package crd import ( "errors" "fmt" "io/ioutil" "time" "github.com/traefik/traefik/v2/pkg/log" "github.com/traefik/traefik/v2/pkg/provider/kubernetes/crd/generated/clientset/versioned" "github.com/traefik/traefik/v2/pkg/provider/kubernetes/crd/generated/informers/externalversions" "github.com/traefik/traefik/v2/pkg/provider/kubernetes/crd/traefik/v1alpha1" corev1 "k8s.io/api/core/v1" kubeerror "k8s.io/apimachinery/pkg/api/errors" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/labels" "k8s.io/client-go/informers" "k8s.io/client-go/kubernetes" "k8s.io/client-go/rest" "k8s.io/client-go/tools/cache" "k8s.io/client-go/tools/clientcmd" ) const resyncPeriod = 10 * time.Minute type resourceEventHandler struct { ev chan<- interface{} } func (reh *resourceEventHandler) OnAdd(obj interface{}) { eventHandlerFunc(reh.ev, obj) } func (reh *resourceEventHandler) OnUpdate(oldObj, newObj interface{}) { eventHandlerFunc(reh.ev, newObj) } func (reh *resourceEventHandler) OnDelete(obj interface{}) { eventHandlerFunc(reh.ev, obj) } // Client is a client for the Provider master. // WatchAll starts the watch of the Provider resources and updates the stores. // The stores can then be accessed via the Get* functions. type Client interface { WatchAll(namespaces []string, stopCh <-chan struct{}) (<-chan interface{}, error) GetIngressRoutes() []*v1alpha1.IngressRoute GetIngressRouteTCPs() []*v1alpha1.IngressRouteTCP GetIngressRouteUDPs() []*v1alpha1.IngressRouteUDP GetMiddlewares() []*v1alpha1.Middleware GetTraefikService(namespace, name string) (*v1alpha1.TraefikService, bool, error) GetTraefikServices() []*v1alpha1.TraefikService GetTLSOptions() []*v1alpha1.TLSOption GetTLSStores() []*v1alpha1.TLSStore GetService(namespace, name string) (*corev1.Service, bool, error) GetSecret(namespace, name string) (*corev1.Secret, bool, error) GetEndpoints(namespace, name string) (*corev1.Endpoints, bool, error) } // TODO: add tests for the clientWrapper (and its methods) itself. type clientWrapper struct { csCrd versioned.Interface csKube kubernetes.Interface factoriesCrd map[string]externalversions.SharedInformerFactory factoriesKube map[string]informers.SharedInformerFactory factoriesSecret map[string]informers.SharedInformerFactory labelSelector labels.Selector isNamespaceAll bool watchedNamespaces []string } func createClientFromConfig(c *rest.Config) (*clientWrapper, error) { csCrd, err := versioned.NewForConfig(c) if err != nil { return nil, err } csKube, err := kubernetes.NewForConfig(c) if err != nil { return nil, err } return newClientImpl(csKube, csCrd), nil } func newClientImpl(csKube kubernetes.Interface, csCrd versioned.Interface) *clientWrapper { return &clientWrapper{ csCrd: csCrd, csKube: csKube, factoriesCrd: make(map[string]externalversions.SharedInformerFactory), factoriesKube: make(map[string]informers.SharedInformerFactory), factoriesSecret: make(map[string]informers.SharedInformerFactory), } } // newInClusterClient returns a new Provider client that is expected to run // inside the cluster. func newInClusterClient(endpoint string) (*clientWrapper, error) { config, err := rest.InClusterConfig() if err != nil { return nil, fmt.Errorf("failed to create in-cluster configuration: %w", err) } if endpoint != "" { config.Host = endpoint } return createClientFromConfig(config) } func newExternalClusterClientFromFile(file string) (*clientWrapper, error) { configFromFlags, err := clientcmd.BuildConfigFromFlags("", file) if err != nil { return nil, err } return createClientFromConfig(configFromFlags) } // newExternalClusterClient returns a new Provider client that may run outside // of the cluster. // The endpoint parameter must not be empty. func newExternalClusterClient(endpoint, token, caFilePath string) (*clientWrapper, error) { if endpoint == "" { return nil, errors.New("endpoint missing for external cluster client") } config := &rest.Config{ Host: endpoint, BearerToken: token, } if caFilePath != "" { caData, err := ioutil.ReadFile(caFilePath) if err != nil { return nil, fmt.Errorf("failed to read CA file %s: %w", caFilePath, err) } config.TLSClientConfig = rest.TLSClientConfig{CAData: caData} } return createClientFromConfig(config) } // WatchAll starts namespace-specific controllers for all relevant kinds. func (c *clientWrapper) WatchAll(namespaces []string, stopCh <-chan struct{}) (<-chan interface{}, error) { eventCh := make(chan interface{}, 1) eventHandler := c.newResourceEventHandler(eventCh) if len(namespaces) == 0 { namespaces = []string{metav1.NamespaceAll} c.isNamespaceAll = true } c.watchedNamespaces = namespaces notOwnedByHelm := func(opts *metav1.ListOptions) { opts.LabelSelector = "owner!