require=(function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o 24 */ getPrivateKey: function () { return this.privKey; }, /** * Get Private Key in hex string format. * * @return {HexString} Account private key in String format. * * @example var privKey = account.getPrivateKeyString(); * //"ac3773e06ae74c0fa566b0e421d4e391333f31aef90b383f0c0e83e4873609d6" */ getPrivateKeyString: function () { return this.getPrivateKey().toString('hex'); }, /** * Public Key getter. * * @return {Buffer} Account public key. * * @example var publicKey = account.getPublicKey(); * // */ getPublicKey: function () { if (utils.isNull(this.pubKey)) { this.pubKey = cryptoUtils.privateToPublic(this.privKey); } return this.pubKey; }, /** * Get Public Key in hex string format. * * @return {HexString} Account public key in String format. * * @example var publicKey = account.getPublicKey(); * //"f18ec04019dd131bbcfada4020b001d547244d768f144ef947577ce53a13ad690eb43e4b02a8daa3c168045cd122c0685f083e1656756ba7982721322ebe4da7" */ getPublicKeyString: function () { return this.getPublicKey().toString('hex'); }, /** * Accaunt address getter. * * @return {Buffer} Account address. * * @example var publicKey = account.getAddress(); * // */ getAddress: function () { if (utils.isNull(this.address)) { var pubKey = this.getPublicKey(); if (pubKey.length !== 64) { pubKey = cryptoUtils.secp256k1.publicKeyConvert(pubKey, false).slice(1); } // The uncompressed form consists of a 0x04 (in analogy to the DER OCTET STRING tag) plus // the concatenation of the binary representation of the X coordinate plus the binary // representation of the y coordinate of the public point. pubKey = Buffer.concat([cryptoUtils.toBuffer(4), pubKey]); // Only take the lower 160bits of the hash var content = cryptoUtils.sha3(pubKey); content = cryptoUtils.ripemd160(content); // content = AddressPrefix + NormalType + content(local address only use normal type) content = Buffer.concat([cryptoUtils.toBuffer(AddressPrefix), cryptoUtils.toBuffer(NormalType), content]); var checksum = cryptoUtils.sha3(content).slice(0, 4); this.address = Buffer.concat([content, checksum]); } return this.address; }, /** * Get account address in hex string format. * * @return {HexString} Account address in String format. * * @example var publicKey = account.getAddressString(); * //"802d529bf55d6693b3ac72c59b4a7d159da53cae5a7bf99c" */ getAddressString: function () { var addr = this.getAddress(); return Base58.encode(addr); }, /** * Generate key buy passphrase and options. * * @param {Password} password - Provided password. * @param {KeyOptions} opts - Key options. * * @return {Key} Key Object. * * @example var key = account.toKey("passphrase"); */ toKey: function (password, opts) { /*jshint maxcomplexity:17 */ opts = opts || {}; var salt = opts.salt || cryptoUtils.crypto.randomBytes(32); var iv = opts.iv || cryptoUtils.crypto.randomBytes(16); var derivedKey; var kdf = opts.kdf || 'scrypt'; var kdfparams = { dklen: opts.dklen || 32, salt: salt.toString('hex') }; if (kdf === 'pbkdf2') { kdfparams.c = opts.c || 262144; kdfparams.prf = 'hmac-sha256'; derivedKey = cryptoUtils.crypto.pbkdf2Sync(new Buffer(password), salt, kdfparams.c, kdfparams.dklen, 'sha256'); } else if (kdf === 'scrypt') { kdfparams.n = opts.n || 4096; kdfparams.r = opts.r || 8; kdfparams.p = opts.p || 1; derivedKey = cryptoUtils.scrypt(new Buffer(password), salt, kdfparams.n, kdfparams.r, kdfparams.p, kdfparams.dklen); } else { throw new Error('Unsupported kdf'); } var cipher = cryptoUtils.crypto.createCipheriv(opts.cipher || 'aes-128-ctr', derivedKey.slice(0, 16), iv); if (!cipher) { throw new Error('Unsupported cipher'); } var ciphertext = Buffer.concat([cipher.update(this.privKey), cipher.final()]); // var mac = cryptoUtils.sha3(Buffer.concat([derivedKey.slice(16, 32), new Buffer(ciphertext, 'hex')])); // KeyVersion3 deprecated var mac = cryptoUtils.sha3(Buffer.concat([derivedKey.slice(16, 32), new Buffer(ciphertext, 'hex'), iv, new Buffer(opts.cipher || 'aes-128-ctr')])); return { version: KeyCurrentVersion, id: cryptoUtils.uuid.v4({ random: opts.uuid || cryptoUtils.crypto.randomBytes(16) }), address: this.getAddressString(), crypto: { ciphertext: ciphertext.toString('hex'), cipherparams: { iv: iv.toString('hex') }, cipher: opts.cipher || 'aes-128-ctr', kdf: kdf, kdfparams: kdfparams, mac: mac.toString('hex'), machash: "sha3256" } }; }, /** * Generate key buy passphrase and options. * Return in JSON format. * * @param {Password} password - Provided password. * @param {KeyOptions} opts - Key options. * * @return {String} JSON stringify Key. * * @example var key = account.toKeyString("passphrase"); */ toKeyString: function (password, opts) { return JSON.stringify(this.toKey(password, opts)); }, /** * Restore account from key and passphrase. * * @param {Key} input - Key Object. * @param {Password} password - Provided password. * @param {Boolean} nonStrict - Strict сase sensitivity flag. * * @return {@link Account} - Instance of Account restored from key and passphrase. */ fromKey: function (input, password, nonStrict) { /*jshint maxcomplexity:10 */ var json = typeof input === 'object' ? input : JSON.parse(nonStrict ? input.toLowerCase() : input); if (json.version !== KeyVersion3 && json.version !== KeyCurrentVersion) { throw new Error('Not supported wallet version'); } var derivedKey; var kdfparams; if (json.crypto.kdf === 'scrypt') { kdfparams = json.crypto.kdfparams; derivedKey = cryptoUtils.scrypt(new Buffer(password), new Buffer(kdfparams.salt, 'hex'), kdfparams.n, kdfparams.r, kdfparams.p, kdfparams.dklen); } else if (json.crypto.kdf === 'pbkdf2') { kdfparams = json.crypto.kdfparams; if (kdfparams.prf !== 'hmac-sha256') { throw new Error('Unsupported parameters to PBKDF2'); } derivedKey = cryptoUtils.crypto.pbkdf2Sync(new Buffer(password), new Buffer(kdfparams.salt, 'hex'), kdfparams.c, kdfparams.dklen, 'sha256'); } else { throw new Error('Unsupported key derivation scheme'); } var ciphertext = new Buffer(json.crypto.ciphertext, 'hex'); var mac; if (json.version === KeyCurrentVersion) { mac = cryptoUtils.sha3(Buffer.concat([derivedKey.slice(16, 32), ciphertext, new Buffer(json.crypto.cipherparams.iv, 'hex'), new Buffer(json.crypto.cipher)])); } else { // KeyVersion3 mac = cryptoUtils.sha3(Buffer.concat([derivedKey.slice(16, 32), ciphertext])); } if (mac.toString('hex') !== json.crypto.mac) { throw new Error('Key derivation failed - possibly wrong passphrase'); } var decipher = cryptoUtils.crypto.createDecipheriv(json.crypto.cipher, derivedKey.slice(0, 16), new Buffer(json.crypto.cipherparams.iv, 'hex')); var seed = Buffer.concat([decipher.update(ciphertext), decipher.final()]); while (seed.length < 32) { var nullBuff = new Buffer([0x00]); seed = Buffer.concat([nullBuff, seed]); } this.setPrivateKey(seed); return this; } }; module.exports = Account; },{"./utils/crypto-utils.js":19,"./utils/utils.js":21,"bs58":105,"safe-buffer":247}],2:[function(require,module,exports){ "use strict"; var utils = require('./utils/utils.js'); /** * Admin API constructor. * Class encapsulate methods for admin APIs commands. * @see [Admin API documentation:]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md}. * @constructor * * @param {Neb} neb - Instance of Neb library. * * @example * var admin = new Admin( new Neb() ); * // or just * var admin = new Neb().admin; */ var Admin = function (neb) { this._setRequest(neb._request); }; /** * @private * @param {Request} request - transport wrapper. */ Admin.prototype._setRequest = function (request) { this._request = request; this._path = '/admin'; }; /** * Method get info about nodes in Nebulas Network. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#nodeinfo} * * @return [nodeInfoObject]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#nodeinfo} * * @example * var admin = new Neb().admin; * admin.nodeInfo().then(function(info) { * //code * }); */ Admin.prototype.nodeInfo = function () { return this._sendRequest("get", "/nodeinfo", null); }; /** * Method get list of available addresses. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#accounts} * * @return [accountsList]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#accounts} * * @example * var admin = new Neb().admin; * admin.accounts().then(function(accounts) { * //code * }); */ Admin.prototype.accounts = function () { return this._sendRequest("get", "/accounts", null); }; /** * Method create a new account in Nebulas network with provided passphrase. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#newaccount} * * @param {Object} options * @param {Password} options.passphrase * * @return [address]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#newaccount} * * @example * var admin = new Neb().admin; * admin.newAccount({passphrase: "passphrase"}).then(function(address) { * //code * }); */ Admin.prototype.newAccount = function (options) { options = utils.argumentsToObject(['passphrase'], arguments); var params = { "passphrase": options.passphrase }; return this._sendRequest("post", "/account/new", params); }; /** * Method unlock account with provided passphrase. * After the default unlock time, the account will be locked. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#unlockaccount} * * @param {Object} options * @param {HexString} options.address * @param {Password} options.passphrase * @param {Number} options.duration * * @return [isUnLocked]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#unlockaccount} * * @example * var admin = new Neb().admin; * admin.unlockAccount({ * address: "n1cYKNHTeVW9v1NQRWuhZZn9ETbqAYozckh", * passphrase: "passphrase", * duration: 1000000000 * }).then(function(isUnLocked) { * //code * }); */ Admin.prototype.unlockAccount = function (options) { options = utils.argumentsToObject(['address', 'passphrase', 'duration'], arguments); var params = { "address": options.address, "passphrase": options.passphrase, "duration": options.duration }; return this._sendRequest("post", "/account/unlock", params); }; /** * Method lock account. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#lockaccount} * * @param {Object} options * @param {HexString} options.address * * @return [isLocked]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#lockaccount} * * @example * var admin = new Neb().admin; * admin.lockAccount({address: "n1cYKNHTeVW9v1NQRWuhZZn9ETbqAYozckh"}).then(function(isLocked) { * //code * }); */ Admin.prototype.lockAccount = function (options) { options = utils.argumentsToObject(['address'], arguments); var params = { "address": options.address }; return this._sendRequest("post", "/account/lock", params); }; /** * Method wrap transaction sending functionality. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#sendtransaction} * * @param {TransactionOptions} options * * @return [Transcation hash and contract address]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#sendtransaction} * * @example * var admin = new Neb().admin; * admin.sendTransaction({ * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }).then(function(tx) { * //code * }); */ Admin.prototype.sendTransaction = function (options) { options = utils.argumentsToObject(['from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract', 'binary'], arguments); var params = { "from": options.from, "to": options.to, "value": utils.toString(options.value), "nonce": options.nonce, "gasPrice": utils.toString(options.gasPrice), "gasLimit": utils.toString(options.gasLimit), "contract": options.contract, "binary": options.binary }; return this._sendRequest("post", "/transaction", params); }; /** * Method sign hash. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#signhash} * * @param {Object} options * @param {HexString} options.address * @param {Base64} options.hash of hash bytes with base64 encode. * @param {UInt32} options.alg * * @return [data]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#signhash} * * @example * var admin = new Neb().admin; * admin.SignHash({ * address: "n1cYKNHTeVW9v1NQRWuhZZn9ETbqAYozckh", * hash: "OGQ5NjllZWY2ZWNhZDNjMjlhM2E2MjkyODBlNjg2Y2YwYzNmNWQ1YTg2YWZmM2NhMTIwMjBjOTIzYWRjNmM5Mg==", * alg: 1 * }).then(function(data) { * //code * }); */ Admin.prototype.signHash = function (options) { options = utils.argumentsToObject(['address', 'hash', 'alg'], arguments); var params = { "address": options.address, "hash": options.hash, "alg": options.alg }; return this._sendRequest("post", "/sign/hash", params); }; /** * Method sign transaction with passphrase. * The transaction's from addrees must be unlock before sign call. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#signtransactionwithpassphrase} * * @param {TransactionOptions} options * @param {Password} options.passphrase * * @return [Transcation hash and contract address]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#signtransactionwithpassphrase} * * @example * var admin = new Neb().admin; * admin.signTransactionWithPassphrase({ * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000, * passphrase: "passphrase" * }).then(function(tx) { * //code * }); */ Admin.prototype.signTransactionWithPassphrase = function (options) { options = utils.argumentsToObject(['from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract', 'binary', 'passphrase'], arguments); var tx = { "from": options.from, "to": options.to, "value": utils.toString(options.value), "nonce": options.nonce, "gasPrice": utils.toString(options.gasPrice), "gasLimit": utils.toString(options.gasLimit), "contract": options.contract, "binary": options.binary }; var params = { "transaction": tx, "passphrase": options.passphrase }; return this._sendRequest("post", "/sign", params); }; /** * Method send transaction with passphrase. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#sendtransactionwithpassphrase} * * @param {TransactionOptions} options * @param {Password} options.passphrase * * @return [data]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#sendtransactionwithpassphrase} * * @example * var admin = new Neb().admin; * admin.sendTransactionWithPassphrase({ * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000, * passphrase: "passphrase" * }).then(function(tx) { * //code * }); */ Admin.prototype.sendTransactionWithPassphrase = function (options) { options = utils.argumentsToObject(['from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract', 'binary', 'passphrase'], arguments); var tx = { "from": options.from, "to": options.to, "value": utils.toString(options.value), "nonce": options.nonce, "gasPrice": utils.toString(options.gasPrice), "gasLimit": utils.toString(options.gasLimit), "contract": options.contract, "binary": options.binary }; var params = { "transaction": tx, "passphrase": options.passphrase }; return this._sendRequest("post", "/transactionWithPassphrase", params); }; /** * Method start listen provided port. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#startpprof} * * @param {Object} options * @param {String} options.listen - Listen port. * * @return [isListenStrted]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#startpprof} * * @example * var admin = new Neb().admin; * admin.startPprof({listen: '8080'}).then(function(isListenStrted) { * //code * }); */ Admin.prototype.startPprof = function (options) { options = utils.argumentsToObject(['listen'], arguments); var params = { "listen": options.listen }; return this._sendRequest("post", "/pprof", params); }; /** * Method get config of node in Nebulas Network. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#getConfig} * * @return [config]{@link https://github.com/nebulasio/wiki/blob/master/rpc_admin.md#getConfig} * * @example * var admin = new Neb().admin; * admin.getConfig().then(function(info) { * //code * }); */ Admin.prototype.getConfig = function () { return this._sendRequest("get", "/getConfig", null); }; Admin.prototype._sendRequest = function (method, api, params, callback) { var action = this._path + api; if (typeof callback === "function") { return this._request.asyncRequest(method, action, params, callback); } else { return this._request.request(method, action, params); } }; module.exports = Admin; },{"./utils/utils.js":21}],3:[function(require,module,exports){ "use strict"; var utils = require('./utils/utils.js'); /** * User API constructor. * Class encapsulate methods for building distributed applications and services. * * @see [API documentation]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md} * @constructor * * @param {Neb} neb - Instance of Neb library. * * @example * var api = new API ( new Neb() ); * // or just * var api = new Neb().api; */ var API = function (neb) { this._setRequest(neb._request); }; /** * @private * @param {Request} request - transport wrapper. */ API.prototype._setRequest = function (request) { this._request = request; this._path = '/user'; }; /** * Method get state of Nebulas Network. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getnebstate} * * @return [NebStateObject]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getnebstate} * * @example * var api = new Neb().api; * api.getNebState().then(function(state) { * //code * }); */ API.prototype.getNebState = function () { return this._sendRequest("get", "/nebstate", null); }; /** * Method get latest irreversible block of Nebulas Network. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#latestirreversibleblock} * * @return [dataBlockInfo.]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#latestirreversibleblock} * * @example * var api = new Neb().api; * api.latestIrreversibleBlock().then(function(blockData) { * //code * }); */ API.prototype.latestIrreversibleBlock = function () { return this._sendRequest("get", "/lib", null); }; /** * Method return the state of the account. Balance and nonce. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getaccountstate} * * @param {Object} options * @param {HexString} options.address * @param {String} options.height * * @return [accaountStateObject]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getaccountstate} * * @example * var api = new Neb().api; * api.getAccountState({address: "n1QsosVXKxiV3B4iDWNmxfN4VqpHn2TeUcn"}).then(function(state) { * //code * }); */ API.prototype.getAccountState = function (options) { options = utils.argumentsToObject(['address', 'height'], arguments); var params = { "address": options.address, "height": options.height }; return this._sendRequest("post", "/accountstate", params); }; /** * Method wrap smart contract call functionality. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#call} * * @param {TransactionOptions} options * * @return [Transcation hash]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#call} * * @example * var api = new Neb().api; * api.call({ * chainID: 1, * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000, * contract: { * function: "save", * args: "[0]" * } * }).then(function(tx) { * //code * }); */ API.prototype.call = function (options) { options = utils.argumentsToObject(['from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract'], arguments); var params = { "from": options.from, "to": options.to, "value": utils.toString(options.value), "nonce": options.nonce, "gasPrice": utils.toString(options.gasPrice), "gasLimit": utils.toString(options.gasLimit), "contract": options.contract }; return this._sendRequest("post", "/call", params); }; /** * Method wrap submit the signed transaction. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#sendrawtransaction} * * @param {Object} options * @param {String} options.data * * @return [Transcation hash]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#sendrawtransaction} * * @example * var api = new Neb().api; * var tx = new Transaction({ * chainID: 1, * from: acc1, * to: acc2, * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * tx.signTransaction(); * api.sendRawTransaction( {data: tx.toProtoString()} ).then(function(hash) { * //code * }); */ API.prototype.sendRawTransaction = function (options) { options = utils.argumentsToObject(['data'], arguments); var params = { "data": options.data }; return this._sendRequest("post", "/rawtransaction", params); }; /** * Get block header info by the block hash. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getblockbyhash} * * @param {Object} options * @param {HexString} options.hash * @param {Boolean} options.fullTransaction * * @return [Block]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getblockbyhash} * * @example * var api = new Neb().api; * api.getBlockByHash({ * hash: "00000658397a90df6459b8e7e63ad3f4ce8f0a40b8803ff2f29c611b2e0190b8", * fullTransaction: true * }).then(function(block) { * //code * }); */ API.prototype.getBlockByHash = function (options) { options = utils.argumentsToObject(['hash', 'fullTransaction'], arguments); var params = { "hash": options.hash, "full_fill_transaction": options.fullTransaction }; return this._sendRequest("post", "/getBlockByHash", params); }; /** * Get block header info by the block height. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getblockbyheight} * * @param {Object} options * @param {Number} options.height * @param {Boolean} options.fullTransaction * * @return [Block]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getblockbyheight} * * @example * var api = new Neb().api; * api.getBlockByHeight({height:2, fullTransaction:true}).then(function(block) { * //code * }); */ API.prototype.getBlockByHeight = function (options) { options = utils.argumentsToObject(['height', 'fullTransaction'], arguments); var params = { "height": options.height, "full_fill_transaction": options.fullTransaction }; return this._sendRequest("post", "/getBlockByHeight", params); }; /** * Get transactionReceipt info by tansaction hash. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#gettransactionreceipt} * * @param {Object} options * @param {HexString} options.hash * * @return [TransactionReceipt]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#gettransactionreceipt} * * @example * var api = new Neb().api; * api.getTransactionReceipt({hash: "cc7133643a9ae90ec9fa222871b85349ccb6f04452b835851280285ed72b008c"}).then(function(receipt) { * //code * }); */ API.prototype.getTransactionReceipt = function (options) { options = utils.argumentsToObject(['hash'], arguments); var params = { "hash": options.hash }; return this._sendRequest("post", "/getTransactionReceipt", params); }; /** * Get transactionReceipt info by contract address. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#gettransactionbycontract} * * @param {Object} options * @param {HexString} options.address contract address * * @returns the same as [TransactionReceipt]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#gettransactionreceipt} * * @example * var api = new Neb().api; * api.getTransactionByContract({address: "n1sqDHGjYtX6rMqFoq5Tow3s3LqF4ZxBvE3"}).then(function(receipt) { * //code * }); */ API.prototype.getTransactionByContract = function (options) { options = utils.argumentsToObject(['address'], arguments); var params = { "address": options.address }; return this._sendRequest("post", "/getTransactionByContract", params); }; /** * Return the subscribed events of transaction & block. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#subscribe} * * @param {Object} options * @param {Array|String} options.topics * @param {Function} options.onDownloadProgress - On progress callback function. Recive chunk. * * @return [eventData]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#subscribe} * * @example * var api = new Neb().api; * api.subscribe({topics: ["chain.linkBlock", "chain.pendingTransaction"]}).then(function(eventData) { * //code * }); */ API.prototype.subscribe = function (options) { options = utils.argumentsToObject(['topics', 'onDownloadProgress'], arguments); var params = { "topics": options.topics }; var axiosOptions; if (typeof options.onDownloadProgress === 'function') { axiosOptions = { onDownloadProgress: function (e) { if (typeof e.target._readLength === 'undefined') { e.target._readLength = 0; } var chunk = e.target.responseText.substr(e.target._readLength); // TODO check and split multi events if (chunk && chunk.trim().length > 0) { e.target._readLength += chunk.length; options.onDownloadProgress(chunk); } } }; } return this._sendRequest("post", "/subscribe", params, null, axiosOptions); }; /** * Return current gasPrice. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getgasprice} * * @return [Gas Price]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getgasprice} * * @example * var api = new Neb().api; * api.gasPrice().then(function(gasPrice) { * //code * }); */ API.prototype.gasPrice = function () { return this._sendRequest("get", "/getGasPrice", null); }; /** * Return the estimate gas of transaction. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#estimategas} * * @param {TransactionOptions} options * * @return [Gas]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#estimategas} * * @example * var api = new Neb().api; * api.estimateGas({ * chainID: 1, * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }).then(function(gas) { * //code * }); */ API.prototype.estimateGas = function (options) { options = utils.argumentsToObject(['from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract', 'binary'], arguments); var params = { "from": options.from, "to": options.to, "value": utils.toString(options.value), "nonce": options.nonce, "gasPrice": utils.toString(options.gasPrice), "gasLimit": utils.toString(options.gasLimit), "contract": options.contract, "binary": options.binary }; return this._sendRequest("post", "/estimateGas", params); }; /** * Return the events list of transaction. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#geteventsbyhash} * * @param {Object} options * @param {HexString} options.hash * * @return [Events]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#geteventsbyhash} * * @example * var api = new Neb().api; * api.getEventsByHash({hash: "ec239d532249f84f158ef8ec9262e1d3d439709ebf4dd5f7c1036b26c6fe8073"}).then(function(events) { * //code * }); */ API.prototype.getEventsByHash = function (options) { options = utils.argumentsToObject(['hash'], arguments); var params = { "hash": options.hash }; return this._sendRequest("post", "/getEventsByHash", params); }; /** * Method getter for dpos dynasty. * @see {@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getdynasty} * * @param {Object} options * @param {Number} options.height * * @return [delegatees]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#getdynasty} * * @example * var api = new Neb().api; * api.getDynasty({height: 1}).then(function(delegatees) { * //code * }); */ API.prototype.getDynasty = function (options) { options = utils.argumentsToObject(['height'], arguments); var params = { "height": options.height }; return this._sendRequest("post", "/dynasty", params); }; API.prototype._sendRequest = function (method, api, params, callback, axiosOptions) { var action = this._path + api; if (typeof callback === "function") { return this._request.asyncRequest(method, action, params, callback); } else { return this._request.request(method, action, params, axiosOptions); } }; module.exports = API; },{"./utils/utils.js":21}],4:[function(require,module,exports){ "use strict"; var axios = require("axios"); var debugLog = false; var HttpRequest = function (host, timeout, apiVersion) { this.host = host || "http://localhost:8685"; this.timeout = timeout || 0; this.apiVersion = apiVersion || "v1"; }; HttpRequest.prototype.setHost = function (host) { this.host = host; }; HttpRequest.prototype.setAPIVersion = function (apiVersion) { this.apiVersion = apiVersion; }; HttpRequest.prototype.createUrl = function (api) { return this.host + "/" + this.apiVersion + api; }; HttpRequest.prototype.request = function (method, api, payload, axiosOptions) { if (debugLog) { console.log("[debug] HttpRequest: " + method + " " + this.createUrl(api) + " " + JSON.stringify(payload)); } var axiosParams = { method: method, url: this.createUrl(api), data: payload }; if (axiosOptions && typeof axiosOptions.onDownloadProgress === 'function') { axiosParams.onDownloadProgress = axiosOptions.onDownloadProgress; } return axios(axiosParams).then(function (resp) { if ("text/html; charset=UTF-8" === resp.headers['content-type']) { throw new Error(resp.status + ' - ' + resp.statusText); } if (typeof resp.data === "string") { try { resp.data = JSON.parse(resp.data); } catch (e) { throw new Error('Response is invalid json'); } } return resp.data.result || resp.data; }).catch(function (e) { if (typeof e.response !== "undefined") { if (typeof e.response.data === 'object') { //400 error throw new Error(e.response.data.error); } else { //500 error var err = e.response.status + ' - ' + e.response.statusText; err += "\n" + api + " " + JSON.stringify(payload); throw new Error(err); } } else { throw new Error(e.message); } }); }; HttpRequest.prototype.asyncRequest = function (method, api, payload, callback) { return this.request(method, api, payload).then(function (data) { callback(data); }).catch(function (err) { callback(err); }); }; module.exports = HttpRequest; },{"axios":46}],5:[function(require,module,exports){ "use strict"; var API = require("./api.js"); var Admin = require("./admin.js"); var Unit = require("./utils/unit.js"); /** * Neb API library constructor. * @constructor * @param {Request} request - transport wrapper. */ var Neb = function (request) { if (request) { this._request = request; } this.api = new API(this); this.admin = new Admin(this); }; Neb.prototype.setRequest = function (request) { this._request = request; this.api._setRequest(request); this.admin._setRequest(request); }; Neb.prototype.toBasic = Unit.toBasic; Neb.prototype.fromBasic = Unit.fromBasic; Neb.prototype.nasToBasic = Unit.nasToBasic; module.exports = Neb; },{"./admin.js":2,"./api.js":3,"./utils/unit.js":20}],6:[function(require,module,exports){ "use strict"; var block = { timestamp: 0, height: 1, seed: "s" }; var transaction = { hash: "", from: "", to: "", value: "0", nonce: 1, timestamp: 0, gasPrice: "0", gasLimit: "0" }; var state = function () {}; module.exports = { block: block, transaction: transaction, state: state }; },{}],7:[function(require,module,exports){ // Copyright (C) 2017 go-nebulas authors // // This file is part of the go-nebulas library. // // the go-nebulas library is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // the go-nebulas library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with the go-nebulas library. If not, see . // 'use strict'; var Blockchain = function () { Object.defineProperty(this, "nativeBlockchain", { configurable: false, enumerable: false, get: function () { return _native_blockchain; } }); }; Blockchain.prototype = { AccountAddress: 0x57, ContractAddress: 0x58, blockParse: function (str) { this.block = JSON.parse(str); }, transactionParse: function (str) { var tx = JSON.parse(str); if (tx != null) { var value = tx.value === undefined || tx.value.length === 0 ? "0" : tx.value; tx.value = new BigNumber(value); var gasPrice = tx.gasPrice === undefined || tx.gasPrice.length === 0 ? "0" : tx.gasPrice; tx.gasPrice = new BigNumber(gasPrice); var gasLimit = tx.gasLimit === undefined || tx.gasLimit.length === 0 ? "0" : tx.gasLimit; tx.gasLimit = new BigNumber(gasLimit); this.transaction = tx; } }, transfer: function (address, value) { if (!(value instanceof BigNumber)) { value = new BigNumber(value); } var ret = this.nativeBlockchain.transfer(address, value.toString(10)); return ret == 0; }, verifyAddress: function (address) { return this.nativeBlockchain.verifyAddress(address); } }; module.exports = new Blockchain(); },{}],8:[function(require,module,exports){ // Copyright (C) 2017 go-nebulas authors // // This file is part of the go-nebulas library. // // the go-nebulas library is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // the go-nebulas library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with the go-nebulas library. If not, see . // 'use strict'; function Console() {} function log(...args) { var level = args.shift(); if (typeof level != 'number') { throw 'level must be number.'; } var msg = ''; for (var i = 0; i < args.length - 1; i++) { msg += format(args[i]) + ' '; } msg += format(args[args.length - 1]); _native_log(level, msg); } function format(obj) { if (typeof obj == 'object') { return JSON.stringify(obj); } return obj; } [['debug', 1], ['warn', 2], ['info', 3], ['log', 3], ['error', 4]].forEach(function (val) { Console.prototype[val[0]] = log.bind(null, val[1]); }); module.exports = new Console(); module.exports.Console = Console; },{}],9:[function(require,module,exports){ // Copyright (C) 2017 go-nebulas authors // // This file is part of the go-nebulas library. // // the go-nebulas library is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // the go-nebulas library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with the go-nebulas library. If not, see . // 'use strict'; exports["Trigger"] = function (topic, data) { _native_event_trigger(topic, JSON.stringify(data)); }; },{}],10:[function(require,module,exports){ // Copyright (C) 2017 go-nebulas authors // // This file is part of the go-nebulas library. // // the go-nebulas library is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // the go-nebulas library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with the go-nebulas library. If not, see . // 'use strict'; var fieldNameRe = /^[a-zA-Z_$][a-zA-Z0-9_]+$/; var combineStorageMapKey = function (fieldName, key) { return "@" + fieldName + "[" + key + "]"; }; var applyMapDescriptor = function (obj, descriptor) { descriptor = Object.assign({ stringify: JSON.stringify, parse: JSON.parse }, descriptor || {}); if (typeof descriptor.stringify !== 'function' || typeof descriptor.parse !== 'function') { throw new Error("descriptor.stringify and descriptor.parse must be function."); } Object.defineProperty(obj, "stringify", { configurable: false, enumerable: false, get: function () { return descriptor.stringify; } }); Object.defineProperty(obj, "parse", { configurable: false, enumerable: false, get: function () { return descriptor.parse; } }); }; var applyFieldDescriptor = function (obj, fieldName, descriptor) { descriptor = Object.assign({ stringify: JSON.stringify, parse: JSON.parse }, descriptor || {}); if (typeof descriptor.stringify !== 'function' || typeof descriptor.parse !== 'function') { throw new Error("descriptor.stringify and descriptor.parse must be function."); } Object.defineProperty(obj, "__stringify__" + fieldName, { configurable: false, enumerable: false, get: function () { return descriptor.stringify; } }); Object.defineProperty(obj, "__parse__" + fieldName, { configurable: false, enumerable: false, get: function () { return descriptor.parse; } }); }; var ContractStorage = function (handler) { var ns = new NativeStorage(handler); Object.defineProperty(this, "nativeStorage", { configurable: false, enumerable: false, get: function () { return ns; } }); }; var StorageMap = function (contractStorage, fieldName, descriptor) { if (!contractStorage instanceof ContractStorage) { throw new Error("StorageMap only accept instance of ContractStorage"); } if (typeof fieldName !== "string" || fieldNameRe.exec(fieldName) == null) { throw new Error("StorageMap fieldName must match regex /^[a-zA-Z_$].*$/"); } Object.defineProperty(this, "contractStorage", { configurable: false, enumerable: false, get: function () { return contractStorage; } }); Object.defineProperty(this, "fieldName", { configurable: false, enumerable: false, get: function () { return fieldName; } }); applyMapDescriptor(this, descriptor); }; StorageMap.prototype = { del: function (key) { return this.contractStorage.del(combineStorageMapKey(this.fieldName, key)); }, get: function (key) { var val = this.contractStorage.rawGet(combineStorageMapKey(this.fieldName, key)); if (val != null) { val = this.parse(val); } return val; }, set: function (key, value) { var val = this.stringify(value); return this.contractStorage.rawSet(combineStorageMapKey(this.fieldName, key), val); } }; StorageMap.prototype.put = StorageMap.prototype.set; StorageMap.prototype.delete = StorageMap.prototype.del; ContractStorage.prototype = { rawGet: function (key) { return this.nativeStorage.get(key); }, rawSet: function (key, value) { var ret = this.nativeStorage.set(key, value); if (ret != 0) { throw new Error("set key " + key + " failed."); } return ret; }, del: function (key) { var ret = this.nativeStorage.del(key); if (ret != 0) { throw new Error("del key " + key + " failed."); } return ret; }, get: function (key) { var val = this.rawGet(key); if (val != null) { val = JSON.parse(val); } return val; }, set: function (key, value) { return this.rawSet(key, JSON.stringify(value)); }, defineProperty: function (obj, fieldName, descriptor) { if (!obj || !fieldName) { throw new Error("defineProperty requires at least two parameters."); } var $this = this; Object.defineProperty(obj, fieldName, { configurable: false, enumerable: true, get: function () { var val = $this.rawGet(fieldName); if (val != null) { val = obj["__parse__" + fieldName](val); } return val; }, set: function (val) { val = obj["__stringify__" + fieldName](val); return $this.rawSet(fieldName, val); } }); applyFieldDescriptor(obj, fieldName, descriptor); return this; }, defineProperties: function (obj, props) { if (!obj || !props) { throw new Error("defineProperties requires two parameters."); } for (const fieldName in props) { this.defineProperty(obj, fieldName, props[fieldName]); } return this; }, defineMapProperty: function (obj, fieldName, descriptor) { if (!obj || !fieldName) { throw new Error("defineMapProperty requires two parameters."); } var mapObj = new StorageMap(this, fieldName, descriptor); Object.defineProperty(obj, fieldName, { configurable: false, enumerable: true, get: function () { return mapObj; } }); return this; }, defineMapProperties: function (obj, props) { if (!obj || !props) { throw new Error("defineMapProperties requires two parameters."); } for (const fieldName in props) { this.defineMapProperty(obj, fieldName, props[fieldName]); } return this; } }; ContractStorage.prototype.put = ContractStorage.prototype.set; ContractStorage.prototype.delete = ContractStorage.prototype.del; var lcs = new ContractStorage(_native_storage_handlers.lcs); var gcs = new ContractStorage(_native_storage_handlers.gcs); var obj = { ContractStorage: ContractStorage }; Object.defineProperty(obj, "lcs", { configurable: false, enumerable: false, get: function () { return lcs; } }); Object.defineProperty(obj, "gcs", { configurable: false, enumerable: false, get: function () { return gcs; } }); module.exports = Object.freeze(obj); },{}],11:[function(require,module,exports){ (function (global,__dirname){ global; if (typeof window !== "undefined") { global = window; } if (typeof localStorage === "undefined" || localStorage === null) { var path = require("path"); var storageFile = path.join(__dirname, "./.storage"); var LocalStorage = require('node-localstorage').LocalStorage; global.localStorage = new LocalStorage(storageFile); } global.context = require("./context"); global._native_blockchain = require("./native/blockchain"); global._native_log = require("./native/log"); global._native_event_trigger = require("./native/event"); global._native_storage_handlers = require("./native/storage").handlers; global.NativeStorage = require("./native/storage").NativeStorage; global.nativeConsole = global.console; global.console = require("./libs/console"); global.ContractStorage = require("./libs/storage"); global.LocalContractStorage = global.ContractStorage.lcs; // global.GlobalContractStorage = ContractStorage.gcs; global.BigNumber = require("bignumber.js"); global.Blockchain = require("./libs/blockchain"); global.Event = require("./libs/event"); // global.Date = require('./libs/date'); // global.Math.random = require('./libs/random'); // global.BigNumber.random = global.Math.random; module.exports = { context: global.context }; }).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {},"/lib/nvm") },{"./context":6,"./libs/blockchain":7,"./libs/console":8,"./libs/event":9,"./libs/storage":10,"./native/blockchain":12,"./native/event":13,"./native/log":14,"./native/storage":15,"bignumber.js":73,"node-localstorage":"node-localstorage.js","path":183}],12:[function(require,module,exports){ "use strict"; var Account = require("../../account"); var transfer = function (to, value) { // TODO: mock the transfer func in nebulas return 0; }; var verifyAddress = function (address) { return Account.isValidAddress(address); }; module.exports = { transfer: transfer, verifyAddress: verifyAddress }; },{"../../account":1}],13:[function(require,module,exports){ "use strict"; var trigger = function (topic, data) { var event = { Topic: topic, Data: data }; var key = context.transaction.hash; var events = localStorage.getItem(key); if (events === null || typeof events === "undefined") { events = new Array(); } else { events = Array.from(events); } events.push(event); localStorage.setItem(key, events); }; module.exports = trigger; },{}],14:[function(require,module,exports){ "use strict"; var log = function (level, msg) { var levelStr; switch (level) { case 1: levelStr = "debug"; case 2: levelStr = "warn"; case 3: levelStr = "info"; case 4: levelStr = "error"; default: levelStr = "info"; } var log = levelStr + ":" + msg; nativeConsole.log(log); }; module.exports = log; },{}],15:[function(require,module,exports){ "use strict"; var handlers = { lcs: 1, gcs: 2 }; var NativeStorage = function (handler) { this.handler = handler; }; NativeStorage.prototype = { get: function (key) { return localStorage.getItem(key); }, set: function (key, value) { localStorage.setItem(key, value); return 0; }, del: function (key) { localStorage.removeItem(key); return 0; } }; module.exports = { handlers: handlers, NativeStorage: NativeStorage }; },{}],16:[function(require,module,exports){ "use strict"; var extend = require('extend'); var native = require("./native"); var funcRegex = new RegExp("^[a-zA-Z$][A-Za-z0-9_$]*$"); var NVM = function (block, transaction) { extend(native.context.block, block); extend(native.context.transaction, transaction); // console.log("block:", native.context.block); // console.log("tx:", native.context.transaction); }; NVM.prototype = { deploy: function (source, args) { return this.run(source, "init", args); }, call: function (source, func, args) { if (funcRegex.test(func)) { return this.run(source, func, args); } else { throw new Error("invalid func"); } }, run: function (source, func, args) { Blockchain.blockParse(JSON.stringify(native.context.block)); Blockchain.transactionParse(JSON.stringify(native.context.transaction)); var Contract = eval(source); // console.log("contract:", Contract); var contract = new Contract(); if (args === undefined || args.length === 0) { args = "[]"; } if (contract[func] != undefined) { return contract[func].apply(contract, JSON.parse(args)); } else { throw new Error("function not found"); } } }; module.exports = NVM; },{"./native":11,"extend":145}],17:[function(require,module,exports){ module.exports={ "nested": { "corepb": { "nested": { "Data": { "fields": { "type": { "type": "string", "id": 1 }, "payload": { "type": "bytes", "id": 2 } } }, "Transaction": { "fields": { "hash": { "type": "bytes", "id": 1 }, "from": { "type": "bytes", "id": 2 }, "to": { "type": "bytes", "id": 3 }, "value": { "type": "bytes", "id": 4 }, "nonce": { "type": "uint64", "id": 5 }, "timestamp": { "type": "int64", "id": 6 }, "data": { "type": "Data", "id": 7 }, "chainId": { "type": "uint32", "id": 8 }, "gasPrice": { "type": "bytes", "id": 9 }, "gasLimit": { "type": "bytes", "id": 10 }, "alg": { "type": "uint32", "id": 11 }, "sign": { "type": "bytes", "id": 12 } } } } } } } },{}],18:[function(require,module,exports){ "use strict"; var protobuf = require('protobufjs'); var utils = require('./utils/utils.js'); var cryptoUtils = require('./utils/crypto-utils.js'); var account = require("./account.js"); var htmlescape = require('htmlescape'); var BigNumber = require('bignumber.js'); var SECP256K1 = 1; var root = protobuf.Root.fromJSON(require("./transaction.json")); var TxPayloadBinaryType = "binary"; var TxPayloadDeployType = "deploy"; var TxPayloadCallType = "call"; /** * @typedef TransactionInit * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); */ /** * Represent of smart contract payload data. * * @typedef {Object} Contract * @property {String} source - Contract source code for deploy contract. * @property {String} sourceType - Contract source type for deploy contract. Currently support js and ts. * @property {String} args - The params of contract. The args content is JSON string of parameters array. * @property {String} function - The contract call function. * @property {Buffer} binary - Binary contract representation. * * @see [Create own smart contract in Nebulas.]{@link https://github.com/nebulasio/wiki/blob/master/tutorials/%5BEnglish%5D%20Nebulas%20101%20-%2003%20Smart%20Contracts%20JavaScript.md} * @see [More about transaction parameters.]{@link https://github.com/nebulasio/wiki/blob/c3f5ce8908c80e9104e3b512a7fdfd75f16ac38c/rpc.md#sendtransaction} * * @example * // It's example of possible fields values. * // For deploy, and execute smart contracts follow this link - https://github.com/nebulasio/wiki/blob/master/tutorials/%5BEnglish%5D%20Nebulas%20101%20-%2003%20Smart%20Contracts%20JavaScript.md * { * 'source': '"use strict";var DepositeContent=function(t){if(t){let n=JSON.parse(t);' + * 'this.balance=new BigNumber(n.balance),this.expiryHeight=new BigNumber(n.expiryHeight)' + * '}else this.balance=new BigNumber(0),this.expiryHeight=new BigNumber(0)};' + * 'DepositeContent.prototype={toString:function(){return JSON.stringify(this)}};' + * 'var BankVaultContract=function(){LocalContractStorage.defineMapProperty(this,"bankVault",' + * '{parse:function(t){return new DepositeContent(t)},stringify:function(t){return t.toString()}})};' + * 'BankVaultContract.prototype={init:function(){},save:function(t){var n=Blockchain.transaction.from,' + * 'e=Blockchain.transaction.value,a=new BigNumber(Blockchain.block.height),r=this.bankVault.get(n);' + * 'r&&(e=e.plus(r.balance));var i=new DepositeContent;i.balance=e,i.expiryHeight=a.plus(t),' + * 'this.bankVault.put(n,i)},takeout:function(t){var n=Blockchain.transaction.from,' + * 'e=new BigNumber(Blockchain.block.height),a=new BigNumber(t),r=this.bankVault.get(n);' + * 'if(!r)throw new Error("No deposit before.");if(e.lt(r.expiryHeight))throw new Error("Can't takeout before expiryHeight.");' + * 'if(a.gt(r.balance))throw new Error("Insufficient balance.");if(0!=Blockchain.transfer(n,a))throw new Error("transfer failed.");' + * 'Event.Trigger("BankVault",{Transfer:{from:Blockchain.transaction.to,to:n,value:a.toString()}}),' + * 'r.balance=r.balance.sub(a),this.bankVault.put(n,r)},balanceOf:function(){var t=Blockchain.transaction.from;' + * 'return this.bankVault.get(t)}},module.exports=BankVaultContract;', * 'sourceType': 'js', * 'args': '[0]', * 'function': 'save' * } */ /** * Represent Transaction parameters * * @typedef {Object} TransactionOptions * @property {Number} options.chainID - Transaction chain id. * @property {HexString} options.from - Hex string of the sender account addresss.. * @property {HexString} options.to - Hex string of the receiver account addresss.. * @property {Number} options.value - Value of transaction. * @property {Number} options.nonce - Transaction nonce. * @property {Number} options.gasPrice - Gas price. The unit is 10^-18 NAS. * @property {Number} options.gasLimit - Transaction gas limit. * @property {Contract} [options.contract] * * @example * { * chainID: 1, * from: "n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5", * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * } */ /** * Transaction constructor. * Class encapsulate main operation with transactions. * @see [For more information about parameters, follow this link]{@link https://github.com/nebulasio/wiki/blob/master/rpc.md#sendrawtransaction} * @constructor * * @param {TransactionOptions} options - Transaction options. * * @see [Transaction tutorial.]{@link https://github.com/nebulasio/wiki/blob/master/tutorials/%5BEnglish%5D%20Nebulas%20101%20-%2002%20Transaction.md} * @see [Create own smart contract in Nebulas.]{@link https://github.com/nebulasio/wiki/blob/master/tutorials/%5BEnglish%5D%20Nebulas%20101%20-%2003%20Smart%20Contracts%20JavaScript.md} * @see [More about transaction parameters.]{@link https://github.com/nebulasio/wiki/blob/c3f5ce8908c80e9104e3b512a7fdfd75f16ac38c/rpc.md#sendtransaction} * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000, * contract: { * function: "save", * args: "[0]" * } * }); * */ var Transaction = function (options) { if (arguments.length > 0) { options = utils.argumentsToObject(['chainID', 'from', 'to', 'value', 'nonce', 'gasPrice', 'gasLimit', 'contract'], arguments); this.chainID = options.chainID; this.from = account.fromAddress(options.from); this.to = account.fromAddress(options.to); this.value = utils.toBigNumber(options.value); if (!this.value.isInteger()) throw new Error("Invalid value! The minimum unit is wei (1^-18nas)"); this.nonce = parseInt(options.nonce); // An error will be thrown is nonce is string. Error: "nonce: integer|Long expected" this.timestamp = Math.floor(new Date().getTime() / 1000); this.contract = options.contract; this.gasPrice = utils.toBigNumber(options.gasPrice); this.gasLimit = utils.toBigNumber(options.gasLimit); this.data = parseContract(this.contract); if (this.gasPrice.lessThanOrEqualTo(0)) { this.gasPrice = new BigNumber(1000000); } if (this.gasLimit.lessThanOrEqualTo(0)) { this.gasLimit = new BigNumber(20000); } } this.signErrorMessage = "You should sign transaction before this operation."; }; var parseContract = function (obj) { /*jshint maxcomplexity:7 */ var payloadType, payload; if (obj && utils.isString(obj.source) && obj.source.length > 0) { payloadType = TxPayloadDeployType; payload = { SourceType: obj.sourceType, Source: obj.source, Args: obj.args }; } else if (obj && utils.isString(obj.function) && obj.function.length > 0) { payloadType = TxPayloadCallType; payload = { Function: obj.function, Args: obj.args }; } else { payloadType = TxPayloadBinaryType; if (obj) { payload = { Data: cryptoUtils.toBuffer(obj.binary) }; } } var payloadData = utils.isNull(payload) ? null : cryptoUtils.toBuffer(htmlescape(payload)); return { type: payloadType, payload: payloadData }; }; /** * Transaction recover method. * * @static * @param {String/Hash} message - Transaction hash. * @param {String/Hash} signature - Transaction sign * * @return {Hash} Transaction from address public key. * * @example * var pubKey = Transaction.recover("82bc718bfd24392b3872eb5a874927a327ab19b156c5584bd5f93b08fab5b1a2", "003d4064f16cbc72367b0fa3870bdcd1044bdb166019d87cdaac6dcfb8c09ac9471570e5b2e1dc249a8642ba67e585e3f43e6383c3b87532f5eb1fe2e718a5ab00"); */ Transaction.recover = function (message, signature) { message = cryptoUtils.toBuffer(message); var signBuf = cryptoUtils.toBuffer(signature); var sign = signBuf.slice(0, 64); var recovery = signBuf.readUIntBE(64, 1); if (recovery > 27) { recovery = recovery - 27; } var compressed = false; var pub = cryptoUtils.recover(message, sign, recovery, compressed); return pub; }; /** * Transaction fromProto method, parse rawData to transaction object. * * @static * @param {String/Hash} data - Transaction raw data. * * @return {Object} Transaction object. * * @example * var tx = Transaction.fromProto("EhjZTY/gKLhWVVMZ+xoY9GiHOHJcxhc4uxkaGNlNj+AouFZVUxn7Ghj0aIc4clzGFzi7GSIQAAAAAAAAAAAN4Lazp2QAACgBMPCz6tUFOggKBmJpbmFyeUDpB0oQAAAAAAAAAAAAAAAAAA9CQFIQAAAAAAAAAAAAAAAAAABOIA=="); */ Transaction.fromProto = function (data) { var tx = new Transaction(); tx.fromProto(data); return tx; }; Transaction.prototype = { /** * Convert transaction to hash by SHA3-256 algorithm. * * @return {Hash} hash of Transaction. * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * var txHash = tx.hashTransaction(); * //Uint8Array(32) [211, 213, 102, 103, 23, 231, 246, 141, 20, 202, 210, 25, 92, 142, 162, 242, 232, 95, 44, 239, 45, 57, 241, 61, 34, 2, 213, 160, 17, 207, 75, 40] */ hashTransaction: function () { var Data = root.lookup("corepb.Data"); var err = Data.verify(this.data); if (err) { throw new Error(err); } var data = Data.create(this.data); var dataBuffer = Data.encode(data).finish(); var hash = cryptoUtils.sha3(this.from.getAddress(), this.to.getAddress(), cryptoUtils.padToBigEndian(this.value, 128), cryptoUtils.padToBigEndian(this.nonce, 64), cryptoUtils.padToBigEndian(this.timestamp, 64), dataBuffer, cryptoUtils.padToBigEndian(this.chainID, 32), cryptoUtils.padToBigEndian(this.gasPrice, 128), cryptoUtils.padToBigEndian(this.gasLimit, 128)); return hash; }, /** * Sign transaction with the specified algorithm. * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * tx.signTransaction(); */ signTransaction: function () { if (this.from.getPrivateKey() !== null) { this.hash = this.hashTransaction(); this.alg = SECP256K1; this.sign = cryptoUtils.sign(this.hash, this.from.getPrivateKey()); } else { throw new Error("transaction from address's private key is invalid"); } }, /** * Conver transaction data to plain JavaScript object. * * @return {Object} Plain JavaScript object with Transaction fields. * @example * var acc = Account.NewAccount(); * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * txData = tx.toPlainObject(); * // {chainID: 1001, from: "n1USdDKeZXQYubA44W2ZVUdW1cjiJuqswxp", to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", value: 1000000000000000000, nonce: 1, …} */ toPlainObject: function () { return { chainID: this.chainID, from: this.from.getAddressString(), to: this.to.getAddressString(), value: utils.isBigNumber(this.value) ? this.value.toNumber() : this.value, nonce: this.nonce, gasPrice: utils.isBigNumber(this.gasPrice) ? this.gasPrice.toNumber() : this.gasPrice, gasLimit: utils.isBigNumber(this.gasLimit) ? this.gasLimit.toNumber() : this.gasLimit, contract: this.contract }; }, /** * Convert transaction to JSON string. *
Note: Transaction should be [sign]{@link Transaction#signTransaction} before converting. * * @return {String} JSON stringify of transaction data. * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * tx.signTransaction(); * var txHash = tx.toString(); * // "{"chainID":1001,"from":"n1QZMXSZtW7BUerroSms4axNfyBGyFGkrh5","to":"n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17","value":"1000000000000000000","nonce":1,"timestamp":1521905294,"data":{"payloadType":"binary","payload":null},"gasPrice":"1000000","gasLimit":"20000","hash":"f52668b853dd476fd309f21b22ade6bb468262f55402965c3460175b10cb2f20","alg":1,"sign":"cf30d5f61e67bbeb73bb9724ba5ba3744dcbc995521c62f9b5f43efabd9b82f10aaadf19a9cdb05f039d8bf074849ef4b508905bcdea76ae57e464e79c958fa900"}" */ toString: function () { if (!this.sign) { throw new Error(this.signErrorMessage); } var payload = utils.isNull(this.data.payload) ? null : JSON.parse(this.data.payload.toString()); var tx = { chainID: this.chainID, from: this.from.getAddressString(), to: this.to.getAddressString(), value: this.value.toString(10), nonce: this.nonce, timestamp: this.timestamp, data: { payloadType: this.data.type, payload: payload }, gasPrice: this.gasPrice.toString(10), gasLimit: this.gasLimit.toString(10), hash: this.hash.toString("hex"), alg: this.alg, sign: this.sign.toString("hex") }; return JSON.stringify(tx); }, /** * Convert transaction to Protobuf format. *
Note: Transaction should be [sign]{@link Transaction#signTransaction} before converting. * * @return {Buffer} Transaction data in Protobuf format * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * tx.signTransaction(); * var txHash = tx.toProto(); * // Uint8Array(127) */ toProto: function () { if (!this.sign) { throw new Error(this.signErrorMessage); } var Data = root.lookup("corepb.Data"); var err = Data.verify(this.data); if (err) { throw err; } var data = Data.create(this.data); var TransactionProto = root.lookup("corepb.Transaction"); var txData = { hash: this.hash, from: this.from.getAddress(), to: this.to.getAddress(), value: cryptoUtils.padToBigEndian(this.value, 128), nonce: this.nonce, timestamp: this.timestamp, data: data, chainId: this.chainID, gasPrice: cryptoUtils.padToBigEndian(this.gasPrice, 128), gasLimit: cryptoUtils.padToBigEndian(this.gasLimit, 128), alg: this.alg, sign: this.sign }; err = TransactionProto.verify(txData); if (err) { throw err; } var tx = TransactionProto.create(txData); var txBuffer = TransactionProto.encode(tx).finish(); return txBuffer; }, /** * Convert transaction to Protobuf hash string. *
Note: Transaction should be [sign]{@link Transaction#signTransaction} before converting. * * @return {Base64} Transaction string. * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * tx.signTransaction(); * var txHash = tx.toProtoString(); * // "EhjZTY/gKLhWVVMZ+xoY9GiHOHJcxhc4uxkaGNlNj+AouFZVUxn7Ghj0aIc4clzGFzi7GSIQAAAAAAAAAAAN4Lazp2QAACgBMPCz6tUFOggKBmJpbmFyeUDpB0oQAAAAAAAAAAAAAAAAAA9CQFIQAAAAAAAAAAAAAAAAAABOIA==" */ toProtoString: function () { var txBuffer = this.toProto(); return protobuf.util.base64.encode(txBuffer, 0, txBuffer.length); }, /** * Restore Transaction from Protobuf format. * @property {Buffer|String} data - Buffer or stringify Buffer. * * @return {Transaction} Restored transaction. * * @example * var acc = Account.NewAccount(); * * var tx = new Transaction({ * chainID: 1, * from: acc, * to: "n1SAeQRVn33bamxN4ehWUT7JGdxipwn8b17", * value: 10, * nonce: 12, * gasPrice: 1000000, * gasLimit: 2000000 * }); * var tx = tx.fromProto("EhjZTY/gKLhWVVMZ+xoY9GiHOHJcxhc4uxkaGNlNj+AouFZVUxn7Ghj0aIc4clzGFzi7GSIQAAAAAAAAAAAN4Lazp2QAACgBMPCz6tUFOggKBmJpbmFyeUDpB0oQAAAAAAAAAAAAAAAAAA9CQFIQAAAAAAAAAAAAAAAAAABOIA=="); */ fromProto: function (data) { var txBuffer; if (utils.isString(data)) { txBuffer = new Array(protobuf.util.base64.length(data)); protobuf.util.base64.decode(data, txBuffer, 0); } else { txBuffer = data; } var TransactionProto = root.lookup("corepb.Transaction"); var txProto = TransactionProto.decode(txBuffer); this.hash = cryptoUtils.toBuffer(txProto.hash); this.from = account.fromAddress(txProto.from); this.to = account.fromAddress(txProto.to); this.value = utils.toBigNumber("0x" + cryptoUtils.toBuffer(txProto.value).toString("hex")); // long number is object, should convert to int this.nonce = parseInt(txProto.nonce.toString()); this.timestamp = parseInt(txProto.timestamp.toString()); this.data = txProto.data; if (this.data.payload.length === 0) { this.data.payload = null; } this.chainID = txProto.chainId; this.gasPrice = utils.toBigNumber("0x" + cryptoUtils.toBuffer(txProto.gasPrice).toString("hex")); this.gasLimit = utils.toBigNumber("0x" + cryptoUtils.toBuffer(txProto.gasLimit).toString("hex")); this.alg = txProto.alg; this.sign = cryptoUtils.toBuffer(txProto.sign); return this; } }; module.exports = Transaction; },{"./account.js":1,"./transaction.json":17,"./utils/crypto-utils.js":19,"./utils/utils.js":21,"bignumber.js":73,"htmlescape":160,"protobufjs":191}],19:[function(require,module,exports){ "use strict"; var Buffer = require('safe-buffer').Buffer; var jsSHA = require('jssha'); var createKeccakHash = require('keccak'); var secp256k1 = require('secp256k1'); var crypto = require('crypto'); var scrypt = require('scryptsy'); var RIPEMD160 = require('ripemd160'); var uuid = require('uuid'); var utils = require('./utils.js'); var keccak = function (a, bits) { a = toBuffer(a); if (!bits) bits = 256; return createKeccakHash('keccak' + bits).update(a).digest(); }; var sha3 = function () { var shaObj = new jsSHA("SHA3-256", "HEX"); for (var i = 0; i < arguments.length; i++) { var v = toBuffer(arguments[i]); shaObj.update(v.toString("hex")); } return Buffer.from(shaObj.getHash("HEX"), "hex"); }; var ripemd160 = function () { var ripemd160stream = new RIPEMD160(); for (var i = 0; i < arguments.length; i++) { var v = toBuffer(arguments[i]); ripemd160stream.update(v); } return ripemd160stream.digest(); }; // check if hex string var isHexPrefixed = function (str) { if (typeof str !== 'string') { throw new Error("[is-hex-prefixed] value must be type 'string', is currently type " + typeof str + ", while checking isHexPrefixed."); } return str.slice(0, 2) === '0x'; }; // returns hex string without 0x var stripHexPrefix = function (str) { if (typeof str !== 'string') { return str; } return isHexPrefixed(str) ? str.slice(2) : str; }; function isHexString(value, length) { if (typeof value !== 'string' || !value.match(/^0x[0-9A-Fa-f]*$/)) { return false; } if (length && value.length !== 2 + 2 * length) { return false; } return true; } // returns hex string from int function intToHex(i) { var hex = i.toString(16); // eslint-disable-line return '0x' + padToEven(hex); } // returns buffer from int function intToBuffer(i) { var hex = intToHex(i); return new Buffer(hex.slice(2), 'hex'); } // returns a buffer filled with 0 var zeros = function (bytes) { return Buffer.allocUnsafe(bytes).fill(0); }; var padToEven = function (value) { var a = value; // eslint-disable-line if (typeof a !== 'string') { throw new Error('padToEven only support string'); } if (a.length % 2) { a = '0' + a; } return a; }; // convert value to digit/8 buffer with BigEndian. var padToBigEndian = function (value, digit) { value = toBuffer(value); var buff = Buffer.alloc(digit / 8); for (var i = 0; i < value.length; i++) { var start = buff.length - value.length + i; if (start >= 0) { buff[start] = value[i]; } } return buff; }; // attempts to turn a value to buffer, the input can be buffer, string,number var toBuffer = function (v) { /*jshint maxcomplexity:13 */ if (!Buffer.isBuffer(v)) { if (Array.isArray(v)) { v = Buffer.from(v); } else if (typeof v === 'string') { if (isHexString(v)) { v = Buffer.from(padToEven(stripHexPrefix(v)), 'hex'); } else { v = Buffer.from(v); } } else if (typeof v === 'number') { v = intToBuffer(v); } else if (v === null || v === undefined) { v = Buffer.allocUnsafe(0); } else if (utils.isBigNumber(v)) { // TODO: neb number is a big int, not support if v is decimal, later fix it. v = Buffer.from(padToEven(v.toString(16)), 'hex'); } else if (v.toArray) { v = Buffer.from(v.toArray()); } else if (v.subarray) { v = Buffer.from(v); } else if (v === null || typeof v === "undefined") { v = Buffer.allocUnsafe(0); } else { throw new Error('invalid type'); } } return v; }; var bufferToHex = function (buf) { buf = toBuffer(buf); return '0x' + buf.toString('hex'); }; // convert secp256k1 private key to public key var privateToPublic = function (privateKey) { privateKey = toBuffer(privateKey); // skip the type flag and use the X, Y points return secp256k1.publicKeyCreate(privateKey, false).slice(1); }; var isValidPublic = function (publicKey, sanitize) { if (publicKey.length === 64) { // Convert to SEC1 for secp256k1 return secp256k1.publicKeyVerify(Buffer.concat([Buffer.from([4]), publicKey])); } if (!sanitize) { return false; } return secp256k1.publicKeyVerify(publicKey); }; // sign transaction hash var sign = function (msgHash, privateKey) { var sig = secp256k1.sign(toBuffer(msgHash), toBuffer(privateKey)); // var ret = {} // ret.r = sig.signature.slice(0, 32) // ret.s = sig.signature.slice(32, 64) // ret.v = sig.recovery return Buffer.concat([toBuffer(sig.signature), toBuffer(sig.recovery)]); }; var verify = function (message, signature, publicKey) { signature = signature.slice(0, -1); //remove the sig.recovery byte publicKey = Buffer.concat([toBuffer([0x04]), toBuffer(publicKey)]); //add 0x04 before publicKey return secp256k1.verify(toBuffer(message), toBuffer(signature), toBuffer(publicKey)); }; var recover = function (message, signature, recovery, compressed) { return secp256k1.recover(toBuffer(message), toBuffer(signature), recovery, compressed); }; module.exports = { secp256k1: secp256k1, keccak: keccak, sha3: sha3, ripemd160: ripemd160, crypto: crypto, scrypt: scrypt, uuid: uuid, zeros: zeros, isHexPrefixed: isHexPrefixed, padToBigEndian: padToBigEndian, toBuffer: toBuffer, bufferToHex: bufferToHex, privateToPublic: privateToPublic, isValidPublic: isValidPublic, sign: sign, verify: verify, recover: recover }; },{"./utils.js":21,"crypto":116,"jssha":166,"keccak":167,"ripemd160":246,"safe-buffer":247,"scryptsy":248,"secp256k1":249,"uuid":266}],20:[function(require,module,exports){ "use strict"; var BigNumber = require('bignumber.js'); var utils = require('./utils.js'); var unitMap = { 'none': '0', 'None': '0', 'wei': '1', 'Wei': '1', 'kwei': '1000', 'Kwei': '1000', 'mwei': '1000000', 'Mwei': '1000000', 'gwei': '1000000000', 'Gwei': '1000000000', 'nas': '1000000000000000000', 'NAS': '1000000000000000000' }; var unitValue = function (unit) { unit = unit ? unit.toLowerCase() : 'nas'; var unitValue = unitMap[unit]; if (unitValue === undefined) { throw new Error('The unit undefined, please use the following units:' + JSON.stringify(unitMap, null, 2)); } return new BigNumber(unitValue, 10); }; var toBasic = function (number, unit) { return utils.toBigNumber(number).times(unitValue(unit)); }; var fromBasic = function (number, unit) { return utils.toBigNumber(number).dividedBy(unitValue(unit)); }; var nasToBasic = function (number) { return utils.toBigNumber(number).times(unitValue("nas")); }; module.exports = { toBasic: toBasic, fromBasic: fromBasic, nasToBasic: nasToBasic }; },{"./utils.js":21,"bignumber.js":73}],21:[function(require,module,exports){ "use strict"; var BigNumber = require('bignumber.js'); var isNull = function (v) { return v === null || typeof v === "undefined"; }; var isBrowser = function () { return typeof window !== "undefined"; }; var isBigNumber = function (obj) { return obj instanceof BigNumber || obj && obj.constructor && obj.constructor.name === 'BigNumber'; }; var isString = function (obj) { return typeof obj === 'string' && obj.constructor === String; }; var isObject = function (obj) { return obj !== null && typeof obj === 'object'; }; var isFunction = function (object) { return typeof object === 'function'; }; var isNumber = function (object) { return typeof object === 'number'; }; var toBigNumber = function (number) { number = number || 0; if (isBigNumber(number)) { return number; } if (isString(number) && number.indexOf('0x') === 0) { return new BigNumber(number.replace('0x', ''), 16); } return new BigNumber(number.toString(10), 10); }; var toString = function (obj) { if (isString(obj)) { return obj; } else if (isBigNumber(obj)) { return obj.toString(10); } else if (isObject(obj)) { return JSON.stringify(obj); } else { return obj + ""; } }; // Transform Array-like arguments object to common array. var argumentsToArray = function (args) { var len = args.length, resultArray = new Array(len); for (var i = 0; i < len; i += 1) { resultArray[i] = args[i]; } return resultArray; }; // Create object based on provided arrays var zipArraysToObject = function (keysArr, valuesArr) { var resultObject = {}; for (var i = 0; i < keysArr.length; i += 1) { resultObject[keysArr[i]] = valuesArr[i]; } return resultObject; }; // Function what make overall view for arguments. // If arguments was provided separated by commas like "func(arg1 ,arg2)" we create // ArgumentsObject and write keys from argsNames and value from args. // in case wheare we provide args in object like "func({arg1: value})" // we just return that object var argumentsToObject = function (keys, args) { var ArgumentsObject = {}; args = argumentsToArray(args); if (isObject(args[0])) { ArgumentsObject = args[0]; } else { ArgumentsObject = zipArraysToObject(keys, args); } return ArgumentsObject; }; module.exports = { isNull: isNull, isBrowser: isBrowser, isBigNumber: isBigNumber, isString: isString, isObject: isObject, isFunction: isFunction, isNumber: isNumber, toBigNumber: toBigNumber, toString: toString, argumentsToObject: argumentsToObject, zipArraysToObject: zipArraysToObject }; },{"bignumber.js":73}],22:[function(require,module,exports){ "use strict"; module.exports = asPromise; /** * Callback as used by {@link util.asPromise}. * @typedef asPromiseCallback * @type {function} * @param {Error|null} error Error, if any * @param {...