len(cmd)) copy(cmdStash, cmd) cmdStash[0] = toolStash for i, arg := range cmdStash { if arg == "-o" { outfile = cmdStash[i+1] cmdStash[i+1] += ".stash" break } if strings.HasSuffix(arg, ".s") || strings.HasSuffix(arg, ".go") && '0' <= tool[0] && tool[0] <= '9' { outfile = filepath.Base(arg[:strings.LastIndex(arg, ".")] + "." + tool[:1]) cmdStash = append([]string{cmdStash[0], "-o", outfile + ".stash"}, cmdStash[1:]...) break } } if outfile == "" { log.Fatalf("cannot determine output file for command: %s", strings.Join(cmd, " ")) } if *norun { fmt.Printf("%s\n", strings.Join(cmd, " ")) fmt.Printf("%s\n", strings.Join(cmdStash, " ")) os.Exit(0) } out, err := runCmd(cmd, keepLog, outfile+".log") if err != nil { log.Printf("running: %s", strings.Join(cmd, " ")) os.Stderr.Write(out) log.Fatal(err) } outStash, err := runCmd(cmdStash, keepLog, outfile+".stash.log") if err != nil { log.Printf("running: %s", strings.Join(cmdStash, " ")) log.Printf("installed tool succeeded but stashed tool failed.\n") if len(out) > 0 { log.Printf("installed tool output:") os.Stderr.Write(out) } if len(outStash) > 0 { log.Printf("stashed tool output:") os.Stderr.Write(outStash) } log.Fatal(err) } return outfile, sameObject(outfile, outfile+".stash") } func sameObject(file1, file2 string) bool { f1, err := os.Open(file1) if err != nil { log.Fatal(err) } defer f1.Close() f2, err := os.Open(file2) if err != nil { log.Fatal(err) } defer f2.Close() b1 := bufio.NewReader(f1) b2 := bufio.NewReader(f2) // Go object files and archives contain lines of the form // go object // By default, the version on development branches includes // the Git hash and time stamp for the most recent commit. // We allow the versions to differ. if !skipVersion(b1, b2, file1, file2) { return false } lastByte := byte(0) for { c1, err1 := b1.ReadByte() c2, err2 := b2.ReadByte() if err1 == io.EOF && err2 == io.EOF { return true } if err1 != nil { log.Fatalf("reading %s: %v", file1, err1) } if err2 != nil { log.Fatalf("reading %s: %v", file2, err1) } if c1 != c2 { return false } if lastByte == '`' && c1 == '\n' { if !skipVersion(b1, b2, file1, file2) { return false } } lastByte = c1 } } func skipVersion(b1, b2 *bufio.Reader, file1, file2 string) bool { // Consume "go object " prefix, if there. prefix := "go object " for i := 0; i < len(prefix); i++ { c1, err1 := b1.ReadByte() c2, err2 := b2.ReadByte() if err1 == io.EOF && err2 == io.EOF { return true } if err1 != nil { log.Fatalf("reading %s: %v", file1, err1) } if err2 != nil { log.Fatalf("reading %s: %v", file2, err1) } if c1 != c2 { return false } if c1 != prefix[i] { return true // matching bytes, just not a version } } // Keep comparing until second space. // Must continue to match. // If we see a \n, it's not a version string after all. for numSpace := 0; numSpace < 2; { c1, err1 := b1.ReadByte() c2, err2 := b2.ReadByte() if err1 == io.EOF && err2 == io.EOF { return true } if err1 != nil { log.Fatalf("reading %s: %v", file1, err1) } if err2 != nil { log.Fatalf("reading %s: %v", file2, err1) } if c1 != c2 { return false } if c1 == '\n' { return true } if c1 == ' ' { numSpace++ } } // Have now seen 'go object goos goarch ' in both files. // Now they're allowed to diverge, until the \n, which // must be present. for { c1, err1 := b1.ReadByte() if err1 == io.EOF { log.Fatalf("reading %s: unexpected EOF", file1) } if err1 != nil { log.Fatalf("reading %s: %v", file1, err1) } if c1 == '\n' { break } } for { c2, err2 := b2.ReadByte() if err2 == io.EOF { log.Fatalf("reading %s: unexpected EOF", file2) } if err2 != nil { log.Fatalf("reading %s: %v", file2, err2) } if c2 == '\n' { break } } // Consumed "matching" versions from both. return true } func runCmd(cmd []string, keepLog bool, logName string) (output []byte, err error) { if *verbose { log.Print(strings.Join(cmd, " ")) } if *timing { t0 := time.Now() defer func() { log.Printf("%.3fs elapsed # %s\n", time.Since(t0).Seconds(), strings.Join(cmd, " ")) }() } xcmd := exec.Command(cmd[0], cmd[1:]...) if !keepLog { return xcmd.CombinedOutput() } f, err := os.Create(logName) if err != nil { log.Fatal(err) } fmt.Fprintf(f, "GOOS=%s GOARCH=%s %s\n", os.Getenv("GOOS"), os.Getenv("GOARCH"), strings.Join(cmd, " ")) xcmd.Stdout = f xcmd.Stderr = f defer f.Close() return nil, xcmd.Run() } func save() { if err := os.MkdirAll(stashDir, 0777); err != nil { log.Fatal(err) } toolDir := filepath.Join(goroot, fmt.Sprintf("pkg/tool/%s_%s", runtime.GOOS, runtime.GOARCH)) files, err := ioutil.ReadDir(toolDir) if err != nil { log.Fatal(err) } for _, file := range files { if shouldSave(file.Name()) && file.Mode().IsRegular() { cp(filepath.Join(toolDir, file.Name()), filepath.Join(stashDir, file.Name())) } } for _, name := range binTools { if !shouldSave(name) { continue } src := filepath.Join(binDir, name) if _, err := os.Stat(src); err == nil { cp(src, filepath.Join(stashDir, name)) } } checkShouldSave() } func restore() { files, err := ioutil.ReadDir(stashDir) if err != nil { log.Fatal(err) } for _, file := range files { if shouldSave(file.Name()) && file.Mode().IsRegular() { targ := toolDir if isBinTool(file.Name()) { targ = binDir } cp(filepath.Join(stashDir, file.Name()), filepath.Join(targ, file.Name())) } } checkShouldSave() } func shouldSave(name string) bool { if len(cmd) == 1 { return true } ok := false for i, arg := range cmd { if i > 0 && name == arg { ok = true cmd[i] = "DONE" } } return ok } func checkShouldSave() { var missing []string for _, arg := range cmd[1:] { if arg != "DONE" { missing = append(missing, arg) } } if len(missing) > 0 { log.Fatalf("%s did not find tools: %s", cmd[0], strings.Join(missing, " ")) } } func cp(src, dst string) { if *verbose { fmt.Printf("cp %s %s\n", src, dst) } data, err := ioutil.ReadFile(src) if err != nil { log.Fatal(err) } if err := ioutil.WriteFile(dst, data, 0777); err != nil { log.Fatal(err) } }