A Metamask fork with Infura removed and default networks editable
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ciphermask/app/scripts/metamask-controller.js

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92 KiB

import EventEmitter from 'events';
import pump from 'pump';
import { ObservableStore } from '@metamask/obs-store';
import { storeAsStream } from '@metamask/obs-store/dist/asStream';
import { JsonRpcEngine } from 'json-rpc-engine';
import { debounce } from 'lodash';
import createEngineStream from 'json-rpc-middleware-stream/engineStream';
import createFilterMiddleware from 'eth-json-rpc-filters';
import createSubscriptionManager from 'eth-json-rpc-filters/subscriptionManager';
import providerAsMiddleware from 'eth-json-rpc-middleware/providerAsMiddleware';
import KeyringController from 'eth-keyring-controller';
import { Mutex } from 'await-semaphore';
import { stripHexPrefix } from 'ethereumjs-util';
import log from 'loglevel';
import TrezorKeyring from 'eth-trezor-keyring';
import LedgerBridgeKeyring from '@metamask/eth-ledger-bridge-keyring';
import EthQuery from 'eth-query';
import nanoid from 'nanoid';
import contractMap from '@metamask/contract-metadata';
import {
AddressBookController,
ApprovalController,
CurrencyRateController,
PhishingController,
NotificationController,
} from '@metamask/controllers';
import { TRANSACTION_STATUSES } from '../../shared/constants/transaction';
import { MAINNET_CHAIN_ID } from '../../shared/constants/network';
import { UI_NOTIFICATIONS } from '../../shared/notifications';
import { toChecksumHexAddress } from '../../shared/modules/hexstring-utils';
import ComposableObservableStore from './lib/ComposableObservableStore';
import AccountTracker from './lib/account-tracker';
import createLoggerMiddleware from './lib/createLoggerMiddleware';
import createMethodMiddleware from './lib/rpc-method-middleware';
import createOriginMiddleware from './lib/createOriginMiddleware';
import createTabIdMiddleware from './lib/createTabIdMiddleware';
import createOnboardingMiddleware from './lib/createOnboardingMiddleware';
import { setupMultiplex } from './lib/stream-utils';
import EnsController from './controllers/ens';
import NetworkController, { NETWORK_EVENTS } from './controllers/network';
import PreferencesController from './controllers/preferences';
import AppStateController from './controllers/app-state';
import CachedBalancesController from './controllers/cached-balances';
import AlertController from './controllers/alert';
import OnboardingController from './controllers/onboarding';
import ThreeBoxController from './controllers/threebox';
import IncomingTransactionsController from './controllers/incoming-transactions';
import MessageManager from './lib/message-manager';
import DecryptMessageManager from './lib/decrypt-message-manager';
import EncryptionPublicKeyManager from './lib/encryption-public-key-manager';
import PersonalMessageManager from './lib/personal-message-manager';
import TypedMessageManager from './lib/typed-message-manager';
import TransactionController from './controllers/transactions';
import TokenRatesController from './controllers/token-rates';
import DetectTokensController from './controllers/detect-tokens';
import SwapsController from './controllers/swaps';
import { PermissionsController } from './controllers/permissions';
import { NOTIFICATION_NAMES } from './controllers/permissions/enums';
import getRestrictedMethods from './controllers/permissions/restrictedMethods';
import nodeify from './lib/nodeify';
import accountImporter from './account-import-strategies';
import seedPhraseVerifier from './lib/seed-phrase-verifier';
import MetaMetricsController from './controllers/metametrics';
import { segment } from './lib/segment';
import createMetaRPCHandler from './lib/createMetaRPCHandler';
export const METAMASK_CONTROLLER_EVENTS = {
// Fired after state changes that impact the extension badge (unapproved msg count)
// The process of updating the badge happens in app/scripts/background.js.
UPDATE_BADGE: 'updateBadge',
};
export default class MetamaskController extends EventEmitter {
/**
* @constructor
* @param {Object} opts
*/
constructor(opts) {
super();
this.defaultMaxListeners = 20;
this.sendUpdate = debounce(this.privateSendUpdate.bind(this), 200);
this.opts = opts;
this.extension = opts.extension;
this.platform = opts.platform;
const initState = opts.initState || {};
const version = this.platform.getVersion();
this.recordFirstTimeInfo(initState);
// this keeps track of how many "controllerStream" connections are open
// the only thing that uses controller connections are open metamask UI instances
this.activeControllerConnections = 0;
this.getRequestAccountTabIds = opts.getRequestAccountTabIds;
this.getOpenMetamaskTabsIds = opts.getOpenMetamaskTabsIds;
// observable state store
this.store = new ComposableObservableStore(initState);
// external connections by origin
// Do not modify directly. Use the associated methods.
this.connections = {};
// lock to ensure only one vault created at once
this.createVaultMutex = new Mutex();
this.extension.runtime.onInstalled.addListener((details) => {
if (details.reason === 'update' && version === '8.1.0') {
this.platform.openExtensionInBrowser();
}
});
// next, we will initialize the controllers
// controller initialization order matters
this.approvalController = new ApprovalController({
showApprovalRequest: opts.showUserConfirmation,
});
this.networkController = new NetworkController(initState.NetworkController);
this.networkController.setInfuraProjectId(opts.infuraProjectId);
this.preferencesController = new PreferencesController({
initState: initState.PreferencesController,
initLangCode: opts.initLangCode,
openPopup: opts.openPopup,
network: this.networkController,
migrateAddressBookState: this.migrateAddressBookState.bind(this),
});
this.metaMetricsController = new MetaMetricsController({
segment,
preferencesStore: this.preferencesController.store,
onNetworkDidChange: this.networkController.on.bind(
this.networkController,
NETWORK_EVENTS.NETWORK_DID_CHANGE,
),
getNetworkIdentifier: this.networkController.getNetworkIdentifier.bind(
this.networkController,
),
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
version: this.platform.getVersion(),
environment: process.env.METAMASK_ENVIRONMENT,
initState: initState.MetaMetricsController,
});
this.appStateController = new AppStateController({
addUnlockListener: this.on.bind(this, 'unlock'),
isUnlocked: this.isUnlocked.bind(this),
initState: initState.AppStateController,
onInactiveTimeout: () => this.setLocked(),
showUnlockRequest: opts.showUserConfirmation,
preferencesStore: this.preferencesController.store,
});
this.currencyRateController = new CurrencyRateController(
{ includeUSDRate: true },
initState.CurrencyController,
);
this.phishingController = new PhishingController();
this.notificationController = new NotificationController(
{ allNotifications: UI_NOTIFICATIONS },
initState.NotificationController,
);
// now we can initialize the RPC provider, which other controllers require
this.initializeProvider();
this.provider = this.networkController.getProviderAndBlockTracker().provider;
this.blockTracker = this.networkController.getProviderAndBlockTracker().blockTracker;
// token exchange rate tracker
this.tokenRatesController = new TokenRatesController({
preferences: this.preferencesController.store,
getNativeCurrency: () => {
const { ticker } = this.networkController.getProviderConfig();
return ticker ?? 'ETH';
},
});
this.ensController = new EnsController({
provider: this.provider,
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
onNetworkDidChange: this.networkController.on.bind(
this.networkController,
NETWORK_EVENTS.NETWORK_DID_CHANGE,
),
});
this.incomingTransactionsController = new IncomingTransactionsController({
blockTracker: this.blockTracker,
onNetworkDidChange: this.networkController.on.bind(
this.networkController,
NETWORK_EVENTS.NETWORK_DID_CHANGE,
),
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
preferencesController: this.preferencesController,
initState: initState.IncomingTransactionsController,
});
// account tracker watches balances, nonces, and any code at their address
this.accountTracker = new AccountTracker({
provider: this.provider,
blockTracker: this.blockTracker,
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
});
// start and stop polling for balances based on activeControllerConnections
this.on('controllerConnectionChanged', (activeControllerConnections) => {
if (activeControllerConnections > 0) {
this.accountTracker.start();
this.incomingTransactionsController.start();
this.tokenRatesController.start();
} else {
this.accountTracker.stop();
this.incomingTransactionsController.stop();
this.tokenRatesController.stop();
}
});
this.cachedBalancesController = new CachedBalancesController({
accountTracker: this.accountTracker,
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
initState: initState.CachedBalancesController,
});
this.onboardingController = new OnboardingController({
initState: initState.OnboardingController,
preferencesController: this.preferencesController,
});
const additionalKeyrings = [TrezorKeyring, LedgerBridgeKeyring];
this.keyringController = new KeyringController({
keyringTypes: additionalKeyrings,
initState: initState.KeyringController,
encryptor: opts.encryptor || undefined,
});
this.keyringController.memStore.subscribe((state) =>
this._onKeyringControllerUpdate(state),
);
this.keyringController.on('unlock', () => this.emit('unlock'));
this.keyringController.on('lock', () => this._onLock());
this.permissionsController = new PermissionsController(
{
approvals: this.approvalController,
getKeyringAccounts: this.keyringController.getAccounts.bind(
this.keyringController,
),
getRestrictedMethods,
getUnlockPromise: this.appStateController.getUnlockPromise.bind(
this.appStateController,
),
isUnlocked: this.isUnlocked.bind(this),
notifyDomain: this.notifyConnections.bind(this),
notifyAllDomains: this.notifyAllConnections.bind(this),
preferences: this.preferencesController.store,
},
initState.PermissionsController,
initState.PermissionsMetadata,
);
this.detectTokensController = new DetectTokensController({
preferences: this.preferencesController,
network: this.networkController,
