using Core; using DistTestCore.Logs; using FileUtils; using Logging; using NUnit.Framework; using NUnit.Framework.Interfaces; using System.Reflection; using Utils; using Assert = NUnit.Framework.Assert; namespace DistTestCore { [Parallelizable(ParallelScope.All)] public abstract class DistTest { private const string TestNamespacePrefix = "ct-"; private readonly Configuration configuration = new Configuration(); private readonly Assembly[] testAssemblies; private readonly FixtureLog fixtureLog; private readonly StatusLog statusLog; private readonly object lifecycleLock = new object(); private readonly EntryPoint globalEntryPoint; private readonly Dictionary lifecycles = new Dictionary(); private readonly string deployId; public DistTest() { var assemblies = AppDomain.CurrentDomain.GetAssemblies(); testAssemblies = assemblies.Where(a => a.FullName!.ToLowerInvariant().Contains("test")).ToArray(); deployId = NameUtils.MakeDeployId(); var logConfig = configuration.GetLogConfig(); var startTime = DateTime.UtcNow; fixtureLog = new FixtureLog(logConfig, startTime, deployId); statusLog = new StatusLog(logConfig, startTime, "dist-tests", deployId); globalEntryPoint = new EntryPoint(fixtureLog, configuration.GetK8sConfiguration(new DefaultTimeSet(), TestNamespacePrefix), configuration.GetFileManagerFolder()); Initialize(fixtureLog); } [OneTimeSetUp] public void GlobalSetup() { fixtureLog.Log($"Distributed Tests are starting..."); globalEntryPoint.Announce(); // Previous test run may have been interrupted. // Begin by cleaning everything up. try { Stopwatch.Measure(fixtureLog, "Global setup", () => { globalEntryPoint.Tools.CreateWorkflow().DeleteNamespacesStartingWith(TestNamespacePrefix, wait: true); }); } catch (Exception ex) { GlobalTestFailure.HasFailed = true; fixtureLog.Error($"Global setup cleanup failed with: {ex}"); throw; } fixtureLog.Log("Test framework revision: " + GitInfo.GetStatus()); fixtureLog.Log("Global setup cleanup successful"); } [OneTimeTearDown] public void GlobalTearDown() { globalEntryPoint.Decommission( // There shouldn't be any of either, but clean everything up regardless. deleteKubernetesResources: true, deleteTrackedFiles: true, waitTillDone: true ); } [SetUp] public void SetUpDistTest() { if (GlobalTestFailure.HasFailed) { Assert.Inconclusive("Skip test: Previous test failed during clean up."); } else { CreateNewTestLifecycle(); } } [TearDown] public void TearDownDistTest() { try { DisposeTestLifecycle(); } catch (Exception ex) { fixtureLog.Error("Cleanup failed: " + ex); GlobalTestFailure.HasFailed = true; } } public CoreInterface Ci { get { return Get().CoreInterface; } } public TrackedFile GenerateTestFile(ByteSize size, string label = "") { return Get().GenerateTestFile(size, label); } /// /// Any test files generated in 'action' will be deleted after it returns. /// This helps prevent large tests from filling up discs. /// public void ScopedTestFiles(Action action) { Get().GetFileManager().ScopedFiles(action); } public ILog GetTestLog() { return Get().Log; } public void Log(string msg) { TestContext.Progress.WriteLine(msg); GetTestLog().Log(msg); } public void Debug(string msg) { TestContext.Progress.WriteLine(msg); GetTestLog().Debug(msg); } public void Measure(string name, Action action) { Stopwatch.Measure(Get().Log, name, action); } protected TimeRange GetTestRunTimeRange() { return new TimeRange(Get().TestStart, DateTime.UtcNow); } protected virtual void Initialize(FixtureLog fixtureLog) { } protected virtual void LifecycleStart(TestLifecycle lifecycle) { } protected virtual void LifecycleStop(TestLifecycle lifecycle) { } protected virtual void