/** * @file The central metamask controller. Aggregates other controllers and exports an api. * @copyright Copyright (c) 2018 MetaMask * @license MIT */ const EventEmitter = require('events') const pump = require('pump') const Dnode = require('dnode') const ObservableStore = require('obs-store') const ComposableObservableStore = require('./lib/ComposableObservableStore') const asStream = require('obs-store/lib/asStream') const AccountTracker = require('./lib/account-tracker') const RpcEngine = require('json-rpc-engine') const debounce = require('debounce') const createEngineStream = require('json-rpc-middleware-stream/engineStream') const createFilterMiddleware = require('eth-json-rpc-filters') const createOriginMiddleware = require('./lib/createOriginMiddleware') const createLoggerMiddleware = require('./lib/createLoggerMiddleware') const createProviderMiddleware = require('./lib/createProviderMiddleware') const setupMultiplex = require('./lib/stream-utils.js').setupMultiplex const KeyringController = require('eth-keyring-controller') const NetworkController = require('./controllers/network') const PreferencesController = require('./controllers/preferences') const CurrencyController = require('./controllers/currency') const NoticeController = require('./notice-controller') const ShapeShiftController = require('./controllers/shapeshift') const AddressBookController = require('./controllers/address-book') const InfuraController = require('./controllers/infura') const BlacklistController = require('./controllers/blacklist') const RecentBlocksController = require('./controllers/recent-blocks') const MessageManager = require('./lib/message-manager') const PersonalMessageManager = require('./lib/personal-message-manager') const TypedMessageManager = require('./lib/typed-message-manager') const TransactionController = require('./controllers/transactions') const BalancesController = require('./controllers/computed-balances') const TokenRatesController = require('./controllers/token-rates') const DetectTokensController = require('./controllers/detect-tokens') const ConfigManager = require('./lib/config-manager') const nodeify = require('./lib/nodeify') const accountImporter = require('./account-import-strategies') const getBuyEthUrl = require('./lib/buy-eth-url') const Mutex = require('await-semaphore').Mutex const version = require('../manifest.json').version const BN = require('ethereumjs-util').BN const GWEI_BN = new BN('1000000000') const percentile = require('percentile') const seedPhraseVerifier = require('./lib/seed-phrase-verifier') const log = require('loglevel') const TrezorKeyring = require('eth-trezor-keyring') const LedgerBridgeKeyring = require('eth-ledger-bridge-keyring') const EthQuery = require('eth-query') module.exports = 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 const initState = opts.initState || {} this.recordFirstTimeInfo(initState) // platform-specific api this.platform = opts.platform // observable state store this.store = new ComposableObservableStore(initState) // lock to ensure only one vault created at once this.createVaultMutex = new Mutex() // network store this.networkController = new NetworkController(initState.NetworkController) // config manager this.configManager = new ConfigManager({ store: this.store, }) // preferences controller this.preferencesController = new PreferencesController({ initState: initState.PreferencesController, initLangCode: opts.initLangCode, network: this.networkController, }) // currency controller this.currencyController = new CurrencyController({ initState: initState.CurrencyController, }) this.currencyController.updateConversionRate() this.currencyController.scheduleConversionInterval() // infura controller this.infuraController = new InfuraController({ initState: initState.InfuraController, }) this.infuraController.scheduleInfuraNetworkCheck() this.blacklistController = new BlacklistController() this.blacklistController.scheduleUpdates() // rpc provider 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, }) this.recentBlocksController = new RecentBlocksController({ blockTracker: this.blockTracker, provider: this.provider, }) // account tracker watches balances, nonces, and any code at their address. this.accountTracker = new AccountTracker({ provider: this.provider, blockTracker: this.blockTracker, }) // key mgmt const additionalKeyrings = [TrezorKeyring, LedgerBridgeKeyring] this.keyringController = new KeyringController({ keyringTypes: additionalKeyrings, initState: initState.KeyringController, getNetwork: this.networkController.getNetworkState.bind(this.networkController), encryptor: opts.encryptor || undefined, }) // If only one account exists, make sure it is selected. this.keyringController.memStore.subscribe((state) => { const addresses = state.keyrings.reduce((res, keyring) => { return