mirror of
https://github.com/Ryujinx/Ryujinx.git
synced 2024-12-25 20:36:02 +00:00
500 lines
17 KiB
C#
500 lines
17 KiB
C#
using Ryujinx.HLE.HOS.Kernel.Common;
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using Ryujinx.HLE.HOS.Kernel.Memory;
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using Ryujinx.HLE.HOS.Kernel.Threading;
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namespace Ryujinx.HLE.HOS.Kernel.SupervisorCall
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{
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class Syscall32
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{
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private readonly Syscall _syscall;
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public Syscall32(Syscall syscall)
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{
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_syscall = syscall;
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}
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// IPC
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public KernelResult ConnectToNamedPort32([R(1)] uint namePtr, [R(1)] out int handle)
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{
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return _syscall.ConnectToNamedPort(out handle, namePtr);
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}
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public KernelResult SendSyncRequest32([R(0)] int handle)
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{
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return _syscall.SendSyncRequest(handle);
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}
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public KernelResult SendSyncRequestWithUserBuffer32([R(0)] uint messagePtr, [R(1)] uint messageSize, [R(2)] int handle)
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{
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return _syscall.SendSyncRequestWithUserBuffer(messagePtr, messageSize, handle);
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}
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public KernelResult CreateSession32(
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[R(2)] bool isLight,
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[R(3)] uint namePtr,
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[R(1)] out int serverSessionHandle,
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[R(2)] out int clientSessionHandle)
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{
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return _syscall.CreateSession(out serverSessionHandle, out clientSessionHandle, isLight, namePtr);
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}
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public KernelResult AcceptSession32([R(1)] int portHandle, [R(1)] out int sessionHandle)
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{
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return _syscall.AcceptSession(out sessionHandle, portHandle);
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}
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public KernelResult ReplyAndReceive32(
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[R(0)] uint timeoutLow,
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[R(1)] uint handlesPtr,
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[R(2)] int handlesCount,
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[R(3)] int replyTargetHandle,
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[R(4)] uint timeoutHigh,
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[R(1)] out int handleIndex)
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{
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long timeout = (long)(timeoutLow | ((ulong)timeoutHigh << 32));
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return _syscall.ReplyAndReceive(out handleIndex, handlesPtr, handlesCount, replyTargetHandle, timeout);
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}
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public KernelResult CreatePort32(
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[R(0)] uint namePtr,
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[R(2)] int maxSessions,
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[R(3)] bool isLight,
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[R(1)] out int serverPortHandle,
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[R(2)] out int clientPortHandle)
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{
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return _syscall.CreatePort(out serverPortHandle, out clientPortHandle, maxSessions, isLight, namePtr);
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}
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public KernelResult ManageNamedPort32([R(1)] uint namePtr, [R(2)] int maxSessions, [R(1)] out int handle)
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{
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return _syscall.ManageNamedPort(out handle, namePtr, maxSessions);
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}
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public KernelResult ConnectToPort32([R(1)] int clientPortHandle, [R(1)] out int clientSessionHandle)
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{
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return _syscall.ConnectToPort(out clientSessionHandle, clientPortHandle);
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}
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// Memory
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public KernelResult SetHeapSize32([R(1)] uint size, [R(1)] out uint address)
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{
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KernelResult result = _syscall.SetHeapSize(out ulong address64, size);
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address = (uint)address64;
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return result;
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}
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public KernelResult SetMemoryPermission32(
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[R(0)] uint address,
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[R(1)] uint size,
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[R(2)] KMemoryPermission permission)
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{
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return _syscall.SetMemoryPermission(address, size, permission);
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}
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public KernelResult SetMemoryAttribute32(
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[R(0)] uint address,
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[R(1)] uint size,
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[R(2)] MemoryAttribute attributeMask,
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[R(3)] MemoryAttribute attributeValue)
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{
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return _syscall.SetMemoryAttribute(address, size, attributeMask, attributeValue);
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}
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public KernelResult MapMemory32([R(0)] uint dst, [R(1)] uint src, [R(2)] uint size)
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{
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return _syscall.MapMemory(dst, src, size);
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}
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public KernelResult UnmapMemory32([R(0)] uint dst, [R(1)] uint src, [R(2)] uint size)
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{
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return _syscall.UnmapMemory(dst, src, size);
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}
