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mirror of https://github.com/kremalicious/metamask-extension.git synced 2024-11-29 07:16:36 +01:00
metamask-extension/app/scripts/metamask-controller.test.js
Mark Stacey 943453cfb2
Simplify MV3 initialization (#16559)
* Simplify MV3 initialization

The MV3 initialization logic was complicated and introduced race
difficult-to-reproduce race conditions when dapps connect during
initialization.

It seems that problems were encountered after the UI tried to connect
before the background was initialized. To address this, the
initialization step was _delayed_ until after the first connection.
That first connection was then passed into the initialization function,
and setup properly after initialization had begun.

However, this special treatment is only given for the first connection.
Subsequent connections that still occur during initialization would
fail. This also results in the initialization being needlessly delayed,
which is concerning given that our main performance goal is to speed it
up.

* Setup connect listeners before controller initialization

* Add comments

* Add comment explaining isInitialized step
2022-11-24 10:02:05 -03:30

1241 lines
39 KiB
JavaScript

import { strict as assert } from 'assert';
import sinon from 'sinon';
import { cloneDeep } from 'lodash';
import nock from 'nock';
import { pubToAddress, bufferToHex } from 'ethereumjs-util';
import { obj as createThoughStream } from 'through2';
import EthQuery from 'eth-query';
import proxyquire from 'proxyquire';
import browser from 'webextension-polyfill';
import { TRANSACTION_STATUSES } from '../../shared/constants/transaction';
import createTxMeta from '../../test/lib/createTxMeta';
import { NETWORK_TYPES } from '../../shared/constants/network';
import { KEYRING_TYPES } from '../../shared/constants/keyrings';
import { DEVICE_NAMES } from '../../shared/constants/hardware-wallets';
import { addHexPrefix, deferredPromise } from './lib/util';
const Ganache = require('../../test/e2e/ganache');
const NOTIFICATION_ID = 'NHL8f2eSSTn9TKBamRLiU';
const firstTimeState = {
config: {},
NetworkController: {
provider: {
type: NETWORK_TYPES.RPC,
rpcUrl: 'http://localhost:8545',
chainId: '0x539',
},
networkDetails: {
EIPS: {
1559: false,
},
},
},
NotificationController: {
notifications: {
[NOTIFICATION_ID]: {
id: NOTIFICATION_ID,
origin: 'local:http://localhost:8086/',
createdDate: 1652967897732,
readDate: null,
message: 'Hello, http://localhost:8086!',
},
},
},
};
const ganacheServer = new Ganache();
const browserPolyfillMock = {
runtime: {
id: 'fake-extension-id',
onInstalled: {
addListener: () => undefined,
},
onMessageExternal: {
addListener: () => undefined,
},
getPlatformInfo: async () => 'mac',
},
};
let loggerMiddlewareMock;
const initializeMockMiddlewareLog = () => {
loggerMiddlewareMock = {
requests: [],
responses: [],
};
};
const tearDownMockMiddlewareLog = () => {
loggerMiddlewareMock = undefined;
};
const createLoggerMiddlewareMock = () => (req, res, next) => {
if (loggerMiddlewareMock) {
loggerMiddlewareMock.requests.push(req);
next((cb) => {
loggerMiddlewareMock.responses.push(res);
cb();
});
return;
}
next();
};
const MetaMaskController = proxyquire('./metamask-controller', {
'./lib/createLoggerMiddleware': { default: createLoggerMiddlewareMock },
}).default;
const currentNetworkId = '5';
const DEFAULT_LABEL = 'Account 1';
const TEST_SEED =
'debris dizzy just program just float decrease vacant alarm reduce speak stadium';
const TEST_ADDRESS = '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc';
const TEST_ADDRESS_2 = '0xec1adf982415d2ef5ec55899b9bfb8bc0f29251b';
const TEST_ADDRESS_3 = '0xeb9e64b93097bc15f01f13eae97015c57ab64823';
const TEST_SEED_ALT =
'setup olympic issue mobile velvet surge alcohol burger horse view reopen gentle';
const TEST_ADDRESS_ALT = '0xc42edfcc21ed14dda456aa0756c153f7985d8813';
const CUSTOM_RPC_URL = 'http://localhost:8545';
const CUSTOM_RPC_CHAIN_ID = '0x539';
describe('MetaMaskController', function () {
let metamaskController;
const sandbox = sinon.createSandbox();
const noop = () => undefined;
before(async function () {
globalThis.isFirstTimeProfileLoaded = true;
await ganacheServer.start();
sinon.spy(MetaMaskController.prototype, 'resetStates');
});
