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prometheus/storage/series.go
Arve Knudsen d699dc3c77
Fix language in docs and comments (#14041) 
Fix language in docs and comments

---------

Signed-off-by: Arve Knudsen <arve.knudsen@gmail.com>
Co-authored-by: Björn Rabenstein <github@rabenste.in>
2024-05-08 17:57:09 +02:00

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// Copyright 2020 The Prometheus Authors
// 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 storage
import (
"fmt"
"math"
"sort"
"github.com/prometheus/prometheus/model/histogram"
"github.com/prometheus/prometheus/model/labels"
"github.com/prometheus/prometheus/tsdb/chunkenc"
"github.com/prometheus/prometheus/tsdb/chunks"
)
type SeriesEntry struct {
Lset labels.Labels
SampleIteratorFn func(chunkenc.Iterator) chunkenc.Iterator
}
func (s *SeriesEntry) Labels() labels.Labels { return s.Lset }
func (s *SeriesEntry) Iterator(it chunkenc.Iterator) chunkenc.Iterator { return s.SampleIteratorFn(it) }
type ChunkSeriesEntry struct {
Lset labels.Labels
ChunkIteratorFn func(chunks.Iterator) chunks.Iterator
}
func (s *ChunkSeriesEntry) Labels() labels.Labels { return s.Lset }
func (s *ChunkSeriesEntry) Iterator(it chunks.Iterator) chunks.Iterator { return s.ChunkIteratorFn(it) }
// NewListSeries returns series entry with iterator that allows to iterate over provided samples.
func NewListSeries(lset labels.Labels, s []chunks.Sample) *SeriesEntry {
samplesS := Samples(samples(s))
return &SeriesEntry{
Lset: lset,
SampleIteratorFn: func(it chunkenc.Iterator) chunkenc.Iterator {
if lsi, ok := it.(*listSeriesIterator); ok {
lsi.Reset(samplesS)
return lsi
}
return NewListSeriesIterator(samplesS)
},
}
}
// NewListChunkSeriesFromSamples returns a chunk series entry that allows to iterate over provided samples.
// NOTE: It uses an inefficient chunks encoding implementation, not caring about chunk size.
// Use only for testing.
func NewListChunkSeriesFromSamples(lset labels.Labels, samples ...[]chunks.Sample) *ChunkSeriesEntry {
chksFromSamples := make([]chunks.Meta, 0, len(samples))
for _, s := range samples {
cfs, err := chunks.ChunkFromSamples(s)
if err != nil {
return &ChunkSeriesEntry{
Lset: lset,
ChunkIteratorFn: func(it chunks.Iterator) chunks.Iterator {
return errChunksIterator{err: err}
},
}
}
chksFromSamples = append(chksFromSamples, cfs)
}
return &ChunkSeriesEntry{
Lset: lset,
ChunkIteratorFn: func(it chunks.Iterator) chunks.Iterator {
lcsi, existing := it.(*listChunkSeriesIterator)
var chks []chunks.Meta
if existing {
chks = lcsi.chks[:0]
} else {
chks = make([]chunks.Meta, 0, len(samples))
}
chks = append(chks, chksFromSamples...)
if existing {
lcsi.Reset(chks...)
return lcsi
}
return NewListChunkSeriesIterator(chks...)
},
}
}
type listSeriesIterator struct {
samples Samples
idx int
}
type samples []chunks.Sample
func (s samples) Get(i int) chunks.Sample { return s[i] }
func (s samples) Len() int { return len(s) }
// Samples interface allows to work on arrays of types that are compatible with chunks.Sample.
type Samples interface {
Get(i int) chunks.Sample
Len() int
}
// NewListSeriesIterator returns listSeriesIterator that allows to iterate over provided samples.
func NewListSeriesIterator(samples Samples) chunkenc.Iterator {
return &listSeriesIterator{samples: samples, idx: -1}
}
func (it *listSeriesIterator) Reset(samples Samples) {
it.samples = samples
it.idx = -1
}
func (it *listSeriesIterator) At() (int64, float64) {
s := it.samples.Get(it.idx)
return s.T(), s.F()
}
func (it *listSeriesIterator) AtHistogram(*histogram.Histogram) (int64, *histogram.Histogram) {
s := it.samples.Get(it.idx)
return s.T(), s.H()
}
func (it *listSeriesIterator) AtFloatHistogram(*histogram.FloatHistogram) (int64, *histogram.FloatHistogram) {
s := it.samples.Get(it.idx)
return s.T(), s.FH()
}
func (it *listSeriesIterator) AtT() int64 {
s := it.samples.Get(it.idx)
return s.T()
}
func (it *listSeriesIterator) Next() chunkenc.ValueType {
it.idx++
if it.idx >= it.samples.Len() {
return chunkenc.ValNone
}
return it.samples.Get(it.idx).Type()
}
func (it *listSeriesIterator) Seek(t int64) chunkenc.ValueType {
if it.idx == -1 {
it.idx = 0
}
if it.idx >= it.samples.Len() {
return chunkenc.ValNone
}
// No-op check.
