package utils import ( "bytes" "crypto/sha256" "encoding/hex" "encoding/json" "errors" "fmt" "index/suffixarray" "io" "io/ioutil" "log" "net/http" "os" "os/exec" "path/filepath" "runtime" "strconv" "strings" "sync" "time" ) // Go is a basic promise implementation: it wraps calls a function in a goroutine, // and returns a channel which will later return the function's return value. func Go(f func() error) chan error { ch := make(chan error) go func() { ch <- f() }() return ch } // Request a given URL and return an io.Reader func Download(url string, stderr io.Writer) (*http.Response, error) { var resp *http.Response var err error if resp, err = http.Get(url); err != nil { return nil, err } if resp.StatusCode >= 400 { return nil, errors.New("Got HTTP status code >= 400: " + resp.Status) } return resp, nil } // Debug function, if the debug flag is set, then display. Do nothing otherwise // If Docker is in damon mode, also send the debug info on the socket func Debugf(format string, a ...interface{}) { if os.Getenv("DEBUG") != "" { // Retrieve the stack infos _, file, line, ok := runtime.Caller(1) if !ok { file = "" line = -1 } else { file = file[strings.LastIndex(file, "/")+1:] } fmt.Fprintf(os.Stderr, fmt.Sprintf("[debug] %s:%d %s\n", file, line, format), a...) } } // Reader with progress bar type progressReader struct { reader io.ReadCloser // Stream to read from output io.Writer // Where to send progress bar to readTotal int // Expected stream length (bytes) readProgress int // How much has been read so far (bytes) lastUpdate int // How many bytes read at least update template string // Template to print. Default "%v/%v (%v)" sf *StreamFormatter } func (r *progressReader) Read(p []byte) (n int, err error) { read, err := io.ReadCloser(r.reader).Read(p) r.readProgress += read updateEvery := 4096 if r.readTotal > 0 { // Only update progress for every 1% read if increment := int(0.01 * float64(r.readTotal)); increment > updateEvery { updateEvery = increment } } if r.readProgress-r.lastUpdate > updateEvery || err != nil { if r.readTotal > 0 { fmt.Fprintf(r.output, r.template, HumanSize(int64(r.readProgress)), HumanSize(int64(r.readTotal)), fmt.Sprintf("%.0f%%", float64(r.readProgress)/float64(r.readTotal)*100)) } else { fmt.Fprintf(r.output, r.template, r.readProgress, "?", "n/a") } r.lastUpdate = r.readProgress } // Send newline when complete if err != nil { r.output.Write(r.sf.FormatStatus("")) } return read, err } func (r *progressReader) Close() error { return io.ReadCloser(r.reader).Close() } func ProgressReader(r io.ReadCloser, size int, output io.Writer, template []byte, sf *StreamFormatter) *progressReader { tpl := string(template) if tpl == "" { tpl = string(sf.FormatProgress("", "%v/%v (%v)")) } return &progressReader{r, NewWriteFlusher(output), size, 0, 0, tpl, sf} } // HumanDuration returns a human-readable approximation of a duration // (eg. "About a minute", "4 hours ago", etc.) func HumanDuration(d time.Duration) string { if seconds := int(d.Seconds()); seconds < 1 { return "Less than a second" } else if seconds < 60 { return fmt.Sprintf("%d seconds", seconds) } else if minutes := int(d.Minutes()); minutes == 1 { return "About a minute" } else if minutes < 60 { return fmt.Sprintf("%d minutes", minutes) } else if hours := int(d.Hours()); hours == 1 { return "About an hour" } else if hours < 48 { return fmt.Sprintf("%d hours", hours) } else if hours < 24*7*2 { return fmt.Sprintf("%d days", hours/24) } else if hours < 24*30*3 { return fmt.Sprintf("%d weeks", hours/24/7) } else if hours < 24*365*2 { return fmt.Sprintf("%d months", hours/24/30) } return