/************************************************* * ANSI X9.31 RNG Source File * * (C) 1999-2008 Jack Lloyd * *************************************************/ #include #include #include namespace Botan { /************************************************* * Generate a buffer of random bytes * *************************************************/ void ANSI_X931_RNG::randomize(byte out[], u32bit length) { if(!is_seeded()) reseed(); while(length) { if(position == R.size()) update_buffer(); const u32bit copied = std::min(length, R.size() - position); copy_mem(out, R + position, copied); out += copied; length -= copied; position += copied; } } /************************************************* * Refill the internal state * *************************************************/ void ANSI_X931_RNG::update_buffer() { SecureVector DT(cipher->BLOCK_SIZE); prng->randomize(DT, DT.size()); cipher->encrypt(DT); xor_buf(R, V, DT, cipher->BLOCK_SIZE); cipher->encrypt(R); xor_buf(V, R, DT, cipher->BLOCK_SIZE); cipher->encrypt(V); position = 0; } /************************************************* * Reseed the internal state * *************************************************/ void ANSI_X931_RNG::reseed() { prng->reseed(); if(prng->is_seeded()) { SecureVector key(cipher->MAXIMUM_KEYLENGTH); prng->randomize(key, key.size()); cipher->set_key(key, key.size()); if(V.size() != cipher->BLOCK_SIZE) V.create(cipher->BLOCK_SIZE); prng->randomize(V, V.size()); update_buffer(); } } /************************************************* * Add a entropy source to the underlying PRNG * *************************************************/ void ANSI_X931_RNG::add_entropy_source(EntropySource* src) { prng->add_entropy_source(src); } /************************************************* * Add some entropy to the underlying PRNG * *************************************************/ void ANSI_X931_RNG::add_entropy(const byte input[], u32bit length) { prng->add_entropy(input, length); } /************************************************* * Check if the the PRNG is seeded * *************************************************/ bool ANSI_X931_RNG::is_seeded() const { return V.has_items(); } /************************************************* * Clear memory of sensitive data * *************************************************/ void ANSI_X931_RNG::clear() throw() { cipher->clear(); prng->clear(); R.clear(); V.destroy(); position = 0; } /************************************************* * Return the name of this type * *************************************************/ std::string ANSI_X931_RNG::name() const { return "X9.31(" + cipher->name() + ")"; } /************************************************* * ANSI X931 RNG Constructor * *************************************************/ ANSI_X931_RNG::ANSI_X931_RNG(BlockCipher* cipher_in, RandomNumberGenerator* prng_in) { if(!prng_in || !cipher_in) throw Invalid_Argument("ANSI_X931_RNG constructor: NULL arguments"); cipher = cipher_in; prng = prng_in; R.create(cipher->BLOCK_SIZE); position = 0; } /************************************************* * ANSI X931 RNG Destructor * *************************************************/ ANSI_X931_RNG::~ANSI_X931_RNG() { delete cipher; delete prng; } }