package agent import ( "flag" "fmt" "io" "log" "os" "os/signal" "path/filepath" "reflect" "sort" "strconv" "strings" "syscall" "time" "github.com/armon/go-metrics" "github.com/armon/go-metrics/circonus" "github.com/armon/go-metrics/datadog" "github.com/hashicorp/consul/lib" "github.com/hashicorp/go-checkpoint" "github.com/hashicorp/go-syslog" "github.com/hashicorp/logutils" "github.com/hashicorp/nomad/helper/flag-helpers" "github.com/hashicorp/nomad/helper/gated-writer" "github.com/hashicorp/nomad/nomad/structs/config" "github.com/hashicorp/scada-client/scada" "github.com/mitchellh/cli" ) // gracefulTimeout controls how long we wait before forcefully terminating const gracefulTimeout = 5 * time.Second // Command is a Command implementation that runs a Nomad 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 agent *Agent httpServer *HTTPServer logFilter *logutils.LevelFilter logOutput io.Writer retryJoinErrCh chan struct{} scadaProvider *scada.Provider scadaHttp *HTTPServer } func (c *Command) readConfig() *Config { var dev bool var configPath []string var servers string var meta []string // Make a new, empty config. cmdConfig := &Config{ Atlas: &AtlasConfig{}, Client: &ClientConfig{}, Ports: &Ports{}, Server: &ServerConfig{}, Vault: &config.VaultConfig{}, } flags := flag.NewFlagSet("agent", flag.ContinueOnError) flags.Usage = func() { c.Ui.Error(c.Help()) } // Role options flags.BoolVar(&dev, "dev", false, "") flags.BoolVar(&cmdConfig.Server.Enabled, "server", false, "") flags.BoolVar(&cmdConfig.Client.Enabled, "client", false, "") // Server-only options flags.IntVar(&cmdConfig.Server.BootstrapExpect, "bootstrap-expect", 0, "") flags.BoolVar(&cmdConfig.Server.RejoinAfterLeave, "rejoin", false, "") flags.Var((*flaghelper.StringFlag)(&cmdConfig.Server.StartJoin), "join", "") flags.Var((*flaghelper.StringFlag)(&cmdConfig.Server.RetryJoin), "retry-join", "") flags.IntVar(&cmdConfig.Server.RetryMaxAttempts, "retry-max", 0, "") flags.StringVar(&cmdConfig.Server.RetryInterval, "retry-interval", "", "") flags.StringVar(&cmdConfig.Server.EncryptKey, "encrypt", "", "gossip encryption key") // Client-only options flags.StringVar(&cmdConfig.Client.StateDir, "state-dir", "", "") flags.StringVar(&cmdConfig.Client.AllocDir, "alloc-dir", "", "") flags.StringVar(&cmdConfig.Client.NodeClass, "node-class", "", "") flags.StringVar(&servers, "servers", "", "") flags.Var((*flaghelper.StringFlag)(&meta), "meta", "") flags.StringVar(&cmdConfig.Client.NetworkInterface, "network-interface", "", "") flags.IntVar(&cmdConfig.Client.NetworkSpeed, "network-speed", 0, "") // General options flags.Var((*flaghelper.StringFlag)(&configPath), "config", "config") flags.StringVar(&cmdConfig.BindAddr, "bind", "", "") flags.StringVar(&cmdConfig.Region, "region", "", "") flags.StringVar(&cmdConfig.DataDir, "data-dir", "", "") flags.StringVar(&cmdConfig.Datacenter, "dc", "", "") flags.StringVar(&cmdConfig.LogLevel, "log-level", "", "") flags.StringVar(&cmdConfig.NodeName, "node", "", "") // Atlas options flags.StringVar(&cmdConfig.Atlas.Infrastructure, "atlas", "", "") flags.BoolVar(&cmdConfig.Atlas.Join, "atlas-join", false, "") flags.StringVar(&cmdConfig.Atlas.Token, "atlas-token", "", "") // Vault options flags.Var((flaghelper.FuncBoolVar)(func(b bool) error { cmdConfig.Vault.Enabled = &b return nil }), "vault-enabled", "") flags.Var((flaghelper.FuncBoolVar)(func(b bool) error { cmdConfig.Vault.AllowUnauthenticated = &b return nil }), "vault-allow-unauthenticated", "") flags.StringVar(&cmdConfig.Vault.Token, "vault-token", "", "") flags.StringVar(&cmdConfig.Vault.Addr, "vault-address", "", "") flags.StringVar(&cmdConfig.Vault.TLSCaFile, "vault-ca-file", "", "") flags.StringVar(&cmdConfig.Vault.TLSCaPath, "vault-ca-path", "", "") flags.StringVar(&cmdConfig.Vault.TLSCertFile, "vault-cert-file", "", "") flags.StringVar(&cmdConfig.Vault.TLSKeyFile, "vault-key-file", "", "") flags.Var((flaghelper.FuncBoolVar)(func(b