prometheus/querier.go

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// Copyright 2017 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 tsdb
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import (
"fmt"
"sort"
"strings"
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"github.com/prometheus/tsdb/chunks"
"github.com/prometheus/tsdb/labels"
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)
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// Querier provides querying access over time series data of a fixed
// time range.
type Querier interface {
// Select returns a set of series that matches the given label matchers.
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Select(...labels.Matcher) SeriesSet
// LabelValues returns all potential values for a label name.
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LabelValues(string) ([]string, error)
// LabelValuesFor returns all potential values for a label name.
// under the constraint of another label.
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LabelValuesFor(string, labels.Label) ([]string, error)
// Close releases the resources of the Querier.
Close() error
}
// Series represents a single time series.
type Series interface {
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// Labels returns the complete set of labels identifying the series.
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Labels() labels.Labels
// Iterator returns a new iterator of the data of the series.
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Iterator() SeriesIterator
}
// querier aggregates querying results from time blocks within
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// a single partition.
type querier struct {
db *DB
blocks []Querier
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}
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// Querier returns a new querier over the data partition for the given
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// time range.
func (s *DB) Querier(mint, maxt int64) Querier {
s.mtx.RLock()
s.headmtx.RLock()
blocks := s.blocksForInterval(mint, maxt)
s.headmtx.RUnlock()
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sq := &querier{
blocks: make([]Querier, 0, len(blocks)),
db: s,
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}
for _, b := range blocks {
sq.blocks = append(sq.blocks, b.Querier(mint, maxt))
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}
return sq
}
func (q *querier) LabelValues(n string) ([]string, error) {
if len(q.blocks) == 0 {
return nil, nil
}
res, err := q.blocks[0].LabelValues(n)
if err != nil {
return nil, err
}
for _, bq := range q.blocks[1:] {
pr, err := bq.LabelValues(n)
if err != nil {
return nil, err
}
// Merge new values into deduplicated result.
res = mergeStrings(res, pr)
}
return res, nil
}
func (q *querier) LabelValuesFor(string, labels.Label) ([]string, error) {
return nil, fmt.Errorf("not implemented")
}
func (q *querier) Select(ms ...labels.Matcher) SeriesSet {
// Sets from different blocks have no time overlap. The reference numbers
// they emit point to series sorted in lexicographic order.
// We can fully connect partial series by simply comparing with the previous
// label set.
if len(q.blocks) == 0 {
return nopSeriesSet{}
}
r := q.blocks[0].Select(ms...)
for _, s := range q.blocks[1:] {
r = newMergedSeriesSet(r, s.Select(ms...))
}
return r
}
func (q *querier) Close() error {
var merr MultiError
for _, bq := range q.blocks {
merr.Add(bq.Close())
}
q.db.mtx.RUnlock()
return merr.Err()
}
// blockQuerier provides querying access to a single block database.
type blockQuerier struct {
index IndexReader
chunks ChunkReader
postingsMapper func(Postings) Postings
mint, maxt int64
}
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func (q *blockQuerier) Select(ms ...labels.Matcher) SeriesSet {
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var (
its []Postings
absent []string
)
for _, m := range ms {
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// If the matcher checks absence of a label, don't select them
// but propagate the check into the series set.
if _, ok := m.(*labels.EqualMatcher); ok && m.Matches("") {
absent = append(absent, m.Name())
continue
}
its = append(its, q.selectSingle(m))
}
p := Intersect(its...)
if q.postingsMapper != nil {
p = q.postingsMapper(p)
}
return &blockSeriesSet{
set: &populatedChunkSeries{
set: &baseChunkSeries{
p: p,
index: q.index,
absent: absent,
},
chunks: q.chunks,
mint: q.mint,
maxt: q.maxt,
},
mint: q.mint,
maxt: q.maxt,
}
}
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func (q *blockQuerier) selectSingle(m labels.Matcher) Postings {
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// Fast-path for equal matching.
if em, ok := m.(*labels.EqualMatcher); ok {
it, err := q.index.Postings(em.Name(), em.Value())
if err != nil {
return errPostings{err: err}
}
return it
}
tpls, err := q.index.LabelValues(m.Name())
if err != nil {
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return errPostings{err: err}
}
// TODO(fabxc): use interface upgrading to provide fast solution
// for equality and prefix matches. Tuples are lexicographically sorted.
var res []string
for i := 0; i < tpls.Len(); i++ {
vals, err := tpls.At(i)
if err != nil {
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return errPostings{err: err}
}
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if m.Matches(vals[0]) {
res = append(res, vals[0])
}
}
if len(res) == 0 {
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return emptyPostings
}
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var rit []Postings
for _, v := range res {
it, err := q.index.Postings(m.Name(), v)
if err != nil {
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return errPostings{err: err}
}
rit = append(rit, it)
}
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return Merge(rit...)