beforeEach(function () {
nock('https://min-api.cryptocompare.com')
.persist()
.get(/.*/u)
.reply(200, '{"JPY":12415.9}');
sandbox.replace(browser, 'runtime', {
sendMessage: sandbox.stub().rejects(),
});
metamaskController = new MetaMaskController({
showUserConfirmation: noop,
encryptor: {
encrypt(_, object) {
this.object = object;
return Promise.resolve('mock-encrypted');
},
decrypt() {
return Promise.resolve(this.object);
},
},
initState: cloneDeep(firstTimeState),
initLangCode: 'en_US',
platform: {
showTransactionNotification: () => undefined,
getVersion: () => 'foo',
},
browser: browserPolyfillMock,
infuraProjectId: 'foo',
});
// add sinon method spies
sandbox.spy(
metamaskController.keyringController,
'createNewVaultAndKeychain',
);
sandbox.spy(
metamaskController.keyringController,
'createNewVaultAndRestore',
);
});
afterEach(function () {
nock.cleanAll();
sandbox.restore();
});
after(async function () {
await ganacheServer.quit();
});
describe('should reset states on first time profile load', function () {
it('should reset state', function () {
assert(metamaskController.resetStates.calledOnce);
assert.equal(globalThis.isFirstTimeProfileLoaded, false);
});
it('should not reset states if already set', function () {
// global.isFirstTime should also remain false
assert.equal(globalThis.isFirstTimeProfileLoaded, false);
});
});
describe('#getAccounts', function () {
it('returns first address when dapp calls web3.eth.getAccounts', async function () {
const password = 'a-fake-password';
await metamaskController.createNewVaultAndRestore(password, TEST_SEED);
metamaskController.networkController._baseProviderParams.getAccounts(
(err, res) => {
assert.ifError(err);
assert.equal(res.length, 1);
assert.equal(res[0], '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc');
},
);
});
});
describe('#importAccountWithStrategy', function () {
const importPrivkey =
'4cfd3e90fc78b0f86bf7524722150bb8da9c60cd532564d7ff43f5716514f553';
beforeEach(async function () {
const password = 'a-fake-password';
await metamaskController.createNewVaultAndRestore(password, TEST_SEED);
await metamaskController.importAccountWithStrategy('Private Key', [
importPrivkey,
]);
});
it('adds private key to keyrings in KeyringController', async function () {
const simpleKeyrings =
metamaskController.keyringController.getKeyringsByType(
KEYRING_TYPES.IMPORTED,
);
const privKeyBuffer = simpleKeyrings[0].wallets[0].privateKey;
const pubKeyBuffer = simpleKeyrings[0].wallets[0].publicKey;
const addressBuffer = pubToAddress(pubKeyBuffer);
const privKey = bufferToHex(privKeyBuffer);
const pubKey = bufferToHex(addressBuffer);
assert.equal(privKey, addHexPrefix(importPrivkey));
assert.equal(pubKey, '0xe18035bf8712672935fdb4e5e431b1a0183d2dfc');
});
it('adds 1 account', async function () {
const keyringAccounts =
await metamaskController.keyringController.getAccounts();
assert.equal(
keyringAccounts[keyringAccounts.length - 1],
'0xe18035bf8712672935fdb4e5e431b1a0183d2dfc',
);
});
});
describe('submitPassword', function () {
it('removes any identities that do not correspond to known accounts.', async function () {
const password = 'password';
await metamaskController.createNewVaultAndKeychain(password);
const fakeAddress = '0xbad0';
metamaskController.preferencesController.addAddresses([fakeAddress]);
await metamaskController.submitPassword(password);
const identities = Object.keys(
metamaskController.preferencesController.store.getState().identities,
);
const addresses =
await metamaskController.keyringController.getAccounts();
identities.forEach((identity) => {
assert.ok(
addresses.includes(identity),
`addresses should include all IDs: ${identity}`,
);
});
addresses.forEach((address) => {
assert.ok(
identities.includes(address),
`identities should include all Addresses: ${address}`,
);
});
});
});
describe('#createNewVaultAndKeychain', function () {
it('can only create new vault on keyringController once', async function () {
const selectStub = sandbox.stub(
metamaskController,
'selectFirstIdentity',
);
const password = 'a-fake-password';
await metamaskController.createNewVaultAndKeychain(password);
await metamaskController.createNewVaultAndKeychain(password);
assert(
metamaskController.keyringController.createNewVaultAndKeychain
.calledOnce,
);
