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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 (
"bytes"
"container/heap"
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"math"
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"sort"
"strings"
"sync"
"github.com/pkg/errors"
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"github.com/prometheus/prometheus/pkg/labels"
"github.com/prometheus/prometheus/tsdb/chunkenc"
"github.com/prometheus/prometheus/tsdb/chunks"
tsdb_errors "github.com/prometheus/prometheus/tsdb/errors"
)
type mergeGenericQuerier struct {
queriers [ ] genericQuerier
// mergeFn is used when we see series from different queriers Selects with the same labels.
mergeFn genericSeriesMergeFunc
// TODO(bwplotka): Remove once remote queries are asynchronous. False by default.
concurrentSelect bool
}
// NewMergeQuerier returns a new Querier that merges results of given primary and secondary queriers.
// See NewFanout commentary to learn more about primary vs secondary differences.
//
// In case of overlaps between the data given by primaries' and secondaries' Selects, merge function will be used.
func NewMergeQuerier ( primaries [ ] Querier , secondaries [ ] Querier , mergeFn VerticalSeriesMergeFunc ) Querier {
queriers := make ( [ ] genericQuerier , 0 , len ( primaries ) + len ( secondaries ) )
for _ , q := range primaries {
if _ , ok := q . ( noopQuerier ) ; ! ok && q != nil {
queriers = append ( queriers , newGenericQuerierFrom ( q ) )
}
}
for _ , q := range secondaries {
if _ , ok := q . ( noopQuerier ) ; ! ok && q != nil {
queriers = append ( queriers , newSecondaryQuerierFrom ( q ) )
}
}
concurrentSelect := false
if len ( secondaries ) > 0 {
concurrentSelect = true
}
return & querierAdapter { & mergeGenericQuerier {
mergeFn : ( & seriesMergerAdapter { VerticalSeriesMergeFunc : mergeFn } ) . Merge ,
queriers : queriers ,
concurrentSelect : concurrentSelect ,
} }
}
// NewMergeChunkQuerier returns a new Chunk Querier that merges results of given primary and secondary chunk queriers.
// See NewFanout commentary to learn more about primary vs secondary differences.
//
// In case of overlaps between the data given by primaries' and secondaries' Selects, merge function will be used.
// TODO(bwplotka): Currently merge will compact overlapping chunks with bigger chunk, without limit. Split it: https://github.com/prometheus/tsdb/issues/670
func NewMergeChunkQuerier ( primaries [ ] ChunkQuerier , secondaries [ ] ChunkQuerier , mergeFn VerticalChunkSeriesMergeFunc ) ChunkQuerier {
queriers := make ( [ ] genericQuerier , 0 , len ( primaries ) + len ( secondaries ) )
for _ , q := range primaries {
if _ , ok := q . ( noopChunkQuerier ) ; ! ok && q != nil {
queriers = append ( queriers , newGenericQuerierFromChunk ( q ) )
}
}
for _ , querier := range secondaries {
if _ , ok := querier . ( noopChunkQuerier ) ; ! ok && querier != nil {
queriers = append ( queriers , newSecondaryQuerierFromChunk ( querier ) )
}
}
concurrentSelect := false
if len ( secondaries ) > 0 {
concurrentSelect = true
}
return & chunkQuerierAdapter { & mergeGenericQuerier {
mergeFn : ( & chunkSeriesMergerAdapter { VerticalChunkSeriesMergeFunc : mergeFn } ) . Merge ,
queriers : queriers ,
concurrentSelect : concurrentSelect ,
} }
}
// Select returns a set of series that matches the given label matchers.
func ( q * mergeGenericQuerier ) Select ( sortSeries bool , hints * SelectHints , matchers ... * labels . Matcher ) genericSeriesSet {
if len ( q . queriers ) == 0 {
return noopGenericSeriesSet { }
}
if len ( q . queriers ) == 1 {
return q . queriers [ 0 ] . Select ( sortSeries , hints , matchers ... )
}
var seriesSets = make ( [ ] genericSeriesSet , 0 , len ( q . queriers ) )
if ! q . concurrentSelect {
for _ , querier := range q . queriers {
// We need to sort for merge to work.
