242 lines
9.3 KiB
JavaScript
242 lines
9.3 KiB
JavaScript
'use strict';
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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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// See: https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki
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// See: https://github.com/bitcoin/bips/blob/master/bip-0039.mediawiki
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var errors = __importStar(require("../errors"));
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// The English language word list.
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// For additional word lists, please see /src.tc/wordlists/
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var lang_en_1 = require("../wordlists/lang-en");
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// Automatically register English?
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//import { register } from '../wordlists/wordlist';
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//register(langEn);
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var bytes_1 = require("./bytes");
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var bignumber_1 = require("./bignumber");
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var utf8_1 = require("./utf8");
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var pbkdf2_1 = require("./pbkdf2");
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var hmac_1 = require("./hmac");
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var properties_1 = require("./properties");
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var secp256k1_1 = require("./secp256k1");
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var sha2_1 = require("./sha2");
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var N = bignumber_1.bigNumberify("0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141");
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// "Bitcoin seed"
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var MasterSecret = utf8_1.toUtf8Bytes('Bitcoin seed');
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var HardenedBit = 0x80000000;
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// Returns a byte with the MSB bits set
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function getUpperMask(bits) {
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return ((1 << bits) - 1) << (8 - bits);
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}
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// Returns a byte with the LSB bits set
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function getLowerMask(bits) {
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return (1 << bits) - 1;
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}
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var _constructorGuard = {};
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exports.defaultPath = "m/44'/60'/0'/0/0";
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var HDNode = /** @class */ (function () {
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/**
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* This constructor should not be called directly.
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*
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* Please use:
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* - fromMnemonic
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* - fromSeed
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*/
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function HDNode(constructorGuard, privateKey, chainCode, index, depth, mnemonic, path) {
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errors.checkNew(this, HDNode);
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if (constructorGuard !== _constructorGuard) {
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throw new Error('HDNode constructor cannot be called directly');
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}
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properties_1.defineReadOnly(this, 'keyPair', new secp256k1_1.KeyPair(privateKey));
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properties_1.defineReadOnly(this, 'privateKey', this.keyPair.privateKey);
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properties_1.defineReadOnly(this, 'publicKey', this.keyPair.compressedPublicKey);
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properties_1.defineReadOnly(this, 'chainCode', bytes_1.hexlify(chainCode));
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properties_1.defineReadOnly(this, 'index', index);
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properties_1.defineReadOnly(this, 'depth', depth);
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properties_1.defineReadOnly(this, 'mnemonic', mnemonic);
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properties_1.defineReadOnly(this, 'path', path);
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properties_1.setType(this, 'HDNode');
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}
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HDNode.prototype._derive = function (index) {
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// Public parent key -> public child key
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if (!this.privateKey) {
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if (index >= HardenedBit) {
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throw new Error('cannot derive child of neutered node');
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}
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throw new Error('not implemented');
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}
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var data = new Uint8Array(37);
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// Base path
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var mnemonic = this.mnemonic;
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var path = this.path;
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if (path) {
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path += '/' + index;
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}
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if (index & HardenedBit) {
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// Data = 0x00 || ser_256(k_par)
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data.set(bytes_1.arrayify(this.privateKey), 1);
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// Hardened path
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if (path) {
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path += "'";
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}
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}
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else {
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// Data = ser_p(point(k_par))
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data.set(this.keyPair.publicKeyBytes);
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}
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// Data += ser_32(i)
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for (var i = 24; i >= 0; i -= 8) {
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data[33 + (i >> 3)] = ((index >> (24 - i)) & 0xff);
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}
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var I = hmac_1.computeHmac(hmac_1.SupportedAlgorithms.sha512, this.chainCode, data);
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var IL = bignumber_1.bigNumberify(I.slice(0, 32));
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var IR = I.slice(32);
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var ki = IL.add(this.keyPair.privateKey).mod(N);
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return new HDNode(_constructorGuard, bytes_1.arrayify(ki), IR, index, this.depth + 1, mnemonic, path);
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};
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HDNode.prototype.derivePath = function (path) {
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var components = path.split('/');
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if (components.length === 0 || (components[0] === 'm' && this.depth !== 0)) {
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throw new Error('invalid path');
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}
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if (components[0] === 'm') {
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components.shift();
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}
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var result = this;
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for (var i = 0; i < components.length; i++) {
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var component = components[i];
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if (component.match(/^[0-9]+'$/)) {
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var index = parseInt(component.substring(0, component.length - 1));
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if (index >= HardenedBit) {
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throw new Error('invalid path index - ' + component);
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}
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result = result._derive(HardenedBit + index);
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}
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else if (component.match(/^[0-9]+$/)) {
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var index = parseInt(component);
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if (index >= HardenedBit) {
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throw new Error('invalid path index - ' + component);
