package agent import ( "context" "crypto/sha512" "crypto/tls" "encoding/json" "fmt" "io" "io/ioutil" "log" "net" "net/http" "os" "path/filepath" "strconv" "strings" "sync" "time" "github.com/armon/go-metrics" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/agent/ae" "github.com/hashicorp/consul/agent/cache" "github.com/hashicorp/consul/agent/cache-types" "github.com/hashicorp/consul/agent/checks" "github.com/hashicorp/consul/agent/config" "github.com/hashicorp/consul/agent/consul" "github.com/hashicorp/consul/agent/local" "github.com/hashicorp/consul/agent/proxy" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/agent/systemd" "github.com/hashicorp/consul/agent/token" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/ipaddr" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/lib/file" "github.com/hashicorp/consul/logger" "github.com/hashicorp/consul/types" "github.com/hashicorp/consul/watch" "github.com/hashicorp/go-uuid" "github.com/hashicorp/memberlist" "github.com/hashicorp/raft" "github.com/hashicorp/serf/serf" "github.com/shirou/gopsutil/host" "golang.org/x/net/http2" ) const ( // Path to save agent service definitions servicesDir = "services" // Path to save agent proxy definitions proxyDir = "proxies" // Path to save local agent checks checksDir = "checks" checkStateDir = "checks/state" // Default reasons for node/service maintenance mode defaultNodeMaintReason = "Maintenance mode is enabled for this node, " + "but no reason was provided. This is a default message." defaultServiceMaintReason = "Maintenance mode is enabled for this " + "service, but no reason was provided. This is a default message." ) // delegate defines the interface shared by both // consul.Client and consul.Server. type delegate interface { Encrypted() bool GetLANCoordinate() (lib.CoordinateSet, error) Leave() error LANMembers() []serf.Member LANMembersAllSegments() ([]serf.Member, error) LANSegmentMembers(segment string) ([]serf.Member, error) LocalMember() serf.Member JoinLAN(addrs []string) (n int, err error) RemoveFailedNode(node string) error RPC(method string, args interface{}, reply interface{}) error SnapshotRPC(args *structs.SnapshotRequest, in io.Reader, out io.Writer, replyFn structs.SnapshotReplyFn) error Shutdown() error Stats() map[string]map[string]string enterpriseDelegate } // notifier is called after a successful JoinLAN. type notifier interface { Notify(string) error } // The agent is the long running process that is run on every machine. // It exposes an RPC interface that is used by the CLI to control the // agent. The agent runs the query interfaces like HTTP, DNS, and RPC. // However, it can run in either a client, or server mode. In server // mode, it runs a full Consul server. In client-only mode, it only forwards // requests to other Consul servers. type Agent struct { // config is the agent configuration. config *config.RuntimeConfig // Used for writing our logs logger *log.Logger // Output sink for logs LogOutput io.Writer // Used for streaming logs to LogWriter *logger.LogWriter // In-memory sink used for collecting metrics MemSink *metrics.InmemSink // delegate is either a *consul.Server or *consul.Client // depending on the configuration delegate delegate // acls is an object that helps manage local ACL enforcement. acls *aclManager // state stores a local representation of the node, // services and checks. Used for anti-entropy. State *local.State // sync manages the synchronization of the local // and the remote state. sync *ae.StateSyncer // cache is the in-memory cache for data the Agent requests. cache *cache.Cache // checkReapAfter maps the check ID to a timeout after which we should // reap its associated service checkReapAfter map[types.CheckID]time.Duration // checkMonitors maps the check ID to an associated monitor checkMonitors map[types.CheckID]*checks.CheckMonitor // checkHTTPs maps the check ID to an associated HTTP check checkHTTPs map[types.CheckID]*checks.CheckHTTP // checkTCPs maps the check ID to an associated TCP check checkTCPs map[types.CheckID]*checks.CheckTCP // checkGRPCs maps the check ID to an associated GRPC check checkGRPCs map[types.CheckID]*checks.CheckGRPC // checkTTLs maps the check ID to an associated check TTL checkTTLs map[types.CheckID]*checks.CheckTTL // checkDockers maps the check ID to an associated Docker Exec based check checkDockers map[types.CheckID]*checks.CheckDocker // checkLock protects updates to the check* maps checkLock sync.Mutex // dockerClient is the client for performing docker health checks. dockerClient *checks.DockerClient // eventCh is used to receive user events eventCh chan serf.UserEvent // eventBuf stores the most recent events in a ring buffer // using eventIndex as the next index to insert into. This // is guarded by eventLock. When an insert happens, the // eventNotify group is notified. eventBuf []*UserEvent eventIndex int eventLock sync.RWMutex eventNotify NotifyGroup reloadCh chan chan error shutdown bool shutdownCh chan struct{} shutdownLock sync.Mutex // joinLANNotifier is called after a successful JoinLAN. joinLANNotifier notifier // retryJoinCh transports errors from the retry join // attempts. retryJoinCh chan error // endpoints maps unique RPC endpoint names to common ones // to allow overriding of RPC handlers since the golang // net/rpc server does not allow this. endpoints map[string]string endpointsLock sync.RWMutex // dnsServer provides the DNS API dnsServers []*DNSServer // httpServers provides the HTTP API on various endpoints httpServers []*HTTPServer // wgServers is the wait group for all HTTP and DNS servers wgServers sync.WaitGroup // watchPlans tracks all the currently-running watch plans for the // agent. watchPlans []*watch.Plan // tokens holds ACL tokens initially from the configuration, but can // be updated at runtime, so should always be used instead of going to // the configuration directly. tokens *token.Store // proxyManager is the proxy process manager for managed Connect proxies. proxyManager *proxy.Manager } func New(c *config.RuntimeConfig) (*Agent, error) { if c.Datacenter == "" { return nil, fmt.Errorf("Must configure a Datacenter") } if c.DataDir == "" && !c.DevMode { return nil, fmt.Errorf("Must configure a DataDir") } acls, err := newACLManager(c) if err != nil { return nil, err } a := &Agent{ config: c, acls: acls, checkReapAfter: make(map[types.CheckID]time.Duration), checkMonitors: make(map[types.CheckID]*checks.CheckMonitor), checkTTLs: make(map[types.CheckID]*checks.CheckTTL), checkHTTPs: make(map[types.CheckID]*checks.CheckHTTP), checkTCPs: make(map[types.CheckID]*checks.CheckTCP), checkGRPCs: make(map[types.CheckID]*checks.CheckGRPC), checkDockers: make(map[types.CheckID]*checks.CheckDocker), eventCh: make(chan serf.UserEvent, 1024), eventBuf: make([]*UserEvent, 256), joinLANNotifier: &systemd.Notifier{}, reloadCh: make(chan chan error), retryJoinCh: make(chan error), shutdownCh: make(chan struct{}), endpoints: make(map[string]string), tokens: new(token.Store), } // Set up the initial state of the token store based on the config. a.tokens.UpdateUserToken(a.config.ACLToken) a.tokens.UpdateAgentToken(a.config.ACLAgentToken) a.tokens.UpdateAgentMasterToken(a.config.ACLAgentMasterToken) a.tokens.UpdateACLReplicationToken(a.config.ACLReplicationToken) return a, nil } func LocalConfig(cfg *config.RuntimeConfig) local.Config { lc := local.Config{ AdvertiseAddr: cfg.AdvertiseAddrLAN.String(), CheckUpdateInterval: cfg.CheckUpdateInterval, Datacenter: cfg.Datacenter, DiscardCheckOutput: cfg.DiscardCheckOutput, NodeID: cfg.NodeID, NodeName: cfg.NodeName, TaggedAddresses: map[string]string{}, ProxyBindMinPort: cfg.ConnectProxyBindMinPort, ProxyBindMaxPort: cfg.ConnectProxyBindMaxPort, } for k, v := range cfg.TaggedAddresses { lc.TaggedAddresses[k] = v } return lc } func (a *Agent) Start() error { c := a.config logOutput := a.LogOutput if a.logger == nil { if logOutput == nil { logOutput = os.Stderr } a.logger = log.New(logOutput, "", log.LstdFlags) } // Retrieve or generate the node ID before setting up the rest of the // agent, which depends on it. if err := a.setupNodeID(c); err != nil { return fmt.Errorf("Failed to setup node ID: %v", err) } // Warn if the node name is incompatible with DNS if InvalidDnsRe.MatchString(a.config.NodeName) { a.logger.Printf("[WARN] agent: Node name %q will not be discoverable "+ "via DNS due to invalid characters. Valid characters include "+ "all alpha-numerics and dashes.", a.config.NodeName) } else if len(a.config.NodeName) > MaxDNSLabelLength { a.logger.Printf("[WARN] agent: Node name %q will not be discoverable "+ "via DNS due to it being too long. Valid lengths are between "+ "1 and 63 bytes.", a.config.NodeName) } // create the local state a.State = local.NewState(LocalConfig(c), a.logger, a.tokens) // create the state synchronization manager which performs // regular and on-demand state synchronizations (anti-entropy). a.sync = ae.NewStateSyncer(a.State, c.AEInterval, a.shutdownCh, a.logger) // create the cache a.cache = cache.New(nil) // create the config for the rpc server/client consulCfg, err := a.consulConfig() if err != nil { return err } // ServerUp is used to inform that a new consul server is now // up. This can be used to speed up the sync process if we are blocking // waiting to discover a consul server consulCfg.ServerUp = a.sync.SyncFull.Trigger // Setup either the client or the server. if c.ServerMode { server, err := consul.NewServerLogger(consulCfg, a.logger, a.tokens) if err != nil { return fmt.Errorf("Failed to start Consul server: %v", err) } a.delegate = server } else { client, err := consul.NewClientLogger(consulCfg, a.logger) if err != nil { return fmt.Errorf("Failed to start Consul client: %v", err) } a.delegate = client } // the staggering of the state syncing depends on the cluster size. a.sync.ClusterSize = func() int { return len(a.delegate.LANMembers()) } // link the state with the consul server/client and the state syncer // via callbacks. After several attempts this was easier than using // channels since the event notification needs to be non-blocking // and that should be hidden in the state syncer implementation. a.State.Delegate = a.delegate a.State.TriggerSyncChanges = a.sync.SyncChanges.Trigger // Register the cache. We do this much later so the delegate is // populated from above. a.registerCache() // Load checks/services/metadata. if err := a.loadServices(c); err != nil { return err } if err := a.loadProxies(c); err != nil { return err } if err := a.loadChecks(c); err != nil { return err } if err := a.loadMetadata(c); err != nil { return err } // create the proxy process manager and start it. This is purposely // done here after the local state above is loaded in so we can have // a more accurate initial state