// Copyright 2023 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package log import ( "bytes" "fmt" "strings" "time" ) type Event struct { Time time.Time GoroutinePid string Caller string Filename string Line int Level Level MsgSimpleText string msgFormat string // the format and args is only valid in the caller's goroutine msgArgs []any // they are discarded before the event is passed to the writer's channel Stacktrace string } type EventFormatted struct { Origin *Event Msg any // the message formatted by the writer's formatter, the writer knows its type } type EventFormatter func(mode *WriterMode, event *Event, msgFormat string, msgArgs ...any) []byte type logStringFormatter struct { v LogStringer } var _ fmt.Formatter = logStringFormatter{} func (l logStringFormatter) Format(f fmt.State, verb rune) { if f.Flag('#') && verb == 'v' { _, _ = fmt.Fprintf(f, "%#v", l.v) return } _, _ = f.Write([]byte(l.v.LogString())) } // Copy of cheap integer to fixed-width decimal to ascii from logger. // TODO: legacy bugs: doesn't support negative number, overflow if wid it too large. func itoa(buf []byte, i, wid int) []byte { var s [20]byte bp := len(s) - 1 for i >= 10 || wid > 1 { wid-- q := i / 10 s[bp] = byte('0' + i - q*10) bp-- i = q } // i < 10 s[bp] = byte('0' + i) return append(buf, s[bp:]...) } func colorSprintf(colorize bool, format string, args ...any) string { hasColorValue := false for _, v := range args { if _, hasColorValue = v.(*ColoredValue); hasColorValue { break } } if colorize || !hasColorValue { return fmt.Sprintf(format, args...) } noColors := make([]any, len(args)) copy(noColors, args) for i, v := range args { if cv, ok := v.(*ColoredValue); ok { noColors[i] = cv.v } } return fmt.Sprintf(format, noColors...) } // EventFormatTextMessage makes the log message for a writer with its mode. This function is a copy of the original package func EventFormatTextMessage(mode *WriterMode, event *Event, msgFormat string, msgArgs ...any) []byte { buf := make([]byte, 0, 1024) buf = append(buf, mode.Prefix...) t := event.Time flags := mode.Flags.Bits() if flags&(Ldate|Ltime|Lmicroseconds) != 0 { if mode.Colorize { buf = append(buf, fgCyanBytes...) } if flags&LUTC != 0 { t = t.UTC() } if flags&Ldate != 0 { year, month, day := t.Date() buf = itoa(buf, year, 4) buf = append(buf, '/') buf = itoa(buf, int(month), 2) buf = append(buf, '/') buf = itoa(buf, day, 2) buf = append(buf, ' ') } if flags&(Ltime|Lmicroseconds) != 0 { hour, minNum, sec := t.Clock() buf = itoa(buf, hour, 2) buf = append(buf, ':') buf = itoa(buf, minNum, 2) buf = append(buf, ':') buf = itoa(buf, sec, 2) if flags&Lmicroseconds != 0 { buf = append(buf, '.') buf = itoa(buf, t.Nanosecond()/1e3, 6) } buf = append(buf, ' ') } if mode.Colorize { buf = append(buf, resetBytes...) } } if flags&(Lshortfile|Llongfile) != 0 { if mode.Colorize { buf = append(buf, fgGreenBytes...) } file := event.Filename if flags&Lmedfile == Lmedfile { startIndex := len(file) - 20 if startIndex > 0 { file = "..." + file[startIndex:] } } else if flags&Lshortfile != 0 { startIndex := strings.LastIndexByte(file, '/') if startIndex > 0 && startIndex < len(file) { file = file[startIndex+1:] } } buf = append(buf, file...) buf = append(buf, ':') buf = itoa(buf, event.Line, -1) if flags&(Lfuncname|Lshortfuncname) != 0 { buf = append(buf, ':') } else { if mode.Colorize { buf = append(buf, resetBytes...) } buf = append(buf, ' ') } } if flags&(Lfuncname|Lshortfuncname) != 0 { if mode.Colorize { buf = append(buf, fgGreenBytes...) } funcname := event.Caller if flags&Lshortfuncname != 0 { lastIndex := strings.LastIndexByte(funcname, '.') if lastIndex > 0 && len(funcname) > lastIndex+1 { funcname = funcname[lastIndex+1:] } } buf = append(buf, funcname...) if mode.Colorize { buf = append(buf, resetBytes...) } buf = append(buf, ' ') } if flags&(Llevel|Llevelinitial) != 0 { level := strings.ToUpper(event.Level.String()) if mode.Colorize { buf = append(buf, ColorBytes(levelToColor[event.Level]...)...) } buf = append(buf, '[') if flags&Llevelinitial != 0 { buf = append(buf, level[0]) } else { buf = append(buf, level...) } buf = append(buf, ']') if mode.Colorize { buf = append(buf, resetBytes...) } buf = append(buf, ' ') } var msg []byte // if the log needs colorizing, do it if mode.Colorize && len(msgArgs) > 0 { hasColorValue := false for _, v := range msgArgs { if _, hasColorValue = v.(*ColoredValue); hasColorValue { break } } if hasColorValue { msg = []byte(fmt.Sprintf(msgFormat, msgArgs...)) } } // try to re-use the pre-formatted simple text message if len(msg) == 0 { msg = []byte(event.MsgSimpleText) } // if still no message, do the normal Sprintf for the message if len(msg) == 0 { msg = []byte(colorSprintf(mode.Colorize, msgFormat, msgArgs...)) } // remove at most one trailing new line if len(msg) > 0 && msg[len(msg)-1] == '\n' { msg = msg[:len(msg)-1] } if flags&Lgopid == Lgopid { if event.GoroutinePid != "" { buf = append(buf, '[') if mode.Colorize { buf = append(buf, ColorBytes(FgHiYellow)...) } buf = append(buf, event.GoroutinePid...) if mode.Colorize { buf = append(buf, resetBytes...) } buf = append(buf, ']', ' ') } } buf = append(buf, msg...) if event.Stacktrace != "" && mode.StacktraceLevel <= event.Level { lines := bytes.Split([]byte(event.Stacktrace), []byte("\n")) for _, line := range lines { buf = append(buf, "\n\t"...) buf = append(buf, line...) } buf = append(buf, '\n') } buf = append(buf, '\n') return buf }