// NewNamespaceController returns a new namespace controller func NewNamespaceController(client federationclientset.Interface) *NamespaceController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(api.EventSource{Component: "federated-namespace-controller"}) nc := &NamespaceController{ federatedApiClient: client, namespaceReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, namespaceBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, } // Build delivereres for triggering reconciliations. nc.namespaceDeliverer = util.NewDelayingDeliverer() nc.clusterDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on namespaces that should be federated. nc.namespaceInformerStore, nc.namespaceInformerController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return client.Core().Namespaces().List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return client.Core().Namespaces().Watch(options) }, }, &api_v1.Namespace{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges(func(obj pkg_runtime.Object) { nc.deliverNamespaceObj(obj, 0, false) })) // Federated informer on namespaces in members of federation. nc.namespaceFederatedInformer = util.NewFederatedInformer( client, func(cluster *federation_api.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return targetClient.Core().Namespaces().List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return targetClient.Core().Namespaces().Watch(options) }, }, &api_v1.Namespace{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some namespace opration succeeded. util.NewTriggerOnMetaAndSpecChanges( func(obj pkg_runtime.Object) { nc.deliverNamespaceObj(obj, nc.namespaceReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federation_api.Cluster) { // When new cluster becomes available process all the namespaces again. nc.clusterDeliverer.DeliverAfter(allClustersKey, nil, nc.clusterAvailableDelay) }, }, ) // Federated updeater along with Create/Update/Delete operations. nc.federatedUpdater = util.NewFederatedUpdater(nc.namespaceFederatedInformer, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { namespace := obj.(*api_v1.Namespace) _, err := client.Core().Namespaces().Create(namespace) return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { namespace := obj.(*api_v1.Namespace) _, err := client.Core().Namespaces().Update(namespace) return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { namespace := obj.(*api_v1.Namespace) err := client.Core().Namespaces().Delete(namespace.Name, &api.DeleteOptions{}) return err }) return nc }
// NewConfigMapController returns a new configmap controller func NewConfigMapController(client federationclientset.Interface) *ConfigMapController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(apiv1.EventSource{Component: "federated-configmaps-controller"}) configmapcontroller := &ConfigMapController{ federatedApiClient: client, configmapReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, configmapBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, } // Build delivereres for triggering reconciliations. configmapcontroller.configmapDeliverer = util.NewDelayingDeliverer() configmapcontroller.clusterDeliverer = util.NewDelayingDeliverer() // Start informer on federated API servers on configmaps that should be federated. configmapcontroller.configmapInformerStore, configmapcontroller.configmapInformerController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options apiv1.ListOptions) (pkgruntime.Object, error) { return client.Core().ConfigMaps(apiv1.NamespaceAll).List(options) }, WatchFunc: func(options apiv1.ListOptions) (watch.Interface, error) { return client.Core().ConfigMaps(apiv1.NamespaceAll).Watch(options) }, }, &apiv1.ConfigMap{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges(func(obj pkgruntime.Object) { configmapcontroller.deliverConfigMapObj(obj, 0, false) })) // Federated informer on configmaps in members of federation. configmapcontroller.configmapFederatedInformer = util.NewFederatedInformer( client, func(cluster *federationapi.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options apiv1.ListOptions) (pkgruntime.Object, error) { return targetClient.Core().ConfigMaps(apiv1.NamespaceAll).List(options) }, WatchFunc: func(options apiv1.ListOptions) (watch.Interface, error) { return targetClient.Core().ConfigMaps(apiv1.NamespaceAll).Watch(options) }, }, &apiv1.ConfigMap{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some configmap opration succeeded. util.NewTriggerOnAllChanges( func(obj pkgruntime.Object) { configmapcontroller.deliverConfigMapObj(obj, configmapcontroller.configmapReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federationapi.Cluster) { // When new cluster becomes available process all the configmaps again. configmapcontroller.clusterDeliverer.DeliverAt(allClustersKey, nil, time.Now().Add(configmapcontroller.clusterAvailableDelay)) }, }, ) // Federated updater along with Create/Update/Delete operations. configmapcontroller.federatedUpdater = util.NewFederatedUpdater(configmapcontroller.configmapFederatedInformer, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configmap := obj.