// Copyright 2023 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 work import ( "bytes" "cmd/go/internal/base" "cmd/go/internal/cache" "cmd/go/internal/cfg" "cmd/go/internal/load" "cmd/go/internal/par" "cmd/go/internal/str" "errors" "fmt" "internal/lazyregexp" "io" "io/fs" "os" "os/exec" "path/filepath" "runtime" "strconv" "strings" "sync" "time" ) // A Shell runs shell commands and performs shell-like file system operations. // // Shell tracks context related to running commands, and form a tree much like // context.Context. type Shell struct { action *Action // nil for the root shell *shellShared // per-Builder state shared across Shells } // shellShared is Shell state shared across all Shells derived from a single // root shell (generally a single Builder). type shellShared struct { workDir string // $WORK, immutable printLock sync.Mutex printFunc func(args ...any) (int, error) scriptDir string // current directory in printed script mkdirCache par.Cache[string, error] // a cache of created directories } // NewShell returns a new Shell. // // Shell will internally serialize calls to the print function. // If print is nil, it defaults to printing to stderr. func NewShell(workDir string, print func(a ...any) (int, error)) *Shell { if print == nil { print = func(a ...any) (int, error) { return fmt.Fprint(os.Stderr, a...) } } shared := &shellShared{ workDir: workDir, printFunc: print, } return &Shell{shellShared: shared} } // Print emits a to this Shell's output stream, formatting it like fmt.Print. // It is safe to call concurrently. func (sh *Shell) Print(a ...any) { sh.printLock.Lock() defer sh.printLock.Unlock() sh.printFunc(a...) } func (sh *Shell) printLocked(a ...any) { sh.printFunc(a...) } // WithAction returns a Shell identical to sh, but bound to Action a. func (sh *Shell) WithAction(a *Action) *Shell { sh2 := *sh sh2.action = a return &sh2 } // Shell returns a shell for running commands on behalf of Action a. func (b *Builder) Shell(a *Action) *Shell { if a == nil { // The root shell has a nil Action. The point of this method is to // create a Shell bound to an Action, so disallow nil Actions here. panic("nil Action") } if a.sh == nil { a.sh = b.backgroundSh.WithAction(a) } return a.sh } // BackgroundShell returns a Builder-wide Shell that's not bound to any Action. // Try not to use this unless there's really no sensible Action available. func (b *Builder) BackgroundShell() *Shell { return b.backgroundSh } // moveOrCopyFile is like 'mv src dst' or 'cp src dst'. func (sh *Shell) moveOrCopyFile(dst, src string, perm fs.FileMode, force bool) error { if cfg.BuildN { sh.ShowCmd("", "mv %s %s", src, dst) return nil } // If we can update the mode and rename to the dst, do it. // Otherwise fall back to standard copy. // If the source is in the build cache, we need to copy it. dir, _ := cache.DefaultDir() if strings.HasPrefix(src, dir) { return sh.CopyFile(dst, src, perm, force) } // On Windows, always copy the file, so that we respect the NTFS // permissions of the parent folder. https://golang.org/issue/22343. // What matters here is not cfg.Goos (the system we are building // for) but runtime.GOOS (the system we are building on). if runtime.GOOS == "windows" { return sh.CopyFile(dst, src, perm, force) } // If the destination directory has the group sticky bit set, // we have to copy the file to retain the correct permissions. // https://golang.org/issue/18878 if fi, err := os.Stat(filepath.Dir(dst)); err == nil { if fi.IsDir() && (fi.Mode()&fs.ModeSetgid) != 0 { return sh.CopyFile(dst, src, perm, force) } } // The perm argument is meant to be adjusted according to umask, // but we don't know what the umask is. // Create a dummy file to find out. // This avoids build tags and works even on systems like Plan 9 // where the file mask computation incorporates other information. mode := perm f, err := os.OpenFile(filepath.Clean(dst)+"-go-tmp-umask", os.O_WRONLY|os.O_CREATE|os.O_EXCL, perm) if err == nil { fi, err := f.Stat() if err == nil { mode = fi.Mode() & 0777 } name := f.Name() f.Close() os.Remove(name) } if err := os.Chmod(src, mode); err == nil { if err := os.Rename(src, dst); err == nil { if cfg.BuildX { sh.ShowCmd("", "mv %s %s", src, dst) } return nil } } return sh.CopyFile(dst, src, perm, force) } // copyFile is like 'cp src dst'. func (sh *Shell) CopyFile(dst, src string, perm fs.FileMode, force bool) error { if cfg.BuildN || cfg.BuildX { sh.ShowCmd("", "cp %s %s", src, dst) if cfg.BuildN { return nil } } sf, err := os.Open(src) if err != nil { return err } defer sf.Close() // Be careful about removing/overwriting dst. // Do not remove/overwrite if dst exists and is a directory // or a non-empty non-object file. if fi, err := os.Stat(dst); err == nil { if fi.IsDir() { return fmt.Errorf("build output %q already exists and is a directory", dst) } if !force && fi.Mode().IsRegular() && fi.Size() != 0 && !isObject(dst) { return fmt.Errorf("build output %q already exists and is not an object file", dst) } } // On Windows, remove lingering ~ file from last attempt. if runtime.GOOS == "windows" { if _, err := os.Stat(dst + "~"); err == nil { os.Remove(dst + "~") } } mayberemovefile(dst) df, err := os.OpenFile(dst, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, perm) if err != nil && runtime.GOOS == "windows" { // Windows does not allow deletion of a binary file // while it is executing. Try to move it out of the way. // If the move fails, which is likely, we'll try again the // next time we do an install of this binary. if err := os.Rename(dst, dst+"~"); err == nil { os.Remove(dst + "~") } df, err = os.OpenFile(dst, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, perm) } if err != nil { return fmt.Errorf("copying %s: %w", src, err) // err should already refer to dst } _, err = io.Copy(df, sf) df.Close() if err != nil { mayberemovefile(dst) return fmt.Errorf("copying %s to %s: %v", src, dst, err) } return nil } // mayberemovefile removes a file only if it is a regular file // When running as a user with sufficient privileges, we may delete // even device files, for example, which is not intended. func mayberemovefile(s string) { if fi, err := os.Lstat(s); err == nil && !fi.Mode().IsRegular() { return } os.Remove(s) } // writeFile writes the text to file. func (sh *Shell) writeFile(file string, text []byte) error { if cfg.BuildN || cfg.BuildX { switch { case len(text) == 0: sh.ShowCmd("", "echo -n > %s # internal", file) case bytes.IndexByte(text, '\n') == len(text)-1: // One line. Use a simpler "echo" command. sh.ShowCmd("", "echo '%s' > %s # internal", bytes.TrimSuffix(text, []byte("\n")), file) default: // Use the most general form. sh.ShowCmd("", "cat >%s << 'EOF' # internal\n%sEOF", file, text) } } if cfg.BuildN { return nil } return os.WriteFile(file, text, 0666) } // Mkdir makes the named directory. func (sh *Shell) Mkdir(dir string) error { // Make Mkdir(a.Objdir) a no-op instead of an error when a.Objdir == "". if dir == "" { return nil } // We can be a little aggressive about being // sure directories exist. Skip repeated calls. return sh.mkdirCache.Do(dir, func() error { if cfg.BuildN || cfg.BuildX { sh.ShowCmd("", "mkdir -p %s", dir) if cfg.BuildN { return nil } } return os.MkdirAll(dir, 0777) }) } // RemoveAll is like 'rm -rf'. It attempts to remove all paths even if there's // an error, and returns the first error. func (sh *Shell) RemoveAll(paths ...string) error { if cfg.BuildN || cfg.BuildX { // Don't say we are removing the directory if we never created it. show := func() bool { for _, path := range paths { if _, ok := sh.mkdirCache.Get(path); ok { return true } if _, err := os.Stat(path); !os.IsNotExist(err) { return true } } return false } if show() { sh.ShowCmd("", "rm -rf %s", strings.Join(paths, " ")) } } if cfg.BuildN { return nil } var err error for _, path := range paths { if err2 := os.RemoveAll(path); err2 != nil && err == nil { err = err2 } } return err } // Symlink creates a symlink newname -> oldname. func (sh *Shell) Symlink(oldname, newname string) error { // It's not an error to try to recreate an existing symlink. if link, err := os.Readlink(newname); err == nil && link == oldname { return nil } if cfg.BuildN || cfg.BuildX { sh.ShowCmd("", "ln -s %s %s", oldname, newname) if cfg.BuildN { return nil } } return os.Symlink(oldname, newname) } // fmtCmd formats a command in the manner of fmt.Sprintf but also: // // fmtCmd replaces the value of b.WorkDir with $WORK. func (sh *Shell) fmtCmd(dir string, format string, args ...any) string { cmd := fmt.Sprintf(format, args...) if sh.workDir != "" && !strings.HasPrefix(cmd, "cat ") { cmd = strings.ReplaceAll(cmd, sh.workDir, "$WORK") escaped := strconv.Quote(sh.workDir) escaped = escaped[1 : len(escaped)-1] // strip quote characters if escaped != sh.workDir { cmd = strings.ReplaceAll(cmd, escaped, "$WORK") } } return cmd } // ShowCmd prints the given command to standard output // for the implementation of -n or -x. // // ShowCmd also replaces the name of the current script directory with dot (.) // but only when it is at the beginning of a space-separated token. // // If dir is not "" or "/" and not the current script directory, ShowCmd first // prints a "cd" command to switch to dir and updates the script directory. func (sh *Shell) ShowCmd(dir string, format string, args ...any) { // Use the output lock directly so we can manage scriptDir. sh.printLock.Lock() defer sh.printLock.Unlock() cmd := sh.fmtCmd(dir, format, args...) if dir != "" && dir != "/" { if dir != sh.scriptDir { // Show changing to dir and update the current directory. sh.printLocked(sh.fmtCmd("", "cd %s\n", dir)) sh.scriptDir = dir } // Replace scriptDir is our working directory. Replace it // with "." in the command. dot := " ." if dir[len(dir)-1] == filepath.Separator { dot += string(filepath.Separator) } cmd = strings.ReplaceAll(" "+cmd, " "+dir, dot)[1:] } sh.printLocked(cmd + "\n") } // reportCmd reports the output and exit status of a command. The cmdOut and // cmdErr arguments are the output and exit error of the command, respectively. // // The exact reporting behavior is as follows: // // cmdOut cmdErr Result // "" nil print nothing, return nil // !="" nil print output, return nil // "" !=nil print nothing, return cmdErr (later printed) // !="" !=nil print nothing, ignore err, return output as error (later printed) // // reportCmd returns a non-nil error if and only if cmdErr != nil. It assumes // that the command output, if non-empty, is more detailed than the command // error (which is usually just an exit status), so prefers using the output as // the ultimate error. Typically, the caller should return this error from an // Action, which it will be printed by the Builder. // // reportCmd formats the output as "# desc" followed by the given output. The // output is expected to contain references to 'dir', usually the source // directory for the package that has failed to build. reportCmd rewrites // mentions of dir with a relative path to dir when the relative path is // shorter. This is usually more pleasant. For example, if fmt doesn't compile // and we are in src/html, the output is // // $ go build // # fmt // ../fmt/print.go:1090: undefined: asdf // $ // // instead of // // $ go build // # fmt // /usr/gopher/go/src/fmt/print.go:1090: undefined: asdf // $ // // reportCmd also replaces references to the work directory with $WORK, replaces // cgo file paths with the original file path, and replaces cgo-mangled names // with "C.name". // // desc is optional. If "", a.Package.Desc() is