ciphermask/app/scripts/controllers/permissions/permissions-controller.test.js

import { strict as assert } from 'assert';
import { find } from 'lodash';
import sinon from 'sinon';

import {
  constants,
  getters,
  getNotifyDomain,
  getNotifyAllDomains,
  getPermControllerOpts,
} from '../../../../test/mocks/permission-controller';
import {
  getRequestUserApprovalHelper,
  grantPermissions,
} from '../../../../test/helpers/permission-controller-helpers';
import { METADATA_STORE_KEY, METADATA_CACHE_MAX_SIZE } from './enums';

import { PermissionsController } from '.';

const { ERRORS, NOTIFICATIONS, PERMS } = getters;

const {
  ALL_ACCOUNTS,
  ACCOUNTS,
  DUMMY_ACCOUNT,
  DOMAINS,
  PERM_NAMES,
  REQUEST_IDS,
  EXTRA_ACCOUNT,
} = constants;

const initNotifications = () => {
  return Object.values(DOMAINS).reduce((acc, domain) => {
    acc[domain.origin] = [];
    return acc;
  }, {});
};

const initPermController = (notifications = initNotifications()) => {
  return new PermissionsController({
    ...getPermControllerOpts(),
    notifyDomain: getNotifyDomain(notifications),
    notifyAllDomains: getNotifyAllDomains(notifications),
  });
};

describe('permissions controller', function () {
  describe('constructor', function () {
    it('throws on undefined argument', function () {
      assert.throws(
        () => new PermissionsController(),
        'should throw on undefined argument',
      );
    });
  });

  describe('getAccounts', function () {
    let permController;

    beforeEach(function () {
      permController = initPermController();
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('gets permitted accounts for permitted origins', async function () {
      const aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      const bAccounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(
        aAccounts,
        [ACCOUNTS.a.primary],
        'first origin should have correct accounts',
      );
      assert.deepEqual(
        bAccounts,
        [ACCOUNTS.b.primary],
        'second origin should have correct accounts',
      );
    });

    it('does not get accounts for unpermitted origins', async function () {
      const cAccounts = await permController.getAccounts(DOMAINS.c.origin);
      assert.deepEqual(cAccounts, [], 'origin should have no accounts');
    });

    it('does not handle "metamask" origin as special case', async function () {
      const metamaskAccounts = await permController.getAccounts('metamask');
      assert.deepEqual(metamaskAccounts, [], 'origin should have no accounts');
    });
  });

  describe('hasPermission', function () {
    it('returns correct values', async function () {
      const permController = initPermController();
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.test_method(),
      );

      assert.ok(
        permController.hasPermission(DOMAINS.a.origin, 'eth_accounts'),
        'should return true for granted permission',
      );
      assert.ok(
        permController.hasPermission(DOMAINS.b.origin, 'test_method'),
        'should return true for granted permission',
      );

      assert.ok(
        !permController.hasPermission(DOMAINS.a.origin, 'test_method'),
        'should return false for non-granted permission',
      );
      assert.ok(
        !permController.hasPermission(DOMAINS.b.origin, 'eth_accounts'),
        'should return true for non-granted permission',
      );

      assert.ok(
        !permController.hasPermission('foo', 'eth_accounts'),
        'should return false for unknown origin',
      );
      assert.ok(
        !permController.hasPermission(DOMAINS.b.origin, 'foo'),
        'should return false for unknown permission',
      );
    });
  });

  describe('clearPermissions', function () {
    it('notifies all appropriate domains and removes permissions', async function () {
      const notifications = initNotifications();
      const permController = initPermController(notifications);

      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.c.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.c.permitted),
      );

      let aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      let bAccounts = await permController.getAccounts(DOMAINS.b.origin);
      let cAccounts = await permController.getAccounts(DOMAINS.c.origin);

      assert.deepEqual(
        aAccounts,
        [ACCOUNTS.a.primary],
        'first origin should have correct accounts',
      );
      assert.deepEqual(
        bAccounts,
        [ACCOUNTS.b.primary],
        'second origin should have correct accounts',
      );
      assert.deepEqual(
        cAccounts,
        [ACCOUNTS.c.primary],
        'third origin should have correct accounts',
      );

      permController.clearPermissions();

      Object.keys(notifications).forEach((origin) => {
        assert.deepEqual(
          notifications[origin],
          [NOTIFICATIONS.removedAccounts()],
          'origin should have single metamask_accountsChanged:[] notification',
        );
      });

      aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      bAccounts = await permController.getAccounts(DOMAINS.b.origin);
      cAccounts = await permController.getAccounts(DOMAINS.c.origin);

      assert.deepEqual(aAccounts, [], 'first origin should have no accounts');
      assert.deepEqual(bAccounts, [], 'second origin should have no accounts');
      assert.deepEqual(cAccounts, [], 'third origin should have no accounts');

