// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause //go:build !plan9 package main import ( "context" "fmt" "net/netip" "slices" "strings" "sync" "go.uber.org/zap" corev1 "k8s.io/api/core/v1" apierrors "k8s.io/apimachinery/pkg/api/errors" "k8s.io/apimachinery/pkg/types" "k8s.io/client-go/tools/record" "sigs.k8s.io/controller-runtime/pkg/client" "sigs.k8s.io/controller-runtime/pkg/reconcile" tsoperator "tailscale.com/k8s-operator" tsapi "tailscale.com/k8s-operator/apis/v1alpha1" "tailscale.com/net/dns/resolvconffile" "tailscale.com/util/clientmetric" "tailscale.com/util/set" ) const ( resolvConfPath = "/etc/resolv.conf" defaultClusterDomain = "cluster.local" ) type ServiceReconciler struct { client.Client ssr *tailscaleSTSReconciler logger *zap.SugaredLogger isDefaultLoadBalancer bool mu sync.Mutex // protects following // managedIngressProxies is a set of all ingress proxies that we're // currently managing. This is only used for metrics. managedIngressProxies set.Slice[types.UID] // managedEgressProxies is a set of all egress proxies that we're currently // managing. This is only used for metrics. managedEgressProxies set.Slice[types.UID] recorder record.EventRecorder tsNamespace string } var ( // gaugeEgressProxies tracks the number of egress proxies that we're // currently managing. gaugeEgressProxies = clientmetric.NewGauge("k8s_egress_proxies") // gaugeIngressProxies tracks the number of ingress proxies that we're // currently managing. gaugeIngressProxies = clientmetric.NewGauge("k8s_ingress_proxies") ) func childResourceLabels(name, ns, typ string) map[string]string { // You might wonder why we're using owner references, since they seem to be // built for exactly this. Unfortunately, Kubernetes does not support // cross-namespace ownership, by design. This means we cannot make the // service being exposed the owner of the implementation details of the // proxying. Instead, we have to do our own filtering and tracking with // labels. return map[string]string{ LabelManaged: "true", LabelParentName: name, LabelParentNamespace: ns, LabelParentType: typ, } } func (a *ServiceReconciler) Reconcile(ctx context.Context, req reconcile.Request) (_ reconcile.Result, err error) { logger := a.logger.With("service-ns", req.Namespace, "service-name", req.Name) logger.Debugf("starting reconcile") defer logger.Debugf("reconcile finished") svc := new(corev1.Service) err = a.Get(ctx, req.NamespacedName, svc) if apierrors.IsNotFound(err) { // Request object not found, could have been deleted after reconcile request. logger.Debugf("service not found, assuming it was deleted") return reconcile.Result{}, nil } else if err != nil { return reconcile.Result{}, fmt.Errorf("failed to get svc: %w", err) } targetIP := tailnetTargetAnnotation(svc) targetFQDN := svc.Annotations[AnnotationTailnetTargetFQDN] if !svc.DeletionTimestamp.IsZero() || !a.shouldExpose(svc) && targetIP == "" && targetFQDN == "" { logger.Debugf("service is being deleted or is (no longer) referring to Tailscale ingress/egress, ensuring any created resources are cleaned up") return reconcile.Result{}, a.maybeCleanup(ctx, logger, svc) } return reconcile.Result{}, a.maybeProvision(ctx, logger, svc) } // maybeCleanup removes any existing resources related to serving svc over tailscale. // // This function is responsible for removing the finalizer from the service, // once all associated resources are gone. func (a *ServiceReconciler) maybeCleanup(ctx context.Context, logger *zap.SugaredLogger, svc *corev1.Service) error { ix := slices.Index(svc.Finalizers, FinalizerName) if ix < 0 { logger.Debugf("no finalizer, nothing to do") a.mu.Lock() defer a.mu.Unlock() a.managedIngressProxies.Remove(svc.UID) a.managedEgressProxies.Remove(svc.UID) gaugeIngressProxies.Set(int64(a.managedIngressProxies.Len())) gaugeEgressProxies.Set(int64(a.managedEgressProxies.Len())) return