package log import ( "bytes" "fmt" "io" "os" "runtime" "strings" "sync" "time" ) // These flags define which text to prefix to each log entry generated by the Logger. const ( // Bits or'ed together to control what's printed. There is no control over the // order they appear (the order listed here) or the format they present (as // described in the comments). A colon appears after these items: // 2009/0123 01:23:23.123123 /a/b/c/d.go:23: message Ldate = 1 << iota // the date: 2009/0123 Ltime // the time: 01:23:23 Lmicroseconds // microsecond resolution: 01:23:23.123123. assumes Ltime. Llongfile // full file name and line number: /a/b/c/d.go:23 Lshortfile // final file name element and line number: d.go:23. overrides Llongfile Lmodule // module name Llevel // level: 0(Debug), 1(Info), 2(Warn), 3(Error), 4(Panic), 5(Fatal) Llongcolor // color will start [info] end of line Lshortcolor // color only include [info] LstdFlags = Ldate | Ltime // initial values for the standard logger //Ldefault = Llevel | LstdFlags | Lshortfile | Llongcolor ) // [prefix][time][level][module][shortfile|longfile] func Ldefault() int { if runtime.GOOS == "windows" { return Llevel | LstdFlags | Lshortfile } return Llevel | LstdFlags | Lshortfile | Llongcolor } func Version() string { return "0.2.0.1121" } const ( Lall = iota ) const ( Ldebug = iota Linfo Lwarn Lerror Lpanic Lfatal Lnone ) const ( ForeBlack = iota + 30 //30 ForeRed //31 ForeGreen //32 ForeYellow //33 ForeBlue //34 ForePurple //35 ForeCyan //36 ForeWhite //37 ) const ( BackBlack = iota + 40 //40 BackRed //41 BackGreen //42 BackYellow //43 BackBlue //44 BackPurple //45 BackCyan //46 BackWhite //47 ) var levels = []string{ "[Debug]", "[Info]", "[Warn]", "[Error]", "[Panic]", "[Fatal]", } // MUST called before all logs func SetLevels(lvs []string) { levels = lvs } var colors = []int{ ForeCyan, ForeGreen, ForeYellow, ForeRed, ForePurple, ForeBlue, } // MUST called before all logs func SetColors(cls []int) { colors = cls } // A Logger represents an active logging object that generates lines of // output to an io.Writer. Each logging operation makes a single call to // the Writer's Write method. A Logger can be used simultaneously from // multiple goroutines; it guarantees to serialize access to the Writer. type Logger struct { mu sync.Mutex // ensures atomic writes; protects the following fields prefix string // prefix to write at beginning of each line flag int // properties Level int out io.Writer // destination for output buf bytes.Buffer // for accumulating text to write levelStats [6]int64 loc *time.Location } // New creates a new Logger. The out variable sets the // destination to which log data will be written. // The prefix appears at the beginning of each generated log line. // The flag argument defines the logging properties. func New(out io.Writer, prefix string, flag int) *Logger { l := &Logger{out: out, prefix: prefix, Level: 1, flag: flag, loc: time.Local} if out != os.Stdout { l.flag = RmColorFlags(l.flag) } return l } var Std = New(os.Stderr, "", Ldefault()) // Cheap integer to fixed-width decimal ASCII. Give a negative width to avoid zero-padding. // Knows the buffer has capacity. func itoa(buf *bytes.Buffer, i int, wid int) { var u uint = uint(i) if u == 0 && wid <= 1 { buf.WriteByte('0') return } // Assemble decimal in reverse order. var b [32]byte bp := len(b) for ; u > 0 || wid > 0; u /= 10 { bp-- wid-- b[bp] = byte(u%10) + '0' } // avoid slicing b to avoid an allocation. for bp < len(b) { buf.WriteByte(b[bp]) bp++ } } func moduleOf(file string) string { pos := strings.LastIndex(file, "/") if pos != -1 { pos1 := strings.LastIndex(file[:pos], "/src/") if pos1 != -1 { return file[pos1+5 : pos] } } return "UNKNOWN" } func (l *Logger) formatHeader(buf *bytes.Buffer, t time.Time, file string, line int, lvl int, reqId string) { if l.prefix != "" { buf.WriteString(l.prefix) } if l.flag&(Ldate|Ltime|Lmicroseconds) != 0 { if l.flag&Ldate != 0 { year, month, day := t.Date() itoa(buf, year, 4) buf.WriteByte('/') itoa(buf, int(month), 2) buf.WriteByte('/') itoa(buf, day, 2) buf.WriteByte(' ') } if l.flag&(Ltime|Lmicroseconds) != 0 { hour, min, sec := t.Clock() itoa(buf, hour, 2) buf.WriteByte(':') itoa(buf, min, 2) buf.WriteByte(':') itoa(buf, sec, 2) if l.flag&Lmicroseconds != 0 { buf.WriteByte('.') itoa(buf, t.Nanosecond()/1e3, 6) } buf.WriteByte(' ') } } if reqId != "" { buf.WriteByte('[') buf.WriteString(reqId) buf.WriteByte(']') buf.WriteByte(' ') } if