func main() { c := config.DefaultConfig() logCounter := vcap.NewLogCounter() if configFile != "" { c = config.InitConfigFromFile(configFile) } InitLoggerFromConfig(c, logCounter) logger := steno.NewLogger("router.main") err := dropsonde.Initialize(c.Logging.MetronAddress, c.Logging.JobName) if err != nil { logger.Errorf("Dropsonde failed to initialize: %s", err.Error()) os.Exit(1) } // setup number of procs if c.GoMaxProcs != 0 { runtime.GOMAXPROCS(c.GoMaxProcs) } if c.DebugAddr != "" { cf_debug_server.Run(c.DebugAddr) } natsServers := c.NatsServers() var natsClient yagnats.NATSConn attempts := 3 for attempts > 0 { natsClient, err = yagnats.Connect(natsServers) if err == nil { break } else { attempts-- time.Sleep(100 * time.Millisecond) } } if err != nil { logger.Errorf("Error connecting to NATS: %s\n", err) os.Exit(1) } natsClient.AddClosedCB(func(conn *nats.Conn) { logger.Errorf("Close on NATS client. nats.Conn: %+v", *conn) os.Exit(1) }) registry := rregistry.NewRouteRegistry(c, natsClient) if c.RoutingApiEnabled() { logger.Info("Setting up routing_api route fetcher") tokenFetcher := token_fetcher.NewTokenFetcher(&c.OAuth) routingApiUri := fmt.Sprintf("%s:%d", c.RoutingApi.Uri, c.RoutingApi.Port) routingApiClient := routing_api.NewClient(routingApiUri) routeFetcher := route_fetcher.NewRouteFetcher(steno.NewLogger("router.route_fetcher"), tokenFetcher, registry, c, routingApiClient, 1) routeFetcher.StartFetchCycle() routeFetcher.StartEventCycle() } varz := rvarz.NewVarz(registry) accessLogger, err := access_log.CreateRunningAccessLogger(c) if err != nil { logger.Fatalf("Error creating access logger: %s\n", err) } args := proxy.ProxyArgs{ EndpointTimeout: c.EndpointTimeout, Ip: c.Ip, TraceKey: c.TraceKey, Registry: registry, Reporter: varz, AccessLogger: accessLogger, SecureCookies: c.SecureCookies, } p := proxy.NewProxy(args) router, err := router.NewRouter(c, p, natsClient, registry, varz, logCounter) if err != nil { logger.Errorf("An error occurred: %s", err.Error()) os.Exit(1) } signals := make(chan os.Signal, 1) signal.Notify(signals, syscall.SIGTERM, syscall.SIGINT, syscall.SIGUSR1) errChan := router.Run() logger.Info("gorouter.started") select { case err := <-errChan: if err != nil { logger.Errorf("Error occurred: %s", err.Error()) os.Exit(1) } case sig := <-signals: go func() { for sig := range signals { logger.Infod( map[string]interface{}{ "signal": sig.String(), }, "gorouter.signal.ignored", ) } }() if sig == syscall.SIGUSR1 { logger.Infod( map[string]interface{}{ "timeout": (c.DrainTimeout).String(), }, "gorouter.draining", ) router.Drain(c.DrainTimeout) } stoppingAt := time.Now() logger.Info("gorouter.stopping") router.Stop() logger.Infod( map[string]interface{}{ "took": time.Since(stoppingAt).String(), }, "gorouter.stopped", ) } os.Exit(0) }
func main() { c := config.DefaultConfig() logCounter := vcap.NewLogCounter() InitLoggerFromConfig(c, logCounter) if configFile != "" { c = config.InitConfigFromFile(configFile) } // setup number of procs if c.GoMaxProcs != 0 { runtime.GOMAXPROCS(c.GoMaxProcs) } InitLoggerFromConfig(c, logCounter) logger := steno.NewLogger("router.main") natsMembers := make([]string, len(c.Nats)) for _, info := range c.Nats { uri := url.URL{ Scheme: "nats", User: url.UserPassword(info.User, info.Pass), Host: fmt.Sprintf("%s:%d", info.Host, info.Port), } natsMembers = append(natsMembers, uri.String()) } natsClient := yagnats.NewApceraClientWrapper(natsMembers) err := natsClient.Connect() if err != nil { logger.Fatalf("Error connecting to NATS: %s\n", err) } registry := rregistry.NewRouteRegistry(c, natsClient) varz := rvarz.NewVarz(registry) accessLogger, err := access_log.CreateRunningAccessLogger(c) if err != nil { logger.Fatalf("Error creating access logger: %s\n", err) } args := proxy.ProxyArgs{ EndpointTimeout: c.EndpointTimeout, Ip: c.Ip, TraceKey: c.TraceKey, Registry: registry, Reporter: varz, AccessLogger: accessLogger, } p := proxy.NewProxy(args) router, err := router.NewRouter(c, p, natsClient, registry, varz, logCounter) if err != nil { logger.Errorf("An error occurred: %s", err.Error()) os.Exit(1) } signals := make(chan os.Signal, 1) signal.Notify(signals, syscall.SIGTERM, syscall.SIGINT, syscall.SIGUSR1) errChan := router.Run() logger.Info("gorouter.started") select { case err := <-errChan: if err != nil { logger.Errorf("Error occurred: %s", err.Error()) os.Exit(1) } case sig := <-signals: go func() { for sig := range signals { logger.Infod( map[string]interface{}{ "signal": sig.String(), }, "gorouter.signal.ignored", ) } }() if sig == syscall.SIGUSR1 { logger.Infod( map[string]interface{}{ "timeout": (c.DrainTimeout).String(), }, "gorouter.draining", ) router.Drain(c.DrainTimeout) } stoppingAt := time.Now() logger.Info("gorouter.stopping") router.Stop() logger.Infod( map[string]interface{}{ "took": time.Since(stoppingAt).String(), }, "gorouter.stopped", ) } os.Exit(0) }