seriesSets = append ( seriesSets , querier . Select ( true , hints , matchers ... ) )
}
return & lazyGenericSeriesSet { init : func ( ) ( genericSeriesSet , bool ) {
s := newGenericMergeSeriesSet ( seriesSets , q . mergeFn )
return s , s . Next ( )
} }
}
var (
wg sync . WaitGroup
seriesSetChan = make ( chan genericSeriesSet )
)
// Schedule all Selects for all queriers we know about.
for _ , querier := range q . queriers {
wg . Add ( 1 )
go func ( qr genericQuerier ) {
defer wg . Done ( )
// We need to sort for NewMergeSeriesSet to work.
seriesSetChan <- qr . Select ( true , hints , matchers ... )
} ( querier )
}
go func ( ) {
wg . Wait ( )
close ( seriesSetChan )
} ( )
for r := range seriesSetChan {
seriesSets = append ( seriesSets , r )
}
return & lazyGenericSeriesSet { init : func ( ) ( genericSeriesSet , bool ) {
s := newGenericMergeSeriesSet ( seriesSets , q . mergeFn )
return s , s . Next ( )
} }
}
type labelGenericQueriers [ ] genericQuerier
func ( l labelGenericQueriers ) Len ( ) int { return len ( l ) }
func ( l labelGenericQueriers ) Get ( i int ) LabelQuerier { return l [ i ] }
func ( l labelGenericQueriers ) SplitByHalf ( ) ( labelGenericQueriers , labelGenericQueriers ) {
i := len ( l ) / 2
return l [ : i ] , l [ i : ]
}
// LabelValues returns all potential values for a label name.
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// If matchers are specified the returned result set is reduced
// to label values of metrics matching the matchers.
func ( q * mergeGenericQuerier ) LabelValues ( name string , matchers ... * labels . Matcher ) ( [ ] string , Warnings , error ) {
res , ws , err := q . lvals ( q . queriers , name , matchers ... )
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if err != nil {
return nil , nil , errors . Wrapf ( err , "LabelValues() from merge generic querier for label %s" , name )
}
return res , ws , nil
}
// lvals performs merge sort for LabelValues from multiple queriers.
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func ( q * mergeGenericQuerier ) lvals ( lq labelGenericQueriers , n string , matchers ... * labels . Matcher ) ( [ ] string , Warnings , error ) {
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if lq . Len ( ) == 0 {
return nil , nil , nil
}
if lq . Len ( ) == 1 {
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return lq . Get ( 0 ) . LabelValues ( n , matchers ... )
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}
a , b := lq . SplitByHalf ( )
var ws Warnings
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s1 , w , err := q . lvals ( a , n , matchers ... )
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ws = append ( ws , w ... )
if err != nil {
return nil , ws , err
}
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s2 , ws , err := q . lvals ( b , n , matchers ... )
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ws = append ( ws , w ... )
if err != nil {
return nil , ws , err
}
return mergeStrings ( s1 , s2 ) , ws , nil
}
func mergeStrings ( a , b [ ] string ) [ ] string {
maxl := len ( a )
if len ( b ) > len ( a ) {
maxl = len ( b )
}
res := make ( [ ] string , 0 , maxl * 10 / 9 )
for len ( a ) > 0 && len ( b ) > 0 {
d := strings . Compare ( a [ 0 ] , b [ 0 ] )
if d == 0 {
res = append ( res , a [ 0 ] )
a , b = a [ 1 : ] , b [ 1 : ]
} else if d < 0 {
res = append ( res , a [ 0 ] )
a = a [ 1 : ]
} else if d > 0 {
res = append ( res , b [ 0 ] )
b = b [ 1 : ]
}
}
// Append all remaining elements.
res = append ( res , a ... )
res = append ( res , b ... )
return res
}
// LabelNames returns all the unique label names present in all queriers in sorted order.
func ( q * mergeGenericQuerier ) LabelNames ( ) ( [ ] string , Warnings , error ) {
var (
labelNamesMap = make ( map [ string ] struct { } )
warnings Warnings
)
for _ , querier := range q . queriers {
names , wrn , err := querier . LabelNames ( )
if wrn != nil {
// TODO(bwplotka): We could potentially wrap warnings.
