/* * Blinding for public key operations * (C) 1999-2010,2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_BLINDER_H_ #define BOTAN_BLINDER_H_ #include #include #include namespace Botan { class RandomNumberGenerator; /** * Blinding Function Object. */ class BOTAN_PUBLIC_API(2,0) Blinder final { public: /** * Blind a value. * The blinding nonce k is freshly generated after * BOTAN_BLINDING_REINIT_INTERVAL calls to blind(). * BOTAN_BLINDING_REINIT_INTERVAL = 0 means a fresh * nonce is only generated once. On every other call, * an updated nonce is used for blinding: k' = k*k mod n. * @param x value to blind * @return blinded value */ BigInt blind(const BigInt& x) const; /** * Unblind a value. * @param x value to unblind * @return unblinded value */ BigInt unblind(const BigInt& x) const; /** * @param modulus the modulus * @param rng the RNG to use for generating the nonce * @param fwd_func a function that calculates the modular * exponentiation of the public exponent and the given value (the nonce) * @param inv_func a function that calculates the modular inverse * of the given value (the nonce) */ Blinder(const BigInt& modulus, RandomNumberGenerator& rng, std::function fwd_func, std::function inv_func); Blinder(const Blinder&) = delete; Blinder& operator=(const Blinder&) = delete; private: BigInt blinding_nonce() const; Modular_Reducer m_reducer; RandomNumberGenerator& m_rng; std::function m_fwd_fn; std::function m_inv_fn; size_t m_modulus_bits = 0; mutable BigInt m_e, m_d; mutable size_t m_counter = 0; }; } #endif