// Open opens the store. If enableSingle is set, and there are no existing peers, // then this node becomes the first node, and therefore leader, of the cluster. func (s *Store) Open(enableSingle bool) error { if err := os.MkdirAll(s.raftDir, 0755); err != nil { return err } db, err := s.open() if err != nil { return err } s.db = db // Get the Raft configuration for this store. config := s.raftConfig() // Check for any existing peers. peers, err := readPeersJSON(filepath.Join(s.raftDir, "peers.json")) if err != nil { return err } s.joinRequired = len(peers) <= 1 // Allow the node to entry single-mode, potentially electing itself, if // explicitly enabled and there is only 1 node in the cluster already. if enableSingle && len(peers) <= 1 { s.logger.Println("enabling single-node mode") config.EnableSingleNode = true config.DisableBootstrapAfterElect = false } // Setup Raft communication. transport := raft.NewNetworkTransport(s.raftTransport, 3, 10*time.Second, os.Stderr) // Create peer storage if necesssary. if s.peerStore == nil { s.peerStore = raft.NewJSONPeers(s.raftDir, transport) } // Create the snapshot store. This allows Raft to truncate the log. snapshots, err := raft.NewFileSnapshotStore(s.raftDir, retainSnapshotCount, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create the log store and stable store. logStore, err := raftboltdb.NewBoltStore(filepath.Join(s.raftDir, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } // Instantiate the Raft system. ra, err := raft.NewRaft(config, s, logStore, logStore, snapshots, s.peerStore, transport) if err != nil { return fmt.Errorf("new raft: %s", err) } s.raft = ra return nil }
func main() { buf, err := ioutil.ReadFile("./config.json") if err != nil { log.Fatal(err) } var v Config err = json.Unmarshal(buf, &v) dataDir := v.DataDir os.MkdirAll(dataDir, 0755) if err != nil { log.Fatal(err) } cfg := raft.DefaultConfig() // cfg.EnableSingleNode = true fsm := new(Word) fsm.words = "hahaha" dbStore, err := raftboltdb.NewBoltStore(path.Join(dataDir, "raft_db")) if err != nil { log.Fatal(err) } fileStore, err := raft.NewFileSnapshotStore(dataDir, 1, os.Stdout) if err != nil { log.Fatal(err) } trans, err := raft.NewTCPTransport(v.Bind, nil, 3, 5*time.Second, os.Stdout) if err != nil { log.Fatal(err) } peers := make([]string, 0, 10) peers = raft.AddUniquePeer(peers, "192.168.78.151:12345") peers = raft.AddUniquePeer(peers, "192.168.78.151:12346") peers = raft.AddUniquePeer(peers, "192.168.78.151:12347") peerStore := raft.NewJSONPeers(dataDir, trans) peerStore.SetPeers(peers) r, err := raft.NewRaft(cfg, fsm, dbStore, dbStore, fileStore, peerStore, trans) t := time.NewTicker(time.Duration(1) * time.Second) for { select { case <-t.C: fmt.Println(r.Leader()) } } }
// Open opens the store. If enableSingle is set, and there are no existing peers, // then this node becomes the first node, and therefore leader, of the cluster. func (s *Store) Open(enableSingle bool) error { // Setup Raft configuration. config := raft.DefaultConfig() // Check for any existing peers. peers, err := readPeersJSON(filepath.Join(s.RaftDir, "peers.json")) if err != nil { return err } // Allow the node to entry single-mode, potentially electing itself, if // explicitly enabled and there is only 1 node in the cluster already. if enableSingle && len(peers) <= 1 { s.logger.Println("enabling single-node mode") config.EnableSingleNode = true config.DisableBootstrapAfterElect = false } // Setup Raft communication. addr, err := net.ResolveTCPAddr("tcp", s.RaftBind) if err != nil { return err } transport, err := raft.NewTCPTransport(s.RaftBind, addr, 3, 10*time.Second, os.Stderr) if err != nil { return err } // Create peer storage. peerStore := raft.NewJSONPeers(s.RaftDir, transport) // Create the snapshot store. This allows the Raft to truncate the log. snapshots, err := raft.NewFileSnapshotStore(s.RaftDir, retainSnapshotCount, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create the log store and stable store. logStore, err := raftboltdb.NewBoltStore(filepath.Join(s.RaftDir, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } // Instantiate the Raft systems. ra, err := raft.NewRaft(config, (*fsm)(s), logStore, logStore, snapshots, peerStore, transport) if err != nil { return fmt.Errorf("new raft: %s", err) } s.raft = ra return nil }
func (r *localRaft) openRaft() error { s := r.store // Setup raft configuration. config := raft.DefaultConfig() config.Logger = s.Logger config.HeartbeatTimeout = s.HeartbeatTimeout config.ElectionTimeout = s.ElectionTimeout config.LeaderLeaseTimeout = s.LeaderLeaseTimeout config.CommitTimeout = s.CommitTimeout // If no peers are set in the config then start as a single server. config.EnableSingleNode = (len(s.peers) == 0) // Ensure our addr is in the peer list if config.EnableSingleNode { s.peers = append(s.peers, s.Addr.String()) } // Build raft layer to multiplex listener. r.raftLayer = newRaftLayer(s.RaftListener, s.Addr) // Create a transport layer r.transport = raft.NewNetworkTransport(r.raftLayer, 3, 10*time.Second, os.Stderr) // Create peer storage. r.peerStore = raft.NewJSONPeers(s.path, r.transport) // Create the log store and stable store. store, err := raftboltdb.NewBoltStore(filepath.Join(s.path, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } r.raftStore = store // Create the snapshot store. snapshots, err := raft.NewFileSnapshotStore(s.path, raftSnapshotsRetained, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create raft log. ra, err := raft.NewRaft(config, (*storeFSM)(s), store, store, snapshots, r.peerStore, r.transport) if err != nil { return fmt.Errorf("new raft: %s", err) } r.raft = ra return nil }
