package agent import ( "context" "fmt" "io" "io/ioutil" "log" "net" "net/http" "os" "os/signal" "path/filepath" "regexp" "strconv" "strings" "syscall" "time" "github.com/armon/go-metrics" "github.com/armon/go-metrics/circonus" "github.com/armon/go-metrics/datadog" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/credentials" "github.com/aws/aws-sdk-go/aws/defaults" "github.com/aws/aws-sdk-go/aws/ec2metadata" "github.com/aws/aws-sdk-go/aws/session" "github.com/aws/aws-sdk-go/service/ec2" "github.com/hashicorp/consul/command/base" "github.com/hashicorp/consul/consul/structs" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/logger" "github.com/hashicorp/consul/watch" "github.com/hashicorp/go-checkpoint" multierror "github.com/hashicorp/go-multierror" "github.com/hashicorp/logutils" "github.com/hashicorp/scada-client/scada" "github.com/mitchellh/cli" "golang.org/x/oauth2" "golang.org/x/oauth2/google" compute "google.golang.org/api/compute/v1" ) // 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 { base.Command Revision string Version string VersionPrerelease string HumanVersion string ShutdownCh <-chan struct{} configReloadCh chan chan error args []string logFilter *logutils.LevelFilter logOutput io.Writer agent *Agent rpcServer *AgentRPC httpServers []*HTTPServer dnsServer *DNSServer scadaProvider *scada.Provider scadaHttp *HTTPServer } // 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 var dnsRecursors []string var dev bool var dcDeprecated string var nodeMeta []string f := c.Command.NewFlagSet(c) f.Var((*AppendSliceValue)(&configFiles), "config-file", "Path to a JSON file to read configuration from. This can be specified multiple times.") f.Var((*AppendSliceValue)(&configFiles), "config-dir", "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. This can be "+ "specified multiple times.") f.Var((*AppendSliceValue)(&dnsRecursors), "recursor", "Address of an upstream DNS server. Can be specified multiple times.") f.Var((*AppendSliceValue)(&nodeMeta), "node-meta", "An arbitrary metadata key/value pair for this node. Can be specified multiple times.") f.BoolVar(&dev, "dev", false, "Starts the agent in development mode.") f.StringVar(&cmdConfig.LogLevel, "log-level", "", "Log level of the agent.") f.StringVar(&cmdConfig.NodeName, "node", "", "Name of this node. Must be unique in the cluster.") f.StringVar((*string)(&cmdConfig.NodeID), "node-id", "", "A unique ID for this node across space and time. Defaults to a randomly-generated ID"+ " that persists in the data-dir.") f.StringVar(&dcDeprecated, "dc", "", "Datacenter of the agent (deprecated: use 'datacenter' instead).") f.StringVar(&cmdConfig.Datacenter, "datacenter", "", "Datacenter of the agent.") f.StringVar(&cmdConfig.DataDir, "data-dir", "", "Path to a data directory to store agent state.") f.BoolVar(&cmdConfig.EnableUi, "ui", false, "Enables the built-in static web UI server.") f.StringVar(&cmdConfig.UiDir, "ui-dir", "", "Path to directory containing the Web UI resources.") f.StringVar(&cmdConfig.PidFile, "pid-file", "", "Path to file to store agent PID.") f.StringVar(&cmdConfig.EncryptKey, "encrypt", "", "Provides the gossip encryption key.") f.BoolVar(&cmdConfig.Server, "server", false, "Switches agent to server mode.") f.BoolVar(&cmdConfig.Bootstrap, "bootstrap", false, "Sets server to bootstrap mode.") f.IntVar(&cmdConfig.BootstrapExpect, "bootstrap-expect", 0, "Sets server to expect bootstrap mode.") f.StringVar(&cmdConfig.Domain, "domain", "", "Domain to use for DNS interface.") f.StringVar(&cmdConfig.ClientAddr, "client", "", "Sets the address to bind for client access. This includes RPC, DNS, HTTP and HTTPS (if configured)") f.StringVar(&cmdConfig.BindAddr, "bind", "", "Sets the bind address for cluster communication.") f.StringVar(&cmdConfig.SerfWanBindAddr, "serf-wan-bind", "", "Address