k3s/vendor/k8s.io/kubernetes/pkg/api/pod/util.go

822 lines
27 KiB
Go

/*
Copyright 2015 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 (
"strings"
v1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/util/sets"
utilfeature "k8s.io/apiserver/pkg/util/feature"
api "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/core/helper"
v1helper "k8s.io/kubernetes/pkg/apis/core/v1/helper"
"k8s.io/kubernetes/pkg/apis/core/validation"
apivalidation "k8s.io/kubernetes/pkg/apis/core/validation"
"k8s.io/kubernetes/pkg/features"
)
// ContainerType signifies container type
type ContainerType int
const (
// Containers is for normal containers
Containers ContainerType = 1 << iota
// InitContainers is for init containers
InitContainers
// EphemeralContainers is for ephemeral containers
EphemeralContainers
)
// AllContainers specifies that all containers be visited
const AllContainers ContainerType = (InitContainers | Containers | EphemeralContainers)
// AllFeatureEnabledContainers returns a ContainerType mask which includes all container
// types except for the ones guarded by feature gate.
func AllFeatureEnabledContainers() ContainerType {
containerType := AllContainers
if !utilfeature.DefaultFeatureGate.Enabled(features.EphemeralContainers) {
containerType &= ^EphemeralContainers
}
return containerType
}
// ContainerVisitor is called with each container spec, and returns true
// if visiting should continue.
type ContainerVisitor func(container *api.Container, containerType ContainerType) (shouldContinue bool)
// VisitContainers invokes the visitor function with a pointer to every container
// spec in the given pod spec with type set in mask. If visitor returns false,
// visiting is short-circuited. VisitContainers returns true if visiting completes,
// false if visiting was short-circuited.
func VisitContainers(podSpec *api.PodSpec, mask ContainerType, visitor ContainerVisitor) bool {
if mask&InitContainers != 0 {
for i := range podSpec.InitContainers {
if !visitor(&podSpec.InitContainers[i], InitContainers) {
return false
}
}
}
if mask&Containers != 0 {
for i := range podSpec.Containers {
if !visitor(&podSpec.Containers[i], Containers) {
return false
}
}
}
if mask&EphemeralContainers != 0 {
for i := range podSpec.EphemeralContainers {
if !visitor((*api.Container)(&podSpec.EphemeralContainers[i].EphemeralContainerCommon), EphemeralContainers) {
return false
}
}
}
return true
}
// Visitor is called with each object name, and returns true if visiting should continue
type Visitor func(name string) (shouldContinue bool)
// VisitPodSecretNames invokes the visitor function with the name of every secret
// referenced by the pod spec. If visitor returns false, visiting is short-circuited.
// Transitive references (e.g. pod -> pvc -> pv -> secret) are not visited.
// Returns true if visiting completed, false if visiting was short-circuited.
