/* Copyright 2017 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 internalversion import ( "bytes" "fmt" "net" "sort" "strconv" "strings" "time" appsv1beta1 "k8s.io/api/apps/v1beta1" autoscalingv2beta1 "k8s.io/api/autoscaling/v2beta1" batchv1 "k8s.io/api/batch/v1" batchv1beta1 "k8s.io/api/batch/v1beta1" certificatesv1beta1 "k8s.io/api/certificates/v1beta1" coordinationv1 "k8s.io/api/coordination/v1" apiv1 "k8s.io/api/core/v1" discoveryv1alpha1 "k8s.io/api/discovery/v1alpha1" extensionsv1beta1 "k8s.io/api/extensions/v1beta1" policyv1beta1 "k8s.io/api/policy/v1beta1" rbacv1beta1 "k8s.io/api/rbac/v1beta1" schedulingv1 "k8s.io/api/scheduling/v1" storagev1 "k8s.io/api/storage/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" metav1beta1 "k8s.io/apimachinery/pkg/apis/meta/v1beta1" "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/runtime/schema" "k8s.io/apimachinery/pkg/util/duration" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/kubernetes/pkg/apis/apps" "k8s.io/kubernetes/pkg/apis/autoscaling" "k8s.io/kubernetes/pkg/apis/batch" "k8s.io/kubernetes/pkg/apis/certificates" "k8s.io/kubernetes/pkg/apis/coordination" api "k8s.io/kubernetes/pkg/apis/core" "k8s.io/kubernetes/pkg/apis/core/helper" "k8s.io/kubernetes/pkg/apis/discovery" "k8s.io/kubernetes/pkg/apis/networking" nodeapi "k8s.io/kubernetes/pkg/apis/node" "k8s.io/kubernetes/pkg/apis/policy" "k8s.io/kubernetes/pkg/apis/rbac" "k8s.io/kubernetes/pkg/apis/scheduling" "k8s.io/kubernetes/pkg/apis/storage" storageutil "k8s.io/kubernetes/pkg/apis/storage/util" "k8s.io/kubernetes/pkg/printers" "k8s.io/kubernetes/pkg/util/node" ) const ( loadBalancerWidth = 16 // labelNodeRolePrefix is a label prefix for node roles // It's copied over to here until it's merged in core: https://github.com/kubernetes/kubernetes/pull/39112 labelNodeRolePrefix = "node-role.kubernetes.io/" // nodeLabelRole specifies the role of a node nodeLabelRole = "kubernetes.io/role" ) // AddHandlers adds print handlers for default Kubernetes types dealing with internal versions. // TODO: handle errors from Handler func AddHandlers(h printers.PrintHandler) { podColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Ready", Type: "string", Description: "The aggregate readiness state of this pod for accepting traffic."}, {Name: "Status", Type: "string", Description: "The aggregate status of the containers in this pod."}, {Name: "Restarts", Type: "integer", Description: "The number of times the containers in this pod have been restarted."}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "IP", Type: "string", Priority: 1, Description: apiv1.PodStatus{}.SwaggerDoc()["podIP"]}, {Name: "Node", Type: "string", Priority: 1, Description: apiv1.PodSpec{}.SwaggerDoc()["nodeName"]}, {Name: "Nominated Node", Type: "string", Priority: 1, Description: apiv1.PodStatus{}.SwaggerDoc()["nominatedNodeName"]}, {Name: "Readiness Gates", Type: "string", Priority: 1, Description: apiv1.PodSpec{}.SwaggerDoc()["readinessGates"]}, } h.TableHandler(podColumnDefinitions, printPodList) h.TableHandler(podColumnDefinitions, printPod) podTemplateColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Containers", Type: "string", Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Description: "Images referenced by each container in the template."}, {Name: "Pod Labels", Type: "string", Description: "The labels for the pod template."}, } h.TableHandler(podTemplateColumnDefinitions, printPodTemplate) h.TableHandler(podTemplateColumnDefinitions, printPodTemplateList) podDisruptionBudgetColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Min Available", Type: "string", Description: "The minimum number of pods that must be available."}, {Name: "Max Unavailable", Type: "string", Description: "The maximum number of pods that may be unavailable."}, {Name: "Allowed Disruptions", Type: "integer", Description: "Calculated number of pods that may be disrupted at this time."}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(podDisruptionBudgetColumnDefinitions, printPodDisruptionBudget) h.TableHandler(podDisruptionBudgetColumnDefinitions, printPodDisruptionBudgetList) replicationControllerColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Desired", Type: "integer", Description: apiv1.ReplicationControllerSpec{}.SwaggerDoc()["replicas"]}, {Name: "Current", Type: "integer", Description: apiv1.ReplicationControllerStatus{}.SwaggerDoc()["replicas"]}, {Name: "Ready", Type: "integer", Description: apiv1.ReplicationControllerStatus{}.SwaggerDoc()["readyReplicas"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: apiv1.ReplicationControllerSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(replicationControllerColumnDefinitions, printReplicationController) h.TableHandler(replicationControllerColumnDefinitions, printReplicationControllerList) replicaSetColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Desired", Type: "integer", Description: extensionsv1beta1.ReplicaSetSpec{}.SwaggerDoc()["replicas"]}, {Name: "Current", Type: "integer", Description: extensionsv1beta1.ReplicaSetStatus{}.SwaggerDoc()["replicas"]}, {Name: "Ready", Type: "integer", Description: extensionsv1beta1.ReplicaSetStatus{}.SwaggerDoc()["readyReplicas"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: extensionsv1beta1.ReplicaSetSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(replicaSetColumnDefinitions, printReplicaSet) h.TableHandler(replicaSetColumnDefinitions, printReplicaSetList) daemonSetColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Desired", Type: "integer", Description: extensionsv1beta1.DaemonSetStatus{}.SwaggerDoc()["desiredNumberScheduled"]}, {Name: "Current", Type: "integer", Description: extensionsv1beta1.DaemonSetStatus{}.SwaggerDoc()["currentNumberScheduled"]}, {Name: "Ready", Type: "integer", Description: extensionsv1beta1.DaemonSetStatus{}.SwaggerDoc()["numberReady"]}, {Name: "Up-to-date", Type: "integer", Description: extensionsv1beta1.DaemonSetStatus{}.SwaggerDoc()["updatedNumberScheduled"]}, {Name: "Available", Type: "integer", Description: extensionsv1beta1.DaemonSetStatus{}.SwaggerDoc()["numberAvailable"]}, {Name: "Node Selector", Type: "string", Description: apiv1.PodSpec{}.SwaggerDoc()["nodeSelector"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: extensionsv1beta1.DaemonSetSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(daemonSetColumnDefinitions, printDaemonSet) h.TableHandler(daemonSetColumnDefinitions, printDaemonSetList) jobColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Completions", Type: "string", Description: batchv1.JobStatus{}.SwaggerDoc()["succeeded"]}, {Name: "Duration", Type: "string", Description: "Time required to complete the job."}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: batchv1.JobSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(jobColumnDefinitions, printJob) h.TableHandler(jobColumnDefinitions, printJobList) cronJobColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Schedule", Type: "string", Description: batchv1beta1.CronJobSpec{}.SwaggerDoc()["schedule"]}, {Name: "Suspend", Type: "boolean", Description: batchv1beta1.CronJobSpec{}.SwaggerDoc()["suspend"]}, {Name: "Active", Type: "integer", Description: batchv1beta1.CronJobStatus{}.SwaggerDoc()["active"]}, {Name: "Last Schedule", Type: "string", Description: batchv1beta1.CronJobStatus{}.SwaggerDoc()["lastScheduleTime"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: batchv1.JobSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(cronJobColumnDefinitions, printCronJob) h.TableHandler(cronJobColumnDefinitions, printCronJobList) serviceColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Type", Type: "string", Description: apiv1.ServiceSpec{}.SwaggerDoc()["type"]}, {Name: "Cluster-IP", Type: "string", Description: apiv1.ServiceSpec{}.SwaggerDoc()["clusterIP"]}, {Name: "External-IP", Type: "string", Description: apiv1.ServiceSpec{}.SwaggerDoc()["externalIPs"]}, {Name: "Port(s)", Type: "string", Description: apiv1.ServiceSpec{}.SwaggerDoc()["ports"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Selector", Type: "string", Priority: 1, Description: apiv1.ServiceSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(serviceColumnDefinitions, printService) h.TableHandler(serviceColumnDefinitions, printServiceList) ingressColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Hosts", Type: "string", Description: "Hosts that incoming requests are matched against before the ingress rule"}, {Name: "Address", Type: "string", Description: "Address is a list containing ingress points for the load-balancer"}, {Name: "Ports", Type: "string", Description: "Ports of TLS configurations that open"}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(ingressColumnDefinitions, printIngress) h.TableHandler(ingressColumnDefinitions, printIngressList) statefulSetColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Ready", Type: "string", Description: "Number of the pod with ready state"}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, } h.TableHandler(statefulSetColumnDefinitions, printStatefulSet) h.TableHandler(statefulSetColumnDefinitions, printStatefulSetList) endpointColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Endpoints", Type: "string", Description: apiv1.Endpoints{}.SwaggerDoc()["subsets"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(endpointColumnDefinitions, printEndpoints) h.TableHandler(endpointColumnDefinitions, printEndpointsList) nodeColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Status", Type: "string", Description: "The status of the node"}, {Name: "Roles", Type: "string", Description: "The roles of the node"}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Version", Type: "string", Description: apiv1.NodeSystemInfo{}.SwaggerDoc()["kubeletVersion"]}, {Name: "Internal-IP", Type: "string", Priority: 1, Description: apiv1.NodeStatus{}.SwaggerDoc()["addresses"]}, {Name: "External-IP", Type: "string", Priority: 1, Description: apiv1.NodeStatus{}.SwaggerDoc()["addresses"]}, {Name: "OS-Image", Type: "string", Priority: 1, Description: apiv1.NodeSystemInfo{}.SwaggerDoc()["osImage"]}, {Name: "Kernel-Version", Type: "string", Priority: 1, Description: apiv1.NodeSystemInfo{}.SwaggerDoc()["kernelVersion"]}, {Name: "Container-Runtime", Type: "string", Priority: 1, Description: apiv1.NodeSystemInfo{}.SwaggerDoc()["containerRuntimeVersion"]}, } h.TableHandler(nodeColumnDefinitions, printNode) h.TableHandler(nodeColumnDefinitions, printNodeList) eventColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Last Seen", Type: "string", Description: apiv1.Event{}.SwaggerDoc()["lastTimestamp"]}, {Name: "Type", Type: "string", Description: apiv1.Event{}.SwaggerDoc()["type"]}, {Name: "Reason", Type: "string", Description: apiv1.Event{}.SwaggerDoc()["reason"]}, {Name: "Object", Type: "string", Description: apiv1.Event{}.SwaggerDoc()["involvedObject"]}, {Name: "Subobject", Type: "string", Priority: 1, Description: apiv1.Event{}.InvolvedObject.SwaggerDoc()["fieldPath"]}, {Name: "Source", Type: "string", Priority: 1, Description: apiv1.Event{}.SwaggerDoc()["source"]}, {Name: "Message", Type: "string", Description: apiv1.Event{}.SwaggerDoc()["message"]}, {Name: "First Seen", Type: "string", Priority: 1, Description: apiv1.Event{}.SwaggerDoc()["firstTimestamp"]}, {Name: "Count", Type: "string", Priority: 1, Description: apiv1.Event{}.SwaggerDoc()["count"]}, {Name: "Name", Type: "string", Priority: 1, Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, } h.TableHandler(eventColumnDefinitions, printEvent) h.TableHandler(eventColumnDefinitions, printEventList) namespaceColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Status", Type: "string", Description: "The status of the namespace"}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(namespaceColumnDefinitions, printNamespace) h.TableHandler(namespaceColumnDefinitions, printNamespaceList) secretColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Type", Type: "string", Description: apiv1.Secret{}.SwaggerDoc()["type"]}, {Name: "Data", Type: "string", Description: apiv1.Secret{}.SwaggerDoc()["data"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(secretColumnDefinitions, printSecret) h.TableHandler(secretColumnDefinitions, printSecretList) serviceAccountColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Secrets", Type: "string", Description: apiv1.ServiceAccount{}.SwaggerDoc()["secrets"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(serviceAccountColumnDefinitions, printServiceAccount) h.TableHandler(serviceAccountColumnDefinitions, printServiceAccountList) persistentVolumeColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Capacity", Type: "string", Description: apiv1.PersistentVolumeSpec{}.SwaggerDoc()["capacity"]}, {Name: "Access Modes", Type: "string", Description: apiv1.PersistentVolumeSpec{}.SwaggerDoc()["accessModes"]}, {Name: "Reclaim Policy", Type: "string", Description: apiv1.PersistentVolumeSpec{}.SwaggerDoc()["persistentVolumeReclaimPolicy"]}, {Name: "Status", Type: "string", Description: apiv1.PersistentVolumeStatus{}.SwaggerDoc()["phase"]}, {Name: "Claim", Type: "string", Description: apiv1.PersistentVolumeSpec{}.SwaggerDoc()["claimRef"]}, {Name: "StorageClass", Type: "string", Description: "StorageClass of the pv"}, {Name: "Reason", Type: "string", Description: apiv1.PersistentVolumeStatus{}.SwaggerDoc()["reason"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "VolumeMode", Type: "string", Priority: 1, Description: apiv1.PersistentVolumeSpec{}.SwaggerDoc()["volumeMode"]}, } h.TableHandler(persistentVolumeColumnDefinitions, printPersistentVolume) h.TableHandler(persistentVolumeColumnDefinitions, printPersistentVolumeList) persistentVolumeClaimColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Status", Type: "string", Description: apiv1.PersistentVolumeClaimStatus{}.SwaggerDoc()["phase"]}, {Name: "Volume", Type: "string", Description: apiv1.PersistentVolumeClaimSpec{}.SwaggerDoc()["volumeName"]}, {Name: "Capacity", Type: "string", Description: apiv1.PersistentVolumeClaimStatus{}.SwaggerDoc()["capacity"]}, {Name: "Access Modes", Type: "string", Description: apiv1.PersistentVolumeClaimStatus{}.SwaggerDoc()["accessModes"]}, {Name: "StorageClass", Type: "string", Description: "StorageClass of the pvc"}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "VolumeMode", Type: "string", Priority: 1, Description: apiv1.PersistentVolumeClaimSpec{}.SwaggerDoc()["volumeMode"]}, } h.TableHandler(persistentVolumeClaimColumnDefinitions, printPersistentVolumeClaim) h.TableHandler(persistentVolumeClaimColumnDefinitions, printPersistentVolumeClaimList) componentStatusColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Status", Type: "string", Description: "Status of the component conditions"}, {Name: "Message", Type: "string", Description: "Message of the component conditions"}, {Name: "Error", Type: "string", Description: "Error of the component conditions"}, } h.TableHandler(componentStatusColumnDefinitions, printComponentStatus) h.TableHandler(componentStatusColumnDefinitions, printComponentStatusList) deploymentColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Ready", Type: "string", Description: "Number of the pod with ready state"}, {Name: "Up-to-date", Type: "string", Description: extensionsv1beta1.DeploymentStatus{}.SwaggerDoc()["updatedReplicas"]}, {Name: "Available", Type: "string", Description: extensionsv1beta1.DeploymentStatus{}.SwaggerDoc()["availableReplicas"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Containers", Type: "string", Priority: 1, Description: "Names of each container in the template."}, {Name: "Images", Type: "string", Priority: 1, Description: "Images referenced by each container in the template."