package storage import ( "fmt" "io/ioutil" "math" "os" "path/filepath" "regexp" "runtime" "sort" "sync" "sync/atomic" "time" "unsafe" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fs" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/memory" "github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool" "github.com/VictoriaMetrics/VictoriaMetrics/lib/uint64set" "github.com/VictoriaMetrics/VictoriaMetrics/lib/workingsetcache" "github.com/VictoriaMetrics/fastcache" ) const maxRetentionMonths = 12 * 100 // Storage represents TSDB storage. type Storage struct { // Atomic counters must go at the top of the structure in order to properly align by 8 bytes on 32-bit archs. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/212 . tooSmallTimestampRows uint64 tooBigTimestampRows uint64 addRowsConcurrencyLimitReached uint64 addRowsConcurrencyLimitTimeout uint64 addRowsConcurrencyDroppedRows uint64 path string cachePath string retentionMonths int // lock file for exclusive access to the storage on the given path. flockF *os.File idbCurr atomic.Value tb *table // 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 (Date, MetricID) cache. dateMetricIDCache *dateMetricIDCache // Fast cache for MetricID values occurred during the current hour. currHourMetricIDs atomic.Value // Fast cache for MetricID values occurred during the previous hour. prevHourMetricIDs atomic.Value // Pending MetricID values to be added to currHourMetricIDs. pendingHourEntriesLock sync.Mutex pendingHourEntries []pendingHourMetricIDEntry stop chan struct{} currHourMetricIDsUpdaterWG sync.WaitGroup retentionWatcherWG sync.WaitGroup } type pendingHourMetricIDEntry struct { AccountID uint32 ProjectID uint32 MetricID uint64 } type accountProjectKey struct { AccountID uint32 ProjectID uint32 } // OpenStorage opens storage on the given path with the given number of retention months. func OpenStorage(path string, retentionMonths int) (*Storage, error) { if retentionMonths > maxRetentionMonths { return nil, fmt.Errorf("too big retentionMonths=%d; cannot exceed %d", retentionMonths, maxRetentionMonths) } if retentionMonths <= 0 { retentionMonths = maxRetentionMonths } path, err := filepath.Abs(path) if err != nil { return nil, fmt.Errorf("cannot determine absolute path for %q: %s", path, err) } s := &Storage{ path: path, cachePath: path + "/cache", retentionMonths: retentionMonths, stop: make(chan struct{}), } if err := fs.MkdirAllIfNotExist(path); err != nil { return nil, fmt.Errorf("cannot create a directory for the storage at %q: %s", path, err) } snapshotsPath := path + "/snapshots" if err := fs.MkdirAllIfNotExist(snapshotsPath); err != nil { return nil, fmt.Errorf("cannot create %q: %s", snapshotsPath, err) } // Protect from concurrent opens. flockF, err := fs.CreateFlockFile(path) if err != nil { return nil, err } s.flockF = flockF // Load caches. mem := memory.Allowed() s.tsidCache = s.mustLoadCache("MetricName->TSID", "metricName_tsid", mem/3) s.metricIDCache = s.mustLoadCache("MetricID->TSID", "metricID_tsid", mem/16) s.metricNameCache = s.mustLoadCache("MetricID->MetricName", "metricID_metricName", mem/8) s.dateMetricIDCache = newDateMetricIDCache() hour := uint64(timestampFromTime(time.Now())) / msecPerHour 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) // Load indexdb idbPath := path + "/indexdb" idbSnapshotsPath := idbPath + "/snapshots" if err := fs.MkdirAllIfNotExist(idbSnapshotsPath); err != nil { return nil, fmt.Errorf("cannot create %q: %s", idbSnapshotsPath, err) } idbCurr, idbPrev, err := openIndexDBTables(idbPath, s.metricIDCache, s.metricNameCache, &s.currHourMetricIDs, &s.prevHourMetricIDs) if err != nil { return nil, fmt.Errorf("cannot open indexdb tables at %q: %s", idbPath, err) } idbCurr.SetExtDB(idbPrev) s.idbCurr.Store(idbCurr) // Load data tablePath := path + "/data" tb, err := openTable(tablePath, retentionMonths, s.getDeletedMetricIDs) if err != nil { s.idb().MustClose() return nil, fmt.Errorf("cannot open table at %q: %s", tablePath, err) } s.tb = tb s.startCurrHourMetricIDsUpdater() s.startRetentionWatcher() return s, nil } // debugFlush flushes recently added storage data, so it becomes visible to search. func (s *Storage) debugFlush() { s.tb.flushRawRows() s.idb().tb.DebugFlush() } func (s *Storage) getDeletedMetricIDs() *uint64set.Set { return s.idb().getDeletedMetricIDs() } // 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() snapshotName := fmt.Sprintf("%s-%08X", time.Now().UTC().Format("20060102150405"), nextSnapshotIdx()) srcDir := s.path dstDir := fmt.Sprintf("%s/snapshots/%s", srcDir, snapshotName) if err := fs.MkdirAllFailIfExist(dstDir); err != nil { return "", fmt.Errorf("cannot create dir %q: %s", dstDir, err) } dstDataDir := dstDir + "/data" if err := fs.MkdirAllFailIfExist(dstDataDir); err != nil { return "", fmt.Errorf("cannot create dir %q: %s", dstDataDir, err) } smallDir, bigDir, err := s.tb.CreateSnapshot(snapshotName) if err != nil { return "", fmt.Errorf("cannot create table snapshot: %s", err) } dstSmallDir := dstDataDir + "/small" if err := fs.SymlinkRelative(smallDir, dstSmallDir); err != nil { return "", fmt.Errorf("cannot create symlink from %q to %q: %s", smallDir, dstSmallDir, err) } dstBigDir := dstDataDir + "/big" if err := fs.SymlinkRelative(bigDir, dstBigDir); err != nil { return "", fmt.Errorf("cannot create symlink from %q to %q: %s", bigDir, dstBigDir, err) } fs.MustSyncPath(dstDataDir) idbSnapshot := fmt.Sprintf("%s/indexdb/snapshots/%s", s.path, snapshotName) idb := s.idb() currSnapshot := idbSnapshot + "/" + idb.name if err := idb.tb.CreateSnapshotAt(currSnapshot); err != nil { return "", fmt.Errorf("cannot create curr indexDB snapshot: %s", err) } ok := idb.doExtDB(func(extDB *indexDB) { prevSnapshot := idbSnapshot + "/" + extDB.name err = extDB.tb.CreateSnapshotAt(prevSnapshot) }) if ok && err != nil { return "", fmt.Errorf("cannot create prev indexDB snapshot: %s", err) } dstIdbDir := dstDir + "/indexdb" if err := fs.SymlinkRelative(idbSnapshot, dstIdbDir); err != nil { return "", fmt.Errorf("cannot create symlink from %q to %q: %s", idbSnapshot, dstIdbDir, err) } fs.MustSyncPath(dstDir) fs.MustSyncPath(srcDir + "/snapshots") logger.Infof("created Storage snapshot for %q at %q in %s", srcDir, dstDir, time.Since(startTime)) return snapshotName, nil } var snapshotNameRegexp = regexp.MustCompile("^[0-9]{14}-[0-9A-Fa-f]+$") // ListSnapshots returns sorted list of existing snapshots for s. func (s *Storage) ListSnapshots() ([]string, error) { snapshotsPath := s.path + "/snapshots" d, err := os.Open(snapshotsPath) if err != nil { return nil, fmt.Errorf("cannot open %q: %s", snapshotsPath, err) } defer fs.MustClose(d) fnames, err := d.Readdirnames(-1) if err != nil { return nil, fmt.Errorf("cannot read contents of %q: %s", snapshotsPath, err) } snapshotNames := make([]string, 0, len(fnames)) for _, fname := range fnames { if !snapshotNameRegexp.MatchString(fname) { continue } snapshotNames = append(snapshotNames, fname) } sort.Strings(snapshotNames) return snapshotNames, nil } // DeleteSnapshot deletes the given snapshot. func (s *Storage) DeleteSnapshot(snapshotName string) error { if !snapshotNameRegexp.MatchString(snapshotName) { return fmt.Errorf("invalid snapshotName %q", snapshotName) } snapshotPath := s.path + "/snapshots/" + snapshotName logger.Infof("deleting snapshot %q...", snapshotPath) startTime := time.Now() s.tb.MustDeleteSnapshot(snapshotName) idbPath := fmt.Sprintf("%s/indexdb/snapshots/%s", s.path, snapshotName) fs.MustRemoveAll(idbPath) fs.MustRemoveAll(snapshotPath) logger.Infof("deleted snapshot %q in %s", snapshotPath, time.Since(startTime)) return nil } var snapshotIdx = uint64(time.Now().UnixNano()) func nextSnapshotIdx() uint64 { return atomic.AddUint64(&snapshotIdx, 1) } func (s *Storage) idb() *indexDB { return s.idbCurr.Load().(*indexDB) } // Metrics contains essential metrics for the Storage. type Metrics struct { TooSmallTimestampRows uint64 TooBigTimestampRows uint64 AddRowsConcurrencyLimitReached uint64 AddRowsConcurrencyLimitTimeout uint64 AddRowsConcurrencyDroppedRows uint64 AddRowsConcurrencyCapacity uint64 AddRowsConcurrencyCurrent uint64 TSIDCacheSize uint64 TSIDCacheSizeBytes uint64 TSIDCacheRequests uint64 TSIDCacheMisses uint64 TSIDCacheCollisions uint64 MetricIDCacheSize uint64 MetricIDCacheSizeBytes uint64 MetricIDCacheRequests uint64 MetricIDCacheMisses uint64 MetricIDCacheCollisions uint64 MetricNameCacheSize uint64 MetricNameCacheSizeBytes uint64 MetricNameCacheRequests uint64 MetricNameCacheMisses uint64 MetricNameCacheCollisions uint64 DateMetricIDCacheSize uint64 