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c9d4526428
There were some more accidentally published methods of the memorySeries type which I didn't notice when reviewing https://github.com/prometheus/prometheus/pull/2011
732 lines
24 KiB
Go
732 lines
24 KiB
Go
// Copyright 2014 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package local
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import (
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"sort"
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"sync"
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"time"
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"github.com/prometheus/common/model"
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"github.com/prometheus/prometheus/storage/local/chunk"
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"github.com/prometheus/prometheus/storage/metric"
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)
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const (
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// chunkDescEvictionFactor is a factor used for chunk.Desc eviction (as opposed
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// to evictions of chunks, see method evictOlderThan. A chunk takes about 20x
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// more memory than a chunk.Desc. With a chunkDescEvictionFactor of 10, not more
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// than a third of the total memory taken by a series will be used for
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// chunkDescs.
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chunkDescEvictionFactor = 10
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headChunkTimeout = time.Hour // Close head chunk if not touched for that long.
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)
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// fingerprintSeriesPair pairs a fingerprint with a memorySeries pointer.
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type fingerprintSeriesPair struct {
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fp model.Fingerprint
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series *memorySeries
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}
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// seriesMap maps fingerprints to memory series. All its methods are
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// goroutine-safe. A SeriesMap is effectively is a goroutine-safe version of
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// map[model.Fingerprint]*memorySeries.
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type seriesMap struct {
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mtx sync.RWMutex
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m map[model.Fingerprint]*memorySeries
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}
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// newSeriesMap returns a newly allocated empty seriesMap. To create a seriesMap
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// based on a prefilled map, use an explicit initializer.
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func newSeriesMap() *seriesMap {
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return &seriesMap{m: make(map[model.Fingerprint]*memorySeries)}
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}
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// length returns the number of mappings in the seriesMap.
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func (sm *seriesMap) length() int {
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sm.mtx.RLock()
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defer sm.mtx.RUnlock()
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return len(sm.m)
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}
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// get returns a memorySeries for a fingerprint. Return values have the same
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// semantics as the native Go map.
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func (sm *seriesMap) get(fp model.Fingerprint) (s *memorySeries, ok bool) {
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sm.mtx.RLock()
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s, ok = sm.m[fp]
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// Note that the RUnlock is not done via defer for performance reasons.
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// TODO(beorn7): Once https://github.com/golang/go/issues/14939 is
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// fixed, revert to the usual defer idiom.
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sm.mtx.RUnlock()
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return
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}
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// put adds a mapping to the seriesMap. It panics if s == nil.
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func (sm *seriesMap) put(fp model.Fingerprint, s *memorySeries) {
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sm.mtx.Lock()
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defer sm.mtx.Unlock()
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if s == nil {
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panic("tried to add nil pointer to seriesMap")
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}
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sm.m[fp] = s
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}
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// del removes a mapping from the series Map.
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func (sm *seriesMap) del(fp model.Fingerprint) {
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sm.mtx.Lock()
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defer sm.mtx.Unlock()
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delete(sm.m, fp)
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}
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// iter returns a channel that produces all mappings in the seriesMap. The
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// channel will be closed once all fingerprints have been received. Not
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// consuming all fingerprints from the channel will leak a goroutine. The
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// semantics of concurrent modification of seriesMap is the similar as the one
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// for iterating over a map with a 'range' clause. However, if the next element
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// in iteration order is removed after the current element has been received
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// from the channel, it will still be produced by the channel.
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func (sm *seriesMap) iter() <-chan fingerprintSeriesPair {
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ch := make(chan fingerprintSeriesPair)
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go func() {
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sm.mtx.RLock()
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for fp, s := range sm.m {
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sm.mtx.RUnlock()
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ch <- fingerprintSeriesPair{fp, s}
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sm.mtx.RLock()
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}
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sm.mtx.RUnlock()
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close(ch)
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}()
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return ch
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}
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// fpIter returns a channel that produces all fingerprints in the seriesMap. The
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// channel will be closed once all fingerprints have been received. Not
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// consuming all fingerprints from the channel will leak a goroutine. The
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// semantics of concurrent modification of seriesMap is the similar as the one
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// for iterating over a map with a 'range' clause. However, if the next element
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// in iteration order is removed after the current element has been received
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// from the channel, it will still be produced by the channel.
