prometheus/storage/metric/leveldb/reading.go

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// Copyright 2012 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 leveldb
import (
"code.google.com/p/goprotobuf/proto"
registry "github.com/matttproud/golang_instrumentation"
"github.com/matttproud/golang_instrumentation/metrics"
"github.com/matttproud/prometheus/coding"
"github.com/matttproud/prometheus/coding/indexable"
"github.com/matttproud/prometheus/model"
dto "github.com/matttproud/prometheus/model/generated"
"github.com/matttproud/prometheus/storage/metric"
"time"
)
var (
getLabelNameFingerprintsSuccessCount = &metrics.CounterMetric{}
getLabelNameFingerprintsFailureCount = &metrics.CounterMetric{}
getFingerprintsForLabelSetSuccessCount = &metrics.CounterMetric{}
getFingerprintsForLabelSetFailureCount = &metrics.CounterMetric{}
getFingerprintsForLabelNameSuccessCount = &metrics.CounterMetric{}
getFingerprintsForLabelNameFailureCount = &metrics.CounterMetric{}
getMetricForFingerprintSuccessCount = &metrics.CounterMetric{}
getMetricForFingerprintFailureCount = &metrics.CounterMetric{}
getBoundaryValuesSuccessCount = &metrics.CounterMetric{}
getBoundaryValuesFailureCount = &metrics.CounterMetric{}
)
func init() {
registry.Register("get_label_name_fingerprints_success_count_total", getLabelNameFingerprintsSuccessCount)
registry.Register("get_label_name_fingerprints_failure_count_total", getLabelNameFingerprintsFailureCount)
registry.Register("get_fingerprints_for_label_set_success_count_total", getFingerprintsForLabelSetSuccessCount)
registry.Register("get_fingerprints_for_label_set_failure_count_total", getFingerprintsForLabelSetFailureCount)
registry.Register("get_fingerprints_for_label_name_success_count_total", getFingerprintsForLabelNameSuccessCount)
registry.Register("get_fingerprints_for_label_name_failure_count_total", getFingerprintsForLabelNameFailureCount)
registry.Register("get_metric_for_fingerprint_success_count_total", getMetricForFingerprintSuccessCount)
registry.Register("get_metric_for_fingerprint_failure_count_total", getMetricForFingerprintFailureCount)
registry.Register("get_boundary_values_success_count_total", getBoundaryValuesSuccessCount)
registry.Register("get_boundary_values_failure_count_total", getBoundaryValuesFailureCount)
}
func extractSampleKey(i iterator) (k *dto.SampleKey, err error) {
k = &dto.SampleKey{}
err = proto.Unmarshal(i.Key(), k)
return
}
func extractSampleValue(i iterator) (v *dto.SampleValue, err error) {
v = &dto.SampleValue{}
err = proto.Unmarshal(i.Value(), v)
return
}
func fingerprintsEqual(l *dto.Fingerprint, r *dto.Fingerprint) bool {
if l == r {
return true
}
if l == nil && r == nil {
return true
}
if r.Signature == l.Signature {
return true
}
if *r.Signature == *l.Signature {
return true
}
return false
}
type sampleKeyPredicate func(k *dto.SampleKey) bool
func keyIsOlderThan(t time.Time) sampleKeyPredicate {
unix := t.Unix()
return func(k *dto.SampleKey) bool {
return indexable.DecodeTime(k.Timestamp).Unix() > unix
}
}
func keyIsAtMostOld(t time.Time) sampleKeyPredicate {
unix := t.Unix()
return func(k *dto.SampleKey) bool {
return indexable.DecodeTime(k.Timestamp).Unix() <= unix
}
}
func (l *LevelDBMetricPersistence) hasIndexMetric(dto *dto.Metric) (bool, error) {
dtoKey := coding.NewProtocolBufferEncoder(dto)
return l.metricMembershipIndex.Has(dtoKey)
}
func (l *LevelDBMetricPersistence) indexMetric(dto *dto.Metric) error {
dtoKey := coding.NewProtocolBufferEncoder(dto)
return l.metricMembershipIndex.Put(dtoKey)
}
func (l *LevelDBMetricPersistence) HasLabelPair(dto *dto.LabelPair) (bool, error) {
dtoKey := coding.NewProtocolBufferEncoder(dto)
return l.labelSetToFingerprints.Has(dtoKey)
}
func (l *LevelDBMetricPersistence) HasLabelName(dto *dto.LabelName) (bool, error) {
dtoKey := coding.NewProtocolBufferEncoder(dto)
return l.labelNameToFingerprints.Has(dtoKey)
}
func (l *LevelDBMetricPersistence) getFingerprintsForLabelSet(p *dto.LabelPair) (c *dto.FingerprintCollection, err error) {
dtoKey := coding.NewProtocolBufferEncoder(p)
get, err := l.labelSetToFingerprints.Get(dtoKey)
if err != nil {
return
}
c = &dto.FingerprintCollection{}
err = proto.Unmarshal(get, c)
return
}
// XXX: Delete me and replace with GetFingerprintsForLabelName.
