prometheus/retrieval/targetmanager.go

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// Copyright 2013 The Prometheus Authors
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// 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 retrieval
import (
"fmt"
"strings"
"sync"
"github.com/prometheus/common/model"
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"github.com/prometheus/log"
"github.com/prometheus/prometheus/config"
"github.com/prometheus/prometheus/retrieval/discovery"
"github.com/prometheus/prometheus/storage"
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)
// A TargetProvider provides information about target groups. It maintains a set
// of sources from which TargetGroups can originate. Whenever a target provider
// detects a potential change, it sends the TargetGroup through its provided channel.
//
// The TargetProvider does not have to guarantee that an actual change happened.
// It does guarantee that it sends the new TargetGroup whenever a change happens.
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//
// Sources() is guaranteed to be called exactly once before each call to Run().
// On a call to Run() implementing types must send a valid target group for each of
// the sources they declared in the last call to Sources().
type TargetProvider interface {
// Sources returns the source identifiers the provider is currently aware of.
Sources() []string
// Run hands a channel to the target provider through which it can send
// updated target groups. The channel must be closed by the target provider
// if no more updates will be sent.
// On receiving from done Run must return.
Run(up chan<- *config.TargetGroup, done <-chan struct{})
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}
// TargetManager maintains a set of targets, starts and stops their scraping and
// creates the new targets based on the target groups it receives from various
// target providers.
type TargetManager struct {
mtx sync.RWMutex
globalLabels model.LabelSet
sampleAppender storage.SampleAppender
running bool
done chan struct{}
// Targets by their source ID.
targets map[string][]*Target
// Providers by the scrape configs they are derived from.
providers map[*config.ScrapeConfig][]TargetProvider
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}
// NewTargetManager creates a new TargetManager.
func NewTargetManager(sampleAppender storage.SampleAppender) *TargetManager {
tm := &TargetManager{
sampleAppender: sampleAppender,
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targets: map[string][]*Target{},
}
return tm
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}
// merge multiple target group channels into a single output channel.
func merge(done <-chan struct{}, cs ...<-chan targetGroupUpdate) <-chan targetGroupUpdate {
var wg sync.WaitGroup
out := make(chan targetGroupUpdate)
// Start an output goroutine for each input channel in cs. output
// copies values from c to out until c or done is closed, then calls
// wg.Done.
redir := func(c <-chan targetGroupUpdate) {
defer wg.Done()
for n := range c {
select {
case out <- n:
case <-done:
return
}
}
}
wg.Add(len(cs))
for _, c := range cs {
go redir(c)
}
// Close the out channel if all inbound channels are closed.
go func() {
wg.Wait()
close(out)
}()
return out
}
// targetGroupUpdate is a potentially changed/new target group
// for the given scrape configuration.
type targetGroupUpdate struct {
tg *config.TargetGroup
scfg *config.ScrapeConfig
}
// Run starts background processing to handle target updates.
func (tm *TargetManager) Run() {
log.Info("Starting target manager...")
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tm.done = make(chan struct{})
sources := map[string]struct{}{}
updates := []<-chan targetGroupUpdate{}
for scfg, provs := range tm.providers {
for _, prov := range provs {
// Get an initial set of available sources so we don't remove
// target groups from the last run that are still available.
for _, src := range prov.Sources() {
sources[src] = struct{}{}
}
tgc := make(chan *config.TargetGroup)
// Run the target provider after cleanup of the stale targets is done.
defer func(prov TargetProvider, tgc chan *config.TargetGroup) {
go prov.Run(tgc, tm.done)
}(prov, tgc)
tgupc := make(chan targetGroupUpdate)
updates = append(updates, tgupc)
go func(scfg *config.ScrapeConfig) {
defer close(tgupc)
for {
select {
case tg := <-tgc:
if tg == nil {
break
}
tgupc <- targetGroupUpdate{tg: tg, scfg: scfg}
case <-tm.done:
return
}
}
}(scfg)
}
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}
// Merge all channels of incoming target group updates into a single
// one and keep applying the updates.
go tm.handleUpdates(merge(tm.done, updates...), tm.done)
tm.mtx.Lock()
defer tm.mtx.Unlock()
// Remove old target groups that are no longer in the set of sources.
tm.removeTargets(func(src string) bool {
if _, ok := sources[src]; ok {
return false
}
return true
})
tm.running = true
}
// handleUpdates receives target group updates and handles them in the
// context of the given job config.
func (tm *TargetManager) handleUpdates(ch <-chan targetGroupUpdate, done <-chan struct{}) {
for {
select {
case update, ok := <-ch:
if !ok {
return
}
if update.tg == nil {
break
}
log.Debugf("Received potential update for target group %q", update.tg.Source)
if err := tm.updateTargetGroup(update.tg, update.scfg); err != nil {
log.Errorf("Error updating targets: %s", err)
}
case <-done:
return
}
}
}
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// Stop all background processing.
