package packer import ( "bytes" "errors" "fmt" "io" "log" "os" "os/signal" "runtime" "strings" "sync" "syscall" "time" "unicode" getter "github.com/hashicorp/go-getter" ) var ErrInterrupted = errors.New("interrupted") type UiColor uint const ( UiColorRed UiColor = 31 UiColorGreen = 32 UiColorYellow = 33 UiColorBlue = 34 UiColorMagenta = 35 UiColorCyan = 36 ) // The Ui interface handles all communication for Packer with the outside // world. This sort of control allows us to strictly control how output // is formatted and various levels of output. type Ui interface { Ask(string) (string, error) Say(string) Message(string) Error(string) Machine(string, ...string) getter.ProgressTracker } type NoopUi struct { NoopProgressTracker } var _ Ui = new(NoopUi) func (*NoopUi) Ask(string) (string, error) { return "", errors.New("this is a noop ui") } func (*NoopUi) Say(string) { return } func (*NoopUi) Message(string) { return } func (*NoopUi) Error(string) { return } func (*NoopUi) Machine(string, ...string) { return } // ColoredUi is a UI that is colored using terminal colors. type ColoredUi struct { Color UiColor ErrorColor UiColor Ui Ui *uiProgressBar } var _ Ui = new(ColoredUi) func (u *ColoredUi) Ask(query string) (string, error) { return u.Ui.Ask(u.colorize(query, u.Color, true)) } func (u *ColoredUi) Say(message string) { u.Ui.Say(u.colorize(message, u.Color, true)) } func (u *ColoredUi) Message(message string) { u.Ui.Message(u.colorize(message, u.Color, false)) } func (u *ColoredUi) Error(message string) { color := u.ErrorColor if color == 0 { color = UiColorRed } u.Ui.Error(u.colorize(message, color, true)) } func (u *ColoredUi) Machine(t string, args ...string) { // Don't colorize machine-readable output u.Ui.Machine(t, args...) } func (u *ColoredUi) colorize(message string, color UiColor, bold bool) string { if !u.supportsColors() { return message } attr := 0 if bold { attr = 1 } return fmt.Sprintf("\033[%d;%dm%s\033[0m", attr, color, message) } func (u *ColoredUi) supportsColors() bool { // Never use colors if we have this environmental variable if os.Getenv("PACKER_NO_COLOR") != "" { return false } // For now, on non-Windows machine, just assume it does if runtime.GOOS != "windows" { return true } // On Windows, if we appear to be in Cygwin, then it does cygwin := os.Getenv("CYGWIN") != "" || os.Getenv("OSTYPE") == "cygwin" || os.Getenv("TERM") == "cygwin" return cygwin } // TargetedUI is a UI that wraps another UI implementation and modifies // the output to indicate a specific target. Specifically, all Say output // is prefixed with the target name. Message output is not prefixed but // is offset by the length of the target so that output is lined up properly // with Say output. Machine-readable output has the proper target set. type TargetedUI struct { Target string Ui Ui *uiProgressBar } var _ Ui = new(TargetedUI) func (u *TargetedUI) Ask(query string) (string, error) { return u.Ui.Ask(u.prefixLines(true, query)) } func (u *TargetedUI) Say(message string) { u.Ui.Say(u.prefixLines(true, message)) } func (u *TargetedUI) Message(message string) { u.Ui.Message(u.prefixLines(false, message)) } func (u *TargetedUI) Error(message string) { u.Ui.Error(u.prefixLines(true, message)) } func (u *TargetedUI) Machine(t string, args ...string) { // Prefix in the target, then pass through u.Ui.Machine(fmt.Sprintf("%s,%s", u.Target, t), args...) } func (u *TargetedUI) prefixLines(arrow bool, message string) string { arrowText := "==>" if !arrow { arrowText = strings.Repeat(" ", len(arrowText)) } var result bytes.Buffer for _, line := range strings.Split(message, "\n") { result.WriteString(fmt.Sprintf("%s %s: %s\n", arrowText, u.Target, line)) } return strings.TrimRightFunc(result.String(), unicode.IsSpace) } // The BasicUI is a UI that reads and writes from a standard Go reader // and writer. It is safe to be called from multiple goroutines. Machine // readable output is simply logged for this UI. type BasicUi struct { Reader io.Reader Writer io.Writer ErrorWriter io.Writer l sync.Mutex interrupted bool TTY TTY *uiProgressBar } var _ Ui = new(BasicUi) func (rw *BasicUi) Ask(query string) (string, error) { rw.l.Lock() defer rw.l.Unlock() if rw.interrupted { return "", ErrInterrupted } if rw.TTY == nil { return "", errors.New("no available tty") } sigCh := make(chan os.Signal, 1) signal.Notify(sigCh, os.Interrupt, syscall.SIGTERM) defer signal.Stop(sigCh) log.Printf("ui: ask: %s", query) if query != "" { if _, err := fmt.Fprint(rw.Writer, query+" "); err != nil { return "", err } } result := make(chan string, 1) go func() { line, err := rw.TTY.ReadString() if err != nil { log.Printf("ui: scan