const chai = require("chai"); const path = require("path"); const snarkjs = require("snarkjs"); const compiler = require("circom"); const eddsa = require("../src/eddsa.js"); const assert = chai.assert; const bigInt = snarkjs.bigInt; describe("EdDSA MiMCSponge test", function () { let circuit; this.timeout(100000); before( async () => { const cirDef = await compiler(path.join(__dirname, "circuits", "eddsamimcsponge_test.circom")); circuit = new snarkjs.Circuit(cirDef); console.log("NConstrains EdDSA MiMCSponge: " + circuit.nConstraints); }); it("Sign a single number", async () => { const msg = bigInt(1234); const prvKey = Buffer.from("0001020304050607080900010203040506070809000102030405060708090001", "hex"); const pubKey = eddsa.prv2pub(prvKey); const signature = eddsa.signMiMCSponge(prvKey, msg); assert(eddsa.verifyMiMCSponge(msg, signature, pubKey)); const w = circuit.calculateWitness({ enabled: 1, Ax: pubKey[0], Ay: pubKey[1], R8x: signature.R8[0], R8y: signature.R8[1], S: signature.S, M: msg}); assert(circuit.checkWitness(w)); }); it("Detect Invalid signature", async () => { const msg = bigInt(1234); const prvKey = Buffer.from("0001020304050607080900010203040506070809000102030405060708090001", "hex"); const pubKey = eddsa.prv2pub(prvKey); const signature = eddsa.signMiMCSponge(prvKey, msg); assert(eddsa.verifyMiMCSponge(msg, signature, pubKey)); try { const w = circuit.calculateWitness({ enabled: 1, Ax: pubKey[0], Ay: pubKey[1], R8x: signature.R8[0].add(bigInt(1)), R8y: signature.R8[1], S: signature.S, M: msg}); assert(false); } catch(err) { assert(err.message.indexOf("Constraint doesn't match") >= 0); assert(err.message.indexOf("1 != 0") >= 0); } }); it("Test a dissabled circuit with a bad signature", async () => { const msg = bigInt(1234); const prvKey = Buffer.from("0001020304050607080900010203040506070809000102030405060708090001", "hex"); const pubKey = eddsa.prv2pub(prvKey); const signature = eddsa.signMiMCSponge(prvKey, msg); assert(eddsa.verifyMiMCSponge(msg, signature, pubKey)); const w = circuit.calculateWitness({ enabled: 0, Ax: pubKey[0], Ay: pubKey[1], R8x: signature.R8[0].add(bigInt(1)), R8y: signature.R8[1], S: signature.S, M: msg}); assert(circuit.checkWitness(w)); }); });