mirror of
https://github.com/k3s-io/k3s.git
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470 lines
16 KiB
Go
470 lines
16 KiB
Go
/*
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Copyright 2019 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package scheduler
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import (
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"fmt"
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"k8s.io/klog"
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"reflect"
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"k8s.io/api/core/v1"
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storagev1 "k8s.io/api/storage/v1"
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utilruntime "k8s.io/apimachinery/pkg/util/runtime"
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coreinformers "k8s.io/client-go/informers/core/v1"
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storageinformers "k8s.io/client-go/informers/storage/v1"
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"k8s.io/client-go/tools/cache"
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)
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func (sched *Scheduler) onPvAdd(obj interface{}) {
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// Pods created when there are no PVs available will be stuck in
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// unschedulable queue. But unbound PVs created for static provisioning and
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// delay binding storage class are skipped in PV controller dynamic
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// provisioning and binding process, will not trigger events to schedule pod
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// again. So we need to move pods to active queue on PV add for this
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// scenario.
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onPvUpdate(old, new interface{}) {
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// Scheduler.bindVolumesWorker may fail to update assumed pod volume
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// bindings due to conflicts if PVs are updated by PV controller or other
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// parties, then scheduler will add pod back to unschedulable queue. We
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// need to move pods to active queue on PV update for this scenario.
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onPvcAdd(obj interface{}) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onPvcUpdate(old, new interface{}) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onStorageClassAdd(obj interface{}) {
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sc, ok := obj.(*storagev1.StorageClass)
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if !ok {
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klog.Errorf("cannot convert to *storagev1.StorageClass: %v", obj)
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return
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}
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// CheckVolumeBindingPred fails if pod has unbound immediate PVCs. If these
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// PVCs have specified StorageClass name, creating StorageClass objects
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// with late binding will cause predicates to pass, so we need to move pods
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// to active queue.
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// We don't need to invalidate cached results because results will not be
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// cached for pod that has unbound immediate PVCs.
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if sc.VolumeBindingMode != nil && *sc.VolumeBindingMode == storagev1.VolumeBindingWaitForFirstConsumer {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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}
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func (sched *Scheduler) onServiceAdd(obj interface{}) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onServiceUpdate(oldObj interface{}, newObj interface{}) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) onServiceDelete(obj interface{}) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) addNodeToCache(obj interface{}) {
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node, ok := obj.(*v1.Node)
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if !ok {
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klog.Errorf("cannot convert to *v1.Node: %v", obj)
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return
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}
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if err := sched.config.SchedulerCache.AddNode(node); err != nil {
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klog.Errorf("scheduler cache AddNode failed: %v", err)
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}
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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func (sched *Scheduler) updateNodeInCache(oldObj, newObj interface{}) {
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oldNode, ok := oldObj.(*v1.Node)
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if !ok {
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klog.Errorf("cannot convert oldObj to *v1.Node: %v", oldObj)
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return
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}
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newNode, ok := newObj.(*v1.Node)
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if !ok {
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klog.Errorf("cannot convert newObj to *v1.Node: %v", newObj)
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return
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}
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if err := sched.config.SchedulerCache.UpdateNode(oldNode, newNode); err != nil {
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klog.Errorf("scheduler cache UpdateNode failed: %v", err)
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}
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// Only activate unschedulable pods if the node became more schedulable.
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// We skip the node property comparison when there is no unschedulable pods in the queue
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// to save processing cycles. We still trigger a move to active queue to cover the case
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// that a pod being processed by the scheduler is determined unschedulable. We want this
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// pod to be reevaluated when a change in the cluster happens.
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if sched.config.SchedulingQueue.NumUnschedulablePods() == 0 || nodeSchedulingPropertiesChanged(newNode, oldNode) {
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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}
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func (sched *Scheduler) deleteNodeFromCache(obj interface{}) {
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var node *v1.Node
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switch t := obj.(type) {
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case *v1.Node:
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node = t
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case cache.DeletedFinalStateUnknown:
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var ok bool
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node, ok = t.Obj.(*v1.Node)
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if !ok {
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klog.Errorf("cannot convert to *v1.Node: %v", t.Obj)
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return
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}
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default:
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klog.Errorf("cannot convert to *v1.Node: %v", t)
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return
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}
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// NOTE: Updates must be written to scheduler cache before invalidating
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// equivalence cache, because we could snapshot equivalence cache after the
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// invalidation and then snapshot the cache itself. If the cache is
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// snapshotted before updates are written, we would update equivalence
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// cache with stale information which is based on snapshot of old cache.
