package mergeset import ( "fmt" "io" "path/filepath" "sync" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding" "github.com/VictoriaMetrics/VictoriaMetrics/lib/filestream" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fs" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" ) type blockStreamReader struct { // Block contains the current block if Next returned true. Block inmemoryBlock blockItemIdx int path string // ph contains partHeader for the read part. ph partHeader // All the metaindexRows. // The blockStreamReader doesn't own mrs - it must be alive // during the read. mrs []metaindexRow // The index for the currently processed metaindexRow from mrs. mrIdx int // Currently processed blockHeaders. bhs []blockHeader // The index of the currently processed blockHeader. bhIdx int indexReader filestream.ReadCloser itemsReader filestream.ReadCloser lensReader filestream.ReadCloser // Contains the current blockHeader. bh *blockHeader // Contains the current storageBlock. sb storageBlock // The number of items read so far. itemsRead uint64 // The number of blocks read so far. blocksRead uint64 // Whether the first item in the reader checked with ph.firstItem. firstItemChecked bool packedBuf []byte unpackedBuf []byte // The last error. err error } func (bsr *blockStreamReader) reset() { bsr.Block.Reset() bsr.blockItemIdx = 0 bsr.path = "" bsr.ph.Reset() bsr.mrs = nil bsr.mrIdx = 0 bsr.bhs = bsr.bhs[:0] bsr.bhIdx = 0 bsr.indexReader = nil bsr.itemsReader = nil bsr.lensReader = nil bsr.bh = nil bsr.sb.Reset() bsr.itemsRead = 0 bsr.blocksRead = 0 bsr.firstItemChecked = false bsr.packedBuf = bsr.packedBuf[:0] bsr.unpackedBuf = bsr.unpackedBuf[:0] bsr.err = nil } func (bsr *blockStreamReader) String() string { if len(bsr.path) > 0 { return bsr.path } return bsr.ph.String() } // InitFromInmemoryPart initializes bsr from the given ip. func (bsr *blockStreamReader) InitFromInmemoryPart(ip *inmemoryPart) { bsr.reset() var err error bsr.mrs, err = unmarshalMetaindexRows(bsr.mrs[:0], ip.metaindexData.NewReader()) if err != nil { logger.Panicf("BUG: cannot unmarshal metaindex rows from inmemory part: %s", err) } bsr.ph.CopyFrom(&ip.ph) bsr.indexReader = ip.indexData.NewReader() bsr.itemsReader = ip.itemsData.NewReader() bsr.lensReader = ip.lensData.NewReader() if bsr.ph.itemsCount <= 0 { logger.Panicf("BUG: source inmemoryPart must contain at least a single item") } if bsr.ph.blocksCount <= 0 { logger.Panicf("BUG: source inmemoryPart must contain at least a single block") } } // InitFromFilePart initializes bsr from a file-based part on the given path. // // Part files are read without OS cache pollution, since the part is usually // deleted after the merge. func (bsr *blockStreamReader) InitFromFilePart(path string) error { bsr.reset() path = filepath.Clean(path) if err := bsr.ph.ParseFromPath(path); err != nil { return fmt.Errorf("cannot parse partHeader data from %q: %w", path, err) } metaindexPath := path + "/metaindex.bin" metaindexFile, err := filestream.Open(metaindexPath, true) if err != nil { return fmt.Errorf("cannot open metaindex file in stream mode: %w", err) } bsr.mrs, err = unmarshalMetaindexRows(bsr.mrs[:0], metaindexFile) metaindexFile.MustClose() if err != nil { return fmt.Errorf("cannot unmarshal metaindex rows from file %q: %w", metaindexPath, err) } indexPath := path + "/index.bin" indexFile, err := filestream.Open(indexPath, true) if err != nil { return fmt.Errorf("cannot open index file in stream mode: %w", err) } itemsPath := path + "/items.bin" itemsFile, err := filestream.Open(itemsPath, true) if err != nil { indexFile.MustClose() return fmt.Errorf("cannot open items file in stream mode: %w", err) } lensPath := path + "/lens.bin" lensFile, err := filestream.Open(lensPath, true) if err != nil { indexFile.MustClose() itemsFile.MustClose() return fmt.Errorf("cannot open lens file in stream mode: %w", err) } bsr.path = path bsr.indexReader = indexFile bsr.itemsReader = itemsFile bsr.lensReader = lensFile return nil } // MustClose