res.concat(keyring.accounts) }, []) if (addresses.length === 1) { const address = addresses[0] this.preferencesController.setSelectedAddress(address) } // ensure preferences + identities controller know about all addresses this.preferencesController.addAddresses(addresses) this.accountTracker.syncWithAddresses(addresses) }) // detect tokens controller this.detectTokensController = new DetectTokensController({ preferences: this.preferencesController, network: this.networkController, keyringMemStore: this.keyringController.memStore, }) // address book controller this.addressBookController = new AddressBookController({ initState: initState.AddressBookController, preferencesStore: this.preferencesController.store, }) // tx mgmt this.txController = new TransactionController({ initState: initState.TransactionController || initState.TransactionManager, networkStore: this.networkController.networkStore, preferencesStore: this.preferencesController.store, txHistoryLimit: 40, getNetwork: this.networkController.getNetworkState.bind(this), signTransaction: this.keyringController.signTransaction.bind(this.keyringController), provider: this.provider, blockTracker: this.blockTracker, getGasPrice: this.getGasPrice.bind(this), }) this.txController.on('newUnapprovedTx', opts.showUnapprovedTx.bind(opts)) this.txController.on(`tx:status-update`, (txId, status) => { if (status === 'confirmed' || status === 'failed') { const txMeta = this.txController.txStateManager.getTx(txId) this.platform.showTransactionNotification(txMeta) } }) // computed balances (accounting for pending transactions) this.balancesController = new BalancesController({ accountTracker: this.accountTracker, txController: this.txController, blockTracker: this.blockTracker, }) this.networkController.on('networkDidChange', () => { this.balancesController.updateAllBalances() }) this.balancesController.updateAllBalances() // notices this.noticeController = new NoticeController({ initState: initState.NoticeController, version, firstVersion: initState.firstTimeInfo.version, }) this.shapeshiftController = new ShapeShiftController({ initState: initState.ShapeShiftController, }) this.networkController.lookupNetwork() this.messageManager = new MessageManager() this.personalMessageManager = new PersonalMessageManager() this.typedMessageManager = new TypedMessageManager() this.publicConfigStore = this.initPublicConfigStore() this.store.updateStructure({ TransactionController: this.txController.store, KeyringController: this.keyringController.store, PreferencesController: this.preferencesController.store, AddressBookController: this.addressBookController.store, CurrencyController: this.currencyController.store, NoticeController: this.noticeController.store, ShapeShiftController: this.shapeshiftController.store, NetworkController: this.networkController.store, InfuraController: this.infuraController.store, }) this.memStore = new ComposableObservableStore(null, { NetworkController: this.networkController.store, AccountTracker: this.accountTracker.store, TxController: this.txController.memStore, BalancesController: this.balancesController.store, TokenRatesController: this.tokenRatesController.store, MessageManager: this.messageManager.memStore, PersonalMessageManager: this.personalMessageManager.memStore, TypesMessageManager: this.typedMessageManager.memStore, KeyringController: this.keyringController.memStore, PreferencesController: this.preferencesController.store, RecentBlocksController: this.recentBlocksController.store, AddressBookController: this.addressBookController.store, CurrencyController: this.currencyController.store, NoticeController: this.noticeController.memStore, ShapeshiftController: this.shapeshiftController.store, InfuraController: this.infuraController.store, }) this.memStore.subscribe(this.sendUpdate.bind(this)) } /** * Constructor helper: initialize a provider. */ initializeProvider () { const providerOpts = { static: { eth_syncing: false, web3_clientVersion: `MetaMask/v${version}`, }, // account mgmt getAccounts: async () => { const isUnlocked = this.keyringController.memStore.getState().isUnlocked const selectedAddress = this.preferencesController.getSelectedAddress() // only show address if account is unlocked if (isUnlocked && selectedAddress) { return [selectedAddress] } else { return [] } }, // tx signing processTransaction: this.newUnapprovedTransaction.bind(this), // msg signing processEthSignMessage: this.newUnsignedMessage.bind(this), processPersonalMessage: this.newUnsignedPersonalMessage.bind(this), processTypedMessage: this.newUnsignedTypedMessage.bind(this), } const providerProxy = this.networkController.initializeProvider(providerOpts) return providerProxy } /** * Constructor helper: initialize a public config store. * This store is used to make some config info available