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- // Go support for Protocol Buffers - Google's data interchange format
- //
- // Copyright 2010 The Go Authors. All rights reserved.
- // https://github.com/golang/protobuf
- //
- // Redistribution and use in source and binary forms, with or without
- // modification, are permitted provided that the following conditions are
- // met:
- //
- // * Redistributions of source code must retain the above copyright
- // notice, this list of conditions and the following disclaimer.
- // * Redistributions in binary form must reproduce the above
- // copyright notice, this list of conditions and the following disclaimer
- // in the documentation and/or other materials provided with the
- // distribution.
- // * Neither the name of Google Inc. nor the names of its
- // contributors may be used to endorse or promote products derived from
- // this software without specific prior written permission.
- //
- // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
- // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
- // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
- // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
- // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
- // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
- // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
- // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
- // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
- // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
- // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- package proto
- /*
- * Routines for decoding protocol buffer data to construct in-memory representations.
- */
- import (
- "errors"
- "fmt"
- "io"
- "os"
- "reflect"
- )
- // errOverflow is returned when an integer is too large to be represented.
- var errOverflow = errors.New("proto: integer overflow")
- // ErrInternalBadWireType is returned by generated code when an incorrect
- // wire type is encountered. It does not get returned to user code.
- var ErrInternalBadWireType = errors.New("proto: internal error: bad wiretype for oneof")
- // The fundamental decoders that interpret bytes on the wire.
- // Those that take integer types all return uint64 and are
- // therefore of type valueDecoder.
- // DecodeVarint reads a varint-encoded integer from the slice.
- // It returns the integer and the number of bytes consumed, or
- // zero if there is not enough.
- // This is the format for the
- // int32, int64, uint32, uint64, bool, and enum
- // protocol buffer types.
- func DecodeVarint(buf []byte) (x uint64, n int) {
- for shift := uint(0); shift < 64; shift += 7 {
- if n >= len(buf) {
- return 0, 0
- }
- b := uint64(buf[n])
- n++
- x |= (b & 0x7F) << shift
- if (b & 0x80) == 0 {
- return x, n
- }
- }
- // The number is too large to represent in a 64-bit value.
- return 0, 0
- }
- func (p *Buffer) decodeVarintSlow() (x uint64, err error) {
- i := p.index
- l := len(p.buf)
- for shift := uint(0); shift < 64; shift += 7 {
- if i >= l {
- err = io.ErrUnexpectedEOF
- return
- }
- b := p.buf[i]
- i++
- x |= (uint64(b) & 0x7F) << shift
- if b < 0x80 {
- p.index = i
- return
- }
- }
- // The number is too large to represent in a 64-bit value.
- err = errOverflow
- return
- }
- // DecodeVarint reads a varint-encoded integer from the Buffer.
- // This is the format for the
- // int32, int64, uint32, uint64, bool, and enum
- // protocol buffer types.
- func (p *Buffer) DecodeVarint() (x uint64, err error) {
- i := p.index
- buf := p.buf
- if i >= len(buf) {
- return 0, io.ErrUnexpectedEOF
- } else if buf[i] < 0x80 {
- p.index++
- return uint64(buf[i]), nil
- } else if len(buf)-i < 10 {
- return p.decodeVarintSlow()
- }
- var b uint64
- // we already checked the first byte
- x = uint64(buf[i]) - 0x80
- i++
- b = uint64(buf[i])
- i++
- x += b << 7
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 7
- b = uint64(buf[i])
- i++
- x += b << 14
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 14
- b = uint64(buf[i])
- i++
- x += b << 21
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 21
- b = uint64(buf[i])
- i++
- x += b << 28
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 28
- b = uint64(buf[i])
- i++
- x += b << 35
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 35
- b = uint64(buf[i])
- i++
- x += b << 42
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 42
- b = uint64(buf[i])
- i++
- x += b << 49
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 49
- b = uint64(buf[i])
- i++
- x += b << 56
- if b&0x80 == 0 {
- goto done
- }
- x -= 0x80 << 56
- b = uint64(buf[i])
- i++
- x += b << 63
- if b&0x80 == 0 {
- goto done
- }
- // x -= 0x80 << 63 // Always zero.
- return 0, errOverflow
- done:
- p.index = i
- return x, nil
- }
- // DecodeFixed64 reads a 64-bit integer from the Buffer.
- // This is the format for the
- // fixed64, sfixed64, and double protocol buffer types.
