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Ryujinx/Ryujinx.HLE/HOS/Kernel/Memory/KMemoryManager.cs
Alex Barney b2b736abc2 Misc cleanup (#708)
* Fix typos

* Remove unneeded using statements

* Enforce var style more

* Remove redundant qualifiers

* Fix some indentation

* Disable naming warnings on files with external enum names

* Fix build

* Mass find & replace for comments with no spacing

* Standardize todo capitalization and for/if spacing
2019-07-02 04:39:22 +02:00

3186 lines
No EOL
104 KiB
C#

using ChocolArm64.Memory;
using Ryujinx.Common;
using Ryujinx.HLE.HOS.Kernel.Common;
using Ryujinx.HLE.HOS.Kernel.Process;
using System;
using System.Collections.Generic;
namespace Ryujinx.HLE.HOS.Kernel.Memory
{
class KMemoryManager
{
private static readonly int[] MappingUnitSizes = new int[]
{
0x1000,
0x10000,
0x200000,
0x400000,
0x2000000,
0x40000000
};
public const int PageSize = 0x1000;
private const int KMemoryBlockSize = 0x40;
// We need 2 blocks for the case where a big block
// needs to be split in 2, plus one block that will be the new one inserted.
private const int MaxBlocksNeededForInsertion = 2;
private LinkedList<KMemoryBlock> _blocks;
private MemoryManager _cpuMemory;
private Horizon _system;
public ulong AddrSpaceStart { get; private set; }
public ulong AddrSpaceEnd { get; private set; }
public ulong CodeRegionStart { get; private set; }
public ulong CodeRegionEnd { get; private set; }
public ulong HeapRegionStart { get; private set; }
public ulong HeapRegionEnd { get; private set; }
private ulong _currentHeapAddr;
public ulong AliasRegionStart { get; private set; }
public ulong AliasRegionEnd { get; private set; }
public ulong StackRegionStart { get; private set; }
public ulong StackRegionEnd { get; private set; }
public ulong TlsIoRegionStart { get; private set; }
public ulong TlsIoRegionEnd { get; private set; }
private ulong _heapCapacity;
public ulong PhysicalMemoryUsage { get; private set; }
private MemoryRegion _memRegion;
private bool _aslrDisabled;
public int AddrSpaceWidth { get; private set; }
private bool _isKernel;
private bool _aslrEnabled;
private KMemoryBlockAllocator _blockAllocator;
private int _contextId;
private MersenneTwister _randomNumberGenerator;
public KMemoryManager(Horizon system, MemoryManager cpuMemory)
{
_system = system;
_cpuMemory = cpuMemory;
_blocks = new LinkedList<KMemoryBlock>();
}
private static readonly int[] AddrSpaceSizes = new int[] { 32, 36, 32, 39 };
public KernelResult InitializeForProcess(
AddressSpaceType addrSpaceType,
bool aslrEnabled,
bool aslrDisabled,
MemoryRegion memRegion,
ulong address,
ulong size,
KMemoryBlockAllocator blockAllocator)
{
if ((uint)addrSpaceType > (uint)AddressSpaceType.Addr39Bits)
{
throw new ArgumentException(nameof(addrSpaceType));
}
_contextId = _system.ContextIdManager.GetId();
ulong addrSpaceBase = 0;
ulong addrSpaceSize = 1UL << AddrSpaceSizes[(int)addrSpaceType];
KernelResult result = CreateUserAddressSpace(
addrSpaceType,
aslrEnabled,
aslrDisabled,
addrSpaceBase,
addrSpaceSize,
memRegion,
address,
size,
blockAllocator);
if (result != KernelResult.Success)
{
_system.ContextIdManager.PutId(_contextId);
}
return result;
}
private class Region
{
public ulong Start;
public ulong End;
public ulong Size;
public ulong AslrOffset;
}
private KernelResult CreateUserAddressSpace(
AddressSpaceType addrSpaceType,
bool aslrEnabled,
bool aslrDisabled,
ulong addrSpaceStart,
ulong addrSpaceEnd,
MemoryRegion memRegion,
ulong address,
ulong size,
KMemoryBlockAllocator blockAllocator)
{
ulong endAddr = address + size;
Region aliasRegion = new Region();
Region heapRegion = new Region();
Region stackRegion = new Region();
Region tlsIoRegion = new Region();
ulong codeRegionSize;
ulong stackAndTlsIoStart;
ulong stackAndTlsIoEnd;
ulong baseAddress;
switch (addrSpaceType)
{
case AddressSpaceType.Addr32Bits:
aliasRegion.Size = 0x40000000;
heapRegion.Size = 0x40000000;
stackRegion.Size = 0;
tlsIoRegion.Size = 0;
CodeRegionStart = 0x200000;
codeRegionSize = 0x3fe00000;
stackAndTlsIoStart = 0x200000;
stackAndTlsIoEnd = 0x40000000;
baseAddress = 0x200000;
AddrSpaceWidth = 32;
break;
case AddressSpaceType.Addr36Bits:
aliasRegion.Size = 0x180000000;
heapRegion.Size = 0x180000000;
stackRegion.Size = 0;
tlsIoRegion.Size = 0;
CodeRegionStart = 0x8000000;
codeRegionSize = 0x78000000;
stackAndTlsIoStart = 0x8000000;
stackAndTlsIoEnd = 0x80000000;
baseAddress = 0x8000000;
AddrSpaceWidth = 36;
break;
case AddressSpaceType.Addr32BitsNoMap:
aliasRegion.Size = 0;
heapRegion.Size = 0x80000000;
stackRegion.Size = 0;
tlsIoRegion.Size = 0;
CodeRegionStart = 0x200000;
codeRegionSize = 0x3fe00000;
stackAndTlsIoStart = 0x200000;
stackAndTlsIoEnd = 0x40000000;
baseAddress = 0x200000;
AddrSpaceWidth = 32;
break;
case AddressSpaceType.Addr39Bits:
aliasRegion.Size = 0x1000000000;
heapRegion.Size = 0x180000000;
stackRegion.Size = 0x80000000;
tlsIoRegion.Size = 0x1000000000;
CodeRegionStart = BitUtils.AlignDown(address, 0x200000);
codeRegionSize = BitUtils.AlignUp (endAddr, 0x200000) - CodeRegionStart;
stackAndTlsIoStart = 0;
stackAndTlsIoEnd = 0;
baseAddress = 0x8000000;
AddrSpaceWidth = 39;
break;
default: throw new ArgumentException(nameof(addrSpaceType));
}
CodeRegionEnd = CodeRegionStart + codeRegionSize;
ulong mapBaseAddress;
ulong mapAvailableSize;
if (CodeRegionStart - baseAddress >= addrSpaceEnd - CodeRegionEnd)
{
// Has more space before the start of the code region.
mapBaseAddress = baseAddress;
mapAvailableSize = CodeRegionStart - baseAddress;
}
else
{
// Has more space after the end of the code region.
mapBaseAddress = CodeRegionEnd;
mapAvailableSize = addrSpaceEnd - CodeRegionEnd;
}
ulong mapTotalSize = aliasRegion.Size + heapRegion.Size + stackRegion.Size + tlsIoRegion.Size;
ulong aslrMaxOffset = mapAvailableSize - mapTotalSize;
_aslrEnabled = aslrEnabled;
AddrSpaceStart = addrSpaceStart;
AddrSpaceEnd = addrSpaceEnd;
_blockAllocator = blockAllocator;
if (mapAvailableSize < mapTotalSize)
{
return KernelResult.OutOfMemory;
}
if (aslrEnabled)
{
aliasRegion.AslrOffset = GetRandomValue(0, aslrMaxOffset >> 21) << 21;
heapRegion.AslrOffset = GetRandomValue(0, aslrMaxOffset >> 21) << 21;
stackRegion.AslrOffset = GetRandomValue(0, aslrMaxOffset >> 21) << 21;
tlsIoRegion.AslrOffset = GetRandomValue(0, aslrMaxOffset >> 21) << 21;
}
// Regions are sorted based on ASLR offset.
