/* * Address miner for Yggdrsail Network 0.4.x and higher. * * developers: Vort, acetone, R4SAS, lialh4, filarius, orignal * developers team, 2021 (c) GPLv3 * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "cppcodec/base32_rfc4648.hpp" //#include "miner.cu" //std::time_t sygstartedin = std::time(NULL); int countsize = 0; uint64_t totalcount = 0; uint64_t countfortune = 0; bool newline = false; std::mutex mtx; const size_t KEYSIZE = 32; const size_t ADDRIPV6 = 16; typedef std::array Key; typedef std::array Address; struct KeysBox { Key PublicKey; Key PrivateKey; }; struct option { unsigned int proc = 0; // количество потоков int mode = 1; // режим майнинга bool log = true; // логгирование int high = 20; // начальная высота при майнинге: dec(20) == hex(14) bool letsup = true; // повышение высоты при нахождении bool mesh = false; // отображение meshname-доменов bool fullkeys = true; // отображение секретного ключа в консоли в полном формате std::string str = "aaaa"; std::string outputfile; int sbt_size = 7; // 64b/8 = 8B, нумерация с нуля bool sbt_alarm = false; // для симпатичного вывода предупреждения }; static option conf; int parameters(option& conf, std::string arg) { if (arg.find(" ") != std::string::npos) // Строка с пробелом, значит, ключ_значение { const size_t npos = -1; // std::string::npos с блэкджэком и путанами int position = arg.find(" "); std::istringstream ss(arg.substr(position + 1)); // Поток нужен для проверки корректности и конвертации if (arg.find("--threads") != npos || arg.find("-t") != npos) { ss >> conf.proc; if (ss.fail()) return 1; return 0; } if (arg.find("--pattern") != npos || arg.find("-p") != npos) { ss >> conf.str; if (ss.fail()) return 1; return 0; } if (arg.find("--altitude") != npos || arg.find("-a") != npos) { ss >> std::hex >> conf.high; if (ss.fail()) return 1; return 0; } } else if (arg == "--ip" || arg == "-i") conf.mode = 0; else if (arg == "--ip-high" || arg == "-ih") conf.mode = 2; else if (arg == "--regexp" || arg == "-r") conf.mode = 3; else if (arg == "--regexp-high" || arg == "-rh") conf.mode = 4; else if (arg == "--mesh" || arg == "-m") conf.mode = 5; else if (arg == "--mesh-regexp" || arg == "-mr") conf.mode = 6; else if (arg == "--brute-force" || arg == "-b") conf.mode = 7; else if (arg == "--increase-none" || arg == "-in") conf.letsup = false; else if (arg == "--logging-none" || arg == "-ln") conf.log = false; else if (arg == "--display-mesh" || arg == "-dm") conf.mesh = true; else if (arg == "--full-pk" || arg == "-fp") conf.fullkeys = true; else if (arg == "--threads" || arg == "-t") return 777; // Параметры, требующие значение else if (arg == "--pattern" || arg == "-p") return 777; else if (arg == "--altitude" || arg == "-a") return 777; return 0; } void displayConfig() { // из-за регулирования количества потоков и countsize вызов функции обязателен unsigned short processor_count = std::thread::hardware_concurrency(); // кол-во процессоров if (conf.proc == 0 || conf.proc > static_cast(processor_count)) conf.proc = static_cast(processor_count); countsize = 80000 * conf.proc; std::cout << " Threads: " << conf.proc << ", "; if (conf.mode == 0) std::cout << "IPv6 pattern (" << conf.str << "), "; else if (conf.mode == 1) { std::cout << "high addresses (2" << std::setw(2) << std::setfill('0') << std::hex << conf.high << std::dec; (conf.letsup != 0) ? std::cout << "++), " : std::cout << "+), "; } else if (conf.mode == 2) { std::cout << "by pattern (" << conf.str << ") & high (2" << std::setw(2) << std::setfill('0') << std::hex << conf.high << std::dec; (conf.letsup != 0) ? std::cout << "++), " : std::cout << "+), "; } else if (conf.mode == 3) std::cout << "IPv6 regexp (" << conf.str << "), "; else if (conf.mode == 4) { std::cout << "IPv6 regexp (" << conf.str << ") & high (2" << std::setw(2) << std::setfill('0') << std::hex << conf.high << std::dec; (conf.letsup != 0) ? std::cout << "++), " : std::cout << "+), "; } else if (conf.mode == 5) std::cout << "meshname pattern (" << conf.str << "), "; else if (conf.mode == 6) std::cout << "meshname regexp (" << conf.str << "), "; else if (conf.mode == 7) std::cout << "subnet brute force (" << conf.str << "/" << (conf.sbt_size + 1) * 8 << "), "; if (conf.log) std::cout << "logging to text file."; else std::cout << "console log only."; if ((conf.mode == 5 || conf.mode == 6) && conf.mesh == 0) conf.mesh = 1; // принудительно включаем отображение мешнейм-доменов при их майнинге std::cout << std::endl << std::endl; } void testOutput() { if (conf.log) { if (conf.mode == 0) conf.outputfile = "syg-ipv6-pattern.txt"; else if (conf.mode == 1) conf.outputfile = "syg-ipv6-high.txt"; else if (conf.mode == 2) conf.outputfile = "syg-ipv6-pattern-high.txt"; else if (conf.mode == 3) conf.outputfile = "syg-ipv6-regexp.txt"; else if (conf.mode == 4) conf.outputfile = "syg-ipv6-regexp-high.txt"; else if (conf.mode == 5) conf.outputfile = "syg-meshname-pattern.txt"; else if (conf.mode == 6) conf.outputfile = "syg-meshname-regexp.txt"; else if (conf.mode == 7) conf.outputfile = "syg-subnet-brute-force.txt"; std::ifstream test(conf.outputfile); if (!test) { test.close(); std::ofstream output(conf.outputfile); output << "******************************************************\n" << "Change PublicKey and PrivateKey to your yggdrasil.conf\n" << "Windows: C:\\ProgramData\\Yggdrasil\\yggdrasil.conf\n" << "Debian: /etc/yggdrasil.conf\n" << "******************************************************\n"; output.close(); } else test.close(); } } std::string getBase32(const Address& rawAddr) { return static_cast(cppcodec::base32_rfc4648::encode(rawAddr.data(), 16)); } /** * pickupStringForMeshname получает человекочитаемую строку * типа fsdasdaklasdgdas.meship и возвращает значение, пригодное * для поиска по meshname-строке: удаляет возможную доменную зону * (всё после точки и саму точку), а также делает все буквы * заглавными. */ std::string pickupStringForMeshname(std::string str) { std::transform(str.begin(), str.end(), str.begin(), ::toupper); size_t dotPos = str.find('.'); if (dotPos != std::string::npos) { // Удаляем доменную зону str.resize(dotPos); } return str; } /** * pickupMeshnameForOutput получает сырое base32 значение * типа KLASJFHASSA7979====== и возвращает meshname-домен: * делает все символы строчными и удаляет паддинги ('='), * а также добавляет доменную зону ".meship". */ std::string pickupMeshnameForOutput(std::string str) { for (auto it = str.begin(); it != str.end(); it++) // делаем все буквы строчными для вывода *it = tolower(*it); for (auto it = str.end(); *(it - 1) == '='; it--) str.pop_back(); // удаляем символы '=' в конце адреса return str + ".meship"; } /** * decodeMeshToIP получает строковое значение сырого base32 * кода типа KLASJFHASSA7979====== и возвращает IPv6-стринг. */ bool subnetCheck() { if (conf.str[0] == '3') { conf.str[0] = '2'; return true; } return false; } bool convertStrToRaw(const std::string& str, Address& array) { return inet_pton(AF_INET6, str.c_str(), (void*)array.data()); } KeysBox getKeyPair() { KeysBox keys; uint8_t sk[64]; crypto_sign_ed25519_keypair(keys.PublicKey.data(), sk); memcpy(keys.PrivateKey.data(), sk, 32); return keys; } std::string getAddress(const Address& rawAddr) { char ipStrBuf[46]; inet_ntop(AF_INET6, rawAddr.data(), ipStrBuf, 46); return std::string(ipStrBuf); } std::string decodeMeshToIP(const std::string& str) { std::string mesh = pickupStringForMeshname(str); mesh.append("======"); std::vector raw = cppcodec::base32_rfc4648::decode(mesh); if (raw.size() != 16) { throw std::runtime_error("Invalid mesh string for IPv6 address."); } std::array rawAddr; std::copy(raw.begin(), raw.end(), rawAddr.begin()); return std::string(getAddress(rawAddr)); } std::string hexArrayToString(const uint8_t* bytes, int length) { std::stringstream ss; for (int i = 0; i < length; i++) ss << std::setw(2) << std::setfill('0') << std::hex << static_cast(bytes[i]); return ss.str(); } std::string keyToString(const Key& key) { return hexArrayToString(key.data(), KEYSIZE); } void getRawAddress(int lErase, Key InvertedPublicKey, Address& rawAddr) { ++lErase; const