to Dapps synchronously. */ initPublicConfigStore () { // get init state const publicConfigStore = new ObservableStore() // memStore -> transform -> publicConfigStore this.on('update', (memState) => { this.isClientOpenAndUnlocked = memState.isUnlocked && this._isClientOpen const publicState = selectPublicState(memState) publicConfigStore.putState(publicState) }) function selectPublicState (memState) { const result = { selectedAddress: memState.isUnlocked ? memState.selectedAddress : undefined, networkVersion: memState.network, } return result } return publicConfigStore } //============================================================================= // EXPOSED TO THE UI SUBSYSTEM //============================================================================= /** * The metamask-state of the various controllers, made available to the UI * * @returns {Object} status */ getState () { const wallet = this.configManager.getWallet() const vault = this.keyringController.store.getState().vault const isInitialized = (!!wallet || !!vault) return { ...{ isInitialized }, ...this.memStore.getFlatState(), ...this.configManager.getConfig(), ...{ lostAccounts: this.configManager.getLostAccounts(), seedWords: this.configManager.getSeedWords(), forgottenPassword: this.configManager.getPasswordForgotten(), }, } } /** * Returns an Object containing API Callback Functions. * These functions are the interface for the UI. * The API object can be transmitted over a stream with dnode. * * @returns {Object} Object containing API functions. */ getApi () { const keyringController = this.keyringController const preferencesController = this.preferencesController const txController = this.txController const noticeController = this.noticeController const addressBookController = this.addressBookController const networkController = this.networkController return { // etc getState: (cb) => cb(null, this.getState()), setCurrentCurrency: this.setCurrentCurrency.bind(this), setUseBlockie: this.setUseBlockie.bind(this), setCurrentLocale: this.setCurrentLocale.bind(this), markAccountsFound: this.markAccountsFound.bind(this), markPasswordForgotten: this.markPasswordForgotten.bind(this), unMarkPasswordForgotten: this.unMarkPasswordForgotten.bind(this), getGasPrice: (cb) => cb(null, this.getGasPrice()), // coinbase buyEth: this.buyEth.bind(this), // shapeshift createShapeShiftTx: this.createShapeShiftTx.bind(this), // primary HD keyring management addNewAccount: nodeify(this.addNewAccount, this), placeSeedWords: this.placeSeedWords.bind(this), verifySeedPhrase: nodeify(this.verifySeedPhrase, this), clearSeedWordCache: this.clearSeedWordCache.bind(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), // vault management submitPassword: nodeify(this.submitPassword, this), // network management setProviderType: nodeify(networkController.setProviderType, networkController), setCustomRpc: nodeify(this.setCustomRpc, this), // PreferencesController setSelectedAddress: nodeify(preferencesController.setSelectedAddress, preferencesController), addToken: nodeify(preferencesController.addToken, preferencesController), removeToken: nodeify(preferencesController.removeToken, preferencesController), setCurrentAccountTab: nodeify(preferencesController.setCurrentAccountTab, preferencesController), setAccountLabel: nodeify(preferencesController.setAccountLabel, preferencesController), setFeatureFlag: nodeify(preferencesController.setFeatureFlag, preferencesController), // AddressController setAddressBook: nodeify(addressBookController.setAddressBook, addressBookController), // KeyringController setLocked: nodeify(keyringController.setLocked, keyringController), createNewVaultAndKeychain: nodeify(this.createNewVaultAndKeychain, this), createNewVaultAndRestore: nodeify(this.createNewVaultAndRestore, this), addNewKeyring: nodeify(keyringController.addNewKeyring, keyringController), exportAccount: nodeify(keyringController.exportAccount, keyringController), // txController cancelTransaction: nodeify(txController.cancelTransaction, txController), updateTransaction: nodeify(txController.updateTransaction, txController), updateAndApproveTransaction: nodeify(txController.updateAndApproveTransaction, txController), retryTransaction: nodeify(this.retryTransaction, this), getFilteredTxList: nodeify(txController.getFilteredTxList, txController), isNonceTaken: nodeify(txController.isNonceTaken, txController), estimateGas: nodeify(this.estimateGas, this), // messageManager signMessage: nodeify(this.signMessage, this), cancelMessage: this.cancelMessage.bind(this), // personalMessageManager signPersonalMessage: nodeify(this.signPersonalMessage, this), cancelPersonalMessage: this.cancelPersonalMessage.bind(this), // personalMessageManager signTypedMessage: nodeify(this.signTypedMessage, this), cancelTypedMessage: this.cancelTypedMessage.bind(this), // notices checkNotices: noticeController.updateNoticesList.bind(noticeController), markNoticeRead: noticeController.markNoticeRead.bind(noticeController), } } //============================================================================= // 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 accounts = await this.keyringController.getAccounts() this.preferencesController.setAddresses(accounts) this.selectFirstIdentity() } releaseLock() return vault } catch (err) { releaseLock() throw err } } /** * Create a new Vault and restore an existent keyring. * @param {} password * @param {} seed */ async createNewVaultAndRestore (password, seed) { const releaseLock = await this.createVaultMutex.acquire() try { let accounts, lastBalance const keyringController = this.keyringController // clear known identities this.preferencesController.setAddresses([]) // 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() releaseLock() return vault } catch (err) { releaseLock() throw err } } /** * 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') } }) } }) } /* * 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} - The keyringController update. */ async submitPassword (password) { await this.keyringController.submitPassword(password) const accounts = await this.keyringController.getAccounts() // verify keyrings const nonSimpleKeyrings = this.keyringController.keyrings.filter(keyring => keyring.type !== 'Simple Key Pair') if (nonSimpleKeyrings.length > 1 && this.diagnostics) { await this.diagnostics.reportMultipleKeyrings(nonSimpleKeyrings) } await this.preferencesController.syncAddresses(accounts) return this.keyringController.fullUpdate() } /** * @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} */ async checkHardwareStatus (deviceName, hdPath) { const keyring = await this.getKeyringForDevice(deviceName, hdPath) return keyring.isUnlocked() } /** * Clear * * @returns {Promise} */ async forgetDevice (deviceName) { const keyring = await this.getKeyringForDevice(deviceName) keyring.forgetDevice() return true } /** * Imports an account from a trezor device. * * @returns {} keyState */ async unlockHardwareWalletAccount (index, deviceName, hdPath) { 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)) { this.preferencesController.setAccountLabel(address, `${deviceName.toUpperCase()} ${parseInt(index, 10) + 1}`) 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.keyringController 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} } /** * Adds the current vault's seed words to the UI's state tree. * * Used when creating a first vault, to allow confirmation. * Also used when revealing the seed words in the confirmation view. * * @param {Function} cb - A callback called on completion. */ placeSeedWords (cb) { this.verifySeedPhrase() .then((seedWords) => { this.configManager.setSeedWords(seedWords) return cb(null, seedWords) }) .catch((err) => { return cb(err) }) } /** * 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} 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 } } /** * Remove the primary account seed phrase from the UI's state tree. * * The seed phrase remains available in the background process. * * @param {function} cb Callback function called with the current address. */ clearSeedWordCache (cb) { this.configManager.setSeedWords(null) cb(null, this.preferencesController.getSelectedAddress()) } /** * 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 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 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.showUnconfirmedMessage() return promise } /** * Signifies user intent to complete an eth_sign method. * * @param {Object} msgParams The params passed to eth_call. * @returns {Promise} 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 messageManager.rejectMsg(msgId) if (cb && typeof cb === 'function') { 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.showUnconfirmedMessage() 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} - 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') { 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) { const promise = this.typedMessageManager.addUnapprovedMessageAsync(msgParams, req) this.sendUpdate() this.opts.showUnconfirmedMessage() 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. */ signTypedMessage (msgParams) { log.info('MetaMaskController - signTypedMessage') const msgId = msgParams.metamaskId // sets the status op the message to 'approved' // and removes the metamaskId for signing return this.typedMessageManager.approveMessage(msgParams) .then((cleanMsgParams) => { // signs the message return this.keyringController.signTypedMessage(cleanMsgParams) }) .then((rawSig) => { // tells the listener that the message has been signed // and can be returned to the dapp