/
strategy.go
719 lines (639 loc) · 22.5 KB
/
strategy.go
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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 pod
import (
"context"
"fmt"
"net"
"net/http"
"net/url"
"strconv"
"strings"
"time"
v1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/fields"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/types"
utilnet "k8s.io/apimachinery/pkg/util/net"
"k8s.io/apimachinery/pkg/util/validation/field"
genericfeatures "k8s.io/apiserver/pkg/features"
"k8s.io/apiserver/pkg/registry/generic"
"k8s.io/apiserver/pkg/storage"
"k8s.io/apiserver/pkg/storage/names"
utilfeature "k8s.io/apiserver/pkg/util/feature"
"k8s.io/client-go/tools/cache"
"k8s.io/kubernetes/pkg/api/legacyscheme"
podutil "k8s.io/kubernetes/pkg/api/pod"
api "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/core/helper/qos"
"k8s.io/kubernetes/pkg/apis/core/validation"
"k8s.io/kubernetes/pkg/kubelet/client"
proxyutil "k8s.io/kubernetes/pkg/proxy/util"
"sigs.k8s.io/structured-merge-diff/v4/fieldpath"
)
// podStrategy implements behavior for Pods
type podStrategy struct {
runtime.ObjectTyper
names.NameGenerator
}
// Strategy is the default logic that applies when creating and updating Pod
// objects via the REST API.
var Strategy = podStrategy{legacyscheme.Scheme, names.SimpleNameGenerator}
// NamespaceScoped is true for pods.
func (podStrategy) NamespaceScoped() bool {
return true
}
// GetResetFields returns the set of fields that get reset by the strategy
// and should not be modified by the user.
func (podStrategy) GetResetFields() map[fieldpath.APIVersion]*fieldpath.Set {
fields := map[fieldpath.APIVersion]*fieldpath.Set{
"v1": fieldpath.NewSet(
fieldpath.MakePathOrDie("status"),
),
}
return fields
}
// PrepareForCreate clears fields that are not allowed to be set by end users on creation.
func (podStrategy) PrepareForCreate(ctx context.Context, obj runtime.Object) {
pod := obj.(*api.Pod)
pod.Status = api.PodStatus{
Phase: api.PodPending,
QOSClass: qos.GetPodQOS(pod),
}
podutil.DropDisabledPodFields(pod, nil)
applySeccompVersionSkew(pod)
}
// PrepareForUpdate clears fields that are not allowed to be set by end users on update.
func (podStrategy) PrepareForUpdate(ctx context.Context, obj, old runtime.Object) {
newPod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
newPod.Status = oldPod.Status
podutil.DropDisabledPodFields(newPod, oldPod)
}
// Validate validates a new pod.
func (podStrategy) Validate(ctx context.Context, obj runtime.Object) field.ErrorList {
pod := obj.(*api.Pod)
opts := podutil.GetValidationOptionsFromPodSpecAndMeta(&pod.Spec, nil, &pod.ObjectMeta, nil)
return validation.ValidatePodCreate(pod, opts)
}
// WarningsOnCreate returns warnings for the creation of the given object.
func (podStrategy) WarningsOnCreate(ctx context.Context, obj runtime.Object) []string {
return podutil.GetWarningsForPod(ctx, obj.(*api.Pod), nil)
}
// Canonicalize normalizes the object after validation.
func (podStrategy) Canonicalize(obj runtime.Object) {
}
// AllowCreateOnUpdate is false for pods.
func (podStrategy) AllowCreateOnUpdate() bool {
return false
}
// ValidateUpdate is the default update validation for an end user.
func (podStrategy) ValidateUpdate(ctx context.Context, obj, old runtime.Object) field.ErrorList {
// Allow downward api usage of hugepages on pod update if feature is enabled or if the old pod already had used them.
pod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
opts := podutil.GetValidationOptionsFromPodSpecAndMeta(&pod.Spec, &oldPod.Spec, &pod.ObjectMeta, &oldPod.ObjectMeta)
return validation.ValidatePodUpdate(obj.(*api.Pod), old.(*api.Pod), opts)
}
// WarningsOnUpdate returns warnings for the given update.
