#include "stdafx.h" CRecompiler::CRecompiler(CProfiling & Profile, bool & EndEmulation ) : m_Profile(Profile), PROGRAM_COUNTER(_Reg->m_PROGRAM_COUNTER), m_EndEmulation(EndEmulation) { ResetMemoryStackPos(); } CRecompiler::~CRecompiler() { ResetRecompCode(); } void CRecompiler::Run() { CoInitialize(NULL); if (bLogX86Code()) { Start_x86_Log(); } if (!CRecompMemory::AllocateMemory()) { WriteTrace(TraceError,"CRecompiler::Run: CRecompMemory::AllocateMemory failed"); return; } if (!CFunctionMap::AllocateMemory()) { WriteTrace(TraceError,"CRecompiler::Run: CFunctionMap::AllocateMemory failed"); return; } m_EndEmulation = false; #ifdef tofix *g_MemoryStack = (DWORD)(RDRAM+(_GPR[29].W[0] & 0x1FFFFFFF)); #endif __try { if (LookUpMode() == FuncFind_VirtualLookup) { if (bSMM_ValidFunc()) { RecompilerMain_VirtualTable_validate(); } else { RecompilerMain_VirtualTable(); } } else if (LookUpMode() == FuncFind_ChangeMemory) { RecompilerMain_ChangeMemory(); } else { if (bUseTlb()) { if (bSMM_ValidFunc()) { RecompilerMain_Lookup_validate_TLB(); } else { RecompilerMain_Lookup_TLB(); } } else { if (bSMM_ValidFunc()) { RecompilerMain_Lookup_validate(); } else { RecompilerMain_Lookup(); } } } } __except( _MMU->MemoryFilter( GetExceptionCode(), GetExceptionInformation()) ) { _Notify->DisplayError(MSG_UNKNOWN_MEM_ACTION); } } void CRecompiler::RecompilerMain_VirtualTable ( void ) { bool & Done = m_EndEmulation; DWORD & PC = PROGRAM_COUNTER; while(!Done) { if (!_TransVaddr->ValidVaddr(PC)) { _Reg->DoTLBReadMiss(false,PC); if (!_TransVaddr->ValidVaddr(PC)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PC); return; } continue; } PCCompiledFunc_TABLE & table = FunctionTable()[PC >> 0xC]; DWORD TableEntry = (PC & 0xFFF) >> 2; if (table) { CCompiledFunc * info = table[TableEntry]; if (info != NULL) { (info->Function())(); continue; } } CCompiledFunc * info = CompilerCode(); if (info == NULL || m_EndEmulation) { break; } if (table == NULL) { table = new PCCompiledFunc[(0x1000 >> 2)]; if (table == NULL) { WriteTrace(TraceError,"CRecompiler::RecompilerMain_VirtualTable: failed to allocate PCCompiledFunc"); _Notify->FatalError(MSG_MEM_ALLOC_ERROR); } memset(table,0,sizeof(PCCompiledFunc) * (0x1000 >> 2)); if (bSMM_Protect()) { WriteTraceF(TraceError,"Create Table (%X): Index = %d",table, PC >> 0xC); _MMU->ProtectMemory(PC & ~0xFFF,PC | 0xFFF); } } table[TableEntry] = info; (info->Function())(); } } void CRecompiler::RecompilerMain_VirtualTable_validate ( void ) { _Notify->BreakPoint(__FILE__,__LINE__); /* PCCompiledFunc_TABLE * m_FunctionTable = m_Functions.GetFunctionTable(); while(!m_EndEmulation) { /*if (NextInstruction == DELAY_SLOT) { CCompiledFunc * Info = m_FunctionsDelaySlot.FindFunction(PROGRAM_COUNTER); //Find Block on hash table if (Info == NULL) { _Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix if (!_TLB->ValidVaddr(PROGRAM_COUNTER)) { DoTLBMiss(NextInstruction == DELAY_SLOT,PROGRAM_COUNTER); NextInstruction = NORMAL; if (!