'use strict'; var _ = require('lodash'); var $ = require('./util/preconditions'); var BN = require('./crypto/bn'); var Base58 = require('./encoding/base58'); var Base58Check = require('./encoding/base58check'); var Hash = require('./crypto/hash'); var HDPrivateKey = require('./hdprivatekey'); var HDKeyCache = require('./hdkeycache'); var Network = require('./networks'); var Point = require('./crypto/point'); var PublicKey = require('./publickey'); var bitcoreErrors = require('./errors'); var errors = bitcoreErrors; var hdErrors = bitcoreErrors.HDPublicKey; var assert = require('assert'); var JSUtil = require('./util/js'); var BufferUtil = require('./util/buffer'); /** * The representation of an hierarchically derived public key. * * See https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki * * @constructor * @param {Object|string|Buffer} arg */ function HDPublicKey(arg) { /* jshint maxcomplexity: 12 */ /* jshint maxstatements: 20 */ if (arg instanceof HDPublicKey) { return arg; } if (!(this instanceof HDPublicKey)) { return new HDPublicKey(arg); } if (arg) { if (_.isString(arg) || BufferUtil.isBuffer(arg)) { var error = HDPublicKey.getSerializedError(arg); if (!error) { return this._buildFromSerialized(arg); } else if (BufferUtil.isBuffer(arg) && !HDPublicKey.getSerializedError(arg.toString())) { return this._buildFromSerialized(arg.toString()); } else { if (error instanceof hdErrors.ArgumentIsPrivateExtended) { return new HDPrivateKey(arg).hdPublicKey; } throw error; } } else { if (_.isObject(arg)) { if (arg instanceof HDPrivateKey) { return this._buildFromPrivate(arg); } else { return this._buildFromObject(arg); } } else { throw new hdErrors.UnrecognizedArgument(arg); } } } else { throw new hdErrors.MustSupplyArgument(); } } /** * Verifies that a given path is valid. * * @param {string|number} arg * @return {boolean} */ HDPublicKey.isValidPath = function(arg) { if (_.isString(arg)) { var indexes = HDPrivateKey._getDerivationIndexes(arg); return indexes !== null && _.all(indexes, HDPublicKey.isValidPath); } if (_.isNumber(arg)) { return arg >= 0 && arg < HDPublicKey.Hardened; } return false; }; /** * Get a derivated child based on a string or number. * * If the first argument is a string, it's parsed as the full path of * derivation. Valid values for this argument include "m" (which returns the * same public key), "m/0/1/40/2/1000". * * Note that hardened keys can't be derived from a public extended key. * * If the first argument is a number, the child with that index will be * derived. See the example usage for clarification. * * @example * ```javascript * var parent = new HDPublicKey('xpub...'); * var child_0_1_2 = parent.derive(0).derive(1).derive(2); * var copy_of_child_0_1_2 = parent.derive("m/0/1/2"); * assert(child_0_1_2.xprivkey === copy_of_child_0_1_2); * ``` * * @param {string|number} arg */ HDPublicKey.prototype.derive = function(arg, hardened) { if (_.isNumber(arg)) { return this._deriveWithNumber(arg, hardened); } else if (_.isString(arg)) { return this._deriveFromString(arg); } else { throw new hdErrors.InvalidDerivationArgument(arg); } }; HDPublicKey.prototype._deriveWithNumber = function(index, hardened) { if (index >= HDPublicKey.Hardened || hardened) { throw new hdErrors.InvalidIndexCantDeriveHardened(); } if (index < 0) { throw new hdErrors.InvalidPath(index); } var cached = HDKeyCache.get(this.xpubkey, index, false); if (cached) { return cached; } var indexBuffer = BufferUtil.integerAsBuffer(index); var data = BufferUtil.concat([this.publicKey.toBuffer(), indexBuffer]); var