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VictoriaMetrics/lib/storage/storage.go
Aliaksandr Valialkin 6f61e9d49d
lib/storage: simplify indexDB.doExtDB() usage by removing the returned value 
Previously indexDB.doExtDB() was returning boolean value, which was indicating whether f callback was called.
There is no need in returning this boolean value, since the f callback can determine on itself whether it was called.

This simplifies the code a bit.

While at it, document indexDB.doExtDB().
2024-09-20 11:59:57 +02:00

2745 lines
86 KiB
Go
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package storage
import (
"bytes"
"fmt"
"io"
"math"
"os"
"path/filepath"
"regexp"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
"unsafe"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/backup/backupnames"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bloomfilter"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/decimal"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/memory"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/querytracer"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/snapshot/snapshotutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/timeutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/uint64set"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/workingsetcache"
"github.com/VictoriaMetrics/fastcache"
"github.com/VictoriaMetrics/metricsql"
)
const (
retention31Days = 31 * 24 * time.Hour
retentionMax = 100 * 12 * retention31Days
)
// Storage represents TSDB storage.
type Storage struct {
rowsReceivedTotal atomic.Uint64
rowsAddedTotal atomic.Uint64
naNValueRows atomic.Uint64
tooSmallTimestampRows atomic.Uint64
tooBigTimestampRows atomic.Uint64
invalidRawMetricNames atomic.Uint64
timeseriesRepopulated atomic.Uint64
timeseriesPreCreated atomic.Uint64
newTimeseriesCreated atomic.Uint64
slowRowInserts atomic.Uint64
slowPerDayIndexInserts atomic.Uint64
slowMetricNameLoads atomic.Uint64
hourlySeriesLimitRowsDropped atomic.Uint64
dailySeriesLimitRowsDropped atomic.Uint64
// nextRotationTimestamp is a timestamp in seconds of the next indexdb rotation.
//
// It is used for gradual pre-population of the idbNext during the last hour before the indexdb rotation.
// in order to reduce spikes in CPU and disk IO usage just after the rotiation.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
nextRotationTimestamp atomic.Int64
path string
cachePath string
retentionMsecs int64
// lock file for exclusive access to the storage on the given path.
flockF *os.File
// idbCurr contains the currently used indexdb.
idbCurr atomic.Pointer[indexDB]
// idbNext is the next indexdb, which will become idbCurr at the next rotation.
//
// It is started to be gradually pre-populated with the data for active time series during the last hour
// before nextRotationTimestamp.
// This reduces spikes in CPU and disk IO usage just after the rotiation.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
idbNext atomic.Pointer[indexDB]
tb *table
// Series cardinality limiters.
hourlySeriesLimiter *bloomfilter.Limiter
dailySeriesLimiter *bloomfilter.Limiter
// tsidCache is MetricName -> TSID cache.
tsidCache *workingsetcache.Cache
// metricIDCache is MetricID -> TSID cache.
metricIDCache *workingsetcache.Cache
// metricNameCache is MetricID -> MetricName cache.
metricNameCache *workingsetcache.Cache
// dateMetricIDCache is (generation, Date, MetricID) cache, where generation is the indexdb generation.
// See generationTSID for details.
dateMetricIDCache *dateMetricIDCache
// Fast cache for MetricID values occurred during the current hour.
currHourMetricIDs atomic.Pointer[hourMetricIDs]
// Fast cache for MetricID values occurred during the previous hour.
prevHourMetricIDs atomic.Pointer[hourMetricIDs]
// Fast cache for pre-populating per-day inverted index for the next day.
// This is needed in order to remove CPU usage spikes at 00:00 UTC
// due to creation of per-day inverted index for active time series.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/430 for details.
nextDayMetricIDs atomic.Pointer[byDateMetricIDEntry]
// Pending MetricID values to be added to currHourMetricIDs.
pendingHourEntriesLock sync.Mutex
pendingHourEntries *uint64set.Set
// Pending MetricIDs to be added to nextDayMetricIDs.
pendingNextDayMetricIDsLock sync.Mutex
pendingNextDayMetricIDs *uint64set.Set
// prefetchedMetricIDs contains metricIDs for pre-fetched metricNames in the prefetchMetricNames function.
prefetchedMetricIDsLock sync.Mutex
prefetchedMetricIDs *uint64set.Set
// prefetchedMetricIDsDeadline is used for periodic reset of prefetchedMetricIDs in order to limit its size under high rate of creating new series.
prefetchedMetricIDsDeadline atomic.Uint64
stopCh chan struct{}
currHourMetricIDsUpdaterWG sync.WaitGroup
nextDayMetricIDsUpdaterWG sync.WaitGroup
retentionWatcherWG sync.WaitGroup
freeDiskSpaceWatcherWG sync.WaitGroup
// The snapshotLock prevents from concurrent creation of snapshots,
// since this may result in snapshots without recently added data,
// which may be in the process of flushing to disk by concurrently running
// snapshot process.
snapshotLock sync.Mutex
// The minimum timestamp when composite index search can be used.
minTimestampForCompositeIndex int64
// An inmemory set of deleted metricIDs.
//
// It is safe to keep the set in memory even for big number of deleted
// metricIDs, since it usually requires 1 bit per deleted metricID.
deletedMetricIDs atomic.Pointer[uint64set.Set]
deletedMetricIDsUpdateLock sync.Mutex
// missingMetricIDs maps metricID to the deadline in unix timestamp seconds
// after which all the indexdb entries for the given metricID
// must be deleted if index entry isn't found by the given metricID.
// This is used inside searchMetricNameWithCache() and getTSIDsFromMetricIDs()
// for detecting permanently missing metricID->metricName/TSID entries.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/5959
missingMetricIDsLock sync.Mutex
missingMetricIDs map[uint64]uint64
missingMetricIDsResetDeadline uint64
// isReadOnly is set to true when the storage is in read-only mode.
isReadOnly atomic.Bool
}
// MustOpenStorage opens storage on the given path with the given retentionMsecs.
func MustOpenStorage(path string, retention time.Duration, maxHourlySeries, maxDailySeries int) *Storage {
path, err := filepath.Abs(path)
if err != nil {
logger.Panicf("FATAL: cannot determine absolute path for %q: %s", path, err)
}
if retention <= 0 || retention > retentionMax {
retention = retentionMax
}
s := &Storage{
path: path,
cachePath: filepath.Join(path, cacheDirname),
retentionMsecs: retention.Milliseconds(),
stopCh: make(chan struct{}),
}
fs.MustMkdirIfNotExist(path)
// Check whether the cache directory must be removed
// It is removed if it contains resetCacheOnStartupFilename.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1447 for details.
if fs.IsPathExist(filepath.Join(s.cachePath, resetCacheOnStartupFilename)) {
logger.Infof("removing cache directory at %q, since it contains `%s` file...", s.cachePath, resetCacheOnStartupFilename)
// Do not use fs.MustRemoveAll() here, since the cache directory may be mounted
// to a separate filesystem. In this case the fs.MustRemoveAll() will fail while
// trying to remove the mount root.
fs.RemoveDirContents(s.cachePath)
logger.Infof("cache directory at %q has been successfully removed", s.cachePath)
}
// Protect from concurrent opens.
s.flockF = fs.MustCreateFlockFile(path)
// Check whether restore process finished successfully
restoreLockF := filepath.Join(path, backupnames.RestoreInProgressFilename)
if fs.IsPathExist(restoreLockF) {
logger.Panicf("FATAL: incomplete vmrestore run; run vmrestore again or remove lock file %q", restoreLockF)
}
// Pre-create snapshots directory if it is missing.
snapshotsPath := filepath.Join(path, snapshotsDirname)
fs.MustMkdirIfNotExist(snapshotsPath)
fs.MustRemoveTemporaryDirs(snapshotsPath)
// Initialize series cardinality limiter.
if maxHourlySeries > 0 {
s.hourlySeriesLimiter = bloomfilter.NewLimiter(maxHourlySeries, time.Hour)
}
if maxDailySeries > 0 {
s.dailySeriesLimiter = bloomfilter.NewLimiter(maxDailySeries, 24*time.Hour)
}
// Load caches.
mem := memory.Allowed()
s.tsidCache = s.mustLoadCache("metricName_tsid", getTSIDCacheSize())
s.metricIDCache = s.mustLoadCache("metricID_tsid", mem/16)
s.metricNameCache = s.mustLoadCache("metricID_metricName", mem/10)
s.dateMetricIDCache = newDateMetricIDCache()
hour := fasttime.UnixHour()
hmCurr := s.mustLoadHourMetricIDs(hour, "curr_hour_metric_ids")
hmPrev := s.mustLoadHourMetricIDs(hour-1, "prev_hour_metric_ids")
s.currHourMetricIDs.Store(hmCurr)
s.prevHourMetricIDs.Store(hmPrev)
s.pendingHourEntries = &uint64set.Set{}
s.pendingNextDayMetricIDs = &uint64set.Set{}
s.prefetchedMetricIDs = &uint64set.Set{}
// Load metadata
metadataDir := filepath.Join(path, metadataDirname)
isEmptyDB := !fs.IsPathExist(filepath.Join(path, indexdbDirname))
fs.MustMkdirIfNotExist(metadataDir)
s.minTimestampForCompositeIndex = mustGetMinTimestampForCompositeIndex(metadataDir, isEmptyDB)
// Load indexdb
idbPath := filepath.Join(path, indexdbDirname)
idbSnapshotsPath := filepath.Join(idbPath, snapshotsDirname)
fs.MustMkdirIfNotExist(idbSnapshotsPath)
fs.MustRemoveTemporaryDirs(idbSnapshotsPath)
idbNext, idbCurr, idbPrev := s.mustOpenIndexDBTables(idbPath)
idbCurr.SetExtDB(idbPrev)
idbNext.SetExtDB(idbCurr)
s.idbCurr.Store(idbCurr)
s.idbNext.Store(idbNext)
// Initialize nextRotationTimestamp
nowSecs := int64(fasttime.UnixTimestamp())
retentionSecs := retention.Milliseconds() / 1000 // not .Seconds() because unnecessary float64 conversion
nextRotationTimestamp := nextRetentionDeadlineSeconds(nowSecs, retentionSecs, retentionTimezoneOffsetSecs)
s.nextRotationTimestamp.Store(nextRotationTimestamp)
// Load nextDayMetricIDs cache
date := fasttime.UnixDate()
nextDayMetricIDs := s.mustLoadNextDayMetricIDs(idbCurr.generation, date)
s.nextDayMetricIDs.Store(nextDayMetricIDs)
// Load deleted metricIDs from idbCurr and idbPrev
dmisCurr, err := idbCurr.loadDeletedMetricIDs()
if err != nil {
logger.Panicf("FATAL: cannot load deleted metricIDs for the current indexDB at %q: %s", path, err)
}
dmisPrev, err := idbPrev.loadDeletedMetricIDs()
if err != nil {
logger.Panicf("FATAL: cannot load deleted metricIDs for the previous indexDB at %q: %s", path, err)
}
s.setDeletedMetricIDs(dmisCurr)
s.updateDeletedMetricIDs(dmisPrev)
// check for free disk space before opening the table
// to prevent unexpected part merges. See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/4023
s.startFreeDiskSpaceWatcher()
// Load data
tablePath := filepath.Join(path, dataDirname)
tb := mustOpenTable(tablePath, s)
s.tb = tb
s.startCurrHourMetricIDsUpdater()
s.startNextDayMetricIDsUpdater()
s.startRetentionWatcher()
return s
}
var maxTSIDCacheSize int
// SetTSIDCacheSize overrides the default size of storage/tsid cache
func SetTSIDCacheSize(size int) {
maxTSIDCacheSize = size
}
func getTSIDCacheSize() int {
if maxTSIDCacheSize <= 0 {
return int(float64(memory.Allowed()) * 0.37)
}
return maxTSIDCacheSize
}
func (s *Storage) getDeletedMetricIDs() *uint64set.Set {
return s.deletedMetricIDs.Load()
}
func (s *Storage) setDeletedMetricIDs(dmis *uint64set.Set) {
s.deletedMetricIDs.Store(dmis)
}
func (s *Storage) updateDeletedMetricIDs(metricIDs *uint64set.Set) {
s.deletedMetricIDsUpdateLock.Lock()
dmisOld := s.getDeletedMetricIDs()
dmisNew := dmisOld.Clone()
dmisNew.Union(metricIDs)
s.setDeletedMetricIDs(dmisNew)
s.deletedMetricIDsUpdateLock.Unlock()
}
// DebugFlush makes sure all the recently added data is visible to search.
