package cluster import ( "context" "encoding/json" "errors" "fmt" "io" gonet "net" "net/url" "sort" "strconv" "sync" "time" "github.com/datarhei/core/v16/autocert" clusterautocert "github.com/datarhei/core/v16/cluster/autocert" apiclient "github.com/datarhei/core/v16/cluster/client" "github.com/datarhei/core/v16/cluster/forwarder" "github.com/datarhei/core/v16/cluster/kvs" clusternode "github.com/datarhei/core/v16/cluster/node" "github.com/datarhei/core/v16/cluster/proxy" "github.com/datarhei/core/v16/cluster/raft" "github.com/datarhei/core/v16/cluster/store" "github.com/datarhei/core/v16/config" "github.com/datarhei/core/v16/ffmpeg/skills" "github.com/datarhei/core/v16/iam" iamaccess "github.com/datarhei/core/v16/iam/access" iamidentity "github.com/datarhei/core/v16/iam/identity" "github.com/datarhei/core/v16/log" "github.com/datarhei/core/v16/net" "github.com/datarhei/core/v16/restream/app" ) type Cluster interface { // Address returns the raft address of this node Address() string // ClusterAPIAddress returns the address of the cluster API of a node // with the given raft address. ClusterAPIAddress(raftAddress string) (string, error) // CoreAPIAddress returns the address of the core API of a node with // the given raft address. CoreAPIAddress(raftAddress string) (string, error) CoreConfig() *config.Config CoreSkills() skills.Skills About() (ClusterAbout, error) IsClusterDegraded() (bool, error) IsDegraded() (bool, error) GetBarrier(name string) bool Join(origin, id, raftAddress, peerAddress string) error Leave(origin, id string) error // gracefully remove a node from the cluster Snapshot(origin string) (io.ReadCloser, error) Shutdown() error ListProcesses() []store.Process GetProcess(id app.ProcessID) (store.Process, error) AddProcess(origin string, config *app.Config) error RemoveProcess(origin string, id app.ProcessID) error UpdateProcess(origin string, id app.ProcessID, config *app.Config) error SetProcessCommand(origin string, id app.ProcessID, order string) error SetProcessMetadata(origin string, id app.ProcessID, key string, data interface{}) error IAM(superuser iamidentity.User, jwtRealm, jwtSecret string) (iam.IAM, error) ListIdentities() (time.Time, []iamidentity.User) ListIdentity(name string) (time.Time, iamidentity.User, error) ListPolicies() (time.Time, []iamaccess.Policy) ListUserPolicies(name string) (time.Time, []iamaccess.Policy) AddIdentity(origin string, identity iamidentity.User) error UpdateIdentity(origin, name string, identity iamidentity.User) error SetPolicies(origin, name string, policies []iamaccess.Policy) error RemoveIdentity(origin string, name string) error CreateLock(origin string, name string, validUntil time.Time) (*kvs.Lock, error) DeleteLock(origin string, name string) error ListLocks() map[string]time.Time SetKV(origin, key, value string) error UnsetKV(origin, key string) error GetKV(origin, key string) (string, time.Time, error) ListKV(prefix string) map[string]store.Value ProxyReader() proxy.ProxyReader CertManager() autocert.Manager } type Peer struct { ID string Address string } type Config struct { ID string // ID of the node Name string // Name of the node Path string // Path where to store all cluster data Address string // Listen address for the raft protocol Peers []Peer // Address of a member of a cluster to join SyncInterval time.Duration // Interval between aligning the process in the cluster DB with the processes on the nodes NodeRecoverTimeout time.Duration // Timeout for a node to recover before rebalancing the processes EmergencyLeaderTimeout time.Duration // Timeout for establishing the emergency leadership after lost