// When ASLR is disabled, the order is Map, Heap, NewMap and TlsIo.
aliasRegion.Start = mapBaseAddress + aliasRegion.AslrOffset;
aliasRegion.End = aliasRegion.Start + aliasRegion.Size;
heapRegion.Start = mapBaseAddress + heapRegion.AslrOffset;
heapRegion.End = heapRegion.Start + heapRegion.Size;
stackRegion.Start = mapBaseAddress + stackRegion.AslrOffset;
stackRegion.End = stackRegion.Start + stackRegion.Size;
tlsIoRegion.Start = mapBaseAddress + tlsIoRegion.AslrOffset;
tlsIoRegion.End = tlsIoRegion.Start + tlsIoRegion.Size;
SortRegion(heapRegion, aliasRegion);
if (stackRegion.Size != 0)
{
SortRegion(stackRegion, aliasRegion);
SortRegion(stackRegion, heapRegion);
}
else
{
stackRegion.Start = stackAndTlsIoStart;
stackRegion.End = stackAndTlsIoEnd;
}
if (tlsIoRegion.Size != 0)
{
SortRegion(tlsIoRegion, aliasRegion);
SortRegion(tlsIoRegion, heapRegion);
SortRegion(tlsIoRegion, stackRegion);
}
else
{
tlsIoRegion.Start = stackAndTlsIoStart;
tlsIoRegion.End = stackAndTlsIoEnd;
}
AliasRegionStart = aliasRegion.Start;
AliasRegionEnd = aliasRegion.End;
HeapRegionStart = heapRegion.Start;
HeapRegionEnd = heapRegion.End;
StackRegionStart = stackRegion.Start;
StackRegionEnd = stackRegion.End;
TlsIoRegionStart = tlsIoRegion.Start;
TlsIoRegionEnd = tlsIoRegion.End;
_currentHeapAddr = HeapRegionStart;
_heapCapacity = 0;
PhysicalMemoryUsage = 0;
_memRegion = memRegion;
_aslrDisabled = aslrDisabled;
return InitializeBlocks(addrSpaceStart, addrSpaceEnd);
}
private ulong GetRandomValue(ulong min, ulong max)
{
return (ulong)GetRandomValue((long)min, (long)max);
}
private long GetRandomValue(long min, long max)
{
if (_randomNumberGenerator == null)
{
_randomNumberGenerator = new MersenneTwister(0);
}
return _randomNumberGenerator.GenRandomNumber(min, max);
}
private static void SortRegion(Region lhs, Region rhs)
{
if (lhs.AslrOffset < rhs.AslrOffset)
{
rhs.Start += lhs.Size;
rhs.End += lhs.Size;
}
else
{
lhs.Start += rhs.Size;
lhs.End += rhs.Size;
}
}
private KernelResult InitializeBlocks(ulong addrSpaceStart, ulong addrSpaceEnd)
{
// First insertion will always need only a single block,
// because there's nothing else to split.
if (!_blockAllocator.CanAllocate(1))
{
return KernelResult.OutOfResource;
}
ulong addrSpacePagesCount = (addrSpaceEnd - addrSpaceStart) / PageSize;
_blocks.AddFirst(new KMemoryBlock(
addrSpaceStart,
addrSpacePagesCount,
MemoryState.Unmapped,
MemoryPermission.None,
MemoryAttribute.None));
return KernelResult.Success;
}
public KernelResult MapPages(
ulong address,
KPageList pageList,
MemoryState state,
MemoryPermission permission)
{
ulong pagesCount = pageList.GetPagesCount();
ulong size = pagesCount * PageSize;
if (!ValidateRegionForState(address, size, state))
{
return KernelResult.InvalidMemState;
}
lock (_blocks)
{
if (!IsUnmapped(address, pagesCount * PageSize))
{
return KernelResult.InvalidMemState;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
KernelResult result = MapPages(address, pageList, permission);
if (result == KernelResult.Success)
{
InsertBlock(address, pagesCount, state, permission);
}
return result;
}
}
public KernelResult UnmapPages(ulong address, KPageList pageList, MemoryState stateExpected)
{
ulong pagesCount = pageList.GetPagesCount();
ulong size = pagesCount * PageSize;
ulong endAddr = address + size;
ulong addrSpacePagesCount = (AddrSpaceEnd - AddrSpaceStart) / PageSize;
if (AddrSpaceStart > address)
{
return KernelResult.InvalidMemState;
}
if (addrSpacePagesCount < pagesCount)
{
return KernelResult.InvalidMemState;
}
if (endAddr - 1 > AddrSpaceEnd - 1)
{
return KernelResult.InvalidMemState;
}
lock (_blocks)
{
KPageList currentPageList = new KPageList();
AddVaRangeToPageList(currentPageList, address, pagesCount);
if (!currentPageList.IsEqual(pageList))
{
return KernelResult.InvalidMemRange;
}
if (CheckRange(
address,
size,
MemoryState.Mask,
stateExpected,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState state,
out _,
out _))
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
KernelResult result = MmuUnmap(address, pagesCount);
if (result == KernelResult.Success)
{
InsertBlock(address, pagesCount, MemoryState.Unmapped);
}
return result;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult MapNormalMemory(long address, long size, MemoryPermission permission)
{
// TODO.
return KernelResult.Success;
}
public KernelResult MapIoMemory(long address, long size, MemoryPermission permission)
{
// TODO.
return KernelResult.Success;
}
public KernelResult AllocateOrMapPa(
ulong neededPagesCount,
int alignment,
ulong srcPa,
bool map,
ulong regionStart,
ulong regionPagesCount,
MemoryState state,
MemoryPermission permission,
out ulong address)
{
address = 0;
ulong regionSize = regionPagesCount * PageSize;
ulong regionEndAddr = regionStart + regionSize;
if (!ValidateRegionForState(regionStart, regionSize, state))
{
return KernelResult.InvalidMemState;
}
if (regionPagesCount <= neededPagesCount)
{
return KernelResult.OutOfMemory;
}
lock (_blocks)
{
address = AllocateVa(regionStart, regionPagesCount, neededPagesCount, alignment);
if (address == 0)
{
return KernelResult.OutOfMemory;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
MemoryOperation operation = map
? MemoryOperation.MapPa
: MemoryOperation.Allocate;
KernelResult result = DoMmuOperation(
address,
neededPagesCount,
srcPa,
map,
permission,
operation);
if (result != KernelResult.Success)
{
return result;
}
InsertBlock(address, neededPagesCount, state, permission);
}
return KernelResult.Success;
}
public KernelResult MapNewProcessCode(
ulong address,
ulong pagesCount,
MemoryState state,
MemoryPermission permission)
{
ulong size = pagesCount * PageSize;
if (!ValidateRegionForState(address, size, state))
{
return KernelResult.InvalidMemState;
}
lock (_blocks)
{
if (!IsUnmapped(address, size))
{
return KernelResult.InvalidMemState;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
KernelResult result = DoMmuOperation(
address,
pagesCount,
0,
false,
permission,
MemoryOperation.Allocate);
if (result == KernelResult.Success)
{
InsertBlock(address, pagesCount, state, permission);
}
return result;
}
}
public KernelResult MapProcessCodeMemory(ulong dst, ulong src, ulong size)
{
ulong pagesCount = size / PageSize;
lock (_blocks)
{
bool success = CheckRange(
src,
size,
MemoryState.Mask,
MemoryState.Heap,
MemoryPermission.Mask,
MemoryPermission.ReadAndWrite,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState state,
out MemoryPermission permission,
out _);
success &= IsUnmapped(dst, size);
if (success)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion * 2))
{
return KernelResult.OutOfResource;
}
KPageList pageList = new KPageList();
AddVaRangeToPageList(pageList, src, pagesCount);
KernelResult result = MmuChangePermission(src, pagesCount, MemoryPermission.None);
if (result != KernelResult.Success)
{
return result;
}
result = MapPages(dst, pageList, MemoryPermission.None);
if (result != KernelResult.Success)
{
MmuChangePermission(src, pagesCount, permission);
return result;
}
InsertBlock(src, pagesCount, state, MemoryPermission.None, MemoryAttribute.Borrowed);
InsertBlock(dst, pagesCount, MemoryState.ModCodeStatic);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult UnmapProcessCodeMemory(ulong dst, ulong src, ulong size)
{
ulong pagesCount = size / PageSize;
lock (_blocks)
{
bool success = CheckRange(
src,
size,
MemoryState.Mask,
MemoryState.Heap,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.Borrowed,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out _,
out _);
success &= CheckRange(
dst,
PageSize,
MemoryState.UnmapProcessCodeMemoryAllowed,
MemoryState.UnmapProcessCodeMemoryAllowed,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState state,
out _,
out _);
success &= CheckRange(
dst,
size,
MemoryState.Mask,
state,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None);
if (success)
{
KernelResult result = MmuUnmap(dst, pagesCount);
if (result != KernelResult.Success)
{
return result;
}
// TODO: Missing some checks here.
