package config import ( "bufio" "context" cryptorand "crypto/rand" "crypto/tls" "encoding/hex" "encoding/pem" "fmt" "io" "net" "net/http" "net/url" "os" "os/exec" "path/filepath" "regexp" "strconv" "strings" "time" "github.com/k3s-io/k3s/pkg/agent/containerd" "github.com/k3s-io/k3s/pkg/agent/proxy" agentutil "github.com/k3s-io/k3s/pkg/agent/util" "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/daemons/control/deps" "github.com/k3s-io/k3s/pkg/spegel" "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/wharfie/pkg/registries" "github.com/rancher/wrangler/pkg/slice" "github.com/sirupsen/logrus" "k8s.io/apimachinery/pkg/util/json" "k8s.io/apimachinery/pkg/util/wait" utilsnet "k8s.io/utils/net" ) const ( DefaultPodManifestPath = "pod-manifests" ) // Get returns a pointer to a completed Node configuration struct, // containing a merging of the local CLI configuration with settings from the server. // Node configuration includes client certificates, which requires node password verification, // so this is somewhat computationally expensive on the server side, and is retried with jitter // to avoid having clients hammer on the server at fixed periods. // A call to this will bock until agent configuration is successfully returned by the // server, or the context is cancelled. func Get(ctx context.Context, agent cmds.Agent, proxy proxy.Proxy) (*config.Node, error) { var agentConfig *config.Node var err error // This would be more clear as wait.PollImmediateUntilWithContext, but that function // does not support jittering, so we instead use wait.JitterUntilWithContext, and cancel // the context on success. ctx, cancel := context.WithCancel(ctx) wait.JitterUntilWithContext(ctx, func(ctx context.Context) { agentConfig, err = get(ctx, &agent, proxy) if err != nil { logrus.Infof("Waiting to retrieve agent configuration; server is not ready: %v", err) } else { cancel() } }, 5*time.Second, 1.0, true) return agentConfig, err } // KubeProxyDisabled returns a bool indicating whether or not kube-proxy has been disabled in the // server configuration. The server may not have a complete view of cluster configuration until // after all startup hooks have completed, so a call to this will block until after the server's // readyz endpoint returns OK. func KubeProxyDisabled(ctx context.Context, node *config.Node, proxy proxy.Proxy) bool { var disabled bool var err error wait.PollImmediateUntilWithContext(ctx, 5*time.Second, func(ctx context.Context) (bool, error) { disabled, err = getKubeProxyDisabled(ctx, node, proxy) if err != nil { logrus.Infof("Waiting to retrieve kube-proxy configuration; server is not ready: %v", err) return false, nil } return true, nil }) return disabled } // APIServers returns a list of apiserver endpoints, suitable for seeding client loadbalancer configurations. // This function will block until it can return a populated list of apiservers, or if the remote server returns // an error (indicating that it does not support this functionality). func APIServers(ctx context.Context, node *config.Node, proxy proxy.Proxy) []string { var addresses []string var err error wait.PollImmediateUntilWithContext(ctx, 5*time.Second, func(ctx context.Context) (bool, error) { addresses, err = getAPIServers(ctx, node, proxy) if err != nil { logrus.Infof("Failed to retrieve list of apiservers from server: %v", err) return false, err } if len(addresses) == 0 { logrus.Infof("Waiting for apiserver addresses") return false, nil } return true, nil }) return addresses } type HTTPRequester func(u string, client *http.Client, username, password, token string) ([]byte, error) func