func VisitPodSecretNames(pod *api.Pod, visitor Visitor, containerType ContainerType) bool {
for _, reference := range pod.Spec.ImagePullSecrets {
if !visitor(reference.Name) {
return false
}
}
VisitContainers(&pod.Spec, containerType, func(c *api.Container, containerType ContainerType) bool {
return visitContainerSecretNames(c, visitor)
})
var source *api.VolumeSource
for i := range pod.Spec.Volumes {
source = &pod.Spec.Volumes[i].VolumeSource
switch {
case source.AzureFile != nil:
if len(source.AzureFile.SecretName) > 0 && !visitor(source.AzureFile.SecretName) {
return false
}
case source.CephFS != nil:
if source.CephFS.SecretRef != nil && !visitor(source.CephFS.SecretRef.Name) {
return false
}
case source.Cinder != nil:
if source.Cinder.SecretRef != nil && !visitor(source.Cinder.SecretRef.Name) {
return false
}
case source.FlexVolume != nil:
if source.FlexVolume.SecretRef != nil && !visitor(source.FlexVolume.SecretRef.Name) {
return false
}
case source.Projected != nil:
for j := range source.Projected.Sources {
if source.Projected.Sources[j].Secret != nil {
if !visitor(source.Projected.Sources[j].Secret.Name) {
return false
}
}
}
case source.RBD != nil:
if source.RBD.SecretRef != nil && !visitor(source.RBD.SecretRef.Name) {
return false
}
case source.Secret != nil:
if !visitor(source.Secret.SecretName) {
return false
}
case source.ScaleIO != nil:
if source.ScaleIO.SecretRef != nil && !visitor(source.ScaleIO.SecretRef.Name) {
return false
}
case source.ISCSI != nil:
if source.ISCSI.SecretRef != nil && !visitor(source.ISCSI.SecretRef.Name) {
return false
}
case source.StorageOS != nil:
if source.StorageOS.SecretRef != nil && !visitor(source.StorageOS.SecretRef.Name) {
return false
}
case source.CSI != nil:
if source.CSI.NodePublishSecretRef != nil && !visitor(source.CSI.NodePublishSecretRef.Name) {
return false
}
}
}
return true
}
func visitContainerSecretNames(container *api.Container, visitor Visitor) bool {
for _, env := range container.EnvFrom {
if env.SecretRef != nil {
if !visitor(env.SecretRef.Name) {
return false
}
}
}
for _, envVar := range container.Env {
if envVar.ValueFrom != nil && envVar.ValueFrom.SecretKeyRef != nil {
if !visitor(envVar.ValueFrom.SecretKeyRef.Name) {
return false
}
}
}
return true
}
// VisitPodConfigmapNames invokes the visitor function with the name of every configmap
// referenced by the pod spec. If visitor returns false, visiting is short-circuited.
// Transitive references (e.g. pod -> pvc -> pv -> secret) are not visited.
// Returns true if visiting completed, false if visiting was short-circuited.
func VisitPodConfigmapNames(pod *api.Pod, visitor Visitor, containerType ContainerType) bool {
VisitContainers(&pod.Spec, containerType, func(c *api.Container, containerType ContainerType) bool {
return visitContainerConfigmapNames(c, visitor)
})
var source *api.VolumeSource
for i := range pod.Spec.Volumes {
source = &pod.Spec.Volumes[i].VolumeSource
switch {
case source.Projected != nil:
for j := range source.Projected.Sources {
if source.Projected.Sources[j].ConfigMap != nil {
if !visitor(source.Projected.Sources[j].ConfigMap.Name) {
return false
}
}
}
case source.ConfigMap != nil:
if !visitor(source.ConfigMap.Name) {
return false
}
}
}
return true
}
func visitContainerConfigmapNames(container *api.Container, visitor Visitor) bool {
for _, env := range container.EnvFrom {
if env.ConfigMapRef != nil {
if !visitor(env.ConfigMapRef.Name) {
return false
}
}
}
for _, envVar := range container.Env {
if envVar.ValueFrom != nil && envVar.ValueFrom.ConfigMapKeyRef != nil {
if !visitor(envVar.ValueFrom.ConfigMapKeyRef.Name) {
return false
}
}
}
return true
}
// IsPodReady returns true if a pod is ready; false otherwise.
func IsPodReady(pod *api.Pod) bool {
return IsPodReadyConditionTrue(pod.Status)
}
// IsPodReadyConditionTrue returns true if a pod is ready; false otherwise.
func IsPodReadyConditionTrue(status api.PodStatus) bool {
condition := GetPodReadyCondition(status)
return condition != nil && condition.Status == api.ConditionTrue
}
// GetPodReadyCondition extracts the pod ready condition from the given status and returns that.
// Returns nil if the condition is not present.
func GetPodReadyCondition(status api.PodStatus) *api.PodCondition {
_, condition := GetPodCondition(&status, api.PodReady)
return condition
}
// GetPodCondition extracts the provided condition from the given status and returns that.
