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455 lines
14 KiB
455 lines
14 KiB
1 month ago
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// Copyright 2024 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 promql
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import (
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"context"
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"errors"
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"fmt"
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"slices"
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"strings"
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"github.com/grafana/regexp"
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"github.com/prometheus/prometheus/model/labels"
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"github.com/prometheus/prometheus/promql/parser"
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"github.com/prometheus/prometheus/storage"
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"github.com/prometheus/prometheus/util/annotations"
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)
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const targetInfo = "target_info"
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// identifyingLabels are the labels we consider as identifying for info metrics.
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// Currently hard coded, so we don't need knowledge of individual info metrics.
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var identifyingLabels = []string{"instance", "job"}
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// evalInfo implements the info PromQL function.
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func (ev *evaluator) evalInfo(ctx context.Context, args parser.Expressions) (parser.Value, annotations.Annotations) {
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val, annots := ev.eval(ctx, args[0])
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mat := val.(Matrix)
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// Map from data label name to matchers.
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dataLabelMatchers := map[string][]*labels.Matcher{}
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var infoNameMatchers []*labels.Matcher
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if len(args) > 1 {
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// TODO: Introduce a dedicated LabelSelector type.
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labelSelector := args[1].(*parser.VectorSelector)
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for _, m := range labelSelector.LabelMatchers {
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dataLabelMatchers[m.Name] = append(dataLabelMatchers[m.Name], m)
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if m.Name == labels.MetricName {
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infoNameMatchers = append(infoNameMatchers, m)
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}
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}
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} else {
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infoNameMatchers = []*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, labels.MetricName, targetInfo)}
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}
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// Don't try to enrich info series.
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ignoreSeries := map[int]struct{}{}
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loop:
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for i, s := range mat {
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name := s.Metric.Get(labels.MetricName)
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for _, m := range infoNameMatchers {
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if m.Matches(name) {
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ignoreSeries[i] = struct{}{}
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continue loop
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}
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}
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}
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selectHints := ev.infoSelectHints(args[0])
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infoSeries, ws, err := ev.fetchInfoSeries(ctx, mat, ignoreSeries, dataLabelMatchers, selectHints)
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if err != nil {
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ev.error(err)
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}
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annots.Merge(ws)
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res, ws := ev.combineWithInfoSeries(ctx, mat, infoSeries, ignoreSeries, dataLabelMatchers)
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annots.Merge(ws)
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return res, annots
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}
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// infoSelectHints calculates the storage.SelectHints for selecting info series, given expr (first argument to info call).
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func (ev *evaluator) infoSelectHints(expr parser.Expr) storage.SelectHints {
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var nodeTimestamp *int64
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var offset int64
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parser.Inspect(expr, func(node parser.Node, path []parser.Node) error {
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switch n := node.(type) {
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case *parser.VectorSelector:
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if n.Timestamp != nil {
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nodeTimestamp = n.Timestamp
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}
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offset = durationMilliseconds(n.OriginalOffset)
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return fmt.Errorf("end traversal")
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default:
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return nil
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}
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})
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start := ev.startTimestamp
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end := ev.endTimestamp
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if nodeTimestamp != nil {
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// The timestamp on the selector overrides everything.
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start = *nodeTimestamp
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end = *nodeTimestamp
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}
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// Reduce the start by one fewer ms than the lookback delta
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// because wo want to exclude samples that are precisely the
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// lookback delta before the eval time.
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start -= durationMilliseconds(ev.lookbackDelta) - 1
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start -= offset
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end -= offset
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return storage.SelectHints{
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Start: start,
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End: end,
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Step: ev.interval,
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Func: "info",
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}
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}
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// fetchInfoSeries fetches info series given matching identifying labels in mat.
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// Series in ignoreSeries are not fetched.
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// dataLabelMatchers may be mutated.