err: %s", err) return } result <- strings.TrimSpace(line) }() select { case line := <-result: return line, nil case <-sigCh: // Print a newline so that any further output starts properly // on a new line. fmt.Fprintln(rw.Writer) // Mark that we were interrupted so future Ask calls fail. rw.interrupted = true return "", ErrInterrupted } } func (rw *BasicUi) Say(message string) { rw.l.Lock() defer rw.l.Unlock() // Use LogSecretFilter to scrub out sensitive variables for s := range LogSecretFilter.s { if s != "" { message = strings.Replace(message, s, "", -1) } } log.Printf("ui: %s", message) _, err := fmt.Fprint(rw.Writer, message+"\n") if err != nil { log.Printf("[ERR] Failed to write to UI: %s", err) } } func (rw *BasicUi) Message(message string) { rw.l.Lock() defer rw.l.Unlock() // Use LogSecretFilter to scrub out sensitive variables for s := range LogSecretFilter.s { if s != "" { message = strings.Replace(message, s, "", -1) } } log.Printf("ui: %s", message) _, err := fmt.Fprint(rw.Writer, message+"\n") if err != nil { log.Printf("[ERR] Failed to write to UI: %s", err) } } func (rw *BasicUi) Error(message string) { rw.l.Lock() defer rw.l.Unlock() writer := rw.ErrorWriter if writer == nil { writer = rw.Writer } // Use LogSecretFilter to scrub out sensitive variables for s := range LogSecretFilter.s { if s != "" { message = strings.Replace(message, s, "", -1) } } log.Printf("ui error: %s", message) _, err := fmt.Fprint(writer, message+"\n") if err != nil { log.Printf("[ERR] Failed to write to UI: %s", err) } } func (rw *BasicUi) Machine(t string, args ...string) { log.Printf("machine readable: %s %#v", t, args) } // MachineReadableUi is a UI that only outputs machine-readable output // to the given Writer. type MachineReadableUi struct { Writer io.Writer NoopProgressTracker } var _ Ui = new(MachineReadableUi) func (u *MachineReadableUi) Ask(query string) (string, error) { return "", errors.New("machine-readable UI can't ask") } func (u *MachineReadableUi) Say(message string) { u.Machine("ui", "say", message) } func (u *MachineReadableUi) Message(message string) { u.Machine("ui", "message", message) } func (u *MachineReadableUi) Error(message string) { u.Machine("ui", "error", message) } func (u *MachineReadableUi) Machine(category string, args ...string) { now := time.Now().UTC() // Determine if we have a target, and set it target := "" commaIdx := strings.Index(category, ",") if commaIdx > -1 { target = category[0:commaIdx] category = category[commaIdx+1:] } // Prepare the args for i, v := range args { args[i] = strings.Replace(v, ",", "%!(PACKER_COMMA)", -1) args[i] = strings.Replace(args[i], "\r", "\\r", -1) args[i] = strings.Replace(args[i], "\n", "\\n", -1) // Use LogSecretFilter to scrub out sensitive variables for s := range LogSecretFilter.s { if s != "" { args[i] = strings.Replace(args[i], s, "", -1) } } } argsString := strings.Join(args, ",") _, err := fmt.Fprintf(u.Writer, "%d,%s,%s,%s\n", now.Unix(), target, category, argsString) if err != nil { if err == syscall.EPIPE || strings.Contains(err.Error(), "broken pipe") { // Ignore epipe errors because that just means that the file // is probably closed or going to /dev/null or something. } else { panic(err) } } log.Printf("%d,%s,%s,%s\n", now.Unix(), target, category, argsString) } // TimestampedUi is a UI that wraps another UI implementation and // prefixes each message with an RFC3339 timestamp type TimestampedUi struct { Ui Ui *uiProgressBar } var _ Ui = new(TimestampedUi) func (u *TimestampedUi) Ask(query string) (string, error) { return u.Ui.Ask(query) } func (u *TimestampedUi) Say(message string) { u.Ui.Say(u.timestampLine(message)) } func (u *TimestampedUi) Message(message string) { u.Ui.Message(u.timestampLine(message)) } func (u *TimestampedUi) Error(message string) { u.Ui.Error(u.timestampLine(message)) } func (u *TimestampedUi) Machine(message string, args ...string) { u.Ui.Machine(message, args...) } func (u *TimestampedUi) timestampLine(string string) string { return fmt.Sprintf("%v: %v", time.Now().Format(time.RFC3339), string) } // Safe is a UI that wraps another UI implementation and // provides concurrency-safe access type SafeUi struct { Sem chan int Ui Ui *uiProgressBar } var _ Ui = new(SafeUi) func (u *SafeUi) Ask(s string) (string, error) { u.Sem <- 1 ret, err := u.Ui.Ask(s) <-u.Sem return ret, err } func (u *SafeUi) Say(s string) { u.Sem <- 1 u.Ui.Say(s) <-u.Sem } func (u *SafeUi) Message(s string) { u.Sem <- 1 u.Ui.Message(s) <-u.Sem } func (u *SafeUi) Error(s string) { u.Sem <- 1 u.Ui.Error(s) <-u.Sem } func (u *SafeUi) Machine(t string, args ...string) { u.Sem <- 1 u.Ui.Machine(t, args...) <-u.Sem }