这篇文章主要讲解了“Kubernetes中Node异常时Pod状态是怎样的”,文中的讲解内容简单清晰,易于学习与理解,下面请大家跟着小编的思路慢慢深入,一起来研究和学习“Kubernetes中Node异常时Pod状态是怎样的”吧!
Kubelet进程异常,Pod状态变化
一个节点上运行着pod前提下,这个时候把kubelet进程停掉。里面的pod会被干掉吗?会在其他节点recreate吗?
结论:
(1)Node状态变为NotReady (2)Pod 5分钟之内状态无变化,5分钟之后的状态变化:Daemonset的Pod状态变为Nodelost,Deployment、Statefulset和Static Pod的状态先变为NodeLost,然后马上变为Unknown。Deployment的pod会recreate,但是Deployment如果是node selector停掉kubelet的node,则recreate的pod会一直处于Pending的状态。Static Pod和Statefulset的Pod会一直处于Unknown状态。
Kubelet恢复,Pod行为
如果kubelet 10分钟后又起来了,node和pod会怎样?
结论:
(1)Node状态变为Ready。 (2)Daemonset的pod不会recreate,旧pod状态直接变为Running。 (3)Deployment的则是将kubelet进程停止的Node删除(原因可能是因为旧Pod状态在集群中有变化,但是Pod状态在变化时发现集群中Deployment的Pod实例数已经够了,所以对旧Pod做了删除处理) (4)Statefulset的Pod会重新recreate。 (5)Staic Pod没有重启,但是Pod的运行时间会在kubelet起来的时候置为0。
在kubelet停止后,statefulset的pod会变成nodelost,接着就变成unknown,但是不会重启,然后等kubelet起来后,statefulset的pod才会recreate。
还有一个就是Static Pod在kubelet重启以后应该没有重启,但是集群中查询Static Pod的状态时,Static Pod的运行时间变了
StatefulSet Pod为何在Node异常时没有Recreate
Node down后,StatefulSet Pods並沒有重建,為什麼?
我们在node controller中发现,除了daemonset pods外,都会调用delete pod api删除pod。
但并不是调用了delete pod api就会从apiserver/etcd中删除pod object,仅仅是设置pod 的deletionTimestamp,标记该pod要被删除。真正删除Pod的行为是kubelet,kubelet grace terminate该pod后去真正删除pod object。这个时候statefulset controller 发现某个replica缺失就会去recreate这个pod。
但此时由于kubelet挂了,无法与master通信,导致Pod Object一直无法从etcd中删除。如果能成功删除Pod Object,就可以在其他Node重建Pod。
另外,要注意,statefulset只会针对isFailed Pod,(但现在Pods是Unkown状态)才会去delete Pod。
// delete and recreate failed pods
if isFailed(replicas[I]) {
ssc.recorder.Eventf(set, v1.EventTypeWarning, "RecreatingFailedPod",
"StatefulSetPlus %s/%s is recreating failed Pod %s",
set.Namespace,
set.Name,
replicas[I].Name)
if err := ssc.podControl.DeleteStatefulPlusPod(set, replicas[I]); err != nil {
return &status, err
}
if getPodRevision(replicas[I]) == currentRevision.Name {
status.CurrentReplicas—
}
if getPodRevision(replicas[I]) == updateRevision.Name {
status.UpdatedReplicas—
}
status.Replicas—
replicas[I] = newVersionedStatefulSetPlusPod(
currentSet,
updateSet,
currentRevision.Name,
updateRevision.Name,
i)
}
优化StatefulSet Pod的行为
所以针对node异常的情况,有状态应用(Non-Quorum)的保障,应该补充以下行为:
监测node的网络、kubelet进程、操作系统等是否异常,区别对待。
比如,如果是网络异常,Pod无法正常提供服务,那么需要kubectl delete pod -f —grace-period=0
进行强制从etcd中删除该pod。
强制删除后,statefulset controller就会自动触发在其他Node上recreate pod。
亦或者,更粗暴的方法,就是放弃GracePeriodSeconds,StatefulSet Pod GracePeriodSeconds为nil或者0,则就会直接从etcd中删除该object。
// BeforeDelete tests whether the object can be gracefully deleted.
// If graceful is set, the object should be gracefully deleted. If gracefulPending
// is set, the object has already been gracefully deleted (and the provided grace
// period is longer than the time to deletion). An error is returned if the
// condition cannot be checked or the gracePeriodSeconds is invalid. The options
// argument may be updated with default values if graceful is true. Second place
// where we set deletionTimestamp is pkg/registry/generic/registry/store.go.
// This function is responsible for setting deletionTimestamp during gracefulDeletion,
// other one for cascading deletions.
func BeforeDelete(strategy RESTDeleteStrategy, ctx context.Context, obj runtime.Object, options *metav1.DeleteOptions) (graceful, gracefulPending bool, err error) {
objectMeta, gvk, kerr := objectMetaAndKind(strategy, obj)
if kerr != nil {
return false, false, kerr
}
if errs := validation.ValidateDeleteOptions(options); len(errs) > 0 {
return false, false, errors.NewInvalid(schema.GroupKind{Group: metav1.GroupName, Kind: "DeleteOptions"}, "", errs)
}
// Checking the Preconditions here to fail early. They'll be enforced later on when we actually do the deletion, too.
if options.Preconditions != nil && options.Preconditions.UID != nil && *options.Preconditions.UID != objectMeta.GetUID() {
return false, false, errors.NewConflict(schema.GroupResource{Group: gvk.Group, Resource: gvk.Kind}, objectMeta.GetName(), fmt.Errorf("the UID in the precondition (%s) does not match the UID in record (%s). The object might have been deleted and then recreated", *options.Preconditions.UID, objectMeta.GetUID()))
}
gracefulStrategy, ok := strategy.(RESTGracefulDeleteStrategy)
if !ok {
// If we're not deleting gracefully there's no point in updating Generation, as we won't update
// the obcject before deleting it.
return false, false, nil
}
// if the object is already being deleted, no need to update generation.
if objectMeta.GetDeletionTimestamp() != nil {
// if we are already being deleted, we may only shorten the deletion grace period
// this means the object was gracefully deleted previously but deletionGracePeriodSeconds was not set,
// so we force deletion immediately
// IMPORTANT:
// The deletion operation happens in two phases.
// 1. Update to set DeletionGracePeriodSeconds and DeletionTimestamp
// 2. Delete the object from storage.
// If the update succeeds, but the delete fails (network error, internal storage error, etc.),
// a resource was previously left in a state that was non-recoverable. We
// check if the existing stored resource has a grace period as 0 and if so
// attempt to delete immediately in order to recover from this scenario.
if objectMeta.GetDeletionGracePeriodSeconds() == nil || *objectMeta.GetDeletionGracePeriodSeconds() == 0 {
return false, false, nil
}
...
}
...
}
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