void ITestDiscoverer.DiscoverTests(IEnumerable <string> sources, IDiscoveryContext discoveryContext, IMessageLogger logger, ITestCaseDiscoverySink discoverySink) { Guard.ArgumentNotNull("sources", sources); Guard.ArgumentNotNull("logger", logger); Guard.ArgumentNotNull("discoverySink", discoverySink); Guard.ArgumentValid("sources", "AppX not supported for discovery", !ContainsAppX(sources)); var stopwatch = Stopwatch.StartNew(); var loggerHelper = new LoggerHelper(logger, stopwatch); PrintHeader(loggerHelper); var runSettings = RunSettings.Parse(discoveryContext?.RunSettings?.SettingsXml); if (!runSettings.IsMatchingTargetFramework()) { return; } var testPlatformContext = new TestPlatformContext { // Discovery from command line (non designmode) never requires source information // since there is no session or command line runner doesn't send back VSTestCase objects // back to adapter. RequireSourceInformation = runSettings.CollectSourceInformation, // Command line runner could request for Discovery in case of running specific tests. We need // the XunitTestCase serialized in this scenario. RequireXunitTestProperty = true }; DiscoverTests( sources, loggerHelper, testPlatformContext, runSettings, (source, discoverer, discoveryOptions) => new VsDiscoverySink(source, discoverer, loggerHelper, discoverySink, discoveryOptions, testPlatformContext, () => cancelled) ); }
void RunTestsInAssembly(IRunContext runContext, IFrameworkHandle frameworkHandle, LoggerHelper logger, TestPlatformContext testPlatformContext, RunSettings runSettings, IMessageSinkWithTypes reporterMessageHandler, AssemblyRunInfo runInfo) { if (cancelled) { return; } var assemblyDisplayName = "(unknown assembly)"; try { var assembly = new XunitProjectAssembly { AssemblyFilename = runInfo.AssemblyFileName }; var assemblyFileName = runInfo.AssemblyFileName; assemblyDisplayName = Path.GetFileNameWithoutExtension(assemblyFileName); var configuration = runInfo.Configuration; var shadowCopy = configuration.ShadowCopyOrDefault; var appDomain = assembly.Configuration.AppDomain ?? AppDomainDefaultBehavior; var longRunningSeconds = assembly.Configuration.LongRunningTestSecondsOrDefault; if (runSettings.DisableAppDomain) { appDomain = AppDomainSupport.Denied; } #if WINDOWS_UAP // For AppX Apps, use the package location assemblyFileName = Path.Combine(Windows.ApplicationModel.Package.Current.InstalledLocation.Path, Path.GetFileName(assemblyFileName)); #endif var diagnosticSink = DiagnosticMessageSink.ForDiagnostics(logger, assemblyDisplayName, runInfo.Configuration.DiagnosticMessagesOrDefault); var diagnosticMessageSink = MessageSinkAdapter.Wrap(diagnosticSink); using (var controller = new XunitFrontController(appDomain, assemblyFileName, shadowCopy: shadowCopy, diagnosticMessageSink: diagnosticMessageSink)) { var testCasesMap = new Dictionary <string, TestCase>(); var testCases = new List <ITestCase>(); if (runInfo.TestCases == null || !runInfo.TestCases.Any()) { // Discover tests AssemblyDiscoveredInfo assemblyDiscoveredInfo = new AssemblyDiscoveredInfo(); DiscoverTestsInSource(controller, logger, testPlatformContext, runSettings, (source, discoverer, discoveryOptions) => new VsExecutionDiscoverySink(() => cancelled), (source, discoverer, discoveryOptions, visitor) => { if (discoveryOptions.GetInternalDiagnosticMessagesOrDefault()) { foreach (var testCase in visitor.TestCases) { logger.Log(testCase, "Discovered [execution] test case '{0}' (ID = '{1}')", testCase.DisplayName, testCase.UniqueID); } } assemblyDiscoveredInfo = new AssemblyDiscoveredInfo { AssemblyFileName = source, DiscoveredTestCases = GetVsTestCases(source, discoverer, visitor, logger, testPlatformContext) }; }, assemblyFileName, shadowCopy, configuration ); if (assemblyDiscoveredInfo.DiscoveredTestCases == null || !assemblyDiscoveredInfo.DiscoveredTestCases.Any()) { if (configuration.InternalDiagnosticMessagesOrDefault) { logger.LogWarning("Skipping '{0}' since no tests were found during discovery [execution].", assemblyDiscoveredInfo.AssemblyFileName); } return; } // Filter tests var traitNames = new HashSet <string>(assemblyDiscoveredInfo.DiscoveredTestCases.SelectMany(testCase => testCase.TraitNames)); var filter = new TestCaseFilter(runContext, logger, assemblyDiscoveredInfo.AssemblyFileName, traitNames); var filteredTestCases = assemblyDiscoveredInfo.DiscoveredTestCases.Where(dtc => filter.MatchTestCase(dtc.VSTestCase)).ToList(); foreach (var filteredTestCase in filteredTestCases) { var uniqueID = filteredTestCase.UniqueID; if (testCasesMap.ContainsKey(uniqueID)) { logger.LogWarning(filteredTestCase.TestCase, "Skipping test case with duplicate ID '{0}' ('{1}' and '{2}')", uniqueID, testCasesMap[uniqueID].DisplayName, filteredTestCase.VSTestCase.DisplayName); } else { testCasesMap.Add(uniqueID, filteredTestCase.VSTestCase); testCases.Add(filteredTestCase.TestCase); } } } else { try { var serializations = runInfo.TestCases .Select(tc => tc.GetPropertyValue <string>(SerializedTestCaseProperty, null)) .ToList(); if (configuration.InternalDiagnosticMessagesOrDefault) { logger.LogWithSource(runInfo.AssemblyFileName, "Deserializing {0} test case(s):{1}{2}", serializations.Count, Environment.NewLine, string.Join(Environment.NewLine, serializations.Select(x => $" {x}"))); } var deserializedTestCasesByUniqueId = controller.BulkDeserialize(serializations); if (deserializedTestCasesByUniqueId == null) { logger.LogErrorWithSource(assemblyFileName, "Received null response from BulkDeserialize"); } else { for (int idx = 0; idx < runInfo.TestCases.Count; ++idx) { try { var kvp = deserializedTestCasesByUniqueId[idx]; var vsTestCase = runInfo.TestCases[idx]; if (kvp.Value == null) { logger.LogErrorWithSource(assemblyFileName, "Test case {0} failed to deserialize: {1}", vsTestCase.DisplayName, kvp.Key); } else { testCasesMap.Add(kvp.Key, vsTestCase); testCases.Add(kvp.Value); } } catch (Exception ex) { logger.LogErrorWithSource(assemblyFileName, "Catastrophic error deserializing item #{0}: {1}", idx, ex); } } } } catch (Exception ex) { logger.LogWarningWithSource(assemblyFileName, "Catastrophic error during deserialization: {0}", ex); } } // Execute tests var executionOptions = TestFrameworkOptions.ForExecution(runInfo.Configuration); if (runSettings.DisableParallelization) { executionOptions.SetSynchronousMessageReporting(true); executionOptions.SetDisableParallelization(true); } reporterMessageHandler.OnMessage(new TestAssemblyExecutionStarting(assembly, executionOptions)); using (var vsExecutionSink = new VsExecutionSink(reporterMessageHandler, frameworkHandle, logger, testCasesMap, executionOptions, () => cancelled)) { IExecutionSink resultsSink = vsExecutionSink; if (longRunningSeconds > 0) { resultsSink = new DelegatingLongRunningTestDetectionSink(resultsSink, TimeSpan.FromSeconds(longRunningSeconds), diagnosticSink); } controller.RunTests(testCases, resultsSink, executionOptions); resultsSink.Finished.WaitOne(); reporterMessageHandler.OnMessage(new TestAssemblyExecutionFinished(assembly, executionOptions, resultsSink.ExecutionSummary)); } } } catch (Exception ex) { logger.LogError("{0}: Catastrophic failure: {1}", assemblyDisplayName, ex); } }
private bool DiscoverTestsInSource <TVisitor>(XunitFrontController framework, LoggerHelper logger, TestPlatformContext testPlatformContext, RunSettings runSettings, Func <string, ITestFrameworkDiscoverer, ITestFrameworkDiscoveryOptions, TVisitor> visitorFactory, Action <string, ITestFrameworkDiscoverer, ITestFrameworkDiscoveryOptions, TVisitor> visitComplete, string assemblyFileName, bool shadowCopy, TestAssemblyConfiguration configuration) where TVisitor : IVsDiscoverySink, IDisposable { if (cancelled) { return(false); } var fileName = "(unknown assembly)"; try { var reporterMessageHandler = GetRunnerReporter(logger, runSettings, new[] { assemblyFileName }).CreateMessageHandler(new VisualStudioRunnerLogger(logger)); var assembly = new XunitProjectAssembly { AssemblyFilename = assemblyFileName }; fileName = Path.GetFileNameWithoutExtension(assemblyFileName); if (!IsXunitTestAssembly(assemblyFileName)) { if (configuration.DiagnosticMessagesOrDefault) { logger.Log("Skipping: {0} (no reference to xUnit.net)", fileName); } } else { var targetFramework = framework.TargetFramework; if (targetFramework.StartsWith("MonoTouch", StringComparison.OrdinalIgnoreCase) || targetFramework.StartsWith("MonoAndroid", StringComparison.OrdinalIgnoreCase) || targetFramework.StartsWith("Xamarin.iOS", StringComparison.OrdinalIgnoreCase)) { if (configuration.DiagnosticMessagesOrDefault) { logger.Log("Skipping: {0} (unsupported target framework '{1}')", fileName, targetFramework); } } else { var discoveryOptions = TestFrameworkOptions.ForDiscovery(configuration); using (var visitor = visitorFactory(assemblyFileName, framework, discoveryOptions)) { var totalTests = 0; var usingAppDomains = framework.CanUseAppDomains && AppDomainDefaultBehavior != AppDomainSupport.Denied; reporterMessageHandler.OnMessage(new TestAssemblyDiscoveryStarting(assembly, usingAppDomains, shadowCopy, discoveryOptions)); try { framework.Find(testPlatformContext.RequireSourceInformation, visitor, discoveryOptions); totalTests = visitor.Finish(); visitComplete?.Invoke(assemblyFileName, framework, discoveryOptions, visitor); } finally { reporterMessageHandler.OnMessage(new TestAssemblyDiscoveryFinished(assembly, discoveryOptions, totalTests, totalTests)); } } } } } catch (Exception e) { var ex = e.Unwrap(); if (ex is InvalidOperationException) { logger.LogWarning("Skipping: {0} ({1})", fileName, ex.Message); } else if (ex is FileNotFoundException fileNotFound) { logger.LogWarning("Skipping: {0} (could not find dependent assembly '{1}')", fileName, Path.GetFileNameWithoutExtension(fileNotFound.FileName)); } #if !WINDOWS_UAP else if (ex is FileLoadException fileLoad) { logger.LogWarning("Skipping: {0} (could not find dependent assembly '{1}')", fileName, Path.GetFileNameWithoutExtension(fileLoad.FileName)); } #endif else { logger.LogWarning("Exception discovering tests from {0}: {1}", fileName, ex); } } return(true); }