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metamask-extension/app/scripts/keyring-controller.js
Dan Finlay 0584988688 Move sigUtil and keyrings to external modules
These external modules now have their own test coverage and build enforcement. This allowed me to somewhat more easily add good tests around our personalSign strategy (held now in [eth-sig-util](https://github.com/flyswatter/eth-sig-util), and allow each of the keyrings to import that, etc.
2017-02-21 14:25:47 -08:00

585 lines
16 KiB
JavaScript

const ethUtil = require('ethereumjs-util')
const BN = ethUtil.BN
const bip39 = require('bip39')
const EventEmitter = require('events').EventEmitter
const ObservableStore = require('obs-store')
const filter = require('promise-filter')
const encryptor = require('browser-passworder')
const normalizeAddress = require('eth-sig-util').normalize
// Keyrings:
const SimpleKeyring = require('eth-simple-keyring')
const HdKeyring = require('eth-hd-keyring')
const keyringTypes = [
SimpleKeyring,
HdKeyring,
]
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()
const initState = opts.initState || {}
this.keyringTypes = keyringTypes
this.store = new ObservableStore(initState)
this.memStore = new ObservableStore({
isUnlocked: false,
keyringTypes: this.keyringTypes.map(krt => krt.type),
keyrings: [],
identities: {},
})
this.ethStore = opts.ethStore
this.encryptor = encryptor
this.keyrings = []
this.getNetwork = opts.getNetwork
}
// 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.memStore.getState())
}
// 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((firstKeyring) => {
return firstKeyring.getAccounts()
})
.then((accounts) => {
const firstAccount = accounts[0]
if (!firstAccount) throw new Error('KeyringController - First Account not found.')
const hexAccount = normalizeAddress(firstAccount)
this.emit('newAccount', hexAccount)
return this.setupAccounts(accounts)
})
.then(this.persistAllKeyrings.bind(this, password))
.then(this.fullUpdate.bind(this))
}
// Set Locked
// returns Promise( @object state )
//
// This method deallocates all secrets, and effectively locks metamask.
setLocked () {
// set locked
this.password = null
this.memStore.updateState({ isUnlocked: false })
// remove keyrings
this.keyrings = []
this._updateMemStoreKeyrings()
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.deserialize(opts)
.then(() => {
return keyring.getAccounts()
})
.then((accounts) => {
this.keyrings.push(keyring)
return this.setupAccounts(accounts)
})
.then(() => this.persistAllKeyrings())
.then(() => this.fullUpdate())
.then(() => {
this._updateMemStoreKeyrings()
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 (selectedKeyring) {
return selectedKeyring.addAccounts(1)
.then(this.setupAccounts.bind(this))
.then(this.persistAllKeyrings.bind(this))
.then(this.fullUpdate.bind(this))
}
// Save Account Label
// @string account
// @string label
//
// returns Promise( @string label )
//
// Persists a nickname equal to `label` for the specified account.
saveAccountLabel (account, label) {
try {
const hexAddress = normalizeAddress(account)
// update state on diskStore
const state = this.store.getState()
const walletNicknames = state.walletNicknames || {}
walletNicknames[hexAddress] = label
this.store.updateState({ walletNicknames })
// update state on memStore
const identities = this.memStore.getState().identities
identities[hexAddress].name = label
this.memStore.updateState({ identities })
return Promise.resolve(label)
} catch (err) {
return Promise.reject(err)
}
}
// 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(normalizeAddress(address))
})
} catch (e) {
return Promise.reject(e)
}
}
// SIGNING METHODS
//
// This method signs tx and returns a promise for
// TX Manager to update the state after signing
signTransaction (ethTx, _fromAddress) {
const fromAddress = normalizeAddress(_fromAddress)
return this.getKeyringForAccount(fromAddress)
.then((keyring) => {
return keyring.signTransaction(fromAddress, ethTx)
})
}
// Sign Message
// @object msgParams
//
// returns Promise(@buffer rawSig)
//
// Attempts to sign the provided @object msgParams.
signMessage (msgParams) {
const address = normalizeAddress(msgParams.from)
return this.getKeyringForAccount(address)
.then((keyring) => {
return keyring.signMessage(address, msgParams.data)
})
}
// Sign Personal Message
// @object msgParams
//
// returns Promise(@buffer rawSig)
//
// Attempts to sign the provided @object msgParams.
// Prefixes the hash before signing as per the new geth behavior.
signPersonalMessage (msgParams) {
const address = normalizeAddress(msgParams.from)
return this.getKeyringForAccount(address)
.then((keyring) => {
return keyring.signPersonalMessage(address, msgParams.data)
})
}
// Recover Personal Message
// @object msgParams
//
// returns Promise(@buffer signer)
//
// recovers a signature of the prefixed-style personalMessage signature.
recoverPersonalMessage (msgParams) {
const address = normalizeAddress(msgParams.from)
return this.getKeyringForAccount(address)
.then((keyring) => {
return keyring.recoverPersonalMessage(address, msgParams.data)
})
}
// 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((keyring) => {
return keyring.getAccounts()
})
.then((accounts) => {
const firstAccount = accounts[0]
if (!firstAccount) throw new Error('KeyringController - No account found on keychain.')
const hexAccount = normalizeAddress(firstAccount)
this.emit('newAccount', hexAccount)
return this.setupAccounts(accounts)
})
.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 = normalizeAddress(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 = normalizeAddress(address)
const identities = this.memStore.getState().identities
const currentIdentityCount = Object.keys(identities).length + 1
const nicknames = this.store.getState().walletNicknames || {}
const existingNickname = nicknames[hexAddress]
const name = existingNickname || `Account ${currentIdentityCount}`
identities[hexAddress] = {
address: hexAddress,
name,
}
this.memStore.updateState({ identities })
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
this.memStore.updateState({ isUnlocked: true })
}
return Promise.all(this.keyrings.map((keyring) => {
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.store.updateState({ vault: 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.store.getState().vault
if (!encryptedVault) {
throw new Error('Cannot unlock without a previous vault.')
}
return this.encryptor.decrypt(password, encryptedVault)
.then((vault) => {
this.password = password
this.memStore.updateState({ isUnlocked: true })
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)
this._updateMemStoreKeyrings()
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)
}
getKeyringsByType (type) {
return this.keyrings.filter((keyring) => keyring.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 = normalizeAddress(address)
return Promise.all(this.keyrings.map((keyring) => {
return Promise.all([
keyring,
keyring.getAccounts(),
])
}))
.then(filter((candidate) => {
const accounts = candidate[1].map(normalizeAddress)
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.getState())
} catch (e) {
accounts = []
}
accounts.forEach((address) => {
this.ethStore.removeAccount(address)
})
// clear keyrings from memory
this.keyrings = []
this.memStore.updateState({
keyrings: [],
identities: {},
})
}
_updateMemStoreKeyrings() {
Promise.all(this.keyrings.map(this.displayForKeyring))
.then((keyrings) => {
this.memStore.updateState({ keyrings })
})
}
}
module.exports = KeyringController