// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause //go:build !plan9 // tailscale-operator provides a way to expose services running in a Kubernetes // cluster to your Tailnet. package main import ( "context" "os" "regexp" "strings" "time" "github.com/go-logr/zapr" "go.uber.org/zap" "go.uber.org/zap/zapcore" "golang.org/x/oauth2/clientcredentials" appsv1 "k8s.io/api/apps/v1" corev1 "k8s.io/api/core/v1" discoveryv1 "k8s.io/api/discovery/v1" networkingv1 "k8s.io/api/networking/v1" rbacv1 "k8s.io/api/rbac/v1" "k8s.io/apimachinery/pkg/types" "k8s.io/client-go/rest" "sigs.k8s.io/controller-runtime/pkg/builder" "sigs.k8s.io/controller-runtime/pkg/cache" "sigs.k8s.io/controller-runtime/pkg/client" "sigs.k8s.io/controller-runtime/pkg/client/config" "sigs.k8s.io/controller-runtime/pkg/handler" logf "sigs.k8s.io/controller-runtime/pkg/log" kzap "sigs.k8s.io/controller-runtime/pkg/log/zap" "sigs.k8s.io/controller-runtime/pkg/manager" "sigs.k8s.io/controller-runtime/pkg/manager/signals" "sigs.k8s.io/controller-runtime/pkg/reconcile" "tailscale.com/client/tailscale" "tailscale.com/hostinfo" "tailscale.com/ipn" "tailscale.com/ipn/store/kubestore" tsapi "tailscale.com/k8s-operator/apis/v1alpha1" "tailscale.com/kube/kubetypes" "tailscale.com/tsnet" "tailscale.com/tstime" "tailscale.com/types/logger" "tailscale.com/version" ) // Generate Connector and ProxyClass CustomResourceDefinition yamls from their Go types. //go:generate go run sigs.k8s.io/controller-tools/cmd/controller-gen crd schemapatch:manifests=./deploy/crds output:dir=./deploy/crds paths=../../k8s-operator/apis/... // Generate static manifests for deploying Tailscale operator on Kubernetes from the operator's Helm chart. //go:generate go run tailscale.com/cmd/k8s-operator/generate staticmanifests // Generate CRD API docs. //go:generate go run github.com/elastic/crd-ref-docs --renderer=markdown --source-path=../../k8s-operator/apis/ --config=../../k8s-operator/api-docs-config.yaml --output-path=../../k8s-operator/api.md func main() { // Required to use our client API. We're fine with the instability since the // client lives in the same repo as this code. tailscale.I_Acknowledge_This_API_Is_Unstable = true var ( tsNamespace = defaultEnv("OPERATOR_NAMESPACE", "") tslogging = defaultEnv("OPERATOR_LOGGING", "info") image = defaultEnv("PROXY_IMAGE", "tailscale/tailscale:latest") priorityClassName = defaultEnv("PROXY_PRIORITY_CLASS_NAME", "") tags = defaultEnv("PROXY_TAGS", "tag:k8s") tsFirewallMode = defaultEnv("PROXY_FIREWALL_MODE", "") defaultProxyClass = defaultEnv("PROXY_DEFAULT_CLASS", "") isDefaultLoadBalancer = defaultBool("OPERATOR_DEFAULT_LOAD_BALANCER", false) ) var opts []kzap.Opts switch tslogging { case "info": opts = append(opts, kzap.Level(zapcore.InfoLevel)) case "debug": opts = append(opts, kzap.Level(zapcore.DebugLevel)) case "dev": opts = append(opts, kzap.UseDevMode(true), kzap.Level(zapcore.DebugLevel)) } zlog := kzap.NewRaw(opts...).Sugar() logf.SetLogger(zapr.NewLogger(zlog.Desugar())) // The operator can run either as a plain operator or it can // additionally act as api-server proxy // https://tailscale.com/kb/1236/kubernetes-operator/?q=kubernetes#accessing-the-kubernetes-control-plane-using-an-api-server-proxy. mode := parseAPIProxyMode() if mode == apiserverProxyModeDisabled { hostinfo.SetApp(kubetypes.AppOperator) } else { hostinfo.SetApp(kubetypes.AppAPIServerProxy) } s, tsClient := initTSNet(zlog) defer s.Close() restConfig := config.GetConfigOrDie() maybeLaunchAPIServerProxy(zlog, restConfig, s, mode) rOpts := reconcilerOpts{ log: zlog, tsServer: s, tsClient: tsClient, tailscaleNamespace: tsNamespace, restConfig: restConfig, proxyImage: image, proxyPriorityClassName: priorityClassName, proxyActAsDefaultLoadBalancer: isDefaultLoadBalancer, proxyTags: tags, proxyFirewallMode: tsFirewallMode, defaultProxyClass: defaultProxyClass, } runReconcilers(rOpts) } // initTSNet initializes the tsnet.Server and logs in to Tailscale. It uses the // CLIENT_ID_FILE and CLIENT_SECRET_FILE environment variables to authenticate // with Tailscale. func initTSNet(zlog *zap.SugaredLogger) (*tsnet.Server, *tailscale.Client) { var ( clientIDPath = defaultEnv("CLIENT_ID_FILE", "") clientSecretPath = defaultEnv("CLIENT_SECRET_FILE", "") hostname = defaultEnv("OPERATOR_HOSTNAME", "tailscale-operator") kubeSecret = defaultEnv("OPERATOR_SECRET", "") operatorTags = defaultEnv("OPERATOR_INITIAL_TAGS", "tag:k8s-operator") ) startlog := zlog.Named("startup") if clientIDPath == "" || clientSecretPath == "" { startlog.Fatalf("CLIENT_ID_FILE and CLIENT_SECRET_FILE