- func (p *Buffer) DecodeFixed64() (x uint64, err error) {
- // x, err already 0
- i := p.index + 8
- if i < 0 || i > len(p.buf) {
- err = io.ErrUnexpectedEOF
- return
- }
- p.index = i
- x = uint64(p.buf[i-8])
- x |= uint64(p.buf[i-7]) << 8
- x |= uint64(p.buf[i-6]) << 16
- x |= uint64(p.buf[i-5]) << 24
- x |= uint64(p.buf[i-4]) << 32
- x |= uint64(p.buf[i-3]) << 40
- x |= uint64(p.buf[i-2]) << 48
- x |= uint64(p.buf[i-1]) << 56
- return
- }
- // DecodeFixed32 reads a 32-bit integer from the Buffer.
- // This is the format for the
- // fixed32, sfixed32, and float protocol buffer types.
- func (p *Buffer) DecodeFixed32() (x uint64, err error) {
- // x, err already 0
- i := p.index + 4
- if i < 0 || i > len(p.buf) {
- err = io.ErrUnexpectedEOF
- return
- }
- p.index = i
- x = uint64(p.buf[i-4])
- x |= uint64(p.buf[i-3]) << 8
- x |= uint64(p.buf[i-2]) << 16
- x |= uint64(p.buf[i-1]) << 24
- return
- }
- // DecodeZigzag64 reads a zigzag-encoded 64-bit integer
- // from the Buffer.
- // This is the format used for the sint64 protocol buffer type.
- func (p *Buffer) DecodeZigzag64() (x uint64, err error) {
- x, err = p.DecodeVarint()
- if err != nil {
- return
- }
- x = (x >> 1) ^ uint64((int64(x&1)<<63)>>63)
- return
- }
- // DecodeZigzag32 reads a zigzag-encoded 32-bit integer
- // from the Buffer.
- // This is the format used for the sint32 protocol buffer type.
- func (p *Buffer) DecodeZigzag32() (x uint64, err error) {
- x, err = p.DecodeVarint()
- if err != nil {
- return
- }
- x = uint64((uint32(x) >> 1) ^ uint32((int32(x&1)<<31)>>31))
- return
- }
- // These are not ValueDecoders: they produce an array of bytes or a string.
- // bytes, embedded messages
- // DecodeRawBytes reads a count-delimited byte buffer from the Buffer.
- // This is the format used for the bytes protocol buffer
- // type and for embedded messages.
- func (p *Buffer) DecodeRawBytes(alloc bool) (buf []byte, err error) {
- n, err := p.DecodeVarint()
- if err != nil {
- return nil, err
- }
- nb := int(n)
- if nb < 0 {
- return nil, fmt.Errorf("proto: bad byte length %d", nb)
- }
- end := p.index + nb
- if end < p.index || end > len(p.buf) {
- return nil, io.ErrUnexpectedEOF
- }
- if !alloc {
- // todo: check if can get more uses of alloc=false
- buf = p.buf[p.index:end]
- p.index += nb
- return
- }
- buf = make([]byte, nb)
- copy(buf, p.buf[p.index:])
- p.index += nb
- return
- }
- // DecodeStringBytes reads an encoded string from the Buffer.
- // This is the format used for the proto2 string type.
- func (p *Buffer) DecodeStringBytes() (s string, err error) {
- buf, err := p.DecodeRawBytes(false)
- if err != nil {
- return
- }
- return string(buf), nil
- }
- // Skip the next item in the buffer. Its wire type is decoded and presented as an argument.
- // If the protocol buffer has extensions, and the field matches, add it as an extension.
- // Otherwise, if the XXX_unrecognized field exists, append the skipped data there.
- func (o *Buffer) skipAndSave(t reflect.Type, tag, wire int, base structPointer, unrecField field) error {
- oi := o.index
- err := o.skip(t, tag, wire)
- if err != nil {
- return err
- }
- if !unrecField.IsValid() {
- return nil
- }
- ptr := structPointer_Bytes(base, unrecField)
- // Add the skipped field to struct field
- obuf := o.buf
- o.buf = *ptr
- o.EncodeVarint(uint64(tag<<3 | wire))
- *ptr = append(o.buf, obuf[oi:o.index]...)
- o.buf = obuf
- return nil
- }
- // Skip the next item in the buffer. Its wire type is decoded and presented as an argument.