_TLB->ValidVaddr(PROGRAM_COUNTER)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); return; } continue; } #endif //Find Block on hash table Info = CompileDelaySlot(PROGRAM_COUNTER); if (Info == NULL || EndEmulation()) { break; } } const BYTE * Block = Info->FunctionAddr(); if ((*Info->MemLocation[0] != Info->MemContents[0]) || (*Info->MemLocation[1] != Info->MemContents[1])) { ClearRecompCode_Virt((Info->VStartPC() - 0x1000) & ~0xFFF,0x2000,Remove_ValidateFunc); NextInstruction = DELAY_SLOT; Info = NULL; continue; } _asm { pushad call Block popad } continue; }*/ /* PCCompiledFunc_TABLE table = m_FunctionTable[PROGRAM_COUNTER >> 0xC]; if (table) { CCompiledFunc * info = table[(PROGRAM_COUNTER & 0xFFF) >> 2]; if (info != NULL) { if ((*info->MemLocation[0] != info->MemContents[0]) || (*info->MemLocation[1] != info->MemContents[1])) { ClearRecompCode_Virt((info->VStartPC() - 0x1000) & ~0xFFF,0x3000,Remove_ValidateFunc); info = NULL; continue; } const BYTE * Block = info->FunctionAddr(); _asm { pushad call Block popad } continue; } } _Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix if (!_TLB->ValidVaddr(PROGRAM_COUNTER)) { DoTLBMiss(NextInstruction == DELAY_SLOT,PROGRAM_COUNTER); NextInstruction = NORMAL; if (!_TLB->ValidVaddr(PROGRAM_COUNTER)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); return; } } #endif CCompiledFunc * info = CompilerCode(); if (info == NULL || EndEmulation()) { break; } } /* while(!m_EndEmulation) { if (!_MMU->ValidVaddr(PROGRAM_COUNTER)) { DoTLBMiss(NextInstruction == DELAY_SLOT,PROGRAM_COUNTER); NextInstruction = NORMAL; if (!_MMU->ValidVaddr(PROGRAM_COUNTER)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); return; } } if (NextInstruction == DELAY_SLOT) { CCompiledFunc * Info = m_FunctionsDelaySlot.FindFunction(PROGRAM_COUNTER); //Find Block on hash table if (Info == NULL) { Info = CompileDelaySlot(PROGRAM_COUNTER); if (Info == NULL || EndEmulation()) { break; } } if (bSMM_ValidFunc()) { if ((*Info->MemLocation[0] != Info->MemContents[0]) || (*Info->MemLocation[1] != Info->MemContents[1])) { ClearRecompCode_Virt((Info->StartPC() - 0x1000) & ~0xFFF,0x2000,Remove_ValidateFunc); NextInstruction = DELAY_SLOT; Info = NULL; continue; } } const BYTE * Block = Info->FunctionAddr(); _asm { pushad call Block popad } continue; } CCompiledFunc * Info = m_Functions.FindFunction(PROGRAM_COUNTER); //Find Block on hash table if (Info == NULL) { Info = CompilerCode(); if (Info == NULL || EndEmulation()) { break; } } if (bSMM_ValidFunc()) { if ((*Info->MemLocation[0] != Info->MemContents[0]) || (*Info->MemLocation[1] != Info->MemContents[1])) { ClearRecompCode_Virt((Info->StartPC() - 0x1000) & ~0xFFF,0x3000,Remove_ValidateFunc); Info = NULL; continue; } } const BYTE * Block = Info->FunctionAddr(); _asm { pushad call Block popad } } */ } void CRecompiler::RecompilerMain_Lookup( void ) { while(!m_EndEmulation) { DWORD PhysicalAddr = PROGRAM_COUNTER & 