func (podStrategy) WarningsOnUpdate(ctx context.Context, obj, old runtime.Object) []string {
// skip warnings on pod update, since humans don't typically interact directly with pods,
// and we don't want to pay the evaluation cost on what might be a high-frequency update path
return nil
}
// AllowUnconditionalUpdate allows pods to be overwritten
func (podStrategy) AllowUnconditionalUpdate() bool {
return true
}
// CheckGracefulDelete allows a pod to be gracefully deleted. It updates the DeleteOptions to
// reflect the desired grace value.
func (podStrategy) CheckGracefulDelete(ctx context.Context, obj runtime.Object, options *metav1.DeleteOptions) bool {
if options == nil {
return false
}
pod := obj.(*api.Pod)
period := int64(0)
// user has specified a value
if options.GracePeriodSeconds != nil {
period = *options.GracePeriodSeconds
} else {
// use the default value if set, or deletes the pod immediately (0)
if pod.Spec.TerminationGracePeriodSeconds != nil {
period = *pod.Spec.TerminationGracePeriodSeconds
}
}
// if the pod is not scheduled, delete immediately
if len(pod.Spec.NodeName) == 0 {
period = 0
}
// if the pod is already terminated, delete immediately
if pod.Status.Phase == api.PodFailed || pod.Status.Phase == api.PodSucceeded {
period = 0
}
if period < 0 {
period = 1
}
// ensure the options and the pod are in sync
options.GracePeriodSeconds = &period
return true
}
type podStatusStrategy struct {
podStrategy
}
// StatusStrategy wraps and exports the used podStrategy for the storage package.
var StatusStrategy = podStatusStrategy{Strategy}
// GetResetFields returns the set of fields that get reset by the strategy
// and should not be modified by the user.
func (podStatusStrategy) GetResetFields() map[fieldpath.APIVersion]*fieldpath.Set {
return map[fieldpath.APIVersion]*fieldpath.Set{
"v1": fieldpath.NewSet(
fieldpath.MakePathOrDie("spec"),
fieldpath.MakePathOrDie("metadata", "deletionTimestamp"),
fieldpath.MakePathOrDie("metadata", "ownerReferences"),
),
}
}
func (podStatusStrategy) PrepareForUpdate(ctx context.Context, obj, old runtime.Object) {
newPod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
newPod.Spec = oldPod.Spec
newPod.DeletionTimestamp = nil
// don't allow the pods/status endpoint to touch owner references since old kubelets corrupt them in a way
// that breaks garbage collection
newPod.OwnerReferences = oldPod.OwnerReferences
}
func (podStatusStrategy) ValidateUpdate(ctx context.Context, obj, old runtime.Object) field.ErrorList {
pod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
opts := podutil.GetValidationOptionsFromPodSpecAndMeta(&pod.Spec, &oldPod.Spec, &pod.ObjectMeta, &oldPod.ObjectMeta)
return validation.ValidatePodStatusUpdate(obj.(*api.Pod), old.(*api.Pod), opts)
}
// WarningsOnUpdate returns warnings for the given update.
func (podStatusStrategy) WarningsOnUpdate(ctx context.Context, obj, old runtime.Object) []string {
return nil
}
type podEphemeralContainersStrategy struct {
podStrategy
}
// EphemeralContainersStrategy wraps and exports the used podStrategy for the storage package.
var EphemeralContainersStrategy = podEphemeralContainersStrategy{Strategy}
// dropNonEphemeralContainerUpdates discards all changes except for pod.Spec.EphemeralContainers and certain metadata
func dropNonEphemeralContainerUpdates(newPod, oldPod *api.Pod) *api.Pod {
pod := oldPod.DeepCopy()
pod.Name = newPod.Name
pod.Namespace = newPod.Namespace
pod.ResourceVersion = newPod.ResourceVersion
pod.UID = newPod.UID
pod.Spec.EphemeralContainers = newPod.Spec.EphemeralContainers
return pod
}
func (podEphemeralContainersStrategy) PrepareForUpdate(ctx context.Context, obj, old runtime.Object) {
newPod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
*newPod = *dropNonEphemeralContainerUpdates(newPod, oldPod)
podutil.DropDisabledPodFields(newPod, oldPod)
}
func (podEphemeralContainersStrategy) ValidateUpdate(ctx context.Context, obj, old runtime.Object) field.ErrorList {
newPod := obj.(*api.Pod)
oldPod := old.(*api.Pod)
opts := podutil.GetValidationOptionsFromPodSpecAndMeta(&newPod.Spec, &oldPod.Spec, &newPod.ObjectMeta, &oldPod.ObjectMeta)
return validation.ValidatePodEphemeralContainersUpdate(newPod, oldPod, opts)
}
// WarningsOnUpdate returns warnings for the given update.