warnings = append ( warnings , wrn ... )
}
if err != nil {
return nil , nil , errors . Wrap ( err , "LabelNames() from merge generic querier" )
}
for _ , name := range names {
labelNamesMap [ name ] = struct { } { }
}
}
if len ( labelNamesMap ) == 0 {
return nil , warnings , nil
}
labelNames := make ( [ ] string , 0 , len ( labelNamesMap ) )
for name := range labelNamesMap {
labelNames = append ( labelNames , name )
}
sort . Strings ( labelNames )
return labelNames , warnings , nil
}
// Close releases the resources of the generic querier.
func ( q * mergeGenericQuerier ) Close ( ) error {
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errs := tsdb_errors . NewMulti ( )
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for _ , querier := range q . queriers {
if err := querier . Close ( ) ; err != nil {
errs . Add ( err )
}
}
return errs . Err ( )
}
// VerticalSeriesMergeFunc returns merged series implementation that merges series with same labels together.
// It has to handle time-overlapped series as well.
type VerticalSeriesMergeFunc func ( ... Series ) Series
// NewMergeSeriesSet returns a new SeriesSet that merges many SeriesSets together.
func NewMergeSeriesSet ( sets [ ] SeriesSet , mergeFunc VerticalSeriesMergeFunc ) SeriesSet {
genericSets := make ( [ ] genericSeriesSet , 0 , len ( sets ) )
for _ , s := range sets {
genericSets = append ( genericSets , & genericSeriesSetAdapter { s } )
}
return & seriesSetAdapter { newGenericMergeSeriesSet ( genericSets , ( & seriesMergerAdapter { VerticalSeriesMergeFunc : mergeFunc } ) . Merge ) }
}
// VerticalChunkSeriesMergeFunc returns merged chunk series implementation that merges potentially time-overlapping
// chunk series with the same labels into single ChunkSeries.
//
// NOTE: It's up to implementation how series are vertically merged (if chunks are sorted, re-encoded etc).
type VerticalChunkSeriesMergeFunc func ( ... ChunkSeries ) ChunkSeries
// NewMergeChunkSeriesSet returns a new ChunkSeriesSet that merges many SeriesSet together.
func NewMergeChunkSeriesSet ( sets [ ] ChunkSeriesSet , mergeFunc VerticalChunkSeriesMergeFunc ) ChunkSeriesSet {
genericSets := make ( [ ] genericSeriesSet , 0 , len ( sets ) )
for _ , s := range sets {
genericSets = append ( genericSets , & genericChunkSeriesSetAdapter { s } )
}
return & chunkSeriesSetAdapter { newGenericMergeSeriesSet ( genericSets , ( & chunkSeriesMergerAdapter { VerticalChunkSeriesMergeFunc : mergeFunc } ) . Merge ) }
}
// genericMergeSeriesSet implements genericSeriesSet.
type genericMergeSeriesSet struct {
currentLabels labels . Labels
mergeFunc genericSeriesMergeFunc
heap genericSeriesSetHeap
sets [ ] genericSeriesSet
currentSets [ ] genericSeriesSet
}
// newGenericMergeSeriesSet returns a new genericSeriesSet that merges (and deduplicates)
// series returned by the series sets when iterating.
// Each series set must return its series in labels order, otherwise
// merged series set will be incorrect.
// Overlapped situations are merged using provided mergeFunc.
func newGenericMergeSeriesSet ( sets [ ] genericSeriesSet , mergeFunc genericSeriesMergeFunc ) genericSeriesSet {
if len ( sets ) == 1 {
return sets [ 0 ]
}
// We are pre-advancing sets, so we can introspect the label of the
// series under the cursor.
var h genericSeriesSetHeap
for _ , set := range sets {
if set == nil {
continue
}
if set . Next ( ) {
heap . Push ( & h , set )
}
if err := set . Err ( ) ; err != nil {
return errorOnlySeriesSet { err }
}
}
return & genericMergeSeriesSet {
mergeFunc : mergeFunc ,
sets : sets ,
heap : h ,
}
}
func ( c * genericMergeSeriesSet ) Next ( ) bool {
// Run in a loop because the "next" series sets may not be valid anymore.