contact to raft leader CoreConfig *config.Config CoreSkills skills.Skills IPLimiter net.IPLimiter Logger log.Logger } type cluster struct { id string name string path string logger log.Logger raft raft.Raft raftRemoveGracePeriod time.Duration raftAddress string raftNotifyCh chan bool raftEmergencyNotifyCh chan bool raftLeaderObservationCh chan string store store.Store cancelLeaderShip context.CancelFunc shutdown bool shutdownCh chan struct{} shutdownLock sync.Mutex syncInterval time.Duration nodeRecoverTimeout time.Duration emergencyLeaderTimeout time.Duration forwarder forwarder.Forwarder api API proxy proxy.Proxy config *config.Config skills skills.Skills coreAddress string isDegraded bool isDegradedErr error isCoreDegraded bool isCoreDegradedErr error stateLock sync.Mutex isRaftLeader bool hasRaftLeader bool isLeader bool leaderLock sync.Mutex isTLSRequired bool certManager autocert.Manager nodes map[string]clusternode.Node nodesLock sync.RWMutex barrier map[string]bool barrierLock sync.RWMutex limiter net.IPLimiter } var ErrDegraded = errors.New("cluster is currently degraded") func New(ctx context.Context, config Config) (Cluster, error) { c := &cluster{ id: config.ID, name: config.Name, path: config.Path, logger: config.Logger, raftAddress: config.Address, raftRemoveGracePeriod: 5 * time.Second, shutdownCh: make(chan struct{}), syncInterval: config.SyncInterval, nodeRecoverTimeout: config.NodeRecoverTimeout, emergencyLeaderTimeout: config.EmergencyLeaderTimeout, isDegraded: true, isDegradedErr: fmt.Errorf("cluster not yet startet"), isCoreDegraded: true, isCoreDegradedErr: fmt.Errorf("cluster not yet started"), config: config.CoreConfig, skills: config.CoreSkills, nodes: map[string]clusternode.Node{}, barrier: map[string]bool{}, limiter: config.IPLimiter, } if c.config == nil { return nil, fmt.Errorf("the core config must be provided") } if c.limiter == nil { c.limiter = net.NewNullIPLimiter() } c.isTLSRequired = c.config.TLS.Enable && c.config.TLS.Auto host, port, err := gonet.SplitHostPort(c.config.Address) if err != nil { return nil, fmt.Errorf("invalid core address: %s: %w", c.config.Address, err) } chost, _, err := gonet.SplitHostPort(c.config.Cluster.Address) if err != nil { return nil, fmt.Errorf("invalid cluster address: %s: %w", c.config.Cluster.Address, err) } if len(chost) == 0 { return nil, fmt.Errorf("invalid cluster address: %s: %w", c.config.Cluster.Address, err) } if len(host) == 0 { host = chost } u := &url.URL{ Scheme: "http", Host: gonet.JoinHostPort(host, port), Path: "/", } if len(c.config.API.Auth.Password) == 0 { u.User = url.User(c.config.API.Auth.Username) } else { u.User = url.UserPassword(c.config.API.Auth.Username, c.config.API.Auth.Password) } c.coreAddress = u.String() if c.logger == nil { c.logger = log.New("") } store, err := store.NewStore(store.Config{ Logger: c.logger.WithField("logname", "fsm"), }) if err != nil { return nil, err } c.store = store api, err := NewAPI(APIConfig{ ID: c.id, Cluster: c, Logger: c.logger.WithField("logname", "api"), }) if err != nil { return nil, err } go func(api API) { api.Start() }(api) c.api = api nodeproxy, err := proxy.NewProxy(proxy.ProxyConfig{ ID: c.id, Logger: c.logger.WithField("logname", "proxy"), }) if err != nil { c.Shutdown() return nil, err } go func(nodeproxy proxy.Proxy) { nodeproxy.Start() }(nodeproxy) c.proxy = nodeproxy if forwarder, err := forwarder.New(forwarder.ForwarderConfig{ ID: c.id, Logger: c.logger.WithField("logname", "forwarder"), }); err != nil { c.Shutdown() return nil, err } else { c.forwarder = forwarder } c.logger.Debug().Log("Starting raft") peers := []raft.Peer{} for _, p := range config.Peers { peers = append(peers, raft.Peer{ ID: p.ID, Address: p.Address, }) } c.raftNotifyCh = make(chan bool, 16) c.raftLeaderObservationCh = make(chan string, 16) c.raftEmergencyNotifyCh = make(chan bool, 16) raft, err := raft.New(raft.Config{ ID: config.ID, Path: config.Path, Address: config.Address, Peers: peers, Store: store, LeadershipNotifyCh: c.raftNotifyCh, LeaderObservationCh: c.raftLeaderObservationCh, Logger: c.logger.WithComponent("Raft"), }) if err != nil { c.Shutdown() return nil, err } c.raft = raft if len(config.Peers) != 0 { for i := 0; i < len(config.Peers); i++ { peerAddress, err := c.ClusterAPIAddress(config.Peers[i].Address) if err != nil { c.Shutdown() return nil, err } go func(peerAddress string) { ticker := time.NewTicker(time.Second) defer ticker.Stop() for { select { case <-c.shutdownCh: return case <-ticker.C: err := c.Join("", c.id, c.raftAddress, peerAddress) if err != nil { c.logger.Warn().WithError(err).Log("Join cluster") continue } return } } }(peerAddress) } } go c.trackNodeChanges() go c.trackLeaderChanges() go c.monitorLeadership() go c.sentinel() err = c.setup(ctx) if err != nil { c.Shutdown() return nil, fmt.Errorf("failed to setup cluster: %w", err) } return c, nil } func (c *cluster) setup(ctx context.Context) error { // Wait for a leader to be selected c.logger.Info().Log("Waiting for a leader to be elected ...") for { _, leader := c.raft.Leader() if len(leader) != 0 { break } select { case <-ctx.Done(): return fmt.Errorf("starting cluster has been aborted: %w", ctx.Err()) default: } time.Sleep(500 * time.Millisecond) } c.logger.Info().Log("Leader has been elected") // Wait for all cluster nodes to leave degraded mode c.logger.Info().Log("Waiting for cluster to become operational ...") for { ok, err := c.IsClusterDegraded() if !ok { break } c.logger.Warn().WithError(err).Log("Cluster is in degraded state") select { case <-ctx.Done(): return fmt.Errorf("starting cluster has been aborted: %w: %s", ctx.Err(), err.Error()) default: } time.Sleep(time.Second) } err := c.Barrier(ctx, "operational") if err != nil { return fmt.Errorf("failed on barrier: %w", err) } c.logger.Info().Log("Cluster is operational") if c.isTLSRequired { c.logger.Info().Log("Waiting for TLS certificates ...") // Create certificate manager hostnames, err := c.getClusterHostnames() if err != nil { return fmt.Errorf("tls: failed to assemble list of all configured hostnames: %w", err) } if len(hostnames) == 0 { return fmt.Errorf("no hostnames are configured") } kvs, err := NewClusterKVS(c, c.logger.WithComponent("KVS")) if err != nil { return fmt.Errorf("tls: cluster KVS: %w", err) } storage, err := clusterautocert.NewStorage(kvs, "core-cluster-certificates", c.logger.WithComponent("KVS")) if err != nil { return fmt.Errorf("tls: certificate store: %w", err) } if len(c.config.TLS.Secret) != 0 { storage = autocert.NewCryptoStorage(storage, autocert.NewCrypto(c.config.TLS.Secret)) } manager, err := autocert.New(autocert.Config{ Storage: storage, DefaultHostname: hostnames[0], EmailAddress: c.config.TLS.Email, IsProduction: !c.config.TLS.Staging, Logger: c.logger.WithComponent("Let's Encrypt"), }) if err != nil { return fmt.Errorf("tls: certificate manager: %w", err) } c.certManager = manager resctx, rescancel := context.WithCancel(ctx) defer rescancel() err = manager.HTTPChallengeResolver(resctx, c.config.Address) if err != nil { return fmt.Errorf("tls: failed to start the HTTP challenge resolver: %w", err) } // We have to wait for all nodes to have the HTTP challenge resolver started err = c.Barrier(ctx, "acme") if err != nil { return fmt.Errorf("tls: failed