From 0cf8d035957c8d14176b54e1853a60ef4780a2ec Mon Sep 17 00:00:00 2001 From: JeromeJu Date: Wed, 31 Jan 2024 15:05:19 +0000 Subject: [PATCH] Per feature flag test This commit releases the per feature flag test. It currently utilize minimum end-to-end tests for stable features while mocking stable, beta and alpha stability with different test envs. /kind misc --- test/README.md | 20 ++ test/per_feature_flags_test.go | 494 +++++++++++++++++++++++++++++++++ 2 files changed, 514 insertions(+) create mode 100644 test/per_feature_flags_test.go diff --git a/test/README.md b/test/README.md index 7e9eaf7515b..321e7edf427 100644 --- a/test/README.md +++ b/test/README.md @@ -438,3 +438,23 @@ setup a cluster for you: export PROJECT_ID=my_gcp_project test/presubmit-tests.sh --integration-tests ``` + +## Per Feature flag tests + +Per-feature flag tests verify that the combinations of feature flags work together +correctly, ensuring that individual flags don't interfere with each other's +functionality and that overall outcomes remain consistent. +Per [TEP0138](https://github.com/tektoncd/community/blob/main/teps/0138-decouple-api-and-feature-versioning.md#additional-ci-tests), +minimum end-to-end tests for stable features are utilized, mocking stable, beta, +and alpha stability levels within different test environments. + +To run these tests, you must provide `go` with `-tags=featureflags`. By default, the tests +run against your current kubeconfig context, but you can change that and other settings with the flags like +the end to end tests: + +```shell +go test -v -count=1 -tags=featureflags -timeout=60m ./test -run ^TestPerFeatureFlag +``` + +Flags that could be set in featureflags tests are exactly the same as [flags in end to end tests](#flags). +Just note that the build tags should be `-tags=featureflags`. \ No newline at end of file diff --git a/test/per_feature_flags_test.go b/test/per_feature_flags_test.go new file mode 100644 index 00000000000..4da9124b950 --- /dev/null +++ b/test/per_feature_flags_test.go @@ -0,0 +1,494 @@ +//go:build featureflags +// +build featureflags + +/* +Copyright 2023 The Tekton Authors + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed enabled an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ +package test + +import ( + "context" + "fmt" + "math" + "os" + "sort" + "strconv" + "strings" + "testing" + "time" + + "github.com/google/go-cmp/cmp" + "github.com/google/go-cmp/cmp/cmpopts" + "github.com/tektoncd/pipeline/pkg/apis/config" + v1 "github.com/tektoncd/pipeline/pkg/apis/pipeline/v1" + "github.com/tektoncd/pipeline/test/parse" + metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" + "knative.dev/pkg/system" + knativetest "knative.dev/pkg/test" + "knative.dev/pkg/test/helpers" +) + +const ( + sleepDuration = 15 * time.Second + enabled = "true" + disabled = "false" +) + +var ( + alphaFeatureFlags = []string{"enable-param-enum", "enable-step-actions", "keep-pod-enabled-cancel", "enable-cel-in-whenexpression"} + betaFeatureFlags = []string{} + perFeatureFlags = map[string][]string{ + "alpha": alphaFeatureFlags, + "beta": betaFeatureFlags, + } + + ignorePipelineRunStatus = cmpopts.IgnoreFields(v1.PipelineRunStatusFields{}, "StartTime", "CompletionTime", "FinallyStartTime", "ChildReferences", "Provenance") + ignoreTaskRunStatus = cmpopts.IgnoreFields(v1.TaskRunStatusFields{}, "StartTime", "CompletionTime", "Provenance") +) + +// TestPerFeatureFlagOptInAlpha tests the behavior with all alpha Per-feature +// flags enabled. It first turns ON all per-feature flags by default and turns +// OFF one feature flag at a time to mock opt-in alpha test env. +func TestPerFeatureFlagOptInAlpha(t *testing.T) { + configMapData := createExpectedConfigMap(t, true) + for _, alphaFlag := range alphaFeatureFlags { + configMapData[alphaFlag] = disabled + testMinimumEndToEndSubSet(t, configMapData) + configMapData[alphaFlag] = enabled + } +} + +// TestPerFeatureFlagOptInBeta tests the behavior with all beta Per-feature +// flags enabled. It first turns ON all beta per-feature flags by default and +// turns ON one alpha feature flag at a time to mock opt-in beta test env. +func TestFeatureFlagOptInBeta(t *testing.T) { + configMapData := createExpectedConfigMap(t, false) + for _, betaFlag := range betaFeatureFlags { + configMapData[betaFlag] = enabled + } + for _, alphaFlag := range alphaFeatureFlags { + configMapData[alphaFlag] = enabled + testMinimumEndToEndSubSet(t, configMapData) + configMapData[alphaFlag] = disabled + } +} + +// TestPerFeatureFlagOptInStable tests all Per-feature flags while opting in +// stable features. It turns OFF all per-feature flags by default and turns +// OFF one feature flag at a time to mock opt-in stable feature test env. +func TestPerFeatureFlagOptInStable(t *testing.T) { + configMapData := createExpectedConfigMap(t, false) + for _, betaFlag := range betaFeatureFlags { + configMapData[betaFlag] = enabled + testMinimumEndToEndSubSet(t, configMapData) + configMapData[betaFlag] = disabled + } + for _, alphaFlag := range alphaFeatureFlags { + configMapData[alphaFlag] = enabled + testMinimumEndToEndSubSet(t, configMapData) + configMapData[alphaFlag] = disabled + } +} + +func createExpectedConfigMap(t *testing.T, enabled bool) map[string]string { + expectedConfigMap := make(map[string]string) + for _, flags := range perFeatureFlags { + for _, f := range flags { + expectedConfigMap[f] = strconv.FormatBool(enabled) + } + } + return expectedConfigMap +} + +// testMinimumEndToEndSubSet examines the basic stable Pipeline functionalities +// with minimum inputs given the limitation of time to setup a Pipeline and run +// from it under the condition of +func testMinimumEndToEndSubSet(t *testing.T, configMapData map[string]string) { + testFanInFanOut(t, configMapData) + testResultsAndFinally(t, configMapData) + testParams(t, configMapData) +} + +// testFanInFanOut tests DAG built with a small fan-in fan-out pipeline and +// examines the sequence of the PipelineTasks being run. +func testFanInFanOut(t *testing.T, configMapData map[string]string) { + ctx := context.Background() + ctx, cancel := context.WithCancel(ctx) + defer cancel() + c, namespace := setup(ctx, t) + knativetest.CleanupOnInterrupt(func() { tearDown(ctx, t, c, namespace) }, t.Logf) + defer tearDown(ctx, t, c, namespace) + + ns := os.Getenv("SYSTEM_NAMESPACE") + if ns == "" { + ns = "tekton-pipelines" + } + + if err := updateConfigMap(ctx, c.KubeClient, system.Namespace(), config.GetFeatureFlagsConfigName(), configMapData); err != nil { + t.Fatal(err) + } + + echoTask := parse.MustParseV1Task(t, fmt.Sprintf(` +metadata: + name: %s + namespace: %s +spec: + params: + - name: text + type: string + description: 'The text that should be echoed' + results: + - name: result + steps: + - image: busybox + script: 'echo $(params["text"])' + - image: busybox + # Sleep for N seconds so that we can check that tasks that + # should be run in parallel have overlap. + script: | + sleep %d + echo $(params.text) | tee $(results.result.path) +`, helpers.ObjectNameForTest(t), namespace, int(sleepDuration.Seconds()))) + if _, err := c.V1TaskClient.Create(ctx, echoTask, metav1.CreateOptions{}); err != nil { + t.Fatalf("Failed to create echo Task: %s", err) + } + + pipelineRun := parse.MustParseV1PipelineRun(t, fmt.Sprintf(` +metadata: + name: %s + namespace: %s +spec: + pipelineSpec: + tasks: + - name: pipeline-task-3 + params: + - name: text + value: wow + - name: result-p2 + value: $(tasks.pipeline-task-2-parallel-2.results.result) + - name: result-p1 + value: $(tasks.pipeline-task-2-parallel-1.results.result) + taskRef: + name: %[3]s + - name: pipeline-task-2-parallel-2 + params: + - name: text + value: such parallel + - name: result1 + value: $(tasks.pipeline-task-1.results.result) + taskRef: + name: %[3]s + - name: pipeline-task-2-parallel-1 + params: + - name: text + value: much graph + taskRef: + name: %[3]s + runAfter: + - pipeline-task-1 + - name: pipeline-task-1 + params: + - name: text + value: how to ci/cd? + taskRef: + name: %[3]s +`, helpers.ObjectNameForTest(t), namespace, echoTask.Name)) + if _, err := c.V1PipelineRunClient.Create(ctx, pipelineRun, metav1.CreateOptions{}); err != nil { + t.Fatalf("Failed to create dag-pipeline-run PipelineRun: %s", err) + } + if err := WaitForPipelineRunState(ctx, c, pipelineRun.Name, timeout, PipelineRunSucceed(pipelineRun.Name), "PipelineRunSuccess", v1Version); err != nil { + t.Fatalf("Error waiting for PipelineRun to finish: %s", err) + } + + taskRunList, err := c.V1TaskRunClient.List(ctx, metav1.ListOptions{}) + if err != nil { + t.Fatalf("Couldn't get TaskRuns (so that we could check when they executed): %v", err) + } + + taskRuns := taskRunList.Items + sort.Slice(taskRuns, func(i, j int) bool { + return (taskRuns[i].Status.StartTime.Time).Before(taskRuns[j].Status.StartTime.Time) + }) + + wantPrefixes := []string{"-pipeline-task-1", "-pipeline-task-2-parallel", "-pipeline-task-2-parallel", "-pipeline-task-3"} + for i, wp := range wantPrefixes { + if !strings.Contains(taskRuns[i].Name, wp) { + t.Errorf("Expected task %q to execute first, but %q was first", wp, taskRuns[i].Name) + } + } + + paralleTask1StartTime := taskRuns[1].Status.StartTime.Time + paralleTask2StartTime := taskRuns[2].Status.StartTime.Time + absDiff := time.Duration(math.Abs(float64(paralleTask2StartTime.Sub(paralleTask1StartTime)))) + if absDiff > sleepDuration { + t.Errorf("Expected parallel tasks to execute around the same time, but they were %v apart", absDiff) + } +} + +// testResultsAndFinally tests both Results and Finally functionalities. It +// verifies the TaskRun produced by the Finally Task after a failed TaskRun +// with its results. +func testResultsAndFinally(t *testing.T, configMapData map[string]string) { + ctx := context.Background() + ctx, cancel := context.WithCancel(ctx) + defer cancel() + c, namespace := setup(ctx, t) + knativetest.CleanupOnInterrupt(func() { tearDown(ctx, t, c, namespace) }, t.Logf) + defer tearDown(ctx, t, c, namespace) + + ns := os.Getenv("SYSTEM_NAMESPACE") + if ns == "" { + ns = "tekton-pipelines" + } + + if err := updateConfigMap(ctx, c.KubeClient, system.Namespace(), config.GetFeatureFlagsConfigName(), configMapData); err != nil { + t.Fatal(err) + } + + pipelineRun := parse.MustParseV1PipelineRun(t, fmt.Sprintf(` +metadata: + name: %s +spec: + pipelineSpec: + tasks: + - name: task1 + taskSpec: + results: + - name: result1 + steps: + - name: failing-step + image: busybox + script: 'echo -n 123 | tee $(results.result1.path); exit 1' + finally: + - name: finaltask1 + params: + - name: param1 + value: $(tasks.task1.results.result1) + taskSpec: + params: + - name: param1 + steps: + - image: busybox + script: 'echo $(params.param1);exit 0' +`, helpers.ObjectNameForTest(t))) + + if _, err := c.V1PipelineRunClient.Create(ctx, pipelineRun, metav1.CreateOptions{}); err != nil { + t.Fatalf("Failed to create PipelineRun `%s`: %s", pipelineRun.Name, err) + } + if err := WaitForPipelineRunState(ctx, c, pipelineRun.Name, timeout, FailedWithReason(v1.PipelineRunReasonFailed.String(), pipelineRun.Name), "InvalidTaskResultReference", v1Version); err != nil { + t.Errorf("Error waiting for PipelineRun to fail: %s", err) + } + + taskrunList, err := c.V1TaskRunClient.List(ctx, metav1.ListOptions{LabelSelector: "tekton.dev/pipelineRun=" + pipelineRun.Name}) + if err != nil { + t.Fatalf("Error listing TaskRuns for PipelineRun %s: %s", pipelineRun.Name, err) + } + if len(taskrunList.Items) != 2 { + t.Fatalf("Expect PipelineRun %s to have 2 taskRuns, instead it has %d taskRuns", pipelineRun.Name, len(taskrunList.Items)) + } + + for _, taskrunItem := range taskrunList.Items { + switch n := taskrunItem.Labels["tekton.dev/pipelineTask"]; n { + case "task1": + if !isFailed(t, "", taskrunItem.Status.Conditions) { + t.Fatalf("task1 should have been a failure") + } + if len(taskrunItem.Status.Results) != 1 { + t.Fatalf("task1 should have produced a result even with the failing step") + } + for _, r := range taskrunItem.Status.Results { + if r.Name == "result1" && r.Value.StringVal != "123" { + t.Fatalf("task1 should have initialized a result \"result1\" to \"123\"") + } + } + case "finaltask1": + if !isSuccessful(t, "", taskrunItem.Status.Conditions) { + t.Fatalf("finaltask1 should have been successful") + } + default: + t.Fatalf("TaskRuns were not found for both final and dag tasks") + } + } +} + +// testParams tests the parameter propagation by comparing the expected +// TaskRuns run from the