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package filesys
import (
"bytes"
"io"
"runtime"
"sync"
"time"
"github.com/chrislusf/seaweedfs/weed/util/log"
"github.com/chrislusf/seaweedfs/weed/pb/filer_pb"
)
type ContinuousDirtyPages struct {
intervals *ContinuousIntervals
f *File
writeWaitGroup sync.WaitGroup
chunkAddLock sync.Mutex
chunkSaveErrChan chan error
chunkSaveErrChanClosed bool
lastErr error
collection string
replication string
}
func newDirtyPages(file *File) *ContinuousDirtyPages {
dirtyPages := &ContinuousDirtyPages{
intervals: &ContinuousIntervals{},
f: file,
chunkSaveErrChan: make(chan error, runtime.NumCPU()),
}
go func() {
for t := range dirtyPages.chunkSaveErrChan {
if t != nil {
dirtyPages.lastErr = t
}
}
}()
return dirtyPages
}
func (pages *ContinuousDirtyPages) AddPage(offset int64, data []byte) {
log.Tracef("%s AddPage [%d,%d) of %d bytes", pages.f.fullpath(), offset, offset+int64(len(data)), pages.f.entry.Attributes.FileSize)
if len(data) > int(pages.f.wfs.option.ChunkSizeLimit) {
// this is more than what buffer can hold.
pages.flushAndSave(offset, data)
}
pages.intervals.AddInterval(data, offset)
if pages.intervals.TotalSize() >= pages.f.wfs.option.ChunkSizeLimit {
pages.saveExistingLargestPageToStorage()
}
return
}
func (pages *ContinuousDirtyPages) flushAndSave(offset int64, data []byte) {
// flush existing
pages.saveExistingPagesToStorage()
// flush the new page
pages.saveToStorage(bytes.NewReader(data), offset, int64(len(data)))
return
}
func (pages *ContinuousDirtyPages) saveExistingPagesToStorage() {
for pages.saveExistingLargestPageToStorage() {
}
}
func (pages *ContinuousDirtyPages) saveExistingLargestPageToStorage() (hasSavedData bool) {
maxList := pages.intervals.RemoveLargestIntervalLinkedList()
if maxList == nil {
return false
}
fileSize := int64(pages.f.entry.Attributes.FileSize)
chunkSize := min(maxList.Size(), fileSize-maxList.Offset())
if chunkSize == 0 {
return false
}
pages.saveToStorage(maxList.ToReader(), maxList.Offset(), chunkSize)
return true
}
func (pages *ContinuousDirtyPages) saveToStorage(reader io.Reader, offset int64, size int64) {
errChanSize := pages.f.wfs.option.ConcurrentWriters
if errChanSize == 0 {
errChanSize = runtime.NumCPU()
}
if pages.chunkSaveErrChanClosed {
pages.chunkSaveErrChan = make(chan error, errChanSize)
pages.chunkSaveErrChanClosed = false
}
mtime := time.Now().UnixNano()
pages.writeWaitGroup.Add(1)
writer := func() {
defer pages.writeWaitGroup.Done()
reader = io.LimitReader(reader, size)
chunk, collection, replication, err := pages.f.wfs.saveDataAsChunk(pages.f.fullpath())(reader, pages.f.Name, offset)
if err != nil {
log.Infof("%s saveToStorage [%d,%d): %v", pages.f.fullpath(), offset, offset+size, err)
pages.chunkSaveErrChan <- err
return
}
chunk.Mtime = mtime
pages.collection, pages.replication = collection, replication
pages.chunkAddLock.Lock()
defer pages.chunkAddLock.Unlock()
pages.f.addChunks([]*filer_pb.FileChunk{chunk})
log.Tracef("%s saveToStorage [%d,%d)", pages.f.fullpath(), offset, offset+size)
}
if pages.f.wfs.concurrentWriters != nil {
pages.f.wfs.concurrentWriters.Execute(writer)
} else {
go writer()
}
}
func max(x, y int64) int64 {
if x > y {
return x
}
return y
}
func min(x, y int64) int64 {
if x < y {
return x
}
return y
}
func (pages *ContinuousDirtyPages) ReadDirtyDataAt(data []byte, startOffset int64) (maxStop int64) {
return pages.intervals.ReadDataAt(data, startOffset)
}
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