// Main manages the startup and shutdown lifecycle of the entire Prometheus server. func Main() int { if err := parse(os.Args[1:]); err != nil { return 2 } printVersion() if cfg.printVersion { return 0 } var reloadables []Reloadable var ( memStorage = local.NewMemorySeriesStorage(&cfg.storage) remoteStorage = remote.New(&cfg.remote) sampleAppender = storage.Fanout{memStorage} ) if remoteStorage != nil { sampleAppender = append(sampleAppender, remoteStorage) reloadables = append(reloadables, remoteStorage) } var ( notificationHandler = notification.New(&cfg.notification) targetManager = retrieval.NewTargetManager(sampleAppender) queryEngine = promql.NewEngine(memStorage, &cfg.queryEngine) ) ruleManager := rules.NewManager(&rules.ManagerOptions{ SampleAppender: sampleAppender, NotificationHandler: notificationHandler, QueryEngine: queryEngine, ExternalURL: cfg.web.ExternalURL, }) flags := map[string]string{} cfg.fs.VisitAll(func(f *flag.Flag) { flags[f.Name] = f.Value.String() }) status := &web.PrometheusStatus{ TargetPools: targetManager.Pools, Rules: ruleManager.Rules, Flags: flags, Birth: time.Now(), } webHandler := web.New(memStorage, queryEngine, ruleManager, status, &cfg.web) reloadables = append(reloadables, status, targetManager, ruleManager, webHandler, notificationHandler) if !reloadConfig(cfg.configFile, reloadables...) { return 1 } // Wait for reload or termination signals. Start the handler for SIGHUP as // early as possible, but ignore it until we are ready to handle reloading // our config. hup := make(chan os.Signal) hupReady := make(chan bool) signal.Notify(hup, syscall.SIGHUP) go func() { <-hupReady for { select { case <-hup: case <-webHandler.Reload(): } reloadConfig(cfg.configFile, reloadables...) } }() // Start all components. if err := memStorage.Start(); err != nil { log.Errorln("Error opening memory series storage:", err) return 1 } defer func() { if err := memStorage.Stop(); err != nil { log.Errorln("Error stopping storage:", err) } }() if remoteStorage != nil { prometheus.MustRegister(remoteStorage) go remoteStorage.Run() defer remoteStorage.Stop() } // The storage has to be fully initialized before registering. prometheus.MustRegister(memStorage) prometheus.MustRegister(notificationHandler) prometheus.MustRegister(configSuccess) prometheus.MustRegister(configSuccessTime) defer ruleManager.Stop() go notificationHandler.Run() defer notificationHandler.Stop() go targetManager.Run() defer targetManager.Stop() defer queryEngine.Stop() go webHandler.Run() // Wait for reload or termination signals. close(hupReady) // Unblock SIGHUP handler. term := make(chan os.Signal) signal.Notify(term, os.Interrupt, syscall.SIGTERM) select { case <-term: log.Warn("Received SIGTERM, exiting gracefully...") case <-webHandler.Quit(): log.Warn("Received termination request via web service, exiting gracefully...") case err := <-webHandler.ListenError(): log.Errorln("Error starting web server, exiting gracefully:", err) } log.Info("See you next time!") return 0 }
// Main manages the startup and shutdown lifecycle of the entire Prometheus server. func Main() int { if err := parse(os.Args[1:]); err != nil { log.Error(err) return 2 } if cfg.printVersion { fmt.Fprintln(os.Stdout, version.Print("prometheus")) return 0 } log.Infoln("Starting prometheus", version.Info()) log.Infoln("Build context", version.BuildContext()) var reloadables []Reloadable var ( memStorage = local.NewMemorySeriesStorage(&cfg.storage) remoteStorage = remote.New(&cfg.remote) sampleAppender = storage.Fanout{memStorage} ) if remoteStorage != nil { sampleAppender = append(sampleAppender, remoteStorage) reloadables = append(reloadables, remoteStorage) } var ( notifier = notifier.New(&cfg.notifier) targetManager = retrieval.NewTargetManager(sampleAppender) queryEngine = promql.NewEngine(memStorage, &cfg.queryEngine) ) ruleManager := rules.NewManager(&rules.ManagerOptions{ SampleAppender: sampleAppender, Notifier: notifier, QueryEngine: queryEngine, ExternalURL: cfg.web.ExternalURL, }) flags := map[string]string{} cfg.fs.VisitAll(func(f *flag.Flag) { flags[f.Name] = f.Value.String() }) version := &web.PrometheusVersion{ Version: version.Version, Revision: version.Revision, Branch: version.Branch, BuildUser: version.BuildUser, BuildDate: version.BuildDate, GoVersion: version.GoVersion, } webHandler := web.New(memStorage, queryEngine, targetManager, ruleManager, version, flags, &cfg.web) reloadables = append(reloadables, targetManager, ruleManager, webHandler, notifier) if !reloadConfig(cfg.configFile, reloadables...) { return 1 } // Wait for reload or termination signals. Start the handler for SIGHUP as // early as possible, but ignore it until we are ready to handle reloading // our config. hup := make(chan os.Signal) hupReady := make(chan