Example #1
0
		public void ShouldGuardPeripheralReads([Range(1, 4)] int cpuCount)
		{
			using(var machine = new Machine())
			{
				var sysbus = machine.SystemBus;
				cpuCount.Times(() => sysbus.Register(new ActivelyAskingCPU(machine, 0), new CPURegistrationPoint()));
				var peripheral = new ActivelyAskedPeripheral(); 
				sysbus.Register(peripheral, 0.To(1000));
				machine.Start();
				Thread.Sleep(1000);
				machine.Pause();
				Assert.IsFalse(peripheral.Failed, "Peripheral was concurrently accessed from multiple CPUs.");
			}
		}
Example #2
0
 public void ShouldBeDescending()
 {
     using(var machine = new Machine())
     {
         var timer = new LimitTimer(machine, 100, 100000, Direction.Descending, true);
         var manualClockSource = new ManualClockSource();
         machine.SetClockSource(manualClockSource);
         machine.Start();
         var oldValue = timer.Limit;
         for(var i = 0; i < 100; i++)
         {
             manualClockSource.AdvanceBySeconds(1);
             var value = timer.Value;
             Assert.Less(value, oldValue, "Timer is not monotonic.");
             oldValue = value;
         }
         machine.Pause();
     }
 }
Example #3
0
 public void ShouldNotExceedLimitAscending()
 {
     var limit = 100;
     using(var machine = new Machine())
     {
         var timer = new LimitTimer(machine, 1, limit, Direction.Ascending, true);
         var manualClockSource = new ManualClockSource();
         machine.SetClockSource(manualClockSource);
         machine.Start();
         manualClockSource.AdvanceBySeconds(limit - 1);
         for(var i = 0; i < 3; ++i)
         {
             var value = timer.Value;
             Assert.LessOrEqual(value, limit, "Timer exceeded given limit.");
             Assert.GreaterOrEqual(value, 0, "Timer returned negative value.");
             manualClockSource.AdvanceBySeconds(1);
         }
         Thread.Sleep(7);
         machine.Pause();
     }
 }
Example #4
0
		public void ShouldPauseAndResumeOnlyOnce()
		{
			using(var machine = new Machine())
			{
                var sb = machine.SystemBus;
				var mock = new Mock<IHasOwnLife>();
                sb.Register(mock.As<IDoubleWordPeripheral>().Object, 0.To(100));
                sb.Register(new Mock<ICPU>().Object, new CPURegistrationPoint());
				machine.Start();
                PauseResumeRetries.Times(machine.Pause);
				mock.Verify(x => x.Pause(), Times.Once());
                PauseResumeRetries.Times(machine.Start);
				mock.Verify(x => x.Resume(), Times.Once());
			}
		}
Example #5
0
 public void ShouldFireAlarmWhenInterruptsAreEnabled()
 {
     using(var machine = new Machine())
     {
         var timer = new LimitTimer(machine, 1, 10, Direction.Descending, true);
         var manualClockSource = new ManualClockSource();
         machine.SetClockSource(manualClockSource);
         timer.EventEnabled = true;
         var ticked = false;
         timer.LimitReached += () => ticked = true;
         machine.Start();
         // var val =timer.Value;
         manualClockSource.AdvanceBySeconds(110);
         Assert.IsTrue(ticked);
     }
 }
Example #6
0
 public void ShouldSwitchDirectionProperly()
 {
     using(var machine = new Machine())
     {
         var timer = new LimitTimer(machine, 100, 100000, Direction.Ascending, true);
         var manualClockSource = new ManualClockSource();
         machine.SetClockSource(manualClockSource);
         timer.EventEnabled = true;
         var ticked = false;
         timer.LimitReached += () => ticked = true;
         machine.Start();
         manualClockSource.AdvanceBySeconds(2);
         timer.Direction = Direction.Descending; // and then change the direction
         manualClockSource.AdvanceBySeconds(2);
         Assert.IsTrue(ticked);
       
     }
 }