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factory.go
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factory.go
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/*
Copyright 2014 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
// Package factory can set up a scheduler. This code is here instead of
// cmd/scheduler for both testability and reuse.
package factory
import (
"fmt"
"os"
"os/signal"
"reflect"
"time"
"github.com/golang/glog"
"k8s.io/api/core/v1"
"k8s.io/api/policy/v1beta1"
storagev1 "k8s.io/api/storage/v1"
"k8s.io/apimachinery/pkg/api/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/fields"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/runtime"
"k8s.io/apimachinery/pkg/util/sets"
utilfeature "k8s.io/apiserver/pkg/util/feature"
appsinformers "k8s.io/client-go/informers/apps/v1"
coreinformers "k8s.io/client-go/informers/core/v1"
policyinformers "k8s.io/client-go/informers/policy/v1beta1"
storageinformers "k8s.io/client-go/informers/storage/v1"
clientset "k8s.io/client-go/kubernetes"
appslisters "k8s.io/client-go/listers/apps/v1"
corelisters "k8s.io/client-go/listers/core/v1"
policylisters "k8s.io/client-go/listers/policy/v1beta1"
storagelisters "k8s.io/client-go/listers/storage/v1"
"k8s.io/client-go/tools/cache"
podutil "k8s.io/kubernetes/pkg/api/v1/pod"
"k8s.io/kubernetes/pkg/apis/core/helper"
"k8s.io/kubernetes/pkg/features"
kubeletapis "k8s.io/kubernetes/pkg/kubelet/apis"
"k8s.io/kubernetes/pkg/scheduler"
"k8s.io/kubernetes/pkg/scheduler/algorithm"
"k8s.io/kubernetes/pkg/scheduler/algorithm/predicates"
schedulerapi "k8s.io/kubernetes/pkg/scheduler/api"
"k8s.io/kubernetes/pkg/scheduler/api/validation"
schedulercache "k8s.io/kubernetes/pkg/scheduler/cache"
"k8s.io/kubernetes/pkg/scheduler/core"
"k8s.io/kubernetes/pkg/scheduler/core/equivalence"
"k8s.io/kubernetes/pkg/scheduler/util"
"k8s.io/kubernetes/pkg/scheduler/volumebinder"
)
const (
initialGetBackoff = 100 * time.Millisecond
maximalGetBackoff = time.Minute
)
var (
serviceAffinitySet = sets.NewString(predicates.CheckServiceAffinityPred)
matchInterPodAffinitySet = sets.NewString(predicates.MatchInterPodAffinityPred)
generalPredicatesSets = sets.NewString(predicates.GeneralPred)
noDiskConflictSet = sets.NewString(predicates.NoDiskConflictPred)
maxPDVolumeCountPredicateKeys = []string{predicates.MaxGCEPDVolumeCountPred, predicates.MaxAzureDiskVolumeCountPred, predicates.MaxEBSVolumeCountPred}
)
// configFactory is the default implementation of the scheduler.Configurator interface.
type configFactory struct {
client clientset.Interface
// queue for pods that need scheduling
podQueue core.SchedulingQueue
// a means to list all known scheduled pods.
scheduledPodLister corelisters.PodLister
// a means to list all known scheduled pods and pods assumed to have been scheduled.
podLister algorithm.PodLister
// a means to list all nodes
nodeLister corelisters.NodeLister
// a means to list all PersistentVolumes
pVLister corelisters.PersistentVolumeLister
// a means to list all PersistentVolumeClaims
pVCLister corelisters.PersistentVolumeClaimLister
// a means to list all services
serviceLister corelisters.ServiceLister
// a means to list all controllers
controllerLister corelisters.ReplicationControllerLister
// a means to list all replicasets
replicaSetLister appslisters.ReplicaSetLister
// a means to list all statefulsets
statefulSetLister appslisters.StatefulSetLister
// a means to list all PodDisruptionBudgets
pdbLister policylisters.PodDisruptionBudgetLister
// a means to list all StorageClasses
storageClassLister storagelisters.StorageClassLister
// Close this to stop all reflectors
StopEverything chan struct{}
scheduledPodsHasSynced cache.InformerSynced
schedulerCache schedulercache.Cache
// SchedulerName of a scheduler is used to select which pods will be
// processed by this scheduler, based on pods's "spec.schedulerName".
schedulerName string
// RequiredDuringScheduling affinity is not symmetric, but there is an implicit PreferredDuringScheduling affinity rule
// corresponding to every RequiredDuringScheduling affinity rule.