func NewRaft(cfg *config.Raft, fsm raft.FSM, trans raft.Transport) (*raft.Raft, error) { raftLogDir := filepath.Join(cfg.DataDir, "log") raftMetaDir := filepath.Join(cfg.DataDir, "meta") logStore, err := raftleveldb.NewStore(raftLogDir) if err != nil { return nil, err } metaStore, err := raftleveldb.NewStore(raftMetaDir) if err != nil { return nil, err } snapshotStore, err := raft.NewFileSnapshotStore(cfg.DataDir, 3, os.Stderr) if err != nil { return nil, err } peerStore := raft.NewJSONPeers(cfg.DataDir, trans) raftConfig := raft.DefaultConfig() raftConfig.SnapshotInterval = time.Duration(cfg.SnapshotInterval) raftConfig.SnapshotThreshold = cfg.SnapshotThreshold raftConfig.EnableSingleNode = cfg.EnableSingleNode err = raft.ValidateConfig(raftConfig) if err != nil { return nil, err } return raft.NewRaft( raftConfig, fsm, logStore, metaStore, snapshotStore, peerStore, trans, ) }
// setupRaft is used to setup and initialize Raft func (s *Server) setupRaft() error { // If we are in bootstrap mode, enable a single node cluster if s.config.Bootstrap || s.config.DevMode { s.config.RaftConfig.EnableSingleNode = true } // Create the FSM var err error s.fsm, err = NewFSM(s.tombstoneGC, s.config.LogOutput) if err != nil { return err } // Create a transport layer trans := raft.NewNetworkTransport(s.raftLayer, 3, 10*time.Second, s.config.LogOutput) s.raftTransport = trans var log raft.LogStore var stable raft.StableStore var snap raft.SnapshotStore if s.config.DevMode { store := raft.NewInmemStore() s.raftInmem = store stable = store log = store snap = raft.NewDiscardSnapshotStore() s.raftPeers = &raft.StaticPeers{} } else { // Create the base raft path path := filepath.Join(s.config.DataDir, raftState) if err := ensurePath(path, true); err != nil { return err } // Create the backend raft store for logs and stable storage store, err := raftboltdb.NewBoltStore(filepath.Join(path, "raft.db")) if err != nil { return err } s.raftStore = store stable = store // Wrap the store in a LogCache to improve performance cacheStore, err := raft.NewLogCache(raftLogCacheSize, store) if err != nil { store.Close() return err } log = cacheStore // Create the snapshot store snapshots, err := raft.NewFileSnapshotStore(path, snapshotsRetained, s.config.LogOutput) if err != nil { store.Close() return err } snap = snapshots // Setup the peer store s.raftPeers = raft.NewJSONPeers(path, trans) } // Ensure local host is always included if we are in bootstrap mode if s.config.Bootstrap { peerAddrs, err := s.raftPeers.Peers() if err != nil { if s.raftStore != nil { s.raftStore.Close() } return err } if !raft.PeerContained(peerAddrs, trans.LocalAddr()) { s.raftPeers.SetPeers(raft.AddUniquePeer(peerAddrs, trans.LocalAddr())) } } // Make sure we set the LogOutput s.config.RaftConfig.LogOutput = s.config.LogOutput // Setup the Raft store s.raft, err = raft.NewRaft(s.config.RaftConfig, s.fsm, log, stable, snap, s.raftPeers, trans) if err != nil { if s.raftStore != nil { s.raftStore.Close() } trans.Close() return err } // Start monitoring leadership go s.monitorLeadership() return nil }
func (r *localRaft) open() error { r.closing = make(chan struct{}) s := r.store // Setup raft configuration. config := raft.DefaultConfig() config.LogOutput = ioutil.Discard if s.clusterTracingEnabled { config.Logger = s.Logger } config.HeartbeatTimeout = s.HeartbeatTimeout config.ElectionTimeout = s.ElectionTimeout config.LeaderLeaseTimeout = s.LeaderLeaseTimeout config.CommitTimeout = s.CommitTimeout // Since we actually never call `removePeer` this is safe. // If in the future we decide to call remove peer we have to re-evaluate how to handle this config.ShutdownOnRemove = false // If no peers are set in the config or there is one and we are it, then start as a single server. if len(s.peers) <= 1 { config.EnableSingleNode = true // Ensure we can always become the leader config.DisableBootstrapAfterElect = false } // Build raft layer to multiplex listener. r.raftLayer = newRaftLayer(s.RaftListener, s.RemoteAddr) // Create a transport layer r.transport = raft.NewNetworkTransport(r.raftLayer, 3, 10*time.Second, config.LogOutput) // Create peer storage. r.peerStore = raft.NewJSONPeers(s.path, r.transport) peers, err := r.peerStore.Peers() if err != nil { return err } // For single-node clusters, we can update the raft peers before we start the cluster if the hostname // has changed. if config.EnableSingleNode { if err := r.peerStore.SetPeers([]string{s.RemoteAddr.String()}); err != nil { return err } peers = []string{s.RemoteAddr.String()} } // If we have multiple nodes in the cluster, make sure our address is in the raft peers or // we won't be able to boot into the cluster because the other peers will reject our new hostname. This // is difficult to resolve automatically because we need to have all the raft peers agree on the current members // of the cluster before we can change them. if len(peers) > 0 && !raft.PeerContained(peers, s.RemoteAddr.String()) { s.Logger.Printf("%s is not in the list of raft peers. Please update %v/peers.json on all raft nodes to have the same contents.", s.RemoteAddr.String(), s.Path()) return fmt.Errorf("peers out of sync: %v not in %v", s.RemoteAddr.String(), peers) } // Create the log store and stable store. store, err := raftboltdb.NewBoltStore(filepath.Join(s.path, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } r.raftStore = store // Create the snapshot store. snapshots, err := raft.NewFileSnapshotStore(s.path, raftSnapshotsRetained, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create raft log. ra, err := raft.NewRaft(config, (*storeFSM)(s), store, store, snapshots, r.peerStore, r.transport) if err != nil { return fmt.Errorf("new raft: %s", err) } r.raft = ra r.wg.Add(1) go r.logLeaderChanges() return nil }
