func main() { sigCh := make(chan os.Signal, 1) signal.Notify(sigCh, syscall.SIGTERM, syscall.SIGUSR1) var opts struct { ConfigFile string `short:"f" long:"config-file" description:"specifying a config file"` ConfigType string `short:"t" long:"config-type" description:"specifying config type (toml, yaml, json)" default:"toml"` LogLevel string `short:"l" long:"log-level" description:"specifying log level"` LogPlain bool `short:"p" long:"log-plain" description:"use plain format for logging (json by default)"` UseSyslog string `short:"s" long:"syslog" description:"use syslogd"` Facility string `long:"syslog-facility" description:"specify syslog facility"` DisableStdlog bool `long:"disable-stdlog" description:"disable standard logging"` CPUs int `long:"cpus" description:"specify the number of CPUs to be used"` Ops bool `long:"openswitch" description:"openswitch mode"` GrpcHosts string `long:"api-hosts" description:"specify the hosts that gobgpd listens on" default:":50051"` GracefulRestart bool `short:"r" long:"graceful-restart" description:"flag restart-state in graceful-restart capability"` Dry bool `short:"d" long:"dry-run" description:"check configuration"` PProfHost string `long:"pprof-host" description:"specify the host that gobgpd listens on for pprof" default:"localhost:6060"` PProfDisable bool `long:"pprof-disable" description:"disable pprof profiling"` } _, err := flags.Parse(&opts) if err != nil { os.Exit(1) } if opts.CPUs == 0 { runtime.GOMAXPROCS(runtime.NumCPU()) } else { if runtime.NumCPU() < opts.CPUs { log.Errorf("Only %d CPUs are available but %d is specified", runtime.NumCPU(), opts.CPUs) os.Exit(1) } runtime.GOMAXPROCS(opts.CPUs) } if !opts.PProfDisable { go func() { log.Println(http.ListenAndServe(opts.PProfHost, nil)) }() } switch opts.LogLevel { case "debug": log.SetLevel(log.DebugLevel) case "info": log.SetLevel(log.InfoLevel) default: log.SetLevel(log.InfoLevel) } if opts.DisableStdlog == true { log.SetOutput(ioutil.Discard) } else { log.SetOutput(os.Stdout) } if opts.UseSyslog != "" { dst := strings.SplitN(opts.UseSyslog, ":", 2) network := "" addr := "" if len(dst) == 2 { network = dst[0] addr = dst[1] } facility := syslog.Priority(0) switch opts.Facility { case "kern": facility = syslog.LOG_KERN case "user": facility = syslog.LOG_USER case "mail": facility = syslog.LOG_MAIL case "daemon": facility = syslog.LOG_DAEMON case "auth": facility = syslog.LOG_AUTH case "syslog": facility = syslog.LOG_SYSLOG case "lpr": facility = syslog.LOG_LPR case "news": facility = syslog.LOG_NEWS case "uucp": facility = syslog.LOG_UUCP case "cron": facility = syslog.LOG_CRON case "authpriv": facility = syslog.LOG_AUTHPRIV case "ftp": facility = syslog.LOG_FTP case "local0": facility = syslog.LOG_LOCAL0 case "local1": facility = syslog.LOG_LOCAL1 case "local2": facility = syslog.LOG_LOCAL2 case "local3": facility = syslog.LOG_LOCAL3 case "local4": facility = syslog.LOG_LOCAL4 case "local5": facility = syslog.LOG_LOCAL5 case "local6": facility = syslog.LOG_LOCAL6 case "local7": facility = syslog.LOG_LOCAL7 } hook, err := logrus_syslog.NewSyslogHook(network, addr, syslog.LOG_INFO|facility, "bgpd") if err != nil { log.Error("Unable to connect to syslog daemon, ", opts.UseSyslog) os.Exit(1) } else { log.AddHook(hook) } } if opts.LogPlain { if opts.DisableStdlog { log.SetFormatter(&log.TextFormatter{ DisableColors: true, }) } } else { log.SetFormatter(&log.JSONFormatter{}) } configCh := make(chan *config.BgpConfigSet) if opts.Dry { go config.ReadConfigfileServe(opts.ConfigFile, opts.ConfigType, configCh) c := <-configCh if opts.LogLevel == "debug" { p.Println(c) } os.Exit(0) } log.Info("gobgpd started") bgpServer := server.NewBgpServer() go bgpServer.Serve() // start grpc Server grpcServer := api.NewGrpcServer(bgpServer, opts.GrpcHosts) go func() { if err := grpcServer.Serve(); err != nil { log.Fatalf("failed to listen grpc port: %s", err) } }() if opts.Ops { m, err := ops.NewOpsManager(opts.GrpcHosts) if err != nil { log.Errorf("Failed to start ops config manager: %s", err) os.Exit(1) } log.Info("Coordination with OpenSwitch") m.Serve() } else if opts.ConfigFile != "" { go config.ReadConfigfileServe(opts.ConfigFile, opts.ConfigType, configCh) } var c *config.BgpConfigSet = nil for { select { case newConfig := <-configCh: var added, deleted, updated []config.Neighbor var updatePolicy bool if c == nil { c = newConfig if err := bgpServer.Start(&newConfig.Global); err != nil { log.Fatalf("failed to set global config: %s", err) } if newConfig.Zebra.Config.Enabled { if err := bgpServer.StartZebraClient(&newConfig.Zebra); err != nil { log.Fatalf("failed to set zebra config: %s", err) } } if len(newConfig.Collector.Config.Url) > 0 { if err := bgpServer.StartCollector(&newConfig.Collector.Config); err != nil { log.Fatalf("failed to set collector config: %s", err) } } for _, c := range newConfig.RpkiServers { if err := bgpServer.AddRpki(&c.Config); err != nil { log.Fatalf("failed to set rpki config: %s", err) } } for _, c := range newConfig.BmpServers { if err := bgpServer.AddBmp(&c.Config); err != nil { log.Fatalf("failed to set bmp config: %s", err) } } for _, c := range newConfig.MrtDump { if len(c.Config.FileName) == 0 { continue } if err := bgpServer.EnableMrt(&c.Config); err != nil { log.Fatalf("failed to set mrt config: %s", err) } } p := config.ConfigSetToRoutingPolicy(newConfig) if err := bgpServer.UpdatePolicy(*p); err != nil { log.Fatalf("failed to set routing policy: %s", err) } added = newConfig.Neighbors if opts.GracefulRestart { for i, n := range added { if n.GracefulRestart.Config.Enabled { added[i].GracefulRestart.State.LocalRestarting = true } } } } else { added, deleted, updated, updatePolicy = config.UpdateConfig(c, newConfig) if updatePolicy { log.Info("Policy config is updated") p := config.ConfigSetToRoutingPolicy(newConfig) bgpServer.UpdatePolicy(*p) } c = newConfig } for i, p := range added { log.Infof("Peer %v is added", p.Config.NeighborAddress) bgpServer.AddNeighbor(&added[i]) } for i, p := range deleted { log.Infof("Peer %v is deleted", p.Config.NeighborAddress) bgpServer.DeleteNeighbor(&deleted[i]) } for i, p := range updated { log.Infof("Peer %v is updated", p.Config.NeighborAddress) u, _ := bgpServer.UpdateNeighbor(&updated[i]) updatePolicy = updatePolicy || u } if updatePolicy { bgpServer.SoftResetIn("", bgp.RouteFamily(0)) } case sig := <-sigCh: switch sig { case syscall.SIGKILL, syscall.SIGTERM: bgpServer.Shutdown() case syscall.SIGUSR1: runtime.GC() debug.FreeOSMemory() } } } }
func main() { sigCh := make(chan os.Signal, 1) signal.Notify(sigCh, syscall.SIGTERM, syscall.SIGUSR1) var opts struct { ConfigFile string `short:"f" long:"config-file" description:"specifying a config file"` ConfigType string `short:"t" long:"config-type" description:"specifying config type (toml, yaml, json)" default:"toml"` LogLevel string `short:"l" long:"log-level" description:"specifying log level"` LogPlain bool `short:"p" long:"log-plain" description:"use plain format for logging (json by default)"` UseSyslog string `short:"s" long:"syslog" description:"use syslogd"` Facility string `long:"syslog-facility" description:"specify syslog facility"` DisableStdlog bool `long:"disable-stdlog" description:"disable standard logging"` CPUs int `long:"cpus" description:"specify the number of CPUs to be used"` Ops bool `long:"openswitch" description:"openswitch mode"` GrpcHosts string `long:"api-hosts" description:"specify the hosts that gobgpd listens on" default:":50051"` GracefulRestart bool `short:"r" long:"graceful-restart" description:"flag restart-state in graceful-restart capability"` Dry bool `short:"d" long:"dry-run" description:"check configuration"` } _, err := flags.Parse(&opts) if err != nil { os.Exit(1) } if opts.CPUs == 0 { runtime.GOMAXPROCS(runtime.NumCPU()) } else { if runtime.NumCPU() < opts.CPUs { log.Errorf("Only %d CPUs are available but %d is specified", runtime.NumCPU(), opts.CPUs) os.Exit(1) } runtime.GOMAXPROCS(opts.CPUs) } go func() { log.Println(http.ListenAndServe("localhost:6060", nil)) }() switch opts.LogLevel { case "debug": log.SetLevel(log.DebugLevel) case "info": log.SetLevel(log.InfoLevel) default: log.SetLevel(log.InfoLevel) } if opts.DisableStdlog == true { log.SetOutput(ioutil.Discard) } else { log.SetOutput(os.Stdout) } if opts.UseSyslog != "" { dst := strings.SplitN(opts.UseSyslog, ":", 2) network := "" addr := "" if len(dst) == 2 { network = dst[0] addr = dst[1] } facility := syslog.Priority(0) switch opts.Facility { case "kern": facility = syslog.LOG_KERN case "user": facility = syslog.LOG_USER case "mail": facility = syslog.LOG_MAIL case "daemon": facility = syslog.LOG_DAEMON case "auth": facility = syslog.LOG_AUTH case "syslog": facility = syslog.LOG_SYSLOG case "lpr": facility = syslog.LOG_LPR case "news": facility = syslog.LOG_NEWS case "uucp": facility = syslog.LOG_UUCP case "cron": facility = syslog.LOG_CRON case "authpriv": facility = syslog.LOG_AUTHPRIV case "ftp": facility = syslog.LOG_FTP case "local0": facility = syslog.LOG_LOCAL0 case "local1": facility = syslog.LOG_LOCAL1 case "local2": facility = syslog.LOG_LOCAL2 case "local3": facility = syslog.LOG_LOCAL3 case "local4": facility = syslog.LOG_LOCAL4 case "local5": facility = syslog.LOG_LOCAL5 case "local6": facility = syslog.LOG_LOCAL6 case "local7": facility = syslog.LOG_LOCAL7 } hook, err := logrus_syslog.NewSyslogHook(network, addr, syslog.LOG_INFO|facility, "bgpd") if err != nil { log.Error("Unable to connect to syslog daemon, ", opts.UseSyslog) os.Exit(1) } else { log.AddHook(hook) } } if opts.LogPlain { if opts.DisableStdlog { log.SetFormatter(&log.TextFormatter{ DisableColors: true, }) } } else { log.SetFormatter(&log.JSONFormatter{}) } configCh := make(chan *config.BgpConfigSet) if opts.Dry { go config.ReadConfigfileServe(opts.ConfigFile, opts.ConfigType, configCh) c := <-configCh if opts.LogLevel == "debug" { p.Println(c) } os.Exit(0) } log.Info("gobgpd started") bgpServer := server.NewBgpServer() go bgpServer.Serve() // start grpc Server grpcServer := server.NewGrpcServer(opts.GrpcHosts, bgpServer.GrpcReqCh) go func() { if err := grpcServer.Serve(); err != nil { log.Fatalf("failed to listen grpc port: %s", err) } }() if opts.Ops { m, err := ops.NewOpsManager(bgpServer.GrpcReqCh) if err != nil { log.Errorf("Failed to start ops config manager: %s", err) os.Exit(1) } log.Info("Coordination with OpenSwitch") m.Serve() } else if opts.ConfigFile != "" { go config.ReadConfigfileServe(opts.ConfigFile, opts.ConfigType, configCh) } var c *config.BgpConfigSet = nil for { select { case newConfig := <-configCh: var added, deleted, updated []config.Neighbor var updatePolicy bool if c == nil { c = newConfig if err := bgpServer.SetGlobalType(newConfig.Global); err != nil { log.Fatalf("failed to set global config: %s", err) } if err := bgpServer.SetRpkiConfig(newConfig.RpkiServers); err != nil { log.Fatalf("failed to set rpki config: %s", err) } if err := bgpServer.SetBmpConfig(newConfig.BmpServers); err != nil { log.Fatalf("failed to set bmp config: %s", err) } if err := bgpServer.SetMrtConfig(newConfig.MrtDump); err != nil { log.Fatalf("failed to set mrt config: %s", err) } p := config.ConfigSetToRoutingPolicy(newConfig) if err := bgpServer.SetRoutingPolicy(*p); err != nil { log.Fatalf("failed to set routing policy: %s", err) } added = newConfig.Neighbors if opts.GracefulRestart { for i, n := range added { if n.GracefulRestart.Config.Enabled { added[i].GracefulRestart.State.LocalRestarting = true } } } } else { added, deleted, updated, updatePolicy = config.UpdateConfig(c, newConfig) if updatePolicy { log.Info("Policy config is updated") p := config.ConfigSetToRoutingPolicy(newConfig) bgpServer.UpdatePolicy(*p) } c = newConfig } for _, p := range added { log.Infof("Peer %v is added", p.Config.NeighborAddress) bgpServer.PeerAdd(p) } for _, p := range deleted { log.Infof("Peer %v is deleted", p.Config.NeighborAddress) bgpServer.PeerDelete(p) } for _, p := range updated { log.Infof("Peer %v is updated", p.Config.NeighborAddress) u, _ := bgpServer.PeerUpdate(p) updatePolicy = updatePolicy || u } if updatePolicy { // TODO: we want to apply the new policies to the existing // routes here. Sending SOFT_RESET_IN to all the peers works // for the change of in and import policies. SOFT_RESET_OUT is // necessary for the export policy but we can't blindly // execute SOFT_RESET_OUT because we unnecessarily advertize // the existing routes. Needs to investigate the changes of // policies and handle only affected peers. ch := make(chan *server.GrpcResponse) bgpServer.GrpcReqCh <- &server.GrpcRequest{ RequestType: server.REQ_NEIGHBOR_SOFT_RESET_IN, Name: "all", ResponseCh: ch, } <-ch } case sig := <-sigCh: switch sig { case syscall.SIGKILL, syscall.SIGTERM: bgpServer.Shutdown() case syscall.SIGUSR1: runtime.GC() debug.FreeOSMemory() } } } }