*} params Additional arguments * @returns {undefined} */ /** * Returns a promise from a node-style callback function. * @memberof util * @param {asPromiseCallback} fn Function to call * @param {*} ctx Function context * @param {...*} params Function arguments * @returns {Promise<*>} Promisified function */ function asPromise(fn, ctx/*, varargs */) { var params = new Array(arguments.length - 1), offset = 0, index = 2, pending = true; while (index < arguments.length) params[offset++] = arguments[index++]; return new Promise(function executor(resolve, reject) { params[offset] = function callback(err/*, varargs */) { if (pending) { pending = false; if (err) reject(err); else { var params = new Array(arguments.length - 1), offset = 0; while (offset < params.length) params[offset++] = arguments[offset]; resolve.apply(null, params); } } }; try { fn.apply(ctx || null, params); } catch (err) { if (pending) { pending = false; reject(err); } } }); } },{}],23:[function(require,module,exports){ "use strict"; /** * A minimal base64 implementation for number arrays. * @memberof util * @namespace */ var base64 = exports; /** * Calculates the byte length of a base64 encoded string. * @param {string} string Base64 encoded string * @returns {number} Byte length */ base64.length = function length(string) { var p = string.length; if (!p) return 0; var n = 0; while (--p % 4 > 1 && string.charAt(p) === "=") ++n; return Math.ceil(string.length * 3) / 4 - n; }; // Base64 encoding table var b64 = new Array(64); // Base64 decoding table var s64 = new Array(123); // 65..90, 97..122, 48..57, 43, 47 for (var i = 0; i < 64;) s64[b64[i] = i < 26 ? i + 65 : i < 52 ? i + 71 : i < 62 ? i - 4 : i - 59 | 43] = i++; /** * Encodes a buffer to a base64 encoded string. * @param {Uint8Array} buffer Source buffer * @param {number} start Source start * @param {number} end Source end * @returns {string} Base64 encoded string */ base64.encode = function encode(buffer, start, end) { var parts = null, chunk = []; var i = 0, // output index j = 0, // goto index t; // temporary while (start < end) { var b = buffer[start++]; switch (j) { case 0: chunk[i++] = b64[b >> 2]; t = (b & 3) << 4; j = 1; break; case 1: chunk[i++] = b64[t | b >> 4]; t = (b & 15) << 2; j = 2; break; case 2: chunk[i++] = b64[t | b >> 6]; chunk[i++] = b64[b & 63]; j = 0; break; } if (i > 8191) { (parts || (parts = [])).push(String.fromCharCode.apply(String, chunk)); i = 0; } } if (j) { chunk[i++] = b64[t]; chunk[i++] = 61; if (j === 1) chunk[i++] = 61; } if (parts) { if (i) parts.push(String.fromCharCode.apply(String, chunk.slice(0, i))); return parts.join(""); } return String.fromCharCode.apply(String, chunk.slice(0, i)); }; var invalidEncoding = "invalid encoding"; /** * Decodes a base64 encoded string to a buffer. * @param {string} string Source string * @param {Uint8Array} buffer Destination buffer * @param {number} offset Destination offset * @returns {number} Number of bytes written * @throws {Error} If encoding is invalid */ base64.decode = function decode(string, buffer, offset) { var start = offset; var j = 0, // goto index t; // temporary for (var i = 0; i < string.length;) { var c = string.charCodeAt(i++); if (c === 61 && j > 1) break; if ((c = s64[c]) === undefined) throw Error(invalidEncoding); switch (j) { case 0: t = c; j = 1; break; case 1: buffer[offset++] = t << 2 | (c & 48) >> 4; t = c; j = 2; break; case 2: buffer[offset++] = (t & 15) << 4 | (c & 60) >> 2; t = c; j = 3; break; case 3: buffer[offset++] = (t & 3) << 6 | c; j = 0; break; } } if (j === 1) throw Error(invalidEncoding); return offset - start; }; /** * Tests if the specified string appears to be base64 encoded. * @param {string} string String to test * @returns {boolean} `true` if probably base64 encoded, otherwise false */ base64.test = function test(string) { return /^(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)?$/.test(string); }; },{}],24:[function(require,module,exports){ "use strict"; module.exports = codegen; /** * Begins generating a function. * @memberof util * @param {string[]} functionParams Function parameter names * @param {string} [functionName] Function name if not anonymous * @returns {Codegen} Appender that appends code to the function's body */ function codegen(functionParams, functionName) { /* istanbul ignore if */ if (typeof functionParams === "string") { functionName = functionParams; functionParams = undefined; } var body = []; /** * Appends code to the function's body or finishes generation. * @typedef Codegen * @type {function} * @param {string|Object.} [formatStringOrScope] Format string or, to finish the function, an object of additional scope variables, if any * @param {...*} [formatParams] Format parameters * @returns {Codegen|Function} Itself or the generated function if finished * @throws {Error} If format parameter counts do not match */ function Codegen(formatStringOrScope) { // note that explicit array handling below makes this ~50% faster // finish the function if (typeof formatStringOrScope !== "string") { var source = toString(); if (codegen.verbose) console.log("codegen: " + source); // eslint-disable-line no-console source = "return " + source; if (formatStringOrScope) { var scopeKeys = Object.keys(formatStringOrScope), scopeParams = new Array(scopeKeys.length + 1), scopeValues = new Array(scopeKeys.length), scopeOffset = 0; while (scopeOffset < scopeKeys.length) { scopeParams[scopeOffset] = scopeKeys[scopeOffset]; scopeValues[scopeOffset] = formatStringOrScope[scopeKeys[scopeOffset++]]; } scopeParams[scopeOffset] = source; return Function.apply(null, scopeParams).apply(null, scopeValues); // eslint-disable-line no-new-func } return Function(source)(); // eslint-disable-line no-new-func } // otherwise append to body var formatParams = new Array(arguments.length - 1), formatOffset = 0; while (formatOffset < formatParams.length) formatParams[formatOffset] = arguments[++formatOffset]; formatOffset = 0; formatStringOrScope = formatStringOrScope.replace(/%([%dfijs])/g, function replace($0, $1) { var value = formatParams[formatOffset++]; switch ($1) { case "d": case "f": return String(Number(value)); case "i": return String(Math.floor(value)); case "j": return JSON.stringify(value); case "s": return String(value); } return "%"; }); if (formatOffset !== formatParams.length) throw Error("parameter count mismatch"); body.push(formatStringOrScope); return Codegen; } function toString(functionNameOverride) { return "function " + (functionNameOverride || functionName || "") + "(" + (functionParams && functionParams.join(",") || "") + "){\n " + body.join("\n ") + "\n}"; } Codegen.toString = toString; return Codegen; } /** * Begins generating a function. * @memberof util * @function codegen * @param {string} [functionName] Function name if not anonymous * @returns {Codegen} Appender that appends code to the function's body * @variation 2 */ /** * When set to `true`, codegen will log generated code to console. Useful for debugging. * @name util.codegen.verbose * @type {boolean} */ codegen.verbose = false; },{}],25:[function(require,module,exports){ "use strict"; module.exports = EventEmitter; /** * Constructs a new event emitter instance. * @classdesc A minimal event emitter. * @memberof util * @constructor */ function EventEmitter() { /** * Registered listeners. * @type {Object.} * @private */ this._listeners = {}; } /** * Registers an event listener. * @param {string} evt Event name * @param {function} fn Listener * @param {*} [ctx] Listener context * @returns {util.EventEmitter} `this` */ EventEmitter.prototype.on = function on(evt, fn, ctx) { (this._listeners[evt] || (this._listeners[evt] = [])).push({ fn : fn, ctx : ctx || this }); return this; }; /** * Removes an event listener or any matching listeners if arguments are omitted. * @param {string} [evt] Event name. Removes all listeners if omitted. * @param {function} [fn] Listener to remove. Removes all listeners of `evt` if omitted. * @returns {util.EventEmitter} `this` */ EventEmitter.prototype.off = function off(evt, fn) { if (evt === undefined) this._listeners = {}; else { if (fn === undefined) this._listeners[evt] = []; else { var listeners = this._listeners[evt]; for (var i = 0; i < listeners.length;) if (listeners[i].fn === fn) listeners.splice(i, 1); else ++i; } } return this; }; /** * Emits an event by calling its listeners with the specified arguments. * @param {string} evt Event name * @param {...*} args Arguments * @returns {util.EventEmitter} `this` */ EventEmitter.prototype.emit = function emit(evt) { var listeners = this._listeners[evt]; if (listeners) { var args = [], i = 1; for (; i < arguments.length;) args.push(arguments[i++]); for (i = 0; i < listeners.length;) listeners[i].fn.apply(listeners[i++].ctx, args); } return this; }; },{}],26:[function(require,module,exports){ "use strict"; module.exports = fetch; var asPromise = require("@protobufjs/aspromise"), inquire = require("@protobufjs/inquire"); var fs = inquire("fs"); /** * Node-style callback as used by {@link util.fetch}. * @typedef FetchCallback * @type {function} * @param {?Error} error Error, if any, otherwise `null` * @param {string} [contents] File contents, if there hasn't been an error * @returns {undefined} */ /** * Options as used by {@link util.fetch}. * @typedef FetchOptions * @type {Object} * @property {boolean} [binary=false] Whether expecting a binary response * @property {boolean} [xhr=false] If `true`, forces the use of XMLHttpRequest */ /** * Fetches the contents of a file. * @memberof util * @param {string} filename File path or url * @param {FetchOptions} options Fetch options * @param {FetchCallback} callback Callback function * @returns {undefined} */ function fetch(filename, options, callback) { if (typeof options === "function") { callback = options; options = {}; } else if (!options) options = {}; if (!callback) return asPromise(fetch, this, filename, options); // eslint-disable-line no-invalid-this // if a node-like filesystem is present, try it first but fall back to XHR if nothing is found. if (!options.xhr && fs && fs.readFile) return fs.readFile(filename, function fetchReadFileCallback(err, contents) { return err && typeof XMLHttpRequest !== "undefined" ? fetch.xhr(filename, options, callback) : err ? callback(err) : callback(null, options.binary ? contents : contents.toString("utf8")); }); // use the XHR version otherwise. return fetch.xhr(filename, options, callback); } /** * Fetches the contents of a file. * @name util.fetch * @function * @param {string} path File path or url * @param {FetchCallback} callback Callback function * @returns {undefined} * @variation 2 */ /** * Fetches the contents of a file. * @name util.fetch * @function * @param {string} path File path or url * @param {FetchOptions} [options] Fetch options * @returns {Promise} Promise * @variation 3 */ /**/ fetch.xhr = function fetch_xhr(filename, options, callback) { var xhr = new XMLHttpRequest(); xhr.onreadystatechange /* works everywhere */ = function fetchOnReadyStateChange() { if (xhr.readyState !== 4) return undefined; // local cors security errors return status 0 / empty string, too. afaik this cannot be // reliably distinguished from an actually empty file for security reasons. feel free // to send a pull request if you are aware of a solution. if (xhr.status !== 0 && xhr.status !== 200) return callback(Error("status " + xhr.status)); // if binary data is expected, make sure that some sort of array is returned, even if // ArrayBuffers are not supported. the binary string fallback, however, is unsafe. if (options.binary) { var buffer = xhr.response; if (!buffer) { buffer = []; for (var i = 0; i < xhr.responseText.length; ++i) buffer.push(xhr.responseText.charCodeAt(i) & 255); } return callback(null, typeof Uint8Array !== "undefined" ? new Uint8Array(buffer) : buffer); } return callback(null, xhr.responseText); }; if (options.binary) { // ref: https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/Sending_and_Receiving_Binary_Data#Receiving_binary_data_in_older_browsers if ("overrideMimeType" in xhr) xhr.overrideMimeType("text/plain; charset=x-user-defined"); xhr.responseType = "arraybuffer"; } xhr.open("GET", filename); xhr.send(); }; },{"@protobufjs/aspromise":22,"@protobufjs/inquire":28}],27:[function(require,module,exports){ "use strict"; module.exports = factory(factory); /** * Reads / writes floats / doubles from / to buffers. * @name util.float * @namespace */ /** * Writes a 32 bit float to a buffer using little endian byte order. * @name util.float.writeFloatLE * @function * @param {number} val Value to write * @param {Uint8Array} buf Target buffer * @param {number} pos Target buffer offset * @returns {undefined} */ /** * Writes a 32 bit float to a buffer using big endian byte order. * @name util.float.writeFloatBE * @function * @param {number} val Value to write * @param {Uint8Array} buf Target buffer * @param {number} pos Target buffer offset * @returns {undefined} */ /** * Reads a 32 bit float from a buffer using little endian byte order. * @name util.float.readFloatLE * @function * @param {Uint8Array} buf Source buffer * @param {number} pos Source buffer offset * @returns {number} Value read */ /** * Reads a 32 bit float from a buffer using big endian byte order. * @name util.float.readFloatBE * @function * @param {Uint8Array} buf Source buffer * @param {number} pos Source buffer offset * @returns {number} Value read */ /** * Writes a 64 bit double to a buffer using little endian byte order. * @name util.float.writeDoubleLE * @function * @param {number} val Value to write * @param {Uint8Array} buf Target buffer * @param {number} pos Target buffer offset * @returns {undefined} */ /** * Writes a 64 bit double to a buffer using big endian byte order. * @name util.float.writeDoubleBE * @function * @param {number} val Value to write * @param {Uint8Array} buf Target buffer * @param {number} pos Target buffer offset * @returns {undefined} */ /** * Reads a 64 bit double from a buffer using little endian byte order. * @name util.float.readDoubleLE * @function * @param {Uint8Array} buf Source buffer * @param {number} pos Source buffer offset * @returns {number} Value read */ /** * Reads a 64 bit double from a buffer using big endian byte order. * @name util.float.readDoubleBE * @function * @param {Uint8Array} buf Source buffer * @param {number} pos Source buffer offset * @returns {number} Value read */ // Factory function for the purpose of node-based testing in modified global environments function factory(exports) { // float: typed array if (typeof Float32Array !== "undefined") (function() { var f32 = new Float32Array([ -0 ]), f8b = new Uint8Array(f32.buffer), le = f8b[3] === 128; function writeFloat_f32_cpy(val, buf, pos) { f32[0] = val; buf[pos ] = f8b[0]; buf[pos + 1] = f8b[1]; buf[pos + 2] = f8b[2]; buf[pos + 3] = f8b[3]; } function writeFloat_f32_rev(val, buf, pos) { f32[0] = val; buf[pos ] = f8b[3]; buf[pos + 1] = f8b[2]; buf[pos + 2] = f8b[1]; buf[pos + 3] = f8b[0]; } /* istanbul ignore next */ exports.writeFloatLE = le ? writeFloat_f32_cpy : writeFloat_f32_rev; /* istanbul ignore next */ exports.writeFloatBE = le ? writeFloat_f32_rev : writeFloat_f32_cpy; function readFloat_f32_cpy(buf, pos) { f8b[0] = buf[pos ]; f8b[1] = buf[pos + 1]; f8b[2] = buf[pos + 2]; f8b[3] = buf[pos + 3]; return f32[0]; } function readFloat_f32_rev(buf, pos) { f8b[3] = buf[pos ]; f8b[2] = buf[pos + 1]; f8b[1] = buf[pos + 2]; f8b[0] = buf[pos + 3]; return f32[0]; } /* istanbul ignore next */ exports.readFloatLE = le ? readFloat_f32_cpy : readFloat_f32_rev; /* istanbul ignore next */ exports.readFloatBE = le ? readFloat_f32_rev : readFloat_f32_cpy; // float: ieee754 })(); else (function() { function writeFloat_ieee754(writeUint, val, buf, pos) { var sign = val < 0 ? 1 : 0; if (sign) val = -val; if (val === 0) writeUint(1 / val > 0 ? /* positive */ 0 : /* negative 0 */ 2147483648, buf, pos); else if (isNaN(val)) writeUint(2143289344, buf, pos); else if (val > 3.4028234663852886e+38) // +-Infinity writeUint((sign << 31 | 2139095040) >>> 0, buf, pos); else if (val < 1.1754943508222875e-38) // denormal writeUint((sign << 31 | Math.round(val / 1.401298464324817e-45)) >>> 0, buf, pos); else { var exponent = Math.floor(Math.log(val) / Math.LN2), mantissa = Math.round(val * Math.pow(2, -exponent) * 8388608) & 8388607; writeUint((sign << 31 | exponent + 127 << 23 | mantissa) >>> 0, buf, pos); } } exports.writeFloatLE = writeFloat_ieee754.bind(null, writeUintLE); exports.writeFloatBE = writeFloat_ieee754.bind(null, writeUintBE); function readFloat_ieee754(readUint, buf, pos) { var uint = readUint(buf, pos), sign = (uint >> 31) * 2 + 1, exponent = uint >>> 23 & 255, mantissa = uint & 8388607; return exponent === 255 ? mantissa ? NaN : sign * Infinity : exponent === 0 // denormal ? sign * 1.401298464324817e-45 * mantissa : sign * Math.pow(2, exponent - 150) * (mantissa + 8388608); } exports.readFloatLE = readFloat_ieee754.bind(null, readUintLE); exports.readFloatBE = readFloat_ieee754.bind(null, readUintBE); })(); // double: typed array if (typeof Float64Array !== "undefined") (function() { var f64 = new Float64Array([-0]), f8b = new Uint8Array(f64.buffer), le = f8b[7] === 128; function writeDouble_f64_cpy(val, buf, pos) { f64[0] = val; buf[pos ] = f8b[0]; buf[pos + 1] = f8b[1]; buf[pos + 2] = f8b[2]; buf[pos + 3] = f8b[3]; buf[pos + 4] = f8b[4]; buf[pos + 5] = f8b[5]; buf[pos + 6] = f8b[6]; buf[pos + 7] = f8b[7]; } function writeDouble_f64_rev(val, buf, pos) { f64[0] = val; buf[pos ] = f8b[7]; buf[pos + 1] = f8b[6]; buf[pos + 2] = f8b[5]; buf[pos + 3] = f8b[4]; buf[pos + 4] = f8b[3]; buf[pos + 5] = f8b[2]; buf[pos + 6] = f8b[1]; buf[pos + 7] = f8b[0]; } /* istanbul ignore next */ exports.writeDoubleLE = le ? writeDouble_f64_cpy : writeDouble_f64_rev; /* istanbul ignore next */ exports.writeDoubleBE = le ? writeDouble_f64_rev : writeDouble_f64_cpy; function readDouble_f64_cpy(buf, pos) { f8b[0] = buf[pos ]; f8b[1] = buf[pos + 1]; f8b[2] = buf[pos + 2]; f8b[3] = buf[pos + 3]; f8b[4] = buf[pos + 4]; f8b[5] = buf[pos + 5]; f8b[6] = buf[pos + 6]; f8b[7] = buf[pos + 7]; return f64[0]; } function readDouble_f64_rev(buf, pos) { f8b[7] = buf[pos ]; f8b[6] = buf[pos + 1]; f8b[5] = buf[pos + 2]; f8b[4] = buf[pos + 3]; f8b[3] = buf[pos + 4]; f8b[2] = buf[pos + 5]; f8b[1] = buf[pos + 6]; f8b[0] = buf[pos + 7]; return f64[0]; } /* istanbul ignore next */ exports.readDoubleLE = le ? readDouble_f64_cpy : readDouble_f64_rev; /* istanbul ignore next */ exports.readDoubleBE = le ? readDouble_f64_rev : readDouble_f64_cpy; // double: ieee754 })(); else (function() { function writeDouble_ieee754(writeUint, off0, off1, val, buf, pos) { var sign = val < 0 ? 1 : 0; if (sign) val = -val; if (val === 0) { writeUint(0, buf, pos + off0); writeUint(1 / val > 0 ? /* positive */ 0 : /* negative 0 */ 2147483648, buf, pos + off1); } else if (isNaN(val)) { writeUint(0, buf, pos + off0); writeUint(2146959360, buf, pos + off1); } else if (val > 1.7976931348623157e+308) { // +-Infinity writeUint(0, buf, pos + off0); writeUint((sign << 31 | 2146435072) >>> 0, buf, pos + off1); } else { var mantissa; if (val < 2.2250738585072014e-308) { // denormal mantissa = val / 5e-324; writeUint(mantissa >>> 0, buf, pos + off0); writeUint((sign << 31 | mantissa / 4294967296) >>> 0, buf, pos + off1); } else { var exponent = Math.floor(Math.log(val) / Math.LN2); if (exponent === 1024) exponent = 1023; mantissa = val * Math.pow(2, -exponent); writeUint(mantissa * 4503599627370496 >>> 0, buf, pos + off0); writeUint((sign << 31 | exponent + 1023 << 20 | mantissa * 1048576 & 1048575) >>> 0, buf, pos + off1); } } } exports.writeDoubleLE = writeDouble_ieee754.bind(null, writeUintLE, 0, 4); exports.writeDoubleBE = writeDouble_ieee754.bind(null, writeUintBE, 4, 0); function readDouble_ieee754(readUint, off0, off1, buf, pos) { var lo = readUint(buf, pos + off0), hi = readUint(buf, pos + off1); var sign = (hi >> 31) * 2 + 1, exponent = hi >>> 20 & 2047, mantissa = 4294967296 * (hi & 1048575) + lo; return exponent === 2047 ? mantissa ? NaN : sign * Infinity : exponent === 0 // denormal ? sign * 5e-324 * mantissa : sign * Math.pow(2, exponent - 1075) * (mantissa + 4503599627370496); } exports.readDoubleLE = readDouble_ieee754.bind(null, readUintLE, 0, 4); exports.readDoubleBE = readDouble_ieee754.bind(null, readUintBE, 4, 0); })(); return exports; } // uint helpers function writeUintLE(val, buf, pos) { buf[pos ] = val & 255; buf[pos + 1] = val >>> 8 & 255; buf[pos + 2] = val >>> 16 & 255; buf[pos + 3] = val >>> 24; } function writeUintBE(val, buf, pos) { buf[pos ] = val >>> 24; buf[pos + 1] = val >>> 16 & 255; buf[pos + 2] = val >>> 8 & 255; buf[pos + 3] = val & 255; } function readUintLE(buf, pos) { return (buf[pos ] | buf[pos + 1] << 8 | buf[pos + 2] << 16 | buf[pos + 3] << 24) >>> 0; } function readUintBE(buf, pos) { return (buf[pos ] << 24 | buf[pos + 1] << 16 | buf[pos + 2] << 8 | buf[pos + 3]) >>> 0; } },{}],28:[function(require,module,exports){ "use strict"; module.exports = inquire; /** * Requires a module only if available. * @memberof util * @param {string} moduleName Module to require * @returns {?Object} Required module if available and not empty, otherwise `null` */ function inquire(moduleName) { try { var mod = eval("quire".replace(/^/,"re"))(moduleName); // eslint-disable-line no-eval if (mod && (mod.length || Object.keys(mod).length)) return mod; } catch (e) {} // eslint-disable-line no-empty return null; } },{}],29:[function(require,module,exports){ "use strict"; /** * A minimal path module to resolve Unix, Windows and URL paths alike. * @memberof util * @namespace */ var path = exports; var isAbsolute = /** * Tests if the specified path is absolute. * @param {string} path Path to test * @returns {boolean} `true` if path is absolute */ path.isAbsolute = function isAbsolute(path) { return /^(?:\/|\w+:)/.test(path); }; var normalize = /** * Normalizes the specified path. * @param {string} path Path to normalize * @returns {string} Normalized path */ path.normalize = function normalize(path) { path = path.replace(/\\/g, "/") .replace(/\/{2,}/g, "/"); var parts = path.split("/"), absolute = isAbsolute(path), prefix = ""; if (absolute) prefix = parts.shift() + "/"; for (var i = 0; i < parts.length;) { if (parts[i] === "..") { if (i > 0 && parts[i - 1] !== "..") parts.splice(--i, 2); else if (absolute) parts.splice(i, 1); else ++i; } else if (parts[i] === ".") parts.splice(i, 1); else ++i; } return prefix + parts.join("/"); }; /** * Resolves the specified include path against the specified origin path. * @param {string} originPath Path to the origin file * @param {string} includePath Include path relative to origin path * @param {boolean} [alreadyNormalized=false] `true` if both paths are already known to be normalized * @returns {string} Path to the include file */ path.resolve = function resolve(originPath, includePath, alreadyNormalized) { if (!alreadyNormalized) includePath = normalize(includePath); if (isAbsolute(includePath)) return includePath; if (!alreadyNormalized) originPath = normalize(originPath); return (originPath = originPath.replace(/(?:\/|^)[^/]+$/, "")).length ? normalize(originPath + "/" + includePath) : includePath; }; },{}],30:[function(require,module,exports){ "use strict"; module.exports = pool; /** * An allocator as used by {@link util.pool}. * @typedef PoolAllocator * @type {function} * @param {number} size Buffer size * @returns {Uint8Array} Buffer */ /** * A slicer as used by {@link util.pool}. * @typedef PoolSlicer * @type {function} * @param {number} start Start offset * @param {number} end End offset * @returns {Uint8Array} Buffer slice * @this {Uint8Array} */ /** * A general purpose buffer pool. * @memberof util * @function * @param {PoolAllocator} alloc Allocator * @param {PoolSlicer} slice Slicer * @param {number} [size=8192] Slab size * @returns {PoolAllocator} Pooled allocator */ function pool(alloc, slice, size) { var SIZE = size || 8192; var MAX = SIZE >>> 1; var slab = null; var offset = SIZE; return function pool_alloc(size) { if (size < 1 || size > MAX) return alloc(size); if (offset + size > SIZE) { slab = alloc(SIZE); offset = 0; } var buf = slice.call(slab, offset, offset += size); if (offset & 7) // align to 32 bit offset = (offset | 7) + 1; return buf; }; } },{}],31:[function(require,module,exports){ "use strict"; /** * A minimal UTF8 implementation for number arrays. * @memberof util * @namespace */ var utf8 = exports; /** * Calculates the UTF8 byte length of a string. * @param {string} string String * @returns {number} Byte length */ utf8.length = function utf8_length(string) { var len = 0, c = 0; for (var i = 0; i < string.length; ++i) { c = string.charCodeAt(i); if (c < 128) len += 1; else if (c < 2048) len += 2; else if ((c & 0xFC00) === 0xD800 && (string.charCodeAt(i + 1) & 0xFC00) === 0xDC00) { ++i; len += 4; } else len += 3; } return len; }; /** * Reads UTF8 bytes as a string. * @param {Uint8Array} buffer Source buffer * @param {number} start Source start * @param {number} end Source end * @returns {string} String read */ utf8.read = function utf8_read(buffer, start, end) { var len = end - start; if (len < 1) return ""; var parts = null, chunk = [], i = 0, // char offset t; // temporary while (start < end) { t = buffer[start++]; if (t < 128) chunk[i++] = t; else if (t > 191 && t < 224) chunk[i++] = (t & 31) << 6 | buffer[start++] & 63; else if (t > 239 && t < 365) { t = ((t & 7) << 18 | (buffer[start++] & 63) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63) - 0x10000; chunk[i++] = 0xD800 + (t >> 10); chunk[i++] = 0xDC00 + (t & 1023); } else chunk[i++] = (t & 15) << 12 | (buffer[start++] & 63) << 6 | buffer[start++] & 63; if (i > 8191) { (parts || (parts = [])).push(String.fromCharCode.apply(String, chunk)); i = 0; } } if (parts) { if (i) parts.push(String.fromCharCode.apply(String, chunk.slice(0, i))); return parts.join(""); } return String.fromCharCode.apply(String, chunk.slice(0, i)); }; /** * Writes a string as UTF8 bytes. * @param {string} string Source string * @param {Uint8Array} buffer Destination buffer * @param {number} offset Destination offset * @returns {number} Bytes written */ utf8.write = function utf8_write(string, buffer, offset) { var start = offset, c1, // character 1 c2; // character 2 for (var i = 0; i < string.length; ++i) { c1 = string.charCodeAt(i); if (c1 < 128) { buffer[offset++] = c1; } else if (c1 < 2048) { buffer[offset++] = c1 >> 6 | 192; buffer[offset++] = c1 & 63 | 128; } else if ((c1 & 0xFC00) === 0xD800 && ((c2 = string.charCodeAt(i + 1)) & 0xFC00) === 0xDC00) { c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF); ++i; buffer[offset++] = c1 >> 18 | 240; buffer[offset++] = c1 >> 12 & 63 | 128; buffer[offset++] = c1 >> 6 & 63 | 128; buffer[offset++] = c1 & 63 | 128; } else { buffer[offset++] = c1 >> 12 | 224; buffer[offset++] = c1 >> 6 & 63 | 128; buffer[offset++] = c1 & 63 | 128; } } return offset - start; }; },{}],32:[function(require,module,exports){ var asn1 = exports; asn1.bignum = require('bn.js'); asn1.define = require('./asn1/api').define; asn1.base = require('./asn1/base'); asn1.constants = require('./asn1/constants'); asn1.decoders = require('./asn1/decoders'); asn1.encoders = require('./asn1/encoders'); },{"./asn1/api":33,"./asn1/base":35,"./asn1/constants":39,"./asn1/decoders":41,"./asn1/encoders":44,"bn.js":75}],33:[function(require,module,exports){ var asn1 = require('../asn1'); var inherits = require('inherits'); var api = exports; api.define = function define(name, body) { return new Entity(name, body); }; function Entity(name, body) { this.name = name; this.body = body; this.decoders = {}; this.encoders = {}; }; Entity.prototype._createNamed = function createNamed(base) { var named; try { named = require('vm').runInThisContext( '(function ' + this.name + '(entity) {\n' + ' this._initNamed(entity);\n' + '})' ); } catch (e) { named = function (entity) { this._initNamed(entity); }; } inherits(named, base); named.prototype._initNamed = function initnamed(entity) { base.call(this, entity); }; return new named(this); }; Entity.prototype._getDecoder = function _getDecoder(enc) { enc = enc || 'der'; // Lazily create decoder if (!this.decoders.hasOwnProperty(enc)) this.decoders[enc] = this._createNamed(asn1.decoders[enc]); return this.decoders[enc]; }; Entity.prototype.decode = function decode(data, enc, options) { return this._getDecoder(enc).decode(data, options); }; Entity.prototype._getEncoder = function _getEncoder(enc) { enc = enc || 'der'; // Lazily create encoder if (!this.encoders.hasOwnProperty(enc)) this.encoders[enc] = this._createNamed(asn1.encoders[enc]); return this.encoders[enc]; }; Entity.prototype.encode = function encode(data, enc, /* internal */ reporter) { return this._getEncoder(enc).encode(data, reporter); }; },{"../asn1":32,"inherits":163,"vm":271}],34:[function(require,module,exports){ var inherits = require('inherits'); var Reporter = require('../base').Reporter; var Buffer = require('buffer').Buffer; function DecoderBuffer(base, options) { Reporter.call(this, options); if (!Buffer.isBuffer(base)) { this.error('Input not Buffer'); return; } this.base = base; this.offset = 0; this.length = base.length; } inherits(DecoderBuffer, Reporter); exports.DecoderBuffer = DecoderBuffer; DecoderBuffer.prototype.save = function save() { return { offset: this.offset, reporter: Reporter.prototype.save.call(this) }; }; DecoderBuffer.prototype.restore = function restore(save) { // Return skipped data var res = new DecoderBuffer(this.base); res.offset = save.offset; res.length = this.offset; this.offset = save.offset; Reporter.prototype.restore.call(this, save.reporter); return res; }; DecoderBuffer.prototype.isEmpty = function isEmpty() { return this.offset === this.length; }; DecoderBuffer.prototype.readUInt8 = function readUInt8(fail) { if (this.offset + 1 <= this.length) return this.base.readUInt8(this.offset++, true); else return this.error(fail || 'DecoderBuffer overrun'); } DecoderBuffer.prototype.skip = function skip(bytes, fail) { if (!(this.offset + bytes <= this.length)) return this.error(fail || 'DecoderBuffer overrun'); var res = new DecoderBuffer(this.base); // Share reporter state res._reporterState = this._reporterState; res.offset = this.offset; res.length = this.offset + bytes; this.offset += bytes; return res; } DecoderBuffer.prototype.raw = function raw(save) { return this.base.slice(save ? save.offset : this.offset, this.length); } function EncoderBuffer(value, reporter) { if (Array.isArray(value)) { this.length = 0; this.value = value.map(function(item) { if (!(item instanceof EncoderBuffer)) item = new EncoderBuffer(item, reporter); this.length += item.length; return item; }, this); } else if (typeof value === 'number') { if (!(0 <= value && value <= 0xff)) return reporter.error('non-byte EncoderBuffer value'); this.value = value; this.length = 1; } else if (typeof value === 'string') { this.value = value; this.length = Buffer.byteLength(value); } else if (Buffer.isBuffer(value)) { this.value = value; this.length = value.length; } else { return reporter.error('Unsupported type: ' + typeof value); } } exports.EncoderBuffer = EncoderBuffer; EncoderBuffer.prototype.join = function join(out, offset) { if (!out) out = new Buffer(this.length); if (!offset) offset = 0; if (this.length === 0) return out; if (Array.isArray(this.value)) { this.value.forEach(function(item) { item.join(out, offset); offset += item.length; }); } else { if (typeof this.value === 'number') out[offset] = this.value; else if (typeof this.value === 'string') out.write(this.value, offset); else if (Buffer.isBuffer(this.value)) this.value.copy(out, offset); offset += this.length; } return out; }; },{"../base":35,"buffer":107,"inherits":163}],35:[function(require,module,exports){ var base = exports; base.Reporter = require('./reporter').Reporter; base.DecoderBuffer = require('./buffer').DecoderBuffer; base.EncoderBuffer = require('./buffer').EncoderBuffer; base.Node = require('./node'); },{"./buffer":34,"./node":36,"./reporter":37}],36:[function(require,module,exports){ var Reporter = require('../base').Reporter; var EncoderBuffer = require('../base').EncoderBuffer; var DecoderBuffer = require('../base').DecoderBuffer; var assert = require('minimalistic-assert'); // Supported tags var tags = [ 'seq', 'seqof', 'set', 'setof', 'objid', 'bool', 'gentime', 'utctime', 'null_', 'enum', 'int', 'objDesc', 'bitstr', 'bmpstr', 'charstr', 'genstr', 'graphstr', 'ia5str', 'iso646str', 'numstr', 'octstr', 'printstr', 't61str', 'unistr', 'utf8str', 'videostr' ]; // Public methods list var methods = [ 'key', 'obj', 'use', 'optional', 'explicit', 'implicit', 'def', 'choice', 'any', 'contains' ].concat(tags); // Overrided methods list var overrided = [ '_peekTag', '_decodeTag', '_use', '_decodeStr', '_decodeObjid', '_decodeTime', '_decodeNull', '_decodeInt', '_decodeBool', '_decodeList', '_encodeComposite', '_encodeStr', '_encodeObjid', '_encodeTime', '_encodeNull', '_encodeInt', '_encodeBool' ]; function Node(enc, parent) { var state = {}; this._baseState = state; state.enc = enc; state.parent = parent || null; state.children = null; // State state.tag = null; state.args = null; state.reverseArgs = null; state.choice = null; state.optional = false; state.any = false; state.obj = false; state.use = null; state.useDecoder = null; state.key = null; state['default'] = null; state.explicit = null; state.implicit = null; state.contains = null; // Should create new instance on each method if (!state.parent) { state.children = []; this._wrap(); } } module.exports = Node; var stateProps = [ 'enc', 'parent', 'children', 'tag', 'args', 'reverseArgs', 'choice', 'optional', 'any', 'obj', 'use', 'alteredUse', 'key', 'default', 'explicit', 'implicit', 'contains' ]; Node.prototype.clone = function clone() { var state = this._baseState; var cstate = {}; stateProps.forEach(function(prop) { cstate[prop] = state[prop]; }); var res = new this.constructor(cstate.parent); res._baseState = cstate; return res; }; Node.prototype._wrap = function wrap() { var state = this._baseState; methods.forEach(function(method) { this[method] = function _wrappedMethod() { var clone = new this.constructor(this); state.children.push(clone); return clone[method].apply(clone, arguments); }; }, this); }; Node.prototype._init = function init(body) { var state = this._baseState; assert(state.parent === null); body.call(this); // Filter children state.children = state.children.filter(function(child) { return child._baseState.parent === this; }, this); assert.equal(state.children.length, 1, 'Root node can have only one child'); }; Node.prototype._useArgs = function useArgs(args) { var state = this._baseState; // Filter children and args var children = args.filter(function(arg) { return arg instanceof this.constructor; }, this); args = args.filter(function(arg) { return !(arg instanceof this.constructor); }, this); if (children.length !== 0) { assert(state.children === null); state.children = children; // Replace parent to maintain backward link children.forEach(function(child) { child._baseState.parent = this; }, this); } if (args.length !== 0) { assert(state.args === null); state.args = args; state.reverseArgs = args.map(function(arg) { if (typeof arg !== 'object' || arg.constructor !== Object) return arg; var res = {}; Object.keys(arg).forEach(function(key) { if (key == (key | 0)) key |= 0; var value = arg[key]; res[value] = key; }); return res; }); } }; // // Overrided methods // overrided.forEach(function(method) { Node.prototype[method] = function _overrided() { var state = this._baseState; throw new Error(method + ' not implemented for encoding: ' + state.enc); }; }); // // Public methods // tags.forEach(function(tag) { Node.prototype[tag] = function _tagMethod() { var state = this._baseState; var args = Array.prototype.slice.call(arguments); assert(state.tag === null); state.tag = tag; this._useArgs(args); return this; }; }); Node.prototype.use = function use(item) { assert(item); var state = this._baseState; assert(state.use === null); state.use = item; return this; }; Node.prototype.optional = function optional() { var state = this._baseState; state.optional = true; return this; }; Node.prototype.def = function def(val) { var state = this._baseState; assert(state['default'] === null); state['default'] = val; state.optional = true; return this; }; Node.prototype.explicit = function explicit(num) { var state = this._baseState; assert(state.explicit === null && state.implicit === null); state.explicit = num; return this; }; Node.prototype.implicit = function implicit(num) { var state = this._baseState; assert(state.explicit === null && state.implicit === null); state.implicit = num; return this; }; Node.prototype.obj = function obj() { var state = this._baseState; var args = Array.prototype.slice.call(arguments); state.obj = true; if (args.length !== 0) this._useArgs(args); return this; }; Node.prototype.key = function key(newKey) { var state = this._baseState; assert(state.key === null); state.key = newKey; return this; }; Node.prototype.any = function any() { var state = this._baseState; state.any = true; return this; }; Node.prototype.choice = function choice(obj) { var state = this._baseState; assert(state.choice === null); state.choice = obj; this._useArgs(Object.keys(obj).map(function(key) { return obj[key]; })); return this; }; Node.prototype.contains = function contains(item) { var state = this._baseState; assert(state.use === null); state.contains = item; return this; }; // // Decoding // Node.prototype._decode = function decode(input, options) { var state = this._baseState; // Decode root node if (state.parent === null) return input.wrapResult(state.children[0]._decode(input, options)); var result = state['default']; var present = true; var prevKey = null; if (state.key !== null) prevKey = input.enterKey(state.key); // Check if tag is there if (state.optional) { var tag = null; if (state.explicit !== null) tag = state.explicit; else if (state.implicit !== null) tag = state.implicit; else if (state.tag !== null) tag = state.tag; if (tag === null && !state.any) { // Trial and Error var save = input.save(); try { if (state.choice === null) this._decodeGeneric(state.tag, input, options); else this._decodeChoice(input, options); present = true; } catch (e) { present = false; } input.restore(save); } else { present = this._peekTag(input, tag, state.any); if (input.isError(present)) return present; } } // Push object on stack var prevObj; if (state.obj && present) prevObj = input.enterObject(); if (present) { // Unwrap explicit values if (state.explicit !== null) { var explicit = this._decodeTag(input, state.explicit); if (input.isError(explicit)) return explicit; input = explicit; } var start = input.offset; // Unwrap implicit and normal values if (state.use === null && state.choice === null) { if (state.any) var save = input.save(); var body = this._decodeTag( input, state.implicit !== null ? state.implicit : state.tag, state.any ); if (input.isError(body)) return body; if (state.any) result = input.raw(save); else input = body; } if (options && options.track && state.tag !== null) options.track(input.path(), start, input.length, 'tagged'); if (options && options.track && state.tag !== null) options.track(input.path(), input.offset, input.length, 'content'); // Select proper method for tag if (state.any) result = result; else if (state.choice === null) result = this._decodeGeneric(state.tag, input, options); else result = this._decodeChoice(input, options); if (input.isError(result)) return result; // Decode children if (!state.any && state.choice === null && state.children !== null) { state.children.forEach(function decodeChildren(child) { // NOTE: We are ignoring errors here, to let parser continue with other // parts of encoded data child._decode(input, options); }); } // Decode contained/encoded by schema, only in bit or octet strings if (state.contains && (state.tag === 'octstr' || state.tag === 'bitstr')) { var data = new DecoderBuffer(result); result = this._getUse(state.contains, input._reporterState.obj) ._decode(data, options); } } // Pop object if (state.obj && present) result = input.leaveObject(prevObj); // Set key if (state.key !== null && (result !== null || present === true)) input.leaveKey(prevKey, state.key, result); else if (prevKey !== null) input.exitKey(prevKey); return result; }; Node.prototype._decodeGeneric = function decodeGeneric(tag, input, options) { var state = this._baseState; if (tag === 'seq' || tag === 'set') return null; if (tag === 'seqof' || tag === 'setof') return this._decodeList(input, tag, state.args[0], options); else if (/str$/.test(tag)) return this._decodeStr(input, tag, options); else if (tag === 'objid' && state.args) return this._decodeObjid(input, state.args[0], state.args[1], options); else if (tag === 'objid') return this._decodeObjid(input, null, null, options); else if (tag === 'gentime' || tag === 'utctime') return this._decodeTime(input, tag, options); else if (tag === 'null_') return this._decodeNull(input, options); else if (tag === 'bool') return this._decodeBool(input, options); else if (tag === 'objDesc') return this._decodeStr(input, tag, options); else if (tag === 'int' || tag === 'enum') return this._decodeInt(input, state.args && state.args[0], options); if (state.use !== null) { return this._getUse(state.use, input._reporterState.obj) ._decode(input, options); } else { return input.error('unknown tag: ' + tag); } }; Node.prototype._getUse = function _getUse(entity, obj) { var state = this._baseState; // Create altered use decoder if implicit is set state.useDecoder = this._use(entity, obj); assert(state.useDecoder._baseState.parent === null); state.useDecoder = state.useDecoder._baseState.children[0]; if (state.implicit !== state.useDecoder._baseState.implicit) { state.useDecoder = state.useDecoder.clone(); state.useDecoder._baseState.implicit = state.implicit; } return state.useDecoder; }; Node.prototype._decodeChoice = function decodeChoice(input, options) { var state = this._baseState; var result = null; var match = false; Object.keys(state.choice).some(function(key) { var save = input.save(); var node = state.choice[key]; try { var value = node._decode(input, options); if (input.isError(value)) return false; result = { type: key, value: value }; match = true; } catch (e) { input.restore(save); return false; } return true; }, this); if (!match) return input.error('Choice not matched'); return result; }; // // Encoding // Node.prototype._createEncoderBuffer = function createEncoderBuffer(data) { return new EncoderBuffer(data, this.reporter); }; Node.prototype._encode = function encode(data, reporter, parent) { var state = this._baseState; if (state['default'] !== null && state['default'] === data) return; var result = this._encodeValue(data, reporter, parent); if (result === undefined) return; if (this._skipDefault(result, reporter, parent)) return; return result; }; Node.prototype._encodeValue = function encode(data, reporter, parent) { var state = this._baseState; // Decode root node if (state.parent === null) return state.children[0]._encode(data, reporter || new Reporter()); var result = null; // Set reporter to share it with a child class this.reporter = reporter; // Check if data is there if (state.optional && data === undefined) { if (state['default'] !== null) data = state['default'] else return; } // Encode children first var content = null; var primitive = false; if (state.any) { // Anything that was given is translated to buffer result = this._createEncoderBuffer(data); } else if (state.choice) { result = this._encodeChoice(data, reporter); } else if (state.contains) { content = this._getUse(state.contains, parent)._encode(data, reporter); primitive = true; } else if (state.children) { content = state.children.map(function(child) { if (child._baseState.tag === 'null_') return child._encode(null, reporter, data); if (child._baseState.key === null) return reporter.error('Child should have a key'); var prevKey = reporter.enterKey(child._baseState.key); if (typeof data !== 'object') return reporter.error('Child expected, but input is not object'); var res = child._encode(data[child._baseState.key], reporter, data); reporter.leaveKey(prevKey); return res; }, this).filter(function(child) { return child; }); content = this._createEncoderBuffer(content); } else { if (state.tag === 'seqof' || state.tag === 'setof') { // TODO(indutny): this should be thrown on DSL level if (!(state.args && state.args.length === 1)) return reporter.error('Too many args for : ' + state.tag); if (!Array.isArray(data)) return reporter.error('seqof/setof, but data is not Array'); var child = this.clone(); child._baseState.implicit = null; content = this._createEncoderBuffer(data.map(function(item) { var state = this._baseState; return this._getUse(state.args[0], data)._encode(item, reporter); }, child)); } else if (state.use !== null) { result = this._getUse(state.use, parent)._encode(data, reporter); } else { content = this._encodePrimitive(state.tag, data); primitive = true; } } // Encode data itself var result; if (!state.any && state.choice === null) { var tag = state.implicit !== null ? state.implicit : state.tag; var cls = state.implicit === null ? 'universal' : 'context'; if (tag === null) { if (state.use === null) reporter.error('Tag could be omitted only for .use()'); } else { if (state.use === null) result = this._encodeComposite(tag, primitive, cls, content); } } // Wrap in explicit if (state.explicit !== null) result = this._encodeComposite(state.explicit, false, 'context', result); return result; }; Node.prototype._encodeChoice = function encodeChoice(data, reporter) { var state = this._baseState; var node = state.choice[data.type]; if (!node) { assert( false, data.type + ' not found in ' + JSON.stringify(Object.keys(state.choice))); } return node._encode(data.value, reporter); }; Node.prototype._encodePrimitive = function encodePrimitive(tag, data) { var state = this._baseState; if (/str$/.test(tag)) return this._encodeStr(data, tag); else if (tag === 'objid' && state.args) return this._encodeObjid(data, state.reverseArgs[0], state.args[1]); else if (tag === 'objid') return this._encodeObjid(data, null, null); else if (tag === 'gentime' || tag === 'utctime') return this._encodeTime(data, tag); else if (tag === 'null_') return this._encodeNull(); else if (tag === 'int' || tag === 'enum') return this._encodeInt(data, state.args && state.reverseArgs[0]); else if (tag === 'bool') return this._encodeBool(data); else if (tag === 'objDesc') return this._encodeStr(data, tag); else throw new Error('Unsupported tag: ' + tag); }; Node.prototype._isNumstr = function isNumstr(str) { return /^[0-9 ]*$/.test(str); }; Node.prototype._isPrintstr = function isPrintstr(str) { return /^[A-Za-z0-9 '\(\)\+,\-\.\/:=\?]*$/.test(str); }; },{"../base":35,"minimalistic-assert":176}],37:[function(require,module,exports){ var inherits = require('inherits'); function Reporter(options) { this._reporterState = { obj: null, path: [], options: options || {}, errors: [] }; } exports.Reporter = Reporter; Reporter.prototype.isError = function isError(obj) { return obj instanceof ReporterError; }; Reporter.prototype.save = function save() { var state = this._reporterState; return { obj: state.obj, pathLen: state.path.length }; }; Reporter.prototype.restore = function restore(data) { var state = this._reporterState; state.obj = data.obj; state.path = state.path.slice(0, data.pathLen); }; Reporter.prototype.enterKey = function enterKey(key) { return this._reporterState.path.push(key); }; Reporter.prototype.exitKey = function exitKey(index) { var state = this._reporterState; state.path = state.path.slice(0, index - 1); }; Reporter.prototype.leaveKey = function leaveKey(index, key, value) { var state = this._reporterState; this.exitKey(index); if (state.obj !== null) state.obj[key] = value; }; Reporter.prototype.path = function path() { return this._reporterState.path.join('/'); }; Reporter.prototype.enterObject = function enterObject() { var state = this._reporterState; var prev = state.obj; state.obj = {}; return prev; }; Reporter.prototype.leaveObject = function leaveObject(prev) { var state = this._reporterState; var now = state.obj; state.obj = prev; return now; }; Reporter.prototype.error = function error(msg) { var err; var state = this._reporterState; var inherited = msg instanceof ReporterError; if (inherited) { err = msg; } else { err = new ReporterError(state.path.map(function(elem) { return '[' + JSON.stringify(elem) + ']'; }).join(''), msg.message || msg, msg.stack); } if (!state.options.partial) throw err; if (!inherited) state.errors.push(err); return err; }; Reporter.prototype.wrapResult = function wrapResult(result) { var state = this._reporterState; if (!state.options.partial) return result; return { result: this.isError(result) ? null : result, errors: state.errors }; }; function ReporterError(path, msg) { this.path = path; this.rethrow(msg); }; inherits(ReporterError, Error); ReporterError.prototype.rethrow = function rethrow(msg) { this.message = msg + ' at: ' + (this.path || '(shallow)'); if (Error.captureStackTrace) Error.captureStackTrace(this, ReporterError); if (!this.stack) { try { // IE only adds stack when thrown throw new Error(this.message); } catch (e) { this.stack = e.stack; } } return this; }; },{"inherits":163}],38:[function(require,module,exports){ var constants = require('../constants'); exports.tagClass = { 0: 'universal', 1: 'application', 2: 'context', 3: 'private' }; exports.tagClassByName = constants._reverse(exports.tagClass); exports.tag = { 0x00: 'end', 0x01: 'bool', 0x02: 'int', 0x03: 'bitstr', 0x04: 'octstr', 0x05: 'null_', 0x06: 'objid', 0x07: 'objDesc', 0x08: 'external', 0x09: 'real', 0x0a: 'enum', 0x0b: 'embed', 0x0c: 'utf8str', 0x0d: 'relativeOid', 0x10: 'seq', 0x11: 'set', 0x12: 'numstr', 0x13: 'printstr', 0x14: 't61str', 0x15: 'videostr', 0x16: 'ia5str', 0x17: 'utctime', 0x18: 'gentime', 0x19: 'graphstr', 0x1a: 'iso646str', 0x1b: 'genstr', 0x1c: 'unistr', 0x1d: 'charstr', 0x1e: 'bmpstr' }; exports.tagByName = constants._reverse(exports.tag); },{"../constants":39}],39:[function(require,module,exports){ var constants = exports; // Helper constants._reverse = function reverse(map) { var res = {}; Object.keys(map).forEach(function(key) { // Convert key to integer if it is stringified if ((key | 0) == key) key = key | 0; var value = map[key]; res[value] = key; }); return res; }; constants.der = require('./der'); },{"./der":38}],40:[function(require,module,exports){ var inherits = require('inherits'); var asn1 = require('../../asn1'); var base = asn1.base; var bignum = asn1.bignum; // Import DER constants var der = asn1.constants.der; function DERDecoder(entity) { this.enc = 'der'; this.name = entity.name; this.entity = entity; // Construct base tree this.tree = new DERNode(); this.tree._init(entity.body); }; module.exports = DERDecoder; DERDecoder.prototype.decode = function decode(data, options) { if (!(data instanceof base.DecoderBuffer)) data = new base.DecoderBuffer(data, options); return this.tree._decode(data, options); }; // Tree methods function DERNode(parent) { base.Node.call(this, 'der', parent); } inherits(DERNode, base.Node); DERNode.prototype._peekTag = function peekTag(buffer, tag, any) { if (buffer.isEmpty()) return false; var state = buffer.save(); var decodedTag = derDecodeTag(buffer, 'Failed to peek tag: "' + tag + '"'); if (buffer.isError(decodedTag)) return decodedTag; buffer.restore(state); return decodedTag.tag === tag || decodedTag.tagStr === tag || (decodedTag.tagStr + 'of') === tag || any; }; DERNode.prototype._decodeTag = function decodeTag(buffer, tag, any) { var decodedTag = derDecodeTag(buffer, 'Failed to decode tag of "' + tag + '"'); if (buffer.isError(decodedTag)) return decodedTag; var len = derDecodeLen(buffer, decodedTag.primitive, 'Failed to get length of "' + tag + '"'); // Failure if (buffer.isError(len)) return len; if (!any && decodedTag.tag !== tag && decodedTag.tagStr !== tag && decodedTag.tagStr + 'of' !== tag) { return buffer.error('Failed to match tag: "' + tag + '"'); } if (decodedTag.primitive || len !== null) return buffer.skip(len, 'Failed to match body of: "' + tag + '"'); // Indefinite length... find END tag var state = buffer.save(); var res = this._skipUntilEnd( buffer, 'Failed to skip indefinite length body: "' + this.tag + '"'); if (buffer.isError(res)) return res; len = buffer.offset - state.offset; buffer.restore(state); return buffer.skip(len, 'Failed to match body of: "' + tag + '"'); }; DERNode.prototype._skipUntilEnd = function skipUntilEnd(buffer, fail) { while (true) { var tag = derDecodeTag(buffer, fail); if (buffer.isError(tag)) return tag; var len = derDecodeLen(buffer, tag.primitive, fail); if (buffer.isError(len)) return len; var res; if (tag.primitive || len !== null) res = buffer.skip(len) else res = this._skipUntilEnd(buffer, fail); // Failure if (buffer.isError(res)) return res; if (tag.tagStr === 'end') break; } }; DERNode.prototype._decodeList = function decodeList(buffer, tag, decoder, options) { var result = []; while (!buffer.isEmpty()) { var possibleEnd = this._peekTag(buffer, 'end'); if (buffer.isError(possibleEnd)) return possibleEnd; var res = decoder.decode(buffer, 'der', options); if (buffer.isError(res) && possibleEnd) break; result.push(res); } return result; }; DERNode.prototype._decodeStr = function decodeStr(buffer, tag) { if (tag === 'bitstr') { var unused = buffer.readUInt8(); if (buffer.isError(unused)) return unused; return { unused: unused, data: buffer.raw() }; } else if (tag === 'bmpstr') { var raw = buffer.raw(); if (raw.length % 2 === 1) return buffer.error('Decoding of string type: bmpstr length mismatch'); var str = ''; for (var i = 0; i < raw.length / 2; i++) { str += String.fromCharCode(raw.readUInt16BE(i * 2)); } return str; } else if (tag === 'numstr') { var numstr = buffer.raw().toString('ascii'); if (!this._isNumstr(numstr)) { return buffer.error('Decoding of string type: ' + 'numstr unsupported characters'); } return numstr; } else if (tag === 'octstr') { return buffer.raw(); } else if (tag === 'objDesc') { return buffer.raw(); } else if (tag === 'printstr') { var printstr = buffer.raw().toString('ascii'); if (!this._isPrintstr(printstr)) { return buffer.error('Decoding of string type: ' + 'printstr unsupported characters'); } return printstr; } else if (/str$/.test(tag)) { return buffer.raw().toString(); } else { return buffer.error('Decoding of string type: ' + tag + ' unsupported'); } }; DERNode.prototype._decodeObjid = function decodeObjid(buffer, values, relative) { var result; var identifiers = []; var ident = 0; while (!buffer.isEmpty()) { var subident = buffer.readUInt8(); ident <<= 7; ident |= subident & 0x7f; if ((subident & 0x80) === 0) { identifiers.push(ident); ident = 0; } } if (subident & 0x80) identifiers.push(ident); var first = (identifiers[0] / 40) | 0; var second = identifiers[0] % 40; if (relative) result = identifiers; else result = [first, second].concat(identifiers.slice(1)); if (values) { var tmp = values[result.join(' ')]; if (tmp === undefined) tmp = values[result.join('.')]; if (tmp !== undefined) result = tmp; } return result; }; DERNode.prototype._decodeTime = function decodeTime(buffer, tag) { var str = buffer.raw().toString(); if (tag === 'gentime') { var year = str.slice(0, 4) | 0; var mon = str.slice(4, 6) | 0; var day = str.slice(6, 8) | 0; var hour = str.slice(8, 10) | 0; var min = str.slice(10, 12) | 0; var sec = str.slice(12, 14) | 0; } else if (tag === 'utctime') { var year = str.slice(0, 2) | 0; var mon = str.slice(2, 4) | 0; var day = str.slice(4, 6) | 0; var hour = str.slice(6, 8) | 0; var min = str.slice(8, 10) | 0; var sec = str.slice(10, 12) | 0; if (year < 70) year = 2000 + year; else year = 1900 + year; } else { return buffer.error('Decoding ' + tag + ' time is not supported yet'); } return Date.UTC(year, mon - 1, day, hour, min, sec, 0); }; DERNode.prototype._decodeNull = function decodeNull(buffer) { return null; }; DERNode.prototype._decodeBool = function decodeBool(buffer) { var res = buffer.readUInt8(); if (buffer.isError(res)) return res; else return res !== 0; }; DERNode.prototype._decodeInt = function decodeInt(buffer, values) { // Bigint, return as it is (assume big endian) var raw = buffer.raw(); var res = new bignum(raw); if (values) res = values[res.toString(10)] || res; return res; }; DERNode.prototype._use = function use(entity, obj) { if (typeof entity === 'function') entity = entity(obj); return entity._getDecoder('der').tree; }; // Utility methods function derDecodeTag(buf, fail) { var tag = buf.readUInt8(fail); if (buf.isError(tag)) return tag; var cls = der.tagClass[tag >> 6]; var primitive = (tag & 0x20) === 0; // Multi-octet tag - load if ((tag & 0x1f) === 0x1f) { var oct = tag; tag = 0; while ((oct & 0x80) === 0x80) { oct = buf.readUInt8(fail); if (buf.isError(oct)) return oct; tag <<= 7; tag |= oct & 0x7f; } } else { tag &= 0x1f; } var tagStr = der.tag[tag]; return { cls: cls, primitive: primitive, tag: tag, tagStr: tagStr }; } function derDecodeLen(buf, primitive, fail) { var len = buf.readUInt8(fail); if (buf.isError(len)) return len; // Indefinite form if (!primitive && len === 0x80) return null; // Definite form if ((len & 0x80) === 0) { // Short form return len; } // Long form var num = len & 0x7f; if (num > 4) return buf.error('length octect is too long'); len = 0; for (var i = 0; i < num; i++) { len <<= 8; var j = buf.readUInt8(fail); if (buf.isError(j)) return j; len |= j; } return len; } },{"../../asn1":32,"inherits":163}],41:[function(require,module,exports){ var decoders = exports; decoders.der = require('./der'); decoders.pem = require('./pem'); },{"./der":40,"./pem":42}],42:[function(require,module,exports){ var inherits = require('inherits'); var Buffer = require('buffer').Buffer; var DERDecoder = require('./der'); function PEMDecoder(entity) { DERDecoder.call(this, entity); this.enc = 'pem'; }; inherits(PEMDecoder, DERDecoder); module.exports = PEMDecoder; PEMDecoder.prototype.decode = function decode(data, options) { var lines = data.toString().split(/[\r\n]+/g); var label = options.label.toUpperCase(); var re = /^-----(BEGIN|END) ([^-]+)-----$/; var start = -1; var end = -1; for (var i = 0; i < lines.length; i++) { var match = lines[i].match(re); if (match === null) continue; if (match[2] !== label) continue; if (start === -1) { if (match[1] !== 'BEGIN') break; start = i; } else { if (match[1] !== 'END') break; end = i; break; } } if (start === -1 || end === -1) throw new Error('PEM section not found for: ' + label); var base64 = lines.slice(start + 1, end).join(''); // Remove excessive symbols base64.replace(/[^a-z0-9\+\/=]+/gi, ''); var input = new Buffer(base64, 'base64'); return DERDecoder.prototype.decode.call(this, input, options); }; },{"./der":40,"buffer":107,"inherits":163}],43:[function(require,module,exports){ var inherits = require('inherits'); var Buffer = require('buffer').Buffer; var asn1 = require('../../asn1'); var base = asn1.base; // Import DER constants var der = asn1.constants.der; function DEREncoder(entity) { this.enc = 'der'; this.name = entity.name; this.entity = entity; // Construct base tree this.tree = new DERNode(); this.tree._init(entity.body); }; module.exports = DEREncoder; DEREncoder.prototype.encode = function encode(data, reporter) { return this.tree._encode(data, reporter).join(); }; // Tree methods function DERNode(parent) { base.Node.call(this, 'der', parent); } inherits(DERNode, base.Node); DERNode.prototype._encodeComposite = function encodeComposite(tag, primitive, cls, content) { var encodedTag = encodeTag(tag, primitive, cls, this.reporter); // Short form if (content.length < 0x80) { var header = new Buffer(2); header[0] = encodedTag; header[1] = content.length; return this._createEncoderBuffer([ header, content ]); } // Long form // Count octets required to store length var lenOctets = 1; for (var i = content.length; i >= 0x100; i >>= 8) lenOctets++; var header = new Buffer(1 + 1 + lenOctets); header[0] = encodedTag; header[1] = 0x80 | lenOctets; for (var i = 1 + lenOctets, j = content.length; j > 0; i--, j >>= 8) header[i] = j & 0xff; return this._createEncoderBuffer([ header, content ]); }; DERNode.prototype._encodeStr = function encodeStr(str, tag) { if (tag === 'bitstr') { return this._createEncoderBuffer([ str.unused | 0, str.data ]); } else if (tag === 'bmpstr') { var buf = new Buffer(str.length * 2); for (var i = 0; i < str.length; i++) { buf.writeUInt16BE(str.charCodeAt(i), i * 2); } return this._createEncoderBuffer(buf); } else if (tag === 'numstr') { if (!this._isNumstr(str)) { return this.reporter.error('Encoding of string type: numstr supports ' + 'only digits and space'); } return this._createEncoderBuffer(str); } else if (tag === 'printstr') { if (!this._isPrintstr(str)) { return this.reporter.error('Encoding of string type: printstr supports ' + 'only latin upper and lower case letters, ' + 'digits, space, apostrophe, left and rigth ' + 'parenthesis, plus sign, comma, hyphen, ' + 'dot, slash, colon, equal sign, ' + 'question mark'); } return this._createEncoderBuffer(str); } else if (/str$/.test(tag)) { return this._createEncoderBuffer(str); } else if (tag === 'objDesc') { return this._createEncoderBuffer(str); } else { return this.reporter.error('Encoding of string type: ' + tag + ' unsupported'); } }; DERNode.prototype._encodeObjid = function encodeObjid(id, values, relative) { if (typeof id === 'string') { if (!values) return this.reporter.error('string objid given, but no values map found'); if (!values.hasOwnProperty(id)) return this.reporter.error('objid not found in values map'); id = values[id].split(/[\s\.]+/g); for (var i = 0; i < id.length; i++) id[i] |= 0; } else if (Array.isArray(id)) { id = id.slice(); for (var i = 0; i < id.length; i++) id[i] |= 0; } if (!Array.isArray(id)) { return this.reporter.error('objid() should be either array or string, ' + 'got: ' + JSON.stringify(id)); } if (!relative) { if (id[1] >= 40) return this.reporter.error('Second objid identifier OOB'); id.splice(0, 2, id[0] * 40 + id[1]); } // Count number of octets var size = 0; for (var i = 0; i < id.length; i++) { var ident = id[i]; for (size++; ident >= 0x80; ident >>= 7) size++; } var objid = new Buffer(size); var offset = objid.length - 1; for (var i = id.length - 1; i >= 0; i--) { var ident = id[i]; objid[offset--] = ident & 0x7f; while ((ident >>= 7) > 0) objid[offset--] = 0x80 | (ident & 0x7f); } return this._createEncoderBuffer(objid); }; function two(num) { if (num < 10) return '0' + num; else return num; } DERNode.prototype._encodeTime = function encodeTime(time, tag) { var str; var date = new Date(time); if (tag === 'gentime') { str = [ two(date.getFullYear()), two(date.getUTCMonth() + 1), two(date.getUTCDate()), two(date.getUTCHours()), two(date.getUTCMinutes()), two(date.getUTCSeconds()), 'Z' ].join(''); } else if (tag === 'utctime') { str = [ two(date.getFullYear() % 100), two(date.getUTCMonth() + 1), two(date.getUTCDate()), two(date.getUTCHours()), two(date.getUTCMinutes()), two(date.getUTCSeconds()), 'Z' ].join(''); } else { this.reporter.error('Encoding ' + tag + ' time is not supported yet'); } return this._encodeStr(str, 'octstr'); }; DERNode.prototype._encodeNull = function encodeNull() { return this._createEncoderBuffer(''); }; DERNode.prototype._encodeInt = function encodeInt(num, values) { if (typeof num === 'string') { if (!values) return this.reporter.error('String int or enum given, but no values map'); if (!values.hasOwnProperty(num)) { return this.reporter.error('Values map doesn\'t contain: ' + JSON.stringify(num)); } num = values[num]; } // Bignum, assume big endian if (typeof num !== 'number' && !Buffer.isBuffer(num)) { var numArray = num.toArray(); if (!num.sign && numArray[0] & 0x80) { numArray.unshift(0); } num = new Buffer(numArray); } if (Buffer.isBuffer(num)) { var size = num.length; if (num.length === 0) size++; var out = new Buffer(size); num.copy(out); if (num.length === 0) out[0] = 0 return this._createEncoderBuffer(out); } if (num < 0x80) return this._createEncoderBuffer(num); if (num < 0x100) return this._createEncoderBuffer([0, num]); var size = 1; for (var i = num; i >= 0x100; i >>= 8) size++; var out = new Array(size); for (var i = out.length - 1; i >= 0; i--) { out[i] = num & 0xff; num >>= 8; } if(out[0] & 0x80) { out.unshift(0); } return this._createEncoderBuffer(new Buffer(out)); }; DERNode.prototype._encodeBool = function encodeBool(value) { return this._createEncoderBuffer(value ? 0xff : 0); }; DERNode.prototype._use = function use(entity, obj) { if (typeof entity === 'function') entity = entity(obj); return entity._getEncoder('der').tree; }; DERNode.prototype._skipDefault = function skipDefault(dataBuffer, reporter, parent) { var state = this._baseState; var i; if (state['default'] === null) return false; var data = dataBuffer.join(); if (state.defaultBuffer === undefined) state.defaultBuffer = this._encodeValue(state['default'], reporter, parent).join(); if (data.length !== state.defaultBuffer.length) return false; for (i=0; i < data.length; i++) if (data[i] !== state.defaultBuffer[i]) return false; return true; }; // Utility methods function encodeTag(tag, primitive, cls, reporter) { var res; if (tag === 'seqof') tag = 'seq'; else if (tag === 'setof') tag = 'set'; if (der.tagByName.hasOwnProperty(tag)) res = der.tagByName[tag]; else if (typeof tag === 'number' && (tag | 0) === tag) res = tag; else return reporter.error('Unknown tag: ' + tag); if (res >= 0x1f) return reporter.error('Multi-octet tag encoding unsupported'); if (!primitive) res |= 0x20; res |= (der.tagClassByName[cls || 'universal'] << 6); return res; } },{"../../asn1":32,"buffer":107,"inherits":163}],44:[function(require,module,exports){ var encoders = exports; encoders.der = require('./der'); encoders.pem = require('./pem'); },{"./der":43,"./pem":45}],45:[function(require,module,exports){ var inherits = require('inherits'); var DEREncoder = require('./der'); function PEMEncoder(entity) { DEREncoder.call(this, entity); this.enc = 'pem'; }; inherits(PEMEncoder, DEREncoder); module.exports = PEMEncoder; PEMEncoder.prototype.encode = function encode(data, options) { var buf = DEREncoder.prototype.encode.call(this, data); var p = buf.toString('base64'); var out = [ '-----BEGIN ' + options.label + '-----' ]; for (var i = 0; i < p.length; i += 64) out.push(p.slice(i, i + 64)); out.push('-----END ' + options.label + '-----'); return out.join('\n'); }; },{"./der":43,"inherits":163}],46:[function(require,module,exports){ module.exports = require('./lib/axios'); },{"./lib/axios":48}],47:[function(require,module,exports){ (function (process){ 'use strict'; var utils = require('./../utils'); var settle = require('./../core/settle'); var buildURL = require('./../helpers/buildURL'); var parseHeaders = require('./../helpers/parseHeaders'); var isURLSameOrigin = require('./../helpers/isURLSameOrigin'); var createError = require('../core/createError'); var btoa = (typeof window !== 'undefined' && window.btoa && window.btoa.bind(window)) || require('./../helpers/btoa'); module.exports = function xhrAdapter(config) { return new Promise(function dispatchXhrRequest(resolve, reject) { var requestData = config.data; var requestHeaders = config.headers; if (utils.isFormData(requestData)) { delete requestHeaders['Content-Type']; // Let the browser set it } var request = new XMLHttpRequest(); var loadEvent = 'onreadystatechange'; var xDomain = false; // For IE 8/9 CORS support // Only supports POST and GET calls and doesn't returns the response headers. // DON'T do this for testing b/c XMLHttpRequest is mocked, not XDomainRequest. if (process.env.NODE_ENV !== 'test' && typeof window !== 'undefined' && window.XDomainRequest && !