/* 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 util import ( "bytes" "errors" "flag" "fmt" "io" "io/ioutil" "os" "os/user" "path" "path/filepath" "sort" "strconv" "strings" "time" "github.com/emicklei/go-restful/swagger" "github.com/golang/glog" "github.com/spf13/cobra" "github.com/spf13/pflag" "k8s.io/kubernetes/federation/apis/federation" "k8s.io/kubernetes/pkg/api" apierrors "k8s.io/kubernetes/pkg/api/errors" "k8s.io/kubernetes/pkg/api/meta" "k8s.io/kubernetes/pkg/api/service" "k8s.io/kubernetes/pkg/api/unversioned" "k8s.io/kubernetes/pkg/api/validation" "k8s.io/kubernetes/pkg/apimachinery" "k8s.io/kubernetes/pkg/apimachinery/registered" "k8s.io/kubernetes/pkg/apis/apps" "k8s.io/kubernetes/pkg/apis/batch" "k8s.io/kubernetes/pkg/apis/extensions" extensionsv1beta1 "k8s.io/kubernetes/pkg/apis/extensions/v1beta1" "k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset" coreclient "k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset/typed/core/unversioned" "k8s.io/kubernetes/pkg/client/restclient" "k8s.io/kubernetes/pkg/client/typed/discovery" "k8s.io/kubernetes/pkg/client/typed/dynamic" client "k8s.io/kubernetes/pkg/client/unversioned" "k8s.io/kubernetes/pkg/client/unversioned/clientcmd" "k8s.io/kubernetes/pkg/controller" "k8s.io/kubernetes/pkg/kubectl" "k8s.io/kubernetes/pkg/kubectl/resource" "k8s.io/kubernetes/pkg/labels" "k8s.io/kubernetes/pkg/registry/extensions/thirdpartyresourcedata" "k8s.io/kubernetes/pkg/runtime" "k8s.io/kubernetes/pkg/runtime/serializer/json" utilflag "k8s.io/kubernetes/pkg/util/flag" "k8s.io/kubernetes/pkg/watch" ) const ( FlagMatchBinaryVersion = "match-server-version" ) // Factory provides abstractions that allow the Kubectl command to be extended across multiple types // of resources and different API sets. // TODO: make the functions interfaces // TODO: pass the various interfaces on the factory directly into the command constructors (so the // commands are decoupled from the factory). type Factory interface { // Returns internal flagset FlagSet() *pflag.FlagSet // Returns interfaces for dealing with arbitrary runtime.Objects. Object() (meta.RESTMapper, runtime.ObjectTyper) // Returns interfaces for dealing with arbitrary // runtime.Unstructured. This performs API calls to discover types. UnstructuredObject() (meta.RESTMapper, runtime.ObjectTyper, error) // Returns interfaces for decoding objects - if toInternal is set, decoded objects will be converted // into their internal form (if possible). Eventually the internal form will be removed as an option, // and only versioned objects will be returned. Decoder(toInternal bool) runtime.Decoder // Returns an encoder capable of encoding a provided object into JSON in the default desired version. JSONEncoder() runtime.Encoder // ClientSet gives you back an internal, generated clientset ClientSet() (*internalclientset.Clientset, error) // Returns a RESTClient for accessing Kubernetes resources or an error. RESTClient() (*restclient.RESTClient, error) // Returns a client.Config for accessing the Kubernetes server. ClientConfig() (*restclient.Config, error) // Returns a RESTClient for working with the specified RESTMapping or an error. This is intended // for working with arbitrary resources and is not guaranteed to point to a Kubernetes APIServer. ClientForMapping(mapping *meta.RESTMapping) (resource.RESTClient, error) // Returns a RESTClient for working with Unstructured objects. UnstructuredClientForMapping(mapping *meta.RESTMapping) (resource.RESTClient, error) // Returns a Describer for displaying the specified RESTMapping type or an error. Describer(mapping *meta.RESTMapping) (kubectl.Describer, error) // Returns a Printer for formatting objects of the given type or an error. Printer(mapping *meta.RESTMapping, options kubectl.PrintOptions) (kubectl.ResourcePrinter, error) // Returns a Scaler for changing the size of the specified RESTMapping type or an error Scaler(mapping *meta.RESTMapping) (kubectl.Scaler, error) // Returns a Reaper for gracefully shutting down resources. Reaper(mapping *meta.RESTMapping) (kubectl.Reaper, error) // Returns a HistoryViewer for viewing change history HistoryViewer(mapping *meta.RESTMapping) (kubectl.HistoryViewer, error) // Returns a Rollbacker for changing the rollback version of the specified RESTMapping type or an error Rollbacker(mapping *meta.RESTMapping) (kubectl.Rollbacker, error) // Returns a StatusViewer for printing rollout status. StatusViewer(mapping *meta.RESTMapping) (kubectl.StatusViewer, error) // MapBasedSelectorForObject returns the map-based selector associated with the provided object. If a // new set-based selector is provided, an error is returned if the selector cannot be converted to a // map-based selector MapBasedSelectorForObject(object runtime.Object) (string, error) // PortsForObject returns the ports associated with the provided object PortsForObject(object runtime.Object) ([]string, error) // ProtocolsForObject returns the mapping associated with the provided object ProtocolsForObject(object runtime.Object) (map[string]string, error) // LabelsForObject returns the labels associated with the provided object LabelsForObject(object runtime.Object) (map[string]string, error) // LogsForObject returns a request for the logs associated with the provided object LogsForObject(object, options runtime.Object) (*restclient.Request, error) // PauseObject marks the provided object as paused ie. it will not be reconciled by its controller. PauseObject(object runtime.Object) (bool, error) // ResumeObject resumes a paused object ie. it will be reconciled by its controller. ResumeObject(object runtime.Object) (bool, error) // Returns a schema that can validate objects stored on disk. Validator(validate bool, cacheDir string) (validation.Schema, error) // SwaggerSchema returns the schema declaration for the provided group version kind. SwaggerSchema(unversioned.GroupVersionKind) (*swagger.ApiDeclaration, error) // Returns