mirror of
https://github.com/GreemDev/Ryujinx
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d92fff541b
* Replace CacheResourceWrite with more general "precise" write The goal of CacheResourceWrite was to notify GPU resources when they were modified directly, by looking up the modified address/size in a structure and calling a method on each resource. The downside of this is that each resource cache has to be queried individually, they all have to implement their own way to do this, and it can only signal to resources using the same PhysicalMemory instance. This PR adds the ability to signal a write as "precise" on the tracking, which signals a special handler (if present) which can be used to avoid unnecessary flush actions, or maybe even more. For buffers, precise writes specifically do not flush, and instead punch a hole in the modified range list to indicate that the data on GPU has been replaced. The downside is that precise actions must ignore the page protection bits and always signal - as they need to notify the target resource to ignore the sequence number optimization. I had to reintroduce the sequence number increment after I2M, as removing it was causing issues in rabbids kingdom battle. However - all resources modified by I2M are notified directly to lower their sequence number, so the problem is likely that another unrelated resource is not being properly updated. Thankfully, doing this does not affect performance in the games I tested. This should fix regressions from #2624. Test any games that were broken by that. (RF4, rabbids kingdom battle) I've also added a sequence number increment to ThreedClass.IncrementSyncpoint, as it seems to fix buffer corruption in OpenGL homebrew. (this was a regression from removing sequence number increment from constant buffer update - another unrelated resource thing) * Add tests. * Add XML docs for GpuRegionHandle * Skip UpdateProtection if only precise actions were called This allows precise actions to skip reprotection costs.
321 lines
13 KiB
C#
321 lines
13 KiB
C#
using ARMeilleure.IntermediateRepresentation;
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using ARMeilleure.Translation;
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using System;
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using System.Runtime.CompilerServices;
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using System.Runtime.InteropServices;
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using static ARMeilleure.IntermediateRepresentation.Operand.Factory;
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namespace ARMeilleure.Signal
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{
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[StructLayout(LayoutKind.Sequential, Pack = 1)]
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struct SignalHandlerRange
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{
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public int IsActive;
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public nuint RangeAddress;
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public nuint RangeEndAddress;
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public IntPtr ActionPointer;
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}
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[StructLayout(LayoutKind.Sequential, Pack = 1)]
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struct SignalHandlerConfig
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{
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/// <summary>
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/// The byte offset of the faulting address in the SigInfo or ExceptionRecord struct.
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/// </summary>
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public int StructAddressOffset;
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/// <summary>
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/// The byte offset of the write flag in the SigInfo or ExceptionRecord struct.
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/// </summary>
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public int StructWriteOffset;
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/// <summary>
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/// The sigaction handler that was registered before this one. (unix only)
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/// </summary>
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public nuint UnixOldSigaction;
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/// <summary>
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/// The type of the previous sigaction. True for the 3 argument variant. (unix only)
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/// </summary>
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public int UnixOldSigaction3Arg;
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public SignalHandlerRange Range0;
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public SignalHandlerRange Range1;
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public SignalHandlerRange Range2;
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public SignalHandlerRange Range3;
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public SignalHandlerRange Range4;
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public SignalHandlerRange Range5;
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public SignalHandlerRange Range6;
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public SignalHandlerRange Range7;
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}
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public static class NativeSignalHandler
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{
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private delegate void UnixExceptionHandler(int sig, IntPtr info, IntPtr ucontext);
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[UnmanagedFunctionPointer(CallingConvention.Winapi)]
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private delegate int VectoredExceptionHandler(IntPtr exceptionInfo);
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private const int MaxTrackedRanges = 8;
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private const int StructAddressOffset = 0;
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private const int StructWriteOffset = 4;
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private const int UnixOldSigaction = 8;
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private const int UnixOldSigaction3Arg = 16;
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private const int RangeOffset = 20;
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private const int EXCEPTION_CONTINUE_SEARCH = 0;
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private const int EXCEPTION_CONTINUE_EXECUTION = -1;
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private const uint EXCEPTION_ACCESS_VIOLATION = 0xc0000005;
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private const ulong PageSize = 0x1000;
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private const ulong PageMask = PageSize - 1;
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private static IntPtr _handlerConfig;
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private static IntPtr _signalHandlerPtr;
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private static IntPtr _signalHandlerHandle;
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private static readonly object _lock = new object();
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private static bool _initialized;
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static NativeSignalHandler()
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{
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_handlerConfig = Marshal.AllocHGlobal(Unsafe.SizeOf<SignalHandlerConfig>());
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ref SignalHandlerConfig config = ref GetConfigRef();
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config = new SignalHandlerConfig();
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}
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public static void InitializeSignalHandler()
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{
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if (_initialized) return;
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lock (_lock)
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{
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if (_initialized) return;
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bool unix = RuntimeInformation.IsOSPlatform(OSPlatform.Linux) || RuntimeInformation.IsOSPlatform(OSPlatform.OSX);
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ref SignalHandlerConfig config = ref GetConfigRef();
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if (unix)
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{
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// Unix siginfo struct locations.
