k3s/vendor/k8s.io/kubernetes/pkg/kubelet/status/status_manager.go

744 lines
27 KiB
Go

/*
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 status
import (
"context"
"fmt"
"sort"
"sync"
"time"
clientset "k8s.io/client-go/kubernetes"
v1 "k8s.io/api/core/v1"
apiequality "k8s.io/apimachinery/pkg/api/equality"
"k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/diff"
"k8s.io/apimachinery/pkg/util/wait"
"k8s.io/klog/v2"
podutil "k8s.io/kubernetes/pkg/api/v1/pod"
kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
kubepod "k8s.io/kubernetes/pkg/kubelet/pod"
kubetypes "k8s.io/kubernetes/pkg/kubelet/types"
"k8s.io/kubernetes/pkg/kubelet/util/format"
statusutil "k8s.io/kubernetes/pkg/util/pod"
)
// A wrapper around v1.PodStatus that includes a version to enforce that stale pod statuses are
// not sent to the API server.
type versionedPodStatus struct {
status v1.PodStatus
// Monotonically increasing version number (per pod).
version uint64
// Pod name & namespace, for sending updates to API server.
podName string
podNamespace string
}
type podStatusSyncRequest struct {
podUID types.UID
status versionedPodStatus
}
// Updates pod statuses in apiserver. Writes only when new status has changed.
// All methods are thread-safe.
type manager struct {
kubeClient clientset.Interface
podManager kubepod.Manager
// Map from pod UID to sync status of the corresponding pod.
podStatuses map[types.UID]versionedPodStatus
podStatusesLock sync.RWMutex
podStatusChannel chan podStatusSyncRequest
// Map from (mirror) pod UID to latest status version successfully sent to the API server.
// apiStatusVersions must only be accessed from the sync thread.
apiStatusVersions map[kubetypes.MirrorPodUID]uint64
podDeletionSafety PodDeletionSafetyProvider
}
// PodStatusProvider knows how to provide status for a pod. It's intended to be used by other components
// that need to introspect status.
type PodStatusProvider interface {
// GetPodStatus returns the cached status for the provided pod UID, as well as whether it
// was a cache hit.
GetPodStatus(uid types.UID) (v1.PodStatus, bool)
}
// PodDeletionSafetyProvider provides guarantees that a pod can be safely deleted.
type PodDeletionSafetyProvider interface {
// A function which returns true if the pod can safely be deleted
PodResourcesAreReclaimed(pod *v1.Pod, status v1.PodStatus) bool
}
// Manager is the Source of truth for kubelet pod status, and should be kept up-to-date with
// the latest v1.PodStatus. It also syncs updates back to the API server.
type Manager interface {
PodStatusProvider
// Start the API server status sync loop.
Start()
// SetPodStatus caches updates the cached status for the given pod, and triggers a status update.
SetPodStatus(pod *v1.Pod, status v1.PodStatus)
// SetContainerReadiness updates the cached container status with the given readiness, and
// triggers a status update.
SetContainerReadiness(podUID types.UID, containerID kubecontainer.ContainerID, ready bool)
// SetContainerStartup updates the cached container status with the given startup, and
// triggers a status update.
SetContainerStartup(podUID types.UID, containerID kubecontainer.ContainerID, started bool)
// TerminatePod resets the container status for the provided pod to terminated and triggers
// a status update.
TerminatePod(pod *v1.Pod)
// RemoveOrphanedStatuses scans the status cache and removes any entries for pods not included in
// the provided podUIDs.
RemoveOrphanedStatuses(podUIDs map[types.UID]bool)
}
const syncPeriod = 10 * time.Second
// NewManager returns a functional Manager.
func NewManager(kubeClient clientset.Interface, podManager kubepod.Manager, podDeletionSafety PodDeletionSafetyProvider) Manager {
return &manager{
kubeClient: kubeClient,
podManager: podManager,
podStatuses: make(map[types.UID]versionedPodStatus),
podStatusChannel: make(chan podStatusSyncRequest, 1000), // Buffer up to 1000 statuses
apiStatusVersions: make(map[kubetypes.MirrorPodUID]uint64),
podDeletionSafety: podDeletionSafety,
}
}
// isPodStatusByKubeletEqual returns true if the given pod statuses are equal when non-kubelet-owned
// pod conditions are excluded.