used. // // dir is optional. If "", a.Package.Dir is used. func (sh *Shell) reportCmd(desc, dir string, cmdOut []byte, cmdErr error) error { if len(cmdOut) == 0 && cmdErr == nil { // Common case return nil } if len(cmdOut) == 0 && cmdErr != nil { // Just return the error. // // TODO: This is what we've done for a long time, but it may be a // mistake because it loses all of the extra context and results in // ultimately less descriptive output. We should probably just take the // text of cmdErr as the output in this case and do everything we // otherwise would. We could chain the errors if we feel like it. return cmdErr } // Fetch defaults from the package. var p *load.Package a := sh.action if a != nil { p = a.Package } var importPath string if p != nil { importPath = p.ImportPath if desc == "" { desc = p.Desc() } if dir == "" { dir = p.Dir } } out := string(cmdOut) if !strings.HasSuffix(out, "\n") { out = out + "\n" } // Replace workDir with $WORK out = replacePrefix(out, sh.workDir, "$WORK") // Rewrite mentions of dir with a relative path to dir // when the relative path is shorter. for { // Note that dir starts out long, something like // /foo/bar/baz/root/a // The target string to be reduced is something like // (blah-blah-blah) /foo/bar/baz/root/sibling/whatever.go:blah:blah // /foo/bar/baz/root/a doesn't match /foo/bar/baz/root/sibling, but the prefix // /foo/bar/baz/root does. And there may be other niblings sharing shorter // prefixes, the only way to find them is to look. // This doesn't always produce a relative path -- // /foo is shorter than ../../.., for example. if reldir := base.ShortPath(dir); reldir != dir { out = replacePrefix(out, dir, reldir) if filepath.Separator == '\\' { // Don't know why, sometimes this comes out with slashes, not backslashes. wdir := strings.ReplaceAll(dir, "\\", "/") out = replacePrefix(out, wdir, reldir) } } dirP := filepath.Dir(dir) if dir == dirP { break } dir = dirP } // Fix up output referring to cgo-generated code to be more readable. // Replace x.go:19[/tmp/.../x.cgo1.go:18] with x.go:19. // Replace *[100]_Ctype_foo with *[100]C.foo. // If we're using -x, assume we're debugging and want the full dump, so disable the rewrite. if !cfg.BuildX && cgoLine.MatchString(out) { out = cgoLine.ReplaceAllString(out, "") out = cgoTypeSigRe.ReplaceAllString(out, "C.") } // Usually desc is already p.Desc(), but if not, signal cmdError.Error to // add a line explicitly mentioning the import path. needsPath := importPath != "" && p != nil && desc != p.Desc() err := &cmdError{desc, out, importPath, needsPath} if cmdErr != nil { // The command failed. Report the output up as an error. return err } // The command didn't fail, so just print the output as appropriate. if a != nil && a.output != nil { // The Action is capturing output. a.output = append(a.output, err.Error()...) } else { // Write directly to the Builder output. sh.Print(err.Error()) } return nil } // replacePrefix is like strings.ReplaceAll, but only replaces instances of old // that are preceded by ' ', '\t', or appear at the beginning of a line. func replacePrefix(s, old, new string) string { n := strings.Count(s, old) if n == 0 { return s } s = strings.ReplaceAll(s, " "+old, " "+new) s = strings.ReplaceAll(s, "\n"+old, "\n"+new) s = strings.ReplaceAll(s, "\n\t"+old, "\n\t"+new) if strings.HasPrefix(s, old) { s = new + s[len(old):] } return s } type cmdError struct { desc string text string importPath string needsPath bool // Set if desc does not already include the import path } func (e *cmdError) Error() string { var msg string if e.needsPath { // Ensure the import path is part of the message. // Clearly distinguish the description from the import path. msg = fmt.Sprintf("# %s\n# [%s]\n", e.importPath, e.desc) } else { msg = "# " + e.desc + "\n" } return msg + e.text } func (e *cmdError) ImportPath() string { return e.importPath } var cgoLine = lazyregexp.New(`\[[^\[\]]+\.