package server import ( "context" "fmt" "net" "os" "path/filepath" "strings" "time" systemd "github.com/coreos/go-systemd/daemon" "github.com/erikdubbelboer/gspt" "github.com/k3s-io/k3s/pkg/agent" "github.com/k3s-io/k3s/pkg/agent/loadbalancer" "github.com/k3s-io/k3s/pkg/cli/cmds" "github.com/k3s-io/k3s/pkg/clientaccess" "github.com/k3s-io/k3s/pkg/daemons/config" "github.com/k3s-io/k3s/pkg/datadir" "github.com/k3s-io/k3s/pkg/etcd" "github.com/k3s-io/k3s/pkg/rootless" "github.com/k3s-io/k3s/pkg/server" "github.com/k3s-io/k3s/pkg/util" "github.com/k3s-io/k3s/pkg/version" "github.com/k3s-io/k3s/pkg/vpn" "github.com/pkg/errors" "github.com/rancher/wrangler/pkg/signals" "github.com/sirupsen/logrus" "github.com/urfave/cli" utilnet "k8s.io/apimachinery/pkg/util/net" kubeapiserverflag "k8s.io/component-base/cli/flag" "k8s.io/kubernetes/pkg/controlplane/apiserver/options" utilsnet "k8s.io/utils/net" _ "github.com/go-sql-driver/mysql" // ensure we have mysql _ "github.com/lib/pq" // ensure we have postgres _ "github.com/mattn/go-sqlite3" // ensure we have sqlite ) func Run(app *cli.Context) error { return run(app, &cmds.ServerConfig, server.CustomControllers{}, server.CustomControllers{}) } func RunWithControllers(app *cli.Context, leaderControllers server.CustomControllers, controllers server.CustomControllers) error { return run(app, &cmds.ServerConfig, leaderControllers, controllers) } func run(app *cli.Context, cfg *cmds.Server, leaderControllers server.CustomControllers, controllers server.CustomControllers) error { var ( err error ) // hide process arguments from ps output, since they may contain // database credentials or other secrets. gspt.SetProcTitle(os.Args[0] + " server") // If the agent is enabled, evacuate cgroup v2 before doing anything else that may fork. // If the agent is disabled, we don't need to bother doing this as it is only the kubelet // that cares about cgroups. if !cfg.DisableAgent { if err := cmds.EvacuateCgroup2(); err != nil { return err } } // Initialize logging, and subprocess reaping if necessary. // Log output redirection and subprocess reaping both require forking. if err := cmds.InitLogging(); err != nil { return err } if !cfg.DisableAgent && os.Getuid() != 0 && !cfg.Rootless { return fmt.Errorf("server must run as root, or with --rootless and/or --disable-agent") } if cfg.Rootless { dataDir, err := datadir.LocalHome(cfg.DataDir, true) if err != nil { return err } cfg.DataDir = dataDir if !cfg.DisableAgent { dualNode, err := utilsnet.IsDualStackIPStrings(cmds.AgentConfig.NodeIP) if err != nil { return err } if err := rootless.Rootless(dataDir, dualNode); err != nil { return err } } } if cmds.AgentConfig.VPNAuthFile != "" { cmds.AgentConfig.VPNAuth, err = util.ReadFile(cmds.AgentConfig.VPNAuthFile) if err != nil { return err } } // Starts the VPN in the server if config was set up if cmds.AgentConfig.VPNAuth != "" { err := vpn.StartVPN(cmds.AgentConfig.VPNAuth) if err != nil { return err } } agentReady := make(chan struct{}) serverConfig := server.Config{} serverConfig.DisableAgent = cfg.DisableAgent serverConfig.ControlConfig.Runtime = config.NewRuntime(agentReady) serverConfig.ControlConfig.Token = cfg.Token serverConfig.ControlConfig.AgentToken = cfg.AgentToken serverConfig.ControlConfig.JoinURL = cfg.ServerURL if cfg.AgentTokenFile != "" { serverConfig.ControlConfig.AgentToken, err = util.ReadFile(cfg.AgentTokenFile) if err != nil { return err } } if cfg.TokenFile != "" { serverConfig.ControlConfig.Token, err = util.ReadFile(cfg.TokenFile) if err != nil { return err } } serverConfig.ControlConfig.DataDir = cfg.DataDir serverConfig.ControlConfig.KubeConfigOutput = cfg.KubeConfigOutput serverConfig.ControlConfig.KubeConfigMode = cfg.KubeConfigMode serverConfig.ControlConfig.HelmJobImage = cfg.HelmJobImage serverConfig.ControlConfig.Rootless = cfg.Rootless serverConfig.ControlConfig.ServiceLBNamespace = cfg.ServiceLBNamespace serverConfig.ControlConfig.SANs = util.SplitStringSlice(cfg.TLSSan) serverConfig.ControlConfig.SANSecurity = cfg.TLSSanSecurity serverConfig.ControlConfig.BindAddress = cfg.BindAddress serverConfig.ControlConfig.SupervisorPort = cfg.SupervisorPort serverConfig.ControlConfig.HTTPSPort = cfg.HTTPSPort serverConfig.ControlConfig.APIServerPort = cfg.APIServerPort serverConfig.ControlConfig.APIServerBindAddress = cfg.APIServerBindAddress serverConfig.ControlConfig.EnablePProf = cfg.EnablePProf serverConfig.ControlConfig.ExtraAPIArgs = cfg.ExtraAPIArgs serverConfig.ControlConfig.ExtraControllerArgs = cfg.ExtraControllerArgs serverConfig.ControlConfig.ExtraEtcdArgs = cfg.ExtraEtcdArgs serverConfig.ControlConfig.ExtraSchedulerAPIArgs = cfg.ExtraSchedulerArgs serverConfig.ControlConfig.ClusterDomain = cfg.ClusterDomain serverConfig.ControlConfig.Datastore.Endpoint = cfg.DatastoreEndpoint serverConfig.ControlConfig.Datastore.BackendTLSConfig.CAFile = cfg.DatastoreCAFile serverConfig.ControlConfig.Datastore.BackendTLSConfig.CertFile = cfg.DatastoreCertFile serverConfig.ControlConfig.Datastore.BackendTLSConfig.KeyFile = cfg.DatastoreKeyFile serverConfig.ControlConfig.AdvertiseIP = cfg.AdvertiseIP serverConfig.ControlConfig.AdvertisePort = cfg.AdvertisePort serverConfig.ControlConfig.MultiClusterCIDR = cfg.MultiClusterCIDR serverConfig.ControlConfig.FlannelBackend = cfg.FlannelBackend serverConfig.ControlConfig.FlannelIPv6Masq = cfg.FlannelIPv6Masq serverConfig.ControlConfig.FlannelExternalIP = cfg.FlannelExternalIP serverConfig.ControlConfig.EgressSelectorMode = cfg.EgressSelectorMode serverConfig.ControlConfig.ExtraCloudControllerArgs = cfg.ExtraCloudControllerArgs serverConfig.ControlConfig.DisableCCM = cfg.DisableCCM serverConfig.ControlConfig.DisableNPC = cfg.DisableNPC serverConfig.ControlConfig.DisableHelmController = cfg.DisableHelmController serverConfig.ControlConfig.DisableKubeProxy = cfg.DisableKubeProxy serverConfig.ControlConfig.DisableETCD = cfg.DisableETCD serverConfig.ControlConfig.DisableAPIServer = cfg.DisableAPIServer serverConfig.ControlConfig.DisableScheduler = cfg.DisableScheduler serverConfig.ControlConfig.DisableControllerManager = cfg.DisableControllerManager serverConfig.ControlConfig.ClusterInit = cfg.ClusterInit serverConfig.ControlConfig.EncryptSecrets = cfg.EncryptSecrets serverConfig.ControlConfig.EtcdExposeMetrics = cfg.EtcdExposeMetrics serverConfig.ControlConfig.EtcdDisableSnapshots = cfg.EtcdDisableSnapshots if !cfg.EtcdDisableSnapshots || cfg.ClusterReset { serverConfig.ControlConfig.EtcdSnapshotCompress = cfg.EtcdSnapshotCompress serverConfig.ControlConfig.EtcdSnapshotName = cfg.EtcdSnapshotName serverConfig.ControlConfig.EtcdSnapshotCron = cfg.EtcdSnapshotCron serverConfig.ControlConfig.EtcdSnapshotDir = cfg.EtcdSnapshotDir serverConfig.ControlConfig.EtcdSnapshotRetention = cfg.EtcdSnapshotRetention serverConfig.ControlConfig.EtcdS3 = cfg.EtcdS3 serverConfig.ControlConfig.EtcdS3Endpoint = cfg.EtcdS3Endpoint serverConfig.ControlConfig.EtcdS3EndpointCA = cfg.EtcdS3EndpointCA serverConfig.ControlConfig.EtcdS3SkipSSLVerify = cfg.EtcdS3SkipSSLVerify serverConfig.ControlConfig.EtcdS3AccessKey = cfg.EtcdS3AccessKey serverConfig.ControlConfig.EtcdS3SecretKey = cfg.EtcdS3SecretKey serverConfig.ControlConfig.EtcdS3BucketName = cfg.EtcdS3BucketName serverConfig.ControlConfig.EtcdS3Region = cfg.EtcdS3Region