prometheus/storage/metric/memory.go

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// Copyright 2013 Prometheus Team
// 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 metric
import (
"fmt"
"github.com/prometheus/prometheus/model"
"github.com/prometheus/prometheus/storage"
"github.com/prometheus/prometheus/utility"
"github.com/ryszard/goskiplist/skiplist"
"sort"
"time"
)
const (
// Used as a separator in the format string for generating the internal label
// value pair set fingerprints.
reservedDelimiter = `"`
)
// Models a given sample entry stored in the in-memory arena.
type value interface {
// Gets the given value.
get() model.SampleValue
}
// Models a single sample value. It presumes that there is either no subsequent
// value seen or that any subsequent values are of a different value.
type singletonValue model.SampleValue
func (v singletonValue) get() model.SampleValue {
return model.SampleValue(v)
}
type skipListTime time.Time
func (t skipListTime) LessThan(o skiplist.Ordered) bool {
return time.Time(o.(skipListTime)).Before(time.Time(t))
}
type stream struct {
metric model.Metric
values *skiplist.SkipList
}
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func (s stream) add(timestamp time.Time, value model.SampleValue) {
s.values.Set(skipListTime(timestamp), singletonValue(value))
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}
func (s stream) forEach(decoder storage.RecordDecoder, filter storage.RecordFilter, operator storage.RecordOperator) (scannedEntireCorpus bool, err error) {
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if s.values.Len() == 0 {
return
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}
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iterator := s.values.SeekToLast()
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defer iterator.Close()
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for !(iterator.Key() == nil || iterator.Value() == nil) {
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decodedKey, decodeErr := decoder.DecodeKey(iterator.Key())
if decodeErr != nil {
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panic(decodeErr)
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}
decodedValue, decodeErr := decoder.DecodeValue(iterator.Value())
if decodeErr != nil {
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panic(decodeErr)
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}
switch filter.Filter(decodedKey, decodedValue) {
case storage.STOP:
return
case storage.SKIP:
continue
case storage.ACCEPT:
opErr := operator.Operate(decodedKey, decodedValue)
if opErr != nil {
if opErr.Continuable {
continue
}
break
}
}
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if !iterator.Previous() {
break
}
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}
scannedEntireCorpus = true
return
}
func newStream(metric model.Metric) stream {
return stream{
values: skiplist.New(),
metric: metric,
}
}
type memorySeriesStorage struct {
fingerprintToSeries map[model.Fingerprint]stream
labelPairToFingerprints map[string]model.Fingerprints
labelNameToFingerprints map[model.LabelName]model.Fingerprints
}
func (s memorySeriesStorage) AppendSamples(samples model.Samples) (err error) {
for _, sample := range samples {
s.AppendSample(sample)
}
return
}
func (s memorySeriesStorage) AppendSample(sample model.Sample) (err error) {
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var (
metric = sample.Metric
fingerprint = model.NewFingerprintFromMetric(metric)
series, ok = s.fingerprintToSeries[fingerprint]
)
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if !ok {
series = newStream(metric)
s.fingerprintToSeries[fingerprint] = series
for k, v := range metric {
labelPair := fmt.Sprintf("%s%s%s", k, reservedDelimiter, v)
labelPairValues := s.labelPairToFingerprints[labelPair]
labelPairValues = append(labelPairValues, fingerprint)
s.labelPairToFingerprints[labelPair] = labelPairValues
labelNameValues := s.labelNameToFingerprints[k]
labelNameValues = append(labelNameValues, fingerprint)
s.labelNameToFingerprints[k] = labelNameValues
}
}
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series.add(sample.Timestamp, sample.Value)
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return
}
func (s memorySeriesStorage) GetFingerprintsForLabelSet(l model.LabelSet) (fingerprints model.Fingerprints, err error) {
sets := []utility.Set{}
for k, v := range l {
signature := fmt.Sprintf("%s%s%s", k, reservedDelimiter, v)
values := s.labelPairToFingerprints[signature]
set := utility.Set{}
for _, fingerprint := range values {
set.Add(fingerprint)
}
sets = append(sets, set)
}
setCount := len(sets)
if setCount == 0 {
return
}
base := sets[0]
for i := 1; i < setCount; i++ {
base = base.Intersection(sets[i])
}
for _, e := range base.Elements() {
fingerprint := e.(model.Fingerprint)
fingerprints = append(fingerprints, fingerprint)
}
return
}
func (s memorySeriesStorage) GetFingerprintsForLabelName(l model.LabelName) (fingerprints model.Fingerprints, err error) {
values := s.labelNameToFingerprints[l]
fingerprints = append(fingerprints, values...)
return
}
func (s memorySeriesStorage) GetMetricForFingerprint(f model.Fingerprint) (metric *model.Metric, err error) {
series, ok := s.fingerprintToSeries[f]
if !ok {
return
}
metric = &series.metric
return
}
// XXX: Terrible wart.