fmt.Sprintf("%d years", d.Hours()/24/365) } // HumanSize returns a human-readable approximation of a size // using SI standard (eg. "44kB", "17MB") func HumanSize(size int64) string { i := 0 var sizef float64 sizef = float64(size) units := []string{"B", "kB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB"} for sizef >= 1000.0 { sizef = sizef / 1000.0 i++ } return fmt.Sprintf("%.4g %s", sizef, units[i]) } func Trunc(s string, maxlen int) string { if len(s) <= maxlen { return s } return s[:maxlen] } // Figure out the absolute path of our own binary func SelfPath() string { path, err := exec.LookPath(os.Args[0]) if err != nil { panic(err) } path, err = filepath.Abs(path) if err != nil { panic(err) } return path } type NopWriter struct { } func (w *NopWriter) Write(buf []byte) (int, error) { return len(buf), nil } type nopWriteCloser struct { io.Writer } func (w *nopWriteCloser) Close() error { return nil } func NopWriteCloser(w io.Writer) io.WriteCloser { return &nopWriteCloser{w} } type bufReader struct { buf *bytes.Buffer reader io.Reader err error l sync.Mutex wait sync.Cond } func NewBufReader(r io.Reader) *bufReader { reader := &bufReader{ buf: &bytes.Buffer{}, reader: r, } reader.wait.L = &reader.l go reader.drain() return reader } func (r *bufReader) drain() { buf := make([]byte, 1024) for { n, err := r.reader.Read(buf) r.l.Lock() if err != nil { r.err = err } else { r.buf.Write(buf[0:n]) } r.wait.Signal() r.l.Unlock() if err != nil { break } } } func (r *bufReader) Read(p []byte) (n int, err error) { r.l.Lock() defer r.l.Unlock() for { n, err = r.buf.Read(p) if n > 0 { return n, err } if r.err != nil { return 0, r.err } r.wait.Wait() } panic("unreachable") } func (r *bufReader) Close() error { closer, ok := r.reader.(io.ReadCloser) if !ok { return nil } return closer.Close() } type WriteBroadcaster struct { mu sync.Mutex writers map[io.WriteCloser]struct{} } func (w *WriteBroadcaster) AddWriter(writer io.WriteCloser) { w.mu.Lock() w.writers[writer] = struct{}{} w.mu.Unlock() } // FIXME: Is that function used? // FIXME: This relies on the concrete writer type used having equality operator func (w *WriteBroadcaster) RemoveWriter(writer io.WriteCloser) { w.mu.Lock() delete(w.writers, writer) w.mu.Unlock() } func (w *WriteBroadcaster) Write(p []byte) (n int, err error) { w.mu.Lock() defer w.mu.Unlock() for writer := range w.writers { if n, err := writer.Write(p); err != nil || n != len(p) { // On error, evict the writer delete(w.writers, writer) } } return len(p), nil } func (w *WriteBroadcaster) CloseWriters() error { w.mu.Lock() defer w.mu.Unlock() for writer := range w.writers { writer.Close() } w.writers = make(map[io.WriteCloser]struct{}) return nil } func NewWriteBroadcaster() *WriteBroadcaster { return &WriteBroadcaster{writers: make(map[io.WriteCloser]struct{})} } func GetTotalUsedFds() int { if fds, err := ioutil.ReadDir(fmt.Sprintf("/proc/%d/fd", os.Getpid())); err != nil { Debugf("Error opening /proc/%d/fd: %s", os.Getpid(), err) } else { return len(fds) } return -1 } // TruncIndex allows the retrieval of string identifiers by any of their unique prefixes. // This is used to retrieve image and container IDs by more convenient shorthand prefixes. type TruncIndex struct { index *suffixarray.Index ids map[string]bool bytes []byte } func NewTruncIndex() *TruncIndex { return &TruncIndex{ index: suffixarray.New([]byte{' '}), ids: make(map[string]bool), bytes: []byte{' '}, } } func (idx *TruncIndex) Add(id string) error { if strings.Contains(id, " ") { return fmt.Errorf("Illegal character: ' '") } if _, exists := idx.ids[id]; exists { return fmt.Errorf("Id already