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

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const async = require('async')
const ethUtil = require('ethereumjs-util')
const EthQuery = require('eth-query')
const bip39 = require('bip39')
const Transaction = require('ethereumjs-tx')
const EventEmitter = require('events').EventEmitter
const filter = require('promise-filter')
const encryptor = require('browser-passworder')
const normalize = require('./lib/sig-util').normalize
const messageManager = require('./lib/message-manager')
const BN = ethUtil.BN
// Keyrings:
const SimpleKeyring = require('./keyrings/simple')
const HdKeyring = require('./keyrings/hd')
const keyringTypes = [
SimpleKeyring,
HdKeyring,
]
const createId = require('./lib/random-id')
module.exports = class KeyringController extends EventEmitter {
// PUBLIC METHODS
//
// THE FIRST SECTION OF METHODS ARE PUBLIC-FACING,
// MEANING THEY ARE USED BY CONSUMERS OF THIS CLASS.
//
// THEIR SURFACE AREA SHOULD BE CHANGED WITH GREAT CARE.
constructor (opts) {
super()
this.configManager = opts.configManager
this.ethStore = opts.ethStore
this.encryptor = encryptor
this.keyringTypes = keyringTypes
this.keyrings = []
this.identities = {} // Essentially a name hash
this._unconfTxCbs = {}
this._unconfMsgCbs = {}
this.getNetwork = opts.getNetwork
}
// Set Store
//
// Allows setting the ethStore after the constructor.
// This is currently required because of the initialization order
// of the ethStore and this class.
//
// Eventually would be nice to be able to add this in the constructor.
setStore (ethStore) {
this.ethStore = ethStore
}
// Full Update
// returns Promise( @object state )
//
// Emits the `update` event and
// returns a Promise that resolves to the current state.
//
// Frequently used to end asynchronous chains in this class,
// indicating consumers can often either listen for updates,
// or accept a state-resolving promise to consume their results.
//
// Not all methods end with this, that might be a nice refactor.
fullUpdate () {
this.emit('update')
return Promise.resolve(this.getState())
}
// Get State
// returns @object state
//
// This method returns a hash representing the current state
// that the keyringController manages.
//
// It is extended in the MetamaskController along with the EthStore
// state, and its own state, to create the metamask state branch
// that is passed to the UI.
//
// This is currently a rare example of a synchronously resolving method
// in this class, but will need to be Promisified when we move our
// persistence to an async model.
getState () {
const configManager = this.configManager
const address = configManager.getSelectedAccount()
const wallet = configManager.getWallet() // old style vault
const vault = configManager.getVault() // new style vault
const keyrings = this.keyrings
return Promise.all(keyrings.map(this.displayForKeyring))
.then((displayKeyrings) => {
return {
seedWords: this.configManager.getSeedWords(),
isInitialized: (!!wallet || !!vault),
isUnlocked: Boolean(this.password),
isDisclaimerConfirmed: this.configManager.getConfirmedDisclaimer(),
unconfTxs: this.configManager.unconfirmedTxs(),
transactions: this.configManager.getTxList(),
unconfMsgs: messageManager.unconfirmedMsgs(),
messages: messageManager.getMsgList(),
selectedAccount: address,
shapeShiftTxList: this.configManager.getShapeShiftTxList(),
currentFiat: this.configManager.getCurrentFiat(),
conversionRate: this.configManager.getConversionRate(),
conversionDate: this.configManager.getConversionDate(),
keyringTypes: this.keyringTypes.map(krt => krt.type),
identities: this.identities,
keyrings: displayKeyrings,
}
})
}
// Create New Vault And Keychain
// @string password - The password to encrypt the vault with
//
// returns Promise( @object state )
//
// Destroys any old encrypted storage,
// creates a new encrypted store with the given password,
// randomly creates a new HD wallet with 1 account,
// faucets that account on the testnet.
createNewVaultAndKeychain (password) {
return this.persistAllKeyrings(password)
.then(this.createFirstKeyTree.bind(this))
.then(this.fullUpdate.bind(this))
}
// CreateNewVaultAndRestore
// @string password - The password to encrypt the vault with
// @string seed - The BIP44-compliant seed phrase.