DateMetricIDCacheSizeBytes uint64 DateMetricIDCacheSyncsCount uint64 DateMetricIDCacheResetsCount uint64 HourMetricIDCacheSize uint64 HourMetricIDCacheSizeBytes 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.TooSmallTimestampRows += atomic.LoadUint64(&s.tooSmallTimestampRows) m.TooBigTimestampRows += atomic.LoadUint64(&s.tooBigTimestampRows) m.AddRowsConcurrencyLimitReached += atomic.LoadUint64(&s.addRowsConcurrencyLimitReached) m.AddRowsConcurrencyLimitTimeout += atomic.LoadUint64(&s.addRowsConcurrencyLimitTimeout) m.AddRowsConcurrencyDroppedRows += atomic.LoadUint64(&s.addRowsConcurrencyDroppedRows) m.AddRowsConcurrencyCapacity = uint64(cap(addRowsConcurrencyCh)) m.AddRowsConcurrencyCurrent = uint64(len(addRowsConcurrencyCh)) var cs fastcache.Stats s.tsidCache.UpdateStats(&cs) m.TSIDCacheSize += cs.EntriesCount m.TSIDCacheSizeBytes += cs.BytesSize 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.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.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 += atomic.LoadUint64(&s.dateMetricIDCache.syncsCount) m.DateMetricIDCacheResetsCount += atomic.LoadUint64(&s.dateMetricIDCache.resetsCount) hmCurr := s.currHourMetricIDs.Load().(*hourMetricIDs) hmPrev := s.prevHourMetricIDs.Load().(*hourMetricIDs) 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() s.idb().UpdateMetrics(&m.IndexDBMetrics) s.tb.UpdateMetrics(&m.TableMetrics) } func (s *Storage) startRetentionWatcher() { s.retentionWatcherWG.Add(1) go func() { s.retentionWatcher() s.retentionWatcherWG.Done() }() } func (s *Storage) retentionWatcher() { for { d := nextRetentionDuration(s.retentionMonths) select { case <-s.stop: return case <-time.After(d): s.mustRotateIndexDB() } } } func (s *Storage) startCurrHourMetricIDsUpdater() { s.currHourMetricIDsUpdaterWG.Add(1) go func() { s.currHourMetricIDsUpdater() s.currHourMetricIDsUpdaterWG.Done() }() } var currHourMetricIDsUpdateInterval = time.Second * 10 func (s *Storage) currHourMetricIDsUpdater() { t := time.NewTimer(currHourMetricIDsUpdateInterval) for { select { case <-s.stop: s.updateCurrHourMetricIDs() return case <-t.C: s.updateCurrHourMetricIDs() t.Reset(currHourMetricIDsUpdateInterval) } } } func (s *Storage) mustRotateIndexDB() { // Create new indexdb table. newTableName := nextIndexDBTableName() idbNewPath := s.path + "/indexdb/" + newTableName idbNew, err := openIndexDB(idbNewPath, s.metricIDCache, s.metricNameCache, &s.currHourMetricIDs, &s.prevHourMetricIDs) if err != nil { logger.Panicf("FATAL: cannot create new indexDB at %q: %s", idbNewPath, err) } // Drop extDB idbCurr := s.idb() idbCurr.doExtDB(func(extDB *indexDB) { extDB.scheduleToDrop() }) idbCurr.SetExtDB(nil) // Start using idbNew idbNew.SetExtDB(idbCurr) s.idbCurr.Store(idbNew) // Persist changes on the file system. fs.MustSyncPath(s.path) // Flush tsidCache, so idbNew can be populated with fresh data. s.tsidCache.Reset() // Flush dateMetricIDCache, so idbNew can be populated with fresh data. s.dateMetricIDCache.Reset() // Do not flush metricIDCache and metricNameCache, since all the metricIDs // from prev idb remain valid after the rotation. } // MustClose closes the storage. func (s *Storage) MustClose() { close(s.stop) s.retentionWatcherWG.Wait() s.currHourMetricIDsUpdaterWG.Wait() s.tb.MustClose() s.idb().MustClose() // Save caches. s.mustSaveAndStopCache(s.tsidCache, "MetricName->TSID", "metricName_tsid") s.mustSaveAndStopCache(s.metricIDCache, "MetricID->TSID", "metricID_tsid") s.mustSaveAndStopCache(s.metricNameCache, "MetricID->MetricName", "metricID_metricName") hmCurr := s.currHourMetricIDs.Load().(*hourMetricIDs) s.mustSaveHourMetricIDs(hmCurr, "curr_hour_metric_ids") hmPrev := s.prevHourMetricIDs.Load().