tile38/vendor/github.com/Shopify/sarama/message.go

175 lines
4.0 KiB
Go

package sarama
import (
"fmt"
"time"
)
const (
//CompressionNone no compression
CompressionNone CompressionCodec = iota
//CompressionGZIP compression using GZIP
CompressionGZIP
//CompressionSnappy compression using snappy
CompressionSnappy
//CompressionLZ4 compression using LZ4
CompressionLZ4
//CompressionZSTD compression using ZSTD
CompressionZSTD
// The lowest 3 bits contain the compression codec used for the message
compressionCodecMask int8 = 0x07
// Bit 3 set for "LogAppend" timestamps
timestampTypeMask = 0x08
// CompressionLevelDefault is the constant to use in CompressionLevel
// to have the default compression level for any codec. The value is picked
// that we don't use any existing compression levels.
CompressionLevelDefault = -1000
)
// CompressionCodec represents the various compression codecs recognized by Kafka in messages.
type CompressionCodec int8
func (cc CompressionCodec) String() string {
return []string{
"none",
"gzip",
"snappy",
"lz4",
"zstd",
}[int(cc)]
}
//Message is a kafka message type
type Message struct {
Codec CompressionCodec // codec used to compress the message contents
CompressionLevel int // compression level
LogAppendTime bool // the used timestamp is LogAppendTime
Key []byte // the message key, may be nil
Value []byte // the message contents
Set *MessageSet // the message set a message might wrap
Version int8 // v1 requires Kafka 0.10
Timestamp time.Time // the timestamp of the message (version 1+ only)
compressedCache []byte
compressedSize int // used for computing the compression ratio metrics
}
func (m *Message) encode(pe packetEncoder) error {
pe.push(newCRC32Field(crcIEEE))
pe.putInt8(m.Version)
attributes := int8(m.Codec) & compressionCodecMask
if m.LogAppendTime {
attributes |= timestampTypeMask
}
pe.putInt8(attributes)
if m.Version >= 1 {
if err := (Timestamp{&m.Timestamp}).encode(pe); err != nil {
return err
}
}
err := pe.putBytes(m.Key)
if err != nil {
return err
}
var payload []byte
if m.compressedCache != nil {
payload = m.compressedCache
m.compressedCache = nil
} else if m.Value != nil {
payload, err = compress(m.Codec, m.CompressionLevel, m.Value)
if err != nil {
return err
}
m.compressedCache = payload
// Keep in mind the compressed payload size for metric gathering
m.compressedSize = len(payload)
}
if err = pe.putBytes(payload); err != nil {
return err
}
return pe.pop()
}
func (m *Message) decode(pd packetDecoder) (err error) {
crc32Decoder := acquireCrc32Field(crcIEEE)
defer releaseCrc32Field(crc32Decoder)
err = pd.push(crc32Decoder)
if err != nil {
return err
}
m.Version, err = pd.getInt8()
if err != nil {
return err
}
if m.Version > 1 {
return PacketDecodingError{fmt.Sprintf("unknown magic byte (%v)", m.Version)}
}
attribute, err := pd.getInt8()
if err != nil {
return err
}
m.Codec = CompressionCodec(attribute & compressionCodecMask)
m.LogAppendTime = attribute&timestampTypeMask == timestampTypeMask
if m.Version == 1 {
if err := (Timestamp{&m.Timestamp}).decode(pd); err != nil {
return err
}
}
m.Key, err = pd.getBytes()
if err != nil {
return err
}
m.Value, err = pd.getBytes()
if err != nil {
return err
}
// Required for deep equal assertion during tests but might be useful
// for future metrics about the compression ratio in fetch requests
m.compressedSize = len(m.Value)
switch m.Codec {
case CompressionNone:
// nothing to do
default:
if m.Value == nil {
break
}
m.Value, err = decompress(m.Codec, m.Value)
if err != nil {
return err
}
if err := m.decodeSet(); err != nil {
return err
}
}
return pd.pop()
}
// decodes a message set from a previously encoded bulk-message
func (m *Message) decodeSet() (err error) {
pd := realDecoder{raw: m.Value}
m.Set = &MessageSet{}
return m.Set.decode(&pd)
}