CollectStatusLogData(TestLifecycle lifecycle, Dictionary data) { } protected TestLifecycle Get() { lock (lifecycleLock) { return lifecycles[GetCurrentTestName()]; } } private void CreateNewTestLifecycle() { var testName = GetCurrentTestName(); fixtureLog.WriteLogTag(); Stopwatch.Measure(fixtureLog, $"Setup for {testName}", () => { lock (lifecycleLock) { var testNamespace = TestNamespacePrefix + Guid.NewGuid().ToString(); var lifecycle = new TestLifecycle( fixtureLog.CreateTestLog(), configuration, GetTimeSet(), testNamespace, deployId, ShouldWaitForCleanup()); lifecycles.Add(testName, lifecycle); LifecycleStart(lifecycle); } }); } private void DisposeTestLifecycle() { var lifecycle = Get(); var testResult = GetTestResult(); var testDuration = lifecycle.GetTestDuration(); var data = lifecycle.GetPluginMetadata(); CollectStatusLogData(lifecycle, data); fixtureLog.Log($"{GetCurrentTestName()} = {testResult} ({testDuration})"); statusLog.ConcludeTest(testResult, testDuration, data); Stopwatch.Measure(fixtureLog, $"Teardown for {GetCurrentTestName()}", () => { WriteEndTestLog(lifecycle.Log); IncludeLogsOnTestFailure(lifecycle); LifecycleStop(lifecycle); lifecycle.DeleteAllResources(); lifecycles.Remove(GetCurrentTestName()); }); } private void WriteEndTestLog(TestLog log) { var result = TestContext.CurrentContext.Result; Log($"*** Finished: {GetCurrentTestName()} = {result.Outcome.Status}"); if (!string.IsNullOrEmpty(result.Message)) { Log(result.Message); Log($"{result.StackTrace}"); } if (result.Outcome.Status == TestStatus.Failed) { log.MarkAsFailed(); } } private ITimeSet GetTimeSet() { if (ShouldUseLongTimeouts()) return new LongTimeSet(); return new DefaultTimeSet(); } private bool ShouldWaitForCleanup() { return CurrentTestMethodHasAttribute(); } private bool ShouldUseLongTimeouts() { return CurrentTestMethodHasAttribute(); } private bool HasDontDownloadAttribute() { return CurrentTestMethodHasAttribute(); } private bool CurrentTestMethodHasAttribute() where T : PropertyAttribute { // Don't be fooled! TestContext.CurrentTest.Test allows you easy access to the attributes of the current test. // But this doesn't work for tests making use of [TestCase] or [Combinatorial]. So instead, we use reflection here to figure out // if the attribute is present. var currentTest = TestContext.CurrentContext.Test; var className = currentTest.ClassName; var methodName = currentTest.MethodName; var testClasses = testAssemblies.SelectMany(a => a.GetTypes()).Where(c => c.FullName == className).ToArray(); var testMethods = testClasses.SelectMany(c => c.GetMethods()).Where(m => m.Name == methodName).ToArray(); return testMethods.Any(m => m.GetCustomAttribute() != null); } private void IncludeLogsOnTestFailure(TestLifecycle lifecycle) { var testStatus = TestContext.CurrentContext.Result.Outcome.Status; if (testStatus == TestStatus.Failed) { fixtureLog.MarkAsFailed(); } if (ShouldDownloadAllLogs(testStatus)) { lifecycle.Log.Log("Downloading all container logs..."); lifecycle.DownloadAllLogs(); } } private bool ShouldDownloadAllLogs(TestStatus testStatus) { if (configuration.AlwaysDownloadContainerLogs) return true; if (!IsDownloadingLogsEnabled()) return false; if (testStatus == TestStatus.Failed) { return true; } return false; } private string GetCurrentTestName() { return $"[{TestContext.CurrentContext.Test.Name}]"; } private string GetTestResult() { return TestContext.CurrentContext.Result.Outcome.Status.ToString(); } private bool IsDownloadingLogsEnabled() { return !HasDontDownloadAttribute(); } } public static class GlobalTestFailure { public static bool HasFailed { get; set; } = false; } }