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8ea659f0d5
ceph-csi/vendor/k8s.io/kubernetes/pkg/printers/internalversion/describe.go
gman 8ea659f0d5 vendor update for CSI 0.3.0
2018-07-31 14:53:26 +02:00

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/*
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 internalversion
import (
"bytes"
"crypto/x509"
"fmt"
"io"
"net"
"net/url"
"reflect"
"sort"
"strconv"
"strings"
"text/tabwriter"
"time"
"github.com/golang/glog"
"github.com/fatih/camelcase"
appsv1 "k8s.io/api/apps/v1"
rbacv1 "k8s.io/api/rbac/v1"
"k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/api/meta"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/fields"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/intstr"
"k8s.io/apimachinery/pkg/util/sets"
"k8s.io/client-go/dynamic"
externalclient "k8s.io/client-go/kubernetes"
"k8s.io/client-go/rest"
"k8s.io/kubernetes/pkg/api/events"
"k8s.io/kubernetes/pkg/api/legacyscheme"
"k8s.io/kubernetes/pkg/api/ref"
resourcehelper "k8s.io/kubernetes/pkg/api/resource"
"k8s.io/kubernetes/pkg/apis/apps"
"k8s.io/kubernetes/pkg/apis/autoscaling"
"k8s.io/kubernetes/pkg/apis/batch"
"k8s.io/kubernetes/pkg/apis/certificates"
api "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/core/helper"
"k8s.io/kubernetes/pkg/apis/core/helper/qos"
"k8s.io/kubernetes/pkg/apis/extensions"
"k8s.io/kubernetes/pkg/apis/networking"
"k8s.io/kubernetes/pkg/apis/policy"
"k8s.io/kubernetes/pkg/apis/rbac"
rbacv1helpers "k8s.io/kubernetes/pkg/apis/rbac/v1"
"k8s.io/kubernetes/pkg/apis/scheduling"
"k8s.io/kubernetes/pkg/apis/storage"
storageutil "k8s.io/kubernetes/pkg/apis/storage/util"
clientset "k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset"
coreclient "k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset/typed/core/internalversion"
deploymentutil "k8s.io/kubernetes/pkg/controller/deployment/util"
"k8s.io/kubernetes/pkg/fieldpath"
"k8s.io/kubernetes/pkg/printers"
"k8s.io/kubernetes/pkg/registry/rbac/validation"
"k8s.io/kubernetes/pkg/util/slice"
)
// Each level has 2 spaces for PrefixWriter
const (
LEVEL_0 = iota
LEVEL_1
LEVEL_2
LEVEL_3
)
// PrefixWriter can write text at various indentation levels.
type PrefixWriter interface {
// Write writes text with the specified indentation level.
Write(level int, format string, a ...interface{})
// WriteLine writes an entire line with no indentation level.
WriteLine(a ...interface{})
// Flush forces indentation to be reset.
Flush()
}
// prefixWriter implements PrefixWriter
type prefixWriter struct {
out io.Writer
}
var _ PrefixWriter = &prefixWriter{}
// NewPrefixWriter creates a new PrefixWriter.
func NewPrefixWriter(out io.Writer) PrefixWriter {
return &prefixWriter{out: out}
}
func (pw *prefixWriter) Write(level int, format string, a ...interface{}) {
levelSpace := " "
prefix := ""
for i := 0; i < level; i++ {
prefix += levelSpace
}
fmt.Fprintf(pw.out, prefix+format, a...)
}
func (pw *prefixWriter) WriteLine(a ...interface{}) {
fmt.Fprintln(pw.out, a...)
}
func (pw *prefixWriter) Flush() {
if f, ok := pw.out.(flusher); ok {
f.Flush()
}
}
func describerMap(clientConfig *rest.Config) (map[schema.GroupKind]printers.Describer, error) {
c, err := clientset.NewForConfig(clientConfig)
if err != nil {
return nil, err
}
externalclient, err := externalclient.NewForConfig(clientConfig)
if err != nil {
return nil, err
}
m := map[schema.GroupKind]printers.Describer{
api.Kind("Pod"): &PodDescriber{c},
api.Kind("ReplicationController"): &ReplicationControllerDescriber{c},
api.Kind("Secret"): &SecretDescriber{c},
api.Kind("Service"): &ServiceDescriber{c},
api.Kind("ServiceAccount"): &ServiceAccountDescriber{c},
api.Kind("Node"): &NodeDescriber{c},
api.Kind("LimitRange"): &LimitRangeDescriber{c},
api.Kind("ResourceQuota"): &ResourceQuotaDescriber{c},
api.Kind("PersistentVolume"): &PersistentVolumeDescriber{c},
api.Kind("PersistentVolumeClaim"): &PersistentVolumeClaimDescriber{c},
api.Kind("Namespace"): &NamespaceDescriber{c},
api.Kind("Endpoints"): &EndpointsDescriber{c},
api.Kind("ConfigMap"): &ConfigMapDescriber{c},
api.Kind("PriorityClass"): &PriorityClassDescriber{c},
extensions.Kind("ReplicaSet"): &ReplicaSetDescriber{c},
extensions.Kind("NetworkPolicy"): &NetworkPolicyDescriber{c},
extensions.Kind("PodSecurityPolicy"): &PodSecurityPolicyDescriber{c},
autoscaling.Kind("HorizontalPodAutoscaler"): &HorizontalPodAutoscalerDescriber{c},
extensions.Kind("DaemonSet"): &DaemonSetDescriber{c},
extensions.Kind("Deployment"): &DeploymentDescriber{c, externalclient},
extensions.Kind("Ingress"): &IngressDescriber{c},
batch.Kind("Job"): &JobDescriber{c},
batch.Kind("CronJob"): &CronJobDescriber{c, externalclient},
apps.Kind("StatefulSet"): &StatefulSetDescriber{c},
apps.Kind("Deployment"): &DeploymentDescriber{c, externalclient},
apps.Kind("DaemonSet"): &DaemonSetDescriber{c},
apps.Kind("ReplicaSet"): &ReplicaSetDescriber{c},
certificates.Kind("CertificateSigningRequest"): &CertificateSigningRequestDescriber{c},
storage.Kind("StorageClass"): &StorageClassDescriber{c},
policy.Kind("PodDisruptionBudget"): &PodDisruptionBudgetDescriber{c},
rbac.Kind("Role"): &RoleDescriber{externalclient},
rbac.Kind("ClusterRole"): &ClusterRoleDescriber{externalclient},
rbac.Kind("RoleBinding"): &RoleBindingDescriber{externalclient},
rbac.Kind("ClusterRoleBinding"): &ClusterRoleBindingDescriber{externalclient},
networking.Kind("NetworkPolicy"): &NetworkPolicyDescriber{c},
scheduling.Kind("PriorityClass"): &PriorityClassDescriber{c},
}
return m, nil
}
// DescriberFor returns the default describe functions for each of the standard
// Kubernetes types.
func DescriberFor(kind schema.GroupKind, clientConfig *rest.Config) (printers.Describer, bool) {
describers, err := describerMap(clientConfig)
if err != nil {
glog.V(1).Info(err)
return nil, false
}
f, ok := describers[kind]
return f, ok
}
// GenericDescriberFor returns a generic describer for the specified mapping
// that uses only information available from runtime.Unstructured
func GenericDescriberFor(mapping *meta.RESTMapping, dynamic dynamic.Interface, events coreclient.EventsGetter) printers.Describer {
return &genericDescriber{mapping, dynamic, events}
}
type genericDescriber struct {
mapping *meta.RESTMapping
dynamic dynamic.Interface
events coreclient.EventsGetter
}
func (g *genericDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (output string, err error) {
obj, err := g.dynamic.Resource(g.mapping.Resource).Namespace(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = g.events.Events(namespace).Search(legacyscheme.Scheme, obj)
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", obj.GetName())
w.Write(LEVEL_0, "Namespace:\t%s\n", obj.GetNamespace())
printLabelsMultiline(w, "Labels", obj.GetLabels())
printAnnotationsMultiline(w, "Annotations", obj.GetAnnotations())
printUnstructuredContent(w, LEVEL_0, obj.UnstructuredContent(), "", ".metadata.name", ".metadata.namespace", ".metadata.labels", ".metadata.annotations")
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func printUnstructuredContent(w PrefixWriter, level int, content map[string]interface{}, skipPrefix string, skip ...string) {
fields := []string{}
for field := range content {
fields = append(fields, field)
}
sort.Strings(fields)
for _, field := range fields {
value := content[field]
switch typedValue := value.(type) {
case map[string]interface{}:
skipExpr := fmt.Sprintf("%s.%s", skipPrefix, field)
if slice.ContainsString(skip, skipExpr, nil) {
continue
}
w.Write(level, "%s:\n", smartLabelFor(field))
printUnstructuredContent(w, level+1, typedValue, skipExpr, skip...)
case []interface{}:
skipExpr := fmt.Sprintf("%s.%s", skipPrefix, field)
if slice.ContainsString(skip, skipExpr, nil) {
continue
}
w.Write(level, "%s:\n", smartLabelFor(field))
for _, child := range typedValue {
switch typedChild := child.(type) {
case map[string]interface{}:
printUnstructuredContent(w, level+1, typedChild, skipExpr, skip...)
default:
w.Write(level+1, "%v\n", typedChild)
}
}
default:
skipExpr := fmt.Sprintf("%s.%s", skipPrefix, field)
if slice.ContainsString(skip, skipExpr, nil) {
continue
}
w.Write(level, "%s:\t%v\n", smartLabelFor(field), typedValue)
}
}
}
func smartLabelFor(field string) string {
commonAcronyms := []string{"API", "URL", "UID", "OSB", "GUID"}
splitted := camelcase.Split(field)
for i := 0; i < len(splitted); i++ {
part := splitted[i]
if slice.ContainsString(commonAcronyms, strings.ToUpper(part), nil) {
part = strings.ToUpper(part)
} else {
part = strings.Title(part)
}
splitted[i] = part
}
return strings.Join(splitted, " ")
}
// DefaultObjectDescriber can describe the default Kubernetes objects.
var DefaultObjectDescriber printers.ObjectDescriber
func init() {
d := &Describers{}
err := d.Add(
describeLimitRange,
describeQuota,
describePod,
describeService,
describeReplicationController,
describeDaemonSet,
describeNode,
describeNamespace,
)
if err != nil {
glog.Fatalf("Cannot register describers: %v", err)
}
DefaultObjectDescriber = d
}
// NamespaceDescriber generates information about a namespace
type NamespaceDescriber struct {
clientset.Interface
}
func (d *NamespaceDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
ns, err := d.Core().Namespaces().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
resourceQuotaList, err := d.Core().ResourceQuotas(name).List(metav1.ListOptions{})
if err != nil {
if errors.IsNotFound(err) {
// Server does not support resource quotas.
// Not an error, will not show resource quotas information.
resourceQuotaList = nil
} else {
return "", err
}
}
limitRangeList, err := d.Core().LimitRanges(name).List(metav1.ListOptions{})
if err != nil {
if errors.IsNotFound(err) {
// Server does not support limit ranges.
// Not an error, will not show limit ranges information.
limitRangeList = nil
} else {
return "", err
}
}
return describeNamespace(ns, resourceQuotaList, limitRangeList)
}
func describeNamespace(namespace *api.Namespace, resourceQuotaList *api.ResourceQuotaList, limitRangeList *api.LimitRangeList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", namespace.Name)
printLabelsMultiline(w, "Labels", namespace.Labels)
printAnnotationsMultiline(w, "Annotations", namespace.Annotations)
w.Write(LEVEL_0, "Status:\t%s\n", string(namespace.Status.Phase))
if resourceQuotaList != nil {
w.Write(LEVEL_0, "\n")
DescribeResourceQuotas(resourceQuotaList, w)
}
if limitRangeList != nil {
w.Write(LEVEL_0, "\n")
DescribeLimitRanges(limitRangeList, w)
}
return nil
})
}
func describeLimitRangeSpec(spec api.LimitRangeSpec, prefix string, w PrefixWriter) {
for i := range spec.Limits {
item := spec.Limits[i]
maxResources := item.Max
minResources := item.Min
defaultLimitResources := item.Default
defaultRequestResources := item.DefaultRequest
ratio := item.MaxLimitRequestRatio
set := map[api.ResourceName]bool{}
for k := range maxResources {
set[k] = true
}
for k := range minResources {
set[k] = true
}
for k := range defaultLimitResources {
set[k] = true
}
for k := range defaultRequestResources {
set[k] = true
}
for k := range ratio {
set[k] = true
}
for k := range set {
// if no value is set, we output -
maxValue := "-"
minValue := "-"
defaultLimitValue := "-"
defaultRequestValue := "-"
ratioValue := "-"
maxQuantity, maxQuantityFound := maxResources[k]
if maxQuantityFound {
maxValue = maxQuantity.String()
}
minQuantity, minQuantityFound := minResources[k]
if minQuantityFound {
minValue = minQuantity.String()
}
defaultLimitQuantity, defaultLimitQuantityFound := defaultLimitResources[k]
if defaultLimitQuantityFound {
defaultLimitValue = defaultLimitQuantity.String()
}
defaultRequestQuantity, defaultRequestQuantityFound := defaultRequestResources[k]
if defaultRequestQuantityFound {
defaultRequestValue = defaultRequestQuantity.String()
}
ratioQuantity, ratioQuantityFound := ratio[k]
if ratioQuantityFound {
ratioValue = ratioQuantity.String()
}
msg := "%s%s\t%v\t%v\t%v\t%v\t%v\t%v\n"
w.Write(LEVEL_0, msg, prefix, item.Type, k, minValue, maxValue, defaultRequestValue, defaultLimitValue, ratioValue)
}
}
}
// DescribeLimitRanges merges a set of limit range items into a single tabular description
func DescribeLimitRanges(limitRanges *api.LimitRangeList, w PrefixWriter) {
if len(limitRanges.Items) == 0 {
w.Write(LEVEL_0, "No resource limits.\n")
return
}
w.Write(LEVEL_0, "Resource Limits\n Type\tResource\tMin\tMax\tDefault Request\tDefault Limit\tMax Limit/Request Ratio\n")
w.Write(LEVEL_0, " ----\t--------\t---\t---\t---------------\t-------------\t-----------------------\n")
for _, limitRange := range limitRanges.Items {
describeLimitRangeSpec(limitRange.Spec, " ", w)
}
}
// DescribeResourceQuotas merges a set of quota items into a single tabular description of all quotas
func DescribeResourceQuotas(quotas *api.ResourceQuotaList, w PrefixWriter) {
if len(quotas.Items) == 0 {
w.Write(LEVEL_0, "No resource quota.\n")
return
}
sort.Sort(SortableResourceQuotas(quotas.Items))
w.Write(LEVEL_0, "Resource Quotas")
for _, q := range quotas.Items {
w.Write(LEVEL_0, "\n Name:\t%s\n", q.Name)
if len(q.Spec.Scopes) > 0 {
scopes := make([]string, 0, len(q.Spec.Scopes))
for _, scope := range q.Spec.Scopes {
scopes = append(scopes, string(scope))
}
sort.Strings(scopes)
w.Write(LEVEL_0, " Scopes:\t%s\n", strings.Join(scopes, ", "))
for _, scope := range scopes {
helpText := helpTextForResourceQuotaScope(api.ResourceQuotaScope(scope))
if len(helpText) > 0 {
w.Write(LEVEL_0, " * %s\n", helpText)
}
}
}
w.Write(LEVEL_0, " Resource\tUsed\tHard\n")
w.Write(LEVEL_0, " --------\t---\t---\n")
resources := make([]api.ResourceName, 0, len(q.Status.Hard))
for resource := range q.Status.Hard {
resources = append(resources, resource)
}
sort.Sort(SortableResourceNames(resources))
for _, resource := range resources {
hardQuantity := q.Status.Hard[resource]
usedQuantity := q.Status.Used[resource]
w.Write(LEVEL_0, " %s\t%s\t%s\n", string(resource), usedQuantity.String(), hardQuantity.String())
}
}
}
// LimitRangeDescriber generates information about a limit range
type LimitRangeDescriber struct {
clientset.Interface
}
func (d *LimitRangeDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
lr := d.Core().LimitRanges(namespace)
limitRange, err := lr.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return describeLimitRange(limitRange)
}
func describeLimitRange(limitRange *api.LimitRange) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", limitRange.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", limitRange.Namespace)
w.Write(LEVEL_0, "Type\tResource\tMin\tMax\tDefault Request\tDefault Limit\tMax Limit/Request Ratio\n")
w.Write(LEVEL_0, "----\t--------\t---\t---\t---------------\t-------------\t-----------------------\n")
describeLimitRangeSpec(limitRange.Spec, "", w)
return nil
})
}
// ResourceQuotaDescriber generates information about a resource quota
type ResourceQuotaDescriber struct {
clientset.Interface
}
func (d *ResourceQuotaDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
rq := d.Core().ResourceQuotas(namespace)
resourceQuota, err := rq.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return describeQuota(resourceQuota)
}
func helpTextForResourceQuotaScope(scope api.ResourceQuotaScope) string {
switch scope {
case api.ResourceQuotaScopeTerminating:
return "Matches all pods that have an active deadline. These pods have a limited lifespan on a node before being actively terminated by the system."
case api.ResourceQuotaScopeNotTerminating:
return "Matches all pods that do not have an active deadline. These pods usually include long running pods whose container command is not expected to terminate."
case api.ResourceQuotaScopeBestEffort:
return "Matches all pods that do not have resource requirements set. These pods have a best effort quality of service."
case api.ResourceQuotaScopeNotBestEffort:
return "Matches all pods that have at least one resource requirement set. These pods have a burstable or guaranteed quality of service."