// If, for the current label set, all the next series sets come from
// failed remote storage sources, we want to keep trying with the next label set.
for {
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// Firstly advance all the current series sets. If any of them have run out,
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// we can drop them, otherwise they should be inserted back into the heap.
for _ , set := range c . currentSets {
if set . Next ( ) {
heap . Push ( & c . heap , set )
}
}
if len ( c . heap ) == 0 {
return false
}
// Now, pop items of the heap that have equal label sets.
c . currentSets = nil
c . currentLabels = c . heap [ 0 ] . At ( ) . Labels ( )
for len ( c . heap ) > 0 && labels . Equal ( c . currentLabels , c . heap [ 0 ] . At ( ) . Labels ( ) ) {
set := heap . Pop ( & c . heap ) . ( genericSeriesSet )
c . currentSets = append ( c . currentSets , set )
}
// As long as the current set contains at least 1 set,
// then it should return true.
if len ( c . currentSets ) != 0 {
break
}
}
return true
}
func ( c * genericMergeSeriesSet ) At ( ) Labels {
if len ( c . currentSets ) == 1 {
return c . currentSets [ 0 ] . At ( )
}
series := make ( [ ] Labels , 0 , len ( c . currentSets ) )
for _ , seriesSet := range c . currentSets {
series = append ( series , seriesSet . At ( ) )
}
return c . mergeFunc ( series ... )
}
func ( c * genericMergeSeriesSet ) Err ( ) error {
for _ , set := range c . sets {
if err := set . Err ( ) ; err != nil {
return err
}
}
return nil
}
func ( c * genericMergeSeriesSet ) Warnings ( ) Warnings {
var ws Warnings
for _ , set := range c . sets {
ws = append ( ws , set . Warnings ( ) ... )
}
return ws
}
type genericSeriesSetHeap [ ] genericSeriesSet
func ( h genericSeriesSetHeap ) Len ( ) int { return len ( h ) }
func ( h genericSeriesSetHeap ) Swap ( i , j int ) { h [ i ] , h [ j ] = h [ j ] , h [ i ] }
func ( h genericSeriesSetHeap ) Less ( i , j int ) bool {
a , b := h [ i ] . At ( ) . Labels ( ) , h [ j ] . At ( ) . Labels ( )
return labels . Compare ( a , b ) < 0
}
func ( h * genericSeriesSetHeap ) Push ( x interface { } ) {
* h = append ( * h , x . ( genericSeriesSet ) )
}
func ( h * genericSeriesSetHeap ) Pop ( ) interface { } {
old := * h
n := len ( old )
x := old [ n - 1 ]
* h = old [ 0 : n - 1 ]
return x
}
// ChainedSeriesMerge returns single series from many same, potentially overlapping series by chaining samples together.
// If one or more samples overlap, one sample from random overlapped ones is kept and all others with the same
// timestamp are dropped.
//
// This works the best with replicated series, where data from two series are exactly the same. This does not work well
// with "almost" the same data, e.g. from 2 Prometheus HA replicas. This is fine, since from the Prometheus perspective
// this never happens.
//
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// It's optimized for non-overlap cases as well.
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func ChainedSeriesMerge ( series ... Series ) Series {
if len ( series ) == 0 {
return nil
}
return & SeriesEntry {
Lset : series [ 0 ] . Labels ( ) ,
SampleIteratorFn : func ( ) chunkenc . Iterator {
iterators := make ( [ ] chunkenc . Iterator , 0 , len ( series ) )
for _ , s := range series {
iterators = append ( iterators , s . Iterator ( ) )
}
return newChainSampleIterator ( iterators )
} ,
}
}
// chainSampleIterator is responsible to iterate over samples from different iterators of the same time series in timestamps
// order. If one or more samples overlap, one sample from random overlapped ones is kept and all others with the same
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// timestamp are dropped. It's optimized for non-overlap cases as well.
