prometheus/db.go

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// Package tsdb implements a time series storage for float64 sample data.
package tsdb
import (
"bytes"
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"fmt"
"os"
"path/filepath"
"reflect"
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"strconv"
"sync"
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"time"
"unsafe"
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"golang.org/x/sync/errgroup"
"github.com/fabxc/tsdb/chunks"
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"github.com/fabxc/tsdb/labels"
"github.com/go-kit/kit/log"
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"github.com/prometheus/client_golang/prometheus"
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)
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// DefaultOptions used for the DB. They are sane for setups using
// millisecond precision timestamps.
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var DefaultOptions = &Options{
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Retention: 15 * 24 * 3600 * 1000, // 15 days
DisableWAL: false,
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}
// Options of the DB storage.
type Options struct {
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Retention int64
DisableWAL bool
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}
// DB is a time series storage.
type DB struct {
logger log.Logger
opts *Options
path string
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shards []*Shard
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}
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// TODO(fabxc): make configurable
const (
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shardShift = 2
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numShards = 1 << shardShift
maxChunkSize = 1024
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)
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// Open or create a new DB.
func Open(path string, l log.Logger, opts *Options) (*DB, error) {
if opts == nil {
opts = DefaultOptions
}
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if err := os.MkdirAll(path, 0777); err != nil {
return nil, err
}
if l == nil {
l = log.NewLogfmtLogger(os.Stdout)
l = log.NewContext(l).With("ts", log.DefaultTimestampUTC, "caller", log.DefaultCaller)
}
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c := &DB{
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logger: l,
opts: opts,
path: path,
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}
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// Initialize vertical shards.
// TODO(fabxc): validate shard number to be power of 2, which is required
// for the bitshift-modulo when finding the right shard.
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for i := 0; i < numShards; i++ {
l := log.NewContext(l).With("shard", i)
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d := shardDir(path, i)
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s, err := OpenShard(d, i, l)
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if err != nil {
return nil, fmt.Errorf("initializing shard %q failed: %s", d, err)
}
c.shards = append(c.shards, s)
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}
// TODO(fabxc): run background compaction + GC.
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return c, nil
}
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func shardDir(base string, i int) string {
return filepath.Join(base, strconv.Itoa(i))
}
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// Close the database.
func (db *DB) Close() error {
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var g errgroup.Group
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for _, shard := range db.shards {
// Fix closure argument to goroutine.
shard := shard
g.Go(shard.Close)
}
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return g.Wait()
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}
// Appender allows committing batches of samples to a database.
// The data held by the appender is reset after Commit returns.
type Appender interface {
// AddSeries registers a new known series label set with the appender
// and returns a reference number used to add samples to it over the
// life time of the Appender.
// AddSeries(Labels) uint64
// Add adds a sample pair for the referenced series.
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Add(lset labels.Labels, t int64, v float64) error
// Commit submits the collected samples and purges the batch.
Commit() error
}
// Appender returns a new appender against the database.
func (db *DB) Appender() Appender {
return &bucketAppender{
db: db,
buckets: make([][]hashedSample, numShards),
}
}
type bucketAppender struct {
db *DB
buckets [][]hashedSample
}
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func (ba *bucketAppender) Add(lset labels.Labels, t int64, v float64) error {
h := lset.Hash()
s := h >> (64 - shardShift)
ba.buckets[s] = append(ba.buckets[s], hashedSample{
hash: h,
labels: lset,
t: t,
v: v,
})
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return nil
}
func (ba *bucketAppender) reset() {
for i := range ba.buckets {
ba.buckets[i] = ba.buckets[i][:0]
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}
}
func (ba *bucketAppender) Commit() error {
defer ba.reset()
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var merr MultiError
// Spill buckets into shards.
for s, b := range ba.buckets {
merr.Add(ba.db.shards[s].appendBatch(b))
}
return merr.Err()
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}
type hashedSample struct {
hash uint64
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labels labels.Labels
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ref uint32
t int64
v float64
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}
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const sep = '\xff'
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// Shard handles reads and writes of time series falling into
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// a hashed shard of a series.
