func New( logger *gosteno.Logger, host string, config *doppler_config.Config, storeAdapter storeadapter.StoreAdapter, messageDrainBufferSize uint, dropsondeOrigin string, websocketWriteTimeout time.Duration, dialTimeout time.Duration, ) (*Doppler, error) { doppler := &Doppler{ Logger: logger, storeAdapter: storeAdapter, dropsondeVerifiedBytesChan: make(chan []byte), } keepAliveInterval := 30 * time.Second appStoreCache := cache.NewAppServiceCache() doppler.appStoreWatcher, doppler.newAppServiceChan, doppler.deletedAppServiceChan = store.NewAppServiceStoreWatcher(storeAdapter, appStoreCache, logger) doppler.batcher = initializeMetrics(config.MetricBatchIntervalMilliseconds) doppler.envelopeChan = make(chan *events.Envelope) doppler.udpListener, doppler.dropsondeBytesChan = listeners.NewUDPListener( fmt.Sprintf("%s:%d", host, config.IncomingUDPPort), doppler.batcher, logger, "udpListener", ) var err error if config.EnableTLSTransport { tlsConfig := &config.TLSListenerConfig addr := fmt.Sprintf("%s:%d", host, tlsConfig.Port) contextName := "tlsListener" doppler.tlsListener, err = listeners.NewTCPListener(contextName, addr, tlsConfig, doppler.envelopeChan, doppler.batcher, logger) if err != nil { return nil, err } } addr := fmt.Sprintf("%s:%d", host, config.IncomingTCPPort) contextName := "tcpListener" doppler.tcpListener, err = listeners.NewTCPListener(contextName, addr, nil, doppler.envelopeChan, doppler.batcher, logger) doppler.signatureVerifier = signature.NewVerifier(logger, config.SharedSecret) doppler.dropsondeUnmarshallerCollection = dropsonde_unmarshaller.NewDropsondeUnmarshallerCollection(logger, config.UnmarshallerCount) blacklist := blacklist.New(config.BlackListIps, logger) metricTTL := time.Duration(config.ContainerMetricTTLSeconds) * time.Second sinkTimeout := time.Duration(config.SinkInactivityTimeoutSeconds) * time.Second sinkIOTimeout := time.Duration(config.SinkIOTimeoutSeconds) * time.Second doppler.sinkManager = sinkmanager.New( config.MaxRetainedLogMessages, config.SinkSkipCertVerify, blacklist, logger, messageDrainBufferSize, dropsondeOrigin, sinkTimeout, sinkIOTimeout, metricTTL, dialTimeout, ) doppler.Infof("Listening for GRPC connections on %d", config.GRPCPort) grpcListener, err := net.Listen("tcp", fmt.Sprintf(":%d", config.GRPCPort)) if err != nil { return nil, err } grpcServer := grpc.NewServer() plumbing.RegisterDopplerServer(grpcServer, doppler.sinkManager) go grpcServer.Serve(grpcListener) doppler.messageRouter = sinkserver.NewMessageRouter(doppler.sinkManager, logger) doppler.websocketServer, err = websocketserver.New( fmt.Sprintf(":%d", config.OutgoingPort), doppler.sinkManager, websocketWriteTimeout, keepAliveInterval, config.MessageDrainBufferSize, dropsondeOrigin, doppler.batcher, logger, ) if err != nil { return nil, fmt.Errorf("Failed to create the websocket server: %s", err.Error()) } monitorInterval := time.Duration(config.MonitorIntervalSeconds) * time.Second doppler.openFileMonitor = monitor.NewLinuxFD(monitorInterval, logger) doppler.uptimeMonitor = monitor.NewUptime(monitorInterval) return doppler, nil }
"github.com/cloudfoundry/sonde-go/events" ) const ( interval = 100 * time.Millisecond ) var _ = Describe("Uptime", func() { var ( uptime *monitor.Uptime wg sync.WaitGroup ) BeforeEach(func() { fakeEventEmitter.Reset() uptime = monitor.NewUptime(interval) wg.Add(1) go func() { defer wg.Done() uptime.Start() }() }) Context("stops automatically", func() { AfterEach(func() { uptime.Stop() wg.Wait() }) var fetchValueMetrics = func() []*events.ValueMetric {
