ciphermask/app/scripts/controllers/detect-tokens.test.js

import { strict as assert } from 'assert';
import sinon from 'sinon';
import nock from 'nock';
import { ObservableStore } from '@metamask/obs-store';
import BigNumber from 'bignumber.js';
import {
  ControllerMessenger,
  TokenListController,
  TokensController,
} from '@metamask/controllers';
import { MAINNET, ROPSTEN } from '../../../shared/constants/network';
import { toChecksumHexAddress } from '../../../shared/modules/hexstring-utils';
import DetectTokensController from './detect-tokens';
import NetworkController from './network';
import PreferencesController from './preferences';

describe('DetectTokensController', function () {
  let tokenListController;
  const sandbox = sinon.createSandbox();
  let keyringMemStore, network, preferences, provider, tokensController;

  const noop = () => undefined;

  const networkControllerProviderConfig = {
    getAccounts: noop,
  };

  beforeEach(async function () {
    keyringMemStore = new ObservableStore({ isUnlocked: false });
    network = new NetworkController();
    network.setInfuraProjectId('foo');
    network.initializeProvider(networkControllerProviderConfig);
    provider = network.getProviderAndBlockTracker().provider;
    preferences = new PreferencesController({ network, provider });
    tokensController = new TokensController({
      onPreferencesStateChange: preferences.store.subscribe.bind(
        preferences.store,
      ),
      onNetworkStateChange: network.store.subscribe.bind(network.store),
    });
    preferences.setAddresses([
      '0x7e57e2',
      '0xbc86727e770de68b1060c91f6bb6945c73e10388',
    ]);
    preferences.setUseTokenDetection(true);
    sandbox
      .stub(network, 'getLatestBlock')
      .callsFake(() => Promise.resolve({}));
    sandbox
      .stub(tokensController, '_instantiateNewEthersProvider')
      .returns(null);
    sandbox
      .stub(tokensController, '_detectIsERC721')
      .returns(Promise.resolve(false));
    nock('https://token-api.metaswap.codefi.network')
      .get(`/tokens/1`)
      .reply(200, [
        {
          address: '0xc011a73ee8576fb46f5e1c5751ca3b9fe0af2a6f',
          symbol: 'SNX',
          decimals: 18,
          occurrences: 11,
          aggregators: [
            'paraswap',
            'pmm',
            'airswapLight',
            'zeroEx',
            'bancor',
            'coinGecko',
            'zapper',
            'kleros',
            'zerion',
            'cmc',
            'oneInch',
          ],
          name: 'Synthetix',
          iconUrl: 'https://airswap-token-images.s3.amazonaws.com/SNX.png',
        },
        {
          address: '0x514910771af9ca656af840dff83e8264ecf986ca',
          symbol: 'LINK',
          decimals: 18,
          occurrences: 11,
          aggregators: [
            'paraswap',
            'pmm',
            'airswapLight',
            'zeroEx',
            'bancor',
            'coinGecko',
            'zapper',
            'kleros',
            'zerion',
            'cmc',
            'oneInch',
          ],
          name: 'Chainlink',
          iconUrl: 'https://s3.amazonaws.com/airswap-token-images/LINK.png',
        },
        {
          address: '0x1f573d6fb3f13d689ff844b4ce37794d79a7ff1c',
          symbol: 'BNT',
          decimals: 18,
          occurrences: 11,
          aggregators: [
            'paraswap',
            'pmm',
            'airswapLight',
            'zeroEx',
            'bancor',
            'coinGecko',
            'zapper',
            'kleros',
            'zerion',
            'cmc',
            'oneInch',
          ],
          name: 'Bancor',
          iconUrl: 'https://s3.amazonaws.com/airswap-token-images/BNT.png',
        },
      ])
      .get(`/tokens/3`)
      .reply(200, { error: 'ChainId 3 is not supported' })
      .persist();
    const tokenListMessenger = new ControllerMessenger().getRestricted({
      name: 'TokenListController',
    });
    tokenListController = new TokenListController({
      chainId: '1',
      useStaticTokenList: false,
      onNetworkStateChange: sinon.spy(),
      onPreferencesStateChange: sinon.spy(),
      messenger: tokenListMessenger,
    });
    await tokenListController.start();
  });

