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3346576a3a
It has been appeared that VictoriaLogs is frequently used for collecting logs with tens of fields. For example, standard Kuberntes setup on top of Filebeat generates more than 20 fields per each log. Such logs are also known as "wide events". The previous storage format was optimized for logs with a few fields. When at least a single field was referenced in the query, then the all the meta-information about all the log fields was unpacked and parsed per each scanned block during the query. This could require a lot of additional disk IO and CPU time when logs contain many fields. Resolve this issue by providing an (field -> metainfo_offset) index per each field in every data block. This index allows reading and extracting only the needed metainfo for fields used in the query. This index is stored in columnsHeaderIndexFilename ( columns_header_index.bin ). This allows increasing performance for queries over wide events by 10x and more. Another issue was that the data for bloom filters and field values across all the log fields except of _msg was intermixed in two files - fieldBloomFilename ( field_bloom.bin ) and fieldValuesFilename ( field_values.bin ). This could result in huge disk read IO overhead when some small field was referred in the query, since the Operating System usually reads more data than requested. It reads the data from disk in at least 4KiB blocks (usually the block size is much bigger in the range 64KiB - 512KiB). So, if 512-byte bloom filter or values' block is read from the file, then the Operating System reads up to 512KiB of data from disk, which results in 1000x disk read IO overhead. This overhead isn't visible for recently accessed data, since this data is usually stored in RAM (aka Operating System page cache), but this overhead may become very annoying when performing the query over large volumes of data which isn't present in OS page cache. The solution for this issue is to split bloom filters and field values across multiple shards. This reduces the worst-case disk read IO overhead by at least Nx where N is the number of shards, while the disk read IO overhead is completely removed in best case when the number of columns doesn't exceed N. Currently the number of shards is 8 - see bloomValuesShardsCount . This solution increases performance for queries over large volumes of newly ingested data by up to 1000x. The new storage format is versioned as v1, while the old storage format is version as v0. It is stored in the partHeader.FormatVersion. Parts with the old storage format are converted into parts with the new storage format during background merge. It is possible to force merge by querying /internal/force_merge HTTP endpoint - see https://docs.victoriametrics.com/victorialogs/#forced-merge .
398 lines
13 KiB
Go
398 lines
13 KiB
Go
package logstorage
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import (
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/slicesutil"
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)
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// blockData contains packed data for a single block.
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//
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// The main purpose of this struct is to reduce the work needed during background merge of parts.
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// If the block is full, then the blockData can be written to the destination part
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// without the need to unpack it.
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type blockData struct {
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// streamID is id of the stream for the data
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streamID streamID
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// uncompressedSizeBytes is the original (uncompressed) size of log entries stored in the block
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uncompressedSizeBytes uint64
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// rowsCount is the number of log entries in the block
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rowsCount uint64
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// timestampsData contains the encoded timestamps data for the block
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timestampsData timestampsData
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// columnsData contains packed per-column data
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columnsData []columnData
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// constColumns contains data for const columns across the block
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constColumns []Field
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}
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// reset resets bd for subsequent re-use
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func (bd *blockData) reset() {
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bd.streamID.reset()
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bd.uncompressedSizeBytes = 0
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bd.rowsCount = 0
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bd.timestampsData.reset()
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cds := bd.columnsData
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for i := range cds {
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cds[i].reset()
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}
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bd.columnsData = cds[:0]
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ccs := bd.constColumns
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for i := range ccs {
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ccs[i].Reset()
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}
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bd.constColumns = ccs[:0]
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}
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func (bd *blockData) resizeColumnsData(columnsDataLen int) []columnData {
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bd.columnsData = slicesutil.SetLength(bd.columnsData, columnsDataLen)
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return bd.columnsData
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}
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// copyFrom copies src to bd.
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//
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// bd is valid until a.reset() is called.
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func (bd *blockData) copyFrom(a *arena, src *blockData) {
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bd.reset()
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bd.streamID = src.streamID
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bd.uncompressedSizeBytes = src.uncompressedSizeBytes
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bd.rowsCount = src.rowsCount
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bd.timestampsData.copyFrom(a, &src.timestampsData)
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cdsSrc := src.columnsData
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cds := bd.resizeColumnsData(len(cdsSrc))
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for i := range cds {
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cds[i].copyFrom(a, &cdsSrc[i])
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}
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bd.columnsData = cds
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bd.constColumns = appendFields(a, bd.constColumns[:0], src.constColumns)
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}
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// unmarshalRows appends unmarshaled from bd log entries to dst.
