package agent import ( "fmt" "io" "io/ioutil" "log" "net" "os" "path/filepath" "runtime" "strings" "sync" "sync/atomic" "time" metrics "github.com/armon/go-metrics" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/lib" uuidparse "github.com/hashicorp/go-uuid" "github.com/hashicorp/nomad/client" clientconfig "github.com/hashicorp/nomad/client/config" "github.com/hashicorp/nomad/command/agent/consul" "github.com/hashicorp/nomad/helper/uuid" "github.com/hashicorp/nomad/nomad" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/nomad/structs/config" "github.com/hashicorp/raft" ) const ( agentHttpCheckInterval = 10 * time.Second agentHttpCheckTimeout = 5 * time.Second serverRpcCheckInterval = 10 * time.Second serverRpcCheckTimeout = 3 * time.Second serverSerfCheckInterval = 10 * time.Second serverSerfCheckTimeout = 3 * time.Second // roles used in identifying Consul entries for Nomad agents consulRoleServer = "server" consulRoleClient = "client" ) // Agent is a long running daemon that is used to run both // clients and servers. Servers are responsible for managing // state and making scheduling decisions. Clients can be // scheduled to, and are responsible for interfacing with // servers to run allocations. type Agent struct { config *Config configLock sync.Mutex logger *log.Logger logOutput io.Writer // consulService is Nomad's custom Consul client for managing services // and checks. consulService *consul.ServiceClient // consulCatalog is the subset of Consul's Catalog API Nomad uses. consulCatalog consul.CatalogAPI client *client.Client server *nomad.Server shutdown bool shutdownCh chan struct{} shutdownLock sync.Mutex InmemSink *metrics.InmemSink } // NewAgent is used to create a new agent with the given configuration func NewAgent(config *Config, logOutput io.Writer, inmem *metrics.InmemSink) (*Agent, error) { a := &Agent{ config: config, logger: log.New(logOutput, "", log.LstdFlags|log.Lmicroseconds), logOutput: logOutput, shutdownCh: make(chan struct{}), InmemSink: inmem, } if err := a.setupConsul(config.Consul); err != nil { return nil, fmt.Errorf("Failed to initialize Consul client: %v", err) } if err := a.setupServer(); err != nil { return nil, err } if err := a.setupClient(); err != nil { return nil, err } if a.client == nil && a.server == nil { return nil, fmt.Errorf("must have at least client or server mode enabled") } return a, nil } // convertServerConfig takes an agent config and log output and returns a Nomad // Config. func convertServerConfig(agentConfig *Config, logOutput io.Writer) (*nomad.Config, error) { conf := agentConfig.NomadConfig if conf == nil { conf = nomad.DefaultConfig() } conf.LogOutput = logOutput conf.DevMode = agentConfig.DevMode conf.Build = agentConfig.Version.VersionNumber() if agentConfig.Region != "" { conf.Region = agentConfig.Region } // Set the Authoritative Region if set, otherwise default to // the same as the local region. if agentConfig.Server.AuthoritativeRegion != "" { conf.AuthoritativeRegion = agentConfig.Server.AuthoritativeRegion } else if agentConfig.Region != "" { conf.AuthoritativeRegion = agentConfig.Region } if agentConfig.Datacenter != "" { conf.Datacenter = agentConfig.Datacenter } if agentConfig.NodeName != "" { conf.NodeName = agentConfig.NodeName } if agentConfig.Server.BootstrapExpect > 0 { if agentConfig.Server.BootstrapExpect == 1 { conf.Bootstrap = true } else { atomic.StoreInt32(&conf.BootstrapExpect, int32(agentConfig.Server.BootstrapExpect)) } } if agentConfig.DataDir != "" { conf.DataDir = filepath.Join(agentConfig.DataDir, "server") } if agentConfig.Server.DataDir != "" { conf.DataDir = agentConfig.Server.DataDir } if agentConfig.Server.ProtocolVersion != 0 { conf.ProtocolVersion = uint8(agentConfig.Server.ProtocolVersion) } if agentConfig.Server.RaftProtocol != 0 { conf.RaftConfig.ProtocolVersion = raft.ProtocolVersion(agentConfig.Server.RaftProtocol) } if agentConfig.Server.NumSchedulers != 0 { conf.NumSchedulers = agentConfig.Server.NumSchedulers } if len(agentConfig.Server.EnabledSchedulers) != 0 { // Convert to a set and require the core scheduler set := make(map[string]struct{}, 4) set[structs.JobTypeCore] = struct{}{} for _, sched := range agentConfig.Server.EnabledSchedulers { set[sched] = struct{}{} } schedulers := make([]string, 0, len(set)) for k := range set { schedulers = append(schedulers, k) } conf.EnabledSchedulers = schedulers } if agentConfig.ACL.Enabled { conf.ACLEnabled = true } if agentConfig.ACL.ReplicationToken != "" { conf.ReplicationToken = agentConfig.ACL.ReplicationToken } if agentConfig.Sentinel != nil { conf.SentinelConfig = agentConfig.Sentinel } if agentConfig.Server.NonVotingServer { conf.NonVoter = true } if agentConfig.Server.RedundancyZone != "" { conf.RedundancyZone = agentConfig.Server.RedundancyZone } if agentConfig.Server.UpgradeVersion != "" { conf.UpgradeVersion = agentConfig.Server.UpgradeVersion } if agentConfig.Autopilot != nil { if agentConfig.Autopilot.CleanupDeadServers != nil { conf.AutopilotConfig.CleanupDeadServers = *agentConfig.Autopilot.CleanupDeadServers } if agentConfig.Autopilot.ServerStabilizationTime != 0 { conf.AutopilotConfig.ServerStabilizationTime = agentConfig.Autopilot.ServerStabilizationTime } if agentConfig.Autopilot.LastContactThreshold != 0 { conf.AutopilotConfig.LastContactThreshold = agentConfig.Autopilot.LastContactThreshold } if agentConfig.Autopilot.MaxTrailingLogs != 0 { conf.AutopilotConfig.MaxTrailingLogs = uint64(agentConfig.Autopilot.MaxTrailingLogs) } if agentConfig.Autopilot.EnableRedundancyZones != nil { conf.AutopilotConfig.EnableRedundancyZones = *agentConfig.Autopilot.EnableRedundancyZones } if agentConfig.Autopilot.DisableUpgradeMigration != nil { conf.AutopilotConfig.DisableUpgradeMigration = *agentConfig.Autopilot.DisableUpgradeMigration } if agentConfig.Autopilot.EnableCustomUpgrades != nil { conf.AutopilotConfig.EnableCustomUpgrades = *agentConfig.Autopilot.EnableCustomUpgrades } } // Set up the bind addresses rpcAddr, err := net.ResolveTCPAddr("tcp", agentConfig.normalizedAddrs.RPC) if err != nil { return nil, fmt.Errorf("Failed to parse RPC address %q: %v", agentConfig.normalizedAddrs.RPC, err) } serfAddr, err := net.ResolveTCPAddr("tcp", agentConfig.normalizedAddrs.Serf) if err != nil { return nil, fmt.Errorf("Failed to parse Serf address %q: %v", agentConfig.normalizedAddrs.Serf, err) } conf.RPCAddr.Port = rpcAddr.Port conf.RPCAddr.IP = rpcAddr.IP conf.SerfConfig.MemberlistConfig.BindPort = serfAddr.Port conf.SerfConfig.MemberlistConfig.BindAddr = serfAddr.IP.String() // Set up the advertise addresses rpcAddr, err = net.ResolveTCPAddr("tcp", agentConfig.AdvertiseAddrs.RPC) if err != nil { return nil, fmt.Errorf("Failed to parse RPC advertise address %q: %v", agentConfig.AdvertiseAddrs.RPC, err) } serfAddr, err = net.ResolveTCPAddr("tcp", agentConfig.AdvertiseAddrs.Serf) if err != nil { return nil, fmt.Errorf("Failed to parse Serf advertise address %q: %v", agentConfig.AdvertiseAddrs.Serf, err) } // Server address is the serf advertise address and rpc port. This is the // address that all servers should be able to communicate over RPC with. serverAddr, err := net.ResolveTCPAddr("tcp", net.JoinHostPort(serfAddr.IP.String(), fmt.Sprintf("%d", rpcAddr.Port))) if err != nil { return nil, fmt.Errorf("Failed to resolve Serf advertise address %q: %v", agentConfig.AdvertiseAddrs.Serf, err) } conf.SerfConfig.MemberlistConfig.AdvertiseAddr = serfAddr.IP.String() conf.SerfConfig.MemberlistConfig.AdvertisePort = serfAddr.Port conf.ClientRPCAdvertise = rpcAddr conf.ServerRPCAdvertise = serverAddr // Set up gc threshold and heartbeat grace period if gcThreshold := agentConfig.Server.NodeGCThreshold; gcThreshold != "" { dur, err := time.ParseDuration(gcThreshold) if err != nil { return nil, err } conf.NodeGCThreshold = dur } if gcThreshold := agentConfig.Server.JobGCThreshold; gcThreshold != "" { dur, err := time.ParseDuration(gcThreshold) if err != nil { return nil, err } conf.JobGCThreshold = dur } if gcThreshold := agentConfig.Server.EvalGCThreshold; gcThreshold != "" { dur, err := time.ParseDuration(gcThreshold) if err != nil { return nil, err } conf.EvalGCThreshold = dur } if gcThreshold := agentConfig.Server.DeploymentGCThreshold; gcThreshold != "" { dur, err := time.ParseDuration(gcThreshold) if err != nil { return nil, err } conf.DeploymentGCThreshold = dur } if heartbeatGrace := agentConfig.Server.HeartbeatGrace; heartbeatGrace != 0 { conf.HeartbeatGrace = heartbeatGrace } if min := agentConfig.Server.MinHeartbeatTTL; min != 0 { conf.MinHeartbeatTTL = min } if maxHPS := agentConfig.Server.MaxHeartbeatsPerSecond; maxHPS != 0 { conf.MaxHeartbeatsPerSecond = maxHPS } if *agentConfig.Consul.AutoAdvertise && agentConfig.Consul.ServerServiceName == "" { return nil, fmt.Errorf("server_service_name must be set when auto_advertise is enabled") } // Add the Consul and Vault configs conf.ConsulConfig = agentConfig.Consul conf.VaultConfig = agentConfig.Vault // Set the TLS config conf.TLSConfig = agentConfig.TLSConfig // Setup telemetry related config conf.StatsCollectionInterval = agentConfig.Telemetry.collectionInterval conf.DisableTaggedMetrics = agentConfig.Telemetry.DisableTaggedMetrics conf.BackwardsCompatibleMetrics = agentConfig.Telemetry.BackwardsCompatibleMetrics return conf, nil } // serverConfig is used to generate a new server configuration struct // for initializing a nomad server. func (a *Agent) serverConfig() (*nomad.Config, error) { return convertServerConfig(a.config, a.logOutput) } // clientConfig is used to generate a new client configuration struct // for initializing a Nomad client. func (a *Agent) clientConfig() (*clientconfig.Config, error) { // Setup the configuration conf := a.config.ClientConfig if conf == nil { conf = clientconfig.DefaultConfig() } // If we are running a server, append both its bind and advertise address so // we are able to at least talk to the local server even if that isn't // configured explicitly. This handles both running server and client on one // host and -dev mode. conf.Servers = a.config.Client.Servers if a.server != nil { conf.Servers = append(conf.Servers, a.config.Addresses.RPC, a.config.AdvertiseAddrs.RPC) } conf.LogOutput = a.logOutput conf.LogLevel = a.config.LogLevel conf.DevMode = a.config.DevMode if a.config.Region != "" { conf.Region = a.config.Region } if a.config.DataDir != "" { conf.StateDir = filepath.Join(a.config.DataDir, "client") conf.AllocDir = filepath.Join(a.config.DataDir, "alloc") } if a.config.Client.StateDir != "" { conf.StateDir = a.config.Client.StateDir } if a.config.Client.AllocDir != "" { conf.AllocDir = a.config.Client.AllocDir } if a.config.Client.NetworkInterface != "" { conf.NetworkInterface = a.config.Client.NetworkInterface } conf.ChrootEnv = a.config.Client.ChrootEnv conf.Options = a.config.Client.Options // Logging deprecation messages about consul related configuration in client // options var invalidConsulKeys []string for key := range conf.Options { if strings.HasPrefix(key, "consul") { invalidConsulKeys = append(invalidConsulKeys, fmt.Sprintf("options.%s", key)) } } if len(invalidConsulKeys) > 0 { a.logger.Printf("[WARN] agent: Invalid keys: %v", strings.Join(invalidConsulKeys, ",")) a.logger.Printf(`Nomad client ignores consul related configuration in client options. Please refer to the guide https://www.nomadproject.io/docs/agent/configuration/consul.html to configure Nomad to work with Consul.