/**************************************************************************** * * * Project 64 - A Nintendo 64 emulator. * * http://www.pj64-emu.com/ * * Copyright (C) 2012 Project64. All rights reserved. * * * * License: * * GNU/GPLv2 http://www.gnu.org/licenses/gpl-2.0.html * * * ****************************************************************************/ #include "stdafx.h" CN64Rom::CN64Rom() { m_hRomFile = NULL; m_hRomFileMapping = NULL; m_ROMImage = NULL; m_ErrorMsg = EMPTY_STRING; m_RomName = ""; m_FileName = ""; m_MD5 = ""; m_Country = UnknownCountry; m_CicChip = CIC_UNKNOWN; } CN64Rom::~CN64Rom() { UnallocateRomImage(); } bool CN64Rom::AllocateAndLoadN64Image ( const char * FileLoc, bool LoadBootCodeOnly ) { //Try to open the target file HANDLE hFile = CreateFile(FileLoc,GENERIC_READ,FILE_SHARE_READ,NULL, OPEN_EXISTING,FILE_ATTRIBUTE_NORMAL | FILE_FLAG_RANDOM_ACCESS, NULL); if (hFile == INVALID_HANDLE_VALUE) { return false; } //Read the first 4 bytes and make sure it is a valid n64 image DWORD dwRead; BYTE Test[4]; SetFilePointer(hFile,0,0,FILE_BEGIN); ReadFile(hFile,Test,4,&dwRead,NULL); if (!IsValidRomImage(Test)) { CloseHandle( hFile ); return false; } //Get the size of the rom and try to allocate the memory needed. DWORD RomFileSize = GetFileSize(hFile,NULL); //if loading boot code then just load the first 0x1000 bytes if (LoadBootCodeOnly) { RomFileSize = 0x1000; } BYTE * Image = (BYTE *)VirtualAlloc(NULL,RomFileSize,MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (Image == NULL) { SetError(MSG_MEM_ALLOC_ERROR); CloseHandle( hFile ); return false; } //Load the n64 rom to the allocated memory g_Notify->DisplayMessage(5,MSG_LOADING); SetFilePointer(hFile,0,0,FILE_BEGIN); DWORD count, TotalRead = 0; for (count = 0; count < (int)RomFileSize; count += ReadFromRomSection) { DWORD dwToRead = RomFileSize - count; if (dwToRead > ReadFromRomSection) { dwToRead = ReadFromRomSection; } if (!ReadFile(hFile,&Image[count],dwToRead,&dwRead,NULL)) { VirtualFree(Image,0,MEM_RELEASE); CloseHandle( hFile ); SetError(MSG_FAIL_IMAGE); return false; } TotalRead += dwRead; //Show Message of how much % wise of the rom has been loaded g_Notify->DisplayMessage(0,L"%s: %.2f%c",GS(MSG_LOADED),((float)TotalRead/(float)RomFileSize) * 100.0f,'%'); } dwRead = TotalRead; if (RomFileSize != dwRead) { VirtualFree(Image,0,MEM_RELEASE); CloseHandle( hFile ); SetError(MSG_FAIL_IMAGE); return false; } //save information about the rom loaded m_hRomFile = hFile; m_ROMImage = Image; m_RomFileSize = RomFileSize; g_Notify->DisplayMessage(5,MSG_BYTESWAP); ByteSwapRom(); //Protect the memory so that it can not be written to. DWORD OldProtect; VirtualProtect(m_ROMImage,m_RomFileSize,PAGE_READONLY,&OldProtect); return true; } bool CN64Rom::AllocateAndLoadZipImage(const char * FileLoc, bool LoadBootCodeOnly) { unzFile file = unzOpen(FileLoc); if (file == NULL) return false; int port = unzGoToFirstFile(file); bool FoundRom = false; //scan through all files in zip to a suitable file is found while(port == UNZ_OK && !FoundRom) { unz_file_info info; char zname[_MAX_PATH]; unzGetCurrentFileInfo(file, &info, zname, sizeof(zname), NULL,0, NULL,0); if (unzLocateFile(file, zname, 1) != UNZ_OK ) { SetError(MSG_FAIL_ZIP); break; } if( unzOpenCurrentFile(file) != UNZ_OK ) { SetError(MSG_FAIL_ZIP); break; } //Read