func (l *LevelDBMetricPersistence) GetLabelNameFingerprints(n *dto.LabelName) (c *dto.FingerprintCollection, err error) {
defer func() {
m := getLabelNameFingerprintsSuccessCount
if err != nil {
m = getLabelNameFingerprintsFailureCount
}
m.Increment()
}()
dtoKey := coding.NewProtocolBufferEncoder(n)
get, err := l.labelNameToFingerprints.Get(dtoKey)
if err != nil {
return
}
c = &dto.FingerprintCollection{}
err = proto.Unmarshal(get, c)
return
}
func (l *LevelDBMetricPersistence) GetFingerprintsForLabelSet(labelSet *model.LabelSet) (fps []*model.Fingerprint, err error) {
defer func() {
m := getFingerprintsForLabelSetSuccessCount
if err != nil {
m = getFingerprintsForLabelSetFailureCount
}
m.Increment()
}()
fps = make([]*model.Fingerprint, 0, 0)
for _, labelSetDTO := range model.LabelSetToDTOs(labelSet) {
f, err := l.labelSetToFingerprints.Get(coding.NewProtocolBufferEncoder(labelSetDTO))
if err != nil {
return fps, err
}
unmarshaled := &dto.FingerprintCollection{}
err = proto.Unmarshal(f, unmarshaled)
if err != nil {
return fps, err
}
for _, m := range unmarshaled.Member {
fp := model.Fingerprint(*m.Signature)
fps = append(fps, &fp)
}
}
return
}
func (l *LevelDBMetricPersistence) GetFingerprintsForLabelName(labelName *model.LabelName) (fps []*model.Fingerprint, err error) {
defer func() {
m := getFingerprintsForLabelNameSuccessCount
if err != nil {
m = getFingerprintsForLabelNameFailureCount
}
m.Increment()
}()
fps = make([]*model.Fingerprint, 0, 0)
raw, err := l.labelNameToFingerprints.Get(coding.NewProtocolBufferEncoder(model.LabelNameToDTO(labelName)))
if err != nil {
return
}
unmarshaled := &dto.FingerprintCollection{}
err = proto.Unmarshal(raw, unmarshaled)
if err != nil {
return
}
for _, m := range unmarshaled.Member {
fp := model.Fingerprint(*m.Signature)
fps = append(fps, &fp)
}
return
}
func (l *LevelDBMetricPersistence) GetMetricForFingerprint(f *model.Fingerprint) (m *model.Metric, err error) {
defer func() {
m := getMetricForFingerprintSuccessCount
if err != nil {
m = getMetricForFingerprintFailureCount
}
m.Increment()
}()
raw, err := l.fingerprintToMetrics.Get(coding.NewProtocolBufferEncoder(model.FingerprintToDTO(f)))
if err != nil {
return
}
unmarshaled := &dto.Metric{}
err = proto.Unmarshal(raw, unmarshaled)
if err != nil {
return
}
m = &model.Metric{}
for _, v := range unmarshaled.LabelPair {
(*m)[model.LabelName(*v.Name)] = model.LabelValue(*v.Value)
}
return
}
func (l *LevelDBMetricPersistence) GetBoundaryValues(m *model.Metric, i *model.Interval, s *metric.StalenessPolicy) (open *model.Sample, end *model.Sample, err error) {
defer func() {
m := getBoundaryValuesSuccessCount
if err != nil {
m = getBoundaryValuesFailureCount
}
m.Increment()
}()
// XXX: Maybe we will want to emit incomplete sets?