view. a.proxyManager = proxy.NewManager() a.proxyManager.State = a.State a.proxyManager.Logger = a.logger if a.config.DataDir != "" { // DataDir is required for all non-dev mode agents, but we want // to allow setting the data dir for demos and so on for the agent, // so do the check above instead. a.proxyManager.DataDir = filepath.Join(a.config.DataDir, "proxy") // Restore from our snapshot (if it exists) if err := a.proxyManager.Restore(a.proxyManager.SnapshotPath()); err != nil { a.logger.Printf("[WARN] agent: error restoring proxy state: %s", err) } } go a.proxyManager.Run() // Start watching for critical services to deregister, based on their // checks. go a.reapServices() // Start handling events. go a.handleEvents() // Start sending network coordinate to the server. if !c.DisableCoordinates { go a.sendCoordinate() } // Write out the PID file if necessary. if err := a.storePid(); err != nil { return err } // start DNS servers if err := a.listenAndServeDNS(); err != nil { return err } // Create listeners and unstarted servers; see comment on listenHTTP why // we are doing this. servers, err := a.listenHTTP() if err != nil { return err } // Start HTTP and HTTPS servers. for _, srv := range servers { if err := a.serveHTTP(srv); err != nil { return err } a.httpServers = append(a.httpServers, srv) } // register watches if err := a.reloadWatches(a.config); err != nil { return err } // start retry join go a.retryJoinLAN() go a.retryJoinWAN() return nil } func (a *Agent) listenAndServeDNS() error { notif := make(chan net.Addr, len(a.config.DNSAddrs)) for _, addr := range a.config.DNSAddrs { // create server s, err := NewDNSServer(a) if err != nil { return err } a.dnsServers = append(a.dnsServers, s) // start server a.wgServers.Add(1) go func(addr net.Addr) { defer a.wgServers.Done() err := s.ListenAndServe(addr.Network(), addr.String(), func() { notif <- addr }) if err != nil && !strings.Contains(err.Error(), "accept") { a.logger.Printf("[ERR] agent: Error starting DNS server %s (%s): %v", addr.String(), addr.Network(), err) } }(addr) } // wait for servers to be up timeout := time.After(time.Second) for range a.config.DNSAddrs { select { case addr := <-notif: a.logger.Printf("[INFO] agent: Started DNS server %s (%s)", addr.String(), addr.Network()) continue case <-timeout: return fmt.Errorf("agent: timeout starting DNS servers") } } return nil } // listenHTTP binds listeners to the provided addresses and also returns // pre-configured HTTP servers which are not yet started. The motivation is // that in the current startup/shutdown setup we de-couple the listener // creation from the server startup assuming that if any of the listeners // cannot be bound we fail immediately and later failures do not occur. // Therefore, starting a server with a running listener is assumed to not // produce an error. // // The second motivation is that an HTTPS server needs to use the same TLSConfig // on both the listener and the HTTP server. When listeners and servers are // created at different times this becomes difficult to handle without keeping // the TLS configuration somewhere or recreating it. // // This approach should ultimately be refactored to the point where we just // start the server and any error should trigger a proper shutdown of the agent. func (a *Agent) listenHTTP() ([]*HTTPServer, error) { var ln []net.Listener var servers []*HTTPServer start := func(proto string, addrs []net.Addr) error { for _, addr := range addrs { var l net.Listener var tlscfg *tls.Config var err error switch x := addr.(type) { case *net.UnixAddr: l, err = a.listenSocket(x.Name) if err != nil { return err } case *net.TCPAddr: l, err = net.Listen("tcp", x.String()) if err != nil { return err } l = &tcpKeepAliveListener{l.(*net.TCPListener)} if proto == "https" { tlscfg, err = a.config.IncomingHTTPSConfig() if err != nil { return err } l = tls.NewListener(l, tlscfg) } default: return fmt.Errorf("unsupported address type %T", addr) } ln = append(ln, l) srv := &HTTPServer{ Server: &http.Server{ Addr: l.Addr().String(), TLSConfig: tlscfg, }, ln: l, agent: a, blacklist: NewBlacklist(a.config.HTTPBlockEndpoints), proto: proto, } srv.Server.Handler = srv.handler(a.config.EnableDebug) // This will enable upgrading connections to HTTP/2 as // part of TLS negotiation. if proto == "https" { err = http2.ConfigureServer(srv.Server, nil) if err != nil { return err } } servers = append(servers, srv) } return nil } if err := start("http", a.config.HTTPAddrs); err != nil { for _, l := range ln { l.Close() } return nil, err } if err := start("https", a.config.HTTPSAddrs); err != nil { for _, l := range ln { l.Close() } return nil, err } return servers, nil } // tcpKeepAliveListener sets TCP keep-alive timeouts on accepted // connections. It's used so dead TCP connections eventually go away. type tcpKeepAliveListener struct { *net.TCPListener } func (ln tcpKeepAliveListener) Accept() (c net.Conn, err error) { tc, err := ln.AcceptTCP() if err != nil { return } tc.SetKeepAlive(true) tc.SetKeepAlivePeriod(30 * time.Second) return tc, nil } func (a *Agent) listenSocket(path string) (net.Listener, error) { if _, err := os.Stat(path); !os.IsNotExist(err) { a.logger.Printf("[WARN] agent: Replacing socket %q", path) } if err := os.Remove(path); err != nil && !os.IsNotExist(err) { return nil, fmt.Errorf("error removing socket file: %s", err) } l, err := net.Listen("unix", path) if err != nil { return nil, err } user, group, mode := a.config.UnixSocketUser, a.config.UnixSocketGroup, a.config.UnixSocketMode if err := setFilePermissions(path, user, group, mode); err != nil { return nil, fmt.Errorf("Failed setting up socket: %s", err) } return l, nil } func (a *Agent) serveHTTP(srv *HTTPServer) error { // https://github.com/golang/go/issues/20239 // // In go.8.1 there is a race between Serve and Shutdown. If // Shutdown is called before the Serve go routine was scheduled then // the Serve go routine never returns. This deadlocks the agent // shutdown for some tests since it will wait forever. notif := make(chan net.Addr) a.wgServers.Add(1) go func() { defer a.wgServers.Done() notif <- srv.ln.Addr() err := srv.Serve(srv.ln) if err != nil && err != http.ErrServerClosed { a.logger.Print(err) } }() select { case addr := <-notif: if srv.proto == "https" { a.logger.Printf("[INFO] agent: Started HTTPS server on %s (%s)", addr.String(), addr.Network()) } else { a.logger.Printf("[INFO] agent: Started HTTP server on %s (%s)", addr.String(), addr.Network()) } return nil case <-time.After(time.Second): return fmt.Errorf("agent: timeout starting HTTP servers") } } // reloadWatches stops any existing watch plans and attempts to load the given // set of watches. func (a *Agent) reloadWatches(cfg *config.RuntimeConfig) error { // Stop the current watches. for _, wp := range a.watchPlans { wp.Stop() } a.watchPlans = nil // Return if there are no watches now. if len(cfg.Watches) == 0 { return nil } // Watches use the API to talk to this agent, so that must be enabled. if len(cfg.HTTPAddrs) == 0 && len(cfg.HTTPSAddrs) == 0 { return fmt.Errorf("watch plans require an HTTP or HTTPS endpoint") } // Compile the watches var watchPlans []*watch.Plan for _, params := range cfg.Watches { if handlerType, ok := params["handler_type"]; !ok { params["handler_type"] = "script" } else if handlerType != "http" && handlerType != "script" { return fmt.Errorf("Handler type '%s' not recognized", params["handler_type"]) } // Don't let people use connect watches via this mechanism for now as it // needs thought about how to do securely and shouldn't be necessary. Note // that if the type assertion fails an type is not a string then // ParseExample below will error so we don't need to handle that case. if typ, ok := params["type"].(string); ok { if strings.HasPrefix(typ, "connect_") { return fmt.Errorf("Watch type %s is not allowed in agent config", typ) } } // Parse the watches, excluding 'handler' and 'args' wp, err := watch.ParseExempt(params, []string{"handler", "args"}) if err != nil { return fmt.Errorf("Failed to parse watch (%#v): %v", params, err) } // Get the handler and subprocess arguments handler, hasHandler := wp.Exempt["handler"] args, hasArgs := wp.Exempt["args"] if hasHandler { a.logger.Printf("[WARN] agent: The 'handler' field in watches has been deprecated " + "and replaced with the 'args' field. See https://www.consul.io/docs/agent/watches.html") } if _, ok := handler.(string); hasHandler && !ok { return fmt.Errorf("Watch handler must be a string") } if raw, ok := args.([]interface{}); hasArgs && ok { var parsed []string for _, arg := range raw { v, ok := arg.(string) if !ok { return fmt.Errorf("Watch args must be a list of strings") } parsed = append(parsed, v) } wp.Exempt["args"] = parsed } else if hasArgs && !ok { return fmt.Errorf("Watch args must be a list of strings") } if hasHandler && hasArgs || hasHandler && wp.HandlerType == "http" || hasArgs && wp.HandlerType == "http" { return fmt.Errorf("Only one watch handler allowed") } if !hasHandler && !hasArgs && wp.HandlerType != "http" { return fmt.Errorf("Must define a watch handler") } // Store the watch plan watchPlans = append(watchPlans, wp) } // Determine the primary http(s) endpoint. var netaddr net.Addr https := false if len(cfg.HTTPAddrs) > 0 { netaddr = cfg.HTTPAddrs[0] } else { netaddr = cfg.HTTPSAddrs[0] https = true } addr := netaddr.String() if netaddr.Network() == "unix" { addr = "unix://" + addr https = false } else if https { addr = "https://" + addr } // Fire off a goroutine for each new watch plan. for _, wp := range watchPlans { a.watchPlans = append(a.watchPlans, wp) go func(wp *watch.Plan) { if h, ok := wp.Exempt["handler"]; ok { wp.Handler = makeWatchHandler(a.LogOutput, h) } else if h, ok := wp.Exempt["args"]; ok { wp.Handler = makeWatchHandler(a.LogOutput, h) } else { httpConfig := wp.Exempt["http_handler_config"].