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func (sm *seriesMap) fpIter() <-chan model.Fingerprint {
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ch := make(chan model.Fingerprint)
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go func() {
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sm.mtx.RLock()
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for fp := range sm.m {
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sm.mtx.RUnlock()
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ch <- fp
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sm.mtx.RLock()
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}
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sm.mtx.RUnlock()
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close(ch)
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}()
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return ch
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}
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type memorySeries struct {
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metric model.Metric
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// Sorted by start time, overlapping chunk ranges are forbidden.
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chunkDescs []*chunk.Desc
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// The index (within chunkDescs above) of the first chunk.Desc that
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// points to a non-persisted chunk. If all chunks are persisted, then
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// persistWatermark == len(chunkDescs).
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persistWatermark int
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// The modification time of the series file. The zero value of time.Time
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// is used to mark an unknown modification time.
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modTime time.Time
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// The chunkDescs in memory might not have all the chunkDescs for the
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// chunks that are persisted to disk. The missing chunkDescs are all
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// contiguous and at the tail end. chunkDescsOffset is the index of the
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// chunk on disk that corresponds to the first chunk.Desc in memory. If
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// it is 0, the chunkDescs are all loaded. A value of -1 denotes a
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// special case: There are chunks on disk, but the offset to the
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// chunkDescs in memory is unknown. Also, in this special case, there is
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// no overlap between chunks on disk and chunks in memory (implying that
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// upon first persisting of a chunk in memory, the offset has to be
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// set).
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chunkDescsOffset int
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// The savedFirstTime field is used as a fallback when the
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// chunkDescsOffset is not 0. It can be used to save the FirstTime of the
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// first chunk before its chunk desc is evicted. In doubt, this field is
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// just set to the oldest possible timestamp.
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savedFirstTime model.Time
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// The timestamp of the last sample in this series. Needed for fast
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// access for federation and to ensure timestamp monotonicity during
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// ingestion.
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lastTime model.Time
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// The last ingested sample value. Needed for fast access for
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// federation.
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lastSampleValue model.SampleValue
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// Whether lastSampleValue has been set already.
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lastSampleValueSet bool
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// Whether the current head chunk has already been finished. If true,
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// the current head chunk must not be modified anymore.
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headChunkClosed bool
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// Whether the current head chunk is used by an iterator. In that case,
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// a non-closed head chunk has to be cloned before more samples are
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// appended.
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headChunkUsedByIterator bool
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// Whether the series is inconsistent with the last checkpoint in a way
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// that would require a disk seek during crash recovery.
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dirty bool
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}
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// newMemorySeries returns a pointer to a newly allocated memorySeries for the
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// given metric. chunkDescs and modTime in the new series are set according to
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// the provided parameters. chunkDescs can be nil or empty if this is a
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// genuinely new time series (i.e. not one that is being unarchived). In that
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// case, headChunkClosed is set to false, and firstTime and lastTime are both
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// set to model.Earliest. The zero value for modTime can be used if the
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// modification time of the series file is unknown (e.g. if this is a genuinely
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// new series).
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func newMemorySeries(m model.Metric, chunkDescs []*chunk.Desc, modTime time.Time) (*memorySeries, error) {
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var err error
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firstTime := model.Earliest
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lastTime := model.Earliest
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if len(chunkDescs) > 0 {
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firstTime = chunkDescs[0].FirstTime()
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if lastTime, err = chunkDescs[len(chunkDescs)-1].LastTime(); err != nil {
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return nil, err
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}
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}
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return &memorySeries{
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metric: m,
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chunkDescs: chunkDescs,
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headChunkClosed: len(chunkDescs) > 0,
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savedFirstTime: firstTime,
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lastTime: lastTime,
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persistWatermark: len(chunkDescs),
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modTime: modTime,
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}, nil
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}
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// add adds a sample pair to the series. It returns the number of newly
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// completed chunks (which are now eligible for persistence).
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//
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// The caller must have locked the fingerprint of the series.
