package command import ( "fmt" "net/http" "os" "path" "strings" "time" "golang.org/x/exp/slices" "github.com/gorilla/mux" "github.com/seaweedfs/raft/protobuf" "github.com/spf13/viper" "google.golang.org/grpc/reflection" stats_collect "github.com/seaweedfs/seaweedfs/weed/stats" "github.com/seaweedfs/seaweedfs/weed/util/grace" "github.com/seaweedfs/seaweedfs/weed/glog" "github.com/seaweedfs/seaweedfs/weed/pb" "github.com/seaweedfs/seaweedfs/weed/pb/master_pb" "github.com/seaweedfs/seaweedfs/weed/security" weed_server "github.com/seaweedfs/seaweedfs/weed/server" "github.com/seaweedfs/seaweedfs/weed/storage/backend" "github.com/seaweedfs/seaweedfs/weed/util" ) var ( m MasterOptions ) type MasterOptions struct { port *int portGrpc *int ip *string ipBind *string metaFolder *string peers *string volumeSizeLimitMB *uint volumePreallocate *bool // pulseSeconds *int defaultReplication *string garbageThreshold *float64 whiteList *string disableHttp *bool metricsAddress *string metricsIntervalSec *int raftResumeState *bool metricsHttpPort *int heartbeatInterval *time.Duration electionTimeout *time.Duration raftHashicorp *bool raftBootstrap *bool } func init() { cmdMaster.Run = runMaster // break init cycle m.port = cmdMaster.Flag.Int("port", 9333, "http listen port") m.portGrpc = cmdMaster.Flag.Int("port.grpc", 0, "grpc listen port") m.ip = cmdMaster.Flag.String("ip", util.DetectedHostAddress(), "master | address, also used as identifier") m.ipBind = cmdMaster.Flag.String("ip.bind", "", "ip address to bind to. If empty, default to same as -ip option.") m.metaFolder = cmdMaster.Flag.String("mdir", os.TempDir(), "data directory to store meta data") m.peers = cmdMaster.Flag.String("peers", "", "all master nodes in comma separated ip:port list, example: 127.0.0.1:9093,127.0.0.1:9094,127.0.0.1:9095") m.volumeSizeLimitMB = cmdMaster.Flag.Uint("volumeSizeLimitMB", 30*1000, "Master stops directing writes to oversized volumes.") m.volumePreallocate = cmdMaster.Flag.Bool("volumePreallocate", false, "Preallocate disk space for volumes.") // m.pulseSeconds = cmdMaster.Flag.Int("pulseSeconds", 5, "number of seconds between heartbeats") m.defaultReplication = cmdMaster.Flag.String("defaultReplication", "", "Default replication type if not specified.") m.garbageThreshold = cmdMaster.Flag.Float64("garbageThreshold", 0.3, "threshold to vacuum and reclaim spaces") m.whiteList = cmdMaster.Flag.String("whiteList", "", "comma separated Ip addresses having write permission. No limit if empty.") m.disableHttp = cmdMaster.Flag.Bool("disableHttp", false, "disable http requests, only gRPC operations are allowed.") m.metricsAddress = cmdMaster.Flag.String("metrics.address", "", "Prometheus gateway address :") m.metricsIntervalSec = cmdMaster.Flag.Int("metrics.intervalSeconds", 15, "Prometheus push interval in seconds") m.metricsHttpPort = cmdMaster.Flag.Int("metricsPort", 0, "Prometheus metrics listen port") m.raftResumeState = cmdMaster.Flag.Bool("resumeState", false, "resume previous state on start master server") m.heartbeatInterval = cmdMaster.Flag.Duration("heartbeatInterval", 300*time.Millisecond, "heartbeat interval of master servers, and will be randomly multiplied by [1, 1.25)") m.electionTimeout = cmdMaster.Flag.Duration("electionTimeout", 10*time.Second, "election timeout of master servers") m.raftHashicorp = cmdMaster.Flag.Bool("raftHashicorp", false, "use hashicorp raft") m.raftBootstrap = cmdMaster.Flag.Bool("raftBootstrap", false, "Whether to bootstrap