package agent import ( "context" "fmt" "net" "os" "path/filepath" "strconv" "strings" "time" systemd "github.com/coreos/go-systemd/daemon" "github.com/k3s-io/k3s/pkg/agent/config" "github.com/k3s-io/k3s/pkg/agent/containerd" "github.com/k3s-io/k3s/pkg/agent/cridockerd" "github.com/k3s-io/k3s/pkg/agent/flannel" "github.com/k3s-io/k3s/pkg/agent/netpol" "github.com/k3s-io/k3s/pkg/agent/proxy" "github.com/k3s-io/k3s/pkg/agent/syssetup" "github.com/k3s-io/k3s/pkg/agent/tunnel" "github.com/k3s-io/k3s/pkg/cgroups" "github.com/k3s-io/k3s/pkg/cli/cmds" "github.com/k3s-io/k3s/pkg/clientaccess" cp "github.com/k3s-io/k3s/pkg/cloudprovider" "github.com/k3s-io/k3s/pkg/daemons/agent" daemonconfig "github.com/k3s-io/k3s/pkg/daemons/config" types "github.com/k3s-io/k3s/pkg/daemons/config" "github.com/k3s-io/k3s/pkg/daemons/executor" "github.com/k3s-io/k3s/pkg/nodeconfig" "github.com/k3s-io/k3s/pkg/rootless" "github.com/k3s-io/k3s/pkg/util" "github.com/k3s-io/k3s/pkg/version" "github.com/pkg/errors" "github.com/sirupsen/logrus" v1 "k8s.io/api/core/v1" "k8s.io/apimachinery/pkg/api/equality" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/fields" "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/watch" typedcorev1 "k8s.io/client-go/kubernetes/typed/core/v1" "k8s.io/client-go/tools/cache" toolswatch "k8s.io/client-go/tools/watch" app2 "k8s.io/kubernetes/cmd/kube-proxy/app" kubeproxyconfig "k8s.io/kubernetes/pkg/proxy/apis/config" utilsnet "k8s.io/utils/net" utilpointer "k8s.io/utils/pointer" ) func run(ctx context.Context, cfg cmds.Agent, proxy proxy.Proxy) error { nodeConfig := config.Get(ctx, cfg, proxy) dualCluster, err := utilsnet.IsDualStackCIDRs(nodeConfig.AgentConfig.ClusterCIDRs) if err != nil { return errors.Wrap(err, "failed to validate cluster-cidr") } dualService, err := utilsnet.IsDualStackCIDRs(nodeConfig.AgentConfig.ServiceCIDRs) if err != nil { return errors.Wrap(err, "failed to validate service-cidr") } dualNode, err := utilsnet.IsDualStackIPs(nodeConfig.AgentConfig.NodeIPs) if err != nil { return errors.Wrap(err, "failed to validate node-ip") } serviceIPv4 := utilsnet.IsIPv4CIDR(nodeConfig.AgentConfig.ServiceCIDR) clusterIPv4 := utilsnet.IsIPv4CIDR(nodeConfig.AgentConfig.ClusterCIDR) nodeIPv4 := utilsnet.IsIPv4String(nodeConfig.AgentConfig.NodeIP) serviceIPv6 := utilsnet.IsIPv6CIDR(nodeConfig.AgentConfig.ServiceCIDR) clusterIPv6 := utilsnet.IsIPv6CIDR(nodeConfig.AgentConfig.ClusterCIDR) nodeIPv6 := utilsnet.IsIPv6String(nodeConfig.AgentConfig.NodeIP) if (serviceIPv6 != clusterIPv6) || (dualCluster != dualService) || (serviceIPv4 != clusterIPv4) { return fmt.Errorf("cluster-cidr: %v and service-cidr: %v, must share the same IP version (IPv4, IPv6 or dual-stack)", nodeConfig.AgentConfig.ClusterCIDRs, nodeConfig.AgentConfig.ServiceCIDRs) } if (clusterIPv6 && !nodeIPv6) || (dualCluster && !dualNode) || (clusterIPv4 && !nodeIPv4) { return fmt.Errorf("cluster-cidr: %v and node-ip: %v, must share the same IP version (IPv4, IPv6 or dual-stack)", nodeConfig.AgentConfig.ClusterCIDRs, nodeConfig.AgentConfig.NodeIPs) } enableIPv6 := dualCluster || clusterIPv6 enableIPv4 := dualCluster || clusterIPv4 conntrackConfig, err := getConntrackConfig(nodeConfig) if err != nil { return errors.Wrap(err, "failed to validate kube-proxy conntrack configuration") } syssetup.Configure(enableIPv6, conntrackConfig) nodeConfig.AgentConfig.EnableIPv4 = enableIPv4 nodeConfig.AgentConfig.EnableIPv6 = enableIPv6 if err := setupCriCtlConfig(cfg, nodeConfig); err != nil { return err } if err := executor.Bootstrap(ctx, nodeConfig, cfg); err != nil { return err } if !nodeConfig.NoFlannel { if (nodeConfig.FlannelExternalIP) && (len(nodeConfig.AgentConfig.NodeExternalIPs) == 0) { logrus.Warnf("Server has flannel-external-ip flag set but this node does not set node-external-ip. Flannel will use internal address when connecting to this node.") } else if (nodeConfig.FlannelExternalIP) && (nodeConfig.FlannelBackend != types.FlannelBackendWireguardNative) && (nodeConfig.FlannelBackend != types.FlannelBackendIPSEC) { logrus.Warnf("Flannel is using external addresses with an insecure backend: %v. Please consider using an encrypting flannel backend.", nodeConfig.FlannelBackend) } if err := flannel.Prepare(ctx, nodeConfig); err != nil { return err } } if nodeConfig.Docker { if err := cridockerd.Run(ctx, nodeConfig); err != nil { return err } } else if nodeConfig.ContainerRuntimeEndpoint == "" { if err := containerd.Run(ctx, nodeConfig); err != nil { return err } } // the agent runtime is ready to host workloads when containerd is up and the airgap // images have finished loading, as that portion of startup may block for an arbitrary // amount of time depending on how long it takes to import whatever the user has placed // in the images directory. if cfg.AgentReady != nil { close(cfg.AgentReady) } notifySocket := os.Getenv("NOTIFY_SOCKET") os.Unsetenv("NOTIFY_SOCKET") if err := setupTunnelAndRunAgent(ctx, nodeConfig, cfg, proxy); err != nil { return err } if err := util.WaitForAPIServerReady(ctx, nodeConfig.AgentConfig.KubeConfigKubelet, util.DefaultAPIServerReadyTimeout); err != nil { return errors.Wrap(err, "failed to wait for apiserver ready") } coreClient, err := util.GetClientSet(nodeConfig.AgentConfig.KubeConfigKubelet) if err != nil { return err } if err := configureNode(ctx, nodeConfig, coreClient.CoreV1().Nodes()); err != nil { return err } if !nodeConfig.NoFlannel { if err := flannel.Run(ctx, nodeConfig, coreClient.CoreV1().Nodes()); err != nil { return err } } if !nodeConfig.AgentConfig.DisableNPC { if err := netpol.Run(ctx, nodeConfig); err != nil { return err } } // By default, the server is responsible for notifying systemd // On agent-only nodes, the agent will notify systemd if notifySocket != "" { logrus.Info(version.Program + " agent is up and running") os.Setenv("NOTIFY_SOCKET", notifySocket) systemd.SdNotify(true, "READY=1\n") } <-ctx.Done() return ctx.Err() } // getConntrackConfig uses the kube-proxy code to parse the user-provided kube-proxy-arg values, and // extract the conntrack settings so that K3s can set them itself. This allows us to soft-fail when // running K3s in Docker, where kube-proxy is no longer allowed to set conntrack sysctls on newer kernels. // When running rootless, we do not attempt to set conntrack sysctls - this behavior is copied from kubeadm. func getConntrackConfig(nodeConfig *daemonconfig.Node) (*kubeproxyconfig.KubeProxyConntrackConfiguration, error) { ctConfig := &kubeproxyconfig.KubeProxyConntrackConfiguration{ MaxPerCore: utilpointer.Int32Ptr(0), Min: utilpointer.Int32Ptr(0), TCPEstablishedTimeout: &metav1.Duration{}, TCPCloseWaitTimeout: &metav1.Duration{}, } if nodeConfig.AgentConfig.Rootless { return ctConfig, nil } cmd := app2.NewProxyCommand() if err := cmd.ParseFlags(daemonconfig.GetArgs(map[string]string{}, nodeConfig.AgentConfig.ExtraKubeProxyArgs)); err != nil { return nil, err } maxPerCore, err := cmd.Flags().GetInt32("conntrack-max-per-core") if err != nil { return nil, err } ctConfig.MaxPerCore = &maxPerCore min, err := cmd.Flags().GetInt32("conntrack-min") if err != nil { return nil, err } ctConfig.Min = &min establishedTimeout, err := cmd.Flags().GetDuration("conntrack-tcp-timeout-established") if err != nil { return nil, err } ctConfig.TCPEstablishedTimeout.Duration = establishedTimeout closeWaitTimeout, err := cmd.Flags().GetDuration("conntrack-tcp-timeout-close-wait") if err != nil { return nil, err } ctConfig.TCPCloseWaitTimeout.Duration = closeWaitTimeout return ctConfig, nil } // RunStandalone bootstraps the executor, but does not run the kubelet or containerd. // This allows other bits of code that expect the executor to be set up properly to function // even when the agent is disabled. It will only return in case of error or context // cancellation. func RunStandalone(ctx context.Context, cfg cmds.Agent) error { proxy, err := createProxyAndValidateToken(ctx, &cfg) if err != nil { return err } nodeConfig := config.Get(ctx, cfg, proxy) if err := executor.Bootstrap(ctx, nodeConfig, cfg); err != nil { return err } if cfg.AgentReady != nil { close(cfg.AgentReady) } if err := tunnelSetup(ctx, nodeConfig, cfg, proxy); err != nil { return err } <-ctx.Done() return ctx.Err() } // Run sets up cgroups, configures the LB proxy, and triggers startup // of containerd and kubelet. It will only return in case of error or context // cancellation. func Run(ctx context.Context, cfg cmds.Agent) error { if err := cgroups.Validate(); err != nil { return err } if cfg.Rootless && !cfg.RootlessAlreadyUnshared { dualNode, err := utilsnet.IsDualStackIPStrings(cfg.NodeIP) if err != nil { return err } if err := rootless.Rootless(cfg.DataDir, dualNode); err != nil { return err } } proxy, err := createProxyAndValidateToken(ctx, &cfg) if err != nil { return err } return run(ctx, cfg, proxy) } func createProxyAndValidateToken(ctx context.Context, cfg *cmds.Agent) (proxy.Proxy, error) { agentDir := filepath.Join(cfg.DataDir, "agent") clientKubeletCert := filepath.Join(agentDir, "client-kubelet.crt") clientKubeletKey := filepath.Join(agentDir, "client-kubelet.key") if err := os.MkdirAll(agentDir, 0700); err != nil { return nil, err } _, isIPv6, _ := util.GetFirstString([]string{cfg.NodeIP.String()}) proxy, err := proxy.NewSupervisorProxy(ctx, !cfg.DisableLoadBalancer, agentDir, cfg.ServerURL, cfg.LBServerPort, isIPv6) if err != nil { return nil, err } options := []clientaccess.ValidationOption{ clientaccess.WithUser("node"), clientaccess.WithClientCertificate(clientKubeletCert, clientKubeletKey), } for { newToken, err := clientaccess.ParseAndValidateToken(proxy.SupervisorURL(), cfg.Token, options...) if err != nil { logrus.Error(err) select { case <-ctx.Done(): return nil, ctx.Err() case <-time.After(2 * time.Second): } continue } cfg.Token = newToken.String() break } return proxy, nil } // configureNode waits for the node object to be created, and if/when it does, // ensures that the labels and annotations are up to date. func