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// NOTE: These are incredibly likely to be different between kernel version and architectures.
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config.StructAddressOffset = 16; // si_addr
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config.StructWriteOffset = 8; // si_code
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_signalHandlerPtr = Marshal.GetFunctionPointerForDelegate(GenerateUnixSignalHandler(_handlerConfig));
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SigAction old = UnixSignalHandlerRegistration.RegisterExceptionHandler(_signalHandlerPtr);
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config.UnixOldSigaction = (nuint)(ulong)old.sa_handler;
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config.UnixOldSigaction3Arg = old.sa_flags & 4;
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}
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else
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{
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config.StructAddressOffset = 40; // ExceptionInformation1
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config.StructWriteOffset = 32; // ExceptionInformation0
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_signalHandlerPtr = Marshal.GetFunctionPointerForDelegate(GenerateWindowsSignalHandler(_handlerConfig));
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_signalHandlerHandle = WindowsSignalHandlerRegistration.RegisterExceptionHandler(_signalHandlerPtr);
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}
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_initialized = true;
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}
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}
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private static unsafe ref SignalHandlerConfig GetConfigRef()
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{
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return ref Unsafe.AsRef<SignalHandlerConfig>((void*)_handlerConfig);
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}
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public static unsafe bool AddTrackedRegion(nuint address, nuint endAddress, IntPtr action)
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{
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var ranges = &((SignalHandlerConfig*)_handlerConfig)->Range0;
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for (int i = 0; i < MaxTrackedRanges; i++)
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{
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if (ranges[i].IsActive == 0)
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{
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ranges[i].RangeAddress = address;
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ranges[i].RangeEndAddress = endAddress;
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ranges[i].ActionPointer = action;
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ranges[i].IsActive = 1;
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return true;
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}
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}
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return false;
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}
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public static unsafe bool RemoveTrackedRegion(nuint address)
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{
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var ranges = &((SignalHandlerConfig*)_handlerConfig)->Range0;
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for (int i = 0; i < MaxTrackedRanges; i++)
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{
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if (ranges[i].IsActive == 1 && ranges[i].RangeAddress == address)
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{
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ranges[i].IsActive = 0;
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return true;
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}
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}
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return false;
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}
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private static Operand EmitGenericRegionCheck(EmitterContext context, IntPtr signalStructPtr, Operand faultAddress, Operand isWrite)
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{
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Operand inRegionLocal = context.AllocateLocal(OperandType.I32);
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context.Copy(inRegionLocal, Const(0));
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Operand endLabel = Label();
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for (int i = 0; i < MaxTrackedRanges; i++)
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{
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ulong rangeBaseOffset = (ulong)(RangeOffset + i * Unsafe.SizeOf<SignalHandlerRange>());
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Operand nextLabel = Label();
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Operand isActive = context.Load(OperandType.I32, Const((ulong)signalStructPtr + rangeBaseOffset));
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context.BranchIfFalse(nextLabel, isActive);
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Operand rangeAddress = context.Load(OperandType.I64, Const((ulong)signalStructPtr + rangeBaseOffset + 4));
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Operand rangeEndAddress = context.Load(OperandType.I64, Const((ulong)signalStructPtr + rangeBaseOffset + 12));
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// Is the fault address within this tracked region?
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Operand inRange = context.BitwiseAnd(
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context.ICompare(faultAddress, rangeAddress, Comparison.GreaterOrEqualUI),
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context.ICompare(faultAddress, rangeEndAddress, Comparison.Less)
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);
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// Only call tracking if in range.
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context.BranchIfFalse(nextLabel, inRange, BasicBlockFrequency.Cold);
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context.Copy(inRegionLocal, Const(1));
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Operand offset = context.BitwiseAnd(context.Subtract(faultAddress, rangeAddress), Const(~PageMask));
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// Call the tracking action, with the pointer's relative offset to the base address.