`) } if a.config.Client.NetworkSpeed != 0 { conf.NetworkSpeed = a.config.Client.NetworkSpeed } if a.config.Client.CpuCompute != 0 { conf.CpuCompute = a.config.Client.CpuCompute } if a.config.Client.MemoryMB != 0 { conf.MemoryMB = a.config.Client.MemoryMB } if a.config.Client.MaxKillTimeout != "" { dur, err := time.ParseDuration(a.config.Client.MaxKillTimeout) if err != nil { return nil, fmt.Errorf("Error parsing max kill timeout: %s", err) } conf.MaxKillTimeout = dur } conf.ClientMaxPort = uint(a.config.Client.ClientMaxPort) conf.ClientMinPort = uint(a.config.Client.ClientMinPort) // Setup the node conf.Node = new(structs.Node) conf.Node.Datacenter = a.config.Datacenter conf.Node.Name = a.config.NodeName conf.Node.Meta = a.config.Client.Meta conf.Node.NodeClass = a.config.Client.NodeClass // Set up the HTTP advertise address conf.Node.HTTPAddr = a.config.AdvertiseAddrs.HTTP // Reserve resources on the node. r := conf.Node.Reserved if r == nil { r = new(structs.Resources) conf.Node.Reserved = r } r.CPU = a.config.Client.Reserved.CPU r.MemoryMB = a.config.Client.Reserved.MemoryMB r.DiskMB = a.config.Client.Reserved.DiskMB r.IOPS = a.config.Client.Reserved.IOPS conf.GloballyReservedPorts = a.config.Client.Reserved.ParsedReservedPorts conf.Version = a.config.Version if *a.config.Consul.AutoAdvertise && a.config.Consul.ClientServiceName == "" { return nil, fmt.Errorf("client_service_name must be set when auto_advertise is enabled") } conf.ConsulConfig = a.config.Consul conf.VaultConfig = a.config.Vault // Set up Telemetry configuration conf.StatsCollectionInterval = a.config.Telemetry.collectionInterval conf.PublishNodeMetrics = a.config.Telemetry.PublishNodeMetrics conf.PublishAllocationMetrics = a.config.Telemetry.PublishAllocationMetrics conf.DisableTaggedMetrics = a.config.Telemetry.DisableTaggedMetrics conf.BackwardsCompatibleMetrics = a.config.Telemetry.BackwardsCompatibleMetrics // Set the TLS related configs conf.TLSConfig = a.config.TLSConfig conf.Node.TLSEnabled = conf.TLSConfig.EnableHTTP // Set the GC related configs conf.GCInterval = a.config.Client.GCInterval conf.GCParallelDestroys = a.config.Client.GCParallelDestroys conf.GCDiskUsageThreshold = a.config.Client.GCDiskUsageThreshold conf.GCInodeUsageThreshold = a.config.Client.GCInodeUsageThreshold conf.GCMaxAllocs = a.config.Client.GCMaxAllocs if a.config.Client.NoHostUUID != nil { conf.NoHostUUID = *a.config.Client.NoHostUUID } else { // Default no_host_uuid to true conf.NoHostUUID = true } // Setup the ACLs conf.ACLEnabled = a.config.ACL.Enabled conf.ACLTokenTTL = a.config.ACL.TokenTTL conf.ACLPolicyTTL = a.config.ACL.PolicyTTL return conf, nil } // setupServer is used to setup the server if enabled func (a *Agent) setupServer() error { if !a.config.Server.Enabled { return nil } // Setup the configuration conf, err := a.serverConfig() if err != nil { return fmt.Errorf("server config setup failed: %s", err) } // Generate a node ID and persist it if it is the first instance, otherwise // read the persisted node ID. if err := a.setupNodeID(conf); err != nil { return fmt.Errorf("setting up server node ID failed: %s", err) } // Sets up the keyring for gossip encryption if err := a.setupKeyrings(conf); err != nil { return fmt.Errorf("failed to configure keyring: %v", err) } // Create the server server, err := nomad.NewServer(conf, a.consulCatalog, a.logger) if err != nil { return fmt.Errorf("server setup failed: %v", err) } a.server = server // Consul check addresses default to bind but can be toggled to use advertise rpcCheckAddr := a.config.normalizedAddrs.RPC serfCheckAddr := a.config.normalizedAddrs.Serf if *a.config.Consul.ChecksUseAdvertise { rpcCheckAddr = a.config.AdvertiseAddrs.RPC serfCheckAddr = a.config.AdvertiseAddrs.Serf } // Create the Nomad Server services for Consul if *a.config.Consul.AutoAdvertise { httpServ := &structs.Service{ Name: a.config.Consul.ServerServiceName, PortLabel: a.config.AdvertiseAddrs.HTTP, Tags: []string{consul.ServiceTagHTTP}, } const isServer = true if check := a.agentHTTPCheck(isServer); check != nil { httpServ.Checks = []*structs.ServiceCheck{check} } rpcServ := &structs.Service{ Name: a.config.Consul.ServerServiceName, PortLabel: a.config.AdvertiseAddrs.RPC, Tags: []string{consul.ServiceTagRPC}, Checks: []*structs.ServiceCheck{ { Name: a.config.Consul.ServerRPCCheckName, Type: "tcp", Interval: serverRpcCheckInterval, Timeout: serverRpcCheckTimeout, PortLabel: rpcCheckAddr, }, }, } serfServ := &structs.Service{ Name: a.config.Consul.ServerServiceName, PortLabel: a.config.AdvertiseAddrs.Serf, Tags: []string{consul.ServiceTagSerf}, Checks: []*structs.ServiceCheck{ { Name: a.config.Consul.ServerSerfCheckName, Type: "tcp", Interval: serverSerfCheckInterval, Timeout: serverSerfCheckTimeout, PortLabel: serfCheckAddr, }, }, } // Add the http port check if TLS isn't enabled consulServices := []*structs.Service{ rpcServ, serfServ, httpServ, } if err := a.consulService.RegisterAgent(consulRoleServer, consulServices); err != nil { return err } } return nil } // setupNodeID will pull the persisted node ID, if any, or create a random one // and persist it. func (a *Agent) setupNodeID(config *nomad.Config) error { // For dev mode we have no filesystem access so just make a node ID. if a.config.DevMode { config.NodeID = uuid.Generate() return nil } // Load saved state, if any. Since a user could edit this, we also // validate it. Saved state overwrites any configured node id fileID := filepath.Join(config.DataDir, "node-id") if _, err := os.Stat(fileID); err == nil { rawID, err := ioutil.ReadFile(fileID) if err != nil { return err } nodeID := strings.TrimSpace(string(rawID)) nodeID = strings.ToLower(nodeID) if _, err := uuidparse.ParseUUID(nodeID); err != nil { return err } config.NodeID = nodeID return nil } // If they've configured a node ID manually then just use that, as // long as it's valid. if config.NodeID != "" { config.NodeID = strings.ToLower(config.NodeID) if _, err := uuidparse.ParseUUID(config.NodeID); err != nil { return err } // Persist this configured nodeID to our data directory if err := lib.EnsurePath(fileID, false); err != nil { return err } if err := ioutil.WriteFile(fileID, []byte(config.NodeID), 0600); err != nil { return err } return nil } // If we still don't have a valid node ID, make one. if config.NodeID == "" { id := uuid.Generate() if err := lib.EnsurePath(fileID, false); err != nil { return err } if err := ioutil.WriteFile(fileID, []byte(id), 0600); err != nil { return err } config.NodeID = id } return nil } // setupKeyrings is used to initialize and load keyrings during agent startup func (a *Agent) setupKeyrings(config *nomad.Config) error { file := filepath.Join(a.config.DataDir, serfKeyring) if a.config.Server.EncryptKey == "" { goto LOAD } if _, err := os.Stat(file); err != nil { if err := initKeyring(file, a.config.Server.EncryptKey); err != nil { return err } } LOAD: if _, err := os.Stat(file); err == nil { config.SerfConfig.KeyringFile = file } if err := loadKeyringFile(config.SerfConfig); err != nil { return err } // Success! return nil } // setupClient is used to setup the client if enabled func (a *Agent) setupClient() error { if !a.config.Client.Enabled { return nil } // Setup the configuration conf, err := a.clientConfig() if err != nil { return fmt.Errorf("client setup failed: %v", err) } // Reserve some ports for the plugins if we are on Windows if runtime.GOOS == "windows" { if err := a.reservePortsForClient(conf); err != nil { return err } } client, err := client.NewClient(conf, a.consulCatalog, a.consulService, a.logger) if err != nil { return fmt.Errorf("client setup failed: %v", err) } a.client = client // Create the Nomad Client services for Consul if *a.config.Consul.AutoAdvertise { httpServ := &structs.Service{ Name: a.config.Consul.ClientServiceName, PortLabel: a.config.AdvertiseAddrs.HTTP, Tags: []string{consul.ServiceTagHTTP}, } const isServer = false if check := a.agentHTTPCheck(isServer); check != nil { httpServ.Checks = []*structs.ServiceCheck{check} } if err := a.consulService.RegisterAgent(consulRoleClient, []*structs.Service{httpServ}); err != nil { return err } } return nil } // agentHTTPCheck returns a health check for the agent's HTTP API if possible. // If no HTTP health check can be supported nil is returned. func (a *Agent) agentHTTPCheck(server bool) *structs.ServiceCheck { // Resolve the http check address httpCheckAddr := a.config.normalizedAddrs.HTTP