//
// returns Promise( @object state )
//
// Destroys any old encrypted storage,
// creates a new encrypted store with the given password,
// creates a new HD wallet from the given seed with 1 account.
createNewVaultAndRestore (password, seed) {
if (typeof password !== 'string') {
return Promise.reject('Password must be text.')
}
if (!bip39.validateMnemonic(seed)) {
return Promise.reject('Seed phrase is invalid.')
}
this.clearKeyrings()
return this.persistAllKeyrings(password)
.then(() => {
return this.addNewKeyring('HD Key Tree', {
mnemonic: seed,
numberOfAccounts: 1,
})
}).then(() => {
const firstKeyring = this.keyrings[0]
return firstKeyring.getAccounts()
})
.then((accounts) => {
const firstAccount = accounts[0]
const hexAccount = normalize(firstAccount)
this.configManager.setSelectedAccount(hexAccount)
return this.setupAccounts(accounts)
})
.then(this.persistAllKeyrings.bind(this, password))
.then(this.fullUpdate.bind(this))
}
// PlaceSeedWords
// returns Promise( @object state )
//
// 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.
placeSeedWords () {
const firstKeyring = this.keyrings[0]
return firstKeyring.serialize()
.then((serialized) => {
const seedWords = serialized.mnemonic
this.configManager.setSeedWords(seedWords)
return this.fullUpdate()
})
}
// ClearSeedWordCache
//
// returns Promise( @string currentSelectedAccount )
//
// Removes the current vault's seed words from the UI's state tree,
// ensuring they are only ever available in the background process.
clearSeedWordCache () {
this.configManager.setSeedWords(null)
return Promise.resolve(this.configManager.getSelectedAccount())
}
// Set Locked
// returns Promise( @object state )
//
// This method deallocates all secrets, and effectively locks metamask.
setLocked () {
this.password = null
this.keyrings = []
return this.fullUpdate()
}
// Submit Password
// @string password
//
// returns Promise( @object state )
//
// Attempts to decrypt the current vault and load its keyrings
// into memory.
//
// Temporarily also migrates any old-style vaults first, as well.
// (Pre MetaMask 3.0.0)
submitPassword (password) {
return this.unlockKeyrings(password)
.then((keyrings) => {
this.keyrings = keyrings
return this.fullUpdate()
})
}
// Add New Keyring
// @string type
// @object opts
//
// returns Promise( @Keyring keyring )
//
// Adds a new Keyring of the given `type` to the vault
// and the current decrypted Keyrings array.
//
// All Keyring classes implement a unique `type` string,
// and this is used to retrieve them from the keyringTypes array.
addNewKeyring (type, opts) {
const Keyring = this.getKeyringClassForType(type)
const keyring = new Keyring(opts)
return keyring.getAccounts()
.then((accounts) => {
this.keyrings.push(keyring)
return this.setupAccounts(accounts)
})
.then(() => { return this.password })
.then(this.persistAllKeyrings.bind(this))
.then(() => {
return keyring
})
}
// Add New Account
// @number keyRingNum
//
// returns Promise( @object state )
//
// Calls the `addAccounts` method on the Keyring
// in the kryings array at index `keyringNum`,
// and then saves those changes.
addNewAccount (keyRingNum = 0) {
const ring = this.keyrings[keyRingNum]
return ring.addAccounts(1)
.then(this.setupAccounts.bind(this))
.then(this.persistAllKeyrings.bind(this))
.then(this.fullUpdate.bind(this))
}
// Set Selected Account
// @string address
//
// returns Promise( @string address )
//
// Sets the state's `selectedAccount` value
// to the specified address.
setSelectedAccount (address) {
var addr = normalize(address)
this.configManager.setSelectedAccount(addr)
return Promise.resolve(addr)
}
// Save Account Label
// @string account
// @string label
//
// returns Promise( @string label )
//
// Persists a nickname equal to `label` for the specified account.
saveAccountLabel (account, label) {
const address = normalize(account)
const configManager = this.configManager
configManager.setNicknameForWallet(address, label)
this.identities[address].name = label
return Promise.resolve(label)
}
// Export Account
// @string address
//
// returns Promise( @string privateKey )
//
// Requests the private key from the keyring controlling
// the specified address.
