402 lines
16 KiB
JavaScript
402 lines
16 KiB
JavaScript
'use strict';
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var __importDefault = (this && this.__importDefault) || function (mod) {
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return (mod && mod.__esModule) ? mod : { "default": mod };
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};
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var __importStar = (this && this.__importStar) || function (mod) {
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if (mod && mod.__esModule) return mod;
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var result = {};
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if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
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result["default"] = mod;
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return result;
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};
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Object.defineProperty(exports, "__esModule", { value: true });
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var aes_js_1 = __importDefault(require("aes-js"));
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var scrypt_js_1 = __importDefault(require("scrypt-js"));
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var uuid_1 = __importDefault(require("uuid"));
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var signing_key_1 = require("./signing-key");
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var HDNode = __importStar(require("./hdnode"));
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var address_1 = require("../utils/address");
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var bytes_1 = require("../utils/bytes");
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var pbkdf2_1 = require("../utils/pbkdf2");
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var keccak256_1 = require("../utils/keccak256");
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var utf8_1 = require("../utils/utf8");
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var random_bytes_1 = require("../utils/random-bytes");
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function looseArrayify(hexString) {
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if (typeof (hexString) === 'string' && hexString.substring(0, 2) !== '0x') {
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hexString = '0x' + hexString;
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}
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return bytes_1.arrayify(hexString);
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}
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function zpad(value, length) {
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value = String(value);
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while (value.length < length) {
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value = '0' + value;
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}
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return value;
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}
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function getPassword(password) {
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if (typeof (password) === 'string') {
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return utf8_1.toUtf8Bytes(password, utf8_1.UnicodeNormalizationForm.NFKC);
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}
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return bytes_1.arrayify(password);
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}
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// Search an Object and its children recursively, caselessly.
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function searchPath(object, path) {
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var currentChild = object;
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var comps = path.toLowerCase().split('/');
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for (var i = 0; i < comps.length; i++) {
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// Search for a child object with a case-insensitive matching key
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var matchingChild = null;
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for (var key in currentChild) {
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if (key.toLowerCase() === comps[i]) {
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matchingChild = currentChild[key];
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break;
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}
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}
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// Didn't find one. :'(
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if (matchingChild === null) {
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return null;
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}
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// Now check this child...
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currentChild = matchingChild;
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}
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return currentChild;
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}
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// @TODO: Make a type for string or arrayish
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// See: https://github.com/ethereum/pyethsaletool
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function decryptCrowdsale(json, password) {
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var data = JSON.parse(json);
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password = getPassword(password);
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// Ethereum Address
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var ethaddr = address_1.getAddress(searchPath(data, 'ethaddr'));
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// Encrypted Seed
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var encseed = looseArrayify(searchPath(data, 'encseed'));
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if (!encseed || (encseed.length % 16) !== 0) {
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throw new Error('invalid encseed');
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}
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var key = pbkdf2_1.pbkdf2(password, password, 2000, 32, 'sha256').slice(0, 16);
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var iv = encseed.slice(0, 16);
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var encryptedSeed = encseed.slice(16);
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// Decrypt the seed
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var aesCbc = new aes_js_1.default.ModeOfOperation.cbc(key, iv);
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var seed = bytes_1.arrayify(aesCbc.decrypt(encryptedSeed));
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seed = aes_js_1.default.padding.pkcs7.strip(seed);
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// This wallet format is weird... Convert the binary encoded hex to a string.
