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prometheus/db.go

466 lines
9.8 KiB

// Package tsdb implements a time series storage for float64 sample data.
package tsdb
import (
"bytes"
"fmt"
"os"
"path/filepath"
"sort"
"sync"
"time"
"github.com/cespare/xxhash"
"github.com/fabxc/tsdb/chunks"
"github.com/prometheus/common/log"
)
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// DefaultOptions used for the DB. They are sane for setups using
// millisecond precision timestamps.
var DefaultOptions = &Options{
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Retention: 15 * 24 * 3600 * 1000, // 15 days
}
// Options of the DB storage.
type Options struct {
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Retention int64
}
// DB is a time series storage.
type DB struct {
logger log.Logger
opts *Options
path string
shards []*SeriesShard
}
// TODO(fabxc): make configurable
const (
seriesShardShift = 3
numSeriesShards = 1 << seriesShardShift
maxChunkSize = 1024
)
// Open or create a new DB.
func Open(path string, l log.Logger, opts *Options) (*DB, error) {
if opts == nil {
opts = DefaultOptions
}
if err := os.MkdirAll(path, 0777); err != nil {
return nil, err
}
c := &DB{
logger: l,
opts: opts,
path: path,
}
// 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.
for i := 0; i < numSeriesShards; i++ {
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path := filepath.Join(path, fmt.Sprintf("%d", i))
c.shards = append(c.shards, NewSeriesShard(path, l.With("shard", i)))
}
// TODO(fabxc): run background compaction + GC.
return c, nil
}
// Close the database.
func (db *DB) Close() error {
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var wg sync.WaitGroup
for i, shard := range db.shards {
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wg.Add(1)
go func(i int, shard *SeriesShard) {
if err := shard.Close(); err != nil {
// TODO(fabxc): handle with multi error.
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panic(err)
}
wg.Done()
}(i, shard)
}
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wg.Wait()
return nil
}
// Appender adds a batch of samples.
type Appender interface {
// Add adds a sample pair to the appended batch.
Add(l Labels, t int64, v float64)
// Commit submits the collected samples.
Commit() error
}
// Vector is a set of LabelSet associated with one value each.
// Label sets and values must have equal length.
type Vector struct {
Buckets map[uint16][]Sample
reused int
}
type Sample struct {
Hash uint64
Labels Labels
Value float64
}
// Reset the vector but keep resources allocated.
func (v *Vector) Reset() {
// Do a full reset every n-th reusage to avoid memory leaks.
if v.Buckets == nil || v.reused > 100 {
v.Buckets = make(map[uint16][]Sample, 0)
return
}
for x, bkt := range v.Buckets {
v.Buckets[x] = bkt[:0]
}
v.reused++
}
// Add a sample to the vector.
func (v *Vector) Add(lset Labels, val float64) {
h := lset.Hash()
s := uint16(h >> (64 - seriesShardShift))
v.Buckets[s] = append(v.Buckets[s], Sample{
Hash: h,
Labels: lset,
Value: val,
})
}
// func (db *DB) Appender() Appender {
// return &bucketAppender{
// samples: make([]Sample, 1024),
// }
// }
// type bucketAppender struct {
// db *DB
// // buckets []Sam
// }
// func (a *bucketAppender) Add(l Labels, t int64, v float64) {
// }
// func (a *bucketAppender) Commit() error {
// // f
// }
// AppendVector adds values for a list of label sets for the given timestamp
// in milliseconds.
func (db *DB) AppendVector(ts int64, v *Vector) error {
// Sequentially add samples to shards.
for s, bkt := range v.Buckets {
shard := db.shards[s]
if err := shard.appendBatch(ts, bkt); err != nil {
// TODO(fabxc): handle gracefully and collect multi-error.
return err
}
}
return nil
}
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func (db *DB) appendSingle(lset Labels, ts int64, v float64) error {
h := lset.Hash()
s := uint16(h >> (64 - seriesShardShift))
return db.shards[s].appendBatch(ts, []Sample{
{
Hash: h,
Labels: lset,
Value: v,
},
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})
}
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const sep = '\xff'
// SeriesShard handles reads and writes of time series falling into
// a hashed shard of a series.
type SeriesShard struct {
path string
persistCh chan struct{}
done chan struct{}
logger log.Logger
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mtx sync.RWMutex
blocks []*Block
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head *HeadBlock
}
// NewSeriesShard returns a new SeriesShard.
func NewSeriesShard(path string, logger log.Logger) *SeriesShard {
s := &SeriesShard{
path: path,
persistCh: make(chan struct{}, 1),
done: make(chan struct{}),
logger: logger,
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// TODO(fabxc): restore from checkpoint.
// TODO(fabxc): provide access to persisted blocks.
}
// TODO(fabxc): get base time from pre-existing blocks. Otherwise
// it should come from a user defined start timestamp.
