package agent import ( "flag" "fmt" "io" "net" "os" "os/signal" "path/filepath" "regexp" "runtime" "strings" "syscall" "time" "github.com/armon/go-metrics" "github.com/hashicorp/consul/watch" "github.com/hashicorp/go-checkpoint" "github.com/hashicorp/go-syslog" "github.com/hashicorp/logutils" "github.com/mitchellh/cli" ) // gracefulTimeout controls how long we wait before forcefully terminating var gracefulTimeout = 5 * time.Second // validDatacenter is used to validate a datacenter var validDatacenter = regexp.MustCompile("^[a-zA-Z0-9_-]+$") // Command is a Command implementation that runs a Consul agent. // The command will not end unless a shutdown message is sent on the // ShutdownCh. If two messages are sent on the ShutdownCh it will forcibly // exit. type Command struct { Revision string Version string VersionPrerelease string Ui cli.Ui ShutdownCh <-chan struct{} args []string logFilter *logutils.LevelFilter logOutput io.Writer agent *Agent rpcServer *AgentRPC httpServers []*HTTPServer dnsServer *DNSServer } // readConfig is responsible for setup of our configuration using // the command line and any file configs func (c *Command) readConfig() *Config { var cmdConfig Config var configFiles []string var retryInterval string var retryIntervalWan string cmdFlags := flag.NewFlagSet("agent", flag.ContinueOnError) cmdFlags.Usage = func() { c.Ui.Output(c.Help()) } cmdFlags.Var((*AppendSliceValue)(&configFiles), "config-file", "json file to read config from") cmdFlags.Var((*AppendSliceValue)(&configFiles), "config-dir", "directory of json files to read") cmdFlags.StringVar(&cmdConfig.LogLevel, "log-level", "", "log level") cmdFlags.StringVar(&cmdConfig.NodeName, "node", "", "node name") cmdFlags.StringVar(&cmdConfig.Datacenter, "dc", "", "node datacenter") cmdFlags.StringVar(&cmdConfig.DataDir, "data-dir", "", "path to the data directory") cmdFlags.StringVar(&cmdConfig.UiDir, "ui-dir", "", "path to the web UI directory") cmdFlags.StringVar(&cmdConfig.PidFile, "pid-file", "", "path to file to store PID") cmdFlags.StringVar(&cmdConfig.EncryptKey, "encrypt", "", "gossip encryption key") cmdFlags.BoolVar(&cmdConfig.Server, "server", false, "run agent as server") cmdFlags.BoolVar(&cmdConfig.Bootstrap, "bootstrap", false, "enable server bootstrap mode") cmdFlags.IntVar(&cmdConfig.BootstrapExpect, "bootstrap-expect", 0, "enable automatic bootstrap via expect mode") cmdFlags.StringVar(&cmdConfig.ClientAddr, "client", "", "address to bind client listeners to (DNS, HTTP, HTTPS, RPC)") cmdFlags.StringVar(&cmdConfig.BindAddr, "bind", "", "address to bind server listeners to") cmdFlags.StringVar(&cmdConfig.AdvertiseAddr, "advertise", "", "address to advertise instead of bind addr") cmdFlags.IntVar(&cmdConfig.Protocol, "protocol", -1, "protocol version") cmdFlags.BoolVar(&cmdConfig.EnableSyslog, "syslog", false, "enable logging to syslog facility") cmdFlags.BoolVar(&cmdConfig.RejoinAfterLeave, "rejoin", false, "enable re-joining after a previous leave") cmdFlags.Var((*AppendSliceValue)(&cmdConfig.StartJoin), "join", "address of agent to join on startup") cmdFlags.Var((*AppendSliceValue)(&cmdConfig.StartJoinWan), "join-wan", "address of agent to join -wan on startup") cmdFlags.Var((*AppendSliceValue)(&cmdConfig.RetryJoin), "retry-join", "address of agent to join on startup with retry") cmdFlags.IntVar(&cmdConfig.RetryMaxAttempts, "retry-max", 0, "number of retries for joining") cmdFlags.StringVar(&retryInterval, "retry-interval", "", "interval between join attempts") cmdFlags.Var((*AppendSliceValue)(&cmdConfig.RetryJoinWan), "retry-join-wan", "address of agent to join -wan on startup with retry") cmdFlags.IntVar(&cmdConfig.RetryMaxAttemptsWan, "retry-max-wan", 0, "number of retries for joining -wan") cmdFlags.StringVar(&retryIntervalWan, "retry-interval-wan", "", "interval between join -wan attempts") if err := cmdFlags.Parse(c.args); err != nil { return nil } if retryInterval != "" { dur, err := time.ParseDuration(retryInterval) if err != nil { c.Ui.Error(fmt.Sprintf("Error: %s", err)) return nil } cmdConfig.RetryInterval = dur } if retryIntervalWan != "" { dur, err := time.ParseDuration(retryIntervalWan) if err != nil { c.Ui.Error(fmt.Sprintf("Error: %s", err)) return nil } cmdConfig.RetryIntervalWan = dur } config := DefaultConfig() if len(configFiles) > 0 { fileConfig, err := ReadConfigPaths(configFiles) if err != nil { c.Ui.Error(err.Error()) return nil } config = MergeConfig(config, fileConfig) } config = MergeConfig(config, &cmdConfig) if config.NodeName == "" { hostname, err := os.Hostname() if err != nil { c.Ui.Error(fmt.Sprintf("Error determining hostname: %s", err)) return nil } config.NodeName = hostname } // Ensure we have a data directory if config.DataDir == "" { c.Ui.Error("Must specify data directory using -data-dir") return nil } if config.EncryptKey != "" { if _, err := config.EncryptBytes(); err != nil { c.Ui.Error(fmt.Sprintf("Invalid encryption key: %s", err)) return nil } keyfileLAN := filepath.Join(config.DataDir, serfLANKeyring) if _, err := os.Stat(keyfileLAN); err == nil { c.Ui.Error("WARNING: LAN keyring exists but -encrypt given, ignoring") } if config.Server { keyfileWAN := filepath.Join(config.DataDir, serfWANKeyring) if _, err := os.Stat(keyfileWAN); err == nil { c.Ui.Error("WARNING: WAN keyring exists but -encrypt given, ignoring") } } } // Verify data center is valid if !validDatacenter.MatchString(config.Datacenter) { c.Ui.Error("Datacenter must be alpha-numeric with underscores and hypens only") return nil } // Only allow bootstrap mode when acting as a server if config.Bootstrap && !config.Server { c.Ui.Error("Bootstrap mode cannot be enabled when server mode is not enabled") return nil } // Expect can only work when acting as a server if config.BootstrapExpect != 0 && !config.Server { c.Ui.Error("Expect mode cannot be enabled when server mode is not enabled") return nil } // Expect & Bootstrap are mutually exclusive if config.BootstrapExpect != 0 && config.Bootstrap { c.Ui.Error("Bootstrap cannot be provided with an expected server count") return nil } // Compile all the watches for _, params := range config.Watches { // Parse the watches, excluding the handler wp, err := watch.ParseExempt(params, []string{"handler"}) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to parse watch (%#v): %v", params, err)) return nil } // Get the handler if err := verifyWatchHandler(wp.Exempt["handler"]); err != nil { c.Ui.Error(fmt.Sprintf("Failed to setup watch handler (%#v): %v", params, err)) return nil } // Store the watch plan config.WatchPlans = append(config.WatchPlans, wp) } // Warn if we are in expect mode if config.BootstrapExpect == 1 { c.Ui.Error("WARNING: BootstrapExpect Mode is specified as 1; this is the same as Bootstrap mode.") config.BootstrapExpect = 0 config.Bootstrap = true } else if config.BootstrapExpect > 0 { c.Ui.Error(fmt.Sprintf("WARNING: Expect Mode enabled, expecting %d servers", config.BootstrapExpect)) } // Warn if we are in bootstrap mode if config.Bootstrap { c.Ui.Error("WARNING: Bootstrap mode enabled! Do not enable unless necessary") } // Warn if using windows as a server if config.Server && runtime.GOOS == "windows" { c.Ui.Error("WARNING: Windows is not recommended as a Consul server. Do not use in production.") } // Set the version info config.Revision = c.Revision config.Version = c.Version config.VersionPrerelease = c.VersionPrerelease return config } // setupLoggers is used to setup the logGate, logWriter, and our logOutput func (c *Command) setupLoggers(config *Config) (*GatedWriter, *logWriter, io.Writer) { // Setup logging. First create the gated log writer, which will // store logs until we're ready to show them. Then create the level // filter, filtering logs of the specified level. logGate := &GatedWriter{ Writer: &cli.UiWriter{Ui: c.Ui}, } c.logFilter = LevelFilter() c.logFilter.MinLevel = logutils.LogLevel(strings.ToUpper(config.LogLevel)) c.logFilter.Writer = logGate if !ValidateLevelFilter(c.logFilter.MinLevel, c.logFilter) { c.Ui.Error(fmt.Sprintf( "Invalid log level: %s. Valid log levels are: %v", c.logFilter.MinLevel, c.logFilter.Levels)) return nil, nil, nil } // Check if syslog is enabled var syslog io.Writer if config.EnableSyslog { l, err := gsyslog.NewLogger(gsyslog.LOG_NOTICE, config.SyslogFacility, "consul") if err != nil { c.Ui.Error(fmt.Sprintf("Syslog setup failed: %v", err)) return nil, nil, nil } syslog = &SyslogWrapper{l, c.logFilter} } // Create a log writer, and wrap a logOutput around it logWriter := NewLogWriter(512) var logOutput io.Writer if syslog != nil { logOutput = io.MultiWriter(c.logFilter, logWriter, syslog) } else { logOutput = io.MultiWriter(c.logFilter, logWriter) } c.logOutput = logOutput return logGate, logWriter, logOutput } // setupAgent is used to start the agent and various interfaces func (c *Command) setupAgent(config *Config, logOutput io.Writer, logWriter *logWriter) error { c.Ui.Output("Starting Consul agent...") agent, err := Create(config, logOutput) if err != nil { c.Ui.Error(fmt.Sprintf("Error starting agent: %s", err)) return err } c.agent = agent // Setup the RPC listener rpcAddr, err := config.ClientListener(config.Addresses.RPC, config.Ports.RPC) if err != nil { c.Ui.Error(fmt.Sprintf("Invalid RPC bind address: %s", err)) return err } if _, ok := rpcAddr.(*net.UnixAddr); ok { // Remove the socket if it exists, or we'll get a bind error _ = os.Remove(rpcAddr.String()) } rpcListener, err := net.Listen(rpcAddr.Network(), rpcAddr.String()) if err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting RPC listener: %s", err)) return err } if _, ok := rpcAddr.(*net.UnixAddr); ok { if err := adjustUnixSocketPermissions(config.Addresses.RPC); err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error adjusting Unix socket permissions: %s", err)) return err } } // Start the IPC layer c.Ui.Output("Starting Consul agent RPC...") c.rpcServer = NewAgentRPC(agent, rpcListener, logOutput, logWriter) if config.Ports.HTTP > 0 || config.Ports.HTTPS > 0 { servers, err := NewHTTPServers(agent, config, logOutput) if err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting http servers: %s", err)) return err } c.httpServers = servers } if config.Ports.DNS > 0 { dnsAddr, err := config.ClientListener(config.Addresses.DNS, config.Ports.DNS) if err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Invalid DNS bind address: %s", err)) return err } server, err := NewDNSServer(agent, &config.DNSConfig, logOutput, config.Domain, dnsAddr.String(), config.DNSRecursors) if err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting dns server: %s", err)) return err } c.dnsServer = server } // Setup update checking if !config.DisableUpdateCheck { updateParams := &checkpoint.CheckParams{ Product: "consul", Version: fmt.Sprintf("%s%s", config.Version, config.VersionPrerelease), } if !config.DisableAnonymousSignature { updateParams.SignatureFile = filepath.Join(config.DataDir, "checkpoint-signature") } // Schedule a periodic check with expected interval of 24 hours checkpoint.CheckInterval(updateParams, 24*time.Hour, c.checkpointResults) // Do an immediate check within the next 30 seconds go func() { time.Sleep(randomStagger(30 * time.Second)) c.checkpointResults(checkpoint.Check(updateParams)) }() } return nil } // checkpointResults is used to handler periodic results from our update checker func (c *Command) checkpointResults(results *checkpoint.CheckResponse, err error) { if err != nil { c.Ui.Error(fmt.Sprintf("Failed to check for updates: %v", err)) return } if results.Outdated { c.Ui.Error(fmt.Sprintf("Newer Consul version available: %s", results.CurrentVersion)) } for _, alert := range results.Alerts { switch alert.Level { case "info": c.Ui.Info(fmt.Sprintf("Bulletin [%s]: %s (%s)", alert.Level, alert.Message, alert.URL)) default: c.Ui.Error(fmt.Sprintf("Bulletin [%s]: %s (%s)", alert.Level, alert.Message, alert.URL)) } } } // startupJoin is invoked to handle any joins specified to take place at start