#include "extract.hpp" #include #include #include #include #include #include #include #include #include #include #include #include "current_cfw.hpp" #include "download.hpp" #include "fs.hpp" #include "main_frame.hpp" #include "progress_event.hpp" #include "utils.hpp" namespace i18n = brls::i18n; using namespace i18n::literals; namespace extract { namespace { bool caselessCompare(const std::string& a, const std::string& b) { return strcasecmp(a.c_str(), b.c_str()) == 0; } void preWork(zipper::Unzipper& unzipper, const std::string& workingPath, std::vector& entries) { chdir(workingPath.c_str()); entries = unzipper.entries(); s64 uncompressedSize = 0; s64 freeStorage; for (const auto& entry : entries) uncompressedSize += entry.uncompressedSize; if (R_SUCCEEDED(fs::getFreeStorageSD(freeStorage))) { if (uncompressedSize * 1.1 > freeStorage) { unzipper.close(); brls::Application::crash("menus/errors/insufficient_storage"_i18n); usleep(2000000); brls::Application::quit(); } } ProgressEvent::instance().setTotalSteps(entries.size() + 1); ProgressEvent::instance().setStep(0); } } // namespace void extract(const std::string& filename, const std::string& workingPath, int overwriteInis, std::function func) { zipper::Unzipper unzipper(filename); std::vector entries; preWork(unzipper, workingPath, entries); std::set ignoreList = fs::readLineByLine(FILES_IGNORE); for (const auto& entry : entries) { if (ProgressEvent::instance().getInterupt()) { break; } if ((overwriteInis == 0 && entry.name.substr(entry.name.length() - 4) == ".ini") || find_if(ignoreList.begin(), ignoreList.end(), [&entry](std::string ignored) { u8 res = ("/" + entry.name).find(ignored); return (res == 0 || res == 1); }) != ignoreList.end()) { if (!std::filesystem::exists("/" + entry.name)) { unzipper.extractEntry(entry.name); } } else if (entry.name == "atmosphere/stratosphere.romfs" || entry.name == "atmosphere/package3") { std::ofstream readonlyFile(entry.name + ".aio"); unzipper.extractEntryToStream(entry.name, readonlyFile); } else { unzipper.extractEntry(entry.name); if (entry.name.substr(0, 13) == "hekate_ctcaer") { fs::copyFile("/" + entry.name, UPDATE_BIN_PATH); if (CurrentCfw::running_cfw == CFW::ams && util::showDialogBox(fmt::format("menus/utils/set_hekate_reboot_payload"_i18n, UPDATE_BIN_PATH, REBOOT_PAYLOAD_PATH), "menus/common/yes"_i18n, "menus/common/no"_i18n) == 0) { fs::copyFile(UPDATE_BIN_PATH, REBOOT_PAYLOAD_PATH); } } } ProgressEvent::instance().incrementStep(1); } unzipper.close(); ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); } std::vector getInstalledTitlesNs() { std::vector titles; NsApplicationRecord* records = new NsApplicationRecord[MaxTitleCount](); NsApplicationControlData* controlData = NULL; s32 recordCount = 0; u64 controlSize = 0; if (R_SUCCEEDED(nsListApplicationRecord(records, MaxTitleCount, 0, &recordCount))) { for (s32 i = 0; i < recordCount; i++) { controlSize = 0; free(controlData); controlData = (NsApplicationControlData*)malloc(sizeof(NsApplicationControlData)); if (controlData == NULL) { break; } else { memset(controlData, 0, sizeof(NsApplicationControlData)); } if (R_FAILED(nsGetApplicationControlData(NsApplicationControlSource_Storage, records[i].application_id, controlData, sizeof(NsApplicationControlData), &controlSize))) continue; if (controlSize < sizeof(controlData->nacp)) { continue; } titles.push_back(util::formatApplicationId(records[i].application_id)); } free(controlData); } delete[] records; std::sort(titles.begin(), titles.end()); return titles; } std::vector excludeTitles(const std::string& path, const std::vector& listedTitles) { std::vector titles; std::ifstream file(path); std::string name; if (file.is_open()) { std::string line; while (std::getline(file, line)) { std::transform(line.begin(), line.end(), line.begin(), ::toupper); for (size_t i = 0; i < listedTitles.size(); i++) { if (line == listedTitles[i]) { titles.push_back(line); break; } } } } std::sort(titles.begin(), titles.end()); std::vector diff; std::set_difference(listedTitles.begin(), listedTitles.end(), titles.begin(), titles.end(), std::inserter(diff, diff.begin())); return