closes the bsr. // // It closes *Reader files passed to Init. func (bsr *blockStreamReader) MustClose() { bsr.indexReader.MustClose() bsr.itemsReader.MustClose() bsr.lensReader.MustClose() bsr.reset() } func (bsr *blockStreamReader) Next() bool { if bsr.err != nil { return false } if bsr.bhIdx >= len(bsr.bhs) { // The current index block is over. Try reading the next index block. if err := bsr.readNextBHS(); err != nil { if err == io.EOF { // Check the last item. lastItem := bsr.Block.items[len(bsr.Block.items)-1] if string(bsr.ph.lastItem) != string(lastItem) { err = fmt.Errorf("unexpected last item; got %X; want %X", lastItem, bsr.ph.lastItem) } } else { err = fmt.Errorf("cannot read the next index block: %w", err) } bsr.err = err return false } } bsr.bh = &bsr.bhs[bsr.bhIdx] bsr.bhIdx++ bsr.sb.itemsData = bytesutil.Resize(bsr.sb.itemsData, int(bsr.bh.itemsBlockSize)) if err := fs.ReadFullData(bsr.itemsReader, bsr.sb.itemsData); err != nil { bsr.err = fmt.Errorf("cannot read compressed items block with size %d: %w", bsr.bh.itemsBlockSize, err) return false } bsr.sb.lensData = bytesutil.Resize(bsr.sb.lensData, int(bsr.bh.lensBlockSize)) if err := fs.ReadFullData(bsr.lensReader, bsr.sb.lensData); err != nil { bsr.err = fmt.Errorf("cannot read compressed lens block with size %d: %w", bsr.bh.lensBlockSize, err) return false } if err := bsr.Block.UnmarshalData(&bsr.sb, bsr.bh.firstItem, bsr.bh.commonPrefix, bsr.bh.itemsCount, bsr.bh.marshalType); err != nil { bsr.err = fmt.Errorf("cannot unmarshal inmemoryBlock from storageBlock with firstItem=%X, commonPrefix=%X, itemsCount=%d, marshalType=%d: %w", bsr.bh.firstItem, bsr.bh.commonPrefix, bsr.bh.itemsCount, bsr.bh.marshalType, err) return false } bsr.blocksRead++ if bsr.blocksRead > bsr.ph.blocksCount { bsr.err = fmt.Errorf("too many blocks read: %d; must be smaller than partHeader.blocksCount %d", bsr.blocksRead, bsr.ph.blocksCount) return false } bsr.blockItemIdx = 0 bsr.itemsRead += uint64(len(bsr.Block.items)) if bsr.itemsRead > bsr.ph.itemsCount { bsr.err = fmt.Errorf("too many items read: %d; must be smaller than partHeader.itemsCount %d", bsr.itemsRead, bsr.ph.itemsCount) return false } if !bsr.firstItemChecked { bsr.firstItemChecked = true if string(bsr.ph.firstItem) != string(bsr.Block.items[0]) { bsr.err = fmt.Errorf("unexpected first item; got %X; want %X", bsr.Block.items[0], bsr.ph.firstItem) return false } } return true } func (bsr *blockStreamReader) readNextBHS() error { if bsr.mrIdx >= len(bsr.mrs) { return io.EOF } mr := &bsr.mrs[bsr.mrIdx] bsr.mrIdx++ // Read compressed index block. bsr.packedBuf = bytesutil.Resize(bsr.packedBuf, int(mr.indexBlockSize)) if err := fs.ReadFullData(bsr.indexReader, bsr.packedBuf); err != nil { return fmt.Errorf("cannot read compressed index block with size %d: %w", mr.indexBlockSize, err) } // Unpack the compressed index block. var err error bsr.unpackedBuf, err = encoding.DecompressZSTD(bsr.unpackedBuf[:0], bsr.packedBuf) if err != nil { return fmt.Errorf("cannot decompress index block: %w", err) } // Unmarshal the unpacked index block into bsr.bhs. if n := int(mr.blockHeadersCount) - cap(bsr.bhs); n > 0 { bsr.bhs = append(bsr.bhs[:cap(bsr.bhs)], make([]blockHeader, n)...) } bsr.bhs = bsr.bhs[:mr.blockHeadersCount] bsr.bhIdx = 0 b := bsr.unpackedBuf for i := 0; i < int(mr.blockHeadersCount); i++ { tail, err := bsr.bhs[i].Unmarshal(b) if err != nil { return fmt.Errorf("cannot unmarshal blockHeader #%d in the index block #%d: %w", len(bsr.bhs), bsr.mrIdx, err) } b = tail } if len(b) > 0 { return fmt.Errorf("unexpected non-empty tail left after unmarshaling block headers; len(tail)=%d", len(b)) } return nil } func (bsr *blockStreamReader) Error() error { if bsr.err == io.EOF { return nil } return bsr.err } func getBlockStreamReader() *blockStreamReader { v := bsrPool.Get() if v == nil { return &blockStreamReader{} } return v.(*blockStreamReader) } func putBlockStreamReader(bsr *blockStreamReader) { bsr.MustClose() bsrPool.Put(bsr) } var bsrPool sync.Pool