('withCredentials' in request) && !isURLSameOrigin(config.url)) { request = new window.XDomainRequest(); loadEvent = 'onload'; xDomain = true; request.onprogress = function handleProgress() {}; request.ontimeout = function handleTimeout() {}; } // HTTP basic authentication if (config.auth) { var username = config.auth.username || ''; var password = config.auth.password || ''; requestHeaders.Authorization = 'Basic ' + btoa(username + ':' + password); } request.open(config.method.toUpperCase(), buildURL(config.url, config.params, config.paramsSerializer), true); // Set the request timeout in MS request.timeout = config.timeout; // Listen for ready state request[loadEvent] = function handleLoad() { if (!request || (request.readyState !== 4 && !xDomain)) { return; } // The request errored out and we didn't get a response, this will be // handled by onerror instead // With one exception: request that using file: protocol, most browsers // will return status as 0 even though it's a successful request if (request.status === 0 && !(request.responseURL && request.responseURL.indexOf('file:') === 0)) { return; } // Prepare the response var responseHeaders = 'getAllResponseHeaders' in request ? parseHeaders(request.getAllResponseHeaders()) : null; var responseData = !config.responseType || config.responseType === 'text' ? request.responseText : request.response; var response = { data: responseData, // IE sends 1223 instead of 204 (https://github.com/axios/axios/issues/201) status: request.status === 1223 ? 204 : request.status, statusText: request.status === 1223 ? 'No Content' : request.statusText, headers: responseHeaders, config: config, request: request }; settle(resolve, reject, response); // Clean up request request = null; }; // Handle low level network errors request.onerror = function handleError() { // Real errors are hidden from us by the browser // onerror should only fire if it's a network error reject(createError('Network Error', config, null, request)); // Clean up request request = null; }; // Handle timeout request.ontimeout = function handleTimeout() { reject(createError('timeout of ' + config.timeout + 'ms exceeded', config, 'ECONNABORTED', request)); // Clean up request request = null; }; // Add xsrf header // This is only done if running in a standard browser environment. // Specifically not if we're in a web worker, or react-native. if (utils.isStandardBrowserEnv()) { var cookies = require('./../helpers/cookies'); // Add xsrf header var xsrfValue = (config.withCredentials || isURLSameOrigin(config.url)) && config.xsrfCookieName ? cookies.read(config.xsrfCookieName) : undefined; if (xsrfValue) { requestHeaders[config.xsrfHeaderName] = xsrfValue; } } // Add headers to the request if ('setRequestHeader' in request) { utils.forEach(requestHeaders, function setRequestHeader(val, key) { if (typeof requestData === 'undefined' && key.toLowerCase() === 'content-type') { // Remove Content-Type if data is undefined delete requestHeaders[key]; } else { // Otherwise add header to the request request.setRequestHeader(key, val); } }); } // Add withCredentials to request if needed if (config.withCredentials) { request.withCredentials = true; } // Add responseType to request if needed if (config.responseType) { try { request.responseType = config.responseType; } catch (e) { // Expected DOMException thrown by browsers not compatible XMLHttpRequest Level 2. // But, this can be suppressed for 'json' type as it can be parsed by default 'transformResponse' function. if (config.responseType !== 'json') { throw e; } } } // Handle progress if needed if (typeof config.onDownloadProgress === 'function') { request.addEventListener('progress', config.onDownloadProgress); } // Not all browsers support upload events if (typeof config.onUploadProgress === 'function' && request.upload) { request.upload.addEventListener('progress', config.onUploadProgress); } if (config.cancelToken) { // Handle cancellation config.cancelToken.promise.then(function onCanceled(cancel) { if (!request) { return; } request.abort(); reject(cancel); // Clean up request request = null; }); } if (requestData === undefined) { requestData = null; } // Send the request request.send(requestData); }); }; }).call(this,require('_process')) },{"../core/createError":54,"./../core/settle":57,"./../helpers/btoa":61,"./../helpers/buildURL":62,"./../helpers/cookies":64,"./../helpers/isURLSameOrigin":66,"./../helpers/parseHeaders":68,"./../utils":70,"_process":190}],48:[function(require,module,exports){ 'use strict'; var utils = require('./utils'); var bind = require('./helpers/bind'); var Axios = require('./core/Axios'); var defaults = require('./defaults'); /** * Create an instance of Axios * * @param {Object} defaultConfig The default config for the instance * @return {Axios} A new instance of Axios */ function createInstance(defaultConfig) { var context = new Axios(defaultConfig); var instance = bind(Axios.prototype.request, context); // Copy axios.prototype to instance utils.extend(instance, Axios.prototype, context); // Copy context to instance utils.extend(instance, context); return instance; } // Create the default instance to be exported var axios = createInstance(defaults); // Expose Axios class to allow class inheritance axios.Axios = Axios; // Factory for creating new instances axios.create = function create(instanceConfig) { return createInstance(utils.merge(defaults, instanceConfig)); }; // Expose Cancel & CancelToken axios.Cancel = require('./cancel/Cancel'); axios.CancelToken = require('./cancel/CancelToken'); axios.isCancel = require('./cancel/isCancel'); // Expose all/spread axios.all = function all(promises) { return Promise.all(promises); }; axios.spread = require('./helpers/spread'); module.exports = axios; // Allow use of default import syntax in TypeScript module.exports.default = axios; },{"./cancel/Cancel":49,"./cancel/CancelToken":50,"./cancel/isCancel":51,"./core/Axios":52,"./defaults":59,"./helpers/bind":60,"./helpers/spread":69,"./utils":70}],49:[function(require,module,exports){ 'use strict'; /** * A `Cancel` is an object that is thrown when an operation is canceled. * * @class * @param {string=} message The message. */ function Cancel(message) { this.message = message; } Cancel.prototype.toString = function toString() { return 'Cancel' + (this.message ? ': ' + this.message : ''); }; Cancel.prototype.__CANCEL__ = true; module.exports = Cancel; },{}],50:[function(require,module,exports){ 'use strict'; var Cancel = require('./Cancel'); /** * A `CancelToken` is an object that can be used to request cancellation of an operation. * * @class * @param {Function} executor The executor function. */ function CancelToken(executor) { if (typeof executor !== 'function') { throw new TypeError('executor must be a function.'); } var resolvePromise; this.promise = new Promise(function promiseExecutor(resolve) { resolvePromise = resolve; }); var token = this; executor(function cancel(message) { if (token.reason) { // Cancellation has already been requested return; } token.reason = new Cancel(message); resolvePromise(token.reason); }); } /** * Throws a `Cancel` if cancellation has been requested. */ CancelToken.prototype.throwIfRequested = function throwIfRequested() { if (this.reason) { throw this.reason; } }; /** * Returns an object that contains a new `CancelToken` and a function that, when called, * cancels the `CancelToken`. */ CancelToken.source = function source() { var cancel; var token = new CancelToken(function executor(c) { cancel = c; }); return { token: token, cancel: cancel }; }; module.exports = CancelToken; },{"./Cancel":49}],51:[function(require,module,exports){ 'use strict'; module.exports = function isCancel(value) { return !!(value && value.__CANCEL__); }; },{}],52:[function(require,module,exports){ 'use strict'; var defaults = require('./../defaults'); var utils = require('./../utils'); var InterceptorManager = require('./InterceptorManager'); var dispatchRequest = require('./dispatchRequest'); /** * Create a new instance of Axios * * @param {Object} instanceConfig The default config for the instance */ function Axios(instanceConfig) { this.defaults = instanceConfig; this.interceptors = { request: new InterceptorManager(), response: new InterceptorManager() }; } /** * Dispatch a request * * @param {Object} config The config specific for this request (merged with this.defaults) */ Axios.prototype.request = function request(config) { /*eslint no-param-reassign:0*/ // Allow for axios('example/url'[, config]) a la fetch API if (typeof config === 'string') { config = utils.merge({ url: arguments[0] }, arguments[1]); } config = utils.merge(defaults, {method: 'get'}, this.defaults, config); config.method = config.method.toLowerCase(); // Hook up interceptors middleware var chain = [dispatchRequest, undefined]; var promise = Promise.resolve(config); this.interceptors.request.forEach(function unshiftRequestInterceptors(interceptor) { chain.unshift(interceptor.fulfilled, interceptor.rejected); }); this.interceptors.response.forEach(function pushResponseInterceptors(interceptor) { chain.push(interceptor.fulfilled, interceptor.rejected); }); while (chain.length) { promise = promise.then(chain.shift(), chain.shift()); } return promise; }; // Provide aliases for supported request methods utils.forEach(['delete', 'get', 'head', 'options'], function forEachMethodNoData(method) { /*eslint func-names:0*/ Axios.prototype[method] = function(url, config) { return this.request(utils.merge(config || {}, { method: method, url: url })); }; }); utils.forEach(['post', 'put', 'patch'], function forEachMethodWithData(method) { /*eslint func-names:0*/ Axios.prototype[method] = function(url, data, config) { return this.request(utils.merge(config || {}, { method: method, url: url, data: data })); }; }); module.exports = Axios; },{"./../defaults":59,"./../utils":70,"./InterceptorManager":53,"./dispatchRequest":55}],53:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); function InterceptorManager() { this.handlers = []; } /** * Add a new interceptor to the stack * * @param {Function} fulfilled The function to handle `then` for a `Promise` * @param {Function} rejected The function to handle `reject` for a `Promise` * * @return {Number} An ID used to remove interceptor later */ InterceptorManager.prototype.use = function use(fulfilled, rejected) { this.handlers.push({ fulfilled: fulfilled, rejected: rejected }); return this.handlers.length - 1; }; /** * Remove an interceptor from the stack * * @param {Number} id The ID that was returned by `use` */ InterceptorManager.prototype.eject = function eject(id) { if (this.handlers[id]) { this.handlers[id] = null; } }; /** * Iterate over all the registered interceptors * * This method is particularly useful for skipping over any * interceptors that may have become `null` calling `eject`. * * @param {Function} fn The function to call for each interceptor */ InterceptorManager.prototype.forEach = function forEach(fn) { utils.forEach(this.handlers, function forEachHandler(h) { if (h !== null) { fn(h); } }); }; module.exports = InterceptorManager; },{"./../utils":70}],54:[function(require,module,exports){ 'use strict'; var enhanceError = require('./enhanceError'); /** * Create an Error with the specified message, config, error code, request and response. * * @param {string} message The error message. * @param {Object} config The config. * @param {string} [code] The error code (for example, 'ECONNABORTED'). * @param {Object} [request] The request. * @param {Object} [response] The response. * @returns {Error} The created error. */ module.exports = function createError(message, config, code, request, response) { var error = new Error(message); return enhanceError(error, config, code, request, response); }; },{"./enhanceError":56}],55:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); var transformData = require('./transformData'); var isCancel = require('../cancel/isCancel'); var defaults = require('../defaults'); var isAbsoluteURL = require('./../helpers/isAbsoluteURL'); var combineURLs = require('./../helpers/combineURLs'); /** * Throws a `Cancel` if cancellation has been requested. */ function throwIfCancellationRequested(config) { if (config.cancelToken) { config.cancelToken.throwIfRequested(); } } /** * Dispatch a request to the server using the configured adapter. * * @param {object} config The config that is to be used for the request * @returns {Promise} The Promise to be fulfilled */ module.exports = function dispatchRequest(config) { throwIfCancellationRequested(config); // Support baseURL config if (config.baseURL && !isAbsoluteURL(config.url)) { config.url = combineURLs(config.baseURL, config.url); } // Ensure headers exist config.headers = config.headers || {}; // Transform request data config.data = transformData( config.data, config.headers, config.transformRequest ); // Flatten headers config.headers = utils.merge( config.headers.common || {}, config.headers[config.method] || {}, config.headers || {} ); utils.forEach( ['delete', 'get', 'head', 'post', 'put', 'patch', 'common'], function cleanHeaderConfig(method) { delete config.headers[method]; } ); var adapter = config.adapter || defaults.adapter; return adapter(config).then(function onAdapterResolution(response) { throwIfCancellationRequested(config); // Transform response data response.data = transformData( response.data, response.headers, config.transformResponse ); return response; }, function onAdapterRejection(reason) { if (!isCancel(reason)) { throwIfCancellationRequested(config); // Transform response data if (reason && reason.response) { reason.response.data = transformData( reason.response.data, reason.response.headers, config.transformResponse ); } } return Promise.reject(reason); }); }; },{"../cancel/isCancel":51,"../defaults":59,"./../helpers/combineURLs":63,"./../helpers/isAbsoluteURL":65,"./../utils":70,"./transformData":58}],56:[function(require,module,exports){ 'use strict'; /** * Update an Error with the specified config, error code, and response. * * @param {Error} error The error to update. * @param {Object} config The config. * @param {string} [code] The error code (for example, 'ECONNABORTED'). * @param {Object} [request] The request. * @param {Object} [response] The response. * @returns {Error} The error. */ module.exports = function enhanceError(error, config, code, request, response) { error.config = config; if (code) { error.code = code; } error.request = request; error.response = response; return error; }; },{}],57:[function(require,module,exports){ 'use strict'; var createError = require('./createError'); /** * Resolve or reject a Promise based on response status. * * @param {Function} resolve A function that resolves the promise. * @param {Function} reject A function that rejects the promise. * @param {object} response The response. */ module.exports = function settle(resolve, reject, response) { var validateStatus = response.config.validateStatus; // Note: status is not exposed by XDomainRequest if (!response.status || !validateStatus || validateStatus(response.status)) { resolve(response); } else { reject(createError( 'Request failed with status code ' + response.status, response.config, null, response.request, response )); } }; },{"./createError":54}],58:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); /** * Transform the data for a request or a response * * @param {Object|String} data The data to be transformed * @param {Array} headers The headers for the request or response * @param {Array|Function} fns A single function or Array of functions * @returns {*} The resulting transformed data */ module.exports = function transformData(data, headers, fns) { /*eslint no-param-reassign:0*/ utils.forEach(fns, function transform(fn) { data = fn(data, headers); }); return data; }; },{"./../utils":70}],59:[function(require,module,exports){ (function (process){ 'use strict'; var utils = require('./utils'); var normalizeHeaderName = require('./helpers/normalizeHeaderName'); var DEFAULT_CONTENT_TYPE = { 'Content-Type': 'application/x-www-form-urlencoded' }; function setContentTypeIfUnset(headers, value) { if (!utils.isUndefined(headers) && utils.isUndefined(headers['Content-Type'])) { headers['Content-Type'] = value; } } function getDefaultAdapter() { var adapter; if (typeof XMLHttpRequest !== 'undefined') { // For browsers use XHR adapter adapter = require('./adapters/xhr'); } else if (typeof process !== 'undefined') { // For node use HTTP adapter adapter = require('./adapters/http'); } return adapter; } var defaults = { adapter: getDefaultAdapter(), transformRequest: [function transformRequest(data, headers) { normalizeHeaderName(headers, 'Content-Type'); if (utils.isFormData(data) || utils.isArrayBuffer(data) || utils.isBuffer(data) || utils.isStream(data) || utils.isFile(data) || utils.isBlob(data) ) { return data; } if (utils.isArrayBufferView(data)) { return data.buffer; } if (utils.isURLSearchParams(data)) { setContentTypeIfUnset(headers, 'application/x-www-form-urlencoded;charset=utf-8'); return data.toString(); } if (utils.isObject(data)) { setContentTypeIfUnset(headers, 'application/json;charset=utf-8'); return JSON.stringify(data); } return data; }], transformResponse: [function transformResponse(data) { /*eslint no-param-reassign:0*/ if (typeof data === 'string') { try { data = JSON.parse(data); } catch (e) { /* Ignore */ } } return data; }], /** * A timeout in milliseconds to abort a request. If set to 0 (default) a * timeout is not created. */ timeout: 0, xsrfCookieName: 'XSRF-TOKEN', xsrfHeaderName: 'X-XSRF-TOKEN', maxContentLength: -1, validateStatus: function validateStatus(status) { return status >= 200 && status < 300; } }; defaults.headers = { common: { 'Accept': 'application/json, text/plain, */*' } }; utils.forEach(['delete', 'get', 'head'], function forEachMethodNoData(method) { defaults.headers[method] = {}; }); utils.forEach(['post', 'put', 'patch'], function forEachMethodWithData(method) { defaults.headers[method] = utils.merge(DEFAULT_CONTENT_TYPE); }); module.exports = defaults; }).call(this,require('_process')) },{"./adapters/http":47,"./adapters/xhr":47,"./helpers/normalizeHeaderName":67,"./utils":70,"_process":190}],60:[function(require,module,exports){ 'use strict'; module.exports = function bind(fn, thisArg) { return function wrap() { var args = new Array(arguments.length); for (var i = 0; i < args.length; i++) { args[i] = arguments[i]; } return fn.apply(thisArg, args); }; }; },{}],61:[function(require,module,exports){ 'use strict'; // btoa polyfill for IE<10 courtesy https://github.com/davidchambers/Base64.js var chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/='; function E() { this.message = 'String contains an invalid character'; } E.prototype = new Error; E.prototype.code = 5; E.prototype.name = 'InvalidCharacterError'; function btoa(input) { var str = String(input); var output = ''; for ( // initialize result and counter var block, charCode, idx = 0, map = chars; // if the next str index does not exist: // change the mapping table to "=" // check if d has no fractional digits str.charAt(idx | 0) || (map = '=', idx % 1); // "8 - idx % 1 * 8" generates the sequence 2, 4, 6, 8 output += map.charAt(63 & block >> 8 - idx % 1 * 8) ) { charCode = str.charCodeAt(idx += 3 / 4); if (charCode > 0xFF) { throw new E(); } block = block << 8 | charCode; } return output; } module.exports = btoa; },{}],62:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); function encode(val) { return encodeURIComponent(val). replace(/%40/gi, '@'). replace(/%3A/gi, ':'). replace(/%24/g, '$'). replace(/%2C/gi, ','). replace(/%20/g, '+'). replace(/%5B/gi, '['). replace(/%5D/gi, ']'); } /** * Build a URL by appending params to the end * * @param {string} url The base of the url (e.g., http://www.google.com) * @param {object} [params] The params to be appended * @returns {string} The formatted url */ module.exports = function buildURL(url, params, paramsSerializer) { /*eslint no-param-reassign:0*/ if (!params) { return url; } var serializedParams; if (paramsSerializer) { serializedParams = paramsSerializer(params); } else if (utils.isURLSearchParams(params)) { serializedParams = params.toString(); } else { var parts = []; utils.forEach(params, function serialize(val, key) { if (val === null || typeof val === 'undefined') { return; } if (utils.isArray(val)) { key = key + '[]'; } else { val = [val]; } utils.forEach(val, function parseValue(v) { if (utils.isDate(v)) { v = v.toISOString(); } else if (utils.isObject(v)) { v = JSON.stringify(v); } parts.push(encode(key) + '=' + encode(v)); }); }); serializedParams = parts.join('&'); } if (serializedParams) { url += (url.indexOf('?') === -1 ? '?' : '&') + serializedParams; } return url; }; },{"./../utils":70}],63:[function(require,module,exports){ 'use strict'; /** * Creates a new URL by combining the specified URLs * * @param {string} baseURL The base URL * @param {string} relativeURL The relative URL * @returns {string} The combined URL */ module.exports = function combineURLs(baseURL, relativeURL) { return relativeURL ? baseURL.replace(/\/+$/, '') + '/' + relativeURL.replace(/^\/+/, '') : baseURL; }; },{}],64:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); module.exports = ( utils.isStandardBrowserEnv() ? // Standard browser envs support document.cookie (function standardBrowserEnv() { return { write: function write(name, value, expires, path, domain, secure) { var cookie = []; cookie.push(name + '=' + encodeURIComponent(value)); if (utils.isNumber(expires)) { cookie.push('expires=' + new Date(expires).toGMTString()); } if (utils.isString(path)) { cookie.push('path=' + path); } if (utils.isString(domain)) { cookie.push('domain=' + domain); } if (secure === true) { cookie.push('secure'); } document.cookie = cookie.join('; '); }, read: function read(name) { var match = document.cookie.match(new RegExp('(^|;\\s*)(' + name + ')=([^;]*)')); return (match ? decodeURIComponent(match[3]) : null); }, remove: function remove(name) { this.write(name, '', Date.now() - 86400000); } }; })() : // Non standard browser env (web workers, react-native) lack needed support. (function nonStandardBrowserEnv() { return { write: function write() {}, read: function read() { return null; }, remove: function remove() {} }; })() ); },{"./../utils":70}],65:[function(require,module,exports){ 'use strict'; /** * Determines whether the specified URL is absolute * * @param {string} url The URL to test * @returns {boolean} True if the specified URL is absolute, otherwise false */ module.exports = function isAbsoluteURL(url) { // A URL is considered absolute if it begins with "://" or "//" (protocol-relative URL). // RFC 3986 defines scheme name as a sequence of characters beginning with a letter and followed // by any combination of letters, digits, plus, period, or hyphen. return /^([a-z][a-z\d\+\-\.]*:)?\/\//i.test(url); }; },{}],66:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); module.exports = ( utils.isStandardBrowserEnv() ? // Standard browser envs have full support of the APIs needed to test // whether the request URL is of the same origin as current location. (function standardBrowserEnv() { var msie = /(msie|trident)/i.test(navigator.userAgent); var urlParsingNode = document.createElement('a'); var originURL; /** * Parse a URL to discover it's components * * @param {String} url The URL to be parsed * @returns {Object} */ function resolveURL(url) { var href = url; if (msie) { // IE needs attribute set twice to normalize properties urlParsingNode.setAttribute('href', href); href = urlParsingNode.href; } urlParsingNode.setAttribute('href', href); // urlParsingNode provides the UrlUtils interface - http://url.spec.whatwg.org/#urlutils return { href: urlParsingNode.href, protocol: urlParsingNode.protocol ? urlParsingNode.protocol.replace(/:$/, '') : '', host: urlParsingNode.host, search: urlParsingNode.search ? urlParsingNode.search.replace(/^\?/, '') : '', hash: urlParsingNode.hash ? urlParsingNode.hash.replace(/^#/, '') : '', hostname: urlParsingNode.hostname, port: urlParsingNode.port, pathname: (urlParsingNode.pathname.charAt(0) === '/') ? urlParsingNode.pathname : '/' + urlParsingNode.pathname }; } originURL = resolveURL(window.location.href); /** * Determine if a URL shares the same origin as the current location * * @param {String} requestURL The URL to test * @returns {boolean} True if URL shares the same origin, otherwise false */ return function isURLSameOrigin(requestURL) { var parsed = (utils.isString(requestURL)) ? resolveURL(requestURL) : requestURL; return (parsed.protocol === originURL.protocol && parsed.host === originURL.host); }; })() : // Non standard browser envs (web workers, react-native) lack needed support. (function nonStandardBrowserEnv() { return function isURLSameOrigin() { return true; }; })() ); },{"./../utils":70}],67:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); module.exports = function normalizeHeaderName(headers, normalizedName) { utils.forEach(headers, function processHeader(value, name) { if (name !== normalizedName && name.toUpperCase() === normalizedName.toUpperCase()) { headers[normalizedName] = value; delete headers[name]; } }); }; },{"../utils":70}],68:[function(require,module,exports){ 'use strict'; var utils = require('./../utils'); // Headers whose duplicates are ignored by node // c.f. https://nodejs.org/api/http.html#http_message_headers var ignoreDuplicateOf = [ 'age', 'authorization', 'content-length', 'content-type', 'etag', 'expires', 'from', 'host', 'if-modified-since', 'if-unmodified-since', 'last-modified', 'location', 'max-forwards', 'proxy-authorization', 'referer', 'retry-after', 'user-agent' ]; /** * Parse headers into an object * * ``` * Date: Wed, 27 Aug 2014 08:58:49 GMT * Content-Type: application/json * Connection: keep-alive * Transfer-Encoding: chunked * ``` * * @param {String} headers Headers needing to be parsed * @returns {Object} Headers parsed into an object */ module.exports = function parseHeaders(headers) { var parsed = {}; var key; var val; var i; if (!headers) { return parsed; } utils.forEach(headers.split('\n'), function parser(line) { i = line.indexOf(':'); key = utils.trim(line.substr(0, i)).toLowerCase(); val = utils.trim(line.substr(i + 1)); if (key) { if (parsed[key] && ignoreDuplicateOf.indexOf(key) >= 0) { return; } if (key === 'set-cookie') { parsed[key] = (parsed[key] ? parsed[key] : []).concat([val]); } else { parsed[key] = parsed[key] ? parsed[key] + ', ' + val : val; } } }); return parsed; }; },{"./../utils":70}],69:[function(require,module,exports){ 'use strict'; /** * Syntactic sugar for invoking a function and expanding an array for arguments. * * Common use case would be to use `Function.prototype.apply`. * * ```js * function f(x, y, z) {} * var args = [1, 2, 3]; * f.apply(null, args); * ``` * * With `spread` this example can be re-written. * * ```js * spread(function(x, y, z) {})([1, 2, 3]); * ``` * * @param {Function} callback * @returns {Function} */ module.exports = function spread(callback) { return function wrap(arr) { return callback.apply(null, arr); }; }; },{}],70:[function(require,module,exports){ 'use strict'; var bind = require('./helpers/bind'); var isBuffer = require('is-buffer'); /*global toString:true*/ // utils is a library of generic helper functions non-specific to axios var toString = Object.prototype.toString; /** * Determine if a value is an Array * * @param {Object} val The value to test * @returns {boolean} True if value is an Array, otherwise false */ function isArray(val) { return toString.call(val) === '[object Array]'; } /** * Determine if a value is an ArrayBuffer * * @param {Object} val The value to test * @returns {boolean} True if value is an ArrayBuffer, otherwise false */ function isArrayBuffer(val) { return toString.call(val) === '[object ArrayBuffer]'; } /** * Determine if a value is a FormData * * @param {Object} val The value to test * @returns {boolean} True if value is an FormData, otherwise false */ function isFormData(val) { return (typeof FormData !== 'undefined') && (val instanceof FormData); } /** * Determine if a value is a view on an ArrayBuffer * * @param {Object} val The value to test * @returns {boolean} True if value is a view on an ArrayBuffer, otherwise false */ function isArrayBufferView(val) { var result; if ((typeof ArrayBuffer !== 'undefined') && (ArrayBuffer.isView)) { result = ArrayBuffer.isView(val); } else { result = (val) && (val.buffer) && (val.buffer instanceof ArrayBuffer); } return result; } /** * Determine if a value is a String * * @param {Object} val The value to test * @returns {boolean} True if value is a String, otherwise false */ function isString(val) { return typeof val === 'string'; } /** * Determine if a value is a Number * * @param {Object} val The value to test * @returns {boolean} True if value is a Number, otherwise false */ function isNumber(val) { return typeof val === 'number'; } /** * Determine if a value is undefined * * @param {Object} val The value to test * @returns {boolean} True if the value is undefined, otherwise false */ function isUndefined(val) { return typeof val === 'undefined'; } /** * Determine if a value is an Object * * @param {Object} val The value to test * @returns {boolean} True if value is an Object, otherwise false */ function isObject(val) { return val !== null && typeof val === 'object'; } /** * Determine if a value is a Date * * @param {Object} val The value to test * @returns {boolean} True if value is a Date, otherwise false */ function isDate(val) { return toString.call(val) === '[object Date]'; } /** * Determine if a value is a File * * @param {Object} val The value to test * @returns {boolean} True if value is a File, otherwise false */ function isFile(val) { return toString.call(val) === '[object File]'; } /** * Determine if a value is a Blob * * @param {Object} val The value to test * @returns {boolean} True if value is a Blob, otherwise false */ function isBlob(val) { return toString.call(val) === '[object Blob]'; } /** * Determine if a value is a Function * * @param {Object} val The value to test * @returns {boolean} True if value is a Function, otherwise false */ function isFunction(val) { return toString.call(val) === '[object Function]'; } /** * Determine if a value is a Stream * * @param {Object} val The value to test * @returns {boolean} True if value is a Stream, otherwise false */ function isStream(val) { return isObject(val) && isFunction(val.pipe); } /** * Determine if a value is a URLSearchParams object * * @param {Object} val The value to test * @returns {boolean} True if value is a URLSearchParams object, otherwise false */ function isURLSearchParams(val) { return typeof URLSearchParams !== 'undefined' && val instanceof URLSearchParams; } /** * Trim excess whitespace off the beginning and end of a string * * @param {String} str The String to trim * @returns {String} The String freed of excess whitespace */ function trim(str) { return str.replace(/^\s*/, '').replace(/\s*$/, ''); } /** * Determine if we're running in a standard browser environment * * This allows axios to run in a web worker, and react-native. * Both environments support XMLHttpRequest, but not fully standard globals. * * web workers: * typeof window -> undefined * typeof document -> undefined * * react-native: * navigator.product -> 'ReactNative' */ function isStandardBrowserEnv() { if (typeof navigator !== 'undefined' && navigator.product === 'ReactNative') { return false; } return ( typeof window !== 'undefined' && typeof document !== 'undefined' ); } /** * Iterate over an Array or an Object invoking a function for each item. * * If `obj` is an Array callback will be called passing * the value, index, and complete array for each item. * * If 'obj' is an Object callback will be called passing * the value, key, and complete object for each property. * * @param {Object|Array} obj The object to iterate * @param {Function} fn The callback to invoke for each item */ function forEach(obj, fn) { // Don't bother if no value provided if (obj === null || typeof obj === 'undefined') { return; } // Force an array if not already something iterable if (typeof obj !== 'object') { /*eslint no-param-reassign:0*/ obj = [obj]; } if (isArray(obj)) { // Iterate over array values for (var i = 0, l = obj.length; i < l; i++) { fn.call(null, obj[i], i, obj); } } else { // Iterate over object keys for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { fn.call(null, obj[key], key, obj); } } } } /** * Accepts varargs expecting each argument to be an object, then * immutably merges the properties of each object and returns result. * * When multiple objects contain the same key the later object in * the arguments list will take precedence. * * Example: * * ```js * var result = merge({foo: 123}, {foo: 456}); * console.log(result.foo); // outputs 456 * ``` * * @param {Object} obj1 Object to merge * @returns {Object} Result of all merge properties */ function merge(/* obj1, obj2, obj3, ... */) { var result = {}; function assignValue(val, key) { if (typeof result[key] === 'object' && typeof val === 'object') { result[key] = merge(result[key], val); } else { result[key] = val; } } for (var i = 0, l = arguments.length; i < l; i++) { forEach(arguments[i], assignValue); } return result; } /** * Extends object a by mutably adding to it the properties of object b. * * @param {Object} a The object to be extended * @param {Object} b The object to copy properties from * @param {Object} thisArg The object to bind function to * @return {Object} The resulting value of object a */ function extend(a, b, thisArg) { forEach(b, function assignValue(val, key) { if (thisArg && typeof val === 'function') { a[key] = bind(val, thisArg); } else { a[key] = val; } }); return a; } module.exports = { isArray: isArray, isArrayBuffer: isArrayBuffer, isBuffer: isBuffer, isFormData: isFormData, isArrayBufferView: isArrayBufferView, isString: isString, isNumber: isNumber, isObject: isObject, isUndefined: isUndefined, isDate: isDate, isFile: isFile, isBlob: isBlob, isFunction: isFunction, isStream: isStream, isURLSearchParams: isURLSearchParams, isStandardBrowserEnv: isStandardBrowserEnv, forEach: forEach, merge: merge, extend: extend, trim: trim }; },{"./helpers/bind":60,"is-buffer":164}],71:[function(require,module,exports){ // base-x encoding // Forked from https://github.com/cryptocoinjs/bs58 // Originally written by Mike Hearn for BitcoinJ // Copyright (c) 2011 Google Inc // Ported to JavaScript by Stefan Thomas // Merged Buffer refactorings from base58-native by Stephen Pair // Copyright (c) 2013 BitPay Inc var Buffer = require('safe-buffer').Buffer module.exports = function base (ALPHABET) { var ALPHABET_MAP = {} var BASE = ALPHABET.length var LEADER = ALPHABET.charAt(0) // pre-compute lookup table for (var z = 0; z < ALPHABET.length; z++) { var x = ALPHABET.charAt(z) if (ALPHABET_MAP[x] !== undefined) throw new TypeError(x + ' is ambiguous') ALPHABET_MAP[x] = z } function encode (source) { if (source.length === 0) return '' var digits = [0] for (var i = 0; i < source.length; ++i) { for (var j = 0, carry = source[i]; j < digits.length; ++j) { carry += digits[j] << 8 digits[j] = carry % BASE carry = (carry / BASE) | 0 } while (carry > 0) { digits.push(carry % BASE) carry = (carry / BASE) | 0 } } var string = '' // deal with leading zeros for (var k = 0; source[k] === 0 && k < source.length - 1; ++k) string += LEADER // convert digits to a string for (var q = digits.length - 1; q >= 0; --q) string += ALPHABET[digits[q]] return string } function decodeUnsafe (string) { if (typeof string !== 'string') throw new TypeError('Expected String') if (string.length === 0) return Buffer.allocUnsafe(0) var bytes = [0] for (var i = 0; i < string.length; i++) { var value = ALPHABET_MAP[string[i]] if (value === undefined) return for (var j = 0, carry = value; j < bytes.length; ++j) { carry += bytes[j] * BASE bytes[j] = carry & 0xff carry >>= 8 } while (carry > 0) { bytes.push(carry & 0xff) carry >>= 8 } } // deal with leading zeros for (var k = 0; string[k] === LEADER && k < string.length - 1; ++k) { bytes.push(0) } return Buffer.from(bytes.reverse()) } function decode (string) { var buffer = decodeUnsafe(string) if (buffer) return buffer throw new Error('Non-base' + BASE + ' character') } return { encode: encode, decodeUnsafe: decodeUnsafe, decode: decode } } },{"safe-buffer":247}],72:[function(require,module,exports){ 'use strict' exports.byteLength = byteLength exports.toByteArray = toByteArray exports.fromByteArray = fromByteArray var lookup = [] var revLookup = [] var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/' for (var i = 0, len = code.length; i < len; ++i) { lookup[i] = code[i] revLookup[code.charCodeAt(i)] = i } revLookup['-'.charCodeAt(0)] = 62 revLookup['_'.charCodeAt(0)] = 63 function placeHoldersCount (b64) { var len = b64.length if (len % 4 > 0) { throw new Error('Invalid string. Length must be a multiple of 4') } // the number of equal signs (place holders) // if there are two placeholders, than the two characters before it // represent one byte // if there is only one, then the three characters before it represent 2 bytes // this is just a cheap hack to not do indexOf twice return b64[len - 2] === '=' ? 2 : b64[len - 1] === '=' ? 1 : 0 } function byteLength (b64) { // base64 is 4/3 + up to two characters of the original data return (b64.length * 3 / 4) - placeHoldersCount(b64) } function toByteArray (b64) { var i, l, tmp, placeHolders, arr var len = b64.length placeHolders = placeHoldersCount(b64) arr = new Arr((len * 3 / 4) - placeHolders) // if there are placeholders, only get up to the last complete 4 chars l = placeHolders > 0 ? len - 4 : len var L = 0 for (i = 0; i < l; i += 4) { tmp = (revLookup[b64.charCodeAt(i)] << 18) | (revLookup[b64.charCodeAt(i + 1)] << 12) | (revLookup[b64.charCodeAt(i + 2)] << 6) | revLookup[b64.charCodeAt(i + 3)] arr[L++] = (tmp >> 16) & 0xFF arr[L++] = (tmp >> 8) & 0xFF arr[L++] = tmp & 0xFF } if (placeHolders === 2) { tmp = (revLookup[b64.charCodeAt(i)] << 2) | (revLookup[b64.charCodeAt(i + 1)] >> 4) arr[L++] = tmp & 0xFF } else if (placeHolders === 1) { tmp = (revLookup[b64.charCodeAt(i)] << 10) | (revLookup[b64.charCodeAt(i + 1)] << 4) | (revLookup[b64.charCodeAt(i + 2)] >> 2) arr[L++] = (tmp >> 8) & 0xFF arr[L++] = tmp & 0xFF } return arr } function tripletToBase64 (num) { return lookup[num >> 18 & 0x3F] + lookup[num >> 12 & 0x3F] + lookup[num >> 6 & 0x3F] + lookup[num & 0x3F] } function encodeChunk (uint8, start, end) { var tmp var output = [] for (var i = start; i < end; i += 3) { tmp = (uint8[i] << 16) + (uint8[i + 1] << 8) + (uint8[i + 2]) output.push(tripletToBase64(tmp)) } return output.join('') } function fromByteArray (uint8) { var tmp var len = uint8.length var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes var output = '' var parts = [] var maxChunkLength = 16383 // must be multiple of 3 // go through the array every three bytes, we'll deal with trailing stuff later for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) { parts.push(encodeChunk(uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength))) } // pad the end with zeros, but make sure to not forget the extra bytes if (extraBytes === 1) { tmp = uint8[len - 1] output += lookup[tmp >> 2] output += lookup[(tmp << 4) & 0x3F] output += '==' } else if (extraBytes === 2) { tmp = (uint8[len - 2] << 8) + (uint8[len - 1]) output += lookup[tmp >> 10] output += lookup[(tmp >> 4) & 0x3F] output += lookup[(tmp << 2) & 0x3F] output += '=' } parts.push(output) return parts.join('') } },{}],73:[function(require,module,exports){ /*! bignumber.js v5.0.0 https://github.com/MikeMcl/bignumber.js/LICENCE */ ;(function (globalObj) { 'use strict'; /* bignumber.js v5.0.0 A JavaScript library for arbitrary-precision arithmetic. https://github.com/MikeMcl/bignumber.js Copyright (c) 2017 Michael Mclaughlin MIT Expat Licence */ var BigNumber, isNumeric = /^-?(\d+(\.\d*)?|\.\d+)(e[+-]?\d+)?$/i, mathceil = Math.ceil, mathfloor = Math.floor, notBool = ' not a boolean or binary digit', roundingMode = 'rounding mode', tooManyDigits = 'number type has more than 15 significant digits', ALPHABET = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ$_', BASE = 1e14, LOG_BASE = 14, MAX_SAFE_INTEGER = 0x1fffffffffffff, // 2^53 - 1 // MAX_INT32 = 0x7fffffff, // 2^31 - 1 POWS_TEN = [1, 10, 100, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, 1e10, 1e11, 1e12, 1e13], SQRT_BASE = 1e7, /* * The limit on the value of DECIMAL_PLACES, TO_EXP_NEG, TO_EXP_POS, MIN_EXP, MAX_EXP, and * the arguments to toExponential, toFixed, toFormat, and toPrecision, beyond which an * exception is thrown (if ERRORS is true). */ MAX = 1E9; // 0 to MAX_INT32 /* * Create and return a BigNumber constructor. */ function constructorFactory(config) { var div, parseNumeric, // id tracks the caller function, so its name can be included in error messages. id = 0, P = BigNumber.prototype, ONE = new BigNumber(1), /********************************* EDITABLE DEFAULTS **********************************/ /* * The default values below must be integers within the inclusive ranges stated. * The values can also be changed at run-time using BigNumber.config. */ // The maximum number of decimal places for operations involving division. DECIMAL_PLACES = 20, // 0 to MAX /* * The rounding mode used when rounding to the above decimal places, and when using * toExponential, toFixed, toFormat and toPrecision, and round (default value). * UP 0 Away from zero. * DOWN 1 Towards zero. * CEIL 2 Towards +Infinity. * FLOOR 3 Towards -Infinity. * HALF_UP 4 Towards nearest neighbour. If equidistant, up. * HALF_DOWN 5 Towards nearest neighbour. If equidistant, down. * HALF_EVEN 6 Towards nearest neighbour. If equidistant, towards even neighbour. * HALF_CEIL 7 Towards nearest neighbour. If equidistant, towards +Infinity. * HALF_FLOOR 8 Towards nearest neighbour. If equidistant, towards -Infinity. */ ROUNDING_MODE = 4, // 0 to 8 // EXPONENTIAL_AT : [TO_EXP_NEG , TO_EXP_POS] // The exponent value at and beneath which toString returns exponential notation. // Number type: -7 TO_EXP_NEG = -7, // 0 to -MAX // The exponent value at and above which toString returns exponential notation. // Number type: 21 TO_EXP_POS = 21, // 0 to MAX // RANGE : [MIN_EXP, MAX_EXP] // The minimum exponent value, beneath which underflow to zero occurs. // Number type: -324 (5e-324) MIN_EXP = -1e7, // -1 to -MAX // The maximum exponent value, above which overflow to Infinity occurs. // Number type: 308 (1.7976931348623157e+308) // For MAX_EXP > 1e7, e.g. new BigNumber('1e100000000').plus(1) may be slow. MAX_EXP = 1e7, // 1 to MAX // Whether BigNumber Errors are ever thrown. ERRORS = true, // true or false // Change to intValidatorNoErrors if ERRORS is false. isValidInt = intValidatorWithErrors, // intValidatorWithErrors/intValidatorNoErrors // Whether to use cryptographically-secure random number generation, if available. CRYPTO = false, // true or false /* * The modulo mode used when calculating the modulus: a mod n. * The quotient (q = a / n) is calculated according to the corresponding rounding mode. * The remainder (r) is calculated as: r = a - n * q. * * UP 0 The remainder is positive if the dividend is negative, else is negative. * DOWN 1 The remainder has the same sign as the dividend. * This modulo mode is commonly known as 'truncated division' and is * equivalent to (a % n) in JavaScript. * FLOOR 3 The remainder has the same sign as the divisor (Python %). * HALF_EVEN 6 This modulo mode implements the IEEE 754 remainder function. * EUCLID 9 Euclidian division. q = sign(n) * floor(a / abs(n)). * The remainder is always positive. * * The truncated division, floored division, Euclidian division and IEEE 754 remainder * modes are commonly used for the modulus operation. * Although the other rounding modes can also be used, they may not give useful results. */ MODULO_MODE = 1, // 0 to 9 // The maximum number of significant digits of the result of the toPower operation. // If POW_PRECISION is 0, there will be unlimited significant digits. POW_PRECISION = 0, // 0 to MAX // The format specification used by the BigNumber.prototype.toFormat method. FORMAT = { decimalSeparator: '.', groupSeparator: ',', groupSize: 3, secondaryGroupSize: 0, fractionGroupSeparator: '\xA0', // non-breaking space fractionGroupSize: 0 }; /******************************************************************************************/ // CONSTRUCTOR /* * The BigNumber constructor and exported function. * Create and return a new instance of a BigNumber object. * * n {number|string|BigNumber} A numeric value. * [b] {number} The base of n. Integer, 2 to 64 inclusive. */ function BigNumber( n, b ) { var c, e, i, num, len, str, x = this; // Enable constructor usage without new. if ( !( x instanceof BigNumber ) ) { // 'BigNumber() constructor call without new: {n}' // See GitHub issue: #81. //if (ERRORS) raise( 26, 'constructor call without new', n ); return new BigNumber( n, b ); } // 'new BigNumber() base not an integer: {b}' // 'new BigNumber() base out of range: {b}' if ( b == null || !isValidInt( b, 2, 64, id, 'base' ) ) { // Duplicate. if ( n instanceof BigNumber ) { x.s = n.s; x.e = n.e; x.c = ( n = n.c ) ? n.slice() : n; id = 0; return; } if ( ( num = typeof n == 'number' ) && n * 0 == 0 ) { x.s = 1 / n < 0 ? ( n = -n, -1 ) : 1; // Fast path for integers. if ( n === ~~n ) { for ( e = 0, i = n; i >= 10; i /= 10, e++ ); x.e = e; x.c = [n]; id = 0; return; } str = n + ''; } else { if ( !isNumeric.test( str = n + '' ) ) return parseNumeric( x, str, num ); x.s = str.charCodeAt(0) === 45 ? ( str = str.slice(1), -1 ) : 1; } } else { b = b | 0; str = n + ''; // Ensure return value is rounded to DECIMAL_PLACES as with other bases. // Allow exponential notation to be used with base 10 argument. if ( b == 10 ) { x = new BigNumber( n instanceof BigNumber ? n : str ); return round( x, DECIMAL_PLACES + x.e + 1, ROUNDING_MODE ); } // Avoid potential interpretation of Infinity and NaN as base 44+ values. // Any number in exponential form will fail due to the [Ee][+-]. if ( ( num = typeof n == 'number' ) && n * 0 != 0 || !( new RegExp( '^-?' + ( c = '[' + ALPHABET.slice( 0, b ) + ']+' ) + '(?:\\.' + c + ')?$',b < 37 ? 'i' : '' ) ).test(str) ) { return parseNumeric( x, str, num, b ); } if (num) { x.s = 1 / n < 0 ? ( str = str.slice(1), -1 ) : 1; if ( ERRORS && str.replace( /^0\.0*|\./, '' ).length > 15 ) { // 'new BigNumber() number type has more than 15 significant digits: {n}' raise( id, tooManyDigits, n ); } // Prevent later check for length on converted number. num = false; } else { x.s = str.charCodeAt(0) === 45 ? ( str = str.slice(1), -1 ) : 1; } str = convertBase( str, 10, b, x.s ); } // Decimal point? if ( ( e = str.indexOf('.') ) > -1 ) str = str.replace( '.', '' ); // Exponential form? if ( ( i = str.search( /e/i ) ) > 0 ) { // Determine exponent. if ( e < 0 ) e = i; e += +str.slice( i + 1 ); str = str.substring( 0, i ); } else if ( e < 0 ) { // Integer. e = str.length; } // Determine leading zeros. for ( i = 0; str.charCodeAt(i) === 48; i++ ); // Determine trailing zeros. for ( len = str.length; str.charCodeAt(--len) === 48; ); str = str.slice( i, len + 1 ); if (str) { len = str.length; // Disallow numbers with over 15 significant digits if number type. // 'new BigNumber() number type has more than 15 significant digits: {n}' if ( num && ERRORS && len > 15 && ( n > MAX_SAFE_INTEGER || n !== mathfloor(n) ) ) { raise( id, tooManyDigits, x.s * n ); } e = e - i - 1; // Overflow? if ( e > MAX_EXP ) { // Infinity. x.c = x.e = null; // Underflow? } else if ( e < MIN_EXP ) { // Zero. x.c = [ x.e = 0 ]; } else { x.e = e; x.c = []; // Transform base // e is the base 10 exponent. // i is where to slice str to get the first element of the coefficient array. i = ( e + 1 ) % LOG_BASE; if ( e < 0 ) i += LOG_BASE; if ( i < len ) { if (i) x.c.push( +str.slice( 0, i ) ); for ( len -= LOG_BASE; i < len; ) { x.c.push( +str.slice( i, i += LOG_BASE ) ); } str = str.slice(i); i = LOG_BASE - str.length; } else { i -= len; } for ( ; i--; str += '0' ); x.c.push( +str ); } } else { // Zero. x.c = [ x.e = 0 ]; } id = 0; } // CONSTRUCTOR PROPERTIES BigNumber.another = constructorFactory; BigNumber.ROUND_UP = 0; BigNumber.ROUND_DOWN = 1; BigNumber.ROUND_CEIL = 2; BigNumber.ROUND_FLOOR = 3; BigNumber.ROUND_HALF_UP = 4; BigNumber.ROUND_HALF_DOWN = 5; BigNumber.ROUND_HALF_EVEN = 6; BigNumber.ROUND_HALF_CEIL = 7; BigNumber.ROUND_HALF_FLOOR = 8; BigNumber.EUCLID = 9; /* * Configure infrequently-changing library-wide settings. * * Accept an object or an argument list, with one or many of the following properties or * parameters respectively: * * DECIMAL_PLACES {number} Integer, 0 to MAX inclusive * ROUNDING_MODE {number} Integer, 0 to 8 inclusive * EXPONENTIAL_AT {number|number[]} Integer, -MAX to MAX inclusive or * [integer -MAX to 0 incl., 0 to MAX incl.] * RANGE {number|number[]} Non-zero integer, -MAX to MAX inclusive or * [integer -MAX to -1 incl., integer 1 to MAX incl.] * ERRORS {boolean|number} true, false, 1 or 0 * CRYPTO {boolean|number} true, false, 1 or 0 * MODULO_MODE {number} 0 to 9 inclusive * POW_PRECISION {number} 0 to MAX inclusive * FORMAT {object} See BigNumber.prototype.toFormat * decimalSeparator {string} * groupSeparator {string} * groupSize {number} * secondaryGroupSize {number} * fractionGroupSeparator {string} * fractionGroupSize {number} * * (The values assigned to the above FORMAT object properties are not checked for validity.) * * E.g. * BigNumber.config(20, 4) is equivalent to * BigNumber.config({ DECIMAL_PLACES : 20, ROUNDING_MODE : 4 }) * * Ignore properties/parameters set to null or undefined. * Return an object with the properties current values. */ BigNumber.config = BigNumber.set = function () { var v, p, i = 0, r = {}, a = arguments, o = a[0], has = o && typeof o == 'object' ? function () { if ( o.hasOwnProperty(p) ) return ( v = o[p] ) != null; } : function () { if ( a.length > i ) return ( v = a[i++] ) != null; }; // DECIMAL_PLACES {number} Integer, 0 to MAX inclusive. // 'config() DECIMAL_PLACES not an integer: {v}' // 'config() DECIMAL_PLACES out of range: {v}' if ( has( p = 'DECIMAL_PLACES' ) && isValidInt( v, 0, MAX, 2, p ) ) { DECIMAL_PLACES = v | 0; } r[p] = DECIMAL_PLACES; // ROUNDING_MODE {number} Integer, 0 to 8 inclusive. // 'config() ROUNDING_MODE not an integer: {v}' // 'config() ROUNDING_MODE out of range: {v}' if ( has( p = 'ROUNDING_MODE' ) && isValidInt( v, 0, 8, 2, p ) ) { ROUNDING_MODE = v | 0; } r[p] = ROUNDING_MODE; // EXPONENTIAL_AT {number|number[]} // Integer, -MAX to MAX inclusive or [integer -MAX to 0 inclusive, 0 to MAX inclusive]. // 'config() EXPONENTIAL_AT not an integer: {v}' // 'config() EXPONENTIAL_AT out of range: {v}' if ( has( p = 'EXPONENTIAL_AT' ) ) { if ( isArray(v) ) { if ( isValidInt( v[0], -MAX, 0, 2, p ) && isValidInt( v[1], 0, MAX, 2, p ) ) { TO_EXP_NEG = v[0] | 0; TO_EXP_POS = v[1] | 0; } } else if ( isValidInt( v, -MAX, MAX, 2, p ) ) { TO_EXP_NEG = -( TO_EXP_POS = ( v < 0 ? -v : v ) | 0 ); } } r[p] = [ TO_EXP_NEG, TO_EXP_POS ]; // RANGE {number|number[]} Non-zero integer, -MAX to MAX inclusive or // [integer -MAX to -1 inclusive, integer 1 to MAX inclusive]. // 'config() RANGE not an integer: {v}' // 'config() RANGE cannot be zero: {v}' // 'config() RANGE out of range: {v}' if ( has( p = 'RANGE' ) ) { if ( isArray(v) ) { if ( isValidInt( v[0], -MAX, -1, 2, p ) && isValidInt( v[1], 1, MAX, 2, p ) ) { MIN_EXP = v[0] | 0; MAX_EXP = v[1] | 0; } } else if ( isValidInt( v, -MAX, MAX, 2, p ) ) { if ( v | 0 ) MIN_EXP = -( MAX_EXP = ( v < 0 ? -v : v ) | 0 ); else if (ERRORS) raise( 2, p + ' cannot be zero', v ); } } r[p] = [ MIN_EXP, MAX_EXP ]; // ERRORS {boolean|number} true, false, 1 or 0. // 'config() ERRORS not a boolean or binary digit: {v}' if ( has( p = 'ERRORS' ) ) { if ( v === !!v || v === 1 || v === 0 ) { id = 0; isValidInt = ( ERRORS = !!v ) ? intValidatorWithErrors : intValidatorNoErrors; } else if (ERRORS) { raise( 2, p + notBool, v ); } } r[p] = ERRORS; // CRYPTO {boolean|number} true, false, 1 or 0. // 'config() CRYPTO not a boolean or binary digit: {v}' // 'config() crypto unavailable: {crypto}' if ( has( p = 'CRYPTO' ) ) { if ( v === true || v === false || v === 1 || v === 0 ) { if (v) { v = typeof crypto == 'undefined'; if ( !v && crypto && (crypto.getRandomValues || crypto.randomBytes)) { CRYPTO = true; } else if (ERRORS) { raise( 2, 'crypto unavailable', v ? void 0 : crypto ); } else { CRYPTO = false; } } else { CRYPTO = false; } } else if (ERRORS) { raise( 2, p + notBool, v ); } } r[p] = CRYPTO; // MODULO_MODE {number} Integer, 0 to 9 inclusive. // 'config() MODULO_MODE not an integer: {v}' // 'config() MODULO_MODE out of range: {v}' if ( has( p = 'MODULO_MODE' ) && isValidInt( v, 0, 9, 2, p ) ) { MODULO_MODE = v | 0; } r[p] = MODULO_MODE; // POW_PRECISION {number} Integer, 0 to MAX inclusive. // 'config() POW_PRECISION not an integer: {v}' // 'config() POW_PRECISION out of range: {v}' if ( has( p = 'POW_PRECISION' ) && isValidInt( v, 0, MAX, 2, p ) ) { POW_PRECISION = v | 0; } r[p] = POW_PRECISION; // FORMAT {object} // 'config() FORMAT not an object: {v}' if ( has( p = 'FORMAT' ) ) { if ( typeof v == 'object' ) { FORMAT = v; } else if (ERRORS) { raise( 2, p + ' not an object', v ); } } r[p] = FORMAT; return r; }; /* * Return a new BigNumber whose value is the maximum of the arguments. * * arguments {number|string|BigNumber} */ BigNumber.max = function () { return maxOrMin( arguments, P.lt ); }; /* * Return a new BigNumber whose value is the minimum of the arguments. * * arguments {number|string|BigNumber} */ BigNumber.min = function () { return maxOrMin( arguments, P.gt ); }; /* * Return a new BigNumber with a random value equal to or greater than 0 and less than 1, * and with dp, or DECIMAL_PLACES if dp is omitted, decimal places (or less if trailing * zeros are produced). * * [dp] {number} Decimal places. Integer, 0 to MAX inclusive. * * 'random() decimal places not an integer: {dp}' * 'random() decimal places out of range: {dp}' * 'random() crypto unavailable: {crypto}' */ BigNumber.random = (function () { var pow2_53 = 0x20000000000000; // Return a 53 bit integer n, where 0 <= n < 9007199254740992. // Check if Math.random() produces more than 32 bits of randomness. // If it does, assume at least 53 bits are produced, otherwise assume at least 30 bits. // 0x40000000 is 2^30, 0x800000 is 2^23, 0x1fffff is 2^21 - 1. var random53bitInt = (Math.random() * pow2_53) & 0x1fffff ? function () { return mathfloor( Math.random() * pow2_53 ); } : function () { return ((Math.random() * 0x40000000 | 0) * 0x800000) + (Math.random() * 0x800000 | 0); }; return function (dp) { var a, b, e, k, v, i = 0, c = [], rand = new BigNumber(ONE); dp = dp == null || !isValidInt( dp, 0, MAX, 14 ) ? DECIMAL_PLACES : dp | 0; k = mathceil( dp / LOG_BASE ); if (CRYPTO) { // Browsers supporting crypto.getRandomValues. if (crypto.getRandomValues) { a = crypto.getRandomValues( new Uint32Array( k *= 2 ) ); for ( ; i < k; ) { // 53 bits: // ((Math.pow(2, 32) - 1) * Math.pow(2, 21)).toString(2) // 11111 11111111 11111111 11111111 11100000 00000000 00000000 // ((Math.pow(2, 32) - 1) >>> 11).toString(2) // 11111 11111111 11111111 // 0x20000 is 2^21. v = a[i] * 0x20000 + (a[i + 1] >>> 11); // Rejection sampling: // 0 <= v < 9007199254740992 // Probability that v >= 9e15, is // 7199254740992 / 9007199254740992 ~= 0.0008, i.e. 1 in 1251 if ( v >= 9e15 ) { b = crypto.getRandomValues( new Uint32Array(2) ); a[i] = b[0]; a[i + 1] = b[1]; } else { // 0 <= v <= 8999999999999999 // 0 <= (v % 1e14) <= 99999999999999 c.push( v % 1e14 ); i += 2; } } i = k / 2; // Node.js supporting crypto.randomBytes. } else if (crypto.randomBytes) { // buffer a = crypto.randomBytes( k *= 7 ); for ( ; i < k; ) { // 0x1000000000000 is 2^48, 0x10000000000 is 2^40 // 0x100000000 is 2^32, 0x1000000 is 2^24 // 11111 11111111 11111111 11111111 11111111 11111111 11111111 // 0 <= v < 9007199254740992 v = ( ( a[i] & 31 ) * 0x1000000000000 ) + ( a[i + 1] * 0x10000000000 ) + ( a[i + 2] * 0x100000000 ) + ( a[i + 3] * 0x1000000 ) + ( a[i + 4] << 16 ) + ( a[i + 5] << 8 ) + a[i + 6]; if ( v >= 9e15 ) { crypto.randomBytes(7).copy( a, i ); } else { // 0 <= (v % 1e14) <= 99999999999999 c.push( v % 1e14 ); i += 7; } } i = k / 7; } else { CRYPTO = false; if (ERRORS) raise( 14, 'crypto unavailable', crypto ); } } // Use Math.random. if (!CRYPTO) { for ( ; i < k; ) { v = random53bitInt(); if ( v < 9e15 ) c[i++] = v % 1e14; } } k = c[--i]; dp %= LOG_BASE; // Convert trailing digits to zeros according to dp. if ( k && dp ) { v = POWS_TEN[LOG_BASE - dp]; c[i] = mathfloor( k / v ) * v; } // Remove trailing elements which are zero. for ( ; c[i] === 0; c.pop(), i-- ); // Zero? if ( i < 0 ) { c = [ e = 0 ]; } else { // Remove leading elements which are zero and adjust exponent accordingly. for ( e = -1 ; c[0] === 0; c.splice(0, 1), e -= LOG_BASE); // Count the digits of the first element of c to determine leading zeros, and... for ( i = 1, v = c[0]; v >= 10; v /= 10, i++); // adjust the exponent accordingly. if ( i < LOG_BASE ) e -= LOG_BASE - i; } rand.e = e; rand.c = c; return rand; }; })(); // PRIVATE FUNCTIONS // Convert a numeric string of baseIn to a numeric string of baseOut. function convertBase( str, baseOut, baseIn, sign ) { var d, e, k, r, x, xc, y, i = str.indexOf( '.' ), dp = DECIMAL_PLACES, rm = ROUNDING_MODE; if ( baseIn < 37 ) str = str.toLowerCase(); // Non-integer. if ( i >= 0 ) { k = POW_PRECISION; // Unlimited precision. POW_PRECISION = 0; str = str.replace( '.', '' ); y = new BigNumber(baseIn); x = y.pow( str.length - i ); POW_PRECISION = k; // Convert str as if an integer, then restore the fraction part by dividing the // result by its base raised to a power. y.c = toBaseOut( toFixedPoint( coeffToString( x.c ), x.e ), 10, baseOut ); y.e = y.c.length; } // Convert the number as integer. xc = toBaseOut( str, baseIn, baseOut ); e = k = xc.length; // Remove trailing zeros. for ( ; xc[--k] == 0; xc.pop() ); if ( !xc[0] ) return '0'; if ( i < 0 ) { --e; } else { x.c = xc; x.e = e; // sign is needed for correct rounding. x.s = sign; x = div( x, y, dp, rm, baseOut ); xc = x.c; r = x.r; e = x.e; } d = e + dp + 1; // The rounding digit, i.e. the digit to the right of the digit that may be rounded up. i = xc[d]; k = baseOut / 2; r = r || d < 0 || xc[d + 1] != null; r = rm < 4 ? ( i != null || r ) && ( rm == 0 || rm == ( x.s < 0 ? 3 : 2 ) ) : i > k || i == k &&( rm == 4 || r || rm == 6 && xc[d - 1] & 1 || rm == ( x.s < 0 ? 8 : 7 ) ); if ( d < 1 || !xc[0] ) { // 1^-dp or 0. str = r ? toFixedPoint( '1', -dp ) : '0'; } else { xc.length = d; if (r) { // Rounding up may mean the previous digit has to be rounded up and so on. for ( --baseOut; ++xc[--d] > baseOut; ) { xc[d] = 0; if ( !d ) { ++e; xc = [1].concat(xc); } } } // Determine trailing zeros. for ( k = xc.length; !xc[--k]; ); // E.g. [4, 11, 15] becomes 4bf. for ( i = 0, str = ''; i <= k; str += ALPHABET.charAt( xc[i++] ) ); str = toFixedPoint( str, e ); } // The caller will add the sign. return str; } // Perform division in the specified base. Called by div and convertBase. div = (function () { // Assume non-zero x and k. function multiply( x, k, base ) { var m, temp, xlo, xhi, carry = 0, i = x.length, klo = k % SQRT_BASE, khi = k / SQRT_BASE | 0; for ( x = x.slice(); i--; ) { xlo = x[i] % SQRT_BASE; xhi = x[i] / SQRT_BASE | 0; m = khi * xlo + xhi * klo; temp = klo * xlo + ( ( m % SQRT_BASE ) * SQRT_BASE ) + carry; carry = ( temp / base | 0 ) + ( m / SQRT_BASE | 0 ) + khi * xhi; x[i] = temp % base; } if (carry) x = [carry].concat(x); return x; } function compare( a, b, aL, bL ) { var i, cmp; if ( aL != bL ) { cmp = aL > bL ? 1 : -1; } else { for ( i = cmp = 0; i < aL; i++ ) { if ( a[i] != b[i] ) { cmp = a[i] > b[i] ? 1 : -1; break; } } } return cmp; } function subtract( a, b, aL, base ) { var i = 0; // Subtract b from a. for ( ; aL--; ) { a[aL] -= i; i = a[aL] < b[aL] ? 1 : 0; a[aL] = i * base + a[aL] - b[aL]; } // Remove leading zeros. for ( ; !a[0] && a.length > 1; a.splice(0, 1) ); } // x: dividend, y: divisor. return function ( x, y, dp, rm, base ) { var cmp, e, i, more, n, prod, prodL, q, qc, rem, remL, rem0, xi, xL, yc0, yL, yz, s = x.s == y.s ? 1 : -1, xc = x.c, yc = y.c; // Either NaN, Infinity or 0? if ( !xc || !xc[0] || !yc || !yc[0] ) { return new BigNumber( // Return NaN if either NaN, or both Infinity or 0. !x.s || !y.s || ( xc ? yc && xc[0] == yc[0] : !yc ) ? NaN : // Return ±0 if x is ±0 or y is ±Infinity, or return ±Infinity as y is ±0. xc && xc[0] == 0 || !yc ? s * 0 : s / 0 ); } q = new BigNumber(s); qc = q.c = []; e = x.e - y.e; s = dp + e + 1; if ( !base ) { base = BASE; e = bitFloor( x.e / LOG_BASE ) - bitFloor( y.e / LOG_BASE ); s = s / LOG_BASE | 0; } // Result exponent may be one less then the current value of e. // The coefficients of the BigNumbers from convertBase may have trailing zeros. for ( i = 0; yc[i] == ( xc[i] || 0 ); i++ ); if ( yc[i] > ( xc[i] || 0 ) ) e--; if ( s < 0 ) { qc.push(1); more = true; } else { xL = xc.length; yL = yc.length; i = 0; s += 2; // Normalise xc and yc so highest order digit of yc is >= base / 2. n = mathfloor( base / ( yc[0] + 1 ) ); // Not necessary, but to handle odd bases where yc[0] == ( base / 2 ) - 1. // if ( n > 1 || n++ == 1 && yc[0] < base / 2 ) { if ( n > 1 ) { yc = multiply( yc, n, base ); xc = multiply( xc, n, base ); yL = yc.length; xL = xc.length; } xi = yL; rem = xc.slice( 0, yL ); remL = rem.length; // Add zeros to make remainder as long as divisor. for ( ; remL < yL; rem[remL++] = 0 ); yz = yc.slice(); yz = [0].concat(yz); yc0 = yc[0]; if ( yc[1] >= base / 2 ) yc0++; // Not necessary, but to prevent trial digit n > base, when using base 3. // else if ( base == 3 && yc0 == 1 ) yc0 = 1 + 1e-15; do { n = 0; // Compare divisor and remainder. cmp = compare( yc, rem, yL, remL ); // If divisor < remainder. if ( cmp < 0 ) { // Calculate trial digit, n. rem0 = rem[0]; if ( yL != remL ) rem0 = rem0 * base + ( rem[1] || 0 ); // n is how many times the divisor goes into the current remainder. n = mathfloor( rem0 / yc0 ); // Algorithm: // 1. product = divisor * trial digit (n) // 2. if product > remainder: product -= divisor, n-- // 3. remainder -= product // 4. if product was < remainder at 2: // 5. compare new remainder and divisor // 6. If remainder > divisor: remainder -= divisor, n++ if ( n > 1 ) { // n may be > base only when base is 3. if (n >= base) n = base - 1; // product = divisor * trial digit. prod = multiply( yc, n, base ); prodL = prod.length; remL = rem.length; // Compare product and remainder. // If product > remainder. // Trial digit n too high. // n is 1 too high about 5% of the time, and is not known to have // ever been more than 1 too high. while ( compare( prod, rem, prodL, remL ) == 1 ) { n--; // Subtract divisor from product. subtract( prod, yL < prodL ? yz : yc, prodL, base ); prodL = prod.length; cmp = 1; } } else { // n is 0 or 1, cmp is -1. // If n is 0, there is no need to compare yc and rem again below, // so change cmp to 1 to avoid it. // If n is 1, leave cmp as -1, so yc and rem are compared again. if ( n == 0 ) { // divisor < remainder, so n must be at least 1. cmp = n = 1; } // product = divisor prod = yc.slice(); prodL = prod.length; } if ( prodL < remL ) prod = [0].concat(prod); // Subtract product from remainder. subtract( rem, prod, remL, base ); remL = rem.length; // If product was < remainder. if ( cmp == -1 ) { // Compare divisor and new remainder. // If divisor < new remainder, subtract divisor from remainder. // Trial digit n too low. // n is 1 too low about 5% of the time, and very rarely 2 too low. while ( compare( yc, rem, yL, remL ) < 1 ) { n++; // Subtract divisor from remainder. subtract( rem, yL < remL ? yz : yc, remL, base ); remL = rem.length; } } } else if ( cmp === 0 ) { n++; rem = [0]; } // else cmp === 1 and n will be 0 // Add the next digit, n, to the result array. qc[i++] = n; // Update the remainder. if ( rem[0] ) { rem[remL++] = xc[xi] || 0; } else { rem = [ xc[xi] ]; remL = 1; } } while ( ( xi++ < xL || rem[0] != null ) && s-- ); more = rem[0] != null; // Leading zero? if ( !qc[0] ) qc.splice(0, 1); } if ( base == BASE ) { // To calculate q.e, first get the number of digits of qc[0]. for ( i = 1, s = qc[0]; s >= 10; s /= 10, i++ ); round( q, dp + ( q.e = i + e * LOG_BASE - 1 ) + 1, rm, more ); // Caller is convertBase. } else { q.e = e; q.r = +more; } return q; }; })(); /* * Return a string representing the value of BigNumber n in fixed-point or exponential * notation rounded to the specified decimal places or significant digits. * * n is a BigNumber. * i is the index of the last digit required (i.e. the digit that may be rounded up). * rm is the rounding mode. * caller is caller id: toExponential 19, toFixed 20, toFormat 21, toPrecision 24. */ function format( n, i, rm, caller ) { var c0, e, ne, len, str; rm = rm != null && isValidInt( rm, 0, 8, caller, roundingMode ) ? rm | 0 : ROUNDING_MODE; if ( !n.c ) return n.toString(); c0 = n.c[0]; ne = n.e; if ( i == null ) { str = coeffToString( n.c ); str = caller == 19 || caller == 24 && ne <= TO_EXP_NEG ? toExponential( str, ne ) : toFixedPoint( str, ne ); } else { n = round( new BigNumber(n), i, rm ); // n.e may have changed if the value was rounded up. e = n.e; str = coeffToString( n.c ); len = str.length; // toPrecision returns exponential notation if the number of significant digits // specified is less than the number of digits necessary to represent the integer // part of the value in fixed-point notation. // Exponential notation. if ( caller == 19 || caller == 24 && ( i <= e || e <= TO_EXP_NEG ) ) { // Append zeros? for ( ; len < i; str += '0', len++ ); str = toExponential( str, e ); // Fixed-point notation. } else { i -= ne; str = toFixedPoint( str, e ); // Append zeros? if ( e + 1 > len ) { if ( --i > 0 ) for ( str += '.'; i--; str += '0' ); } else { i += e - len; if ( i > 0 ) { if ( e + 1 == len ) str += '.'; for ( ; i--; str += '0' ); } } } } return n.s < 0 && c0 ? '-' + str : str; } // Handle BigNumber.max and BigNumber.min. function maxOrMin( args, method ) { var m, n, i = 0; if ( isArray( args[0] ) ) args = args[0]; m = new BigNumber( args[0] ); for ( ; ++i < args.length; ) { n = new BigNumber( args[i] ); // If any number is NaN, return NaN. if ( !n.s ) { m = n; break; } else if ( method.call( m, n ) ) { m = n; } } return m; } /* * Return true if n is an integer in range, otherwise throw. * Use for argument validation when ERRORS is true. */ function intValidatorWithErrors( n, min, max, caller, name ) { if ( n < min || n > max || n != truncate(n) ) { raise( caller, ( name || 'decimal places' ) + ( n < min || n > max ? ' out of range' : ' not an integer' ), n ); } return true; } /* * Strip trailing zeros, calculate base 10 exponent and check against MIN_EXP and MAX_EXP. * Called by minus, plus and times. */ function normalise( n, c, e ) { var i = 1, j = c.length; // Remove trailing zeros. for ( ; !c[--j]; c.pop() ); // Calculate the base 10 exponent. First get the number of digits of c[0]. for ( j = c[0]; j >= 10; j /= 10, i++ ); // Overflow? if ( ( e = i + e * LOG_BASE - 1 ) > MAX_EXP ) { // Infinity. n.c = n.e = null; // Underflow? } else if ( e < MIN_EXP ) { // Zero. n.c = [ n.e = 0 ]; } else { n.e = e; n.c = c; } return n; } // Handle values that fail the validity test in BigNumber. parseNumeric = (function () { var basePrefix = /^(-?)0([xbo])(?=\w[\w.]*$)/i, dotAfter = /^([^.]+)\.$/, dotBefore = /^\.([^.]+)$/, isInfinityOrNaN = /^-?(Infinity|NaN)$/, whitespaceOrPlus = /^\s*\+(?=[\w.])|^\s+|\s+$/g; return function ( x, str, num, b ) { var base, s = num ? str : str.replace( whitespaceOrPlus, '' ); // No exception on ±Infinity or NaN. if ( isInfinityOrNaN.test(s) ) { x.s = isNaN(s) ? null : s < 0 ? -1 : 1; } else { if ( !num ) { // basePrefix = /^(-?)0([xbo])(?=\w[\w.]*$)/i s = s.replace( basePrefix, function ( m, p1, p2 ) { base = ( p2 = p2.toLowerCase() ) == 'x' ? 16 : p2 == 'b' ? 2 : 8; return !b || b == base ? p1 : m; }); if (b) { base = b; // E.g. '1.' to '1', '.1' to '0.1' s = s.replace( dotAfter, '$1' ).replace( dotBefore, '0.