snarkjs/test/algebra.js

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/*
Copyright 2018 0kims association
This file is part of zksnark javascript library.
zksnark javascript library is 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.
zksnark javascript library 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 zksnark javascript library. If not, see <https://www.gnu.org/licenses/>.
*/
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const chai = require("chai");
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const bigInt = require("../src/bigint.js");
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const BN128 = require("../src/bn128.js");
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const F1Field = require("../src/zqfield.js");
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const assert = chai.assert;
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describe("F1 testing", () => {
it("Should compute euclidean", () => {
const F = new F1Field(bigInt(7));
const res = F.inverse(bigInt(4));
assert(F.equals(res, bigInt(2)));
});
it("Should multiply and divide in F1", () => {
const bn128 = new BN128();
const a = bigInt("1");
const b = bn128.F1.affine(bigInt("-3"));
const c = bn128.F1.mul(a,b);
const d = bn128.F1.div(c,b);
assert(bn128.F1.equals(a, d));
});
});
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describe("Curve G1 Test", () => {
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it("r*one == 0", () => {
const bn128 = new BN128();
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const res = bn128.G1.mulScalar(bn128.G1.g, bn128.r);
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assert(bn128.G1.equals(res, bn128.G1.zero), "G1 does not have range r");
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});
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it("Should add match in various in G1", () => {
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const bn128 = new BN128();
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const r1 = bigInt(33);
const r2 = bigInt(44);
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const gr1 = bn128.G1.mulScalar(bn128.G1.g, r1);
const gr2 = bn128.G1.mulScalar(bn128.G1.g, r2);
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const grsum1 = bn128.G1.add(gr1, gr2);
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const grsum2 = bn128.G1.mulScalar(bn128.G1.g, r1.add(r2));
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assert(bn128.G1.equals(grsum1, grsum2));
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});
});
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describe("Curve G2 Test", () => {
it ("r*one == 0", () => {
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const bn128 = new BN128();
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const res = bn128.G2.mulScalar(bn128.G2.g, bn128.r);
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assert(bn128.G2.equals(res, bn128.G2.zero), "G2 does not have range r");
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});
it("Should add match in various in G2", () => {
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const bn128 = new BN128();
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const r1 = bigInt(33);
const r2 = bigInt(44);
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const gr1 = bn128.G2.mulScalar(bn128.G2.g, r1);
const gr2 = bn128.G2.mulScalar(bn128.G2.g, r2);
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const grsum1 = bn128.G2.add(gr1, gr2);
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const grsum2 = bn128.G2.mulScalar(bn128.G2.g, r1.add(r2));
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/*
console.log(G2.toString(grsum1));
console.log(G2.toString(grsum2));
*/
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assert(bn128.G2.equals(grsum1, grsum2));
});
});
describe("F6 testing", () => {
it("Should multiply and divide in F6", () => {
const bn128 = new BN128();
const a =
[
[bigInt("1"), bigInt("2")],
[bigInt("3"), bigInt("4")],
[bigInt("5"), bigInt("6")]
];
const b =
[
[bigInt("12"), bigInt("11")],
[bigInt("10"), bigInt("9")],
[bigInt("8"), bigInt("7")]
];
const c = bn128.F6.mul(a,b);
const d = bn128.F6.div(c,b);
assert(bn128.F6.equals(a, d));
});
});
describe("F12 testing", () => {
it("Should multiply and divide in F12", () => {
const bn128 = new BN128();
const a =
[
[
[bigInt("1"), bigInt("2")],
[bigInt("3"), bigInt("4")],
[bigInt("5"), bigInt("6")]
],
[
[bigInt("7"), bigInt("8")],
[bigInt("9"), bigInt("10")],
[bigInt("11"), bigInt("12")]
]
];
const b =
[
[
[bigInt("12"), bigInt("11")],
[bigInt("10"), bigInt("9")],
[bigInt("8"), bigInt("7")]
],
[
[bigInt("6"), bigInt("5")],
[bigInt("4"), bigInt("3")],
[bigInt("2"), bigInt("1")]
]
];
const c = bn128.F12.mul(a,b);
const d = bn128.F12.div(c,b);
assert(bn128.F12.equals(a, d));
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});
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});
describe("Pairing", () => {
it("Should match pairing", () => {
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for (let i=0; i<1; i++) {
const bn128 = new BN128();
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const g1a = bn128.G1.mulScalar(bn128.G1.g, 25);
const g2a = bn128.G2.mulScalar(bn128.G2.g, 30);
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const g1b = bn128.G1.mulScalar(bn128.G1.g, 30);
const g2b = bn128.G2.mulScalar(bn128.G2.g, 25);
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const pre1a = bn128.precomputeG1(g1a);
const pre2a = bn128.precomputeG2(g2a);
const pre1b = bn128.precomputeG1(g1b);
const pre2b = bn128.precomputeG2(g2b);
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const r1 = bn128.millerLoop(pre1a, pre2a);
const r2 = bn128.millerLoop(pre1b, pre2b);
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const rbe = bn128.F12.mul(r1, bn128.F12.inverse(r2));
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const res = bn128.finalExponentiation(rbe);
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assert(bn128.F12.equals(res, bn128.F12.one));
}
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}).timeout(10000);
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});