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//
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// The unmarshaled log entries are valid until sbu and vd are reset.
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func (bd *blockData) unmarshalRows(dst *rows, sbu *stringsBlockUnmarshaler, vd *valuesDecoder) error {
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b := getBlock()
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defer putBlock(b)
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if err := b.InitFromBlockData(bd, sbu, vd); err != nil {
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return err
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}
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b.appendRowsTo(dst)
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return nil
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}
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// mustWriteTo writes bd to sw and updates bh accordingly
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func (bd *blockData) mustWriteTo(bh *blockHeader, sw *streamWriters, g *columnNameIDGenerator) {
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// Do not store the version used for encoding directly in the block data, since:
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// - all the blocks in the same part use the same encoding
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// - the block encoding version can be put in metadata file for the part (aka metadataFilename)
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bh.reset()
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bh.streamID = bd.streamID
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bh.uncompressedSizeBytes = bd.uncompressedSizeBytes
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bh.rowsCount = bd.rowsCount
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// Marshal timestamps
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bd.timestampsData.mustWriteTo(&bh.timestampsHeader, sw)
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// Marshal columns
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cds := bd.columnsData
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csh := getColumnsHeader()
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chs := csh.resizeColumnHeaders(len(cds))
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for i := range cds {
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cds[i].mustWriteTo(&chs[i], sw)
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}
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csh.constColumns = append(csh.constColumns[:0], bd.constColumns...)
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csh.mustWriteTo(bh, sw, g)
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putColumnsHeader(csh)
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}
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// mustReadFrom reads block data associated with bh from sr to bd.
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//
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// The bd is valid until a.reset() is called.
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func (bd *blockData) mustReadFrom(a *arena, bh *blockHeader, sr *streamReaders, partFormatVersion uint, columnNames []string) {
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bd.reset()
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bd.streamID = bh.streamID
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bd.uncompressedSizeBytes = bh.uncompressedSizeBytes
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bd.rowsCount = bh.rowsCount
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// Read timestamps
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bd.timestampsData.mustReadFrom(a, &bh.timestampsHeader, sr)
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// Read columns
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if bh.columnsHeaderOffset != sr.columnsHeaderReader.bytesRead {
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logger.Panicf("FATAL: %s: unexpected columnsHeaderOffset=%d; must equal to the number of bytes read: %d",
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sr.columnsHeaderReader.Path(), bh.columnsHeaderOffset, sr.columnsHeaderReader.bytesRead)
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}
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columnsHeaderSize := bh.columnsHeaderSize
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if columnsHeaderSize > maxColumnsHeaderSize {
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logger.Panicf("BUG: %s: too big columnsHeaderSize: %d bytes; mustn't exceed %d bytes", sr.columnsHeaderReader.Path(), columnsHeaderSize, maxColumnsHeaderSize)
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}
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bb := longTermBufPool.Get()
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bb.B = bytesutil.ResizeNoCopyMayOverallocate(bb.B, int(columnsHeaderSize))
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sr.columnsHeaderReader.MustReadFull(bb.B)
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csh := getColumnsHeader()
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if err := csh.unmarshalNoArena(bb.B, partFormatVersion); err != nil {
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logger.Panicf("FATAL: %s: cannot unmarshal columnsHeader: %s", sr.columnsHeaderReader.Path(), err)
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}
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if partFormatVersion >= 1 {
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readColumnNamesFromColumnsHeaderIndex(bh, sr, csh, columnNames)
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}
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chs := csh.columnHeaders
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cds := bd.resizeColumnsData(len(chs))
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for i := range chs {
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cds[i].mustReadFrom(a, &chs[i], sr, partFormatVersion)
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}
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bd.constColumns = appendFields(a, bd.constColumns[:0], csh.constColumns)
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putColumnsHeader(csh)
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longTermBufPool.Put(bb)
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}
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func readColumnNamesFromColumnsHeaderIndex(bh *blockHeader, sr *streamReaders, csh *columnsHeader, columnNames []string) {
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bb := longTermBufPool.Get()
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defer longTermBufPool.Put(bb)
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n := bh.columnsHeaderIndexSize
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if n > maxColumnsHeaderIndexSize {
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logger.Panicf("BUG: %s: too big columnsHeaderIndexSize: %d bytes; mustn't exceed %d bytes", sr.columnsHeaderIndexReader.Path(), n, maxColumnsHeaderIndexSize)
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}
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bb.B = bytesutil.ResizeNoCopyMayOverallocate(bb.B, int(n))
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sr.columnsHeaderIndexReader.MustReadFull(bb.B)
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cshIndex := getColumnsHeaderIndex()
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if err := cshIndex.unmarshalNoArena(bb.B); err != nil {
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logger.Panicf("FATAL: %s: cannot unmarshal columnsHeaderIndex: %s", sr.columnsHeaderIndexReader.Path(), err)
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}
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if err := csh.setColumnNames(cshIndex, columnNames); err != nil {
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logger.Panicf("FATAL: %s: %s", sr.columnsHeaderIndexReader.Path(), err)
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}
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putColumnsHeaderIndex(cshIndex)
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}
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// timestampsData contains the encoded timestamps data.