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func (s *memorySeries) add(v model.SamplePair) (int, error) {
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if len(s.chunkDescs) == 0 || s.headChunkClosed {
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newHead := chunk.NewDesc(chunk.New(), v.Timestamp)
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s.chunkDescs = append(s.chunkDescs, newHead)
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s.headChunkClosed = false
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} else if s.headChunkUsedByIterator && s.head().RefCount() > 1 {
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// We only need to clone the head chunk if the current head
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// chunk was used in an iterator at all and if the refCount is
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// still greater than the 1 we always have because the head
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// chunk is not yet persisted. The latter is just an
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// approximation. We will still clone unnecessarily if an older
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// iterator using a previous version of the head chunk is still
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// around and keep the head chunk pinned. We needed to track
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// pins by version of the head chunk, which is probably not
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// worth the effort.
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chunk.Ops.WithLabelValues(chunk.Clone).Inc()
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// No locking needed here because a non-persisted head chunk can
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// not get evicted concurrently.
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s.head().C = s.head().C.Clone()
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s.headChunkUsedByIterator = false
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}
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chunks, err := s.head().Add(v)
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if err != nil {
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return 0, err
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}
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s.head().C = chunks[0]
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for _, c := range chunks[1:] {
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s.chunkDescs = append(s.chunkDescs, chunk.NewDesc(c, c.FirstTime()))
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}
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// Populate lastTime of now-closed chunks.
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for _, cd := range s.chunkDescs[len(s.chunkDescs)-len(chunks) : len(s.chunkDescs)-1] {
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cd.MaybePopulateLastTime()
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}
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s.lastTime = v.Timestamp
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s.lastSampleValue = v.Value
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s.lastSampleValueSet = true
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return len(chunks) - 1, nil
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}
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// maybeCloseHeadChunk closes the head chunk if it has not been touched for the
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// duration of headChunkTimeout. It returns whether the head chunk was closed.
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// If the head chunk is already closed, the method is a no-op and returns false.
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//
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// The caller must have locked the fingerprint of the series.
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func (s *memorySeries) maybeCloseHeadChunk() bool {
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if s.headChunkClosed {
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return false
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}
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if time.Now().Sub(s.lastTime.Time()) > headChunkTimeout {
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s.headChunkClosed = true
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// Since we cannot modify the head chunk from now on, we
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// don't need to bother with cloning anymore.
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s.headChunkUsedByIterator = false
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s.head().MaybePopulateLastTime()
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return true
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}
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return false
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}
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// evictChunkDescs evicts chunkDescs if there are chunkDescEvictionFactor times
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// more than non-evicted chunks. iOldestNotEvicted is the index within the
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// current chunkDescs of the oldest chunk that is not evicted.
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func (s *memorySeries) evictChunkDescs(iOldestNotEvicted int) {
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lenToKeep := chunkDescEvictionFactor * (len(s.chunkDescs) - iOldestNotEvicted)
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if lenToKeep < len(s.chunkDescs) {
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s.savedFirstTime = s.firstTime()
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lenEvicted := len(s.chunkDescs) - lenToKeep
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s.chunkDescsOffset += lenEvicted
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s.persistWatermark -= lenEvicted
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chunk.DescOps.WithLabelValues(chunk.Evict).Add(float64(lenEvicted))
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chunk.NumMemDescs.Sub(float64(lenEvicted))
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s.chunkDescs = append(
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make([]*chunk.Desc, 0, lenToKeep),
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s.chunkDescs[lenEvicted:]...,
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)
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s.dirty = true
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}
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}
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// dropChunks removes chunkDescs older than t. The caller must have locked the
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// fingerprint of the series.
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func (s *memorySeries) dropChunks(t model.Time) error {
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keepIdx := len(s.chunkDescs)
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for i, cd := range s.chunkDescs {
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lt, err := cd.LastTime()
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if err != nil {
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return err
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}
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if !lt.Before(t) {
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keepIdx = i
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break
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}
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}
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if keepIdx == len(s.chunkDescs) && !s.headChunkClosed {
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// Never drop an open head chunk.
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keepIdx--
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}
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if keepIdx <= 0 {
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// Nothing to drop.
