package filer import ( "sync" "github.com/seaweedfs/seaweedfs/weed/pb/filer_pb" "github.com/seaweedfs/seaweedfs/weed/util/chunk_cache" "github.com/seaweedfs/seaweedfs/weed/wdclient" ) type ChunkGroup struct { lookupFn wdclient.LookupFileIdFunctionType sections map[SectionIndex]*FileChunkSection sectionsLock sync.RWMutex readerCache *ReaderCache } func NewChunkGroup(lookupFn wdclient.LookupFileIdFunctionType, chunkCache chunk_cache.ChunkCache, chunks []*filer_pb.FileChunk) (*ChunkGroup, error) { group := &ChunkGroup{ lookupFn: lookupFn, sections: make(map[SectionIndex]*FileChunkSection), readerCache: NewReaderCache(32, chunkCache, lookupFn), } err := group.SetChunks(chunks) return group, err } func (group *ChunkGroup) AddChunk(chunk *filer_pb.FileChunk) error { group.sectionsLock.Lock() defer group.sectionsLock.Unlock() sectionIndexStart, sectionIndexStop := SectionIndex(chunk.Offset/SectionSize), SectionIndex((chunk.Offset+int64(chunk.Size))/SectionSize) for si := sectionIndexStart; si < sectionIndexStop+1; si++ { section, found := group.sections[si] if !found { section = NewFileChunkSection(si) group.sections[si] = section } section.addChunk(chunk) } return nil } func (group *ChunkGroup) ReadDataAt(fileSize int64, buff []byte, offset int64) (n int, tsNs int64, err error) { group.sectionsLock.RLock() defer group.sectionsLock.RUnlock() sectionIndexStart, sectionIndexStop := SectionIndex(offset/SectionSize), SectionIndex((offset+int64(len(buff)))/SectionSize) for si := sectionIndexStart; si < sectionIndexStop+1; si++ { section, found := group.sections[si] rangeStart, rangeStop := max(offset, int64(si*SectionSize)), min(offset+int64(len(buff)), int64((si+1)*SectionSize)) if !found { rangeStop = min(rangeStop, fileSize) for i := rangeStart; i < rangeStop; i++ { buff[i-offset] = 0 } n = int(int64(n) + rangeStop - rangeStart) continue } xn, xTsNs, xErr := section.readDataAt(group, fileSize, buff[rangeStart-offset:rangeStop-offset], rangeStart) if xErr != nil { err = xErr } n += xn tsNs = max(tsNs, xTsNs) } return } func (group *ChunkGroup) SetChunks(chunks []*filer_pb.FileChunk) error { group.sectionsLock.RLock() defer group.sectionsLock.RUnlock() var dataChunks []*filer_pb.FileChunk for _, chunk := range chunks { if !chunk.IsChunkManifest { dataChunks = append(dataChunks, chunk) continue } resolvedChunks, err := ResolveOneChunkManifest(group.lookupFn, chunk) if err != nil { return err } dataChunks = append(dataChunks, resolvedChunks...) } sections := make(map[SectionIndex]*FileChunkSection) for _, chunk := range dataChunks { sectionIndexStart, sectionIndexStop := SectionIndex(chunk.Offset/SectionSize), SectionIndex((chunk.Offset+int64(chunk.Size))/SectionSize) for si := sectionIndexStart; si < sectionIndexStop+1; si++ { section, found := sections[si] if !found { section = NewFileChunkSection(si) sections[si] = section } section.chunks = append(section.chunks, chunk) } } group.sections = sections return nil } const ( // see weedfs_file_lseek.go SEEK_DATA uint32 = 3 // seek to next data after the offset // SEEK_HOLE uint32 = 4 // seek to next hole after the offset ) // FIXME: needa tests func (group *ChunkGroup) SearchChunks(offset, fileSize int64, whence uint32) (found bool, out int64) { group.sectionsLock.RLock() defer group.sectionsLock.RUnlock() return group.doSearchChunks(offset, fileSize, whence) } func (group *ChunkGroup) doSearchChunks(offset, fileSize int64, whence uint32) (found bool, out int64) { sectionIndex, maxSectionIndex := SectionIndex(offset/SectionSize), SectionIndex(fileSize/SectionSize) if whence == SEEK_DATA { for si := sectionIndex; si < maxSectionIndex+1; si++ { section, foundSection := group.sections[si] if !foundSection { continue } sectionStart := section.DataStartOffset(group, offset, fileSize) if sectionStart == -1 { continue } return true, sectionStart } return false, 0 } else { // whence == SEEK_HOLE for si := sectionIndex; si < maxSectionIndex; si++ { section, foundSection := group.sections[si] if !foundSection { return true, offset } holeStart := section.NextStopOffset(group, offset, fileSize) if holeStart%SectionSize == 0 { continue } return true, holeStart } return true, fileSize } }