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type timestampsData struct {
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// data contains packed timestamps data.
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data []byte
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// marshalType is the marshal type for timestamps
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marshalType encoding.MarshalType
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// minTimestamp is the minimum timestamp in the timestamps data
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minTimestamp int64
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// maxTimestamp is the maximum timestamp in the timestamps data
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maxTimestamp int64
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}
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// reset resets td for subsequent re-use
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func (td *timestampsData) reset() {
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td.data = nil
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td.marshalType = 0
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td.minTimestamp = 0
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td.maxTimestamp = 0
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}
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// copyFrom copies src to td.
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//
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// td is valid until a.reset() is called.
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func (td *timestampsData) copyFrom(a *arena, src *timestampsData) {
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td.reset()
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td.data = a.copyBytes(src.data)
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td.marshalType = src.marshalType
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td.minTimestamp = src.minTimestamp
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td.maxTimestamp = src.maxTimestamp
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}
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// mustWriteTo writes td to sw and updates th accordingly
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func (td *timestampsData) mustWriteTo(th *timestampsHeader, sw *streamWriters) {
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th.reset()
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th.marshalType = td.marshalType
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th.minTimestamp = td.minTimestamp
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th.maxTimestamp = td.maxTimestamp
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th.blockOffset = sw.timestampsWriter.bytesWritten
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th.blockSize = uint64(len(td.data))
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if th.blockSize > maxTimestampsBlockSize {
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logger.Panicf("BUG: too big timestampsHeader.blockSize: %d bytes; mustn't exceed %d bytes", th.blockSize, maxTimestampsBlockSize)
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}
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sw.timestampsWriter.MustWrite(td.data)
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}
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// mustReadFrom reads timestamps data associated with th from sr to td.
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//
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// td is valid until a.reset() is called.
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func (td *timestampsData) mustReadFrom(a *arena, th *timestampsHeader, sr *streamReaders) {
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td.reset()
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td.marshalType = th.marshalType
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td.minTimestamp = th.minTimestamp
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td.maxTimestamp = th.maxTimestamp
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timestampsReader := &sr.timestampsReader
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if th.blockOffset != timestampsReader.bytesRead {
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logger.Panicf("FATAL: %s: unexpected timestampsHeader.blockOffset=%d; must equal to the number of bytes read: %d",
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timestampsReader.Path(), th.blockOffset, timestampsReader.bytesRead)
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}
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timestampsBlockSize := th.blockSize
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if timestampsBlockSize > maxTimestampsBlockSize {
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logger.Panicf("FATAL: %s: too big timestamps block with %d bytes; the maximum supported block size is %d bytes",
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timestampsReader.Path(), timestampsBlockSize, maxTimestampsBlockSize)
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}
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td.data = a.newBytes(int(timestampsBlockSize))
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timestampsReader.MustReadFull(td.data)
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}
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// columnData contains packed data for a single column.
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type columnData struct {
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// name is the column name
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name string
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// valueType is the type of values stored in valuesData
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valueType valueType
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// minValue is the minimum encoded uint* or float64 value in the columnHeader
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//
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// It is used for fast detection of whether the given columnHeader contains values in the given range
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minValue uint64
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// maxValue is the maximum encoded uint* or float64 value in the columnHeader
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//
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// It is used for fast detection of whether the given columnHeader contains values in the given range
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maxValue uint64
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// valuesDict contains unique values for valueType = valueTypeDict
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valuesDict valuesDict
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// valuesData contains packed values data for the given column
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valuesData []byte
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// bloomFilterData contains packed bloomFilter data for the given column
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bloomFilterData []byte
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}
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// reset rests cd for subsequent re-use
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func (cd *columnData) reset() {
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cd.name = ""
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cd.valueType = 0
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cd.minValue = 0
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cd.maxValue = 0
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cd.valuesDict.reset()
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cd.valuesData = nil
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cd.bloomFilterData = nil
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}
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// copyFrom copies src to cd.