func newRaft(a *App) (Cluster, error) { r := new(Raft) if len(a.config.Raft.Addr) == 0 { return nil, nil } peers := make([]string, 0, len(a.config.Raft.Cluster)) r.raftAddr = a.config.Raft.Addr addr, err := net.ResolveTCPAddr("tcp", r.raftAddr) if err != nil { return nil, fmt.Errorf("invalid raft addr format %s, must host:port, err:%v", r.raftAddr, err) } peers = raft.AddUniquePeer(peers, addr.String()) for _, cluster := range a.config.Raft.Cluster { addr, err = net.ResolveTCPAddr("tcp", cluster) if err != nil { return nil, fmt.Errorf("invalid cluster format %s, must host:port, err:%v", cluster, err) } peers = raft.AddUniquePeer(peers, addr.String()) } os.MkdirAll(a.config.Raft.DataDir, 0755) cfg := raft.DefaultConfig() if len(a.config.Raft.LogDir) == 0 { r.log = os.Stdout } else { os.MkdirAll(a.config.Raft.LogDir, 0755) logFile := path.Join(a.config.Raft.LogDir, "raft.log") f, err := os.OpenFile(logFile, os.O_CREATE|os.O_APPEND|os.O_RDWR, 0644) if err != nil { return nil, err } r.log = f cfg.LogOutput = r.log } raftDBPath := path.Join(a.config.Raft.DataDir, "raft_db") r.dbStore, err = raftboltdb.NewBoltStore(raftDBPath) if err != nil { return nil, err } fileStore, err := raft.NewFileSnapshotStore(a.config.Raft.DataDir, 1, r.log) if err != nil { return nil, err } r.trans, err = raft.NewTCPTransport(r.raftAddr, nil, 3, 5*time.Second, r.log) if err != nil { return nil, err } r.peerStore = raft.NewJSONPeers(a.config.Raft.DataDir, r.trans) if a.config.Raft.ClusterState == ClusterStateNew { log.Printf("[INFO] cluster state is new, use new cluster config") r.peerStore.SetPeers(peers) } else { log.Printf("[INFO] cluster state is existing, use previous + new cluster config") ps, err := r.peerStore.Peers() if err != nil { log.Printf("[INFO] get store peers error %v", err) return nil, err } for _, peer := range peers { ps = raft.AddUniquePeer(ps, peer) } r.peerStore.SetPeers(ps) } if peers, _ := r.peerStore.Peers(); len(peers) <= 1 { cfg.EnableSingleNode = true log.Println("[INFO] raft will run in single node mode, may only be used in test") } r.r, err = raft.NewRaft(cfg, a.fsm, r.dbStore, r.dbStore, fileStore, r.peerStore, r.trans) return r, err }
func main() { sstore, err := raftboltdb.NewBoltStore("/tmp/stablestore") if err != nil { fmt.Printf("%v", err) os.Exit(1) } logstore, err := raftboltdb.NewBoltStore("/tmp/logstore") if err != nil { fmt.Printf("Failed to create logstore") os.Exit(1) } snaps, err := raft.NewFileSnapshotStoreWithLogger("/tmp/snapshots", 3, nil) errorOnExit(err) transport, err := raft.NewTCPTransport("127.0.0.1:7000", nil, 10, 10*time.Second, nil) errorOnExit(err) peerstore := raft.NewJSONPeers("/tmp/peers", transport) conf := raft.DefaultConfig() conf.EnableSingleNode = true conf.SnapshotThreshold = 40 conf.SnapshotInterval = 10 * time.Second fsm := NewMyFsm() raftmod, err := raft.NewRaft(conf, fsm, logstore, sstore, snaps, peerstore, transport) time.Sleep(2 * time.Second) fmt.Printf("Leader is %v\n", raftmod.Leader()) future := raftmod.Apply([]byte("hello:value"), 0) raftFutureErrorCheck(future) i := 0 for ; i < 100; i++ { time.Sleep(2 * time.Millisecond) future := raftmod.Apply([]byte(fmt.Sprintf("key%d:value%d", i, i)), 0) raftFutureErrorCheck(future) } fmt.Printf("Do some fun\n") reader := bufio.NewReader(os.Stdin) for { fmt.Printf("Enter 1 to put, 2 to get, 3 to quit: ") text, _ := reader.ReadString('\n') text = strings.Trim(text, "\n") if text == "3" { os.Exit(0) } else if text == "1" { fmt.Printf("Key: ") key, _ := reader.ReadString('\n') key = strings.Trim(key, "\n\b \t\b") if key == "" { fmt.Printf("Empty key, continuing") continue } fmt.Printf("Value: ") value, _ := reader.ReadString('\n') value = strings.Trim(value, "\n") raftmod.Apply([]byte(fmt.Sprintf("%s:%s", key, value)), 0) } else if text == "2" { fmt.Printf("Key: ") key, _ := reader.ReadString('\n') key = strings.Trim(key, "\n\b \t\b") if key == "" { fmt.Printf("Empty key, continuing") continue } val, err := fsm.Get(fmt.Sprintf(key)) if err != nil { fmt.Printf("Failed to get %s\n", key) } else { fmt.Printf("The value for key:%s is %s\n", key, val) } } } }
func newPeer(c *Config, fsm *fsm) (*peer, error) { r := &peer{} var err error = nil r.addr = c.Raft.Addr os.MkdirAll(c.Raft.DataDir, 0755) cfg := raft.DefaultConfig() raftDBPath := path.Join(c.Raft.DataDir, "raft_db") r.dbStore, err = raftboltdb.NewBoltStore(raftDBPath) if err != nil { return nil, err } fileStore, err := raft.NewFileSnapshotStore(c.Raft.DataDir, 1, os.Stderr) if err != nil { return nil, err } r.trans, err = raft.NewTCPTransport(r.addr, nil, 3, 5*time.Second, os.Stderr) if err != nil { return nil, err } r.peerStore = raft.NewJSONPeers(c.Raft.DataDir, r.trans) if c.Raft.ClusterState == ClusterStateNew { log.Info("cluster state is new, use new cluster config") r.peerStore.SetPeers(c.Raft.Cluster) } else { log.Info("cluster state is existing, use previous + new cluster config") ps, err := r.peerStore.Peers() if err != nil { log.Error("get store peers error %v", err) return nil, err } for _, peer := range c.Raft.Cluster { ps = raft.AddUniquePeer(ps, peer) } r.peerStore.SetPeers(ps) } if peers, _ := r.peerStore.Peers(); len(peers) <= 1 { cfg.EnableSingleNode = true log.Notice("raft running in single node mode") } r.fsm = fsm r.r, err = raft.NewRaft(cfg, fsm, r.dbStore, r.dbStore, fileStore, r.peerStore, r.trans) if err != nil { return nil, err } // watch for leadership changes go func() { for isLeader := range r.r.LeaderCh() { if isLeader { log.Info("new leader http: %v", c.Addr) r.apply(&action{Cmd: CmdNewLeader, Leader: c.Addr}, applyRetries) } } }() return r, nil }