configureNode(ctx context.Context, nodeConfig *daemonconfig.Node, nodes typedcorev1.NodeInterface) error { agentConfig := &nodeConfig.AgentConfig fieldSelector := fields.Set{metav1.ObjectNameField: agentConfig.NodeName}.String() lw := &cache.ListWatch{ ListFunc: func(options metav1.ListOptions) (object runtime.Object, e error) { options.FieldSelector = fieldSelector return nodes.List(ctx, options) }, WatchFunc: func(options metav1.ListOptions) (i watch.Interface, e error) { options.FieldSelector = fieldSelector return nodes.Watch(ctx, options) }, } condition := func(ev watch.Event) (bool, error) { node, ok := ev.Object.(*v1.Node) if !ok { return false, errors.New("event object not of type v1.Node") } updateNode := false if labels, changed := updateMutableLabels(agentConfig, node.Labels); changed { node.Labels = labels updateNode = true } if !agentConfig.DisableCCM { if annotations, changed := updateAddressAnnotations(nodeConfig, node.Annotations); changed { node.Annotations = annotations updateNode = true } if labels, changed := updateLegacyAddressLabels(agentConfig, node.Labels); changed { node.Labels = labels updateNode = true } } // inject node config if changed, err := nodeconfig.SetNodeConfigAnnotations(node); err != nil { return false, err } else if changed { updateNode = true } if changed, err := nodeconfig.SetNodeConfigLabels(node); err != nil { return false, err } else if changed { updateNode = true } if updateNode { if _, err := nodes.Update(ctx, node, metav1.UpdateOptions{}); err != nil { logrus.Infof("Failed to set annotations and labels on node %s: %v", agentConfig.NodeName, err) return false, nil } logrus.Infof("Annotations and labels have been set successfully on node: %s", agentConfig.NodeName) return true, nil } logrus.Infof("Annotations and labels have already set on node: %s", agentConfig.NodeName) return true, nil } if _, err := toolswatch.UntilWithSync(ctx, lw, &v1.Node{}, nil, condition); err != nil { return errors.Wrap(err, "failed to configure node") } return nil } func updateMutableLabels(agentConfig *daemonconfig.Agent, nodeLabels map[string]string) (map[string]string, bool) { result := map[string]string{} for _, m := range agentConfig.NodeLabels { var ( v string p = strings.SplitN(m, `=`, 2) k = p[0] ) if len(p) > 1 { v = p[1] } result[k] = v } result = labels.Merge(nodeLabels, result) return result, !equality.Semantic.DeepEqual(nodeLabels, result) } func updateLegacyAddressLabels(agentConfig *daemonconfig.Agent, nodeLabels map[string]string) (map[string]string, bool) { ls := labels.Set(nodeLabels) if ls.Has(cp.InternalIPKey) || ls.Has(cp.HostnameKey) { result := map[string]string{ cp.InternalIPKey: agentConfig.NodeIP, cp.HostnameKey: agentConfig.NodeName, } if agentConfig.NodeExternalIP != "" { result[cp.ExternalIPKey] = agentConfig.NodeExternalIP } result = labels.Merge(nodeLabels, result) return result, !equality.Semantic.DeepEqual(nodeLabels, result) } return nil, false } // updateAddressAnnotations updates the node annotations with important information about IP addresses of the node func updateAddressAnnotations(nodeConfig *daemonconfig.Node, nodeAnnotations map[string]string) (map[string]string, bool) { agentConfig := &nodeConfig.AgentConfig result := map[string]string{ cp.InternalIPKey: util.JoinIPs(agentConfig.NodeIPs), cp.HostnameKey: agentConfig.NodeName, } if agentConfig.NodeExternalIP != "" { result[cp.ExternalIPKey] = util.JoinIPs(agentConfig.NodeExternalIPs) if nodeConfig.FlannelExternalIP { for _, ipAddress := range agentConfig.NodeExternalIPs { if utilsnet.IsIPv4(ipAddress) { result[flannel.FlannelExternalIPv4Annotation] = ipAddress.String() } if utilsnet.IsIPv6(ipAddress) { result[flannel.FlannelExternalIPv6Annotation] = ipAddress.String() } } } } result = labels.Merge(nodeAnnotations, result) return result, !equality.Semantic.DeepEqual(nodeAnnotations, result) } // setupTunnelAndRunAgent should start the setup tunnel before starting kubelet and kubeproxy // there are special case for etcd agents, it will wait until it can find the apiaddress from // the address channel and update the proxy with the servers addresses, if in rke2 we need to // start the agent before the tunnel is setup to allow kubelet to start first and start the pods func setupTunnelAndRunAgent(ctx context.Context, nodeConfig *daemonconfig.Node, cfg cmds.Agent, proxy proxy.Proxy) error { var agentRan bool // IsAPIServerLBEnabled is used as a shortcut for detecting RKE2, where the kubelet needs to // be run earlier in order to manage static pods. This should probably instead query a // flag on the executor or something. if !cfg.ClusterReset && cfg.ETCDAgent { // ETCDAgent is only set to true on servers that are started with --disable-apiserver. // In this case, we may be running without an apiserver available in the cluster, and need // to wait for one to register and post it's address into APIAddressCh so that we can update // the LB proxy with its address. if proxy.IsAPIServerLBEnabled() { // On RKE2, the agent needs to be started early to run the etcd static pod. if err := agent.Agent(ctx, nodeConfig, proxy); err != nil { return err } agentRan = true } if err := waitForAPIServerAddresses(ctx, nodeConfig, cfg, proxy); err != nil { return err } } else if cfg.ClusterReset && proxy.IsAPIServerLBEnabled() { // If we're doing a cluster-reset on RKE2, the kubelet needs to be started early to clean // up static pods. if err := agent.Agent(ctx, nodeConfig, proxy); err != nil { return err } agentRan = true } if err := tunnelSetup(ctx, nodeConfig, cfg, proxy); err != nil { return err } if !agentRan { return agent.Agent(ctx, nodeConfig, proxy) } return nil } func waitForAPIServerAddresses(ctx context.Context, nodeConfig *daemonconfig.Node, cfg cmds.Agent, proxy proxy.Proxy) error { for { select { case <-time.After(5 * time.Second): logrus.Info("Waiting for apiserver addresses") case addresses := <-cfg.APIAddressCh: for i, a := range addresses { host, _, err := net.SplitHostPort(a) if err == nil { addresses[i] = net.JoinHostPort(host, strconv.Itoa(nodeConfig.ServerHTTPSPort)) if i == 0 { proxy.SetSupervisorDefault(addresses[i]) } } } proxy.Update(addresses) return nil case <-ctx.Done(): return ctx.Err() } } } // tunnelSetup calls tunnel setup, unless the embedded etc cluster is being reset/restored, in which case // this is unnecessary as the kubelet is only needed to manage static pods and does not need to establish // tunneled connections to other cluster members. func tunnelSetup(ctx context.Context, nodeConfig *daemonconfig.Node, cfg cmds.Agent, proxy proxy.Proxy) error { if cfg.ClusterReset { return nil } return tunnel.Setup(ctx, nodeConfig, proxy) }