#include "pch.h" #include "Utils.h" #include "aes.h" const uint8_t IV[] = { 0x72, 0xE0, 0x67, 0xFB, 0xDD, 0xCB, 0xCF, 0x77, 0xEB, 0xE8, 0xBC, 0x64, 0x3F, 0x63, 0x0D, 0x93 }; bool Utils::Detour32(char* src, char* dst, const intptr_t len) { if (len < 5) return false; DWORD curProtection; VirtualProtect(src, len, PAGE_EXECUTE_READWRITE, &curProtection); intptr_t relativeAddress = (intptr_t)(dst - (intptr_t)src) - 5; *src = (char)'\xE9'; *(intptr_t*)((intptr_t)src + 1) = relativeAddress; VirtualProtect(src, len, curProtection, &curProtection); return true; } char* Utils::TrampHook32(char* src, char* dst, const intptr_t len) { // Make sure the length is greater than 5 if (len < 5) return 0; // Create the gateway (len + 5 for the overwritten bytes + the jmp) void* gateway = VirtualAlloc(0, len + 5, MEM_COMMIT | MEM_RESERVE, PAGE_EXECUTE_READWRITE); if (gateway == NULL) return 0; // Write the stolen bytes into the gateway memcpy(gateway, src, len); // Get the gateway to destination addy intptr_t gatewayRelativeAddr = ((intptr_t)src - (intptr_t)gateway) - 5; // Add the jmp opcode to the end of the gateway *(char*)((intptr_t)gateway + len) = 0xE9; // Add the address to the jmp *(intptr_t*)((intptr_t)gateway + len + 1) = gatewayRelativeAddr; // Perform the detour Detour32(src, dst, len); return (char*)gateway; } int spotifyVer = -1; int spotifyVerEnd = -1; int Utils::GetSpotifyVersion() { if (spotifyVer != -1) return spotifyVer; LPCWSTR lpszFilePath = L"Spotify.exe"; DWORD dwDummy; DWORD dwFVISize = GetFileVersionInfoSize(lpszFilePath, &dwDummy); LPBYTE lpVersionInfo = new BYTE[dwFVISize]; GetFileVersionInfo(lpszFilePath, 0, dwFVISize, lpVersionInfo); UINT uLen; VS_FIXEDFILEINFO* lpFfi; VerQueryValue(lpVersionInfo, _T("\\"), (LPVOID*)&lpFfi, &uLen); DWORD dwFileVersionMS = lpFfi->dwFileVersionMS; DWORD dwFileVersionLS = lpFfi->dwFileVersionLS; delete[] lpVersionInfo; DWORD dwLeftMost = HIWORD(dwFileVersionMS); DWORD dwSecondLeft = LOWORD(dwFileVersionMS); DWORD dwSecondRight = HIWORD(dwFileVersionLS); DWORD dwRightMost = LOWORD(dwFileVersionLS); spotifyVerEnd = dwRightMost; return spotifyVer = dwSecondRight; } std::string Utils::HexString(BYTE* data, int len) { std::stringstream ss; ss << std::hex; for (int i(0); i < len; ++i) ss << std::setw(2) << std::setfill('0') << (int)data[i]; return ss.str(); } std::wstring Utils::FixPathStr(std::wstring str) { // No forbidden characters std::wstring badCharsRegex = std::wstring(L"[<>:\"/\\|?*\x00-\x1F]", 14); // Use this constructor for \x00 str = std::regex_replace(str, std::wregex(badCharsRegex), L"_"); // No forbidden words or ending periods or spaces if (std::regex_match(str, std::wregex(L"^(CON|PRN|AUX|NUL|COM[0-9]|LPT[0-9])$| +$|\\.+$", std::regex_constants::ECMAScript | std::regex_constants::icase))) str.append(L"_"); return str; } std::wstring Utils::Utf8ToUtf16(const std::string& str) { std::wstring convertedString; int requiredSize = MultiByteToWideChar(CP_UTF8, 0, str.c_str(), -1, 0, 0); if (requiredSize > 0) { std::vector buffer(requiredSize); MultiByteToWideChar(CP_UTF8, 0, str.c_str(), -1, &buffer[0], requiredSize); convertedString.assign(buffer.begin(), buffer.end() - 1); } return convertedString; } struct SongInfo { std::string title, artist, album, cover; } songInfo; void ClearSongInfo() { songInfo.title = ""; songInfo.artist = ""; songInfo.album = ""; songInfo.cover = ""; } static const std::string songRegex = "https?:\\/\\/(?:www\.)?([-a-zA-Z0-9@:%._\\+~#=]{1,256}\\.[a-zA-Z0-9()]{1,6})" "\\b([-a-zA-Z0-9()@:%_\\+.~#?