// Open opens the store. If enableSingle is set, and there are no existing peers, // then this node becomes the first node, and therefore leader, of the cluster. func (s *Store) Open(enableSingle bool) error { if err := os.MkdirAll(s.raftDir, 0755); err != nil { return err } // Create the database. Unless it's a memory-based database, it must be deleted var db *sql.DB var err error if !s.dbConf.Memory { // as it will be rebuilt from (possibly) a snapshot and committed log entries. if err := os.Remove(s.dbPath); err != nil && !os.IsNotExist(err) { return err } db, err = sql.OpenWithDSN(s.dbPath, s.dbConf.DSN) if err != nil { return err } s.logger.Println("SQLite database opened at", s.dbPath) } else { db, err = sql.OpenInMemoryWithDSN(s.dbConf.DSN) if err != nil { return err } s.logger.Println("SQLite in-memory database opened") } s.db = db // Setup Raft configuration. config := raft.DefaultConfig() // Check for any existing peers. peers, err := readPeersJSON(filepath.Join(s.raftDir, "peers.json")) if err != nil { return err } s.joinRequired = len(peers) <= 1 // Allow the node to entry single-mode, potentially electing itself, if // explicitly enabled and there is only 1 node in the cluster already. if enableSingle && len(peers) <= 1 { s.logger.Println("enabling single-node mode") config.EnableSingleNode = true config.DisableBootstrapAfterElect = false } // Setup Raft communication. transport := raft.NewNetworkTransport(s.raftTransport, 3, 10*time.Second, os.Stderr) // Create peer storage. peerStore := raft.NewJSONPeers(s.raftDir, transport) // Create the snapshot store. This allows Raft to truncate the log. snapshots, err := raft.NewFileSnapshotStore(s.raftDir, retainSnapshotCount, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create the log store and stable store. logStore, err := raftboltdb.NewBoltStore(filepath.Join(s.raftDir, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } // Instantiate the Raft system. ra, err := raft.NewRaft(config, s, logStore, logStore, snapshots, peerStore, transport) if err != nil { return fmt.Errorf("new raft: %s", err) } s.raft = ra return nil }
func main() { flag.Usage = func() { // It is unfortunate that we need to re-implement flag.PrintDefaults(), // but I cannot see any other way to achieve the grouping of flags. fmt.Fprintf(os.Stderr, "RobustIRC server (= node)\n") fmt.Fprintf(os.Stderr, "\n") fmt.Fprintf(os.Stderr, "The following flags are REQUIRED:\n") printDefault(flag.Lookup("network_name")) printDefault(flag.Lookup("network_password")) printDefault(flag.Lookup("peer_addr")) printDefault(flag.Lookup("tls_cert_path")) printDefault(flag.Lookup("tls_key_path")) fmt.Fprintf(os.Stderr, "\n") fmt.Fprintf(os.Stderr, "The following flags are only relevant when bootstrapping the network (once):\n") printDefault(flag.Lookup("join")) printDefault(flag.Lookup("singlenode")) fmt.Fprintf(os.Stderr, "\n") fmt.Fprintf(os.Stderr, "The following flags are optional:\n") printDefault(flag.Lookup("dump_canary_state")) printDefault(flag.Lookup("dump_heap_profile")) printDefault(flag.Lookup("canary_compaction_start")) printDefault(flag.Lookup("listen")) printDefault(flag.Lookup("raftdir")) printDefault(flag.Lookup("tls_ca_file")) printDefault(flag.Lookup("version")) fmt.Fprintf(os.Stderr, "\n") fmt.Fprintf(os.Stderr, "The following flags are optional and provided by glog:\n") printDefault(flag.Lookup("alsologtostderr")) printDefault(flag.Lookup("log_backtrace_at")) printDefault(flag.Lookup("log_dir")) printDefault(flag.Lookup("log_total_bytes")) printDefault(flag.Lookup("logtostderr")) printDefault(flag.Lookup("stderrthreshold")) printDefault(flag.Lookup("v")) printDefault(flag.Lookup("vmodule")) } flag.Parse() // Store logs in -raftdir, unless otherwise specified. if flag.Lookup("log_dir").Value.String() == "" { flag.Set("log_dir", *raftDir) } defer glog.Flush() glog.MaxSize = 64 * 1024 * 1024 glog.CopyStandardLogTo("INFO") log.Printf("RobustIRC %s\n", Version) if *version { return } if _, err := os.Stat(filepath.Join(*raftDir, "deletestate")); err == nil { if err := os.RemoveAll(*raftDir); err != nil { log.Fatal(err) } if err := os.Mkdir(*raftDir, 0700); err != nil { log.Fatal(err) } log.Printf("Deleted %q because %q existed\n", *raftDir, filepath.Join(*raftDir, "deletestate")) } if err := outputstream.DeleteOldDatabases(*raftDir); err != nil { log.Fatalf("Could not delete old outputstream databases: %v\n", err) } if err := deleteOldCompactionDatabases(*raftDir); err != nil { glog.Errorf("Could not delete old compaction databases: %v (ignoring)\n", err) } log.Printf("Initializing RobustIRC…\n") if *networkPassword == "" { *networkPassword = os.Getenv("ROBUSTIRC_NETWORK_PASSWORD") } if *networkPassword == "" { log.Fatalf("-network_password not set. You MUST protect your network.\n") } digest := sha1.New() digest.Write([]byte(*networkPassword)) passwordHash := "{SHA}" + base64.StdEncoding.EncodeToString(digest.Sum(nil)) if *network == "" { log.Fatalf("-network_name not set, but required.\n") } if *peerAddr == "" { log.Printf("-peer_addr not set, initializing to %q. Make sure %q is a host:port string that other raft nodes can connect to!\n", *listen, *listen) *peerAddr = *listen } ircServer = ircserver.NewIRCServer(*raftDir, *network, time.Now()) transport := rafthttp.NewHTTPTransport( *peerAddr, // Not deadlined, otherwise snapshot installments fail. robusthttp.Client(*networkPassword, false), nil, "") peerStore = raft.NewJSONPeers(*raftDir, transport) if *join == "" && !*singleNode { peers, err := peerStore.Peers() if err != nil { log.Fatal(err.Error()) } if len(peers) == 0 { if !