func main() { flag.Parse() config, err := config.ParseConfig(*logLevel, *configFile) if err != nil { panic(fmt.Errorf("Unable to parse config: %s", err)) } httpsetup.SetInsecureSkipVerify(config.SkipCertVerify) ipAddress, err := localip.LocalIP() if err != nil { panic(fmt.Errorf("Unable to resolve own IP address: %s", err)) } log := logger.NewLogger(*logLevel, *logFilePath, "loggregator trafficcontroller", config.Syslog) log.Info("Startup: Setting up the loggregator traffic controller") batcher, err := initializeMetrics("LoggregatorTrafficController", net.JoinHostPort(config.MetronHost, strconv.Itoa(config.MetronPort))) if err != nil { log.Errorf("Error initializing dropsonde: %s", err) } go func() { err := http.ListenAndServe(net.JoinHostPort("localhost", pprofPort), nil) if err != nil { log.Errorf("Error starting pprof server: %s", err.Error()) } }() monitorInterval := time.Duration(config.MonitorIntervalSeconds) * time.Second uptimeMonitor := monitor.NewUptime(monitorInterval) go uptimeMonitor.Start() defer uptimeMonitor.Stop() openFileMonitor := monitor.NewLinuxFD(monitorInterval, log) go openFileMonitor.Start() defer openFileMonitor.Stop() etcdAdapter := defaultStoreAdapterProvider(config) err = etcdAdapter.Connect() if err != nil { panic(fmt.Errorf("Unable to connect to ETCD: %s", err)) } logAuthorizer := authorization.NewLogAccessAuthorizer(*disableAccessControl, config.ApiHost) uaaClient := uaa_client.NewUaaClient(config.UaaHost, config.UaaClient, config.UaaClientSecret) adminAuthorizer := authorization.NewAdminAccessAuthorizer(*disableAccessControl, &uaaClient) // TODO: The preferredProtocol of udp tells the finder to pull out the Doppler URLs from the legacy ETCD endpoint. // Eventually we'll have a separate websocket client pool finder := dopplerservice.NewFinder(etcdAdapter, int(config.DopplerPort), []string{"udp"}, "", log) finder.Start() // Draining the finder's events channel in order to not block the finder from handling etcd events. go func() { for { finder.Next() } }() var accessMiddleware, legacyAccessMiddleware func(middleware.HttpHandler) *middleware.AccessHandler if config.SecurityEventLog != "" { accessLog, err := os.OpenFile(config.SecurityEventLog, os.O_APPEND|os.O_WRONLY, os.ModeAppend) if err != nil { panic(fmt.Errorf("Unable to open access log: %s", err)) } defer func() { accessLog.Sync() accessLog.Close() }() accessLogger := accesslogger.New(accessLog, log) accessMiddleware = middleware.Access(accessLogger, ipAddress, config.OutgoingDropsondePort, log) legacyAccessMiddleware = middleware.Access(accessLogger, ipAddress, config.OutgoingPort, log) } dopplerCgc := channel_group_connector.NewChannelGroupConnector(finder, newDropsondeWebsocketListener, marshaller.DropsondeLogMessage, batcher, log) dopplerHandler := http.Handler(dopplerproxy.NewDopplerProxy(logAuthorizer, adminAuthorizer, dopplerCgc, dopplerproxy.TranslateFromDropsondePath, "doppler."+config.SystemDomain, log)) if accessMiddleware != nil { dopplerHandler = accessMiddleware(dopplerHandler) } startOutgoingProxy(net.JoinHostPort(ipAddress, strconv.FormatUint(uint64(config.OutgoingDropsondePort), 10)), dopplerHandler) legacyCgc := channel_group_connector.NewChannelGroupConnector(finder, newLegacyWebsocketListener, marshaller.LoggregatorLogMessage, batcher, log) legacyHandler := http.Handler(dopplerproxy.NewDopplerProxy(logAuthorizer, adminAuthorizer, legacyCgc, dopplerproxy.TranslateFromLegacyPath, "loggregator."+config.SystemDomain, log)) if legacyAccessMiddleware != nil { legacyHandler = legacyAccessMiddleware(legacyHandler) } startOutgoingProxy(net.JoinHostPort(ipAddress, strconv.FormatUint(uint64(config.OutgoingPort), 10)), legacyHandler) killChan := signalmanager.RegisterKillSignalChannel() dumpChan := signalmanager.RegisterGoRoutineDumpSignalChannel() for { select { case <-dumpChan: signalmanager.DumpGoRoutine() case <-killChan: log.Info("Shutting down") return } } }