keyringMemStore: this.keyringController.memStore,
});
this.addressBookController = new AddressBookController(
undefined,
initState.AddressBookController,
);
this.alertController = new AlertController({
initState: initState.AlertController,
preferencesStore: this.preferencesController.store,
});
this.threeBoxController = new ThreeBoxController({
preferencesController: this.preferencesController,
addressBookController: this.addressBookController,
keyringController: this.keyringController,
initState: initState.ThreeBoxController,
getKeyringControllerState: this.keyringController.memStore.getState.bind(
this.keyringController.memStore,
),
version,
});
this.txController = new TransactionController({
initState:
initState.TransactionController || initState.TransactionManager,
getPermittedAccounts: this.permissionsController.getAccounts.bind(
this.permissionsController,
),
networkStore: this.networkController.networkStore,
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
preferencesStore: this.preferencesController.store,
txHistoryLimit: 40,
signTransaction: this.keyringController.signTransaction.bind(
this.keyringController,
),
provider: this.provider,
blockTracker: this.blockTracker,
trackMetaMetricsEvent: this.metaMetricsController.trackEvent.bind(
this.metaMetricsController,
),
getParticipateInMetrics: () =>
this.metaMetricsController.state.participateInMetaMetrics,
});
this.txController.on('newUnapprovedTx', () => opts.showUserConfirmation());
this.txController.on(`tx:status-update`, async (txId, status) => {
if (
status === TRANSACTION_STATUSES.CONFIRMED ||
status === TRANSACTION_STATUSES.FAILED
) {
const txMeta = this.txController.txStateManager.getTransaction(txId);
const frequentRpcListDetail = this.preferencesController.getFrequentRpcListDetail();
let rpcPrefs = {};
if (txMeta.chainId) {
const rpcSettings = frequentRpcListDetail.find(
(rpc) => txMeta.chainId === rpc.chainId,
);
rpcPrefs = rpcSettings?.rpcPrefs ?? {};
}
this.platform.showTransactionNotification(txMeta, rpcPrefs);
const { txReceipt } = txMeta;
const metamaskState = await this.getState();
if (txReceipt && txReceipt.status === '0x0') {
this.metaMetricsController.trackEvent(
{
event: 'Tx Status Update: On-Chain Failure',
category: 'Background',
properties: {
action: 'Transactions',
errorMessage: txMeta.simulationFails?.reason,
numberOfTokens: metamaskState.tokens.length,
numberOfAccounts: Object.keys(metamaskState.accounts).length,
},
},
{
matomoEvent: true,
},
);
}
}
});
this.networkController.on(NETWORK_EVENTS.NETWORK_DID_CHANGE, () => {
this.setCurrentCurrency(
this.currencyRateController.state.currentCurrency,
(error) => {
if (error) {
throw error;
}
},
);
});
const { ticker } = this.networkController.getProviderConfig();
this.currencyRateController.configure({ nativeCurrency: ticker ?? 'ETH' });
this.networkController.lookupNetwork();
this.messageManager = new MessageManager();
this.personalMessageManager = new PersonalMessageManager();
this.decryptMessageManager = new DecryptMessageManager();
this.encryptionPublicKeyManager = new EncryptionPublicKeyManager();
this.typedMessageManager = new TypedMessageManager({
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
});
this.swapsController = new SwapsController({
getBufferedGasLimit: this.txController.txGasUtil.getBufferedGasLimit.bind(
this.txController.txGasUtil,
),
networkController: this.networkController,
provider: this.provider,
getProviderConfig: this.networkController.getProviderConfig.bind(
this.networkController,
),
tokenRatesStore: this.tokenRatesController.store,
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
});
// ensure accountTracker updates balances after network change
this.networkController.on(NETWORK_EVENTS.NETWORK_DID_CHANGE, () => {
this.accountTracker._updateAccounts();
});
// clear unapproved transactions and messages when the network will change
this.networkController.on(NETWORK_EVENTS.NETWORK_WILL_CHANGE, () => {
this.txController.txStateManager.clearUnapprovedTxs();
this.encryptionPublicKeyManager.clearUnapproved();
this.personalMessageManager.clearUnapproved();
this.typedMessageManager.clearUnapproved();
this.decryptMessageManager.clearUnapproved();
this.messageManager.clearUnapproved();
});
// ensure isClientOpenAndUnlocked is updated when memState updates
this.on('update', (memState) => this._onStateUpdate(memState));
this.store.updateStructure({
AppStateController: this.appStateController.store,
TransactionController: this.txController.store,
KeyringController: this.keyringController.store,
PreferencesController: this.preferencesController.store,
MetaMetricsController: this.metaMetricsController.store,
AddressBookController: this.addressBookController,
CurrencyController: this.currencyRateController,
NetworkController: this.networkController.store,
CachedBalancesController: this.cachedBalancesController.store,
AlertController: this.alertController.store,
OnboardingController: this.onboardingController.store,
IncomingTransactionsController: this.incomingTransactionsController.store,
PermissionsController: this.permissionsController.permissions,
PermissionsMetadata: this.permissionsController.store,
ThreeBoxController: this.threeBoxController.store,
NotificationController: this.notificationController,
});
this.memStore = new ComposableObservableStore(null, {
AppStateController: this.appStateController.store,
NetworkController: this.networkController.store,
AccountTracker: this.accountTracker.store,
TxController: this.txController.memStore,
CachedBalancesController: this.cachedBalancesController.store,
TokenRatesController: this.tokenRatesController.store,
MessageManager: this.messageManager.memStore,
PersonalMessageManager: this.personalMessageManager.memStore,
DecryptMessageManager: this.decryptMessageManager.memStore,
EncryptionPublicKeyManager: this.encryptionPublicKeyManager.memStore,
TypesMessageManager: this.typedMessageManager.memStore,
KeyringController: this.keyringController.memStore,
PreferencesController: this.preferencesController.store,
MetaMetricsController: this.metaMetricsController.store,
AddressBookController: this.addressBookController,
CurrencyController: this.currencyRateController,
AlertController: this.alertController.store,
OnboardingController: this.onboardingController.store,
IncomingTransactionsController: this.incomingTransactionsController.store,
PermissionsController: this.permissionsController.permissions,
PermissionsMetadata: this.permissionsController.store,
ThreeBoxController: this.threeBoxController.store,
SwapsController: this.swapsController.store,
EnsController: this.ensController.store,
ApprovalController: this.approvalController,
NotificationController: this.notificationController,
});
this.memStore.subscribe(this.sendUpdate.bind(this));
const password = process.env.CONF?.password;
if (
password &&
!this.isUnlocked() &&
this.onboardingController.completedOnboarding
) {
this.submitPassword(password);
}
// Lazily update the store with the current extension environment
this.extension.runtime.getPlatformInfo(({ os }) => {
this.appStateController.setBrowserEnvironment(
os,
// This method is presently only supported by Firefox
this.extension.runtime.getBrowserInfo === undefined
? 'chrome'
: 'firefox',
);
});
// TODO:LegacyProvider: Delete
this.publicConfigStore = this.createPublicConfigStore();
}
/**
* Constructor helper: initialize a provider.
*/
initializeProvider() {
const version = this.platform.getVersion();
const providerOpts = {
static: {
eth_syncing: false,
web3_clientVersion: `MetaMask/v${version}`,
},
version,
// account mgmt
getAccounts: async ({ origin }) => {
if (origin === 'metamask') {
const selectedAddress = this.preferencesController.getSelectedAddress();
return selectedAddress ? [selectedAddress] : [];
} else if (this.isUnlocked()) {
return await this.permissionsController.getAccounts(origin);
}
return []; // changing this is a breaking change
},
// tx signing
processTransaction: this.newUnapprovedTransaction.bind(this),
// msg signing
processEthSignMessage: this.newUnsignedMessage.bind(this),
processTypedMessage: this.newUnsignedTypedMessage.bind(this),
processTypedMessageV3: this.newUnsignedTypedMessage.bind(this),
processTypedMessageV4: this.newUnsignedTypedMessage.bind(this),
processPersonalMessage: this.newUnsignedPersonalMessage.bind(this),
processDecryptMessage: this.newRequestDecryptMessage.bind(this),
processEncryptionPublicKey: this.newRequestEncryptionPublicKey.bind(this),
getPendingNonce: this.getPendingNonce.bind(this),
getPendingTransactionByHash: (hash) =>
this.txController.getTransactions({
searchCriteria: {
hash,
status: TRANSACTION_STATUSES.SUBMITTED,
},
})[0],
};
const providerProxy = this.networkController.initializeProvider(
providerOpts,
);
return providerProxy;
}
/**
* TODO:LegacyProvider: Delete
* Constructor helper: initialize a public config store.
* This store is used to make some config info available to Dapps synchronously.
*/
createPublicConfigStore() {
// subset of state for metamask inpage provider
const publicConfigStore = new ObservableStore();
const { networkController } = this;
// setup memStore subscription hooks
this.on('update', updatePublicConfigStore);
updatePublicConfigStore(this.getState());
function updatePublicConfigStore(memState) {
const chainId = networkController.getCurrentChainId();
if (memState.network !== 'loading') {
publicConfigStore.putState(selectPublicState(chainId, memState));
}
}
function selectPublicState(chainId, { isUnlocked, network }) {
return {
isUnlocked,
chainId,
networkVersion: network,
};
}
return publicConfigStore;
}
/**
* Gets relevant state for the provider of an external origin.
*
* @param {string} origin - The origin to get the provider state for.
* @returns {Promise<{
* isUnlocked: boolean,
* networkVersion: string,
* chainId: string,
* accounts: string[],
* }>} An object with relevant state properties.
*/
async getProviderState(origin) {
return {
isUnlocked: this.isUnlocked(),
...this.getProviderNetworkState(),
accounts: await this.permissionsController.getAccounts(origin),
};
}
/**
* Gets network state relevant for external providers.
*
* @param {Object} [memState] - The MetaMask memState. If not provided,
* this function will retrieve the most recent state.
* @returns {Object} An object with relevant network state properties.