*timesafeguard.DisableTimesafeguard { log.Fatalf("No peers known and -join not specified. Joining the network is not safe because timesafeguard cannot be called.\n") } } else { if len(peers) == 1 && peers[0] == *peerAddr { // To prevent crashlooping too frequently in case the init system directly restarts our process. time.Sleep(10 * time.Second) log.Fatalf("Only known peer is myself (%q), implying this node was removed from the network. Please kill the process and remove the data.\n", *peerAddr) } if err := timesafeguard.SynchronizedWithNetwork(*peerAddr, peers, *networkPassword); err != nil { log.Fatal(err.Error()) } } } var p []string config := raft.DefaultConfig() config.Logger = log.New(glog.LogBridgeFor("INFO"), "", log.Lshortfile) if *singleNode { config.EnableSingleNode = true } // Keep 5 snapshots in *raftDir/snapshots, log to stderr. fss, err := raft.NewFileSnapshotStore(*raftDir, 5, nil) if err != nil { log.Fatal(err) } // How often to check whether a snapshot should be taken. The check is // cheap, and the default value far too high for networks with a high // number of messages/s. // At the same time, it is important that we don’t check too early, // otherwise recovering from the most recent snapshot doesn’t work because // after recovering, a new snapshot (over the 0 committed messages) will be // taken immediately, effectively overwriting the result of the snapshot // recovery. config.SnapshotInterval = 300 * time.Second // Batch as many messages as possible into a single appendEntries RPC. // There is no downside to setting this too high. config.MaxAppendEntries = 1024 // It could be that the heartbeat goroutine is not scheduled for a while, // so relax the default of 500ms. config.LeaderLeaseTimeout = timesafeguard.ElectionTimeout config.HeartbeatTimeout = timesafeguard.ElectionTimeout config.ElectionTimeout = timesafeguard.ElectionTimeout // We use prometheus, so hook up the metrics package (used by raft) to // prometheus as well. sink, err := metrics_prometheus.NewPrometheusSink() if err != nil { log.Fatal(err) } metrics.NewGlobal(metrics.DefaultConfig("raftmetrics"), sink) bootstrapping := *singleNode || *join != "" logStore, err := raft_store.NewLevelDBStore(filepath.Join(*raftDir, "raftlog"), bootstrapping) if err != nil { log.Fatal(err) } ircStore, err = raft_store.NewLevelDBStore(filepath.Join(*raftDir, "irclog"), bootstrapping) if err != nil { log.Fatal(err) } fsm := &FSM{ store: logStore, ircstore: ircStore, lastSnapshotState: make(map[uint64][]byte), } logcache, err := raft.NewLogCache(config.MaxAppendEntries, logStore) if err != nil { log.Fatal(err) } node, err = raft.NewRaft(config, fsm, logcache, logStore, fss, peerStore, transport) if err != nil { log.Fatal(err) } if *dumpCanaryState != "" { canary(fsm, *dumpCanaryState) if *dumpHeapProfile != "" { debug.FreeOSMemory() f, err := os.Create(*dumpHeapProfile) if err != nil { log.Fatal(err) } defer f.Close() pprof.WriteHeapProfile(f) } return } go func() { for { secondsInState.WithLabelValues(node.State().String()).Inc() time.Sleep(1 * time.Second) } }() privaterouter := httprouter.New() privaterouter.Handler("GET", "/", exitOnRecoverHandleFunc(handleStatus)) privaterouter.Handler("GET", "/irclog", exitOnRecoverHandleFunc(handleIrclog)) privaterouter.Handler("POST", "/raft/*rest", exitOnRecoverHandler(transport)) privaterouter.Handler("POST", "/join", exitOnRecoverHandleFunc(handleJoin)) privaterouter.Handler("POST", "/part", exitOnRecoverHandleFunc(handlePart)) privaterouter.Handler("GET", "/snapshot", exitOnRecoverHandleFunc(handleSnapshot)) privaterouter.Handler("GET", "/leader", exitOnRecoverHandleFunc(handleLeader)) privaterouter.Handler("POST", "/quit", exitOnRecoverHandleFunc(handleQuit)) privaterouter.Handler("GET", "/config", exitOnRecoverHandleFunc(handleGetConfig)) privaterouter.Handler("POST", "/config", exitOnRecoverHandleFunc(handlePostConfig)) privaterouter.Handler("GET", "/metrics", exitOnRecoverHandler(prometheus.Handler())) publicrouter := httprouter.New() publicrouter.Handle("POST", "/robustirc/v1/:sessionid", exitOnRecoverHandle(handleCreateSession)) publicrouter.Handle("POST", "/robustirc/v1/:sessionid/message", exitOnRecoverHandle(handlePostMessage)) publicrouter.Handle("GET", "/robustirc/v1/:sessionid/messages", exitOnRecoverHandle(handleGetMessages)) publicrouter.Handle("DELETE", "/robustirc/v1/:sessionid", exitOnRecoverHandle(handleDeleteSession)) a := auth.NewBasicAuthenticator("robustirc", func(user, realm string) string { if user == "robustirc" { return passwordHash } return "" }) http.Handle("/robustirc/", publicrouter) http.Handle("/", http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { if username := a.CheckAuth(r); username == "" { a.RequireAuth(w, r) } else { privaterouter.ServeHTTP(w, r) } })) srv := http.Server{Addr: *listen} if err := http2.ConfigureServer(&srv, nil); err != nil { log.Fatal(err) } // Manually create the net.TCPListener so that joinMaster() does not run // into connection refused errors (the master will try to contact the // node before acknowledging the join). srv.TLSConfig.Certificates = make([]tls.Certificate, 1) srv.TLSConfig.Certificates[0], err = tls.LoadX509KeyPair(*tlsCertPath, *tlsKeyPath) if err != nil { log.Fatal(err) } ln, err := net.Listen("tcp", *listen) if err != nil { log.Fatal(err) } tlsListener := tls.NewListener(tcpKeepAliveListener{ln.