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func (ev *evaluator) fetchInfoSeries(ctx context.Context, mat Matrix, ignoreSeries map[int]struct{}, dataLabelMatchers map[string][]*labels.Matcher, selectHints storage.SelectHints) (Matrix, annotations.Annotations, error) {
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// A map of values for all identifying labels we are interested in.
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idLblValues := map[string]map[string]struct{}{}
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for i, s := range mat {
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if _, exists := ignoreSeries[i]; exists {
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continue
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}
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// Register relevant values per identifying label for this series.
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for _, l := range identifyingLabels {
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val := s.Metric.Get(l)
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if val == "" {
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continue
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}
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if idLblValues[l] == nil {
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idLblValues[l] = map[string]struct{}{}
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}
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idLblValues[l][val] = struct{}{}
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}
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}
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if len(idLblValues) == 0 {
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return nil, nil, nil
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}
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// Generate regexps for every interesting value per identifying label.
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var sb strings.Builder
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idLblRegexps := make(map[string]string, len(idLblValues))
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for name, vals := range idLblValues {
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sb.Reset()
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i := 0
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for v := range vals {
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if i > 0 {
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sb.WriteRune('|')
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}
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sb.WriteString(regexp.QuoteMeta(v))
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i++
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}
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idLblRegexps[name] = sb.String()
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}
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var infoLabelMatchers []*labels.Matcher
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for name, re := range idLblRegexps {
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infoLabelMatchers = append(infoLabelMatchers, labels.MustNewMatcher(labels.MatchRegexp, name, re))
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}
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var nameMatcher *labels.Matcher
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for name, ms := range dataLabelMatchers {
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for i, m := range ms {
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if m.Name == labels.MetricName {
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nameMatcher = m
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ms = slices.Delete(ms, i, i+1)
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}
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infoLabelMatchers = append(infoLabelMatchers, m)
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}
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if len(ms) > 0 {
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dataLabelMatchers[name] = ms
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} else {
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delete(dataLabelMatchers, name)
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}
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}
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if nameMatcher == nil {
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// Default to using the target_info metric.
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infoLabelMatchers = append([]*labels.Matcher{labels.MustNewMatcher(labels.MatchEqual, labels.MetricName, targetInfo)}, infoLabelMatchers...)
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}
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infoIt := ev.querier.Select(ctx, false, &selectHints, infoLabelMatchers...)
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infoSeries, ws, err := expandSeriesSet(ctx, infoIt)
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if err != nil {
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return nil, ws, err
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}
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infoMat := ev.evalSeries(ctx, infoSeries, 0, true)
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return infoMat, ws, nil
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}
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// combineWithInfoSeries combines mat with select data labels from infoMat.
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func (ev *evaluator) combineWithInfoSeries(ctx context.Context, mat, infoMat Matrix, ignoreSeries map[int]struct{}, dataLabelMatchers map[string][]*labels.Matcher) (Matrix, annotations.Annotations) {
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buf := make([]byte, 0, 1024)
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lb := labels.NewScratchBuilder(0)
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sigFunction := func(name string) func(labels.Labels) string {
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return func(lset labels.Labels) string {
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lb.Reset()
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lb.Add(labels.MetricName, name)
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lset.MatchLabels(true, identifyingLabels...).Range(func(l labels.Label) {
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lb.Add(l.Name, l.Value)
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})
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lb.Sort()
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return string(lb.Labels().Bytes(buf))
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}
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}
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infoMetrics := map[string]struct{}{}
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for _, is := range infoMat {
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lblMap := is.Metric.Map()
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infoMetrics[lblMap[labels.MetricName]] = struct{}{}
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}
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sigfs := make(map[string]func(labels.Labels) string, len(infoMetrics))
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for name := range infoMetrics {
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sigfs[name] = sigFunction(name)
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}
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// Keep a copy of the original point slices so they can be returned to the pool.
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origMatrices := []Matrix{
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make(Matrix, len(mat)),
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make(Matrix, len(infoMat)),
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}
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copy(origMatrices[0], mat)
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copy(origMatrices[1], infoMat)
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numSteps := int((ev.endTimestamp-ev.startTimestamp)/ev.interval) + 1
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originalNumSamples := ev.currentSamples
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// Create an output vector that is as big as the input matrix with
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// the most time series.