on barrier: %w", err) } // Acquire certificates, all nodes can do this at the same time because everything // is synched via the storage. err = manager.AcquireCertificates(ctx, hostnames) if err != nil { return fmt.Errorf("tls: failed to acquire certificates: %w", err) } rescancel() c.logger.Info().Log("TLS certificates acquired") } c.logger.Info().Log("Waiting for cluster to become ready ...") err = c.Barrier(ctx, "ready") if err != nil { return fmt.Errorf("failed on barrier: %w", err) } c.logger.Info().Log("Cluster is ready") return nil } func (c *cluster) GetBarrier(name string) bool { c.barrierLock.RLock() defer c.barrierLock.RUnlock() return c.barrier[name] } func (c *cluster) Barrier(ctx context.Context, name string) error { c.barrierLock.Lock() c.barrier[name] = true c.barrierLock.Unlock() for { ok, err := c.getClusterBarrier(name) if ok { break } c.logger.Warn().WithField("name", name).WithError(err).Log("Waiting for barrier") select { case <-ctx.Done(): return fmt.Errorf("barrier %s: starting cluster has been aborted: %w: %s", name, ctx.Err(), err.Error()) default: } time.Sleep(time.Second) } return nil } func (c *cluster) Address() string { return c.raftAddress } func (c *cluster) ClusterAPIAddress(raftAddress string) (string, error) { if len(raftAddress) == 0 { raftAddress = c.Address() } return clusterAPIAddress(raftAddress) } func clusterAPIAddress(raftAddress string) (string, error) { host, port, err := gonet.SplitHostPort(raftAddress) if err != nil { return "", err } p, err := strconv.Atoi(port) if err != nil { return "", err } return gonet.JoinHostPort(host, strconv.Itoa(p+1)), nil } func (c *cluster) CoreAPIAddress(raftAddress string) (string, error) { if len(raftAddress) == 0 { raftAddress = c.Address() } if raftAddress == c.Address() { return c.coreAddress, nil } addr, err := c.ClusterAPIAddress(raftAddress) if err != nil { return "", err } client := apiclient.APIClient{ Address: addr, } coreAddress, err := client.CoreAPIAddress() return coreAddress, err } func (c *cluster) CoreConfig() *config.Config { return c.config.Clone() } func (c *cluster) CoreSkills() skills.Skills { return c.skills } func (c *cluster) CertManager() autocert.Manager { return c.certManager } func (c *cluster) Shutdown() error { c.logger.Info().Log("Shutting down cluster") c.shutdownLock.Lock() defer c.shutdownLock.Unlock() if c.shutdown { return nil } c.shutdown = true close(c.shutdownCh) for id, node := range c.nodes { node.Stop() if c.proxy != nil { c.proxy.RemoveNode(id) } } if c.proxy != nil { c.proxy.Stop() } if c.api != nil { ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second) defer cancel() c.api.Shutdown(ctx) } if c.raft != nil { c.raft.Shutdown() c.raft = nil } return nil } func (c *cluster) IsRaftLeader() bool { c.leaderLock.Lock() defer c.leaderLock.Unlock() return c.isRaftLeader } func (c *cluster) IsDegraded() (bool, error) { c.stateLock.Lock() defer c.stateLock.Unlock() if c.isDegraded { return c.isDegraded, c.isDegradedErr } return c.isCoreDegraded, c.isCoreDegradedErr } func (c *cluster) IsClusterDegraded() (bool, error) { c.stateLock.Lock() isDegraded, isDegradedErr := c.isDegraded, c.isDegradedErr c.stateLock.Unlock() if isDegraded { return isDegraded, isDegradedErr } servers, err := c.raft.Servers() if err != nil { return true, err } c.nodesLock.Lock() nodes := len(c.nodes) c.nodesLock.Unlock() if len(servers) != nodes { return true, fmt.Errorf("not all nodes are connected") } return false, nil } func (c *cluster) Leave(origin, id string) error { if len(id) == 0 { id = c.id } c.logger.Debug().WithFields(log.Fields{ "nodeid": id, }).Log("Received leave