// Use actual time for now.
s.head = NewHeadBlock(time.Now().UnixNano() / int64(time.Millisecond))
return s
}
// Close the series shard.
func (s *SeriesShard) Close() error {
close(s.done)
return nil
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}
func (s *SeriesShard) appendBatch(ts int64, samples []Sample) error {
// TODO(fabxc): make configurable.
const persistenceTimeThreshold = 1000 * 60 * 60 // 1 hour if timestamp in ms
s.mtx.Lock()
defer s.mtx.Unlock()
for _, smpl := range samples {
if err := s.head.append(smpl.Hash, smpl.Labels, ts, smpl.Value); err != nil {
// TODO(fabxc): handle gracefully and collect multi-error.
return err
}
}
if ts > s.head.highTimestamp {
s.head.highTimestamp = ts
}
// TODO(fabxc): randomize over time
if s.head.stats().samples/uint64(s.head.stats().chunks) > 400 {
select {
case s.persistCh <- struct{}{}:
go s.persist()
default:
}
}
return nil
}
// blocksForRange returns all blocks within the shard that may contain
// data for the given time range.
func (s *SeriesShard) blocksForRange(mint, maxt int64) (bs []Block) {
return nil
}
// TODO(fabxc): make configurable.
const shardGracePeriod = 60 * 1000 // 60 seconds for millisecond scale
func (s *SeriesShard) persist() error {
s.mtx.Lock()
// Set new head block.
head := s.head
s.head = NewHeadBlock(head.highTimestamp)
s.mtx.Unlock()
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.baseTimestamp))
if err := os.MkdirAll(p, 0777); err != nil {
return err
}
sf, err := os.Create(filepath.Join(p, "series"))
if err != nil {
return err
}
xf, err := os.Create(filepath.Join(p, "index"))
if err != nil {
return err
}
iw := newIndexWriter(xf)
sw := newSeriesWriter(sf, iw, s.head.baseTimestamp)
defer sw.Close()
defer iw.Close()
for ref, cd := range head.index.forward {
if err := sw.WriteSeries(ref, cd.lset, []*chunkDesc{cd}); err != nil {
return err
}
}
if err := iw.WriteStats(nil); err != nil {
return err
}
for n, v := range head.index.values {
s := make([]string, 0, len(v))
for x := range v {
s = append(s, x)
}
if err := iw.WriteLabelIndex([]string{n}, s); err != nil {
return err
}
}
for t := range head.index.postings.m {
if err := iw.WritePostings(t.name, t.value, head.index.postings.get(t)); err != nil {
return err
}
}
sz := fmt.Sprintf("%.2fMiB", float64(sw.Size()+iw.Size())/1024/1024)
s.logger.With("size", sz).
With("samples", head.samples).
With("chunks", head.stats().chunks).
Debug("persisted head")
return nil
}
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// chunkDesc wraps a plain data chunk and provides cached meta data about it.
type chunkDesc struct {
lset Labels
chunk chunks.Chunk
// Caching fields.
lastTimestamp int64
lastValue float64
app chunks.Appender // Current appender for the chunks.
}
func (cd *chunkDesc) append(ts int64, v float64) (err error) {
if cd.app == nil {
cd.app, err = cd.chunk.Appender()
if err != nil {
return err
}
}
if err := cd.app.Append(ts, v); err != nil {
return err
}
cd.lastTimestamp = ts
cd.lastValue = v
return nil
}
// Label is a key/value pair of strings.
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type Label struct {
Name, Value string
}
// Labels is a sorted set of labels. Order has to be guaranteed upon
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// instantiation.
type Labels []Label
func (ls Labels) Len() int { return len(ls) }
func (ls Labels) Swap(i, j int) { ls[i], ls[j] = ls[j], ls[i] }
func (ls Labels) Less(i, j int) bool { return ls[i].Name < ls[j].Name }
// Hash returns a hash value for the label set.
func (ls Labels) Hash() uint64 {
b := make([]byte, 0, 1024)
for _, v := range ls {
b = append(b, v.Name...)
b = append(b, sep)
b = append(b, v.Value...)
b = append(b, sep)
}
return xxhash.Sum64(b)
}
// Get returns the value for the label with the given name.
// Returns an empty string if the label doesn't exist.
func (ls Labels) Get(name string) string {
for _, l := range ls {
if l.Name == name {
return l.Value
}
}
return ""
}
// Equals returns whether the two label sets are equal.
func (ls Labels) Equals(o Labels) bool {
if len(ls) != len(o) {
return false
}
for i, l := range ls {
if l.Name != o[i].Name || l.Value != o[i].Value {
return false
}
}
return true
}
// Map returns a string map of the labels.
func (ls Labels) Map() map[string]string {
m := make(map[string]string, len(ls))
for _, l := range ls {
m[l.Name] = l.Value
}
return m
}
// NewLabels returns a sorted Labels from the given labels.
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// The caller has to guarantee that all label names are unique.
func NewLabels(ls ...Label) Labels {
set := make(Labels, 0, len(ls))
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for _, l := range ls {
set = append(set, l)
}
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sort.Sort(set)
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return set
}
// LabelsFromMap returns new sorted Labels from the given map.
func LabelsFromMap(m map[string]string) Labels {
l := make([]Label, 0, len(m))
for k, v := range m {
l = append(l, Label{Name: k, Value: v})
}
return NewLabels(l...)
}
// 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))
}
for i, err := range es {
if i != 0 {
buf.WriteString("; ")
}
buf.WriteString(err.Error())
}
return buf.String()
}