      Object.keys(notifications).forEach((origin) => {
        assert.deepEqual(
          permController.permissions.getPermissionsForDomain(origin),
          [],
          'origin should have no permissions',
        );
      });

      assert.deepEqual(
        Object.keys(permController.permissions.getDomains()),
        [],
        'all domains should be deleted',
      );
    });
  });

  describe('removePermissionsFor', function () {
    let permController, notifications;

    beforeEach(function () {
      notifications = initNotifications();
      permController = initPermController(notifications);
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('removes permissions for multiple domains', async function () {
      let aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      let bAccounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(
        aAccounts,
        [ACCOUNTS.a.primary],
        'first origin should have correct accounts',
      );
      assert.deepEqual(
        bAccounts,
        [ACCOUNTS.b.primary],
        'second origin should have correct accounts',
      );

      permController.removePermissionsFor({
        [DOMAINS.a.origin]: [PERM_NAMES.eth_accounts],
        [DOMAINS.b.origin]: [PERM_NAMES.eth_accounts],
      });

      aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      bAccounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(aAccounts, [], 'first origin should have no accounts');
      assert.deepEqual(bAccounts, [], 'second origin should have no accounts');

      assert.deepEqual(
        notifications[DOMAINS.a.origin],
        [NOTIFICATIONS.removedAccounts()],
        'first origin should have correct notification',
      );
      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [NOTIFICATIONS.removedAccounts()],
        'second origin should have correct notification',
      );

      assert.deepEqual(
        Object.keys(permController.permissions.getDomains()),
        [],
        'all domains should be deleted',
      );
    });

    it('only removes targeted permissions from single domain', async function () {
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.test_method(),
      );

      let bPermissions = permController.permissions.getPermissionsForDomain(
        DOMAINS.b.origin,
      );

      assert.ok(
        bPermissions.length === 2 &&
          find(bPermissions, { parentCapability: PERM_NAMES.eth_accounts }) &&
          find(bPermissions, { parentCapability: PERM_NAMES.test_method }),
        'origin should have correct permissions',
      );

      permController.removePermissionsFor({
        [DOMAINS.b.origin]: [PERM_NAMES.test_method],
      });

      bPermissions = permController.permissions.getPermissionsForDomain(
        DOMAINS.b.origin,
      );

      assert.ok(
        bPermissions.length === 1 &&
          find(bPermissions, { parentCapability: PERM_NAMES.eth_accounts }),
        'only targeted permission should have been removed',
      );
    });

    it('removes permissions for a single domain, without affecting another', async function () {
      permController.removePermissionsFor({
        [DOMAINS.b.origin]: [PERM_NAMES.eth_accounts],
      });

      const aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      const bAccounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(
        aAccounts,
        [ACCOUNTS.a.primary],
        'first origin should have correct accounts',
      );
      assert.deepEqual(bAccounts, [], 'second origin should have no accounts');

      assert.deepEqual(
        notifications[DOMAINS.a.origin],
        [],
        'first origin should have no notifications',
      );
      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [NOTIFICATIONS.removedAccounts()],
        'second origin should have correct notification',
      );

      assert.deepEqual(
        Object.keys(permController.permissions.getDomains()),
        [DOMAINS.a.origin],
        'only first origin should remain',
      );
    });

    it('send notification but does not affect permissions for unknown domain', async function () {
      // it knows nothing of this origin
      permController.removePermissionsFor({
        [DOMAINS.c.origin]: [PERM_NAMES.eth_accounts],
      });

      assert.deepEqual(
        notifications[DOMAINS.c.origin],
        [NOTIFICATIONS.removedAccounts()],
        'unknown origin should have notification',
      );

      const aAccounts = await permController.getAccounts(DOMAINS.a.origin);
      const bAccounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(
        aAccounts,
        [ACCOUNTS.a.primary],
        'first origin should have correct accounts',
      );
      assert.deepEqual(
        bAccounts,
        [ACCOUNTS.b.primary],
        'second origin should have correct accounts',
      );

      assert.deepEqual(
        Object.keys(permController.permissions.getDomains()),
        [DOMAINS.a.origin, DOMAINS.b.origin],
        'should have correct domains',
      );
    });
  });

  describe('validatePermittedAccounts', function () {
    let permController;

    beforeEach(function () {
      permController = initPermController();
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('throws error on non-array accounts', async function () {
      await assert.throws(
        () => permController.validatePermittedAccounts(undefined),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should throw on undefined',
      );

      await assert.throws(
        () => permController.validatePermittedAccounts(false),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should throw on false',
      );

      await assert.throws(
        () => permController.validatePermittedAccounts(true),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should throw on true',
      );

      await assert.throws(
        () => permController.validatePermittedAccounts({}),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should throw on non-array object',
      );
    });

    it('throws error on empty array of accounts', async function () {
      await assert.throws(
        () => permController.validatePermittedAccounts([]),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should throw on empty array',
      );
    });

    it('throws error if any account value is not in keyring', async function () {
      const keyringAccounts = await permController.getKeyringAccounts();

      await assert.throws(
        () => permController.validatePermittedAccounts([DUMMY_ACCOUNT]),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account',
      );

      await assert.throws(
        () =>
          permController.validatePermittedAccounts(
            keyringAccounts.concat(DUMMY_ACCOUNT),
          ),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account with other accounts',
      );
    });

    it('succeeds if all accounts are in keyring', async function () {
      const keyringAccounts = await permController.getKeyringAccounts();