//
// Note: this function doesn't store all the in-memory data to disk - it just converts
// recently added items to searchable parts, which can be stored either in memory
// (if they are quite small) or to persistent disk.
//
// This function is for debugging and testing purposes only,
// since it may slow down data ingestion when used frequently.
func (s *Storage) DebugFlush() {
s.tb.flushPendingRows()
idb := s.idb()
idb.tb.DebugFlush()
idb.doExtDB(func(extDB *indexDB) {
extDB.tb.DebugFlush()
})
}
// CreateSnapshot creates snapshot for s and returns the snapshot name.
func (s *Storage) CreateSnapshot() (string, error) {
logger.Infof("creating Storage snapshot for %q...", s.path)
startTime := time.Now()
s.snapshotLock.Lock()
defer s.snapshotLock.Unlock()
var dirsToRemoveOnError []string
defer func() {
for _, dir := range dirsToRemoveOnError {
fs.MustRemoveAll(dir)
}
}()
snapshotName := snapshotutil.NewName()
srcDir := s.path
dstDir := filepath.Join(srcDir, snapshotsDirname, snapshotName)
fs.MustMkdirFailIfExist(dstDir)
dirsToRemoveOnError = append(dirsToRemoveOnError, dstDir)
smallDir, bigDir := s.tb.MustCreateSnapshot(snapshotName)
dirsToRemoveOnError = append(dirsToRemoveOnError, smallDir, bigDir)
dstDataDir := filepath.Join(dstDir, dataDirname)
fs.MustMkdirFailIfExist(dstDataDir)
dstSmallDir := filepath.Join(dstDataDir, smallDirname)
fs.MustSymlinkRelative(smallDir, dstSmallDir)
dstBigDir := filepath.Join(dstDataDir, bigDirname)
fs.MustSymlinkRelative(bigDir, dstBigDir)
fs.MustSyncPath(dstDataDir)
srcMetadataDir := filepath.Join(srcDir, metadataDirname)
dstMetadataDir := filepath.Join(dstDir, metadataDirname)
fs.MustCopyDirectory(srcMetadataDir, dstMetadataDir)
idbSnapshot := filepath.Join(srcDir, indexdbDirname, snapshotsDirname, snapshotName)
idb := s.idb()
currSnapshot := filepath.Join(idbSnapshot, idb.name)
if err := idb.tb.CreateSnapshotAt(currSnapshot); err != nil {
return "", fmt.Errorf("cannot create curr indexDB snapshot: %w", err)
}
dirsToRemoveOnError = append(dirsToRemoveOnError, idbSnapshot)
var err error
idb.doExtDB(func(extDB *indexDB) {
prevSnapshot := filepath.Join(idbSnapshot, extDB.name)
err = extDB.tb.CreateSnapshotAt(prevSnapshot)
})
if err != nil {
return "", fmt.Errorf("cannot create prev indexDB snapshot: %w", err)
}
dstIdbDir := filepath.Join(dstDir, indexdbDirname)
fs.MustSymlinkRelative(idbSnapshot, dstIdbDir)
fs.MustSyncPath(dstDir)
logger.Infof("created Storage snapshot for %q at %q in %.3f seconds", srcDir, dstDir, time.Since(startTime).Seconds())
dirsToRemoveOnError = nil
return snapshotName, nil
}
func (s *Storage) mustGetSnapshotsCount() int {
snapshotNames, err := s.ListSnapshots()
if err != nil {
logger.Panicf("FATAL: cannot list snapshots: %s", err)
}
return len(snapshotNames)
}
// ListSnapshots returns sorted list of existing snapshots for s.
func (s *Storage) ListSnapshots() ([]string, error) {
snapshotsPath := filepath.Join(s.path, snapshotsDirname)
d, err := os.Open(snapshotsPath)
if err != nil {
return nil, fmt.Errorf("cannot open snapshots directory: %w", err)
}
defer fs.MustClose(d)
fnames, err := d.Readdirnames(-1)
if err != nil {
return nil, fmt.Errorf("cannot read snapshots directory at %q: %w", snapshotsPath, err)
}
snapshotNames := make([]string, 0, len(fnames))
for _, fname := range fnames {
if err := snapshotutil.Validate(fname); err != nil {
continue
}
snapshotNames = append(snapshotNames, fname)
}
sort.Strings(snapshotNames)
return snapshotNames, nil
}
// DeleteSnapshot deletes the given snapshot.
func (s *Storage) DeleteSnapshot(snapshotName string) error {
if err := snapshotutil.Validate(snapshotName); err != nil {
return fmt.Errorf("invalid snapshotName %q: %w", snapshotName, err)
}
snapshotPath := filepath.Join(s.path, snapshotsDirname, snapshotName)
logger.Infof("deleting snapshot %q...", snapshotPath)
startTime := time.Now()
s.tb.MustDeleteSnapshot(snapshotName)
idbPath := filepath.Join(s.path, indexdbDirname, snapshotsDirname, snapshotName)
fs.MustRemoveDirAtomic(idbPath)
fs.MustRemoveDirAtomic(snapshotPath)
logger.Infof("deleted snapshot %q in %.3f seconds", snapshotPath, time.Since(startTime).Seconds())
return nil
}
// DeleteStaleSnapshots deletes snapshot older than given maxAge
func (s *Storage) DeleteStaleSnapshots(maxAge time.Duration) error {
list, err := s.ListSnapshots()
if err != nil {
return err
}
expireDeadline := time.Now().UTC().Add(-maxAge)
for _, snapshotName := range list {
t, err := snapshotutil.Time(snapshotName)
if err != nil {
return fmt.Errorf("cannot parse snapshot date from %q: %w", snapshotName, err)
}
if t.Before(expireDeadline) {
if err := s.DeleteSnapshot(snapshotName); err != nil {
return fmt.Errorf("cannot delete snapshot %q: %w", snapshotName, err)
}
}
}
return nil
}
func (s *Storage) idb() *indexDB {
return s.idbCurr.Load()
}
// Metrics contains essential metrics for the Storage.
type Metrics struct {
RowsReceivedTotal uint64
RowsAddedTotal uint64
DedupsDuringMerge uint64
SnapshotsCount uint64
NaNValueRows uint64
TooSmallTimestampRows uint64
TooBigTimestampRows uint64
InvalidRawMetricNames uint64
TimeseriesRepopulated uint64
TimeseriesPreCreated uint64
NewTimeseriesCreated uint64
SlowRowInserts uint64
SlowPerDayIndexInserts uint64
SlowMetricNameLoads uint64
HourlySeriesLimitRowsDropped uint64
HourlySeriesLimitMaxSeries uint64
HourlySeriesLimitCurrentSeries uint64
DailySeriesLimitRowsDropped uint64
DailySeriesLimitMaxSeries uint64
DailySeriesLimitCurrentSeries uint64
TimestampsBlocksMerged uint64
TimestampsBytesSaved uint64
TSIDCacheSize uint64
TSIDCacheSizeBytes uint64
TSIDCacheSizeMaxBytes uint64
TSIDCacheRequests uint64
TSIDCacheMisses uint64
TSIDCacheCollisions uint64
MetricIDCacheSize uint64
MetricIDCacheSizeBytes uint64
MetricIDCacheSizeMaxBytes uint64
MetricIDCacheRequests uint64
MetricIDCacheMisses uint64
MetricIDCacheCollisions uint64
MetricNameCacheSize uint64
MetricNameCacheSizeBytes uint64
MetricNameCacheSizeMaxBytes uint64
MetricNameCacheRequests uint64
MetricNameCacheMisses uint64
MetricNameCacheCollisions uint64
DateMetricIDCacheSize uint64
DateMetricIDCacheSizeBytes uint64
DateMetricIDCacheSyncsCount uint64
DateMetricIDCacheResetsCount uint64
HourMetricIDCacheSize uint64
HourMetricIDCacheSizeBytes uint64
NextDayMetricIDCacheSize uint64
NextDayMetricIDCacheSizeBytes uint64
PrefetchedMetricIDsSize uint64
PrefetchedMetricIDsSizeBytes uint64
NextRetentionSeconds uint64
IndexDBMetrics IndexDBMetrics
TableMetrics TableMetrics
}
// Reset resets m.
func (m *Metrics) Reset() {
*m = Metrics{}
}
// UpdateMetrics updates m with metrics from s.
func (s *Storage) UpdateMetrics(m *Metrics) {
m.RowsReceivedTotal += s.rowsReceivedTotal.Load()
m.RowsAddedTotal += s.rowsAddedTotal.Load()
m.DedupsDuringMerge = dedupsDuringMerge.Load()
m.SnapshotsCount += uint64(s.mustGetSnapshotsCount())
m.NaNValueRows += s.naNValueRows.Load()
m.TooSmallTimestampRows += s.tooSmallTimestampRows.Load()
m.TooBigTimestampRows += s.tooBigTimestampRows.Load()
m.InvalidRawMetricNames += s.invalidRawMetricNames.Load()
m.TimeseriesRepopulated += s.timeseriesRepopulated.Load()
m.TimeseriesPreCreated += s.timeseriesPreCreated.Load()
m.NewTimeseriesCreated += s.newTimeseriesCreated.Load()
m.SlowRowInserts += s.slowRowInserts.Load()
m.SlowPerDayIndexInserts += s.slowPerDayIndexInserts.Load()
m.SlowMetricNameLoads += s.slowMetricNameLoads.Load()
if sl := s.hourlySeriesLimiter; sl != nil {
m.HourlySeriesLimitRowsDropped += s.hourlySeriesLimitRowsDropped.Load()
m.HourlySeriesLimitMaxSeries += uint64(sl.MaxItems())
m.HourlySeriesLimitCurrentSeries += uint64(sl.CurrentItems())
}
if sl := s.dailySeriesLimiter; sl != nil {
m.DailySeriesLimitRowsDropped += s.dailySeriesLimitRowsDropped.Load()
m.DailySeriesLimitMaxSeries += uint64(sl.MaxItems())
m.DailySeriesLimitCurrentSeries += uint64(sl.CurrentItems())
}
m.TimestampsBlocksMerged = timestampsBlocksMerged.Load()
m.TimestampsBytesSaved = timestampsBytesSaved.Load()
var cs fastcache.Stats
s.tsidCache.UpdateStats(&cs)
m.TSIDCacheSize += cs.EntriesCount
m.TSIDCacheSizeBytes += cs.BytesSize
m.TSIDCacheSizeMaxBytes += cs.MaxBytesSize
m.TSIDCacheRequests += cs.GetCalls
m.TSIDCacheMisses += cs.Misses
m.TSIDCacheCollisions += cs.Collisions
cs.Reset()
s.metricIDCache.UpdateStats(&cs)
m.MetricIDCacheSize += cs.EntriesCount
m.MetricIDCacheSizeBytes += cs.BytesSize
m.MetricIDCacheSizeMaxBytes += cs.MaxBytesSize
m.MetricIDCacheRequests += cs.GetCalls
m.MetricIDCacheMisses += cs.Misses
m.MetricIDCacheCollisions += cs.Collisions
cs.Reset()
s.metricNameCache.UpdateStats(&cs)
m.MetricNameCacheSize += cs.EntriesCount
m.MetricNameCacheSizeBytes += cs.BytesSize
m.MetricNameCacheSizeMaxBytes += cs.MaxBytesSize
m.MetricNameCacheRequests += cs.GetCalls
m.MetricNameCacheMisses += cs.Misses
m.MetricNameCacheCollisions += cs.Collisions
m.DateMetricIDCacheSize += uint64(s.dateMetricIDCache.EntriesCount())
m.DateMetricIDCacheSizeBytes += uint64(s.dateMetricIDCache.SizeBytes())
m.DateMetricIDCacheSyncsCount += s.dateMetricIDCache.syncsCount.Load()
m.DateMetricIDCacheResetsCount += s.dateMetricIDCache.resetsCount.Load()
hmCurr := s.currHourMetricIDs.Load()
hmPrev := s.prevHourMetricIDs.Load()
hourMetricIDsLen := hmPrev.m.Len()
if hmCurr.m.Len() > hourMetricIDsLen {
hourMetricIDsLen = hmCurr.m.Len()
}
m.HourMetricIDCacheSize += uint64(hourMetricIDsLen)
m.HourMetricIDCacheSizeBytes += hmCurr.m.SizeBytes()
m.HourMetricIDCacheSizeBytes += hmPrev.m.SizeBytes()
nextDayMetricIDs := &s.nextDayMetricIDs.Load().v
m.NextDayMetricIDCacheSize += uint64(nextDayMetricIDs.Len())
m.NextDayMetricIDCacheSizeBytes += nextDayMetricIDs.SizeBytes()
s.prefetchedMetricIDsLock.Lock()
prefetchedMetricIDs := s.prefetchedMetricIDs
m.PrefetchedMetricIDsSize += uint64(prefetchedMetricIDs.Len())
m.PrefetchedMetricIDsSizeBytes += uint64(prefetchedMetricIDs.SizeBytes())
s.prefetchedMetricIDsLock.Unlock()
d := s.nextRetentionSeconds()
if d < 0 {
d = 0
}
m.NextRetentionSeconds = uint64(d)
s.idb().UpdateMetrics(&m.IndexDBMetrics)
s.tb.UpdateMetrics(&m.TableMetrics)
}
func (s *Storage) nextRetentionSeconds() int64 {
return s.nextRotationTimestamp.Load() - int64(fasttime.UnixTimestamp())
}
// SetFreeDiskSpaceLimit sets the minimum free disk space size of current storage path
//
// The function must be called before opening or creating any storage.