(*apiv1.ConfigMap) _, err := client.Core().ConfigMaps(configmap.Namespace).Create(configmap) return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configmap := obj.(*apiv1.ConfigMap) _, err := client.Core().ConfigMaps(configmap.Namespace).Update(configmap) return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configmap := obj.(*apiv1.ConfigMap) err := client.Core().ConfigMaps(configmap.Namespace).Delete(configmap.Name, &apiv1.DeleteOptions{}) return err }) return configmapcontroller }
// NewIngressController returns a new ingress controller func NewIngressController(client federationclientset.Interface) *IngressController { glog.V(4).Infof("->NewIngressController V(4)") broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(v1.EventSource{Component: "federated-ingress-controller"}) ic := &IngressController{ federatedApiClient: client, ingressReviewDelay: time.Second * 10, configMapReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, ingressBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, configMapBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), } // Build deliverers for triggering reconciliations. ic.ingressDeliverer = util.NewDelayingDeliverer() ic.clusterDeliverer = util.NewDelayingDeliverer() ic.configMapDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on ingresses that should be federated. ic.ingressInformerStore, ic.ingressInformerController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { return client.Extensions().Ingresses(api.NamespaceAll).List(options) }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { return client.Extensions().Ingresses(api.NamespaceAll).Watch(options) }, }, &extensionsv1beta1.Ingress{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges( func(obj pkgruntime.Object) { ic.deliverIngressObj(obj, 0, false) }, )) // Federated informer on ingresses in members of federation. ic.ingressFederatedInformer = util.NewFederatedInformer( client, func(cluster *federationapi.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { return targetClient.Extensions().Ingresses(api.NamespaceAll).List(options) }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { return targetClient.Extensions().Ingresses(api.NamespaceAll).Watch(options) }, }, &extensionsv1beta1.Ingress{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some ingress operation succeeded. util.NewTriggerOnAllChanges( func(obj pkgruntime.Object) { ic.deliverIngressObj(obj, ic.ingressReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federationapi.Cluster) { // When new cluster becomes available process all the ingresses again, and configure it's ingress controller's configmap with the correct UID ic.clusterDeliverer.DeliverAfter(cluster.Name, cluster, ic.clusterAvailableDelay) }, }, ) // Federated informer on configmaps for ingress controllers in members of the federation. ic.configMapFederatedInformer = util.NewFederatedInformer( client, func(cluster *federationapi.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { glog.V(4).Infof("Returning new informer for cluster %q", cluster.Name) return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { if targetClient == nil { glog.Errorf("Internal error: targetClient is nil") } return targetClient.Core().ConfigMaps(uidConfigMapNamespace).List(options) // we only want to list one by name - unfortunately Kubernetes don't have a selector for that. }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { if targetClient == nil { glog.Errorf("Internal error: targetClient is nil") } return targetClient.Core().ConfigMaps(uidConfigMapNamespace).Watch(options) // as above }, }, &v1.ConfigMap{}, controller.NoResyncPeriodFunc(), // Trigger reconcilation whenever the ingress controller's configmap in a federated cluster is changed. In most cases it // would be just confirmation that the configmap for the ingress controller is correct. util.NewTriggerOnAllChanges( func(obj pkgruntime.Object) { ic.deliverConfigMapObj(cluster.Name, obj, ic.configMapReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federationapi.Cluster) { ic.clusterDeliverer.DeliverAfter(cluster.Name, cluster, ic.clusterAvailableDelay) }, }, ) // Federated ingress updater along with Create/Update/Delete operations. ic.federatedIngressUpdater = util.NewFederatedUpdater(ic.ingressFederatedInformer, func(client kubeclientset.Interface, obj pkgruntime.Object) error { ingress := obj.