      await assert.doesNotThrow(
        () => permController.validatePermittedAccounts(keyringAccounts),
        'should not throw on all keyring accounts',
      );

      await assert.doesNotThrow(
        () => permController.validatePermittedAccounts([keyringAccounts[0]]),
        'should not throw on single keyring account',
      );

      await assert.doesNotThrow(
        () => permController.validatePermittedAccounts([keyringAccounts[1]]),
        'should not throw on single keyring account',
      );
    });
  });

  describe('addPermittedAccount', function () {
    let permController, notifications;

    beforeEach(function () {
      notifications = initNotifications();
      permController = initPermController(notifications);
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('should throw if account is not a string', async function () {
      await assert.rejects(
        () => permController.addPermittedAccount(DOMAINS.a.origin, {}),
        ERRORS.validatePermittedAccounts.nonKeyringAccount({}),
        'should throw on non-string account param',
      );
    });

    it('should throw if given account is not in keyring', async function () {
      await assert.rejects(
        () =>
          permController.addPermittedAccount(DOMAINS.a.origin, DUMMY_ACCOUNT),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account',
      );
    });

    it('should throw if origin is invalid', async function () {
      await assert.rejects(
        () => permController.addPermittedAccount(false, EXTRA_ACCOUNT),
        ERRORS.addPermittedAccount.invalidOrigin(),
        'should throw on invalid origin',
      );
    });

    it('should throw if origin lacks any permissions', async function () {
      await assert.rejects(
        () =>
          permController.addPermittedAccount(DOMAINS.c.origin, EXTRA_ACCOUNT),
        ERRORS.addPermittedAccount.invalidOrigin(),
        'should throw on origin without permissions',
      );
    });

    it('should throw if origin lacks eth_accounts permission', async function () {
      grantPermissions(
        permController,
        DOMAINS.c.origin,
        PERMS.finalizedRequests.test_method(),
      );

      await assert.rejects(
        () =>
          permController.addPermittedAccount(DOMAINS.c.origin, EXTRA_ACCOUNT),
        ERRORS.addPermittedAccount.noEthAccountsPermission(),
        'should throw on origin without eth_accounts permission',
      );
    });

    it('should throw if account is already permitted', async function () {
      await assert.rejects(
        () =>
          permController.addPermittedAccount(
            DOMAINS.a.origin,
            ACCOUNTS.a.permitted[0],
          ),
        ERRORS.addPermittedAccount.alreadyPermitted(),
        'should throw if account is already permitted',
      );
    });

    it('should successfully add permitted account', async function () {
      await permController.addPermittedAccount(DOMAINS.a.origin, EXTRA_ACCOUNT);

      const accounts = await permController._getPermittedAccounts(
        DOMAINS.a.origin,
      );

      assert.deepEqual(
        accounts,
        [...ACCOUNTS.a.permitted, EXTRA_ACCOUNT],
        'origin should have correct accounts',
      );

      assert.deepEqual(
        notifications[DOMAINS.a.origin][0],
        NOTIFICATIONS.newAccounts([ACCOUNTS.a.primary]),
        'origin should have correct notification',
      );
    });
  });

  describe('removePermittedAccount', function () {
    let permController, notifications;

    beforeEach(function () {
      notifications = initNotifications();
      permController = initPermController(notifications);
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('should throw if account is not a string', async function () {
      await assert.rejects(
        () => permController.removePermittedAccount(DOMAINS.a.origin, {}),
        ERRORS.validatePermittedAccounts.nonKeyringAccount({}),
        'should throw on non-string account param',
      );
    });

    it('should throw if given account is not in keyring', async function () {
      await assert.rejects(
        () =>
          permController.removePermittedAccount(
            DOMAINS.a.origin,
            DUMMY_ACCOUNT,
          ),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account',
      );
    });

    it('should throw if origin is invalid', async function () {
      await assert.rejects(
        () => permController.removePermittedAccount(false, EXTRA_ACCOUNT),
        ERRORS.removePermittedAccount.invalidOrigin(),
        'should throw on invalid origin',
      );
    });

    it('should throw if origin lacks any permissions', async function () {
      await assert.rejects(
        () =>
          permController.removePermittedAccount(
            DOMAINS.c.origin,
            EXTRA_ACCOUNT,
          ),
        ERRORS.removePermittedAccount.invalidOrigin(),
        'should throw on origin without permissions',
      );
    });

    it('should throw if origin lacks eth_accounts permission', async function () {
      grantPermissions(
        permController,
        DOMAINS.c.origin,
        PERMS.finalizedRequests.test_method(),
      );

      await assert.rejects(
        () =>
          permController.removePermittedAccount(
            DOMAINS.c.origin,
            EXTRA_ACCOUNT,
          ),
        ERRORS.removePermittedAccount.noEthAccountsPermission(),
        'should throw on origin without eth_accounts permission',
      );
    });

    it('should throw if account is not permitted', async function () {
      await assert.rejects(
        () =>
          permController.removePermittedAccount(
            DOMAINS.b.origin,
            ACCOUNTS.c.permitted[0],
          ),
        ERRORS.removePermittedAccount.notPermitted(),
        'should throw if account is not permitted',
      );
    });