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var seedHex = '';
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for (var i = 0; i < seed.length; i++) {
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seedHex += String.fromCharCode(seed[i]);
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}
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var seedHexBytes = utf8_1.toUtf8Bytes(seedHex);
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var signingKey = new signing_key_1.SigningKey(keccak256_1.keccak256(seedHexBytes));
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if (signingKey.address !== ethaddr) {
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throw new Error('corrupt crowdsale wallet');
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}
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return signingKey;
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}
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exports.decryptCrowdsale = decryptCrowdsale;
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//@TODO: string or arrayish
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function decrypt(json, password, progressCallback) {
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var data = JSON.parse(json);
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var passwordBytes = getPassword(password);
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var decrypt = function (key, ciphertext) {
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var cipher = searchPath(data, 'crypto/cipher');
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if (cipher === 'aes-128-ctr') {
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var iv = looseArrayify(searchPath(data, 'crypto/cipherparams/iv'));
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var counter = new aes_js_1.default.Counter(iv);
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var aesCtr = new aes_js_1.default.ModeOfOperation.ctr(key, counter);
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return bytes_1.arrayify(aesCtr.decrypt(ciphertext));
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}
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return null;
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};
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var computeMAC = function (derivedHalf, ciphertext) {
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return keccak256_1.keccak256(bytes_1.concat([derivedHalf, ciphertext]));
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};
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var getSigningKey = function (key, reject) {
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var ciphertext = looseArrayify(searchPath(data, 'crypto/ciphertext'));
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var computedMAC = bytes_1.hexlify(computeMAC(key.slice(16, 32), ciphertext)).substring(2);
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if (computedMAC !== searchPath(data, 'crypto/mac').toLowerCase()) {
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reject(new Error('invalid password'));
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return null;
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}
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var privateKey = decrypt(key.slice(0, 16), ciphertext);
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var mnemonicKey = key.slice(32, 64);
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if (!privateKey) {
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reject(new Error('unsupported cipher'));
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return null;
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}
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var signingKey = new signing_key_1.SigningKey(privateKey);
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if (signingKey.address !== address_1.getAddress(data.address)) {
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reject(new Error('address mismatch'));
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return null;
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}
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// Version 0.1 x-ethers metadata must contain an encrypted mnemonic phrase
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if (searchPath(data, 'x-ethers/version') === '0.1') {
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var mnemonicCiphertext = looseArrayify(searchPath(data, 'x-ethers/mnemonicCiphertext'));
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var mnemonicIv = looseArrayify(searchPath(data, 'x-ethers/mnemonicCounter'));
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var mnemonicCounter = new aes_js_1.default.Counter(mnemonicIv);
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var mnemonicAesCtr = new aes_js_1.default.ModeOfOperation.ctr(mnemonicKey, mnemonicCounter);
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var path = searchPath(data, 'x-ethers/path') || HDNode.defaultPath;
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var entropy = bytes_1.arrayify(mnemonicAesCtr.decrypt(mnemonicCiphertext));
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var mnemonic = HDNode.entropyToMnemonic(entropy);
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var node = HDNode.fromMnemonic(mnemonic).derivePath(path);
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if (node.privateKey != bytes_1.hexlify(privateKey)) {
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reject(new Error('mnemonic mismatch'));
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return null;
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}
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signingKey = new signing_key_1.SigningKey(node);
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}
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return signingKey;
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};
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return new Promise(function (resolve, reject) {
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var kdf = searchPath(data, 'crypto/kdf');
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if (kdf && typeof (kdf) === 'string') {
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if (kdf.toLowerCase() === 'scrypt') {
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var salt = looseArrayify(searchPath(data, 'crypto/kdfparams/salt'));
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var N = parseInt(searchPath(data, 'crypto/kdfparams/n'));
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var r = parseInt(searchPath(data, 'crypto/kdfparams/r'));
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var p = parseInt(searchPath(data, 'crypto/kdfparams/p'));
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if (!N || !r || !p) {
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reject(new Error('unsupported key-derivation function parameters'));
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return;
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}
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// Make sure N is a power of 2
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if ((N & (N - 1)) !== 0) {
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reject(new Error('unsupported key-derivation function parameter value for N'));
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return;
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}
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var dkLen = parseInt(searchPath(data, 'crypto/kdfparams/dklen'));
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if (dkLen !== 32) {
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reject(new Error('unsupported key-derivation derived-key length'));
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return;
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}
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if (progressCallback) {
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progressCallback(0);
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}
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scrypt_js_1.default(passwordBytes, salt, N, r, p, 64, function (error, progress, key) {
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if (error) {
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error.progress = progress;
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reject(error);
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}
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else if (key) {