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion * 2))
{
return KernelResult.OutOfResource;
}
InsertBlock(dst, pagesCount, MemoryState.Unmapped);
InsertBlock(src, pagesCount, MemoryState.Heap, MemoryPermission.ReadAndWrite);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult SetHeapSize(ulong size, out ulong address)
{
address = 0;
if (size > HeapRegionEnd - HeapRegionStart)
{
return KernelResult.OutOfMemory;
}
KProcess currentProcess = _system.Scheduler.GetCurrentProcess();
ulong currentHeapSize = GetHeapSize();
if (currentHeapSize <= size)
{
// Expand.
ulong diffSize = size - currentHeapSize;
lock (_blocks)
{
if (currentProcess.ResourceLimit != null && diffSize != 0 &&
!currentProcess.ResourceLimit.Reserve(LimitableResource.Memory, diffSize))
{
return KernelResult.ResLimitExceeded;
}
ulong pagesCount = diffSize / PageSize;
KMemoryRegionManager region = GetMemoryRegionManager();
KernelResult result = region.AllocatePages(pagesCount, _aslrDisabled, out KPageList pageList);
void CleanUpForError()
{
if (pageList != null)
{
region.FreePages(pageList);
}
if (currentProcess.ResourceLimit != null && diffSize != 0)
{
currentProcess.ResourceLimit.Release(LimitableResource.Memory, diffSize);
}
}
if (result != KernelResult.Success)
{
CleanUpForError();
return result;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
CleanUpForError();
return KernelResult.OutOfResource;
}
if (!IsUnmapped(_currentHeapAddr, diffSize))
{
CleanUpForError();
return KernelResult.InvalidMemState;
}
result = DoMmuOperation(
_currentHeapAddr,
pagesCount,
pageList,
MemoryPermission.ReadAndWrite,
MemoryOperation.MapVa);
if (result != KernelResult.Success)
{
CleanUpForError();
return result;
}
InsertBlock(_currentHeapAddr, pagesCount, MemoryState.Heap, MemoryPermission.ReadAndWrite);
}
}
else
{
// Shrink.
ulong freeAddr = HeapRegionStart + size;
ulong diffSize = currentHeapSize - size;
lock (_blocks)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
if (!CheckRange(
freeAddr,
diffSize,
MemoryState.Mask,
MemoryState.Heap,
MemoryPermission.Mask,
MemoryPermission.ReadAndWrite,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out _,
out _))
{
return KernelResult.InvalidMemState;
}
ulong pagesCount = diffSize / PageSize;
KernelResult result = MmuUnmap(freeAddr, pagesCount);
if (result != KernelResult.Success)
{
return result;
}
currentProcess.ResourceLimit?.Release(LimitableResource.Memory, BitUtils.AlignDown(diffSize, PageSize));
InsertBlock(freeAddr, pagesCount, MemoryState.Unmapped);
}
}
_currentHeapAddr = HeapRegionStart + size;
address = HeapRegionStart;
return KernelResult.Success;
}
public ulong GetTotalHeapSize()
{
lock (_blocks)
{
return GetHeapSize() + PhysicalMemoryUsage;
}
}
private ulong GetHeapSize()
{
return _currentHeapAddr - HeapRegionStart;
}
public KernelResult SetHeapCapacity(ulong capacity)
{
lock (_blocks)
{
_heapCapacity = capacity;
}
return KernelResult.Success;
}
public KernelResult SetMemoryAttribute(
ulong address,
ulong size,
MemoryAttribute attributeMask,
MemoryAttribute attributeValue)
{
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.AttributeChangeAllowed,
MemoryState.AttributeChangeAllowed,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.BorrowedAndIpcMapped,
MemoryAttribute.None,
MemoryAttribute.DeviceMappedAndUncached,
out MemoryState state,
out MemoryPermission permission,
out MemoryAttribute attribute))
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
attribute &= ~attributeMask;
attribute |= attributeMask & attributeValue;
InsertBlock(address, pagesCount, state, permission, attribute);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KMemoryInfo QueryMemory(ulong address)
{
if (address >= AddrSpaceStart &&
address < AddrSpaceEnd)
{
lock (_blocks)
{
return FindBlock(address).GetInfo();
}
}
else
{
return new KMemoryInfo(
AddrSpaceEnd,
~AddrSpaceEnd + 1,
MemoryState.Reserved,
MemoryPermission.None,
MemoryAttribute.None,
MemoryPermission.None,
0,
0);
}
}
public KernelResult Map(ulong dst, ulong src, ulong size)
{
bool success;
lock (_blocks)
{
success = CheckRange(
src,
size,
MemoryState.MapAllowed,
MemoryState.MapAllowed,
MemoryPermission.Mask,
MemoryPermission.ReadAndWrite,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState srcState,
out _,
out _);
success &= IsUnmapped(dst, size);
if (success)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion * 2))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
KPageList pageList = new KPageList();
AddVaRangeToPageList(pageList, src, pagesCount);
KernelResult result = MmuChangePermission(src, pagesCount, MemoryPermission.None);
if (result != KernelResult.Success)
{
return result;
}
result = MapPages(dst, pageList, MemoryPermission.ReadAndWrite);
if (result != KernelResult.Success)
{
if (MmuChangePermission(src, pagesCount, MemoryPermission.ReadAndWrite) != KernelResult.Success)
{
throw new InvalidOperationException("Unexpected failure reverting memory permission.");
}
return result;
}
InsertBlock(src, pagesCount, srcState, MemoryPermission.None, MemoryAttribute.Borrowed);
InsertBlock(dst, pagesCount, MemoryState.Stack, MemoryPermission.ReadAndWrite);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult UnmapForKernel(ulong address, ulong pagesCount, MemoryState stateExpected)
{
ulong size = pagesCount * PageSize;
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.Mask,
stateExpected,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out _,
out _))
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
KernelResult result = MmuUnmap(address, pagesCount);
if (result == KernelResult.Success)
{
InsertBlock(address, pagesCount, MemoryState.Unmapped);
}
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult Unmap(ulong dst, ulong src, ulong size)
{
bool success;
lock (_blocks)
{
success = CheckRange(
src,
size,
MemoryState.MapAllowed,
MemoryState.MapAllowed,
MemoryPermission.Mask,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.Borrowed,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState srcState,
out _,
out _);
success &= CheckRange(
dst,
size,
MemoryState.Mask,
MemoryState.Stack,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out MemoryPermission dstPermission,
out _);
if (success)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion * 2))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
KPageList srcPageList = new KPageList();
KPageList dstPageList = new KPageList();
AddVaRangeToPageList(srcPageList, src, pagesCount);
AddVaRangeToPageList(dstPageList, dst, pagesCount);
if (!dstPageList.IsEqual(srcPageList))
{
return KernelResult.InvalidMemRange;
}
KernelResult result = MmuUnmap(dst, pagesCount);
if (result != KernelResult.Success)
{
return result;
}
result = MmuChangePermission(src, pagesCount, MemoryPermission.ReadAndWrite);
if (result != KernelResult.Success)
{
MapPages(dst, dstPageList, dstPermission);
return result;
}
InsertBlock(src, pagesCount, srcState, MemoryPermission.ReadAndWrite);
InsertBlock(dst, pagesCount, MemoryState.Unmapped);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult ReserveTransferMemory(ulong address, ulong size, MemoryPermission permission)
{
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.TransferMemoryAllowed | MemoryState.IsPoolAllocated,
MemoryState.TransferMemoryAllowed | MemoryState.IsPoolAllocated,
MemoryPermission.Mask,
MemoryPermission.ReadAndWrite,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState state,
out _,
out MemoryAttribute attribute))
{
// TODO: Missing checks.
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
attribute |= MemoryAttribute.Borrowed;
InsertBlock(address, pagesCount, state, permission, attribute);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult ResetTransferMemory(ulong address, ulong size)
{
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.TransferMemoryAllowed | MemoryState.IsPoolAllocated,
MemoryState.TransferMemoryAllowed | MemoryState.IsPoolAllocated,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.Borrowed,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState state,
out _,
out _))
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
InsertBlock(address, pagesCount, state, MemoryPermission.ReadAndWrite);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult SetProcessMemoryPermission(ulong address, ulong size, MemoryPermission permission)
{
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.ProcessPermissionChangeAllowed,
MemoryState.ProcessPermissionChangeAllowed,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState oldState,
out MemoryPermission oldPermission,
out _))
{
MemoryState newState = oldState;
// If writing into the code region is allowed, then we need
// to change it to mutable.
