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Ryujinx/Ryujinx.Tests/Memory/PartialUnmaps.cs
riperiperi 14ce9e1567
Move partial unmap handler to the native signal handler (#3437)
* Initial commit with a lot of testing stuff.

* Partial Unmap Cleanup Part 1

* Fix some minor issues, hopefully windows tests.

* Disable partial unmap tests on macos for now

Weird issue.

* Goodbye magic number

* Add COMPlus_EnableAlternateStackCheck for tests

`COMPlus_EnableAlternateStackCheck` is needed for NullReferenceException handling to work on linux after registering the signal handler, due to how dotnet registers its own signal handler.

* Address some feedback

* Force retry when memory is mapped in memory tracking

This case existed before, but returning `false` no longer retries, so it would crash immediately after unprotecting the memory... Now, we return `true` to deliberately retry.

This case existed before (was just broken by this change) and I don't really want to look into fixing the issue right now. Technically, this means that on guest code partial unmaps will retry _due to this_ rather than hitting the handler. I don't expect this to cause any issues.

This should fix random crashes in Xenoblade Chronicles 2.

* Use IsRangeMapped

* Suppress MockMemoryManager.UnmapEvent warning

This event is not signalled by the mock memory manager.

* Remove 4kb mapping
2022-07-29 19:16:29 -03:00

484 lines
16 KiB
C#

using ARMeilleure.Signal;
using ARMeilleure.Translation;
using NUnit.Framework;
using Ryujinx.Common.Memory.PartialUnmaps;
using Ryujinx.Cpu;
using Ryujinx.Cpu.Jit;
using Ryujinx.Memory;
using Ryujinx.Memory.Tests;
using Ryujinx.Memory.Tracking;
using System;
using System.Collections.Generic;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Threading;
namespace Ryujinx.Tests.Memory
{
[TestFixture]
internal class PartialUnmaps
{
private static Translator _translator;
private (MemoryBlock virt, MemoryBlock mirror, MemoryEhMeilleure exceptionHandler) GetVirtual(ulong asSize)
{
MemoryAllocationFlags asFlags = MemoryAllocationFlags.Reserve | MemoryAllocationFlags.ViewCompatible;
var addressSpace = new MemoryBlock(asSize, asFlags);
var addressSpaceMirror = new MemoryBlock(asSize, asFlags);
var tracking = new MemoryTracking(new MockVirtualMemoryManager(asSize, 0x1000), 0x1000);
var exceptionHandler = new MemoryEhMeilleure(addressSpace, addressSpaceMirror, tracking);
return (addressSpace, addressSpaceMirror, exceptionHandler);
}
private int CountThreads(ref PartialUnmapState state)
{
int count = 0;
ref var ids = ref state.LocalCounts.ThreadIds;
for (int i = 0; i < ids.Length; i++)
{
if (ids[i] != 0)
{
count++;
}
}
return count;
}
private void EnsureTranslator()
{
// Create a translator, as one is needed to register the signal handler or emit methods.
_translator ??= new Translator(new JitMemoryAllocator(), new MockMemoryManager(), true);
}
[Test]
public void PartialUnmap([Values] bool readOnly)
{
if (OperatingSystem.IsMacOS())
{
// Memory aliasing tests fail on CI at the moment.
return;
}
// Set up an address space to test partial unmapping.
// Should register the signal handler to deal with this on Windows.
ulong vaSize = 0x100000;
// The first 0x100000 is mapped to start. It is replaced from the center with the 0x200000 mapping.
var backing = new MemoryBlock(vaSize * 2, MemoryAllocationFlags.Mirrorable);
(MemoryBlock unusedMainMemory, MemoryBlock memory, MemoryEhMeilleure exceptionHandler) = GetVirtual(vaSize * 2);
EnsureTranslator();
ref var state = ref PartialUnmapState.GetRef();
try
{
// Globally reset the struct for handling partial unmap races.
PartialUnmapState.Reset();
bool shouldAccess = true;
bool error = false;
// Create a large mapping.
memory.MapView(backing, 0, 0, vaSize);
if (readOnly)
{
memory.Reprotect(0, vaSize, MemoryPermission.Read);
}
Thread testThread;
if (readOnly)
{
// Write a value to the physical memory, then try to read it repeately from virtual.
