/* Copyright 2018 0kims association. This file is part of snarkjs. snarkjs is a free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. snarkjs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with snarkjs. If not, see . */ /* Implementation of this paper: https://eprint.iacr.org/2016/260.pdf */ const BN128 = require("./bn128.js"); const PolField = require("./polfield.js"); const ZqField = require("./zqfield.js"); const bn128 = new BN128(); const PolF = new PolField(new ZqField(bn128.r)); const G1 = bn128.G1; const G2 = bn128.G2; module.exports = function genProof(vk_proof, witness) { const proof = {}; const r = PolF.F.random(); const s = PolF.F.random(); /* Uncomment to generate a deterministic proof to debug const r = PolF.F.zero; const s = PolF.F.zero; */ proof.pi_a = G1.zero; proof.pi_b = G2.zero; proof.pi_c = G1.zero; let pib1 = G1.zero; // Skip public entries and the "1" signal that are forced by the verifier for (let s= 0; s< vk_proof.nVars; s++) { // pi_a = pi_a + A[s] * witness[s]; proof.pi_a = G1.add( proof.pi_a, G1.mulScalar( vk_proof.A[s], witness[s])); // pi_b = pi_b + B[s] * witness[s]; proof.pi_b = G2.add( proof.pi_b, G2.mulScalar( vk_proof.B2[s], witness[s])); pib1 = G1.add( pib1, G1.mulScalar( vk_proof.B1[s], witness[s])); } for (let s= vk_proof.nPublic+1; s< vk_proof.nVars; s++) { // pi_a = pi_a + A[s] * witness[s]; proof.pi_c = G1.add( proof.pi_c, G1.mulScalar( vk_proof.C[s], witness[s])); } proof.pi_a = G1.add( proof.pi_a, vk_proof.vk_alfa_1 ); proof.pi_a = G1.add( proof.pi_a, G1.mulScalar( vk_proof.vk_delta_1, r )); proof.pi_b = G2.add( proof.pi_b, vk_proof.vk_beta_2 ); proof.pi_b = G2.add( proof.pi_b, G2.mulScalar( vk_proof.vk_delta_2, s )); pib1 = G1.add( pib1, vk_proof.vk_beta_1 ); pib1 = G1.add( pib1, G1.mulScalar( vk_proof.vk_delta_1, s )); const h = calculateH(vk_proof, witness); // proof.pi_c = G1.affine(proof.pi_c); // console.log("pi_onlyc", proof.pi_c); for (let i = 0; i < h.length; i++) { // console.log(i + "->" + h[i].toString()); proof.pi_c = G1.add( proof.pi_c, G1.mulScalar( vk_proof.hExps[i], h[i])); } // proof.pi_c = G1.affine(proof.pi_c); // console.log("pi_candh", proof.pi_c); proof.pi_c = G1.add( proof.pi_c, G1.mulScalar( proof.pi_a, s )); proof.pi_c = G1.add( proof.pi_c, G1.mulScalar( pib1, r )); proof.pi_c = G1.add( proof.pi_c, G1.mulScalar( vk_proof.vk_delta_1, PolF.F.affine(PolF.F.neg(PolF.F.mul(r,s) )))); const publicSignals = witness.slice(1, vk_proof.nPublic+1); proof.pi_a = G1.affine(proof.pi_a); proof.pi_b = G2.affine(proof.pi_b); proof.pi_c = G1.affine(proof.pi_c); proof.protocol = "groth"; return {proof, publicSignals}; }; function calculateH(vk_proof, witness) { const F = PolF.F; const m = vk_proof.domainSize; const polA_T = new Array(m).fill(PolF.F.zero); const polB_T = new Array(m).fill(PolF.F.zero); const polC_T = new Array(m).fill(PolF.F.zero); for (let s=0; s