package msgpack import ( "fmt" "math" "reflect" "github.com/vmihailenco/msgpack/v5/msgpcode" ) type extInfo struct { Type reflect.Type Decoder func(d *Decoder, v reflect.Value, extLen int) error } var extTypes = make(map[int8]*extInfo) type MarshalerUnmarshaler interface { Marshaler Unmarshaler } func RegisterExt(extID int8, value MarshalerUnmarshaler) { RegisterExtEncoder(extID, value, func(e *Encoder, v reflect.Value) ([]byte, error) { marshaler := v.Interface().(Marshaler) return marshaler.MarshalMsgpack() }) RegisterExtDecoder(extID, value, func(d *Decoder, v reflect.Value, extLen int) error { b, err := d.readN(extLen) if err != nil { return err } return v.Interface().(Unmarshaler).UnmarshalMsgpack(b) }) } func UnregisterExt(extID int8) { unregisterExtEncoder(extID) unregisterExtDecoder(extID) } func RegisterExtEncoder( extID int8, value interface{}, encoder func(enc *Encoder, v reflect.Value) ([]byte, error), ) { unregisterExtEncoder(extID) typ := reflect.TypeOf(value) extEncoder := makeExtEncoder(extID, typ, encoder) typeEncMap.Store(extID, typ) typeEncMap.Store(typ, extEncoder) if typ.Kind() == reflect.Ptr { typeEncMap.Store(typ.Elem(), makeExtEncoderAddr(extEncoder)) } } func unregisterExtEncoder(extID int8) { t, ok := typeEncMap.Load(extID) if !ok { return } typeEncMap.Delete(extID) typ := t.(reflect.Type) typeEncMap.Delete(typ) if typ.Kind() == reflect.Ptr { typeEncMap.Delete(typ.Elem()) } } func makeExtEncoder( extID int8, typ reflect.Type, encoder func(enc *Encoder, v reflect.Value) ([]byte, error), ) encoderFunc { nilable := typ.Kind() == reflect.Ptr return func(e *Encoder, v reflect.Value) error { if nilable && v.IsNil() { return e.EncodeNil() } b, err := encoder(e, v) if err != nil { return err } if err := e.EncodeExtHeader(extID, len(b)); err != nil { return err } return e.write(b) } } func makeExtEncoderAddr(extEncoder encoderFunc) encoderFunc { return func(e *Encoder, v reflect.Value) error { if !v.CanAddr() { return fmt.Errorf("msgpack: Decode(nonaddressable %T)", v.Interface()) } return extEncoder(e, v.Addr()) } } func RegisterExtDecoder( extID int8, value interface{}, decoder func(dec *Decoder, v reflect.Value, extLen int) error, ) { unregisterExtDecoder(extID) typ := reflect.TypeOf(value) extDecoder := makeExtDecoder(extID, typ, decoder) extTypes[extID] = &extInfo{ Type: typ, Decoder: decoder, } typeDecMap.Store(extID, typ) typeDecMap.Store(typ, extDecoder) if typ.Kind() == reflect.Ptr { typeDecMap.Store(typ.Elem(), makeExtDecoderAddr(extDecoder)) } } func unregisterExtDecoder(extID int8) { t, ok := typeDecMap.Load(extID) if !ok { return } typeDecMap.Delete(extID) delete(extTypes, extID) typ := t.(reflect.Type) typeDecMap.Delete(typ) if typ.Kind() == reflect.Ptr { typeDecMap.Delete(typ.Elem()) } } func makeExtDecoder( wantedExtID int8, typ reflect.Type, decoder func(d *Decoder, v reflect.Value, extLen int) error, ) decoderFunc { return nilAwareDecoder(typ, func(d *Decoder, v reflect.Value) error { extID, extLen, err := d.DecodeExtHeader() if err != nil { return err } if extID != wantedExtID { return fmt.Errorf("msgpack: got ext type=%d, wanted %d", extID, wantedExtID) } return decoder(d, v, extLen) }) } func makeExtDecoderAddr(extDecoder decoderFunc) decoderFunc { return func(d *Decoder, v reflect.Value) error { if !v.CanAddr() { return fmt.Errorf("msgpack: Decode(nonaddressable %T)", v.Interface()) } return extDecoder(d, v.Addr()) } } func (e *Encoder) EncodeExtHeader(extID int8, extLen int) error { if err := e.encodeExtLen(extLen); err != nil { return err } if err := e.w.WriteByte(byte(extID)); err != nil { return err } return nil } func (e *Encoder) encodeExtLen(l int) error { switch l { case 1: return e.writeCode(msgpcode.FixExt1) case 2: return e.writeCode(msgpcode.FixExt2) case 4: return e.writeCode(msgpcode.FixExt4) case 8: return e.writeCode(msgpcode.FixExt8) case 16: return e.writeCode(msgpcode.FixExt16) } if l <= math.MaxUint8 { return e.write1(msgpcode.Ext8, uint8(l)) } if l <= math.MaxUint16 { return e.write2(msgpcode.Ext16, uint16(l)) } return e.write4(msgpcode.Ext32, uint32(l)) } func (d *Decoder) DecodeExtHeader() (extID int8, extLen int, err error) { c, err := d.readCode() if err != nil { return } return d.extHeader(c) } func (d *Decoder) extHeader(c byte) (int8, int, error) { extLen, err := d.parseExtLen(c) if err != nil { return 0, 0, err } extID, err := d.readCode() if err != nil { return 0, 0, err } return int8(extID), extLen, nil } func (d *Decoder) parseExtLen(c byte) (int, error) { switch c { case msgpcode.FixExt1: return 1, nil case msgpcode.FixExt2: return 2, nil case msgpcode.FixExt4: return 4, nil case msgpcode.FixExt8: return 8, nil case msgpcode.FixExt16: return 16, nil case msgpcode.Ext8: n, err := d.uint8() return int(n), err case msgpcode.Ext16: n, err := d.uint16() return int(n), err case msgpcode.Ext32: n, err := d.uint32() return int(n), err default: return 0, fmt.Errorf("msgpack: invalid code=%x decoding ext len", c) } } func (d *Decoder) decodeInterfaceExt(c byte) (interface{}, error) { extID, extLen, err := d.extHeader(c) if err != nil { return nil, err } info, ok := extTypes[extID] if !ok { return nil, fmt.Errorf("msgpack: unknown ext id=%d", extID) } v := reflect.New(info.Type).Elem() if nilable(v.Kind()) && v.IsNil() { v.Set(reflect.New(info.Type.Elem())) } if err := info.Decoder(d, v, extLen); err != nil { return nil, err } return v.Interface(), nil } func (d *Decoder) skipExt(c byte) error { n, err := d.parseExtLen(c) if err != nil { return err } return d.skipN(n + 1) } func (d *Decoder) skipExtHeader(c byte) error { // Read ext type. _, err := d.readCode() if err != nil { return err } // Read ext body len. for i := 0; i < extHeaderLen(c); i++ { _, err := d.readCode() if err != nil { return err } } return nil } func extHeaderLen(c byte) int { switch c { case msgpcode.Ext8: return 1 case msgpcode.Ext16: return 2 case msgpcode.Ext32: return 4 } return 0 }