// HardPodAffinitySymmetricWeight represents the weight of implicit PreferredDuringScheduling affinity rule, in the range 0-100.
hardPodAffinitySymmetricWeight int32
// Equivalence class cache
equivalencePodCache *equivalence.Cache
// Enable equivalence class cache
enableEquivalenceClassCache bool
// Handles volume binding decisions
volumeBinder *volumebinder.VolumeBinder
// always check all predicates even if the middle of one predicate fails.
alwaysCheckAllPredicates bool
// Disable pod preemption or not.
disablePreemption bool
// percentageOfNodesToScore specifies percentage of all nodes to score in each scheduling cycle.
percentageOfNodesToScore int32
}
// ConfigFactoryArgs is a set arguments passed to NewConfigFactory.
type ConfigFactoryArgs struct {
SchedulerName string
Client clientset.Interface
NodeInformer coreinformers.NodeInformer
PodInformer coreinformers.PodInformer
PvInformer coreinformers.PersistentVolumeInformer
PvcInformer coreinformers.PersistentVolumeClaimInformer
ReplicationControllerInformer coreinformers.ReplicationControllerInformer
ReplicaSetInformer appsinformers.ReplicaSetInformer
StatefulSetInformer appsinformers.StatefulSetInformer
ServiceInformer coreinformers.ServiceInformer
PdbInformer policyinformers.PodDisruptionBudgetInformer
StorageClassInformer storageinformers.StorageClassInformer
HardPodAffinitySymmetricWeight int32
EnableEquivalenceClassCache bool
DisablePreemption bool
PercentageOfNodesToScore int32
BindTimeoutSeconds int64
}
// NewConfigFactory initializes the default implementation of a Configurator To encourage eventual privatization of the struct type, we only
// return the interface.
func NewConfigFactory(args *ConfigFactoryArgs) scheduler.Configurator {
stopEverything := make(chan struct{})
schedulerCache := schedulercache.New(30*time.Second, stopEverything)
// storageClassInformer is only enabled through VolumeScheduling feature gate
var storageClassLister storagelisters.StorageClassLister
if args.StorageClassInformer != nil {
storageClassLister = args.StorageClassInformer.Lister()
}
c := &configFactory{
client: args.Client,
podLister: schedulerCache,
podQueue: core.NewSchedulingQueue(),
pVLister: args.PvInformer.Lister(),
pVCLister: args.PvcInformer.Lister(),
serviceLister: args.ServiceInformer.Lister(),
controllerLister: args.ReplicationControllerInformer.Lister(),
replicaSetLister: args.ReplicaSetInformer.Lister(),
statefulSetLister: args.StatefulSetInformer.Lister(),
pdbLister: args.PdbInformer.Lister(),
storageClassLister: storageClassLister,
schedulerCache: schedulerCache,
StopEverything: stopEverything,
schedulerName: args.SchedulerName,
hardPodAffinitySymmetricWeight: args.HardPodAffinitySymmetricWeight,
enableEquivalenceClassCache: args.EnableEquivalenceClassCache,
disablePreemption: args.DisablePreemption,
percentageOfNodesToScore: args.PercentageOfNodesToScore,
}
c.scheduledPodsHasSynced = args.PodInformer.Informer().HasSynced
// scheduled pod cache
args.PodInformer.Informer().AddEventHandler(
cache.FilteringResourceEventHandler{
FilterFunc: func(obj interface{}) bool {
switch t := obj.(type) {
case *v1.Pod:
return assignedNonTerminatedPod(t)
case cache.DeletedFinalStateUnknown:
if pod, ok := t.Obj.(*v1.Pod); ok {
return assignedNonTerminatedPod(pod)
}
runtime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, c))
return false
default:
runtime.HandleError(fmt.Errorf("unable to handle object in %T: %T", c, obj))
return false
}
},
Handler: cache.ResourceEventHandlerFuncs{
AddFunc: c.addPodToCache,
UpdateFunc: c.updatePodInCache,
DeleteFunc: c.deletePodFromCache,
},
},
)
// unscheduled pod queue
args.PodInformer.Informer().AddEventHandler(
cache.FilteringResourceEventHandler{
FilterFunc: func(obj interface{}) bool {
switch t := obj.(type) {
case *v1.Pod:
return unassignedNonTerminatedPod(t) && responsibleForPod(t, args.SchedulerName)
case cache.DeletedFinalStateUnknown:
if pod, ok := t.Obj.(*v1.Pod); ok {
return unassignedNonTerminatedPod(pod) && responsibleForPod(pod, args.SchedulerName)
}
runtime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, c))
return false
default:
runtime.HandleError(fmt.Errorf("unable to handle object in %T: %T", c, obj))
return false
}
},
Handler: cache.ResourceEventHandlerFuncs{
AddFunc: c.addPodToSchedulingQueue,
UpdateFunc: c.updatePodInSchedulingQueue,
DeleteFunc: c.deletePodFromSchedulingQueue,
},
},
)
// ScheduledPodLister is something we provide to plug-in functions that
// they may need to call.
