117 lines
3.6 KiB
JavaScript
117 lines
3.6 KiB
JavaScript
'use strict';
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const assert = require('assert');
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const HD = require('../lib/hd');
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const base58 = require('../lib/utils/base58');
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const pbkdf2 = require('../lib/crypto/pbkdf2');
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const vectors = require('./data/hd.json');
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const vector1 = vectors.vector1;
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const vector2 = vectors.vector2;
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function ub58(data) {
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return base58.decode(data).toString('hex');
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}
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function equal(a, b) {
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assert.equal(a, b);
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assert.equal(ub58(a), ub58(b));
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}
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describe('HD', function() {
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let master, child1, child2, child3, child4, child5, child6;
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it('should create a pbkdf2 seed', () => {
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let seed = pbkdf2.derive(vectors.phrase, 'mnemonicfoo', 2048, 64, 'sha512');
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assert.equal(seed.toString('hex'), vectors.seed);
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});
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it('should create master private key', () => {
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master = HD.PrivateKey.fromSeed(Buffer.from(vectors.seed, 'hex'));
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assert.equal(master.toBase58(), vectors.master_priv);
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assert.equal(master.toPublic().toBase58(), vectors.master_pub);
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});
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it('should derive(0) child from master', () => {
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child1 = master.derive(0);
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assert.equal(child1.toBase58(), vectors.child1_priv);
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assert.equal(child1.toPublic().toBase58(), vectors.child1_pub);
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});
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it('should derive(1) child from master public key', () => {
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child2 = master.toPublic().derive(1);
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assert.equal(child2.toBase58(), vectors.child2_pub);
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});
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it('should derive(1) child from master', () => {
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child3 = master.derive(1);
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assert.equal(child3.toBase58(), vectors.child3_priv);
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assert.equal(child3.toPublic().toBase58(), vectors.child3_pub);
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});
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it('should derive(2) child from master', () => {
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child4 = master.derive(2);
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assert.equal(child4.toBase58(), vectors.child4_priv);
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assert.equal(child4.toPublic().toBase58(), vectors.child4_pub);
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});
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it('should derive(0) child from child(2)', () => {
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child5 = child4.derive(0);
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assert.equal(child5.toBase58(), vectors.child5_priv);
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assert.equal(child5.toPublic().toBase58(), vectors.child5_pub);
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});
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it('should derive(1) child from child(2)', () => {
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child6 = child4.derive(1);
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assert.equal(child6.toBase58(), vectors.child6_priv);
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assert.equal(child6.toPublic().toBase58(), vectors.child6_pub);
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});
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it('should derive correctly when private key has leading zeros', () => {
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let key = HD.PrivateKey.fromBase58(vectors.zero_priv);
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let child;
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assert.equal(key.privateKey.toString('hex'),
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'00000055378cf5fafb56c711c674143f9b0ee82ab0ba2924f19b64f5ae7cdbfd');
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child = key.derivePath('m/44\'/0\'/0\'/0/0\'');
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assert.equal(child.privateKey.toString('hex'),
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'3348069561d2a0fb925e74bf198762acc47dce7db27372257d2d959a9e6f8aeb');
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});
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it('should deserialize master private key', () => {
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HD.PrivateKey.fromBase58(master.toBase58());
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});
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it('should deserialize master public key', () => {
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HD.PublicKey.fromBase58(master.toPublic().toBase58());
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});
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it('should deserialize and reserialize', () => {
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let key = HD.generate();
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assert.equal(HD.fromJSON(key.toJSON()).toBase58(), key.toBase58());
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});
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[vector1, vector2].forEach((vector) => {
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let master;
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it('should create from a seed', () => {
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master = HD.PrivateKey.fromSeed(Buffer.from(vector.seed, 'hex'));
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equal(master.toBase58(), vector.m.prv);
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equal(master.toPublic().toBase58(), vector.m.pub);
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});
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Object.keys(vector).forEach((path) => {
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let kp = vector[path];
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if (path === 'seed' || path === 'm')
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return;
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it(`should derive ${path} from master`, () => {
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let key = master.derivePath(path);
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equal(key.toBase58(), kp.prv);
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equal(key.toPublic().toBase58(), kp.pub);
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});
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});
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});
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});
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