0x1FFFFFFF; if (PhysicalAddr < RdramSize()) { CCompiledFunc * info = JumpTable()[PhysicalAddr >> 2]; if (info == NULL) { info = CompilerCode(); if (info == NULL || m_EndEmulation) { break; } if (bSMM_Protect()) { _MMU->ProtectMemory(PROGRAM_COUNTER & ~0xFFF,PROGRAM_COUNTER | 0xFFF); } JumpTable()[PhysicalAddr >> 2] = info; } (info->Function())(); } else { DWORD opsExecuted = 0; while (_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr) && PhysicalAddr >= RdramSize()) { CInterpreterCPU::ExecuteOps(CountPerOp()); opsExecuted += CountPerOp(); } if (_SyncSystem) { _System->UpdateSyncCPU(_SyncSystem,opsExecuted); _System->SyncCPU(_SyncSystem); } } } /* DWORD Addr; CCompiledFunc * Info; //const BYTE * Block; while(!m_EndEmulation) { /*if (bUseTlb()) { _Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix if (!_TLB->TranslateVaddr(PROGRAM_COUNTER, Addr)) { DoTLBMiss(NextInstruction == DELAY_SLOT,PROGRAM_COUNTER); NextInstruction = NORMAL; if (!TranslateVaddr(PROGRAM_COUNTER, &Addr)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); return; } } #endif } else { Addr = PROGRAM_COUNTER & 0x1FFFFFFF; }*/ /* if (NextInstruction == DELAY_SLOT) { CCompiledFunc * Info = m_FunctionsDelaySlot.FindFunction(PROGRAM_COUNTER); //Find Block on hash table if (Info == NULL) { Info = CompileDelaySlot(PROGRAM_COUNTER); if (Info == NULL || EndEmulation()) { break; } } if (bSMM_ValidFunc()) { if ((*Info->MemLocation[0] != Info->MemContents[0]) || (*Info->MemLocation[1] != Info->MemContents[1])) { ClearRecompCode_Virt((Info->VStartPC() - 0x1000) & ~0xFFF,0x2000,Remove_ValidateFunc); NextInstruction = DELAY_SLOT; Info = NULL; continue; } } const BYTE * Block = Info->FunctionAddr(); _asm { pushad call Block popad } continue; } __try { if (Addr > 0x10000000) { if (bRomInMemory()) { if (Addr > 0x20000000) { WriteTraceF(TraceDebug,"Executing from non mapped space .1 PC: %X Addr: %X",PROGRAM_COUNTER, Addr); _Notify->DisplayError(GS(MSG_NONMAPPED_SPACE)); break; } Info = (CCompiledFunc *)*(JumpTable + (Addr >> 2)); } else { if (PROGRAM_COUNTER >= 0xB0000000 && PROGRAM_COUNTER < (RomFileSize | 0xB0000000)) { while (PROGRAM_COUNTER >= 0xB0000000 && PROGRAM_COUNTER < (RomFileSize | 0xB0000000)) { ExecuteInterpreterOpCode(); } continue; } else { WriteTraceF(TraceDebug,"Executing from non mapped space .1 PC: %X Addr: %X",PROGRAM_COUNTER, Addr); _Notify->DisplayError(GS(MSG_NONMAPPED_SPACE)); break; } } } else { Info = (CCompiledFunc *)*(JumpTable + (Addr >> 2)); } } __except(EXCEPTION_EXECUTE_HANDLER) { if (PROGRAM_COUNTER >= 0xB0000000 && PROGRAM_COUNTER < (RomFileSize | 0xB0000000)) { while (PROGRAM_COUNTER >= 0xB0000000 && PROGRAM_COUNTER < (RomFileSize | 0xB0000000)) { ExecuteInterpreterOpCode(); } continue; } else { WriteTraceF(TraceDebug,"Executing from non mapped space .2 PC: %X Addr: %X",PROGRAM_COUNTER, Addr); _Notify->DisplayError(GS(MSG_NONMAPPED_SPACE)); return; } } if (Info == NULL) { Info = CompilerCode(); if (Info == NULL || EndEmulation()) { break; } *(JumpTable + (Addr >> 2)) = (void *)Info; // if (SelfModCheck == ModCode_ProtectedMemory) { // VirtualProtect(RDRAM + Addr, 4, PAGE_READONLY, &OldProtect); // } } if (bSMM_ValidFunc()) { if ((*Info->MemLocation[0] != Info->MemContents[0]) || (*Info->MemLocation[1] != Info->MemContents[1])) { ClearRecompCode_Virt((Info->VStartPC() - 0x1000) & ~0xFFF,0x3000,Remove_ValidateFunc); Info = NULL; continue; } } _Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix if (Profiling && IndvidualBlock) { static DWORD ProfAddress = 0; if ((PROGRAM_COUNTER & ~0xFFF) != ProfAddress) { char Label[100]; ProfAddress = PROGRAM_COUNTER & ~0xFFF; sprintf(Label,"PC: %X to %X",ProfAddress,ProfAddress+ 0xFFC); // StartTimer(Label); } /*if (PROGRAM_COUNTER >= 0x800DD000 && PROGRAM_COUNTER <= 0x800DDFFC) { char Label[100]; sprintf(Label,"PC: %X Block: %X",PROGRAM_COUNTER,Block); StartTimer(Label); }*/ // } else if ((Profiling || ShowCPUPer) && ProfilingLabel[0] == 0) { // StartTimer("r4300i Running"); /* } #endif const BYTE * Block = Info->FunctionAddr(); _asm { pushad call Block popad } }*/ } void CRecompiler::RecompilerMain_Lookup_TLB( void ) { DWORD PhysicalAddr; while(!m_EndEmulation) { if (!_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr)) { _Reg->DoTLBReadMiss(false,PROGRAM_COUNTER); if (!_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); m_EndEmulation = true; } continue; } if (PhysicalAddr < RdramSize()) { CCompiledFunc * info = JumpTable()[PhysicalAddr >> 2]; if (info == NULL) { info = CompilerCode(); if (info == NULL || m_EndEmulation) { break; } if (bSMM_Protect()) { _MMU->ProtectMemory(PROGRAM_COUNTER & ~0xFFF,PROGRAM_COUNTER | 0xFFF); } JumpTable()[PhysicalAddr >> 2] = info; } (info->Function())(); } else { DWORD opsExecuted = 0; while (_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr) && PhysicalAddr >= RdramSize()) { CInterpreterCPU::ExecuteOps(CountPerOp()); opsExecuted += CountPerOp(); } if (_SyncSystem) { _System->UpdateSyncCPU(_SyncSystem,opsExecuted); _System->SyncCPU(_SyncSystem); } } } } void CRecompiler::RecompilerMain_Lookup_validate( void ) { while(!m_EndEmulation) { DWORD PhysicalAddr = PROGRAM_COUNTER & 0x1FFFFFFF; if (PhysicalAddr < RdramSize()) { CCompiledFunc * info = JumpTable()[PhysicalAddr >> 2]; if (info == NULL) { info = CompilerCode(); if (info == NULL || m_EndEmulation) { break; } if (bSMM_Protect()) { _MMU->ProtectMemory(PROGRAM_COUNTER & ~0xFFF,PROGRAM_COUNTER | 0xFFF); } JumpTable()[PhysicalAddr >> 2] = info; } else { if (*(info->MemLocation(0)) != info->MemContents(0) || *(info->MemLocation(1)) != info->MemContents(1)) { ClearRecompCode_Virt((info->EnterPC() - 0x1000) & ~0xFFF,0x3000,Remove_ValidateFunc); info = NULL; continue; } } (info->Function())(); } else { DWORD opsExecuted = 0; while (_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr) && PhysicalAddr >= RdramSize()) { CInterpreterCPU::ExecuteOps(CountPerOp()); opsExecuted += CountPerOp(); } if (_SyncSystem) { _System->UpdateSyncCPU(_SyncSystem,opsExecuted); _System->SyncCPU(_SyncSystem); } } } } void CRecompiler::RecompilerMain_Lookup_validate_TLB( void ) { DWORD PhysicalAddr; while(!m_EndEmulation) { if (!