func main() { flag.Parse() rand.Seed(time.Now().UTC().UnixNano()) // Set up logger for etcd client etcd.SetLogger(log.New(os.Stderr, "etcd ", log.LstdFlags)) endpoint := "unix:///var/run/docker.sock" dockerClient, err := docker.NewClient(endpoint) if err != nil { log.Fatal("Couldn't connnect to docker.") } hostname := []byte(*hostnameOverride) if string(hostname) == "" { hostname, err = exec.Command("hostname", "-f").Output() if err != nil { log.Fatalf("Couldn't determine hostname: %v", err) } } my_kubelet := kubelet.Kubelet{ Hostname: string(hostname), DockerClient: dockerClient, FileCheckFrequency: *fileCheckFrequency, SyncFrequency: *syncFrequency, HTTPCheckFrequency: *httpCheckFrequency, } my_kubelet.RunKubelet(*file, *manifestUrl, *etcdServers, *address, *port) }
func main() { flag.Parse() util.InitLogs() defer util.FlushLogs() rand.Seed(time.Now().UTC().UnixNano()) // Set up logger for etcd client etcd.SetLogger(util.NewLogger("etcd ")) endpoint := "unix:///var/run/docker.sock" dockerClient, err := docker.NewClient(endpoint) if err != nil { glog.Fatal("Couldn't connnect to docker.") } hostname := []byte(*hostnameOverride) if string(hostname) == "" { // Note: We use exec here instead of os.Hostname() because we // want the FQDN, and this is the easiest way to get it. hostname, err = exec.Command("hostname", "-f").Output() if err != nil { glog.Fatalf("Couldn't determine hostname: %v", err) } } my_kubelet := kubelet.Kubelet{ Hostname: string(hostname), DockerClient: dockerClient, FileCheckFrequency: *fileCheckFrequency, SyncFrequency: *syncFrequency, HTTPCheckFrequency: *httpCheckFrequency, } my_kubelet.RunKubelet(*config, *manifestUrl, *etcdServers, *address, *port) }
// Starts kubelet services. Never returns. func fake_kubelet() { endpoint := "unix:///var/run/docker.sock" dockerClient, err := docker.NewClient(endpoint) if err != nil { log.Fatal("Couldn't connnect to docker.") } my_kubelet := kubelet.Kubelet{ Hostname: *kubelet_address, DockerClient: dockerClient, FileCheckFrequency: *fileCheckFrequency, SyncFrequency: *syncFrequency, HTTPCheckFrequency: *httpCheckFrequency, } my_kubelet.RunKubelet(*file, *manifest_url, *etcd_server, *kubelet_address, *kubelet_port) }
func startComponents(manifestURL string) (apiServerURL string) { // Setup servers := []string{"http://localhost:4001"} glog.Infof("Creating etcd client pointing to %v", servers) machineList := []string{"localhost", "machine"} // Master m := master.New(servers, machineList, fakePodInfoGetter{}, nil, "") apiserver := httptest.NewServer(m.ConstructHandler("/api/v1beta1")) cl := client.New(apiserver.URL, nil) cl.PollPeriod = time.Second * 1 cl.Sync = true controllerManager := controller.MakeReplicationManager(etcd.NewClient(servers), cl) controllerManager.Run(1 * time.Second) // Kubelet myKubelet := kubelet.Kubelet{ Hostname: machineList[0], DockerClient: &fakeDocker1, DockerPuller: &kubelet.FakeDockerPuller{}, FileCheckFrequency: 5 * time.Second, SyncFrequency: 5 * time.Second, HTTPCheckFrequency: 5 * time.Second, } go myKubelet.RunKubelet("", "", manifestURL, servers[0], "localhost", 10250) // Create a second kubelet so that the guestbook example's two redis slaves both // have a place they can schedule. otherKubelet := kubelet.Kubelet{ Hostname: machineList[1], DockerClient: &fakeDocker2, DockerPuller: &kubelet.FakeDockerPuller{}, FileCheckFrequency: 5 * time.Second, SyncFrequency: 5 * time.Second, HTTPCheckFrequency: 5 * time.Second, } go otherKubelet.RunKubelet("", "", "", servers[0], "localhost", 10251) return apiserver.URL }