if ((permission & MemoryPermission.Write) != 0)
{
if (oldState == MemoryState.CodeStatic)
{
newState = MemoryState.CodeMutable;
}
else if (oldState == MemoryState.ModCodeStatic)
{
newState = MemoryState.ModCodeMutable;
}
else
{
throw new InvalidOperationException($"Memory state \"{oldState}\" not valid for this operation.");
}
}
if (newState != oldState || permission != oldPermission)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong pagesCount = size / PageSize;
MemoryOperation operation = (permission & MemoryPermission.Execute) != 0
? MemoryOperation.ChangePermsAndAttributes
: MemoryOperation.ChangePermRw;
KernelResult result = DoMmuOperation(address, pagesCount, 0, false, permission, operation);
if (result != KernelResult.Success)
{
return result;
}
InsertBlock(address, pagesCount, newState, permission);
}
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult MapPhysicalMemory(ulong address, ulong size)
{
ulong endAddr = address + size;
lock (_blocks)
{
ulong mappedSize = 0;
foreach (KMemoryInfo info in IterateOverRange(address, endAddr))
{
if (info.State != MemoryState.Unmapped)
{
mappedSize += GetSizeInRange(info, address, endAddr);
}
}
if (mappedSize == size)
{
return KernelResult.Success;
}
ulong remainingSize = size - mappedSize;
ulong remainingPages = remainingSize / PageSize;
KProcess currentProcess = _system.Scheduler.GetCurrentProcess();
if (currentProcess.ResourceLimit != null &&
!currentProcess.ResourceLimit.Reserve(LimitableResource.Memory, remainingSize))
{
return KernelResult.ResLimitExceeded;
}
KMemoryRegionManager region = GetMemoryRegionManager();
KernelResult result = region.AllocatePages(remainingPages, _aslrDisabled, out KPageList pageList);
void CleanUpForError()
{
if (pageList != null)
{
region.FreePages(pageList);
}
currentProcess.ResourceLimit?.Release(LimitableResource.Memory, remainingSize);
}
if (result != KernelResult.Success)
{
CleanUpForError();
return result;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
CleanUpForError();
return KernelResult.OutOfResource;
}
MapPhysicalMemory(pageList, address, endAddr);
PhysicalMemoryUsage += remainingSize;
ulong pagesCount = size / PageSize;
InsertBlock(
address,
pagesCount,
MemoryState.Unmapped,
MemoryPermission.None,
MemoryAttribute.None,
MemoryState.Heap,
MemoryPermission.ReadAndWrite,
MemoryAttribute.None);
}
return KernelResult.Success;
}
public KernelResult UnmapPhysicalMemory(ulong address, ulong size)
{
ulong endAddr = address + size;
lock (_blocks)
{
// Scan, ensure that the region can be unmapped (all blocks are heap or
// already unmapped), fill pages list for freeing memory.
ulong heapMappedSize = 0;
KPageList pageList = new KPageList();
foreach (KMemoryInfo info in IterateOverRange(address, endAddr))
{
if (info.State == MemoryState.Heap)
{
if (info.Attribute != MemoryAttribute.None)
{
return KernelResult.InvalidMemState;
}
ulong blockSize = GetSizeInRange(info, address, endAddr);
ulong blockAddress = GetAddrInRange(info, address);
AddVaRangeToPageList(pageList, blockAddress, blockSize / PageSize);
heapMappedSize += blockSize;
}
else if (info.State != MemoryState.Unmapped)
{
return KernelResult.InvalidMemState;
}
}
if (heapMappedSize == 0)
{
return KernelResult.Success;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
// Try to unmap all the heap mapped memory inside range.
KernelResult result = KernelResult.Success;
foreach (KMemoryInfo info in IterateOverRange(address, endAddr))
{
if (info.State == MemoryState.Heap)
{
ulong blockSize = GetSizeInRange(info, address, endAddr);
ulong blockAddress = GetAddrInRange(info, address);
ulong blockPagesCount = blockSize / PageSize;
result = MmuUnmap(blockAddress, blockPagesCount);
if (result != KernelResult.Success)
{
// If we failed to unmap, we need to remap everything back again.
MapPhysicalMemory(pageList, address, blockAddress + blockSize);
break;
}
}
}
if (result == KernelResult.Success)
{
GetMemoryRegionManager().FreePages(pageList);
PhysicalMemoryUsage -= heapMappedSize;
KProcess currentProcess = _system.Scheduler.GetCurrentProcess();
currentProcess.ResourceLimit?.Release(LimitableResource.Memory, heapMappedSize);
ulong pagesCount = size / PageSize;
InsertBlock(address, pagesCount, MemoryState.Unmapped);
}
return result;
}
}
private void MapPhysicalMemory(KPageList pageList, ulong address, ulong endAddr)
{
LinkedListNode<KPageNode> pageListNode = pageList.Nodes.First;
KPageNode pageNode = pageListNode.Value;
ulong srcPa = pageNode.Address;
ulong srcPaPages = pageNode.PagesCount;
foreach (KMemoryInfo info in IterateOverRange(address, endAddr))
{
if (info.State == MemoryState.Unmapped)
{
ulong blockSize = GetSizeInRange(info, address, endAddr);
ulong dstVaPages = blockSize / PageSize;
ulong dstVa = GetAddrInRange(info, address);
while (dstVaPages > 0)
{
if (srcPaPages == 0)
{
pageListNode = pageListNode.Next;
pageNode = pageListNode.Value;
srcPa = pageNode.Address;
srcPaPages = pageNode.PagesCount;
}
ulong pagesCount = srcPaPages;
if (pagesCount > dstVaPages)
{
pagesCount = dstVaPages;
}
DoMmuOperation(
dstVa,
pagesCount,
srcPa,
true,
MemoryPermission.ReadAndWrite,
MemoryOperation.MapPa);
dstVa += pagesCount * PageSize;
srcPa += pagesCount * PageSize;
srcPaPages -= pagesCount;
dstVaPages -= pagesCount;
}
}
}
}
public KernelResult CopyDataToCurrentProcess(
ulong dst,
ulong size,
ulong src,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permission,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected)
{
// Client -> server.
return CopyDataFromOrToCurrentProcess(
size,
src,
dst,
stateMask,
stateExpected,
permission,
attributeMask,
attributeExpected,
toServer: true);
}
public KernelResult CopyDataFromCurrentProcess(
ulong dst,
ulong size,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permission,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected,
ulong src)
{
// Server -> client.
return CopyDataFromOrToCurrentProcess(
size,
dst,
src,
stateMask,
stateExpected,
permission,
attributeMask,
attributeExpected,
toServer: false);
}
private KernelResult CopyDataFromOrToCurrentProcess(
ulong size,
ulong clientAddress,
ulong serverAddress,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permission,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected,
bool toServer)
{
if (AddrSpaceStart > clientAddress)
{
return KernelResult.InvalidMemState;
}
ulong srcEndAddr = clientAddress + size;
if (srcEndAddr <= clientAddress || srcEndAddr - 1 > AddrSpaceEnd - 1)
{
return KernelResult.InvalidMemState;
}
lock (_blocks)
{
if (CheckRange(
clientAddress,
size,
stateMask,
stateExpected,
permission,
permission,
attributeMask | MemoryAttribute.Uncached,
attributeExpected))
{
KProcess currentProcess = _system.Scheduler.GetCurrentProcess();
serverAddress = currentProcess.MemoryManager.GetDramAddressFromVa(serverAddress);
if (toServer)
{
_system.Device.Memory.Copy(serverAddress, GetDramAddressFromVa(clientAddress), size);
}
else
{
_system.Device.Memory.Copy(GetDramAddressFromVa(clientAddress), serverAddress, size);
}
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult MapBufferFromClientProcess(
ulong size,
ulong src,
KMemoryManager sourceMemMgr,
MemoryPermission permission,
MemoryState state,
bool copyData,
out ulong dst)
{
dst = 0;
KernelResult result = sourceMemMgr.GetPagesForMappingIntoAnotherProcess(
src,
size,
permission,
state,
copyData,
_aslrDisabled,
_memRegion,
out KPageList pageList);
if (result != KernelResult.Success)
{
return result;
}
result = MapPagesFromAnotherProcess(size, src, permission, state, pageList, out ulong va);
if (result != KernelResult.Success)
{
sourceMemMgr.UnmapIpcRestorePermission(src, size, state);
}
else
{
dst = va;
}
return result;
}
private KernelResult GetPagesForMappingIntoAnotherProcess(
ulong address,
ulong size,
MemoryPermission permission,
MemoryState state,
bool copyData,
bool aslrDisabled,
MemoryRegion region,
out KPageList pageList)
{
pageList = null;
if (AddrSpaceStart > address)
{
return KernelResult.InvalidMemState;
}
ulong endAddr = address + size;
if (endAddr <= address || endAddr - 1 > AddrSpaceEnd - 1)
{
return KernelResult.InvalidMemState;
}
MemoryState stateMask;
switch (state)
{
case MemoryState.IpcBuffer0: stateMask = MemoryState.IpcSendAllowedType0; break;
case MemoryState.IpcBuffer1: stateMask = MemoryState.IpcSendAllowedType1; break;
case MemoryState.IpcBuffer3: stateMask = MemoryState.IpcSendAllowedType3; break;
default: return KernelResult.InvalidCombination;
}
MemoryPermission permissionMask = permission == MemoryPermission.ReadAndWrite
? MemoryPermission.None
: MemoryPermission.Read;
MemoryAttribute attributeMask = MemoryAttribute.Borrowed | MemoryAttribute.Uncached;
if (state == MemoryState.IpcBuffer0)
{
attributeMask |= MemoryAttribute.DeviceMapped;
}
ulong addressRounded = BitUtils.AlignUp (address, PageSize);
ulong endAddrRounded = BitUtils.AlignUp (endAddr, PageSize);
ulong endAddrTruncated = BitUtils.AlignDown(endAddr, PageSize);
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong visitedSize = 0;
void CleanUpForError()
{
ulong endAddrVisited = address + visitedSize;
foreach (KMemoryInfo info in IterateOverRange(address, endAddrVisited))
{
if ((info.Permission & MemoryPermission.ReadAndWrite) != permissionMask && info.IpcRefCount == 0)
{
ulong blockAddress = GetAddrInRange(info, addressRounded);
ulong blockSize = GetSizeInRange(info, addressRounded, endAddrVisited);
ulong blockPagesCount = blockSize / PageSize;
if (DoMmuOperation(
blockAddress,
blockPagesCount,
0,
false,
info.Permission,
MemoryOperation.ChangePermRw) != KernelResult.Success)
{
throw new InvalidOperationException("Unexpected failure trying to restore permission.");
}
}
}
}
lock (_blocks)
{
KernelResult result;
foreach (KMemoryInfo info in IterateOverRange(address, endAddrRounded))
{
// Check if the block state matches what we expect.