// Returns nil and -1 if the condition is not present, and the index of the located condition.
func GetPodCondition(status *api.PodStatus, conditionType api.PodConditionType) (int, *api.PodCondition) {
if status == nil {
return -1, nil
}
for i := range status.Conditions {
if status.Conditions[i].Type == conditionType {
return i, &status.Conditions[i]
}
}
return -1, nil
}
// UpdatePodCondition updates existing pod condition or creates a new one. Sets LastTransitionTime to now if the
// status has changed.
// Returns true if pod condition has changed or has been added.
func UpdatePodCondition(status *api.PodStatus, condition *api.PodCondition) bool {
condition.LastTransitionTime = metav1.Now()
// Try to find this pod condition.
conditionIndex, oldCondition := GetPodCondition(status, condition.Type)
if oldCondition == nil {
// We are adding new pod condition.
status.Conditions = append(status.Conditions, *condition)
return true
}
// We are updating an existing condition, so we need to check if it has changed.
if condition.Status == oldCondition.Status {
condition.LastTransitionTime = oldCondition.LastTransitionTime
}
isEqual := condition.Status == oldCondition.Status &&
condition.Reason == oldCondition.Reason &&
condition.Message == oldCondition.Message &&
condition.LastProbeTime.Equal(&oldCondition.LastProbeTime) &&
condition.LastTransitionTime.Equal(&oldCondition.LastTransitionTime)
status.Conditions[conditionIndex] = *condition
// Return true if one of the fields have changed.
return !isEqual
}
// usesHugePagesInProjectedVolume returns true if hugepages are used in downward api for volume
func usesHugePagesInProjectedVolume(podSpec *api.PodSpec) bool {
// determine if any container is using hugepages in downward api volume
for _, volumeSource := range podSpec.Volumes {
if volumeSource.DownwardAPI != nil {
for _, item := range volumeSource.DownwardAPI.Items {
if item.ResourceFieldRef != nil {
if strings.HasPrefix(item.ResourceFieldRef.Resource, "requests.hugepages-") || strings.HasPrefix(item.ResourceFieldRef.Resource, "limits.hugepages-") {
return true
}
}
}
}
}
return false
}
// usesHugePagesInProjectedEnv returns true if hugepages are used in downward api for volume
func usesHugePagesInProjectedEnv(item api.Container) bool {
for _, env := range item.Env {
if env.ValueFrom != nil {
if env.ValueFrom.ResourceFieldRef != nil {
if strings.HasPrefix(env.ValueFrom.ResourceFieldRef.Resource, "requests.hugepages-") || strings.HasPrefix(env.ValueFrom.ResourceFieldRef.Resource, "limits.hugepages-") {
return true
}
}
}
}
return false
}
// usesMultipleHugePageResources returns true if the pod spec uses more than
// one size of hugepage
func usesMultipleHugePageResources(podSpec *api.PodSpec) bool {
hugePageResources := sets.NewString()
resourceSet := helper.ToPodResourcesSet(podSpec)
for resourceStr := range resourceSet {
if v1helper.IsHugePageResourceName(v1.ResourceName(resourceStr)) {
hugePageResources.Insert(resourceStr)
}
}
return len(hugePageResources) > 1
}
// GetValidationOptionsFromPodSpec returns validation options based on pod specs
func GetValidationOptionsFromPodSpec(podSpec, oldPodSpec *api.PodSpec) apivalidation.PodValidationOptions {
// default pod validation options based on feature gate
opts := validation.PodValidationOptions{
// Allow multiple huge pages on pod create if feature is enabled
AllowMultipleHugePageResources: utilfeature.DefaultFeatureGate.Enabled(features.HugePageStorageMediumSize),
// Allow pod spec to use hugepages in downward API if feature is enabled
AllowDownwardAPIHugePages: utilfeature.DefaultFeatureGate.Enabled(features.DownwardAPIHugePages),
}
// if we are not doing an update operation, just return with default options
if oldPodSpec == nil {
return opts
}
// if old spec used multiple huge page sizes, we must allow it
opts.AllowMultipleHugePageResources = opts.AllowMultipleHugePageResources || usesMultipleHugePageResources(oldPodSpec)
// if old spec used hugepages in downward api, we must allow it
opts.AllowDownwardAPIHugePages = opts.AllowDownwardAPIHugePages || usesHugePagesInProjectedVolume(oldPodSpec)
// determine if any container is using hugepages in env var
if !opts.AllowDownwardAPIHugePages {
VisitContainers(oldPodSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
opts.AllowDownwardAPIHugePages = opts.AllowDownwardAPIHugePages || usesHugePagesInProjectedEnv(*c)
return !opts.AllowDownwardAPIHugePages
})
}
return opts
}
// GetValidationOptionsFromPodTemplate will return pod validation options for specified template.
