// Copyright 2017 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package tsdb implements a time series storage for float64 sample data. package tsdb import ( "bytes" "fmt" "io" "io/ioutil" "os" "path/filepath" "runtime" "sort" "strconv" "strings" "sync" "time" "unsafe" "golang.org/x/sync/errgroup" "github.com/coreos/etcd/pkg/fileutil" "github.com/go-kit/kit/log" "github.com/nightlyone/lockfile" "github.com/oklog/ulid" "github.com/pkg/errors" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/tsdb/chunks" "github.com/prometheus/tsdb/labels" ) // DefaultOptions used for the DB. They are sane for setups using // millisecond precision timestampdb. var DefaultOptions = &Options{ WALFlushInterval: 5 * time.Second, RetentionDuration: 15 * 24 * 60 * 60 * 1000, // 15 days in milliseconds BlockRanges: ExponentialBlockRanges(int64(2*time.Hour)/1e6, 3, 5), NoLockfile: false, } // Options of the DB storage. type Options struct { // The interval at which the write ahead log is flushed to disc. WALFlushInterval time.Duration // Duration of persisted data to keep. RetentionDuration uint64 // The sizes of the Blocks. BlockRanges []int64 // NoLockfile disables creation and consideration of a lock file. NoLockfile bool } // Appender allows appending a batch of data. It must be completed with a // call to Commit or Rollback and must not be reused afterwards. // // Operations on the Appender interface are not goroutine-safe. type Appender interface { // Add adds a sample pair for the given series. A reference number is // returned which can be used to add further samples in the same or later // transactions. // Returned reference numbers are ephemeral and may be rejected in calls // to AddFast() at any point. Adding the sample via Add() returns a new // reference number. // If the reference is the empty string it must not be used for caching. Add(l labels.Labels, t int64, v float64) (string, error) // Add adds a sample pair for the referenced series. It is generally faster // than adding a sample by providing its full label set. AddFast(ref string, t int64, v float64) error // Commit submits the collected samples and purges the batch. Commit() error // Rollback rolls back all modifications made in the appender so far. Rollback() error } // DB handles reads and writes of time series falling into // a hashed partition of a seriedb. type DB struct { dir string lockf *lockfile.Lockfile logger log.Logger metrics *dbMetrics opts *Options chunkPool chunks.Pool // Mutex for that must be held when modifying the general block layout. mtx sync.RWMutex blocks []Block // Mutex that must be held when modifying just the head blocks // or the general layout. // mtx must be held before acquiring. headmtx sync.RWMutex heads []headBlock compactor Compactor compactc chan struct{} donec chan struct{} stopc chan struct{} // cmtx is used to control compactions and deletions. cmtx sync.Mutex compactionsEnabled bool } type dbMetrics struct { activeAppenders prometheus.Gauge loadedBlocks prometheus.GaugeFunc reloads prometheus.Counter reloadsFailed prometheus.Counter reloadDuration prometheus.Summary samplesAppended prometheus.Counter compactionsTriggered prometheus.Counter } func newDBMetrics(db *DB, r prometheus.Registerer) *dbMetrics { m := &dbMetrics{} m.activeAppenders = prometheus.NewGauge(prometheus.GaugeOpts{ Name: "tsdb_active_appenders", Help: "Number of currently active appender transactions", }) m.loadedBlocks = prometheus.NewGaugeFunc(prometheus.GaugeOpts{ Name: "tsdb_blocks_loaded", Help: "Number of currently loaded data blocks", }, func() float64 { db.mtx.RLock() defer db.mtx.RUnlock() return float64(len(db.blocks)) }) m.reloads = prometheus.NewCounter(prometheus.CounterOpts{ Name: "tsdb_reloads_total", Help: "Number of times the database reloaded block data from disk.", }) m.reloadsFailed = prometheus.NewCounter(prometheus.CounterOpts{ Name: "tsdb_reloads_failures_total", Help: "Number of times the database failed to reload black data from disk.", }) m.reloadDuration = prometheus.NewSummary(prometheus.SummaryOpts{ Name: "tsdb_reload_duration_seconds", Help: "Duration of block reloads.", }) m.samplesAppended = prometheus.NewCounter(prometheus.CounterOpts{ Name: "tsdb_samples_appended_total", Help: "Total number of appended sampledb.", }) m.compactionsTriggered = prometheus.NewCounter(prometheus.CounterOpts{ Name: "tsdb_compactions_triggered_total", Help: "Total number of triggered compactions for the partition.", }) if r != nil { r.MustRegister( m.activeAppenders, m.loadedBlocks, m.reloads, m.reloadsFailed, m.reloadDuration, m.samplesAppended, m.compactionsTriggered, ) } return m } // Open returns a new DB in the given directory. func Open(dir string, l log.Logger, r prometheus.Registerer, opts *Options) (db *DB, err error) { if err := os.MkdirAll(dir, 0777); err != nil { return nil, err } if l == nil { l = log.NewLogfmtLogger(os.Stdout) l = log.With(l, "ts", log.DefaultTimestampUTC, "caller", log.DefaultCaller) } if opts == nil { opts = DefaultOptions } db = &DB{ dir: dir, logger: l, opts: opts, compactc: make(chan struct{}, 1), donec: make(chan struct{}), stopc: make(chan struct{}), compactionsEnabled: true, chunkPool: chunks.NewPool(), } db.metrics = newDBMetrics(db, r) if !opts.NoLockfile { absdir, err := filepath.Abs(dir) if err != nil { return nil, err } lockf, err := lockfile.New(filepath.Join(absdir, "lock")) if err != nil { return nil, err } if err := lockf.TryLock(); err != nil { return nil, errors.Wrapf(err, "open DB in %s", dir) } db.lockf = &lockf } copts := &compactorOptions{ blockRanges: opts.BlockRanges, chunkPool: db.chunkPool, } if len(copts.blockRanges) == 0 { return nil, errors.New("at least one block-range must exist") } for float64(copts.blockRanges[len(copts.blockRanges)-1])/float64(opts.RetentionDuration) > 0.2 { if len(copts.blockRanges) == 1 { break } // Max overflow is restricted to 20%. copts.blockRanges = copts.blockRanges[:len(copts.blockRanges)-1] } db.compactor = NewCompactor(dir, r, l, copts) if err := db.reloadBlocks(); err != nil { return nil, err } go db.run() return db, nil } // Dir returns the directory of the database. func (db *DB) Dir() string { return db.dir } func (db *DB) run() { defer close(db.donec) tick := time.NewTicker(30 * time.Second) defer tick.Stop() for { select { case <-tick.C: select { case db.compactc <- struct{}{}: default: } case <-db.compactc: db.metrics.compactionsTriggered.Inc() changes1, err := db.retentionCutoff() if err != nil { db.logger.Log("msg", "retention cutoff failed", "err", err) } changes2, err := db.compact() if err != nil { db.logger.Log("msg", "compaction failed", "err", err) } if changes1 || changes2 { if err := db.reloadBlocks(); err != nil { db.logger.Log("msg", "reloading blocks failed", "err", err) } } case <-db.stopc: return } } } func (db *DB) retentionCutoff() (bool, error) { if db.opts.RetentionDuration == 0 { return false, nil } db.mtx.RLock() defer db.mtx.RUnlock() // We only consider the already persisted blocks. Head blocks generally // only account for a fraction of the total data. db.headmtx.RLock() lenp := len(db.blocks) - len(db.heads) db.headmtx.RUnlock() if lenp == 0 { return false, nil } last := db.blocks[lenp-1] mint := last.Meta().MaxTime - int64(db.opts.RetentionDuration) return retentionCutoff(db.dir, mint) } // headFullness returns up to which fraction of a