func (tm *TargetManager) Stop() {
tm.mtx.RLock()
if tm.running {
defer tm.stop(true)
}
// Return the lock before calling tm.stop().
defer tm.mtx.RUnlock()
}
// stop background processing of the target manager. If removeTargets is true,
// existing targets will be stopped and removed.
func (tm *TargetManager) stop(removeTargets bool) {
log.Info("Stopping target manager...")
defer log.Info("Target manager stopped.")
close(tm.done)
tm.mtx.Lock()
defer tm.mtx.Unlock()
if removeTargets {
tm.removeTargets(nil)
}
tm.running = false
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}
// removeTargets stops and removes targets for sources where f(source) is true
// or if f is nil. This method is not thread-safe.
func (tm *TargetManager) removeTargets(f func(string) bool) {
if f == nil {
f = func(string) bool { return true }
}
var wg sync.WaitGroup
for src, targets := range tm.targets {
if !f(src) {
continue
}
wg.Add(len(targets))
for _, target := range targets {
go func(t *Target) {
t.StopScraper()
wg.Done()
}(target)
}
delete(tm.targets, src)
}
wg.Wait()
}
// updateTargetGroup creates new targets for the group and replaces the old targets
// for the source ID.
func (tm *TargetManager) updateTargetGroup(tgroup *config.TargetGroup, cfg *config.ScrapeConfig) error {
newTargets, err := tm.targetsFromGroup(tgroup, cfg)
if err != nil {
return err
}
tm.mtx.Lock()
defer tm.mtx.Unlock()
if !tm.running {
return nil
}
oldTargets, ok := tm.targets[tgroup.Source]
if ok {
var wg sync.WaitGroup
// Replace the old targets with the new ones while keeping the state
// of intersecting targets.
for i, tnew := range newTargets {
var match *Target
for j, told := range oldTargets {
if told == nil {
continue
}
if tnew.InstanceIdentifier() == told.InstanceIdentifier() {
match = told
oldTargets[j] = nil
break
}
}
// Update the existing target and discard the new equivalent.
// Otherwise start scraping the new target.
if match != nil {
// Updating is blocked during a scrape. We don't want those wait times
// to build up.
wg.Add(1)
go func(t *Target) {
match.Update(cfg, t.fullLabels(), t.metaLabels)
wg.Done()
}(tnew)
newTargets[i] = match
} else {
go tnew.RunScraper(tm.sampleAppender)
}
}
// Remove all old targets that disappeared.
for _, told := range oldTargets {
if told != nil {
wg.Add(1)
go func(t *Target) {
t.StopScraper()
wg.Done()
}(told)
}
}
wg.Wait()
} else {
// The source ID is new, start all target scrapers.
for _, tnew := range newTargets {
go tnew.RunScraper(tm.sampleAppender)
}
}
if len(newTargets) > 0 {
tm.targets[tgroup.Source] = newTargets
} else {
delete(tm.targets, tgroup.Source)
}
return nil
}
// Pools returns the targets currently being scraped bucketed by their job name.
func (tm *TargetManager) Pools() map[string][]*Target {
tm.mtx.RLock()
defer tm.mtx.RUnlock()
pools := map[string][]*Target{}
for _, ts := range tm.targets {
for _, t := range ts {
job := string(t.BaseLabels()[model.JobLabel])
pools[job] = append(pools[job], t)
}
}
return pools
}
// ApplyConfig resets the manager's target providers and job configurations as defined
// by the new cfg. The state of targets that are valid in the new configuration remains unchanged.
// Returns true on success.
func (tm *TargetManager) ApplyConfig(cfg *config.Config) bool {
tm.mtx.RLock()
running := tm.running
tm.mtx.RUnlock()
if running {
tm.stop(false)
// Even if updating the config failed, we want to continue rather than stop scraping anything.
defer tm.Run()
}
providers := map[*config.ScrapeConfig][]TargetProvider{}
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for _, scfg := range cfg.ScrapeConfigs {
providers[scfg] = providersFromConfig(scfg)
}
tm.mtx.Lock()
defer tm.mtx.Unlock()
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tm.globalLabels = cfg.GlobalConfig.Labels
tm.providers = providers
return true
}
// prefixedTargetProvider wraps TargetProvider and prefixes source strings
// to make the sources unique across a configuration.
type prefixedTargetProvider struct {
TargetProvider
job string
mechanism string
idx int
}
func (tp *prefixedTargetProvider) prefix(src string) string {
return fmt.Sprintf("%s:%s:%d:%s", tp.job, tp.mechanism, tp.idx, src)
}
func (tp *prefixedTargetProvider) Sources() []string {
srcs := tp.TargetProvider.Sources()
for i, src := range srcs {
srcs[i] = tp.prefix(src)
}
return srcs
}
func (tp *prefixedTargetProvider) Run(ch chan<- *config.TargetGroup, done <-chan struct{}) {
defer close(ch)
ch2 := make(chan *config.TargetGroup)
go tp.TargetProvider.Run(ch2, done)
for {
select {
case <-done:
return
case tg := <-ch2:
if tg == nil {
break
}
tg.Source = tp.prefix(tg.Source)
ch <- tg
}
}
}
// providersFromConfig returns all TargetProviders configured in cfg.