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type Shard struct {
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path string
persistCh chan struct{}
logger log.Logger
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metrics *shardMetrics
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mtx sync.RWMutex
persisted persistedBlocks
head *HeadBlock
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}
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type shardMetrics struct {
persistences prometheus.Counter
persistenceDuration prometheus.Histogram
samplesAppended prometheus.Counter
}
func newShardMetrics(r prometheus.Registerer, i int) *shardMetrics {
shardLabel := prometheus.Labels{
"shard": fmt.Sprintf("%d", i),
}
m := &shardMetrics{
persistences: prometheus.NewCounter(prometheus.CounterOpts{
Name: "tsdb_shard_persistences_total",
Help: "Total number of head persistances that ran so far.",
ConstLabels: shardLabel,
}),
persistenceDuration: prometheus.NewHistogram(prometheus.HistogramOpts{
Name: "tsdb_shard_persistence_duration_seconds",
Help: "Duration of persistences in seconds.",
ConstLabels: shardLabel,
Buckets: prometheus.ExponentialBuckets(0.25, 2, 5),
}),
samplesAppended: prometheus.NewCounter(prometheus.CounterOpts{
Name: "tsdb_shard_samples_appended_total",
Help: "Total number of appended samples for the shard.",
ConstLabels: shardLabel,
}),
}
if r != nil {
r.MustRegister(
m.persistences,
m.persistenceDuration,
m.samplesAppended,
)
}
return m
}
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// OpenShard returns a new Shard.
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func OpenShard(path string, i int, logger log.Logger) (*Shard, error) {
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// Create directory if shard is new.
if _, err := os.Stat(path); os.IsNotExist(err) {
if err := os.MkdirAll(path, 0777); err != nil {
return nil, err
}
}
// Initialize previously persisted blocks.
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pbs, head, err := findBlocks(path)
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if err != nil {
return nil, err
}
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// TODO(fabxc): get time from client-defined `now` function.
// baset := time.Now().UnixNano() / int64(time.Millisecond)
baset := time.Unix(0, 0).UnixNano() / int64(time.Millisecond)
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if len(pbs) > 0 {
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baset = pbs[len(pbs)-1].stats.MaxTime
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}
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if head == nil {
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head, err = OpenHeadBlock(filepath.Join(path, fmt.Sprintf("%d", baset)), baset)
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if err != nil {
return nil, err
}
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}
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s := &Shard{
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path: path,
persistCh: make(chan struct{}, 1),
logger: logger,
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metrics: newShardMetrics(prometheus.DefaultRegisterer, i),
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head: head,
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persisted: pbs,
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}
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return s, nil
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}
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// Close the shard.
func (s *Shard) Close() error {
s.mtx.Lock()
defer s.mtx.Unlock()
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var e MultiError
for _, pb := range s.persisted {
e.Add(pb.Close())
}
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e.Add(s.head.Close())
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return e.Err()
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}
func (s *Shard) appendBatch(samples []hashedSample) error {
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s.mtx.Lock()
defer s.mtx.Unlock()
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// TODO(fabxc): distinguish samples between concurrent heads for
// different time blocks. Those may occurr during transition to still
// allow late samples to arrive for a previous block.
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err := s.head.appendBatch(samples, s.metrics.samplesAppended)
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// TODO(fabxc): randomize over time and use better scoring function.