selectStub.reset();
});
});
describe('#createNewVaultAndRestore', function () {
it('should be able to call newVaultAndRestore despite a mistake.', async function () {
const password = 'what-what-what';
sandbox.stub(metamaskController, 'getBalance');
metamaskController.getBalance.callsFake(() => {
return Promise.resolve('0x0');
});
await metamaskController
.createNewVaultAndRestore(password, TEST_SEED.slice(0, -1))
.catch(() => null);
await metamaskController.createNewVaultAndRestore(password, TEST_SEED);
assert(
metamaskController.keyringController.createNewVaultAndRestore
.calledTwice,
);
});
it('should clear previous identities after vault restoration', async function () {
sandbox.stub(metamaskController, 'getBalance');
metamaskController.getBalance.callsFake(() => {
return Promise.resolve('0x0');
});
let startTime = Date.now();
await metamaskController.createNewVaultAndRestore(
'foobar1337',
TEST_SEED,
);
let endTime = Date.now();
const firstVaultIdentities = cloneDeep(
metamaskController.getState().identities,
);
assert.ok(
firstVaultIdentities[TEST_ADDRESS].lastSelected >= startTime &&
firstVaultIdentities[TEST_ADDRESS].lastSelected <= endTime,
`'${firstVaultIdentities[TEST_ADDRESS].lastSelected}' expected to be between '${startTime}' and '${endTime}'`,
);
delete firstVaultIdentities[TEST_ADDRESS].lastSelected;
assert.deepEqual(firstVaultIdentities, {
[TEST_ADDRESS]: { address: TEST_ADDRESS, name: DEFAULT_LABEL },
});
await metamaskController.preferencesController.setAccountLabel(
TEST_ADDRESS,
'Account Foo',
);
const labelledFirstVaultIdentities = cloneDeep(
metamaskController.getState().identities,
);
delete labelledFirstVaultIdentities[TEST_ADDRESS].lastSelected;
assert.deepEqual(labelledFirstVaultIdentities, {
[TEST_ADDRESS]: { address: TEST_ADDRESS, name: 'Account Foo' },
});
startTime = Date.now();
await metamaskController.createNewVaultAndRestore(
'foobar1337',
TEST_SEED_ALT,
);
endTime = Date.now();
const secondVaultIdentities = cloneDeep(
metamaskController.getState().identities,
);
assert.ok(
secondVaultIdentities[TEST_ADDRESS_ALT].lastSelected >= startTime &&
secondVaultIdentities[TEST_ADDRESS_ALT].lastSelected <= endTime,
`'${secondVaultIdentities[TEST_ADDRESS_ALT].lastSelected}' expected to be between '${startTime}' and '${endTime}'`,
);
delete secondVaultIdentities[TEST_ADDRESS_ALT].lastSelected;
assert.deepEqual(secondVaultIdentities, {
[TEST_ADDRESS_ALT]: { address: TEST_ADDRESS_ALT, name: DEFAULT_LABEL },
});
});
it('should restore any consecutive accounts with balances without extra zero balance accounts', async function () {
sandbox.stub(metamaskController, 'getBalance');
metamaskController.getBalance.withArgs(TEST_ADDRESS).callsFake(() => {
return Promise.resolve('0x14ced5122ce0a000');
});
metamaskController.getBalance.withArgs(TEST_ADDRESS_2).callsFake(() => {
return Promise.resolve('0x0');
});
metamaskController.getBalance.withArgs(TEST_ADDRESS_3).callsFake(() => {
return Promise.resolve('0x14ced5122ce0a000');
});
const startTime = Date.now();
await metamaskController.createNewVaultAndRestore(
'foobar1337',
TEST_SEED,
);
const identities = cloneDeep(metamaskController.getState().identities);
assert.ok(
identities[TEST_ADDRESS].lastSelected >= startTime &&
identities[TEST_ADDRESS].lastSelected <= Date.now(),
);
delete identities[TEST_ADDRESS].lastSelected;
assert.deepEqual(identities, {
[TEST_ADDRESS]: { address: TEST_ADDRESS, name: DEFAULT_LABEL },
});
});
});
describe('#getBalance', function () {
it('should return the balance known by accountTracker', async function () {
const accounts = {};
const balance = '0x14ced5122ce0a000';
accounts[TEST_ADDRESS] = { balance };
metamaskController.accountTracker.store.putState({ accounts });
const gotten = await metamaskController.getBalance(TEST_ADDRESS);
assert.equal(balance, gotten);
});
it('should ask the network for a balance when not known by accountTracker', async function () {
const accounts = {};
const balance = '0x14ced5122ce0a000';
const ethQuery = new EthQuery();
sinon.stub(ethQuery, 'getBalance').callsFake((_, callback) => {
callback(undefined, balance);
});
metamaskController.accountTracker.store.putState({ accounts });
const gotten = await metamaskController.getBalance(
TEST_ADDRESS,
ethQuery,
);
assert.equal(balance, gotten);
});