// This method normalizes the status before comparing so as to make sure that meaningless
// changes will be ignored.
func isPodStatusByKubeletEqual(oldStatus, status *v1.PodStatus) bool {
oldCopy := oldStatus.DeepCopy()
for _, c := range status.Conditions {
if kubetypes.PodConditionByKubelet(c.Type) {
_, oc := podutil.GetPodCondition(oldCopy, c.Type)
if oc == nil || oc.Status != c.Status || oc.Message != c.Message || oc.Reason != c.Reason {
return false
}
}
}
oldCopy.Conditions = status.Conditions
return apiequality.Semantic.DeepEqual(oldCopy, status)
}
func (m *manager) Start() {
// Don't start the status manager if we don't have a client. This will happen
// on the master, where the kubelet is responsible for bootstrapping the pods
// of the master components.
if m.kubeClient == nil {
klog.Infof("Kubernetes client is nil, not starting status manager.")
return
}
klog.Info("Starting to sync pod status with apiserver")
//lint:ignore SA1015 Ticker can link since this is only called once and doesn't handle termination.
syncTicker := time.Tick(syncPeriod)
// syncPod and syncBatch share the same go routine to avoid sync races.
go wait.Forever(func() {
for {
select {
case syncRequest := <-m.podStatusChannel:
klog.V(5).Infof("Status Manager: syncing pod: %q, with status: (%d, %v) from podStatusChannel",
syncRequest.podUID, syncRequest.status.version, syncRequest.status.status)
m.syncPod(syncRequest.podUID, syncRequest.status)
case <-syncTicker:
klog.V(5).Infof("Status Manager: syncing batch")
// remove any entries in the status channel since the batch will handle them
for i := len(m.podStatusChannel); i > 0; i-- {
<-m.podStatusChannel
}
m.syncBatch()
}
}
}, 0)
}
func (m *manager) GetPodStatus(uid types.UID) (v1.PodStatus, bool) {
m.podStatusesLock.RLock()
defer m.podStatusesLock.RUnlock()
status, ok := m.podStatuses[types.UID(m.podManager.TranslatePodUID(uid))]
return status.status, ok
}
func (m *manager) SetPodStatus(pod *v1.Pod, status v1.PodStatus) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
// Make sure we're caching a deep copy.
status = *status.DeepCopy()
// Force a status update if deletion timestamp is set. This is necessary
// because if the pod is in the non-running state, the pod worker still
// needs to be able to trigger an update and/or deletion.
m.updateStatusInternal(pod, status, pod.DeletionTimestamp != nil)
}
func (m *manager) SetContainerReadiness(podUID types.UID, containerID kubecontainer.ContainerID, ready bool) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
pod, ok := m.podManager.GetPodByUID(podUID)
if !ok {
klog.V(4).Infof("Pod %q has been deleted, no need to update readiness", string(podUID))
return
}
oldStatus, found := m.podStatuses[pod.UID]
if !found {
klog.Warningf("Container readiness changed before pod has synced: %q - %q",
format.Pod(pod), containerID.String())
return
}
// Find the container to update.
containerStatus, _, ok := findContainerStatus(&oldStatus.status, containerID.String())
if !ok {
klog.Warningf("Container readiness changed for unknown container: %q - %q",
format.Pod(pod), containerID.String())
return
}
if containerStatus.Ready == ready {
klog.V(4).Infof("Container readiness unchanged (%v): %q - %q", ready,
format.Pod(pod), containerID.String())
return
}
// Make sure we're not updating the cached version.
