d56bf090ce
Signed-off-by: Antonio Murdaca <runcom@redhat.com>
581 lines
17 KiB
Go
581 lines
17 KiB
Go
/*
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Copyright 2015 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 cache
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import (
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"fmt"
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"sync"
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"time"
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"k8s.io/apimachinery/pkg/runtime"
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"k8s.io/apimachinery/pkg/util/clock"
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utilruntime "k8s.io/apimachinery/pkg/util/runtime"
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"k8s.io/apimachinery/pkg/util/wait"
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"github.com/golang/glog"
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)
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// SharedInformer has a shared data cache and is capable of distributing notifications for changes
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// to the cache to multiple listeners who registered via AddEventHandler. If you use this, there is
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// one behavior change compared to a standard Informer. When you receive a notification, the cache
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// will be AT LEAST as fresh as the notification, but it MAY be more fresh. You should NOT depend
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// on the contents of the cache exactly matching the notification you've received in handler
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// functions. If there was a create, followed by a delete, the cache may NOT have your item. This
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// has advantages over the broadcaster since it allows us to share a common cache across many
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// controllers. Extending the broadcaster would have required us keep duplicate caches for each
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// watch.
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type SharedInformer interface {
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// AddEventHandler adds an event handler to the shared informer using the shared informer's resync
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// period. Events to a single handler are delivered sequentially, but there is no coordination
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// between different handlers.
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AddEventHandler(handler ResourceEventHandler)
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// AddEventHandlerWithResyncPeriod adds an event handler to the shared informer using the
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// specified resync period. Events to a single handler are delivered sequentially, but there is
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// no coordination between different handlers.
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AddEventHandlerWithResyncPeriod(handler ResourceEventHandler, resyncPeriod time.Duration)
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// GetStore returns the Store.
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GetStore() Store
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// GetController gives back a synthetic interface that "votes" to start the informer
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GetController() Controller
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// Run starts the shared informer, which will be stopped when stopCh is closed.
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Run(stopCh <-chan struct{})
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// HasSynced returns true if the shared informer's store has synced.
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HasSynced() bool
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// LastSyncResourceVersion is the resource version observed when last synced with the underlying
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// store. The value returned is not synchronized with access to the underlying store and is not
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// thread-safe.
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LastSyncResourceVersion() string
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}
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type SharedIndexInformer interface {
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SharedInformer
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// AddIndexers add indexers to the informer before it starts.
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AddIndexers(indexers Indexers) error
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GetIndexer() Indexer
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}
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// NewSharedInformer creates a new instance for the listwatcher.
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func NewSharedInformer(lw ListerWatcher, objType runtime.Object, resyncPeriod time.Duration) SharedInformer {
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return NewSharedIndexInformer(lw, objType, resyncPeriod, Indexers{})
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}
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// NewSharedIndexInformer creates a new instance for the listwatcher.
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func NewSharedIndexInformer(lw ListerWatcher, objType runtime.Object, defaultEventHandlerResyncPeriod time.Duration, indexers Indexers) SharedIndexInformer {
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realClock := &clock.RealClock{}
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sharedIndexInformer := &sharedIndexInformer{
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processor: &sharedProcessor{clock: realClock},
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indexer: NewIndexer(DeletionHandlingMetaNamespaceKeyFunc, indexers),
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listerWatcher: lw,
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objectType: objType,
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resyncCheckPeriod: defaultEventHandlerResyncPeriod,
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defaultEventHandlerResyncPeriod: defaultEventHandlerResyncPeriod,
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cacheMutationDetector: NewCacheMutationDetector(fmt.Sprintf("%T", objType)),
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clock: realClock,
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}
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return sharedIndexInformer
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}
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// InformerSynced is a function that can be used to determine if an informer has synced. This is useful for determining if caches have synced.
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type InformerSynced func() bool
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// syncedPollPeriod controls how often you look at the status of your sync funcs
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const syncedPollPeriod = 100 * time.Millisecond
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// WaitForCacheSync waits for caches to populate. It returns true if it was successful, false
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// if the controller should shutdown
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func WaitForCacheSync(stopCh <-chan struct{}, cacheSyncs ...InformerSynced) bool {
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err := wait.PollUntil(syncedPollPeriod,
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func() (bool, error) {
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for _, syncFunc := range cacheSyncs {
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if !syncFunc() {
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return false, nil
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}
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}
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return true, nil
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},
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stopCh)
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if err != nil {
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glog.V(2).Infof("stop requested")
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return false
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}
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glog.V(4).Infof("caches populated")
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return true
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}
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type sharedIndexInformer struct {
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indexer Indexer
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controller Controller
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processor *sharedProcessor
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cacheMutationDetector CacheMutationDetector
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// This block is tracked to handle late initialization of the controller
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listerWatcher ListerWatcher
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objectType runtime.Object
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// resyncCheckPeriod is how often we want the reflector's resync timer to fire so it can call
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// shouldResync to check if any of our listeners need a resync.