bool) error { cmdConfig.Vault.TLSSkipVerify = &b return nil }), "vault-tls-skip-verify", "") flags.StringVar(&cmdConfig.Vault.TLSServerName, "vault-tls-server-name", "", "") if err := flags.Parse(c.args); err != nil { return nil } // Split the servers. if servers != "" { cmdConfig.Client.Servers = strings.Split(servers, ",") } // Parse the meta flags. metaLength := len(meta) if metaLength != 0 { cmdConfig.Client.Meta = make(map[string]string, metaLength) for _, kv := range meta { parts := strings.SplitN(kv, "=", 2) if len(parts) != 2 { c.Ui.Error(fmt.Sprintf("Error parsing Client.Meta value: %v", kv)) return nil } cmdConfig.Client.Meta[parts[0]] = parts[1] } } // Load the configuration var config *Config if dev { config = DevConfig() } else { config = DefaultConfig() } for _, path := range configPath { current, err := LoadConfig(path) if err != nil { c.Ui.Error(fmt.Sprintf( "Error loading configuration from %s: %s", path, err)) return nil } // The user asked us to load some config here but we didn't find any, // so we'll complain but continue. if current == nil || reflect.DeepEqual(current, &Config{}) { c.Ui.Warn(fmt.Sprintf("No configuration loaded from %s", path)) } if config == nil { config = current } else { config = config.Merge(current) } } // Ensure the sub-structs at least exist if config.Atlas == nil { config.Atlas = &AtlasConfig{} } if config.Client == nil { config.Client = &ClientConfig{} } if config.Server == nil { config.Server = &ServerConfig{} } // Merge any CLI options over config file options config = config.Merge(cmdConfig) // Set the version info config.Revision = c.Revision config.Version = c.Version config.VersionPrerelease = c.VersionPrerelease // Normalize binds, ports, addresses, and advertise if err := config.normalizeAddrs(); err != nil { c.Ui.Error(err.Error()) return nil } // Check to see if we should read the Vault token from the environment if config.Vault.Token == "" { if token, ok := os.LookupEnv("VAULT_TOKEN"); ok { config.Vault.Token = token } } if dev { // Skip validation for dev mode return config } if config.Server.EncryptKey != "" { if _, err := config.Server.EncryptBytes(); err != nil { c.Ui.Error(fmt.Sprintf("Invalid encryption key: %s", err)) return nil } keyfile := filepath.Join(config.DataDir, serfKeyring) if _, err := os.Stat(keyfile); err == nil { c.Ui.Warn("WARNING: keyring exists but -encrypt given, using keyring") } } // Parse the RetryInterval. dur, err := time.ParseDuration(config.Server.RetryInterval) if err != nil { c.Ui.Error(fmt.Sprintf("Error parsing retry interval: %s", err)) return nil } config.Server.retryInterval = dur // Check that the server is running in at least one mode. if !(config.Server.Enabled || config.Client.Enabled) { c.Ui.Error("Must specify either server, client or dev mode for the agent.") return nil } // Verify the paths are absolute. dirs := map[string]string{ "data-dir": config.DataDir, "alloc-dir": config.Client.AllocDir, "state-dir": config.Client.StateDir, } for k, dir := range dirs { if dir == "" { continue } if !filepath.IsAbs(dir) { c.Ui.Error(fmt.Sprintf("%s must be given as an absolute path: got %v", k, dir)) return nil } } // Ensure that we have the directories we neet to run. if config.Server.Enabled && config.DataDir == "" { c.Ui.Error("Must specify data directory") return nil } // The config is valid if the top-level data-dir is set or if both // alloc-dir and state-dir are set. if config.Client.Enabled && config.DataDir == "" { if config.Client.AllocDir == "" || config.Client.StateDir == "" { c.Ui.Error("Must specify both the state and alloc dir if data-dir is omitted.") return nil } } // Check the bootstrap flags if