mirror of
https://github.com/prometheus/prometheus.git
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cde42f30e9
`getOOOSeriesChunks` was already finding sets of overlapping chunks; we store those in a `multiMeta` struct so that `ChunkOrIterable` can reconstruct an `Iterable` easily and predictably. We no longer need a `MergeOOO` flag to indicate that this Meta should be merged with other ones; this is explicit in the `multiMeta` structure. We also no longer need `chunkMetaAndChunkDiskMapperRef`. Add `wrapOOOHeadChunk` to defeat `chunkenc.Pool` - chunks are reset during compaction, but if we wrap them (like `safeHeadChunk` was doing then this is skipped) . Signed-off-by: Bryan Boreham <bjboreham@gmail.com>
622 lines
19 KiB
Go
622 lines
19 KiB
Go
// Copyright 2021 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 tsdb
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import (
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"context"
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"errors"
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"fmt"
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"math"
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"slices"
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"sync"
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"github.com/go-kit/log/level"
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"github.com/prometheus/prometheus/model/labels"
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"github.com/prometheus/prometheus/storage"
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"github.com/prometheus/prometheus/tsdb/chunkenc"
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"github.com/prometheus/prometheus/tsdb/chunks"
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"github.com/prometheus/prometheus/tsdb/index"
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)
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func (h *Head) ExemplarQuerier(ctx context.Context) (storage.ExemplarQuerier, error) {
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return h.exemplars.ExemplarQuerier(ctx)
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}
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// Index returns an IndexReader against the block.
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func (h *Head) Index() (IndexReader, error) {
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return h.indexRange(math.MinInt64, math.MaxInt64), nil
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}
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func (h *Head) indexRange(mint, maxt int64) *headIndexReader {
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if hmin := h.MinTime(); hmin > mint {
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mint = hmin
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}
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return &headIndexReader{head: h, mint: mint, maxt: maxt}
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}
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type headIndexReader struct {
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head *Head
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mint, maxt int64
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}
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func (h *headIndexReader) Close() error {
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return nil
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}
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func (h *headIndexReader) Symbols() index.StringIter {
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return h.head.postings.Symbols()
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}
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// SortedLabelValues returns label values present in the head for the
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// specific label name that are within the time range mint to maxt.
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// If matchers are specified the returned result set is reduced
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// to label values of metrics matching the matchers.
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func (h *headIndexReader) SortedLabelValues(ctx context.Context, name string, matchers ...*labels.Matcher) ([]string, error) {
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values, err := h.LabelValues(ctx, name, matchers...)
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if err == nil {
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slices.Sort(values)
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}
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return values, err
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}
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// LabelValues returns label values present in the head for the
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// specific label name that are within the time range mint to maxt.
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// If matchers are specified the returned result set is reduced
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// to label values of metrics matching the matchers.
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func (h *headIndexReader) LabelValues(ctx context.Context, name string, matchers ...*labels.Matcher) ([]string, error) {
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if h.maxt < h.head.MinTime() || h.mint > h.head.MaxTime() {
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return []string{}, nil
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}
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if len(matchers) == 0 {
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return h.head.postings.LabelValues(ctx, name), nil
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}
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return labelValuesWithMatchers(ctx, h, name, matchers...)
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}
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// LabelNames returns all the unique label names present in the head
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// that are within the time range mint to maxt.
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func (h *headIndexReader) LabelNames(ctx context.Context, matchers ...*labels.Matcher) ([]string, error) {
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if h.maxt < h.head.MinTime() || h.mint > h.head.MaxTime() {
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return []string{}, nil
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}
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if len(matchers) == 0 {
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labelNames := h.head.postings.LabelNames()
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slices.Sort(labelNames)
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return labelNames, nil
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}
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return labelNamesWithMatchers(ctx, h, matchers...)
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}
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// Postings returns the postings list iterator for the label pairs.