if ((info.State & stateMask) != stateMask ||
(info.Permission & permission) != permission ||
(info.Attribute & attributeMask) != MemoryAttribute.None)
{
CleanUpForError();
return KernelResult.InvalidMemState;
}
ulong blockAddress = GetAddrInRange(info, addressRounded);
ulong blockSize = GetSizeInRange(info, addressRounded, endAddrTruncated);
ulong blockPagesCount = blockSize / PageSize;
if ((info.Permission & MemoryPermission.ReadAndWrite) != permissionMask && info.IpcRefCount == 0)
{
result = DoMmuOperation(
blockAddress,
blockPagesCount,
0,
false,
permissionMask,
MemoryOperation.ChangePermRw);
if (result != KernelResult.Success)
{
CleanUpForError();
return result;
}
}
visitedSize += blockSize;
}
result = GetPagesForIpcTransfer(address, size, copyData, aslrDisabled, region, out pageList);
if (result != KernelResult.Success)
{
CleanUpForError();
return result;
}
if (visitedSize != 0)
{
InsertBlock(address, visitedSize / PageSize, SetIpcMappingPermissions, permissionMask);
}
}
return KernelResult.Success;
}
private KernelResult GetPagesForIpcTransfer(
ulong address,
ulong size,
bool copyData,
bool aslrDisabled,
MemoryRegion region,
out KPageList pageList)
{
pageList = null;
ulong addressTruncated = BitUtils.AlignDown(address, PageSize);
ulong addressRounded = BitUtils.AlignUp (address, PageSize);
ulong endAddr = address + size;
ulong dstFirstPagePa = AllocateSinglePage(region, aslrDisabled);
if (dstFirstPagePa == 0)
{
return KernelResult.OutOfMemory;
}
ulong dstLastPagePa = 0;
void CleanUpForError()
{
FreeSinglePage(region, dstFirstPagePa);
if (dstLastPagePa != 0)
{
FreeSinglePage(region, dstLastPagePa);
}
}
ulong firstPageFillAddress = dstFirstPagePa;
if (!ConvertVaToPa(addressTruncated, out ulong srcFirstPagePa))
{
CleanUpForError();
return KernelResult.InvalidMemState;
}
ulong unusedSizeAfter;
// When the start address is unaligned, we can't safely map the
// first page as it would expose other undesirable information on the
// target process. So, instead we allocate new pages, copy the data
// inside the range, and then clear the remaining space.
// The same also holds for the last page, if the end address
// (address + size) is also not aligned.
if (copyData)
{
ulong unusedSizeBefore = address - addressTruncated;
_system.Device.Memory.Set(dstFirstPagePa, 0, unusedSizeBefore);
ulong copySize = addressRounded <= endAddr ? addressRounded - address : size;
_system.Device.Memory.Copy(
GetDramAddressFromPa(dstFirstPagePa + unusedSizeBefore),
GetDramAddressFromPa(srcFirstPagePa + unusedSizeBefore), copySize);
firstPageFillAddress += unusedSizeBefore + copySize;
unusedSizeAfter = addressRounded > endAddr ? addressRounded - endAddr : 0;
}
else
{
unusedSizeAfter = PageSize;
}
if (unusedSizeAfter != 0)
{
_system.Device.Memory.Set(firstPageFillAddress, 0, unusedSizeAfter);
}
KPageList pages = new KPageList();
if (pages.AddRange(dstFirstPagePa, 1) != KernelResult.Success)
{
CleanUpForError();
return KernelResult.OutOfResource;
}
ulong endAddrTruncated = BitUtils.AlignDown(endAddr, PageSize);
ulong endAddrRounded = BitUtils.AlignUp (endAddr, PageSize);
if (endAddrTruncated > addressRounded)
{
ulong alignedPagesCount = (endAddrTruncated - addressRounded) / PageSize;
AddVaRangeToPageList(pages, addressRounded, alignedPagesCount);
}
if (endAddrTruncated != endAddrRounded)
{
// End is also not aligned...
dstLastPagePa = AllocateSinglePage(region, aslrDisabled);
if (dstLastPagePa == 0)
{
CleanUpForError();
return KernelResult.OutOfMemory;
}
ulong lastPageFillAddr = dstLastPagePa;
if (!ConvertVaToPa(endAddrTruncated, out ulong srcLastPagePa))
{
CleanUpForError();
return KernelResult.InvalidMemState;
}
if (copyData)
{
ulong copySize = endAddr - endAddrTruncated;
_system.Device.Memory.Copy(
GetDramAddressFromPa(dstLastPagePa),
GetDramAddressFromPa(srcLastPagePa), copySize);
lastPageFillAddr += copySize;
unusedSizeAfter = PageSize - copySize;
}
else
{
unusedSizeAfter = PageSize;
}
_system.Device.Memory.Set(lastPageFillAddr, 0, unusedSizeAfter);
if (pages.AddRange(dstFirstPagePa, 1) != KernelResult.Success)
{
CleanUpForError();
return KernelResult.OutOfResource;
}
}
pageList = pages;
return KernelResult.Success;
}
private ulong AllocateSinglePage(MemoryRegion region, bool aslrDisabled)
{
KMemoryRegionManager regionMgr = _system.MemoryRegions[(int)region];
return regionMgr.AllocatePagesContiguous(1, aslrDisabled);
}
private void FreeSinglePage(MemoryRegion region, ulong address)
{
KMemoryRegionManager regionMgr = _system.MemoryRegions[(int)region];
regionMgr.FreePage(address);
}
private KernelResult MapPagesFromAnotherProcess(
ulong size,
ulong address,
MemoryPermission permission,
MemoryState state,
KPageList pageList,
out ulong mappedVa)
{
mappedVa = 0;
lock (_blocks)
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong endAddr = address + size;
ulong addressTruncated = BitUtils.AlignDown(address, PageSize);
ulong endAddrRounded = BitUtils.AlignUp (endAddr, PageSize);
ulong neededSize = endAddrRounded - addressTruncated;
ulong neededPagesCount = neededSize / PageSize;
ulong regionPagesCount = (AliasRegionEnd - AliasRegionStart) / PageSize;
ulong va = 0;
for (int unit = MappingUnitSizes.Length - 1; unit >= 0 && va == 0; unit--)
{
int alignment = MappingUnitSizes[unit];
va = AllocateVa(AliasRegionStart, regionPagesCount, neededPagesCount, alignment);
}
if (va == 0)
{
return KernelResult.OutOfVaSpace;
}
if (pageList.Nodes.Count != 0)
{
KernelResult result = MapPages(va, pageList, permission);
if (result != KernelResult.Success)
{
return result;
}
}
InsertBlock(va, neededPagesCount, state, permission);
mappedVa = va;
}
return KernelResult.Success;
}
public KernelResult UnmapNoAttributeIfStateEquals(ulong address, ulong size, MemoryState state)
{
if (AddrSpaceStart > address)
{
return KernelResult.InvalidMemState;
}
ulong endAddr = address + size;
if (endAddr <= address || endAddr - 1 > AddrSpaceEnd - 1)
{
return KernelResult.InvalidMemState;
}
lock (_blocks)
{
if (CheckRange(
address,
size,
MemoryState.Mask,
state,
MemoryPermission.Read,
MemoryPermission.Read,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out _,
out _))
{
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
ulong addressTruncated = BitUtils.AlignDown(address, PageSize);
ulong endAddrRounded = BitUtils.AlignUp (endAddr, PageSize);
ulong pagesCount = (endAddrRounded - addressTruncated) / PageSize;
KernelResult result = DoMmuOperation(
addressTruncated,
pagesCount,
0,
false,
MemoryPermission.None,
MemoryOperation.Unmap);
if (result == KernelResult.Success)
{
InsertBlock(addressTruncated, pagesCount, MemoryState.Unmapped);
}
return result;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
public KernelResult UnmapIpcRestorePermission(ulong address, ulong size, MemoryState state)
{
ulong endAddr = address + size;
ulong addressRounded = BitUtils.AlignUp (address, PageSize);
ulong endAddrTruncated = BitUtils.AlignDown(endAddr, PageSize);
ulong pagesCount = (endAddrTruncated - addressRounded) / PageSize;
MemoryState stateMask;
switch (state)
{
case MemoryState.IpcBuffer0: stateMask = MemoryState.IpcSendAllowedType0; break;
case MemoryState.IpcBuffer1: stateMask = MemoryState.IpcSendAllowedType1; break;
case MemoryState.IpcBuffer3: stateMask = MemoryState.IpcSendAllowedType3; break;
default: return KernelResult.InvalidCombination;
}
MemoryAttribute attributeMask =
MemoryAttribute.Borrowed |
MemoryAttribute.IpcMapped |
MemoryAttribute.Uncached;
if (state == MemoryState.IpcBuffer0)
{
attributeMask |= MemoryAttribute.DeviceMapped;
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
lock (_blocks)
{
foreach (KMemoryInfo info in IterateOverRange(address, endAddrTruncated))
{
// Check if the block state matches what we expect.
