#include "moddownloader.h" #include #include #include #include #include #include #include #include #include #include #include ModDownloader* g_pModDownloader; ModDownloader::ModDownloader() { spdlog::info("Mod downloader initialized"); // Initialise mods list URI char* clachar = strstr(GetCommandLineA(), CUSTOM_MODS_URL_FLAG); if (clachar) { std::string url; int iFlagStringLength = strlen(CUSTOM_MODS_URL_FLAG); std::string cla = std::string(clachar); if (strncmp(cla.substr(iFlagStringLength, 1).c_str(), "\"", 1)) { int space = cla.find(" "); url = cla.substr(iFlagStringLength, space - iFlagStringLength); } else { std::string quote = "\""; int quote1 = cla.find(quote); int quote2 = (cla.substr(quote1 + 1)).find(quote); url = cla.substr(quote1 + 1, quote2); } spdlog::info("Found custom verified mods URL in command line argument: {}", url); modsListUrl = strdup(url.c_str()); } else { spdlog::info("Custom verified mods URL not found in command line arguments, using default URL."); modsListUrl = strdup(DEFAULT_MODS_LIST_URL); } } size_t WriteToString(void* ptr, size_t size, size_t count, void* stream) { ((std::string*)stream)->append((char*)ptr, 0, size * count); return size * count; } void ModDownloader::FetchModsListFromAPI() { std::thread requestThread( [this]() { CURLcode result; CURL* easyhandle; rapidjson::Document verifiedModsJson; std::string url = modsListUrl; curl_global_init(CURL_GLOBAL_ALL); easyhandle = curl_easy_init(); std::string readBuffer; // Fetching mods list from GitHub repository curl_easy_setopt(easyhandle, CURLOPT_CUSTOMREQUEST, "GET"); curl_easy_setopt(easyhandle, CURLOPT_TIMEOUT, 30L); curl_easy_setopt(easyhandle, CURLOPT_URL, url.c_str()); curl_easy_setopt(easyhandle, CURLOPT_FAILONERROR, 1L); curl_easy_setopt(easyhandle, CURLOPT_WRITEDATA, &readBuffer); curl_easy_setopt(easyhandle, CURLOPT_WRITEFUNCTION, WriteToString); result = curl_easy_perform(easyhandle); if (result == CURLcode::CURLE_OK) { spdlog::info("Mods list successfully fetched."); } else { spdlog::error("Fetching mods list failed: {}", curl_easy_strerror(result)); goto REQUEST_END_CLEANUP; } // Load mods list into local state spdlog::info("Loading mods configuration..."); verifiedModsJson.Parse(readBuffer); assert(verifiedModsJson.HasMember("thunderstore")); // Check if the "thunderstore" key exists auto verifiedModsJsonThunderstore = verifiedModsJson["thunderstore"]; assert(verifiedModsJsonThunderstore->value.IsObject()); for (auto i = verifiedModsJsonThunderstore.MemberBegin(); i != verifiedModsJsonThunderstore.MemberEnd(); ++i) { std::string name = i->name.GetString(); std::string dependency = i->value["DependencyPrefix"].GetString(); std::unordered_map modVersions; rapidjson::Value& versions = i->value["Versions"]; assert(versions.IsArray()); for (auto& attribute : versions.GetArray()) { assert(attribute.IsObject()); std::string version = attribute["Version"].GetString(); std::string checksum = attribute["Checksum"].GetString(); modVersions.insert({version, {.checksum = checksum}}); } VerifiedModDetails modConfig = {.dependencyPrefix = dependency, .versions = modVersions}; verifiedMods.insert({name, modConfig}); spdlog::info("==> Loaded configuration for mod \"" + name + "\""); } spdlog::info("Done loading verified mods list."); REQUEST_END_CLEANUP: curl_easy_cleanup(easyhandle); }); requestThread.detach(); } size_t WriteData(void* ptr, size_t size, size_t nmemb, FILE* stream) { size_t written; written = fwrite(ptr, size, nmemb, stream); return