});
describe('#getApi', function () {
it('getState', function () {
const getApi = metamaskController.getApi();
const state = getApi.getState();
assert.deepEqual(state, metamaskController.getState());
});
});
describe('#selectFirstIdentity', function () {
let identities, address;
beforeEach(function () {
address = '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc';
identities = {
'0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc': {
address,
name: 'Account 1',
},
'0xc42edfcc21ed14dda456aa0756c153f7985d8813': {
address: '0xc42edfcc21ed14dda456aa0756c153f7985d8813',
name: 'Account 2',
},
};
metamaskController.preferencesController.store.updateState({
identities,
});
metamaskController.selectFirstIdentity();
});
it('changes preferences controller select address', function () {
const preferenceControllerState =
metamaskController.preferencesController.store.getState();
assert.equal(preferenceControllerState.selectedAddress, address);
});
it('changes metamask controller selected address', function () {
const metamaskState = metamaskController.getState();
assert.equal(metamaskState.selectedAddress, address);
});
});
describe('connectHardware', function () {
it('should throw if it receives an unknown device name', async function () {
try {
await metamaskController.connectHardware(
'Some random device name',
0,
`m/44/0'/0'`,
);
} catch (e) {
assert.equal(
e.message,
'MetamaskController:getKeyringForDevice - Unknown device',
);
}
});
it('should add the Trezor Hardware keyring', async function () {
sinon.spy(metamaskController.keyringController, 'addNewKeyring');
await metamaskController
.connectHardware(DEVICE_NAMES.TREZOR, 0)
.catch(() => null);
const keyrings =
await metamaskController.keyringController.getKeyringsByType(
KEYRING_TYPES.TREZOR,
);
assert.deepEqual(
metamaskController.keyringController.addNewKeyring.getCall(0).args,
[KEYRING_TYPES.TREZOR],
);
assert.equal(keyrings.length, 1);
});
it('should add the Ledger Hardware keyring', async function () {
sinon.spy(metamaskController.keyringController, 'addNewKeyring');
await metamaskController
.connectHardware(DEVICE_NAMES.LEDGER, 0)
.catch(() => null);
const keyrings =
await metamaskController.keyringController.getKeyringsByType(
KEYRING_TYPES.LEDGER,
);
assert.deepEqual(
metamaskController.keyringController.addNewKeyring.getCall(0).args,
[KEYRING_TYPES.LEDGER],
);
assert.equal(keyrings.length, 1);
});
});
describe('checkHardwareStatus', function () {
it('should throw if it receives an unknown device name', async function () {
try {
await metamaskController.checkHardwareStatus(
'Some random device name',
`m/44/0'/0'`,
);
} catch (e) {
assert.equal(
e.message,
'MetamaskController:getKeyringForDevice - Unknown device',
);
}
});
it('should be locked by default', async function () {
await metamaskController
.connectHardware(DEVICE_NAMES.TREZOR, 0)
.catch(() => null);
const status = await metamaskController.checkHardwareStatus(
DEVICE_NAMES.TREZOR,
);
assert.equal(status, false);
});
});
describe('forgetDevice', function () {
it('should throw if it receives an unknown device name', async function () {
try {
await metamaskController.forgetDevice('Some random device name');
} catch (e) {
assert.equal(
e.message,
'MetamaskController:getKeyringForDevice - Unknown device',
);
}
});
it('should wipe all the keyring info', async function () {
await metamaskController
.connectHardware(DEVICE_NAMES.TREZOR, 0)
.catch(() => null);
await metamaskController.forgetDevice(DEVICE_NAMES.TREZOR);
const keyrings =
await metamaskController.keyringController.getKeyringsByType(
KEYRING_TYPES.TREZOR,
);
assert.deepEqual(keyrings[0].accounts, []);
assert.deepEqual(keyrings[0].page, 0);
assert.deepEqual(keyrings[0].isUnlocked(), false);
});
});
describe('unlockHardwareWalletAccount', function () {
let accountToUnlock;
let windowOpenStub;
let addNewAccountStub;
let getAccountsStub;
beforeEach(async function () {
accountToUnlock = 10;
windowOpenStub = sinon.stub(window, 'open');
windowOpenStub.returns(noop);
addNewAccountStub = sinon.stub(
metamaskController.keyringController,
'addNewAccount',
);
addNewAccountStub.returns({});
getAccountsStub = sinon.stub(
metamaskController.keyringController,
'getAccounts',
);
// Need to return different address to mock the behavior of