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biggestLen := max(len(mat), len(infoMat))
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baseVector := make(Vector, 0, len(mat))
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infoVector := make(Vector, 0, len(infoMat))
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enh := &EvalNodeHelper{
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Out: make(Vector, 0, biggestLen),
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}
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type seriesAndTimestamp struct {
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Series
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ts int64
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}
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seriess := make(map[uint64]seriesAndTimestamp, biggestLen) // Output series by series hash.
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tempNumSamples := ev.currentSamples
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// For every base series, compute signature per info metric.
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baseSigs := make([]map[string]string, 0, len(mat))
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for _, s := range mat {
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sigs := make(map[string]string, len(infoMetrics))
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for infoName := range infoMetrics {
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sigs[infoName] = sigfs[infoName](s.Metric)
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}
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baseSigs = append(baseSigs, sigs)
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}
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infoSigs := make([]string, 0, len(infoMat))
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for _, s := range infoMat {
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name := s.Metric.Map()[labels.MetricName]
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infoSigs = append(infoSigs, sigfs[name](s.Metric))
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}
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var warnings annotations.Annotations
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for ts := ev.startTimestamp; ts <= ev.endTimestamp; ts += ev.interval {
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if err := contextDone(ctx, "expression evaluation"); err != nil {
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ev.error(err)
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}
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// Reset number of samples in memory after each timestamp.
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ev.currentSamples = tempNumSamples
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// Gather input vectors for this timestamp.
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baseVector, _ = ev.gatherVector(ts, mat, baseVector, nil, nil)
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infoVector, _ = ev.gatherVector(ts, infoMat, infoVector, nil, nil)
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enh.Ts = ts
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result, err := ev.combineWithInfoVector(baseVector, infoVector, ignoreSeries, baseSigs, infoSigs, enh, dataLabelMatchers)
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if err != nil {
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ev.error(err)
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}
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enh.Out = result[:0] // Reuse result vector.
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vecNumSamples := result.TotalSamples()
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ev.currentSamples += vecNumSamples
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// When we reset currentSamples to tempNumSamples during the next iteration of the loop it also
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// needs to include the samples from the result here, as they're still in memory.
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tempNumSamples += vecNumSamples
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ev.samplesStats.UpdatePeak(ev.currentSamples)
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if ev.currentSamples > ev.maxSamples {
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ev.error(ErrTooManySamples(env))
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}
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// Add samples in result vector to output series.
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for _, sample := range result {
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h := sample.Metric.Hash()
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ss, exists := seriess[h]
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if exists {
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if ss.ts == ts { // If we've seen this output series before at this timestamp, it's a duplicate.
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ev.errorf("vector cannot contain metrics with the same labelset")
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}
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ss.ts = ts
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} else {
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ss = seriesAndTimestamp{Series{Metric: sample.Metric}, ts}
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}
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addToSeries(&ss.Series, enh.Ts, sample.F, sample.H, numSteps)
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seriess[h] = ss
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}
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}
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// Reuse the original point slices.
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for _, m := range origMatrices {
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for _, s := range m {
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putFPointSlice(s.Floats)
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putHPointSlice(s.Histograms)
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}
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}
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// Assemble the output matrix. By the time we get here we know we don't have too many samples.
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numSamples := 0
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output := make(Matrix, 0, len(seriess))
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for _, ss := range seriess {
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numSamples += len(ss.Floats) + totalHPointSize(ss.Histograms)
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output = append(output, ss.Series)
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}
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ev.currentSamples = originalNumSamples + numSamples
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ev.samplesStats.UpdatePeak(ev.currentSamples)
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return output, warnings
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}
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// combineWithInfoVector combines base and info Vectors.
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// Base series in ignoreSeries are not combined.