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Operand trackingActionPtr = context.Load(OperandType.I64, Const((ulong)signalStructPtr + rangeBaseOffset + 20));
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context.Call(trackingActionPtr, OperandType.I32, offset, Const(PageSize), isWrite, Const(0));
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context.Branch(endLabel);
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context.MarkLabel(nextLabel);
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}
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context.MarkLabel(endLabel);
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return context.Copy(inRegionLocal);
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}
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private static UnixExceptionHandler GenerateUnixSignalHandler(IntPtr signalStructPtr)
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{
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EmitterContext context = new EmitterContext();
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// (int sig, SigInfo* sigInfo, void* ucontext)
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Operand sigInfoPtr = context.LoadArgument(OperandType.I64, 1);
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Operand structAddressOffset = context.Load(OperandType.I64, Const((ulong)signalStructPtr + StructAddressOffset));
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Operand structWriteOffset = context.Load(OperandType.I64, Const((ulong)signalStructPtr + StructWriteOffset));
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Operand faultAddress = context.Load(OperandType.I64, context.Add(sigInfoPtr, context.ZeroExtend32(OperandType.I64, structAddressOffset)));
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Operand writeFlag = context.Load(OperandType.I64, context.Add(sigInfoPtr, context.ZeroExtend32(OperandType.I64, structWriteOffset)));
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Operand isWrite = context.ICompareNotEqual(writeFlag, Const(0L)); // Normalize to 0/1.
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Operand isInRegion = EmitGenericRegionCheck(context, signalStructPtr, faultAddress, isWrite);
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Operand endLabel = Label();
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context.BranchIfTrue(endLabel, isInRegion);
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Operand unixOldSigaction = context.Load(OperandType.I64, Const((ulong)signalStructPtr + UnixOldSigaction));
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Operand unixOldSigaction3Arg = context.Load(OperandType.I64, Const((ulong)signalStructPtr + UnixOldSigaction3Arg));
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Operand threeArgLabel = Label();
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context.BranchIfTrue(threeArgLabel, unixOldSigaction3Arg);
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context.Call(unixOldSigaction, OperandType.None, context.LoadArgument(OperandType.I32, 0));
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context.Branch(endLabel);
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context.MarkLabel(threeArgLabel);
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context.Call(unixOldSigaction,
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OperandType.None,
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context.LoadArgument(OperandType.I32, 0),
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sigInfoPtr,
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context.LoadArgument(OperandType.I64, 2)
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);
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context.MarkLabel(endLabel);
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context.Return();
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ControlFlowGraph cfg = context.GetControlFlowGraph();
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OperandType[] argTypes = new OperandType[] { OperandType.I32, OperandType.I64, OperandType.I64 };
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return Compiler.Compile(cfg, argTypes, OperandType.None, CompilerOptions.HighCq).Map<UnixExceptionHandler>();
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}
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private static VectoredExceptionHandler GenerateWindowsSignalHandler(IntPtr signalStructPtr)
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{
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EmitterContext context = new EmitterContext();
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// (ExceptionPointers* exceptionInfo)
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Operand exceptionInfoPtr = context.LoadArgument(OperandType.I64, 0);
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Operand exceptionRecordPtr = context.Load(OperandType.I64, exceptionInfoPtr);
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// First thing's first - this catches a number of exceptions, but we only want access violations.
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Operand validExceptionLabel = Label();
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Operand exceptionCode = context.Load(OperandType.I32, exceptionRecordPtr);
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context.BranchIf(validExceptionLabel, exceptionCode, Const(EXCEPTION_ACCESS_VIOLATION), Comparison.Equal);
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context.Return(Const(EXCEPTION_CONTINUE_SEARCH)); // Don't handle this one.
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context.MarkLabel(validExceptionLabel);
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// Next, read the address of the invalid access, and whether it is a write or not.
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Operand structAddressOffset = context.Load(OperandType.I32, Const((ulong)signalStructPtr + StructAddressOffset));
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Operand structWriteOffset = context.Load(OperandType.I32, Const((ulong)signalStructPtr + StructWriteOffset));
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Operand faultAddress = context.Load(OperandType.I64, context.Add(exceptionRecordPtr, context.ZeroExtend32(OperandType.I64, structAddressOffset)));
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Operand writeFlag = context.Load(OperandType.I64, context.Add(exceptionRecordPtr, context.ZeroExtend32(OperandType.I64, structWriteOffset)));
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Operand isWrite = context.ICompareNotEqual(writeFlag, Const(0L)); // Normalize to 0/1.
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Operand isInRegion = EmitGenericRegionCheck(context, signalStructPtr, faultAddress, isWrite);
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Operand endLabel = Label();
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// If the region check result is false, then run the next vectored exception handler.
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context.BranchIfTrue(endLabel, isInRegion);
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context.Return(Const(EXCEPTION_CONTINUE_SEARCH));
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context.MarkLabel(endLabel);
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// Otherwise, return to execution.
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context.Return(Const(EXCEPTION_CONTINUE_EXECUTION));
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// Compile and return the function.
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ControlFlowGraph cfg = context.GetControlFlowGraph();
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OperandType[] argTypes = new OperandType[] { OperandType.I64 };
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return Compiler.Compile(cfg, argTypes, OperandType.I32, CompilerOptions.HighCq).Map<VectoredExceptionHandler>();
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}
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}
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}
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