the first 4 bytes to check magic number BYTE Test[4]; unzReadCurrentFile(file,Test,sizeof(Test)); if (IsValidRomImage(Test)) { //Get the size of the rom and try to allocate the memory needed. DWORD RomFileSize = info.uncompressed_size; if (LoadBootCodeOnly) { RomFileSize = 0x1000; } BYTE * Image = (BYTE *)VirtualAlloc(NULL,RomFileSize,MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (Image == NULL) { SetError(MSG_MEM_ALLOC_ERROR); unzCloseCurrentFile(file); break; } //Load the n64 rom to the allocated memory g_Notify->DisplayMessage(5,MSG_LOADING); memcpy(Image,Test,4); DWORD dwRead, count, TotalRead = 0; for (count = 4; count < (int)RomFileSize; count += ReadFromRomSection) { DWORD dwToRead = RomFileSize - count; if (dwToRead > ReadFromRomSection) { dwToRead = ReadFromRomSection; } dwRead = unzReadCurrentFile(file,&Image[count],dwToRead); if (dwRead == 0) { SetError(MSG_FAIL_ZIP); VirtualFree(Image,0,MEM_RELEASE); unzCloseCurrentFile(file); break; } TotalRead += dwRead; //Show Message of how much % wise of the rom has been loaded g_Notify->DisplayMessage(5,L"%s: %.2f%c",GS(MSG_LOADED),((float)TotalRead/(float)RomFileSize) * 100.0f,'%'); } dwRead = TotalRead + 4; if (RomFileSize != dwRead) { VirtualFree(Image,0,MEM_RELEASE); unzCloseCurrentFile(file); SetError(MSG_FAIL_ZIP); g_Notify->DisplayMessage(1,L""); break; } //save information about the rom loaded m_hRomFile = NULL; m_ROMImage = Image; m_RomFileSize = RomFileSize; FoundRom = true; g_Notify->DisplayMessage(5,MSG_BYTESWAP); ByteSwapRom(); //Protect the memory so that it can not be written to. DWORD OldProtect; VirtualProtect(m_ROMImage,m_RomFileSize,PAGE_READONLY,&OldProtect); g_Notify->DisplayMessage(1,L""); } unzCloseCurrentFile(file); if (!FoundRom) port = unzGoToNextFile(file); } unzClose(file); return FoundRom; } void CN64Rom::ByteSwapRom() { DWORD count; switch (*((DWORD *)&m_ROMImage[0])) { case 0x12408037: for( count = 0 ; count < m_RomFileSize; count += 4 ) { m_ROMImage[count] ^= m_ROMImage[count+2]; m_ROMImage[count + 2] ^= m_ROMImage[count]; m_ROMImage[count] ^= m_ROMImage[count+2]; m_ROMImage[count + 1] ^= m_ROMImage[count + 3]; m_ROMImage[count + 3] ^= m_ROMImage[count + 1]; m_ROMImage[count + 1] ^= m_ROMImage[count + 3]; } break; case 0x40123780: for( count = 0 ; count < m_RomFileSize; count += 4 ) { m_ROMImage[count] ^= m_ROMImage[count+3]; m_ROMImage[count + 3] ^= m_ROMImage[count]; m_ROMImage[count] ^= m_ROMImage[count+3]; m_ROMImage[count + 1] ^= m_ROMImage[count + 2]; m_ROMImage[count + 2] ^= m_ROMImage[count + 1]; m_ROMImage[count + 1] ^= m_ROMImage[count + 2]; } break; case 0x80371240: break; default: g_Notify->DisplayError(L"ByteSwapRom: %X",m_ROMImage[0]); } } void CN64Rom::CalculateCicChip() { __int64 CRC = 0; if (m_ROMImage == NULL) { m_CicChip = CIC_UNKNOWN; return; } for (int count = 0x40; count < 0x1000; count += 4) { CRC += *(DWORD *)(m_ROMImage+count); } switch (CRC) { case 0x000000D0027FDF31: m_CicChip = CIC_NUS_6101; break; case 0x000000CFFB631223: m_CicChip = CIC_NUS_6101; break; case 0x000000D057C85244: m_CicChip = CIC_NUS_6102; break; case 0x000000D6497E414B: m_CicChip = CIC_NUS_6103; break; case 0x0000011A49F60E96: m_CicChip = CIC_NUS_6105; break; case 0x000000D6D5BE5580: m_CicChip = CIC_NUS_6106; break; case 0x000001053BC19870: m_CicChip = CIC_NUS_8303; break; //64DD