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resyncCheckPeriod time.Duration
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// defaultEventHandlerResyncPeriod is the default resync period for any handlers added via
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// AddEventHandler (i.e. they don't specify one and just want to use the shared informer's default
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// value).
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defaultEventHandlerResyncPeriod time.Duration
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// clock allows for testability
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clock clock.Clock
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started bool
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startedLock sync.Mutex
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// blockDeltas gives a way to stop all event distribution so that a late event handler
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// can safely join the shared informer.
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blockDeltas sync.Mutex
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// stopCh is the channel used to stop the main Run process. We have to track it so that
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// late joiners can have a proper stop
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stopCh <-chan struct{}
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}
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// dummyController hides the fact that a SharedInformer is different from a dedicated one
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// where a caller can `Run`. The run method is disconnected in this case, because higher
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// level logic will decide when to start the SharedInformer and related controller.
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// Because returning information back is always asynchronous, the legacy callers shouldn't
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// notice any change in behavior.
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type dummyController struct {
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informer *sharedIndexInformer
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}
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func (v *dummyController) Run(stopCh <-chan struct{}) {
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}
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func (v *dummyController) HasSynced() bool {
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return v.informer.HasSynced()
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}
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func (c *dummyController) LastSyncResourceVersion() string {
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return ""
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}
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type updateNotification struct {
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oldObj interface{}
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newObj interface{}
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}
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type addNotification struct {
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newObj interface{}
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}
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type deleteNotification struct {
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oldObj interface{}
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}
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func (s *sharedIndexInformer) Run(stopCh <-chan struct{}) {
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defer utilruntime.HandleCrash()
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fifo := NewDeltaFIFO(MetaNamespaceKeyFunc, nil, s.indexer)
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cfg := &Config{
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Queue: fifo,
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ListerWatcher: s.listerWatcher,
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ObjectType: s.objectType,
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FullResyncPeriod: s.resyncCheckPeriod,
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RetryOnError: false,
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ShouldResync: s.processor.shouldResync,
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Process: s.HandleDeltas,
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}
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func() {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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s.controller = New(cfg)
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s.controller.(*controller).clock = s.clock
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s.started = true
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}()
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s.stopCh = stopCh
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s.cacheMutationDetector.Run(stopCh)
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s.processor.run(stopCh)
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s.controller.Run(stopCh)
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}
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func (s *sharedIndexInformer) isStarted() bool {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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return s.started
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}
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func (s *sharedIndexInformer) HasSynced() bool {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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if s.controller == nil {
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return false
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}
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return s.controller.HasSynced()
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}
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func (s *sharedIndexInformer) LastSyncResourceVersion() string {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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if s.controller == nil {
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return ""
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}
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return s.controller.LastSyncResourceVersion()
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}
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func (s *sharedIndexInformer) GetStore() Store {
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return s.indexer
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}
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func (s *sharedIndexInformer) GetIndexer() Indexer {
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return s.indexer
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}
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func (s *sharedIndexInformer) AddIndexers(indexers Indexers) error {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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if s.started {
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return fmt.Errorf("informer has already started")
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}
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return s.indexer.AddIndexers(indexers)
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}
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func (s *sharedIndexInformer) GetController() Controller {
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return &dummyController{informer: s}
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}
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func (s *sharedIndexInformer) AddEventHandler(handler ResourceEventHandler) {
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s.AddEventHandlerWithResyncPeriod(handler, s.defaultEventHandlerResyncPeriod)
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}
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func determineResyncPeriod(desired, check time.Duration) time.Duration {
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if desired == 0 {
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return desired
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}
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if check == 0 {
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glog.Warningf("The specified resyncPeriod %v is invalid because this shared informer doesn't support resyncing", desired)
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return 0
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}
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if desired < check {
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glog.Warningf("The specified resyncPeriod %v is being increased to the minimum resyncCheckPeriod %v", desired, check)
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return check
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}
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return desired
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}
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const minimumResyncPeriod = 1 * time.Second
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func (s *sharedIndexInformer) AddEventHandlerWithResyncPeriod(handler ResourceEventHandler, resyncPeriod time.Duration) {
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s.startedLock.Lock()
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defer s.startedLock.Unlock()
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if resyncPeriod > 0 {
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if resyncPeriod < minimumResyncPeriod {
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glog.Warningf("resyncPeriod %d is too small. Changing it to the minimum allowed value of %d", resyncPeriod, minimumResyncPeriod)
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resyncPeriod = minimumResyncPeriod
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}
