VictoriaMetrics/lib/storage/part.go

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package storage
import (
"fmt"
"path/filepath"
"sync"
"sync/atomic"
"time"
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/filestream"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/memory"
)
func getMaxCachedIndexBlocksPerPart() int {
maxCachedIndexBlocksPerPartOnce.Do(func() {
n := memory.Allowed() / 1024 / 1024 / 8
if n < 16 {
n = 16
}
maxCachedIndexBlocksPerPart = n
})
return maxCachedIndexBlocksPerPart
}
var (
maxCachedIndexBlocksPerPart int
maxCachedIndexBlocksPerPartOnce sync.Once
)
// part represents a searchable part containing time series data.
type part struct {
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ph partHeader
// Filesystem path to the part.
//
// Empty for in-memory part.
path string
// Total size in bytes of part data.
size uint64
timestampsFile fs.MustReadAtCloser
valuesFile fs.MustReadAtCloser
indexFile fs.MustReadAtCloser
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metaindex []metaindexRow
ibCache *indexBlockCache
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}
// openFilePart opens file-based part from the given path.
func openFilePart(path string) (*part, error) {
path = filepath.Clean(path)
var ph partHeader
if err := ph.ParseFromPath(path); err != nil {
return nil, fmt.Errorf("cannot parse path to part: %s", err)
}
timestampsPath := path + "/timestamps.bin"
timestampsFile, err := fs.OpenReaderAt(timestampsPath)
if err != nil {
return nil, fmt.Errorf("cannot open timestamps file: %s", err)
}
timestampsSize := fs.MustFileSize(timestampsPath)
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valuesPath := path + "/values.bin"
valuesFile, err := fs.OpenReaderAt(valuesPath)
if err != nil {
timestampsFile.MustClose()
return nil, fmt.Errorf("cannot open values file: %s", err)
}
valuesSize := fs.MustFileSize(valuesPath)
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indexPath := path + "/index.bin"
indexFile, err := fs.OpenReaderAt(indexPath)
if err != nil {
timestampsFile.MustClose()
valuesFile.MustClose()
return nil, fmt.Errorf("cannot open index file: %s", err)
}
indexSize := fs.MustFileSize(indexPath)
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metaindexPath := path + "/metaindex.bin"
metaindexFile, err := filestream.Open(metaindexPath, true)
if err != nil {
timestampsFile.MustClose()
valuesFile.MustClose()
indexFile.MustClose()
return nil, fmt.Errorf("cannot open metaindex file: %s", err)
}
metaindexSize := fs.MustFileSize(metaindexPath)
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size := timestampsSize + valuesSize + indexSize + metaindexSize
return newPart(&ph, path, size, metaindexFile, timestampsFile, valuesFile, indexFile)
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}
// newPart returns new part initialized with the given arguments.
//
// The returned part calls MustClose on all the files passed to newPart
// when calling part.MustClose.
func newPart(ph *partHeader, path string, size uint64, metaindexReader filestream.ReadCloser, timestampsFile, valuesFile, indexFile fs.MustReadAtCloser) (*part, error) {
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var errors []error
metaindex, err := unmarshalMetaindexRows(nil, metaindexReader)
if err != nil {
errors = append(errors, fmt.Errorf("cannot unmarshal metaindex data: %s", err))
}
metaindexReader.MustClose()
var p part
p.ph = *ph
p.path = path
p.size = size
p.timestampsFile = timestampsFile
p.valuesFile = valuesFile
p.indexFile = indexFile
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p.metaindex = metaindex
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if len(errors) > 0 {
// Return only the first error, since it has no sense in returning all errors.
err = fmt.Errorf("cannot initialize part %q: %s", &p, errors[0])
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p.MustClose()
return nil, err
}
p.ibCache = newIndexBlockCache()
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return &p, nil
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}
// String returns human-readable representation of p.
func (p *part) String() string {
if len(p.path) > 0 {
return p.path
}
return p.ph.String()
}
// MustClose closes all the part files.
