func createAndInitKubelet(kc *KubeletConfig) (k KubeletBootstrap, pc *config.PodConfig, err error) { // TODO: block until all sources have delivered at least one update to the channel, or break the sync loop // up into "per source" synchronizations // TODO: KubeletConfig.KubeClient should be a client interface, but client interface misses certain methods // used by kubelet. Since NewMainKubelet expects a client interface, we need to make sure we are not passing // a nil pointer to it when what we really want is a nil interface. var kubeClient client.Interface if kc.KubeClient != nil { kubeClient = kc.KubeClient } gcPolicy := kubelet.ContainerGCPolicy{ MinAge: kc.MinimumGCAge, MaxPerPodContainer: kc.MaxPerPodContainerCount, MaxContainers: kc.MaxContainerCount, } daemonEndpoints := &api.NodeDaemonEndpoints{ KubeletEndpoint: api.DaemonEndpoint{Port: int(kc.Port)}, } pc = makePodSourceConfig(kc) k, err = kubelet.NewMainKubelet( kc.Hostname, kc.NodeName, kc.DockerClient, kubeClient, kc.RootDirectory, kc.PodInfraContainerImage, kc.SyncFrequency, float32(kc.RegistryPullQPS), kc.RegistryBurst, kc.EventRecordQPS, kc.EventBurst, gcPolicy, pc.SeenAllSources, kc.RegisterNode, kc.StandaloneMode, kc.ClusterDomain, kc.ClusterDNS, kc.MasterServiceNamespace, kc.VolumePlugins, kc.NetworkPlugins, kc.NetworkPluginName, kc.StreamingConnectionIdleTimeout, kc.Recorder, kc.CAdvisorInterface, kc.ImageGCPolicy, kc.DiskSpacePolicy, kc.Cloud, kc.NodeStatusUpdateFrequency, kc.ResourceContainer, kc.OSInterface, kc.CgroupRoot, kc.ContainerRuntime, kc.RktPath, kc.RktStage1Image, kc.Mounter, kc.Writer, kc.DockerDaemonContainer, kc.SystemContainer, kc.ConfigureCBR0, kc.PodCIDR, kc.MaxPods, kc.DockerExecHandler, kc.ResolverConfig, kc.CPUCFSQuota, daemonEndpoints, kc.SerializeImagePulls, kc.NodeLabels, ) if err != nil { return nil, nil, err } k.BirthCry() k.StartGarbageCollection() return k, pc, nil }
func (ks *KubeletExecutorServer) createAndInitKubelet( kc *app.KubeletConfig, hks hyperkube.Interface, clientConfig *client.Config, shutdownCloser io.Closer, ) (app.KubeletBootstrap, *kconfig.PodConfig, error) { // TODO(k8s): block until all sources have delivered at least one update to the channel, or break the sync loop // up into "per source" synchronizations // TODO(k8s): KubeletConfig.KubeClient should be a client interface, but client interface misses certain methods // used by kubelet. Since NewMainKubelet expects a client interface, we need to make sure we are not passing // a nil pointer to it when what we really want is a nil interface. var kubeClient client.Interface if kc.KubeClient == nil { kubeClient = nil } else { kubeClient = kc.KubeClient } gcPolicy := kubelet.ContainerGCPolicy{ MinAge: kc.MinimumGCAge, MaxPerPodContainer: kc.MaxPerPodContainerCount, MaxContainers: kc.MaxContainerCount, } pc := kconfig.NewPodConfig(kconfig.PodConfigNotificationIncremental, kc.Recorder) updates := pc.Channel(MESOS_CFG_SOURCE) klet, err := kubelet.NewMainKubelet( kc.Hostname, kc.NodeName, kc.DockerClient, kubeClient, kc.RootDirectory, kc.PodInfraContainerImage, kc.SyncFrequency, float32(kc.RegistryPullQPS), kc.RegistryBurst, kc.EventRecordQPS, kc.EventBurst, gcPolicy, pc.SeenAllSources, kc.RegisterNode, kc.StandaloneMode, kc.ClusterDomain, net.IP(kc.ClusterDNS), kc.MasterServiceNamespace, kc.VolumePlugins, kc.NetworkPlugins, kc.NetworkPluginName, kc.StreamingConnectionIdleTimeout, kc.Recorder, kc.CAdvisorInterface, kc.ImageGCPolicy, kc.DiskSpacePolicy, kc.Cloud, kc.NodeStatusUpdateFrequency, kc.ResourceContainer, kc.OSInterface, kc.CgroupRoot, kc.ContainerRuntime, kc.RktPath, kc.RktStage1Image, kc.Mounter, kc.Writer, kc.DockerDaemonContainer, kc.SystemContainer, kc.ConfigureCBR0, kc.PodCIDR, kc.MaxPods, kc.DockerExecHandler, kc.ResolverConfig, kc.CPUCFSQuota, &api.NodeDaemonEndpoints{ KubeletEndpoint: api.DaemonEndpoint{Port: int(kc.Port)}, }, true, // Serialize Image pulls ) if err != nil { return nil, nil, err } //TODO(jdef) either configure Watch here with something useful, or else // get rid of it from executor.Config kubeletFinished := make(chan struct{}) staticPodsConfigPath := filepath.Join(kc.RootDirectory, "static-pods") exec := executor.New(executor.Config{ Kubelet: klet, Updates: updates, SourceName: MESOS_CFG_SOURCE, APIClient: kc.KubeClient, Docker: kc.DockerClient, SuicideTimeout: ks.SuicideTimeout, KubeletFinished: kubeletFinished, ShutdownAlert: func() { if shutdownCloser != nil { if e := shutdownCloser.Close(); e != nil { log.Warningf("failed to signal shutdown to external watcher: %v", e) } } }, ExitFunc: os.Exit, PodStatusFunc: func(_ executor.KubeletInterface, pod *api.Pod) (*api.PodStatus, error) { return klet.GetRuntime().GetPodStatus(pod) }, StaticPodsConfigPath: staticPodsConfigPath, PodLW: cache.NewListWatchFromClient(kc.KubeClient, "pods", api.NamespaceAll, fields.OneTermEqualSelector(client.PodHost, kc.NodeName)), }) go exec.InitializeStaticPodsSource(func() { // Create file source only when we are called back. Otherwise, it is never marked unseen. fileSourceUpdates := pc.Channel(kubelet.FileSource) kconfig.NewSourceFile(staticPodsConfigPath, kc.Hostname, kc.FileCheckFrequency, fileSourceUpdates) }) k := &kubeletExecutor{ Kubelet: klet, address: ks.Address, dockerClient: kc.DockerClient, hks: hks, kubeletFinished: kubeletFinished, executorDone: exec.Done(), clientConfig: clientConfig, } dconfig := bindings.DriverConfig{ Executor: exec, HostnameOverride: ks.HostnameOverride, BindingAddress: ks.Address, } if driver, err := bindings.NewMesosExecutorDriver(dconfig); err != nil { log.Fatalf("failed to create executor driver: %v", err) } else { k.driver = driver } log.V(2).Infof("Initialize executor driver...") k.BirthCry() exec.Init(k.driver) k.StartGarbageCollection() return k, pc, nil }