コード例 #1
0
ファイル: store_test.go プロジェクト: ncdc/kubernetes
// Test public interface
func doTestIndex(t *testing.T, indexer Indexer) {
	mkObj := func(id string, val string) testStoreObject {
		return testStoreObject{id: id, val: val}
	}

	// Test Index
	expected := map[string]sets.String{}
	expected["b"] = sets.NewString("a", "c")
	expected["f"] = sets.NewString("e")
	expected["h"] = sets.NewString("g")
	indexer.Add(mkObj("a", "b"))
	indexer.Add(mkObj("c", "b"))
	indexer.Add(mkObj("e", "f"))
	indexer.Add(mkObj("g", "h"))
	{
		for k, v := range expected {
			found := sets.String{}
			indexResults, err := indexer.Index("by_val", mkObj("", k))
			if err != nil {
				t.Errorf("Unexpected error %v", err)
			}
			for _, item := range indexResults {
				found.Insert(item.(testStoreObject).id)
			}
			items := v.List()
			if !found.HasAll(items...) {
				t.Errorf("missing items, index %s, expected %v but found %v", k, items, found.List())
			}
		}
	}
}
コード例 #2
0
ファイル: selector.go プロジェクト: ncdc/kubernetes
func (r *Requirement) Values() sets.String {
	ret := sets.String{}
	for k := range r.strValues {
		ret.Insert(k)
	}
	return ret
}
コード例 #3
0
// Index returns a list of items that match on the index function
// Index is thread-safe so long as you treat all items as immutable
func (c *threadSafeMap) Index(indexName string, obj interface{}) ([]interface{}, error) {
	c.lock.RLock()
	defer c.lock.RUnlock()

	indexFunc := c.indexers[indexName]
	if indexFunc == nil {
		return nil, fmt.Errorf("Index with name %s does not exist", indexName)
	}

	indexKeys, err := indexFunc(obj)
	if err != nil {
		return nil, err
	}
	index := c.indices[indexName]

	// need to de-dupe the return list.  Since multiple keys are allowed, this can happen.
	returnKeySet := sets.String{}
	for _, indexKey := range indexKeys {
		set := index[indexKey]
		for _, key := range set.UnsortedList() {
			returnKeySet.Insert(key)
		}
	}

	list := make([]interface{}, 0, returnKeySet.Len())
	for absoluteKey := range returnKeySet {
		list = append(list, c.items[absoluteKey])
	}
	return list, nil
}
コード例 #4
0
ファイル: controller_test.go プロジェクト: ncdc/kubernetes
func ExampleNewInformer() {
	// source simulates an apiserver object endpoint.
	source := fcache.NewFakeControllerSource()

	// Let's do threadsafe output to get predictable test results.
	deletionCounter := make(chan string, 1000)

	// Make a controller that immediately deletes anything added to it, and
	// logs anything deleted.
	_, controller := NewInformer(
		source,
		&api.Pod{},
		time.Millisecond*100,
		ResourceEventHandlerFuncs{
			AddFunc: func(obj interface{}) {
				source.Delete(obj.(runtime.Object))
			},
			DeleteFunc: func(obj interface{}) {
				key, err := DeletionHandlingMetaNamespaceKeyFunc(obj)
				if err != nil {
					key = "oops something went wrong with the key"
				}

				// Report this deletion.
				deletionCounter <- key
			},
		},
	)

	// Run the controller and run it until we close stop.
	stop := make(chan struct{})
	defer close(stop)
	go controller.Run(stop)

	// Let's add a few objects to the source.
	testIDs := []string{"a-hello", "b-controller", "c-framework"}
	for _, name := range testIDs {
		// Note that these pods are not valid-- the fake source doesn't
		// call validation or anything.
		source.Add(&api.Pod{ObjectMeta: api.ObjectMeta{Name: name}})
	}

	// Let's wait for the controller to process the things we just added.
	outputSet := sets.String{}
	for i := 0; i < len(testIDs); i++ {
		outputSet.Insert(<-deletionCounter)
	}

	for _, key := range outputSet.List() {
		fmt.Println(key)
	}
	// Output:
	// a-hello
	// b-controller
	// c-framework
}
コード例 #5
0
ファイル: registered.go プロジェクト: ncdc/kubernetes
// RESTMapper returns a union RESTMapper of all known types with priorities chosen in the following order:
//  1. if KUBE_API_VERSIONS is specified, then KUBE_API_VERSIONS in order, OR
//  1. legacy kube group preferred version, extensions preferred version, metrics perferred version, legacy
//     kube any version, extensions any version, metrics any version, all other groups alphabetical preferred version,
//     all other groups alphabetical.
func (m *APIRegistrationManager) RESTMapper(versionPatterns ...unversioned.GroupVersion) meta.RESTMapper {
	unionMapper := meta.MultiRESTMapper{}
	unionedGroups := sets.NewString()
	for enabledVersion := range m.enabledVersions {
		if !unionedGroups.Has(enabledVersion.Group) {
			unionedGroups.Insert(enabledVersion.Group)
			groupMeta := m.groupMetaMap[enabledVersion.Group]
			unionMapper = append(unionMapper, groupMeta.RESTMapper)
		}
	}