// It should not change.
testThread = new Thread(() =>
{
int i = 12345;
backing.Write(vaSize - 0x1000, i);
while (shouldAccess)
{
if (memory.Read<int>(vaSize - 0x1000) != i)
{
error = true;
shouldAccess = false;
}
}
});
}
else
{
// Repeatedly write and check the value on the last page of the mapping on another thread.
testThread = new Thread(() =>
{
int i = 0;
while (shouldAccess)
{
memory.Write(vaSize - 0x1000, i);
if (memory.Read<int>(vaSize - 0x1000) != i)
{
error = true;
shouldAccess = false;
}
i++;
}
});
}
testThread.Start();
// Create a smaller mapping, covering the larger mapping.
// Immediately try to write to the part of the larger mapping that did not change.
// Do this a lot, with the smaller mapping gradually increasing in size. Should not crash, data should not be lost.
ulong pageSize = 0x1000;
int mappingExpandCount = (int)(vaSize / (pageSize * 2)) - 1;
ulong vaCenter = vaSize / 2;
for (int i = 1; i <= mappingExpandCount; i++)
{
ulong start = vaCenter - (pageSize * (ulong)i);
ulong size = pageSize * (ulong)i * 2;
ulong startPa = start + vaSize;
memory.MapView(backing, startPa, start, size);
}
// On Windows, this should put unmap counts on the thread local map.
if (OperatingSystem.IsWindows())
{
// One thread should be present on the thread local map. Trimming should remove it.
Assert.AreEqual(1, CountThreads(ref state));
}
shouldAccess = false;
testThread.Join();
Assert.False(error);
string test = null;
try
{
test.IndexOf('1');
}
catch (NullReferenceException)
{
// This shouldn't freeze.
}
if (OperatingSystem.IsWindows())
{
state.TrimThreads();
Assert.AreEqual(0, CountThreads(ref state));
}
/*
* Use this to test invalid access. Can't put this in the test suite unfortunately as invalid access crashes the test process.
* memory.Reprotect(vaSize - 0x1000, 0x1000, MemoryPermission.None);
* //memory.UnmapView(backing, vaSize - 0x1000, 0x1000);
* memory.Read<int>(vaSize - 0x1000);
*/
}
finally
{
exceptionHandler.Dispose();
unusedMainMemory.Dispose();
memory.Dispose();
backing.Dispose();
}
}
[Test]
public unsafe void PartialUnmapNative()
{
if (OperatingSystem.IsMacOS())
{
// Memory aliasing tests fail on CI at the moment.
return;
}
// Set up an address space to test partial unmapping.
// Should register the signal handler to deal with this on Windows.
ulong vaSize = 0x100000;
// The first 0x100000 is mapped to start. It is replaced from the center with the 0x200000 mapping.
var backing = new MemoryBlock(vaSize * 2, MemoryAllocationFlags.Mirrorable);
(MemoryBlock mainMemory, MemoryBlock unusedMirror, MemoryEhMeilleure exceptionHandler) = GetVirtual(vaSize * 2);
EnsureTranslator();
ref var state = ref PartialUnmapState.GetRef();
// Create some state to be used for managing the native writing loop.
int stateSize = Unsafe.SizeOf<NativeWriteLoopState>();
var statePtr = Marshal.AllocHGlobal(stateSize);
Unsafe.InitBlockUnaligned((void*)statePtr, 0, (uint)stateSize);
ref NativeWriteLoopState writeLoopState = ref Unsafe.AsRef<NativeWriteLoopState>((void*)statePtr);
writeLoopState.Running = 1;
writeLoopState.Error = 0;
try
{
// Globally reset the struct for handling partial unmap races.
PartialUnmapState.Reset();
// Create a large mapping.
mainMemory.MapView(backing, 0, 0, vaSize);
var writeFunc = TestMethods.GenerateDebugNativeWriteLoop();
IntPtr writePtr = mainMemory.GetPointer(vaSize - 0x1000, 4);
Thread testThread = new Thread(() =>
{
writeFunc(statePtr, writePtr);
});
testThread.Start();
// Create a smaller mapping, covering the larger mapping.
// Immediately try to write to the part of the larger mapping that did not change.
// Do this a lot, with the smaller mapping gradually increasing in size. Should not crash, data should not be lost.
ulong pageSize = 0x1000;
int mappingExpandCount = (int)(vaSize / (pageSize * 2)) - 1;
ulong vaCenter = vaSize / 2;
for (int i = 1; i <= mappingExpandCount; i++)
{
ulong start = vaCenter - (pageSize * (ulong)i);
ulong size = pageSize * (ulong)i * 2;