request for server") if !c.IsRaftLeader() { // Tell the leader to remove us err := c.forwarder.Leave(origin, id) if err != nil { return err } // Wait for us being removed from the configuration left := false limit := time.Now().Add(c.raftRemoveGracePeriod) for !left && time.Now().Before(limit) { c.logger.Debug().Log("Waiting for getting removed from the configuration") // Sleep a while before we check. time.Sleep(50 * time.Millisecond) // Get the latest configuration. servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") break } // See if we are no longer included. left = true for _, server := range servers { if server.Address == c.raftAddress { left = false break } } } if !left { c.logger.Warn().Log("Failed to leave raft configuration gracefully, timeout") } return nil } // Count the number of servers in the cluster servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") return err } numPeers := len(servers) if id == c.id { // We're going to remove ourselves if numPeers <= 1 { // Don't do so if we're the only server in the cluster c.logger.Debug().Log("We're the leader without any peers, not doing anything") return nil } // Transfer the leadership to another server err := c.leadershipTransfer() if err != nil { c.logger.Warn().WithError(err).Log("Transfer leadership") return err } // Wait for new leader election for { c.logger.Debug().Log("Waiting for new leader election") time.Sleep(50 * time.Millisecond) c.leaderLock.Lock() hasLeader := c.hasRaftLeader c.leaderLock.Unlock() if hasLeader { break } } // Tell the new leader to remove us err = c.forwarder.Leave("", id) if err != nil { return err } // Wait for us being removed from the configuration left := false limit := time.Now().Add(c.raftRemoveGracePeriod) for !left && time.Now().Before(limit) { c.logger.Debug().Log("Waiting for getting removed from the configuration") // Sleep a while before we check. time.Sleep(50 * time.Millisecond) // Get the latest configuration. servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") break } // See if we are no longer included. left = true for _, server := range servers { if server.Address == c.raftAddress { left = false break } } } return nil } // Remove another sever from the cluster err = c.raft.RemoveServer(id) if err != nil { c.logger.Error().WithError(err).WithFields(log.Fields{ "nodeid": id, }).Log("Remove server") return err } return nil } func (c *cluster) Join(origin, id, raftAddress, peerAddress string) error { if !c.IsRaftLeader() { c.logger.Debug().Log("Not leader, forwarding to leader") return c.forwarder.Join(origin, id, raftAddress, peerAddress) } c.logger.Debug().WithFields(log.Fields{ "nodeid": id, "address": raftAddress, }).Log("Received join request for remote server") servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") return err } nodeExists := false for _, srv := range servers { // If a node already exists with either the joining node's ID or address, // that node may need to be removed from the config first. if srv.ID == id || srv.Address == raftAddress { // However if *both* the ID and the address are the same, then nothing -- not even // a join operation -- is needed. if srv.ID == id && srv.Address == raftAddress { nodeExists = true c.logger.Debug().WithFields(log.Fields{ "nodeid": id, "address": raftAddress, }).Log("Server is already member of cluster, ignoring join request") } else { err := c.raft.RemoveServer(srv.ID) if err != nil { c.logger.Error().WithError(err).WithFields(log.Fields{ "nodeid": id, "address": raftAddress, }).Log("Removing existing node") return fmt.Errorf("error removing existing node %s at %s: %w", id, raftAddress, err) } } } } if !nodeExists { err := c.raft.AddServer(id, raftAddress) if err != nil { return err } } c.logger.Info().WithFields(log.Fields{ "nodeid": id, "address": raftAddress, }).Log("Joined successfully") return nil } func (c *cluster) Snapshot(origin string) (io.ReadCloser, error) { if !c.IsRaftLeader() { c.logger.Debug().Log("Not leader, forwarding to leader") return c.forwarder.Snapshot(origin) } return c.raft.Snapshot() } func (c *cluster) trackNodeChanges() { ticker := time.NewTicker(5 * time.Second) defer ticker.Stop() for { select { case <-ticker.C: // Get the latest configuration. servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") continue } c.nodesLock.Lock() removeNodes := map[string]struct{}{} for id := range c.nodes { removeNodes[id] = struct{}{} } for _, server := range servers { id := server.ID _, ok := c.nodes[id] if !ok { logger := c.logger.WithFields(log.Fields{ "id": server.ID, "address": server.Address, }) address, err := clusterAPIAddress(server.Address) if err != nil { logger.Warn().WithError(err).Log("Discovering cluster API address") } node := clusternode.New(id, address) if err := verifyClusterVersion(node.Version()); err != nil { logger.Warn().Log("Version mismatch. Cluster will end up in degraded mode") } if _, err := c.proxy.AddNode(id, node.Proxy()); err != nil { logger.Warn().WithError(err).Log("Adding node") node.Stop() continue } c.nodes[id] = node ips := node.IPs() for _, ip := range ips { c.limiter.AddBlock(ip) } } else { delete(removeNodes, id) } } for id := range removeNodes { node, ok := c.nodes[id] if !ok { continue } c.proxy.RemoveNode(id) node.Stop() ips := node.IPs() for _, ip := range ips { c.limiter.RemoveBlock(ip) } delete(c.nodes, id) } c.nodesLock.Unlock() // Put the cluster in "degraded" mode in case there's a mismatch in expected values _, err = c.checkClusterNodes() c.stateLock.Lock() if err != nil { c.isDegraded = true c.isDegradedErr = err } else { c.isDegraded = false c.isDegradedErr = nil } c.stateLock.Unlock() // Put the cluster in "coreDegraded" mode in case there's a mismatch in expected values err = c.checkClusterCoreNodes() c.stateLock.Lock() if err != nil { c.isCoreDegraded = true c.isCoreDegradedErr = err } else { c.isCoreDegraded = false c.isCoreDegradedErr = nil } c.stateLock.Unlock() case <-c.shutdownCh: return } } } // checkClusterNodes returns a list of all hostnames configured on all nodes. The // returned list will not contain any duplicates. An error is returned in case the // node is not compatible. func (c *cluster) checkClusterNodes() ([]string, error) { hostnames := map[string]struct{}{} c.nodesLock.RLock() defer c.nodesLock.RUnlock() for id, node := range c.nodes { if status, err := node.Status(); status == "offline" { return nil, fmt.Errorf("node %s is offline: %w", id, err) } version := node.Version() if err := verifyClusterVersion(version); err != nil { return nil, fmt.Errorf("node %s has a different version: %s: %w", id, version, err) } config, err := node.CoreConfig() if err != nil { return nil, fmt.Errorf("node %s has no configuration available: %w", id, err) } if err := verifyClusterConfig(c.config, config); err != nil { return nil, fmt.Errorf("node %s has a different configuration: %w", id, err) } skills, err := node.CoreSkills() if err != nil { return nil, fmt.Errorf("node %s has no FFmpeg skills available: %w", id, err) } if !c.skills.Equal(skills) { return nil, fmt.Errorf("node %s has mismatching FFmpeg skills", id) } for _, name := range config.Host.Name { hostnames[name] = struct{}{} } } names := []string{} for key := range hostnames { names = append(names, key) } sort.Strings(names) return