func (podEphemeralContainersStrategy) WarningsOnUpdate(ctx context.Context, obj, old runtime.Object) []string {
return nil
}
// GetAttrs returns labels and fields of a given object for filtering purposes.
func GetAttrs(obj runtime.Object) (labels.Set, fields.Set, error) {
pod, ok := obj.(*api.Pod)
if !ok {
return nil, nil, fmt.Errorf("not a pod")
}
return labels.Set(pod.ObjectMeta.Labels), ToSelectableFields(pod), nil
}
// MatchPod returns a generic matcher for a given label and field selector.
func MatchPod(label labels.Selector, field fields.Selector) storage.SelectionPredicate {
return storage.SelectionPredicate{
Label: label,
Field: field,
GetAttrs: GetAttrs,
IndexFields: []string{"spec.nodeName"},
}
}
// NodeNameTriggerFunc returns value spec.nodename of given object.
func NodeNameTriggerFunc(obj runtime.Object) string {
return obj.(*api.Pod).Spec.NodeName
}
// NodeNameIndexFunc return value spec.nodename of given object.
func NodeNameIndexFunc(obj interface{}) ([]string, error) {
pod, ok := obj.(*api.Pod)
if !ok {
return nil, fmt.Errorf("not a pod")
}
return []string{pod.Spec.NodeName}, nil
}
// Indexers returns the indexers for pod storage.
func Indexers() *cache.Indexers {
if utilfeature.DefaultFeatureGate.Enabled(genericfeatures.SelectorIndex) {
return &cache.Indexers{
storage.FieldIndex("spec.nodeName"): NodeNameIndexFunc,
}
}
return nil
}
// ToSelectableFields returns a field set that represents the object
// TODO: fields are not labels, and the validation rules for them do not apply.
func ToSelectableFields(pod *api.Pod) fields.Set {
// The purpose of allocation with a given number of elements is to reduce
// amount of allocations needed to create the fields.Set. If you add any
// field here or the number of object-meta related fields changes, this should
// be adjusted.
podSpecificFieldsSet := make(fields.Set, 9)
podSpecificFieldsSet["spec.nodeName"] = pod.Spec.NodeName
podSpecificFieldsSet["spec.restartPolicy"] = string(pod.Spec.RestartPolicy)
podSpecificFieldsSet["spec.schedulerName"] = string(pod.Spec.SchedulerName)
podSpecificFieldsSet["spec.serviceAccountName"] = string(pod.Spec.ServiceAccountName)
podSpecificFieldsSet["status.phase"] = string(pod.Status.Phase)
// TODO: add podIPs as a downward API value(s) with proper format
podIP := ""
if len(pod.Status.PodIPs) > 0 {
podIP = string(pod.Status.PodIPs[0].IP)
}
podSpecificFieldsSet["status.podIP"] = podIP
podSpecificFieldsSet["status.nominatedNodeName"] = string(pod.Status.NominatedNodeName)
return generic.AddObjectMetaFieldsSet(podSpecificFieldsSet, &pod.ObjectMeta, true)
}
// ResourceGetter is an interface for retrieving resources by ResourceLocation.
type ResourceGetter interface {
Get(context.Context, string, *metav1.GetOptions) (runtime.Object, error)
}
func getPod(ctx context.Context, getter ResourceGetter, name string) (*api.Pod, error) {
obj, err := getter.Get(ctx, name, &metav1.GetOptions{})
if err != nil {
return nil, err
}
pod := obj.(*api.Pod)
if pod == nil {
return nil, fmt.Errorf("Unexpected object type: %#v", pod)
}
return pod, nil
}
// getPodIP returns primary IP for a Pod
func getPodIP(pod *api.Pod) string {
if pod == nil {
return ""
}
if len(pod.Status.PodIPs) > 0 {
return pod.Status.PodIPs[0].IP
}
return ""
}
// ResourceLocation returns a URL to which one can send traffic for the specified pod.
func ResourceLocation(ctx context.Context, getter ResourceGetter, rt http.RoundTripper, id string) (*url.URL, http.RoundTripper, error) {
// Allow ID as "podname" or "podname:port" or "scheme:podname:port".