	if len(versionPatterns) != 0 {
		resourcePriority := []unversioned.GroupVersionResource{}
		kindPriority := []unversioned.GroupVersionKind{}
		for _, versionPriority := range versionPatterns {
			resourcePriority = append(resourcePriority, versionPriority.WithResource(meta.AnyResource))
			kindPriority = append(kindPriority, versionPriority.WithKind(meta.AnyKind))
		}

		return meta.PriorityRESTMapper{Delegate: unionMapper, ResourcePriority: resourcePriority, KindPriority: kindPriority}
	}

	if len(m.envRequestedVersions) != 0 {
		resourcePriority := []unversioned.GroupVersionResource{}
		kindPriority := []unversioned.GroupVersionKind{}

		for _, versionPriority := range m.envRequestedVersions {
			resourcePriority = append(resourcePriority, versionPriority.WithResource(meta.AnyResource))
			kindPriority = append(kindPriority, versionPriority.WithKind(meta.AnyKind))
		}

		return meta.PriorityRESTMapper{Delegate: unionMapper, ResourcePriority: resourcePriority, KindPriority: kindPriority}
	}

	prioritizedGroups := []string{"", "extensions", "metrics"}
	resourcePriority, kindPriority := m.prioritiesForGroups(prioritizedGroups...)

	prioritizedGroupsSet := sets.NewString(prioritizedGroups...)
	remainingGroups := sets.String{}
	for enabledVersion := range m.enabledVersions {
		if !prioritizedGroupsSet.Has(enabledVersion.Group) {
			remainingGroups.Insert(enabledVersion.Group)
		}
	}

	remainingResourcePriority, remainingKindPriority := m.prioritiesForGroups(remainingGroups.List()...)
	resourcePriority = append(resourcePriority, remainingResourcePriority...)
	kindPriority = append(kindPriority, remainingKindPriority...)

	return meta.PriorityRESTMapper{Delegate: unionMapper, ResourcePriority: resourcePriority, KindPriority: kindPriority}
}
コード例 #6
0
ファイル: store_test.go プロジェクト: ncdc/kubernetes
// Test public interface
func doTestStore(t *testing.T, store Store) {
	mkObj := func(id string, val string) testStoreObject {
		return testStoreObject{id: id, val: val}
	}

	store.Add(mkObj("foo", "bar"))
	if item, ok, _ := store.Get(mkObj("foo", "")); !ok {
		t.Errorf("didn't find inserted item")
	} else {
		if e, a := "bar", item.(testStoreObject).val; e != a {
			t.Errorf("expected %v, got %v", e, a)
		}
	}
	store.Update(mkObj("foo", "baz"))
	if item, ok, _ := store.Get(mkObj("foo", "")); !ok {
		t.Errorf("didn't find inserted item")
	} else {
		if e, a := "baz", item.(testStoreObject).val; e != a {
			t.Errorf("expected %v, got %v", e, a)
		}
	}
	store.Delete(mkObj("foo", ""))
	if _, ok, _ := store.Get(mkObj("foo", "")); ok {
		t.Errorf("found deleted item??")
	}

	// Test List.
	store.Add(mkObj("a", "b"))
	store.Add(mkObj("c", "d"))
	store.Add(mkObj("e", "e"))
	{
		found := sets.String{}
		for _, item := range store.List() {
			found.Insert(item.(testStoreObject).val)
		}
		if !found.HasAll("b", "d", "e") {
			t.Errorf("missing items, found: %v", found)
		}
		if len(found) != 3 {
			t.Errorf("extra items")
		}
	}

	// Test Replace.
	store.Replace([]interface{}{
		mkObj("foo", "foo"),
		mkObj("bar", "bar"),
	}, "0")

	{
		found := sets.String{}
		for _, item := range store.List() {
			found.Insert(item.(testStoreObject).val)
		}
		if !found.HasAll("foo", "bar") {
			t.Errorf("missing items")
		}
		if len(found) != 2 {
			t.Errorf("extra items")
		}
	}
}
コード例 #7
0
ファイル: controller_test.go プロジェクト: ncdc/kubernetes
func Example() {
	// source simulates an apiserver object endpoint.
	source := fcache.NewFakeControllerSource()

	// This will hold the downstream state, as we know it.
	downstream := NewStore(DeletionHandlingMetaNamespaceKeyFunc)

	// This will hold incoming changes. Note how we pass downstream in as a
	// KeyLister, that way resync operations will result in the correct set
	// of update/delete deltas.
	fifo := NewDeltaFIFO(MetaNamespaceKeyFunc, nil, downstream)

	// Let's do threadsafe output to get predictable test results.
	deletionCounter := make(chan string, 1000)

	cfg := &Config{
		Queue:            fifo,
		ListerWatcher:    source,
		ObjectType:       &api.Pod{},
		FullResyncPeriod: time.Millisecond * 100,
		RetryOnError:     false,