- func (o *Buffer) skip(t reflect.Type, tag, wire int) error {
- var u uint64
- var err error
- switch wire {
- case WireVarint:
- _, err = o.DecodeVarint()
- case WireFixed64:
- _, err = o.DecodeFixed64()
- case WireBytes:
- _, err = o.DecodeRawBytes(false)
- case WireFixed32:
- _, err = o.DecodeFixed32()
- case WireStartGroup:
- for {
- u, err = o.DecodeVarint()
- if err != nil {
- break
- }
- fwire := int(u & 0x7)
- if fwire == WireEndGroup {
- break
- }
- ftag := int(u >> 3)
- err = o.skip(t, ftag, fwire)
- if err != nil {
- break
- }
- }
- default:
- err = fmt.Errorf("proto: can't skip unknown wire type %d for %s", wire, t)
- }
- return err
- }
- // Unmarshaler is the interface representing objects that can
- // unmarshal themselves. The method should reset the receiver before
- // decoding starts. The argument points to data that may be
- // overwritten, so implementations should not keep references to the
- // buffer.
- type Unmarshaler interface {
- Unmarshal([]byte) error
- }
- // Unmarshal parses the protocol buffer representation in buf and places the
- // decoded result in pb. If the struct underlying pb does not match
- // the data in buf, the results can be unpredictable.
- //
- // Unmarshal resets pb before starting to unmarshal, so any
- // existing data in pb is always removed. Use UnmarshalMerge
- // to preserve and append to existing data.
- func Unmarshal(buf []byte, pb Message) error {
- pb.Reset()
- return UnmarshalMerge(buf, pb)
- }
- // UnmarshalMerge parses the protocol buffer representation in buf and
- // writes the decoded result to pb. If the struct underlying pb does not match
- // the data in buf, the results can be unpredictable.
- //
- // UnmarshalMerge merges into existing data in pb.
- // Most code should use Unmarshal instead.
- func UnmarshalMerge(buf []byte, pb Message) error {
- // If the object can unmarshal itself, let it.
- if u, ok := pb.(Unmarshaler); ok {
- return u.Unmarshal(buf)
- }
- return NewBuffer(buf).Unmarshal(pb)
- }
- // DecodeMessage reads a count-delimited message from the Buffer.
- func (p *Buffer) DecodeMessage(pb Message) error {
- enc, err := p.DecodeRawBytes(false)
- if err != nil {
- return err
- }
- return NewBuffer(enc).Unmarshal(pb)
- }
- // DecodeGroup reads a tag-delimited group from the Buffer.
- func (p *Buffer) DecodeGroup(pb Message) error {
- typ, base, err := getbase(pb)
- if err != nil {
- return err
- }
- return p.unmarshalType(typ.Elem(), GetProperties(typ.Elem()), true, base)
- }
- // Unmarshal parses the protocol buffer representation in the
- // Buffer and places the decoded result in pb. If the struct
- // underlying pb does not match the data in the buffer, the results can be
- // unpredictable.
- //
- // Unlike proto.Unmarshal, this does not reset pb before starting to unmarshal.
- func (p *Buffer) Unmarshal(pb Message) error {
- // If the object can unmarshal itself, let it.
- if u, ok := pb.(Unmarshaler); ok {
- err := u.Unmarshal(p.buf[p.index:])
- p.index = len(p.buf)
- return err
- }
- typ, base, err := getbase(pb)
- if err != nil {
- return err
- }
- err = p.unmarshalType(typ.Elem(), GetProperties(typ.Elem()), false, base)
- if collectStats {
- stats.Decode++
- }
- return err
- }
- // unmarshalType does the work of unmarshaling a structure.
- func (o *Buffer) unmarshalType(st reflect.Type, prop *StructProperties, is_group bool, base structPointer) error {
- var state errorState
- required, reqFields := prop.reqCount, uint64(0)
- var err error
- for err == nil && o.index < len(o.buf) {
- oi := o.index
- var u uint64
- u, err = o.DecodeVarint()
- if err != nil {
- break
- }
- wire := int(u & 0x7)
- if wire == WireEndGroup {
- if is_group {
- if required > 0 {
- // Not enough information to determine the exact field.
- // (See below.)
- return &RequiredNotSetError{"{Unknown}"}
- }
- return nil // input is satisfied
- }
- return fmt.Errorf("proto: %s: wiretype end group for non-group", st)
- }
- tag := int(u >> 3)
- if tag <= 0 {
- return fmt.Errorf("proto: %s: illegal tag %d (wire type %d)", st, tag, wire)
- }
- fieldnum, ok := prop.decoderTags.get(tag)
- if !ok {
- // Maybe it's an extension?