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func (ev *evaluator) combineWithInfoVector(base, info Vector, ignoreSeries map[int]struct{}, baseSigs []map[string]string, infoSigs []string, enh *EvalNodeHelper, dataLabelMatchers map[string][]*labels.Matcher) (Vector, error) {
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if len(base) == 0 {
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return nil, nil // Short-circuit: nothing is going to match.
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}
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// All samples from the info Vector hashed by the matching label/values.
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if enh.rightSigs == nil {
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enh.rightSigs = make(map[string]Sample, len(enh.Out))
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} else {
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clear(enh.rightSigs)
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}
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for i, s := range info {
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if s.H != nil {
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ev.error(errors.New("info sample should be float"))
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}
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// We encode original info sample timestamps via the float value.
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origT := int64(s.F)
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sig := infoSigs[i]
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if existing, exists := enh.rightSigs[sig]; exists {
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// We encode original info sample timestamps via the float value.
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existingOrigT := int64(existing.F)
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switch {
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case existingOrigT > origT:
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// Keep the other info sample, since it's newer.
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case existingOrigT < origT:
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// Keep this info sample, since it's newer.
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enh.rightSigs[sig] = s
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default:
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// The two info samples have the same timestamp - conflict.
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name := s.Metric.Map()[labels.MetricName]
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ev.errorf("found duplicate series for info metric %s", name)
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}
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} else {
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enh.rightSigs[sig] = s
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}
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}
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for i, bs := range base {
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if _, exists := ignoreSeries[i]; exists {
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// This series should not be enriched with info metric data labels.
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enh.Out = append(enh.Out, Sample{
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Metric: bs.Metric,
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F: bs.F,
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H: bs.H,
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})
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continue
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}
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baseLabels := bs.Metric.Map()
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enh.resetBuilder(labels.Labels{})
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// For every info metric name, try to find an info series with the same signature.
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seenInfoMetrics := map[string]struct{}{}
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for infoName, sig := range baseSigs[i] {
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is, exists := enh.rightSigs[sig]
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if !exists {
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continue
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}
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if _, exists := seenInfoMetrics[infoName]; exists {
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continue
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}
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err := is.Metric.Validate(func(l labels.Label) error {
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if l.Name == labels.MetricName {
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return nil
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}
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if _, exists := dataLabelMatchers[l.Name]; len(dataLabelMatchers) > 0 && !exists {
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// Not among the specified data label matchers.
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return nil
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}
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if v := enh.lb.Get(l.Name); v != "" && v != l.Value {
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return fmt.Errorf("conflicting label: %s", l.Name)
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}
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if _, exists := baseLabels[l.Name]; exists {
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// Skip labels already on the base metric.
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return nil
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}
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enh.lb.Set(l.Name, l.Value)
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return nil
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})
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if err != nil {
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return nil, err
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}
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seenInfoMetrics[infoName] = struct{}{}
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}
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infoLbls := enh.lb.Labels()
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||
|
if infoLbls.Len() == 0 {
|
||
|
// If there's at least one data label matcher not matching the empty string,
|
||
|
// we have to ignore this series as there are no matching info series.
|
||
|
allMatchersMatchEmpty := true
|
||
|
for _, ms := range dataLabelMatchers {
|
||
|
for _, m := range ms {
|
||
|
if !m.Matches("") {
|
||
|
allMatchersMatchEmpty = false
|
||
|
break
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
if !allMatchersMatchEmpty {
|
||
|
continue
|
||
|
}
|
||
|
}
|
||
|
|
||
|
enh.resetBuilder(bs.Metric)
|
||
|
infoLbls.Range(func(l labels.Label) {
|
||
|
enh.lb.Set(l.Name, l.Value)
|
||
|
})
|
||
|
|
||
|
enh.Out = append(enh.Out, Sample{
|
||
|
Metric: enh.lb.Labels(),
|
||
|
F: bs.F,
|
||
|
H: bs.H,
|
||
|
})
|
||
|
}
|
||
|
return enh.Out, nil
|
||
|
}
|