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if err := sched.config.SchedulerCache.RemoveNode(node); err != nil {
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klog.Errorf("scheduler cache RemoveNode failed: %v", err)
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}
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}
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func (sched *Scheduler) addPodToSchedulingQueue(obj interface{}) {
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if err := sched.config.SchedulingQueue.Add(obj.(*v1.Pod)); err != nil {
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utilruntime.HandleError(fmt.Errorf("unable to queue %T: %v", obj, err))
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}
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}
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func (sched *Scheduler) updatePodInSchedulingQueue(oldObj, newObj interface{}) {
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pod := newObj.(*v1.Pod)
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if sched.skipPodUpdate(pod) {
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return
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}
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if err := sched.config.SchedulingQueue.Update(oldObj.(*v1.Pod), pod); err != nil {
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utilruntime.HandleError(fmt.Errorf("unable to update %T: %v", newObj, err))
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}
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}
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func (sched *Scheduler) deletePodFromSchedulingQueue(obj interface{}) {
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var pod *v1.Pod
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switch t := obj.(type) {
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case *v1.Pod:
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pod = obj.(*v1.Pod)
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case cache.DeletedFinalStateUnknown:
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var ok bool
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pod, ok = t.Obj.(*v1.Pod)
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if !ok {
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utilruntime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, sched))
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return
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}
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default:
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utilruntime.HandleError(fmt.Errorf("unable to handle object in %T: %T", sched, obj))
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return
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}
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if err := sched.config.SchedulingQueue.Delete(pod); err != nil {
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utilruntime.HandleError(fmt.Errorf("unable to dequeue %T: %v", obj, err))
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}
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if sched.config.VolumeBinder != nil {
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// Volume binder only wants to keep unassigned pods
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sched.config.VolumeBinder.DeletePodBindings(pod)
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}
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}
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func (sched *Scheduler) addPodToCache(obj interface{}) {
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pod, ok := obj.(*v1.Pod)
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if !ok {
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klog.Errorf("cannot convert to *v1.Pod: %v", obj)
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return
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}
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if err := sched.config.SchedulerCache.AddPod(pod); err != nil {
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klog.Errorf("scheduler cache AddPod failed: %v", err)
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}
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sched.config.SchedulingQueue.AssignedPodAdded(pod)
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}
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func (sched *Scheduler) updatePodInCache(oldObj, newObj interface{}) {
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oldPod, ok := oldObj.(*v1.Pod)
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if !ok {
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klog.Errorf("cannot convert oldObj to *v1.Pod: %v", oldObj)
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return
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}
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newPod, ok := newObj.(*v1.Pod)
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if !ok {
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klog.Errorf("cannot convert newObj to *v1.Pod: %v", newObj)
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return
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}
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// NOTE: Updates must be written to scheduler cache before invalidating
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// equivalence cache, because we could snapshot equivalence cache after the
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// invalidation and then snapshot the cache itself. If the cache is
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// snapshotted before updates are written, we would update equivalence
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// cache with stale information which is based on snapshot of old cache.
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if err := sched.config.SchedulerCache.UpdatePod(oldPod, newPod); err != nil {
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klog.Errorf("scheduler cache UpdatePod failed: %v", err)
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}
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sched.config.SchedulingQueue.AssignedPodUpdated(newPod)
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}
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func (sched *Scheduler) deletePodFromCache(obj interface{}) {
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var pod *v1.Pod
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switch t := obj.(type) {
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case *v1.Pod:
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pod = t
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case cache.DeletedFinalStateUnknown:
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var ok bool
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pod, ok = t.Obj.(*v1.Pod)
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if !ok {
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klog.Errorf("cannot convert to *v1.Pod: %v", t.Obj)
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return
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}
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default:
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klog.Errorf("cannot convert to *v1.Pod: %v", t)
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return
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}
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// NOTE: Updates must be written to scheduler cache before invalidating
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// equivalence cache, because we could snapshot equivalence cache after the
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// invalidation and then snapshot the cache itself. If the cache is
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// snapshotted before updates are written, we would update equivalence
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// cache with stale information which is based on snapshot of old cache.