func SetFreeDiskSpaceLimit(bytes int64) {
freeDiskSpaceLimitBytes = uint64(bytes)
}
var freeDiskSpaceLimitBytes uint64
// IsReadOnly returns information is storage in read only mode
func (s *Storage) IsReadOnly() bool {
return s.isReadOnly.Load()
}
func (s *Storage) startFreeDiskSpaceWatcher() {
f := func() {
freeSpaceBytes := fs.MustGetFreeSpace(s.path)
if freeSpaceBytes < freeDiskSpaceLimitBytes {
// Switch the storage to readonly mode if there is no enough free space left at s.path
//
// Use Load in front of CompareAndSwap in order to avoid slow inter-CPU synchronization
// when the storage is already in read-only mode.
if !s.isReadOnly.Load() && s.isReadOnly.CompareAndSwap(false, true) {
// log notification only on state change
logger.Warnf("switching the storage at %s to read-only mode, since it has less than -storage.minFreeDiskSpaceBytes=%d of free space: %d bytes left",
s.path, freeDiskSpaceLimitBytes, freeSpaceBytes)
}
return
}
// Use Load in front of CompareAndSwap in order to avoid slow inter-CPU synchronization
// when the storage isn't in read-only mode.
if s.isReadOnly.Load() && s.isReadOnly.CompareAndSwap(true, false) {
s.notifyReadWriteMode()
logger.Warnf("switching the storage at %s to read-write mode, since it has more than -storage.minFreeDiskSpaceBytes=%d of free space: %d bytes left",
s.path, freeDiskSpaceLimitBytes, freeSpaceBytes)
}
}
f()
s.freeDiskSpaceWatcherWG.Add(1)
go func() {
defer s.freeDiskSpaceWatcherWG.Done()
d := timeutil.AddJitterToDuration(time.Second)
ticker := time.NewTicker(d)
defer ticker.Stop()
for {
select {
case <-s.stopCh:
return
case <-ticker.C:
f()
}
}
}()
}
func (s *Storage) notifyReadWriteMode() {
s.tb.NotifyReadWriteMode()
idb := s.idb()
idb.tb.NotifyReadWriteMode()
idb.doExtDB(func(extDB *indexDB) {
extDB.tb.NotifyReadWriteMode()
})
}
func (s *Storage) startRetentionWatcher() {
s.retentionWatcherWG.Add(1)
go func() {
s.retentionWatcher()
s.retentionWatcherWG.Done()
}()
}
func (s *Storage) retentionWatcher() {
for {
d := s.nextRetentionSeconds()
select {
case <-s.stopCh:
return
case currentTime := <-time.After(time.Second * time.Duration(d)):
s.mustRotateIndexDB(currentTime)
}
}
}
func (s *Storage) startCurrHourMetricIDsUpdater() {
s.currHourMetricIDsUpdaterWG.Add(1)
go func() {
s.currHourMetricIDsUpdater()
s.currHourMetricIDsUpdaterWG.Done()
}()
}
func (s *Storage) startNextDayMetricIDsUpdater() {
s.nextDayMetricIDsUpdaterWG.Add(1)
go func() {
s.nextDayMetricIDsUpdater()
s.nextDayMetricIDsUpdaterWG.Done()
}()
}
func (s *Storage) currHourMetricIDsUpdater() {
d := timeutil.AddJitterToDuration(time.Second * 10)
ticker := time.NewTicker(d)
defer ticker.Stop()
for {
select {
case <-s.stopCh:
hour := fasttime.UnixHour()
s.updateCurrHourMetricIDs(hour)
return
case <-ticker.C:
hour := fasttime.UnixHour()
s.updateCurrHourMetricIDs(hour)
}
}
}
func (s *Storage) nextDayMetricIDsUpdater() {
d := timeutil.AddJitterToDuration(time.Second * 11)
ticker := time.NewTicker(d)
defer ticker.Stop()
for {
select {
case <-s.stopCh:
date := fasttime.UnixDate()
s.updateNextDayMetricIDs(date)
return
case <-ticker.C:
date := fasttime.UnixDate()
s.updateNextDayMetricIDs(date)
}
}
}
func (s *Storage) mustRotateIndexDB(currentTime time.Time) {
// Create new indexdb table, which will be used as idbNext
newTableName := nextIndexDBTableName()
idbNewPath := filepath.Join(s.path, indexdbDirname, newTableName)
idbNew := mustOpenIndexDB(idbNewPath, s, &s.isReadOnly)
// Update nextRotationTimestamp
nextRotationTimestamp := currentTime.Unix() + s.retentionMsecs/1000
s.nextRotationTimestamp.Store(nextRotationTimestamp)
// Set idbNext to idbNew
idbNext := s.idbNext.Load()
idbNew.SetExtDB(idbNext)
s.idbNext.Store(idbNew)
// Set idbCurr to idbNext
idbCurr := s.idb()
s.idbCurr.Store(idbNext)
// Schedule data removal for idbPrev
idbCurr.doExtDB(func(extDB *indexDB) {
extDB.scheduleToDrop()
})
idbCurr.SetExtDB(nil)
// Persist changes on the file system.
fs.MustSyncPath(s.path)
// Do not flush tsidCache to avoid read/write path slowdown.
// The cache is automatically re-populated with new TSID entries
// with the updated indexdb generation.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1401
// Flush metric id caches for the current and the previous hour,
// since they may contain entries missing in idbCurr after the rotation.
// This should prevent from missing data in queries when
// the following steps are performed for short -retentionPeriod (e.g. 1 day):
//
// 1. Add samples for some series between 3-4 UTC. These series are registered in currHourMetricIDs.
// 2. The indexdb rotation is performed at 4 UTC. currHourMetricIDs is moved to prevHourMetricIDs.
// 3. Continue adding samples for series from step 1 during time range 4-5 UTC.
// These series are already registered in prevHourMetricIDs, so VM doesn't add per-day entries to the current indexdb.
// 4. Stop adding new samples for these series just before 5 UTC.
// 5. The next indexdb rotation is performed at 4 UTC next day.
// The information about the series added at step 3 disappears from indexdb, since the old indexdb from step 1 is deleted,
// while the current indexdb doesn't contain information about the series.
// So queries for the last 24 hours stop returning samples added at step 3.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/2698
s.pendingHourEntriesLock.Lock()
s.pendingHourEntries = &uint64set.Set{}
s.pendingHourEntriesLock.Unlock()
s.currHourMetricIDs.Store(&hourMetricIDs{})
s.prevHourMetricIDs.Store(&hourMetricIDs{})
// Do not flush dateMetricIDCache, since it contains entries prefixed with idb generation.
// There is no need in resetting nextDayMetricIDs, since it contains entries prefixed with idb generation.
// Do not flush metricIDCache and metricNameCache, since all the metricIDs
// from prev idb remain valid after the rotation.
}
func (s *Storage) resetAndSaveTSIDCache() {
// Reset cache and then store the reset cache on disk in order to prevent
// from inconsistent behaviour after possible unclean shutdown.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1347
s.tsidCache.Reset()
s.mustSaveCache(s.tsidCache, "metricName_tsid")
}
// MustClose closes the storage.
//
// It is expected that the s is no longer used during the close.
func (s *Storage) MustClose() {
close(s.stopCh)
s.freeDiskSpaceWatcherWG.Wait()
s.retentionWatcherWG.Wait()
s.currHourMetricIDsUpdaterWG.Wait()
s.nextDayMetricIDsUpdaterWG.Wait()
s.tb.MustClose()
s.idb().MustClose()
// Save caches.
s.mustSaveCache(s.tsidCache, "metricName_tsid")
s.tsidCache.Stop()
s.mustSaveCache(s.metricIDCache, "metricID_tsid")
s.metricIDCache.Stop()
s.mustSaveCache(s.metricNameCache, "metricID_metricName")
s.metricNameCache.Stop()
hmCurr := s.currHourMetricIDs.Load()
s.mustSaveHourMetricIDs(hmCurr, "curr_hour_metric_ids")
hmPrev := s.prevHourMetricIDs.Load()
s.mustSaveHourMetricIDs(hmPrev, "prev_hour_metric_ids")
nextDayMetricIDs := s.nextDayMetricIDs.Load()
s.mustSaveNextDayMetricIDs(nextDayMetricIDs)
// Release lock file.
fs.MustClose(s.flockF)
s.flockF = nil
// Stop series limiters.