if ((info.State & stateMask) != stateMask ||
(info.Attribute & attributeMask) != MemoryAttribute.IpcMapped)
{
return KernelResult.InvalidMemState;
}
if (info.Permission != info.SourcePermission && info.IpcRefCount == 1)
{
ulong blockAddress = GetAddrInRange(info, addressRounded);
ulong blockSize = GetSizeInRange(info, addressRounded, endAddrTruncated);
ulong blockPagesCount = blockSize / PageSize;
KernelResult result = DoMmuOperation(
blockAddress,
blockPagesCount,
0,
false,
info.SourcePermission,
MemoryOperation.ChangePermRw);
if (result != KernelResult.Success)
{
return result;
}
}
}
}
InsertBlock(address, pagesCount, RestoreIpcMappingPermissions);
return KernelResult.Success;
}
public KernelResult UnborrowIpcBuffer(ulong address, ulong size)
{
return ClearAttributesAndChangePermission(
address,
size,
MemoryState.IpcBufferAllowed,
MemoryState.IpcBufferAllowed,
MemoryPermission.None,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.Borrowed,
MemoryPermission.ReadAndWrite,
MemoryAttribute.Borrowed);
}
private KernelResult ClearAttributesAndChangePermission(
ulong address,
ulong size,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permissionMask,
MemoryPermission permissionExpected,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected,
MemoryPermission newPermission,
MemoryAttribute attributeClearMask,
KPageList pageList = null)
{
lock (_blocks)
{
if (CheckRange(
address,
size,
stateMask | MemoryState.IsPoolAllocated,
stateExpected | MemoryState.IsPoolAllocated,
permissionMask,
permissionExpected,
attributeMask,
attributeExpected,
MemoryAttribute.IpcAndDeviceMapped,
out MemoryState oldState,
out MemoryPermission oldPermission,
out MemoryAttribute oldAttribute))
{
ulong pagesCount = size / PageSize;
if (pageList != null)
{
KPageList currPageList = new KPageList();
AddVaRangeToPageList(currPageList, address, pagesCount);
if (!currPageList.IsEqual(pageList))
{
return KernelResult.InvalidMemRange;
}
}
if (!_blockAllocator.CanAllocate(MaxBlocksNeededForInsertion))
{
return KernelResult.OutOfResource;
}
if (newPermission == MemoryPermission.None)
{
newPermission = oldPermission;
}
if (newPermission != oldPermission)
{
KernelResult result = DoMmuOperation(
address,
pagesCount,
0,
false,
newPermission,
MemoryOperation.ChangePermRw);
if (result != KernelResult.Success)
{
return result;
}
}
MemoryAttribute newAttribute = oldAttribute & ~attributeClearMask;
InsertBlock(address, pagesCount, oldState, newPermission, newAttribute);
return KernelResult.Success;
}
else
{
return KernelResult.InvalidMemState;
}
}
}
private void AddVaRangeToPageList(KPageList pageList, ulong start, ulong pagesCount)
{
ulong address = start;
while (address < start + pagesCount * PageSize)
{
if (!ConvertVaToPa(address, out ulong pa))
{
throw new InvalidOperationException("Unexpected failure translating virtual address.");
}
pageList.AddRange(pa, 1);
address += PageSize;
}
}
private static ulong GetAddrInRange(KMemoryInfo info, ulong start)
{
if (info.Address < start)
{
return start;
}
return info.Address;
}
private static ulong GetSizeInRange(KMemoryInfo info, ulong start, ulong end)
{
ulong endAddr = info.Size + info.Address;
ulong size = info.Size;
if (info.Address < start)
{
size -= start - info.Address;
}
if (endAddr > end)
{
size -= endAddr - end;
}
return size;
}
private bool IsUnmapped(ulong address, ulong size)
{
return CheckRange(
address,
size,
MemoryState.Mask,
MemoryState.Unmapped,
MemoryPermission.Mask,
MemoryPermission.None,
MemoryAttribute.Mask,
MemoryAttribute.None,
MemoryAttribute.IpcAndDeviceMapped,
out _,
out _,
out _);
}
private bool CheckRange(
ulong address,
ulong size,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permissionMask,
MemoryPermission permissionExpected,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected,
MemoryAttribute attributeIgnoreMask,
out MemoryState outState,
out MemoryPermission outPermission,
out MemoryAttribute outAttribute)
{
ulong endAddr = address + size;
LinkedListNode<KMemoryBlock> node = FindBlockNode(address);
KMemoryInfo info = node.Value.GetInfo();
MemoryState firstState = info.State;
MemoryPermission firstPermission = info.Permission;
MemoryAttribute firstAttribute = info.Attribute;
do
{
info = node.Value.GetInfo();
// Check if the block state matches what we expect.
if ( firstState != info.State ||
firstPermission != info.Permission ||
(info.Attribute & attributeMask) != attributeExpected ||
(firstAttribute | attributeIgnoreMask) != (info.Attribute | attributeIgnoreMask) ||
(firstState & stateMask) != stateExpected ||
(firstPermission & permissionMask) != permissionExpected)
{
outState = MemoryState.Unmapped;
outPermission = MemoryPermission.None;
outAttribute = MemoryAttribute.None;
return false;
}
}
while (info.Address + info.Size - 1 < endAddr - 1 && (node = node.Next) != null);
outState = firstState;
outPermission = firstPermission;
outAttribute = firstAttribute & ~attributeIgnoreMask;
return true;
}
private bool CheckRange(
ulong address,
ulong size,
MemoryState stateMask,
MemoryState stateExpected,
MemoryPermission permissionMask,
MemoryPermission permissionExpected,
MemoryAttribute attributeMask,
MemoryAttribute attributeExpected)
{
foreach (KMemoryInfo info in IterateOverRange(address, address + size))
{
// Check if the block state matches what we expect.
if ((info.State & stateMask) != stateExpected ||
(info.Permission & permissionMask) != permissionExpected ||
(info.Attribute & attributeMask) != attributeExpected)
{
return false;
}
}
return true;
}
private IEnumerable<KMemoryInfo> IterateOverRange(ulong start, ulong end)
{
LinkedListNode<KMemoryBlock> node = FindBlockNode(start);
KMemoryInfo info;
do
{
info = node.Value.GetInfo();
yield return info;
}
while (info.Address + info.Size - 1 < end - 1 && (node = node.Next) != null);
}
private void InsertBlock(
ulong baseAddress,
ulong pagesCount,
MemoryState oldState,
MemoryPermission oldPermission,
MemoryAttribute oldAttribute,
MemoryState newState,
MemoryPermission newPermission,
MemoryAttribute newAttribute)
{
// Insert new block on the list only on areas where the state
// of the block matches the state specified on the old* state
// arguments, otherwise leave it as is.
int oldCount = _blocks.Count;
oldAttribute |= MemoryAttribute.IpcAndDeviceMapped;
ulong endAddr = baseAddress + pagesCount * PageSize;
LinkedListNode<KMemoryBlock> node = _blocks.First;
while (node != null)
{
KMemoryBlock currBlock = node.Value;
LinkedListNode<KMemoryBlock> nextNode = node.Next;
ulong currBaseAddr = currBlock.BaseAddress;
ulong currEndAddr = currBlock.PagesCount * PageSize + currBaseAddr;
if (baseAddress < currEndAddr && currBaseAddr < endAddr)
{
MemoryAttribute currBlockAttr = currBlock.Attribute | MemoryAttribute.IpcAndDeviceMapped;
if (currBlock.State != oldState ||
currBlock.Permission != oldPermission ||
currBlockAttr != oldAttribute)
{
node = nextNode;
continue;
}
LinkedListNode<KMemoryBlock> newNode = node;
if (baseAddress > currBaseAddr)
{
_blocks.AddBefore(node, currBlock.SplitRightAtAddress(baseAddress));
}
if (endAddr < currEndAddr)
{
newNode = _blocks.AddBefore(node, currBlock.SplitRightAtAddress(endAddr));
}
newNode.Value.SetState(newPermission, newState, newAttribute);
MergeEqualStateNeighbors(newNode);
}
if (currEndAddr - 1 >= endAddr - 1)
{
break;
}
node = nextNode;
}
_blockAllocator.Count += _blocks.Count - oldCount;
}
private void InsertBlock(
ulong baseAddress,
ulong pagesCount,
MemoryState state,
MemoryPermission permission = MemoryPermission.None,
MemoryAttribute attribute = MemoryAttribute.None)
{
// Inserts new block at the list, replacing and splitting
// existing blocks as needed.
