Example #1
0
// ScalerFor returns the appropriate Scaler client depending on the provided
// kind of resource (Replication controllers and deploymentConfigs supported)
func ScalerFor(kind string, oc client.Interface, kc kclient.Interface) (kubectl.Scaler, error) {
	if kind != "DeploymentConfig" {
		return kubectl.ScalerFor(kind, kubectl.NewScalerClient(kc))

	}
	return &DeploymentConfigScaler{NewScalerClient(oc, kc)}, nil
}
Example #2
0
// ScaleRC scales the given rc to the given replicas.
func ScaleRC(name, ns string, replicas int, restClient *client.Client) (*api.ReplicationController, error) {
	scaler, err := kubectl.ScalerFor("ReplicationController", kubectl.NewScalerClient(restClient))
	if err != nil {
		return nil, err
	}
	retry := &kubectl.RetryParams{50 * time.Millisecond, DefaultTimeout}
	waitForReplicas := &kubectl.RetryParams{50 * time.Millisecond, DefaultTimeout}
	err = scaler.Scale(ns, name, uint(replicas), nil, retry, waitForReplicas)
	if err != nil {
		return nil, err
	}
	scaled, err := restClient.ReplicationControllers(ns).Get(name)
	if err != nil {
		return nil, err
	}
	return scaled, nil
}
// NewRecreateDeploymentStrategy makes a RecreateDeploymentStrategy backed by
// a real HookExecutor and client.
func NewRecreateDeploymentStrategy(client kclient.Interface, codec runtime.Codec) *RecreateDeploymentStrategy {
	scaler, _ := kubectl.ScalerFor("ReplicationController", kubectl.NewScalerClient(client))
	return &RecreateDeploymentStrategy{
		getReplicationController: func(namespace, name string) (*kapi.ReplicationController, error) {
			return client.ReplicationControllers(namespace).Get(name)
		},
		scaler: scaler,
		codec:  codec,
		hookExecutor: &stratsupport.HookExecutor{
			PodClient: &stratsupport.HookExecutorPodClientImpl{
				CreatePodFunc: func(namespace string, pod *kapi.Pod) (*kapi.Pod, error) {
					return client.Pods(namespace).Create(pod)
				},
				PodWatchFunc: func(namespace, name, resourceVersion string, stopChannel chan struct{}) func() *kapi.Pod {
					return stratsupport.NewPodWatch(client, namespace, name, resourceVersion, stopChannel)
				},
			},
		},
		retryTimeout: 120 * time.Second,
		retryPeriod:  1 * time.Second,
	}
}
// NewDeployer makes a new Deployer from a kube client.
func NewDeployer(client kclient.Interface) *Deployer {
	scaler, _ := kubectl.ScalerFor("ReplicationController", kubectl.NewScalerClient(client))
	return &Deployer{
		getDeployment: func(namespace, name string) (*kapi.ReplicationController, error) {
			return client.ReplicationControllers(namespace).Get(name)
		},
		getDeployments: func(namespace, configName string) (*kapi.ReplicationControllerList, error) {
			return client.ReplicationControllers(namespace).List(deployutil.ConfigSelector(configName))
		},
		scaler: scaler,
		strategyFor: func(config *deployapi.DeploymentConfig) (strategy.DeploymentStrategy, error) {
			switch config.Template.Strategy.Type {
			case deployapi.DeploymentStrategyTypeRecreate:
				return recreate.NewRecreateDeploymentStrategy(client, latest.Codec), nil
			case deployapi.DeploymentStrategyTypeRolling:
				recreate := recreate.NewRecreateDeploymentStrategy(client, latest.Codec)
				return rolling.NewRollingDeploymentStrategy(config.Namespace, client, latest.Codec, recreate), nil
			default:
				return nil, fmt.Errorf("unsupported strategy type: %s", config.Template.Strategy.Type)
			}
		},
	}
}
Example #5
0
// 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 {
	mapper := kubectl.ShortcutExpander{latest.RESTMapper}