if sl := s.hourlySeriesLimiter; sl != nil {
sl.MustStop()
}
if sl := s.dailySeriesLimiter; sl != nil {
sl.MustStop()
}
}
func (s *Storage) mustLoadNextDayMetricIDs(generation, date uint64) *byDateMetricIDEntry {
e := &byDateMetricIDEntry{
k: generationDateKey{
generation: generation,
date: date,
},
}
name := "next_day_metric_ids_v2"
path := filepath.Join(s.cachePath, name)
if !fs.IsPathExist(path) {
return e
}
src, err := os.ReadFile(path)
if err != nil {
logger.Panicf("FATAL: cannot read %s: %s", path, err)
}
if len(src) < 24 {
logger.Errorf("discarding %s, since it has broken header; got %d bytes; want %d bytes", path, len(src), 24)
return e
}
// Unmarshal header
generationLoaded := encoding.UnmarshalUint64(src)
src = src[8:]
if generationLoaded != generation {
logger.Infof("discarding %s, since it contains data for stale generation; got %d; want %d", path, generationLoaded, generation)
}
dateLoaded := encoding.UnmarshalUint64(src)
src = src[8:]
if dateLoaded != date {
logger.Infof("discarding %s, since it contains data for stale date; got %d; want %d", path, dateLoaded, date)
return e
}
// Unmarshal uint64set
m, tail, err := unmarshalUint64Set(src)
if err != nil {
logger.Infof("discarding %s because cannot load uint64set: %s", path, err)
return e
}
if len(tail) > 0 {
logger.Infof("discarding %s because non-empty tail left; len(tail)=%d", path, len(tail))
return e
}
e.v = *m
return e
}
func (s *Storage) mustLoadHourMetricIDs(hour uint64, name string) *hourMetricIDs {
hm := &hourMetricIDs{
hour: hour,
}
path := filepath.Join(s.cachePath, name)
if !fs.IsPathExist(path) {
return hm
}
src, err := os.ReadFile(path)
if err != nil {
logger.Panicf("FATAL: cannot read %s: %s", path, err)
}
if len(src) < 16 {
logger.Errorf("discarding %s, since it has broken header; got %d bytes; want %d bytes", path, len(src), 16)
return hm
}
// Unmarshal header
hourLoaded := encoding.UnmarshalUint64(src)
src = src[8:]
if hourLoaded != hour {
logger.Infof("discarding %s, since it contains outdated hour; got %d; want %d", path, hourLoaded, hour)
return hm
}
// Unmarshal uint64set
m, tail, err := unmarshalUint64Set(src)
if err != nil {
logger.Infof("discarding %s because cannot load uint64set: %s", path, err)
return hm
}
if len(tail) > 0 {
logger.Infof("discarding %s because non-empty tail left; len(tail)=%d", path, len(tail))
return hm
}
hm.m = m
return hm
}
func (s *Storage) mustSaveNextDayMetricIDs(e *byDateMetricIDEntry) {
name := "next_day_metric_ids_v2"
path := filepath.Join(s.cachePath, name)
dst := make([]byte, 0, e.v.Len()*8+16)
// Marshal header
dst = encoding.MarshalUint64(dst, e.k.generation)
dst = encoding.MarshalUint64(dst, e.k.date)
// Marshal e.v
dst = marshalUint64Set(dst, &e.v)
if err := os.WriteFile(path, dst, 0644); err != nil {
logger.Panicf("FATAL: cannot write %d bytes to %q: %s", len(dst), path, err)
}
}
func (s *Storage) mustSaveHourMetricIDs(hm *hourMetricIDs, name string) {
path := filepath.Join(s.cachePath, name)
dst := make([]byte, 0, hm.m.Len()*8+24)
// Marshal header
dst = encoding.MarshalUint64(dst, hm.hour)
// Marshal hm.m
dst = marshalUint64Set(dst, hm.m)
if err := os.WriteFile(path, dst, 0644); err != nil {
logger.Panicf("FATAL: cannot write %d bytes to %q: %s", len(dst), path, err)
}
}
func unmarshalUint64Set(src []byte) (*uint64set.Set, []byte, error) {
mLen := encoding.UnmarshalUint64(src)
src = src[8:]
if uint64(len(src)) < 8*mLen {
return nil, nil, fmt.Errorf("cannot unmarshal uint64set; got %d bytes; want at least %d bytes", len(src), 8*mLen)
}
m := &uint64set.Set{}
for i := uint64(0); i < mLen; i++ {
metricID := encoding.UnmarshalUint64(src)
src = src[8:]
m.Add(metricID)
}
return m, src, nil
}
func marshalUint64Set(dst []byte, m *uint64set.Set) []byte {
dst = encoding.MarshalUint64(dst, uint64(m.Len()))
m.ForEach(func(part []uint64) bool {
for _, metricID := range part {
dst = encoding.MarshalUint64(dst, metricID)
}
return true
})
return dst
}
func mustGetMinTimestampForCompositeIndex(metadataDir string, isEmptyDB bool) int64 {
path := filepath.Join(metadataDir, "minTimestampForCompositeIndex")
minTimestamp, err := loadMinTimestampForCompositeIndex(path)
if err == nil {
return minTimestamp
}
if !os.IsNotExist(err) {
logger.Errorf("cannot read minTimestampForCompositeIndex, so trying to re-create it; error: %s", err)
}
date := time.Now().UnixNano() / 1e6 / msecPerDay
if !isEmptyDB {
// The current and the next day can already contain non-composite indexes,
// so they cannot be queried with composite indexes.
date += 2
} else {
date = 0
}
minTimestamp = date * msecPerDay
dateBuf := encoding.MarshalInt64(nil, minTimestamp)
fs.MustWriteAtomic(path, dateBuf, true)
return minTimestamp
}
func loadMinTimestampForCompositeIndex(path string) (int64, error) {
data, err := os.ReadFile(path)
if err != nil {
return 0, err
}
if len(data) != 8 {
return 0, fmt.Errorf("unexpected length of %q; got %d bytes; want 8 bytes", path, len(data))
}
return encoding.UnmarshalInt64(data), nil
}
func (s *Storage) mustLoadCache(name string, sizeBytes int) *workingsetcache.Cache {
path := filepath.Join(s.cachePath, name)
return workingsetcache.Load(path, sizeBytes)
}
func (s *Storage) mustSaveCache(c *workingsetcache.Cache, name string) {
saveCacheLock.Lock()
defer saveCacheLock.Unlock()
path := filepath.Join(s.cachePath, name)
if err := c.Save(path); err != nil {
logger.Panicf("FATAL: cannot save cache to %q: %s", path, err)
}
}
// saveCacheLock prevents from data races when multiple concurrent goroutines save the same cache.
var saveCacheLock sync.Mutex
// SetRetentionTimezoneOffset sets the offset, which is used for calculating the time for indexdb rotation.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/pull/2574
func SetRetentionTimezoneOffset(offset time.Duration) {
retentionTimezoneOffsetSecs = int64(offset.Seconds())
}
var retentionTimezoneOffsetSecs int64
func nextRetentionDeadlineSeconds(atSecs, retentionSecs, offsetSecs int64) int64 {
// Round retentionSecs to days. This guarantees that per-day inverted index works as expected
const secsPerDay = 24 * 3600
retentionSecs = ((retentionSecs + secsPerDay - 1) / secsPerDay) * secsPerDay
// Schedule the deadline to +4 hours from the next retention period start
// because of historical reasons - see https://github.com/VictoriaMetrics/VictoriaMetrics/issues/248
offsetSecs -= 4 * 3600
// Make sure that offsetSecs doesn't exceed retentionSecs
offsetSecs %= retentionSecs
// align the retention deadline to multiples of retentionSecs
// This makes the deadline independent of atSecs.
deadline := ((atSecs + offsetSecs + retentionSecs - 1) / retentionSecs) * retentionSecs
// Apply the provided offsetSecs
deadline -= offsetSecs
return deadline
}
// SearchMetricNames returns marshaled metric names matching the given tfss on the given tr.
//
// The marshaled metric names must be unmarshaled via MetricName.UnmarshalString().
func (s *Storage) SearchMetricNames(qt *querytracer.Tracer, tfss []*TagFilters, tr TimeRange, maxMetrics int, deadline uint64) ([]string, error) {
qt = qt.NewChild("search for matching metric names: filters=%s, timeRange=%s", tfss, &tr)
defer qt.Done()
metricIDs, err := s.idb().searchMetricIDs(qt, tfss, tr, maxMetrics, deadline)
if err != nil {
return nil, err
}
if len(metricIDs) == 0 {
return nil, nil
}
if err = s.prefetchMetricNames(qt, metricIDs, deadline); err != nil {
return nil, err
}
idb := s.idb()
metricNames := make([]string, 0, len(metricIDs))
metricNamesSeen := make(map[string]struct{}, len(metricIDs))
var metricName []byte
for i, metricID := range metricIDs {
if i&paceLimiterSlowIterationsMask == 0 {
if err := checkSearchDeadlineAndPace(deadline); err != nil {
return nil, err
}
}
var ok bool
metricName, ok = idb.searchMetricNameWithCache(metricName[:0], metricID)
if !ok {
// Skip missing metricName for metricID.
// It should be automatically fixed. See indexDB.searchMetricNameWithCache for details.
continue
}
if _, ok := metricNamesSeen[string(metricName)]; ok {
// The given metric name was already seen; skip it
continue
}
metricNames = append(metricNames, string(metricName))
metricNamesSeen[metricNames[len(metricNames)-1]] = struct{}{}
}
qt.Printf("loaded %d metric names", len(metricNames))
return metricNames, nil
}
// prefetchMetricNames pre-fetches metric names for the given srcMetricIDs into metricID->metricName cache.
//
// This should speed-up further searchMetricNameWithCache calls for srcMetricIDs from tsids.
//
// It is expected that srcMetricIDs are already sorted by the caller. Otherwise the pre-fetching may be slow.
func (s *Storage) prefetchMetricNames(qt *querytracer.Tracer, srcMetricIDs []uint64, deadline uint64) error {
qt = qt.NewChild("prefetch metric names for %d metricIDs", len(srcMetricIDs))
defer qt.Done()
if len(srcMetricIDs) < 500 {
qt.Printf("skip pre-fetching metric names for low number of metric ids=%d", len(srcMetricIDs))
return nil
}
var metricIDs []uint64
s.prefetchedMetricIDsLock.Lock()
prefetchedMetricIDs := s.prefetchedMetricIDs
for _, metricID := range srcMetricIDs {
if prefetchedMetricIDs.Has(metricID) {
continue
}
metricIDs = append(metricIDs, metricID)
}
s.prefetchedMetricIDsLock.Unlock()
qt.Printf("%d out of %d metric names must be pre-fetched", len(metricIDs), len(srcMetricIDs))
if len(metricIDs) < 500 {
// It is cheaper to skip pre-fetching and obtain metricNames inline.
qt.Printf("skip pre-fetching metric names for low number of missing metric ids=%d", len(metricIDs))
return nil
}
s.slowMetricNameLoads.Add(uint64(len(metricIDs)))
// Pre-fetch metricIDs.
var missingMetricIDs []uint64
var metricName []byte
var err error
idb := s.idb()
is := idb.getIndexSearch(deadline)
defer idb.putIndexSearch(is)
for loops, metricID := range metricIDs {
if loops&paceLimiterSlowIterationsMask == 0 {
if err := checkSearchDeadlineAndPace(is.deadline); err != nil {
return err
}
}
var ok bool
metricName, ok = is.searchMetricNameWithCache(metricName[:0], metricID)
if !ok {
missingMetricIDs = append(missingMetricIDs, metricID)
continue
}
}
idb.doExtDB(func(extDB *indexDB) {
is := extDB.getIndexSearch(deadline)
defer extDB.putIndexSearch(is)
for loops, metricID := range missingMetricIDs {
if loops&paceLimiterSlowIterationsMask == 0 {
if err = checkSearchDeadlineAndPace(is.deadline); err != nil {
return
}
}
metricName, _ = is.searchMetricNameWithCache(metricName[:0], metricID)
}
})
if err != nil && err != io.EOF {
return err
}
qt.Printf("pre-fetch metric names for %d metric ids", len(metricIDs))
// Store the pre-fetched metricIDs, so they aren't pre-fetched next time.
s.prefetchedMetricIDsLock.Lock()
if fasttime.UnixTimestamp() > s.prefetchedMetricIDsDeadline.Load() {
// Periodically reset the prefetchedMetricIDs in order to limit its size.
s.prefetchedMetricIDs = &uint64set.Set{}
d := timeutil.AddJitterToDuration(time.Second * 20 * 60)
metricIDsDeadline := fasttime.UnixTimestamp() + uint64(d.Seconds())
s.prefetchedMetricIDsDeadline.Store(metricIDsDeadline)
}
s.prefetchedMetricIDs.AddMulti(metricIDs)
s.prefetchedMetricIDsLock.Unlock()
qt.Printf("cache metric ids for pre-fetched metric names")
return nil
}
// ErrDeadlineExceeded is returned when the request times out.
var ErrDeadlineExceeded = fmt.Errorf("deadline exceeded")
// DeleteSeries deletes all the series matching the given tfss.
//
// Returns the number of metrics deleted.
func (s *Storage) DeleteSeries(qt *querytracer.Tracer, tfss []*TagFilters) (int, error) {
deletedCount, err := s.idb().DeleteTSIDs(qt, tfss)
if err != nil {
return deletedCount, fmt.Errorf("cannot delete tsids: %w", err)
}
// Do not reset MetricName->TSID cache, since it is already reset inside DeleteTSIDs.
