public void QuickPulseProcessProviderIgnoresIdleAndTotal() { // ARRANGE var perfLibMock = new QuickPulsePerfLibMock() { CategorySample = new CategorySampleMock( new[] { Tuple.Create("Process1", 1L), Tuple.Create("_Total", 1L), Tuple.Create("Process2", 2L), Tuple.Create("Idle", 1L), Tuple.Create("Process3", 3L) }) }; var provider = new QuickPulseProcessProvider(perfLibMock); // ACT TimeSpan?totalTime; var processes = provider.GetProcesses(out totalTime).ToList(); // ASSERT Assert.AreEqual(3, processes.Count); Assert.AreEqual("Process1", processes[0].ProcessName); Assert.AreEqual(TimeSpan.FromTicks(1), processes[0].TotalProcessorTime); Assert.AreEqual("Process2", processes[1].ProcessName); Assert.AreEqual(TimeSpan.FromTicks(2), processes[1].TotalProcessorTime); Assert.AreEqual("Process3", processes[2].ProcessName); Assert.AreEqual(TimeSpan.FromTicks(3), processes[2].TotalProcessorTime); }
public void QuickPulseProcessProviderReturnsTotalTimeWhenAvailable() { // ARRANGE var perfLibMock = new QuickPulsePerfLibMock() { CategorySample = new CategorySampleMock( new[] { Tuple.Create("Process1", 1L), Tuple.Create("_Total", 100L), Tuple.Create("Process2", 2L), Tuple.Create("Idle", 1L), Tuple.Create("Process3", 3L) }) }; var provider = new QuickPulseProcessProvider(perfLibMock); // ACT TimeSpan?totalTime; var processes = provider.GetProcesses(out totalTime).ToList(); // ASSERT Assert.AreEqual(100L, totalTime.Value.Ticks); }
public void QuickPulseProcessProviderDoesNotReturnTotalTimeWhenNotAvailable() { // ARRANGE var perfLibMock = new QuickPulsePerfLibMock() { CategorySample = new CategorySampleMock( new[] { Tuple.Create("Process1", 1L), Tuple.Create("Process2", 2L), Tuple.Create("Idle", 1L), Tuple.Create("Process3", 3L) }) }; var provider = new QuickPulseProcessProvider(perfLibMock); // ACT TimeSpan?totalTime; var processes = provider.GetProcesses(out totalTime).ToList(); // ASSERT Assert.IsNull(totalTime); }