  after(function () {
    sandbox.restore();
  });

  it('should poll on correct interval', async function () {
    const stub = sinon.stub(global, 'setInterval');
    new DetectTokensController({ interval: 1337 }); // eslint-disable-line no-new
    assert.strictEqual(stub.getCall(0).args[1], 1337);
    stub.restore();
  });

  it('should be called on every polling period', async function () {
    const clock = sandbox.useFakeTimers();
    network.setProviderType(MAINNET);
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;

    const stub = sandbox.stub(controller, 'detectNewTokens');

    clock.tick(1);
    sandbox.assert.notCalled(stub);
    clock.tick(180000);
    sandbox.assert.called(stub);
    clock.tick(180000);
    sandbox.assert.calledTwice(stub);
    clock.tick(180000);
    sandbox.assert.calledThrice(stub);
  });

  it('should not check tokens while on test network', async function () {
    sandbox.useFakeTimers();
    network.setProviderType(ROPSTEN);
    const tokenListMessengerRopsten = new ControllerMessenger().getRestricted({
      name: 'TokenListController',
    });
    tokenListController = new TokenListController({
      chainId: '3',
      useStaticTokenList: false,
      onNetworkStateChange: sinon.spy(),
      onPreferencesStateChange: sinon.spy(),
      messenger: tokenListMessengerRopsten,
    });
    await tokenListController.start();
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;

    const stub = sandbox.stub(controller, '_getTokenBalances');

    await controller.detectNewTokens();
    sandbox.assert.notCalled(stub);
  });

  it('should skip adding tokens listed in hiddenTokens array', async function () {
    sandbox.useFakeTimers();
    network.setProviderType(MAINNET);
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;

    const { tokenList } = tokenListController.state;
    const erc20ContractAddresses = Object.keys(tokenList);

    const existingTokenAddress = erc20ContractAddresses[0];
    const existingToken = tokenList[existingTokenAddress];
    await tokensController.addToken(
      existingTokenAddress,
      existingToken.symbol,
      existingToken.decimals,
    );

    const tokenAddressToSkip = erc20ContractAddresses[1];
    const tokenToSkip = tokenList[tokenAddressToSkip];
    await tokensController.addToken(
      tokenAddressToSkip,
      tokenToSkip.symbol,
      tokenToSkip.decimals,
    );

    sandbox
      .stub(controller, '_getTokenBalances')
      .callsFake((tokensToDetect) =>
        tokensToDetect.map((token) =>
          token === tokenAddressToSkip ? new BigNumber(10) : 0,
        ),
      );

    await tokensController.removeAndIgnoreToken(tokenAddressToSkip);
    await controller.detectNewTokens();

    assert.deepEqual(tokensController.state.tokens, [
      {
        address: toChecksumHexAddress(existingTokenAddress),
        decimals: existingToken.decimals,
        symbol: existingToken.symbol,
        image: undefined,
        isERC721: false,
      },
    ]);
  });

  it('should check and add tokens while on main network', async function () {
    sandbox.useFakeTimers();
    network.setProviderType(MAINNET);
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;

    const { tokenList } = tokenListController.state;
    const erc20ContractAddresses = Object.keys(tokenList);

    const existingTokenAddress = erc20ContractAddresses[0];
    const existingToken = tokenList[existingTokenAddress];
    await tokensController.addToken(
      existingTokenAddress,
      existingToken.symbol,
      existingToken.decimals,
    );

    const tokenAddressToAdd = erc20ContractAddresses[1];
    const tokenToAdd = tokenList[tokenAddressToAdd];

    const contractAddressesToDetect = erc20ContractAddresses.filter(
      (address) => address !== existingTokenAddress,
    );
    const indexOfTokenToAdd = contractAddressesToDetect.indexOf(
      tokenAddressToAdd,
    );
    const balances = new Array(contractAddressesToDetect.length);

    balances[indexOfTokenToAdd] = new BigNumber(10);