(*extensionsv1beta1.Ingress) glog.V(4).Infof("Attempting to create Ingress: %v", ingress) _, err := client.Extensions().Ingresses(ingress.Namespace).Create(ingress) if err != nil { glog.Errorf("Error creating ingress %q: %v", types.NamespacedName{Name: ingress.Name, Namespace: ingress.Namespace}, err) } else { glog.V(4).Infof("Successfully created ingress %q", types.NamespacedName{Name: ingress.Name, Namespace: ingress.Namespace}) } return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { ingress := obj.(*extensionsv1beta1.Ingress) glog.V(4).Infof("Attempting to update Ingress: %v", ingress) _, err := client.Extensions().Ingresses(ingress.Namespace).Update(ingress) if err != nil { glog.V(4).Infof("Failed to update Ingress: %v", err) } else { glog.V(4).Infof("Successfully updated Ingress: %q", types.NamespacedName{Name: ingress.Name, Namespace: ingress.Namespace}) } return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { ingress := obj.(*extensionsv1beta1.Ingress) glog.V(4).Infof("Attempting to delete Ingress: %v", ingress) err := client.Extensions().Ingresses(ingress.Namespace).Delete(ingress.Name, &v1.DeleteOptions{}) return err }) // Federated configmap updater along with Create/Update/Delete operations. Only Update should ever be called. ic.federatedConfigMapUpdater = util.NewFederatedUpdater(ic.configMapFederatedInformer, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configMap := obj.(*v1.ConfigMap) configMapName := types.NamespacedName{Name: configMap.Name, Namespace: configMap.Namespace} glog.Errorf("Internal error: Incorrectly attempting to create ConfigMap: %q", configMapName) _, err := client.Core().ConfigMaps(configMap.Namespace).Create(configMap) return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configMap := obj.(*v1.ConfigMap) configMapName := types.NamespacedName{Name: configMap.Name, Namespace: configMap.Namespace} glog.V(4).Infof("Attempting to update ConfigMap: %v", configMap) _, err := client.Core().ConfigMaps(configMap.Namespace).Update(configMap) if err == nil { glog.V(4).Infof("Successfully updated ConfigMap %q", configMapName) } else { glog.V(4).Infof("Failed to update ConfigMap %q: %v", configMapName, err) } return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { configMap := obj.(*v1.ConfigMap) configMapName := types.NamespacedName{Name: configMap.Name, Namespace: configMap.Namespace} glog.Errorf("Internal error: Incorrectly attempting to delete ConfigMap: %q", configMapName) err := client.Core().ConfigMaps(configMap.Namespace).Delete(configMap.Name, &v1.DeleteOptions{}) return err }) ic.deletionHelper = deletionhelper.NewDeletionHelper( ic.hasFinalizerFunc, ic.removeFinalizerFunc, ic.addFinalizerFunc, // objNameFunc func(obj pkgruntime.Object) string { ingress := obj.(*extensionsv1beta1.Ingress) return ingress.Name }, ic.updateTimeout, ic.eventRecorder, ic.ingressFederatedInformer, ic.federatedIngressUpdater, ) return ic }
// NewIngressController returns a new ingress controller func NewIngressController(client federation_release_1_4.Interface) *IngressController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(api.EventSource{Component: "federated-ingress-controller"}) ic := &IngressController{ federatedApiClient: client, ingressReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, ingressBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, } // Build deliverers for triggering reconcilations. ic.ingressDeliverer = util.NewDelayingDeliverer() ic.clusterDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on ingresses that should be federated. ic.ingressInformerStore, ic.ingressInformerController = framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return client.Extensions().Ingresses(api.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return client.Extensions().Ingresses(api.NamespaceAll).Watch(options) }, }, &extensions_v1beta1.Ingress{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges( func(obj pkg_runtime.Object) { ic.deliverIngressObj(obj, 0, false) }, )) // Federated informer on ingresses in members of federation. ic.ingressFederatedInformer = util.NewFederatedInformer( client, func(cluster *federation_api.Cluster, targetClient kube_release_1_4.Interface) (cache.Store, framework.ControllerInterface) { return framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return targetClient.Extensions().Ingresses(api.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return targetClient.Extensions().Ingresses(api.NamespaceAll).Watch(options) }, }, &extensions_v1beta1.Ingress{}, controller.NoResyncPeriodFunc(), // Trigger reconcilation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some ingress operation suceeded. util.NewTriggerOnAllChanges( func(obj pkg_runtime.Object) { ic.deliverIngressObj(obj, ic.ingressReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federation_api.Cluster) { // When new cluster becomes available process all the ingresses again. ic.clusterDeliverer.DeliverAt(allClustersKey, nil, time.Now().Add(ic.clusterAvailableDelay)) }, }, ) // Federated updater along with Create/Update/Delete operations. ic.federatedUpdater = util.NewFederatedUpdater(ic.ingressFederatedInformer, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { ingress := obj.