blocks time range samples // were already inserted. func headFullness(h headBlock) float64 { m := h.Meta() a := float64(h.HighTimestamp() - m.MinTime) b := float64(m.MaxTime - m.MinTime) return a / b } // appendableHeads returns a copy of a slice of HeadBlocks that can still be appended to. func (db *DB) appendableHeads() (r []headBlock) { switch l := len(db.heads); l { case 0: case 1: r = append(r, db.heads[0]) default: if headFullness(db.heads[l-1]) < 0.5 { r = append(r, db.heads[l-2]) } r = append(r, db.heads[l-1]) } return r } func (db *DB) completedHeads() (r []headBlock) { db.mtx.RLock() defer db.mtx.RUnlock() db.headmtx.RLock() defer db.headmtx.RUnlock() if len(db.heads) < 2 { return nil } // Select all old heads unless they still have pending appenders. for _, h := range db.heads[:len(db.heads)-2] { if h.ActiveWriters() > 0 { return r } r = append(r, h) } // Add the 2nd last head if the last head is more than 50% filled. // Compacting it early allows us to free its memory before allocating // more for the next block and thus reduces spikes. h0 := db.heads[len(db.heads)-1] h1 := db.heads[len(db.heads)-2] if headFullness(h0) >= 0.5 && h1.ActiveWriters() == 0 { r = append(r, h1) } return r } func (db *DB) compact() (changes bool, err error) { db.cmtx.Lock() defer db.cmtx.Unlock() if !db.compactionsEnabled { return false, nil } // Check whether we have pending head blocks that are ready to be persisted. // They have the highest priority. for _, h := range db.completedHeads() { select { case <-db.stopc: return changes, nil default: } if err = db.compactor.Write(h); err != nil { return changes, errors.Wrap(err, "persist head block") } changes = true runtime.GC() } // Check for compactions of multiple blocks. for { plans, err := db.compactor.Plan() if err != nil { return changes, errors.Wrap(err, "plan compaction") } if len(plans) == 0 { break } select { case <-db.stopc: return changes, nil default: } // We just execute compactions sequentially to not cause too extreme // CPU and memory spikes. // TODO(fabxc): return more descriptive plans in the future that allow // estimation of resource usage and conditional parallelization? for _, p := range plans { if err := db.compactor.Compact(p...); err != nil { return changes, errors.Wrapf(err, "compact %s", p) } changes = true runtime.GC() } } return changes, nil } // retentionCutoff deletes all directories of blocks in dir that are strictly // before mint. func retentionCutoff(dir string, mint int64) (bool, error) { df, err := fileutil.OpenDir(dir) if err != nil { return false, errors.Wrapf(err, "open directory") } defer df.Close() dirs, err := blockDirs(dir) if err != nil { return false, errors.Wrapf(err, "list block dirs %s", dir) } changes := false for _, dir := range dirs { meta, err := readMetaFile(dir) if err != nil { return changes, errors.Wrapf(err, "read block meta %s", dir) } // The first block we encounter marks that we crossed the boundary // of deletable blocks. if meta.MaxTime >= mint { break } changes = true if err := os.RemoveAll(dir); err != nil { return changes, err } } return changes, fileutil.Fsync(df) } func (db *DB) getBlock(id ulid.ULID) (Block, bool) { for _, b := range db.blocks { if b.Meta().ULID == id { return b, true } } return nil, false } func (db *DB) reloadBlocks() (err error) { defer func(t time.Time) { if err != nil { db.metrics.reloadsFailed.Inc() } db.metrics.reloads.Inc() db.metrics.reloadDuration.Observe(time.Since(t).Seconds()) }(time.Now()) var cs []io.Closer defer func() { closeAll(cs...) }() db.mtx.Lock() defer db.mtx.Unlock() db.headmtx.Lock() defer db.headmtx.Unlock() dirs, err := blockDirs(db.dir) if err != nil { return errors.Wrap(err, "find