PipelineRun specified in Finally Task. +func testParams(t *testing.T, configMapData map[string]string) { + ctx := context.Background() + ctx, cancel := context.WithCancel(ctx) + defer cancel() + c, namespace := setup(ctx, t) + knativetest.CleanupOnInterrupt(func() { tearDown(ctx, t, c, namespace) }, t.Logf) + defer tearDown(ctx, t, c, namespace) + + ns := os.Getenv("SYSTEM_NAMESPACE") + if ns == "" { + ns = "tekton-pipelines" + } + + if err := updateConfigMap(ctx, c.KubeClient, system.Namespace(), config.GetFeatureFlagsConfigName(), configMapData); err != nil { + t.Fatal(err) + } + + pipelineRun := parse.MustParseV1PipelineRun(t, fmt.Sprintf(` +metadata: + name: propagated-parameters-fully + namespace: %s +spec: + params: + - name: HELLO + value: "Hello World!" + pipelineSpec: + tasks: + - name: echo-hello + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo $(params.HELLO) + finally: + - name: echo-hello-finally + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo $(params.HELLO) +`, namespace)) + + prName := pipelineRun.Name + _, err := c.V1PipelineRunClient.Create(ctx, pipelineRun, metav1.CreateOptions{}) + if err != nil { + t.Fatalf("Failed to create PipelineRun `%s`: %s", prName, err) + } + + if err := WaitForPipelineRunState(ctx, c, prName, timeout, PipelineRunSucceed(prName), "PipelineRunSuccess", v1Version); err != nil { + t.Fatalf("Error waiting for PipelineRun %s to finish: %s", prName, err) + } + prResolved, err := c.V1PipelineRunClient.Get(ctx, prName, metav1.GetOptions{}) + if err != nil { + t.Fatalf("Failed to get PipelineRun `%s`: %s", prName, err) + } + + expectedResolvedPipelineRun := parse.MustParseV1PipelineRun(t, fmt.Sprintf(` +metadata: + name: propagated-parameters-fully + namespace: %s +spec: + timeouts: + pipeline: 1h + params: + - name: HELLO + value: "Hello World!" + pipelineSpec: + tasks: + - name: echo-hello + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo $(params.HELLO) + finally: + - name: echo-hello-finally + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo $(params.HELLO) +status: + pipelineSpec: + tasks: + - name: echo-hello + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! + finally: + - name: echo-hello-finally + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! +`, namespace)) + + expectedFeatureFlags := getFeatureFlagsBaseOnAPIFlag(t) + expectedResolvedPipelineRun.Status.Provenance = &v1.Provenance{ + FeatureFlags: expectedFeatureFlags, + } + if d := cmp.Diff(expectedResolvedPipelineRun, prResolved, ignoreTypeMeta, ignoreObjectMeta, ignoreCondition, + ignorePipelineRunStatus, ignoreTaskRunStatus, ignoreConditions, ignoreContainerStates, + ignoreStepState, ignoreSAPipelineRunSpec, + ); d != "" { + t.Fatalf(`The resolved spec does not match the expected spec. Here is the diff: %v`, d) + } + expectedTaskRun := parse.MustParseV1TaskRun(t, fmt.Sprintf(` +metadata: + name: propagated-parameters-fully-echo-hello + namespace: %s +spec: + timeout: 1h + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! +status: + podName: propagated-parameters-fully-echo-hello-pod + steps: + - name: echo + container: step-echo + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! +`, namespace)) + + expectedFinallyTaskRun := parse.MustParseV1TaskRun(t, fmt.Sprintf(` +metadata: + name: propagated-parameters-fully-echo-hello-finally + namespace: %s +spec: + timeout: 1h + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! +status: + podName: propagated-parameters-fully-echo-hello-finally-pod + steps: + - name: echo + container: step-echo + taskSpec: + steps: + - name: echo + image: ubuntu + script: echo Hello World! +`, namespace)) + + for _, tr := range []*v1.TaskRun{expectedTaskRun, expectedFinallyTaskRun} { + tr.Status.Provenance = &v1.Provenance{ + FeatureFlags: expectedFeatureFlags, + } + taskrun, _ := c.V1TaskRunClient.Get(ctx, tr.Name, metav1.GetOptions{}) + if d := cmp.Diff(tr, taskrun, ignoreTypeMeta, ignoreObjectMeta, ignoreCondition, ignoreTaskRunStatus, + ignoreConditions, ignoreContainerStates, ignoreStepState, ignoreSATaskRunSpec, + ); d != "" { + t.Fatalf(`The expected taskrun does not match created taskrun. Here is the diff: %v`, d) + } + } +}