func main() { // Load configuration. var config = config.New() if err := config.Load(os.Args[1:]); err != nil { fmt.Println(server.Usage() + "\n") fmt.Println(err.Error() + "\n") os.Exit(1) } else if config.ShowVersion { fmt.Println("etcd version", server.ReleaseVersion) os.Exit(0) } else if config.ShowHelp { fmt.Println(server.Usage() + "\n") os.Exit(0) } // Enable options. if config.VeryVeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Trace) } else if config.VeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Debug) } else if config.Verbose { log.Verbose = true } if config.CPUProfileFile != "" { profile(config.CPUProfileFile) } if config.DataDir == "" { log.Fatal("The data dir was not set and could not be guessed from machine name") } // Create data directory if it doesn't already exist. if err := os.MkdirAll(config.DataDir, 0744); err != nil { log.Fatalf("Unable to create path: %s", err) } // Warn people if they have an info file info := filepath.Join(config.DataDir, "info") if _, err := os.Stat(info); err == nil { log.Warnf("All cached configuration is now ignored. The file %s can be removed.", info) } var mbName string if config.Trace() { mbName = config.MetricsBucketName() runtime.SetBlockProfileRate(1) } mb := metrics.NewBucket(mbName) if config.GraphiteHost != "" { err := mb.Publish(config.GraphiteHost) if err != nil { panic(err) } } // Retrieve CORS configuration corsInfo, err := ehttp.NewCORSInfo(config.CorsOrigins) if err != nil { log.Fatal("CORS:", err) } // Create etcd key-value store and registry. store := store.New() registry := server.NewRegistry(store) // Create stats objects followersStats := server.NewRaftFollowersStats(config.Name) serverStats := server.NewRaftServerStats(config.Name) // Calculate all of our timeouts heartbeatInterval := time.Duration(config.Peer.HeartbeatInterval) * time.Millisecond electionTimeout := time.Duration(config.Peer.ElectionTimeout) * time.Millisecond dialTimeout := (3 * heartbeatInterval) + electionTimeout responseHeaderTimeout := (3 * heartbeatInterval) + electionTimeout // Create peer server psConfig := server.PeerServerConfig{ Name: config.Name, Scheme: config.PeerTLSInfo().Scheme(), URL: config.Peer.Addr, SnapshotCount: config.SnapshotCount, MaxClusterSize: config.MaxClusterSize, RetryTimes: config.MaxRetryAttempts, RetryInterval: config.RetryInterval, } ps := server.NewPeerServer(psConfig, registry, store, &mb, followersStats, serverStats) var psListener net.Listener if psConfig.Scheme == "https" { peerServerTLSConfig, err := config.PeerTLSInfo().ServerConfig() if err != nil { log.Fatal("peer server TLS error: ", err) } psListener, err = server.NewTLSListener(config.Peer.BindAddr, peerServerTLSConfig) if err != nil { log.Fatal("Failed to create peer listener: ", err) } } else { psListener, err = server.NewListener(config.Peer.BindAddr) if err != nil { log.Fatal("Failed to create peer listener: ", err) } } // Create raft transporter and server raftTransporter := server.NewTransporter(followersStats, serverStats, registry, heartbeatInterval, dialTimeout, responseHeaderTimeout) if psConfig.Scheme == "https" { raftClientTLSConfig, err := config.PeerTLSInfo().ClientConfig() if err != nil { log.Fatal("raft client TLS error: ", err) } raftTransporter.SetTLSConfig(*raftClientTLSConfig) } raftServer, err := raft.NewServer(config.Name, config.DataDir, raftTransporter, store, ps, "") if err != nil { log.Fatal(err) } raftServer.SetElectionTimeout(electionTimeout) raftServer.SetHeartbeatInterval(heartbeatInterval) ps.SetRaftServer(raftServer) // Create etcd server s := server.New(config.Name, config.Addr, ps, registry, store, &mb) if config.Trace() { s.EnableTracing() } var sListener net.Listener if config.EtcdTLSInfo().Scheme() == "https" { etcdServerTLSConfig, err := config.EtcdTLSInfo().ServerConfig() if err != nil { log.Fatal("etcd TLS error: ", err) } sListener, err = server.NewTLSListener(config.BindAddr, etcdServerTLSConfig) if err != nil { log.Fatal("Failed to create TLS etcd listener: ", err) } } else { sListener, err = server.NewListener(config.BindAddr) if err != nil { log.Fatal("Failed to create etcd listener: ", err) } } ps.SetServer(s) ps.Start(config.Snapshot, config.Discovery, config.Peers) go func() { log.Infof("peer server [name %s, listen on %s, advertised url %s]", ps.Config.Name, psListener.Addr(), ps.Config.URL) sHTTP := &ehttp.CORSHandler{ps.HTTPHandler(), corsInfo} log.Fatal(http.Serve(psListener, sHTTP)) }() log.Infof("etcd server [name %s, listen on %s, advertised url %s]", s.Name, sListener.Addr(), s.URL()) sHTTP := &ehttp.CORSHandler{s.HTTPHandler(), corsInfo} log.Fatal(http.Serve(sListener, sHTTP)) }
func main() { // Load configuration. var config = server.NewConfig() if err := config.Load(os.Args[1:]); err != nil { fmt.Println(server.Usage() + "\n") fmt.Println(err.Error() + "\n") os.Exit(1) } else if config.ShowVersion { fmt.Println(server.ReleaseVersion) os.Exit(0) } else if config.ShowHelp { fmt.Println(server.Usage() + "\n") os.Exit(0) } // Enable options. if config.VeryVeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Trace) } else if config.VeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Debug) } else if config.Verbose { log.Verbose = true } if config.CPUProfileFile != "" { profile(config.CPUProfileFile) } if config.DataDir == "" { log.Fatal("The data dir was not set and could not be guessed from machine name") } // Create data directory if it doesn't already exist. if err := os.MkdirAll(config.DataDir, 0744); err != nil { log.Fatalf("Unable to create path: %s", err) } // Load info object. info, err := config.Info() if err != nil { log.Fatal("info:", err) } // Retrieve TLS configuration. tlsConfig, err := info.EtcdTLS.Config() if err != nil { log.Fatal("Client TLS:", err) } peerTLSConfig, err := info.RaftTLS.Config() if err != nil { log.Fatal("Peer TLS:", err) } var mbName string if config.Trace() { mbName = config.MetricsBucketName() runtime.SetBlockProfileRate(1) } mb := metrics.NewBucket(mbName) if config.GraphiteHost != "" { err := mb.Publish(config.GraphiteHost) if err != nil { panic(err) } } // Create etcd key-value store and registry. store := store.New() registry := server.NewRegistry(store) // Create peer server. heartbeatTimeout := time.Duration(config.Peer.HeartbeatTimeout) * time.Millisecond electionTimeout := time.Duration(config.Peer.ElectionTimeout) * time.Millisecond ps := server.NewPeerServer(info.Name, config.DataDir, info.RaftURL, info.RaftListenHost, &peerTLSConfig, &info.RaftTLS, registry, store, config.SnapshotCount, heartbeatTimeout, electionTimeout, &mb) ps.MaxClusterSize = config.MaxClusterSize ps.RetryTimes = config.MaxRetryAttempts // Create client server. s := server.New(info.Name, info.EtcdURL, info.EtcdListenHost, &tlsConfig, &info.EtcdTLS, ps, registry, store, &mb) if err := s.AllowOrigins(config.CorsOrigins); err != nil { panic(err) } if config.Trace() { s.EnableTracing() } ps.SetServer(s) // Run peer server in separate thread while the client server blocks. go func() { log.Fatal(ps.ListenAndServe(config.Snapshot, config.Peers)) }() log.Fatal(s.ListenAndServe()) }