bool) signal.Notify(hup, syscall.SIGHUP) go func() { <-hupReady for { select { case <-hup: case <-webHandler.Reload(): } reloadConfig(cfg.configFile, reloadables...) } }() // Start all components. The order is NOT arbitrary. if err := memStorage.Start(); err != nil { log.Errorln("Error opening memory series storage:", err) return 1 } defer func() { if err := memStorage.Stop(); err != nil { log.Errorln("Error stopping storage:", err) } }() if remoteStorage != nil { prometheus.MustRegister(remoteStorage) go remoteStorage.Run() defer remoteStorage.Stop() } // The storage has to be fully initialized before registering. prometheus.MustRegister(memStorage) prometheus.MustRegister(notifier) prometheus.MustRegister(configSuccess) prometheus.MustRegister(configSuccessTime) // The notifieris a dependency of the rule manager. It has to be // started before and torn down afterwards. go notifier.Run() defer notifier.Stop() go ruleManager.Run() defer ruleManager.Stop() go targetManager.Run() defer targetManager.Stop() // Shutting down the query engine before the rule manager will cause pending queries // to be canceled and ensures a quick shutdown of the rule manager. defer queryEngine.Stop() go webHandler.Run() // Wait for reload or termination signals. close(hupReady) // Unblock SIGHUP handler. term := make(chan os.Signal) signal.Notify(term, os.Interrupt, syscall.SIGTERM) select { case <-term: log.Warn("Received SIGTERM, exiting gracefully...") case <-webHandler.Quit(): log.Warn("Received termination request via web service, exiting gracefully...") case err := <-webHandler.ListenError(): log.Errorln("Error starting web server, exiting gracefully:", err) } log.Info("See you next time!") return 0 }
func Main() int { if err := parse(os.Args[1:]); err != nil { return 2 } versionInfoTmpl.Execute(os.Stdout, BuildInfo) if cfg.printVersion { return 0 } memStorage := local.NewMemorySeriesStorage(&cfg.storage) var ( sampleAppender storage.SampleAppender remoteStorageQueues []*remote.StorageQueueManager ) if cfg.opentsdbURL == "" && cfg.influxdbURL == "" { log.Warnf("No remote storage URLs provided; not sending any samples to long-term storage") sampleAppender = memStorage } else { fanout := storage.Fanout{memStorage} addRemoteStorage := func(c remote.StorageClient) { qm := remote.NewStorageQueueManager(c, 100*1024) fanout = append(fanout, qm) remoteStorageQueues = append(remoteStorageQueues, qm) } if cfg.opentsdbURL != "" { addRemoteStorage(opentsdb.NewClient(cfg.opentsdbURL, cfg.remoteStorageTimeout)) } if cfg.influxdbURL != "" { addRemoteStorage(influxdb.NewClient(cfg.influxdbURL, cfg.remoteStorageTimeout, cfg.influxdbDatabase, cfg.influxdbRetentionPolicy)) } sampleAppender = fanout } var ( notificationHandler = notification.NewNotificationHandler(&cfg.notification) targetManager = retrieval.NewTargetManager(sampleAppender) queryEngine = promql.NewEngine(memStorage, &cfg.queryEngine) ) ruleManager := rules.NewManager(&rules.ManagerOptions{ SampleAppender: sampleAppender, NotificationHandler: notificationHandler, QueryEngine: queryEngine, PrometheusURL: cfg.prometheusURL, PathPrefix: cfg.web.PathPrefix, }) flags := map[string]string{} cfg.fs.VisitAll(func(f *flag.Flag) { flags[f.Name] = f.Value.String() }) status := &web.PrometheusStatus{ BuildInfo: BuildInfo, TargetPools: targetManager.Pools, Rules: ruleManager.Rules, Flags: flags, Birth: time.Now(), } webHandler := web.New(memStorage, queryEngine, ruleManager, status, &cfg.web) if !reloadConfig(cfg.configFile, status, targetManager, ruleManager) { os.Exit(1) } // Wait for reload or termination signals. Start the handler for SIGHUP as // early as possible, but ignore it until we are ready to handle reloading // our config. hup := make(chan os.Signal) hupReady := make(chan bool) signal.Notify(hup, syscall.SIGHUP) go func() { <-hupReady for range hup { reloadConfig(cfg.configFile, status, targetManager, ruleManager) } }() // Start all components. if err := memStorage.Start(); err != nil { log.Errorln("Error opening memory series storage:", err) return 1 } defer func() { if err := memStorage.Stop(); err != nil { log.Errorln("Error stopping storage:", err) } }() // The storage has to be fully initialized before registering. registry.MustRegister(memStorage) registry.MustRegister(notificationHandler) for _, q := range remoteStorageQueues { registry.MustRegister(q) go q.Run() defer q.Stop() } go ruleManager.Run() defer ruleManager.Stop() go notificationHandler.Run() defer notificationHandler.Stop() go targetManager.Run() defer targetManager.Stop() defer queryEngine.Stop() go webHandler.Run() // Wait for reload or termination signals. close(hupReady) // Unblock SIGHUP handler. term := make(chan os.Signal) signal.Notify(term, os.Interrupt, syscall.SIGTERM) select { case <-term: log.Warn("Received SIGTERM, exiting gracefully...") case <-webHandler.Quit(): log.Warn("Received termination request via web service, exiting gracefully...") } close(hup) log.Info("See you next time!") return 0 }