default:
return ""
}
}
func describeQuota(resourceQuota *api.ResourceQuota) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", resourceQuota.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", resourceQuota.Namespace)
if len(resourceQuota.Spec.Scopes) > 0 {
scopes := make([]string, 0, len(resourceQuota.Spec.Scopes))
for _, scope := range resourceQuota.Spec.Scopes {
scopes = append(scopes, string(scope))
}
sort.Strings(scopes)
w.Write(LEVEL_0, "Scopes:\t%s\n", strings.Join(scopes, ", "))
for _, scope := range scopes {
helpText := helpTextForResourceQuotaScope(api.ResourceQuotaScope(scope))
if len(helpText) > 0 {
w.Write(LEVEL_0, " * %s\n", helpText)
}
}
}
w.Write(LEVEL_0, "Resource\tUsed\tHard\n")
w.Write(LEVEL_0, "--------\t----\t----\n")
resources := make([]api.ResourceName, 0, len(resourceQuota.Status.Hard))
for resource := range resourceQuota.Status.Hard {
resources = append(resources, resource)
}
sort.Sort(SortableResourceNames(resources))
msg := "%v\t%v\t%v\n"
for i := range resources {
resource := resources[i]
hardQuantity := resourceQuota.Status.Hard[resource]
usedQuantity := resourceQuota.Status.Used[resource]
w.Write(LEVEL_0, msg, resource, usedQuantity.String(), hardQuantity.String())
}
return nil
})
}
// PodDescriber generates information about a pod and the replication controllers that
// create it.
type PodDescriber struct {
clientset.Interface
}
func (d *PodDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
pod, err := d.Core().Pods(namespace).Get(name, metav1.GetOptions{})
if err != nil {
if describerSettings.ShowEvents {
eventsInterface := d.Core().Events(namespace)
selector := eventsInterface.GetFieldSelector(&name, &namespace, nil, nil)
options := metav1.ListOptions{FieldSelector: selector.String()}
events, err2 := eventsInterface.List(options)
if describerSettings.ShowEvents && err2 == nil && len(events.Items) > 0 {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Pod '%v': error '%v', but found events.\n", name, err)
DescribeEvents(events, w)
return nil
})
}
}
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
if ref, err := ref.GetReference(legacyscheme.Scheme, pod); err != nil {
glog.Errorf("Unable to construct reference to '%#v': %v", pod, err)
} else {
ref.Kind = ""
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, ref)
}
}
return describePod(pod, events)
}
func describePod(pod *api.Pod, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", pod.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", pod.Namespace)
if pod.Spec.Priority != nil {
w.Write(LEVEL_0, "Priority:\t%d\n", *pod.Spec.Priority)
w.Write(LEVEL_0, "PriorityClassName:\t%s\n", stringOrNone(pod.Spec.PriorityClassName))
}
if pod.Spec.NodeName == "" {
w.Write(LEVEL_0, "Node:\t<none>\n")
} else {
w.Write(LEVEL_0, "Node:\t%s\n", pod.Spec.NodeName+"/"+pod.Status.HostIP)
}
if pod.Status.StartTime != nil {
w.Write(LEVEL_0, "Start Time:\t%s\n", pod.Status.StartTime.Time.Format(time.RFC1123Z))
}
printLabelsMultiline(w, "Labels", pod.Labels)
printAnnotationsMultiline(w, "Annotations", pod.Annotations)
if pod.DeletionTimestamp != nil {
w.Write(LEVEL_0, "Status:\tTerminating (lasts %s)\n", translateTimestamp(*pod.DeletionTimestamp))
w.Write(LEVEL_0, "Termination Grace Period:\t%ds\n", *pod.DeletionGracePeriodSeconds)
} else {
w.Write(LEVEL_0, "Status:\t%s\n", string(pod.Status.Phase))
}
if len(pod.Status.Reason) > 0 {
w.Write(LEVEL_0, "Reason:\t%s\n", pod.Status.Reason)
}
if len(pod.Status.Message) > 0 {
w.Write(LEVEL_0, "Message:\t%s\n", pod.Status.Message)
}
w.Write(LEVEL_0, "IP:\t%s\n", pod.Status.PodIP)
if controlledBy := printController(pod); len(controlledBy) > 0 {
w.Write(LEVEL_0, "Controlled By:\t%s\n", controlledBy)
}
if len(pod.Status.NominatedNodeName) > 0 {
w.Write(LEVEL_0, "NominatedNodeName:\t%s\n", pod.Status.NominatedNodeName)
}
if len(pod.Spec.InitContainers) > 0 {
describeContainers("Init Containers", pod.Spec.InitContainers, pod.Status.InitContainerStatuses, EnvValueRetriever(pod), w, "")
}
describeContainers("Containers", pod.Spec.Containers, pod.Status.ContainerStatuses, EnvValueRetriever(pod), w, "")
if len(pod.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n Type\tStatus\n")
for _, c := range pod.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v \n",
c.Type,
c.Status)
}
}
describeVolumes(pod.Spec.Volumes, w, "")
if pod.Status.QOSClass != "" {
w.Write(LEVEL_0, "QoS Class:\t%s\n", pod.Status.QOSClass)
} else {
w.Write(LEVEL_0, "QoS Class:\t%s\n", qos.GetPodQOS(pod))
}
printLabelsMultiline(w, "Node-Selectors", pod.Spec.NodeSelector)
printPodTolerationsMultiline(w, "Tolerations", pod.Spec.Tolerations)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func printController(controllee metav1.Object) string {
if controllerRef := metav1.GetControllerOf(controllee); controllerRef != nil {
return fmt.Sprintf("%s/%s", controllerRef.Kind, controllerRef.Name)
}
return ""
}
func describeVolumes(volumes []api.Volume, w PrefixWriter, space string) {
if volumes == nil || len(volumes) == 0 {
w.Write(LEVEL_0, "%sVolumes:\t<none>\n", space)
return
}
w.Write(LEVEL_0, "%sVolumes:\n", space)
for _, volume := range volumes {
nameIndent := ""
if len(space) > 0 {
nameIndent = " "
}
w.Write(LEVEL_1, "%s%v:\n", nameIndent, volume.Name)
switch {
case volume.VolumeSource.HostPath != nil:
printHostPathVolumeSource(volume.VolumeSource.HostPath, w)
case volume.VolumeSource.EmptyDir != nil:
printEmptyDirVolumeSource(volume.VolumeSource.EmptyDir, w)
case volume.VolumeSource.GCEPersistentDisk != nil:
printGCEPersistentDiskVolumeSource(volume.VolumeSource.GCEPersistentDisk, w)
case volume.VolumeSource.AWSElasticBlockStore != nil:
printAWSElasticBlockStoreVolumeSource(volume.VolumeSource.AWSElasticBlockStore, w)
case volume.VolumeSource.GitRepo != nil:
printGitRepoVolumeSource(volume.VolumeSource.GitRepo, w)
case volume.VolumeSource.Secret != nil:
printSecretVolumeSource(volume.VolumeSource.Secret, w)
case volume.VolumeSource.ConfigMap != nil:
printConfigMapVolumeSource(volume.VolumeSource.ConfigMap, w)
case volume.VolumeSource.NFS != nil:
printNFSVolumeSource(volume.VolumeSource.NFS, w)
case volume.VolumeSource.ISCSI != nil:
printISCSIVolumeSource(volume.VolumeSource.ISCSI, w)
case volume.VolumeSource.Glusterfs != nil:
printGlusterfsVolumeSource(volume.VolumeSource.Glusterfs, w)
case volume.VolumeSource.PersistentVolumeClaim != nil:
printPersistentVolumeClaimVolumeSource(volume.VolumeSource.PersistentVolumeClaim, w)
case volume.VolumeSource.RBD != nil:
printRBDVolumeSource(volume.VolumeSource.RBD, w)
case volume.VolumeSource.Quobyte != nil:
printQuobyteVolumeSource(volume.VolumeSource.Quobyte, w)
case volume.VolumeSource.DownwardAPI != nil:
printDownwardAPIVolumeSource(volume.VolumeSource.DownwardAPI, w)
case volume.VolumeSource.AzureDisk != nil:
printAzureDiskVolumeSource(volume.VolumeSource.AzureDisk, w)
case volume.VolumeSource.VsphereVolume != nil:
printVsphereVolumeSource(volume.VolumeSource.VsphereVolume, w)
case volume.VolumeSource.Cinder != nil:
printCinderVolumeSource(volume.VolumeSource.Cinder, w)
case volume.VolumeSource.PhotonPersistentDisk != nil:
printPhotonPersistentDiskVolumeSource(volume.VolumeSource.PhotonPersistentDisk, w)
case volume.VolumeSource.PortworxVolume != nil:
printPortworxVolumeSource(volume.VolumeSource.PortworxVolume, w)
case volume.VolumeSource.ScaleIO != nil:
printScaleIOVolumeSource(volume.VolumeSource.ScaleIO, w)
case volume.VolumeSource.CephFS != nil:
printCephFSVolumeSource(volume.VolumeSource.CephFS, w)
case volume.VolumeSource.StorageOS != nil:
printStorageOSVolumeSource(volume.VolumeSource.StorageOS, w)
case volume.VolumeSource.FC != nil:
printFCVolumeSource(volume.VolumeSource.FC, w)
case volume.VolumeSource.AzureFile != nil:
printAzureFileVolumeSource(volume.VolumeSource.AzureFile, w)
case volume.VolumeSource.FlexVolume != nil:
printFlexVolumeSource(volume.VolumeSource.FlexVolume, w)
case volume.VolumeSource.Flocker != nil:
printFlockerVolumeSource(volume.VolumeSource.Flocker, w)
default:
w.Write(LEVEL_1, "<unknown>\n")
}
}
}
func printHostPathVolumeSource(hostPath *api.HostPathVolumeSource, w PrefixWriter) {
hostPathType := "<none>"
if hostPath.Type != nil {
hostPathType = string(*hostPath.Type)
}
w.Write(LEVEL_2, "Type:\tHostPath (bare host directory volume)\n"+
" Path:\t%v\n"+
" HostPathType:\t%v\n",
hostPath.Path, hostPathType)
}
func printEmptyDirVolumeSource(emptyDir *api.EmptyDirVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tEmptyDir (a temporary directory that shares a pod's lifetime)\n"+
" Medium:\t%v\n", emptyDir.Medium)
}
func printGCEPersistentDiskVolumeSource(gce *api.GCEPersistentDiskVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tGCEPersistentDisk (a Persistent Disk resource in Google Compute Engine)\n"+
" PDName:\t%v\n"+
" FSType:\t%v\n"+
" Partition:\t%v\n"+
" ReadOnly:\t%v\n",
gce.PDName, gce.FSType, gce.Partition, gce.ReadOnly)
}
func printAWSElasticBlockStoreVolumeSource(aws *api.AWSElasticBlockStoreVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tAWSElasticBlockStore (a Persistent Disk resource in AWS)\n"+
" VolumeID:\t%v\n"+
" FSType:\t%v\n"+
" Partition:\t%v\n"+
" ReadOnly:\t%v\n",
aws.VolumeID, aws.FSType, aws.Partition, aws.ReadOnly)
}
func printGitRepoVolumeSource(git *api.GitRepoVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tGitRepo (a volume that is pulled from git when the pod is created)\n"+
" Repository:\t%v\n"+
" Revision:\t%v\n",
git.Repository, git.Revision)
}
func printSecretVolumeSource(secret *api.SecretVolumeSource, w PrefixWriter) {
optional := secret.Optional != nil && *secret.Optional
w.Write(LEVEL_2, "Type:\tSecret (a volume populated by a Secret)\n"+
" SecretName:\t%v\n"+
" Optional:\t%v\n",
secret.SecretName, optional)
}
func printConfigMapVolumeSource(configMap *api.ConfigMapVolumeSource, w PrefixWriter) {
optional := configMap.Optional != nil && *configMap.Optional
w.Write(LEVEL_2, "Type:\tConfigMap (a volume populated by a ConfigMap)\n"+
" Name:\t%v\n"+
" Optional:\t%v\n",
configMap.Name, optional)
}
func printNFSVolumeSource(nfs *api.NFSVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tNFS (an NFS mount that lasts the lifetime of a pod)\n"+
" Server:\t%v\n"+
" Path:\t%v\n"+
" ReadOnly:\t%v\n",
nfs.Server, nfs.Path, nfs.ReadOnly)
}
func printQuobyteVolumeSource(quobyte *api.QuobyteVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tQuobyte (a Quobyte mount on the host that shares a pod's lifetime)\n"+
" Registry:\t%v\n"+
" Volume:\t%v\n"+
" ReadOnly:\t%v\n",
quobyte.Registry, quobyte.Volume, quobyte.ReadOnly)
}
func printPortworxVolumeSource(pwxVolume *api.PortworxVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tPortworxVolume (a Portworx Volume resource)\n"+
" VolumeID:\t%v\n",
pwxVolume.VolumeID)
}
func printISCSIVolumeSource(iscsi *api.ISCSIVolumeSource, w PrefixWriter) {
initiator := "<none>"
if iscsi.InitiatorName != nil {
initiator = *iscsi.InitiatorName
}
w.Write(LEVEL_2, "Type:\tISCSI (an ISCSI Disk resource that is attached to a kubelet's host machine and then exposed to the pod)\n"+
" TargetPortal:\t%v\n"+
" IQN:\t%v\n"+
" Lun:\t%v\n"+
" ISCSIInterface\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n"+
" Portals:\t%v\n"+
" DiscoveryCHAPAuth:\t%v\n"+
" SessionCHAPAuth:\t%v\n"+
" SecretRef:\t%v\n"+
" InitiatorName:\t%v\n",
iscsi.TargetPortal, iscsi.IQN, iscsi.Lun, iscsi.ISCSIInterface, iscsi.FSType, iscsi.ReadOnly, iscsi.Portals, iscsi.DiscoveryCHAPAuth, iscsi.SessionCHAPAuth, iscsi.SecretRef, initiator)
}
func printISCSIPersistentVolumeSource(iscsi *api.ISCSIPersistentVolumeSource, w PrefixWriter) {
initiatorName := "<none>"
if iscsi.InitiatorName != nil {
initiatorName = *iscsi.InitiatorName
}
w.Write(LEVEL_2, "Type:\tISCSI (an ISCSI Disk resource that is attached to a kubelet's host machine and then exposed to the pod)\n"+
" TargetPortal:\t%v\n"+
" IQN:\t%v\n"+
" Lun:\t%v\n"+
" ISCSIInterface\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n"+
" Portals:\t%v\n"+
" DiscoveryCHAPAuth:\t%v\n"+
" SessionCHAPAuth:\t%v\n"+
" SecretRef:\t%v\n"+
" InitiatorName:\t%v\n",
iscsi.TargetPortal, iscsi.IQN, iscsi.Lun, iscsi.ISCSIInterface, iscsi.FSType, iscsi.ReadOnly, iscsi.Portals, iscsi.DiscoveryCHAPAuth, iscsi.SessionCHAPAuth, iscsi.SecretRef, initiatorName)
}
func printGlusterfsVolumeSource(glusterfs *api.GlusterfsVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tGlusterfs (a Glusterfs mount on the host that shares a pod's lifetime)\n"+
" EndpointsName:\t%v\n"+
" Path:\t%v\n"+
" ReadOnly:\t%v\n",
glusterfs.EndpointsName, glusterfs.Path, glusterfs.ReadOnly)
}
func printPersistentVolumeClaimVolumeSource(claim *api.PersistentVolumeClaimVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tPersistentVolumeClaim (a reference to a PersistentVolumeClaim in the same namespace)\n"+
" ClaimName:\t%v\n"+
" ReadOnly:\t%v\n",
claim.ClaimName, claim.ReadOnly)
}
func printRBDVolumeSource(rbd *api.RBDVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tRBD (a Rados Block Device mount on the host that shares a pod's lifetime)\n"+
" CephMonitors:\t%v\n"+
" RBDImage:\t%v\n"+
" FSType:\t%v\n"+
" RBDPool:\t%v\n"+
" RadosUser:\t%v\n"+
" Keyring:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n",
rbd.CephMonitors, rbd.RBDImage, rbd.FSType, rbd.RBDPool, rbd.RadosUser, rbd.Keyring, rbd.SecretRef, rbd.ReadOnly)
}
func printRBDPersistentVolumeSource(rbd *api.RBDPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tRBD (a Rados Block Device mount on the host that shares a pod's lifetime)\n"+
" CephMonitors:\t%v\n"+
" RBDImage:\t%v\n"+
" FSType:\t%v\n"+
" RBDPool:\t%v\n"+
" RadosUser:\t%v\n"+
" Keyring:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n",
rbd.CephMonitors, rbd.RBDImage, rbd.FSType, rbd.RBDPool, rbd.RadosUser, rbd.Keyring, rbd.SecretRef, rbd.ReadOnly)
}
func printDownwardAPIVolumeSource(d *api.DownwardAPIVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tDownwardAPI (a volume populated by information about the pod)\n Items:\n")
for _, mapping := range d.Items {
if mapping.FieldRef != nil {
w.Write(LEVEL_3, "%v -> %v\n", mapping.FieldRef.FieldPath, mapping.Path)
}
if mapping.ResourceFieldRef != nil {
w.Write(LEVEL_3, "%v -> %v\n", mapping.ResourceFieldRef.Resource, mapping.Path)
}
}
}
func printAzureDiskVolumeSource(d *api.AzureDiskVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tAzureDisk (an Azure Data Disk mount on the host and bind mount to the pod)\n"+
" DiskName:\t%v\n"+
" DiskURI:\t%v\n"+
" Kind: \t%v\n"+
" FSType:\t%v\n"+
" CachingMode:\t%v\n"+
" ReadOnly:\t%v\n",
d.DiskName, d.DataDiskURI, *d.Kind, *d.FSType, *d.CachingMode, *d.ReadOnly)
}
func printVsphereVolumeSource(vsphere *api.VsphereVirtualDiskVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tvSphereVolume (a Persistent Disk resource in vSphere)\n"+
" VolumePath:\t%v\n"+
" FSType:\t%v\n"+
" StoragePolicyName:\t%v\n",
vsphere.VolumePath, vsphere.FSType, vsphere.StoragePolicyName)
}
func printPhotonPersistentDiskVolumeSource(photon *api.PhotonPersistentDiskVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tPhotonPersistentDisk (a Persistent Disk resource in photon platform)\n"+
" PdID:\t%v\n"+
" FSType:\t%v\n",
photon.PdID, photon.FSType)
}
func printCinderVolumeSource(cinder *api.CinderVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tCinder (a Persistent Disk resource in OpenStack)\n"+
" VolumeID:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
" SecretRef:\t%v\n"+
cinder.VolumeID, cinder.FSType, cinder.ReadOnly, cinder.SecretRef)
}
func printCinderPersistentVolumeSource(cinder *api.CinderPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tCinder (a Persistent Disk resource in OpenStack)\n"+
" VolumeID:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
" SecretRef:\t%v\n"+
cinder.VolumeID, cinder.SecretRef, cinder.FSType, cinder.ReadOnly, cinder.SecretRef)
}
