using Ryujinx.Common; using Ryujinx.Common.Collections; using Ryujinx.Common.Logging; using Silk.NET.Vulkan; using Silk.NET.Vulkan.Extensions.EXT; using System; using System.Collections.Generic; namespace Ryujinx.Graphics.Vulkan { internal class HostMemoryAllocator { private struct HostMemoryAllocation { public readonly Auto Allocation; public readonly IntPtr Pointer; public readonly ulong Size; public ulong Start => (ulong)Pointer; public ulong End => (ulong)Pointer + Size; public HostMemoryAllocation(Auto allocation, IntPtr pointer, ulong size) { Allocation = allocation; Pointer = pointer; Size = size; } } private readonly MemoryAllocator _allocator; private readonly Vk _api; private readonly ExtExternalMemoryHost _hostMemoryApi; private readonly Device _device; private readonly object _lock = new(); private List _allocations; private IntervalTree _allocationTree; public HostMemoryAllocator(MemoryAllocator allocator, Vk api, ExtExternalMemoryHost hostMemoryApi, Device device) { _allocator = allocator; _api = api; _hostMemoryApi = hostMemoryApi; _device = device; _allocations = new List(); _allocationTree = new IntervalTree(); } public unsafe bool TryImport( MemoryRequirements requirements, MemoryPropertyFlags flags, IntPtr pointer, ulong size) { lock (_lock) { // Does a compatible allocation exist in the tree? var allocations = new HostMemoryAllocation[10]; ulong start = (ulong)pointer; ulong end = start + size; int count = _allocationTree.Get(start, end, ref allocations); // A compatible range is one that where the start and end completely cover the requested range. for (int i = 0; i < count; i++) { HostMemoryAllocation existing = allocations[i]; if (start >= existing.Start && end <= existing.End) { try { existing.Allocation.IncrementReferenceCount(); return true; } catch (InvalidOperationException) { // Can throw if the allocation has been disposed. // Just continue the search if this happens. } } } nint pageAlignedPointer = BitUtils.AlignDown(pointer, Environment.SystemPageSize); nint pageAlignedEnd = BitUtils.AlignUp((nint)((ulong)pointer + size), Environment.SystemPageSize); ulong pageAlignedSize = (ulong)(pageAlignedEnd - pageAlignedPointer); Result getResult = _hostMemoryApi.GetMemoryHostPointerProperties(_device, ExternalMemoryHandleTypeFlags.HostAllocationBitExt, (void*)pageAlignedPointer, out MemoryHostPointerPropertiesEXT properties); if (getResult < Result.Success) { return false; } int memoryTypeIndex = _allocator.FindSuitableMemoryTypeIndex(properties.MemoryTypeBits & requirements.MemoryTypeBits, flags); if (memoryTypeIndex < 0) { return false; } ImportMemoryHostPointerInfoEXT importInfo = new ImportMemoryHostPointerInfoEXT() { SType = StructureType.ImportMemoryHostPointerInfoExt, HandleType = ExternalMemoryHandleTypeFlags.HostAllocationBitExt, PHostPointer = (void*)pageAlignedPointer }; var memoryAllocateInfo = new MemoryAllocateInfo() { SType = StructureType.MemoryAllocateInfo, AllocationSize = pageAlignedSize, MemoryTypeIndex = (uint)memoryTypeIndex, PNext = &importInfo }; Result result = _api.AllocateMemory(_device, memoryAllocateInfo, null, out var deviceMemory); if (result < Result.Success) { Logger.Debug?.PrintMsg(LogClass.Gpu, $"Host mapping import 0x{pageAlignedPointer:x16} 0x{pageAlignedSize:x8} failed."); return false; } var allocation = new MemoryAllocation(this, deviceMemory, pageAlignedPointer, 0, pageAlignedSize); var allocAuto = new Auto(allocation); var hostAlloc = new HostMemoryAllocation(allocAuto, pageAlignedPointer, pageAlignedSize); allocAuto.IncrementReferenceCount(); allocAuto.Dispose(); // Kept alive by ref count only. // Register this mapping for future use. _allocationTree.Add(hostAlloc.Start, hostAlloc.End, hostAlloc); _allocations.Add(hostAlloc); } return true; } public (Auto, ulong) GetExistingAllocation(IntPtr pointer, ulong size) { lock (_lock) { // Does a compatible allocation exist in the tree? var allocations = new HostMemoryAllocation[10]; ulong start = (ulong)pointer; ulong end = start + size; int count = _allocationTree.Get(start, end, ref allocations); // A compatible range is one that where the start and end completely cover the requested range. for (int i = 0; i < count; i++) { HostMemoryAllocation existing = allocations[i]; if (start >= existing.Start && end <= existing.End) { return (existing.Allocation, start - existing.Start); } } throw new InvalidOperationException($"No host allocation was prepared for requested range 0x{pointer:x16}:0x{size:x16}."); } } public void Free(DeviceMemory memory, ulong offset, ulong size) { lock (_lock) { _allocations.RemoveAll(allocation => { if (allocation.Allocation.GetUnsafe().Memory.Handle == memory.Handle) { _allocationTree.Remove(allocation.Start, allocation); return true; } return false; }); } _api.FreeMemory(_device, memory, ReadOnlySpan.Empty); } } }