//
// Returns a Promise that may resolve with the private key string.
exportAccount (address) {
try {
return this.getKeyringForAccount(address)
.then((keyring) => {
return keyring.exportAccount(normalize(address))
})
} catch (e) {
return Promise.reject(e)
}
}
// SIGNING RELATED METHODS
//
// SIGN, SUBMIT TX, CANCEL, AND APPROVE.
// THIS SECTION INVOLVES THE REQUEST, STORING, AND SIGNING OF DATA
// WITH THE KEYS STORED IN THIS CONTROLLER.
// Add Unconfirmed Transaction
// @object txParams
// @function onTxDoneCb
// @function cb
//
// Calls back `cb` with @object txData = { txParams }
// Calls back `onTxDoneCb` with `true` or an `error` depending on result.
//
// Prepares the given `txParams` for final confirmation and approval.
// Estimates gas and other preparatory steps.
// Caches the requesting Dapp's callback, `onTxDoneCb`, for resolution later.
addUnconfirmedTransaction (txParams, onTxDoneCb, cb) {
const configManager = this.configManager
// create txData obj with parameters and meta data
var time = (new Date()).getTime()
var txId = createId()
txParams.metamaskId = txId
txParams.metamaskNetworkId = this.getNetwork()
var txData = {
id: txId,
txParams: txParams,
time: time,
status: 'unconfirmed',
gasMultiplier: configManager.getGasMultiplier() || 1,
metamaskNetworkId: this.getNetwork(),
}
// keep the onTxDoneCb around for after approval/denial (requires user interaction)
// This onTxDoneCb fires completion to the Dapp's write operation.
this._unconfTxCbs[txId] = onTxDoneCb
var provider = this.ethStore._query.currentProvider
var query = new EthQuery(provider)
// calculate metadata for tx
this.analyzeTxGasUsage(query, txData, this.txDidComplete.bind(this, txData, cb))
}
estimateTxGas (query, txData, blockGasLimitHex, cb) {
const txParams = txData.txParams
// check if gasLimit is already specified
txData.gasLimitSpecified = Boolean(txParams.gas)
// if not, fallback to block gasLimit
if (!txData.gasLimitSpecified) {
txParams.gas = blockGasLimitHex
}
// run tx, see if it will OOG
query.estimateGas(txParams, cb)
}
checkForTxGasError (txData, estimatedGasHex, cb) {
txData.estimatedGas = estimatedGasHex
// all gas used - must be an error
if (estimatedGasHex === txData.txParams.gas) {
txData.simulationFails = true
}
cb()
}
setTxGas (txData, blockGasLimitHex, cb) {
const txParams = txData.txParams
// if OOG, nothing more to do
if (txData.simulationFails) {
cb()
return
}
// if gasLimit was specified and doesnt OOG,
// use original specified amount
if (txData.gasLimitSpecified) {
txData.estimatedGas = txParams.gas
cb()
return
}
// if gasLimit not originally specified,
// try adding an additional gas buffer to our estimation for safety
const estimatedGasBn = new BN(ethUtil.stripHexPrefix(txData.estimatedGas), 16)
const blockGasLimitBn = new BN(ethUtil.stripHexPrefix(blockGasLimitHex), 16)
const estimationWithBuffer = new BN(this.addGasBuffer(estimatedGasBn), 16)
// added gas buffer is too high
if (estimationWithBuffer.gt(blockGasLimitBn)) {
txParams.gas = txData.estimatedGas
// added gas buffer is safe
} else {
const gasWithBufferHex = ethUtil.intToHex(estimationWithBuffer)
txParams.gas = gasWithBufferHex
}
cb()
return
}
txDidComplete (txData, cb, err) {
if (err) return cb(err)
const configManager = this.configManager
configManager.addTx(txData)
// signal update
this.emit('update')
// signal completion of add tx
cb(null, txData)
}
analyzeTxGasUsage (query, txData, cb) {
query.getBlockByNumber('latest', true, (err, block) => {
if (err) return cb(err)
async.waterfall([
this.estimateTxGas.bind(this, query, txData, block.gasLimit),
this.checkForTxGasError.bind(this, txData),
this.setTxGas.bind(this, txData, block.gasLimit),
], cb)
})
}
// Cancel Transaction
// @string txId
// @function cb
//
// Calls back `cb` with no error if provided.
