VictoriaMetrics/lib/promrelabel/debug.go

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package promrelabel
import (
"fmt"
"io"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
)
// WriteMetricRelabelDebug writes /metric-relabel-debug page to w with the corresponding args.
func WriteMetricRelabelDebug(w io.Writer, targetID, metric, relabelConfigs string, err error) {
writeRelabelDebug(w, false, targetID, metric, relabelConfigs, err)
}
// WriteTargetRelabelDebug writes /target-relabel-debug page to w with the corresponding args.
func WriteTargetRelabelDebug(w io.Writer, targetID, metric, relabelConfigs string, err error) {
writeRelabelDebug(w, true, targetID, metric, relabelConfigs, err)
}
func writeRelabelDebug(w io.Writer, isTargetRelabel bool, targetID, metric, relabelConfigs string, err error) {
if metric == "" {
metric = "{}"
}
if targetID == "" {
WriteRelabelDebugSteps(w, isTargetRelabel, targetID, nil, metric, relabelConfigs, err)
return
}
labels, err := promutils.NewLabelsFromString(metric)
if err != nil {
err = fmt.Errorf("cannot parse metric: %s", err)
WriteRelabelDebugSteps(w, isTargetRelabel, targetID, nil, metric, relabelConfigs, err)
return
}
pcs, err := ParseRelabelConfigsData([]byte(relabelConfigs))
if err != nil {
err = fmt.Errorf("cannot parse relabel configs: %s", err)
WriteRelabelDebugSteps(w, isTargetRelabel, targetID, nil, metric, relabelConfigs, err)
return
}
dss := newDebugRelabelSteps(pcs, labels, isTargetRelabel)
WriteRelabelDebugSteps(w, isTargetRelabel, targetID, dss, metric, relabelConfigs, nil)
}
func newDebugRelabelSteps(pcs *ParsedConfigs, labels *promutils.Labels, isTargetRelabel bool) []DebugStep {
// The target relabeling below must be in sync with the code at scrapeWorkConfig.getScrapeWork if isTragetRelabeling=true
// and with the code at scrapeWork.addRowToTimeseries when isTargetRelabeling=false
// Prevent from modifying the original labels
labels = labels.Clone()
// Apply relabeling
labelsResult, dss := pcs.ApplyDebug(labels.GetLabels())
labels.Labels = labelsResult
outStr := LabelsToString(labels.GetLabels())
if isTargetRelabel {
// Add missing instance label
if labels.Get("instance") == "" {
address := labels.Get("__address__")
if address != "" {
inStr := outStr
labels.Add("instance", address)
outStr = LabelsToString(labels.GetLabels())
dss = append(dss, DebugStep{
Rule: "add missing instance label from __address__ label",
In: inStr,
Out: outStr,
})
}
}
// Remove labels with __ prefix
inStr := outStr
labels.RemoveLabelsWithDoubleUnderscorePrefix()
outStr = LabelsToString(labels.GetLabels())
if inStr != outStr {
dss = append(dss, DebugStep{
Rule: "remove labels with __ prefix",
In: inStr,
Out: outStr,
})
}
} else {
// Remove labels with __ prefix except of __name__
inStr := outStr
labels.Labels = FinalizeLabels(labels.Labels[:0], labels.Labels)
outStr = LabelsToString(labels.GetLabels())
if inStr != outStr {
dss = append(dss, DebugStep{
Rule: "remove labels with __ prefix except of __name__",
In: inStr,
Out: outStr,
})
}
}
// There is no need in labels' sorting, since LabelsToString() automatically sorts labels.
return dss
}
func getChangedLabelNames(in, out *promutils.Labels) map[string]struct{} {
inMap := in.ToMap()
outMap := out.ToMap()
changed := make(map[string]struct{})
for k, v := range outMap {
inV, ok := inMap[k]
if !ok || inV != v {
changed[k] = struct{}{}
}
}
for k, v := range inMap {
outV, ok := outMap[k]
if !ok || outV != v {
changed[k] = struct{}{}
}
}
return changed
}