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func (h *headIndexReader) Postings(ctx context.Context, name string, values ...string) (index.Postings, error) {
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switch len(values) {
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case 0:
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return index.EmptyPostings(), nil
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case 1:
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return h.head.postings.Get(name, values[0]), nil
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default:
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res := make([]index.Postings, 0, len(values))
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for _, value := range values {
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if p := h.head.postings.Get(name, value); !index.IsEmptyPostingsType(p) {
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res = append(res, p)
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}
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}
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return index.Merge(ctx, res...), nil
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}
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}
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func (h *headIndexReader) PostingsForLabelMatching(ctx context.Context, name string, match func(string) bool) index.Postings {
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return h.head.postings.PostingsForLabelMatching(ctx, name, match)
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}
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func (h *headIndexReader) SortedPostings(p index.Postings) index.Postings {
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series := make([]*memSeries, 0, 128)
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// Fetch all the series only once.
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for p.Next() {
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s := h.head.series.getByID(chunks.HeadSeriesRef(p.At()))
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if s == nil {
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level.Debug(h.head.logger).Log("msg", "Looked up series not found")
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} else {
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series = append(series, s)
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}
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}
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if err := p.Err(); err != nil {
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return index.ErrPostings(fmt.Errorf("expand postings: %w", err))
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}
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slices.SortFunc(series, func(a, b *memSeries) int {
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return labels.Compare(a.labels(), b.labels())
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})
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// Convert back to list.
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ep := make([]storage.SeriesRef, 0, len(series))
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for _, p := range series {
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ep = append(ep, storage.SeriesRef(p.ref))
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}
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return index.NewListPostings(ep)
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}
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// ShardedPostings implements IndexReader. This function returns an failing postings list if sharding
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// has not been enabled in the Head.
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func (h *headIndexReader) ShardedPostings(p index.Postings, shardIndex, shardCount uint64) index.Postings {
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if !h.head.opts.EnableSharding {
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return index.ErrPostings(errors.New("sharding is disabled"))
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}
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out := make([]storage.SeriesRef, 0, 128)
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for p.Next() {
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s := h.head.series.getByID(chunks.HeadSeriesRef(p.At()))
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if s == nil {
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level.Debug(h.head.logger).Log("msg", "Looked up series not found")
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continue
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}
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// Check if the series belong to the shard.
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if s.shardHash%shardCount != shardIndex {
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continue
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}
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out = append(out, storage.SeriesRef(s.ref))
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}
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return index.NewListPostings(out)
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}
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// Series returns the series for the given reference.
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// Chunks are skipped if chks is nil.
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func (h *headIndexReader) Series(ref storage.SeriesRef, builder *labels.ScratchBuilder, chks *[]chunks.Meta) error {
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s := h.head.series.getByID(chunks.HeadSeriesRef(ref))
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if s == nil {
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h.head.metrics.seriesNotFound.Inc()
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return storage.ErrNotFound
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}
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builder.Assign(s.labels())
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if chks == nil {
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return nil
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}
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s.Lock()
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defer s.Unlock()
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*chks = (*chks)[:0]
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*chks = appendSeriesChunks(s, h.mint, h.maxt, *chks)
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return nil
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}
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func appendSeriesChunks(s *memSeries, mint, maxt int64, chks []chunks.Meta) []chunks.Meta {
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for i, c := range s.mmappedChunks {
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// Do not expose chunks that are outside of the specified range.
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if !c.OverlapsClosedInterval(mint, maxt) {
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continue
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}
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chks = append(chks, chunks.Meta{
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MinTime: c.minTime,
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MaxTime: c.maxTime,
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Ref: chunks.ChunkRef(chunks.NewHeadChunkRef(s.ref, s.headChunkID(i))),
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})
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}
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if s.headChunks != nil {
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var maxTime int64
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var i, j int
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for i = s.headChunks.len() - 1; i >= 0; i-- {
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chk := s.headChunks.atOffset(i)
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if i == 0 {
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// Set the head chunk as open (being appended to) for the first headChunk.
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maxTime = math.MaxInt64
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} else {
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maxTime = chk.maxTime
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}
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if chk.OverlapsClosedInterval(mint, maxt) {
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chks = append(chks, chunks.Meta{
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MinTime: chk.minTime,
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MaxTime: maxTime,
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Ref: chunks.ChunkRef(chunks.NewHeadChunkRef(s.ref, s.headChunkID(len(s.mmappedChunks)+j))),
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})
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}
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j++
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}
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}
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return chks
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}
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// headChunkID returns the HeadChunkID referred to by the given position.
