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|
using Ryujinx.Common;
using Ryujinx.Common.Logging;
using Ryujinx.Cpu;
using Ryujinx.HLE.Exceptions;
using Ryujinx.HLE.HOS.Kernel.Common;
using Ryujinx.HLE.HOS.Kernel.Memory;
using Ryujinx.HLE.HOS.Kernel.Threading;
using Ryujinx.Horizon.Common;
using Ryujinx.Memory;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading;
namespace Ryujinx.HLE.HOS.Kernel.Process
{
class KProcess : KSynchronizationObject
{
public const uint KernelVersionMajor = 10;
public const uint KernelVersionMinor = 4;
public const uint KernelVersionRevision = 0;
public const uint KernelVersionPacked =
(KernelVersionMajor << 19) |
(KernelVersionMinor << 15) |
(KernelVersionRevision << 0);
public KPageTableBase MemoryManager { get; private set; }
private readonly SortedDictionary<ulong, KTlsPageInfo> _fullTlsPages;
private readonly SortedDictionary<ulong, KTlsPageInfo> _freeTlsPages;
public int DefaultCpuCore { get; set; }
public bool Debug { get; private set; }
public KResourceLimit ResourceLimit { get; private set; }
public ulong PersonalMmHeapPagesCount { get; private set; }
public ProcessState State { get; private set; }
private readonly object _processLock = new();
private readonly object _threadingLock = new();
public KAddressArbiter AddressArbiter { get; private set; }
public ulong[] RandomEntropy { get; private set; }
public KThread[] PinnedThreads { get; private set; }
private bool _signaled;
public string Name { get; private set; }
private int _threadCount;
public ProcessCreationFlags Flags { get; private set; }
private MemoryRegion _memRegion;
public KProcessCapabilities Capabilities { get; private set; }
public bool AllowCodeMemoryForJit { get; private set; }
public ulong TitleId { get; private set; }
public bool IsApplication { get; private set; }
public ulong Pid { get; private set; }
private ulong _entrypoint;
private ThreadStart _customThreadStart;
private ulong _imageSize;
private ulong _mainThreadStackSize;
private ulong _memoryUsageCapacity;
public KHandleTable HandleTable { get; private set; }
public ulong UserExceptionContextAddress { get; private set; }
private readonly LinkedList<KThread> _threads;
public bool IsPaused { get; private set; }
private long _totalTimeRunning;
public long TotalTimeRunning => _totalTimeRunning;
private IProcessContextFactory _contextFactory;
public IProcessContext Context { get; private set; }
public IVirtualMemoryManager CpuMemory => Context.AddressSpace;
public HleProcessDebugger Debugger { get; private set; }
public KProcess(KernelContext context, bool allowCodeMemoryForJit = false) : base(context)
{
AddressArbiter = new KAddressArbiter(context);
_fullTlsPages = new SortedDictionary<ulong, KTlsPageInfo>();
_freeTlsPages = new SortedDictionary<ulong, KTlsPageInfo>();
Capabilities = new KProcessCapabilities();
AllowCodeMemoryForJit = allowCodeMemoryForJit;
RandomEntropy = new ulong[KScheduler.CpuCoresCount];
PinnedThreads = new KThread[KScheduler.CpuCoresCount];
// TODO: Remove once we no longer need to initialize it externally.