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if s.head.stats.SampleCount/(uint64(s.head.stats.ChunkCount)+1) > 400 {
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select {
case s.persistCh <- struct{}{}:
go func() {
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start := time.Now()
defer func() { s.metrics.persistenceDuration.Observe(time.Since(start).Seconds()) }()
if err := s.persist(); err != nil {
s.logger.Log("msg", "persistance error", "err", err)
}
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s.metrics.persistences.Inc()
}()
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default:
}
}
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return err
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}
func intervalOverlap(amin, amax, bmin, bmax int64) bool {
if bmin >= amin && bmin <= amax {
return true
}
if amin >= bmin && amin <= bmax {
return true
}
return false
}
func intervalContains(min, max, t int64) bool {
return t >= min && t <= max
}
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// blocksForRange returns all blocks within the shard that may contain
// data for the given time range.
func (s *Shard) blocksForInterval(mint, maxt int64) []block {
var bs []block
for _, b := range s.persisted {
bmin, bmax := b.interval()
if intervalOverlap(mint, maxt, bmin, bmax) {
bs = append(bs, b)
}
}
hmin, hmax := s.head.interval()
if intervalOverlap(mint, maxt, hmin, hmax) {
bs = append(bs, s.head)
}
return bs
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}
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// TODO(fabxc): make configurable.
const shardGracePeriod = 60 * 1000 // 60 seconds for millisecond scale
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func (s *Shard) persist() error {
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s.mtx.Lock()
// Set new head block.
head := s.head
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newHead, err := OpenHeadBlock(filepath.Join(s.path, fmt.Sprintf("%d", head.stats.MaxTime)), head.stats.MaxTime)
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if err != nil {
s.mtx.Unlock()
return err
}
s.head = newHead
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s.mtx.Unlock()
// Only allow another persistence to be triggered after the current one
// has completed (successful or not.)
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defer func() {
<-s.persistCh
}()
// TODO(fabxc): add grace period where we can still append to old head shard
// before actually persisting it.
p := filepath.Join(s.path, fmt.Sprintf("%d", head.stats.MinTime))
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if err := os.MkdirAll(p, 0777); err != nil {
return err
}
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n, err := head.persist(p)
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if err != nil {
return err
}
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sz := fmt.Sprintf("%.2fMiB", float64(n)/1024/1024)
s.logger.Log("size", sz, "samples", head.stats.SampleCount, "chunks", head.stats.ChunkCount, "msg", "persisted head")
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// Reopen block as persisted block for querying.
pb, err := newPersistedBlock(p)
if err != nil {
return err
}
s.mtx.Lock()
s.persisted = append(s.persisted, pb)
s.mtx.Unlock()
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return nil
}
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// chunkDesc wraps a plain data chunk and provides cached meta data about it.
type chunkDesc struct {
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lset labels.Labels
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chunk chunks.Chunk
// Caching fields.
firsTimestamp int64
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lastTimestamp int64
lastValue float64
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numSamples int
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app chunks.Appender // Current appender for the chunks.
}
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func (cd *chunkDesc) append(ts int64, v float64) {
if cd.numSamples == 0 {
cd.firsTimestamp = ts
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}
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cd.app.Append(ts, v)
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cd.lastTimestamp = ts
cd.lastValue = v
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cd.numSamples++
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}
// 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) > 0 {
fmt.Fprintf(&buf, "%d errors: ", len(es))
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}
for i, err := range es {
if i != 0 {
buf.WriteString("; ")
}
buf.WriteString(err.Error())
}
return buf.String()
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}
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// Add adds the error to the error list if it is not nil.
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func (es MultiError) Add(err error) {
if err != nil {
es = append(es, err)
}
}
// Err returns the error list as an error or nil if it is empty.
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func (es MultiError) Err() error {
if len(es) == 0 {
return nil
}
return es
}
func yoloString(b []byte) string {
h := reflect.StringHeader{
Data: uintptr(unsafe.Pointer(&b[0])),
Len: len(b),
}
return *((*string)(unsafe.Pointer(&h)))
}
func yoloBytes(s string) []byte {
sh := (*reflect.StringHeader)(unsafe.Pointer(&s))
h := reflect.SliceHeader{
Cap: sh.Len,
Len: sh.Len,
Data: sh.Data,
}
return *((*[]byte)(unsafe.Pointer(&h)))
}