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//
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// cd is valid until a.reset() is called.
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func (cd *columnData) copyFrom(a *arena, src *columnData) {
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cd.reset()
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cd.name = a.copyString(src.name)
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cd.valueType = src.valueType
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cd.minValue = src.minValue
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cd.maxValue = src.maxValue
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cd.valuesDict.copyFrom(a, &src.valuesDict)
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cd.valuesData = a.copyBytes(src.valuesData)
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cd.bloomFilterData = a.copyBytes(src.bloomFilterData)
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}
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// mustWriteTo writes cd to sw and updates ch accordingly.
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//
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// ch is valid until cd is changed.
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func (cd *columnData) mustWriteTo(ch *columnHeader, sw *streamWriters) {
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ch.reset()
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ch.name = cd.name
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ch.valueType = cd.valueType
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ch.minValue = cd.minValue
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ch.maxValue = cd.maxValue
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ch.valuesDict.copyFromNoArena(&cd.valuesDict)
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bloomValuesWriter := sw.getBloomValuesWriterForColumnName(ch.name)
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// marshal values
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ch.valuesSize = uint64(len(cd.valuesData))
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if ch.valuesSize > maxValuesBlockSize {
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logger.Panicf("BUG: too big valuesSize: %d bytes; mustn't exceed %d bytes", ch.valuesSize, maxValuesBlockSize)
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}
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ch.valuesOffset = bloomValuesWriter.values.bytesWritten
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bloomValuesWriter.values.MustWrite(cd.valuesData)
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// marshal bloom filter
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ch.bloomFilterSize = uint64(len(cd.bloomFilterData))
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if ch.bloomFilterSize > maxBloomFilterBlockSize {
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logger.Panicf("BUG: too big bloomFilterSize: %d bytes; mustn't exceed %d bytes", ch.bloomFilterSize, maxBloomFilterBlockSize)
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}
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ch.bloomFilterOffset = bloomValuesWriter.bloom.bytesWritten
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bloomValuesWriter.bloom.MustWrite(cd.bloomFilterData)
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}
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// mustReadFrom reads columns data associated with ch from sr to cd.
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//
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// cd is valid until a.reset() is called.
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func (cd *columnData) mustReadFrom(a *arena, ch *columnHeader, sr *streamReaders, partFormatVersion uint) {
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cd.reset()
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cd.name = a.copyString(ch.name)
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cd.valueType = ch.valueType
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cd.minValue = ch.minValue
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cd.maxValue = ch.maxValue
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cd.valuesDict.copyFrom(a, &ch.valuesDict)
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bloomValuesReader := sr.getBloomValuesReaderForColumnName(ch.name, partFormatVersion)
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// read values
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if ch.valuesOffset != bloomValuesReader.values.bytesRead {
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logger.Panicf("FATAL: %s: unexpected columnHeader.valuesOffset=%d; must equal to the number of bytes read: %d",
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bloomValuesReader.values.Path(), ch.valuesOffset, bloomValuesReader.values.bytesRead)
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}
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valuesSize := ch.valuesSize
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if valuesSize > maxValuesBlockSize {
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logger.Panicf("FATAL: %s: values block size cannot exceed %d bytes; got %d bytes", bloomValuesReader.values.Path(), maxValuesBlockSize, valuesSize)
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}
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cd.valuesData = a.newBytes(int(valuesSize))
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bloomValuesReader.values.MustReadFull(cd.valuesData)
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// read bloom filter
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// bloom filter is missing in valueTypeDict.
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if ch.valueType != valueTypeDict {
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if ch.bloomFilterOffset != bloomValuesReader.bloom.bytesRead {
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logger.Panicf("FATAL: %s: unexpected columnHeader.bloomFilterOffset=%d; must equal to the number of bytes read: %d",
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bloomValuesReader.bloom.Path(), ch.bloomFilterOffset, bloomValuesReader.bloom.bytesRead)
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}
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bloomFilterSize := ch.bloomFilterSize
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if bloomFilterSize > maxBloomFilterBlockSize {
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logger.Panicf("FATAL: %s: bloom filter block size cannot exceed %d bytes; got %d bytes", bloomValuesReader.bloom.Path(), maxBloomFilterBlockSize, bloomFilterSize)
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}
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cd.bloomFilterData = a.newBytes(int(bloomFilterSize))
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bloomValuesReader.bloom.MustReadFull(cd.bloomFilterData)
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}
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}
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