func main() { // Load configuration. var config = server.NewConfig() if err := config.Load(os.Args[1:]); err != nil { fmt.Println(server.Usage() + "\n") fmt.Println(err.Error() + "\n") os.Exit(1) } else if config.ShowVersion { fmt.Println(server.ReleaseVersion) os.Exit(0) } else if config.ShowHelp { fmt.Println(server.Usage() + "\n") os.Exit(0) } // Enable options. if config.VeryVeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Trace) } else if config.VeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Debug) } else if config.Verbose { log.Verbose = true } if config.CPUProfileFile != "" { profile(config.CPUProfileFile) } if config.DataDir == "" { log.Fatal("The data dir was not set and could not be guessed from machine name") } // Create data directory if it doesn't already exist. if err := os.MkdirAll(config.DataDir, 0744); err != nil { log.Fatalf("Unable to create path: %s", err) } // Load info object. info, err := config.Info() if err != nil { log.Fatal("info:", err) } // Retrieve TLS configuration. tlsConfig, err := info.EtcdTLS.Config() if err != nil { log.Fatal("Client TLS:", err) } peerTLSConfig, err := info.RaftTLS.Config() if err != nil { log.Fatal("Peer TLS:", err) } var mbName string if config.Trace() { mbName = config.MetricsBucketName() runtime.SetBlockProfileRate(1) } mb := metrics.NewBucket(mbName) if config.GraphiteHost != "" { err := mb.Publish(config.GraphiteHost) if err != nil { panic(err) } } // Retrieve CORS configuration corsInfo, err := ehttp.NewCORSInfo(config.CorsOrigins) if err != nil { log.Fatal("CORS:", err) } // Create etcd key-value store and registry. store := store.New() registry := server.NewRegistry(store) // Create stats objects followersStats := server.NewRaftFollowersStats(info.Name) serverStats := server.NewRaftServerStats(info.Name) // Calculate all of our timeouts heartbeatTimeout := time.Duration(config.Peer.HeartbeatTimeout) * time.Millisecond electionTimeout := time.Duration(config.Peer.ElectionTimeout) * time.Millisecond dialTimeout := (3 * heartbeatTimeout) + electionTimeout responseHeaderTimeout := (3 * heartbeatTimeout) + electionTimeout // Create peer server. psConfig := server.PeerServerConfig{ Name: info.Name, Scheme: peerTLSConfig.Scheme, URL: info.RaftURL, SnapshotCount: config.SnapshotCount, MaxClusterSize: config.MaxClusterSize, RetryTimes: config.MaxRetryAttempts, } ps := server.NewPeerServer(psConfig, registry, store, &mb, followersStats, serverStats) var psListener net.Listener if psConfig.Scheme == "https" { psListener, err = server.NewTLSListener(info.RaftListenHost, info.RaftTLS.CertFile, info.RaftTLS.KeyFile) } else { psListener, err = server.NewListener(info.RaftListenHost) } if err != nil { panic(err) } // Create Raft transporter and server raftTransporter := server.NewTransporter(followersStats, serverStats, registry, heartbeatTimeout, dialTimeout, responseHeaderTimeout) if psConfig.Scheme == "https" { raftTransporter.SetTLSConfig(peerTLSConfig.Client) } raftServer, err := raft.NewServer(info.Name, config.DataDir, raftTransporter, store, ps, "") if err != nil { log.Fatal(err) } raftServer.SetElectionTimeout(electionTimeout) raftServer.SetHeartbeatTimeout(heartbeatTimeout) ps.SetRaftServer(raftServer) // Create client server. s := server.New(info.Name, info.EtcdURL, ps, registry, store, &mb) if config.Trace() { s.EnableTracing() } var sListener net.Listener if tlsConfig.Scheme == "https" { sListener, err = server.NewTLSListener(info.EtcdListenHost, info.EtcdTLS.CertFile, info.EtcdTLS.KeyFile) } else { sListener, err = server.NewListener(info.EtcdListenHost) } if err != nil { panic(err) } ps.SetServer(s) ps.Start(config.Snapshot, config.Peers) // Run peer server in separate thread while the client server blocks. go func() { log.Infof("raft server [name %s, listen on %s, advertised url %s]", ps.Config.Name, psListener.Addr(), ps.Config.URL) sHTTP := &ehttp.CORSHandler{ps.HTTPHandler(), corsInfo} log.Fatal(http.Serve(psListener, sHTTP)) }() log.Infof("etcd server [name %s, listen on %s, advertised url %s]", s.Name, sListener.Addr(), s.URL()) sHTTP := &ehttp.CORSHandler{s.HTTPHandler(), corsInfo} log.Fatal(http.Serve(sListener, sHTTP)) }
// Run the etcd instance. func (e *Etcd) Run() { // Sanitize all the input fields. if err := e.Config.Sanitize(); err != nil { log.Fatalf("failed sanitizing configuration: %v", err) } // Force remove server configuration if specified. if e.Config.Force { e.Config.Reset() } // Enable options. if e.Config.VeryVeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Trace) goetcd.SetLogger( golog.New( "go-etcd", false, golog.CombinedSink( os.Stdout, "[%s] %s %-9s | %s\n", []string{"prefix", "time", "priority", "message"}, ), ), ) } else if e.Config.VeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Debug) } else if e.Config.Verbose { log.Verbose = true } if e.Config.CPUProfileFile != "" { profile(e.Config.CPUProfileFile) } if e.Config.DataDir == "" { log.Fatal("The data dir was not set and could not be guessed from machine name") } // Create data directory if it doesn't already exist. if err := os.MkdirAll(e.Config.DataDir, 0744); err != nil { log.Fatalf("Unable to create path: %s", err) } // Warn people if they have an info file info := filepath.Join(e.Config.DataDir, "info") if _, err := os.Stat(info); err == nil { log.Warnf("All cached configuration is now ignored. The file %s can be removed.", info) } var mbName string if e.Config.Trace() { mbName = e.Config.MetricsBucketName() runtime.SetBlockProfileRate(1) } mb := metrics.NewBucket(mbName) if e.Config.GraphiteHost != "" { err := mb.Publish(e.Config.GraphiteHost) if err != nil { panic(err) } } // Retrieve CORS configuration corsInfo, err := ehttp.NewCORSInfo(e.Config.CorsOrigins) if err != nil { log.Fatal("CORS:", err) } // Create etcd key-value store and registry. e.Store = store.New() e.Registry = server.NewRegistry(e.Store) // Create stats objects followersStats := server.NewRaftFollowersStats(e.Config.Name) serverStats := server.NewRaftServerStats(e.Config.Name) // Calculate all of our timeouts heartbeatInterval := time.Duration(e.Config.Peer.HeartbeatInterval) * time.Millisecond electionTimeout := time.Duration(e.Config.Peer.ElectionTimeout) * time.Millisecond dialTimeout := (3 * heartbeatInterval) + electionTimeout responseHeaderTimeout := (3 * heartbeatInterval) + electionTimeout clientTransporter := &httpclient.Transport{ ResponseHeaderTimeout: responseHeaderTimeout + extraTimeout, // This is a workaround for Transport.CancelRequest doesn't work on // HTTPS connections blocked. The patch for it is in progress, // and would be available in Go1.3 // More: https://codereview.appspot.com/69280043/ ConnectTimeout: dialTimeout + extraTimeout, RequestTimeout: responseHeaderTimeout + dialTimeout + 2*extraTimeout, } if e.Config.PeerTLSInfo().Scheme() == "https" { clientTLSConfig, err := e.Config.PeerTLSInfo().ClientConfig() if err != nil { log.Fatal("client TLS error: ", err) } clientTransporter.TLSClientConfig = clientTLSConfig clientTransporter.DisableCompression = true } client := server.NewClient(clientTransporter) // Create peer server psConfig := server.PeerServerConfig{ Name: e.Config.Name, Scheme: e.Config.PeerTLSInfo().Scheme(), URL: e.Config.Peer.Addr, SnapshotCount: e.Config.SnapshotCount, RetryTimes: e.Config.MaxRetryAttempts, RetryInterval: e.Config.RetryInterval, } e.PeerServer = server.NewPeerServer(psConfig, client, e.Registry, e.Store, &mb, followersStats, serverStats) // Create raft transporter and server raftTransporter := server.NewTransporter(followersStats, serverStats, e.Registry, heartbeatInterval, dialTimeout, responseHeaderTimeout) if e.Config.PeerTLSInfo().Scheme() == "https" { raftClientTLSConfig, err := e.Config.PeerTLSInfo().ClientConfig() if err != nil { log.Fatal("raft client TLS error: ", err) } raftTransporter.SetTLSConfig(*raftClientTLSConfig) } raftServer, err := raft.NewServer(e.Config.Name, e.Config.DataDir, raftTransporter, e.Store, e.PeerServer, "") if err != nil { log.Fatal(err) } raftServer.SetElectionTimeout(electionTimeout) raftServer.SetHeartbeatInterval(heartbeatInterval) e.PeerServer.SetRaftServer(raftServer, e.Config.Snapshot) // Create etcd server e.Server = server.New(e.Config.Name, e.Config.Addr, e.PeerServer, e.Registry, e.Store, &mb) if e.Config.Trace() { e.Server.EnableTracing() } e.PeerServer.SetServer(e.Server) // Create standby server ssConfig := server.StandbyServerConfig{ Name: e.Config.Name, PeerScheme: e.Config.PeerTLSInfo().Scheme(), PeerURL: e.Config.Peer.Addr, ClientURL: e.Config.Addr, DataDir: e.Config.DataDir, } e.StandbyServer = server.NewStandbyServer(ssConfig, client) e.StandbyServer.SetRaftServer(raftServer) // Generating config could be slow. // Put it here to make listen happen immediately after peer-server starting. peerTLSConfig := server.TLSServerConfig(e.Config.PeerTLSInfo()) etcdTLSConfig := server.TLSServerConfig(e.Config.EtcdTLSInfo()) if !e.StandbyServer.IsRunning() { startPeerServer, possiblePeers, err := e.PeerServer.FindCluster(e.Config.Discovery, e.Config.Peers) if err != nil { log.Fatal(err) } if startPeerServer { e.setMode(PeerMode) } else { e.StandbyServer.SyncCluster(possiblePeers) e.setMode(StandbyMode) } } else { e.setMode(StandbyMode) } serverHTTPHandler := &ehttp.CORSHandler{e.Server.HTTPHandler(), corsInfo} peerServerHTTPHandler := &ehttp.CORSHandler{e.PeerServer.HTTPHandler(), corsInfo} standbyServerHTTPHandler := &ehttp.CORSHandler{e.StandbyServer.ClientHTTPHandler(), corsInfo} log.Infof("etcd server [name %s, listen on %s, advertised url %s]", e.Server.Name, e.Config.BindAddr, e.Server.URL()) listener := server.NewListener(e.Config.EtcdTLSInfo().Scheme(), e.Config.BindAddr, etcdTLSConfig) e.server = &http.Server{Handler: &ModeHandler{e, serverHTTPHandler, standbyServerHTTPHandler}, ReadTimeout: time.Duration(e.Config.HTTPReadTimeout) * time.Second, WriteTimeout: time.Duration(e.Config.HTTPWriteTimeout) * time.Second, } log.Infof("peer server [name %s, listen on %s, advertised url %s]", e.PeerServer.Config.Name, e.Config.Peer.BindAddr, e.PeerServer.Config.URL) peerListener := server.NewListener(e.Config.PeerTLSInfo().Scheme(), e.Config.Peer.BindAddr, peerTLSConfig) e.peerServer = &http.Server{Handler: &ModeHandler{e, peerServerHTTPHandler, http.NotFoundHandler()}, ReadTimeout: time.Duration(server.DefaultReadTimeout) * time.Second, WriteTimeout: time.Duration(server.DefaultWriteTimeout) * time.Second, } wg := sync.WaitGroup{} wg.Add(2) go func() { <-e.readyNotify defer wg.Done() if err := e.server.Serve(listener); err != nil { if !isListenerClosing(err) { log.Fatal(err) } } }() go func() { <-e.readyNotify defer wg.Done() if err := e.peerServer.Serve(peerListener); err != nil { if !isListenerClosing(err) { log.Fatal(err) } } }() e.runServer() listener.Close() peerListener.Close() wg.Wait() log.Infof("etcd instance is stopped [name %s]", e.Config.Name) close(e.stopNotify) }