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return nil
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}
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s.chunkDescs = append(
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make([]*chunk.Desc, 0, len(s.chunkDescs)-keepIdx),
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s.chunkDescs[keepIdx:]...,
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)
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s.persistWatermark -= keepIdx
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if s.persistWatermark < 0 {
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panic("dropped unpersisted chunks from memory")
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}
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if s.chunkDescsOffset != -1 {
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s.chunkDescsOffset += keepIdx
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}
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chunk.NumMemDescs.Sub(float64(keepIdx))
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s.dirty = true
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return nil
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}
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// preloadChunks is an internal helper method.
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func (s *memorySeries) preloadChunks(
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indexes []int, fp model.Fingerprint, mss *MemorySeriesStorage,
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) (SeriesIterator, error) {
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loadIndexes := []int{}
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pinnedChunkDescs := make([]*chunk.Desc, 0, len(indexes))
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for _, idx := range indexes {
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cd := s.chunkDescs[idx]
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pinnedChunkDescs = append(pinnedChunkDescs, cd)
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cd.Pin(mss.evictRequests) // Have to pin everything first to prevent immediate eviction on chunk loading.
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if cd.IsEvicted() {
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loadIndexes = append(loadIndexes, idx)
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}
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}
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chunk.Ops.WithLabelValues(chunk.Pin).Add(float64(len(pinnedChunkDescs)))
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if len(loadIndexes) > 0 {
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if s.chunkDescsOffset == -1 {
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panic("requested loading chunks from persistence in a situation where we must not have persisted data for chunk descriptors in memory")
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}
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chunks, err := mss.loadChunks(fp, loadIndexes, s.chunkDescsOffset)
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if err != nil {
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// Unpin the chunks since we won't return them as pinned chunks now.
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for _, cd := range pinnedChunkDescs {
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cd.Unpin(mss.evictRequests)
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}
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chunk.Ops.WithLabelValues(chunk.Unpin).Add(float64(len(pinnedChunkDescs)))
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return nopIter, err
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}
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for i, c := range chunks {
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s.chunkDescs[loadIndexes[i]].SetChunk(c)
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}
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}
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if !s.headChunkClosed && indexes[len(indexes)-1] == len(s.chunkDescs)-1 {
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s.headChunkUsedByIterator = true
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}
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curriedQuarantineSeries := func(err error) {
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mss.quarantineSeries(fp, s.metric, err)
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}
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iter := &boundedIterator{
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it: s.newIterator(pinnedChunkDescs, curriedQuarantineSeries, mss.evictRequests),
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start: model.Now().Add(-mss.dropAfter),
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}
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return iter, nil
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}
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// newIterator returns a new SeriesIterator for the provided chunkDescs (which
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// must be pinned).
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//
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// The caller must have locked the fingerprint of the memorySeries.
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func (s *memorySeries) newIterator(
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pinnedChunkDescs []*chunk.Desc,
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quarantine func(error),
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evictRequests chan<- chunk.EvictRequest,
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) SeriesIterator {
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chunks := make([]chunk.Chunk, 0, len(pinnedChunkDescs))
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for _, cd := range pinnedChunkDescs {
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// It's OK to directly access cd.c here (without locking) as the
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// series FP is locked and the chunk is pinned.
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chunks = append(chunks, cd.C)
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}
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return &memorySeriesIterator{
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chunks: chunks,
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chunkIts: make([]chunk.Iterator, len(chunks)),
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quarantine: quarantine,
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metric: s.metric,
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pinnedChunkDescs: pinnedChunkDescs,
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evictRequests: evictRequests,
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}
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}
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// preloadChunksForInstant preloads chunks for the latest value in the given
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// range. If the last sample saved in the memorySeries itself is the latest
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// value in the given range, it will in fact preload zero chunks and just take
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// that value.
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func (s *memorySeries) preloadChunksForInstant(
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fp model.Fingerprint,
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from model.Time, through model.Time,
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mss *MemorySeriesStorage,
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) (SeriesIterator, error) {
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// If we have a lastSamplePair in the series, and thas last samplePair
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// is in the interval, just take it in a singleSampleSeriesIterator. No
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// need to pin or load anything.