// adding a new account from the keyring
getAccountsStub.onCall(0).returns(Promise.resolve(['0x1']));
getAccountsStub.onCall(1).returns(Promise.resolve(['0x2']));
getAccountsStub.onCall(2).returns(Promise.resolve(['0x3']));
getAccountsStub.onCall(3).returns(Promise.resolve(['0x4']));
sinon.spy(metamaskController.preferencesController, 'setAddresses');
sinon.spy(metamaskController.preferencesController, 'setSelectedAddress');
sinon.spy(metamaskController.preferencesController, 'setAccountLabel');
await metamaskController
.connectHardware(DEVICE_NAMES.TREZOR, 0, `m/44'/1'/0'/0`)
.catch(() => null);
await metamaskController.unlockHardwareWalletAccount(
accountToUnlock,
DEVICE_NAMES.TREZOR,
`m/44'/1'/0'/0`,
);
});
afterEach(function () {
window.open.restore();
metamaskController.keyringController.addNewAccount.restore();
metamaskController.keyringController.getAccounts.restore();
metamaskController.preferencesController.setAddresses.restore();
metamaskController.preferencesController.setSelectedAddress.restore();
metamaskController.preferencesController.setAccountLabel.restore();
});
it('should set unlockedAccount in the keyring', async function () {
const keyrings =
await metamaskController.keyringController.getKeyringsByType(
KEYRING_TYPES.TREZOR,
);
assert.equal(keyrings[0].unlockedAccount, accountToUnlock);
});
it('should call keyringController.addNewAccount', async function () {
assert(metamaskController.keyringController.addNewAccount.calledOnce);
});
it('should call keyringController.getAccounts ', async function () {
assert(metamaskController.keyringController.getAccounts.called);
});
it('should call preferencesController.setAddresses', async function () {
assert(metamaskController.preferencesController.setAddresses.calledOnce);
});
it('should call preferencesController.setSelectedAddress', async function () {
assert(
metamaskController.preferencesController.setSelectedAddress.calledOnce,
);
});
it('should call preferencesController.setAccountLabel', async function () {
assert(
metamaskController.preferencesController.setAccountLabel.calledOnce,
);
});
});
describe('#setCustomRpc', function () {
it('returns custom RPC that when called', async function () {
const rpcUrl = await metamaskController.setCustomRpc(
CUSTOM_RPC_URL,
CUSTOM_RPC_CHAIN_ID,
);
assert.equal(rpcUrl, CUSTOM_RPC_URL);
});
it('changes the network controller rpc', async function () {
await metamaskController.setCustomRpc(
CUSTOM_RPC_URL,
CUSTOM_RPC_CHAIN_ID,
);
const networkControllerState =
metamaskController.networkController.store.getState();
assert.equal(networkControllerState.provider.rpcUrl, CUSTOM_RPC_URL);
});
});
describe('#addNewAccount', function () {
it('errors when an primary keyring is does not exist', async function () {
const addNewAccount = metamaskController.addNewAccount();
try {
await addNewAccount;
assert.fail('should throw');
} catch (e) {
assert.equal(e.message, 'MetamaskController - No HD Key Tree found');
}
});
});
describe('#verifyseedPhrase', function () {
it('errors when no keying is provided', async function () {
try {
await metamaskController.verifySeedPhrase();
} catch (error) {
assert.equal(
error.message,
'MetamaskController - No HD Key Tree found',
);
}
});
beforeEach(async function () {
await metamaskController.createNewVaultAndKeychain('password');
});
it('#addNewAccount', async function () {
await metamaskController.addNewAccount(1);
const getAccounts =
await metamaskController.keyringController.getAccounts();
assert.equal(getAccounts.length, 2);
});
});
describe('#resetAccount', function () {
it('wipes transactions from only the correct network id and with the selected address', async function () {
const selectedAddressStub = sinon.stub(
metamaskController.preferencesController,
'getSelectedAddress',
);
const getNetworkstub = sinon.stub(
metamaskController.txController.txStateManager,
'getNetwork',
);
selectedAddressStub.returns('0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc');
getNetworkstub.returns(42);
metamaskController.txController.txStateManager._addTransactionsToState([
createTxMeta({
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: { from: '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc' },
}),
createTxMeta({
id: 1,
status: TRANSACTION_STATUSES.UNAPPROVED,
metamaskNetworkId: currentNetworkId,