=helm" } for _, ns := range namespaces { factoryCrd := externalversions.NewSharedInformerFactoryWithOptions(c.csCrd, resyncPeriod, externalversions.WithNamespace(ns)) factoryCrd.Traefik().V1alpha1().IngressRoutes().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().Middlewares().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().IngressRouteTCPs().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().IngressRouteUDPs().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().TLSOptions().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().TLSStores().Informer().AddEventHandler(eventHandler) factoryCrd.Traefik().V1alpha1().TraefikServices().Informer().AddEventHandler(eventHandler) factoryKube := informers.NewSharedInformerFactoryWithOptions(c.csKube, resyncPeriod, informers.WithNamespace(ns)) factoryKube.Extensions().V1beta1().Ingresses().Informer().AddEventHandler(eventHandler) factoryKube.Core().V1().Services().Informer().AddEventHandler(eventHandler) factoryKube.Core().V1().Endpoints().Informer().AddEventHandler(eventHandler) factorySecret := informers.NewSharedInformerFactoryWithOptions(c.csKube, resyncPeriod, informers.WithNamespace(ns), informers.WithTweakListOptions(notOwnedByHelm)) factorySecret.Core().V1().Secrets().Informer().AddEventHandler(eventHandler) c.factoriesCrd[ns] = factoryCrd c.factoriesKube[ns] = factoryKube c.factoriesSecret[ns] = factorySecret } for _, ns := range namespaces { c.factoriesCrd[ns].Start(stopCh) c.factoriesKube[ns].Start(stopCh) c.factoriesSecret[ns].Start(stopCh) } for _, ns := range namespaces { for t, ok := range c.factoriesCrd[ns].WaitForCacheSync(stopCh) { if !ok { return nil, fmt.Errorf("timed out waiting for controller caches to sync %s in namespace %q", t.String(), ns) } } for t, ok := range c.factoriesKube[ns].WaitForCacheSync(stopCh) { if !ok { return nil, fmt.Errorf("timed out waiting for controller caches to sync %s in namespace %q", t.String(), ns) } } for t, ok := range c.factoriesSecret[ns].WaitForCacheSync(stopCh) { if !ok { return nil, fmt.Errorf("timed out waiting for controller caches to sync %s in namespace %q", t.String(), ns) } } } return eventCh, nil } func (c *clientWrapper) GetIngressRoutes() []*v1alpha1.IngressRoute { var result []*v1alpha1.IngressRoute for ns, factory := range c.factoriesCrd { ings, err := factory.Traefik().V1alpha1().IngressRoutes().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list ingress routes in namespace %s: %v", ns, err) } result = append(result, ings...) } return result } func (c *clientWrapper) GetIngressRouteTCPs() []*v1alpha1.IngressRouteTCP { var result []*v1alpha1.IngressRouteTCP for ns, factory := range c.factoriesCrd { ings, err := factory.Traefik().V1alpha1().IngressRouteTCPs().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list tcp ingress routes in namespace %s: %v", ns, err) } result = append(result, ings...) } return result } func (c *clientWrapper) GetIngressRouteUDPs() []*v1alpha1.IngressRouteUDP { var result []*v1alpha1.IngressRouteUDP for ns, factory := range c.factoriesCrd { ings, err := factory.Traefik().V1alpha1().IngressRouteUDPs().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list udp ingress routes in namespace %s: %v", ns, err) } result = append(result, ings...) } return result } func (c *clientWrapper) GetMiddlewares() []*v1alpha1.Middleware { var result []*v1alpha1.Middleware for ns, factory := range c.factoriesCrd { middlewares, err := factory.Traefik().V1alpha1().Middlewares().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list middlewares in namespace %s: %v", ns, err) } result = append(result, middlewares...) } return result } // GetTraefikService returns the named service from the given namespace. func (c *clientWrapper) GetTraefikService(namespace, name string) (*v1alpha1.TraefikService, bool, error) { if !c.isWatchedNamespace(namespace) { return nil, false, fmt.Errorf("failed to get service %s/%s: namespace is not within watched namespaces", namespace, name) } service, err := c.factoriesCrd[c.lookupNamespace(namespace)].Traefik().V1alpha1().TraefikServices().Lister().TraefikServices(namespace).Get(name) exist, err := translateNotFoundError(err) return service, exist, err } func (c *clientWrapper) GetTraefikServices() []*v1alpha1.TraefikService { var result []*v1alpha1.TraefikService for ns, factory := range c.factoriesCrd { ings, err := factory.Traefik().V1alpha1().TraefikServices().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list Traefik services in namespace %s: %v", ns, err) } result = append(result, ings...) } return result } // GetTLSOptions returns all TLS options. func (c *clientWrapper) GetTLSOptions() []*v1alpha1.TLSOption { var result []*v1alpha1.TLSOption for ns, factory := range c.factoriesCrd { options, err := factory.Traefik().V1alpha1().TLSOptions().