    it('should successfully remove permitted account', async function () {
      await permController.removePermittedAccount(
        DOMAINS.a.origin,
        ACCOUNTS.a.permitted[1],
      );

      const accounts = await permController._getPermittedAccounts(
        DOMAINS.a.origin,
      );

      assert.deepEqual(
        accounts,
        ACCOUNTS.a.permitted.filter((acc) => acc !== ACCOUNTS.a.permitted[1]),
        'origin should have correct accounts',
      );

      assert.deepEqual(
        notifications[DOMAINS.a.origin][0],
        NOTIFICATIONS.newAccounts([ACCOUNTS.a.primary]),
        'origin should have correct notification',
      );
    });

    it('should remove eth_accounts permission if removing only permitted account', async function () {
      await permController.removePermittedAccount(
        DOMAINS.b.origin,
        ACCOUNTS.b.permitted[0],
      );

      const accounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(accounts, [], 'origin should have no accounts');

      const permission = await permController.permissions.getPermission(
        DOMAINS.b.origin,
        PERM_NAMES.eth_accounts,
      );

      assert.equal(
        permission,
        undefined,
        'origin should not have eth_accounts permission',
      );

      assert.deepEqual(
        notifications[DOMAINS.b.origin][0],
        NOTIFICATIONS.removedAccounts(),
        'origin should have correct notification',
      );
    });
  });

  describe('removeAllAccountPermissions', function () {
    let permController, notifications;

    beforeEach(function () {
      notifications = initNotifications();
      permController = initPermController(notifications);
      grantPermissions(
        permController,
        DOMAINS.a.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
      grantPermissions(
        permController,
        DOMAINS.c.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
      );
    });

    it('should throw if account is not a string', async function () {
      await assert.rejects(
        () => permController.removeAllAccountPermissions({}),
        ERRORS.validatePermittedAccounts.nonKeyringAccount({}),
        'should throw on non-string account param',
      );
    });

    it('should throw if given account is not in keyring', async function () {
      await assert.rejects(
        () => permController.removeAllAccountPermissions(DUMMY_ACCOUNT),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account',
      );
    });

    it('should remove permitted account from single origin', async function () {
      await permController.removeAllAccountPermissions(ACCOUNTS.a.permitted[1]);

      const accounts = await permController._getPermittedAccounts(
        DOMAINS.a.origin,
      );

      assert.deepEqual(
        accounts,
        ACCOUNTS.a.permitted.filter((acc) => acc !== ACCOUNTS.a.permitted[1]),
        'origin should have correct accounts',
      );

      assert.deepEqual(
        notifications[DOMAINS.a.origin][0],
        NOTIFICATIONS.newAccounts([ACCOUNTS.a.primary]),
        'origin should have correct notification',
      );
    });

    it('should permitted account from multiple origins', async function () {
      await permController.removeAllAccountPermissions(ACCOUNTS.b.permitted[0]);

      const bAccounts = await permController.getAccounts(DOMAINS.b.origin);
      assert.deepEqual(bAccounts, [], 'first origin should no accounts');

      const cAccounts = await permController.getAccounts(DOMAINS.c.origin);
      assert.deepEqual(cAccounts, [], 'second origin no accounts');

      assert.deepEqual(
        notifications[DOMAINS.b.origin][0],
        NOTIFICATIONS.removedAccounts(),
        'first origin should have correct notification',
      );

      assert.deepEqual(
        notifications[DOMAINS.c.origin][0],
        NOTIFICATIONS.removedAccounts(),
        'second origin should have correct notification',
      );
    });

    it('should remove eth_accounts permission if removing only permitted account', async function () {
      await permController.removeAllAccountPermissions(ACCOUNTS.b.permitted[0]);

      const accounts = await permController.getAccounts(DOMAINS.b.origin);

      assert.deepEqual(accounts, [], 'origin should have no accounts');

      const permission = await permController.permissions.getPermission(
        DOMAINS.b.origin,
        PERM_NAMES.eth_accounts,
      );

      assert.equal(
        permission,
        undefined,
        'origin should not have eth_accounts permission',
      );

      assert.deepEqual(
        notifications[DOMAINS.b.origin][0],
        NOTIFICATIONS.removedAccounts(),
        'origin should have correct notification',
      );
    });
  });

  describe('finalizePermissionsRequest', function () {
    let permController;

    beforeEach(function () {
      permController = initPermController();
    });

    it('throws on non-keyring accounts', async function () {
      await assert.rejects(
        permController.finalizePermissionsRequest(
          PERMS.requests.eth_accounts(),
          [DUMMY_ACCOUNT],
        ),
        ERRORS.validatePermittedAccounts.nonKeyringAccount(DUMMY_ACCOUNT),
        'should throw on non-keyring account',
      );
    });

    it('adds caveat to eth_accounts permission', async function () {
      const perm = await permController.finalizePermissionsRequest(
        PERMS.requests.eth_accounts(),
        ACCOUNTS.a.permitted,
      );

      assert.deepEqual(
        perm,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
    });

    it('replaces caveat of eth_accounts permission', async function () {
      const perm = await permController.finalizePermissionsRequest(
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
        ACCOUNTS.b.permitted,
      );