// Do not reset MetricID->MetricName cache, since it must be used only
// after filtering out deleted metricIDs.
return deletedCount, nil
}
// SearchLabelNamesWithFiltersOnTimeRange searches for label names matching the given tfss on tr.
func (s *Storage) SearchLabelNamesWithFiltersOnTimeRange(qt *querytracer.Tracer, tfss []*TagFilters, tr TimeRange, maxLabelNames, maxMetrics int, deadline uint64,
) ([]string, error) {
return s.idb().SearchLabelNamesWithFiltersOnTimeRange(qt, tfss, tr, maxLabelNames, maxMetrics, deadline)
}
// SearchLabelValuesWithFiltersOnTimeRange searches for label values for the given labelName, filters and tr.
func (s *Storage) SearchLabelValuesWithFiltersOnTimeRange(qt *querytracer.Tracer, labelName string, tfss []*TagFilters,
tr TimeRange, maxLabelValues, maxMetrics int, deadline uint64,
) ([]string, error) {
idb := s.idb()
key := labelName
if key == "__name__" {
key = ""
}
if len(tfss) == 1 && len(tfss[0].tfs) == 1 && string(tfss[0].tfs[0].key) == key {
// tfss contains only a single filter on labelName. It is faster searching for label values
// without any filters and limits and then later applying the filter and the limit to the found label values.
qt.Printf("search for up to %d values for the label %q on the time range %s", maxMetrics, labelName, &tr)
lvs, err := idb.SearchLabelValuesWithFiltersOnTimeRange(qt, labelName, nil, tr, maxMetrics, maxMetrics, deadline)
if err != nil {
return nil, err
}
needSlowSearch := len(lvs) == maxMetrics
lvsLen := len(lvs)
lvs = filterLabelValues(lvs, &tfss[0].tfs[0], key)
qt.Printf("found %d out of %d values for the label %q after filtering", len(lvs), lvsLen, labelName)
if len(lvs) >= maxLabelValues {
qt.Printf("leave %d out of %d values for the label %q because of the limit", maxLabelValues, len(lvs), labelName)
lvs = lvs[:maxLabelValues]
// We found at least maxLabelValues unique values for the label with the given filters.
// It is OK returning all these values instead of falling back to the slow search.
needSlowSearch = false
}
if !needSlowSearch {
return lvs, nil
}
qt.Printf("fall back to slow search because only a subset of label values is found")
}
return idb.SearchLabelValuesWithFiltersOnTimeRange(qt, labelName, tfss, tr, maxLabelValues, maxMetrics, deadline)
}
func filterLabelValues(lvs []string, tf *tagFilter, key string) []string {
var b []byte
result := lvs[:0]
for _, lv := range lvs {
b = marshalCommonPrefix(b[:0], nsPrefixTagToMetricIDs)
b = marshalTagValue(b, bytesutil.ToUnsafeBytes(key))
b = marshalTagValue(b, bytesutil.ToUnsafeBytes(lv))
ok, err := tf.match(b)
if err != nil {
logger.Panicf("BUG: cannot match label %q=%q with tagFilter %s: %w", key, lv, tf.String(), err)
}
if ok {
result = append(result, lv)
}
}
return result
}
// SearchTagValueSuffixes returns all the tag value suffixes for the given tagKey and tagValuePrefix on the given tr.
//
// This allows implementing https://graphite-api.readthedocs.io/en/latest/api.html#metrics-find or similar APIs.
//
// If more than maxTagValueSuffixes suffixes is found, then only the first maxTagValueSuffixes suffixes is returned.
func (s *Storage) SearchTagValueSuffixes(qt *querytracer.Tracer, tr TimeRange, tagKey, tagValuePrefix string,
delimiter byte, maxTagValueSuffixes int, deadline uint64,
) ([]string, error) {
return s.idb().SearchTagValueSuffixes(qt, tr, tagKey, tagValuePrefix, delimiter, maxTagValueSuffixes, deadline)
}
// SearchGraphitePaths returns all the matching paths for the given graphite query on the given tr.
func (s *Storage) SearchGraphitePaths(qt *querytracer.Tracer, tr TimeRange, query []byte, maxPaths int, deadline uint64) ([]string, error) {
query = replaceAlternateRegexpsWithGraphiteWildcards(query)
return s.searchGraphitePaths(qt, tr, nil, query, maxPaths, deadline)
}
// replaceAlternateRegexpsWithGraphiteWildcards replaces (foo|..|bar) with {foo,...,bar} in b and returns the new value.
func replaceAlternateRegexpsWithGraphiteWildcards(b []byte) []byte {
var dst []byte
for {
n := bytes.IndexByte(b, '(')
if n < 0 {
if len(dst) == 0 {
// Fast path - b doesn't contain the openining brace.
return b
}
dst = append(dst, b...)
return dst
}
dst = append(dst, b[:n]...)
b = b[n+1:]
n = bytes.IndexByte(b, ')')
if n < 0 {
dst = append(dst, '(')
dst = append(dst, b...)
return dst
}
x := b[:n]
b = b[n+1:]
if string(x) == ".*" {
dst = append(dst, '*')
continue
}
dst = append(dst, '{')
for len(x) > 0 {
n = bytes.IndexByte(x, '|')
if n < 0 {
dst = append(dst, x...)
break
}
dst = append(dst, x[:n]...)
x = x[n+1:]
dst = append(dst, ',')
}
dst = append(dst, '}')
}
}
func (s *Storage) searchGraphitePaths(qt *querytracer.Tracer, tr TimeRange, qHead, qTail []byte, maxPaths int, deadline uint64) ([]string, error) {
n := bytes.IndexAny(qTail, "*[{")
if n < 0 {
// Verify that qHead matches a metric name.
qHead = append(qHead, qTail...)
suffixes, err := s.SearchTagValueSuffixes(qt, tr, "", bytesutil.ToUnsafeString(qHead), '.', 1, deadline)
if err != nil {
return nil, err
}
if len(suffixes) == 0 {
// The query doesn't match anything.
return nil, nil
}
if len(suffixes[0]) > 0 {
// The query matches a metric name with additional suffix.
return nil, nil
}
return []string{string(qHead)}, nil
}
qHead = append(qHead, qTail[:n]...)
suffixes, err := s.SearchTagValueSuffixes(qt, tr, "", bytesutil.ToUnsafeString(qHead), '.', maxPaths, deadline)
if err != nil {
return nil, err
}
if len(suffixes) == 0 {
return nil, nil
}
if len(suffixes) >= maxPaths {
return nil, fmt.Errorf("more than maxPaths=%d suffixes found", maxPaths)
}
qNode := qTail[n:]
qTail = nil
mustMatchLeafs := true
if m := bytes.IndexByte(qNode, '.'); m >= 0 {
qTail = qNode[m+1:]
qNode = qNode[:m+1]
mustMatchLeafs = false
}
re, err := getRegexpForGraphiteQuery(string(qNode))
if err != nil {
return nil, err
}
qHeadLen := len(qHead)
var paths []string
for _, suffix := range suffixes {
if len(paths) > maxPaths {
return nil, fmt.Errorf("more than maxPath=%d paths found", maxPaths)
}
if !re.MatchString(suffix) {
continue
}
if mustMatchLeafs {
qHead = append(qHead[:qHeadLen], suffix...)
paths = append(paths, string(qHead))
continue
}
qHead = append(qHead[:qHeadLen], suffix...)
ps, err := s.searchGraphitePaths(qt, tr, qHead, qTail, maxPaths, deadline)
if err != nil {
return nil, err
}
paths = append(paths, ps...)
}
return paths, nil
}
func getRegexpForGraphiteQuery(q string) (*regexp.Regexp, error) {
parts, tail := getRegexpPartsForGraphiteQuery(q)
if len(tail) > 0 {
return nil, fmt.Errorf("unexpected tail left after parsing %q: %q", q, tail)
}
reStr := "^" + strings.Join(parts, "") + "$"
return metricsql.CompileRegexp(reStr)
}
func getRegexpPartsForGraphiteQuery(q string) ([]string, string) {
var parts []string
for {
n := strings.IndexAny(q, "*{}[,")
if n < 0 {
parts = append(parts, regexp.QuoteMeta(q))
return parts, ""
}
parts = append(parts, regexp.QuoteMeta(q[:n]))
q = q[n:]
switch q[0] {
case ',', '}':
return parts, q
case '*':
parts = append(parts, "[^.]*")
q = q[1:]
case '{':
var tmp []string
for {
a, tail := getRegexpPartsForGraphiteQuery(q[1:])
tmp = append(tmp, strings.Join(a, ""))
if len(tail) == 0 {
parts = append(parts, regexp.QuoteMeta("{"))
parts = append(parts, strings.Join(tmp, ","))
return parts, ""
}
if tail[0] == ',' {
q = tail
continue
}
if tail[0] == '}' {
if len(tmp) == 1 {
parts = append(parts, tmp[0])
} else {
parts = append(parts, "(?:"+strings.Join(tmp, "|")+")")
}
q = tail[1:]
break
}
logger.Panicf("BUG: unexpected first char at tail %q; want `.` or `}`", tail)
}
case '[':
n := strings.IndexByte(q, ']')
if n < 0 {
parts = append(parts, regexp.QuoteMeta(q))
return parts, ""
}
parts = append(parts, q[:n+1])
q = q[n+1:]
}
}
}
// GetSeriesCount returns the approximate number of unique time series.
//
// It includes the deleted series too and may count the same series
// up to two times - in db and extDB.
func (s *Storage) GetSeriesCount(deadline uint64) (uint64, error) {
return s.idb().GetSeriesCount(deadline)
}
// GetTSDBStatus returns TSDB status data for /api/v1/status/tsdb
func (s *Storage) GetTSDBStatus(qt *querytracer.Tracer, tfss []*TagFilters, date uint64, focusLabel string, topN, maxMetrics int, deadline uint64) (*TSDBStatus, error) {
return s.idb().GetTSDBStatus(qt, tfss, date, focusLabel, topN, maxMetrics, deadline)
}
// MetricRow is a metric to insert into storage.
type MetricRow struct {
// MetricNameRaw contains raw metric name, which must be decoded
// with MetricName.UnmarshalRaw.
MetricNameRaw []byte
Timestamp int64
Value float64
}
// CopyFrom copies src to mr.
func (mr *MetricRow) CopyFrom(src *MetricRow) {
mr.MetricNameRaw = append(mr.MetricNameRaw[:0], src.MetricNameRaw...)
mr.Timestamp = src.Timestamp
mr.Value = src.Value
}
// String returns string representation of the mr.
func (mr *MetricRow) String() string {
metricName := string(mr.MetricNameRaw)
var mn MetricName
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err == nil {
metricName = mn.String()
}
return fmt.Sprintf("%s (Timestamp=%d, Value=%f)", metricName, mr.Timestamp, mr.Value)
}
// Marshal appends marshaled mr to dst and returns the result.
func (mr *MetricRow) Marshal(dst []byte) []byte {
dst = encoding.MarshalBytes(dst, mr.MetricNameRaw)
dst = encoding.MarshalUint64(dst, uint64(mr.Timestamp))
dst = encoding.MarshalUint64(dst, math.Float64bits(mr.Value))
return dst
}
// UnmarshalX unmarshals mr from src and returns the remaining tail from src.
//
// mr refers to src, so it remains valid until src changes.
func (mr *MetricRow) UnmarshalX(src []byte) ([]byte, error) {
metricNameRaw, nSize := encoding.UnmarshalBytes(src)
if nSize <= 0 {
return src, fmt.Errorf("cannot unmarshal MetricName")
}
tail := src[nSize:]
mr.MetricNameRaw = metricNameRaw
if len(tail) < 8 {
return tail, fmt.Errorf("cannot unmarshal Timestamp: want %d bytes; have %d bytes", 8, len(tail))
}
timestamp := encoding.UnmarshalUint64(tail)
tail = tail[8:]
mr.Timestamp = int64(timestamp)
if len(tail) < 8 {
return tail, fmt.Errorf("cannot unmarshal Value: want %d bytes; have %d bytes", 8, len(tail))
}
value := encoding.UnmarshalUint64(tail)
tail = tail[8:]
mr.Value = math.Float64frombits(value)
return tail, nil
}
// ForceMergePartitions force-merges partitions in s with names starting from the given partitionNamePrefix.