func providersFromConfig(cfg *config.ScrapeConfig) []TargetProvider {
var providers []TargetProvider
app := func(mech string, i int, tp TargetProvider) {
providers = append(providers, &prefixedTargetProvider{
job: cfg.JobName,
mechanism: mech,
idx: i,
TargetProvider: tp,
})
}
for i, c := range cfg.DNSSDConfigs {
app("dns", i, discovery.NewDNSDiscovery(c))
}
for i, c := range cfg.FileSDConfigs {
app("file", i, discovery.NewFileDiscovery(c))
}
for i, c := range cfg.ConsulSDConfigs {
app("consul", i, discovery.NewConsulDiscovery(c))
}
for i, c := range cfg.MarathonSDConfigs {
app("marathon", i, discovery.NewMarathonDiscovery(c))
}
for i, c := range cfg.KubernetesSDConfigs {
k, err := discovery.NewKubernetesDiscovery(c)
if err != nil {
log.Errorf("Cannot create Kubernetes discovery: %s", err)
continue
}
app("kubernetes", i, k)
}
for i, c := range cfg.ServersetSDConfigs {
app("serverset", i, discovery.NewServersetDiscovery(c))
}
if len(cfg.TargetGroups) > 0 {
app("static", 0, NewStaticProvider(cfg.TargetGroups))
}
return providers
}
// targetsFromGroup builds targets based on the given TargetGroup and config.
func (tm *TargetManager) targetsFromGroup(tg *config.TargetGroup, cfg *config.ScrapeConfig) ([]*Target, error) {
tm.mtx.RLock()
defer tm.mtx.RUnlock()
targets := make([]*Target, 0, len(tg.Targets))
for i, labels := range tg.Targets {
addr := string(labels[model.AddressLabel])
// If no port was provided, infer it based on the used scheme.
if !strings.Contains(addr, ":") {
switch cfg.Scheme {
case "http":
addr = fmt.Sprintf("%s:80", addr)
case "https":
addr = fmt.Sprintf("%s:443", addr)
default:
panic(fmt.Errorf("targetsFromGroup: invalid scheme %q", cfg.Scheme))
}
labels[model.AddressLabel] = model.LabelValue(addr)
}
for k, v := range cfg.Params {
if len(v) > 0 {
labels[model.LabelName(model.ParamLabelPrefix+k)] = model.LabelValue(v[0])
}
}
// Copy labels into the labelset for the target if they are not
// set already. Apply the labelsets in order of decreasing precedence.
labelsets := []model.LabelSet{
tg.Labels,
{
model.SchemeLabel: model.LabelValue(cfg.Scheme),
model.MetricsPathLabel: model.LabelValue(cfg.MetricsPath),
model.JobLabel: model.LabelValue(cfg.JobName),
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},
tm.globalLabels,
}
for _, lset := range labelsets {
for ln, lv := range lset {
if _, ok := labels[ln]; !ok {
labels[ln] = lv
}
}
}
if _, ok := labels[model.AddressLabel]; !ok {
return nil, fmt.Errorf("instance %d in target group %s has no address", i, tg)
}
preRelabelLabels := labels
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labels, err := Relabel(labels, cfg.RelabelConfigs...)
if err != nil {
return nil, fmt.Errorf("error while relabeling instance %d in target group %s: %s", i, tg, err)
}
// Check if the target was dropped.
if labels == nil {
continue
}
for ln := range labels {
// Meta labels are deleted after relabelling. Other internal labels propagate to
// the target which decides whether they will be part of their label set.
if strings.HasPrefix(string(ln), model.MetaLabelPrefix) {
delete(labels, ln)
}
}
tr := NewTarget(cfg, labels, preRelabelLabels)
targets = append(targets, tr)
}
return targets, nil
}
// StaticProvider holds a list of target groups that never change.
type StaticProvider struct {
TargetGroups []*config.TargetGroup
}
// NewStaticProvider returns a StaticProvider configured with the given
// target groups.
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func NewStaticProvider(groups []*config.TargetGroup) *StaticProvider {
for i, tg := range groups {
tg.Source = fmt.Sprintf("%d", i)
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}
return &StaticProvider{
TargetGroups: groups,
}
}
// Run implements the TargetProvider interface.
func (sd *StaticProvider) Run(ch chan<- *config.TargetGroup, done <-chan struct{}) {
defer close(ch)
for _, tg := range sd.TargetGroups {
select {
case <-done:
return
case ch <- tg:
}
}
<-done
}
// Sources returns the provider's sources.
func (sd *StaticProvider) Sources() (srcs []string) {
for _, tg := range sd.TargetGroups {
srcs = append(srcs, tg.Source)
}
return srcs
}