func printScaleIOVolumeSource(sio *api.ScaleIOVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tScaleIO (a persistent volume backed by a block device in ScaleIO)\n"+
" Gateway:\t%v\n"+
" System:\t%v\n"+
" Protection Domain:\t%v\n"+
" Storage Pool:\t%v\n"+
" Storage Mode:\t%v\n"+
" VolumeName:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
sio.Gateway, sio.System, sio.ProtectionDomain, sio.StoragePool, sio.StorageMode, sio.VolumeName, sio.FSType, sio.ReadOnly)
}
func printScaleIOPersistentVolumeSource(sio *api.ScaleIOPersistentVolumeSource, w PrefixWriter) {
var secretNS, secretName string
if sio.SecretRef != nil {
secretName = sio.SecretRef.Name
secretNS = sio.SecretRef.Namespace
}
w.Write(LEVEL_2, "Type:\tScaleIO (a persistent volume backed by a block device in ScaleIO)\n"+
" Gateway:\t%v\n"+
" System:\t%v\n"+
" Protection Domain:\t%v\n"+
" Storage Pool:\t%v\n"+
" Storage Mode:\t%v\n"+
" VolumeName:\t%v\n"+
" SecretName:\t%v\n"+
" SecretNamespace:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
sio.Gateway, sio.System, sio.ProtectionDomain, sio.StoragePool, sio.StorageMode, sio.VolumeName, secretName, secretNS, sio.FSType, sio.ReadOnly)
}
func printLocalVolumeSource(ls *api.LocalVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tLocalVolume (a persistent volume backed by local storage on a node)\n"+
" Path:\t%v\n",
ls.Path)
}
func printCephFSVolumeSource(cephfs *api.CephFSVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tCephFS (a CephFS mount on the host that shares a pod's lifetime)\n"+
" Monitors:\t%v\n"+
" Path:\t%v\n"+
" User:\t%v\n"+
" SecretFile:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n",
cephfs.Monitors, cephfs.Path, cephfs.User, cephfs.SecretFile, cephfs.SecretRef, cephfs.ReadOnly)
}
func printCephFSPersistentVolumeSource(cephfs *api.CephFSPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tCephFS (a CephFS mount on the host that shares a pod's lifetime)\n"+
" Monitors:\t%v\n"+
" Path:\t%v\n"+
" User:\t%v\n"+
" SecretFile:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n",
cephfs.Monitors, cephfs.Path, cephfs.User, cephfs.SecretFile, cephfs.SecretRef, cephfs.ReadOnly)
}
func printStorageOSVolumeSource(storageos *api.StorageOSVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tStorageOS (a StorageOS Persistent Disk resource)\n"+
" VolumeName:\t%v\n"+
" VolumeNamespace:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
storageos.VolumeName, storageos.VolumeNamespace, storageos.FSType, storageos.ReadOnly)
}
func printStorageOSPersistentVolumeSource(storageos *api.StorageOSPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tStorageOS (a StorageOS Persistent Disk resource)\n"+
" VolumeName:\t%v\n"+
" VolumeNamespace:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
storageos.VolumeName, storageos.VolumeNamespace, storageos.FSType, storageos.ReadOnly)
}
func printFCVolumeSource(fc *api.FCVolumeSource, w PrefixWriter) {
lun := "<none>"
if fc.Lun != nil {
lun = strconv.Itoa(int(*fc.Lun))
}
w.Write(LEVEL_2, "Type:\tFC (a Fibre Channel disk)\n"+
" TargetWWNs:\t%v\n"+
" LUN:\t%v\n"+
" FSType:\t%v\n"+
" ReadOnly:\t%v\n",
strings.Join(fc.TargetWWNs, ", "), lun, fc.FSType, fc.ReadOnly)
}
func printAzureFileVolumeSource(azureFile *api.AzureFileVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tAzureFile (an Azure File Service mount on the host and bind mount to the pod)\n"+
" SecretName:\t%v\n"+
" ShareName:\t%v\n"+
" ReadOnly:\t%v\n",
azureFile.SecretName, azureFile.ShareName, azureFile.ReadOnly)
}
func printAzureFilePersistentVolumeSource(azureFile *api.AzureFilePersistentVolumeSource, w PrefixWriter) {
ns := ""
if azureFile.SecretNamespace != nil {
ns = *azureFile.SecretNamespace
}
w.Write(LEVEL_2, "Type:\tAzureFile (an Azure File Service mount on the host and bind mount to the pod)\n"+
" SecretName:\t%v\n"+
" SecretNamespace:\t%v\n"+
" ShareName:\t%v\n"+
" ReadOnly:\t%v\n",
azureFile.SecretName, ns, azureFile.ShareName, azureFile.ReadOnly)
}
func printFlexPersistentVolumeSource(flex *api.FlexPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tFlexVolume (a generic volume resource that is provisioned/attached using an exec based plugin)\n"+
" Driver:\t%v\n"+
" FSType:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n"+
" Options:\t%v\n",
flex.Driver, flex.FSType, flex.SecretRef, flex.ReadOnly, flex.Options)
}
func printFlexVolumeSource(flex *api.FlexVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tFlexVolume (a generic volume resource that is provisioned/attached using an exec based plugin)\n"+
" Driver:\t%v\n"+
" FSType:\t%v\n"+
" SecretRef:\t%v\n"+
" ReadOnly:\t%v\n"+
" Options:\t%v\n",
flex.Driver, flex.FSType, flex.SecretRef, flex.ReadOnly, flex.Options)
}
func printFlockerVolumeSource(flocker *api.FlockerVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tFlocker (a Flocker volume mounted by the Flocker agent)\n"+
" DatasetName:\t%v\n"+
" DatasetUUID:\t%v\n",
flocker.DatasetName, flocker.DatasetUUID)
}
func printCSIPersistentVolumeSource(csi *api.CSIPersistentVolumeSource, w PrefixWriter) {
w.Write(LEVEL_2, "Type:\tCSI (a Container Storage Interface (CSI) volume source)\n"+
" Driver:\t%v\n"+
" VolumeHandle:\t%v\n"+
" ReadOnly:\t%v\n",
csi.Driver, csi.VolumeHandle, csi.ReadOnly)
}
type PersistentVolumeDescriber struct {
clientset.Interface
}
func (d *PersistentVolumeDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().PersistentVolumes()
pv, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, pv)
}
return describePersistentVolume(pv, events)
}
func printVolumeNodeAffinity(w PrefixWriter, affinity *api.VolumeNodeAffinity) {
w.Write(LEVEL_0, "Node Affinity:\t")
if affinity == nil || affinity.Required == nil {
w.WriteLine("<none>")
return
}
w.WriteLine("")
if affinity.Required != nil {
w.Write(LEVEL_1, "Required Terms:\t")
if len(affinity.Required.NodeSelectorTerms) == 0 {
w.WriteLine("<none>")
} else {
w.WriteLine("")
for i, term := range affinity.Required.NodeSelectorTerms {
printNodeSelectorTermsMultilineWithIndent(w, LEVEL_2, fmt.Sprintf("Term %v", i), "\t", term.MatchExpressions)
}
}
}
}
// printLabelsMultiline prints multiple labels with a user-defined alignment.
func printNodeSelectorTermsMultilineWithIndent(w PrefixWriter, indentLevel int, title, innerIndent string, reqs []api.NodeSelectorRequirement) {
w.Write(indentLevel, "%s:%s", title, innerIndent)
if len(reqs) == 0 {
w.WriteLine("<none>")
return
}
for i, req := range reqs {
if i != 0 {
w.Write(indentLevel, "%s", innerIndent)
}
exprStr := fmt.Sprintf("%s %s", req.Key, strings.ToLower(string(req.Operator)))
if len(req.Values) > 0 {
exprStr = fmt.Sprintf("%s [%s]", exprStr, strings.Join(req.Values, ", "))
}
w.Write(LEVEL_0, "%s\n", exprStr)
}
}
func describePersistentVolume(pv *api.PersistentVolume, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", pv.Name)
printLabelsMultiline(w, "Labels", pv.Labels)
printAnnotationsMultiline(w, "Annotations", pv.Annotations)
w.Write(LEVEL_0, "Finalizers:\t%v\n", pv.ObjectMeta.Finalizers)
w.Write(LEVEL_0, "StorageClass:\t%s\n", helper.GetPersistentVolumeClass(pv))
if pv.ObjectMeta.DeletionTimestamp != nil {
w.Write(LEVEL_0, "Status:\tTerminating (lasts %s)\n", translateTimestamp(*pv.ObjectMeta.DeletionTimestamp))
} else {
w.Write(LEVEL_0, "Status:\t%v\n", pv.Status.Phase)
}
if pv.Spec.ClaimRef != nil {
w.Write(LEVEL_0, "Claim:\t%s\n", pv.Spec.ClaimRef.Namespace+"/"+pv.Spec.ClaimRef.Name)
} else {
w.Write(LEVEL_0, "Claim:\t%s\n", "")
}
w.Write(LEVEL_0, "Reclaim Policy:\t%v\n", pv.Spec.PersistentVolumeReclaimPolicy)
w.Write(LEVEL_0, "Access Modes:\t%s\n", helper.GetAccessModesAsString(pv.Spec.AccessModes))
if pv.Spec.VolumeMode != nil {
w.Write(LEVEL_0, "VolumeMode:\t%v\n", *pv.Spec.VolumeMode)
}
storage := pv.Spec.Capacity[api.ResourceStorage]
w.Write(LEVEL_0, "Capacity:\t%s\n", storage.String())
printVolumeNodeAffinity(w, pv.Spec.NodeAffinity)
w.Write(LEVEL_0, "Message:\t%s\n", pv.Status.Message)
w.Write(LEVEL_0, "Source:\n")
switch {
case pv.Spec.HostPath != nil:
printHostPathVolumeSource(pv.Spec.HostPath, w)
case pv.Spec.GCEPersistentDisk != nil:
printGCEPersistentDiskVolumeSource(pv.Spec.GCEPersistentDisk, w)
case pv.Spec.AWSElasticBlockStore != nil:
printAWSElasticBlockStoreVolumeSource(pv.Spec.AWSElasticBlockStore, w)
case pv.Spec.NFS != nil:
printNFSVolumeSource(pv.Spec.NFS, w)
case pv.Spec.ISCSI != nil:
printISCSIPersistentVolumeSource(pv.Spec.ISCSI, w)
case pv.Spec.Glusterfs != nil:
printGlusterfsVolumeSource(pv.Spec.Glusterfs, w)
case pv.Spec.RBD != nil:
printRBDPersistentVolumeSource(pv.Spec.RBD, w)
case pv.Spec.Quobyte != nil:
printQuobyteVolumeSource(pv.Spec.Quobyte, w)
case pv.Spec.VsphereVolume != nil:
printVsphereVolumeSource(pv.Spec.VsphereVolume, w)
case pv.Spec.Cinder != nil:
printCinderPersistentVolumeSource(pv.Spec.Cinder, w)
case pv.Spec.AzureDisk != nil:
printAzureDiskVolumeSource(pv.Spec.AzureDisk, w)
case pv.Spec.PhotonPersistentDisk != nil:
printPhotonPersistentDiskVolumeSource(pv.Spec.PhotonPersistentDisk, w)
case pv.Spec.PortworxVolume != nil:
printPortworxVolumeSource(pv.Spec.PortworxVolume, w)
case pv.Spec.ScaleIO != nil:
printScaleIOPersistentVolumeSource(pv.Spec.ScaleIO, w)
case pv.Spec.Local != nil:
printLocalVolumeSource(pv.Spec.Local, w)
case pv.Spec.CephFS != nil:
printCephFSPersistentVolumeSource(pv.Spec.CephFS, w)
case pv.Spec.StorageOS != nil:
printStorageOSPersistentVolumeSource(pv.Spec.StorageOS, w)
case pv.Spec.FC != nil:
printFCVolumeSource(pv.Spec.FC, w)
case pv.Spec.AzureFile != nil:
printAzureFilePersistentVolumeSource(pv.Spec.AzureFile, w)
case pv.Spec.FlexVolume != nil:
printFlexPersistentVolumeSource(pv.Spec.FlexVolume, w)
case pv.Spec.Flocker != nil:
printFlockerVolumeSource(pv.Spec.Flocker, w)
case pv.Spec.CSI != nil:
printCSIPersistentVolumeSource(pv.Spec.CSI, w)
default:
w.Write(LEVEL_1, "<unknown>\n")
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
type PersistentVolumeClaimDescriber struct {
clientset.Interface
}
func (d *PersistentVolumeClaimDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().PersistentVolumeClaims(namespace)
pvc, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
events, _ := d.Core().Events(namespace).Search(legacyscheme.Scheme, pvc)
return describePersistentVolumeClaim(pvc, events)
}
func describePersistentVolumeClaim(pvc *api.PersistentVolumeClaim, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", pvc.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", pvc.Namespace)
w.Write(LEVEL_0, "StorageClass:\t%s\n", helper.GetPersistentVolumeClaimClass(pvc))
if pvc.ObjectMeta.DeletionTimestamp != nil {
w.Write(LEVEL_0, "Status:\tTerminating (lasts %s)\n", translateTimestamp(*pvc.ObjectMeta.DeletionTimestamp))
} else {
w.Write(LEVEL_0, "Status:\t%v\n", pvc.Status.Phase)
}
w.Write(LEVEL_0, "Volume:\t%s\n", pvc.Spec.VolumeName)
printLabelsMultiline(w, "Labels", pvc.Labels)
printAnnotationsMultiline(w, "Annotations", pvc.Annotations)
w.Write(LEVEL_0, "Finalizers:\t%v\n", pvc.ObjectMeta.Finalizers)
storage := pvc.Spec.Resources.Requests[api.ResourceStorage]
capacity := ""
accessModes := ""
if pvc.Spec.VolumeName != "" {
accessModes = helper.GetAccessModesAsString(pvc.Status.AccessModes)
storage = pvc.Status.Capacity[api.ResourceStorage]
capacity = storage.String()
}
w.Write(LEVEL_0, "Capacity:\t%s\n", capacity)
w.Write(LEVEL_0, "Access Modes:\t%s\n", accessModes)
if pvc.Spec.VolumeMode != nil {
w.Write(LEVEL_0, "VolumeMode:\t%v\n", *pvc.Spec.VolumeMode)
}
if len(pvc.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n")
w.Write(LEVEL_1, "Type\tStatus\tLastProbeTime\tLastTransitionTime\tReason\tMessage\n")
w.Write(LEVEL_1, "----\t------\t-----------------\t------------------\t------\t-------\n")
for _, c := range pvc.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v \t%s \t%s \t%v \t%v\n",
c.Type,
c.Status,
c.LastProbeTime.Time.Format(time.RFC1123Z),
c.LastTransitionTime.Time.Format(time.RFC1123Z),
c.Reason,
c.Message)
}
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func describeContainers(label string, containers []api.Container, containerStatuses []api.ContainerStatus,
resolverFn EnvVarResolverFunc, w PrefixWriter, space string) {
statuses := map[string]api.ContainerStatus{}
for _, status := range containerStatuses {
statuses[status.Name] = status
}
describeContainersLabel(containers, label, space, w)
for _, container := range containers {
status, ok := statuses[container.Name]
describeContainerBasicInfo(container, status, ok, space, w)
describeContainerCommand(container, w)
if ok {
describeContainerState(status, w)
}
describeContainerResource(container, w)
describeContainerProbe(container, w)
if len(container.EnvFrom) > 0 {
describeContainerEnvFrom(container, resolverFn, w)
}
describeContainerEnvVars(container, resolverFn, w)
describeContainerVolumes(container, w)
}
}
func describeContainersLabel(containers []api.Container, label, space string, w PrefixWriter) {
none := ""
if len(containers) == 0 {
none = " <none>"
}
w.Write(LEVEL_0, "%s%s:%s\n", space, label, none)
}
func describeContainerBasicInfo(container api.Container, status api.ContainerStatus, ok bool, space string, w PrefixWriter) {
nameIndent := ""
if len(space) > 0 {
nameIndent = " "
}
w.Write(LEVEL_1, "%s%v:\n", nameIndent, container.Name)
if ok {
w.Write(LEVEL_2, "Container ID:\t%s\n", status.ContainerID)
}
w.Write(LEVEL_2, "Image:\t%s\n", container.Image)
if ok {
w.Write(LEVEL_2, "Image ID:\t%s\n", status.ImageID)
}
portString := describeContainerPorts(container.Ports)
if strings.Contains(portString, ",") {
w.Write(LEVEL_2, "Ports:\t%s\n", portString)
} else {
w.Write(LEVEL_2, "Port:\t%s\n", stringOrNone(portString))
}
hostPortString := describeContainerHostPorts(container.Ports)
if strings.Contains(hostPortString, ",") {
w.Write(LEVEL_2, "Host Ports:\t%s\n", hostPortString)
} else {
w.Write(LEVEL_2, "Host Port:\t%s\n", stringOrNone(hostPortString))
}
}
func describeContainerPorts(cPorts []api.ContainerPort) string {
ports := make([]string, 0, len(cPorts))
for _, cPort := range cPorts {
ports = append(ports, fmt.Sprintf("%d/%s", cPort.ContainerPort, cPort.Protocol))
}
return strings.Join(ports, ", ")
}
func describeContainerHostPorts(cPorts []api.ContainerPort) string {
ports := make([]string, 0, len(cPorts))
for _, cPort := range cPorts {
ports = append(ports, fmt.Sprintf("%d/%s", cPort.HostPort, cPort.Protocol))
}
return strings.Join(ports, ", ")
}
func describeContainerCommand(container api.Container, w PrefixWriter) {
if len(container.Command) > 0 {
w.Write(LEVEL_2, "Command:\n")
for _, c := range container.Command {
w.Write(LEVEL_3, "%s\n", c)
}
}
if len(container.Args) > 0 {
w.Write(LEVEL_2, "Args:\n")
for _, arg := range container.Args {
w.Write(LEVEL_3, "%s\n", arg)
}
}
}
func describeContainerResource(container api.Container, w PrefixWriter) {
resources := container.Resources
if len(resources.Limits) > 0 {
w.Write(LEVEL_2, "Limits:\n")
}
for _, name := range SortedResourceNames(resources.Limits) {
quantity := resources.Limits[name]
w.Write(LEVEL_3, "%s:\t%s\n", name, quantity.String())
}
if len(resources.Requests) > 0 {
w.Write(LEVEL_2, "Requests:\n")
}
for _, name := range SortedResourceNames(resources.Requests) {
quantity := resources.Requests[name]
w.Write(LEVEL_3, "%s:\t%s\n", name, quantity.String())
}
}
func describeContainerState(status api.ContainerStatus, w PrefixWriter) {
describeStatus("State", status.State, w)
if status.LastTerminationState.Terminated != nil {
describeStatus("Last State", status.LastTerminationState, w)
}
w.Write(LEVEL_2, "Ready:\t%v\n", printBool(status.Ready))
w.Write(LEVEL_2, "Restart Count:\t%d\n", status.RestartCount)
}
func describeContainerProbe(container api.Container, w PrefixWriter) {
if container.LivenessProbe != nil {
probe := DescribeProbe(container.LivenessProbe)
w.Write(LEVEL_2, "Liveness:\t%s\n", probe)
}