      assert.deepEqual(
        perm,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
        'permission should have correct caveat',
      );
    });

    it('handles non-eth_accounts permission', async function () {
      const perm = await permController.finalizePermissionsRequest(
        PERMS.finalizedRequests.test_method(),
        ACCOUNTS.b.permitted,
      );

      assert.deepEqual(
        perm,
        PERMS.finalizedRequests.test_method(),
        'permission should have correct caveat',
      );
    });
  });

  describe('preferences state update', function () {
    let permController, notifications, preferences, identities;

    beforeEach(function () {
      identities = ALL_ACCOUNTS.reduce((identitiesAcc, account) => {
        identitiesAcc[account] = {};
        return identitiesAcc;
      }, {});
      preferences = {
        getState: sinon.stub(),
        subscribe: sinon.stub(),
      };
      preferences.getState.returns({
        identities,
        selectedAddress: DUMMY_ACCOUNT,
      });
      notifications = initNotifications();
      permController = new PermissionsController({
        ...getPermControllerOpts(),
        notifyDomain: getNotifyDomain(notifications),
        notifyAllDomains: getNotifyAllDomains(notifications),
        preferences,
      });
      grantPermissions(
        permController,
        DOMAINS.b.origin,
        PERMS.finalizedRequests.eth_accounts([
          ...ACCOUNTS.a.permitted,
          EXTRA_ACCOUNT,
        ]),
      );
      grantPermissions(
        permController,
        DOMAINS.c.origin,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
      );
    });

    it('should throw if given invalid account', async function () {
      assert(preferences.subscribe.calledOnce);
      assert(preferences.subscribe.firstCall.args.length === 1);
      const onPreferencesUpdate = preferences.subscribe.firstCall.args[0];

      await assert.rejects(
        () => onPreferencesUpdate({ selectedAddress: {} }),
        ERRORS._handleAccountSelected.invalidParams(),
        'should throw if account is not a string',
      );
    });

    it('should do nothing if account not permitted for any origins', async function () {
      assert(preferences.subscribe.calledOnce);
      assert(preferences.subscribe.firstCall.args.length === 1);
      const onPreferencesUpdate = preferences.subscribe.firstCall.args[0];

      await onPreferencesUpdate({ selectedAddress: DUMMY_ACCOUNT });

      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [],
        'should not have emitted notification',
      );
      assert.deepEqual(
        notifications[DOMAINS.c.origin],
        [],
        'should not have emitted notification',
      );
    });

    it('should emit notification if account already first in array for each connected site', async function () {
      identities[ACCOUNTS.a.permitted[0]] = { lastSelected: 1000 };
      assert(preferences.subscribe.calledOnce);
      assert(preferences.subscribe.firstCall.args.length === 1);
      const onPreferencesUpdate = preferences.subscribe.firstCall.args[0];

      await onPreferencesUpdate({ selectedAddress: ACCOUNTS.a.permitted[0] });

      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [NOTIFICATIONS.newAccounts([ACCOUNTS.a.primary])],
        'should not have emitted notification',
      );
      assert.deepEqual(
        notifications[DOMAINS.c.origin],
        [NOTIFICATIONS.newAccounts([ACCOUNTS.a.primary])],
        'should not have emitted notification',
      );
    });

    it('should emit notification just for connected domains', async function () {
      identities[EXTRA_ACCOUNT] = { lastSelected: 1000 };
      assert(preferences.subscribe.calledOnce);
      assert(preferences.subscribe.firstCall.args.length === 1);
      const onPreferencesUpdate = preferences.subscribe.firstCall.args[0];

      await onPreferencesUpdate({ selectedAddress: EXTRA_ACCOUNT });

      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [NOTIFICATIONS.newAccounts([EXTRA_ACCOUNT])],
        'should have emitted notification',
      );
      assert.deepEqual(
        notifications[DOMAINS.c.origin],
        [],
        'should not have emitted notification',
      );
    });

    it('should emit notification for multiple connected domains', async function () {
      identities[ACCOUNTS.a.permitted[1]] = { lastSelected: 1000 };
      assert(preferences.subscribe.calledOnce);
      assert(preferences.subscribe.firstCall.args.length === 1);
      const onPreferencesUpdate = preferences.subscribe.firstCall.args[0];

      await onPreferencesUpdate({ selectedAddress: ACCOUNTS.a.permitted[1] });

      assert.deepEqual(
        notifications[DOMAINS.b.origin],
        [NOTIFICATIONS.newAccounts([ACCOUNTS.a.permitted[1]])],
        'should have emitted notification',
      );
      assert.deepEqual(
        notifications[DOMAINS.c.origin],
        [NOTIFICATIONS.newAccounts([ACCOUNTS.c.primary])],
        'should have emitted notification',
      );
    });
  });

  describe('approvePermissionsRequest', function () {
    let permController, requestUserApproval;

    beforeEach(function () {
      permController = initPermController();
      requestUserApproval = getRequestUserApprovalHelper(permController);
    });

    it('does nothing if called on non-existing request', async function () {
      sinon.spy(permController, 'finalizePermissionsRequest');

      const request = PERMS.approvedRequest(REQUEST_IDS.a, null);