names, nil } func (c *cluster) checkClusterCoreNodes() error { c.nodesLock.RLock() defer c.nodesLock.RUnlock() for id, node := range c.nodes { if status, err := node.CoreStatus(); status == "offline" { return fmt.Errorf("node %s core is offline: %w", id, err) } } return nil } // getClusterHostnames return a list of all hostnames configured on all nodes. The // returned list will not contain any duplicates. func (c *cluster) getClusterHostnames() ([]string, error) { hostnames := map[string]struct{}{} c.nodesLock.RLock() defer c.nodesLock.RUnlock() for id, node := range c.nodes { config, err := node.CoreConfig() if err != nil { return nil, fmt.Errorf("node %s has no configuration available: %w", id, err) } for _, name := range config.Host.Name { hostnames[name] = struct{}{} } } names := []string{} for key := range hostnames { names = append(names, key) } sort.Strings(names) return names, nil } // getClusterBarrier returns whether all nodes are currently on the same barrier. func (c *cluster) getClusterBarrier(name string) (bool, error) { c.nodesLock.RLock() defer c.nodesLock.RUnlock() for _, node := range c.nodes { ok, err := node.Barrier(name) if !ok { return false, err } } return true, nil } func verifyClusterVersion(v string) error { version, err := ParseClusterVersion(v) if err != nil { return fmt.Errorf("parsing version %s: %w", v, err) } if !Version.Equal(version) { return fmt.Errorf("version %s not equal to expected version %s", version.String(), Version.String()) } return nil } func verifyClusterConfig(local, remote *config.Config) error { if local == nil || remote == nil { return fmt.Errorf("config is not available") } if local.Cluster.Enable != remote.Cluster.Enable { return fmt.Errorf("cluster.enable is different") } if local.Cluster.SyncInterval != remote.Cluster.SyncInterval { return fmt.Errorf("cluster.sync_interval_sec is different") } if local.Cluster.NodeRecoverTimeout != remote.Cluster.NodeRecoverTimeout { return fmt.Errorf("cluster.node_recover_timeout_sec is different") } if local.Cluster.EmergencyLeaderTimeout != remote.Cluster.EmergencyLeaderTimeout { return fmt.Errorf("cluster.emergency_leader_timeout_sec is different") } if !local.API.Auth.Enable { return fmt.Errorf("api.auth.enable must be true") } if local.API.Auth.Enable != remote.API.Auth.Enable { return fmt.Errorf("api.auth.enable is different") } if local.API.Auth.Username != remote.API.Auth.Username { return fmt.Errorf("api.auth.username is different") } if local.API.Auth.Password != remote.API.Auth.Password { return fmt.Errorf("api.auth.password is different") } if local.API.Auth.JWT.Secret != remote.API.Auth.JWT.Secret { return fmt.Errorf("api.auth.jwt.secret is different") } if local.RTMP.Enable != remote.RTMP.Enable { return fmt.Errorf("rtmp.enable is different") } if local.RTMP.Enable { if local.RTMP.App != remote.RTMP.App { return fmt.Errorf("rtmp.app is different") } } if local.SRT.Enable != remote.SRT.Enable { return fmt.Errorf("srt.enable is different") } if local.SRT.Enable { if local.SRT.Passphrase != remote.SRT.Passphrase { return fmt.Errorf("srt.passphrase is different") } } if local.Resources.MaxCPUUsage == 0 || remote.Resources.MaxCPUUsage == 0 { return fmt.Errorf("resources.max_cpu_usage must be defined") } if local.Resources.MaxMemoryUsage == 0 || remote.Resources.MaxMemoryUsage == 0 { return fmt.Errorf("resources.max_memory_usage must be defined") } if local.TLS.Enable != remote.TLS.Enable { return fmt.Errorf("tls.enable is different") } if local.TLS.Enable { if local.TLS.Auto != remote.TLS.Auto { return fmt.Errorf("tls.auto is different") } if len(local.Host.Name) == 