/* * (C) 2016 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_STATEFUL_RNG_H_ #define BOTAN_STATEFUL_RNG_H_ #include namespace Botan { /** * Inherited by RNGs which maintain in-process state, like HMAC_DRBG. * On Unix these RNGs are vulnerable to problems with fork, where the * RNG state is duplicated, and the parent and child process RNGs will * produce identical output until one of them reseeds. Stateful_RNG * reseeds itself whenever a fork is detected, or after a set number of * bytes have been output. * * Not implemented by RNGs which access an external RNG, such as the * system PRNG or a hardware RNG. */ class BOTAN_PUBLIC_API(2,0) Stateful_RNG : public RandomNumberGenerator { public: /** * @param 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 */ Stateful_RNG(RandomNumberGenerator& rng, Entropy_Sources& entropy_sources, size_t reseed_interval) : m_underlying_rng(&rng), m_entropy_sources(&entropy_sources), m_reseed_interval(reseed_interval) {} /** * @param 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 */ Stateful_RNG(RandomNumberGenerator& rng, size_t reseed_interval) : m_underlying_rng(&rng), m_reseed_interval(reseed_interval) {} /** * @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 */ Stateful_RNG(Entropy_Sources& entropy_sources, size_t reseed_interval) : m_entropy_sources(&entropy_sources), m_reseed_interval(reseed_interval) {} /** * In this case, automatic reseeding is impossible */ Stateful_RNG() : m_reseed_interval(0) {} /** * Consume this input and mark the RNG as initialized regardless * of the length of the input or the current seeded state of * the RNG. */ void initialize_with(const uint8_t input[], size_t length); bool is_seeded() const override final; /** * Mark state as requiring a reseed on next use */ void force_reseed(); void reseed_from_rng(RandomNumberGenerator& rng, size_t poll_bits = BOTAN_RNG_RESEED_POLL_BITS) override final; /** * Overrides default implementation and also includes the current * process ID and the reseed counter. */ void randomize_with_ts_input(uint8_t output[], size_t output_len) override final; /** * Poll provided sources for up to poll_bits bits of entropy * or until the timeout expires. Returns estimate of the number * of bits collected. */ size_t reseed(Entropy_Sources& srcs, size_t poll_bits = BOTAN_RNG_RESEED_POLL_BITS, std::chrono::milliseconds poll_timeout = BOTAN_RNG_RESEED_DEFAULT_TIMEOUT) override; /** * @return intended security level of this DRBG */ virtual size_t security_level() const = 0; /** * Some DRBGs have a notion of the maximum number of bytes per * request. Longer requests (to randomize) will be treated as * multiple requests, and may initiate reseeding multiple times, * depending on the values of max_number_of_bytes_per_request and * reseed_interval(). This function returns zero if the RNG in * question does not have such a notion. * * @return max number of bytes per request (or zero) */ virtual size_t max_number_of_bytes_per_request() const = 0; size_t reseed_interval() const { return m_reseed_interval; } void clear() override; protected: void reseed_check(); /** * Called by a subclass to notify that a reseed has been * successfully performed. */ void reset_reseed_counter() { m_reseed_counter = 1; } private: // A non-owned and possibly null pointer to shared RNG RandomNumberGenerator* m_underlying_rng = nullptr; // A non-owned and possibly null pointer to a shared Entropy_Source Entropy_Sources* m_entropy_sources = nullptr; const size_t m_reseed_interval; uint32_t m_last_pid = 0; /* * Set to 1 after a successful seeding, then incremented. Reset * to 0 by clear() or a fork. This logic is used even if * automatic reseeding is disabled (via m_reseed_interval = 0) */ size_t m_reseed_counter = 0; }; } #endif