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Free up memory allocated by Pools during any PPTC translations at boot time. (#1814)

* Added support for offline invalidation, via PPTC, of low cq translations replaced by high cq translations; both on a single run and between runs.

Added invalidation of .cache files in the event of reuse on a different user operating system.

Added .info and .cache files invalidation in case of a failed stream decompression.

Nits.

* InternalVersion = 1712;

* Nits.

* Address comment.

* Get rid of BinaryFormatter.

Nits.

* Move Ptc.LoadTranslations().

Nits.

* Nits.

* Fixed corner cases (in case backup copies have to be used). Added save logs.

* Not core fixes.

* Complement to the previous commit. Added load logs. Removed BinaryFormatter leftovers.

* Add LoadTranslations log.

* Nits.

* Removed the search and management of LowCq overlapping functions.

* Final increment of .info and .cache flags.

* Nit.

* Free up memory allocated by Pools during any PPTC translations at boot time.

* Nit due to rebase.
This commit is contained in:
LDj3SNuD 2020-12-24 03:58:36 +01:00 committed by GitHub
parent 8a33e884f8
commit 2502f1f07f
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8 changed files with 93 additions and 37 deletions

View file

@ -1,6 +1,4 @@
using System; namespace ARMeilleure.Common
namespace ARMeilleure.Common
{ {
static class BitMapPool static class BitMapPool
{ {
@ -8,6 +6,7 @@ namespace ARMeilleure.Common
{ {
BitMap result = ThreadStaticPool<BitMap>.Instance.Allocate(); BitMap result = ThreadStaticPool<BitMap>.Instance.Allocate();
result.Reset(initialCapacity); result.Reset(initialCapacity);
return result; return result;
} }

View file

@ -5,12 +5,13 @@ using System.Threading;
namespace ARMeilleure.Common namespace ARMeilleure.Common
{ {
internal class ThreadStaticPool<T> where T : class, new() class ThreadStaticPool<T> where T : class, new()
{ {
private const int PoolSizeIncrement = 200; private const int PoolSizeIncrement = 200;
[ThreadStatic] [ThreadStatic]
private static ThreadStaticPool<T> _instance; private static ThreadStaticPool<T> _instance;
public static ThreadStaticPool<T> Instance public static ThreadStaticPool<T> Instance
{ {
get get
@ -19,6 +20,7 @@ namespace ARMeilleure.Common
{ {
PreparePool(0); // So that we can still use a pool when blindly initializing one. PreparePool(0); // So that we can still use a pool when blindly initializing one.
} }
return _instance; return _instance;
} }
} }
@ -33,9 +35,10 @@ namespace ARMeilleure.Common
public static void PreparePool(int groupId) public static void PreparePool(int groupId)
{ {
// Prepare the pool for this thread, ideally using an existing one from the specified group. // Prepare the pool for this thread, ideally using an existing one from the specified group.
if (_instance == null) if (_instance == null)
{ {
Stack<ThreadStaticPool<T>> pools = GetPools(groupId); var pools = GetPools(groupId);
lock (pools) lock (pools)
{ {
_instance = (pools.Count != 0) ? pools.Pop() : new ThreadStaticPool<T>(PoolSizeIncrement * 2); _instance = (pools.Count != 0) ? pools.Pop() : new ThreadStaticPool<T>(PoolSizeIncrement * 2);
@ -46,15 +49,29 @@ namespace ARMeilleure.Common
public static void ReturnPool(int groupId) public static void ReturnPool(int groupId)
{ {
// Reset and return the pool for this thread to the specified group. // Reset and return the pool for this thread to the specified group.
Stack<ThreadStaticPool<T>> pools = GetPools(groupId);
var pools = GetPools(groupId);
lock (pools) lock (pools)
{ {
_instance.Clear(); _instance.Clear();
pools.Push(_instance); pools.Push(_instance);
_instance = null; _instance = null;
} }
} }
public static void ResetPools()
{
// Resets any static references to the pools used by threads for each group, allowing them to be garbage collected.
foreach (var pools in _pools.Values)
{
pools.Clear();
}
_pools.Clear();
}
private T[] _pool; private T[] _pool;
private int _poolUsed = -1; private int _poolUsed = -1;
private int _poolSize; private int _poolSize;
@ -74,10 +91,12 @@ namespace ARMeilleure.Common
public T Allocate() public T Allocate()
{ {
int index = Interlocked.Increment(ref _poolUsed); int index = Interlocked.Increment(ref _poolUsed);
if (index >= _poolSize) if (index >= _poolSize)
{ {
IncreaseSize(); IncreaseSize();
} }
return _pool[index]; return _pool[index];
} }