		// Let's implement a simple controller that just deletes
		// everything that comes in.
		Process: func(obj interface{}) error {
			// Obj is from the Pop method of the Queue we make above.
			newest := obj.(Deltas).Newest()

			if newest.Type != Deleted {
				// Update our downstream store.
				err := downstream.Add(newest.Object)
				if err != nil {
					return err
				}

				// Delete this object.
				source.Delete(newest.Object.(runtime.Object))
			} else {
				// Update our downstream store.
				err := downstream.Delete(newest.Object)
				if err != nil {
					return err
				}

				// fifo's KeyOf is easiest, because it handles
				// DeletedFinalStateUnknown markers.
				key, err := fifo.KeyOf(newest.Object)
				if err != nil {
					return err
				}

				// Report this deletion.
				deletionCounter <- key
			}
			return nil
		},
	}

	// Create the controller and run it until we close stop.
	stop := make(chan struct{})
	defer close(stop)
	go New(cfg).Run(stop)

	// Let's add a few objects to the source.
	testIDs := []string{"a-hello", "b-controller", "c-framework"}
	for _, name := range testIDs {
		// Note that these pods are not valid-- the fake source doesn't
		// call validation or anything.
		source.Add(&api.Pod{ObjectMeta: api.ObjectMeta{Name: name}})
	}

	// Let's wait for the controller to process the things we just added.
	outputSet := sets.String{}
	for i := 0; i < len(testIDs); i++ {
		outputSet.Insert(<-deletionCounter)
	}

	for _, key := range outputSet.List() {
		fmt.Println(key)
	}
	// Output:
	// a-hello
	// b-controller
	// c-framework
}
コード例 #8
0
ファイル: controller_test.go プロジェクト: ncdc/kubernetes
func TestHammerController(t *testing.T) {
	// This test executes a bunch of requests through the fake source and
	// controller framework to make sure there's no locking/threading
	// errors. If an error happens, it should hang forever or trigger the
	// race detector.

	// source simulates an apiserver object endpoint.
	source := fcache.NewFakeControllerSource()

	// Let's do threadsafe output to get predictable test results.
	outputSetLock := sync.Mutex{}
	// map of key to operations done on the key
	outputSet := map[string][]string{}

	recordFunc := func(eventType string, obj interface{}) {
		key, err := DeletionHandlingMetaNamespaceKeyFunc(obj)
		if err != nil {
			t.Errorf("something wrong with key: %v", err)
			key = "oops something went wrong with the key"
		}

		// Record some output when items are deleted.
		outputSetLock.Lock()
		defer outputSetLock.Unlock()
		outputSet[key] = append(outputSet[key], eventType)
	}

	// Make a controller which just logs all the changes it gets.
	_, controller := NewInformer(
		source,
		&api.Pod{},
		time.Millisecond*100,
		ResourceEventHandlerFuncs{
			AddFunc:    func(obj interface{}) { recordFunc("add", obj) },
			UpdateFunc: func(oldObj, newObj interface{}) { recordFunc("update", newObj) },
			DeleteFunc: func(obj interface{}) { recordFunc("delete", obj) },
		},
	)

	if controller.HasSynced() {
		t.Errorf("Expected HasSynced() to return false before we started the controller")
	}

	// Run the controller and run it until we close stop.
	stop := make(chan struct{})
	go controller.Run(stop)

	// Let's wait for the controller to do its initial sync
	wait.Poll(100*time.Millisecond, wait.ForeverTestTimeout, func() (bool, error) {
		return controller.HasSynced(), nil
	})
	if !controller.HasSynced() {
		t.Errorf("Expected HasSynced() to return true after the initial sync")
	}

	wg := sync.WaitGroup{}
	const threads = 3
	wg.Add(threads)
	for i := 0; i < threads; i++ {
		go func() {
			defer wg.Done()
			// Let's add a few objects to the source.
			currentNames := sets.String{}
			rs := rand.NewSource(rand.Int63())
			f := fuzz.New().NilChance(.5).NumElements(0, 2).RandSource(rs)
			r := rand.New(rs) // Mustn't use r and f concurrently!
			for i := 0; i < 100; i++ {
				var name string
				var isNew bool
				if currentNames.Len() == 0 || r.Intn(3) == 1 {
					f.Fuzz(&name)
					isNew = true
				} else {
					l := currentNames.List()
					name = l[r.Intn(len(l))]
				}

				pod := &api.Pod{}
				f.Fuzz(pod)
				pod.ObjectMeta.Name = name
				pod.ObjectMeta.Namespace = "default"
				// Add, update, or delete randomly.
				// Note that these pods are not valid-- the fake source doesn't
				// call validation or perform any other checking.
				if isNew {
					currentNames.Insert(name)
					source.Add(pod)
					continue
				}
				switch r.Intn(2) {
				case 0:
					currentNames.Insert(name)
					source.Modify(pod)
				case 1:
					currentNames.Delete(name)
					source.Delete(pod)
				}
			}
		}()
	}
	wg.Wait()

	// Let's wait for the controller to finish processing the things we just added.
	// TODO: look in the queue to see how many items need to be processed.
	time.Sleep(100 * time.Millisecond)
	close(stop)

	outputSetLock.Lock()
	t.Logf("got: %#v", outputSet)
}