- if prop.extendable {
- if e, _ := extendable(structPointer_Interface(base, st)); isExtensionField(e, int32(tag)) {
- if err = o.skip(st, tag, wire); err == nil {
- extmap := e.extensionsWrite()
- ext := extmap[int32(tag)] // may be missing
- ext.enc = append(ext.enc, o.buf[oi:o.index]...)
- extmap[int32(tag)] = ext
- }
- continue
- }
- }
- // Maybe it's a oneof?
- if prop.oneofUnmarshaler != nil {
- m := structPointer_Interface(base, st).(Message)
- // First return value indicates whether tag is a oneof field.
- ok, err = prop.oneofUnmarshaler(m, tag, wire, o)
- if err == ErrInternalBadWireType {
- // Map the error to something more descriptive.
- // Do the formatting here to save generated code space.
- err = fmt.Errorf("bad wiretype for oneof field in %T", m)
- }
- if ok {
- continue
- }
- }
- err = o.skipAndSave(st, tag, wire, base, prop.unrecField)
- continue
- }
- p := prop.Prop[fieldnum]
- if p.dec == nil {
- fmt.Fprintf(os.Stderr, "proto: no protobuf decoder for %s.%s\n", st, st.Field(fieldnum).Name)
- continue
- }
- dec := p.dec
- if wire != WireStartGroup && wire != p.WireType {
- if wire == WireBytes && p.packedDec != nil {
- // a packable field
- dec = p.packedDec
- } else {
- err = fmt.Errorf("proto: bad wiretype for field %s.%s: got wiretype %d, want %d", st, st.Field(fieldnum).Name, wire, p.WireType)
- continue
- }
- }
- decErr := dec(o, p, base)
- if decErr != nil && !state.shouldContinue(decErr, p) {
- err = decErr
- }
- if err == nil && p.Required {
- // Successfully decoded a required field.
- if tag <= 64 {
- // use bitmap for fields 1-64 to catch field reuse.
- var mask uint64 = 1 << uint64(tag-1)
- if reqFields&mask == 0 {
- // new required field
- reqFields |= mask
- required--
- }
- } else {
- // This is imprecise. It can be fooled by a required field
- // with a tag > 64 that is encoded twice; that's very rare.
- // A fully correct implementation would require allocating
- // a data structure, which we would like to avoid.
- required--
- }
- }
- }
- if err == nil {
- if is_group {
- return io.ErrUnexpectedEOF
- }
- if state.err != nil {
- return state.err
- }
- if required > 0 {
- // Not enough information to determine the exact field. If we use extra
- // CPU, we could determine the field only if the missing required field
- // has a tag <= 64 and we check reqFields.
- return &RequiredNotSetError{"{Unknown}"}
- }
- }
- return err
- }
- // Individual type decoders
- // For each,
- // u is the decoded value,
- // v is a pointer to the field (pointer) in the struct
- // Sizes of the pools to allocate inside the Buffer.
- // The goal is modest amortization and allocation
- // on at least 16-byte boundaries.
- const (
- boolPoolSize = 16
- uint32PoolSize = 8
- uint64PoolSize = 4
- )
- // Decode a bool.
- func (o *Buffer) dec_bool(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- if len(o.bools) == 0 {
- o.bools = make([]bool, boolPoolSize)
- }
- o.bools[0] = u != 0
- *structPointer_Bool(base, p.field) = &o.bools[0]
- o.bools = o.bools[1:]
- return nil
- }
- func (o *Buffer) dec_proto3_bool(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- *structPointer_BoolVal(base, p.field) = u != 0
- return nil
- }
- // Decode an int32.
- func (o *Buffer) dec_int32(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- word32_Set(structPointer_Word32(base, p.field), o, uint32(u))
- return nil
- }
- func (o *Buffer) dec_proto3_int32(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- word32Val_Set(structPointer_Word32Val(base, p.field), uint32(u))
- return nil
- }
- // Decode an int64.
- func (o *Buffer) dec_int64(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- word64_Set(structPointer_Word64(base, p.field), o, u)
- return nil
- }
- func (o *Buffer) dec_proto3_int64(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- word64Val_Set(structPointer_Word64Val(base, p.field), o, u)
- return nil
- }
- // Decode a string.