status := *oldStatus.status.DeepCopy()
containerStatus, _, _ = findContainerStatus(&status, containerID.String())
containerStatus.Ready = ready
// updateConditionFunc updates the corresponding type of condition
updateConditionFunc := func(conditionType v1.PodConditionType, condition v1.PodCondition) {
conditionIndex := -1
for i, condition := range status.Conditions {
if condition.Type == conditionType {
conditionIndex = i
break
}
}
if conditionIndex != -1 {
status.Conditions[conditionIndex] = condition
} else {
klog.Warningf("PodStatus missing %s type condition: %+v", conditionType, status)
status.Conditions = append(status.Conditions, condition)
}
}
updateConditionFunc(v1.PodReady, GeneratePodReadyCondition(&pod.Spec, status.Conditions, status.ContainerStatuses, status.Phase))
updateConditionFunc(v1.ContainersReady, GenerateContainersReadyCondition(&pod.Spec, status.ContainerStatuses, status.Phase))
m.updateStatusInternal(pod, status, false)
}
func (m *manager) SetContainerStartup(podUID types.UID, containerID kubecontainer.ContainerID, started bool) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
pod, ok := m.podManager.GetPodByUID(podUID)
if !ok {
klog.V(4).Infof("Pod %q has been deleted, no need to update startup", string(podUID))
return
}
oldStatus, found := m.podStatuses[pod.UID]
if !found {
klog.Warningf("Container startup changed before pod has synced: %q - %q",
format.Pod(pod), containerID.String())
return
}
// Find the container to update.
containerStatus, _, ok := findContainerStatus(&oldStatus.status, containerID.String())
if !ok {
klog.Warningf("Container startup changed for unknown container: %q - %q",
format.Pod(pod), containerID.String())
return
}
if containerStatus.Started != nil && *containerStatus.Started == started {
klog.V(4).Infof("Container startup unchanged (%v): %q - %q", started,
format.Pod(pod), containerID.String())
return
}
// Make sure we're not updating the cached version.
status := *oldStatus.status.DeepCopy()
containerStatus, _, _ = findContainerStatus(&status, containerID.String())
containerStatus.Started = &started
m.updateStatusInternal(pod, status, false)
}
func findContainerStatus(status *v1.PodStatus, containerID string) (containerStatus *v1.ContainerStatus, init bool, ok bool) {
// Find the container to update.
for i, c := range status.ContainerStatuses {
if c.ContainerID == containerID {
return &status.ContainerStatuses[i], false, true
}
}
for i, c := range status.InitContainerStatuses {
if c.ContainerID == containerID {
return &status.InitContainerStatuses[i], true, true
}
}
return nil, false, false
}
func (m *manager) TerminatePod(pod *v1.Pod) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
// ensure that all containers have a terminated state - because we do not know whether the container
// was successful, always report an error
oldStatus := &pod.Status
if cachedStatus, ok := m.podStatuses[pod.UID]; ok {
oldStatus = &cachedStatus.status
}
status := *oldStatus.DeepCopy()
for i := range status.ContainerStatuses {
if status.ContainerStatuses[i].State.Terminated != nil || status.ContainerStatuses[i].State.Waiting != nil {
continue
}
status.ContainerStatuses[i].State = v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{
Reason: "ContainerStatusUnknown",
Message: "The container could not be located when the pod was terminated",
ExitCode: 137,
},
}
}
for i := range status.InitContainerStatuses {
if status.InitContainerStatuses[i].State.Terminated != nil || status.InitContainerStatuses[i].State.Waiting != nil {
continue
}
status.InitContainerStatuses[i].State = v1.ContainerState{
Terminated: &v1.ContainerStateTerminated{
Reason: "ContainerStatusUnknown",
Message: "The container could not be located when the pod was terminated",
ExitCode: 137,
},
}
}
m.updateStatusInternal(pod, status, true)
}
// checkContainerStateTransition ensures that no container is trying to transition
// from a terminated to non-terminated state, which is illegal and indicates a
// logical error in the kubelet.
