zcash-hackworks
/
bitcore-lib-zcash
mirror of https://github.com/zcash-hackworks/bitcore-lib-zcash.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity
bitcore-lib-zcash/lib/privatekey.js

388 lines
10 KiB
JavaScript
Raw Permalink Blame History

'use strict';
var _ = require('lodash');
var Address = require('./address');
var Base58Check = require('./encoding/base58check');
var BN = require('./crypto/bn');
var JSUtil = require('./util/js');
var Networks = require('./networks');
var Point = require('./crypto/point');
var PublicKey = require('./publickey');
var Random = require('./crypto/random');
var $ = require('./util/preconditions');
/**
* Instantiate a PrivateKey from a BN, Buffer and WIF.
*
* @example
* ```javascript
* // generate a new random key
* var key = PrivateKey();
*
* // get the associated address
* var address = key.toAddress();
*
* // encode into wallet export format
* var exported = key.toWIF();
*
* // instantiate from the exported (and saved) private key
* var imported = PrivateKey.fromWIF(exported);
* ```
*
* @param {string} data - The encoded data in various formats
* @param {Network|string=} network - a {@link Network} object, or a string with the network name
* @returns {PrivateKey} A new valid instance of an PrivateKey
* @constructor
*/
function PrivateKey(data, network) {
/* jshint maxstatements: 20 */
/* jshint maxcomplexity: 8 */
if (!(this instanceof PrivateKey)) {
return new PrivateKey(data, network);
}
if (data instanceof PrivateKey) {
return data;
}
var info = this._classifyArguments(data, network);
// validation
if (!info.bn || info.bn.cmp(new BN(0)) === 0){
throw new TypeError('Number can not be equal to zero, undefined, null or false');
}
if (!info.bn.lt(Point.getN())) {
throw new TypeError('Number must be less than N');
}
if (typeof(info.network) === 'undefined') {
throw new TypeError('Must specify the network ("livenet" or "testnet")');
}
JSUtil.defineImmutable(this, {
bn: info.bn,
compressed: info.compressed,
network: info.network
});
Object.defineProperty(this, 'publicKey', {
configurable: false,
enumerable: true,
get: this.toPublicKey.bind(this)
});
return this;
};
/**
* Internal helper to instantiate PrivateKey internal `info` object from
* different kinds of arguments passed to the constructor.
*
* @param {*} data
* @param {Network|string=} network - a {@link Network} object, or a string with the network name
* @return {Object}
*/
PrivateKey.prototype._classifyArguments = function(data, network) {
/* jshint maxcomplexity: 10 */
var info = {
compressed: true,
network: network ? Networks.get(network) : Networks.defaultNetwork
};
// detect type of data
if (_.isUndefined(data) || _.isNull(data)){
info.bn = PrivateKey._getRandomBN();
} else if (data instanceof BN) {
info.bn = data;
} else if (data instanceof Buffer || data instanceof Uint8Array) {
info = PrivateKey._transformBuffer(data, network);
} else if (data.bn && data.network){
info = PrivateKey._transformObject(data);
} else if (!network && Networks.get(data)) {
info.bn = PrivateKey._getRandomBN();
info.network = Networks.get(data);
} else if (typeof(data) === 'string'){
if (JSUtil.isHexa(data)) {
info.bn = new BN(new Buffer(data, 'hex'));
} else {
info = PrivateKey._transformWIF(data, network);
}
} else {
throw new TypeError('First argument is an unrecognized data type.');
}
return info;
};
/**
* Internal function to get a random Big Number (BN)
*
* @returns {BN} A new randomly generated BN
* @private
*/
PrivateKey._getRandomBN = function(){
var condition;
var bn;
do {
var privbuf = Random.getRandomBuffer(32);
bn = BN.fromBuffer(privbuf);
condition = bn.lt(Point.getN());
} while (!condition);
return bn;
};
/**
* Internal function to transform a WIF Buffer into a private key
*
* @param {Buffer} buf - An WIF string
* @param {Network|string=} network - a {@link Network} object, or a string with the network name
* @returns {Object} An object with keys: bn, network and compressed
* @private
*/
PrivateKey._transformBuffer = function(buf, network) {
var info = {};
if (buf.length === 32) {
return PrivateKey._transformBNBuffer(buf, network);
}
info.network = Networks.get(buf[0], 'privatekey');
if (!info.network) {
throw new Error('Invalid network');
}
if (network && info.network !== Networks.get(network)) {
throw new TypeError('Private key network mismatch');
}
if (buf.length === 1 + 32 + 1 && buf[1 + 32 + 1 - 1] === 1) {
info.compressed = true;
} else if (buf.length === 1 + 32) {
info.compressed = false;
} else {
throw new Error('Length of buffer must be 33 (uncompressed) or 34 (compressed)');
}
info.bn = BN.fromBuffer(buf.slice(1, 32 + 1));
return info;
};
/**
* Internal function to transform a BN buffer into a private key
*
* @param {Buffer} buf
* @param {Network|string=} network - a {@link Network} object, or a string with the network name
* @returns {object} an Object with keys: bn, network, and compressed
* @private
*/
PrivateKey._transformBNBuffer = function(buf, network) {
var info = {};
info.network = Networks.get(network) || Networks.defaultNetwork;
info.bn = BN.fromBuffer(buf);
info.compressed = false;
return info;
};
/**
* Internal function to transform a WIF string into a private key
*
* @param {string} buf - An WIF string
* @returns {Object} An object with keys: bn, network and compressed
* @private
*/
PrivateKey._transformWIF = function(str, network) {
return PrivateKey._transformBuffer(Base58Check.decode(str), network);
};
/**
* Instantiate a PrivateKey from a Buffer with the DER or WIF representation
*
* @param {Buffer} arg
* @param {Network} network
* @return {PrivateKey}
*/
PrivateKey.fromBuffer = function(arg, network) {
return new PrivateKey(arg, network);
};
/**
* Internal function to transform a JSON string on plain object into a private key
* return this.