(*extensions_v1beta1.Ingress) glog.V(4).Infof("Attempting to create Ingress: %v", ingress) _, err := client.Extensions().Ingresses(ingress.Namespace).Create(ingress) return err }, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { ingress := obj.(*extensions_v1beta1.Ingress) glog.V(4).Infof("Attempting to update Ingress: %v", ingress) _, err := client.Extensions().Ingresses(ingress.Namespace).Update(ingress) return err }, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { ingress := obj.(*extensions_v1beta1.Ingress) glog.V(4).Infof("Attempting to delete Ingress: %v", ingress) err := client.Extensions().Ingresses(ingress.Namespace).Delete(ingress.Name, &api.DeleteOptions{}) return err }) return ic }
// NewclusterController returns a new cluster controller func NewReplicaSetController(federationClient fedclientset.Interface) *ReplicaSetController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(federationClient)) recorder := broadcaster.NewRecorder(api.EventSource{Component: "federated-replicaset-controller"}) frsc := &ReplicaSetController{ fedClient: federationClient, replicasetDeliverer: fedutil.NewDelayingDeliverer(), clusterDeliverer: fedutil.NewDelayingDeliverer(), replicasetWorkQueue: workqueue.New(), replicaSetBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), defaultPlanner: planner.NewPlanner(&fed.FederatedReplicaSetPreferences{ Clusters: map[string]fed.ClusterReplicaSetPreferences{ "*": {Weight: 1}, }, }), eventRecorder: recorder, } replicaSetFedInformerFactory := func(cluster *fedv1.Cluster, clientset kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return clientset.Extensions().ReplicaSets(apiv1.NamespaceAll).List(versionedOptions) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return clientset.Extensions().ReplicaSets(apiv1.NamespaceAll).Watch(versionedOptions) }, }, &extensionsv1.ReplicaSet{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnAllChanges( func(obj runtime.Object) { frsc.deliverLocalReplicaSet(obj, replicaSetReviewDelay) }, ), ) } clusterLifecycle := fedutil.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *fedv1.Cluster) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterAvailableDelay) }, ClusterUnavailable: func(cluster *fedv1.Cluster, _ []interface{}) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterUnavailableDelay) }, } frsc.fedReplicaSetInformer = fedutil.NewFederatedInformer(federationClient, replicaSetFedInformerFactory, &clusterLifecycle) podFedInformerFactory := func(cluster *fedv1.Cluster, clientset kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return clientset.Core().Pods(apiv1.NamespaceAll).List(versionedOptions) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return clientset.Core().Pods(apiv1.NamespaceAll).Watch(versionedOptions) }, }, &apiv1.Pod{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnAllChanges( func(obj runtime.Object) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, allReplicaSetReviewDelay) }, ), ) } frsc.fedPodInformer = fedutil.NewFederatedInformer(federationClient, podFedInformerFactory, &fedutil.ClusterLifecycleHandlerFuncs{}) frsc.replicaSetStore.Indexer, frsc.replicaSetController = cache.NewIndexerInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return frsc.fedClient.Extensions().ReplicaSets(apiv1.NamespaceAll).List(versionedOptions) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { versionedOptions := fedutil.VersionizeV1ListOptions(options) return frsc.fedClient.Extensions().ReplicaSets(apiv1.NamespaceAll).Watch(versionedOptions) }, }, &extensionsv1.ReplicaSet{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnMetaAndSpecChanges( func(obj runtime.Object) { frsc.deliverFedReplicaSetObj(obj, replicaSetReviewDelay) }, ), cache.Indexers{cache.NamespaceIndex: cache.MetaNamespaceIndexFunc}, ) frsc.fedUpdater = fedutil.NewFederatedUpdater(frsc.fedReplicaSetInformer, func(client kubeclientset.Interface, obj runtime.Object) error { rs := obj.(*extensionsv1.ReplicaSet) _, err := client.Extensions().ReplicaSets(rs.Namespace).Create(rs) return err }, func(client kubeclientset.Interface, obj runtime.Object) error { rs := obj.(*extensionsv1.ReplicaSet) _, err := client.Extensions().ReplicaSets(rs.Namespace).Update(rs) return err }, func(client kubeclientset.Interface, obj runtime.Object) error { rs := obj.(*extensionsv1.ReplicaSet) err := client.Extensions().ReplicaSets(rs.Namespace).Delete(rs.Name, &apiv1.DeleteOptions{}) return err }) frsc.deletionHelper = deletionhelper.NewDeletionHelper( frsc.hasFinalizerFunc, frsc.removeFinalizerFunc, frsc.addFinalizerFunc, // objNameFunc func(obj runtime.Object) string { replicaset := obj.(*extensionsv1.ReplicaSet) return replicaset.Name }, updateTimeout, frsc.eventRecorder, frsc.fedReplicaSetInformer, frsc.fedUpdater, ) return frsc }