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public KernelResult QueryMemory32([R(0)] uint infoPtr, [R(1)] uint r1, [R(2)] uint address, [R(1)] out uint pageInfo)
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{
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KernelResult result = _syscall.QueryMemory(infoPtr, out ulong pageInfo64, address);
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pageInfo = (uint)pageInfo64;
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return result;
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}
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public KernelResult MapSharedMemory32([R(0)] int handle, [R(1)] uint address, [R(2)] uint size, [R(3)] KMemoryPermission permission)
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{
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return _syscall.MapSharedMemory(handle, address, size, permission);
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}
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public KernelResult UnmapSharedMemory32([R(0)] int handle, [R(1)] uint address, [R(2)] uint size)
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{
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return _syscall.UnmapSharedMemory(handle, address, size);
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}
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public KernelResult CreateTransferMemory32(
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[R(1)] uint address,
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[R(2)] uint size,
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[R(3)] KMemoryPermission permission,
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[R(1)] out int handle)
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{
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return _syscall.CreateTransferMemory(out handle, address, size, permission);
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}
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public KernelResult MapTransferMemory32([R(0)] int handle, [R(1)] uint address, [R(2)] uint size, [R(3)] KMemoryPermission permission)
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{
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return _syscall.MapTransferMemory(handle, address, size, permission);
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}
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public KernelResult UnmapTransferMemory32([R(0)] int handle, [R(1)] uint address, [R(2)] uint size)
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{
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return _syscall.UnmapTransferMemory(handle, address, size);
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}
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public KernelResult MapPhysicalMemory32([R(0)] uint address, [R(1)] uint size)
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{
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return _syscall.MapPhysicalMemory(address, size);
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}
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public KernelResult UnmapPhysicalMemory32([R(0)] uint address, [R(1)] uint size)
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{
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return _syscall.UnmapPhysicalMemory(address, size);
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}
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public KernelResult MapProcessCodeMemory32([R(0)] int handle, [R(1)] uint srcLow, [R(2)] uint dstLow, [R(3)] uint dstHigh, [R(4)] uint srcHigh, [R(5)] uint sizeLow, [R(6)] uint sizeHigh)
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{
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ulong src = srcLow | ((ulong)srcHigh << 32);
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ulong dst = dstLow | ((ulong)dstHigh << 32);
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ulong size = sizeLow | ((ulong)sizeHigh << 32);
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return _syscall.MapProcessCodeMemory(handle, dst, src, size);
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}
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public KernelResult UnmapProcessCodeMemory32([R(0)] int handle, [R(1)] uint srcLow, [R(2)] uint dstLow, [R(3)] uint dstHigh, [R(4)] uint srcHigh, [R(5)] uint sizeLow, [R(6)] uint sizeHigh)
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{
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ulong src = srcLow | ((ulong)srcHigh << 32);
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ulong dst = dstLow | ((ulong)dstHigh << 32);
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ulong size = sizeLow | ((ulong)sizeHigh << 32);
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return _syscall.UnmapProcessCodeMemory(handle, dst, src, size);
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}
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public KernelResult SetProcessMemoryPermission32(
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[R(0)] int handle,
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[R(1)] uint sizeLow,
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[R(2)] uint srcLow,
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[R(3)] uint srcHigh,
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[R(4)] uint sizeHigh,
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[R(5)] KMemoryPermission permission)
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{
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ulong src = srcLow | ((ulong)srcHigh << 32);
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ulong size = sizeLow | ((ulong)sizeHigh << 32);
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return _syscall.SetProcessMemoryPermission(handle, src, size, permission);
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}
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// System
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public void ExitProcess32()
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{
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_syscall.ExitProcess();
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}
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public KernelResult TerminateProcess32([R(0)] int handle)
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{
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return _syscall.TerminateProcess(handle);
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}
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public KernelResult SignalEvent32([R(0)] int handle)
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{
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return _syscall.SignalEvent(handle);
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}
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public KernelResult ClearEvent32([R(0)] int handle)
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{
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return _syscall.ClearEvent(handle);
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}
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public KernelResult CloseHandle32([R(0)] int handle)
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{
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return _syscall.CloseHandle(handle);
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}
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public KernelResult ResetSignal32([R(0)] int handle)
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{
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return _syscall.ResetSignal(handle);
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}
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public void GetSystemTick32([R(0)] out uint resultLow, [R(1)] out uint resultHigh)
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{
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ulong result = _syscall.GetSystemTick();
