using Ryujinx.HLE.HOS.Kernel.Common; using Ryujinx.HLE.HOS.Kernel.Threading; using Ryujinx.Horizon.Common; using System; namespace Ryujinx.HLE.HOS.Kernel.Process { class KHandleTable { public const int SelfThreadHandle = (0x1ffff << 15) | 0; public const int SelfProcessHandle = (0x1ffff << 15) | 1; private readonly KernelContext _context; private KHandleEntry[] _table; private KHandleEntry _tableHead; private KHandleEntry _nextFreeEntry; private int _activeSlotsCount; private uint _size; private ushort _idCounter; public KHandleTable(KernelContext context) { _context = context; } public Result Initialize(uint size) { if (size > 1024) { return KernelResult.OutOfMemory; } if (size < 1) { size = 1024; } _size = size; _idCounter = 1; _table = new KHandleEntry[size]; _tableHead = new KHandleEntry(0); KHandleEntry entry = _tableHead; for (int index = 0; index < size; index++) { _table[index] = entry; entry.Next = new KHandleEntry(index + 1); entry = entry.Next; } _table[size - 1].Next = null; _nextFreeEntry = _tableHead; return Result.Success; } public Result GenerateHandle(KAutoObject obj, out int handle) { handle = 0; lock (_table) { if (_activeSlotsCount >= _size) { return KernelResult.HandleTableFull; } KHandleEntry entry = _nextFreeEntry; _nextFreeEntry = entry.Next; entry.Obj = obj; entry.HandleId = _idCounter; _activeSlotsCount++; handle = (_idCounter << 15) | entry.Index; obj.IncrementReferenceCount(); if ((short)(_idCounter + 1) >= 0) { _idCounter++; } else { _idCounter = 1; } } return Result.Success; } public Result ReserveHandle(out int handle) { handle = 0; lock (_table) { if (_activeSlotsCount >= _size) { return KernelResult.HandleTableFull; } KHandleEntry entry = _nextFreeEntry; _nextFreeEntry = entry.Next; _activeSlotsCount++; handle = (_idCounter << 15) | entry.Index; if ((short)(_idCounter + 1) >= 0) { _idCounter++; } else { _idCounter = 1; } } return Result.Success; } public void CancelHandleReservation(int handle) { int index = (handle >> 0) & 0x7fff; lock (_table) { KHandleEntry entry = _table[index]; entry.Obj = null; entry.Next = _nextFreeEntry; _nextFreeEntry = entry; _activeSlotsCount--; } } public void SetReservedHandleObj(int handle, KAutoObject obj) { int index = (handle >> 0) & 0x7fff; int handleId = (handle >> 15); lock (_table) { KHandleEntry entry = _table[index]; entry.Obj = obj; entry.HandleId = (ushort)handleId; obj.IncrementReferenceCount(); } } public bool CloseHandle(int handle) { if ((handle >> 30) != 0 || handle == SelfThreadHandle || handle == SelfProcessHandle) { return false; } int index = (handle >> 0) & 0x7fff; int handleId = (handle >> 15); KAutoObject obj = null; bool result = false; lock (_table) { if (handleId != 0 && index < _size) { KHandleEntry entry = _table[index]; if ((obj = entry.Obj) != null && entry.HandleId == handleId) { entry.Obj = null; entry.Next = _nextFreeEntry; _nextFreeEntry = entry; _activeSlotsCount--; result = true; } } } if (result) { obj.DecrementReferenceCount(); } return result; } public T GetObject(int handle) where T : KAutoObject { int index = (handle >> 0) & 0x7fff; int handleId = (handle >> 15); lock (_table) { if ((handle >> 30) == 0 && handleId != 0 && index < _size) { KHandleEntry entry = _table[index]; if (entry.HandleId == handleId && entry.Obj is T obj) { return obj; } } } return default; } public KThread GetKThread(int handle) { if (handle == SelfThreadHandle) { return KernelStatic.GetCurrentThread(); } else { return GetObject(handle); } } public KProcess GetKProcess(int handle) { if (handle == SelfProcessHandle) { return KernelStatic.GetCurrentProcess(); } else { return GetObject(handle); } } public void Destroy() { lock (_table) { for (int index = 0; index < _size; index++) { KHandleEntry entry = _table[index]; if (entry.Obj != null) { if (entry.Obj is IDisposable disposableObj) { disposableObj.Dispose(); } entry.Obj.DecrementReferenceCount(); entry.Obj = null; entry.Next = _nextFreeEntry; _nextFreeEntry = entry; } } } } } }