61634dd415
* Initial cache memory allocator implementation * Get rid of CallFlag * Perform cache cleanup on exit * Basic cache invalidation * Thats not how conditionals works in C# it seems * Set PTC version to PR number * Address PR feedback * Update InstEmitFlowHelper.cs * Flag clear on address is no longer needed * Do not include exit block in function size calculation * Dispose jump table * For future use * InternalVersion = 1519 (force retest). Co-authored-by: LDj3SNuD <35856442+LDj3SNuD@users.noreply.github.com>
269 lines
9.8 KiB
C#
269 lines
9.8 KiB
C#
using ARMeilleure.Diagnostics;
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using ARMeilleure.Memory;
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using ARMeilleure.Translation.PTC;
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using System;
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using System.Collections.Concurrent;
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using System.Collections.Generic;
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using System.Diagnostics;
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using System.Runtime.InteropServices;
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namespace ARMeilleure.Translation.Cache
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{
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class JumpTable : IDisposable
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{
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// The jump table is a block of (guestAddress, hostAddress) function mappings.
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// Each entry corresponds to one branch in a JIT compiled function. The entries are
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// reserved specifically for each call.
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// The _dependants dictionary can be used to update the hostAddress for any functions that change.
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public const int JumpTableStride = 16; // 8 byte guest address, 8 byte host address.
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private const int JumpTableSize = 1048576;
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private const int JumpTableByteSize = JumpTableSize * JumpTableStride;
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// The dynamic table is also a block of (guestAddress, hostAddress) function mappings.
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// The main difference is that indirect calls and jumps reserve _multiple_ entries on the table.
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// These start out as all 0. When an indirect call is made, it tries to find the guest address on the table.
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// If we get to an empty address, the guestAddress is set to the call that we want.
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// If we get to a guestAddress that matches our own (or we just claimed it), the hostAddress is read.
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// If it is non-zero, we immediately branch or call the host function.
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// If it is 0, NativeInterface is called to find the rejited address of the call.
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// If none is found, the hostAddress entry stays at 0. Otherwise, the new address is placed in the entry.
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// If the table size is exhausted and we didn't find our desired address, we fall back to requesting
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// the function from the JIT.
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public const int DynamicTableElems = 1;
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public const int DynamicTableStride = DynamicTableElems * JumpTableStride;
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private const int DynamicTableSize = 1048576;
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private const int DynamicTableByteSize = DynamicTableSize * DynamicTableStride;
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private const int DynamicEntryTag = 1 << 31;
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private readonly ReservedRegion _jumpRegion;
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private readonly ReservedRegion _dynamicRegion;
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public IntPtr JumpPointer => _jumpRegion.Pointer;
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public IntPtr DynamicPointer => _dynamicRegion.Pointer;
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public JumpTableEntryAllocator Table { get; }
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public JumpTableEntryAllocator DynTable { get; }
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public ConcurrentDictionary<ulong, TranslatedFunction> Targets { get; }
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public ConcurrentDictionary<ulong, List<int>> Dependants { get; } // TODO: Attach to TranslatedFunction or a wrapper class.
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public ConcurrentDictionary<ulong, List<int>> Owners { get; }
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public JumpTable(IJitMemoryAllocator allocator)
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{
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_jumpRegion = new ReservedRegion(allocator, JumpTableByteSize);
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_dynamicRegion = new ReservedRegion(allocator, DynamicTableByteSize);
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Table = new JumpTableEntryAllocator();
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DynTable = new JumpTableEntryAllocator();
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Targets = new ConcurrentDictionary<ulong, TranslatedFunction>();
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Dependants = new ConcurrentDictionary<ulong, List<int>>();
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Owners = new ConcurrentDictionary<ulong, List<int>>();
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Symbols.Add((ulong)_jumpRegion.Pointer.ToInt64(), JumpTableByteSize, JumpTableStride, "JMP_TABLE");
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Symbols.Add((ulong)_dynamicRegion.Pointer.ToInt64(), DynamicTableByteSize, DynamicTableStride, "DYN_TABLE");
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}
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public void Initialize(PtcJumpTable ptcJumpTable, ConcurrentDictionary<ulong, TranslatedFunction> funcs)
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{
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foreach (ulong guestAddress in ptcJumpTable.Targets)
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{
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if (funcs.TryGetValue(guestAddress, out TranslatedFunction func))
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{
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Targets.TryAdd(guestAddress, func);
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}
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else
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{
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throw new KeyNotFoundException($"({nameof(guestAddress)} = 0x{guestAddress:X16})");
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}
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}
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foreach (var item in ptcJumpTable.Dependants)
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{
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Dependants.TryAdd(item.Key, new List<int>(item.Value));
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}
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foreach (var item in ptcJumpTable.Owners)
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{
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Owners.TryAdd(item.Key, new List<int>(item.Value));
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}
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}
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public void RegisterFunction(ulong address, TranslatedFunction func)
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{
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Targets.AddOrUpdate(address, func, (key, oldFunc) => func);
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long funcPtr = func.FuncPtr.ToInt64();
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// Update all jump table entries that target this address.