to bind Serf WAN listeners to.") f.StringVar(&cmdConfig.SerfLanBindAddr, "serf-lan-bind", "", "Address to bind Serf LAN listeners to.") f.IntVar(&cmdConfig.Ports.HTTP, "http-port", 0, "Sets the HTTP API port to listen on.") f.IntVar(&cmdConfig.Ports.DNS, "dns-port", 0, "DNS port to use") f.StringVar(&cmdConfig.AdvertiseAddr, "advertise", "", "Sets the advertise address to use.") f.StringVar(&cmdConfig.AdvertiseAddrWan, "advertise-wan", "", "Sets address to advertise on wan instead of advertise addr.") f.StringVar(&cmdConfig.AtlasInfrastructure, "atlas", "", "Sets the Atlas infrastructure name, enables SCADA.") f.StringVar(&cmdConfig.AtlasToken, "atlas-token", "", "Provides the Atlas API token.") f.BoolVar(&cmdConfig.AtlasJoin, "atlas-join", false, "Enables auto-joining the Atlas cluster.") f.StringVar(&cmdConfig.AtlasEndpoint, "atlas-endpoint", "", "The address of the endpoint for Atlas integration.") f.IntVar(&cmdConfig.Protocol, "protocol", -1, "Sets the protocol version. Defaults to latest.") f.BoolVar(&cmdConfig.EnableSyslog, "syslog", false, "Enables logging to syslog.") f.BoolVar(&cmdConfig.RejoinAfterLeave, "rejoin", false, "Ignores a previous leave and attempts to rejoin the cluster.") f.Var((*AppendSliceValue)(&cmdConfig.StartJoin), "join", "Address of an agent to join at start time. Can be specified multiple times.") f.Var((*AppendSliceValue)(&cmdConfig.StartJoinWan), "join-wan", "Address of an agent to join -wan at start time. Can be specified multiple times.") f.Var((*AppendSliceValue)(&cmdConfig.RetryJoin), "retry-join", "Address of an agent to join at start time with retries enabled. Can be specified multiple times.") f.IntVar(&cmdConfig.RetryMaxAttempts, "retry-max", 0, "Maximum number of join attempts. Defaults to 0, which will retry indefinitely.") f.StringVar(&retryInterval, "retry-interval", "", "Time to wait between join attempts.") f.StringVar(&cmdConfig.RetryJoinEC2.Region, "retry-join-ec2-region", "", "EC2 Region to discover servers in.") f.StringVar(&cmdConfig.RetryJoinEC2.TagKey, "retry-join-ec2-tag-key", "", "EC2 tag key to filter on for server discovery.") f.StringVar(&cmdConfig.RetryJoinEC2.TagValue, "retry-join-ec2-tag-value", "", "EC2 tag value to filter on for server discovery.") f.StringVar(&cmdConfig.RetryJoinGCE.ProjectName, "retry-join-gce-project-name", "", "Google Compute Engine project to discover servers in.") f.StringVar(&cmdConfig.RetryJoinGCE.ZonePattern, "retry-join-gce-zone-pattern", "", "Google Compute Engine region or zone to discover servers in (regex pattern).") f.StringVar(&cmdConfig.RetryJoinGCE.TagValue, "retry-join-gce-tag-value", "", "Google Compute Engine tag value to filter on for server discovery.") f.StringVar(&cmdConfig.RetryJoinGCE.CredentialsFile, "retry-join-gce-credentials-file", "", "Path to credentials JSON file to use with Google Compute Engine.") f.Var((*AppendSliceValue)(&cmdConfig.RetryJoinWan), "retry-join-wan", "Address of an agent to join -wan at start time with retries enabled. "+ "Can be specified multiple times.") f.IntVar(&cmdConfig.RetryMaxAttemptsWan, "retry-max-wan", 0, "Maximum number of join -wan attempts. Defaults to 0, which will retry indefinitely.") f.StringVar(&retryIntervalWan, "retry-interval-wan", "", "Time to wait between join -wan attempts.") if err := c.Command.