VictoriaMetrics/lib/promscrape/targetstatus.go
Aliaksandr Valialkin 49bd2905fa
lib/promscrape: follow-up after 6aa50ca954
- Improve docs
- Hide `debug relabeling` column when -promscrape.dropOriginalLabels command-line flag is set
- Inline the code from the added template functions, since the code is harder to follow
  with the template functions, especially when these functions have misleading names.
  Also, these functions are used only in one place, e.g. they do not reduce the amounts of code.
- Hide `click to show original labels` title at `labels` column when original labels aren't available.
- Show the reason on whey original labels aren't available at /service-discovery page.

Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/4597
2023-07-20 19:14:33 -07:00

618 lines
17 KiB
Go

package promscrape
import (
"flag"
"fmt"
"io"
"net/http"
"regexp"
"sort"
"strconv"
"strings"
"sync"
"time"
"unsafe"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promrelabel"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
"github.com/cespare/xxhash/v2"
)
var maxDroppedTargets = flag.Int("promscrape.maxDroppedTargets", 1000, "The maximum number of droppedTargets to show at /api/v1/targets page. "+
"Increase this value if your setup drops more scrape targets during relabeling and you need investigating labels for all the dropped targets. "+
"Note that the increased number of tracked dropped targets may result in increased memory usage")
var tsmGlobal = newTargetStatusMap()
// WriteTargetResponse serves requests to /target_response?id=<id>
//
// It fetches response for the given target id and returns it.
func WriteTargetResponse(w http.ResponseWriter, r *http.Request) error {
targetID := r.FormValue("id")
sw := tsmGlobal.getScrapeWorkByTargetID(targetID)
if sw == nil {
return fmt.Errorf("cannot find target for id=%s", targetID)
}
data, err := sw.getTargetResponse()
if err != nil {
return fmt.Errorf("cannot fetch response from id=%s: %w", targetID, err)
}
w.Header().Set("Content-Type", "text/plain; charset=utf-8")
_, err = w.Write(data)
return err
}
// WriteHumanReadableTargetsStatus writes human-readable status for all the scrape targets to w according to r.
func WriteHumanReadableTargetsStatus(w http.ResponseWriter, r *http.Request) {
filter := getRequestFilter(r)
tsr := tsmGlobal.getTargetsStatusByJob(filter)
if accept := r.Header.Get("Accept"); strings.Contains(accept, "text/html") {
w.Header().Set("Content-Type", "text/html; charset=utf-8")
WriteTargetsResponseHTML(w, tsr, filter)
} else {
w.Header().Set("Content-Type", "text/plain; charset=utf-8")
WriteTargetsResponsePlain(w, tsr, filter)
}
}
// WriteServiceDiscovery writes /service-discovery response to w similar to http://demo.robustperception.io:9090/service-discovery
func WriteServiceDiscovery(w http.ResponseWriter, r *http.Request) {
filter := getRequestFilter(r)
tsr := tsmGlobal.getTargetsStatusByJob(filter)
w.Header().Set("Content-Type", "text/html; charset=utf-8")
WriteServiceDiscoveryResponse(w, tsr, filter)
}
// WriteAPIV1Targets writes /api/v1/targets to w according to https://prometheus.io/docs/prometheus/latest/querying/api/#targets
func WriteAPIV1Targets(w io.Writer, state string) {
if state == "" {
state = "any"
}
fmt.Fprintf(w, `{"status":"success","data":{"activeTargets":`)
if state == "active" || state == "any" {
tsmGlobal.WriteActiveTargetsJSON(w)
} else {
fmt.Fprintf(w, `[]`)
}
fmt.Fprintf(w, `,"droppedTargets":`)
if state == "dropped" || state == "any" {
droppedTargetsMap.WriteDroppedTargetsJSON(w)
} else {
fmt.Fprintf(w, `[]`)
}
fmt.Fprintf(w, `}}`)
}
type targetStatusMap struct {
mu sync.Mutex
m map[*scrapeWork]*targetStatus
jobNames []string
}
func newTargetStatusMap() *targetStatusMap {
return &targetStatusMap{
m: make(map[*scrapeWork]*targetStatus),
}
}
func (tsm *targetStatusMap) Reset() {
tsm.mu.Lock()
tsm.m = make(map[*scrapeWork]*targetStatus)
tsm.mu.Unlock()
}
func (tsm *targetStatusMap) registerJobNames(jobNames []string) {
tsm.mu.Lock()
tsm.jobNames = append(tsm.jobNames[:0], jobNames...)