(*watch.HttpHandlerConfig) wp.Handler = makeHTTPWatchHandler(a.LogOutput, httpConfig) } wp.LogOutput = a.LogOutput config := api.DefaultConfig() if https { if a.config.CAPath != "" { config.TLSConfig.CAPath = a.config.CAPath } if a.config.CAFile != "" { config.TLSConfig.CAFile = a.config.CAFile } config.TLSConfig.Address = addr } if err := wp.RunWithConfig(addr, config); err != nil { a.logger.Printf("[ERR] agent: Failed to run watch: %v", err) } }(wp) } return nil } // consulConfig is used to return a consul configuration func (a *Agent) consulConfig() (*consul.Config, error) { // Start with the provided config or default config base := consul.DefaultConfig() // This is set when the agent starts up base.NodeID = a.config.NodeID // Apply dev mode base.DevMode = a.config.DevMode // Override with our config // todo(fs): these are now always set in the runtime config so we can simplify this // todo(fs): or is there a reason to keep it like that? base.Datacenter = a.config.Datacenter base.DataDir = a.config.DataDir base.NodeName = a.config.NodeName base.CoordinateUpdateBatchSize = a.config.ConsulCoordinateUpdateBatchSize base.CoordinateUpdateMaxBatches = a.config.ConsulCoordinateUpdateMaxBatches base.CoordinateUpdatePeriod = a.config.ConsulCoordinateUpdatePeriod base.RaftConfig.HeartbeatTimeout = a.config.ConsulRaftHeartbeatTimeout base.RaftConfig.LeaderLeaseTimeout = a.config.ConsulRaftLeaderLeaseTimeout base.RaftConfig.ElectionTimeout = a.config.ConsulRaftElectionTimeout base.SerfLANConfig.MemberlistConfig.BindAddr = a.config.SerfBindAddrLAN.IP.String() base.SerfLANConfig.MemberlistConfig.BindPort = a.config.SerfBindAddrLAN.Port base.SerfLANConfig.MemberlistConfig.AdvertiseAddr = a.config.SerfAdvertiseAddrLAN.IP.String() base.SerfLANConfig.MemberlistConfig.AdvertisePort = a.config.SerfAdvertiseAddrLAN.Port base.SerfLANConfig.MemberlistConfig.GossipVerifyIncoming = a.config.EncryptVerifyIncoming base.SerfLANConfig.MemberlistConfig.GossipVerifyOutgoing = a.config.EncryptVerifyOutgoing base.SerfLANConfig.MemberlistConfig.GossipInterval = a.config.ConsulSerfLANGossipInterval base.SerfLANConfig.MemberlistConfig.ProbeInterval = a.config.ConsulSerfLANProbeInterval base.SerfLANConfig.MemberlistConfig.ProbeTimeout = a.config.ConsulSerfLANProbeTimeout base.SerfLANConfig.MemberlistConfig.SuspicionMult = a.config.ConsulSerfLANSuspicionMult if a.config.SerfBindAddrWAN != nil { base.SerfWANConfig.MemberlistConfig.BindAddr = a.config.SerfBindAddrWAN.IP.String() base.SerfWANConfig.MemberlistConfig.BindPort = a.config.SerfBindAddrWAN.Port base.SerfWANConfig.MemberlistConfig.AdvertiseAddr = a.config.SerfAdvertiseAddrWAN.IP.String() base.SerfWANConfig.MemberlistConfig.AdvertisePort = a.config.SerfAdvertiseAddrWAN.Port base.SerfWANConfig.MemberlistConfig.GossipVerifyIncoming = a.config.EncryptVerifyIncoming base.SerfWANConfig.MemberlistConfig.GossipVerifyOutgoing = a.config.EncryptVerifyOutgoing base.SerfWANConfig.MemberlistConfig.GossipInterval = a.config.ConsulSerfWANGossipInterval base.SerfWANConfig.MemberlistConfig.ProbeInterval = a.config.ConsulSerfWANProbeInterval base.SerfWANConfig.MemberlistConfig.ProbeTimeout = a.config.ConsulSerfWANProbeTimeout base.SerfWANConfig.MemberlistConfig.SuspicionMult = a.config.ConsulSerfWANSuspicionMult } else { // Disable serf WAN federation base.SerfWANConfig = nil } base.RPCAddr = a.config.RPCBindAddr base.RPCAdvertise = a.config.RPCAdvertiseAddr if a.config.ReconnectTimeoutLAN != 0 { base.SerfLANConfig.ReconnectTimeout = a.config.ReconnectTimeoutLAN } if a.config.ReconnectTimeoutWAN != 0 { base.SerfWANConfig.ReconnectTimeout = a.config.ReconnectTimeoutWAN } base.Segment = a.config.SegmentName if len(a.config.Segments) > 0 { segments, err := a.segmentConfig() if err != nil { return nil, err } base.Segments = segments } if a.config.Bootstrap { base.Bootstrap = true } if a.config.RejoinAfterLeave { base.RejoinAfterLeave = true } if a.config.BootstrapExpect != 0 { base.BootstrapExpect = a.config.BootstrapExpect } if a.config.RPCProtocol > 0 { base.ProtocolVersion = uint8(a.config.RPCProtocol) } if a.config.RaftProtocol != 0 { base.RaftConfig.ProtocolVersion = raft.ProtocolVersion(a.config.RaftProtocol) } if a.config.RaftSnapshotThreshold != 0 { base.RaftConfig.SnapshotThreshold = uint64(a.config.RaftSnapshotThreshold) } if a.config.RaftSnapshotInterval != 0 { base.RaftConfig.SnapshotInterval = a.config.RaftSnapshotInterval } if a.config.ACLMasterToken != "" { base.ACLMasterToken = a.config.ACLMasterToken } if a.config.ACLDatacenter != "" { base.ACLDatacenter = a.config.ACLDatacenter } if a.config.ACLTTL != 0 { base.ACLTTL = a.config.ACLTTL } if a.config.ACLDefaultPolicy != "" { base.ACLDefaultPolicy = a.config.ACLDefaultPolicy } if a.config.ACLDownPolicy != "" { base.ACLDownPolicy = a.config.ACLDownPolicy } base.EnableACLReplication = a.config.EnableACLReplication if a.config.ACLEnforceVersion8 { base.ACLEnforceVersion8 = a.config.ACLEnforceVersion8 } if a.config.ACLEnableKeyListPolicy { base.ACLEnableKeyListPolicy = a.config.ACLEnableKeyListPolicy } if a.config.SessionTTLMin != 0 { base.SessionTTLMin = a.config.SessionTTLMin } if a.config.NonVotingServer { base.NonVoter = a.config.NonVotingServer } // These are fully specified in the agent defaults, so we can simply // copy them over. base.AutopilotConfig.CleanupDeadServers = a.config.AutopilotCleanupDeadServers base.AutopilotConfig.LastContactThreshold = a.config.AutopilotLastContactThreshold base.AutopilotConfig.MaxTrailingLogs = uint64(a.config.AutopilotMaxTrailingLogs) base.AutopilotConfig.ServerStabilizationTime = a.config.AutopilotServerStabilizationTime base.AutopilotConfig.RedundancyZoneTag = a.config.AutopilotRedundancyZoneTag base.AutopilotConfig.DisableUpgradeMigration = a.config.AutopilotDisableUpgradeMigration base.AutopilotConfig.UpgradeVersionTag = a.config.AutopilotUpgradeVersionTag // make sure the advertise address is always set if base.RPCAdvertise == nil { base.RPCAdvertise = base.RPCAddr } // Rate limiting for RPC calls. if a.config.RPCRateLimit > 0 { base.RPCRate = a.config.RPCRateLimit } if a.config.RPCMaxBurst > 0 { base.RPCMaxBurst = a.config.RPCMaxBurst } // RPC-related performance configs. if a.config.RPCHoldTimeout > 0 { base.RPCHoldTimeout = a.config.RPCHoldTimeout } if a.config.LeaveDrainTime > 0 { base.LeaveDrainTime = a.config.LeaveDrainTime } // set the src address for outgoing rpc connections // Use port 0 so that outgoing connections use a random port. if !ipaddr.IsAny(base.RPCAddr.IP) { base.RPCSrcAddr = &net.TCPAddr{IP: base.RPCAddr.IP} } // Format the build string revision := a.config.Revision if len(revision) > 8 { revision = revision[:8] } base.Build = fmt.Sprintf("%s%s:%s", a.config.Version, a.config.VersionPrerelease, revision) // Copy the TLS configuration base.VerifyIncoming = a.config.VerifyIncoming || a.config.VerifyIncomingRPC if a.config.CAPath != "" || a.config.CAFile != "" { base.UseTLS = true } base.VerifyOutgoing = a.config.VerifyOutgoing base.VerifyServerHostname = a.config.VerifyServerHostname base.CAFile = a.config.CAFile base.CAPath = a.config.CAPath base.CertFile = a.config.CertFile base.KeyFile = a.config.KeyFile base.ServerName = a.config.ServerName base.Domain = a.config.DNSDomain base.TLSMinVersion = a.config.TLSMinVersion base.TLSCipherSuites = a.config.TLSCipherSuites base.TLSPreferServerCipherSuites = a.config.TLSPreferServerCipherSuites // Copy the Connect CA bootstrap config if a.config.ConnectEnabled { base.ConnectEnabled = true // Allow config to specify cluster_id provided it's a valid UUID. This is // meant only for tests where a deterministic ID makes fixtures much simpler // to work with but since it's only read on initial cluster bootstrap it's not // that much of a liability in production. The worst a user could do is // configure logically separate clusters with same ID by mistake but we can // avoid documenting this is even an option. if clusterID, ok := a.config.ConnectCAConfig["cluster_id"]; ok { if cIDStr, ok := clusterID.(string); ok { if _, err := uuid.ParseUUID(cIDStr); err == nil { // Valid UUID configured, use that base.CAConfig.ClusterID = cIDStr } } if base.CAConfig.ClusterID == "" { // If the tried to specify an ID but typoed it don't ignore as they will // then bootstrap with a new ID and have to throw away the whole cluster // and start again. a.logger.Println("[ERR] connect CA config cluster_id specified but " + "is not a valid UUID, aborting startup") return nil, fmt.Errorf("cluster_id was supplied but was not a valid UUID") } } if a.config.ConnectCAProvider != "" { base.CAConfig.Provider = a.config.ConnectCAProvider // Merge with the default config if it's the consul provider. if a.config.ConnectCAProvider == "consul" { for k, v := range a.config.ConnectCAConfig { base.CAConfig.Config[k] = v } } else { base.CAConfig.Config = a.config.ConnectCAConfig } } } // Setup the user event callback base.UserEventHandler = func(e serf.UserEvent) { select { case a.eventCh <- e: case <-a.shutdownCh: } } // Setup the loggers base.LogOutput = a.LogOutput // This will set up the LAN keyring, as well as the WAN and any segments // for servers. if err := a.setupKeyrings(base); err != nil { return nil, fmt.Errorf("Failed to configure keyring: %v", err) } return base, nil } // Setup the serf and memberlist config for any defined network segments. func (a *Agent) segmentConfig() ([]consul.NetworkSegment, error) { var segments []consul.NetworkSegment config := a.config for _, s := range config.Segments { serfConf := consul.DefaultConfig().SerfLANConfig serfConf.MemberlistConfig.BindAddr = s.Bind.IP.String() serfConf.MemberlistConfig.BindPort = s.Bind.Port serfConf.MemberlistConfig.AdvertiseAddr = s.Advertise.IP.String() serfConf.MemberlistConfig.AdvertisePort = s.Advertise.Port if config.ReconnectTimeoutLAN != 0 { serfConf.ReconnectTimeout = config.ReconnectTimeoutLAN } if config.EncryptVerifyIncoming { serfConf.MemberlistConfig.GossipVerifyIncoming = config.EncryptVerifyIncoming } if config.EncryptVerifyOutgoing { serfConf.MemberlistConfig.GossipVerifyOutgoing = config.EncryptVerifyOutgoing } var rpcAddr *net.TCPAddr if s.RPCListener { rpcAddr = &net.TCPAddr{ IP: s.Bind.IP, Port: a.config.ServerPort, } } segments = append(segments, consul.NetworkSegment{ Name: s.Name, Bind: serfConf.MemberlistConfig.BindAddr, Advertise: serfConf.MemberlistConfig.AdvertiseAddr, Port: s.Bind.Port, RPCAddr: rpcAddr, SerfConfig: serfConf, }) } return segments, nil } // makeRandomID will generate a random UUID for a node. func (a *Agent) makeRandomID() (string, error) { id, err := uuid.GenerateUUID() if err != nil { return "", err } a.logger.Printf("[DEBUG] agent: Using random ID %q as node ID", id) return id, nil } // makeNodeID will try to find a host-specific ID, or else will generate a // random ID. The returned ID will always be formatted as a GUID. We don't tell // the caller whether this ID is random or stable since the consequences are // high for us if this changes, so we will persist it either way. This will let // gopsutil change implementations without affecting in-place upgrades of nodes. func (a *Agent) makeNodeID() (string, error) { // If they've disabled host-based IDs then just make a random one. if a.config.DisableHostNodeID { return a.makeRandomID() } // Try to get a stable ID associated with the host itself. info, err := host.Info() if err != nil { a.logger.Printf("[DEBUG] agent: Couldn't get a unique ID from the host: %v", err) return a.makeRandomID() } // Make sure the host ID parses as a UUID, since we don't have complete // control over this process. id := strings.ToLower(info.HostID) if _, err := uuid.ParseUUID(id); err != nil { a.logger.Printf("[DEBUG] agent: