/* * Discrete Logarithm Group * (C) 1999-2008 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_DL_PARAM_H__ #define BOTAN_DL_PARAM_H__ #include #include namespace Botan { /** * This class represents discrete logarithm groups. It holds a prime p, * a prime q = (p-1)/2 and g = x^((p-1)/q) mod p. */ class BOTAN_DLL DL_Group { public: /** * Get the prime p. * @return prime p */ const BigInt& get_p() const; /** * Get the prime q. * @return prime q */ const BigInt& get_q() const; /** * Get the base g. * @return base g */ const BigInt& get_g() const; /** * The DL group encoding format variants. */ enum Format { ANSI_X9_42, ANSI_X9_57, PKCS_3, DSA_PARAMETERS = ANSI_X9_57, DH_PARAMETERS = ANSI_X9_42, X942_DH_PARAMETERS = ANSI_X9_42, PKCS3_DH_PARAMETERS = PKCS_3 }; /** * Determine the prime creation for DL groups. */ enum PrimeType { Strong, Prime_Subgroup, DSA_Kosherizer }; /** * Perform validity checks on the group. * @param rng the rng to use * @param strong whether to perform stronger by lengthier tests * @return true if the object is consistent, false otherwise */ bool verify_group(RandomNumberGenerator& rng, bool strong) const; /** * Encode this group into a string using PEM encoding. * @param format the encoding format * @return string holding the PEM encoded group */ std::string PEM_encode(Format format) const; /** * Encode this group into a string using DER encoding. * @param format the encoding format * @return string holding the DER encoded group */ std::vector DER_encode(Format format) const; /** * Decode a DER/BER encoded group into this instance. * @param ber a vector containing the DER/BER encoded group * @param format the format of the encoded group */ void BER_decode(const std::vector& ber, Format format); /** * Decode a PEM encoded group into this instance. * @param pem the PEM encoding of the group */ void PEM_decode(const std::string& pem); /** * Construct a DL group with uninitialized internal value. * Use this constructor is you wish to set the groups values * from a DER or PEM encoded group. */ DL_Group(); /** * Construct a DL group that is registered in the configuration. * @param name the name that is configured in the global configuration * for the desired group. If no configuration file is specified, * the default values from the file policy.cpp will be used. For instance, * use "modp/ietf/768" as name. */ DL_Group(const std::string& name); /** * Create a new group randomly. * @param rng the random number generator to use * @param type specifies how the creation of primes p and q shall * be performed. If type=Strong, then p will be determined as a * safe prime, and q will be chosen as (p-1)/2. If * type=Prime_Subgroup and qbits = 0, then the size of q will be * determined according to the estimated difficulty of the DL * problem. If type=DSA_Kosherizer, DSA primes will be created. * @param pbits the number of bits of p * @param qbits the number of bits of q. Leave it as 0 to have * the value determined according to pbits. */ DL_Group(RandomNumberGenerator& rng, PrimeType type, size_t pbits, size_t qbits = 0); /** * Create a DSA group with a given seed. * @param rng the random number generator to use * @param seed the seed to use to create the random primes * @param pbits the desired bit size of the prime p * @param qbits the desired bit size of the prime q. */ DL_Group(RandomNumberGenerator& rng, const std::vector& seed, size_t pbits = 1024, size_t qbits = 0); /** * Create a DL group. The prime q will be determined according to p. * @param p the prime p * @param g the base g */ DL_Group(const BigInt& p, const BigInt& g); /** * Create a DL group. * @param p the prime p * @param q the prime q * @param g the base g */ DL_Group(const BigInt& p, const BigInt& q, const BigInt& g); /** * Return PEM representation of named DL group */ static const char* PEM_for_named_group(const std::string& name); private: static BigInt make_dsa_generator(const BigInt&, const BigInt&); void init_check() const; void initialize(const BigInt&, const BigInt&, const BigInt&); bool m_initialized; BigInt m_p, m_q, m_g; }; } #endif