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lastSample := s.lastSamplePair()
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if !through.Before(lastSample.Timestamp) &&
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!from.After(lastSample.Timestamp) &&
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lastSample != model.ZeroSamplePair {
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iter := &boundedIterator{
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it: &singleSampleSeriesIterator{
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samplePair: lastSample,
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metric: s.metric,
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},
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start: model.Now().Add(-mss.dropAfter),
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}
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return iter, nil
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}
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// If we are here, we are out of luck and have to delegate to the more
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// expensive method.
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return s.preloadChunksForRange(fp, from, through, mss)
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}
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// preloadChunksForRange loads chunks for the given range from the persistence.
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// The caller must have locked the fingerprint of the series.
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func (s *memorySeries) preloadChunksForRange(
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fp model.Fingerprint,
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from model.Time, through model.Time,
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mss *MemorySeriesStorage,
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) (SeriesIterator, error) {
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firstChunkDescTime := model.Latest
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if len(s.chunkDescs) > 0 {
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firstChunkDescTime = s.chunkDescs[0].FirstTime()
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}
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if s.chunkDescsOffset != 0 && from.Before(firstChunkDescTime) {
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cds, err := mss.loadChunkDescs(fp, s.persistWatermark)
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if err != nil {
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return nopIter, err
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}
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s.chunkDescs = append(cds, s.chunkDescs...)
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s.chunkDescsOffset = 0
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s.persistWatermark += len(cds)
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firstChunkDescTime = s.chunkDescs[0].FirstTime()
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}
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if len(s.chunkDescs) == 0 || through.Before(firstChunkDescTime) {
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return nopIter, nil
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}
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// Find first chunk with start time after "from".
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fromIdx := sort.Search(len(s.chunkDescs), func(i int) bool {
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return s.chunkDescs[i].FirstTime().After(from)
|
|
})
|
|
// Find first chunk with start time after "through".
|
|
throughIdx := sort.Search(len(s.chunkDescs), func(i int) bool {
|
|
return s.chunkDescs[i].FirstTime().After(through)
|
|
})
|
|
if fromIdx == len(s.chunkDescs) {
|
|
// Even the last chunk starts before "from". Find out if the
|
|
// series ends before "from" and we don't need to do anything.
|
|
lt, err := s.chunkDescs[len(s.chunkDescs)-1].LastTime()
|
|
if err != nil {
|
|
return nopIter, err
|
|
}
|
|
if lt.Before(from) {
|
|
return nopIter, nil
|
|
}
|
|
}
|
|
if fromIdx > 0 {
|
|
fromIdx--
|
|
}
|
|
if throughIdx == len(s.chunkDescs) {
|
|
throughIdx--
|
|
}
|
|
|
|
pinIndexes := make([]int, 0, throughIdx-fromIdx+1)
|
|
for i := fromIdx; i <= throughIdx; i++ {
|
|
pinIndexes = append(pinIndexes, i)
|
|
}
|
|
return s.preloadChunks(pinIndexes, fp, mss)
|
|
}
|
|
|
|
// head returns a pointer to the head chunk descriptor. The caller must have
|
|
// locked the fingerprint of the memorySeries. This method will panic if this
|
|
// series has no chunk descriptors.
|
|
func (s *memorySeries) head() *chunk.Desc {
|
|
return s.chunkDescs[len(s.chunkDescs)-1]
|
|
}
|
|
|
|
// firstTime returns the timestamp of the first sample in the series.
|
|
//
|
|
// The caller must have locked the fingerprint of the memorySeries.
|
|
func (s *memorySeries) firstTime() model.Time {
|
|
if s.chunkDescsOffset == 0 && len(s.chunkDescs) > 0 {
|
|
return s.chunkDescs[0].FirstTime()
|
|
}
|
|
return s.savedFirstTime
|
|
}
|
|
|
|
// lastSamplePair returns the last ingested SamplePair. It returns
|
|
// model.ZeroSamplePair if this memorySeries has never received a sample (via the add
|
|
// method), which is the case for freshly unarchived series or newly created
|
|
// ones and also for all series after a server restart. However, in that case,
|
|
// series will most likely be considered stale anyway.
|
|
//
|
|
// The caller must have locked the fingerprint of the memorySeries.
