#include "utils.hpp" namespace i18n = brls::i18n; using namespace i18n::literals; bool isServiceRunning(const char *serviceName) { Handle handle; SmServiceName service_name = smEncodeName(serviceName); bool running = R_FAILED(smRegisterService(&handle, service_name, false, 1)); svcCloseHandle(handle); if (!running) smUnregisterService(service_name); return running; } CFW getCFW(){ if(isServiceRunning("rnx")) return rnx; else if(isServiceRunning("tx")) return sxos; else return ams; } std::vector htmlProcess(std::string s, std::regex rgx){ //std::vector rgx = {std::regex(">(?:(?!>).)*?"), std::regex(">(?:(?!>).)*?")}; std::vector res; std::smatch match; while (std::regex_search(s, match, rgx)){ res.push_back(match[0].str()); s = match.suffix(); } return res; } void createTree(std::string path){ std::string delimiter = "/"; size_t pos = 0; std::string token; std::string directories(""); while ((pos = path.find(delimiter)) != std::string::npos) { token = path.substr(0, pos); directories += token + "/"; std::filesystem::create_directory(directories); path.erase(0, pos + delimiter.length()); } } bool isArchive(const char * path){ std::fstream file; std::string fileContent; if(std::filesystem::exists(path)){ file.open(path, std::fstream::in); file >> fileContent; file.close(); } return fileContent.find("DOCTYPE") == std::string::npos; } void downloadArchive(std::string url, archiveType type){ createTree(DOWNLOAD_PATH); AppletType at; switch(type){ case sigpatches: downloadFile(url.c_str(), SIGPATCHES_FILENAME, OFF); break; case cheats: downloadFile(url.c_str(), CHEATS_FILENAME, OFF); break; case fw: at = appletGetAppletType(); if (at == AppletType_Application || at == AppletType_SystemApplication) { downloadFile(url.c_str(), FIRMWARE_FILENAME, OFF); } else{ showDialogBox("menus/utils_because"_i18n , "utils_ok"_i18n ); brls::Application::pushView(new MainFrame()); } break; case app: downloadFile(url.c_str(), APP_FILENAME, OFF); break; case cfw: downloadFile(url.c_str(), CFW_FILENAME, OFF); break; case ams_cfw: downloadFile(url.c_str(), AMS_FILENAME, OFF); } } int dialogResult = -1; int showDialogBox(std::string text, std::string opt){ int result = -1; brls::Dialog* dialog = new brls::Dialog(text); brls::GenericEvent::Callback callback = [dialog](brls::View* view) { dialogResult = 0; dialog->close(); }; dialog->addButton(opt, callback); dialog->setCancelable(false); dialog->open(); while(result == -1){ usleep(1); result = dialogResult; } dialogResult = -1; return result; } int showDialogBox(std::string text, std::string opt1, std::string opt2){ int result = -1; brls::Dialog* dialog = new brls::Dialog(text); brls::GenericEvent::Callback callback1 = [dialog](brls::View* view) { dialogResult = 0; dialog->close(); }; brls::GenericEvent::Callback callback2 = [dialog](brls::View* view) { dialogResult = 1; dialog->close(); }; dialog->addButton(opt1, callback1); dialog->addButton(opt2, callback2); dialog->setCancelable(false); dialog->open(); while(result == -1){ usleep(1); result = dialogResult; } dialogResult = -1; return result; } void extractArchive(archiveType type, std::string tag){ int overwriteInis = 0; std::vector titles; std::string nroPath ="sdmc:" + std::string(APP_PATH); chdir(ROOT_PATH); switch(type){ case sigpatches: if(isArchive(SIGPATCHES_FILENAME)) { std::string backup(HEKATE_IPL_PATH); backup += ".old"; if(std::filesystem::exists(HEKATE_IPL_PATH)){ overwriteInis = showDialogBox("menus/utils_do"_i18n + std::string(HEKATE_IPL_PATH) +"?", "menus/utils_no"_i18n , "menus/utils_yes"_i18n ); if(overwriteInis == 0){ extract(SIGPATCHES_FILENAME, ROOT_PATH, HEKATE_IPL_PATH); } else{ extract(SIGPATCHES_FILENAME); } } else{ extract(SIGPATCHES_FILENAME); } } else{ showDialogBox("menus/utils_the"_i18n , "menus/utils_ok"_i18n ); brls::Application::pushView(new MainFrame()); } break; case cheats: titles = getInstalledTitlesNs(); titles = excludeTitles(CHEATS_EXCLUDE, titles); extractCheats(CHEATS_FILENAME, titles, getCFW()); break; case fw: if(std::filesystem::file_size(FIRMWARE_FILENAME) < 200000){ showDialogBox("menus/utils_the_downloaded"_i18n , "menus/utils_ok"_i18n ); brls::Application::pushView(new MainFrame()); } else{ if (std::filesystem::exists(FIRMWARE_PATH)) std::filesystem::remove_all(FIRMWARE_PATH); createTree(FIRMWARE_PATH); extract(FIRMWARE_FILENAME, FIRMWARE_PATH); } break; case app: extract(APP_FILENAME, CONFIG_PATH); cp(ROMFS_FORWARDER, FORWARDER_PATH); envSetNextLoad(FORWARDER_PATH, ("\"" + std::string(FORWARDER_PATH) + "\"").c_str()); romfsExit(); brls::Application::quit(); break; case cfw: if(isArchive(CFW_FILENAME)){ overwriteInis = showDialogBox("menus/ultils_overwrite"_i18n , "menus/utils_no"_i18n , "menus/utils_yes"_i18n ); extract(CFW_FILENAME, ROOT_PATH, overwriteInis); } else{ showDialogBox("menus/ultis_file"_i18n , "menus/utils_ok"_i18n ); brls::Application::pushView(new MainFrame()); } break; case ams_cfw: if(isArchive(AMS_FILENAME)){ overwriteInis = showDialogBox("menus/ultils_overwrite"_i18n , "menus/utils_no"_i18n , "menus/utils_yes"_i18n ); extract(AMS_FILENAME, ROOT_PATH, overwriteInis); } } } void progressTest(std::string url, archiveType type){ ProgressEvent::instance().reset(); ProgressEvent::instance().setTotalSteps(2); ProgressEvent::instance().setStep(1); ProgressEvent::instance().setStep(2); } std::string formatListItemTitle(const std::string str, size_t maxScore) { size_t score = 0; for (size_t i = 0; i < str.length(); i++) { score += std::isupper(str[i]) ? 4 : 3; if(score > maxScore) { return str.substr(0, i-1) + "\u2026"; } } return str; } std::string formatApplicationId(u64 ApplicationId){ std::stringstream strm; strm << std::uppercase << std::setfill('0') << std::setw(16) << std::hex << ApplicationId; return strm.str(); } std::set<std::string> readLineByLine(const char * path){ std::set<std::string> titles; std::string str; std::ifstream in(path); if(in){ while (std::getline(in, str)) { if(str.size() > 0) titles.insert(str); } in.close(); } return titles; } std::vector<std::string> fetchPayloads(){ std::vector<std::string> payloadPaths; payloadPaths.push_back(ROOT_PATH); if(std::filesystem::exists(PAYLOAD_PATH)) payloadPaths.push_back(PAYLOAD_PATH); if(std::filesystem::exists(AMS_PATH)) payloadPaths.push_back(AMS_PATH); if(std::filesystem::exists(REINX_PATH)) payloadPaths.push_back(REINX_PATH); if(std::filesystem::exists(BOOTLOADER_PATH)) payloadPaths.push_back(BOOTLOADER_PATH); if(std::filesystem::exists(BOOTLOADER_PL_PATH)) payloadPaths.push_back(BOOTLOADER_PL_PATH); if(std::filesystem::exists(SXOS_PATH)) payloadPaths.push_back(SXOS_PATH); std::vector<std::string> res; for (auto& path : payloadPaths){ for (const auto & entry : std::filesystem::directory_iterator(path)){ if(entry.path().extension().string() == ".bin"){ std::cout << entry.path().string() << std::endl; if(entry.path().string() != FUSEE_SECONDARY && entry.path().string() != FUSEE_MTC) res.push_back(entry.path().string().c_str()); } } } return res; } void shut_down(bool reboot){ bpcInitialize(); if(reboot) bpcRebootSystem(); else bpcShutdownSystem(); bpcExit(); } std::string getLatestTag(const char *url){ std::string page = downloadPage(url); try{ nlohmann::json tags = nlohmann::json::parse(page); nlohmann::json:: iterator latest = tags.begin(); return latest.value()["name"]; } catch (...){ return ""; } } void cp(const char *from, const char *to){ std::ifstream src(from, std::ios::binary); std::ofstream dst(to, std::ios::binary); if (src.good() && dst.good()) { dst << src.rdbuf(); } } Result CopyFile(const char src_path[FS_MAX_PATH], const char dest_path[FS_MAX_PATH]) { FsFileSystem *fs; Result ret = 0; FsFile src_handle, dest_handle; int PREVIOUS_BROWSE_STATE = 0; FsFileSystem devices[4]; devices[0] = *fsdevGetDeviceFileSystem("sdmc"); fs = &devices[0]; ret = fsFsOpenFile(&devices[PREVIOUS_BROWSE_STATE], src_path, FsOpenMode_Read, &src_handle); if (R_FAILED(ret)) { return ret; } s64 size = 0; ret = fsFileGetSize(&src_handle, &size); if (R_FAILED(ret)){ fsFileClose(&src_handle); return ret; } std::filesystem::remove(dest_path); fsFsCreateFile(fs, dest_path, size, 0); ret = fsFsOpenFile(fs, dest_path, FsOpenMode_Write, &dest_handle); if (R_FAILED(ret)){ fsFileClose(&src_handle); return ret; } uint64_t bytes_read = 0; const u64 buf_size = 0x10000; s64 offset = 0; unsigned char *buf = new unsigned char[buf_size]; std::string filename = std::filesystem::path(src_path).filename(); do { std::memset(buf, 0, buf_size); ret = fsFileRead(&src_handle, offset, buf, buf_size, FsReadOption_None, &bytes_read); if (R_FAILED(ret)) { delete[] buf; fsFileClose(&src_handle); fsFileClose(&dest_handle); return ret; } ret = fsFileWrite(&dest_handle, offset, buf, bytes_read, FsWriteOption_Flush); if (R_FAILED(ret)) { delete[] buf; fsFileClose(&src_handle); fsFileClose(&dest_handle); return ret; } offset += bytes_read; } while(offset < size); delete[] buf; fsFileClose(&src_handle); fsFileClose(&dest_handle); return 0; } void saveVersion(std::string version, const char* path){ std::fstream newVersion; newVersion.open(path, std::fstream::out | std::fstream::trunc); newVersion << version << std::endl; newVersion.close(); } std::string readVersion(const char* path){ std::fstream versionFile; std::string version = "0"; if(std::filesystem::exists(path)){ versionFile.open(path, std::fstream::in); versionFile >> version; versionFile.close(); } return version; }