// Copyright 2020 the Pinniped contributors. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 package apicerts import ( "context" "testing" "time" "github.com/sclevine/spec" "github.com/sclevine/spec/report" "github.com/stretchr/testify/require" corev1 "k8s.io/api/core/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" kubeinformers "k8s.io/client-go/informers" kubernetesfake "k8s.io/client-go/kubernetes/fake" "github.com/vmware-tanzu/pinniped/internal/controllerlib" "github.com/vmware-tanzu/pinniped/internal/provider" "github.com/vmware-tanzu/pinniped/internal/testutil" ) func TestObserverControllerInformerFilters(t *testing.T) { spec.Run(t, "informer filters", func(t *testing.T, when spec.G, it spec.S) { const installedInNamespace = "some-namespace" const certsSecretResourceName = "some-resource-name" var r *require.Assertions var observableWithInformerOption *testutil.ObservableWithInformerOption var secretsInformerFilter controllerlib.Filter it.Before(func() { r = require.New(t) observableWithInformerOption = testutil.NewObservableWithInformerOption() secretsInformer := kubeinformers.NewSharedInformerFactory(nil, 0).Core().V1().Secrets() _ = NewCertsObserverController( installedInNamespace, certsSecretResourceName, nil, secretsInformer, observableWithInformerOption.WithInformer, // make it possible to observe the behavior of the Filters ) secretsInformerFilter = observableWithInformerOption.GetFilterForInformer(secretsInformer) }) when("watching Secret objects", func() { var subject controllerlib.Filter var target, wrongNamespace, wrongName, unrelated *corev1.Secret it.Before(func() { subject = secretsInformerFilter target = &corev1.Secret{ObjectMeta: metav1.ObjectMeta{Name: certsSecretResourceName, Namespace: installedInNamespace}} wrongNamespace = &corev1.Secret{ObjectMeta: metav1.ObjectMeta{Name: certsSecretResourceName, Namespace: "wrong-namespace"}} wrongName = &corev1.Secret{ObjectMeta: metav1.ObjectMeta{Name: "wrong-name", Namespace: installedInNamespace}} unrelated = &corev1.Secret{ObjectMeta: metav1.ObjectMeta{Name: "wrong-name", Namespace: "wrong-namespace"}} }) when("the target Secret changes", func() { it("returns true to trigger the sync method", func() { r.True(subject.Add(target)) r.True(subject.Update(target, unrelated)) r.True(subject.Update(unrelated, target)) r.True(subject.Delete(target)) }) }) when("a Secret from another namespace changes", func() { it("returns false to avoid triggering the sync method", func() { r.False(subject.Add(wrongNamespace)) r.False(subject.Update(wrongNamespace, unrelated)) r.False(subject.Update(unrelated, wrongNamespace)) r.False(subject.Delete(wrongNamespace)) }) }) when("a Secret with a different name changes", func() { it("returns false to avoid triggering the sync method", func() { r.False(subject.Add(wrongName)) r.False(subject.Update(wrongName, unrelated)) r.False(subject.Update(unrelated, wrongName)) r.False(subject.Delete(wrongName)) }) }) when("a Secret with a different name and a different namespace changes", func() { it("returns false to avoid triggering the sync method", func() { r.False(subject.Add(unrelated)) r.False(subject.Update(unrelated, unrelated)) r.False(subject.Delete(unrelated)) }) }) }) }, spec.Parallel(), spec.Report(report.Terminal{})) } func TestObserverControllerSync(t *testing.T) { spec.Run(t, "Sync", func(t *testing.T, when spec.G, it spec.S) { const installedInNamespace = "some-namespace" const certsSecretResourceName = "some-resource-name" var r *require.Assertions var subject controllerlib.Controller var kubeInformerClient *kubernetesfake.Clientset var kubeInformers kubeinformers.SharedInformerFactory var timeoutContext