0 || len(remote.Host.Name) == 0 { return fmt.Errorf("host.name must be set") } if local.TLS.Auto { if local.TLS.Email != remote.TLS.Email { return fmt.Errorf("tls.email is different") } if local.TLS.Staging != remote.TLS.Staging { return fmt.Errorf("tls.staging is different") } if local.TLS.Secret != remote.TLS.Secret { return fmt.Errorf("tls.secret is different") } } } return nil } // trackLeaderChanges registers an Observer with raft in order to receive updates // about leader changes, in order to keep the forwarder up to date. func (c *cluster) trackLeaderChanges() { for { select { case leaderAddress := <-c.raftLeaderObservationCh: c.logger.Debug().WithFields(log.Fields{ "address": leaderAddress, }).Log("Leader observation") if len(leaderAddress) != 0 { leaderAddress, _ = c.ClusterAPIAddress(leaderAddress) } c.forwarder.SetLeader(leaderAddress) c.leaderLock.Lock() if len(leaderAddress) == 0 { c.hasRaftLeader = false } else { c.hasRaftLeader = true } c.leaderLock.Unlock() case <-c.shutdownCh: return } } } func (c *cluster) applyCommand(cmd *store.Command) error { b, err := json.Marshal(cmd) if err != nil { return err } err = c.raft.Apply(b) if err != nil { return fmt.Errorf("apply command: %w", err) } return nil } type ClusterRaftServer struct { ID string Address string Voter bool Leader bool } type ClusterRaftStats struct { State string LastContact time.Duration NumPeers uint64 } type ClusterRaft struct { Server []ClusterRaftServer Stats ClusterRaftStats } type ClusterAbout struct { ID string Address string ClusterAPIAddress string CoreAPIAddress string Raft ClusterRaft Nodes []proxy.NodeAbout Version ClusterVersion Degraded bool DegradedErr error } func (c *cluster) About() (ClusterAbout, error) { degraded, degradedErr := c.IsDegraded() about := ClusterAbout{ ID: c.id, Address: c.Address(), Degraded: degraded, DegradedErr: degradedErr, } if address, err := c.ClusterAPIAddress(""); err == nil { about.ClusterAPIAddress = address } if address, err := c.CoreAPIAddress(""); err == nil { about.CoreAPIAddress = address } stats := c.raft.Stats() about.Raft.Stats.State = stats.State about.Raft.Stats.LastContact = stats.LastContact about.Raft.Stats.NumPeers = stats.NumPeers servers, err := c.raft.Servers() if err != nil { c.logger.Error().WithError(err).Log("Raft configuration") return ClusterAbout{}, err } for _, server := range servers { node := ClusterRaftServer{ ID: server.ID, Address: server.Address, Voter: server.Voter, Leader: server.Leader, } about.Raft.Server = append(about.Raft.Server, node) } about.Version = Version nodes := c.ProxyReader().ListNodes() for _, node := range nodes { about.Nodes = append(about.Nodes, node.About()) } return about, nil } func (c *cluster) sentinel() { ticker := time.NewTicker(time.Second) defer ticker.Stop() isEmergencyLeader := false for { select { case <-c.shutdownCh: return case <-ticker.C: stats := c.raft.Stats() c.logger.Debug().WithFields(log.Fields{ "state": stats.State, "last_contact": stats.LastContact, "num_peers": stats.NumPeers, }).Log("Stats") if stats.NumPeers > 1 { // Enable emergency leadership only in a configuration with two nodes. break } if stats.LastContact > c.emergencyLeaderTimeout && !isEmergencyLeader { c.logger.Warn().Log("Force leadership due to lost contact to leader") c.raftEmergencyNotifyCh <- true isEmergencyLeader = true } else if stats.LastContact <= c.emergencyLeaderTimeout && isEmergencyLeader { c.logger.Warn().Log("Stop forced leadership due to contact to leader") c.raftEmergencyNotifyCh <- false isEmergencyLeader = false } } } } func (c *cluster) ProxyReader() proxy.ProxyReader { return c.proxy.Reader() }