package encoder import ( "encoding/base64" "encoding/json" "fmt" "math" "sync" "time" "unicode/utf8" "github.com/ehlxr/log/bufferpool" "go.uber.org/zap/buffer" "go.uber.org/zap/zapcore" ) const _hex = "0123456789abcdef" var ( _arrayEncoderPool = sync.Pool{ New: func() interface{} { return &arrayEncoder{elems: make([]interface{}, 0, 2)} }} _textPool = sync.Pool{New: func() interface{} { return &textEncoder{} }} ) func getTextEncoder() *textEncoder { return _textPool.Get().(*textEncoder) } func getSliceEncoder() *arrayEncoder { return _arrayEncoderPool.Get().(*arrayEncoder) } func putSliceEncoder(e *arrayEncoder) { e.elems = e.elems[:0] _arrayEncoderPool.Put(e) } type textEncoder struct { *zapcore.EncoderConfig buf *buffer.Buffer spaced bool // include spaces after colons and commas openNamespaces int // for encoding generic values by reflection reflectBuf *buffer.Buffer reflectEnc *json.Encoder } func NewTextEncoder(cfg zapcore.EncoderConfig) zapcore.Encoder { return &textEncoder{ EncoderConfig: &cfg, buf: bufferpool.Get(), spaced: false, } } func (enc textEncoder) EncodeEntry(ent zapcore.Entry, fields []zapcore.Field) (*buffer.Buffer, error) { line := bufferpool.Get() // If this ever becomes a performance bottleneck, we can implement // ArrayEncoder for our plain-text format. arr := getSliceEncoder() if enc.TimeKey != "" && enc.EncodeTime != nil { enc.EncodeTime(ent.Time, arr) } if enc.LevelKey != "" && enc.EncodeLevel != nil { enc.EncodeLevel(ent.Level, arr) } if ent.LoggerName != "" && enc.NameKey != "" { nameEncoder := enc.EncodeName if nameEncoder == nil { // Fall back to FullNameEncoder for backward compatibility. nameEncoder = zapcore.FullNameEncoder } nameEncoder(ent.LoggerName, arr) } if ent.Caller.Defined && enc.CallerKey != "" && enc.EncodeCaller != nil { enc.EncodeCaller(ent.Caller, arr) } for i := range arr.elems { // if i > 0 { // line.AppendByte('\t') // } _, _ = fmt.Fprint(line, arr.elems[i]) } putSliceEncoder(arr) // Add the message itself. if enc.MessageKey != "" { // c.addTabIfNecessary(line) line.AppendString(" - ") line.AppendString(ent.Message) } // Add any structured context. enc.writeContext(line, fields) // If there's no stacktrace key, honor that; this allows users to force // single-line output. if ent.Stack != "" && enc.StacktraceKey != "" { line.AppendByte('\n') line.AppendString(ent.Stack) } if enc.LineEnding != "" { line.AppendString(enc.LineEnding) } else { line.AppendString(zapcore.DefaultLineEnding) } return line, nil } func (enc textEncoder) writeContext(line *buffer.Buffer, extra []zapcore.Field) { context := enc.Clone().(*textEncoder) defer context.buf.Free() addFields(context, extra) // context.closeOpenNamespaces() if context.buf.Len() == 0 { return } // c.addTabIfNecessary(line) line.AppendByte('{') _, _ = line.Write(context.buf.Bytes()) line.AppendByte('}') } func (enc textEncoder) addTabIfNecessary(line *buffer.Buffer) { if line.Len() > 0 { line.AppendByte('\t') } } func (enc *textEncoder) resetReflectBuf() { if enc.reflectBuf == nil { enc.reflectBuf = bufferpool.Get() enc.reflectEnc = json.NewEncoder(enc.reflectBuf) // For consistency with our custom JSON encoder. enc.reflectEnc.SetEscapeHTML(false) } else { enc.reflectBuf.Reset() } } func (enc *textEncoder) AddArray(key string, arr zapcore.ArrayMarshaler) error { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendByte('[') // TODO: // err := arr.MarshalLogArray(enc) enc.buf.AppendByte(']') // return err return nil } func (enc *textEncoder) AddObject(key string, obj zapcore.ObjectMarshaler) error { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendByte('{') err := obj.MarshalLogObject(enc) enc.buf.AppendByte('}') return err } func (enc *textEncoder) AddBinary(key string, val []byte) { enc.AddString(key, base64.StdEncoding.EncodeToString(val)) } func (enc *textEncoder) AddByteString(key string, val []byte) { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendByte('"') enc.safeAddByteString(val) enc.buf.AppendByte('"') } func (enc *textEncoder) AddBool(key string, val bool) { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendBool(val) } //noinspection GoRedundantConversion func (enc *textEncoder) AddComplex128(key string, val complex128) { enc.addKey(key) enc.addElementSeparator() // Cast to a platform-independent, fixed-size type. r, i := float64(real(val)), float64(imag(val)) enc.buf.AppendByte('"') // Because we're always in a quoted string, we can use strconv without // special-casing NaN and +/-Inf. enc.buf.AppendFloat(r, 64) enc.buf.AppendByte('+') enc.buf.AppendFloat(i, 64) enc.buf.AppendByte('i') enc.buf.AppendByte('"') } func (enc *textEncoder) AddDuration(key string, val time.Duration) { enc.addKey(key) cur := enc.buf.Len() // TODO: // enc.EncodeDuration(val, enc) if cur == enc.buf.Len() { // User-supplied EncodeDuration is a no-op. Fall back to nanoseconds to keep // JSON valid. enc.addElementSeparator() enc.buf.AppendInt(int64(val)) } } func (enc *textEncoder) AddFloat64(key string, val float64) { enc.addKey(key) enc.appendFloat(val, 64) } func (enc *textEncoder) AddInt64(key string, val int64) { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendInt(val) } func (enc *textEncoder) AddReflected(key string, obj interface{}) error { enc.resetReflectBuf() err := enc.reflectEnc.Encode(obj) if err != nil { return err } enc.reflectBuf.TrimNewline() enc.addKey(key) _, err = enc.buf.Write(enc.reflectBuf.Bytes()) return err } func (enc *textEncoder) OpenNamespace(key string) { enc.addKey(key) enc.buf.AppendByte('{') enc.openNamespaces++ } func (enc *textEncoder) AddString(key, val string) { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendByte('"') enc.safeAddString(val) enc.buf.AppendByte('"') } func (enc *textEncoder) AddTime(key string, val time.Time) { enc.addKey(key) cur := enc.buf.Len() // TODO: // enc.EncodeTime(val, enc) if cur == enc.buf.Len() { // User-supplied EncodeTime is a no-op. Fall back to nanos since epoch to keep // output JSON valid. enc.addElementSeparator() enc.buf.AppendInt(val.UnixNano()) } } func (enc *textEncoder) AddUint64(key string, val uint64) { enc.addKey(key) enc.addElementSeparator() enc.buf.AppendUint(val) } //noinspection GoRedundantConversion func (enc *textEncoder) AddComplex64(k string, v complex64) { enc.AddComplex128(k, complex128(v)) } func (enc *textEncoder) AddFloat32(k string, v float32) { enc.AddFloat64(k, float64(v)) } func (enc *textEncoder) AddInt(k string, v int) { enc.AddInt64(k, int64(v)) } func (enc *textEncoder) AddInt32(k string, v int32) { enc.AddInt64(k, int64(v)) } func (enc *textEncoder) AddInt16(k string, v int16) { enc.AddInt64(k, int64(v)) } func (enc *textEncoder) AddInt8(k string, v int8) { enc.AddInt64(k, int64(v)) } func (enc *textEncoder) AddUint(k string, v uint) { enc.AddUint64(k, uint64(v)) } func (enc *textEncoder) AddUint32(k string, v uint32) { enc.AddUint64(k, uint64(v)) } func (enc *textEncoder) AddUint16(k string, v uint16) { enc.AddUint64(k, uint64(v)) } func (enc *textEncoder) AddUint8(k string, v uint8) { enc.AddUint64(k, uint64(v)) } func (enc *textEncoder) AddUintptr(k string, v uintptr) { enc.AddUint64(k, uint64(v)) } func (enc *textEncoder) Clone() zapcore.Encoder { clone := enc.clone() _, _ = clone.buf.Write(enc.buf.Bytes()) return clone } func (enc *textEncoder) clone() *textEncoder { clone := getTextEncoder() clone.EncoderConfig = enc.EncoderConfig clone.spaced = enc.spaced clone.openNamespaces = enc.openNamespaces clone.buf = bufferpool.Get() return clone } func (enc *textEncoder) addKey(key string) { enc.addElementSeparator() enc.buf.AppendByte('"') enc.safeAddString(key) enc.buf.AppendByte('"') enc.buf.AppendByte(':') if enc.spaced { enc.buf.AppendByte(' ') } } func (enc *textEncoder) addElementSeparator() { last := enc.buf.Len() - 1 if last < 0 { return } switch enc.buf.Bytes()[last] { case '{', '[', ':', ',', ' ': return default: enc.buf.AppendByte(',') if enc.spaced { enc.buf.AppendByte(' ') } } } func (enc *textEncoder) appendFloat(val float64, bitSize int) { enc.addElementSeparator() switch { case math.IsNaN(val): enc.buf.AppendString(`"NaN"`) case math.IsInf(val, 1): enc.buf.AppendString(`"+Inf"`) case math.IsInf(val, -1): enc.buf.AppendString(`"-Inf"`) default: enc.buf.AppendFloat(val, bitSize) } } func (enc *textEncoder) safeAddString(s string) { for i := 0; i < len(s); { if enc.tryAddRuneSelf(s[i]) { i++ continue } r, size := utf8.DecodeRuneInString(s[i:]) if enc.tryAddRuneError(r, size) { i++ continue } enc.buf.AppendString(s[i : i+size]) i += size } } func (enc *textEncoder) safeAddByteString(s []byte) { for i := 0; i < len(s); { if enc.tryAddRuneSelf(s[i]) { i++ continue } r, size := utf8.DecodeRune(s[i:]) if enc.tryAddRuneError(r, size) { i++ continue } _, _ = enc.buf.Write(s[i : i+size]) i += size } } func (enc *textEncoder) tryAddRuneSelf(b byte) bool { if b >= utf8.RuneSelf { return false } if 0x20 <= b && b != '\\' && b != '"' { enc.buf.AppendByte(b) return true } switch b { case '\\', '"': enc.buf.AppendByte('\\') enc.buf.AppendByte(b) case '\n': enc.buf.AppendByte('\\') enc.buf.AppendByte('n') case '\r': enc.buf.AppendByte('\\') enc.buf.AppendByte('r') case '\t': enc.buf.AppendByte('\\') enc.buf.AppendByte('t') default: // Encode bytes < 0x20, except for the escape sequences above. enc.buf.AppendString(`\u00`) enc.buf.AppendByte(_hex[b>>4]) enc.buf.AppendByte(_hex[b&0xF]) } return true } func (enc *textEncoder) tryAddRuneError(r rune, size int) bool { if r == utf8.RuneError && size == 1 { enc.buf.AppendString(`\ufffd`) return true } return false } func addFields(enc zapcore.ObjectEncoder, fields []zapcore.Field) { for i := range fields { fields[i].AddTo(enc) } } type arrayEncoder struct { elems []interface{} } func (s *arrayEncoder) AppendArray(v zapcore.ArrayMarshaler) error { enc := &arrayEncoder{} err := v.MarshalLogArray(enc) s.elems = append(s.elems, enc.elems) return err } func (s *arrayEncoder) AppendObject(v zapcore.ObjectMarshaler) error { m := zapcore.NewMapObjectEncoder() err := v.MarshalLogObject(m) s.elems = append(s.elems, m.Fields) return err } func (s *arrayEncoder) AppendReflected(v interface{}) error { s.elems = append(s.elems, v) return nil } func (s *arrayEncoder) AppendBool(v bool) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendByteString(v []byte) { s.elems = append(s.elems, string(v)) } func (s *arrayEncoder) AppendComplex128(v complex128) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendComplex64(v complex64) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendDuration(v time.Duration) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendFloat64(v float64) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendFloat32(v float32) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendInt(v int) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendInt64(v int64) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendInt32(v int32) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendInt16(v int16) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendInt8(v int8) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendString(v string) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendTime(v time.Time) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUint(v uint) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUint64(v uint64) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUint32(v uint32) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUint16(v uint16) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUint8(v uint8) { s.elems = append(s.elems, v) } func (s *arrayEncoder) AppendUintptr(v uintptr) { s.elems = append(s.elems, v) }