(cgo1|cover)\.go:[0-9]+(:[0-9]+)?\]`) var cgoTypeSigRe = lazyregexp.New(`\b_C2?(type|func|var|macro)_\B`) // run runs the command given by cmdline in the directory dir. // If the command fails, run prints information about the failure // and returns a non-nil error. func (sh *Shell) run(dir string, desc string, env []string, cmdargs ...any) error { out, err := sh.runOut(dir, env, cmdargs...) if desc == "" { desc = sh.fmtCmd(dir, "%s", strings.Join(str.StringList(cmdargs...), " ")) } return sh.reportCmd(desc, dir, out, err) } // runOut runs the command given by cmdline in the directory dir. // It returns the command output and any errors that occurred. // It accumulates execution time in a. func (sh *Shell) runOut(dir string, env []string, cmdargs ...any) ([]byte, error) { a := sh.action cmdline := str.StringList(cmdargs...) for _, arg := range cmdline { // GNU binutils commands, including gcc and gccgo, interpret an argument // @foo anywhere in the command line (even following --) as meaning // "read and insert arguments from the file named foo." // Don't say anything that might be misinterpreted that way. if strings.HasPrefix(arg, "@") { return nil, fmt.Errorf("invalid command-line argument %s in command: %s", arg, joinUnambiguously(cmdline)) } } if cfg.BuildN || cfg.BuildX { var envcmdline string for _, e := range env { if j := strings.IndexByte(e, '='); j != -1 { if strings.ContainsRune(e[j+1:], '\'') { envcmdline += fmt.Sprintf("%s=%q", e[:j], e[j+1:]) } else { envcmdline += fmt.Sprintf("%s='%s'", e[:j], e[j+1:]) } envcmdline += " " } } envcmdline += joinUnambiguously(cmdline) sh.ShowCmd(dir, "%s", envcmdline) if cfg.BuildN { return nil, nil } } var buf bytes.Buffer path, err := cfg.LookPath(cmdline[0]) if err != nil { return nil, err } cmd := exec.Command(path, cmdline[1:]...) if cmd.Path != "" { cmd.Args[0] = cmd.Path } cmd.Stdout = &buf cmd.Stderr = &buf cleanup := passLongArgsInResponseFiles(cmd) defer cleanup() if dir != "." { cmd.Dir = dir } cmd.Env = cmd.Environ() // Pre-allocate with correct PWD. // Add the TOOLEXEC_IMPORTPATH environment variable for -toolexec tools. // It doesn't really matter if -toolexec isn't being used. // Note that a.Package.Desc is not really an import path, // but this is consistent with 'go list -f {{.ImportPath}}'. // Plus, it is useful to uniquely identify packages in 'go list -json'. if a != nil && a.Package != nil { cmd.Env = append(cmd.Env, "TOOLEXEC_IMPORTPATH="+a.Package.Desc()) } cmd.Env = append(cmd.Env, env...) start := time.Now() err = cmd.Run() if a != nil && a.json != nil { aj := a.json aj.Cmd = append(aj.Cmd, joinUnambiguously(cmdline)) aj.CmdReal += time.Since(start) if ps := cmd.ProcessState; ps != nil { aj.CmdUser += ps.UserTime() aj.CmdSys += ps.SystemTime() } } // err can be something like 'exit status 1'. // Add information about what program was running. // Note that if buf.Bytes() is non-empty, the caller usually // shows buf.Bytes() and does not print err at all, so the // prefix here does not make most output any more verbose. if err != nil { err = errors.New(cmdline[0] + ": " + err.Error()) } return buf.Bytes(), err } // joinUnambiguously prints the slice, quoting where necessary to make the // output unambiguous. // TODO: See issue 5279. The printing of commands needs a complete redo. func joinUnambiguously(a []string) string { var buf strings.Builder for i, s := range a { if i > 0 { buf.WriteByte(' ') } q := strconv.Quote(s) // A gccgo command line can contain -( and -). // Make sure we quote them since they are special to the shell. // The trimpath argument can also contain > (part of =>) and ;. Quote those too. if s == "" || strings.ContainsAny(s, " ()>;") || len(q) > len(s)+2 { buf.WriteString(q) } else { buf.WriteString(s) } } return buf.String() }