VictoriaMetrics/lib/storage/block_stream_reader.go

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package storage
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"
)
// blockStreamReader represents block stream reader.
type blockStreamReader struct {
// Currently active block.
Block Block
// Contains TSID for the previous block.
// This field is needed for checking that TSIDs
// increase over time when reading blocks.
tsidPrev TSID
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// Filesystem path to the stream reader.
//
// Is empty for inmemory stream readers.
path string
ph partHeader
// Use io.Reader type for timestampsReader and valuesReader
// in order to remove I2I conversion in readBlock
// when passing them to fs.ReadFullData
timestampsReader io.Reader
valuesReader io.Reader
indexReader filestream.ReadCloser
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mrs []metaindexRow
// Points the current mr from mrs.
mr *metaindexRow
// The total number of rows read so far.
rowsCount uint64
// The total number of blocks read so far.
blocksCount uint64
// The number of block headers in the current index block.
indexBlockHeadersCount uint32
timestampsBlockOffset uint64
valuesBlockOffset uint64
indexBlockOffset uint64
prevTimestampsBlockOffset uint64
prevTimestampsData []byte
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indexData []byte
compressedIndexData []byte
// Cursor to indexData.
indexCursor []byte
err error
}
func (bsr *blockStreamReader) assertWriteClosers() {
_ = bsr.timestampsReader.(filestream.ReadCloser)
_ = bsr.valuesReader.(filestream.ReadCloser)
}
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func (bsr *blockStreamReader) reset() {
bsr.Block.Reset()
bsr.path = ""
bsr.ph.Reset()
bsr.timestampsReader = nil
bsr.valuesReader = nil
bsr.indexReader = nil
bsr.mrs = bsr.mrs[:0]
bsr.mr = nil
bsr.rowsCount = 0
bsr.blocksCount = 0
bsr.indexBlockHeadersCount = 0
bsr.timestampsBlockOffset = 0
bsr.valuesBlockOffset = 0
bsr.indexBlockOffset = 0
bsr.prevTimestampsBlockOffset = 0
bsr.prevTimestampsData = bsr.prevTimestampsData[:0]
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bsr.indexData = bsr.indexData[:0]
bsr.compressedIndexData = bsr.compressedIndexData[:0]
bsr.indexCursor = nil
bsr.err = nil
}
// String returns human-readable representation of bsr.
func (bsr *blockStreamReader) String() string {
if len(bsr.path) > 0 {
return bsr.path
}
return bsr.ph.String()
}
// InitFromInmemoryPart initializes bsr from the given mp.
func (bsr *blockStreamReader) InitFromInmemoryPart(mp *inmemoryPart) {
bsr.reset()
bsr.ph = mp.ph
bsr.timestampsReader = mp.timestampsData.NewReader()
bsr.valuesReader = mp.valuesData.NewReader()
bsr.indexReader = mp.indexData.NewReader()
var err error
bsr.mrs, err = unmarshalMetaindexRows(bsr.mrs[:0], mp.metaindexData.NewReader())
if err != nil {
logger.Panicf("BUG: cannot unmarshal metaindex rows from inmemoryPart: %s", err)
}
bsr.assertWriteClosers()
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}
// InitFromFilePart initializes bsr from a file-based part on the given path.
//
// Files in the part are always read without OS cache pollution,
// since they are usually deleted after the merge.
func (bsr *blockStreamReader) InitFromFilePart(path string) error {
bsr.reset()
path = filepath.Clean(path)
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
2023-03-19 08:36:05 +00:00
if err := bsr.ph.ReadMetadata(path); err != nil {
return fmt.Errorf("cannot parse path to part: %w", err)
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}
timestampsPath := filepath.Join(path, timestampsFilename)
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timestampsFile, err := filestream.Open(timestampsPath, true)
if err != nil {
return fmt.Errorf("cannot open timestamps file in stream mode: %w", err)
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}
valuesPath := filepath.Join(path, valuesFilename)
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valuesFile, err := filestream.Open(valuesPath, true)
if err != nil {
timestampsFile.MustClose()
return fmt.Errorf("cannot open values file in stream mode: %w", err)
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}
indexPath := filepath.Join(path, indexFilename)
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indexFile, err := filestream.Open(indexPath, true)
if err != nil {
timestampsFile.MustClose()
valuesFile.MustClose()
return fmt.Errorf("cannot open index file in stream mode: %w", err)
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}
metaindexPath := filepath.Join(path, metaindexFilename)
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metaindexFile, err := filestream.Open(metaindexPath, true)
if err != nil {
timestampsFile.MustClose()
valuesFile.MustClose()
indexFile.MustClose()
return fmt.Errorf("cannot open metaindex file in stream mode: %w", err)
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}
mrs, err := unmarshalMetaindexRows(bsr.mrs[:0], metaindexFile)
metaindexFile.MustClose()
if err != nil {
timestampsFile.MustClose()
valuesFile.MustClose()
indexFile.MustClose()
return fmt.Errorf("cannot unmarshal metaindex rows from file part %q: %w", metaindexPath, err)
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}
bsr.path = path
bsr.timestampsReader = timestampsFile
bsr.valuesReader = valuesFile
bsr.indexReader = indexFile
bsr.mrs = mrs
bsr.assertWriteClosers()
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return nil
}
// MustClose closes the bsr.
