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Ryujinx/Ryujinx.HLE/HOS/Kernel/KMemoryRegionManager.cs
gdkchan 00579927e4
Better process implementation (#491) 
* Initial implementation of KProcess

* Some improvements to the memory manager, implement back guest stack trace printing

* Better GetInfo implementation, improve checking in some places with information from process capabilities

* Allow the cpu to read/write from the correct memory locations for accesses crossing a page boundary

* Change long -> ulong for address/size on memory related methods to avoid unnecessary casts

* Attempt at implementing ldr:ro with new KProcess

* Allow BSS with size 0 on ldr:ro

* Add checking for memory block slab heap usage, return errors if full, exit gracefully

* Use KMemoryBlockSize const from KMemoryManager

* Allow all methods to read from non-contiguous locations

* Fix for TransactParcelAuto

* Address PR feedback, additionally fix some small issues related to the KIP loader and implement SVCs GetProcessId, GetProcessList, GetSystemInfo, CreatePort and ManageNamedPort

* Fix wrong check for source pages count from page list on MapPhysicalMemory

* Fix some issues with UnloadNro on ldr:ro
2018-11-28 20:18:09 -02:00

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using Ryujinx.Common;
namespace Ryujinx.HLE.HOS.Kernel
{
class KMemoryRegionManager
{
private static readonly int[] BlockOrders = new int[] { 12, 16, 21, 22, 25, 29, 30 };
public ulong Address { get; private set; }
public ulong EndAddr { get; private set; }
public ulong Size { get; private set; }
private int BlockOrdersCount;
private KMemoryRegionBlock[] Blocks;
public KMemoryRegionManager(ulong Address, ulong Size, ulong EndAddr)
{
Blocks = new KMemoryRegionBlock[BlockOrders.Length];
this.Address = Address;
this.Size = Size;
this.EndAddr = EndAddr;
BlockOrdersCount = BlockOrders.Length;
for (int BlockIndex = 0; BlockIndex < BlockOrdersCount; BlockIndex++)
{
Blocks[BlockIndex] = new KMemoryRegionBlock();
Blocks[BlockIndex].Order = BlockOrders[BlockIndex];
int NextOrder = BlockIndex == BlockOrdersCount - 1 ? 0 : BlockOrders[BlockIndex + 1];
Blocks[BlockIndex].NextOrder = NextOrder;
int CurrBlockSize = 1 << BlockOrders[BlockIndex];
int NextBlockSize = CurrBlockSize;
if (NextOrder != 0)
{
NextBlockSize = 1 << NextOrder;
}
ulong StartAligned = BitUtils.AlignDown(Address, NextBlockSize);
ulong EndAddrAligned = BitUtils.AlignDown(EndAddr, CurrBlockSize);
ulong SizeInBlocksTruncated = (EndAddrAligned - StartAligned) >> BlockOrders[BlockIndex];
ulong EndAddrRounded = BitUtils.AlignUp(Address + Size, NextBlockSize);
ulong SizeInBlocksRounded = (EndAddrRounded - StartAligned) >> BlockOrders[BlockIndex];
Blocks[BlockIndex].StartAligned = StartAligned;
Blocks[BlockIndex].SizeInBlocksTruncated = SizeInBlocksTruncated;
Blocks[BlockIndex].SizeInBlocksRounded = SizeInBlocksRounded;
ulong CurrSizeInBlocks = SizeInBlocksRounded;
int MaxLevel = 0;
do
{
MaxLevel++;
}
while ((CurrSizeInBlocks /= 64) != 0);
Blocks[BlockIndex].MaxLevel = MaxLevel;
Blocks[BlockIndex].Masks = new long[MaxLevel][];
CurrSizeInBlocks = SizeInBlocksRounded;
for (int Level = MaxLevel - 1; Level >= 0; Level--)
{
CurrSizeInBlocks = (CurrSizeInBlocks + 63) / 64;
Blocks[BlockIndex].Masks[Level] = new long[CurrSizeInBlocks];
}
}
if (Size != 0)
{