hash = Hash.sha512hmac(data, this._buffers.chainCode); var leftPart = BN.fromBuffer(hash.slice(0, 32), {size: 32}); var chainCode = hash.slice(32, 64); var publicKey = PublicKey.fromPoint(Point.getG().mul(leftPart).add(this.publicKey.point)); var derived = new HDPublicKey({ network: this.network, depth: this.depth + 1, parentFingerPrint: this.fingerPrint, childIndex: index, chainCode: chainCode, publicKey: publicKey }); HDKeyCache.set(this.xpubkey, index, false, derived); return derived; }; HDPublicKey.prototype._deriveFromString = function(path) { /* jshint maxcomplexity: 8 */ if (_.contains(path, "'")) { throw new hdErrors.InvalidIndexCantDeriveHardened(); } else if (!HDPublicKey.isValidPath(path)) { throw new hdErrors.InvalidPath(path); } var indexes = HDPrivateKey._getDerivationIndexes(path); var derived = indexes.reduce(function(prev, index) { return prev._deriveWithNumber(index); }, this); return derived; }; /** * Verifies that a given serialized public key in base58 with checksum format * is valid. * * @param {string|Buffer} data - the serialized public key * @param {string|Network=} network - optional, if present, checks that the * network provided matches the network serialized. * @return {boolean} */ HDPublicKey.isValidSerialized = function(data, network) { return _.isNull(HDPublicKey.getSerializedError(data, network)); }; /** * Checks what's the error that causes the validation of a serialized public key * in base58 with checksum to fail. * * @param {string|Buffer} data - the serialized public key * @param {string|Network=} network - optional, if present, checks that the * network provided matches the network serialized. * @return {errors|null} */ HDPublicKey.getSerializedError = function(data, network) { /* jshint maxcomplexity: 10 */ /* jshint maxstatements: 20 */ if (!(_.isString(data) || BufferUtil.isBuffer(data))) { return new hdErrors.UnrecognizedArgument('expected buffer or string'); } if (!Base58.validCharacters(data)) { return new errors.InvalidB58Char('(unknown)', data); } try { data = Base58Check.decode(data); } catch (e) { return new errors.InvalidB58Checksum(data); } if (data.length !== HDPublicKey.DataSize) { return new hdErrors.InvalidLength(data); } if (!_.isUndefined(network)) { var error = HDPublicKey._validateNetwork(data, network); if (error) { return error; } } var version = BufferUtil.integerFromBuffer(data.slice(0, 4)); if (version === Network.livenet.xprivkey || version === Network.testnet.xprivkey ) { return new hdErrors.ArgumentIsPrivateExtended(); } return null; }; HDPublicKey._validateNetwork = function(data, networkArg) { var network = Network.get(networkArg); if (!network) { return new errors.InvalidNetworkArgument(networkArg); } var version = data.slice(HDPublicKey.VersionStart, HDPublicKey.VersionEnd); if (BufferUtil.integerFromBuffer(version) !== network.xpubkey) { return new errors.InvalidNetwork(version); } return null; }; HDPublicKey.prototype._buildFromPrivate = function (arg) { var args = _.clone(arg._buffers); var point = Point.getG().mul(BN.fromBuffer(args.privateKey)); args.publicKey = Point.pointToCompressed(point); args.version = BufferUtil.integerAsBuffer(Network.get(BufferUtil.integerFromBuffer(args.version)).xpubkey); args.privateKey = undefined; args.checksum = undefined; args.xprivkey = undefined; return this._buildFromBuffers(args); }; HDPublicKey.prototype._buildFromObject = function(arg) { /* jshint maxcomplexity: 10 */ // TODO: Type validation var buffers = { version: arg.network ? BufferUtil.integerAsBuffer(Network.get(arg.network).xpubkey) : arg.version, depth: _.isNumber(arg.depth) ? BufferUtil.integerAsSingleByteBuffer(arg.depth) : arg.depth, parentFingerPrint: _.isNumber(arg.parentFingerPrint) ? BufferUtil.integerAsBuffer(arg.parentFingerPrint) : arg.parentFingerPrint, childIndex: _.isNumber(arg.childIndex) ? BufferUtil.integerAsBuffer(arg.childIndex) : arg.childIndex, chainCode: _.isString(arg.chainCode) ? BufferUtil.hexToBuffer(arg.chainCode) : arg.chainCode, publicKey: _.isString(arg.publicKey) ? BufferUtil.hexToBuffer(arg.publicKey) : BufferUtil.isBuffer(arg.publicKey) ? arg.publicKey : arg.publicKey.toBuffer(), checksum: _.isNumber(arg.checksum) ? BufferUtil.integerAsBuffer(arg.checksum) : arg.checksum }; return this._buildFromBuffers(buffers); }; HDPublicKey.prototype._buildFromSerialized = function(arg) { var decoded = Base58Check.decode(arg); var buffers = { version: decoded.slice(HDPublicKey.VersionStart, HDPublicKey.VersionEnd), depth: decoded.slice(HDPublicKey.DepthStart, HDPublicKey.DepthEnd), parentFingerPrint: decoded.slice(HDPublicKey.ParentFingerPrintStart, HDPublicKey.ParentFingerPrintEnd), childIndex: decoded.slice(HDPublicKey.ChildIndexStart, HDPublicKey.ChildIndexEnd), chainCode: decoded.slice(HDPublicKey.ChainCodeStart, HDPublicKey.ChainCodeEnd), publicKey: decoded.slice(HDPublicKey.PublicKeyStart, HDPublicKey.PublicKeyEnd), checksum: decoded.slice(HDPublicKey.ChecksumStart, HDPublicKey.ChecksumEnd), xpubkey: arg }; return this._buildFromBuffers(buffers); }; /** * Receives a object with buffers in all the properties and populates the * internal structure * * @param {Object} arg * @param {buffer.Buffer} arg.version * @param {buffer.Buffer} arg.depth * @param {buffer.Buffer} arg.parentFingerPrint * @param {buffer.Buffer} arg.childIndex * @param {buffer.Buffer} arg.chainCode * @param {buffer.Buffer} arg.publicKey * @param {buffer.Buffer} arg.checksum * @param {string=} arg.xpubkey - if set, don't recalculate the base58 * representation * @return {HDPublicKey} this */ HDPublicKey.prototype._buildFromBuffers = function(arg) { /* jshint maxcomplexity: 8 */ /* jshint maxstatements: 20 */ HDPublicKey._validateBufferArguments(arg); JSUtil.defineImmutable(this, { _buffers: arg }); var sequence = [ arg.version, arg.depth, arg.parentFingerPrint, arg.childIndex, arg.chainCode, arg.publicKey ]; var concat = BufferUtil.concat(sequence); var checksum = Base58Check.checksum(concat); if (!arg.checksum || !arg.checksum.length) { arg.checksum = checksum; } else { if (arg.checksum.toString('hex') !== checksum.toString('hex')) { throw new errors.InvalidB58Checksum(concat, checksum); } } var network = Network.get(BufferUtil.integerFromBuffer(arg.version)); var xpubkey; xpubkey = Base58Check.encode(BufferUtil.concat(sequence)); arg.xpubkey = new Buffer(xpubkey); var publicKey = new PublicKey(arg.publicKey, {network: network}); var size = HDPublicKey.ParentFingerPrintSize; var fingerPrint = Hash.sha256ripemd160(publicKey.toBuffer()).slice(0, size); JSUtil.defineImmutable(this, { xpubkey: xpubkey, network: network, depth: BufferUtil.integerFromSingleByteBuffer(arg.depth), publicKey: publicKey, fingerPrint: fingerPrint }); return this; }; HDPublicKey._validateBufferArguments = function(arg) { var checkBuffer = function(name, size) { var buff = arg[name]; assert(BufferUtil.isBuffer(buff), name + ' argument is not a buffer, it\'s ' + typeof buff); assert( buff.length === size, name + ' has not the expected size: found ' + buff.length + ', expected ' + size ); }; checkBuffer('version', HDPublicKey.VersionSize); checkBuffer('depth', HDPublicKey.DepthSize); checkBuffer('parentFingerPrint', HDPublicKey.ParentFingerPrintSize); checkBuffer('childIndex', HDPublicKey.ChildIndexSize); checkBuffer('chainCode', HDPublicKey.ChainCodeSize); checkBuffer('publicKey', HDPublicKey.PublicKeySize); if (arg.checksum && arg.checksum.length) { checkBuffer('checksum', HDPublicKey.CheckSumSize); } }; HDPublicKey.fromString = function(arg) { $.checkArgument(_.isString(arg), 'No valid string was provided'); return new HDPublicKey(arg); }; HDPublicKey.fromObject = function(arg) { $.checkArgument(_.isObject(arg), 'No valid argument was provided'); return new HDPublicKey(arg); }; /** * Returns the base58 checked representation of the public key * @return {string} a string starting with "xpub..." in livenet */ HDPublicKey.prototype.toString = function() { return this.xpubkey; }; /** * Returns the console representation of this extended public key. * @return string */ HDPublicKey.prototype.inspect = function() { return ''; }; /** * Returns a plain JavaScript object with information to reconstruct a key. * * Fields are: */ HDPublicKey.prototype.toObject = HDPublicKey.prototype.toJSON = function toObject() { return { network: Network.get(BufferUtil.integerFromBuffer(this._buffers.version)).name, depth: BufferUtil.integerFromSingleByteBuffer(this._buffers.depth), fingerPrint: BufferUtil.integerFromBuffer(this.fingerPrint), parentFingerPrint: BufferUtil.integerFromBuffer(this._buffers.parentFingerPrint), childIndex: BufferUtil.integerFromBuffer(this._buffers.childIndex), chainCode: BufferUtil.bufferToHex(this._buffers.chainCode), publicKey: this.publicKey.toString(), checksum: BufferUtil.integerFromBuffer(this._buffers.checksum), xpubkey: this.xpubkey }; }; /** * Create a HDPublicKey from a buffer argument * * @param {Buffer} arg * @return {HDPublicKey} */ HDPublicKey.fromBuffer = function(arg) { return new HDPublicKey(arg); }; /** * Return a buffer representation of the xpubkey * * @return {Buffer} */ HDPublicKey.prototype.toBuffer = function() { return BufferUtil.copy(this._buffers.xpubkey); }; HDPublicKey.Hardened = 0x80000000; HDPublicKey.RootElementAlias = ['m', 'M']; HDPublicKey.VersionSize = 4; HDPublicKey.DepthSize = 1; HDPublicKey.ParentFingerPrintSize = 4; HDPublicKey.ChildIndexSize = 4; HDPublicKey.ChainCodeSize = 32; HDPublicKey.PublicKeySize = 33; HDPublicKey.CheckSumSize = 4; HDPublicKey.DataSize = 78; HDPublicKey.SerializedByteSize = 82; HDPublicKey.VersionStart = 0; HDPublicKey.VersionEnd = HDPublicKey.VersionStart + HDPublicKey.VersionSize; HDPublicKey.DepthStart = HDPublicKey.VersionEnd; HDPublicKey.DepthEnd = HDPublicKey.DepthStart + HDPublicKey.DepthSize; HDPublicKey.ParentFingerPrintStart = HDPublicKey.DepthEnd; HDPublicKey.ParentFingerPrintEnd = HDPublicKey.ParentFingerPrintStart + HDPublicKey.ParentFingerPrintSize; HDPublicKey.ChildIndexStart = HDPublicKey.ParentFingerPrintEnd; HDPublicKey.ChildIndexEnd = HDPublicKey.ChildIndexStart + HDPublicKey.ChildIndexSize; HDPublicKey.ChainCodeStart = HDPublicKey.ChildIndexEnd; HDPublicKey.ChainCodeEnd = HDPublicKey.ChainCodeStart + HDPublicKey.ChainCodeSize; HDPublicKey.PublicKeyStart = HDPublicKey.ChainCodeEnd; HDPublicKey.PublicKeyEnd = HDPublicKey.PublicKeyStart + HDPublicKey.PublicKeySize; HDPublicKey.ChecksumStart = HDPublicKey.PublicKeyEnd; HDPublicKey.ChecksumEnd = HDPublicKey.ChecksumStart + HDPublicKey.CheckSumSize; assert(HDPublicKey.PublicKeyEnd === HDPublicKey.DataSize); assert(HDPublicKey.ChecksumEnd === HDPublicKey.SerializedByteSize); module.exports = HDPublicKey;