#include "stdafx.h" CFunctionMap::CFunctionMap() : m_FunctionTable(NULL), m_DelaySlotTable(NULL) { } CFunctionMap::~CFunctionMap() { if (m_FunctionTable) { for (int i = 0, n = 0x100000; i < n; i++) { if (m_FunctionTable[i] != NULL) { delete m_FunctionTable[i]; } } VirtualFree( m_FunctionTable, 0 , MEM_RELEASE); m_FunctionTable = NULL; } if (m_DelaySlotTable) { VirtualFree( m_DelaySlotTable, 0 , MEM_RELEASE); m_DelaySlotTable = NULL; } } bool CFunctionMap::AllocateMemory() { if (m_FunctionTable == NULL) { m_FunctionTable = (PCCompiledFunc_TABLE *)VirtualAlloc(NULL,0xFFFFF * sizeof(CCompiledFunc *),MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (m_FunctionTable == NULL) { _Notify->FatalError(MSG_MEM_ALLOC_ERROR); return false; } memset(m_FunctionTable,0,0xFFFFF * sizeof(CCompiledFunc *)); } if (m_DelaySlotTable == NULL) { m_DelaySlotTable = (BYTE **)VirtualAlloc(NULL,0xFFFFF * sizeof(BYTE *),MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (m_DelaySlotTable == NULL) { _Notify->FatalError(MSG_MEM_ALLOC_ERROR); return false; } memset(m_DelaySlotTable,0,0xFFFFF * sizeof(BYTE *)); } return true; } /* CFunctionMap::~CFunctionMap() { Reset(false); } void * CFunctionMap::CompilerFindFunction( CFunctionMap * _this, DWORD vAddr ) { return _this->FindFunction(vAddr); } CCompiledFunc * CFunctionMap::FindFunction( DWORD vAddr, int Length ) { DWORD SectionEnd = (vAddr + Length + 0xFFF) >> 0xC; for (DWORD Section = (vAddr >> 0x0C); Section < SectionEnd; Section++) { CCompiledFunc table = m_FunctionTable[Section]; if (table == NULL) { continue; } DWORD Start = 0; /*if (Section == (vAddr >> 0x0C)) { Start = ((vAddr & 0xFFF) >> 2); }*/ /*int SearchEnd = (Length - ((Section - (vAddr >> 0x0C)) * (0x1000 >> 2))) >> 2; if (Start + SearchEnd > (0x1000 >> 2)) { SearchEnd = (0x1000 >> 2); } for (int i = Start; i < SearchEnd; i++) { PCCompiledFunc & info = table[i]; if (info) { if (info->VEndPC() < vAddr) { continue; } return info; } } } return NULL; } void CFunctionMap::Reset( bool AllocateMemory ) { if (m_FunctionTable) { for (int i = 0; i < 0xFFFFF; i ++) { if (m_FunctionTable[i] == NULL) { continue; } CCompiledFunc table = m_FunctionTable[i]; for (int x = 0; x < (0x1000) >> 2; x++) { PCCompiledFunc info = table[x]; if (info == NULL) { continue; } while (info->Next) { PCCompiledFunc todelete = info; info = info->Next; delete todelete; } delete info; } delete table; } if (!AllocateMemory) { VirtualFree(m_FunctionTable,0,MEM_RELEASE); m_FunctionTable = NULL; } } if ( AllocateMemory) { if (m_FunctionTable == NULL) { m_FunctionTable = (CCompiledFunc *)VirtualAlloc(NULL,0xFFFFF * sizeof(CCompiledFunc *),MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (m_FunctionTable == NULL) { Notify().FatalError(MSG_MEM_ALLOC_ERROR); } } memset(m_FunctionTable,0,0xFFFFF * sizeof(DWORD)); } } CCompiledFunc * CFunctionMap::AddFunctionInfo( DWORD vAddr, DWORD pAddr ) { CCompiledFunc & table = m_FunctionTable[vAddr >> 0xC]; if (table == NULL) { table = new PCCompiledFunc[(0x1000 >> 2)]; if (table == NULL) { Notify().FatalError(MSG_MEM_ALLOC_ERROR); } memset(table,0,sizeof(PCCompiledFunc) * (0x1000 >> 2)); } PCCompiledFunc & info = table[(vAddr & 0xFFF) >> 2]; if (info != NULL) { PCCompiledFunc old_info = info; info = new CCompiledFunc(vAddr,pAddr); info->Next = old_info; } else { info = new CCompiledFunc(vAddr,pAddr); } return info; } void CFunctionMap::Remove(CCompiledFunc * info) { DWORD vAddr = info->VStartPC(); CCompiledFunc & table = m_FunctionTable[vAddr >> 0xC]; if (table == NULL) { return; } PCCompiledFunc & current_info = table[(vAddr & 0xFFF) >> 2]; if (current_info == NULL) { return; } if (current_info == info) { delete info; table[(vAddr & 0xFFF) >> 2] = NULL; } else { Notify().BreakPoint(__FILE__,__LINE__); } } */