$1' ); } if ( str != s ) return new BigNumber( s, base ); } // 'new BigNumber() not a number: {n}' // 'new BigNumber() not a base {b} number: {n}' if (ERRORS) raise( id, 'not a' + ( b ? ' base ' + b : '' ) + ' number', str ); x.s = null; } x.c = x.e = null; id = 0; } })(); // Throw a BigNumber Error. function raise( caller, msg, val ) { var error = new Error( [ 'new BigNumber', // 0 'cmp', // 1 'config', // 2 'div', // 3 'divToInt', // 4 'eq', // 5 'gt', // 6 'gte', // 7 'lt', // 8 'lte', // 9 'minus', // 10 'mod', // 11 'plus', // 12 'precision', // 13 'random', // 14 'round', // 15 'shift', // 16 'times', // 17 'toDigits', // 18 'toExponential', // 19 'toFixed', // 20 'toFormat', // 21 'toFraction', // 22 'pow', // 23 'toPrecision', // 24 'toString', // 25 'BigNumber' // 26 ][caller] + '() ' + msg + ': ' + val ); error.name = 'BigNumber Error'; id = 0; throw error; } /* * Round x to sd significant digits using rounding mode rm. Check for over/under-flow. * If r is truthy, it is known that there are more digits after the rounding digit. */ function round( x, sd, rm, r ) { var d, i, j, k, n, ni, rd, xc = x.c, pows10 = POWS_TEN; // if x is not Infinity or NaN... if (xc) { // rd is the rounding digit, i.e. the digit after the digit that may be rounded up. // n is a base 1e14 number, the value of the element of array x.c containing rd. // ni is the index of n within x.c. // d is the number of digits of n. // i is the index of rd within n including leading zeros. // j is the actual index of rd within n (if < 0, rd is a leading zero). out: { // Get the number of digits of the first element of xc. for ( d = 1, k = xc[0]; k >= 10; k /= 10, d++ ); i = sd - d; // If the rounding digit is in the first element of xc... if ( i < 0 ) { i += LOG_BASE; j = sd; n = xc[ ni = 0 ]; // Get the rounding digit at index j of n. rd = n / pows10[ d - j - 1 ] % 10 | 0; } else { ni = mathceil( ( i + 1 ) / LOG_BASE ); if ( ni >= xc.length ) { if (r) { // Needed by sqrt. for ( ; xc.length <= ni; xc.push(0) ); n = rd = 0; d = 1; i %= LOG_BASE; j = i - LOG_BASE + 1; } else { break out; } } else { n = k = xc[ni]; // Get the number of digits of n. for ( d = 1; k >= 10; k /= 10, d++ ); // Get the index of rd within n. i %= LOG_BASE; // Get the index of rd within n, adjusted for leading zeros. // The number of leading zeros of n is given by LOG_BASE - d. j = i - LOG_BASE + d; // Get the rounding digit at index j of n. rd = j < 0 ? 0 : n / pows10[ d - j - 1 ] % 10 | 0; } } r = r || sd < 0 || // Are there any non-zero digits after the rounding digit? // The expression n % pows10[ d - j - 1 ] returns all digits of n to the right // of the digit at j, e.g. if n is 908714 and j is 2, the expression gives 714. xc[ni + 1] != null || ( j < 0 ? n : n % pows10[ d - j - 1 ] ); r = rm < 4 ? ( rd || r ) && ( rm == 0 || rm == ( x.s < 0 ? 3 : 2 ) ) : rd > 5 || rd == 5 && ( rm == 4 || r || rm == 6 && // Check whether the digit to the left of the rounding digit is odd. ( ( i > 0 ? j > 0 ? n / pows10[ d - j ] : 0 : xc[ni - 1] ) % 10 ) & 1 || rm == ( x.s < 0 ? 8 : 7 ) ); if ( sd < 1 || !xc[0] ) { xc.length = 0; if (r) { // Convert sd to decimal places. sd -= x.e + 1; // 1, 0.1, 0.01, 0.001, 0.0001 etc. xc[0] = pows10[ ( LOG_BASE - sd % LOG_BASE ) % LOG_BASE ]; x.e = -sd || 0; } else { // Zero. xc[0] = x.e = 0; } return x; } // Remove excess digits. if ( i == 0 ) { xc.length = ni; k = 1; ni--; } else { xc.length = ni + 1; k = pows10[ LOG_BASE - i ]; // E.g. 56700 becomes 56000 if 7 is the rounding digit. // j > 0 means i > number of leading zeros of n. xc[ni] = j > 0 ? mathfloor( n / pows10[ d - j ] % pows10[j] ) * k : 0; } // Round up? if (r) { for ( ; ; ) { // If the digit to be rounded up is in the first element of xc... if ( ni == 0 ) { // i will be the length of xc[0] before k is added. for ( i = 1, j = xc[0]; j >= 10; j /= 10, i++ ); j = xc[0] += k; for ( k = 1; j >= 10; j /= 10, k++ ); // if i != k the length has increased. if ( i != k ) { x.e++; if ( xc[0] == BASE ) xc[0] = 1; } break; } else { xc[ni] += k; if ( xc[ni] != BASE ) break; xc[ni--] = 0; k = 1; } } } // Remove trailing zeros. for ( i = xc.length; xc[--i] === 0; xc.pop() ); } // Overflow? Infinity. if ( x.e > MAX_EXP ) { x.c = x.e = null; // Underflow? Zero. } else if ( x.e < MIN_EXP ) { x.c = [ x.e = 0 ]; } } return x; } // PROTOTYPE/INSTANCE METHODS /* * Return a new BigNumber whose value is the absolute value of this BigNumber. */ P.absoluteValue = P.abs = function () { var x = new BigNumber(this); if ( x.s < 0 ) x.s = 1; return x; }; /* * Return a new BigNumber whose value is the value of this BigNumber rounded to a whole * number in the direction of Infinity. */ P.ceil = function () { return round( new BigNumber(this), this.e + 1, 2 ); }; /* * Return * 1 if the value of this BigNumber is greater than the value of BigNumber(y, b), * -1 if the value of this BigNumber is less than the value of BigNumber(y, b), * 0 if they have the same value, * or null if the value of either is NaN. */ P.comparedTo = P.cmp = function ( y, b ) { id = 1; return compare( this, new BigNumber( y, b ) ); }; /* * Return the number of decimal places of the value of this BigNumber, or null if the value * of this BigNumber is ±Infinity or NaN. */ P.decimalPlaces = P.dp = function () { var n, v, c = this.c; if ( !c ) return null; n = ( ( v = c.length - 1 ) - bitFloor( this.e / LOG_BASE ) ) * LOG_BASE; // Subtract the number of trailing zeros of the last number. if ( v = c[v] ) for ( ; v % 10 == 0; v /= 10, n-- ); if ( n < 0 ) n = 0; return n; }; /* * n / 0 = I * n / N = N * n / I = 0 * 0 / n = 0 * 0 / 0 = N * 0 / N = N * 0 / I = 0 * N / n = N * N / 0 = N * N / N = N * N / I = N * I / n = I * I / 0 = I * I / N = N * I / I = N * * Return a new BigNumber whose value is the value of this BigNumber divided by the value of * BigNumber(y, b), rounded according to DECIMAL_PLACES and ROUNDING_MODE. */ P.dividedBy = P.div = function ( y, b ) { id = 3; return div( this, new BigNumber( y, b ), DECIMAL_PLACES, ROUNDING_MODE ); }; /* * Return a new BigNumber whose value is the integer part of dividing the value of this * BigNumber by the value of BigNumber(y, b). */ P.dividedToIntegerBy = P.divToInt = function ( y, b ) { id = 4; return div( this, new BigNumber( y, b ), 0, 1 ); }; /* * Return true if the value of this BigNumber is equal to the value of BigNumber(y, b), * otherwise returns false. */ P.equals = P.eq = function ( y, b ) { id = 5; return compare( this, new BigNumber( y, b ) ) === 0; }; /* * Return a new BigNumber whose value is the value of this BigNumber rounded to a whole * number in the direction of -Infinity. */ P.floor = function () { return round( new BigNumber(this), this.e + 1, 3 ); }; /* * Return true if the value of this BigNumber is greater than the value of BigNumber(y, b), * otherwise returns false. */ P.greaterThan = P.gt = function ( y, b ) { id = 6; return compare( this, new BigNumber( y, b ) ) > 0; }; /* * Return true if the value of this BigNumber is greater than or equal to the value of * BigNumber(y, b), otherwise returns false. */ P.greaterThanOrEqualTo = P.gte = function ( y, b ) { id = 7; return ( b = compare( this, new BigNumber( y, b ) ) ) === 1 || b === 0; }; /* * Return true if the value of this BigNumber is a finite number, otherwise returns false. */ P.isFinite = function () { return !!this.c; }; /* * Return true if the value of this BigNumber is an integer, otherwise return false. */ P.isInteger = P.isInt = function () { return !!this.c && bitFloor( this.e / LOG_BASE ) > this.c.length - 2; }; /* * Return true if the value of this BigNumber is NaN, otherwise returns false. */ P.isNaN = function () { return !this.s; }; /* * Return true if the value of this BigNumber is negative, otherwise returns false. */ P.isNegative = P.isNeg = function () { return this.s < 0; }; /* * Return true if the value of this BigNumber is 0 or -0, otherwise returns false. */ P.isZero = function () { return !!this.c && this.c[0] == 0; }; /* * Return true if the value of this BigNumber is less than the value of BigNumber(y, b), * otherwise returns false. */ P.lessThan = P.lt = function ( y, b ) { id = 8; return compare( this, new BigNumber( y, b ) ) < 0; }; /* * Return true if the value of this BigNumber is less than or equal to the value of * BigNumber(y, b), otherwise returns false. */ P.lessThanOrEqualTo = P.lte = function ( y, b ) { id = 9; return ( b = compare( this, new BigNumber( y, b ) ) ) === -1 || b === 0; }; /* * n - 0 = n * n - N = N * n - I = -I * 0 - n = -n * 0 - 0 = 0 * 0 - N = N * 0 - I = -I * N - n = N * N - 0 = N * N - N = N * N - I = N * I - n = I * I - 0 = I * I - N = N * I - I = N * * Return a new BigNumber whose value is the value of this BigNumber minus the value of * BigNumber(y, b). */ P.minus = P.sub = function ( y, b ) { var i, j, t, xLTy, x = this, a = x.s; id = 10; y = new BigNumber( y, b ); b = y.s; // Either NaN? if ( !a || !b ) return new BigNumber(NaN); // Signs differ? if ( a != b ) { y.s = -b; return x.plus(y); } var xe = x.e / LOG_BASE, ye = y.e / LOG_BASE, xc = x.c, yc = y.c; if ( !xe || !ye ) { // Either Infinity? if ( !xc || !yc ) return xc ? ( y.s = -b, y ) : new BigNumber( yc ? x : NaN ); // Either zero? if ( !xc[0] || !yc[0] ) { // Return y if y is non-zero, x if x is non-zero, or zero if both are zero. return yc[0] ? ( y.s = -b, y ) : new BigNumber( xc[0] ? x : // IEEE 754 (2008) 6.3: n - n = -0 when rounding to -Infinity ROUNDING_MODE == 3 ? -0 : 0 ); } } xe = bitFloor(xe); ye = bitFloor(ye); xc = xc.slice(); // Determine which is the bigger number. if ( a = xe - ye ) { if ( xLTy = a < 0 ) { a = -a; t = xc; } else { ye = xe; t = yc; } t.reverse(); // Prepend zeros to equalise exponents. for ( b = a; b--; t.push(0) ); t.reverse(); } else { // Exponents equal. Check digit by digit. j = ( xLTy = ( a = xc.length ) < ( b = yc.length ) ) ? a : b; for ( a = b = 0; b < j; b++ ) { if ( xc[b] != yc[b] ) { xLTy = xc[b] < yc[b]; break; } } } // x < y? Point xc to the array of the bigger number. if (xLTy) t = xc, xc = yc, yc = t, y.s = -y.s; b = ( j = yc.length ) - ( i = xc.length ); // Append zeros to xc if shorter. // No need to add zeros to yc if shorter as subtract only needs to start at yc.length. if ( b > 0 ) for ( ; b--; xc[i++] = 0 ); b = BASE - 1; // Subtract yc from xc. for ( ; j > a; ) { if ( xc[--j] < yc[j] ) { for ( i = j; i && !xc[--i]; xc[i] = b ); --xc[i]; xc[j] += BASE; } xc[j] -= yc[j]; } // Remove leading zeros and adjust exponent accordingly. for ( ; xc[0] == 0; xc.splice(0, 1), --ye ); // Zero? if ( !xc[0] ) { // Following IEEE 754 (2008) 6.3, // n - n = +0 but n - n = -0 when rounding towards -Infinity. y.s = ROUNDING_MODE == 3 ? -1 : 1; y.c = [ y.e = 0 ]; return y; } // No need to check for Infinity as +x - +y != Infinity && -x - -y != Infinity // for finite x and y. return normalise( y, xc, ye ); }; /* * n % 0 = N * n % N = N * n % I = n * 0 % n = 0 * -0 % n = -0 * 0 % 0 = N * 0 % N = N * 0 % I = 0 * N % n = N * N % 0 = N * N % N = N * N % I = N * I % n = N * I % 0 = N * I % N = N * I % I = N * * Return a new BigNumber whose value is the value of this BigNumber modulo the value of * BigNumber(y, b). The result depends on the value of MODULO_MODE. */ P.modulo = P.mod = function ( y, b ) { var q, s, x = this; id = 11; y = new BigNumber( y, b ); // Return NaN if x is Infinity or NaN, or y is NaN or zero. if ( !x.c || !y.s || y.c && !y.c[0] ) { return new BigNumber(NaN); // Return x if y is Infinity or x is zero. } else if ( !y.c || x.c && !x.c[0] ) { return new BigNumber(x); } if ( MODULO_MODE == 9 ) { // Euclidian division: q = sign(y) * floor(x / abs(y)) // r = x - qy where 0 <= r < abs(y) s = y.s; y.s = 1; q = div( x, y, 0, 3 ); y.s = s; q.s *= s; } else { q = div( x, y, 0, MODULO_MODE ); } return x.minus( q.times(y) ); }; /* * Return a new BigNumber whose value is the value of this BigNumber negated, * i.e. multiplied by -1. */ P.negated = P.neg = function () { var x = new BigNumber(this); x.s = -x.s || null; return x; }; /* * n + 0 = n * n + N = N * n + I = I * 0 + n = n * 0 + 0 = 0 * 0 + N = N * 0 + I = I * N + n = N * N + 0 = N * N + N = N * N + I = N * I + n = I * I + 0 = I * I + N = N * I + I = I * * Return a new BigNumber whose value is the value of this BigNumber plus the value of * BigNumber(y, b). */ P.plus = P.add = function ( y, b ) { var t, x = this, a = x.s; id = 12; y = new BigNumber( y, b ); b = y.s; // Either NaN? if ( !a || !b ) return new BigNumber(NaN); // Signs differ? if ( a != b ) { y.s = -b; return x.minus(y); } var xe = x.e / LOG_BASE, ye = y.e / LOG_BASE, xc = x.c, yc = y.c; if ( !xe || !ye ) { // Return ±Infinity if either ±Infinity. if ( !xc || !yc ) return new BigNumber( a / 0 ); // Either zero? // Return y if y is non-zero, x if x is non-zero, or zero if both are zero. if ( !xc[0] || !yc[0] ) return yc[0] ? y : new BigNumber( xc[0] ? x : a * 0 ); } xe = bitFloor(xe); ye = bitFloor(ye); xc = xc.slice(); // Prepend zeros to equalise exponents. Faster to use reverse then do unshifts. if ( a = xe - ye ) { if ( a > 0 ) { ye = xe; t = yc; } else { a = -a; t = xc; } t.reverse(); for ( ; a--; t.push(0) ); t.reverse(); } a = xc.length; b = yc.length; // Point xc to the longer array, and b to the shorter length. if ( a - b < 0 ) t = yc, yc = xc, xc = t, b = a; // Only start adding at yc.length - 1 as the further digits of xc can be ignored. for ( a = 0; b; ) { a = ( xc[--b] = xc[b] + yc[b] + a ) / BASE | 0; xc[b] = BASE === xc[b] ? 0 : xc[b] % BASE; } if (a) { xc = [a].concat(xc); ++ye; } // No need to check for zero, as +x + +y != 0 && -x + -y != 0 // ye = MAX_EXP + 1 possible return normalise( y, xc, ye ); }; /* * Return the number of significant digits of the value of this BigNumber. * * [z] {boolean|number} Whether to count integer-part trailing zeros: true, false, 1 or 0. */ P.precision = P.sd = function (z) { var n, v, x = this, c = x.c; // 'precision() argument not a boolean or binary digit: {z}' if ( z != null && z !== !!z && z !== 1 && z !== 0 ) { if (ERRORS) raise( 13, 'argument' + notBool, z ); if ( z != !!z ) z = null; } if ( !c ) return null; v = c.length - 1; n = v * LOG_BASE + 1; if ( v = c[v] ) { // Subtract the number of trailing zeros of the last element. for ( ; v % 10 == 0; v /= 10, n-- ); // Add the number of digits of the first element. for ( v = c[0]; v >= 10; v /= 10, n++ ); } if ( z && x.e + 1 > n ) n = x.e + 1; return n; }; /* * Return a new BigNumber whose value is the value of this BigNumber rounded to a maximum of * dp decimal places using rounding mode rm, or to 0 and ROUNDING_MODE respectively if * omitted. * * [dp] {number} Decimal places. Integer, 0 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'round() decimal places out of range: {dp}' * 'round() decimal places not an integer: {dp}' * 'round() rounding mode not an integer: {rm}' * 'round() rounding mode out of range: {rm}' */ P.round = function ( dp, rm ) { var n = new BigNumber(this); if ( dp == null || isValidInt( dp, 0, MAX, 15 ) ) { round( n, ~~dp + this.e + 1, rm == null || !isValidInt( rm, 0, 8, 15, roundingMode ) ? ROUNDING_MODE : rm | 0 ); } return n; }; /* * Return a new BigNumber whose value is the value of this BigNumber shifted by k places * (powers of 10). Shift to the right if n > 0, and to the left if n < 0. * * k {number} Integer, -MAX_SAFE_INTEGER to MAX_SAFE_INTEGER inclusive. * * If k is out of range and ERRORS is false, the result will be ±0 if k < 0, or ±Infinity * otherwise. * * 'shift() argument not an integer: {k}' * 'shift() argument out of range: {k}' */ P.shift = function (k) { var n = this; return isValidInt( k, -MAX_SAFE_INTEGER, MAX_SAFE_INTEGER, 16, 'argument' ) // k < 1e+21, or truncate(k) will produce exponential notation. ? n.times( '1e' + truncate(k) ) : new BigNumber( n.c && n.c[0] && ( k < -MAX_SAFE_INTEGER || k > MAX_SAFE_INTEGER ) ? n.s * ( k < 0 ? 0 : 1 / 0 ) : n ); }; /* * sqrt(-n) = N * sqrt( N) = N * sqrt(-I) = N * sqrt( I) = I * sqrt( 0) = 0 * sqrt(-0) = -0 * * Return a new BigNumber whose value is the square root of the value of this BigNumber, * rounded according to DECIMAL_PLACES and ROUNDING_MODE. */ P.squareRoot = P.sqrt = function () { var m, n, r, rep, t, x = this, c = x.c, s = x.s, e = x.e, dp = DECIMAL_PLACES + 4, half = new BigNumber('0.5'); // Negative/NaN/Infinity/zero? if ( s !== 1 || !c || !c[0] ) { return new BigNumber( !s || s < 0 && ( !c || c[0] ) ? NaN : c ? x : 1 / 0 ); } // Initial estimate. s = Math.sqrt( +x ); // Math.sqrt underflow/overflow? // Pass x to Math.sqrt as integer, then adjust the exponent of the result. if ( s == 0 || s == 1 / 0 ) { n = coeffToString(c); if ( ( n.length + e ) % 2 == 0 ) n += '0'; s = Math.sqrt(n); e = bitFloor( ( e + 1 ) / 2 ) - ( e < 0 || e % 2 ); if ( s == 1 / 0 ) { n = '1e' + e; } else { n = s.toExponential(); n = n.slice( 0, n.indexOf('e') + 1 ) + e; } r = new BigNumber(n); } else { r = new BigNumber( s + '' ); } // Check for zero. // r could be zero if MIN_EXP is changed after the this value was created. // This would cause a division by zero (x/t) and hence Infinity below, which would cause // coeffToString to throw. if ( r.c[0] ) { e = r.e; s = e + dp; if ( s < 3 ) s = 0; // Newton-Raphson iteration. for ( ; ; ) { t = r; r = half.times( t.plus( div( x, t, dp, 1 ) ) ); if ( coeffToString( t.c ).slice( 0, s ) === ( n = coeffToString( r.c ) ).slice( 0, s ) ) { // The exponent of r may here be one less than the final result exponent, // e.g 0.0009999 (e-4) --> 0.001 (e-3), so adjust s so the rounding digits // are indexed correctly. if ( r.e < e ) --s; n = n.slice( s - 3, s + 1 ); // The 4th rounding digit may be in error by -1 so if the 4 rounding digits // are 9999 or 4999 (i.e. approaching a rounding boundary) continue the // iteration. if ( n == '9999' || !rep && n == '4999' ) { // On the first iteration only, check to see if rounding up gives the // exact result as the nines may infinitely repeat. if ( !rep ) { round( t, t.e + DECIMAL_PLACES + 2, 0 ); if ( t.times(t).eq(x) ) { r = t; break; } } dp += 4; s += 4; rep = 1; } else { // If rounding digits are null, 0{0,4} or 50{0,3}, check for exact // result. If not, then there are further digits and m will be truthy. if ( !+n || !+n.slice(1) && n.charAt(0) == '5' ) { // Truncate to the first rounding digit. round( r, r.e + DECIMAL_PLACES + 2, 1 ); m = !r.times(r).eq(x); } break; } } } } return round( r, r.e + DECIMAL_PLACES + 1, ROUNDING_MODE, m ); }; /* * n * 0 = 0 * n * N = N * n * I = I * 0 * n = 0 * 0 * 0 = 0 * 0 * N = N * 0 * I = N * N * n = N * N * 0 = N * N * N = N * N * I = N * I * n = I * I * 0 = N * I * N = N * I * I = I * * Return a new BigNumber whose value is the value of this BigNumber times the value of * BigNumber(y, b). */ P.times = P.mul = function ( y, b ) { var c, e, i, j, k, m, xcL, xlo, xhi, ycL, ylo, yhi, zc, base, sqrtBase, x = this, xc = x.c, yc = ( id = 17, y = new BigNumber( y, b ) ).c; // Either NaN, ±Infinity or ±0? if ( !xc || !yc || !xc[0] || !yc[0] ) { // Return NaN if either is NaN, or one is 0 and the other is Infinity. if ( !x.s || !y.s || xc && !xc[0] && !yc || yc && !yc[0] && !xc ) { y.c = y.e = y.s = null; } else { y.s *= x.s; // Return ±Infinity if either is ±Infinity. if ( !xc || !yc ) { y.c = y.e = null; // Return ±0 if either is ±0. } else { y.c = [0]; y.e = 0; } } return y; } e = bitFloor( x.e / LOG_BASE ) + bitFloor( y.e / LOG_BASE ); y.s *= x.s; xcL = xc.length; ycL = yc.length; // Ensure xc points to longer array and xcL to its length. if ( xcL < ycL ) zc = xc, xc = yc, yc = zc, i = xcL, xcL = ycL, ycL = i; // Initialise the result array with zeros. for ( i = xcL + ycL, zc = []; i--; zc.push(0) ); base = BASE; sqrtBase = SQRT_BASE; for ( i = ycL; --i >= 0; ) { c = 0; ylo = yc[i] % sqrtBase; yhi = yc[i] / sqrtBase | 0; for ( k = xcL, j = i + k; j > i; ) { xlo = xc[--k] % sqrtBase; xhi = xc[k] / sqrtBase | 0; m = yhi * xlo + xhi * ylo; xlo = ylo * xlo + ( ( m % sqrtBase ) * sqrtBase ) + zc[j] + c; c = ( xlo / base | 0 ) + ( m / sqrtBase | 0 ) + yhi * xhi; zc[j--] = xlo % base; } zc[j] = c; } if (c) { ++e; } else { zc.splice(0, 1); } return normalise( y, zc, e ); }; /* * Return a new BigNumber whose value is the value of this BigNumber rounded to a maximum of * sd significant digits using rounding mode rm, or ROUNDING_MODE if rm is omitted. * * [sd] {number} Significant digits. Integer, 1 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'toDigits() precision out of range: {sd}' * 'toDigits() precision not an integer: {sd}' * 'toDigits() rounding mode not an integer: {rm}' * 'toDigits() rounding mode out of range: {rm}' */ P.toDigits = function ( sd, rm ) { var n = new BigNumber(this); sd = sd == null || !isValidInt( sd, 1, MAX, 18, 'precision' ) ? null : sd | 0; rm = rm == null || !isValidInt( rm, 0, 8, 18, roundingMode ) ? ROUNDING_MODE : rm | 0; return sd ? round( n, sd, rm ) : n; }; /* * Return a string representing the value of this BigNumber in exponential notation and * rounded using ROUNDING_MODE to dp fixed decimal places. * * [dp] {number} Decimal places. Integer, 0 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'toExponential() decimal places not an integer: {dp}' * 'toExponential() decimal places out of range: {dp}' * 'toExponential() rounding mode not an integer: {rm}' * 'toExponential() rounding mode out of range: {rm}' */ P.toExponential = function ( dp, rm ) { return format( this, dp != null && isValidInt( dp, 0, MAX, 19 ) ? ~~dp + 1 : null, rm, 19 ); }; /* * Return a string representing the value of this BigNumber in fixed-point notation rounding * to dp fixed decimal places using rounding mode rm, or ROUNDING_MODE if rm is omitted. * * Note: as with JavaScript's number type, (-0).toFixed(0) is '0', * but e.g. (-0.00001).toFixed(0) is '-0'. * * [dp] {number} Decimal places. Integer, 0 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'toFixed() decimal places not an integer: {dp}' * 'toFixed() decimal places out of range: {dp}' * 'toFixed() rounding mode not an integer: {rm}' * 'toFixed() rounding mode out of range: {rm}' */ P.toFixed = function ( dp, rm ) { return format( this, dp != null && isValidInt( dp, 0, MAX, 20 ) ? ~~dp + this.e + 1 : null, rm, 20 ); }; /* * Return a string representing the value of this BigNumber in fixed-point notation rounded * using rm or ROUNDING_MODE to dp decimal places, and formatted according to the properties * of the FORMAT object (see BigNumber.config). * * FORMAT = { * decimalSeparator : '.', * groupSeparator : ',', * groupSize : 3, * secondaryGroupSize : 0, * fractionGroupSeparator : '\xA0', // non-breaking space * fractionGroupSize : 0 * }; * * [dp] {number} Decimal places. Integer, 0 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'toFormat() decimal places not an integer: {dp}' * 'toFormat() decimal places out of range: {dp}' * 'toFormat() rounding mode not an integer: {rm}' * 'toFormat() rounding mode out of range: {rm}' */ P.toFormat = function ( dp, rm ) { var str = format( this, dp != null && isValidInt( dp, 0, MAX, 21 ) ? ~~dp + this.e + 1 : null, rm, 21 ); if ( this.c ) { var i, arr = str.split('.'), g1 = +FORMAT.groupSize, g2 = +FORMAT.secondaryGroupSize, groupSeparator = FORMAT.groupSeparator, intPart = arr[0], fractionPart = arr[1], isNeg = this.s < 0, intDigits = isNeg ? intPart.slice(1) : intPart, len = intDigits.length; if (g2) i = g1, g1 = g2, g2 = i, len -= i; if ( g1 > 0 && len > 0 ) { i = len % g1 || g1; intPart = intDigits.substr( 0, i ); for ( ; i < len; i += g1 ) { intPart += groupSeparator + intDigits.substr( i, g1 ); } if ( g2 > 0 ) intPart += groupSeparator + intDigits.slice(i); if (isNeg) intPart = '-' + intPart; } str = fractionPart ? intPart + FORMAT.decimalSeparator + ( ( g2 = +FORMAT.fractionGroupSize ) ? fractionPart.replace( new RegExp( '\\d{' + g2 + '}\\B', 'g' ), '$&' + FORMAT.fractionGroupSeparator ) : fractionPart ) : intPart; } return str; }; /* * Return a string array representing the value of this BigNumber as a simple fraction with * an integer numerator and an integer denominator. The denominator will be a positive * non-zero value less than or equal to the specified maximum denominator. If a maximum * denominator is not specified, the denominator will be the lowest value necessary to * represent the number exactly. * * [md] {number|string|BigNumber} Integer >= 1 and < Infinity. The maximum denominator. * * 'toFraction() max denominator not an integer: {md}' * 'toFraction() max denominator out of range: {md}' */ P.toFraction = function (md) { var arr, d0, d2, e, exp, n, n0, q, s, k = ERRORS, x = this, xc = x.c, d = new BigNumber(ONE), n1 = d0 = new BigNumber(ONE), d1 = n0 = new BigNumber(ONE); if ( md != null ) { ERRORS = false; n = new BigNumber(md); ERRORS = k; if ( !( k = n.isInt() ) || n.lt(ONE) ) { if (ERRORS) { raise( 22, 'max denominator ' + ( k ? 'out of range' : 'not an integer' ), md ); } // ERRORS is false: // If md is a finite non-integer >= 1, round it to an integer and use it. md = !k && n.c && round( n, n.e + 1, 1 ).gte(ONE) ? n : null; } } if ( !xc ) return x.toString(); s = coeffToString(xc); // Determine initial denominator. // d is a power of 10 and the minimum max denominator that specifies the value exactly. e = d.e = s.length - x.e - 1; d.c[0] = POWS_TEN[ ( exp = e % LOG_BASE ) < 0 ? LOG_BASE + exp : exp ]; md = !md || n.cmp(d) > 0 ? ( e > 0 ? d : n1 ) : n; exp = MAX_EXP; MAX_EXP = 1 / 0; n = new BigNumber(s); // n0 = d1 = 0 n0.c[0] = 0; for ( ; ; ) { q = div( n, d, 0, 1 ); d2 = d0.plus( q.times(d1) ); if ( d2.cmp(md) == 1 ) break; d0 = d1; d1 = d2; n1 = n0.plus( q.times( d2 = n1 ) ); n0 = d2; d = n.minus( q.times( d2 = d ) ); n = d2; } d2 = div( md.minus(d0), d1, 0, 1 ); n0 = n0.plus( d2.times(n1) ); d0 = d0.plus( d2.times(d1) ); n0.s = n1.s = x.s; e *= 2; // Determine which fraction is closer to x, n0/d0 or n1/d1 arr = div( n1, d1, e, ROUNDING_MODE ).minus(x).abs().cmp( div( n0, d0, e, ROUNDING_MODE ).minus(x).abs() ) < 1 ? [ n1.toString(), d1.toString() ] : [ n0.toString(), d0.toString() ]; MAX_EXP = exp; return arr; }; /* * Return the value of this BigNumber converted to a number primitive. */ P.toNumber = function () { return +this; }; /* * Return a BigNumber whose value is the value of this BigNumber raised to the power n. * If m is present, return the result modulo m. * If n is negative round according to DECIMAL_PLACES and ROUNDING_MODE. * If POW_PRECISION is non-zero and m is not present, round to POW_PRECISION using * ROUNDING_MODE. * * The modular power operation works efficiently when x, n, and m are positive integers, * otherwise it is equivalent to calculating x.toPower(n).modulo(m) (with POW_PRECISION 0). * * n {number} Integer, -MAX_SAFE_INTEGER to MAX_SAFE_INTEGER inclusive. * [m] {number|string|BigNumber} The modulus. * * 'pow() exponent not an integer: {n}' * 'pow() exponent out of range: {n}' * * Performs 54 loop iterations for n of 9007199254740991. */ P.toPower = P.pow = function ( n, m ) { var k, y, z, i = mathfloor( n < 0 ? -n : +n ), x = this; if ( m != null ) { id = 23; m = new BigNumber(m); } // Pass ±Infinity to Math.pow if exponent is out of range. if ( !isValidInt( n, -MAX_SAFE_INTEGER, MAX_SAFE_INTEGER, 23, 'exponent' ) && ( !isFinite(n) || i > MAX_SAFE_INTEGER && ( n /= 0 ) || parseFloat(n) != n && !( n = NaN ) ) || n == 0 ) { k = Math.pow( +x, n ); return new BigNumber( m ? k % m : k ); } if (m) { if ( n > 1 && x.gt(ONE) && x.isInt() && m.gt(ONE) && m.isInt() ) { x = x.mod(m); } else { z = m; // Nullify m so only a single mod operation is performed at the end. m = null; } } else if (POW_PRECISION) { // Truncating each coefficient array to a length of k after each multiplication // equates to truncating significant digits to POW_PRECISION + [28, 41], // i.e. there will be a minimum of 28 guard digits retained. // (Using + 1.5 would give [9, 21] guard digits.) k = mathceil( POW_PRECISION / LOG_BASE + 2 ); } y = new BigNumber(ONE); for ( ; ; ) { if ( i % 2 ) { y = y.times(x); if ( !y.c ) break; if (k) { if ( y.c.length > k ) y.c.length = k; } else if (m) { y = y.mod(m); } } i = mathfloor( i / 2 ); if ( !i ) break; x = x.times(x); if (k) { if ( x.c && x.c.length > k ) x.c.length = k; } else if (m) { x = x.mod(m); } } if (m) return y; if ( n < 0 ) y = ONE.div(y); return z ? y.mod(z) : k ? round( y, POW_PRECISION, ROUNDING_MODE ) : y; }; /* * Return a string representing the value of this BigNumber rounded to sd significant digits * using rounding mode rm or ROUNDING_MODE. If sd is less than the number of digits * necessary to represent the integer part of the value in fixed-point notation, then use * exponential notation. * * [sd] {number} Significant digits. Integer, 1 to MAX inclusive. * [rm] {number} Rounding mode. Integer, 0 to 8 inclusive. * * 'toPrecision() precision not an integer: {sd}' * 'toPrecision() precision out of range: {sd}' * 'toPrecision() rounding mode not an integer: {rm}' * 'toPrecision() rounding mode out of range: {rm}' */ P.toPrecision = function ( sd, rm ) { return format( this, sd != null && isValidInt( sd, 1, MAX, 24, 'precision' ) ? sd | 0 : null, rm, 24 ); }; /* * Return a string representing the value of this BigNumber in base b, or base 10 if b is * omitted. If a base is specified, including base 10, round according to DECIMAL_PLACES and * ROUNDING_MODE. If a base is not specified, and this BigNumber has a positive exponent * that is equal to or greater than TO_EXP_POS, or a negative exponent equal to or less than * TO_EXP_NEG, return exponential notation. * * [b] {number} Integer, 2 to 64 inclusive. * * 'toString() base not an integer: {b}' * 'toString() base out of range: {b}' */ P.toString = function (b) { var str, n = this, s = n.s, e = n.e; // Infinity or NaN? if ( e === null ) { if (s) { str = 'Infinity'; if ( s < 0 ) str = '-' + str; } else { str = 'NaN'; } } else { str = coeffToString( n.c ); if ( b == null || !isValidInt( b, 2, 64, 25, 'base' ) ) { str = e <= TO_EXP_NEG || e >= TO_EXP_POS ? toExponential( str, e ) : toFixedPoint( str, e ); } else { str = convertBase( toFixedPoint( str, e ), b | 0, 10, s ); } if ( s < 0 && n.c[0] ) str = '-' + str; } return str; }; /* * Return a new BigNumber whose value is the value of this BigNumber truncated to a whole * number. */ P.truncated = P.trunc = function () { return round( new BigNumber(this), this.e + 1, 1 ); }; /* * Return as toString, but do not accept a base argument, and include the minus sign for * negative zero. */ P.valueOf = P.toJSON = function () { var str, n = this, e = n.e; if ( e === null ) return n.toString(); str = coeffToString( n.c ); str = e <= TO_EXP_NEG || e >= TO_EXP_POS ? toExponential( str, e ) : toFixedPoint( str, e ); return n.s < 0 ? '-' + str : str; }; P.isBigNumber = true; if ( config != null ) BigNumber.config(config); return BigNumber; } // PRIVATE HELPER FUNCTIONS function bitFloor(n) { var i = n | 0; return n > 0 || n === i ? i : i - 1; } // Return a coefficient array as a string of base 10 digits. function coeffToString(a) { var s, z, i = 1, j = a.length, r = a[0] + ''; for ( ; i < j; ) { s = a[i++] + ''; z = LOG_BASE - s.length; for ( ; z--; s = '0' + s ); r += s; } // Determine trailing zeros. for ( j = r.length; r.charCodeAt(--j) === 48; ); return r.slice( 0, j + 1 || 1 ); } // Compare the value of BigNumbers x and y. function compare( x, y ) { var a, b, xc = x.c, yc = y.c, i = x.s, j = y.s, k = x.e, l = y.e; // Either NaN? if ( !i || !j ) return null; a = xc && !xc[0]; b = yc && !yc[0]; // Either zero? if ( a || b ) return a ? b ? 0 : -j : i; // Signs differ? if ( i != j ) return i; a = i < 0; b = k == l; // Either Infinity? if ( !xc || !yc ) return b ? 0 : !xc ^ a ? 1 : -1; // Compare exponents. if ( !b ) return k > l ^ a ? 1 : -1; j = ( k = xc.length ) < ( l = yc.length ) ? k : l; // Compare digit by digit. for ( i = 0; i < j; i++ ) if ( xc[i] != yc[i] ) return xc[i] > yc[i] ^ a ? 1 : -1; // Compare lengths. return k == l ? 0 : k > l ^ a ? 1 : -1; } /* * Return true if n is a valid number in range, otherwise false. * Use for argument validation when ERRORS is false. * Note: parseInt('1e+1') == 1 but parseFloat('1e+1') == 10. */ function intValidatorNoErrors( n, min, max ) { return ( n = truncate(n) ) >= min && n <= max; } function isArray(obj) { return Object.prototype.toString.call(obj) == '[object Array]'; } /* * Convert string of baseIn to an array of numbers of baseOut. * Eg. convertBase('255', 10, 16) returns [15, 15]. * Eg. convertBase('ff', 16, 10) returns [2, 5, 5]. */ function toBaseOut( str, baseIn, baseOut ) { var j, arr = [0], arrL, i = 0, len = str.length; for ( ; i < len; ) { for ( arrL = arr.length; arrL--; arr[arrL] *= baseIn ); arr[ j = 0 ] += ALPHABET.indexOf( str.charAt( i++ ) ); for ( ; j < arr.length; j++ ) { if ( arr[j] > baseOut - 1 ) { if ( arr[j + 1] == null ) arr[j + 1] = 0; arr[j + 1] += arr[j] / baseOut | 0; arr[j] %= baseOut; } } } return arr.reverse(); } function toExponential( str, e ) { return ( str.length > 1 ? str.charAt(0) + '.' + str.slice(1) : str ) + ( e < 0 ? 'e' : 'e+' ) + e; } function toFixedPoint( str, e ) { var len, z; // Negative exponent? if ( e < 0 ) { // Prepend zeros. for ( z = '0.'; ++e; z += '0' ); str = z + str; // Positive exponent } else { len = str.length; // Append zeros. if ( ++e > len ) { for ( z = '0', e -= len; --e; z += '0' ); str += z; } else if ( e < len ) { str = str.slice( 0, e ) + '.' + str.slice(e); } } return str; } function truncate(n) { n = parseFloat(n); return n < 0 ? mathceil(n) : mathfloor(n); } // EXPORT BigNumber = constructorFactory(); BigNumber['default'] = BigNumber.BigNumber = BigNumber; // AMD. if ( typeof define == 'function' && define.amd ) { define( function () { return BigNumber; } ); // Node.js and other environments that support module.exports. } else if ( typeof module != 'undefined' && module.exports ) { module.exports = BigNumber; // Browser. } else { if ( !globalObj ) globalObj = typeof self != 'undefined' ? self : Function('return this')(); globalObj.BigNumber = BigNumber; } })(this); },{}],74:[function(require,module,exports){ // Reference https://github.com/bitcoin/bips/blob/master/bip-0066.mediawiki // Format: 0x30 [total-length] 0x02 [R-length] [R] 0x02 [S-length] [S] // NOTE: SIGHASH byte ignored AND restricted, truncate before use var Buffer = require('safe-buffer').Buffer function check (buffer) { if (buffer.length < 8) return false if (buffer.length > 72) return false if (buffer[0] !== 0x30) return false if (buffer[1] !== buffer.length - 2) return false if (buffer[2] !== 0x02) return false var lenR = buffer[3] if (lenR === 0) return false if (5 + lenR >= buffer.length) return false if (buffer[4 + lenR] !== 0x02) return false var lenS = buffer[5 + lenR] if (lenS === 0) return false if ((6 + lenR + lenS) !== buffer.length) return false if (buffer[4] & 0x80) return false if (lenR > 1 && (buffer[4] === 0x00) && !(buffer[5] & 0x80)) return false if (buffer[lenR + 6] & 0x80) return false if (lenS > 1 && (buffer[lenR + 6] === 0x00) && !(buffer[lenR + 7] & 0x80)) return false return true } function decode (buffer) { if (buffer.length < 8) throw new Error('DER sequence length is too short') if (buffer.length > 72) throw new Error('DER sequence length is too long') if (buffer[0] !== 0x30) throw new Error('Expected DER sequence') if (buffer[1] !== buffer.length - 2) throw new Error('DER sequence length is invalid') if (buffer[2] !== 0x02) throw new Error('Expected DER integer') var lenR = buffer[3] if (lenR === 0) throw new Error('R length is zero') if (5 + lenR >= buffer.length) throw new Error('R length is too long') if (buffer[4 + lenR] !== 0x02) throw new Error('Expected DER integer (2)') var lenS = buffer[5 + lenR] if (lenS === 0) throw new Error('S length is zero') if ((6 + lenR + lenS) !== buffer.length) throw new Error('S length is invalid') if (buffer[4] & 0x80) throw new Error('R value is negative') if (lenR > 1 && (buffer[4] === 0x00) && !(buffer[5] & 0x80)) throw new Error('R value excessively padded') if (buffer[lenR + 6] & 0x80) throw new Error('S value is negative') if (lenS > 1 && (buffer[lenR + 6] === 0x00) && !(buffer[lenR + 7] & 0x80)) throw new Error('S value excessively padded') // non-BIP66 - extract R, S values return { r: buffer.slice(4, 4 + lenR), s: buffer.slice(6 + lenR) } } /* * Expects r and s to be positive DER integers. * * The DER format uses the most significant bit as a sign bit (& 0x80). * If the significant bit is set AND the integer is positive, a 0x00 is prepended. * * Examples: * * 0 => 0x00 * 1 => 0x01 * -1 => 0xff * 127 => 0x7f * -127 => 0x81 * 128 => 0x0080 * -128 => 0x80 * 255 => 0x00ff * -255 => 0xff01 * 16300 => 0x3fac * -16300 => 0xc054 * 62300 => 0x00f35c * -62300 => 0xff0ca4 */ function encode (r, s) { var lenR = r.length var lenS = s.length if (lenR === 0) throw new Error('R length is zero') if (lenS === 0) throw new Error('S length is zero') if (lenR > 33) throw new Error('R length is too long') if (lenS > 33) throw new Error('S length is too long') if (r[0] & 0x80) throw new Error('R value is negative') if (s[0] & 0x80) throw new Error('S value is negative') if (lenR > 1 && (r[0] === 0x00) && !(r[1] & 0x80)) throw new Error('R value excessively padded') if (lenS > 1 && (s[0] === 0x00) && !(s[1] & 0x80)) throw new Error('S value excessively padded') var signature = Buffer.allocUnsafe(6 + lenR + lenS) // 0x30 [total-length] 0x02 [R-length] [R] 0x02 [S-length] [S] signature[0] = 0x30 signature[1] = signature.length - 2 signature[2] = 0x02 signature[3] = r.length r.copy(signature, 4) signature[4 + lenR] = 0x02 signature[5 + lenR] = s.length s.copy(signature, 6 + lenR) return signature } module.exports = { check: check, decode: decode, encode: encode } },{"safe-buffer":247}],75:[function(require,module,exports){ (function (module, exports) { 'use strict'; // Utils function assert (val, msg) { if (!val) throw new Error(msg || 'Assertion failed'); } // Could use `inherits` module, but don't want to move from single file // architecture yet. function inherits (ctor, superCtor) { ctor.super_ = superCtor; var TempCtor = function () {}; TempCtor.prototype = superCtor.prototype; ctor.prototype = new TempCtor(); ctor.prototype.constructor = ctor; } // BN function BN (number, base, endian) { if (BN.isBN(number)) { return number; } this.negative = 0; this.words = null; this.length = 0; // Reduction context this.red = null; if (number !== null) { if (base === 'le' || base === 'be') { endian = base; base = 10; } this._init(number || 0, base || 10, endian || 'be'); } } if (typeof module === 'object') { module.exports = BN; } else { exports.BN = BN; } BN.BN = BN; BN.wordSize = 26; var Buffer; try { Buffer = require('buffer').Buffer; } catch (e) { } BN.isBN = function isBN (num) { if (num instanceof BN) { return true; } return num !== null && typeof num === 'object' && num.constructor.wordSize === BN.wordSize && Array.isArray(num.words); }; BN.max = function max (left, right) { if (left.cmp(right) > 0) return left; return right; }; BN.min = function min (left, right) { if (left.cmp(right) < 0) return left; return right; }; BN.prototype._init = function init (number, base, endian) { if (typeof number === 'number') { return this._initNumber(number, base, endian); } if (typeof number === 'object') { return this._initArray(number, base, endian); } if (base === 'hex') { base = 16; } assert(base === (base | 0) && base >= 2 && base <= 36); number = number.toString().replace(/\s+/g, ''); var start = 0; if (number[0] === '-') { start++; } if (base === 16) { this._parseHex(number, start); } else { this._parseBase(number, base, start); } if (number[0] === '-') { this.negative = 1; } this.strip(); if (endian !== 'le') return; this._initArray(this.toArray(), base, endian); }; BN.prototype._initNumber = function _initNumber (number, base, endian) { if (number < 0) { this.negative = 1; number = -number; } if (number < 0x4000000) { this.words = [ number & 0x3ffffff ]; this.length = 1; } else if (number < 0x10000000000000) { this.words = [ number & 0x3ffffff, (number / 0x4000000) & 0x3ffffff ]; this.length = 2; } else { assert(number < 0x20000000000000); // 2 ^ 53 (unsafe) this.words = [ number & 0x3ffffff, (number / 0x4000000) & 0x3ffffff, 1 ]; this.length = 3; } if (endian !== 'le') return; // Reverse the bytes this._initArray(this.toArray(), base, endian); }; BN.prototype._initArray = function _initArray (number, base, endian) { // Perhaps a Uint8Array assert(typeof number.length === 'number'); if (number.length <= 0) { this.words = [ 0 ]; this.length = 1; return this; } this.length = Math.ceil(number.length / 3); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) { this.words[i] = 0; } var j, w; var off = 0; if (endian === 'be') { for (i = number.length - 1, j = 0; i >= 0; i -= 3) { w = number[i] | (number[i - 1] << 8) | (number[i - 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } else if (endian === 'le') { for (i = 0, j = 0; i < number.length; i += 3) { w = number[i] | (number[i + 1] << 8) | (number[i + 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } return this.strip(); }; function parseHex (str, start, end) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r <<= 4; // 'a' - 'f' if (c >= 49 && c <= 54) { r |= c - 49 + 0xa; // 'A' - 'F' } else if (c >= 17 && c <= 22) { r |= c - 17 + 0xa; // '0' - '9' } else { r |= c & 0xf; } } return r; } BN.prototype._parseHex = function _parseHex (number, start) { // Create possibly bigger array to ensure that it fits the number this.length = Math.ceil((number.length - start) / 6); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) { this.words[i] = 0; } var j, w; // Scan 24-bit chunks and add them to the number var off = 0; for (i = number.length - 6, j = 0; i >= start; i -= 6) { w = parseHex(number, i, i + 6); this.words[j] |= (w << off) & 0x3ffffff; // NOTE: `0x3fffff` is intentional here, 26bits max shift + 24bit hex limb this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; off += 24; if (off >= 26) { off -= 26; j++; } } if (i + 6 !== start) { w = parseHex(number, start, i + 6); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; } this.strip(); }; function parseBase (str, start, end, mul) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r *= mul; // 'a' if (c >= 49) { r += c - 49 + 0xa; // 'A' } else if (c >= 17) { r += c - 17 + 0xa; // '0' - '9' } else { r += c; } } return r; } BN.prototype._parseBase = function _parseBase (number, base, start) { // Initialize as zero this.words = [ 0 ]; this.length = 1; // Find length of limb in base for (var limbLen = 0, limbPow = 1; limbPow <= 0x3ffffff; limbPow *= base) { limbLen++; } limbLen--; limbPow = (limbPow / base) | 0; var total = number.length - start; var mod = total % limbLen; var end = Math.min(total, total - mod) + start; var word = 0; for (var i = start; i < end; i += limbLen) { word = parseBase(number, i, i + limbLen, base); this.imuln(limbPow); if (this.words[0] + word < 0x4000000) { this.words[0] += word; } else { this._iaddn(word); } } if (mod !== 0) { var pow = 1; word = parseBase(number, i, number.length, base); for (i = 0; i < mod; i++) { pow *= base; } this.imuln(pow); if (this.words[0] + word < 0x4000000) { this.words[0] += word; } else { this._iaddn(word); } } }; BN.prototype.copy = function copy (dest) { dest.words = new Array(this.length); for (var i = 0; i < this.length; i++) { dest.words[i] = this.words[i]; } dest.length = this.length; dest.negative = this.negative; dest.red = this.red; }; BN.prototype.clone = function clone () { var r = new BN(null); this.copy(r); return r; }; BN.prototype._expand = function _expand (size) { while (this.length < size) { this.words[this.length++] = 0; } return this; }; // Remove leading `0` from `this` BN.prototype.strip = function strip () { while (this.length > 1 && this.words[this.length - 1] === 0) { this.length--; } return this._normSign(); }; BN.prototype._normSign = function _normSign () { // -0 = 0 if (this.length === 1 && this.words[0] === 0) { this.negative = 0; } return this; }; BN.prototype.inspect = function inspect () { return (this.red ? ''; }; /* var zeros = []; var groupSizes = []; var groupBases = []; var s = ''; var i = -1; while (++i < BN.wordSize) { zeros[i] = s; s += '0'; } groupSizes[0] = 0; groupSizes[1] = 0; groupBases[0] = 0; groupBases[1] = 0; var base = 2 - 1; while (++base < 36 + 1) { var groupSize = 0; var groupBase = 1; while (groupBase < (1 << BN.wordSize) / base) { groupBase *= base; groupSize += 1; } groupSizes[base] = groupSize; groupBases[base] = groupBase; } */ var zeros = [ '', '0', '00', '000', '0000', '00000', '000000', '0000000', '00000000', '000000000', '0000000000', '00000000000', '000000000000', '0000000000000', '00000000000000', '000000000000000', '0000000000000000', '00000000000000000', '000000000000000000', '0000000000000000000', '00000000000000000000', '000000000000000000000', '0000000000000000000000', '00000000000000000000000', '000000000000000000000000', '0000000000000000000000000' ]; var groupSizes = [ 0, 0, 25, 16, 12, 11, 10, 9, 8, 8, 7, 7, 7, 7, 6, 6, 6, 6, 6, 6, 6, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 ]; var groupBases = [ 0, 0, 33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216, 43046721, 10000000, 19487171, 35831808, 62748517, 7529536, 11390625, 16777216, 24137569, 34012224, 47045881, 64000000, 4084101, 5153632, 6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149, 24300000, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176 ]; BN.prototype.toString = function toString (base, padding) { base = base || 10; padding = padding | 0 || 1; var out; if (base === 16 || base === 'hex') { out = ''; var off = 0; var carry = 0; for (var i = 0; i < this.length; i++) { var w = this.words[i]; var word = (((w << off) | carry) & 0xffffff).toString(16); carry = (w >>> (24 - off)) & 0xffffff; if (carry !== 0 || i !== this.length - 1) { out = zeros[6 - word.length] + word + out; } else { out = word + out; } off += 2; if (off >= 26) { off -= 26; i--; } } if (carry !== 0) { out = carry.toString(16) + out; } while (out.length % padding !== 0) { out = '0' + out; } if (this.negative !== 0) { out = '-' + out; } return out; } if (base === (base | 0) && base >= 2 && base <= 36) { // var groupSize = Math.floor(BN.wordSize * Math.LN2 / Math.log(base)); var groupSize = groupSizes[base]; // var groupBase = Math.pow(base, groupSize); var groupBase = groupBases[base]; out = ''; var c = this.clone(); c.negative = 0; while (!c.isZero()) { var r = c.modn(groupBase).toString(base); c = c.idivn(groupBase); if (!c.isZero()) { out = zeros[groupSize - r.length] + r + out; } else { out = r + out; } } if (this.isZero()) { out = '0' + out; } while (out.length % padding !== 0) { out = '0' + out; } if (this.negative !== 0) { out = '-' + out; } return out; } assert(false, 'Base should be between 2 and 36'); }; BN.prototype.toNumber = function toNumber () { var ret = this.words[0]; if (this.length === 2) { ret += this.words[1] * 0x4000000; } else if (this.length === 3 && this.words[2] === 0x01) { // NOTE: at this stage it is known that the top bit is set ret += 0x10000000000000 + (this.words[1] * 0x4000000); } else if (this.length > 2) { assert(false, 'Number can only safely store up to 53 bits'); } return (this.negative !== 0) ? -ret : ret; }; BN.prototype.toJSON = function toJSON () { return this.toString(16); }; BN.prototype.toBuffer = function toBuffer (endian, length) { assert(typeof Buffer !== 'undefined'); return this.toArrayLike(Buffer, endian, length); }; BN.prototype.toArray = function toArray (endian, length) { return this.toArrayLike(Array, endian, length); }; BN.prototype.toArrayLike = function toArrayLike (ArrayType, endian, length) { var byteLength = this.byteLength(); var reqLength = length || Math.max(1, byteLength); assert(byteLength <= reqLength, 'byte array longer than desired length'); assert(reqLength > 0, 'Requested array length <= 0'); this.strip(); var littleEndian = endian === 'le'; var res = new ArrayType(reqLength); var b, i; var q = this.clone(); if (!littleEndian) { // Assume big-endian for (i = 0; i < reqLength - byteLength; i++) { res[i] = 0; } for (i = 0; !q.isZero(); i++) { b = q.andln(0xff); q.iushrn(8); res[reqLength - i - 1] = b; } } else { for (i = 0; !q.isZero(); i++) { b = q.andln(0xff); q.iushrn(8); res[i] = b; } for (; i < reqLength; i++) { res[i] = 0; } } return res; }; if (Math.clz32) { BN.prototype._countBits = function _countBits (w) { return 32 - Math.clz32(w); }; } else { BN.prototype._countBits = function _countBits (w) { var t = w; var r = 0; if (t >= 0x1000) { r += 13; t >>>= 13; } if (t >= 0x40) { r += 7; t >>>= 7; } if (t >= 0x8) { r += 4; t >>>= 4; } if (t >= 0x02) { r += 2; t >>>= 2; } return r + t; }; } BN.prototype._zeroBits = function _zeroBits (w) { // Short-cut if (w === 0) return 26; var t = w; var r = 0; if ((t & 0x1fff) === 0) { r += 13; t >>>= 13; } if ((t & 0x7f) === 0) { r += 7; t >>>= 7; } if ((t & 0xf) === 0) { r += 4; t >>>= 4; } if ((t & 0x3) === 0) { r += 2; t >>>= 2; } if ((t & 0x1) === 0) { r++; } return r; }; // Return number of used bits in a BN BN.prototype.bitLength = function bitLength () { var w = this.words[this.length - 1]; var hi = this._countBits(w); return (this.length - 1) * 26 + hi; }; function toBitArray (num) { var w = new Array(num.bitLength()); for (var bit = 0; bit < w.length; bit++) { var off = (bit / 26) | 0; var wbit = bit % 26; w[bit] = (num.words[off] & (1 << wbit)) >>> wbit; } return w; } // Number of trailing zero bits BN.prototype.zeroBits = function zeroBits () { if (this.isZero()) return 0; var r = 0; for (var i = 0; i < this.length; i++) { var b = this._zeroBits(this.words[i]); r += b; if (b !== 26) break; } return r; }; BN.prototype.byteLength = function byteLength () { return Math.ceil(this.bitLength() / 8); }; BN.prototype.toTwos = function toTwos (width) { if (this.negative !== 0) { return this.abs().inotn(width).iaddn(1); } return this.clone(); }; BN.prototype.fromTwos = function fromTwos (width) { if (this.testn(width - 1)) { return this.notn(width).iaddn(1).ineg(); } return this.clone(); }; BN.prototype.isNeg = function isNeg () { return this.negative !== 0; }; // Return negative clone of `this` BN.prototype.neg = function neg () { return this.clone().ineg(); }; BN.prototype.ineg = function ineg () { if (!this.isZero()) { this.negative ^= 1; } return this; }; // Or `num` with `this` in-place BN.prototype.iuor = function iuor (num) { while (this.length < num.length) { this.words[this.length++] = 0; } for (var i = 0; i < num.length; i++) { this.words[i] = this.words[i] | num.words[i]; } return this.strip(); }; BN.prototype.ior = function ior (num) { assert((this.negative | num.negative) === 0); return this.iuor(num); }; // Or `num` with `this` BN.prototype.or = function or (num) { if (this.length > num.length) return this.clone().ior(num); return num.clone().ior(this); }; BN.prototype.uor = function uor (num) { if (this.length > num.length) return this.clone().iuor(num); return num.clone().iuor(this); }; // And `num` with `this` in-place BN.prototype.iuand = function iuand (num) { // b = min-length(num, this) var b; if (this.length > num.length) { b = num; } else { b = this; } for (var i = 0; i < b.length; i++) { this.words[i] = this.words[i] & num.words[i]; } this.length = b.length; return this.strip(); }; BN.prototype.iand = function iand (num) { assert((this.negative | num.negative) === 0); return this.iuand(num); }; // And `num` with `this` BN.prototype.and = function and (num) { if (this.length > num.length) return this.clone().iand(num); return num.clone().iand(this); }; BN.prototype.uand = function uand (num) { if (this.length > num.length) return this.clone().iuand(num); return num.clone().iuand(this); }; // Xor `num` with `this` in-place BN.prototype.iuxor = function iuxor (num) { // a.length > b.length var a; var b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } for (var i = 0; i < b.length; i++) { this.words[i] = a.words[i] ^ b.words[i]; } if (this !== a) { for (; i < a.length; i++) { this.words[i] = a.words[i]; } } this.length = a.length; return this.strip(); }; BN.prototype.ixor = function ixor (num) { assert((this.negative | num.negative) === 0); return this.iuxor(num); }; // Xor `num` with `this` BN.prototype.xor = function xor (num) { if (this.length > num.length) return this.clone().ixor(num); return num.clone().ixor(this); }; BN.prototype.uxor = function uxor (num) { if (this.length > num.length) return this.clone().iuxor(num); return num.clone().iuxor(this); }; // Not ``this`` with ``width`` bitwidth BN.prototype.inotn = function inotn (width) { assert(typeof width === 'number' && width >= 0); var bytesNeeded = Math.ceil(width / 26) | 0; var bitsLeft = width % 26; // Extend the buffer with leading zeroes this._expand(bytesNeeded); if (bitsLeft > 0) { bytesNeeded--; } // Handle complete words for (var i = 0; i < bytesNeeded; i++) { this.words[i] = ~this.words[i] & 0x3ffffff; } // Handle the residue if (bitsLeft > 0) { this.words[i] = ~this.words[i] & (0x3ffffff >> (26 - bitsLeft)); } // And remove leading zeroes return this.strip(); }; BN.prototype.notn = function notn (width) { return this.clone().inotn(width); }; // Set `bit` of `this` BN.prototype.setn = function setn (bit, val) { assert(typeof bit === 'number' && bit >= 0); var off = (bit / 26) | 0; var wbit = bit % 26; this._expand(off + 1); if (val) { this.words[off] = this.words[off] | (1 << wbit); } else { this.words[off] = this.words[off] & ~(1 << wbit); } return this.strip(); }; // Add `num` to `this` in-place BN.prototype.iadd = function iadd (num) { var r; // negative + positive if (this.negative !== 0 && num.negative === 0) { this.negative = 0; r = this.isub(num); this.negative ^= 1; return this._normSign(); // positive + negative } else if (this.negative === 0 && num.negative !== 0) { num.negative = 0; r = this.isub(num); num.negative = 1; return r._normSign(); } // a.length > b.length var a, b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { r = (a.words[i] | 0) + (b.words[i] | 0) + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } for (; carry !== 0 && i < a.length; i++) { r = (a.words[i] | 0) + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } this.length = a.length; if (carry !== 0) { this.words[this.length] = carry; this.length++; // Copy the rest of the words } else if (a !== this) { for (; i < a.length; i++) { this.words[i] = a.words[i]; } } return this; }; // Add `num` to `this` BN.prototype.add = function add (num) { var res; if (num.negative !== 0 && this.negative === 0) { num.negative = 0; res = this.sub(num); num.negative ^= 1; return res; } else if (num.negative === 0 && this.negative !== 0) { this.negative = 0; res = num.sub(this); this.negative = 1; return res; } if (this.length > num.length) return this.clone().iadd(num); return num.clone().iadd(this); }; // Subtract `num` from `this` in-place BN.prototype.isub = function isub (num) { // this - (-num) = this + num if (num.negative !== 0) { num.negative = 0; var r = this.iadd(num); num.negative = 1; return r._normSign(); // -this - num = -(this + num) } else if (this.negative !== 0) { this.negative = 0; this.iadd(num); this.negative = 1; return this._normSign(); } // At this point both numbers are positive var cmp = this.cmp(num); // Optimization - zeroify if (cmp === 0) { this.negative = 0; this.length = 1; this.words[0] = 0; return this; } // a > b var a, b; if (cmp > 0) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { r = (a.words[i] | 0) - (b.words[i] | 0) + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } for (; carry !== 0 && i < a.length; i++) { r = (a.words[i] | 0) + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } // Copy rest of the words if (carry === 0 && i < a.length && a !== this) { for (; i < a.length; i++) { this.words[i] = a.words[i]; } } this.length = Math.max(this.length, i); if (a !== this) { this.negative = 1; } return this.strip(); }; // Subtract `num` from `this` BN.prototype.sub = function sub (num) { return this.clone().isub(num); }; function smallMulTo (self, num, out) { out.negative = num.negative ^ self.negative; var len = (self.length + num.length) | 0; out.length = len; len = (len - 1) | 0; // Peel one iteration (compiler can't do it, because of code complexity) var a = self.words[0] | 0; var b = num.words[0] | 0; var r = a * b; var lo = r & 0x3ffffff; var carry = (r / 0x4000000) | 0; out.words[0] = lo; for (var k = 1; k < len; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = carry >>> 26; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - self.length + 1); j <= maxJ; j++) { var i = (k - j) | 0; a = self.words[i] | 0; b = num.words[j] | 0; r = a * b + rword; ncarry += (r / 0x4000000) | 0; rword = r & 0x3ffffff; } out.words[k] = rword | 0; carry = ncarry | 0; } if (carry !== 0) { out.words[k] = carry | 0; } else { out.length--; } return out.strip(); } // TODO(indutny): it may be reasonable to omit it for users who don't need // to work with 256-bit numbers, otherwise it gives 20% improvement for 256-bit // multiplication (like elliptic secp256k1). var comb10MulTo = function comb10MulTo (self, num, out) { var a = self.words; var b = num.words; var o = out.words; var c = 0; var lo; var mid; var hi; var a0 = a[0] | 0; var al0 = a0 & 0x1fff; var ah0 = a0 >>> 13; var a1 = a[1] | 0; var al1 = a1 & 0x1fff; var ah1 = a1 >>> 13; var a2 = a[2] | 0; var al2 = a2 & 0x1fff; var ah2 = a2 >>> 13; var a3 = a[3] | 0; var al3 = a3 & 0x1fff; var ah3 = a3 >>> 13; var a4 = a[4] | 0; var al4 = a4 & 0x1fff; var ah4 = a4 >>> 13; var a5 = a[5] | 0; var al5 = a5 & 0x1fff; var ah5 = a5 >>> 13; var a6 = a[6] | 0; var al6 = a6 & 0x1fff; var ah6 = a6 >>> 13; var a7 = a[7] | 0; var al7 = a7 & 0x1fff; var ah7 = a7 >>> 13; var a8 = a[8] | 0; var al8 = a8 & 0x1fff; var ah8 = a8 >>> 13; var a9 = a[9] | 0; var al9 = a9 & 0x1fff; var ah9 = a9 >>> 13; var b0 = b[0] | 0; var bl0 = b0 & 0x1fff; var bh0 = b0 >>> 13; var b1 = b[1] | 0; var bl1 = b1 & 0x1fff; var bh1 = b1 >>> 13; var b2 = b[2] | 0; var bl2 = b2 & 0x1fff; var bh2 = b2 >>> 13; var b3 = b[3] | 0; var bl3 = b3 & 0x1fff; var bh3 = b3 >>> 13; var b4 = b[4] | 0; var bl4 = b4 & 0x1fff; var bh4 = b4 >>> 13; var b5 = b[5] | 0; var bl5 = b5 & 0x1fff; var bh5 = b5 >>> 13; var b6 = b[6] | 0; var bl6 = b6 & 0x1fff; var bh6 = b6 >>> 13; var b7 = b[7] | 0; var bl7 = b7 & 0x1fff; var bh7 = b7 >>> 13; var b8 = b[8] | 0; var bl8 = b8 & 0x1fff; var bh8 = b8 >>> 13; var b9 = b[9] | 0; var bl9 = b9 & 0x1fff; var bh9 = b9 >>> 13; out.negative = self.negative ^ num.negative; out.length = 19; /* k = 0 */ lo = Math.imul(al0, bl0); mid = Math.imul(al0, bh0); mid = (mid + Math.imul(ah0, bl0)) | 0; hi = Math.imul(ah0, bh0); var w0 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w0 >>> 26)) | 0; w0 &= 0x3ffffff; /* k = 1 */ lo = Math.imul(al1, bl0); mid = Math.imul(al1, bh0); mid = (mid + Math.imul(ah1, bl0)) | 0; hi = Math.imul(ah1, bh0); lo = (lo + Math.imul(al0, bl1)) | 0; mid = (mid + Math.imul(al0, bh1)) | 0; mid = (mid + Math.imul(ah0, bl1)) | 0; hi = (hi + Math.imul(ah0, bh1)) | 0; var w1 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w1 >>> 26)) | 0; w1 &= 0x3ffffff; /* k = 2 */ lo = Math.imul(al2, bl0); mid = Math.imul(al2, bh0); mid = (mid + Math.imul(ah2, bl0)) | 0; hi = Math.imul(ah2, bh0); lo = (lo + Math.imul(al1, bl1)) | 0; mid = (mid + Math.imul(al1, bh1)) | 0; mid = (mid + Math.imul(ah1, bl1)) | 0; hi = (hi + Math.imul(ah1, bh1)) | 0; lo = (lo + Math.imul(al0, bl2)) | 0; mid = (mid + Math.imul(al0, bh2)) | 0; mid = (mid + Math.imul(ah0, bl2)) | 0; hi = (hi + Math.imul(ah0, bh2)) | 0; var w2 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w2 >>> 26)) | 0; w2 &= 0x3ffffff; /* k = 3 */ lo = Math.imul(al3, bl0); mid = Math.imul(al3, bh0); mid = (mid + Math.imul(ah3, bl0)) | 0; hi = Math.imul(ah3, bh0); lo = (lo + Math.imul(al2, bl1)) | 0; mid = (mid + Math.imul(al2, bh1)) | 0; mid = (mid + Math.imul(ah2, bl1)) | 0; hi = (hi + Math.imul(ah2, bh1)) | 0; lo = (lo + Math.imul(al1, bl2)) | 0; mid = (mid + Math.imul(al1, bh2)) | 0; mid = (mid + Math.imul(ah1, bl2)) | 0; hi = (hi + Math.imul(ah1, bh2)) | 0; lo = (lo + Math.imul(al0, bl3)) | 0; mid = (mid + Math.imul(al0, bh3)) | 0; mid = (mid + Math.imul(ah0, bl3)) | 0; hi = (hi + Math.imul(ah0, bh3)) | 0; var w3 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w3 >>> 26)) | 0; w3 &= 0x3ffffff; /* k = 4 */ lo = Math.imul(al4, bl0); mid = Math.imul(al4, bh0); mid = (mid + Math.imul(ah4, bl0)) | 0; hi = Math.imul(ah4, bh0); lo = (lo + Math.imul(al3, bl1)) | 0; mid = (mid + Math.imul(al3, bh1)) | 0; mid = (mid + Math.imul(ah3, bl1)) | 0; hi = (hi + Math.imul(ah3, bh1)) | 0; lo = (lo + Math.imul(al2, bl2)) | 0; mid = (mid + Math.imul(al2, bh2)) | 0; mid = (mid + Math.imul(ah2, bl2)) | 0; hi = (hi + Math.imul(ah2, bh2)) | 0; lo = (lo + Math.imul(al1, bl3)) | 0; mid = (mid + Math.imul(al1, bh3)) | 0; mid = (mid + Math.imul(ah1, bl3)) | 0; hi = (hi + Math.imul(ah1, bh3)) | 0; lo = (lo + Math.imul(al0, bl4)) | 0; mid = (mid + Math.imul(al0, bh4)) | 0; mid = (mid + Math.imul(ah0, bl4)) | 0; hi = (hi + Math.imul(ah0, bh4)) | 0; var w4 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w4 >>> 26)) | 0; w4 &= 0x3ffffff; /* k = 5 */ lo = Math.imul(al5, bl0); mid = Math.imul(al5, bh0); mid = (mid + Math.imul(ah5, bl0)) | 0; hi = Math.imul(ah5, bh0); lo = (lo + Math.imul(al4, bl1)) | 0; mid = (mid + Math.imul(al4, bh1)) | 0; mid = (mid + Math.imul(ah4, bl1)) | 0; hi = (hi + Math.imul(ah4, bh1)) | 0; lo = (lo + Math.imul(al3, bl2)) | 0; mid = (mid + Math.imul(al3, bh2)) | 0; mid = (mid + Math.imul(ah3, bl2)) | 0; hi = (hi + Math.imul(ah3, bh2)) | 0; lo = (lo + Math.imul(al2, bl3)) | 0; mid = (mid + Math.imul(al2, bh3)) | 0; mid = (mid + Math.imul(ah2, bl3)) | 0; hi = (hi + Math.imul(ah2, bh3)) | 0; lo = (lo + Math.imul(al1, bl4)) | 0; mid = (mid + Math.imul(al1, bh4)) | 0; mid = (mid + Math.imul(ah1, bl4)) | 0; hi = (hi + Math.imul(ah1, bh4)) | 0; lo = (lo + Math.imul(al0, bl5)) | 0; mid = (mid + Math.imul(al0, bh5)) | 0; mid = (mid + Math.imul(ah0, bl5)) | 0; hi = (hi + Math.imul(ah0, bh5)) | 0; var w5 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w5 >>> 26)) | 0; w5 &= 0x3ffffff; /* k = 6 */ lo = Math.imul(al6, bl0); mid = Math.imul(al6, bh0); mid = (mid + Math.imul(ah6, bl0)) | 0; hi = Math.imul(ah6, bh0); lo = (lo + Math.imul(al5, bl1)) | 0; mid = (mid + Math.imul(al5, bh1)) | 0; mid = (mid + Math.imul(ah5, bl1)) | 0; hi = (hi + Math.imul(ah5, bh1)) | 0; lo = (lo + Math.imul(al4, bl2)) | 0; mid = (mid + Math.imul(al4, bh2)) | 0; mid = (mid + Math.imul(ah4, bl2)) | 0; hi = (hi + Math.imul(ah4, bh2)) | 0; lo = (lo + Math.imul(al3, bl3)) | 0; mid = (mid + Math.imul(al3, bh3)) | 0; mid = (mid + Math.imul(ah3, bl3)) | 0; hi = (hi + Math.imul(ah3, bh3)) | 0; lo = (lo + Math.imul(al2, bl4)) | 0; mid = (mid + Math.imul(al2, bh4)) | 0; mid = (mid + Math.imul(ah2, bl4)) | 0; hi = (hi + Math.imul(ah2, bh4)) | 0; lo = (lo + Math.imul(al1, bl5)) | 0; mid = (mid + Math.imul(al1, bh5)) | 0; mid = (mid + Math.imul(ah1, bl5)) | 0; hi = (hi + Math.imul(ah1, bh5)) | 0; lo = (lo + Math.imul(al0, bl6)) | 0; mid = (mid + Math.imul(al0, bh6)) | 0; mid = (mid + Math.imul(ah0, bl6)) | 0; hi = (hi + Math.imul(ah0, bh6)) | 0; var w6 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w6 >>> 26)) | 0; w6 &= 0x3ffffff; /* k = 7 */ lo = Math.imul(al7, bl0); mid = Math.imul(al7, bh0); mid = (mid + Math.imul(ah7, bl0)) | 0; hi = Math.imul(ah7, bh0); lo = (lo + Math.imul(al6, bl1)) | 0; mid = (mid + Math.imul(al6, bh1)) | 0; mid = (mid + Math.imul(ah6, bl1)) | 0; hi = (hi + Math.imul(ah6, bh1)) | 0; lo = (lo + Math.imul(al5, bl2)) | 0; mid = (mid + Math.imul(al5, bh2)) | 0; mid = (mid + Math.imul(ah5, bl2)) | 0; hi = (hi + Math.imul(ah5, bh2)) | 0; lo = (lo + Math.imul(al4, bl3)) | 0; mid = (mid + Math.imul(al4, bh3)) | 0; mid = (mid + Math.imul(ah4, bl3)) | 0; hi = (hi + Math.imul(ah4, bh3)) | 0; lo = (lo + Math.imul(al3, bl4)) | 0; mid = (mid + Math.imul(al3, bh4)) | 0; mid = (mid + Math.imul(ah3, bl4)) | 0; hi = (hi + Math.imul(ah3, bh4)) | 0; lo = (lo + Math.imul(al2, bl5)) | 0; mid = (mid + Math.imul(al2, bh5)) | 0; mid = (mid + Math.imul(ah2, bl5)) | 0; hi = (hi + Math.imul(ah2, bh5)) | 0; lo = (lo + Math.imul(al1, bl6)) | 0; mid = (mid + Math.imul(al1, bh6)) | 0; mid = (mid + Math.imul(ah1, bl6)) | 0; hi = (hi + Math.imul(ah1, bh6)) | 0; lo = (lo + Math.imul(al0, bl7)) | 0; mid = (mid + Math.imul(al0, bh7)) | 0; mid = (mid + Math.imul(ah0, bl7)) | 0; hi = (hi + Math.imul(ah0, bh7)) | 0; var w7 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w7 >>> 26)) | 0; w7 &= 0x3ffffff; /* k = 8 */ lo = Math.imul(al8, bl0); mid = Math.imul(al8, bh0); mid = (mid + Math.imul(ah8, bl0)) | 0; hi = Math.imul(ah8, bh0); lo = (lo + Math.imul(al7, bl1)) | 0; mid = (mid + Math.imul(al7, bh1)) | 0; mid = (mid + Math.imul(ah7, bl1)) | 0; hi = (hi + Math.imul(ah7, bh1)) | 0; lo = (lo + Math.imul(al6, bl2)) | 0; mid = (mid + Math.imul(al6, bh2)) | 0; mid = (mid + Math.imul(ah6, bl2)) | 0; hi = (hi + Math.imul(ah6, bh2)) | 0; lo = (lo + Math.imul(al5, bl3)) | 0; mid = (mid + Math.imul(al5, bh3)) | 0; mid = (mid + Math.imul(ah5, bl3)) | 0; hi = (hi + Math.imul(ah5, bh3)) | 0; lo = (lo + Math.imul(al4, bl4)) | 0; mid = (mid + Math.imul(al4, bh4)) | 0; mid = (mid + Math.imul(ah4, bl4)) | 0; hi = (hi + Math.imul(ah4, bh4)) | 0; lo = (lo + Math.imul(al3, bl5)) | 0; mid = (mid + Math.imul(al3, bh5)) | 0; mid = (mid + Math.imul(ah3, bl5)) | 0; hi = (hi + Math.imul(ah3, bh5)) | 0; lo = (lo + Math.imul(al2, bl6)) | 0; mid = (mid + Math.imul(al2, bh6)) | 0; mid = (mid + Math.imul(ah2, bl6)) | 0; hi = (hi + Math.imul(ah2, bh6)) | 0; lo = (lo + Math.imul(al1, bl7)) | 0; mid = (mid + Math.imul(al1, bh7)) | 0; mid = (mid + Math.imul(ah1, bl7)) | 0; hi = (hi + Math.imul(ah1, bh7)) | 0; lo = (lo + Math.imul(al0, bl8)) | 0; mid = (mid + Math.imul(al0, bh8)) | 0; mid = (mid + Math.imul(ah0, bl8)) | 0; hi = (hi + Math.imul(ah0, bh8)) | 0; var w8 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w8 >>> 26)) | 0; w8 &= 0x3ffffff; /* k = 9 */ lo = Math.imul(al9, bl0); mid = Math.imul(al9, bh0); mid = (mid + Math.imul(ah9, bl0)) | 0; hi = Math.imul(ah9, bh0); lo = (lo + Math.imul(al8, bl1)) | 0; mid = (mid + Math.imul(al8, bh1)) | 0; mid = (mid + Math.imul(ah8, bl1)) | 0; hi = (hi + Math.imul(ah8, bh1)) | 0; lo = (lo + Math.imul(al7, bl2)) | 0; mid = (mid + Math.imul(al7, bh2)) | 0; mid = (mid + Math.imul(ah7, bl2)) | 0; hi = (hi + Math.imul(ah7, bh2)) | 0; lo = (lo + Math.imul(al6, bl3)) | 0; mid = (mid + Math.imul(al6, bh3)) | 0; mid = (mid + Math.imul(ah6, bl3)) | 0; hi = (hi + Math.imul(ah6, bh3)) | 0; lo = (lo + Math.imul(al5, bl4)) | 0; mid = (mid + Math.imul(al5, bh4)) | 0; mid = (mid + Math.imul(ah5, bl4)) | 0; hi = (hi + Math.imul(ah5, bh4)) | 0; lo = (lo + Math.imul(al4, bl5)) | 0; mid = (mid + Math.imul(al4, bh5)) | 0; mid = (mid + Math.imul(ah4, bl5)) | 0; hi = (hi + Math.imul(ah4, bh5)) | 0; lo = (lo + Math.imul(al3, bl6)) | 0; mid = (mid + Math.imul(al3, bh6)) | 0; mid = (mid + Math.imul(ah3, bl6)) | 0; hi = (hi + Math.imul(ah3, bh6)) | 0; lo = (lo + Math.imul(al2, bl7)) | 0; mid = (mid + Math.imul(al2, bh7)) | 0; mid = (mid + Math.imul(ah2, bl7)) | 0; hi = (hi + Math.imul(ah2, bh7)) | 0; lo = (lo + Math.imul(al1, bl8)) | 0; mid = (mid + Math.imul(al1, bh8)) | 0; mid = (mid + Math.imul(ah1, bl8)) | 0; hi = (hi + Math.imul(ah1, bh8)) | 0; lo = (lo + Math.imul(al0, bl9)) | 0; mid = (mid + Math.imul(al0, bh9)) | 0; mid = (mid + Math.imul(ah0, bl9)) | 0; hi = (hi + Math.imul(ah0, bh9)) | 0; var w9 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w9 >>> 26)) | 0; w9 &= 0x3ffffff; /* k = 10 */ lo = Math.imul(al9, bl1); mid = Math.imul(al9, bh1); mid = (mid + Math.imul(ah9, bl1)) | 0; hi = Math.imul(ah9, bh1); lo = (lo + Math.imul(al8, bl2)) | 0; mid = (mid + Math.imul(al8, bh2)) | 0; mid = (mid + Math.imul(ah8, bl2)) | 0; hi = (hi + Math.imul(ah8, bh2)) | 0; lo = (lo + Math.imul(al7, bl3)) | 0; mid = (mid + Math.imul(al7, bh3)) | 0; mid = (mid + Math.imul(ah7, bl3)) | 0; hi = (hi + Math.imul(ah7, bh3)) | 0; lo = (lo + Math.imul(al6, bl4)) | 0; mid = (mid + Math.imul(al6, bh4)) | 0; mid = (mid + Math.imul(ah6, bl4)) | 0; hi = (hi + Math.imul(ah6, bh4)) | 0; lo = (lo + Math.imul(al5, bl5)) | 0; mid = (mid + Math.imul(al5, bh5)) | 0; mid = (mid + Math.imul(ah5, bl5)) | 0; hi = (hi + Math.imul(ah5, bh5)) | 0; lo = (lo + Math.imul(al4, bl6)) | 0; mid = (mid + Math.imul(al4, bh6)) | 0; mid = (mid + Math.imul(ah4, bl6)) | 0; hi = (hi + Math.imul(ah4, bh6)) | 0; lo = (lo + Math.imul(al3, bl7)) | 0; mid = (mid + Math.imul(al3, bh7)) | 0; mid = (mid + Math.imul(ah3, bl7)) | 0; hi = (hi + Math.imul(ah3, bh7)) | 0; lo = (lo + Math.imul(al2, bl8)) | 0; mid = (mid + Math.imul(al2, bh8)) | 0; mid = (mid + Math.imul(ah2, bl8)) | 0; hi = (hi + Math.imul(ah2, bh8)) | 0; lo = (lo + Math.imul(al1, bl9)) | 0; mid = (mid + Math.imul(al1, bh9)) | 0; mid = (mid + Math.imul(ah1, bl9)) | 0; hi = (hi + Math.imul(ah1, bh9)) | 0; var w10 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w10 >>> 26)) | 0; w10 &= 0x3ffffff; /* k = 11 */ lo = Math.imul(al9, bl2); mid = Math.imul(al9, bh2); mid = (mid + Math.imul(ah9, bl2)) | 0; hi = Math.imul(ah9, bh2); lo = (lo + Math.imul(al8, bl3)) | 0; mid = (mid + Math.imul(al8, bh3)) | 0; mid = (mid + Math.imul(ah8, bl3)) | 0; hi = (hi + Math.imul(ah8, bh3)) | 0; lo = (lo + Math.imul(al7, bl4)) | 0; mid = (mid + Math.imul(al7, bh4)) | 0; mid = (mid + Math.imul(ah7, bl4)) | 0; hi = (hi + Math.imul(ah7, bh4)) | 0; lo = (lo + Math.imul(al6, bl5)) | 0; mid = (mid + Math.imul(al6, bh5)) | 0; mid = (mid + Math.imul(ah6, bl5)) | 0; hi = (hi + Math.imul(ah6, bh5)) | 0; lo = (lo + Math.imul(al5, bl6)) | 0; mid = (mid + Math.imul(al5, bh6)) | 0; mid = (mid + Math.imul(ah5, bl6)) | 0; hi = (hi + Math.imul(ah5, bh6)) | 0; lo = (lo + Math.imul(al4, bl7)) | 0; mid = (mid + Math.imul(al4, bh7)) | 0; mid = (mid + Math.imul(ah4, bl7)) | 0; hi = (hi + Math.imul(ah4, bh7)) | 0; lo = (lo + Math.imul(al3, bl8)) | 0; mid = (mid + Math.imul(al3, bh8)) | 0; mid = (mid + Math.imul(ah3, bl8)) | 0; hi = (hi + Math.imul(ah3, bh8)) | 0; lo = (lo + Math.imul(al2, bl9)) | 0; mid = (mid + Math.imul(al2, bh9)) | 0; mid = (mid + Math.imul(ah2, bl9)) | 0; hi = (hi + Math.imul(ah2, bh9)) | 0; var w11 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w11 >>> 26)) | 0; w11 &= 0x3ffffff; /* k = 12 */ lo = Math.imul(al9, bl3); mid = Math.imul(al9, bh3); mid = (mid + Math.imul(ah9, bl3)) | 0; hi = Math.imul(ah9, bh3); lo = (lo + Math.imul(al8, bl4)) | 0; mid = (mid + Math.imul(al8, bh4)) | 0; mid = (mid + Math.imul(ah8, bl4)) | 0; hi = (hi + Math.imul(ah8, bh4)) | 0; lo = (lo + Math.imul(al7, bl5)) | 0; mid = (mid + Math.imul(al7, bh5)) | 0; mid = (mid + Math.imul(ah7, bl5)) | 0; hi = (hi + Math.imul(ah7, bh5)) | 0; lo = (lo + Math.imul(al6, bl6)) | 0; mid = (mid + Math.imul(al6, bh6)) | 0; mid = (mid + Math.imul(ah6, bl6)) | 0; hi = (hi + Math.imul(ah6, bh6)) | 0; lo = (lo + Math.imul(al5, bl7)) | 0; mid = (mid + Math.imul(al5, bh7)) | 0; mid = (mid + Math.imul(ah5, bl7)) | 0; hi = (hi + Math.imul(ah5, bh7)) | 0; lo = (lo + Math.imul(al4, bl8)) | 0; mid = (mid + Math.imul(al4, bh8)) | 0; mid = (mid + Math.imul(ah4, bl8)) | 0; hi = (hi + Math.imul(ah4, bh8)) | 0; lo = (lo + Math.imul(al3, bl9)) | 0; mid = (mid + Math.imul(al3, bh9)) | 0; mid = (mid + Math.imul(ah3, bl9)) | 0; hi = (hi + Math.imul(ah3, bh9)) | 0; var w12 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w12 >>> 26)) | 0; w12 &= 0x3ffffff; /* k = 13 */ lo = Math.imul(al9, bl4); mid = Math.imul(al9, bh4); mid = (mid + Math.imul(ah9, bl4)) | 0; hi = Math.imul(ah9, bh4); lo = (lo + Math.imul(al8, bl5)) | 0; mid = (mid + Math.imul(al8, bh5)) | 0; mid = (mid + Math.imul(ah8, bl5)) | 0; hi = (hi + Math.imul(ah8, bh5)) | 0; lo = (lo + Math.imul(al7, bl6)) | 0; mid = (mid + Math.imul(al7, bh6)) | 0; mid = (mid + Math.imul(ah7, bl6)) | 0; hi = (hi + Math.imul(ah7, bh6)) | 0; lo = (lo + Math.imul(al6, bl7)) | 0; mid = (mid + Math.imul(al6, bh7)) | 0; mid = (mid + Math.imul(ah6, bl7)) | 0; hi = (hi + Math.imul(ah6, bh7)) | 0; lo = (lo + Math.imul(al5, bl8)) | 0; mid = (mid + Math.imul(al5, bh8)) | 0; mid = (mid + Math.imul(ah5, bl8)) | 0; hi = (hi + Math.imul(ah5, bh8)) | 0; lo = (lo + Math.imul(al4, bl9)) | 0; mid = (mid + Math.imul(al4, bh9)) | 0; mid = (mid + Math.imul(ah4, bl9)) | 0; hi = (hi + Math.imul(ah4, bh9)) | 0; var w13 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w13 >>> 26)) | 0; w13 &= 0x3ffffff; /* k = 14 */ lo = Math.imul(al9, bl5); mid = Math.imul(al9, bh5); mid = (mid + Math.imul(ah9, bl5)) | 0; hi = Math.imul(ah9, bh5); lo = (lo + Math.imul(al8, bl6)) | 0; mid = (mid + Math.imul(al8, bh6)) | 0; mid = (mid + Math.imul(ah8, bl6)) | 0; hi = (hi + Math.imul(ah8, bh6)) | 0; lo = (lo + Math.imul(al7, bl7)) | 0; mid = (mid + Math.imul(al7, bh7)) | 0; mid = (mid + Math.imul(ah7, bl7)) | 0; hi = (hi + Math.imul(ah7, bh7)) | 0; lo = (lo + Math.imul(al6, bl8)) | 0; mid = (mid + Math.imul(al6, bh8)) | 0; mid = (mid + Math.imul(ah6, bl8)) | 0; hi = (hi + Math.imul(ah6, bh8)) | 0; lo = (lo + Math.imul(al5, bl9)) | 0; mid = (mid + Math.imul(al5, bh9)) | 0; mid = (mid + Math.imul(ah5, bl9)) | 0; hi = (hi + Math.imul(ah5, bh9)) | 0; var w14 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w14 >>> 26)) | 0; w14 &= 0x3ffffff; /* k = 15 */ lo = Math.imul(al9, bl6); mid = Math.imul(al9, bh6); mid = (mid + Math.imul(ah9, bl6)) | 0; hi = Math.imul(ah9, bh6); lo = (lo + Math.imul(al8, bl7)) | 0; mid = (mid + Math.imul(al8, bh7)) | 0; mid = (mid + Math.imul(ah8, bl7)) | 0; hi = (hi + Math.imul(ah8, bh7)) | 0; lo = (lo + Math.imul(al7, bl8)) | 0; mid = (mid + Math.imul(al7, bh8)) | 0; mid = (mid + Math.imul(ah7, bl8)) | 0; hi = (hi + Math.imul(ah7, bh8)) | 0; lo = (lo + Math.imul(al6, bl9)) | 0; mid = (mid + Math.imul(al6, bh9)) | 0; mid = (mid + Math.imul(ah6, bl9)) | 0; hi = (hi + Math.imul(ah6, bh9)) | 0; var w15 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w15 >>> 26)) | 0; w15 &= 0x3ffffff; /* k = 16 */ lo = Math.imul(al9, bl7); mid = Math.imul(al9, bh7); mid = (mid + Math.imul(ah9, bl7)) | 0; hi = Math.imul(ah9, bh7); lo = (lo + Math.imul(al8, bl8)) | 0; mid = (mid + Math.imul(al8, bh8)) | 0; mid = (mid + Math.imul(ah8, bl8)) | 0; hi = (hi + Math.imul(ah8, bh8)) | 0; lo = (lo + Math.imul(al7, bl9)) | 0; mid = (mid + Math.imul(al7, bh9)) | 0; mid = (mid + Math.imul(ah7, bl9)) | 0; hi = (hi + Math.imul(ah7, bh9)) | 0; var w16 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w16 >>> 26)) | 0; w16 &= 0x3ffffff; /* k = 17 */ lo = Math.imul(al9, bl8); mid = Math.imul(al9, bh8); mid = (mid + Math.imul(ah9, bl8)) | 0; hi = Math.imul(ah9, bh8); lo = (lo + Math.imul(al8, bl9)) | 0; mid = (mid + Math.imul(al8, bh9)) | 0; mid = (mid + Math.imul(ah8, bl9)) | 0; hi = (hi + Math.imul(ah8, bh9)) | 0; var w17 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w17 >>> 26)) | 0; w17 &= 0x3ffffff; /* k = 18 */ lo = Math.imul(al9, bl9); mid = Math.imul(al9, bh9); mid = (mid + Math.imul(ah9, bl9)) | 0; hi = Math.imul(ah9, bh9); var w18 = (((c + lo) | 0) + ((mid & 0x1fff) << 13)) | 0; c = (((hi + (mid >>> 13)) | 0) + (w18 >>> 26)) | 0; w18 &= 0x3ffffff; o[0] = w0; o[1] = w1; o[2] = w2; o[3] = w3; o[4] = w4; o[5] = w5; o[6] = w6; o[7] = w7; o[8] = w8; o[9] = w9; o[10] = w10; o[11] = w11; o[12] = w12; o[13] = w13; o[14] = w14; o[15] = w15; o[16] = w16; o[17] = w17; o[18] = w18; if (c !