if *a.config.Consul.ChecksUseAdvertise { httpCheckAddr = a.config.AdvertiseAddrs.HTTP } check := structs.ServiceCheck{ Name: a.config.Consul.ClientHTTPCheckName, Type: "http", Path: "/v1/agent/health?type=client", Protocol: "http", Interval: agentHttpCheckInterval, Timeout: agentHttpCheckTimeout, PortLabel: httpCheckAddr, } // Switch to endpoint that doesn't require a leader for servers if server { check.Name = a.config.Consul.ServerHTTPCheckName check.Path = "/v1/agent/health?type=server" } if !a.config.TLSConfig.EnableHTTP { // No HTTPS, return a plain http check return &check } if a.config.TLSConfig.VerifyHTTPSClient { a.logger.Printf("[WARN] agent: not registering Nomad HTTPS Health Check because verify_https_client enabled") return nil } // HTTPS enabled; skip verification check.Protocol = "https" check.TLSSkipVerify = true return &check } // reservePortsForClient reserves a range of ports for the client to use when // it creates various plugins for log collection, executors, drivers, etc func (a *Agent) reservePortsForClient(conf *clientconfig.Config) error { // finding the device name for loopback deviceName, addr, mask, err := a.findLoopbackDevice() if err != nil { return fmt.Errorf("error finding the device name for loopback: %v", err) } // seeing if the user has already reserved some resources on this device var nr *structs.NetworkResource if conf.Node.Reserved == nil { conf.Node.Reserved = &structs.Resources{} } for _, n := range conf.Node.Reserved.Networks { if n.Device == deviceName { nr = n } } // If the user hasn't already created the device, we create it if nr == nil { nr = &structs.NetworkResource{ Device: deviceName, IP: addr, CIDR: mask, ReservedPorts: make([]structs.Port, 0), } } // appending the port ranges we want to use for the client to the list of // reserved ports for this device for i := conf.ClientMinPort; i <= conf.ClientMaxPort; i++ { nr.ReservedPorts = append(nr.ReservedPorts, structs.Port{Label: fmt.Sprintf("plugin-%d", i), Value: int(i)}) } conf.Node.Reserved.Networks = append(conf.Node.Reserved.Networks, nr) return nil } // findLoopbackDevice iterates through all the interfaces on a machine and // returns the ip addr, mask of the loopback device func (a *Agent) findLoopbackDevice() (string, string, string, error) { var ifcs []net.Interface var err error ifcs, err = net.Interfaces() if err != nil { return "", "", "", err } for _, ifc := range ifcs { addrs, err := ifc.Addrs() if err != nil { return "", "", "", err } for _, addr := range addrs { var ip net.IP switch v := addr.(type) { case *net.IPNet: ip = v.IP case *net.IPAddr: ip = v.IP } if ip.IsLoopback() { if ip.To4() == nil { continue } return ifc.Name, ip.String(), addr.String(), nil } } } return "", "", "", fmt.Errorf("no loopback devices with IPV4 addr found") } // Leave is used gracefully exit. Clients will inform servers // of their departure so that allocations can be rescheduled. func (a *Agent) Leave() error { if a.client != nil { if err := a.client.Leave(); err != nil { a.logger.Printf("[ERR] agent: client leave failed: %v", err) } } if a.server != nil { if err := a.server.Leave(); err != nil { a.logger.Printf("[ERR] agent: server leave failed: %v", err) } } return nil } // Shutdown is used to terminate the agent. func (a *Agent) Shutdown() error { a.shutdownLock.Lock() defer a.shutdownLock.Unlock() if a.shutdown { return nil } a.logger.Println("[INFO] agent: requesting shutdown") if a.client != nil { if err := a.client.Shutdown(); err != nil { a.logger.Printf("[ERR] agent: client shutdown failed: %v", err) } } if a.server != nil { if err := a.server.Shutdown(); err != nil { a.logger.Printf("[ERR] agent: server shutdown failed: %v", err) } } if err := a.consulService.Shutdown(); err != nil { a.logger.Printf("[ERR] agent: shutting down Consul client failed: %v", err) } a.logger.Println("[INFO] agent: shutdown complete") a.shutdown = true close(a.shutdownCh) return nil } // RPC is used to make an RPC call to the Nomad