// NewDaemonSetController returns a new daemonset controller func NewDaemonSetController(client federationclientset.Interface) *DaemonSetController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(api_v1.EventSource{Component: "federated-daemonset-controller"}) daemonsetcontroller := &DaemonSetController{ federatedApiClient: client, daemonsetReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, daemonsetBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, } // Build deliverers for triggering reconciliations. daemonsetcontroller.daemonsetDeliverer = util.NewDelayingDeliverer() daemonsetcontroller.clusterDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on daemonsets that should be federated. daemonsetcontroller.daemonsetInformerStore, daemonsetcontroller.daemonsetInformerController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api_v1.ListOptions) (pkg_runtime.Object, error) { return client.Extensions().DaemonSets(api_v1.NamespaceAll).List(options) }, WatchFunc: func(options api_v1.ListOptions) (watch.Interface, error) { return client.Extensions().DaemonSets(api_v1.NamespaceAll).Watch(options) }, }, &extensionsv1.DaemonSet{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges(func(obj pkg_runtime.Object) { daemonsetcontroller.deliverDaemonSetObj(obj, 0, false) })) // Federated informer on daemonsets in members of federation. daemonsetcontroller.daemonsetFederatedInformer = util.NewFederatedInformer( client, func(cluster *federation_api.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api_v1.ListOptions) (pkg_runtime.Object, error) { return targetClient.Extensions().DaemonSets(api_v1.NamespaceAll).List(options) }, WatchFunc: func(options api_v1.ListOptions) (watch.Interface, error) { return targetClient.Extensions().DaemonSets(api_v1.NamespaceAll).Watch(options) }, }, &extensionsv1.DaemonSet{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some daemonset opration succeeded. util.NewTriggerOnAllChanges( func(obj pkg_runtime.Object) { daemonsetcontroller.deliverDaemonSetObj(obj, daemonsetcontroller.daemonsetReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federation_api.Cluster) { // When new cluster becomes available process all the daemonsets again. daemonsetcontroller.clusterDeliverer.DeliverAt(allClustersKey, nil, time.Now().Add(daemonsetcontroller.clusterAvailableDelay)) }, }, ) // Federated updater along with Create/Update/Delete operations. daemonsetcontroller.federatedUpdater = util.NewFederatedUpdater(daemonsetcontroller.daemonsetFederatedInformer, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { daemonset := obj.(*extensionsv1.DaemonSet) glog.V(4).Infof("Attempting to create daemonset: %s/%s", daemonset.Namespace, daemonset.Name) _, err := client.Extensions().DaemonSets(daemonset.Namespace).Create(daemonset) if err != nil { glog.Errorf("Error creating daemonset %s/%s/: %v", daemonset.Namespace, daemonset.Name, err) } else { glog.V(4).Infof("Successfully created deamonset %s/%s", daemonset.Namespace, daemonset.Name) } return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { daemonset := obj.(*extensionsv1.DaemonSet) glog.V(4).Infof("Attempting to update daemonset: %s/%s", daemonset.Namespace, daemonset.Name) _, err := client.Extensions().DaemonSets(daemonset.Namespace).Update(daemonset) if err != nil { glog.Errorf("Error updating daemonset %s/%s/: %v", daemonset.Namespace, daemonset.Name, err) } else { glog.V(4).Infof("Successfully updating deamonset %s/%s", daemonset.Namespace, daemonset.Name) } return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { daemonset := obj.(*extensionsv1.DaemonSet) glog.V(4).Infof("Attempting to delete daemonset: %s/%s", daemonset.Namespace, daemonset.Name) err := client.Extensions().DaemonSets(daemonset.Namespace).Delete(daemonset.Name, &api_v1.DeleteOptions{}) if err != nil { glog.Errorf("Error deleting daemonset %s/%s/: %v", daemonset.Namespace, daemonset.Name, err) } else { glog.V(4).Infof("Successfully deleting deamonset %s/%s", daemonset.Namespace, daemonset.Name) } return err }) daemonsetcontroller.deletionHelper = deletionhelper.NewDeletionHelper( daemonsetcontroller.hasFinalizerFunc, daemonsetcontroller.removeFinalizerFunc, daemonsetcontroller.addFinalizerFunc, // objNameFunc func(obj pkg_runtime.Object) string { daemonset := obj.(*extensionsv1.DaemonSet) return daemonset.Name }, daemonsetcontroller.updateTimeout, daemonsetcontroller.eventRecorder, daemonsetcontroller.daemonsetFederatedInformer, daemonsetcontroller.federatedUpdater, ) return daemonsetcontroller }