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if resyncPeriod < s.resyncCheckPeriod {
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if s.started {
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glog.Warningf("resyncPeriod %d is smaller than resyncCheckPeriod %d and the informer has already started. Changing it to %d", resyncPeriod, s.resyncCheckPeriod, s.resyncCheckPeriod)
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resyncPeriod = s.resyncCheckPeriod
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} else {
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// if the event handler's resyncPeriod is smaller than the current resyncCheckPeriod, update
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// resyncCheckPeriod to match resyncPeriod and adjust the resync periods of all the listeners
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// accordingly
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s.resyncCheckPeriod = resyncPeriod
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s.processor.resyncCheckPeriodChanged(resyncPeriod)
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}
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}
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}
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listener := newProcessListener(handler, resyncPeriod, determineResyncPeriod(resyncPeriod, s.resyncCheckPeriod), s.clock.Now())
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if !s.started {
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s.processor.addListener(listener)
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return
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}
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// in order to safely join, we have to
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// 1. stop sending add/update/delete notifications
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// 2. do a list against the store
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// 3. send synthetic "Add" events to the new handler
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// 4. unblock
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s.blockDeltas.Lock()
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defer s.blockDeltas.Unlock()
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s.processor.addListener(listener)
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go listener.run(s.stopCh)
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go listener.pop(s.stopCh)
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items := s.indexer.List()
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for i := range items {
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listener.add(addNotification{newObj: items[i]})
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}
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}
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func (s *sharedIndexInformer) HandleDeltas(obj interface{}) error {
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s.blockDeltas.Lock()
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defer s.blockDeltas.Unlock()
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// from oldest to newest
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for _, d := range obj.(Deltas) {
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switch d.Type {
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case Sync, Added, Updated:
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isSync := d.Type == Sync
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s.cacheMutationDetector.AddObject(d.Object)
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if old, exists, err := s.indexer.Get(d.Object); err == nil && exists {
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if err := s.indexer.Update(d.Object); err != nil {
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return err
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}
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s.processor.distribute(updateNotification{oldObj: old, newObj: d.Object}, isSync)
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} else {
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if err := s.indexer.Add(d.Object); err != nil {
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return err
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}
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s.processor.distribute(addNotification{newObj: d.Object}, isSync)
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}
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case Deleted:
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if err := s.indexer.Delete(d.Object); err != nil {
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return err
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}
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s.processor.distribute(deleteNotification{oldObj: d.Object}, false)
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}
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}
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return nil
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}
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type sharedProcessor struct {
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listenersLock sync.RWMutex
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listeners []*processorListener
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syncingListeners []*processorListener
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clock clock.Clock
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}
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func (p *sharedProcessor) addListener(listener *processorListener) {
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p.listenersLock.Lock()
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defer p.listenersLock.Unlock()
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p.listeners = append(p.listeners, listener)
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p.syncingListeners = append(p.syncingListeners, listener)
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}
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func (p *sharedProcessor) distribute(obj interface{}, sync bool) {
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p.listenersLock.RLock()
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defer p.listenersLock.RUnlock()
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if sync {
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for _, listener := range p.syncingListeners {
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listener.add(obj)
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}
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} else {
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for _, listener := range p.listeners {
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listener.add(obj)
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}
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}
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}
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func (p *sharedProcessor) run(stopCh <-chan struct{}) {
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p.listenersLock.RLock()
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defer p.listenersLock.RUnlock()
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for _, listener := range p.listeners {
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go listener.run(stopCh)
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go listener.pop(stopCh)
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}
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}
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// shouldResync queries every listener to determine if any of them need a resync, based on each
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// listener's resyncPeriod.
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func (p *sharedProcessor) shouldResync() bool {
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p.listenersLock.Lock()
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defer p.listenersLock.Unlock()
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p.syncingListeners = []*processorListener{}
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resyncNeeded := false
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now := p.clock.Now()
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for _, listener := range p.listeners {
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// need to loop through all the listeners to see if they need to resync so we can prepare any
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// listeners that are going to be resyncing.
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if listener.shouldResync(now) {
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resyncNeeded = true
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p.syncingListeners = append(p.syncingListeners, listener)
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listener.determineNextResync(now)
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}
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}
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return resyncNeeded
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}
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func (p *sharedProcessor) resyncCheckPeriodChanged(resyncCheckPeriod time.Duration) {
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p.listenersLock.RLock()
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defer p.listenersLock.RUnlock()
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for _, listener := range p.listeners {
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resyncPeriod := determineResyncPeriod(listener.requestedResyncPeriod, resyncCheckPeriod)
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listener.setResyncPeriod(resyncPeriod)
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}
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}
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type processorListener struct {
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// lock/cond protects access to 'pendingNotifications'.