open, err = l.GetValueAtTime(m, &i.OldestInclusive, s)
if err != nil {
return
} else if open == nil {
return
}
end, err = l.GetValueAtTime(m, &i.NewestInclusive, s)
if err != nil {
return
} else if end == nil {
open = nil
}
return
}
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func interpolate(x1, x2 time.Time, y1, y2 float32, e time.Time) float32 {
yDelta := y2 - y1
xDelta := x2.Sub(x1)
dDt := yDelta / float32(xDelta)
offset := float32(e.Sub(x1))
return y1 + (offset * dDt)
}
type iterator interface {
Close()
Key() []byte
Next()
Prev()
Seek([]byte)
SeekToFirst()
SeekToLast()
Valid() bool
Value() []byte
}
func (l *LevelDBMetricPersistence) GetValueAtTime(m *model.Metric, t *time.Time, s *metric.StalenessPolicy) (sample *model.Sample, err error) {
d := model.MetricToDTO(m)
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f, err := model.MessageToFingerprintDTO(d)
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if err != nil {
return
}
// Candidate for Refactoring
k := &dto.SampleKey{
Fingerprint: f,
Timestamp: indexable.EncodeTime(*t),
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}
e, err := coding.NewProtocolBufferEncoder(k).Encode()
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if err != nil {
return
}
iterator, closer, err := l.metricSamples.GetIterator()
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if err != nil {
return
}
defer closer.Close()
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iterator.Seek(e)
if !iterator.Valid() {
/*
* Two cases for this:
* 1.) Corruption in LevelDB.
* 2.) Key seek after AND outside known range.
*
* Once a LevelDB iterator goes invalid, it cannot be recovered; thusly,
* we need to create a new in order to check if the last value in the
* database is sufficient for our purposes. This is, in all reality, a
* corner case but one that could bring down the system.
*/
iterator, closer, err = l.metricSamples.GetIterator()
if err != nil {
return
}
defer closer.Close()
iterator.SeekToLast()
if !iterator.Valid() {
/*
* For whatever reason, the LevelDB cannot be recovered.
*/
return
}
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}
var (
firstKey *dto.SampleKey
firstValue *dto.SampleValue
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)
firstKey, err = extractSampleKey(iterator)
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if err != nil {
return
}
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peekAhead := false
if !fingerprintsEqual(firstKey.Fingerprint, k.Fingerprint) {
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/*
* This allows us to grab values for metrics if our request time is after
* the last recorded time subject to the staleness policy due to the nuances
* of LevelDB storage:
*
* # Assumptions:
* - K0 < K1 in terms of sorting.
* - T0 < T1 in terms of sorting.
*
* # Data
*
* K0-T0
* K0-T1
* K0-T2
* K1-T0
* K1-T1
*
* # Scenario
* K0-T3, which does not exist, is requested. LevelDB will thusly seek to
* K1-T1, when K0-T2 exists as a perfectly good candidate to check subject
* to the provided staleness policy and such.
*/
peekAhead = true
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}
firstTime := indexable.DecodeTime(firstKey.Timestamp)
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if t.Before(firstTime) || peekAhead {
iterator.Prev()
if !iterator.Valid() {
/*
* Two cases for this:
* 1.) Corruption in LevelDB.
* 2.) Key seek before AND outside known range.