must be set") } clientID, err := os.ReadFile(clientIDPath) if err != nil { startlog.Fatalf("reading client ID %q: %v", clientIDPath, err) } clientSecret, err := os.ReadFile(clientSecretPath) if err != nil { startlog.Fatalf("reading client secret %q: %v", clientSecretPath, err) } credentials := clientcredentials.Config{ ClientID: string(clientID), ClientSecret: string(clientSecret), TokenURL: "https://login.tailscale.com/api/v2/oauth/token", } tsClient := tailscale.NewClient("-", nil) tsClient.HTTPClient = credentials.Client(context.Background()) s := &tsnet.Server{ Hostname: hostname, Logf: zlog.Named("tailscaled").Debugf, } if kubeSecret != "" { st, err := kubestore.New(logger.Discard, kubeSecret) if err != nil { startlog.Fatalf("creating kube store: %v", err) } s.Store = st } if err := s.Start(); err != nil { startlog.Fatalf("starting tailscale server: %v", err) } lc, err := s.LocalClient() if err != nil { startlog.Fatalf("getting local client: %v", err) } ctx := context.Background() loginDone := false machineAuthShown := false waitOnline: for { startlog.Debugf("querying tailscaled status") st, err := lc.StatusWithoutPeers(ctx) if err != nil { startlog.Fatalf("getting status: %v", err) } switch st.BackendState { case "Running": break waitOnline case "NeedsLogin": if loginDone { break } caps := tailscale.KeyCapabilities{ Devices: tailscale.KeyDeviceCapabilities{ Create: tailscale.KeyDeviceCreateCapabilities{ Reusable: false, Preauthorized: true, Tags: strings.Split(operatorTags, ","), }, }, } authkey, _, err := tsClient.CreateKey(ctx, caps) if err != nil { startlog.Fatalf("creating operator authkey: %v", err) } if err := lc.Start(ctx, ipn.Options{ AuthKey: authkey, }); err != nil { startlog.Fatalf("starting tailscale: %v", err) } if err := lc.StartLoginInteractive(ctx); err != nil { startlog.Fatalf("starting login: %v", err) } startlog.Debugf("requested login by authkey") loginDone = true case "NeedsMachineAuth": if !machineAuthShown { startlog.Infof("Machine approval required, please visit the admin panel to approve") machineAuthShown = true } default: startlog.Debugf("waiting for tailscale to start: %v", st.BackendState) } time.Sleep(time.Second) } return s, tsClient } // runReconcilers starts the controller-runtime manager and registers the // ServiceReconciler. It blocks forever. func runReconcilers(opts reconcilerOpts) { startlog := opts.log.Named("startReconcilers") // For secrets and statefulsets, we only get permission to touch the objects // in the controller's own namespace. This cannot be expressed by // .Watches(...) below, instead you have to add a per-type field selector to // the cache that sits a few layers below the builder stuff, which will // implicitly filter what parts of the world the builder code gets to see at // all. nsFilter := cache.ByObject{ Field: client.InNamespace(opts.tailscaleNamespace).AsSelector(), } mgrOpts := manager.Options{ // TODO (irbekrm): stricter filtering what we watch/cache/call // reconcilers on. c/r by default starts a watch on any // resources that we GET via the controller manager's client. Cache: cache.Options{ ByObject: map[client.Object]cache.ByObject{ &corev1.Secret{}: nsFilter, &corev1.ServiceAccount{}: nsFilter, &corev1.Pod{}: nsFilter, &corev1.ConfigMap{}: nsFilter, &appsv1.StatefulSet{}: nsFilter, &appsv1.Deployment{}: nsFilter, &discoveryv1.EndpointSlice{}: nsFilter, &rbacv1.Role{}: nsFilter, &rbacv1.RoleBinding{}: nsFilter, }, }, Scheme: tsapi.GlobalScheme, } mgr, err := manager.New(opts.restConfig, mgrOpts) if err != nil { startlog.Fatalf("could not create manager: %v", err) } svcFilter := handler.EnqueueRequestsFromMapFunc(serviceHandler) svcChildFilter := handler.EnqueueRequestsFromMapFunc(managedResourceHandlerForType("svc")) // If a ProxyClass changes, enqueue all Services labeled with that // ProxyClass's name. proxyClassFilterForSvc := handler.EnqueueRequestsFromMapFunc(proxyClassHandlerForSvc(mgr.GetClient(), startlog)) eventRecorder := mgr.GetEventRecorderFor("tailscale-operator") ssr := &tailscaleSTSReconciler{ Client: mgr.GetClient(), tsnetServer: opts.tsServer, tsClient: opts.tsClient, defaultTags: strings.Split(opts.proxyTags, ","), operatorNamespace: opts.tailscaleNamespace, proxyImage: opts.proxyImage, proxyPriorityClassName: opts.proxyPriorityClassName, tsFirewallMode: opts.proxyFirewallMode, } err = builder. ControllerManagedBy(mgr). Named("service-reconciler"). Watches(&corev1.Service{}, svcFilter). Watches(&appsv1.StatefulSet{}, svcChildFilter). Watches(&corev1.Secret{}, svcChildFilter). Watches(&tsapi.ProxyClass{}, proxyClassFilterForSvc). Complete(&ServiceReconciler{ ssr: ssr, Client: mgr.GetClient(), logger: opts.log.Named("service-reconciler"), isDefaultLoadBalancer: opts.proxyActAsDefaultLoadBalancer, recorder: eventRecorder, tsNamespace: opts.tailscaleNamespace, clock: tstime.DefaultClock{}, defaultProxyClass: opts.defaultProxyClass, }) if err != nil { startlog.Fatalf("could not create service reconciler: %v", err) } ingressChildFilter := handler.EnqueueRequestsFromMapFunc(managedResourceHandlerForType("ingress")) // If a ProxyClassChanges, enqueue all Ingresses labeled with that // ProxyClass's name. proxyClassFilterForIngress := handler.EnqueueRequestsFromMapFunc(proxyClassHandlerForIngress(mgr.GetClient(), startlog)) // Enque Ingress if a managed Service or backend Service associated with a tailscale Ingress changes. svcHandlerForIngress := handler.EnqueueRequestsFromMapFunc(serviceHandlerForIngress(mgr.GetClient(), startlog)) err = builder. ControllerManagedBy(mgr). For(&networkingv1.Ingress{}). Watches(&appsv1.StatefulSet{}, ingressChildFilter). Watches(&corev1.Secret{}, ingressChildFilter). Watches(&corev1.Service{}, svcHandlerForIngress). Watches(&tsapi.ProxyClass{}, proxyClassFilterForIngress). Complete(&IngressReconciler{ ssr: ssr, recorder: eventRecorder, Client: mgr.GetClient(), logger: opts.log.Named("ingress-reconciler"), defaultProxyClass: opts.defaultProxyClass, }) if err != nil { startlog.Fatalf("could not create ingress reconciler: %v", err) } connectorFilter := handler.EnqueueRequestsFromMapFunc(managedResourceHandlerForType("connector")) // If a ProxyClassChanges, enqueue all Connectors that have // .spec.proxyClass set to the name of this ProxyClass. proxyClassFilterForConnector := handler.EnqueueRequestsFromMapFunc(proxyClassHandlerForConnector(mgr.GetClient(), startlog)) err = builder.ControllerManagedBy(mgr). For(&tsapi.Connector{}). Watches(&appsv1.StatefulSet{}, connectorFilter). Watches(&corev1.Secret{}, connectorFilter). Watches(&tsapi.ProxyClass{}, proxyClassFilterForConnector). Complete(&ConnectorReconciler{ ssr: ssr, recorder: eventRecorder, Client: mgr.GetClient(), logger: opts.log.Named("connector-reconciler"), clock: tstime.DefaultClock{}, }) if err != nil { startlog.Fatalf("could not create connector reconciler: %v", err) } // TODO (irbekrm): switch to metadata-only watches for resources whose // spec we don't need to inspect to reduce memory consumption. // https://github.com/kubernetes-sigs/controller-runtime/issues/1159 nameserverFilter := handler.EnqueueRequestsFromMapFunc(managedResourceHandlerForType("nameserver")) err = builder.ControllerManagedBy(mgr). For(&tsapi.DNSConfig{}). Watches(&appsv1.Deployment{}, nameserverFilter). Watches(&corev1.ConfigMap{}, nameserverFilter). Watches(&corev1.Service{}, nameserverFilter). Watches(&corev1.ServiceAccount{}, nameserverFilter). Complete(&NameserverReconciler{ recorder: eventRecorder, tsNamespace: opts.tailscaleNamespace, Client: mgr.GetClient(), logger: opts.log.Named("nameserver-reconciler"), clock: tstime.DefaultClock{}, }) if err != nil { startlog.Fatalf("could not create nameserver reconciler: %v", err) } egressSvcFilter := handler.EnqueueRequestsFromMapFunc(egressSvcsHandler) egressProxyGroupFilter := handler.EnqueueRequestsFromMapFunc(egressSvcsFromEgressProxyGroup(mgr.GetClient(), opts.log)) err = builder. ControllerManagedBy(mgr). Named("egress-svcs-reconciler"). Watches(&corev1.Service{}, egressSvcFilter). Watches(&tsapi.ProxyGroup{}, egressProxyGroupFilter). Complete(&egressSvcsReconciler{ Client: mgr.GetClient(), tsNamespace: opts.tailscaleNamespace, recorder: eventRecorder, clock: tstime.DefaultClock{}, logger: opts.log.Named("egress-svcs-reconciler"), }) if err != nil { startlog.Fatalf("could not create egress Services reconciler: %v", err) } if err := mgr.GetFieldIndexer().IndexField(context.Background(), new(corev1.Service), indexEgressProxyGroup, indexEgressServices); err != nil { startlog.Fatalf("failed setting up indexer for egress Services: %v", err) } egressSvcFromEpsFilter := handler.EnqueueRequestsFromMapFunc(egressSvcFromEps) err = builder. ControllerManagedBy(mgr). Named("egress-svcs-readiness-reconciler"). Watches(&corev1.Service{}, egressSvcFilter). Watches(&discoveryv1.EndpointSlice{}, egressSvcFromEpsFilter). Complete(&egressSvcsReadinessReconciler{ Client: mgr.GetClient(), tsNamespace: opts.tailscaleNamespace, clock: tstime.DefaultClock{}, logger: opts.log.Named("egress-svcs-readiness-reconciler"), }) if err != nil { startlog.Fatalf("could not create egress Services readiness reconciler: %v", err) } epsFilter := handler.EnqueueRequestsFromMapFunc(egressEpsHandler) podsFilter := handler.EnqueueRequestsFromMapFunc(egressEpsFromPGPods(mgr.GetClient(), opts.tailscaleNamespace)) secretsFilter := handler.EnqueueRequestsFromMapFunc(egressEpsFromPGStateSecrets(mgr.GetClient(), opts.tailscaleNamespace)) epsFromExtNSvcFilter := handler.EnqueueRequestsFromMapFunc(epsFromExternalNameService(mgr.GetClient(), opts.log, opts.tailscaleNamespace)) err = builder. ControllerManagedBy(mgr). Named("egress-eps-reconciler"). Watches(&discoveryv1.EndpointSlice{}, epsFilter). Watches(&corev1.Pod{}, podsFilter). Watches(&corev1.Secret{}, secretsFilter). Watches(&corev1.Service{}, epsFromExtNSvcFilter). Complete(&egressEpsReconciler{ Client: mgr.GetClient(), tsNamespace: opts.tailscaleNamespace, logger: opts.log.Named("egress-eps-reconciler"), }) if err != nil { startlog.Fatalf("could not create egress EndpointSlices reconciler: %v", err) } err = builder.ControllerManagedBy(mgr). For(&tsapi.ProxyClass{}). Complete(&ProxyClassReconciler{ Client: mgr.GetClient(), recorder: eventRecorder, logger: opts.log.Named("proxyclass-reconciler"), clock: tstime.DefaultClock{}, }) if err != nil { startlog.Fatal("could not create proxyclass reconciler: %v", err) } logger := startlog.Named("dns-records-reconciler-event-handlers") // On EndpointSlice events, if it is an EndpointSlice for an // ingress/egress proxy headless Service, reconcile the headless // Service. dnsRREpsOpts := handler.EnqueueRequestsFromMapFunc(dnsRecordsReconcilerEndpointSliceHandler) // On DNSConfig changes, reconcile all headless Services for // ingress/egress proxies in operator namespace. dnsRRDNSConfigOpts := handler.EnqueueRequestsFromMapFunc(enqueueAllIngressEgressProxySvcsInNS(opts.tailscaleNamespace, mgr.GetClient(), logger)) // On Service events, if it is an ingress/egress proxy headless Service, reconcile it. dnsRRServiceOpts := handler.EnqueueRequestsFromMapFunc(dnsRecordsReconcilerServiceHandler) // On Ingress events, if it is a tailscale Ingress or if tailscale is the default ingress controller, reconcile the proxy // headless Service. dnsRRIngressOpts := handler.EnqueueRequestsFromMapFunc(dnsRecordsReconcilerIngressHandler(opts.tailscaleNamespace, opts.proxyActAsDefaultLoadBalancer, mgr.GetClient(), logger)) err = builder.ControllerManagedBy(mgr). Named("dns-records-reconciler"). Watches(&corev1.Service{}, dnsRRServiceOpts). Watches(&networkingv1.Ingress{}, dnsRRIngressOpts). Watches(&discoveryv1.EndpointSlice{}, dnsRREpsOpts). Watches(&tsapi.DNSConfig{}, dnsRRDNSConfigOpts). Complete(&dnsRecordsReconciler{ Client: mgr.GetClient(), tsNamespace: opts.tailscaleNamespace, logger: opts.log.Named("dns-records-reconciler"), isDefaultLoadBalancer: opts.proxyActAsDefaultLoadBalancer, }) if err != nil { startlog.Fatalf("could not create DNS records reconciler: %v", err) } // Recorder reconciler. recorderFilter := handler.EnqueueRequestForOwner(mgr.GetScheme(), mgr.GetRESTMapper(), &tsapi.Recorder{}) err = builder.ControllerManagedBy(mgr). For(&tsapi.Recorder{}). Watches(&appsv1.StatefulSet{}, recorderFilter). Watches(&corev1.ServiceAccount{}, recorderFilter). Watches(&corev1.Secret{}, recorderFilter). Watches(&rbacv1.Role{}, recorderFilter). Watches(&rbacv1.RoleBinding{}, recorderFilter). Complete(&RecorderReconciler{ recorder: eventRecorder, tsNamespace: opts.tailscaleNamespace, Client: mgr.GetClient(), l: opts.log.Named("recorder-reconciler"), clock: tstime.DefaultClock{}, tsClient: opts.tsClient, }) if err != nil { startlog.Fatalf("could not create Recorder reconciler: %v", err) } // Recorder reconciler. ownedByProxyGroupFilter := handler.EnqueueRequestForOwner(mgr.GetScheme(), mgr.GetRESTMapper(), &tsapi.ProxyGroup{}) proxyClassFilterForProxyGroup := handler.EnqueueRequestsFromMapFunc(proxyClassHandlerForProxyGroup(mgr.GetClient(), startlog)) err = builder.ControllerManagedBy(mgr). For(&tsapi.ProxyGroup{}). Watches(&appsv1.StatefulSet{}, ownedByProxyGroupFilter). Watches(&corev1.ServiceAccount{}, ownedByProxyGroupFilter). Watches(&corev1.Secret{}, ownedByProxyGroupFilter). Watches(&rbacv1.Role{}, ownedByProxyGroupFilter). Watches(&rbacv1.RoleBinding{}, ownedByProxyGroupFilter). Watches(&tsapi.ProxyClass{}, proxyClassFilterForProxyGroup). Complete(&ProxyGroupReconciler{ recorder: eventRecorder, Client: mgr.GetClient(), l: opts.log.Named("proxygroup-reconciler"), clock: tstime.DefaultClock{}, tsClient: opts.tsClient, tsNamespace: opts.tailscaleNamespace, proxyImage: opts.proxyImage, defaultTags: strings.Split(opts.proxyTags, ","), tsFirewallMode: opts.proxyFirewallMode, defaultProxyClass: opts.defaultProxyClass, }) if err != nil { startlog.Fatalf("could not create ProxyGroup reconciler: %v", err) } startlog.Infof("Startup complete, operator running, version: %s", version.Long()) if err := mgr.Start(signals.SetupSignalHandler()); err != nil { startlog.Fatalf("could not start manager: %v", err) } } type reconcilerOpts struct { log *zap.SugaredLogger tsServer *tsnet.Server tsClient *tailscale.Client tailscaleNamespace string // namespace in which operator resources will be deployed restConfig *rest.Config // config for connecting to the kube API server proxyImage string // : // proxyPriorityClassName isPriorityClass to be set for proxy Pods. This // is a legacy mechanism for cluster resource configuration options - // going forward use ProxyClass. // https://kubernetes.io/docs/concepts/scheduling-eviction/pod-priority-preemption/#priorityclass proxyPriorityClassName string // proxyTags are ACL tags to tag proxy auth keys. Multiple tags should // be provided as a string with comma-separated tag values. Proxy tags // default to tag:k8s. // https://tailscale.com/kb/1085/auth-keys proxyTags string // proxyActAsDefaultLoadBalancer determines whether this operator // instance should act as the default ingress controller when looking at // Ingress resources with unset ingress.spec.ingressClassName. // TODO (irbekrm): this setting does not respect the default // IngressClass. // https://kubernetes.io/docs/concepts/services-networking/ingress/#default-ingress-class // We should fix that and preferably integrate with that mechanism as // well - perhaps make the operator itself create the default // IngressClass if this is set to true. proxyActAsDefaultLoadBalancer bool // proxyFirewallMode determines whether non-userspace proxies should use // iptables or nftables for firewall configuration. Accepted values are // iptables, nftables and auto. If set to auto, proxy will automatically // determine which mode is supported for a given host (prefer nftables). // Auto is usually the best choice, unless you want to explicitly set // specific mode for debugging purposes. proxyFirewallMode string // defaultProxyClass is the name of the ProxyClass to use as the default // class for proxies that do not have a ProxyClass set. // this is defined by an operator env variable. defaultProxyClass string } // enqueueAllIngressEgressProxySvcsinNS returns a reconcile request for each // ingress/egress proxy headless Service found in the provided namespace. func enqueueAllIngressEgressProxySvcsInNS(ns string, cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, _ client.Object) []reconcile.Request { reqs := make([]reconcile.Request, 0) // Get all headless Services for proxies configured using Service. svcProxyLabels := map[string]string{ LabelManaged: "true", LabelParentType: "svc", } svcHeadlessSvcList := &corev1.ServiceList{} if err := cl.List(ctx, svcHeadlessSvcList, client.InNamespace(ns), client.MatchingLabels(svcProxyLabels)); err != nil { logger.Errorf("error listing headless Services for tailscale ingress/egress Services in operator namespace: %v", err) return nil } for _, svc := range svcHeadlessSvcList.Items { reqs = append(reqs, reconcile.Request{NamespacedName: types.NamespacedName{Namespace: svc.Namespace, Name: svc.Name}}) } // Get all headless Services for proxies configured using Ingress. ingProxyLabels := map[string]string{ LabelManaged: "true", LabelParentType: "ingress", } ingHeadlessSvcList := &corev1.ServiceList{} if err := cl.List(ctx, ingHeadlessSvcList, client.InNamespace(ns), client.MatchingLabels(ingProxyLabels)); err != nil { logger.Errorf("error listing headless Services for tailscale Ingresses in operator namespace: %v", err) return nil } for _, svc := range ingHeadlessSvcList.Items { reqs = append(reqs, reconcile.Request{NamespacedName: types.NamespacedName{Namespace: svc.Namespace, Name: svc.Name}}) } return reqs } } // dnsRecordsReconciler filters EndpointSlice events for which // dns-records-reconciler should reconcile a headless Service. The only events // it should reconcile are those for EndpointSlices associated with proxy // headless Services. func dnsRecordsReconcilerEndpointSliceHandler(ctx context.Context, o client.Object) []reconcile.Request { if !isManagedByType(o, "svc") && !isManagedByType(o, "ingress") { return nil } headlessSvcName, ok := o.GetLabels()[discoveryv1.LabelServiceName] // https://kubernetes.io/docs/concepts/services-networking/endpoint-slices/#ownership if !ok { return nil } return []reconcile.Request{{NamespacedName: types.NamespacedName{Namespace: o.GetNamespace(), Name: headlessSvcName}}} } // dnsRecordsReconcilerServiceHandler filters Service events for which // dns-records-reconciler should reconcile. If the event is for a cluster // ingress/cluster egress proxy's headless Service, returns the Service for // reconcile. func dnsRecordsReconcilerServiceHandler(ctx context.Context, o client.Object) []reconcile.Request { if isManagedByType(o, "svc") || isManagedByType(o, "ingress") { return []reconcile.Request{{NamespacedName: types.NamespacedName{Namespace: o.GetNamespace(), Name: o.GetName()}}} } return nil } // dnsRecordsReconcilerIngressHandler filters Ingress events to ensure that // dns-records-reconciler only reconciles on tailscale Ingress events. When an // event is observed on a tailscale Ingress, reconcile the proxy headless Service. func dnsRecordsReconcilerIngressHandler(ns string, isDefaultLoadBalancer bool, cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { ing, ok := o.(*networkingv1.Ingress) if !ok { return nil } if !isDefaultLoadBalancer && (ing.Spec.IngressClassName == nil || *ing.Spec.IngressClassName != "tailscale") { return nil } proxyResourceLabels := childResourceLabels(ing.Name, ing.Namespace, "ingress") headlessSvc, err := getSingleObject[corev1.Service](ctx, cl, ns, proxyResourceLabels) if err != nil { logger.Errorf("error getting headless Service from parent labels: %v", err) return nil } if headlessSvc == nil { return nil } return []reconcile.Request{{NamespacedName: types.NamespacedName{Namespace: headlessSvc.Namespace, Name: headlessSvc.Name}}} } } type tsClient interface { CreateKey(ctx context.Context, caps tailscale.KeyCapabilities) (string, *tailscale.Key, error) Device(ctx context.Context, deviceID string, fields *tailscale.DeviceFieldsOpts) (*tailscale.Device, error) DeleteDevice(ctx context.Context, nodeStableID string) error } func isManagedResource(o client.Object) bool { ls := o.GetLabels() return ls[LabelManaged] == "true" } func isManagedByType(o client.Object, typ string) bool { ls := o.GetLabels() return isManagedResource(o) && ls[LabelParentType] == typ } func parentFromObjectLabels(o client.Object) types.NamespacedName { ls := o.GetLabels() return types.NamespacedName{ Namespace: ls[LabelParentNamespace], Name: ls[LabelParentName], } } func managedResourceHandlerForType(typ string) handler.MapFunc { return func(_ context.Context, o client.Object) []reconcile.Request { if !isManagedByType(o, typ) { return nil } return []reconcile.Request{ {NamespacedName: parentFromObjectLabels(o)}, } } } // proxyClassHandlerForSvc returns a handler that, for a given ProxyClass, // returns a list of reconcile requests for all Services labeled with // tailscale.com/proxy-class: . func proxyClassHandlerForSvc(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { svcList := new(corev1.ServiceList) labels := map[string]string{ LabelProxyClass: o.GetName(), } if err := cl.List(ctx, svcList, client.MatchingLabels(labels)); err != nil { logger.Debugf("error listing Services for ProxyClass: %v", err) return nil } reqs := make([]reconcile.Request, 0) for _, svc := range svcList.Items { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&svc)}) } return reqs } } // proxyClassHandlerForIngress returns a handler that, for a given ProxyClass, // returns a list of reconcile requests for all Ingresses labeled with // tailscale.com/proxy-class: . func proxyClassHandlerForIngress(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { ingList := new(networkingv1.IngressList) labels := map[string]string{ LabelProxyClass: o.GetName(), } if err := cl.List(ctx, ingList, client.MatchingLabels(labels)); err != nil { logger.Debugf("error listing Ingresses for ProxyClass: %v", err) return nil } reqs := make([]reconcile.Request, 0) for _, ing := range ingList.Items { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&ing)}) } return reqs } } // proxyClassHandlerForConnector returns a handler that, for a given ProxyClass, // returns a list of reconcile requests for all Connectors that have // .spec.proxyClass set. func proxyClassHandlerForConnector(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { connList := new(tsapi.ConnectorList) if err := cl.List(ctx, connList); err != nil { logger.Debugf("error listing Connectors for ProxyClass: %v", err) return nil } reqs := make([]reconcile.Request, 0) proxyClassName := o.GetName() for _, conn := range connList.Items { if conn.Spec.ProxyClass == proxyClassName { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&conn)}) } } return reqs } } // proxyClassHandlerForConnector returns a handler that, for a given ProxyClass, // returns