if container.ReadinessProbe != nil {
probe := DescribeProbe(container.ReadinessProbe)
w.Write(LEVEL_2, "Readiness:\t%s\n", probe)
}
}
func describeContainerVolumes(container api.Container, w PrefixWriter) {
// Show volumeMounts
none := ""
if len(container.VolumeMounts) == 0 {
none = "\t<none>"
}
w.Write(LEVEL_2, "Mounts:%s\n", none)
sort.Sort(SortableVolumeMounts(container.VolumeMounts))
for _, mount := range container.VolumeMounts {
flags := []string{}
switch {
case mount.ReadOnly:
flags = append(flags, "ro")
case !mount.ReadOnly:
flags = append(flags, "rw")
case len(mount.SubPath) > 0:
flags = append(flags, fmt.Sprintf("path=%q", mount.SubPath))
}
w.Write(LEVEL_3, "%s from %s (%s)\n", mount.MountPath, mount.Name, strings.Join(flags, ","))
}
// Show volumeDevices if exists
if len(container.VolumeDevices) > 0 {
w.Write(LEVEL_2, "Devices:%s\n", none)
sort.Sort(SortableVolumeDevices(container.VolumeDevices))
for _, device := range container.VolumeDevices {
w.Write(LEVEL_3, "%s from %s\n", device.DevicePath, device.Name)
}
}
}
func describeContainerEnvVars(container api.Container, resolverFn EnvVarResolverFunc, w PrefixWriter) {
none := ""
if len(container.Env) == 0 {
none = "\t<none>"
}
w.Write(LEVEL_2, "Environment:%s\n", none)
for _, e := range container.Env {
if e.ValueFrom == nil {
w.Write(LEVEL_3, "%s:\t%s\n", e.Name, e.Value)
continue
}
switch {
case e.ValueFrom.FieldRef != nil:
var valueFrom string
if resolverFn != nil {
valueFrom = resolverFn(e)
}
w.Write(LEVEL_3, "%s:\t%s (%s:%s)\n", e.Name, valueFrom, e.ValueFrom.FieldRef.APIVersion, e.ValueFrom.FieldRef.FieldPath)
case e.ValueFrom.ResourceFieldRef != nil:
valueFrom, err := resourcehelper.ExtractContainerResourceValue(e.ValueFrom.ResourceFieldRef, &container)
if err != nil {
valueFrom = ""
}
resource := e.ValueFrom.ResourceFieldRef.Resource
if valueFrom == "0" && (resource == "limits.cpu" || resource == "limits.memory") {
valueFrom = "node allocatable"
}
w.Write(LEVEL_3, "%s:\t%s (%s)\n", e.Name, valueFrom, resource)
case e.ValueFrom.SecretKeyRef != nil:
optional := e.ValueFrom.SecretKeyRef.Optional != nil && *e.ValueFrom.SecretKeyRef.Optional
w.Write(LEVEL_3, "%s:\t<set to the key '%s' in secret '%s'>\tOptional: %t\n", e.Name, e.ValueFrom.SecretKeyRef.Key, e.ValueFrom.SecretKeyRef.Name, optional)
case e.ValueFrom.ConfigMapKeyRef != nil:
optional := e.ValueFrom.ConfigMapKeyRef.Optional != nil && *e.ValueFrom.ConfigMapKeyRef.Optional
w.Write(LEVEL_3, "%s:\t<set to the key '%s' of config map '%s'>\tOptional: %t\n", e.Name, e.ValueFrom.ConfigMapKeyRef.Key, e.ValueFrom.ConfigMapKeyRef.Name, optional)
}
}
}
func describeContainerEnvFrom(container api.Container, resolverFn EnvVarResolverFunc, w PrefixWriter) {
none := ""
if len(container.EnvFrom) == 0 {
none = "\t<none>"
}
w.Write(LEVEL_2, "Environment Variables from:%s\n", none)
for _, e := range container.EnvFrom {
from := ""
name := ""
optional := false
if e.ConfigMapRef != nil {
from = "ConfigMap"
name = e.ConfigMapRef.Name
optional = e.ConfigMapRef.Optional != nil && *e.ConfigMapRef.Optional
} else if e.SecretRef != nil {
from = "Secret"
name = e.SecretRef.Name
optional = e.SecretRef.Optional != nil && *e.SecretRef.Optional
}
if len(e.Prefix) == 0 {
w.Write(LEVEL_3, "%s\t%s\tOptional: %t\n", name, from, optional)
} else {
w.Write(LEVEL_3, "%s\t%s with prefix '%s'\tOptional: %t\n", name, from, e.Prefix, optional)
}
}
}
// DescribeProbe is exported for consumers in other API groups that have probes
func DescribeProbe(probe *api.Probe) string {
attrs := fmt.Sprintf("delay=%ds timeout=%ds period=%ds #success=%d #failure=%d", probe.InitialDelaySeconds, probe.TimeoutSeconds, probe.PeriodSeconds, probe.SuccessThreshold, probe.FailureThreshold)
switch {
case probe.Exec != nil:
return fmt.Sprintf("exec %v %s", probe.Exec.Command, attrs)
case probe.HTTPGet != nil:
url := &url.URL{}
url.Scheme = strings.ToLower(string(probe.HTTPGet.Scheme))
if len(probe.HTTPGet.Port.String()) > 0 {
url.Host = net.JoinHostPort(probe.HTTPGet.Host, probe.HTTPGet.Port.String())
} else {
url.Host = probe.HTTPGet.Host
}
url.Path = probe.HTTPGet.Path
return fmt.Sprintf("http-get %s %s", url.String(), attrs)
case probe.TCPSocket != nil:
return fmt.Sprintf("tcp-socket %s:%s %s", probe.TCPSocket.Host, probe.TCPSocket.Port.String(), attrs)
}
return fmt.Sprintf("unknown %s", attrs)
}
type EnvVarResolverFunc func(e api.EnvVar) string
// EnvValueFrom is exported for use by describers in other packages
func EnvValueRetriever(pod *api.Pod) EnvVarResolverFunc {
return func(e api.EnvVar) string {
internalFieldPath, _, err := legacyscheme.Scheme.ConvertFieldLabel(e.ValueFrom.FieldRef.APIVersion, "Pod", e.ValueFrom.FieldRef.FieldPath, "")
if err != nil {
return "" // pod validation should catch this on create
}
valueFrom, err := fieldpath.ExtractFieldPathAsString(pod, internalFieldPath)
if err != nil {
return "" // pod validation should catch this on create
}
return valueFrom
}
}
func describeStatus(stateName string, state api.ContainerState, w PrefixWriter) {
switch {
case state.Running != nil:
w.Write(LEVEL_2, "%s:\tRunning\n", stateName)
w.Write(LEVEL_3, "Started:\t%v\n", state.Running.StartedAt.Time.Format(time.RFC1123Z))
case state.Waiting != nil:
w.Write(LEVEL_2, "%s:\tWaiting\n", stateName)
if state.Waiting.Reason != "" {
w.Write(LEVEL_3, "Reason:\t%s\n", state.Waiting.Reason)
}
case state.Terminated != nil:
w.Write(LEVEL_2, "%s:\tTerminated\n", stateName)
if state.Terminated.Reason != "" {
w.Write(LEVEL_3, "Reason:\t%s\n", state.Terminated.Reason)
}
if state.Terminated.Message != "" {
w.Write(LEVEL_3, "Message:\t%s\n", state.Terminated.Message)
}
w.Write(LEVEL_3, "Exit Code:\t%d\n", state.Terminated.ExitCode)
if state.Terminated.Signal > 0 {
w.Write(LEVEL_3, "Signal:\t%d\n", state.Terminated.Signal)
}
w.Write(LEVEL_3, "Started:\t%s\n", state.Terminated.StartedAt.Time.Format(time.RFC1123Z))
w.Write(LEVEL_3, "Finished:\t%s\n", state.Terminated.FinishedAt.Time.Format(time.RFC1123Z))
default:
w.Write(LEVEL_2, "%s:\tWaiting\n", stateName)
}
}
func describeVolumeClaimTemplates(templates []api.PersistentVolumeClaim, w PrefixWriter) {
if len(templates) == 0 {
w.Write(LEVEL_0, "Volume Claims:\t<none>\n")
return
}
w.Write(LEVEL_0, "Volume Claims:\n")
for _, pvc := range templates {
w.Write(LEVEL_1, "Name:\t%s\n", pvc.Name)
w.Write(LEVEL_1, "StorageClass:\t%s\n", helper.GetPersistentVolumeClaimClass(&pvc))
printLabelsMultilineWithIndent(w, " ", "Labels", "\t", pvc.Labels, sets.NewString())
printLabelsMultilineWithIndent(w, " ", "Annotations", "\t", pvc.Annotations, sets.NewString())
if capacity, ok := pvc.Spec.Resources.Requests[api.ResourceStorage]; ok {
w.Write(LEVEL_1, "Capacity:\t%s\n", capacity.String())
} else {
w.Write(LEVEL_1, "Capacity:\t%s\n", "<default>")
}
w.Write(LEVEL_1, "Access Modes:\t%s\n", pvc.Spec.AccessModes)
}
}
func printBoolPtr(value *bool) string {
if value != nil {
return printBool(*value)
}
return "<unset>"
}
func printBool(value bool) string {
if value {
return "True"
}
return "False"
}
// ReplicationControllerDescriber generates information about a replication controller
// and the pods it has created.
type ReplicationControllerDescriber struct {
clientset.Interface
}
func (d *ReplicationControllerDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
rc := d.Core().ReplicationControllers(namespace)
pc := d.Core().Pods(namespace)
controller, err := rc.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
running, waiting, succeeded, failed, err := getPodStatusForController(pc, labels.SelectorFromSet(controller.Spec.Selector), controller.UID)
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, controller)
}
return describeReplicationController(controller, events, running, waiting, succeeded, failed)
}
func describeReplicationController(controller *api.ReplicationController, events *api.EventList, running, waiting, succeeded, failed int) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", controller.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", controller.Namespace)
w.Write(LEVEL_0, "Selector:\t%s\n", labels.FormatLabels(controller.Spec.Selector))
printLabelsMultiline(w, "Labels", controller.Labels)
printAnnotationsMultiline(w, "Annotations", controller.Annotations)
w.Write(LEVEL_0, "Replicas:\t%d current / %d desired\n", controller.Status.Replicas, controller.Spec.Replicas)
w.Write(LEVEL_0, "Pods Status:\t%d Running / %d Waiting / %d Succeeded / %d Failed\n", running, waiting, succeeded, failed)
DescribePodTemplate(controller.Spec.Template, w)
if len(controller.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n Type\tStatus\tReason\n")
w.Write(LEVEL_1, "----\t------\t------\n")
for _, c := range controller.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v\t%v\n", c.Type, c.Status, c.Reason)
}
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func DescribePodTemplate(template *api.PodTemplateSpec, w PrefixWriter) {
w.Write(LEVEL_0, "Pod Template:\n")
if template == nil {
w.Write(LEVEL_1, "<unset>")
return
}
printLabelsMultiline(w, " Labels", template.Labels)
if len(template.Annotations) > 0 {
printAnnotationsMultiline(w, " Annotations", template.Annotations)
}
if len(template.Spec.ServiceAccountName) > 0 {
w.Write(LEVEL_1, "Service Account:\t%s\n", template.Spec.ServiceAccountName)
}
if len(template.Spec.InitContainers) > 0 {
describeContainers("Init Containers", template.Spec.InitContainers, nil, nil, w, " ")
}
describeContainers("Containers", template.Spec.Containers, nil, nil, w, " ")
describeVolumes(template.Spec.Volumes, w, " ")
}
// ReplicaSetDescriber generates information about a ReplicaSet and the pods it has created.
type ReplicaSetDescriber struct {
clientset.Interface
}
func (d *ReplicaSetDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
rsc := d.Extensions().ReplicaSets(namespace)
pc := d.Core().Pods(namespace)
rs, err := rsc.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
selector, err := metav1.LabelSelectorAsSelector(rs.Spec.Selector)
if err != nil {
return "", err
}
running, waiting, succeeded, failed, getPodErr := getPodStatusForController(pc, selector, rs.UID)
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, rs)
}
return describeReplicaSet(rs, events, running, waiting, succeeded, failed, getPodErr)
}
func describeReplicaSet(rs *extensions.ReplicaSet, events *api.EventList, running, waiting, succeeded, failed int, getPodErr error) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", rs.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", rs.Namespace)
w.Write(LEVEL_0, "Selector:\t%s\n", metav1.FormatLabelSelector(rs.Spec.Selector))
printLabelsMultiline(w, "Labels", rs.Labels)
printAnnotationsMultiline(w, "Annotations", rs.Annotations)
if controlledBy := printController(rs); len(controlledBy) > 0 {
w.Write(LEVEL_0, "Controlled By:\t%s\n", controlledBy)
}
w.Write(LEVEL_0, "Replicas:\t%d current / %d desired\n", rs.Status.Replicas, rs.Spec.Replicas)
w.Write(LEVEL_0, "Pods Status:\t")
if getPodErr != nil {
w.Write(LEVEL_0, "error in fetching pods: %s\n", getPodErr)
} else {
w.Write(LEVEL_0, "%d Running / %d Waiting / %d Succeeded / %d Failed\n", running, waiting, succeeded, failed)
}
DescribePodTemplate(&rs.Spec.Template, w)
if len(rs.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n Type\tStatus\tReason\n")
w.Write(LEVEL_1, "----\t------\t------\n")
for _, c := range rs.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v\t%v\n", c.Type, c.Status, c.Reason)
}
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// JobDescriber generates information about a job and the pods it has created.
type JobDescriber struct {
clientset.Interface
}
func (d *JobDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
job, err := d.Batch().Jobs(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, job)
}
return describeJob(job, events)
}
func describeJob(job *batch.Job, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", job.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", job.Namespace)
selector, _ := metav1.LabelSelectorAsSelector(job.Spec.Selector)
w.Write(LEVEL_0, "Selector:\t%s\n", selector)
printLabelsMultiline(w, "Labels", job.Labels)
printAnnotationsMultiline(w, "Annotations", job.Annotations)
if controlledBy := printController(job); len(controlledBy) > 0 {
w.Write(LEVEL_0, "Controlled By:\t%s\n", controlledBy)
}
w.Write(LEVEL_0, "Parallelism:\t%d\n", *job.Spec.Parallelism)
if job.Spec.Completions != nil {
w.Write(LEVEL_0, "Completions:\t%d\n", *job.Spec.Completions)
} else {
w.Write(LEVEL_0, "Completions:\t<unset>\n")
}
if job.Status.StartTime != nil {
w.Write(LEVEL_0, "Start Time:\t%s\n", job.Status.StartTime.Time.Format(time.RFC1123Z))
}
if job.Spec.ActiveDeadlineSeconds != nil {
w.Write(LEVEL_0, "Active Deadline Seconds:\t%ds\n", *job.Spec.ActiveDeadlineSeconds)
}
w.Write(LEVEL_0, "Pods Statuses:\t%d Running / %d Succeeded / %d Failed\n", job.Status.Active, job.Status.Succeeded, job.Status.Failed)
DescribePodTemplate(&job.Spec.Template, w)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// CronJobDescriber generates information about a cron job and the jobs it has created.
type CronJobDescriber struct {
clientset.Interface
external externalclient.Interface
}
func (d *CronJobDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
cronJob, err := d.external.BatchV1beta1().CronJobs(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, cronJob)
}
internalCronJob := &batch.CronJob{}
if err := legacyscheme.Scheme.Convert(cronJob, internalCronJob, nil); err != nil {
return "", err
}
return describeCronJob(internalCronJob, events)
}
func describeCronJob(cronJob *batch.CronJob, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", cronJob.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", cronJob.Namespace)
printLabelsMultiline(w, "Labels", cronJob.Labels)
printAnnotationsMultiline(w, "Annotations", cronJob.Annotations)
w.Write(LEVEL_0, "Schedule:\t%s\n", cronJob.Spec.Schedule)
w.Write(LEVEL_0, "Concurrency Policy:\t%s\n", cronJob.Spec.ConcurrencyPolicy)
w.Write(LEVEL_0, "Suspend:\t%s\n", printBoolPtr(cronJob.Spec.Suspend))
if cronJob.Spec.StartingDeadlineSeconds != nil {
w.Write(LEVEL_0, "Starting Deadline Seconds:\t%ds\n", *cronJob.Spec.StartingDeadlineSeconds)
} else {
w.Write(LEVEL_0, "Starting Deadline Seconds:\t<unset>\n")
}
describeJobTemplate(cronJob.Spec.JobTemplate, w)
if cronJob.Status.LastScheduleTime != nil {
w.Write(LEVEL_0, "Last Schedule Time:\t%s\n", cronJob.Status.LastScheduleTime.Time.Format(time.RFC1123Z))
} else {
w.Write(LEVEL_0, "Last Schedule Time:\t<unset>\n")
}
printActiveJobs(w, "Active Jobs", cronJob.Status.Active)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func describeJobTemplate(jobTemplate batch.JobTemplateSpec, w PrefixWriter) {
if jobTemplate.Spec.Selector != nil {
selector, _ := metav1.LabelSelectorAsSelector(jobTemplate.Spec.Selector)
w.Write(LEVEL_0, "Selector:\t%s\n", selector)
} else {
w.Write(LEVEL_0, "Selector:\t<unset>\n")
}
if jobTemplate.Spec.Parallelism != nil {
w.Write(LEVEL_0, "Parallelism:\t%d\n", *jobTemplate.Spec.Parallelism)
} else {
w.Write(LEVEL_0, "Parallelism:\t<unset>\n")
}
if jobTemplate.Spec.Completions != nil {
w.Write(LEVEL_0, "Completions:\t%d\n", *jobTemplate.Spec.Completions)
} else {
w.Write(LEVEL_0, "Completions:\t<unset>\n")
}
if jobTemplate.Spec.ActiveDeadlineSeconds != nil {
w.Write(LEVEL_0, "Active Deadline Seconds:\t%ds\n", *jobTemplate.Spec.ActiveDeadlineSeconds)
}
DescribePodTemplate(&jobTemplate.Spec.Template, w)
}
func printActiveJobs(w PrefixWriter, title string, jobs []api.ObjectReference) {
w.Write(LEVEL_0, "%s:\t", title)
if len(jobs) == 0 {
w.WriteLine("<none>")
return
}
for i, job := range jobs {
if i != 0 {
w.Write(LEVEL_0, ", ")
}
w.Write(LEVEL_0, "%s", job.Name)
}
w.WriteLine("")
}
// DaemonSetDescriber generates information about a daemon set and the pods it has created.
