// Copyright (c) 2012- PPSSPP Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0 or later versions. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official git repository and contact information can be found at // https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/. #include "SavedataParam.h" #include "image/png_load.h" #include "../HLE/sceKernelMemory.h" #include "../ELF/ParamSFO.h" #include "../HLE/sceChnnlsv.h" #include "Core/HW/MemoryStick.h" #include "PSPSaveDialog.h" std::string icon0Name = "ICON0.PNG"; std::string icon1Name = "ICON1.PMF"; std::string pic1Name = "PIC1.PNG"; std::string snd0Name = "SND0.AT3"; std::string sfoName = "PARAM.SFO"; std::string savePath = "ms0:/PSP/SAVEDATA/"; namespace { int getSizeNormalized(int size) { int sizeCluster = (int)MemoryStick_SectorSize(); return ((int)((size + sizeCluster - 1) / sizeCluster)) * sizeCluster; } void SetStringFromSFO(ParamSFOData &sfoFile, const char *name, char *str, int strLength) { std::string value = sfoFile.GetValueString(name); strncpy(str, value.c_str(), strLength - 1); str[strLength - 1] = 0; } bool ReadPSPFile(std::string filename, u8 **data, s64 dataSize, s64 *readSize) { u32 handle = pspFileSystem.OpenFile(filename, FILEACCESS_READ); if (handle == 0) return false; if(dataSize == -1) { dataSize = pspFileSystem.GetFileInfo(filename).size; *data = new u8[(size_t)dataSize]; } size_t result = pspFileSystem.ReadFile(handle, *data, dataSize); pspFileSystem.CloseFile(handle); if(readSize) *readSize = result; return result != 0; } bool WritePSPFile(std::string filename, u8 *data, SceSize dataSize) { u32 handle = pspFileSystem.OpenFile(filename, (FileAccess)(FILEACCESS_WRITE | FILEACCESS_CREATE)); if (handle == 0) return false; size_t result = pspFileSystem.WriteFile(handle, data, dataSize); pspFileSystem.CloseFile(handle); return result != 0; } bool PSPMatch(std::string text, std::string regexp) { if(text.empty() && regexp.empty()) return true; else if(regexp == "*") return true; else if(text.empty()) return false; else if(regexp.empty()) return false; else if(regexp == "?" && text.length() == 1) return true; else if(text == regexp) return true; else if(regexp.data()[0] == '*') { bool res = PSPMatch(text.substr(1),regexp.substr(1)); if(!res) res = PSPMatch(text.substr(1),regexp); return res; } else if(regexp.data()[0] == '?') { return PSPMatch(text.substr(1),regexp.substr(1)); } else if(regexp.data()[0] == text.data()[0]) { return PSPMatch(text.substr(1),regexp.substr(1)); } return false; } int align16(int address) { return ((address + 0xF) >> 4) << 4; } int GetSDKMainVersion(int sdkVersion) { if(sdkVersion > 0x307FFFF) return 6; if(sdkVersion > 0x300FFFF) return 5; if(sdkVersion > 0x206FFFF) return 4; if(sdkVersion > 0x205FFFF) return 3; if(sdkVersion >= 0x2000000) return 2; if(sdkVersion >= 0x1000000) return 1; return 0; }; } SavedataParam::SavedataParam() : pspParam(0) , selectedSave(0) , saveDataList(0) , noSaveIcon(0) , saveDataListCount(0) , saveNameListDataCount(0) { } void SavedataParam::Init() { if (!pspFileSystem.GetFileInfo(savePath).exists) { pspFileSystem.MkDir(savePath); } } std::string SavedataParam::GetSaveDirName(SceUtilitySavedataParam* param, int saveId) { if (!param) { return ""; } std::string dirName = GetSaveName(param); if (saveId >= 0 && saveNameListDataCount > 0) // if user selection, use it dirName = GetFilename(saveId); return dirName; } std::string SavedataParam::GetSaveDir(SceUtilitySavedataParam* param, const std::string &saveDirName) { if (!param) { return ""; } return GetGameName(param) + saveDirName; } std::string SavedataParam::GetSaveDir(SceUtilitySavedataParam* param, int saveId) { return GetSaveDir(param, GetSaveDirName(param, saveId)); } std::string SavedataParam::GetSaveFilePath(SceUtilitySavedataParam* param, const std::string &saveDir) { if (!param) { return ""; } return savePath + saveDir; } std::string SavedataParam::GetSaveFilePath(SceUtilitySavedataParam* param, int saveId) { return GetSaveFilePath(param, GetSaveDir(param, saveId)); } std::string