mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-30 18:20:19 +00:00
34fc1d847e
to v1.18.0 Signed-off-by: Humble Chirammal <hchiramm@redhat.com>
407 lines
13 KiB
Go
407 lines
13 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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"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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)
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// This file implements a low-level controller that is used in
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// sharedIndexInformer, which is an implementation of
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// SharedIndexInformer. Such informers, in turn, are key components
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// in the high level controllers that form the backbone of the
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// Kubernetes control plane. Look at those for examples, or the
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// example in
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// https://github.com/kubernetes/client-go/tree/master/examples/workqueue
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// .
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// Config contains all the settings for one of these low-level controllers.
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type Config struct {
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// The queue for your objects - has to be a DeltaFIFO due to
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// assumptions in the implementation. Your Process() function
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// should accept the output of this Queue's Pop() method.
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Queue
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// Something that can list and watch your objects.
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ListerWatcher
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// Something that can process a popped Deltas.
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Process ProcessFunc
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// ObjectType is an example object of the type this controller is
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// expected to handle. Only the type needs to be right, except
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// that when that is `unstructured.Unstructured` the object's
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// `"apiVersion"` and `"kind"` must also be right.
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ObjectType runtime.Object
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// FullResyncPeriod is the period at which ShouldResync is considered.
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FullResyncPeriod time.Duration
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// ShouldResync is periodically used by the reflector to determine
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// whether to Resync the Queue. If ShouldResync is `nil` or
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// returns true, it means the reflector should proceed with the
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// resync.
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ShouldResync ShouldResyncFunc
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// If true, when Process() returns an error, re-enqueue the object.
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// TODO: add interface to let you inject a delay/backoff or drop
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// the object completely if desired. Pass the object in
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// question to this interface as a parameter. This is probably moot
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// now that this functionality appears at a higher level.
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RetryOnError bool
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}
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// ShouldResyncFunc is a type of function that indicates if a reflector should perform a
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// resync or not. It can be used by a shared informer to support multiple event handlers with custom
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// resync periods.
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type ShouldResyncFunc func() bool
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// ProcessFunc processes a single object.
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type ProcessFunc func(obj interface{}) error
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// `*controller` implements Controller
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type controller struct {
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config Config
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reflector *Reflector
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reflectorMutex sync.RWMutex
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clock clock.Clock
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}
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// Controller is a low-level controller that is parameterized by a
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// Config and used in sharedIndexInformer.
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type Controller interface {
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// Run does two things. One is to construct and run a Reflector
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// to pump objects/notifications from the Config's ListerWatcher
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// to the Config's Queue and possibly invoke the occasional Resync
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// on that Queue. The other is to repeatedly Pop from the Queue
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// and process with the Config's ProcessFunc. Both of these
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// continue until `stopCh` is closed.
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Run(stopCh <-chan struct{})
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// HasSynced delegates to the Config's Queue
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HasSynced() bool
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// LastSyncResourceVersion delegates to the Reflector when there
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// is one, otherwise returns the empty string
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LastSyncResourceVersion() string
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}
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// New makes a new Controller from the given Config.
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func New(c *Config) Controller {
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ctlr := &controller{
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config: *c,
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clock: &clock.RealClock{},
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}
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return ctlr
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}
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// Run begins processing items, and will continue until a value is sent down stopCh or it is closed.
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// It's an error to call Run more than once.
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// Run blocks; call via go.
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func (c *controller) Run(stopCh <-chan struct{}) {
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defer utilruntime.HandleCrash()
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go func() {
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<-stopCh
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c.config.Queue.Close()
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}()
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r := NewReflector(
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c.config.ListerWatcher,
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c.config.ObjectType,
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c.config.Queue,
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c.config.FullResyncPeriod,
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)
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r.ShouldResync = c.config.ShouldResync
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r.clock = c.clock
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c.reflectorMutex.Lock()
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c.reflector = r
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c.reflectorMutex.Unlock()
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var wg wait.Group
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defer wg.Wait()
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wg.StartWithChannel(stopCh, r.Run)
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wait.Until(c.processLoop, time.Second, stopCh)
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}
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// Returns true once this controller has completed an initial resource listing
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func (c *controller) HasSynced() bool {
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return c.config.Queue.HasSynced()
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}
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func (c *controller) LastSyncResourceVersion() string {
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c.reflectorMutex.RLock()
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defer c.reflectorMutex.RUnlock()
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if c.reflector == nil {
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return ""
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}
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return c.reflector.LastSyncResourceVersion()
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}
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// processLoop drains the work queue.