(*net.TCPListener)}, srv.TLSConfig) go srv.Serve(tlsListener) log.Printf("RobustIRC listening on %q. For status, see %s\n", *peerAddr, fmt.Sprintf("https://*****:*****@%s/", *networkPassword, *peerAddr)) if *join != "" { if err := timesafeguard.SynchronizedWithMasterAndNetwork(*peerAddr, *join, *networkPassword); err != nil { log.Fatal(err.Error()) } p = joinMaster(*join, peerStore) // TODO(secure): properly handle joins on the server-side where the joining node is already in the network. } if len(p) > 0 { node.SetPeers(p) } expireSessionsTimer := time.After(expireSessionsInterval) secondTicker := time.Tick(1 * time.Second) for { select { case <-secondTicker: if node.State() == raft.Shutdown { log.Fatal("Node removed from the network (in raft state shutdown), terminating.") } case <-expireSessionsTimer: expireSessionsTimer = time.After(expireSessionsInterval) // Race conditions (a node becoming a leader or ceasing to be the // leader shortly before/after this runs) are okay, since the timer // is triggered often enough on every node so that it will // eventually run on the leader. if node.State() != raft.Leader { continue } applyMu.Lock() for _, msg := range ircServer.ExpireSessions() { // Cannot fail, no user input. msgbytes, _ := json.Marshal(msg) f := node.Apply(msgbytes, 10*time.Second) if err := f.Error(); err != nil { log.Printf("Apply(): %v\n", err) break } } applyMu.Unlock() } } }
// NewRaft creates a new Raft instance. raft data is stored under the raft dir in prefix. func NewRaft(c RaftConfig, prefix string, logDir string) (r *Raft, err error) { r = new(Raft) config := raft.DefaultConfig() config.EnableSingleNode = c.Single var logOutput *os.File if logDir != "\n" { logFile := path.Join(logDir, "raft.log") logOutput, err = os.OpenFile(logFile, os.O_CREATE|os.O_RDWR|os.O_APPEND, 0666) if err != nil { Fatal("Could not open raft log file: ", err) } config.LogOutput = logOutput } raftDir := path.Join(prefix, "raft") err = os.MkdirAll(raftDir, 0755) if err != nil { Fatal("Could not create raft storage dir: ", err) } fss, err := raft.NewFileSnapshotStore(raftDir, 1, nil) if err != nil { Error("Could not initialize raft snapshot store: ", err) return } // this should be our externally visible address. If not provided in the // config as 'advertise', we use the address of the listen config. if c.Advertise == nil { c.Advertise = &c.Listen } a, err := net.ResolveTCPAddr("tcp", *c.Advertise) if err != nil { Error("Could not lookup raft advertise address: ", err) return } r.transport, err = raft.NewTCPTransport(c.Listen, a, 3, 10*time.Second, nil) if err != nil { Error("Could not create raft transport: ", err) return } peerStore := raft.NewJSONPeers(raftDir, r.transport) if !c.Single { var peers []net.Addr peers, err = peerStore.Peers() if err != nil { return } for _, peerStr := range c.Peers { peer, err := net.ResolveTCPAddr("tcp", peerStr) if err != nil { Fatal("Bad peer:", err) } if !raft.PeerContained(peers, peer) { peerStore.SetPeers(raft.AddUniquePeer(peers, peer)) } } } else { Warn("Running in single node permitted mode. Only use this for testing!") } r.mdb, err = raftmdb.NewMDBStore(raftDir) if err != nil { Error("Could not create raft store:", err) return } storage, err := NewStorage() if err != nil { Error("Could not create storage:", err) return } r.fsm = &FSM{storage} r.raft, err = raft.NewRaft(config, r.fsm, r.mdb, r.mdb, fss, peerStore, r.transport) if err != nil { Error("Could not initialize raft: ", err) return } return }
// setupRaft is used to setup and initialize Raft func (s *Server) setupRaft() error { // If we are in bootstrap mode, enable a single node cluster if s.config.Bootstrap { s.config.RaftConfig.EnableSingleNode = true } // Create the base state path statePath := filepath.Join(s.config.DataDir, tmpStatePath) if err := os.RemoveAll(statePath); err != nil { return err } if err := ensurePath(statePath, true); err != nil { return err } // Create the FSM var err error s.fsm, err = NewFSM(s.tombstoneGC, statePath, s.config.LogOutput) if err != nil { return err } // Set the maximum raft size based on 32/64bit. Since we are // doing an mmap underneath, we need to limit our use of virtual // address space on 32bit, but don't have to care on 64bit. dbSize := raftDBSize32bit if runtime.GOARCH == "amd64" { dbSize = raftDBSize64bit } // Create the base raft path path := filepath.Join(s.config.DataDir, raftState) if err := ensurePath(path, true); err != nil { return err } // Create the MDB store for logs and stable storage store, err := raftmdb.NewMDBStoreWithSize(path, dbSize) if err != nil { return err } s.raftStore = store // Wrap the store in a LogCache to improve performance cacheStore, err := raft.NewLogCache(raftLogCacheSize, store) if err != nil { store.Close() return err } // Create the snapshot store snapshots, err := raft.NewFileSnapshotStore(path, snapshotsRetained, s.config.LogOutput) if err != nil { store.Close() return err } // Create a transport layer trans := raft.NewNetworkTransport(s.raftLayer, 3, 10*time.Second, s.config.LogOutput) s.raftTransport = trans // Setup the peer store s.raftPeers = raft.NewJSONPeers(path, trans) // Ensure local host is always included if we are in bootstrap mode if s.config.Bootstrap { peers, err := s.raftPeers.Peers() if err != nil { store.Close() return err } if !raft.PeerContained(peers, trans.LocalAddr()) { s.raftPeers.SetPeers(raft.AddUniquePeer(peers, trans.LocalAddr())) } } // Make sure we set the LogOutput s.config.RaftConfig.LogOutput = s.config.LogOutput // Setup the Raft store s.raft, err = raft.NewRaft(s.config.RaftConfig, s.fsm, cacheStore, store, snapshots, s.raftPeers, trans) if err != nil { store.Close() trans.Close() return err } // Start monitoring leadership go s.monitorLeadership() return nil }