the default namespace to use in cases where no // other namespace is specified and whether the namespace was // overridden. DefaultNamespace() (string, bool, error) // Generators returns the generators for the provided command Generators(cmdName string) map[string]kubectl.Generator // Check whether the kind of resources could be exposed CanBeExposed(kind unversioned.GroupKind) error // Check whether the kind of resources could be autoscaled CanBeAutoscaled(kind unversioned.GroupKind) error // AttachablePodForObject returns the pod to which to attach given an object. AttachablePodForObject(object runtime.Object) (*api.Pod, error) // UpdatePodSpecForObject will call the provided function on the pod spec this object supports, // return false if no pod spec is supported, or return an error. UpdatePodSpecForObject(obj runtime.Object, fn func(*api.PodSpec) error) (bool, error) // EditorEnvs returns a group of environment variables that the edit command // can range over in order to determine if the user has specified an editor // of their choice. EditorEnvs() []string // PrintObjectSpecificMessage prints object-specific messages on the provided writer PrintObjectSpecificMessage(obj runtime.Object, out io.Writer) // Command will stringify and return all environment arguments ie. a command run by a client // using the factory. Command() string // BindFlags adds any flags that are common to all kubectl sub commands. BindFlags(flags *pflag.FlagSet) // BindExternalFlags adds any flags defined by external projects (not part of pflags) BindExternalFlags(flags *pflag.FlagSet) DefaultResourceFilterOptions(cmd *cobra.Command, withNamespace bool) *kubectl.PrintOptions // DefaultResourceFilterFunc returns a collection of FilterFuncs suitable for filtering specific resource types. DefaultResourceFilterFunc() kubectl.Filters // PrintObject prints an api object given command line flags to modify the output format PrintObject(cmd *cobra.Command, mapper meta.RESTMapper, obj runtime.Object, out io.Writer) error // PrinterForMapping returns a printer suitable for displaying the provided resource type. // Requires that printer flags have been added to cmd (see AddPrinterFlags). PrinterForMapping(cmd *cobra.Command, mapping *meta.RESTMapping, withNamespace bool) (kubectl.ResourcePrinter, error) // One stop shopping for a Builder NewBuilder() *resource.Builder } const ( RunV1GeneratorName = "run/v1" RunPodV1GeneratorName = "run-pod/v1" ServiceV1GeneratorName = "service/v1" ServiceV2GeneratorName = "service/v2" ServiceNodePortGeneratorV1Name = "service-nodeport/v1" ServiceClusterIPGeneratorV1Name = "service-clusterip/v1" ServiceLoadBalancerGeneratorV1Name = "service-loadbalancer/v1" ServiceAccountV1GeneratorName = "serviceaccount/v1" HorizontalPodAutoscalerV1Beta1GeneratorName = "horizontalpodautoscaler/v1beta1" HorizontalPodAutoscalerV1GeneratorName = "horizontalpodautoscaler/v1" DeploymentV1Beta1GeneratorName = "deployment/v1beta1" DeploymentBasicV1Beta1GeneratorName = "deployment-basic/v1beta1" JobV1Beta1GeneratorName = "job/v1beta1" JobV1GeneratorName = "job/v1" ScheduledJobV2Alpha1GeneratorName = "scheduledjob/v2alpha1" NamespaceV1GeneratorName = "namespace/v1" ResourceQuotaV1GeneratorName = "resourcequotas/v1" SecretV1GeneratorName = "secret/v1" SecretForDockerRegistryV1GeneratorName = "secret-for-docker-registry/v1" SecretForTLSV1GeneratorName = "secret-for-tls/v1" ConfigMapV1GeneratorName = "configmap/v1" ) // DefaultGenerators returns the set of default generators for use in Factory instances func DefaultGenerators(cmdName string) map[string]kubectl.Generator { var generator map[string]kubectl.Generator switch cmdName { case "expose": generator = map[string]kubectl.Generator{ ServiceV1GeneratorName: kubectl.ServiceGeneratorV1{}, ServiceV2GeneratorName: kubectl.ServiceGeneratorV2{}, } case "service-clusterip": generator = map[string]kubectl.Generator{ ServiceClusterIPGeneratorV1Name: kubectl.ServiceClusterIPGeneratorV1{}, } case "service-nodeport": generator = map[string]kubectl.Generator{ ServiceNodePortGeneratorV1Name: kubectl.ServiceNodePortGeneratorV1{}, } case "service-loadbalancer": generator = map[string]kubectl.Generator{ ServiceLoadBalancerGeneratorV1Name: kubectl.ServiceLoadBalancerGeneratorV1{}, } case "deployment": generator = map[string]kubectl.Generator{ DeploymentBasicV1Beta1GeneratorName: kubectl.DeploymentBasicGeneratorV1{}, } case "run": generator = map[string]kubectl.Generator{ RunV1GeneratorName: kubectl.BasicReplicationController{}, RunPodV1GeneratorName: kubectl.BasicPod{}, DeploymentV1Beta1GeneratorName: kubectl.DeploymentV1Beta1{}, JobV1Beta1GeneratorName: kubectl.JobV1Beta1{}, JobV1GeneratorName: kubectl.JobV1{}, ScheduledJobV2Alpha1GeneratorName: kubectl.ScheduledJobV2Alpha1{}, } case "autoscale": generator = map[string]kubectl.Generator{ HorizontalPodAutoscalerV1Beta1GeneratorName: kubectl.HorizontalPodAutoscalerV1Beta1{}, HorizontalPodAutoscalerV1GeneratorName: kubectl.HorizontalPodAutoscalerV1{}, } case "namespace": generator = map[string]kubectl.Generator{ NamespaceV1GeneratorName: kubectl.NamespaceGeneratorV1{}, } case "quota": generator = map[string]kubectl.Generator{ ResourceQuotaV1GeneratorName: kubectl.ResourceQuotaGeneratorV1{}, } case "secret": generator = map[string]kubectl.Generator{ SecretV1GeneratorName: kubectl.SecretGeneratorV1{}, } case "secret-for-docker-registry": generator = map[string]kubectl.Generator{ SecretForDockerRegistryV1GeneratorName: kubectl.SecretForDockerRegistryGeneratorV1{}, } case "secret-for-tls": generator = map[string]kubectl.Generator{ SecretForTLSV1GeneratorName: kubectl.SecretForTLSGeneratorV1{}, } } return generator } func getGroupVersionKinds(gvks []unversioned.GroupVersionKind, group string) []unversioned.GroupVersionKind { result := []unversioned.GroupVersionKind{} for ix := range gvks { if gvks[ix].Group == group { result = append(result, gvks[ix]) } } return