      await assert.doesNotReject(
        permController.approvePermissionsRequest(request, null),
        'should not throw on non-existing request',
      );

      assert.ok(
        permController.finalizePermissionsRequest.notCalled,
        'should not call finalizePermissionRequest',
      );
    });

    it('rejects request with bad accounts param', async function () {
      const request = PERMS.approvedRequest(
        REQUEST_IDS.a,
        PERMS.requests.eth_accounts(),
      );

      const rejectionPromise = assert.rejects(
        requestUserApproval(REQUEST_IDS.a),
        ERRORS.validatePermittedAccounts.invalidParam(),
        'should reject with "null" accounts',
      );

      await permController.approvePermissionsRequest(request, null);
      await rejectionPromise;
    });

    it('rejects request with no permissions', async function () {
      const request = PERMS.approvedRequest(REQUEST_IDS.a, {});

      const requestRejection = assert.rejects(
        requestUserApproval(REQUEST_IDS.a),
        ERRORS.approvePermissionsRequest.noPermsRequested(),
        'should reject if no permissions in request',
      );

      await permController.approvePermissionsRequest(
        request,
        ACCOUNTS.a.permitted,
      );
      await requestRejection;
    });

    it('approves valid request', async function () {
      const request = PERMS.approvedRequest(
        REQUEST_IDS.a,
        PERMS.requests.eth_accounts(),
      );

      let perms;

      const requestApproval = assert.doesNotReject(async () => {
        perms = await requestUserApproval(REQUEST_IDS.a);
      }, 'should not reject single valid request');

      await permController.approvePermissionsRequest(
        request,
        ACCOUNTS.a.permitted,
      );
      await requestApproval;

      assert.deepEqual(
        perms,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
        'should produce expected approved permissions',
      );
    });

    it('approves valid requests regardless of order', async function () {
      const request1 = PERMS.approvedRequest(
        REQUEST_IDS.a,
        PERMS.requests.eth_accounts(),
      );
      const request2 = PERMS.approvedRequest(
        REQUEST_IDS.b,
        PERMS.requests.eth_accounts(),
      );
      const request3 = PERMS.approvedRequest(
        REQUEST_IDS.c,
        PERMS.requests.eth_accounts(),
      );

      let perms1, perms2;

      const approval1 = assert.doesNotReject(async () => {
        perms1 = await requestUserApproval(REQUEST_IDS.a, DOMAINS.a.origin);
      }, 'should not reject request');

      const approval2 = assert.doesNotReject(async () => {
        perms2 = await requestUserApproval(REQUEST_IDS.b, DOMAINS.b.origin);
      }, 'should not reject request');

      // approve out of order
      await permController.approvePermissionsRequest(
        request2,
        ACCOUNTS.b.permitted,
      );
      // add a non-existing request to the mix
      await permController.approvePermissionsRequest(
        request3,
        ACCOUNTS.c.permitted,
      );
      await permController.approvePermissionsRequest(
        request1,
        ACCOUNTS.a.permitted,
      );

      await approval1;
      await approval2;

      assert.deepEqual(
        perms1,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.a.permitted),
        'first request should produce expected approved permissions',
      );

      assert.deepEqual(
        perms2,
        PERMS.finalizedRequests.eth_accounts(ACCOUNTS.b.permitted),
        'second request should produce expected approved permissions',
      );
    });
  });

  describe('rejectPermissionsRequest', function () {
    let permController, requestUserApproval;

    beforeEach(async function () {
      permController = initPermController();
      requestUserApproval = getRequestUserApprovalHelper(permController);
    });

    it('does nothing if called on non-existing request', async function () {
      permController.approvals.add = sinon.fake.throws(
        new Error('should not call add'),
      );

      await assert.doesNotReject(
        permController.rejectPermissionsRequest(REQUEST_IDS.a),
        'should not throw on non-existing request',
      );
    });

    it('rejects single existing request', async function () {
      const requestRejection = assert.rejects(
        requestUserApproval(REQUEST_IDS.a),
        ERRORS.rejectPermissionsRequest.rejection(),
        'should reject with expected error',
      );

      await permController.rejectPermissionsRequest(REQUEST_IDS.a);
      await requestRejection;
    });

    it('rejects requests regardless of order', async function () {
      const requestRejection1 = assert.rejects(
        requestUserApproval(REQUEST_IDS.b, DOMAINS.b.origin),
        ERRORS.rejectPermissionsRequest.rejection(),
        'should reject with expected error',
      );

      const requestRejection2 = assert.rejects(
        requestUserApproval(REQUEST_IDS.c, DOMAINS.c.origin),
        ERRORS.rejectPermissionsRequest.rejection(),
        'should reject with expected error',
      );

      // reject out of order
      await permController.rejectPermissionsRequest(REQUEST_IDS.c);
      // add a non-existing request to the mix
      await permController.rejectPermissionsRequest(REQUEST_IDS.a);
      await permController.rejectPermissionsRequest(REQUEST_IDS.b);

      await requestRejection1;
      await requestRejection2;
    });
  });