HandleTable = new KHandleTable();
_threads = new LinkedList<KThread>();
Debugger = new HleProcessDebugger(this);
}
public Result InitializeKip(
ProcessCreationInfo creationInfo,
ReadOnlySpan<uint> capabilities,
KPageList pageList,
KResourceLimit resourceLimit,
MemoryRegion memRegion,
IProcessContextFactory contextFactory,
ThreadStart customThreadStart = null)
{
ResourceLimit = resourceLimit;
_memRegion = memRegion;
_contextFactory = contextFactory ?? new ProcessContextFactory();
_customThreadStart = customThreadStart;
AddressSpaceType addrSpaceType = (AddressSpaceType)((int)(creationInfo.Flags & ProcessCreationFlags.AddressSpaceMask) >> (int)ProcessCreationFlags.AddressSpaceShift);
Pid = KernelContext.NewKipId();
if (Pid == 0 || Pid >= KernelConstants.InitialProcessId)
{
throw new InvalidOperationException($"Invalid KIP Id {Pid}.");
}
InitializeMemoryManager(creationInfo.Flags);
bool aslrEnabled = creationInfo.Flags.HasFlag(ProcessCreationFlags.EnableAslr);
ulong codeAddress = creationInfo.CodeAddress;
ulong codeSize = (ulong)creationInfo.CodePagesCount * KPageTableBase.PageSize;
KMemoryBlockSlabManager slabManager = creationInfo.Flags.HasFlag(ProcessCreationFlags.IsApplication)
? KernelContext.LargeMemoryBlockSlabManager
: KernelContext.SmallMemoryBlockSlabManager;
Result result = MemoryManager.InitializeForProcess(
addrSpaceType,
aslrEnabled,
!aslrEnabled,
memRegion,
codeAddress,
codeSize,
slabManager);
if (result != Result.Success)
{
return result;
}
if (!MemoryManager.CanContain(codeAddress, codeSize, MemoryState.CodeStatic))
{
return KernelResult.InvalidMemRange;
}
result = MemoryManager.MapPages(codeAddress, pageList, MemoryState.CodeStatic, KMemoryPermission.None);
if (result != Result.Success)
{
return result;
}
result = Capabilities.InitializeForKernel(capabilities, MemoryManager);
if (result != Result.Success)
{
return result;
}
return ParseProcessInfo(creationInfo);
}
public Result Initialize(
ProcessCreationInfo creationInfo,
ReadOnlySpan<uint> capabilities,
KResourceLimit resourceLimit,
MemoryRegion memRegion,
IProcessContextFactory contextFactory,
ThreadStart customThreadStart = null)
{
ResourceLimit = resourceLimit;
_memRegion = memRegion;
_contextFactory = contextFactory ?? new ProcessContextFactory();
_customThreadStart = customThreadStart;
IsApplication = creationInfo.Flags.HasFlag(ProcessCreationFlags.IsApplication);
ulong personalMmHeapSize = GetPersonalMmHeapSize((ulong)creationInfo.SystemResourcePagesCount, memRegion);
ulong codePagesCount = (ulong)creationInfo.CodePagesCount;
ulong neededSizeForProcess = personalMmHeapSize + codePagesCount * KPageTableBase.PageSize;
if (neededSizeForProcess != 0 && resourceLimit != null)
{
if (!resourceLimit.Reserve(LimitableResource.Memory, neededSizeForProcess))
{
return KernelResult.ResLimitExceeded;
}
}
void CleanUpForError()
{
if (neededSizeForProcess != 0 && resourceLimit != null)
{
resourceLimit.Release(LimitableResource.Memory, neededSizeForProcess);
}
}
PersonalMmHeapPagesCount = (ulong)creationInfo.SystemResourcePagesCount;
KMemoryBlockSlabManager slabManager;
if (PersonalMmHeapPagesCount != 0)
{
slabManager = new KMemoryBlockSlabManager(PersonalMmHeapPagesCount * KPageTableBase.PageSize);
}
else
{
slabManager = creationInfo.Flags.HasFlag(ProcessCreationFlags.IsApplication)
? KernelContext.LargeMemoryBlockSlabManager
: KernelContext.SmallMemoryBlockSlabManager;
}
AddressSpaceType addrSpaceType = (AddressSpaceType)((int)(creationInfo.Flags & ProcessCreationFlags.AddressSpaceMask) >> (int)ProcessCreationFlags.AddressSpaceShift);
Pid = KernelContext.NewProcessId();
if (Pid == ulong.MaxValue || Pid < KernelConstants.InitialProcessId)
{
throw new InvalidOperationException($"Invalid Process Id {Pid}.");
}
InitializeMemoryManager(creationInfo.Flags);
bool aslrEnabled = creationInfo.Flags.HasFlag(ProcessCreationFlags.EnableAslr);
ulong codeAddress = creationInfo.CodeAddress;
ulong codeSize = codePagesCount * KPageTableBase.PageSize;
Result result = MemoryManager.InitializeForProcess(
addrSpaceType,
aslrEnabled,
!aslrEnabled,
memRegion,
codeAddress,
codeSize,
slabManager);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
if (!MemoryManager.CanContain(codeAddress, codeSize, MemoryState.CodeStatic))
{
CleanUpForError();
return KernelResult.InvalidMemRange;
}
result = MemoryManager.MapPages(
codeAddress,
codePagesCount,
MemoryState.CodeStatic,
KMemoryPermission.None);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
result = Capabilities.InitializeForUser(capabilities, MemoryManager);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
result = ParseProcessInfo(creationInfo);
if (result != Result.Success)
{
CleanUpForError();
}
return result;
}
private Result ParseProcessInfo(ProcessCreationInfo creationInfo)
{
// Ensure that the current kernel version is equal or above to the minimum required.