== 0) { o[19] = c; out.length++; } return out; }; // Polyfill comb if (!Math.imul) { comb10MulTo = smallMulTo; } function bigMulTo (self, num, out) { out.negative = num.negative ^ self.negative; out.length = self.length + num.length; var carry = 0; var hncarry = 0; for (var k = 0; k < out.length - 1; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = hncarry; hncarry = 0; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - self.length + 1); j <= maxJ; j++) { var i = k - j; var a = self.words[i] | 0; var b = num.words[j] | 0; var r = a * b; var lo = r & 0x3ffffff; ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0; lo = (lo + rword) | 0; rword = lo & 0x3ffffff; ncarry = (ncarry + (lo >>> 26)) | 0; hncarry += ncarry >>> 26; ncarry &= 0x3ffffff; } out.words[k] = rword; carry = ncarry; ncarry = hncarry; } if (carry !== 0) { out.words[k] = carry; } else { out.length--; } return out.strip(); } function jumboMulTo (self, num, out) { var fftm = new FFTM(); return fftm.mulp(self, num, out); } BN.prototype.mulTo = function mulTo (num, out) { var res; var len = this.length + num.length; if (this.length === 10 && num.length === 10) { res = comb10MulTo(this, num, out); } else if (len < 63) { res = smallMulTo(this, num, out); } else if (len < 1024) { res = bigMulTo(this, num, out); } else { res = jumboMulTo(this, num, out); } return res; }; // Cooley-Tukey algorithm for FFT // slightly revisited to rely on looping instead of recursion function FFTM (x, y) { this.x = x; this.y = y; } FFTM.prototype.makeRBT = function makeRBT (N) { var t = new Array(N); var l = BN.prototype._countBits(N) - 1; for (var i = 0; i < N; i++) { t[i] = this.revBin(i, l, N); } return t; }; // Returns binary-reversed representation of `x` FFTM.prototype.revBin = function revBin (x, l, N) { if (x === 0 || x === N - 1) return x; var rb = 0; for (var i = 0; i < l; i++) { rb |= (x & 1) << (l - i - 1); x >>= 1; } return rb; }; // Performs "tweedling" phase, therefore 'emulating' // behaviour of the recursive algorithm FFTM.prototype.permute = function permute (rbt, rws, iws, rtws, itws, N) { for (var i = 0; i < N; i++) { rtws[i] = rws[rbt[i]]; itws[i] = iws[rbt[i]]; } }; FFTM.prototype.transform = function transform (rws, iws, rtws, itws, N, rbt) { this.permute(rbt, rws, iws, rtws, itws, N); for (var s = 1; s < N; s <<= 1) { var l = s << 1; var rtwdf = Math.cos(2 * Math.PI / l); var itwdf = Math.sin(2 * Math.PI / l); for (var p = 0; p < N; p += l) { var rtwdf_ = rtwdf; var itwdf_ = itwdf; for (var j = 0; j < s; j++) { var re = rtws[p + j]; var ie = itws[p + j]; var ro = rtws[p + j + s]; var io = itws[p + j + s]; var rx = rtwdf_ * ro - itwdf_ * io; io = rtwdf_ * io + itwdf_ * ro; ro = rx; rtws[p + j] = re + ro; itws[p + j] = ie + io; rtws[p + j + s] = re - ro; itws[p + j + s] = ie - io; /* jshint maxdepth : false */ if (j !== l) { rx = rtwdf * rtwdf_ - itwdf * itwdf_; itwdf_ = rtwdf * itwdf_ + itwdf * rtwdf_; rtwdf_ = rx; } } } } }; FFTM.prototype.guessLen13b = function guessLen13b (n, m) { var N = Math.max(m, n) | 1; var odd = N & 1; var i = 0; for (N = N / 2 | 0; N; N = N >>> 1) { i++; } return 1 << i + 1 + odd; }; FFTM.prototype.conjugate = function conjugate (rws, iws, N) { if (N <= 1) return; for (var i = 0; i < N / 2; i++) { var t = rws[i]; rws[i] = rws[N - i - 1]; rws[N - i - 1] = t; t = iws[i]; iws[i] = -iws[N - i - 1]; iws[N - i - 1] = -t; } }; FFTM.prototype.normalize13b = function normalize13b (ws, N) { var carry = 0; for (var i = 0; i < N / 2; i++) { var w = Math.round(ws[2 * i + 1] / N) * 0x2000 + Math.round(ws[2 * i] / N) + carry; ws[i] = w & 0x3ffffff; if (w < 0x4000000) { carry = 0; } else { carry = w / 0x4000000 | 0; } } return ws; }; FFTM.prototype.convert13b = function convert13b (ws, len, rws, N) { var carry = 0; for (var i = 0; i < len; i++) { carry = carry + (ws[i] | 0); rws[2 * i] = carry & 0x1fff; carry = carry >>> 13; rws[2 * i + 1] = carry & 0x1fff; carry = carry >>> 13; } // Pad with zeroes for (i = 2 * len; i < N; ++i) { rws[i] = 0; } assert(carry === 0); assert((carry & ~0x1fff) === 0); }; FFTM.prototype.stub = function stub (N) { var ph = new Array(N); for (var i = 0; i < N; i++) { ph[i] = 0; } return ph; }; FFTM.prototype.mulp = function mulp (x, y, out) { var N = 2 * this.guessLen13b(x.length, y.length); var rbt = this.makeRBT(N); var _ = this.stub(N); var rws = new Array(N); var rwst = new Array(N); var iwst = new Array(N); var nrws = new Array(N); var nrwst = new Array(N); var niwst = new Array(N); var rmws = out.words; rmws.length = N; this.convert13b(x.words, x.length, rws, N); this.convert13b(y.words, y.length, nrws, N); this.transform(rws, _, rwst, iwst, N, rbt); this.transform(nrws, _, nrwst, niwst, N, rbt); for (var i = 0; i < N; i++) { var rx = rwst[i] * nrwst[i] - iwst[i] * niwst[i]; iwst[i] = rwst[i] * niwst[i] + iwst[i] * nrwst[i]; rwst[i] = rx; } this.conjugate(rwst, iwst, N); this.transform(rwst, iwst, rmws, _, N, rbt); this.conjugate(rmws, _, N); this.normalize13b(rmws, N); out.negative = x.negative ^ y.negative; out.length = x.length + y.length; return out.strip(); }; // Multiply `this` by `num` BN.prototype.mul = function mul (num) { var out = new BN(null); out.words = new Array(this.length + num.length); return this.mulTo(num, out); }; // Multiply employing FFT BN.prototype.mulf = function mulf (num) { var out = new BN(null); out.words = new Array(this.length + num.length); return jumboMulTo(this, num, out); }; // In-place Multiplication BN.prototype.imul = function imul (num) { return this.clone().mulTo(num, this); }; BN.prototype.imuln = function imuln (num) { assert(typeof num === 'number'); assert(num < 0x4000000); // Carry var carry = 0; for (var i = 0; i < this.length; i++) { var w = (this.words[i] | 0) * num; var lo = (w & 0x3ffffff) + (carry & 0x3ffffff); carry >>= 26; carry += (w / 0x4000000) | 0; // NOTE: lo is 27bit maximum carry += lo >>> 26; this.words[i] = lo & 0x3ffffff; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; BN.prototype.muln = function muln (num) { return this.clone().imuln(num); }; // `this` * `this` BN.prototype.sqr = function sqr () { return this.mul(this); }; // `this` * `this` in-place BN.prototype.isqr = function isqr () { return this.imul(this.clone()); }; // Math.pow(`this`, `num`) BN.prototype.pow = function pow (num) { var w = toBitArray(num); if (w.length === 0) return new BN(1); // Skip leading zeroes var res = this; for (var i = 0; i < w.length; i++, res = res.sqr()) { if (w[i] !== 0) break; } if (++i < w.length) { for (var q = res.sqr(); i < w.length; i++, q = q.sqr()) { if (w[i] === 0) continue; res = res.mul(q); } } return res; }; // Shift-left in-place BN.prototype.iushln = function iushln (bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; var carryMask = (0x3ffffff >>> (26 - r)) << (26 - r); var i; if (r !== 0) { var carry = 0; for (i = 0; i < this.length; i++) { var newCarry = this.words[i] & carryMask; var c = ((this.words[i] | 0) - newCarry) << r; this.words[i] = c | carry; carry = newCarry >>> (26 - r); } if (carry) { this.words[i] = carry; this.length++; } } if (s !== 0) { for (i = this.length - 1; i >= 0; i--) { this.words[i + s] = this.words[i]; } for (i = 0; i < s; i++) { this.words[i] = 0; } this.length += s; } return this.strip(); }; BN.prototype.ishln = function ishln (bits) { // TODO(indutny): implement me assert(this.negative === 0); return this.iushln(bits); }; // Shift-right in-place // NOTE: `hint` is a lowest bit before trailing zeroes // NOTE: if `extended` is present - it will be filled with destroyed bits BN.prototype.iushrn = function iushrn (bits, hint, extended) { assert(typeof bits === 'number' && bits >= 0); var h; if (hint) { h = (hint - (hint % 26)) / 26; } else { h = 0; } var r = bits % 26; var s = Math.min((bits - r) / 26, this.length); var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); var maskedWords = extended; h -= s; h = Math.max(0, h); // Extended mode, copy masked part if (maskedWords) { for (var i = 0; i < s; i++) { maskedWords.words[i] = this.words[i]; } maskedWords.length = s; } if (s === 0) { // No-op, we should not move anything at all } else if (this.length > s) { this.length -= s; for (i = 0; i < this.length; i++) { this.words[i] = this.words[i + s]; } } else { this.words[0] = 0; this.length = 1; } var carry = 0; for (i = this.length - 1; i >= 0 && (carry !== 0 || i >= h); i--) { var word = this.words[i] | 0; this.words[i] = (carry << (26 - r)) | (word >>> r); carry = word & mask; } // Push carried bits as a mask if (maskedWords && carry !== 0) { maskedWords.words[maskedWords.length++] = carry; } if (this.length === 0) { this.words[0] = 0; this.length = 1; } return this.strip(); }; BN.prototype.ishrn = function ishrn (bits, hint, extended) { // TODO(indutny): implement me assert(this.negative === 0); return this.iushrn(bits, hint, extended); }; // Shift-left BN.prototype.shln = function shln (bits) { return this.clone().ishln(bits); }; BN.prototype.ushln = function ushln (bits) { return this.clone().iushln(bits); }; // Shift-right BN.prototype.shrn = function shrn (bits) { return this.clone().ishrn(bits); }; BN.prototype.ushrn = function ushrn (bits) { return this.clone().iushrn(bits); }; // Test if n bit is set BN.prototype.testn = function testn (bit) { assert(typeof bit === 'number' && bit >= 0); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) return false; // Check bit and return var w = this.words[s]; return !!(w & q); }; // Return only lowers bits of number (in-place) BN.prototype.imaskn = function imaskn (bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; assert(this.negative === 0, 'imaskn works only with positive numbers'); if (this.length <= s) { return this; } if (r !== 0) { s++; } this.length = Math.min(s, this.length); if (r !== 0) { var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); this.words[this.length - 1] &= mask; } return this.strip(); }; // Return only lowers bits of number BN.prototype.maskn = function maskn (bits) { return this.clone().imaskn(bits); }; // Add plain number `num` to `this` BN.prototype.iaddn = function iaddn (num) { assert(typeof num === 'number'); assert(num < 0x4000000); if (num < 0) return this.isubn(-num); // Possible sign change if (this.negative !== 0) { if (this.length === 1 && (this.words[0] | 0) < num) { this.words[0] = num - (this.words[0] | 0); this.negative = 0; return this; } this.negative = 0; this.isubn(num); this.negative = 1; return this; } // Add without checks return this._iaddn(num); }; BN.prototype._iaddn = function _iaddn (num) { this.words[0] += num; // Carry for (var i = 0; i < this.length && this.words[i] >= 0x4000000; i++) { this.words[i] -= 0x4000000; if (i === this.length - 1) { this.words[i + 1] = 1; } else { this.words[i + 1]++; } } this.length = Math.max(this.length, i + 1); return this; }; // Subtract plain number `num` from `this` BN.prototype.isubn = function isubn (num) { assert(typeof num === 'number'); assert(num < 0x4000000); if (num < 0) return this.iaddn(-num); if (this.negative !== 0) { this.negative = 0; this.iaddn(num); this.negative = 1; return this; } this.words[0] -= num; if (this.length === 1 && this.words[0] < 0) { this.words[0] = -this.words[0]; this.negative = 1; } else { // Carry for (var i = 0; i < this.length && this.words[i] < 0; i++) { this.words[i] += 0x4000000; this.words[i + 1] -= 1; } } return this.strip(); }; BN.prototype.addn = function addn (num) { return this.clone().iaddn(num); }; BN.prototype.subn = function subn (num) { return this.clone().isubn(num); }; BN.prototype.iabs = function iabs () { this.negative = 0; return this; }; BN.prototype.abs = function abs () { return this.clone().iabs(); }; BN.prototype._ishlnsubmul = function _ishlnsubmul (num, mul, shift) { var len = num.length + shift; var i; this._expand(len); var w; var carry = 0; for (i = 0; i < num.length; i++) { w = (this.words[i + shift] | 0) + carry; var right = (num.words[i] | 0) * mul; w -= right & 0x3ffffff; carry = (w >> 26) - ((right / 0x4000000) | 0); this.words[i + shift] = w & 0x3ffffff; } for (; i < this.length - shift; i++) { w = (this.words[i + shift] | 0) + carry; carry = w >> 26; this.words[i + shift] = w & 0x3ffffff; } if (carry === 0) return this.strip(); // Subtraction overflow assert(carry === -1); carry = 0; for (i = 0; i < this.length; i++) { w = -(this.words[i] | 0) + carry; carry = w >> 26; this.words[i] = w & 0x3ffffff; } this.negative = 1; return this.strip(); }; BN.prototype._wordDiv = function _wordDiv (num, mode) { var shift = this.length - num.length; var a = this.clone(); var b = num; // Normalize var bhi = b.words[b.length - 1] | 0; var bhiBits = this._countBits(bhi); shift = 26 - bhiBits; if (shift !== 0) { b = b.ushln(shift); a.iushln(shift); bhi = b.words[b.length - 1] | 0; } // Initialize quotient var m = a.length - b.length; var q; if (mode !== 'mod') { q = new BN(null); q.length = m + 1; q.words = new Array(q.length); for (var i = 0; i < q.length; i++) { q.words[i] = 0; } } var diff = a.clone()._ishlnsubmul(b, 1, m); if (diff.negative === 0) { a = diff; if (q) { q.words[m] = 1; } } for (var j = m - 1; j >= 0; j--) { var qj = (a.words[b.length + j] | 0) * 0x4000000 + (a.words[b.length + j - 1] | 0); // NOTE: (qj / bhi) is (0x3ffffff * 0x4000000 + 0x3ffffff) / 0x2000000 max // (0x7ffffff) qj = Math.min((qj / bhi) | 0, 0x3ffffff); a._ishlnsubmul(b, qj, j); while (a.negative !== 0) { qj--; a.negative = 0; a._ishlnsubmul(b, 1, j); if (!a.isZero()) { a.negative ^= 1; } } if (q) { q.words[j] = qj; } } if (q) { q.strip(); } a.strip(); // Denormalize if (mode !== 'div' && shift !== 0) { a.iushrn(shift); } return { div: q || null, mod: a }; }; // NOTE: 1) `mode` can be set to `mod` to request mod only, // to `div` to request div only, or be absent to // request both div & mod // 2) `positive` is true if unsigned mod is requested BN.prototype.divmod = function divmod (num, mode, positive) { assert(!num.isZero()); if (this.isZero()) { return { div: new BN(0), mod: new BN(0) }; } var div, mod, res; if (this.negative !== 0 && num.negative === 0) { res = this.neg().divmod(num, mode); if (mode !== 'mod') { div = res.div.neg(); } if (mode !== 'div') { mod = res.mod.neg(); if (positive && mod.negative !== 0) { mod.iadd(num); } } return { div: div, mod: mod }; } if (this.negative === 0 && num.negative !== 0) { res = this.divmod(num.neg(), mode); if (mode !== 'mod') { div = res.div.neg(); } return { div: div, mod: res.mod }; } if ((this.negative & num.negative) !== 0) { res = this.neg().divmod(num.neg(), mode); if (mode !== 'div') { mod = res.mod.neg(); if (positive && mod.negative !== 0) { mod.isub(num); } } return { div: res.div, mod: mod }; } // Both numbers are positive at this point // Strip both numbers to approximate shift value if (num.length > this.length || this.cmp(num) < 0) { return { div: new BN(0), mod: this }; } // Very short reduction if (num.length === 1) { if (mode === 'div') { return { div: this.divn(num.words[0]), mod: null }; } if (mode === 'mod') { return { div: null, mod: new BN(this.modn(num.words[0])) }; } return { div: this.divn(num.words[0]), mod: new BN(this.modn(num.words[0])) }; } return this._wordDiv(num, mode); }; // Find `this` / `num` BN.prototype.div = function div (num) { return this.divmod(num, 'div', false).div; }; // Find `this` % `num` BN.prototype.mod = function mod (num) { return this.divmod(num, 'mod', false).mod; }; BN.prototype.umod = function umod (num) { return this.divmod(num, 'mod', true).mod; }; // Find Round(`this` / `num`) BN.prototype.divRound = function divRound (num) { var dm = this.divmod(num); // Fast case - exact division if (dm.mod.isZero()) return dm.div; var mod = dm.div.negative !== 0 ? dm.mod.isub(num) : dm.mod; var half = num.ushrn(1); var r2 = num.andln(1); var cmp = mod.cmp(half); // Round down if (cmp < 0 || r2 === 1 && cmp === 0) return dm.div; // Round up return dm.div.negative !== 0 ? dm.div.isubn(1) : dm.div.iaddn(1); }; BN.prototype.modn = function modn (num) { assert(num <= 0x3ffffff); var p = (1 << 26) % num; var acc = 0; for (var i = this.length - 1; i >= 0; i--) { acc = (p * acc + (this.words[i] | 0)) % num; } return acc; }; // In-place division by number BN.prototype.idivn = function idivn (num) { assert(num <= 0x3ffffff); var carry = 0; for (var i = this.length - 1; i >= 0; i--) { var w = (this.words[i] | 0) + carry * 0x4000000; this.words[i] = (w / num) | 0; carry = w % num; } return this.strip(); }; BN.prototype.divn = function divn (num) { return this.clone().idivn(num); }; BN.prototype.egcd = function egcd (p) { assert(p.negative === 0); assert(!p.isZero()); var x = this; var y = p.clone(); if (x.negative !== 0) { x = x.umod(p); } else { x = x.clone(); } // A * x + B * y = x var A = new BN(1); var B = new BN(0); // C * x + D * y = y var C = new BN(0); var D = new BN(1); var g = 0; while (x.isEven() && y.isEven()) { x.iushrn(1); y.iushrn(1); ++g; } var yp = y.clone(); var xp = x.clone(); while (!x.isZero()) { for (var i = 0, im = 1; (x.words[0] & im) === 0 && i < 26; ++i, im <<= 1); if (i > 0) { x.iushrn(i); while (i-- > 0) { if (A.isOdd() || B.isOdd()) { A.iadd(yp); B.isub(xp); } A.iushrn(1); B.iushrn(1); } } for (var j = 0, jm = 1; (y.words[0] & jm) === 0 && j < 26; ++j, jm <<= 1); if (j > 0) { y.iushrn(j); while (j-- > 0) { if (C.isOdd() || D.isOdd()) { C.iadd(yp); D.isub(xp); } C.iushrn(1); D.iushrn(1); } } if (x.cmp(y) >= 0) { x.isub(y); A.isub(C); B.isub(D); } else { y.isub(x); C.isub(A); D.isub(B); } } return { a: C, b: D, gcd: y.iushln(g) }; }; // This is reduced incarnation of the binary EEA // above, designated to invert members of the // _prime_ fields F(p) at a maximal speed BN.prototype._invmp = function _invmp (p) { assert(p.negative === 0); assert(!p.isZero()); var a = this; var b = p.clone(); if (a.negative !== 0) { a = a.umod(p); } else { a = a.clone(); } var x1 = new BN(1); var x2 = new BN(0); var delta = b.clone(); while (a.cmpn(1) > 0 && b.cmpn(1) > 0) { for (var i = 0, im = 1; (a.words[0] & im) === 0 && i < 26; ++i, im <<= 1); if (i > 0) { a.iushrn(i); while (i-- > 0) { if (x1.isOdd()) { x1.iadd(delta); } x1.iushrn(1); } } for (var j = 0, jm = 1; (b.words[0] & jm) === 0 && j < 26; ++j, jm <<= 1); if (j > 0) { b.iushrn(j); while (j-- > 0) { if (x2.isOdd()) { x2.iadd(delta); } x2.iushrn(1); } } if (a.cmp(b) >= 0) { a.isub(b); x1.isub(x2); } else { b.isub(a); x2.isub(x1); } } var res; if (a.cmpn(1) === 0) { res = x1; } else { res = x2; } if (res.cmpn(0) < 0) { res.iadd(p); } return res; }; BN.prototype.gcd = function gcd (num) { if (this.isZero()) return num.abs(); if (num.isZero()) return this.abs(); var a = this.clone(); var b = num.clone(); a.negative = 0; b.negative = 0; // Remove common factor of two for (var shift = 0; a.isEven() && b.isEven(); shift++) { a.iushrn(1); b.iushrn(1); } do { while (a.isEven()) { a.iushrn(1); } while (b.isEven()) { b.iushrn(1); } var r = a.cmp(b); if (r < 0) { // Swap `a` and `b` to make `a` always bigger than `b` var t = a; a = b; b = t; } else if (r === 0 || b.cmpn(1) === 0) { break; } a.isub(b); } while (true); return b.iushln(shift); }; // Invert number in the field F(num) BN.prototype.invm = function invm (num) { return this.egcd(num).a.umod(num); }; BN.prototype.isEven = function isEven () { return (this.words[0] & 1) === 0; }; BN.prototype.isOdd = function isOdd () { return (this.words[0] & 1) === 1; }; // And first word and num BN.prototype.andln = function andln (num) { return this.words[0] & num; }; // Increment at the bit position in-line BN.prototype.bincn = function bincn (bit) { assert(typeof bit === 'number'); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) { this._expand(s + 1); this.words[s] |= q; return this; } // Add bit and propagate, if needed var carry = q; for (var i = s; carry !== 0 && i < this.length; i++) { var w = this.words[i] | 0; w += carry; carry = w >>> 26; w &= 0x3ffffff; this.words[i] = w; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; BN.prototype.isZero = function isZero () { return this.length === 1 && this.words[0] === 0; }; BN.prototype.cmpn = function cmpn (num) { var negative = num < 0; if (this.negative !== 0 && !negative) return -1; if (this.negative === 0 && negative) return 1; this.strip(); var res; if (this.length > 1) { res = 1; } else { if (negative) { num = -num; } assert(num <= 0x3ffffff, 'Number is too big'); var w = this.words[0] | 0; res = w === num ? 0 : w < num ? -1 : 1; } if (this.negative !== 0) return -res | 0; return res; }; // Compare two numbers and return: // 1 - if `this` > `num` // 0 - if `this` == `num` // -1 - if `this` < `num` BN.prototype.cmp = function cmp (num) { if (this.negative !== 0 && num.negative === 0) return -1; if (this.negative === 0 && num.negative !== 0) return 1; var res = this.ucmp(num); if (this.negative !== 0) return -res | 0; return res; }; // Unsigned comparison BN.prototype.ucmp = function ucmp (num) { // At this point both numbers have the same sign if (this.length > num.length) return 1; if (this.length < num.length) return -1; var res = 0; for (var i = this.length - 1; i >= 0; i--) { var a = this.words[i] | 0; var b = num.words[i] | 0; if (a === b) continue; if (a < b) { res = -1; } else if (a > b) { res = 1; } break; } return res; }; BN.prototype.gtn = function gtn (num) { return this.cmpn(num) === 1; }; BN.prototype.gt = function gt (num) { return this.cmp(num) === 1; }; BN.prototype.gten = function gten (num) { return this.cmpn(num) >= 0; }; BN.prototype.gte = function gte (num) { return this.cmp(num) >= 0; }; BN.prototype.ltn = function ltn (num) { return this.cmpn(num) === -1; }; BN.prototype.lt = function lt (num) { return this.cmp(num) === -1; }; BN.prototype.lten = function lten (num) { return this.cmpn(num) <= 0; }; BN.prototype.lte = function lte (num) { return this.cmp(num) <= 0; }; BN.prototype.eqn = function eqn (num) { return this.cmpn(num) === 0; }; BN.prototype.eq = function eq (num) { return this.cmp(num) === 0; }; // // A reduce context, could be using montgomery or something better, depending // on the `m` itself. // BN.red = function red (num) { return new Red(num); }; BN.prototype.toRed = function toRed (ctx) { assert(!this.red, 'Already a number in reduction context'); assert(this.negative === 0, 'red works only with positives'); return ctx.convertTo(this)._forceRed(ctx); }; BN.prototype.fromRed = function fromRed () { assert(this.red, 'fromRed works only with numbers in reduction context'); return this.red.convertFrom(this); }; BN.prototype._forceRed = function _forceRed (ctx) { this.red = ctx; return this; }; BN.prototype.forceRed = function forceRed (ctx) { assert(!this.red, 'Already a number in reduction context'); return this._forceRed(ctx); }; BN.prototype.redAdd = function redAdd (num) { assert(this.red, 'redAdd works only with red numbers'); return this.red.add(this, num); }; BN.prototype.redIAdd = function redIAdd (num) { assert(this.red, 'redIAdd works only with red numbers'); return this.red.iadd(this, num); }; BN.prototype.redSub = function redSub (num) { assert(this.red, 'redSub works only with red numbers'); return this.red.sub(this, num); }; BN.prototype.redISub = function redISub (num) { assert(this.red, 'redISub works only with red numbers'); return this.red.isub(this, num); }; BN.prototype.redShl = function redShl (num) { assert(this.red, 'redShl works only with red numbers'); return this.red.shl(this, num); }; BN.prototype.redMul = function redMul (num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.mul(this, num); }; BN.prototype.redIMul = function redIMul (num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.imul(this, num); }; BN.prototype.redSqr = function redSqr () { assert(this.red, 'redSqr works only with red numbers'); this.red._verify1(this); return this.red.sqr(this); }; BN.prototype.redISqr = function redISqr () { assert(this.red, 'redISqr works only with red numbers'); this.red._verify1(this); return this.red.isqr(this); }; // Square root over p BN.prototype.redSqrt = function redSqrt () { assert(this.red, 'redSqrt works only with red numbers'); this.red._verify1(this); return this.red.sqrt(this); }; BN.prototype.redInvm = function redInvm () { assert(this.red, 'redInvm works only with red numbers'); this.red._verify1(this); return this.red.invm(this); }; // Return negative clone of `this` % `red modulo` BN.prototype.redNeg = function redNeg () { assert(this.red, 'redNeg works only with red numbers'); this.red._verify1(this); return this.red.neg(this); }; BN.prototype.redPow = function redPow (num) { assert(this.red && !num.red, 'redPow(normalNum)'); this.red._verify1(this); return this.red.pow(this, num); }; // Prime numbers with efficient reduction var primes = { k256: null, p224: null, p192: null, p25519: null }; // Pseudo-Mersenne prime function MPrime (name, p) { // P = 2 ^ N - K this.name = name; this.p = new BN(p, 16); this.n = this.p.bitLength(); this.k = new BN(1).iushln(this.n).isub(this.p); this.tmp = this._tmp(); } MPrime.prototype._tmp = function _tmp () { var tmp = new BN(null); tmp.words = new Array(Math.ceil(this.n / 13)); return tmp; }; MPrime.prototype.ireduce = function ireduce (num) { // Assumes that `num` is less than `P^2` // num = HI * (2 ^ N - K) + HI * K + LO = HI * K + LO (mod P) var r = num; var rlen; do { this.split(r, this.tmp); r = this.imulK(r); r = r.iadd(this.tmp); rlen = r.bitLength(); } while (rlen > this.n); var cmp = rlen < this.n ? -1 : r.ucmp(this.p); if (cmp === 0) { r.words[0] = 0; r.length = 1; } else if (cmp > 0) { r.isub(this.p); } else { r.strip(); } return r; }; MPrime.prototype.split = function split (input, out) { input.iushrn(this.n, 0, out); }; MPrime.prototype.imulK = function imulK (num) { return num.imul(this.k); }; function K256 () { MPrime.call( this, 'k256', 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f'); } inherits(K256, MPrime); K256.prototype.split = function split (input, output) { // 256 = 9 * 26 + 22 var mask = 0x3fffff; var outLen = Math.min(input.length, 9); for (var i = 0; i < outLen; i++) { output.words[i] = input.words[i]; } output.length = outLen; if (input.length <= 9) { input.words[0] = 0; input.length = 1; return; } // Shift by 9 limbs var prev = input.words[9]; output.words[output.length++] = prev & mask; for (i = 10; i < input.length; i++) { var next = input.words[i] | 0; input.words[i - 10] = ((next & mask) << 4) | (prev >>> 22); prev = next; } prev >>>= 22; input.words[i - 10] = prev; if (prev === 0 && input.length > 10) { input.length -= 10; } else { input.length -= 9; } }; K256.prototype.imulK = function imulK (num) { // K = 0x1000003d1 = [ 0x40, 0x3d1 ] num.words[num.length] = 0; num.words[num.length + 1] = 0; num.length += 2; // bounded at: 0x40 * 0x3ffffff + 0x3d0 = 0x100000390 var lo = 0; for (var i = 0; i < num.length; i++) { var w = num.words[i] | 0; lo += w * 0x3d1; num.words[i] = lo & 0x3ffffff; lo = w * 0x40 + ((lo / 0x4000000) | 0); } // Fast length reduction if (num.words[num.length - 1] === 0) { num.length--; if (num.words[num.length - 1] === 0) { num.length--; } } return num; }; function P224 () { MPrime.call( this, 'p224', 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001'); } inherits(P224, MPrime); function P192 () { MPrime.call( this, 'p192', 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff'); } inherits(P192, MPrime); function P25519 () { // 2 ^ 255 - 19 MPrime.call( this, '25519', '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed'); } inherits(P25519, MPrime); P25519.prototype.imulK = function imulK (num) { // K = 0x13 var carry = 0; for (var i = 0; i < num.length; i++) { var hi = (num.words[i] | 0) * 0x13 + carry; var lo = hi & 0x3ffffff; hi >>>= 26; num.words[i] = lo; carry = hi; } if (carry !== 0) { num.words[num.length++] = carry; } return num; }; // Exported mostly for testing purposes, use plain name instead BN._prime = function prime (name) { // Cached version of prime if (primes[name]) return primes[name]; var prime; if (name === 'k256') { prime = new K256(); } else if (name === 'p224') { prime = new P224(); } else if (name === 'p192') { prime = new P192(); } else if (name === 'p25519') { prime = new P25519(); } else { throw new Error('Unknown prime ' + name); } primes[name] = prime; return prime; }; // // Base reduction engine // function Red (m) { if (typeof m === 'string') { var prime = BN._prime(m); this.m = prime.p; this.prime = prime; } else { assert(m.gtn(1), 'modulus must be greater than 1'); this.m = m; this.prime = null; } } Red.prototype._verify1 = function _verify1 (a) { assert(a.negative === 0, 'red works only with positives'); assert(a.red, 'red works only with red numbers'); }; Red.prototype._verify2 = function _verify2 (a, b) { assert((a.negative | b.negative) === 0, 'red works only with positives'); assert(a.red && a.red === b.red, 'red works only with red numbers'); }; Red.prototype.imod = function imod (a) { if (this.prime) return this.prime.ireduce(a)._forceRed(this); return a.umod(this.m)._forceRed(this); }; Red.prototype.neg = function neg (a) { if (a.isZero()) { return a.clone(); } return this.m.sub(a)._forceRed(this); }; Red.prototype.add = function add (a, b) { this._verify2(a, b); var res = a.add(b); if (res.cmp(this.m) >= 0) { res.isub(this.m); } return res._forceRed(this); }; Red.prototype.iadd = function iadd (a, b) { this._verify2(a, b); var res = a.iadd(b); if (res.cmp(this.m) >= 0) { res.isub(this.m); } return res; }; Red.prototype.sub = function sub (a, b) { this._verify2(a, b); var res = a.sub(b); if (res.cmpn(0) < 0) { res.iadd(this.m); } return res._forceRed(this); }; Red.prototype.isub = function isub (a, b) { this._verify2(a, b); var res = a.isub(b); if (res.cmpn(0) < 0) { res.iadd(this.m); } return res; }; Red.prototype.shl = function shl (a, num) { this._verify1(a); return this.imod(a.ushln(num)); }; Red.prototype.imul = function imul (a, b) { this._verify2(a, b); return this.imod(a.imul(b)); }; Red.prototype.mul = function mul (a, b) { this._verify2(a, b); return this.imod(a.mul(b)); }; Red.prototype.isqr = function isqr (a) { return this.imul(a, a.clone()); }; Red.prototype.sqr = function sqr (a) { return this.mul(a, a); }; Red.prototype.sqrt = function sqrt (a) { if (a.isZero()) return a.clone(); var mod3 = this.m.andln(3); assert(mod3 % 2 === 1); // Fast case if (mod3 === 3) { var pow = this.m.add(new BN(1)).iushrn(2); return this.pow(a, pow); } // Tonelli-Shanks algorithm (Totally unoptimized and slow) // // Find Q and S, that Q * 2 ^ S = (P - 1) var q = this.m.subn(1); var s = 0; while (!q.isZero() && q.andln(1) === 0) { s++; q.iushrn(1); } assert(!q.isZero()); var one = new BN(1).toRed(this); var nOne = one.redNeg(); // Find quadratic non-residue // NOTE: Max is such because of generalized Riemann hypothesis. var lpow = this.m.subn(1).iushrn(1); var z = this.m.bitLength(); z = new BN(2 * z * z).toRed(this); while (this.pow(z, lpow).cmp(nOne) !== 0) { z.redIAdd(nOne); } var c = this.pow(z, q); var r = this.pow(a, q.addn(1).iushrn(1)); var t = this.pow(a, q); var m = s; while (t.cmp(one) !== 0) { var tmp = t; for (var i = 0; tmp.cmp(one) !== 0; i++) { tmp = tmp.redSqr(); } assert(i < m); var b = this.pow(c, new BN(1).iushln(m - i - 1)); r = r.redMul(b); c = b.redSqr(); t = t.redMul(c); m = i; } return r; }; Red.prototype.invm = function invm (a) { var inv = a._invmp(this.m); if (inv.negative !== 0) { inv.negative = 0; return this.imod(inv).redNeg(); } else { return this.imod(inv); } }; Red.prototype.pow = function pow (a, num) { if (num.isZero()) return new BN(1).toRed(this); if (num.cmpn(1) === 0) return a.clone(); var windowSize = 4; var wnd = new Array(1 << windowSize); wnd[0] = new BN(1).toRed(this); wnd[1] = a; for (var i = 2; i < wnd.length; i++) { wnd[i] = this.mul(wnd[i - 1], a); } var res = wnd[0]; var current = 0; var currentLen = 0; var start = num.bitLength() % 26; if (start === 0) { start = 26; } for (i = num.length - 1; i >= 0; i--) { var word = num.words[i]; for (var j = start - 1; j >= 0; j--) { var bit = (word >> j) & 1; if (res !== wnd[0]) { res = this.sqr(res); } if (bit === 0 && current === 0) { currentLen = 0; continue; } current <<= 1; current |= bit; currentLen++; if (currentLen !== windowSize && (i !== 0 || j !== 0)) continue; res = this.mul(res, wnd[current]); currentLen = 0; current = 0; } start = 26; } return res; }; Red.prototype.convertTo = function convertTo (num) { var r = num.umod(this.m); return r === num ? r.clone() : r; }; Red.prototype.convertFrom = function convertFrom (num) { var res = num.clone(); res.red = null; return res; }; // // Montgomery method engine // BN.mont = function mont (num) { return new Mont(num); }; function Mont (m) { Red.call(this, m); this.shift = this.m.bitLength(); if (this.shift % 26 !== 0) { this.shift += 26 - (this.shift % 26); } this.r = new BN(1).iushln(this.shift); this.r2 = this.imod(this.r.sqr()); this.rinv = this.r._invmp(this.m); this.minv = this.rinv.mul(this.r).isubn(1).div(this.m); this.minv = this.minv.umod(this.r); this.minv = this.r.sub(this.minv); } inherits(Mont, Red); Mont.prototype.convertTo = function convertTo (num) { return this.imod(num.ushln(this.shift)); }; Mont.prototype.convertFrom = function convertFrom (num) { var r = this.imod(num.mul(this.rinv)); r.red = null; return r; }; Mont.prototype.imul = function imul (a, b) { if (a.isZero() || b.isZero()) { a.words[0] = 0; a.length = 1; return a; } var t = a.imul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).iushrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) { res = u.isub(this.m); } else if (u.cmpn(0) < 0) { res = u.iadd(this.m); } return res._forceRed(this); }; Mont.prototype.mul = function mul (a, b) { if (a.isZero() || b.isZero()) return new BN(0)._forceRed(this); var t = a.mul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).iushrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) { res = u.isub(this.m); } else if (u.cmpn(0) < 0) { res = u.iadd(this.m); } return res._forceRed(this); }; Mont.prototype.invm = function invm (a) { // (AR)^-1 * R^2 = (A^-1 * R^-1) * R^2 = A^-1 * R var res = this.imod(a._invmp(this.m).mul(this.r2)); return res._forceRed(this); }; })(typeof module === 'undefined' || module, this); },{"buffer":77}],76:[function(require,module,exports){ var r; module.exports = function rand(len) { if (!r) r = new Rand(null); return r.generate(len); }; function Rand(rand) { this.rand = rand; } module.exports.Rand = Rand; Rand.prototype.generate = function generate(len) { return this._rand(len); }; // Emulate crypto API using randy Rand.prototype._rand = function _rand(n) { if (this.rand.getBytes) return this.rand.getBytes(n); var res = new Uint8Array(n); for (var i = 0; i < res.length; i++) res[i] = this.rand.getByte(); return res; }; if (typeof self === 'object') { if (self.crypto && self.crypto.getRandomValues) { // Modern browsers Rand.prototype._rand = function _rand(n) { var arr = new Uint8Array(n); self.crypto.getRandomValues(arr); return arr; }; } else if (self.msCrypto && self.msCrypto.getRandomValues) { // IE Rand.prototype._rand = function _rand(n) { var arr = new Uint8Array(n); self.msCrypto.getRandomValues(arr); return arr; }; // Safari's WebWorkers do not have `crypto` } else if (typeof window === 'object') { // Old junk Rand.prototype._rand = function() { throw new Error('Not implemented yet'); }; } } else { // Node.js or Web worker with no crypto support try { var crypto = require('crypto'); if (typeof crypto.randomBytes !== 'function') throw new Error('Not supported'); Rand.prototype._rand = function _rand(n) { return crypto.randomBytes(n); }; } catch (e) { } } },{"crypto":77}],77:[function(require,module,exports){ },{}],78:[function(require,module,exports){ // based on the aes implimentation in triple sec // https://github.com/keybase/triplesec // which is in turn based on the one from crypto-js // https://code.google.com/p/crypto-js/ var Buffer = require('safe-buffer').Buffer function asUInt32Array (buf) { if (!Buffer.isBuffer(buf)) buf = Buffer.from(buf) var len = (buf.length / 4) | 0 var out = new Array(len) for (var i = 0; i < len; i++) { out[i] = buf.readUInt32BE(i * 4) } return out } function scrubVec (v) { for (var i = 0; i < v.length; v++) { v[i] = 0 } } function cryptBlock (M, keySchedule, SUB_MIX, SBOX, nRounds) { var SUB_MIX0 = SUB_MIX[0] var SUB_MIX1 = SUB_MIX[1] var SUB_MIX2 = SUB_MIX[2] var SUB_MIX3 = SUB_MIX[3] var s0 = M[0] ^ keySchedule[0] var s1 = M[1] ^ keySchedule[1] var s2 = M[2] ^ keySchedule[2] var s3 = M[3] ^ keySchedule[3] var t0, t1, t2, t3 var ksRow = 4 for (var round = 1; round < nRounds; round++) { t0 = SUB_MIX0[s0 >>> 24] ^ SUB_MIX1[(s1 >>> 16) & 0xff] ^ SUB_MIX2[(s2 >>> 8) & 0xff] ^ SUB_MIX3[s3 & 0xff] ^ keySchedule[ksRow++] t1 = SUB_MIX0[s1 >>> 24] ^ SUB_MIX1[(s2 >>> 16) & 0xff] ^ SUB_MIX2[(s3 >>> 8) & 0xff] ^ SUB_MIX3[s0 & 0xff] ^ keySchedule[ksRow++] t2 = SUB_MIX0[s2 >>> 24] ^ SUB_MIX1[(s3 >>> 16) & 0xff] ^ SUB_MIX2[(s0 >>> 8) & 0xff] ^ SUB_MIX3[s1 & 0xff] ^ keySchedule[ksRow++] t3 = SUB_MIX0[s3 >>> 24] ^ SUB_MIX1[(s0 >>> 16) & 0xff] ^ SUB_MIX2[(s1 >>> 8) & 0xff] ^ SUB_MIX3[s2 & 0xff] ^ keySchedule[ksRow++] s0 = t0 s1 = t1 s2 = t2 s3 = t3 } t0 = ((SBOX[s0 >>> 24] << 24) | (SBOX[(s1 >>> 16) & 0xff] << 16) | (SBOX[(s2 >>> 8) & 0xff] << 8) | SBOX[s3 & 0xff]) ^ keySchedule[ksRow++] t1 = ((SBOX[s1 >>> 24] << 24) | (SBOX[(s2 >>> 16) & 0xff] << 16) | (SBOX[(s3 >>> 8) & 0xff] << 8) | SBOX[s0 & 0xff]) ^ keySchedule[ksRow++] t2 = ((SBOX[s2 >>> 24] << 24) | (SBOX[(s3 >>> 16) & 0xff] << 16) | (SBOX[(s0 >>> 8) & 0xff] << 8) | SBOX[s1 & 0xff]) ^ keySchedule[ksRow++] t3 = ((SBOX[s3 >>> 24] << 24) | (SBOX[(s0 >>> 16) & 0xff] << 16) | (SBOX[(s1 >>> 8) & 0xff] << 8) | SBOX[s2 & 0xff]) ^ keySchedule[ksRow++] t0 = t0 >>> 0 t1 = t1 >>> 0 t2 = t2 >>> 0 t3 = t3 >>> 0 return [t0, t1, t2, t3] } // AES constants var RCON = [0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36] var G = (function () { // Compute double table var d = new Array(256) for (var j = 0; j < 256; j++) { if (j < 128) { d[j] = j << 1 } else { d[j] = (j << 1) ^ 0x11b } } var SBOX = [] var INV_SBOX = [] var SUB_MIX = [[], [], [], []] var INV_SUB_MIX = [[], [], [], []] // Walk GF(2^8) var x = 0 var xi = 0 for (var i = 0; i < 256; ++i) { // Compute sbox var sx = xi ^ (xi << 1) ^ (xi << 2) ^ (xi << 3) ^ (xi << 4) sx = (sx >>> 8) ^ (sx & 0xff) ^ 0x63 SBOX[x] = sx INV_SBOX[sx] = x // Compute multiplication var x2 = d[x] var x4 = d[x2] var x8 = d[x4] // Compute sub bytes, mix columns tables var t = (d[sx] * 0x101) ^ (sx * 0x1010100) SUB_MIX[0][x] = (t << 24) | (t >>> 8) SUB_MIX[1][x] = (t << 16) | (t >>> 16) SUB_MIX[2][x] = (t << 8) | (t >>> 24) SUB_MIX[3][x] = t // Compute inv sub bytes, inv mix columns tables t = (x8 * 0x1010101) ^ (x4 * 0x10001) ^ (x2 * 0x101) ^ (x * 0x1010100) INV_SUB_MIX[0][sx] = (t << 24) | (t >>> 8) INV_SUB_MIX[1][sx] = (t << 16) | (t >>> 16) INV_SUB_MIX[2][sx] = (t << 8) | (t >>> 24) INV_SUB_MIX[3][sx] = t if (x === 0) { x = xi = 1 } else { x = x2 ^ d[d[d[x8 ^ x2]]] xi ^= d[d[xi]] } } return { SBOX: SBOX, INV_SBOX: INV_SBOX, SUB_MIX: SUB_MIX, INV_SUB_MIX: INV_SUB_MIX } })() function AES (key) { this._key = asUInt32Array(key) this._reset() } AES.blockSize = 4 * 4 AES.keySize = 256 / 8 AES.prototype.blockSize = AES.blockSize AES.prototype.keySize = AES.keySize AES.prototype._reset = function () { var keyWords = this._key var keySize = keyWords.length var nRounds = keySize + 6 var ksRows = (nRounds + 1) * 4 var keySchedule = [] for (var k = 0; k < keySize; k++) { keySchedule[k] = keyWords[k] } for (k = keySize; k < ksRows; k++) { var t = keySchedule[k - 1] if (k % keySize === 0) { t = (t << 8) | (t >>> 24) t = (G.SBOX[t >>> 24] << 24) | (G.SBOX[(t >>> 16) & 0xff] << 16) | (G.SBOX[(t >>> 8) & 0xff] << 8) | (G.SBOX[t & 0xff]) t ^= RCON[(k / keySize) | 0] << 24 } else if (keySize > 6 && k % keySize === 4) { t = (G.SBOX[t >>> 24] << 24) | (G.SBOX[(t >>> 16) & 0xff] << 16) | (G.SBOX[(t >>> 8) & 0xff] << 8) | (G.SBOX[t & 0xff]) } keySchedule[k] = keySchedule[k - keySize] ^ t } var invKeySchedule = [] for (var ik = 0; ik < ksRows; ik++) { var ksR = ksRows - ik var tt = keySchedule[ksR - (ik % 4 ? 0 : 4)] if (ik < 4 || ksR <= 4) { invKeySchedule[ik] = tt } else { invKeySchedule[ik] = G.INV_SUB_MIX[0][G.SBOX[tt >>> 24]] ^ G.INV_SUB_MIX[1][G.SBOX[(tt >>> 16) & 0xff]] ^ G.INV_SUB_MIX[2][G.SBOX[(tt >>> 8) & 0xff]] ^ G.INV_SUB_MIX[3][G.SBOX[tt & 0xff]] } } this._nRounds = nRounds this._keySchedule = keySchedule this._invKeySchedule = invKeySchedule } AES.prototype.encryptBlockRaw = function (M) { M = asUInt32Array(M) return cryptBlock(M, this._keySchedule, G.SUB_MIX, G.SBOX, this._nRounds) } AES.prototype.encryptBlock = function (M) { var out = this.encryptBlockRaw(M) var buf = Buffer.allocUnsafe(16) buf.writeUInt32BE(out[0], 0) buf.writeUInt32BE(out[1], 4) buf.writeUInt32BE(out[2], 8) buf.writeUInt32BE(out[3], 12) return buf } AES.prototype.decryptBlock = function (M) { M = asUInt32Array(M) // swap var m1 = M[1] M[1] = M[3] M[3] = m1 var out = cryptBlock(M, this._invKeySchedule, G.INV_SUB_MIX, G.INV_SBOX, this._nRounds) var buf = Buffer.allocUnsafe(16) buf.writeUInt32BE(out[0], 0) buf.writeUInt32BE(out[3], 4) buf.writeUInt32BE(out[2], 8) buf.writeUInt32BE(out[1], 12) return buf } AES.prototype.scrub = function () { scrubVec(this._keySchedule) scrubVec(this._invKeySchedule) scrubVec(this._key) } module.exports.AES = AES },{"safe-buffer":247}],79:[function(require,module,exports){ var aes = require('./aes') var Buffer = require('safe-buffer').Buffer var Transform = require('cipher-base') var inherits = require('inherits') var GHASH = require('./ghash') var xor = require('buffer-xor') var incr32 = require('./incr32') function xorTest (a, b) { var out = 0 if (a.length !== b.length) out++ var len = Math.min(a.length, b.length) for (var i = 0; i < len; ++i) { out += (a[i] ^ b[i]) } return out } function calcIv (self, iv, ck) { if (iv.length === 12) { self._finID = Buffer.concat([iv, Buffer.from([0, 0, 0, 1])]) return Buffer.concat([iv, Buffer.from([0, 0, 0, 2])]) } var ghash = new GHASH(ck) var len = iv.length var toPad = len % 16 ghash.update(iv) if (toPad) { toPad = 16 - toPad ghash.update(Buffer.alloc(toPad, 0)) } ghash.update(Buffer.alloc(8, 0)) var ivBits = len * 8 var tail = Buffer.alloc(8) tail.writeUIntBE(ivBits, 0, 8) ghash.update(tail) self._finID = ghash.state var out = Buffer.from(self._finID) incr32(out) return out } function StreamCipher (mode, key, iv, decrypt) { Transform.call(this) var h = Buffer.alloc(4, 0) this._cipher = new aes.AES(key) var ck = this._cipher.encryptBlock(h) this._ghash = new GHASH(ck) iv = calcIv(this, iv, ck) this._prev = Buffer.from(iv) this._cache = Buffer.allocUnsafe(0) this._secCache = Buffer.allocUnsafe(0) this._decrypt = decrypt this._alen = 0 this._len = 0 this._mode = mode this._authTag = null this._called = false } inherits(StreamCipher, Transform) StreamCipher.prototype._update = function (chunk) { if (!this._called && this._alen) { var rump = 16 - (this._alen % 16) if (rump < 16) { rump = Buffer.alloc(rump, 0) this._ghash.update(rump) } } this._called = true var out = this._mode.encrypt(this, chunk) if (this._decrypt) { this._ghash.update(chunk) } else { this._ghash.update(out) } this._len += chunk.length return out } StreamCipher.prototype._final = function () { if (this._decrypt && !this._authTag) throw new Error('Unsupported state or unable to authenticate data') var tag = xor(this._ghash.final(this._alen * 8, this._len * 8), this._cipher.encryptBlock(this._finID)) if (this._decrypt && xorTest(tag, this._authTag)) throw new Error('Unsupported state or unable to authenticate data') this._authTag = tag this._cipher.scrub() } StreamCipher.prototype.getAuthTag = function getAuthTag () { if (this._decrypt || !Buffer.isBuffer(this._authTag)) throw new Error('Attempting to get auth tag in unsupported state') return this._authTag } StreamCipher.prototype.setAuthTag = function setAuthTag (tag) { if (!this._decrypt) throw new Error('Attempting to set auth tag in unsupported state') this._authTag = tag } StreamCipher.prototype.setAAD = function setAAD (buf) { if (this._called) throw new Error('Attempting to set AAD in unsupported state') this._ghash.update(buf) this._alen += buf.length } module.exports = StreamCipher },{"./aes":78,"./ghash":83,"./incr32":84,"buffer-xor":106,"cipher-base":108,"inherits":163,"safe-buffer":247}],80:[function(require,module,exports){ var ciphers = require('./encrypter') var deciphers = require('./decrypter') var modes = require('./modes/list.json') function getCiphers () { return Object.keys(modes) } exports.createCipher = exports.Cipher = ciphers.createCipher exports.createCipheriv = exports.Cipheriv = ciphers.createCipheriv exports.createDecipher = exports.Decipher = deciphers.createDecipher exports.createDecipheriv = exports.Decipheriv = deciphers.createDecipheriv exports.listCiphers = exports.getCiphers = getCiphers },{"./decrypter":81,"./encrypter":82,"./modes/list.json":92}],81:[function(require,module,exports){ var AuthCipher = require('./authCipher') var Buffer = require('safe-buffer').Buffer var MODES = require('./modes') var StreamCipher = require('./streamCipher') var Transform = require('cipher-base') var aes = require('./aes') var ebtk = require('evp_bytestokey') var inherits = require('inherits') function Decipher (mode, key, iv) { Transform.call(this) this._cache = new Splitter() this._last = void 0 this._cipher = new aes.AES(key) this._prev = Buffer.from(iv) this._mode = mode this._autopadding = true } inherits(Decipher, Transform) Decipher.prototype._update = function (data) { this._cache.add(data) var chunk var thing var out = [] while ((chunk = this._cache.get(this._autopadding))) { thing = this._mode.decrypt(this, chunk) out.push(thing) } return Buffer.concat(out) } Decipher.prototype._final = function () { var chunk = this._cache.flush() if (this._autopadding) { return unpad(this._mode.decrypt(this, chunk)) } else if (chunk) { throw new Error('data not multiple of block length') } } Decipher.prototype.setAutoPadding = function (setTo) { this._autopadding = !!setTo return this } function Splitter () { this.cache = Buffer.allocUnsafe(0) } Splitter.prototype.add = function (data) { this.cache = Buffer.concat([this.cache, data]) } Splitter.prototype.get = function (autoPadding) { var out if (autoPadding) { if (this.cache.length > 16) { out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } } else { if (this.cache.length >= 16) { out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } } return null } Splitter.prototype.flush = function () { if (this.cache.length) return this.cache } function unpad (last) { var padded = last[15] var i = -1 while (++i < padded) { if (last[(i + (16 - padded))] !== padded) { throw new Error('unable to decrypt data') } } if (padded === 16) return return last.slice(0, 16 - padded) } function createDecipheriv (suite, password, iv) { var config = MODES[suite.toLowerCase()] if (!config) throw new TypeError('invalid suite type') if (typeof iv === 'string') iv = Buffer.from(iv) if (config.mode !== 'GCM' && iv.length !== config.iv) throw new TypeError('invalid iv length ' + iv.length) if (typeof password === 'string') password = Buffer.from(password) if (password.length !== config.key / 8) throw new TypeError('invalid key length ' + password.length) if (config.type === 'stream') { return new StreamCipher(config.module, password, iv, true) } else if (config.type === 'auth') { return new AuthCipher(config.module, password, iv, true) } return new Decipher(config.module, password, iv) } function createDecipher (suite, password) { var config = MODES[suite.toLowerCase()] if (!config) throw new TypeError('invalid suite type') var keys = ebtk(password, false, config.key, config.iv) return createDecipheriv(suite, keys.key, keys.iv) } exports.createDecipher = createDecipher exports.createDecipheriv = createDecipheriv },{"./aes":78,"./authCipher":79,"./modes":91,"./streamCipher":94,"cipher-base":108,"evp_bytestokey":144,"inherits":163,"safe-buffer":247}],82:[function(require,module,exports){ var MODES = require('./modes') var AuthCipher = require('./authCipher') var Buffer = require('safe-buffer').Buffer var StreamCipher = require('./streamCipher') var Transform = require('cipher-base') var aes = require('./aes') var ebtk = require('evp_bytestokey') var inherits = require('inherits') function Cipher (mode, key, iv) { Transform.call(this) this._cache = new Splitter() this._cipher = new aes.AES(key) this._prev = Buffer.from(iv) this._mode = mode this._autopadding = true } inherits(Cipher, Transform) Cipher.prototype._update = function (data) { this._cache.add(data) var chunk var thing var out = [] while ((chunk = this._cache.get())) { thing = this._mode.encrypt(this, chunk) out.push(thing) } return Buffer.concat(out) } var PADDING = Buffer.alloc(16, 0x10) Cipher.prototype._final = function () { var chunk = this._cache.flush() if (this._autopadding) { chunk = this._mode.encrypt(this, chunk) this._cipher.scrub() return chunk } if (!chunk.equals(PADDING)) { this._cipher.scrub() throw new Error('data not multiple of block length') } } Cipher.prototype.setAutoPadding = function (setTo) { this._autopadding = !!setTo return this } function Splitter () { this.cache = Buffer.allocUnsafe(0) } Splitter.prototype.add = function (data) { this.cache = Buffer.concat([this.cache, data]) } Splitter.prototype.get = function () { if (this.cache.length > 15) { var out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } return null } Splitter.prototype.flush = function () { var len = 16 - this.cache.length var padBuff = Buffer.allocUnsafe(len) var i = -1 while (++i < len) { padBuff.writeUInt8(len, i) } return Buffer.concat([this.cache, padBuff]) } function createCipheriv (suite, password, iv) { var config = MODES[suite.toLowerCase()] if (!config) throw new TypeError('invalid suite type') if (typeof password === 'string') password = Buffer.from(password) if (password.length !== config.key / 8) throw new TypeError('invalid key length ' + password.length) if (typeof iv === 'string') iv = Buffer.from(iv) if (config.mode !== 'GCM' && iv.length !== config.iv) throw new TypeError('invalid iv length ' + iv.length) if (config.type === 'stream') { return new StreamCipher(config.module, password, iv) } else if (config.type === 'auth') { return new AuthCipher(config.module, password, iv) } return new Cipher(config.module, password, iv) } function createCipher (suite, password) { var config = MODES[suite.toLowerCase()] if (!config) throw new TypeError('invalid suite type') var keys = ebtk(password, false, config.key, config.iv) return createCipheriv(suite, keys.key, keys.iv) } exports.createCipheriv = createCipheriv exports.createCipher = createCipher },{"./aes":78,"./authCipher":79,"./modes":91,"./streamCipher":94,"cipher-base":108,"evp_bytestokey":144,"inherits":163,"safe-buffer":247}],83:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer var ZEROES = Buffer.alloc(16, 0) function toArray (buf) { return [ buf.readUInt32BE(0), buf.readUInt32BE(4), buf.readUInt32BE(8), buf.readUInt32BE(12) ] } function fromArray (out) { var buf = Buffer.allocUnsafe(16) buf.writeUInt32BE(out[0] >>> 0, 0) buf.writeUInt32BE(out[1] >>> 0, 4) buf.writeUInt32BE(out[2] >>> 0, 8) buf.writeUInt32BE(out[3] >>> 0, 12) return buf } function GHASH (key) { this.h = key this.state = Buffer.alloc(16, 0) this.cache = Buffer.allocUnsafe(0) } // from http://bitwiseshiftleft.github.io/sjcl/doc/symbols/src/core_gcm.js.html // by Juho Vähä-Herttua GHASH.prototype.ghash = function (block) { var i = -1 while (++i < block.length) { this.state[i] ^= block[i] } this._multiply() } GHASH.prototype._multiply = function () { var Vi = toArray(this.h) var Zi = [0, 0, 0, 0] var j, xi, lsbVi var i = -1 while (++i < 128) { xi = (this.state[~~(i / 8)] & (1 << (7 - (i % 8)))) !== 0 if (xi) { // Z_i+1 = Z_i ^ V_i Zi[0] ^= Vi[0] Zi[1] ^= Vi[1] Zi[2] ^= Vi[2] Zi[3] ^= Vi[3] } // Store the value of LSB(V_i) lsbVi = (Vi[3] & 1) !== 0 // V_i+1 = V_i >> 1 for (j = 3; j > 0; j--) { Vi[j] = (Vi[j] >>> 1) | ((Vi[j - 1] & 1) << 31) } Vi[0] = Vi[0] >>> 1 // If LSB(V_i) is 1, V_i+1 = (V_i >> 1) ^ R if (lsbVi) { Vi[0] = Vi[0] ^ (0xe1 << 24) } } this.state = fromArray(Zi) } GHASH.prototype.update = function (buf) { this.cache = Buffer.concat([this.cache, buf]) var chunk while (this.cache.length >= 16) { chunk = this.cache.slice(0, 16) this.cache = this.cache.slice(16) this.ghash(chunk) } } GHASH.prototype.final = function (abl, bl) { if (this.cache.length) { this.ghash(Buffer.concat([this.cache, ZEROES], 16)) } this.ghash(fromArray([0, abl, 0, bl])) return this.state } module.exports = GHASH },{"safe-buffer":247}],84:[function(require,module,exports){ function incr32 (iv) { var len = iv.length var item while (len--) { item = iv.readUInt8(len) if (item === 255) { iv.writeUInt8(0, len) } else { item++ iv.writeUInt8(item, len) break } } } module.exports = incr32 },{}],85:[function(require,module,exports){ var xor = require('buffer-xor') exports.encrypt = function (self, block) { var data = xor(block, self._prev) self._prev = self._cipher.encryptBlock(data) return self._prev } exports.decrypt = function (self, block) { var pad = self._prev self._prev = block var out = self._cipher.decryptBlock(block) return xor(out, pad) } },{"buffer-xor":106}],86:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer var xor = require('buffer-xor') function encryptStart (self, data, decrypt) { var len = data.length var out = xor(data, self._cache) self._cache = self._cache.slice(len) self._prev = Buffer.concat([self._prev, decrypt ? data : out]) return out } exports.encrypt = function (self, data, decrypt) { var out = Buffer.allocUnsafe(0) var len while (data.length) { if (self._cache.length === 0) { self._cache = self._cipher.encryptBlock(self._prev) self._prev = Buffer.allocUnsafe(0) } if (self._cache.length <= data.length) { len = self._cache.length out = Buffer.concat([out, encryptStart(self, data.slice(0, len), decrypt)]) data = data.slice(len) } else { out = Buffer.concat([out, encryptStart(self, data, decrypt)]) break } } return out } },{"buffer-xor":106,"safe-buffer":247}],87:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer function encryptByte (self, byteParam, decrypt) { var pad var i = -1 var len = 8 var out = 0 var bit, value while (++i < len) { pad = self._cipher.encryptBlock(self._prev) bit = (byteParam & (1 << (7 - i))) ? 