View file

@ -90,10 +90,16 @@ namespace ARMeilleure.IntermediateRepresentation
ThreadStaticPool<MemoryOperand>.PreparePool(highCq ? 1 : 0); ThreadStaticPool<MemoryOperand>.PreparePool(highCq ? 1 : 0);
} }
public static void ResetOperandPool(bool highCq) public static void ReturnOperandPool(bool highCq)
{ {
ThreadStaticPool<Operand>.ReturnPool(highCq ? 1 : 0); ThreadStaticPool<Operand>.ReturnPool(highCq ? 1 : 0);
ThreadStaticPool<MemoryOperand>.ReturnPool(highCq ? 1 : 0); ThreadStaticPool<MemoryOperand>.ReturnPool(highCq ? 1 : 0);
} }
public static void ResetOperandPools()
{
ThreadStaticPool<Operand>.ResetPools();
ThreadStaticPool<MemoryOperand>.ResetPools();
}
} }
} }

View file

@ -51,9 +51,14 @@ namespace ARMeilleure.IntermediateRepresentation
ThreadStaticPool<Operation>.PreparePool(highCq ? 1 : 0); ThreadStaticPool<Operation>.PreparePool(highCq ? 1 : 0);
} }
public static void ResetOperationPool(bool highCq) public static void ReturnOperationPool(bool highCq)
{ {
ThreadStaticPool<Operation>.ReturnPool(highCq ? 1 : 0); ThreadStaticPool<Operation>.ReturnPool(highCq ? 1 : 0);
} }
public static void ResetOperationPools()
{
ThreadStaticPool<Operation>.ResetPools();
}
} }
} }

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@ -34,6 +34,8 @@ namespace ARMeilleure.Translation
_indirectCallStubPtr = Marshal.GetFunctionPointerForDelegate<GuestFunction>(GenerateIndirectCallStub(false)); _indirectCallStubPtr = Marshal.GetFunctionPointerForDelegate<GuestFunction>(GenerateIndirectCallStub(false));
_indirectTailCallStubPtr = Marshal.GetFunctionPointerForDelegate<GuestFunction>(GenerateIndirectCallStub(true)); _indirectTailCallStubPtr = Marshal.GetFunctionPointerForDelegate<GuestFunction>(GenerateIndirectCallStub(true));
Translator.ResetPools();
_initialized = true; _initialized = true;
} }
} }