ulong startPa = start + vaSize;
mainMemory.MapView(backing, startPa, start, size);
}
writeLoopState.Running = 0;
testThread.Join();
Assert.False(writeLoopState.Error != 0);
}
finally
{
Marshal.FreeHGlobal(statePtr);
exceptionHandler.Dispose();
mainMemory.Dispose();
unusedMirror.Dispose();
backing.Dispose();
}
}
[Test]
public void ThreadLocalMap()
{
if (!OperatingSystem.IsWindows())
{
// Only test in Windows, as this is only used on Windows and uses Windows APIs for trimming.
return;
}
PartialUnmapState.Reset();
ref var state = ref PartialUnmapState.GetRef();
bool running = true;
var testThread = new Thread(() =>
{
if (!OperatingSystem.IsWindows())
{
// Need this here to avoid a warning.
return;
}
PartialUnmapState.GetRef().RetryFromAccessViolation();
while (running)
{
Thread.Sleep(1);
}
});
testThread.Start();
Thread.Sleep(200);
Assert.AreEqual(1, CountThreads(ref state));
// Trimming should not remove the thread as it's still active.
state.TrimThreads();
Assert.AreEqual(1, CountThreads(ref state));
running = false;
testThread.Join();
// Should trim now that it's inactive.
state.TrimThreads();
Assert.AreEqual(0, CountThreads(ref state));
}
[Test]
public unsafe void ThreadLocalMapNative()
{
if (!OperatingSystem.IsWindows())
{
// Only test in Windows, as this is only used on Windows and uses Windows APIs for trimming.
return;
}
EnsureTranslator();
PartialUnmapState.Reset();
ref var state = ref PartialUnmapState.GetRef();
fixed (void* localMap = &state.LocalCounts)
{
var getOrReserve = TestMethods.GenerateDebugThreadLocalMapGetOrReserve((IntPtr)localMap);
for (int i = 0; i < ThreadLocalMap<int>.MapSize; i++)
{
// Should obtain the index matching the call #.
Assert.AreEqual(i, getOrReserve(i + 1, i));
// Check that this and all previously reserved thread IDs and struct contents are intact.
for (int j = 0; j <= i; j++)
{
Assert.AreEqual(j + 1, state.LocalCounts.ThreadIds[j]);
Assert.AreEqual(j, state.LocalCounts.Structs[j]);
}
}
// Trying to reserve again when the map is full should return -1.
Assert.AreEqual(-1, getOrReserve(200, 0));
for (int i = 0; i < ThreadLocalMap<int>.MapSize; i++)
{
// Should obtain the index matching the call #, as it already exists.
Assert.AreEqual(i, getOrReserve(i + 1, -1));
// The struct should not be reset to -1.
Assert.AreEqual(i, state.LocalCounts.Structs[i]);
}
// Clear one of the ids as if it were freed.
state.LocalCounts.ThreadIds[13] = 0;
// GetOrReserve should now obtain and return 13.
Assert.AreEqual(13, getOrReserve(300, 301));
Assert.AreEqual(300, state.LocalCounts.ThreadIds[13]);
Assert.AreEqual(301, state.LocalCounts.Structs[13]);
}
}
[Test]
public void NativeReaderWriterLock()
{
var rwLock = new NativeReaderWriterLock();
var threads = new List<Thread>();
int value = 0;
bool running = true;
bool error = false;
int readersAllowed = 1;
for (int i = 0; i < 5; i++)
{
var readThread = new Thread(() =>
{
int count = 0;
while (running)
{
rwLock.AcquireReaderLock();
int originalValue = Thread.VolatileRead(ref value);
count++;
// Spin a bit.
for (int i = 0; i < 100; i++)
{
if (Thread.VolatileRead(ref readersAllowed) == 0)
{
error = true;
running = false;
}
}
// Should not change while the lock is held.
if (Thread.VolatileRead(ref value) != originalValue)
{
error = true;
running = false;
}
rwLock.ReleaseReaderLock();
}
});
threads.Add(readThread);
}
for (int i = 0; i < 2; i++)
{
var writeThread = new Thread(() =>
{
int count = 0;
while (running)
{
rwLock.AcquireReaderLock();
rwLock.UpgradeToWriterLock();
Thread.Sleep(2);
count++;
Interlocked.Exchange(ref readersAllowed, 0);
for (int i = 0; i < 10; i++)
{
Interlocked.Increment(ref value);
}
Interlocked.Exchange(ref readersAllowed, 1);
rwLock.DowngradeFromWriterLock();
rwLock.ReleaseReaderLock();
Thread.Sleep(1);
}
});
threads.Add(writeThread);
}
foreach (var thread in threads)
{
thread.Start();
}
Thread.Sleep(1000);
running = false;
foreach (var thread in threads)
{
thread.Join();
}
Assert.False(error);
}
}
}