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key = bytes_1.arrayify(key);
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var signingKey = getSigningKey(key, reject);
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if (!signingKey) {
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return;
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}
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if (progressCallback) {
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progressCallback(1);
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}
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resolve(signingKey);
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}
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else if (progressCallback) {
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return progressCallback(progress);
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}
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});
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}
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else if (kdf.toLowerCase() === 'pbkdf2') {
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var salt = looseArrayify(searchPath(data, 'crypto/kdfparams/salt'));
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var prfFunc = null;
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var prf = searchPath(data, 'crypto/kdfparams/prf');
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if (prf === 'hmac-sha256') {
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prfFunc = 'sha256';
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}
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else if (prf === 'hmac-sha512') {
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prfFunc = 'sha512';
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}
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else {
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reject(new Error('unsupported prf'));
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return;
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}
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var c = parseInt(searchPath(data, 'crypto/kdfparams/c'));
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var dkLen = parseInt(searchPath(data, 'crypto/kdfparams/dklen'));
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if (dkLen !== 32) {
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reject(new Error('unsupported key-derivation derived-key length'));
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return;
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}
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var key = pbkdf2_1.pbkdf2(passwordBytes, salt, c, dkLen, prfFunc);
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var signingKey = getSigningKey(key, reject);
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if (!signingKey) {
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return;
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}
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resolve(signingKey);
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}
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else {
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reject(new Error('unsupported key-derivation function'));
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}
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}
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else {
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reject(new Error('unsupported key-derivation function'));
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}
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});
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}
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exports.decrypt = decrypt;
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function encrypt(privateKey, password, options, progressCallback) {
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// the options are optional, so adjust the call as needed
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if (typeof (options) === 'function' && !progressCallback) {
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progressCallback = options;
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options = {};
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}
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if (!options) {
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options = {};
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}
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// Check the private key
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var privateKeyBytes = null;
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if (signing_key_1.SigningKey.isSigningKey(privateKey)) {
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privateKeyBytes = bytes_1.arrayify(privateKey.privateKey);
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}
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else {
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privateKeyBytes = bytes_1.arrayify(privateKey);
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}
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if (privateKeyBytes.length !== 32) {
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throw new Error('invalid private key');
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}
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var passwordBytes = getPassword(password);
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var entropy = null;
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if (options.entropy) {
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entropy = bytes_1.arrayify(options.entropy);
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}
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if (options.mnemonic) {
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if (entropy) {
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if (HDNode.entropyToMnemonic(entropy) !== options.mnemonic) {
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throw new Error('entropy and mnemonic mismatch');
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}
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}
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else {
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entropy = bytes_1.arrayify(HDNode.mnemonicToEntropy(options.mnemonic));
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}
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}
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var path = options.path;
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if (entropy && !path) {
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path = HDNode.defaultPath;
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}
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var client = options.client;
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if (!client) {
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client = "ethers.js";
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}
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// Check/generate the salt
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var salt = null;
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if (options.salt) {
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salt = bytes_1.arrayify(options.salt);
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}
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else {
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salt = random_bytes_1.randomBytes(32);
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;
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}
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// Override initialization vector
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var iv = null;
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if (options.iv) {
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iv = bytes_1.arrayify(options.iv);
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if (iv.length !== 16) {
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throw new Error('invalid iv');
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}
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}
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else {
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iv = random_bytes_1.randomBytes(16);
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}
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// Override the uuid
