using DistTestCore; using DistTestCore.Logs; using Logging; using Newtonsoft.Json; using Utils; namespace ContinuousTests { public class ContinuousTestRunner { private readonly EntryPointFactory entryPointFactory = new EntryPointFactory(); private readonly ConfigLoader configLoader = new ConfigLoader(); private readonly TestFactory testFactory = new TestFactory(); private readonly Configuration config; private readonly CancellationToken cancelToken; public ContinuousTestRunner(string[] args, CancellationToken cancelToken) { config = configLoader.Load(args); this.cancelToken = cancelToken; } public void Run() { var logConfig = new LogConfig(config.LogPath); var startTime = DateTime.UtcNow; var overviewLog = new LogSplitter( new FixtureLog(logConfig, startTime, "Overview"), new ConsoleLog() ); var statusLog = new StatusLog(logConfig, startTime, "continuous-tests", "ContinuousTestRun"); overviewLog.Log("Initializing..."); var entryPoint = entryPointFactory.CreateEntryPoint(config.KubeConfigFile, config.DataPath, config.CodexDeployment.Metadata.KubeNamespace, overviewLog); entryPoint.Announce(); overviewLog.Log("Initialized. Performing startup checks..."); var startupChecker = new StartupChecker(entryPoint, config, cancelToken); startupChecker.Check(); var taskFactory = new TaskFactory(); overviewLog.Log("Startup checks passed. Configuration:"); overviewLog.Log(JsonConvert.SerializeObject(config, Formatting.Indented)); overviewLog.Log("Test framework revision: " + GitInfo.GetStatus()); overviewLog.Log("Continuous tests starting..."); overviewLog.Log(""); var allTests = testFactory.CreateTests(); ClearAllCustomNamespaces(allTests, overviewLog); var filteredTests = FilterTests(allTests, overviewLog); if (!filteredTests.Any()) { overviewLog.Log("No tests selected."); Cancellation.Cts.Cancel(); } else { var testLoops = filteredTests.Select(t => new TestLoop(entryPointFactory, taskFactory, config, overviewLog, statusLog, t.GetType(), t.RunTestEvery, startupChecker, cancelToken)).ToArray(); foreach (var testLoop in testLoops) { if (cancelToken.IsCancellationRequested) break; overviewLog.Log("Launching test-loop for " + testLoop.Name); testLoop.Begin(); Thread.Sleep(TimeSpan.FromSeconds(5)); } overviewLog.Log("Finished launching test-loops."); WaitUntilFinished(overviewLog, statusLog, startTime, testLoops); overviewLog.Log("Stopping all test-loops..."); } taskFactory.WaitAll(); overviewLog.Log("All tasks cancelled."); PerformCleanup(overviewLog); } private ContinuousTest[] FilterTests(ContinuousTest[] allTests, ILog log) { log.Log($"Available tests: {string.Join(", ", allTests.Select(r => r.Name))}"); var result = allTests.ToArray(); var filters = config.Filter.Split(",", StringSplitOptions.RemoveEmptyEntries); if (filters.Any()) { log.Log($"Applying filters: {string.Join(", ", filters)}"); result = allTests.Where(t => filters.Any(f => t.Name.Contains(f))).ToArray(); } log.Log($"Selected for running: {string.Join(", ", result.Select(r => r.Name))}"); return result; } private void WaitUntilFinished(LogSplitter overviewLog, StatusLog statusLog, DateTime startTime, TestLoop[] testLoops) { var testDuration = (DateTime.UtcNow - startTime).TotalSeconds.ToString(); var testData = FormatTestRuns(testLoops); overviewLog.Log("Total duration: " + testDuration); if (!string.IsNullOrEmpty(config.TargetDurationSeconds)) { var targetDuration = Time.ParseTimespan(config.TargetDurationSeconds); var wasCancelled = cancelToken.WaitHandle.WaitOne(targetDuration); if (!wasCancelled) { Cancellation.Cts.Cancel(); overviewLog.Log($"Congratulations! The targer duration has been reached! ({Time.FormatDuration(targetDuration)})"); statusLog.ConcludeTest("Passed", testDuration, testData); Environment.ExitCode = 0; return; } } else { cancelToken.WaitHandle.WaitOne(); } statusLog.ConcludeTest("Failed", testDuration, testData); Environment.ExitCode = 1; } private Dictionary FormatTestRuns(TestLoop[] testLoops) { var result = new Dictionary(); foreach (var testLoop in testLoops) { result.Add("testname", testLoop.Name); result.Add($"summary", $"passes: {testLoop.NumberOfPasses} - failures: {testLoop.NumberOfFailures}"); } return result; } private void ClearAllCustomNamespaces(ContinuousTest[] allTests, ILog log) { foreach (var test in allTests) ClearAllCustomNamespaces(test, log); } private void ClearAllCustomNamespaces(ContinuousTest test, ILog log) { if (string.IsNullOrEmpty(test.CustomK8sNamespace)) return; log.Log($"Clearing namespace '{test.CustomK8sNamespace}'..."); var entryPoint = entryPointFactory.CreateEntryPoint(config.KubeConfigFile, config.DataPath, test.CustomK8sNamespace, log); entryPoint.Tools.CreateWorkflow().DeleteNamespacesStartingWith(test.CustomK8sNamespace); } private void PerformCleanup(ILog log) { if (!config.Cleanup) return; log.Log("Cleaning up test namespace..."); var entryPoint = entryPointFactory.CreateEntryPoint(config.KubeConfigFile, config.DataPath, config.CodexDeployment.Metadata.KubeNamespace, log); entryPoint.Decommission(deleteKubernetesResources: true, deleteTrackedFiles: true); log.Log("Cleanup finished."); } } }