// init initializes master. func (m *Master) init(c *Config) { healthzChecks := []healthz.HealthzChecker{} m.clock = util.RealClock{} podStorage := podetcd.NewStorage(c.DatabaseStorage, c.KubeletClient) podTemplateStorage := podtemplateetcd.NewREST(c.DatabaseStorage) eventRegistry := event.NewEtcdRegistry(c.DatabaseStorage, uint64(c.EventTTL.Seconds())) limitRangeStorage := limitrangeetcd.NewStorage(c.DatabaseStorage) resourceQuotaStorage, resourceQuotaStatusStorage := resourcequotaetcd.NewStorage(c.DatabaseStorage) secretStorage := secretetcd.NewStorage(c.DatabaseStorage) serviceAccountStorage := serviceaccountetcd.NewStorage(c.DatabaseStorage) persistentVolumeStorage, persistentVolumeStatusStorage := pvetcd.NewStorage(c.DatabaseStorage) persistentVolumeClaimStorage, persistentVolumeClaimStatusStorage := pvcetcd.NewStorage(c.DatabaseStorage) namespaceStorage, namespaceStatusStorage, namespaceFinalizeStorage := namespaceetcd.NewStorage(c.DatabaseStorage) m.namespaceRegistry = namespace.NewRegistry(namespaceStorage) endpointsStorage := endpointsetcd.NewStorage(c.DatabaseStorage) m.endpointRegistry = endpoint.NewRegistry(endpointsStorage) nodeStorage, nodeStatusStorage := nodeetcd.NewStorage(c.DatabaseStorage, c.KubeletClient) m.nodeRegistry = minion.NewRegistry(nodeStorage) serviceStorage := serviceetcd.NewStorage(c.DatabaseStorage) m.serviceRegistry = service.NewRegistry(serviceStorage) var serviceClusterIPRegistry service.RangeRegistry serviceClusterIPAllocator := ipallocator.NewAllocatorCIDRRange(m.serviceClusterIPRange, func(max int, rangeSpec string) allocator.Interface { mem := allocator.NewAllocationMap(max, rangeSpec) etcd := etcdallocator.NewEtcd(mem, "/ranges/serviceips", "serviceipallocation", c.DatabaseStorage) serviceClusterIPRegistry = etcd return etcd }) m.serviceClusterIPAllocator = serviceClusterIPRegistry var serviceNodePortRegistry service.RangeRegistry serviceNodePortAllocator := portallocator.NewPortAllocatorCustom(m.serviceNodePortRange, func(max int, rangeSpec string) allocator.Interface { mem := allocator.NewAllocationMap(max, rangeSpec) etcd := etcdallocator.NewEtcd(mem, "/ranges/servicenodeports", "servicenodeportallocation", c.DatabaseStorage) serviceNodePortRegistry = etcd return etcd }) m.serviceNodePortAllocator = serviceNodePortRegistry controllerStorage := controlleretcd.NewREST(c.DatabaseStorage) // TODO: Factor out the core API registration m.storage = map[string]rest.Storage{ "pods": podStorage.Pod, "pods/attach": podStorage.Attach, "pods/status": podStorage.Status, "pods/log": podStorage.Log, "pods/exec": podStorage.Exec, "pods/portforward": podStorage.PortForward, "pods/proxy": podStorage.Proxy, "pods/binding": podStorage.Binding, "bindings": podStorage.Binding, "podTemplates": podTemplateStorage, "replicationControllers": controllerStorage, "services": service.NewStorage(m.serviceRegistry, m.endpointRegistry, serviceClusterIPAllocator, serviceNodePortAllocator), "endpoints": endpointsStorage, "nodes": nodeStorage, "nodes/status": nodeStatusStorage, "events": event.NewStorage(eventRegistry), "limitRanges": limitRangeStorage, "resourceQuotas": resourceQuotaStorage, "resourceQuotas/status": resourceQuotaStatusStorage, "namespaces": namespaceStorage, "namespaces/status": namespaceStatusStorage, "namespaces/finalize": namespaceFinalizeStorage, "secrets": secretStorage, "serviceAccounts": serviceAccountStorage, "persistentVolumes": persistentVolumeStorage, "persistentVolumes/status": persistentVolumeStatusStorage, "persistentVolumeClaims": persistentVolumeClaimStorage, "persistentVolumeClaims/status": persistentVolumeClaimStatusStorage, "componentStatuses": componentstatus.NewStorage(func() map[string]apiserver.Server { return m.getServersToValidate(c) }), } // establish the node proxy dialer if len(c.SSHUser) > 0 { // Usernames are capped @ 32 if len(c.SSHUser) > 32 { glog.Warning("SSH User is too long, truncating to 32 chars") c.SSHUser = c.SSHUser[0:32] } glog.Infof("Setting up proxy: %s %s", c.SSHUser, c.SSHKeyfile) // public keyfile is written last, so check for that. publicKeyFile := c.SSHKeyfile + ".pub" exists, err := util.FileExists(publicKeyFile) if err != nil { glog.Errorf("Error detecting if key exists: %v", err) } else if !exists { glog.Infof("Key doesn't exist, attempting to create") err := m.generateSSHKey(c.SSHUser, c.SSHKeyfile, publicKeyFile) if err != nil { glog.Errorf("Failed to create key pair: %v", err) } } m.tunnels = &util.SSHTunnelList{} m.dialer = m.Dial m.setupSecureProxy(c.SSHUser, c.SSHKeyfile, publicKeyFile) m.lastSync = m.clock.Now().Unix() // This is pretty ugly. A better solution would be to pull this all the way up into the // server.go file. httpKubeletClient, ok := c.KubeletClient.