the Raft cluster") } var cmdMaster = &Command{ UsageLine: "master -port=9333", Short: "start a master server", Long: `start a master server to provide volume=>location mapping service and sequence number of file ids The configuration file "security.toml" is read from ".", "$HOME/.seaweedfs/", "/usr/local/etc/seaweedfs/", or "/etc/seaweedfs/", in that order. The example security.toml configuration file can be generated by "weed scaffold -config=security" `, } var ( masterCpuProfile = cmdMaster.Flag.String("cpuprofile", "", "cpu profile output file") masterMemProfile = cmdMaster.Flag.String("memprofile", "", "memory profile output file") ) func runMaster(cmd *Command, args []string) bool { util.LoadConfiguration("security", false) util.LoadConfiguration("master", false) grace.SetupProfiling(*masterCpuProfile, *masterMemProfile) parent, _ := util.FullPath(*m.metaFolder).DirAndName() if util.FileExists(string(parent)) && !util.FileExists(*m.metaFolder) { os.MkdirAll(*m.metaFolder, 0755) } if err := util.TestFolderWritable(util.ResolvePath(*m.metaFolder)); err != nil { glog.Fatalf("Check Meta Folder (-mdir) Writable %s : %s", *m.metaFolder, err) } masterWhiteList := util.StringSplit(*m.whiteList, ",") if *m.volumeSizeLimitMB > util.VolumeSizeLimitGB*1000 { glog.Fatalf("volumeSizeLimitMB should be smaller than 30000") } go stats_collect.StartMetricsServer(*m.metricsHttpPort) startMaster(m, masterWhiteList) return true } func startMaster(masterOption MasterOptions, masterWhiteList []string) { backend.LoadConfiguration(util.GetViper()) if *masterOption.portGrpc == 0 { *masterOption.portGrpc = 10000 + *masterOption.port } if *masterOption.ipBind == "" { *masterOption.ipBind = *masterOption.ip } myMasterAddress, peers := checkPeers(*masterOption.ip, *masterOption.port, *masterOption.portGrpc, *masterOption.peers) masterPeers := make(map[string]pb.ServerAddress) for _, peer := range peers { masterPeers[string(peer)] = peer } r := mux.NewRouter() ms := weed_server.NewMasterServer(r, masterOption.toMasterOption(masterWhiteList), masterPeers) listeningAddress := util.JoinHostPort(*masterOption.ipBind, *masterOption.port) glog.V(0).Infof("Start Seaweed Master %s at %s", util.Version(), listeningAddress) masterListener, masterLocalListner, e := util.NewIpAndLocalListeners(*masterOption.ipBind, *masterOption.port, 0) if e != nil { glog.Fatalf("Master startup error: %v", e) } // start raftServer metaDir := path.Join(*masterOption.metaFolder, fmt.Sprintf("m%d", *masterOption.port)) raftServerOption := &weed_server.RaftServerOption{ GrpcDialOption: security.LoadClientTLS(util.GetViper(), "grpc.master"), Peers: masterPeers, ServerAddr: myMasterAddress, DataDir: util.ResolvePath(metaDir), Topo: ms.Topo, RaftResumeState: *masterOption.raftResumeState, HeartbeatInterval: *masterOption.heartbeatInterval, ElectionTimeout: *masterOption.electionTimeout, RaftBootstrap: *m.raftBootstrap, } var raftServer *weed_server.RaftServer var err error if *m.raftHashicorp { if raftServer, err = weed_server.NewHashicorpRaftServer(raftServerOption); err != nil { glog.Fatalf("NewHashicorpRaftServer: %s", err) } } else { raftServer, err = weed_server.NewRaftServer(raftServerOption) if raftServer == nil { glog.Fatalf("please verify %s is writable, see https://github.com/seaweedfs/seaweedfs/issues/717: %s", *masterOption.metaFolder, err) } } ms.SetRaftServer(raftServer) r.HandleFunc("/cluster/status", raftServer.StatusHandler).Methods("GET") r.HandleFunc("/cluster/healthz", raftServer.HealthzHandler).Methods("GET", "HEAD") if *m.raftHashicorp { r.HandleFunc("/raft/stats", raftServer.StatsRaftHandler).Methods("GET") } // starting grpc server grpcPort := *masterOption.portGrpc grpcL, grpcLocalL, err := util.NewIpAndLocalListeners(*masterOption.ipBind, grpcPort, 0) if err != nil { glog.Fatalf("master failed to listen on grpc port %d: %v", grpcPort, err) } grpcS := pb.NewGrpcServer(security.LoadServerTLS(util.GetViper(), "grpc.master")) master_pb.RegisterSeaweedServer(grpcS, ms) if *m.raftHashicorp { raftServer.TransportManager.Register(grpcS) } else { protobuf.RegisterRaftServer(grpcS, raftServer) } reflection.Register(grpcS) glog.V(0).Infof("Start Seaweed Master %s grpc server at %s:%d", util.Version(), *masterOption.ipBind, grpcPort) if grpcLocalL != nil { go grpcS.Serve(grpcLocalL) } go grpcS.Serve(grpcL) timeSleep := 1500 * time.Millisecond if !*m.raftHashicorp { go func() { time.Sleep(timeSleep) ms.Topo.RaftServerAccessLock.RLock() isEmptyMaster := ms.Topo.RaftServer.Leader() == "" && ms.Topo.RaftServer.IsLogEmpty() if isEmptyMaster && isTheFirstOne(myMasterAddress, peers) && ms.MasterClient.FindLeaderFromOtherPeers(myMasterAddress) == "" { raftServer.DoJoinCommand() } ms.Topo.RaftServerAccessLock.RUnlock() }() } go ms.MasterClient.KeepConnectedToMaster() // start http server var ( clientCertFile, certFile, keyFile string ) useTLS := false useMTLS := false if viper.GetString("https.master.key") != "" { useTLS = true certFile = viper.GetString("https.master.cert") keyFile = viper.GetString("https.master.key") } if viper.GetString("https.master.ca") != "" { useMTLS = true clientCertFile = viper.GetString("https.master.ca") } httpS := &http.Server{Handler: r} if masterLocalListner != nil { go httpS.Serve(masterLocalListner) } if useMTLS { httpS.TLSConfig = security.LoadClientTLSHTTP(clientCertFile) } if useTLS { go httpS.ServeTLS(masterListener, certFile, keyFile) } else { go httpS.Serve(masterListener) } select {} } func checkPeers(masterIp string, masterPort int, masterGrpcPort int, peers string) (masterAddress pb.ServerAddress, cleanedPeers []pb.ServerAddress) { glog.V(0).Infof("current: %s:%d peers:%s", masterIp, masterPort, peers) masterAddress = pb.NewServerAddress(masterIp, masterPort, masterGrpcPort) cleanedPeers = pb.ServerAddresses(peers).ToAddresses() hasSelf := false for _, peer := range cleanedPeers { if peer.ToHttpAddress() == masterAddress.ToHttpAddress() { hasSelf = true break } } if !hasSelf { cleanedPeers = append(cleanedPeers, masterAddress) } if len(cleanedPeers)%2 == 0 { glog.Fatalf("Only odd number of masters are supported: %+v", cleanedPeers) } return } func isTheFirstOne(self pb.ServerAddress, peers []pb.ServerAddress) bool { slices.SortFunc(peers, func(a, b pb.ServerAddress) bool { return strings.Compare(string(a), string(b)) < 0 }) if len(peers) <= 0 { return true } return self == peers[0] } func (m *MasterOptions) toMasterOption(whiteList []string) *weed_server.MasterOption { masterAddress := pb.NewServerAddress(*m.ip, *m.port, *m.portGrpc) return &weed_server.MasterOption{ Master: masterAddress, MetaFolder: *m.metaFolder, VolumeSizeLimitMB: uint32(*m.volumeSizeLimitMB), VolumePreallocate: *m.volumePreallocate, // PulseSeconds: *m.pulseSeconds, DefaultReplicaPlacement: *m.defaultReplication, GarbageThreshold: *m.garbageThreshold, WhiteList: whiteList, DisableHttp: *m.disableHttp, MetricsAddress: *m.metricsAddress, MetricsIntervalSec: *m.metricsIntervalSec, } }