result } func makeInterfacesFor(versionList []unversioned.GroupVersion) func(version unversioned.GroupVersion) (*meta.VersionInterfaces, error) { accessor := meta.NewAccessor() return func(version unversioned.GroupVersion) (*meta.VersionInterfaces, error) { for ix := range versionList { if versionList[ix].String() == version.String() { return &meta.VersionInterfaces{ ObjectConvertor: thirdpartyresourcedata.NewThirdPartyObjectConverter(api.Scheme), MetadataAccessor: accessor, }, nil } } return nil, fmt.Errorf("unsupported storage version: %s (valid: %v)", version, versionList) } } type factory struct { flags *pflag.FlagSet clientConfig clientcmd.ClientConfig clients *ClientCache } // NewFactory creates a factory with the default Kubernetes resources defined // if optionalClientConfig is nil, then flags will be bound to a new clientcmd.ClientConfig. // if optionalClientConfig is not nil, then this factory will make use of it. func NewFactory(optionalClientConfig clientcmd.ClientConfig) Factory { flags := pflag.NewFlagSet("", pflag.ContinueOnError) flags.SetNormalizeFunc(utilflag.WarnWordSepNormalizeFunc) // Warn for "_" flags clientConfig := optionalClientConfig if optionalClientConfig == nil { clientConfig = DefaultClientConfig(flags) } clients := NewClientCache(clientConfig) return &factory{ flags: flags, clientConfig: clientConfig, clients: clients, } } func (f *factory) FlagSet() *pflag.FlagSet { return f.flags } func (f *factory) Object() (meta.RESTMapper, runtime.ObjectTyper) { cfg, err := f.clientConfig.ClientConfig() checkErrWithPrefix("failed to get client config: ", err) cmdApiVersion := unversioned.GroupVersion{} if cfg.GroupVersion != nil { cmdApiVersion = *cfg.GroupVersion } mapper := registered.RESTMapper() discoveryClient, err := discovery.NewDiscoveryClientForConfig(cfg) if err == nil { // register third party resources with the api machinery groups. This probably should be done, but // its consistent with old code, so we'll start with it. if err := registerThirdPartyResources(discoveryClient); err != nil { glog.V(1).Infof("Unable to register third party resources: %v", err) } // ThirdPartyResourceData is special. It's not discoverable, but needed for thirdparty resource listing // TODO eliminate this once we're truly generic. thirdPartyResourceDataMapper := meta.NewDefaultRESTMapper([]unversioned.GroupVersion{extensionsv1beta1.SchemeGroupVersion}, registered.InterfacesFor) thirdPartyResourceDataMapper.Add(extensionsv1beta1.SchemeGroupVersion.WithKind("ThirdPartyResourceData"), meta.RESTScopeNamespace) mapper = meta.FirstHitRESTMapper{ MultiRESTMapper: meta.MultiRESTMapper{ discovery.NewDeferredDiscoveryRESTMapper(discoveryClient, registered.InterfacesFor), thirdPartyResourceDataMapper, // needed for TPR printing registered.RESTMapper(), // hardcoded fall back }, } } // wrap with shortcuts mapper = NewShortcutExpander(mapper, discoveryClient) // wrap with output preferences mapper = kubectl.OutputVersionMapper{RESTMapper: mapper, OutputVersions: []unversioned.GroupVersion{cmdApiVersion}} return mapper, api.Scheme } func (f *factory) UnstructuredObject() (meta.RESTMapper, runtime.ObjectTyper, error) { cfg, err := f.clients.ClientConfigForVersion(nil) if err != nil { return nil, nil, err } dc, err := discovery.NewDiscoveryClientForConfig(cfg) if err != nil { return nil, nil, err } groupResources, err := discovery.GetAPIGroupResources(dc) if err != nil { return nil, nil, err } // Register unknown APIs as third party for now to make // validation happy. TODO perhaps make a dynamic schema // validator to avoid this. for _, group := range groupResources { for _, version := range group.Group.Versions { gv := unversioned.GroupVersion{Group: group.Group.Name, Version: version.Version} if !registered.IsRegisteredVersion(gv) { registered.AddThirdPartyAPIGroupVersions(gv) } } } mapper := discovery.NewRESTMapper(groupResources, meta.InterfacesForUnstructured) typer := discovery.NewUnstructuredObjectTyper(groupResources) return NewShortcutExpander(mapper, dc), typer, nil } func (f *factory) RESTClient() (*restclient.RESTClient, error) { clientConfig, err := f.clients.ClientConfigForVersion(nil) if err != nil { return nil, err } return restclient.RESTClientFor(clientConfig) } func (f *factory) ClientSet() (*internalclientset.Clientset, error) { return f.clients.ClientSetForVersion(nil) } func (f *factory) ClientConfig() (*restclient.Config, error) { return f.clients.ClientConfigForVersion(nil) } func (f *factory) ClientForMapping(mapping *meta.RESTMapping) (resource.RESTClient, error) { cfg, err := f.clientConfig.ClientConfig() if err != nil { return nil, err } if err := client.SetKubernetesDefaults(cfg); err != nil { return nil, err } gvk := mapping.GroupVersionKind switch gvk.Group { case federation.GroupName: mappingVersion := mapping.GroupVersionKind.GroupVersion() return f.clients.FederationClientForVersion(&mappingVersion) case api.GroupName: cfg.APIPath = "/api" default: cfg.APIPath = "/apis" } gv := gvk.GroupVersion() cfg.GroupVersion = &gv if registered.IsThirdPartyAPIGroupVersion(gvk.GroupVersion()) { cfg.NegotiatedSerializer = thirdpartyresourcedata.NewNegotiatedSerializer(api.Codecs, gvk.Kind, gv, gv) } return restclient.RESTClientFor(cfg) } func (f *factory) UnstructuredClientForMapping(mapping *meta.RESTMapping) (resource.RESTClient, error) { cfg, err := f.clientConfig.ClientConfig() if err != nil { return nil, err } if err := restclient.SetKubernetesDefaults(cfg); err != nil { return nil, err } cfg.APIPath = "/apis" if mapping.GroupVersionKind.Group == api.GroupName { cfg.APIPath = "/api" } gv := mapping.GroupVersionKind.GroupVersion() cfg.ContentConfig = dynamic.ContentConfig() cfg.GroupVersion = &gv return restclient.RESTClientFor(cfg) } func (f *factory) Describer(mapping *meta.RESTMapping) (kubectl.Describer, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() if mapping.GroupVersionKind.Group == federation.GroupName { fedClientSet, err := f.clients.FederationClientSetForVersion(&mappingVersion) if err != nil { return nil, err } if mapping.GroupVersionKind.Kind == "Cluster" { return &kubectl.ClusterDescriber{Interface: fedClientSet}, nil } } clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } if describer, ok := kubectl.DescriberFor(mapping.GroupVersionKind.GroupKind(), clientset); ok { return describer, nil } return nil, fmt.Errorf("no description has been implemented for %q", mapping.GroupVersionKind.Kind) } func (f *factory) Decoder(toInternal bool) runtime.Decoder { var decoder runtime.Decoder if toInternal { decoder = api.Codecs.UniversalDecoder() } else { decoder = api.Codecs.UniversalDeserializer() } return thirdpartyresourcedata.NewDecoder(decoder, "") } func (f *factory) JSONEncoder() runtime.Encoder { return api.Codecs.LegacyCodec(registered.EnabledVersions()...) } func (f *factory) Printer(mapping *meta.RESTMapping, options kubectl.PrintOptions) (kubectl.ResourcePrinter, error) { return kubectl.NewHumanReadablePrinter(options), nil } func (f *factory) MapBasedSelectorForObject(object runtime.Object) (string, error) { // TODO: replace with a swagger schema based approach (identify pod selector via schema introspection) switch t := object.(type) { case *api.ReplicationController: return kubectl.MakeLabels(t.Spec.Selector), nil case *api.Pod: if len(t.Labels) == 0 { return "", fmt.Errorf("the pod has no labels and cannot be exposed") } return kubectl.MakeLabels(t.Labels), nil case *api.Service: if t.Spec.Selector == nil { return "", fmt.Errorf("the service has no pod selector set") } return kubectl.MakeLabels(t.Spec.Selector), nil case *extensions.Deployment: // TODO(madhusudancs): Make this smarter by admitting MatchExpressions with Equals // operator, DoubleEquals operator and In operator with only one element in the set. if len(t.Spec.Selector.MatchExpressions) > 0 { return "", fmt.Errorf("couldn't convert expressions - \"%+v\" to map-based selector format", t.Spec.Selector.MatchExpressions) } return kubectl.MakeLabels(t.Spec.Selector.MatchLabels), nil case *extensions.ReplicaSet: // TODO(madhusudancs): Make this smarter by admitting MatchExpressions with Equals // operator, DoubleEquals operator and In operator with only one element in the set. if len(t.Spec.Selector.MatchExpressions) > 0 { return "", fmt.Errorf("couldn't convert expressions - \"%+v\" to map-based selector format", t.Spec.Selector.MatchExpressions) } return kubectl.MakeLabels(t.Spec.Selector.MatchLabels), nil default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return "", err } return "", fmt.Errorf("cannot extract pod selector from %v", gvks[0]) } } func (f *factory) PortsForObject(object runtime.Object) ([]string, error) { // TODO: replace with a swagger schema based approach (identify pod selector via schema introspection) switch t := object.(type) { case *api.ReplicationController: return getPorts(t.Spec.Template.Spec), nil case *api.Pod: return getPorts(t.Spec), nil case *api.Service: return getServicePorts(t.Spec), nil case *extensions.Deployment: return getPorts(t.Spec.Template.Spec), nil case *extensions.ReplicaSet: return getPorts(t.Spec.Template.Spec), nil default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return nil, err } return nil, fmt.Errorf("cannot extract ports from %v", gvks[0]) } } func (f *factory) ProtocolsForObject(object runtime.Object) (map[string]string, error) { // TODO: replace with a swagger schema based approach (identify pod selector via schema introspection) switch t := object.(type) { case *api.ReplicationController: return getProtocols(t.Spec.Template.Spec), nil case *api.Pod: return getProtocols(t.Spec), nil case *api.Service: return getServiceProtocols(t.Spec), nil case *extensions.Deployment: return getProtocols(t.Spec.Template.Spec), nil case *extensions.ReplicaSet: return getProtocols(t.Spec.Template.Spec), nil default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return nil, err } return nil, fmt.Errorf("cannot extract protocols from %v", gvks[0]) } } func (f *factory) LabelsForObject(object runtime.Object) (map[string]string, error) { return meta.NewAccessor().Labels(object) } func (f *factory) LogsForObject(object, options runtime.Object) (*restclient.Request, error) { clientset, err := f.clients.ClientSetForVersion(nil) if err != nil { return nil, err } switch t := object.(type) { case *api.Pod: opts, ok := options.(*api.PodLogOptions) if !ok { return nil, errors.New("provided options object is not a PodLogOptions") } return clientset.Core().Pods(t.Namespace).GetLogs(t.Name, opts), nil case *api.ReplicationController: opts, ok := options.(*api.PodLogOptions) if !ok { return nil, errors.New("provided options object is not a PodLogOptions") } selector := labels.SelectorFromSet(t.Spec.Selector) sortBy := func(pods []*api.Pod) sort.Interface { return controller.ByLogging(pods) } pod, numPods, err := GetFirstPod(clientset.Core(), t.Namespace, selector, 20*time.Second, sortBy) if err != nil { return nil, err } if numPods > 1 { fmt.Fprintf(os.Stderr, "Found %v pods, using pod/%v\n", numPods, pod.Name) } return clientset.Core().Pods(pod.Namespace).GetLogs(pod.Name, opts), nil case *extensions.ReplicaSet: opts, ok := options.(*api.PodLogOptions) if !ok { return nil, errors.New("provided options object is not a PodLogOptions") } selector, err := unversioned.LabelSelectorAsSelector(t.Spec.Selector) if err != nil { return nil, fmt.Errorf("invalid label selector: %v", err) } sortBy := func(pods []*api.Pod) sort.Interface { return controller.ByLogging(pods) } pod, numPods, err := GetFirstPod(clientset.Core(), t.Namespace, selector, 20*time.Second, sortBy) if err != nil { return nil, err } if numPods > 1 { fmt.Fprintf(os.Stderr, "Found %v pods, using pod/%v\n", numPods, pod.Name) } return clientset.Core().Pods(pod.Namespace).GetLogs(pod.Name, opts), nil default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return nil, err } return nil, fmt.Errorf("cannot get the logs from %v", gvks[0]) } } func (f *factory) PauseObject(object runtime.Object) (bool, error) { clientset, err := f.clients.ClientSetForVersion(nil) if err != nil { return false, err } switch t := object.