/* * OAEP * (C) 1999-2010,2015 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include namespace Botan { OAEP* OAEP::make(const Spec& request) { if(request.algo_name() == "OAEP" && request.arg_count_between(1, 2)) { if(request.arg_count() == 1 || (request.arg_count() == 2 && request.arg(1) == "MGF1")) { if(auto hash = HashFunction::create(request.arg(0))) return new OAEP(hash.release()); } } return nullptr; } /* * OAEP Pad Operation */ secure_vector OAEP::pad(const byte in[], size_t in_length, size_t key_length, RandomNumberGenerator& rng) const { key_length /= 8; if(in_length > maximum_input_size(key_length * 8)) { throw Invalid_Argument("OAEP: Input is too large"); } secure_vector out(key_length); rng.randomize(out.data(), m_Phash.size()); buffer_insert(out, m_Phash.size(), m_Phash.data(), m_Phash.size()); out[out.size() - in_length - 1] = 0x01; buffer_insert(out, out.size() - in_length, in, in_length); mgf1_mask(*m_hash, out.data(), m_Phash.size(), &out[m_Phash.size()], out.size() - m_Phash.size()); mgf1_mask(*m_hash, &out[m_Phash.size()], out.size() - m_Phash.size(), out.data(), m_Phash.size()); return out; } /* * OAEP Unpad Operation */ secure_vector OAEP::unpad(byte& valid_mask, const byte in[], size_t in_length) const { /* Must be careful about error messages here; if an attacker can distinguish them, it is easy to use the differences as an oracle to find the secret key, as described in "A Chosen Ciphertext Attack on RSA Optimal Asymmetric Encryption Padding (OAEP) as Standardized in PKCS #1 v2.0", James Manger, Crypto 2001 Also have to be careful about timing attacks! Pointed out by Falko Strenzke. */ if(in[0] == 0) { in += 1; in_length -= 1; } secure_vector input(in, in + in_length); CT::poison(input.data(), input.size()); const size_t hlen = m_Phash.size(); mgf1_mask(*m_hash, &input[hlen], input.size() - hlen, input.data(), hlen); mgf1_mask(*m_hash, input.data(), hlen, &input[hlen], input.size() - hlen); size_t delim_idx = 2 * hlen; byte waiting_for_delim = 0xFF; byte bad_input = 0; for(size_t i = delim_idx; i < input.size(); ++i) { const byte zero_m = CT::is_zero(input[i]); const byte one_m = CT::is_equal(input[i], 1); const byte add_m = waiting_for_delim & zero_m; bad_input |= waiting_for_delim & ~(zero_m | one_m); delim_idx += CT::select(add_m, 1, 0); waiting_for_delim &= zero_m; } // If we never saw any non-zero byte, then it's not valid input bad_input |= waiting_for_delim; bad_input |= CT::is_equal(same_mem(&input[hlen], m_Phash.data(), hlen), false); CT::unpoison(input.data(), input.size()); CT::unpoison(&bad_input, 1); CT::unpoison(&delim_idx, 1); valid_mask = ~bad_input; secure_vector output(input.begin() + delim_idx + 1, input.end()); CT::cond_zero_mem(bad_input, output.data(), output.size()); return output; } /* * Return the max input size for a given key size */ size_t OAEP::maximum_input_size(size_t keybits) const { if(keybits / 8 > 2*m_Phash.size() + 1) return ((keybits / 8) - 2*m_Phash.size() - 1); else return 0; } /* * OAEP Constructor */ OAEP::OAEP(HashFunction* hash, const std::string& P) : m_hash(hash) { m_Phash = m_hash->process(P); } }