0x80 : 0 value = pad[0] ^ bit out += ((value & 0x80) >> (i % 8)) self._prev = shiftIn(self._prev, decrypt ? bit : value) } return out } function shiftIn (buffer, value) { var len = buffer.length var i = -1 var out = Buffer.allocUnsafe(buffer.length) buffer = Buffer.concat([buffer, Buffer.from([value])]) while (++i < len) { out[i] = buffer[i] << 1 | buffer[i + 1] >> (7) } return out } exports.encrypt = function (self, chunk, decrypt) { var len = chunk.length var out = Buffer.allocUnsafe(len) var i = -1 while (++i < len) { out[i] = encryptByte(self, chunk[i], decrypt) } return out } },{"safe-buffer":247}],88:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer function encryptByte (self, byteParam, decrypt) { var pad = self._cipher.encryptBlock(self._prev) var out = pad[0] ^ byteParam self._prev = Buffer.concat([ self._prev.slice(1), Buffer.from([decrypt ? byteParam : out]) ]) return out } exports.encrypt = function (self, chunk, decrypt) { var len = chunk.length var out = Buffer.allocUnsafe(len) var i = -1 while (++i < len) { out[i] = encryptByte(self, chunk[i], decrypt) } return out } },{"safe-buffer":247}],89:[function(require,module,exports){ var xor = require('buffer-xor') var Buffer = require('safe-buffer').Buffer var incr32 = require('../incr32') function getBlock (self) { var out = self._cipher.encryptBlockRaw(self._prev) incr32(self._prev) return out } var blockSize = 16 exports.encrypt = function (self, chunk) { var chunkNum = Math.ceil(chunk.length / blockSize) var start = self._cache.length self._cache = Buffer.concat([ self._cache, Buffer.allocUnsafe(chunkNum * blockSize) ]) for (var i = 0; i < chunkNum; i++) { var out = getBlock(self) var offset = start + i * blockSize self._cache.writeUInt32BE(out[0], offset + 0) self._cache.writeUInt32BE(out[1], offset + 4) self._cache.writeUInt32BE(out[2], offset + 8) self._cache.writeUInt32BE(out[3], offset + 12) } var pad = self._cache.slice(0, chunk.length) self._cache = self._cache.slice(chunk.length) return xor(chunk, pad) } },{"../incr32":84,"buffer-xor":106,"safe-buffer":247}],90:[function(require,module,exports){ exports.encrypt = function (self, block) { return self._cipher.encryptBlock(block) } exports.decrypt = function (self, block) { return self._cipher.decryptBlock(block) } },{}],91:[function(require,module,exports){ var modeModules = { ECB: require('./ecb'), CBC: require('./cbc'), CFB: require('./cfb'), CFB8: require('./cfb8'), CFB1: require('./cfb1'), OFB: require('./ofb'), CTR: require('./ctr'), GCM: require('./ctr') } var modes = require('./list.json') for (var key in modes) { modes[key].module = modeModules[modes[key].mode] } module.exports = modes },{"./cbc":85,"./cfb":86,"./cfb1":87,"./cfb8":88,"./ctr":89,"./ecb":90,"./list.json":92,"./ofb":93}],92:[function(require,module,exports){ module.exports={ "aes-128-ecb": { "cipher": "AES", "key": 128, "iv": 0, "mode": "ECB", "type": "block" }, "aes-192-ecb": { "cipher": "AES", "key": 192, "iv": 0, "mode": "ECB", "type": "block" }, "aes-256-ecb": { "cipher": "AES", "key": 256, "iv": 0, "mode": "ECB", "type": "block" }, "aes-128-cbc": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CBC", "type": "block" }, "aes-192-cbc": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CBC", "type": "block" }, "aes-256-cbc": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CBC", "type": "block" }, "aes128": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CBC", "type": "block" }, "aes192": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CBC", "type": "block" }, "aes256": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CBC", "type": "block" }, "aes-128-cfb": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CFB", "type": "stream" }, "aes-192-cfb": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CFB", "type": "stream" }, "aes-256-cfb": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CFB", "type": "stream" }, "aes-128-cfb8": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CFB8", "type": "stream" }, "aes-192-cfb8": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CFB8", "type": "stream" }, "aes-256-cfb8": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CFB8", "type": "stream" }, "aes-128-cfb1": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CFB1", "type": "stream" }, "aes-192-cfb1": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CFB1", "type": "stream" }, "aes-256-cfb1": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CFB1", "type": "stream" }, "aes-128-ofb": { "cipher": "AES", "key": 128, "iv": 16, "mode": "OFB", "type": "stream" }, "aes-192-ofb": { "cipher": "AES", "key": 192, "iv": 16, "mode": "OFB", "type": "stream" }, "aes-256-ofb": { "cipher": "AES", "key": 256, "iv": 16, "mode": "OFB", "type": "stream" }, "aes-128-ctr": { "cipher": "AES", "key": 128, "iv": 16, "mode": "CTR", "type": "stream" }, "aes-192-ctr": { "cipher": "AES", "key": 192, "iv": 16, "mode": "CTR", "type": "stream" }, "aes-256-ctr": { "cipher": "AES", "key": 256, "iv": 16, "mode": "CTR", "type": "stream" }, "aes-128-gcm": { "cipher": "AES", "key": 128, "iv": 12, "mode": "GCM", "type": "auth" }, "aes-192-gcm": { "cipher": "AES", "key": 192, "iv": 12, "mode": "GCM", "type": "auth" }, "aes-256-gcm": { "cipher": "AES", "key": 256, "iv": 12, "mode": "GCM", "type": "auth" } } },{}],93:[function(require,module,exports){ (function (Buffer){ var xor = require('buffer-xor') function getBlock (self) { self._prev = self._cipher.encryptBlock(self._prev) return self._prev } exports.encrypt = function (self, chunk) { while (self._cache.length < chunk.length) { self._cache = Buffer.concat([self._cache, getBlock(self)]) } var pad = self._cache.slice(0, chunk.length) self._cache = self._cache.slice(chunk.length) return xor(chunk, pad) } }).call(this,require("buffer").Buffer) },{"buffer":107,"buffer-xor":106}],94:[function(require,module,exports){ var aes = require('./aes') var Buffer = require('safe-buffer').Buffer var Transform = require('cipher-base') var inherits = require('inherits') function StreamCipher (mode, key, iv, decrypt) { Transform.call(this) this._cipher = new aes.AES(key) this._prev = Buffer.from(iv) this._cache = Buffer.allocUnsafe(0) this._secCache = Buffer.allocUnsafe(0) this._decrypt = decrypt this._mode = mode } inherits(StreamCipher, Transform) StreamCipher.prototype._update = function (chunk) { return this._mode.encrypt(this, chunk, this._decrypt) } StreamCipher.prototype._final = function () { this._cipher.scrub() } module.exports = StreamCipher },{"./aes":78,"cipher-base":108,"inherits":163,"safe-buffer":247}],95:[function(require,module,exports){ var ebtk = require('evp_bytestokey') var aes = require('browserify-aes/browser') var DES = require('browserify-des') var desModes = require('browserify-des/modes') var aesModes = require('browserify-aes/modes') function createCipher (suite, password) { var keyLen, ivLen suite = suite.toLowerCase() if (aesModes[suite]) { keyLen = aesModes[suite].key ivLen = aesModes[suite].iv } else if (desModes[suite]) { keyLen = desModes[suite].key * 8 ivLen = desModes[suite].iv } else { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, keyLen, ivLen) return createCipheriv(suite, keys.key, keys.iv) } function createDecipher (suite, password) { var keyLen, ivLen suite = suite.toLowerCase() if (aesModes[suite]) { keyLen = aesModes[suite].key ivLen = aesModes[suite].iv } else if (desModes[suite]) { keyLen = desModes[suite].key * 8 ivLen = desModes[suite].iv } else { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, keyLen, ivLen) return createDecipheriv(suite, keys.key, keys.iv) } function createCipheriv (suite, key, iv) { suite = suite.toLowerCase() if (aesModes[suite]) { return aes.createCipheriv(suite, key, iv) } else if (desModes[suite]) { return new DES({ key: key, iv: iv, mode: suite }) } else { throw new TypeError('invalid suite type') } } function createDecipheriv (suite, key, iv) { suite = suite.toLowerCase() if (aesModes[suite]) { return aes.createDecipheriv(suite, key, iv) } else if (desModes[suite]) { return new DES({ key: key, iv: iv, mode: suite, decrypt: true }) } else { throw new TypeError('invalid suite type') } } exports.createCipher = exports.Cipher = createCipher exports.createCipheriv = exports.Cipheriv = createCipheriv exports.createDecipher = exports.Decipher = createDecipher exports.createDecipheriv = exports.Decipheriv = createDecipheriv function getCiphers () { return Object.keys(desModes).concat(aes.getCiphers()) } exports.listCiphers = exports.getCiphers = getCiphers },{"browserify-aes/browser":80,"browserify-aes/modes":91,"browserify-des":96,"browserify-des/modes":97,"evp_bytestokey":144}],96:[function(require,module,exports){ (function (Buffer){ var CipherBase = require('cipher-base') var des = require('des.js') var inherits = require('inherits') var modes = { 'des-ede3-cbc': des.CBC.instantiate(des.EDE), 'des-ede3': des.EDE, 'des-ede-cbc': des.CBC.instantiate(des.EDE), 'des-ede': des.EDE, 'des-cbc': des.CBC.instantiate(des.DES), 'des-ecb': des.DES } modes.des = modes['des-cbc'] modes.des3 = modes['des-ede3-cbc'] module.exports = DES inherits(DES, CipherBase) function DES (opts) { CipherBase.call(this) var modeName = opts.mode.toLowerCase() var mode = modes[modeName] var type if (opts.decrypt) { type = 'decrypt' } else { type = 'encrypt' } var key = opts.key if (modeName === 'des-ede' || modeName === 'des-ede-cbc') { key = Buffer.concat([key, key.slice(0, 8)]) } var iv = opts.iv this._des = mode.create({ key: key, iv: iv, type: type }) } DES.prototype._update = function (data) { return new Buffer(this._des.update(data)) } DES.prototype._final = function () { return new Buffer(this._des.final()) } }).call(this,require("buffer").Buffer) },{"buffer":107,"cipher-base":108,"des.js":117,"inherits":163}],97:[function(require,module,exports){ exports['des-ecb'] = { key: 8, iv: 0 } exports['des-cbc'] = exports.des = { key: 8, iv: 8 } exports['des-ede3-cbc'] = exports.des3 = { key: 24, iv: 8 } exports['des-ede3'] = { key: 24, iv: 0 } exports['des-ede-cbc'] = { key: 16, iv: 8 } exports['des-ede'] = { key: 16, iv: 0 } },{}],98:[function(require,module,exports){ (function (Buffer){ var bn = require('bn.js'); var randomBytes = require('randombytes'); module.exports = crt; function blind(priv) { var r = getr(priv); var blinder = r.toRed(bn.mont(priv.modulus)) .redPow(new bn(priv.publicExponent)).fromRed(); return { blinder: blinder, unblinder:r.invm(priv.modulus) }; } function crt(msg, priv) { var blinds = blind(priv); var len = priv.modulus.byteLength(); var mod = bn.mont(priv.modulus); var blinded = new bn(msg).mul(blinds.blinder).umod(priv.modulus); var c1 = blinded.toRed(bn.mont(priv.prime1)); var c2 = blinded.toRed(bn.mont(priv.prime2)); var qinv = priv.coefficient; var p = priv.prime1; var q = priv.prime2; var m1 = c1.redPow(priv.exponent1); var m2 = c2.redPow(priv.exponent2); m1 = m1.fromRed(); m2 = m2.fromRed(); var h = m1.isub(m2).imul(qinv).umod(p); h.imul(q); m2.iadd(h); return new Buffer(m2.imul(blinds.unblinder).umod(priv.modulus).toArray(false, len)); } crt.getr = getr; function getr(priv) { var len = priv.modulus.byteLength(); var r = new bn(randomBytes(len)); while (r.cmp(priv.modulus) >= 0 || !r.umod(priv.prime1) || !r.umod(priv.prime2)) { r = new bn(randomBytes(len)); } return r; } }).call(this,require("buffer").Buffer) },{"bn.js":75,"buffer":107,"randombytes":231}],99:[function(require,module,exports){ module.exports = require('./browser/algorithms.json') },{"./browser/algorithms.json":100}],100:[function(require,module,exports){ module.exports={ "sha224WithRSAEncryption": { "sign": "rsa", "hash": "sha224", "id": "302d300d06096086480165030402040500041c" }, "RSA-SHA224": { "sign": "ecdsa/rsa", "hash": "sha224", "id": "302d300d06096086480165030402040500041c" }, "sha256WithRSAEncryption": { "sign": "rsa", "hash": "sha256", "id": "3031300d060960864801650304020105000420" }, "RSA-SHA256": { "sign": "ecdsa/rsa", "hash": "sha256", "id": "3031300d060960864801650304020105000420" }, "sha384WithRSAEncryption": { "sign": "rsa", "hash": "sha384", "id": "3041300d060960864801650304020205000430" }, "RSA-SHA384": { "sign": "ecdsa/rsa", "hash": "sha384", "id": "3041300d060960864801650304020205000430" }, "sha512WithRSAEncryption": { "sign": "rsa", "hash": "sha512", "id": "3051300d060960864801650304020305000440" }, "RSA-SHA512": { "sign": "ecdsa/rsa", "hash": "sha512", "id": "3051300d060960864801650304020305000440" }, "RSA-SHA1": { "sign": "rsa", "hash": "sha1", "id": "3021300906052b0e03021a05000414" }, "ecdsa-with-SHA1": { "sign": "ecdsa", "hash": "sha1", "id": "" }, "sha256": { "sign": "ecdsa", "hash": "sha256", "id": "" }, "sha224": { "sign": "ecdsa", "hash": "sha224", "id": "" }, "sha384": { "sign": "ecdsa", "hash": "sha384", "id": "" }, "sha512": { "sign": "ecdsa", "hash": "sha512", "id": "" }, "DSA-SHA": { "sign": "dsa", "hash": "sha1", "id": "" }, "DSA-SHA1": { "sign": "dsa", "hash": "sha1", "id": "" }, "DSA": { "sign": "dsa", "hash": "sha1", "id": "" }, "DSA-WITH-SHA224": { "sign": "dsa", "hash": "sha224", "id": "" }, "DSA-SHA224": { "sign": "dsa", "hash": "sha224", "id": "" }, "DSA-WITH-SHA256": { "sign": "dsa", "hash": "sha256", "id": "" }, "DSA-SHA256": { "sign": "dsa", "hash": "sha256", "id": "" }, "DSA-WITH-SHA384": { "sign": "dsa", "hash": "sha384", "id": "" }, "DSA-SHA384": { "sign": "dsa", "hash": "sha384", "id": "" }, "DSA-WITH-SHA512": { "sign": "dsa", "hash": "sha512", "id": "" }, "DSA-SHA512": { "sign": "dsa", "hash": "sha512", "id": "" }, "DSA-RIPEMD160": { "sign": "dsa", "hash": "rmd160", "id": "" }, "ripemd160WithRSA": { "sign": "rsa", "hash": "rmd160", "id": "3021300906052b2403020105000414" }, "RSA-RIPEMD160": { "sign": "rsa", "hash": "rmd160", "id": "3021300906052b2403020105000414" }, "md5WithRSAEncryption": { "sign": "rsa", "hash": "md5", "id": "3020300c06082a864886f70d020505000410" }, "RSA-MD5": { "sign": "rsa", "hash": "md5", "id": "3020300c06082a864886f70d020505000410" } } },{}],101:[function(require,module,exports){ module.exports={ "1.3.132.0.10": "secp256k1", "1.3.132.0.33": "p224", "1.2.840.10045.3.1.1": "p192", "1.2.840.10045.3.1.7": "p256", "1.3.132.0.34": "p384", "1.3.132.0.35": "p521" } },{}],102:[function(require,module,exports){ (function (Buffer){ var createHash = require('create-hash') var stream = require('stream') var inherits = require('inherits') var sign = require('./sign') var verify = require('./verify') var algorithms = require('./algorithms.json') Object.keys(algorithms).forEach(function (key) { algorithms[key].id = new Buffer(algorithms[key].id, 'hex') algorithms[key.toLowerCase()] = algorithms[key] }) function Sign (algorithm) { stream.Writable.call(this) var data = algorithms[algorithm] if (!data) throw new Error('Unknown message digest') this._hashType = data.hash this._hash = createHash(data.hash) this._tag = data.id this._signType = data.sign } inherits(Sign, stream.Writable) Sign.prototype._write = function _write (data, _, done) { this._hash.update(data) done() } Sign.prototype.update = function update (data, enc) { if (typeof data === 'string') data = new Buffer(data, enc) this._hash.update(data) return this } Sign.prototype.sign = function signMethod (key, enc) { this.end() var hash = this._hash.digest() var sig = sign(hash, key, this._hashType, this._signType, this._tag) return enc ? sig.toString(enc) : sig } function Verify (algorithm) { stream.Writable.call(this) var data = algorithms[algorithm] if (!data) throw new Error('Unknown message digest') this._hash = createHash(data.hash) this._tag = data.id this._signType = data.sign } inherits(Verify, stream.Writable) Verify.prototype._write = function _write (data, _, done) { this._hash.update(data) done() } Verify.prototype.update = function update (data, enc) { if (typeof data === 'string') data = new Buffer(data, enc) this._hash.update(data) return this } Verify.prototype.verify = function verifyMethod (key, sig, enc) { if (typeof sig === 'string') sig = new Buffer(sig, enc) this.end() var hash = this._hash.digest() return verify(sig, hash, key, this._signType, this._tag) } function createSign (algorithm) { return new Sign(algorithm) } function createVerify (algorithm) { return new Verify(algorithm) } module.exports = { Sign: createSign, Verify: createVerify, createSign: createSign, createVerify: createVerify } }).call(this,require("buffer").Buffer) },{"./algorithms.json":100,"./sign":103,"./verify":104,"buffer":107,"create-hash":111,"inherits":163,"stream":263}],103:[function(require,module,exports){ (function (Buffer){ // much of this based on https://github.com/indutny/self-signed/blob/gh-pages/lib/rsa.js var createHmac = require('create-hmac') var crt = require('browserify-rsa') var EC = require('elliptic').ec var BN = require('bn.js') var parseKeys = require('parse-asn1') var curves = require('./curves.json') function sign (hash, key, hashType, signType, tag) { var priv = parseKeys(key) if (priv.curve) { // rsa keys can be interpreted as ecdsa ones in openssl if (signType !== 'ecdsa' && signType !== 'ecdsa/rsa') throw new Error('wrong private key type') return ecSign(hash, priv) } else if (priv.type === 'dsa') { if (signType !== 'dsa') throw new Error('wrong private key type') return dsaSign(hash, priv, hashType) } else { if (signType !== 'rsa' && signType !== 'ecdsa/rsa') throw new Error('wrong private key type') } hash = Buffer.concat([tag, hash]) var len = priv.modulus.byteLength() var pad = [ 0, 1 ] while (hash.length + pad.length + 1 < len) pad.push(0xff) pad.push(0x00) var i = -1 while (++i < hash.length) pad.push(hash[i]) var out = crt(pad, priv) return out } function ecSign (hash, priv) { var curveId = curves[priv.curve.join('.')] if (!curveId) throw new Error('unknown curve ' + priv.curve.join('.')) var curve = new EC(curveId) var key = curve.keyFromPrivate(priv.privateKey) var out = key.sign(hash) return new Buffer(out.toDER()) } function dsaSign (hash, priv, algo) { var x = priv.params.priv_key var p = priv.params.p var q = priv.params.q var g = priv.params.g var r = new BN(0) var k var H = bits2int(hash, q).mod(q) var s = false var kv = getKey(x, q, hash, algo) while (s === false) { k = makeKey(q, kv, algo) r = makeR(g, k, p, q) s = k.invm(q).imul(H.add(x.mul(r))).mod(q) if (s.cmpn(0) === 0) { s = false r = new BN(0) } } return toDER(r, s) } function toDER (r, s) { r = r.toArray() s = s.toArray() // Pad values if (r[0] & 0x80) r = [ 0 ].concat(r) if (s[0] & 0x80) s = [ 0 ].concat(s) var total = r.length + s.length + 4 var res = [ 0x30, total, 0x02, r.length ] res = res.concat(r, [ 0x02, s.length ], s) return new Buffer(res) } function getKey (x, q, hash, algo) { x = new Buffer(x.toArray()) if (x.length < q.byteLength()) { var zeros = new Buffer(q.byteLength() - x.length) zeros.fill(0) x = Buffer.concat([ zeros, x ]) } var hlen = hash.length var hbits = bits2octets(hash, q) var v = new Buffer(hlen) v.fill(1) var k = new Buffer(hlen) k.fill(0) k = createHmac(algo, k).update(v).update(new Buffer([ 0 ])).update(x).update(hbits).digest() v = createHmac(algo, k).update(v).digest() k = createHmac(algo, k).update(v).update(new Buffer([ 1 ])).update(x).update(hbits).digest() v = createHmac(algo, k).update(v).digest() return { k: k, v: v } } function bits2int (obits, q) { var bits = new BN(obits) var shift = (obits.length << 3) - q.bitLength() if (shift > 0) bits.ishrn(shift) return bits } function bits2octets (bits, q) { bits = bits2int(bits, q) bits = bits.mod(q) var out = new Buffer(bits.toArray()) if (out.length < q.byteLength()) { var zeros = new Buffer(q.byteLength() - out.length) zeros.fill(0) out = Buffer.concat([ zeros, out ]) } return out } function makeKey (q, kv, algo) { var t var k do { t = new Buffer(0) while (t.length * 8 < q.bitLength()) { kv.v = createHmac(algo, kv.k).update(kv.v).digest() t = Buffer.concat([ t, kv.v ]) } k = bits2int(t, q) kv.k = createHmac(algo, kv.k).update(kv.v).update(new Buffer([ 0 ])).digest() kv.v = createHmac(algo, kv.k).update(kv.v).digest() } while (k.cmp(q) !== -1) return k } function makeR (g, k, p, q) { return g.toRed(BN.mont(p)).redPow(k).fromRed().mod(q) } module.exports = sign module.exports.getKey = getKey module.exports.makeKey = makeKey }).call(this,require("buffer").Buffer) },{"./curves.json":101,"bn.js":75,"browserify-rsa":98,"buffer":107,"create-hmac":114,"elliptic":127,"parse-asn1":182}],104:[function(require,module,exports){ (function (Buffer){ // much of this based on https://github.com/indutny/self-signed/blob/gh-pages/lib/rsa.js var BN = require('bn.js') var EC = require('elliptic').ec var parseKeys = require('parse-asn1') var curves = require('./curves.json') function verify (sig, hash, key, signType, tag) { var pub = parseKeys(key) if (pub.type === 'ec') { // rsa keys can be interpreted as ecdsa ones in openssl if (signType !== 'ecdsa' && signType !== 'ecdsa/rsa') throw new Error('wrong public key type') return ecVerify(sig, hash, pub) } else if (pub.type === 'dsa') { if (signType !== 'dsa') throw new Error('wrong public key type') return dsaVerify(sig, hash, pub) } else { if (signType !== 'rsa' && signType !== 'ecdsa/rsa') throw new Error('wrong public key type') } hash = Buffer.concat([tag, hash]) var len = pub.modulus.byteLength() var pad = [ 1 ] var padNum = 0 while (hash.length + pad.length + 2 < len) { pad.push(0xff) padNum++ } pad.push(0x00) var i = -1 while (++i < hash.length) { pad.push(hash[i]) } pad = new Buffer(pad) var red = BN.mont(pub.modulus) sig = new BN(sig).toRed(red) sig = sig.redPow(new BN(pub.publicExponent)) sig = new Buffer(sig.fromRed().toArray()) var out = padNum < 8 ? 1 : 0 len = Math.min(sig.length, pad.length) if (sig.length !== pad.length) out = 1 i = -1 while (++i < len) out |= sig[i] ^ pad[i] return out === 0 } function ecVerify (sig, hash, pub) { var curveId = curves[pub.data.algorithm.curve.join('.')] if (!curveId) throw new Error('unknown curve ' + pub.data.algorithm.curve.join('.')) var curve = new EC(curveId) var pubkey = pub.data.subjectPrivateKey.data return curve.verify(hash, sig, pubkey) } function dsaVerify (sig, hash, pub) { var p = pub.data.p var q = pub.data.q var g = pub.data.g var y = pub.data.pub_key var unpacked = parseKeys.signature.decode(sig, 'der') var s = unpacked.s var r = unpacked.r checkValue(s, q) checkValue(r, q) var montp = BN.mont(p) var w = s.invm(q) var v = g.toRed(montp) .redPow(new BN(hash).mul(w).mod(q)) .fromRed() .mul(y.toRed(montp).redPow(r.mul(w).mod(q)).fromRed()) .mod(p) .mod(q) return v.cmp(r) === 0 } function checkValue (b, q) { if (b.cmpn(0) <= 0) throw new Error('invalid sig') if (b.cmp(q) >= q) throw new Error('invalid sig') } module.exports = verify }).call(this,require("buffer").Buffer) },{"./curves.json":101,"bn.js":75,"buffer":107,"elliptic":127,"parse-asn1":182}],105:[function(require,module,exports){ var basex = require('base-x') var ALPHABET = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz' module.exports = basex(ALPHABET) },{"base-x":71}],106:[function(require,module,exports){ (function (Buffer){ module.exports = function xor (a, b) { var length = Math.min(a.length, b.length) var buffer = new Buffer(length) for (var i = 0; i < length; ++i) { buffer[i] = a[i] ^ b[i] } return buffer } }).call(this,require("buffer").Buffer) },{"buffer":107}],107:[function(require,module,exports){ /*! * The buffer module from node.js, for the browser. * * @author Feross Aboukhadijeh * @license MIT */ /* eslint-disable no-proto */ 'use strict' var base64 = require('base64-js') var ieee754 = require('ieee754') exports.Buffer = Buffer exports.SlowBuffer = SlowBuffer exports.INSPECT_MAX_BYTES = 50 var K_MAX_LENGTH = 0x7fffffff exports.kMaxLength = K_MAX_LENGTH /** * If `Buffer.TYPED_ARRAY_SUPPORT`: * === true Use Uint8Array implementation (fastest) * === false Print warning and recommend using `buffer` v4.x which has an Object * implementation (most compatible, even IE6) * * Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+, * Opera 11.6+, iOS 4.2+. * * We report that the browser does not support typed arrays if the are not subclassable * using __proto__. Firefox 4-29 lacks support for adding new properties to `Uint8Array` * (See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438). IE 10 lacks support * for __proto__ and has a buggy typed array implementation. */ Buffer.TYPED_ARRAY_SUPPORT = typedArraySupport() if (!Buffer.TYPED_ARRAY_SUPPORT && typeof console !== 'undefined' && typeof console.error === 'function') { console.error( 'This browser lacks typed array (Uint8Array) support which is required by ' + '`buffer` v5.x. Use `buffer` v4.x if you require old browser support.' ) } function typedArraySupport () { // Can typed array instances can be augmented? try { var arr = new Uint8Array(1) arr.__proto__ = {__proto__: Uint8Array.prototype, foo: function () { return 42 }} return arr.foo() === 42 } catch (e) { return false } } function createBuffer (length) { if (length > K_MAX_LENGTH) { throw new RangeError('Invalid typed array length') } // Return an augmented `Uint8Array` instance var buf = new Uint8Array(length) buf.__proto__ = Buffer.prototype return buf } /** * The Buffer constructor returns instances of `Uint8Array` that have their * prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of * `Uint8Array`, so the returned instances will have all the node `Buffer` methods * and the `Uint8Array` methods. Square bracket notation works as expected -- it * returns a single octet. * * The `Uint8Array` prototype remains unmodified. */ function Buffer (arg, encodingOrOffset, length) { // Common case. if (typeof arg === 'number') { if (typeof encodingOrOffset === 'string') { throw new Error( 'If encoding is specified then the first argument must be a string' ) } return allocUnsafe(arg) } return from(arg, encodingOrOffset, length) } // Fix subarray() in ES2016. See: https://github.com/feross/buffer/pull/97 if (typeof Symbol !== 'undefined' && Symbol.species && Buffer[Symbol.species] === Buffer) { Object.defineProperty(Buffer, Symbol.species, { value: null, configurable: true, enumerable: false, writable: false }) } Buffer.poolSize = 8192 // not used by this implementation function from (value, encodingOrOffset, length) { if (typeof value === 'number') { throw new TypeError('"value" argument must not be a number') } if (isArrayBuffer(value)) { return fromArrayBuffer(value, encodingOrOffset, length) } if (typeof value === 'string') { return fromString(value, encodingOrOffset) } return fromObject(value) } /** * Functionally equivalent to Buffer(arg, encoding) but throws a TypeError * if value is a number. * Buffer.from(str[, encoding]) * Buffer.from(array) * Buffer.from(buffer) * Buffer.from(arrayBuffer[, byteOffset[, length]]) **/ Buffer.from = function (value, encodingOrOffset, length) { return from(value, encodingOrOffset, length) } // Note: Change prototype *after* Buffer.from is defined to workaround Chrome bug: // https://github.com/feross/buffer/pull/148 Buffer.prototype.__proto__ = Uint8Array.prototype Buffer.__proto__ = Uint8Array function assertSize (size) { if (typeof size !== 'number') { throw new TypeError('"size" argument must be a number') } else if (size < 0) { throw new RangeError('"size" argument must not be negative') } } function alloc (size, fill, encoding) { assertSize(size) if (size <= 0) { return createBuffer(size) } if (fill !== undefined) { // Only pay attention to encoding if it's a string. This // prevents accidentally sending in a number that would // be interpretted as a start offset. return typeof encoding === 'string' ? createBuffer(size).fill(fill, encoding) : createBuffer(size).fill(fill) } return createBuffer(size) } /** * Creates a new filled Buffer instance. * alloc(size[, fill[, encoding]]) **/ Buffer.alloc = function (size, fill, encoding) { return alloc(size, fill, encoding) } function allocUnsafe (size) { assertSize(size) return createBuffer(size < 0 ? 0 : checked(size) | 0) } /** * Equivalent to Buffer(num), by default creates a non-zero-filled Buffer instance. * */ Buffer.allocUnsafe = function (size) { return allocUnsafe(size) } /** * Equivalent to SlowBuffer(num), by default creates a non-zero-filled Buffer instance. */ Buffer.allocUnsafeSlow = function (size) { return allocUnsafe(size) } function fromString (string, encoding) { if (typeof encoding !== 'string' || encoding === '') { encoding = 'utf8' } if (!Buffer.isEncoding(encoding)) { throw new TypeError('"encoding" must be a valid string encoding') } var length = byteLength(string, encoding) | 0 var buf = createBuffer(length) var actual = buf.write(string, encoding) if (actual !== length) { // Writing a hex string, for example, that contains invalid characters will // cause everything after the first invalid character to be ignored. (e.g. // 'abxxcd' will be treated as 'ab') buf = buf.slice(0, actual) } return buf } function fromArrayLike (array) { var length = array.length < 0 ? 0 : checked(array.length) | 0 var buf = createBuffer(length) for (var i = 0; i < length; i += 1) { buf[i] = array[i] & 255 } return buf } function fromArrayBuffer (array, byteOffset, length) { if (byteOffset < 0 || array.byteLength < byteOffset) { throw new RangeError('\'offset\' is out of bounds') } if (array.byteLength < byteOffset + (length || 0)) { throw new RangeError('\'length\' is out of bounds') } var buf if (byteOffset === undefined && length === undefined) { buf = new Uint8Array(array) } else if (length === undefined) { buf = new Uint8Array(array, byteOffset) } else { buf = new Uint8Array(array, byteOffset, length) } // Return an augmented `Uint8Array` instance buf.__proto__ = Buffer.prototype return buf } function fromObject (obj) { if (Buffer.isBuffer(obj)) { var len = checked(obj.length) | 0 var buf = createBuffer(len) if (buf.length === 0) { return buf } obj.copy(buf, 0, 0, len) return buf } if (obj) { if (isArrayBufferView(obj) || 'length' in obj) { if (typeof obj.length !== 'number' || numberIsNaN(obj.length)) { return createBuffer(0) } return fromArrayLike(obj) } if (obj.type === 'Buffer' && Array.isArray(obj.data)) { return fromArrayLike(obj.data) } } throw new TypeError('First argument must be a string, Buffer, ArrayBuffer, Array, or array-like object.') } function checked (length) { // Note: cannot use `length < K_MAX_LENGTH` here because that fails when // length is NaN (which is otherwise coerced to zero.) if (length >= K_MAX_LENGTH) { throw new RangeError('Attempt to allocate Buffer larger than maximum ' + 'size: 0x' + K_MAX_LENGTH.toString(16) + ' bytes') } return length | 0 } function SlowBuffer (length) { if (+length != length) { // eslint-disable-line eqeqeq length = 0 } return Buffer.alloc(+length) } Buffer.isBuffer = function isBuffer (b) { return b != null && b._isBuffer === true } Buffer.compare = function compare (a, b) { if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) { throw new TypeError('Arguments must be Buffers') } if (a === b) return 0 var x = a.length var y = b.length for (var i = 0, len = Math.min(x, y); i < len; ++i) { if (a[i] !== b[i]) { x = a[i] y = b[i] break } } if (x < y) return -1 if (y < x) return 1 return 0 } Buffer.isEncoding = function isEncoding (encoding) { switch (String(encoding).toLowerCase()) { case 'hex': case 'utf8': case 'utf-8': case 'ascii': case 'latin1': case 'binary': case 'base64': case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return true default: return false } } Buffer.concat = function concat (list, length) { if (!Array.isArray(list)) { throw new TypeError('"list" argument must be an Array of Buffers') } if (list.length === 0) { return Buffer.alloc(0) } var i if (length === undefined) { length = 0 for (i = 0; i < list.length; ++i) { length += list[i].length } } var buffer = Buffer.allocUnsafe(length) var pos = 0 for (i = 0; i < list.length; ++i) { var buf = list[i] if (!Buffer.isBuffer(buf)) { throw new TypeError('"list" argument must be an Array of Buffers') } buf.copy(buffer, pos) pos += buf.length } return buffer } function byteLength (string, encoding) { if (Buffer.isBuffer(string)) { return string.length } if (isArrayBufferView(string) || isArrayBuffer(string)) { return string.byteLength } if (typeof string !== 'string') { string = '' + string } var len = string.length if (len === 0) return 0 // Use a for loop to avoid recursion var loweredCase = false for (;;) { switch (encoding) { case 'ascii': case 'latin1': case 'binary': return len case 'utf8': case 'utf-8': case undefined: return utf8ToBytes(string).length case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return len * 2 case 'hex': return len >>> 1 case 'base64': return base64ToBytes(string).length default: if (loweredCase) return utf8ToBytes(string).length // assume utf8 encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.byteLength = byteLength function slowToString (encoding, start, end) { var loweredCase = false // No need to verify that "this.length <= MAX_UINT32" since it's a read-only // property of a typed array. // This behaves neither like String nor Uint8Array in that we set start/end // to their upper/lower bounds if the value passed is out of range. // undefined is handled specially as per ECMA-262 6th Edition, // Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization. if (start === undefined || start < 0) { start = 0 } // Return early if start > this.length. Done here to prevent potential uint32 // coercion fail below. if (start > this.length) { return '' } if (end === undefined || end > this.length) { end = this.length } if (end <= 0) { return '' } // Force coersion to uint32. This will also coerce falsey/NaN values to 0. end >>>= 0 start >>>= 0 if (end <= start) { return '' } if (!encoding) encoding = 'utf8' while (true) { switch (encoding) { case 'hex': return hexSlice(this, start, end) case 'utf8': case 'utf-8': return utf8Slice(this, start, end) case 'ascii': return asciiSlice(this, start, end) case 'latin1': case 'binary': return latin1Slice(this, start, end) case 'base64': return base64Slice(this, start, end) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return utf16leSlice(this, start, end) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = (encoding + '').toLowerCase() loweredCase = true } } } // This property is used by `Buffer.isBuffer` (and the `is-buffer` npm package) // to detect a Buffer instance. It's not possible to use `instanceof Buffer` // reliably in a browserify context because there could be multiple different // copies of the 'buffer' package in use. This method works even for Buffer // instances that were created from another copy of the `buffer` package. // See: https://github.com/feross/buffer/issues/154 Buffer.prototype._isBuffer = true function swap (b, n, m) { var i = b[n] b[n] = b[m] b[m] = i } Buffer.prototype.swap16 = function swap16 () { var len = this.length if (len % 2 !== 0) { throw new RangeError('Buffer size must be a multiple of 16-bits') } for (var i = 0; i < len; i += 2) { swap(this, i, i + 1) } return this } Buffer.prototype.swap32 = function swap32 () { var len = this.length if (len % 4 !== 0) { throw new RangeError('Buffer size must be a multiple of 32-bits') } for (var i = 0; i < len; i += 4) { swap(this, i, i + 3) swap(this, i + 1, i + 2) } return this } Buffer.prototype.swap64 = function swap64 () { var len = this.length if (len % 8 !== 0) { throw new RangeError('Buffer size must be a multiple of 64-bits') } for (var i = 0; i < len; i += 8) { swap(this, i, i + 7) swap(this, i + 1, i + 6) swap(this, i + 2, i + 5) swap(this, i + 3, i + 4) } return this } Buffer.prototype.toString = function toString () { var length = this.length if (length === 0) return '' if (arguments.length === 0) return utf8Slice(this, 0, length) return slowToString.apply(this, arguments) } Buffer.prototype.equals = function equals (b) { if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') if (this === b) return true return Buffer.compare(this, b) === 0 } Buffer.prototype.inspect = function inspect () { var str = '' var max = exports.INSPECT_MAX_BYTES if (this.length > 0) { str = this.toString('hex', 0, max).match(/.{2}/g).join(' ') if (this.length > max) str += ' ... ' } return '' } Buffer.prototype.compare = function compare (target, start, end, thisStart, thisEnd) { if (!Buffer.isBuffer(target)) { throw new TypeError('Argument must be a Buffer') } if (start === undefined) { start = 0 } if (end === undefined) { end = target ? target.length : 0 } if (thisStart === undefined) { thisStart = 0 } if (thisEnd === undefined) { thisEnd = this.length } if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) { throw new RangeError('out of range index') } if (thisStart >= thisEnd && start >= end) { return 0 } if (thisStart >= thisEnd) { return -1 } if (start >= end) { return 1 } start >>>= 0 end >>>= 0 thisStart >>>= 0 thisEnd >>>= 0 if (this === target) return 0 var x = thisEnd - thisStart var y = end - start var len = Math.min(x, y) var thisCopy = this.slice(thisStart, thisEnd) var targetCopy = target.slice(start, end) for (var i = 0; i < len; ++i) { if (thisCopy[i] !== targetCopy[i]) { x = thisCopy[i] y = targetCopy[i] break } } if (x < y) return -1 if (y < x) return 1 return 0 } // Finds either the first index of `val` in `buffer` at offset >= `byteOffset`, // OR the last index of `val` in `buffer` at offset <= `byteOffset`. // // Arguments: // - buffer - a Buffer to search // - val - a string, Buffer, or number // - byteOffset - an index into `buffer`; will be clamped to an int32 // - encoding - an optional encoding, relevant is val is a string // - dir - true for indexOf, false for lastIndexOf function bidirectionalIndexOf (buffer, val, byteOffset, encoding, dir) { // Empty buffer means no match if (buffer.length === 0) return -1 // Normalize byteOffset if (typeof byteOffset === 'string') { encoding = byteOffset byteOffset = 0 } else if (byteOffset > 0x7fffffff) { byteOffset = 0x7fffffff } else if (byteOffset < -0x80000000) { byteOffset = -0x80000000 } byteOffset = +byteOffset // Coerce to Number. if (numberIsNaN(byteOffset)) { // byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer byteOffset = dir ? 0 : (buffer.length - 1) } // Normalize byteOffset: negative offsets start from the end of the buffer if (byteOffset < 0) byteOffset = buffer.length + byteOffset if (byteOffset >= buffer.length) { if (dir) return -1 else byteOffset = buffer.length - 1 } else if (byteOffset < 0) { if (dir) byteOffset = 0 else return -1 } // Normalize val if (typeof val === 'string') { val = Buffer.from(val, encoding) } // Finally, search either indexOf (if dir is true) or lastIndexOf if (Buffer.isBuffer(val)) { // Special case: looking for empty string/buffer always fails if (val.length === 0) { return -1 } return arrayIndexOf(buffer, val, byteOffset, encoding, dir) } else if (typeof val === 'number') { val = val & 0xFF // Search for a byte value [0-255] if (typeof Uint8Array.prototype.indexOf === 'function') { if (dir) { return Uint8Array.prototype.indexOf.call(buffer, val, byteOffset) } else { return Uint8Array.prototype.lastIndexOf.call(buffer, val, byteOffset) } } return arrayIndexOf(buffer, [ val ], byteOffset, encoding, dir) } throw new TypeError('val must be string, number or Buffer') } function arrayIndexOf (arr, val, byteOffset, encoding, dir) { var indexSize = 1 var arrLength = arr.length var valLength = val.length if (encoding !== undefined) { encoding = String(encoding).toLowerCase() if (encoding === 'ucs2' || encoding === 'ucs-2' || encoding === 'utf16le' || encoding === 'utf-16le') { if (arr.length < 2 || val.length < 2) { return -1 } indexSize = 2 arrLength /= 2 valLength /= 2 byteOffset /= 2 } } function read (buf, i) { if (indexSize === 1) { return buf[i] } else { return buf.readUInt16BE(i * indexSize) } } var i if (dir) { var foundIndex = -1 for (i = byteOffset; i < arrLength; i++) { if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) { if (foundIndex === -1) foundIndex = i if (i - foundIndex + 1 === valLength) return foundIndex * indexSize } else { if (foundIndex !== -1) i -= i - foundIndex foundIndex = -1 } } } else { if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength for (i = byteOffset; i >= 0; i--) { var found = true for (var j = 0; j < valLength; j++) { if (read(arr, i + j) !== read(val, j)) { found = false break } } if (found) return i } } return -1 } Buffer.prototype.includes = function includes (val, byteOffset, encoding) { return this.indexOf(val, byteOffset, encoding) !== -1 } Buffer.prototype.indexOf = function indexOf (val, byteOffset, encoding) { return bidirectionalIndexOf(this, val, byteOffset, encoding, true) } Buffer.prototype.lastIndexOf = function lastIndexOf (val, byteOffset, encoding) { return bidirectionalIndexOf(this, val, byteOffset, encoding, false) } function hexWrite (buf, string, offset, length) { offset = Number(offset) || 0 var remaining = buf.length - offset if (!length) { length = remaining } else { length = Number(length) if (length > remaining) { length = remaining } } // must be an even number of digits var strLen = string.length if (strLen % 2 !== 0) throw new TypeError('Invalid hex string') if (length > strLen / 2) { length = strLen / 2 } for (var i = 0; i < length; ++i) { var parsed = parseInt(string.substr(i * 2, 2), 16) if (numberIsNaN(parsed)) return i buf[offset + i] = parsed } return i } function utf8Write (buf, string, offset, length) { return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length) } function asciiWrite (buf, string, offset, length) { return blitBuffer(asciiToBytes(string), buf, offset, length) } function latin1Write (buf, string, offset, length) { return asciiWrite(buf, string, offset, length) } function base64Write (buf, string, offset, length) { return blitBuffer(base64ToBytes(string), buf, offset, length) } function ucs2Write (buf, string, offset, length) { return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length) } Buffer.prototype.write = function write (string, offset, length, encoding) { // Buffer#write(string) if (offset === undefined) { encoding = 'utf8' length = this.length offset = 0 // Buffer#write(string, encoding) } else if (length === undefined && typeof offset === 'string') { encoding = offset length = this.length offset = 0 // Buffer#write(string, offset[, length][, encoding]) } else if (isFinite(offset)) { offset = offset >>> 0 if (isFinite(length)) { length = length >>> 0 if (encoding === undefined) encoding = 'utf8' } else { encoding = length length = undefined } } else { throw new Error( 'Buffer.write(string, encoding, offset[, length]) is no longer supported' ) } var remaining = this.length - offset if (length === undefined || length > remaining) length = remaining if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) { throw new RangeError('Attempt to write outside buffer bounds') } if (!encoding) encoding = 'utf8' var loweredCase = false for (;;) { switch (encoding) { case 'hex': return hexWrite(this, string, offset, length) case 'utf8': case 'utf-8': return utf8Write(this, string, offset, length) case 'ascii': return asciiWrite(this, string, offset, length) case 'latin1': case 'binary': return latin1Write(this, string, offset, length) case 'base64': // Warning: maxLength not taken into account in base64Write return base64Write(this, string, offset, length) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return ucs2Write(this, string, offset, length) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.prototype.toJSON = function toJSON () { return { type: 'Buffer', data: Array.prototype.slice.call(this._arr || this, 0) } } function base64Slice (buf, start, end) { if (start === 0 && end === buf.length) { return base64.fromByteArray(buf) } else { return base64.fromByteArray(buf.slice(start, end)) } } function utf8Slice (buf, start, end) { end = Math.min(buf.length, end) var res = [] var i = start while (i < end) { var firstByte = buf[i] var codePoint = null var bytesPerSequence = (firstByte > 0xEF) ? 4 : (firstByte > 0xDF) ? 3 : (firstByte > 0xBF) ? 2 : 1 if (i + bytesPerSequence <= end) { var secondByte, thirdByte, fourthByte, tempCodePoint switch (bytesPerSequence) { case 1: if (firstByte < 0x80) { codePoint = firstByte } break case 2: secondByte = buf[i + 1] if ((secondByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F) if (tempCodePoint > 0x7F) { codePoint = tempCodePoint } } break case 3: secondByte = buf[i + 1] thirdByte = buf[i + 2] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F) if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) { codePoint = tempCodePoint } } break case 4: secondByte = buf[i + 1] thirdByte = buf[i + 2] fourthByte = buf[i + 3] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F) if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) { codePoint = tempCodePoint } } } } if (codePoint === null) { // we did not generate a valid codePoint so insert a // replacement char (U+FFFD) and advance only 1 byte codePoint = 0xFFFD bytesPerSequence = 1 } else if (codePoint > 0xFFFF) { // encode to utf16 (surrogate pair dance) codePoint -= 0x10000 res.push(codePoint >>> 10 & 0x3FF | 0xD800) codePoint = 0xDC00 | codePoint & 0x3FF } res.push(codePoint) i += bytesPerSequence } return decodeCodePointsArray(res) } // Based on http://stackoverflow.com/a/22747272/680742, the browser with // the lowest limit is Chrome, with 0x10000 args. // We go 1 magnitude less, for safety var MAX_ARGUMENTS_LENGTH = 0x1000 function decodeCodePointsArray (codePoints) { var len = codePoints.length if (len <= MAX_ARGUMENTS_LENGTH) { return String.fromCharCode.apply(String, codePoints) // avoid extra slice() } // Decode in chunks to avoid "call stack size exceeded". var res = '' var i = 0 while (i < len) { res += String.fromCharCode.apply( String, codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH) ) } return res } function asciiSlice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; ++i) { ret += String.fromCharCode(buf[i] & 0x7F) } return ret } function latin1Slice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; ++i) { ret += String.fromCharCode(buf[i]) } return ret } function hexSlice (buf, start, end) { var len = buf.length if (!start || start < 0) start = 0 if (!end || end < 0 || end > len) end = len var out = '' for (var i = start; i < end; ++i) { out += toHex(buf[i]) } return out } function utf16leSlice (buf, start, end) { var bytes = buf.slice(start, end) var res = '' for (var i = 0; i < bytes.length; i += 2) { res += String.fromCharCode(bytes[i] + (bytes[i + 1] * 256)) } return res } Buffer.prototype.slice = function slice (start, end) { var len = this.length start = ~~start end = end === undefined ? len : ~~end if (start < 0) { start += len if (start < 0) start = 0 } else if (start > len) { start = len } if (end < 0) { end += len if (end < 0) end = 0 } else if (end > len) { end = len } if (end < start) end = start var newBuf = this.subarray(start, end) // Return an augmented `Uint8Array` instance newBuf.__proto__ = Buffer.prototype return newBuf } /* * Need to make sure that buffer isn't trying to write out of bounds. */ function checkOffset (offset, ext, length) { if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint') if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length') } Buffer.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } return val } Buffer.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { checkOffset(offset, byteLength, this.length) } var val = this[offset + --byteLength] var mul = 1 while (byteLength > 0 && (mul *= 0x100)) { val += this[offset + --byteLength] * mul } return val } Buffer.prototype.readUInt8 = function readUInt8 (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 1, this.length) return this[offset] } Buffer.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) return this[offset] | (this[offset + 1] << 8) } Buffer.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) return (this[offset] << 8) | this[offset + 1] } Buffer.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ((this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16)) + (this[offset + 3] * 0x1000000) } Buffer.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] * 0x1000000) + ((this[offset + 1] << 16) | (this[offset + 2] << 8) | this[offset + 3]) } Buffer.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var i = byteLength var mul = 1 var val = this[offset + --i] while (i > 0 && (mul *= 0x100)) { val += this[offset + --i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readInt8 = function readInt8 (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 1, this.length) if (!(this[offset] & 0x80)) return (this[offset]) return ((0xff - this[offset] + 1) * -1) } Buffer.prototype.readInt16LE = function readInt16LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset] | (this[offset + 1] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt16BE = function readInt16BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset + 1] | (this[offset] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt32LE = function readInt32LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16) | (this[offset + 3] << 24) } Buffer.prototype.readInt32BE = function readInt32BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] << 24) | (this[offset + 1] << 16) | (this[offset + 2] << 8) | (this[offset + 3]) } Buffer.prototype.readFloatLE = function readFloatLE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, true, 23, 4) } Buffer.prototype.readFloatBE = function readFloatBE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, false, 23, 4) } Buffer.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, true, 52, 8) } Buffer.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, false, 52, 8) } function checkInt (buf, value, offset, ext, max, min) { if (!Buffer.isBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance') if (value > max || value < min) throw new RangeError('"value" argument is out of bounds') if (offset + ext > buf.length) throw new RangeError('Index out of range') } Buffer.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { var maxBytes = Math.pow(2, 8 * byteLength) - 1 checkInt(this, value, offset, byteLength, maxBytes, 0) } var mul = 1 var i = 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { var maxBytes = Math.pow(2, 8 * byteLength) - 1 checkInt(this, value, offset, byteLength, maxBytes, 0) } var i = byteLength - 1 var mul = 1 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0) this[offset] = (value & 0xff) return offset + 1 } Buffer.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) return offset + 2 } Buffer.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) return offset + 2 } Buffer.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) this[offset + 3] = (value >>> 24) this[offset + 2] = (value >>> 16) this[offset + 1] = (value >>> 8) this[offset] = (value & 0xff) return offset + 4 } Buffer.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) return offset + 4 } Buffer.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { var limit = Math.pow(2, (8 * byteLength) - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = 0 var mul = 1 var sub = 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) { sub = 1 } this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { var limit = Math.pow(2, (8 * byteLength) - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = byteLength - 1 var mul = 1 var sub = 0 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) { sub = 1 } this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80) if (value < 0) value = 0xff + value + 1 this[offset] = (value & 0xff) return offset + 1 } Buffer.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) return offset + 2 } Buffer.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) return offset + 2 } Buffer.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) this[offset + 2] = (value >>> 16) this[offset + 3] = (value >>> 24) return offset + 4 } Buffer.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (value < 0) value = 0xffffffff + value + 1 this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) return offset + 4 } function checkIEEE754 (buf, value, offset, ext, max, min) { if (offset + ext > buf.length) throw new RangeError('Index out of range') if (offset < 0) throw new RangeError('Index out of range') } function writeFloat (buf, value, offset, littleEndian, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38) } ieee754.write(buf, value, offset, littleEndian, 23, 4) return offset + 4 } Buffer.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) { return writeFloat(this, value, offset, true, noAssert) } Buffer.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) { return writeFloat(this, value, offset, false, noAssert) } function writeDouble (buf, value, offset, littleEndian, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308) } ieee754.write(buf, value, offset, littleEndian, 52, 8) return offset + 8 } Buffer.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) { return writeDouble(this, value, offset, true, noAssert) } Buffer.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) { return writeDouble(this, value, offset, false, noAssert) } // copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length) Buffer.prototype.copy = function copy (target, targetStart, start, end) { if (!start) start = 0 if (!end && end !== 0) end = this.length if (targetStart >= target.length) targetStart = target.length if (!targetStart) targetStart = 0 if (end > 0 && end < start) end = start // Copy 0 bytes; we're done if (end === start) return 0 if (target.length === 0 || this.length === 0) return 0 // Fatal error conditions if (targetStart < 0) { throw new RangeError('targetStart out of bounds') } if (start < 0 || start >= this.length) throw new RangeError('sourceStart out of bounds') if (end < 0) throw new RangeError('sourceEnd out of bounds') // Are we oob? if (end > this.length) end = this.length if (target.length - targetStart < end - start) { end = target.length - targetStart + start } var len = end - start var i if (this === target && start < targetStart && targetStart < end) { // descending copy from end for (i = len - 1; i >= 0; --i) { target[i + targetStart] = this[i + start] } } else if (len < 1000) { // ascending copy from start for (i = 0; i < len; ++i) { target[i + targetStart] = this[i + start] } } else { Uint8Array.prototype.set.call( target, this.subarray(start, start + len), targetStart ) } return len } // Usage: // buffer.fill(number[, offset[, end]]) // buffer.fill(buffer[, offset[, end]]) // buffer.fill(string[, offset[, end]][, encoding]) Buffer.prototype.fill = function fill (val, start, end, encoding) { // Handle string cases: if (typeof val === 'string') { if (typeof start === 'string') { encoding = start start = 0 end = this.length } else if (typeof end === 'string') { encoding = end end = this.length } if (val.length === 1) { var code = val.charCodeAt(0) if (code < 256) { val = code } } if (encoding !== undefined && typeof encoding !== 'string') { throw new TypeError('encoding must be a string') } if (typeof encoding === 'string' && !Buffer.isEncoding(encoding)) { throw new TypeError('Unknown encoding: ' + encoding) } } else if (typeof val === 'number') { val = val & 255 } // Invalid ranges are not set to a default, so can range check early. if (start < 0 || this.length < start || this.length < end) { throw new RangeError('Out of range index') } if (end <= start) { return this } start = start >>> 0 end = end === undefined ? this.length : end >>> 0 if (!val) val = 0 var i if (typeof val === 'number') { for (i = start; i < end; ++i) { this[i] = val } } else { var bytes = Buffer.isBuffer(val) ? val : new Buffer(val, encoding) var len = bytes.length for (i = 0; i < end - start; ++i) { this[i + start] = bytes[i % len] } } return this } // HELPER FUNCTIONS // ================ var INVALID_BASE64_RE = /[^+/0-9A-Za-z-_]/g function base64clean (str) { // Node strips out invalid characters like \n and \t from the string, base64-js does not str = str.trim().replace(INVALID_BASE64_RE, '') // Node converts strings with length < 2 to '' if (str.length < 2) return '' // Node allows for non-padded base64 strings (missing trailing ===), base64-js does not while (str.length % 4 !== 0) { str = str + '=' } return str } function toHex (n) { if (n < 16) return '0' + n.toString(16) return n.toString(16) } function utf8ToBytes (string, units) { units = units || Infinity var codePoint var length = string.length var leadSurrogate = null var bytes = [] for (var i = 0; i < length; ++i) { codePoint = string.charCodeAt(i) // is surrogate component if (codePoint > 0xD7FF && codePoint < 0xE000) { // last char was a lead if (!leadSurrogate) { // no lead yet if (codePoint > 0xDBFF) { // unexpected trail if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } else if (i + 1 === length) { // unpaired lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } // valid lead leadSurrogate = codePoint continue } // 2 leads in a row if (codePoint < 0xDC00) { if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) leadSurrogate = codePoint continue } // valid surrogate pair codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000 } else if (leadSurrogate) { // valid bmp char, but last char was a lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) } leadSurrogate = null // encode utf8 if (codePoint < 0x80) { if ((units -= 1) < 0) break bytes.push(codePoint) } else if (codePoint < 0x800) { if ((units -= 2) < 0) break bytes.push( codePoint >> 0x6 | 0xC0, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x10000) { if ((units -= 3) < 0) break bytes.push( codePoint >> 0xC | 0xE0, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x110000) { if ((units -= 4) < 0) break bytes.push( codePoint >> 0x12 | 0xF0, codePoint >> 0xC & 0x3F | 0x80, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else { throw new Error('Invalid code point') } } return bytes } function asciiToBytes (str) { var byteArray = [] for (var i = 0; i < str.length; ++i) { // Node's code seems to be doing this and not & 0x7F.. byteArray.push(str.charCodeAt(i) & 0xFF) } return byteArray } function utf16leToBytes (str, units) { var c, hi, lo var byteArray = [] for (var i = 0; i < str.length; ++i) { if ((units -= 2) < 0) break c = str.charCodeAt(i) hi = c >> 8 lo = c % 256 byteArray.push(lo) byteArray.push(hi) } return byteArray } function base64ToBytes (str) { return base64.toByteArray(base64clean(str)) } function blitBuffer (src, dst, offset, length) { for (var i = 0; i < length; ++i) { if ((i + offset >= dst.length) || (i >= src.length)) break dst[i + offset] = src[i] } return i } // ArrayBuffers from another context (i.e. an iframe) do not pass the `instanceof` check // but they should be treated as valid. See: https://github.com/feross/buffer/issues/166 function isArrayBuffer (obj) { return obj instanceof ArrayBuffer || (obj != null && obj.constructor != null && obj.constructor.name === 'ArrayBuffer' && typeof obj.byteLength === 'number') } // Node 0.10 supports `ArrayBuffer` but lacks `ArrayBuffer.isView` function isArrayBufferView (obj) { return (typeof ArrayBuffer.isView === 'function') && ArrayBuffer.isView(obj) } function numberIsNaN (obj) { return obj !== obj // eslint-disable-line no-self-compare } },{"base64-js":72,"ieee754":161}],108:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer var Transform = require('stream').Transform var StringDecoder = require('string_decoder').StringDecoder var inherits = require('inherits') function CipherBase (hashMode) { Transform.call(this) this.hashMode = typeof hashMode === 'string' if (this.hashMode) { this[hashMode] = this._finalOrDigest } else { this.final = this._finalOrDigest } if (this._final) { this.__final = this._final this._final = null } this._decoder = null this._encoding = null } inherits(CipherBase, Transform) CipherBase.prototype.update = function (data, inputEnc, outputEnc) { if (typeof data === 'string') { data = Buffer.from(data, inputEnc) } var outData = this._update(data) if (this.hashMode) return this if (outputEnc) { outData = this._toString(outData, outputEnc) } return outData } CipherBase.prototype.setAutoPadding = function () {} CipherBase.prototype.getAuthTag = function () { throw new Error('trying to get auth tag in unsupported state') } CipherBase.prototype.setAuthTag = function () { throw new Error('trying to set auth tag in unsupported state') } CipherBase.prototype.setAAD = function () { throw new Error('trying to set aad in unsupported state') } CipherBase.prototype._transform = function (data, _, next) { var err try { if (this.hashMode) { this._update(data) } else { this.push(this._update(data)) } } catch (e) { err = e } finally { next(err) } } CipherBase.prototype._flush = function (done) { var err try { this.push(this.__final()) } catch (e) { err = e } done(err) } CipherBase.prototype._finalOrDigest = function (outputEnc) { var outData = this.__final() || Buffer.alloc(0) if (outputEnc) { outData = this._toString(outData, outputEnc, true) } return outData } CipherBase.prototype._toString = function (value, enc, fin) { if (!this._decoder) { this._decoder = new StringDecoder(enc) this._encoding = enc } if (this._encoding !== enc) throw new Error('can\'t switch encodings') var out = this._decoder.write(value) if (fin) { out += this._decoder.end() } return out } module.exports = CipherBase },{"inherits":163,"safe-buffer":247,"stream":263,"string_decoder":264}],109:[function(require,module,exports){ (function (Buffer){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // NOTE: These type checking functions intentionally don't use `instanceof` // because it is fragile and can be easily faked with `Object.create()`. function isArray(arg) { if (Array.isArray) { return Array.isArray(arg); } return objectToString(arg) === '[object Array]'; } exports.isArray = isArray; function isBoolean(arg) { return typeof arg === 'boolean'; } exports.isBoolean = isBoolean; function isNull(arg) { return arg === null; } exports.isNull = isNull; function isNullOrUndefined(arg) { return arg == null; } exports.isNullOrUndefined = isNullOrUndefined; function isNumber(arg) { return typeof arg === 'number'; } exports.isNumber = isNumber; function isString(arg) { return typeof arg === 'string'; } exports.isString = isString; function isSymbol(arg) { return typeof arg === 'symbol'; } exports.isSymbol = isSymbol; function isUndefined(arg) { return arg === void 0; } exports.isUndefined = isUndefined; function isRegExp(re) { return objectToString(re) === '[object RegExp]'; } exports.isRegExp = isRegExp; function isObject(arg) { return typeof arg === 'object' && arg !== null; } exports.isObject = isObject; function isDate(d) { return objectToString(d) === '[object Date]'; } exports.isDate = isDate; function isError(e) { return (objectToString(e) === '[object Error]' || e instanceof Error); } exports.isError = isError; function isFunction(arg) { return typeof arg === 'function'; } exports.isFunction = isFunction; function isPrimitive(arg) { return arg === null || typeof arg === 'boolean' || typeof arg === 'number' || typeof arg === 'string' || typeof arg === 'symbol' || // ES6 symbol typeof arg === 'undefined'; } exports.isPrimitive = isPrimitive; exports.isBuffer = Buffer.isBuffer; function objectToString(o) { return Object.prototype.toString.call(o); } }).call(this,{"isBuffer":require("../../is-buffer/index.js")}) },{"../../is-buffer/index.js":164}],110:[function(require,module,exports){ (function (Buffer){ var elliptic = require('elliptic'); var BN = require('bn.js'); module.exports = function createECDH(curve) { return new ECDH(curve); }; var aliases = { secp256k1: { name: 'secp256k1', byteLength: 32 }, secp224r1: { name: 'p224', byteLength: 28 }, prime256v1: { name: 'p256', byteLength: 32 }, prime192v1: { name: 'p192', byteLength: 24 }, ed25519: { name: 'ed25519', byteLength: 32 }, secp384r1: { name: 'p384', byteLength: 48 }, secp521r1: { name: 'p521', byteLength: 66 } }; aliases.p224 = aliases.secp224r1; aliases.p256 = aliases.secp256r1 = aliases.prime256v1; aliases.p192 = aliases.secp192r1 = aliases.prime192v1; aliases.p384 = aliases.secp384r1; aliases.p521 = aliases.secp521r1; function ECDH(curve) { this.curveType = aliases[curve]; if (!this.curveType ) { this.curveType = { name: curve }; } this.curve = new elliptic.ec(this.curveType.name); this.keys = void 0; } ECDH.prototype.generateKeys = function (enc, format) { this.keys = this.curve.genKeyPair(); return this.getPublicKey(enc, format); }; ECDH.prototype.computeSecret = function (other, inenc, enc) { inenc = inenc || 'utf8'; if (!Buffer.isBuffer(other)) { other = new Buffer(other, inenc); } var otherPub = this.curve.keyFromPublic(other).getPublic(); var out = otherPub.mul(this.keys.getPrivate()).getX(); return formatReturnValue(out, enc, this.curveType.byteLength); }; ECDH.prototype.getPublicKey = function (enc, format) { var key = this.keys.getPublic(format === 'compressed', true); if (format === 'hybrid') { if (key[key.length - 1] % 2) { key[0] = 7; } else { key [0] = 6; } } return formatReturnValue(key, enc); }; ECDH.prototype.getPrivateKey = function (enc) { return formatReturnValue(this.keys.getPrivate(), enc); }; ECDH.prototype.setPublicKey = function (pub, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(pub)) { pub = new Buffer(pub, enc); } this.keys._importPublic(pub); return this; }; ECDH.prototype.setPrivateKey = function (priv, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(priv)) { priv = new Buffer(priv, enc); } var _priv = new BN(priv); _priv = _priv.toString(16); this.keys._importPrivate(_priv); return this; }; function formatReturnValue(bn, enc, len) { if (!Array.isArray(bn)) { bn = bn.toArray(); } var buf = new Buffer(bn); if (len && buf.length < len) { var zeros = new Buffer(len - buf.length); zeros.fill(0); buf = Buffer.concat([zeros, buf]); } if (!enc) { return buf; } else { return buf.toString(enc); } } }).call(this,require("buffer").Buffer) },{"bn.js":75,"buffer":107,"elliptic":127}],111:[function(require,module,exports){ (function (Buffer){ 'use strict' var inherits = require('inherits') var md5 = require('./md5') var RIPEMD160 = require('ripemd160') var sha = require('sha.js') var Base = require('cipher-base') function HashNoConstructor (hash) { Base.call(this, 'digest') this._hash = hash this.buffers = [] } inherits(HashNoConstructor, Base) HashNoConstructor.prototype._update = function (data) { this.buffers.push(data) } HashNoConstructor.prototype._final = function () { var buf = Buffer.concat(this.buffers) var r = this._hash(buf) this.buffers = null return r } function Hash (hash) { Base.call(this, 'digest') this._hash = hash } inherits(Hash, Base) Hash.prototype._update = function (data) { this._hash.update(data) } Hash.prototype._final = function () { return this._hash.digest() } module.exports = function createHash (alg) { alg = alg.toLowerCase() if (alg === 'md5') return new HashNoConstructor(md5) if (alg === 'rmd160' || alg === 'ripemd160') return new Hash(new RIPEMD160()) return new Hash(sha(alg)) } }).call(this,require("buffer").Buffer) },{"./md5":113,"buffer":107,"cipher-base":108,"inherits":163,"ripemd160":246,"sha.js":256}],112:[function(require,module,exports){ (function (Buffer){ 'use strict' var intSize = 4 var zeroBuffer = new Buffer(intSize) zeroBuffer.fill(0) var charSize = 8 var hashSize = 16 function toArray (buf) { if ((buf.length % intSize) !== 0) { var len = buf.length + (intSize - (buf.length % intSize)) buf = Buffer.concat([buf, zeroBuffer], len) } var arr = new Array(buf.length >>> 2) for (var i = 0, j = 0; i < buf.length; i += intSize, j++) { arr[j] = buf.readInt32LE(i) } return arr } module.exports = function hash (buf, fn) { var arr = fn(toArray(buf), buf.length * charSize) buf = new Buffer(hashSize) for (var i = 0; i < arr.length; i++) { buf.writeInt32LE(arr[i], i << 2, true) } return buf } }).call(this,require("buffer").Buffer) },{"buffer":107}],113:[function(require,module,exports){ 'use strict' /* * A JavaScript implementation of the RSA Data Security, Inc. MD5 Message * Digest Algorithm, as defined in RFC 1321. * Version 2.1 Copyright (C) Paul Johnston 1999 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for more info. */ var makeHash = require('./make-hash') /* * Calculate the MD5 of an array of little-endian words, and a bit length */ function core_md5 (x, len) { /* append padding */ x[len >> 5] |= 0x80 << ((len) % 32) x[(((len + 64) >>> 9) << 4) + 14] = len var a = 1732584193 var b = -271733879 var c = -1732584194 var d = 271733878 for (var i = 0; i < x.length; i += 16) { var olda = a var oldb = b var oldc = c var oldd = d a = md5_ff(a, b, c, d, x[i + 0], 7, -680876936) d = md5_ff(d, a, b, c, x[i + 1], 12, -389564586) c = md5_ff(c, d, a, b, x[i + 2], 17, 606105819) b = md5_ff(b, c, d, a, x[i + 3], 22, -1044525330) a = md5_ff(a, b, c, d, x[i + 4], 7, -176418897) d = md5_ff(d, a, b, c, x[i + 5], 12, 1200080426) c = md5_ff(c, d, a, b, x[i + 6], 17, -1473231341) b = md5_ff(b, c, d, a, x[i + 7], 22, -45705983) a = md5_ff(a, b, c, d, x[i + 8], 7, 1770035416) d = md5_ff(d, a, b, c, x[i + 9], 12, -1958414417) c = md5_ff(c, d, a, b, x[i + 10], 17, -42063) b = md5_ff(b, c, d, a, x[i + 11], 22, -1990404162) a = md5_ff(a, b, c, d, x[i + 12], 7, 1804603682) d = md5_ff(d, a, b, c, x[i + 13], 12, -40341101) c = md5_ff(c, d, a, b, x[i + 14], 17, -1502002290) b = md5_ff(b, c, d, a, x[i + 15], 22, 1236535329) a = md5_gg(a, b, c, d, x[i + 1], 5, -165796510) d = md5_gg(d, a, b, c, x[i + 6], 9, -1069501632) c = md5_gg(c, d, a, b, x[i + 11], 14, 643717713) b = md5_gg(b, c, d, a, x[i + 0], 20, -373897302) a = md5_gg(a, b, c, d, x[i + 5], 5, -701558691) d = md5_gg(d, a, b, c, x[i + 10], 9, 38016083) c = md5_gg(c, d, a, b, x[i + 15], 14, -660478335) b = md5_gg(b, c, d, a, x[i + 4], 20, -405537848) a = md5_gg(a, b, c, d, x[i + 9], 5, 568446438) d = md5_gg(d, a, b, c, x[i + 14], 9, -1019803690) c = md5_gg(c, d, a, b, x[i + 3], 14, -187363961) b = md5_gg(b, c, d, a, x[i + 8], 20, 1163531501) a = md5_gg(a, b, c, d, x[i + 13], 5, -1444681467) d = md5_gg(d, a, b, c, x[i + 2], 9, -51403784) c = md5_gg(c, d, a, b, x[i + 7], 14, 1735328473) b = md5_gg(b, c, d, a, x[i + 12], 20, -1926607734) a = md5_hh(a, b, c, d, x[i + 5], 4, -378558) d = md5_hh(d, a, b, c, x[i + 8], 11, -2022574463) c = md5_hh(c, d, a, b, x[i + 11], 16, 1839030562) b = md5_hh(b, c, d, a, x[i + 14], 23, -35309556) a = md5_hh(a, b, c, d, x[i + 1], 4, -1530992060) d = md5_hh(d, a, b, c, x[i + 4], 11, 1272893353) c = md5_hh(c, d, a, b, x[i + 7], 16, -155497632) b = md5_hh(b, c, d, a, x[i + 10], 23, -1094730640) a = md5_hh(a, b, c, d, x[i + 13], 4, 681279174) d = md5_hh(d, a, b, c, x[i + 0], 11, -358537222) c = md5_hh(c, d, a, b, x[i + 3], 16, -722521979) b = md5_hh(b, c, d, a, x[i + 6], 23, 76029189) a = md5_hh(a, b, c, d, x[i + 9], 4, -640364487) d = md5_hh(d, a, b, c, x[i + 12], 11, -421815835) c = md5_hh(c, d, a, b, x[i + 15], 16, 530742520) b = md5_hh(b, c, d, a, x[i + 2], 23, -995338651) a = md5_ii(a, b, c, d, x[i + 0], 6, -198630844) d = md5_ii(d, a, b, c, x[i + 7], 10, 1126891415) c = md5_ii(c, d, a, b, x[i + 14], 15, -1416354905) b = md5_ii(b, c, d, a, x[i + 5], 21, -57434055) a = md5_ii(a, b, c, d, x[i + 12], 6, 1700485571) d = md5_ii(d, a, b, c, x[i + 3], 10, -1894986606) c = md5_ii(c, d, a, b, x[i + 10], 15, -1051523) b = md5_ii(b, c, d, a, x[i + 1], 21, -2054922799) a = md5_ii(a, b, c, d, x[i + 8], 6, 1873313359) d = md5_ii(d, a, b, c, x[i + 15], 10, -30611744) c = md5_ii(c, d, a, b, x[i + 6], 15, -1560198380) b = md5_ii(b, c, d, a, x[i + 13], 21, 1309151649) a = md5_ii(a, b, c, d, x[i + 4], 6, -145523070) d = md5_ii(d, a, b, c, x[i + 11], 10, -1120210379) c = md5_ii(c, d, a, b, x[i + 2], 15, 718787259) b = md5_ii(b, c, d, a, x[i + 9], 21, -343485551) a = safe_add(a, olda) b = safe_add(b, oldb) c = safe_add(c, oldc) d = safe_add(d, oldd) } return [a, b, c, d] } /* * These functions implement the four basic operations the algorithm uses. */ function md5_cmn (q, a, b, x, s, t) { return safe_add(bit_rol(safe_add(safe_add(a, q), safe_add(x, t)), s), b) } function md5_ff (a, b, c, d, x, s, t) { return md5_cmn((b & c) | ((~b) & d), a, b, x, s, t) } function md5_gg (a, b, c, d, x, s, t) { return md5_cmn((b & d) | (c & (~d)), a, b, x, s, t) } function md5_hh (a, b, c, d, x, s, t) { return md5_cmn(b ^ c ^ d, a, b, x, s, t) } function md5_ii (a, b, c, d, x, s, t) { return md5_cmn(c ^ (b | (~d)), a, b, x, s, t) } /* * Add integers, wrapping at 2^32. This uses 16-bit operations internally * to work around bugs in some JS interpreters. */ function safe_add (x, y) { var lsw = (x & 0xFFFF) + (y & 0xFFFF) var msw = (x >> 16) + (y >> 16) + (lsw >> 16) return (msw << 16) | (lsw & 0xFFFF) } /* * Bitwise rotate a 32-bit number to the left. */ function bit_rol (num, cnt) { return (num << cnt) | (num >>> (32 - cnt)) } module.exports = function md5 (buf) { return makeHash(buf, core_md5) } },{"./make-hash":112}],114:[function(require,module,exports){ 'use strict' var inherits = require('inherits') var Legacy = require('./legacy') var Base = require('cipher-base') var Buffer = require('safe-buffer').Buffer var md5 = require('create-hash/md5') var RIPEMD160 = require('ripemd160') var sha = require('sha.js') var ZEROS = Buffer.alloc(128) function Hmac (alg, key) { Base.call(this, 'digest') if (typeof key === 'string') { key = Buffer.from(key) } var blocksize = (alg === 'sha512' || alg === 'sha384') ? 