func New(federationClient fedclientset.Interface, dns dnsprovider.Interface, federationName, serviceDnsSuffix, zoneName string, zoneID string) *ServiceController { broadcaster := record.NewBroadcaster() // federationClient event is not supported yet // broadcaster.StartRecordingToSink(&unversioned_core.EventSinkImpl{Interface: kubeClient.Core().Events("")}) recorder := broadcaster.NewRecorder(v1.EventSource{Component: UserAgentName}) s := &ServiceController{ dns: dns, federationClient: federationClient, federationName: federationName, serviceDnsSuffix: serviceDnsSuffix, zoneName: zoneName, zoneID: zoneID, serviceCache: &serviceCache{fedServiceMap: make(map[string]*cachedService)}, clusterCache: &clusterClientCache{ rwlock: sync.Mutex{}, clientMap: make(map[string]*clusterCache), }, eventBroadcaster: broadcaster, eventRecorder: recorder, queue: workqueue.New(), knownClusterSet: make(sets.String), } s.clusterDeliverer = util.NewDelayingDeliverer() s.serviceStore.Indexer, s.serviceController = cache.NewIndexerInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { return s.federationClient.Core().Services(v1.NamespaceAll).List(options) }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { return s.federationClient.Core().Services(v1.NamespaceAll).Watch(options) }, }, &v1.Service{}, serviceSyncPeriod, cache.ResourceEventHandlerFuncs{ AddFunc: s.enqueueService, UpdateFunc: func(old, cur interface{}) { // there is case that old and new are equals but we still catch the event now. if !reflect.DeepEqual(old, cur) { s.enqueueService(cur) } }, DeleteFunc: s.enqueueService, }, cache.Indexers{cache.NamespaceIndex: cache.MetaNamespaceIndexFunc}, ) s.clusterStore.Store, s.clusterController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { return s.federationClient.Federation().Clusters().List(options) }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { return s.federationClient.Federation().Clusters().Watch(options) }, }, &v1beta1.Cluster{}, clusterSyncPeriod, cache.ResourceEventHandlerFuncs{ DeleteFunc: s.clusterCache.delFromClusterSet, AddFunc: s.clusterCache.addToClientMap, UpdateFunc: func(old, cur interface{}) { oldCluster, ok := old.(*v1beta1.Cluster) if !ok { return } curCluster, ok := cur.(*v1beta1.Cluster) if !ok { return } if !reflect.DeepEqual(oldCluster.Spec, curCluster.Spec) { // update when spec is changed s.clusterCache.addToClientMap(cur) } pred := getClusterConditionPredicate() // only update when condition changed to ready from not-ready if !pred(*oldCluster) && pred(*curCluster) { s.clusterCache.addToClientMap(cur) } // did not handle ready -> not-ready // how could we stop a controller? }, }, ) clusterLifecycle := fedutil.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *v1beta1.Cluster) { s.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterAvailableDelay) }, } fedInformerFactory := func(cluster *v1beta1.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.Controller) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options v1.ListOptions) (pkgruntime.Object, error) { return targetClient.Core().Services(v1.NamespaceAll).List(options) }, WatchFunc: func(options v1.ListOptions) (watch.Interface, error) { return targetClient.Core().Services(v1.NamespaceAll).Watch(options) }, }, &v1.Service{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some service operation succeeded. util.NewTriggerOnAllChanges( func(obj pkgruntime.Object) { // TODO: Use this to enque services. }, )) } s.federatedInformer = fedutil.NewFederatedInformer(federationClient, fedInformerFactory, &clusterLifecycle) federatedUpdater := fedutil.NewFederatedUpdater(s.federatedInformer, func(client kubeclientset.Interface, obj pkgruntime.Object) error { svc := obj.(*v1.Service) _, err := client.Core().Services(svc.Namespace).Create(svc) return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { svc := obj.(*v1.Service) _, err := client.Core().Services(svc.Namespace).Update(svc) return err }, func(client kubeclientset.Interface, obj pkgruntime.Object) error { svc := obj.(*v1.Service) err := client.Core().Services(svc.Namespace).Delete(svc.Name, &v1.DeleteOptions{}) return err }) s.deletionHelper = deletionhelper.NewDeletionHelper( s.hasFinalizerFunc, s.removeFinalizerFunc, s.addFinalizerFunc, // objNameFunc func(obj pkgruntime.Object) string { service := obj.(*v1.Service) return service.Name }, updateTimeout, s.eventRecorder, s.federatedInformer, federatedUpdater, ) s.endpointWorkerMap = make(map[string]bool) s.serviceWorkerMap = make(map[string]bool) s.endpointWorkerDoneChan = make(chan string, maxNoOfClusters) s.serviceWorkerDoneChan = make(chan string, maxNoOfClusters) return s }