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// TODO: Consider doing the processing in parallel. This will require a little thought
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// to make sure that we don't end up processing the same object multiple times
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// concurrently.
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//
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// TODO: Plumb through the stopCh here (and down to the queue) so that this can
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// actually exit when the controller is stopped. Or just give up on this stuff
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// ever being stoppable. Converting this whole package to use Context would
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// also be helpful.
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func (c *controller) processLoop() {
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for {
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obj, err := c.config.Queue.Pop(PopProcessFunc(c.config.Process))
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if err != nil {
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if err == ErrFIFOClosed {
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return
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}
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if c.config.RetryOnError {
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// This is the safe way to re-enqueue.
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c.config.Queue.AddIfNotPresent(obj)
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}
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}
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}
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}
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// ResourceEventHandler can handle notifications for events that happen to a
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// resource. The events are informational only, so you can't return an
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// error.
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// * OnAdd is called when an object is added.
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// * OnUpdate is called when an object is modified. Note that oldObj is the
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// last known state of the object-- it is possible that several changes
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// were combined together, so you can't use this to see every single
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// change. OnUpdate is also called when a re-list happens, and it will
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// get called even if nothing changed. This is useful for periodically
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// evaluating or syncing something.
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// * OnDelete will get the final state of the item if it is known, otherwise
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// it will get an object of type DeletedFinalStateUnknown. This can
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// happen if the watch is closed and misses the delete event and we don't
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// notice the deletion until the subsequent re-list.
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type ResourceEventHandler interface {
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OnAdd(obj interface{})
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OnUpdate(oldObj, newObj interface{})
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OnDelete(obj interface{})
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}
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// ResourceEventHandlerFuncs is an adaptor to let you easily specify as many or
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// as few of the notification functions as you want while still implementing
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// ResourceEventHandler.
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type ResourceEventHandlerFuncs struct {
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AddFunc func(obj interface{})
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UpdateFunc func(oldObj, newObj interface{})
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DeleteFunc func(obj interface{})
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}
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// OnAdd calls AddFunc if it's not nil.
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func (r ResourceEventHandlerFuncs) OnAdd(obj interface{}) {
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if r.AddFunc != nil {
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r.AddFunc(obj)
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}
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}
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// OnUpdate calls UpdateFunc if it's not nil.
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func (r ResourceEventHandlerFuncs) OnUpdate(oldObj, newObj interface{}) {
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if r.UpdateFunc != nil {
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r.UpdateFunc(oldObj, newObj)
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}
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}
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// OnDelete calls DeleteFunc if it's not nil.
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func (r ResourceEventHandlerFuncs) OnDelete(obj interface{}) {
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if r.DeleteFunc != nil {
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r.DeleteFunc(obj)
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}
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}
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// FilteringResourceEventHandler applies the provided filter to all events coming
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// in, ensuring the appropriate nested handler method is invoked. An object
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// that starts passing the filter after an update is considered an add, and an
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// object that stops passing the filter after an update is considered a delete.
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type FilteringResourceEventHandler struct {
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FilterFunc func(obj interface{}) bool
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Handler ResourceEventHandler
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}
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// OnAdd calls the nested handler only if the filter succeeds
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func (r FilteringResourceEventHandler) OnAdd(obj interface{}) {
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if !r.FilterFunc(obj) {
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return
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}
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r.Handler.OnAdd(obj)
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}
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// OnUpdate ensures the proper handler is called depending on whether the filter matches
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func (r FilteringResourceEventHandler) OnUpdate(oldObj, newObj interface{}) {
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newer := r.FilterFunc(newObj)
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older := r.FilterFunc(oldObj)
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switch {
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case newer && older:
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r.Handler.OnUpdate(oldObj, newObj)
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case newer && !older:
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r.Handler.OnAdd(newObj)
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case !newer && older:
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r.Handler.OnDelete(oldObj)
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default:
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// do nothing
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}
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}
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// OnDelete calls the nested handler only if the filter succeeds
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func (r FilteringResourceEventHandler) OnDelete(obj interface{}) {
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if !r.FilterFunc(obj) {
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return
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}
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r.Handler.OnDelete(obj)
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}
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// DeletionHandlingMetaNamespaceKeyFunc checks for
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// DeletedFinalStateUnknown objects before calling
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// MetaNamespaceKeyFunc.