  // see permissions-middleware-test for testing the middleware itself
  describe('createMiddleware', function () {
    let permController, clock;

    beforeEach(function () {
      permController = initPermController();
      clock = sinon.useFakeTimers(1);
    });

    afterEach(function () {
      clock.restore();
    });

    it('should throw on bad origin', function () {
      assert.throws(
        () => permController.createMiddleware({ origin: {} }),
        ERRORS.createMiddleware.badOrigin(),
        'should throw expected error',
      );

      assert.throws(
        () => permController.createMiddleware({ origin: '' }),
        ERRORS.createMiddleware.badOrigin(),
        'should throw expected error',
      );

      assert.throws(
        () => permController.createMiddleware({}),
        ERRORS.createMiddleware.badOrigin(),
        'should throw expected error',
      );
    });

    it('should create a middleware', function () {
      let middleware;
      assert.doesNotThrow(() => {
        middleware = permController.createMiddleware({
          origin: DOMAINS.a.origin,
        });
      }, 'should not throw');

      assert.equal(typeof middleware, 'function', 'should return function');
    });

    it('should create a middleware with extensionId', function () {
      const extensionId = 'fooExtension';

      let middleware;
      assert.doesNotThrow(() => {
        middleware = permController.createMiddleware({
          origin: DOMAINS.a.origin,
          extensionId,
        });
      }, 'should not throw');

      assert.equal(typeof middleware, 'function', 'should return function');

      const metadataStore = permController.store.getState()[METADATA_STORE_KEY];

      assert.deepEqual(
        metadataStore[DOMAINS.a.origin],
        { extensionId, lastUpdated: 1 },
        'metadata should be stored',
      );
    });
  });

  describe('notifyAccountsChanged', function () {
    let notifications, permController;

    beforeEach(function () {
      notifications = initNotifications();
      permController = initPermController(notifications);
      sinon.spy(permController.permissionsLog, 'updateAccountsHistory');
    });

    it('notifyAccountsChanged records history and sends notification', async function () {
      sinon.spy(permController, '_isUnlocked');

      permController.notifyAccountsChanged(
        DOMAINS.a.origin,
        ACCOUNTS.a.permitted,
      );

      assert.ok(
        permController._isUnlocked.calledOnce,
        '_isUnlocked should have been called once',
      );

      assert.ok(
        permController.permissionsLog.updateAccountsHistory.calledOnce,
        'permissionsLog.updateAccountsHistory should have been called once',
      );

      assert.deepEqual(
        notifications[DOMAINS.a.origin],
        [NOTIFICATIONS.newAccounts(ACCOUNTS.a.permitted)],
        'origin should have correct notification',
      );
    });

    it('notifyAccountsChanged does nothing if _isUnlocked returns false', async function () {
      permController._isUnlocked = sinon.fake.returns(false);

      permController.notifyAccountsChanged(
        DOMAINS.a.origin,
        ACCOUNTS.a.permitted,
      );

      assert.ok(
        permController._isUnlocked.calledOnce,
        '_isUnlocked should have been called once',
      );

      assert.ok(
        permController.permissionsLog.updateAccountsHistory.notCalled,
        'permissionsLog.updateAccountsHistory should not have been called',
      );
    });

    it('notifyAccountsChanged throws on invalid origin', async function () {
      assert.throws(
        () => permController.notifyAccountsChanged(4, ACCOUNTS.a.permitted),
        ERRORS.notifyAccountsChanged.invalidOrigin(4),
        'should throw expected error for non-string origin',
      );

      assert.throws(
        () => permController.notifyAccountsChanged('', ACCOUNTS.a.permitted),
        ERRORS.notifyAccountsChanged.invalidOrigin(''),
        'should throw expected error for empty string origin',
      );
    });

    it('notifyAccountsChanged throws on invalid accounts', async function () {
      assert.throws(
        () => permController.notifyAccountsChanged(DOMAINS.a.origin, 4),
        ERRORS.notifyAccountsChanged.invalidAccounts(),
        'should throw expected error for truthy non-array accounts',
      );

      assert.throws(
        () => permController.notifyAccountsChanged(DOMAINS.a.origin, null),
        ERRORS.notifyAccountsChanged.invalidAccounts(),
        'should throw expected error for falsy non-array accounts',
      );
    });
  });

  describe('addDomainMetadata', function () {
    let permController, clock;

    function getMockMetadata(size) {
      const dummyData = {};
      for (let i = 0; i < size; i++) {
        const key = i.toString();
        dummyData[key] = {};
      }
      return dummyData;
    }

    beforeEach(function () {
      permController = initPermController();
      permController._setDomainMetadata = sinon.fake();
      clock = sinon.useFakeTimers(1);
    });

    afterEach(function () {
      clock.restore();
    });

    it('calls setter function with expected new state when adding domain', function () {
      permController.store.getState = sinon.fake.returns({
        [METADATA_STORE_KEY]: {
          [DOMAINS.a.origin]: {
            foo: 'bar',
          },
        },
      });

      permController.addDomainMetadata(DOMAINS.b.origin, { foo: 'bar' });