tsm.mu.Unlock()
}
func (tsm *targetStatusMap) Register(sw *scrapeWork) {
tsm.mu.Lock()
tsm.m[sw] = &targetStatus{
sw: sw,
}
tsm.mu.Unlock()
}
func (tsm *targetStatusMap) Unregister(sw *scrapeWork) {
tsm.mu.Lock()
delete(tsm.m, sw)
tsm.mu.Unlock()
}
func (tsm *targetStatusMap) Update(sw *scrapeWork, up bool, scrapeTime, scrapeDuration int64, samplesScraped int, err error) {
tsm.mu.Lock()
ts := tsm.m[sw]
if ts == nil {
ts = &targetStatus{
sw: sw,
}
tsm.m[sw] = ts
}
ts.up = up
ts.scrapeTime = scrapeTime
ts.scrapeDuration = scrapeDuration
ts.samplesScraped = samplesScraped
ts.scrapesTotal++
if !up {
ts.scrapesFailed++
}
ts.err = err
tsm.mu.Unlock()
}
func (tsm *targetStatusMap) getScrapeWorkByTargetID(targetID string) *scrapeWork {
tsm.mu.Lock()
defer tsm.mu.Unlock()
for sw := range tsm.m {
// The target is uniquely identified by a pointer to its original labels.
if getLabelsID(sw.Config.OriginalLabels) == targetID {
return sw
}
}
return nil
}
func getLabelsID(labels *promutils.Labels) string {
return fmt.Sprintf("%016x", uintptr(unsafe.Pointer(labels)))
}
// StatusByGroup returns the number of targets with status==up
// for the given group name
func (tsm *targetStatusMap) StatusByGroup(group string, up bool) int {
var count int
tsm.mu.Lock()
for _, ts := range tsm.m {
if ts.sw.ScrapeGroup == group && ts.up == up {
count++
}
}
tsm.mu.Unlock()
return count
}
func (tsm *targetStatusMap) getActiveTargetStatuses() []targetStatus {
tsm.mu.Lock()
tss := make([]targetStatus, 0, len(tsm.m))
for _, ts := range tsm.m {
tss = append(tss, *ts)
}
tsm.mu.Unlock()
// Sort discovered targets by __address__ label, so they stay in consistent order across calls
sort.Slice(tss, func(i, j int) bool {
addr1 := tss[i].sw.Config.OriginalLabels.Get("__address__")
addr2 := tss[j].sw.Config.OriginalLabels.Get("__address__")
return addr1 < addr2
})
return tss
}
// WriteActiveTargetsJSON writes `activeTargets` contents to w according to https://prometheus.io/docs/prometheus/latest/querying/api/#targets
func (tsm *targetStatusMap) WriteActiveTargetsJSON(w io.Writer) {
tss := tsm.getActiveTargetStatuses()
fmt.Fprintf(w, `[`)
for i, ts := range tss {
fmt.Fprintf(w, `{"discoveredLabels":`)
writeLabelsJSON(w, ts.sw.Config.OriginalLabels)
fmt.Fprintf(w, `,"labels":`)
writeLabelsJSON(w, ts.sw.Config.Labels)
fmt.Fprintf(w, `,"scrapePool":%q`, ts.sw.Config.Job())
fmt.Fprintf(w, `,"scrapeUrl":%q`, ts.sw.Config.ScrapeURL)
errMsg := ""
if ts.err != nil {
errMsg = ts.err.Error()
}
fmt.Fprintf(w, `,"lastError":%q`, errMsg)
fmt.Fprintf(w, `,"lastScrape":%q`, time.Unix(ts.scrapeTime/1000, (ts.scrapeTime%1000)*1e6).Format(time.RFC3339Nano))
fmt.Fprintf(w, `,"lastScrapeDuration":%g`, (time.Millisecond * time.Duration(ts.scrapeDuration)).Seconds())
fmt.Fprintf(w, `,"lastSamplesScraped":%d`, ts.samplesScraped)
state := "up"
if !ts.up {
state = "down"
}
fmt.Fprintf(w, `,"health":%q}`, state)
if i+1 < len(tss) {
fmt.Fprintf(w, `,`)
}
}
fmt.Fprintf(w, `]`)
}
func writeLabelsJSON(w io.Writer, labels *promutils.Labels) {
fmt.Fprintf(w, `{`)
labelsList := labels.GetLabels()
for i, label := range labelsList {