diff; } int computeOffset(CFW cfw) { switch (cfw) { case CFW::ams: std::filesystem::create_directory(AMS_PATH); std::filesystem::create_directory(AMS_CONTENTS); chdir(AMS_PATH); return std::string(CONTENTS_PATH).length(); break; case CFW::rnx: std::filesystem::create_directory(REINX_PATH); std::filesystem::create_directory(REINX_CONTENTS); chdir(REINX_PATH); return std::string(CONTENTS_PATH).length(); break; case CFW::sxos: std::filesystem::create_directory(SXOS_PATH); std::filesystem::create_directory(SXOS_TITLES); chdir(SXOS_PATH); return std::string(TITLES_PATH).length(); break; } return 0; } void extractCheats(const std::string& zipPath, const std::vector& titles, CFW cfw, const std::string& version, bool extractAll) { zipper::Unzipper unzipper(zipPath); std::vector entries = unzipper.entries(); int offset = computeOffset(cfw); if (!extractAll) { ProgressEvent::instance().setTotalSteps(titles.size() + 1); for (const auto& title : titles) { if (ProgressEvent::instance().getInterupt()) { break; } auto matches = entries | std::views::filter([&title, offset](zipper::ZipEntry entry) { if ((int)entry.name.size() > offset + 16 + 7) { return caselessCompare((title.substr(0, 13)), entry.name.substr(offset, 13)) && caselessCompare(entry.name.substr(offset + 16, 7), "/cheats"); } else { return false; } }); for (const auto& match : matches) { unzipper.extractEntry(match.name); } ProgressEvent::instance().incrementStep(1); } } else { ProgressEvent::instance().setTotalSteps(entries.size() + 1); for (const auto& entry : entries) { if (ProgressEvent::instance().getInterupt()) { break; } if ((int)entry.name.size() > offset + 16 + 7 && caselessCompare(entry.name.substr(offset + 16, 7), "/cheats")) { unzipper.extractEntry(entry.name); } ProgressEvent::instance().incrementStep(1); } } unzipper.close(); if (version != "offline" && version != "") { util::saveToFile(version, CHEATS_VERSION); } ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); } void extractAllCheats(const std::string& zipPath, CFW cfw, const std::string& version) { extractCheats(zipPath, {}, cfw, version, true); } bool isBID(const std::string& bid) { for (char const& c : bid) { if (!isxdigit(c)) return false; } return true; } void writeTitlesToFile(const std::set& titles, const std::string& path) { std::ofstream updatedTitlesFile; std::set::iterator it = titles.begin(); updatedTitlesFile.open(path, std::ofstream::out | std::ofstream::trunc); if (updatedTitlesFile.is_open()) { while (it != titles.end()) { updatedTitlesFile << (*it) << std::endl; it++; } updatedTitlesFile.close(); } } void removeCheats() { std::string path = util::getContentsPath(); ProgressEvent::instance().setTotalSteps(std::distance(std::filesystem::directory_iterator(path), std::filesystem::directory_iterator()) + 1); for (const auto& entry : std::filesystem::directory_iterator(path)) { if (ProgressEvent::instance().getInterupt()) { break; } removeCheatsDirectory(entry.path().string()); ProgressEvent::instance().incrementStep(1); } std::filesystem::remove(CHEATS_VERSION); ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); } void removeOrphanedCheats() { auto path = util::getContentsPath(); std::vector titles = getInstalledTitlesNs(); ProgressEvent::instance().setTotalSteps(std::distance(std::filesystem::directory_iterator(path), std::filesystem::directory_iterator()) + 1); for (const auto& entry : std::filesystem::directory_iterator(path)) { if (ProgressEvent::instance().getInterupt()) { break; } if (std::find_if(titles.begin(), titles.end(), [&entry](std::string title) { return caselessCompare(entry.path().filename(), title); }) == titles.end()) { removeCheatsDirectory(entry.path().string()); } ProgressEvent::instance().incrementStep(1); } std::filesystem::remove(CHEATS_VERSION); ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); } bool removeCheatsDirectory(const std::string& entry) { bool res = true; std::string cheatsPath = fmt::format("{}/cheats", entry); if (std::filesystem::exists(cheatsPath)) res &= fs::removeDir(cheatsPath); if (std::filesystem::is_empty(entry)) res &= fs::removeDir(entry); return res; } } // namespace extract