(*client.HTTPKubeletClient) if ok { httpKubeletClient.Config.Dial = m.dialer transport, err := client.MakeTransport(httpKubeletClient.Config) if err != nil { glog.Errorf("Error setting up transport over SSH: %v", err) } else { httpKubeletClient.Client.Transport = transport } } else { glog.Errorf("Failed to cast %v to HTTPKubeletClient, skipping SSH tunnel.", c.KubeletClient) } healthzChecks = append(healthzChecks, healthz.NamedCheck("SSH Tunnel Check", m.IsTunnelSyncHealthy)) m.lastSyncMetric = prometheus.NewGaugeFunc(prometheus.GaugeOpts{ Name: "apiserver_proxy_tunnel_sync_latency_secs", Help: "The time since the last successful synchronization of the SSH tunnels for proxy requests.", }, func() float64 { return float64(m.secondsSinceSync()) }) } apiVersions := []string{} if m.v1 { if err := m.api_v1().InstallREST(m.handlerContainer); err != nil { glog.Fatalf("Unable to setup API v1: %v", err) } apiVersions = append(apiVersions, "v1") } apiserver.InstallSupport(m.muxHelper, m.rootWebService, c.EnableProfiling, healthzChecks...) apiserver.AddApiWebService(m.handlerContainer, c.APIPrefix, apiVersions) defaultVersion := m.defaultAPIGroupVersion() requestInfoResolver := &apiserver.APIRequestInfoResolver{APIPrefixes: util.NewStringSet(strings.TrimPrefix(defaultVersion.Root, "/")), RestMapper: defaultVersion.Mapper} apiserver.InstallServiceErrorHandler(m.handlerContainer, requestInfoResolver, apiVersions) if m.exp { expVersion := m.expapi(c) if err := expVersion.InstallREST(m.handlerContainer); err != nil { glog.Fatalf("Unable to setup experimental api: %v", err) } apiserver.AddApiWebService(m.handlerContainer, c.ExpAPIPrefix, []string{expVersion.Version}) expRequestInfoResolver := &apiserver.APIRequestInfoResolver{APIPrefixes: util.NewStringSet(strings.TrimPrefix(expVersion.Root, "/")), RestMapper: expVersion.Mapper} apiserver.InstallServiceErrorHandler(m.handlerContainer, expRequestInfoResolver, []string{expVersion.Version}) } // Register root handler. // We do not register this using restful Webservice since we do not want to surface this in api docs. // Allow master to be embedded in contexts which already have something registered at the root if c.EnableIndex { m.mux.HandleFunc("/", apiserver.IndexHandler(m.handlerContainer, m.muxHelper)) } if c.EnableLogsSupport { apiserver.InstallLogsSupport(m.muxHelper) } if c.EnableUISupport { ui.InstallSupport(m.muxHelper, m.enableSwaggerSupport) } if c.EnableProfiling { m.mux.HandleFunc("/debug/pprof/", pprof.Index) m.mux.HandleFunc("/debug/pprof/profile", pprof.Profile) m.mux.HandleFunc("/debug/pprof/symbol", pprof.Symbol) } handler := http.Handler(m.mux.(*http.ServeMux)) // TODO: handle CORS and auth using go-restful // See github.com/emicklei/go-restful/blob/master/examples/restful-CORS-filter.go, and // github.com/emicklei/go-restful/blob/master/examples/restful-basic-authentication.go if len(c.CorsAllowedOriginList) > 0 { allowedOriginRegexps, err := util.CompileRegexps(c.CorsAllowedOriginList) if err != nil { glog.Fatalf("Invalid CORS allowed origin, --cors-allowed-origins flag was set to %v - %v", strings.Join(c.CorsAllowedOriginList, ","), err) } handler = apiserver.CORS(handler, allowedOriginRegexps, nil, nil, "true") } m.InsecureHandler = handler attributeGetter := apiserver.NewRequestAttributeGetter(m.requestContextMapper, latest.RESTMapper, "api") handler = apiserver.WithAuthorizationCheck(handler, attributeGetter, m.authorizer) // Install Authenticator if c.Authenticator != nil { authenticatedHandler, err := handlers.NewRequestAuthenticator(m.requestContextMapper, c.Authenticator, handlers.Unauthorized(c.SupportsBasicAuth), handler) if err != nil { glog.Fatalf("Could not initialize authenticator: %v", err) } handler = authenticatedHandler } // Install root web services m.handlerContainer.Add(m.rootWebService) // TODO: Make this optional? Consumers of master depend on this currently. m.Handler = handler if m.enableSwaggerSupport { m.InstallSwaggerAPI() } // After all wrapping is done, put a context filter around both handlers if handler, err := api.NewRequestContextFilter(m.requestContextMapper, m.Handler); err != nil { glog.Fatalf("Could not initialize request context filter: %v", err) } else { m.Handler = handler } if handler, err := api.NewRequestContextFilter(m.requestContextMapper, m.InsecureHandler); err != nil { glog.Fatalf("Could not initialize request context filter: %v", err) } else { m.InsecureHandler = handler } // TODO: Attempt clean shutdown? if m.enableCoreControllers { m.NewBootstrapController().Start() } }
