circomlib/test/pedersen.js

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const chai = require("chai");
const path = require("path");
const snarkjs = require("@tornado/snarkjs");
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const compiler = require("circom");
const assert = chai.assert;
const bigInt = snarkjs.bigInt;
const babyJub = require("../src/babyjub.js");
const PBASE = [
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[
bigInt("10457101036533406547632367118273992217979173478358440826365724437999023779287"),
bigInt("19824078218392094440610104313265183977899662750282163392862422243483260492317"),
],
[
bigInt("2671756056509184035029146175565761955751135805354291559563293617232983272177"),
bigInt("2663205510731142763556352975002641716101654201788071096152948830924149045094"),
],
[
bigInt("5802099305472655231388284418920769829666717045250560929368476121199858275951"),
bigInt("5980429700218124965372158798884772646841287887664001482443826541541529227896"),
],
[
bigInt("7107336197374528537877327281242680114152313102022415488494307685842428166594"),
bigInt("2857869773864086953506483169737724679646433914307247183624878062391496185654"),
],
[
bigInt("20265828622013100949498132415626198973119240347465898028410217039057588424236"),
bigInt("1160461593266035632937973507065134938065359936056410650153315956301179689506"),
],
];
describe("Double Pedersen test", function () {
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let circuit;
this.timeout(100000);
before(async () => {
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const cirDef = await compiler(path.join(__dirname, "circuits", "pedersen_test.circom"));
circuit = new snarkjs.Circuit(cirDef);
console.log("NConstrains: " + circuit.nConstraints);
});
it("Should pedersen at zero", async () => {
let w, xout, yout;
w = circuit.calculateWitness({ in: ["0", "0"] });
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xout = w[circuit.getSignalIdx("main.out[0]")];
yout = w[circuit.getSignalIdx("main.out[1]")];
assert(xout.equals("0"));
assert(yout.equals("1"));
});
it("Should pedersen at one first generator", async () => {
let w, xout, yout;
w = circuit.calculateWitness({ in: ["1", "0"] });
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xout = bigInt(w[circuit.getSignalIdx("main.out[0]")]);
yout = bigInt(w[circuit.getSignalIdx("main.out[1]")]);
assert(xout.equals(PBASE[0][0]));
assert(yout.equals(PBASE[0][1]));
});
it("Should pedersen at one second generator", async () => {
let w, xout, yout;
w = circuit.calculateWitness({ in: ["0", "1"] });
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xout = w[circuit.getSignalIdx("main.out[0]")];
yout = w[circuit.getSignalIdx("main.out[1]")];
assert(xout.equals(PBASE[1][0]));
assert(yout.equals(PBASE[1][1]));
});
it("Should pedersen at mixed generators", async () => {
let w, xout, yout;
w = circuit.calculateWitness({ in: ["3", "7"] });
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xout = w[circuit.getSignalIdx("main.out[0]")];
yout = w[circuit.getSignalIdx("main.out[1]")];
const r = babyJub.addPoint(babyJub.mulPointEscalar(PBASE[0], 3), babyJub.mulPointEscalar(PBASE[1], 7));
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assert(xout.equals(r[0]));
assert(yout.equals(r[1]));
});
it("Should pedersen all ones", async () => {
let w, xout, yout;
const allOnes = bigInt("1").shl(250).sub(bigInt("1"));
w = circuit.calculateWitness({ in: [allOnes, allOnes] });
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xout = w[circuit.getSignalIdx("main.out[0]")];
yout = w[circuit.getSignalIdx("main.out[1]")];
const r2 = babyJub.addPoint(babyJub.mulPointEscalar(PBASE[0], allOnes), babyJub.mulPointEscalar(PBASE[1], allOnes));
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assert(xout.equals(r2[0]));
assert(yout.equals(r2[1]));
});
});