//
// Forgets any tx matching `txId`.
cancelTransaction (txId, cb) {
const configManager = this.configManager
var approvalCb = this._unconfTxCbs[txId] || noop
// reject tx
approvalCb(null, false)
// clean up
configManager.rejectTx(txId)
delete this._unconfTxCbs[txId]
if (cb && typeof cb === 'function') {
cb()
}
}
// Approve Transaction
// @string txId
// @function cb
//
// Calls back `cb` with no error always.
//
// Attempts to sign a Transaction with `txId`
// and submit it to the blockchain.
//
// Calls back the cached Dapp's confirmation callback, also.
approveTransaction (txId, cb) {
const configManager = this.configManager
var approvalCb = this._unconfTxCbs[txId] || noop
// accept tx
cb()
approvalCb(null, true)
// clean up
configManager.confirmTx(txId)
delete this._unconfTxCbs[txId]
this.emit('update')
}
signTransaction (txParams, cb) {
try {
const address = normalize(txParams.from)
return this.getKeyringForAccount(address)
.then((keyring) => {
// Handle gas pricing
var gasMultiplier = this.configManager.getGasMultiplier() || 1
var gasPrice = new BN(ethUtil.stripHexPrefix(txParams.gasPrice), 16)
gasPrice = gasPrice.mul(new BN(gasMultiplier * 100, 10)).div(new BN(100, 10))
txParams.gasPrice = ethUtil.intToHex(gasPrice.toNumber())
// normalize values
txParams.to = normalize(txParams.to)
txParams.from = normalize(txParams.from)
txParams.value = normalize(txParams.value)
txParams.data = normalize(txParams.data)
txParams.gasLimit = normalize(txParams.gasLimit || txParams.gas)
txParams.nonce = normalize(txParams.nonce)
const tx = new Transaction(txParams)
return keyring.signTransaction(address, tx)
})
.then((tx) => {
// Add the tx hash to the persisted meta-tx object
var txHash = ethUtil.bufferToHex(tx.hash())
var metaTx = this.configManager.getTx(txParams.metamaskId)
metaTx.hash = txHash
this.configManager.updateTx(metaTx)
// return raw serialized tx
var rawTx = ethUtil.bufferToHex(tx.serialize())
cb(null, rawTx)
})
} catch (e) {
cb(e)
}
}
// Add Unconfirmed Message
// @object msgParams
// @function cb
//
// Does not call back, only emits an `update` event.
//
// Adds the given `msgParams` and `cb` to a local cache,
// for displaying to a user for approval before signing or canceling.
addUnconfirmedMessage (msgParams, cb) {
// create txData obj with parameters and meta data
var time = (new Date()).getTime()
var msgId = createId()
var msgData = {
id: msgId,
msgParams: msgParams,
time: time,
status: 'unconfirmed',
}
messageManager.addMsg(msgData)
console.log('addUnconfirmedMessage:', msgData)
// keep the cb around for after approval (requires user interaction)
// This cb fires completion to the Dapp's write operation.
this._unconfMsgCbs[msgId] = cb
// signal update
this.emit('update')
return msgId
}
// Cancel Message
// @string msgId
// @function cb (optional)
//
// Calls back to cached `unconfMsgCb`.
// Calls back to `cb` if provided.
