js-libp2p-noise/test/xx.test.ts

import { expect, assert } from "chai";
import { Buffer } from 'buffer';

import { XXHandshake } from "../src/xx";
import { KeyPair } from "../src/@types/libp2p";
import { generateEd25519Keys } from "./utils";
import {createHandshakePayload, generateKeypair, getHandshakePayload} from "../src/utils";

describe("Index", () => {
  const prologue = Buffer.from("/noise", "utf-8");

  it("Test creating new XX session", async () => {
    try {
      const xx = new XXHandshake();

      const kpInitiator: KeyPair = await generateKeypair();
      const kpResponder: KeyPair = await generateKeypair();

      const session = await xx.initSession(true, prologue, kpInitiator);
    } catch (e) {
      assert(false, e.message);
    }
  });

  it("Test get HKDF", async () => {
    const xx = new XXHandshake();
    const ckBytes = Buffer.from('4e6f6973655f58585f32353531395f58436861436861506f6c795f53484132353600000000000000000000000000000000000000000000000000000000000000', 'hex');
    const ikm = Buffer.from('a3eae50ea37a47e8a7aa0c7cd8e16528670536dcd538cebfd724fb68ce44f1910ad898860666227d4e8dd50d22a9a64d1c0a6f47ace092510161e9e442953da3', 'hex');
    const ck = Buffer.alloc(32);
    ckBytes.copy(ck);

    const [k1, k2, k3] = xx.getHkdf(ck, ikm);
    expect(k1.toString('hex')).to.equal('cc5659adff12714982f806e2477a8d5ddd071def4c29bb38777b7e37046f6914');
    expect(k2.toString('hex')).to.equal('a16ada915e551ab623f38be674bb4ef15d428ae9d80688899c9ef9b62ef208fa');
    expect(k3.toString('hex')).to.equal('ff67bf9727e31b06efc203907e6786667d2c7a74ac412b4d31a80ba3fd766f68');
  });

  async function doHandshake(xx) {
    const kpInit = await generateKeypair();
    const kpResp = await generateKeypair();

    // initiator setup
    const libp2pInitKeys = await generateEd25519Keys();
    const initSignedPayload = await libp2pInitKeys.sign(getHandshakePayload(kpInit.publicKey));

    // responder setup
    const libp2pRespKeys = await generateEd25519Keys();
    const respSignedPayload = await libp2pRespKeys.sign(getHandshakePayload(kpResp.publicKey));

    // initiator: new XX noise session
    const nsInit = xx.initSession(true, prologue, kpInit);
    // responder: new XX noise session
    const nsResp = xx.initSession(false, prologue, kpResp);

    /* STAGE 0 */

    // initiator creates payload
    const libp2pInitPrivKey = libp2pInitKeys.marshal().slice(0, 32);
    const libp2pInitPubKey = libp2pInitKeys.marshal().slice(32, 64);

    const payloadInitEnc = await createHandshakePayload(libp2pInitPubKey, libp2pInitPrivKey, initSignedPayload);

    // initiator sends message
    const message = Buffer.concat([Buffer.alloc(0), payloadInitEnc]);
    const messageBuffer = xx.sendMessage(nsInit, message);

    expect(messageBuffer.ne.length).not.equal(0);

    // responder receives message
    const plaintext = xx.recvMessage(nsResp, messageBuffer);
    console.log("Stage 0 responder payload: ", plaintext);

    /* STAGE 1 */

    // responder creates payload
    const libp2pRespPrivKey = libp2pRespKeys.marshal().slice(0, 32);
    const libp2pRespPubKey = libp2pRespKeys.marshal().slice(32, 64);
    const payloadRespEnc = await createHandshakePayload(libp2pRespPubKey, libp2pRespPrivKey, respSignedPayload);

    const message1 = Buffer.concat([message, payloadRespEnc]);
    const messageBuffer2 = xx.sendMessage(nsResp, message1);

    expect(messageBuffer2.ne.length).not.equal(0);
    expect(messageBuffer2.ns.length).not.equal(0);

    // initiator receive payload
    const plaintext2 = xx.recvMessage(nsInit, messageBuffer2);
    console.log("Stage 1 responder payload: ", plaintext2);

    /* STAGE 2 */

    // initiator send message
    const messageBuffer3 = xx.sendMessage(nsInit, Buffer.alloc(0));

    // responder receive message
    const plaintext3 = xx.recvMessage(nsResp, messageBuffer3);
    console.log("Stage 2 responder payload: ", plaintext3);

    assert(nsInit.cs1.k.equals(nsResp.cs1.k));
    assert(nsInit.cs2.k.equals(nsResp.cs2.k));

    return { nsInit, nsResp };
  }

  it("Test handshake", async () => {
    try {
      const xx = new XXHandshake();
      await doHandshake(xx);
    } catch (e) {
      assert(false, e.message);
    }
  });

  it("Test symmetric encrypt and decrypt", async () => {
    try {
      const xx = new XXHandshake();
      const { nsInit, nsResp } = await doHandshake(xx);
      const ad = Buffer.from("authenticated");
      const message = Buffer.from("HelloCrypto");

      xx.encryptWithAd(nsInit.cs1, ad, message);
      assert(!Buffer.from("HelloCrypto").equals(message), "Encrypted message should not be same as plaintext.");
      const decrypted = xx.decryptWithAd(nsResp.cs1, ad, message);

      assert(Buffer.from("HelloCrypto").equals(decrypted), "Decrypted text not equal to original message.");
    } catch (e) {
      assert(false, e.message);
    }
  });

  it("Test multiple messages encryption and decryption", async () => {
    try {
      const xx = new XXHandshake();
      const { nsInit, nsResp } = await doHandshake(xx);
      const ad = Buffer.from("authenticated");
      const message = Buffer.from("ethereum1");

      xx.encryptWithAd(nsInit.cs1, ad, message);
      const decrypted = xx.decryptWithAd(nsResp.cs1, ad, message);
      assert(Buffer.from("ethereum1").equals(decrypted), "Decrypted text not equal to original message.");

      const message2 = Buffer.from("ethereum2");
      xx.encryptWithAd(nsInit.cs1, ad, message2);
      const decrypted2 = xx.decryptWithAd(nsResp.cs1, ad, message2);
      assert(Buffer.from("ethereum2").equals(decrypted2), "Decrypted text not equal to original message.");
    } catch (e) {
      assert(false, e.message);
    }
  });
});