seaweedfs/weed/util/log_buffer/log_buffer.go

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package log_buffer
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import (
"bytes"
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"sync"
"sync/atomic"
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"time"
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"google.golang.org/protobuf/proto"
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"github.com/seaweedfs/seaweedfs/weed/glog"
"github.com/seaweedfs/seaweedfs/weed/pb/filer_pb"
"github.com/seaweedfs/seaweedfs/weed/util"
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)
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const BufferSize = 4 * 1024 * 1024
const PreviousBufferCount = 3
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type dataToFlush struct {
startTime time.Time
stopTime time.Time
data *bytes.Buffer
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}
type LogFlushFuncType func(startTime, stopTime time.Time, buf []byte)
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type LogBuffer struct {
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name string
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prevBuffers *SealedBuffers
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buf []byte
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batchIndex int64
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idx []int
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pos int
startTime time.Time
stopTime time.Time
lastFlushTime time.Time
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sizeBuf []byte
flushInterval time.Duration
flushFn LogFlushFuncType
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notifyFn func()
isStopping *atomic.Bool
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flushChan chan *dataToFlush
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lastTsNs int64
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sync.RWMutex
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}
func NewLogBuffer(name string, flushInterval time.Duration, flushFn LogFlushFuncType, notifyFn func()) *LogBuffer {
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lb := &LogBuffer{
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name: name,
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prevBuffers: newSealedBuffers(PreviousBufferCount),
buf: make([]byte, BufferSize),
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sizeBuf: make([]byte, 4),
flushInterval: flushInterval,
flushFn: flushFn,
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notifyFn: notifyFn,
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flushChan: make(chan *dataToFlush, 256),
isStopping: new(atomic.Bool),
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}
go lb.loopFlush()
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go lb.loopInterval()
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return lb
}
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func (logBuffer *LogBuffer) AddToBuffer(partitionKey, data []byte, processingTsNs int64) {
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var toFlush *dataToFlush
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logBuffer.Lock()
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defer func() {
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logBuffer.Unlock()
if toFlush != nil {
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logBuffer.flushChan <- toFlush
}
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if logBuffer.notifyFn != nil {
logBuffer.notifyFn()
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}
}()
// need to put the timestamp inside the lock
var ts time.Time
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if processingTsNs == 0 {
ts = time.Now()
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processingTsNs = ts.UnixNano()
} else {
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ts = time.Unix(0, processingTsNs)
}
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if logBuffer.lastTsNs >= processingTsNs {
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// this is unlikely to happen, but just in case
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processingTsNs = logBuffer.lastTsNs + 1
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ts = time.Unix(0, processingTsNs)
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}
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logBuffer.lastTsNs = processingTsNs
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logEntry := &filer_pb.LogEntry{
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TsNs: processingTsNs,
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PartitionKeyHash: util.HashToInt32(partitionKey),
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Data: data,
}
logEntryData, _ := proto.Marshal(logEntry)
size := len(logEntryData)
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if logBuffer.pos == 0 {
logBuffer.startTime = ts
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}
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if logBuffer.startTime.Add(logBuffer.flushInterval).Before(ts) || len(logBuffer.buf)-logBuffer.pos < size+4 {
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glog.V(0).Infof("%s copyToFlush1 batch:%d count:%d start time %v, ts %v, remaining %d bytes", logBuffer.name, logBuffer.batchIndex, len(logBuffer.idx), logBuffer.startTime, ts, len(logBuffer.buf)-logBuffer.pos)
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toFlush = logBuffer.copyToFlush()
logBuffer.startTime = ts
if len(logBuffer.buf) < size+4 {
logBuffer.buf = make([]byte, 2*size+4)
