package logstorage import ( "container/heap" "fmt" "strings" "sync" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" ) // mustMergeBlockStreams merges bsrs to bsw and updates ph accordingly. // // Finalize() is guaranteed to be called on bsrs and bsw before returning from the func. func mustMergeBlockStreams(ph *partHeader, bsw *blockStreamWriter, bsrs []*blockStreamReader, stopCh <-chan struct{}) { bsm := getBlockStreamMerger() bsm.mustInit(bsw, bsrs) for len(bsm.readersHeap) > 0 { if needStop(stopCh) { break } bsr := bsm.readersHeap[0] bsm.mustWriteBlock(&bsr.blockData, bsw) if bsr.NextBlock() { heap.Fix(&bsm.readersHeap, 0) } else { heap.Pop(&bsm.readersHeap) } } bsm.mustFlushRows() putBlockStreamMerger(bsm) bsw.Finalize(ph) mustCloseBlockStreamReaders(bsrs) } // blockStreamMerger merges block streams type blockStreamMerger struct { // bsw is the block stream writer to write the merged blocks. bsw *blockStreamWriter // bsrs contains the original readers passed to mustInit(). // They are used by ReadersPaths() bsrs []*blockStreamReader // readersHeap contains a heap of readers to read blocks to merge. readersHeap blockStreamReadersHeap // streamID is the stream ID for the pending data. streamID streamID // sbu is the unmarshaler for strings in rows and rowsTmp. sbu *stringsBlockUnmarshaler // vd is the decoder for unmarshaled strings. vd *valuesDecoder // bd is the pending blockData. // bd is unpacked into rows when needed. bd blockData // rows is pending log entries. rows rows // rowsTmp is temporary storage for log entries during merge. rowsTmp rows // uncompressedRowsSizeBytes is the current size of uncompressed rows. // // It is used for flushing rows to blocks when their size reaches maxUncompressedBlockSize uncompressedRowsSizeBytes uint64 } func (bsm *blockStreamMerger) reset() { bsm.bsw = nil rhs := bsm.readersHeap for i := range rhs { rhs[i] = nil } bsm.readersHeap = rhs[:0] bsm.streamID.reset() bsm.resetRows() } func (bsm *blockStreamMerger) resetRows() { if bsm.sbu != nil { putStringsBlockUnmarshaler(bsm.sbu) bsm.sbu = nil } if bsm.vd != nil { putValuesDecoder(bsm.vd) bsm.vd = nil } bsm.bd.reset() bsm.rows.reset() bsm.rowsTmp.reset() bsm.uncompressedRowsSizeBytes = 0 } func (bsm *blockStreamMerger) mustInit(bsw *blockStreamWriter, bsrs []*blockStreamReader) { bsm.reset() bsm.bsw = bsw bsm.bsrs = bsrs rsh := bsm.readersHeap[:0] for _, bsr := range bsrs { if bsr.NextBlock() { rsh = append(rsh, bsr) } } bsm.readersHeap = rsh heap.Init(&bsm.readersHeap) } // mustWriteBlock writes bd to bsm func (bsm *blockStreamMerger) mustWriteBlock(bd *blockData, bsw *blockStreamWriter) { bsm.checkNextBlock(bd) switch { case !bd.streamID.equal(&bsm.streamID): // The bd contains another streamID. // Write the current log entries under the current streamID, then process the bd. bsm.mustFlushRows() bsm.streamID = bd.streamID if bd.uncompressedSizeBytes >= maxUncompressedBlockSize { // Fast path - write full bd to the output without extracting log entries from it. bsw.MustWriteBlockData(bd) } else { // Slow path - copy the bd to the curr bd. bsm.bd.copyFrom(bd) } case bd.uncompressedSizeBytes >= maxUncompressedBlockSize: // The bd contains the same streamID and it is full, // so it can be written next after the current log entries // without the need to merge the bd with the current log entries. // Write the current log entries and then the bd. bsm.mustFlushRows() bsw.MustWriteBlockData(bd) default: // The bd contains the same streamID and it isn't full, // so it must be merged with the current log entries. bsm.mustMergeRows(bd) } } // checkNextBlock checks whether the bd can be written next after the current data. func (bsm *blockStreamMerger) checkNextBlock(bd *blockData) { if len(bsm.rows.timestamps) > 0 && bsm.bd.rowsCount > 0 { logger.Panicf("BUG: bsm.bd must be empty when bsm.rows isn't empty! got %d log entries in bsm.bd", bsm.bd.rowsCount) } if bd.streamID.less(&bsm.streamID) { logger.Panicf("FATAL: cannot merge %s: the streamID=%s for the next block is smaller than the streamID=%s for the current block", bsm.ReadersPaths(), &bd.streamID, &bsm.streamID) } if !bd.streamID.equal(&bsm.streamID) { return } // streamID at bd equals streamID at bsm. Check that minTimestamp in bd is bigger or equal to the minTimestmap at bsm. if bd.rowsCount == 0 { return } nextMinTimestamp := bd.timestampsData.minTimestamp if len(bsm.rows.timestamps) == 0 { if bsm.bd.rowsCount == 0 { return } minTimestamp := bsm.bd.timestampsData.minTimestamp if nextMinTimestamp < minTimestamp { logger.Panicf("FATAL: cannot merge %s: the next block's minTimestamp=%d is smaller than the minTimestamp=%d for the current block", bsm.ReadersPaths(), nextMinTimestamp, minTimestamp) } return } minTimestamp := bsm.rows.timestamps[0] if nextMinTimestamp < minTimestamp { logger.Panicf("FATAL: cannot merge %s: the next block's minTimestamp=%d is smaller than the minTimestamp=%d for log entries for the current block", bsm.ReadersPaths(), nextMinTimestamp, minTimestamp) } } // ReadersPaths returns paths for input blockStreamReaders func (bsm *blockStreamMerger) ReadersPaths() string { paths := make([]string, len(bsm.bsrs)) for i, bsr := range bsm.bsrs { paths[i] = bsr.Path() } return fmt.Sprintf("[%s]", strings.Join(paths, ",")) } // mustMergeRows merges the current log entries inside bsm with bd log entries. func (bsm *blockStreamMerger) mustMergeRows(bd *blockData) { if bsm.bd.rowsCount > 0 { // Unmarshal log entries from bsm.bd bsm.mustUnmarshalRows(&bsm.bd) bsm.bd.reset() } // Unmarshal log entries from bd rowsLen := len(bsm.rows.timestamps) bsm.mustUnmarshalRows(bd) // Merge unmarshaled log entries timestamps := bsm.rows.timestamps rows := bsm.rows.rows bsm.rowsTmp.mergeRows(timestamps[:rowsLen], timestamps[rowsLen:], rows[:rowsLen], rows[rowsLen:]) bsm.rows, bsm.rowsTmp = bsm.rowsTmp, bsm.rows bsm.rowsTmp.reset() if bsm.uncompressedRowsSizeBytes >= maxUncompressedBlockSize { bsm.mustFlushRows() } } func (bsm *blockStreamMerger) mustUnmarshalRows(bd *blockData) { rowsLen := len(bsm.rows.timestamps) if bsm.sbu == nil { bsm.sbu = getStringsBlockUnmarshaler() } if bsm.vd == nil { bsm.vd = getValuesDecoder() } if err := bd.unmarshalRows(&bsm.rows, bsm.sbu, bsm.vd); err != nil { logger.Panicf("FATAL: cannot merge %s: cannot unmarshal log entries from blockData: %s", bsm.ReadersPaths(), err) } bsm.uncompressedRowsSizeBytes += uncompressedRowsSizeBytes(bsm.rows.rows[rowsLen:]) } func (bsm *blockStreamMerger) mustFlushRows() { if len(bsm.rows.timestamps) == 0 { bsm.bsw.MustWriteBlockData(&bsm.bd) } else { bsm.bsw.MustWriteRows(&bsm.streamID, bsm.rows.timestamps, bsm.rows.rows) } bsm.resetRows() } func getBlockStreamMerger() *blockStreamMerger { v := blockStreamMergerPool.Get() if v == nil { return &blockStreamMerger{} } return v.(*blockStreamMerger) } func putBlockStreamMerger(bsm *blockStreamMerger) { bsm.reset() blockStreamMergerPool.Put(bsm) } var blockStreamMergerPool sync.Pool type blockStreamReadersHeap []*blockStreamReader func (h *blockStreamReadersHeap) Len() int { return len(*h) } func (h *blockStreamReadersHeap) Less(i, j int) bool { x := *h a := &x[i].blockData b := &x[j].blockData if !a.streamID.equal(&b.streamID) { return a.streamID.less(&b.streamID) } return a.timestampsData.minTimestamp < b.timestampsData.minTimestamp } func (h *blockStreamReadersHeap) Swap(i, j int) { x := *h x[i], x[j] = x[j], x[i] } func (h *blockStreamReadersHeap) Push(v interface{}) { bsr := v.(*blockStreamReader) *h = append(*h, bsr) } func (h *blockStreamReadersHeap) Pop() interface{} { x := *h bsr := x[len(x)-1] x[len(x)-1] = nil *h = x[:len(x)-1] return bsr }