//
// Forgets any messages matching `msgId`.
cancelMessage (msgId, cb) {
var approvalCb = this._unconfMsgCbs[msgId] || noop
// reject tx
approvalCb(null, false)
// clean up
messageManager.rejectMsg(msgId)
delete this._unconfTxCbs[msgId]
if (cb && typeof cb === 'function') {
cb()
}
}
// Sign Message
// @object msgParams
// @function cb
//
// returns Promise(@buffer rawSig)
// calls back @function cb with @buffer rawSig
// calls back cached Dapp's @function unconfMsgCb.
//
// Attempts to sign the provided @object msgParams.
signMessage (msgParams, cb) {
try {
const msgId = msgParams.metamaskId
delete msgParams.metamaskId
const approvalCb = this._unconfMsgCbs[msgId] || noop
const address = normalize(msgParams.from)
return this.getKeyringForAccount(address)
.then((keyring) => {
return keyring.signMessage(address, msgParams.data)
}).then((rawSig) => {
cb(null, rawSig)
approvalCb(null, true)
return rawSig
})
} catch (e) {
cb(e)
}
}
// PRIVATE METHODS
//
// THESE METHODS ARE ONLY USED INTERNALLY TO THE KEYRING-CONTROLLER
// AND SO MAY BE CHANGED MORE LIBERALLY THAN THE ABOVE METHODS.
// Create First Key Tree
// returns @Promise
//
// Clears the vault,
// creates a new one,
// creates a random new HD Keyring with 1 account,
// makes that account the selected account,
// faucets that account on testnet,
// puts the current seed words into the state tree.
createFirstKeyTree () {
this.clearKeyrings()
return this.addNewKeyring('HD Key Tree', {numberOfAccounts: 1})
.then(() => {
return this.keyrings[0].getAccounts()
})
.then((accounts) => {
const firstAccount = accounts[0]
const hexAccount = normalize(firstAccount)
this.configManager.setSelectedAccount(hexAccount)
this.emit('newAccount', hexAccount)
return this.setupAccounts(accounts)
}).then(() => {
return this.placeSeedWords()
})
.then(this.persistAllKeyrings.bind(this))
}
// Setup Accounts
// @array accounts
//
// returns @Promise(@object account)
//
// Initializes the provided account array
// Gives them numerically incremented nicknames,
// and adds them to the ethStore for regular balance checking.
setupAccounts (accounts) {
return this.getAccounts()
.then((loadedAccounts) => {
const arr = accounts || loadedAccounts
return Promise.all(arr.map((account) => {
return this.getBalanceAndNickname(account)
}))
})
}
// Get Balance And Nickname
// @string account
//
// returns Promise( @string label )
//
// Takes an account address and an iterator representing
// the current number of named accounts.
getBalanceAndNickname (account) {
if (!account) {
throw new Error('Problem loading account.')
}
const address = normalize(account)
this.ethStore.addAccount(address)
return this.createNickname(address)
}
// Create Nickname
// @string address
//
// returns Promise( @string label )
//
// Takes an address, and assigns it an incremented nickname, persisting it.
createNickname (address) {
const hexAddress = normalize(address)
var i = Object.keys(this.identities).length
const oldNickname = this.configManager.nicknameForWallet(address)
const name = oldNickname || `Account ${++i}`
this.identities[hexAddress] = {
address: hexAddress,
name,
}
return this.saveAccountLabel(hexAddress, name)
}
// Persist All Keyrings
// @password string
//
// returns Promise
//
// Iterates the current `keyrings` array,
// serializes each one into a serialized array,
// encrypts that array with the provided `password`,
// and persists that encrypted string to storage.
persistAllKeyrings (password = this.password) {
if (typeof password === 'string') {
this.password = password
}
return Promise.all(this.keyrings.map((keyring, i) => {
return Promise.all([keyring.type, keyring.serialize()])
.then((serializedKeyringArray) => {
// Label the output values on each serialized Keyring:
return {
type: serializedKeyringArray[0],
data: serializedKeyringArray[1],
}
})
}))
.then((serializedKeyrings) => {
return this.encryptor.encrypt(this.password, serializedKeyrings)
})
.then((encryptedString) => {
this.configManager.setVault(encryptedString)
return true
})
}
// Unlock Keyrings
// @string password
//
// returns Promise( @array keyrings )
//
// Attempts to unlock the persisted encrypted storage,
// initializing the persisted keyrings to RAM.
unlockKeyrings (password) {
const encryptedVault = this.configManager.getVault()
if (!encryptedVault) {
throw new Error('Cannot unlock without a previous vault.')
