/* Copyright 2014 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ // Package app implements a server that runs a set of active // components. This includes replication controllers, service endpoints and // nodes. // package app import ( "context" "fmt" "io/ioutil" "math/rand" "net/http" "os" "time" "github.com/spf13/cobra" "k8s.io/apimachinery/pkg/runtime/schema" utilruntime "k8s.io/apimachinery/pkg/util/runtime" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/apimachinery/pkg/util/uuid" "k8s.io/apimachinery/pkg/util/wait" "k8s.io/apiserver/pkg/server" "k8s.io/apiserver/pkg/server/healthz" "k8s.io/apiserver/pkg/server/mux" "k8s.io/apiserver/pkg/util/term" cacheddiscovery "k8s.io/client-go/discovery/cached" "k8s.io/client-go/informers" restclient "k8s.io/client-go/rest" "k8s.io/client-go/restmapper" "k8s.io/client-go/tools/leaderelection" "k8s.io/client-go/tools/leaderelection/resourcelock" certutil "k8s.io/client-go/util/cert" "k8s.io/client-go/util/keyutil" cliflag "k8s.io/component-base/cli/flag" "k8s.io/component-base/cli/globalflag" "k8s.io/klog" genericcontrollermanager "k8s.io/kubernetes/cmd/controller-manager/app" "k8s.io/kubernetes/cmd/kube-controller-manager/app/config" "k8s.io/kubernetes/cmd/kube-controller-manager/app/options" "k8s.io/kubernetes/pkg/controller" kubectrlmgrconfig "k8s.io/kubernetes/pkg/controller/apis/config" serviceaccountcontroller "k8s.io/kubernetes/pkg/controller/serviceaccount" "k8s.io/kubernetes/pkg/serviceaccount" "k8s.io/kubernetes/pkg/util/configz" utilflag "k8s.io/kubernetes/pkg/util/flag" "k8s.io/kubernetes/pkg/version" "k8s.io/kubernetes/pkg/version/verflag" ) const ( // Jitter used when starting controller managers ControllerStartJitter = 1.0 // ConfigzName is the name used for register kube-controller manager /configz, same with GroupName. ConfigzName = "kubecontrollermanager.config.k8s.io" ) // NewControllerManagerCommand creates a *cobra.Command object with default parameters func NewControllerManagerCommand() *cobra.Command { s, err := options.NewKubeControllerManagerOptions() if err != nil { klog.Fatalf("unable to initialize command options: %v", err) } cmd := &cobra.Command{ Use: "kube-controller-manager", Long: `The Kubernetes controller manager is a daemon that embeds the core control loops shipped with Kubernetes. In applications of robotics and automation, a control loop is a non-terminating loop that regulates the state of the system. In Kubernetes, a controller is a control loop that watches the shared state of the cluster through the apiserver and makes changes attempting to move the current state towards the desired state. Examples of controllers that ship with Kubernetes today are the replication controller, endpoints controller, namespace controller, and serviceaccounts controller.`, Run: func(cmd *cobra.Command, args []string) { verflag.PrintAndExitIfRequested() utilflag.PrintFlags(cmd.Flags()) c, err := s.Config(KnownControllers(), ControllersDisabledByDefault.List()) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } if err := Run(c.Complete(), wait.NeverStop); err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } }, } fs := cmd.Flags() namedFlagSets := s.Flags(KnownControllers(), ControllersDisabledByDefault.List()) verflag.AddFlags(namedFlagSets.FlagSet("global")) globalflag.AddGlobalFlags(namedFlagSets.FlagSet("global"), cmd.Name()) for _, f := range namedFlagSets.FlagSets { fs.AddFlagSet(f) } usageFmt := "Usage:\n %s\n" cols, _, _ := term.TerminalSize(cmd.OutOrStdout()) cmd.SetUsageFunc(func(cmd *cobra.Command) error { fmt.Fprintf(cmd.OutOrStderr(), usageFmt, cmd.UseLine()) cliflag.PrintSections(cmd.OutOrStderr(), namedFlagSets, cols) return nil }) cmd.SetHelpFunc(func(cmd *cobra.Command, args []string) { fmt.Fprintf(cmd.OutOrStdout(), "%s\n\n"+usageFmt, cmd.Long, cmd.UseLine()) cliflag.PrintSections(cmd.OutOrStdout(), namedFlagSets, cols) }) return cmd } // ResyncPeriod