Unique ID %q from host isn't formatted as a UUID: %v", id, err) return a.makeRandomID() } // Hash the input to make it well distributed. The reported Host UUID may be // similar across nodes if they are on a cloud provider or on motherboards // created from the same batch. buf := sha512.Sum512([]byte(id)) id = fmt.Sprintf("%08x-%04x-%04x-%04x-%12x", buf[0:4], buf[4:6], buf[6:8], buf[8:10], buf[10:16]) a.logger.Printf("[DEBUG] agent: Using unique ID %q from host as node ID", id) return id, nil } // setupNodeID will pull the persisted node ID, if any, or create a random one // and persist it. func (a *Agent) setupNodeID(config *config.RuntimeConfig) error { // If they've configured a node ID manually then just use that, as // long as it's valid. if config.NodeID != "" { config.NodeID = types.NodeID(strings.ToLower(string(config.NodeID))) if _, err := uuid.ParseUUID(string(config.NodeID)); err != nil { return err } return nil } // For dev mode we have no filesystem access so just make one. if a.config.DataDir == "" { id, err := a.makeNodeID() if err != nil { return err } config.NodeID = types.NodeID(id) return nil } // Load saved state, if any. Since a user could edit this, we also // validate it. fileID := filepath.Join(config.DataDir, "node-id") if _, err := os.Stat(fileID); err == nil { rawID, err := ioutil.ReadFile(fileID) if err != nil { return err } nodeID := strings.TrimSpace(string(rawID)) nodeID = strings.ToLower(nodeID) if _, err := uuid.ParseUUID(nodeID); err != nil { return err } config.NodeID = types.NodeID(nodeID) } // If we still don't have a valid node ID, make one. if config.NodeID == "" { id, err := a.makeNodeID() if err != nil { return err } if err := lib.EnsurePath(fileID, false); err != nil { return err } if err := ioutil.WriteFile(fileID, []byte(id), 0600); err != nil { return err } config.NodeID = types.NodeID(id) } return nil } // setupBaseKeyrings configures the LAN and WAN keyrings. func (a *Agent) setupBaseKeyrings(config *consul.Config) error { // If the keyring file is disabled then just poke the provided key // into the in-memory keyring. federationEnabled := config.SerfWANConfig != nil if a.config.DisableKeyringFile { if a.config.EncryptKey == "" { return nil } keys := []string{a.config.EncryptKey} if err := loadKeyring(config.SerfLANConfig, keys); err != nil { return err } if a.config.ServerMode && federationEnabled { if err := loadKeyring(config.SerfWANConfig, keys); err != nil { return err } } return nil } // Otherwise, we need to deal with the keyring files. fileLAN := filepath.Join(a.config.DataDir, SerfLANKeyring) fileWAN := filepath.Join(a.config.DataDir, SerfWANKeyring) if a.config.EncryptKey == "" { goto LOAD } if _, err := os.Stat(fileLAN); err != nil { if err := initKeyring(fileLAN, a.config.EncryptKey); err != nil { return err } } if a.config.ServerMode && federationEnabled { if _, err := os.Stat(fileWAN); err != nil { if err := initKeyring(fileWAN, a.config.EncryptKey); err != nil { return err } } } LOAD: if _, err := os.Stat(fileLAN); err == nil { config.SerfLANConfig.KeyringFile = fileLAN } if err := loadKeyringFile(config.SerfLANConfig); err != nil { return err } if a.config.ServerMode && federationEnabled { if _, err := os.Stat(fileWAN); err == nil { config.SerfWANConfig.KeyringFile = fileWAN } if err := loadKeyringFile(config.SerfWANConfig); err != nil { return err } } return nil } // setupKeyrings is used to initialize and load keyrings during agent startup. func (a *Agent) setupKeyrings(config *consul.Config) error { // First set up the LAN and WAN keyrings. if err := a.setupBaseKeyrings(config); err != nil { return err } // If there's no LAN keyring then there's nothing else to set up for // any segments. lanKeyring := config.SerfLANConfig.MemberlistConfig.Keyring if lanKeyring == nil { return nil } // Copy the initial state of the LAN keyring into each segment config. // Segments don't have their own keyring file, they rely on the LAN // holding the state so things can't get out of sync. k, pk := lanKeyring.GetKeys(), lanKeyring.GetPrimaryKey() for _, segment := range config.Segments { keyring, err := memberlist.NewKeyring(k, pk) if err != nil { return err } segment.SerfConfig.MemberlistConfig.Keyring = keyring } return nil } // registerEndpoint registers a handler for the consul RPC server // under a unique name while making it accessible under the provided // name. This allows overwriting handlers for the golang net/rpc // service which does not allow this. func (a *Agent) registerEndpoint(name string, handler interface{}) error { srv, ok := a.delegate.(*consul.Server) if !ok { panic("agent must be a server") } realname := fmt.Sprintf("%s-%d", name, time.Now().UnixNano()) a.endpointsLock.Lock() a.endpoints[name] = realname a.endpointsLock.Unlock() return srv.RegisterEndpoint(realname, handler) } // RPC is used to make an RPC call to the Consul servers // This allows the agent to implement the Consul.Interface func (a *Agent) RPC(method string, args interface{}, reply interface{}) error { a.endpointsLock.RLock() // fast path: only translate if there are overrides if len(a.endpoints) > 0 { p := strings.SplitN(method, ".", 2) if e := a.endpoints[p[0]]; e != "" { method = e + "." + p[1] } } a.endpointsLock.RUnlock() return a.delegate.RPC(method, args, reply) } // SnapshotRPC performs the requested snapshot RPC against the Consul server in // a streaming manner. The contents of in will be read and passed along as the // payload, and the response message will determine the error status, and any // return payload will be written to out. func (a *Agent) SnapshotRPC(args *structs.SnapshotRequest, in io.Reader, out io.Writer, replyFn structs.SnapshotReplyFn) error { return a.delegate.SnapshotRPC(args, in, out, replyFn) } // Leave is used to prepare the agent for a graceful shutdown func (a *Agent) Leave() error { return a.delegate.Leave() } // ShutdownAgent is used to hard stop the agent. Should be preceded by // Leave to do it gracefully. Should be followed by ShutdownEndpoints to // terminate the HTTP and DNS servers as well. func (a *Agent) ShutdownAgent() error { a.shutdownLock.Lock() defer a.shutdownLock.Unlock() if a.shutdown { return nil } a.logger.Println("[INFO] agent: Requesting shutdown") // Stop all the checks a.checkLock.Lock() defer a.checkLock.Unlock() for _, chk := range a.checkMonitors { chk.Stop() } for _, chk := range a.checkTTLs { chk.Stop() } for _, chk := range a.checkHTTPs { chk.Stop() } for _, chk := range a.checkTCPs { chk.Stop() } for _, chk := range a.checkGRPCs { chk.Stop() } for _, chk := range a.checkDockers { chk.Stop() } // Stop the proxy manager if a.proxyManager != nil { // If persistence is disabled (implies DevMode but a subset of DevMode) then // don't leave the proxies running since the agent will not be able to // recover them later. if a.config.DataDir == "" { a.logger.Printf("[WARN] agent: dev mode disabled persistence, killing " + "all proxies since we can't recover them") if err := a.proxyManager.Kill(); err != nil { a.logger.Printf("[WARN] agent: error shutting down proxy manager: %s", err) } } else { if err := a.proxyManager.Close(); err != nil { a.logger.Printf("[WARN] agent: error shutting down proxy manager: %s", err) } } } var err error if a.delegate != nil { err = a.delegate.Shutdown() if _, ok := a.delegate.(*consul.Server); ok { a.logger.Print("[INFO] agent: consul server down") } else { a.logger.Print("[INFO] agent: consul client down") } } pidErr := a.deletePid() if pidErr != nil { a.logger.Println("[WARN] agent: could not delete pid file ", pidErr) } a.logger.Println("[INFO] agent: shutdown complete") a.shutdown = true close(a.shutdownCh) return err } // ShutdownEndpoints terminates the HTTP and DNS servers. Should be // preceded by ShutdownAgent. func (a *Agent) ShutdownEndpoints() { a.shutdownLock.Lock() defer a.shutdownLock.Unlock() if len(a.dnsServers) == 0 && len(a.httpServers) == 0 { return } for _, srv := range a.dnsServers { a.logger.Printf("[INFO] agent: Stopping DNS server %s (%s)", srv.Server.Addr, srv.Server.Net) srv.Shutdown() } a.dnsServers = nil for _, srv := range a.httpServers { a.logger.Printf("[INFO] agent: Stopping %s server %s (%s)", strings.ToUpper(srv.proto), srv.ln.Addr().String(), srv.ln.Addr().Network()) ctx, cancel := context.WithTimeout(context.Background(), time.Second) defer cancel() srv.Shutdown(ctx) if ctx.Err() == context.DeadlineExceeded { a.logger.Printf("[WARN] agent: Timeout stopping %s server %s (%s)", strings.ToUpper(srv.proto), srv.ln.Addr().String(), srv.ln.Addr().Network()) } } a.httpServers = nil a.logger.Println("[INFO] agent: Waiting for endpoints to shut down") a.wgServers.Wait() a.logger.Print("[INFO] agent: Endpoints down") } // ReloadCh is used to return a channel that can be // used for triggering reloads and returning a response. func (a *Agent) ReloadCh() chan chan error { return a.reloadCh } // RetryJoinCh is a channel that transports errors // from the retry join process. func (a *Agent) RetryJoinCh() <-chan error { return a.retryJoinCh } // ShutdownCh is used to return a channel that can be // selected to wait for the agent to perform a shutdown. func (a *Agent) ShutdownCh() <-chan struct{} { return a.shutdownCh } // JoinLAN is used to have the agent join a LAN cluster func (a *Agent) JoinLAN(addrs []string) (n int, err error) { a.logger.Printf("[INFO] agent: (LAN) joining: %v", addrs) n, err = a.delegate.JoinLAN(addrs) a.logger.Printf("[INFO] agent: (LAN) joined: %d Err: %v", n, err) if err == nil && a.joinLANNotifier != nil { if notifErr := a.joinLANNotifier.Notify(systemd.Ready); notifErr != nil { a.logger.Printf("[DEBUG] agent: systemd notify failed: %v", notifErr) } } return } // JoinWAN is used to have the agent join a WAN cluster func (a *Agent) JoinWAN(addrs []string) (n int, err error) { a.logger.Printf("[INFO] agent: (WAN) joining: %v", addrs) if srv, ok := a.delegate.(*consul.Server); ok { n, err = srv.JoinWAN(addrs) } else { err = fmt.Errorf("Must be a server to join WAN cluster") } a.logger.Printf("[INFO] agent: (WAN) joined: %d Err: %v", n, err) return } // ForceLeave is used to remove a failed node from the cluster func (a *Agent) ForceLeave(node string) (err error) { a.logger.Printf("[INFO] agent: Force leaving node: %v", node) err = a.delegate.RemoveFailedNode(node) if err != nil { a.logger.Printf("[WARN] agent: Failed to remove node: %v", err) } return err } // LocalMember is used to return the local node func (a *Agent) LocalMember() serf.Member { return a.delegate.LocalMember() } // LANMembers is used to retrieve the LAN members func (a *Agent) LANMembers() []serf.Member { return a.delegate.LANMembers() } // WANMembers is used to retrieve the WAN members func (a *Agent) WANMembers() []serf.Member { if srv, ok := a.delegate.