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using Ryujinx.Common.Collections ;
using System.Collections.Generic ;
using System ;
using Ryujinx.Graphics.Gpu.Memory ;
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using Ryujinx.Common.Logging ;
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namespace Ryujinx.HLE.HOS.Services.Nv.NvDrvServices
{
class NvMemoryAllocator
{
private const ulong AddressSpaceSize = 1 UL < < 40 ;
private const ulong DefaultStart = 1 UL < < 32 ;
private const ulong InvalidAddress = 0 ;
private const ulong PageSize = MemoryManager . PageSize ;
private const ulong PageMask = MemoryManager . PageMask ;
public const ulong PteUnmapped = MemoryManager . PteUnmapped ;
// Key --> Start Address of Region
// Value --> End Address of Region
private readonly TreeDictionary < ulong , ulong > _tree = new TreeDictionary < ulong , ulong > ( ) ;
private readonly Dictionary < ulong , LinkedListNode < ulong > > _dictionary = new Dictionary < ulong , LinkedListNode < ulong > > ( ) ;
private readonly LinkedList < ulong > _list = new LinkedList < ulong > ( ) ;
public NvMemoryAllocator ( )
{
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_tree . Add ( PageSize , AddressSpaceSize ) ;
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LinkedListNode < ulong > node = _list . AddFirst ( PageSize ) ;
_dictionary [ PageSize ] = node ;
}
/// <summary>
/// Marks a range of memory as consumed by removing it from the tree.
/// This function will split memory regions if there is available space.
/// </summary>
/// <param name="va">Virtual address at which to allocate</param>
/// <param name="size">Size of the allocation in bytes</param>
/// <param name="referenceAddress">Reference to the address of memory where the allocation can take place</param>
#region Memory Allocation
public void AllocateRange ( ulong va , ulong size , ulong referenceAddress = InvalidAddress )
{
lock ( _tree )
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Allocating range from 0x{va:X} to 0x{(va + size):X}." ) ;
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if ( referenceAddress ! = InvalidAddress )
{
ulong endAddress = va + size ;
ulong referenceEndAddress = _tree . Get ( referenceAddress ) ;
if ( va > = referenceAddress )
{
// Need Left Node
if ( va > referenceAddress )
{
ulong leftEndAddress = va ;
// Overwrite existing block with its new smaller range.
_tree . Add ( referenceAddress , leftEndAddress ) ;
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Created smaller address range from 0x{referenceAddress:X} to 0x{leftEndAddress:X}." ) ;
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}
else
{
// We need to get rid of the large chunk.
_tree . Remove ( referenceAddress ) ;
}
ulong rightSize = referenceEndAddress - endAddress ;
// If leftover space, create a right node.
if ( rightSize > 0 )
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Created smaller address range from 0x{endAddress:X} to 0x{referenceEndAddress:X}." ) ;
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_tree . Add ( endAddress , referenceEndAddress ) ;
LinkedListNode < ulong > node = _list . AddAfter ( _dictionary [ referenceAddress ] , endAddress ) ;
_dictionary [ endAddress ] = node ;
}
if ( va = = referenceAddress )
{
_list . Remove ( _dictionary [ referenceAddress ] ) ;
_dictionary . Remove ( referenceAddress ) ;
}
}
}
}
}
/// <summary>
/// Marks a range of memory as free by adding it to the tree.
/// This function will automatically compact the tree when it determines there are multiple ranges of free memory adjacent to each other.
/// </summary>
/// <param name="va">Virtual address at which to deallocate</param>
/// <param name="size">Size of the allocation in bytes</param>
public void DeallocateRange ( ulong va , ulong size )
{
lock ( _tree )
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Deallocating address range from 0x{va:X} to 0x{(va + size):X}." ) ;
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ulong freeAddressStartPosition = _tree . Floor ( va ) ;
if ( freeAddressStartPosition ! = InvalidAddress )
{
LinkedListNode < ulong > node = _dictionary [ freeAddressStartPosition ] ;
ulong targetPrevAddress = _dictionary [ freeAddressStartPosition ] . Previous ! = null ? _dictionary [ _dictionary [ freeAddressStartPosition ] . Previous . Value ] . Value : InvalidAddress ;
ulong targetNextAddress = _dictionary [ freeAddressStartPosition ] . Next ! = null ? _dictionary [ _dictionary [ freeAddressStartPosition ] . Next . Value ] . Value : InvalidAddress ;
ulong expandedStart = va ;
ulong expandedEnd = va + size ;
while ( targetPrevAddress ! = InvalidAddress )
{
ulong prevAddress = targetPrevAddress ;
ulong prevEndAddress = _tree . Get ( targetPrevAddress ) ;
if ( prevEndAddress > = expandedStart )
{
expandedStart = targetPrevAddress ;
LinkedListNode < ulong > prevPtr = _dictionary [ prevAddress ] ;
if ( prevPtr . Previous ! = null )
{
targetPrevAddress = prevPtr . Previous . Value ;
}
else
{
targetPrevAddress = InvalidAddress ;
}
node = node . Previous ;
_tree . Remove ( prevAddress ) ;
_list . Remove ( _dictionary [ prevAddress ] ) ;
_dictionary . Remove ( prevAddress ) ;
}
else
{
break ;
}
}
while ( targetNextAddress ! = InvalidAddress )
{
ulong nextAddress = targetNextAddress ;
ulong nextEndAddress = _tree . Get ( targetNextAddress ) ;
if ( nextAddress < = expandedEnd )
{
expandedEnd = Math . Max ( expandedEnd , nextEndAddress ) ;
LinkedListNode < ulong > nextPtr = _dictionary [ nextAddress ] ;
if ( nextPtr . Next ! = null )
{
targetNextAddress = nextPtr . Next . Value ;
}
else
{
targetNextAddress = InvalidAddress ;
}
_tree . Remove ( nextAddress ) ;
_list . Remove ( _dictionary [ nextAddress ] ) ;
_dictionary . Remove ( nextAddress ) ;
}
else
{
break ;
}
}
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Deallocation resulted in new free range from 0x{expandedStart:X} to 0x{expandedEnd:X}." ) ;
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_tree . Add ( expandedStart , expandedEnd ) ;
LinkedListNode < ulong > nodePtr = _list . AddAfter ( node , expandedStart ) ;
_dictionary [ expandedStart ] = nodePtr ;
}
}
}
/// <summary>
/// Gets the address of an unused (free) region of the specified size.