(type) { case *extensions.Deployment: if t.Spec.Paused { return true, nil } t.Spec.Paused = true _, err := clientset.Extensions().Deployments(t.Namespace).Update(t) return false, err default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return false, err } return false, fmt.Errorf("cannot pause %v", gvks[0]) } } func (f *factory) ResumeObject(object runtime.Object) (bool, error) { clientset, err := f.clients.ClientSetForVersion(nil) if err != nil { return false, err } switch t := object.(type) { case *extensions.Deployment: if !t.Spec.Paused { return true, nil } t.Spec.Paused = false _, err := clientset.Extensions().Deployments(t.Namespace).Update(t) return false, err default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return false, err } return false, fmt.Errorf("cannot resume %v", gvks[0]) } } func (f *factory) Scaler(mapping *meta.RESTMapping) (kubectl.Scaler, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } return kubectl.ScalerFor(mapping.GroupVersionKind.GroupKind(), clientset) } func (f *factory) Reaper(mapping *meta.RESTMapping) (kubectl.Reaper, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } return kubectl.ReaperFor(mapping.GroupVersionKind.GroupKind(), clientset) } func (f *factory) HistoryViewer(mapping *meta.RESTMapping) (kubectl.HistoryViewer, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } return kubectl.HistoryViewerFor(mapping.GroupVersionKind.GroupKind(), clientset) } func (f *factory) Rollbacker(mapping *meta.RESTMapping) (kubectl.Rollbacker, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } return kubectl.RollbackerFor(mapping.GroupVersionKind.GroupKind(), clientset) } func (f *factory) StatusViewer(mapping *meta.RESTMapping) (kubectl.StatusViewer, error) { mappingVersion := mapping.GroupVersionKind.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&mappingVersion) if err != nil { return nil, err } return kubectl.StatusViewerFor(mapping.GroupVersionKind.GroupKind(), clientset) } func (f *factory) Validator(validate bool, cacheDir string) (validation.Schema, error) { if validate { clientConfig, err := f.clients.ClientConfigForVersion(nil) if err != nil { return nil, err } restclient, err := restclient.RESTClientFor(clientConfig) if err != nil { return nil, err } clientset, err := f.clients.ClientSetForVersion(nil) if err != nil { return nil, err } dir := cacheDir if len(dir) > 0 { version, err := clientset.Discovery().ServerVersion() if err == nil { dir = path.Join(cacheDir, version.String()) } else { dir = "" // disable caching as a fallback } } fedClient, err := f.clients.FederationClientForVersion(nil) if err != nil { return nil, err } swaggerSchema := &clientSwaggerSchema{ c: restclient, fedc: fedClient, cacheDir: dir, } return validation.ConjunctiveSchema{ swaggerSchema, validation.NoDoubleKeySchema{}, }, nil } return validation.NullSchema{}, nil } func (f *factory) SwaggerSchema(gvk unversioned.GroupVersionKind) (*swagger.ApiDeclaration, error) { version := gvk.GroupVersion() clientset, err := f.clients.ClientSetForVersion(&version) if err != nil { return nil, err } return clientset.Discovery().SwaggerSchema(version) } func (f *factory) DefaultNamespace() (string, bool, error) { return f.clientConfig.Namespace() } func (f *factory) Generators(cmdName string) map[string]kubectl.Generator { return DefaultGenerators(cmdName) } func (f *factory) CanBeExposed(kind unversioned.GroupKind) error { switch kind { case api.Kind("ReplicationController"), api.Kind("Service"), api.Kind("Pod"), extensions.Kind("Deployment"), extensions.Kind("ReplicaSet"): // nothing to do here default: return fmt.Errorf("cannot expose a %s", kind) } return nil } func (f *factory) CanBeAutoscaled(kind unversioned.GroupKind) error { switch kind { case api.Kind("ReplicationController"), extensions.Kind("Deployment"), extensions.Kind("ReplicaSet"): // nothing to do here default: return fmt.Errorf("cannot autoscale a %v", kind) } return nil } func (f *factory) AttachablePodForObject(object runtime.Object) (*api.Pod, error) { clientset, err := f.clients.ClientSetForVersion(nil) if err != nil { return nil, err } switch t := object.(type) { case *api.ReplicationController: selector := labels.SelectorFromSet(t.Spec.Selector) sortBy := func(pods []*api.Pod) sort.Interface { return sort.Reverse(controller.ActivePods(pods)) } pod, _, err := GetFirstPod(clientset.Core(), t.Namespace, selector, 1*time.Minute, sortBy) return pod, err case *extensions.Deployment: selector, err := unversioned.LabelSelectorAsSelector(t.Spec.Selector) if err != nil { return nil, fmt.Errorf("invalid label selector: %v", err) } sortBy := func(pods []*api.Pod) sort.Interface { return sort.Reverse(controller.ActivePods(pods)) } pod, _, err := GetFirstPod(clientset.Core(), t.Namespace, selector, 1*time.Minute, sortBy) return pod, err case *batch.Job: selector, err := unversioned.LabelSelectorAsSelector(t.Spec.Selector) if err != nil { return nil, fmt.Errorf("invalid label selector: %v", err) } sortBy := func(pods []*api.Pod) sort.Interface { return sort.Reverse(controller.ActivePods(pods)) } pod, _, err := GetFirstPod(clientset.Core(), t.Namespace, selector, 1*time.Minute, sortBy) return pod, err case *api.Pod: return t, nil default: gvks, _, err := api.Scheme.ObjectKinds(object) if err != nil { return nil, err } return nil, fmt.Errorf("cannot attach to %v: not implemented", gvks[0]) } } func (f *factory) UpdatePodSpecForObject(obj runtime.Object, fn func(*api.PodSpec) error) (bool, error) { // TODO: replace with a swagger schema based approach (identify pod template via schema introspection) switch t := obj.