returns a function which generates a duration each time it is // invoked; this is so that multiple controllers don't get into lock-step and all // hammer the apiserver with list requests simultaneously. func ResyncPeriod(c *config.CompletedConfig) func() time.Duration { return func() time.Duration { factor := rand.Float64() + 1 return time.Duration(float64(c.ComponentConfig.Generic.MinResyncPeriod.Nanoseconds()) * factor) } } // Run runs the KubeControllerManagerOptions. This should never exit. func Run(c *config.CompletedConfig, stopCh <-chan struct{}) error { // To help debugging, immediately log version klog.Infof("Version: %+v", version.Get()) if cfgz, err := configz.New(ConfigzName); err == nil { cfgz.Set(c.ComponentConfig) } else { klog.Errorf("unable to register configz: %c", err) } // Setup any healthz checks we will want to use. var checks []healthz.HealthzChecker var electionChecker *leaderelection.HealthzAdaptor if c.ComponentConfig.Generic.LeaderElection.LeaderElect { electionChecker = leaderelection.NewLeaderHealthzAdaptor(time.Second * 20) checks = append(checks, electionChecker) } // Start the controller manager HTTP server // unsecuredMux is the handler for these controller *after* authn/authz filters have been applied var unsecuredMux *mux.PathRecorderMux if c.SecureServing != nil { unsecuredMux = genericcontrollermanager.NewBaseHandler(&c.ComponentConfig.Generic.Debugging, checks...) handler := genericcontrollermanager.BuildHandlerChain(unsecuredMux, &c.Authorization, &c.Authentication) // TODO: handle stoppedCh returned by c.SecureServing.Serve if _, err := c.SecureServing.Serve(handler, 0, stopCh); err != nil { return err } } if c.InsecureServing != nil { unsecuredMux = genericcontrollermanager.NewBaseHandler(&c.ComponentConfig.Generic.Debugging, checks...) insecureSuperuserAuthn := server.AuthenticationInfo{Authenticator: &server.InsecureSuperuser{}} handler := genericcontrollermanager.BuildHandlerChain(unsecuredMux, nil, &insecureSuperuserAuthn) if err := c.InsecureServing.Serve(handler, 0, stopCh); err != nil { return err } } run := func(ctx context.Context) { rootClientBuilder := controller.SimpleControllerClientBuilder{ ClientConfig: c.Kubeconfig, } var clientBuilder controller.ControllerClientBuilder if c.ComponentConfig.KubeCloudShared.UseServiceAccountCredentials { if len(c.ComponentConfig.SAController.ServiceAccountKeyFile) == 0 { // It'c possible another controller process is creating the tokens for us. // If one isn't, we'll timeout and exit when our client builder is unable to create the tokens. klog.Warningf("--use-service-account-credentials was specified without providing a --service-account-private-key-file") } clientBuilder = controller.SAControllerClientBuilder{ ClientConfig: restclient.AnonymousClientConfig(c.Kubeconfig), CoreClient: c.Client.CoreV1(), AuthenticationClient: c.Client.AuthenticationV1(), Namespace: "kube-system", } } else { clientBuilder = rootClientBuilder } controllerContext, err := CreateControllerContext(c, rootClientBuilder, clientBuilder, ctx.Done()) if err != nil { klog.Fatalf("error building controller context: %v", err) } saTokenControllerInitFunc := serviceAccountTokenControllerStarter{rootClientBuilder: rootClientBuilder}.startServiceAccountTokenController if err := StartControllers(controllerContext, saTokenControllerInitFunc, NewControllerInitializers(), unsecuredMux); err != nil { klog.Fatalf("error starting controllers: %v", err) } controllerContext.InformerFactory.Start(controllerContext.Stop) close(controllerContext.InformersStarted) select {} } if !c.ComponentConfig.Generic.LeaderElection.LeaderElect { run(context.TODO()) panic("unreachable") } id, err := os.Hostname() if err != nil { return err } // add a uniquifier so that two processes on the same host don't accidentally both become active id = id + "_" + string(uuid.NewUUID()) rl, err := resourcelock.New(c.ComponentConfig.Generic.LeaderElection.ResourceLock, "kube-system", "kube-controller-manager", c.LeaderElectionClient.CoreV1(), c.LeaderElectionClient.CoordinationV1(), resourcelock.ResourceLockConfig{ Identity: id, EventRecorder: c.EventRecorder, }) if err != nil { klog.Fatalf("error creating lock: %v", err) } leaderelection.RunOrDie(context.TODO(), leaderelection.LeaderElectionConfig{ Lock: rl, LeaseDuration: c.ComponentConfig.Generic.LeaderElection.LeaseDuration.Duration, RenewDeadline: c.ComponentConfig.Generic.LeaderElection.RenewDeadline.Duration, RetryPeriod: c.ComponentConfig.Generic.LeaderElection.RetryPeriod.Duration, Callbacks: leaderelection.LeaderCallbacks{ OnStartedLeading: run, OnStoppedLeading: func() { klog.Fatalf("leaderelection lost") }, }, WatchDog: electionChecker, Name: "kube-controller-manager", }) panic("unreachable") } type ControllerContext struct { // ClientBuilder will provide a client for this controller to use ClientBuilder controller.ControllerClientBuilder // InformerFactory gives access to informers for the controller. InformerFactory informers.SharedInformerFactory // ComponentConfig provides access to init options for a given controller ComponentConfig kubectrlmgrconfig.KubeControllerManagerConfiguration // DeferredDiscoveryRESTMapper is a RESTMapper that will defer // initialization of the RESTMapper until the first mapping is // requested. RESTMapper *restmapper.DeferredDiscoveryRESTMapper // AvailableResources is a map listing currently available resources AvailableResources map[schema.GroupVersionResource]bool // Stop is the stop channel Stop <-chan struct{} // InformersStarted is closed after all of the controllers have been initialized and are running. After this point it is safe, // for an individual controller to start the shared informers. Before it is closed, they should not. InformersStarted chan struct{} // ResyncPeriod generates a duration each time it is invoked; this is so that // multiple controllers don't get into lock-step and all hammer the apiserver // with list requests simultaneously. ResyncPeriod func() time.Duration } func (c ControllerContext) IsControllerEnabled(name string) bool { return genericcontrollermanager.IsControllerEnabled(name, ControllersDisabledByDefault, c.ComponentConfig.Generic.Controllers) } // InitFunc is used to launch a particular controller. It may run additional "should I activate checks". // Any error returned will cause the controller process to `Fatal` // The bool indicates whether the controller was enabled. type InitFunc func(ctx ControllerContext) (debuggingHandler http.Handler, enabled bool, err error) func KnownControllers() []string { ret := sets.StringKeySet(NewControllerInitializers()) // add "special" controllers that aren't initialized normally. These controllers cannot be initialized // using a normal function. The only known special case is the SA token controller which *must* be started // first to ensure that the SA tokens for future controllers will exist. Think very carefully before adding // to this list. ret.Insert( saTokenControllerName, ) return ret.List() } var ControllersDisabledByDefault = sets.NewString( "bootstrapsigner", "tokencleaner", ) const ( saTokenControllerName = "serviceaccount-token" ) // NewControllerInitializers is a public map of named controller groups (you can start more than one in an init func) // paired to their InitFunc. This allows for structured downstream composition and subdivision. func NewControllerInitializers() map[string]InitFunc { controllers := map[string]InitFunc{} controllers["endpoint"] = startEndpointController controllers["replicationcontroller"] = startReplicationController controllers["podgc"] = startPodGCController controllers["resourcequota"] = startResourceQuotaController controllers["namespace"] = startNamespaceController controllers["serviceaccount"] = startServiceAccountController