// FIXME(thaJeztah): remove once we are a module; the go:build directive prevents go from downgrading language version to go1.16: //go:build go1.19 package command import ( "bufio" "fmt" "io" "os" "path/filepath" "runtime" "strings" "github.com/docker/cli/cli/streams" "github.com/docker/docker/api/types/filters" "github.com/moby/sys/sequential" "github.com/pkg/errors" "github.com/spf13/pflag" ) // CopyToFile writes the content of the reader to the specified file func CopyToFile(outfile string, r io.Reader) error { // We use sequential file access here to avoid depleting the standby list // on Windows. On Linux, this is a call directly to os.CreateTemp tmpFile, err := sequential.CreateTemp(filepath.Dir(outfile), ".docker_temp_") if err != nil { return err } tmpPath := tmpFile.Name() _, err = io.Copy(tmpFile, r) tmpFile.Close() if err != nil { os.Remove(tmpPath) return err } if err = os.Rename(tmpPath, outfile); err != nil { os.Remove(tmpPath) return err } return nil } // capitalizeFirst capitalizes the first character of string func capitalizeFirst(s string) string { switch l := len(s); l { case 0: return s case 1: return strings.ToLower(s) default: return strings.ToUpper(string(s[0])) + strings.ToLower(s[1:]) } } // PrettyPrint outputs arbitrary data for human formatted output by uppercasing the first letter. func PrettyPrint(i interface{}) string { switch t := i.(type) { case nil: return "None" case string: return capitalizeFirst(t) default: return capitalizeFirst(fmt.Sprintf("%s", t)) } } // PromptForConfirmation requests and checks confirmation from user. // This will display the provided message followed by ' [y/N] '. If // the user input 'y' or 'Y' it returns true other false. If no // message is provided "Are you sure you want to proceed? [y/N] " // will be used instead. func PromptForConfirmation(ins io.Reader, outs io.Writer, message string) bool { if message == "" { message = "Are you sure you want to proceed?" } message += " [y/N] " _, _ = fmt.Fprint(outs, message) // On Windows, force the use of the regular OS stdin stream. if runtime.GOOS == "windows" { ins = streams.NewIn(os.Stdin) } reader := bufio.NewReader(ins) answer, _, _ := reader.ReadLine() return strings.ToLower(string(answer)) == "y" } // PruneFilters returns consolidated prune filters obtained from config.json and cli func PruneFilters(dockerCli Cli, pruneFilters filters.Args) filters.Args { if dockerCli.ConfigFile() == nil { return pruneFilters } for _, f := range dockerCli.ConfigFile().PruneFilters { k, v, ok := strings.Cut(f, "=") if !ok { continue } if k == "label" { // CLI label filter supersede config.json. // If CLI label filter conflict with config.json, // skip adding label! filter in config.json. if pruneFilters.Contains("label!") && pruneFilters.ExactMatch("label!", v) { continue } } else if k == "label!" { // CLI label! filter supersede config.json. // If CLI label! filter conflict with config.json, // skip adding label filter in config.json. if pruneFilters.Contains("label") && pruneFilters.ExactMatch("label", v) { continue } } pruneFilters.Add(k, v) } return pruneFilters } // AddPlatformFlag adds `platform` to a set of flags for API version 1.32 and later. func AddPlatformFlag(flags *pflag.FlagSet, target *string) { flags.StringVar(target, "platform", os.Getenv("DOCKER_DEFAULT_PLATFORM"), "Set platform if server is multi-platform capable") flags.SetAnnotation("platform", "version", []string{"1.32"}) } // ValidateOutputPath validates the output paths of the `export` and `save` commands. func ValidateOutputPath(path string) error { dir := filepath.Dir(filepath.Clean(path)) if dir != "" && dir != "." { if _, err := os.Stat(dir); os.IsNotExist(err) { return errors.Errorf("invalid output path: directory %q does not exist", dir) } } // check whether `path` points to a regular file // (if the path exists and doesn't point to a directory) if fileInfo, err := os.Stat(path); !os.IsNotExist(err) { if err != nil { return err } if fileInfo.Mode().IsDir() || fileInfo.Mode().IsRegular() { return nil } if err := ValidateOutputPathFileMode(fileInfo.Mode()); err != nil { return errors.Wrapf(err, fmt.Sprintf("invalid output path: %q must be a directory or a regular file", path)) } } return nil } // ValidateOutputPathFileMode validates the output paths of the `cp` command and serves as a // helper to `ValidateOutputPath` func ValidateOutputPathFileMode(fileMode os.FileMode) error { switch { case fileMode&os.ModeDevice != 0: return errors.New("got a device") case fileMode&os.ModeIrregular != 0: return errors.New("got an irregular file") } return nil } func stringSliceIndex(s, subs []string) int { j := 0 if len(subs) > 0 { for i, x := range s { if j < len(subs) && subs[j] == x { j++ } else { j = 0 } if len(subs) == j { return i + 1 - j } } } return -1 } // StringSliceReplaceAt replaces the sub-slice old, with the sub-slice new, in the string // slice s, returning a new slice and a boolean indicating if the replacement happened. // requireIdx is the index at which old needs to be found at (or -1 to disregard that). func StringSliceReplaceAt(s, old, new []string, requireIndex int) ([]string, bool) { idx := stringSliceIndex(s, old) if (requireIndex != -1 && requireIndex != idx) || idx == -1 { return s, false } out := append([]string{}, s[:idx]...) out = append(out, new...) out = append(out, s[idx+len(old):]...) return out, true }