a list of reconcile requests for all Connectors that have // .spec.proxyClass set. func proxyClassHandlerForProxyGroup(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { pgList := new(tsapi.ProxyGroupList) if err := cl.List(ctx, pgList); err != nil { logger.Debugf("error listing ProxyGroups for ProxyClass: %v", err) return nil } reqs := make([]reconcile.Request, 0) proxyClassName := o.GetName() for _, pg := range pgList.Items { if pg.Spec.ProxyClass == proxyClassName { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&pg)}) } } return reqs } } // serviceHandlerForIngress returns a handler for Service events for ingress // reconciler that ensures that if the Service associated with an event is of // interest to the reconciler, the associated Ingress(es) gets be reconciled. // The Services of interest are backend Services for tailscale Ingress and // managed Services for an StatefulSet for a proxy configured for tailscale // Ingress func serviceHandlerForIngress(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(ctx context.Context, o client.Object) []reconcile.Request { if isManagedByType(o, "ingress") { ingName := parentFromObjectLabels(o) return []reconcile.Request{{NamespacedName: ingName}} } ingList := networkingv1.IngressList{} if err := cl.List(ctx, &ingList, client.InNamespace(o.GetNamespace())); err != nil { logger.Debugf("error listing Ingresses: %v", err) return nil } reqs := make([]reconcile.Request, 0) for _, ing := range ingList.Items { if ing.Spec.IngressClassName == nil || *ing.Spec.IngressClassName != tailscaleIngressClassName { return nil } if ing.Spec.DefaultBackend != nil && ing.Spec.DefaultBackend.Service != nil && ing.Spec.DefaultBackend.Service.Name == o.GetName() { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&ing)}) } for _, rule := range ing.Spec.Rules { if rule.HTTP == nil { continue } for _, path := range rule.HTTP.Paths { if path.Backend.Service != nil && path.Backend.Service.Name == o.GetName() { reqs = append(reqs, reconcile.Request{NamespacedName: client.ObjectKeyFromObject(&ing)}) } } } } return reqs } } func serviceHandler(_ context.Context, o client.Object) []reconcile.Request { if _, ok := o.GetAnnotations()[AnnotationProxyGroup]; ok { // Do not reconcile Services for ProxyGroup. return nil } if isManagedByType(o, "svc") { // If this is a Service managed by a Service we want to enqueue its parent return []reconcile.Request{{NamespacedName: parentFromObjectLabels(o)}} } if isManagedResource(o) { // If this is a Servce managed by a resource that is not a Service, we leave it alone return nil } // If this is not a managed Service we want to enqueue it return []reconcile.Request{ { NamespacedName: types.NamespacedName{ Namespace: o.GetNamespace(), Name: o.GetName(), }, }, } } // isMagicDNSName reports whether name is a full tailnet node FQDN (with or // without final dot). func isMagicDNSName(name string) bool { validMagicDNSName := regexp.MustCompile(`^[a-zA-Z0-9-]+\.[a-zA-Z0-9-]+\.ts\.net\.?$`) return validMagicDNSName.MatchString(name) } // egressSvcsHandler returns accepts a Kubernetes object and returns a reconcile // request for it , if the object is a Tailscale egress Service meant to be // exposed on a ProxyGroup. func egressSvcsHandler(_ context.Context, o client.Object) []reconcile.Request { if !isEgressSvcForProxyGroup(o) { return nil } return []reconcile.Request{ { NamespacedName: types.NamespacedName{ Namespace: o.GetNamespace(), Name: o.GetName(), }, }, } } // egressEpsHandler returns accepts an EndpointSlice and, if the EndpointSlice // is for an egress service, returns a reconcile request for it. func egressEpsHandler(_ context.Context, o client.Object) []reconcile.Request { if typ := o.GetLabels()[labelSvcType]; typ != typeEgress { return nil } return []reconcile.Request{ { NamespacedName: types.NamespacedName{ Namespace: o.GetNamespace(), Name: o.GetName(), }, }, } } // egressEpsFromEgressPods returns a Pod event handler that checks if Pod is a replica for a ProxyGroup and if it is, // returns reconciler requests for all egress EndpointSlices for that ProxyGroup. func egressEpsFromPGPods(cl client.Client, ns string) handler.MapFunc { return func(_ context.Context, o client.Object) []reconcile.Request { if v, ok := o.GetLabels()[LabelManaged]; !ok || v != "true" { return nil } // TODO(irbekrm): for now this is good enough as all ProxyGroups are egress. Add a type check once we // have ingress ProxyGroups. if typ := o.GetLabels()[LabelParentType]; typ != "proxygroup" { return nil } pg, ok := o.GetLabels()[LabelParentName] if !ok { return nil } return reconcileRequestsForPG(pg, cl, ns) } } // egressEpsFromPGStateSecrets returns a Secret event handler that checks if Secret is a state Secret for a ProxyGroup and if it is, // returns reconciler requests for all egress EndpointSlices for that ProxyGroup. func egressEpsFromPGStateSecrets(cl client.Client, ns string) handler.MapFunc { return func(_ context.Context, o client.Object) []reconcile.Request { if v, ok := o.GetLabels()[LabelManaged]; !ok || v != "true" { return nil } // TODO(irbekrm): for now this is good enough as all ProxyGroups are egress. Add a type check once we // have ingress ProxyGroups. if parentType := o.GetLabels()[LabelParentType]; parentType != "proxygroup" { return nil } if secretType := o.GetLabels()[labelSecretType]; secretType != "state" { return nil } pg, ok := o.GetLabels()[LabelParentName] if !ok { return nil } return reconcileRequestsForPG(pg, cl, ns) } } // egressSvcFromEps is an event handler for EndpointSlices. If an EndpointSlice is for an egress ExternalName Service // meant to be exposed on a ProxyGroup, returns a reconcile request for the Service. func egressSvcFromEps(_ context.Context, o client.Object) []reconcile.Request { if typ := o.GetLabels()[labelSvcType]; typ != typeEgress { return nil } if v, ok := o.GetLabels()[LabelManaged]; !ok || v != "true" { return nil } svcName, ok := o.GetLabels()[LabelParentName] if !ok { return nil } svcNs, ok := o.GetLabels()[LabelParentNamespace] if !ok { return nil } return []reconcile.Request{ { NamespacedName: types.NamespacedName{ Namespace: svcNs, Name: svcName, }, }, } } func reconcileRequestsForPG(pg string, cl client.Client, ns string) []reconcile.Request { epsList := discoveryv1.EndpointSliceList{} if err := cl.List(context.Background(), &epsList, client.InNamespace(ns), client.MatchingLabels(map[string]string{labelProxyGroup: pg})); err != nil { return nil } reqs := make([]reconcile.Request, 0) for _, ep := range epsList.Items { reqs = append(reqs, reconcile.Request{ NamespacedName: types.NamespacedName{ Namespace: ep.Namespace, Name: ep.Name, }, }) } return reqs } // egressSvcsFromEgressProxyGroup is an event handler for egress ProxyGroups. It returns reconcile requests for all // user-created ExternalName Services that should be exposed on this ProxyGroup. func egressSvcsFromEgressProxyGroup(cl client.Client, logger *zap.SugaredLogger) handler.MapFunc { return func(_ context.Context, o client.Object) []reconcile.Request { pg, ok := o.(*tsapi.ProxyGroup) if !ok { logger.Infof("[unexpected] ProxyGroup handler triggered for an object that is not a ProxyGroup") return nil } if pg.Spec.Type != tsapi.ProxyGroupTypeEgress { return nil } svcList := &corev1.ServiceList{} if err := cl.List(context.Background(), svcList, client.MatchingFields{indexEgressProxyGroup: pg.Name}); err != nil { logger.Infof("error listing Services: %v, skipping a reconcile for event on ProxyGroup %s", err, pg.Name) return nil } reqs := make([]reconcile.Request, 0) for _, svc := range svcList.Items { reqs = append(reqs, reconcile.Request{ NamespacedName: types.NamespacedName{ Namespace: svc.Namespace, Name: svc.Name, }, }) } return reqs } } // epsFromExternalNameService is an event handler for ExternalName Services that define a Tailscale egress service that // should be exposed on a ProxyGroup. It returns reconcile requests for EndpointSlices created for this Service. func epsFromExternalNameService(cl client.Client, logger *zap.SugaredLogger, ns string) handler.MapFunc { return func(_ context.Context, o client.Object) []reconcile.Request { svc, ok := o.(*corev1.Service) if !ok { logger.Infof("[unexpected] Service handler triggered for an object that is not a Service") return nil } if !isEgressSvcForProxyGroup(svc) { return nil } epsList := &discoveryv1.EndpointSliceList{} if err := cl.List(context.Background(), epsList, client.InNamespace(ns), client.MatchingLabels(egressSvcChildResourceLabels(svc))); err != nil { logger.Infof("error listing EndpointSlices: %v, skipping a reconcile for event on Service %s", err, svc.Name) return nil } reqs := make([]reconcile.Request, 0) for _, eps := range epsList.Items { reqs = append(reqs, reconcile.Request{ NamespacedName: types.NamespacedName{ Namespace: eps.Namespace, Name: eps.Name, }, }) } return reqs } } // indexEgressServices adds a local index to a cached Tailscale egress Services meant to be exposed on a ProxyGroup. The // index is used a list filter. func indexEgressServices(o client.Object) []string { if !isEgressSvcForProxyGroup(o) { return nil } return []string{o.GetAnnotations()[AnnotationProxyGroup]} }