uint requiredKernelVersionMajor = (uint)Capabilities.KernelReleaseVersion >> 19;
uint requiredKernelVersionMinor = ((uint)Capabilities.KernelReleaseVersion >> 15) & 0xf;
if (KernelContext.EnableVersionChecks)
{
if (requiredKernelVersionMajor > KernelVersionMajor)
{
return KernelResult.InvalidCombination;
}
if (requiredKernelVersionMajor != KernelVersionMajor && requiredKernelVersionMajor < 3)
{
return KernelResult.InvalidCombination;
}
if (requiredKernelVersionMinor > KernelVersionMinor)
{
return KernelResult.InvalidCombination;
}
}
Result result = AllocateThreadLocalStorage(out ulong userExceptionContextAddress);
if (result != Result.Success)
{
return result;
}
UserExceptionContextAddress = userExceptionContextAddress;
MemoryHelper.FillWithZeros(CpuMemory, userExceptionContextAddress, KTlsPageInfo.TlsEntrySize);
Name = creationInfo.Name;
State = ProcessState.Created;
Flags = creationInfo.Flags;
TitleId = creationInfo.TitleId;
_entrypoint = creationInfo.CodeAddress;
_imageSize = (ulong)creationInfo.CodePagesCount * KPageTableBase.PageSize;
switch (Flags & ProcessCreationFlags.AddressSpaceMask)
{
case ProcessCreationFlags.AddressSpace32Bit:
case ProcessCreationFlags.AddressSpace64BitDeprecated:
case ProcessCreationFlags.AddressSpace64Bit:
_memoryUsageCapacity = MemoryManager.HeapRegionEnd -
MemoryManager.HeapRegionStart;
break;
case ProcessCreationFlags.AddressSpace32BitWithoutAlias:
_memoryUsageCapacity = MemoryManager.HeapRegionEnd -
MemoryManager.HeapRegionStart +
MemoryManager.AliasRegionEnd -
MemoryManager.AliasRegionStart;
break;
default:
throw new InvalidOperationException($"Invalid MMU flags value 0x{Flags:x2}.");
}
GenerateRandomEntropy();
return Result.Success;
}
public Result AllocateThreadLocalStorage(out ulong address)
{
KernelContext.CriticalSection.Enter();
Result result;
if (_freeTlsPages.Count > 0)
{
// If we have free TLS pages available, just use the first one.
KTlsPageInfo pageInfo = _freeTlsPages.Values.First();
if (!pageInfo.TryGetFreePage(out address))
{
throw new InvalidOperationException("Unexpected failure getting free TLS page!");
}
if (pageInfo.IsFull())
{
_freeTlsPages.Remove(pageInfo.PageVirtualAddress);
_fullTlsPages.Add(pageInfo.PageVirtualAddress, pageInfo);
}
result = Result.Success;
}
else
{
// Otherwise, we need to create a new one.