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if (Dependants.TryGetValue(address, out List<int> myDependants))
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{
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lock (myDependants)
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{
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foreach (int entry in myDependants)
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{
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IntPtr addr = GetEntryAddressJumpTable(entry);
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Marshal.WriteInt64(addr, 8, funcPtr);
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}
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}
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}
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}
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public int ReserveTableEntry(ulong ownerGuestAddress, ulong address, bool isJump)
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{
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int entry = Table.AllocateEntry();
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ExpandIfNeededJumpTable(entry);
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// Is the address we have already registered? If so, put the function address in the jump table.
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// If not, it will point to the direct call stub.
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long value = DirectCallStubs.DirectCallStub(isJump).ToInt64();
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if (Targets.TryGetValue(address, out TranslatedFunction func))
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{
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value = func.FuncPtr.ToInt64();
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}
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// Make sure changes to the function at the target address update this jump table entry.
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List<int> targetDependants = Dependants.GetOrAdd(address, (addr) => new List<int>());
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lock (targetDependants)
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{
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targetDependants.Add(entry);
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}
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// Keep track of ownership for jump table entries.
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List<int> ownerEntries = Owners.GetOrAdd(ownerGuestAddress, (addr) => new List<int>());
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lock (ownerEntries)
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{
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ownerEntries.Add(entry);
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}
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IntPtr addr = GetEntryAddressJumpTable(entry);
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Marshal.WriteInt64(addr, 0, (long)address);
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Marshal.WriteInt64(addr, 8, value);
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return entry;
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}
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public int ReserveDynamicEntry(ulong ownerGuestAddress, bool isJump)
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{
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int entry = DynTable.AllocateEntry();
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ExpandIfNeededDynamicTable(entry);
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// Keep track of ownership for jump table entries.
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List<int> ownerEntries = Owners.GetOrAdd(ownerGuestAddress, (addr) => new List<int>());
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lock (ownerEntries)
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{
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ownerEntries.Add(entry | DynamicEntryTag);
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}
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// Initialize all host function pointers to the indirect call stub.
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IntPtr addr = GetEntryAddressDynamicTable(entry);
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long stubPtr = DirectCallStubs.IndirectCallStub(isJump).ToInt64();
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for (int i = 0; i < DynamicTableElems; i++)
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{
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Marshal.WriteInt64(addr, i * JumpTableStride + 8, stubPtr);
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}
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return entry;
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}
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// For future use.
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public void RemoveFunctionEntries(ulong guestAddress)
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{
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if (Owners.TryRemove(guestAddress, out List<int> list))
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{
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for (int i = 0; i < list.Count; i++)
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{
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int entry = list[i];
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bool isDynamic = (entry & DynamicEntryTag) != 0;
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entry &= ~DynamicEntryTag;
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if (isDynamic)
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{
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IntPtr addr = GetEntryAddressDynamicTable(entry);
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for (int j = 0; j < DynamicTableElems; j++)
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{
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Marshal.WriteInt64(addr + j * JumpTableStride, 0, 0L);
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Marshal.WriteInt64(addr + j * JumpTableStride, 8, 0L);
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}
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DynTable.FreeEntry(entry);
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}
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else
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{
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IntPtr addr = GetEntryAddressJumpTable(entry);
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Marshal.WriteInt64(addr, 0, 0L);
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Marshal.WriteInt64(addr, 8, 0L);
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Table.FreeEntry(entry);
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}
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}
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}
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}
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public void ExpandIfNeededJumpTable(int entry)
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{
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Debug.Assert(entry >= 0);
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if (entry < JumpTableSize)
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{
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_jumpRegion.ExpandIfNeeded((ulong)((entry + 1) * JumpTableStride));
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}
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else
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{
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throw new OutOfMemoryException("JIT Direct Jump Table exhausted.");
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}
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}
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public void ExpandIfNeededDynamicTable(int entry)
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{
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Debug.Assert(entry >= 0);
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if (entry < DynamicTableSize)
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{
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_dynamicRegion.ExpandIfNeeded((ulong)((entry + 1) * DynamicTableStride));
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}
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else
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{
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throw new OutOfMemoryException("JIT Dynamic Jump Table exhausted.");
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}
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}
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public IntPtr GetEntryAddressJumpTable(int entry)
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{
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Debug.Assert(Table.EntryIsValid(entry));
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return _jumpRegion.Pointer + entry * JumpTableStride;
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}
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public IntPtr GetEntryAddressDynamicTable(int entry)
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{
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Debug.Assert(DynTable.EntryIsValid(entry));
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return _dynamicRegion.Pointer + entry * DynamicTableStride;
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}
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public void Dispose()
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{
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_jumpRegion.Dispose();
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_dynamicRegion.Dispose();
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}
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}
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}
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