func (p *part) MustClose() {
p.timestampsFile.MustClose()
p.valuesFile.MustClose()
p.indexFile.MustClose()
isBig := p.ph.RowsCount > maxRowsPerSmallPart()
p.ibCache.MustClose(isBig)
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}
type indexBlock struct {
bhs []blockHeader
}
func getIndexBlock() *indexBlock {
v := indexBlockPool.Get()
if v == nil {
return &indexBlock{}
}
return v.(*indexBlock)
}
func putIndexBlock(ib *indexBlock) {
ib.bhs = ib.bhs[:0]
indexBlockPool.Put(ib)
}
var indexBlockPool sync.Pool
type indexBlockCache struct {
// Put atomic counters to the top of struct in order to align them to 8 bytes on 32-bit architectures.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/212
requests uint64
misses uint64
m map[uint64]*indexBlockCacheEntry
mu sync.RWMutex
cleanerStopCh chan struct{}
cleanerWG sync.WaitGroup
}
type indexBlockCacheEntry struct {
// Atomically updated counters must go first in the struct, so they are properly
// aligned to 8 bytes on 32-bit architectures.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/212
lastAccessTime uint64
ib *indexBlock
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}
func newIndexBlockCache() *indexBlockCache {
var ibc indexBlockCache
ibc.m = make(map[uint64]*indexBlockCacheEntry)
ibc.cleanerStopCh = make(chan struct{})
ibc.cleanerWG.Add(1)
go func() {
defer ibc.cleanerWG.Done()
ibc.cleaner()
}()
return &ibc
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}
func (ibc *indexBlockCache) MustClose(isBig bool) {
close(ibc.cleanerStopCh)
ibc.cleanerWG.Wait()
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if isBig {
atomic.AddUint64(&bigIndexBlockCacheRequests, ibc.requests)
atomic.AddUint64(&bigIndexBlockCacheMisses, ibc.misses)
} else {
atomic.AddUint64(&smallIndexBlockCacheRequests, ibc.requests)
atomic.AddUint64(&smallIndexBlockCacheMisses, ibc.misses)
}
// It is safe returning ibc.m itemst to the pool, since Reset must
// be called only when no other goroutines access ibc entries.
for _, ibe := range ibc.m {
putIndexBlock(ibe.ib)
}
ibc.m = nil
}
// cleaner periodically cleans least recently used items.
func (ibc *indexBlockCache) cleaner() {
t := time.NewTimer(5 * time.Second)
for {
select {
case <-t.C:
ibc.cleanByTimeout()
case <-ibc.cleanerStopCh:
t.Stop()
return
}
}
}
func (ibc *indexBlockCache) cleanByTimeout() {
currentTime := atomic.LoadUint64(&currentTimestamp)
ibc.mu.Lock()
for k, ibe := range ibc.m {
// Delete items accessed more than 10 minutes ago.
if currentTime-atomic.LoadUint64(&ibe.lastAccessTime) > 10*60 {
delete(ibc.m, k)
}
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}
ibc.mu.Unlock()
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}
var (
bigIndexBlockCacheRequests uint64
bigIndexBlockCacheMisses uint64
smallIndexBlockCacheRequests uint64
smallIndexBlockCacheMisses uint64
)
func (ibc *indexBlockCache) Get(k uint64) *indexBlock {
atomic.AddUint64(&ibc.requests, 1)
ibc.mu.RLock()
ibe := ibc.m[k]
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ibc.mu.RUnlock()
if ibe != nil {
currentTime := atomic.LoadUint64(&currentTimestamp)
if atomic.LoadUint64(&ibe.lastAccessTime) != currentTime {
atomic.StoreUint64(&ibe.lastAccessTime, currentTime)
}
return ibe.ib
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}
atomic.AddUint64(&ibc.misses, 1)
return nil
}
func (ibc *indexBlockCache) Put(k uint64, ib *indexBlock) bool {
ibc.mu.Lock()
// Clean superflouos cache entries.
if overflow := len(ibc.m) - getMaxCachedIndexBlocksPerPart(); overflow > 0 {
// Remove 10% of items from the cache.
overflow = int(float64(len(ibc.m)) * 0.1)
for k := range ibc.m {
// Do not call putIndexBlock on ibc.m entries, since they may be used by concurrent goroutines.
delete(ibc.m, k)
overflow--
if overflow == 0 {
break
}
}
}
// Store frequently requested ib in the cache.
ibe := &indexBlockCacheEntry{
lastAccessTime: atomic.LoadUint64(&currentTimestamp),
ib: ib,
}
ibc.m[k] = ibe
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ibc.mu.Unlock()
return true
}
func (ibc *indexBlockCache) Requests() uint64 {
return atomic.LoadUint64(&ibc.requests)
}
func (ibc *indexBlockCache) Misses() uint64 {
return atomic.LoadUint64(&ibc.misses)
}
func (ibc *indexBlockCache) Len() uint64 {
ibc.mu.Lock()
n := uint64(len(ibc.m))
ibc.mu.Unlock()
return n
}
func init() {
go func() {
t := time.NewTimer(time.Second)
for tm := range t.C {
t := uint64(tm.Unix())
atomic.StoreUint64(&currentTimestamp, t)
}
}()
}
var currentTimestamp uint64