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 } if len(nodeMeta) > 0 { cmdConfig.Meta = make(map[string]string) for _, entry := range nodeMeta { key, value := parseMetaPair(entry) cmdConfig.Meta[key] = value } } var config *Config if dev { config = DevConfig() } else { config = DefaultConfig() } if len(configFiles) > 0 { fileConfig, err := ReadConfigPaths(configFiles) if err != nil { c.Ui.Error(err.Error()) return nil } config = MergeConfig(config, fileConfig) } cmdConfig.DNSRecursors = append(cmdConfig.DNSRecursors, dnsRecursors...) config = MergeConfig(config, &cmdConfig) if config.NodeName == "" { hostname, err := os.Hostname() if err != nil { c.Ui.Error(fmt.Sprintf("Error determining node name: %s", err)) return nil } config.NodeName = hostname } config.NodeName = strings.TrimSpace(config.NodeName) if config.NodeName == "" { c.Ui.Error("Node name can not be empty") return nil } // Make sure LeaveOnTerm and SkipLeaveOnInt are set to the right // defaults based on the agent's mode (client or server). if config.LeaveOnTerm == nil { config.LeaveOnTerm = Bool(!config.Server) } if config.SkipLeaveOnInt == nil { config.SkipLeaveOnInt = Bool(config.Server) } // Ensure we have a data directory if we are not in dev mode. if !dev { if config.DataDir == "" { c.Ui.Error("Must specify data directory using -data-dir") return nil } if finfo, err := os.Stat(config.DataDir); err != nil { if !os.IsNotExist(err) { c.Ui.Error(fmt.Sprintf("Error getting data-dir: %s", err)) return nil } } else if !finfo.IsDir() { c.Ui.Error(fmt.Sprintf("The data-dir specified at %q is not a directory", config.DataDir)) return nil } } // Ensure all endpoints are unique if err := config.verifyUniqueListeners(); err != nil { c.Ui.Error(fmt.Sprintf("All listening endpoints must be unique: %s", err)) return nil } // Check the data dir for signs of an un-migrated Consul 0.5.x or older // server. Consul refuses to start if this is present to protect a server // with existing data from starting on a fresh data set. if config.Server { mdbPath := filepath.Join(config.DataDir, "mdb") if _, err := os.Stat(mdbPath); !os.IsNotExist(err) { if os.IsPermission(err) { c.Ui.Error(fmt.Sprintf("CRITICAL: Permission denied for data folder at %q!", mdbPath)) c.Ui.Error("Consul will refuse to boot without access to this directory.") c.Ui.Error("Please correct permissions and try starting again.") return nil } c.Ui.Error(fmt.Sprintf("CRITICAL: Deprecated data folder found at %q!", mdbPath)) c.Ui.Error("Consul will refuse to boot with this directory present.") c.Ui.Error("See https://www.consul.io/docs/upgrade-specific.html for more information.") return nil } } // Verify DNS settings if config.DNSConfig.UDPAnswerLimit < 1 { c.Ui.Error(fmt.Sprintf("dns_config.udp_answer_limit %d too low, must always be greater than zero", config.DNSConfig.UDPAnswerLimit)) } 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, using keyring") } 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, using keyring") } } } // Output a warning if the 'dc' flag has been used. if dcDeprecated != "" { c.Ui.Error("WARNING: the 'dc' flag has been deprecated. Use 'datacenter' instead") // Making sure that we don't break previous versions. config.Datacenter = dcDeprecated } // Ensure the datacenter is always lowercased. The DNS endpoints automatically // lowercase all queries, and internally we expect DC1 and dc1 to be the same. config.Datacenter = strings.ToLower(config.Datacenter) // Verify datacenter is valid if !validDatacenter.MatchString(config.Datacenter) { c.Ui.Error("Datacenter must be alpha-numeric with underscores and hypens only") return nil } // If 'acl_datacenter' is set, ensure it is lowercased. if config.ACLDatacenter != "" { config.ACLDatacenter = strings.ToLower(config.ACLDatacenter) // Verify 'acl_datacenter' is valid if !validDatacenter.MatchString(config.ACLDatacenter) { c.Ui.Error("ACL 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 can only work when dev mode is off if config.BootstrapExpect > 0 && config.DevMode { c.Ui.Error("Expect mode cannot be enabled when dev mode is 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") } // Need both tag key and value for EC2 discovery if config.RetryJoinEC2.TagKey != "" || config.RetryJoinEC2.TagValue != "" { if config.RetryJoinEC2.TagKey == "" || config.RetryJoinEC2.TagValue == "" { c.Ui.Error("tag key and value are both required for EC2 retry-join") return nil } } // EC2 and GCE discovery are mutually exclusive if config.RetryJoinEC2.TagKey != "" && config.RetryJoinEC2.TagValue != "" && config.RetryJoinGCE.TagValue != "" { c.Ui.Error("EC2 and GCE discovery are mutually exclusive. Please provide one or the other.") return nil } // Verify the node metadata entries are valid if err := structs.ValidateMetadata(config.Meta); err != nil { c.Ui.Error(fmt.Sprintf("Failed to parse node metadata: %v", err)) return nil } // Set the version info config.Revision = c.Revision config.Version = c.Version config.VersionPrerelease = c.VersionPrerelease return config } // verifyUniqueListeners checks to see if an address was used more than once in // the config func (config *Config) verifyUniqueListeners() error { listeners := []struct { host string port int descr string }{ {config.Addresses.RPC, config.Ports.RPC, "RPC"}, {config.Addresses.DNS, config.Ports.DNS, "DNS"}, {config.Addresses.HTTP, config.Ports.HTTP, "HTTP"}, {config.Addresses.HTTPS, config.Ports.HTTPS, "HTTPS"}, {config.AdvertiseAddr, config.Ports.Server, "Server RPC"}, {config.AdvertiseAddr, config.Ports.SerfLan, "Serf LAN"}, {config.AdvertiseAddr, config.Ports.SerfWan, "Serf WAN"}, } type key struct { host string port int } m := make(map[key]string, len(listeners)) for _, l := range listeners { if l.host == "" { l.host = "0.0.0.0" } else if strings.HasPrefix(l.host, "unix") { // Don't compare ports on unix sockets l.port = 0 } if l.host == "0.0.0.0" && l.port <= 0 { continue } k := key{l.host, l.port} v, ok := m[k] if ok { return fmt.Errorf("%s address already configured for %s", l.descr, v) } m[k] = l.descr } return nil } // discoverEc2Hosts searches an AWS region, returning a list of instance ips // where EC2TagKey = EC2TagValue func (c *Config) discoverEc2Hosts(logger *log.Logger) ([]string, error) { config := c.RetryJoinEC2 ec2meta := ec2metadata.New(session.New()) if config.Region == "" { logger.Printf("[INFO] agent: No EC2 region provided, querying instance metadata endpoint...") identity, err := ec2meta.GetInstanceIdentityDocument() if err != nil { return nil, err } config.Region = identity.Region } awsConfig := &aws.Config{ Region: &config.Region, Credentials: credentials.NewChainCredentials( []credentials.Provider{ &credentials.StaticProvider{ Value: credentials.Value{ AccessKeyID: config.AccessKeyID, SecretAccessKey: config.SecretAccessKey, }, }, &credentials.EnvProvider{}, &credentials.SharedCredentialsProvider{}, defaults.RemoteCredProvider(*(defaults.Config()), defaults.Handlers()), }), } svc := ec2.New(session.New(), awsConfig) resp, err := svc.DescribeInstances(&ec2.DescribeInstancesInput{ Filters: []*ec2.Filter{ { Name: aws.String("tag:" + config.TagKey), Values: []*string{ aws.String(config.TagValue), }, }, }, }) if err != nil { return nil, err } var servers []string for i := range resp.Reservations { for _, instance := range resp.Reservations[i].Instances { // Terminated instances don't have the PrivateIpAddress field if instance.PrivateIpAddress != nil { servers = append(servers, *instance.PrivateIpAddress) } } } return servers, nil } // discoverGCEHosts searches a Google Compute Engine region, returning a list // of instance ips that match the tags given in GCETags. func (c *Config) discoverGCEHosts(logger *log.Logger) ([]string, error) { config := c.RetryJoinGCE ctx := oauth2.NoContext var client *http.Client var err error logger.Printf("[INFO] agent: Initializing GCE client") if config.CredentialsFile != "" { logger.Printf("[INFO] agent: Loading credentials from %s", config.CredentialsFile) key, err := ioutil.ReadFile(config.CredentialsFile) if err != nil { return nil, err } jwtConfig, err := google.JWTConfigFromJSON(key, compute.ComputeScope) if err != nil { return nil, err } client = jwtConfig.Client(ctx) } else { logger.Printf("[INFO] agent: Using default credential chain") client, err = google.DefaultClient(ctx, compute.ComputeScope) if err != nil { return nil, err } } computeService, err := compute.New(client) if err != nil { return nil, err } if config.ProjectName == "" { logger.Printf("[INFO] agent: No GCE project provided, will discover from metadata.") config.ProjectName, err = gceProjectIDFromMetadata(logger) if err != nil { return nil, err } } else { logger.Printf("[INFO] agent: Using pre-defined GCE project name: %s", config.ProjectName) } zones, err := gceDiscoverZones(logger, ctx, computeService, config.ProjectName, config.ZonePattern) if err != nil { return nil, err } logger.Printf("[INFO] agent: Discovering GCE hosts with tag %s in zones: %s", config.TagValue, strings.Join(zones, ", ")) var servers []string for _, zone := range zones { addresses, err := gceInstancesAddressesForZone(logger, ctx, computeService, config.ProjectName, zone, config.TagValue) if err != nil { return nil, err } if len(addresses) > 0 { logger.Printf("[INFO] agent: Discovered %d instances in %s/%s: %v", len(addresses), config.ProjectName, zone, addresses) } servers = append(servers, addresses...) } return servers, nil } // gceProjectIDFromMetadata queries the metadata service on GCE to get the // project ID (name) of an instance. func gceProjectIDFromMetadata(logger *log.Logger) (string, error) { logger.Printf("[INFO] agent: Attempting to discover GCE project from metadata.") client := &http.Client{} req, err := http.NewRequest("GET", "http://metadata.google.internal/computeMetadata/v1/project/project-id", nil) if err != nil { return "", err } req.Header.Add("Metadata-Flavor", "Google") resp, err := client.Do(req) if err != nil { return "", err } defer resp.Body.Close() project, err := ioutil.ReadAll(resp.Body) if err != nil { return "", err } logger.Printf("[INFO] agent: GCE project discovered as: %s", project) return string(project), nil } // gceDiscoverZones discovers a list of zones from a supplied zone pattern, or // all of the zones available to a project. func gceDiscoverZones(logger *log.Logger, ctx context.Context, computeService *compute.Service, project, pattern string) ([]string, error) { var zones []string if pattern != "" { logger.Printf("[INFO] agent: Discovering zones for project %s matching pattern: %s", project, pattern) } else { logger.Printf("[INFO] agent: Discovering all zones available to project: %s", project) } call := computeService.Zones.List(project) if pattern != "" { call = call.Filter(fmt.Sprintf("name eq %s", pattern)) } if err := call.Pages(ctx, func(page *compute.ZoneList) error { for _, v := range page.Items { zones = append(zones, v.Name) } return nil }); err != nil { return zones, err } logger.Printf("[INFO] agent: Discovered GCE zones: %s", strings.Join(zones, ", ")) return zones, nil } // gceInstancesAddressesForZone locates all instances within a specific project // and zone, matching the supplied tag. Only the private IP addresses are // returned, but ID is also logged. func gceInstancesAddressesForZone(logger *log.Logger, ctx context.Context, computeService *compute.Service, project, zone, tag string) ([]string, error) { var addresses []string call := computeService.Instances.List(project, zone) if err := call.Pages(ctx, func(page *compute.InstanceList) error { for _, v := range page.Items { for _, t := range v.Tags.Items { if t == tag && len(v.NetworkInterfaces) > 0 && v.NetworkInterfaces[0].NetworkIP != "" { addresses = append(addresses, v.NetworkInterfaces[0].NetworkIP) } } } return nil }); err != nil { return addresses, err } return addresses, nil } // setupAgent is used to start the agent and various interfaces func (c *Command) setupAgent(config *Config, logOutput io.Writer, logWriter *logger.LogWriter) error { c.Ui.Output("Starting Consul agent...") agent, err := Create(config, logOutput, logWriter, c.configReloadCh) 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 } // Clear the domain socket file if it exists socketPath, isSocket := unixSocketAddr(config.Addresses.RPC) if isSocket { if _, err := os.Stat(socketPath); !os.IsNotExist(err) { agent.logger.Printf("[WARN] agent: Replacing socket %q", socketPath) } if err := os.Remove(socketPath); err != nil && !os.IsNotExist(err) { c.Ui.Output(fmt.Sprintf("Error removing socket file: %s", err)) return err } } 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 } // Set up ownership/permission bits on the socket file if isSocket { if err := setFilePermissions(socketPath, config.UnixSockets); err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error setting up socket: %s", err)) return err } } // Start the IPC layer c.Ui.Output("Starting Consul agent RPC...") c.rpcServer = NewAgentRPC(agent, rpcListener, logOutput, logWriter) // Enable the SCADA integration if err := c.setupScadaConn(config); err != nil { agent.Shutdown() c.Ui.Error(fmt.Sprintf("Error starting SCADA connection: %s", err)) return err } 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 { version := config.Version if config.VersionPrerelease != "" { version += fmt.Sprintf("-%s", config.VersionPrerelease) } updateParams := &checkpoint.CheckParams{ Product: "consul", 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 { c.Ui.Error(fmt.Sprintf("Newer Consul version available: %s (currently running: %s)", results.CurrentVersion, c.Version)) } 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{}) { ec2Enabled := config.RetryJoinEC2.TagKey != "" && config.RetryJoinEC2.TagValue != "" if len(config.RetryJoin) == 0 && !ec2Enabled && config.RetryJoinGCE.TagValue == "" { return } logger := c.agent.logger logger.Printf("[INFO] agent: Joining cluster...") attempt := 0 for { var servers []string var err error switch { case ec2Enabled: servers, err = config.discoverEc2Hosts(logger) if err != nil { logger.Printf("[ERROR] agent: Unable to query EC2 instances: %s", err) } logger.Printf("[INFO] agent: Discovered %d servers from EC2", len(servers)) case config.RetryJoinGCE.TagValue != "": servers, err = config.discoverGCEHosts(logger) if err != nil { logger.Printf("[ERROR] agent: Unable to query GCE insances: %s", err) } logger.Printf("[INFO] agent: Discovered %d servers from GCE", len(servers)) } servers = append(servers, config.RetryJoin...) if len(servers) == 0 { err = fmt.Errorf("No servers to join") } else { n, err := c.agent.JoinLAN(servers) 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 } // Setup the log outputs logConfig := &logger.Config{ LogLevel: config.LogLevel, EnableSyslog: config.EnableSyslog, SyslogFacility: config.SyslogFacility, } logFilter, logGate, logWriter, logOutput, ok := logger.Setup(logConfig, c.Ui) if !ok { return 1 } c.logFilter = logFilter c.logOutput = logOutput // Setup the channel for triggering config reloads c.configReloadCh = make(chan chan 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) metricsConf := metrics.DefaultConfig(config.Telemetry.StatsitePrefix) metricsConf.EnableHostname = !config.Telemetry.DisableHostname // Configure the statsite sink var fanout metrics.FanoutSink if config.Telemetry.StatsiteAddr != "" { sink, err := metrics.NewStatsiteSink(config.Telemetry.