- func (o *Buffer) dec_string(p *Properties, base structPointer) error {
- s, err := o.DecodeStringBytes()
- if err != nil {
- return err
- }
- *structPointer_String(base, p.field) = &s
- return nil
- }
- func (o *Buffer) dec_proto3_string(p *Properties, base structPointer) error {
- s, err := o.DecodeStringBytes()
- if err != nil {
- return err
- }
- *structPointer_StringVal(base, p.field) = s
- return nil
- }
- // Decode a slice of bytes ([]byte).
- func (o *Buffer) dec_slice_byte(p *Properties, base structPointer) error {
- b, err := o.DecodeRawBytes(true)
- if err != nil {
- return err
- }
- *structPointer_Bytes(base, p.field) = b
- return nil
- }
- // Decode a slice of bools ([]bool).
- func (o *Buffer) dec_slice_bool(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- v := structPointer_BoolSlice(base, p.field)
- *v = append(*v, u != 0)
- return nil
- }
- // Decode a slice of bools ([]bool) in packed format.
- func (o *Buffer) dec_slice_packed_bool(p *Properties, base structPointer) error {
- v := structPointer_BoolSlice(base, p.field)
- nn, err := o.DecodeVarint()
- if err != nil {
- return err
- }
- nb := int(nn) // number of bytes of encoded bools
- fin := o.index + nb
- if fin < o.index {
- return errOverflow
- }
- y := *v
- for o.index < fin {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- y = append(y, u != 0)
- }
- *v = y
- return nil
- }
- // Decode a slice of int32s ([]int32).
- func (o *Buffer) dec_slice_int32(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- structPointer_Word32Slice(base, p.field).Append(uint32(u))
- return nil
- }
- // Decode a slice of int32s ([]int32) in packed format.
- func (o *Buffer) dec_slice_packed_int32(p *Properties, base structPointer) error {
- v := structPointer_Word32Slice(base, p.field)
- nn, err := o.DecodeVarint()
- if err != nil {
- return err
- }
- nb := int(nn) // number of bytes of encoded int32s
- fin := o.index + nb
- if fin < o.index {
- return errOverflow
- }
- for o.index < fin {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- v.Append(uint32(u))
- }
- return nil
- }
- // Decode a slice of int64s ([]int64).
- func (o *Buffer) dec_slice_int64(p *Properties, base structPointer) error {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- structPointer_Word64Slice(base, p.field).Append(u)
- return nil
- }
- // Decode a slice of int64s ([]int64) in packed format.
- func (o *Buffer) dec_slice_packed_int64(p *Properties, base structPointer) error {
- v := structPointer_Word64Slice(base, p.field)
- nn, err := o.DecodeVarint()
- if err != nil {
- return err
- }
- nb := int(nn) // number of bytes of encoded int64s
- fin := o.index + nb
- if fin < o.index {
- return errOverflow
- }
- for o.index < fin {
- u, err := p.valDec(o)
- if err != nil {
- return err
- }
- v.Append(u)
- }
- return nil
- }
- // Decode a slice of strings ([]string).
- func (o *Buffer) dec_slice_string(p *Properties, base structPointer) error {
- s, err := o.DecodeStringBytes()
- if err != nil {
- return err
- }
- v := structPointer_StringSlice(base, p.field)
- *v = append(*v, s)
- return nil
- }
- // Decode a slice of slice of bytes ([][]byte).
- func (o *Buffer) dec_slice_slice_byte(p *Properties, base structPointer) error {
- b, err := o.DecodeRawBytes(true)
- if err != nil {
- return err
- }
- v := structPointer_BytesSlice(base, p.field)
- *v = append(*v, b)
- return nil
- }
- // Decode a map field.
- func (o *Buffer) dec_new_map(p *Properties, base structPointer) error {
- raw, err := o.DecodeRawBytes(false)
- if err != nil {
- return err
- }
- oi := o.index // index at the end of this map entry
- o.index -= len(raw) // move buffer back to start of map entry
- mptr := structPointer_NewAt(base, p.field, p.mtype) // *map[K]V
- if mptr.Elem().IsNil() {
- mptr.Elem().Set(reflect.MakeMap(mptr.Type().Elem()))
- }
- v := mptr.Elem() // map[K]V
- // Prepare addressable doubly-indirect placeholders for the key and value types.
- // See enc_new_map for why.