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resultLow = (uint)(result & uint.MaxValue);
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resultHigh = (uint)(result >> 32);
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}
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public KernelResult GetProcessId32([R(1)] int handle, [R(1)] out uint pidLow, [R(2)] out uint pidHigh)
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{
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KernelResult result = _syscall.GetProcessId(out ulong pid, handle);
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pidLow = (uint)(pid & uint.MaxValue);
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pidHigh = (uint)(pid >> 32);
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return result;
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}
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public void Break32([R(0)] uint reason, [R(1)] uint r1, [R(2)] uint info)
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{
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_syscall.Break(reason);
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}
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public void OutputDebugString32([R(0)] uint strPtr, [R(1)] uint size)
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{
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_syscall.OutputDebugString(strPtr, size);
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}
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public KernelResult GetInfo32(
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[R(0)] uint subIdLow,
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[R(1)] InfoType id,
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[R(2)] int handle,
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[R(3)] uint subIdHigh,
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[R(1)] out uint valueLow,
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[R(2)] out uint valueHigh)
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{
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long subId = (long)(subIdLow | ((ulong)subIdHigh << 32));
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KernelResult result = _syscall.GetInfo(out ulong value, id, handle, subId);
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valueHigh = (uint)(value >> 32);
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valueLow = (uint)(value & uint.MaxValue);
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return result;
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}
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public KernelResult CreateEvent32([R(1)] out int wEventHandle, [R(2)] out int rEventHandle)
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{
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return _syscall.CreateEvent(out wEventHandle, out rEventHandle);
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}
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public KernelResult GetProcessList32([R(1)] ulong address, [R(2)] int maxCount, [R(1)] out int count)
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{
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return _syscall.GetProcessList(out count, address, maxCount);
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}
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public KernelResult GetSystemInfo32([R(1)] uint subIdLow, [R(2)] uint id, [R(3)] int handle, [R(3)] uint subIdHigh, [R(1)] out int valueLow, [R(2)] out int valueHigh)
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{
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long subId = (long)(subIdLow | ((ulong)subIdHigh << 32));
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KernelResult result = _syscall.GetSystemInfo(out long value, id, handle, subId);
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valueHigh = (int)(value >> 32);
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valueLow = (int)(value & uint.MaxValue);
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return result;
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}
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public KernelResult GetResourceLimitLimitValue32([R(1)] int handle, [R(2)] LimitableResource resource, [R(1)] out int limitValueLow, [R(2)] out int limitValueHigh)
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{
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KernelResult result = _syscall.GetResourceLimitLimitValue(out long limitValue, handle, resource);
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limitValueHigh = (int)(limitValue >> 32);
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limitValueLow = (int)(limitValue & uint.MaxValue);
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return result;
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}
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public KernelResult GetResourceLimitCurrentValue32([R(1)] int handle, [R(2)] LimitableResource resource, [R(1)] out int limitValueLow, [R(2)] out int limitValueHigh)
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{
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KernelResult result = _syscall.GetResourceLimitCurrentValue(out long limitValue, handle, resource);
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limitValueHigh = (int)(limitValue >> 32);
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limitValueLow = (int)(limitValue & uint.MaxValue);
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return result;
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}
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public KernelResult GetResourceLimitPeakValue32([R(1)] int handle, [R(2)] LimitableResource resource, [R(1)] out int peakLow, [R(2)] out int peakHigh)
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{
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KernelResult result = _syscall.GetResourceLimitPeakValue(out long peak, handle, resource);
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peakHigh = (int)(peak >> 32);
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peakLow = (int)(peak & uint.MaxValue);
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return result;
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}
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public KernelResult CreateResourceLimit32([R(1)] out int handle)
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{
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return _syscall.CreateResourceLimit(out handle);
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}
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public KernelResult SetResourceLimitLimitValue32([R(0)] int handle, [R(1)] LimitableResource resource, [R(2)] uint limitValueLow, [R(3)] uint limitValueHigh)
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{
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long limitValue = (long)(limitValueLow | ((ulong)limitValueHigh << 32));
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return _syscall.SetResourceLimitLimitValue(handle, resource, limitValue);
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}
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public KernelResult FlushProcessDataCache32(
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[R(0)] uint processHandle,
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[R(2)] uint addressLow,
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[R(3)] uint addressHigh,
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[R(1)] uint sizeLow,
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[R(4)] uint sizeHigh)
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{
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// FIXME: This needs to be implemented as ARMv7 doesn't have any way to do cache maintenance operations on EL0.
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// As we don't support (and don't actually need) to flush the cache, this is stubbed.