&\\/\\/=]*)"; static const std::string albumSearchPattern = "\x68\x65\x69\x67\x68\x74\x22\x20\x3A\x20\x36\x34\x30"; static const std::wstring songDirRoot = L"Downloads"; static std::wstring songDir = songDirRoot; void Utils::DownloadSong(std::string fileId, std::string uri, std::string key, std::string authToken) { std::string downloadStr; std::wstring songExtension = L".ogg"; if (fileId.empty() || uri.empty() || authToken.empty()) { std::cout << "Could not download song or episode: missing fileId, trackUri, or authToken!" << std::endl; return; } // Is length check even needed for compare()? if (uri.length() > 13 && uri.compare(0, 13, "spotify:track") == 0) { std::cout << "Downloading song..." << std::endl; if (key.empty()) { std::cout << "Could not download song: missing key!"; return; } // Get storage resolve from Spotify std::string srStr = DownloadSpotifyUrl("spclient.wg.spotify.com", "/storage-resolve/files/audio/interactive_prefetch/" + fileId + "?product=0", authToken); if (srStr.length() <= 5) { std::cout << "Error: Couldn't fetch storage resolve!" << std::endl; return; } if (srStr.substr(0, 5).compare("Error") == 0) { std::cout << srStr << std::endl; return; } // Parse storage resolve response to get the encrypted song data's URL std::string songHost; std::string songPath; try { std::regex re(songRegex); std::smatch match; if (std::regex_search(srStr, match, re) && match.size() > 1) { songHost = match.str(1); songPath = match.str(2); } else { std::cout << "Error: Download URL not found" << std::endl; return; } } catch (std::regex_error& e) { // Syntax error in the regular expression std::cout << "Error: Invalid regex!" << std::endl; return; } // Download encrypted song data from Spotify downloadStr = DownloadSpotifyUrl(songHost, songPath, ""); if (downloadStr.length() <= 6) { std::cout << "Error: Could not download audio!" << std::endl; return; } if (downloadStr.substr(0, 6).compare("") == 0) { std::cout << "Error: " + downloadStr << std::endl; return; } // Decrypt encrypted song data with Tiny AES in C struct AES_ctx ctx; AES_init_ctx_iv(&ctx, reinterpret_cast(&key[0]), IV); AES_CTR_xcrypt_buffer(&ctx, reinterpret_cast(&downloadStr[0]), downloadStr.size()); // Remove custom Spotify Ogg page from beginning of file downloadStr = downloadStr.substr(downloadStr.find("\xFF\xFF\xFF\xFFOggS") + 4); // Download song metadata from Spotify API std::string metadata = DownloadSpotifyUrl("api.spotify.com", "/v1/tracks/" + uri.substr(uri.find("spotify:track:") + 14), authToken); songInfo.title = strtok((char*)(metadata.substr(metadata.find("is_local") + 55)).c_str(), "\""); songInfo.artist = strtok((char*)(metadata.substr(metadata.find("name") + 9)).c_str(), "\""); songInfo.album = strtok((char*)(metadata.substr(metadata.find(albumSearchPattern) + 404)).c_str(), "\""); songInfo.cover = strtok((char*)(metadata.substr(metadata.find("height") + 30)).c_str(), "\""); songExtension = L".ogg"; } else if (uri.length() > 15 && uri.compare(0, 15, "spotify:episode") == 0) { std::string episodeUrl = fileId; std::string songHost; std::string songPath; std::cout << "Downloading episode..." << std::endl; // Parse episode URL to separate host and path try { std::regex re(songRegex); std::smatch match; if (std::regex_search(episodeUrl, match, re) && match.size() > 1) { songHost = match.str(1); songPath = match.str(2); } else { std::cout << "Error: Download URL is not valid!" << std::endl; return; } } catch (std::regex_error& e) { // Syntax error in the regular expression std::cout << "Error: Invalid regex!" << std::endl; return; } // Download encrypted song data from Spotify downloadStr = DownloadSpotifyUrl(songHost, songPath, ""); // Download episode and show metadata from Spotify API std::string metadata = DownloadSpotifyUrl("api.spotify.com", "/v1/episodes/" + uri.substr(uri.find("spotify:episode:") + 16), authToken); songInfo.title = strtok((char*)(metadata.substr(metadata.find("name") + 9)).c_str(), "\""); songInfo.artist = strtok((char*)(metadata.substr(metadata.find("publisher") + 14)).c_str(), "\""); songInfo.album = strtok((char*)(metadata.substr(metadata.find("media_type") + 37)).c_str(), "\""); songInfo.cover = strtok((char*)(metadata.substr(metadata.find("height") + 