// NewclusterController returns a new cluster controller func NewReplicaSetController(federationClient fedclientset.Interface) *ReplicaSetController { frsc := &ReplicaSetController{ fedClient: federationClient, replicasetDeliverer: fedutil.NewDelayingDeliverer(), clusterDeliverer: fedutil.NewDelayingDeliverer(), replicasetWorkQueue: workqueue.New(), replicaSetBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), defaultPlanner: planner.NewPlanner(&fed.FederatedReplicaSetPreferences{ Clusters: map[string]fed.ClusterReplicaSetPreferences{ "*": {Weight: 1}, }, }), } replicaSetFedInformerFactory := func(cluster *fedv1.Cluster, clientset kubeclientset.Interface) (cache.Store, framework.ControllerInterface) { return framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { return clientset.Extensions().ReplicaSets(apiv1.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return clientset.Extensions().ReplicaSets(apiv1.NamespaceAll).Watch(options) }, }, &extensionsv1.ReplicaSet{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnAllChanges( func(obj runtime.Object) { frsc.deliverLocalReplicaSet(obj, allReplicaSetReviewDealy) }, ), ) } clusterLifecycle := fedutil.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *fedv1.Cluster) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterUnavailableDelay) }, ClusterUnavailable: func(cluster *fedv1.Cluster, _ []interface{}) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterUnavailableDelay) }, } frsc.fedReplicaSetInformer = fedutil.NewFederatedInformer(federationClient, replicaSetFedInformerFactory, &clusterLifecycle) podFedInformerFactory := func(cluster *fedv1.Cluster, clientset kubeclientset.Interface) (cache.Store, framework.ControllerInterface) { return framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { return clientset.Core().Pods(apiv1.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return clientset.Core().Pods(apiv1.NamespaceAll).Watch(options) }, }, &apiv1.Pod{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnAllChanges( func(obj runtime.Object) { frsc.clusterDeliverer.DeliverAfter(allClustersKey, nil, clusterUnavailableDelay) }, ), ) } frsc.fedPodInformer = fedutil.NewFederatedInformer(federationClient, podFedInformerFactory, &fedutil.ClusterLifecycleHandlerFuncs{}) frsc.replicaSetStore.Store, frsc.replicaSetController = framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (runtime.Object, error) { return frsc.fedClient.Extensions().ReplicaSets(apiv1.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return frsc.fedClient.Extensions().ReplicaSets(apiv1.NamespaceAll).Watch(options) }, }, &extensionsv1.ReplicaSet{}, controller.NoResyncPeriodFunc(), fedutil.NewTriggerOnMetaAndSpecChanges( func(obj runtime.Object) { frsc.deliverFedReplicaSetObj(obj, replicaSetReviewDelay) }, ), ) return frsc }
// NewSecretController returns a new secret controller func NewSecretController(client federationclientset.Interface) *SecretController { broadcaster := record.NewBroadcaster() broadcaster.StartRecordingToSink(eventsink.NewFederatedEventSink(client)) recorder := broadcaster.NewRecorder(api.EventSource{Component: "federated-secrets-controller"}) secretcontroller := &SecretController{ federatedApiClient: client, secretReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, secretBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), eventRecorder: recorder, } // Build delivereres for triggering reconciliations. secretcontroller.secretDeliverer = util.NewDelayingDeliverer() secretcontroller.clusterDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on secrets that should be federated. secretcontroller.secretInformerStore, secretcontroller.secretInformerController = cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { versionedOptions := util.VersionizeV1ListOptions(options) return client.Core().Secrets(api_v1.NamespaceAll).List(versionedOptions) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { versionedOptions := util.VersionizeV1ListOptions(options) return client.Core().Secrets(api_v1.NamespaceAll).Watch(versionedOptions) }, }, &api_v1.Secret{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges(func(obj pkg_runtime.Object) { secretcontroller.deliverSecretObj(obj, 0, false) })) // Federated informer on secrets in members of federation. secretcontroller.secretFederatedInformer = util.NewFederatedInformer( client, func(cluster *federation_api.Cluster, targetClient kubeclientset.Interface) (cache.Store, cache.ControllerInterface) { return cache.