var assert = require('assert')
var base58 = require('./base58')
var convert = require('./convert')
var Address = require('./address')
var BigInteger = require('./jsbn/jsbn')
var CJS = require('crypto-js')
var crypto = require('./crypto')
var ECKey = require('./eckey').ECKey
var ECPubKey = require('./eckey').ECPubKey
var format = require('util').format
var Network = require('./network')
function HmacSHA512(buffer, secret) {
var words = convert.bytesToWordArray(buffer)
var hash = CJS.HmacSHA512(words, secret)
return new Buffer(convert.wordArrayToBytes(hash))
}
function HDWallet(seed, netstr) {
if (seed == undefined) return; // FIXME: Boo, should be stricter
var I = HmacSHA512(seed, 'Bitcoin seed')
this.chaincode = I.slice(32)
this.network = netstr || 'bitcoin'
if(!Network.hasOwnProperty(this.network)) {
throw new Error("Unknown network: " + this.network)
}
this.priv = new ECKey(I.slice(0, 32), true)
this.pub = this.priv.getPub()
this.index = 0
this.depth = 0
}
HDWallet.HIGHEST_BIT = 0x80000000
HDWallet.LENGTH = 78
HDWallet.fromSeedHex = function(hex, network) {
return new HDWallet(new Buffer(hex, 'hex'), network)
}
HDWallet.fromBase58 = function(string) {
var buffer = base58.decode(string)
var payload = buffer.slice(0, -4)
var checksum = buffer.slice(-4)
var newChecksum = crypto.hash256(payload).slice(0, 4)
assert.deepEqual(newChecksum, checksum)
assert.equal(payload.length, HDWallet.LENGTH)
return HDWallet.fromBuffer(payload)
}
HDWallet.fromHex = function(input) {
return HDWallet.fromBuffer(new Buffer(input, 'hex'))
}
HDWallet.fromBuffer = function(input) {
assert(input.length === HDWallet.LENGTH)
var hd = new HDWallet()
// 4 byte: version bytes
var version = input.readUInt32BE(0)
var type
for(var name in Network) {
var network = Network[name]
for(var t in network.bip32) {
if (version != network.bip32[t]) continue
type = t
hd.network = name
}
}
if (!hd.network) {
throw new Error(format('Could not find version %s', convert.bytesToHex(versionBytes)))
}
// 1 byte: depth: 0x00 for master nodes, 0x01 for level-1 descendants, ...
hd.depth = input.readUInt8(4)
// 4 bytes: the fingerprint of the parent's key (0x00000000 if master key)
hd.parentFingerprint = input.readUInt32BE(5)
if (hd.depth === 0) {
assert(hd.parentFingerprint === 0x00000000)
}
// 4 bytes: child number. This is the number i in xi = xpar/i, with xi the key being serialized.
// This is encoded in MSB order. (0x00000000 if master key)
hd.index = input.readUInt32BE(9)
assert(hd.depth > 0 || hd.index === 0)
// 32 bytes: the chain code
hd.chaincode = input.slice(13, 45)
// 33 bytes: the public key or private key data (0x02 + X or 0x03 + X for
// public keys, 0x00 + k for private keys)
if (type == 'priv') {
hd.priv = new ECKey(input.slice(46, 78), true)
hd.pub = hd.priv.getPub()
} else {
hd.pub = new ECPubKey(input.slice(45, 78), true)
}
return hd
}
HDWallet.prototype.getIdentifier = function() {
return crypto.hash160(this.pub.toBytes())
}
HDWallet.prototype.getFingerprint = function() {
return this.getIdentifier().slice(0, 4)
}
HDWallet.prototype.getAddress = function() {
return new Address(crypto.hash160(this.pub.toBytes()), this.getKeyVersion())
}
HDWallet.prototype.toBuffer = function(priv) {
// Version
var version = Network[this.network].bip32[priv ? 'priv' : 'pub']
var buffer = new Buffer(HDWallet.LENGTH)
// 4 bytes: version bytes
buffer.writeUInt32BE(version, 0)
// Depth
// 1 byte: depth: 0x00 for master nodes, 0x01 for level-1 descendants, ....
buffer.writeUInt8(this.depth, 4)
// 4 bytes: the fingerprint of the parent's key (0x00000000 if master key)
var fingerprint = this.depth ? this.parentFingerprint : 0x00000000
buffer.writeUInt32BE(fingerprint, 5)
// 4 bytes: child number. This is the number i in xi = xpar/i, with xi the key being serialized.