func interpolateSample(x1, x2 time.Time, y1, y2 float32, e time.Time) model.SampleValue {
yDelta := y2 - y1
xDelta := x2.Sub(x1)
dDt := yDelta / float32(xDelta)
offset := float32(e.Sub(x1))
return model.SampleValue(y1 + (offset * dDt))
}
func (s memorySeriesStorage) GetValueAtTime(fp model.Fingerprint, t time.Time, p StalenessPolicy) (sample *model.Sample, err error) {
series, ok := s.fingerprintToSeries[fp]
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if !ok {
return
}
iterator := series.values.Seek(skipListTime(t))
if iterator == nil {
return
}
foundTime := time.Time(iterator.Key().(skipListTime))
if foundTime.Equal(t) {
value := iterator.Value().(value)
sample = &model.Sample{
Metric: series.metric,
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Value: value.get(),
Timestamp: t,
}
return
}
if t.Sub(foundTime) > p.DeltaAllowance {
return
}
secondTime := foundTime
secondValue := iterator.Value().(value).get()
if !iterator.Previous() {
sample = &model.Sample{
Metric: series.metric,
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Value: iterator.Value().(value).get(),
Timestamp: t,
}
return
}
firstTime := time.Time(iterator.Key().(skipListTime))
if t.Sub(firstTime) > p.DeltaAllowance {
return
}
if firstTime.Sub(secondTime) > p.DeltaAllowance {
return
}
firstValue := iterator.Value().(value).get()
sample = &model.Sample{
Metric: series.metric,
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Value: interpolateSample(firstTime, secondTime, float32(firstValue), float32(secondValue), t),
Timestamp: t,
}
return
}
func (s memorySeriesStorage) GetBoundaryValues(fp model.Fingerprint, i model.Interval, p StalenessPolicy) (first *model.Sample, second *model.Sample, err error) {
first, err = s.GetValueAtTime(fp, i.OldestInclusive, p)
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if err != nil {
return
} else if first == nil {
return
}
second, err = s.GetValueAtTime(fp, i.NewestInclusive, p)
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if err != nil {
return
} else if second == nil {
first = nil
}
return
}
func (s memorySeriesStorage) GetRangeValues(fp model.Fingerprint, i model.Interval) (samples *model.SampleSet, err error) {
series, ok := s.fingerprintToSeries[fp]
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if !ok {
return
}
samples = &model.SampleSet{
Metric: series.metric,
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}
iterator := series.values.Seek(skipListTime(i.NewestInclusive))
if iterator == nil {
return
}
for {
timestamp := time.Time(iterator.Key().(skipListTime))
if timestamp.Before(i.OldestInclusive) {
break
}
samples.Values = append(samples.Values,
model.SamplePair{
Value: iterator.Value().(value).get(),
Timestamp: timestamp,
})
if !iterator.Next() {
break
}
}
// XXX: We should not explicitly sort here but rather rely on the datastore.
// This adds appreciable overhead.
if samples != nil {
sort.Sort(samples.Values)
}
return
}
func (s memorySeriesStorage) Close() {
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// This can probably be simplified:
//
// s.fingerPrintToSeries = map[model.Fingerprint]*stream{}
// s.labelPairToFingerprints = map[string]model.Fingerprints{}
// s.labelNameToFingerprints = map[model.LabelName]model.Fingerprints{}
for fingerprint := range s.fingerprintToSeries {
delete(s.fingerprintToSeries, fingerprint)
}
for labelPair := range s.labelPairToFingerprints {
delete(s.labelPairToFingerprints, labelPair)
}
for labelName := range s.labelNameToFingerprints {
delete(s.labelNameToFingerprints, labelName)
}
}
func (s memorySeriesStorage) GetAllValuesForLabel(labelName model.LabelName) (values model.LabelValues, err error) {
valueSet := map[model.LabelValue]bool{}
for _, series := range s.fingerprintToSeries {
if value, ok := series.metric[labelName]; ok {
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if !valueSet[value] {
values = append(values, value)
valueSet[value] = true
}
}
}
return
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}
func (s memorySeriesStorage) ForEachSample(builder IteratorsForFingerprintBuilder) (err error) {
for _, stream := range s.fingerprintToSeries {
decoder, filter, operator := builder.ForStream(stream)
stream.forEach(decoder, filter, operator)
}
return
}
func NewMemorySeriesStorage() memorySeriesStorage {
return memorySeriesStorage{
fingerprintToSeries: make(map[model.Fingerprint]stream),
labelPairToFingerprints: make(map[string]model.Fingerprints),
labelNameToFingerprints: make(map[model.LabelName]model.Fingerprints),
}
}