- keyptr := reflect.New(reflect.PtrTo(p.mtype.Key())).Elem() // addressable *K
- keybase := toStructPointer(keyptr.Addr()) // **K
- var valbase structPointer
- var valptr reflect.Value
- switch p.mtype.Elem().Kind() {
- case reflect.Slice:
- // []byte
- var dummy []byte
- valptr = reflect.ValueOf(&dummy) // *[]byte
- valbase = toStructPointer(valptr) // *[]byte
- case reflect.Ptr:
- // message; valptr is **Msg; need to allocate the intermediate pointer
- valptr = reflect.New(reflect.PtrTo(p.mtype.Elem())).Elem() // addressable *V
- valptr.Set(reflect.New(valptr.Type().Elem()))
- valbase = toStructPointer(valptr)
- default:
- // everything else
- valptr = reflect.New(reflect.PtrTo(p.mtype.Elem())).Elem() // addressable *V
- valbase = toStructPointer(valptr.Addr()) // **V
- }
- // Decode.
- // This parses a restricted wire format, namely the encoding of a message
- // with two fields. See enc_new_map for the format.
- for o.index < oi {
- // tagcode for key and value properties are always a single byte
- // because they have tags 1 and 2.
- tagcode := o.buf[o.index]
- o.index++
- switch tagcode {
- case p.mkeyprop.tagcode[0]:
- if err := p.mkeyprop.dec(o, p.mkeyprop, keybase); err != nil {
- return err
- }
- case p.mvalprop.tagcode[0]:
- if err := p.mvalprop.dec(o, p.mvalprop, valbase); err != nil {
- return err
- }
- default:
- // TODO: Should we silently skip this instead?
- return fmt.Errorf("proto: bad map data tag %d", raw[0])
- }
- }
- keyelem, valelem := keyptr.Elem(), valptr.Elem()
- if !keyelem.IsValid() {
- keyelem = reflect.Zero(p.mtype.Key())
- }
- if !valelem.IsValid() {
- valelem = reflect.Zero(p.mtype.Elem())
- }
- v.SetMapIndex(keyelem, valelem)
- return nil
- }
- // Decode a group.
- func (o *Buffer) dec_struct_group(p *Properties, base structPointer) error {
- bas := structPointer_GetStructPointer(base, p.field)
- if structPointer_IsNil(bas) {
- // allocate new nested message
- bas = toStructPointer(reflect.New(p.stype))
- structPointer_SetStructPointer(base, p.field, bas)
- }
- return o.unmarshalType(p.stype, p.sprop, true, bas)
- }
- // Decode an embedded message.
- func (o *Buffer) dec_struct_message(p *Properties, base structPointer) (err error) {
- raw, e := o.DecodeRawBytes(false)
- if e != nil {
- return e
- }
- bas := structPointer_GetStructPointer(base, p.field)
- if structPointer_IsNil(bas) {
- // allocate new nested message
- bas = toStructPointer(reflect.New(p.stype))
- structPointer_SetStructPointer(base, p.field, bas)
- }
- // If the object can unmarshal itself, let it.
- if p.isUnmarshaler {
- iv := structPointer_Interface(bas, p.stype)
- return iv.(Unmarshaler).Unmarshal(raw)
- }
- obuf := o.buf
- oi := o.index
- o.buf = raw
- o.index = 0
- err = o.unmarshalType(p.stype, p.sprop, false, bas)
- o.buf = obuf
- o.index = oi
- return err
- }
- // Decode a slice of embedded messages.
- func (o *Buffer) dec_slice_struct_message(p *Properties, base structPointer) error {
- return o.dec_slice_struct(p, false, base)
- }
- // Decode a slice of embedded groups.
- func (o *Buffer) dec_slice_struct_group(p *Properties, base structPointer) error {
- return o.dec_slice_struct(p, true, base)
- }
- // Decode a slice of structs ([]*struct).
- func (o *Buffer) dec_slice_struct(p *Properties, is_group bool, base structPointer) error {
- v := reflect.New(p.stype)
- bas := toStructPointer(v)
- structPointer_StructPointerSlice(base, p.field).Append(bas)
- if is_group {
- err := o.unmarshalType(p.stype, p.sprop, is_group, bas)
- return err
- }
- raw, err := o.DecodeRawBytes(false)
- if err != nil {
- return err
- }
- // If the object can unmarshal itself, let it.
- if p.isUnmarshaler {
- iv := v.Interface()
- return iv.(Unmarshaler).Unmarshal(raw)
- }
- obuf := o.buf
- oi := o.index
- o.buf = raw
- o.index = 0
- err = o.unmarshalType(p.stype, p.sprop, is_group, bas)
- o.buf = obuf
- o.index = oi
- return err
- }
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