(*hourMetricIDs) s.mustSaveHourMetricIDs(hmPrev, "prev_hour_metric_ids") // Release lock file. if err := s.flockF.Close(); err != nil { logger.Panicf("FATAL: cannot close lock file %q: %s", s.flockF.Name(), err) } } func (s *Storage) mustLoadHourMetricIDs(hour uint64, name string) *hourMetricIDs { path := s.cachePath + "/" + name logger.Infof("loading %s from %q...", name, path) startTime := time.Now() if !fs.IsPathExist(path) { logger.Infof("nothing to load from %q", path) return &hourMetricIDs{ hour: hour, } } src, err := ioutil.ReadFile(path) if err != nil { logger.Panicf("FATAL: cannot read %s: %s", path, err) } srcOrigLen := len(src) if len(src) < 24 { logger.Errorf("discarding %s, since it has broken header; got %d bytes; want %d bytes", path, len(src), 24) return &hourMetricIDs{ hour: hour, } } // Unmarshal header isFull := encoding.UnmarshalUint64(src) src = src[8:] hourLoaded := encoding.UnmarshalUint64(src) src = src[8:] if hourLoaded != hour { logger.Infof("discarding %s, since it contains outdated hour; got %d; want %d", name, hourLoaded, hour) return &hourMetricIDs{ hour: hour, } } // Unmarshal hm.m hmLen := encoding.UnmarshalUint64(src) src = src[8:] if uint64(len(src)) < 8*hmLen { logger.Errorf("discarding %s, since it has broken hm.m data; got %d bytes; want at least %d bytes", path, len(src), 8*hmLen) return &hourMetricIDs{ hour: hour, } } m := &uint64set.Set{} for i := uint64(0); i < hmLen; i++ { metricID := encoding.UnmarshalUint64(src) src = src[8:] m.Add(metricID) } // Unmarshal hm.byTenant if len(src) < 8 { logger.Errorf("discarding %s, since it has broken hm.byTenant header; got %d bytes; want %d bytes", path, len(src), 8) return &hourMetricIDs{} } byTenantLen := encoding.UnmarshalUint64(src) src = src[8:] byTenant := make(map[accountProjectKey]*uint64set.Set, byTenantLen) for i := uint64(0); i < byTenantLen; i++ { if len(src) < 16 { logger.Errorf("discarding %s, since it has broken accountID:projectID prefix; got %d bytes; want %d bytes", path, len(src), 16) return &hourMetricIDs{} } accountID := encoding.UnmarshalUint32(src) src = src[4:] projectID := encoding.UnmarshalUint32(src) src = src[4:] mLen := encoding.UnmarshalUint64(src) src = src[8:] if uint64(len(src)) < 8*mLen { logger.Errorf("discarding %s, since it has borken accountID:projectID entry; got %d bytes; want %d bytes", path, len(src), 8*mLen) return &hourMetricIDs{} } m := &uint64set.Set{} for j := uint64(0); j < mLen; j++ { metricID := encoding.UnmarshalUint64(src) src = src[8:] m.Add(metricID) } k := accountProjectKey{ AccountID: accountID, ProjectID: projectID, } byTenant[k] = m } logger.Infof("loaded %s from %q in %s; entriesCount: %d; sizeBytes: %d", name, path, time.Since(startTime), hmLen, srcOrigLen) return &hourMetricIDs{ m: m, byTenant: byTenant, hour: hourLoaded, isFull: isFull != 0, } } func (s *Storage) mustSaveHourMetricIDs(hm *hourMetricIDs, name string) { path := s.cachePath + "/" + name logger.Infof("saving %s to %q...", name, path) startTime := time.Now() dst := make([]byte, 0, hm.m.Len()*8+24) isFull := uint64(0) if hm.isFull { isFull = 1 } // Marshal header dst = encoding.MarshalUint64(dst, isFull) dst = encoding.MarshalUint64(dst, hm.hour) // Marshal hm.m dst = encoding.MarshalUint64(dst, uint64(hm.m.Len())) for _, metricID := range hm.m.AppendTo(nil) { dst = encoding.MarshalUint64(dst, metricID) } // Marshal hm.byTenant var metricIDs []uint64 dst = encoding.MarshalUint64(dst, uint64(len(hm.byTenant))) for k, e := range hm.byTenant { dst = encoding.MarshalUint32(dst, k.AccountID) dst = encoding.MarshalUint32(dst, k.ProjectID) dst = encoding.MarshalUint64(dst, uint64(e.Len())) metricIDs = e.AppendTo(metricIDs[:0]) for _, metricID := range metricIDs { dst = encoding.MarshalUint64(dst, metricID) } } if err := ioutil.WriteFile(path, dst, 0644); err != nil { logger.Panicf("FATAL: cannot write %d bytes to %q: %s", len(dst), path, err) } logger.Infof("saved %s to %q in %s; entriesCount: %d; sizeBytes: %d", name, path, time.Since(startTime), hm.m.Len(), len(dst)) } func (s *Storage) mustLoadCache(info, name string, sizeBytes int) *workingsetcache.Cache { path := s.cachePath + "/" + name logger.Infof("loading %s cache from %q...", info, path) startTime := time.Now() c := workingsetcache.Load(path, sizeBytes, time.Hour) var cs fastcache.Stats c.UpdateStats(&cs) logger.Infof("loaded %s cache from %q in %s; entriesCount: %d; sizeBytes: %d", info, path, time.Since(startTime), cs.EntriesCount, cs.BytesSize) return c } func (s *Storage) mustSaveAndStopCache(c *workingsetcache.Cache, info, name string) { path := s.cachePath + "/" + name logger.Infof("saving %s cache to %q...", info, path) startTime := time.Now() if err := c.Save(path); err != nil { logger.Panicf("FATAL: cannot save %s cache to %q: %s", info, path, err) } var cs fastcache.Stats c.UpdateStats(&cs) c.Stop() logger.Infof("saved %s cache to %q in %s; entriesCount: %d; sizeBytes: %d", info, path, time.Since(startTime), cs.EntriesCount, cs.BytesSize) } func nextRetentionDuration(retentionMonths int) time.Duration { t := time.Now().UTC() n := t.Year()*12 + int(t.Month()) - 1 + retentionMonths n -= n % retentionMonths y := n / 12 m := time.Month((n % 12) + 1) // Schedule the deadline to +4 hours from the next retention period start. // This should prevent from possible double deletion of indexdb // due to time drift - see https://github.com/VictoriaMetrics/VictoriaMetrics/issues/248 . deadline := time.Date(y, m, 1, 4, 0, 0, 0, time.UTC) return deadline.Sub(t) } // searchTSIDs returns sorted TSIDs for the given tfss and the given tr. func (s *Storage) searchTSIDs(tfss []*TagFilters, tr TimeRange, maxMetrics int) ([]TSID, error) { // Do not cache tfss -> tsids here, since the caching is performed // on idb level. tsids, err := s.idb().searchTSIDs(tfss, tr, maxMetrics) if err != nil { return nil, fmt.Errorf("error when searching tsids for tfss %q: %s", tfss, err) } return tsids, nil } // DeleteMetrics deletes all the metrics matching the given tfss. // // Returns the number of metrics deleted. func (s *Storage) DeleteMetrics(tfss []*TagFilters) (int, error) { deletedCount, err := s.idb().DeleteTSIDs(tfss) if err != nil { return deletedCount, fmt.Errorf("cannot delete tsids: %s", err) } // Do not reset MetricName -> TSID cache (tsidCache), since the obtained // entries must be checked against deleted metricIDs. // See Storage.add for details. // // Do not reset MetricID -> MetricName cache, since it must be used only // after filtering out deleted metricIDs. return deletedCount, nil } // searchMetricName appends metric name for the given metricID to dst // and returns the result. func (s *Storage) searchMetricName(dst []byte, metricID uint64, accountID, projectID uint32) ([]byte, error) { return s.idb().searchMetricName(dst, metricID, accountID, projectID) } // SearchTagKeys searches for tag keys for the given (accountID, projectID). func (s *Storage) SearchTagKeys(accountID, projectID uint32, maxTagKeys int) ([]string, error) { return s.idb().SearchTagKeys(accountID, projectID, maxTagKeys) } // SearchTagValues searches for tag values for the given tagKey in (accountID, projectID). func (s *Storage) SearchTagValues(accountID, projectID uint32, tagKey []byte, maxTagValues int) ([]string, error) { return s.idb().SearchTagValues(accountID, projectID, tagKey, maxTagValues) } // SearchTagEntries returns a list of (tagName -> tagValues) for (accountID, projectID). func (s *Storage) SearchTagEntries(accountID, projectID uint32, maxTagKeys, maxTagValues int) ([]TagEntry, error) { idb := s.idb() keys, err := idb.SearchTagKeys(accountID, projectID, maxTagKeys) if err != nil { return nil, fmt.Errorf("cannot search tag keys: %s", err) } // Sort keys for faster seeks below sort.Strings(keys) tes := make([]TagEntry, len(keys)) for i, key := range keys { values, err := idb.SearchTagValues(accountID, projectID, []byte(key), maxTagValues) if err != nil { return nil, fmt.Errorf("cannot search values for tag %q: %s", key, err) } te := &tes[i] te.Key = key te.Values = values } return tes, nil } // TagEntry contains (tagName -> tagValues) mapping type TagEntry struct { // Key is tagName Key string // Values contains all the values for Key. Values []string } // GetSeriesCount returns the approximate number of unique time series for the given (accountID, projectID). // // It includes the deleted series too and may count the same series // up to two times - in db and extDB. func (s *Storage) GetSeriesCount(accountID, projectID uint32) (uint64, error) { return s.idb().GetSeriesCount(accountID, projectID) } // 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("MetricName=%s, Timestamp=%d, Value=%f\n", metricName, mr.Timestamp, mr.Value) } // Marshal appends marshaled mr to dst and returns the result. func (mr *MetricRow) Marshal(dst []byte) []byte { return MarshalMetricRow(dst, mr.MetricNameRaw, mr.Timestamp, mr.Value) } // MarshalMetricRow marshals MetricRow data to dst and returns the result. func MarshalMetricRow(dst []byte, metricNameRaw []byte, timestamp int64, value float64) []byte { dst = encoding.MarshalBytes(dst, metricNameRaw) dst = encoding.MarshalUint64(dst, uint64(timestamp)) dst = encoding.MarshalUint64(dst, math.Float64bits(value)) return dst } // Unmarshal unmarshals mr from src and returns the remaining tail from src. func (mr *MetricRow) Unmarshal(src []byte) ([]byte, error) { tail, metricNameRaw, err := encoding.UnmarshalBytes(src) if err != nil { return tail, fmt.Errorf("cannot unmarshal MetricName: %s", err) } mr.MetricNameRaw = append(mr.MetricNameRaw[:0], 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) mr.Timestamp = int64(timestamp) tail = tail[8:] if len(tail) < 8 { return tail, fmt.Errorf("cannot unmarshal Value: want %d bytes; have %d bytes", 8, len(tail)) } value := encoding.UnmarshalUint64(tail) mr.Value = math.Float64frombits(value) tail = tail[8:] return tail, nil } // AddRows adds the given mrs to s. func (s *Storage) AddRows(mrs []MetricRow, precisionBits uint8) error { if len(mrs) == 0 { return nil } // Limit the number of concurrent goroutines that may add rows to the storage. // This should prevent from out of memory errors and CPU trashing when too many // goroutines call AddRows. select { case addRowsConcurrencyCh <- struct{}{}: defer func() { <-addRowsConcurrencyCh }() default: // Sleep for a while until giving up atomic.AddUint64(&s.addRowsConcurrencyLimitReached, 1) t := timerpool.Get(addRowsTimeout) select { case addRowsConcurrencyCh <- struct{}{}: timerpool.Put(t) defer func() { <-addRowsConcurrencyCh }() case <-t.C: timerpool.Put(t) atomic.AddUint64(&s.addRowsConcurrencyLimitTimeout, 1) atomic.AddUint64(&s.addRowsConcurrencyDroppedRows, uint64(len(mrs))) return fmt.Errorf("Cannot add %d rows to storage in %s, since it is overloaded with %d concurrent writers. Add more CPUs or reduce load", len(mrs), addRowsTimeout, cap(addRowsConcurrencyCh)) } } // Add rows to the storage. var err error rr := getRawRowsWithSize(len(mrs)) rr.rows, err = s.add(rr.rows, mrs, precisionBits) putRawRows(rr) return err } var ( addRowsConcurrencyCh = make(chan struct{}, runtime.GOMAXPROCS(-1)*2) addRowsTimeout = 30 * time.Second ) func (s *Storage) add(rows []rawRow, mrs []MetricRow, precisionBits uint8) ([]rawRow, error) { var is *indexSearch var mn *MetricName var kb *bytesutil.ByteBuffer idb := s.idb() dmis := idb.getDeletedMetricIDs() rowsLen := len(rows) if n := rowsLen + len(mrs) - cap(rows); n > 0 { rows = append(rows[:cap(rows)], make([]rawRow, n)...) } rows = rows[:rowsLen+len(mrs)] j := 0 minTimestamp, maxTimestamp := s.tb.getMinMaxTimestamps() // Return only the last error, since it has no sense in returning all errors. var lastWarn error for i := range mrs { mr := &mrs[i] if math.IsNaN(mr.Value) { // Just skip NaNs, since the underlying encoding // doesn't know how to work with them. continue } if mr.Timestamp < minTimestamp { // Skip rows with too small timestamps outside the retention. lastWarn = fmt.Errorf("cannot insert row with too small timestamp %d outside the retention; minimum allowed timestamp is %d", mr.Timestamp, minTimestamp) atomic.AddUint64(&s.tooSmallTimestampRows, 1) continue } if mr.Timestamp > maxTimestamp { // Skip rows with too big timestamps significantly exceeding the current time. lastWarn = fmt.Errorf("cannot insert row with too big timestamp %d exceeding the current time; maximum allowd timestamp is %d", mr.Timestamp, maxTimestamp) atomic.AddUint64(&s.tooBigTimestampRows, 1) continue } r := &rows[rowsLen+j] j++ r.Timestamp = mr.Timestamp r.Value = mr.Value r.PrecisionBits = precisionBits if s.getTSIDFromCache(&r.TSID, mr.MetricNameRaw) { if !dmis.Has(r.TSID.MetricID) { // Fast path - the TSID for the given MetricName has been found in cache and isn't deleted. continue } } // Slow path - the TSID is missing in the cache. Search for it in the index. if is == nil { is = idb.getIndexSearch() mn = GetMetricName() kb = kbPool.Get() } 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. lastWarn = fmt.Errorf("cannot unmarshal MetricNameRaw %q: %s", mr.MetricNameRaw, err) j-- continue } mn.sortTags() kb.B = mn.Marshal(kb.B[:0]) if err := is.GetOrCreateTSIDByName(&r.TSID, kb.B); 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. lastWarn = fmt.Errorf("cannot obtain TSID for MetricName %q: %s", kb.B, err) j-- continue } s.putTSIDToCache(&r.TSID, mr.MetricNameRaw) } if lastWarn != nil { logger.Errorf("warn occurred during rows addition: %s", lastWarn) } if is != nil { kbPool.Put(kb) PutMetricName(mn) idb.putIndexSearch(is) } rows = rows[:rowsLen+j] var lastError error if err := s.tb.AddRows(rows); err != nil { lastError = fmt.Errorf("cannot add rows to table: %s", err) } if err := s.updatePerDateData(rows, lastError); err != nil { lastError = err } if lastError != nil { return rows, fmt.Errorf("error occurred during rows addition: %s", lastError) } return rows, nil } func (s *Storage) updatePerDateData(rows []rawRow, lastError error) error { var date uint64 var hour uint64 var prevTimestamp int64 idb := s.idb() hm := s.currHourMetricIDs.Load().