serverConfig.ControlConfig.EtcdS3Folder = cfg.EtcdS3Folder serverConfig.ControlConfig.EtcdS3Insecure = cfg.EtcdS3Insecure serverConfig.ControlConfig.EtcdS3Timeout = cfg.EtcdS3Timeout } else { logrus.Info("ETCD snapshots are disabled") } if cfg.ClusterResetRestorePath != "" && !cfg.ClusterReset { return errors.New("invalid flag use; --cluster-reset required with --cluster-reset-restore-path") } serverConfig.ControlConfig.ClusterReset = cfg.ClusterReset serverConfig.ControlConfig.ClusterResetRestorePath = cfg.ClusterResetRestorePath serverConfig.ControlConfig.SystemDefaultRegistry = cfg.SystemDefaultRegistry if serverConfig.ControlConfig.SupervisorPort == 0 { serverConfig.ControlConfig.SupervisorPort = serverConfig.ControlConfig.HTTPSPort } if serverConfig.ControlConfig.DisableETCD && serverConfig.ControlConfig.JoinURL == "" { return errors.New("invalid flag use; --server is required with --disable-etcd") } if serverConfig.ControlConfig.DisableAPIServer { // Servers without a local apiserver need to connect to the apiserver via the proxy load-balancer. serverConfig.ControlConfig.APIServerPort = cmds.AgentConfig.LBServerPort // If the supervisor and externally-facing apiserver are not on the same port, the proxy will // have a separate load-balancer for the apiserver that we need to use instead. if serverConfig.ControlConfig.SupervisorPort != serverConfig.ControlConfig.HTTPSPort { serverConfig.ControlConfig.APIServerPort = cmds.AgentConfig.LBServerPort - 1 } } if cmds.AgentConfig.FlannelIface != "" && len(cmds.AgentConfig.NodeIP) == 0 { ip, err := util.GetIPFromInterface(cmds.AgentConfig.FlannelIface) if err != nil { return err } cmds.AgentConfig.NodeIP.Set(ip) } if serverConfig.ControlConfig.PrivateIP == "" && len(cmds.AgentConfig.NodeIP) != 0 { serverConfig.ControlConfig.PrivateIP = util.GetFirstValidIPString(cmds.AgentConfig.NodeIP) } // Ensure that we add the localhost name/ip and node name/ip to the SAN list. This list is shared by the // certs for the supervisor, kube-apiserver cert, and etcd. DNS entries for the in-cluster kubernetes // service endpoint are added later when the certificates are created. nodeName, nodeIPs, err := util.GetHostnameAndIPs(cmds.AgentConfig.NodeName, cmds.AgentConfig.NodeIP) if err != nil { return err } serverConfig.ControlConfig.ServerNodeName = nodeName serverConfig.ControlConfig.SANs = append(serverConfig.ControlConfig.SANs, "127.0.0.1", "::1", "localhost", nodeName) for _, ip := range nodeIPs { serverConfig.ControlConfig.SANs = append(serverConfig.ControlConfig.SANs, ip.String()) } // if not set, try setting advertise-ip from agent VPN if cmds.AgentConfig.VPNAuth != "" { vpnInfo, err := vpn.GetVPNInfo(cmds.AgentConfig.VPNAuth) if err != nil { return err } logrus.Debugf("Processing vpn node-ip based on the detected nodeIPs: %v", nodeIPs) dualNode, err := utilsnet.IsDualStackIPs(nodeIPs) if err != nil { return errors.Wrapf(err, "failed to validate node-ip: %v", nodeIPs) } // If we are in ipv6-only mode, we should pass the ipv6 address. Otherwise, ipv4 if !dualNode && utilsnet.IsIPv6(nodeIPs[0]) { if vpnInfo.IPv6Address != nil { logrus.Infof("Changed advertise-address to %v due to VPN", vpnInfo.IPv6Address) if serverConfig.ControlConfig.AdvertiseIP != "" { logrus.Warn("Conflict in the config detected. VPN integration overwrites advertise-address but the config is setting the advertise-address parameter") } serverConfig.ControlConfig.AdvertiseIP = vpnInfo.IPv6Address.String() } else { return errors.New("tailscale does not provide an ipv6 address") } } else { // We are in dual-stack or ipv4-only mode if vpnInfo.IPv4Address != nil { logrus.Infof("Changed advertise-address