SavedataParam::GetGameName(SceUtilitySavedataParam* param) { char gameName[14]; memcpy(gameName,param->gameName,13); gameName[13] = 0; return gameName; } std::string SavedataParam::GetSaveName(SceUtilitySavedataParam* param) { char saveName[21]; memcpy(saveName,param->saveName,20); saveName[20] = 0; if(strcmp(saveName,"<>") == 0) return ""; return saveName; } std::string SavedataParam::GetFileName(SceUtilitySavedataParam* param) { char fileName[14]; memcpy(fileName,param->fileName,13); fileName[13] = 0; return fileName; } bool SavedataParam::Delete(SceUtilitySavedataParam* param, int saveId) { if (!param) { return false; } std::string dirPath = GetSaveFilePath(param,saveId); if (saveId >= 0 && saveNameListDataCount > 0) // if user selection, use it { if (saveDataList[saveId].size == 0) // don't delete no existing file { return false; } } pspFileSystem.RmDir(dirPath); return true; } bool SavedataParam::Save(SceUtilitySavedataParam* param, const std::string &saveDirName, bool secureMode) { if (!param) { return false; } std::string dirPath = GetSaveFilePath(param, GetSaveDir(param, saveDirName)); if (!pspFileSystem.GetFileInfo(dirPath).exists) pspFileSystem.MkDir(dirPath); u8* cryptedData = 0; int cryptedSize = 0; u8 cryptedHash[0x10]; memset(cryptedHash,0,0x10); // Encrypt save. // TODO: Is this the correct difference between MAKEDATA and MAKEDATASECURE? if (param->dataBuf != 0 && g_Config.bEncryptSave && secureMode) { cryptedSize = param->dataSize; if(cryptedSize == 0 || (SceSize)cryptedSize > param->dataBufSize) cryptedSize = param->dataBufSize; // fallback, should never use this u8* data_ = (u8*)Memory::GetPointer(param->dataBuf); int aligned_len = align16(cryptedSize); cryptedData = new u8[aligned_len + 0x10]; memcpy(cryptedData, data_, cryptedSize); int decryptMode = 1; if(param->key[0] != 0) { decryptMode = (GetSDKMainVersion(sceKernelGetCompiledSdkVersion()) >= 4 ? 5 : 3); } if(EncryptData(decryptMode, cryptedData, &cryptedSize, &aligned_len, cryptedHash, ((param->key[0] != 0)?param->key:0)) == 0) { } else { ERROR_LOG(HLE,"Save encryption failed. This save won't work on real PSP"); delete[] cryptedData; cryptedData = 0; } } // SAVE PARAM.SFO ParamSFOData sfoFile; std::string sfopath = dirPath+"/"+sfoName; PSPFileInfo sfoInfo = pspFileSystem.GetFileInfo(sfopath); if(sfoInfo.exists) // Read old sfo if exist { u8 *sfoData = new u8[(size_t)sfoInfo.size]; size_t sfoSize = (size_t)sfoInfo.size; if(ReadPSPFile(sfopath,&sfoData,sfoSize, NULL)) { sfoFile.ReadSFO(sfoData,sfoSize); delete[] sfoData; } } // Update values sfoFile.SetValue("TITLE",param->sfoParam.title,128); sfoFile.SetValue("SAVEDATA_TITLE",param->sfoParam.savedataTitle,128); sfoFile.SetValue("SAVEDATA_DETAIL",param->sfoParam.detail,1024); sfoFile.SetValue("PARENTAL_LEVEL",param->sfoParam.parentalLevel,4); sfoFile.SetValue("CATEGORY","MS",4); sfoFile.SetValue("SAVEDATA_DIRECTORY", GetSaveDir(param, saveDirName), 64); // For each file, 13 bytes for filename, 16 bytes for file hash (0 in PPSSPP), 3 byte for padding const int FILE_LIST_ITEM_SIZE = 13 + 16 + 3; const int FILE_LIST_COUNT_MAX = 99; const int FILE_LIST_TOTAL_SIZE = FILE_LIST_ITEM_SIZE * FILE_LIST_COUNT_MAX; u32 tmpDataSize = 0; u8* tmpDataOrig = sfoFile.GetValueData("SAVEDATA_FILE_LIST", &tmpDataSize); u8* tmpData = new u8[FILE_LIST_TOTAL_SIZE]; if (tmpDataOrig != NULL) memcpy(tmpData, tmpDataOrig, tmpDataSize > FILE_LIST_TOTAL_SIZE ? FILE_LIST_TOTAL_SIZE : tmpDataSize); else memset(tmpData, 0, FILE_LIST_TOTAL_SIZE); if (param->dataBuf != 0) { char *fName = (char*)tmpData; for(int i = 0; i < FILE_LIST_COUNT_MAX; i++) { if(fName[0] == 0) break; // End of list if(strncmp(fName,GetFileName(param).c_str(),20) == 0) break; fName += FILE_LIST_ITEM_SIZE; } if (fName + 13 <= (char*)tmpData + FILE_LIST_TOTAL_SIZE) snprintf(fName, 13, "%s",GetFileName(param).c_str()); if (fName + 13 + 16 <= (char*)tmpData + FILE_LIST_TOTAL_SIZE) memcpy(fName+13, cryptedHash, 16); } sfoFile.SetValue("SAVEDATA_FILE_LIST", tmpData, FILE_LIST_TOTAL_SIZE, FILE_LIST_TOTAL_SIZE); delete[] tmpData; // Init param with 0. This