time func (c *Command) startupJoin(config *Config) error { if len(config.StartJoin) == 0 { return nil } c.Ui.Output("Joining cluster...") n, err := c.agent.JoinLAN(config.StartJoin) if err != nil { return err } c.Ui.Info(fmt.Sprintf("Join completed. Synced with %d initial agents", n)) return nil } // startupJoinWan is invoked to handle any joins -wan specified to take place at start time func (c *Command) startupJoinWan(config *Config) error { if len(config.StartJoinWan) == 0 { return nil } c.Ui.Output("Joining -wan cluster...") n, err := c.agent.JoinWAN(config.StartJoinWan) if err != nil { return err } c.Ui.Info(fmt.Sprintf("Join -wan completed. Synced with %d initial agents", n)) return nil } // retryJoin is used to handle retrying a join until it succeeds or all // retries are exhausted. func (c *Command) retryJoin(config *Config, errCh chan<- struct{}) { if len(config.RetryJoin) == 0 { return } logger := c.agent.logger logger.Printf("[INFO] agent: Joining cluster...") attempt := 0 for { n, err := c.agent.JoinLAN(config.RetryJoin) if err == nil { logger.Printf("[INFO] agent: Join completed. Synced with %d initial agents", n) return } attempt++ if config.RetryMaxAttempts > 0 && attempt > config.RetryMaxAttempts { logger.Printf("[ERROR] agent: max join retry exhausted, exiting") close(errCh) return } logger.Printf("[WARN] agent: Join failed: %v, retrying in %v", err, config.RetryInterval) time.Sleep(config.RetryInterval) } } // retryJoinWan is used to handle retrying a join -wan until it succeeds or all // retries are exhausted. func (c *Command) retryJoinWan(config *Config, errCh chan<- struct{}) { if len(config.RetryJoinWan) == 0 { return } logger := c.agent.logger logger.Printf("[INFO] agent: Joining WAN cluster...") attempt := 0 for { n, err := c.agent.JoinWAN(config.RetryJoinWan) if err == nil { logger.Printf("[INFO] agent: Join -wan completed. Synced with %d initial agents", n) return } attempt++ if config.RetryMaxAttemptsWan > 0 && attempt > config.RetryMaxAttemptsWan { logger.Printf("[ERROR] agent: max join -wan retry exhausted, exiting") close(errCh) return } logger.Printf("[WARN] agent: Join -wan failed: %v, retrying in %v", err, config.RetryIntervalWan) time.Sleep(config.RetryIntervalWan) } } // gossipEncrypted determines if the consul instance is using symmetric // encryption keys to protect gossip protocol messages. func (c *Command) gossipEncrypted() bool { if c.agent.config.EncryptKey != "" { return true } server := c.agent.server if server != nil { return server.KeyManagerLAN() != nil || server.KeyManagerWAN() != nil } client := c.agent.client return client != nil && client.KeyManagerLAN() != nil } func (c *Command) Run(args []string) int { c.Ui = &cli.PrefixedUi{ OutputPrefix: "==> ", InfoPrefix: " ", ErrorPrefix: "==> ", Ui: c.Ui, } // Parse our configs c.args = args config := c.readConfig() if config == nil { return 1 } // Check GOMAXPROCS if runtime.GOMAXPROCS(0) == 1 { c.Ui.Error("WARNING: It is highly recommended to set GOMAXPROCS higher than 1") } // Setup the log outputs logGate, logWriter, logOutput := c.setupLoggers(config) if logWriter == nil { return 1 } /* Setup telemetry Aggregate on 10 second intervals for 1 minute. Expose the metrics over stderr when there is a SIGUSR1 received. */ inm := metrics.NewInmemSink(10*time.Second, time.Minute) metrics.DefaultInmemSignal(inm) metricsConf := metrics.DefaultConfig("consul") // Configure the statsite sink var fanout metrics.FanoutSink if config.StatsiteAddr != "" { sink, err := metrics.NewStatsiteSink(config.StatsiteAddr) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to start statsite sink. Got: %s", err)) return 1 } fanout = append(fanout, sink) } // Configure the statsd sink if config.StatsdAddr != "" { sink, err := metrics.NewStatsdSink(config.StatsdAddr) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to start statsd sink. Got: %s", err)) return 1 } fanout = append(fanout, sink) } // Initialize the global sink if len(fanout) > 0 { fanout = append(fanout, inm) metrics.NewGlobal(metricsConf, fanout) } else { metricsConf.EnableHostname = false metrics.NewGlobal(metricsConf, inm) } // Create the agent if err := c.setupAgent(config, logOutput, logWriter); err != nil { return 1 } defer c.agent.Shutdown() if c.rpcServer != nil { defer c.rpcServer.Shutdown() } for _, server := range c.httpServers { defer server.Shutdown() } // Join startup nodes if specified if err := c.startupJoin(config); err != nil { c.Ui.Error(err.Error()) return 1 } // Join startup nodes if specified if err := c.startupJoinWan(config); err != nil { c.Ui.Error(err.Error()) return 1 } // Get the new client http listener addr httpAddr, err := config.ClientListener(config.Addresses.HTTP, config.Ports.HTTP) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to determine HTTP address: %v", err)) } // Register the watches for _, wp := range config.WatchPlans { go func(wp *watch.WatchPlan) { wp.Handler = makeWatchHandler(logOutput, wp.Exempt["handler"]) wp.LogOutput = c.logOutput if err := wp.Run(httpAddr.String()); err != nil { c.Ui.Error(fmt.Sprintf("Error running watch: %v", err)) } }(wp) } // Figure out if gossip is encrypted var gossipEncrypted bool if config.Server { gossipEncrypted = c.agent.server.Encrypted() } else { gossipEncrypted = c.agent.client.Encrypted() } // Let the agent know we've finished registration c.agent.StartSync() c.Ui.Output("Consul agent running!") c.Ui.Info(fmt.Sprintf(" Node name: '%s'", config.NodeName)) c.Ui.Info(fmt.Sprintf(" Datacenter: '%s'", config.Datacenter)) c.Ui.Info(fmt.Sprintf(" Server: %v (bootstrap: %v)", config.Server, config.Bootstrap)) c.Ui.Info(fmt.Sprintf(" Client Addr: %v (HTTP: %d, HTTPS: %d, DNS: %d, RPC: %d)", config.ClientAddr, config.Ports.HTTP, config.Ports.HTTPS, config.Ports.DNS, config.Ports.RPC)) c.Ui.Info(fmt.Sprintf(" Cluster Addr: %v (LAN: %d, WAN: %d)", config.AdvertiseAddr, config.Ports.SerfLan, config.Ports.SerfWan)) c.Ui.Info(fmt.Sprintf("Gossip encrypt: %v, RPC-TLS: %v, TLS-Incoming: %v", gossipEncrypted, config.VerifyOutgoing, config.VerifyIncoming)) // Enable log streaming c.Ui.Info("") c.Ui.Output("Log data will now stream in as it occurs:\n") logGate.Flush() // Start retry join process errCh := make(chan struct{}) go c.retryJoin(config, errCh) // Start retry -wan join process errWanCh := make(chan struct{}) go c.retryJoinWan(config, errWanCh) // Wait for exit return c.handleSignals(config, errCh, errWanCh) } // handleSignals blocks until we get an exit-causing signal func (c *Command) handleSignals(config *Config, retryJoin <-chan struct{}, retryJoinWan <-chan struct{}) int { signalCh := make(chan os.Signal, 4) signal.Notify(signalCh, os.Interrupt, syscall.SIGTERM, syscall.SIGHUP) // Wait for a signal WAIT: var sig os.Signal select { case s := <-signalCh: sig = s case <-c.rpcServer.ReloadCh(): sig = syscall.SIGHUP case <-c.ShutdownCh: sig = os.Interrupt case <-retryJoin: return 1 case <-retryJoinWan: return 1 case <-c.agent.ShutdownCh(): // Agent is already shutdown! return 0 } c.Ui.Output(fmt.Sprintf("Caught signal: %v", sig)) // Check if this is a SIGHUP if sig == syscall.SIGHUP { config = c.handleReload(config) goto WAIT } // Check if we should do a graceful leave graceful := false if sig == os.Interrupt && !config.SkipLeaveOnInt { graceful = true } else if sig == syscall.SIGTERM && config.LeaveOnTerm { graceful = true } // Bail fast if not doing a graceful leave if !graceful { return 1 } // Attempt a graceful leave gracefulCh := make(chan struct{}) c.Ui.Output("Gracefully shutting down agent...") go func() { if err := c.agent.Leave(); err != nil { c.Ui.Error(fmt.Sprintf("Error: %s", err)) return } close(gracefulCh) }() // Wait for leave or another signal select { case <-signalCh: return 1 case <-time.After(gracefulTimeout): return 1 case <-gracefulCh: return 0 } } // handleReload is invoked when we should reload our configs, e.g. SIGHUP func (c *Command) handleReload(config *Config) *Config { c.Ui.Output("Reloading configuration...") newConf := c.readConfig() if newConf == nil { c.Ui.Error(fmt.Sprintf("Failed to reload configs")) return config } // Change the log level minLevel := logutils.LogLevel(strings.ToUpper(newConf.LogLevel)) if ValidateLevelFilter(minLevel, c.logFilter) { c.logFilter.SetMinLevel(minLevel) } else { c.Ui.Error(fmt.Sprintf( "Invalid log level: %s. Valid log levels are: %v", minLevel, c.logFilter.Levels)) // Keep the current log level newConf.LogLevel = config.LogLevel } // Bulk update the services and checks c.agent.PauseSync() defer c.agent.ResumeSync() // First unload all checks and services. This lets us begin the reload // with a clean slate. if err := c.agent.unloadServices(); err != nil { c.Ui.Error(fmt.Sprintf("Failed unloading services: %s", err)) return nil } if err := c.agent.unloadChecks(); err != nil { c.Ui.Error(fmt.Sprintf("Failed unloading checks: %s", err)) return nil } // Reload services and check definitions. if err := c.agent.loadServices(newConf); err != nil { c.Ui.Error(fmt.Sprintf("Failed reloading services: %s", err)) return nil } if err := c.agent.loadChecks(newConf); err != nil { c.Ui.Error(fmt.Sprintf("Failed reloading checks: %s", err)) return nil } // Get the new client listener addr httpAddr, err := newConf.ClientListener(config.Addresses.HTTP, config.Ports.HTTP) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to determine HTTP address: %v", err)) } // Deregister the old watches for _, wp := range config.WatchPlans { wp.Stop() } // Register the new watches for _, wp := range newConf.WatchPlans { go func(wp *watch.WatchPlan) { wp.Handler = makeWatchHandler(c.logOutput, wp.Exempt["handler"]) wp.LogOutput = c.logOutput if err := wp.Run(httpAddr.String()); err != nil { c.Ui.Error(fmt.Sprintf("Error running watch: %v", err)) } }(wp) } return newConf } func (c *Command) Synopsis() string { return "Runs a Consul agent" } func (c *Command) Help() string { helpText := ` Usage: consul agent [options] Starts the Consul agent and runs until an interrupt is received. The agent represents a single node in a cluster. Options: -advertise=addr Sets the advertise address to use -bootstrap Sets server to bootstrap mode -bind=0.0.0.0 Sets the bind address for cluster communication -bootstrap-expect=0 Sets server to expect bootstrap mode. -client=127.0.0.1 Sets the address to bind for client access. This includes RPC, DNS, HTTP and HTTPS (if configured) -config-file=foo Path to a JSON file to read configuration from. This can be specified multiple times. -config-dir=foo Path to a directory to read configuration files from. This will read every file ending in ".json" as configuration in this directory in alphabetical order. -data-dir=path Path to a data directory to store agent state -dc=east-aws Datacenter of the agent -encrypt=key Provides the gossip encryption key -join=1.2.3.4 Address of an agent to join at start time. Can be specified multiple times. -join-wan=1.2.3.4 Address of an agent to join -wan at start time. Can be specified multiple times. -retry-join=1.2.3.4 Address of an agent to join at start time with retries enabled. Can be specified multiple times. -retry-interval=30s Time to wait between join attempts. -retry-max=0 Maximum number of join attempts. Defaults to 0, which will retry indefinitely. -retry-join-wan=1.2.3.4 Address of an agent to join -wan at start time with retries enabled. Can be specified multiple times. -retry-interval-wan=30s Time to wait between join -wan attempts. -retry-max-wan=0 Maximum number of join -wan attempts. Defaults to 0, which will retry indefinitely. -log-level=info Log level of the agent. -node=hostname Name of this node. Must be unique in the cluster -protocol=N Sets the protocol version. Defaults to latest. -rejoin Ignores a previous leave and attempts to rejoin the cluster. -server Switches agent to server mode. -syslog Enables logging to syslog -ui-dir=path Path to directory containing the Web UI resources -pid-file=path Path to file to store agent PID ` return strings.TrimSpace(helpText) }