func checkContainerStateTransition(oldStatuses, newStatuses []v1.ContainerStatus, restartPolicy v1.RestartPolicy) error {
// If we should always restart, containers are allowed to leave the terminated state
if restartPolicy == v1.RestartPolicyAlways {
return nil
}
for _, oldStatus := range oldStatuses {
// Skip any container that wasn't terminated
if oldStatus.State.Terminated == nil {
continue
}
// Skip any container that failed but is allowed to restart
if oldStatus.State.Terminated.ExitCode != 0 && restartPolicy == v1.RestartPolicyOnFailure {
continue
}
for _, newStatus := range newStatuses {
if oldStatus.Name == newStatus.Name && newStatus.State.Terminated == nil {
return fmt.Errorf("terminated container %v attempted illegal transition to non-terminated state", newStatus.Name)
}
}
}
return nil
}
// updateStatusInternal updates the internal status cache, and queues an update to the api server if
// necessary. Returns whether an update was triggered.
// This method IS NOT THREAD SAFE and must be called from a locked function.
func (m *manager) updateStatusInternal(pod *v1.Pod, status v1.PodStatus, forceUpdate bool) bool {
var oldStatus v1.PodStatus
cachedStatus, isCached := m.podStatuses[pod.UID]
if isCached {
oldStatus = cachedStatus.status
} else if mirrorPod, ok := m.podManager.GetMirrorPodByPod(pod); ok {
oldStatus = mirrorPod.Status
} else {
oldStatus = pod.Status
}
// Check for illegal state transition in containers
if err := checkContainerStateTransition(oldStatus.ContainerStatuses, status.ContainerStatuses, pod.Spec.RestartPolicy); err != nil {
klog.Errorf("Status update on pod %v/%v aborted: %v", pod.Namespace, pod.Name, err)
return false
}
if err := checkContainerStateTransition(oldStatus.InitContainerStatuses, status.InitContainerStatuses, pod.Spec.RestartPolicy); err != nil {
klog.Errorf("Status update on pod %v/%v aborted: %v", pod.Namespace, pod.Name, err)
return false
}
// Set ContainersReadyCondition.LastTransitionTime.
updateLastTransitionTime(&status, &oldStatus, v1.ContainersReady)
// Set ReadyCondition.LastTransitionTime.
updateLastTransitionTime(&status, &oldStatus, v1.PodReady)
// Set InitializedCondition.LastTransitionTime.
updateLastTransitionTime(&status, &oldStatus, v1.PodInitialized)
// Set PodScheduledCondition.LastTransitionTime.
updateLastTransitionTime(&status, &oldStatus, v1.PodScheduled)
// ensure that the start time does not change across updates.
if oldStatus.StartTime != nil && !oldStatus.StartTime.IsZero() {
status.StartTime = oldStatus.StartTime
} else if status.StartTime.IsZero() {
// if the status has no start time, we need to set an initial time
now := metav1.Now()
status.StartTime = &now
}
normalizeStatus(pod, &status)
// The intent here is to prevent concurrent updates to a pod's status from
// clobbering each other so the phase of a pod progresses monotonically.
if isCached && isPodStatusByKubeletEqual(&cachedStatus.status, &status) && !forceUpdate {
klog.V(3).Infof("Ignoring same status for pod %q, status: %+v", format.Pod(pod), status)
return false // No new status.
}
newStatus := versionedPodStatus{
status: status,
version: cachedStatus.version + 1,
podName: pod.Name,
podNamespace: pod.Namespace,
}
m.podStatuses[pod.UID] = newStatus
select {
case m.podStatusChannel <- podStatusSyncRequest{pod.UID, newStatus}:
klog.V(5).Infof("Status Manager: adding pod: %q, with status: (%d, %v) to podStatusChannel",
pod.UID, newStatus.version, newStatus.status)
return true
default:
// Let the periodic syncBatch handle the update if the channel is full.