//
// Partitions are merged sequentially in order to reduce load on the system.
func (s *Storage) ForceMergePartitions(partitionNamePrefix string) error {
return s.tb.ForceMergePartitions(partitionNamePrefix)
}
// AddRows adds the given mrs to s.
//
// The caller should limit the number of concurrent AddRows calls to the number
// of available CPU cores in order to limit memory usage.
func (s *Storage) AddRows(mrs []MetricRow, precisionBits uint8) {
if len(mrs) == 0 {
return
}
// Add rows to the storage in blocks with limited size in order to reduce memory usage.
ic := getMetricRowsInsertCtx()
maxBlockLen := len(ic.rrs)
for len(mrs) > 0 {
mrsBlock := mrs
if len(mrs) > maxBlockLen {
mrsBlock = mrs[:maxBlockLen]
mrs = mrs[maxBlockLen:]
} else {
mrs = nil
}
rowsAdded := s.add(ic.rrs, ic.tmpMrs, mrsBlock, precisionBits)
// If the number of received rows is greater than the number of added
// rows, then some rows have failed to add. Check logs for the first
// error.
s.rowsAddedTotal.Add(uint64(rowsAdded))
s.rowsReceivedTotal.Add(uint64(len(mrsBlock)))
}
putMetricRowsInsertCtx(ic)
}
type metricRowsInsertCtx struct {
rrs []rawRow
tmpMrs []*MetricRow
}
func getMetricRowsInsertCtx() *metricRowsInsertCtx {
v := metricRowsInsertCtxPool.Get()
if v == nil {
v = &metricRowsInsertCtx{
rrs: make([]rawRow, maxMetricRowsPerBlock),
tmpMrs: make([]*MetricRow, maxMetricRowsPerBlock),
}
}
return v.(*metricRowsInsertCtx)
}
func putMetricRowsInsertCtx(ic *metricRowsInsertCtx) {
tmpMrs := ic.tmpMrs
for i := range tmpMrs {
tmpMrs[i] = nil
}
metricRowsInsertCtxPool.Put(ic)
}
var metricRowsInsertCtxPool sync.Pool
const maxMetricRowsPerBlock = 8000
// RegisterMetricNames registers all the metric names from mrs in the indexdb, so they can be queried later.
//
// The the MetricRow.Timestamp is used for registering the metric name at the given day according to the timestamp.
// Th MetricRow.Value field is ignored.
func (s *Storage) RegisterMetricNames(qt *querytracer.Tracer, mrs []MetricRow) {
qt = qt.NewChild("registering %d series", len(mrs))
defer qt.Done()
var metricNameBuf []byte
var genTSID generationTSID
mn := GetMetricName()
defer PutMetricName(mn)
var newSeriesCount uint64
var seriesRepopulated uint64
idb := s.idb()
generation := idb.generation
is := idb.getIndexSearch(noDeadline)
defer idb.putIndexSearch(is)
var firstWarn error
for i := range mrs {
mr := &mrs[i]
date := uint64(mr.Timestamp) / msecPerDay
if s.getTSIDFromCache(&genTSID, mr.MetricNameRaw) {
// Fast path - mr.MetricNameRaw has been already registered in the current idb.
if !s.registerSeriesCardinality(genTSID.TSID.MetricID, mr.MetricNameRaw) {
// Skip row, since it exceeds cardinality limit
continue
}
if genTSID.generation < generation {
// The found TSID is from the previous indexdb. Create it in the current indexdb.
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err != nil {
// Do not stop adding rows on error - just skip invalid row.
// This guarantees that invalid rows don't prevent
// from adding valid rows into the storage.
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot umarshal MetricNameRaw %q: %w", mr.MetricNameRaw, err)
}
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
seriesRepopulated++
} else if !s.dateMetricIDCache.Has(generation, date, genTSID.TSID.MetricID) {
if !is.hasDateMetricIDNoExtDB(date, genTSID.TSID.MetricID) {
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err != nil {
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %w", mr.MetricNameRaw, err)
}
continue
}
mn.sortTags()
is.createPerDayIndexes(date, &genTSID.TSID, mn)
}
s.dateMetricIDCache.Set(generation, date, genTSID.TSID.MetricID)
}
continue
}
// Slow path - search TSID for the given metricName in indexdb.
// Construct canonical metric name - it is used below.
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err != nil {
// Do not stop adding rows on error - just skip invalid row.
// This guarantees that invalid rows don't prevent
// from adding valid rows into the storage.
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot umarshal MetricNameRaw %q: %w", mr.MetricNameRaw, err)
}
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
metricNameBuf = mn.Marshal(metricNameBuf[:0])
if is.getTSIDByMetricName(&genTSID, metricNameBuf, date) {
// Slower path - the TSID has been found in indexdb.
if !s.registerSeriesCardinality(genTSID.TSID.MetricID, mr.MetricNameRaw) {
// Skip the row, since it exceeds the configured cardinality limit.
continue
}
if genTSID.generation < generation {
// The found TSID is from the previous indexdb. Create it in the current indexdb.
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
seriesRepopulated++
}
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
continue
}
// Slowest path - there is no TSID in indexdb for the given mr.MetricNameRaw. Create it.
generateTSID(&genTSID.TSID, mn)
if !s.registerSeriesCardinality(genTSID.TSID.MetricID, mr.MetricNameRaw) {
// Skip the row, since it exceeds the configured cardinality limit.
continue
}
// Schedule creating TSID indexes instead of creating them synchronously.
// This should keep stable the ingestion rate when new time series are ingested.
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
newSeriesCount++
}
s.newTimeseriesCreated.Add(newSeriesCount)
s.timeseriesRepopulated.Add(seriesRepopulated)
// There is no need in pre-filling idbNext here, since RegisterMetricNames() is rarely called.
// So it is OK to register metric names in blocking manner after indexdb rotation.
if firstWarn != nil {
logger.Warnf("cannot create some metrics: %s", firstWarn)
}
}
func (s *Storage) add(rows []rawRow, dstMrs []*MetricRow, mrs []MetricRow, precisionBits uint8) int {
idb := s.idb()
generation := idb.generation
is := idb.getIndexSearch(noDeadline)
defer idb.putIndexSearch(is)
mn := GetMetricName()
defer PutMetricName(mn)
var (
// These vars are used for speeding up bulk imports of multiple adjacent rows for the same metricName.
prevTSID TSID
prevMetricNameRaw []byte
)
var metricNameBuf []byte
var slowInsertsCount uint64
var newSeriesCount uint64
var seriesRepopulated uint64
minTimestamp, maxTimestamp := s.tb.getMinMaxTimestamps()
var genTSID generationTSID
// Log only the first error, since it has no sense in logging all errors.
var firstWarn error
j := 0
for i := range mrs {
mr := &mrs[i]
if math.IsNaN(mr.Value) {
if !decimal.IsStaleNaN(mr.Value) {
// Skip NaNs other than Prometheus staleness marker, since the underlying encoding
// doesn't know how to work with them.
s.naNValueRows.Add(1)
continue
}
}
if mr.Timestamp < minTimestamp {
// Skip rows with too small timestamps outside the retention.
if firstWarn == nil {
metricName := getUserReadableMetricName(mr.MetricNameRaw)
firstWarn = fmt.Errorf("cannot insert row with too small timestamp %d outside the retention; minimum allowed timestamp is %d; "+
"probably you need updating -retentionPeriod command-line flag; metricName: %s",
mr.Timestamp, minTimestamp, metricName)
}
s.tooSmallTimestampRows.Add(1)
continue
}
if mr.Timestamp > maxTimestamp {
// Skip rows with too big timestamps significantly exceeding the current time.
if firstWarn == nil {
metricName := getUserReadableMetricName(mr.MetricNameRaw)
firstWarn = fmt.Errorf("cannot insert row with too big timestamp %d exceeding the current time; maximum allowed timestamp is %d; metricName: %s",
mr.Timestamp, maxTimestamp, metricName)
}
s.tooBigTimestampRows.Add(1)
continue
}
dstMrs[j] = mr
r := &rows[j]
j++
r.Timestamp = mr.Timestamp
r.Value = mr.Value
r.PrecisionBits = precisionBits
// Search for TSID for the given mr.MetricNameRaw and store it at r.TSID.
if string(mr.MetricNameRaw) == string(prevMetricNameRaw) {
// Fast path - the current mr contains the same metric name as the previous mr, so it contains the same TSID.
// This path should trigger on bulk imports when many rows contain the same MetricNameRaw.
r.TSID = prevTSID
continue
}
if s.getTSIDFromCache(&genTSID, mr.MetricNameRaw) {
// Fast path - the TSID for the given mr.MetricNameRaw has been found in cache and isn't deleted.
// There is no need in checking whether r.TSID.MetricID is deleted, since tsidCache doesn't
// contain MetricName->TSID entries for deleted time series.
// See Storage.DeleteSeries code for details.
if !s.registerSeriesCardinality(r.TSID.MetricID, mr.MetricNameRaw) {
// Skip row, since it exceeds cardinality limit
j--
continue
}
r.TSID = genTSID.TSID
prevTSID = r.TSID
prevMetricNameRaw = mr.MetricNameRaw
if genTSID.generation < generation {
// The found TSID is from the previous indexdb. Create it in the current indexdb.
date := uint64(r.Timestamp) / msecPerDay
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err != nil {
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %w", mr.MetricNameRaw, err)
}
j--
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
seriesRepopulated++
slowInsertsCount++
}
continue
}
// Slow path - the TSID for the given mr.MetricNameRaw is missing in the cache.
slowInsertsCount++
date := uint64(r.Timestamp) / msecPerDay
// Construct canonical metric name - it is used below.
if err := mn.UnmarshalRaw(mr.MetricNameRaw); err != nil {
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %w", mr.MetricNameRaw, err)
}
j--
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
metricNameBuf = mn.Marshal(metricNameBuf[:0])
// Search for TSID for the given mr.MetricNameRaw in the indexdb.
if is.getTSIDByMetricName(&genTSID, metricNameBuf, date) {
// Slower path - the TSID has been found in indexdb.
if !s.registerSeriesCardinality(genTSID.TSID.MetricID, mr.MetricNameRaw) {
// Skip the row, since it exceeds the configured cardinality limit.
j--
continue
}
if genTSID.generation < generation {
// The found TSID is from the previous indexdb. Create it in the current indexdb.
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
seriesRepopulated++
}
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
r.TSID = genTSID.TSID
prevTSID = genTSID.TSID
prevMetricNameRaw = mr.MetricNameRaw
continue
}
// Slowest path - the TSID for the given mr.MetricNameRaw isn't found in indexdb. Create it.
generateTSID(&genTSID.TSID, mn)
if !s.registerSeriesCardinality(genTSID.TSID.MetricID, mr.MetricNameRaw) {
// Skip the row, since it exceeds the configured cardinality limit.
j--
continue
}
createAllIndexesForMetricName(is, mn, &genTSID.TSID, date)
genTSID.generation = generation
s.putSeriesToCache(mr.MetricNameRaw, &genTSID, date)
newSeriesCount++
r.TSID = genTSID.TSID
prevTSID = r.TSID
prevMetricNameRaw = mr.MetricNameRaw
if logNewSeries {
logger.Infof("new series created: %s", mn.String())
}
}
s.slowRowInserts.Add(slowInsertsCount)
s.newTimeseriesCreated.Add(newSeriesCount)
s.timeseriesRepopulated.Add(seriesRepopulated)
dstMrs = dstMrs[:j]
rows = rows[:j]
if err := s.prefillNextIndexDB(rows, dstMrs); err != nil {
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot prefill next indexdb: %w", err)
}
}
if err := s.updatePerDateData(rows, dstMrs); err != nil {
if firstWarn == nil {
firstWarn = fmt.Errorf("cannot not update per-day index: %w", err)
}
}
if firstWarn != nil {
storageAddRowsLogger.Warnf("warn occurred during rows addition: %s", firstWarn)
}
s.tb.MustAddRows(rows)
return len(rows)
}
var storageAddRowsLogger = logger.WithThrottler("storageAddRows", 5*time.Second)
// SetLogNewSeries updates new series logging.