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// * 0 <= pos < len(s.mmappedChunks) refer to s.mmappedChunks[pos]
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// * pos >= len(s.mmappedChunks) refers to s.headChunks linked list.
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func (s *memSeries) headChunkID(pos int) chunks.HeadChunkID {
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return chunks.HeadChunkID(pos) + s.firstChunkID
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}
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const oooChunkIDMask = 1 << 23
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// oooHeadChunkID returns the HeadChunkID referred to by the given position.
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// Only the bottom 24 bits are used. Bit 23 is always 1 for an OOO chunk; for the rest:
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// * 0 <= pos < len(s.oooMmappedChunks) refer to s.oooMmappedChunks[pos]
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// * pos == len(s.oooMmappedChunks) refers to s.oooHeadChunk
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// The caller must ensure that s.ooo is not nil.
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func (s *memSeries) oooHeadChunkID(pos int) chunks.HeadChunkID {
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return (chunks.HeadChunkID(pos) + s.ooo.firstOOOChunkID) | oooChunkIDMask
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}
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func unpackHeadChunkRef(ref chunks.ChunkRef) (seriesID chunks.HeadSeriesRef, chunkID chunks.HeadChunkID, isOOO bool) {
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sid, cid := chunks.HeadChunkRef(ref).Unpack()
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return sid, (cid & (oooChunkIDMask - 1)), (cid & oooChunkIDMask) != 0
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}
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// LabelValueFor returns label value for the given label name in the series referred to by ID.
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func (h *headIndexReader) LabelValueFor(_ context.Context, id storage.SeriesRef, label string) (string, error) {
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memSeries := h.head.series.getByID(chunks.HeadSeriesRef(id))
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if memSeries == nil {
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return "", storage.ErrNotFound
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}
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value := memSeries.labels().Get(label)
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if value == "" {
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return "", storage.ErrNotFound
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}
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return value, nil
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}
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// LabelNamesFor returns all the label names for the series referred to by the postings.
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// The names returned are sorted.
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func (h *headIndexReader) LabelNamesFor(ctx context.Context, series index.Postings) ([]string, error) {
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namesMap := make(map[string]struct{})
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i := 0
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for series.Next() {
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i++
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if i%checkContextEveryNIterations == 0 && ctx.Err() != nil {
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return nil, ctx.Err()
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}
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memSeries := h.head.series.getByID(chunks.HeadSeriesRef(series.At()))
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if memSeries == nil {
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// Series not found, this happens during compaction,
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// when series was garbage collected after the caller got the series IDs.
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continue
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}
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memSeries.labels().Range(func(lbl labels.Label) {
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namesMap[lbl.Name] = struct{}{}
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})
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}
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if err := series.Err(); err != nil {
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return nil, err
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}
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names := make([]string, 0, len(namesMap))
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for name := range namesMap {
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names = append(names, name)
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}
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slices.Sort(names)
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return names, nil
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}
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// Chunks returns a ChunkReader against the block.
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func (h *Head) Chunks() (ChunkReader, error) {
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return h.chunksRange(math.MinInt64, math.MaxInt64, h.iso.State(math.MinInt64, math.MaxInt64))
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}
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func (h *Head) chunksRange(mint, maxt int64, is *isolationState) (*headChunkReader, error) {
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h.closedMtx.Lock()
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defer h.closedMtx.Unlock()
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if h.closed {
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return nil, errors.New("can't read from a closed head")
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}
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if hmin := h.MinTime(); hmin > mint {
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mint = hmin
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}
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return &headChunkReader{
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head: h,
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mint: mint,
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maxt: maxt,
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isoState: is,
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}, nil
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}
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type headChunkReader struct {
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head *Head
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mint, maxt int64
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isoState *isolationState
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}
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func (h *headChunkReader) Close() error {
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if h.isoState != nil {
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h.isoState.Close()
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}
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return nil
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}
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// ChunkOrIterable returns the chunk for the reference number.