txParams: { from: '0x0dcd5d886577d5081b0c52e242ef29e70be3e7bc' },
}),
createTxMeta({
id: 2,
status: TRANSACTION_STATUSES.REJECTED,
metamaskNetworkId: '32',
}),
createTxMeta({
id: 3,
status: TRANSACTION_STATUSES.SUBMITTED,
metamaskNetworkId: currentNetworkId,
txParams: { from: '0xB09d8505E1F4EF1CeA089D47094f5DD3464083d4' },
}),
]);
await metamaskController.resetAccount();
assert.equal(
metamaskController.txController.txStateManager.getTransaction(1),
undefined,
);
});
});
describe('#removeAccount', function () {
let ret;
const addressToRemove = '0x1';
let mockKeyring;
beforeEach(async function () {
mockKeyring = {
getAccounts: sinon.stub().returns(Promise.resolve([])),
destroy: sinon.stub(),
};
sinon.stub(metamaskController.preferencesController, 'removeAddress');
sinon.stub(metamaskController.accountTracker, 'removeAccount');
sinon.stub(metamaskController.keyringController, 'removeAccount');
sinon.stub(metamaskController, 'removeAllAccountPermissions');
sinon
.stub(metamaskController.keyringController, 'getKeyringForAccount')
.returns(Promise.resolve(mockKeyring));
ret = await metamaskController.removeAccount(addressToRemove);
});
afterEach(function () {
metamaskController.keyringController.removeAccount.restore();
metamaskController.accountTracker.removeAccount.restore();
metamaskController.preferencesController.removeAddress.restore();
metamaskController.removeAllAccountPermissions.restore();
mockKeyring.getAccounts.resetHistory();
mockKeyring.destroy.resetHistory();
});
it('should call preferencesController.removeAddress', async function () {
assert(
metamaskController.preferencesController.removeAddress.calledWith(
addressToRemove,
),
);
});
it('should call accountTracker.removeAccount', async function () {
assert(
metamaskController.accountTracker.removeAccount.calledWith([
addressToRemove,
]),
);
});
it('should call keyringController.removeAccount', async function () {
assert(
metamaskController.keyringController.removeAccount.calledWith(
addressToRemove,
),
);
});
it('should call metamaskController.removeAllAccountPermissions', async function () {
assert(
metamaskController.removeAllAccountPermissions.calledWith(
addressToRemove,
),
);
});
it('should return address', async function () {
assert.equal(ret, '0x1');
});
it('should call keyringController.getKeyringForAccount', async function () {
assert(
metamaskController.keyringController.getKeyringForAccount.calledWith(
addressToRemove,
),
);
});
it('should call keyring.destroy', async function () {
assert(mockKeyring.destroy.calledOnce);
});
});
describe('#newUnsignedMessage', function () {
let msgParams, metamaskMsgs, messages, msgId;
const address = '0xc42edfcc21ed14dda456aa0756c153f7985d8813';
const data =
'0x0000000000000000000000000000000000000043727970746f6b697474696573';
beforeEach(async function () {
sandbox.stub(metamaskController, 'getBalance');
metamaskController.getBalance.callsFake(() => {
return Promise.resolve('0x0');
});
await metamaskController.createNewVaultAndRestore(
'foobar1337',
TEST_SEED_ALT,
);
msgParams = {
from: address,
data,
};
const promise = metamaskController.newUnsignedMessage(msgParams);
// handle the promise so it doesn't throw an unhandledRejection
promise.then(noop).catch(noop);
metamaskMsgs = metamaskController.messageManager.getUnapprovedMsgs();
messages = metamaskController.messageManager.messages;
msgId = Object.keys(metamaskMsgs)[0];
messages[0].msgParams.metamaskId = parseInt(msgId, 10);
});
it('persists address from msg params', function () {
assert.equal(metamaskMsgs[msgId].msgParams.from, address);
});
it('persists data from msg params', function () {
assert.equal(metamaskMsgs[msgId].msgParams.data, data);
});
it('sets the status to unapproved', function () {
assert.equal(metamaskMsgs[msgId].status, TRANSACTION_STATUSES.UNAPPROVED);
});
it('sets the type to eth_sign', function () {
assert.equal(metamaskMsgs[msgId].type, 'eth_sign');
});
it('rejects the message', function () {
const msgIdInt = parseInt(msgId, 10);
metamaskController.cancelMessage(msgIdInt, noop);
assert.equal(messages[0].status, TRANSACTION_STATUSES.REJECTED);
});
it('checks message length', async function () {
msgParams = {
from: address,
data: '0xDEADBEEF',
};
try {
await metamaskController.newUnsignedMessage(msgParams);