*/
getProviderNetworkState(memState) {
const { network } = memState || this.getState();
return {
chainId: this.networkController.getCurrentChainId(),
networkVersion: network,
};
}
//=============================================================================
// EXPOSED TO THE UI SUBSYSTEM
//=============================================================================
/**
* The metamask-state of the various controllers, made available to the UI
*
* @returns {Object} status
*/
getState() {
const { vault } = this.keyringController.store.getState();
const isInitialized = Boolean(vault);
return {
isInitialized,
...this.memStore.getFlatState(),
};
}
/**
* Returns an Object containing API Callback Functions.
* These functions are the interface for the UI.
* The API object can be transmitted over a stream via JSON-RPC.
*
* @returns {Object} Object containing API functions.
*/
getApi() {
const {
alertController,
approvalController,
keyringController,
metaMetricsController,
networkController,
onboardingController,
permissionsController,
preferencesController,
swapsController,
threeBoxController,
txController,
} = this;
return {
// etc
getState: (cb) => cb(null, this.getState()),
setCurrentCurrency: this.setCurrentCurrency.bind(this),
setUseBlockie: this.setUseBlockie.bind(this),
setUseNonceField: this.setUseNonceField.bind(this),
setUsePhishDetect: this.setUsePhishDetect.bind(this),
setIpfsGateway: this.setIpfsGateway.bind(this),
setParticipateInMetaMetrics: this.setParticipateInMetaMetrics.bind(this),
setMetaMetricsSendCount: this.setMetaMetricsSendCount.bind(this),
setFirstTimeFlowType: this.setFirstTimeFlowType.bind(this),
setCurrentLocale: this.setCurrentLocale.bind(this),
markPasswordForgotten: this.markPasswordForgotten.bind(this),
unMarkPasswordForgotten: this.unMarkPasswordForgotten.bind(this),
safelistPhishingDomain: this.safelistPhishingDomain.bind(this),
getRequestAccountTabIds: (cb) => cb(null, this.getRequestAccountTabIds()),
getOpenMetamaskTabsIds: (cb) => cb(null, this.getOpenMetamaskTabsIds()),
// primary HD keyring management
addNewAccount: nodeify(this.addNewAccount, this),
verifySeedPhrase: nodeify(this.verifySeedPhrase, this),
resetAccount: nodeify(this.resetAccount, this),
removeAccount: nodeify(this.removeAccount, this),
importAccountWithStrategy: nodeify(this.importAccountWithStrategy, this),
// hardware wallets
connectHardware: nodeify(this.connectHardware, this),
forgetDevice: nodeify(this.forgetDevice, this),
checkHardwareStatus: nodeify(this.checkHardwareStatus, this),
unlockHardwareWalletAccount: nodeify(
this.unlockHardwareWalletAccount,
this,
),
setLedgerLivePreference: nodeify(this.setLedgerLivePreference, this),
// mobile
fetchInfoToSync: nodeify(this.fetchInfoToSync, this),
// vault management
submitPassword: nodeify(this.submitPassword, this),
verifyPassword: nodeify(this.verifyPassword, this),
// network management
setProviderType: nodeify(
networkController.setProviderType,
networkController,
),
rollbackToPreviousProvider: nodeify(
networkController.rollbackToPreviousProvider,
networkController,
),
setCustomRpc: nodeify(this.setCustomRpc, this),
updateAndSetCustomRpc: nodeify(this.updateAndSetCustomRpc, this),
delCustomRpc: nodeify(this.delCustomRpc, this),
// PreferencesController
setSelectedAddress: nodeify(
preferencesController.setSelectedAddress,
preferencesController,
),
addToken: nodeify(preferencesController.addToken, preferencesController),
removeToken: nodeify(
preferencesController.removeToken,
preferencesController,
),
removeSuggestedTokens: nodeify(
preferencesController.removeSuggestedTokens,
preferencesController,
),
setAccountLabel: nodeify(
preferencesController.setAccountLabel,
preferencesController,
),
setFeatureFlag: nodeify(
preferencesController.setFeatureFlag,
preferencesController,
),
setPreference: nodeify(
preferencesController.setPreference,
preferencesController,
),
completeOnboarding: nodeify(
preferencesController.completeOnboarding,
preferencesController,
),
addKnownMethodData: nodeify(
preferencesController.addKnownMethodData,
preferencesController,
),
setDismissSeedBackUpReminder: nodeify(
this.preferencesController.setDismissSeedBackUpReminder,
this.preferencesController,
),
// AddressController
setAddressBook: nodeify(
this.addressBookController.set,
this.addressBookController,
),
removeFromAddressBook: nodeify(
this.addressBookController.delete,
this.addressBookController,
),
// AppStateController
setLastActiveTime: nodeify(
this.appStateController.setLastActiveTime,
this.appStateController,
),
setDefaultHomeActiveTabName: nodeify(
this.appStateController.setDefaultHomeActiveTabName,
this.appStateController,
),
setConnectedStatusPopoverHasBeenShown: nodeify(
this.appStateController.setConnectedStatusPopoverHasBeenShown,
this.appStateController,
),
// EnsController
tryReverseResolveAddress: nodeify(
this.ensController.reverseResolveAddress,
this.ensController,
),
// KeyringController
setLocked: nodeify(this.setLocked, this),
createNewVaultAndKeychain: nodeify(this.createNewVaultAndKeychain, this),
createNewVaultAndRestore: nodeify(this.createNewVaultAndRestore, this),
exportAccount: nodeify(
keyringController.exportAccount,
keyringController,
),
// txController
cancelTransaction: nodeify(txController.cancelTransaction, txController),
updateTransaction: nodeify(txController.updateTransaction, txController),
updateAndApproveTransaction: nodeify(
txController.updateAndApproveTransaction,
txController,
),
createCancelTransaction: nodeify(this.createCancelTransaction, this),
createSpeedUpTransaction: nodeify(this.createSpeedUpTransaction, this),
isNonceTaken: nodeify(txController.isNonceTaken, txController),
estimateGas: nodeify(this.estimateGas, this),
getPendingNonce: nodeify(this.getPendingNonce, this),
getNextNonce: nodeify(this.getNextNonce, this),
addUnapprovedTransaction: nodeify(
txController.addUnapprovedTransaction,
txController,
),
// messageManager
signMessage: nodeify(this.signMessage, this),
cancelMessage: this.cancelMessage.bind(this),
// personalMessageManager
signPersonalMessage: nodeify(this.signPersonalMessage, this),
cancelPersonalMessage: this.cancelPersonalMessage.bind(this),
// typedMessageManager
signTypedMessage: nodeify(this.signTypedMessage, this),
cancelTypedMessage: this.cancelTypedMessage.bind(this),
// decryptMessageManager
decryptMessage: nodeify(this.decryptMessage, this),
decryptMessageInline: nodeify(this.decryptMessageInline, this),
cancelDecryptMessage: this.cancelDecryptMessage.bind(this),
// EncryptionPublicKeyManager
encryptionPublicKey: nodeify(this.encryptionPublicKey, this),
cancelEncryptionPublicKey: this.cancelEncryptionPublicKey.bind(this),
// onboarding controller
setSeedPhraseBackedUp: nodeify(
onboardingController.setSeedPhraseBackedUp,
onboardingController,
),
// alert controller
setAlertEnabledness: nodeify(
alertController.setAlertEnabledness,
alertController,
),
setUnconnectedAccountAlertShown: nodeify(
alertController.setUnconnectedAccountAlertShown,
alertController,
),
setWeb3ShimUsageAlertDismissed: nodeify(
alertController.setWeb3ShimUsageAlertDismissed,
alertController,
),
// 3Box
setThreeBoxSyncingPermission: nodeify(
threeBoxController.setThreeBoxSyncingPermission,
threeBoxController,
),
restoreFromThreeBox: nodeify(
threeBoxController.restoreFromThreeBox,
threeBoxController,
),
setShowRestorePromptToFalse: nodeify(
threeBoxController.setShowRestorePromptToFalse,
threeBoxController,
),
getThreeBoxLastUpdated: nodeify(
threeBoxController.getLastUpdated,
threeBoxController,
),
turnThreeBoxSyncingOn: nodeify(
threeBoxController.turnThreeBoxSyncingOn,
threeBoxController,
),
initializeThreeBox: nodeify(this.initializeThreeBox, this),
// permissions
approvePermissionsRequest: nodeify(
permissionsController.approvePermissionsRequest,
permissionsController,
),
clearPermissions: permissionsController.clearPermissions.bind(
permissionsController,
),
getApprovedAccounts: nodeify(
permissionsController.getAccounts,
permissionsController,
),
rejectPermissionsRequest: nodeify(
permissionsController.rejectPermissionsRequest,
permissionsController,
),
removePermissionsFor: permissionsController.removePermissionsFor.bind(
permissionsController,
),
addPermittedAccount: nodeify(
permissionsController.addPermittedAccount,
permissionsController,
),
removePermittedAccount: nodeify(
permissionsController.removePermittedAccount,
permissionsController,
),
requestAccountsPermissionWithId: nodeify(
permissionsController.requestAccountsPermissionWithId,
permissionsController,
),
// swaps
fetchAndSetQuotes: nodeify(
swapsController.fetchAndSetQuotes,
swapsController,
),
setSelectedQuoteAggId: nodeify(
swapsController.setSelectedQuoteAggId,
swapsController,
),
resetSwapsState: nodeify(
swapsController.resetSwapsState,
swapsController,
),
setSwapsTokens: nodeify(swapsController.setSwapsTokens, swapsController),
setApproveTxId: nodeify(swapsController.setApproveTxId, swapsController),
setTradeTxId: nodeify(swapsController.setTradeTxId, swapsController),
setSwapsTxGasPrice: nodeify(
swapsController.setSwapsTxGasPrice,
swapsController,
),
setSwapsTxGasLimit: nodeify(
swapsController.setSwapsTxGasLimit,
swapsController,
),
safeRefetchQuotes: nodeify(
swapsController.safeRefetchQuotes,
swapsController,
),
stopPollingForQuotes: nodeify(
swapsController.stopPollingForQuotes,
swapsController,
),
setBackgroundSwapRouteState: nodeify(
swapsController.setBackgroundSwapRouteState,
swapsController,
),
resetPostFetchState: nodeify(
swapsController.resetPostFetchState,
swapsController,
),
setSwapsErrorKey: nodeify(
swapsController.setSwapsErrorKey,
swapsController,
),
setInitialGasEstimate: nodeify(
swapsController.setInitialGasEstimate,
swapsController,
),
setCustomApproveTxData: nodeify(
swapsController.setCustomApproveTxData,
swapsController,
),
setSwapsLiveness: nodeify(
swapsController.setSwapsLiveness,
swapsController,
),
// MetaMetrics
trackMetaMetricsEvent: nodeify(
metaMetricsController.trackEvent,
metaMetricsController,
),
trackMetaMetricsPage: nodeify(
metaMetricsController.trackPage,
metaMetricsController,
),
// approval controller
resolvePendingApproval: nodeify(
approvalController.resolve,
approvalController,
),
rejectPendingApproval: nodeify(
approvalController.reject,
approvalController,
),
// Notifications
updateViewedNotifications: nodeify(
this.notificationController.updateViewed,
this.notificationController,
),
};
}
//=============================================================================
// VAULT / KEYRING RELATED METHODS
//=============================================================================
/**
* Creates a new Vault and create a new keychain.