|
|
func (s *memorySeries) lastSamplePair() model.SamplePair {
|
|
if !s.lastSampleValueSet {
|
|
return model.ZeroSamplePair
|
|
}
|
|
return model.SamplePair{
|
|
Timestamp: s.lastTime,
|
|
Value: s.lastSampleValue,
|
|
}
|
|
}
|
|
|
|
// chunksToPersist returns a slice of chunkDescs eligible for persistence. It's
|
|
// the caller's responsibility to actually persist the returned chunks
|
|
// afterwards. The method sets the persistWatermark and the dirty flag
|
|
// accordingly.
|
|
//
|
|
// The caller must have locked the fingerprint of the series.
|
|
func (s *memorySeries) chunksToPersist() []*chunk.Desc {
|
|
newWatermark := len(s.chunkDescs)
|
|
if !s.headChunkClosed {
|
|
newWatermark--
|
|
}
|
|
if newWatermark == s.persistWatermark {
|
|
return nil
|
|
}
|
|
cds := s.chunkDescs[s.persistWatermark:newWatermark]
|
|
s.dirty = true
|
|
s.persistWatermark = newWatermark
|
|
return cds
|
|
}
|
|
|
|
// memorySeriesIterator implements SeriesIterator.
|
|
type memorySeriesIterator struct {
|
|
// Last chunk.Iterator used by ValueAtOrBeforeTime.
|
|
chunkIt chunk.Iterator
|
|
// Caches chunkIterators.
|
|
chunkIts []chunk.Iterator
|
|
// The actual sample chunks.
|
|
chunks []chunk.Chunk
|
|
// Call to quarantine the series this iterator belongs to.
|
|
quarantine func(error)
|
|
// The metric corresponding to the iterator.
|
|
metric model.Metric
|
|
// Chunks that were pinned for this iterator.
|
|
pinnedChunkDescs []*chunk.Desc
|
|
// Where to send evict requests when unpinning pinned chunks.
|
|
evictRequests chan<- chunk.EvictRequest
|
|
}
|
|
|
|
// ValueAtOrBeforeTime implements SeriesIterator.
|
|
func (it *memorySeriesIterator) ValueAtOrBeforeTime(t model.Time) model.SamplePair {
|
|
// The most common case. We are iterating through a chunk.
|
|
if it.chunkIt != nil {
|
|
containsT, err := it.chunkIt.Contains(t)
|
|
if err != nil {
|
|
it.quarantine(err)
|
|
return model.ZeroSamplePair
|
|
}
|
|
if containsT {
|
|
if it.chunkIt.FindAtOrBefore(t) {
|
|
return it.chunkIt.Value()
|
|
}
|
|
if it.chunkIt.Err() != nil {
|
|
it.quarantine(it.chunkIt.Err())
|
|
}
|
|
return model.ZeroSamplePair
|
|
}
|
|
}
|
|
|
|
if len(it.chunks) == 0 {
|
|
return model.ZeroSamplePair
|
|
}
|
|
|
|
// Find the last chunk where FirstTime() is before or equal to t.
|
|
l := len(it.chunks) - 1
|
|
i := sort.Search(len(it.chunks), func(i int) bool {
|
|
return !it.chunks[l-i].FirstTime().After(t)
|
|
})
|
|
if i == len(it.chunks) {
|
|
// Even the first chunk starts after t.
|
|
return model.ZeroSamplePair
|
|
}
|
|
it.chunkIt = it.chunkIterator(l - i)
|
|
if it.chunkIt.FindAtOrBefore(t) {
|
|
return it.chunkIt.Value()
|
|
}
|
|
if it.chunkIt.Err() != nil {
|
|
it.quarantine(it.chunkIt.Err())
|
|
}
|
|
return model.ZeroSamplePair
|
|
}
|
|
|
|
// RangeValues implements SeriesIterator.
|
|
func (it *memorySeriesIterator) RangeValues(in metric.Interval) []model.SamplePair {
|
|
// Find the first chunk for which the first sample is within the interval.
|
|
i := sort.Search(len(it.chunks), func(i int) bool {
|
|
return !it.chunks[i].FirstTime().Before(in.OldestInclusive)
|
|
})
|
|
// Only now check the last timestamp of the previous chunk (which is
|
|
// fairly expensive).