int oldCount = _blocks.Count;
ulong endAddr = baseAddress + pagesCount * PageSize;
LinkedListNode<KMemoryBlock> node = _blocks.First;
while (node != null)
{
KMemoryBlock currBlock = node.Value;
LinkedListNode<KMemoryBlock> nextNode = node.Next;
ulong currBaseAddr = currBlock.BaseAddress;
ulong currEndAddr = currBlock.PagesCount * PageSize + currBaseAddr;
if (baseAddress < currEndAddr && currBaseAddr < endAddr)
{
LinkedListNode<KMemoryBlock> newNode = node;
if (baseAddress > currBaseAddr)
{
_blocks.AddBefore(node, currBlock.SplitRightAtAddress(baseAddress));
}
if (endAddr < currEndAddr)
{
newNode = _blocks.AddBefore(node, currBlock.SplitRightAtAddress(endAddr));
}
newNode.Value.SetState(permission, state, attribute);
MergeEqualStateNeighbors(newNode);
}
if (currEndAddr - 1 >= endAddr - 1)
{
break;
}
node = nextNode;
}
_blockAllocator.Count += _blocks.Count - oldCount;
}
private static void SetIpcMappingPermissions(KMemoryBlock block, MemoryPermission permission)
{
block.SetIpcMappingPermission(permission);
}
private static void RestoreIpcMappingPermissions(KMemoryBlock block, MemoryPermission permission)
{
block.RestoreIpcMappingPermission();
}
private delegate void BlockMutator(KMemoryBlock block, MemoryPermission newPerm);
private void InsertBlock(
ulong baseAddress,
ulong pagesCount,
BlockMutator blockMutate,
MemoryPermission permission = MemoryPermission.None)
{
// Inserts new block at the list, replacing and splitting
// existing blocks as needed, then calling the callback
// function on the new block.
int oldCount = _blocks.Count;
ulong endAddr = baseAddress + pagesCount * PageSize;
LinkedListNode<KMemoryBlock> node = _blocks.First;
while (node != null)
{
KMemoryBlock currBlock = node.Value;
LinkedListNode<KMemoryBlock> nextNode = node.Next;
ulong currBaseAddr = currBlock.BaseAddress;
ulong currEndAddr = currBlock.PagesCount * PageSize + currBaseAddr;
if (baseAddress < currEndAddr && currBaseAddr < endAddr)
{
LinkedListNode<KMemoryBlock> newNode = node;
if (baseAddress > currBaseAddr)
{
_blocks.AddBefore(node, currBlock.SplitRightAtAddress(baseAddress));
}
if (endAddr < currEndAddr)
{
newNode = _blocks.AddBefore(node, currBlock.SplitRightAtAddress(endAddr));
}
KMemoryBlock newBlock = newNode.Value;
blockMutate(newBlock, permission);
MergeEqualStateNeighbors(newNode);
}
if (currEndAddr - 1 >= endAddr - 1)
{
break;
}
node = nextNode;
}
_blockAllocator.Count += _blocks.Count - oldCount;
}
private void MergeEqualStateNeighbors(LinkedListNode<KMemoryBlock> node)
{
KMemoryBlock block = node.Value;
if (node.Previous != null)
{
KMemoryBlock previousBlock = node.Previous.Value;
if (BlockStateEquals(block, previousBlock))
{
LinkedListNode<KMemoryBlock> previousNode = node.Previous;
_blocks.Remove(node);
previousBlock.AddPages(block.PagesCount);
node = previousNode;
block = previousBlock;
}
}
if (node.Next != null)
{
KMemoryBlock nextBlock = node.Next.Value;
if (BlockStateEquals(block, nextBlock))
{
_blocks.Remove(node.Next);
block.AddPages(nextBlock.PagesCount);
}
}
}
private static bool BlockStateEquals(KMemoryBlock lhs, KMemoryBlock rhs)
{
return lhs.State == rhs.State &&
lhs.Permission == rhs.Permission &&
lhs.Attribute == rhs.Attribute &&
lhs.SourcePermission == rhs.SourcePermission &&
lhs.DeviceRefCount == rhs.DeviceRefCount &&
lhs.IpcRefCount == rhs.IpcRefCount;
}
private ulong AllocateVa(
ulong regionStart,
ulong regionPagesCount,
ulong neededPagesCount,
int alignment)
{
ulong address = 0;
ulong regionEndAddr = regionStart + regionPagesCount * PageSize;
ulong reservedPagesCount = _isKernel ? 1UL : 4UL;
if (_aslrEnabled)
{
ulong totalNeededSize = (reservedPagesCount + neededPagesCount) * PageSize;
ulong remainingPages = regionPagesCount - neededPagesCount;
ulong aslrMaxOffset = ((remainingPages + reservedPagesCount) * PageSize) / (ulong)alignment;
for (int attempt = 0; attempt < 8; attempt++)
{
address = BitUtils.AlignDown(regionStart + GetRandomValue(0, aslrMaxOffset) * (ulong)alignment, alignment);
ulong endAddr = address + totalNeededSize;
KMemoryInfo info = FindBlock(address).GetInfo();
if (info.State != MemoryState.Unmapped)
{
continue;
}
ulong currBaseAddr = info.Address + reservedPagesCount * PageSize;
ulong currEndAddr = info.Address + info.Size;
if (address >= regionStart &&
address >= currBaseAddr &&
endAddr - 1 <= regionEndAddr - 1 &&
endAddr - 1 <= currEndAddr - 1)
{
break;
}
}
if (address == 0)
{
ulong aslrPage = GetRandomValue(0, aslrMaxOffset);
address = FindFirstFit(
regionStart + aslrPage * PageSize,
regionPagesCount - aslrPage,
neededPagesCount,
alignment,
0,
reservedPagesCount);
}
}
if (address == 0)
{
address = FindFirstFit(
regionStart,
regionPagesCount,
neededPagesCount,
alignment,
0,
reservedPagesCount);
}
return address;
}
private ulong FindFirstFit(
ulong regionStart,
ulong regionPagesCount,
ulong neededPagesCount,
int alignment,
ulong reservedStart,
ulong reservedPagesCount)
{
ulong reservedSize = reservedPagesCount * PageSize;
ulong totalNeededSize = reservedSize + neededPagesCount * PageSize;
ulong regionEndAddr = regionStart + regionPagesCount * PageSize;
LinkedListNode<KMemoryBlock> node = FindBlockNode(regionStart);
KMemoryInfo info = node.Value.GetInfo();
while (regionEndAddr >= info.Address)
{
if (info.State == MemoryState.Unmapped)
{
ulong currBaseAddr = info.Address + reservedSize;
ulong currEndAddr = info.Address + info.Size - 1;
ulong address = BitUtils.AlignDown(currBaseAddr, alignment) + reservedStart;
if (currBaseAddr > address)
{
address += (ulong)alignment;
}
ulong allocationEndAddr = address + totalNeededSize - 1;
if (allocationEndAddr <= regionEndAddr &&
allocationEndAddr <= currEndAddr &&
address < allocationEndAddr)
{
return address;
}
}
node = node.Next;
if (node == null)
{
break;
}
info = node.Value.GetInfo();
}
return 0;
}
private KMemoryBlock FindBlock(ulong address)
{
return FindBlockNode(address)?.Value;
}
private LinkedListNode<KMemoryBlock> FindBlockNode(ulong address)
{
lock (_blocks)
{
LinkedListNode<KMemoryBlock> node = _blocks.First;
while (node != null)
{
KMemoryBlock block = node.Value;
ulong currEndAddr = block.PagesCount * PageSize + block.BaseAddress;
if (block.BaseAddress <= address && currEndAddr - 1 >= address)
{
return node;
}
node = node.Next;
}
}
return null;
}
private bool ValidateRegionForState(ulong address, ulong size, MemoryState state)
{
ulong endAddr = address + size;
ulong regionBaseAddr = GetBaseAddrForState(state);
ulong regionEndAddr = regionBaseAddr + GetSizeForState(state);
bool InsideRegion()
{
return regionBaseAddr <= address &&
endAddr > address &&
endAddr - 1 <= regionEndAddr - 1;
}
bool OutsideHeapRegion()
{
return endAddr <= HeapRegionStart ||
address >= HeapRegionEnd;
}
bool OutsideMapRegion()
{
return endAddr <= AliasRegionStart ||
address >= AliasRegionEnd;
}
switch (state)
{
case MemoryState.Io:
case MemoryState.Normal:
case MemoryState.CodeStatic:
case MemoryState.CodeMutable:
case MemoryState.SharedMemory:
case MemoryState.ModCodeStatic:
case MemoryState.ModCodeMutable:
case MemoryState.Stack:
case MemoryState.ThreadLocal:
case MemoryState.TransferMemoryIsolated:
case MemoryState.TransferMemory:
case MemoryState.ProcessMemory:
case MemoryState.CodeReadOnly:
case MemoryState.CodeWritable:
return InsideRegion() && OutsideHeapRegion() && OutsideMapRegion();
case MemoryState.Heap:
return InsideRegion() && OutsideMapRegion();
case MemoryState.IpcBuffer0:
case MemoryState.IpcBuffer1:
case MemoryState.IpcBuffer3:
return InsideRegion() && OutsideHeapRegion();
case MemoryState.KernelStack:
return InsideRegion();
}
throw new ArgumentException($"Invalid state value \"{state}\".");
}
private ulong GetBaseAddrForState(MemoryState state)
{
switch (state)
{
case MemoryState.Io:
case MemoryState.Normal:
case MemoryState.ThreadLocal:
return TlsIoRegionStart;
case MemoryState.CodeStatic:
case MemoryState.CodeMutable:
case MemoryState.SharedMemory:
case MemoryState.ModCodeStatic:
case MemoryState.ModCodeMutable:
case MemoryState.TransferMemoryIsolated:
case MemoryState.TransferMemory:
case MemoryState.ProcessMemory:
case MemoryState.CodeReadOnly:
case MemoryState.CodeWritable:
return GetAddrSpaceBaseAddr();
case MemoryState.Heap:
return HeapRegionStart;
case MemoryState.IpcBuffer0:
case MemoryState.IpcBuffer1:
case MemoryState.IpcBuffer3:
return AliasRegionStart;
case MemoryState.Stack:
return StackRegionStart;
case MemoryState.KernelStack:
return AddrSpaceStart;
}
throw new ArgumentException($"Invalid state value \"{state}\".");
}
private ulong GetSizeForState(MemoryState state)
{
switch (state)
{
case MemoryState.Io:
case MemoryState.Normal:
case MemoryState.ThreadLocal:
return TlsIoRegionEnd - TlsIoRegionStart;
case MemoryState.CodeStatic:
case MemoryState.CodeMutable:
case MemoryState.SharedMemory:
case MemoryState.ModCodeStatic:
case MemoryState.ModCodeMutable:
case MemoryState.TransferMemoryIsolated:
case MemoryState.TransferMemory:
case MemoryState.ProcessMemory:
case MemoryState.CodeReadOnly:
case MemoryState.CodeWritable:
return GetAddrSpaceSize();
case MemoryState.Heap:
return HeapRegionEnd - HeapRegionStart;
case MemoryState.IpcBuffer0:
case MemoryState.IpcBuffer1:
case MemoryState.IpcBuffer3:
return AliasRegionEnd - AliasRegionStart;
case MemoryState.Stack:
return StackRegionEnd - StackRegionStart;
case MemoryState.KernelStack:
return AddrSpaceEnd - AddrSpaceStart;
}
throw new ArgumentException($"Invalid state value \"{state}\".");
}
public ulong GetAddrSpaceBaseAddr()
{
if (AddrSpaceWidth == 36 || AddrSpaceWidth == 39)
{
return 0x8000000;
}
else if (AddrSpaceWidth == 32)
{
return 0x200000;
}
else
{
throw new InvalidOperationException("Invalid address space width!");
}
}
public ulong GetAddrSpaceSize()
{
if (AddrSpaceWidth == 36)
{
return 0xff8000000;
}
else if (AddrSpaceWidth == 39)
{
return 0x7ff8000000;
}
else if (AddrSpaceWidth == 32)
{
return 0xffe00000;
}
else
{
throw new InvalidOperationException("Invalid address space width!");
}
}
private KernelResult MapPages(ulong address, KPageList pageList, MemoryPermission permission)
{
ulong currAddr = address;
KernelResult result = KernelResult.Success;
foreach (KPageNode pageNode in pageList)
{
result = DoMmuOperation(
currAddr,
pageNode.PagesCount,
pageNode.Address,
true,
permission,
MemoryOperation.MapPa);
if (result != KernelResult.Success)
{
KMemoryInfo info = FindBlock(currAddr).GetInfo();
ulong pagesCount = (address - currAddr) / PageSize;
result = MmuUnmap(address, pagesCount);
break;
}
currAddr += pageNode.PagesCount * PageSize;
}
return result;
}
private KernelResult MmuUnmap(ulong address, ulong pagesCount)
{
return DoMmuOperation(
address,
pagesCount,
0,
false,
MemoryPermission.None,
MemoryOperation.Unmap);
}
private KernelResult MmuChangePermission(ulong address, ulong pagesCount, MemoryPermission permission)
{
return DoMmuOperation(
address,
pagesCount,
0,
false,
permission,
MemoryOperation.ChangePermRw);
}
private KernelResult DoMmuOperation(
ulong dstVa,
ulong pagesCount,
ulong srcPa,
bool map,
MemoryPermission permission,
MemoryOperation operation)
{
if (map != (operation == MemoryOperation.MapPa))
{
throw new ArgumentException(nameof(map) + " value is invalid for this operation.");
}
KernelResult result;
switch (operation)
{
case MemoryOperation.MapPa:
{
ulong size = pagesCount * PageSize;
_cpuMemory.Map((long)dstVa, (long)(srcPa - DramMemoryMap.DramBase), (long)size);
result = KernelResult.Success;
break;
}
case MemoryOperation.Allocate:
{
KMemoryRegionManager region = GetMemoryRegionManager();
result = region.AllocatePages(pagesCount, _aslrDisabled, out KPageList pageList);
if (result == KernelResult.Success)
{
result = MmuMapPages(dstVa, pageList);
}
break;
}
case MemoryOperation.Unmap:
{
ulong size = pagesCount * PageSize;
_cpuMemory.Unmap((long)dstVa, (long)size);
result = KernelResult.Success;
break;
}
case MemoryOperation.ChangePermRw: result = KernelResult.Success; break;
case MemoryOperation.ChangePermsAndAttributes: result = KernelResult.Success; break;
default: throw new ArgumentException($"Invalid operation \"{operation}\".");
}
return result;
}
private KernelResult DoMmuOperation(
ulong address,
ulong pagesCount,
KPageList pageList,
MemoryPermission permission,
MemoryOperation operation)
{
if (operation != MemoryOperation.MapVa)
{
throw new ArgumentException($"Invalid memory operation \"{operation}\" specified.");
}
return MmuMapPages(address, pageList);
}
private KMemoryRegionManager GetMemoryRegionManager()
{
return _system.MemoryRegions[(int)_memRegion];
}
private KernelResult MmuMapPages(ulong address, KPageList pageList)
{
foreach (KPageNode pageNode in pageList)
{
ulong size = pageNode.PagesCount * PageSize;
_cpuMemory.Map((long)address, (long)(pageNode.Address - DramMemoryMap.DramBase), (long)size);
address += size;
}
return KernelResult.Success;
}
public ulong GetDramAddressFromVa(ulong va)
{
return (ulong)_cpuMemory.GetPhysicalAddress((long)va);
}
public bool ConvertVaToPa(ulong va, out ulong pa)
{
pa = DramMemoryMap.DramBase + (ulong)_cpuMemory.GetPhysicalAddress((long)va);
return true;
}
public static ulong GetDramAddressFromPa(ulong pa)
{
return pa - DramMemoryMap.DramBase;
}
public long GetMmUsedPages()
{
lock (_blocks)
{
return BitUtils.DivRoundUp(GetMmUsedSize(), PageSize);
}
}
private long GetMmUsedSize()
{
return _blocks.Count * KMemoryBlockSize;
}
public bool IsInvalidRegion(ulong address, ulong size)
{
return address + size - 1 > GetAddrSpaceBaseAddr() + GetAddrSpaceSize() - 1;
}
public bool InsideAddrSpace(ulong address, ulong size)
{
return AddrSpaceStart <= address && address + size - 1 <= AddrSpaceEnd - 1;
}
public bool InsideAliasRegion(ulong address, ulong size)
{
return address + size > AliasRegionStart && AliasRegionEnd > address;
}
public bool InsideHeapRegion(ulong address, ulong size)
{
return address + size > HeapRegionStart && HeapRegionEnd > address;
}
public bool InsideStackRegion(ulong address, ulong size)
{
return address + size > StackRegionStart && StackRegionEnd > address;
}
public bool OutsideAliasRegion(ulong address, ulong size)
{
return AliasRegionStart > address || address + size - 1 > AliasRegionEnd - 1;
}
public bool OutsideAddrSpace(ulong address, ulong size)
{
return AddrSpaceStart > address || address + size - 1 > AddrSpaceEnd - 1;
}
public bool OutsideStackRegion(ulong address, ulong size)
{
return StackRegionStart > address || address + size - 1 > StackRegionEnd - 1;
}
}
}