fmt.Fprintf(w, "%q:%q", label.Name, label.Value)
if i+1 < len(labelsList) {
fmt.Fprintf(w, `,`)
}
}
fmt.Fprintf(w, `}`)
}
type targetStatus struct {
sw *scrapeWork
up bool
scrapeTime int64
scrapeDuration int64
samplesScraped int
scrapesTotal int
scrapesFailed int
err error
}
func (ts *targetStatus) getDurationFromLastScrape() time.Duration {
return time.Since(time.Unix(ts.scrapeTime/1000, (ts.scrapeTime%1000)*1e6))
}
type droppedTargets struct {
mu sync.Mutex
m map[uint64]droppedTarget
lastCleanupTime uint64
}
type droppedTarget struct {
originalLabels *promutils.Labels
relabelConfigs *promrelabel.ParsedConfigs
deadline uint64
}
func (dt *droppedTargets) getTargetsList() []droppedTarget {
dt.mu.Lock()
dts := make([]droppedTarget, 0, len(dt.m))
for _, v := range dt.m {
dts = append(dts, v)
}
dt.mu.Unlock()
// Sort discovered targets by __address__ label, so they stay in consistent order across calls
sort.Slice(dts, func(i, j int) bool {
addr1 := dts[i].originalLabels.Get("__address__")
addr2 := dts[j].originalLabels.Get("__address__")
return addr1 < addr2
})
return dts
}
func (dt *droppedTargets) Register(originalLabels *promutils.Labels, relabelConfigs *promrelabel.ParsedConfigs) {
if *dropOriginalLabels {
// The originalLabels must be dropped, so do not register it.
return
}
// It is better to have hash collisions instead of spending additional CPU on originalLabels.String() call.
key := labelsHash(originalLabels)
currentTime := fasttime.UnixTimestamp()
dt.mu.Lock()
_, ok := dt.m[key]
if ok || len(dt.m) < *maxDroppedTargets {
dt.m[key] = droppedTarget{
originalLabels: originalLabels,
relabelConfigs: relabelConfigs,
deadline: currentTime + 10*60,
}
}
if currentTime-dt.lastCleanupTime > 60 {
for k, v := range dt.m {
if currentTime > v.deadline {
delete(dt.m, k)
}
}
dt.lastCleanupTime = currentTime
}
dt.mu.Unlock()
}
func labelsHash(labels *promutils.Labels) uint64 {
d := xxhashPool.Get().(*xxhash.Digest)
for _, label := range labels.GetLabels() {
_, _ = d.WriteString(label.Name)
_, _ = d.WriteString(label.Value)
}
h := d.Sum64()
d.Reset()
xxhashPool.Put(d)
return h
}
var xxhashPool = &sync.Pool{
New: func() interface{} {
return xxhash.New()
},
}
// WriteDroppedTargetsJSON writes `droppedTargets` contents to w according to https://prometheus.io/docs/prometheus/latest/querying/api/#targets
func (dt *droppedTargets) WriteDroppedTargetsJSON(w io.Writer) {
dts := dt.getTargetsList()
fmt.Fprintf(w, `[`)
for i, dt := range dts {
fmt.Fprintf(w, `{"discoveredLabels":`)
writeLabelsJSON(w, dt.originalLabels)
fmt.Fprintf(w, `}`)
if i+1 < len(dts) {
fmt.Fprintf(w, `,`)
}
}
fmt.Fprintf(w, `]`)
}
var droppedTargetsMap = &droppedTargets{
m: make(map[uint64]droppedTarget),
}
type jobTargetsStatuses struct {
jobName string
upCount int
targetsTotal int
targetsStatus []targetStatus
}
func (tsm *targetStatusMap) getTargetsStatusByJob(filter *requestFilter) *targetsStatusResult {
byJob := make(map[string][]targetStatus)
tsm.mu.Lock()
for _, ts := range tsm.m {
jobName := ts.sw.Config.jobNameOriginal
byJob[jobName] = append(byJob[jobName], *ts)
}
jobNames := append([]string{}, tsm.jobNames...)