FreePages(Address, Size / KMemoryManager.PageSize);
}
}
public KernelResult AllocatePages(ulong PagesCount, bool Backwards, out KPageList PageList)
{
lock (Blocks)
{
return AllocatePagesImpl(PagesCount, Backwards, out PageList);
}
}
private KernelResult AllocatePagesImpl(ulong PagesCount, bool Backwards, out KPageList PageList)
{
PageList = new KPageList();
if (BlockOrdersCount > 0)
{
if (GetFreePagesImpl() < PagesCount)
{
return KernelResult.OutOfMemory;
}
}
else if (PagesCount != 0)
{
return KernelResult.OutOfMemory;
}
for (int BlockIndex = BlockOrdersCount - 1; BlockIndex >= 0; BlockIndex--)
{
KMemoryRegionBlock Block = Blocks[BlockIndex];
ulong BestFitBlockSize = 1UL << Block.Order;
ulong BlockPagesCount = BestFitBlockSize / KMemoryManager.PageSize;
//Check if this is the best fit for this page size.
//If so, try allocating as much requested pages as possible.
while (BlockPagesCount <= PagesCount)
{
ulong Address = 0;
for (int CurrBlockIndex = BlockIndex;
CurrBlockIndex < BlockOrdersCount && Address == 0;
CurrBlockIndex++)
{
Block = Blocks[CurrBlockIndex];
int Index = 0;
bool ZeroMask = false;
for (int Level = 0; Level < Block.MaxLevel; Level++)
{
long Mask = Block.Masks[Level][Index];
if (Mask == 0)
{
ZeroMask = true;
break;
}
if (Backwards)
{
Index = (Index * 64 + 63) - BitUtils.CountLeadingZeros64(Mask);
}
else
{
Index = Index * 64 + BitUtils.CountLeadingZeros64(BitUtils.ReverseBits64(Mask));
}
}
if (Block.SizeInBlocksTruncated <= (ulong)Index || ZeroMask)
{
continue;
}
Block.FreeCount--;
int TempIdx = Index;
for (int Level = Block.MaxLevel - 1; Level >= 0; Level--, TempIdx /= 64)
{
Block.Masks[Level][TempIdx / 64] &= ~(1L << (TempIdx & 63));
if (Block.Masks[Level][TempIdx / 64] != 0)
{
break;
}
}
Address = Block.StartAligned + ((ulong)Index << Block.Order);
}
for (int CurrBlockIndex = BlockIndex;
CurrBlockIndex < BlockOrdersCount && Address == 0;
CurrBlockIndex++)
{
Block = Blocks[CurrBlockIndex];
int Index = 0;
bool ZeroMask = false;
for (int Level = 0; Level < Block.MaxLevel; Level++)
{
long Mask = Block.Masks[Level][Index];
if (Mask == 0)
{
ZeroMask = true;
break;
}
if (Backwards)
{
Index = Index * 64 + BitUtils.CountLeadingZeros64(BitUtils.ReverseBits64(Mask));
}
else
{
Index = (Index * 64 + 63) - BitUtils.CountLeadingZeros64(Mask);
}
}
if (Block.SizeInBlocksTruncated <= (ulong)Index || ZeroMask)
{
continue;
}
Block.FreeCount--;
int TempIdx = Index;
for (int Level = Block.MaxLevel - 1; Level >= 0; Level--, TempIdx /= 64)
{
Block.Masks[Level][TempIdx / 64] &= ~(1L << (TempIdx & 63));
if (Block.Masks[Level][TempIdx / 64] != 0)
{
break;
}
}
Address = Block.StartAligned + ((ulong)Index << Block.Order);
}
//The address being zero means that no free space was found on that order,
//just give up and try with the next one.
if (Address == 0)
{
break;
}
//If we are using a larger order than best fit, then we should
//split it into smaller blocks.
ulong FirstFreeBlockSize = 1UL << Block.Order;
if (FirstFreeBlockSize > BestFitBlockSize)
{
FreePages(Address + BestFitBlockSize, (FirstFreeBlockSize - BestFitBlockSize) / KMemoryManager.PageSize);
}
//Add new allocated page(s) to the pages list.
//If an error occurs, then free all allocated pages and fail.
KernelResult Result = PageList.AddRange(Address, BlockPagesCount);
if (Result != KernelResult.Success)
{