*
* This is an explicit validation to ensure that if no previous values for
* the series are found, the query aborts.
*/
return
}
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var (
alternativeKey *dto.SampleKey
alternativeValue *dto.SampleValue
)
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alternativeKey, err = extractSampleKey(iterator)
if err != nil {
return
}
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if !fingerprintsEqual(alternativeKey.Fingerprint, k.Fingerprint) {
return
}
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/*
* At this point, we found a previous value in the same series in the
* database. LevelDB originally seeked to the subsequent element given
* the key, but we need to consider this adjacency instead.
*/
alternativeTime := indexable.DecodeTime(alternativeKey.Timestamp)
firstKey = alternativeKey
firstValue = alternativeValue
firstTime = alternativeTime
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}
firstDelta := firstTime.Sub(*t)
if firstDelta < 0 {
firstDelta *= -1
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}
if firstDelta > s.DeltaAllowance {
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return
}
firstValue, err = extractSampleValue(iterator)
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if err != nil {
return
}
sample = model.SampleFromDTO(m, t, firstValue)
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if firstDelta == time.Duration(0) {
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return
}
iterator.Next()
if !iterator.Valid() {
/*
* Two cases for this:
* 1.) Corruption in LevelDB.
* 2.) Key seek after AND outside known range.
*
* This means that there are no more values left in the storage; and if this
* point is reached, we know that the one that has been found is within the
* allowed staleness limits.
*/
return
}
var secondKey *dto.SampleKey
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secondKey, err = extractSampleKey(iterator)
if err != nil {
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return
}
if !fingerprintsEqual(secondKey.Fingerprint, k.Fingerprint) {
return
} else {
/*
* At this point, current entry in the database has the same key as the
* previous. For this reason, the validation logic will expect that the
* distance between the two points shall not exceed the staleness policy
* allowed limit to reduce interpolation errors.
*
* For this reason, the sample is reset in case of other subsequent
* validation behaviors.
*/
sample = nil
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}
secondTime := indexable.DecodeTime(secondKey.Timestamp)
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totalDelta := secondTime.Sub(firstTime)
if totalDelta > s.DeltaAllowance {
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return
}
var secondValue *dto.SampleValue
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secondValue, err = extractSampleValue(iterator)
if err != nil {
return
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}
interpolated := interpolate(firstTime, secondTime, *firstValue.Value, *secondValue.Value, *t)
sampleValue := &dto.SampleValue{
Value: &interpolated,
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}
sample = model.SampleFromDTO(m, t, sampleValue)
return
}
func (l *LevelDBMetricPersistence) GetRangeValues(m *model.Metric, i *model.Interval, s *metric.StalenessPolicy) (v *model.SampleSet, err error) {
d := model.MetricToDTO(m)
f, err := model.MessageToFingerprintDTO(d)
if err != nil {
return
}
k := &dto.SampleKey{
Fingerprint: f,
Timestamp: indexable.EncodeTime(i.OldestInclusive),
}
e, err := coding.NewProtocolBufferEncoder(k).Encode()
if err != nil {
return
}
iterator, closer, err := l.metricSamples.GetIterator()
if err != nil {
return
}
defer closer.Close()
iterator.Seek(e)
predicate := keyIsOlderThan(i.NewestInclusive)
for ; iterator.Valid(); iterator.Next() {
retrievedKey := &dto.SampleKey{}
retrievedKey, err = extractSampleKey(iterator)
if err != nil {
return
}
if predicate(retrievedKey) {
break
}
if !fingerprintsEqual(retrievedKey.Fingerprint, k.Fingerprint) {
break
}
retrievedValue, err := extractSampleValue(iterator)
if err != nil {
return nil, err
}
if v == nil {
v = &model.SampleSet{}
}
v.Values = append(v.Values, model.SamplePair{
Value: model.SampleValue(*retrievedValue.Value),
Timestamp: indexable.DecodeTime(retrievedKey.Timestamp),
})
}
return
}