result = AllocateTlsPage(out KTlsPageInfo pageInfo);
if (result == Result.Success)
{
if (!pageInfo.TryGetFreePage(out address))
{
throw new InvalidOperationException("Unexpected failure getting free TLS page!");
}
_freeTlsPages.Add(pageInfo.PageVirtualAddress, pageInfo);
}
else
{
address = 0;
}
}
KernelContext.CriticalSection.Leave();
return result;
}
private Result AllocateTlsPage(out KTlsPageInfo pageInfo)
{
pageInfo = default;
if (!KernelContext.UserSlabHeapPages.TryGetItem(out ulong tlsPagePa))
{
return KernelResult.OutOfMemory;
}
ulong regionStart = MemoryManager.TlsIoRegionStart;
ulong regionSize = MemoryManager.TlsIoRegionEnd - regionStart;
ulong regionPagesCount = regionSize / KPageTableBase.PageSize;
Result result = MemoryManager.MapPages(
1,
KPageTableBase.PageSize,
tlsPagePa,
true,
regionStart,
regionPagesCount,
MemoryState.ThreadLocal,
KMemoryPermission.ReadAndWrite,
out ulong tlsPageVa);
if (result != Result.Success)
{
KernelContext.UserSlabHeapPages.Free(tlsPagePa);
}
else
{
pageInfo = new KTlsPageInfo(tlsPageVa, tlsPagePa);
MemoryHelper.FillWithZeros(CpuMemory, tlsPageVa, KPageTableBase.PageSize);
}
return result;
}
public Result FreeThreadLocalStorage(ulong tlsSlotAddr)
{
ulong tlsPageAddr = BitUtils.AlignDown<ulong>(tlsSlotAddr, KPageTableBase.PageSize);
KernelContext.CriticalSection.Enter();
Result result = Result.Success;
if (_fullTlsPages.TryGetValue(tlsPageAddr, out KTlsPageInfo pageInfo))
{
// TLS page was full, free slot and move to free pages tree.
_fullTlsPages.Remove(tlsPageAddr);
_freeTlsPages.Add(tlsPageAddr, pageInfo);
}
else if (!_freeTlsPages.TryGetValue(tlsPageAddr, out pageInfo))
{
result = KernelResult.InvalidAddress;
}
if (pageInfo != null)
{
pageInfo.FreeTlsSlot(tlsSlotAddr);
if (pageInfo.IsEmpty())
{
// TLS page is now empty, we should ensure it is removed
// from all trees, and free the memory it was using.
_freeTlsPages.Remove(tlsPageAddr);
KernelContext.CriticalSection.Leave();
FreeTlsPage(pageInfo);
return Result.Success;
}
}
KernelContext.CriticalSection.Leave();
return result;
}
private Result FreeTlsPage(KTlsPageInfo pageInfo)
{
Result result = MemoryManager.UnmapForKernel(pageInfo.PageVirtualAddress, 1, MemoryState.ThreadLocal);
if (result == Result.Success)
{
KernelContext.UserSlabHeapPages.Free(pageInfo.PagePhysicalAddress);
}
return result;
}
#pragma warning disable CA1822 // Mark member as static
private void GenerateRandomEntropy()
{
// TODO.
}
#pragma warning restore CA1822
public Result Start(int mainThreadPriority, ulong stackSize)
{
lock (_processLock)
{
if (State > ProcessState.CreatedAttached)
{
return KernelResult.InvalidState;
}
if (ResourceLimit != null && !ResourceLimit.Reserve(LimitableResource.Thread, 1))
{
return KernelResult.ResLimitExceeded;
}
KResourceLimit threadResourceLimit = ResourceLimit;
KResourceLimit memoryResourceLimit = null;
if (_mainThreadStackSize != 0)
{
throw new InvalidOperationException("Trying to start a process with an invalid state!");
}
ulong stackSizeRounded = BitUtils.AlignUp<ulong>(stackSize, KPageTableBase.PageSize);
ulong neededSize = stackSizeRounded + _imageSize;
// Check if the needed size for the code and the stack will fit on the
// memory usage capacity of this Process. Also check for possible overflow
// on the above addition.