blocks") } var ( blocks []Block exist = map[ulid.ULID]struct{}{} ) for _, dir := range dirs { meta, err := readMetaFile(dir) if err != nil { return errors.Wrapf(err, "read meta information %s", dir) } b, ok := db.getBlock(meta.ULID) if !ok { if meta.Compaction.Generation == 0 { b, err = db.openHeadBlock(dir) } else { b, err = newPersistedBlock(dir, db.chunkPool) } if err != nil { return errors.Wrapf(err, "open block %s", dir) } } blocks = append(blocks, b) exist[meta.ULID] = struct{}{} } if err := validateBlockSequence(blocks); err != nil { return errors.Wrap(err, "invalid block sequence") } // Close all opened blocks that no longer exist after we returned all locks. for _, b := range db.blocks { if _, ok := exist[b.Meta().ULID]; !ok { cs = append(cs, b) } } db.blocks = blocks db.heads = nil for _, b := range blocks { if b.Meta().Compaction.Generation == 0 { db.heads = append(db.heads, b.(*HeadBlock)) } } return nil } func validateBlockSequence(bs []Block) error { if len(bs) == 0 { return nil } sort.Slice(bs, func(i, j int) bool { return bs[i].Meta().MinTime < bs[j].Meta().MinTime }) prev := bs[0] for _, b := range bs[1:] { if b.Meta().MinTime < prev.Meta().MaxTime { return errors.Errorf("block time ranges overlap (%d, %d)", b.Meta().MinTime, prev.Meta().MaxTime) } } return nil } // Close the partition. func (db *DB) Close() error { close(db.stopc) <-db.donec db.mtx.Lock() defer db.mtx.Unlock() var g errgroup.Group // blocks also contains all head blocks. for _, pb := range db.blocks { g.Go(pb.Close) } var merr MultiError merr.Add(g.Wait()) if db.lockf != nil { merr.Add(db.lockf.Unlock()) } return merr.Err() } // DisableCompactions disables compactions. func (db *DB) DisableCompactions() { db.cmtx.Lock() defer db.cmtx.Unlock() db.compactionsEnabled = false db.logger.Log("msg", "compactions disabled") } // EnableCompactions enables compactions. func (db *DB) EnableCompactions() { db.cmtx.Lock() defer db.cmtx.Unlock() db.compactionsEnabled = true db.logger.Log("msg", "compactions enabled") } // Snapshot writes the current data to the directory. func (db *DB) Snapshot(dir string) error { db.cmtx.Lock() defer db.cmtx.Unlock() db.mtx.Lock() // To block any appenders. defer db.mtx.Unlock() blocks := db.blocks[:] for _, b := range blocks { db.logger.Log("msg", "snapshotting block", "block", b) if err := b.Snapshot(dir); err != nil { return errors.Wrap(err, "error snapshotting headblock") } } return nil } // Appender returns a new Appender on the database. func (db *DB) Appender() Appender { db.metrics.activeAppenders.Inc() db.mtx.RLock() return &dbAppender{db: db} } type dbAppender struct { db *DB heads []*metaAppender samples int } type metaAppender struct { meta BlockMeta app Appender } func (a *dbAppender) Add(lset labels.Labels, t int64, v float64) (string, error) { h, err := a.appenderAt(t) if err != nil { return "", err } ref, err := h.app.Add(lset, t, v) if err != nil { return "", err } a.samples++ if ref == "" { return "", nil } return string(append(h.meta.ULID[:], ref...)), nil } func (a *dbAppender) AddFast(ref string, t int64, v float64) error { if len(ref) < 16 { return errors.Wrap(ErrNotFound, "invalid ref length") } // The first 16 bytes a ref hold the ULID of the head block. h, err := a.appenderAt(t) if err != nil { return err } // Validate the ref points to the same block we got for t. if string(h.meta.ULID[:]) != ref[:16] { return ErrNotFound } if err := h.app.AddFast(ref[16:], t, v); err != nil { // The block the ref points to might fit the given timestamp. // We mask the error to stick with our contract. if errors.Cause(err) == ErrOutOfBounds { err = ErrNotFound } return err } a.samples++ return nil } // appenderFor gets the appender for the head containing timestamp t. // If the head block doesn't exist yet, it gets created. func (a *dbAppender) appenderAt(t int64) (*metaAppender, error) { for _, h := range a.heads { if intervalContains(h.meta.MinTime, h.meta.MaxTime-1, t) { return h, nil } } // Currently opened appenders do not cover t. Ensure the head block is // created and add missing appenders. a.db.headmtx.Lock() if err := a.db.ensureHead(t); err != nil { a.db.headmtx.Unlock() return nil, err } var hb headBlock for _, h := range a.db.appendableHeads() { m := h.Meta() if intervalContains(m.MinTime, m.MaxTime-1, t) { hb = h break } } a.db.headmtx.Unlock() if hb == nil { return nil, ErrOutOfBounds } // Instantiate appender after returning headmtx! app := &metaAppender{ meta: hb.Meta(), app: hb.Appender(), } a.heads = append(a.heads, app) return app, nil } func rangeForTimestamp(t int64, width int64) (mint, maxt int64) { mint = (t / width) * width return mint, mint + width } // ensureHead makes sure that there is a head block for the timestamp t if // it is within or after the currently appendable window. func (db *DB) ensureHead(t int64) error { var ( mint, maxt = rangeForTimestamp(t, int64(db.opts.BlockRanges[0])) addBuffer = len(db.blocks) == 0 last BlockMeta ) if !addBuffer { last = db.blocks[len(db.blocks)-1].Meta() addBuffer = last.MaxTime <= mint-int64(db.opts.BlockRanges[0]) } // Create another block of buffer in front if the DB is initialized or retrieving // new data after a long gap. // This ensures we always have a full block width of append window. if addBuffer { if _, err := db.createHeadBlock(mint-int64(db.opts.BlockRanges[0]), mint); err != nil { return err } // If the previous block reaches into our new window, make it smaller. } else if mt := last.MaxTime; mt > mint { mint = mt } if mint >= maxt { return nil } // Error if the requested time for a head is before the appendable window. if len(db.heads) > 0 && t < db.heads[0].Meta().MinTime { return ErrOutOfBounds } _, err := db.createHeadBlock(mint, maxt) return err } func (a *dbAppender) Commit() error { defer a.db.metrics.activeAppenders.Dec() defer a.db.mtx.RUnlock() // Commits to partial appenders must be concurrent as concurrent appenders // may have conflicting locks on head appenders. // For high-throughput use cases the errgroup causes significant blocking. Typically, // we just deal with a single appender and special case it. var err error switch len(a.heads) { case 1: err = a.heads[0].app.Commit() default: var g errgroup.Group for _, h := range a.heads { g.Go(h.app.Commit) } err = g.Wait() } if err != nil { return err } // XXX(fabxc): Push the metric down into head block to account properly // for partial appends? a.db.metrics.samplesAppended.Add(float64(a.samples)) return nil } func (a *dbAppender) Rollback() error { defer a.db.metrics.activeAppenders.Dec() defer a.db.mtx.RUnlock() var g errgroup.Group for _, h := range a.heads { g.Go(h.app.Rollback) } return g.Wait() } // Delete implements deletion of metrics. func (db *DB) Delete(mint, maxt int64, ms ...labels.Matcher) error { db.cmtx.Lock() defer db.cmtx.Unlock() db.mtx.Lock() defer db.mtx.Unlock() blocks := db.blocksForInterval(mint, maxt) var g errgroup.Group for _, b := range blocks { g.Go(func(b Block) func() error { return func() error { return b.Delete(mint, maxt, ms...) } }(b)) } if err := g.Wait(); err != nil { return err } return nil } func intervalOverlap(amin, amax, bmin, bmax int64) bool { // Checks Overlap: http://stackoverflow.com/questions/3269434/ return amin <= bmax && bmin <= amax } func intervalContains(min, max, t int64) bool { return t >= min && t <= max } // blocksForInterval returns all blocks within the partition that may contain // data for the given time range. func (db *DB) blocksForInterval(mint, maxt int64) []Block { var bs []Block for _, b := range db.blocks { m := b.Meta() if intervalOverlap(mint, maxt, m.MinTime, m.MaxTime) { bs = append(bs, b) } } return bs } // openHeadBlock opens the head block at dir. func (db *DB) openHeadBlock(dir string) (*HeadBlock, error) { var ( wdir = walDir(dir) l = log.With(db.logger, "wal", wdir) ) wal, err := OpenSegmentWAL(wdir, l, 5*time.Second) if err != nil { return nil, errors.Wrap(err, "open WAL %s") } h, err := OpenHeadBlock(dir, log.With(db.logger, "block", dir), wal) if err != nil { return nil, errors.Wrapf(err, "open head block %s", dir) } return h, nil } // createHeadBlock starts a new head block to append to. func (db *DB) createHeadBlock(mint, maxt int64) (headBlock, error) { dir, err := TouchHeadBlock(db.dir, mint, maxt) if err != nil { return nil, errors.Wrapf(err, "touch head block %s", dir) } newHead, err := db.openHeadBlock(dir) if err != nil { return nil, err } db.logger.Log("msg", "created head block", "ulid", newHead.meta.ULID, "mint", mint, "maxt", maxt) db.blocks = append(db.blocks, newHead) // TODO(fabxc): this is a race! db.heads = append(db.heads, newHead) select { case db.compactc <- struct{}{}: default: } return newHead, nil } func isBlockDir(fi os.FileInfo) bool { if !fi.IsDir() { return false } _, err := ulid.Parse(fi.Name()) return err == nil } func blockDirs(dir string) ([]string, error) { files, err := ioutil.ReadDir(dir) if err != nil { return nil, err } var dirs []string for _, fi := range files { if isBlockDir(fi) { dirs = append(dirs, filepath.Join(dir, fi.Name())) } } return dirs, nil } func sequenceFiles(dir, prefix string) ([]string, error) { files, err := ioutil.ReadDir(dir) if err != nil { return nil, err } var res []string for _, fi := range files { if isSequenceFile(fi, prefix) { res = append(res, filepath.Join(dir, fi.Name())) } } return res, nil } func isSequenceFile(fi os.FileInfo, prefix string) bool { if !strings.HasPrefix(fi.Name(), prefix) { return false } if _, err := strconv.ParseUint(fi.Name()[len(prefix):], 10, 32); err != nil { return false } return true } func nextSequenceFile(dir, prefix string) (string, int, error) { names, err := fileutil.ReadDir(dir) if err != nil { return "", 0, err } i := uint64(0) for _, n := range names { if !strings.HasPrefix(n, prefix) { continue } j, err := strconv.ParseUint(n[len(prefix):], 10, 32) if err != nil { continue } i = j } return filepath.Join(dir, fmt.Sprintf("%s%0.6d", prefix, i+1)), int(i + 1), nil } // The MultiError type implements the error interface, and contains the // Errors used to construct it. type MultiError []error // Returns a concatenated string of the contained errors func (es MultiError) Error() string { var buf bytes.Buffer if len(es) > 1 { fmt.Fprintf(&buf, "%d errors: ", len(es)) } for i, err := range es { if i != 0 { buf.WriteString("; ") } buf.WriteString(err.Error()) } return buf.String() } // Add adds the error to the error list if it is not nil. func (es *MultiError) Add(err error) { if err == nil { return } if merr, ok := err.(MultiError); ok { *es = append(*es, merr...) } else { *es = append(*es, err) } } // Err returns the error list as an error or nil if it is empty. func (es MultiError) Err() error { if len(es) == 0 { return nil } return es } func yoloString(b []byte) string { return *((*string)(unsafe.Pointer(&b))) } func yoloBytes(s string) []byte { return *((*[]byte)(unsafe.Pointer(&s))) } func closeAll(cs ...io.Closer) error { var merr MultiError for _, c := range cs { merr.Add(c.Close()) } return merr.Err() }