type DaemonSetDescriber struct {
clientset.Interface
}
func (d *DaemonSetDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
dc := d.Extensions().DaemonSets(namespace)
pc := d.Core().Pods(namespace)
daemon, err := dc.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
selector, err := metav1.LabelSelectorAsSelector(daemon.Spec.Selector)
if err != nil {
return "", err
}
running, waiting, succeeded, failed, err := getPodStatusForController(pc, selector, daemon.UID)
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, daemon)
}
return describeDaemonSet(daemon, events, running, waiting, succeeded, failed)
}
func describeDaemonSet(daemon *extensions.DaemonSet, events *api.EventList, running, waiting, succeeded, failed int) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", daemon.Name)
selector, err := metav1.LabelSelectorAsSelector(daemon.Spec.Selector)
if err != nil {
// this shouldn't happen if LabelSelector passed validation
return err
}
w.Write(LEVEL_0, "Selector:\t%s\n", selector)
w.Write(LEVEL_0, "Node-Selector:\t%s\n", labels.FormatLabels(daemon.Spec.Template.Spec.NodeSelector))
printLabelsMultiline(w, "Labels", daemon.Labels)
printAnnotationsMultiline(w, "Annotations", daemon.Annotations)
w.Write(LEVEL_0, "Desired Number of Nodes Scheduled: %d\n", daemon.Status.DesiredNumberScheduled)
w.Write(LEVEL_0, "Current Number of Nodes Scheduled: %d\n", daemon.Status.CurrentNumberScheduled)
w.Write(LEVEL_0, "Number of Nodes Scheduled with Up-to-date Pods: %d\n", daemon.Status.UpdatedNumberScheduled)
w.Write(LEVEL_0, "Number of Nodes Scheduled with Available Pods: %d\n", daemon.Status.NumberAvailable)
w.Write(LEVEL_0, "Number of Nodes Misscheduled: %d\n", daemon.Status.NumberMisscheduled)
w.Write(LEVEL_0, "Pods Status:\t%d Running / %d Waiting / %d Succeeded / %d Failed\n", running, waiting, succeeded, failed)
DescribePodTemplate(&daemon.Spec.Template, w)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// SecretDescriber generates information about a secret
type SecretDescriber struct {
clientset.Interface
}
func (d *SecretDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().Secrets(namespace)
secret, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return describeSecret(secret)
}
func describeSecret(secret *api.Secret) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", secret.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", secret.Namespace)
printLabelsMultiline(w, "Labels", secret.Labels)
skipAnnotations := sets.NewString(api.LastAppliedConfigAnnotation)
printAnnotationsMultilineWithFilter(w, "Annotations", secret.Annotations, skipAnnotations)
w.Write(LEVEL_0, "\nType:\t%s\n", secret.Type)
w.Write(LEVEL_0, "\nData\n====\n")
for k, v := range secret.Data {
switch {
case k == api.ServiceAccountTokenKey && secret.Type == api.SecretTypeServiceAccountToken:
w.Write(LEVEL_0, "%s:\t%s\n", k, string(v))
default:
w.Write(LEVEL_0, "%s:\t%d bytes\n", k, len(v))
}
}
return nil
})
}
type IngressDescriber struct {
clientset.Interface
}
func (i *IngressDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := i.Extensions().Ingresses(namespace)
ing, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return i.describeIngress(ing, describerSettings)
}
func (i *IngressDescriber) describeBackend(ns string, backend *extensions.IngressBackend) string {
endpoints, _ := i.Core().Endpoints(ns).Get(backend.ServiceName, metav1.GetOptions{})
service, _ := i.Core().Services(ns).Get(backend.ServiceName, metav1.GetOptions{})
spName := ""
for i := range service.Spec.Ports {
sp := &service.Spec.Ports[i]
switch backend.ServicePort.Type {
case intstr.String:
if backend.ServicePort.StrVal == sp.Name {
spName = sp.Name
}
case intstr.Int:
if int32(backend.ServicePort.IntVal) == sp.Port {
spName = sp.Name
}
}
}
return formatEndpoints(endpoints, sets.NewString(spName))
}
func (i *IngressDescriber) describeIngress(ing *extensions.Ingress, describerSettings printers.DescriberSettings) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%v\n", ing.Name)
w.Write(LEVEL_0, "Namespace:\t%v\n", ing.Namespace)
w.Write(LEVEL_0, "Address:\t%v\n", loadBalancerStatusStringer(ing.Status.LoadBalancer, true))
def := ing.Spec.Backend
ns := ing.Namespace
if def == nil {
// Ingresses that don't specify a default backend inherit the
// default backend in the kube-system namespace.
def = &extensions.IngressBackend{
ServiceName: "default-http-backend",
ServicePort: intstr.IntOrString{Type: intstr.Int, IntVal: 80},
}
ns = metav1.NamespaceSystem
}
w.Write(LEVEL_0, "Default backend:\t%s (%s)\n", backendStringer(def), i.describeBackend(ns, def))
if len(ing.Spec.TLS) != 0 {
describeIngressTLS(w, ing.Spec.TLS)
}
w.Write(LEVEL_0, "Rules:\n Host\tPath\tBackends\n")
w.Write(LEVEL_1, "----\t----\t--------\n")
count := 0
for _, rules := range ing.Spec.Rules {
if rules.HTTP == nil {
continue
}
count++
host := rules.Host
if len(host) == 0 {
host = "*"
}
w.Write(LEVEL_1, "%s\t\n", host)
for _, path := range rules.HTTP.Paths {
w.Write(LEVEL_2, "\t%s \t%s (%s)\n", path.Path, backendStringer(&path.Backend), i.describeBackend(ns, &path.Backend))
}
}
if count == 0 {
w.Write(LEVEL_1, "%s\t%s \t%s (%s)\n", "*", "*", backendStringer(def), i.describeBackend(ns, def))
}
describeIngressAnnotations(w, ing.Annotations)
if describerSettings.ShowEvents {
events, _ := i.Core().Events(ing.Namespace).Search(legacyscheme.Scheme, ing)
if events != nil {
DescribeEvents(events, w)
}
}
return nil
})
}
func describeIngressTLS(w PrefixWriter, ingTLS []extensions.IngressTLS) {
w.Write(LEVEL_0, "TLS:\n")
for _, t := range ingTLS {
if t.SecretName == "" {
w.Write(LEVEL_1, "SNI routes %v\n", strings.Join(t.Hosts, ","))
} else {
w.Write(LEVEL_1, "%v terminates %v\n", t.SecretName, strings.Join(t.Hosts, ","))
}
}
return
}
// TODO: Move from annotations into Ingress status.
func describeIngressAnnotations(w PrefixWriter, annotations map[string]string) {
w.Write(LEVEL_0, "Annotations:\n")
for k, v := range annotations {
w.Write(LEVEL_1, "%v:\t%s\n", k, v)
}
return
}
// ServiceDescriber generates information about a service.
type ServiceDescriber struct {
clientset.Interface
}
func (d *ServiceDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().Services(namespace)
service, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
endpoints, _ := d.Core().Endpoints(namespace).Get(name, metav1.GetOptions{})
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, service)
}
return describeService(service, endpoints, events)
}
func buildIngressString(ingress []api.LoadBalancerIngress) string {
var buffer bytes.Buffer
for i := range ingress {
if i != 0 {
buffer.WriteString(", ")
}
if ingress[i].IP != "" {
buffer.WriteString(ingress[i].IP)
} else {
buffer.WriteString(ingress[i].Hostname)
}
}
return buffer.String()
}
func describeService(service *api.Service, endpoints *api.Endpoints, events *api.EventList) (string, error) {
if endpoints == nil {
endpoints = &api.Endpoints{}
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", service.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", service.Namespace)
printLabelsMultiline(w, "Labels", service.Labels)
printAnnotationsMultiline(w, "Annotations", service.Annotations)
w.Write(LEVEL_0, "Selector:\t%s\n", labels.FormatLabels(service.Spec.Selector))
w.Write(LEVEL_0, "Type:\t%s\n", service.Spec.Type)
w.Write(LEVEL_0, "IP:\t%s\n", service.Spec.ClusterIP)
if len(service.Spec.ExternalIPs) > 0 {
w.Write(LEVEL_0, "External IPs:\t%v\n", strings.Join(service.Spec.ExternalIPs, ","))
}
if service.Spec.LoadBalancerIP != "" {
w.Write(LEVEL_0, "IP:\t%s\n", service.Spec.LoadBalancerIP)
}
if service.Spec.ExternalName != "" {
w.Write(LEVEL_0, "External Name:\t%s\n", service.Spec.ExternalName)
}
if len(service.Status.LoadBalancer.Ingress) > 0 {
list := buildIngressString(service.Status.LoadBalancer.Ingress)
w.Write(LEVEL_0, "LoadBalancer Ingress:\t%s\n", list)
}
for i := range service.Spec.Ports {
sp := &service.Spec.Ports[i]
name := sp.Name
if name == "" {
name = "<unset>"
}
w.Write(LEVEL_0, "Port:\t%s\t%d/%s\n", name, sp.Port, sp.Protocol)
if sp.TargetPort.Type == intstr.Type(intstr.Int) {
w.Write(LEVEL_0, "TargetPort:\t%d/%s\n", sp.TargetPort.IntVal, sp.Protocol)
} else {
w.Write(LEVEL_0, "TargetPort:\t%s/%s\n", sp.TargetPort.StrVal, sp.Protocol)
}
if sp.NodePort != 0 {
w.Write(LEVEL_0, "NodePort:\t%s\t%d/%s\n", name, sp.NodePort, sp.Protocol)
}
w.Write(LEVEL_0, "Endpoints:\t%s\n", formatEndpoints(endpoints, sets.NewString(sp.Name)))
}
w.Write(LEVEL_0, "Session Affinity:\t%s\n", service.Spec.SessionAffinity)
if service.Spec.ExternalTrafficPolicy != "" {
w.Write(LEVEL_0, "External Traffic Policy:\t%s\n", service.Spec.ExternalTrafficPolicy)
}
if service.Spec.HealthCheckNodePort != 0 {
w.Write(LEVEL_0, "HealthCheck NodePort:\t%d\n", service.Spec.HealthCheckNodePort)
}
if len(service.Spec.LoadBalancerSourceRanges) > 0 {
w.Write(LEVEL_0, "LoadBalancer Source Ranges:\t%v\n", strings.Join(service.Spec.LoadBalancerSourceRanges, ","))
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// EndpointsDescriber generates information about an Endpoint.
type EndpointsDescriber struct {
clientset.Interface
}
func (d *EndpointsDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().Endpoints(namespace)
ep, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, ep)
}
return describeEndpoints(ep, events)
}
func describeEndpoints(ep *api.Endpoints, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", ep.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", ep.Namespace)
printLabelsMultiline(w, "Labels", ep.Labels)
printAnnotationsMultiline(w, "Annotations", ep.Annotations)
w.Write(LEVEL_0, "Subsets:\n")
for i := range ep.Subsets {
subset := &ep.Subsets[i]
addresses := make([]string, 0, len(subset.Addresses))
for _, addr := range subset.Addresses {
addresses = append(addresses, addr.IP)
}
addressesString := strings.Join(addresses, ",")
if len(addressesString) == 0 {
addressesString = "<none>"
}
w.Write(LEVEL_1, "Addresses:\t%s\n", addressesString)
notReadyAddresses := make([]string, 0, len(subset.NotReadyAddresses))
for _, addr := range subset.NotReadyAddresses {
notReadyAddresses = append(notReadyAddresses, addr.IP)
}
notReadyAddressesString := strings.Join(notReadyAddresses, ",")
if len(notReadyAddressesString) == 0 {
notReadyAddressesString = "<none>"
}
w.Write(LEVEL_1, "NotReadyAddresses:\t%s\n", notReadyAddressesString)
if len(subset.Ports) > 0 {
w.Write(LEVEL_1, "Ports:\n")
w.Write(LEVEL_2, "Name\tPort\tProtocol\n")
w.Write(LEVEL_2, "----\t----\t--------\n")
for _, port := range subset.Ports {
name := port.Name
if len(name) == 0 {
name = "<unset>"
}
w.Write(LEVEL_2, "%s\t%d\t%s\n", name, port.Port, port.Protocol)
}
}
w.Write(LEVEL_0, "\n")
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// ServiceAccountDescriber generates information about a service.
type ServiceAccountDescriber struct {
clientset.Interface
}
func (d *ServiceAccountDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().ServiceAccounts(namespace)
serviceAccount, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
tokens := []api.Secret{}
// missingSecrets is the set of all secrets present in the
// serviceAccount but not present in the set of existing secrets.
missingSecrets := sets.NewString()
secrets, err := d.Core().Secrets(namespace).List(metav1.ListOptions{})
// errors are tolerated here in order to describe the serviceAccount with all
// of the secrets that it references, even if those secrets cannot be fetched.
if err == nil {
// existingSecrets is the set of all secrets remaining on a
// service account that are not present in the "tokens" slice.
existingSecrets := sets.NewString()
for _, s := range secrets.Items {
if s.Type == api.SecretTypeServiceAccountToken {
name, _ := s.Annotations[api.ServiceAccountNameKey]
uid, _ := s.Annotations[api.ServiceAccountUIDKey]
if name == serviceAccount.Name && uid == string(serviceAccount.UID) {
tokens = append(tokens, s)
}
}
existingSecrets.Insert(s.Name)
}
for _, s := range serviceAccount.Secrets {
if !existingSecrets.Has(s.Name) {
missingSecrets.Insert(s.Name)
}
}
for _, s := range serviceAccount.ImagePullSecrets {
if !existingSecrets.Has(s.Name) {
missingSecrets.Insert(s.Name)
}
}
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.Core().Events(namespace).Search(legacyscheme.Scheme, serviceAccount)
}
return describeServiceAccount(serviceAccount, tokens, missingSecrets, events)
}
func describeServiceAccount(serviceAccount *api.ServiceAccount, tokens []api.Secret, missingSecrets sets.String, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", serviceAccount.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", serviceAccount.Namespace)
printLabelsMultiline(w, "Labels", serviceAccount.Labels)
printAnnotationsMultiline(w, "Annotations", serviceAccount.Annotations)
var (
emptyHeader = " "
pullHeader = "Image pull secrets:"
mountHeader = "Mountable secrets: "
tokenHeader = "Tokens: "
pullSecretNames = []string{}
mountSecretNames = []string{}
tokenSecretNames = []string{}
)
for _, s := range serviceAccount.ImagePullSecrets {
pullSecretNames = append(pullSecretNames, s.Name)
}
for _, s := range serviceAccount.Secrets {
mountSecretNames = append(mountSecretNames, s.Name)
}
for _, s := range tokens {
tokenSecretNames = append(tokenSecretNames, s.Name)
}
types := map[string][]string{
pullHeader: pullSecretNames,
mountHeader: mountSecretNames,
tokenHeader: tokenSecretNames,
}
for _, header := range sets.StringKeySet(types).List() {
names := types[header]
if len(names) == 0 {
w.Write(LEVEL_0, "%s\t<none>\n", header)
} else {
prefix := header
for _, name := range names {
if missingSecrets.Has(name) {
w.Write(LEVEL_0, "%s\t%s (not found)\n", prefix, name)
} else {
w.Write(LEVEL_0, "%s\t%s\n", prefix, name)
}
prefix = emptyHeader
}
}
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// RoleDescriber generates information about a node.
type RoleDescriber struct {
externalclient.Interface
}
func (d *RoleDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
role, err := d.Rbac().Roles(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
breakdownRules := []rbacv1.PolicyRule{}
for _, rule := range role.Rules {
breakdownRules = append(breakdownRules, validation.BreakdownRule(rule)...)
}
compactRules, err := validation.CompactRules(breakdownRules)
if err != nil {
return "", err
}
sort.Stable(rbacv1helpers.SortableRuleSlice(compactRules))
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", role.Name)
printLabelsMultiline(w, "Labels", role.Labels)
printAnnotationsMultiline(w, "Annotations", role.Annotations)
w.Write(LEVEL_0, "PolicyRule:\n")
w.Write(LEVEL_1, "Resources\tNon-Resource URLs\tResource Names\tVerbs\n")
w.Write(LEVEL_1, "---------\t-----------------\t--------------\t-----\n")
for _, r := range compactRules {
w.Write(LEVEL_1, "%s\t%v\t%v\t%v\n", combineResourceGroup(r.Resources, r.APIGroups), r.NonResourceURLs, r.ResourceNames, r.Verbs)
}
return nil
})
}
// ClusterRoleDescriber generates information about a node.
type ClusterRoleDescriber struct {
externalclient.Interface
}
func (d *ClusterRoleDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
role, err := d.Rbac().ClusterRoles().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
breakdownRules := []rbacv1.PolicyRule{}
for _, rule := range role.Rules {
breakdownRules = append(breakdownRules, validation.BreakdownRule(rule)...)