128 : 64 this._alg = alg this._key = key if (key.length > blocksize) { var hash = alg === 'rmd160' ? new RIPEMD160() : sha(alg) key = hash.update(key).digest() } else if (key.length < blocksize) { key = Buffer.concat([key, ZEROS], blocksize) } var ipad = this._ipad = Buffer.allocUnsafe(blocksize) var opad = this._opad = Buffer.allocUnsafe(blocksize) for (var i = 0; i < blocksize; i++) { ipad[i] = key[i] ^ 0x36 opad[i] = key[i] ^ 0x5C } this._hash = alg === 'rmd160' ? new RIPEMD160() : sha(alg) this._hash.update(ipad) } inherits(Hmac, Base) Hmac.prototype._update = function (data) { this._hash.update(data) } Hmac.prototype._final = function () { var h = this._hash.digest() var hash = this._alg === 'rmd160' ? new RIPEMD160() : sha(this._alg) return hash.update(this._opad).update(h).digest() } module.exports = function createHmac (alg, key) { alg = alg.toLowerCase() if (alg === 'rmd160' || alg === 'ripemd160') { return new Hmac('rmd160', key) } if (alg === 'md5') { return new Legacy(md5, key) } return new Hmac(alg, key) } },{"./legacy":115,"cipher-base":108,"create-hash/md5":113,"inherits":163,"ripemd160":246,"safe-buffer":247,"sha.js":256}],115:[function(require,module,exports){ 'use strict' var inherits = require('inherits') var Buffer = require('safe-buffer').Buffer var Base = require('cipher-base') var ZEROS = Buffer.alloc(128) var blocksize = 64 function Hmac (alg, key) { Base.call(this, 'digest') if (typeof key === 'string') { key = Buffer.from(key) } this._alg = alg this._key = key if (key.length > blocksize) { key = alg(key) } else if (key.length < blocksize) { key = Buffer.concat([key, ZEROS], blocksize) } var ipad = this._ipad = Buffer.allocUnsafe(blocksize) var opad = this._opad = Buffer.allocUnsafe(blocksize) for (var i = 0; i < blocksize; i++) { ipad[i] = key[i] ^ 0x36 opad[i] = key[i] ^ 0x5C } this._hash = [ipad] } inherits(Hmac, Base) Hmac.prototype._update = function (data) { this._hash.push(data) } Hmac.prototype._final = function () { var h = this._alg(Buffer.concat(this._hash)) return this._alg(Buffer.concat([this._opad, h])) } module.exports = Hmac },{"cipher-base":108,"inherits":163,"safe-buffer":247}],116:[function(require,module,exports){ 'use strict' exports.randomBytes = exports.rng = exports.pseudoRandomBytes = exports.prng = require('randombytes') exports.createHash = exports.Hash = require('create-hash') exports.createHmac = exports.Hmac = require('create-hmac') var algos = require('browserify-sign/algos') var algoKeys = Object.keys(algos) var hashes = ['sha1', 'sha224', 'sha256', 'sha384', 'sha512', 'md5', 'rmd160'].concat(algoKeys) exports.getHashes = function () { return hashes } var p = require('pbkdf2') exports.pbkdf2 = p.pbkdf2 exports.pbkdf2Sync = p.pbkdf2Sync var aes = require('browserify-cipher') exports.Cipher = aes.Cipher exports.createCipher = aes.createCipher exports.Cipheriv = aes.Cipheriv exports.createCipheriv = aes.createCipheriv exports.Decipher = aes.Decipher exports.createDecipher = aes.createDecipher exports.Decipheriv = aes.Decipheriv exports.createDecipheriv = aes.createDecipheriv exports.getCiphers = aes.getCiphers exports.listCiphers = aes.listCiphers var dh = require('diffie-hellman') exports.DiffieHellmanGroup = dh.DiffieHellmanGroup exports.createDiffieHellmanGroup = dh.createDiffieHellmanGroup exports.getDiffieHellman = dh.getDiffieHellman exports.createDiffieHellman = dh.createDiffieHellman exports.DiffieHellman = dh.DiffieHellman var sign = require('browserify-sign') exports.createSign = sign.createSign exports.Sign = sign.Sign exports.createVerify = sign.createVerify exports.Verify = sign.Verify exports.createECDH = require('create-ecdh') var publicEncrypt = require('public-encrypt') exports.publicEncrypt = publicEncrypt.publicEncrypt exports.privateEncrypt = publicEncrypt.privateEncrypt exports.publicDecrypt = publicEncrypt.publicDecrypt exports.privateDecrypt = publicEncrypt.privateDecrypt // the least I can do is make error messages for the rest of the node.js/crypto api. // ;[ // 'createCredentials' // ].forEach(function (name) { // exports[name] = function () { // throw new Error([ // 'sorry, ' + name + ' is not implemented yet', // 'we accept pull requests', // 'https://github.com/crypto-browserify/crypto-browserify' // ].join('\n')) // } // }) var rf = require('randomfill') exports.randomFill = rf.randomFill exports.randomFillSync = rf.randomFillSync exports.createCredentials = function () { throw new Error([ 'sorry, createCredentials is not implemented yet', 'we accept pull requests', 'https://github.com/crypto-browserify/crypto-browserify' ].join('\n')) } exports.constants = { 'DH_CHECK_P_NOT_SAFE_PRIME': 2, 'DH_CHECK_P_NOT_PRIME': 1, 'DH_UNABLE_TO_CHECK_GENERATOR': 4, 'DH_NOT_SUITABLE_GENERATOR': 8, 'NPN_ENABLED': 1, 'ALPN_ENABLED': 1, 'RSA_PKCS1_PADDING': 1, 'RSA_SSLV23_PADDING': 2, 'RSA_NO_PADDING': 3, 'RSA_PKCS1_OAEP_PADDING': 4, 'RSA_X931_PADDING': 5, 'RSA_PKCS1_PSS_PADDING': 6, 'POINT_CONVERSION_COMPRESSED': 2, 'POINT_CONVERSION_UNCOMPRESSED': 4, 'POINT_CONVERSION_HYBRID': 6 } },{"browserify-cipher":95,"browserify-sign":102,"browserify-sign/algos":99,"create-ecdh":110,"create-hash":111,"create-hmac":114,"diffie-hellman":123,"pbkdf2":184,"public-encrypt":225,"randombytes":231,"randomfill":232}],117:[function(require,module,exports){ 'use strict'; exports.utils = require('./des/utils'); exports.Cipher = require('./des/cipher'); exports.DES = require('./des/des'); exports.CBC = require('./des/cbc'); exports.EDE = require('./des/ede'); },{"./des/cbc":118,"./des/cipher":119,"./des/des":120,"./des/ede":121,"./des/utils":122}],118:[function(require,module,exports){ 'use strict'; var assert = require('minimalistic-assert'); var inherits = require('inherits'); var proto = {}; function CBCState(iv) { assert.equal(iv.length, 8, 'Invalid IV length'); this.iv = new Array(8); for (var i = 0; i < this.iv.length; i++) this.iv[i] = iv[i]; } function instantiate(Base) { function CBC(options) { Base.call(this, options); this._cbcInit(); } inherits(CBC, Base); var keys = Object.keys(proto); for (var i = 0; i < keys.length; i++) { var key = keys[i]; CBC.prototype[key] = proto[key]; } CBC.create = function create(options) { return new CBC(options); }; return CBC; } exports.instantiate = instantiate; proto._cbcInit = function _cbcInit() { var state = new CBCState(this.options.iv); this._cbcState = state; }; proto._update = function _update(inp, inOff, out, outOff) { var state = this._cbcState; var superProto = this.constructor.super_.prototype; var iv = state.iv; if (this.type === 'encrypt') { for (var i = 0; i < this.blockSize; i++) iv[i] ^= inp[inOff + i]; superProto._update.call(this, iv, 0, out, outOff); for (var i = 0; i < this.blockSize; i++) iv[i] = out[outOff + i]; } else { superProto._update.call(this, inp, inOff, out, outOff); for (var i = 0; i < this.blockSize; i++) out[outOff + i] ^= iv[i]; for (var i = 0; i < this.blockSize; i++) iv[i] = inp[inOff + i]; } }; },{"inherits":163,"minimalistic-assert":176}],119:[function(require,module,exports){ 'use strict'; var assert = require('minimalistic-assert'); function Cipher(options) { this.options = options; this.type = this.options.type; this.blockSize = 8; this._init(); this.buffer = new Array(this.blockSize); this.bufferOff = 0; } module.exports = Cipher; Cipher.prototype._init = function _init() { // Might be overrided }; Cipher.prototype.update = function update(data) { if (data.length === 0) return []; if (this.type === 'decrypt') return this._updateDecrypt(data); else return this._updateEncrypt(data); }; Cipher.prototype._buffer = function _buffer(data, off) { // Append data to buffer var min = Math.min(this.buffer.length - this.bufferOff, data.length - off); for (var i = 0; i < min; i++) this.buffer[this.bufferOff + i] = data[off + i]; this.bufferOff += min; // Shift next return min; }; Cipher.prototype._flushBuffer = function _flushBuffer(out, off) { this._update(this.buffer, 0, out, off); this.bufferOff = 0; return this.blockSize; }; Cipher.prototype._updateEncrypt = function _updateEncrypt(data) { var inputOff = 0; var outputOff = 0; var count = ((this.bufferOff + data.length) / this.blockSize) | 0; var out = new Array(count * this.blockSize); if (this.bufferOff !== 0) { inputOff += this._buffer(data, inputOff); if (this.bufferOff === this.buffer.length) outputOff += this._flushBuffer(out, outputOff); } // Write blocks var max = data.length - ((data.length - inputOff) % this.blockSize); for (; inputOff < max; inputOff += this.blockSize) { this._update(data, inputOff, out, outputOff); outputOff += this.blockSize; } // Queue rest for (; inputOff < data.length; inputOff++, this.bufferOff++) this.buffer[this.bufferOff] = data[inputOff]; return out; }; Cipher.prototype._updateDecrypt = function _updateDecrypt(data) { var inputOff = 0; var outputOff = 0; var count = Math.ceil((this.bufferOff + data.length) / this.blockSize) - 1; var out = new Array(count * this.blockSize); // TODO(indutny): optimize it, this is far from optimal for (; count > 0; count--) { inputOff += this._buffer(data, inputOff); outputOff += this._flushBuffer(out, outputOff); } // Buffer rest of the input inputOff += this._buffer(data, inputOff); return out; }; Cipher.prototype.final = function final(buffer) { var first; if (buffer) first = this.update(buffer); var last; if (this.type === 'encrypt') last = this._finalEncrypt(); else last = this._finalDecrypt(); if (first) return first.concat(last); else return last; }; Cipher.prototype._pad = function _pad(buffer, off) { if (off === 0) return false; while (off < buffer.length) buffer[off++] = 0; return true; }; Cipher.prototype._finalEncrypt = function _finalEncrypt() { if (!this._pad(this.buffer, this.bufferOff)) return []; var out = new Array(this.blockSize); this._update(this.buffer, 0, out, 0); return out; }; Cipher.prototype._unpad = function _unpad(buffer) { return buffer; }; Cipher.prototype._finalDecrypt = function _finalDecrypt() { assert.equal(this.bufferOff, this.blockSize, 'Not enough data to decrypt'); var out = new Array(this.blockSize); this._flushBuffer(out, 0); return this._unpad(out); }; },{"minimalistic-assert":176}],120:[function(require,module,exports){ 'use strict'; var assert = require('minimalistic-assert'); var inherits = require('inherits'); var des = require('../des'); var utils = des.utils; var Cipher = des.Cipher; function DESState() { this.tmp = new Array(2); this.keys = null; } function DES(options) { Cipher.call(this, options); var state = new DESState(); this._desState = state; this.deriveKeys(state, options.key); } inherits(DES, Cipher); module.exports = DES; DES.create = function create(options) { return new DES(options); }; var shiftTable = [ 1, 1, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 1 ]; DES.prototype.deriveKeys = function deriveKeys(state, key) { state.keys = new Array(16 * 2); assert.equal(key.length, this.blockSize, 'Invalid key length'); var kL = utils.readUInt32BE(key, 0); var kR = utils.readUInt32BE(key, 4); utils.pc1(kL, kR, state.tmp, 0); kL = state.tmp[0]; kR = state.tmp[1]; for (var i = 0; i < state.keys.length; i += 2) { var shift = shiftTable[i >>> 1]; kL = utils.r28shl(kL, shift); kR = utils.r28shl(kR, shift); utils.pc2(kL, kR, state.keys, i); } }; DES.prototype._update = function _update(inp, inOff, out, outOff) { var state = this._desState; var l = utils.readUInt32BE(inp, inOff); var r = utils.readUInt32BE(inp, inOff + 4); // Initial Permutation utils.ip(l, r, state.tmp, 0); l = state.tmp[0]; r = state.tmp[1]; if (this.type === 'encrypt') this._encrypt(state, l, r, state.tmp, 0); else this._decrypt(state, l, r, state.tmp, 0); l = state.tmp[0]; r = state.tmp[1]; utils.writeUInt32BE(out, l, outOff); utils.writeUInt32BE(out, r, outOff + 4); }; DES.prototype._pad = function _pad(buffer, off) { var value = buffer.length - off; for (var i = off; i < buffer.length; i++) buffer[i] = value; return true; }; DES.prototype._unpad = function _unpad(buffer) { var pad = buffer[buffer.length - 1]; for (var i = buffer.length - pad; i < buffer.length; i++) assert.equal(buffer[i], pad); return buffer.slice(0, buffer.length - pad); }; DES.prototype._encrypt = function _encrypt(state, lStart, rStart, out, off) { var l = lStart; var r = rStart; // Apply f() x16 times for (var i = 0; i < state.keys.length; i += 2) { var keyL = state.keys[i]; var keyR = state.keys[i + 1]; // f(r, k) utils.expand(r, state.tmp, 0); keyL ^= state.tmp[0]; keyR ^= state.tmp[1]; var s = utils.substitute(keyL, keyR); var f = utils.permute(s); var t = r; r = (l ^ f) >>> 0; l = t; } // Reverse Initial Permutation utils.rip(r, l, out, off); }; DES.prototype._decrypt = function _decrypt(state, lStart, rStart, out, off) { var l = rStart; var r = lStart; // Apply f() x16 times for (var i = state.keys.length - 2; i >= 0; i -= 2) { var keyL = state.keys[i]; var keyR = state.keys[i + 1]; // f(r, k) utils.expand(l, state.tmp, 0); keyL ^= state.tmp[0]; keyR ^= state.tmp[1]; var s = utils.substitute(keyL, keyR); var f = utils.permute(s); var t = l; l = (r ^ f) >>> 0; r = t; } // Reverse Initial Permutation utils.rip(l, r, out, off); }; },{"../des":117,"inherits":163,"minimalistic-assert":176}],121:[function(require,module,exports){ 'use strict'; var assert = require('minimalistic-assert'); var inherits = require('inherits'); var des = require('../des'); var Cipher = des.Cipher; var DES = des.DES; function EDEState(type, key) { assert.equal(key.length, 24, 'Invalid key length'); var k1 = key.slice(0, 8); var k2 = key.slice(8, 16); var k3 = key.slice(16, 24); if (type === 'encrypt') { this.ciphers = [ DES.create({ type: 'encrypt', key: k1 }), DES.create({ type: 'decrypt', key: k2 }), DES.create({ type: 'encrypt', key: k3 }) ]; } else { this.ciphers = [ DES.create({ type: 'decrypt', key: k3 }), DES.create({ type: 'encrypt', key: k2 }), DES.create({ type: 'decrypt', key: k1 }) ]; } } function EDE(options) { Cipher.call(this, options); var state = new EDEState(this.type, this.options.key); this._edeState = state; } inherits(EDE, Cipher); module.exports = EDE; EDE.create = function create(options) { return new EDE(options); }; EDE.prototype._update = function _update(inp, inOff, out, outOff) { var state = this._edeState; state.ciphers[0]._update(inp, inOff, out, outOff); state.ciphers[1]._update(out, outOff, out, outOff); state.ciphers[2]._update(out, outOff, out, outOff); }; EDE.prototype._pad = DES.prototype._pad; EDE.prototype._unpad = DES.prototype._unpad; },{"../des":117,"inherits":163,"minimalistic-assert":176}],122:[function(require,module,exports){ 'use strict'; exports.readUInt32BE = function readUInt32BE(bytes, off) { var res = (bytes[0 + off] << 24) | (bytes[1 + off] << 16) | (bytes[2 + off] << 8) | bytes[3 + off]; return res >>> 0; }; exports.writeUInt32BE = function writeUInt32BE(bytes, value, off) { bytes[0 + off] = value >>> 24; bytes[1 + off] = (value >>> 16) & 0xff; bytes[2 + off] = (value >>> 8) & 0xff; bytes[3 + off] = value & 0xff; }; exports.ip = function ip(inL, inR, out, off) { var outL = 0; var outR = 0; for (var i = 6; i >= 0; i -= 2) { for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >>> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inL >>> (j + i)) & 1; } } for (var i = 6; i >= 0; i -= 2) { for (var j = 1; j <= 25; j += 8) { outR <<= 1; outR |= (inR >>> (j + i)) & 1; } for (var j = 1; j <= 25; j += 8) { outR <<= 1; outR |= (inL >>> (j + i)) & 1; } } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.rip = function rip(inL, inR, out, off) { var outL = 0; var outR = 0; for (var i = 0; i < 4; i++) { for (var j = 24; j >= 0; j -= 8) { outL <<= 1; outL |= (inR >>> (j + i)) & 1; outL <<= 1; outL |= (inL >>> (j + i)) & 1; } } for (var i = 4; i < 8; i++) { for (var j = 24; j >= 0; j -= 8) { outR <<= 1; outR |= (inR >>> (j + i)) & 1; outR <<= 1; outR |= (inL >>> (j + i)) & 1; } } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.pc1 = function pc1(inL, inR, out, off) { var outL = 0; var outR = 0; // 7, 15, 23, 31, 39, 47, 55, 63 // 6, 14, 22, 30, 39, 47, 55, 63 // 5, 13, 21, 29, 39, 47, 55, 63 // 4, 12, 20, 28 for (var i = 7; i >= 5; i--) { for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inL >> (j + i)) & 1; } } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >> (j + i)) & 1; } // 1, 9, 17, 25, 33, 41, 49, 57 // 2, 10, 18, 26, 34, 42, 50, 58 // 3, 11, 19, 27, 35, 43, 51, 59 // 36, 44, 52, 60 for (var i = 1; i <= 3; i++) { for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inR >> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inL >> (j + i)) & 1; } } for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inL >> (j + i)) & 1; } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.r28shl = function r28shl(num, shift) { return ((num << shift) & 0xfffffff) | (num >>> (28 - shift)); }; var pc2table = [ // inL => outL 14, 11, 17, 4, 27, 23, 25, 0, 13, 22, 7, 18, 5, 9, 16, 24, 2, 20, 12, 21, 1, 8, 15, 26, // inR => outR 15, 4, 25, 19, 9, 1, 26, 16, 5, 11, 23, 8, 12, 7, 17, 0, 22, 3, 10, 14, 6, 20, 27, 24 ]; exports.pc2 = function pc2(inL, inR, out, off) { var outL = 0; var outR = 0; var len = pc2table.length >>> 1; for (var i = 0; i < len; i++) { outL <<= 1; outL |= (inL >>> pc2table[i]) & 0x1; } for (var i = len; i < pc2table.length; i++) { outR <<= 1; outR |= (inR >>> pc2table[i]) & 0x1; } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.expand = function expand(r, out, off) { var outL = 0; var outR = 0; outL = ((r & 1) << 5) | (r >>> 27); for (var i = 23; i >= 15; i -= 4) { outL <<= 6; outL |= (r >>> i) & 0x3f; } for (var i = 11; i >= 3; i -= 4) { outR |= (r >>> i) & 0x3f; outR <<= 6; } outR |= ((r & 0x1f) << 1) | (r >>> 31); out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; var sTable = [ 14, 0, 4, 15, 13, 7, 1, 4, 2, 14, 15, 2, 11, 13, 8, 1, 3, 10, 10, 6, 6, 12, 12, 11, 5, 9, 9, 5, 0, 3, 7, 8, 4, 15, 1, 12, 14, 8, 8, 2, 13, 4, 6, 9, 2, 1, 11, 7, 15, 5, 12, 11, 9, 3, 7, 14, 3, 10, 10, 0, 5, 6, 0, 13, 15, 3, 1, 13, 8, 4, 14, 7, 6, 15, 11, 2, 3, 8, 4, 14, 9, 12, 7, 0, 2, 1, 13, 10, 12, 6, 0, 9, 5, 11, 10, 5, 0, 13, 14, 8, 7, 10, 11, 1, 10, 3, 4, 15, 13, 4, 1, 2, 5, 11, 8, 6, 12, 7, 6, 12, 9, 0, 3, 5, 2, 14, 15, 9, 10, 13, 0, 7, 9, 0, 14, 9, 6, 3, 3, 4, 15, 6, 5, 10, 1, 2, 13, 8, 12, 5, 7, 14, 11, 12, 4, 11, 2, 15, 8, 1, 13, 1, 6, 10, 4, 13, 9, 0, 8, 6, 15, 9, 3, 8, 0, 7, 11, 4, 1, 15, 2, 14, 12, 3, 5, 11, 10, 5, 14, 2, 7, 12, 7, 13, 13, 8, 14, 11, 3, 5, 0, 6, 6, 15, 9, 0, 10, 3, 1, 4, 2, 7, 8, 2, 5, 12, 11, 1, 12, 10, 4, 14, 15, 9, 10, 3, 6, 15, 9, 0, 0, 6, 12, 10, 11, 1, 7, 13, 13, 8, 15, 9, 1, 4, 3, 5, 14, 11, 5, 12, 2, 7, 8, 2, 4, 14, 2, 14, 12, 11, 4, 2, 1, 12, 7, 4, 10, 7, 11, 13, 6, 1, 8, 5, 5, 0, 3, 15, 15, 10, 13, 3, 0, 9, 14, 8, 9, 6, 4, 11, 2, 8, 1, 12, 11, 7, 10, 1, 13, 14, 7, 2, 8, 13, 15, 6, 9, 15, 12, 0, 5, 9, 6, 10, 3, 4, 0, 5, 14, 3, 12, 10, 1, 15, 10, 4, 15, 2, 9, 7, 2, 12, 6, 9, 8, 5, 0, 6, 13, 1, 3, 13, 4, 14, 14, 0, 7, 11, 5, 3, 11, 8, 9, 4, 14, 3, 15, 2, 5, 12, 2, 9, 8, 5, 12, 15, 3, 10, 7, 11, 0, 14, 4, 1, 10, 7, 1, 6, 13, 0, 11, 8, 6, 13, 4, 13, 11, 0, 2, 11, 14, 7, 15, 4, 0, 9, 8, 1, 13, 10, 3, 14, 12, 3, 9, 5, 7, 12, 5, 2, 10, 15, 6, 8, 1, 6, 1, 6, 4, 11, 11, 13, 13, 8, 12, 1, 3, 4, 7, 10, 14, 7, 10, 9, 15, 5, 6, 0, 8, 15, 0, 14, 5, 2, 9, 3, 2, 12, 13, 1, 2, 15, 8, 13, 4, 8, 6, 10, 15, 3, 11, 7, 1, 4, 10, 12, 9, 5, 3, 6, 14, 11, 5, 0, 0, 14, 12, 9, 7, 2, 7, 2, 11, 1, 4, 14, 1, 7, 9, 4, 12, 10, 14, 8, 2, 13, 0, 15, 6, 12, 10, 9, 13, 0, 15, 3, 3, 5, 5, 6, 8, 11 ]; exports.substitute = function substitute(inL, inR) { var out = 0; for (var i = 0; i < 4; i++) { var b = (inL >>> (18 - i * 6)) & 0x3f; var sb = sTable[i * 0x40 + b]; out <<= 4; out |= sb; } for (var i = 0; i < 4; i++) { var b = (inR >>> (18 - i * 6)) & 0x3f; var sb = sTable[4 * 0x40 + i * 0x40 + b]; out <<= 4; out |= sb; } return out >>> 0; }; var permuteTable = [ 16, 25, 12, 11, 3, 20, 4, 15, 31, 17, 9, 6, 27, 14, 1, 22, 30, 24, 8, 18, 0, 5, 29, 23, 13, 19, 2, 26, 10, 21, 28, 7 ]; exports.permute = function permute(num) { var out = 0; for (var i = 0; i < permuteTable.length; i++) { out <<= 1; out |= (num >>> permuteTable[i]) & 0x1; } return out >>> 0; }; exports.padSplit = function padSplit(num, size, group) { var str = num.toString(2); while (str.length < size) str = '0' + str; var out = []; for (var i = 0; i < size; i += group) out.push(str.slice(i, i + group)); return out.join(' '); }; },{}],123:[function(require,module,exports){ (function (Buffer){ var generatePrime = require('./lib/generatePrime') var primes = require('./lib/primes.json') var DH = require('./lib/dh') function getDiffieHellman (mod) { var prime = new Buffer(primes[mod].prime, 'hex') var gen = new Buffer(primes[mod].gen, 'hex') return new DH(prime, gen) } var ENCODINGS = { 'binary': true, 'hex': true, 'base64': true } function createDiffieHellman (prime, enc, generator, genc) { if (Buffer.isBuffer(enc) || ENCODINGS[enc] === undefined) { return createDiffieHellman(prime, 'binary', enc, generator) } enc = enc || 'binary' genc = genc || 'binary' generator = generator || new Buffer([2]) if (!Buffer.isBuffer(generator)) { generator = new Buffer(generator, genc) } if (typeof prime === 'number') { return new DH(generatePrime(prime, generator), generator, true) } if (!Buffer.isBuffer(prime)) { prime = new Buffer(prime, enc) } return new DH(prime, generator, true) } exports.DiffieHellmanGroup = exports.createDiffieHellmanGroup = exports.getDiffieHellman = getDiffieHellman exports.createDiffieHellman = exports.DiffieHellman = createDiffieHellman }).call(this,require("buffer").Buffer) },{"./lib/dh":124,"./lib/generatePrime":125,"./lib/primes.json":126,"buffer":107}],124:[function(require,module,exports){ (function (Buffer){ var BN = require('bn.js'); var MillerRabin = require('miller-rabin'); var millerRabin = new MillerRabin(); var TWENTYFOUR = new BN(24); var ELEVEN = new BN(11); var TEN = new BN(10); var THREE = new BN(3); var SEVEN = new BN(7); var primes = require('./generatePrime'); var randomBytes = require('randombytes'); module.exports = DH; function setPublicKey(pub, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(pub)) { pub = new Buffer(pub, enc); } this._pub = new BN(pub); return this; } function setPrivateKey(priv, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(priv)) { priv = new Buffer(priv, enc); } this._priv = new BN(priv); return this; } var primeCache = {}; function checkPrime(prime, generator) { var gen = generator.toString('hex'); var hex = [gen, prime.toString(16)].join('_'); if (hex in primeCache) { return primeCache[hex]; } var error = 0; if (prime.isEven() || !primes.simpleSieve || !primes.fermatTest(prime) || !millerRabin.test(prime)) { //not a prime so +1 error += 1; if (gen === '02' || gen === '05') { // we'd be able to check the generator // it would fail so +8 error += 8; } else { //we wouldn't be able to test the generator // so +4 error += 4; } primeCache[hex] = error; return error; } if (!millerRabin.test(prime.shrn(1))) { //not a safe prime error += 2; } var rem; switch (gen) { case '02': if (prime.mod(TWENTYFOUR).cmp(ELEVEN)) { // unsuidable generator error += 8; } break; case '05': rem = prime.mod(TEN); if (rem.cmp(THREE) && rem.cmp(SEVEN)) { // prime mod 10 needs to equal 3 or 7 error += 8; } break; default: error += 4; } primeCache[hex] = error; return error; } function DH(prime, generator, malleable) { this.setGenerator(generator); this.__prime = new BN(prime); this._prime = BN.mont(this.__prime); this._primeLen = prime.length; this._pub = undefined; this._priv = undefined; this._primeCode = undefined; if (malleable) { this.setPublicKey = setPublicKey; this.setPrivateKey = setPrivateKey; } else { this._primeCode = 8; } } Object.defineProperty(DH.prototype, 'verifyError', { enumerable: true, get: function () { if (typeof this._primeCode !== 'number') { this._primeCode = checkPrime(this.__prime, this.__gen); } return this._primeCode; } }); DH.prototype.generateKeys = function () { if (!this._priv) { this._priv = new BN(randomBytes(this._primeLen)); } this._pub = this._gen.toRed(this._prime).redPow(this._priv).fromRed(); return this.getPublicKey(); }; DH.prototype.computeSecret = function (other) { other = new BN(other); other = other.toRed(this._prime); var secret = other.redPow(this._priv).fromRed(); var out = new Buffer(secret.toArray()); var prime = this.getPrime(); if (out.length < prime.length) { var front = new Buffer(prime.length - out.length); front.fill(0); out = Buffer.concat([front, out]); } return out; }; DH.prototype.getPublicKey = function getPublicKey(enc) { return formatReturnValue(this._pub, enc); }; DH.prototype.getPrivateKey = function getPrivateKey(enc) { return formatReturnValue(this._priv, enc); }; DH.prototype.getPrime = function (enc) { return formatReturnValue(this.__prime, enc); }; DH.prototype.getGenerator = function (enc) { return formatReturnValue(this._gen, enc); }; DH.prototype.setGenerator = function (gen, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(gen)) { gen = new Buffer(gen, enc); } this.__gen = gen; this._gen = new BN(gen); return this; }; function formatReturnValue(bn, enc) { var buf = new Buffer(bn.toArray()); if (!enc) { return buf; } else { return buf.toString(enc); } } }).call(this,require("buffer").Buffer) },{"./generatePrime":125,"bn.js":75,"buffer":107,"miller-rabin":175,"randombytes":231}],125:[function(require,module,exports){ var randomBytes = require('randombytes'); module.exports = findPrime; findPrime.simpleSieve = simpleSieve; findPrime.fermatTest = fermatTest; var BN = require('bn.js'); var TWENTYFOUR = new BN(24); var MillerRabin = require('miller-rabin'); var millerRabin = new MillerRabin(); var ONE = new BN(1); var TWO = new BN(2); var FIVE = new BN(5); var SIXTEEN = new BN(16); var EIGHT = new BN(8); var TEN = new BN(10); var THREE = new BN(3); var SEVEN = new BN(7); var ELEVEN = new BN(11); var FOUR = new BN(4); var TWELVE = new BN(12); var primes = null; function _getPrimes() { if (primes !== null) return primes; var limit = 0x100000; var res = []; res[0] = 2; for (var i = 1, k = 3; k < limit; k += 2) { var sqrt = Math.ceil(Math.sqrt(k)); for (var j = 0; j < i && res[j] <= sqrt; j++) if (k % res[j] === 0) break; if (i !== j && res[j] <= sqrt) continue; res[i++] = k; } primes = res; return res; } function simpleSieve(p) { var primes = _getPrimes(); for (var i = 0; i < primes.length; i++) if (p.modn(primes[i]) === 0) { if (p.cmpn(primes[i]) === 0) { return true; } else { return false; } } return true; } function fermatTest(p) { var red = BN.mont(p); return TWO.toRed(red).redPow(p.subn(1)).fromRed().cmpn(1) === 0; } function findPrime(bits, gen) { if (bits < 16) { // this is what openssl does if (gen === 2 || gen === 5) { return new BN([0x8c, 0x7b]); } else { return new BN([0x8c, 0x27]); } } gen = new BN(gen); var num, n2; while (true) { num = new BN(randomBytes(Math.ceil(bits / 8))); while (num.bitLength() > bits) { num.ishrn(1); } if (num.isEven()) { num.iadd(ONE); } if (!num.testn(1)) { num.iadd(TWO); } if (!gen.cmp(TWO)) { while (num.mod(TWENTYFOUR).cmp(ELEVEN)) { num.iadd(FOUR); } } else if (!gen.cmp(FIVE)) { while (num.mod(TEN).cmp(THREE)) { num.iadd(FOUR); } } n2 = num.shrn(1); if (simpleSieve(n2) && simpleSieve(num) && fermatTest(n2) && fermatTest(num) && millerRabin.test(n2) && millerRabin.test(num)) { return num; } } } },{"bn.js":75,"miller-rabin":175,"randombytes":231}],126:[function(require,module,exports){ module.exports={ "modp1": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a63a3620ffffffffffffffff" }, "modp2": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece65381ffffffffffffffff" }, "modp5": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca237327ffffffffffffffff" }, "modp14": { "gen": "02", "prime": "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" }, "modp15": { "gen": "02", "prime": 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"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" }, "modp17": { "gen": "02", "prime": 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}, "modp18": { "gen": "02", "prime": "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" } } },{}],127:[function(require,module,exports){ 'use strict'; var elliptic = exports; elliptic.version = require('../package.json').version; elliptic.utils = require('./elliptic/utils'); elliptic.rand = require('brorand'); elliptic.curve = require('./elliptic/curve'); elliptic.curves = require('./elliptic/curves'); // Protocols elliptic.ec = require('./elliptic/ec'); elliptic.eddsa = require('./elliptic/eddsa'); },{"../package.json":142,"./elliptic/curve":130,"./elliptic/curves":133,"./elliptic/ec":134,"./elliptic/eddsa":137,"./elliptic/utils":141,"brorand":76}],128:[function(require,module,exports){ 'use strict'; var BN = require('bn.js'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var getNAF = utils.getNAF; var getJSF = utils.getJSF; var assert = utils.assert; function BaseCurve(type, conf) { this.type = type; this.p = new BN(conf.p, 16); // Use Montgomery, when there is no fast reduction for the prime this.red = conf.prime ? BN.red(conf.prime) : BN.mont(this.p); // Useful for many curves this.zero = new BN(0).toRed(this.red); this.one = new BN(1).toRed(this.red); this.two = new BN(2).toRed(this.red); // Curve configuration, optional this.n = conf.n && new BN(conf.n, 16); this.g = conf.g && this.pointFromJSON(conf.g, conf.gRed); // Temporary arrays this._wnafT1 = new Array(4); this._wnafT2 = new Array(4); this._wnafT3 = new Array(4); this._wnafT4 = new Array(4); // Generalized Greg Maxwell's trick var adjustCount = this.n && this.p.div(this.n); if (!adjustCount || adjustCount.cmpn(100) > 0) { this.redN = null; } else { this._maxwellTrick = true; this.redN = this.n.toRed(this.red); } } module.exports = BaseCurve; BaseCurve.prototype.point = function point() { throw new Error('Not implemented'); }; BaseCurve.prototype.validate = function validate() { throw new Error('Not implemented'); }; BaseCurve.prototype._fixedNafMul = function _fixedNafMul(p, k) { assert(p.precomputed); var doubles = p._getDoubles(); var naf = getNAF(k, 1); var I = (1 << (doubles.step + 1)) - (doubles.step % 2 === 0 ? 2 : 1); I /= 3; // Translate into more windowed form var repr = []; for (var j = 0; j < naf.length; j += doubles.step) { var nafW = 0; for (var k = j + doubles.step - 1; k >= j; k--) nafW = (nafW << 1) + naf[k]; repr.push(nafW); } var a = this.jpoint(null, null, null); var b = this.jpoint(null, null, null); for (var i = I; i > 0; i--) { for (var j = 0; j < repr.length; j++) { var nafW = repr[j]; if (nafW === i) b = b.mixedAdd(doubles.points[j]); else if (nafW === -i) b = b.mixedAdd(doubles.points[j].neg()); } a = a.add(b); } return a.toP(); }; BaseCurve.prototype._wnafMul = function _wnafMul(p, k) { var w = 4; // Precompute window var nafPoints = p._getNAFPoints(w); w = nafPoints.wnd; var wnd = nafPoints.points; // Get NAF form var naf = getNAF(k, w); // Add `this`*(N+1) for every w-NAF index var acc = this.jpoint(null, null, null); for (var i = naf.length - 1; i >= 0; i--) { // Count zeroes for (var k = 0; i >= 0 && naf[i] === 0; i--) k++; if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; var z = naf[i]; assert(z !== 0); if (p.type === 'affine') { // J +- P if (z > 0) acc = acc.mixedAdd(wnd[(z - 1) >> 1]); else acc = acc.mixedAdd(wnd[(-z - 1) >> 1].neg()); } else { // J +- J if (z > 0) acc = acc.add(wnd[(z - 1) >> 1]); else acc = acc.add(wnd[(-z - 1) >> 1].neg()); } } return p.type === 'affine' ? acc.toP() : acc; }; BaseCurve.prototype._wnafMulAdd = function _wnafMulAdd(defW, points, coeffs, len, jacobianResult) { var wndWidth = this._wnafT1; var wnd = this._wnafT2; var naf = this._wnafT3; // Fill all arrays var max = 0; for (var i = 0; i < len; i++) { var p = points[i]; var nafPoints = p._getNAFPoints(defW); wndWidth[i] = nafPoints.wnd; wnd[i] = nafPoints.points; } // Comb small window NAFs for (var i = len - 1; i >= 1; i -= 2) { var a = i - 1; var b = i; if (wndWidth[a] !== 1 || wndWidth[b] !== 1) { naf[a] = getNAF(coeffs[a], wndWidth[a]); naf[b] = getNAF(coeffs[b], wndWidth[b]); max = Math.max(naf[a].length, max); max = Math.max(naf[b].length, max); continue; } var comb = [ points[a], /* 1 */ null, /* 3 */ null, /* 5 */ points[b] /* 7 */ ]; // Try to avoid Projective points, if possible if (points[a].y.cmp(points[b].y) === 0) { comb[1] = points[a].add(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } else if (points[a].y.cmp(points[b].y.redNeg()) === 0) { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].add(points[b].neg()); } else { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } var index = [ -3, /* -1 -1 */ -1, /* -1 0 */ -5, /* -1 1 */ -7, /* 0 -1 */ 0, /* 0 0 */ 7, /* 0 1 */ 5, /* 1 -1 */ 1, /* 1 0 */ 3 /* 1 1 */ ]; var jsf = getJSF(coeffs[a], coeffs[b]); max = Math.max(jsf[0].length, max); naf[a] = new Array(max); naf[b] = new Array(max); for (var j = 0; j < max; j++) { var ja = jsf[0][j] | 0; var jb = jsf[1][j] | 0; naf[a][j] = index[(ja + 1) * 3 + (jb + 1)]; naf[b][j] = 0; wnd[a] = comb; } } var acc = this.jpoint(null, null, null); var tmp = this._wnafT4; for (var i = max; i >= 0; i--) { var k = 0; while (i >= 0) { var zero = true; for (var j = 0; j < len; j++) { tmp[j] = naf[j][i] | 0; if (tmp[j] !== 0) zero = false; } if (!zero) break; k++; i--; } if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; for (var j = 0; j < len; j++) { var z = tmp[j]; var p; if (z === 0) continue; else if (z > 0) p = wnd[j][(z - 1) >> 1]; else if (z < 0) p = wnd[j][(-z - 1) >> 1].neg(); if (p.type === 'affine') acc = acc.mixedAdd(p); else acc = acc.add(p); } } // Zeroify references for (var i = 0; i < len; i++) wnd[i] = null; if (jacobianResult) return acc; else return acc.toP(); }; function BasePoint(curve, type) { this.curve = curve; this.type = type; this.precomputed = null; } BaseCurve.BasePoint = BasePoint; BasePoint.prototype.eq = function eq(/*other*/) { throw new Error('Not implemented'); }; BasePoint.prototype.validate = function validate() { return this.curve.validate(this); }; BaseCurve.prototype.decodePoint = function decodePoint(bytes, enc) { bytes = utils.toArray(bytes, enc); var len = this.p.byteLength(); // uncompressed, hybrid-odd, hybrid-even if ((bytes[0] === 0x04 || bytes[0] === 0x06 || bytes[0] === 0x07) && bytes.length - 1 === 2 * len) { if (bytes[0] === 0x06) assert(bytes[bytes.length - 1] % 2 === 0); else if (bytes[0] === 0x07) assert(bytes[bytes.length - 1] % 2 === 1); var res = this.point(bytes.slice(1, 1 + len), bytes.slice(1 + len, 1 + 2 * len)); return res; } else if ((bytes[0] === 0x02 || bytes[0] === 0x03) && bytes.length - 1 === len) { return this.pointFromX(bytes.slice(1, 1 + len), bytes[0] === 0x03); } throw new Error('Unknown point format'); }; BasePoint.prototype.encodeCompressed = function encodeCompressed(enc) { return this.encode(enc, true); }; BasePoint.prototype._encode = function _encode(compact) { var len = this.curve.p.byteLength(); var x = this.getX().toArray('be', len); if (compact) return [ this.getY().isEven() ? 0x02 : 0x03 ].concat(x); return [ 0x04 ].concat(x, this.getY().toArray('be', len)) ; }; BasePoint.prototype.encode = function encode(enc, compact) { return utils.encode(this._encode(compact), enc); }; BasePoint.prototype.precompute = function precompute(power) { if (this.precomputed) return this; var precomputed = { doubles: null, naf: null, beta: null }; precomputed.naf = this._getNAFPoints(8); precomputed.doubles = this._getDoubles(4, power); precomputed.beta = this._getBeta(); this.precomputed = precomputed; return this; }; BasePoint.prototype._hasDoubles = function _hasDoubles(k) { if (!this.precomputed) return false; var doubles = this.precomputed.doubles; if (!doubles) return false; return doubles.points.length >= Math.ceil((k.bitLength() + 1) / doubles.step); }; BasePoint.prototype._getDoubles = function _getDoubles(step, power) { if (this.precomputed && this.precomputed.doubles) return this.precomputed.doubles; var doubles = [ this ]; var acc = this; for (var i = 0; i < power; i += step) { for (var j = 0; j < step; j++) acc = acc.dbl(); doubles.push(acc); } return { step: step, points: doubles }; }; BasePoint.prototype._getNAFPoints = function _getNAFPoints(wnd) { if (this.precomputed && this.precomputed.naf) return this.precomputed.naf; var res = [ this ]; var max = (1 << wnd) - 1; var dbl = max === 1 ? null : this.dbl(); for (var i = 1; i < max; i++) res[i] = res[i - 1].add(dbl); return { wnd: wnd, points: res }; }; BasePoint.prototype._getBeta = function _getBeta() { return null; }; BasePoint.prototype.dblp = function dblp(k) { var r = this; for (var i = 0; i < k; i++) r = r.dbl(); return r; }; },{"../../elliptic":127,"bn.js":75}],129:[function(require,module,exports){ 'use strict'; var curve = require('../curve'); var elliptic = require('../../elliptic'); var BN = require('bn.js'); var inherits = require('inherits'); var Base = curve.base; var assert = elliptic.utils.assert; function EdwardsCurve(conf) { // NOTE: Important as we are creating point in Base.call() this.twisted = (conf.a | 0) !== 1; this.mOneA = this.twisted && (conf.a | 0) === -1; this.extended = this.mOneA; Base.call(this, 'edwards', conf); this.a = new BN(conf.a, 16).umod(this.red.m); this.a = this.a.toRed(this.red); this.c = new BN(conf.c, 16).toRed(this.red); this.c2 = this.c.redSqr(); this.d = new BN(conf.d, 16).toRed(this.red); this.dd = this.d.redAdd(this.d); assert(!this.twisted || this.c.fromRed().cmpn(1) === 0); this.oneC = (conf.c | 0) === 1; } inherits(EdwardsCurve, Base); module.exports = EdwardsCurve; EdwardsCurve.prototype._mulA = function _mulA(num) { if (this.mOneA) return num.redNeg(); else return this.a.redMul(num); }; EdwardsCurve.prototype._mulC = function _mulC(num) { if (this.oneC) return num; else return this.c.redMul(num); }; // Just for compatibility with Short curve EdwardsCurve.prototype.jpoint = function jpoint(x, y, z, t) { return this.point(x, y, z, t); }; EdwardsCurve.prototype.pointFromX = function pointFromX(x, odd) { x = new BN(x, 16); if (!x.red) x = x.toRed(this.red); var x2 = x.redSqr(); var rhs = this.c2.redSub(this.a.redMul(x2)); var lhs = this.one.redSub(this.c2.redMul(this.d).redMul(x2)); var y2 = rhs.redMul(lhs.redInvm()); var y = y2.redSqrt(); if (y.redSqr().redSub(y2).cmp(this.zero) !== 0) throw new Error('invalid point'); var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y); }; EdwardsCurve.prototype.pointFromY = function pointFromY(y, odd) { y = new BN(y, 16); if (!y.red) y = y.toRed(this.red); // x^2 = (y^2 - 1) / (d y^2 + 1) var y2 = y.redSqr(); var lhs = y2.redSub(this.one); var rhs = y2.redMul(this.d).redAdd(this.one); var x2 = lhs.redMul(rhs.redInvm()); if (x2.cmp(this.zero) === 0) { if (odd) throw new Error('invalid point'); else return this.point(this.zero, y); } var x = x2.redSqrt(); if (x.redSqr().redSub(x2).cmp(this.zero) !== 0) throw new Error('invalid point'); if (x.isOdd() !== odd) x = x.redNeg(); return this.point(x, y); }; EdwardsCurve.prototype.validate = function validate(point) { if (point.isInfinity()) return true; // Curve: A * X^2 + Y^2 = C^2 * (1 + D * X^2 * Y^2) point.normalize(); var x2 = point.x.redSqr(); var y2 = point.y.redSqr(); var lhs = x2.redMul(this.a).redAdd(y2); var rhs = this.c2.redMul(this.one.redAdd(this.d.redMul(x2).redMul(y2))); return lhs.cmp(rhs) === 0; }; function Point(curve, x, y, z, t) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && y === null && z === null) { this.x = this.curve.zero; this.y = this.curve.one; this.z = this.curve.one; this.t = this.curve.zero; this.zOne = true; } else { this.x = new BN(x, 16); this.y = new BN(y, 16); this.z = z ? new BN(z, 16) : this.curve.one; this.t = t && new BN(t, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); if (this.t && !this.t.red) this.t = this.t.toRed(this.curve.red); this.zOne = this.z === this.curve.one; // Use extended coordinates if (this.curve.extended && !this.t) { this.t = this.x.redMul(this.y); if (!this.zOne) this.t = this.t.redMul(this.z.redInvm()); } } } inherits(Point, Base.BasePoint); EdwardsCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); }; EdwardsCurve.prototype.point = function point(x, y, z, t) { return new Point(this, x, y, z, t); }; Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1], obj[2]); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.x.cmpn(0) === 0 && this.y.cmp(this.z) === 0; }; Point.prototype._extDbl = function _extDbl() { // hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html // #doubling-dbl-2008-hwcd // 4M + 4S // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = 2 * Z1^2 var c = this.z.redSqr(); c = c.redIAdd(c); // D = a * A var d = this.curve._mulA(a); // E = (X1 + Y1)^2 - A - B var e = this.x.redAdd(this.y).redSqr().redISub(a).redISub(b); // G = D + B var g = d.redAdd(b); // F = G - C var f = g.redSub(c); // H = D - B var h = d.redSub(b); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projDbl = function _projDbl() { // hyperelliptic.org/EFD/g1p/auto-twisted-projective.html // #doubling-dbl-2008-bbjlp // #doubling-dbl-2007-bl // and others // Generally 3M + 4S or 2M + 4S // B = (X1 + Y1)^2 var b = this.x.redAdd(this.y).redSqr(); // C = X1^2 var c = this.x.redSqr(); // D = Y1^2 var d = this.y.redSqr(); var nx; var ny; var nz; if (this.curve.twisted) { // E = a * C var e = this.curve._mulA(c); // F = E + D var f = e.redAdd(d); if (this.zOne) { // X3 = (B - C - D) * (F - 2) nx = b.redSub(c).redSub(d).redMul(f.redSub(this.curve.two)); // Y3 = F * (E - D) ny = f.redMul(e.redSub(d)); // Z3 = F^2 - 2 * F nz = f.redSqr().redSub(f).redSub(f); } else { // H = Z1^2 var h = this.z.redSqr(); // J = F - 2 * H var j = f.redSub(h).redISub(h); // X3 = (B-C-D)*J nx = b.redSub(c).redISub(d).redMul(j); // Y3 = F * (E - D) ny = f.redMul(e.redSub(d)); // Z3 = F * J nz = f.redMul(j); } } else { // E = C + D var e = c.redAdd(d); // H = (c * Z1)^2 var h = this.curve._mulC(this.c.redMul(this.z)).redSqr(); // J = E - 2 * H var j = e.redSub(h).redSub(h); // X3 = c * (B - E) * J nx = this.curve._mulC(b.redISub(e)).redMul(j); // Y3 = c * E * (C - D) ny = this.curve._mulC(e).redMul(c.redISub(d)); // Z3 = E * J nz = e.redMul(j); } return this.curve.point(nx, ny, nz); }; Point.prototype.dbl = function dbl() { if (this.isInfinity()) return this; // Double in extended coordinates if (this.curve.extended) return this._extDbl(); else return this._projDbl(); }; Point.prototype._extAdd = function _extAdd(p) { // hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html // #addition-add-2008-hwcd-3 // 8M // A = (Y1 - X1) * (Y2 - X2) var a = this.y.redSub(this.x).redMul(p.y.redSub(p.x)); // B = (Y1 + X1) * (Y2 + X2) var b = this.y.redAdd(this.x).redMul(p.y.redAdd(p.x)); // C = T1 * k * T2 var c = this.t.redMul(this.curve.dd).redMul(p.t); // D = Z1 * 2 * Z2 var d = this.z.redMul(p.z.redAdd(p.z)); // E = B - A var e = b.redSub(a); // F = D - C var f = d.redSub(c); // G = D + C var g = d.redAdd(c); // H = B + A var h = b.redAdd(a); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projAdd = function _projAdd(p) { // hyperelliptic.org/EFD/g1p/auto-twisted-projective.html // #addition-add-2008-bbjlp // #addition-add-2007-bl // 10M + 1S // A = Z1 * Z2 var a = this.z.redMul(p.z); // B = A^2 var b = a.redSqr(); // C = X1 * X2 var c = this.x.redMul(p.x); // D = Y1 * Y2 var d = this.y.redMul(p.y); // E = d * C * D var e = this.curve.d.redMul(c).redMul(d); // F = B - E var f = b.redSub(e); // G = B + E var g = b.redAdd(e); // X3 = A * F * ((X1 + Y1) * (X2 + Y2) - C - D) var tmp = this.x.redAdd(this.y).redMul(p.x.redAdd(p.y)).redISub(c).redISub(d); var nx = a.redMul(f).redMul(tmp); var ny; var nz; if (this.curve.twisted) { // Y3 = A * G * (D - a * C) ny = a.redMul(g).redMul(d.redSub(this.curve._mulA(c))); // Z3 = F * G nz = f.redMul(g); } else { // Y3 = A * G * (D - C) ny = a.redMul(g).redMul(d.redSub(c)); // Z3 = c * F * G nz = this.curve._mulC(f).redMul(g); } return this.curve.point(nx, ny, nz); }; Point.prototype.add = function add(p) { if (this.isInfinity()) return p; if (p.isInfinity()) return this; if (this.curve.extended) return this._extAdd(p); else return this._projAdd(p); }; Point.prototype.mul = function mul(k) { if (this._hasDoubles(k)) return this.curve._fixedNafMul(this, k); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p, k2) { return this.curve._wnafMulAdd(1, [ this, p ], [ k1, k2 ], 2, false); }; Point.prototype.jmulAdd = function jmulAdd(k1, p, k2) { return this.curve._wnafMulAdd(1, [ this, p ], [ k1, k2 ], 2, true); }; Point.prototype.normalize = function normalize() { if (this.zOne) return this; // Normalize coordinates var zi = this.z.redInvm(); this.x = this.x.redMul(zi); this.y = this.y.redMul(zi); if (this.t) this.t = this.t.redMul(zi); this.z = this.curve.one; this.zOne = true; return this; }; Point.prototype.neg = function neg() { return this.curve.point(this.x.redNeg(), this.y, this.z, this.t && this.t.redNeg()); }; Point.prototype.getX = function getX() { this.normalize(); return this.x.fromRed(); }; Point.prototype.getY = function getY() { this.normalize(); return this.y.fromRed(); }; Point.prototype.eq = function eq(other) { return this === other || this.getX().cmp(other.getX()) === 0 && this.getY().cmp(other.getY()) === 0; }; Point.prototype.eqXToP = function eqXToP(x) { var rx = x.toRed(this.curve.red).redMul(this.z); if (this.x.cmp(rx) === 0) return true; var xc = x.clone(); var t = this.curve.redN.redMul(this.z); for (;;) { xc.iadd(this.curve.n); if (xc.cmp(this.curve.p) >= 0) return false; rx.redIAdd(t); if (this.x.cmp(rx) === 0) return true; } return false; }; // Compatibility with BaseCurve Point.prototype.toP = Point.prototype.normalize; Point.prototype.mixedAdd = Point.prototype.add; },{"../../elliptic":127,"../curve":130,"bn.js":75,"inherits":163}],130:[function(require,module,exports){ 'use strict'; var curve = exports; curve.base = require('./base'); curve.short = require('./short'); curve.mont = require('./mont'); curve.edwards = require('./edwards'); },{"./base":128,"./edwards":129,"./mont":131,"./short":132}],131:[function(require,module,exports){ 'use strict'; var curve = require('../curve'); var BN = require('bn.js'); var inherits = require('inherits'); var Base = curve.base; var elliptic = require('../../elliptic'); var utils = elliptic.utils; function MontCurve(conf) { Base.call(this, 'mont', conf); this.a = new BN(conf.a, 16).toRed(this.red); this.b = new BN(conf.b, 16).toRed(this.red); this.i4 = new BN(4).toRed(this.red).redInvm(); this.two = new BN(2).toRed(this.red); this.a24 = this.i4.redMul(this.a.redAdd(this.two)); } inherits(MontCurve, Base); module.exports = MontCurve; MontCurve.prototype.validate = function validate(point) { var x = point.normalize().x; var x2 = x.redSqr(); var rhs = x2.redMul(x).redAdd(x2.redMul(this.a)).redAdd(x); var y = rhs.redSqrt(); return y.redSqr().cmp(rhs) === 0; }; function Point(curve, x, z) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && z === null) { this.x = this.curve.one; this.z = this.curve.zero; } else { this.x = new BN(x, 16); this.z = new BN(z, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); } } inherits(Point, Base.BasePoint); MontCurve.prototype.decodePoint = function decodePoint(bytes, enc) { return this.point(utils.toArray(bytes, enc), 1); }; MontCurve.prototype.point = function point(x, z) { return new Point(this, x, z); }; MontCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); }; Point.prototype.precompute = function precompute() { // No-op }; Point.prototype._encode = function _encode() { return this.getX().toArray('be', this.curve.p.byteLength()); }; Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1] || curve.one); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; Point.prototype.dbl = function dbl() { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#doubling-dbl-1987-m-3 // 2M + 2S + 4A // A = X1 + Z1 var a = this.x.redAdd(this.z); // AA = A^2 var aa = a.redSqr(); // B = X1 - Z1 var b = this.x.redSub(this.z); // BB = B^2 var bb = b.redSqr(); // C = AA - BB var c = aa.redSub(bb); // X3 = AA * BB var nx = aa.redMul(bb); // Z3 = C * (BB + A24 * C) var nz = c.redMul(bb.redAdd(this.curve.a24.redMul(c))); return this.curve.point(nx, nz); }; Point.prototype.add = function add() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.diffAdd = function diffAdd(p, diff) { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#diffadd-dadd-1987-m-3 // 4M + 2S + 6A // A = X2 + Z2 var a = this.x.redAdd(this.z); // B = X2 - Z2 var b = this.x.redSub(this.z); // C = X3 + Z3 var c = p.x.redAdd(p.z); // D = X3 - Z3 var d = p.x.redSub(p.z); // DA = D * A var da = d.redMul(a); // CB = C * B var cb = c.redMul(b); // X5 = Z1 * (DA + CB)^2 var nx = diff.z.redMul(da.redAdd(cb).redSqr()); // Z5 = X1 * (DA - CB)^2 var nz = diff.x.redMul(da.redISub(cb).redSqr()); return this.curve.point(nx, nz); }; Point.prototype.mul = function mul(k) { var t = k.clone(); var a = this; // (N / 2) * Q + Q var b = this.curve.point(null, null); // (N / 2) * Q var c = this; // Q for (var bits = []; t.cmpn(0) !== 0; t.iushrn(1)) bits.push(t.andln(1)); for (var i = bits.length - 1; i >= 0; i--) { if (bits[i] === 0) { // N * Q + Q = ((N / 2) * Q + Q)) + (N / 2) * Q a = a.diffAdd(b, c); // N * Q = 2 * ((N / 2) * Q + Q)) b = b.dbl(); } else { // N * Q = ((N / 2) * Q + Q) + ((N / 2) * Q) b = a.diffAdd(b, c); // N * Q + Q = 2 * ((N / 2) * Q + Q) a = a.dbl(); } } return b; }; Point.prototype.mulAdd = function mulAdd() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.jumlAdd = function jumlAdd() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.eq = function eq(other) { return this.getX().cmp(other.getX()) === 0; }; Point.prototype.normalize = function normalize() { this.x = this.x.redMul(this.z.redInvm()); this.z = this.curve.one; return this; }; Point.prototype.getX = function getX() { // Normalize coordinates this.normalize(); return this.x.fromRed(); }; },{"../../elliptic":127,"../curve":130,"bn.js":75,"inherits":163}],132:[function(require,module,exports){ 'use strict'; var curve = require('../curve'); var elliptic = require('../../elliptic'); var BN = require('bn.js'); var inherits = require('inherits'); var Base = curve.base; var assert = elliptic.utils.assert; function ShortCurve(conf) { Base.call(this, 'short', conf); this.a = new BN(conf.a, 16).toRed(this.red); this.b = new BN(conf.b, 16).toRed(this.red); this.tinv = this.two.redInvm(); this.zeroA = this.a.fromRed().cmpn(0) === 0; this.threeA = this.a.fromRed().sub(this.p).cmpn(-3) === 0; // If the curve is endomorphic, precalculate beta and lambda this.endo = this._getEndomorphism(conf); this._endoWnafT1 = new Array(4); this._endoWnafT2 = new Array(4); } inherits(ShortCurve, Base); module.exports = ShortCurve; ShortCurve.prototype._getEndomorphism = function _getEndomorphism(conf) { // No efficient endomorphism if (!this.zeroA || !this.g || !this.n || this.p.modn(3) !== 1) return; // Compute beta and lambda, that lambda * P = (beta * Px; Py) var beta; var lambda; if (conf.beta) { beta = new BN(conf.beta, 16).toRed(this.red); } else { var betas = this._getEndoRoots(this.p); // Choose the smallest beta beta = betas[0].cmp(betas[1]) < 0 ? betas[0] : betas[1]; beta = beta.toRed(this.red); } if (conf.lambda) { lambda = new BN(conf.lambda, 16); } else { // Choose the lambda that is matching selected beta var lambdas = this._getEndoRoots(this.n); if (this.g.mul(lambdas[0]).x.cmp(this.g.x.redMul(beta)) === 0) { lambda = lambdas[0]; } else { lambda = lambdas[1]; assert(this.g.mul(lambda).x.cmp(this.g.x.redMul(beta)) === 0); } } // Get basis vectors, used for balanced length-two representation var basis; if (conf.basis) { basis = conf.basis.map(function(vec) { return { a: new BN(vec.a, 16), b: new BN(vec.b, 16) }; }); } else { basis = this._getEndoBasis(lambda); } return { beta: beta, lambda: lambda, basis: basis }; }; ShortCurve.prototype._getEndoRoots = function _getEndoRoots(num) { // Find roots of for x^2 + x + 1 in F // Root = (-1 +- Sqrt(-3)) / 2 // var red = num === this.p ? this.red : BN.mont(num); var tinv = new BN(2).toRed(red).redInvm(); var ntinv = tinv.redNeg(); var s = new BN(3).toRed(red).redNeg().redSqrt().redMul(tinv); var l1 = ntinv.redAdd(s).fromRed(); var l2 = ntinv.redSub(s).fromRed(); return [ l1, l2 ]; }; ShortCurve.prototype._getEndoBasis = function _getEndoBasis(lambda) { // aprxSqrt >= sqrt(this.n) var aprxSqrt = this.n.ushrn(Math.floor(this.n.bitLength() / 2)); // 3.74 // Run EGCD, until r(L + 1) < aprxSqrt var u = lambda; var v = this.n.clone(); var x1 = new BN(1); var y1 = new BN(0); var x2 = new BN(0); var y2 = new BN(1); // NOTE: all vectors are roots of: a + b * lambda = 0 (mod n) var a0; var b0; // First vector var a1; var b1; // Second vector var a2; var b2; var prevR; var i = 0; var r; var x; while (u.cmpn(0) !== 0) { var q = v.div(u); r = v.sub(q.mul(u)); x = x2.sub(q.mul(x1)); var y = y2.sub(q.mul(y1)); if (!a1 && r.cmp(aprxSqrt) < 0) { a0 = prevR.neg(); b0 = x1; a1 = r.neg(); b1 = x; } else if (a1 && ++i === 2) { break; } prevR = r; v = u; u = r; x2 = x1; x1 = x; y2 = y1; y1 = y; } a2 = r.neg(); b2 = x; var len1 = a1.sqr().add(b1.sqr()); var len2 = a2.sqr().add(b2.sqr()); if (len2.cmp(len1) >= 0) { a2 = a0; b2 = b0; } // Normalize signs if (a1.negative) { a1 = a1.neg(); b1 = b1.neg(); } if (a2.negative) { a2 = a2.neg(); b2 = b2.neg(); } return [ { a: a1, b: b1 }, { a: a2, b: b2 } ]; }; ShortCurve.prototype._endoSplit = function _endoSplit(k) { var basis = this.endo.basis; var v1 = basis[0]; var v2 = basis[1]; var c1 = v2.b.mul(k).divRound(this.n); var c2 = v1.b.neg().mul(k).divRound(this.n); var p1 = c1.mul(v1.a); var p2 = c2.mul(v2.a); var q1 = c1.mul(v1.b); var q2 = c2.mul(v2.b); // Calculate answer var k1 = k.sub(p1).sub(p2); var k2 = q1.add(q2).neg(); return { k1: k1, k2: k2 }; }; ShortCurve.prototype.pointFromX = function pointFromX(x, odd) { x = new BN(x, 16); if (!x.red) x = x.toRed(this.red); var y2 = x.redSqr().redMul(x).redIAdd(x.redMul(this.a)).redIAdd(this.b); var y = y2.redSqrt(); if (y.redSqr().redSub(y2).cmp(this.zero) !== 0) throw new Error('invalid point'); // XXX Is there any way to tell if the number is odd without converting it // to non-red form? var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y); }; ShortCurve.prototype.validate = function validate(point) { if (point.inf) return true; var x = point.x; var y = point.y; var ax = this.a.redMul(x); var rhs = x.redSqr().redMul(x).redIAdd(ax).redIAdd(this.b); return y.redSqr().redISub(rhs).cmpn(0) === 0; }; ShortCurve.prototype._endoWnafMulAdd = function _endoWnafMulAdd(points, coeffs, jacobianResult) { var npoints = this._endoWnafT1; var ncoeffs = this._endoWnafT2; for (var i = 0; i < points.length; i++) { var split = this._endoSplit(coeffs[i]); var p = points[i]; var beta = p._getBeta(); if (split.k1.negative) { split.k1.ineg(); p = p.neg(true); } if (split.k2.negative) { split.k2.ineg(); beta = beta.neg(true); } npoints[i * 2] = p; npoints[i * 2 + 1] = beta; ncoeffs[i * 2] = split.k1; ncoeffs[i * 2 + 1] = split.k2; } var res = this._wnafMulAdd(1, npoints, ncoeffs, i * 2, jacobianResult); // Clean-up references to points and coefficients for (var j = 0; j < i * 2; j++) { npoints[j] = null; ncoeffs[j] = null; } return res; }; function Point(curve, x, y, isRed) { Base.BasePoint.call(this, curve, 'affine'); if (x === null && y === null) { this.x = null; this.y = null; this.inf = true; } else { this.x = new BN(x, 16); this.y = new BN(y, 16); // Force redgomery representation when loading from JSON if (isRed) { this.x.forceRed(this.curve.red); this.y.forceRed(this.curve.red); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); this.inf = false; } } inherits(Point, Base.BasePoint); ShortCurve.prototype.point = function point(x, y, isRed) { return new Point(this, x, y, isRed); }; ShortCurve.prototype.pointFromJSON = function pointFromJSON(obj, red) { return Point.fromJSON(this, obj, red); }; Point.prototype._getBeta = function _getBeta() { if (!this.curve.endo) return; var pre = this.precomputed; if (pre && pre.beta) return pre.beta; var beta = this.curve.point(this.x.redMul(this.curve.endo.beta), this.y); if (pre) { var curve = this.curve; var endoMul = function(p) { return curve.point(p.x.redMul(curve.endo.beta), p.y); }; pre.beta = beta; beta.precomputed = { beta: null, naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(endoMul) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(endoMul) } }; } return beta; }; Point.prototype.toJSON = function toJSON() { if (!this.precomputed) return [ this.x, this.y ]; return [ this.x, this.y, this.precomputed && { doubles: this.precomputed.doubles && { step: this.precomputed.doubles.step, points: this.precomputed.doubles.points.slice(1) }, naf: this.precomputed.naf && { wnd: this.precomputed.naf.wnd, points: this.precomputed.naf.points.slice(1) } } ]; }; Point.fromJSON = function fromJSON(curve, obj, red) { if (typeof obj === 'string') obj = JSON.parse(obj); var res = curve.point(obj[0], obj[1], red); if (!obj[2]) return res; function obj2point(obj) { return curve.point(obj[0], obj[1], red); } var pre = obj[2]; res.precomputed = { beta: null, doubles: pre.doubles && { step: pre.doubles.step, points: [ res ].concat(pre.doubles.points.map(obj2point)) }, naf: pre.naf && { wnd: pre.naf.wnd, points: [ res ].concat(pre.naf.points.map(obj2point)) } }; return res; }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { return this.inf; }; Point.prototype.add = function add(p) { // O + P = P if (this.inf) return p; // P + O = P if (p.inf) return this; // P + P = 2P if (this.eq(p)) return this.dbl(); // P + (-P) = O if (this.neg().eq(p)) return this.curve.point(null, null); // P + Q = O if (this.x.cmp(p.x) === 0) return this.curve.point(null, null); var c = this.y.redSub(p.y); if (c.cmpn(0) !== 0) c = c.redMul(this.x.redSub(p.x).redInvm()); var nx = c.redSqr().redISub(this.x).redISub(p.x); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.dbl = function dbl() { if (this.inf) return this; // 2P = O var ys1 = this.y.redAdd(this.y); if (ys1.cmpn(0) === 0) return this.curve.point(null, null); var a = this.curve.a; var x2 = this.x.redSqr(); var dyinv = ys1.redInvm(); var c = x2.redAdd(x2).redIAdd(x2).redIAdd(a).redMul(dyinv); var nx = c.redSqr().redISub(this.x.redAdd(this.x)); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.getX = function getX() { return this.x.fromRed(); }; Point.prototype.getY = function getY() { return this.y.fromRed(); }; Point.prototype.mul = function mul(k) { k = new BN(k, 16); if (this._hasDoubles(k)) return this.curve._fixedNafMul(this, k); else if (this.curve.endo) return this.curve._endoWnafMulAdd([ this ], [ k ]); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p2, k2) { var points = [ this, p2 ]; var coeffs = [ k1, k2 ]; if (this.curve.endo) return this.curve._endoWnafMulAdd(points, coeffs); else return this.curve._wnafMulAdd(1, points, coeffs, 2); }; Point.prototype.jmulAdd = function jmulAdd(k1, p2, k2) { var points = [ this, p2 ]; var coeffs = [ k1, k2 ]; if (this.curve.endo) return this.curve._endoWnafMulAdd(points, coeffs, true); else return this.curve._wnafMulAdd(1, points, coeffs, 2, true); }; Point.prototype.eq = function eq(p) { return this === p || this.inf === p.inf && (this.inf || this.x.cmp(p.x) === 0 && this.y.cmp(p.y) === 0); }; Point.prototype.neg = function neg(_precompute) { if (this.inf) return this; var res = this.curve.point(this.x, this.y.redNeg()); if (_precompute && this.precomputed) { var pre = this.precomputed; var negate = function(p) { return p.neg(); }; res.precomputed = { naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(negate) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(negate) } }; } return res; }; Point.prototype.toJ = function toJ() { if (this.inf) return this.curve.jpoint(null, null, null); var res = this.curve.jpoint(this.x, this.y, this.curve.one); return res; }; function JPoint(curve, x, y, z) { Base.BasePoint.call(this, curve, 'jacobian'); if (x === null && y === null && z === null) { this.x = this.curve.one; this.y = this.curve.one; this.z = new BN(0); } else { this.x = new BN(x, 16); this.y = new BN(y, 16); this.z = new BN(z, 16); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); this.zOne = this.z === this.curve.one; } inherits(JPoint, Base.BasePoint); ShortCurve.prototype.jpoint = function jpoint(x, y, z) { return new JPoint(this, x, y, z); }; JPoint.prototype.toP = function toP() { if (this.isInfinity()) return this.curve.point(null, null); var zinv = this.z.redInvm(); var zinv2 = zinv.redSqr(); var ax = this.x.redMul(zinv2); var ay = this.y.redMul(zinv2).redMul(zinv); return this.curve.point(ax, ay); }; JPoint.prototype.neg = function neg() { return this.curve.jpoint(this.x, this.y.redNeg(), this.z); }; JPoint.prototype.add = function add(p) { // O + P = P if (this.isInfinity()) return p; // P + O = P if (p.isInfinity()) return this; // 12M + 4S + 7A var pz2 = p.z.redSqr(); var z2 = this.z.redSqr(); var u1 = this.x.redMul(pz2); var u2 = p.x.redMul(z2); var s1 = this.y.redMul(pz2.redMul(p.z)); var s2 = p.y.redMul(z2.redMul(this.z)); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(p.z).redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mixedAdd = function mixedAdd(p) { // O + P = P if (this.isInfinity()) return p.toJ(); // P + O = P if (p.isInfinity()) return this; // 8M + 3S + 7A var z2 = this.z.redSqr(); var u1 = this.x; var u2 = p.x.redMul(z2); var s1 = this.y; var s2 = p.y.redMul(z2).redMul(this.z); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.dblp = function dblp(pow) { if (pow === 0) return this; if (this.isInfinity()) return this; if (!pow) return this.dbl(); if (this.curve.zeroA || this.curve.threeA) { var r = this; for (var i = 0; i < pow; i++) r = r.dbl(); return r; } // 1M + 2S + 1A + N * (4S + 5M + 8A) // N = 1 => 6M + 6S + 9A var a = this.curve.a; var tinv = this.curve.tinv; var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); // Reuse results var jyd = jy.redAdd(jy); for (var i = 0; i < pow; i++) { var jx2 = jx.redSqr(); var jyd2 = jyd.redSqr(); var jyd4 = jyd2.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var t1 = jx.redMul(jyd2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var dny = c.redMul(t2); dny = dny.redIAdd(dny).redISub(jyd4); var nz = jyd.redMul(jz); if (i + 1 < pow) jz4 = jz4.redMul(jyd4); jx = nx; jz = nz; jyd = dny; } return this.curve.jpoint(jx, jyd.redMul(tinv), jz); }; JPoint.prototype.dbl = function dbl() { if (this.isInfinity()) return this; if (this.curve.zeroA) return this._zeroDbl(); else if (this.curve.threeA) return this._threeDbl(); else return this._dbl(); }; JPoint.prototype._zeroDbl = function _zeroDbl() { var nx; var ny; var nz; // Z = 1 if (this.zOne) { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html // #doubling-mdbl-2007-bl // 1M + 5S + 14A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // T = M ^ 2 - 2*S var t = m.redSqr().redISub(s).redISub(s); // 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); // X3 = T nx = t; // Y3 = M * (S - T) - 8 * YYYY ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2*Y1 nz = this.y.redAdd(this.y); } else { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html // #doubling-dbl-2009-l // 2M + 5S + 13A // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = B^2 var c = b.redSqr(); // D = 2 * ((X1 + B)^2 - A - C) var d = this.x.redAdd(b).redSqr().redISub(a).redISub(c); d = d.redIAdd(d); // E = 3 * A var e = a.redAdd(a).redIAdd(a); // F = E^2 var f = e.redSqr(); // 8 * C var c8 = c.redIAdd(c); c8 = c8.redIAdd(c8); c8 = c8.redIAdd(c8); // X3 = F - 2 * D nx = f.redISub(d).redISub(d); // Y3 = E * (D - X3) - 8 * C ny = e.redMul(d.redISub(nx)).redISub(c8); // Z3 = 2 * Y1 * Z1 nz = this.y.redMul(this.z); nz = nz.redIAdd(nz); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._threeDbl = function _threeDbl() { var nx; var ny; var nz; // Z = 1 if (this.zOne) { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html // #doubling-mdbl-2007-bl // 1M + 5S + 15A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a var m = xx.redAdd(xx).redIAdd(xx).redIAdd(this.curve.a); // T = M^2 - 2 * S var t = m.redSqr().redISub(s).redISub(s); // X3 = T nx = t; // Y3 = M * (S - T) - 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2 * Y1 nz = this.y.redAdd(this.y); } else { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-dbl-2001-b // 3M + 5S // delta = Z1^2 var delta = this.z.redSqr(); // gamma = Y1^2 var gamma = this.y.redSqr(); // beta = X1 * gamma var beta = this.x.redMul(gamma); // alpha = 3 * (X1 - delta) * (X1 + delta) var alpha = this.x.redSub(delta).redMul(this.x.redAdd(delta)); alpha = alpha.redAdd(alpha).redIAdd(alpha); // X3 = alpha^2 - 8 * beta var beta4 = beta.redIAdd(beta); beta4 = beta4.redIAdd(beta4); var beta8 = beta4.redAdd(beta4); nx = alpha.redSqr().redISub(beta8); // Z3 = (Y1 + Z1)^2 - gamma - delta nz = this.y.redAdd(this.z).redSqr().redISub(gamma).redISub(delta); // Y3 = alpha * (4 * beta - X3) - 8 * gamma^2 var ggamma8 = gamma.redSqr(); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); ny = alpha.redMul(beta4.redISub(nx)).redISub(ggamma8); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._dbl = function _dbl() { var a = this.curve.a; // 4M + 6S + 10A var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); var jx2 = jx.redSqr(); var jy2 = jy.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var jxd4 = jx.redAdd(jx); jxd4 = jxd4.redIAdd(jxd4); var t1 = jxd4.redMul(jy2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var jyd8 = jy2.redSqr(); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); var ny = c.redMul(t2).redISub(jyd8); var nz = jy.redAdd(jy).redMul(jz); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.trpl = function trpl() { if (!this.curve.zeroA) return this.dbl().add(this); // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#tripling-tpl-2007-bl // 5M + 10S + ... // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // ZZ = Z1^2 var zz = this.z.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // M = 3 * XX + a * ZZ2; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // MM = M^2 var mm = m.redSqr(); // E = 6 * ((X1 + YY)^2 - XX - YYYY) - MM var e = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); e = e.redIAdd(e); e = e.redAdd(e).redIAdd(e); e = e.redISub(mm); // EE = E^2 var ee = e.redSqr(); // T = 16*YYYY var t = yyyy.redIAdd(yyyy); t = t.redIAdd(t); t = t.redIAdd(t); t = t.redIAdd(t); // U = (M + E)^2 - MM - EE - T var u = m.redIAdd(e).redSqr().redISub(mm).redISub(ee).redISub(t); // X3 = 4 * (X1 * EE - 4 * YY * U) var yyu4 = yy.redMul(u); yyu4 = yyu4.redIAdd(yyu4); yyu4 = yyu4.redIAdd(yyu4); var nx = this.x.redMul(ee).redISub(yyu4); nx = nx.redIAdd(nx); nx = nx.redIAdd(nx); // Y3 = 8 * Y1 * (U * (T - U) - E * EE) var ny = this.y.redMul(u.redMul(t.redISub(u)).redISub(e.redMul(ee))); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); // Z3 = (Z1 + E)^2 - ZZ - EE var nz = this.z.redAdd(e).redSqr().redISub(zz).redISub(ee); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mul = function mul(k, kbase) { k = new BN(k, kbase); return this.curve._wnafMul(this, k); }; JPoint.prototype.eq = function eq(p) { if (p.type === 'affine') return this.eq(p.toJ()); if (this === p) return true; // x1 * z2^2 == x2 * z1^2 var z2 = this.z.redSqr(); var pz2 = p.z.redSqr(); if (this.x.redMul(pz2).redISub(p.x.redMul(z2)).cmpn(0) !== 0) return false; // y1 * z2^3 == y2 * z1^3 var z3 = z2.redMul(this.z); var pz3 = pz2.redMul(p.z); return this.y.redMul(pz3).redISub(p.y.redMul(z3)).cmpn(0) === 0; }; JPoint.prototype.eqXToP = function eqXToP(x) { var zs = this.z.redSqr(); var rx = x.toRed(this.curve.red).redMul(zs); if (this.x.cmp(rx) === 0) return true; var xc = x.clone(); var t = this.curve.redN.redMul(zs); for (;;) { xc.iadd(this.curve.n); if (xc.cmp(this.curve.p) >= 0) return false; rx.redIAdd(t); if (this.x.cmp(rx) === 0) return true; } return false; }; JPoint.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; JPoint.