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}
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result = result._derive(index);
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}
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else {
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throw new Error('invlaid path component - ' + component);
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}
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}
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return result;
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};
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HDNode.isHDNode = function (value) {
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return properties_1.isType(value, 'HDNode');
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};
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return HDNode;
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}());
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exports.HDNode = HDNode;
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function _fromSeed(seed, mnemonic) {
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var seedArray = bytes_1.arrayify(seed);
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if (seedArray.length < 16 || seedArray.length > 64) {
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throw new Error('invalid seed');
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}
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var I = bytes_1.arrayify(hmac_1.computeHmac(hmac_1.SupportedAlgorithms.sha512, MasterSecret, seedArray));
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return new HDNode(_constructorGuard, I.slice(0, 32), I.slice(32), 0, 0, mnemonic, 'm');
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}
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function fromMnemonic(mnemonic, wordlist) {
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// Check that the checksum s valid (will throw an error)
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mnemonicToEntropy(mnemonic, wordlist);
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return _fromSeed(mnemonicToSeed(mnemonic), mnemonic);
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}
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exports.fromMnemonic = fromMnemonic;
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function fromSeed(seed) {
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return _fromSeed(seed, null);
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}
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exports.fromSeed = fromSeed;
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function mnemonicToSeed(mnemonic, password) {
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if (!password) {
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password = '';
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}
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var salt = utf8_1.toUtf8Bytes('mnemonic' + password, utf8_1.UnicodeNormalizationForm.NFKD);
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return bytes_1.hexlify(pbkdf2_1.pbkdf2(utf8_1.toUtf8Bytes(mnemonic, utf8_1.UnicodeNormalizationForm.NFKD), salt, 2048, 64, 'sha512'));
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}
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exports.mnemonicToSeed = mnemonicToSeed;
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function mnemonicToEntropy(mnemonic, wordlist) {
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if (!wordlist) {
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wordlist = lang_en_1.langEn;
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}
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var words = wordlist.split(mnemonic);
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if ((words.length % 3) !== 0) {
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throw new Error('invalid mnemonic');
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}
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var entropy = bytes_1.arrayify(new Uint8Array(Math.ceil(11 * words.length / 8)));
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var offset = 0;
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for (var i = 0; i < words.length; i++) {
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var index = wordlist.getWordIndex(words[i].normalize('NFKD'));
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if (index === -1) {
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throw new Error('invalid mnemonic');
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}
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for (var bit = 0; bit < 11; bit++) {
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if (index & (1 << (10 - bit))) {
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entropy[offset >> 3] |= (1 << (7 - (offset % 8)));
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}
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offset++;
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}
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}
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var entropyBits = 32 * words.length / 3;
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var checksumBits = words.length / 3;
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var checksumMask = getUpperMask(checksumBits);
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var checksum = bytes_1.arrayify(sha2_1.sha256(entropy.slice(0, entropyBits / 8)))[0];
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checksum &= checksumMask;
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if (checksum !== (entropy[entropy.length - 1] & checksumMask)) {
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throw new Error('invalid checksum');
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}
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return bytes_1.hexlify(entropy.slice(0, entropyBits / 8));
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}
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exports.mnemonicToEntropy = mnemonicToEntropy;
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function entropyToMnemonic(entropy, wordlist) {
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entropy = bytes_1.arrayify(entropy);
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if ((entropy.length % 4) !== 0 || entropy.length < 16 || entropy.length > 32) {
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throw new Error('invalid entropy');
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}
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var indices = [0];
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var remainingBits = 11;
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for (var i = 0; i < entropy.length; i++) {
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// Consume the whole byte (with still more to go)
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if (remainingBits > 8) {
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indices[indices.length - 1] <<= 8;
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indices[indices.length - 1] |= entropy[i];
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remainingBits -= 8;
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// This byte will complete an 11-bit index
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}
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else {
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indices[indices.length - 1] <<= remainingBits;
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indices[indices.length - 1] |= entropy[i] >> (8 - remainingBits);
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// Start the next word
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indices.push(entropy[i] & getLowerMask(8 - remainingBits));
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remainingBits += 3;
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}
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}
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// Compute the checksum bits
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var checksum = bytes_1.arrayify(sha2_1.sha256(entropy))[0];
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var checksumBits = entropy.length / 4;
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checksum &= getUpperMask(checksumBits);
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// Shift the checksum into the word indices
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indices[indices.length - 1] <<= checksumBits;
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indices[indices.length - 1] |= (checksum >> (8 - checksumBits));
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if (!wordlist) {
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wordlist = lang_en_1.langEn;
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}
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return wordlist.join(indices.map(function (index) { return wordlist.getWord(index); }));
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}
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exports.entropyToMnemonic = entropyToMnemonic;
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function isValidMnemonic(mnemonic, wordlist) {
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try {
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mnemonicToEntropy(mnemonic, wordlist);
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return true;
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}
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catch (error) { }
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return false;
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}
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exports.isValidMnemonic = isValidMnemonic;
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