}, {Name: "Selector", Type: "string", Priority: 1, Description: extensionsv1beta1.DeploymentSpec{}.SwaggerDoc()["selector"]}, } h.TableHandler(deploymentColumnDefinitions, printDeployment) h.TableHandler(deploymentColumnDefinitions, printDeploymentList) horizontalPodAutoscalerColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Reference", Type: "string", Description: autoscalingv2beta1.HorizontalPodAutoscalerSpec{}.SwaggerDoc()["scaleTargetRef"]}, {Name: "Targets", Type: "string", Description: autoscalingv2beta1.HorizontalPodAutoscalerSpec{}.SwaggerDoc()["metrics"]}, {Name: "MinPods", Type: "string", Description: autoscalingv2beta1.HorizontalPodAutoscalerSpec{}.SwaggerDoc()["minReplicas"]}, {Name: "MaxPods", Type: "string", Description: autoscalingv2beta1.HorizontalPodAutoscalerSpec{}.SwaggerDoc()["maxReplicas"]}, {Name: "Replicas", Type: "string", Description: autoscalingv2beta1.HorizontalPodAutoscalerStatus{}.SwaggerDoc()["currentReplicas"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(horizontalPodAutoscalerColumnDefinitions, printHorizontalPodAutoscaler) h.TableHandler(horizontalPodAutoscalerColumnDefinitions, printHorizontalPodAutoscalerList) configMapColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Data", Type: "string", Description: apiv1.ConfigMap{}.SwaggerDoc()["data"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(configMapColumnDefinitions, printConfigMap) h.TableHandler(configMapColumnDefinitions, printConfigMapList) podSecurityPolicyColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Priv", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["privileged"]}, {Name: "Caps", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["allowedCapabilities"]}, {Name: "SELinux", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["seLinux"]}, {Name: "RunAsUser", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["runAsUser"]}, {Name: "FsGroup", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["fsGroup"]}, {Name: "SupGroup", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["supplementalGroups"]}, {Name: "ReadOnlyRootFs", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["readOnlyRootFilesystem"]}, {Name: "Volumes", Type: "string", Description: policyv1beta1.PodSecurityPolicySpec{}.SwaggerDoc()["volumes"]}, } h.TableHandler(podSecurityPolicyColumnDefinitions, printPodSecurityPolicy) h.TableHandler(podSecurityPolicyColumnDefinitions, printPodSecurityPolicyList) networkPolicyColumnDefinitioins := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Pod-Selector", Type: "string", Description: extensionsv1beta1.NetworkPolicySpec{}.SwaggerDoc()["podSelector"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(networkPolicyColumnDefinitioins, printNetworkPolicy) h.TableHandler(networkPolicyColumnDefinitioins, printNetworkPolicyList) roleBindingsColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Role", Type: "string", Priority: 1, Description: rbacv1beta1.RoleBinding{}.SwaggerDoc()["roleRef"]}, {Name: "Users", Type: "string", Priority: 1, Description: "Users in the roleBinding"}, {Name: "Groups", Type: "string", Priority: 1, Description: "Groups in the roleBinding"}, {Name: "ServiceAccounts", Type: "string", Priority: 1, Description: "ServiceAccounts in the roleBinding"}, } h.TableHandler(roleBindingsColumnDefinitions, printRoleBinding) h.TableHandler(roleBindingsColumnDefinitions, printRoleBindingList) clusterRoleBindingsColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Role", Type: "string", Priority: 1, Description: rbacv1beta1.ClusterRoleBinding{}.SwaggerDoc()["roleRef"]}, {Name: "Users", Type: "string", Priority: 1, Description: "Users in the clusterRoleBinding"}, {Name: "Groups", Type: "string", Priority: 1, Description: "Groups in the clusterRoleBinding"}, {Name: "ServiceAccounts", Type: "string", Priority: 1, Description: "ServiceAccounts in the clusterRoleBinding"}, } h.TableHandler(clusterRoleBindingsColumnDefinitions, printClusterRoleBinding) h.TableHandler(clusterRoleBindingsColumnDefinitions, printClusterRoleBindingList) certificateSigningRequestColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Requestor", Type: "string", Description: certificatesv1beta1.CertificateSigningRequestSpec{}.SwaggerDoc()["request"]}, {Name: "Condition", Type: "string", Description: certificatesv1beta1.CertificateSigningRequestStatus{}.SwaggerDoc()["conditions"]}, } h.TableHandler(certificateSigningRequestColumnDefinitions, printCertificateSigningRequest) h.TableHandler(certificateSigningRequestColumnDefinitions, printCertificateSigningRequestList) leaseColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Holder", Type: "string", Description: coordinationv1.LeaseSpec{}.SwaggerDoc()["holderIdentity"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(leaseColumnDefinitions, printLease) h.TableHandler(leaseColumnDefinitions, printLeaseList) storageClassColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Provisioner", Type: "string", Description: storagev1.StorageClass{}.SwaggerDoc()["provisioner"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(storageClassColumnDefinitions, printStorageClass) h.TableHandler(storageClassColumnDefinitions, printStorageClassList) statusColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Status", Type: "string", Description: metav1.Status{}.SwaggerDoc()["status"]}, {Name: "Reason", Type: "string", Description: metav1.Status{}.SwaggerDoc()["reason"]}, {Name: "Message", Type: "string", Description: metav1.Status{}.SwaggerDoc()["Message"]}, } h.TableHandler(statusColumnDefinitions, printStatus) controllerRevisionColumnDefinition := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Controller", Type: "string", Description: "Controller of the object"}, {Name: "Revision", Type: "string", Description: appsv1beta1.ControllerRevision{}.SwaggerDoc()["revision"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(controllerRevisionColumnDefinition, printControllerRevision) h.TableHandler(controllerRevisionColumnDefinition, printControllerRevisionList) resourceQuotaColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, {Name: "Request", Type: "string", Description: "Request represents a minimum amount of cpu/memory that a container may consume."}, {Name: "Limit", Type: "string", Description: "Limits control the maximum amount of cpu/memory that a container may use independent of contention on the node."}, } h.TableHandler(resourceQuotaColumnDefinitions, printResourceQuota) h.TableHandler(resourceQuotaColumnDefinitions, printResourceQuotaList) priorityClassColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Value", Type: "integer", Description: schedulingv1.PriorityClass{}.SwaggerDoc()["value"]}, {Name: "Global-Default", Type: "boolean", Description: schedulingv1.PriorityClass{}.SwaggerDoc()["globalDefault"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(priorityClassColumnDefinitions, printPriorityClass) h.TableHandler(priorityClassColumnDefinitions, printPriorityClassList) runtimeClassColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Handler", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["handler"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(runtimeClassColumnDefinitions, printRuntimeClass) h.TableHandler(runtimeClassColumnDefinitions, printRuntimeClassList) volumeAttachmentColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "Attacher", Type: "string", Format: "name", Description: storagev1.VolumeAttachmentSpec{}.SwaggerDoc()["attacher"]}, {Name: "PV", Type: "string", Description: storagev1.VolumeAttachmentSource{}.SwaggerDoc()["persistentVolumeName"]}, {Name: "Node", Type: "string", Description: storagev1.VolumeAttachmentSpec{}.SwaggerDoc()["nodeName"]}, {Name: "Attached", Type: "boolean", Description: storagev1.VolumeAttachmentStatus{}.SwaggerDoc()["attached"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(volumeAttachmentColumnDefinitions, printVolumeAttachment) h.TableHandler(volumeAttachmentColumnDefinitions, printVolumeAttachmentList) endpointSliceColumnDefinitions := []metav1beta1.TableColumnDefinition{ {Name: "Name", Type: "string", Format: "name", Description: metav1.ObjectMeta{}.SwaggerDoc()["name"]}, {Name: "AddressType", Type: "string", Description: discoveryv1alpha1.EndpointSlice{}.SwaggerDoc()["addressType"]}, {Name: "Ports", Type: "string", Description: discoveryv1alpha1.EndpointSlice{}.SwaggerDoc()["ports"]}, {Name: "Endpoints", Type: "string", Description: discoveryv1alpha1.EndpointSlice{}.SwaggerDoc()["endpoints"]}, {Name: "Age", Type: "string", Description: metav1.ObjectMeta{}.SwaggerDoc()["creationTimestamp"]}, } h.TableHandler(endpointSliceColumnDefinitions, printEndpointSlice) h.TableHandler(endpointSliceColumnDefinitions, printEndpointSliceList) } // Pass ports=nil for all ports. func formatEndpoints(endpoints *api.Endpoints, ports sets.String) string { if len(endpoints.Subsets) == 0 { return "" } list := []string{} max := 3 more := false count := 0 for i := range endpoints.Subsets { ss := &endpoints.Subsets[i] if len(ss.Ports) == 0 { // It's possible to have headless services with no ports. for i := range ss.Addresses { if len(list) == max { more = true } if !more { list = append(list, ss.Addresses[i].IP) } count++ } } else { // "Normal" services with ports defined. for i := range ss.Ports { port := &ss.Ports[i] if ports == nil || ports.Has(port.Name) { for i := range ss.Addresses { if len(list) == max { more = true } addr := &ss.Addresses[i] if !more { hostPort := net.JoinHostPort(addr.IP, strconv.Itoa(int(port.Port))) list = append(list, hostPort) } count++ } } } } } ret := strings.Join(list, ",") if more { return fmt.Sprintf("%s + %d more...", ret, count-max) } return ret } func formatDiscoveryPorts(ports []discovery.EndpointPort) string { list := []string{} max := 3 more := false count := 0 for _, port := range ports { if len(list) < max { portNum := "*" if port.Port != nil { portNum = strconv.Itoa(int(*port.Port)) } else if port.Name != nil { portNum = *port.Name } list = append(list, portNum) } else if len(list) == max { more = true } count++ } return listWithMoreString(list, more, count, max) } func formatDiscoveryEndpoints(endpoints []discovery.Endpoint) string { list := []string{} max := 3 more := false count := 0 for _, endpoint := range endpoints { for _, address := range endpoint.Addresses { if len(list) < max { list = append(list, address) } else if len(list) == max { more = true } count++ } } return listWithMoreString(list, more, count, max) } func listWithMoreString(list []string, more bool, count, max int) string { ret := strings.Join(list, ",") if more { return fmt.Sprintf("%s + %d more...", ret, count-max) } if ret == "" { ret = "" } return ret } // translateTimestampSince returns the elapsed time since timestamp in // human-readable approximation. func translateTimestampSince(timestamp metav1.Time) string { if timestamp.IsZero() { return "" } return duration.HumanDuration(time.Since(timestamp.Time)) } // translateTimestampUntil returns the elapsed time until timestamp in // human-readable approximation. func translateTimestampUntil(timestamp metav1.Time) string { if timestamp.IsZero() { return "" } return duration.HumanDuration(time.Until(timestamp.Time)) } var ( podSuccessConditions = []metav1.TableRowCondition{{Type: metav1.RowCompleted, Status: metav1.ConditionTrue, Reason: string(api.PodSucceeded), Message: "The pod has completed successfully."}} podFailedConditions = []metav1.TableRowCondition{{Type: metav1.RowCompleted, Status: metav1.ConditionTrue, Reason: string(api.PodFailed), Message: "The pod failed."}} ) func printPodList(podList *api.PodList, options printers.GenerateOptions) ([]metav1.TableRow, error) { rows := make([]metav1.TableRow, 0, len(podList.Items)) for i := range podList.Items { r, err := printPod(&podList.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPod(pod *api.Pod, options printers.GenerateOptions) ([]metav1.TableRow, error) { restarts := 0 totalContainers := len(pod.Spec.Containers) readyContainers := 0 reason := string(pod.Status.Phase) if pod.Status.Reason != "" { reason = pod.Status.Reason } row := metav1.TableRow{ Object: runtime.RawExtension{Object: pod}, } switch pod.Status.Phase { case api.PodSucceeded: row.Conditions = podSuccessConditions case api.PodFailed: row.Conditions = podFailedConditions } initializing := false for i := range pod.Status.InitContainerStatuses { container := pod.Status.InitContainerStatuses[i] restarts += int(container.RestartCount) switch { case container.State.Terminated != nil && container.State.Terminated.ExitCode == 0: continue case container.State.Terminated != nil: // initialization is failed if len(container.State.Terminated.Reason) == 0 { if container.State.Terminated.Signal != 0 { reason = fmt.Sprintf("Init:Signal:%d", container.State.Terminated.Signal) } else { reason = fmt.Sprintf("Init:ExitCode:%d", container.State.Terminated.ExitCode) } } else { reason = "Init:" + container.State.Terminated.Reason } initializing = true case container.State.Waiting != nil && len(container.State.Waiting.Reason) > 0 && container.State.Waiting.Reason != "PodInitializing": reason = "Init:" + container.State.Waiting.Reason initializing = true default: reason = fmt.Sprintf("Init:%d/%d", i, len(pod.Spec.InitContainers)) initializing = true } break } if !initializing { restarts = 0 hasRunning := false for i := len(pod.Status.ContainerStatuses) - 1; i >= 0; i-- { container := pod.Status.ContainerStatuses[i] restarts += int(container.RestartCount) if container.State.Waiting != nil && container.State.Waiting.Reason != "" { reason = container.State.Waiting.Reason } else if container.State.Terminated != nil && container.State.Terminated.Reason != "" { reason = container.State.Terminated.Reason } else if container.State.Terminated != nil && container.State.Terminated.Reason == "" { if container.State.Terminated.Signal != 0 { reason = fmt.Sprintf("Signal:%d", container.State.Terminated.Signal) } else { reason = fmt.Sprintf("ExitCode:%d", container.State.Terminated.ExitCode) } } else if container.Ready && container.State.Running != nil { hasRunning = true readyContainers++ } } // change pod status back to "Running" if there is at least one container still reporting as "Running" status if reason == "Completed" && hasRunning { reason = "Running" } } if pod.DeletionTimestamp != nil && pod.Status.Reason == node.NodeUnreachablePodReason { reason = "Unknown" } else if pod.DeletionTimestamp != nil { reason = "Terminating" } row.Cells = append(row.Cells, pod.Name, fmt.Sprintf("%d/%d", readyContainers, totalContainers), reason, int64(restarts), translateTimestampSince(pod.CreationTimestamp)) if options.Wide { nodeName := pod.Spec.NodeName nominatedNodeName := pod.Status.NominatedNodeName podIP := "" if len(pod.Status.PodIPs) > 0 { podIP = pod.Status.PodIPs[0].IP } if podIP == "" { podIP = "" } if nodeName == "" { nodeName = "" } if nominatedNodeName == "" { nominatedNodeName = "" } readinessGates := "" if len(pod.Spec.ReadinessGates) > 0 { trueConditions := 0 for _, readinessGate := range pod.Spec.ReadinessGates { conditionType := readinessGate.ConditionType for _, condition := range pod.Status.Conditions { if condition.Type == conditionType { if condition.Status == api.ConditionTrue { trueConditions++ } break } } } readinessGates = fmt.Sprintf("%d/%d", trueConditions, len(pod.Spec.ReadinessGates)) } row.Cells = append(row.Cells, podIP, nodeName, nominatedNodeName, readinessGates) } return []metav1beta1.TableRow{row}, nil } func printPodTemplate(obj *api.PodTemplate, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } names, images := layoutContainerCells(obj.Template.Spec.Containers) row.Cells = append(row.Cells, obj.Name, names, images, labels.FormatLabels(obj.Template.Labels)) return []metav1beta1.TableRow{row}, nil } func printPodTemplateList(list *api.PodTemplateList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPodTemplate(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPodDisruptionBudget(obj *policy.PodDisruptionBudget, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } var minAvailable string var maxUnavailable string if obj.Spec.MinAvailable != nil { minAvailable = obj.Spec.MinAvailable.String() } else { minAvailable = "N/A" } if obj.Spec.MaxUnavailable != nil { maxUnavailable = obj.Spec.MaxUnavailable.String() } else { maxUnavailable = "N/A" } row.Cells = append(row.Cells, obj.Name, minAvailable, maxUnavailable, int64(obj.Status.PodDisruptionsAllowed), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printPodDisruptionBudgetList(list *policy.PodDisruptionBudgetList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPodDisruptionBudget(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } // TODO(AdoHe): try to put wide output in a single method func printReplicationController(obj *api.ReplicationController, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } desiredReplicas := obj.Spec.Replicas currentReplicas := obj.Status.Replicas readyReplicas := obj.Status.ReadyReplicas row.Cells = append(row.Cells, obj.Name, int64(desiredReplicas), int64(currentReplicas), int64(readyReplicas), translateTimestampSince(obj.CreationTimestamp)) if options.Wide { names, images := layoutContainerCells(obj.