c.scheduledPodLister = assignedPodLister{args.PodInformer.Lister()}
args.NodeInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
AddFunc: c.addNodeToCache,
UpdateFunc: c.updateNodeInCache,
DeleteFunc: c.deleteNodeFromCache,
},
)
c.nodeLister = args.NodeInformer.Lister()
args.PdbInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
AddFunc: c.addPDBToCache,
UpdateFunc: c.updatePDBInCache,
DeleteFunc: c.deletePDBFromCache,
},
)
c.pdbLister = args.PdbInformer.Lister()
// On add and delete of PVs, it will affect equivalence cache items
// related to persistent volume
args.PvInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
// MaxPDVolumeCountPredicate: since it relies on the counts of PV.
AddFunc: c.onPvAdd,
UpdateFunc: c.onPvUpdate,
DeleteFunc: c.onPvDelete,
},
)
c.pVLister = args.PvInformer.Lister()
// This is for MaxPDVolumeCountPredicate: add/delete PVC will affect counts of PV when it is bound.
args.PvcInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
AddFunc: c.onPvcAdd,
UpdateFunc: c.onPvcUpdate,
DeleteFunc: c.onPvcDelete,
},
)
c.pVCLister = args.PvcInformer.Lister()
// This is for ServiceAffinity: affected by the selector of the service is updated.
// Also, if new service is added, equivalence cache will also become invalid since
// existing pods may be "captured" by this service and change this predicate result.
args.ServiceInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
AddFunc: c.onServiceAdd,
UpdateFunc: c.onServiceUpdate,
DeleteFunc: c.onServiceDelete,
},
)
c.serviceLister = args.ServiceInformer.Lister()
// Existing equivalence cache should not be affected by add/delete RC/Deployment etc,
// it only make sense when pod is scheduled or deleted
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
// Setup volume binder
c.volumeBinder = volumebinder.NewVolumeBinder(args.Client, args.PvcInformer, args.PvInformer, args.StorageClassInformer, time.Duration(args.BindTimeoutSeconds)*time.Second)
args.StorageClassInformer.Informer().AddEventHandler(
cache.ResourceEventHandlerFuncs{
AddFunc: c.onStorageClassAdd,
DeleteFunc: c.onStorageClassDelete,
},
)
}
// Setup cache comparer
comparer := &cacheComparer{
podLister: args.PodInformer.Lister(),
nodeLister: args.NodeInformer.Lister(),
pdbLister: args.PdbInformer.Lister(),
cache: c.schedulerCache,
podQueue: c.podQueue,
}
ch := make(chan os.Signal, 1)
signal.Notify(ch, compareSignal)
go func() {
for {
select {
case <-c.StopEverything:
return
case <-ch:
comparer.Compare()
}
}
}()
return c
}
// skipPodUpdate checks whether the specified pod update should be ignored.
// This function will return true if
// - The pod has already been assumed, AND
// - The pod has only its ResourceVersion, Spec.NodeName and/or Annotations
// updated.
func (c *configFactory) skipPodUpdate(pod *v1.Pod) bool {
// Non-assumed pods should never be skipped.
isAssumed, err := c.schedulerCache.IsAssumedPod(pod)
if err != nil {
runtime.HandleError(fmt.Errorf("failed to check whether pod %s/%s is assumed: %v", pod.Namespace, pod.Name, err))
return false
}
if !isAssumed {
return false
}
// Gets the assumed pod from the cache.
assumedPod, err := c.schedulerCache.GetPod(pod)
if err != nil {
runtime.HandleError(fmt.Errorf("failed to get assumed pod %s/%s from cache: %v", pod.Namespace, pod.Name, err))
return false
}
// Compares the assumed pod in the cache with the pod update. If they are
// equal (with certain fields excluded), this pod update will be skipped.
f := func(pod *v1.Pod) *v1.Pod {
p := pod.DeepCopy()
// ResourceVersion must be excluded because each object update will
// have a new resource version.
p.ResourceVersion = ""
// Spec.NodeName must be excluded because the pod assumed in the cache
// is expected to have a node assigned while the pod update may nor may
// not have this field set.
p.Spec.NodeName = ""
// Annotations must be excluded for the reasons described in
// https://github.com/kubernetes/kubernetes/issues/52914.