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type chainSampleIterator struct {
iterators [ ] chunkenc . Iterator
h samplesIteratorHeap
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curr chunkenc . Iterator
lastt int64
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}
func newChainSampleIterator ( iterators [ ] chunkenc . Iterator ) chunkenc . Iterator {
return & chainSampleIterator {
iterators : iterators ,
h : nil ,
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lastt : math . MinInt64 ,
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}
}
func ( c * chainSampleIterator ) Seek ( t int64 ) bool {
c . h = samplesIteratorHeap { }
for _ , iter := range c . iterators {
if iter . Seek ( t ) {
heap . Push ( & c . h , iter )
}
}
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if len ( c . h ) > 0 {
c . curr = heap . Pop ( & c . h ) . ( chunkenc . Iterator )
return true
}
c . curr = nil
return false
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}
func ( c * chainSampleIterator ) At ( ) ( t int64 , v float64 ) {
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if c . curr == nil {
panic ( "chainSampleIterator.At() called before first .Next() or after .Next() returned false." )
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}
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return c . curr . At ( )
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}
func ( c * chainSampleIterator ) Next ( ) bool {
if c . h == nil {
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c . h = samplesIteratorHeap { }
// We call c.curr.Next() as the first thing below.
// So, we don't call Next() on it here.
c . curr = c . iterators [ 0 ]
for _ , iter := range c . iterators [ 1 : ] {
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if iter . Next ( ) {
heap . Push ( & c . h , iter )
}
}
}
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if c . curr == nil {
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return false
}
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var currt int64
for {
if c . curr . Next ( ) {
currt , _ = c . curr . At ( )
if currt == c . lastt {
// Ignoring sample for the same timestamp.
continue
}
if len ( c . h ) == 0 {
// curr is the only iterator remaining,
// no need to check with the heap.
break
}
// Check current iterator with the top of the heap.
if nextt , _ := c . h [ 0 ] . At ( ) ; currt < nextt {
// Current iterator has smaller timestamp than the heap.
break
}
// Current iterator does not hold the smallest timestamp.
heap . Push ( & c . h , c . curr )
} else if len ( c . h ) == 0 {
// No iterator left to iterate.
c . curr = nil
return false
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}
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c . curr = heap . Pop ( & c . h ) . ( chunkenc . Iterator )
currt , _ = c . curr . At ( )
if currt != c . lastt {
break
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}
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}
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c . lastt = currt
return true
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}
func ( c * chainSampleIterator ) Err ( ) error {
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errs := tsdb_errors . NewMulti ( )
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for _ , iter := range c . iterators {
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errs . Add ( iter . Err ( ) )
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}
return errs . Err ( )
}
type samplesIteratorHeap [ ] chunkenc . Iterator
func ( h samplesIteratorHeap ) Len ( ) int { return len ( h ) }
func ( h samplesIteratorHeap ) Swap ( i , j int ) { h [ i ] , h [ j ] = h [ j ] , h [ i ] }
func ( h samplesIteratorHeap ) Less ( i , j int ) bool {
at , _ := h [ i ] . At ( )
bt , _ := h [ j ] . At ( )
return at < bt
}
func ( h * samplesIteratorHeap ) Push ( x interface { } ) {
* h = append ( * h , x . ( chunkenc . Iterator ) )
}
func ( h * samplesIteratorHeap ) Pop ( ) interface { } {
old := * h
n := len ( old )
x := old [ n - 1 ]
* h = old [ 0 : n - 1 ]
return x
}
// NewCompactingChunkSeriesMerger returns VerticalChunkSeriesMergeFunc that merges the same chunk series into single chunk series.
// In case of the chunk overlaps, it compacts those into one or more time-ordered non-overlapping chunks with merged data.
// Samples from overlapped chunks are merged using series vertical merge func.
// It expects the same labels for each given series.
//
// NOTE: Use the returned merge function only when you see potentially overlapping series, as this introduces small a overhead
// to handle overlaps between series.
func NewCompactingChunkSeriesMerger ( mergeFunc VerticalSeriesMergeFunc ) VerticalChunkSeriesMergeFunc {
return func ( series ... ChunkSeries ) ChunkSeries {
if len ( series ) == 0 {
return nil
}
return & ChunkSeriesEntry {
Lset : series [ 0 ] . Labels ( ) ,
ChunkIteratorFn : func ( ) chunks . Iterator {
iterators := make ( [ ] chunks . Iterator , 0 , len ( series ) )
for _ , s := range series {
iterators = append ( iterators , s . Iterator ( ) )
}
return & compactChunkIterator {
mergeFunc : mergeFunc ,
iterators : iterators ,
}
} ,
}
}
}
// compactChunkIterator is responsible to compact chunks from different iterators of the same time series into single chainSeries.