config.Server.BootstrapExpect > 0 && !config.Server.Enabled { c.Ui.Error("Bootstrap requires server mode to be enabled") return nil } if config.Server.BootstrapExpect == 1 { c.Ui.Error("WARNING: Bootstrap mode enabled! Potentially unsafe operation.") } return config } // setupLoggers is used to setup the logGate, logWriter, and our logOutput func (c *Command) setupLoggers(config *Config) (*gatedwriter.Writer, *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{ 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, "nomad") 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 log.SetOutput(logOutput) return logGate, logWriter, logOutput } // setupAgent is used to start the agent and various interfaces func (c *Command) setupAgent(config *Config, logOutput io.Writer) error { c.Ui.Output("Starting Nomad agent...") agent, err := NewAgent(config, logOutput) if err != nil { c.Ui.Error(fmt.Sprintf("Error starting agent: %s", err)) return err } c.agent = agent // Enable the SCADA integration if err := c.setupSCADA(config); err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting SCADA: %s", err)) return err } // Setup the HTTP server http, err := NewHTTPServer(agent, config, logOutput) if err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting http server: %s", err)) return err } c.httpServer = http // Setup update checking if !config.DisableUpdateCheck { version := config.Version if config.VersionPrerelease != "" { version += fmt.Sprintf("-%s", config.VersionPrerelease) } updateParams := &checkpoint.CheckParams{ Product: "nomad", Version: version, } 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(lib.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 { versionStr := c.Version if c.VersionPrerelease != "" { versionStr += fmt.Sprintf("-%s", c.VersionPrerelease) } c.Ui.Error(fmt.Sprintf("Newer Nomad version available: %s (currently running: %s)", results.CurrentVersion, versionStr)) } 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)) } } } 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 } // Setup the log outputs logGate, _, logOutput := c.setupLoggers(config) if logGate == nil { return 1 } // Log config files if len(config.Files) > 0 { c.Ui.Info(fmt.Sprintf("Loaded configuration from %s", strings.Join(config.Files, ", "))) } else { c.Ui.Info("No configuration files loaded") } // Initialize the telemetry if err := c.setupTelemetry(config); err != nil { c.Ui.Error(fmt.Sprintf("Error initializing telemetry: %s", err)) return 1 } // Create the agent if err := c.setupAgent(config, logOutput); err != nil { return 1 } defer c.agent.Shutdown() // Check and shut down the SCADA listeners at the end defer func() { if c.httpServer != nil { c.httpServer.Shutdown() } if c.scadaHttp != nil { c.scadaHttp.Shutdown() } if c.scadaProvider != nil { c.scadaProvider.Shutdown() } }() // Join startup nodes if specified if err := c.startupJoin(config); err != nil { c.Ui.Error(err.Error()) return 1 } // Compile agent information for output later info := make(map[string]string) info["version"] = fmt.Sprintf("%s%s", config.Version, config.VersionPrerelease) info["client"] = strconv.FormatBool(config.Client.Enabled) info["log level"] = config.LogLevel info["server"] = strconv.FormatBool(config.Server.Enabled) info["region"] = fmt.Sprintf("%s (DC: %s)", config.Region, config.Datacenter) if config.Atlas != nil && config.Atlas.Infrastructure != "" { info["atlas"] = fmt.Sprintf("(Infrastructure: '%s' Join: %v)", config.Atlas.Infrastructure, config.Atlas.Join) } else { info["atlas"] = "" } // Sort the keys for output infoKeys := make([]string, 0, len(info)) for key := range info { infoKeys = append(infoKeys, key) } sort.Strings(infoKeys) // Agent configuration output padding := 18 c.Ui.Output("Nomad agent configuration:\n") for _, k := range infoKeys { c.Ui.Info(fmt.Sprintf( "%s%s: %s", strings.Repeat(" ", padding-len(k)), strings.Title(k), info[k])) } c.Ui.Output("") // Output the header that the server has started c.Ui.Output("Nomad agent started! Log data will stream in below:\n") // Enable log streaming logGate.Flush() // Start retry join process c.retryJoinErrCh = make(chan struct{}) go c.retryJoin(config) // Wait for exit return c.handleSignals(config) } // handleSignals blocks until we get an exit-causing signal func (c *Command) handleSignals(config *Config) int { signalCh := make(chan os.Signal, 4) signal.Notify(signalCh, os.Interrupt, syscall.SIGTERM, syscall.SIGHUP, syscall.SIGPIPE) // Wait for a signal WAIT: var sig os.Signal select { case s := <-signalCh: sig = s case <-c.ShutdownCh: sig = os.Interrupt case <-c.retryJoinErrCh: return 1 } c.Ui.Output(fmt.Sprintf("Caught signal: %v", sig)) // Skip any SIGPIPE signal (See issue #1798) if sig == syscall.SIGPIPE { goto WAIT } // Check if this is a SIGHUP if sig == syscall.SIGHUP { if conf := c.handleReload(config); conf != nil { *config = *conf } goto WAIT } // Check if we should do a graceful leave graceful := false if sig == os.Interrupt && config.LeaveOnInt { 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 } return newConf } // setupTelemetry is used ot setup the telemetry sub-systems func (c *Command) setupTelemetry(config *Config) error { /* 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) var telConfig *Telemetry if config.Telemetry == nil { telConfig = &Telemetry{} } else { telConfig = config.Telemetry } metricsConf := metrics.DefaultConfig("nomad") metricsConf.EnableHostname = !telConfig.DisableHostname // Configure the statsite sink var fanout metrics.FanoutSink if telConfig.StatsiteAddr != "" { sink, err := metrics.NewStatsiteSink(telConfig.StatsiteAddr) if err != nil { return err } fanout = append(fanout, sink) } // Configure the statsd sink if telConfig.StatsdAddr != "" { sink, err := metrics.NewStatsdSink(telConfig.StatsdAddr) if err != nil { return err } fanout = append(fanout, sink) } // Configure the datadog sink if telConfig.DataDogAddr != "" { sink, err := datadog.NewDogStatsdSink(telConfig.DataDogAddr, config.NodeName) if err != nil { return err } fanout = append(fanout, sink) } // Configure the Circonus sink if telConfig.CirconusAPIToken != "" || telConfig.CirconusCheckSubmissionURL != "" { cfg := &circonus.Config{} cfg.Interval = telConfig.CirconusSubmissionInterval cfg.CheckManager.API.TokenKey = telConfig.CirconusAPIToken cfg.CheckManager.API.TokenApp = telConfig.CirconusAPIApp cfg.CheckManager.API.URL = telConfig.CirconusAPIURL cfg.CheckManager.Check.SubmissionURL = telConfig.CirconusCheckSubmissionURL cfg.CheckManager.Check.ID = telConfig.CirconusCheckID cfg.CheckManager.Check.ForceMetricActivation = telConfig.CirconusCheckForceMetricActivation cfg.CheckManager.Check.InstanceID = telConfig.CirconusCheckInstanceID cfg.CheckManager.Check.SearchTag = telConfig.CirconusCheckSearchTag cfg.CheckManager.Check.Tags = telConfig.CirconusCheckTags cfg.CheckManager.Check.DisplayName = telConfig.CirconusCheckDisplayName cfg.CheckManager.Broker.ID = telConfig.CirconusBrokerID cfg.CheckManager.Broker.SelectTag = telConfig.CirconusBrokerSelectTag if cfg.CheckManager.API.TokenApp == "" { cfg.CheckManager.API.TokenApp = "nomad" } if cfg.CheckManager.Check.SearchTag == "" { cfg.CheckManager.Check.SearchTag = "service:nomad" } sink, err := circonus.NewCirconusSink(cfg) if err != nil { return err } sink.Start() 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) } return nil } // setupSCADA is used to start a new SCADA provider and listener, // replacing any existing listeners. func (c *Command) setupSCADA(config *Config) error { // Shut down existing SCADA listeners if c.scadaProvider != nil { c.scadaProvider.Shutdown() } if