/* * Copyright (c) 2012-2020 MIRACL UK Ltd. * * This file is part of MIRACL Core * (see https://github.com/miracl/core). * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ECP2_BN462_H #define ECP2_BN462_H #include "fp2_BN462.h" #include "config_curve_BN462.h" using namespace core; namespace BN462 { extern const B464_60::BIG Fra; /**< real part of BN curve Frobenius Constant */ extern const B464_60::BIG Frb; /**< imaginary part of BN curve Frobenius Constant */ } namespace BN462 { /** @brief ECP2 Structure - Elliptic Curve Point over quadratic extension field */ typedef struct { // int inf; /**< Infinity Flag */ BN462::FP2 x; /**< x-coordinate of point */ BN462::FP2 y; /**< y-coordinate of point */ BN462::FP2 z; /**< z-coordinate of point */ } ECP2; /* Curve Params - see rom*.cpp */ extern const int CURVE_B_I; /**< Elliptic curve B parameter */ extern const B464_60::BIG CURVE_B; /**< Elliptic curve B parameter */ extern const B464_60::BIG CURVE_Order; /**< Elliptic curve group order */ extern const B464_60::BIG CURVE_Cof; /**< Elliptic curve cofactor */ extern const B464_60::BIG CURVE_Bnx; /**< Elliptic curve parameter */ extern const B464_60::BIG CURVE_HTPC; /**< Hash to Point precomputation */ /* Generator point on G1 */ extern const B464_60::BIG CURVE_Gx; /**< x-coordinate of generator point in group G1 */ extern const B464_60::BIG CURVE_Gy; /**< y-coordinate of generator point in group G1 */ /* For Pairings only */ /* Generator point on G2 */ extern const B464_60::BIG CURVE_Pxa; /**< real part of x-coordinate of generator point in group G2 */ extern const B464_60::BIG CURVE_Pxb; /**< imaginary part of x-coordinate of generator point in group G2 */ extern const B464_60::BIG CURVE_Pya; /**< real part of y-coordinate of generator point in group G2 */ extern const B464_60::BIG CURVE_Pyb; /**< imaginary part of y-coordinate of generator point in group G2 */ /* ECP2 E(Fp2) prototypes */ /** @brief Tests for ECP2 point equal to infinity * @param P ECP2 point to be tested @return 1 if infinity, else returns 0 */ extern int ECP2_isinf(ECP2 *P); /** @brief Copy ECP2 point to another ECP2 point * @param P ECP2 instance, on exit = Q @param Q ECP2 instance to be copied */ extern void ECP2_copy(ECP2 *P, ECP2 *Q); /** @brief Set ECP2 to point-at-infinity * @param P ECP2 instance to be set to infinity */ extern void ECP2_inf(ECP2 *P); /** @brief Tests for equality of two ECP2s * @param P ECP2 instance to be compared @param Q ECP2 instance to be compared @return 1 if P=Q, else returns 0 */ extern int ECP2_equals(ECP2 *P, ECP2 *Q); /** @brief Converts an ECP2 point from Projective (x,y,z) coordinates to affine (x,y) coordinates * @param P ECP2 instance to be converted to affine form */ extern void ECP2_affine(ECP2 *P); /** @brief Extract x and y coordinates of an ECP2 point P * If x=y, returns only x @param x FP2 on exit = x coordinate of point @param y FP2 on exit = y coordinate of point (unless x=y) @param P ECP2 instance (x,y) @return -1 if P is point-at-infinity, else 0 */ extern int ECP2_get(BN462::FP2 *x, BN462::FP2 *y, ECP2 *P); /** @brief Formats and outputs an ECP2 point to the console, converted to affine coordinates * @param P ECP2 instance to be printed */ extern void ECP2_output(ECP2 *P); /** @brief Formats and outputs an ECP2 point to the console, in projective coordinates * @param P ECP2 instance to be printed */ extern void ECP2_outputxyz(ECP2 *P); /** @brief Formats and outputs an ECP2 point to an octet string * The octet string is created in the form x|y or just x if compressed Convert the real and imaginary parts of the x and y coordinates to big-endian base 256 form. If c is true, only the x coordinate is provided as in 0x2|x