if (neededSize > _memoryUsageCapacity || neededSize < stackSizeRounded)
{
threadResourceLimit?.Release(LimitableResource.Thread, 1);
return KernelResult.OutOfMemory;
}
if (stackSizeRounded != 0 && ResourceLimit != null)
{
memoryResourceLimit = ResourceLimit;
if (!memoryResourceLimit.Reserve(LimitableResource.Memory, stackSizeRounded))
{
threadResourceLimit?.Release(LimitableResource.Thread, 1);
return KernelResult.ResLimitExceeded;
}
}
Result result;
KThread mainThread = null;
ulong stackTop = 0;
void CleanUpForError()
{
HandleTable.Destroy();
mainThread?.DecrementReferenceCount();
if (_mainThreadStackSize != 0)
{
ulong stackBottom = stackTop - _mainThreadStackSize;
ulong stackPagesCount = _mainThreadStackSize / KPageTableBase.PageSize;
MemoryManager.UnmapForKernel(stackBottom, stackPagesCount, MemoryState.Stack);
_mainThreadStackSize = 0;
}
memoryResourceLimit?.Release(LimitableResource.Memory, stackSizeRounded);
threadResourceLimit?.Release(LimitableResource.Thread, 1);
}
if (stackSizeRounded != 0)
{
ulong stackPagesCount = stackSizeRounded / KPageTableBase.PageSize;
ulong regionStart = MemoryManager.StackRegionStart;
ulong regionSize = MemoryManager.StackRegionEnd - regionStart;
ulong regionPagesCount = regionSize / KPageTableBase.PageSize;
result = MemoryManager.MapPages(
stackPagesCount,
KPageTableBase.PageSize,
0,
false,
regionStart,
regionPagesCount,
MemoryState.Stack,
KMemoryPermission.ReadAndWrite,
out ulong stackBottom);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
_mainThreadStackSize += stackSizeRounded;
stackTop = stackBottom + stackSizeRounded;
}
ulong heapCapacity = _memoryUsageCapacity - _mainThreadStackSize - _imageSize;
result = MemoryManager.SetHeapCapacity(heapCapacity);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
HandleTable = new KHandleTable();
result = HandleTable.Initialize(Capabilities.HandleTableSize);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
mainThread = new KThread(KernelContext);
result = mainThread.Initialize(
_entrypoint,
0,
stackTop,
mainThreadPriority,
DefaultCpuCore,
this,
ThreadType.User,
_customThreadStart);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
result = HandleTable.GenerateHandle(mainThread, out int mainThreadHandle);
if (result != Result.Success)
{
CleanUpForError();
return result;
}
mainThread.SetEntryArguments(0, mainThreadHandle);
ProcessState oldState = State;
ProcessState newState = State != ProcessState.Created
? ProcessState.Attached
: ProcessState.Started;
SetState(newState);
result = mainThread.Start();
if (result != Result.Success)
{
SetState(oldState);
CleanUpForError();
}
if (result == Result.Success)
{
mainThread.IncrementReferenceCount();
}
mainThread.DecrementReferenceCount();
return result;
}
}
private void SetState(ProcessState newState)
{
if (State != newState)
{
State = newState;
_signaled = true;
Signal();
}
}
public Result InitializeThread(
KThread thread,
ulong entrypoint,
ulong argsPtr,
ulong stackTop,
int priority,
int cpuCore,
ThreadStart customThreadStart = null)
{
lock (_processLock)
{
return thread.Initialize(entrypoint, argsPtr, stackTop, priority, cpuCore, this, ThreadType.User, customThreadStart);
}
}
public IExecutionContext CreateExecutionContext()
{
return Context?.CreateExecutionContext(new ExceptionCallbacks(
InterruptHandler,
null,
KernelContext.SyscallHandler.SvcCall,
UndefinedInstructionHandler));
}
private void InterruptHandler(IExecutionContext context)
{
KThread currentThread = KernelStatic.GetCurrentThread();
if (currentThread.Context.Running &&
currentThread.Owner != null &&
currentThread.GetUserDisableCount() != 0 &&
currentThread.Owner.PinnedThreads[currentThread.CurrentCore] == null)
{
KernelContext.CriticalSection.Enter();
currentThread.Owner.PinThread(currentThread);
currentThread.SetUserInterruptFlag();
KernelContext.CriticalSection.Leave();
}
if (currentThread.IsSchedulable)
{
KernelContext.Schedulers[currentThread.CurrentCore].Schedule();
}
currentThread.HandlePostSyscall();
}
public void IncrementThreadCount()
{
Interlocked.Increment(ref _threadCount);
}
public void DecrementThreadCountAndTerminateIfZero()
{
if (Interlocked.Decrement(ref _threadCount) == 0)
{
Terminate();
}
}
public void DecrementToZeroWhileTerminatingCurrent()
{
while (Interlocked.Decrement(ref _threadCount) != 0)
{
Destroy();
TerminateCurrentProcess();
}
// Nintendo panic here because if it reaches this point, the current thread should be already dead.
// As we handle the death of the thread in the post SVC handler and inside the CPU emulator, we don't panic here.