c.scadaHttp != nil { c.scadaHttp.Shutdown() } // No-op if we don't have an infrastructure if config.Atlas == nil || config.Atlas.Infrastructure == "" { return nil } // Create the new provider and listener c.Ui.Output("Connecting to Atlas: " + config.Atlas.Infrastructure) scadaConfig := &scada.Config{ Service: "nomad", Version: fmt.Sprintf("%s%s", config.Version, config.VersionPrerelease), ResourceType: "nomad-cluster", Meta: map[string]string{ "auto-join": strconv.FormatBool(config.Atlas.Join), "region": config.Region, "datacenter": config.Datacenter, "client": strconv.FormatBool(config.Client != nil && config.Client.Enabled), "server": strconv.FormatBool(config.Server != nil && config.Server.Enabled), }, Atlas: scada.AtlasConfig{ Endpoint: config.Atlas.Endpoint, Infrastructure: config.Atlas.Infrastructure, Token: config.Atlas.Token, }, } provider, list, err := scada.NewHTTPProvider(scadaConfig, c.logOutput) if err != nil { return err } c.scadaProvider = provider c.scadaHttp = newScadaHttp(c.agent, list) return nil } func (c *Command) startupJoin(config *Config) error { if len(config.Server.StartJoin) == 0 || !config.Server.Enabled { return nil } c.Ui.Output("Joining cluster...") n, err := c.agent.server.Join(config.Server.StartJoin) if err != nil { return err } c.Ui.Info(fmt.Sprintf("Join 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) { if len(config.Server.RetryJoin) == 0 || !config.Server.Enabled { return } logger := c.agent.logger logger.Printf("[INFO] agent: Joining cluster...") attempt := 0 for { n, err := c.agent.server.Join(config.Server.RetryJoin) if err == nil { logger.Printf("[INFO] agent: Join completed. Synced with %d initial agents", n) return } attempt++ if config.Server.RetryMaxAttempts > 0 && attempt > config.Server.RetryMaxAttempts { logger.Printf("[ERR] agent: max join retry exhausted, exiting") close(c.retryJoinErrCh) return } logger.Printf("[WARN] agent: Join failed: %v, retrying in %v", err, config.Server.RetryInterval) time.Sleep(config.Server.retryInterval) } } func (c *Command) Synopsis() string { return "Runs a Nomad agent" } func (c *Command) Help() string { helpText := ` Usage: nomad agent [options] Starts the Nomad agent and runs until an interrupt is received. The agent may be a client and/or server. The Nomad agent's configuration primarily comes from the config files used, but a subset of the options may also be passed directly as CLI arguments, listed below. General Options (clients and servers): -bind= The address the agent will bind to for all of its various network services. The individual services that run bind to individual ports on this address. Defaults to the loopback 127.0.0.1. -config= The path to either a single config file or a directory of config files to use for configuring the Nomad agent. This option may be specified multiple times. If multiple config files are used, the values from each will be merged together. During merging, values from files found later in the list are merged over values from previously parsed files. -data-dir= The data directory used to store state and other persistent data. On client machines this is used to house allocation data such as downloaded artifacts used by drivers. On server nodes, the data dir is also used to store the replicated log. -dc= The name of the datacenter this Nomad agent is a member of. By default this is set to "dc1". -log-level= Specify the verbosity level of Nomad's logs. Valid values include DEBUG, INFO, and WARN, in decreasing order of verbosity. The default is INFO. -node= The name of the local agent. This name is used to identify the node in the cluster. The name must be unique per region. The default is the current hostname of the machine. -region= Name of the region the Nomad agent will be a member of. By default this value is