var assert = require('assert') var crypto = require('crypto') var pbkdf2 = require('pbkdf2-compat').pbkdf2Sync var unorm = require('unorm') var DEFAULT_WORDLIST = require('./wordlists/en.json') function mnemonicToSeed(mnemonic, password) { return pbkdf2(mnemonic, salt(password), 2048, 64, 'sha512') } function mnemonicToSeedHex(mnemonic, password) { return mnemonicToSeed(mnemonic, password).toString('hex') } function mnemonicToEntropy(mnemonic, wordlist) { wordlist = wordlist || DEFAULT_WORDLIST var words = mnemonic.split(' ') assert(words.length % 3 === 0, 'Invalid mnemonic') var belongToList = words.every(function(word) { return wordlist.indexOf(word) > -1 }) assert(belongToList, 'Invalid mnemonic') // convert word indices to 11 bit binary strings var bits = words.map(function(word) { var index = wordlist.indexOf(word) return lpad(index.toString(2), '0', 11) }).join('') // split the binary string into ENT/CS var dividerIndex = Math.floor(bits.length / 33) * 32 var entropy = bits.slice(0, dividerIndex) var checksum = bits.slice(dividerIndex) // calculate the checksum and compare var entropyBytes = entropy.match(/(.{1,8})/g).map(function(bin) { return parseInt(bin, 2) }) var entropyBuffer = new Buffer(entropyBytes) var newChecksum = checksumBits(entropyBuffer) assert(newChecksum === checksum, 'Invalid mnemonic checksum') return entropyBuffer.toString('hex') } function entropyToMnemonic(entropy, wordlist) { wordlist = wordlist || DEFAULT_WORDLIST var entropyBuffer = new Buffer(entropy, 'hex') var entropyBits = bytesToBinary([].slice.call(entropyBuffer)) var checksum = checksumBits(entropyBuffer) var bits = entropyBits + checksum var chunks = bits.match(/(.{1,11})/g) var words = chunks.map(function(binary) { var index = parseInt(binary, 2) return wordlist[index] }) return words.join(' ') } function generateMnemonic(strength, rng, wordlist) { strength = strength || 128 rng = rng || crypto.randomBytes var hex = rng(strength / 8).toString('hex') return entropyToMnemonic(hex, wordlist) } function validateMnemonic(mnemonic, wordlist) { try { mnemonicToEntropy(mnemonic, wordlist) } catch (e) { return false } return true } function checksumBits(entropyBuffer) { var hash = crypto.createHash('sha256').update(entropyBuffer).digest() // Calculated constants from BIP39 var ENT = entropyBuffer.length * 8 var CS = ENT / 32 return bytesToBinary([].slice.call(hash)).slice(0, CS) } function salt(password) { return 'mnemonic' + (unorm.nfkd(password) || '') // Use unorm until String.prototype.normalize gets better browser support } //=========== helper methods from bitcoinjs-lib ======== function bytesToBinary(bytes) { return bytes.map(function(x) { return lpad(x.toString(2), '0', 8) }).join(''); } function lpad(str, padString, length) { while (str.length < length) str = padString + str; return str; } module.exports = { mnemonicToSeed: mnemonicToSeed, mnemonicToSeedHex: mnemonicToSeedHex, mnemonicToEntropy: mnemonicToEntropy, entropyToMnemonic: entropyToMnemonic, generateMnemonic: generateMnemonic, validateMnemonic: validateMnemonic }