// Main manages the startup and shutdown lifecycle of the entire Prometheus server. func Main() int { if err := parse(os.Args[1:]); err != nil { log.Error(err) return 2 } if cfg.printVersion { fmt.Fprintln(os.Stdout, version.Print("prometheus")) return 0 } log.Infoln("Starting prometheus", version.Info()) log.Infoln("Build context", version.BuildContext()) var ( sampleAppender = storage.Fanout{} reloadables []Reloadable ) var localStorage local.Storage switch cfg.localStorageEngine { case "persisted": localStorage = local.NewMemorySeriesStorage(&cfg.storage) sampleAppender = storage.Fanout{localStorage} case "none": localStorage = &local.NoopStorage{} default: log.Errorf("Invalid local storage engine %q", cfg.localStorageEngine) return 1 } remoteStorage, err := remote.New(&cfg.remote) if err != nil { log.Errorf("Error initializing remote storage: %s", err) return 1 } if remoteStorage != nil { sampleAppender = append(sampleAppender, remoteStorage) reloadables = append(reloadables, remoteStorage) } reloadableRemoteStorage := remote.NewConfigurable() sampleAppender = append(sampleAppender, reloadableRemoteStorage) reloadables = append(reloadables, reloadableRemoteStorage) var ( notifier = notifier.New(&cfg.notifier) targetManager = retrieval.NewTargetManager(sampleAppender) queryEngine = promql.NewEngine(localStorage, &cfg.queryEngine) ctx, cancelCtx = context.WithCancel(context.Background()) ) ruleManager := rules.NewManager(&rules.ManagerOptions{ SampleAppender: sampleAppender, Notifier: notifier, QueryEngine: queryEngine, Context: ctx, ExternalURL: cfg.web.ExternalURL, }) cfg.web.Context = ctx cfg.web.Storage = localStorage cfg.web.QueryEngine = queryEngine cfg.web.TargetManager = targetManager cfg.web.RuleManager = ruleManager cfg.web.Version = &web.PrometheusVersion{ Version: version.Version, Revision: version.Revision, Branch: version.Branch, BuildUser: version.BuildUser, BuildDate: version.BuildDate, GoVersion: version.GoVersion, } cfg.web.Flags = map[string]string{} cfg.fs.VisitAll(func(f *flag.Flag) { cfg.web.Flags[f.Name] = f.Value.String() }) webHandler := web.New(&cfg.web) reloadables = append(reloadables, targetManager, ruleManager, webHandler, notifier) if err := reloadConfig(cfg.configFile, reloadables...); err != nil { log.Errorf("Error loading config: %s", err) return 1 } // Wait for reload or termination signals. Start the handler for SIGHUP as // early as possible, but ignore it until we are ready to handle reloading // our config. hup := make(chan os.Signal) hupReady := make(chan bool) signal.Notify(hup, syscall.SIGHUP) go func() { <-hupReady for { select { case <-hup: if err := reloadConfig(cfg.configFile, reloadables...); err != nil { log.Errorf("Error reloading config: %s", err) } case rc := <-webHandler.Reload(): if err := reloadConfig(cfg.configFile, reloadables...); err != nil { log.Errorf("Error reloading config: %s", err) rc <- err } else { rc <- nil } } } }() // Start all components. The order is NOT arbitrary. if err := localStorage.Start(); err != nil { log.Errorln("Error opening memory series storage:", err) return 1 } defer func() { if err := localStorage.Stop(); err != nil { log.Errorln("Error stopping storage:", err) } }() if remoteStorage != nil { remoteStorage.Start() defer remoteStorage.Stop() } defer reloadableRemoteStorage.Stop() // The storage has to be fully initialized before registering. if instrumentedStorage, ok := localStorage.(prometheus.Collector); ok { prometheus.MustRegister(instrumentedStorage) } prometheus.MustRegister(notifier) prometheus.MustRegister(configSuccess) prometheus.MustRegister(configSuccessTime) // The notifier is a dependency of the rule manager. It has to be // started before and torn down afterwards. go notifier.Run() defer notifier.Stop() go ruleManager.Run() defer ruleManager.Stop() go targetManager.Run() defer targetManager.Stop() // Shutting down the query engine before the rule manager will cause pending queries // to be canceled and ensures a quick shutdown of the rule manager. defer cancelCtx() go webHandler.Run() // Wait for reload or termination signals. close(hupReady) // Unblock SIGHUP handler. term := make(chan os.Signal) signal.Notify(term, os.Interrupt, syscall.SIGTERM) select { case <-term: log.Warn("Received SIGTERM, exiting gracefully...") case <-webHandler.Quit(): log.Warn("Received termination request via web service, exiting gracefully...") case err := <-webHandler.ListenError(): log.Errorln("Error starting web server, exiting gracefully:", err) } log.Info("See you next time!") return 0 }