*
* A vault, or KeyringController, is a controller that contains
* many different account strategies, currently called Keyrings.
* Creating it new means wiping all previous keyrings.
*
* A keychain, or keyring, controls many accounts with a single backup and signing strategy.
* For example, a mnemonic phrase can generate many accounts, and is a keyring.
*
* @param {string} password
* @returns {Object} vault
*/
async createNewVaultAndKeychain(password) {
const releaseLock = await this.createVaultMutex.acquire();
try {
let vault;
const accounts = await this.keyringController.getAccounts();
if (accounts.length > 0) {
vault = await this.keyringController.fullUpdate();
} else {
vault = await this.keyringController.createNewVaultAndKeychain(
password,
);
const addresses = await this.keyringController.getAccounts();
this.preferencesController.setAddresses(addresses);
this.selectFirstIdentity();
}
return vault;
} finally {
releaseLock();
}
}
/**
* Create a new Vault and restore an existent keyring.
* @param {string} password
* @param {string} seed
*/
async createNewVaultAndRestore(password, seed) {
const releaseLock = await this.createVaultMutex.acquire();
try {
let accounts, lastBalance;
const { keyringController } = this;
// clear known identities
this.preferencesController.setAddresses([]);
// clear permissions
this.permissionsController.clearPermissions();
// clear accounts in accountTracker
this.accountTracker.clearAccounts();
// clear cachedBalances
this.cachedBalancesController.clearCachedBalances();
// clear unapproved transactions
this.txController.txStateManager.clearUnapprovedTxs();
// create new vault
const vault = await keyringController.createNewVaultAndRestore(
password,
seed,
);
const ethQuery = new EthQuery(this.provider);
accounts = await keyringController.getAccounts();
lastBalance = await this.getBalance(
accounts[accounts.length - 1],
ethQuery,
);
const primaryKeyring = keyringController.getKeyringsByType(
'HD Key Tree',
)[0];
if (!primaryKeyring) {
throw new Error('MetamaskController - No HD Key Tree found');
}
// seek out the first zero balance
while (lastBalance !== '0x0') {
await keyringController.addNewAccount(primaryKeyring);
accounts = await keyringController.getAccounts();
lastBalance = await this.getBalance(
accounts[accounts.length - 1],
ethQuery,
);
}
// set new identities
this.preferencesController.setAddresses(accounts);
this.selectFirstIdentity();
return vault;
} finally {
releaseLock();
}
}
/**
* Get an account balance from the AccountTracker or request it directly from the network.
* @param {string} address - The account address
* @param {EthQuery} ethQuery - The EthQuery instance to use when asking the network
*/
getBalance(address, ethQuery) {
return new Promise((resolve, reject) => {
const cached = this.accountTracker.store.getState().accounts[address];
if (cached && cached.balance) {
resolve(cached.balance);
} else {
ethQuery.getBalance(address, (error, balance) => {
if (error) {
reject(error);
log.error(error);
} else {
resolve(balance || '0x0');
}
});
}
});
}
/**
* Collects all the information that we want to share
* with the mobile client for syncing purposes
* @returns {Promise<Object>} Parts of the state that we want to syncx
*/
async fetchInfoToSync() {
// Preferences
const {
accountTokens,
currentLocale,
frequentRpcList,
identities,
selectedAddress,
tokens,
} = this.preferencesController.store.getState();
// Filter ERC20 tokens
const filteredAccountTokens = {};
Object.keys(accountTokens).forEach((address) => {
const checksummedAddress = toChecksumHexAddress(address);
filteredAccountTokens[checksummedAddress] = {};
Object.keys(accountTokens[address]).forEach((chainId) => {
filteredAccountTokens[checksummedAddress][chainId] =
chainId === MAINNET_CHAIN_ID
? accountTokens[address][chainId].filter(
({ address: tokenAddress }) => {
const checksumAddress = toChecksumHexAddress(tokenAddress);
return contractMap[checksumAddress]
? contractMap[checksumAddress].erc20
: true;
},
)
: accountTokens[address][chainId];
});
});
const preferences = {
accountTokens: filteredAccountTokens,
currentLocale,
frequentRpcList,
identities,
selectedAddress,
tokens,
};
// Accounts
const hdKeyring = this.keyringController.getKeyringsByType(
'HD Key Tree',
)[0];
const simpleKeyPairKeyrings = this.keyringController.getKeyringsByType(
'Simple Key Pair',
);
const hdAccounts = await hdKeyring.getAccounts();
const simpleKeyPairKeyringAccounts = await Promise.all(
simpleKeyPairKeyrings.map((keyring) => keyring.getAccounts()),
);
const simpleKeyPairAccounts = simpleKeyPairKeyringAccounts.reduce(
(acc, accounts) => [...acc, ...accounts],
[],
);
const accounts = {
hd: hdAccounts
.filter((item, pos) => hdAccounts.indexOf(item) === pos)
.map((address) => toChecksumHexAddress(address)),
simpleKeyPair: simpleKeyPairAccounts
.filter((item, pos) => simpleKeyPairAccounts.indexOf(item) === pos)
.map((address) => toChecksumHexAddress(address)),
ledger: [],
trezor: [],
};
// transactions
let { transactions } = this.txController.store.getState();
// delete tx for other accounts that we're not importing
transactions = Object.values(transactions).filter((tx) => {
const checksummedTxFrom = toChecksumHexAddress(tx.txParams.from);
return accounts.hd.includes(checksummedTxFrom);
});
return {
accounts,
preferences,
transactions,
network: this.networkController.store.getState(),
};
}
/*
* Submits the user's password and attempts to unlock the vault.
* Also synchronizes the preferencesController, to ensure its schema
* is up to date with known accounts once the vault is decrypted.
*
* @param {string} password - The user's password
* @returns {Promise<object>} The keyringController update.
*/
async submitPassword(password) {
await this.keyringController.submitPassword(password);
try {
await this.blockTracker.checkForLatestBlock();
} catch (error) {
log.error('Error while unlocking extension.', error);
}
try {
const threeBoxSyncingAllowed = this.threeBoxController.getThreeBoxSyncingState();
if (threeBoxSyncingAllowed && !this.threeBoxController.box) {
// 'await' intentionally omitted to avoid waiting for initialization
this.threeBoxController.init();
this.threeBoxController.turnThreeBoxSyncingOn();
} else if (threeBoxSyncingAllowed && this.threeBoxController.box) {
this.threeBoxController.turnThreeBoxSyncingOn();
}
} catch (error) {
log.error('Error while unlocking extension.', error);
}
// This must be set as soon as possible to communicate to the
// keyring's iframe and have the setting initialized properly
// Optimistically called to not block Metamask login due to
// Ledger Keyring GitHub downtime
this.setLedgerLivePreference(
this.preferencesController.getLedgerLivePreference(),
);
return this.keyringController.fullUpdate();
}
/**
* Submits a user's password to check its validity.
*
* @param {string} password The user's password
*/
async verifyPassword(password) {
await this.keyringController.verifyPassword(password);
}
/**
* @type Identity
* @property {string} name - The account nickname.
* @property {string} address - The account's ethereum address, in lower case.
* @property {boolean} mayBeFauceting - Whether this account is currently
* receiving funds from our automatic Ropsten faucet.
*/
/**
* Sets the first address in the state to the selected address
*/
selectFirstIdentity() {
const { identities } = this.preferencesController.store.getState();
const address = Object.keys(identities)[0];
this.preferencesController.setSelectedAddress(address);
}
//
// Hardware
//
async getKeyringForDevice(deviceName, hdPath = null) {
let keyringName = null;
switch (deviceName) {
case 'trezor':
keyringName = TrezorKeyring.type;
break;
case 'ledger':
keyringName = LedgerBridgeKeyring.type;
break;
default:
throw new Error(
'MetamaskController:getKeyringForDevice - Unknown device',
);
}
let keyring = await this.keyringController.getKeyringsByType(
keyringName,
)[0];
if (!keyring) {
keyring = await this.keyringController.addNewKeyring(keyringName);
}
if (hdPath && keyring.setHdPath) {
keyring.setHdPath(hdPath);
}
keyring.network = this.networkController.getProviderConfig().type;
return keyring;
}
/**
* Fetch account list from a trezor device.