Request(path string, info *clientaccess.Info, requester HTTPRequester) ([]byte, error) { u, err := url.Parse(info.BaseURL) if err != nil { return nil, err } u.Path = path return requester(u.String(), clientaccess.GetHTTPClient(info.CACerts, info.CertFile, info.KeyFile), info.Username, info.Password, info.Token()) } func getNodeNamedCrt(nodeName string, nodeIPs []net.IP, nodePasswordFile string) HTTPRequester { return func(u string, client *http.Client, username, password, token string) ([]byte, error) { req, err := http.NewRequest(http.MethodGet, u, nil) if err != nil { return nil, err } if token != "" { req.Header.Add("Authorization", "Bearer "+token) } else if username != "" { req.SetBasicAuth(username, password) } req.Header.Set(version.Program+"-Node-Name", nodeName) nodePassword, err := ensureNodePassword(nodePasswordFile) if err != nil { return nil, err } req.Header.Set(version.Program+"-Node-Password", nodePassword) req.Header.Set(version.Program+"-Node-IP", util.JoinIPs(nodeIPs)) resp, err := client.Do(req) if err != nil { return nil, err } defer resp.Body.Close() // If we got a 401 Unauthorized response when using client certs, try again without client cert auth. // This allows us to fall back from node identity to token when the node resource is deleted. if resp.StatusCode == http.StatusUnauthorized { if transport, ok := client.Transport.(*http.Transport); ok && transport.TLSClientConfig != nil && len(transport.TLSClientConfig.Certificates) != 0 { logrus.Infof("Node authorization rejected, retrying without client certificate authentication") transport.TLSClientConfig.Certificates = []tls.Certificate{} resp, err = client.Do(req) if err != nil { return nil, err } defer resp.Body.Close() } } if resp.StatusCode == http.StatusForbidden { return nil, fmt.Errorf("Node password rejected, duplicate hostname or contents of '%s' may not match server node-passwd entry, try enabling a unique node name with the --with-node-id flag", nodePasswordFile) } if resp.StatusCode != http.StatusOK { return nil, fmt.Errorf("%s: %s", u, resp.Status) } return io.ReadAll(resp.Body) } } func ensureNodeID(nodeIDFile string) (string, error) { if _, err := os.Stat(nodeIDFile); err == nil { id, err := os.ReadFile(nodeIDFile) return strings.TrimSpace(string(id)), err } id := make([]byte, 4, 4) _, err := cryptorand.Read(id) if err != nil { return "", err } nodeID := hex.EncodeToString(id) return nodeID, os.WriteFile(nodeIDFile, []byte(nodeID+"\n"), 0644) } func ensureNodePassword(nodePasswordFile string) (string, error) { if _, err := os.Stat(nodePasswordFile); err == nil { password, err := os.ReadFile(nodePasswordFile) return strings.TrimSpace(string(password)), err } password := make([]byte, 16, 16) _, err := cryptorand.Read(password) if err != nil { return "", err } nodePassword := hex.EncodeToString(password) return nodePassword, os.WriteFile(nodePasswordFile, []byte(nodePassword+"\n"), 0600) } func upgradeOldNodePasswordPath(oldNodePasswordFile, newNodePasswordFile string) { password, err := os.ReadFile(oldNodePasswordFile) if err != nil { return } if err := os.WriteFile(newNodePasswordFile, password, 0600); err != nil { logrus.Warnf("Unable to write password file: %v", err) return } if err := os.Remove(oldNodePasswordFile); err != nil { logrus.Warnf("Unable to remove old password file: %v", err) return } } func getServingCert(nodeName string, nodeIPs []net.IP, servingCertFile, servingKeyFile, nodePasswordFile string, info *clientaccess.Info) (*tls.Certificate, error) { servingCert, err := Request("/v1-"+version.Program+"/serving-kubelet.crt", info, getNodeNamedCrt(nodeName, nodeIPs, nodePasswordFile)) if