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256 lines
7.9 KiB
256 lines
7.9 KiB
package page_writer
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import (
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"fmt"
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"github.com/chrislusf/seaweedfs/weed/glog"
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"github.com/chrislusf/seaweedfs/weed/util"
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"github.com/chrislusf/seaweedfs/weed/util/mem"
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"sync"
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"sync/atomic"
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"time"
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)
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type LogicChunkIndex int
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type UploadPipeline struct {
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filepath util.FullPath
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ChunkSize int64
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writers *util.LimitedConcurrentExecutor
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writableChunks map[LogicChunkIndex]*MemChunk
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writableChunksLock sync.Mutex
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sealedChunks map[LogicChunkIndex]*SealedChunk
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sealedChunksLock sync.Mutex
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activeWriterCond *sync.Cond
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activeWriterCount int32
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activeReadChunks map[LogicChunkIndex]int
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activeReadChunksLock sync.Mutex
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saveToStorageFn SaveToStorageFunc
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}
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type SealedChunk struct {
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chunk *MemChunk
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referenceCounter int // track uploading or reading processes
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}
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func (sc *SealedChunk) FreeReference(messageOnFree string) {
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sc.referenceCounter--
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if sc.referenceCounter == 0 {
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glog.V(4).Infof("Free sealed chunk: %s", messageOnFree)
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mem.Free(sc.chunk.buf)
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}
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}
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func NewUploadPipeline(filepath util.FullPath, writers *util.LimitedConcurrentExecutor, chunkSize int64, saveToStorageFn SaveToStorageFunc) *UploadPipeline {
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return &UploadPipeline{
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ChunkSize: chunkSize,
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writableChunks: make(map[LogicChunkIndex]*MemChunk),
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sealedChunks: make(map[LogicChunkIndex]*SealedChunk),
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writers: writers,
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activeWriterCond: sync.NewCond(&sync.Mutex{}),
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saveToStorageFn: saveToStorageFn,
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filepath: filepath,
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activeReadChunks: make(map[LogicChunkIndex]int),
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}
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}
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func (cw *UploadPipeline) SaveDataAt(p []byte, off int64) (n int) {
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cw.writableChunksLock.Lock()
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defer cw.writableChunksLock.Unlock()
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logicChunkIndex := LogicChunkIndex(off / cw.ChunkSize)
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offsetRemainder := off % cw.ChunkSize
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memChunk, found := cw.writableChunks[logicChunkIndex]
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if !found {
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memChunk = &MemChunk{
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buf: mem.Allocate(int(cw.ChunkSize)),
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usage: newChunkWrittenIntervalList(),
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}
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cw.writableChunks[logicChunkIndex] = memChunk
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}
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n = copy(memChunk.buf[offsetRemainder:], p)
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memChunk.usage.MarkWritten(offsetRemainder, offsetRemainder+int64(n))
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cw.maybeMoveToSealed(memChunk, logicChunkIndex)
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return
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}
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func (cw *UploadPipeline) MaybeReadDataAt(p []byte, off int64) (maxStop int64) {
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logicChunkIndex := LogicChunkIndex(off / cw.ChunkSize)
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// read from sealed chunks first
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cw.sealedChunksLock.Lock()
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sealedChunk, found := cw.sealedChunks[logicChunkIndex]
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if found {
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sealedChunk.referenceCounter++
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}
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cw.sealedChunksLock.Unlock()
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if found {
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maxStop = readMemChunk(sealedChunk.chunk, p, off, logicChunkIndex, cw.ChunkSize)
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glog.V(4).Infof("%s read sealed memchunk [%d,%d)", cw.filepath, off, maxStop)
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sealedChunk.FreeReference(fmt.Sprintf("%s finish reading chunk %d", cw.filepath, logicChunkIndex))
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}
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// read from writable chunks last
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cw.writableChunksLock.Lock()
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defer cw.writableChunksLock.Unlock()
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writableChunk, found := cw.writableChunks[logicChunkIndex]
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if !found {
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return
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}
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writableMaxStop := readMemChunk(writableChunk, p, off, logicChunkIndex, cw.ChunkSize)
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glog.V(4).Infof("%s read writable memchunk [%d,%d)", cw.filepath, off, writableMaxStop)
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maxStop = max(maxStop, writableMaxStop)
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return
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}
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func (cw *UploadPipeline) FlushAll() {
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cw.writableChunksLock.Lock()
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defer cw.writableChunksLock.Unlock()
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for logicChunkIndex, memChunk := range cw.writableChunks {
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cw.moveToSealed(memChunk, logicChunkIndex)
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}
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cw.waitForCurrentWritersToComplete()
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}
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func (cw *UploadPipeline) LockForRead(startOffset, stopOffset int64) {
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startLogicChunkIndex := LogicChunkIndex(startOffset / cw.ChunkSize)
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stopLogicChunkIndex := LogicChunkIndex(stopOffset / cw.ChunkSize)
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if stopOffset%cw.ChunkSize > 0 {
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stopLogicChunkIndex += 1
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}
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cw.activeReadChunksLock.Lock()
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defer cw.activeReadChunksLock.Unlock()
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for i := startLogicChunkIndex; i < stopLogicChunkIndex; i++ {
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if count, found := cw.activeReadChunks[i]; found {
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cw.activeReadChunks[i] = count + 1