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}
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}
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logBuffer.stopTime = ts
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logBuffer.idx = append(logBuffer.idx, logBuffer.pos)
util.Uint32toBytes(logBuffer.sizeBuf, uint32(size))
copy(logBuffer.buf[logBuffer.pos:logBuffer.pos+4], logBuffer.sizeBuf)
copy(logBuffer.buf[logBuffer.pos+4:logBuffer.pos+4+size], logEntryData)
logBuffer.pos += size + 4
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// fmt.Printf("partitionKey %v entry size %d total %d count %d\n", string(partitionKey), size, m.pos, len(m.idx))
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}
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func (logBuffer *LogBuffer) IsStopping() bool {
return logBuffer.isStopping.Load()
}
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func (logBuffer *LogBuffer) Shutdown() {
isAlreadyStopped := logBuffer.isStopping.Swap(true)
if isAlreadyStopped {
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return
}
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toFlush := logBuffer.copyToFlush()
logBuffer.flushChan <- toFlush
close(logBuffer.flushChan)
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}
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func (logBuffer *LogBuffer) loopFlush() {
for d := range logBuffer.flushChan {
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if d != nil {
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// glog.V(4).Infof("%s flush [%v, %v] size %d", m.name, d.startTime, d.stopTime, len(d.data.Bytes()))
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logBuffer.flushFn(d.startTime, d.stopTime, d.data.Bytes())
d.releaseMemory()
// local logbuffer is different from aggregate logbuffer here
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logBuffer.lastFlushTime = d.stopTime
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}
}
}
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func (logBuffer *LogBuffer) loopInterval() {
for !logBuffer.IsStopping() {
time.Sleep(logBuffer.flushInterval)
if logBuffer.IsStopping() {
return
}
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logBuffer.Lock()
toFlush := logBuffer.copyToFlush()
logBuffer.Unlock()
if toFlush != nil {
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glog.V(0).Infof("%s flush [%v, %v] size %d", logBuffer.name, toFlush.startTime, toFlush.stopTime, len(toFlush.data.Bytes()))
logBuffer.flushChan <- toFlush
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} else {
// glog.V(0).Infof("%s no flush", m.name)
}
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}
}
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func (logBuffer *LogBuffer) copyToFlush() *dataToFlush {
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if logBuffer.pos > 0 {
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// fmt.Printf("flush buffer %d pos %d empty space %d\n", len(m.buf), m.pos, len(m.buf)-m.pos)
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var d *dataToFlush
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if logBuffer.flushFn != nil {
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d = &dataToFlush{
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startTime: logBuffer.startTime,
stopTime: logBuffer.stopTime,
data: copiedBytes(logBuffer.buf[:logBuffer.pos]),
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}
// glog.V(4).Infof("%s flushing [0,%d) with %d entries [%v, %v]", m.name, m.pos, len(m.idx), m.startTime, m.stopTime)
} else {
// glog.V(4).Infof("%s removed from memory [0,%d) with %d entries [%v, %v]", m.name, m.pos, len(m.idx), m.startTime, m.stopTime)
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logBuffer.lastFlushTime = logBuffer.stopTime
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}
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logBuffer.buf = logBuffer.prevBuffers.SealBuffer(logBuffer.startTime, logBuffer.stopTime, logBuffer.buf, logBuffer.pos, logBuffer.batchIndex)
logBuffer.startTime = time.Unix(0, 0)
logBuffer.stopTime = time.Unix(0, 0)
logBuffer.pos = 0
logBuffer.idx = logBuffer.idx[:0]
logBuffer.batchIndex++
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return d
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}
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return nil
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}
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func (logBuffer *LogBuffer) GetEarliestTime() time.Time{
return logBuffer.startTime
}
func (logBuffer *LogBuffer) GetEarliestPosition() MessagePosition{
return MessagePosition{
Time: logBuffer.startTime,
BatchIndex: logBuffer.batchIndex,
}
}
func (d *dataToFlush) releaseMemory() {
d.data.Reset()
bufferPool.Put(d.data)
}
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func (logBuffer *LogBuffer) ReadFromBuffer(lastReadPosition MessagePosition, inMemoryOnly bool) (bufferCopy *bytes.Buffer, batchIndex int64, err error) {
logBuffer.RLock()
defer logBuffer.RUnlock()
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// Read from disk and memory
// 1. read from disk, last time is = td
// 2. in memory, the earliest time = tm
// if tm <= td, case 2.1
// read from memory
// if tm is empty, case 2.2
// read from memory
// if td < tm, case 2.3
// read from disk again
var tsMemory time.Time
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var tsBatchIndex int64
if !logBuffer.startTime.IsZero() {
tsMemory = logBuffer.startTime
tsBatchIndex = logBuffer.batchIndex
}
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for _, prevBuf := range logBuffer.prevBuffers.buffers {