func (r *localRaft) open() error { s := r.store // Setup raft configuration. config := raft.DefaultConfig() config.LogOutput = ioutil.Discard if s.clusterTracingEnabled { config.Logger = s.Logger } config.HeartbeatTimeout = s.HeartbeatTimeout config.ElectionTimeout = s.ElectionTimeout config.LeaderLeaseTimeout = s.LeaderLeaseTimeout config.CommitTimeout = s.CommitTimeout // If no peers are set in the config or there is one and we are it, then start as a single server. if len(s.peers) <= 1 { config.EnableSingleNode = true // Ensure we can always become the leader config.DisableBootstrapAfterElect = false // Don't shutdown raft automatically if we renamed our hostname back to a previous name config.ShutdownOnRemove = false } // Build raft layer to multiplex listener. r.raftLayer = newRaftLayer(s.RaftListener, s.RemoteAddr) // Create a transport layer r.transport = raft.NewNetworkTransport(r.raftLayer, 3, 10*time.Second, config.LogOutput) // Create peer storage. r.peerStore = raft.NewJSONPeers(s.path, r.transport) peers, err := r.peerStore.Peers() if err != nil { return err } // Make sure our address is in the raft peers or we won't be able to boot into the cluster if len(peers) > 0 && !raft.PeerContained(peers, s.RemoteAddr.String()) { s.Logger.Printf("%v is not in the list of raft peers. Please update %v/peers.json on all raft nodes to have the same contents.", s.RemoteAddr.String(), s.Path()) return fmt.Errorf("peers out of sync: %v not in %v", s.RemoteAddr.String(), peers) } // Create the log store and stable store. store, err := raftboltdb.NewBoltStore(filepath.Join(s.path, "raft.db")) if err != nil { return fmt.Errorf("new bolt store: %s", err) } r.raftStore = store // Create the snapshot store. snapshots, err := raft.NewFileSnapshotStore(s.path, raftSnapshotsRetained, os.Stderr) if err != nil { return fmt.Errorf("file snapshot store: %s", err) } // Create raft log. ra, err := raft.NewRaft(config, (*storeFSM)(s), store, store, snapshots, r.peerStore, r.transport) if err != nil { return fmt.Errorf("new raft: %s", err) } r.raft = ra return nil }
func newPeerStore(home string, transport raft.Transport) *peerStoreWrapper { return &peerStoreWrapper{ raft.NewJSONPeers(home, transport), } }
// setupRaft is used to setup and initialize Raft func (s *Server) setupRaft() error { // If we are in bootstrap mode, enable a single node cluster if s.config.Bootstrap { s.config.RaftConfig.EnableSingleNode = true } // Create the base path path := filepath.Join(s.config.DataDir, raftState) if err := ensurePath(path, true); err != nil { return err } // Create the FSM var err error s.fsm, err = NewFSM(s.config.LogOutput) if err != nil { return err } // Create the MDB store for logs and stable storage store, err := raftmdb.NewMDBStoreWithSize(path, raftDBSize) if err != nil { return err } s.raftStore = store // Create the snapshot store snapshots, err := raft.NewFileSnapshotStore(path, snapshotsRetained, s.config.LogOutput) if err != nil { store.Close() return err } // Create a transport layer trans := raft.NewNetworkTransport(s.raftLayer, 3, 10*time.Second, s.config.LogOutput) s.raftTransport = trans // Setup the peer store s.raftPeers = raft.NewJSONPeers(path, trans) // Ensure local host is always included if we are in bootstrap mode if s.config.Bootstrap { peers, err := s.raftPeers.Peers() if err != nil { store.Close() return err } if !raft.PeerContained(peers, trans.LocalAddr()) { s.raftPeers.SetPeers(raft.AddUniquePeer(peers, trans.LocalAddr())) } } // Make sure we set the LogOutput s.config.RaftConfig.LogOutput = s.config.LogOutput // Setup the Raft store s.raft, err = raft.NewRaft(s.config.RaftConfig, s.fsm, store, store, snapshots, s.raftPeers, trans) if err != nil { store.Close() trans.Close() return err } // Start monitoring leadership go s.monitorLeadership() return nil }
// Open starts the raft consensus and opens the store. func (s *Store) Open() error { s.mu.Lock() defer s.mu.Unlock() // Set up logging. s.logger = log.New(s.LogOutput, "[discoverd] ", log.LstdFlags) // Require listener & advertise address. if s.Listener == nil { return ErrListenerRequired } else if s.Advertise == nil { return ErrAdvertiseRequired } // Create root directory. if err := os.MkdirAll(s.path, 0777); err != nil { return err } // Create raft configuration. config := raft.DefaultConfig() config.HeartbeatTimeout = s.HeartbeatTimeout config.ElectionTimeout = s.ElectionTimeout config.LeaderLeaseTimeout = s.LeaderLeaseTimeout config.CommitTimeout = s.CommitTimeout config.LogOutput = s.LogOutput config.EnableSingleNode = s.EnableSingleNode config.ShutdownOnRemove = false // Create multiplexing transport layer. raftLayer := newRaftLayer(s.Listener, s.Advertise) // Begin listening to TCP port. s.transport = raft.NewNetworkTransport(raftLayer, 3, 10*time.Second, os.Stderr) // Setup storage layers. s.peerStore = raft.NewJSONPeers(s.path, s.transport) stableStore, err := raftboltdb.NewBoltStore(filepath.Join(s.path, "raft.db")) if err != nil { return fmt.Errorf("stable store: %s", err) } s.stableStore = stableStore // Wrap the store in a LogCache to improve performance cacheStore, err := raft.NewLogCache(512, stableStore) if err != nil { stableStore.Close() return fmt.Errorf("log cache: %s", err) } // Create the snapshot store. ss, err := raft.NewFileSnapshotStore(s.path, 2, os.Stderr) if err != nil { return fmt.Errorf("snapshot store: %s", err) } // Create raft log. // // The mutex must be unlocked as initializing the raft store may // call back into methods which acquire the lock (e.g. Restore) s.mu.Unlock() r, err := raft.NewRaft(config, s, cacheStore, stableStore, ss, s.peerStore, s.transport) s.mu.Lock() if err != nil { return fmt.Errorf("raft: %s", err) } // make sure the store was not closed whilst the mutex was unlocked select { case <-s.closing: return ErrShutdown default: } s.raft = r // Start goroutine to monitor leadership changes. s.wg.Add(1) go s.monitorLeaderCh() // Start goroutine to check for instance expiry. s.wg.Add(1) go s.expirer() return nil }
