// // Copyright (C) 2014-2017 Nippon Telegraph and Telephone Corporation. // // 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 main import ( "fmt" "io/ioutil" "net/http" _ "net/http/pprof" "os" "os/signal" "runtime" "syscall" "github.com/jessevdk/go-flags" "github.com/kr/pretty" log "github.com/sirupsen/logrus" "golang.org/x/net/context" "google.golang.org/grpc" "google.golang.org/grpc/credentials" api "github.com/osrg/gobgp/api" "github.com/osrg/gobgp/config" "github.com/osrg/gobgp/packet/bgp" "github.com/osrg/gobgp/server" "github.com/osrg/gobgp/table" ) var version = "master" func serializeRouteTargets(l []string) ([][]byte, error) { rtList := make([]bgp.ExtendedCommunityInterface, 0, len(l)) for _, rtString := range l { rt, err := bgp.ParseRouteTarget(rtString) if err != nil { return nil, err } rtList = append(rtList, rt) } return bgp.SerializeExtendedCommunities(rtList) } func main() { sigCh := make(chan os.Signal, 1) signal.Notify(sigCh, syscall.SIGTERM) 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"` 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"` TLS bool `long:"tls" description:"enable TLS authentication for gRPC API"` TLSCertFile string `long:"tls-cert-file" description:"The TLS cert file"` TLSKeyFile string `long:"tls-key-file" description:"The TLS key file"` Version bool `long:"version" description:"show version number"` } _, err := flags.Parse(&opts) if err != nil { os.Exit(1) } if opts.Version { fmt.Println("gobgpd version", version) os.Exit(0) } 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 != "" { if err := addSyslogHook(opts.UseSyslog, opts.Facility); err != nil { log.Error("Unable to connect to syslog daemon, ", opts.UseSyslog) } } 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" { pretty.Println(c) } os.Exit(0) } log.Info("gobgpd started") bgpServer := server.NewBgpServer() go bgpServer.Serve() var grpcOpts []grpc.ServerOption if opts.TLS { creds, err := credentials.NewServerTLSFromFile(opts.TLSCertFile, opts.TLSKeyFile) if err != nil { log.Fatalf("Failed to generate credentials: %v", err) } grpcOpts = []grpc.ServerOption{grpc.Creds(creds)} } // start grpc Server apiServer := api.NewServer(bgpServer, grpc.NewServer(grpcOpts...), opts.GrpcHosts) go func() { if err := apiServer.Serve(); err != nil { log.Fatalf("failed to listen grpc port: %s", err) } }() if opts.ConfigFile != "" { go config.ReadConfigfileServe(opts.ConfigFile, opts.ConfigType, configCh) } var c *config.BgpConfigSet for { select { case newConfig := <-configCh: var added, deleted, updated []config.Neighbor var addedPg, deletedPg, updatedPg []config.PeerGroup var updatePolicy bool if c == nil { c = newConfig if _, err := apiServer.StartServer(context.Background(), &api.StartServerRequest{ Global: api.NewGlobalFromConfigStruct(&c.Global), }); err != nil { log.Fatalf("failed to set global config: %s", err) } if newConfig.Zebra.Config.Enabled { tps := c.Zebra.Config.RedistributeRouteTypeList l := make([]string, 0, len(tps)) for _, t := range tps { l = append(l, string(t)) } if _, err := apiServer.EnableZebra(context.Background(), &api.EnableZebraRequest{ Url: c.Zebra.Config.Url, RouteTypes: l, Version: uint32(c.Zebra.Config.Version), NexthopTriggerEnable: c.Zebra.Config.NexthopTriggerEnable, NexthopTriggerDelay: uint32(c.Zebra.Config.NexthopTriggerDelay), }); err != nil { log.Fatalf("failed to set zebra config: %s", err) } } if len(newConfig.Collector.Config.Url) > 