func parseBinaryCommand(parser *parser, buf *streambuf.Buffer) parseResult {
debug("on binary message")
if !buf.Avail(memcacheHeaderSize) {
return parser.needMore()
}
msg := parser.message
msg.isBinary = true
magic, _ := buf.ReadNetUint8At(0)
switch magic {
case MemcacheMagicRequest:
msg.IsRequest = true
case MemcacheMagicResponse:
msg.IsRequest = false
default:
return parser.failing(ErrInvalidMemcacheMagic)
}
opcode, _ := buf.ReadNetUint8At(1)
keyLen, err := buf.ReadNetUint16At(2)
extraLen, _ := buf.ReadNetUint8At(4)
if err != nil {
return parser.failing(err)
}
debug("magic: %v", magic)
debug("opcode: %v", opcode)
debug("extra len: %v", extraLen)
debug("key len: %v", keyLen)
totalHeaderLen := memcacheHeaderSize + int(extraLen) + int(keyLen)
debug("total header len: %v", totalHeaderLen)
if !buf.Avail(totalHeaderLen) {
return parser.needMore()
}
command := memcacheBinaryCommandTable[memcacheOpcode(opcode)]
if command == nil {
debug("unknown command")
command = binaryUnknownCommand
}
msg.opcode = memcacheOpcode(opcode)
msg.command = command
msg.isQuiet = isQuietOpcode(msg.opcode)
return parser.contWithShallow(buf, command.parse)
}
func readMessage(buf *streambuf.Buffer) (*message, error) {
if !buf.Avail(2) {
return nil, nil
}
version, _ := buf.ReadNetUint8At(0)
if version != '2' {
return nil, errors.New("version error")
}
code, _ := buf.ReadNetUint8At(1)
switch code {
case 'W':
if !buf.Avail(6) {
return nil, nil
}
size, _ := buf.ReadNetUint32At(2)
buf.Advance(6)
buf.Reset()
return &message{code: code, size: size}, buf.Err()
case 'C':
if !buf.Avail(6) {
return nil, nil
}
len, _ := buf.ReadNetUint32At(2)
if !buf.Avail(int(len) + 6) {
return nil, nil
}
buf.Advance(6)
tmp, _ := buf.Collect(int(len))
buf.Reset()
dataBuf := streambuf.New(nil)
// decompress data
decomp, err := zlib.NewReader(streambuf.NewFixed(tmp))
if err != nil {
return nil, err
}
// dataBuf.ReadFrom(streambuf.NewFixed(tmp))
dataBuf.ReadFrom(decomp)
decomp.Close()
// unpack data
dataBuf.Fix()
var events []*message
for dataBuf.Len() > 0 {
version, _ := dataBuf.ReadNetUint8()
if version != '2' {
return nil, errors.New("version error 2")
}
code, _ := dataBuf.ReadNetUint8()
if code != 'J' {
return nil, errors.New("expected json data frame")
}
seq, _ := dataBuf.ReadNetUint32()
payloadLen, _ := dataBuf.ReadNetUint32()
jsonRaw, _ := dataBuf.Collect(int(payloadLen))
var doc interface{}
err = json.Unmarshal(jsonRaw, &doc)
if err != nil {
return nil, err
}
events = append(events, &message{
code: code,
seq: seq,
doc: doc.(map[string]interface{}),
})
}
return &message{code: 'C', events: events}, nil
default:
return nil, errors.New("unknown code")
}
}
func readMessage(buf *streambuf.Buffer) (*message, error) {
if !buf.Avail(2) {
return nil, nil
}
version, _ := buf.ReadNetUint8At(0)
if version != '1' {
return nil, errors.New("version error")
}
code, _ := buf.ReadNetUint8At(1)
switch code {
case 'W':
if !buf.Avail(6) {
return nil, nil
}
size, _ := buf.ReadNetUint32At(2)
buf.Advance(6)
buf.Reset()
return &message{code: code, size: size}, buf.Err()
case 'C':
if !buf.Avail(6) {
return nil, nil
}
len, _ := buf.ReadNetUint32At(2)
if !buf.Avail(int(len) + 6) {
return nil, nil
}
buf.Advance(6)
tmp, _ := buf.Collect(int(len))
buf.Reset()
dataBuf := streambuf.New(nil)
// decompress data
decomp, err := zlib.NewReader(streambuf.NewFixed(tmp))
if err != nil {
return nil, err
}
// dataBuf.ReadFrom(streambuf.NewFixed(tmp))
dataBuf.ReadFrom(decomp)
decomp.Close()
// unpack data
dataBuf.Fix()
var events []*message
for dataBuf.Len() > 0 {
version, _ := dataBuf.ReadNetUint8()
if version != '1' {
return nil, errors.New("version error 2")
}
code, _ := dataBuf.ReadNetUint8()
if code != 'D' {
return nil, errors.New("expected data frame")
}
seq, _ := dataBuf.ReadNetUint32()
pairCount, _ := dataBuf.ReadNetUint32()
kv := make(map[string]string)
for i := 0; i < int(pairCount); i++ {
keyLen, _ := dataBuf.ReadNetUint32()
keyRaw, _ := dataBuf.Collect(int(keyLen))
valLen, _ := dataBuf.ReadNetUint32()
valRaw, _ := dataBuf.Collect(int(valLen))
kv[string(keyRaw)] = string(valRaw)
}
events = append(events, &message{code: code, seq: seq, kv: kv})
}
return &message{code: 'C', events: events}, nil
default:
return nil, errors.New("unknown code")
}
}