func GetValidationOptionsFromPodTemplate(podTemplate, oldPodTemplate *api.PodTemplateSpec) apivalidation.PodValidationOptions {
var newPodSpec, oldPodSpec *api.PodSpec
// we have to be careful about nil pointers here
// replication controller in particular is prone to passing nil
if podTemplate != nil {
newPodSpec = &podTemplate.Spec
}
if oldPodTemplate != nil {
oldPodSpec = &oldPodTemplate.Spec
}
return GetValidationOptionsFromPodSpec(newPodSpec, oldPodSpec)
}
// DropDisabledTemplateFields removes disabled fields from the pod template metadata and spec.
// This should be called from PrepareForCreate/PrepareForUpdate for all resources containing a PodTemplateSpec
func DropDisabledTemplateFields(podTemplate, oldPodTemplate *api.PodTemplateSpec) {
var (
podSpec *api.PodSpec
podAnnotations map[string]string
oldPodSpec *api.PodSpec
oldPodAnnotations map[string]string
)
if podTemplate != nil {
podSpec = &podTemplate.Spec
podAnnotations = podTemplate.Annotations
}
if oldPodTemplate != nil {
oldPodSpec = &oldPodTemplate.Spec
oldPodAnnotations = oldPodTemplate.Annotations
}
dropDisabledFields(podSpec, podAnnotations, oldPodSpec, oldPodAnnotations)
}
// DropDisabledPodFields removes disabled fields from the pod metadata and spec.
// This should be called from PrepareForCreate/PrepareForUpdate for all resources containing a Pod
func DropDisabledPodFields(pod, oldPod *api.Pod) {
var (
podSpec *api.PodSpec
podAnnotations map[string]string
oldPodSpec *api.PodSpec
oldPodAnnotations map[string]string
podStatus *api.PodStatus
oldPodStatus *api.PodStatus
)
if pod != nil {
podSpec = &pod.Spec
podAnnotations = pod.Annotations
podStatus = &pod.Status
}
if oldPod != nil {
oldPodSpec = &oldPod.Spec
oldPodAnnotations = oldPod.Annotations
oldPodStatus = &oldPod.Status
}
dropDisabledFields(podSpec, podAnnotations, oldPodSpec, oldPodAnnotations)
dropPodStatusDisabledFields(podStatus, oldPodStatus)
}
// dropPodStatusDisabledFields removes disabled fields from the pod status
func dropPodStatusDisabledFields(podStatus *api.PodStatus, oldPodStatus *api.PodStatus) {
// trim PodIPs down to only one entry (non dual stack).
if !utilfeature.DefaultFeatureGate.Enabled(features.IPv6DualStack) &&
!multiplePodIPsInUse(oldPodStatus) {
if len(podStatus.PodIPs) != 0 {
podStatus.PodIPs = podStatus.PodIPs[0:1]
}
}
}
// dropDisabledFields removes disabled fields from the pod metadata and spec.