*
* @returns [] accounts
*/
async connectHardware(deviceName, page, hdPath) {
const keyring = await this.getKeyringForDevice(deviceName, hdPath);
let accounts = [];
switch (page) {
case -1:
accounts = await keyring.getPreviousPage();
break;
case 1:
accounts = await keyring.getNextPage();
break;
default:
accounts = await keyring.getFirstPage();
}
// Merge with existing accounts
// and make sure addresses are not repeated
const oldAccounts = await this.keyringController.getAccounts();
const accountsToTrack = [
...new Set(
oldAccounts.concat(accounts.map((a) => a.address.toLowerCase())),
),
];
this.accountTracker.syncWithAddresses(accountsToTrack);
return accounts;
}
/**
* Check if the device is unlocked
*
* @returns {Promise<boolean>}
*/
async checkHardwareStatus(deviceName, hdPath) {
const keyring = await this.getKeyringForDevice(deviceName, hdPath);
return keyring.isUnlocked();
}
/**
* Clear
*
* @returns {Promise<boolean>}
*/
async forgetDevice(deviceName) {
const keyring = await this.getKeyringForDevice(deviceName);
keyring.forgetDevice();
return true;
}
/**
* Imports an account from a Trezor or Ledger device.
*
* @returns {} keyState
*/
async unlockHardwareWalletAccount(
index,
deviceName,
hdPath,
hdPathDescription,
) {
const keyring = await this.getKeyringForDevice(deviceName, hdPath);
keyring.setAccountToUnlock(index);
const oldAccounts = await this.keyringController.getAccounts();
const keyState = await this.keyringController.addNewAccount(keyring);
const newAccounts = await this.keyringController.getAccounts();
this.preferencesController.setAddresses(newAccounts);
newAccounts.forEach((address) => {
if (!oldAccounts.includes(address)) {
const label = `${deviceName[0].toUpperCase()}${deviceName.slice(1)} ${
parseInt(index, 10) + 1
} ${hdPathDescription || ''}`.trim();
// Set the account label to Trezor 1 / Ledger 1, etc
this.preferencesController.setAccountLabel(address, label);
// Select the account
this.preferencesController.setSelectedAddress(address);
}
});
const { identities } = this.preferencesController.store.getState();
return { ...keyState, identities };
}
//
// Account Management
//
/**
* Adds a new account to the default (first) HD seed phrase Keyring.
*
* @returns {} keyState
*/
async addNewAccount() {
const primaryKeyring = this.keyringController.getKeyringsByType(
'HD Key Tree',
)[0];
if (!primaryKeyring) {
throw new Error('MetamaskController - No HD Key Tree found');
}
const { keyringController } = this;
const oldAccounts = await keyringController.getAccounts();
const keyState = await keyringController.addNewAccount(primaryKeyring);
const newAccounts = await keyringController.getAccounts();
await this.verifySeedPhrase();
this.preferencesController.setAddresses(newAccounts);
newAccounts.forEach((address) => {
if (!oldAccounts.includes(address)) {
this.preferencesController.setSelectedAddress(address);
}
});
const { identities } = this.preferencesController.store.getState();
return { ...keyState, identities };
}
/**
* Verifies the validity of the current vault's seed phrase.
*
* Validity: seed phrase restores the accounts belonging to the current vault.
*
* Called when the first account is created and on unlocking the vault.
*
* @returns {Promise<string>} Seed phrase to be confirmed by the user.
*/
async verifySeedPhrase() {
const primaryKeyring = this.keyringController.getKeyringsByType(
'HD Key Tree',
)[0];
if (!primaryKeyring) {
throw new Error('MetamaskController - No HD Key Tree found');
}
const serialized = await primaryKeyring.serialize();
const seedWords = serialized.mnemonic;
const accounts = await primaryKeyring.getAccounts();
if (accounts.length < 1) {
throw new Error('MetamaskController - No accounts found');
}
try {
await seedPhraseVerifier.verifyAccounts(accounts, seedWords);
return seedWords;
} catch (err) {
log.error(err.message);
throw err;
}
}
/**
* Clears the transaction history, to allow users to force-reset their nonces.
* Mostly used in development environments, when networks are restarted with
* the same network ID.
*
* @returns {Promise<string>} The current selected address.
*/
async resetAccount() {
const selectedAddress = this.preferencesController.getSelectedAddress();
this.txController.wipeTransactions(selectedAddress);
this.networkController.resetConnection();
return selectedAddress;
}
/**
* Removes an account from state / storage.
*
* @param {string[]} address - A hex address
*
*/
async removeAccount(address) {
// Remove all associated permissions
await this.permissionsController.removeAllAccountPermissions(address);
// Remove account from the preferences controller
this.preferencesController.removeAddress(address);
// Remove account from the account tracker controller
this.accountTracker.removeAccount([address]);
// Remove account from the keyring
await this.keyringController.removeAccount(address);
return address;
}
/**
* Imports an account with the specified import strategy.
* These are defined in app/scripts/account-import-strategies
* Each strategy represents a different way of serializing an Ethereum key pair.
*
* @param {string} strategy - A unique identifier for an account import strategy.
* @param {any} args - The data required by that strategy to import an account.
* @param {Function} cb - A callback function called with a state update on success.
*/
async importAccountWithStrategy(strategy, args) {
const privateKey = await accountImporter.importAccount(strategy, args);
const keyring = await this.keyringController.addNewKeyring(
'Simple Key Pair',
[privateKey],
);
const accounts = await keyring.getAccounts();
// update accounts in preferences controller
const allAccounts = await this.keyringController.getAccounts();
this.preferencesController.setAddresses(allAccounts);
// set new account as selected
await this.preferencesController.setSelectedAddress(accounts[0]);
}
// ---------------------------------------------------------------------------
// Identity Management (signature operations)
/**
* Called when a Dapp suggests a new tx to be signed.
* this wrapper needs to exist so we can provide a reference to
* "newUnapprovedTransaction" before "txController" is instantiated
*
* @param {Object} msgParams - The params passed to eth_sign.
* @param {Object} req - (optional) the original request, containing the origin
*/
async newUnapprovedTransaction(txParams, req) {
return await this.txController.newUnapprovedTransaction(txParams, req);
}
// eth_sign methods:
/**
* Called when a Dapp uses the eth_sign method, to request user approval.
* eth_sign is a pure signature of arbitrary data. It is on a deprecation
* path, since this data can be a transaction, or can leak private key
* information.
*
* @param {Object} msgParams - The params passed to eth_sign.
* @param {Function} cb - The callback function called with the signature.
*/
newUnsignedMessage(msgParams, req) {
const promise = this.messageManager.addUnapprovedMessageAsync(
msgParams,
req,
);
this.sendUpdate();
this.opts.showUserConfirmation();
return promise;
}
/**
* Signifies user intent to complete an eth_sign method.
*
* @param {Object} msgParams - The params passed to eth_call.
* @returns {Promise<Object>} Full state update.
*/
signMessage(msgParams) {
log.info('MetaMaskController - signMessage');
const msgId = msgParams.metamaskId;
// sets the status op the message to 'approved'
// and removes the metamaskId for signing
return this.messageManager
.approveMessage(msgParams)
.then((cleanMsgParams) => {
// signs the message
return this.keyringController.signMessage(cleanMsgParams);
})
.then((rawSig) => {
// tells the listener that the message has been signed
// and can be returned to the dapp
this.messageManager.setMsgStatusSigned(msgId, rawSig);
return this.getState();
});
}
/**
* Used to cancel a message submitted via eth_sign.
*
* @param {string} msgId - The id of the message to cancel.
*/
cancelMessage(msgId, cb) {
const { messageManager } = this;
messageManager.rejectMsg(msgId);
if (!cb || typeof cb !== 'function') {
return;
}
cb(null, this.getState());
}
// personal_sign methods:
/**
* Called when a dapp uses the personal_sign method.
* This is identical to the Geth eth_sign method, and may eventually replace
* eth_sign.
*
* We currently define our eth_sign and personal_sign mostly for legacy Dapps.
*
* @param {Object} msgParams - The params of the message to sign & return to the Dapp.
* @param {Function} cb - The callback function called with the signature.
* Passed back to the requesting Dapp.
*/
async newUnsignedPersonalMessage(msgParams, req) {
const promise = this.personalMessageManager.addUnapprovedMessageAsync(
msgParams,
req,
);
this.sendUpdate();
this.opts.showUserConfirmation();
return promise;
}
/**
* Signifies a user's approval to sign a personal_sign message in queue.
* Triggers signing, and the callback function from newUnsignedPersonalMessage.
*
* @param {Object} msgParams - The params of the message to sign & return to the Dapp.
* @returns {Promise<Object>} A full state update.
*/
signPersonalMessage(msgParams) {
log.info('MetaMaskController - signPersonalMessage');
const msgId = msgParams.metamaskId;
// sets the status op the message to 'approved'
// and removes the metamaskId for signing
return this.personalMessageManager
.approveMessage(msgParams)
.then((cleanMsgParams) => {
// signs the message
return this.keyringController.signPersonalMessage(cleanMsgParams);
})
.then((rawSig) => {
// tells the listener that the message has been signed
// and can be returned to the dapp
this.personalMessageManager.setMsgStatusSigned(msgId, rawSig);
return this.getState();
});
}
/**
* Used to cancel a personal_sign type message.
* @param {string} msgId - The ID of the message to cancel.
* @param {Function} cb - The callback function called with a full state update.
*/
cancelPersonalMessage(msgId, cb) {
const messageManager = this.personalMessageManager;
messageManager.rejectMsg(msgId);
if (!cb || typeof cb !== 'function') {
return;
}
cb(null, this.getState());
}
// eth_decrypt methods
/**
* Called when a dapp uses the eth_decrypt method.
*
* @param {Object} msgParams - The params of the message to sign & return to the Dapp.
* @param {Object} req - (optional) the original request, containing the origin
* Passed back to the requesting Dapp.
*/
async newRequestDecryptMessage(msgParams, req) {
const promise = this.decryptMessageManager.addUnapprovedMessageAsync(
msgParams,
req,
);
this.sendUpdate();
this.opts.showUserConfirmation();
return promise;
}
/**
* Only decrypt message and don't touch transaction state
*
* @param {Object} msgParams - The params of the message to decrypt.
* @returns {Promise<Object>} A full state update.