} catch (error) {
assert.equal(error.message, 'eth_sign requires 32 byte message hash');
}
});
it('errors when signing a message', async function () {
try {
await metamaskController.signMessage(messages[0].msgParams);
} catch (error) {
assert.equal(
error.message,
'Expected message to be an Uint8Array with length 32',
);
}
});
});
describe('#newUnsignedPersonalMessage', function () {
let msgParams, metamaskPersonalMsgs, personalMessages, msgId;
const address = '0xc42edfcc21ed14dda456aa0756c153f7985d8813';
const data = '0x43727970746f6b697474696573';
beforeEach(async function () {
sandbox.stub(metamaskController, 'getBalance');
metamaskController.getBalance.callsFake(() => {
return Promise.resolve('0x0');
});
await metamaskController.createNewVaultAndRestore(
'foobar1337',
TEST_SEED_ALT,
);
msgParams = {
from: address,
data,
};
const promise = metamaskController.newUnsignedPersonalMessage(msgParams);
// handle the promise so it doesn't throw an unhandledRejection
promise.then(noop).catch(noop);
metamaskPersonalMsgs =
metamaskController.personalMessageManager.getUnapprovedMsgs();
personalMessages = metamaskController.personalMessageManager.messages;
msgId = Object.keys(metamaskPersonalMsgs)[0];
personalMessages[0].msgParams.metamaskId = parseInt(msgId, 10);
});
it('errors with no from in msgParams', async function () {
try {
await metamaskController.newUnsignedPersonalMessage({
data,
});
assert.fail('should have thrown');
} catch (error) {
assert.equal(
error.message,
'MetaMask Message Signature: from field is required.',
);
}
});
it('persists address from msg params', function () {
assert.equal(metamaskPersonalMsgs[msgId].msgParams.from, address);
});
it('persists data from msg params', function () {
assert.equal(metamaskPersonalMsgs[msgId].msgParams.data, data);
});
it('sets the status to unapproved', function () {
assert.equal(
metamaskPersonalMsgs[msgId].status,
TRANSACTION_STATUSES.UNAPPROVED,
);
});
it('sets the type to personal_sign', function () {
assert.equal(metamaskPersonalMsgs[msgId].type, 'personal_sign');
});
it('rejects the message', function () {
const msgIdInt = parseInt(msgId, 10);
metamaskController.cancelPersonalMessage(msgIdInt, noop);
assert.equal(personalMessages[0].status, TRANSACTION_STATUSES.REJECTED);
});
it('errors when signing a message', async function () {
await metamaskController.signPersonalMessage(
personalMessages[0].msgParams,
);
assert.equal(
metamaskPersonalMsgs[msgId].status,
TRANSACTION_STATUSES.SIGNED,
);
assert.equal(
metamaskPersonalMsgs[msgId].rawSig,
'0x6a1b65e2b8ed53cf398a769fad24738f9fbe29841fe6854e226953542c4b6a173473cb152b6b1ae5f06d601d45dd699a129b0a8ca84e78b423031db5baa734741b',
);
});
});
describe('#setupUntrustedCommunication', function () {
const mockTxParams = { from: TEST_ADDRESS };
beforeEach(function () {
initializeMockMiddlewareLog();
});
after(function () {
tearDownMockMiddlewareLog();
});
it('sets up phishing stream for untrusted communication', async function () {
const phishingMessageSender = {
url: 'http://myethereumwalletntw.com',
tab: {},
};
const { promise, resolve } = deferredPromise();
const streamTest = createThoughStream((chunk, _, cb) => {
if (chunk.name !== 'phishing') {
cb();
return;
}
assert.equal(
chunk.data.hostname,
new URL(phishingMessageSender.url).hostname,
);
resolve();
cb();
});
metamaskController.setupUntrustedCommunication({
connectionStream: streamTest,
sender: phishingMessageSender,
});
await promise;
streamTest.end();
});
it('adds a tabId and origin to requests', function (done) {
const messageSender = {
url: 'http://mycrypto.com',
tab: { id: 456 },
};
const streamTest = createThoughStream((chunk, _, cb) => {
if (chunk.data && chunk.data.method) {
cb(null, chunk);
return;
}
cb();
});
metamaskController.setupUntrustedCommunication({
connectionStream: streamTest,
sender: messageSender,
});
const message = {
id: 1999133338649204,
jsonrpc: '2.0',
params: [{ ...mockTxParams }],
method: 'eth_sendTransaction',
};
streamTest.write(
{
name: 'metamask-provider',
data: message,
},
null,
() => {
setTimeout(() => {
assert.deepStrictEqual(loggerMiddlewareMock.requests[0], {
...message,
origin: 'http://mycrypto.com',
tabId: 456,
});
done();
});
},
);
});
it('should add only origin to request if tabId not provided', function (done) {