View file

@ -8,13 +8,13 @@ using Ryujinx.Common.Logging;
using System; using System;
using System.Buffers.Binary; using System.Buffers.Binary;
using System.Collections.Concurrent; using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Diagnostics; using System.Diagnostics;
using System.IO; using System.IO;
using System.IO.Compression; using System.IO.Compression;
using System.Runtime.InteropServices; using System.Runtime.InteropServices;
using System.Security.Cryptography; using System.Security.Cryptography;
using System.Threading; using System.Threading;
using System.Threading.Tasks;
namespace ARMeilleure.Translation.PTC namespace ARMeilleure.Translation.PTC
{ {
@ -664,35 +664,50 @@ namespace ARMeilleure.Translation.PTC
ThreadPool.QueueUserWorkItem(TranslationLogger, profiledFuncsToTranslate.Count); ThreadPool.QueueUserWorkItem(TranslationLogger, profiledFuncsToTranslate.Count);
void TranslateFuncs()
{
while (profiledFuncsToTranslate.TryDequeue(out var item))
{
ulong address = item.address;
Debug.Assert(PtcProfiler.IsAddressInStaticCodeRange(address));
TranslatedFunction func = Translator.Translate(memory, jumpTable, address, item.mode, item.highCq);
bool isAddressUnique = funcs.TryAdd(address, func);
Debug.Assert(isAddressUnique, $"The address 0x{address:X16} is not unique.");
Interlocked.Increment(ref _translateCount);
if (State != PtcState.Enabled)
{
break;
}
}
}
int maxDegreeOfParallelism = (Environment.ProcessorCount * 3) / 4; int maxDegreeOfParallelism = (Environment.ProcessorCount * 3) / 4;
Parallel.ForEach(profiledFuncsToTranslate, new ParallelOptions { MaxDegreeOfParallelism = maxDegreeOfParallelism }, (item, state) => List<Thread> threads = new List<Thread>();
for (int i = 0; i < maxDegreeOfParallelism; i++)
{ {
ulong address = item.Key; Thread thread = new Thread(TranslateFuncs);
thread.IsBackground = true;
Debug.Assert(PtcProfiler.IsAddressInStaticCodeRange(address)); threads.Add(thread);
}
TranslatedFunction func = Translator.Translate(memory, jumpTable, address, item.Value.mode, item.Value.highCq); threads.ForEach((thread) => thread.Start());
threads.ForEach((thread) => thread.Join());
bool isAddressUnique = funcs.TryAdd(address, func); threads.Clear();
Debug.Assert(isAddressUnique, $"The address 0x{address:X16} is not unique.");
if (func.HighCq)
{
jumpTable.RegisterFunction(address, func);
}
Interlocked.Increment(ref _translateCount);
if (State != PtcState.Enabled)
{
state.Stop();
}
});
_loggerEvent.Set(); _loggerEvent.Set();
Translator.ResetPools();
PtcJumpTable.Initialize(jumpTable); PtcJumpTable.Initialize(jumpTable);
PtcJumpTable.ReadJumpTable(jumpTable); PtcJumpTable.ReadJumpTable(jumpTable);

View file

@ -85,15 +85,17 @@ namespace ARMeilleure.Translation.PTC
return address >= StaticCodeStart && address < StaticCodeStart + StaticCodeSize; return address >= StaticCodeStart && address < StaticCodeStart + StaticCodeSize;
} }
internal static Dictionary<ulong, (ExecutionMode mode, bool highCq)> GetProfiledFuncsToTranslate(ConcurrentDictionary<ulong, TranslatedFunction> funcs) internal static ConcurrentQueue<(ulong address, ExecutionMode mode, bool highCq)> GetProfiledFuncsToTranslate(ConcurrentDictionary<ulong, TranslatedFunction> funcs)
{ {
var profiledFuncsToTranslate = new Dictionary<ulong, (ExecutionMode mode, bool highCq)>(ProfiledFuncs); var profiledFuncsToTranslate = new ConcurrentQueue<(ulong address, ExecutionMode mode, bool highCq)>();
foreach (ulong address in profiledFuncsToTranslate.Keys) foreach (var profiledFunc in ProfiledFuncs)
{ {
if (funcs.ContainsKey(address)) ulong address = profiledFunc.Key;
if (!funcs.ContainsKey(address))
{ {
profiledFuncsToTranslate.Remove(address); profiledFuncsToTranslate.Enqueue((address, profiledFunc.Value.mode, profiledFunc.Value.highCq));
} }
} }

View file

@ -148,6 +148,8 @@ namespace ARMeilleure.Translation
ClearJitCache(); ClearJitCache();
ResetPools();
_jumpTable.Dispose(); _jumpTable.Dispose();
_jumpTable = null; _jumpTable = null;
} }
@ -249,12 +251,18 @@ namespace ARMeilleure.Translation
} }
} }
ResetOperandPool(highCq); ReturnOperandPool(highCq);
ResetOperationPool(highCq); ReturnOperationPool(highCq);
return new TranslatedFunction(func, funcSize, highCq); return new TranslatedFunction(func, funcSize, highCq);
} }
internal static void ResetPools()
{
ResetOperandPools();
ResetOperationPools();
}
private struct Range private struct Range
{ {
public ulong Start { get; } public ulong Start { get; }