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func DeletionHandlingMetaNamespaceKeyFunc(obj interface{}) (string, error) {
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if d, ok := obj.(DeletedFinalStateUnknown); ok {
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return d.Key, nil
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}
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return MetaNamespaceKeyFunc(obj)
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}
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// NewInformer returns a Store and a controller for populating the store
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// while also providing event notifications. You should only used the returned
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// Store for Get/List operations; Add/Modify/Deletes will cause the event
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// notifications to be faulty.
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//
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// Parameters:
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// * lw is list and watch functions for the source of the resource you want to
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// be informed of.
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// * objType is an object of the type that you expect to receive.
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// * resyncPeriod: if non-zero, will re-list this often (you will get OnUpdate
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// calls, even if nothing changed). Otherwise, re-list will be delayed as
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// long as possible (until the upstream source closes the watch or times out,
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// or you stop the controller).
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// * h is the object you want notifications sent to.
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//
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func NewInformer(
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lw ListerWatcher,
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objType runtime.Object,
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resyncPeriod time.Duration,
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h ResourceEventHandler,
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) (Store, Controller) {
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// This will hold the client state, as we know it.
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clientState := NewStore(DeletionHandlingMetaNamespaceKeyFunc)
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return clientState, newInformer(lw, objType, resyncPeriod, h, clientState)
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}
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// NewIndexerInformer returns a Indexer and a controller for populating the index
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// while also providing event notifications. You should only used the returned
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// Index for Get/List operations; Add/Modify/Deletes will cause the event
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// notifications to be faulty.
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//
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// Parameters:
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// * lw is list and watch functions for the source of the resource you want to
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// be informed of.
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// * objType is an object of the type that you expect to receive.
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// * resyncPeriod: if non-zero, will re-list this often (you will get OnUpdate
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// calls, even if nothing changed). Otherwise, re-list will be delayed as
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// long as possible (until the upstream source closes the watch or times out,
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// or you stop the controller).
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// * h is the object you want notifications sent to.
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// * indexers is the indexer for the received object type.
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//
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func NewIndexerInformer(
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lw ListerWatcher,
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objType runtime.Object,
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resyncPeriod time.Duration,
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h ResourceEventHandler,
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indexers Indexers,
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) (Indexer, Controller) {
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// This will hold the client state, as we know it.
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clientState := NewIndexer(DeletionHandlingMetaNamespaceKeyFunc, indexers)
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return clientState, newInformer(lw, objType, resyncPeriod, h, clientState)
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}
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// newInformer returns a controller for populating the store while also
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// providing event notifications.
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//
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// Parameters
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// * lw is list and watch functions for the source of the resource you want to
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// be informed of.
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// * objType is an object of the type that you expect to receive.
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// * resyncPeriod: if non-zero, will re-list this often (you will get OnUpdate
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// calls, even if nothing changed). Otherwise, re-list will be delayed as
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// long as possible (until the upstream source closes the watch or times out,
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// or you stop the controller).
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// * h is the object you want notifications sent to.
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// * clientState is the store you want to populate
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//
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func newInformer(
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lw ListerWatcher,
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objType runtime.Object,
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resyncPeriod time.Duration,
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h ResourceEventHandler,
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clientState Store,
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) Controller {
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// This will hold incoming changes. Note how we pass clientState in as a
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// KeyLister, that way resync operations will result in the correct set
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// of update/delete deltas.
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fifo := NewDeltaFIFOWithOptions(DeltaFIFOOptions{
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KnownObjects: clientState,
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EmitDeltaTypeReplaced: true,
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})
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cfg := &Config{
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Queue: fifo,
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ListerWatcher: lw,
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ObjectType: objType,
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FullResyncPeriod: resyncPeriod,
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RetryOnError: false,
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Process: func(obj interface{}) error {
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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, Replaced, Added, Updated:
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if old, exists, err := clientState.Get(d.Object); err == nil && exists {
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if err := clientState.Update(d.Object); err != nil {
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return err
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}
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h.OnUpdate(old, d.Object)
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} else {
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if err := clientState.Add(d.Object); err != nil {
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return err
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}
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h.OnAdd(d.Object)
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}
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case Deleted:
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if err := clientState.Delete(d.Object); err != nil {
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return err
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}
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h.OnDelete(d.Object)
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}
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}
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return nil
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},
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}
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return New(cfg)
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}
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