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images, labels.FormatLabels(obj.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printReplicationControllerList(list *api.ReplicationControllerList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printReplicationController(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printReplicaSet(obj *apps.ReplicaSet, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } desiredReplicas := obj.Spec.Replicas currentReplicas := obj.Status.Replicas readyReplicas := obj.Status.ReadyReplicas row.Cells = append(row.Cells, obj.Name, int64(desiredReplicas), int64(currentReplicas), int64(readyReplicas), translateTimestampSince(obj.CreationTimestamp)) if options.Wide { names, images := layoutContainerCells(obj.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images, metav1.FormatLabelSelector(obj.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printReplicaSetList(list *apps.ReplicaSetList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printReplicaSet(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printJob(obj *batch.Job, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } var completions string if obj.Spec.Completions != nil { completions = fmt.Sprintf("%d/%d", obj.Status.Succeeded, *obj.Spec.Completions) } else { parallelism := int32(0) if obj.Spec.Parallelism != nil { parallelism = *obj.Spec.Parallelism } if parallelism > 1 { completions = fmt.Sprintf("%d/1 of %d", obj.Status.Succeeded, parallelism) } else { completions = fmt.Sprintf("%d/1", obj.Status.Succeeded) } } var jobDuration string switch { case obj.Status.StartTime == nil: case obj.Status.CompletionTime == nil: jobDuration = duration.HumanDuration(time.Since(obj.Status.StartTime.Time)) default: jobDuration = duration.HumanDuration(obj.Status.CompletionTime.Sub(obj.Status.StartTime.Time)) } row.Cells = append(row.Cells, obj.Name, completions, jobDuration, translateTimestampSince(obj.CreationTimestamp)) if options.Wide { names, images := layoutContainerCells(obj.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images, metav1.FormatLabelSelector(obj.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printJobList(list *batch.JobList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printJob(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printCronJob(obj *batch.CronJob, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } lastScheduleTime := "" if obj.Status.LastScheduleTime != nil { lastScheduleTime = translateTimestampSince(*obj.Status.LastScheduleTime) } row.Cells = append(row.Cells, obj.Name, obj.Spec.Schedule, printBoolPtr(obj.Spec.Suspend), int64(len(obj.Status.Active)), lastScheduleTime, translateTimestampSince(obj.CreationTimestamp)) if options.Wide { names, images := layoutContainerCells(obj.Spec.JobTemplate.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images, metav1.FormatLabelSelector(obj.Spec.JobTemplate.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printCronJobList(list *batch.CronJobList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printCronJob(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } // loadBalancerStatusStringer behaves mostly like a string interface and converts the given status to a string. // `wide` indicates whether the returned value is meant for --o=wide output. If not, it's clipped to 16 bytes. func loadBalancerStatusStringer(s api.LoadBalancerStatus, wide bool) string { ingress := s.Ingress result := sets.NewString() for i := range ingress { if ingress[i].IP != "" { result.Insert(ingress[i].IP) } else if ingress[i].Hostname != "" { result.Insert(ingress[i].Hostname) } } r := strings.Join(result.List(), ",") if !wide && len(r) > loadBalancerWidth { r = r[0:(loadBalancerWidth-3)] + "..." } return r } func getServiceExternalIP(svc *api.Service, wide bool) string { switch svc.Spec.Type { case api.ServiceTypeClusterIP: if len(svc.Spec.ExternalIPs) > 0 { return strings.Join(svc.Spec.ExternalIPs, ",") } return "" case api.ServiceTypeNodePort: if len(svc.Spec.ExternalIPs) > 0 { return strings.Join(svc.Spec.ExternalIPs, ",") } return "" case api.ServiceTypeLoadBalancer: lbIps := loadBalancerStatusStringer(svc.Status.LoadBalancer, wide) if len(svc.Spec.ExternalIPs) > 0 { results := []string{} if len(lbIps) > 0 { results = append(results, strings.Split(lbIps, ",")...) } results = append(results, svc.Spec.ExternalIPs...) return strings.Join(results, ",") } if len(lbIps) > 0 { return lbIps } return "" case api.ServiceTypeExternalName: return svc.Spec.ExternalName } return "" } func makePortString(ports []api.ServicePort) string { pieces := make([]string, len(ports)) for ix := range ports { port := &ports[ix] pieces[ix] = fmt.Sprintf("%d/%s", port.Port, port.Protocol) if port.NodePort > 0 { pieces[ix] = fmt.Sprintf("%d:%d/%s", port.Port, port.NodePort, port.Protocol) } } return strings.Join(pieces, ",") } func printService(obj *api.Service, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } svcType := obj.Spec.Type internalIP := obj.Spec.ClusterIP if len(internalIP) == 0 { internalIP = "" } externalIP := getServiceExternalIP(obj, options.Wide) svcPorts := makePortString(obj.Spec.Ports) if len(svcPorts) == 0 { svcPorts = "" } row.Cells = append(row.Cells, obj.Name, string(svcType), internalIP, externalIP, svcPorts, translateTimestampSince(obj.CreationTimestamp)) if options.Wide { row.Cells = append(row.Cells, labels.FormatLabels(obj.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printServiceList(list *api.ServiceList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printService(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func formatHosts(rules []networking.IngressRule) string { list := []string{} max := 3 more := false for _, rule := range rules { if len(list) == max { more = true } if !more && len(rule.Host) != 0 { list = append(list, rule.Host) } } if len(list) == 0 { return "*" } ret := strings.Join(list, ",") if more { return fmt.Sprintf("%s + %d more...", ret, len(rules)-max) } return ret } func formatPorts(tls []networking.IngressTLS) string { if len(tls) != 0 { return "80, 443" } return "80" } func printIngress(obj *networking.Ingress, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } hosts := formatHosts(obj.Spec.Rules) address := loadBalancerStatusStringer(obj.Status.LoadBalancer, options.Wide) ports := formatPorts(obj.Spec.TLS) createTime := translateTimestampSince(obj.CreationTimestamp) row.Cells = append(row.Cells, obj.Name, hosts, address, ports, createTime) return []metav1beta1.TableRow{row}, nil } func printIngressList(list *networking.IngressList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printIngress(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printStatefulSet(obj *apps.StatefulSet, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } desiredReplicas := obj.Spec.Replicas readyReplicas := obj.Status.ReadyReplicas createTime := translateTimestampSince(obj.CreationTimestamp) row.Cells = append(row.Cells, obj.Name, fmt.Sprintf("%d/%d", int64(readyReplicas), int64(desiredReplicas)), createTime) if options.Wide { names, images := layoutContainerCells(obj.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images) } return []metav1beta1.TableRow{row}, nil } func printStatefulSetList(list *apps.StatefulSetList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printStatefulSet(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printDaemonSet(obj *apps.DaemonSet, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } desiredScheduled := obj.Status.DesiredNumberScheduled currentScheduled := obj.Status.CurrentNumberScheduled numberReady := obj.Status.NumberReady numberUpdated := obj.Status.UpdatedNumberScheduled numberAvailable := obj.Status.NumberAvailable row.Cells = append(row.Cells, obj.Name, int64(desiredScheduled), int64(currentScheduled), int64(numberReady), int64(numberUpdated), int64(numberAvailable), labels.FormatLabels(obj.Spec.Template.Spec.NodeSelector), translateTimestampSince(obj.CreationTimestamp)) if options.Wide { names, images := layoutContainerCells(obj.Spec.Template.Spec.Containers) row.Cells = append(row.Cells, names, images, metav1.FormatLabelSelector(obj.Spec.Selector)) } return []metav1beta1.TableRow{row}, nil } func printDaemonSetList(list *apps.DaemonSetList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printDaemonSet(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printEndpoints(obj *api.Endpoints, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, formatEndpoints(obj, nil), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printEndpointsList(list *api.EndpointsList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printEndpoints(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printEndpointSlice(obj *discovery.EndpointSlice, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } addressType := "" if obj.AddressType != nil { addressType = string(*obj.AddressType) } row.Cells = append(row.Cells, obj.Name, addressType, formatDiscoveryPorts(obj.Ports), formatDiscoveryEndpoints(obj.Endpoints), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printEndpointSliceList(list *discovery.EndpointSliceList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printEndpointSlice(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printNamespace(obj *api.Namespace, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, string(obj.Status.Phase), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printNamespaceList(list *api.NamespaceList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printNamespace(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printSecret(obj *api.Secret, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, string(obj.Type), int64(len(obj.Data)), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printSecretList(list *api.SecretList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printSecret(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printServiceAccount(obj *api.ServiceAccount, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, int64(len(obj.Secrets)), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printServiceAccountList(list *api.ServiceAccountList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printServiceAccount(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printNode(obj *api.Node, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } conditionMap := make(map[api.NodeConditionType]*api.NodeCondition) NodeAllConditions := []api.NodeConditionType{api.NodeReady} for i := range obj.Status.Conditions { cond := obj.Status.Conditions[i] conditionMap[cond.Type] = &cond } var status []string for _, validCondition := range NodeAllConditions { if condition, ok := conditionMap[validCondition]; ok { if condition.Status == api.ConditionTrue { status = append(status, string(condition.Type)) } else { status = append(status, "Not"+string(condition.Type)) } } } if len(status) == 0 { status = append(status, "Unknown") } if obj.Spec.Unschedulable { status = append(status, "SchedulingDisabled") } roles := strings.Join(findNodeRoles(obj), ",") if len(roles) == 0 { roles = "" } row.Cells = append(row.Cells, obj.Name, strings.Join(status, ","), roles, translateTimestampSince(obj.CreationTimestamp), obj.Status.NodeInfo.KubeletVersion) if options.Wide { osImage, kernelVersion, crVersion := obj.Status.NodeInfo.OSImage, obj.Status.NodeInfo.KernelVersion, obj.Status.NodeInfo.ContainerRuntimeVersion if osImage == "" { osImage = "" } if kernelVersion == "" { kernelVersion = "" } if crVersion == "" { crVersion = "" } row.Cells = append(row.Cells, getNodeInternalIP(obj), getNodeExternalIP(obj), osImage, kernelVersion, crVersion) } return []metav1beta1.TableRow{row}, nil } // Returns first external ip of the node or "" if none is found. func getNodeExternalIP(node *api.Node) string { for _, address := range node.Status.Addresses { if address.Type == api.NodeExternalIP { return address.Address } } return "" } // Returns the internal IP of the node or "" if none is found. func getNodeInternalIP(node *api.Node) string { for _, address := range node.Status.Addresses { if address.Type == api.NodeInternalIP { return address.Address } } return "" } // findNodeRoles returns the roles of a given node. // The roles are determined by looking for: // * a node-role.kubernetes.io/="" label // * a kubernetes.io/role="" label func findNodeRoles(node *api.Node) []string { roles := sets.NewString() for k, v := range node.Labels { switch { case strings.HasPrefix(k, labelNodeRolePrefix): if role := strings.TrimPrefix(k, labelNodeRolePrefix); len(role) > 0 { roles.Insert(role) } case k == nodeLabelRole && v != "": roles.Insert(v) } } return roles.List() } func printNodeList(list *api.NodeList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printNode(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPersistentVolume(obj *api.PersistentVolume, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } claimRefUID := "" if obj.Spec.ClaimRef != nil { claimRefUID += obj.Spec.ClaimRef.Namespace claimRefUID += "/" claimRefUID += obj.Spec.ClaimRef.Name } modesStr := helper.GetAccessModesAsString(obj.Spec.AccessModes) reclaimPolicyStr := string(obj.Spec.PersistentVolumeReclaimPolicy) aQty := obj.Spec.Capacity[api.ResourceStorage] aSize := aQty.String() phase := obj.Status.Phase if obj.ObjectMeta.DeletionTimestamp != nil { phase = "Terminating" } volumeMode := "" if obj.Spec.VolumeMode != nil { volumeMode = string(*obj.Spec.VolumeMode) } row.Cells = append(row.Cells, obj.Name, aSize, modesStr, reclaimPolicyStr, string(phase), claimRefUID, helper.GetPersistentVolumeClass(obj), obj.Status.Reason, translateTimestampSince(obj.CreationTimestamp), volumeMode) return []metav1beta1.TableRow{row}, nil } func printPersistentVolumeList(list *api.PersistentVolumeList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPersistentVolume(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPersistentVolumeClaim(obj *api.PersistentVolumeClaim, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } phase := obj.Status.Phase if obj.ObjectMeta.DeletionTimestamp != nil { phase = "Terminating" } storage := obj.Spec.Resources.Requests[api.ResourceStorage] capacity := "" accessModes := "" volumeMode := "" if obj.Spec.VolumeName != "" { accessModes = helper.GetAccessModesAsString(obj.Status.AccessModes) storage = obj.Status.Capacity[api.ResourceStorage] capacity = storage.String() } if obj.Spec.VolumeMode != nil { volumeMode = string(*obj.Spec.VolumeMode) } row.Cells = append(row.Cells, obj.Name, string(phase), obj.Spec.VolumeName, capacity, accessModes, helper.GetPersistentVolumeClaimClass(obj), translateTimestampSince(obj.CreationTimestamp), volumeMode) return []metav1beta1.TableRow{row}, nil } func printPersistentVolumeClaimList(list *api.PersistentVolumeClaimList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPersistentVolumeClaim(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printEvent(obj *api.Event, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } firstTimestamp := translateTimestampSince(obj.FirstTimestamp) lastTimestamp := translateTimestampSince(obj.LastTimestamp) var target string if len(obj.InvolvedObject.Name) > 0 { target = fmt.Sprintf("%s/%s", strings.ToLower(obj.InvolvedObject.Kind), obj.InvolvedObject.Name) } else { target = strings.ToLower(obj.InvolvedObject.Kind) } if options.Wide { row.Cells = append(row.Cells, lastTimestamp, obj.Type, obj.Reason, target, obj.InvolvedObject.FieldPath, formatEventSource(obj.Source), strings.TrimSpace(obj.Message), firstTimestamp, int64(obj.Count), obj.Name, ) } else { row.Cells = append(row.Cells, lastTimestamp, obj.Type, obj.Reason, target, strings.TrimSpace(obj.Message), ) } return []metav1beta1.TableRow{row}, nil } // Sorts and prints the EventList in a human-friendly format. func printEventList(list *api.EventList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printEvent(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printRoleBinding(obj *rbac.RoleBinding, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, translateTimestampSince(obj.CreationTimestamp)) if options.Wide { roleRef := fmt.Sprintf("%s/%s", obj.RoleRef.Kind, obj.RoleRef.Name) users, groups, sas, _ := rbac.SubjectsStrings(obj.Subjects) row.Cells = append(row.Cells, roleRef, strings.Join(users, ", "), strings.Join(groups, ", "), strings.Join(sas, ", ")) } return []metav1beta1.TableRow{row}, nil } // Prints the RoleBinding in a human-friendly format. func printRoleBindingList(list *rbac.RoleBindingList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printRoleBinding(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printClusterRoleBinding(obj *rbac.ClusterRoleBinding, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, translateTimestampSince(obj.CreationTimestamp)) if options.Wide { roleRef := fmt.Sprintf("%s/%s", obj.RoleRef.Kind, obj.RoleRef.Name) users, groups, sas, _ := rbac.SubjectsStrings(obj.Subjects) row.Cells = append(row.Cells, roleRef, strings.Join(users, ", "), strings.Join(groups, ", "), strings.Join(sas, ", ")) } return []metav1beta1.TableRow{row}, nil } // Prints the ClusterRoleBinding in a human-friendly format. func printClusterRoleBindingList(list *rbac.ClusterRoleBindingList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printClusterRoleBinding(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printCertificateSigningRequest(obj *certificates.CertificateSigningRequest, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } status, err := extractCSRStatus(obj) if err != nil { return nil, err } row.Cells = append(row.Cells, obj.Name, translateTimestampSince(obj.CreationTimestamp), obj.Spec.Username, status) return []metav1beta1.TableRow{row}, nil } func extractCSRStatus(csr *certificates.CertificateSigningRequest) (string, error) { var approved, denied bool for _, c := range csr.Status.Conditions { switch c.Type { case certificates.CertificateApproved: approved = true case certificates.CertificateDenied: denied = true default: return "", fmt.Errorf("unknown csr condition %q", c) } } var status string // must be in order of presidence if denied { status += "Denied" } else if approved { status += "Approved" } else { status += "Pending" } if len(csr.Status.Certificate) > 0 { status += ",Issued" } return status, nil } func printCertificateSigningRequestList(list *certificates.CertificateSigningRequestList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printCertificateSigningRequest(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printComponentStatus(obj *api.ComponentStatus, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } status := "Unknown" message := "" error := "" for _, condition := range obj.Conditions { if condition.Type == api.ComponentHealthy { if condition.Status == api.ConditionTrue { status = "Healthy" } else { status = "Unhealthy" } message = condition.Message error = condition.Error break } } row.Cells = append(row.Cells, obj.Name, status, message, error) return []metav1beta1.TableRow{row}, nil } func printComponentStatusList(list *api.ComponentStatusList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printComponentStatus(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printDeployment(obj *apps.Deployment, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } desiredReplicas := obj.Spec.Replicas updatedReplicas := obj.Status.UpdatedReplicas readyReplicas := obj.Status.ReadyReplicas availableReplicas := obj.Status.AvailableReplicas age := translateTimestampSince(obj.CreationTimestamp) containers := obj.Spec.Template.Spec.Containers selector, err := metav1.LabelSelectorAsSelector(obj.Spec.Selector) if err != nil { // this shouldn't happen if LabelSelector passed validation return nil, err } row.Cells = append(row.Cells, obj.Name, fmt.Sprintf("%d/%d", int64(readyReplicas), int64(desiredReplicas)), int64(updatedReplicas), int64(availableReplicas), age) if options.Wide { containers, images := layoutContainerCells(containers) row.Cells = append(row.Cells, containers, images, selector.String()) } return []metav1beta1.TableRow{row}, nil } func printDeploymentList(list *apps.DeploymentList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printDeployment(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func formatHPAMetrics(specs []autoscaling.MetricSpec, statuses []autoscaling.MetricStatus) string { if len(specs) == 0 { return "" } list := []string{} max := 2 more := false count := 0 for i, spec := range specs { switch spec.Type { case autoscaling.ExternalMetricSourceType: if spec.External.Target.AverageValue != nil { current := "" if len(statuses) > i && statuses[i].External != nil && statuses[i].External.Current.AverageValue != nil { current = statuses[i].External.Current.AverageValue.String() } list = append(list, fmt.Sprintf("%s/%s (avg)", current, spec.External.Target.AverageValue.String())) } else { current := "" if len(statuses) > i && statuses[i].External != nil { current = statuses[i].External.Current.Value.String() } list = append(list, fmt.Sprintf("%s/%s", current, spec.External.Target.Value.String())) } case autoscaling.PodsMetricSourceType: current := "" if len(statuses) > i && statuses[i].Pods != nil { current = statuses[i].Pods.Current.AverageValue.String() } list = append(list, fmt.Sprintf("%s/%s", current, spec.Pods.Target.AverageValue.String())) case autoscaling.ObjectMetricSourceType: current := "" if len(statuses) > i && statuses[i].Object != nil { current = statuses[i].Object.Current.Value.String() } list = append(list, fmt.Sprintf("%s/%s", current, spec.Object.Target.Value.String())) case autoscaling.ResourceMetricSourceType: if spec.Resource.Target.AverageValue != nil { current := "" if len(statuses) > i && statuses[i].Resource != nil { current = statuses[i].Resource.Current.AverageValue.String() } list = append(list, fmt.Sprintf("%s/%s", current, spec.Resource.Target.AverageValue.String())) } else { current := "" if len(statuses) > i && statuses[i].Resource != nil && statuses[i].Resource.Current.AverageUtilization != nil { current = fmt.Sprintf("%d%%", *statuses[i].Resource.Current.AverageUtilization) } target := "" if spec.Resource.Target.AverageUtilization != nil { target = fmt.Sprintf("%d%%", *spec.Resource.Target.AverageUtilization) } list = append(list, fmt.Sprintf("%s/%s", current, target)) } default: list = append(list, "") } count++ } if count > max { list = list[:max] more = true } ret := strings.Join(list, ", ") if more { return fmt.Sprintf("%s + %d more...", ret, count-max) } return ret } func printHorizontalPodAutoscaler(obj *autoscaling.HorizontalPodAutoscaler, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } reference := fmt.Sprintf("%s/%s", obj.Spec.ScaleTargetRef.Kind, obj.Spec.ScaleTargetRef.Name) minPods := "" metrics := formatHPAMetrics(obj.Spec.Metrics, obj.Status.CurrentMetrics) if obj.Spec.MinReplicas != nil { minPods = fmt.Sprintf("%d", *obj.Spec.MinReplicas) } maxPods := obj.Spec.MaxReplicas currentReplicas := obj.Status.CurrentReplicas row.Cells = append(row.Cells, obj.Name, reference, metrics, minPods, int64(maxPods), int64(currentReplicas), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printHorizontalPodAutoscalerList(list *autoscaling.HorizontalPodAutoscalerList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printHorizontalPodAutoscaler(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printConfigMap(obj *api.ConfigMap, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, int64(len(obj.Data)+len(obj.BinaryData)), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printConfigMapList(list *api.ConfigMapList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printConfigMap(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPodSecurityPolicy(obj *policy.PodSecurityPolicy, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } capabilities := make([]string, len(obj.Spec.AllowedCapabilities)) for i, c := range obj.Spec.AllowedCapabilities { capabilities[i] = string(c) } volumes := make([]string, len(obj.Spec.Volumes)) for i, v := range obj.Spec.Volumes { volumes[i] = string(v) } row.Cells = append(row.Cells, obj.Name, fmt.Sprintf("%v", obj.Spec.Privileged), strings.Join(capabilities, ","), string(obj.Spec.SELinux.Rule), string(obj.Spec.RunAsUser.Rule), string(obj.Spec.FSGroup.Rule), string(obj.Spec.SupplementalGroups.Rule), obj.Spec.ReadOnlyRootFilesystem, strings.Join(volumes, ",")) return []metav1beta1.TableRow{row}, nil } func printPodSecurityPolicyList(list *policy.PodSecurityPolicyList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPodSecurityPolicy(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printNetworkPolicy(obj *networking.NetworkPolicy, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Name, metav1.FormatLabelSelector(&obj.Spec.PodSelector), translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printNetworkPolicyList(list *networking.NetworkPolicyList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printNetworkPolicy(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printStorageClass(obj *storage.StorageClass, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } name := obj.Name if storageutil.IsDefaultAnnotation(obj.ObjectMeta) { name += " (default)" } provtype := obj.Provisioner row.Cells = append(row.Cells, name, provtype, translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printStorageClassList(list *storage.StorageClassList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printStorageClass(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printLease(obj *coordination.Lease, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } var holderIdentity string if obj.Spec.HolderIdentity != nil { holderIdentity = *obj.Spec.HolderIdentity } row.Cells = append(row.Cells, obj.Name, holderIdentity, translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printLeaseList(list *coordination.LeaseList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printLease(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printStatus(obj *metav1.Status, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } row.Cells = append(row.Cells, obj.Status, obj.Reason, obj.Message) return []metav1beta1.TableRow{row}, nil } // Lay out all the containers on one line if use wide output. func layoutContainerCells(containers []api.Container) (names string, images string) { var namesBuffer bytes.Buffer var imagesBuffer bytes.Buffer for i, container := range containers { namesBuffer.WriteString(container.Name) imagesBuffer.WriteString(container.Image) if i != len(containers)-1 { namesBuffer.WriteString(",") imagesBuffer.WriteString(",") } } return namesBuffer.String(), imagesBuffer.String() } // formatEventSource formats EventSource as a comma separated string excluding Host when empty func formatEventSource(es api.EventSource) string { EventSourceString := []string{es.Component} if len(es.Host) > 0 { EventSourceString = append(EventSourceString, es.Host) } return strings.Join(EventSourceString, ", ") } func printControllerRevision(obj *apps.ControllerRevision, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } controllerRef := metav1.GetControllerOf(obj) controllerName := "" if controllerRef != nil { withKind := true gv, err := schema.ParseGroupVersion(controllerRef.APIVersion) if err != nil { return nil, err } gvk := gv.WithKind(controllerRef.Kind) controllerName = formatResourceName(gvk.GroupKind(), controllerRef.Name, withKind) } revision := obj.Revision age := translateTimestampSince(obj.CreationTimestamp) row.Cells = append(row.Cells, obj.Name, controllerName, revision, age) return []metav1beta1.TableRow{row}, nil } func printControllerRevisionList(list *apps.ControllerRevisionList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printControllerRevision(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } // formatResourceName receives a resource kind, name, and boolean specifying // whether or not to update the current name to "kind/name" func formatResourceName(kind schema.GroupKind, name string, withKind bool) string { if !withKind || kind.Empty() { return name } return strings.ToLower(kind.String()) + "/" + name } func printResourceQuota(resourceQuota *api.ResourceQuota, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: resourceQuota}, } resources := make([]api.ResourceName, 0, len(resourceQuota.Status.Hard)) for resource := range resourceQuota.Status.Hard { resources = append(resources, resource) } sort.Sort(SortableResourceNames(resources)) requestColumn := bytes.NewBuffer([]byte{}) limitColumn := bytes.NewBuffer([]byte{}) for i := range resources { w := requestColumn resource := resources[i] usedQuantity := resourceQuota.Status.Used[resource] hardQuantity := resourceQuota.Status.Hard[resource] // use limitColumn writer if a resource name prefixed with "limits" is found if pieces := strings.Split(resource.String(), "."); len(pieces) > 1 && pieces[0] == "limits" { w = limitColumn } fmt.Fprintf(w, "%s: %s/%s, ", resource, usedQuantity.String(), hardQuantity.String()) } age := translateTimestampSince(resourceQuota.CreationTimestamp) row.Cells = append(row.Cells, resourceQuota.Name, age, strings.TrimSuffix(requestColumn.String(), ", "), strings.TrimSuffix(limitColumn.String(), ", ")) return []metav1beta1.TableRow{row}, nil } func printResourceQuotaList(list *api.ResourceQuotaList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printResourceQuota(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printPriorityClass(obj *scheduling.PriorityClass, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } name := obj.Name value := obj.Value globalDefault := obj.GlobalDefault row.Cells = append(row.Cells, name, int64(value), globalDefault, translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printPriorityClassList(list *scheduling.PriorityClassList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printPriorityClass(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printRuntimeClass(obj *nodeapi.RuntimeClass, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } name := obj.Name handler := obj.Handler row.Cells = append(row.Cells, name, handler, translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printRuntimeClassList(list *nodeapi.RuntimeClassList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printRuntimeClass(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printVolumeAttachment(obj *storage.VolumeAttachment, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { row := metav1beta1.TableRow{ Object: runtime.RawExtension{Object: obj}, } name := obj.Name pvName := "" if obj.Spec.Source.PersistentVolumeName != nil { pvName = *obj.Spec.Source.PersistentVolumeName } row.Cells = append(row.Cells, name, obj.Spec.Attacher, pvName, obj.Spec.NodeName, obj.Status.Attached, translateTimestampSince(obj.CreationTimestamp)) return []metav1beta1.TableRow{row}, nil } func printVolumeAttachmentList(list *storage.VolumeAttachmentList, options printers.GenerateOptions) ([]metav1beta1.TableRow, error) { rows := make([]metav1beta1.TableRow, 0, len(list.Items)) for i := range list.Items { r, err := printVolumeAttachment(&list.Items[i], options) if err != nil { return nil, err } rows = append(rows, r...) } return rows, nil } func printBoolPtr(value *bool) string { if value != nil { return printBool(*value) } return "" } func printBool(value bool) string { if value { return "True" } return "False" } // SortableResourceNames - An array of sortable resource names type SortableResourceNames []api.ResourceName func (list SortableResourceNames) Len() int { return len(list) } func (list SortableResourceNames) Swap(i, j int) { list[i], list[j] = list[j], list[i] } func (list SortableResourceNames) Less(i, j int) bool { return list[i] < list[j] }