written; } int ModDownloader::ModFetchingProgressCallback( void* ptr, curl_off_t totalDownloadSize, curl_off_t finishedDownloadSize, curl_off_t totalToUpload, curl_off_t nowUploaded) { if (totalDownloadSize != 0 && finishedDownloadSize != 0) { ModDownloader* instance = static_cast(ptr); auto currentDownloadProgress = roundf(static_cast(finishedDownloadSize) / totalDownloadSize * 100); instance->modState.progress = finishedDownloadSize; instance->modState.total = totalDownloadSize; instance->modState.ratio = currentDownloadProgress; } return 0; } std::optional ModDownloader::FetchModFromDistantStore(std::string_view modName, std::string_view modVersion) { // Retrieve mod prefix from local mods list, or use mod name as mod prefix if bypass flag is set std::string modPrefix = strstr(GetCommandLineA(), VERIFICATION_FLAG) ? modName.data() : verifiedMods[modName.data()].dependencyPrefix; // Build archive distant URI std::string archiveName = std::format("{}-{}.zip", modPrefix, modVersion.data()); std::string url = STORE_URL + archiveName; spdlog::info(std::format("Fetching mod archive from {}", url)); // Download destination std::filesystem::path downloadPath = std::filesystem::temp_directory_path() / archiveName; spdlog::info(std::format("Downloading archive to {}", downloadPath.generic_string())); // Update state modState.state = DOWNLOADING; // Download the actual archive bool failed = false; FILE* fp = fopen(downloadPath.generic_string().c_str(), "wb"); CURLcode result; CURL* easyhandle; easyhandle = curl_easy_init(); curl_easy_setopt(easyhandle, CURLOPT_URL, url.data()); curl_easy_setopt(easyhandle, CURLOPT_FAILONERROR, 1L); curl_easy_setopt(easyhandle, CURLOPT_WRITEDATA, fp); curl_easy_setopt(easyhandle, CURLOPT_WRITEFUNCTION, WriteData); curl_easy_setopt(easyhandle, CURLOPT_NOPROGRESS, 0L); curl_easy_setopt(easyhandle, CURLOPT_XFERINFOFUNCTION, ModDownloader::ModFetchingProgressCallback); curl_easy_setopt(easyhandle, CURLOPT_XFERINFODATA, this); result = curl_easy_perform(easyhandle); if (result == CURLcode::CURLE_OK) { spdlog::info("Mod archive successfully fetched."); goto REQUEST_END_CLEANUP; } else { spdlog::error("Fetching mod archive failed: {}", curl_easy_strerror(result)); failed = true; goto REQUEST_END_CLEANUP; } REQUEST_END_CLEANUP: curl_easy_cleanup(easyhandle); fclose(fp); return failed ? std::optional() : std::optional(downloadPath); } bool ModDownloader::IsModLegit(fs::path modPath, std::string_view expectedChecksum) { if (strstr(GetCommandLineA(), VERIFICATION_FLAG)) { spdlog::info("Bypassing mod verification due to flag set up."); return true; } // Update state modState.state = CHECKSUMING; NTSTATUS status; BCRYPT_ALG_HANDLE algorithmHandle = NULL; BCRYPT_HASH_HANDLE hashHandle = NULL; std::vector hash; DWORD hashLength = 0; DWORD resultLength = 0; std::stringstream ss; constexpr size_t bufferSize {1 << 12}; std::vector buffer(bufferSize, '\0'); std::ifstream fp(modPath.generic_string(), std::ios::binary); // Open an algorithm handle // This sample passes BCRYPT_HASH_REUSABLE_FLAG with BCryptAlgorithmProvider(...) to load a provider which supports reusable hash status = BCryptOpenAlgorithmProvider( &algorithmHandle, // Alg Handle pointer BCRYPT_SHA256_ALGORITHM, // Cryptographic Algorithm name (null terminated unicode string) NULL, // Provider name; if null, the default provider is loaded BCRYPT_HASH_REUSABLE_FLAG); // Flags; Loads a provider which supports reusable hash if (!NT_SUCCESS(status)) { modState.state = MOD_CORRUPTED; goto cleanup; } // Obtain the length of the hash status = BCryptGetProperty( algorithmHandle, // Handle to a CNG object BCRYPT_HASH_LENGTH, // Property name (null terminated unicode string) (PBYTE)&hashLength, // Address of the output buffer which recieves the property value sizeof(hashLength), // Size of the buffer in bytes &resultLength, // Number of bytes that were copied into the buffer 0); // Flags if (!NT_SUCCESS(status)) { // goto cleanup; modState.state = MOD_CORRUPTED; return false; } // Create a hash handle status = BCryptCreateHash( algorithmHandle, // Handle to an algorithm provider &hashHandle, // A pointer to a hash handle - can be a hash or hmac object NULL, // Pointer to the buffer that recieves the hash/hmac object 0, // Size of the buffer in bytes NULL, // A pointer to a key to use for the hash or MAC 0, // Size of the key in bytes 0); // Flags if (!NT_SUCCESS(status)) { modState.state = MOD_CORRUPTED; goto cleanup; } // Hash archive content if (!fp.is_open()) { spdlog::error("Unable to open archive."); modState.state = FAILED_READING_ARCHIVE; return false; } fp.seekg(0, fp.beg); while (fp.good()) { fp.read(buffer.data(), bufferSize); std::streamsize bytesRead = fp.gcount(); if (bytesRead > 0) { status = BCryptHashData(hashHandle, (PBYTE)buffer.data(), bytesRead, 0); if (!NT_SUCCESS(status)) { modState.state = MOD_CORRUPTED; goto cleanup; } } } hash = std::vector(hashLength); // Obtain the hash of the message(s) into the hash buffer status = BCryptFinishHash( hashHandle, // Handle to the hash or MAC object hash.data(), // A pointer to a buffer that receives the hash or MAC value hashLength, // Size of the buffer in bytes 0); // Flags if (!NT_SUCCESS(status)) { modState.state = MOD_CORRUPTED; goto cleanup; } // Convert hash to string using bytes raw values ss << std::hex << std::setfill('0'); for (int i = 0; i < hashLength; i++) { ss << std::hex << std::setw(2) << static_cast(hash.data()[i]); } spdlog::info("Expected checksum: {}", expectedChecksum.data()); spdlog::info("Computed checksum: {}", ss.str()); return expectedChecksum.compare(ss.str()) == 0; cleanup: if (NULL != hashHandle) { BCryptDestroyHash(hashHandle); // Handle to hash/MAC object which needs to be destroyed } if (NULL != algorithmHandle) { BCryptCloseAlgorithmProvider( algorithmHandle, // Handle to the algorithm provider which needs to be closed 0); // Flags } return false; } bool ModDownloader::IsModAuthorized(std::string_view modName, std::string_view modVersion) { if (strstr(GetCommandLineA(), VERIFICATION_FLAG)) { spdlog::info("Bypassing mod verification due to flag set up."); return true; } if (!verifiedMods.contains(modName.data())) { return false; } std::unordered_map versions = verifiedMods[modName.data()].versions; return versions.count(modVersion.data()) != 0; } int GetModArchiveSize(unzFile file, unz_global_info64 info) { int totalSize = 0; for (int i = 0; i < info.number_entry; i++) { char zipFilename[256]; unz_file_info64 fileInfo; unzGetCurrentFileInfo64(file, &fileInfo, zipFilename, sizeof(zipFilename), NULL, 0, NULL, 0); totalSize += fileInfo.uncompressed_size; if ((i + 1) < info.number_entry) { unzGoToNextFile(file); } } // Reset file pointer for archive extraction unzGoToFirstFile(file); return totalSize; } void ModDownloader::ExtractMod(fs::path modPath) { unzFile file; std::string name; fs::path modDirectory; file = unzOpen(modPath.generic_string().c_str()); if (file == NULL) { spdlog::error("Cannot open archive located at {}.", modPath.generic_string()); modState.state = FAILED_READING_ARCHIVE; goto EXTRACTION_CLEANUP; } unz_global_info64 gi; int status; status = unzGetGlobalInfo64(file, &gi); if (status != UNZ_OK) { spdlog::error("Failed getting information from archive (error code: {})", status); modState.state = FAILED_READING_ARCHIVE; goto EXTRACTION_CLEANUP; } // Update state modState.state = EXTRACTING; modState.total = GetModArchiveSize(file, gi); modState.progress = 0; // Mod directory name (removing the ".zip" fom the archive name) name = modPath.filename().string(); name = name.substr(0, name.length() - 4); modDirectory = GetRemoteModFolderPath() / name; for (int i = 0; i < gi.number_entry; i++) { char zipFilename[256]; unz_file_info64 fileInfo; status = unzGetCurrentFileInfo64(file, &fileInfo, zipFilename, sizeof(zipFilename), NULL, 0, NULL, 0); // Extract file { std::error_code ec; fs::path fileDestination = modDirectory / zipFilename; spdlog::info("=> {}", fileDestination.generic_string()); // Create parent directory if needed if (!std::filesystem::exists(fileDestination.parent_path())) { spdlog::info("Parent directory does not exist, creating it.", fileDestination.generic_string()); if (!std::filesystem::create_directories(fileDestination.parent_path(), ec) && ec.value() != 0) { spdlog::error("Parent directory ({}) creation failed.", fileDestination.parent_path().generic_string()); modState.state = FAILED_WRITING_TO_DISK; goto EXTRACTION_CLEANUP; } } // If current file is a directory, create directory... if (fileDestination.generic_string().back() == '/') { // Create directory if (!std::filesystem::create_directory(fileDestination, ec) && ec.value() != 0) { spdlog::error("Directory creation failed: {}", ec.message()); modState.state = FAILED_WRITING_TO_DISK; goto EXTRACTION_CLEANUP; } } // ...else create file else { // Ensure file is in zip archive if (unzLocateFile(file, zipFilename, 0) != UNZ_OK) { spdlog::error("File \"{}\" was not found in archive.", zipFilename); modState.state = FAILED_READING_ARCHIVE; goto EXTRACTION_CLEANUP; } // Create file const int bufferSize = 8192; void* buffer; int err = UNZ_OK; FILE* fout = NULL; // Open zip file to prepare its extraction status = unzOpenCurrentFile(file); if (status != UNZ_OK) { spdlog::error("Could not open file {} from archive.", zipFilename); modState.state = FAILED_READING_ARCHIVE; goto EXTRACTION_CLEANUP; } // Create destination file fout = fopen(fileDestination.generic_string().c_str(), "wb"); if (fout == NULL) { spdlog::error("Failed creating destination file."); modState.state = FAILED_WRITING_TO_DISK; goto EXTRACTION_CLEANUP; } // Allocate memory for buffer buffer = (void*)malloc(bufferSize); if (buffer == NULL) { spdlog::error("Error while allocating memory."); modState.state = FAILED_WRITING_TO_DISK; goto EXTRACTION_CLEANUP; } // Extract file to destination do { err = unzReadCurrentFile(file, buffer, bufferSize); if (err < 0) { spdlog::error("error {} with zipfile in unzReadCurrentFile", err); break; } if (err > 0) { if (fwrite(buffer, (unsigned)err, 1, fout) != 1) { spdlog::error("error in writing extracted file\n"); err = UNZ_ERRNO; break; } } // Update extraction stats modState.progress += bufferSize; modState.ratio = roundf(static_cast(modState.progress) / modState.total * 100); } while (err > 0); if (err != UNZ_OK) { spdlog::error("An error occurred during file extraction (code: {})", err); modState.state = FAILED_WRITING_TO_DISK; goto EXTRACTION_CLEANUP; } err = unzCloseCurrentFile(file); if (err != UNZ_OK) { spdlog::error("error {} with zipfile in unzCloseCurrentFile", err); } // Cleanup if (fout) fclose(fout); } } // Go to next file if ((i + 1) < gi.number_entry) { status = unzGoToNextFile(file); if (status != UNZ_OK) { spdlog::error("Error while browsing archive files (error code: {}).", status); goto EXTRACTION_CLEANUP; } } } EXTRACTION_CLEANUP: if (unzClose(file) != MZ_OK) { spdlog::error("Failed closing mod archive after extraction."); } } void ModDownloader::DownloadMod(std::string modName, std::string modVersion) { // Check if mod can be auto-downloaded if (!IsModAuthorized(std::string_view(modName), std::string_view(modVersion))) { spdlog::warn("Tried to download a mod that is not verified, aborting."); return; } std::thread requestThread( [this, modName, modVersion]() { fs::path archiveLocation; // Download mod archive std::string expectedHash = verifiedMods[modName].versions[modVersion].checksum; std::optional fetchingResult = FetchModFromDistantStore(std::string_view(modName), std::string_view(modVersion)); if (!fetchingResult.has_value()) { spdlog::error("Something went wrong while fetching archive, aborting."); modState.state = MOD_FETCHING_FAILED; goto REQUEST_END_CLEANUP; } archiveLocation = fetchingResult.value(); if (!IsModLegit(archiveLocation, std::string_view(expectedHash))) { spdlog::warn("Archive hash does not match expected checksum, aborting."); modState.state = MOD_CORRUPTED; goto REQUEST_END_CLEANUP; } // Extract downloaded mod archive ExtractMod(archiveLocation); REQUEST_END_CLEANUP: try { remove(archiveLocation); } catch (const std::exception& a) { spdlog::error("Error while removing downloaded archive: {}", a.what()); } modState.state = DONE; spdlog::info("Done downloading {}.", modName); }); requestThread.detach(); } ON_DLL_LOAD_RELIESON("engine.dll", ModDownloader, (ConCommand), (CModule module)) { g_pModDownloader = new ModDownloader(); g_pModDownloader->FetchModsListFromAPI(); } ADD_SQFUNC( "bool", NSIsModDownloadable, "string name, string version", "", ScriptContext::SERVER | ScriptContext::CLIENT | ScriptContext::UI) { g_pSquirrel->newarray(sqvm, 0); const SQChar* modName = g_pSquirrel->getstring(sqvm, 1); const SQChar* modVersion = g_pSquirrel->getstring(sqvm, 2); bool result = g_pModDownloader->IsModAuthorized(modName, modVersion); g_pSquirrel->pushbool(sqvm, result); return SQRESULT_NOTNULL; } ADD_SQFUNC("void", NSDownloadMod, "string name, string version", "", ScriptContext::SERVER | ScriptContext::CLIENT | ScriptContext::UI) { const SQChar* modName = g_pSquirrel->getstring(sqvm, 1); const SQChar* modVersion = g_pSquirrel->getstring(sqvm, 2); g_pModDownloader->DownloadMod(modName, modVersion); return SQRESULT_NOTNULL; } ADD_SQFUNC("ModInstallState", NSGetModInstallState, "", "", ScriptContext::SERVER | ScriptContext::CLIENT | ScriptContext::UI) { g_pSquirrel->pushnewstructinstance(sqvm, 4); // state g_pSquirrel->pushinteger(sqvm, g_pModDownloader->modState.state); g_pSquirrel->sealstructslot(sqvm, 0); // progress g_pSquirrel->pushinteger(sqvm, g_pModDownloader->modState.progress); g_pSquirrel->sealstructslot(sqvm, 1); // total g_pSquirrel->pushinteger(sqvm, g_pModDownloader->modState.total); g_pSquirrel->sealstructslot(sqvm, 2); // ratio g_pSquirrel->pushfloat(sqvm, g_pModDownloader->modState.ratio); g_pSquirrel->sealstructslot(sqvm, 3); return SQRESULT_NOTNULL; }