(*hourMetricIDs) 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 hour == hm.hour { // The r 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. continue } s.pendingHourEntriesLock.Lock() e := pendingHourMetricIDEntry{ AccountID: r.TSID.AccountID, ProjectID: r.TSID.ProjectID, MetricID: metricID, } s.pendingHourEntries = append(s.pendingHourEntries, e) s.pendingHourEntriesLock.Unlock() } // Slower path: check global cache for (date, metricID) entry. if s.dateMetricIDCache.Has(date, metricID) { // The metricID has been already added to per-day inverted index. continue } // Slow path: store the (date, metricID) entry in the indexDB. // It is OK if the (date, metricID) entry is added multiple times to db // by concurrent goroutines. if err := idb.storeDateMetricID(date, metricID, r.TSID.AccountID, r.TSID.ProjectID); err != nil { lastError = err continue } // The metric must be added to cache only after it has been successfully added to indexDB. s.dateMetricIDCache.Set(date, metricID) } return lastError } // dateMetricIDCache is fast cache for holding (date, metricID) entries. // // It should be faster than map[date]*uint64set.Set on multicore systems. type dateMetricIDCache struct { // 64-bit counters must be at the top of the structure to be properly aligned on 32-bit arches. syncsCount uint64 resetsCount uint64 // Contains immutable map byDate atomic.Value // Contains mutable map protected by mu byDateMutable *byDateMetricIDMap lastSyncTime time.Time mu sync.Mutex } func newDateMetricIDCache() *dateMetricIDCache { var dmc dateMetricIDCache dmc.Reset() return &dmc } func (dmc *dateMetricIDCache) Reset() { dmc.mu.Lock() // Do not reset syncsCount and resetsCount dmc.byDate.Store(newByDateMetricIDMap()) dmc.byDateMutable = newByDateMetricIDMap() dmc.lastSyncTime = time.Now() dmc.mu.Unlock() atomic.AddUint64(&dmc.resetsCount, 1) } func (dmc *dateMetricIDCache) EntriesCount() int { byDate := dmc.byDate.Load().(*byDateMetricIDMap) n := 0 for _, e := range byDate.m { n += e.v.Len() } return n } func (dmc *dateMetricIDCache) SizeBytes() uint64 { byDate := dmc.byDate.Load().(*byDateMetricIDMap) n := uint64(0) for _, e := range byDate.m { n += e.v.SizeBytes() } return n } func (dmc *dateMetricIDCache) Has(date, metricID uint64) bool { byDate := dmc.byDate.Load().(*byDateMetricIDMap) v := byDate.get(date) if v.Has(metricID) { // Fast path. // The majority of calls must go here. return true } // Slow path. Check mutable map. currentTime := time.Now() dmc.mu.Lock() v = dmc.byDateMutable.get(date) ok := v.Has(metricID) mustSync := false if currentTime.Sub(dmc.lastSyncTime) > 10*time.Second { mustSync = true dmc.lastSyncTime = currentTime } dmc.mu.Unlock() if mustSync { dmc.sync() } return ok } func (dmc *dateMetricIDCache) Set(date, metricID uint64) { dmc.mu.Lock() v := dmc.byDateMutable.getOrCreate(date) v.Add(metricID) dmc.mu.Unlock() } func (dmc *dateMetricIDCache) sync() { dmc.mu.Lock() byDate := dmc.byDate.Load().(*byDateMetricIDMap) for date, e := range dmc.byDateMutable.m { v := byDate.get(date) e.v.Union(v) } dmc.byDate.Store(dmc.byDateMutable) dmc.byDateMutable = newByDateMetricIDMap() dmc.mu.Unlock() atomic.AddUint64(&dmc.syncsCount, 1) if dmc.EntriesCount() > memory.Allowed()/128 { dmc.Reset() } } type byDateMetricIDMap struct { hotEntry atomic.Value m map[uint64]*byDateMetricIDEntry } func newByDateMetricIDMap() *byDateMetricIDMap { dmm := &byDateMetricIDMap{ m: make(map[uint64]*byDateMetricIDEntry), } dmm.hotEntry.Store(&byDateMetricIDEntry{}) return dmm } func (dmm *byDateMetricIDMap) get(date uint64) *uint64set.Set { hotEntry := dmm.hotEntry.Load().