l.flag&(Lshortcolor|Llongcolor) != 0 { buf.WriteString(fmt.Sprintf("\033[1;%dm", colors[lvl])) } if l.flag&Llevel != 0 { buf.WriteString(levels[lvl]) buf.WriteByte(' ') } if l.flag&Lshortcolor != 0 { buf.WriteString("\033[0m") } if l.flag&Lmodule != 0 { buf.WriteByte('[') buf.WriteString(moduleOf(file)) buf.WriteByte(']') buf.WriteByte(' ') } if l.flag&(Lshortfile|Llongfile) != 0 { if l.flag&Lshortfile != 0 { short := file for i := len(file) - 1; i > 0; i-- { if file[i] == '/' { short = file[i+1:] break } } file = short } buf.WriteString(file) buf.WriteByte(':') itoa(buf, line, -1) buf.WriteByte(' ') } } // Output writes the output for a logging event. The string s contains // the text to print after the prefix specified by the flags of the // Logger. A newline is appended if the last character of s is not // already a newline. Calldepth is used to recover the PC and is // provided for generality, although at the moment on all pre-defined // paths it will be 2. func (l *Logger) Output(reqId string, lvl int, calldepth int, s string) error { if lvl < l.Level { return nil } now := time.Now().In(l.loc) // get this early. var file string var line int l.mu.Lock() defer l.mu.Unlock() if l.flag&(Lshortfile|Llongfile|Lmodule) != 0 { // release lock while getting caller info - it's expensive. l.mu.Unlock() var ok bool _, file, line, ok = runtime.Caller(calldepth) if !ok { file = "???" line = 0 } l.mu.Lock() } l.levelStats[lvl]++ l.buf.Reset() l.formatHeader(&l.buf, now, file, line, lvl, reqId) l.buf.WriteString(s) if l.flag&Llongcolor != 0 { l.buf.WriteString("\033[0m") } if len(s) > 0 && s[len(s)-1] != '\n' { l.buf.WriteByte('\n') } _, err := l.out.Write(l.buf.Bytes()) return err } // ----------------------------------------- // Printf calls l.Output to print to the logger. // Arguments are handled in the manner of fmt.Printf. func (l *Logger) Printf(format string, v ...interface{}) { l.Output("", Linfo, 2, fmt.Sprintf(format, v...)) } // Print calls l.Output to print to the logger. // Arguments are handled in the manner of fmt.Print. func (l *Logger) Print(v ...interface{}) { l.Output("", Linfo, 2, fmt.Sprint(v...)) } // Println calls l.Output to print to the logger. // Arguments are handled in the manner of fmt.Println. func (l *Logger) Println(v ...interface{}) { l.Output("", Linfo, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func (l *Logger) Debugf(format string, v ...interface{}) { l.Output("", Ldebug, 2, fmt.Sprintf(format, v...)) } func (l *Logger) Debug(v ...interface{}) { l.Output("", Ldebug, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func (l *Logger) Infof(format string, v ...interface{}) { l.Output("", Linfo, 2, fmt.Sprintf(format, v...)) } func (l *Logger) Info(v ...interface{}) { l.Output("", Linfo, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func (l *Logger) Warnf(format string, v ...interface{}) { l.Output("", Lwarn, 2, fmt.Sprintf(format, v...)) } func (l *Logger) Warn(v ...interface{}) { l.Output("", Lwarn, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func (l *Logger) Errorf(format string, v ...interface{}) { l.Output("", Lerror, 2, fmt.Sprintf(format, v...)) } func (l *Logger) Error(v ...interface{}) { l.Output("", Lerror, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func (l *Logger) Fatal(v ...interface{}) { l.Output("", Lfatal, 2, fmt.Sprintln(v...)) os.Exit(1) } // Fatalf is equivalent to l.Printf() followed by a call to os.Exit(1). func (l *Logger) Fatalf(format string, v ...interface{}) { l.Output("", Lfatal, 2, fmt.Sprintf(format, v...)) os.Exit(1) } // ----------------------------------------- // Panic is equivalent to l.Print() followed by a call to panic(). func (l *Logger) Panic(v ...interface{}) { s := fmt.Sprintln(v...) l.Output("", Lpanic, 2, s) panic(s) } // Panicf is equivalent to l.Printf() followed by a call to panic(). func (l *Logger) Panicf(format string, v ...interface{}) { s := fmt.Sprintf(format, v...) l.Output("", Lpanic, 2, s) panic(s) } // ----------------------------------------- func (l *Logger) Stack(v ...interface{}) { s := fmt.Sprint(v...) s += "\n" buf := make([]byte, 1024*1024) n := runtime.Stack(buf, true) s += string(buf[:n]) s += "\n" l.Output("", Lerror, 2, s) } // ----------------------------------------- func (l *Logger) Stat() (stats []int64) { l.mu.Lock() v := l.levelStats l.mu.Unlock() return v[:] } // Flags returns the output flags for the logger. func (l *Logger) Flags() int { l.mu.Lock() defer l.mu.Unlock() return l.flag } func RmColorFlags(flag int) int { // for un std out, it should not show color since almost them don't support if flag&Llongcolor != 0 { flag = flag ^ Llongcolor } if flag&Lshortcolor != 0 { flag = flag ^ Lshortcolor } return flag } func (l *Logger) Location() *time.Location { return l.loc } func (l *Logger) SetLocation(loc *time.Location) { l.loc = loc } // SetFlags sets the output flags for the logger. func (l *Logger) SetFlags(flag int) { l.mu.Lock() defer l.mu.Unlock() if l.out != os.Stdout { flag = RmColorFlags(flag) } l.flag = flag } // Prefix returns the output prefix for the logger. func (l *Logger) Prefix() string { l.mu.Lock() defer l.mu.Unlock() return l.prefix } // SetPrefix sets the output prefix for the logger. func (l *Logger) SetPrefix(prefix string) { l.mu.Lock() defer l.mu.Unlock() l.prefix = prefix } // SetOutputLevel sets the output level for the logger. func (l *Logger) SetOutputLevel(lvl int) { l.mu.Lock() defer l.mu.Unlock() l.Level = lvl } func (l *Logger) OutputLevel() int { return l.Level } func (l *Logger) SetOutput(w io.Writer) { l.mu.Lock() defer l.mu.Unlock() l.out = w if w != os.Stdout { l.flag = RmColorFlags(l.flag) } } // SetOutput sets the output destination for the standard logger. func SetOutput(w io.Writer) { Std.SetOutput(w) } func SetLocation(loc *time.Location) { Std.SetLocation(loc) } func Location() *time.Location { return Std.Location() } // Flags returns the output flags for the standard logger. func Flags() int { return Std.Flags() } // SetFlags sets the output flags for the standard logger. func SetFlags(flag int) { Std.SetFlags(flag) } // Prefix returns the output prefix for the standard logger. func Prefix() string { return Std.Prefix() } // SetPrefix sets the output prefix for the standard logger. func SetPrefix(prefix string) { Std.SetPrefix(prefix) } func SetOutputLevel(lvl int) { Std.SetOutputLevel(lvl) } func OutputLevel() int { return Std.OutputLevel() } // ----------------------------------------- // Print calls Output to print to the standard logger. // Arguments are handled in the manner of fmt.Print. func Print(v ...interface{}) { Std.Output("", Linfo, 2, fmt.Sprintln(v...)) } // Printf calls Output to print to the standard logger. // Arguments are handled in the manner of fmt.Printf. func Printf(format string, v ...interface{}) { Std.Output("", Linfo, 2, fmt.Sprintf(format, v...)) } // Println calls Output to print to the standard logger. // Arguments are handled in the manner of fmt.Println. func Println(v ...interface{}) { Std.Output("", Linfo, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func Debugf(format string, v ...interface{}) { Std.Output("", Ldebug, 2, fmt.Sprintf(format, v...)) } func Debug(v ...interface{}) { Std.Output("", Ldebug, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func Infof(format string, v ...interface{}) { Std.Output("", Linfo, 2, fmt.Sprintf(format, v...)) } func Info(v ...interface{}) { Std.Output("", Linfo, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func Warnf(format string, v ...interface{}) { Std.Output("", Lwarn, 2, fmt.Sprintf(format, v...)) } func Warn(v ...interface{}) { Std.Output("", Lwarn, 2, fmt.Sprintln(v...)) } // ----------------------------------------- func Errorf(format string, v ...interface{}) { Std.Output("", Lerror, 2, fmt.Sprintf(format, v...)) } func Error(v ...interface{}) { Std.Output("", Lerror, 2, fmt.Sprintln(v...)) } // ----------------------------------------- // Fatal is equivalent to Print() followed by a call to os.Exit(1). func Fatal(v ...interface{}) { Std.Output("", Lfatal, 2, fmt.Sprintln(v...)) } // Fatalf is equivalent to Printf() followed by a call to os.Exit(1). func Fatalf(format string, v ...interface{}) { Std.Output("", Lfatal, 2, fmt.Sprintf(format, v...)) } // ----------------------------------------- // Panic is equivalent to Print() followed by a call to panic(). func Panic(v ...interface{}) { Std.Output("", Lpanic, 2, fmt.Sprintln(v...)) } // Panicf is equivalent to Printf() followed by a call to panic(). func Panicf(format string, v ...interface{}) { Std.Output("", Lpanic, 2, fmt.Sprintf(format, v...)) } // ----------------------------------------- func Stack(v ...interface{}) { s := fmt.Sprint(v...) s += "\n" buf := make([]byte, 1024*1024) n := runtime.Stack(buf, true) s += string(buf[:n]) s += "\n" Std.Output("", Lerror, 2, s) } // -----------------------------------------