p.Annotations = nil
return p
}
assumedPodCopy, podCopy := f(assumedPod), f(pod)
if !reflect.DeepEqual(assumedPodCopy, podCopy) {
return false
}
glog.V(3).Infof("Skipping pod %s/%s update", pod.Namespace, pod.Name)
return true
}
func (c *configFactory) onPvAdd(obj interface{}) {
if c.enableEquivalenceClassCache {
pv, ok := obj.(*v1.PersistentVolume)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolume: %v", obj)
return
}
c.invalidatePredicatesForPv(pv)
}
// Pods created when there are no PVs available will be stuck in
// unschedulable queue. But unbound PVs created for static provisioning and
// delay binding storage class are skipped in PV controller dynamic
// provisiong and binding process, will not trigger events to schedule pod
// again. So we need to move pods to active queue on PV add for this
// scenario.
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) onPvUpdate(old, new interface{}) {
if c.enableEquivalenceClassCache {
newPV, ok := new.(*v1.PersistentVolume)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolume: %v", new)
return
}
oldPV, ok := old.(*v1.PersistentVolume)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolume: %v", old)
return
}
c.invalidatePredicatesForPvUpdate(oldPV, newPV)
}
// Scheduler.bindVolumesWorker may fail to update assumed pod volume
// bindings due to conflicts if PVs are updated by PV controller or other
// parties, then scheduler will add pod back to unschedulable queue. We
// need to move pods to active queue on PV update for this scenario.
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) invalidatePredicatesForPvUpdate(oldPV, newPV *v1.PersistentVolume) {
invalidPredicates := sets.NewString()
// CheckVolumeBinding predicate calls SchedulerVolumeBinder.FindPodVolumes
// which will cache PVs in PodBindingCache. When PV got updated, we should
// invalidate cache, otherwise PVAssumeCache.Assume will fail with out of sync
// error.
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
invalidPredicates.Insert(predicates.CheckVolumeBindingPred)
}
for k, v := range newPV.Labels {
// If PV update modifies the zone/region labels.
if isZoneRegionLabel(k) && !reflect.DeepEqual(v, oldPV.Labels[k]) {
invalidPredicates.Insert(predicates.NoVolumeZoneConflictPred)
break
}
}
c.equivalencePodCache.InvalidatePredicates(invalidPredicates)
}
// isZoneRegionLabel check if given key of label is zone or region label.
func isZoneRegionLabel(k string) bool {
return k == kubeletapis.LabelZoneFailureDomain || k == kubeletapis.LabelZoneRegion
}
func (c *configFactory) onPvDelete(obj interface{}) {
if c.enableEquivalenceClassCache {
var pv *v1.PersistentVolume
switch t := obj.(type) {
case *v1.PersistentVolume:
pv = t
case cache.DeletedFinalStateUnknown:
var ok bool
pv, ok = t.Obj.(*v1.PersistentVolume)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolume: %v", t.Obj)
return
}
default:
glog.Errorf("cannot convert to *v1.PersistentVolume: %v", t)
return
}
c.invalidatePredicatesForPv(pv)
}
}
func (c *configFactory) invalidatePredicatesForPv(pv *v1.PersistentVolume) {
// You could have a PVC that points to a PV, but the PV object doesn't exist.
// So when the PV object gets added, we can recount.
invalidPredicates := sets.NewString()
// PV types which impact MaxPDVolumeCountPredicate
if pv.Spec.AWSElasticBlockStore != nil {
invalidPredicates.Insert(predicates.MaxEBSVolumeCountPred)
}
if pv.Spec.GCEPersistentDisk != nil {
invalidPredicates.Insert(predicates.MaxGCEPDVolumeCountPred)
}
if pv.Spec.AzureDisk != nil {
invalidPredicates.Insert(predicates.MaxAzureDiskVolumeCountPred)
}
if pv.Spec.CSI != nil && utilfeature.DefaultFeatureGate.Enabled(features.AttachVolumeLimit) {
invalidPredicates.Insert(predicates.MaxCSIVolumeCountPred)
}
// If PV contains zone related label, it may impact cached NoVolumeZoneConflict
for k := range pv.Labels {
if isZoneRegionLabel(k) {
invalidPredicates.Insert(predicates.NoVolumeZoneConflictPred)
break
}
}
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
// Add/delete impacts the available PVs to choose from
invalidPredicates.Insert(predicates.CheckVolumeBindingPred)
}
c.equivalencePodCache.InvalidatePredicates(invalidPredicates)
}
func (c *configFactory) onPvcAdd(obj interface{}) {
if c.enableEquivalenceClassCache {
pvc, ok := obj.(*v1.PersistentVolumeClaim)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolumeClaim: %v", obj)
return
}
c.invalidatePredicatesForPvc(pvc)
}
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) onPvcUpdate(old, new interface{}) {
if !utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
return
}
if c.enableEquivalenceClassCache {
newPVC, ok := new.(*v1.PersistentVolumeClaim)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolumeClaim: %v", new)
return