// If port is not specified, try to use the first defined port on the pod.
scheme, name, port, valid := utilnet.SplitSchemeNamePort(id)
if !valid {
return nil, nil, errors.NewBadRequest(fmt.Sprintf("invalid pod request %q", id))
}
pod, err := getPod(ctx, getter, name)
if err != nil {
return nil, nil, err
}
// Try to figure out a port.
if port == "" {
for i := range pod.Spec.Containers {
if len(pod.Spec.Containers[i].Ports) > 0 {
port = fmt.Sprintf("%d", pod.Spec.Containers[i].Ports[0].ContainerPort)
break
}
}
}
podIP := getPodIP(pod)
if err := proxyutil.IsProxyableIP(podIP); err != nil {
return nil, nil, errors.NewBadRequest(err.Error())
}
loc := &url.URL{
Scheme: scheme,
}
if port == "" {
// when using an ipv6 IP as a hostname in a URL, it must be wrapped in [...]
// net.JoinHostPort does this for you.
if strings.Contains(podIP, ":") {
loc.Host = "[" + podIP + "]"
} else {
loc.Host = podIP
}
} else {
loc.Host = net.JoinHostPort(podIP, port)
}
return loc, rt, nil
}
// LogLocation returns the log URL for a pod container. If opts.Container is blank
// and only one container is present in the pod, that container is used.
func LogLocation(
ctx context.Context, getter ResourceGetter,
connInfo client.ConnectionInfoGetter,
name string,
opts *api.PodLogOptions,
) (*url.URL, http.RoundTripper, error) {
pod, err := getPod(ctx, getter, name)
if err != nil {
return nil, nil, err
}
// Try to figure out a container
// If a container was provided, it must be valid
container := opts.Container
container, err = validateContainer(container, pod)
if err != nil {
return nil, nil, err
}
nodeName := types.NodeName(pod.Spec.NodeName)
if len(nodeName) == 0 {
// If pod has not been assigned a host, return an empty location
return nil, nil, nil
}
nodeInfo, err := connInfo.GetConnectionInfo(ctx, nodeName)
if err != nil {
return nil, nil, err
}
params := url.Values{}
if opts.Follow {
params.Add("follow", "true")
}
if opts.Previous {
params.Add("previous", "true")
}
if opts.Timestamps {
params.Add("timestamps", "true")
}
if opts.SinceSeconds != nil {
params.Add("sinceSeconds", strconv.FormatInt(*opts.SinceSeconds, 10))
}
if opts.SinceTime != nil {
params.Add("sinceTime", opts.SinceTime.Format(time.RFC3339))
}
if opts.TailLines != nil {
params.Add("tailLines", strconv.FormatInt(*opts.TailLines, 10))
}
if opts.LimitBytes != nil {
params.Add("limitBytes", strconv.FormatInt(*opts.LimitBytes, 10))
}
loc := &url.URL{
Scheme: nodeInfo.Scheme,
Host: net.JoinHostPort(nodeInfo.Hostname, nodeInfo.Port),
Path: fmt.Sprintf("/containerLogs/%s/%s/%s", pod.Namespace, pod.Name, container),
RawQuery: params.Encode(),
}
if opts.InsecureSkipTLSVerifyBackend {
return loc, nodeInfo.InsecureSkipTLSVerifyTransport, nil
}
return loc, nodeInfo.Transport, nil
}
func podHasContainerWithName(pod *api.Pod, containerName string) bool {
var hasContainer bool
podutil.VisitContainers(&pod.Spec, podutil.AllFeatureEnabledContainers(), func(c *api.Container, containerType podutil.ContainerType) bool {
if c.Name == containerName {
hasContainer = true