}
compactRules, err := validation.CompactRules(breakdownRules)
if err != nil {
return "", err
}
sort.Stable(rbacv1helpers.SortableRuleSlice(compactRules))
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", role.Name)
printLabelsMultiline(w, "Labels", role.Labels)
printAnnotationsMultiline(w, "Annotations", role.Annotations)
w.Write(LEVEL_0, "PolicyRule:\n")
w.Write(LEVEL_1, "Resources\tNon-Resource URLs\tResource Names\tVerbs\n")
w.Write(LEVEL_1, "---------\t-----------------\t--------------\t-----\n")
for _, r := range compactRules {
w.Write(LEVEL_1, "%s\t%v\t%v\t%v\n", combineResourceGroup(r.Resources, r.APIGroups), r.NonResourceURLs, r.ResourceNames, r.Verbs)
}
return nil
})
}
func combineResourceGroup(resource, group []string) string {
if len(resource) == 0 {
return ""
}
parts := strings.SplitN(resource[0], "/", 2)
combine := parts[0]
if len(group) > 0 && group[0] != "" {
combine = combine + "." + group[0]
}
if len(parts) == 2 {
combine = combine + "/" + parts[1]
}
return combine
}
// RoleBindingDescriber generates information about a node.
type RoleBindingDescriber struct {
externalclient.Interface
}
func (d *RoleBindingDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
binding, err := d.Rbac().RoleBindings(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", binding.Name)
printLabelsMultiline(w, "Labels", binding.Labels)
printAnnotationsMultiline(w, "Annotations", binding.Annotations)
w.Write(LEVEL_0, "Role:\n")
w.Write(LEVEL_1, "Kind:\t%s\n", binding.RoleRef.Kind)
w.Write(LEVEL_1, "Name:\t%s\n", binding.RoleRef.Name)
w.Write(LEVEL_0, "Subjects:\n")
w.Write(LEVEL_1, "Kind\tName\tNamespace\n")
w.Write(LEVEL_1, "----\t----\t---------\n")
for _, s := range binding.Subjects {
w.Write(LEVEL_1, "%s\t%s\t%s\n", s.Kind, s.Name, s.Namespace)
}
return nil
})
}
// ClusterRoleBindingDescriber generates information about a node.
type ClusterRoleBindingDescriber struct {
externalclient.Interface
}
func (d *ClusterRoleBindingDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
binding, err := d.Rbac().ClusterRoleBindings().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", binding.Name)
printLabelsMultiline(w, "Labels", binding.Labels)
printAnnotationsMultiline(w, "Annotations", binding.Annotations)
w.Write(LEVEL_0, "Role:\n")
w.Write(LEVEL_1, "Kind:\t%s\n", binding.RoleRef.Kind)
w.Write(LEVEL_1, "Name:\t%s\n", binding.RoleRef.Name)
w.Write(LEVEL_0, "Subjects:\n")
w.Write(LEVEL_1, "Kind\tName\tNamespace\n")
w.Write(LEVEL_1, "----\t----\t---------\n")
for _, s := range binding.Subjects {
w.Write(LEVEL_1, "%s\t%s\t%s\n", s.Kind, s.Name, s.Namespace)
}
return nil
})
}
// NodeDescriber generates information about a node.
type NodeDescriber struct {
clientset.Interface
}
func (d *NodeDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
mc := d.Core().Nodes()
node, err := mc.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
fieldSelector, err := fields.ParseSelector("spec.nodeName=" + name + ",status.phase!=" + string(api.PodSucceeded) + ",status.phase!=" + string(api.PodFailed))
if err != nil {
return "", err
}
// in a policy aware setting, users may have access to a node, but not all pods
// in that case, we note that the user does not have access to the pods
canViewPods := true
nodeNonTerminatedPodsList, err := d.Core().Pods(namespace).List(metav1.ListOptions{FieldSelector: fieldSelector.String()})
if err != nil {
if !errors.IsForbidden(err) {
return "", err
}
canViewPods = false
}
var events *api.EventList
if describerSettings.ShowEvents {
if ref, err := ref.GetReference(legacyscheme.Scheme, node); err != nil {
glog.Errorf("Unable to construct reference to '%#v': %v", node, err)
} else {
// TODO: We haven't decided the namespace for Node object yet.
ref.UID = types.UID(ref.Name)
events, _ = d.Core().Events("").Search(legacyscheme.Scheme, ref)
}
}
return describeNode(node, nodeNonTerminatedPodsList, events, canViewPods)
}
func describeNode(node *api.Node, nodeNonTerminatedPodsList *api.PodList, events *api.EventList, canViewPods bool) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", node.Name)
if roles := findNodeRoles(node); len(roles) > 0 {
w.Write(LEVEL_0, "Roles:\t%s\n", strings.Join(roles, ","))
} else {
w.Write(LEVEL_0, "Roles:\t%s\n", "<none>")
}
printLabelsMultiline(w, "Labels", node.Labels)
printAnnotationsMultiline(w, "Annotations", node.Annotations)
w.Write(LEVEL_0, "CreationTimestamp:\t%s\n", node.CreationTimestamp.Time.Format(time.RFC1123Z))
printNodeTaintsMultiline(w, "Taints", node.Spec.Taints)
w.Write(LEVEL_0, "Unschedulable:\t%v\n", node.Spec.Unschedulable)
if len(node.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n Type\tStatus\tLastHeartbeatTime\tLastTransitionTime\tReason\tMessage\n")
w.Write(LEVEL_1, "----\t------\t-----------------\t------------------\t------\t-------\n")
for _, c := range node.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v \t%s \t%s \t%v \t%v\n",
c.Type,
c.Status,
c.LastHeartbeatTime.Time.Format(time.RFC1123Z),
c.LastTransitionTime.Time.Format(time.RFC1123Z),
c.Reason,
c.Message)
}
}
w.Write(LEVEL_0, "Addresses:\n")
for _, address := range node.Status.Addresses {
w.Write(LEVEL_1, "%s:\t%s\n", address.Type, address.Address)
}
printResourceList := func(resourceList api.ResourceList) {
resources := make([]api.ResourceName, 0, len(resourceList))
for resource := range resourceList {
resources = append(resources, resource)
}
sort.Sort(SortableResourceNames(resources))
for _, resource := range resources {
value := resourceList[resource]
w.Write(LEVEL_0, " %s:\t%s\n", resource, value.String())
}
}
if len(node.Status.Capacity) > 0 {
w.Write(LEVEL_0, "Capacity:\n")
printResourceList(node.Status.Capacity)
}
if len(node.Status.Allocatable) > 0 {
w.Write(LEVEL_0, "Allocatable:\n")
printResourceList(node.Status.Allocatable)
}
w.Write(LEVEL_0, "System Info:\n")
w.Write(LEVEL_0, " Machine ID:\t%s\n", node.Status.NodeInfo.MachineID)
w.Write(LEVEL_0, " System UUID:\t%s\n", node.Status.NodeInfo.SystemUUID)
w.Write(LEVEL_0, " Boot ID:\t%s\n", node.Status.NodeInfo.BootID)
w.Write(LEVEL_0, " Kernel Version:\t%s\n", node.Status.NodeInfo.KernelVersion)
w.Write(LEVEL_0, " OS Image:\t%s\n", node.Status.NodeInfo.OSImage)
w.Write(LEVEL_0, " Operating System:\t%s\n", node.Status.NodeInfo.OperatingSystem)
w.Write(LEVEL_0, " Architecture:\t%s\n", node.Status.NodeInfo.Architecture)
w.Write(LEVEL_0, " Container Runtime Version:\t%s\n", node.Status.NodeInfo.ContainerRuntimeVersion)
w.Write(LEVEL_0, " Kubelet Version:\t%s\n", node.Status.NodeInfo.KubeletVersion)
w.Write(LEVEL_0, " Kube-Proxy Version:\t%s\n", node.Status.NodeInfo.KubeProxyVersion)
if len(node.Spec.PodCIDR) > 0 {
w.Write(LEVEL_0, "PodCIDR:\t%s\n", node.Spec.PodCIDR)
}
if len(node.Spec.ProviderID) > 0 {
w.Write(LEVEL_0, "ProviderID:\t%s\n", node.Spec.ProviderID)
}
if canViewPods && nodeNonTerminatedPodsList != nil {
describeNodeResource(nodeNonTerminatedPodsList, node, w)
} else {
w.Write(LEVEL_0, "Pods:\tnot authorized\n")
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
type StatefulSetDescriber struct {
client clientset.Interface
}
func (p *StatefulSetDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
ps, err := p.client.Apps().StatefulSets(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
pc := p.client.Core().Pods(namespace)
selector, err := metav1.LabelSelectorAsSelector(ps.Spec.Selector)
if err != nil {
return "", err
}
running, waiting, succeeded, failed, err := getPodStatusForController(pc, selector, ps.UID)
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = p.client.Core().Events(namespace).Search(legacyscheme.Scheme, ps)
}
return describeStatefulSet(ps, selector, events, running, waiting, succeeded, failed)
}
func describeStatefulSet(ps *apps.StatefulSet, selector labels.Selector, events *api.EventList, running, waiting, succeeded, failed int) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", ps.ObjectMeta.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", ps.ObjectMeta.Namespace)
w.Write(LEVEL_0, "CreationTimestamp:\t%s\n", ps.CreationTimestamp.Time.Format(time.RFC1123Z))
w.Write(LEVEL_0, "Selector:\t%s\n", selector)
printLabelsMultiline(w, "Labels", ps.Labels)
printAnnotationsMultiline(w, "Annotations", ps.Annotations)
w.Write(LEVEL_0, "Replicas:\t%d desired | %d total\n", ps.Spec.Replicas, ps.Status.Replicas)
w.Write(LEVEL_0, "Update Strategy:\t%s\n", ps.Spec.UpdateStrategy.Type)
if ps.Spec.UpdateStrategy.RollingUpdate != nil {
ru := ps.Spec.UpdateStrategy.RollingUpdate
if ru.Partition != 0 {
w.Write(LEVEL_1, "Partition:\t%d\n", ru.Partition)
}
}
w.Write(LEVEL_0, "Pods Status:\t%d Running / %d Waiting / %d Succeeded / %d Failed\n", running, waiting, succeeded, failed)
DescribePodTemplate(&ps.Spec.Template, w)
describeVolumeClaimTemplates(ps.Spec.VolumeClaimTemplates, w)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
type CertificateSigningRequestDescriber struct {
client clientset.Interface
}
func (p *CertificateSigningRequestDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
csr, err := p.client.Certificates().CertificateSigningRequests().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
cr, err := certificates.ParseCSR(csr)
if err != nil {
return "", fmt.Errorf("Error parsing CSR: %v", err)
}
status, err := extractCSRStatus(csr)
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = p.client.Core().Events(namespace).Search(legacyscheme.Scheme, csr)
}
return describeCertificateSigningRequest(csr, cr, status, events)
}
func describeCertificateSigningRequest(csr *certificates.CertificateSigningRequest, cr *x509.CertificateRequest, status string, events *api.EventList) (string, error) {
printListHelper := func(w PrefixWriter, prefix, name string, values []string) {
if len(values) == 0 {
return
}
w.Write(LEVEL_0, prefix+name+":\t")
w.Write(LEVEL_0, strings.Join(values, "\n"+prefix+"\t"))
w.Write(LEVEL_0, "\n")
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", csr.Name)
w.Write(LEVEL_0, "Labels:\t%s\n", labels.FormatLabels(csr.Labels))
w.Write(LEVEL_0, "Annotations:\t%s\n", labels.FormatLabels(csr.Annotations))
w.Write(LEVEL_0, "CreationTimestamp:\t%s\n", csr.CreationTimestamp.Time.Format(time.RFC1123Z))
w.Write(LEVEL_0, "Requesting User:\t%s\n", csr.Spec.Username)
w.Write(LEVEL_0, "Status:\t%s\n", status)
w.Write(LEVEL_0, "Subject:\n")
w.Write(LEVEL_0, "\tCommon Name:\t%s\n", cr.Subject.CommonName)
w.Write(LEVEL_0, "\tSerial Number:\t%s\n", cr.Subject.SerialNumber)
printListHelper(w, "\t", "Organization", cr.Subject.Organization)
printListHelper(w, "\t", "Organizational Unit", cr.Subject.OrganizationalUnit)
printListHelper(w, "\t", "Country", cr.Subject.Country)
printListHelper(w, "\t", "Locality", cr.Subject.Locality)
printListHelper(w, "\t", "Province", cr.Subject.Province)
printListHelper(w, "\t", "StreetAddress", cr.Subject.StreetAddress)
printListHelper(w, "\t", "PostalCode", cr.Subject.PostalCode)
if len(cr.DNSNames)+len(cr.EmailAddresses)+len(cr.IPAddresses) > 0 {
w.Write(LEVEL_0, "Subject Alternative Names:\n")
printListHelper(w, "\t", "DNS Names", cr.DNSNames)
printListHelper(w, "\t", "Email Addresses", cr.EmailAddresses)
var ipaddrs []string
for _, ipaddr := range cr.IPAddresses {
ipaddrs = append(ipaddrs, ipaddr.String())
}
printListHelper(w, "\t", "IP Addresses", ipaddrs)
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// HorizontalPodAutoscalerDescriber generates information about a horizontal pod autoscaler.
type HorizontalPodAutoscalerDescriber struct {
client clientset.Interface
}
func (d *HorizontalPodAutoscalerDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
hpa, err := d.client.Autoscaling().HorizontalPodAutoscalers(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = d.client.Core().Events(namespace).Search(legacyscheme.Scheme, hpa)
}
return describeHorizontalPodAutoscaler(hpa, events, d)
}
func describeHorizontalPodAutoscaler(hpa *autoscaling.HorizontalPodAutoscaler, events *api.EventList, d *HorizontalPodAutoscalerDescriber) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", hpa.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", hpa.Namespace)
printLabelsMultiline(w, "Labels", hpa.Labels)
printAnnotationsMultiline(w, "Annotations", hpa.Annotations)
w.Write(LEVEL_0, "CreationTimestamp:\t%s\n", hpa.CreationTimestamp.Time.Format(time.RFC1123Z))
w.Write(LEVEL_0, "Reference:\t%s/%s\n",
hpa.Spec.ScaleTargetRef.Kind,
hpa.Spec.ScaleTargetRef.Name)
w.Write(LEVEL_0, "Metrics:\t( current / target )\n")
for i, metric := range hpa.Spec.Metrics {
switch metric.Type {
case autoscaling.ExternalMetricSourceType:
if metric.External.TargetAverageValue != nil {
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].External != nil &&
hpa.Status.CurrentMetrics[i].External.CurrentAverageValue != nil {
current = hpa.Status.CurrentMetrics[i].External.CurrentAverageValue.String()
}
w.Write(LEVEL_1, "%q (target average value):\t%s / %s\n", metric.External.MetricName, current, metric.External.TargetAverageValue.String())
} else {
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].External != nil {
current = hpa.Status.CurrentMetrics[i].External.CurrentValue.String()
}
w.Write(LEVEL_1, "%q (target value):\t%s / %s\n", metric.External.MetricName, current, metric.External.TargetValue.String())
}
case autoscaling.PodsMetricSourceType:
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].Pods != nil {
current = hpa.Status.CurrentMetrics[i].Pods.CurrentAverageValue.String()
}
w.Write(LEVEL_1, "%q on pods:\t%s / %s\n", metric.Pods.MetricName, current, metric.Pods.TargetAverageValue.String())
case autoscaling.ObjectMetricSourceType:
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].Object != nil {
current = hpa.Status.CurrentMetrics[i].Object.CurrentValue.String()
}
w.Write(LEVEL_1, "%q on %s/%s:\t%s / %s\n", metric.Object.MetricName, metric.Object.Target.Kind, metric.Object.Target.Name, current, metric.Object.TargetValue.String())
case autoscaling.ResourceMetricSourceType:
w.Write(LEVEL_1, "resource %s on pods", string(metric.Resource.Name))
if metric.Resource.TargetAverageValue != nil {
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].Resource != nil {
current = hpa.Status.CurrentMetrics[i].Resource.CurrentAverageValue.String()
}
w.Write(LEVEL_0, ":\t%s / %s\n", current, metric.Resource.TargetAverageValue.String())
} else {
current := "<unknown>"
if len(hpa.Status.CurrentMetrics) > i && hpa.Status.CurrentMetrics[i].Resource != nil && hpa.Status.CurrentMetrics[i].Resource.CurrentAverageUtilization != nil {
current = fmt.Sprintf("%d%% (%s)", *hpa.Status.CurrentMetrics[i].Resource.CurrentAverageUtilization, hpa.Status.CurrentMetrics[i].Resource.CurrentAverageValue.String())
}
target := "<auto>"
if metric.Resource.TargetAverageUtilization != nil {
target = fmt.Sprintf("%d%%", *metric.Resource.TargetAverageUtilization)
}
w.Write(LEVEL_1, "(as a percentage of request):\t%s / %s\n", current, target)
}
default:
w.Write(LEVEL_1, "<unknown metric type %q>", string(metric.Type))
}
}
minReplicas := "<unset>"
if hpa.Spec.MinReplicas != nil {
minReplicas = fmt.Sprintf("%d", *hpa.Spec.MinReplicas)
}
w.Write(LEVEL_0, "Min replicas:\t%s\n", minReplicas)
w.Write(LEVEL_0, "Max replicas:\t%d\n", hpa.Spec.MaxReplicas)
w.Write(LEVEL_0, "%s pods:\t", hpa.Spec.ScaleTargetRef.Kind)
w.Write(LEVEL_0, "%d current / %d desired\n", hpa.Status.CurrentReplicas, hpa.Status.DesiredReplicas)
if len(hpa.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n")
w.Write(LEVEL_1, "Type\tStatus\tReason\tMessage\n")
w.Write(LEVEL_1, "----\t------\t------\t-------\n")
for _, c := range hpa.Status.Conditions {
w.Write(LEVEL_1, "%v\t%v\t%v\t%v\n", c.Type, c.Status, c.Reason, c.Message)
}
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func describeNodeResource(nodeNonTerminatedPodsList *api.PodList, node *api.Node, w PrefixWriter) {
w.Write(LEVEL_0, "Non-terminated Pods:\t(%d in total)\n", len(nodeNonTerminatedPodsList.Items))
w.Write(LEVEL_1, "Namespace\tName\t\tCPU Requests\tCPU Limits\tMemory Requests\tMemory Limits\n")
w.Write(LEVEL_1, "---------\t----\t\t------------\t----------\t---------------\t-------------\n")
allocatable := node.Status.Capacity
if len(node.Status.Allocatable) > 0 {
allocatable = node.Status.Allocatable
}
for _, pod := range nodeNonTerminatedPodsList.Items {
req, limit := resourcehelper.PodRequestsAndLimits(&pod)
cpuReq, cpuLimit, memoryReq, memoryLimit := req[api.ResourceCPU], limit[api.ResourceCPU], req[api.ResourceMemory], limit[api.ResourceMemory]
fractionCpuReq := float64(cpuReq.MilliValue()) / float64(allocatable.Cpu().MilliValue()) * 100
fractionCpuLimit := float64(cpuLimit.MilliValue()) / float64(allocatable.Cpu().MilliValue()) * 100
fractionMemoryReq := float64(memoryReq.Value()) / float64(allocatable.Memory().Value()) * 100
fractionMemoryLimit := float64(memoryLimit.Value()) / float64(allocatable.Memory().Value()) * 100
w.Write(LEVEL_1, "%s\t%s\t\t%s (%d%%)\t%s (%d%%)\t%s (%d%%)\t%s (%d%%)\n", pod.Namespace, pod.Name,
cpuReq.String(), int64(fractionCpuReq), cpuLimit.String(), int64(fractionCpuLimit),
memoryReq.String(), int64(fractionMemoryReq), memoryLimit.String(), int64(fractionMemoryLimit))
}
w.Write(LEVEL_0, "Allocated resources:\n (Total limits may be over 100 percent, i.e., overcommitted.)\n")
w.Write(LEVEL_1, "Resource\tRequests\tLimits\n")
w.Write(LEVEL_1, "--------\t--------\t------\n")
reqs, limits := getPodsTotalRequestsAndLimits(nodeNonTerminatedPodsList)
cpuReqs, cpuLimits, memoryReqs, memoryLimits := reqs[api.ResourceCPU], limits[api.ResourceCPU], reqs[api.ResourceMemory], limits[api.ResourceMemory]
fractionCpuReqs := float64(0)
fractionCpuLimits := float64(0)
if allocatable.Cpu().MilliValue() != 0 {
fractionCpuReqs = float64(cpuReqs.MilliValue()) / float64(allocatable.Cpu().MilliValue()) * 100
fractionCpuLimits = float64(cpuLimits.MilliValue()) / float64(allocatable.Cpu().MilliValue()) * 100
}
fractionMemoryReqs := float64(0)
fractionMemoryLimits := float64(0)
if allocatable.Memory().Value() != 0 {
fractionMemoryReqs = float64(memoryReqs.Value()) / float64(allocatable.Memory().Value()) * 100
fractionMemoryLimits = float64(memoryLimits.Value()) / float64(allocatable.Memory().Value()) * 100
}
w.Write(LEVEL_1, "%s\t%s (%d%%)\t%s (%d%%)\n",
api.ResourceCPU, cpuReqs.String(), int64(fractionCpuReqs), cpuLimits.String(), int64(fractionCpuLimits))
w.Write(LEVEL_1, "%s\t%s (%d%%)\t%s (%d%%)\n",
api.ResourceMemory, memoryReqs.String(), int64(fractionMemoryReqs), memoryLimits.String(), int64(fractionMemoryLimits))
extResources := make([]string, 0, len(allocatable))
for resource := range allocatable {
if !helper.IsStandardContainerResourceName(string(resource)) && resource != api.ResourcePods {
extResources = append(extResources, string(resource))
}
}
sort.Strings(extResources)
for _, ext := range extResources {
extRequests, extLimits := reqs[api.ResourceName(ext)], limits[api.ResourceName(ext)]
w.Write(LEVEL_1, "%s\t%s\t%s\n", ext, extRequests.String(), extLimits.String())
}
}
func getPodsTotalRequestsAndLimits(podList *api.PodList) (reqs map[api.ResourceName]resource.Quantity, limits map[api.ResourceName]resource.Quantity) {
reqs, limits = map[api.ResourceName]resource.Quantity{}, map[api.ResourceName]resource.Quantity{}
for _, pod := range podList.Items {
podReqs, podLimits := resourcehelper.PodRequestsAndLimits(&pod)
for podReqName, podReqValue := range podReqs {
if value, ok := reqs[podReqName]; !ok {
reqs[podReqName] = *podReqValue.Copy()
} else {
value.Add(podReqValue)
reqs[podReqName] = value
}
}
for podLimitName, podLimitValue := range podLimits {
if value, ok := limits[podLimitName]; !ok {
limits[podLimitName] = *podLimitValue.Copy()
} else {
value.Add(podLimitValue)
limits[podLimitName] = value
}
}
}
return
}
func DescribeEvents(el *api.EventList, w PrefixWriter) {
if len(el.Items) == 0 {
w.Write(LEVEL_0, "Events:\t<none>\n")
return
}
w.Flush()
sort.Sort(events.SortableEvents(el.Items))
w.Write(LEVEL_0, "Events:\n Type\tReason\tAge\tFrom\tMessage\n")
w.Write(LEVEL_1, "----\t------\t----\t----\t-------\n")
for _, e := range el.Items {
var interval string
if e.Count > 1 {
interval = fmt.Sprintf("%s (x%d over %s)", translateTimestamp(e.LastTimestamp), e.Count, translateTimestamp(e.FirstTimestamp))
} else {
interval = translateTimestamp(e.FirstTimestamp)
}
w.Write(LEVEL_1, "%v\t%v\t%s\t%v\t%v\n",
e.Type,
e.Reason,
interval,
formatEventSource(e.Source),
strings.TrimSpace(e.Message),
)
}
}
// DeploymentDescriber generates information about a deployment.