//
// This function must be called before any calling any storage functions.
func SetLogNewSeries(ok bool) {
logNewSeries = ok
}
var logNewSeries = false
func createAllIndexesForMetricName(is *indexSearch, mn *MetricName, tsid *TSID, date uint64) {
is.createGlobalIndexes(tsid, mn)
is.createPerDayIndexes(date, tsid, mn)
}
func (s *Storage) putSeriesToCache(metricNameRaw []byte, genTSID *generationTSID, date uint64) {
// Store the TSID for the current indexdb into cache,
// so future rows for that TSID are ingested via fast path.
s.putTSIDToCache(genTSID, metricNameRaw)
// Register the (generation, date, metricID) entry in the cache,
// so next time the entry is found there instead of searching for it in the indexdb.
s.dateMetricIDCache.Set(genTSID.generation, date, genTSID.TSID.MetricID)
}
func (s *Storage) registerSeriesCardinality(metricID uint64, metricNameRaw []byte) bool {
if sl := s.hourlySeriesLimiter; sl != nil && !sl.Add(metricID) {
s.hourlySeriesLimitRowsDropped.Add(1)
logSkippedSeries(metricNameRaw, "-storage.maxHourlySeries", sl.MaxItems())
return false
}
if sl := s.dailySeriesLimiter; sl != nil && !sl.Add(metricID) {
s.dailySeriesLimitRowsDropped.Add(1)
logSkippedSeries(metricNameRaw, "-storage.maxDailySeries", sl.MaxItems())
return false
}
return true
}
func logSkippedSeries(metricNameRaw []byte, flagName string, flagValue int) {
select {
case <-logSkippedSeriesTicker.C:
// Do not use logger.WithThrottler() here, since this will result in increased CPU load
// because of getUserReadableMetricName() calls per each logSkippedSeries call.
userReadableMetricName := getUserReadableMetricName(metricNameRaw)
logger.Warnf("skip series %s because %s=%d reached", userReadableMetricName, flagName, flagValue)
default:
}
}
var logSkippedSeriesTicker = time.NewTicker(5 * time.Second)
func getUserReadableMetricName(metricNameRaw []byte) string {
mn := GetMetricName()
defer PutMetricName(mn)
if err := mn.UnmarshalRaw(metricNameRaw); err != nil {
return fmt.Sprintf("cannot unmarshal metricNameRaw %q: %s", metricNameRaw, err)
}
return mn.String()
}
func (s *Storage) prefillNextIndexDB(rows []rawRow, mrs []*MetricRow) error {
d := s.nextRetentionSeconds()
if d >= 3600 {
// Fast path: nothing to pre-fill because it is too early.
// The pre-fill is started during the last hour before the indexdb rotation.
return nil
}
// Slower path: less than hour left for the next indexdb rotation.
// Pre-populate idbNext with the increasing probability until the rotation.
// The probability increases from 0% to 100% proportioinally to d=[3600 .. 0].
pMin := float64(d) / 3600
idbNext := s.idbNext.Load()
generation := idbNext.generation
isNext := idbNext.getIndexSearch(noDeadline)
defer idbNext.putIndexSearch(isNext)
var firstError error
var genTSID generationTSID
mn := GetMetricName()
defer PutMetricName(mn)
timeseriesPreCreated := uint64(0)
for i := range rows {
r := &rows[i]
p := float64(uint32(fastHashUint64(r.TSID.MetricID))) / (1 << 32)
if p < pMin {
// Fast path: it is too early to pre-fill indexes for the given MetricID.
continue
}
// Check whether the given MetricID is already present in dateMetricIDCache.
date := uint64(r.Timestamp) / msecPerDay
metricID := r.TSID.MetricID
if s.dateMetricIDCache.Has(generation, date, metricID) {
// Indexes are already pre-filled.
continue
}
// Check whether the given (date, metricID) is already present in idbNext.
if isNext.hasDateMetricIDNoExtDB(date, metricID) {
// Indexes are already pre-filled at idbNext.
//
// Register the (generation, date, metricID) entry in the cache,
// so next time the entry is found there instead of searching for it in the indexdb.
s.dateMetricIDCache.Set(generation, date, metricID)
continue
}
// Slow path: pre-fill indexes in idbNext.
metricNameRaw := mrs[i].MetricNameRaw
if err := mn.UnmarshalRaw(metricNameRaw); err != nil {
if firstError == nil {
firstError = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %w", metricNameRaw, err)
}
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
createAllIndexesForMetricName(isNext, mn, &r.TSID, date)
genTSID.TSID = r.TSID
genTSID.generation = generation
s.putSeriesToCache(metricNameRaw, &genTSID, date)
timeseriesPreCreated++
}
s.timeseriesPreCreated.Add(timeseriesPreCreated)
return firstError
}
func (s *Storage) updatePerDateData(rows []rawRow, mrs []*MetricRow) error {
var date uint64
var hour uint64
var prevTimestamp int64
var (
// These vars are used for speeding up bulk imports when multiple adjacent rows
// contain the same (metricID, date) pairs.
prevDate uint64
prevMetricID uint64
)
idb := s.idb()
generation := idb.generation
hm := s.currHourMetricIDs.Load()
hmPrev := s.prevHourMetricIDs.Load()
hmPrevDate := hmPrev.hour / 24
nextDayMetricIDs := &s.nextDayMetricIDs.Load().v
ts := fasttime.UnixTimestamp()
// Start pre-populating the next per-day inverted index during the last hour of the current day.
// pMin linearly increases from 0 to 1 during the last hour of the day.
pMin := (float64(ts%(3600*24)) / 3600) - 23
type pendingDateMetricID struct {
date uint64
tsid *TSID
mr *MetricRow
}
var pendingDateMetricIDs []pendingDateMetricID
var pendingNextDayMetricIDs []uint64
var pendingHourEntries []uint64
for i := range rows {
r := &rows[i]
if r.Timestamp != prevTimestamp {
date = uint64(r.Timestamp) / msecPerDay
hour = uint64(r.Timestamp) / msecPerHour
prevTimestamp = r.Timestamp
}
metricID := r.TSID.MetricID
if metricID == prevMetricID && date == prevDate {
// Fast path for bulk import of multiple rows with the same (date, metricID) pairs.
continue
}
prevDate = date
prevMetricID = metricID
if hour == hm.hour {
// The row belongs to the current hour. Check for the current hour cache.
if hm.m.Has(metricID) {
// Fast path: the metricID is in the current hour cache.
// This means the metricID has been already added to per-day inverted index.
// Gradually pre-populate per-day inverted index for the next day during the last hour of the current day.
// This should reduce CPU usage spike and slowdown at the beginning of the next day
// when entries for all the active time series must be added to the index.
// This should address https://github.com/VictoriaMetrics/VictoriaMetrics/issues/430 .
if pMin > 0 {
p := float64(uint32(fastHashUint64(metricID))) / (1 << 32)
if p < pMin && !nextDayMetricIDs.Has(metricID) {
pendingDateMetricIDs = append(pendingDateMetricIDs, pendingDateMetricID{
date: date + 1,
tsid: &r.TSID,
mr: mrs[i],
})
pendingNextDayMetricIDs = append(pendingNextDayMetricIDs, metricID)
}
}
continue
}
pendingHourEntries = append(pendingHourEntries, metricID)
if date == hmPrevDate && hmPrev.m.Has(metricID) {
// The metricID is already registered for the current day on the previous hour.
continue
}
}
// Slower path: check global cache for (generation, date, metricID) entry.
if s.dateMetricIDCache.Has(generation, date, metricID) {
continue
}
// Slow path: store the (date, metricID) entry in the indexDB.
pendingDateMetricIDs = append(pendingDateMetricIDs, pendingDateMetricID{
date: date,
tsid: &r.TSID,
mr: mrs[i],
})
}
if len(pendingNextDayMetricIDs) > 0 {
s.pendingNextDayMetricIDsLock.Lock()
s.pendingNextDayMetricIDs.AddMulti(pendingNextDayMetricIDs)
s.pendingNextDayMetricIDsLock.Unlock()
}
if len(pendingHourEntries) > 0 {
s.pendingHourEntriesLock.Lock()
s.pendingHourEntries.AddMulti(pendingHourEntries)
s.pendingHourEntriesLock.Unlock()
}
if len(pendingDateMetricIDs) == 0 {
// Fast path - there are no new (date, metricID) entries.
return nil
}
// Slow path - add new (date, metricID) entries to indexDB.
s.slowPerDayIndexInserts.Add(uint64(len(pendingDateMetricIDs)))
// Sort pendingDateMetricIDs by (date, metricID) in order to speed up `is` search in the loop below.
sort.Slice(pendingDateMetricIDs, func(i, j int) bool {
a := pendingDateMetricIDs[i]
b := pendingDateMetricIDs[j]
if a.date != b.date {
return a.date < b.date
}
return a.tsid.MetricID < b.tsid.MetricID
})
is := idb.getIndexSearch(noDeadline)
defer idb.putIndexSearch(is)
var firstError error
dateMetricIDsForCache := make([]dateMetricID, 0, len(pendingDateMetricIDs))
mn := GetMetricName()
for _, dmid := range pendingDateMetricIDs {
date := dmid.date
metricID := dmid.tsid.MetricID
if !is.hasDateMetricIDNoExtDB(date, metricID) {
// The (date, metricID) entry is missing in the indexDB. Add it there together with per-day indexes.
// It is OK if the (date, metricID) entry is added multiple times to indexdb
// by concurrent goroutines.
if err := mn.UnmarshalRaw(dmid.mr.MetricNameRaw); err != nil {
if firstError == nil {
firstError = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %w", dmid.mr.MetricNameRaw, err)
}
s.invalidRawMetricNames.Add(1)
continue
}
mn.sortTags()
is.createPerDayIndexes(date, dmid.tsid, mn)
}
dateMetricIDsForCache = append(dateMetricIDsForCache, dateMetricID{
date: date,
metricID: metricID,
})
}
PutMetricName(mn)
// The (date, metricID) entries must be added to cache only after they have been successfully added to indexDB.
s.dateMetricIDCache.Store(generation, dateMetricIDsForCache)
return firstError
}
func fastHashUint64(x uint64) uint64 {
x ^= x >> 12 // a
x ^= x << 25 // b
x ^= x >> 27 // c
return x * 2685821657736338717
}
// dateMetricIDCache is fast cache for holding (date, metricID) entries.
//
// It should be faster than map[date]*uint64set.Set on multicore systems.
type dateMetricIDCache struct {
syncsCount atomic.Uint64
resetsCount atomic.Uint64
// Contains immutable map
byDate atomic.Pointer[byDateMetricIDMap]
// Contains mutable map protected by mu
byDateMutable *byDateMetricIDMap
// Contains the number of slow accesses to byDateMutable.
// Is used for deciding when to merge byDateMutable to byDate.