controllers["garbagecollector"] = startGarbageCollectorController controllers["daemonset"] = startDaemonSetController controllers["job"] = startJobController controllers["deployment"] = startDeploymentController controllers["replicaset"] = startReplicaSetController controllers["horizontalpodautoscaling"] = startHPAController controllers["disruption"] = startDisruptionController controllers["statefulset"] = startStatefulSetController controllers["cronjob"] = startCronJobController controllers["csrsigning"] = startCSRSigningController controllers["csrapproving"] = startCSRApprovingController controllers["csrcleaner"] = startCSRCleanerController controllers["ttl"] = startTTLController controllers["nodeipam"] = startNodeIpamController controllers["nodelifecycle"] = startNodeLifecycleController controllers["persistentvolume-binder"] = startPersistentVolumeBinderController controllers["attachdetach"] = startAttachDetachController controllers["persistentvolume-expander"] = startVolumeExpandController controllers["clusterrole-aggregation"] = startClusterRoleAggregrationController controllers["pvc-protection"] = startPVCProtectionController controllers["pv-protection"] = startPVProtectionController controllers["root-ca-cert-publisher"] = startRootCACertPublisher return controllers } // TODO: In general, any controller checking this needs to be dynamic so // users don't have to restart their controller manager if they change the apiserver. // Until we get there, the structure here needs to be exposed for the construction of a proper ControllerContext. func GetAvailableResources(clientBuilder controller.ControllerClientBuilder) (map[schema.GroupVersionResource]bool, error) { client := clientBuilder.ClientOrDie("controller-discovery") discoveryClient := client.Discovery() resourceMap, err := discoveryClient.ServerResources() if err != nil { utilruntime.HandleError(fmt.Errorf("unable to get all supported resources from server: %v", err)) } if len(resourceMap) == 0 { return nil, fmt.Errorf("unable to get any supported resources from server") } allResources := map[schema.GroupVersionResource]bool{} for _, apiResourceList := range resourceMap { version, err := schema.ParseGroupVersion(apiResourceList.GroupVersion) if err != nil { return nil, err } for _, apiResource := range apiResourceList.APIResources { allResources[version.WithResource(apiResource.Name)] = true } } return allResources, nil } // CreateControllerContext creates a context struct containing references to resources needed by the // controllers such as the cloud provider and clientBuilder. rootClientBuilder is only used for // the shared-informers client and token controller. func CreateControllerContext(s *config.CompletedConfig, rootClientBuilder, clientBuilder controller.ControllerClientBuilder, stop <-chan struct{}) (ControllerContext, error) { versionedClient := rootClientBuilder.ClientOrDie("shared-informers") sharedInformers := informers.NewSharedInformerFactory(versionedClient, ResyncPeriod(s)()) // If apiserver is not running we should wait for some time and fail only then. This is particularly // important when we start apiserver and controller manager at the same time. if err := genericcontrollermanager.WaitForAPIServer(versionedClient, 120*time.Second); err != nil { return ControllerContext{}, fmt.Errorf("failed to wait for apiserver being healthy: %v", err) } // Use a discovery client capable of being refreshed. discoveryClient := rootClientBuilder.ClientOrDie("controller-discovery") cachedClient := cacheddiscovery.NewMemCacheClient(discoveryClient.Discovery()) restMapper := restmapper.NewDeferredDiscoveryRESTMapper(cachedClient) go wait.Until(func() { restMapper.Reset() }, 30*time.Second, stop) availableResources, err := GetAvailableResources(rootClientBuilder) if err != nil { return ControllerContext{}, err } ctx := ControllerContext{ ClientBuilder: clientBuilder, InformerFactory: sharedInformers, ComponentConfig: s.ComponentConfig, RESTMapper: restMapper, AvailableResources: availableResources, Stop: stop, InformersStarted: make(chan struct{}), ResyncPeriod: ResyncPeriod(s), } return ctx, nil } func StartControllers(ctx ControllerContext, startSATokenController InitFunc, controllers map[string]InitFunc, unsecuredMux *mux.PathRecorderMux) error { // Always start the SA token controller first using a full-power client, since it needs to mint tokens for the rest // If this fails, just return here and fail since other controllers won't be able to get credentials. if _, _, err := startSATokenController(ctx); err != nil { return err } for controllerName, initFn := range controllers { if !ctx.IsControllerEnabled(controllerName) { klog.Warningf("%q is disabled", controllerName) continue } time.Sleep(wait.Jitter(ctx.ComponentConfig.Generic.ControllerStartInterval.Duration, ControllerStartJitter)) klog.V(1).Infof("Starting %q", controllerName) debugHandler, started, err := initFn(ctx) if err != nil { klog.Errorf("Error starting %q", controllerName) return err } if !started { klog.Warningf("Skipping %q", controllerName) continue } if debugHandler != nil && unsecuredMux != nil { basePath := "/debug/controllers/" + controllerName unsecuredMux.UnlistedHandle(basePath, http.StripPrefix(basePath, debugHandler)) unsecuredMux.UnlistedHandlePrefix(basePath+"/", http.StripPrefix(basePath, debugHandler)) } klog.Infof("Started %q", controllerName) } return nil } // serviceAccountTokenControllerStarter is special because it must run first to set up permissions for other controllers. // It cannot use the "normal" client builder, so it tracks its own. It must also avoid being included in the "normal" // init map so that it can always run first. type serviceAccountTokenControllerStarter struct { rootClientBuilder controller.ControllerClientBuilder } func (c serviceAccountTokenControllerStarter) startServiceAccountTokenController(ctx ControllerContext) (http.Handler, bool, error) { if !ctx.IsControllerEnabled(saTokenControllerName) { klog.Warningf("%q is disabled", saTokenControllerName) return nil, false, nil } if len(ctx.ComponentConfig.SAController.ServiceAccountKeyFile) == 0 { klog.Warningf("%q is disabled because there is no private key", saTokenControllerName) return nil, false, nil } privateKey, err := keyutil.PrivateKeyFromFile(ctx.ComponentConfig.SAController.ServiceAccountKeyFile) if err != nil { return nil, true, fmt.Errorf("error reading key for service account token controller: %v", err) } var rootCA []byte if ctx.ComponentConfig.SAController.RootCAFile != "" { if rootCA, err = readCA(ctx.ComponentConfig.SAController.RootCAFile); err != nil { return nil, true, fmt.Errorf("error parsing root-ca-file at %s: %v", ctx.ComponentConfig.SAController.RootCAFile, err) } } else { rootCA = c.rootClientBuilder.ConfigOrDie("tokens-controller").CAData } tokenGenerator, err := serviceaccount.JWTTokenGenerator(serviceaccount.LegacyIssuer, privateKey) if err != nil { return nil, false, fmt.Errorf("failed to build token generator: %v", err) } controller, err := serviceaccountcontroller.NewTokensController( ctx.InformerFactory.Core().V1().ServiceAccounts(), ctx.InformerFactory.Core().V1().Secrets(), c.rootClientBuilder.ClientOrDie("tokens-controller"), serviceaccountcontroller.TokensControllerOptions{ TokenGenerator: tokenGenerator, RootCA: rootCA, }, ) if err != nil { return nil, true, fmt.Errorf("error creating Tokens controller: %v", err) } go controller.Run(int(ctx.ComponentConfig.SAController.ConcurrentSATokenSyncs), ctx.Stop) // start the first set of informers now so that other controllers can start ctx.InformerFactory.Start(ctx.Stop) return nil, true, nil } func readCA(file string) ([]byte, error) { rootCA, err := ioutil.ReadFile(file) if err != nil { return nil, err } if _, err := certutil.ParseCertsPEM(rootCA); err != nil { return nil, err } return rootCA, err }