return false
}
return true
})
return hasContainer
}
func streamParams(params url.Values, opts runtime.Object) error {
switch opts := opts.(type) {
case *api.PodExecOptions:
if opts.Stdin {
params.Add(api.ExecStdinParam, "1")
}
if opts.Stdout {
params.Add(api.ExecStdoutParam, "1")
}
if opts.Stderr {
params.Add(api.ExecStderrParam, "1")
}
if opts.TTY {
params.Add(api.ExecTTYParam, "1")
}
for _, c := range opts.Command {
params.Add("command", c)
}
case *api.PodAttachOptions:
if opts.Stdin {
params.Add(api.ExecStdinParam, "1")
}
if opts.Stdout {
params.Add(api.ExecStdoutParam, "1")
}
if opts.Stderr {
params.Add(api.ExecStderrParam, "1")
}
if opts.TTY {
params.Add(api.ExecTTYParam, "1")
}
case *api.PodPortForwardOptions:
if len(opts.Ports) > 0 {
ports := make([]string, len(opts.Ports))
for i, p := range opts.Ports {
ports[i] = strconv.FormatInt(int64(p), 10)
}
params.Add(api.PortHeader, strings.Join(ports, ","))
}
default:
return fmt.Errorf("Unknown object for streaming: %v", opts)
}
return nil
}
// AttachLocation returns the attach URL for a pod container. If opts.Container is blank
// and only one container is present in the pod, that container is used.
func AttachLocation(
ctx context.Context,
getter ResourceGetter,
connInfo client.ConnectionInfoGetter,
name string,
opts *api.PodAttachOptions,
) (*url.URL, http.RoundTripper, error) {
return streamLocation(ctx, getter, connInfo, name, opts, opts.Container, "attach")
}
// ExecLocation returns the exec URL for a pod container. If opts.Container is blank
// and only one container is present in the pod, that container is used.
func ExecLocation(
ctx context.Context,
getter ResourceGetter,
connInfo client.ConnectionInfoGetter,
name string,
opts *api.PodExecOptions,
) (*url.URL, http.RoundTripper, error) {
return streamLocation(ctx, getter, connInfo, name, opts, opts.Container, "exec")
}
func streamLocation(
ctx context.Context,
getter ResourceGetter,
connInfo client.ConnectionInfoGetter,
name string,
opts runtime.Object,
container,
path string,
) (*url.URL, http.RoundTripper, error) {
pod, err := getPod(ctx, getter, name)
if err != nil {
return nil, nil, err
}
// Try to figure out a container
// If a container was provided, it must be valid
container, err = validateContainer(container, pod)
if err != nil {
return nil, nil, err
}
nodeName := types.NodeName(pod.Spec.NodeName)
if len(nodeName) == 0 {
// If pod has not been assigned a host, return an empty location
return nil, nil, errors.NewBadRequest(fmt.Sprintf("pod %s does not have a host assigned", name))
}
nodeInfo, err := connInfo.GetConnectionInfo(ctx, nodeName)
if err != nil {
return nil, nil, err
}
params := url.Values{}
if err := streamParams(params, opts); err != nil {
return nil, nil, err
}
loc := &url.URL{
Scheme: nodeInfo.Scheme,
Host: net.JoinHostPort(nodeInfo.Hostname, nodeInfo.Port),
Path: fmt.Sprintf("/%s/%s/%s/%s", path, pod.Namespace, pod.Name, container),
RawQuery: params.Encode(),
}
return loc, nodeInfo.Transport, nil
}
// PortForwardLocation returns the port-forward URL for a pod.