nil } if done, err := a.ssr.Cleanup(ctx, logger, childResourceLabels(svc.Name, svc.Namespace, "svc")); err != nil { return fmt.Errorf("failed to cleanup: %w", err) } else if !done { logger.Debugf("cleanup not done yet, waiting for next reconcile") return nil } svc.Finalizers = append(svc.Finalizers[:ix], svc.Finalizers[ix+1:]...) if err := a.Update(ctx, svc); err != nil { return fmt.Errorf("failed to remove finalizer: %w", err) } // Unlike most log entries in the reconcile loop, this will get printed // exactly once at the very end of cleanup, because the final step of // cleanup removes the tailscale finalizer, which will make all future // reconciles exit early. logger.Infof("unexposed service from tailnet") a.mu.Lock() defer a.mu.Unlock() a.managedIngressProxies.Remove(svc.UID) a.managedEgressProxies.Remove(svc.UID) gaugeIngressProxies.Set(int64(a.managedIngressProxies.Len())) gaugeEgressProxies.Set(int64(a.managedEgressProxies.Len())) return nil } // maybeProvision ensures that svc is exposed over tailscale, taking any actions // necessary to reach that state. // // This function adds a finalizer to svc, ensuring that we can handle orderly // deprovisioning later. func (a *ServiceReconciler) maybeProvision(ctx context.Context, logger *zap.SugaredLogger, svc *corev1.Service) error { // Run for proxy config related validations here as opposed to running // them earlier. This is to prevent cleanup being blocked on a // misconfigured proxy param. if err := a.ssr.validate(); err != nil { msg := fmt.Sprintf("unable to provision proxy resources: invalid config: %v", err) a.recorder.Event(svc, corev1.EventTypeWarning, "INVALIDCONFIG", msg) a.logger.Error(msg) return nil } if violations := validateService(svc); len(violations) > 0 { msg := fmt.Sprintf("unable to provision proxy resources: invalid Service: %s", strings.Join(violations, ", ")) a.recorder.Event(svc, corev1.EventTypeWarning, "INVALIDSERVICE", msg) a.logger.Error(msg) return nil } proxyClass := proxyClassForObject(svc) if proxyClass != "" { if ready, err := proxyClassIsReady(ctx, proxyClass, a.Client); err != nil { return fmt.Errorf("error verifying ProxyClass for Service: %w", err) } else if !ready { logger.Infof("ProxyClass %s specified for the Service, but is not (yet) Ready, waiting..", proxyClass) return nil } } hostname, err := nameForService(svc) if err != nil { return err } if !slices.Contains(svc.Finalizers, FinalizerName) { // This log line is printed exactly once during initial provisioning, // because once the finalizer is in place this block gets skipped. So, // this is a nice place to tell the operator that the high level, // multi-reconcile operation is underway. logger.Infof("exposing service over tailscale") svc.Finalizers = append(svc.Finalizers, FinalizerName) if err := a.Update(ctx, svc); err != nil { return fmt.Errorf("failed to add finalizer: %w", err) } } crl := childResourceLabels(svc.Name, svc.Namespace, "svc") var tags []string if tstr, ok := svc.Annotations[AnnotationTags]; ok { tags = strings.Split(tstr, ",") } sts := &tailscaleSTSConfig{ ParentResourceName: svc.Name, ParentResourceUID: string(svc.UID), Hostname: hostname, Tags: tags, ChildResourceLabels: crl, ProxyClassName: proxyClass, } a.mu.Lock() if a.shouldExposeClusterIP(svc) { sts.ClusterTargetIP = svc.Spec.ClusterIP a.managedIngressProxies.Add(svc.UID) gaugeIngressProxies.Set(int64(a.managedIngressProxies.Len())) } else if a.shouldExposeDNSName(svc) { sts.ClusterTargetDNSName = svc.Spec.ExternalName a.managedIngressProxies.Add(svc.UID) gaugeIngressProxies.Set(int64(a.managedIngressProxies.Len())) } else if ip := tailnetTargetAnnotation(svc); ip != "" { sts.TailnetTargetIP = ip a.managedEgressProxies.Add(svc.UID) gaugeEgressProxies.Set(int64(a.managedEgressProxies.Len())) } else