	flags := pflag.NewFlagSet("", pflag.ContinueOnError)
	flags.SetNormalizeFunc(util.WarnWordSepNormalizeFunc) // Warn for "_" flags

	generators := map[string]kubectl.Generator{
		"run/v1":     kubectl.BasicReplicationController{},
		"service/v1": kubectl.ServiceGenerator{},
	}

	clientConfig := optionalClientConfig
	if optionalClientConfig == nil {
		clientConfig = DefaultClientConfig(flags)
	}

	clients := NewClientCache(clientConfig)

	return &Factory{
		clients:    clients,
		flags:      flags,
		generators: generators,

		Object: func() (meta.RESTMapper, runtime.ObjectTyper) {
			cfg, err := clientConfig.ClientConfig()
			CheckErr(err)
			cmdApiVersion := cfg.Version

			return kubectl.OutputVersionMapper{mapper, cmdApiVersion}, api.Scheme
		},
		Client: func() (*client.Client, error) {
			return clients.ClientForVersion("")
		},
		ClientConfig: func() (*client.Config, error) {
			return clients.ClientConfigForVersion("")
		},
		RESTClient: func(mapping *meta.RESTMapping) (resource.RESTClient, error) {
			client, err := clients.ClientForVersion(mapping.APIVersion)
			if err != nil {
				return nil, err
			}
			return client.RESTClient, nil
		},
		Describer: func(mapping *meta.RESTMapping) (kubectl.Describer, error) {
			client, err := clients.ClientForVersion(mapping.APIVersion)
			if err != nil {
				return nil, err
			}
			describer, ok := kubectl.DescriberFor(mapping.Kind, client)
			if !ok {
				return nil, fmt.Errorf("no description has been implemented for %q", mapping.Kind)
			}
			return describer, nil
		},
		Printer: func(mapping *meta.RESTMapping, noHeaders, withNamespace bool, wide bool, columnLabels []string) (kubectl.ResourcePrinter, error) {
			return kubectl.NewHumanReadablePrinter(noHeaders, withNamespace, wide, columnLabels), nil
		},
		PodSelectorForObject: func(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
			default:
				kind, err := meta.NewAccessor().Kind(object)
				if err != nil {
					return "", err
				}
				return "", fmt.Errorf("it is not possible to get a pod selector from %s", kind)
			}
		},
		PortsForObject: func(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
			default:
				kind, err := meta.NewAccessor().Kind(object)
				if err != nil {
					return nil, err
				}
				return nil, fmt.Errorf("it is not possible to get ports from %s", kind)
			}
		},
		LabelsForObject: func(object runtime.Object) (map[string]string, error) {
			return meta.NewAccessor().Labels(object)
		},
		Scaler: func(mapping *meta.RESTMapping) (kubectl.Scaler, error) {
			client, err := clients.ClientForVersion(mapping.APIVersion)
			if err != nil {
				return nil, err
			}
			return kubectl.ScalerFor(mapping.Kind, kubectl.NewScalerClient(client))
		},
		Reaper: func(mapping *meta.RESTMapping) (kubectl.Reaper, error) {
			client, err := clients.ClientForVersion(mapping.APIVersion)
			if err != nil {
				return nil, err
			}
			return kubectl.ReaperFor(mapping.Kind, client)
		},
		Validator: func() (validation.Schema, error) {
			if flags.Lookup("validate").Value.String() == "true" {
				client, err := clients.ClientForVersion("")
				if err != nil {
					return nil, err
				}
				return &clientSwaggerSchema{client, api.Scheme}, nil
			}
			return validation.NullSchema{}, nil
		},
		DefaultNamespace: func() (string, error) {
			return clientConfig.Namespace()
		},
		Generator: func(name string) (kubectl.Generator, bool) {
			generator, ok := generators[name]
			return generator, ok
		},
	}
}