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { versionedOptions := util.VersionizeV1ListOptions(options) return targetClient.Core().Secrets(api_v1.NamespaceAll).List(versionedOptions) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { versionedOptions := util.VersionizeV1ListOptions(options) return targetClient.Core().Secrets(api_v1.NamespaceAll).Watch(versionedOptions) }, }, &api_v1.Secret{}, controller.NoResyncPeriodFunc(), // Trigger reconciliation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some secret opration succeeded. util.NewTriggerOnAllChanges( func(obj pkg_runtime.Object) { secretcontroller.deliverSecretObj(obj, secretcontroller.secretReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federation_api.Cluster) { // When new cluster becomes available process all the secrets again. secretcontroller.clusterDeliverer.DeliverAt(allClustersKey, nil, time.Now().Add(secretcontroller.clusterAvailableDelay)) }, }, ) // Federated updeater along with Create/Update/Delete operations. secretcontroller.federatedUpdater = util.NewFederatedUpdater(secretcontroller.secretFederatedInformer, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) _, err := client.Core().Secrets(secret.Namespace).Create(secret) return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) _, err := client.Core().Secrets(secret.Namespace).Update(secret) return err }, func(client kubeclientset.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) err := client.Core().Secrets(secret.Namespace).Delete(secret.Name, &api_v1.DeleteOptions{}) return err }) secretcontroller.deletionHelper = deletionhelper.NewDeletionHelper( secretcontroller.hasFinalizerFunc, secretcontroller.removeFinalizerFunc, secretcontroller.addFinalizerFunc, // objNameFunc func(obj pkg_runtime.Object) string { secret := obj.(*api_v1.Secret) return secret.Name }, secretcontroller.updateTimeout, secretcontroller.eventRecorder, secretcontroller.secretFederatedInformer, secretcontroller.federatedUpdater, ) return secretcontroller }
// NewSecretController returns a new secret controller func NewSecretController(client federation_release_1_4.Interface) *SecretController { secretcontroller := &SecretController{ federatedApiClient: client, secretReviewDelay: time.Second * 10, clusterAvailableDelay: time.Second * 20, smallDelay: time.Second * 3, updateTimeout: time.Second * 30, secretBackoff: flowcontrol.NewBackOff(5*time.Second, time.Minute), } // Build delivereres for triggering reconcilations. secretcontroller.secretDeliverer = util.NewDelayingDeliverer() secretcontroller.clusterDeliverer = util.NewDelayingDeliverer() // Start informer in federated API servers on secrets that should be federated. secretcontroller.secretInformerStore, secretcontroller.secretInformerController = framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return client.Core().Secrets(api_v1.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return client.Core().Secrets(api_v1.NamespaceAll).Watch(options) }, }, &api_v1.Secret{}, controller.NoResyncPeriodFunc(), util.NewTriggerOnAllChanges(func(obj pkg_runtime.Object) { secretcontroller.deliverSecretObj(obj, 0, false) })) // Federated informer on secrets in members of federation. secretcontroller.secretFederatedInformer = util.NewFederatedInformer( client, func(cluster *federation_api.Cluster, targetClient kube_release_1_4.Interface) (cache.Store, framework.ControllerInterface) { return framework.NewInformer( &cache.ListWatch{ ListFunc: func(options api.ListOptions) (pkg_runtime.Object, error) { return targetClient.Core().Secrets(api_v1.NamespaceAll).List(options) }, WatchFunc: func(options api.ListOptions) (watch.Interface, error) { return targetClient.Core().Secrets(api_v1.NamespaceAll).Watch(options) }, }, &api_v1.Secret{}, controller.NoResyncPeriodFunc(), // Trigger reconcilation whenever something in federated cluster is changed. In most cases it // would be just confirmation that some secret opration suceeded. util.NewTriggerOnChanges( func(obj pkg_runtime.Object) { secretcontroller.deliverSecretObj(obj, secretcontroller.secretReviewDelay, false) }, )) }, &util.ClusterLifecycleHandlerFuncs{ ClusterAvailable: func(cluster *federation_api.Cluster) { // When new cluster becomes available process all the secrets again. secretcontroller.clusterDeliverer.DeliverAt(allClustersKey, nil, time.Now().Add(secretcontroller.clusterAvailableDelay)) }, }, ) // Federated updeater along with Create/Update/Delete operations. secretcontroller.federatedUpdater = util.NewFederatedUpdater(secretcontroller.secretFederatedInformer, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) _, err := client.Core().Secrets(secret.Namespace).Create(secret) return err }, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) _, err := client.Core().Secrets(secret.Namespace).Update(secret) return err }, func(client kube_release_1_4.Interface, obj pkg_runtime.Object) error { secret := obj.(*api_v1.Secret) err := client.Core().Secrets(secret.Namespace).Delete(secret.Name, &api.DeleteOptions{}) return err }) return secretcontroller }