will be used to detect crypted save or not on loading tmpData = new u8[128]; memset(tmpData, 0, 128); sfoFile.SetValue("SAVEDATA_PARAMS", tmpData, 128, 128); delete[] tmpData; u8 *sfoData; size_t sfoSize; sfoFile.WriteSFO(&sfoData,&sfoSize); // Calc SFO hash for PSP. if(cryptedData != 0) { int offset = sfoFile.GetDataOffset(sfoData,"SAVEDATA_PARAMS"); if(offset >= 0) UpdateHash(sfoData, sfoSize, offset, (param->key[0]?3:1)); } WritePSPFile(sfopath, sfoData, (SceSize)sfoSize); delete[] sfoData; if(param->dataBuf != 0) // Can launch save without save data in mode 13 { std::string filePath = dirPath+"/"+GetFileName(param); u8* data_ = 0; SceSize saveSize = 0; if(cryptedData == 0) // Save decrypted data { saveSize = param->dataSize; if(saveSize == 0 || saveSize > param->dataBufSize) saveSize = param->dataBufSize; // fallback, should never use this data_ = (u8*)Memory::GetPointer(param->dataBuf); } else { data_ = cryptedData; saveSize = cryptedSize; } INFO_LOG(HLE,"Saving file with size %u in %s",saveSize,filePath.c_str()); // copy back save name in request strncpy(param->saveName, saveDirName.c_str(), 20); if (!WritePSPFile(filePath, data_, saveSize)) { ERROR_LOG(HLE,"Error writing file %s",filePath.c_str()); if(cryptedData != 0) { delete[] cryptedData; } return false; } delete[] cryptedData; } // SAVE ICON0 if (param->icon0FileData.buf) { u8* data_ = (u8*)Memory::GetPointer(param->icon0FileData.buf); std::string icon0path = dirPath+"/"+icon0Name; WritePSPFile(icon0path, data_, param->icon0FileData.bufSize); } // SAVE ICON1 if (param->icon1FileData.buf) { u8* data_ = (u8*)Memory::GetPointer(param->icon1FileData.buf); std::string icon1path = dirPath+"/"+icon1Name; WritePSPFile(icon1path, data_, param->icon1FileData.bufSize); } // SAVE PIC1 if (param->pic1FileData.buf) { u8* data_ = (u8*)Memory::GetPointer(param->pic1FileData.buf); std::string pic1path = dirPath+"/"+pic1Name; WritePSPFile(pic1path, data_, param->pic1FileData.bufSize); } // Save SND if (param->snd0FileData.buf) { u8* data_ = (u8*)Memory::GetPointer(param->snd0FileData.buf); std::string snd0path = dirPath+"/"+snd0Name; WritePSPFile(snd0path, data_, param->snd0FileData.bufSize); } return true; } bool SavedataParam::Load(SceUtilitySavedataParam *param, const std::string &saveDirName, int saveId, bool secureMode) { if (!param) { return false; } u8 *data_ = (u8*)Memory::GetPointer(param->dataBuf); std::string dirPath = GetSaveFilePath(param, GetSaveDir(param, saveDirName)); if (saveId >= 0 && saveNameListDataCount > 0) // if user selection, use it { if (saveDataList[saveId].size == 0) // don't read no existing file { return false; } } std::string filePath = dirPath+"/"+GetFileName(param); s64 readSize; INFO_LOG(HLE,"Loading file with size %u in %s",param->dataBufSize,filePath.c_str()); u8* saveData = 0; int saveSize = -1; if (!ReadPSPFile(filePath, &saveData, saveSize, &readSize)) { ERROR_LOG(HLE,"Error reading file %s",filePath.c_str()); return false; } saveSize = (int)readSize; // copy back save name in request strncpy(param->saveName, saveDirName.c_str(), 20); ParamSFOData sfoFile; std::string sfopath = dirPath+"/"+sfoName; PSPFileInfo sfoInfo = pspFileSystem.GetFileInfo(sfopath); if(sfoInfo.exists) // Read sfo { u8 *sfoData = new u8[(size_t)sfoInfo.size]; size_t sfoSize = (size_t)sfoInfo.size; if(ReadPSPFile(sfopath,&sfoData,sfoSize, NULL)) { sfoFile.ReadSFO(sfoData,sfoSize); // copy back info in request strncpy(param->sfoParam.title,sfoFile.GetValueString("TITLE").c_str(),128); strncpy(param->sfoParam.savedataTitle,sfoFile.GetValueString("SAVEDATA_TITLE").c_str(),128); strncpy(param->sfoParam.detail,sfoFile.GetValueString("SAVEDATA_DETAIL").c_str(),1024); param->sfoParam.parentalLevel = sfoFile.GetValueInt("PARENTAL_LEVEL"); } delete[] sfoData; } // Don't know what it is, but PSP always respond this and this unlock some game param->bind = 1021; bool isCrypted = IsSaveEncrypted(param, saveDirName) && secureMode; bool saveDone = false; if(isCrypted)// Try to decrypt { int align_len = align16(saveSize); u8* data_base = new u8[align_len]; u8* cryptKey = new u8[0x10]; memset(cryptKey,0,0x10); if(param->key[0] != 0) { memcpy(cryptKey, param->key, 0x10); } memset(data_base + saveSize, 0, align_len - saveSize); memcpy(data_base, saveData, saveSize); int decryptMode = 1; if(param->key[0] != 0) { decryptMode = (GetSDKMainVersion(sceKernelGetCompiledSdkVersion()) >= 4 ? 