type DeploymentDescriber struct {
clientset.Interface
external externalclient.Interface
}
func (dd *DeploymentDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
d, err := dd.external.AppsV1().Deployments(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
selector, err := metav1.LabelSelectorAsSelector(d.Spec.Selector)
if err != nil {
return "", err
}
internalDeployment := &extensions.Deployment{}
if err := legacyscheme.Scheme.Convert(d, internalDeployment, extensions.SchemeGroupVersion); err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = dd.Core().Events(namespace).Search(legacyscheme.Scheme, d)
}
return describeDeployment(d, selector, internalDeployment, events, dd)
}
func describeDeployment(d *appsv1.Deployment, selector labels.Selector, internalDeployment *extensions.Deployment, events *api.EventList, dd *DeploymentDescriber) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", d.ObjectMeta.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", d.ObjectMeta.Namespace)
w.Write(LEVEL_0, "CreationTimestamp:\t%s\n", d.CreationTimestamp.Time.Format(time.RFC1123Z))
printLabelsMultiline(w, "Labels", d.Labels)
printAnnotationsMultiline(w, "Annotations", d.Annotations)
w.Write(LEVEL_0, "Selector:\t%s\n", selector)
w.Write(LEVEL_0, "Replicas:\t%d desired | %d updated | %d total | %d available | %d unavailable\n", *(d.Spec.Replicas), d.Status.UpdatedReplicas, d.Status.Replicas, d.Status.AvailableReplicas, d.Status.UnavailableReplicas)
w.Write(LEVEL_0, "StrategyType:\t%s\n", d.Spec.Strategy.Type)
w.Write(LEVEL_0, "MinReadySeconds:\t%d\n", d.Spec.MinReadySeconds)
if d.Spec.Strategy.RollingUpdate != nil {
ru := d.Spec.Strategy.RollingUpdate
w.Write(LEVEL_0, "RollingUpdateStrategy:\t%s max unavailable, %s max surge\n", ru.MaxUnavailable.String(), ru.MaxSurge.String())
}
DescribePodTemplate(&internalDeployment.Spec.Template, w)
if len(d.Status.Conditions) > 0 {
w.Write(LEVEL_0, "Conditions:\n Type\tStatus\tReason\n")
w.Write(LEVEL_1, "----\t------\t------\n")
for _, c := range d.Status.Conditions {
w.Write(LEVEL_1, "%v \t%v\t%v\n", c.Type, c.Status, c.Reason)
}
}
oldRSs, _, newRS, err := deploymentutil.GetAllReplicaSets(d, dd.external.AppsV1())
if err == nil {
w.Write(LEVEL_0, "OldReplicaSets:\t%s\n", printReplicaSetsByLabels(oldRSs))
var newRSs []*appsv1.ReplicaSet
if newRS != nil {
newRSs = append(newRSs, newRS)
}
w.Write(LEVEL_0, "NewReplicaSet:\t%s\n", printReplicaSetsByLabels(newRSs))
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
func printReplicaSetsByLabels(matchingRSs []*appsv1.ReplicaSet) string {
// Format the matching ReplicaSets into strings.
rsStrings := make([]string, 0, len(matchingRSs))
for _, rs := range matchingRSs {
rsStrings = append(rsStrings, fmt.Sprintf("%s (%d/%d replicas created)", rs.Name, rs.Status.Replicas, *rs.Spec.Replicas))
}
list := strings.Join(rsStrings, ", ")
if list == "" {
return "<none>"
}
return list
}
func getPodStatusForController(c coreclient.PodInterface, selector labels.Selector, uid types.UID) (running, waiting, succeeded, failed int, err error) {
options := metav1.ListOptions{LabelSelector: selector.String()}
rcPods, err := c.List(options)
if err != nil {
return
}
for _, pod := range rcPods.Items {
controllerRef := metav1.GetControllerOf(&pod)
// Skip pods that are orphans or owned by other controllers.
if controllerRef == nil || controllerRef.UID != uid {
continue
}
switch pod.Status.Phase {
case api.PodRunning:
running++
case api.PodPending:
waiting++
case api.PodSucceeded:
succeeded++
case api.PodFailed:
failed++
}
}
return
}
// ConfigMapDescriber generates information about a ConfigMap
type ConfigMapDescriber struct {
clientset.Interface
}
func (d *ConfigMapDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Core().ConfigMaps(namespace)
configMap, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", configMap.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", configMap.Namespace)
printLabelsMultiline(w, "Labels", configMap.Labels)
printAnnotationsMultiline(w, "Annotations", configMap.Annotations)
w.Write(LEVEL_0, "\nData\n====\n")
for k, v := range configMap.Data {
w.Write(LEVEL_0, "%s:\n----\n", k)
w.Write(LEVEL_0, "%s\n", string(v))
}
if describerSettings.ShowEvents {
events, err := d.Core().Events(namespace).Search(legacyscheme.Scheme, configMap)
if err != nil {
return err
}
if events != nil {
DescribeEvents(events, w)
}
}
return nil
})
}
// NetworkPolicyDescriber generates information about a networking.NetworkPolicy
type NetworkPolicyDescriber struct {
clientset.Interface
}
func (d *NetworkPolicyDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
c := d.Networking().NetworkPolicies(namespace)
networkPolicy, err := c.Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return describeNetworkPolicy(networkPolicy)
}
func describeNetworkPolicy(networkPolicy *networking.NetworkPolicy) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", networkPolicy.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", networkPolicy.Namespace)
w.Write(LEVEL_0, "Created on:\t%s\n", networkPolicy.CreationTimestamp)
printLabelsMultiline(w, "Labels", networkPolicy.Labels)
printAnnotationsMultiline(w, "Annotations", networkPolicy.Annotations)
describeNetworkPolicySpec(networkPolicy.Spec, w)
return nil
})
}
func describeNetworkPolicySpec(nps networking.NetworkPolicySpec, w PrefixWriter) {
w.Write(LEVEL_0, "Spec:\n")
w.Write(LEVEL_1, "PodSelector: ")
if len(nps.PodSelector.MatchLabels) == 0 && len(nps.PodSelector.MatchExpressions) == 0 {
w.Write(LEVEL_2, "<none> (Allowing the specific traffic to all pods in this namespace)\n")
} else {
w.Write(LEVEL_2, "%s\n", metav1.FormatLabelSelector(&nps.PodSelector))
}
w.Write(LEVEL_1, "Allowing ingress traffic:\n")
printNetworkPolicySpecIngressFrom(nps.Ingress, " ", w)
w.Write(LEVEL_1, "Allowing egress traffic:\n")
printNetworkPolicySpecEgressTo(nps.Egress, " ", w)
w.Write(LEVEL_1, "Policy Types: %v\n", policyTypesToString(nps.PolicyTypes))
}
func printNetworkPolicySpecIngressFrom(npirs []networking.NetworkPolicyIngressRule, initialIndent string, w PrefixWriter) {
if len(npirs) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "<none> (Selected pods are isolated for ingress connectivity)")
return
}
for i, npir := range npirs {
if len(npir.Ports) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "To Port: <any> (traffic allowed to all ports)")
} else {
for _, port := range npir.Ports {
var proto api.Protocol
if port.Protocol != nil {
proto = *port.Protocol
} else {
proto = api.ProtocolTCP
}
w.Write(LEVEL_0, "%s%s: %s/%s\n", initialIndent, "To Port", port.Port, proto)
}
}
if len(npir.From) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "From: <any> (traffic not restricted by source)")
} else {
for _, from := range npir.From {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "From:")
if from.PodSelector != nil && from.NamespaceSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "NamespaceSelector", metav1.FormatLabelSelector(from.NamespaceSelector))
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "PodSelector", metav1.FormatLabelSelector(from.PodSelector))
} else if from.PodSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "PodSelector", metav1.FormatLabelSelector(from.PodSelector))
} else if from.NamespaceSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "NamespaceSelector", metav1.FormatLabelSelector(from.NamespaceSelector))
} else if from.IPBlock != nil {
w.Write(LEVEL_1, "%sIPBlock:\n", initialIndent)
w.Write(LEVEL_2, "%sCIDR: %s\n", initialIndent, from.IPBlock.CIDR)
w.Write(LEVEL_2, "%sExcept: %v\n", initialIndent, strings.Join(from.IPBlock.Except, ", "))
}
}
}
if i != len(npirs)-1 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "----------")
}
}
}
func printNetworkPolicySpecEgressTo(npers []networking.NetworkPolicyEgressRule, initialIndent string, w PrefixWriter) {
if len(npers) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "<none> (Selected pods are isolated for egress connectivity)")
return
}
for i, nper := range npers {
if len(nper.Ports) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "To Port: <any> (traffic allowed to all ports)")
} else {
for _, port := range nper.Ports {
var proto api.Protocol
if port.Protocol != nil {
proto = *port.Protocol
} else {
proto = api.ProtocolTCP
}
w.Write(LEVEL_0, "%s%s: %s/%s\n", initialIndent, "To Port", port.Port, proto)
}
}
if len(nper.To) == 0 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "To: <any> (traffic not restricted by source)")
} else {
for _, to := range nper.To {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "To:")
if to.PodSelector != nil && to.NamespaceSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "NamespaceSelector", metav1.FormatLabelSelector(to.NamespaceSelector))
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "PodSelector", metav1.FormatLabelSelector(to.PodSelector))
} else if to.PodSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "PodSelector", metav1.FormatLabelSelector(to.PodSelector))
} else if to.NamespaceSelector != nil {
w.Write(LEVEL_1, "%s%s: %s\n", initialIndent, "NamespaceSelector", metav1.FormatLabelSelector(to.NamespaceSelector))
} else if to.IPBlock != nil {
w.Write(LEVEL_1, "%sIPBlock:\n", initialIndent)
w.Write(LEVEL_2, "%sCIDR: %s\n", initialIndent, to.IPBlock.CIDR)
w.Write(LEVEL_2, "%sExcept: %v\n", initialIndent, strings.Join(to.IPBlock.Except, ", "))
}
}
}
if i != len(npers)-1 {
w.Write(LEVEL_0, "%s%s\n", initialIndent, "----------")
}
}
}
type StorageClassDescriber struct {
clientset.Interface
}
func (s *StorageClassDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
sc, err := s.Storage().StorageClasses().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = s.Core().Events(namespace).Search(legacyscheme.Scheme, sc)
}
return describeStorageClass(sc, events)
}
func describeStorageClass(sc *storage.StorageClass, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", sc.Name)
w.Write(LEVEL_0, "IsDefaultClass:\t%s\n", storageutil.IsDefaultAnnotationText(sc.ObjectMeta))
w.Write(LEVEL_0, "Annotations:\t%s\n", labels.FormatLabels(sc.Annotations))
w.Write(LEVEL_0, "Provisioner:\t%s\n", sc.Provisioner)
w.Write(LEVEL_0, "Parameters:\t%s\n", labels.FormatLabels(sc.Parameters))
w.Write(LEVEL_0, "AllowVolumeExpansion:\t%s\n", printBoolPtr(sc.AllowVolumeExpansion))
if len(sc.MountOptions) == 0 {
w.Write(LEVEL_0, "MountOptions:\t<none>\n")
} else {
w.Write(LEVEL_0, "MountOptions:\n")
for _, option := range sc.MountOptions {
w.Write(LEVEL_1, "%s\n", option)
}
}
if sc.ReclaimPolicy != nil {
w.Write(LEVEL_0, "ReclaimPolicy:\t%s\n", *sc.ReclaimPolicy)
}
if sc.VolumeBindingMode != nil {
w.Write(LEVEL_0, "VolumeBindingMode:\t%s\n", *sc.VolumeBindingMode)
}
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
type PodDisruptionBudgetDescriber struct {
clientset.Interface
}
func (p *PodDisruptionBudgetDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
pdb, err := p.Policy().PodDisruptionBudgets(namespace).Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = p.Core().Events(namespace).Search(legacyscheme.Scheme, pdb)
}
return describePodDisruptionBudget(pdb, events)
}
func describePodDisruptionBudget(pdb *policy.PodDisruptionBudget, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", pdb.Name)
w.Write(LEVEL_0, "Namespace:\t%s\n", pdb.Namespace)
if pdb.Spec.MinAvailable != nil {
w.Write(LEVEL_0, "Min available:\t%s\n", pdb.Spec.MinAvailable.String())
} else if pdb.Spec.MaxUnavailable != nil {
w.Write(LEVEL_0, "Max unavailable:\t%s\n", pdb.Spec.MaxUnavailable.String())
}
if pdb.Spec.Selector != nil {
w.Write(LEVEL_0, "Selector:\t%s\n", metav1.FormatLabelSelector(pdb.Spec.Selector))
} else {
w.Write(LEVEL_0, "Selector:\t<unset>\n")
}
w.Write(LEVEL_0, "Status:\n")
w.Write(LEVEL_2, "Allowed disruptions:\t%d\n", pdb.Status.PodDisruptionsAllowed)
w.Write(LEVEL_2, "Current:\t%d\n", pdb.Status.CurrentHealthy)
w.Write(LEVEL_2, "Desired:\t%d\n", pdb.Status.DesiredHealthy)
w.Write(LEVEL_2, "Total:\t%d\n", pdb.Status.ExpectedPods)
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// PriorityClassDescriber generates information about a PriorityClass.