}
func (q *blockQuerier) LabelValues(name string) ([]string, error) {
tpls, err := q.index.LabelValues(name)
if err != nil {
return nil, err
}
res := make([]string, 0, tpls.Len())
for i := 0; i < tpls.Len(); i++ {
vals, err := tpls.At(i)
if err != nil {
return nil, err
}
res = append(res, vals[0])
}
return res, nil
}
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func (q *blockQuerier) LabelValuesFor(string, labels.Label) ([]string, error) {
return nil, fmt.Errorf("not implemented")
}
func (q *blockQuerier) Close() error {
return 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
}
// SeriesSet contains a set of series.
type SeriesSet interface {
Next() bool
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At() Series
Err() error
}
type nopSeriesSet struct{}
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func (nopSeriesSet) Next() bool { return false }
func (nopSeriesSet) At() Series { return nil }
func (nopSeriesSet) Err() error { return nil }
// mergedSeriesSet takes two series sets as a single series set. The input series sets
// must be sorted and sequential in time, i.e. if they have the same label set,
// the datapoints of a must be before the datapoints of b.
type mergedSeriesSet struct {
a, b SeriesSet
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cur Series
adone, bdone bool
}
func newMergedSeriesSet(a, b SeriesSet) *mergedSeriesSet {
s := &mergedSeriesSet{a: a, b: b}
// Initialize first elements of both sets as Next() needs
// one element look-ahead.
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s.adone = !s.a.Next()
s.bdone = !s.b.Next()
return s
}
func (s *mergedSeriesSet) At() Series {
return s.cur
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}
func (s *mergedSeriesSet) Err() error {
if s.a.Err() != nil {
return s.a.Err()
}
return s.b.Err()
}
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func (s *mergedSeriesSet) compare() int {
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if s.adone {
return 1
}
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if s.bdone {
return -1
}
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return labels.Compare(s.a.At().Labels(), s.b.At().Labels())
}
func (s *mergedSeriesSet) Next() bool {
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if s.adone && s.bdone || s.Err() != nil {
return false
}
d := s.compare()
// Both sets contain the current series. Chain them into a single one.
if d > 0 {
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s.cur = s.b.At()
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s.bdone = !s.b.Next()
} else if d < 0 {
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s.cur = s.a.At()
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s.adone = !s.a.Next()
} else {
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s.cur = &chainedSeries{series: []Series{s.a.At(), s.b.At()}}
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s.adone = !s.a.Next()
s.bdone = !s.b.Next()
}
return true
}
type chunkSeriesSet interface {
Next() bool
At() (labels.Labels, []*ChunkMeta)
Err() error
}
// baseChunkSeries loads the label set and chunk references for a postings
// list from an index. It filters out series that have labels set that should be unset.
type baseChunkSeries struct {
p Postings
index IndexReader
absent []string // labels that must be unset in results.
lset labels.Labels
chks []*ChunkMeta
err error
}
func (s *baseChunkSeries) At() (labels.Labels, []*ChunkMeta) { return s.lset, s.chks }
func (s *baseChunkSeries) Err() error { return s.err }
func (s *baseChunkSeries) Next() bool {
Outer:
for s.p.Next() {
lset, chunks, err := s.index.Series(s.p.At())
if err != nil {
s.err = err
return false
}
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// If a series contains a label that must be absent, it is skipped as well.
for _, abs := range s.absent {
if lset.Get(abs) != "" {
continue Outer
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}
}
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s.lset = lset
s.chks = chunks
return true
}
if err := s.p.Err(); err != nil {
s.err = err
}
return false
}
// populatedChunkSeries loads chunk data from a store for a set of series
// with known chunk references. It filters out chunks that do not fit the
// given time range.
type populatedChunkSeries struct {
set chunkSeriesSet
chunks ChunkReader
mint, maxt int64
err error
chks []*ChunkMeta
lset labels.Labels
}
func (s *populatedChunkSeries) At() (labels.Labels, []*ChunkMeta) { return s.lset, s.chks }
func (s *populatedChunkSeries) Err() error { return s.err }
func (s *populatedChunkSeries) Next() bool {
for s.set.Next() {
lset, chks := s.set.At()
for i, c := range chks {
if c.MaxTime < s.mint {
chks = chks[1:]
continue
}
if c.MinTime > s.maxt {
chks = chks[:i]
break
}
c.Chunk, s.err = s.chunks.Chunk(c.Ref)
if s.err != nil {
return false
}
}
if len(chks) == 0 {
continue
}
s.lset = lset
s.chks = chks
return true
}
if err := s.set.Err(); err != nil {
s.err = err
}
return false
}
// blockSeriesSet is a set of series from an inverted index query.
type blockSeriesSet struct {
set chunkSeriesSet
err error
cur Series
mint, maxt int64
}
func (s *blockSeriesSet) Next() bool {
for s.set.Next() {
lset, chunks := s.set.At()
s.cur = &chunkSeries{labels: lset, chunks: chunks, mint: s.mint, maxt: s.maxt}
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return true
}
if s.set.Err() != nil {
s.err = s.set.Err()
}
return false
}
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func (s *blockSeriesSet) At() Series { return s.cur }
func (s *blockSeriesSet) Err() error { return s.err }
// chunkSeries is a series that is backed by a sequence of chunks holding
// time series data.
type chunkSeries struct {
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labels labels.Labels
chunks []*ChunkMeta // in-order chunk refs
mint, maxt int64
}
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func (s *chunkSeries) Labels() labels.Labels {
return s.labels
}
func (s *chunkSeries) Iterator() SeriesIterator {
return newChunkSeriesIterator(s.chunks, s.mint, s.maxt)
}
// SeriesIterator iterates over the data of a time series.
type SeriesIterator interface {
// Seek advances the iterator forward to the given timestamp.