tsm.mu.Unlock()
var jts []*jobTargetsStatuses
for jobName, statuses := range byJob {
sort.Slice(statuses, func(i, j int) bool {
return statuses[i].sw.Config.ScrapeURL < statuses[j].sw.Config.ScrapeURL
})
ups := 0
var targetsStatuses []targetStatus
for _, ts := range statuses {
if ts.up {
ups++
}
if filter.showOnlyUnhealthy && ts.up {
continue
}
targetsStatuses = append(targetsStatuses, ts)
}
jts = append(jts, &jobTargetsStatuses{
jobName: jobName,
upCount: ups,
targetsTotal: len(statuses),
targetsStatus: targetsStatuses,
})
}
sort.Slice(jts, func(i, j int) bool {
return jts[i].jobName < jts[j].jobName
})
emptyJobs := getEmptyJobs(jts, jobNames)
var err error
jts, err = filterTargets(jts, filter.endpointSearch, filter.labelSearch)
if len(filter.endpointSearch) > 0 || len(filter.labelSearch) > 0 {
// Do not show empty jobs if target filters are set.
emptyJobs = nil
}
dts := droppedTargetsMap.getTargetsList()
return &targetsStatusResult{
hasOriginalLabels: !*dropOriginalLabels,
jobTargetsStatuses: jts,
droppedTargets: dts,
emptyJobs: emptyJobs,
err: err,
}
}
func filterTargetsByEndpoint(jts []*jobTargetsStatuses, searchQuery string) ([]*jobTargetsStatuses, error) {
if searchQuery == "" {
return jts, nil
}
finder, err := regexp.Compile(searchQuery)
if err != nil {
return nil, fmt.Errorf("cannot parse %s: %w", searchQuery, err)
}
var jtsFiltered []*jobTargetsStatuses
for _, job := range jts {
var tss []targetStatus
for _, ts := range job.targetsStatus {
if finder.MatchString(ts.sw.Config.ScrapeURL) {
tss = append(tss, ts)
}
}
if len(tss) == 0 {
// Skip jobs with zero targets after filtering, so users could see only the requested targets
continue
}
job.targetsStatus = tss
jtsFiltered = append(jtsFiltered, job)
}
return jtsFiltered, nil
}
func filterTargetsByLabels(jts []*jobTargetsStatuses, searchQuery string) ([]*jobTargetsStatuses, error) {
if searchQuery == "" {
return jts, nil
}
var ie promrelabel.IfExpression
if err := ie.Parse(searchQuery); err != nil {
return nil, fmt.Errorf("cannot parse %s: %w", searchQuery, err)
}
var jtsFiltered []*jobTargetsStatuses
for _, job := range jts {
var tss []targetStatus
for _, ts := range job.targetsStatus {
labels := ts.sw.Config.Labels.GetLabels()
if ie.Match(labels) {
tss = append(tss, ts)
}
}
if len(tss) == 0 {
// Skip jobs with zero targets after filtering, so users could see only the requested targets
continue
}
job.targetsStatus = tss
jtsFiltered = append(jtsFiltered, job)
}
return jtsFiltered, nil
}
func filterTargets(jts []*jobTargetsStatuses, endpointQuery, labelQuery string) ([]*jobTargetsStatuses, error) {
var err error
jts, err = filterTargetsByEndpoint(jts, endpointQuery)
if err != nil {
return nil, err
}
jts, err = filterTargetsByLabels(jts, labelQuery)
if err != nil {
return nil, err
}
return jts, nil
}
func getEmptyJobs(jts []*jobTargetsStatuses, jobNames []string) []string {
jobNamesMap := make(map[string]struct{}, len(jobNames))
for _, jobName := range jobNames {
jobNamesMap[jobName] = struct{}{}
}
for i := range jts {
delete(jobNamesMap, jts[i].jobName)
}
emptyJobs := make([]string, 0, len(jobNamesMap))
for k := range jobNamesMap {
emptyJobs = append(emptyJobs, k)
}
sort.Strings(emptyJobs)
return emptyJobs
}
type requestFilter struct {
showOriginalLabels bool