(*consul.Server); ok { return srv.WANMembers() } return nil } // StartSync is called once Services and Checks are registered. // This is called to prevent a race between clients and the anti-entropy routines func (a *Agent) StartSync() { go a.sync.Run() a.logger.Printf("[INFO] agent: started state syncer") } // PauseSync is used to pause anti-entropy while bulk changes are make func (a *Agent) PauseSync() { a.sync.Pause() } // ResumeSync is used to unpause anti-entropy after bulk changes are make func (a *Agent) ResumeSync() { a.sync.Resume() } // GetLANCoordinate returns the coordinates of this node in the local pools // (assumes coordinates are enabled, so check that before calling). func (a *Agent) GetLANCoordinate() (lib.CoordinateSet, error) { return a.delegate.GetLANCoordinate() } // sendCoordinate is a long-running loop that periodically sends our coordinate // to the server. Closing the agent's shutdownChannel will cause this to exit. func (a *Agent) sendCoordinate() { OUTER: for { rate := a.config.SyncCoordinateRateTarget min := a.config.SyncCoordinateIntervalMin intv := lib.RateScaledInterval(rate, min, len(a.LANMembers())) intv = intv + lib.RandomStagger(intv) select { case <-time.After(intv): members := a.LANMembers() grok, err := consul.CanServersUnderstandProtocol(members, 3) if err != nil { a.logger.Printf("[ERR] agent: Failed to check servers: %s", err) continue } if !grok { a.logger.Printf("[DEBUG] agent: Skipping coordinate updates until servers are upgraded") continue } cs, err := a.GetLANCoordinate() if err != nil { a.logger.Printf("[ERR] agent: Failed to get coordinate: %s", err) continue } for segment, coord := range cs { req := structs.CoordinateUpdateRequest{ Datacenter: a.config.Datacenter, Node: a.config.NodeName, Segment: segment, Coord: coord, WriteRequest: structs.WriteRequest{Token: a.tokens.AgentToken()}, } var reply struct{} if err := a.RPC("Coordinate.Update", &req, &reply); err != nil { if acl.IsErrPermissionDenied(err) { a.logger.Printf("[WARN] agent: Coordinate update blocked by ACLs") } else { a.logger.Printf("[ERR] agent: Coordinate update error: %v", err) } continue OUTER } } case <-a.shutdownCh: return } } } // reapServicesInternal does a single pass, looking for services to reap. func (a *Agent) reapServicesInternal() { reaped := make(map[string]bool) for checkID, cs := range a.State.CriticalCheckStates() { serviceID := cs.Check.ServiceID // There's nothing to do if there's no service. if serviceID == "" { continue } // There might be multiple checks for one service, so // we don't need to reap multiple times. if reaped[serviceID] { continue } // See if there's a timeout. // todo(fs): this looks fishy... why is there another data structure in the agent with its own lock? a.checkLock.Lock() timeout := a.checkReapAfter[checkID] a.checkLock.Unlock() // Reap, if necessary. We keep track of which service // this is so that we won't try to remove it again. if timeout > 0 && cs.CriticalFor() > timeout { reaped[serviceID] = true a.RemoveService(serviceID, true) a.logger.Printf("[INFO] agent: Check %q for service %q has been critical for too long; deregistered service", checkID, serviceID) } } } // reapServices is a long running goroutine that looks for checks that have been // critical too long and deregisters their associated services. func (a *Agent) reapServices() { for { select { case <-time.After(a.config.CheckReapInterval): a.reapServicesInternal() case <-a.shutdownCh: return } } } // persistedService is used to wrap a service definition and bundle it // with an ACL token so we can restore both at a later agent start. type persistedService struct { Token string Service *structs.NodeService } // persistService saves a service definition to a JSON file in the data dir func (a *Agent) persistService(service *structs.NodeService) error { svcPath := filepath.Join(a.config.DataDir, servicesDir, stringHash(service.ID)) wrapped := persistedService{ Token: a.State.ServiceToken(service.ID), Service: service, } encoded, err := json.Marshal(wrapped) if err != nil { return err } return file.WriteAtomic(svcPath, encoded) } // purgeService removes a persisted service definition file from the data dir func (a *Agent) purgeService(serviceID string) error { svcPath := filepath.Join(a.config.DataDir, servicesDir, stringHash(serviceID)) if _, err := os.Stat(svcPath); err == nil { return os.Remove(svcPath) } return nil } // persistedProxy is used to wrap a proxy definition and bundle it with an Proxy // token so we can continue to authenticate the running proxy after a restart. type persistedProxy struct { ProxyToken string Proxy *structs.ConnectManagedProxy } // persistProxy saves a proxy definition to a JSON file in the data dir func (a *Agent) persistProxy(proxy *local.ManagedProxy) error { proxyPath := filepath.Join(a.config.DataDir, proxyDir, stringHash(proxy.Proxy.ProxyService.ID)) wrapped := persistedProxy{ ProxyToken: proxy.ProxyToken, Proxy: proxy.Proxy, } encoded, err := json.Marshal(wrapped) if err != nil { return err } return file.WriteAtomic(proxyPath, encoded) } // purgeProxy removes a persisted proxy definition file from the data dir func (a *Agent) purgeProxy(proxyID string) error { proxyPath := filepath.Join(a.config.DataDir, proxyDir, stringHash(proxyID)) if _, err := os.Stat(proxyPath); err == nil { return os.Remove(proxyPath) } return nil } // persistCheck saves a check definition to the local agent's state directory func (a *Agent) persistCheck(check *structs.HealthCheck, chkType *structs.CheckType) error { checkPath := filepath.Join(a.config.DataDir, checksDir, checkIDHash(check.CheckID)) // Create the persisted check wrapped := persistedCheck{ Check: check, ChkType: chkType, Token: a.State.CheckToken(check.CheckID), } encoded, err := json.Marshal(wrapped) if err != nil { return err } return file.WriteAtomic(checkPath, encoded) } // purgeCheck removes a persisted check definition file from the data dir func (a *Agent) purgeCheck(checkID types.CheckID) error { checkPath := filepath.Join(a.config.DataDir, checksDir, checkIDHash(checkID)) if _, err := os.Stat(checkPath); err == nil { return os.Remove(checkPath) } return nil } // AddService is used to add a service entry. // This entry is persistent and the agent will make a best effort to // ensure it is registered func (a *Agent) AddService(service *structs.NodeService, chkTypes []*structs.CheckType, persist bool, token string) error { if service.Service == "" { return fmt.Errorf("Service name missing") } if service.ID == "" && service.Service != "" { service.ID = service.Service } for _, check := range chkTypes { if err := check.Validate(); err != nil { return fmt.Errorf("Check is not valid: %v", err) } } // Warn if the service name is incompatible with DNS if InvalidDnsRe.MatchString(service.Service) { a.logger.Printf("[WARN] agent: Service name %q will not be discoverable "+ "via DNS due to invalid characters. Valid characters include "+ "all alpha-numerics and dashes.", service.Service) } else if len(service.Service) > MaxDNSLabelLength { a.logger.Printf("[WARN] agent: Service name %q will not be discoverable "+ "via DNS due to it being too long. Valid lengths are between "+ "1 and 63 bytes.", service.Service) } // Warn if any tags are incompatible with DNS for _, tag := range service.Tags { if InvalidDnsRe.MatchString(tag) { a.logger.Printf("[DEBUG] agent: Service tag %q will not be discoverable "+ "via DNS due to invalid characters. Valid characters include "+ "all alpha-numerics and dashes.", tag) } else if len(tag) > MaxDNSLabelLength { a.logger.Printf("[DEBUG] agent: Service tag %q will not be discoverable "+ "via DNS due to it being too long. Valid lengths are between "+ "1 and 63 bytes.", tag) } } // Pause the service syncs during modification a.PauseSync() defer a.ResumeSync() // Take a snapshot of the current state of checks (if any), and // restore them before resuming anti-entropy. snap := a.snapshotCheckState() defer a.restoreCheckState(snap) // Add the service a.State.AddService(service, token) // Persist the service to a file if persist && a.config.DataDir != "" { if err := a.persistService(service); err != nil { return err } } // Create an associated health check for i, chkType := range chkTypes { checkID := string(chkType.CheckID) if checkID == "" { checkID = fmt.Sprintf("service:%s", service.ID) if len(chkTypes) > 1 { checkID += fmt.Sprintf(":%d", i+1) } } name := chkType.Name if name == "" { name = fmt.Sprintf("Service '%s' check", service.Service) } check := &structs.HealthCheck{ Node: a.config.NodeName, CheckID: types.CheckID(checkID), Name: name, Status: api.HealthCritical, Notes: chkType.Notes, ServiceID: service.ID, ServiceName: service.Service, ServiceTags: service.Tags, } if chkType.Status != "" { check.Status = chkType.Status } if err := a.AddCheck(check, chkType, persist, token); err != nil { return err } } return nil } // RemoveService is used to remove a service entry. // The agent will make a best effort to ensure it is deregistered func (a *Agent) RemoveService(serviceID string, persist bool) error { // Validate ServiceID if serviceID == "" { return fmt.Errorf("ServiceID missing") } // Remove service immediately if err := a.State.RemoveService(serviceID); err != nil { a.logger.Printf("[WARN] agent: Failed to deregister service %q: %s", serviceID, err) return nil } // Remove the service from the data dir if persist { if err := a.purgeService(serviceID); err != nil { return err } } // Deregister any associated health checks for checkID, check := range a.State.Checks() { if check.ServiceID != serviceID { continue } if err := a.RemoveCheck(checkID, persist); err != nil { return err } } log.Printf("[DEBUG] agent: removed service %q", serviceID) return nil } // AddCheck is used to add a health check to the agent. // This entry is persistent and the agent will make a best effort to // ensure it is registered. The Check may include a CheckType which // is used to automatically update the check status func (a *Agent) AddCheck(check *structs.HealthCheck, chkType *structs.CheckType, persist bool, token string) error { if check.CheckID == "" { return fmt.Errorf("CheckID missing") } if chkType != nil { if err := chkType.Validate(); err != nil { return fmt.Errorf("Check is not valid: %v", err) } if chkType.IsScript() && !a.config.EnableScriptChecks { return fmt.Errorf("Scripts are disabled on this agent; to enable, configure 'enable_script_checks' to true") } } if check.ServiceID != "" { s := a.State.Service(check.ServiceID) if s == nil { return fmt.Errorf("ServiceID %q does not exist", check.ServiceID) } check.ServiceName = s.Service check.ServiceTags = s.Tags } a.checkLock.Lock() defer a.checkLock.Unlock() // Check if already registered if chkType != nil { switch { case chkType.IsTTL(): if existing, ok := a.checkTTLs[check.CheckID]; ok { existing.Stop() delete(a.checkTTLs, check.CheckID) } ttl := &checks.CheckTTL{ Notify: a.State, CheckID: check.CheckID, TTL: chkType.TTL, Logger: a.logger, } // Restore persisted state, if any if err := a.loadCheckState(check); err != nil { a.logger.Printf("[WARN] agent: failed restoring state for check %q: %s", check.CheckID, err) } ttl.Start() a.checkTTLs[check.CheckID] = ttl case chkType.IsHTTP(): if existing, ok := a.checkHTTPs[check.CheckID]; ok { existing.Stop() delete(a.checkHTTPs, check.CheckID) } if chkType.Interval < checks.MinInterval { a.logger.Println(fmt.Sprintf("[WARN] agent: check '%s' has interval below minimum of %v", check.CheckID, checks.MinInterval)) chkType.Interval = checks.MinInterval } tlsClientConfig, err := a.setupTLSClientConfig(chkType.TLSSkipVerify) if err != nil { return fmt.Errorf("Failed to set up TLS: %v", err) } http := &checks.CheckHTTP{ Notify: a.State, CheckID: check.CheckID, HTTP: chkType.HTTP, Header: chkType.Header, Method: chkType.Method, Interval: chkType.Interval, Timeout: chkType.Timeout, Logger: a.logger, TLSClientConfig: tlsClientConfig, } http.Start() a.checkHTTPs[check.CheckID] = http case chkType.IsTCP(): if existing, ok := a.checkTCPs[check.CheckID]; ok { existing.Stop() delete(a.checkTCPs, check.CheckID) } if chkType.Interval < checks.MinInterval { a.logger.Println(fmt.Sprintf("[WARN] agent: check '%s' has interval below minimum of %v", check.CheckID, checks.MinInterval)) chkType.Interval = checks.MinInterval } tcp := &checks.CheckTCP{ Notify: a.State, CheckID: check.CheckID, TCP: chkType.TCP, Interval: chkType.Interval, Timeout: chkType.Timeout, Logger: a.logger, } tcp.Start() a.checkTCPs[check.CheckID] = tcp case chkType.IsGRPC(): if existing, ok := a.checkGRPCs[check.CheckID]; ok { existing.Stop() delete(a.checkGRPCs, check.CheckID) } if chkType.Interval < checks.MinInterval { a.logger.Println(fmt.Sprintf("[WARN] agent: check '%s' has interval below minimum of %v", check.CheckID, checks.MinInterval)) chkType.Interval = checks.MinInterval } var tlsClientConfig *tls.Config if chkType.GRPCUseTLS { var err error tlsClientConfig, err = a.setupTLSClientConfig(chkType.TLSSkipVerify) if err != nil { return fmt.Errorf("Failed to set up TLS: %v", err) } } grpc := &checks.CheckGRPC{ Notify: a.State, CheckID: check.CheckID, GRPC: chkType.GRPC, Interval: chkType.Interval, Timeout: chkType.Timeout, Logger: a.logger, TLSClientConfig: tlsClientConfig, } grpc.Start() a.checkGRPCs[check.CheckID] = grpc case chkType.IsDocker(): if existing, ok := a.checkDockers[check.CheckID]; ok { existing.Stop() delete(a.checkDockers, check.CheckID) } if chkType.Interval < checks.MinInterval { a.logger.Println(fmt.Sprintf("[WARN] agent: check '%s' has interval below minimum of %v", check.CheckID, checks.MinInterval)) chkType.Interval = checks.MinInterval } if a.dockerClient == nil { dc, err := checks.NewDockerClient(os.Getenv("DOCKER_HOST"), checks.BufSize) if err != nil { a.logger.Printf("[ERR] agent: error creating docker client: %s", err) return err } a.logger.Printf("[DEBUG] agent: created docker client for %s", dc.Host()) a.dockerClient = dc } dockerCheck := &checks.CheckDocker{ Notify: a.State, CheckID: check.CheckID, DockerContainerID: chkType.DockerContainerID, Shell: chkType.Shell, ScriptArgs: chkType.ScriptArgs, Interval: chkType.Interval, Logger: a.logger, Client: a.dockerClient, } if prev := a.checkDockers[check.CheckID]; prev != nil { prev.Stop() } dockerCheck.Start() a.checkDockers[check.CheckID] = dockerCheck case chkType.IsMonitor(): if existing, ok := a.checkMonitors[check.CheckID]; ok { existing.Stop() delete(a.checkMonitors, check.CheckID) } if chkType.Interval < checks.MinInterval { a.logger.Printf("[WARN] agent: check '%s' has interval below minimum of %v", check.CheckID, checks.MinInterval) chkType.Interval = checks.MinInterval } monitor := &checks.CheckMonitor{ Notify: a.State, CheckID: check.CheckID, ScriptArgs: chkType.ScriptArgs, Interval: chkType.Interval, Timeout: chkType.Timeout, Logger: a.logger, } monitor.Start() a.checkMonitors[check.CheckID] = monitor default: return fmt.Errorf("Check type is not valid") } if chkType.DeregisterCriticalServiceAfter > 0 { timeout := chkType.DeregisterCriticalServiceAfter if timeout < a.config.CheckDeregisterIntervalMin { timeout = a.config.CheckDeregisterIntervalMin a.logger.Println(fmt.Sprintf("[WARN] agent: check '%s' has deregister interval below minimum of %v", check.CheckID, a.config.CheckDeregisterIntervalMin)) } a.checkReapAfter[check.CheckID] = timeout } else { delete(a.checkReapAfter, check.CheckID) } } // Add to the local state for anti-entropy err := a.State.AddCheck(check, token) if err != nil { a.cancelCheckMonitors(check.CheckID) return err } // Persist the check if persist && a.config.DataDir != "" { return a.persistCheck(check, chkType) } return nil } func (a *Agent) setupTLSClientConfig(skipVerify bool) (tlsClientConfig *tls.Config, err error) { // We re-use the API client's TLS structure since it // closely aligns with Consul's internal configuration. tlsConfig := &api.TLSConfig{ InsecureSkipVerify: skipVerify, } if a.config.EnableAgentTLSForChecks { tlsConfig.Address = a.config.ServerName tlsConfig.KeyFile = a.config.KeyFile tlsConfig.CertFile = a.config.CertFile tlsConfig.CAFile = a.config.CAFile tlsConfig.CAPath = a.config.CAPath } tlsClientConfig, err = api.SetupTLSConfig(tlsConfig) return } // RemoveCheck is used to remove a health check. // The agent will make a best effort to ensure it is deregistered func (a *Agent) RemoveCheck(checkID types.CheckID, persist bool) error { // Validate CheckID if checkID == "" { return fmt.Errorf("CheckID missing") } // Add to the local state for anti-entropy a.State.RemoveCheck(checkID) a.checkLock.Lock() defer a.checkLock.Unlock() a.cancelCheckMonitors(checkID) if persist { if err := a.purgeCheck(checkID); err != nil { return err } if err := a.purgeCheckState(checkID); err != nil { return err } } a.logger.Printf("[DEBUG] agent: removed check %q", checkID) return nil } // AddProxy adds a new local Connect Proxy instance to be managed by the agent. // // It REQUIRES that the service that is being proxied is already present in the // local state. Note that this is only used for agent-managed proxies so we can // ensure that we always make this true. For externally managed and registered // proxies we explicitly allow the proxy to be registered first to make // bootstrap ordering of a new service simpler but the same is not true here // since this is only ever called when setting up a _managed_ proxy which was // registered as part of a service registration either from config or HTTP API // call. // // The restoredProxyToken argument should only be used when restoring proxy // definitions from disk; new proxies must leave it blank to get a new token // assigned. We need to restore from disk to enable to continue authenticating // running proxies that already had that credential injected. func (a *Agent) AddProxy(proxy *structs.ConnectManagedProxy, persist bool, restoredProxyToken string) error { // Lookup the target service token in state if there is one. token := a.State.ServiceToken(proxy.TargetServiceID) // Copy the basic proxy structure so it isn't modified w/ defaults proxyCopy := *proxy proxy = &proxyCopy if err := a.applyProxyDefaults(proxy); err != nil { return err } // Add the proxy to local state first since we may need to assign a port which // needs to be coordinate under state lock. AddProxy will generate the // NodeService for the proxy populated with the allocated (or configured) port // and an ID, but it doesn't add it to the agent directly since that could // deadlock and we may need to coordinate adding it and persisting etc. proxyState, err := a.State.AddProxy(proxy, token, restoredProxyToken) if err != nil { return err } proxyService := proxyState.Proxy.ProxyService // TODO(banks): register proxy health checks. err = a.AddService(proxyService, nil, persist, token) if err != nil { // Remove the state too a.State.RemoveProxy(proxyService.ID) return err } // Persist the proxy if persist && a.config.DataDir != "" { return a.persistProxy(proxyState) } return nil } // applyProxyDefaults modifies the given proxy by applying any configured // defaults, such as the default execution mode, command, etc. func (a *Agent) applyProxyDefaults(proxy *structs.ConnectManagedProxy) error { // Set the default exec mode if proxy.ExecMode == structs.ProxyExecModeUnspecified { mode, err := structs.NewProxyExecMode(a.config.ConnectProxyDefaultExecMode) if err != nil { return err } proxy.ExecMode = mode } if proxy.ExecMode == structs.ProxyExecModeUnspecified { proxy.ExecMode = structs.ProxyExecModeDaemon } // Set the default command to the globally configured default if len(proxy.Command) == 0 { switch proxy.ExecMode { case structs.ProxyExecModeDaemon: proxy.Command = a.config.ConnectProxyDefaultDaemonCommand case structs.ProxyExecModeScript: proxy.Command = a.config.ConnectProxyDefaultScriptCommand } } // If there is no globally configured default we need to get the // default command so we can do "consul connect proxy" if len(proxy.Command) == 0 { command, err := defaultProxyCommand() if err != nil { return err } proxy.Command = command } return nil } // RemoveProxy stops and removes a local proxy instance. func (a *Agent) RemoveProxy(proxyID string, persist bool) error { // Validate proxyID if proxyID == "" { return fmt.Errorf("proxyID missing") } // Remove the proxy from the local state if _, err := a.State.RemoveProxy(proxyID); err != nil { return err } if persist && a.config.DataDir != "" { return a.purgeProxy(proxyID) } return nil } // verifyProxyToken takes a token and attempts to verify it against the // targetService name. If targetProxy is specified, then the local proxy token // must exactly match the given proxy ID. cert, config, etc.). // // The given token may be a local-only proxy token or it may be an ACL token. We // will attempt to verify the local proxy token first. // // The effective ACL token is returned along with any error. In the case the // token matches a proxy token, then the ACL token used to register that proxy's // target service is returned for use in any RPC calls the proxy needs to make // on behalf of that service. If the token was an ACL token already then it is // always returned. Provided error is nil, a valid ACL token is always returned. func (a *Agent) verifyProxyToken(token, targetService, targetProxy string) (string, error) { // If we specify a target proxy, we look up that proxy directly. Otherwise, // we resolve with any proxy we can find. var proxy *local.ManagedProxy if targetProxy != "" { proxy = a.State.Proxy(targetProxy) if proxy == nil { return "", fmt.Errorf("unknown proxy service ID: %q", targetProxy) } // If the token DOESN'T match, then we reset the proxy which will // cause the logic below to fall back to normal ACLs. Otherwise, // we keep the proxy set because we also have to verify that the // target service matches on the proxy. if token != proxy.ProxyToken { proxy = nil } } else { proxy = a.resolveProxyToken(token) } // The existence of a token isn't enough, we also need to verify // that the service name of the matching proxy matches our target // service. if proxy != nil { // Get the target service since we only have the name. The nil // check below should never be true since a proxy token always // represents the existence of a local service. target := a.State.Service(proxy.Proxy.TargetServiceID) if target == nil { return "", fmt.Errorf("proxy target service not found: %q", proxy.Proxy.TargetServiceID) } if target.Service != targetService { return "", acl.ErrPermissionDenied } // Resolve the actual ACL token used to register the proxy/service and // return that for use in RPC calls. return a.State.ServiceToken(proxy.Proxy.TargetServiceID), nil } // Doesn't match, we have to do a full token resolution. The required // permission for any proxy-related endpont is service:write, since // to register a proxy you require that permission and sensitive data // is usually present in the configuration. rule, err := a.resolveToken(token) if err != nil { return "", err } if rule != nil && !rule.ServiceWrite(targetService, nil) { return "", acl.ErrPermissionDenied } return token, nil } func (a *Agent) cancelCheckMonitors(checkID types.CheckID) { // Stop any monitors delete(a.checkReapAfter, checkID) if check, ok := a.checkMonitors[checkID]; ok { check.Stop() delete(a.checkMonitors, checkID) } if check, ok := a.checkHTTPs[checkID]; ok { check.Stop() delete(a.checkHTTPs, checkID) } if check, ok := a.checkTCPs[checkID]; ok { check.Stop() delete(a.checkTCPs, checkID) } if check, ok := a.checkGRPCs[checkID]; ok { check.Stop() delete(a.checkGRPCs, checkID) } if check, ok := a.checkTTLs[checkID]; ok { check.Stop() delete(a.checkTTLs, checkID) } if check, ok := a.checkDockers[checkID]; ok { check.Stop() delete(a.checkDockers, checkID) } } // updateTTLCheck is used to update the status of a TTL check via the Agent API. func (a *Agent) updateTTLCheck(checkID types.CheckID, status, output string) error { a.checkLock.Lock() defer a.checkLock.Unlock() // Grab the TTL check. check, ok := a.checkTTLs[checkID] if !ok { return fmt.Errorf("CheckID %q does not have associated TTL", checkID) } // Set the status through CheckTTL to reset the TTL. check.SetStatus(status, output) // We don't write any files in dev mode so bail here. if a.config.DataDir == "" { return nil } // Persist the state so the TTL check can come up in a good state after // an agent restart, especially with long TTL values. if err := a.persistCheckState(check, status, output); err != nil { return fmt.Errorf("failed persisting state for check %q: %s", checkID, err) } return nil } // persistCheckState is used to record the check status into the data dir. // This allows the state to be restored on a later agent start. Currently // only useful for TTL based checks. func (a *Agent) persistCheckState(check *checks.CheckTTL, status, output string) error { // Create the persisted state state := persistedCheckState{ CheckID: check.CheckID, Status: status, Output: output, Expires: time.Now().Add(check.TTL).Unix(), } // Encode the state buf, err := json.Marshal(state) if err != nil { return err } // Create the state dir if it doesn't exist dir := filepath.Join(a.config.DataDir, checkStateDir) if err := os.MkdirAll(dir, 0700); err != nil { return fmt.Errorf("failed creating check state dir %q: %s", dir, err) } // Write the state to the file file := filepath.Join(dir, checkIDHash(check.CheckID)) // Create temp file in same dir, to make more likely atomic tempFile := file + ".tmp" // persistCheckState is called frequently, so don't use writeFileAtomic to avoid calling fsync here if err := ioutil.WriteFile(tempFile, buf, 0600); err != nil { return fmt.Errorf("failed writing temp file %q: %s", tempFile, err) } if err := os.Rename(tempFile, file); err != nil { return fmt.Errorf("failed to rename temp file from %q to %q: %s", tempFile, file, err) } return nil } // loadCheckState is used to restore the persisted state of a check. func (a *Agent) loadCheckState(check *structs.HealthCheck) error { // Try to read the persisted state for this check file := filepath.Join(a.config.DataDir, checkStateDir, checkIDHash(check.CheckID)) buf, err := ioutil.ReadFile(file) if err != nil { if os.IsNotExist(err) { return nil } return fmt.Errorf("failed reading file %q: %s", file, err) } // Decode the state data var p persistedCheckState if err := json.Unmarshal(buf, &p); err != nil { a.logger.Printf("[ERR] agent: failed decoding check state: %s", err) return a.purgeCheckState(check.CheckID) } // Check if the state has expired if time.Now().Unix() >= p.Expires { a.logger.Printf("[DEBUG] agent: check state expired for %q, not restoring", check.CheckID) return a.purgeCheckState(check.CheckID) } // Restore the fields from the state check.Output = p.Output check.Status = p.Status return nil } // purgeCheckState is used to purge the state of a check from the data dir func (a *Agent) purgeCheckState(checkID types.CheckID) error { file := filepath.Join(a.config.DataDir, checkStateDir, checkIDHash(checkID)) err := os.Remove(file) if os.IsNotExist(err) { return nil } return err } func (a *Agent) GossipEncrypted() bool { return a.delegate.Encrypted() } // Stats is used to get various debugging state from the sub-systems func (a *Agent) Stats() map[string]map[string]string { stats := a.delegate.Stats() stats["agent"] = map[string]string{ "check_monitors": strconv.Itoa(len(a.checkMonitors)), "check_ttls": strconv.Itoa(len(a.checkTTLs)), } for k, v := range a.State.Stats() { stats["agent"][k] = v } revision := a.config.Revision if len(revision) > 8 { revision = revision[:8] } stats["build"] = map[string]string{ "revision": revision, "version": a.config.Version, "prerelease": a.config.VersionPrerelease, } return stats } // storePid is used to write out our PID to a file if necessary func (a *Agent) storePid() error { // Quit fast if no pidfile pidPath := a.config.PidFile if pidPath == "" { return nil } // Open the PID file pidFile, err := os.OpenFile(pidPath, os.O_CREATE|os.O_WRONLY|os.O_TRUNC, 0666) if err != nil { return fmt.Errorf("Could not open pid file: %v", err) } defer pidFile.Close() // Write out the PID pid := os.Getpid() _, err = pidFile.WriteString(fmt.Sprintf("%d", pid)) if err != nil { return fmt.Errorf("Could not write to pid file: %s", err) } return nil } // deletePid is used to delete our PID on exit func (a *Agent) deletePid() error { // Quit fast if no pidfile pidPath := a.config.PidFile if pidPath == "" { return nil } stat, err := os.Stat(pidPath) if err != nil { return fmt.Errorf("Could not remove pid file: %s", err) } if stat.IsDir() { return fmt.Errorf("Specified pid file path is directory") } err = os.Remove(pidPath) if err != nil { return fmt.Errorf("Could not remove pid file: %s", err) } return nil } // loadServices will load service definitions from configuration and persisted // definitions on disk, and load them into the local agent. func (a *Agent) loadServices(conf *config.RuntimeConfig) error { // Register the services from config for _, service := range conf.Services { ns := service.NodeService() chkTypes, err := service.CheckTypes() if err != nil { return fmt.Errorf("Failed to validate checks for service %q: %v", service.Name, err) } if err := a.AddService(ns, chkTypes, false, service.Token); err != nil { return fmt.Errorf("Failed to register service %q: %v", service.Name, err) } } // Load any persisted services svcDir := filepath.Join(a.config.DataDir, servicesDir) files, err := ioutil.ReadDir(svcDir) if err != nil { if os.IsNotExist(err) { return nil } return fmt.Errorf("Failed reading services dir %q: %s", svcDir, err) } for _, fi := range files { // Skip all dirs if fi.IsDir() { continue } // Skip all partially written temporary files if strings.HasSuffix(fi.Name(), "tmp") { a.logger.Printf("[WARN] agent: Ignoring temporary service file %v", fi.Name()) continue } // Open the file for reading file := filepath.Join(svcDir, fi.Name()) fh, err := os.Open(file) if err != nil { return fmt.Errorf("failed opening service file %q: %s", file, err) } // Read the contents into a buffer buf, err := ioutil.ReadAll(fh) fh.Close() if err != nil { return fmt.Errorf("failed reading service file %q: %s", file, err) } // Try decoding the service definition var p persistedService if err := json.Unmarshal(buf, &p); err != nil { // Backwards-compatibility for pre-0.5.1 persisted services if err := json.Unmarshal(buf, &p.Service); err != nil { a.logger.Printf("[ERR] agent: Failed decoding service file %q: %s", file, err) continue } } serviceID := p.Service.ID if a.State.Service(serviceID) != nil { // Purge previously persisted service. This allows config to be // preferred over services persisted from the API. a.logger.Printf("[DEBUG] agent: service %q exists, not restoring from %q", serviceID, file) if err := a.purgeService(serviceID); err != nil { return fmt.Errorf("failed purging service %q: %s", serviceID, err) } } else { a.logger.Printf("[DEBUG] agent: restored service definition %q from %q", serviceID, file) if err := a.AddService(p.Service, nil, false, p.Token); err != nil { return fmt.Errorf("failed adding service %q: %s", serviceID, err) } } } return nil } // unloadServices will deregister all services. func (a *Agent) unloadServices() error { for id := range a.State.Services() { if err := a.RemoveService(id, false); err != nil { return fmt.Errorf("Failed deregistering service '%s': %v", id, err) } } return nil } // loadChecks loads check definitions and/or persisted check definitions from // disk and re-registers them with the local agent. func (a *Agent) loadChecks(conf *config.RuntimeConfig) error { // Register the checks from config for _, check := range conf.Checks { health := check.HealthCheck(conf.NodeName) chkType := check.CheckType() if err := a.AddCheck(health, chkType, false, check.Token); err != nil { return fmt.Errorf("Failed to register check '%s': %v %v", check.Name, err, check) } } // Load any persisted checks checkDir := filepath.Join(a.config.DataDir, checksDir) files, err := ioutil.ReadDir(checkDir) if err != nil { if os.IsNotExist(err) { return nil } return fmt.Errorf("Failed reading checks dir %q: %s", checkDir, err) } for _, fi := range files { // Ignore dirs - we only care about the check definition files if fi.IsDir() { continue } // Open the file for reading file := filepath.Join(checkDir, fi.Name()) fh, err := os.Open(file) if err != nil { return