}
oldPVC, ok := old.(*v1.PersistentVolumeClaim)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolumeClaim: %v", old)
return
}
c.invalidatePredicatesForPvcUpdate(oldPVC, newPVC)
}
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) onPvcDelete(obj interface{}) {
if c.enableEquivalenceClassCache {
var pvc *v1.PersistentVolumeClaim
switch t := obj.(type) {
case *v1.PersistentVolumeClaim:
pvc = t
case cache.DeletedFinalStateUnknown:
var ok bool
pvc, ok = t.Obj.(*v1.PersistentVolumeClaim)
if !ok {
glog.Errorf("cannot convert to *v1.PersistentVolumeClaim: %v", t.Obj)
return
}
default:
glog.Errorf("cannot convert to *v1.PersistentVolumeClaim: %v", t)
return
}
c.invalidatePredicatesForPvc(pvc)
}
}
func (c *configFactory) invalidatePredicatesForPvc(pvc *v1.PersistentVolumeClaim) {
// We need to do this here because the ecache uses PVC uid as part of equivalence hash of pod
// The bound volume type may change
invalidPredicates := sets.NewString(maxPDVolumeCountPredicateKeys...)
if utilfeature.DefaultFeatureGate.Enabled(features.AttachVolumeLimit) {
invalidPredicates.Insert(predicates.MaxCSIVolumeCountPred)
}
// The bound volume's label may change
invalidPredicates.Insert(predicates.NoVolumeZoneConflictPred)
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
// Add/delete impacts the available PVs to choose from
invalidPredicates.Insert(predicates.CheckVolumeBindingPred)
}
c.equivalencePodCache.InvalidatePredicates(invalidPredicates)
}
func (c *configFactory) invalidatePredicatesForPvcUpdate(old, new *v1.PersistentVolumeClaim) {
invalidPredicates := sets.NewString()
if old.Spec.VolumeName != new.Spec.VolumeName {
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
// PVC volume binding has changed
invalidPredicates.Insert(predicates.CheckVolumeBindingPred)
}
// The bound volume type may change
invalidPredicates.Insert(maxPDVolumeCountPredicateKeys...)
if utilfeature.DefaultFeatureGate.Enabled(features.AttachVolumeLimit) {
invalidPredicates.Insert(predicates.MaxCSIVolumeCountPred)
}
}
c.equivalencePodCache.InvalidatePredicates(invalidPredicates)
}
func (c *configFactory) onStorageClassAdd(obj interface{}) {
sc, ok := obj.(*storagev1.StorageClass)
if !ok {
glog.Errorf("cannot convert to *storagev1.StorageClass: %v", obj)
return
}
// CheckVolumeBindingPred fails if pod has unbound immediate PVCs. If these
// PVCs have specified StorageClass name, creating StorageClass objects
// with late binding will cause predicates to pass, so we need to move pods
// to active queue.
// We don't need to invalidate cached results because results will not be
// cached for pod that has unbound immediate PVCs.
if sc.VolumeBindingMode != nil && *sc.VolumeBindingMode == storagev1.VolumeBindingWaitForFirstConsumer {
c.podQueue.MoveAllToActiveQueue()
}
}
func (c *configFactory) onStorageClassDelete(obj interface{}) {
if c.enableEquivalenceClassCache {
var sc *storagev1.StorageClass
switch t := obj.(type) {
case *storagev1.StorageClass:
sc = t
case cache.DeletedFinalStateUnknown:
var ok bool
sc, ok = t.Obj.(*storagev1.StorageClass)
if !ok {
glog.Errorf("cannot convert to *storagev1.StorageClass: %v", t.Obj)
return
}
default:
glog.Errorf("cannot convert to *storagev1.StorageClass: %v", t)
return
}
c.invalidatePredicatesForStorageClass(sc)
}
}
func (c *configFactory) invalidatePredicatesForStorageClass(sc *storagev1.StorageClass) {
invalidPredicates := sets.NewString()
if utilfeature.DefaultFeatureGate.Enabled(features.VolumeScheduling) {
if sc.VolumeBindingMode != nil && *sc.VolumeBindingMode == storagev1.VolumeBindingWaitForFirstConsumer {
// Delete can cause predicates to fail
invalidPredicates.Insert(predicates.CheckVolumeBindingPred)
invalidPredicates.Insert(predicates.NoVolumeZoneConflictPred)
}
}
c.equivalencePodCache.InvalidatePredicates(invalidPredicates)
}
func (c *configFactory) onServiceAdd(obj interface{}) {
if c.enableEquivalenceClassCache {
c.equivalencePodCache.InvalidatePredicates(serviceAffinitySet)
}
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) onServiceUpdate(oldObj interface{}, newObj interface{}) {
if c.enableEquivalenceClassCache {
// TODO(resouer) We may need to invalidate this for specified group of pods only
oldService := oldObj.(*v1.Service)
newService := newObj.(*v1.Service)
if !reflect.DeepEqual(oldService.Spec.Selector, newService.Spec.Selector) {
c.equivalencePodCache.InvalidatePredicates(serviceAffinitySet)
}
}
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) onServiceDelete(obj interface{}) {
if c.enableEquivalenceClassCache {
c.equivalencePodCache.InvalidatePredicates(serviceAffinitySet)
}
c.podQueue.MoveAllToActiveQueue()
}
// GetNodeStore provides the cache to the nodes, mostly internal use, but may also be called by mock-tests.