CONVERSION CIC default: if (bHaveDebugger()) g_Notify->DisplayError(L"Unknown CIC checksum:\n%I64d.", CRC); m_CicChip = CIC_UNKNOWN; break; } } CICChip CN64Rom::CicChipID() { return m_CicChip; } bool CN64Rom::IsValidRomImage ( BYTE Test[4] ) { if ( *((DWORD *)&Test[0]) == 0x40123780 ) { return true; } if ( *((DWORD *)&Test[0]) == 0x12408037 ) { return true; } if ( *((DWORD *)&Test[0]) == 0x80371240 ) { return true; } return false; } void CN64Rom::NotificationCB ( LPCWSTR Status, CN64Rom * /*_this*/ ) { g_Notify->DisplayMessage(5,L"%s",Status); } bool CN64Rom::LoadN64Image ( const char * FileLoc, bool LoadBootCodeOnly ) { UnallocateRomImage(); m_ErrorMsg = EMPTY_STRING; char drive[_MAX_DRIVE], dir[_MAX_DIR], fname[_MAX_FNAME], ext[_MAX_EXT]; _splitpath(FileLoc,drive,dir,fname,ext); bool Loaded7zFile = false; if (strstr(FileLoc,"?") != NULL || strcmp(ext,".7z") == 0) { char FullPath[MAX_PATH + 100]; strcpy(FullPath,FileLoc); //this should be a 7zip file char * SubFile = strstr(FullPath,"?"); if (SubFile == NULL) { //Pop up a dialog and select file //allocate memory for sub name and copy selected file name to var //return false; //remove once dialog is done } else { *SubFile = '\0'; SubFile += 1; } C7zip ZipFile(FullPath); ZipFile.SetNotificationCallback((C7zip::LP7ZNOTIFICATION)NotificationCB,this); for (int i = 0; i < ZipFile.NumFiles(); i++) { CSzFileItem * f = ZipFile.FileItem(i); if (f->IsDir) { continue; } stdstr ZipFileName; ZipFileName.FromUTF16(ZipFile.FileNameIndex(i).c_str()); if (SubFile != NULL) { if (_stricmp(ZipFileName.c_str(), SubFile) != 0) { continue; } } //Get the size of the rom and try to allocate the memory needed. DWORD RomFileSize = (DWORD)f->Size; //if loading boot code then just load the first 0x1000 bytes if (LoadBootCodeOnly) { RomFileSize = 0x1000; } BYTE * Image = (BYTE *)VirtualAlloc(NULL,RomFileSize,MEM_RESERVE|MEM_COMMIT,PAGE_READWRITE); if (Image == NULL) { SetError(MSG_MEM_ALLOC_ERROR); return false; } //Load the n64 rom to the allocated memory g_Notify->DisplayMessage(5,MSG_LOADING); if (!ZipFile.GetFile(i,Image,RomFileSize)) { VirtualFree(Image,0,MEM_RELEASE); SetError(MSG_FAIL_IMAGE); return false; } if (!IsValidRomImage(Image)) { VirtualFree(Image,0,MEM_RELEASE); SetError(MSG_FAIL_IMAGE); return false; } //save information about the rom loaded m_ROMImage = Image; m_RomFileSize = RomFileSize; g_Notify->DisplayMessage(5,MSG_BYTESWAP); ByteSwapRom(); //Protect the memory so that it can not be written to. DWORD OldProtect; VirtualProtect(m_ROMImage,m_RomFileSize,PAGE_READONLY,&OldProtect); Loaded7zFile = true; break; } if (!Loaded7zFile) { SetError(MSG_7Z_FILE_NOT_FOUND); return false; } } //Try to open the file as a zip file if (!Loaded7zFile) { if (!AllocateAndLoadZipImage(FileLoc,LoadBootCodeOnly)) { if (m_ErrorMsg != EMPTY_STRING) { return false; } //other wise treat if normal file and open the passed file HANDLE hFile = CreateFile(FileLoc,GENERIC_READ,FILE_SHARE_READ,NULL,OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_RANDOM_ACCESS,NULL); if (hFile == INVALID_HANDLE_VALUE) { SetError(MSG_FAIL_OPEN_IMAGE); return false; } //Create a file map HANDLE hFileMapping = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, NULL); if (hFileMapping == NULL) { CloseHandle(hFile); SetError(MSG_FAIL_OPEN_IMAGE); return false; } //Map the file