public async Task DoesNotPublishExecutionActivityInStandbyMode() { var activity = new ContainerFunctionExecutionActivity(DateTime.MinValue, "func-1", ExecutionStage.InProgress, "trigger-1", false); var environment = new TestEnvironment(); environment.SetEnvironmentVariable(EnvironmentSettingNames.AzureWebsitePlaceholderMode, "1"); environment.SetEnvironmentVariable(EnvironmentSettingNames.ContainerName, "Container-Name"); var meshClient = new Mock <IMeshServiceClient>(); var standbyOptions = new TestOptionsMonitor <StandbyOptions>(new StandbyOptions { InStandbyMode = true }); using (var publisher = new LinuxContainerActivityPublisher(standbyOptions, meshClient.Object, environment, NullLogger <LinuxContainerActivityPublisher> .Instance, FlushIntervalMs)) { await publisher.StartAsync(CancellationToken.None); publisher.PublishFunctionExecutionActivity(activity); await Task.Delay(DelayIntervalMs); await publisher.StopAsync(CancellationToken.None); meshClient.Verify(c => c.PublishContainerActivity(It.IsAny <IEnumerable <ContainerFunctionExecutionActivity> >()), Times.Never); } }
public async Task PublishesFunctionExecutionActivity() { var activity = new ContainerFunctionExecutionActivity(DateTime.MinValue, "func-1", ExecutionStage.InProgress, "trigger-1", false); var environment = new TestEnvironment(); environment.SetEnvironmentVariable(EnvironmentSettingNames.ContainerName, "Container-Name"); var meshClient = new Mock <IMeshServiceClient>(); meshClient.Setup(c => c.PublishContainerActivity( It.IsAny <IEnumerable <ContainerFunctionExecutionActivity> >())).Returns(Task.FromResult(true)); var standbyOptions = new TestOptionsMonitor <StandbyOptions>(new StandbyOptions { InStandbyMode = false }); using (var publisher = new LinuxContainerActivityPublisher(standbyOptions, meshClient.Object, environment, NullLogger <LinuxContainerActivityPublisher> .Instance, FlushIntervalMs)) { await publisher.StartAsync(CancellationToken.None); publisher.PublishFunctionExecutionActivity(activity); await Task.Delay(DelayIntervalMs); await publisher.StopAsync(CancellationToken.None); meshClient.Verify( c => c.PublishContainerActivity( It.Is <IEnumerable <ContainerFunctionExecutionActivity> >(e => MatchesFunctionActivities(e, activity))), Times.Once); } }
public async Task PublishesUniqueFunctionExecutionActivitiesOnly() { // activity1 and activity2 are duplicates. so only activity2 will be published var activity1 = new ContainerFunctionExecutionActivity(DateTime.MinValue, "func-1", ExecutionStage.InProgress, "trigger-1", false); var activity2 = new ContainerFunctionExecutionActivity(DateTime.MaxValue, "func-1", ExecutionStage.InProgress, "trigger-1", false); var activity3 = new ContainerFunctionExecutionActivity(DateTime.MaxValue, "func-1", ExecutionStage.Finished, "trigger-1", true); var activity4 = new ContainerFunctionExecutionActivity(DateTime.MaxValue, "func-1", ExecutionStage.Finished, "trigger-1", false); var environment = new TestEnvironment(); environment.SetEnvironmentVariable(EnvironmentSettingNames.ContainerName, "Container-Name"); var meshClient = new Mock <IMeshServiceClient>(); var standbyOptions = new TestOptionsMonitor <StandbyOptions>(new StandbyOptions { InStandbyMode = false }); using (var publisher = new LinuxContainerActivityPublisher(standbyOptions, meshClient.Object, environment, NullLogger <LinuxContainerActivityPublisher> .Instance, FlushIntervalMs)) { await publisher.StartAsync(CancellationToken.None); publisher.PublishFunctionExecutionActivity(activity1); publisher.PublishFunctionExecutionActivity(activity2); publisher.PublishFunctionExecutionActivity(activity3); publisher.PublishFunctionExecutionActivity(activity4); await Task.Delay(DelayIntervalMs); await publisher.StopAsync(CancellationToken.None); meshClient.Verify( c => c.PublishContainerActivity( It.Is <IEnumerable <ContainerFunctionExecutionActivity> >(e => MatchesFunctionActivities(e, activity2, activity3, activity4))), Times.Once); } }
public async Task PublishesSpecializationCompleteEvent() { var activity = new ContainerFunctionExecutionActivity(DateTime.MinValue, "func-1", ExecutionStage.InProgress, "trigger-1", false); var environment = new TestEnvironment(); environment.SetEnvironmentVariable(EnvironmentSettingNames.ContainerName, "Container-Name"); var meshClient = new Mock <IMeshServiceClient>(MockBehavior.Strict); meshClient.Setup(c => c.NotifyHealthEvent(ContainerHealthEventType.Informational, It.IsAny <Type>(), LinuxContainerActivityPublisher.SpecializationCompleteEvent)).Returns(Task.FromResult(true)); var standbyOptions = new TestOptionsMonitor <StandbyOptions>(new StandbyOptions { InStandbyMode = false }); using (var publisher = new LinuxContainerActivityPublisher(standbyOptions, meshClient.Object, environment, NullLogger <LinuxContainerActivityPublisher> .Instance, 1000, InitialFlushIntervalMs)) { await publisher.StartAsync(CancellationToken.None); publisher.PublishFunctionExecutionActivity(activity); await Task.Delay(100); await publisher.StopAsync(CancellationToken.None); meshClient.Verify(c => c.NotifyHealthEvent(ContainerHealthEventType.Informational, It.IsAny <Type>(), LinuxContainerActivityPublisher.SpecializationCompleteEvent), Times.Once); // Since test is waiting for 100ms and Flush interval is 1000ms, there will be no PublishContainerActivity meshClient.Verify( c => c.PublishContainerActivity( It.Is <IEnumerable <ContainerFunctionExecutionActivity> >(e => MatchesFunctionActivities(e, activity))), Times.Never); } }