func (c *configFactory) GetNodeLister() corelisters.NodeLister {
return c.nodeLister
}
func (c *configFactory) GetHardPodAffinitySymmetricWeight() int32 {
return c.hardPodAffinitySymmetricWeight
}
func (c *configFactory) GetSchedulerName() string {
return c.schedulerName
}
// GetClient provides a kubernetes Client, mostly internal use, but may also be called by mock-tests.
func (c *configFactory) GetClient() clientset.Interface {
return c.client
}
// GetScheduledPodListerIndexer provides a pod lister, mostly internal use, but may also be called by mock-tests.
func (c *configFactory) GetScheduledPodLister() corelisters.PodLister {
return c.scheduledPodLister
}
func (c *configFactory) addPodToCache(obj interface{}) {
pod, ok := obj.(*v1.Pod)
if !ok {
glog.Errorf("cannot convert to *v1.Pod: %v", obj)
return
}
if err := c.schedulerCache.AddPod(pod); err != nil {
glog.Errorf("scheduler cache AddPod failed: %v", err)
}
c.podQueue.AssignedPodAdded(pod)
// NOTE: Updating equivalence cache of addPodToCache has been
// handled optimistically in: pkg/scheduler/scheduler.go#assume()
}
func (c *configFactory) updatePodInCache(oldObj, newObj interface{}) {
oldPod, ok := oldObj.(*v1.Pod)
if !ok {
glog.Errorf("cannot convert oldObj to *v1.Pod: %v", oldObj)
return
}
newPod, ok := newObj.(*v1.Pod)
if !ok {
glog.Errorf("cannot convert newObj to *v1.Pod: %v", newObj)
return
}
// NOTE: Because the scheduler uses snapshots of schedulerCache and the live
// version of equivalencePodCache, updates must be written to schedulerCache
// before invalidating equivalencePodCache.
if err := c.schedulerCache.UpdatePod(oldPod, newPod); err != nil {
glog.Errorf("scheduler cache UpdatePod failed: %v", err)
}
c.invalidateCachedPredicatesOnUpdatePod(newPod, oldPod)
c.podQueue.AssignedPodUpdated(newPod)
}
func (c *configFactory) addPodToSchedulingQueue(obj interface{}) {
if err := c.podQueue.Add(obj.(*v1.Pod)); err != nil {
runtime.HandleError(fmt.Errorf("unable to queue %T: %v", obj, err))
}
}
func (c *configFactory) updatePodInSchedulingQueue(oldObj, newObj interface{}) {
pod := newObj.(*v1.Pod)
if c.skipPodUpdate(pod) {
return
}
if err := c.podQueue.Update(oldObj.(*v1.Pod), pod); err != nil {
runtime.HandleError(fmt.Errorf("unable to update %T: %v", newObj, err))
}
}
func (c *configFactory) deletePodFromSchedulingQueue(obj interface{}) {
var pod *v1.Pod
switch t := obj.(type) {
case *v1.Pod:
pod = obj.(*v1.Pod)
case cache.DeletedFinalStateUnknown:
var ok bool
pod, ok = t.Obj.(*v1.Pod)
if !ok {
runtime.HandleError(fmt.Errorf("unable to convert object %T to *v1.Pod in %T", obj, c))
return
}
default:
runtime.HandleError(fmt.Errorf("unable to handle object in %T: %T", c, obj))
return
}
if err := c.podQueue.Delete(pod); err != nil {
runtime.HandleError(fmt.Errorf("unable to dequeue %T: %v", obj, err))
}
if c.volumeBinder != nil {
// Volume binder only wants to keep unassigned pods
c.volumeBinder.DeletePodBindings(pod)
}
}
func (c *configFactory) invalidateCachedPredicatesOnUpdatePod(newPod *v1.Pod, oldPod *v1.Pod) {
if c.enableEquivalenceClassCache {
// if the pod does not have bound node, updating equivalence cache is meaningless;
// if pod's bound node has been changed, that case should be handled by pod add & delete.