func main() { flag.Parse() rand.Seed(time.Now().UTC().UnixNano()) // Set up logger for etcd client etcd.SetLogger(log.New(os.Stderr, "etcd ", log.LstdFlags)) endpoint := "unix:///var/run/docker.sock" dockerClient, err := docker.NewClient(endpoint) if err != nil { log.Fatal("Couldn't connnect to docker.") } my_kubelet := kubelet.Kubelet{ DockerClient: dockerClient, FileCheckFrequency: *fileCheckFrequency, SyncFrequency: *syncFrequency, HTTPCheckFrequency: *httpCheckFrequency, } my_kubelet.RunKubelet(*file, *manifest_url, *etcd_servers, *address, *port) }
func main() { util.InitLogs() defer util.FlushLogs() manifestUrl := ServeCachedManifestFile() // Setup servers := []string{"http://localhost:4001"} glog.Infof("Creating etcd client pointing to %v", servers) machineList := []string{"localhost", "machine"} // Master m := master.New(servers, machineList, nil) apiserver := httptest.NewServer(m.ConstructHandler("/api/v1beta1")) controllerManager := controller.MakeReplicationManager(etcd.NewClient(servers), client.New(apiserver.URL, nil)) controllerManager.Run(10 * time.Second) // Kublet fakeDocker1 := &kubelet.FakeDockerClient{} myKubelet := kubelet.Kubelet{ Hostname: machineList[0], DockerClient: fakeDocker1, DockerPuller: &kubelet.FakeDockerPuller{}, FileCheckFrequency: 5 * time.Second, SyncFrequency: 5 * time.Second, HTTPCheckFrequency: 5 * time.Second, } go myKubelet.RunKubelet("", manifestUrl, servers[0], "localhost", 0) // Create a second kublet so that the guestbook example's two redis slaves both // have a place they can schedule. fakeDocker2 := &kubelet.FakeDockerClient{} otherKubelet := kubelet.Kubelet{ Hostname: machineList[1], DockerClient: fakeDocker2, DockerPuller: &kubelet.FakeDockerPuller{}, FileCheckFrequency: 5 * time.Second, SyncFrequency: 5 * time.Second, HTTPCheckFrequency: 5 * time.Second, } go otherKubelet.RunKubelet("", "", servers[0], "localhost", 0) // Ok. we're good to go. glog.Infof("API Server started on %s", apiserver.URL) // Wait for the synchronization threads to come up. time.Sleep(time.Second * 10) kubeClient := client.New(apiserver.URL, nil) data, err := ioutil.ReadFile("api/examples/controller.json") if err != nil { glog.Fatalf("Unexpected error: %#v", err) } var controllerRequest api.ReplicationController if err = json.Unmarshal(data, &controllerRequest); err != nil { glog.Fatalf("Unexpected error: %#v", err) } if _, err = kubeClient.CreateReplicationController(controllerRequest); err != nil { glog.Fatalf("Unexpected error: %#v", err) } // Give the controllers some time to actually create the pods time.Sleep(time.Second * 10) // Validate that they're truly up. pods, err := kubeClient.ListPods(nil) if err != nil || len(pods.Items) != 2 { glog.Fatal("FAILED") } // Check that kubelet tried to make the pods. // Using a set to list unique creation attempts. Our fake is // really stupid, so kubelet tries to create these multiple times. createdPods := map[string]struct{}{} for _, p := range fakeDocker1.Created { // The last 8 characters are random, so slice them off. if n := len(p); n > 8 { createdPods[p[:n-8]] = struct{}{} } } for _, p := range fakeDocker2.Created { // The last 8 characters are random, so slice them off. if n := len(p); n > 8 { createdPods[p[:n-8]] = struct{}{} } } // We expect 5: 2 net containers + 2 pods from the replication controller + // 1 net container + 2 pods from the URL. if len(createdPods) != 7 { glog.Fatalf("Unexpected list of created pods: %#v\n", createdPods) } glog.Infof("OK") }