const chai = require("chai"); const path = require("path"); const tester = require("circom").tester; const Fr = require("ffjavascript").bn128.Fr; const eddsa = require("../src/eddsa.js"); const babyJub = require("../src/babyjub.js"); const assert = chai.assert; function print(circuit, w, s) { console.log(s + ": " + w[circuit.getSignalIdx(s)]); } function buffer2bits(buff) { const res = []; for (let i=0; i>j)&1) { res.push(Fr.one); } else { res.push(Fr.zero); } } } return res; } describe("EdDSA test", function () { let circuit; this.timeout(100000); before( async () => { circuit = await tester(path.join(__dirname, "circuits", "eddsa_test.circom")); }); it("Sign a single 10 bytes from 0 to 9", async () => { const msg = Buffer.from("00010203040506070809", "hex"); // const prvKey = crypto.randomBytes(32); const prvKey = Buffer.from("0001020304050607080900010203040506070809000102030405060708090001", "hex"); const pubKey = eddsa.prv2pub(prvKey); const pPubKey = babyJub.packPoint(pubKey); const signature = eddsa.sign(prvKey, msg); const pSignature = eddsa.packSignature(signature); const uSignature = eddsa.unpackSignature(pSignature); assert(eddsa.verify(msg, uSignature, pubKey)); const msgBits = buffer2bits(msg); const r8Bits = buffer2bits(pSignature.slice(0, 32)); const sBits = buffer2bits(pSignature.slice(32, 64)); const aBits = buffer2bits(pPubKey); const w = await circuit.calculateWitness({A: aBits, R8: r8Bits, S: sBits, msg: msgBits}, true); await circuit.checkConstraints(w); }); });