#include "extract.hpp" void extract(const char * filename, const char* workingPath){ ProgressEvent::instance().reset(); chdir(workingPath); zipper::Unzipper unzipper(filename); std::vector entries = unzipper.entries(); ProgressEvent::instance().setTotalSteps(entries.size()); for (int i = 0; i < (int) entries.size(); i++){ unzipper.extractEntry(entries[i].name); ProgressEvent::instance().setStep(i); } unzipper.close(); ProgressEvent::instance().setStep(entries.size()); } std::vector getInstalledTitlesNs(){ // This function has been cobbled together from the "app_controldata" example in devkitpro. // Set the rc variable to begin with Result rc = 0; // Initialise a vector of tuples, storing the title ID and the title name. std::vector<Title> titles; // Initialise an application record array, where the size is MaxTitleCount NsApplicationRecord *recs = new NsApplicationRecord[MaxTitleCount](); // Set the buffer to NULL NsApplicationControlData *buf=NULL; // Set outsize to 0 u64 outsize=0; // Set the language entry to NULL NacpLanguageEntry *langentry = NULL; // Create a char array to store the name of the title char name[0x201]; // Set the total records to 0 s32 total = 0; // Set a failed counter to 0 int totalFailed = 0; // Fill the recs array with application records rc = nsListApplicationRecord(recs, MaxTitleCount, 0, &total); // If filling the recs array was successful if (R_SUCCEEDED(rc)){ // Loop through records for (s32 i = 0; i < total; i++){ // Reset varaibles for accessing memory outsize=0; buf = (NsApplicationControlData*)malloc(sizeof(NsApplicationControlData)); if (buf==NULL) { rc = MAKERESULT(Module_Libnx, LibnxError_OutOfMemory); } else { memset(buf, 0, sizeof(NsApplicationControlData)); } if (R_SUCCEEDED(rc)) { rc = nsInitialize(); if (R_FAILED(rc)) { printf("nsInitialize() failed: 0x%x\n", rc); } } // Get the application control data for the current record rc = nsGetApplicationControlData(NsApplicationControlSource_Storage, recs[i].application_id, buf, sizeof(NsApplicationControlData), &outsize); if (R_FAILED(rc)) { totalFailed++; std::cout << "nsGetApplicationControlData() failed: 0x" << std::hex << rc << " for Title ID: " << formatApplicationId(recs[i].application_id) << std::endl; } if (outsize < sizeof(buf->nacp)) { rc = -1; } // If application control data was retrieved successfully if (R_SUCCEEDED(rc)) { rc = nacpGetLanguageEntry(&buf->nacp, &langentry); } // If nacp language entry was retrieved successfully if (R_SUCCEEDED(rc)) { memset(name, 0, sizeof(name)); strncpy(name, langentry->name, sizeof(name)-1); //Don't assume the nacp string is NUL-terminated for safety. titles.push_back({formatApplicationId(recs[i].application_id), name}); } nsExit(); } } free(buf); delete[] recs; std::sort(titles.begin(), titles.end()); return titles; } std::vector<Title> excludeTitles(const char* path, std::vector<Title> listedTitles){ // Initialise a vector of titles std::vector<Title> titles; // Open a file stream std::ifstream file(path); // Declare a total variable and set to 0 int total = 0; // Declare a name variable std::string name; if (file.is_open()) { std::string line; // Read each line of the file in while (std::getline(file, line)) { name = "No name provided"; // Change the line to uppercase std::transform(line.begin(), line.end(), line.begin(), ::toupper); for(int i = 0; i < (int)listedTitles.size(); i++) { // Iterate through the listedTitles, and compare the id's in the file, to the installed title ids // When a match is found, it sets the name of the excluded title to the name of the installed title if(listedTitles.at(i).id == line) { name = listedTitles.at(i).name; break; } } // Push a new title to the titles vector and increment the total number of excluded titles titles.push_back({line, name}); total++; } // Close the file file.close(); } // Sort the titles list (uses an overloaded < operator to sort based on ID's) std::sort(titles.begin(), titles.end()); // Create a vector to store the difference