if s := it.samples.Get(it.idx); s.T() >= t {
return s.Type()
}
// Do binary search between current position and end.
it.idx += sort.Search(it.samples.Len()-it.idx, func(i int) bool {
s := it.samples.Get(i + it.idx)
return s.T() >= t
})
if it.idx >= it.samples.Len() {
return chunkenc.ValNone
}
return it.samples.Get(it.idx).Type()
}
func (it *listSeriesIterator) Err() error { return nil }
type listChunkSeriesIterator struct {
chks []chunks.Meta
idx int
}
// NewListChunkSeriesIterator returns listChunkSeriesIterator that allows to iterate over provided chunks.
func NewListChunkSeriesIterator(chks ...chunks.Meta) chunks.Iterator {
return &listChunkSeriesIterator{chks: chks, idx: -1}
}
func (it *listChunkSeriesIterator) Reset(chks ...chunks.Meta) {
it.chks = chks
it.idx = -1
}
func (it *listChunkSeriesIterator) At() chunks.Meta {
return it.chks[it.idx]
}
func (it *listChunkSeriesIterator) Next() bool {
it.idx++
return it.idx < len(it.chks)
}
func (it *listChunkSeriesIterator) Err() error { return nil }
type chunkSetToSeriesSet struct {
ChunkSeriesSet
iter chunks.Iterator
chkIterErr error
sameSeriesChunks []Series
}
// NewSeriesSetFromChunkSeriesSet converts ChunkSeriesSet to SeriesSet by decoding chunks one by one.
func NewSeriesSetFromChunkSeriesSet(chk ChunkSeriesSet) SeriesSet {
return &chunkSetToSeriesSet{ChunkSeriesSet: chk}
}
func (c *chunkSetToSeriesSet) Next() bool {
if c.Err() != nil || !c.ChunkSeriesSet.Next() {
return false
}
c.iter = c.ChunkSeriesSet.At().Iterator(c.iter)
c.sameSeriesChunks = nil
for c.iter.Next() {
c.sameSeriesChunks = append(
c.sameSeriesChunks,
newChunkToSeriesDecoder(c.ChunkSeriesSet.At().Labels(), c.iter.At()),
)
}
if c.iter.Err() != nil {
c.chkIterErr = c.iter.Err()
return false
}
return true
}
func (c *chunkSetToSeriesSet) At() Series {
// Series composed of same chunks for the same series.
return ChainedSeriesMerge(c.sameSeriesChunks...)
}
func (c *chunkSetToSeriesSet) Err() error {
if c.chkIterErr != nil {
return c.chkIterErr
}
return c.ChunkSeriesSet.Err()
}
func newChunkToSeriesDecoder(labels labels.Labels, chk chunks.Meta) Series {
return &SeriesEntry{
Lset: labels,
SampleIteratorFn: func(it chunkenc.Iterator) chunkenc.Iterator {
// TODO(bwplotka): Can we provide any chunkenc buffer?
return chk.Chunk.Iterator(it)
},
}
}
type seriesSetToChunkSet struct {
SeriesSet
}
// NewSeriesSetToChunkSet converts SeriesSet to ChunkSeriesSet by encoding chunks from samples.
func NewSeriesSetToChunkSet(chk SeriesSet) ChunkSeriesSet {
return &seriesSetToChunkSet{SeriesSet: chk}
}
func (c *seriesSetToChunkSet) Next() bool {
if c.Err() != nil || !c.SeriesSet.Next() {
return false
}
return true
}
func (c *seriesSetToChunkSet) At() ChunkSeries {
return NewSeriesToChunkEncoder(c.SeriesSet.At())
}
func (c *seriesSetToChunkSet) Err() error {
return c.SeriesSet.Err()
}
type seriesToChunkEncoder struct {
Series
}
const seriesToChunkEncoderSplit = 120
// NewSeriesToChunkEncoder encodes samples to chunks with 120 samples limit.
func NewSeriesToChunkEncoder(series Series) ChunkSeries {
return &seriesToChunkEncoder{series}
}
func (s *seriesToChunkEncoder) Iterator(it chunks.Iterator) chunks.Iterator {
var (
chk, newChk chunkenc.Chunk
app chunkenc.Appender
err error
recoded bool
)
mint := int64(math.MaxInt64)
maxt := int64(math.MinInt64)
var chks []chunks.Meta
lcsi, existing := it.(*listChunkSeriesIterator)
if existing {
chks = lcsi.chks[:0]
}
i := 0
seriesIter := s.Series.Iterator(nil)
lastType := chunkenc.ValNone
for typ := seriesIter.Next(); typ != chunkenc.ValNone; typ = seriesIter.Next() {
if typ != lastType || i >= seriesToChunkEncoderSplit {
// Create a new chunk if the sample type changed or too many samples in the current one.