if fqdn := svc.Annotations[AnnotationTailnetTargetFQDN]; fqdn != "" { fqdn := svc.Annotations[AnnotationTailnetTargetFQDN] if !strings.HasSuffix(fqdn, ".") { fqdn = fqdn + "." } sts.TailnetTargetFQDN = fqdn a.managedEgressProxies.Add(svc.UID) gaugeEgressProxies.Set(int64(a.managedEgressProxies.Len())) } a.mu.Unlock() var hsvc *corev1.Service if hsvc, err = a.ssr.Provision(ctx, logger, sts); err != nil { return fmt.Errorf("failed to provision: %w", err) } if sts.TailnetTargetIP != "" || sts.TailnetTargetFQDN != "" { clusterDomain := retrieveClusterDomain(a.tsNamespace, logger) headlessSvcName := hsvc.Name + "." + hsvc.Namespace + ".svc." + clusterDomain if svc.Spec.ExternalName != headlessSvcName || svc.Spec.Type != corev1.ServiceTypeExternalName { svc.Spec.ExternalName = headlessSvcName svc.Spec.Selector = nil svc.Spec.Type = corev1.ServiceTypeExternalName if err := a.Update(ctx, svc); err != nil { return fmt.Errorf("failed to update service: %w", err) } } return nil } if !isTailscaleLoadBalancerService(svc, a.isDefaultLoadBalancer) { logger.Debugf("service is not a LoadBalancer, so not updating ingress") return nil } _, tsHost, tsIPs, err := a.ssr.DeviceInfo(ctx, crl) if err != nil { return fmt.Errorf("failed to get device ID: %w", err) } if tsHost == "" { logger.Debugf("no Tailscale hostname known yet, waiting for proxy pod to finish auth") // No hostname yet. Wait for the proxy pod to auth. svc.Status.LoadBalancer.Ingress = nil if err := a.Status().Update(ctx, svc); err != nil { return fmt.Errorf("failed to update service status: %w", err) } return nil } logger.Debugf("setting ingress to %q, %s", tsHost, strings.Join(tsIPs, ", ")) ingress := []corev1.LoadBalancerIngress{ {Hostname: tsHost}, } clusterIPAddr, err := netip.ParseAddr(svc.Spec.ClusterIP) if err != nil { return fmt.Errorf("failed to parse cluster IP: %w", err) } for _, ip := range tsIPs { addr, err := netip.ParseAddr(ip) if err != nil { continue } if addr.Is4() == clusterIPAddr.Is4() { // only add addresses of the same family ingress = append(ingress, corev1.LoadBalancerIngress{IP: ip}) } } svc.Status.LoadBalancer.Ingress = ingress if err := a.Status().Update(ctx, svc); err != nil { return fmt.Errorf("failed to update service status: %w", err) } return nil } func validateService(svc *corev1.Service) []string { violations := make([]string, 0) if svc.Annotations[AnnotationTailnetTargetFQDN] != "" && svc.Annotations[AnnotationTailnetTargetIP] != "" { violations = append(violations, "only one of annotations %s and %s can be set", AnnotationTailnetTargetIP, AnnotationTailnetTargetFQDN) } if fqdn := svc.Annotations[AnnotationTailnetTargetFQDN]; fqdn != "" { if !isMagicDNSName(fqdn) { violations = append(violations, fmt.Sprintf("invalid value of annotation %s: %q does not appear to be a valid MagicDNS name", AnnotationTailnetTargetFQDN, fqdn)) } } return violations } func (a *ServiceReconciler) shouldExpose(svc *corev1.Service) bool { return a.shouldExposeClusterIP(svc) || a.shouldExposeDNSName(svc) } func (a *ServiceReconciler) shouldExposeDNSName(svc *corev1.Service) bool { return hasExposeAnnotation(svc) && svc.Spec.Type == corev1.ServiceTypeExternalName && svc.Spec.ExternalName != "" } func (a *ServiceReconciler) shouldExposeClusterIP(svc *corev1.Service) bool { if svc.Spec.ClusterIP == "" || svc.Spec.ClusterIP == "None" { return false } return isTailscaleLoadBalancerService(svc, a.isDefaultLoadBalancer) || hasExposeAnnotation(svc) } func isTailscaleLoadBalancerService(svc *corev1.Service, isDefaultLoadBalancer bool) bool { return svc != nil && svc.Spec.Type == corev1.ServiceTypeLoadBalancer && (svc.Spec.LoadBalancerClass != nil && *svc.Spec.LoadBalancerClass == "tailscale" || svc.Spec.LoadBalancerClass == nil && isDefaultLoadBalancer) } // hasExposeAnnotation reports whether Service has the