fmt.Errorf("Failed opening check file %q: %s", file, err) } // Read the contents into a buffer buf, err := ioutil.ReadAll(fh) fh.Close() if err != nil { return fmt.Errorf("failed reading check file %q: %s", file, err) } // Decode the check var p persistedCheck if err := json.Unmarshal(buf, &p); err != nil { a.logger.Printf("[ERR] agent: Failed decoding check file %q: %s", file, err) continue } checkID := p.Check.CheckID if a.State.Check(checkID) != nil { // Purge previously persisted check. This allows config to be // preferred over persisted checks from the API. a.logger.Printf("[DEBUG] agent: check %q exists, not restoring from %q", checkID, file) if err := a.purgeCheck(checkID); err != nil { return fmt.Errorf("Failed purging check %q: %s", checkID, err) } } else { // Default check to critical to avoid placing potentially unhealthy // services into the active pool p.Check.Status = api.HealthCritical if err := a.AddCheck(p.Check, p.ChkType, false, p.Token); err != nil { // Purge the check if it is unable to be restored. a.logger.Printf("[WARN] agent: Failed to restore check %q: %s", checkID, err) if err := a.purgeCheck(checkID); err != nil { return fmt.Errorf("Failed purging check %q: %s", checkID, err) } } a.logger.Printf("[DEBUG] agent: restored health check %q from %q", p.Check.CheckID, file) } } return nil } // unloadChecks will deregister all checks known to the local agent. func (a *Agent) unloadChecks() error { for id := range a.State.Checks() { if err := a.RemoveCheck(id, false); err != nil { return fmt.Errorf("Failed deregistering check '%s': %s", id, err) } } return nil } // loadProxies will load connect proxy definitions from configuration and // persisted definitions on disk, and load them into the local agent. func (a *Agent) loadProxies(conf *config.RuntimeConfig) error { for _, svc := range conf.Services { if svc.Connect != nil { proxy, err := svc.ConnectManagedProxy() if err != nil { return fmt.Errorf("failed adding proxy: %s", err) } if proxy == nil { continue } if err := a.AddProxy(proxy, false, ""); err != nil { return fmt.Errorf("failed adding proxy: %s", err) } } } // Load any persisted proxies proxyDir := filepath.Join(a.config.DataDir, proxyDir) files, err := ioutil.ReadDir(proxyDir) if err != nil { if os.IsNotExist(err) { return nil } return fmt.Errorf("Failed reading proxies dir %q: %s", proxyDir, err) } for _, fi := range files { // Skip all dirs if fi.IsDir() { continue } // Skip all partially written temporary files if strings.HasSuffix(fi.Name(), "tmp") { a.logger.Printf("[WARN] agent: Ignoring temporary proxy file %v", fi.Name()) continue } // Open the file for reading file := filepath.Join(proxyDir, fi.Name()) fh, err := os.Open(file) if err != nil { return fmt.Errorf("failed opening proxy file %q: %s", file, err) } // Read the contents into a buffer buf, err := ioutil.ReadAll(fh) fh.Close() if err != nil { return fmt.Errorf("failed reading proxy file %q: %s", file, err) } // Try decoding the proxy definition var p persistedProxy if err := json.Unmarshal(buf, &p); err != nil { a.logger.Printf("[ERR] agent: Failed decoding proxy file %q: %s", file, err) continue } proxyID := p.Proxy.ProxyService.ID if a.State.Proxy(proxyID) != nil { // Purge previously persisted proxy. This allows config to be preferred // over services persisted from the API. a.logger.Printf("[DEBUG] agent: proxy %q exists, not restoring from %q", proxyID, file) if err := a.purgeProxy(proxyID); err != nil { return fmt.Errorf("failed purging proxy %q: %s", proxyID, err) } } else { a.logger.Printf("[DEBUG] agent: restored proxy definition %q from %q", proxyID, file) if err := a.AddProxy(p.Proxy, false, p.ProxyToken); err != nil { return fmt.Errorf("failed adding proxy %q: %s", proxyID, err) } } } return nil } // unloadProxies will deregister all proxies known to the local agent. func (a *Agent) unloadProxies() error { for id := range a.State.Proxies() { if err := a.RemoveProxy(id, false); err != nil { return fmt.Errorf("Failed deregistering proxy '%s': %s", id, err) } } return nil } // snapshotCheckState is used to snapshot the current state of the health // checks. This is done before we reload our checks, so that we can properly // restore into the same state. func (a *Agent) snapshotCheckState() map[types.CheckID]*structs.HealthCheck { return a.State.Checks() } // restoreCheckState is used to reset the health state based on a snapshot. // This is done after we finish the reload to avoid any unnecessary flaps // in health state and potential session invalidations. func (a *Agent) restoreCheckState(snap map[types.CheckID]*structs.HealthCheck) { for id, check := range snap { a.State.UpdateCheck(id, check.Status, check.Output) } } // loadMetadata loads node metadata fields from the agent config and // updates them on the local agent. func (a *Agent) loadMetadata(conf *config.RuntimeConfig) error { meta := map[string]string{} for k, v := range conf.NodeMeta { meta[k] = v } meta[structs.MetaSegmentKey] = conf.SegmentName return a.State.LoadMetadata(meta) } // unloadMetadata resets the local metadata state func (a *Agent) unloadMetadata() { a.State.UnloadMetadata() } // serviceMaintCheckID returns the ID of a given service's maintenance check func serviceMaintCheckID(serviceID string) types.CheckID { return types.CheckID(structs.ServiceMaintPrefix + serviceID) } // EnableServiceMaintenance will register a false health check against the given // service ID with critical status. This will exclude the service from queries. func (a *Agent) EnableServiceMaintenance(serviceID, reason, token string) error { service, ok := a.State.Services()[serviceID] if !ok { return fmt.Errorf("No service registered with ID %q", serviceID) } // Check if maintenance mode is not already enabled checkID := serviceMaintCheckID(serviceID) if _, ok := a.State.Checks()[checkID]; ok { return nil } // Use default notes if no reason provided if reason == "" { reason = defaultServiceMaintReason } // Create and register the critical health check check := &structs.HealthCheck{ Node: a.config.NodeName, CheckID: checkID, Name: "Service Maintenance Mode", Notes: reason, ServiceID: service.ID, ServiceName: service.Service, Status: api.HealthCritical, } a.AddCheck(check, nil, true, token) a.logger.Printf("[INFO] agent: Service %q entered maintenance mode", serviceID) return nil } // DisableServiceMaintenance will deregister the fake maintenance mode check // if the service has been marked as in maintenance. func (a *Agent) DisableServiceMaintenance(serviceID string) error { if _, ok := a.State.Services()[serviceID]; !ok { return fmt.Errorf("No service registered with ID %q", serviceID) } // Check if maintenance mode is enabled checkID := serviceMaintCheckID(serviceID) if _, ok := a.State.Checks()[checkID]; !ok { return nil } // Deregister the maintenance check a.RemoveCheck(checkID, true) a.logger.Printf("[INFO] agent: Service %q left maintenance mode", serviceID) return nil } // EnableNodeMaintenance places a node into maintenance mode. func (a *Agent) EnableNodeMaintenance(reason, token string) { // Ensure node maintenance is not already enabled if _, ok := a.State.Checks()[structs.NodeMaint]; ok { return } // Use a default notes value if reason == "" { reason = defaultNodeMaintReason } // Create and register the node maintenance check check := &structs.HealthCheck{ Node: a.config.NodeName, CheckID: structs.NodeMaint, Name: "Node Maintenance Mode", Notes: reason, Status: api.HealthCritical, } a.AddCheck(check, nil, true, token) a.logger.Printf("[INFO] agent: Node entered maintenance mode") } // DisableNodeMaintenance removes a node from maintenance mode func (a *Agent) DisableNodeMaintenance() { if _, ok := a.State.Checks()[structs.NodeMaint]; !ok { return } a.RemoveCheck(structs.NodeMaint, true) a.logger.Printf("[INFO] agent: Node left maintenance mode") } func (a *Agent) ReloadConfig(newCfg *config.RuntimeConfig) error { // Bulk update the services and checks a.PauseSync() defer a.ResumeSync() // Snapshot the current state, and restore it afterwards snap := a.snapshotCheckState() defer a.restoreCheckState(snap) // First unload all checks, services, and metadata. This lets us begin the reload // with a clean slate. if err := a.unloadProxies(); err != nil { return fmt.Errorf("Failed unloading proxies: %s", err) } if err := a.unloadServices(); err != nil { return fmt.Errorf("Failed unloading services: %s", err) } if err := a.unloadChecks(); err != nil { return fmt.Errorf("Failed unloading checks: %s", err) } a.unloadMetadata() // Reload service/check definitions and metadata. if err := a.loadServices(newCfg); err != nil { return fmt.Errorf("Failed reloading services: %s", err) } if err := a.loadProxies(newCfg); err != nil { return fmt.Errorf("Failed reloading proxies: %s", err) } if err := a.loadChecks(newCfg); err != nil { return fmt.Errorf("Failed reloading checks: %s", err) } if err := a.loadMetadata(newCfg); err != nil { return fmt.Errorf("Failed reloading metadata: %s", err) } if err := a.reloadWatches(newCfg); err != nil { return fmt.Errorf("Failed reloading watches: %v", err) } // Update filtered metrics metrics.UpdateFilter(newCfg.TelemetryAllowedPrefixes, newCfg.TelemetryBlockedPrefixes) a.State.SetDiscardCheckOutput(newCfg.DiscardCheckOutput) return nil } // registerCache configures the cache and registers all the supported // types onto the cache. This is NOT safe to call multiple times so // care should be taken to call this exactly once after the cache // field has been initialized. func (a *Agent) registerCache() { a.cache.RegisterType(cachetype.ConnectCARootName, &cachetype.ConnectCARoot{ RPC: a.delegate, }, &cache.RegisterOptions{ // Maintain a blocking query, retry dropped connections quickly Refresh: true, RefreshTimer: 0 * time.Second, RefreshTimeout: 10 * time.Minute, }) a.cache.RegisterType(cachetype.ConnectCALeafName, &cachetype.ConnectCALeaf{ RPC: a.delegate, Cache: a.cache, }, &cache.RegisterOptions{ // Maintain a blocking query, retry dropped connections quickly Refresh: true, RefreshTimer: 0 * time.Second, RefreshTimeout: 10 * time.Minute, }) a.cache.RegisterType(cachetype.IntentionMatchName, &cachetype.IntentionMatch{ RPC: a.delegate, }, &cache.RegisterOptions{ // Maintain a blocking query, retry dropped connections quickly Refresh: true, RefreshTimer: 0 * time.Second, RefreshTimeout: 10 * time.Minute, }) } // defaultProxyCommand returns the default Connect managed proxy command. func defaultProxyCommand() ([]string, error) { // Get the path to the current exectuable. This is cached once by the // library so this is effectively just a variable read. execPath, err := os.Executable() if err != nil { return nil, err } // "consul connect proxy" default value for managed daemon proxy return []string{execPath, "connect", "proxy"}, nil }