28)).c_str(), "\""); songExtension = L".mp3"; } if (songInfo.title.empty() || songInfo.artist.empty() || songInfo.album.empty()) { std::cout << "Error: Invalid title/artist/album name!" << std::endl; return; } std::wstring tempDirArtist = FixPathStr(Utf8ToUtf16(songInfo.artist)); songDir = songDirRoot; if (!CreateDirectoryW(songDir.c_str(), NULL) && ERROR_ALREADY_EXISTS != GetLastError()) std::cout << "Couldn't create main downloads directory!" << std::endl; if (CreateDirectoryW(std::wstring(songDir + L"\\" + tempDirArtist).c_str(), NULL) || ERROR_ALREADY_EXISTS == GetLastError()) { std::wstring tempDirAlbum = FixPathStr(Utf8ToUtf16(songInfo.album)); if (CreateDirectoryW(std::wstring(songDir + L"\\" + tempDirArtist + std::wstring(L"\\") + tempDirAlbum).c_str(), NULL) || ERROR_ALREADY_EXISTS == GetLastError()) { songDir += L"\\" + tempDirArtist + std::wstring(L"\\") + tempDirAlbum; std::wstring tempDirSong = FixPathStr(Utf8ToUtf16(songInfo.title)); std::ofstream songFileOut(songDir + L".\\" + tempDirArtist + L" - " + tempDirSong + songExtension, std::ios_base::binary); songFileOut.write(downloadStr.c_str(), downloadStr.size()); songFileOut.close(); std::cout << "Finished downloading: " << songInfo.artist << " - \"" << songInfo.title << "\"!" << std::endl; ClearSongInfo(); return; } else { std::cout << "Couldn't create album directory!" << std::endl; } } else { std::cout << "Couldn't create artist directory!" << std::endl; } std::cout << "Could not finish downloading song!" << std::endl; ClearSongInfo(); } std::string GetLastErrorAsString() { //Get the error message, if any. DWORD errorMessageID = ::GetLastError(); if (errorMessageID == 0) return std::string(); //No error message has been recorded LPSTR messageBuffer = nullptr; size_t size = FormatMessageA(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, errorMessageID, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPSTR)&messageBuffer, 0, NULL); std::string message(messageBuffer, size); //Free the buffer. LocalFree(messageBuffer); return message; } std::string Utils::DownloadSpotifyUrl(std::string host, std::string path, std::string authToken) { std::string response; std::string authHeader = (authToken.empty()) ? "" : "Authorization: Bearer " + authToken; std::string userAgent = "Spotify/11" + std::to_string(spotifyVer) + std::string("00") + std::to_string(spotifyVerEnd) + std::string(" Win32/Windows 10 (10.0.19042; x64)"); HINTERNET hSession, hConnect, hRequest; BOOL bRequestSent; const int bufferSize = 1024; hSession = InternetOpenA(userAgent.c_str(), INTERNET_OPEN_TYPE_DIRECT, NULL, NULL, 0); if (hSession == NULL) return "Error: Could not initialize request!"; hConnect = InternetConnectA(hSession, host.c_str(), 80, NULL, NULL, INTERNET_SERVICE_HTTP, 0, NULL); if (hConnect == NULL) return "Error: Could not create connect!"; hRequest = HttpOpenRequestA(hConnect, "GET", path.c_str(), NULL, NULL, NULL, INTERNET_FLAG_NO_AUTH, 0); if (hRequest == NULL) return "Error: Could not create open request!"; HttpAddRequestHeadersA(hRequest, authHeader.c_str(), -1, HTTP_ADDREQ_FLAG_ADD | HTTP_ADDREQ_FLAG_REPLACE); bRequestSent = HttpSendRequestA(hRequest, NULL, 0, NULL, 0); if (!bRequestSent) return "Error: Could not send request!"; char tmpBuffer[bufferSize]; BOOL canRead = true; DWORD bytesRead = -1; while (InternetReadFile(hRequest, tmpBuffer, bufferSize, &bytesRead) && bytesRead) response.append(tmpBuffer, bytesRead); InternetCloseHandle(hRequest); return response; } bool Utils::BadPtr(void* ptr) { MEMORY_BASIC_INFORMATION mbi = { 0 }; if (VirtualQuery(ptr, &mbi, sizeof(mbi))) { DWORD mask = (PAGE_READONLY | PAGE_READWRITE | PAGE_WRITECOPY | PAGE_EXECUTE_READ | PAGE_EXECUTE_READWRITE | PAGE_EXECUTE_WRITECOPY); bool b = !(mbi.Protect & mask); if (mbi.Protect & (PAGE_GUARD | PAGE_NOACCESS)) b = true; return b; } return true; }