|
|
if i > 0 {
|
|
lt, err := it.chunkIterator(i - 1).LastTimestamp()
|
|
if err != nil {
|
|
it.quarantine(err)
|
|
return nil
|
|
}
|
|
if !lt.Before(in.OldestInclusive) {
|
|
i--
|
|
}
|
|
}
|
|
|
|
values := []model.SamplePair{}
|
|
for j, c := range it.chunks[i:] {
|
|
if c.FirstTime().After(in.NewestInclusive) {
|
|
break
|
|
}
|
|
chValues, err := chunk.RangeValues(it.chunkIterator(i+j), in)
|
|
if err != nil {
|
|
it.quarantine(err)
|
|
return nil
|
|
}
|
|
values = append(values, chValues...)
|
|
}
|
|
return values
|
|
}
|
|
|
|
func (it *memorySeriesIterator) Metric() metric.Metric {
|
|
return metric.Metric{Metric: it.metric}
|
|
}
|
|
|
|
// chunkIterator returns the chunk.Iterator for the chunk at position i (and
|
|
// creates it if needed).
|
|
func (it *memorySeriesIterator) chunkIterator(i int) chunk.Iterator {
|
|
chunkIt := it.chunkIts[i]
|
|
if chunkIt == nil {
|
|
chunkIt = it.chunks[i].NewIterator()
|
|
it.chunkIts[i] = chunkIt
|
|
}
|
|
return chunkIt
|
|
}
|
|
|
|
func (it *memorySeriesIterator) Close() {
|
|
for _, cd := range it.pinnedChunkDescs {
|
|
cd.Unpin(it.evictRequests)
|
|
}
|
|
chunk.Ops.WithLabelValues(chunk.Unpin).Add(float64(len(it.pinnedChunkDescs)))
|
|
}
|
|
|
|
// singleSampleSeriesIterator implements Series Iterator. It is a "shortcut
|
|
// iterator" that returns a single sample only. The sample is saved in the
|
|
// iterator itself, so no chunks need to be pinned.
|
|
type singleSampleSeriesIterator struct {
|
|
samplePair model.SamplePair
|
|
metric model.Metric
|
|
}
|
|
|
|
// ValueAtTime implements SeriesIterator.
|
|
func (it *singleSampleSeriesIterator) ValueAtOrBeforeTime(t model.Time) model.SamplePair {
|
|
if it.samplePair.Timestamp.After(t) {
|
|
return model.ZeroSamplePair
|
|
}
|
|
return it.samplePair
|
|
}
|
|
|
|
// RangeValues implements SeriesIterator.
|
|
func (it *singleSampleSeriesIterator) RangeValues(in metric.Interval) []model.SamplePair {
|
|
if it.samplePair.Timestamp.After(in.NewestInclusive) ||
|
|
it.samplePair.Timestamp.Before(in.OldestInclusive) {
|
|
return []model.SamplePair{}
|
|
}
|
|
return []model.SamplePair{it.samplePair}
|
|
}
|
|
|
|
func (it *singleSampleSeriesIterator) Metric() metric.Metric {
|
|
return metric.Metric{Metric: it.metric}
|
|
}
|
|
|
|
// Close implements SeriesIterator.
|
|
func (it *singleSampleSeriesIterator) Close() {}
|
|
|
|
// nopSeriesIterator implements Series Iterator. It never returns any values.
|
|
type nopSeriesIterator struct{}
|
|
|
|
// ValueAtTime implements SeriesIterator.
|
|
func (i nopSeriesIterator) ValueAtOrBeforeTime(t model.Time) model.SamplePair {
|
|
return model.ZeroSamplePair
|
|
}
|
|
|
|
// RangeValues implements SeriesIterator.
|
|
func (i nopSeriesIterator) RangeValues(in metric.Interval) []model.SamplePair {
|
|
return []model.SamplePair{}
|
|
}
|
|
|
|
// Metric implements SeriesIterator.
|
|
func (i nopSeriesIterator) Metric() metric.Metric {
|
|
return metric.Metric{}
|
|
}
|
|
|
|
// Close implements SeriesIterator.
|
|
func (i nopSeriesIterator) Close() {}
|
|
|
|
var nopIter nopSeriesIterator // A nopSeriesIterator for convenience. Can be shared.
|