      assert.ok(
        permController.store.getState.called,
        'should have called store.getState',
      );
      assert.equal(
        permController._setDomainMetadata.getCalls().length,
        1,
        'should have called _setDomainMetadata once',
      );
      assert.deepEqual(permController._setDomainMetadata.lastCall.args, [
        {
          [DOMAINS.a.origin]: {
            foo: 'bar',
          },
          [DOMAINS.b.origin]: {
            foo: 'bar',
            host: DOMAINS.b.host,
            lastUpdated: 1,
          },
        },
      ]);
    });

    it('calls setter function with expected new states when updating existing domain', function () {
      permController.store.getState = sinon.fake.returns({
        [METADATA_STORE_KEY]: {
          [DOMAINS.a.origin]: {
            foo: 'bar',
          },
          [DOMAINS.b.origin]: {
            bar: 'baz',
          },
        },
      });

      permController.addDomainMetadata(DOMAINS.b.origin, { foo: 'bar' });

      assert.ok(
        permController.store.getState.called,
        'should have called store.getState',
      );
      assert.equal(
        permController._setDomainMetadata.getCalls().length,
        1,
        'should have called _setDomainMetadata once',
      );
      assert.deepEqual(permController._setDomainMetadata.lastCall.args, [
        {
          [DOMAINS.a.origin]: {
            foo: 'bar',
          },
          [DOMAINS.b.origin]: {
            foo: 'bar',
            bar: 'baz',
            host: DOMAINS.b.host,
            lastUpdated: 1,
          },
        },
      ]);
    });

    it('pops metadata on add when too many origins are pending', function () {
      sinon.spy(permController._pendingSiteMetadata, 'delete');

      const mockMetadata = getMockMetadata(METADATA_CACHE_MAX_SIZE);
      const expectedDeletedOrigin = Object.keys(mockMetadata)[0];

      permController.store.getState = sinon.fake.returns({
        [METADATA_STORE_KEY]: { ...mockMetadata },
      });

      // populate permController._pendingSiteMetadata, as though these origins
      // were actually added
      Object.keys(mockMetadata).forEach((origin) => {
        permController._pendingSiteMetadata.add(origin);
      });

      permController.addDomainMetadata(DOMAINS.a.origin, { foo: 'bar' });

      assert.ok(
        permController.store.getState.called,
        'should have called store.getState',
      );

      const expectedMetadata = {
        ...mockMetadata,
        [DOMAINS.a.origin]: {
          foo: 'bar',
          host: DOMAINS.a.host,
          lastUpdated: 1,
        },
      };
      delete expectedMetadata[expectedDeletedOrigin];

      assert.ok(
        permController._pendingSiteMetadata.delete.calledOnceWithExactly(
          expectedDeletedOrigin,
        ),
        'should have called _pendingSiteMetadata.delete once',
      );
      assert.equal(
        permController._setDomainMetadata.getCalls().length,
        1,
        'should have called _setDomainMetadata once',
      );
      assert.deepEqual(permController._setDomainMetadata.lastCall.args, [
        expectedMetadata,
      ]);
    });
  });

  describe('_trimDomainMetadata', function () {
    const permController = initPermController();

    it('trims domain metadata for domains without permissions', function () {
      const metadataArg = {
        [DOMAINS.a.origin]: {},
        [DOMAINS.b.origin]: {},
      };

      permController.permissions.getDomains = sinon.fake.returns({
        [DOMAINS.a.origin]: {},
      });

      const metadataResult = permController._trimDomainMetadata(metadataArg);

      assert.equal(
        permController.permissions.getDomains.getCalls().length,
        1,
        'should have called permissions.getDomains once',
      );
      assert.deepEqual(
        metadataResult,
        {
          [DOMAINS.a.origin]: {},
        },
        'should have produced expected state',
      );
    });
  });

  describe('miscellanea and edge cases', function () {
    it('requestAccountsPermissionWithId calls _requestPermissions and notifyAccounts', function (done) {
      const notifications = initNotifications();
      const permController = initPermController(notifications);
      const _requestPermissions = sinon
        .stub(permController, '_requestPermissions')
        .resolves();
      const notifyAccountsChanged = sinon
        .stub(permController, 'notifyAccountsChanged')
        .callsFake(() => {
          assert.ok(
            notifyAccountsChanged.calledOnceWithExactly('example.com', []),
          );
          notifyAccountsChanged.restore();
          _requestPermissions.restore();
          done();
        });
      permController.requestAccountsPermissionWithId('example.com');
    });
    it('requestAccountsPermissionWithId calls _requestAccountsPermission with an explicit request ID', function (done) {
      const permController = initPermController();
      const _requestPermissions = sinon
        .stub(permController, '_requestPermissions')
        .resolves();
      const onResolved = async () => {
        assert.ok(
          _requestPermissions.calledOnceWithExactly(
            sinon.match.object.and(sinon.match.has('origin')),
            { eth_accounts: {} },
            sinon.match.string.and(sinon.match.truthy),
          ),
        );
        _requestPermissions.restore();
        // eslint-disable-next-line no-use-before-define
        notifyAccountsChanged.restore();
        done();
      };
      const notifyAccountsChanged = sinon
        .stub(permController, 'notifyAccountsChanged')
        .callsFake(onResolved);
      permController.requestAccountsPermissionWithId('example.com');
    });
  });
});