ryujinx/Ryujinx/Cpu/Memory/AMemoryMgr.cs

307 lines
8.1 KiB
C#

using System.Runtime.CompilerServices;
namespace ChocolArm64.Memory
{
public class AMemoryMgr
{
public const long AddrSize = RamSize;
public const long RamSize = 4L * 1024 * 1024 * 1024;
private const int PTLvl0Bits = 11;
private const int PTLvl1Bits = 13;
private const int PTPageBits = 12;
private const int PTLvl0Size = 1 << PTLvl0Bits;
private const int PTLvl1Size = 1 << PTLvl1Bits;
public const int PageSize = 1 << PTPageBits;
private const int PTLvl0Mask = PTLvl0Size - 1;
private const int PTLvl1Mask = PTLvl1Size - 1;
public const int PageMask = PageSize - 1;
private const int PTLvl0Bit = PTPageBits + PTLvl0Bits;
private const int PTLvl1Bit = PTPageBits;
private AMemoryAlloc Allocator;
private enum PTMap
{
Unmapped,
Physical,
Mirror
}
private struct PTEntry
{
public long Position;
public int Type;
public PTMap Map;
public AMemoryPerm Perm;
public PTEntry(long Position, int Type, PTMap Map, AMemoryPerm Perm)
{
this.Position = Position;
this.Type = Type;
this.Map = Map;
this.Perm = Perm;
}
}
private PTEntry[][] PageTable;
private bool IsHeapInitialized;
public long HeapAddr { get; private set; }
public int HeapSize { get; private set; }
public AMemoryMgr(AMemoryAlloc Allocator)
{
this.Allocator = Allocator;
PageTable = new PTEntry[PTLvl0Size][];
}
public long GetTotalMemorySize()
{
return Allocator.GetFreeMem() + GetUsedMemorySize();
}
public long GetUsedMemorySize()
{
long Size = 0;
for (int L0 = 0; L0 < PageTable.Length; L0++)
{
if (PageTable[L0] == null)
{
continue;
}
for (int L1 = 0; L1 < PageTable[L0].Length; L1++)
{
Size += PageTable[L0][L1].Map != PTMap.Unmapped ? PageSize : 0;
}
}
return Size;
}
public bool SetHeapAddr(long Position)
{
if (!IsHeapInitialized)
{
HeapAddr = Position;
IsHeapInitialized = true;
return true;
}
return false;
}
public void SetHeapSize(int Size, int Type)
{
//TODO: Return error when theres no enough space to allocate heap.
Size = (int)AMemoryHelper.PageRoundUp(Size);
long Position = HeapAddr;
if ((ulong)Size < (ulong)HeapSize)
{
//Try to free now free area if size is smaller than old size.
Position += Size;
while ((ulong)Size < (ulong)HeapSize)
{
Allocator.Free(Position);
Position += PageSize;
}
}
else
{
//Allocate extra needed size.
Position += HeapSize;
Size -= HeapSize;
MapPhys(Position, Size, Type, AMemoryPerm.RW);
}
HeapSize = Size;
}
public bool MapPhys(long Src, long Dst, long Size, int Type, AMemoryPerm Perm)
{
Src = AMemoryHelper.PageRoundDown(Src);
Dst = AMemoryHelper.PageRoundDown(Dst);
Size = AMemoryHelper.PageRoundUp(Size);
if (Dst < 0 || Dst + Size >= RamSize)
{
return false;
}
long PagesCount = Size / PageSize;
while (PagesCount-- > 0)
{
SetPTEntry(Src, new PTEntry(Dst, Type, PTMap.Physical, Perm));
Src += PageSize;
Dst += PageSize;
}
return true;
}
public void MapPhys(long Position, long Size, int Type, AMemoryPerm Perm)
{
while (Size > 0)
{
if (!IsMapped(Position))
{
long PhysPos = Allocator.Alloc(PageSize);
SetPTEntry(Position, new PTEntry(PhysPos, Type, PTMap.Physical, Perm));
}
long CPgSize = PageSize - (Position & PageMask);
Position += CPgSize;
Size -= CPgSize;
}
}
public void MapMirror(long Src, long Dst, long Size, int Type)
{
Src = AMemoryHelper.PageRoundDown(Src);
Dst = AMemoryHelper.PageRoundDown(Dst);
Size = AMemoryHelper.PageRoundUp(Size);
long PagesCount = Size / PageSize;
while (PagesCount-- > 0)
{
PTEntry Entry = GetPTEntry(Src);
Entry.Type = Type;
Entry.Map = PTMap.Mirror;
Entry.Position = Dst;
SetPTEntry(Src, Entry);
Src += PageSize;
Dst += PageSize;
}
}
public void Reprotect(long Position, long Size, AMemoryPerm Perm)
{
Position = AMemoryHelper.PageRoundDown(Position);
Size = AMemoryHelper.PageRoundUp(Size);
long PagesCount = Size / PageSize;
while (PagesCount-- > 0)
{
PTEntry Entry = GetPTEntry(Position);
Entry.Perm = Perm;
SetPTEntry(Position, Entry);
Position += PageSize;
}
}
public AMemoryMapInfo GetMapInfo(long Position)
{
Position = AMemoryHelper.PageRoundDown(Position);
PTEntry BaseEntry = GetPTEntry(Position);
bool IsSameSegment(long Pos)
{
PTEntry Entry = GetPTEntry(Pos);
return Entry.Type == BaseEntry.Type &&
Entry.Map == BaseEntry.Map &&
Entry.Perm == BaseEntry.Perm;
}
long Start = Position;
long End = Position + PageSize;
while (Start > 0 && IsSameSegment(Start - PageSize))
{
Start -= PageSize;
}
while (End < AddrSize && IsSameSegment(End))
{
End += PageSize;
}
long Size = End - Start;
return new AMemoryMapInfo(Start, Size, BaseEntry.Type, BaseEntry.Perm);
}
public bool HasPermission(long Position, AMemoryPerm Perm)
{
return GetPTEntry(Position).Perm.HasFlag(Perm);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public bool IsMapped(long Position)
{
if (Position >> PTLvl0Bits + PTLvl1Bits + PTPageBits != 0)
{
return false;
}
long L0 = (Position >> PTLvl0Bit) & PTLvl0Mask;
long L1 = (Position >> PTLvl1Bit) & PTLvl1Mask;
if (PageTable[L0] == null)
{
return false;
}
return PageTable[L0][L1].Map != PTMap.Unmapped;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private PTEntry GetPTEntry(long Position)
{
long L0 = (Position >> PTLvl0Bit) & PTLvl0Mask;
long L1 = (Position >> PTLvl1Bit) & PTLvl1Mask;
if (PageTable[L0] == null)
{
return default(PTEntry);
}
return PageTable[L0][L1];
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private void SetPTEntry(long Position, PTEntry Entry)
{
long L0 = (Position >> PTLvl0Bit) & PTLvl0Mask;
long L1 = (Position >> PTLvl1Bit) & PTLvl1Mask;
if (PageTable[L0] == null)
{
PageTable[L0] = new PTEntry[PTLvl1Size];
}
PageTable[L0][L1] = Entry;
}
}
}