/* * Discrete Logarithm Group * (C) 1999-2008,2018 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_DL_PARAM_H_ #define BOTAN_DL_PARAM_H_ #include namespace Botan { class Montgomery_Params; class DL_Group_Data; enum class DL_Group_Source { Builtin, RandomlyGenerated, ExternalSource, }; /** * This class represents discrete logarithm groups. It holds a prime * modulus p, a generator g, and (optionally) a prime q which is a * factor of (p-1). In most cases g generates the order-q subgroup. */ class BOTAN_PUBLIC_API(2,0) DL_Group final { public: /** * Determine the prime creation for DL groups. */ enum PrimeType { Strong, Prime_Subgroup, DSA_Kosherizer }; /** * 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, ANSI_X9_42_DH_PARAMETERS = ANSI_X9_42, PKCS3_DH_PARAMETERS = PKCS_3 }; /** * 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() = default; /** * Construct a DL group that is registered in the configuration. * @param name the name of the group, for example "modp/ietf/3072" * * @warning This constructor also accepts PEM inputs. This behavior is * deprecated and will be removed in a future major release. Instead * use DL_Group_from_PEM function */ explicit DL_Group(const std::string& name); /* * Read a PEM representation */ static DL_Group DL_Group_from_PEM(const std::string& pem); /** * 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. * @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); /** * Decode a BER-encoded DL group param */ DL_Group(const uint8_t ber[], size_t ber_len, Format format); /** * Decode a BER-encoded DL group param */ template DL_Group(const std::vector& ber, Format format) : DL_Group(ber.data(), ber.size(), format) {} /** * Get the prime p. * @return prime p */ const BigInt& get_p() const; /** * Get the prime q, returns zero if q is not used * @return prime q */ const BigInt& get_q() const; /** * Get the base g. * @return base g */ const BigInt& get_g() const; /** * 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 = true) const; /** * Verify a public element, ie check if y = g^x for some x. * * This is not a perfect test. It verifies that 1 < y < p and (if q is set) * that y is in the subgroup of size q. */ bool verify_public_element(const BigInt& y) const; /** * Verify a pair of elements y = g^x * * This verifies that 1 < x,y < p and that y=g^x mod p */ bool verify_element_pair(const BigInt& y, const BigInt& x) 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; /** * Reduce an integer modulo p * @return x % p */ BigInt mod_p(const BigInt& x) const; /** * Multiply and reduce an integer modulo p * @return (x*y) % p */ BigInt multiply_mod_p(const BigInt& x, const BigInt& y) const; /** * Return the inverse of x mod p */ BigInt inverse_mod_p(const BigInt& x) const; /** * Reduce an integer modulo q * Throws if q is unset on this DL_Group * @return x % q */ BigInt mod_q(const BigInt& x) const; /** * Multiply and reduce an integer modulo q * Throws if q is unset on this DL_Group * @return (x*y) % q */ BigInt multiply_mod_q(const BigInt& x, const BigInt& y) const; /** * Multiply and reduce an integer modulo q * Throws if q is unset on this DL_Group * @return (x*y*z) % q */ BigInt multiply_mod_q(const BigInt& x, const BigInt& y, const BigInt& z) const; /** * Square and reduce an integer modulo q * Throws if q is unset on this DL_Group * @return (x*x) % q */ BigInt square_mod_q(const BigInt& x) const; /** * Return the inverse of x mod q * Throws if q is unset on this DL_Group */ BigInt inverse_mod_q(const BigInt& x) const; /** * Modular exponentiation * * @warning this function leaks the size of x via the number of * loop iterations. Use the version taking the maximum size to * avoid this. * * @return (g^x) % p */ BigInt power_g_p(const BigInt& x) const; /** * Modular exponentiation * @param x the exponent * @param max_x_bits x is assumed to be at most this many bits long. * * @return (g^x) % p */ BigInt power_g_p(const BigInt& x, size_t max_x_bits) const; /** * Multi-exponentiate * Return (g^x * y^z) % p */ BigInt multi_exponentiate(const BigInt& x, const BigInt& y, const BigInt& z) const; /** * Return parameters for Montgomery reduction/exponentiation mod p */ std::shared_ptr monty_params_p() const; /** * Return the size of p in bits * Same as get_p().bits() */ size_t p_bits() const; /** * Return the size of p in bytes * Same as get_p().bytes() */ size_t p_bytes() const; /** * Return the size of q in bits * Same as get_q().bits() * Throws if q is unset */ size_t q_bits() const; /** * Return the size of q in bytes * Same as get_q().bytes() * Throws if q is unset */ size_t q_bytes() const; /** * Return size in bits of a secret exponent * * This attempts to balance between the attack costs of NFS * (which depends on the size of the modulus) and Pollard's rho * (which depends on the size of the exponent). * * It may vary over time for a particular group, if the attack * costs change. */ size_t exponent_bits() const; /** * Return an estimate of the strength of this group against * discrete logarithm attacks (eg NFS). Warning: since this only * takes into account known attacks it is by necessity an * overestimate of the actual strength. */ size_t estimated_strength() 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 * * @warning avoid this. Instead use the DL_Group constructor */ 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 BOTAN_DEPRECATED("Use DL_Group_from_PEM") PEM_decode(const std::string& pem); DL_Group_Source source() const; /** * Return PEM representation of named DL group */ static std::string BOTAN_DEPRECATED("Use DL_Group(name).PEM_encode()") PEM_for_named_group(const std::string& name); /* * For internal use only */ static std::shared_ptr DL_group_info(const std::string& name); private: static std::shared_ptr load_DL_group_info(const char* p_str, const char* q_str, const char* g_str); static std::shared_ptr load_DL_group_info(const char* p_str, const char* g_str); static std::shared_ptr BER_decode_DL_group(const uint8_t data[], size_t data_len, DL_Group::Format format, DL_Group_Source source); const DL_Group_Data& data() const; std::shared_ptr m_data; }; } #endif