this.typedMessageManager.setMsgStatusSigned(msgId, rawSig) return this.getState() }) } /** * 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') { cb(null, this.getState()) } } // --------------------------------------------------------------------------- // MetaMask Version 3 Migration Account Restauration Methods /** * A legacy method (probably dead code) that was used when we swapped out our * key management library that we depended on. * * Described in: * https://medium.com/metamask/metamask-3-migration-guide-914b79533cdd * * @deprecated * @param {} migratorOutput */ restoreOldVaultAccounts (migratorOutput) { const { serialized } = migratorOutput return this.keyringController.restoreKeyring(serialized) .then(() => migratorOutput) } /** * A legacy method used to record user confirmation that they understand * that some of their accounts have been recovered but should be backed up. * * @deprecated * @param {Function} cb - A callback function called with a full state update. */ markAccountsFound (cb) { this.configManager.setLostAccounts([]) this.sendUpdate() cb(null, this.getState()) } /** * A legacy method (probably dead code) that was used when we swapped out our * key management library that we depended on. * * Described in: * https://medium.com/metamask/metamask-3-migration-guide-914b79533cdd * * @deprecated * @param {} migratorOutput */ restoreOldLostAccounts (migratorOutput) { const { lostAccounts } = migratorOutput if (lostAccounts) { this.configManager.setLostAccounts(lostAccounts.map(acct => acct.address)) return this.importLostAccounts(migratorOutput) } return Promise.resolve(migratorOutput) } /** * An account object * @typedef Account * @property string privateKey - The private key of the account. */ /** * Probably no longer needed, related to the Version 3 migration. * Imports a hash of accounts to private keys into the vault. * * Described in: * https://medium.com/metamask/metamask-3-migration-guide-914b79533cdd * * Uses the array's private keys to create a new Simple Key Pair keychain * and add it to the keyring controller. * @deprecated * @param {Account[]} lostAccounts - * @returns {Keyring[]} An array of the restored keyrings. */ importLostAccounts ({ lostAccounts }) { const privKeys = lostAccounts.map(acct => acct.privateKey) return this.keyringController.restoreKeyring({ type: 'Simple Key Pair', data: privKeys, }) } //============================================================================= // END (VAULT / KEYRING RELATED METHODS) //============================================================================= /** * Allows a user to try to speed up a transaction by retrying it * with higher gas. * * @param {string} txId - The ID of the transaction to speed up. * @param {Function} cb - The callback function called with a full state update. */ async retryTransaction (txId, cb) { await this.txController.retryTransaction(txId) 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.configManager.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.configManager.setPasswordForgotten(false) this.sendUpdate() cb() } //============================================================================= // SETUP //============================================================================= /** * 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 {string} originDomain - The domain requesting the stream, which * may trigger a blacklist reload. */ setupUntrustedCommunication (connectionStream, originDomain) { // Check if new connection is blacklisted if (this.blacklistController.checkForPhishing(originDomain)) { log.debug('MetaMask - sending phishing warning for', originDomain) this.sendPhishingWarning(connectionStream, originDomain) return } // setup multiplexing const mux = setupMultiplex(connectionStream) // connect features this.setupProviderConnection(mux.createStream('provider'), originDomain) 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 {string} originDomain - The domain requesting the connection, * used in logging and error reporting. */ setupTrustedCommunication (connectionStream, originDomain) { // setup multiplexing const mux = setupMultiplex(connectionStream) // connect features this.setupControllerConnection(mux.createStream('controller')) this.setupProviderConnection(mux.createStream('provider'), originDomain) } /** * 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 URL 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 Dnode. * @param {*} outStream - The stream to provide our API over. */ setupControllerConnection (outStream) { const api = this.getApi() const dnode = Dnode(api) pump( outStream, dnode, outStream, (err) => { if (err) log.error(err) } ) dnode.on('remote', (remote) => { // push updates to popup const sendUpdate = remote.sendUpdate.bind(remote) this.on('update', sendUpdate) }) } /** * A method for serving our ethereum provider