// setupRaft is used to setup and initialize Raft func (s *Server) setupRaft() error { // If we are in bootstrap mode, enable a single node cluster if s.config.Bootstrap || (s.config.DevMode && !s.config.DevDisableBootstrap) { s.config.RaftConfig.EnableSingleNode = true } // Create the FSM var err error s.fsm, err = NewFSM(s.evalBroker, s.periodicDispatcher, s.config.LogOutput) if err != nil { return err } // Create a transport layer trans := raft.NewNetworkTransport(s.raftLayer, 3, s.config.RaftTimeout, s.config.LogOutput) s.raftTransport = trans // Create the backend raft store for logs and stable storage var log raft.LogStore var stable raft.StableStore var snap raft.SnapshotStore var peers raft.PeerStore if s.config.DevMode { store := raft.NewInmemStore() s.raftInmem = store stable = store log = store snap = raft.NewDiscardSnapshotStore() peers = &raft.StaticPeers{} s.raftPeers = peers } else { // Create the base raft path path := filepath.Join(s.config.DataDir, raftState) if err := ensurePath(path, true); err != nil { return err } // Create the BoltDB backend store, err := raftboltdb.NewBoltStore(filepath.Join(path, "raft.db")) if err != nil { return err } s.raftStore = store stable = store // Wrap the store in a LogCache to improve performance cacheStore, err := raft.NewLogCache(raftLogCacheSize, store) if err != nil { store.Close() return err } log = cacheStore // Create the snapshot store snapshots, err := raft.NewFileSnapshotStore(path, snapshotsRetained, s.config.LogOutput) if err != nil { if s.raftStore != nil { s.raftStore.Close() } return err } snap = snapshots // Setup the peer store s.raftPeers = raft.NewJSONPeers(path, trans) peers = s.raftPeers } // Ensure local host is always included if we are in bootstrap mode if s.config.RaftConfig.EnableSingleNode { p, err := peers.Peers() if err != nil { if s.raftStore != nil { s.raftStore.Close() } return err } if !raft.PeerContained(p, trans.LocalAddr()) { peers.SetPeers(raft.AddUniquePeer(p, trans.LocalAddr())) } } // Make sure we set the LogOutput s.config.RaftConfig.LogOutput = s.config.LogOutput // Setup the leader channel leaderCh := make(chan bool, 1) s.config.RaftConfig.NotifyCh = leaderCh s.leaderCh = leaderCh // Setup the Raft store s.raft, err = raft.NewRaft(s.config.RaftConfig, s.fsm, log, stable, snap, peers, trans) if err != nil { if s.raftStore != nil { s.raftStore.Close() } trans.Close() return err } return nil }
// setupRaft is used to setup and initialize Raft func (c *cerebrum) setupRaft() error { // If we are in bootstrap mode, enable a single node cluster if c.config.Bootstrap { c.config.RaftConfig.EnableSingleNode = true } // Create the base state path statePath := filepath.Join(c.config.DataPath, tmpStatePath) if err := os.RemoveAll(statePath); err != nil { return err } if err := os.MkdirAll(filepath.Dir(statePath), 0755); err != nil { return err } // Create the base raft path path := filepath.Join(c.config.DataPath, RaftStateDir) if err := os.MkdirAll(filepath.Dir(path), 0755); err != nil { return err } // Create the backend raft store for logs and stable storage store, err := raftboltdb.NewBoltStore(filepath.Join(path, "raft.db")) if err != nil { return err } c.raftStore = store // Wrap the store in a LogCache to improve performance cacheStore, err := raft.NewLogCache(c.config.LogCacheSize, store) if err != nil { store.Close() return err } // Create the snapshot store snapshots, err := raft.NewFileSnapshotStore(path, c.config.SnapshotsRetained, c.config.LogOutput) if err != nil { store.Close() return err } // Try to bind addr, err := net.ResolveTCPAddr("tcp", c.config.RaftBindAddr) if err != nil { return err } // Start TCP listener listener, err := net.ListenTCP("tcp", addr) if err != nil { return err } // Create connection layer and transport layer := NewRaftLayer(c.dialer, listener.Addr(), c.config.TLSConfig) c.raftTransport = raft.NewNetworkTransport(layer, 3, 10*time.Second, c.config.LogOutput) // Create TLS connection dispatcher dispatcher := yamuxer.NewDispatcher(log.NewLogger(c.config.LogOutput, "dispatcher"), nil) dispatcher.Register(connRaft, layer) dispatcher.Register(connForward, &ForwardingHandler{c.applier, log.NewLogger(c.config.LogOutput, "forwarder")}) // Create TLS connection muxer c.muxer = yamuxer.New(c.context, &yamuxer.Config{ Listener: listener, TLSConfig: c.config.TLSConfig, Deadline: c.config.ConnectionDeadline, LogOutput: c.config.LogOutput, Dispatcher: dispatcher, }) // Setup the peer store c.raftPeers = raft.NewJSONPeers(path, c.raftTransport) // Ensure local host is always included if we are in bootstrap mode if c.config.Bootstrap { peers, err := c.raftPeers.Peers() if err != nil { store.Close() return err } if !raft.PeerContained(peers, c.raftTransport.LocalAddr()) { c.raftPeers.SetPeers(raft.AddUniquePeer(peers, c.raftTransport.LocalAddr())) } } // Make sure we set the LogOutput c.config.RaftConfig.LogOutput = c.config.LogOutput // Setup the Raft store c.raft, err = raft.NewRaft(c.config.RaftConfig, c.fsm, cacheStore, store, snapshots, c.raftPeers, c.raftTransport) if err != nil { store.Close() c.raftTransport.Close() return err } // Setup forwarding and applier c.forwarder = NewForwarder(c.raft, c.dialer, log.NewLogger(c.config.LogOutput, "forwarder")) c.applier = NewApplier(c.raft, c.forwarder, log.NewLogger(c.config.LogOutput, "applier"), c.config.EnqueueTimeout) // // Start monitoring leadership // c.t.Go(func() error { // c.monitorLeadership() // return nil // }) return nil }