// If there's no value exactly at t, it advances to the first value
// after t.
Seek(t int64) bool
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// At returns the current timestamp/value pair.
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At() (t int64, v float64)
// Next advances the iterator by one.
Next() bool
// Err returns the current error.
Err() error
}
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// chainedSeries implements a series for a list of time-sorted series.
// They all must have the same labels.
type chainedSeries struct {
series []Series
}
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func (s *chainedSeries) Labels() labels.Labels {
return s.series[0].Labels()
}
func (s *chainedSeries) Iterator() SeriesIterator {
return newChainedSeriesIterator(s.series...)
}
// chainedSeriesIterator implements a series iterater over a list
// of time-sorted, non-overlapping iterators.
type chainedSeriesIterator struct {
series []Series // series in time order
i int
cur SeriesIterator
}
func newChainedSeriesIterator(s ...Series) *chainedSeriesIterator {
return &chainedSeriesIterator{
series: s,
i: 0,
cur: s[0].Iterator(),
}
}
func (it *chainedSeriesIterator) Seek(t int64) bool {
// We just scan the chained series sequentially as they are already
// pre-selected by relevant time and should be accessed sequentially anyway.
for i, s := range it.series[it.i:] {
cur := s.Iterator()
if !cur.Seek(t) {
continue
}
it.cur = cur
it.i += i
return true
}
return false
}
func (it *chainedSeriesIterator) Next() bool {
if it.cur.Next() {
return true
}
if err := it.cur.Err(); err != nil {
return false
}
if it.i == len(it.series)-1 {
return false
}
it.i++
it.cur = it.series[it.i].Iterator()
return it.Next()
}
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func (it *chainedSeriesIterator) At() (t int64, v float64) {
return it.cur.At()
}
func (it *chainedSeriesIterator) Err() error {
return it.cur.Err()
}
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// chunkSeriesIterator implements a series iterator on top
// of a list of time-sorted, non-overlapping chunks.
type chunkSeriesIterator struct {
chunks []*ChunkMeta
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i int
cur chunks.Iterator
maxt, mint int64
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}
func newChunkSeriesIterator(cs []*ChunkMeta, mint, maxt int64) *chunkSeriesIterator {
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return &chunkSeriesIterator{
chunks: cs,
i: 0,
cur: cs[0].Chunk.Iterator(),
mint: mint,
maxt: maxt,
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}
}
func (it *chunkSeriesIterator) inBounds(t int64) bool {
return t >= it.mint && t <= it.maxt
}
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func (it *chunkSeriesIterator) Seek(t int64) (ok bool) {
if t > it.maxt {
return false
}
// Seek to the first valid value after t.
if t < it.mint {
t = it.mint
}
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// Only do binary search forward to stay in line with other iterators
// that can only move forward.
x := sort.Search(len(it.chunks[it.i:]), func(i int) bool { return it.chunks[i].MinTime >= t })
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x += it.i
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// If the timestamp was not found, it might be in the last chunk.
if x == len(it.chunks) {
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x--
// Go to previous chunk if the chunk doesn't exactly start with t.
// If we are already at the first chunk, we use it as it's the best we have.
} else if x > 0 && it.chunks[x].MinTime > t {
x--
}
it.i = x
it.cur = it.chunks[x].Chunk.Iterator()
for it.cur.Next() {
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t0, _ := it.cur.At()
if t0 >= t {
return true
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}
}
return false
}
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func (it *chunkSeriesIterator) At() (t int64, v float64) {
return it.cur.At()
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}
func (it *chunkSeriesIterator) Next() bool {
for it.cur.Next() {
t, _ := it.cur.At()
if it.inBounds(t) {
return true
}
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}
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if err := it.cur.Err(); err != nil {
return false
}
if it.i == len(it.chunks)-1 {
return false
}
it.i++
it.cur = it.chunks[it.i].Chunk.Iterator()
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return it.Next()
}
func (it *chunkSeriesIterator) Err() error {
return it.cur.Err()
}
type mockSeriesSet struct {
next func() bool
series func() Series
err func() error
}
func (m *mockSeriesSet) Next() bool { return m.next() }
func (m *mockSeriesSet) At() Series { return m.series() }
func (m *mockSeriesSet) Err() error { return m.err() }
func newListSeriesSet(list []Series) *mockSeriesSet {
i := -1
return &mockSeriesSet{
next: func() bool {
i++
return i < len(list)
},
series: func() Series {
return list[i]
},
err: func() error { return nil },
}
}
type errSeriesSet struct {
err error
}
func (s errSeriesSet) Next() bool { return false }
func (s errSeriesSet) At() Series { return nil }
func (s errSeriesSet) Err() error { return s.err }