to %v due to VPN", vpnInfo.IPv4Address) if serverConfig.ControlConfig.AdvertiseIP != "" { logrus.Warn("Conflict in the config detected. VPN integration overwrites advertise-address but the config is setting the advertise-address parameter") } serverConfig.ControlConfig.AdvertiseIP = vpnInfo.IPv4Address.String() } else { return errors.New("tailscale does not provide an ipv4 address") } } logrus.Warn("Etcd IP (PrivateIP) remains the local IP. Running etcd traffic over VPN is not recommended due to performance issues") } else { // if not set, try setting advertise-ip from agent node-external-ip if serverConfig.ControlConfig.AdvertiseIP == "" && len(cmds.AgentConfig.NodeExternalIP) != 0 { serverConfig.ControlConfig.AdvertiseIP = util.GetFirstValidIPString(cmds.AgentConfig.NodeExternalIP) } // if not set, try setting advertise-ip from agent node-ip if serverConfig.ControlConfig.AdvertiseIP == "" && len(cmds.AgentConfig.NodeIP) != 0 { serverConfig.ControlConfig.AdvertiseIP = util.GetFirstValidIPString(cmds.AgentConfig.NodeIP) } } // if we ended up with any advertise-ips, ensure they're added to the SAN list; // note that kube-apiserver does not support dual-stack advertise-ip as of 1.21.0: /// https://github.com/kubernetes/kubeadm/issues/1612#issuecomment-772583989 if serverConfig.ControlConfig.AdvertiseIP != "" { serverConfig.ControlConfig.SANs = append(serverConfig.ControlConfig.SANs, serverConfig.ControlConfig.AdvertiseIP) } // configure ClusterIPRanges _, _, IPv6only, _ := util.GetFirstIP(nodeIPs) if len(cmds.ServerConfig.ClusterCIDR) == 0 { clusterCIDR := "10.42.0.0/16" if IPv6only { clusterCIDR = "fd00:42::/56" } cmds.ServerConfig.ClusterCIDR.Set(clusterCIDR) } for _, cidr := range util.SplitStringSlice(cmds.ServerConfig.ClusterCIDR) { _, parsed, err := net.ParseCIDR(cidr) if err != nil { return errors.Wrapf(err, "invalid cluster-cidr %s", cidr) } serverConfig.ControlConfig.ClusterIPRanges = append(serverConfig.ControlConfig.ClusterIPRanges, parsed) } // set ClusterIPRange to the first IPv4 block, for legacy clients // unless only IPv6 range given clusterIPRange, err := util.GetFirstNet(serverConfig.ControlConfig.ClusterIPRanges) if err != nil { return errors.Wrap(err, "cannot configure IPv4/IPv6 cluster-cidr") } serverConfig.ControlConfig.ClusterIPRange = clusterIPRange // configure ServiceIPRanges if len(cmds.ServerConfig.ServiceCIDR) == 0 { serviceCIDR := "10.43.0.0/16" if IPv6only { serviceCIDR = "fd00:43::/112" } cmds.ServerConfig.ServiceCIDR.Set(serviceCIDR) } for _, cidr := range util.SplitStringSlice(cmds.ServerConfig.ServiceCIDR) { _, parsed, err := net.ParseCIDR(cidr) if err != nil { return errors.Wrapf(err, "invalid service-cidr %s", cidr) } serverConfig.ControlConfig.ServiceIPRanges = append(serverConfig.ControlConfig.ServiceIPRanges, parsed) } // set ServiceIPRange to the first IPv4 block, for legacy clients // unless only IPv6 range given serviceIPRange, err := util.GetFirstNet(serverConfig.ControlConfig.ServiceIPRanges) if err != nil { return errors.Wrap(err, "cannot configure IPv4/IPv6 service-cidr") } serverConfig.ControlConfig.ServiceIPRange = serviceIPRange serverConfig.ControlConfig.ServiceNodePortRange, err = utilnet.ParsePortRange(cfg.ServiceNodePortRange) if err != nil { return errors.Wrapf(err, "invalid port range %s", cfg.ServiceNodePortRange) } // the apiserver service does not yet support dual-stack operation _, apiServerServiceIP, err := options.ServiceIPRange(*serverConfig.ControlConfig.ServiceIPRanges[0]) if err != nil { return err } serverConfig.ControlConfig.SANs = append(serverConfig.ControlConfig.SANs, apiServerServiceIP.String()) // If cluster-dns