if len(newPod.Spec.NodeName) != 0 && newPod.Spec.NodeName == oldPod.Spec.NodeName {
if !reflect.DeepEqual(oldPod.GetLabels(), newPod.GetLabels()) {
// MatchInterPodAffinity need to be reconsidered for this node,
// as well as all nodes in its same failure domain.
c.equivalencePodCache.InvalidatePredicates(
matchInterPodAffinitySet)
}
// if requested container resource changed, invalidate GeneralPredicates of this node
if !reflect.DeepEqual(predicates.GetResourceRequest(newPod),
predicates.GetResourceRequest(oldPod)) {
c.equivalencePodCache.InvalidatePredicatesOnNode(
newPod.Spec.NodeName, generalPredicatesSets)
}
}
}
}
func (c *configFactory) deletePodFromCache(obj interface{}) {
var pod *v1.Pod
switch t := obj.(type) {
case *v1.Pod:
pod = t
case cache.DeletedFinalStateUnknown:
var ok bool
pod, ok = t.Obj.(*v1.Pod)
if !ok {
glog.Errorf("cannot convert to *v1.Pod: %v", t.Obj)
return
}
default:
glog.Errorf("cannot convert to *v1.Pod: %v", t)
return
}
// NOTE: Because the scheduler uses snapshots of schedulerCache and the live
// version of equivalencePodCache, updates must be written to schedulerCache
// before invalidating equivalencePodCache.
if err := c.schedulerCache.RemovePod(pod); err != nil {
glog.Errorf("scheduler cache RemovePod failed: %v", err)
}
c.invalidateCachedPredicatesOnDeletePod(pod)
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) invalidateCachedPredicatesOnDeletePod(pod *v1.Pod) {
if c.enableEquivalenceClassCache {
// part of this case is the same as pod add.
c.equivalencePodCache.InvalidateCachedPredicateItemForPodAdd(pod, pod.Spec.NodeName)
// MatchInterPodAffinity need to be reconsidered for this node,
// as well as all nodes in its same failure domain.
// TODO(resouer) can we just do this for nodes in the same failure domain
c.equivalencePodCache.InvalidatePredicates(
matchInterPodAffinitySet)
// if this pod have these PV, cached result of disk conflict will become invalid.
for _, volume := range pod.Spec.Volumes {
if volume.GCEPersistentDisk != nil || volume.AWSElasticBlockStore != nil ||
volume.RBD != nil || volume.ISCSI != nil {
c.equivalencePodCache.InvalidatePredicatesOnNode(
pod.Spec.NodeName, noDiskConflictSet)
}
}
}
}
func (c *configFactory) addNodeToCache(obj interface{}) {
node, ok := obj.(*v1.Node)
if !ok {
glog.Errorf("cannot convert to *v1.Node: %v", obj)
return
}
if err := c.schedulerCache.AddNode(node); err != nil {
glog.Errorf("scheduler cache AddNode failed: %v", err)
}
if c.enableEquivalenceClassCache {
// GetNodeCache() will lazily create NodeCache for given node if it does not exist.
c.equivalencePodCache.GetNodeCache(node.GetName())
}
c.podQueue.MoveAllToActiveQueue()
// NOTE: add a new node does not affect existing predicates in equivalence cache
}
func (c *configFactory) updateNodeInCache(oldObj, newObj interface{}) {
oldNode, ok := oldObj.(*v1.Node)
if !ok {
glog.Errorf("cannot convert oldObj to *v1.Node: %v", oldObj)
return
}
newNode, ok := newObj.(*v1.Node)
if !ok {
glog.Errorf("cannot convert newObj to *v1.Node: %v", newObj)
return
}
// NOTE: Because the scheduler uses snapshots of schedulerCache and the live
// version of equivalencePodCache, updates must be written to schedulerCache
// before invalidating equivalencePodCache.