5 : 3); } if(DecryptSave(decryptMode, data_base, &saveSize, &align_len, ((param->key[0] != 0)?cryptKey:0)) == 0) { memcpy(data_, data_base, saveSize); saveDone = true; } delete[] data_base; delete[] cryptKey; } if(!saveDone) // not crypted or decrypt fail { memcpy(data_, saveData, saveSize); } param->dataSize = (SceSize)saveSize; delete[] saveData; return true; } int SavedataParam::EncryptData(unsigned int mode, unsigned char *data, int *dataLen, int *alignedLen, unsigned char *hash, unsigned char *cryptkey) { pspChnnlsvContext1 ctx1; pspChnnlsvContext2 ctx2; /* Make room for the IV in front of the data. */ memmove(data + 0x10, data, *alignedLen); /* Set up buffers */ memset(&ctx1, 0, sizeof(pspChnnlsvContext1)); memset(&ctx2, 0, sizeof(pspChnnlsvContext2)); memset(hash, 0, 0x10); memset(data, 0, 0x10); /* Build the 0x10-byte IV and setup encryption */ if (sceSdCreateList_(ctx2, mode, 1, data, cryptkey) < 0) return -1; if (sceSdSetIndex_(ctx1, mode) < 0) return -2; if (sceSdRemoveValue_(ctx1, data, 0x10) < 0) return -3; if (sceSdSetMember_(ctx2, data + 0x10, *alignedLen) < 0) return -4; /* Clear any extra bytes left from the previous steps */ memset(data + 0x10 + *dataLen, 0, *alignedLen - *dataLen); /* Encrypt the data */ if (sceSdRemoveValue_(ctx1, data + 0x10, *alignedLen) < 0) return -5; /* Verify encryption */ if (sceChnnlsv_21BE78B4_(ctx2) < 0) return -6; /* Build the file hash from this PSP */ if (sceSdGetLastIndex_(ctx1, hash, cryptkey) < 0) return -7; /* Adjust sizes to account for IV */ *alignedLen += 0x10; *dataLen += 0x10; /* All done */ return 0; } int SavedataParam::DecryptSave(unsigned int mode, unsigned char *data, int *dataLen, int *alignedLen, unsigned char *cryptkey) { pspChnnlsvContext1 ctx1; pspChnnlsvContext2 ctx2; /* Need a 16-byte IV plus some data */ if (*alignedLen <= 0x10) return -1; *dataLen -= 0x10; *alignedLen -= 0x10; /* Set up buffers */ memset(&ctx1, 0, sizeof(pspChnnlsvContext1)); memset(&ctx2, 0, sizeof(pspChnnlsvContext2)); /* Perform the magic */ if (sceSdSetIndex_(ctx1, mode) < 0) return -2; if (sceSdCreateList_(ctx2, mode, 2, data, cryptkey) < 0) return -3; if (sceSdRemoveValue_(ctx1, data, 0x10) < 0) return -4; if (sceSdRemoveValue_(ctx1, data + 0x10, *alignedLen) < 0) return -5; if (sceSdSetMember_(ctx2, data + 0x10, *alignedLen) < 0) return -6; /* Verify that it decrypted correctly */ if (sceChnnlsv_21BE78B4_(ctx2) < 0) return -7; /* The decrypted data starts at data + 0x10, so shift it back. */ memmove(data, data + 0x10, *dataLen); return 0; } int SavedataParam::UpdateHash(u8* sfoData, int sfoSize, int sfoDataParamsOffset, int encryptmode) { int alignedLen = align16(sfoSize); memset(sfoData+sfoDataParamsOffset, 0, 128); u8 filehash[16]; int ret = 0; /* Compute 11D0 hash over entire file */ if ((ret = BuildHash(filehash, sfoData, sfoSize, alignedLen, (encryptmode & 2) ? 4 : 2, NULL)) < 0) { // Not sure about "2" return ret - 400; } /* Copy 11D0 hash to param.sfo and set flag indicating it's there */ memcpy(sfoData+sfoDataParamsOffset + 0x20, filehash, 0x10); *(sfoData+sfoDataParamsOffset) |= 0x01; /* If new encryption mode, compute and insert the 1220 hash. */ if (encryptmode & 2) { /* Enable the hash bit first */ *(sfoData+sfoDataParamsOffset) |= 0x20; if ((ret = BuildHash(filehash, sfoData, sfoSize, alignedLen, 3, 0)) < 0) { return ret - 500; } memcpy(sfoData+sfoDataParamsOffset + 0x70, filehash, 0x10); } /* Compute and insert the 11C0 hash. */ if ((ret = BuildHash(filehash, sfoData, sfoSize, alignedLen, 1, 0)) < 0) { return ret - 600; } memcpy(sfoData+sfoDataParamsOffset + 0x10, filehash, 0x10); /* All done. */ return 0; } int SavedataParam::BuildHash(unsigned char *output, unsigned char *data, unsigned int