servers func (a *Agent) RPC(method string, args interface{}, reply interface{}) error { if a.server != nil { return a.server.RPC(method, args, reply) } return a.client.RPC(method, args, reply) } // Client returns the configured client or nil func (a *Agent) Client() *client.Client { return a.client } // Server returns the configured server or nil func (a *Agent) Server() *nomad.Server { return a.server } // Stats is used to return statistics for debugging and insight // for various sub-systems func (a *Agent) Stats() map[string]map[string]string { stats := make(map[string]map[string]string) if a.server != nil { subStat := a.server.Stats() for k, v := range subStat { stats[k] = v } } if a.client != nil { subStat := a.client.Stats() for k, v := range subStat { stats[k] = v } } return stats } // ShouldReload determines if we should reload the configuration and agent // connections. If the TLS Configuration has not changed, we shouldn't reload. func (a *Agent) ShouldReload(newConfig *Config) (agent, http, rpc bool) { a.configLock.Lock() defer a.configLock.Unlock() isEqual, err := a.config.TLSConfig.CertificateInfoIsEqual(newConfig.TLSConfig) if err != nil { a.logger.Printf("[INFO] agent: error when parsing TLS certificate %v", err) return false, false, false } else if !isEqual { return true, true, true } // Allow the ability to only reload HTTP connections if a.config.TLSConfig.EnableHTTP != newConfig.TLSConfig.EnableHTTP { http = true agent = true } // Allow the ability to only reload HTTP connections if a.config.TLSConfig.EnableRPC != newConfig.TLSConfig.EnableRPC { rpc = true agent = true } return agent, http, rpc } // Reload handles configuration changes for the agent. Provides a method that // is easier to unit test, as this action is invoked via SIGHUP. func (a *Agent) Reload(newConfig *Config) error { a.configLock.Lock() defer a.configLock.Unlock() if newConfig == nil || newConfig.TLSConfig == nil { return fmt.Errorf("cannot reload agent with nil configuration") } // This is just a TLS configuration reload, we don't need to refresh // existing network connections if !a.config.TLSConfig.IsEmpty() && !newConfig.TLSConfig.IsEmpty() { // Reload the certificates on the keyloader and on success store the // updated TLS config. It is important to reuse the same keyloader // as this allows us to dynamically reload configurations not only // on the Agent but on the Server and Client too (they are // referencing the same keyloader). keyloader := a.config.TLSConfig.GetKeyLoader() _, err := keyloader.LoadKeyPair(newConfig.TLSConfig.CertFile, newConfig.TLSConfig.KeyFile) if err != nil { return err } a.config.TLSConfig = newConfig.TLSConfig a.config.TLSConfig.KeyLoader = keyloader return nil } // Completely reload the agent's TLS configuration (moving from non-TLS to // TLS, or vice versa) // This does not handle errors in loading the new TLS configuration a.config.TLSConfig = newConfig.TLSConfig.Copy() if newConfig.TLSConfig.IsEmpty() { a.logger.Println("[WARN] agent: Downgrading agent's existing TLS configuration to plaintext") } else { a.logger.Println("[INFO] agent: Upgrading from plaintext configuration to TLS") } return nil } // GetConfig creates a locked reference to the agent's config func (a *Agent) GetConfig() *Config { a.configLock.Lock() defer a.configLock.Unlock() return a.config } // setupConsul creates the Consul client and starts its main Run loop. func (a *Agent) setupConsul(consulConfig *config.ConsulConfig) error { apiConf, err := consulConfig.ApiConfig() if err != nil { return err } client, err := api.NewClient(apiConf) if err != nil { return err } // Determine version for TLSSkipVerify // Create Consul Catalog client for service discovery. a.consulCatalog = client.Catalog() // Create Consul Service client for service advertisement and checks. a.consulService = consul.NewServiceClient(client.Agent(), a.logger) // Run the Consul service client's sync'ing main loop go a.consulService.Run() return nil }