*/
async decryptMessageInline(msgParams) {
log.info('MetaMaskController - decryptMessageInline');
// decrypt the message inline
const msgId = msgParams.metamaskId;
const msg = this.decryptMessageManager.getMsg(msgId);
try {
const stripped = stripHexPrefix(msgParams.data);
const buff = Buffer.from(stripped, 'hex');
msgParams.data = JSON.parse(buff.toString('utf8'));
msg.rawData = await this.keyringController.decryptMessage(msgParams);
} catch (e) {
msg.error = e.message;
}
this.decryptMessageManager._updateMsg(msg);
return this.getState();
}
/**
* Signifies a user's approval to decrypt a message in queue.
* Triggers decrypt, and the callback function from newUnsignedDecryptMessage.
*
* @param {Object} msgParams - The params of the message to decrypt & return to the Dapp.
* @returns {Promise<Object>} A full state update.
*/
async decryptMessage(msgParams) {
log.info('MetaMaskController - decryptMessage');
const msgId = msgParams.metamaskId;
// sets the status op the message to 'approved'
// and removes the metamaskId for decryption
try {
const cleanMsgParams = await this.decryptMessageManager.approveMessage(
msgParams,
);
const stripped = stripHexPrefix(cleanMsgParams.data);
const buff = Buffer.from(stripped, 'hex');
cleanMsgParams.data = JSON.parse(buff.toString('utf8'));
// decrypt the message
const rawMess = await this.keyringController.decryptMessage(
cleanMsgParams,
);
// tells the listener that the message has been decrypted and can be returned to the dapp
this.decryptMessageManager.setMsgStatusDecrypted(msgId, rawMess);
} catch (error) {
log.info('MetaMaskController - eth_decrypt failed.', error);
this.decryptMessageManager.errorMessage(msgId, error);
}
return this.getState();
}
/**
* Used to cancel a eth_decrypt type message.
* @param {string} msgId - The ID of the message to cancel.
* @param {Function} cb - The callback function called with a full state update.
*/
cancelDecryptMessage(msgId, cb) {
const messageManager = this.decryptMessageManager;
messageManager.rejectMsg(msgId);
if (!cb || typeof cb !== 'function') {
return;
}
cb(null, this.getState());
}
// eth_getEncryptionPublicKey methods
/**
* Called when a dapp uses the eth_getEncryptionPublicKey method.
*
* @param {Object} msgParams - The params of the message to sign & return to the Dapp.
* @param {Object} req - (optional) the original request, containing the origin
* Passed back to the requesting Dapp.
*/
async newRequestEncryptionPublicKey(msgParams, req) {
const address = msgParams;
const keyring = await this.keyringController.getKeyringForAccount(address);
switch (keyring.type) {
case 'Ledger Hardware': {
return new Promise((_, reject) => {
reject(
new Error('Ledger does not support eth_getEncryptionPublicKey.'),
);
});
}
case 'Trezor Hardware': {
return new Promise((_, reject) => {
reject(
new Error('Trezor does not support eth_getEncryptionPublicKey.'),
);
});
}
default: {
const promise = this.encryptionPublicKeyManager.addUnapprovedMessageAsync(
msgParams,
req,
);
this.sendUpdate();
this.opts.showUserConfirmation();
return promise;
}
}
}
/**
* Signifies a user's approval to receiving encryption public key in queue.
* Triggers receiving, and the callback function from newUnsignedEncryptionPublicKey.
*
* @param {Object} msgParams - The params of the message to receive & return to the Dapp.
* @returns {Promise<Object>} A full state update.
*/
async encryptionPublicKey(msgParams) {
log.info('MetaMaskController - encryptionPublicKey');
const msgId = msgParams.metamaskId;
// sets the status op the message to 'approved'
// and removes the metamaskId for decryption
try {
const params = await this.encryptionPublicKeyManager.approveMessage(
msgParams,
);
// EncryptionPublicKey message
const publicKey = await this.keyringController.getEncryptionPublicKey(
params.data,
);
// tells the listener that the message has been processed
// and can be returned to the dapp
this.encryptionPublicKeyManager.setMsgStatusReceived(msgId, publicKey);
} catch (error) {
log.info(
'MetaMaskController - eth_getEncryptionPublicKey failed.',
error,
);
this.encryptionPublicKeyManager.errorMessage(msgId, error);
}
return this.getState();
}
/**
* Used to cancel a eth_getEncryptionPublicKey type message.
* @param {string} msgId - The ID of the message to cancel.
* @param {Function} cb - The callback function called with a full state update.
*/
cancelEncryptionPublicKey(msgId, cb) {
const messageManager = this.encryptionPublicKeyManager;
messageManager.rejectMsg(msgId);
if (!cb || typeof cb !== 'function') {
return;
}
cb(null, this.getState());
}
// eth_signTypedData methods
/**
* Called when a dapp uses the eth_signTypedData method, per EIP 712.
*
* @param {Object} msgParams - The params passed to eth_signTypedData.
* @param {Function} cb - The callback function, called with the signature.
*/
newUnsignedTypedMessage(msgParams, req, version) {
const promise = this.typedMessageManager.addUnapprovedMessageAsync(
msgParams,
req,
version,
);
this.sendUpdate();
this.opts.showUserConfirmation();
return promise;
}
/**
* The method for a user approving a call to eth_signTypedData, per EIP 712.
* Triggers the callback in newUnsignedTypedMessage.
*
* @param {Object} msgParams - The params passed to eth_signTypedData.
* @returns {Object} Full state update.
*/
async signTypedMessage(msgParams) {
log.info('MetaMaskController - eth_signTypedData');
const msgId = msgParams.metamaskId;
const { version } = msgParams;
try {
const cleanMsgParams = await this.typedMessageManager.approveMessage(
msgParams,
);
// For some reason every version after V1 used stringified params.
if (version !== 'V1') {
// But we don't have to require that. We can stop suggesting it now:
if (typeof cleanMsgParams.data === 'string') {
cleanMsgParams.data = JSON.parse(cleanMsgParams.data);
}
}
const signature = await this.keyringController.signTypedMessage(
cleanMsgParams,
{ version },
);
this.typedMessageManager.setMsgStatusSigned(msgId, signature);
return this.getState();
} catch (error) {
log.info('MetaMaskController - eth_signTypedData failed.', error);
this.typedMessageManager.errorMessage(msgId, error);
throw error;
}
}
/**
* Used to cancel a eth_signTypedData type message.
* @param {string} msgId - The ID of the message to cancel.
* @param {Function} cb - The callback function called with a full state update.
*/
cancelTypedMessage(msgId, cb) {
const messageManager = this.typedMessageManager;
messageManager.rejectMsg(msgId);
if (!cb || typeof cb !== 'function') {
return;
}
cb(null, this.getState());
}
//=============================================================================
// END (VAULT / KEYRING RELATED METHODS)
//=============================================================================
/**
* Allows a user to attempt to cancel a previously submitted transaction by creating a new
* transaction.
* @param {number} originalTxId - the id of the txMeta that you want to attempt to cancel
* @param {string} [customGasPrice] - the hex value to use for the cancel transaction
* @returns {Object} MetaMask state
*/
async createCancelTransaction(originalTxId, customGasPrice, customGasLimit) {
await this.txController.createCancelTransaction(
originalTxId,
customGasPrice,
customGasLimit,
);
const state = await this.getState();
return state;
}
async createSpeedUpTransaction(originalTxId, customGasPrice, customGasLimit) {
await this.txController.createSpeedUpTransaction(
originalTxId,
customGasPrice,
customGasLimit,
);
const state = await this.getState();
return state;
}
estimateGas(estimateGasParams) {
return new Promise((resolve, reject) => {
return this.txController.txGasUtil.query.estimateGas(
estimateGasParams,
(err, res) => {
if (err) {
return reject(err);
}
return resolve(res);
},
);
});
}
//=============================================================================
// PASSWORD MANAGEMENT
//=============================================================================
/**
* Allows a user to begin the seed phrase recovery process.
* @param {Function} cb - A callback function called when complete.
*/
markPasswordForgotten(cb) {
this.preferencesController.setPasswordForgotten(true);
this.sendUpdate();
cb();
}
/**
* Allows a user to end the seed phrase recovery process.
* @param {Function} cb - A callback function called when complete.
*/
unMarkPasswordForgotten(cb) {
this.preferencesController.setPasswordForgotten(false);
this.sendUpdate();
cb();
}
//=============================================================================
// SETUP
//=============================================================================
/**
* A runtime.MessageSender object, as provided by the browser:
* @see https://developer.mozilla.org/en-US/docs/Mozilla/Add-ons/WebExtensions/API/runtime/MessageSender
* @typedef {Object} MessageSender
*/
/**
* Used to create a multiplexed stream for connecting to an untrusted context
* like a Dapp or other extension.
* @param {*} connectionStream - The Duplex stream to connect to.
* @param {MessageSender} sender - The sender of the messages on this stream
*/
setupUntrustedCommunication(connectionStream, sender) {
const { usePhishDetect } = this.preferencesController.store.getState();
const { hostname } = new URL(sender.url);
// Check if new connection is blocked if phishing detection is on
if (usePhishDetect && this.phishingController.test(hostname)) {
log.debug('MetaMask - sending phishing warning for', hostname);
this.sendPhishingWarning(connectionStream, hostname);
return;
}
// setup multiplexing
const mux = setupMultiplex(connectionStream);
// messages between inpage and background
this.setupProviderConnection(mux.createStream('metamask-provider'), sender);
// TODO:LegacyProvider: Delete
// legacy streams
this.setupPublicConfig(mux.createStream('publicConfig'));
}
/**
* Used to create a multiplexed stream for connecting to a trusted context,
* like our own user interfaces, which have the provider APIs, but also
* receive the exported API from this controller, which includes trusted
* functions, like the ability to approve transactions or sign messages.
*
* @param {*} connectionStream - The duplex stream to connect to.