if err := c.schedulerCache.UpdateNode(oldNode, newNode); err != nil {
glog.Errorf("scheduler cache UpdateNode failed: %v", err)
}
c.invalidateCachedPredicatesOnNodeUpdate(newNode, oldNode)
c.podQueue.MoveAllToActiveQueue()
}
func (c *configFactory) invalidateCachedPredicatesOnNodeUpdate(newNode *v1.Node, oldNode *v1.Node) {
if c.enableEquivalenceClassCache {
// Begin to update equivalence cache based on node update
// TODO(resouer): think about lazily initialize this set
invalidPredicates := sets.NewString()
if !reflect.DeepEqual(oldNode.Status.Allocatable, newNode.Status.Allocatable) {
invalidPredicates.Insert(predicates.GeneralPred) // "PodFitsResources"
}
if !reflect.DeepEqual(oldNode.GetLabels(), newNode.GetLabels()) {
invalidPredicates.Insert(predicates.GeneralPred, predicates.CheckServiceAffinityPred) // "PodSelectorMatches"
for k, v := range oldNode.GetLabels() {
// any label can be topology key of pod, we have to invalidate in all cases
if v != newNode.GetLabels()[k] {
invalidPredicates.Insert(predicates.MatchInterPodAffinityPred)
}
// NoVolumeZoneConflict will only be affected by zone related label change
if isZoneRegionLabel(k) {
if v != newNode.GetLabels()[k] {
invalidPredicates.Insert(predicates.NoVolumeZoneConflictPred)
}
}
}
}
oldTaints, oldErr := helper.GetTaintsFromNodeAnnotations(oldNode.GetAnnotations())
if oldErr != nil {
glog.Errorf("Failed to get taints from old node annotation for equivalence cache")
}
newTaints, newErr := helper.GetTaintsFromNodeAnnotations(newNode.GetAnnotations())
if newErr != nil {
glog.Errorf("Failed to get taints from new node annotation for equivalence cache")
}
if !reflect.DeepEqual(oldTaints, newTaints) ||
!reflect.DeepEqual(oldNode.Spec.Taints, newNode.Spec.Taints) {
invalidPredicates.Insert(predicates.PodToleratesNodeTaintsPred)
}
if !reflect.DeepEqual(oldNode.Status.Conditions, newNode.Status.Conditions) {
oldConditions := make(map[v1.NodeConditionType]v1.ConditionStatus)
newConditions := make(map[v1.NodeConditionType]v1.ConditionStatus)
for _, cond := range oldNode.Status.Conditions {
oldConditions[cond.Type] = cond.Status
}
for _, cond := range newNode.Status.Conditions {
newConditions[cond.Type] = cond.Status
}
if oldConditions[v1.NodeMemoryPressure] != newConditions[v1.NodeMemoryPressure] {
invalidPredicates.Insert(predicates.CheckNodeMemoryPressurePred)
}
if oldConditions[v1.NodeDiskPressure] != newConditions[v1.NodeDiskPressure] {
invalidPredicates.Insert(predicates.CheckNodeDiskPressurePred)
}
if oldConditions[v1.NodePIDPressure] != newConditions[v1.NodePIDPressure] {
invalidPredicates.Insert(predicates.CheckNodePIDPressurePred)
}
if oldConditions[v1.NodeReady] != newConditions[v1.NodeReady] ||
oldConditions[v1.NodeOutOfDisk] != newConditions[v1.NodeOutOfDisk] ||
oldConditions[v1.NodeNetworkUnavailable] != newConditions[v1.NodeNetworkUnavailable] {
invalidPredicates.Insert(predicates.CheckNodeConditionPred)
}
}
if newNode.Spec.Unschedulable != oldNode.Spec.Unschedulable {
invalidPredicates.Insert(predicates.CheckNodeConditionPred)
}
c.equivalencePodCache.InvalidatePredicatesOnNode(newNode.GetName(), invalidPredicates)
}
}
func (c *configFactory) deleteNodeFromCache(obj interface{}) {
var node *v1.Node
switch t := obj.(type) {
case *v1.Node:
node = t
case cache.DeletedFinalStateUnknown:
var ok bool
node, ok = t.Obj.(*v1.Node)
if !ok {
glog.Errorf("cannot convert to *v1.Node: %v", t.Obj)
return
}
default:
glog.Errorf("cannot convert to *v1.Node: %v", t)
return
}
// NOTE: Because the scheduler uses snapshots of schedulerCache and the live
// version of equivalencePodCache, updates must be written to schedulerCache
// before invalidating equivalencePodCache.
if err := c.schedulerCache.RemoveNode(node); err != nil {
glog.Errorf("scheduler cache RemoveNode failed: %v", err)
}
if c.enableEquivalenceClassCache {
c.equivalencePodCache.InvalidateAllPredicatesOnNode(node.GetName())
}
}
func (c *configFactory) addPDBToCache(obj interface{}) {
pdb, ok := obj.(*v1beta1.PodDisruptionBudget)
if !ok {
glog.Errorf("cannot convert to *v1beta1.PodDisruptionBudget: %v", obj)
return