    sandbox
      .stub(controller, '_getTokenBalances')
      .returns(Promise.resolve(balances));

    await controller.detectNewTokens();
    assert.deepEqual(tokensController.state.tokens, [
      {
        address: toChecksumHexAddress(existingTokenAddress),
        decimals: existingToken.decimals,
        symbol: existingToken.symbol,
        isERC721: false,
        image: undefined,
      },
      {
        address: toChecksumHexAddress(tokenAddressToAdd),
        decimals: tokenToAdd.decimals,
        symbol: tokenToAdd.symbol,
        image: undefined,
        isERC721: false,
      },
    ]);
  });

  it('should check and add tokens while on non-default Mainnet', async function () {
    sandbox.useFakeTimers();
    network.setRpcTarget('https://some-fake-RPC-endpoint.metamask.io', '0x1');
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;

    const { tokenList } = tokenListController.state;
    const erc20ContractAddresses = Object.keys(tokenList);

    const existingTokenAddress = erc20ContractAddresses[0];
    const existingToken = tokenList[existingTokenAddress];
    await tokensController.addToken(
      existingTokenAddress,
      existingToken.symbol,
      existingToken.decimals,
    );

    const tokenAddressToAdd = erc20ContractAddresses[1];
    const tokenToAdd = tokenList[tokenAddressToAdd];

    const contractAddressesToDetect = erc20ContractAddresses.filter(
      (address) => address !== existingTokenAddress,
    );
    const indexOfTokenToAdd = contractAddressesToDetect.indexOf(
      tokenAddressToAdd,
    );

    const balances = new Array(contractAddressesToDetect.length);
    balances[indexOfTokenToAdd] = new BigNumber(10);

    sandbox
      .stub(controller, '_getTokenBalances')
      .returns(Promise.resolve(balances));

    await controller.detectNewTokens();

    assert.deepEqual(tokensController.state.tokens, [
      {
        address: toChecksumHexAddress(existingTokenAddress),
        decimals: existingToken.decimals,
        symbol: existingToken.symbol,
        image: undefined,
        isERC721: false,
      },
      {
        address: toChecksumHexAddress(tokenAddressToAdd),
        decimals: tokenToAdd.decimals,
        symbol: tokenToAdd.symbol,
        image: undefined,
        isERC721: false,
      },
    ]);
  });

  it('should trigger detect new tokens when change address', async function () {
    sandbox.useFakeTimers();
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = true;
    const stub = sandbox.stub(controller, 'detectNewTokens');
    await preferences.setSelectedAddress(
      '0xbc86727e770de68b1060c91f6bb6945c73e10388',
    );
    sandbox.assert.called(stub);
  });

  it('should trigger detect new tokens when submit password', async function () {
    sandbox.useFakeTimers();
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.selectedAddress = '0x0';
    const stub = sandbox.stub(controller, 'detectNewTokens');
    await controller._keyringMemStore.updateState({ isUnlocked: true });
    sandbox.assert.called(stub);
  });

  it('should not trigger detect new tokens when not unlocked', async function () {
    const clock = sandbox.useFakeTimers();
    network.setProviderType(MAINNET);
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokenList: tokenListController,
      tokensController,
    });
    controller.isOpen = true;
    controller.isUnlocked = false;
    const stub = sandbox.stub(controller, '_getTokenBalances');
    clock.tick(180000);
    sandbox.assert.notCalled(stub);
  });

  it('should not trigger detect new tokens when not open', async function () {
    const clock = sandbox.useFakeTimers();
    network.setProviderType(MAINNET);
    const controller = new DetectTokensController({
      preferences,
      network,
      keyringMemStore,
      tokensController,
    });
    // trigger state update from preferences controller
    await preferences.setSelectedAddress(
      '0xbc86727e770de68b1060c91f6bb6945c73e10388',
    );
    controller.isOpen = false;
    controller.isUnlocked = true;
    const stub = sandbox.stub(controller, '_getTokenBalances');
    clock.tick(180000);
    sandbox.assert.notCalled(stub);
  });
});