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lock sync.RWMutex
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cond sync.Cond
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// pendingNotifications is an unbounded slice that holds all notifications not yet distributed
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// there is one per listener, but a failing/stalled listener will have infinite pendingNotifications
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// added until we OOM.
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// TODO This is no worse that before, since reflectors were backed by unbounded DeltaFIFOs, but
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// we should try to do something better
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pendingNotifications []interface{}
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nextCh chan interface{}
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handler ResourceEventHandler
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// requestedResyncPeriod is how frequently the listener wants a full resync from the shared informer
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requestedResyncPeriod time.Duration
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// resyncPeriod is how frequently the listener wants a full resync from the shared informer. This
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// value may differ from requestedResyncPeriod if the shared informer adjusts it to align with the
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// informer's overall resync check period.
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resyncPeriod time.Duration
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// nextResync is the earliest time the listener should get a full resync
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nextResync time.Time
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// resyncLock guards access to resyncPeriod and nextResync
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resyncLock sync.Mutex
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}
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func newProcessListener(handler ResourceEventHandler, requestedResyncPeriod, resyncPeriod time.Duration, now time.Time) *processorListener {
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ret := &processorListener{
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pendingNotifications: []interface{}{},
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nextCh: make(chan interface{}),
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handler: handler,
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requestedResyncPeriod: requestedResyncPeriod,
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resyncPeriod: resyncPeriod,
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}
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ret.cond.L = &ret.lock
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ret.determineNextResync(now)
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return ret
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}
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func (p *processorListener) add(notification interface{}) {
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p.lock.Lock()
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defer p.lock.Unlock()
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p.pendingNotifications = append(p.pendingNotifications, notification)
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p.cond.Broadcast()
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}
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func (p *processorListener) pop(stopCh <-chan struct{}) {
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defer utilruntime.HandleCrash()
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for {
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blockingGet := func() (interface{}, bool) {
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p.lock.Lock()
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defer p.lock.Unlock()
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|
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for len(p.pendingNotifications) == 0 {
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// check if we're shutdown
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select {
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case <-stopCh:
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return nil, true
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default:
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}
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p.cond.Wait()
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}
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nt := p.pendingNotifications[0]
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p.pendingNotifications = p.pendingNotifications[1:]
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return nt, false
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}
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notification, stopped := blockingGet()
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if stopped {
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return
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}
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|
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select {
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case <-stopCh:
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return
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case p.nextCh <- notification:
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}
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}
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}
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|
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func (p *processorListener) run(stopCh <-chan struct{}) {
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defer utilruntime.HandleCrash()
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|
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for {
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var next interface{}
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select {
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case <-stopCh:
|
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func() {
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p.lock.Lock()
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defer p.lock.Unlock()
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p.cond.Broadcast()
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}()
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return
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case next = <-p.nextCh:
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}
|
|
|
|
switch notification := next.(type) {
|
|
case updateNotification:
|
|
p.handler.OnUpdate(notification.oldObj, notification.newObj)
|
|
case addNotification:
|
|
p.handler.OnAdd(notification.newObj)
|
|
case deleteNotification:
|
|
p.handler.OnDelete(notification.oldObj)
|
|
default:
|
|
utilruntime.HandleError(fmt.Errorf("unrecognized notification: %#v", next))
|
|
}
|
|
}
|
|
}
|
|
|
|
// shouldResync deterimines if the listener needs a resync. If the listener's resyncPeriod is 0,
|
|
// this always returns false.
|
|
func (p *processorListener) shouldResync(now time.Time) bool {
|
|
p.resyncLock.Lock()
|
|
defer p.resyncLock.Unlock()
|
|
|
|
if p.resyncPeriod == 0 {
|
|
return false
|
|
}
|
|
|
|
return now.After(p.nextResync) || now.Equal(p.nextResync)
|
|
}
|
|
|
|
func (p *processorListener) determineNextResync(now time.Time) {
|
|
p.resyncLock.Lock()
|
|
defer p.resyncLock.Unlock()
|
|
|
|
p.nextResync = now.Add(p.resyncPeriod)
|
|
}
|
|
|
|
func (p *processorListener) setResyncPeriod(resyncPeriod time.Duration) {
|
|
p.resyncLock.Lock()
|
|
defer p.resyncLock.Unlock()
|
|
|
|
p.resyncPeriod = resyncPeriod
|
|
}
|