(type) { case *api.Pod: return true, fn(&t.Spec) case *api.ReplicationController: if t.Spec.Template == nil { t.Spec.Template = &api.PodTemplateSpec{} } return true, fn(&t.Spec.Template.Spec) case *extensions.Deployment: return true, fn(&t.Spec.Template.Spec) case *extensions.DaemonSet: return true, fn(&t.Spec.Template.Spec) case *extensions.ReplicaSet: return true, fn(&t.Spec.Template.Spec) case *apps.StatefulSet: return true, fn(&t.Spec.Template.Spec) case *batch.Job: return true, fn(&t.Spec.Template.Spec) default: return false, fmt.Errorf("the object is not a pod or does not have a pod template") } } func (f *factory) EditorEnvs() []string { return []string{"KUBE_EDITOR", "EDITOR"} } func (f *factory) PrintObjectSpecificMessage(obj runtime.Object, out io.Writer) { switch obj := obj.(type) { case *api.Service: if obj.Spec.Type == api.ServiceTypeNodePort { msg := fmt.Sprintf( `You have exposed your service on an external port on all nodes in your cluster. If you want to expose this service to the external internet, you may need to set up firewall rules for the service port(s) (%s) to serve traffic. See http://kubernetes.io/docs/user-guide/services-firewalls for more details. `, makePortsString(obj.Spec.Ports, true)) out.Write([]byte(msg)) } if _, ok := obj.Annotations[service.AnnotationLoadBalancerSourceRangesKey]; ok { msg := fmt.Sprintf( `You are using service annotation [service.beta.kubernetes.io/load-balancer-source-ranges]. It has been promoted to field [loadBalancerSourceRanges] in service spec. This annotation will be deprecated in the future. Please use the loadBalancerSourceRanges field instead. See http://kubernetes.io/docs/user-guide/services-firewalls for more details. `) out.Write([]byte(msg)) } } } // GetFirstPod returns a pod matching the namespace and label selector // and the number of all pods that match the label selector. func GetFirstPod(client coreclient.PodsGetter, namespace string, selector labels.Selector, timeout time.Duration, sortBy func([]*api.Pod) sort.Interface) (*api.Pod, int, error) { options := api.ListOptions{LabelSelector: selector} podList, err := client.Pods(namespace).List(options) if err != nil { return nil, 0, err } pods := []*api.Pod{} for i := range podList.Items { pod := podList.Items[i] pods = append(pods, &pod) } if len(pods) > 0 { sort.Sort(sortBy(pods)) return pods[0], len(podList.Items), nil } // Watch until we observe a pod options.ResourceVersion = podList.ResourceVersion w, err := client.Pods(namespace).Watch(options) if err != nil { return nil, 0, err } defer w.Stop() condition := func(event watch.Event) (bool, error) { return event.Type == watch.Added || event.Type == watch.Modified, nil } event, err := watch.Until(timeout, w, condition) if err != nil { return nil, 0, err } pod, ok := event.Object.(*api.Pod) if !ok { return nil, 0, fmt.Errorf("%#v is not a pod event", event) } return pod, 1, nil } // TODO: We need to filter out stuff like secrets. func (f *factory) Command() string { if len(os.Args) == 0 { return "" } base := filepath.Base(os.Args[0]) args := append([]string{base}, os.Args[1:]...) return strings.Join(args, " ") } func (f *factory) BindFlags(flags *pflag.FlagSet) { // Merge factory's flags flags.AddFlagSet(f.flags) // Globally persistent flags across all subcommands. // TODO Change flag names to consts to allow safer lookup from subcommands. // TODO Add a verbose flag that turns on glog logging. Probably need a way // to do that automatically for every subcommand. flags.BoolVar(&f.clients.matchVersion, FlagMatchBinaryVersion, false, "Require server version to match client version") // Normalize all flags that are coming from other packages or pre-configurations // a.k.a. change all "_" to "-". e.g. glog package flags.SetNormalizeFunc(utilflag.WordSepNormalizeFunc) } func (f *factory) BindExternalFlags(flags *pflag.FlagSet) { // any flags defined by external projects (not part of pflags) flags.AddGoFlagSet(flag.CommandLine) } func makePortsString(ports []api.ServicePort, useNodePort bool) string { pieces := make([]string, len(ports)) for ix := range ports { var port int32 if useNodePort { port = ports[ix].NodePort } else { port = ports[ix].Port } pieces[ix] = fmt.Sprintf("%s:%d", strings.ToLower(string(ports[ix].Protocol)), port) } return strings.Join(pieces, ",") } func getPorts(spec api.PodSpec) []string { result := []string{} for _, container := range spec.Containers { for _, port := range container.Ports { result = append(result, strconv.Itoa(int(port.ContainerPort))) } } return result } func getProtocols(spec api.PodSpec) map[string]string { result := make(map[string]string) for _, container := range spec.Containers { for _, port := range container.Ports { result[strconv.Itoa(int(port.ContainerPort))] = string(port.Protocol) } } return result } // Extracts the ports exposed by a service from the given service spec. func getServicePorts(spec api.ServiceSpec) []string { result := []string{} for _, servicePort := range spec.Ports { result = append(result, strconv.Itoa(int(servicePort.Port))) } return result } // Extracts the protocols exposed by a service from the given service spec. func getServiceProtocols(spec api.ServiceSpec) map[string]string { result := make(map[string]string) for _, servicePort := range spec.Ports { result[strconv.Itoa(int(servicePort.Port))] = string(servicePort.Protocol) } return result } type clientSwaggerSchema struct { c *restclient.RESTClient fedc *restclient.RESTClient cacheDir string } const schemaFileName = "schema.json" type schemaClient interface { Get() *restclient.Request } func recursiveSplit(dir string) []string { parent, file := path.Split(dir) if len(parent) == 0 { return []string{file} } return append(recursiveSplit(parent[:len(parent)-1]), file) } func substituteUserHome(dir string) (string, error) { if len(dir) == 0 || dir[0] != '~' { return dir, nil } parts := recursiveSplit(dir) if len(parts[0]) == 1 { parts[0] = os.Getenv("HOME") } else { usr, err := user.Lookup(parts[0][1:]) if err != nil { return "", err } parts[0] = usr.HomeDir } return path.Join(parts...), nil } func writeSchemaFile(schemaData []byte, cacheDir, cacheFile, prefix, groupVersion string) error { if err := os.MkdirAll(path.Join(cacheDir, prefix, groupVersion), 0755); err != nil { return err } tmpFile, err := ioutil.TempFile(cacheDir, "schema") if err != nil { // If we can't write, keep going. if os.IsPermission(err) { return nil } return err } if _, err := io.Copy(tmpFile, bytes.NewBuffer(schemaData)); err != nil { return err } if err := os.Link(tmpFile.Name(), cacheFile); err != nil { // If we can't write due to file existing, or permission problems, keep going. if os.IsExist(err) || os.IsPermission(err) { return nil } return err } return nil } func getSchemaAndValidate(c schemaClient, data []byte, prefix, groupVersion, cacheDir string, delegate validation.Schema) (err error) { var schemaData []byte var firstSeen bool fullDir, err := substituteUserHome(cacheDir) if err != nil { return err } cacheFile := path.Join(fullDir, prefix, groupVersion, schemaFileName) if len(cacheDir) != 0 { if schemaData, err = ioutil.ReadFile(cacheFile); err != nil && !os.IsNotExist(err) { return err } } if schemaData == nil { firstSeen = true schemaData, err = downloadSchemaAndStore(c, cacheDir, fullDir, cacheFile, prefix, groupVersion) if err != nil { return err } } schema, err := validation.NewSwaggerSchemaFromBytes(schemaData, delegate) if err != nil { return err } err = schema.ValidateBytes(data) if _, ok := err.(validation.TypeNotFoundError); ok && !firstSeen { // As a temporary hack, kubectl would re-get the schema if validation // fails for type not found reason. // TODO: runtime-config settings needs to make into the file's name schemaData, err = downloadSchemaAndStore(c, cacheDir, fullDir, cacheFile, prefix, groupVersion) if err != nil { return err } schema, err := validation.NewSwaggerSchemaFromBytes(schemaData, delegate) if err != nil { return err } return schema.ValidateBytes(data) } return err } // Download swagger schema from apiserver and store it to file. func downloadSchemaAndStore(c schemaClient, cacheDir, fullDir, cacheFile, prefix, groupVersion string) (schemaData []byte, err error) { schemaData, err = c.Get(). AbsPath("/swaggerapi", prefix, groupVersion). Do(). Raw() if err != nil { return } if len(cacheDir) != 0 { if err = writeSchemaFile(schemaData, fullDir, cacheFile, prefix, groupVersion); err != nil { return } } return } func (c *clientSwaggerSchema) ValidateBytes(data []byte) error { gvk, err := json.DefaultMetaFactory.Interpret(data) if err != nil { return err } if ok := registered.IsEnabledVersion(gvk.GroupVersion()); !ok { return fmt.Errorf("API version %q isn't supported, only supports API versions %q", gvk.GroupVersion().String(), registered.EnabledVersions()) } if registered.IsThirdPartyAPIGroupVersion(gvk.GroupVersion()) { // Don't attempt to validate third party objects return nil } switch gvk.Group { case federation.GroupName: if c.fedc == nil { return errors.New("unable to validate: no federation client") } return getSchemaAndValidate(c.fedc, data, "apis/", gvk.GroupVersion().String(), c.cacheDir, c) case api.GroupName: return getSchemaAndValidate(c.c, data, "api", gvk.GroupVersion().String(), c.cacheDir, c) default: return getSchemaAndValidate(c.c, data, "apis/", gvk.GroupVersion().String(), c.cacheDir, c) } } // DefaultClientConfig creates a clientcmd.ClientConfig with the following hierarchy: // 1. Use the kubeconfig builder. The number of merges and overrides here gets a little crazy. Stay with me. // 1. Merge the kubeconfig itself. This is done with the following hierarchy rules: // 1. CommandLineLocation - this parsed from the command line, so it must be late bound. If you specify this, // then no other kubeconfig files are merged. This file must exist. // 2. If $KUBECONFIG is set, then it is treated as a list of files that should be merged. // 3. HomeDirectoryLocation // Empty filenames are ignored. Files with non-deserializable content produced errors. // The first file to set a particular value or map key wins and the value or map key is never changed. // This means that the first file to set CurrentContext will have its context preserved. It also means // that if two files specify a "red-user", only values from the first file's red-user are used. Even // non-conflicting entries from the second file's "red-user" are discarded. // 2. Determine the context to use based on the first hit in this chain // 1. command line argument - again, parsed from the command line, so it must be late bound // 2. CurrentContext from the merged kubeconfig file // 3. Empty is allowed at this stage // 3. Determine the cluster info and auth info to use. At this point, we may or may not have a context. They // are built based on the first hit in this chain. (run it twice, once for auth, once for cluster) // 1. command line argument // 2. If context is present, then use the context value // 3. Empty is allowed // 4. Determine the actual cluster info to use. At this point, we may or may not have a cluster info. Build // each piece of the cluster info based on the chain: // 1. command line argument // 2. If cluster info is present and a value for the attribute is present, use it. // 3. If you don't have a server location, bail. // 5. Auth info is build using the same rules as cluster info, EXCEPT that you can only have one authentication // technique per auth info. The following conditions result in an error: // 1. If there are two conflicting techniques specified from the command line, fail. // 2. If the command line does not specify one, and the auth info has conflicting techniques, fail. // 3. If the command line specifies one and the auth info specifies another, honor the command line technique. // 2. Use default values and potentially prompt for auth information // // However, if it appears that we're