protected TranslationCPU(string cpuType, Machine machine, EndiannessEnum endianness)
{
if(cpuType == null)
{
throw new RecoverableException(new ArgumentNullException("cpuType"));
}
Endianness = endianness;
PerformanceInMips = 100;
currentCountThreshold = 5000;
this.cpuType = cpuType;
ClockSource = new BaseClockSource();
ClockSource.NumberOfEntriesChanged += (oldValue, newValue) =>
{
if(oldValue > newValue)
{
Misc.Swap(ref oldValue, ref newValue);
}
if(oldValue == 0 && newValue != 0)
{
ClearTranslationCache();
}
};
this.translationCacheSize = DefaultTranslationCacheSize;
this.machine = machine;
started = false;
isHalted = false;
translationCacheSync = new object();
pumpingModeSync = new object();
InitializeRegisters();
InitInterruptEvents();
Init();
InitDisas();
}
public void ShouldTickWithOneHandler()
{
var clocksource = new BaseClockSource();
var counter = 0;
clocksource.AddClockEntry(new ClockEntry(2, 1, () => counter++) { Value = 0 });
clocksource.Advance(1);
Assert.AreEqual(0, counter);
clocksource.Advance(1);
Assert.AreEqual(1, counter);
clocksource.Advance(1);
Assert.AreEqual(1, counter);
clocksource.Advance(2);
Assert.AreEqual(2, counter);
}
public void ShouldTickWithTwoHandlers()
{
var clocksource = new BaseClockSource();
var counterA = 0;
var counterB = 0;
clocksource.AddClockEntry(new ClockEntry(2, 1, () => counterA++) { Value = 0 });
clocksource.AddClockEntry(new ClockEntry(5, 1, () => counterB++) { Value = 0 });
clocksource.Advance(2);
Assert.AreEqual(1, counterA);
Assert.AreEqual(0, counterB);
clocksource.Advance(2);
Assert.AreEqual(2, counterA);
Assert.AreEqual(0, counterB);
clocksource.Advance(1);
Assert.AreEqual(2, counterA);
Assert.AreEqual(1, counterB);
}
public void ShouldHaveHandlersInSync()
{
// we test here whether handler executed by the slower clock entry
// always "sees" value of the faster one as ten times its own value
var clockSource = new BaseClockSource();
Action firstHandler = () =>
{
};
var values = new List<long>();
// clock entry with ratio -10 is 10 times slower than the one with 1
clockSource.AddClockEntry(new ClockEntry(10000, 1, firstHandler));
clockSource.AddClockEntry(new ClockEntry(1, -10, () => values.Add(clockSource.GetClockEntry(firstHandler).Value)));
clockSource.Advance(9, true);
clockSource.Advance(8, true);
clockSource.Advance(20, true);
CollectionAssert.AreEqual(new [] { 10, 20, 30 }, values);
}
protected TranslationCPU(string cpuType, Machine machine, Endianess endianness)
{
if(cpuType == null)
{
throw new RecoverableException(new ArgumentNullException("cpuType"));
}
oldMaximumBlockSize = -1;
Endianness = endianness;
PerformanceInMips = 100;
currentCountThreshold = 5000;
this.cpuType = cpuType;
DisableInterruptsWhileStepping = true;
ClockSource = new BaseClockSource();
ClockSource.NumberOfEntriesChanged += (oldValue, newValue) =>
{
if(oldValue > newValue)
{
Misc.Swap(ref oldValue, ref newValue);
}
if(oldValue == 0 && newValue != 0)
{
ClearTranslationCache();
}
};
this.translationCacheSize = DefaultTranslationCacheSize;
this.machine = machine;
started = false;
isHalted = false;
translationCacheSync = new object();
pagesAccessedByIo = new HashSet<long>();
pauseGuard = new CpuThreadPauseGuard(this);
InitializeRegisters();
InitInterruptEvents();
Init();
InitDisas();
}