func dropDisabledFields(
podSpec *api.PodSpec, podAnnotations map[string]string,
oldPodSpec *api.PodSpec, oldPodAnnotations map[string]string,
) {
// the new spec must always be non-nil
if podSpec == nil {
podSpec = &api.PodSpec{}
}
if !utilfeature.DefaultFeatureGate.Enabled(features.AppArmor) && !appArmorInUse(oldPodAnnotations) {
for k := range podAnnotations {
if strings.HasPrefix(k, v1.AppArmorBetaContainerAnnotationKeyPrefix) {
delete(podAnnotations, k)
}
}
}
if !utilfeature.DefaultFeatureGate.Enabled(features.Sysctls) && !sysctlsInUse(oldPodSpec) {
if podSpec.SecurityContext != nil {
podSpec.SecurityContext.Sysctls = nil
}
}
if !utilfeature.DefaultFeatureGate.Enabled(features.LocalStorageCapacityIsolation) && !emptyDirSizeLimitInUse(oldPodSpec) {
for i := range podSpec.Volumes {
if podSpec.Volumes[i].EmptyDir != nil {
podSpec.Volumes[i].EmptyDir.SizeLimit = nil
}
}
}
if !utilfeature.DefaultFeatureGate.Enabled(features.VolumeSubpath) && !subpathInUse(oldPodSpec) {
// drop subpath from the pod if the feature is disabled and the old spec did not specify subpaths
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
for i := range c.VolumeMounts {
c.VolumeMounts[i].SubPath = ""
}
return true
})
}
if !utilfeature.DefaultFeatureGate.Enabled(features.EphemeralContainers) && !ephemeralContainersInUse(oldPodSpec) {
podSpec.EphemeralContainers = nil
}
if !utilfeature.DefaultFeatureGate.Enabled(features.VolumeSubpath) && !subpathExprInUse(oldPodSpec) {
// drop subpath env expansion from the pod if subpath feature is disabled and the old spec did not specify subpath env expansion
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
for i := range c.VolumeMounts {
c.VolumeMounts[i].SubPathExpr = ""
}
return true
})
}
dropDisabledRunAsGroupField(podSpec, oldPodSpec)
dropDisabledFSGroupFields(podSpec, oldPodSpec)
if !utilfeature.DefaultFeatureGate.Enabled(features.PodOverhead) && !overheadInUse(oldPodSpec) {
// Set Overhead to nil only if the feature is disabled and it is not used
podSpec.Overhead = nil
}
dropDisabledProcMountField(podSpec, oldPodSpec)
dropDisabledCSIVolumeSourceAlphaFields(podSpec, oldPodSpec)
dropDisabledEphemeralVolumeSourceAlphaFields(podSpec, oldPodSpec)
if !utilfeature.DefaultFeatureGate.Enabled(features.NonPreemptingPriority) &&
!podPriorityInUse(oldPodSpec) {
// Set to nil pod's PreemptionPolicy fields if the feature is disabled and the old pod
// does not specify any values for these fields.
podSpec.PreemptionPolicy = nil
}
if !utilfeature.DefaultFeatureGate.Enabled(features.SetHostnameAsFQDN) && !setHostnameAsFQDNInUse(oldPodSpec) {
// Set SetHostnameAsFQDN to nil only if feature is disabled and it is not used
podSpec.SetHostnameAsFQDN = nil
}
}
// dropDisabledRunAsGroupField removes disabled fields from PodSpec related
// to RunAsGroup
func dropDisabledRunAsGroupField(podSpec, oldPodSpec *api.PodSpec) {
if !utilfeature.DefaultFeatureGate.Enabled(features.RunAsGroup) && !runAsGroupInUse(oldPodSpec) {
if podSpec.SecurityContext != nil {
podSpec.SecurityContext.RunAsGroup = nil
}
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
if c.SecurityContext != nil {
c.SecurityContext.RunAsGroup = nil
}
return true
})
}
}
// dropDisabledProcMountField removes disabled fields from PodSpec related
// to ProcMount only if it is not already used by the old spec
func dropDisabledProcMountField(podSpec, oldPodSpec *api.PodSpec) {
if !utilfeature.DefaultFeatureGate.Enabled(features.ProcMountType) && !procMountInUse(oldPodSpec) {
defaultProcMount := api.DefaultProcMount
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
if c.SecurityContext != nil && c.SecurityContext.ProcMount != nil {
// The ProcMount field was improperly forced to non-nil in 1.12.