if y is even, or 0x3|x if y is odd @param S output octet string @param P ECP2 instance to be converted to an octet string @param c true for compression */ extern void ECP2_toOctet(octet *S, ECP2 *P, bool c); /** @brief Creates an ECP2 point from an octet string * The octet string is in the form x|y The real and imaginary parts of the x and y coordinates are in big-endian base 256 form. If in compressed form only the x coordinate is provided as in 0x2|x if y is even, or 0x3|x if y is odd @param P ECP2 instance to be created from the octet string @param S input octet string return 1 if octet string corresponds to a point on the curve, else 0 */ extern int ECP2_fromOctet(ECP2 *P, octet *S); /** @brief Calculate Right Hand Side of curve equation y^2=f(x) * Function f(x)=x^3+Ax+B Used internally. @param r FP2 value of f(x) @param x FP2 instance */ extern void ECP2_rhs(BN462::FP2 *r, BN462::FP2 *x); /** @brief Set ECP2 to point(x,y) given x and y * Point P set to infinity if no such point on the curve. @param P ECP2 instance to be set (x,y) @param x FP2 x coordinate of point @param y FP2 y coordinate of point @return 1 if point exists, else 0 */ extern int ECP2_set(ECP2 *P, BN462::FP2 *x, BN462::FP2 *y); /** @brief Set ECP to point(x,[y]) given x * Point P set to infinity if no such point on the curve. Otherwise y coordinate is calculated from x. @param P ECP instance to be set (x,[y]) @param x BIG x coordinate of point @param s sign of y @return 1 if point exists, else 0 */ extern int ECP2_setx(ECP2 *P, BN462::FP2 *x, int s); /** @brief Negation of an ECP2 point * @param P ECP2 instance, on exit = -P */ extern void ECP2_neg(ECP2 *P); /** @brief Doubles an ECP2 instance P * @param P ECP2 instance, on exit =2*P */ extern int ECP2_dbl(ECP2 *P); /** @brief Adds ECP2 instance Q to ECP2 instance P * @param P ECP2 instance, on exit =P+Q @param Q ECP2 instance to be added to P */ extern int ECP2_add(ECP2 *P, ECP2 *Q); /** @brief Subtracts ECP instance Q from ECP2 instance P * @param P ECP2 instance, on exit =P-Q @param Q ECP2 instance to be subtracted from P */ extern void ECP2_sub(ECP2 *P, ECP2 *Q); /** @brief Multiplies an ECP2 instance P by a BIG, side-channel resistant * Uses fixed sized windows. @param P ECP2 instance, on exit =b*P @param b BIG number multiplier */ extern void ECP2_mul(ECP2 *P, B464_60::BIG b); /** @brief Multiplies an ECP2 instance P by the internal modulus p, using precalculated Frobenius constant f * Fast point multiplication using Frobenius @param P ECP2 instance, on exit = p*P @param f FP2 precalculated Frobenius constant */ extern void ECP2_frob(ECP2 *P, BN462::FP2 *f); /** @brief Calculates P=b[0]*Q[0]+b[1]*Q[1]+b[2]*Q[2]+b[3]*Q[3] * @param P ECP2 instance, on exit = b[0]*Q[0]+b[1]*Q[1]+b[2]*Q[2]+b[3]*Q[3] @param Q ECP2 array of 4 points @param b BIG array of 4 multipliers */ extern void ECP2_mul4(ECP2 *P, ECP2 *Q, B464_60::BIG *b); /** @brief Multiplies random point by co-factor * @param Q ECP2 multiplied by co-factor */ extern void ECP2_cfp(ECP2 *Q); /** @brief Maps random FP2 to curve point in constant time * @param Q ECP2 instance @param x FP2 derived from hash */ extern void ECP2_map2point(ECP2 *Q, BN462::FP2 *x); /** @brief Maps random BIG to curve point using hunt-and-peck * @param Q ECP2 instance @param x Fp derived from hash */ extern void ECP2_hap2point(ECP2 *Q, B464_60::BIG x); /** @brief Maps random octet to curve point of correct order * @param P ECP2 instance of correct order @param W OCTET byte array to be mapped */ extern void ECP2_mapit(ECP2 *P, octet *w); /** @brief Get Group Generator from ROM * @param G ECP2 instance @return 1 if point exists, else 0 */ extern int ECP2_generator(ECP2 *G); } #endif