running in a kubernetes cluster // container environment, then run with the auth info kubernetes mounted for // us. Specifically: // The env vars KUBERNETES_SERVICE_HOST and KUBERNETES_SERVICE_PORT are // set, and the file /var/run/secrets/kubernetes.io/serviceaccount/token // exists and is not a directory. func DefaultClientConfig(flags *pflag.FlagSet) clientcmd.ClientConfig { loadingRules := clientcmd.NewDefaultClientConfigLoadingRules() // use the standard defaults for this client command // DEPRECATED: remove and replace with something more accurate loadingRules.DefaultClientConfig = &clientcmd.DefaultClientConfig flags.StringVar(&loadingRules.ExplicitPath, "kubeconfig", "", "Path to the kubeconfig file to use for CLI requests.") overrides := &clientcmd.ConfigOverrides{ClusterDefaults: clientcmd.ClusterDefaults} flagNames := clientcmd.RecommendedConfigOverrideFlags("") // short flagnames are disabled by default. These are here for compatibility with existing scripts flagNames.ClusterOverrideFlags.APIServer.ShortName = "s" clientcmd.BindOverrideFlags(overrides, flags, flagNames) clientConfig := clientcmd.NewInteractiveDeferredLoadingClientConfig(loadingRules, overrides, os.Stdin) return clientConfig } func (f *factory) DefaultResourceFilterOptions(cmd *cobra.Command, withNamespace bool) *kubectl.PrintOptions { columnLabel, err := cmd.Flags().GetStringSlice("label-columns") if err != nil { columnLabel = []string{} } opts := &kubectl.PrintOptions{ NoHeaders: GetFlagBool(cmd, "no-headers"), WithNamespace: withNamespace, Wide: GetWideFlag(cmd), ShowAll: GetFlagBool(cmd, "show-all"), ShowLabels: GetFlagBool(cmd, "show-labels"), AbsoluteTimestamps: isWatch(cmd), ColumnLabels: columnLabel, } return opts } func (f *factory) DefaultResourceFilterFunc() kubectl.Filters { return kubectl.NewResourceFilter() } func (f *factory) PrintObject(cmd *cobra.Command, mapper meta.RESTMapper, obj runtime.Object, out io.Writer) error { gvks, _, err := api.Scheme.ObjectKinds(obj) if err != nil { return err } mapping, err := mapper.RESTMapping(gvks[0].GroupKind()) if err != nil { return err } printer, err := f.PrinterForMapping(cmd, mapping, false) if err != nil { return err } return printer.PrintObj(obj, out) } func (f *factory) PrinterForMapping(cmd *cobra.Command, mapping *meta.RESTMapping, withNamespace bool) (kubectl.ResourcePrinter, error) { printer, ok, err := PrinterForCommand(cmd) if err != nil { return nil, err } if ok { clientConfig, err := f.ClientConfig() if err != nil { return nil, err } version, err := OutputVersion(cmd, clientConfig.GroupVersion) if err != nil { return nil, err } if version.Empty() && mapping != nil { version = mapping.GroupVersionKind.GroupVersion() } if version.Empty() { return nil, fmt.Errorf("you must specify an output-version when using this output format") } if mapping != nil { printer = kubectl.NewVersionedPrinter(printer, mapping.ObjectConvertor, version, mapping.GroupVersionKind.GroupVersion()) } } else { // Some callers do not have "label-columns" so we can't use the GetFlagStringSlice() helper columnLabel, err := cmd.Flags().GetStringSlice("label-columns") if err != nil { columnLabel = []string{} } printer, err = f.Printer(mapping, kubectl.PrintOptions{ NoHeaders: GetFlagBool(cmd, "no-headers"), WithNamespace: withNamespace, Wide: GetWideFlag(cmd), ShowAll: GetFlagBool(cmd, "show-all"), ShowLabels: GetFlagBool(cmd, "show-labels"), AbsoluteTimestamps: isWatch(cmd), ColumnLabels: columnLabel, }) if err != nil { return nil, err } printer = maybeWrapSortingPrinter(cmd, printer) } return printer, nil } func (f *factory) NewBuilder() *resource.Builder { mapper, typer := f.Object() return resource.NewBuilder(mapper, typer, resource.ClientMapperFunc(f.ClientForMapping), f.Decoder(true)) } // registerThirdPartyResources inspects the discovery endpoint to find thirdpartyresources in the discovery doc // and then registers them with the apimachinery code. I think this is done so that scheme/codec stuff works, // but I really don't know. Feels like this code should go away once kubectl is completely generic for generic // CRUD func registerThirdPartyResources(discoveryClient discovery.DiscoveryInterface) error { var versions []unversioned.GroupVersion var gvks []unversioned.GroupVersionKind var err error retries := 3 for i := 0; i < retries; i++ { versions, gvks, err = GetThirdPartyGroupVersions(discoveryClient) // Retry if we got a NotFound error, because user may delete // a thirdparty group when the GetThirdPartyGroupVersions is // running. if err == nil || !apierrors.IsNotFound(err) { break } } if err != nil { return err } groupsMap := map[string][]unversioned.GroupVersion{} for _, version := range versions { groupsMap[version.Group] = append(groupsMap[version.Group], version) } for group, versionList := range groupsMap { preferredExternalVersion := versionList[0] thirdPartyMapper, err := kubectl.NewThirdPartyResourceMapper(versionList, getGroupVersionKinds(gvks, group)) if err != nil { return err } accessor := meta.NewAccessor() groupMeta := apimachinery.GroupMeta{ GroupVersion: preferredExternalVersion, GroupVersions: versionList, RESTMapper: thirdPartyMapper, SelfLinker: runtime.SelfLinker(accessor), InterfacesFor: makeInterfacesFor(versionList), } if err := registered.RegisterGroup(groupMeta); err != nil { return err } registered.AddThirdPartyAPIGroupVersions(versionList...) } return nil } func ResourcesWithPodSpecs() []*meta.RESTMapping { restMaps := []*meta.RESTMapping{} resourcesWithTemplates := []string{"ReplicationController", "Deployment", "DaemonSet", "Job", "ReplicaSet"} mapper, _ := NewFactory(nil).Object() for _, resource := range resourcesWithTemplates { restmap, err := mapper.RESTMapping(unversioned.GroupKind{Kind: resource}) if err == nil { restMaps = append(restMaps, restmap) } else { mapping, _ := mapper.RESTMapping(extensions.Kind(resource)) restMaps = append(restMaps, mapping) } } return restMaps }