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func (h *headChunkReader) ChunkOrIterable(meta chunks.Meta) (chunkenc.Chunk, chunkenc.Iterable, error) {
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chk, _, err := h.chunk(meta, false)
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return chk, nil, err
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}
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type ChunkReaderWithCopy interface {
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ChunkOrIterableWithCopy(meta chunks.Meta) (chunkenc.Chunk, chunkenc.Iterable, int64, error)
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}
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// ChunkOrIterableWithCopy returns the chunk for the reference number.
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// If the chunk is the in-memory chunk, then it makes a copy and returns the copied chunk, plus the max time of the chunk.
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func (h *headChunkReader) ChunkOrIterableWithCopy(meta chunks.Meta) (chunkenc.Chunk, chunkenc.Iterable, int64, error) {
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chk, maxTime, err := h.chunk(meta, true)
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return chk, nil, maxTime, err
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}
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// chunk returns the chunk for the reference number.
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// If copyLastChunk is true, then it makes a copy of the head chunk if asked for it.
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// Also returns max time of the chunk.
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func (h *headChunkReader) chunk(meta chunks.Meta, copyLastChunk bool) (chunkenc.Chunk, int64, error) {
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sid, cid, isOOO := unpackHeadChunkRef(meta.Ref)
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s := h.head.series.getByID(sid)
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// This means that the series has been garbage collected.
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if s == nil {
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return nil, 0, storage.ErrNotFound
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}
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s.Lock()
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defer s.Unlock()
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return h.head.chunkFromSeries(s, cid, isOOO, h.mint, h.maxt, h.isoState, copyLastChunk)
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}
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// Dumb thing to defeat chunk pool.
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type wrapOOOHeadChunk struct {
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chunkenc.Chunk
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}
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// Call with s locked.
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func (h *Head) chunkFromSeries(s *memSeries, cid chunks.HeadChunkID, isOOO bool, mint, maxt int64, isoState *isolationState, copyLastChunk bool) (chunkenc.Chunk, int64, error) {
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if isOOO {
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chk, maxTime, err := s.oooChunk(cid, h.chunkDiskMapper, &h.memChunkPool)
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return wrapOOOHeadChunk{chk}, maxTime, err
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}
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c, headChunk, isOpen, err := s.chunk(cid, h.chunkDiskMapper, &h.memChunkPool)
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if err != nil {
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return nil, 0, err
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}
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defer func() {
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if !headChunk {
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// Set this to nil so that Go GC can collect it after it has been used.
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c.chunk = nil
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c.prev = nil
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h.memChunkPool.Put(c)
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}
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}()
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// This means that the chunk is outside the specified range.
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if !c.OverlapsClosedInterval(mint, maxt) {
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return nil, 0, storage.ErrNotFound
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}
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chk, maxTime := c.chunk, c.maxTime
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if headChunk && isOpen && copyLastChunk {
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// The caller may ask to copy the head chunk in order to take the
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// bytes of the chunk without causing the race between read and append.
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b := s.headChunks.chunk.Bytes()
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newB := make([]byte, len(b))
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copy(newB, b) // TODO(codesome): Use bytes.Clone() when we upgrade to Go 1.20.
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// TODO(codesome): Put back in the pool (non-trivial).
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chk, err = h.opts.ChunkPool.Get(s.headChunks.chunk.Encoding(), newB)
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if err != nil {
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return nil, 0, err
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}
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}
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return &safeHeadChunk{
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Chunk: chk,
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s: s,
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cid: cid,
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isoState: isoState,
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}, maxTime, nil
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}
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// chunk returns the chunk for the HeadChunkID from memory or by m-mapping it from the disk.
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// If headChunk is false, it means that the returned *memChunk
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// (and not the chunkenc.Chunk inside it) can be garbage collected after its usage.
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// if isOpen is true, it means that the returned *memChunk is used for appends.
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func (s *memSeries) chunk(id chunks.HeadChunkID, chunkDiskMapper *chunks.ChunkDiskMapper, memChunkPool *sync.Pool) (chunk *memChunk, headChunk, isOpen bool, err error) {
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// ix represents the index of chunk in the s.mmappedChunks slice. The chunk id's are
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// incremented by 1 when new chunk is created, hence (id - firstChunkID) gives the slice index.