if !prevBuf.startTime.IsZero() && prevBuf.startTime.Before(tsMemory) {
tsMemory = prevBuf.startTime
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tsBatchIndex = prevBuf.batchIndex
}
}
if tsMemory.IsZero() { // case 2.2
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println("2.2 no data")
return nil, -2,nil
} else if lastReadPosition.Before(tsMemory) && lastReadPosition.BatchIndex +1 < tsBatchIndex { // case 2.3
if inMemoryOnly {
println("2.3 no data", lastReadPosition.BatchIndex, tsBatchIndex)
// FIXME: this is wrong: the data has been flushed to disk already
return nil, tsBatchIndex,nil
}
if !logBuffer.lastFlushTime.IsZero() {
glog.V(0).Infof("resume with last flush time: %v", logBuffer.lastFlushTime)
return nil, -2, ResumeFromDiskError
}
}
// the following is case 2.1
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if lastReadPosition.Equal(logBuffer.stopTime) {
return nil, logBuffer.batchIndex, nil
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}
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if lastReadPosition.After(logBuffer.stopTime) {
// glog.Fatalf("unexpected last read time %v, older than latest %v", lastReadPosition, m.stopTime)
return nil, logBuffer.batchIndex, nil
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}
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if lastReadPosition.Before(logBuffer.startTime) {
// println("checking ", lastReadPosition.UnixNano())
for _, buf := range logBuffer.prevBuffers.buffers {
if buf.startTime.After(lastReadPosition.Time) {
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// glog.V(4).Infof("%s return the %d sealed buffer %v", m.name, i, buf.startTime)
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// println("return the", i, "th in memory", buf.startTime.UnixNano())
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return copiedBytes(buf.buf[:buf.size]), buf.batchIndex, nil
}
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if !buf.startTime.After(lastReadPosition.Time) && buf.stopTime.After(lastReadPosition.Time) {
pos := buf.locateByTs(lastReadPosition.Time)
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// fmt.Printf("locate buffer[%d] pos %d\n", i, pos)
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return copiedBytes(buf.buf[pos:buf.size]), buf.batchIndex, nil
}
}
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// glog.V(4).Infof("%s return the current buf %v", m.name, lastReadPosition)
return copiedBytes(logBuffer.buf[:logBuffer.pos]), logBuffer.batchIndex,nil
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}
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lastTs := lastReadPosition.UnixNano()
l, h := 0, len(logBuffer.idx)-1
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/*
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for i, pos := range m.idx {
logEntry, ts := readTs(m.buf, pos)
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event := &filer_pb.SubscribeMetadataResponse{}
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proto.Unmarshal(logEntry.Data, event)
entry := event.EventNotification.OldEntry
if entry == nil {
entry = event.EventNotification.NewEntry
}
fmt.Printf("entry %d ts: %v offset:%d dir:%s name:%s\n", i, time.Unix(0, ts), pos, event.Directory, entry.Name)
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}
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fmt.Printf("l=%d, h=%d\n", l, h)
*/
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for l <= h {
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mid := (l + h) / 2
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pos := logBuffer.idx[mid]
_, t := readTs(logBuffer.buf, pos)
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if t <= lastTs {
l = mid + 1
} else if lastTs < t {
var prevT int64
if mid > 0 {
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_, prevT = readTs(logBuffer.buf, logBuffer.idx[mid-1])
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}
if prevT <= lastTs {
// fmt.Printf("found l=%d, m-1=%d(ts=%d), m=%d(ts=%d), h=%d [%d, %d) \n", l, mid-1, prevT, mid, t, h, pos, m.pos)
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return copiedBytes(logBuffer.buf[pos:logBuffer.pos]), logBuffer.batchIndex, nil
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}
h = mid
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}
// fmt.Printf("l=%d, h=%d\n", l, h)
}
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// FIXME: this could be that the buffer has been flushed already
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println("Not sure why no data", lastReadPosition.BatchIndex, tsBatchIndex)
return nil, -2, nil
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}
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func (logBuffer *LogBuffer) ReleaseMemory(b *bytes.Buffer) {
bufferPool.Put(b)
}
var bufferPool = sync.Pool{
New: func() interface{} {
return new(bytes.Buffer)
},
}
func copiedBytes(buf []byte) (copied *bytes.Buffer) {
copied = bufferPool.Get().(*bytes.Buffer)
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copied.Reset()
copied.Write(buf)
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return
}
func readTs(buf []byte, pos int) (size int, ts int64) {
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size = int(util.BytesToUint32(buf[pos : pos+4]))
entryData := buf[pos+4 : pos+4+size]
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logEntry := &filer_pb.LogEntry{}
err := proto.Unmarshal(entryData, logEntry)
if err != nil {
glog.Fatalf("unexpected unmarshal filer_pb.LogEntry: %v", err)
}
return size, logEntry.TsNs
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}