/* * Ed25519 field element * (C) 2017 Ribose Inc * * Based on the public domain code from SUPERCOP ref10 by * Peter Schwabe, Daniel J. Bernstein, Niels Duif, Tanja Lange, Bo-Yin Yang * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_ED25519_FE_H__ #define BOTAN_ED25519_FE_H__ #include namespace Botan { /** * An element of the field \Z/(2^255-19) */ class FE_25519 { public: ~FE_25519() { secure_scrub_memory(m_fe, sizeof(m_fe)); } /** * Zero element */ FE_25519(int init = 0) { if(init != 0 && init != 1) { throw std::invalid_argument("Invalid FE_25519 initial value"); } memset(m_fe, 0, 10 * sizeof(int32_t)); m_fe[0] = init; } FE_25519(std::initializer_list x) { if(x.size() != 10) { throw std::invalid_argument("Invalid FE_25519 initializer list"); } memcpy(m_fe, x.begin(), 10 * sizeof(int32_t)); } FE_25519(int64_t h0, int64_t h1, int64_t h2, int64_t h3, int64_t h4, int64_t h5, int64_t h6, int64_t h7, int64_t h8, int64_t h9) { m_fe[0] = static_cast(h0); m_fe[1] = static_cast(h1); m_fe[2] = static_cast(h2); m_fe[3] = static_cast(h3); m_fe[4] = static_cast(h4); m_fe[5] = static_cast(h5); m_fe[6] = static_cast(h6); m_fe[7] = static_cast(h7); m_fe[8] = static_cast(h8); m_fe[9] = static_cast(h9); } FE_25519(const FE_25519& other) = default; FE_25519& operator=(const FE_25519& other) = default; #if !defined(BOTAN_BUILD_COMPILER_IS_MSVC_2013) FE_25519(FE_25519&& other) = default; FE_25519& operator=(FE_25519&& other) = default; #endif void from_bytes(const uint8_t b[32]); void to_bytes(uint8_t b[32]) const; bool is_zero() const { uint8_t s[32]; to_bytes(s); uint8_t sum = 0; for(size_t i = 0; i != 32; ++i) { sum |= s[i]; } // TODO avoid ternary here return (sum == 0) ? 1 : 0; } /* return 1 if f is in {1,3,5,...,q-2} return 0 if f is in {0,2,4,...,q-1} */ bool is_negative() const { // TODO could avoid most of the to_bytes computation here uint8_t s[32]; to_bytes(s); return s[0] & 1; } static FE_25519 add(const FE_25519& a, const FE_25519& b) { FE_25519 z; for(size_t i = 0; i != 10; ++i) { z[i] = a[i] + b[i]; } return z; } static FE_25519 sub(const FE_25519& a, const FE_25519& b) { FE_25519 z; for(size_t i = 0; i != 10; ++i) { z[i] = a[i] - b[i]; } return z; } static FE_25519 negate(const FE_25519& a) { FE_25519 z; for(size_t i = 0; i != 10; ++i) { z[i] = -a[i]; } return z; } static FE_25519 mul(const FE_25519& a, const FE_25519& b); static FE_25519 sqr_iter(const FE_25519& a, size_t iter); static FE_25519 sqr(const FE_25519& a) { return sqr_iter(a, 1); } static FE_25519 sqr2(const FE_25519& a); static FE_25519 pow_22523(const FE_25519& a); static FE_25519 invert(const FE_25519& a); // TODO remove int32_t operator[](size_t i) const { return m_fe[i]; } int32_t& operator[](size_t i) { return m_fe[i]; } private: int32_t m_fe[10]; }; typedef FE_25519 fe; /* fe means field element. Here the field is An element t, entries t[0]...t[9], represents the integer t[0]+2^26 t[1]+2^51 t[2]+2^77 t[3]+2^102 t[4]+...+2^230 t[9]. Bounds on each t[i] vary depending on context. */ inline void fe_frombytes(fe& x, const uint8_t* b) { x.from_bytes(b); } inline void fe_tobytes(uint8_t* b, const fe& x) { x.to_bytes(b); } inline void fe_copy(fe& a, const fe& b) { a = b; } inline int fe_isnonzero(const fe& x) { return x.is_zero() ? 0 : 1; } inline int fe_isnegative(const fe& x) { return x.is_negative(); } inline void fe_0(fe& x) { x = FE_25519(); } inline void fe_1(fe& x) { x = FE_25519(1); } inline void fe_add(fe& x, const fe& a, const fe& b) { x = FE_25519::add(a, b); } inline void fe_sub(fe& x, const fe& a, const fe& b) { x = FE_25519::sub(a, b); } inline void fe_neg(fe& x, const fe& z) { x = FE_25519::negate(z); } inline void fe_mul(fe& x, const fe& a, const fe& b) { x = FE_25519::mul(a, b); } inline void fe_sq(fe& x, const fe& z) { x = FE_25519::sqr(z); } inline void fe_sq_iter(fe& x, const fe& z, size_t iter) { x = FE_25519::sqr_iter(z, iter); } inline void fe_sq2(fe& x, const fe& z) { x = FE_25519::sqr2(z); } inline void fe_invert(fe& x, const fe& z) { x = FE_25519::invert(z); } inline void fe_pow22523(fe& x, const fe& y) { x = FE_25519::pow_22523(y); } } #endif