context.Context var timeoutContextCancel context.CancelFunc var syncContext *controllerlib.Context var dynamicCertProvider provider.DynamicTLSServingCertProvider // Defer starting the informers until the last possible moment so that the // nested Before's can keep adding things to the informer caches. var startInformersAndController = func() { // Set this at the last second to allow for injection of server override. subject = NewCertsObserverController( installedInNamespace, certsSecretResourceName, dynamicCertProvider, kubeInformers.Core().V1().Secrets(), controllerlib.WithInformer, ) // Set this at the last second to support calling subject.Name(). syncContext = &controllerlib.Context{ Context: timeoutContext, Name: subject.Name(), Key: controllerlib.Key{ Namespace: installedInNamespace, Name: certsSecretResourceName, }, } // Must start informers before calling TestRunSynchronously() kubeInformers.Start(timeoutContext.Done()) controllerlib.TestRunSynchronously(t, subject) } it.Before(func() { r = require.New(t) timeoutContext, timeoutContextCancel = context.WithTimeout(context.Background(), time.Second*3) kubeInformerClient = kubernetesfake.NewSimpleClientset() kubeInformers = kubeinformers.NewSharedInformerFactory(kubeInformerClient, 0) dynamicCertProvider = provider.NewDynamicTLSServingCertProvider() }) it.After(func() { timeoutContextCancel() }) when("there is not yet a serving cert Secret in the installation namespace or it was deleted", func() { it.Before(func() { unrelatedSecret := &corev1.Secret{ ObjectMeta: metav1.ObjectMeta{ Name: "some other secret", Namespace: installedInNamespace, }, } err := kubeInformerClient.Tracker().Add(unrelatedSecret) r.NoError(err) dynamicCertProvider.Set([]byte("some cert"), []byte("some private key")) }) it("sets the dynamicCertProvider's cert and key to nil", func() { startInformersAndController() err := controllerlib.TestSync(t, subject, *syncContext) r.NoError(err) actualCertChain, actualKey := dynamicCertProvider.CurrentCertKeyContent() r.Nil(actualCertChain) r.Nil(actualKey) }) }) when("there is a serving cert Secret with the expected keys already in the installation namespace", func() { it.Before(func() { apiServingCertSecret := &corev1.Secret{ ObjectMeta: metav1.ObjectMeta{ Name: certsSecretResourceName, Namespace: installedInNamespace, }, Data: map[string][]byte{ "caCertificate": []byte("fake cert"), "tlsPrivateKey": []byte("fake private key"), "tlsCertificateChain": []byte("fake cert chain"), }, } err := kubeInformerClient.Tracker().Add(apiServingCertSecret) r.NoError(err) dynamicCertProvider.Set(nil, nil) }) it("updates the dynamicCertProvider's cert and key", func() { startInformersAndController() err := controllerlib.TestSync(t, subject, *syncContext) r.NoError(err) actualCertChain, actualKey := dynamicCertProvider.CurrentCertKeyContent() r.Equal("fake cert chain", string(actualCertChain)) r.Equal("fake private key", string(actualKey)) }) }) when("the serving cert Secret exists but is missing the expected keys", func() { it.Before(func() { apiServingCertSecret := &corev1.Secret{ ObjectMeta: metav1.ObjectMeta{ Name: certsSecretResourceName, Namespace: installedInNamespace, }, Data: map[string][]byte{}, } err := kubeInformerClient.Tracker().Add(apiServingCertSecret) r.NoError(err) dynamicCertProvider.Set(nil, nil) }) it("set the missing values in the dynamicCertProvider as nil", func() { startInformersAndController() err := controllerlib.TestSync(t, subject, *syncContext) r.NoError(err) actualCertChain, actualKey := dynamicCertProvider.CurrentCertKeyContent() r.Nil(actualCertChain) r.Nil(actualKey) }) }) }, spec.Parallel(), spec.Report(report.Terminal{})) }