CLI arg is not set, we set ClusterDNS address to be the first IPv4 ServiceCIDR network + 10, // i.e. when you set service-cidr to 192.168.0.0/16 and don't provide cluster-dns, it will be set to 192.168.0.10 // If there are no IPv4 ServiceCIDRs, an IPv6 ServiceCIDRs will be used. // If neither of IPv4 or IPv6 are found an error is raised. if len(cmds.ServerConfig.ClusterDNS) == 0 { clusterDNS, err := utilsnet.GetIndexedIP(serverConfig.ControlConfig.ServiceIPRange, 10) if err != nil { return errors.Wrap(err, "cannot configure default cluster-dns address") } serverConfig.ControlConfig.ClusterDNS = clusterDNS serverConfig.ControlConfig.ClusterDNSs = []net.IP{serverConfig.ControlConfig.ClusterDNS} } else { for _, ip := range util.SplitStringSlice(cmds.ServerConfig.ClusterDNS) { parsed := net.ParseIP(ip) if parsed == nil { return fmt.Errorf("invalid cluster-dns address %s", ip) } serverConfig.ControlConfig.ClusterDNSs = append(serverConfig.ControlConfig.ClusterDNSs, parsed) } // Set ClusterDNS to the first IPv4 address, for legacy clients // unless only IPv6 range given clusterDNS, _, _, err := util.GetFirstIP(serverConfig.ControlConfig.ClusterDNSs) if err != nil { return errors.Wrap(err, "cannot configure IPv4/IPv6 cluster-dns address") } serverConfig.ControlConfig.ClusterDNS = clusterDNS } if err := validateNetworkConfiguration(serverConfig); err != nil { return err } if cfg.DefaultLocalStoragePath == "" { dataDir, err := datadir.LocalHome(cfg.DataDir, false) if err != nil { return err } serverConfig.ControlConfig.DefaultLocalStoragePath = filepath.Join(dataDir, "/storage") } else { serverConfig.ControlConfig.DefaultLocalStoragePath = cfg.DefaultLocalStoragePath } serverConfig.ControlConfig.Skips = map[string]bool{} serverConfig.ControlConfig.Disables = map[string]bool{} for _, disable := range util.SplitStringSlice(app.StringSlice("disable")) { disable = strings.TrimSpace(disable) serverConfig.ControlConfig.Skips[disable] = true serverConfig.ControlConfig.Disables[disable] = true } if serverConfig.ControlConfig.Skips["servicelb"] { serverConfig.ControlConfig.DisableServiceLB = true } if serverConfig.ControlConfig.DisableCCM && serverConfig.ControlConfig.DisableServiceLB { serverConfig.ControlConfig.Skips["ccm"] = true serverConfig.ControlConfig.Disables["ccm"] = true } tlsMinVersionArg := getArgValueFromList("tls-min-version", serverConfig.ControlConfig.ExtraAPIArgs) serverConfig.ControlConfig.TLSMinVersion, err = kubeapiserverflag.TLSVersion(tlsMinVersionArg) if err != nil { return errors.Wrap(err, "invalid tls-min-version") } serverConfig.StartupHooks = append(serverConfig.StartupHooks, cfg.StartupHooks...) serverConfig.LeaderControllers = append(serverConfig.LeaderControllers, leaderControllers...) serverConfig.Controllers = append(serverConfig.Controllers, controllers...) // TLS config based on mozilla ssl-config generator // https://ssl-config.mozilla.org/#server=golang&version=1.13.6&config=intermediate&guideline=5.4 // Need to disable the TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 Cipher for TLS1.2 tlsCipherSuitesArg := getArgValueFromList("tls-cipher-suites", serverConfig.ControlConfig.ExtraAPIArgs) tlsCipherSuites := strings.Split(tlsCipherSuitesArg, ",") for i := range tlsCipherSuites { tlsCipherSuites[i] = strings.TrimSpace(tlsCipherSuites[i]) } if len(tlsCipherSuites) == 0 || tlsCipherSuites[0] == "" { tlsCipherSuites = []string{ "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384", "TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", "TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256", "TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256", "TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305", "TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305", } serverConfig.ControlConfig.ExtraAPIArgs = append(serverConfig.ControlConfig.ExtraAPIArgs, "tls-cipher-suites="+strings.Join(tlsCipherSuites, ",")) } serverConfig.ControlConfig.TLSCipherSuites, err = kubeapiserverflag.TLSCipherSuites(tlsCipherSuites) if err != nil { return errors.Wrap(err, "invalid tls-cipher-suites") } // If performing a cluster reset, make sure control-plane components are // disabled so we only perform a reset or restore and bail out. if cfg.ClusterReset { serverConfig.ControlConfig.ClusterInit = true serverConfig.ControlConfig.DisableAPIServer = true serverConfig.ControlConfig.DisableControllerManager = true serverConfig.ControlConfig.DisableScheduler = true serverConfig.ControlConfig.DisableCCM = true // If the supervisor and apiserver are on the same port, everything is running embedded // and we don't need the kubelet or containerd up to perform a cluster reset. if serverConfig.ControlConfig.SupervisorPort == serverConfig.ControlConfig.HTTPSPort { cfg.DisableAgent = true } // If the user uses the cluster-reset argument in a cluster that has a ServerURL, we must return an error // to remove the server flag on the configuration or in the cli if serverConfig.ControlConfig.JoinURL != "" { return errors.New("cannot perform cluster-reset while server URL is set - remove server from configuration before resetting") } dataDir, err := datadir.LocalHome(cfg.DataDir, false) if err != nil { return err } // delete local loadbalancers state for apiserver and supervisor servers loadbalancer.ResetLoadBalancer(filepath.Join(dataDir, "agent"), loadbalancer.SupervisorServiceName) loadbalancer.ResetLoadBalancer(filepath.Join(dataDir, "agent"), loadbalancer.APIServerServiceName) if cfg.ClusterResetRestorePath != "" { // at this point we're doing a restore. Check to see if we've // passed in a token and if not, check if the token file exists. // If it doesn't, return an error indicating the token is necessary. if cfg.Token == "" { tokenFile := filepath.Join(dataDir, "server", "token") if _, err := os.Stat(tokenFile); err != nil { if os.IsNotExist(err) { return errors.New(tokenFile + " does not exist, please pass --token to complete the restoration") } } } } } logrus.Info("Starting " + version.Program + " " + app.App.Version) notifySocket := os.Getenv("NOTIFY_SOCKET") os.Unsetenv("NOTIFY_SOCKET") ctx := signals.SetupSignalContext() if err := server.StartServer(ctx, &serverConfig, cfg); err != nil { return err } go cmds.WriteCoverage(ctx) go func() { if !serverConfig.ControlConfig.DisableAPIServer { <-serverConfig.ControlConfig.Runtime.APIServerReady logrus.Info("Kube API server is now running") serverConfig.ControlConfig.Runtime.StartupHooksWg.Wait() } if !serverConfig.ControlConfig.DisableETCD { <-serverConfig.ControlConfig.Runtime.ETCDReady logrus.Info("ETCD server is now running") } logrus.Info(version.Program + " is up and running") os.Setenv("NOTIFY_SOCKET", notifySocket) systemd.SdNotify(true, "READY=1\n") }() url := fmt.Sprintf("https://%s:%d", serverConfig.ControlConfig.BindAddressOrLoopback(false, true), serverConfig.ControlConfig.SupervisorPort) token, err := clientaccess.FormatToken(serverConfig.ControlConfig.Runtime.AgentToken, serverConfig.ControlConfig.Runtime.ServerCA) if err != nil { return err } agentConfig := cmds.AgentConfig agentConfig.AgentReady = agentReady agentConfig.Debug = app.GlobalBool("debug") agentConfig.DataDir = filepath.Dir(serverConfig.ControlConfig.DataDir) agentConfig.ServerURL = url agentConfig.Token = token agentConfig.DisableLoadBalancer = !serverConfig.ControlConfig.DisableAPIServer agentConfig.DisableServiceLB = serverConfig.ControlConfig.DisableServiceLB agentConfig.ETCDAgent = serverConfig.ControlConfig.DisableAPIServer agentConfig.ClusterReset = serverConfig.ControlConfig.ClusterReset agentConfig.Rootless = cfg.Rootless if agentConfig.Rootless { // let agent specify Rootless kubelet flags, but not unshare twice agentConfig.RootlessAlreadyUnshared = true } if serverConfig.ControlConfig.DisableAPIServer { if cfg.ServerURL == "" { // If this node is the initial member of the cluster and is not hosting an apiserver, // always bootstrap the agent off local supervisor, and go through the process of reading // apiserver endpoints from etcd and blocking further startup until one is available. // This ensures that we don't end up in a chicken-and-egg situation on cluster restarts, // where the loadbalancer is routing traffic to existing apiservers, but the apiservers // are non-functional because they're waiting for us to start etcd. loadbalancer.ResetLoadBalancer(filepath.Join(agentConfig.DataDir, "agent"), loadbalancer.SupervisorServiceName) } else { // If this is a secondary member of the cluster and is not hosting an apiserver, // bootstrap the agent off the existing supervisor, instead of bootstrapping locally. agentConfig.ServerURL = cfg.ServerURL } // initialize the apiAddress Channel for receiving the api address from etcd agentConfig.APIAddressCh = make(chan []string) go getAPIAddressFromEtcd(ctx, serverConfig, agentConfig) } if cfg.DisableAgent { agentConfig.ContainerRuntimeEndpoint = "/dev/null" return agent.RunStandalone(ctx, agentConfig) } return agent.Run(ctx, agentConfig) } // validateNetworkConfig ensures that the network configuration values make sense. func validateNetworkConfiguration(serverConfig server.Config) error { // Dual-stack operation requires fairly extensive manual configuration at the moment - do some // preflight checks to make sure that the user isn't trying to use flannel/npc, or trying to // enable dual-stack DNS (which we don't currently support since it's not easy to template) dualDNS, err := utilsnet.IsDualStackIPs(serverConfig.ControlConfig.ClusterDNSs) if err != nil { return errors.Wrap(err, "failed to validate cluster-dns") } if dualDNS == true { return errors.New("dual-stack cluster-dns is not supported") } switch serverConfig.ControlConfig.EgressSelectorMode { case config.EgressSelectorModeCluster, config.EgressSelectorModePod: case config.EgressSelectorModeAgent, config.EgressSelectorModeDisabled: if serverConfig.DisableAgent { logrus.Warn("Webhooks and apiserver aggregation may not function properly without an agent; please set egress-selector-mode to 'cluster' or 'pod'") } default: return fmt.Errorf("invalid egress-selector-mode %s", serverConfig.ControlConfig.EgressSelectorMode) } return nil } func getArgValueFromList(searchArg string, argList []string) string { var value string for _, arg := range argList { splitArg := strings.SplitN(arg, "=", 2) if splitArg[0] == searchArg { value = splitArg[1] // break if we found our value break } } return value } func getAPIAddressFromEtcd(ctx context.Context, serverConfig server.Config, agentConfig cmds.Agent) { defer close(agentConfig.APIAddressCh) for { toCtx, cancel := context.WithTimeout(ctx, 5*time.Second) defer cancel() serverAddresses, err := etcd.GetAPIServerURLsFromETCD(toCtx, &serverConfig.ControlConfig) if err == nil && len(serverAddresses) > 0 { agentConfig.APIAddressCh <- serverAddresses break } if !errors.Is(err, etcd.ErrAddressNotSet) { logrus.Warnf("Failed to get apiserver address from etcd: %v", err) } <-toCtx.Done() } }