VictoriaMetrics/lib/promrelabel/debug.go
Aliaksandr Valialkin 1af6e0b233
lib/promrelabel: pass query args via query string at /metric-relabel-debug and /target-relabel-debug pages if their length doesnt exceed 1000
This allows copy-n-pasting the url to another browser window and seeing the same result.

The limit in 1000 chars is selected in order to prevent from potential issues with systems
which limit the url length such as Internet Explorer - see https://stackoverflow.com/questions/812925/what-is-the-maximum-possible-length-of-a-query-string

If the limit is exceeded, then query args are sent via POST method and aren't visible in the url.

Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3580
2023-01-05 16:45:42 -08:00

120 lines
3.5 KiB
Go

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 err != nil {
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
}