const messageSender = {
url: 'http://mycrypto.com',
};
const streamTest = createThoughStream((chunk, _, cb) => {
if (chunk.data && chunk.data.method) {
cb(null, chunk);
return;
}
cb();
});
metamaskController.setupUntrustedCommunication({
connectionStream: streamTest,
sender: messageSender,
});
const message = {
id: 1999133338649204,
jsonrpc: '2.0',
params: [{ ...mockTxParams }],
method: 'eth_sendTransaction',
};
streamTest.write(
{
name: 'metamask-provider',
data: message,
},
null,
() => {
setTimeout(() => {
assert.deepStrictEqual(loggerMiddlewareMock.requests[0], {
...message,
origin: 'http://mycrypto.com',
});
done();
});
},
);
});
});
describe('#setupTrustedCommunication', function () {
it('sets up controller JSON-RPC api for trusted communication', async function () {
const messageSender = {
url: 'http://mycrypto.com',
tab: {},
};
const { promise, resolve } = deferredPromise();
const streamTest = createThoughStream((chunk, _, cb) => {
assert.equal(chunk.name, 'controller');
resolve();
cb();
});
metamaskController.setupTrustedCommunication(streamTest, messageSender);
await promise;
streamTest.end();
});
});
describe('#markPasswordForgotten', function () {
it('adds and sets forgottenPassword to config data to true', function () {
metamaskController.markPasswordForgotten(noop);
const state = metamaskController.getState();
assert.equal(state.forgottenPassword, true);
});
});
describe('#unMarkPasswordForgotten', function () {
it('adds and sets forgottenPassword to config data to false', function () {
metamaskController.unMarkPasswordForgotten(noop);
const state = metamaskController.getState();
assert.equal(state.forgottenPassword, false);
});
});
describe('#_onKeyringControllerUpdate', function () {
it('should do nothing if there are no keyrings in state', async function () {
const syncAddresses = sinon.fake();
const syncWithAddresses = sinon.fake();
sandbox.replace(metamaskController, 'preferencesController', {
syncAddresses,
});
sandbox.replace(metamaskController, 'accountTracker', {
syncWithAddresses,
});
const oldState = metamaskController.getState();
await metamaskController._onKeyringControllerUpdate({ keyrings: [] });
assert.ok(syncAddresses.notCalled);
assert.ok(syncWithAddresses.notCalled);
assert.deepEqual(metamaskController.getState(), oldState);
});
it('should sync addresses if there are keyrings in state', async function () {
const syncAddresses = sinon.fake();
const syncWithAddresses = sinon.fake();
sandbox.replace(metamaskController, 'preferencesController', {
syncAddresses,
});
sandbox.replace(metamaskController, 'accountTracker', {
syncWithAddresses,
});
const oldState = metamaskController.getState();
await metamaskController._onKeyringControllerUpdate({
keyrings: [
{
accounts: ['0x1', '0x2'],
},
],
});
assert.deepEqual(syncAddresses.args, [[['0x1', '0x2']]]);
assert.deepEqual(syncWithAddresses.args, [[['0x1', '0x2']]]);
assert.deepEqual(metamaskController.getState(), oldState);
});
it('should NOT update selected address if already unlocked', async function () {
const syncAddresses = sinon.fake();
const syncWithAddresses = sinon.fake();
sandbox.replace(metamaskController, 'preferencesController', {
syncAddresses,
});
sandbox.replace(metamaskController, 'accountTracker', {
syncWithAddresses,
});
const oldState = metamaskController.getState();
await metamaskController._onKeyringControllerUpdate({
isUnlocked: true,
keyrings: [
{
accounts: ['0x1', '0x2'],
},
],
});
assert.deepEqual(syncAddresses.args, [[['0x1', '0x2']]]);
assert.deepEqual(syncWithAddresses.args, [[['0x1', '0x2']]]);
assert.deepEqual(metamaskController.getState(), oldState);
});
});
describe('markNotificationsAsRead', function () {
it('marks the notification as read', function () {
metamaskController.markNotificationsAsRead([NOTIFICATION_ID]);
const readNotification =
metamaskController.getState().notifications[NOTIFICATION_ID];
assert.notEqual(readNotification.readDate, null);
});
});
describe('dismissNotifications', function () {
it('deletes the notification from state', function () {
metamaskController.dismissNotifications([NOTIFICATION_ID]);
const state = metamaskController.getState().notifications;
assert.ok(
!Object.values(state).includes(NOTIFICATION_ID),
'Object should not include the deleted notification',
);
});
});
});