FreePages(Address, BlockPagesCount);
foreach (KPageNode PageNode in PageList)
{
FreePages(PageNode.Address, PageNode.PagesCount);
}
return Result;
}
PagesCount -= BlockPagesCount;
}
}
//Success case, all requested pages were allocated successfully.
if (PagesCount == 0)
{
return KernelResult.Success;
}
//Error case, free allocated pages and return out of memory.
foreach (KPageNode PageNode in PageList)
{
FreePages(PageNode.Address, PageNode.PagesCount);
}
PageList = null;
return KernelResult.OutOfMemory;
}
public void FreePages(KPageList PageList)
{
lock (Blocks)
{
foreach (KPageNode PageNode in PageList)
{
FreePages(PageNode.Address, PageNode.PagesCount);
}
}
}
private void FreePages(ulong Address, ulong PagesCount)
{
ulong EndAddr = Address + PagesCount * KMemoryManager.PageSize;
int BlockIndex = BlockOrdersCount - 1;
ulong AddressRounded = 0;
ulong EndAddrTruncated = 0;
for (; BlockIndex >= 0; BlockIndex--)
{
KMemoryRegionBlock AllocInfo = Blocks[BlockIndex];
int BlockSize = 1 << AllocInfo.Order;
AddressRounded = BitUtils.AlignUp (Address, BlockSize);
EndAddrTruncated = BitUtils.AlignDown(EndAddr, BlockSize);
if (AddressRounded < EndAddrTruncated)
{
break;
}
}
void FreeRegion(ulong CurrAddress)
{
for (int CurrBlockIndex = BlockIndex;
CurrBlockIndex < BlockOrdersCount && CurrAddress != 0;
CurrBlockIndex++)
{
KMemoryRegionBlock Block = Blocks[CurrBlockIndex];
Block.FreeCount++;
ulong FreedBlocks = (CurrAddress - Block.StartAligned) >> Block.Order;
int Index = (int)FreedBlocks;
for (int Level = Block.MaxLevel - 1; Level >= 0; Level--, Index /= 64)
{
long Mask = Block.Masks[Level][Index / 64];
Block.Masks[Level][Index / 64] = Mask | (1L << (Index & 63));
if (Mask != 0)
{
break;
}
}
int BlockSizeDelta = 1 << (Block.NextOrder - Block.Order);
int FreedBlocksTruncated = BitUtils.AlignDown((int)FreedBlocks, BlockSizeDelta);
if (!Block.TryCoalesce(FreedBlocksTruncated, BlockSizeDelta))
{
break;
}
CurrAddress = Block.StartAligned + ((ulong)FreedBlocksTruncated << Block.Order);
}
}
//Free inside aligned region.
ulong BaseAddress = AddressRounded;
while (BaseAddress < EndAddrTruncated)
{
ulong BlockSize = 1UL << Blocks[BlockIndex].Order;
FreeRegion(BaseAddress);
BaseAddress += BlockSize;
}
int NextBlockIndex = BlockIndex - 1;
//Free region between Address and aligned region start.
BaseAddress = AddressRounded;
for (BlockIndex = NextBlockIndex; BlockIndex >= 0; BlockIndex--)
{
ulong BlockSize = 1UL << Blocks[BlockIndex].Order;
while (BaseAddress - BlockSize >= Address)
{
BaseAddress -= BlockSize;
FreeRegion(BaseAddress);
}
}
//Free region between aligned region end and End Address.
BaseAddress = EndAddrTruncated;
for (BlockIndex = NextBlockIndex; BlockIndex >= 0; BlockIndex--)
{
ulong BlockSize = 1UL << Blocks[BlockIndex].Order;
while (BaseAddress + BlockSize <= EndAddr)
{
FreeRegion(BaseAddress);
BaseAddress += BlockSize;
}
}
}
public ulong GetFreePages()
{
lock (Blocks)
{
return GetFreePagesImpl();
}
}
private ulong GetFreePagesImpl()
{
ulong AvailablePages = 0;
for (int BlockIndex = 0; BlockIndex < BlockOrdersCount; BlockIndex++)
{
KMemoryRegionBlock Block = Blocks[BlockIndex];
ulong BlockPagesCount = (1UL << Block.Order) / KMemoryManager.PageSize;
AvailablePages += BlockPagesCount * Block.FreeCount;
}
return AvailablePages;
}
}
}
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