// If the feature is disabled, and the existing object is not using any non-default values, and the ProcMount field is present in the incoming object, force to the default value.
// Note: we cannot force the field to nil when the feature is disabled because it causes a diff against previously persisted data.
c.SecurityContext.ProcMount = &defaultProcMount
}
return true
})
}
}
func dropDisabledFSGroupFields(podSpec, oldPodSpec *api.PodSpec) {
if !utilfeature.DefaultFeatureGate.Enabled(features.ConfigurableFSGroupPolicy) && !fsGroupPolicyInUse(oldPodSpec) {
// if oldPodSpec had no FSGroupChangePolicy set then we should prevent new pod from having this field
// if ConfigurableFSGroupPolicy feature is disabled
if podSpec.SecurityContext != nil {
podSpec.SecurityContext.FSGroupChangePolicy = nil
}
}
}
// dropDisabledCSIVolumeSourceAlphaFields removes disabled alpha fields from []CSIVolumeSource.
// This should be called from PrepareForCreate/PrepareForUpdate for all pod specs resources containing a CSIVolumeSource
func dropDisabledCSIVolumeSourceAlphaFields(podSpec, oldPodSpec *api.PodSpec) {
if !utilfeature.DefaultFeatureGate.Enabled(features.CSIInlineVolume) && !csiInUse(oldPodSpec) {
for i := range podSpec.Volumes {
podSpec.Volumes[i].CSI = nil
}
}
}
// dropDisabledEphemeralVolumeSourceAlphaFields removes disabled alpha fields from []EphemeralVolumeSource.
// This should be called from PrepareForCreate/PrepareForUpdate for all pod specs resources containing a EphemeralVolumeSource
func dropDisabledEphemeralVolumeSourceAlphaFields(podSpec, oldPodSpec *api.PodSpec) {
if !utilfeature.DefaultFeatureGate.Enabled(features.GenericEphemeralVolume) && !csiInUse(oldPodSpec) {
for i := range podSpec.Volumes {
podSpec.Volumes[i].Ephemeral = nil
}
}
}
func ephemeralContainersInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
return len(podSpec.EphemeralContainers) > 0
}
func fsGroupPolicyInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
securityContext := podSpec.SecurityContext
if securityContext != nil && securityContext.FSGroupChangePolicy != nil {
return true
}
return false
}
// subpathInUse returns true if the pod spec is non-nil and has a volume mount that makes use of the subPath feature
func subpathInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
var inUse bool
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
for i := range c.VolumeMounts {
if len(c.VolumeMounts[i].SubPath) > 0 {
inUse = true
return false
}
}
return true
})
return inUse
}
// overheadInUse returns true if the pod spec is non-nil and has Overhead set
func overheadInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
if podSpec.Overhead != nil {
return true
}
return false
}
// procMountInUse returns true if the pod spec is non-nil and has a SecurityContext's ProcMount field set to a non-default value
func procMountInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
var inUse bool
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
if c.SecurityContext == nil || c.SecurityContext.ProcMount == nil {
return true
}
if *c.SecurityContext.ProcMount != api.DefaultProcMount {
inUse = true
return false
}
return true
})
return inUse
}
// appArmorInUse returns true if the pod has apparmor related information
func appArmorInUse(podAnnotations map[string]string) bool {
for k := range podAnnotations {
if strings.HasPrefix(k, v1.AppArmorBetaContainerAnnotationKeyPrefix) {
return true
}
}
return false
}
// podPriorityInUse returns true if the pod spec is non-nil and has Priority or PriorityClassName set.
func podPriorityInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
if podSpec.Priority != nil || podSpec.PriorityClassName != "" {
return true
}
return false
}
func sysctlsInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
if podSpec.SecurityContext != nil && podSpec.SecurityContext.Sysctls != nil {
return true
}
return false
}
// emptyDirSizeLimitInUse returns true if any pod's EmptyDir volumes use SizeLimit.
func emptyDirSizeLimitInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
for i := range podSpec.Volumes {
if podSpec.Volumes[i].EmptyDir != nil {
if podSpec.Volumes[i].EmptyDir.SizeLimit != nil {
return true
}
}
}
return false
}
// runAsGroupInUse returns true if the pod spec is non-nil and has a SecurityContext's RunAsGroup field set
func runAsGroupInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
if podSpec.SecurityContext != nil && podSpec.SecurityContext.RunAsGroup != nil {
return true
}
var inUse bool
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
if c.SecurityContext != nil && c.SecurityContext.RunAsGroup != nil {
inUse = true
return false
}
return true
})
return inUse
}
// subpathExprInUse returns true if the pod spec is non-nil and has a volume mount that makes use of the subPathExpr feature
func subpathExprInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
var inUse bool
VisitContainers(podSpec, AllContainers, func(c *api.Container, containerType ContainerType) bool {
for i := range c.VolumeMounts {
if len(c.VolumeMounts[i].SubPathExpr) > 0 {
inUse = true
return false
}
}
return true
})
return inUse
}
// csiInUse returns true if any pod's spec include inline CSI volumes.
func csiInUse(podSpec *api.PodSpec) bool {
if podSpec == nil {
return false
}
for i := range podSpec.Volumes {
if podSpec.Volumes[i].CSI != nil {
return true
}
}
return false
}
// podPriorityInUse returns true if status is not nil and number of PodIPs is greater than one
func multiplePodIPsInUse(podStatus *api.PodStatus) bool {
if podStatus == nil {
return false
}
if len(podStatus.PodIPs) > 1 {
return true
}
return false
}
// setHostnameAsFQDNInUse returns true if any pod's spec defines setHostnameAsFQDN field.
func setHostnameAsFQDNInUse(podSpec *api.PodSpec) bool {
if podSpec == nil || podSpec.SetHostnameAsFQDN == nil {
return false
}
return *podSpec.SetHostnameAsFQDN
}
// SeccompAnnotationForField takes a pod seccomp profile field and returns the
// converted annotation value
func SeccompAnnotationForField(field *api.SeccompProfile) string {
// If only seccomp fields are specified, add the corresponding annotations.
// This ensures that the fields are enforced even if the node version
// trails the API version
switch field.Type {
case api.SeccompProfileTypeUnconfined:
return v1.SeccompProfileNameUnconfined
case api.SeccompProfileTypeRuntimeDefault:
return v1.SeccompProfileRuntimeDefault
case api.SeccompProfileTypeLocalhost:
if field.LocalhostProfile != nil {
return v1.SeccompLocalhostProfileNamePrefix + *field.LocalhostProfile
}
}
// we can only reach this code path if the LocalhostProfile is nil but the
// provided field type is SeccompProfileTypeLocalhost or if an unrecognized
// type is specified
return ""
}
// SeccompFieldForAnnotation takes a pod annotation and returns the converted
// seccomp profile field.
func SeccompFieldForAnnotation(annotation string) *api.SeccompProfile {
// If only seccomp annotations are specified, copy the values into the
// corresponding fields. This ensures that existing applications continue
// to enforce seccomp, and prevents the kubelet from needing to resolve
// annotations & fields.
if annotation == v1.SeccompProfileNameUnconfined {
return &api.SeccompProfile{Type: api.SeccompProfileTypeUnconfined}
}
if annotation == api.SeccompProfileRuntimeDefault || annotation == api.DeprecatedSeccompProfileDockerDefault {
return &api.SeccompProfile{Type: api.SeccompProfileTypeRuntimeDefault}
}
if strings.HasPrefix(annotation, v1.SeccompLocalhostProfileNamePrefix) {
localhostProfile := strings.TrimPrefix(annotation, v1.SeccompLocalhostProfileNamePrefix)
if localhostProfile != "" {
return &api.SeccompProfile{
Type: api.SeccompProfileTypeLocalhost,
LocalhostProfile: &localhostProfile,
}
}
}
// we can only reach this code path if the localhostProfile name has a zero
// length or if the annotation has an unrecognized value
return nil
}