chks = appendChunk(chks, mint, maxt, chk)
chk, err = chunkenc.NewEmptyChunk(typ.ChunkEncoding())
if err != nil {
return errChunksIterator{err: err}
}
app, err = chk.Appender()
if err != nil {
return errChunksIterator{err: err}
}
mint = int64(math.MaxInt64)
// maxt is immediately overwritten below which is why setting it here won't make a difference.
i = 0
}
lastType = typ
var (
t int64
v float64
h *histogram.Histogram
fh *histogram.FloatHistogram
)
switch typ {
case chunkenc.ValFloat:
t, v = seriesIter.At()
app.Append(t, v)
case chunkenc.ValHistogram:
t, h = seriesIter.AtHistogram(nil)
newChk, recoded, app, err = app.AppendHistogram(nil, t, h, false)
if err != nil {
return errChunksIterator{err: err}
}
if newChk != nil {
if !recoded {
chks = appendChunk(chks, mint, maxt, chk)
mint = int64(math.MaxInt64)
// maxt is immediately overwritten below which is why setting it here won't make a difference.
i = 0
}
chk = newChk
}
case chunkenc.ValFloatHistogram:
t, fh = seriesIter.AtFloatHistogram(nil)
newChk, recoded, app, err = app.AppendFloatHistogram(nil, t, fh, false)
if err != nil {
return errChunksIterator{err: err}
}
if newChk != nil {
if !recoded {
chks = appendChunk(chks, mint, maxt, chk)
mint = int64(math.MaxInt64)
// maxt is immediately overwritten below which is why setting it here won't make a difference.
i = 0
}
chk = newChk
}
default:
return errChunksIterator{err: fmt.Errorf("unknown sample type %s", typ.String())}
}
maxt = t
if mint == math.MaxInt64 {
mint = t
}
i++
}
if err := seriesIter.Err(); err != nil {
return errChunksIterator{err: err}
}
chks = appendChunk(chks, mint, maxt, chk)
if existing {
lcsi.Reset(chks...)
return lcsi
}
return NewListChunkSeriesIterator(chks...)
}
func appendChunk(chks []chunks.Meta, mint, maxt int64, chk chunkenc.Chunk) []chunks.Meta {
if chk != nil {
chks = append(chks, chunks.Meta{
MinTime: mint,
MaxTime: maxt,
Chunk: chk,
})
}
return chks
}
type errChunksIterator struct {
err error
}
func (e errChunksIterator) At() chunks.Meta { return chunks.Meta{} }
func (e errChunksIterator) Next() bool { return false }
func (e errChunksIterator) Err() error { return e.err }
// ExpandSamples iterates over all samples in the iterator, buffering all in slice.
// Optionally it takes samples constructor, useful when you want to compare sample slices with different
// sample implementations. if nil, sample type from this package will be used.
func ExpandSamples(iter chunkenc.Iterator, newSampleFn func(t int64, f float64, h *histogram.Histogram, fh *histogram.FloatHistogram) chunks.Sample) ([]chunks.Sample, error) {
if newSampleFn == nil {
newSampleFn = func(t int64, f float64, h *histogram.Histogram, fh *histogram.FloatHistogram) chunks.Sample {
switch {
case h != nil:
return hSample{t, h}
case fh != nil:
return fhSample{t, fh}
default:
return fSample{t, f}
}
}
}
var result []chunks.Sample
for {
switch iter.Next() {
case chunkenc.ValNone:
return result, iter.Err()
case chunkenc.ValFloat:
t, f := iter.At()
// NaNs can't be compared normally, so substitute for another value.
if math.IsNaN(f) {
f = -42
}
result = append(result, newSampleFn(t, f, nil, nil))
case chunkenc.ValHistogram:
t, h := iter.AtHistogram(nil)
result = append(result, newSampleFn(t, 0, h, nil))
case chunkenc.ValFloatHistogram:
t, fh := iter.AtFloatHistogram(nil)
result = append(result, newSampleFn(t, 0, nil, fh))
}
}
}
// ExpandChunks iterates over all chunks in the iterator, buffering all in slice.
func ExpandChunks(iter chunks.Iterator) ([]chunks.Meta, error) {
var result []chunks.Meta
for iter.Next() {
result = append(result, iter.At())
}
return result, iter.Err()
}
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