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if err := sched.config.SchedulerCache.RemovePod(pod); err != nil {
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klog.Errorf("scheduler cache RemovePod failed: %v", err)
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}
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sched.config.SchedulingQueue.MoveAllToActiveQueue()
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}
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// assignedPod selects pods that are assigned (scheduled and running).
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func assignedPod(pod *v1.Pod) bool {
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return len(pod.Spec.NodeName) != 0
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}
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// responsibleForPod returns true if the pod has asked to be scheduled by the given scheduler.
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func responsibleForPod(pod *v1.Pod, schedulerName string) bool {
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return schedulerName == pod.Spec.SchedulerName
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}
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// skipPodUpdate checks whether the specified pod update should be ignored.
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// This function will return true if
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// - The pod has already been assumed, AND
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// - The pod has only its ResourceVersion, Spec.NodeName and/or Annotations
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// updated.
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func (sched *Scheduler) skipPodUpdate(pod *v1.Pod) bool {
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// Non-assumed pods should never be skipped.
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isAssumed, err := sched.config.SchedulerCache.IsAssumedPod(pod)
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if err != nil {
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utilruntime.HandleError(fmt.Errorf("failed to check whether pod %s/%s is assumed: %v", pod.Namespace, pod.Name, err))
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return false
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}
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if !isAssumed {
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return false
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}
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// Gets the assumed pod from the cache.
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assumedPod, err := sched.config.SchedulerCache.GetPod(pod)
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if err != nil {
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utilruntime.HandleError(fmt.Errorf("failed to get assumed pod %s/%s from cache: %v", pod.Namespace, pod.Name, err))
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return false
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}
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// Compares the assumed pod in the cache with the pod update. If they are
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// equal (with certain fields excluded), this pod update will be skipped.
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f := func(pod *v1.Pod) *v1.Pod {
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p := pod.DeepCopy()
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// ResourceVersion must be excluded because each object update will
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// have a new resource version.
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p.ResourceVersion = ""
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// Spec.NodeName must be excluded because the pod assumed in the cache
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// is expected to have a node assigned while the pod update may nor may
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// not have this field set.
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p.Spec.NodeName = ""
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// Annotations must be excluded for the reasons described in
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// https://github.com/kubernetes/kubernetes/issues/52914.
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p.Annotations = nil
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return p
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}
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assumedPodCopy, podCopy := f(assumedPod), f(pod)
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if !reflect.DeepEqual(assumedPodCopy, podCopy) {
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return false
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}
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klog.V(3).Infof("Skipping pod %s/%s update", pod.Namespace, pod.Name)
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return true
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}
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// AddAllEventHandlers is a helper function used in tests and in Scheduler
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// to add event handlers for various informers.
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func AddAllEventHandlers(
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sched *Scheduler,
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schedulerName string,
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nodeInformer coreinformers.NodeInformer,
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podInformer coreinformers.PodInformer,
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pvInformer coreinformers.PersistentVolumeInformer,
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pvcInformer coreinformers.PersistentVolumeClaimInformer,
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serviceInformer coreinformers.ServiceInformer,
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storageClassInformer storageinformers.StorageClassInformer,
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) {
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// scheduled pod cache
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podInformer.Informer().AddEventHandler(
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cache.FilteringResourceEventHandler{
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FilterFunc: func(obj interface{}) bool {
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switch t := obj.(type) {
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case *v1.Pod:
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return assignedPod(t)
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case cache.DeletedFinalStateUnknown:
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if pod, ok := t.Obj.(*v1.Pod); ok {
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return assignedPod(pod)
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}
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utilruntime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, sched))
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return false
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default:
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utilruntime.HandleError(fmt.Errorf("unable to handle object in %T: %T", sched, obj))
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return false
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}
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},
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Handler: cache.ResourceEventHandlerFuncs{
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AddFunc: sched.addPodToCache,
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UpdateFunc: sched.updatePodInCache,
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DeleteFunc: sched.deletePodFromCache,
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},
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},
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)
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// unscheduled pod queue
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podInformer.Informer().AddEventHandler(
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cache.FilteringResourceEventHandler{
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FilterFunc: func(obj interface{}) bool {