// We can't block, since we hold the mutex lock.
klog.V(4).Infof("Skipping the status update for pod %q for now because the channel is full; status: %+v",
format.Pod(pod), status)
return false
}
}
// updateLastTransitionTime updates the LastTransitionTime of a pod condition.
func updateLastTransitionTime(status, oldStatus *v1.PodStatus, conditionType v1.PodConditionType) {
_, condition := podutil.GetPodCondition(status, conditionType)
if condition == nil {
return
}
// Need to set LastTransitionTime.
lastTransitionTime := metav1.Now()
_, oldCondition := podutil.GetPodCondition(oldStatus, conditionType)
if oldCondition != nil && condition.Status == oldCondition.Status {
lastTransitionTime = oldCondition.LastTransitionTime
}
condition.LastTransitionTime = lastTransitionTime
}
// deletePodStatus simply removes the given pod from the status cache.
func (m *manager) deletePodStatus(uid types.UID) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
delete(m.podStatuses, uid)
}
// TODO(filipg): It'd be cleaner if we can do this without signal from user.
func (m *manager) RemoveOrphanedStatuses(podUIDs map[types.UID]bool) {
m.podStatusesLock.Lock()
defer m.podStatusesLock.Unlock()
for key := range m.podStatuses {
if _, ok := podUIDs[key]; !ok {
klog.V(5).Infof("Removing %q from status map.", key)
delete(m.podStatuses, key)
}
}
}
// syncBatch syncs pods statuses with the apiserver.
func (m *manager) syncBatch() {
var updatedStatuses []podStatusSyncRequest
podToMirror, mirrorToPod := m.podManager.GetUIDTranslations()
func() { // Critical section
m.podStatusesLock.RLock()
defer m.podStatusesLock.RUnlock()
// Clean up orphaned versions.
for uid := range m.apiStatusVersions {
_, hasPod := m.podStatuses[types.UID(uid)]
_, hasMirror := mirrorToPod[uid]
if !hasPod && !hasMirror {
delete(m.apiStatusVersions, uid)
}
}
for uid, status := range m.podStatuses {
syncedUID := kubetypes.MirrorPodUID(uid)
if mirrorUID, ok := podToMirror[kubetypes.ResolvedPodUID(uid)]; ok {
if mirrorUID == "" {
klog.V(5).Infof("Static pod %q (%s/%s) does not have a corresponding mirror pod; skipping", uid, status.podName, status.podNamespace)
continue
}
syncedUID = mirrorUID
}
if m.needsUpdate(types.UID(syncedUID), status) {
updatedStatuses = append(updatedStatuses, podStatusSyncRequest{uid, status})
} else if m.needsReconcile(uid, status.status) {
// Delete the apiStatusVersions here to force an update on the pod status
// In most cases the deleted apiStatusVersions here should be filled
// soon after the following syncPod() [If the syncPod() sync an update
// successfully].
delete(m.apiStatusVersions, syncedUID)
updatedStatuses = append(updatedStatuses, podStatusSyncRequest{uid, status})
}
}
}()
for _, update := range updatedStatuses {
klog.V(5).Infof("Status Manager: syncPod in syncbatch. pod UID: %q", update.podUID)
m.syncPod(update.podUID, update.status)
}
}
// syncPod syncs the given status with the API server. The caller must not hold the lock.
func (m *manager) syncPod(uid types.UID, status versionedPodStatus) {
if !m.needsUpdate(uid, status) {
klog.V(1).Infof("Status for pod %q is up-to-date; skipping", uid)
return
}
// TODO: make me easier to express from client code
pod, err := m.kubeClient.CoreV1().Pods(status.podNamespace).Get(context.TODO(), status.podName, metav1.GetOptions{})
if errors.IsNotFound(err) {
klog.V(3).Infof("Pod %q does not exist on the server", format.PodDesc(status.podName, status.podNamespace, uid))
// If the Pod is deleted the status will be cleared in
// RemoveOrphanedStatuses, so we just ignore the update here.
return
}
if err != nil {
klog.Warningf("Failed to get status for pod %q: %v", format.PodDesc(status.podName, status.podNamespace, uid), err)
return
}
translatedUID := m.podManager.TranslatePodUID(pod.UID)
// Type convert original uid just for the purpose of comparison.