err != nil { return nil, err } servingCert, servingKey := splitCertKeyPEM(servingCert) if err := os.WriteFile(servingCertFile, servingCert, 0600); err != nil { return nil, errors.Wrapf(err, "failed to write node cert") } if err := os.WriteFile(servingKeyFile, servingKey, 0600); err != nil { return nil, errors.Wrapf(err, "failed to write node key") } cert, err := tls.X509KeyPair(servingCert, servingKey) if err != nil { return nil, err } return &cert, nil } func getHostFile(filename, keyFile string, info *clientaccess.Info) error { basename := filepath.Base(filename) fileBytes, err := info.Get("/v1-" + version.Program + "/" + basename) if err != nil { return err } if keyFile == "" { if err := os.WriteFile(filename, fileBytes, 0600); err != nil { return errors.Wrapf(err, "failed to write cert %s", filename) } } else { fileBytes, keyBytes := splitCertKeyPEM(fileBytes) if err := os.WriteFile(filename, fileBytes, 0600); err != nil { return errors.Wrapf(err, "failed to write cert %s", filename) } if err := os.WriteFile(keyFile, keyBytes, 0600); err != nil { return errors.Wrapf(err, "failed to write key %s", filename) } } return nil } func splitCertKeyPEM(bytes []byte) (certPem []byte, keyPem []byte) { for { b, rest := pem.Decode(bytes) if b == nil { break } bytes = rest if strings.Contains(b.Type, "PRIVATE KEY") { keyPem = append(keyPem, pem.EncodeToMemory(b)...) } else { certPem = append(certPem, pem.EncodeToMemory(b)...) } } return } func getNodeNamedHostFile(filename, keyFile, nodeName string, nodeIPs []net.IP, nodePasswordFile string, info *clientaccess.Info) error { basename := filepath.Base(filename) fileBytes, err := Request("/v1-"+version.Program+"/"+basename, info, getNodeNamedCrt(nodeName, nodeIPs, nodePasswordFile)) if err != nil { return err } fileBytes, keyBytes := splitCertKeyPEM(fileBytes) if err := os.WriteFile(filename, fileBytes, 0600); err != nil { return errors.Wrapf(err, "failed to write cert %s", filename) } if err := os.WriteFile(keyFile, keyBytes, 0600); err != nil { return errors.Wrapf(err, "failed to write key %s", filename) } return nil } func isValidResolvConf(resolvConfFile string) bool { file, err := os.Open(resolvConfFile) if err != nil { return false } defer file.Close() nameserver := regexp.MustCompile(`^nameserver\s+([^\s]*)`) scanner := bufio.NewScanner(file) for scanner.Scan() { ipMatch := nameserver.FindStringSubmatch(scanner.Text()) if len(ipMatch) == 2 { ip := net.ParseIP(ipMatch[1]) if ip == nil || !ip.IsGlobalUnicast() { return false } } } if err := scanner.Err(); err != nil { return false } return true } func locateOrGenerateResolvConf(envInfo *cmds.Agent) string { if envInfo.ResolvConf != "" { return envInfo.ResolvConf } resolvConfs := []string{"/etc/resolv.conf", "/run/systemd/resolve/resolv.conf"} for _, conf := range resolvConfs { if isValidResolvConf(conf) { return conf } } resolvConf := filepath.Join(envInfo.DataDir, "agent", "etc", "resolv.conf") if err := agentutil.WriteFile(resolvConf, "nameserver 8.8.8.8\n"); err != nil { logrus.Errorf("Failed to write %s: %v", resolvConf, err) return "" } logrus.Warnf("Host resolv.conf includes loopback or multicast nameservers - kubelet will use autogenerated resolv.conf with nameserver 8.8.8.8") return resolvConf } func get(ctx context.Context, envInfo *cmds.Agent, proxy proxy.Proxy) (*config.Node, error) { if envInfo.Debug { logrus.SetLevel(logrus.DebugLevel) } clientKubeletCert := filepath.Join(envInfo.DataDir, "agent", "client-kubelet.crt") clientKubeletKey := filepath.Join(envInfo.DataDir, "agent", "client-kubelet.key") withCert := clientaccess.WithClientCertificate(clientKubeletCert, clientKubeletKey) info, err := clientaccess.ParseAndValidateToken(proxy.SupervisorURL(), envInfo.Token, withCert) if err != nil { return nil, err } controlConfig, err := getConfig(info) if err != nil { return nil, errors.Wrap(err, "failed to retrieve configuration from server") } // If the supervisor and externally-facing apiserver are not on the same port, tell the proxy where to find the apiserver. if controlConfig.SupervisorPort != controlConfig.HTTPSPort { isIPv6 := utilsnet.IsIPv6(net.ParseIP([]string{envInfo.NodeIP.String()}[0])) if err := proxy.SetAPIServerPort(ctx, controlConfig.HTTPSPort, isIPv6); err != nil { return nil, errors.Wrapf(err, "failed to setup access to API Server port %d on at %s", controlConfig.HTTPSPort, proxy.SupervisorURL()) } } var flannelIface *net.Interface if controlConfig.FlannelBackend != config.FlannelBackendNone && len(envInfo.FlannelIface) > 0 { flannelIface, err = net.InterfaceByName(envInfo.FlannelIface) if err != nil { return nil, errors.Wrapf(err, "unable to find interface %s", envInfo.FlannelIface) } } clientCAFile := filepath.Join(envInfo.DataDir, "agent", "client-ca.crt") if err := getHostFile(clientCAFile, "", info); err != nil { return nil, err } serverCAFile := filepath.Join(envInfo.DataDir, "agent", "server-ca.crt") if err := getHostFile(serverCAFile, "", info); err != nil { return nil, err } servingKubeletCert := filepath.Join(envInfo.DataDir, "agent", "serving-kubelet.crt") servingKubeletKey := filepath.Join(envInfo.DataDir, "agent", "serving-kubelet.key") nodePasswordRoot := "/" if envInfo.Rootless { nodePasswordRoot = filepath.Join(envInfo.DataDir, "agent") } nodeConfigPath := filepath.Join(nodePasswordRoot, "etc", "rancher", "node") if err := os.MkdirAll(nodeConfigPath, 0755); err != nil { return nil, err } oldNodePasswordFile := filepath.Join(envInfo.DataDir, "agent", "node-password.txt") newNodePasswordFile := filepath.Join(nodeConfigPath, "password") upgradeOldNodePasswordPath(oldNodePasswordFile, newNodePasswordFile) nodeName, nodeIPs, err := util.GetHostnameAndIPs(envInfo.NodeName, envInfo.NodeIP) if err != nil { return nil, err } // If there is a VPN, we must overwrite NodeIP and flannel interface var vpnInfo vpn.VPNInfo if envInfo.VPNAuth != "" { vpnInfo, err = vpn.GetVPNInfo(envInfo.VPNAuth) if err != nil { return nil, err } // Pass ipv4, ipv6 or both depending on nodeIPs mode var vpnIPs []net.IP if utilsnet.IsIPv4(nodeIPs[0]) && vpnInfo.IPv4Address != nil { vpnIPs = append(vpnIPs, vpnInfo.IPv4Address) if vpnInfo.IPv6Address != nil { vpnIPs = append(vpnIPs, vpnInfo.IPv6Address) } } else if utilsnet.IsIPv6(nodeIPs[0]) && vpnInfo.IPv6Address != nil { vpnIPs = append(vpnIPs, vpnInfo.IPv6Address) if vpnInfo.IPv4Address != nil { vpnIPs = append(vpnIPs, vpnInfo.IPv4Address) } } else { return nil, errors.Errorf("address family mismatch when assigning VPN addresses to node: node=%v, VPN ipv4=%v ipv6=%v", nodeIPs, vpnInfo.IPv4Address, vpnInfo.IPv6Address) } // Overwrite nodeip and flannel interface and throw a warning if user explicitly set those parameters if len(vpnIPs) != 0 { logrus.Infof("Node-ip changed to %v due to VPN", vpnIPs) if len(envInfo.NodeIP) != 0 { logrus.Warn("VPN provider overrides configured node-ip parameter") } if len(envInfo.NodeExternalIP) != 0 { logrus.Warn("VPN provider overrides node-external-ip parameter") } nodeIPs = vpnIPs flannelIface, err = net.InterfaceByName(vpnInfo.VPNInterface) if err != nil { return nil, errors.Wrapf(err, "unable to find vpn interface: %s", vpnInfo.VPNInterface) } } } nodeExternalIPs, err := util.ParseStringSliceToIPs(envInfo.NodeExternalIP) if err != nil { return nil, fmt.Errorf("invalid node-external-ip: %w", err) } if envInfo.WithNodeID { nodeID, err := ensureNodeID(filepath.Join(nodeConfigPath, "id")) if err != nil { return nil, err } nodeName += "-" + nodeID } os.Setenv("NODE_NAME", nodeName) nodeExternalAndInternalIPs := append(nodeIPs, nodeExternalIPs...) servingCert, err := getServingCert(nodeName, nodeExternalAndInternalIPs, servingKubeletCert, servingKubeletKey, newNodePasswordFile, info) if err != nil { return nil, err } if err := getNodeNamedHostFile(clientKubeletCert, clientKubeletKey, nodeName, nodeIPs, newNodePasswordFile, info); err != nil { return nil, err } kubeconfigKubelet := filepath.Join(envInfo.DataDir, "agent", "kubelet.kubeconfig") if err := deps.KubeConfig(kubeconfigKubelet, proxy.APIServerURL(), serverCAFile, clientKubeletCert, clientKubeletKey); err != nil { return nil, err } clientKubeProxyCert := filepath.Join(envInfo.DataDir, "agent", "client-kube-proxy.crt") clientKubeProxyKey := filepath.Join(envInfo.DataDir, "agent", "client-kube-proxy.key") if err := getHostFile(clientKubeProxyCert, clientKubeProxyKey, info); err != nil { return nil, err } kubeconfigKubeproxy := filepath.Join(envInfo.DataDir, "agent", "kubeproxy.kubeconfig") if err := deps.KubeConfig(kubeconfigKubeproxy, proxy.APIServerURL(), serverCAFile, clientKubeProxyCert, clientKubeProxyKey); err != nil { return nil, err } clientK3sControllerCert := filepath.Join(envInfo.DataDir, "agent", "client-"+version.Program+"-controller.crt") clientK3sControllerKey := filepath.Join(envInfo.DataDir, "agent", "client-"+version.Program+"-controller.key") if err := getHostFile(clientK3sControllerCert, clientK3sControllerKey, info); err != nil { return nil, err } kubeconfigK3sController := filepath.Join(envInfo.DataDir, "agent", version.Program+"controller.kubeconfig") if err := deps.KubeConfig(kubeconfigK3sController, proxy.APIServerURL(), serverCAFile, clientK3sControllerCert, clientK3sControllerKey); err != nil { return nil, err } nodeConfig := &config.Node{ Docker: envInfo.Docker, SELinux: envInfo.EnableSELinux, ContainerRuntimeEndpoint: envInfo.ContainerRuntimeEndpoint, ImageServiceEndpoint: envInfo.ImageServiceEndpoint, EmbeddedRegistry: controlConfig.EmbeddedRegistry, FlannelBackend: controlConfig.FlannelBackend, FlannelIPv6Masq: controlConfig.FlannelIPv6Masq, FlannelExternalIP: controlConfig.FlannelExternalIP, EgressSelectorMode: controlConfig.EgressSelectorMode, ServerHTTPSPort: controlConfig.HTTPSPort, Token: info.String(), } nodeConfig.FlannelIface = flannelIface nodeConfig.Images = filepath.Join(envInfo.DataDir, "agent", "images") nodeConfig.AgentConfig.NodeName = nodeName nodeConfig.AgentConfig.NodeConfigPath = nodeConfigPath nodeConfig.AgentConfig.ClientKubeletCert = clientKubeletCert nodeConfig.AgentConfig.ClientKubeletKey = clientKubeletKey nodeConfig.AgentConfig.ServingKubeletCert = servingKubeletCert nodeConfig.AgentConfig.ServingKubeletKey = servingKubeletKey nodeConfig.AgentConfig.ClusterDNS = controlConfig.ClusterDNS nodeConfig.AgentConfig.ClusterDomain = controlConfig.ClusterDomain nodeConfig.AgentConfig.ResolvConf = locateOrGenerateResolvConf(envInfo) nodeConfig.AgentConfig.ClientCA = clientCAFile nodeConfig.AgentConfig.KubeConfigKubelet = kubeconfigKubelet nodeConfig.AgentConfig.KubeConfigKubeProxy = kubeconfigKubeproxy nodeConfig.AgentConfig.KubeConfigK3sController = kubeconfigK3sController if envInfo.Rootless { nodeConfig.AgentConfig.RootDir = filepath.Join(envInfo.DataDir, "agent", "kubelet") } nodeConfig.AgentConfig.Snapshotter = envInfo.Snapshotter