len, unsigned int alignedLen, int mode, unsigned char *cryptkey) { pspChnnlsvContext1 ctx1; /* Set up buffers */ memset(&ctx1, 0, sizeof(pspChnnlsvContext1)); memset(output, 0, 0x10); memset(data + len, 0, alignedLen - len); /* Perform the magic */ if (sceSdSetIndex_(ctx1, mode & 0xFF) < 0) return -1; if (sceSdRemoveValue_(ctx1, data, alignedLen) < 0) return -2; if (sceSdGetLastIndex_(ctx1, output, cryptkey) < 0) { // Got here since Kirk CMD5 missing, return random value; memset(output,0x1,0x10); return 0; } /* All done. */ return 0; } std::string SavedataParam::GetSpaceText(int size) { char text[50]; if(size < 1024) { sprintf(text,"%d B",size); return std::string(text); } size /= 1024; if(size < 1024) { sprintf(text,"%d KB",size); return std::string(text); } size /= 1024; if(size < 1024) { sprintf(text,"%d MB",size); return std::string(text); } size /= 1024; sprintf(text,"%d GB",size); return std::string(text); } bool SavedataParam::GetSizes(SceUtilitySavedataParam *param) { if (!param) { return false; } bool ret = true; if (Memory::IsValidAddress(param->msFree)) { Memory::Write_U32((u32)MemoryStick_SectorSize(),param->msFree); // cluster Size Memory::Write_U32((u32)(MemoryStick_FreeSpace() / MemoryStick_SectorSize()),param->msFree+4); // Free cluster Memory::Write_U32((u32)(MemoryStick_FreeSpace() / 0x400),param->msFree+8); // Free space (in KB) std::string spaceTxt = SavedataParam::GetSpaceText((int)MemoryStick_FreeSpace()); Memory::Memset(param->msFree+12,0,(u32)spaceTxt.size()+1); Memory::Memcpy(param->msFree+12,spaceTxt.c_str(),(u32)spaceTxt.size()); // Text representing free space } if (Memory::IsValidAddress(param->msData)) { std::string path = GetSaveFilePath(param,0); PSPFileInfo finfo = pspFileSystem.GetFileInfo(path); if(finfo.exists) { // TODO : fill correctly with the total save size, be aware of crypted file size Memory::Write_U32(1,param->msData+36); //1 Memory::Write_U32(0x20,param->msData+40); // 0x20 Memory::Write_U8(0,param->msData+44); // "32 KB" // 8 u8 Memory::Write_U32(0x20,param->msData+52); // 0x20 Memory::Write_U8(0,param->msData+56); // "32 KB" // 8 u8 } else { Memory::Write_U32(0,param->msData+36); Memory::Write_U32(0,param->msData+40); Memory::Write_U8(0,param->msData+44); Memory::Write_U32(0,param->msData+52); Memory::Write_U8(0,param->msData+56); ret = false; // this should return SCE_UTILITY_SAVEDATA_ERROR_SIZES_NO_DATA } } if (Memory::IsValidAddress(param->utilityData)) { int total_size = 0; total_size += getSizeNormalized(1); // SFO; total_size += getSizeNormalized(param->dataSize); // Save Data total_size += getSizeNormalized(param->icon0FileData.size); total_size += getSizeNormalized(param->icon1FileData.size); total_size += getSizeNormalized(param->pic1FileData.size); total_size += getSizeNormalized(param->snd0FileData.size); Memory::Write_U32(total_size / (u32)MemoryStick_SectorSize(),param->utilityData); // num cluster Memory::Write_U32(total_size / 0x400,param->utilityData+4); // save size in KB std::string spaceTxt = SavedataParam::GetSpaceText(total_size); Memory::Memset(param->utilityData+8,0,(u32)spaceTxt.size()+1); Memory::Memcpy(param->utilityData+8,spaceTxt.c_str(),(u32)spaceTxt.size()); // save size in text Memory::Write_U32(total_size / 0x400,param->utilityData+16); // save size in KB spaceTxt = SavedataParam::GetSpaceText(total_size); Memory::Memset(param->utilityData+20,0,(u32)spaceTxt.size()+1); Memory::Memcpy(param->utilityData+20,spaceTxt.c_str(),(u32)spaceTxt.size()); // save size in text } return ret; } bool SavedataParam::GetList(SceUtilitySavedataParam *param) { if (!param) { return false; } if (Memory::IsValidAddress(param->idListAddr)) { u32 outputBuffer = Memory::Read_U32(param->idListAddr + 8); u32 maxFile = Memory::Read_U32(param->idListAddr + 0); std::vector validDir; std::vector allDir = pspFileSystem.GetDirListing(savePath); if (Memory::IsValidAddress(outputBuffer)) { std::string searchString = GetGameName(param)+GetSaveName(param); for (size_t i = 0; i < allDir.size() && validDir.size() < maxFile; i++) { std::string dirName = allDir[i].name; if(PSPMatch(dirName, searchString)) { validDir.push_back(allDir[i]); } } for (u32 i = 0; i < (u32)validDir.size(); i++) { u32 baseAddr = outputBuffer + (i*72); Memory::Write_U32(0x11FF,baseAddr + 0); // mode Memory::Write_U64(0,baseAddr + 4); // TODO ctime Memory::Write_U64(0,baseAddr + 12); // TODO unknow Memory::Write_U64(0,baseAddr + 20); // TODO atime Memory::Write_U64(0,baseAddr + 28); // TODO unknow Memory::Write_U64(0,baseAddr + 36); // TODO mtime Memory::Write_U64(0,baseAddr + 44); // TODO unknow // folder name without gamename (max 20 u8) std::string outName = validDir[i].name.substr(GetGameName(param).size()); Memory::Memset(baseAddr + 52,0,20); Memory::Memcpy(baseAddr + 52, outName.c_str(), (u32)outName.size()); } } // Save num of folder found Memory::Write_U32((u32)validDir.size(), param->idListAddr + 4); } return true; } bool SavedataParam::GetFilesList(SceUtilitySavedataParam *param) { if (!param) { return false; } // TODO : Need to be checked against more game u32 dataAddr = param->fileListAddr; int foundFiles = 0; if (Memory::IsValidAddress(dataAddr)) { u32 fileInfosAddr = Memory::Read_U32(dataAddr + 24); //for Valkyria2, dataAddr+0 and dataAddr+12 has "5" for 5 files int numFiles = Memory::Read_U32(dataAddr); for (int i = 0; i < numFiles; i++) { // for each file (80 bytes): // u32 mode, u32 ??, u64 size, u64 ctime, u64 ??, u64 atime, u64 ???, u64 mtime, u64 ??? // u8[16] filename (or 13 + padding?) u32 curFileInfoAddr = fileInfosAddr + i*80; if (Memory::IsValidAddress(curFileInfoAddr)) { char fileName[16]; strncpy(fileName, Memory::GetCharPointer(curFileInfoAddr + 64),16); std::string filePath = savePath + GetGameName(param) + GetSaveName(param) + "/" + fileName; PSPFileInfo info = pspFileSystem.GetFileInfo(filePath); if (info.exists) { bool isCrypted = IsSaveEncrypted(param, GetSaveDirName(param, 0)); Memory::Write_U32(0x21FF, curFileInfoAddr+0); if(isCrypted) // Crypted save are 16 bytes bigger Memory::Write_U64(info.size - 0x10, curFileInfoAddr+8); else Memory::Write_U64(info.size, curFileInfoAddr+8); Memory::Write_U64(0,curFileInfoAddr + 16); // TODO ctime Memory::Write_U64(0,curFileInfoAddr + 24); // TODO unknow Memory::Write_U64(0,curFileInfoAddr + 32); // TODO atime Memory::Write_U64(0,curFileInfoAddr + 40); // TODO unknow Memory::Write_U64(0,curFileInfoAddr + 48); // TODO mtime Memory::Write_U64(0,curFileInfoAddr + 56); // TODO unknow foundFiles++; } } } } // TODO : verify if return true if at least 1 file found or only if all found return foundFiles > 0; } bool SavedataParam::GetSize(SceUtilitySavedataParam *param) { if (!param) { return false; } std::string saveDir = savePath + GetGameName(param) + GetSaveName(param); PSPFileInfo info = pspFileSystem.GetFileInfo(saveDir); bool exists = info.exists; if (Memory::IsValidAddress(param->sizeAddr)) { PspUtilitySavedataSizeInfo sizeInfo; Memory::ReadStruct(param->sizeAddr, &sizeInfo); // TODO: Read the entries and count up the size vs. existing size? sizeInfo.sectorSize = (int)MemoryStick_SectorSize(); sizeInfo.freeSectors = (int)(MemoryStick_FreeSpace() / MemoryStick_SectorSize()); // TODO: Is this after the specified files? Before? sizeInfo.freeKB = (int)(MemoryStick_FreeSpace() / 1024); std::string spaceTxt = SavedataParam::GetSpaceText((int)MemoryStick_FreeSpace()); strncpy(sizeInfo.freeString, spaceTxt.c_str(), 8); sizeInfo.freeString[7] = '\0'; // TODO. sizeInfo.neededKB = 0; strcpy(sizeInfo.neededString, "0 KB"); sizeInfo.overwriteKB = 0; strcpy(sizeInfo.overwriteString, "0 KB"); Memory::WriteStruct(param->sizeAddr, &sizeInfo); } return exists; } void SavedataParam::Clear() { if (saveDataList) { for (int i = 0; i < saveNameListDataCount; i++) { if (saveDataList[i].textureData != 0 && saveDataList[i].size != 0) kernelMemory.Free(saveDataList[i].textureData); saveDataList[i].textureData = 0; } delete[] saveDataList; saveDataList = 0; saveDataListCount = 0; } if (noSaveIcon) { if(noSaveIcon->textureData != 0) kernelMemory.Free(noSaveIcon->textureData); noSaveIcon->textureData = 0; delete