/* * ChaCha_RNG * (C) 2017 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_CHACHA_RNG_H_ #define BOTAN_CHACHA_RNG_H_ #include #include #include namespace Botan { class Entropy_Sources; /** * ChaCha_RNG is a very fast but completely ad-hoc RNG created by * creating a 256-bit random value and using it as a key for ChaCha20. * * The RNG maintains two 256-bit keys, one for HMAC_SHA256 (HK) and the * other for ChaCha20 (CK). To compute a new key in response to * reseeding request or add_entropy calls, ChaCha_RNG computes * CK' = HMAC_SHA256(HK, input_material) * Then a new HK' is computed by running ChaCha20 with the new key to * output 32 bytes: * HK' = ChaCha20(CK') * * Now output can be produced by continuing to produce output with ChaCha20 * under CK' * * The first HK (before seeding occurs) is taken as the all zero value. * * @warning This RNG construction is probably fine but is non-standard. * The primary reason to use it is in cases where the other RNGs are * not fast enough. */ class BOTAN_PUBLIC_API(2,3) ChaCha_RNG final : public Stateful_RNG { public: /** * Automatic reseeding is disabled completely, as it has no access to * any source for seed material. * * If a fork is detected, the RNG will be unable to reseed itself * in response. In this case, an exception will be thrown rather * than generating duplicated output. */ ChaCha_RNG(); /** * Provide an initial seed to the RNG, without providing an * underlying RNG or entropy source. Automatic reseeding is * disabled completely, as it has no access to any source for * seed material. * * If a fork is detected, the RNG will be unable to reseed itself * in response. In this case, an exception will be thrown rather * than generating duplicated output. * * @param seed the seed material, should be at least 256 bits */ ChaCha_RNG(const secure_vector& seed); /** * Automatic reseeding from @p underlying_rng will take place after * @p reseed_interval many requests or after a fork was detected. * * @param underlying_rng is a reference to some RNG which will be used * to perform the periodic reseeding * @param reseed_interval specifies a limit of how many times * the RNG will be called before automatic reseeding is performed */ ChaCha_RNG(RandomNumberGenerator& underlying_rng, size_t reseed_interval = BOTAN_RNG_DEFAULT_RESEED_INTERVAL); /** * Automatic reseeding from @p entropy_sources will take place after * @p reseed_interval many requests or after a fork was detected. * * @param entropy_sources will be polled to perform reseeding periodically * @param reseed_interval specifies a limit of how many times * the RNG will be called before automatic reseeding is performed. */ ChaCha_RNG(Entropy_Sources& entropy_sources, size_t reseed_interval = BOTAN_RNG_DEFAULT_RESEED_INTERVAL); /** * Automatic reseeding from @p underlying_rng and @p entropy_sources * will take place after @p reseed_interval many requests or after * a fork was detected. * * @param underlying_rng is a reference to some RNG which will be used * to perform the periodic reseeding * @param entropy_sources will be polled to perform reseeding periodically * @param reseed_interval specifies a limit of how many times * the RNG will be called before automatic reseeding is performed. */ ChaCha_RNG(RandomNumberGenerator& underlying_rng, Entropy_Sources& entropy_sources, size_t reseed_interval = BOTAN_RNG_DEFAULT_RESEED_INTERVAL); std::string name() const override { return "ChaCha_RNG"; } void clear() override; void randomize(uint8_t output[], size_t output_len) override; void randomize_with_input(uint8_t output[], size_t output_len, const uint8_t input[], size_t input_len) override; void add_entropy(const uint8_t input[], size_t input_len) override; size_t security_level() const override; size_t max_number_of_bytes_per_request() const override { return 0; } private: void update(const uint8_t input[], size_t input_len); std::unique_ptr m_hmac; std::unique_ptr m_chacha; }; } #endif