/* * Elliptic curves over GF(p) Montgomery Representation * (C) 2014,2015 Jack Lloyd * 2016 Matthias Gierlings * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include #include namespace Botan { namespace { class CurveGFp_Montgomery final : public CurveGFp_Repr { public: CurveGFp_Montgomery(const BigInt& p, const BigInt& a, const BigInt& b) : m_p(p), m_a(a), m_b(b), m_p_words(m_p.sig_words()), m_p_dash(monty_inverse(m_p.word_at(0))) { const BigInt r = BigInt::power_of_2(m_p_words * BOTAN_MP_WORD_BITS); m_r2 = (r * r) % p; m_a_r = (m_a * r) % p; m_b_r = (m_b * r) % p; } const BigInt& get_a() const override { return m_a; } const BigInt& get_b() const override { return m_b; } const BigInt& get_p() const override { return m_p; } const BigInt& get_a_rep() const override { return m_a_r; } const BigInt& get_b_rep() const override { return m_b_r; } size_t get_p_words() const override { return m_p_words; } void to_curve_rep(BigInt& x, secure_vector& ws) const override; void from_curve_rep(BigInt& x, secure_vector& ws) const override; void curve_mul(BigInt& z, const BigInt& x, const BigInt& y, secure_vector& ws) const override; void curve_sqr(BigInt& z, const BigInt& x, secure_vector& ws) const override; private: BigInt m_p, m_a, m_b; size_t m_p_words; // cache of m_p.sig_words() // Montgomery parameters BigInt m_r2, m_a_r, m_b_r; word m_p_dash; }; void CurveGFp_Montgomery::to_curve_rep(BigInt& x, secure_vector& ws) const { const BigInt tx = x; curve_mul(x, tx, m_r2, ws); } void CurveGFp_Montgomery::from_curve_rep(BigInt& x, secure_vector& ws) const { const BigInt tx = x; curve_mul(x, tx, 1, ws); } void CurveGFp_Montgomery::curve_mul(BigInt& z, const BigInt& x, const BigInt& y, secure_vector& ws) const { if(x.is_zero() || y.is_zero()) { z = 0; return; } const size_t output_size = 2*m_p_words + 1; ws.resize(2*(m_p_words+2)); z.grow_to(output_size); z.clear(); bigint_monty_mul(z, x, y, m_p.data(), m_p_words, m_p_dash, ws.data()); } void CurveGFp_Montgomery::curve_sqr(BigInt& z, const BigInt& x, secure_vector& ws) const { if(x.is_zero()) { z = 0; return; } const size_t x_sw = x.sig_words(); BOTAN_ASSERT(x_sw <= m_p_words, "Input in range"); const size_t output_size = 2*m_p_words + 1; ws.resize(2*(m_p_words+2)); z.grow_to(output_size); z.clear(); bigint_monty_sqr(z, x, m_p.data(), m_p_words, m_p_dash, ws.data()); } class CurveGFp_NIST : public CurveGFp_Repr { public: CurveGFp_NIST(size_t p_bits, const BigInt& a, const BigInt& b) : m_a(a), m_b(b), m_p_words((p_bits + BOTAN_MP_WORD_BITS - 1) / BOTAN_MP_WORD_BITS) { } const BigInt& get_a() const override { return m_a; } const BigInt& get_b() const override { return m_b; } size_t get_p_words() const override { return m_p_words; } const BigInt& get_a_rep() const override { return m_a; } const BigInt& get_b_rep() const override { return m_b; } void to_curve_rep(BigInt& x, secure_vector& ws) const override { redc(x, ws); } void from_curve_rep(BigInt& x, secure_vector& ws) const override { redc(x, ws); } void curve_mul(BigInt& z, const BigInt& x, const BigInt& y, secure_vector& ws) const override; void curve_sqr(BigInt& z, const BigInt& x, secure_vector& ws) const override; private: virtual void redc(BigInt& x, secure_vector& ws) const = 0; // Curve parameters BigInt m_a, m_b; size_t m_p_words; // cache of m_p.sig_words() }; void CurveGFp_NIST::curve_mul(BigInt& z, const BigInt& x, const BigInt& y, secure_vector& ws) const { if(x.is_zero() || y.is_zero()) { z = 0; return; } const size_t p_words = get_p_words(); const size_t output_size = 2*p_words + 1; ws.resize(2*(p_words+2)); z.grow_to(output_size); z.clear(); bigint_mul(z, x, y, ws.data()); this->redc(z, ws); } void CurveGFp_NIST::curve_sqr(BigInt& z, const BigInt& x, secure_vector& ws) const { if(x.is_zero()) { z = 0; return; } const size_t p_words = get_p_words(); const size_t output_size = 2*p_words + 1; ws.resize(2*(p_words+2)); z.grow_to(output_size); z.clear(); bigint_sqr(z.mutable_data(), output_size, ws.data(), x.data(), x.size(), x.sig_words()); this->redc(z, ws); } #if defined(BOTAN_HAS_NIST_PRIME_REDUCERS_W32) /** * The NIST P-192 curve */ class CurveGFp_P192 final : public CurveGFp_NIST { public: CurveGFp_P192(const BigInt& a, const BigInt& b) : CurveGFp_NIST(192, a, b) {} const BigInt& get_p() const override { return prime_p192(); } private: void redc(BigInt& x, secure_vector& ws) const override { redc_p192(x, ws); } }; /** * The NIST P-224 curve */ class CurveGFp_P224 final : public CurveGFp_NIST { public: CurveGFp_P224(const BigInt& a, const BigInt& b) : CurveGFp_NIST(224, a, b) {} const BigInt& get_p() const override { return prime_p224(); } private: void redc(BigInt& x, secure_vector& ws) const override { redc_p224(x, ws); } }; /** * The NIST P-256 curve */ class CurveGFp_P256 final : public CurveGFp_NIST { public: CurveGFp_P256(const BigInt& a, const BigInt& b) : CurveGFp_NIST(256, a, b) {} const BigInt& get_p() const override { return prime_p256(); } private: void redc(BigInt& x, secure_vector& ws) const override { redc_p256(x, ws); } }; /** * The NIST P-384 curve */ class CurveGFp_P384 final : public CurveGFp_NIST { public: CurveGFp_P384(const BigInt& a, const BigInt& b) : CurveGFp_NIST(384, a, b) {} const BigInt& get_p() const override { return prime_p384(); } private: void redc(BigInt& x, secure_vector& ws) const override { redc_p384(x, ws); } }; #endif /** * The NIST P-521 curve */ class CurveGFp_P521 final : public CurveGFp_NIST { public: CurveGFp_P521(const BigInt& a, const BigInt& b) : CurveGFp_NIST(521, a, b) {} const BigInt& get_p() const override { return prime_p521(); } private: void redc(BigInt& x, secure_vector& ws) const override { redc_p521(x, ws); } }; } std::shared_ptr CurveGFp::choose_repr(const BigInt& p, const BigInt& a, const BigInt& b) { #if defined(BOTAN_HAS_NIST_PRIME_REDUCERS_W32) if(p == prime_p192()) return std::shared_ptr(new CurveGFp_P192(a, b)); if(p == prime_p224()) return std::shared_ptr(new CurveGFp_P224(a, b)); if(p == prime_p256()) return std::shared_ptr(new CurveGFp_P256(a, b)); if(p == prime_p384()) return std::shared_ptr(new CurveGFp_P384(a, b)); #endif if(p == prime_p521()) return std::shared_ptr(new CurveGFp_P521(a, b)); return std::shared_ptr(new CurveGFp_Montgomery(p, a, b)); } }