// If time-overlapping chunks are found, they are encoded and passed to series merge and encoded again into one bigger chunk.
// TODO(bwplotka): Currently merge will compact overlapping chunks with bigger chunk, without limit. Split it: https://github.com/prometheus/tsdb/issues/670
type compactChunkIterator struct {
mergeFunc VerticalSeriesMergeFunc
iterators [ ] chunks . Iterator
h chunkIteratorHeap
err error
curr chunks . Meta
}
func ( c * compactChunkIterator ) At ( ) chunks . Meta {
return c . curr
}
func ( c * compactChunkIterator ) Next ( ) bool {
if c . h == nil {
for _ , iter := range c . iterators {
if iter . Next ( ) {
heap . Push ( & c . h , iter )
}
}
}
if len ( c . h ) == 0 {
return false
}
iter := heap . Pop ( & c . h ) . ( chunks . Iterator )
c . curr = iter . At ( )
if iter . Next ( ) {
heap . Push ( & c . h , iter )
}
var (
overlapping [ ] Series
oMaxTime = c . curr . MaxTime
prev = c . curr
)
// Detect overlaps to compact. Be smart about it and deduplicate on the fly if chunks are identical.
for len ( c . h ) > 0 {
// Get the next oldest chunk by min, then max time.
next := c . h [ 0 ] . At ( )
if next . MinTime > oMaxTime {
// No overlap with current one.
break
}
if next . MinTime == prev . MinTime &&
next . MaxTime == prev . MaxTime &&
bytes . Equal ( next . Chunk . Bytes ( ) , prev . Chunk . Bytes ( ) ) {
// 1:1 duplicates, skip it.
} else {
// We operate on same series, so labels does not matter here.
overlapping = append ( overlapping , newChunkToSeriesDecoder ( nil , next ) )
if next . MaxTime > oMaxTime {
oMaxTime = next . MaxTime
}
prev = next
}
iter := heap . Pop ( & c . h ) . ( chunks . Iterator )
if iter . Next ( ) {
heap . Push ( & c . h , iter )
}
}
if len ( overlapping ) == 0 {
return true
}
// Add last as it's not yet included in overlap. We operate on same series, so labels does not matter here.
iter = ( & seriesToChunkEncoder { Series : c . mergeFunc ( append ( overlapping , newChunkToSeriesDecoder ( nil , c . curr ) ) ... ) } ) . Iterator ( )
if ! iter . Next ( ) {
if c . err = iter . Err ( ) ; c . err != nil {
return false
}
panic ( "unexpected seriesToChunkEncoder lack of iterations" )
}
c . curr = iter . At ( )
if iter . Next ( ) {
heap . Push ( & c . h , iter )
}
return true
}
func ( c * compactChunkIterator ) Err ( ) error {
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errs := tsdb_errors . NewMulti ( )
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for _ , iter := range c . iterators {
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errs . Add ( iter . Err ( ) )
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}
errs . Add ( c . err )
return errs . Err ( )
}
type chunkIteratorHeap [ ] chunks . Iterator
func ( h chunkIteratorHeap ) Len ( ) int { return len ( h ) }
func ( h chunkIteratorHeap ) Swap ( i , j int ) { h [ i ] , h [ j ] = h [ j ] , h [ i ] }
func ( h chunkIteratorHeap ) Less ( i , j int ) bool {
at := h [ i ] . At ( )
bt := h [ j ] . At ( )
if at . MinTime == bt . MinTime {
return at . MaxTime < bt . MaxTime
}
return at . MinTime < bt . MinTime
}
func ( h * chunkIteratorHeap ) Push ( x interface { } ) {
* h = append ( * h , x . ( chunks . Iterator ) )
}
func ( h * chunkIteratorHeap ) Pop ( ) interface { } {
old := * h
n := len ( old )
x := old [ n - 1 ]
* h = old [ 0 : n - 1 ]
return x
}