// watchHandler watches w and keeps *resourceVersion up to date. func (r *Reflector) watchHandler(w watch.Interface, resourceVersion *string, errc chan error, stopCh <-chan struct{}) error { start := time.Now() eventCount := 0 // Stopping the watcher should be idempotent and if we return from this function there's no way // we're coming back in with the same watch interface. defer w.Stop() loop: for { select { case <-stopCh: return errorStopRequested case err := <-errc: return err case event, ok := <-w.ResultChan(): if !ok { break loop } if event.Type == watch.Error { return apierrs.FromObject(event.Object) } if e, a := r.expectedType, reflect.TypeOf(event.Object); e != nil && e != a { utilruntime.HandleError(fmt.Errorf("%s: expected type %v, but watch event object had type %v", r.name, e, a)) continue } meta, err := meta.Accessor(event.Object) if err != nil { utilruntime.HandleError(fmt.Errorf("%s: unable to understand watch event %#v", r.name, event)) continue } newResourceVersion := meta.GetResourceVersion() switch event.Type { case watch.Added: r.store.Add(event.Object) case watch.Modified: r.store.Update(event.Object) case watch.Deleted: // TODO: Will any consumers need access to the "last known // state", which is passed in event.Object? If so, may need // to change this. r.store.Delete(event.Object) default: utilruntime.HandleError(fmt.Errorf("%s: unable to understand watch event %#v", r.name, event)) } *resourceVersion = newResourceVersion r.setLastSyncResourceVersion(newResourceVersion) eventCount++ } } watchDuration := time.Now().Sub(start) if watchDuration < 1*time.Second && eventCount == 0 { glog.V(4).Infof("%s: Unexpected watch close - watch lasted less than a second and no items received", r.name) return errors.New("very short watch") } glog.V(4).Infof("%s: Watch close - %v total %v items received", r.name, r.expectedType, eventCount) return nil }
func verifyWatchEvent(t *testing.T, w watch.Interface, eventType watch.EventType, eventObject runtime.Object) { _, _, line, _ := goruntime.Caller(1) select { case event := <-w.ResultChan(): if e, a := eventType, event.Type; e != a { t.Logf("(called from line %d)", line) t.Errorf("Expected: %s, got: %s", eventType, event.Type) } if e, a := eventObject, event.Object; !api.Semantic.DeepDerivative(e, a) { t.Logf("(called from line %d)", line) t.Errorf("Expected (%s): %#v, got: %#v", eventType, e, a) } case <-time.After(wait.ForeverTestTimeout): t.Logf("(called from line %d)", line) t.Errorf("Timed out waiting for an event") } }
// WatchLoop loops, passing events in w to fn. // If user sends interrupt signal, shut down cleanly. Otherwise, never return. func WatchLoop(w watch.Interface, fn func(watch.Event) error) { signals := make(chan os.Signal, 1) signal.Notify(signals, os.Interrupt) defer signal.Stop(signals) for { select { case event, ok := <-w.ResultChan(): if !ok { return } if err := fn(event); err != nil { w.Stop() } case <-signals: w.Stop() } } }
// watchRollbackEvent watches for rollback events and returns rollback result func watchRollbackEvent(w watch.Interface) string { signals := make(chan os.Signal, 1) signal.Notify(signals, os.Interrupt, os.Kill, syscall.SIGTERM) for { select { case event, ok := <-w.ResultChan(): if !ok { return "" } obj, ok := event.Object.(*api.Event) if !ok { w.Stop() return "" } isRollback, result := isRollbackEvent(obj) if isRollback { w.Stop() return result } case <-signals: w.Stop() } } }