// Run the etcd instance. func (e *Etcd) Run() { // Enable options. if e.Config.VeryVeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Trace) goetcd.SetLogger( golog.New( "go-etcd", false, golog.CombinedSink( os.Stdout, "[%s] %s %-9s | %s\n", []string{"prefix", "time", "priority", "message"}, ), ), ) } else if e.Config.VeryVerbose { log.Verbose = true raft.SetLogLevel(raft.Debug) } else if e.Config.Verbose { log.Verbose = true } if e.Config.CPUProfileFile != "" { profile(e.Config.CPUProfileFile) } if e.Config.DataDir == "" { log.Fatal("The data dir was not set and could not be guessed from machine name") } // Create data directory if it doesn't already exist. if err := os.MkdirAll(e.Config.DataDir, 0744); err != nil { log.Fatalf("Unable to create path: %s", err) } // Warn people if they have an info file info := filepath.Join(e.Config.DataDir, "info") if _, err := os.Stat(info); err == nil { log.Warnf("All cached configuration is now ignored. The file %s can be removed.", info) } var mbName string if e.Config.Trace() { mbName = e.Config.MetricsBucketName() runtime.SetBlockProfileRate(1) } mb := metrics.NewBucket(mbName) if e.Config.GraphiteHost != "" { err := mb.Publish(e.Config.GraphiteHost) if err != nil { panic(err) } } // Retrieve CORS configuration corsInfo, err := ehttp.NewCORSInfo(e.Config.CorsOrigins) if err != nil { log.Fatal("CORS:", err) } // Create etcd key-value store and registry. e.Store = store.New() e.Registry = server.NewRegistry(e.Store) // Create stats objects followersStats := server.NewRaftFollowersStats(e.Config.Name) serverStats := server.NewRaftServerStats(e.Config.Name) // Calculate all of our timeouts heartbeatInterval := time.Duration(e.Config.Peer.HeartbeatInterval) * time.Millisecond electionTimeout := time.Duration(e.Config.Peer.ElectionTimeout) * time.Millisecond dialTimeout := (3 * heartbeatInterval) + electionTimeout responseHeaderTimeout := (3 * heartbeatInterval) + electionTimeout // Create peer server psConfig := server.PeerServerConfig{ Name: e.Config.Name, Scheme: e.Config.PeerTLSInfo().Scheme(), URL: e.Config.Peer.Addr, SnapshotCount: e.Config.SnapshotCount, RetryTimes: e.Config.MaxRetryAttempts, RetryInterval: e.Config.RetryInterval, } e.PeerServer = server.NewPeerServer(psConfig, e.Registry, e.Store, &mb, followersStats, serverStats) // Create raft transporter and server raftTransporter := server.NewTransporter(followersStats, serverStats, e.Registry, heartbeatInterval, dialTimeout, responseHeaderTimeout) if psConfig.Scheme == "https" { raftClientTLSConfig, err := e.Config.PeerTLSInfo().ClientConfig() if err != nil { log.Fatal("raft client TLS error: ", err) } raftTransporter.SetTLSConfig(*raftClientTLSConfig) } raftServer, err := raft.NewServer(e.Config.Name, e.Config.DataDir, raftTransporter, e.Store, e.PeerServer, "") if err != nil { log.Fatal(err) } raftServer.SetElectionTimeout(electionTimeout) raftServer.SetHeartbeatInterval(heartbeatInterval) e.PeerServer.SetRaftServer(raftServer) // Create etcd server e.Server = server.New(e.Config.Name, e.Config.Addr, e.PeerServer, e.Registry, e.Store, &mb) if e.Config.Trace() { e.Server.EnableTracing() } e.PeerServer.SetServer(e.Server) // Generating config could be slow. // Put it here to make listen happen immediately after peer-server starting. peerTLSConfig := server.TLSServerConfig(e.Config.PeerTLSInfo()) etcdTLSConfig := server.TLSServerConfig(e.Config.EtcdTLSInfo()) log.Infof("etcd server [name %s, listen on %s, advertised url %s]", e.Server.Name, e.Config.BindAddr, e.Server.URL()) e.listener = server.NewListener(e.Config.EtcdTLSInfo().Scheme(), e.Config.BindAddr, etcdTLSConfig) close(e.readyC) // etcd server is ready to accept connections, notify waiters. // An error string equivalent to net.errClosing for using with // http.Serve() during server shutdown. Need to re-declare // here because it is not exported by "net" package. const errClosing = "use of closed network connection" peerServerClosed := make(chan bool) go func() { // Starting peer server should be followed close by listening on its port // If not, it may leave many requests unaccepted, or cannot receive heartbeat from the cluster. // One severe problem caused if failing receiving heartbeats is when the second node joins one-node cluster, // the cluster could be out of work as long as the two nodes cannot transfer messages. e.PeerServer.Start(e.Config.Snapshot, e.Config.Discovery, e.Config.Peers) log.Infof("peer server [name %s, listen on %s, advertised url %s]", e.PeerServer.Config.Name, e.Config.Peer.BindAddr, e.PeerServer.Config.URL) e.peerListener = server.NewListener(psConfig.Scheme, e.Config.Peer.BindAddr, peerTLSConfig) sHTTP := &ehttp.CORSHandler{e.PeerServer.HTTPHandler(), corsInfo} if err = http.Serve(e.peerListener, sHTTP); err != nil { if !strings.Contains(err.Error(), errClosing) { log.Fatal(err) } } close(peerServerClosed) }() sHTTP := &ehttp.CORSHandler{e.Server.HTTPHandler(), corsInfo} if err = http.Serve(e.listener, sHTTP); err != nil { if !strings.Contains(err.Error(), errClosing) { log.Fatal(err) } } <-peerServerClosed log.Infof("etcd instance is stopped [name %s]", e.Config.Name) }
// Starts a server in a temporary directory. func RunServer(f func(*server.Server)) { path, _ := ioutil.TempDir("", "etcd-") defer os.RemoveAll(path) store := store.New() registry := server.NewRegistry(store) serverStats := server.NewRaftServerStats(testName) followersStats := server.NewRaftFollowersStats(testName) psConfig := server.PeerServerConfig{ Name: testName, URL: "http://" + testRaftURL, Scheme: "http", SnapshotCount: testSnapshotCount, MaxClusterSize: 9, } mb := metrics.NewBucket("") ps := server.NewPeerServer(psConfig, registry, store, &mb, followersStats, serverStats) psListener := server.NewListener("http", testRaftURL, nil) // Create Raft transporter and server dialTimeout := (3 * testHeartbeatInterval) + testElectionTimeout responseHeaderTimeout := (3 * testHeartbeatInterval) + testElectionTimeout raftTransporter := server.NewTransporter(followersStats, serverStats, registry, testHeartbeatInterval, dialTimeout, responseHeaderTimeout) raftServer, err := raft.NewServer(testName, path, raftTransporter, store, ps, "") if err != nil { panic(err) } raftServer.SetElectionTimeout(testElectionTimeout) raftServer.SetHeartbeatInterval(testHeartbeatInterval) ps.SetRaftServer(raftServer) s := server.New(testName, "http://"+testClientURL, ps, registry, store, nil) sListener := server.NewListener("http", testClientURL, nil) ps.SetServer(s) w := &sync.WaitGroup{} // Start up peer server. c := make(chan bool) go func() { c <- true ps.Start(false, "", []string{}) h := waitHandler{w, ps.HTTPHandler()} http.Serve(psListener, &h) }() <-c // Start up etcd server. go func() { c <- true h := waitHandler{w, s.HTTPHandler()} http.Serve(sListener, &h) }() <-c // Wait to make sure servers have started. time.Sleep(50 * time.Millisecond) // Execute the function passed in. f(s) // Clean up servers. ps.Stop() psListener.Close() sListener.Close() w.Wait() }