//
// It closes *Reader files passed to Init.
func (bsr *blockStreamReader) MustClose() {
bsr.timestampsReader.(filestream.ReadCloser).MustClose()
bsr.valuesReader.(filestream.ReadCloser).MustClose()
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bsr.indexReader.MustClose()
bsr.reset()
}
// Error returns the last error.
func (bsr *blockStreamReader) Error() error {
if bsr.err == nil || bsr.err == io.EOF {
return nil
}
return fmt.Errorf("error when reading part %q: %w", bsr, bsr.err)
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}
// NextBlock advances bsr to the next block.
func (bsr *blockStreamReader) NextBlock() bool {
if bsr.err != nil {
return false
}
bsr.tsidPrev = bsr.Block.bh.TSID
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bsr.Block.Reset()
err := bsr.readBlock()
if err == nil {
if bsr.Block.bh.TSID.Less(&bsr.tsidPrev) {
bsr.err = fmt.Errorf("possible data corruption: the next TSID=%v is smaller than the previous TSID=%v", &bsr.Block.bh.TSID, &bsr.tsidPrev)
return false
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}
if bsr.Block.bh.RowsCount == 0 {
bsr.err = fmt.Errorf("invalid block read with zero rows; block=%+v", &bsr.Block)
return false
}
return true
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}
if err == io.EOF {
bsr.err = io.EOF
return false
}
bsr.err = fmt.Errorf("cannot read next block: %w", err)
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return false
}
func (bsr *blockStreamReader) readBlock() error {
if len(bsr.indexCursor) == 0 {
if bsr.mr != nil && bsr.indexBlockHeadersCount != bsr.mr.BlockHeadersCount {
return fmt.Errorf("invalid number of block headers in the previous index block at offset %d; got %d; want %d",
bsr.prevIndexBlockOffset(), bsr.indexBlockHeadersCount, bsr.mr.BlockHeadersCount)
}
bsr.indexBlockHeadersCount = 0
if err := bsr.readIndexBlock(); err != nil {
if err == io.EOF {
return io.EOF
}
return fmt.Errorf("cannot read index block: %w", err)
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}
}
// Read block header.
if len(bsr.indexCursor) < marshaledBlockHeaderSize {
return fmt.Errorf("too short index data for reading block header at offset %d; got %d bytes; want %d bytes",
bsr.prevIndexBlockOffset(), len(bsr.indexCursor), marshaledBlockHeaderSize)
}
bsr.Block.headerData = append(bsr.Block.headerData[:0], bsr.indexCursor[:marshaledBlockHeaderSize]...)
bsr.indexCursor = bsr.indexCursor[marshaledBlockHeaderSize:]
tail, err := bsr.Block.bh.Unmarshal(bsr.Block.headerData)
if err != nil {
return fmt.Errorf("cannot parse block header read from index data at offset %d: %w", bsr.prevIndexBlockOffset(), err)
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}
if len(tail) > 0 {
return fmt.Errorf("non-empty tail left after parsing block header at offset %d: %x", bsr.prevIndexBlockOffset(), tail)
}
bsr.blocksCount++
if bsr.blocksCount > bsr.ph.BlocksCount {
return fmt.Errorf("too many blocks found in the block stream; got %d; cannot be bigger than %d", bsr.blocksCount, bsr.ph.BlocksCount)
}
// Validate block header.
