// // Created by neo on 5/26/2023. // #ifndef WINDOWSXPKG_HEADER_H #define WINDOWSXPKG_HEADER_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Algorithm macros #define PK_LENGTH 25 #define NULL_TERMINATOR 1 #define FIELD_BITS 384 #define FIELD_BYTES 48 #define FIELD_BITS_2003 512 #define FIELD_BYTES_2003 64 // Confirmation ID generator constants #define SUCCESS 0 #define ERR_TOO_SHORT 1 #define ERR_TOO_LARGE 2 #define ERR_INVALID_CHARACTER 3 #define ERR_INVALID_CHECK_DIGIT 4 #define ERR_UNKNOWN_VERSION 5 #define ERR_UNLUCKY 6 // Type definitions typedef uint8_t BYTE; typedef uint16_t WORD; typedef uint32_t DWORD; typedef uint64_t QWORD; // Global variables extern char charset[]; // util.cpp void endian(uint8_t *data, int length); EC_GROUP *initializeEllipticCurve( std::string pSel, std::string aSel, std::string bSel, std::string generatorXSel, std::string generatorYSel, std::string publicKeyXSel, std::string publicKeyYSel, EC_POINT **genPoint, EC_POINT **pubPoint ); // key.cpp void unbase24(uint32_t *byteSeq, const char *cdKey); void base24(char *cdKey, uint32_t *byteSeq); // cli.cpp void print_product_key(char *pk); void print_product_id(uint32_t *pid); struct Options { std::string binkid; int channelID; bool verbose; bool help; bool list; bool error; }; Options parseCommandLine(int argc, char* argv[]); void showHelp(char *argv[]); // xp.cpp bool verifyXPKey(EC_GROUP *eCurve, EC_POINT *generator, EC_POINT *publicKey, char *cdKey); void generateXPKey(char *pKey, EC_GROUP *eCurve, EC_POINT *generator, BIGNUM *order, BIGNUM *privateKey, uint32_t *pRaw); // server.cpp #endif //WINDOWSXPKG_HEADER_H