if len(translatedUID) > 0 && translatedUID != kubetypes.ResolvedPodUID(uid) {
klog.V(2).Infof("Pod %q was deleted and then recreated, skipping status update; old UID %q, new UID %q", format.Pod(pod), uid, translatedUID)
m.deletePodStatus(uid)
return
}
oldStatus := pod.Status.DeepCopy()
newPod, patchBytes, unchanged, err := statusutil.PatchPodStatus(m.kubeClient, pod.Namespace, pod.Name, pod.UID, *oldStatus, mergePodStatus(*oldStatus, status.status))
klog.V(3).Infof("Patch status for pod %q with %q", format.Pod(pod), patchBytes)
if err != nil {
klog.Warningf("Failed to update status for pod %q: %v", format.Pod(pod), err)
return
}
if unchanged {
klog.V(3).Infof("Status for pod %q is up-to-date: (%d)", format.Pod(pod), status.version)
} else {
klog.V(3).Infof("Status for pod %q updated successfully: (%d, %+v)", format.Pod(pod), status.version, status.status)
pod = newPod
}
m.apiStatusVersions[kubetypes.MirrorPodUID(pod.UID)] = status.version
// We don't handle graceful deletion of mirror pods.
if m.canBeDeleted(pod, status.status) {
deleteOptions := metav1.DeleteOptions{
GracePeriodSeconds: new(int64),
// Use the pod UID as the precondition for deletion to prevent deleting a
// newly created pod with the same name and namespace.
Preconditions: metav1.NewUIDPreconditions(string(pod.UID)),
}
err = m.kubeClient.CoreV1().Pods(pod.Namespace).Delete(context.TODO(), pod.Name, deleteOptions)
if err != nil {
klog.Warningf("Failed to delete status for pod %q: %v", format.Pod(pod), err)
return
}
klog.V(3).Infof("Pod %q fully terminated and removed from etcd", format.Pod(pod))
m.deletePodStatus(uid)
}
}
// needsUpdate returns whether the status is stale for the given pod UID.
// This method is not thread safe, and must only be accessed by the sync thread.
func (m *manager) needsUpdate(uid types.UID, status versionedPodStatus) bool {
latest, ok := m.apiStatusVersions[kubetypes.MirrorPodUID(uid)]
if !ok || latest < status.version {
return true
}
pod, ok := m.podManager.GetPodByUID(uid)
if !ok {
return false
}
return m.canBeDeleted(pod, status.status)
}
func (m *manager) canBeDeleted(pod *v1.Pod, status v1.PodStatus) bool {
if pod.DeletionTimestamp == nil || kubetypes.IsMirrorPod(pod) {
return false
}
return m.podDeletionSafety.PodResourcesAreReclaimed(pod, status)
}
// needsReconcile compares the given status with the status in the pod manager (which
// in fact comes from apiserver), returns whether the status needs to be reconciled with
// the apiserver. Now when pod status is inconsistent between apiserver and kubelet,
// kubelet should forcibly send an update to reconcile the inconsistence, because kubelet
// should be the source of truth of pod status.
// NOTE(random-liu): It's simpler to pass in mirror pod uid and get mirror pod by uid, but
// now the pod manager only supports getting mirror pod by static pod, so we have to pass
// static pod uid here.
// TODO(random-liu): Simplify the logic when mirror pod manager is added.
func (m *manager) needsReconcile(uid types.UID, status v1.PodStatus) bool {
// The pod could be a static pod, so we should translate first.
pod, ok := m.podManager.GetPodByUID(uid)
if !ok {
klog.V(4).Infof("Pod %q has been deleted, no need to reconcile", string(uid))
return false
}
// If the pod is a static pod, we should check its mirror pod, because only status in mirror pod is meaningful to us.
if kubetypes.IsStaticPod(pod) {
mirrorPod, ok := m.podManager.GetMirrorPodByPod(pod)
if !ok {
klog.V(4).Infof("Static pod %q has no corresponding mirror pod, no need to reconcile", format.Pod(pod))
return false
}
pod = mirrorPod
}
podStatus := pod.Status.DeepCopy()
normalizeStatus(pod, podStatus)
if isPodStatusByKubeletEqual(podStatus, &status) {
// If the status from the source is the same with the cached status,
// reconcile is not needed. Just return.
return false
}
klog.V(3).Infof("Pod status is inconsistent with cached status for pod %q, a reconciliation should be triggered:\n %s", format.Pod(pod),
diff.ObjectDiff(podStatus, &status))
return true
}
// normalizeStatus normalizes nanosecond precision timestamps in podStatus
// down to second precision (*RFC339NANO* -> *RFC3339*). This must be done
// before comparing podStatus to the status returned by apiserver because
// apiserver does not support RFC339NANO.