}
return this.encryptor.decrypt(password, encryptedVault)
.then((vault) => {
this.password = password
vault.forEach(this.restoreKeyring.bind(this))
return this.keyrings
})
}
// Restore Keyring
// @object serialized
//
// returns Promise( @Keyring deserialized )
//
// Attempts to initialize a new keyring from the provided
// serialized payload.
//
// On success, returns the resulting @Keyring instance.
restoreKeyring (serialized) {
const { type, data } = serialized
const Keyring = this.getKeyringClassForType(type)
const keyring = new Keyring()
return keyring.deserialize(data)
.then(() => {
return keyring.getAccounts()
})
.then((accounts) => {
return this.setupAccounts(accounts)
})
.then(() => {
this.keyrings.push(keyring)
return keyring
})
}
// Get Keyring Class For Type
// @string type
//
// Returns @class Keyring
//
// Searches the current `keyringTypes` array
// for a Keyring class whose unique `type` property
// matches the provided `type`,
// returning it if it exists.
getKeyringClassForType (type) {
return this.keyringTypes.find(kr => kr.type === type)
}
// Get Accounts
// returns Promise( @Array[ @string accounts ] )
//
// Returns the public addresses of all current accounts
// managed by all currently unlocked keyrings.
getAccounts () {
const keyrings = this.keyrings || []
return Promise.all(keyrings.map(kr => kr.getAccounts()))
.then((keyringArrays) => {
return keyringArrays.reduce((res, arr) => {
return res.concat(arr)
}, [])
})
}
// Get Keyring For Account
// @string address
//
// returns Promise(@Keyring keyring)
//
// Returns the currently initialized keyring that manages
// the specified `address` if one exists.
getKeyringForAccount (address) {
const hexed = normalize(address)
return Promise.all(this.keyrings.map((keyring) => {
return Promise.all([
keyring,
keyring.getAccounts(),
])
}))
.then(filter((candidate) => {
const accounts = candidate[1].map(normalize)
return accounts.includes(hexed)
}))
.then((winners) => {
if (winners && winners.length > 0) {
return winners[0][0]
} else {
throw new Error('No keyring found for the requested account.')
}
})
}
// Display For Keyring
// @Keyring keyring
//
// returns Promise( @Object { type:String, accounts:Array } )
//
// Is used for adding the current keyrings to the state object.
displayForKeyring (keyring) {
return keyring.getAccounts()
.then((accounts) => {
return {
type: keyring.type,
accounts: accounts,
}
})
}
// Add Gas Buffer
// @string gas (as hexadecimal value)
//
// returns @string bufferedGas (as hexadecimal value)
//
// Adds a healthy buffer of gas to an initial gas estimate.
addGasBuffer (gas) {
const gasBuffer = new BN('100000', 10)
const bnGas = new BN(ethUtil.stripHexPrefix(gas), 16)
const correct = bnGas.add(gasBuffer)
return ethUtil.addHexPrefix(correct.toString(16))
}
// Clear Keyrings
//
// Deallocates all currently managed keyrings and accounts.
// Used before initializing a new vault.
clearKeyrings () {
let accounts
try {
accounts = Object.keys(this.ethStore._currentState.accounts)
} catch (e) {
accounts = []
}
accounts.forEach((address) => {
this.ethStore.removeAccount(address)
})
this.keyrings = []
this.identities = {}
this.configManager.setSelectedAccount()
}
}
function noop () {}