bsr.rowsCount += uint64(bsr.Block.bh.RowsCount)
if bsr.rowsCount > bsr.ph.RowsCount {
return fmt.Errorf("too many rows found in the block stream; got %d; cannot be bigger than %d", bsr.rowsCount, bsr.ph.RowsCount)
}
if bsr.Block.bh.MinTimestamp < bsr.ph.MinTimestamp {
return fmt.Errorf("invalid MinTimestamp at block header at offset %d; got %d; cannot be smaller than %d",
bsr.prevIndexBlockOffset(), bsr.Block.bh.MinTimestamp, bsr.ph.MinTimestamp)
}
if bsr.Block.bh.MaxTimestamp > bsr.ph.MaxTimestamp {
return fmt.Errorf("invalid MaxTimestamp at block header at offset %d; got %d; cannot be bigger than %d",
bsr.prevIndexBlockOffset(), bsr.Block.bh.MaxTimestamp, bsr.ph.MaxTimestamp)
}
usePrevTimestamps := len(bsr.prevTimestampsData) > 0 && bsr.Block.bh.TimestampsBlockOffset == bsr.prevTimestampsBlockOffset
if usePrevTimestamps {
if int(bsr.Block.bh.TimestampsBlockSize) != len(bsr.prevTimestampsData) {
return fmt.Errorf("invalid TimestampsBlockSize at block header at offset %d; got %d; want %d",
bsr.prevIndexBlockOffset(), bsr.Block.bh.TimestampsBlockSize, len(bsr.prevTimestampsData))
}
} else if bsr.Block.bh.TimestampsBlockOffset != bsr.timestampsBlockOffset {
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return fmt.Errorf("invalid TimestampsBlockOffset at block header at offset %d; got %d; want %d",
bsr.prevIndexBlockOffset(), bsr.Block.bh.TimestampsBlockOffset, bsr.timestampsBlockOffset)
}
if bsr.Block.bh.ValuesBlockOffset != bsr.valuesBlockOffset {
return fmt.Errorf("invalid ValuesBlockOffset at block header at offset %d; got %d; want %d",
bsr.prevIndexBlockOffset(), bsr.Block.bh.ValuesBlockOffset, bsr.valuesBlockOffset)
}
// Read timestamps data.
if usePrevTimestamps {
bsr.Block.timestampsData = append(bsr.Block.timestampsData[:0], bsr.prevTimestampsData...)
} else {
bsr.Block.timestampsData = bytesutil.ResizeNoCopyMayOverallocate(bsr.Block.timestampsData, int(bsr.Block.bh.TimestampsBlockSize))
if err := fs.ReadFullData(bsr.timestampsReader, bsr.Block.timestampsData); err != nil {
return fmt.Errorf("cannot read timestamps block at offset %d: %w", bsr.timestampsBlockOffset, err)
}
bsr.prevTimestampsBlockOffset = bsr.timestampsBlockOffset
bsr.prevTimestampsData = append(bsr.prevTimestampsData[:0], bsr.Block.timestampsData...)
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}
// Read values data.
bsr.Block.valuesData = bytesutil.ResizeNoCopyMayOverallocate(bsr.Block.valuesData, int(bsr.Block.bh.ValuesBlockSize))
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if err := fs.ReadFullData(bsr.valuesReader, bsr.Block.valuesData); err != nil {
return fmt.Errorf("cannot read values block at offset %d: %w", bsr.valuesBlockOffset, err)
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}
// Update offsets.
if !usePrevTimestamps {
bsr.timestampsBlockOffset += uint64(bsr.Block.bh.TimestampsBlockSize)
}
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bsr.valuesBlockOffset += uint64(bsr.Block.bh.ValuesBlockSize)
bsr.indexBlockHeadersCount++
return nil
}
func (bsr *blockStreamReader) readIndexBlock() error {
// Go to the next metaindex row.
if len(bsr.mrs) == 0 {
return io.EOF
}
bsr.mr = &bsr.mrs[0]
bsr.mrs = bsr.mrs[1:]
// Validate metaindex row.
if bsr.indexBlockOffset != bsr.mr.IndexBlockOffset {
return fmt.Errorf("invalid IndexBlockOffset in metaindex row; got %d; want %d", bsr.mr.IndexBlockOffset, bsr.indexBlockOffset)
}
if bsr.mr.MinTimestamp < bsr.ph.MinTimestamp {
return fmt.Errorf("invalid MinTimesamp in metaindex row; got %d; cannot be smaller than %d", bsr.mr.MinTimestamp, bsr.ph.MinTimestamp)
}
if bsr.mr.MaxTimestamp > bsr.ph.MaxTimestamp {
return fmt.Errorf("invalid MaxTimestamp in metaindex row; got %d; cannot be bigger than %d", bsr.mr.MaxTimestamp, bsr.ph.MaxTimestamp)
}
// Read index block.
bsr.compressedIndexData = bytesutil.ResizeNoCopyMayOverallocate(bsr.compressedIndexData, int(bsr.mr.IndexBlockSize))
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if err := fs.ReadFullData(bsr.indexReader, bsr.compressedIndexData); err != nil {
return fmt.Errorf("cannot read index block at offset %d: %w", bsr.indexBlockOffset, err)
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}
tmpData, err := encoding.DecompressZSTD(bsr.indexData[:0], bsr.compressedIndexData)
if err != nil {
return fmt.Errorf("cannot decompress index block at offset %d: %w", bsr.indexBlockOffset, err)
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}
bsr.indexData = tmpData
bsr.indexCursor = bsr.indexData
// Update offsets.
bsr.indexBlockOffset += uint64(bsr.mr.IndexBlockSize)
return nil
}
func (bsr *blockStreamReader) prevIndexBlockOffset() uint64 {
return bsr.indexBlockOffset - uint64(bsr.mr.IndexBlockSize)
}
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