}
public ulong GetMemoryCapacity()
{
ulong totalCapacity = (ulong)ResourceLimit.GetRemainingValue(LimitableResource.Memory);
totalCapacity += MemoryManager.GetTotalHeapSize();
totalCapacity += GetPersonalMmHeapSize();
totalCapacity += _imageSize + _mainThreadStackSize;
if (totalCapacity <= _memoryUsageCapacity)
{
return totalCapacity;
}
return _memoryUsageCapacity;
}
public ulong GetMemoryUsage()
{
return _imageSize + _mainThreadStackSize + MemoryManager.GetTotalHeapSize() + GetPersonalMmHeapSize();
}
public ulong GetMemoryCapacityWithoutPersonalMmHeap()
{
return GetMemoryCapacity() - GetPersonalMmHeapSize();
}
public ulong GetMemoryUsageWithoutPersonalMmHeap()
{
return GetMemoryUsage() - GetPersonalMmHeapSize();
}
private ulong GetPersonalMmHeapSize()
{
return GetPersonalMmHeapSize(PersonalMmHeapPagesCount, _memRegion);
}
private static ulong GetPersonalMmHeapSize(ulong personalMmHeapPagesCount, MemoryRegion memRegion)
{
if (memRegion == MemoryRegion.Applet)
{
return 0;
}
return personalMmHeapPagesCount * KPageTableBase.PageSize;
}
public void AddCpuTime(long ticks)
{
Interlocked.Add(ref _totalTimeRunning, ticks);
}
public void AddThread(KThread thread)
{
lock (_threadingLock)
{
thread.ProcessListNode = _threads.AddLast(thread);
}
}
public void RemoveThread(KThread thread)
{
lock (_threadingLock)
{
_threads.Remove(thread.ProcessListNode);
}
}
public bool IsCpuCoreAllowed(int core)
{
return (Capabilities.AllowedCpuCoresMask & (1UL << core)) != 0;
}
public bool IsPriorityAllowed(int priority)
{
return (Capabilities.AllowedThreadPriosMask & (1UL << priority)) != 0;
}
public override bool IsSignaled()
{
return _signaled;
}
public Result Terminate()
{
Result result;
bool shallTerminate = false;
KernelContext.CriticalSection.Enter();
lock (_processLock)
{
if (State >= ProcessState.Started)
{
if (State == ProcessState.Started ||
State == ProcessState.Crashed ||
State == ProcessState.Attached ||
State == ProcessState.DebugSuspended)
{
SetState(ProcessState.Exiting);
shallTerminate = true;
}
result = Result.Success;
}
else
{
result = KernelResult.InvalidState;
}
}
KernelContext.CriticalSection.Leave();
if (shallTerminate)
{
UnpauseAndTerminateAllThreadsExcept(KernelStatic.GetCurrentThread());
HandleTable.Destroy();
SignalExitToDebugTerminated();
SignalExit();
}
return result;
}
public void TerminateCurrentProcess()
{
bool shallTerminate = false;
KernelContext.CriticalSection.Enter();
lock (_processLock)
{
if (State >= ProcessState.Started)
{
if (State == ProcessState.Started ||
State == ProcessState.Attached ||
State == ProcessState.DebugSuspended)
{
SetState(ProcessState.Exiting);
shallTerminate = true;
}
}
}
KernelContext.CriticalSection.Leave();
if (shallTerminate)
{
UnpauseAndTerminateAllThreadsExcept(KernelStatic.GetCurrentThread());
HandleTable.Destroy();
// NOTE: this is supposed to be called in receiving of the mailbox.
SignalExitToDebugExited();
SignalExit();
}
KernelStatic.GetCurrentThread().Exit();
}
private void UnpauseAndTerminateAllThreadsExcept(KThread currentThread)
{
lock (_threadingLock)
{
KernelContext.CriticalSection.Enter();
if (currentThread != null && PinnedThreads[currentThread.CurrentCore] == currentThread)
{
UnpinThread(currentThread);
}
foreach (KThread thread in _threads)
{
if (thread != currentThread && (thread.SchedFlags & ThreadSchedState.LowMask) != ThreadSchedState.TerminationPending)
{
thread.PrepareForTermination();
}
}
KernelContext.CriticalSection.Leave();
}
while (true)
{
KThread blockedThread = null;
lock (_threadingLock)
{
foreach (KThread thread in _threads)
{
if (thread != currentThread && (thread.SchedFlags & ThreadSchedState.LowMask) != ThreadSchedState.TerminationPending)
{
thread.IncrementReferenceCount();
blockedThread = thread;
break;
}
}
}
if (blockedThread == null)
{
break;
}
blockedThread.Terminate();
blockedThread.DecrementReferenceCount();
}
}
private static void SignalExitToDebugTerminated()
{
// TODO: Debug events.