0 { if _, err := apiServer.AddCollector(context.Background(), &api.AddCollectorRequest{ Url: c.Collector.Config.Url, DbName: c.Collector.Config.DbName, TableDumpInterval: c.Collector.Config.TableDumpInterval, }); err != nil { log.Fatalf("failed to set collector config: %s", err) } } for _, c := range newConfig.RpkiServers { if _, err := apiServer.AddRpki(context.Background(), &api.AddRpkiRequest{ Address: c.Config.Address, Port: c.Config.Port, Lifetime: c.Config.RecordLifetime, }); err != nil { log.Fatalf("failed to set rpki config: %s", err) } } for _, c := range newConfig.BmpServers { if _, err := apiServer.AddBmp(context.Background(), &api.AddBmpRequest{ Address: c.Config.Address, Port: c.Config.Port, Type: api.AddBmpRequest_MonitoringPolicy(c.Config.RouteMonitoringPolicy.ToInt()), }); err != nil { log.Fatalf("failed to set bmp config: %s", err) } } for _, vrf := range newConfig.Vrfs { rd, err := bgp.ParseRouteDistinguisher(vrf.Config.Rd) if err != nil { log.Fatalf("failed to load vrf rd config: %s", err) } rdbuf, _ := rd.Serialize() importRtList, err := serializeRouteTargets(vrf.Config.ImportRtList) if err != nil { log.Fatalf("failed to load vrf import rt config: %s", err) } exportRtList, err := serializeRouteTargets(vrf.Config.ExportRtList) if err != nil { log.Fatalf("failed to load vrf export rt config: %s", err) } if _, err := apiServer.AddVrf(context.Background(), &api.AddVrfRequest{ Vrf: &api.Vrf{ Name: vrf.Config.Name, Rd: rdbuf, Id: uint32(vrf.Config.Id), ImportRt: importRtList, ExportRt: exportRtList, }, }); err != nil { log.Fatalf("failed to set vrf config: %s", err) } } for _, c := range newConfig.MrtDump { if len(c.Config.FileName) == 0 { continue } if _, err := apiServer.EnableMrt(context.Background(), &api.EnableMrtRequest{ DumpType: int32(c.Config.DumpType.ToInt()), Filename: c.Config.FileName, Interval: c.Config.DumpInterval, }); err != nil { log.Fatalf("failed to set mrt config: %s", err) } } p := config.ConfigSetToRoutingPolicy(newConfig) rp, err := api.NewAPIRoutingPolicyFromConfigStruct(p) if err != nil { log.Warn(err) } else { apiServer.UpdatePolicy(context.Background(), &api.UpdatePolicyRequest{ Sets: rp.DefinedSet, Policies: rp.PolicyDefinition, }) } added = newConfig.Neighbors addedPg = newConfig.PeerGroups if opts.GracefulRestart { for i, n := range added { if n.GracefulRestart.Config.Enabled { added[i].GracefulRestart.State.LocalRestarting = true } } } } else { addedPg, deletedPg, updatedPg = config.UpdatePeerGroupConfig(c, newConfig) added, deleted, updated = config.UpdateNeighborConfig(c, newConfig) updatePolicy = config.CheckPolicyDifference(config.ConfigSetToRoutingPolicy(c), config.ConfigSetToRoutingPolicy(newConfig)) if updatePolicy { log.Info("Policy config is updated") p := config.ConfigSetToRoutingPolicy(newConfig) rp, err := api.NewAPIRoutingPolicyFromConfigStruct(p) if err != nil { log.Warn(err) } else { apiServer.UpdatePolicy(context.Background(), &api.UpdatePolicyRequest{ Sets: rp.DefinedSet, Policies: rp.PolicyDefinition, }) } } // global policy update if !newConfig.Global.ApplyPolicy.Config.Equal(&c.Global.ApplyPolicy.Config) { a := newConfig.Global.ApplyPolicy.Config toDefaultTable := func(r config.DefaultPolicyType) table.RouteType { var def table.RouteType switch r { case config.DEFAULT_POLICY_TYPE_ACCEPT_ROUTE: def = table.ROUTE_TYPE_ACCEPT case config.DEFAULT_POLICY_TYPE_REJECT_ROUTE: def = table.ROUTE_TYPE_REJECT } return def } toPolicies := func(r []string) []*table.Policy { p := make([]*table.Policy, 0, len(r)) for _, n := range r { p = append(p, &table.Policy{ Name: n, }) } return p } def := toDefaultTable(a.DefaultImportPolicy) ps := toPolicies(a.ImportPolicyList) apiServer.ReplacePolicyAssignment(context.Background(), &api.ReplacePolicyAssignmentRequest{ Assignment: api.NewAPIPolicyAssignmentFromTableStruct(&table.PolicyAssignment{ Name: "", Type: table.POLICY_DIRECTION_IMPORT, Policies: ps, Default: def, }), }) def = toDefaultTable(a.DefaultExportPolicy) ps = toPolicies(a.ExportPolicyList) apiServer.ReplacePolicyAssignment(context.Background(), &api.ReplacePolicyAssignmentRequest{ Assignment: api.NewAPIPolicyAssignmentFromTableStruct(&table.PolicyAssignment{ Name: "", Type: table.POLICY_DIRECTION_EXPORT, Policies: ps, Default: def, }), }) updatePolicy = true } c = newConfig } for _, pg := range addedPg { log.Infof("PeerGroup %s is added", pg.Config.PeerGroupName) if _, err := apiServer.AddPeerGroup(context.Background(), &api.AddPeerGroupRequest{ PeerGroup: api.NewPeerGroupFromConfigStruct(&pg), }); err != nil { log.Warn(err) } } for _, pg := range deletedPg { log.Infof("PeerGroup %s is deleted", pg.Config.PeerGroupName) if _, err := apiServer.DeletePeerGroup(context.Background(), &api.DeletePeerGroupRequest{ PeerGroup: api.NewPeerGroupFromConfigStruct(&pg), }); err != nil { log.Warn(err) } } for _, pg := range updatedPg { log.Infof("PeerGroup %v is updated", pg.State.PeerGroupName) if u, err := apiServer.UpdatePeerGroup(context.Background(), &api.UpdatePeerGroupRequest{ PeerGroup: api.NewPeerGroupFromConfigStruct(&pg), }); err != nil { log.Warn(err) } else { updatePolicy = updatePolicy || u.NeedsSoftResetIn } } for _, pg := range updatedPg { log.Infof("PeerGroup %s is updated", pg.Config.PeerGroupName) if _, err := apiServer.UpdatePeerGroup(context.Background(), &api.UpdatePeerGroupRequest{ PeerGroup: api.NewPeerGroupFromConfigStruct(&pg), }); err != nil { log.Warn(err) } } for _, dn := range newConfig.DynamicNeighbors { log.Infof("Dynamic Neighbor %s is added to PeerGroup %s", dn.Config.Prefix, dn.Config.PeerGroup) if _, err := apiServer.AddDynamicNeighbor(context.Background(), &api.AddDynamicNeighborRequest{ DynamicNeighbor: &api.DynamicNeighbor{ Prefix: dn.Config.Prefix, PeerGroup: dn.Config.PeerGroup, }, }); err != nil { log.Warn(err) } } for _, p := range added { log.Infof("Peer %v is added", p.State.NeighborAddress) if _, err := apiServer.AddNeighbor(context.Background(), &api.AddNeighborRequest{ Peer: api.NewPeerFromConfigStruct(&p), }); err != nil { log.Warn(err) } } for _, p := range deleted { log.Infof("Peer %v is deleted", p.State.NeighborAddress) if _, err := apiServer.DeleteNeighbor(context.Background(), &api.DeleteNeighborRequest{ Peer: api.NewPeerFromConfigStruct(&p), }); err != nil { log.Warn(err) } } for _, p := range updated { log.Infof("Peer %v is updated", p.State.NeighborAddress) if u, err := apiServer.UpdateNeighbor(context.Background(), &api.UpdateNeighborRequest{ Peer: api.NewPeerFromConfigStruct(&p), }); err != nil { log.Warn(err) } else { updatePolicy = updatePolicy || u.NeedsSoftResetIn } } if updatePolicy { if _, err := apiServer.SoftResetNeighbor(context.Background(), &api.SoftResetNeighborRequest{ Address: "", Direction: api.SoftResetNeighborRequest_IN, }); err != nil { log.Warn(err) } } case <-sigCh: bgpServer.Shutdown() } } }