type PriorityClassDescriber struct {
clientset.Interface
}
func (s *PriorityClassDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
pc, err := s.Scheduling().PriorityClasses().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
var events *api.EventList
if describerSettings.ShowEvents {
events, _ = s.Core().Events(namespace).Search(legacyscheme.Scheme, pc)
}
return describePriorityClass(pc, events)
}
func describePriorityClass(pc *scheduling.PriorityClass, events *api.EventList) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", pc.Name)
w.Write(LEVEL_0, "Value:\t%v\n", pc.Value)
w.Write(LEVEL_0, "GlobalDefault:\t%v\n", pc.GlobalDefault)
w.Write(LEVEL_0, "Description:\t%s\n", pc.Description)
w.Write(LEVEL_0, "Annotations:\t%s\n", labels.FormatLabels(pc.Annotations))
if events != nil {
DescribeEvents(events, w)
}
return nil
})
}
// PodSecurityPolicyDescriber generates information about a PodSecurityPolicy.
type PodSecurityPolicyDescriber struct {
clientset.Interface
}
func (d *PodSecurityPolicyDescriber) Describe(namespace, name string, describerSettings printers.DescriberSettings) (string, error) {
psp, err := d.Policy().PodSecurityPolicies().Get(name, metav1.GetOptions{})
if err != nil {
return "", err
}
return describePodSecurityPolicy(psp)
}
func describePodSecurityPolicy(psp *policy.PodSecurityPolicy) (string, error) {
return tabbedString(func(out io.Writer) error {
w := NewPrefixWriter(out)
w.Write(LEVEL_0, "Name:\t%s\n", psp.Name)
w.Write(LEVEL_0, "\nSettings:\n")
w.Write(LEVEL_1, "Allow Privileged:\t%t\n", psp.Spec.Privileged)
w.Write(LEVEL_1, "Allow Privilege Escalation:\t%v\n", psp.Spec.AllowPrivilegeEscalation)
w.Write(LEVEL_1, "Default Add Capabilities:\t%v\n", capsToString(psp.Spec.DefaultAddCapabilities))
w.Write(LEVEL_1, "Required Drop Capabilities:\t%s\n", capsToString(psp.Spec.RequiredDropCapabilities))
w.Write(LEVEL_1, "Allowed Capabilities:\t%s\n", capsToString(psp.Spec.AllowedCapabilities))
w.Write(LEVEL_1, "Allowed Volume Types:\t%s\n", fsTypeToString(psp.Spec.Volumes))
if len(psp.Spec.AllowedFlexVolumes) > 0 {
w.Write(LEVEL_1, "Allowed FlexVolume Types:\t%s\n", flexVolumesToString(psp.Spec.AllowedFlexVolumes))
}
w.Write(LEVEL_1, "Allow Host Network:\t%t\n", psp.Spec.HostNetwork)
w.Write(LEVEL_1, "Allow Host Ports:\t%s\n", hostPortRangeToString(psp.Spec.HostPorts))
w.Write(LEVEL_1, "Allow Host PID:\t%t\n", psp.Spec.HostPID)
w.Write(LEVEL_1, "Allow Host IPC:\t%t\n", psp.Spec.HostIPC)
w.Write(LEVEL_1, "Read Only Root Filesystem:\t%v\n", psp.Spec.ReadOnlyRootFilesystem)
w.Write(LEVEL_1, "SELinux Context Strategy: %s\t\n", string(psp.Spec.SELinux.Rule))
var user, role, seLinuxType, level string
if psp.Spec.SELinux.SELinuxOptions != nil {
user = psp.Spec.SELinux.SELinuxOptions.User
role = psp.Spec.SELinux.SELinuxOptions.Role
seLinuxType = psp.Spec.SELinux.SELinuxOptions.Type
level = psp.Spec.SELinux.SELinuxOptions.Level
}
w.Write(LEVEL_2, "User:\t%s\n", stringOrNone(user))
w.Write(LEVEL_2, "Role:\t%s\n", stringOrNone(role))
w.Write(LEVEL_2, "Type:\t%s\n", stringOrNone(seLinuxType))
w.Write(LEVEL_2, "Level:\t%s\n", stringOrNone(level))
w.Write(LEVEL_1, "Run As User Strategy: %s\t\n", string(psp.Spec.RunAsUser.Rule))
w.Write(LEVEL_2, "Ranges:\t%s\n", idRangeToString(psp.Spec.RunAsUser.Ranges))
w.Write(LEVEL_1, "FSGroup Strategy: %s\t\n", string(psp.Spec.FSGroup.Rule))
w.Write(LEVEL_2, "Ranges:\t%s\n", idRangeToString(psp.Spec.FSGroup.Ranges))
w.Write(LEVEL_1, "Supplemental Groups Strategy: %s\t\n", string(psp.Spec.SupplementalGroups.Rule))
w.Write(LEVEL_2, "Ranges:\t%s\n", idRangeToString(psp.Spec.SupplementalGroups.Ranges))
return nil
})
}
func stringOrNone(s string) string {
return stringOrDefaultValue(s, "<none>")
}
func stringOrDefaultValue(s, defaultValue string) string {
if len(s) > 0 {
return s
}
return defaultValue
}
func fsTypeToString(volumes []policy.FSType) string {
strVolumes := []string{}
for _, v := range volumes {
strVolumes = append(strVolumes, string(v))
}
return stringOrNone(strings.Join(strVolumes, ","))
}
func flexVolumesToString(flexVolumes []policy.AllowedFlexVolume) string {
volumes := []string{}
for _, flexVolume := range flexVolumes {
volumes = append(volumes, "driver="+flexVolume.Driver)
}
return stringOrDefaultValue(strings.Join(volumes, ","), "<all>")
}
func hostPortRangeToString(ranges []policy.HostPortRange) string {
formattedString := ""
if ranges != nil {
strRanges := []string{}
for _, r := range ranges {
strRanges = append(strRanges, fmt.Sprintf("%d-%d", r.Min, r.Max))
}
formattedString = strings.Join(strRanges, ",")
}
return stringOrNone(formattedString)
}
func idRangeToString(ranges []policy.IDRange) string {
formattedString := ""
if ranges != nil {
strRanges := []string{}
for _, r := range ranges {
strRanges = append(strRanges, fmt.Sprintf("%d-%d", r.Min, r.Max))
}
formattedString = strings.Join(strRanges, ",")
}
return stringOrNone(formattedString)
}
func capsToString(caps []api.Capability) string {
formattedString := ""
if caps != nil {
strCaps := []string{}
for _, c := range caps {
strCaps = append(strCaps, string(c))
}
formattedString = strings.Join(strCaps, ",")
}
return stringOrNone(formattedString)
}
func policyTypesToString(pts []networking.PolicyType) string {
formattedString := ""
if pts != nil {
strPts := []string{}
for _, p := range pts {
strPts = append(strPts, string(p))
}
formattedString = strings.Join(strPts, ", ")
}
return stringOrNone(formattedString)
}
// newErrNoDescriber creates a new ErrNoDescriber with the names of the provided types.
func newErrNoDescriber(types ...reflect.Type) error {
names := make([]string, 0, len(types))
for _, t := range types {
names = append(names, t.String())
}
return printers.ErrNoDescriber{Types: names}
}
// Describers implements ObjectDescriber against functions registered via Add. Those functions can
// be strongly typed. Types are exactly matched (no conversion or assignable checks).
type Describers struct {
searchFns map[reflect.Type][]typeFunc
}
// DescribeObject implements ObjectDescriber and will attempt to print the provided object to a string,
// if at least one describer function has been registered with the exact types passed, or if any
// describer can print the exact object in its first argument (the remainder will be provided empty
// values). If no function registered with Add can satisfy the passed objects, an ErrNoDescriber will
// be returned
// TODO: reorder and partial match extra.
func (d *Describers) DescribeObject(exact interface{}, extra ...interface{}) (string, error) {
exactType := reflect.TypeOf(exact)
fns, ok := d.searchFns[exactType]
if !ok {
return "", newErrNoDescriber(exactType)
}
if len(extra) == 0 {
for _, typeFn := range fns {
if len(typeFn.Extra) == 0 {
return typeFn.Describe(exact, extra...)
}
}
typeFn := fns[0]
for _, t := range typeFn.Extra {
v := reflect.New(t).Elem()
extra = append(extra, v.Interface())
}
return fns[0].Describe(exact, extra...)
}
types := make([]reflect.Type, 0, len(extra))
for _, obj := range extra {
types = append(types, reflect.TypeOf(obj))
}
for _, typeFn := range fns {
if typeFn.Matches(types) {
return typeFn.Describe(exact, extra...)
}
}
return "", newErrNoDescriber(append([]reflect.Type{exactType}, types...)...)
}
// Add adds one or more describer functions to the printers.Describer. The passed function must
// match the signature:
//
// func(...) (string, error)
//
// Any number of arguments may be provided.
func (d *Describers) Add(fns ...interface{}) error {
for _, fn := range fns {
fv := reflect.ValueOf(fn)
ft := fv.Type()
if ft.Kind() != reflect.Func {
return fmt.Errorf("expected func, got: %v", ft)
}
numIn := ft.NumIn()
if numIn == 0 {
return fmt.Errorf("expected at least one 'in' params, got: %v", ft)
}
if ft.NumOut() != 2 {
return fmt.Errorf("expected two 'out' params - (string, error), got: %v", ft)
}
types := make([]reflect.Type, 0, numIn)
for i := 0; i < numIn; i++ {
types = append(types, ft.In(i))
}
if ft.Out(0) != reflect.TypeOf(string("")) {
return fmt.Errorf("expected string return, got: %v", ft)
}
var forErrorType error
// This convolution is necessary, otherwise TypeOf picks up on the fact
// that forErrorType is nil.
errorType := reflect.TypeOf(&forErrorType).Elem()
if ft.Out(1) != errorType {
return fmt.Errorf("expected error return, got: %v", ft)
}
exact := types[0]
extra := types[1:]
if d.searchFns == nil {
d.searchFns = make(map[reflect.Type][]typeFunc)
}
fns := d.searchFns[exact]
fn := typeFunc{Extra: extra, Fn: fv}
fns = append(fns, fn)
d.searchFns[exact] = fns
}
return nil
}
// typeFunc holds information about a describer function and the types it accepts
type typeFunc struct {
Extra []reflect.Type
Fn reflect.Value
}
// Matches returns true when the passed types exactly match the Extra list.
func (fn typeFunc) Matches(types []reflect.Type) bool {
if len(fn.Extra) != len(types) {
return false
}
// reorder the items in array types and fn.Extra
// convert the type into string and sort them, check if they are matched
varMap := make(map[reflect.Type]bool)
for i := range fn.Extra {
varMap[fn.Extra[i]] = true
}
for i := range types {
if _, found := varMap[types[i]]; !found {
return false
}
}
return true
}
// Describe invokes the nested function with the exact number of arguments.
func (fn typeFunc) Describe(exact interface{}, extra ...interface{}) (string, error) {
values := []reflect.Value{reflect.ValueOf(exact)}
for _, obj := range extra {
values = append(values, reflect.ValueOf(obj))
}
out := fn.Fn.Call(values)
s := out[0].Interface().(string)
var err error
if !out[1].IsNil() {
err = out[1].Interface().(error)
}
return s, err
}
// printLabelsMultiline prints multiple labels with a proper alignment.
func printLabelsMultiline(w PrefixWriter, title string, labels map[string]string) {
printLabelsMultilineWithIndent(w, "", title, "\t", labels, sets.NewString())
}
// printLabelsMultiline prints multiple labels with a user-defined alignment.
func printLabelsMultilineWithIndent(w PrefixWriter, initialIndent, title, innerIndent string, labels map[string]string, skip sets.String) {
w.Write(LEVEL_0, "%s%s:%s", initialIndent, title, innerIndent)
if labels == nil || len(labels) == 0 {
w.WriteLine("<none>")
return
}
// to print labels in the sorted order
keys := make([]string, 0, len(labels))
for key := range labels {
if skip.Has(key) {
continue
}
keys = append(keys, key)
}
if len(keys) == 0 {
w.WriteLine("<none>")
return
}
sort.Strings(keys)
for i, key := range keys {
if i != 0 {
w.Write(LEVEL_0, "%s", initialIndent)
w.Write(LEVEL_0, "%s", innerIndent)
}
w.Write(LEVEL_0, "%s=%s\n", key, labels[key])
i++
}
}
// printTaintsMultiline prints multiple taints with a proper alignment.
func printNodeTaintsMultiline(w PrefixWriter, title string, taints []api.Taint) {
printTaintsMultilineWithIndent(w, "", title, "\t", taints)
}
// printTaintsMultilineWithIndent prints multiple taints with a user-defined alignment.
func printTaintsMultilineWithIndent(w PrefixWriter, initialIndent, title, innerIndent string, taints []api.Taint) {
w.Write(LEVEL_0, "%s%s:%s", initialIndent, title, innerIndent)
if taints == nil || len(taints) == 0 {
w.WriteLine("<none>")
return
}
// to print taints in the sorted order
sort.Slice(taints, func(i, j int) bool {
cmpKey := func(taint api.Taint) string {
return string(taint.Effect) + "," + taint.Key
}
return cmpKey(taints[i]) < cmpKey(taints[j])
})
for i, taint := range taints {
if i != 0 {
w.Write(LEVEL_0, "%s", initialIndent)
w.Write(LEVEL_0, "%s", innerIndent)
}
w.Write(LEVEL_0, "%s\n", taint.ToString())
}
}
// printPodTolerationsMultiline prints multiple tolerations with a proper alignment.
func printPodTolerationsMultiline(w PrefixWriter, title string, tolerations []api.Toleration) {
printTolerationsMultilineWithIndent(w, "", title, "\t", tolerations)
}
// printTolerationsMultilineWithIndent prints multiple tolerations with a user-defined alignment.
func printTolerationsMultilineWithIndent(w PrefixWriter, initialIndent, title, innerIndent string, tolerations []api.Toleration) {
w.Write(LEVEL_0, "%s%s:%s", initialIndent, title, innerIndent)
if tolerations == nil || len(tolerations) == 0 {
w.WriteLine("<none>")
return
}
// to print tolerations in the sorted order
sort.Slice(tolerations, func(i, j int) bool {
return tolerations[i].Key < tolerations[j].Key
})
for i, toleration := range tolerations {
if i != 0 {
w.Write(LEVEL_0, "%s", initialIndent)
w.Write(LEVEL_0, "%s", innerIndent)
}
w.Write(LEVEL_0, "%s", toleration.Key)
if len(toleration.Value) != 0 {
w.Write(LEVEL_0, "=%s", toleration.Value)
}
if len(toleration.Effect) != 0 {
w.Write(LEVEL_0, ":%s", toleration.Effect)
}
if toleration.TolerationSeconds != nil {
w.Write(LEVEL_0, " for %ds", *toleration.TolerationSeconds)
}
w.Write(LEVEL_0, "\n")
}
}
type flusher interface {
Flush()
}
func tabbedString(f func(io.Writer) error) (string, error) {
out := new(tabwriter.Writer)
buf := &bytes.Buffer{}
out.Init(buf, 0, 8, 2, ' ', 0)
err := f(out)
if err != nil {
return "", err
}
out.Flush()
str := string(buf.String())
return str, nil
}
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]
}
// SortedResourceNames returns the sorted resource names of a resource list.
func SortedResourceNames(list api.ResourceList) []api.ResourceName {
resources := make([]api.ResourceName, 0, len(list))
for res := range list {
resources = append(resources, res)
}
sort.Sort(SortableResourceNames(resources))
return resources
}
type SortableResourceQuotas []api.ResourceQuota
func (list SortableResourceQuotas) Len() int {
return len(list)
}
func (list SortableResourceQuotas) Swap(i, j int) {
list[i], list[j] = list[j], list[i]
}
func (list SortableResourceQuotas) Less(i, j int) bool {
return list[i].Name < list[j].Name
}
type SortableVolumeMounts []api.VolumeMount
func (list SortableVolumeMounts) Len() int {
return len(list)
}
func (list SortableVolumeMounts) Swap(i, j int) {
list[i], list[j] = list[j], list[i]
}
func (list SortableVolumeMounts) Less(i, j int) bool {
return list[i].MountPath < list[j].MountPath
}
type SortableVolumeDevices []api.VolumeDevice
func (list SortableVolumeDevices) Len() int {
return len(list)
}
func (list SortableVolumeDevices) Swap(i, j int) {
list[i], list[j] = list[j], list[i]
}
func (list SortableVolumeDevices) Less(i, j int) bool {
return list[i].DevicePath < list[j].DevicePath
}
var maxAnnotationLen = 200
// printAnnotationsMultilineWithFilter prints filtered multiple annotations with a proper alignment.
func printAnnotationsMultilineWithFilter(w PrefixWriter, title string, annotations map[string]string, skip sets.String) {
printAnnotationsMultilineWithIndent(w, "", title, "\t", annotations, skip)
}
// printAnnotationsMultiline prints multiple annotations with a proper alignment.
func printAnnotationsMultiline(w PrefixWriter, title string, annotations map[string]string) {
printAnnotationsMultilineWithIndent(w, "", title, "\t", annotations, sets.NewString())
}
// printAnnotationsMultilineWithIndent prints multiple annotations with a user-defined alignment.
// If annotation string is too long, we omit chars more than 200 length.
func printAnnotationsMultilineWithIndent(w PrefixWriter, initialIndent, title, innerIndent string, annotations map[string]string, skip sets.String) {
w.Write(LEVEL_0, "%s%s:%s", initialIndent, title, innerIndent)
if len(annotations) == 0 {
w.WriteLine("<none>")
return
}
// to print labels in the sorted order
keys := make([]string, 0, len(annotations))
for key := range annotations {
if skip.Has(key) {
continue
}
keys = append(keys, key)
}
if len(annotations) == 0 {
w.WriteLine("<none>")
return
}
sort.Strings(keys)
for i, key := range keys {
if i != 0 {
w.Write(LEVEL_0, initialIndent)
w.Write(LEVEL_0, innerIndent)
}
line := fmt.Sprintf("%s=%s", key, annotations[key])
if len(line) > maxAnnotationLen {
w.Write(LEVEL_0, "%s...\n", line[:maxAnnotationLen])
} else {
w.Write(LEVEL_0, "%s\n", line)
}
i++
}
}
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