/* * ECDSA implemenation * (C) 2007 Manuel Hartl, FlexSecure GmbH * 2007 Falko Strenzke, FlexSecure GmbH * 2008-2010 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include namespace Botan { bool ECDSA_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { if(!public_point().on_the_curve()) return false; if(!strong) return true; return KeyPair::signature_consistency_check(rng, *this, "EMSA1(SHA-1)"); } ECDSA_Signature_Operation::ECDSA_Signature_Operation(const ECDSA_PrivateKey& ecdsa) : base_point(ecdsa.domain().get_base_point()), order(ecdsa.domain().get_order()), x(ecdsa.private_value()), mod_order(order) { } SecureVector ECDSA_Signature_Operation::sign(const byte msg[], size_t msg_len, RandomNumberGenerator& rng) { rng.add_entropy(msg, msg_len); BigInt m(msg, msg_len); BigInt r = 0, s = 0; while(r == 0 || s == 0) { // This contortion is necessary for the tests BigInt k; k.randomize(rng, order.bits()); while(k >= order) k.randomize(rng, order.bits() - 1); PointGFp k_times_P = base_point * k; r = mod_order.reduce(k_times_P.get_affine_x()); s = mod_order.multiply(inverse_mod(k, order), mul_add(x, r, m)); } SecureVector output(2*order.bytes()); r.binary_encode(&output[output.size() / 2 - r.bytes()]); s.binary_encode(&output[output.size() - s.bytes()]); return output; } ECDSA_Verification_Operation::ECDSA_Verification_Operation(const ECDSA_PublicKey& ecdsa) : base_point(ecdsa.domain().get_base_point()), public_point(ecdsa.public_point()), order(ecdsa.domain().get_order()) { } bool ECDSA_Verification_Operation::verify(const byte msg[], size_t msg_len, const byte sig[], size_t sig_len) { if(sig_len != order.bytes()*2) return false; BigInt e(msg, msg_len); BigInt r(sig, sig_len / 2); BigInt s(sig + sig_len / 2, sig_len / 2); if(r <= 0 || r >= order || s <= 0 || s >= order) return false; BigInt w = inverse_mod(s, order); PointGFp R = w * multi_exponentiate(base_point, e, public_point, r); if(R.is_zero()) return false; return (R.get_affine_x() % order == r); } }