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var uuidRandom = null;
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if (options.uuid) {
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uuidRandom = bytes_1.arrayify(options.uuid);
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if (uuidRandom.length !== 16) {
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throw new Error('invalid uuid');
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}
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}
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else {
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uuidRandom = random_bytes_1.randomBytes(16);
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}
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// Override the scrypt password-based key derivation function parameters
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var N = (1 << 17), r = 8, p = 1;
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if (options.scrypt) {
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if (options.scrypt.N) {
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N = options.scrypt.N;
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}
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if (options.scrypt.r) {
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r = options.scrypt.r;
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}
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if (options.scrypt.p) {
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p = options.scrypt.p;
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}
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}
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return new Promise(function (resolve, reject) {
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if (progressCallback) {
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progressCallback(0);
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}
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// We take 64 bytes:
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// - 32 bytes As normal for the Web3 secret storage (derivedKey, macPrefix)
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// - 32 bytes AES key to encrypt mnemonic with (required here to be Ethers Wallet)
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scrypt_js_1.default(passwordBytes, salt, N, r, p, 64, function (error, progress, key) {
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if (error) {
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error.progress = progress;
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reject(error);
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}
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else if (key) {
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key = bytes_1.arrayify(key);
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// This will be used to encrypt the wallet (as per Web3 secret storage)
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var derivedKey = key.slice(0, 16);
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var macPrefix = key.slice(16, 32);
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// This will be used to encrypt the mnemonic phrase (if any)
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var mnemonicKey = key.slice(32, 64);
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// Get the address for this private key
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var address = (new signing_key_1.SigningKey(privateKeyBytes)).address;
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// Encrypt the private key
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var counter = new aes_js_1.default.Counter(iv);
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var aesCtr = new aes_js_1.default.ModeOfOperation.ctr(derivedKey, counter);
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var ciphertext = bytes_1.arrayify(aesCtr.encrypt(privateKeyBytes));
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// Compute the message authentication code, used to check the password
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var mac = keccak256_1.keccak256(bytes_1.concat([macPrefix, ciphertext]));
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// See: https://github.com/ethereum/wiki/wiki/Web3-Secret-Storage-Definition
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var data = {
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address: address.substring(2).toLowerCase(),
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id: uuid_1.default.v4({ random: uuidRandom }),
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version: 3,
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Crypto: {
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cipher: 'aes-128-ctr',
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cipherparams: {
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iv: bytes_1.hexlify(iv).substring(2),
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},
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ciphertext: bytes_1.hexlify(ciphertext).substring(2),
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kdf: 'scrypt',
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kdfparams: {
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salt: bytes_1.hexlify(salt).substring(2),
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n: N,
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dklen: 32,
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p: p,
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r: r
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},
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mac: mac.substring(2)
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}
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};
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// If we have a mnemonic, encrypt it into the JSON wallet
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if (entropy) {
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var mnemonicIv = random_bytes_1.randomBytes(16);
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var mnemonicCounter = new aes_js_1.default.Counter(mnemonicIv);
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var mnemonicAesCtr = new aes_js_1.default.ModeOfOperation.ctr(mnemonicKey, mnemonicCounter);
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var mnemonicCiphertext = bytes_1.arrayify(mnemonicAesCtr.encrypt(entropy));
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var now = new Date();
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var timestamp = (now.getUTCFullYear() + '-' +
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zpad(now.getUTCMonth() + 1, 2) + '-' +
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zpad(now.getUTCDate(), 2) + 'T' +
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zpad(now.getUTCHours(), 2) + '-' +
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zpad(now.getUTCMinutes(), 2) + '-' +
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zpad(now.getUTCSeconds(), 2) + '.0Z');
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data['x-ethers'] = {
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client: client,
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gethFilename: ('UTC--' + timestamp + '--' + data.address),
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mnemonicCounter: bytes_1.hexlify(mnemonicIv).substring(2),
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mnemonicCiphertext: bytes_1.hexlify(mnemonicCiphertext).substring(2),
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version: "0.1"
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};
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}
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if (progressCallback) {
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progressCallback(1);
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}
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resolve(JSON.stringify(data));
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}
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else if (progressCallback) {
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return progressCallback(progress);
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}
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});
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});
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}
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exports.encrypt = encrypt;
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