// TestProjectIsNamespace verifies that a project is a namespace, and a namespace is a project func TestProjectIsNamespace(t *testing.T) { testutil.DeleteAllEtcdKeys() etcdClient := testutil.NewEtcdClient() etcdHelper, err := master.NewEtcdStorage(etcdClient, latest.InterfacesFor, "v1", etcdtest.PathPrefix()) if err != nil { t.Fatalf("Unexpected error: %v", err) } // create a kube and its client kubeInterfaces, _ := klatest.InterfacesFor(klatest.Version) namespaceStorage, _, _ := namespaceetcd.NewStorage(etcdHelper) kubeStorage := map[string]rest.Storage{ "namespaces": namespaceStorage, } osMux := http.NewServeMux() server := httptest.NewServer(osMux) defer server.Close() handlerContainer := master.NewHandlerContainer(osMux) version := &apiserver.APIGroupVersion{ Root: "/api", Version: "v1beta3", Storage: kubeStorage, Codec: kv1beta3.Codec, Mapper: klatest.RESTMapper, Creater: kapi.Scheme, Typer: kapi.Scheme, Convertor: kapi.Scheme, Linker: kubeInterfaces.MetadataAccessor, Admit: admit.NewAlwaysAdmit(), Context: kapi.NewRequestContextMapper(), } if err := version.InstallREST(handlerContainer); err != nil { t.Fatalf("unable to install REST: %v", err) } kubeClient, err := kclient.New(&kclient.Config{Host: server.URL, Version: "v1beta3"}) if err != nil { t.Fatalf("Unexpected error: %v", err) } // create an origin originInterfaces, _ := latest.InterfacesFor(latest.Version) originStorage := map[string]rest.Storage{ "projects": projectregistry.NewREST(kubeClient.Namespaces(), nil), } osVersion := &apiserver.APIGroupVersion{ Root: "/oapi", Version: "v1", Storage: originStorage, Codec: latest.Codec, Mapper: latest.RESTMapper, Creater: kapi.Scheme, Typer: kapi.Scheme, Convertor: kapi.Scheme, Linker: originInterfaces.MetadataAccessor, Admit: admit.NewAlwaysAdmit(), Context: kapi.NewRequestContextMapper(), } if err := osVersion.InstallREST(handlerContainer); err != nil { t.Fatalf("unable to install REST: %v", err) } originClient, err := client.New(&kclient.Config{Host: server.URL}) if err != nil { t.Fatalf("unexpected error: %v", err) } // create a namespace namespace := &kapi.Namespace{ ObjectMeta: kapi.ObjectMeta{Name: "integration-test"}, } namespaceResult, err := kubeClient.Namespaces().Create(namespace) if err != nil { t.Fatalf("unexpected error: %v", err) } // now try to get the project with the same name and ensure it is our namespace project, err := originClient.Projects().Get(namespaceResult.Name) if err != nil { t.Fatalf("unexpected error: %v", err) } if project.Name != namespace.Name { t.Fatalf("Project name did not match namespace name, project %v, namespace %v", project.Name, namespace.Name) } // now create a project project = &projectapi.Project{ ObjectMeta: kapi.ObjectMeta{ Name: "new-project", Annotations: map[string]string{ "openshift.io/display-name": "Hello World", "openshift.io/node-selector": "env=test", }, }, } projectResult, err := originClient.Projects().Create(project) if err != nil { t.Fatalf("unexpected error: %v", err) } // now get the namespace for that project namespace, err = kubeClient.Namespaces().Get(projectResult.Name) if err != nil { t.Fatalf("unexpected error: %v", err) } if project.Name != namespace.Name { t.Fatalf("Project name did not match namespace name, project %v, namespace %v", project.Name, namespace.Name) } if project.Annotations["openshift.io/display-name"] != namespace.Annotations["openshift.io/display-name"] { t.Fatalf("Project display name did not match namespace annotation, project %v, namespace %v", project.Annotations["openshift.io/display-name"], namespace.Annotations["openshift.io/display-name"]) } if project.Annotations["openshift.io/node-selector"] != namespace.Annotations["openshift.io/node-selector"] { t.Fatalf("Project node selector did not match namespace node selector, project %v, namespace %v", project.Annotations["openshift.io/node-selector"], namespace.Annotations["openshift.io/node-selector"]) } }