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list tls options in namespace %s: %v", ns, err) } result = append(result, options...) } return result } // GetTLSStores returns all TLS stores. func (c *clientWrapper) GetTLSStores() []*v1alpha1.TLSStore { var result []*v1alpha1.TLSStore for ns, factory := range c.factoriesCrd { stores, err := factory.Traefik().V1alpha1().TLSStores().Lister().List(c.labelSelector) if err != nil { log.Errorf("Failed to list tls stores in namespace %s: %v", ns, err) } result = append(result, stores...) } return result } // GetService returns the named service from the given namespace. func (c *clientWrapper) GetService(namespace, name string) (*corev1.Service, bool, error) { if !c.isWatchedNamespace(namespace) { return nil, false, fmt.Errorf("failed to get service %s/%s: namespace is not within watched namespaces", namespace, name) } service, err := c.factoriesKube[c.lookupNamespace(namespace)].Core().V1().Services().Lister().Services(namespace).Get(name) exist, err := translateNotFoundError(err) return service, exist, err } // GetEndpoints returns the named endpoints from the given namespace. func (c *clientWrapper) GetEndpoints(namespace, name string) (*corev1.Endpoints, bool, error) { if !c.isWatchedNamespace(namespace) { return nil, false, fmt.Errorf("failed to get endpoints %s/%s: namespace is not within watched namespaces", namespace, name) } endpoint, err := c.factoriesKube[c.lookupNamespace(namespace)].Core().V1().Endpoints().Lister().Endpoints(namespace).Get(name) exist, err := translateNotFoundError(err) return endpoint, exist, err } // GetSecret returns the named secret from the given namespace. func (c *clientWrapper) GetSecret(namespace, name string) (*corev1.Secret, bool, error) { if !c.isWatchedNamespace(namespace) { return nil, false, fmt.Errorf("failed to get secret %s/%s: namespace is not within watched namespaces", namespace, name) } secret, err := c.factoriesSecret[c.lookupNamespace(namespace)].Core().V1().Secrets().Lister().Secrets(namespace).Get(name) exist, err := translateNotFoundError(err) return secret, exist, err } // lookupNamespace returns the lookup namespace key for the given namespace. // When listening on all namespaces, it returns the client-go identifier ("") // for all-namespaces. Otherwise, it returns the given namespace. // The distinction is necessary because we index all informers on the special // identifier iff all-namespaces are requested but receive specific namespace // identifiers from the Kubernetes API, so we have to bridge this gap. func (c *clientWrapper) lookupNamespace(ns string) string { if c.isNamespaceAll { return metav1.NamespaceAll } return ns } func (c *clientWrapper) newResourceEventHandler(events chan<- interface{}) cache.ResourceEventHandler { return &cache.FilteringResourceEventHandler{ FilterFunc: func(obj interface{}) bool { // Ignore Ingresses that do not match our custom label selector. switch v := obj.(type) { case *v1alpha1.IngressRoute: return c.labelSelector.Matches(labels.Set(v.GetLabels())) case *v1alpha1.IngressRouteTCP: return c.labelSelector.Matches(labels.Set(v.GetLabels())) case *v1alpha1.TraefikService: return c.labelSelector.Matches(labels.Set(v.GetLabels())) case *v1alpha1.TLSOption: return c.labelSelector.Matches(labels.Set(v.GetLabels())) case *v1alpha1.TLSStore: return c.labelSelector.Matches(labels.Set(v.GetLabels())) case *v1alpha1.Middleware: return c.labelSelector.Matches(labels.Set(v.GetLabels())) default: return true } }, Handler: &resourceEventHandler{ev: events}, } } // eventHandlerFunc will pass the obj on to the events channel or drop it. // This is so passing the events along won't block in the case of high volume. // The events are only used for signaling anyway so dropping a few is ok. func eventHandlerFunc(events chan<- interface{}, obj interface{}) { select { case events <- obj: default: } } // translateNotFoundError will translate a "not found" error to a boolean return // value which indicates if the resource exists and a nil error. func translateNotFoundError(err error) (bool, error) { if kubeerror.IsNotFound(err) { return false, nil } return err == nil, err } // isWatchedNamespace checks to ensure that the namespace is being watched before we request // it to ensure we don't panic by requesting an out-of-watch object. func (c *clientWrapper) isWatchedNamespace(ns string) bool { if c.isNamespaceAll { return true } for _, watchedNamespace := range c.watchedNamespaces { if watchedNamespace == ns { return true } } return false }