between the excluded titles list, and the installed title list std::vector<Title> diff; // Populate the difference vector std::set_difference(listedTitles.begin(), listedTitles.end(), titles.begin(), titles.end(), std::inserter(diff, diff.begin())); return diff; } bool caselessCompare (const std::string& a, const std::string& b){ return strcasecmp(a.c_str(), b.c_str()) < 0; } void extractCheats(const char * zipPath, std::vector<Title> titles, CFW cfw, bool credits){ //TODO: REWRITE WITH SETS INSTEAD OF VECTORS ProgressEvent::instance().reset(); zipper::Unzipper unzipper(zipPath); std::vector<zipper::ZipEntry> entries = unzipper.entries(); std::set<std::string> extractedTitles; int offset = 0; switch(cfw){ case ams: offset = std::string(CONTENTS_PATH).length(); createTree(AMS_CONTENTS); chdir(AMS_PATH); break; case rnx: offset = std::string(CONTENTS_PATH).length(); createTree(REINX_CONTENTS); chdir(REINX_PATH); break; case sxos: offset = std::string(TITLES_PATH).length(); createTree(SXOS_TITLES); chdir(SXOS_PATH); break; } std::vector<std::string> entriesNames; std::vector<int> parentIndexes; for (size_t i = 1; i < entries.size(); i++){ entriesNames.push_back(entries[i].name); } std::sort(entriesNames.begin(), entriesNames.end(), caselessCompare); std::vector<std::string> parents; std::vector<std::vector<std::string>> children; std::vector<std::string> tempChildren; size_t k = 0; while(k < entriesNames.size()){ if(entriesNames[k].length() == (size_t) (offset + 17)){ parents.push_back(entriesNames[k]); k++; while(entriesNames[k].length() != (size_t) (offset + 17) && k < entriesNames.size()){ if(credits == false){ if(strcasecmp(entriesNames[k].substr(offset + 16, 7).c_str(), "/cheats") == 0){ tempChildren.push_back(entriesNames[k]); } } else{ tempChildren.push_back(entriesNames[k]); } k++; } children.push_back(tempChildren); tempChildren.clear (); } else{ k++; } } brls::Logger::debug("Titles size:"); std::cout << titles.size() << std::endl; brls::Logger::debug("Parents size:"); std::cout << parents.size() << std::endl; size_t lastL = 0; std::string name; std::string id; ProgressEvent::instance().setTotalSteps(titles.size()); for(size_t j = 0; j < titles.size(); j++){ for(size_t l = lastL; l < parents.size(); l++){ if(strcasecmp((titles.at(j).id).c_str(), parents[l].substr(offset, 16).c_str()) == 0){ unzipper.extractEntry(parents[l]); for(auto& e : children[l]){ unzipper.extractEntry(e); extractedTitles.insert(id); ProgressEvent::instance().setStep(j); name = "No name retrieved."; id = e.substr(offset, 16); std::transform(id.begin(), id.end(), id.begin(), ::toupper); } lastL = l; break; } } } unzipper.close(); writeTitlesToFile(extractedTitles); ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); } void writeTitlesToFile(std::set<std::string> titles){ std::ofstream updatedTitlesFile; std::set<std::string>::iterator it = titles.begin(); updatedTitlesFile.open(UPDATED_TITLES_PATH, std::ofstream::out | std::ofstream::trunc); if(updatedTitlesFile.is_open()) { while (it != titles.end()){ updatedTitlesFile << (*it) << std::endl; it++; } updatedTitlesFile.close(); } } void removeCheats(CFW cfw){ ProgressEvent::instance().reset(); ProgressEvent::instance().setStep(1); std::string path; switch(cfw){ case ams: path = std::string(AMS_PATH) + std::string(CONTENTS_PATH); break; case rnx: path = std::string(REINX_PATH) + std::string(CONTENTS_PATH); break; case sxos: path = std::string(SXOS_PATH) + std::string(TITLES_PATH); break; } for (const auto & entry : std::filesystem::directory_iterator(path)){ std::string cheatsPath = entry.path().string() + "/cheats"; if(std::filesystem::exists(cheatsPath)){ for (const auto & cheat : std::filesystem::directory_iterator(cheatsPath)){ std::filesystem::remove(cheat); } rmdir(cheatsPath.c_str()); if(std::filesystem::is_empty(entry)){ rmdir(entry.path().string().c_str()); } } } std::filesystem::remove(UPDATED_TITLES_PATH); ProgressEvent::instance().setStep(ProgressEvent::instance().getMax()); }