// Protected by mu.
slowHits int
mu sync.Mutex
}
func newDateMetricIDCache() *dateMetricIDCache {
var dmc dateMetricIDCache
dmc.resetLocked()
return &dmc
}
func (dmc *dateMetricIDCache) resetLocked() {
// Do not reset syncsCount and resetsCount
dmc.byDate.Store(newByDateMetricIDMap())
dmc.byDateMutable = newByDateMetricIDMap()
dmc.slowHits = 0
dmc.resetsCount.Add(1)
}
func (dmc *dateMetricIDCache) EntriesCount() int {
byDate := dmc.byDate.Load()
n := 0
for _, e := range byDate.m {
n += e.v.Len()
}
return n
}
func (dmc *dateMetricIDCache) SizeBytes() uint64 {
byDate := dmc.byDate.Load()
n := uint64(0)
for _, e := range byDate.m {
n += e.v.SizeBytes()
}
return n
}
func (dmc *dateMetricIDCache) Has(generation, date, metricID uint64) bool {
if byDate := dmc.byDate.Load(); byDate.get(generation, date).Has(metricID) {
// Fast path. The majority of calls must go here.
return true
}
// Slow path. Acquire the lock and search the immutable map again and then
// also search the mutable map.
return dmc.hasSlow(generation, date, metricID)
}
func (dmc *dateMetricIDCache) hasSlow(generation, date, metricID uint64) bool {
dmc.mu.Lock()
defer dmc.mu.Unlock()
// First, check immutable map again because the entry may have been moved to
// the immutable map by the time the caller acquires the lock.
byDate := dmc.byDate.Load()
v := byDate.get(generation, date)
if v.Has(metricID) {
return true
}
// Then check immutable map.
vMutable := dmc.byDateMutable.get(generation, date)
ok := vMutable.Has(metricID)
if ok {
dmc.slowHits++
if dmc.slowHits > (v.Len()+vMutable.Len())/2 {
// It is cheaper to merge byDateMutable into byDate than to pay inter-cpu sync costs when accessing vMutable.
dmc.syncLocked()
dmc.slowHits = 0
}
}
return ok
}
type dateMetricID struct {
date uint64
metricID uint64
}
func (dmc *dateMetricIDCache) Store(generation uint64, dmids []dateMetricID) {
var prevDate uint64
metricIDs := make([]uint64, 0, len(dmids))
dmc.mu.Lock()
for _, dmid := range dmids {
if prevDate == dmid.date {
metricIDs = append(metricIDs, dmid.metricID)
continue
}
if len(metricIDs) > 0 {
v := dmc.byDateMutable.getOrCreate(generation, prevDate)
v.AddMulti(metricIDs)
}
metricIDs = append(metricIDs[:0], dmid.metricID)
prevDate = dmid.date
}
if len(metricIDs) > 0 {
v := dmc.byDateMutable.getOrCreate(generation, prevDate)
v.AddMulti(metricIDs)
}
dmc.mu.Unlock()
}
func (dmc *dateMetricIDCache) Set(generation, date, metricID uint64) {
dmc.mu.Lock()
v := dmc.byDateMutable.getOrCreate(generation, date)
v.Add(metricID)
dmc.mu.Unlock()
}
func (dmc *dateMetricIDCache) syncLocked() {
if len(dmc.byDateMutable.m) == 0 {
// Nothing to sync.
return
}
// Merge data from byDate into byDateMutable and then atomically replace byDate with the merged data.
byDate := dmc.byDate.Load()
byDateMutable := dmc.byDateMutable
byDateMutable.hotEntry.Store(&byDateMetricIDEntry{})
keepDatesMap := make(map[uint64]struct{}, len(byDateMutable.m))
for k, e := range byDateMutable.m {
keepDatesMap[k.date] = struct{}{}
v := byDate.get(k.generation, k.date)
if v == nil {
// Nothing to merge
continue
}
v = v.Clone()
v.Union(&e.v)
dme := &byDateMetricIDEntry{
k: k,
v: *v,
}
byDateMutable.m[k] = dme
}
// Copy entries from byDate, which are missing in byDateMutable
allDatesMap := make(map[uint64]struct{}, len(byDate.m))
for k, e := range byDate.m {
allDatesMap[k.date] = struct{}{}
v := byDateMutable.get(k.generation, k.date)
if v != nil {
continue
}
byDateMutable.m[k] = e
}
if len(byDateMutable.m) > 2 {
// Keep only entries for the last two dates from allDatesMap plus all the entries for byDateMutable.
dates := make([]uint64, 0, len(allDatesMap))
for date := range allDatesMap {
dates = append(dates, date)
}
sort.Slice(dates, func(i, j int) bool {
return dates[i] < dates[j]
})
if len(dates) > 2 {
dates = dates[len(dates)-2:]
}
for _, date := range dates {
keepDatesMap[date] = struct{}{}
}
for k := range byDateMutable.m {
if _, ok := keepDatesMap[k.date]; !ok {
delete(byDateMutable.m, k)
}
}
}
// Atomically replace byDate with byDateMutable
dmc.byDate.Store(dmc.byDateMutable)
dmc.byDateMutable = newByDateMetricIDMap()
dmc.syncsCount.Add(1)
if dmc.SizeBytes() > uint64(memory.Allowed())/256 {
dmc.resetLocked()
}
}
type byDateMetricIDMap struct {
hotEntry atomic.Pointer[byDateMetricIDEntry]
m map[generationDateKey]*byDateMetricIDEntry
}
type generationDateKey struct {
generation uint64
date uint64
}
func newByDateMetricIDMap() *byDateMetricIDMap {
dmm := &byDateMetricIDMap{
m: make(map[generationDateKey]*byDateMetricIDEntry),
}
dmm.hotEntry.Store(&byDateMetricIDEntry{})
return dmm
}
func (dmm *byDateMetricIDMap) get(generation, date uint64) *uint64set.Set {
hotEntry := dmm.hotEntry.Load()
if hotEntry.k.generation == generation && hotEntry.k.date == date {
// Fast path
return &hotEntry.v
}
// Slow path
k := generationDateKey{
generation: generation,
date: date,
}
e := dmm.m[k]
if e == nil {
return nil
}
dmm.hotEntry.Store(e)
return &e.v
}
func (dmm *byDateMetricIDMap) getOrCreate(generation, date uint64) *uint64set.Set {
v := dmm.get(generation, date)
if v != nil {
return v
}
k := generationDateKey{
generation: generation,
date: date,
}
e := &byDateMetricIDEntry{
k: k,
}
dmm.m[k] = e
return &e.v
}
type byDateMetricIDEntry struct {
k generationDateKey
v uint64set.Set
}
func (s *Storage) updateNextDayMetricIDs(date uint64) {
generation := s.idb().generation
e := s.nextDayMetricIDs.Load()
s.pendingNextDayMetricIDsLock.Lock()
pendingMetricIDs := s.pendingNextDayMetricIDs
s.pendingNextDayMetricIDs = &uint64set.Set{}
s.pendingNextDayMetricIDsLock.Unlock()
if pendingMetricIDs.Len() == 0 && e.k.generation == generation && e.k.date == date {
// Fast path: nothing to update.
return
}
// Slow path: union pendingMetricIDs with e.v
if e.k.generation == generation && e.k.date == date {
pendingMetricIDs.Union(&e.v)
} else {
// Do not add pendingMetricIDs from the previous day to the current day,
// since this may result in missing registration of the metricIDs in the per-day inverted index.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3309
pendingMetricIDs = &uint64set.Set{}
}
k := generationDateKey{
generation: generation,
date: date,
}
eNew := &byDateMetricIDEntry{
k: k,
v: *pendingMetricIDs,
}
s.nextDayMetricIDs.Store(eNew)
}
func (s *Storage) updateCurrHourMetricIDs(hour uint64) {
hm := s.currHourMetricIDs.Load()
s.pendingHourEntriesLock.Lock()
newMetricIDs := s.pendingHourEntries
s.pendingHourEntries = &uint64set.Set{}
s.pendingHourEntriesLock.Unlock()
if newMetricIDs.Len() == 0 && hm.hour == hour {
// Fast path: nothing to update.
return
}
// Slow path: hm.m must be updated with non-empty s.pendingHourEntries.
var m *uint64set.Set
if hm.hour == hour {
m = hm.m.Clone()
m.Union(newMetricIDs)
} else {
m = newMetricIDs
if hour%24 == 0 {
// Do not add pending metricIDs from the previous hour to the current hour on the next day,
// since this may result in missing registration of the metricIDs in the per-day inverted index.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3309
m = &uint64set.Set{}
}
}
hmNew := &hourMetricIDs{
m: m,
hour: hour,
}
s.currHourMetricIDs.Store(hmNew)
if hm.hour != hour {
s.prevHourMetricIDs.Store(hm)
}
}
type hourMetricIDs struct {
m *uint64set.Set
hour uint64
}
type generationTSID struct {
TSID TSID
// generation stores the indexdb.generation value to identify to which indexdb belongs this TSID
generation uint64
}
func (s *Storage) getTSIDFromCache(dst *generationTSID, metricName []byte) bool {
buf := (*[unsafe.Sizeof(*dst)]byte)(unsafe.Pointer(dst))[:]
buf = s.tsidCache.Get(buf[:0], metricName)
return uintptr(len(buf)) == unsafe.Sizeof(*dst)
}
func (s *Storage) putTSIDToCache(tsid *generationTSID, metricName []byte) {
buf := (*[unsafe.Sizeof(*tsid)]byte)(unsafe.Pointer(tsid))[:]
s.tsidCache.Set(metricName, buf)
}
func (s *Storage) mustOpenIndexDBTables(path string) (next, curr, prev *indexDB) {
fs.MustMkdirIfNotExist(path)
fs.MustRemoveTemporaryDirs(path)
// Search for the three most recent tables - the prev, curr and next.
des := fs.MustReadDir(path)
var tableNames []string
for _, de := range des {
if !fs.IsDirOrSymlink(de) {
// Skip non-directories.
continue
}
tableName := de.Name()
if !indexDBTableNameRegexp.MatchString(tableName) {
// Skip invalid directories.
continue
}
tableNames = append(tableNames, tableName)
}
sort.Slice(tableNames, func(i, j int) bool {
return tableNames[i] < tableNames[j]
})
switch len(tableNames) {
case 0:
prevName := nextIndexDBTableName()
currName := nextIndexDBTableName()
nextName := nextIndexDBTableName()
tableNames = append(tableNames, prevName, currName, nextName)
case 1:
currName := nextIndexDBTableName()
nextName := nextIndexDBTableName()
tableNames = append(tableNames, currName, nextName)
case 2:
nextName := nextIndexDBTableName()
tableNames = append(tableNames, nextName)
default:
// Remove all the tables except the last three tables.
for _, tn := range tableNames[:len(tableNames)-3] {
pathToRemove := filepath.Join(path, tn)
logger.Infof("removing obsolete indexdb dir %q...", pathToRemove)
fs.MustRemoveAll(pathToRemove)
logger.Infof("removed obsolete indexdb dir %q", pathToRemove)
}
fs.MustSyncPath(path)
tableNames = tableNames[len(tableNames)-3:]
}
// Open tables
nextPath := filepath.Join(path, tableNames[2])
currPath := filepath.Join(path, tableNames[1])
prevPath := filepath.Join(path, tableNames[0])
next = mustOpenIndexDB(nextPath, s, &s.isReadOnly)
curr = mustOpenIndexDB(currPath, s, &s.isReadOnly)
prev = mustOpenIndexDB(prevPath, s, &s.isReadOnly)
return next, curr, prev
}
var indexDBTableNameRegexp = regexp.MustCompile("^[0-9A-F]{16}$")
func nextIndexDBTableName() string {
n := indexDBTableIdx.Add(1)
return fmt.Sprintf("%016X", n)
}
var indexDBTableIdx = func() *atomic.Uint64 {
var x atomic.Uint64
x.Store(uint64(time.Now().UnixNano()))
return &x
}()
// wasMetricIDMissingBefore checks if passed metricID was already registered as missing before.
// It returns true if metricID was registered as missing for more than 60s.
//
// This function is called when storage can't find TSID for corresponding metricID.
// There are the following expected cases when this may happen:
// 1. The corresponding metricID -> metricName/tsid entry isn't visible for search yet.
// The solution is to wait for some time and try the search again.
// It is OK if newly registered time series isn't visible for search during some time.
// This should resolve https://github.com/VictoriaMetrics/VictoriaMetrics/issues/5959
// 2. The metricID -> metricName/tsid entry doesn't exist in the indexdb.
// This is possible after unclean shutdown or after restoring of indexdb from a snapshot.
// In this case the metricID must be deleted, so new metricID is registered
// again when new sample for the given metric is ingested next time.
func (s *Storage) wasMetricIDMissingBefore(metricID uint64) bool {
ct := fasttime.UnixTimestamp()
s.missingMetricIDsLock.Lock()
defer s.missingMetricIDsLock.Unlock()
if ct > s.missingMetricIDsResetDeadline {
s.missingMetricIDs = nil
s.missingMetricIDsResetDeadline = ct + 2*60
}
deleteDeadline, ok := s.missingMetricIDs[metricID]
if !ok {
if s.missingMetricIDs == nil {
s.missingMetricIDs = make(map[uint64]uint64)
}
deleteDeadline = ct + 60
s.missingMetricIDs[metricID] = deleteDeadline
}
return ct > deleteDeadline
}
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