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ryujinx-final/ARMeilleure/Translation/JumpTable.cs
Ficture Seven 180ad8605d
Improve IRDumper (#1135)
* Improve IRDumper

* Make Symbols.Add(ulong, ulong, ulong, string) thread safe

* Use a StringBuilder for MemoryOperand

* Add #if M_DEBUG guards

* Fix JMP_TABLE typo

* Fix using in Symbols

* Use Conditional("M_DEBUG") instead

Address gdkchan's feedback

* Use a struct instead of 4-tuple

Address gdkchan's feedback

* Place symbols in comments instead

Address gdkchan's feedback

* Use StringBuilder throughout

* Handle offsetted symbols

* Fix naming convention of Builder

* Avoid ArgumentException

* Remove unnecessary using

* Use switch expression instead

* Turn into a class

* Clean up

* Remove unnecessary using
2020-05-04 12:06:22 +10:00

145 lines
6 KiB
C#

using ARMeilleure.Diagnostics;
using ARMeilleure.Memory;
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Runtime.InteropServices;
using System.Threading;
namespace ARMeilleure.Translation
{
class JumpTable
{
// The jump table is a block of (guestAddress, hostAddress) function mappings.
// Each entry corresponds to one branch in a JIT compiled function. The entries are
// reserved specifically for each call.
// The _dependants dictionary can be used to update the hostAddress for any functions that change.
public const int JumpTableStride = 16; // 8 byte guest address, 8 byte host address
private const int JumpTableSize = 1048576;
private const int JumpTableByteSize = JumpTableSize * JumpTableStride;
// The dynamic table is also a block of (guestAddress, hostAddress) function mappings.
// The main difference is that indirect calls and jumps reserve _multiple_ entries on the table.
// These start out as all 0. When an indirect call is made, it tries to find the guest address on the table.
// If we get to an empty address, the guestAddress is set to the call that we want.
// If we get to a guestAddress that matches our own (or we just claimed it), the hostAddress is read.
// If it is non-zero, we immediately branch or call the host function.
// If it is 0, NativeInterface is called to find the rejited address of the call.
// If none is found, the hostAddress entry stays at 0. Otherwise, the new address is placed in the entry.
// If the table size is exhausted and we didn't find our desired address, we fall back to requesting
// the function from the JIT.
private const int DynamicTableSize = 1048576;
public const int DynamicTableElems = 1;
public const int DynamicTableStride = DynamicTableElems * JumpTableStride;
private const int DynamicTableByteSize = DynamicTableSize * JumpTableStride * DynamicTableElems;
private int _tableEnd = 0;
private int _dynTableEnd = 0;
private ConcurrentDictionary<ulong, TranslatedFunction> _targets;
private ConcurrentDictionary<ulong, LinkedList<int>> _dependants; // TODO: Attach to TranslatedFunction or a wrapper class.
private ReservedRegion _jumpRegion;
private ReservedRegion _dynamicRegion;
public IntPtr JumpPointer => _jumpRegion.Pointer;
public IntPtr DynamicPointer => _dynamicRegion.Pointer;
public JumpTable(IJitMemoryAllocator allocator)
{
_jumpRegion = new ReservedRegion(allocator, JumpTableByteSize);
_dynamicRegion = new ReservedRegion(allocator, DynamicTableByteSize);
_targets = new ConcurrentDictionary<ulong, TranslatedFunction>();
_dependants = new ConcurrentDictionary<ulong, LinkedList<int>>();
Symbols.Add((ulong)_jumpRegion.Pointer.ToInt64(), JumpTableByteSize, JumpTableStride, "JMP_TABLE");
Symbols.Add((ulong)_dynamicRegion.Pointer.ToInt64(), DynamicTableByteSize, DynamicTableStride, "DYN_TABLE");
}
public void RegisterFunction(ulong address, TranslatedFunction func)
{
address &= ~3UL;
_targets.AddOrUpdate(address, func, (key, oldFunc) => func);
long funcPtr = func.GetPointer().ToInt64();
// Update all jump table entries that target this address.
if (_dependants.TryGetValue(address, out LinkedList<int> myDependants))
{
lock (myDependants)
{
foreach (var entry in myDependants)
{
IntPtr addr = _jumpRegion.Pointer + entry * JumpTableStride;
Marshal.WriteInt64(addr, 8, funcPtr);
}
}
}
}
public int ReserveDynamicEntry(bool isJump)
{
int entry = Interlocked.Increment(ref _dynTableEnd);
if (entry >= DynamicTableSize)
{
throw new OutOfMemoryException("JIT Dynamic Jump Table exhausted.");
}
_dynamicRegion.ExpandIfNeeded((ulong)((entry + 1) * DynamicTableStride));
// Initialize all host function pointers to the indirect call stub.
IntPtr addr = _dynamicRegion.Pointer + entry * DynamicTableStride;
long stubPtr = (long)DirectCallStubs.IndirectCallStub(isJump);
for (int i = 0; i < DynamicTableElems; i++)
{
Marshal.WriteInt64(addr, i * JumpTableStride + 8, stubPtr);
}
return entry;
}
public int ReserveTableEntry(long ownerAddress, long address, bool isJump)
{
int entry = Interlocked.Increment(ref _tableEnd);
if (entry >= JumpTableSize)
{
throw new OutOfMemoryException("JIT Direct Jump Table exhausted.");
}
_jumpRegion.ExpandIfNeeded((ulong)((entry + 1) * JumpTableStride));
// Is the address we have already registered? If so, put the function address in the jump table.
// If not, it will point to the direct call stub.
long value = (long)DirectCallStubs.DirectCallStub(isJump);
if (_targets.TryGetValue((ulong)address, out TranslatedFunction func))
{
value = func.GetPointer().ToInt64();
}
// Make sure changes to the function at the target address update this jump table entry.
LinkedList<int> targetDependants = _dependants.GetOrAdd((ulong)address, (addr) => new LinkedList<int>());
lock (targetDependants)
{
targetDependants.AddLast(entry);
}
IntPtr addr = _jumpRegion.Pointer + entry * JumpTableStride;
Marshal.WriteInt64(addr, 0, address);
Marshal.WriteInt64(addr, 8, value);
return entry;
}
}
}