(*byDateMetricIDEntry) if hotEntry.date == date { // Fast path return &hotEntry.v } // Slow path e := dmm.m[date] if e == nil { return nil } dmm.hotEntry.Store(e) return &e.v } func (dmm *byDateMetricIDMap) getOrCreate(date uint64) *uint64set.Set { v := dmm.get(date) if v != nil { return v } e := &byDateMetricIDEntry{ date: date, } dmm.m[date] = e return &e.v } type byDateMetricIDEntry struct { date uint64 v uint64set.Set } func (s *Storage) updateCurrHourMetricIDs() { hm := s.currHourMetricIDs.Load().(*hourMetricIDs) s.pendingHourEntriesLock.Lock() newEntries := append([]pendingHourMetricIDEntry{}, s.pendingHourEntries...) s.pendingHourEntries = s.pendingHourEntries[:0] s.pendingHourEntriesLock.Unlock() hour := uint64(timestampFromTime(time.Now())) / msecPerHour if len(newEntries) == 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 var byTenant map[accountProjectKey]*uint64set.Set isFull := hm.isFull if hm.hour == hour { m = hm.m.Clone() byTenant = make(map[accountProjectKey]*uint64set.Set, len(hm.byTenant)) for k, e := range hm.byTenant { byTenant[k] = e.Clone() } } else { m = &uint64set.Set{} byTenant = make(map[accountProjectKey]*uint64set.Set) isFull = true } for _, x := range newEntries { m.Add(x.MetricID) k := accountProjectKey{ AccountID: x.AccountID, ProjectID: x.ProjectID, } e := byTenant[k] if e == nil { e = &uint64set.Set{} byTenant[k] = e } e.Add(x.MetricID) } hmNew := &hourMetricIDs{ m: m, byTenant: byTenant, hour: hour, isFull: isFull, } s.currHourMetricIDs.Store(hmNew) if hm.hour != hour { s.prevHourMetricIDs.Store(hm) } } type hourMetricIDs struct { m *uint64set.Set byTenant map[accountProjectKey]*uint64set.Set hour uint64 isFull bool } func (s *Storage) getTSIDFromCache(dst *TSID, 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 *TSID, metricName []byte) { buf := (*[unsafe.Sizeof(*tsid)]byte)(unsafe.Pointer(tsid))[:] s.tsidCache.Set(metricName, buf) } func openIndexDBTables(path string, metricIDCache, metricNameCache *workingsetcache.Cache, currHourMetricIDs, prevHourMetricIDs *atomic.Value) (curr, prev *indexDB, err error) { if err := fs.MkdirAllIfNotExist(path); err != nil { return nil, nil, fmt.Errorf("cannot create directory %q: %s", path, err) } d, err := os.Open(path) if err != nil { return nil, nil, fmt.Errorf("cannot open directory: %s", err) } defer fs.MustClose(d) // Search for the two most recent tables - the last one is active, // the previous one contains backup data. fis, err := d.Readdir(-1) if err != nil { return nil, nil, fmt.Errorf("cannot read directory: %s", err) } var tableNames []string for _, fi := range fis { if !fs.IsDirOrSymlink(fi) { // Skip non-directories. continue } tableName := fi.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] }) if len(tableNames) < 2 { // Create missing tables if len(tableNames) == 0 { prevName := nextIndexDBTableName() tableNames = append(tableNames, prevName) } currName := nextIndexDBTableName() tableNames = append(tableNames, currName) } // Invariant: len(tableNames) >= 2 // Remove all the tables except two last tables. for _, tn := range tableNames[:len(tableNames)-2] { pathToRemove := path + "/" + tn logger.Infof("removing obsolete indexdb dir %q...", pathToRemove) fs.MustRemoveAll(pathToRemove) logger.Infof("removed obsolete indexdb dir %q", pathToRemove) } // Persist changes on the file system. fs.MustSyncPath(path) // Open the last two tables. currPath := path + "/" + tableNames[len(tableNames)-1] curr, err = openIndexDB(currPath, metricIDCache, metricNameCache, currHourMetricIDs, prevHourMetricIDs) if err != nil { return nil, nil, fmt.Errorf("cannot open curr indexdb table at %q: %s", currPath, err) } prevPath := path + "/" + tableNames[len(tableNames)-2] prev, err = openIndexDB(prevPath, metricIDCache, metricNameCache, currHourMetricIDs, prevHourMetricIDs) if err != nil { curr.MustClose() return nil, nil, fmt.Errorf("cannot open prev indexdb table at %q: %s", prevPath, err) } // Adjust startDateForPerDayInvertedIndex for the previous index. if prev.startDateForPerDayInvertedIndex > curr.startDateForPerDayInvertedIndex { prev.startDateForPerDayInvertedIndex = curr.startDateForPerDayInvertedIndex } return curr, prev, nil } var indexDBTableNameRegexp = regexp.MustCompile("^[0-9A-F]{16}$") func nextIndexDBTableName() string { n := atomic.AddUint64(&indexDBTableIdx, 1) return fmt.Sprintf("%016X", n) } var indexDBTableIdx = uint64(time.Now().UnixNano())