/// </summary>
/// <param name="size">Size of the region in bytes</param>
/// <param name="freeAddressStartPosition">Position at which memory can be allocated</param>
/// <param name="alignment">Required alignment of the region address in bytes</param>
/// <param name="start">Start address of the search on the address space</param>
/// <returns>GPU virtual address of the allocation, or an all ones mask in case of failure</returns>
public ulong GetFreeAddress ( ulong size , out ulong freeAddressStartPosition , ulong alignment = 1 , ulong start = DefaultStart )
{
// Note: Address 0 is not considered valid by the driver,
// when 0 is returned it's considered a mapping error.
lock ( _tree )
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Searching for a free address @ 0x{start:X} of size 0x{size:X}." ) ;
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ulong address = start ;
if ( alignment = = 0 )
{
alignment = 1 ;
}
alignment = ( alignment + PageMask ) & ~ PageMask ;
if ( address < AddressSpaceSize )
{
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bool reachedEndOfAddresses = false ;
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ulong targetAddress ;
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if ( start = = DefaultStart )
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{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Target address set to start of the last available range: 0x{_list.Last.Value:X}." ) ;
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targetAddress = _list . Last . Value ;
}
else
{
targetAddress = _tree . Floor ( address ) ;
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Target address set to floor of 0x{address:X}; resulted in 0x{targetAddress:X}." ) ;
if ( targetAddress = = InvalidAddress )
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{
targetAddress = _tree . Ceiling ( address ) ;
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Target address was invalid, set to ceiling of 0x{address:X}; resulted in 0x{targetAddress:X}" ) ;
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}
}
while ( address < AddressSpaceSize )
{
if ( targetAddress ! = InvalidAddress )
{
if ( address > = targetAddress )
{
if ( address + size < = _tree . Get ( targetAddress ) )
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Found a suitable free address range from 0x{targetAddress:X} to 0x{_tree.Get(targetAddress):X} for 0x{address:X}." ) ;
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freeAddressStartPosition = targetAddress ;
return address ;
}
else
{
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Logger . Debug ? . Print ( LogClass . ServiceNv , "Address requirements exceeded the available space in the target range." ) ;
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LinkedListNode < ulong > nextPtr = _dictionary [ targetAddress ] ;
if ( nextPtr . Next ! = null )
{
targetAddress = nextPtr . Next . Value ;
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Moved search to successor range starting at 0x{targetAddress:X}." ) ;
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}
else
{
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if ( reachedEndOfAddresses )
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{
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Logger . Debug ? . Print ( LogClass . ServiceNv , "Exiting loop, a full pass has already been completed w/ no suitable free address range." ) ;
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break ;
}
else
{
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reachedEndOfAddresses = true ;
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address = start ;
targetAddress = _tree . Floor ( address ) ;
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Reached the end of the available free ranges, restarting loop @ 0x{targetAddress:X} for 0x{address:X}." ) ;
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}
}
}
}
else
{
address + = PageSize * ( targetAddress / PageSize - ( address / PageSize ) ) ;
ulong remainder = address % alignment ;
if ( remainder ! = 0 )
{
address = ( address - remainder ) + alignment ;
}
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"Reset and aligned address to {address:X}." ) ;
if ( address + size > AddressSpaceSize & & ! reachedEndOfAddresses )
{
reachedEndOfAddresses = true ;
address = start ;
targetAddress = _tree . Floor ( address ) ;
Logger . Debug ? . Print ( LogClass . ServiceNv , $"Address requirements exceeded the capacity of available address space, restarting loop @ 0x{targetAddress:X} for 0x{address:X}." ) ;
}
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}
}
else
{
break ;
}
}
}
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Logger . Debug ? . Print ( LogClass . ServiceNv , $"No suitable address range found; returning: 0x{InvalidAddress:X}." ) ;
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freeAddressStartPosition = InvalidAddress ;
}
return PteUnmapped ;
}
/// <summary>
/// Checks if a given memory region is mapped or reserved.
/// </summary>
/// <param name="gpuVa">GPU virtual address of the page</param>
/// <param name="size">Size of the allocation in bytes</param>
/// <param name="freeAddressStartPosition">Nearest lower address that memory can be allocated</param>
/// <returns>True if the page is mapped or reserved, false otherwise</returns>
public bool IsRegionInUse ( ulong gpuVa , ulong size , out ulong freeAddressStartPosition )
{
lock ( _tree )
{
ulong floorAddress = _tree . Floor ( gpuVa ) ;
freeAddressStartPosition = floorAddress ;
if ( floorAddress ! = InvalidAddress )
{
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return ! ( gpuVa > = floorAddress & & ( ( gpuVa + size ) < = _tree . Get ( floorAddress ) ) ) ;
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}
}
return true ;
}
#endregion
}
}