*
* @param {string} json - A JSON string or plain object
* @returns {Object} An object with keys: bn, network and compressed
* @private
*/
PrivateKey._transformObject = function(json) {
var bn = new BN(json.bn, 'hex');
var network = Networks.get(json.network);
return {
bn: bn,
network: network,
compressed: json.compressed
};
};
/**
* Instantiate a PrivateKey from a WIF string
*
* @param {string} str - The WIF encoded private key string
* @returns {PrivateKey} A new valid instance of PrivateKey
*/
PrivateKey.fromString = PrivateKey.fromWIF = function(str) {
$.checkArgument(_.isString(str), 'First argument is expected to be a string.');
return new PrivateKey(str);
};
/**
* Instantiate a PrivateKey from a plain JavaScript object
*
* @param {Object} obj - The output from privateKey.toObject()
*/
PrivateKey.fromObject = function(obj) {
$.checkArgument(_.isObject(obj), 'First argument is expected to be an object.');
return new PrivateKey(obj);
};
/**
* Instantiate a PrivateKey from random bytes
*
* @param {string=} network - Either "livenet" or "testnet"
* @returns {PrivateKey} A new valid instance of PrivateKey
*/
PrivateKey.fromRandom = function(network) {
var bn = PrivateKey._getRandomBN();
return new PrivateKey(bn, network);
};
/**
* Check if there would be any errors when initializing a PrivateKey
*
* @param {string} data - The encoded data in various formats
* @param {string=} network - Either "livenet" or "testnet"
* @returns {null|Error} An error if exists
*/
PrivateKey.getValidationError = function(data, network) {
var error;
try {
/* jshint nonew: false */
new PrivateKey(data, network);
} catch (e) {
error = e;
}
return error;
};
/**
* Check if the parameters are valid
*
* @param {string} data - The encoded data in various formats
* @param {string=} network - Either "livenet" or "testnet"
* @returns {Boolean} If the private key is would be valid
*/
PrivateKey.isValid = function(data, network){
if (!data) {
return false;
}
return !PrivateKey.getValidationError(data, network);
};
/**
* Will output the PrivateKey encoded as hex string
*
* @returns {string}
*/
PrivateKey.prototype.toString = function() {
return this.toBuffer().toString('hex');
};
/**
* Will output the PrivateKey to a WIF string
*
* @returns {string} A WIP representation of the private key
*/
PrivateKey.prototype.toWIF = function() {
var network = this.network;
var compressed = this.compressed;
var buf;
if (compressed) {
buf = Buffer.concat([new Buffer([network.privatekey]),
this.bn.toBuffer({size: 32}),
new Buffer([0x01])]);
} else {
buf = Buffer.concat([new Buffer([network.privatekey]),
this.bn.toBuffer({size: 32})]);
}
return Base58Check.encode(buf);
};
/**
* Will return the private key as a BN instance
*
* @returns {BN} A BN instance of the private key
*/
PrivateKey.prototype.toBigNumber = function(){
return this.bn;
};
/**
* Will return the private key as a BN buffer
*
* @returns {Buffer} A buffer of the private key
*/
PrivateKey.prototype.toBuffer = function(){
return this.bn.toBuffer();
};
/**
* Will return the corresponding public key
*
* @returns {PublicKey} A public key generated from the private key
*/
PrivateKey.prototype.toPublicKey = function(){
if (!this._pubkey) {
this._pubkey = PublicKey.fromPrivateKey(this);
}
return this._pubkey;
};
/**
* Will return an address for the private key
* @param {Network=} network - optional parameter specifying
* the desired network for the address
*
* @returns {Address} An address generated from the private key
*/
PrivateKey.prototype.toAddress = function(network) {
var pubkey = this.toPublicKey();
return Address.fromPublicKey(pubkey, network || this.network);
};
/**
* @returns {Object} A plain object representation
*/
PrivateKey.prototype.toObject = PrivateKey.prototype.toJSON = function toObject() {
return {
bn: this.bn.toString('hex'),
compressed: this.compressed,
network: this.network.toString()
};
};
/**
* Will return a string formatted for the console
*
* @returns {string} Private key
*/
PrivateKey.prototype.inspect = function() {
var uncompressed = !this.compressed ? ', uncompressed' : '';
return '<PrivateKey: ' + this.toString() + ', network: ' + this.network + uncompressed + '>';
};
module.exports = PrivateKey;
Reference in New Issue View Git Blame Copy Permalink