func PortForwardLocation(
ctx context.Context,
getter ResourceGetter,
connInfo client.ConnectionInfoGetter,
name string,
opts *api.PodPortForwardOptions,
) (*url.URL, http.RoundTripper, error) {
pod, err := getPod(ctx, getter, name)
if err != nil {
return nil, nil, err
}
nodeName := types.NodeName(pod.Spec.NodeName)
if len(nodeName) == 0 {
// If pod has not been assigned a host, return an empty location
return nil, nil, errors.NewBadRequest(fmt.Sprintf("pod %s does not have a host assigned", name))
}
nodeInfo, err := connInfo.GetConnectionInfo(ctx, nodeName)
if err != nil {
return nil, nil, err
}
params := url.Values{}
if err := streamParams(params, opts); err != nil {
return nil, nil, err
}
loc := &url.URL{
Scheme: nodeInfo.Scheme,
Host: net.JoinHostPort(nodeInfo.Hostname, nodeInfo.Port),
Path: fmt.Sprintf("/portForward/%s/%s", pod.Namespace, pod.Name),
RawQuery: params.Encode(),
}
return loc, nodeInfo.Transport, nil
}
// validateContainer validate container is valid for pod, return valid container
func validateContainer(container string, pod *api.Pod) (string, error) {
if len(container) == 0 {
switch len(pod.Spec.Containers) {
case 1:
container = pod.Spec.Containers[0].Name
case 0:
return "", errors.NewBadRequest(fmt.Sprintf("a container name must be specified for pod %s", pod.Name))
default:
var containerNames []string
podutil.VisitContainers(&pod.Spec, podutil.AllFeatureEnabledContainers(), func(c *api.Container, containerType podutil.ContainerType) bool {
containerNames = append(containerNames, c.Name)
return true
})
errStr := fmt.Sprintf("a container name must be specified for pod %s, choose one of: %s", pod.Name, containerNames)
return "", errors.NewBadRequest(errStr)
}
} else {
if !podHasContainerWithName(pod, container) {
return "", errors.NewBadRequest(fmt.Sprintf("container %s is not valid for pod %s", container, pod.Name))
}
}
return container, nil
}
// applySeccompVersionSkew implements the version skew behavior described in:
// https://github.com/kubernetes/enhancements/tree/master/keps/sig-node/135-seccomp#version-skew-strategy
func applySeccompVersionSkew(pod *api.Pod) {
// get possible annotation and field
annotation, hasAnnotation := pod.Annotations[v1.SeccompPodAnnotationKey]
field, hasField := (*api.SeccompProfile)(nil), false
if pod.Spec.SecurityContext != nil && pod.Spec.SecurityContext.SeccompProfile != nil {
field = pod.Spec.SecurityContext.SeccompProfile
hasField = true
}
// sync field and annotation
if hasField && !hasAnnotation {
newAnnotation := podutil.SeccompAnnotationForField(field)
if newAnnotation != "" {
if pod.Annotations == nil {
pod.Annotations = map[string]string{}
}
pod.Annotations[v1.SeccompPodAnnotationKey] = newAnnotation
}
} else if hasAnnotation && !hasField {
newField := podutil.SeccompFieldForAnnotation(annotation)
if newField != nil {
if pod.Spec.SecurityContext == nil {
pod.Spec.SecurityContext = &api.PodSecurityContext{}
}
pod.Spec.SecurityContext.SeccompProfile = newField
}
}
// Handle the containers of the pod
podutil.VisitContainers(&pod.Spec, podutil.AllFeatureEnabledContainers(),
func(ctr *api.Container, _ podutil.ContainerType) bool {
// get possible annotation and field
key := api.SeccompContainerAnnotationKeyPrefix + ctr.Name
annotation, hasAnnotation := pod.Annotations[key]
field, hasField := (*api.SeccompProfile)(nil), false
if ctr.SecurityContext != nil && ctr.SecurityContext.SeccompProfile != nil {
field = ctr.SecurityContext.SeccompProfile
hasField = true
}
// sync field and annotation
if hasField && !hasAnnotation {
newAnnotation := podutil.SeccompAnnotationForField(field)
if newAnnotation != "" {
if pod.Annotations == nil {
pod.Annotations = map[string]string{}
}
pod.Annotations[key] = newAnnotation
}
} else if hasAnnotation && !hasField {
newField := podutil.SeccompFieldForAnnotation(annotation)
if newField != nil {
if ctr.SecurityContext == nil {
ctr.SecurityContext = &api.SecurityContext{}
}
ctr.SecurityContext.SeccompProfile = newField
}
}
return true
})
}