nodeConfig.AgentConfig.IPSECPSK = controlConfig.IPSECPSK nodeConfig.Containerd.Config = filepath.Join(envInfo.DataDir, "agent", "etc", "containerd", "config.toml") nodeConfig.Containerd.Root = filepath.Join(envInfo.DataDir, "agent", "containerd") nodeConfig.CRIDockerd.Root = filepath.Join(envInfo.DataDir, "agent", "cri-dockerd") if !nodeConfig.Docker { if nodeConfig.ImageServiceEndpoint != "" { nodeConfig.AgentConfig.ImageServiceSocket = nodeConfig.ImageServiceEndpoint } else if nodeConfig.ContainerRuntimeEndpoint == "" { switch nodeConfig.AgentConfig.Snapshotter { case "overlayfs": if err := containerd.OverlaySupported(nodeConfig.Containerd.Root); err != nil { return nil, errors.Wrapf(err, "\"overlayfs\" snapshotter cannot be enabled for %q, try using \"fuse-overlayfs\" or \"native\"", nodeConfig.Containerd.Root) } case "fuse-overlayfs": if err := containerd.FuseoverlayfsSupported(nodeConfig.Containerd.Root); err != nil { return nil, errors.Wrapf(err, "\"fuse-overlayfs\" snapshotter cannot be enabled for %q, try using \"native\"", nodeConfig.Containerd.Root) } case "stargz": if err := containerd.StargzSupported(nodeConfig.Containerd.Root); err != nil { return nil, errors.Wrapf(err, "\"stargz\" snapshotter cannot be enabled for %q, try using \"overlayfs\" or \"native\"", nodeConfig.Containerd.Root) } nodeConfig.AgentConfig.ImageServiceSocket = "/run/containerd-stargz-grpc/containerd-stargz-grpc.sock" } } else { nodeConfig.AgentConfig.ImageServiceSocket = nodeConfig.ContainerRuntimeEndpoint } } nodeConfig.Containerd.Opt = filepath.Join(envInfo.DataDir, "agent", "containerd") nodeConfig.Containerd.Log = filepath.Join(envInfo.DataDir, "agent", "containerd", "containerd.log") nodeConfig.Containerd.Registry = filepath.Join(envInfo.DataDir, "agent", "etc", "containerd", "certs.d") nodeConfig.Containerd.NoDefault = envInfo.ContainerdNoDefault nodeConfig.Containerd.Debug = envInfo.Debug applyContainerdStateAndAddress(nodeConfig) applyCRIDockerdAddress(nodeConfig) applyContainerdQoSClassConfigFileIfPresent(envInfo, &nodeConfig.Containerd) nodeConfig.Containerd.Template = filepath.Join(envInfo.DataDir, "agent", "etc", "containerd", "config.toml.tmpl") nodeConfig.Certificate = servingCert nodeConfig.AgentConfig.NodeIPs = nodeIPs listenAddress, _, _, err := util.GetDefaultAddresses(nodeIPs[0]) if err != nil { return nil, errors.Wrap(err, "cannot configure IPv4/IPv6 node-ip") } nodeConfig.AgentConfig.NodeIP = nodeIPs[0].String() nodeConfig.AgentConfig.ListenAddress = listenAddress nodeConfig.AgentConfig.NodeExternalIPs = nodeExternalIPs // if configured, set NodeExternalIP to the first IPv4 address, for legacy clients // unless only IPv6 address given if len(nodeConfig.AgentConfig.NodeExternalIPs) > 0 { nodeConfig.AgentConfig.NodeExternalIP = nodeConfig.AgentConfig.NodeExternalIPs[0].String() } nodeConfig.NoFlannel = nodeConfig.FlannelBackend == config.FlannelBackendNone if !nodeConfig.NoFlannel { hostLocal, err := exec.LookPath("host-local") if err != nil { return nil, errors.Wrapf(err, "failed to find host-local") } if envInfo.FlannelConf == "" { nodeConfig.FlannelConfFile = filepath.Join(envInfo.DataDir, "agent", "etc", "flannel", "net-conf.json") } else { nodeConfig.FlannelConfFile = envInfo.FlannelConf nodeConfig.FlannelConfOverride = true } nodeConfig.AgentConfig.CNIBinDir = filepath.Dir(hostLocal) nodeConfig.AgentConfig.CNIConfDir = filepath.Join(envInfo.DataDir, "agent", "etc", "cni", "net.d") nodeConfig.AgentConfig.FlannelCniConfFile = envInfo.FlannelCniConfFile // It does not make sense to use VPN without its flannel backend if envInfo.VPNAuth != "" { nodeConfig.FlannelBackend = vpnInfo.ProviderName } } if nodeConfig.Docker { nodeConfig.AgentConfig.CNIPlugin = true nodeConfig.AgentConfig.RuntimeSocket = nodeConfig.CRIDockerd.Address } else if nodeConfig.ContainerRuntimeEndpoint == "" { nodeConfig.AgentConfig.RuntimeSocket = nodeConfig.Containerd.Address } else { nodeConfig.AgentConfig.RuntimeSocket = nodeConfig.ContainerRuntimeEndpoint } if controlConfig.ClusterIPRange != nil { nodeConfig.AgentConfig.ClusterCIDR = controlConfig.ClusterIPRange nodeConfig.AgentConfig.ClusterCIDRs = []*net.IPNet{controlConfig.ClusterIPRange} } if len(controlConfig.ClusterIPRanges) > 0 { nodeConfig.AgentConfig.ClusterCIDRs = controlConfig.ClusterIPRanges } if controlConfig.ServiceIPRange != nil { nodeConfig.AgentConfig.ServiceCIDR = controlConfig.ServiceIPRange nodeConfig.AgentConfig.ServiceCIDRs = []*net.IPNet{controlConfig.ServiceIPRange} } if len(controlConfig.ServiceIPRanges) > 0 { nodeConfig.AgentConfig.ServiceCIDRs = controlConfig.ServiceIPRanges } if controlConfig.ServiceNodePortRange != nil { nodeConfig.AgentConfig.ServiceNodePortRange = *controlConfig.ServiceNodePortRange } if len(controlConfig.ClusterDNSs) == 0 { nodeConfig.AgentConfig.ClusterDNSs = []net.IP{controlConfig.ClusterDNS} } else { nodeConfig.AgentConfig.ClusterDNSs = controlConfig.ClusterDNSs } nodeConfig.AgentConfig.PauseImage = envInfo.PauseImage nodeConfig.AgentConfig.AirgapExtraRegistry = envInfo.AirgapExtraRegistry nodeConfig.AgentConfig.SystemDefaultRegistry = controlConfig.SystemDefaultRegistry // Apply SystemDefaultRegistry to PauseImage and AirgapExtraRegistry if controlConfig.SystemDefaultRegistry != "" { if nodeConfig.AgentConfig.PauseImage != "" && !strings.HasPrefix(nodeConfig.AgentConfig.PauseImage, controlConfig.SystemDefaultRegistry) { nodeConfig.AgentConfig.PauseImage = controlConfig.SystemDefaultRegistry + "/" + nodeConfig.AgentConfig.PauseImage } if !slice.ContainsString(nodeConfig.AgentConfig.AirgapExtraRegistry, controlConfig.SystemDefaultRegistry) { nodeConfig.AgentConfig.AirgapExtraRegistry = append(nodeConfig.AgentConfig.AirgapExtraRegistry, controlConfig.SystemDefaultRegistry) } } nodeConfig.AgentConfig.ExtraKubeletArgs = envInfo.ExtraKubeletArgs nodeConfig.AgentConfig.ExtraKubeProxyArgs = envInfo.ExtraKubeProxyArgs nodeConfig.AgentConfig.NodeTaints = envInfo.Taints nodeConfig.AgentConfig.NodeLabels = envInfo.Labels nodeConfig.AgentConfig.ImageCredProvBinDir = envInfo.ImageCredProvBinDir nodeConfig.AgentConfig.ImageCredProvConfig = envInfo.ImageCredProvConfig nodeConfig.AgentConfig.DisableCCM = controlConfig.DisableCCM nodeConfig.AgentConfig.DisableNPC = controlConfig.DisableNPC nodeConfig.AgentConfig.Rootless = envInfo.Rootless nodeConfig.AgentConfig.PodManifests = filepath.Join(envInfo.DataDir, "agent", DefaultPodManifestPath) nodeConfig.AgentConfig.ProtectKernelDefaults = envInfo.ProtectKernelDefaults nodeConfig.AgentConfig.DisableServiceLB = envInfo.DisableServiceLB nodeConfig.AgentConfig.VLevel = cmds.LogConfig.VLevel nodeConfig.AgentConfig.VModule = cmds.LogConfig.VModule nodeConfig.AgentConfig.LogFile = cmds.LogConfig.LogFile nodeConfig.AgentConfig.AlsoLogToStderr = cmds.LogConfig.AlsoLogToStderr privRegistries, err := registries.GetPrivateRegistries(envInfo.PrivateRegistry) if err != nil { return nil, err } nodeConfig.AgentConfig.Registry = privRegistries.Registry if nodeConfig.EmbeddedRegistry { psk, err := hex.DecodeString(controlConfig.IPSECPSK) if err != nil { return nil, err } if len(psk) < 32 { return nil, errors.New("insufficient PSK bytes") } conf := spegel.DefaultRegistry conf.ExternalAddress = nodeConfig.AgentConfig.NodeIP