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} else {
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cw.activeReadChunks[i] = 1
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}
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}
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}
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func (cw *UploadPipeline) UnlockForRead(startOffset, stopOffset int64) {
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startLogicChunkIndex := LogicChunkIndex(startOffset / cw.ChunkSize)
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stopLogicChunkIndex := LogicChunkIndex(stopOffset / cw.ChunkSize)
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if stopOffset%cw.ChunkSize > 0 {
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stopLogicChunkIndex += 1
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}
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cw.activeReadChunksLock.Lock()
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defer cw.activeReadChunksLock.Unlock()
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for i := startLogicChunkIndex; i < stopLogicChunkIndex; i++ {
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if count, found := cw.activeReadChunks[i]; found {
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if count == 1 {
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delete(cw.activeReadChunks, i)
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} else {
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cw.activeReadChunks[i] = count - 1
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}
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}
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}
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}
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func (cw *UploadPipeline) IsLocked(logicChunkIndex LogicChunkIndex) bool {
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cw.activeReadChunksLock.Lock()
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defer cw.activeReadChunksLock.Unlock()
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if count, found := cw.activeReadChunks[logicChunkIndex]; found {
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return count > 0
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}
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return false
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}
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func (cw *UploadPipeline) waitForCurrentWritersToComplete() {
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cw.activeWriterCond.L.Lock()
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t := int32(100)
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for {
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t = atomic.LoadInt32(&cw.activeWriterCount)
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if t <= 0 {
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break
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}
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glog.V(4).Infof("activeWriterCond is %d", t)
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cw.activeWriterCond.Wait()
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}
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cw.activeWriterCond.L.Unlock()
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}
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func (cw *UploadPipeline) maybeMoveToSealed(memChunk *MemChunk, logicChunkIndex LogicChunkIndex) {
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if memChunk.usage.IsComplete(cw.ChunkSize) {
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cw.moveToSealed(memChunk, logicChunkIndex)
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}
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}
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func (cw *UploadPipeline) moveToSealed(memChunk *MemChunk, logicChunkIndex LogicChunkIndex) {
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atomic.AddInt32(&cw.activeWriterCount, 1)
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glog.V(4).Infof("%s activeWriterCount %d ++> %d", cw.filepath, cw.activeWriterCount-1, cw.activeWriterCount)
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cw.sealedChunksLock.Lock()
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if oldMemChunk, found := cw.sealedChunks[logicChunkIndex]; found {
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oldMemChunk.FreeReference(fmt.Sprintf("%s replace chunk %d", cw.filepath, logicChunkIndex))
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}
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sealedChunk := &SealedChunk{
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chunk: memChunk,
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referenceCounter: 1, // default 1 is for uploading process
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}
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cw.sealedChunks[logicChunkIndex] = sealedChunk
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delete(cw.writableChunks, logicChunkIndex)
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cw.sealedChunksLock.Unlock()
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cw.writers.Execute(func() {
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// first add to the file chunks
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cw.saveOneChunk(sealedChunk.chunk, logicChunkIndex)
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// notify waiting process
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atomic.AddInt32(&cw.activeWriterCount, -1)
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glog.V(4).Infof("%s activeWriterCount %d --> %d", cw.filepath, cw.activeWriterCount+1, cw.activeWriterCount)
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// Lock and Unlock are not required,
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// but it may signal multiple times during one wakeup,
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// and the waiting goroutine may miss some of them!
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cw.activeWriterCond.L.Lock()
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cw.activeWriterCond.Broadcast()
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cw.activeWriterCond.L.Unlock()
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// wait for readers
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for cw.IsLocked(logicChunkIndex) {
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time.Sleep(59 * time.Millisecond)
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}
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// then remove from sealed chunks
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cw.sealedChunksLock.Lock()
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defer cw.sealedChunksLock.Unlock()
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delete(cw.sealedChunks, logicChunkIndex)
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sealedChunk.FreeReference(fmt.Sprintf("%s finished uploading chunk %d", cw.filepath, logicChunkIndex))
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})
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}
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func (cw *UploadPipeline) saveOneChunk(memChunk *MemChunk, logicChunkIndex LogicChunkIndex) {
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if cw.saveToStorageFn == nil {
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return
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}
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for t := memChunk.usage.head.next; t != memChunk.usage.tail; t = t.next {
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reader := util.NewBytesReader(memChunk.buf[t.StartOffset:t.stopOffset])
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cw.saveToStorageFn(reader, int64(logicChunkIndex)*cw.ChunkSize+t.StartOffset, t.Size(), func() {
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})
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}
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}
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func readMemChunk(memChunk *MemChunk, p []byte, off int64, logicChunkIndex LogicChunkIndex, chunkSize int64) (maxStop int64) {
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memChunkBaseOffset := int64(logicChunkIndex) * chunkSize
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for t := memChunk.usage.head.next; t != memChunk.usage.tail; t = t.next {
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logicStart := max(off, int64(logicChunkIndex)*chunkSize+t.StartOffset)
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logicStop := min(off+int64(len(p)), memChunkBaseOffset+t.stopOffset)
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if logicStart < logicStop {
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copy(p[logicStart-off:logicStop-off], memChunk.buf[logicStart-memChunkBaseOffset:logicStop-memChunkBaseOffset])
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maxStop = max(maxStop, logicStop)
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}
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}
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return
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}
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func (p2 *UploadPipeline) Shutdown() {
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}
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