exists: %s", id) } idx.ids[id] = true idx.bytes = append(idx.bytes, []byte(id+" ")...) idx.index = suffixarray.New(idx.bytes) return nil } func (idx *TruncIndex) Delete(id string) error { if _, exists := idx.ids[id]; !exists { return fmt.Errorf("No such id: %s", id) } before, after, err := idx.lookup(id) if err != nil { return err } delete(idx.ids, id) idx.bytes = append(idx.bytes[:before], idx.bytes[after:]...) idx.index = suffixarray.New(idx.bytes) return nil } func (idx *TruncIndex) lookup(s string) (int, int, error) { offsets := idx.index.Lookup([]byte(" "+s), -1) //log.Printf("lookup(%s): %v (index bytes: '%s')\n", s, offsets, idx.index.Bytes()) if offsets == nil || len(offsets) == 0 || len(offsets) > 1 { return -1, -1, fmt.Errorf("No such id: %s", s) } offsetBefore := offsets[0] + 1 offsetAfter := offsetBefore + strings.Index(string(idx.bytes[offsetBefore:]), " ") return offsetBefore, offsetAfter, nil } func (idx *TruncIndex) Get(s string) (string, error) { before, after, err := idx.lookup(s) //log.Printf("Get(%s) bytes=|%s| before=|%d| after=|%d|\n", s, idx.bytes, before, after) if err != nil { return "", err } return string(idx.bytes[before:after]), err } // TruncateID returns a shorthand version of a string identifier for convenience. // A collision with other shorthands is very unlikely, but possible. // In case of a collision a lookup with TruncIndex.Get() will fail, and the caller // will need to use a langer prefix, or the full-length Id. func TruncateID(id string) string { shortLen := 12 if len(id) < shortLen { shortLen = len(id) } return id[:shortLen] } // Code c/c from io.Copy() modified to handle escape sequence func CopyEscapable(dst io.Writer, src io.ReadCloser) (written int64, err error) { buf := make([]byte, 32*1024) for { nr, er := src.Read(buf) if nr > 0 { // ---- Docker addition // char 16 is C-p if nr == 1 && buf[0] == 16 { nr, er = src.Read(buf) // char 17 is C-q if nr == 1 && buf[0] == 17 { if err := src.Close(); err != nil { return 0, err } return 0, io.EOF } } // ---- End of docker nw, ew := dst.Write(buf[0:nr]) if nw > 0 { written += int64(nw) } if ew != nil { err = ew break } if nr != nw { err = io.ErrShortWrite break } } if er == io.EOF { break } if er != nil { err = er break } } return written, err } func HashData(src io.Reader) (string, error) { h := sha256.New() if _, err := io.Copy(h, src); err != nil { return "", err } return "sha256:" + hex.EncodeToString(h.Sum(nil)), nil } type KernelVersionInfo struct { Kernel int Major int Minor int Flavor string } func (k *KernelVersionInfo) String() string { flavor := "" if len(k.Flavor) > 0 { flavor = fmt.Sprintf("-%s", k.Flavor) } return fmt.Sprintf("%d.%d.%d%s", k.Kernel, k.Major, k.Minor, flavor) } // Compare two KernelVersionInfo struct. // Returns -1 if a < b, = if a == b, 1 it a > b func CompareKernelVersion(a, b *KernelVersionInfo) int { if a.Kernel < b.Kernel { return -1 } else if a.Kernel > b.Kernel { return 1 } if a.Major < b.Major { return -1 } else if a.Major > b.Major { return 1 } if a.Minor < b.Minor { return -1 } else if a.Minor > b.Minor { return 1 } return 0 } func FindCgroupMountpoint(cgroupType string) (string, error) { output, err := ioutil.ReadFile("/proc/mounts") if err != nil { return "", err } // /proc/mounts has 6 fields per line, one mount per line, e.g. // cgroup /sys/fs/cgroup/devices cgroup rw,relatime,devices 0 0 for _, line := range strings.Split(string(output), "\n") { parts := strings.Split(line, " ") if len(parts) == 6 && parts[2] == "cgroup" { for _, opt := range strings.Split(parts[3], ",") { if opt == cgroupType { return parts[1], nil } } } } return "", fmt.Errorf("cgroup mountpoint not found for %s", cgroupType) } func GetKernelVersion() (*KernelVersionInfo, error) { var ( flavor string kernel, major, minor int err error ) uts, err := uname() if err != nil { return nil, err } release := make([]byte, len(uts.Release)) i := 0 for _, c := range uts.Release { release[i] = byte(c) i++ } // Remove the \x00 from the release for Atoi to parse correctly release = release[:bytes.IndexByte(release, 0)] tmp := strings.SplitN(string(release), "-", 2) tmp2 := strings.SplitN(tmp[0], ".", 3) if len(tmp2) > 0 { kernel, err = strconv.Atoi(tmp2[0]) if err != nil { return nil, err } } if len(tmp2) > 1 { major, err = strconv.Atoi(tmp2[1]) if err != nil { return nil, err } } if len(tmp2) > 2 { minor, err = strconv.Atoi(tmp2[2]) if err != nil { return nil, err } } if len(tmp) == 2 { flavor = tmp[1] } else { flavor = "" } return &KernelVersionInfo{ Kernel: kernel, Major: major, Minor: minor, Flavor: flavor, }, nil } // FIXME: this is deprecated by CopyWithTar in archive.go func CopyDirectory(source, dest string) error { if output, err := exec.Command("cp", "-ra", source, dest).CombinedOutput(); err != nil { return fmt.Errorf("Error copy: %s (%s)", err, output) } return nil } type NopFlusher struct{} func (f *NopFlusher) Flush() {} type WriteFlusher struct { w io.Writer flusher http.Flusher } func (wf *WriteFlusher) Write(b []byte) (n int, err error) { n, err = wf.w.Write(b) wf.flusher.Flush() return n, err } func NewWriteFlusher(w io.Writer) *WriteFlusher { var flusher http.Flusher if f, ok := w.(http.Flusher); ok { flusher = f } else { flusher = &NopFlusher{} } return &WriteFlusher{w: w, flusher: flusher} } type JSONMessage struct { Status string `json:"status,omitempty"` Progress string `json:"progress,omitempty"` Error string `json:"error,omitempty"` } type StreamFormatter struct { json bool used bool } func NewStreamFormatter(json bool) *StreamFormatter { return &StreamFormatter{json, false} } func (sf *StreamFormatter) FormatStatus(format string, a ...interface{}) []byte { sf.used = true str := fmt.Sprintf(format, a...) if sf.json { b, err := json.Marshal(&JSONMessage{Status: str}) if err != nil { return sf.FormatError(err) } return b } return []byte(str + "\r\n") } func (sf *StreamFormatter) FormatError(err error) []byte { sf.used = true if sf.json { if b, err := json.Marshal(&JSONMessage{Error: err.Error()}); err == nil { return b } return []byte("{\"error\":\"format error\"}") } return []byte("Error: " + err.Error() + "\r\n") } func (sf *StreamFormatter) FormatProgress(action, str string) []byte { sf.used = true if sf.json { b, err := json.Marshal(&JSONMessage{Status: action, Progress: str}) if err != nil { return nil } return b } return []byte(action + " " + str + "\r") } func (sf *StreamFormatter) Used() bool { return sf.used } func CheckLocalDns() bool { resolv, err := ioutil.ReadFile("/etc/resolv.conf") if err != nil { Debugf("Error openning resolv.conf: %s", err) return false } for _, ip := range []string{ "127.0.0.1", "127.0.1.1", } { if strings.Contains(string(resolv), ip) { return true } } return false } func ParseHost(host string, port int, addr string) string { if strings.HasPrefix(addr, "unix://") { return addr } if strings.HasPrefix(addr, "tcp://") { addr = strings.TrimPrefix(addr, "tcp://") } if strings.Contains(addr, ":") { hostParts := strings.Split(addr, ":") if len(hostParts) != 2 { log.Fatal("Invalid bind address format.") os.Exit(-1) } if hostParts[0] != "" { host = hostParts[0] } if p, err := strconv.Atoi(hostParts[1]); err == nil { port = p } } else { host = addr } return fmt.Sprintf("tcp://%s:%d", host, port) }