package slog import ( "context" "fmt" "log/slog" "os" "regexp" "runtime" "strconv" "sync" "go.unistack.org/micro/v3/logger" "go.unistack.org/micro/v3/semconv" "go.unistack.org/micro/v3/tracer" ) var reTrace = regexp.MustCompile(`.*/slog/logger\.go.*\n`) var ( traceValue = slog.StringValue("trace") debugValue = slog.StringValue("debug") infoValue = slog.StringValue("info") warnValue = slog.StringValue("warn") errorValue = slog.StringValue("error") fatalValue = slog.StringValue("fatal") ) func (s *slogLogger) renameAttr(_ []string, a slog.Attr) slog.Attr { switch a.Key { case slog.SourceKey: source := a.Value.Any().(*slog.Source) a.Value = slog.StringValue(source.File + ":" + strconv.Itoa(source.Line)) a.Key = s.opts.SourceKey case slog.TimeKey: a.Key = s.opts.TimeKey case slog.MessageKey: a.Key = s.opts.MessageKey case slog.LevelKey: level := a.Value.Any().(slog.Level) lvl := slogToLoggerLevel(level) a.Key = s.opts.LevelKey switch { case lvl < logger.DebugLevel: a.Value = traceValue case lvl < logger.InfoLevel: a.Value = debugValue case lvl < logger.WarnLevel: a.Value = infoValue case lvl < logger.ErrorLevel: a.Value = warnValue case lvl < logger.FatalLevel: a.Value = errorValue case lvl >= logger.FatalLevel: a.Value = fatalValue default: a.Value = infoValue } } return a } type slogLogger struct { leveler *slog.LevelVar handler slog.Handler opts logger.Options mu sync.RWMutex } func (s *slogLogger) Clone(opts ...logger.Option) logger.Logger { s.mu.RLock() options := s.opts s.mu.RUnlock() for _, o := range opts { o(&options) } l := &slogLogger{ opts: options, } l.leveler = new(slog.LevelVar) handleOpt := &slog.HandlerOptions{ ReplaceAttr: l.renameAttr, Level: l.leveler, AddSource: l.opts.AddSource, } l.leveler.Set(loggerToSlogLevel(l.opts.Level)) l.handler = slog.New(slog.NewJSONHandler(options.Out, handleOpt)).With(options.Fields...).Handler() return l } func (s *slogLogger) V(level logger.Level) bool { return s.opts.Level.Enabled(level) } func (s *slogLogger) Level(level logger.Level) { s.leveler.Set(loggerToSlogLevel(level)) } func (s *slogLogger) Options() logger.Options { return s.opts } func (s *slogLogger) Fields(attrs ...interface{}) logger.Logger { s.mu.RLock() level := s.leveler.Level() options := s.opts s.mu.RUnlock() l := &slogLogger{opts: options} l.leveler = new(slog.LevelVar) l.leveler.Set(level) handleOpt := &slog.HandlerOptions{ ReplaceAttr: l.renameAttr, Level: l.leveler, AddSource: l.opts.AddSource, } l.handler = slog.New(slog.NewJSONHandler(l.opts.Out, handleOpt)).With(attrs...).Handler() return l } func (s *slogLogger) Init(opts ...logger.Option) error { s.mu.Lock() if len(s.opts.ContextAttrFuncs) == 0 { s.opts.ContextAttrFuncs = logger.DefaultContextAttrFuncs } for _, o := range opts { o(&s.opts) } s.leveler = new(slog.LevelVar) handleOpt := &slog.HandlerOptions{ ReplaceAttr: s.renameAttr, Level: s.leveler, AddSource: s.opts.AddSource, } s.leveler.Set(loggerToSlogLevel(s.opts.Level)) s.handler = slog.New(slog.NewJSONHandler(s.opts.Out, handleOpt)).With(s.opts.Fields...).Handler() s.mu.Unlock() return nil } func (s *slogLogger) Log(ctx context.Context, lvl logger.Level, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", lvl.String()).Inc() if !s.V(lvl) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), loggerToSlogLevel(lvl), fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } if s.opts.AddStacktrace && lvl == logger.ErrorLevel { stackInfo := make([]byte, 1024*1024) if stackSize := runtime.Stack(stackInfo, false); stackSize > 0 { traceLines := reTrace.Split(string(stackInfo[:stackSize]), -1) if len(traceLines) != 0 { attrs = append(attrs, slog.String(s.opts.StacktraceKey, traceLines[len(traceLines)-1])) } } } r.Add(attrs[1:]...) r.Attrs(func(a slog.Attr) bool { if a.Key == s.opts.ErrorKey { if span, ok := tracer.SpanFromContext(ctx); ok { span.SetStatus(tracer.SpanStatusError, a.Value.String()) return false } } return true }) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Logf(ctx context.Context, lvl logger.Level, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", lvl.String()).Inc() if !s.V(lvl) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), loggerToSlogLevel(lvl), msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } if s.opts.AddStacktrace && lvl == logger.ErrorLevel { stackInfo := make([]byte, 1024*1024) if stackSize := runtime.Stack(stackInfo, false); stackSize > 0 { traceLines := reTrace.Split(string(stackInfo[:stackSize]), -1) if len(traceLines) != 0 { attrs = append(attrs, (slog.String(s.opts.StacktraceKey, traceLines[len(traceLines)-1]))) } } } r.Add(attrs[1:]...) r.Attrs(func(a slog.Attr) bool { if a.Key == s.opts.ErrorKey { if span, ok := tracer.SpanFromContext(ctx); ok { span.SetStatus(tracer.SpanStatusError, a.Value.String()) return false } } return true }) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Info(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.InfoLevel.String()).Inc() if !s.V(logger.InfoLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelInfo, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Infof(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.InfoLevel.String()).Inc() if !s.V(logger.InfoLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelInfo, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Debug(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.DebugLevel.String()).Inc() if !s.V(logger.DebugLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelDebug, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Debugf(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.DebugLevel.String()).Inc() if !s.V(logger.DebugLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelDebug, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Trace(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.TraceLevel.String()).Inc() if !s.V(logger.TraceLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelDebug-1, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Tracef(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.TraceLevel.String()).Inc() if !s.V(logger.TraceLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelDebug-1, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Error(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.ErrorLevel.String()).Inc() if !s.V(logger.ErrorLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelError, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } if s.opts.AddStacktrace { stackInfo := make([]byte, 1024*1024) if stackSize := runtime.Stack(stackInfo, false); stackSize > 0 { traceLines := reTrace.Split(string(stackInfo[:stackSize]), -1) if len(traceLines) != 0 { attrs = append(attrs, slog.String("stacktrace", traceLines[len(traceLines)-1])) } } } r.Add(attrs[1:]...) r.Attrs(func(a slog.Attr) bool { if a.Key == s.opts.ErrorKey { if span, ok := tracer.SpanFromContext(ctx); ok { span.SetStatus(tracer.SpanStatusError, a.Value.String()) return false } } return true }) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Errorf(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.ErrorLevel.String()).Inc() if !s.V(logger.ErrorLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelError, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } if s.opts.AddStacktrace { stackInfo := make([]byte, 1024*1024) if stackSize := runtime.Stack(stackInfo, false); stackSize > 0 { traceLines := reTrace.Split(string(stackInfo[:stackSize]), -1) if len(traceLines) != 0 { attrs = append(attrs, slog.String("stacktrace", traceLines[len(traceLines)-1])) } } } r.Add(attrs...) r.Attrs(func(a slog.Attr) bool { if a.Key == s.opts.ErrorKey { if span, ok := tracer.SpanFromContext(ctx); ok { span.SetStatus(tracer.SpanStatusError, a.Value.String()) return false } } return true }) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Fatal(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.FatalLevel.String()).Inc() if !s.V(logger.FatalLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelError+1, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) os.Exit(1) } func (s *slogLogger) Fatalf(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.FatalLevel.String()).Inc() if !s.V(logger.FatalLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelError+1, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs...) _ = s.handler.Handle(ctx, r) os.Exit(1) } func (s *slogLogger) Warn(ctx context.Context, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.WarnLevel.String()).Inc() if !s.V(logger.WarnLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelWarn, fmt.Sprintf("%s", attrs[0]), pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Warnf(ctx context.Context, msg string, attrs ...interface{}) { s.opts.Meter.Counter(semconv.LoggerMessageTotal, "level", logger.WarnLevel.String()).Inc() if !s.V(logger.WarnLevel) { return } var pcs [1]uintptr runtime.Callers(s.opts.CallerSkipCount, pcs[:]) // skip [Callers, Infof] r := slog.NewRecord(s.opts.TimeFunc(), slog.LevelWarn, msg, pcs[0]) for _, fn := range s.opts.ContextAttrFuncs { attrs = append(attrs, fn(ctx)...) } for idx, attr := range attrs { if ve, ok := attr.(error); ok && ve != nil { attrs[idx] = slog.String(s.opts.ErrorKey, ve.Error()) break } } r.Add(attrs[1:]...) _ = s.handler.Handle(ctx, r) } func (s *slogLogger) Name() string { return s.opts.Name } func (s *slogLogger) String() string { return "slog" } func NewLogger(opts ...logger.Option) logger.Logger { s := &slogLogger{ opts: logger.NewOptions(opts...), } return s } func loggerToSlogLevel(level logger.Level) slog.Level { switch level { case logger.DebugLevel: return slog.LevelDebug case logger.WarnLevel: return slog.LevelWarn case logger.ErrorLevel: return slog.LevelError case logger.TraceLevel: return slog.LevelDebug - 1 case logger.FatalLevel: return slog.LevelError + 1 default: return slog.LevelInfo } } func slogToLoggerLevel(level slog.Level) logger.Level { switch level { case slog.LevelDebug: return logger.DebugLevel case slog.LevelWarn: return logger.WarnLevel case slog.LevelError: return logger.ErrorLevel case slog.LevelDebug - 1: return logger.TraceLevel case slog.LevelError + 1: return logger.FatalLevel default: return logger.InfoLevel } }