to a memory pointer .. ie a way of pretending to load the rom //loose the bonus of being able to flip it on the fly tho. BYTE * Image = (PBYTE)MapViewOfFile(hFileMapping,FILE_MAP_READ,0,0,0); if (Image == NULL) { CloseHandle(hFileMapping); CloseHandle(hFile); SetError(MSG_FAIL_OPEN_IMAGE); return false; } if (!IsValidRomImage(Image)) { UnmapViewOfFile (Image); CloseHandle(hFileMapping); CloseHandle(hFile); SetError(MSG_FAIL_IMAGE); return false; } if (*((DWORD *)Image) == 0x80371240) { m_hRomFile = hFile; m_hRomFileMapping = hFileMapping; m_ROMImage = Image; m_RomFileSize = GetFileSize(hFile,NULL); } else { if (!AllocateAndLoadN64Image(FileLoc,LoadBootCodeOnly)) { return false; } } } } char RomName[260]; int count; //Get the header from the rom image memcpy(&RomName[0],(void *)(m_ROMImage + 0x20),20); for( count = 0 ; count < 20; count += 4 ) { RomName[count] ^= RomName[count+3]; RomName[count + 3] ^= RomName[count]; RomName[count] ^= RomName[count+3]; RomName[count + 1] ^= RomName[count + 2]; RomName[count + 2] ^= RomName[count + 1]; RomName[count + 1] ^= RomName[count + 2]; } //truncate all the spaces at the end of the string for( count = 19 ; count >= 0; count -- ) { if (RomName[count] == ' ') { RomName[count] = '\0'; } else if (RomName[count] == '\0') { } else { count = -1; } } RomName[20] = '\0'; if (strlen(RomName) == 0) { char drive[_MAX_DRIVE], dir[_MAX_DIR], fname[_MAX_FNAME], ext[_MAX_EXT]; _splitpath(FileLoc,drive,dir,fname,ext); strcpy(RomName,fname); } //remove all /,\,: from the string for( count = 0 ; count < (int)strlen(RomName); count ++ ) { switch (RomName[count]) { case '/': case '\\': RomName[count] = '-'; break; case ':': RomName[count] = ';'; break; } } m_RomName = RomName; m_FileName = FileLoc; m_MD5 = ""; if (!LoadBootCodeOnly) { //Calculate files MD5 m_MD5 = MD5((const unsigned char *)m_ROMImage, m_RomFileSize).hex_digest(); } m_Country = (Country)m_ROMImage[0x3D]; m_RomIdent.Format("%08X-%08X-C:%X",*(DWORD *)(&m_ROMImage[0x10]),*(DWORD *)(&m_ROMImage[0x14]),m_ROMImage[0x3D]); CalculateCicChip(); if (!LoadBootCodeOnly && g_Rom == this) { SaveRomSettingID(false); } return true; } //Save the settings of the loaded rom, so all loaded settings about rom will be identified with //this rom void CN64Rom::SaveRomSettingID ( bool temp ) { g_Settings->SaveBool(Game_TempLoaded,temp); g_Settings->SaveString(Game_GameName,m_RomName.c_str()); g_Settings->SaveString(Game_IniKey,m_RomIdent.c_str()); switch (GetCountry()) { case Germany: case french: case Italian: case Europe: case Spanish: case Australia: case X_PAL: case Y_PAL: g_Settings->SaveDword(Game_SystemType,SYSTEM_PAL); break; default: g_Settings->SaveDword(Game_SystemType,SYSTEM_NTSC); break; } } void CN64Rom::ClearRomSettingID() { g_Settings->SaveString(Game_GameName,""); g_Settings->SaveString(Game_IniKey,""); } void CN64Rom::SetError(LanguageStringID ErrorMsg) { m_ErrorMsg = ErrorMsg; } void CN64Rom::UnallocateRomImage() { if (m_hRomFileMapping) { UnmapViewOfFile (m_ROMImage); CloseHandle(m_hRomFileMapping); m_ROMImage = NULL; m_hRomFileMapping = NULL; } if (m_hRomFile) { CloseHandle(m_hRomFile); m_hRomFile = NULL; } //if this value is still set then the image was not created a map //file but created with VirtualAllocate if (m_ROMImage) { VirtualFree(m_ROMImage,0,MEM_RELEASE); m_ROMImage = NULL; } }