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; },{"../../elliptic":127,"../curve":130,"bn.js":75,"inherits":163}],133:[function(require,module,exports){ 'use strict'; var curves = exports; var hash = require('hash.js'); var elliptic = require('../elliptic'); var assert = elliptic.utils.assert; function PresetCurve(options) { if (options.type === 'short') this.curve = new elliptic.curve.short(options); else if (options.type === 'edwards') this.curve = new elliptic.curve.edwards(options); else this.curve = new elliptic.curve.mont(options); this.g = this.curve.g; this.n = this.curve.n; this.hash = options.hash; assert(this.g.validate(), 'Invalid curve'); assert(this.g.mul(this.n).isInfinity(), 'Invalid curve, G*N != O'); } curves.PresetCurve = PresetCurve; function defineCurve(name, options) { Object.defineProperty(curves, name, { configurable: true, enumerable: true, get: function() { var curve = new PresetCurve(options); Object.defineProperty(curves, name, { configurable: true, enumerable: true, value: curve }); return curve; } }); } defineCurve('p192', { type: 'short', prime: 'p192', p: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff fffffffc', b: '64210519 e59c80e7 0fa7e9ab 72243049 feb8deec c146b9b1', n: 'ffffffff ffffffff ffffffff 99def836 146bc9b1 b4d22831', hash: hash.sha256, gRed: false, g: [ '188da80e b03090f6 7cbf20eb 43a18800 f4ff0afd 82ff1012', '07192b95 ffc8da78 631011ed 6b24cdd5 73f977a1 1e794811' ] }); defineCurve('p224', { type: 'short', prime: 'p224', p: 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff fffffffe', b: 'b4050a85 0c04b3ab f5413256 5044b0b7 d7bfd8ba 270b3943 2355ffb4', n: 'ffffffff ffffffff ffffffff ffff16a2 e0b8f03e 13dd2945 5c5c2a3d', hash: hash.sha256, gRed: false, g: [ 'b70e0cbd 6bb4bf7f 321390b9 4a03c1d3 56c21122 343280d6 115c1d21', 'bd376388 b5f723fb 4c22dfe6 cd4375a0 5a074764 44d58199 85007e34' ] }); defineCurve('p256', { type: 'short', prime: null, p: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff', a: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff fffffffc', b: '5ac635d8 aa3a93e7 b3ebbd55 769886bc 651d06b0 cc53b0f6 3bce3c3e 27d2604b', n: 'ffffffff 00000000 ffffffff ffffffff bce6faad a7179e84 f3b9cac2 fc632551', hash: hash.sha256, gRed: false, g: [ '6b17d1f2 e12c4247 f8bce6e5 63a440f2 77037d81 2deb33a0 f4a13945 d898c296', '4fe342e2 fe1a7f9b 8ee7eb4a 7c0f9e16 2bce3357 6b315ece cbb64068 37bf51f5' ] }); defineCurve('p384', { type: 'short', prime: null, p: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'fffffffe ffffffff 00000000 00000000 ffffffff', a: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'fffffffe ffffffff 00000000 00000000 fffffffc', b: 'b3312fa7 e23ee7e4 988e056b e3f82d19 181d9c6e fe814112 0314088f ' + '5013875a c656398d 8a2ed19d 2a85c8ed d3ec2aef', n: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff c7634d81 ' + 'f4372ddf 581a0db2 48b0a77a ecec196a ccc52973', hash: hash.sha384, gRed: false, g: [ 'aa87ca22 be8b0537 8eb1c71e f320ad74 6e1d3b62 8ba79b98 59f741e0 82542a38 ' + '5502f25d bf55296c 3a545e38 72760ab7', '3617de4a 96262c6f 5d9e98bf 9292dc29 f8f41dbd 289a147c e9da3113 b5f0b8c0 ' + '0a60b1ce 1d7e819d 7a431d7c 90ea0e5f' ] }); defineCurve('p521', { type: 'short', prime: null, p: '000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'ffffffff ffffffff ffffffff ffffffff ffffffff', a: '000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'ffffffff ffffffff ffffffff ffffffff fffffffc', b: '00000051 953eb961 8e1c9a1f 929a21a0 b68540ee a2da725b ' + '99b315f3 b8b48991 8ef109e1 56193951 ec7e937b 1652c0bd ' + '3bb1bf07 3573df88 3d2c34f1 ef451fd4 6b503f00', n: '000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ' + 'ffffffff ffffffff fffffffa 51868783 bf2f966b 7fcc0148 ' + 'f709a5d0 3bb5c9b8 899c47ae bb6fb71e 91386409', hash: hash.sha512, gRed: false, g: [ '000000c6 858e06b7 0404e9cd 9e3ecb66 2395b442 9c648139 ' + '053fb521 f828af60 6b4d3dba a14b5e77 efe75928 fe1dc127 ' + 'a2ffa8de 3348b3c1 856a429b f97e7e31 c2e5bd66', '00000118 39296a78 9a3bc004 5c8a5fb4 2c7d1bd9 98f54449 ' + '579b4468 17afbd17 273e662c 97ee7299 5ef42640 c550b901 ' + '3fad0761 353c7086 a272c240 88be9476 9fd16650' ] }); defineCurve('curve25519', { type: 'mont', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '76d06', b: '1', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '9' ] }); defineCurve('ed25519', { type: 'edwards', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '-1', c: '1', // -121665 * (121666^(-1)) (mod P) d: '52036cee2b6ffe73 8cc740797779e898 00700a4d4141d8ab 75eb4dca135978a3', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '216936d3cd6e53fec0a4e231fdd6dc5c692cc7609525a7b2c9562d608f25d51a', // 4/5 '6666666666666666666666666666666666666666666666666666666666666658' ] }); var pre; try { pre = require('./precomputed/secp256k1'); } catch (e) { pre = undefined; } defineCurve('secp256k1', { type: 'short', prime: 'k256', p: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f', a: '0', b: '7', n: 'ffffffff ffffffff ffffffff fffffffe baaedce6 af48a03b bfd25e8c d0364141', h: '1', hash: hash.sha256, // Precomputed endomorphism beta: '7ae96a2b657c07106e64479eac3434e99cf0497512f58995c1396c28719501ee', lambda: '5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72', basis: [ { a: '3086d221a7d46bcde86c90e49284eb15', b: '-e4437ed6010e88286f547fa90abfe4c3' }, { a: '114ca50f7a8e2f3f657c1108d9d44cfd8', b: '3086d221a7d46bcde86c90e49284eb15' } ], gRed: false, g: [ '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', '483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8', pre ] }); },{"../elliptic":127,"./precomputed/secp256k1":140,"hash.js":147}],134:[function(require,module,exports){ 'use strict'; var BN = require('bn.js'); var HmacDRBG = require('hmac-drbg'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; var KeyPair = require('./key'); var Signature = require('./signature'); function EC(options) { if (!(this instanceof EC)) return new EC(options); // Shortcut `elliptic.ec(curve-name)` if (typeof options === 'string') { assert(elliptic.curves.hasOwnProperty(options), 'Unknown curve ' + options); options = elliptic.curves[options]; } // Shortcut for `elliptic.ec(elliptic.curves.curveName)` if (options instanceof elliptic.curves.PresetCurve) options = { curve: options }; this.curve = options.curve.curve; this.n = this.curve.n; this.nh = this.n.ushrn(1); this.g = this.curve.g; // Point on curve this.g = options.curve.g; this.g.precompute(options.curve.n.bitLength() + 1); // Hash for function for DRBG this.hash = options.hash || options.curve.hash; } module.exports = EC; EC.prototype.keyPair = function keyPair(options) { return new KeyPair(this, options); }; EC.prototype.keyFromPrivate = function keyFromPrivate(priv, enc) { return KeyPair.fromPrivate(this, priv, enc); }; EC.prototype.keyFromPublic = function keyFromPublic(pub, enc) { return KeyPair.fromPublic(this, pub, enc); }; EC.prototype.genKeyPair = function genKeyPair(options) { if (!options) options = {}; // Instantiate Hmac_DRBG var drbg = new HmacDRBG({ hash: this.hash, pers: options.pers, persEnc: options.persEnc || 'utf8', entropy: options.entropy || elliptic.rand(this.hash.hmacStrength), entropyEnc: options.entropy && options.entropyEnc || 'utf8', nonce: this.n.toArray() }); var bytes = this.n.byteLength(); var ns2 = this.n.sub(new BN(2)); do { var priv = new BN(drbg.generate(bytes)); if (priv.cmp(ns2) > 0) continue; priv.iaddn(1); return this.keyFromPrivate(priv); } while (true); }; EC.prototype._truncateToN = function truncateToN(msg, truncOnly) { var delta = msg.byteLength() * 8 - this.n.bitLength(); if (delta > 0) msg = msg.ushrn(delta); if (!truncOnly && msg.cmp(this.n) >= 0) return msg.sub(this.n); else return msg; }; EC.prototype.sign = function sign(msg, key, enc, options) { if (typeof enc === 'object') { options = enc; enc = null; } if (!options) options = {}; key = this.keyFromPrivate(key, enc); msg = this._truncateToN(new BN(msg, 16)); // Zero-extend key to provide enough entropy var bytes = this.n.byteLength(); var bkey = key.getPrivate().toArray('be', bytes); // Zero-extend nonce to have the same byte size as N var nonce = msg.toArray('be', bytes); // Instantiate Hmac_DRBG var drbg = new HmacDRBG({ hash: this.hash, entropy: bkey, nonce: nonce, pers: options.pers, persEnc: options.persEnc || 'utf8' }); // Number of bytes to generate var ns1 = this.n.sub(new BN(1)); for (var iter = 0; true; iter++) { var k = options.k ? options.k(iter) : new BN(drbg.generate(this.n.byteLength())); k = this._truncateToN(k, true); if (k.cmpn(1) <= 0 || k.cmp(ns1) >= 0) continue; var kp = this.g.mul(k); if (kp.isInfinity()) continue; var kpX = kp.getX(); var r = kpX.umod(this.n); if (r.cmpn(0) === 0) continue; var s = k.invm(this.n).mul(r.mul(key.getPrivate()).iadd(msg)); s = s.umod(this.n); if (s.cmpn(0) === 0) continue; var recoveryParam = (kp.getY().isOdd() ? 1 : 0) | (kpX.cmp(r) !== 0 ? 2 : 0); // Use complement of `s`, if it is > `n / 2` if (options.canonical && s.cmp(this.nh) > 0) { s = this.n.sub(s); recoveryParam ^= 1; } return new Signature({ r: r, s: s, recoveryParam: recoveryParam }); } }; EC.prototype.verify = function verify(msg, signature, key, enc) { msg = this._truncateToN(new BN(msg, 16)); key = this.keyFromPublic(key, enc); signature = new Signature(signature, 'hex'); // Perform primitive values validation var r = signature.r; var s = signature.s; if (r.cmpn(1) < 0 || r.cmp(this.n) >= 0) return false; if (s.cmpn(1) < 0 || s.cmp(this.n) >= 0) return false; // Validate signature var sinv = s.invm(this.n); var u1 = sinv.mul(msg).umod(this.n); var u2 = sinv.mul(r).umod(this.n); if (!this.curve._maxwellTrick) { var p = this.g.mulAdd(u1, key.getPublic(), u2); if (p.isInfinity()) return false; return p.getX().umod(this.n).cmp(r) === 0; } // NOTE: Greg Maxwell's trick, inspired by: // https://git.io/vad3K var p = this.g.jmulAdd(u1, key.getPublic(), u2); if (p.isInfinity()) return false; // Compare `p.x` of Jacobian point with `r`, // this will do `p.x == r * p.z^2` instead of multiplying `p.x` by the // inverse of `p.z^2` return p.eqXToP(r); }; EC.prototype.recoverPubKey = function(msg, signature, j, enc) { assert((3 & j) === j, 'The recovery param is more than two bits'); signature = new Signature(signature, enc); var n = this.n; var e = new BN(msg); var r = signature.r; var s = signature.s; // A set LSB signifies that the y-coordinate is odd var isYOdd = j & 1; var isSecondKey = j >> 1; if (r.cmp(this.curve.p.umod(this.curve.n)) >= 0 && isSecondKey) throw new Error('Unable to find sencond key candinate'); // 1.1. Let x = r + jn. if (isSecondKey) r = this.curve.pointFromX(r.add(this.curve.n), isYOdd); else r = this.curve.pointFromX(r, isYOdd); var rInv = signature.r.invm(n); var s1 = n.sub(e).mul(rInv).umod(n); var s2 = s.mul(rInv).umod(n); // 1.6.1 Compute Q = r^-1 (sR - eG) // Q = r^-1 (sR + -eG) return this.g.mulAdd(s1, r, s2); }; EC.prototype.getKeyRecoveryParam = function(e, signature, Q, enc) { signature = new Signature(signature, enc); if (signature.recoveryParam !== null) return signature.recoveryParam; for (var i = 0; i < 4; i++) { var Qprime; try { Qprime = this.recoverPubKey(e, signature, i); } catch (e) { continue; } if (Qprime.eq(Q)) return i; } throw new Error('Unable to find valid recovery factor'); }; },{"../../elliptic":127,"./key":135,"./signature":136,"bn.js":75,"hmac-drbg":159}],135:[function(require,module,exports){ 'use strict'; var BN = require('bn.js'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; function KeyPair(ec, options) { this.ec = ec; this.priv = null; this.pub = null; // KeyPair(ec, { priv: ..., pub: ... }) if (options.priv) this._importPrivate(options.priv, options.privEnc); if (options.pub) this._importPublic(options.pub, options.pubEnc); } module.exports = KeyPair; KeyPair.fromPublic = function fromPublic(ec, pub, enc) { if (pub instanceof KeyPair) return pub; return new KeyPair(ec, { pub: pub, pubEnc: enc }); }; KeyPair.fromPrivate = function fromPrivate(ec, priv, enc) { if (priv instanceof KeyPair) return priv; return new KeyPair(ec, { priv: priv, privEnc: enc }); }; KeyPair.prototype.validate = function validate() { var pub = this.getPublic(); if (pub.isInfinity()) return { result: false, reason: 'Invalid public key' }; if (!pub.validate()) return { result: false, reason: 'Public key is not a point' }; if (!pub.mul(this.ec.curve.n).isInfinity()) return { result: false, reason: 'Public key * N != O' }; return { result: true, reason: null }; }; KeyPair.prototype.getPublic = function getPublic(compact, enc) { // compact is optional argument if (typeof compact === 'string') { enc = compact; compact = null; } if (!this.pub) this.pub = this.ec.g.mul(this.priv); if (!enc) return this.pub; return this.pub.encode(enc, compact); }; KeyPair.prototype.getPrivate = function getPrivate(enc) { if (enc === 'hex') return this.priv.toString(16, 2); else return this.priv; }; KeyPair.prototype._importPrivate = function _importPrivate(key, enc) { this.priv = new BN(key, enc || 16); // Ensure that the priv won't be bigger than n, otherwise we may fail // in fixed multiplication method this.priv = this.priv.umod(this.ec.curve.n); }; KeyPair.prototype._importPublic = function _importPublic(key, enc) { if (key.x || key.y) { // Montgomery points only have an `x` coordinate. // Weierstrass/Edwards points on the other hand have both `x` and // `y` coordinates. if (this.ec.curve.type === 'mont') { assert(key.x, 'Need x coordinate'); } else if (this.ec.curve.type === 'short' || this.ec.curve.type === 'edwards') { assert(key.x && key.y, 'Need both x and y coordinate'); } this.pub = this.ec.curve.point(key.x, key.y); return; } this.pub = this.ec.curve.decodePoint(key, enc); }; // ECDH KeyPair.prototype.derive = function derive(pub) { return pub.mul(this.priv).getX(); }; // ECDSA KeyPair.prototype.sign = function sign(msg, enc, options) { return this.ec.sign(msg, this, enc, options); }; KeyPair.prototype.verify = function verify(msg, signature) { return this.ec.verify(msg, signature, this); }; KeyPair.prototype.inspect = function inspect() { return ''; }; },{"../../elliptic":127,"bn.js":75}],136:[function(require,module,exports){ 'use strict'; var BN = require('bn.js'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; function Signature(options, enc) { if (options instanceof Signature) return options; if (this._importDER(options, enc)) return; assert(options.r && options.s, 'Signature without r or s'); this.r = new BN(options.r, 16); this.s = new BN(options.s, 16); if (options.recoveryParam === undefined) this.recoveryParam = null; else this.recoveryParam = options.recoveryParam; } module.exports = Signature; function Position() { this.place = 0; } function getLength(buf, p) { var initial = buf[p.place++]; if (!(initial & 0x80)) { return initial; } var octetLen = initial & 0xf; var val = 0; for (var i = 0, off = p.place; i < octetLen; i++, off++) { val <<= 8; val |= buf[off]; } p.place = off; return val; } function rmPadding(buf) { var i = 0; var len = buf.length - 1; while (!buf[i] && !(buf[i + 1] & 0x80) && i < len) { i++; } if (i === 0) { return buf; } return buf.slice(i); } Signature.prototype._importDER = function _importDER(data, enc) { data = utils.toArray(data, enc); var p = new Position(); if (data[p.place++] !== 0x30) { return false; } var len = getLength(data, p); if ((len + p.place) !== data.length) { return false; } if (data[p.place++] !== 0x02) { return false; } var rlen = getLength(data, p); var r = data.slice(p.place, rlen + p.place); p.place += rlen; if (data[p.place++] !== 0x02) { return false; } var slen = getLength(data, p); if (data.length !== slen + p.place) { return false; } var s = data.slice(p.place, slen + p.place); if (r[0] === 0 && (r[1] & 0x80)) { r = r.slice(1); } if (s[0] === 0 && (s[1] & 0x80)) { s = s.slice(1); } this.r = new BN(r); this.s = new BN(s); this.recoveryParam = null; return true; }; function constructLength(arr, len) { if (len < 0x80) { arr.push(len); return; } var octets = 1 + (Math.log(len) / Math.LN2 >>> 3); arr.push(octets | 0x80); while (--octets) { arr.push((len >>> (octets << 3)) & 0xff); } arr.push(len); } Signature.prototype.toDER = function toDER(enc) { var r = this.r.toArray(); var s = this.s.toArray(); // Pad values if (r[0] & 0x80) r = [ 0 ].concat(r); // Pad values if (s[0] & 0x80) s = [ 0 ].concat(s); r = rmPadding(r); s = rmPadding(s); while (!s[0] && !(s[1] & 0x80)) { s = s.slice(1); } var arr = [ 0x02 ]; constructLength(arr, r.length); arr = arr.concat(r); arr.push(0x02); constructLength(arr, s.length); var backHalf = arr.concat(s); var res = [ 0x30 ]; constructLength(res, backHalf.length); res = res.concat(backHalf); return utils.encode(res, enc); }; },{"../../elliptic":127,"bn.js":75}],137:[function(require,module,exports){ 'use strict'; var hash = require('hash.js'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; var parseBytes = utils.parseBytes; var KeyPair = require('./key'); var Signature = require('./signature'); function EDDSA(curve) { assert(curve === 'ed25519', 'only tested with ed25519 so far'); if (!(this instanceof EDDSA)) return new EDDSA(curve); var curve = elliptic.curves[curve].curve; this.curve = curve; this.g = curve.g; this.g.precompute(curve.n.bitLength() + 1); this.pointClass = curve.point().constructor; this.encodingLength = Math.ceil(curve.n.bitLength() / 8); this.hash = hash.sha512; } module.exports = EDDSA; /** * @param {Array|String} message - message bytes * @param {Array|String|KeyPair} secret - secret bytes or a keypair * @returns {Signature} - signature */ EDDSA.prototype.sign = function sign(message, secret) { message = parseBytes(message); var key = this.keyFromSecret(secret); var r = this.hashInt(key.messagePrefix(), message); var R = this.g.mul(r); var Rencoded = this.encodePoint(R); var s_ = this.hashInt(Rencoded, key.pubBytes(), message) .mul(key.priv()); var S = r.add(s_).umod(this.curve.n); return this.makeSignature({ R: R, S: S, Rencoded: Rencoded }); }; /** * @param {Array} message - message bytes * @param {Array|String|Signature} sig - sig bytes * @param {Array|String|Point|KeyPair} pub - public key * @returns {Boolean} - true if public key matches sig of message */ EDDSA.prototype.verify = function verify(message, sig, pub) { message = parseBytes(message); sig = this.makeSignature(sig); var key = this.keyFromPublic(pub); var h = this.hashInt(sig.Rencoded(), key.pubBytes(), message); var SG = this.g.mul(sig.S()); var RplusAh = sig.R().add(key.pub().mul(h)); return RplusAh.eq(SG); }; EDDSA.prototype.hashInt = function hashInt() { var hash = this.hash(); for (var i = 0; i < arguments.length; i++) hash.update(arguments[i]); return utils.intFromLE(hash.digest()).umod(this.curve.n); }; EDDSA.prototype.keyFromPublic = function keyFromPublic(pub) { return KeyPair.fromPublic(this, pub); }; EDDSA.prototype.keyFromSecret = function keyFromSecret(secret) { return KeyPair.fromSecret(this, secret); }; EDDSA.prototype.makeSignature = function makeSignature(sig) { if (sig instanceof Signature) return sig; return new Signature(this, sig); }; /** * * https://tools.ietf.org/html/draft-josefsson-eddsa-ed25519-03#section-5.2 * * EDDSA defines methods for encoding and decoding points and integers. These are * helper convenience methods, that pass along to utility functions implied * parameters. * */ EDDSA.prototype.encodePoint = function encodePoint(point) { var enc = point.getY().toArray('le', this.encodingLength); enc[this.encodingLength - 1] |= point.getX().isOdd() ? 0x80 : 0; return enc; }; EDDSA.prototype.decodePoint = function decodePoint(bytes) { bytes = utils.parseBytes(bytes); var lastIx = bytes.length - 1; var normed = bytes.slice(0, lastIx).concat(bytes[lastIx] & ~0x80); var xIsOdd = (bytes[lastIx] & 0x80) !== 0; var y = utils.intFromLE(normed); return this.curve.pointFromY(y, xIsOdd); }; EDDSA.prototype.encodeInt = function encodeInt(num) { return num.toArray('le', this.encodingLength); }; EDDSA.prototype.decodeInt = function decodeInt(bytes) { return utils.intFromLE(bytes); }; EDDSA.prototype.isPoint = function isPoint(val) { return val instanceof this.pointClass; }; },{"../../elliptic":127,"./key":138,"./signature":139,"hash.js":147}],138:[function(require,module,exports){ 'use strict'; var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; var parseBytes = utils.parseBytes; var cachedProperty = utils.cachedProperty; /** * @param {EDDSA} eddsa - instance * @param {Object} params - public/private key parameters * * @param {Array} [params.secret] - secret seed bytes * @param {Point} [params.pub] - public key point (aka `A` in eddsa terms) * @param {Array} [params.pub] - public key point encoded as bytes * */ function KeyPair(eddsa, params) { this.eddsa = eddsa; this._secret = parseBytes(params.secret); if (eddsa.isPoint(params.pub)) this._pub = params.pub; else this._pubBytes = parseBytes(params.pub); } KeyPair.fromPublic = function fromPublic(eddsa, pub) { if (pub instanceof KeyPair) return pub; return new KeyPair(eddsa, { pub: pub }); }; KeyPair.fromSecret = function fromSecret(eddsa, secret) { if (secret instanceof KeyPair) return secret; return new KeyPair(eddsa, { secret: secret }); }; KeyPair.prototype.secret = function secret() { return this._secret; }; cachedProperty(KeyPair, 'pubBytes', function pubBytes() { return this.eddsa.encodePoint(this.pub()); }); cachedProperty(KeyPair, 'pub', function pub() { if (this._pubBytes) return this.eddsa.decodePoint(this._pubBytes); return this.eddsa.g.mul(this.priv()); }); cachedProperty(KeyPair, 'privBytes', function privBytes() { var eddsa = this.eddsa; var hash = this.hash(); var lastIx = eddsa.encodingLength - 1; var a = hash.slice(0, eddsa.encodingLength); a[0] &= 248; a[lastIx] &= 127; a[lastIx] |= 64; return a; }); cachedProperty(KeyPair, 'priv', function priv() { return this.eddsa.decodeInt(this.privBytes()); }); cachedProperty(KeyPair, 'hash', function hash() { return this.eddsa.hash().update(this.secret()).digest(); }); cachedProperty(KeyPair, 'messagePrefix', function messagePrefix() { return this.hash().slice(this.eddsa.encodingLength); }); KeyPair.prototype.sign = function sign(message) { assert(this._secret, 'KeyPair can only verify'); return this.eddsa.sign(message, this); }; KeyPair.prototype.verify = function verify(message, sig) { return this.eddsa.verify(message, sig, this); }; KeyPair.prototype.getSecret = function getSecret(enc) { assert(this._secret, 'KeyPair is public only'); return utils.encode(this.secret(), enc); }; KeyPair.prototype.getPublic = function getPublic(enc) { return utils.encode(this.pubBytes(), enc); }; module.exports = KeyPair; },{"../../elliptic":127}],139:[function(require,module,exports){ 'use strict'; var BN = require('bn.js'); var elliptic = require('../../elliptic'); var utils = elliptic.utils; var assert = utils.assert; var cachedProperty = utils.cachedProperty; var parseBytes = utils.parseBytes; /** * @param {EDDSA} eddsa - eddsa instance * @param {Array|Object} sig - * @param {Array|Point} [sig.R] - R point as Point or bytes * @param {Array|bn} [sig.S] - S scalar as bn or bytes * @param {Array} [sig.Rencoded] - R point encoded * @param {Array} [sig.Sencoded] - S scalar encoded */ function Signature(eddsa, sig) { this.eddsa = eddsa; if (typeof sig !== 'object') sig = parseBytes(sig); if (Array.isArray(sig)) { sig = { R: sig.slice(0, eddsa.encodingLength), S: sig.slice(eddsa.encodingLength) }; } assert(sig.R && sig.S, 'Signature without R or S'); if (eddsa.isPoint(sig.R)) this._R = sig.R; if (sig.S instanceof BN) this._S = sig.S; this._Rencoded = Array.isArray(sig.R) ? sig.R : sig.Rencoded; this._Sencoded = Array.isArray(sig.S) ? sig.S : sig.Sencoded; } cachedProperty(Signature, 'S', function S() { return this.eddsa.decodeInt(this.Sencoded()); }); cachedProperty(Signature, 'R', function R() { return this.eddsa.decodePoint(this.Rencoded()); }); cachedProperty(Signature, 'Rencoded', function Rencoded() { return this.eddsa.encodePoint(this.R()); }); cachedProperty(Signature, 'Sencoded', function Sencoded() { return this.eddsa.encodeInt(this.S()); }); Signature.prototype.toBytes = function toBytes() { return this.Rencoded().concat(this.Sencoded()); }; Signature.prototype.toHex = function toHex() { return utils.encode(this.toBytes(), 'hex').toUpperCase(); }; module.exports = Signature; },{"../../elliptic":127,"bn.js":75}],140:[function(require,module,exports){ module.exports = { doubles: { step: 4, points: [ [ 'e60fce93b59e9ec53011aabc21c23e97b2a31369b87a5ae9c44ee89e2a6dec0a', 'f7e3507399e595929db99f34f57937101296891e44d23f0be1f32cce69616821' ], [ '8282263212c609d9ea2a6e3e172de238d8c39cabd5ac1ca10646e23fd5f51508', '11f8a8098557dfe45e8256e830b60ace62d613ac2f7b17bed31b6eaff6e26caf' ], [ '175e159f728b865a72f99cc6c6fc846de0b93833fd2222ed73fce5b551e5b739', 'd3506e0d9e3c79eba4ef97a51ff71f5eacb5955add24345c6efa6ffee9fed695' ], [ '363d90d447b00c9c99ceac05b6262ee053441c7e55552ffe526bad8f83ff4640', '4e273adfc732221953b445397f3363145b9a89008199ecb62003c7f3bee9de9' ], [ 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BN = require('bn.js'); var minAssert = require('minimalistic-assert'); var minUtils = require('minimalistic-crypto-utils'); utils.assert = minAssert; utils.toArray = minUtils.toArray; utils.zero2 = minUtils.zero2; utils.toHex = minUtils.toHex; utils.encode = minUtils.encode; // Represent num in a w-NAF form function getNAF(num, w) { var naf = []; var ws = 1 << (w + 1); var k = num.clone(); while (k.cmpn(1) >= 0) { var z; if (k.isOdd()) { var mod = k.andln(ws - 1); if (mod > (ws >> 1) - 1) z = (ws >> 1) - mod; else z = mod; k.isubn(z); } else { z = 0; } naf.push(z); // Optimization, shift by word if possible var shift = (k.cmpn(0) !== 0 && k.andln(ws - 1) === 0) ? (w + 1) : 1; for (var i = 1; i < shift; i++) naf.push(0); k.iushrn(shift); } return naf; } utils.getNAF = getNAF; // Represent k1, k2 in a Joint Sparse Form function getJSF(k1, k2) { var jsf = [ [], [] ]; k1 = k1.clone(); k2 = k2.clone(); var d1 = 0; var d2 = 0; while (k1.cmpn(-d1) > 0 || k2.cmpn(-d2) > 0) { // First phase var m14 = (k1.andln(3) + d1) & 3; var m24 = (k2.andln(3) + d2) & 3; if (m14 === 3) m14 = -1; if (m24 === 3) m24 = -1; var u1; if ((m14 & 1) === 0) { u1 = 0; } else { var m8 = (k1.andln(7) + d1) & 7; if ((m8 === 3 || m8 === 5) && m24 === 2) u1 = -m14; else u1 = m14; } jsf[0].push(u1); var u2; if ((m24 & 1) === 0) { u2 = 0; } else { var m8 = (k2.andln(7) + d2) & 7; if ((m8 === 3 || m8 === 5) && m14 === 2) u2 = -m24; else u2 = m24; } jsf[1].push(u2); // Second phase if (2 * d1 === u1 + 1) d1 = 1 - d1; if (2 * d2 === u2 + 1) d2 = 1 - d2; k1.iushrn(1); k2.iushrn(1); } return jsf; } utils.getJSF = getJSF; function cachedProperty(obj, name, computer) { var key = '_' + name; obj.prototype[name] = function cachedProperty() { return this[key] !== undefined ? this[key] : this[key] = computer.call(this); }; } utils.cachedProperty = cachedProperty; function parseBytes(bytes) { return typeof bytes === 'string' ? utils.toArray(bytes, 'hex') : bytes; } utils.parseBytes = parseBytes; function intFromLE(bytes) { return new BN(bytes, 'hex', 'le'); } utils.intFromLE = intFromLE; },{"bn.js":75,"minimalistic-assert":176,"minimalistic-crypto-utils":177}],142:[function(require,module,exports){ module.exports={ "_from": "elliptic@^6.0.0", "_id": "elliptic@6.4.0", "_inBundle": false, "_integrity": "sha1-ysmvh2LIWDYYcAPI3+GT5eLq5d8=", "_location": "/elliptic", "_phantomChildren": {}, "_requested": { "type": "range", "registry": true, "raw": "elliptic@^6.0.0", "name": "elliptic", "escapedName": "elliptic", "rawSpec": "^6.0.0", "saveSpec": null, "fetchSpec": "^6.0.0" }, "_requiredBy": [ "/browserify-sign", "/create-ecdh" ], "_resolved": "http://registry.npm.taobao.org/elliptic/download/elliptic-6.4.0.tgz", "_shasum": "cac9af8762c85836187003c8dfe193e5e2eae5df", "_spec": "elliptic@^6.0.0", "_where": "/Users/qywang/workspace/go/src/github.com/nebulasio/go-nebulas/cmd/console/neb.js/node_modules/browserify-sign", "author": { "name": "Fedor Indutny", "email": "fedor@indutny.com" }, "bugs": { "url": "https://github.com/indutny/elliptic/issues" }, "bundleDependencies": false, "dependencies": { "bn.js": "^4.4.0", "brorand": "^1.0.1", "hash.js": "^1.0.0", "hmac-drbg": "^1.0.0", "inherits": "^2.0.1", "minimalistic-assert": "^1.0.0", "minimalistic-crypto-utils": "^1.0.0" }, "deprecated": false, "description": "EC cryptography", "devDependencies": { "brfs": "^1.4.3", "coveralls": "^2.11.3", "grunt": "^0.4.5", "grunt-browserify": "^5.0.0", "grunt-cli": "^1.2.0", "grunt-contrib-connect": "^1.0.0", "grunt-contrib-copy": "^1.0.0", "grunt-contrib-uglify": "^1.0.1", "grunt-mocha-istanbul": "^3.0.1", "grunt-saucelabs": "^8.6.2", "istanbul": "^0.4.2", "jscs": "^2.9.0", "jshint": "^2.6.0", "mocha": "^2.1.0" }, "files": [ "lib" ], "homepage": "https://github.com/indutny/elliptic", "keywords": [ "EC", "Elliptic", "curve", "Cryptography" ], "license": "MIT", "main": "lib/elliptic.js", "name": "elliptic", "repository": { "type": "git", "url": "git+ssh://git@github.com/indutny/elliptic.git" }, "scripts": { "jscs": "jscs benchmarks/*.js lib/*.js lib/**/*.js lib/**/**/*.js test/index.js", "jshint": "jscs benchmarks/*.js lib/*.js lib/**/*.js lib/**/**/*.js test/index.js", "lint": "npm run jscs && npm run jshint", "test": "npm run lint && npm run unit", "unit": "istanbul test _mocha --reporter=spec test/index.js", "version": "grunt dist && git add dist/" }, "version": "6.4.0" } },{}],143:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. function EventEmitter() { this._events = this._events || {}; this._maxListeners = this._maxListeners || undefined; } module.exports = EventEmitter; // Backwards-compat with node 0.10.x EventEmitter.EventEmitter = EventEmitter; EventEmitter.prototype._events = undefined; EventEmitter.prototype._maxListeners = undefined; // By default EventEmitters will print a warning if more than 10 listeners are // added to it. This is a useful default which helps finding memory leaks. EventEmitter.defaultMaxListeners = 10; // Obviously not all Emitters should be limited to 10. This function allows // that to be increased. Set to zero for unlimited. EventEmitter.prototype.setMaxListeners = function(n) { if (!isNumber(n) || n < 0 || isNaN(n)) throw TypeError('n must be a positive number'); this._maxListeners = n; return this; }; EventEmitter.prototype.emit = function(type) { var er, handler, len, args, i, listeners; if (!this._events) this._events = {}; // If there is no 'error' event listener then throw. if (type === 'error') { if (!this._events.error || (isObject(this._events.error) && !this._events.error.length)) { er = arguments[1]; if (er instanceof Error) { throw er; // Unhandled 'error' event } else { // At least give some kind of context to the user var err = new Error('Uncaught, unspecified "error" event. (' + er + ')'); err.context = er; throw err; } } } handler = this._events[type]; if (isUndefined(handler)) return false; if (isFunction(handler)) { switch (arguments.length) { // fast cases case 1: handler.call(this); break; case 2: handler.call(this, arguments[1]); break; case 3: handler.call(this, arguments[1], arguments[2]); break; // slower default: args = Array.prototype.slice.call(arguments, 1); handler.apply(this, args); } } else if (isObject(handler)) { args = Array.prototype.slice.call(arguments, 1); listeners = handler.slice(); len = listeners.length; for (i = 0; i < len; i++) listeners[i].apply(this, args); } return true; }; EventEmitter.prototype.addListener = function(type, listener) { var m; if (!isFunction(listener)) throw TypeError('listener must be a function'); if (!this._events) this._events = {}; // To avoid recursion in the case that type === "newListener"! Before // adding it to the listeners, first emit "newListener". if (this._events.newListener) this.emit('newListener', type, isFunction(listener.listener) ? listener.listener : listener); if (!this._events[type]) // Optimize the case of one listener. Don't need the extra array object. this._events[type] = listener; else if (isObject(this._events[type])) // If we've already got an array, just append. this._events[type].push(listener); else // Adding the second element, need to change to array. this._events[type] = [this._events[type], listener]; // Check for listener leak if (isObject(this._events[type]) && !this._events[type].warned) { if (!isUndefined(this._maxListeners)) { m = this._maxListeners; } else { m = EventEmitter.defaultMaxListeners; } if (m && m > 0 && this._events[type].length > m) { this._events[type].warned = true; console.error('(node) warning: possible EventEmitter memory ' + 'leak detected. %d listeners added. ' + 'Use emitter.setMaxListeners() to increase limit.', this._events[type].length); if (typeof console.trace === 'function') { // not supported in IE 10 console.trace(); } } } return this; }; EventEmitter.prototype.on = EventEmitter.prototype.addListener; EventEmitter.prototype.once = function(type, listener) { if (!isFunction(listener)) throw TypeError('listener must be a function'); var fired = false; function g() { this.removeListener(type, g); if (!fired) { fired = true; listener.apply(this, arguments); } } g.listener = listener; this.on(type, g); return this; }; // emits a 'removeListener' event iff the listener was removed EventEmitter.prototype.removeListener = function(type, listener) { var list, position, length, i; if (!isFunction(listener)) throw TypeError('listener must be a function'); if (!this._events || !this._events[type]) return this; list = this._events[type]; length = list.length; position = -1; if (list === listener || (isFunction(list.listener) && list.listener === listener)) { delete this._events[type]; if (this._events.removeListener) this.emit('removeListener', type, listener); } else if (isObject(list)) { for (i = length; i-- > 0;) { if (list[i] === listener || (list[i].listener && list[i].listener === listener)) { position = i; break; } } if (position < 0) return this; if (list.length === 1) { list.length = 0; delete this._events[type]; } else { list.splice(position, 1); } if (this._events.removeListener) this.emit('removeListener', type, listener); } return this; }; EventEmitter.prototype.removeAllListeners = function(type) { var key, listeners; if (!this._events) return this; // not listening for removeListener, no need to emit if (!this._events.removeListener) { if (arguments.length === 0) this._events = {}; else if (this._events[type]) delete this._events[type]; return this; } // emit removeListener for all listeners on all events if (arguments.length === 0) { for (key in this._events) { if (key === 'removeListener') continue; this.removeAllListeners(key); } this.removeAllListeners('removeListener'); this._events = {}; return this; } listeners = this._events[type]; if (isFunction(listeners)) { this.removeListener(type, listeners); } else if (listeners) { // LIFO order while (listeners.length) this.removeListener(type, listeners[listeners.length - 1]); } delete this._events[type]; return this; }; EventEmitter.prototype.listeners = function(type) { var ret; if (!this._events || !this._events[type]) ret = []; else if (isFunction(this._events[type])) ret = [this._events[type]]; else ret = this._events[type].slice(); return ret; }; EventEmitter.prototype.listenerCount = function(type) { if (this._events) { var evlistener = this._events[type]; if (isFunction(evlistener)) return 1; else if (evlistener) return evlistener.length; } return 0; }; EventEmitter.listenerCount = function(emitter, type) { return emitter.listenerCount(type); }; function isFunction(arg) { return typeof arg === 'function'; } function isNumber(arg) { return typeof arg === 'number'; } function isObject(arg) { return typeof arg === 'object' && arg !== null; } function isUndefined(arg) { return arg === void 0; } },{}],144:[function(require,module,exports){ var Buffer = require('safe-buffer').Buffer var MD5 = require('md5.js') /* eslint-disable camelcase */ function EVP_BytesToKey (password, salt, keyBits, ivLen) { if (!Buffer.isBuffer(password)) password = Buffer.from(password, 'binary') if (salt) { if (!Buffer.isBuffer(salt)) salt = Buffer.from(salt, 'binary') if (salt.length !== 8) throw new RangeError('salt should be Buffer with 8 byte length') } var keyLen = keyBits / 8 var key = Buffer.alloc(keyLen) var iv = Buffer.alloc(ivLen || 0) var tmp = Buffer.alloc(0) while (keyLen > 0 || ivLen > 0) { var hash = new MD5() hash.update(tmp) hash.update(password) if (salt) hash.update(salt) tmp = hash.digest() var used = 0 if (keyLen > 0) { var keyStart = key.length - keyLen used = Math.min(keyLen, tmp.length) tmp.copy(key, keyStart, 0, used) keyLen -= used } if (used < tmp.length && ivLen > 0) { var ivStart = iv.length - ivLen var length = Math.min(ivLen, tmp.length - used) tmp.copy(iv, ivStart, used, used + length) ivLen -= length } } tmp.fill(0) return { key: key, iv: iv } } module.exports = EVP_BytesToKey },{"md5.js":173,"safe-buffer":247}],145:[function(require,module,exports){ 'use strict'; var hasOwn = Object.prototype.hasOwnProperty; var toStr = Object.prototype.toString; var isArray = function isArray(arr) { if (typeof Array.isArray === 'function') { return Array.isArray(arr); } return toStr.call(arr) === '[object Array]'; }; var isPlainObject = function isPlainObject(obj) { if (!obj || toStr.call(obj) !== '[object Object]') { return false; } var hasOwnConstructor = hasOwn.call(obj, 'constructor'); var hasIsPrototypeOf = obj.constructor && obj.constructor.prototype && hasOwn.call(obj.constructor.prototype, 'isPrototypeOf'); // Not own constructor property must be Object if (obj.constructor && !hasOwnConstructor && !hasIsPrototypeOf) { return false; } // Own properties are enumerated firstly, so to speed up, // if last one is own, then all properties are own. var key; for (key in obj) { /**/ } return typeof key === 'undefined' || hasOwn.call(obj, key); }; module.exports = function extend() { var options, name, src, copy, copyIsArray, clone; var target = arguments[0]; var i = 1; var length = arguments.length; var deep = false; // Handle a deep copy situation if (typeof target === 'boolean') { deep = target; target = arguments[1] || {}; // skip the boolean and the target i = 2; } if (target == null || (typeof target !== 'object' && typeof target !== 'function')) { target = {}; } for (; i < length; ++i) { options = arguments[i]; // Only deal with non-null/undefined values if (options != null) { // Extend the base object for (name in options) { src = target[name]; copy = options[name]; // Prevent never-ending loop if (target !== copy) { // Recurse if we're merging plain objects or arrays if (deep && copy && (isPlainObject(copy) || (copyIsArray = isArray(copy)))) { if (copyIsArray) { copyIsArray = false; clone = src && isArray(src) ? src : []; } else { clone = src && isPlainObject(src) ? src : {}; } // Never move original objects, clone them target[name] = extend(deep, clone, copy); // Don't bring in undefined values } else if (typeof copy !== 'undefined') { target[name] = copy; } } } } } // Return the modified object return target; }; },{}],146:[function(require,module,exports){ (function (Buffer){ 'use strict' var Transform = require('stream').Transform var inherits = require('inherits') function HashBase (blockSize) { Transform.call(this) this._block = new Buffer(blockSize) this._blockSize = blockSize this._blockOffset = 0 this._length = [0, 0, 0, 0] this._finalized = false } inherits(HashBase, Transform) HashBase.prototype._transform = function (chunk, encoding, callback) { var error = null try { if (encoding !== 'buffer') chunk = new Buffer(chunk, encoding) this.update(chunk) } catch (err) { error = err } callback(error) } HashBase.prototype._flush = function (callback) { var error = null try { this.push(this._digest()) } catch (err) { error = err } callback(error) } HashBase.prototype.update = function (data, encoding) { if (!Buffer.isBuffer(data) && typeof data !== 'string') throw new TypeError('Data must be a string or a buffer') if (this._finalized) throw new Error('Digest already called') if (!Buffer.isBuffer(data)) data = new Buffer(data, encoding || 'binary') // consume data var block = this._block var offset = 0 while (this._blockOffset + data.length - offset >= this._blockSize) { for (var i = this._blockOffset; i < this._blockSize;) block[i++] = data[offset++] this._update() this._blockOffset = 0 } while (offset < data.length) block[this._blockOffset++] = data[offset++] // update length for (var j = 0, carry = data.length * 8; carry > 0; ++j) { this._length[j] += carry carry = (this._length[j] / 0x0100000000) | 0 if (carry > 0) this._length[j] -= 0x0100000000 * carry } return this } HashBase.prototype._update = function (data) { throw new Error('_update is not implemented') } HashBase.prototype.digest = function (encoding) { if (this._finalized) throw new Error('Digest already called') this._finalized = true var digest = this._digest() if (encoding !== undefined) digest = digest.toString(encoding) return digest } HashBase.prototype._digest = function () { throw new Error('_digest is not implemented') } module.exports = HashBase }).call(this,require("buffer").Buffer) },{"buffer":107,"inherits":163,"stream":263}],147:[function(require,module,exports){ var hash = exports; hash.utils = require('./hash/utils'); hash.common = require('./hash/common'); hash.sha = require('./hash/sha'); hash.ripemd = require('./hash/ripemd'); hash.hmac = require('./hash/hmac'); // Proxy hash functions to the main object hash.sha1 = hash.sha.sha1; hash.sha256 = hash.sha.sha256; hash.sha224 = hash.sha.sha224; hash.sha384 = hash.sha.sha384; hash.sha512 = hash.sha.sha512; hash.ripemd160 = hash.ripemd.ripemd160; },{"./hash/common":148,"./hash/hmac":149,"./hash/ripemd":150,"./hash/sha":151,"./hash/utils":158}],148:[function(require,module,exports){ 'use strict'; var utils = require('./utils'); var assert = require('minimalistic-assert'); function BlockHash() { this.pending = null; this.pendingTotal = 0; this.blockSize = this.constructor.blockSize; this.outSize = this.constructor.outSize; this.hmacStrength = this.constructor.hmacStrength; this.padLength = this.constructor.padLength / 8; this.endian = 'big'; this._delta8 = this.blockSize / 8; this._delta32 = this.blockSize / 32; } exports.BlockHash = BlockHash; BlockHash.prototype.update = function update(msg, enc) { // Convert message to array, pad it, and join into 32bit blocks msg = utils.toArray(msg, enc); if (!this.pending) this.pending = msg; else this.pending = this.pending.concat(msg); this.pendingTotal += msg.length; // Enough data, try updating if (this.pending.length >= this._delta8) { msg = this.pending; // Process pending data in blocks var r = msg.length % this._delta8; this.pending = msg.slice(msg.length - r, msg.length); if (this.pending.length === 0) this.pending = null; msg = utils.join32(msg, 0, msg.length - r, this.endian); for (var i = 0; i < msg.length; i += this._delta32) this._update(msg, i, i + this._delta32); } return this; }; BlockHash.prototype.digest = function digest(enc) { this.update(this._pad()); assert(this.pending === null); return this._digest(enc); }; BlockHash.prototype._pad = function pad() { var len = this.pendingTotal; var bytes = this._delta8; var k = bytes - ((len + this.padLength) % bytes); var res = new Array(k + this.padLength); res[0] = 0x80; for (var i = 1; i < k; i++) res[i] = 0; // Append length len <<= 3; if (this.endian === 'big') { for (var t = 8; t < this.padLength; t++) res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = (len >>> 24) & 0xff; res[i++] = (len >>> 16) & 0xff; res[i++] = (len >>> 8) & 0xff; res[i++] = len & 0xff; } else { res[i++] = len & 0xff; res[i++] = (len >>> 8) & 0xff; res[i++] = (len >>> 16) & 0xff; res[i++] = (len >>> 24) & 0xff; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; for (t = 8; t < this.padLength; t++) res[i++] = 0; } return res; }; },{"./utils":158,"minimalistic-assert":176}],149:[function(require,module,exports){ 'use strict'; var utils = require('./utils'); var assert = require('minimalistic-assert'); function Hmac(hash, key, enc) { if (!(this instanceof Hmac)) return new Hmac(hash, key, enc); this.Hash = hash; this.blockSize = hash.blockSize / 8; this.outSize = hash.outSize / 8; this.inner = null; this.outer = null; this._init(utils.toArray(key, enc)); } module.exports = Hmac; Hmac.prototype._init = function init(key) { // Shorten key, if needed if (key.length > this.blockSize) key = new this.Hash().update(key).digest(); assert(key.length <= this.blockSize); // Add padding to key for (var i = key.length; i < this.blockSize; i++) key.push(0); for (i = 0; i < key.length; i++) key[i] ^= 0x36; this.inner = new this.Hash().update(key); // 0x36 ^ 0x5c = 0x6a for (i = 0; i < key.length; i++) key[i] ^= 0x6a; this.outer = new this.Hash().update(key); }; Hmac.prototype.update = function update(msg, enc) { this.inner.update(msg, enc); return this; }; Hmac.prototype.digest = function digest(enc) { this.outer.update(this.inner.digest()); return this.outer.digest(enc); }; },{"./utils":158,"minimalistic-assert":176}],150:[function(require,module,exports){ 'use strict'; var utils = require('./utils'); var common = require('./common'); var rotl32 = utils.rotl32; var sum32 = utils.sum32; var sum32_3 = utils.sum32_3; var sum32_4 = utils.sum32_4; var BlockHash = common.BlockHash; function RIPEMD160() { if (!(this instanceof RIPEMD160)) return new RIPEMD160(); BlockHash.call(this); this.h = [ 0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0 ]; this.endian = 'little'; } utils.inherits(RIPEMD160, BlockHash); exports.ripemd160 = RIPEMD160; RIPEMD160.blockSize = 512; RIPEMD160.outSize = 160; RIPEMD160.hmacStrength = 192; RIPEMD160.padLength = 64; RIPEMD160.prototype._update = function update(msg, start) { var A = this.h[0]; var B = this.h[1]; var C = this.h[2]; var D = this.h[3]; var E = this.h[4]; var Ah = A; var Bh = B; var Ch = C; var Dh = D; var Eh = E; for (var j = 0; j < 80; j++) { var T = sum32( rotl32( sum32_4(A, f(j, B, C, D), msg[r[j] + start], K(j)), s[j]), E); A = E; E = D; D = rotl32(C, 10); C = B; B = T; T = sum32( rotl32( sum32_4(Ah, f(79 - j, Bh, Ch, Dh), msg[rh[j] + start], Kh(j)), sh[j]), Eh); Ah = Eh; Eh = Dh; Dh = rotl32(Ch, 10); Ch = Bh; Bh = T; } T = sum32_3(this.h[1], C, Dh); this.h[1] = sum32_3(this.h[2], D, Eh); this.h[2] = sum32_3(this.h[3], E, Ah); this.h[3] = sum32_3(this.h[4], A, Bh); this.h[4] = sum32_3(this.h[0], B, Ch); this.h[0] = T; }; RIPEMD160.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'little'); else return utils.split32(this.h, 'little'); }; function f(j, x, y, z) { if (j <= 15) return x ^ y ^ z; else if (j <= 31) return (x & y) | ((~x) & z); else if (j <= 47) return (x | (~y)) ^ z; else if (j <= 63) return (x & z) | (y & (~z)); else return x ^ (y | (~z)); } function K(j) { if (j <= 15) return 0x00000000; else if (j <= 31) return 0x5a827999; else if (j <= 47) return 0x6ed9eba1; else if (j <= 63) return 0x8f1bbcdc; else return 0xa953fd4e; } function Kh(j) { if (j <= 15) return 0x50a28be6; else if (j <= 31) return 0x5c4dd124; else if (j <= 47) return 0x6d703ef3; else if (j <= 63) return 0x7a6d76e9; else return 0x00000000; } var r = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 7, 4, 13, 1, 10, 6, 15, 3, 12, 0, 9, 5, 2, 14, 11, 8, 3, 10, 14, 4, 9, 15, 8, 1, 2, 7, 0, 6, 13, 11, 5, 12, 1, 9, 11, 10, 0, 8, 12, 4, 13, 3, 7, 15, 14, 5, 6, 2, 4, 0, 5, 9, 7, 12, 2, 10, 14, 1, 3, 8, 11, 6, 15, 13 ]; var rh = [ 5, 14, 7, 0, 9, 2, 11, 4, 13, 6, 15, 8, 1, 10, 3, 12, 6, 11, 3, 7, 0, 13, 5, 10, 14, 15, 8, 12, 4, 9, 1, 2, 15, 5, 1, 3, 7, 14, 6, 9, 11, 8, 12, 2, 10, 0, 4, 13, 8, 6, 4, 1, 3, 11, 15, 0, 5, 12, 2, 13, 9, 7, 10, 14, 12, 15, 10, 4, 1, 5, 8, 7, 6, 2, 13, 14, 0, 3, 9, 11 ]; var s = [ 11, 14, 15, 12, 5, 8, 7, 9, 11, 13, 14, 15, 6, 7, 9, 8, 7, 6, 8, 13, 11, 9, 7, 15, 7, 12, 15, 9, 11, 7, 13, 12, 11, 13, 6, 7, 14, 9, 13, 15, 14, 8, 13, 6, 5, 12, 7, 5, 11, 12, 14, 15, 14, 15, 9, 8, 9, 14, 5, 6, 8, 6, 5, 12, 9, 15, 5, 11, 6, 8, 13, 12, 5, 12, 13, 14, 11, 8, 5, 6 ]; var sh = [ 8, 9, 9, 11, 13, 15, 15, 5, 7, 7, 8, 11, 14, 14, 12, 6, 9, 13, 15, 7, 12, 8, 9, 11, 7, 7, 12, 7, 6, 15, 13, 11, 9, 7, 15, 11, 8, 6, 6, 14, 12, 13, 5, 14, 13, 13, 7, 5, 15, 5, 8, 11, 14, 14, 6, 14, 6, 9, 12, 9, 12, 5, 15, 8, 8, 5, 12, 9, 12, 5, 14, 6, 8, 13, 6, 5, 15, 13, 11, 11 ]; },{"./common":148,"./utils":158}],151:[function(require,module,exports){ 'use strict'; exports.sha1 = require('./sha/1'); exports.sha224 = require('./sha/224'); exports.sha256 = require('./sha/256'); exports.sha384 = require('./sha/384'); exports.sha512 = require('./sha/512'); },{"./sha/1":152,"./sha/224":153,"./sha/256":154,"./sha/384":155,"./sha/512":156}],152:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var common = require('../common'); var shaCommon = require('./common'); var rotl32 = utils.rotl32; var sum32 = utils.sum32; var sum32_5 = utils.sum32_5; var ft_1 = shaCommon.ft_1; var BlockHash = common.BlockHash; var sha1_K = [ 0x5A827999, 0x6ED9EBA1, 0x8F1BBCDC, 0xCA62C1D6 ]; function SHA1() { if (!(this instanceof SHA1)) return new SHA1(); BlockHash.call(this); this.h = [ 0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0 ]; this.W = new Array(80); } utils.inherits(SHA1, BlockHash); module.exports = SHA1; SHA1.blockSize = 512; SHA1.outSize = 160; SHA1.hmacStrength = 80; SHA1.padLength = 64; SHA1.prototype._update = function _update(msg, start) { var W = this.W; for (var i = 0; i < 16; i++) W[i] = msg[start + i]; for(; i < W.length; i++) W[i] = rotl32(W[i - 3] ^ W[i - 8] ^ W[i - 14] ^ W[i - 16], 1); var a = this.h[0]; var b = this.h[1]; var c = this.h[2]; var d = this.h[3]; var e = this.h[4]; for (i = 0; i < W.length; i++) { var s = ~~(i / 20); var t = sum32_5(rotl32(a, 5), ft_1(s, b, c, d), e, W[i], sha1_K[s]); e = d; d = c; c = rotl32(b, 30); b = a; a = t; } this.h[0] = sum32(this.h[0], a); this.h[1] = sum32(this.h[1], b); this.h[2] = sum32(this.h[2], c); this.h[3] = sum32(this.h[3], d); this.h[4] = sum32(this.h[4], e); }; SHA1.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; },{"../common":148,"../utils":158,"./common":157}],153:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var SHA256 = require('./256'); function SHA224() { if (!(this instanceof SHA224)) return new SHA224(); SHA256.call(this); this.h = [ 0xc1059ed8, 0x367cd507, 0x3070dd17, 0xf70e5939, 0xffc00b31, 0x68581511, 0x64f98fa7, 0xbefa4fa4 ]; } utils.inherits(SHA224, SHA256); module.exports = SHA224; SHA224.blockSize = 512; SHA224.outSize = 224; SHA224.hmacStrength = 192; SHA224.padLength = 64; SHA224.prototype._digest = function digest(enc) { // Just truncate output if (enc === 'hex') return utils.toHex32(this.h.slice(0, 7), 'big'); else return utils.split32(this.h.slice(0, 7), 'big'); }; },{"../utils":158,"./256":154}],154:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var common = require('../common'); var shaCommon = require('./common'); var assert = require('minimalistic-assert'); var sum32 = utils.sum32; var sum32_4 = utils.sum32_4; var sum32_5 = utils.sum32_5; var ch32 = shaCommon.ch32; var maj32 = shaCommon.maj32; var s0_256 = shaCommon.s0_256; var s1_256 = shaCommon.s1_256; var g0_256 = shaCommon.g0_256; var g1_256 = shaCommon.g1_256; var BlockHash = common.BlockHash; var sha256_K = [ 0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5, 0x3956c25b, 0x59f111f1, 0x923f82a4, 0xab1c5ed5, 0xd807aa98, 0x12835b01, 0x243185be, 0x550c7dc3, 0x72be5d74, 0x80deb1fe, 0x9bdc06a7, 0xc19bf174, 0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc, 0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da, 0x983e5152, 0xa831c66d, 0xb00327c8, 0xbf597fc7, 0xc6e00bf3, 0xd5a79147, 0x06ca6351, 0x14292967, 0x27b70a85, 0x2e1b2138, 0x4d2c6dfc, 0x53380d13, 0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85, 0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3, 0xd192e819, 0xd6990624, 0xf40e3585, 0x106aa070, 0x19a4c116, 0x1e376c08, 0x2748774c, 0x34b0bcb5, 0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f, 0x682e6ff3, 0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208, 0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2 ]; function SHA256() { if (!(this instanceof SHA256)) return new SHA256(); BlockHash.call(this); this.h = [ 0x6a09e667, 0xbb67ae85, 0x3c6ef372, 0xa54ff53a, 0x510e527f, 0x9b05688c, 0x1f83d9ab, 0x5be0cd19 ]; this.k = sha256_K; this.W = new Array(64); } utils.inherits(SHA256, BlockHash); module.exports = SHA256; SHA256.blockSize = 512; SHA256.outSize = 256; SHA256.hmacStrength = 192; SHA256.padLength = 64; SHA256.prototype._update = function _update(msg, start) { var W = this.W; for (var i = 0; i < 16; i++) W[i] = msg[start + i]; for (; i < W.length; i++) W[i] = sum32_4(g1_256(W[i - 2]), W[i - 7], g0_256(W[i - 15]), W[i - 16]); var a = this.h[0]; var b = this.h[1]; var c = this.h[2]; var d = this.h[3]; var e = this.h[4]; var f = this.h[5]; var g = this.h[6]; var h = this.h[7]; assert(this.k.length === W.length); for (i = 0; i < W.length; i++) { var T1 = sum32_5(h, s1_256(e), ch32(e, f, g), this.k[i], W[i]); var T2 = sum32(s0_256(a), maj32(a, b, c)); h = g; g = f; f = e; e = sum32(d, T1); d = c; c = b; b = a; a = sum32(T1, T2); } this.h[0] = sum32(this.h[0], a); this.h[1] = sum32(this.h[1], b); this.h[2] = sum32(this.h[2], c); this.h[3] = sum32(this.h[3], d); this.h[4] = sum32(this.h[4], e); this.h[5] = sum32(this.h[5], f); this.h[6] = sum32(this.h[6], g); this.h[7] = sum32(this.h[7], h); }; SHA256.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; },{"../common":148,"../utils":158,"./common":157,"minimalistic-assert":176}],155:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var SHA512 = require('./512'); function SHA384() { if (!(this instanceof SHA384)) return new SHA384(); SHA512.call(this); this.h = [ 0xcbbb9d5d, 0xc1059ed8, 0x629a292a, 0x367cd507, 0x9159015a, 0x3070dd17, 0x152fecd8, 0xf70e5939, 0x67332667, 0xffc00b31, 0x8eb44a87, 0x68581511, 0xdb0c2e0d, 0x64f98fa7, 0x47b5481d, 0xbefa4fa4 ]; } utils.inherits(SHA384, SHA512); module.exports = SHA384; SHA384.blockSize = 1024; SHA384.outSize = 384; SHA384.hmacStrength = 192; SHA384.padLength = 128; SHA384.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h.slice(0, 12), 'big'); else return utils.split32(this.h.slice(0, 12), 'big'); }; },{"../utils":158,"./512":156}],156:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var common = require('../common'); var assert = require('minimalistic-assert'); var rotr64_hi = utils.rotr64_hi; var rotr64_lo = utils.rotr64_lo; var shr64_hi = utils.shr64_hi; var shr64_lo = utils.shr64_lo; var sum64 = utils.sum64; var sum64_hi = utils.sum64_hi; var sum64_lo = utils.sum64_lo; var sum64_4_hi = utils.sum64_4_hi; var sum64_4_lo = utils.sum64_4_lo; var sum64_5_hi = utils.sum64_5_hi; var sum64_5_lo = utils.sum64_5_lo; var BlockHash = common.BlockHash; var sha512_K = [ 0x428a2f98, 0xd728ae22, 0x71374491, 0x23ef65cd, 0xb5c0fbcf, 0xec4d3b2f, 0xe9b5dba5, 0x8189dbbc, 0x3956c25b, 0xf348b538, 0x59f111f1, 0xb605d019, 0x923f82a4, 0xaf194f9b, 0xab1c5ed5, 0xda6d8118, 0xd807aa98, 0xa3030242, 0x12835b01, 0x45706fbe, 0x243185be, 0x4ee4b28c, 0x550c7dc3, 0xd5ffb4e2, 0x72be5d74, 0xf27b896f, 0x80deb1fe, 0x3b1696b1, 0x9bdc06a7, 0x25c71235, 0xc19bf174, 0xcf692694, 0xe49b69c1, 0x9ef14ad2, 0xefbe4786, 0x384f25e3, 0x0fc19dc6, 0x8b8cd5b5, 0x240ca1cc, 0x77ac9c65, 0x2de92c6f, 0x592b0275, 0x4a7484aa, 0x6ea6e483, 0x5cb0a9dc, 0xbd41fbd4, 0x76f988da, 0x831153b5, 0x983e5152, 0xee66dfab, 0xa831c66d, 0x2db43210, 0xb00327c8, 0x98fb213f, 0xbf597fc7, 0xbeef0ee4, 0xc6e00bf3, 0x3da88fc2, 0xd5a79147, 0x930aa725, 0x06ca6351, 0xe003826f, 0x14292967, 0x0a0e6e70, 0x27b70a85, 0x46d22ffc, 0x2e1b2138, 0x5c26c926, 0x4d2c6dfc, 0x5ac42aed, 0x53380d13, 0x9d95b3df, 0x650a7354, 0x8baf63de, 0x766a0abb, 0x3c77b2a8, 0x81c2c92e, 0x47edaee6, 0x92722c85, 0x1482353b, 0xa2bfe8a1, 0x4cf10364, 0xa81a664b, 0xbc423001, 0xc24b8b70, 0xd0f89791, 0xc76c51a3, 0x0654be30, 0xd192e819, 0xd6ef5218, 0xd6990624, 0x5565a910, 0xf40e3585, 0x5771202a, 0x106aa070, 0x32bbd1b8, 0x19a4c116, 0xb8d2d0c8, 0x1e376c08, 0x5141ab53, 0x2748774c, 0xdf8eeb99, 0x34b0bcb5, 0xe19b48a8, 0x391c0cb3, 0xc5c95a63, 0x4ed8aa4a, 0xe3418acb, 0x5b9cca4f, 0x7763e373, 0x682e6ff3, 0xd6b2b8a3, 0x748f82ee, 0x5defb2fc, 0x78a5636f, 0x43172f60, 0x84c87814, 0xa1f0ab72, 0x8cc70208, 0x1a6439ec, 0x90befffa, 0x23631e28, 0xa4506ceb, 0xde82bde9, 0xbef9a3f7, 0xb2c67915, 0xc67178f2, 0xe372532b, 0xca273ece, 0xea26619c, 0xd186b8c7, 0x21c0c207, 0xeada7dd6, 0xcde0eb1e, 0xf57d4f7f, 0xee6ed178, 0x06f067aa, 0x72176fba, 0x0a637dc5, 0xa2c898a6, 0x113f9804, 0xbef90dae, 0x1b710b35, 0x131c471b, 0x28db77f5, 0x23047d84, 0x32caab7b, 0x40c72493, 0x3c9ebe0a, 0x15c9bebc, 0x431d67c4, 0x9c100d4c, 0x4cc5d4be, 0xcb3e42b6, 0x597f299c, 0xfc657e2a, 0x5fcb6fab, 0x3ad6faec, 0x6c44198c, 0x4a475817 ]; function SHA512() { if (!(this instanceof SHA512)) return new SHA512(); BlockHash.call(this); this.h = [ 0x6a09e667, 0xf3bcc908, 0xbb67ae85, 0x84caa73b, 0x3c6ef372, 0xfe94f82b, 0xa54ff53a, 0x5f1d36f1, 0x510e527f, 0xade682d1, 0x9b05688c, 0x2b3e6c1f, 0x1f83d9ab, 0xfb41bd6b, 0x5be0cd19, 0x137e2179 ]; this.k = sha512_K; this.W = new Array(160); } utils.inherits(SHA512, BlockHash); module.exports = SHA512; SHA512.blockSize = 1024; SHA512.outSize = 512; SHA512.hmacStrength = 192; SHA512.padLength = 128; SHA512.prototype._prepareBlock = function _prepareBlock(msg, start) { var W = this.W; // 32 x 32bit words for (var i = 0; i < 32; i++) W[i] = msg[start + i]; for (; i < W.length; i += 2) { var c0_hi = g1_512_hi(W[i - 4], W[i - 3]); // i - 2 var c0_lo = g1_512_lo(W[i - 4], W[i - 3]); var c1_hi = W[i - 14]; // i - 7 var c1_lo = W[i - 13]; var c2_hi = g0_512_hi(W[i - 30], W[i - 29]); // i - 15 var c2_lo = g0_512_lo(W[i - 30], W[i - 29]); var c3_hi = W[i - 32]; // i - 16 var c3_lo = W[i - 31]; W[i] = sum64_4_hi( c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo); W[i + 1] = sum64_4_lo( c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo); } }; SHA512.prototype._update = function _update(msg, start) { this._prepareBlock(msg, start); var W = this.W; var ah = this.h[0]; var al = this.h[1]; var bh = this.h[2]; var bl = this.h[3]; var ch = this.h[4]; var cl = this.h[5]; var dh = this.h[6]; var dl = this.h[7]; var eh = this.h[8]; var el = this.h[9]; var fh = this.h[10]; var fl = this.h[11]; var gh = this.h[12]; var gl = this.h[13]; var hh = this.h[14]; var hl = this.h[15]; assert(this.k.length === W.length); for (var i = 0; i < W.length; i += 2) { var c0_hi = hh; var c0_lo = hl; var c1_hi = s1_512_hi(eh, el); var c1_lo = s1_512_lo(eh, el); var c2_hi = ch64_hi(eh, el, fh, fl, gh, gl); var c2_lo = ch64_lo(eh, el, fh, fl, gh, gl); var c3_hi = this.k[i]; var c3_lo = this.k[i + 1]; var c4_hi = W[i]; var c4_lo = W[i + 1]; var T1_hi = sum64_5_hi( c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo, c4_hi, c4_lo); var T1_lo = sum64_5_lo( c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo, c4_hi, c4_lo); c0_hi = s0_512_hi(ah, al); c0_lo = s0_512_lo(ah, al); c1_hi = maj64_hi(ah, al, bh, bl, ch, cl); c1_lo = maj64_lo(ah, al, bh, bl, ch, cl); var T2_hi = sum64_hi(c0_hi, c0_lo, c1_hi, c1_lo); var T2_lo = sum64_lo(c0_hi, c0_lo, c1_hi, c1_lo); hh = gh; hl = gl; gh = fh; gl = fl; fh = eh; fl = el; eh = sum64_hi(dh, dl, T1_hi, T1_lo); el = sum64_lo(dl, dl, T1_hi, T1_lo); dh = ch; dl = cl; ch = bh; cl = bl; bh = ah; bl = al; ah = sum64_hi(T1_hi, T1_lo, T2_hi, T2_lo); al = sum64_lo(T1_hi, T1_lo, T2_hi, T2_lo); } sum64(this.h, 0, ah, al); sum64(this.h, 2, bh, bl); sum64(this.h, 4, ch, cl); sum64(this.h, 6, dh, dl); sum64(this.h, 8, eh, el); sum64(this.h, 10, fh, fl); sum64(this.h, 12, gh, gl); sum64(this.h, 14, hh, hl); }; SHA512.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; function ch64_hi(xh, xl, yh, yl, zh) { var r = (xh & yh) ^ ((~xh) & zh); if (r < 0) r += 0x100000000; return r; } function ch64_lo(xh, xl, yh, yl, zh, zl) { var r = (xl & yl) ^ ((~xl) & zl); if (r < 0) r += 0x100000000; return r; } function maj64_hi(xh, xl, yh, yl, zh) { var r = (xh & yh) ^ (xh & zh) ^ (yh & zh); if (r < 0) r += 0x100000000; return r; } function maj64_lo(xh, xl, yh, yl, zh, zl) { var r = (xl & yl) ^ (xl & zl) ^ (yl & zl); if (r < 0) r += 0x100000000; return r; } function s0_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 28); var c1_hi = rotr64_hi(xl, xh, 2); // 34 var c2_hi = rotr64_hi(xl, xh, 7); // 39 var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function s0_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 28); var c1_lo = rotr64_lo(xl, xh, 2); // 34 var c2_lo = rotr64_lo(xl, xh, 7); // 39 var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function s1_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 14); var c1_hi = rotr64_hi(xh, xl, 18); var c2_hi = rotr64_hi(xl, xh, 9); // 41 var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function s1_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 14); var c1_lo = rotr64_lo(xh, xl, 18); var c2_lo = rotr64_lo(xl, xh, 9); // 41 var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function g0_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 1); var c1_hi = rotr64_hi(xh, xl, 8); var c2_hi = shr64_hi(xh, xl, 7); var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function g0_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 1); var c1_lo = rotr64_lo(xh, xl, 8); var c2_lo = shr64_lo(xh, xl, 7); var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function g1_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 19); var c1_hi = rotr64_hi(xl, xh, 29); // 61 var c2_hi = shr64_hi(xh, xl, 6); var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function g1_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 19); var c1_lo = rotr64_lo(xl, xh, 29); // 61 var c2_lo = shr64_lo(xh, xl, 6); var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } },{"../common":148,"../utils":158,"minimalistic-assert":176}],157:[function(require,module,exports){ 'use strict'; var utils = require('../utils'); var rotr32 = utils.rotr32; function ft_1(s, x, y, z) { if (s === 0) return ch32(x, y, z); if (s === 1 || s === 3) return p32(x, y, z); if (s === 2) return maj32(x, y, z); } exports.ft_1 = ft_1; function ch32(x, y, z) { return (x & y) ^ ((~x) & z); } exports.ch32 = ch32; function maj32(x, y, z) { return (x & y) ^ (x & z) ^ (y & z); } exports.maj32 = maj32; function p32(x, y, z) { return x ^ y ^ z; } exports.p32 = p32; function s0_256(x) { return rotr32(x, 2) ^ rotr32(x, 13) ^ rotr32(x, 22); } exports.s0_256 = s0_256; function s1_256(x) { return rotr32(x, 6) ^ rotr32(x, 11) ^ rotr32(x, 25); } exports.s1_256 = s1_256; function g0_256(x) { return rotr32(x, 7) ^ rotr32(x, 18) ^ (x >>> 3); } exports.g0_256 = g0_256; function g1_256(x) { return rotr32(x, 17) ^ rotr32(x, 19) ^ (x >>> 10); } exports.g1_256 = g1_256; },{"../utils":158}],158:[function(require,module,exports){ 'use strict'; var assert = require('minimalistic-assert'); var inherits = require('inherits'); exports.inherits = inherits; function toArray(msg, enc) { if (Array.isArray(msg)) return msg.slice(); if (!msg) return []; var res = []; if (typeof msg === 'string') { if (!enc) { for (var i = 0; i < msg.length; i++) { var c = msg.charCodeAt(i); var hi = c >> 8; var lo = c & 0xff; if (hi) res.push(hi, lo); else res.push(lo); } } else if (enc === 'hex') { msg = msg.replace(/[^a-z0-9]+/ig, ''); if (msg.length % 2 !== 0) msg = '0' + msg; for (i = 0; i < msg.length; i += 2) res.push(parseInt(msg[i] + msg[i + 1], 16)); } } else { for (i = 0; i < msg.length; i++) res[i] = msg[i] | 0; } return res; } exports.toArray = toArray; function toHex(msg) { var res = ''; for (var i = 0; i < msg.length; i++) res += zero2(msg[i].toString(16)); return res; } exports.toHex = toHex; function htonl(w) { var res = (w >>> 24) | ((w >>> 8) & 0xff00) | ((w << 8) & 0xff0000) | ((w & 0xff) << 24); return res >>> 0; } exports.htonl = htonl; function toHex32(msg, endian) { var res = ''; for (var i = 0; i < msg.length; i++) { var w = msg[i]; if (endian === 'little') w = htonl(w); res += zero8(w.toString(16)); } return res; } exports.toHex32 = toHex32; function zero2(word) { if (word.length === 1) return '0' + word; else return word; } exports.zero2 = zero2; function zero8(word) { if (word.length === 7) return '0' + word; else if (word.length === 6) return '00' + word; else if (word.length === 5) return '000' + word; else if (word.length === 4) return '0000' + word; else if (word.length === 3) return '00000' + word; else if (word.length === 2) return '000000' + word; else if (word.length === 1) return '0000000' + word; else return word; } exports.zero8 = zero8; function join32(msg, start, end, endian) { var len = end - start; assert(len % 4 === 0); var res = new Array(len / 4); for (var i = 0, k = start; i < res.length; i++, k += 4) { var w; if (endian === 'big') w = (msg[k] << 24) | (msg[k + 1] << 16) | (msg[k + 2] << 8) | msg[k + 3]; else w = (msg[k + 3] << 24) | (msg[k + 2] << 16) | (msg[k + 1] << 8) | msg[k]; res[i] = w >>> 0; } return res; } exports.join32 = join32; function split32(msg, endian) { var res = new Array(msg.length * 4); for (var i = 0, k = 0; i < msg.length; i++, k += 4) { var m = msg[i]; if (endian === 'big') { res[k] = m >>> 24; res[k + 1] = (m >>> 16) & 0xff; res[k + 2] = (m >>> 8) & 0xff; res[k + 3] = m & 0xff; } else { res[k + 3] = m >>> 24; res[k + 2] = (m >>> 16) & 0xff; res[k + 1] = (m >>> 8) & 0xff; res[k] = m & 0xff; } } return res; } exports.split32 = split32; function rotr32(w, b) { return (w >>> b) | (w << (32 - b)); } exports.rotr32 = rotr32; function rotl32(w, b) { return (w << b) | (w >>> (32 - b)); } exports.rotl32 = rotl32; function sum32(a, b) { return (a + b) >>> 0; } exports.sum32 = sum32; function sum32_3(a, b, c) { return (a + b + c) >>> 0; } exports.sum32_3 = sum32_3; function sum32_4(a, b, c, d) { return (a + b + c + d) >>> 0; } exports.sum32_4 = sum32_4; function sum32_5(a, b, c, d, e) { return (a + b + c + d + e) >>> 0; } exports.sum32_5 = sum32_5; function sum64(buf, pos, ah, al) { var bh = buf[pos]; var bl = buf[pos + 1]; var lo = (al + bl) >>> 0; var hi = (lo < al ? 1 : 0) + ah + bh; buf[pos] = hi >>> 0; buf[pos + 1] = lo; } exports.sum64 = sum64; function sum64_hi(ah, al, bh, bl) { var lo = (al + bl) >>> 0; var hi = (lo < al ? 1 : 0) + ah + bh; return hi >>> 0; } exports.sum64_hi = sum64_hi; function sum64_lo(ah, al, bh, bl) { var lo = al + bl; return lo >>> 0; } exports.sum64_lo = sum64_lo; function sum64_4_hi(ah, al, bh, bl, ch, cl, dh, dl) { var carry = 0; var lo = al; lo = (lo + bl) >>> 0; carry += lo < al ? 1 : 0; lo = (lo + cl) >>> 0; carry += lo < cl ? 1 : 0; lo = (lo + dl) >>> 0; carry += lo < dl ? 1 : 0; var hi = ah + bh + ch + dh + carry; return hi >>> 0; } exports.sum64_4_hi = sum64_4_hi; function sum64_4_lo(ah, al, bh, bl, ch, cl, dh, dl) { var lo = al + bl + cl + dl; return lo >>> 0; } exports.sum64_4_lo = sum64_4_lo; function sum64_5_hi(ah, al, bh, bl, ch, cl, dh, dl, eh, el) { var carry = 0; var lo = al; lo = (lo + bl) >>> 0; carry += lo < al ? 1 : 0; lo = (lo + cl) >>> 0; carry += lo < cl ? 1 : 0; lo = (lo + dl) >>> 0; carry += lo < dl ? 1 : 0; lo = (lo + el) >>> 0; carry += lo < el ? 1 : 0; var hi = ah + bh + ch + dh + eh + carry; return hi >>> 0; } exports.sum64_5_hi = sum64_5_hi; function sum64_5_lo(ah, al, bh, bl, ch, cl, dh, dl, eh, el) { var lo = al + bl + cl + dl + el; return lo >>> 0; } exports.sum64_5_lo = sum64_5_lo; function rotr64_hi(ah, al, num) { var r = (al << (32 - num)) | (ah >>> num); return r >>> 0; } exports.rotr64_hi = rotr64_hi; function rotr64_lo(ah, al, num) { var r = (ah << (32 - num)) | (al >>> num); return r >>> 0; } exports.rotr64_lo = rotr64_lo; function shr64_hi(ah, al, num) { return ah >>> num; } exports.shr64_hi = shr64_hi; function shr64_lo(ah, al, num) { var r = (ah << (32 - num)) | (al >>> num); return r >>> 0; } exports.shr64_lo = shr64_lo; },{"inherits":163,"minimalistic-assert":176}],159:[function(require,module,exports){ 'use strict'; var hash = require('hash.js'); var utils = require('minimalistic-crypto-utils'); var assert = require('minimalistic-assert'); function HmacDRBG(options) { if (!(this instanceof HmacDRBG)) return new HmacDRBG(options); this.hash = options.hash; this.predResist = !!options.predResist; this.outLen = this.hash.outSize; this.minEntropy = options.minEntropy || this.hash.hmacStrength; this._reseed = null; this.reseedInterval = null; this.K = null; this.V = null; var entropy = utils.toArray(options.entropy, options.entropyEnc || 'hex'); var nonce = utils.toArray(options.nonce, options.nonceEnc || 'hex'); var pers = utils.toArray(options.pers, options.persEnc || 'hex'); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._init(entropy, nonce, pers); } module.exports = HmacDRBG; HmacDRBG.prototype._init = function init(entropy, nonce, pers) { var seed = entropy.concat(nonce).concat(pers); this.K = new Array(this.outLen / 8); this.V = new Array(this.outLen / 8); for (var i = 0; i < this.V.length; i++) { this.K[i] = 0x00; this.V[i] = 0x01; } this._update(seed); this._reseed = 1; this.reseedInterval = 0x1000000000000; // 2^48 }; HmacDRBG.prototype._hmac = function hmac() { return new hash.hmac(this.hash, this.K); }; HmacDRBG.prototype._update = function update(seed) { var kmac = this._hmac() .update(this.V) .update([ 0x00 ]); if (seed) kmac = kmac.update(seed); this.K = kmac.digest(); this.V = this._hmac().update(this.V).digest(); if (!seed) return; this.K = this._hmac() .update(this.V) .update([ 0x01 ]) .update(seed) .digest(); this.V = this._hmac().update(this.V).digest(); }; HmacDRBG.prototype.reseed = function reseed(entropy, entropyEnc, add, addEnc) { // Optional entropy enc if (typeof entropyEnc !== 'string') { addEnc = add; add = entropyEnc; entropyEnc = null; } entropy = utils.toArray(entropy, entropyEnc); add = utils.toArray(add, addEnc); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._update(entropy.concat(add || [])); this._reseed = 1; }; HmacDRBG.prototype.generate = function generate(len, enc, add, addEnc) { if (this._reseed > this.reseedInterval) throw new Error('Reseed is required'); // Optional encoding if (typeof enc !== 'string') { addEnc = add; add = enc; enc = null; } // Optional additional data if (add) { add = utils.toArray(add, addEnc || 'hex'); this._update(add); } var temp = []; while (temp.length < len) { this.V = this._hmac().update(this.V).digest(); temp = temp.concat(this.V); } var res = temp.slice(0, len); this._update(add); this._reseed++; return utils.encode(res, enc); }; },{"hash.js":147,"minimalistic-assert":176,"minimalistic-crypto-utils":177}],160:[function(require,module,exports){ /** * Properly escape JSON for usage as an object literal inside of a `