}
private static void SignalExitToDebugExited()
{
// TODO: Debug events.
}
private void SignalExit()
{
ResourceLimit?.Release(LimitableResource.Memory, GetMemoryUsage());
KernelContext.CriticalSection.Enter();
SetState(ProcessState.Exited);
KernelContext.CriticalSection.Leave();
}
public Result ClearIfNotExited()
{
Result result;
KernelContext.CriticalSection.Enter();
lock (_processLock)
{
if (State != ProcessState.Exited && _signaled)
{
_signaled = false;
result = Result.Success;
}
else
{
result = KernelResult.InvalidState;
}
}
KernelContext.CriticalSection.Leave();
return result;
}
private void InitializeMemoryManager(ProcessCreationFlags flags)
{
int addrSpaceBits = (flags & ProcessCreationFlags.AddressSpaceMask) switch
{
ProcessCreationFlags.AddressSpace32Bit => 32,
ProcessCreationFlags.AddressSpace64BitDeprecated => 36,
ProcessCreationFlags.AddressSpace32BitWithoutAlias => 32,
ProcessCreationFlags.AddressSpace64Bit => 39,
_ => 39,
};
bool for64Bit = flags.HasFlag(ProcessCreationFlags.Is64Bit);
Context = _contextFactory.Create(KernelContext, Pid, 1UL << addrSpaceBits, InvalidAccessHandler, for64Bit);
MemoryManager = new KPageTable(KernelContext, CpuMemory, Context.AddressSpaceSize);
}
private bool InvalidAccessHandler(ulong va)
{
KernelStatic.GetCurrentThread()?.PrintGuestStackTrace();
KernelStatic.GetCurrentThread()?.PrintGuestRegisterPrintout();
Logger.Error?.Print(LogClass.Cpu, $"Invalid memory access at virtual address 0x{va:X16}.");
return false;
}
private void UndefinedInstructionHandler(IExecutionContext context, ulong address, int opCode)
{
KernelStatic.GetCurrentThread().PrintGuestStackTrace();
KernelStatic.GetCurrentThread()?.PrintGuestRegisterPrintout();
throw new UndefinedInstructionException(address, opCode);
}
protected override void Destroy() => Context.Dispose();
public Result SetActivity(bool pause)
{
KernelContext.CriticalSection.Enter();
if (State != ProcessState.Exiting && State != ProcessState.Exited)
{
if (pause)
{
if (IsPaused)
{
KernelContext.CriticalSection.Leave();
return KernelResult.InvalidState;
}
lock (_threadingLock)
{
foreach (KThread thread in _threads)
{
thread.Suspend(ThreadSchedState.ProcessPauseFlag);
}
}
IsPaused = true;
}
else
{
if (!IsPaused)
{
KernelContext.CriticalSection.Leave();
return KernelResult.InvalidState;
}
lock (_threadingLock)
{
foreach (KThread thread in _threads)
{
thread.Resume(ThreadSchedState.ProcessPauseFlag);
}
}
IsPaused = false;
}
KernelContext.CriticalSection.Leave();
return Result.Success;
}
KernelContext.CriticalSection.Leave();
return KernelResult.InvalidState;
}
public void PinThread(KThread thread)
{
if (!thread.TerminationRequested)
{
PinnedThreads[thread.CurrentCore] = thread;
thread.Pin();
KernelContext.ThreadReselectionRequested = true;
}
}
public void UnpinThread(KThread thread)
{
if (!thread.TerminationRequested)
{
thread.Unpin();
PinnedThreads[thread.CurrentCore] = null;
KernelContext.ThreadReselectionRequested = true;
}
}
public static bool IsExceptionUserThread(KThread thread)
{
// TODO
return false;
}
}
}
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