showOnlyUnhealthy bool
endpointSearch string
labelSearch string
}
func getRequestFilter(r *http.Request) *requestFilter {
showOriginalLabels, _ := strconv.ParseBool(r.FormValue("show_original_labels"))
showOnlyUnhealthy, _ := strconv.ParseBool(r.FormValue("show_only_unhealthy"))
endpointSearch := strings.TrimSpace(r.FormValue("endpoint_search"))
labelSearch := strings.TrimSpace(r.FormValue("label_search"))
return &requestFilter{
showOriginalLabels: showOriginalLabels,
showOnlyUnhealthy: showOnlyUnhealthy,
endpointSearch: endpointSearch,
labelSearch: labelSearch,
}
}
type targetsStatusResult struct {
hasOriginalLabels bool
jobTargetsStatuses []*jobTargetsStatuses
droppedTargets []droppedTarget
emptyJobs []string
err error
}
type targetLabels struct {
up bool
originalLabels *promutils.Labels
labels *promutils.Labels
}
type targetLabelsByJob struct {
jobName string
targets []targetLabels
activeTargets int
droppedTargets int
}
func getMetricRelabelContextByTargetID(targetID string) (*promrelabel.ParsedConfigs, *promutils.Labels, bool) {
tsmGlobal.mu.Lock()
defer tsmGlobal.mu.Unlock()
for sw := range tsmGlobal.m {
// The target is uniquely identified by a pointer to its original labels.
if getLabelsID(sw.Config.OriginalLabels) == targetID {
return sw.Config.MetricRelabelConfigs, sw.Config.Labels, true
}
}
return nil, nil, false
}
func getTargetRelabelContextByTargetID(targetID string) (*promrelabel.ParsedConfigs, *promutils.Labels, bool) {
var relabelConfigs *promrelabel.ParsedConfigs
var labels *promutils.Labels
found := false
// Search for relabel context in tsmGlobal (aka active targets)
tsmGlobal.mu.Lock()
for sw := range tsmGlobal.m {
// The target is uniquely identified by a pointer to its original labels.
if getLabelsID(sw.Config.OriginalLabels) == targetID {
relabelConfigs = sw.Config.RelabelConfigs
labels = sw.Config.OriginalLabels
found = true
break
}
}
tsmGlobal.mu.Unlock()
if found {
return relabelConfigs, labels, true
}
// Search for relabel context in droppedTargetsMap (aka deleted targets)
droppedTargetsMap.mu.Lock()
for _, dt := range droppedTargetsMap.m {
if getLabelsID(dt.originalLabels) == targetID {
relabelConfigs = dt.relabelConfigs
labels = dt.originalLabels
found = true
break
}
}
droppedTargetsMap.mu.Unlock()
return relabelConfigs, labels, found
}
func (tsr *targetsStatusResult) getTargetLabelsByJob() []*targetLabelsByJob {
byJob := make(map[string]*targetLabelsByJob)
for _, jts := range tsr.jobTargetsStatuses {
jobName := jts.jobName
for _, ts := range jts.targetsStatus {
m := byJob[jobName]
if m == nil {
m = &targetLabelsByJob{
jobName: jobName,
}
byJob[jobName] = m
}
m.activeTargets++
m.targets = append(m.targets, targetLabels{
up: ts.up,
originalLabels: ts.sw.Config.OriginalLabels,
labels: ts.sw.Config.Labels,
})
}
}
for _, dt := range tsr.droppedTargets {
jobName := dt.originalLabels.Get("job")
m := byJob[jobName]
if m == nil {
m = &targetLabelsByJob{
jobName: jobName,
}
byJob[jobName] = m
}
m.droppedTargets++
m.targets = append(m.targets, targetLabels{
originalLabels: dt.originalLabels,
})
}
a := make([]*targetLabelsByJob, 0, len(byJob))
for _, tls := range byJob {
a = append(a, tls)
}
sort.Slice(a, func(i, j int) bool {
return a[i].jobName < a[j].jobName
})
return a
}