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.Telemetry.StatsdAddr != "" { sink, err := metrics.NewStatsdSink(config.Telemetry.StatsdAddr) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to start statsd sink. Got: %s", err)) return 1 } fanout = append(fanout, sink) } // Configure the DogStatsd sink if config.Telemetry.DogStatsdAddr != "" { var tags []string if config.Telemetry.DogStatsdTags != nil { tags = config.Telemetry.DogStatsdTags } sink, err := datadog.NewDogStatsdSink(config.Telemetry.DogStatsdAddr, metricsConf.HostName) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to start DogStatsd sink. Got: %s", err)) return 1 } sink.SetTags(tags) fanout = append(fanout, sink) } if config.Telemetry.CirconusAPIToken != "" || config.Telemetry.CirconusCheckSubmissionURL != "" { cfg := &circonus.Config{} cfg.Interval = config.Telemetry.CirconusSubmissionInterval cfg.CheckManager.API.TokenKey = config.Telemetry.CirconusAPIToken cfg.CheckManager.API.TokenApp = config.Telemetry.CirconusAPIApp cfg.CheckManager.API.URL = config.Telemetry.CirconusAPIURL cfg.CheckManager.Check.SubmissionURL = config.Telemetry.CirconusCheckSubmissionURL cfg.CheckManager.Check.ID = config.Telemetry.CirconusCheckID cfg.CheckManager.Check.ForceMetricActivation = config.Telemetry.CirconusCheckForceMetricActivation cfg.CheckManager.Check.InstanceID = config.Telemetry.CirconusCheckInstanceID cfg.CheckManager.Check.SearchTag = config.Telemetry.CirconusCheckSearchTag cfg.CheckManager.Check.DisplayName = config.Telemetry.CirconusCheckDisplayName cfg.CheckManager.Check.Tags = config.Telemetry.CirconusCheckTags cfg.CheckManager.Broker.ID = config.Telemetry.CirconusBrokerID cfg.CheckManager.Broker.SelectTag = config.Telemetry.CirconusBrokerSelectTag if cfg.CheckManager.API.TokenApp == "" { cfg.CheckManager.API.TokenApp = "consul" } if cfg.CheckManager.Check.SearchTag == "" { cfg.CheckManager.Check.SearchTag = "service:consul" } sink, err := circonus.NewCirconusSink(cfg) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to start Circonus sink. Got: %s", err)) return 1 } 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) } // 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() } if c.dnsServer != nil { defer c.dnsServer.Shutdown() } for _, server := range c.httpServers { defer server.Shutdown() } // Check and shut down the SCADA listeners at the end defer func() { 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 } // 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 var httpAddr net.Addr var err error if config.Ports.HTTP != -1 { httpAddr, err = config.ClientListener(config.Addresses.HTTP, config.Ports.HTTP) } else if config.Ports.HTTPS != -1 { httpAddr, err = config.ClientListener(config.Addresses.HTTPS, config.Ports.HTTPS) } else if len(config.WatchPlans) > 0 { c.Ui.Error("Error: cannot use watches if both HTTP and HTTPS are disabled") return 1 } 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 addr := httpAddr.String() // If it's a unix socket, prefix with unix:// so the client initializes correctly if httpAddr.Network() == "unix" { addr = "unix://" + addr } if err := wp.Run(addr); 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() } // Determine the Atlas cluster atlas := "" if config.AtlasInfrastructure != "" { atlas = fmt.Sprintf("(Infrastructure: '%s' Join: %v)", config.AtlasInfrastructure, config.AtlasJoin) } // Let the agent know we've finished registration c.agent.StartSync() c.Ui.Output("Consul agent running!") c.Ui.Info(fmt.Sprintf(" Version: '%s'", c.HumanVersion)) c.Ui.Info(fmt.Sprintf(" Node ID: '%s'", config.NodeID)) 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)) c.Ui.Info(fmt.Sprintf(" Atlas: %s", atlas)) // 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) signal.Notify(signalCh, os.Interrupt, syscall.SIGTERM, syscall.SIGHUP, syscall.SIGPIPE) // Wait for a signal WAIT: var sig os.Signal var reloadErrCh chan error select { case s := <-signalCh: sig = s case <-c.rpcServer.ReloadCh(): sig = syscall.SIGHUP case ch := <-c.configReloadCh: sig = syscall.SIGHUP reloadErrCh = ch 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)) // Skip SIGPIPE signals if sig == syscall.SIGPIPE { goto WAIT } // Check if this is a SIGHUP if sig == syscall.SIGHUP { conf, err := c.handleReload(config) if conf != nil { config = conf } if err != nil { c.Ui.Error(err.Error()) } // Send result back if reload was called via HTTP if reloadErrCh != nil { reloadErrCh <- err } 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, error) { c.Ui.Output("Reloading configuration...") var errs error newConf := c.readConfig() if newConf == nil { errs = multierror.Append(errs, fmt.Errorf("Failed to reload configs")) return config, errs } // Change the log level minLevel := logutils.LogLevel(strings.ToUpper(newConf.LogLevel)) if logger.ValidateLevelFilter(minLevel, c.logFilter) { c.logFilter.SetMinLevel(minLevel) } else { errs = multierror.Append(fmt.Errorf( "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() // Snapshot the current state, and restore it afterwards snap := c.agent.snapshotCheckState() defer c.agent.restoreCheckState(snap) // First unload all checks, services, and metadata. This lets us begin the reload // with a clean slate. if err := c.agent.unloadServices(); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed unloading services: %s", err)) return nil, errs } if err := c.agent.unloadChecks(); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed unloading checks: %s", err)) return nil, errs } c.agent.unloadMetadata() // Reload service/check definitions and metadata. if err := c.agent.loadServices(newConf); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed reloading services: %s", err)) return nil, errs } if err := c.agent.loadChecks(newConf); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed reloading checks: %s", err)) return nil, errs } if err := c.agent.loadMetadata(newConf); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed reloading metadata: %s", err)) return nil, errs } // Get the new client listener addr httpAddr, err := newConf.ClientListener(config.Addresses.HTTP, config.Ports.HTTP) if err != nil { errs = multierror.Append(errs, fmt.Errorf("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 { errs = multierror.Append(errs, fmt.Errorf("Error running watch: %v", err)) } }(wp) } // Reload SCADA client if we have a change if newConf.AtlasInfrastructure != config.AtlasInfrastructure || newConf.AtlasToken != config.AtlasToken || newConf.AtlasEndpoint != config.AtlasEndpoint { if err := c.setupScadaConn(newConf); err != nil { errs = multierror.Append(errs, fmt.Errorf("Failed reloading SCADA client: %s", err)) return nil, errs } } return newConf, errs } // startScadaClient is used to start a new SCADA provider and listener, // replacing any existing listeners. func (c *Command) setupScadaConn(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.AtlasInfrastructure == "" { return nil } c.Ui.Error("WARNING: The hosted version of Consul Enterprise will be deprecated " + "on March 7th, 2017. For details, see " + "https://atlas.hashicorp.com/help/consul/alternatives") scadaConfig := &scada.Config{ Service: "consul", Version: fmt.Sprintf("%s%s", config.Version, config.VersionPrerelease), ResourceType: "infrastructures", Meta: map[string]string{ "auto-join": strconv.FormatBool(config.AtlasJoin), "datacenter": config.Datacenter, "server": strconv.FormatBool(config.Server), }, Atlas: scada.AtlasConfig{ Endpoint: config.AtlasEndpoint, Infrastructure: config.AtlasInfrastructure, Token: config.AtlasToken, }, } // Create the new provider and listener c.Ui.Output("Connecting to Atlas: " + config.AtlasInfrastructure) 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) 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. ` + c.Command.Help() return strings.TrimSpace(helpText) }