noSaveIcon; noSaveIcon = 0; } } int SavedataParam::SetPspParam(SceUtilitySavedataParam *param) { pspParam = param; if (!pspParam) { Clear(); return 0; } bool listEmptyFile = true; if (param->mode == SCE_UTILITY_SAVEDATA_TYPE_LISTLOAD || param->mode == SCE_UTILITY_SAVEDATA_TYPE_LISTDELETE) { listEmptyFile = false; } typedef char (*SaveNameListData_t)[20]; SaveNameListData_t saveNameListData; bool hasMultipleFileName = false; if (param->saveNameList != 0) { Clear(); saveNameListData = (SaveNameListData_t)Memory::GetPointer(param->saveNameList); // Get number of fileName in array saveDataListCount = 0; while (saveNameListData[saveDataListCount][0] != 0) { saveDataListCount++; } if (saveDataListCount > 0) { hasMultipleFileName = true; saveDataList = new SaveFileInfo[saveDataListCount]; // get and stock file info for each file int realCount = 0; for (int i = 0; i < saveDataListCount; i++) { DEBUG_LOG(HLE,"Name : %s",saveNameListData[i]); std::string fileDataPath = savePath+GetGameName(param) + saveNameListData[i] + "/" + param->fileName; PSPFileInfo info = pspFileSystem.GetFileInfo(fileDataPath); if (info.exists) { SetFileInfo(realCount, info, saveNameListData[i]); DEBUG_LOG(HLE,"%s Exist",fileDataPath.c_str()); realCount++; } else { if (listEmptyFile) { ClearFileInfo(saveDataList[realCount], saveNameListData[i]); DEBUG_LOG(HLE,"Don't Exist"); realCount++; } } } saveNameListDataCount = realCount; } } if (!hasMultipleFileName) // Load info on only save { saveNameListData = 0; Clear(); saveDataList = new SaveFileInfo[1]; saveDataListCount = 1; // get and stock file info for each file DEBUG_LOG(HLE,"Name : %s",GetSaveName(param).c_str()); std::string fileDataPath = savePath + GetGameName(param) + GetSaveName(param) + "/" + param->fileName; PSPFileInfo info = pspFileSystem.GetFileInfo(fileDataPath); if (info.exists) { SetFileInfo(0, info, GetSaveName(param)); DEBUG_LOG(HLE,"%s Exist",fileDataPath.c_str()); saveNameListDataCount = 1; } else { if (listEmptyFile) { ClearFileInfo(saveDataList[0], GetSaveName(param)); DEBUG_LOG(HLE,"Don't Exist"); } saveNameListDataCount = 0; return 0; } } return 0; } bool SavedataParam::CreatePNGIcon(u8* pngData, int pngSize, SaveFileInfo& info) { unsigned char *textureData; int w,h; int success = pngLoadPtr(pngData, (int)pngSize, &w, &h, &textureData, false); u32 texSize = w*h*4; u32 atlasPtr; if (success) atlasPtr = kernelMemory.Alloc(texSize, true, "SaveData Icon"); if (success && atlasPtr != (u32)-1) { info.textureData = atlasPtr; Memory::Memcpy(atlasPtr, textureData, texSize); free(textureData); info.textureWidth = w; info.textureHeight = h; } else { WARN_LOG(HLE, "Unable to load PNG data for savedata."); return false; } return true; } void SavedataParam::SetFileInfo(SaveFileInfo &saveInfo, PSPFileInfo &info, std::string saveName) { saveInfo.size = info.size; saveInfo.saveName = saveName; saveInfo.idx = 0; saveInfo.modif_time = info.mtime; // Start with a blank slate. saveInfo.textureData = 0; saveInfo.title[0] = 0; saveInfo.saveTitle[0] = 0; saveInfo.saveDetail[0] = 0; // Search save image icon0 // TODO : If icon0 don't exist, need to use icon1 which is a moving icon. Also play sound std::string fileDataPath2 = savePath + GetGameName(pspParam) + saveName + "/" + icon0Name; PSPFileInfo info2 = pspFileSystem.GetFileInfo(fileDataPath2); if (info2.exists) { u8 *textureDataPNG = new u8[(size_t)info2.size]; ReadPSPFile(fileDataPath2, &textureDataPNG, info2.size, NULL); CreatePNGIcon(textureDataPNG, (int)info2.size, saveInfo); delete[] textureDataPNG; } // Load info in PARAM.SFO fileDataPath2 = savePath + GetGameName(pspParam) + saveName + "/" + sfoName; info2 = pspFileSystem.GetFileInfo(fileDataPath2); if (info2.exists) { u8 *sfoParam = new u8[(size_t)info2.size]; ReadPSPFile(fileDataPath2, &sfoParam, info2.size, NULL); ParamSFOData sfoFile; if (sfoFile.ReadSFO(sfoParam,(size_t)info2.size)) { SetStringFromSFO(sfoFile, "TITLE", saveInfo.title, sizeof(saveInfo.title)); SetStringFromSFO(sfoFile, "SAVEDATA_TITLE", saveInfo.saveTitle, sizeof(saveInfo.saveTitle)); SetStringFromSFO(sfoFile, "SAVEDATA_DETAIL", saveInfo.saveDetail, sizeof(saveInfo.saveDetail)); } delete [] sfoParam; } } void SavedataParam::SetFileInfo(int idx, PSPFileInfo &info, std::string saveName) { SetFileInfo(saveDataList[idx], info, saveName); saveDataList[idx].idx = idx; } void SavedataParam::ClearFileInfo(SaveFileInfo &saveInfo, std::string saveName) { saveInfo.size = 0; saveInfo.saveName = saveName; saveInfo.idx = 0; saveInfo.textureData = 0; if (Memory::IsValidAddress(GetPspParam()->newData)) { // We have a png to show if (!noSaveIcon) { noSaveIcon = new SaveFileInfo(); PspUtilitySavedataFileData newData; Memory::ReadStruct(GetPspParam()->newData, &newData); CreatePNGIcon(Memory::GetPointer(newData.buf), (int)newData.size, *noSaveIcon); } saveInfo.textureData = noSaveIcon->textureData; saveInfo.textureWidth = noSaveIcon->textureWidth; saveInfo.textureHeight = noSaveIcon->textureHeight; } } SceUtilitySavedataParam* SavedataParam::GetPspParam() { return pspParam; } int SavedataParam::GetFilenameCount() { return saveNameListDataCount; } const SaveFileInfo& SavedataParam::GetFileInfo(int idx) { return saveDataList[idx]; } std::string SavedataParam::GetFilename(int idx) { return saveDataList[idx].saveName; } int SavedataParam::GetSelectedSave() { // The slot # of the same save on LOAD/SAVE lists can dismatch so this isn't right anyhow return selectedSave < saveNameListDataCount ? selectedSave : 0; } void SavedataParam::SetSelectedSave(int idx) { selectedSave = idx; } int SavedataParam::GetFirstListSave() { return 0; } int SavedataParam::GetLastListSave() { return saveDataListCount - 1; } int SavedataParam::GetLatestSave() { int idx = 0; time_t idxTime = 0; for (int i = 0; i < saveDataListCount; ++i) { time_t thisTime = mktime(&saveDataList[i].modif_time); if (idxTime < thisTime) { idx = i; idxTime = thisTime; } } return idx; } int SavedataParam::GetOldestSave() { int idx = 0; time_t idxTime = 0; for (int i = 0; i < saveDataListCount; ++i) { time_t thisTime = mktime(&saveDataList[i].modif_time); if (idxTime > thisTime) { idx = i; idxTime = thisTime; } } return idx; } int SavedataParam::GetFirstDataSave() { int idx = 0; for (int i = 0; i < saveDataListCount; ++i) { if (saveDataList[i].size != 0) { idx = i;; break; } } return idx; } int SavedataParam::GetLastDataSave() { int idx = 0; for (int i = saveDataListCount; i > 0; ) { --i; if (saveDataList[i].size != 0) { idx = i; break; } } return idx; } int SavedataParam::GetFirstEmptySave() { int idx = 0; for (int i = 0; i < saveDataListCount; ++i) { if (saveDataList[i].size == 0) { idx = i; break; } } return idx; } int SavedataParam::GetLastEmptySave() { int idx = 0; for (int i = saveDataListCount; i > 0; ) { --i; if (saveDataList[i].size == 0) { idx = i; break; } } return idx; } void SavedataParam::DoState(PointerWrap &p) { // pspParam is handled in PSPSaveDialog. p.Do(selectedSave); p.Do(saveDataListCount); p.Do(saveNameListDataCount); if (p.mode == p.MODE_READ) { if (saveDataList != NULL) delete [] saveDataList; if (saveDataListCount != 0) { saveDataList = new SaveFileInfo[saveDataListCount]; p.DoArray(saveDataList, saveDataListCount); } else saveDataList = NULL; } else p.DoArray(saveDataList, saveDataListCount); p.DoMarker("SavedataParam"); } bool SavedataParam::IsSaveEncrypted(SceUtilitySavedataParam* param, const std::string &saveDirName) { bool isCrypted = false; ParamSFOData sfoFile; std::string dirPath = GetSaveFilePath(param, GetSaveDir(param, saveDirName)); std::string sfopath = dirPath+"/"+sfoName; PSPFileInfo sfoInfo = pspFileSystem.GetFileInfo(sfopath); if(sfoInfo.exists) // Read sfo { u8 *sfoData = new u8[(size_t)sfoInfo.size]; size_t sfoSize = (size_t)sfoInfo.size; if(ReadPSPFile(sfopath,&sfoData,sfoSize, NULL)) { sfoFile.ReadSFO(sfoData,sfoSize); // save created in PPSSPP and not encrypted has '0' in SAVEDATA_PARAMS u32 tmpDataSize = 0; u8* tmpDataOrig = sfoFile.GetValueData("SAVEDATA_PARAMS", &tmpDataSize); for(u32 i = 0; i < tmpDataSize; i++) { if(tmpDataOrig[i] != 0) { isCrypted = true; break; } } } delete[] sfoData; } return isCrypted; }