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// The max index for the s.mmappedChunks slice can be len(s.mmappedChunks)-1, hence if the ix
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// is >= len(s.mmappedChunks), it represents one of the chunks on s.headChunks linked list.
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// The order of elements is different for slice and linked list.
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// For s.mmappedChunks slice newer chunks are appended to it.
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// For s.headChunks list newer chunks are prepended to it.
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//
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// memSeries {
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// mmappedChunks: [t0, t1, t2]
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// headChunk: {t5}->{t4}->{t3}
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// }
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ix := int(id) - int(s.firstChunkID)
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var headChunksLen int
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if s.headChunks != nil {
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headChunksLen = s.headChunks.len()
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}
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if ix < 0 || ix > len(s.mmappedChunks)+headChunksLen-1 {
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return nil, false, false, storage.ErrNotFound
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}
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if ix < len(s.mmappedChunks) {
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chk, err := chunkDiskMapper.Chunk(s.mmappedChunks[ix].ref)
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if err != nil {
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var cerr *chunks.CorruptionErr
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if errors.As(err, &cerr) {
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panic(err)
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}
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return nil, false, false, err
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}
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mc := memChunkPool.Get().(*memChunk)
|
|
mc.chunk = chk
|
|
mc.minTime = s.mmappedChunks[ix].minTime
|
|
mc.maxTime = s.mmappedChunks[ix].maxTime
|
|
return mc, false, false, nil
|
|
}
|
|
|
|
ix -= len(s.mmappedChunks)
|
|
|
|
offset := headChunksLen - ix - 1
|
|
// headChunks is a linked list where first element is the most recent one and the last one is the oldest.
|
|
// This order is reversed when compared with mmappedChunks, since mmappedChunks[0] is the oldest chunk,
|
|
// while headChunk.atOffset(0) would give us the most recent chunk.
|
|
// So when calling headChunk.atOffset() we need to reverse the value of ix.
|
|
elem := s.headChunks.atOffset(offset)
|
|
if elem == nil {
|
|
// This should never really happen and would mean that headChunksLen value is NOT equal
|
|
// to the length of the headChunks list.
|
|
return nil, false, false, storage.ErrNotFound
|
|
}
|
|
return elem, true, offset == 0, nil
|
|
}
|
|
|
|
// oooChunk returns the chunk for the HeadChunkID by m-mapping it from the disk.
|
|
// It never returns the head OOO chunk.
|
|
func (s *memSeries) oooChunk(id chunks.HeadChunkID, chunkDiskMapper *chunks.ChunkDiskMapper, memChunkPool *sync.Pool) (chunk chunkenc.Chunk, maxTime int64, err error) {
|
|
// ix represents the index of chunk in the s.ooo.oooMmappedChunks slice. The chunk id's are
|
|
// incremented by 1 when new chunk is created, hence (id - firstOOOChunkID) gives the slice index.
|
|
ix := int(id) - int(s.ooo.firstOOOChunkID)
|
|
|
|
if ix < 0 || ix >= len(s.ooo.oooMmappedChunks) {
|
|
return nil, 0, storage.ErrNotFound
|
|
}
|
|
|
|
chk, err := chunkDiskMapper.Chunk(s.ooo.oooMmappedChunks[ix].ref)
|
|
return chk, s.ooo.oooMmappedChunks[ix].maxTime, err
|
|
}
|
|
|
|
// safeHeadChunk makes sure that the chunk can be accessed without a race condition.
|
|
type safeHeadChunk struct {
|
|
chunkenc.Chunk
|
|
s *memSeries
|
|
cid chunks.HeadChunkID
|
|
isoState *isolationState
|
|
}
|
|
|
|
func (c *safeHeadChunk) Iterator(reuseIter chunkenc.Iterator) chunkenc.Iterator {
|
|
c.s.Lock()
|
|
it := c.s.iterator(c.cid, c.Chunk, c.isoState, reuseIter)
|
|
c.s.Unlock()
|
|
return it
|
|
}
|
|
|
|
// iterator returns a chunk iterator for the requested chunkID, or a NopIterator if the requested ID is out of range.