over a given stream. * @param {*} outStream - The stream to provide over. * @param {string} origin - The URI of the requesting resource. */ setupProviderConnection (outStream, origin) { // setup json rpc engine stack const engine = new RpcEngine() // create filter polyfill middleware const filterMiddleware = createFilterMiddleware({ provider: this.provider, blockTracker: this.blockTracker, }) engine.push(createOriginMiddleware({ origin })) engine.push(createLoggerMiddleware({ origin })) engine.push(filterMiddleware) engine.push(createProviderMiddleware({ provider: this.provider })) // setup connection const providerStream = createEngineStream({ engine }) pump( outStream, providerStream, outStream, (err) => { // cleanup filter polyfill middleware filterMiddleware.destroy() if (err) log.error(err) } ) } /** * 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) { pump( asStream(this.publicConfigStore), outStream, (err) => { if (err) log.error(err) } ) } /** * A method for emitting the full MetaMask state to all registered listeners. * @private */ privateSendUpdate () { this.emit('update', this.getState()) } /** * A method for estimating a good gas price at recent prices. * Returns the lowest price that would have been included in * 50% of recent blocks. * * @returns {string} A hex representation of the suggested wei gas price. */ getGasPrice () { const { recentBlocksController } = this const { recentBlocks } = recentBlocksController.store.getState() // Return 1 gwei if no blocks have been observed: if (recentBlocks.length === 0) { return '0x' + GWEI_BN.toString(16) } const lowestPrices = recentBlocks.map((block) => { if (!block.gasPrices || block.gasPrices.length < 1) { return GWEI_BN } return block.gasPrices .map(hexPrefix => hexPrefix.substr(2)) .map(hex => new BN(hex, 16)) .sort((a, b) => { return a.gt(b) ? 1 : -1 })[0] }) .map(number => number.div(GWEI_BN).toNumber()) const percentileNum = percentile(50, lowestPrices) const percentileNumBn = new BN(percentileNum) return '0x' + percentileNumBn.mul(GWEI_BN).toString(16) } //============================================================================= // 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) { try { this.currencyController.setCurrentCurrency(currencyCode) this.currencyController.updateConversionRate() const data = { conversionRate: this.currencyController.getConversionRate(), currentCurrency: this.currencyController.getCurrentCurrency(), conversionDate: this.currencyController.getConversionDate(), } cb(null, data) } catch (err) { cb(err) } } /** * A method for forwarding the user to the easiest way to obtain ether, * or the network "gas" currency, for the current selected network. * * @param {string} address - The address to fund. * @param {string} amount - The amount of ether desired, as a base 10 string. */ buyEth (address, amount) { if (!amount) amount = '5' const network = this.networkController.getNetworkState() const url = getBuyEthUrl({ network, address, amount }) if (url) this.platform.openWindow({ url }) } /** * A method for triggering a shapeshift currency transfer. * @param {string} depositAddress - The address to deposit to. * @property {string} depositType - An abbreviation of the type of crypto currency to be deposited. */ createShapeShiftTx (depositAddress, depositType) { this.shapeshiftController.createShapeShiftTx(depositAddress, depositType) } // network /** * A method for selecting a custom URL for an ethereum RPC provider. * @param {string} rpcTarget - A URL for a valid Ethereum RPC API. * @returns {Promise} - The RPC Target URL confirmed. */ async setCustomRpc (rpcTarget) { this.networkController.setRpcTarget(rpcTarget) await this.preferencesController.updateFrequentRpcList(rpcTarget) return rpcTarget } /** * 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) } catch (err) { cb(err) } } /** * 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 { this.preferencesController.setCurrentLocale(key) cb(null) } catch (err) { cb(err) } } /** * A method for initializing storage the first time. * @param {Object} initState - The default state to initialize with. * @private */ recordFirstTimeInfo (initState) { if (!('firstTimeInfo' in initState)) { initState.firstTimeInfo = { version, date: Date.now(), } } } /** * A method for recording whether the MetaMask user interface is open or not. * @private * @param {boolean} open */ set isClientOpen (open) { this._isClientOpen = open this.isClientOpenAndUnlocked = this.getState().isUnlocked && open this.detectTokensController.isOpen = open } /** * A method for activating the retrieval of price data, * which should only be fetched when the UI is visible. * @private * @param {boolean} active - True if price data should be getting fetched. */ set isClientOpenAndUnlocked (active) { this.tokenRatesController.isActive = active } }