/* * 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 PAIR_BLS12443_H #define PAIR_BLS12443_H #include "fp12_BLS12443.h" #include "ecp2_BLS12443.h" #include "ecp_BLS12443.h" using namespace core; namespace BLS12443 { /* Pairing constants */ extern const B448_29::BIG CURVE_Bnx; /**< BN curve x parameter */ extern const B448_29::BIG CURVE_Cru; /**< BN curve Cube Root of Unity */ extern const B448_29::BIG CURVE_W[2]; /**< BN curve constant for GLV decomposition */ extern const B448_29::BIG CURVE_SB[2][2]; /**< BN curve constant for GLV decomposition */ extern const B448_29::BIG CURVE_WB[4]; /**< BN curve constant for GS decomposition */ extern const B448_29::BIG CURVE_BB[4][4]; /**< BN curve constant for GS decomposition */ /* Pairing function prototypes */ /** @brief Precompute line functions details for fixed G2 value * @param T array of precomputed FP4 partial line functions @param GV a fixed ECP2 instance */ extern void PAIR_precomp(BLS12443::FP4 T[], ECP2* GV); /** @brief Compute line functions for n-pairing * @param r array of precomputed FP12 products of line functions @param PV ECP2 instance, an element of G2 @param QV ECP instance, an element of G1 */ extern void PAIR_another(BLS12443::FP12 r[], ECP2* PV, ECP* QV); /** @brief Compute line functions for n-pairing, assuming precomputation on G2 * @param r array of precomputed FP12 products of line functions @param T array contains precomputed partial line fucntions from G2 @param QV ECP instance, an element of G1 */ extern void PAIR_another_pc(BLS12443::FP12 r[], BLS12443::FP4 T[], ECP *QV); /** @brief Calculate Miller loop for Optimal ATE pairing e(P,Q) * @param r FP12 result of the pairing calculation e(P,Q) @param P ECP2 instance, an element of G2 @param Q ECP instance, an element of G1 */ extern void PAIR_ate(BLS12443::FP12 *r, ECP2 *P, ECP *Q); /** @brief Calculate Miller loop for Optimal ATE double-pairing e(P,Q).e(R,S) * Faster than calculating two separate pairings @param r FP12 result of the pairing calculation e(P,Q).e(R,S), an element of GT @param P ECP2 instance, an element of G2 @param Q ECP instance, an element of G1 @param R ECP2 instance, an element of G2 @param S ECP instance, an element of G1 */ extern void PAIR_double_ate(BLS12443::FP12 *r, ECP2 *P, ECP *Q, ECP2 *R, ECP *S); /** @brief Final exponentiation of pairing, converts output of Miller loop to element in GT * Here p is the internal modulus, and r is the group order @param x FP12, on exit = x^((p^12-1)/r) */ extern void PAIR_fexp(BLS12443::FP12 *x); /** @brief Fast point multiplication of a member of the group G1 by a BIG number * May exploit endomorphism for speed. @param Q ECP member of G1. @param b BIG multiplier */ extern void PAIR_G1mul(ECP *Q, B448_29::BIG b); /** @brief Fast point multiplication of a member of the group G2 by a BIG number * May exploit endomorphism for speed. @param P ECP member of G1. @param b BIG multiplier */ extern void PAIR_G2mul(ECP2 *P, B448_29::BIG b); /** @brief Fast raising of a member of GT to a BIG power * May exploit endomorphism for speed. @param x FP12 member of GT. @param b BIG exponent */ extern void PAIR_GTpow(BLS12443::FP12 *x, B448_29::BIG b); /** @brief Tests ECP for membership of G1 * @param P ECP member of G1 @return true or false */ extern int PAIR_G1member(BLS12443::ECP *P); /** @brief Tests ECP2 for membership of G2 * @param P ECP2 member of G2 @return true or false */ extern int PAIR_G2member(BLS12443::ECP2 *P); /** @brief Tests FP12 for membership of cyclotomic sub-group * @param x FP12 instance @return true or false */ extern int PAIR_GTcyclotomic(BLS12443::FP12 *x); /** @brief Tests FP12 for membership of GT * @param x FP12 instance @return true or false */ extern int PAIR_GTmember(BLS12443::FP12 *x); /** @brief Prepare Ate parameter * @param n BIG parameter @param n3 BIG paramter = 3*n @return number of nits in n3 */ extern int PAIR_nbits(B448_29::BIG n3, B448_29::BIG n); /** @brief Initialise structure for multi-pairing * @param r FP12 array, to be initialised to 1 */ extern void PAIR_initmp(BLS12443::FP12 r[]); /** @brief Miller loop * @param res FP12 result @param r FP12 precomputed array of accumulated line functions */ extern void PAIR_miller(BLS12443::FP12 *res, BLS12443::FP12 r[]); } #endif