// Related issue #15262/PR #15263 to move apiserver to RFC339NANO is closed.
func normalizeStatus(pod *v1.Pod, status *v1.PodStatus) *v1.PodStatus {
bytesPerStatus := kubecontainer.MaxPodTerminationMessageLogLength
if containers := len(pod.Spec.Containers) + len(pod.Spec.InitContainers); containers > 0 {
bytesPerStatus = bytesPerStatus / containers
}
normalizeTimeStamp := func(t *metav1.Time) {
*t = t.Rfc3339Copy()
}
normalizeContainerState := func(c *v1.ContainerState) {
if c.Running != nil {
normalizeTimeStamp(&c.Running.StartedAt)
}
if c.Terminated != nil {
normalizeTimeStamp(&c.Terminated.StartedAt)
normalizeTimeStamp(&c.Terminated.FinishedAt)
if len(c.Terminated.Message) > bytesPerStatus {
c.Terminated.Message = c.Terminated.Message[:bytesPerStatus]
}
}
}
if status.StartTime != nil {
normalizeTimeStamp(status.StartTime)
}
for i := range status.Conditions {
condition := &status.Conditions[i]
normalizeTimeStamp(&condition.LastProbeTime)
normalizeTimeStamp(&condition.LastTransitionTime)
}
// update container statuses
for i := range status.ContainerStatuses {
cstatus := &status.ContainerStatuses[i]
normalizeContainerState(&cstatus.State)
normalizeContainerState(&cstatus.LastTerminationState)
}
// Sort the container statuses, so that the order won't affect the result of comparison
sort.Sort(kubetypes.SortedContainerStatuses(status.ContainerStatuses))
// update init container statuses
for i := range status.InitContainerStatuses {
cstatus := &status.InitContainerStatuses[i]
normalizeContainerState(&cstatus.State)
normalizeContainerState(&cstatus.LastTerminationState)
}
// Sort the container statuses, so that the order won't affect the result of comparison
kubetypes.SortInitContainerStatuses(pod, status.InitContainerStatuses)
return status
}
// mergePodStatus merges oldPodStatus and newPodStatus where pod conditions
// not owned by kubelet is preserved from oldPodStatus
func mergePodStatus(oldPodStatus, newPodStatus v1.PodStatus) v1.PodStatus {
podConditions := []v1.PodCondition{}
for _, c := range oldPodStatus.Conditions {
if !kubetypes.PodConditionByKubelet(c.Type) {
podConditions = append(podConditions, c)
}
}
for _, c := range newPodStatus.Conditions {
if kubetypes.PodConditionByKubelet(c.Type) {
podConditions = append(podConditions, c)
}
}
newPodStatus.Conditions = podConditions
return newPodStatus
}
// NeedToReconcilePodReadiness returns if the pod "Ready" condition need to be reconcile
func NeedToReconcilePodReadiness(pod *v1.Pod) bool {
if len(pod.Spec.ReadinessGates) == 0 {
return false
}
podReadyCondition := GeneratePodReadyCondition(&pod.Spec, pod.Status.Conditions, pod.Status.ContainerStatuses, pod.Status.Phase)
i, curCondition := podutil.GetPodConditionFromList(pod.Status.Conditions, v1.PodReady)
// Only reconcile if "Ready" condition is present and Status or Message is not expected
if i >= 0 && (curCondition.Status != podReadyCondition.Status || curCondition.Message != podReadyCondition.Message) {
return true
}
return false
}