* @param {MessageSender} sender - The sender of the messages on this stream
*/
setupTrustedCommunication(connectionStream, sender) {
// setup multiplexing
const mux = setupMultiplex(connectionStream);
// connect features
this.setupControllerConnection(mux.createStream('controller'));
this.setupProviderConnection(mux.createStream('provider'), sender, true);
}
/**
* Called when we detect a suspicious domain. Requests the browser redirects
* to our anti-phishing page.
*
* @private
* @param {*} connectionStream - The duplex stream to the per-page script,
* for sending the reload attempt to.
* @param {string} hostname - The hostname that triggered the suspicion.
*/
sendPhishingWarning(connectionStream, hostname) {
const mux = setupMultiplex(connectionStream);
const phishingStream = mux.createStream('phishing');
phishingStream.write({ hostname });
}
/**
* A method for providing our API over a stream using JSON-RPC.
* @param {*} outStream - The stream to provide our API over.
*/
setupControllerConnection(outStream) {
const api = this.getApi();
// report new active controller connection
this.activeControllerConnections += 1;
this.emit('controllerConnectionChanged', this.activeControllerConnections);
// set up postStream transport
outStream.on('data', createMetaRPCHandler(api, outStream));
const handleUpdate = (update) => {
if (outStream._writableState.ended) {
return;
}
// send notification to client-side
outStream.write({
jsonrpc: '2.0',
method: 'sendUpdate',
params: [update],
});
};
this.on('update', handleUpdate);
outStream.on('end', () => {
this.activeControllerConnections -= 1;
this.emit(
'controllerConnectionChanged',
this.activeControllerConnections,
);
this.removeListener('update', handleUpdate);
});
}
/**
* A method for serving our ethereum provider over a given stream.
* @param {*} outStream - The stream to provide over.
* @param {MessageSender} sender - The sender of the messages on this stream
* @param {boolean} isInternal - True if this is a connection with an internal process
*/
setupProviderConnection(outStream, sender, isInternal) {
const origin = isInternal ? 'metamask' : new URL(sender.url).origin;
let extensionId;
if (sender.id !== this.extension.runtime.id) {
extensionId = sender.id;
}
let tabId;
if (sender.tab && sender.tab.id) {
tabId = sender.tab.id;
}
const engine = this.setupProviderEngine({
origin,
location: sender.url,
extensionId,
tabId,
isInternal,
});
// setup connection
const providerStream = createEngineStream({ engine });
const connectionId = this.addConnection(origin, { engine });
pump(outStream, providerStream, outStream, (err) => {
// handle any middleware cleanup
engine._middleware.forEach((mid) => {
if (mid.destroy && typeof mid.destroy === 'function') {
mid.destroy();
}
});
connectionId && this.removeConnection(origin, connectionId);
if (err) {
log.error(err);
}
});
}
/**
* A method for creating a provider that is safely restricted for the requesting domain.
* @param {Object} options - Provider engine options
* @param {string} options.origin - The origin of the sender
* @param {string} options.location - The full URL of the sender
* @param {extensionId} [options.extensionId] - The extension ID of the sender, if the sender is an external extension
* @param {tabId} [options.tabId] - The tab ID of the sender - if the sender is within a tab
* @param {boolean} [options.isInternal] - True if called for a connection to an internal process
**/
setupProviderEngine({
origin,
location,
extensionId,
tabId,
isInternal = false,
}) {
// setup json rpc engine stack
const engine = new JsonRpcEngine();
const { provider, blockTracker } = this;
// create filter polyfill middleware
const filterMiddleware = createFilterMiddleware({ provider, blockTracker });
// create subscription polyfill middleware
const subscriptionManager = createSubscriptionManager({
provider,
blockTracker,
});
subscriptionManager.events.on('notification', (message) =>
engine.emit('notification', message),
);
// append origin to each request
engine.push(createOriginMiddleware({ origin }));
// append tabId to each request if it exists
if (tabId) {
engine.push(createTabIdMiddleware({ tabId }));
}
// logging
engine.push(createLoggerMiddleware({ origin }));
engine.push(
createOnboardingMiddleware({
location,
registerOnboarding: this.onboardingController.registerOnboarding,
}),
);
engine.push(
createMethodMiddleware({
origin,
getProviderState: this.getProviderState.bind(this),
sendMetrics: this.metaMetricsController.trackEvent.bind(
this.metaMetricsController,
),
handleWatchAssetRequest: this.preferencesController.requestWatchAsset.bind(
this.preferencesController,
),
getWeb3ShimUsageState: this.alertController.getWeb3ShimUsageState.bind(
this.alertController,
),
setWeb3ShimUsageRecorded: this.alertController.setWeb3ShimUsageRecorded.bind(
this.alertController,
),
findCustomRpcBy: this.findCustomRpcBy.bind(this),
getCurrentChainId: this.networkController.getCurrentChainId.bind(
this.networkController,
),
requestUserApproval: this.approvalController.addAndShowApprovalRequest.bind(
this.approvalController,
),
updateRpcTarget: ({ rpcUrl, chainId, ticker, nickname }) => {
this.networkController.setRpcTarget(
rpcUrl,
chainId,
ticker,
nickname,
);
},
addCustomRpc: async ({
chainId,
blockExplorerUrl,
ticker,
chainName,
rpcUrl,
} = {}) => {
await this.preferencesController.addToFrequentRpcList(
rpcUrl,
chainId,
ticker,
chainName,
{
blockExplorerUrl,
},
);
},
}),
);
// filter and subscription polyfills
engine.push(filterMiddleware);
engine.push(subscriptionManager.middleware);
if (!isInternal) {
// permissions
engine.push(
this.permissionsController.createMiddleware({ origin, extensionId }),
);
}
// forward to metamask primary provider
engine.push(providerAsMiddleware(provider));
return engine;
}
/**
* TODO:LegacyProvider: Delete
* A method for providing our public config info over a stream.
* This includes info we like to be synchronous if possible, like
* the current selected account, and network ID.
*
* Since synchronous methods have been deprecated in web3,
* this is a good candidate for deprecation.
*
* @param {*} outStream - The stream to provide public config over.
*/
setupPublicConfig(outStream) {
const configStream = storeAsStream(this.publicConfigStore);
pump(configStream, outStream, (err) => {
configStream.destroy();
if (err) {
log.error(err);
}
});
}
/**
* Adds a reference to a connection by origin. Ignores the 'metamask' origin.
* Caller must ensure that the returned id is stored such that the reference
* can be deleted later.
*
* @param {string} origin - The connection's origin string.
* @param {Object} options - Data associated with the connection
* @param {Object} options.engine - The connection's JSON Rpc Engine
* @returns {string} The connection's id (so that it can be deleted later)
*/
addConnection(origin, { engine }) {
if (origin === 'metamask') {
return null;
}
if (!this.connections[origin]) {
this.connections[origin] = {};
}
const id = nanoid();
this.connections[origin][id] = {
engine,
};
return id;
}
/**
* Deletes a reference to a connection, by origin and id.
* Ignores unknown origins.
*
* @param {string} origin - The connection's origin string.
* @param {string} id - The connection's id, as returned from addConnection.
*/
removeConnection(origin, id) {
const connections = this.connections[origin];
if (!connections) {
return;
}
delete connections[id];
if (Object.keys(connections).length === 0) {
delete this.connections[origin];
}
}
/**
* Causes the RPC engines associated with the connections to the given origin
* to emit a notification event with the given payload.
*
* The caller is responsible for ensuring that only permitted notifications
* are sent.
*
* Ignores unknown origins.
*
* @param {string} origin - The connection's origin string.
* @param {any} payload - The event payload.
*/
notifyConnections(origin, payload) {
const connections = this.connections[origin];
if (connections) {
Object.values(connections).forEach((conn) => {
if (conn.engine) {
conn.engine.emit('notification', payload);
}
});
}
}
/**
* Causes the RPC engines associated with all connections to emit a
* notification event with the given payload.
*
* If the "payload" parameter is a function, the payload for each connection
* will be the return value of that function called with the connection's
* origin.
*
* The caller is responsible for ensuring that only permitted notifications
* are sent.
*
* @param {any} payload - The event payload, or payload getter function.
*/
notifyAllConnections(payload) {
const getPayload =
typeof payload === 'function'
? (origin) => payload(origin)
: () => payload;
Object.values(this.connections).forEach((origin) => {
Object.values(origin).forEach((conn) => {
if (conn.engine) {
conn.engine.emit('notification', getPayload(origin));
}
});
});
}
// handlers
/**
* Handle a KeyringController update
* @param {Object} state - the KC state
* @returns {Promise<void>}
* @private
*/
async _onKeyringControllerUpdate(state) {
const { keyrings } = state;
const addresses = keyrings.reduce(
(acc, { accounts }) => acc.concat(accounts),
[],
);
if (!addresses.length) {
return;
}
// Ensure preferences + identities controller know about all addresses
this.preferencesController.syncAddresses(addresses);
this.accountTracker.syncWithAddresses(addresses);
}
/**
* Handle global unlock, triggered by KeyringController unlock.
* Notifies all connections that the extension is unlocked.
*/
_onUnlock() {
this.notifyAllConnections((origin) => {
return {
method: NOTIFICATION_NAMES.unlockStateChanged,
params: {
isUnlocked: true,
accounts: this.permissionsController.getAccounts(origin),
},
};
});
this.emit('unlock');
}
/**
* Handle global lock, triggered by KeyringController lock.
* Notifies all connections that the extension is locked.
*/
_onLock() {
this.notifyAllConnections({
method: NOTIFICATION_NAMES.unlockStateChanged,
params: {
isUnlocked: false,
},
});
this.emit('lock');
}
/**
* Handle memory state updates.
* - Ensure isClientOpenAndUnlocked is updated
* - Notifies all connections with the new provider network state
* - The external providers handle diffing the state
*/
_onStateUpdate(newState) {
this.isClientOpenAndUnlocked = newState.isUnlocked && this._isClientOpen;
this.notifyAllConnections({
method: NOTIFICATION_NAMES.chainChanged,
params: this.getProviderNetworkState(newState),
});
}
// misc
/**
* A method for emitting the full MetaMask state to all registered listeners.