_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr)) { _Reg->DoTLBReadMiss(false,PROGRAM_COUNTER); if (!_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr)) { _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); m_EndEmulation = true; } continue; } if (PhysicalAddr < RdramSize()) { CCompiledFunc * info = JumpTable()[PhysicalAddr >> 2]; if (info == NULL) { info = CompilerCode(); if (info == NULL || m_EndEmulation) { break; } if (bSMM_Protect()) { _MMU->ProtectMemory(PROGRAM_COUNTER & ~0xFFF,PROGRAM_COUNTER | 0xFFF); } JumpTable()[PhysicalAddr >> 2] = info; } else { if (*(info->MemLocation(0)) != info->MemContents(0) || *(info->MemLocation(1)) != info->MemContents(1)) { ClearRecompCode_Virt((info->EnterPC() - 0x1000) & ~0xFFF,0x3000,Remove_ValidateFunc); info = NULL; continue; } } (info->Function())(); } else { DWORD opsExecuted = 0; while (_TransVaddr->TranslateVaddr(PROGRAM_COUNTER, PhysicalAddr) && PhysicalAddr >= RdramSize()) { CInterpreterCPU::ExecuteOps(CountPerOp()); opsExecuted += CountPerOp(); } if (_SyncSystem) { _System->UpdateSyncCPU(_SyncSystem,opsExecuted); _System->SyncCPU(_SyncSystem); } } } } void CRecompiler::Reset() { ResetRecompCode(); ResetMemoryStackPos(); } void CRecompiler::ResetRecompCode() { CRecompMemory::Reset(); CFunctionMap::Reset(); for (CCompiledFuncList::iterator iter = m_Functions.begin(); iter != m_Functions.end(); iter++) { CCompiledFunc * Func = iter->second; while (Func != NULL) { CCompiledFunc * CurrentFunc = Func; Func = Func->Next(); delete CurrentFunc; } } m_Functions.clear(); } void CRecompiler::RecompilerMain_ChangeMemory ( void ) { _Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix DWORD Value, Addr; BYTE * Block; while(!EndEmulation()) { if (UseTlb) { if (!TranslateVaddr(PROGRAM_COUNTER, &Addr)) { DoTLBMiss(NextInstruction == DELAY_SLOT,PROGRAM_COUNTER); NextInstruction = NORMAL; if (!TranslateVaddr(PROGRAM_COUNTER, &Addr)) { #ifndef EXTERNAL_RELEASE _Notify->DisplayError("Failed to translate PC to a PAddr: %X\n\nEmulation stopped",PROGRAM_COUNTER); #endif ExitThread(0); } } } else { Addr = PROGRAM_COUNTER & 0x1FFFFFFF; } if (NextInstruction == DELAY_SLOT) { __try { Value = (DWORD)(*(DelaySlotTable + (Addr >> 12))); } __except(EXCEPTION_EXECUTE_HANDLER) { #ifndef EXTERNAL_RELEASE _Notify->DisplayError("Executing Delay Slot from non maped space\nPROGRAM_COUNTER = 0x%X",PROGRAM_COUNTER); #endif ExitThread(0); } if ( (Value >> 16) == 0x7C7C) { DWORD Index = (Value & 0xFFFF); Block = (BYTE *)OrigMem[Index].CompiledLocation; if (OrigMem[Index].PAddr != Addr) { Block = NULL; } if (OrigMem[Index].VAddr != PROGRAM_COUNTER) { Block = NULL; } if (Index >= TargetIndex) { Block = NULL; } } else { Block = NULL; } if (Block == NULL) { DWORD MemValue; Block = CompileDelaySlot(); Value = 0x7C7C0000; Value += (WORD)(TargetIndex); MemValue = *(DWORD *)(RDRAM + Addr); if ( (MemValue >> 16) == 0x7C7C) { MemValue = OrigMem[(MemValue & 0xFFFF)].OriginalValue; } OrigMem[(WORD)(TargetIndex)].OriginalValue = MemValue; OrigMem[(WORD)(TargetIndex)].CompiledLocation = Block; OrigMem[(WORD)(TargetIndex)].PAddr = Addr; OrigMem[(WORD)(TargetIndex)].VAddr = PROGRAM_COUNTER; TargetIndex += 1; *(DelaySlotTable + (Addr >> 12)) = (void *)Value; NextInstruction = NORMAL; } _asm { pushad call Block popad } continue; } __try { Value = *(DWORD *)(RDRAM + Addr); if ( (Value >> 16) == 0x7C7C) { DWORD Index = (Value & 0xFFFF); Block = (BYTE *)OrigMem[Index].CompiledLocation; if (OrigMem[Index].PAddr != Addr) { Block = NULL; } if (OrigMem[Index].VAddr != PROGRAM_COUNTER) { Block = NULL; } if (Index >= TargetIndex) { Block = NULL; } } else { Block = NULL; } } __except(EXCEPTION_EXECUTE_HANDLER) { _Notify->DisplayError(GS(MSG_NONMAPPED_SPACE)); ExitThread(0); } if (Block == NULL) { DWORD MemValue; __try { Block = Compiler4300iBlock(); } __except(EXCEPTION_EXECUTE_HANDLER) { ResetRecompCode(); Block = Compiler4300iBlock(); } if (EndEmulation()) { continue; } if (TargetIndex == MaxOrigMem) { ResetRecompCode(); continue; } Value = 0x7C7C0000; Value += (WORD)(TargetIndex); MemValue = *(DWORD *)(RDRAM + Addr); if ( (MemValue >> 16) == 0x7C7C) { MemValue = OrigMem[(MemValue & 0xFFFF)].OriginalValue; } OrigMem[(WORD)(TargetIndex)].OriginalValue = MemValue; OrigMem[(WORD)(TargetIndex)].CompiledLocation = Block; OrigMem[(WORD)(TargetIndex)].PAddr = Addr; OrigMem[(WORD)(TargetIndex)].VAddr = PROGRAM_COUNTER; TargetIndex += 1; *(DWORD *)(RDRAM + Addr) = Value; NextInstruction = NORMAL; } if (Profiling && IndvidualBlock) { static DWORD ProfAddress = 0; /*if ((PROGRAM_COUNTER & ~0xFFF) != ProfAddress) { char Label[100]; ProfAddress = PROGRAM_COUNTER & ~0xFFF; sprintf(Label,"PC: %X to %X",ProfAddress,ProfAddress+ 0xFFC); StartTimer(Label); }*/ /*if (PROGRAM_COUNTER >= 0x800DD000 && PROGRAM_COUNTER <= 0x800DDFFC) { char Label[100]; sprintf(Label,"PC: %X Block: %X",PROGRAM_COUNTER,Block); StartTimer(Label); }*/ // } else if ((Profiling || ShowCPUPer) && ProfilingLabel[0] == 0) { // StartTimer("r4300i Running"); } _asm { pushad call Block popad } } // end for(;;) #endif } CCompiledFunc * CRecompiler::CompilerCode ( void ) { DWORD pAddr = 0; if (!_TransVaddr->TranslateVaddr(PROGRAM_COUNTER,pAddr)) { WriteTraceF(TraceError,"CRecompiler::CompilerCode: Failed to translate %X",PROGRAM_COUNTER); return NULL; } CCompiledFuncList::iterator iter = m_Functions.find(PROGRAM_COUNTER); if (iter != m_Functions.end()) { for (CCompiledFunc * Func = iter->second; Func != NULL; Func = Func->Next()) { DWORD PAddr; if (_TransVaddr->TranslateVaddr(Func->MinPC(),PAddr)) { MD5Digest Hash; MD5(_MMU->Rdram() + PAddr,(Func->MaxPC() - Func->MinPC())+ 4).get_digest(Hash); if (memcmp(Hash.digest,Func->Hash().digest,sizeof(Hash.digest)) == 0) { return Func; } } } } CheckRecompMem(); DWORD StartTime = timeGetTime(); WriteTraceF(TraceRecompiler,"Compile Block-Start: Program Counter: %X pAddr: %X",PROGRAM_COUNTER,pAddr); CCodeBlock CodeBlock(PROGRAM_COUNTER, RecompPos()); if (!CodeBlock.Compile()) { return NULL; } if (bShowRecompMemSize()) { ShowMemUsed(); } CCompiledFunc * Func = new CCompiledFunc(CodeBlock); CCompiledFuncList::_Pairib ret = m_Functions.insert(CCompiledFuncList::value_type(Func->EnterPC(),Func)); if (ret.second == false) { Func->SetNext(ret.first->second->Next()); ret.first->second->SetNext(Func); return Func; } return Func; } void CRecompiler::ClearRecompCode_Phys(DWORD Address, int length, REMOVE_REASON Reason ) { //WriteTraceF(TraceError,"CRecompiler::ClearRecompCode_Phys Not Implemented (Address: %X, Length: %d Reason: %d)",Address,length,Reason); if (LookUpMode() == FuncFind_VirtualLookup) { ClearRecompCode_Virt(Address + 0x80000000,length,Reason); ClearRecompCode_Virt(Address + 0xA0000000,length,Reason); if (bUseTlb()) { DWORD VAddr, Index = 0; while (_TLB->PAddrToVAddr(Address,VAddr,Index)) { WriteTraceF(TraceRecompiler,"ClearRecompCode Vaddr %X len: %d",VAddr,length); ClearRecompCode_Virt(VAddr,length,Reason); } } } else if (LookUpMode() == FuncFind_PhysicalLookup) { WriteTraceF(TraceRecompiler,"Reseting Jump Table, Addr: %X len: %d",Address,((length + 3) & ~3)); memset((BYTE *)JumpTable() + Address,0,((length + 3) & ~3)); } } void CRecompiler::ClearRecompCode_Virt(DWORD Address, int length,REMOVE_REASON Reason ) { //WriteTraceF(TraceError,"CRecompiler::ClearRecompCode_Virt Not Implemented (Address: %X, Length: %d Reason: %d)",Address,length,Reason); switch (LookUpMode()) { case FuncFind_VirtualLookup: { DWORD AddressIndex = Address >> 0xC; DWORD WriteStart = (Address & 0xFFC); bool bUnProtect = false; length = ((length + 3) & ~0x3); int DataInBlock = 0x1000 - WriteStart; int DataToWrite = length < DataInBlock ? length : DataInBlock; int DataLeft = length - DataToWrite; PCCompiledFunc_TABLE & table = FunctionTable()[AddressIndex]; if (table) { WriteTraceF(TraceError,"Delete Table (%X): Index = %d",table, AddressIndex); delete table; table = NULL; _MMU->UnProtectMemory(Address,Address + length); } if (DataLeft > 0) { _Notify->BreakPoint(__FILE__,__LINE__); } } break; case FuncFind_PhysicalLookup: { DWORD pAddr = 0; if (_TransVaddr->TranslateVaddr(Address,pAddr)) { ClearRecompCode_Phys(pAddr,length,Reason); } } break; default: _Notify->BreakPoint(__FILE__,__LINE__); } } void CRecompiler::ResetMemoryStackPos( void ) { if (_Reg->m_GPR[29].UW[0] == 0) { m_MemoryStack = NULL; return; } if (_MMU == NULL || _Reg == NULL) { _Notify->BreakPoint(__FILE__,__LINE__); } if (_Reg->m_GPR[29].UW[0] < 0x80000000 || _Reg->m_GPR[29].UW[0] >= 0xC0000000) { _Notify->BreakPoint(__FILE__,__LINE__); } m_MemoryStack = (DWORD)(_MMU->Rdram() + (_Reg->m_GPR[29].UW[0] & 0x1FFFFFFF)); }