|
|
// It is unsafe to call this concurrently with s.append(...) without holding the series lock.
|
|
func (s *memSeries) iterator(id chunks.HeadChunkID, c chunkenc.Chunk, isoState *isolationState, it chunkenc.Iterator) chunkenc.Iterator {
|
|
ix := int(id) - int(s.firstChunkID)
|
|
|
|
numSamples := c.NumSamples()
|
|
stopAfter := numSamples
|
|
|
|
if isoState != nil && !isoState.IsolationDisabled() {
|
|
totalSamples := 0 // Total samples in this series.
|
|
previousSamples := 0 // Samples before this chunk.
|
|
|
|
for j, d := range s.mmappedChunks {
|
|
totalSamples += int(d.numSamples)
|
|
if j < ix {
|
|
previousSamples += int(d.numSamples)
|
|
}
|
|
}
|
|
|
|
ix -= len(s.mmappedChunks)
|
|
if s.headChunks != nil {
|
|
// Iterate all head chunks from the oldest to the newest.
|
|
headChunksLen := s.headChunks.len()
|
|
for j := headChunksLen - 1; j >= 0; j-- {
|
|
chk := s.headChunks.atOffset(j)
|
|
chkSamples := chk.chunk.NumSamples()
|
|
totalSamples += chkSamples
|
|
// Chunk ID is len(s.mmappedChunks) + $(headChunks list position).
|
|
// Where $(headChunks list position) is zero for the oldest chunk and $(s.headChunks.len() - 1)
|
|
// for the newest (open) chunk.
|
|
if headChunksLen-1-j < ix {
|
|
previousSamples += chkSamples
|
|
}
|
|
}
|
|
}
|
|
|
|
// Removing the extra transactionIDs that are relevant for samples that
|
|
// come after this chunk, from the total transactionIDs.
|
|
appendIDsToConsider := int(s.txs.txIDCount) - (totalSamples - (previousSamples + numSamples))
|
|
|
|
// Iterate over the appendIDs, find the first one that the isolation state says not
|
|
// to return.
|
|
it := s.txs.iterator()
|
|
for index := 0; index < appendIDsToConsider; index++ {
|
|
appendID := it.At()
|
|
if appendID <= isoState.maxAppendID { // Easy check first.
|
|
if _, ok := isoState.incompleteAppends[appendID]; !ok {
|
|
it.Next()
|
|
continue
|
|
}
|
|
}
|
|
stopAfter = numSamples - (appendIDsToConsider - index)
|
|
if stopAfter < 0 {
|
|
stopAfter = 0 // Stopped in a previous chunk.
|
|
}
|
|
break
|
|
}
|
|
}
|
|
|
|
if stopAfter == 0 {
|
|
return chunkenc.NewNopIterator()
|
|
}
|
|
if stopAfter == numSamples {
|
|
return c.Iterator(it)
|
|
}
|
|
return makeStopIterator(c, it, stopAfter)
|
|
}
|
|
|
|
// stopIterator wraps an Iterator, but only returns the first
|
|
// stopAfter values, if initialized with i=-1.
|
|
type stopIterator struct {
|
|
chunkenc.Iterator
|
|
|
|
i, stopAfter int
|
|
}
|
|
|
|
func (it *stopIterator) Next() chunkenc.ValueType {
|
|
if it.i+1 >= it.stopAfter {
|
|
return chunkenc.ValNone
|
|
}
|
|
it.i++
|
|
return it.Iterator.Next()
|
|
}
|
|
|
|
func makeStopIterator(c chunkenc.Chunk, it chunkenc.Iterator, stopAfter int) chunkenc.Iterator {
|
|
// Re-use the Iterator object if it is a stopIterator.
|
|
if stopIter, ok := it.(*stopIterator); ok {
|
|
stopIter.Iterator = c.Iterator(stopIter.Iterator)
|
|
stopIter.i = -1
|
|
stopIter.stopAfter = stopAfter
|
|
return stopIter
|
|
}
|
|
|
|
return &stopIterator{
|
|
Iterator: c.Iterator(it),
|
|
i: -1,
|
|
stopAfter: stopAfter,
|
|
}
|
|
}
|