conf.InternalAddress = controlConfig.Loopback(false) conf.RegistryPort = strconv.Itoa(controlConfig.SupervisorPort) conf.ClientCAFile = clientCAFile conf.ClientCertFile = clientK3sControllerCert conf.ClientKeyFile = clientK3sControllerKey conf.ServerCAFile = serverCAFile conf.ServerCertFile = servingKubeletCert conf.ServerKeyFile = servingKubeletKey conf.PSK = psk[:32] conf.InjectMirror(nodeConfig) } if err := validateNetworkConfig(nodeConfig); err != nil { return nil, err } return nodeConfig, nil } // getAPIServers attempts to return a list of apiservers from the server. func getAPIServers(ctx context.Context, node *config.Node, proxy proxy.Proxy) ([]string, error) { withCert := clientaccess.WithClientCertificate(node.AgentConfig.ClientKubeletCert, node.AgentConfig.ClientKubeletKey) info, err := clientaccess.ParseAndValidateToken(proxy.SupervisorURL(), node.Token, withCert) if err != nil { return nil, err } data, err := info.Get("/v1-" + version.Program + "/apiservers") if err != nil { return nil, err } endpoints := []string{} return endpoints, json.Unmarshal(data, &endpoints) } // getKubeProxyDisabled attempts to return the DisableKubeProxy setting from the server configuration data. // It first checks the server readyz endpoint, to ensure that the configuration has stabilized before use. func getKubeProxyDisabled(ctx context.Context, node *config.Node, proxy proxy.Proxy) (bool, error) { withCert := clientaccess.WithClientCertificate(node.AgentConfig.ClientKubeletCert, node.AgentConfig.ClientKubeletKey) info, err := clientaccess.ParseAndValidateToken(proxy.SupervisorURL(), node.Token, withCert) if err != nil { return false, err } // 500 error indicates that the health check has failed; other errors (for example 401 Unauthorized) // indicate that the server is down-level and doesn't support readyz, so we should just use whatever // the server has for us. if err := getReadyz(info); err != nil && strings.HasSuffix(err.Error(), "500 Internal Server Error") { return false, err } controlConfig, err := getConfig(info) if err != nil { return false, errors.Wrap(err, "failed to retrieve configuration from server") } return controlConfig.DisableKubeProxy, nil } // getConfig returns server configuration data. Note that this may be mutated during system startup; anything that needs // to ensure stable system state should check the readyz endpoint first. This is required because RKE2 starts up the // kubelet early, before the apiserver is available. func getConfig(info *clientaccess.Info) (*config.Control, error) { data, err := info.Get("/v1-" + version.Program + "/config") if err != nil { return nil, err } controlControl := &config.Control{} return controlControl, json.Unmarshal(data, controlControl) } // getReadyz returns nil if the server is ready, or an error if not. func getReadyz(info *clientaccess.Info) error { _, err := info.Get("/v1-" + version.Program + "/readyz") return err } // validateNetworkConfig ensures that the network configuration values provided by the server make sense. func validateNetworkConfig(nodeConfig *config.Node) error { // Old versions of the server do not send enough information to correctly start the NPC. Users // need to upgrade the server to at least the same version as the agent, or disable the NPC // cluster-wide. if nodeConfig.AgentConfig.DisableNPC == false && (nodeConfig.AgentConfig.ServiceCIDR == nil || nodeConfig.AgentConfig.ServiceNodePortRange.Size == 0) { return fmt.Errorf("incompatible down-level server detected; servers must be upgraded to at least %s, or restarted with --disable-network-policy", version.Version) } return nil }