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return KernelResult.Success;
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}
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// Thread
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public KernelResult CreateThread32(
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[R(1)] uint entrypoint,
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[R(2)] uint argsPtr,
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[R(3)] uint stackTop,
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[R(0)] int priority,
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[R(4)] int cpuCore,
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[R(1)] out int handle)
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{
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return _syscall.CreateThread(out handle, entrypoint, argsPtr, stackTop, priority, cpuCore);
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}
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public KernelResult StartThread32([R(0)] int handle)
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{
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return _syscall.StartThread(handle);
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}
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public void ExitThread32()
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{
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_syscall.ExitThread();
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}
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public void SleepThread32([R(0)] uint timeoutLow, [R(1)] uint timeoutHigh)
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{
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long timeout = (long)(timeoutLow | ((ulong)timeoutHigh << 32));
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_syscall.SleepThread(timeout);
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}
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public KernelResult GetThreadPriority32([R(1)] int handle, [R(1)] out int priority)
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{
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return _syscall.GetThreadPriority(out priority, handle);
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}
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public KernelResult SetThreadPriority32([R(0)] int handle, [R(1)] int priority)
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{
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return _syscall.SetThreadPriority(handle, priority);
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}
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public KernelResult GetThreadCoreMask32([R(2)] int handle, [R(1)] out int preferredCore, [R(2)] out uint affinityMaskLow, [R(3)] out uint affinityMaskHigh)
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{
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KernelResult result = _syscall.GetThreadCoreMask(out preferredCore, out ulong affinityMask, handle);
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affinityMaskLow = (uint)(affinityMask & uint.MaxValue);
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affinityMaskHigh = (uint)(affinityMask >> 32);
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return result;
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}
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public KernelResult SetThreadCoreMask32([R(0)] int handle, [R(1)] int preferredCore, [R(2)] uint affinityMaskLow, [R(3)] uint affinityMaskHigh)
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{
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ulong affinityMask = affinityMaskLow | ((ulong)affinityMaskHigh << 32);
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return _syscall.SetThreadCoreMask(handle, preferredCore, affinityMask);
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}
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public int GetCurrentProcessorNumber32()
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{
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return _syscall.GetCurrentProcessorNumber();
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}
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public KernelResult GetThreadId32([R(1)] int handle, [R(1)] out uint threadUidLow, [R(2)] out uint threadUidHigh)
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{
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ulong threadUid;
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KernelResult result = _syscall.GetThreadId(out threadUid, handle);
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threadUidLow = (uint)(threadUid >> 32);
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threadUidHigh = (uint)(threadUid & uint.MaxValue);
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return result;
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}
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public KernelResult SetThreadActivity32([R(0)] int handle, [R(1)] bool pause)
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{
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return _syscall.SetThreadActivity(handle, pause);
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}
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public KernelResult GetThreadContext332([R(0)] uint address, [R(1)] int handle)
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{
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return _syscall.GetThreadContext3(address, handle);
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}
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// Thread synchronization
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public KernelResult WaitSynchronization32(
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[R(0)] uint timeoutLow,
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[R(1)] uint handlesPtr,
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[R(2)] int handlesCount,
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[R(3)] uint timeoutHigh,
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[R(1)] out int handleIndex)
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{
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long timeout = (long)(timeoutLow | ((ulong)timeoutHigh << 32));
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return _syscall.WaitSynchronization(out handleIndex, handlesPtr, handlesCount, timeout);
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}
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public KernelResult CancelSynchronization32([R(0)] int handle)
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{
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return _syscall.CancelSynchronization(handle);
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}
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public KernelResult ArbitrateLock32([R(0)] int ownerHandle, [R(1)] uint mutexAddress, [R(2)] int requesterHandle)
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{
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return _syscall.ArbitrateLock(ownerHandle, mutexAddress, requesterHandle);
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}
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public KernelResult ArbitrateUnlock32([R(0)] uint mutexAddress)
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{
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return _syscall.ArbitrateUnlock(mutexAddress);
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}
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public KernelResult WaitProcessWideKeyAtomic32(
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[R(0)] uint mutexAddress,
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[R(1)] uint condVarAddress,
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[R(2)] int handle,
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[R(3)] uint timeoutLow,
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[R(4)] uint timeoutHigh)
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{
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long timeout = (long)(timeoutLow | ((ulong)timeoutHigh << 32));
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return _syscall.WaitProcessWideKeyAtomic(mutexAddress, condVarAddress, handle, timeout);
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}
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public KernelResult SignalProcessWideKey32([R(0)] uint address, [R(1)] int count)
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{
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return _syscall.SignalProcessWideKey(address, count);
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}
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public KernelResult WaitForAddress32([R(0)] uint address, [R(1)] ArbitrationType type, [R(2)] int value, [R(3)] uint timeoutLow, [R(4)] uint timeoutHigh)
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{
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long timeout = (long)(timeoutLow | ((ulong)timeoutHigh << 32));
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return _syscall.WaitForAddress(address, type, value, timeout);
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}
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public KernelResult SignalToAddress32([R(0)] uint address, [R(1)] SignalType type, [R(2)] int value, [R(3)] int count)
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{
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return _syscall.SignalToAddress(address, type, value, count);
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}
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public KernelResult SynchronizePreemptionState32()
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{
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return _syscall.SynchronizePreemptionState();
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}
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}
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}
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