int bitsToShift = lErase % 8; const int start = lErase / 8; const int invSize = start + 15; if (bitsToShift == 0) { for (int i = start; i < invSize; ++i) InvertedPublicKey[i] = InvertedPublicKey[i]; } else { const int complementary = 8 - bitsToShift; for (int i = start; i < start + 15; ++i) { InvertedPublicKey[i] = static_cast( (InvertedPublicKey[i] << bitsToShift) | (InvertedPublicKey[i + 1] >> complementary) ); } } rawAddr[0] = 0x02; rawAddr[1] = static_cast(lErase - 1); memcpy(&rawAddr[2], &InvertedPublicKey[start], 14); } Key bitwiseInverse(const Key& key) { Key inverted{}; for (size_t i = 0; i < key.size(); ++i) inverted[i] = static_cast(~key[i]); return inverted; } int getOnes(const Key& value) { int leadOnes = 0; constexpr int nBytes = 17; for (int i = 0; i < nBytes; ++i) { if (value[i] == 0xFF) { leadOnes += 8; } else { for (int j = 7; j >= 0; --j) { if (value[i] & (1 << j)) ++leadOnes; else return leadOnes; } } } return leadOnes; } void logKeys(const Address& raw, const KeysBox& keys) { mtx.lock(); std::cout << std::endl; if (conf.mesh) { std::string base32 = getBase32(raw); std::cout << " Domain: " << pickupMeshnameForOutput(base32) << std::endl; } std::cout << " Address: " << getAddress(raw) << std::endl; std::cout << " PublicKey: " << keyToString(keys.PublicKey) << std::endl; std::cout << " PrivateKey: " << keyToString(keys.PrivateKey); if (!conf.log || conf.fullkeys) std::cout << keyToString(keys.PublicKey); std::cout << std::endl << std::endl; if (conf.log) { std::ofstream output(conf.outputfile, std::ios::app); output << std::endl; if (conf.mesh) { std::string base32 = getBase32(raw); output << "Domain: " << pickupMeshnameForOutput(base32) << std::endl; } output << "Address: " << getAddress(raw) << std::endl; output << "PublicKey: " << keyToString(keys.PublicKey) << std::endl; output << "PrivateKey: " << keyToString(keys.PrivateKey) << keyToString(keys.PublicKey) << std::endl; output.close(); } mtx.unlock(); } void process_fortune_key(const KeysBox& keys) { Key invKey = bitwiseInverse(keys.PublicKey); int ones = getOnes(invKey); Address rawAddr; getRawAddress(ones, invKey, rawAddr); logKeys(rawAddr, keys); ++countfortune; } template void miner_thread() { Address rawForBrute; Address rawAddr; KeysBox keys; Key invKey; int ones; std::string addressStr, base32Str; bool shouldProcess; if constexpr (T == 5) { conf.str = pickupStringForMeshname(conf.str); } if constexpr (T == 7) { { std::lock_guard lock(mtx); std::string oldString = conf.str; if (!convertStrToRaw(conf.str, rawForBrute) || subnetCheck() || conf.str != getAddress(rawForBrute)) { if (!conf.sbt_alarm) { std::cerr << " WARNING: Your string [" << oldString << "] converted to IP [" << getAddress(rawForBrute) << "]" << std::endl << std::endl; } conf.sbt_alarm = true; } } } std::regex regx(conf.str, std::regex_constants::egrep | std::regex_constants::icase); while (true) { keys = getKeyPair(); invKey = bitwiseInverse(keys.PublicKey); ones = getOnes(invKey); getRawAddress(ones, invKey, rawAddr); addressStr = getAddress(rawAddr); base32Str = getBase32(rawAddr); shouldProcess = false; if constexpr (T == 0) { shouldProcess = (addressStr.find(conf.str) != std::string::npos); } else if constexpr (T == 1) { if (ones > conf.high) { if (conf.letsup != 0) conf.high = ones; shouldProcess = true; } } else if constexpr (T == 2) { if (ones > conf.high && addressStr.find(conf.str) != std::string::npos) { if (conf.letsup != 0) conf.high = ones; shouldProcess = true; } } else if constexpr (T == 3) { shouldProcess = std::regex_search(addressStr, regx); } else if constexpr (T == 4) { if (ones > conf.high && std::regex_search(addressStr, regx)) { if (conf.letsup != 0) conf.high = ones; shouldProcess = true; } } else if constexpr (T == 5) { shouldProcess = (base32Str.find(conf.str) != std::string::npos); } else if constexpr (T == 6) { shouldProcess = std::regex_search(base32Str, regx); } else if constexpr (T == 7) { for (size_t z = 0; z < rawForBrute.size() && rawForBrute[z] == rawAddr[z]; ++z) { if (z > 4) { if (z == static_cast(conf.sbt_size)) { shouldProcess = true; break; } else { { std::lock_guard lock(mtx); std::cout << " So close! Bruted bytes: " << (z + 1) << "/" << (conf.sbt_size + 1) << std::endl; } } } } } if (shouldProcess) process_fortune_key(keys); } } void startThreads() { for (unsigned int i = 0; i < conf.proc; ++i) { std::thread* thread = new std::thread( conf.mode == 0 ? miner_thread<0> : conf.mode == 1 ? miner_thread<1> : conf.mode == 2 ? miner_thread<2> : conf.mode == 3 ? miner_thread<3> : conf.mode == 4 ? miner_thread<4> : conf.mode == 5 ? miner_thread<5> : conf.mode == 6 ? miner_thread<6> : miner_thread<7> ); if (i + 1 < conf.proc) thread->detach(); else thread->join(); } } void error(int code) { std::cerr << std::endl << "\ +--------------------------------------------------------------------------+\n\ | Incorrect input, my dear friend. Use --help for usage information. |\n\ +--------------------------------------------------------------------------+\n\ Error code: " << code << std::endl; } int main(int argc, char* argv[]) { if (argc >= 2) { std::string p1; p1 = argv[1]; if (p1 == "--help" || p1 == "-help" || p1 == "-h") { //help(); return 0; } else if (p1 == "--tomesh" || p1 == "-tm") { if (argc >= 3) { Address rawAddr; convertStrToRaw(argv[2], rawAddr); std::string base32 = getBase32(rawAddr); std::cout << std::endl << pickupMeshnameForOutput(base32) << std::endl; return 0; } else { error(-501); return -501; } } else if (p1 == "--toip" || p1 == "-ti") { if (argc >= 3) { std::cout << std::endl << decodeMeshToIP(argv[2]) << std::endl; return 0; } else { error(-502); return -502; } } else { int res = -1; for (int i = 1;; ++i) { if (argv[i] == nullptr) break; res = parameters(conf, std::string(argv[i])); if (res == 777) { ++i; if (argv[i] == nullptr) { error(776); std::cerr << " Empty value for parameter \"" << argv[i - 1] << "\"" << std::endl; return 776; } int res2 = parameters(conf, std::string(std::string(argv[i - 1]) + " " + std::string(argv[i]))); if (res2 != 0) { error(res); std::cerr << " Wrong value \"" << argv[i] << "\" for parameter \"" << argv[i - 1] << "\"" << std::endl; return res; } } } } } //else { without(); std::this_thread::sleep_for(std::chrono::seconds(1)); } displayConfig(); //testOutput(); startThreads(); } /* void help() { std::cout << std::endl << "\ +--------------------------------------------------------------------------+\n\ | Simple Yggdrasil address miner usage: --help or -h |\n\ +--------------------------------------------------------------------------+\n\ [Mining modes] \n\ High addresses BY DEFAULT | \n\ IPv6 by pattern --ip | -i \n\ IPv6 by pattern + height --ip-high | -ih \n\ IPv6 by regular expression --regexp | -r \n\ IPv6 by regular expression + height --regexp-high | -rh \n\ Meshname by pattern --mesh | -m \n\ Meshname by regular expression --mesh-regexp | -mr \n\ Subnet brute force (300::/64) --brute-force | -b \n\ [Main parameters] \n\ Threads count (maximum by default) --threads | -t \n\ String for pattern or regular expression --pattern | -p \n\ Start position for high addresses (14 by default) --altitude | -a \n\ [Extra options] \n\ Disable auto-increase in high mode --increase-none | -in \n\ Disable logging to text file, stdout only --logging-none | -ln \n\ Force display meshname domains --display-mesh | -dm \n\ Show PrivateKeys in full format in console --full-pk | -fp \n\ Show the version of the miner --version | -v \n\ [Meshname convertation] \n\ Convert IP to Meshname --tomesh | -tm \n\ Convert Meshname to IP --toip | -ti \n\ [Notes] \n\ Meshname domains use base32 (RFC4648) alphabet symbols. \n\ In meshname domain mining should use \"=\" instead \".meship\" or \".meshname\".\n\ Subnet brute force mode understand \"3xx:\" and \"2xx:\" patterns. \n\ +--------------------------------------------------------------------------+\n"; } void without() { std::cout << "\ SimpleYggGen was started without parameters.\n\ The mining mode for high addresses will be launched automatically.\n\ Use --help for usage information." << std::flush; } */