set to "global". -dev Start the agent in development mode. This enables a pre-configured dual-role agent (client + server) which is useful for developing or testing Nomad. No other configuration is required to start the agent in this mode. Server Options: -server Enable server mode for the agent. Agents in server mode are clustered together and handle the additional responsibility of leader election, data replication, and scheduling work onto eligible client nodes. -bootstrap-expect= Configures the expected number of servers nodes to wait for before bootstrapping the cluster. Once servers have joined eachother, Nomad initiates the bootstrap process. -encrypt= Provides the gossip encryption key -join=
Address of an agent to join at start time. Can be specified multiple times. -retry-join=
Address of an agent to join at start time with retries enabled. Can be specified multiple times. -retry-max= Maximum number of join attempts. Defaults to 0, which will retry indefinitely. -retry-interval= Time to wait between join attempts. -rejoin Ignore a previous leave and attempts to rejoin the cluster. Client Options: -client Enable client mode for the agent. Client mode enables a given node to be evaluated for allocations. If client mode is not enabled, no work will be scheduled to the agent. -state-dir The directory used to store state and other persistent data. If not specified a subdirectory under the "-data-dir" will be used. -alloc-dir The directory used to store allocation data such as downloaded artificats as well as data produced by tasks. If not specified, a subdirectory under the "-data-dir" will be used. -servers A list of known server addresses to connect to given as "host:port" and delimited by commas. -node-class Mark this node as a member of a node-class. This can be used to label similar node types. -meta User specified metadata to associated with the node. Each instance of -meta parses a single KEY=VALUE pair. Repeat the meta flag for each key/value pair to be added. -network-interface Forces the network fingerprinter to use the specified network interface. -network-speed The default speed for network interfaces in MBits if the link speed can not be determined dynamically. Vault Options: -vault-enabled Whether to enable or disable Vault integration. -vault-address= The address to communicate with Vault. This should be provided with the http:// or https:// prefix. -vault-token= The Vault token used to derive tokens from Vault on behalf of clients. This only needs to be set on Servers. Overrides the Vault token read from the VAULT_TOKEN environment variable. -vault-allow-unauthenticated Whether to allow jobs to be sumbitted that request Vault Tokens but do not authentication. The flag only applies to Servers. -vault-ca-file= The path to a PEM-encoded CA cert file to use to verify the Vault server SSL certificate. -vault-ca-path= The path to a directory of PEM-encoded CA cert files to verify the Vault server certificate. -vault-cert-file= The path to the certificate for Vault communication. -vault-key-file= The path to the private key for Vault communication. -vault-tls-skip-verify= Enables or disables SSL certificate verification. -vault-tls-server-name= Used to set the SNI host when connecting over TLS. Atlas Options: -atlas= The Atlas infrastructure name to configure. This enables the SCADA client and attempts to connect Nomad to the HashiCorp Atlas service using the provided infrastructure name and token. -atlas-token= The Atlas token to use when connecting to the HashiCorp Atlas service. This must be provided to successfully connect your Nomad agent to Atlas. -atlas-join Enable the Atlas join feature. This mode allows agents to discover eachother automatically using the SCADA integration features. ` return strings.TrimSpace(helpText) }