tailscale.com/expose // annotation set func hasExposeAnnotation(svc *corev1.Service) bool { return svc != nil && svc.Annotations[AnnotationExpose] == "true" } // hasTailnetTargetAnnotation returns the value of tailscale.com/tailnet-ip // annotation or of the deprecated tailscale.com/ts-tailnet-target-ip // annotation. If neither is set, it returns an empty string. If both are set, // it returns the value of the new annotation. func tailnetTargetAnnotation(svc *corev1.Service) string { if svc == nil { return "" } if ip := svc.Annotations[AnnotationTailnetTargetIP]; ip != "" { return ip } return svc.Annotations[annotationTailnetTargetIPOld] } func proxyClassForObject(o client.Object) string { return o.GetLabels()[LabelProxyClass] } func proxyClassIsReady(ctx context.Context, name string, cl client.Client) (bool, error) { proxyClass := new(tsapi.ProxyClass) if err := cl.Get(ctx, types.NamespacedName{Name: name}, proxyClass); err != nil { return false, fmt.Errorf("error getting ProxyClass %s: %w", name, err) } return tsoperator.ProxyClassIsReady(proxyClass), nil } // retrieveClusterDomain determines and retrieves cluster domain i.e // (cluster.local) in which this Pod is running by parsing search domains in // /etc/resolv.conf. If an error is encountered at any point during the process, // defaults cluster domain to 'cluster.local'. func retrieveClusterDomain(namespace string, logger *zap.SugaredLogger) string { logger.Infof("attempting to retrieve cluster domain..") conf, err := resolvconffile.ParseFile(resolvConfPath) if err != nil { // Vast majority of clusters use the cluster.local domain, so it // is probably better to fall back to that than error out. logger.Infof("[unexpected] error parsing /etc/resolv.conf to determine cluster domain, defaulting to 'cluster.local'.") return defaultClusterDomain } return clusterDomainFromResolverConf(conf, namespace, logger) } // clusterDomainFromResolverConf attempts to retrieve cluster domain from the provided resolver config. // It expects the first three search domains in the resolver config to be be ['.svc., svc., , ...] // If the first three domains match the expected structure, it returns the third. // If the domains don't match the expected structure or an error is encountered, it defaults to 'cluster.local' domain. func clusterDomainFromResolverConf(conf *resolvconffile.Config, namespace string, logger *zap.SugaredLogger) string { if len(conf.SearchDomains) < 3 { logger.Infof("[unexpected] resolver config contains only %d search domains, at least three expected.\nDefaulting cluster domain to 'cluster.local'.") return defaultClusterDomain } first := conf.SearchDomains[0] if !strings.HasPrefix(string(first), namespace+".svc") { logger.Infof("[unexpected] first search domain in resolver config is %s; expected %s.\nDefaulting cluster domain to 'cluster.local'.", first, namespace+".svc.") return defaultClusterDomain } second := conf.SearchDomains[1] if !strings.HasPrefix(string(second), "svc") { logger.Infof("[unexpected] second search domain in resolver config is %s; expected 'svc.'.\nDefaulting cluster domain to 'cluster.local'.", second) return defaultClusterDomain } // Trim the trailing dot for backwards compatibility purposes as the // cluster domain was previously hardcoded to 'cluster.local' without a // trailing dot. probablyClusterDomain := strings.TrimPrefix(second.WithoutTrailingDot(), "svc.") third := conf.SearchDomains[2] if !strings.EqualFold(third.WithoutTrailingDot(), probablyClusterDomain) { logger.Infof("[unexpected] expected resolver config to contain serch domains .svc., svc., ; got %s %s %s\n. Defaulting cluster domain to 'cluster.local'.", first, second, third) return defaultClusterDomain } logger.Infof("Cluster domain %q extracted from resolver config", probablyClusterDomain) return probablyClusterDomain }