VictoriaMetrics/lib/logstorage/part.go
Aliaksandr Valialkin 7a62eefa34
lib/logstorage: dynamically adjust the number of (bloom, values) shards in a part depending on the number of non-const columns
This allows reducing the amounts of data, which must be read during queries over logs with big number of fields (aka "wide events").
This, in turn, improves query performance when the data, which needs to be scanned during the query, doesn't fit OS page cache.
2024-10-29 16:44:45 +01:00

205 lines
5.6 KiB
Go

package logstorage
import (
"fmt"
"path/filepath"
"github.com/cespare/xxhash/v2"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/filestream"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
)
type part struct {
// pt is the partition the part belongs to
pt *partition
// path is the path to the part on disk.
//
// If the part is in-memory then the path is empty.
path string
// ph contains partHeader for the given part.
ph partHeader
// columnNameIDs is a mapping from column names seen in the given part to internal IDs.
// The internal IDs are used in columnHeaderRef.
columnNameIDs map[string]uint64
// columnNames is a mapping from internal IDs to column names.
// The internal IDs are used in columnHeaderRef.
columnNames []string
// indexBlockHeaders contains a list of indexBlockHeader entries for the given part.
indexBlockHeaders []indexBlockHeader
indexFile fs.MustReadAtCloser
columnsHeaderIndexFile fs.MustReadAtCloser
columnsHeaderFile fs.MustReadAtCloser
timestampsFile fs.MustReadAtCloser
messageBloomValues bloomValuesReaderAt
oldBloomValues bloomValuesReaderAt
bloomValuesShards []bloomValuesReaderAt
}
type bloomValuesReaderAt struct {
bloom fs.MustReadAtCloser
values fs.MustReadAtCloser
}
func (r *bloomValuesReaderAt) MustClose() {
r.bloom.MustClose()
r.values.MustClose()
}
func mustOpenInmemoryPart(pt *partition, mp *inmemoryPart) *part {
var p part
p.pt = pt
p.path = ""
p.ph = mp.ph
// Read columnNames
columnNamesReader := mp.columnNames.NewReader()
p.columnNames, p.columnNameIDs = mustReadColumnNames(columnNamesReader)
// Read metaindex
metaindexReader := mp.metaindex.NewReader()
var mrs readerWithStats
mrs.init(metaindexReader)
p.indexBlockHeaders = mustReadIndexBlockHeaders(p.indexBlockHeaders[:0], &mrs)
// Open data files
p.indexFile = &mp.index
p.columnsHeaderIndexFile = &mp.columnsHeaderIndex
p.columnsHeaderFile = &mp.columnsHeader
p.timestampsFile = &mp.timestamps
// Open files with bloom filters and column values
p.messageBloomValues.bloom = &mp.messageBloomValues.bloom
p.messageBloomValues.values = &mp.messageBloomValues.values
p.bloomValuesShards = []bloomValuesReaderAt{
{
bloom: &mp.fieldBloomValues.bloom,
values: &mp.fieldBloomValues.values,
},
}
return &p
}
func mustOpenFilePart(pt *partition, path string) *part {
var p part
p.pt = pt
p.path = path
p.ph.mustReadMetadata(path)
columnNamesPath := filepath.Join(path, columnNamesFilename)
metaindexPath := filepath.Join(path, metaindexFilename)
indexPath := filepath.Join(path, indexFilename)
columnsHeaderIndexPath := filepath.Join(path, columnsHeaderIndexFilename)
columnsHeaderPath := filepath.Join(path, columnsHeaderFilename)
timestampsPath := filepath.Join(path, timestampsFilename)
// Read columnNames
if p.ph.FormatVersion >= 1 {
columnNamesReader := filestream.MustOpen(columnNamesPath, true)
var crs readerWithStats
crs.init(columnNamesReader)
p.columnNames, p.columnNameIDs = mustReadColumnNames(columnNamesReader)
crs.MustClose()
}
// Read metaindex
metaindexReader := filestream.MustOpen(metaindexPath, true)
var mrs readerWithStats
mrs.init(metaindexReader)
p.indexBlockHeaders = mustReadIndexBlockHeaders(p.indexBlockHeaders[:0], &mrs)
mrs.MustClose()
// Open data files
p.indexFile = fs.MustOpenReaderAt(indexPath)
if p.ph.FormatVersion >= 1 {
p.columnsHeaderIndexFile = fs.MustOpenReaderAt(columnsHeaderIndexPath)
}
p.columnsHeaderFile = fs.MustOpenReaderAt(columnsHeaderPath)
p.timestampsFile = fs.MustOpenReaderAt(timestampsPath)
// Open files with bloom filters and column values
messageBloomFilterPath := filepath.Join(path, messageBloomFilename)
p.messageBloomValues.bloom = fs.MustOpenReaderAt(messageBloomFilterPath)
messageValuesPath := filepath.Join(path, messageValuesFilename)
p.messageBloomValues.values = fs.MustOpenReaderAt(messageValuesPath)
if p.ph.FormatVersion < 1 {
bloomPath := filepath.Join(path, oldBloomFilename)
p.oldBloomValues.bloom = fs.MustOpenReaderAt(bloomPath)
valuesPath := filepath.Join(path, oldValuesFilename)
p.oldBloomValues.values = fs.MustOpenReaderAt(valuesPath)
} else {
p.bloomValuesShards = make([]bloomValuesReaderAt, p.ph.BloomValuesShardsCount)
for i := range p.bloomValuesShards {
shard := &p.bloomValuesShards[i]
bloomPath := getBloomFilePath(path, uint64(i))
shard.bloom = fs.MustOpenReaderAt(bloomPath)
valuesPath := getValuesFilePath(path, uint64(i))
shard.values = fs.MustOpenReaderAt(valuesPath)
}
}
return &p
}
func mustClosePart(p *part) {
p.indexFile.MustClose()
if p.ph.FormatVersion >= 1 {
p.columnsHeaderIndexFile.MustClose()
}
p.columnsHeaderFile.MustClose()
p.timestampsFile.MustClose()
p.messageBloomValues.MustClose()
if p.ph.FormatVersion < 1 {
p.oldBloomValues.MustClose()
} else {
for i := range p.bloomValuesShards {
p.bloomValuesShards[i].MustClose()
}
}
p.pt = nil
}
func (p *part) getBloomValuesFileForColumnName(name string) *bloomValuesReaderAt {
if name == "" {
return &p.messageBloomValues
}
if p.ph.FormatVersion < 1 {
return &p.oldBloomValues
}
n := len(p.bloomValuesShards)
idx := uint64(0)
if n > 1 {
h := xxhash.Sum64(bytesutil.ToUnsafeBytes(name))
idx = h % uint64(n)
}
return &p.bloomValuesShards[idx]
}
func getBloomFilePath(partPath string, shardNum uint64) string {
return filepath.Join(partPath, bloomFilename) + fmt.Sprintf("%d", shardNum)
}
func getValuesFilePath(partPath string, shardNum uint64) string {
return filepath.Join(partPath, valuesFilename) + fmt.Sprintf("%d", shardNum)
}