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switch t := obj.(type) {
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case *v1.Pod:
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return !assignedPod(t) && responsibleForPod(t, schedulerName)
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case cache.DeletedFinalStateUnknown:
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if pod, ok := t.Obj.(*v1.Pod); ok {
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return !assignedPod(pod) && responsibleForPod(pod, schedulerName)
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}
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utilruntime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, sched))
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return false
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default:
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utilruntime.HandleError(fmt.Errorf("unable to handle object in %T: %T", sched, obj))
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return false
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}
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},
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Handler: cache.ResourceEventHandlerFuncs{
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AddFunc: sched.addPodToSchedulingQueue,
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UpdateFunc: sched.updatePodInSchedulingQueue,
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DeleteFunc: sched.deletePodFromSchedulingQueue,
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},
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},
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)
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nodeInformer.Informer().AddEventHandler(
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cache.ResourceEventHandlerFuncs{
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AddFunc: sched.addNodeToCache,
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UpdateFunc: sched.updateNodeInCache,
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DeleteFunc: sched.deleteNodeFromCache,
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},
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)
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// On add and delete of PVs, it will affect equivalence cache items
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// related to persistent volume
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pvInformer.Informer().AddEventHandler(
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cache.ResourceEventHandlerFuncs{
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// MaxPDVolumeCountPredicate: since it relies on the counts of PV.
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AddFunc: sched.onPvAdd,
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UpdateFunc: sched.onPvUpdate,
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},
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)
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// This is for MaxPDVolumeCountPredicate: add/delete PVC will affect counts of PV when it is bound.
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pvcInformer.Informer().AddEventHandler(
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cache.ResourceEventHandlerFuncs{
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AddFunc: sched.onPvcAdd,
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UpdateFunc: sched.onPvcUpdate,
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},
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)
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// This is for ServiceAffinity: affected by the selector of the service is updated.
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// Also, if new service is added, equivalence cache will also become invalid since
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// existing pods may be "captured" by this service and change this predicate result.
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serviceInformer.Informer().AddEventHandler(
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cache.ResourceEventHandlerFuncs{
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AddFunc: sched.onServiceAdd,
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UpdateFunc: sched.onServiceUpdate,
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DeleteFunc: sched.onServiceDelete,
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},
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)
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storageClassInformer.Informer().AddEventHandler(
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cache.ResourceEventHandlerFuncs{
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AddFunc: sched.onStorageClassAdd,
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},
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)
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}
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func nodeSchedulingPropertiesChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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if nodeSpecUnschedulableChanged(newNode, oldNode) {
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return true
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}
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if nodeAllocatableChanged(newNode, oldNode) {
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return true
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}
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if nodeLabelsChanged(newNode, oldNode) {
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return true
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}
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if nodeTaintsChanged(newNode, oldNode) {
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return true
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}
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if nodeConditionsChanged(newNode, oldNode) {
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return true
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}
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return false
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}
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func nodeAllocatableChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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return !reflect.DeepEqual(oldNode.Status.Allocatable, newNode.Status.Allocatable)
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}
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func nodeLabelsChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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return !reflect.DeepEqual(oldNode.GetLabels(), newNode.GetLabels())
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}
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func nodeTaintsChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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return !reflect.DeepEqual(newNode.Spec.Taints, oldNode.Spec.Taints)
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}
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func nodeConditionsChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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strip := func(conditions []v1.NodeCondition) map[v1.NodeConditionType]v1.ConditionStatus {
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conditionStatuses := make(map[v1.NodeConditionType]v1.ConditionStatus, len(conditions))
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for i := range conditions {
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conditionStatuses[conditions[i].Type] = conditions[i].Status
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}
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return conditionStatuses
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}
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return !reflect.DeepEqual(strip(oldNode.Status.Conditions), strip(newNode.Status.Conditions))
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}
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func nodeSpecUnschedulableChanged(newNode *v1.Node, oldNode *v1.Node) bool {
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return newNode.Spec.Unschedulable != oldNode.Spec.Unschedulable && newNode.Spec.Unschedulable == false
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}
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