* @private
*/
privateSendUpdate() {
this.emit('update', this.getState());
}
/**
* @returns {boolean} Whether the extension is unlocked.
*/
isUnlocked() {
return this.keyringController.memStore.getState().isUnlocked;
}
//=============================================================================
// MISCELLANEOUS
//=============================================================================
/**
* Returns the nonce that will be associated with a transaction once approved
* @param {string} address - The hex string address for the transaction
* @returns {Promise<number>}
*/
async getPendingNonce(address) {
const {
nonceDetails,
releaseLock,
} = await this.txController.nonceTracker.getNonceLock(address);
const pendingNonce = nonceDetails.params.highestSuggested;
releaseLock();
return pendingNonce;
}
/**
* Returns the next nonce according to the nonce-tracker
* @param {string} address - The hex string address for the transaction
* @returns {Promise<number>}
*/
async getNextNonce(address) {
const nonceLock = await this.txController.nonceTracker.getNonceLock(
address,
);
nonceLock.releaseLock();
return nonceLock.nextNonce;
}
/**
* Migrate address book state from old to new chainId.
*
* Address book state is keyed by the `networkStore` state from the network controller. This value is set to the
* `networkId` for our built-in Infura networks, but it's set to the `chainId` for custom networks.
* When this `chainId` value is changed for custom RPC endpoints, we need to migrate any contacts stored under the
* old key to the new key.
*
* The `duplicate` parameter is used to specify that the contacts under the old key should not be removed. This is
* useful in the case where two RPC endpoints shared the same set of contacts, and we're not sure which one each
* contact belongs under. Duplicating the contacts under both keys is the only way to ensure they are not lost.
*
* @param {string} oldChainId - The old chainId
* @param {string} newChainId - The new chainId
* @param {boolean} [duplicate] - Whether to duplicate the addresses on both chainIds (default: false)
*/
async migrateAddressBookState(oldChainId, newChainId, duplicate = false) {
const { addressBook } = this.addressBookController.state;
if (!addressBook[oldChainId]) {
return;
}
for (const address of Object.keys(addressBook[oldChainId])) {
const entry = addressBook[oldChainId][address];
this.addressBookController.set(
address,
entry.name,
newChainId,
entry.memo,
);
if (!duplicate) {
this.addressBookController.delete(oldChainId, address);
}
}
}
//=============================================================================
// CONFIG
//=============================================================================
// Log blocks
/**
* A method for setting the user's preferred display currency.
* @param {string} currencyCode - The code of the preferred currency.
* @param {Function} cb - A callback function returning currency info.
*/
setCurrentCurrency(currencyCode, cb) {
const { ticker } = this.networkController.getProviderConfig();
try {
const currencyState = {
nativeCurrency: ticker,
currentCurrency: currencyCode,
};
this.currencyRateController.update(currencyState);
this.currencyRateController.configure(currencyState);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* A method for selecting a custom URL for an ethereum RPC provider and updating it
* @param {string} rpcUrl - A URL for a valid Ethereum RPC API.
* @param {string} chainId - The chainId of the selected network.
* @param {string} ticker - The ticker symbol of the selected network.
* @param {string} [nickname] - Nickname of the selected network.
* @param {Object} [rpcPrefs] - RPC preferences.
* @param {string} [rpcPrefs.blockExplorerUrl] - URL of block explorer for the chain.
* @returns {Promise<String>} - The RPC Target URL confirmed.
*/
async updateAndSetCustomRpc(
rpcUrl,
chainId,
ticker = 'ETH',
nickname,
rpcPrefs,
) {
this.networkController.setRpcTarget(
rpcUrl,
chainId,
ticker,
nickname,
rpcPrefs,
);
await this.preferencesController.updateRpc({
rpcUrl,
chainId,
ticker,
nickname,
rpcPrefs,
});
return rpcUrl;
}
/**
* A method for selecting a custom URL for an ethereum RPC provider.
* @param {string} rpcUrl - A URL for a valid Ethereum RPC API.
* @param {string} chainId - The chainId of the selected network.
* @param {string} ticker - The ticker symbol of the selected network.
* @param {string} nickname - Optional nickname of the selected network.
* @returns {Promise<String>} The RPC Target URL confirmed.
*/
async setCustomRpc(
rpcUrl,
chainId,
ticker = 'ETH',
nickname = '',
rpcPrefs = {},
) {
const frequentRpcListDetail = this.preferencesController.getFrequentRpcListDetail();
const rpcSettings = frequentRpcListDetail.find(
(rpc) => rpcUrl === rpc.rpcUrl,
);
if (rpcSettings) {
this.networkController.setRpcTarget(
rpcSettings.rpcUrl,
rpcSettings.chainId,
rpcSettings.ticker,
rpcSettings.nickname,
rpcPrefs,
);
} else {
this.networkController.setRpcTarget(
rpcUrl,
chainId,
ticker,
nickname,
rpcPrefs,
);
await this.preferencesController.addToFrequentRpcList(
rpcUrl,
chainId,
ticker,
nickname,
rpcPrefs,
);
}
return rpcUrl;
}
/**
* A method for deleting a selected custom URL.
* @param {string} rpcUrl - A RPC URL to delete.
*/
async delCustomRpc(rpcUrl) {
await this.preferencesController.removeFromFrequentRpcList(rpcUrl);
}
/**
* Returns the first RPC info object that matches at least one field of the
* provided search criteria. Returns null if no match is found
*
* @param {Object} rpcInfo - The RPC endpoint properties and values to check.
* @returns {Object} rpcInfo found in the frequentRpcList
*/
findCustomRpcBy(rpcInfo) {
const frequentRpcListDetail = this.preferencesController.getFrequentRpcListDetail();
for (const existingRpcInfo of frequentRpcListDetail) {
for (const key of Object.keys(rpcInfo)) {
if (existingRpcInfo[key] === rpcInfo[key]) {
return existingRpcInfo;
}
}
}
return null;
}
async initializeThreeBox() {
await this.threeBoxController.init();
}
/**
* Sets whether or not to use the blockie identicon format.
* @param {boolean} val - True for bockie, false for jazzicon.
* @param {Function} cb - A callback function called when complete.
*/
setUseBlockie(val, cb) {
try {
this.preferencesController.setUseBlockie(val);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* Sets whether or not to use the nonce field.
* @param {boolean} val - True for nonce field, false for not nonce field.
* @param {Function} cb - A callback function called when complete.
*/
setUseNonceField(val, cb) {
try {
this.preferencesController.setUseNonceField(val);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* Sets whether or not to use phishing detection.
* @param {boolean} val
* @param {Function} cb
*/
setUsePhishDetect(val, cb) {
try {
this.preferencesController.setUsePhishDetect(val);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* Sets the IPFS gateway to use for ENS content resolution.
* @param {string} val - the host of the gateway to set
* @param {Function} cb - A callback function called when complete.
*/
setIpfsGateway(val, cb) {
try {
this.preferencesController.setIpfsGateway(val);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* Sets the Ledger Live preference to use for Ledger hardware wallet support
* @param {bool} bool - the value representing if the users wants to use Ledger Live
*/
async setLedgerLivePreference(bool) {
const currentValue = this.preferencesController.getLedgerLivePreference();
this.preferencesController.setLedgerLivePreference(bool);
const keyring = await this.getKeyringForDevice('ledger');
if (keyring?.updateTransportMethod) {
return keyring.updateTransportMethod(bool).catch((e) => {
// If there was an error updating the transport, we should
// fall back to the original value
this.preferencesController.setLedgerLivePreference(currentValue);
throw e;
});
}
return undefined;
}
/**
* Sets whether or not the user will have usage data tracked with MetaMetrics
* @param {boolean} bool - True for users that wish to opt-in, false for users that wish to remain out.
* @param {Function} cb - A callback function called when complete.
*/
setParticipateInMetaMetrics(bool, cb) {
try {
const metaMetricsId = this.metaMetricsController.setParticipateInMetaMetrics(
bool,
);
cb(null, metaMetricsId);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
setMetaMetricsSendCount(val, cb) {
try {
this.metaMetricsController.setMetaMetricsSendCount(val);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* Sets the type of first time flow the user wishes to follow: create or import
* @param {string} type - Indicates the type of first time flow the user wishes to follow
* @param {Function} cb - A callback function called when complete.
*/
setFirstTimeFlowType(type, cb) {
try {
this.preferencesController.setFirstTimeFlowType(type);
cb(null);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* A method for setting a user's current locale, affecting the language rendered.
* @param {string} key - Locale identifier.
* @param {Function} cb - A callback function called when complete.
*/
setCurrentLocale(key, cb) {
try {
const direction = this.preferencesController.setCurrentLocale(key);
cb(null, direction);
return;
} catch (err) {
cb(err);
// eslint-disable-next-line no-useless-return
return;
}
}
/**
* A method for initializing storage the first time.
* @param {Object} initState - The default state to initialize with.
* @private
*/
recordFirstTimeInfo(initState) {
if (!('firstTimeInfo' in initState)) {
const version = this.platform.getVersion();
initState.firstTimeInfo = {
version,
date: Date.now(),
};
}
}
// TODO: Replace isClientOpen methods with `controllerConnectionChanged` events.
/* eslint-disable accessor-pairs */
/**
* A method for recording whether the MetaMask user interface is open or not.
* @private
* @param {boolean} open
*/
set isClientOpen(open) {
this._isClientOpen = open;
this.detectTokensController.isOpen = open;
}
/* eslint-enable accessor-pairs */
/**
* Adds a domain to the PhishingController safelist
* @param {string} hostname - the domain to safelist
*/
safelistPhishingDomain(hostname) {
return this.phishingController.bypass(hostname);
}
/**
* Locks MetaMask
*/
setLocked() {
return this.keyringController.setLocked();
}
}