// This is encoded in Big endian. (0x00000000 if master key)
buffer.writeUInt32BE(this.index, 9)
// 32 bytes: the chain code
this.chaincode.copy(buffer, 13)
// 33 bytes: the public key or private key data
if (priv) {
assert(this.priv, 'Cannot serialize to private without private key')
// 0x00 + k for private keys
buffer.writeUInt8(0, 45)
new Buffer(this.priv.toBytes()).copy(buffer, 46)
} else {
// X9.62 encoding for public keys
new Buffer(this.pub.toBytes()).copy(buffer, 45)
}
return buffer
}
HDWallet.prototype.toHex = function(priv) {
return this.toBuffer(priv).toString('hex')
}
HDWallet.prototype.toBase58 = function(priv) {
var buffer = new Buffer(this.toBuffer(priv))
var checksum = crypto.hash256(buffer).slice(0, 4)
return base58.encode(Buffer.concat([
buffer,
checksum
]))
}
HDWallet.prototype.derive = function(i) {
var iBytes = convert.numToBytes(i, 4).reverse()
, cPar = this.chaincode
, usePriv = i >= HDWallet.HIGHEST_BIT
, SHA512 = CJS.algo.SHA512
var I
if (usePriv) {
assert(this.priv, 'Private derive on public key')
// If 1, private derivation is used:
// let I = HMAC-SHA512(Key = cpar, Data = 0x00 || kpar || i) [Note:]
var kPar = this.priv.toBytes().slice(0, 32)
// FIXME: Dislikes buffers
I = HmacFromBytesToBytes(SHA512, [0].concat(kPar, iBytes), cPar)
} else {
// If 0, public derivation is used:
// let I = HMAC-SHA512(Key = cpar, Data = χ(kpar*G) || i)
var KPar = this.pub.toBytes()
// FIXME: Dislikes buffers
I = HmacFromBytesToBytes(SHA512, KPar.concat(iBytes), cPar)
}
// FIXME: Boo, CSJ.algo.SHA512 uses byte arrays
I = new Buffer(I)
// Split I = IL || IR into two 32-byte sequences, IL and IR.
var IL = I.slice(0, 32)
, IR = I.slice(32)
var hd = new HDWallet()
hd.network = this.network
var ILbytes = Buffer.concat([IL, new Buffer([0x01])])
var ILpriv = new ECKey(ILbytes, true)
if (this.priv) {
// ki = IL + kpar (mod n).
hd.priv = this.priv.add(ILpriv)
hd.pub = hd.priv.getPub()
} else {
// Ki = (IL + kpar)*G = IL*G + Kpar
hd.pub = this.pub.add(ILpriv.getPub())
}
// ci = IR.
hd.chaincode = IR
hd.parentFingerprint = this.getFingerprint().readUInt32BE(0)
hd.depth = this.depth + 1
hd.index = i
hd.pub.compressed = true
return hd
}
HDWallet.prototype.derivePrivate = function(index) {
return this.derive(index + HDWallet.HIGHEST_BIT)
}
HDWallet.prototype.getKeyVersion = function() {
return Network[this.network].pubKeyHash
}
HDWallet.prototype.toString = HDWallet.prototype.toBase58
function HmacFromBytesToBytes(hasher, message, key) {
var hmac = CJS.algo.HMAC.create(hasher, convert.bytesToWordArray(key))
hmac.update(convert.bytesToWordArray(message))
return convert.wordArrayToBytes(hmac.finalize())
}
module.exports = HDWallet