/* global describe, it, beforeEach */ /* eslint-disable no-new */ var assert = require('assert') var ecdsa = require('../src/ecdsa') var sinon = require('sinon') var BigInteger = require('bigi') var ECPair = require('../src/ecpair') var HDNode = require('../src/hdnode') var fixtures = require('./fixtures/hdnode.json') var curve = ecdsa.__curve var NETWORKS = require('../src/networks') var NETWORKS_LIST = [] // Object.values(NETWORKS) for (var networkName in NETWORKS) { NETWORKS_LIST.push(NETWORKS[networkName]) } describe('HDNode', function () { describe('Constructor', function () { var keyPair, chainCode beforeEach(function () { var d = BigInteger.ONE keyPair = new ECPair(d, null) chainCode = new Buffer(32) chainCode.fill(1) }) it('stores the keyPair/chainCode directly', function () { var hd = new HDNode(keyPair, chainCode) assert.strictEqual(hd.keyPair, keyPair) assert.strictEqual(hd.chainCode, chainCode) }) it('has a default depth/index of 0', function () { var hd = new HDNode(keyPair, chainCode) assert.strictEqual(hd.depth, 0) assert.strictEqual(hd.index, 0) }) it('throws on uncompressed keyPair', function () { keyPair.compressed = false assert.throws(function () { new HDNode(keyPair, chainCode) }, /BIP32 only allows compressed keyPairs/) }) it('throws when an invalid length chain code is given', function () { assert.throws(function () { new HDNode(keyPair, new Buffer(20)) }, /Expected property "1" of type Buffer\(Length: 32\), got Buffer\(Length: 20\)/) }) }) describe('fromSeed*', function () { fixtures.valid.forEach(function (f) { it('calculates privKey and chainCode for ' + f.master.fingerprint, function () { var network = NETWORKS[f.network] var hd = HDNode.fromSeedHex(f.master.seed, network) assert.strictEqual(hd.keyPair.toWIF(), f.master.wif) assert.strictEqual(hd.chainCode.toString('hex'), f.master.chainCode) }) }) it('throws if IL is not within interval [1, n - 1] | IL === 0', sinon.test(function () { this.mock(BigInteger).expects('fromBuffer') .once().returns(BigInteger.ZERO) assert.throws(function () { HDNode.fromSeedHex('ffffffffffffffffffffffffffffffff') }, /Private key must be greater than 0/) })) it('throws if IL is not within interval [1, n - 1] | IL === n', sinon.test(function () { this.mock(BigInteger).expects('fromBuffer') .once().returns(curve.n) assert.throws(function () { HDNode.fromSeedHex('ffffffffffffffffffffffffffffffff') }, /Private key must be less than the curve order/) })) it('throws on low entropy seed', function () { assert.throws(function () { HDNode.fromSeedHex('ffffffffff') }, /Seed should be at least 128 bits/) }) it('throws on too high entropy seed', function () { assert.throws(function () { HDNode.fromSeedHex('ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff') }, /Seed should be at most 512 bits/) }) }) describe('ECPair wrappers', function () { var keyPair, hd, hash beforeEach(function () { keyPair = ECPair.makeRandom() hash = new Buffer(32) var chainCode = new Buffer(32) hd = new HDNode(keyPair, chainCode) }) describe('getAddress', function () { it('wraps keyPair.getAddress', sinon.test(function () { this.mock(keyPair).expects('getAddress') .once().withArgs().returns('foobar') assert.strictEqual(hd.getAddress(), 'foobar') })) }) describe('getNetwork', function () { it('wraps keyPair.getNetwork', sinon.test(function () { this.mock(keyPair).expects('getNetwork') .once().withArgs().returns('network') assert.strictEqual(hd.getNetwork(), 'network') })) }) describe('getPublicKeyBuffer', function () { it('wraps keyPair.getPublicKeyBuffer', sinon.test(function () { this.mock(keyPair).expects('getPublicKeyBuffer') .once().withArgs().returns('pubKeyBuffer') assert.strictEqual(hd.getPublicKeyBuffer(), 'pubKeyBuffer') })) }) describe('sign', function () { it('wraps keyPair.sign', sinon.test(function () { this.mock(keyPair).expects('sign') .once().withArgs(hash).returns('signed') assert.strictEqual(hd.sign(hash), 'signed') })) }) describe('verify', function () { var signature beforeEach(function () { signature = hd.sign(hash) }) it('wraps keyPair.verify', sinon.test(function () { this.mock(keyPair).expects('verify') .once().withArgs(hash, signature).returns('verified') assert.strictEqual(hd.verify(hash, signature), 'verified') })) }) }) describe('toBase58', function () { fixtures.valid.forEach(function (f) { it('exports ' + f.master.base58 + ' (public) correctly', function () { var network = NETWORKS[f.network] var hd = HDNode.fromSeedHex(f.master.seed, network).neutered() assert.strictEqual(hd.toBase58(), f.master.base58) }) }) fixtures.valid.forEach(function (f) { it('exports ' + f.master.base58Priv + ' (private) correctly', function () { var network = NETWORKS[f.network] var hd = HDNode.fromSeedHex(f.master.seed, network) assert.strictEqual(hd.toBase58(), f.master.base58Priv) }) }) }) describe('fromBase58', function () { fixtures.valid.forEach(function (f) { it('imports ' + f.master.base58 + ' (public) correctly', function () { var network = NETWORKS[f.network] var hd = HDNode.fromBase58(f.master.base58, network) assert.strictEqual(hd.toBase58(), f.master.base58) assert.strictEqual(hd.keyPair.network, network) assert.strictEqual(hd.isNeutered(), true) }) }) fixtures.valid.forEach(function (f) { it('imports ' + f.master.base58Priv + ' (private) correctly', function () { var network = NETWORKS[f.network] var hd = HDNode.fromBase58(f.master.base58Priv, network) assert.strictEqual(hd.toBase58(), f.master.base58Priv) assert.strictEqual(hd.keyPair.network, network) assert.strictEqual(hd.isNeutered(), false) }) }) fixtures.invalid.fromBase58.forEach(function (f) { it('throws on ' + f.string, function () { assert.throws(function () { var networks = f.network ? NETWORKS[f.network] : NETWORKS_LIST HDNode.fromBase58(f.string, networks) }, new RegExp(f.exception)) }) }) }) describe('getIdentifier', function () { var f = fixtures.valid[0] it('returns the identifier for ' + f.master.fingerprint, function () { var hd = HDNode.fromBase58(f.master.base58, NETWORKS_LIST) assert.strictEqual(hd.getIdentifier().toString('hex'), f.master.identifier) }) }) describe('getFingerprint', function () { var f = fixtures.valid[0] it('returns the fingerprint for ' + f.master.fingerprint, function () { var hd = HDNode.fromBase58(f.master.base58, NETWORKS_LIST) assert.strictEqual(hd.getFingerprint().toString('hex'), f.master.fingerprint) }) }) describe('neutered', function () { var f = fixtures.valid[0] it('strips all private information', function () { var hd = HDNode.fromBase58(f.master.base58Priv, NETWORKS_LIST) var hdn = hd.neutered() assert.strictEqual(hdn.keyPair.d, undefined) assert.strictEqual(hdn.keyPair.Q, hd.keyPair.Q) assert.strictEqual(hdn.chainCode, hd.chainCode) assert.strictEqual(hdn.depth, hd.depth) assert.strictEqual(hdn.index, hd.index) assert.strictEqual(hdn.isNeutered(), true) assert.strictEqual(hd.isNeutered(), false) }) }) describe('derive', function () { function verifyVector (hd, v, depth) { assert.strictEqual(hd.keyPair.toWIF(), v.wif) assert.strictEqual(hd.keyPair.getPublicKeyBuffer().toString('hex'), v.pubKey) assert.strictEqual(hd.chainCode.toString('hex'), v.chainCode) assert.strictEqual(hd.depth, depth || 0) if (v.hardened) { assert.strictEqual(hd.index, v.m + HDNode.HIGHEST_BIT) } else { assert.strictEqual(hd.index, v.m) } } fixtures.valid.forEach(function (f) { var network = NETWORKS[f.network] var hd = HDNode.fromSeedHex(f.master.seed, network) var master = hd // FIXME: test data is only testing Private -> private for now f.children.forEach(function (c, i) { it(c.description + ' from ' + f.master.fingerprint, function () { if (c.hardened) { hd = hd.deriveHardened(c.m) } else { hd = hd.derive(c.m) } verifyVector(hd, c, i + 1) }) }) // testing deriving path from master f.children.forEach(function (c) { it(c.description + ' from ' + f.master.fingerprint + ' by path', function () { var path = c.description var child = master.derivePath(path) var pathSplit = path.split('/').slice(1) var pathNotM = pathSplit.join('/') var childNotM = master.derivePath(pathNotM) verifyVector(child, c, pathSplit.length) verifyVector(childNotM, c, pathSplit.length) }) }) // testing deriving path from children f.children.forEach(function (c, i) { var cn = master.derivePath(c.description) f.children.slice(i + 1).forEach(function (cc) { it(cc.description + ' from ' + c.fingerprint + ' by path', function () { var path = cc.description var pathSplit = path.split('/').slice(i + 2) var pathEnd = pathSplit.join('/') var pathEndM = 'm/' + pathEnd var child = cn.derivePath(pathEnd) verifyVector(child, cc, pathSplit.length + i + 1) assert.throws(function () { cn.derivePath(pathEndM) }, /Not a master node/) }) }) }) }) it('works for Private -> public (neutered)', function () { var f = fixtures.valid[1] var c = f.children[0] var master = HDNode.fromBase58(f.master.base58Priv, NETWORKS_LIST) var child = master.derive(c.m).neutered() assert.strictEqual(child.toBase58(), c.base58) }) it('works for Private -> public (neutered, hardened)', function () { var f = fixtures.valid[0] var c = f.children[0] var master = HDNode.fromBase58(f.master.base58Priv, NETWORKS_LIST) var child = master.deriveHardened(c.m).neutered() assert.strictEqual(child.toBase58(), c.base58) }) it('works for Public -> public', function () { var f = fixtures.valid[1] var c = f.children[0] var master = HDNode.fromBase58(f.master.base58, NETWORKS_LIST) var child = master.derive(c.m) assert.strictEqual(child.toBase58(), c.base58) }) it('throws on Public -> public (hardened)', function () { var f = fixtures.valid[0] var c = f.children[0] var master = HDNode.fromBase58(f.master.base58, NETWORKS_LIST) assert.throws(function () { master.deriveHardened(c.m) }, /Could not derive hardened child key/) }) it('throws on wrong types', function () { var f = fixtures.valid[0] var master = HDNode.fromBase58(f.master.base58, NETWORKS_LIST) fixtures.invalid.derive.forEach(function (fx) { assert.throws(function () { master.derive(fx) }, /Expected UInt32/) }) fixtures.invalid.deriveHardened.forEach(function (fx) { assert.throws(function () { master.deriveHardened(fx) }, /Expected UInt31/) }) fixtures.invalid.derivePath.forEach(function (fx) { assert.throws(function () { master.derivePath(fx) }, /Expected BIP32 derivation path/) }) }) it('works when private key has leading zeros', function () { var key = 'xprv9s21ZrQH143K3ckY9DgU79uMTJkQRLdbCCVDh81SnxTgPzLLGax6uHeBULTtaEtcAvKjXfT7ZWtHzKjTpujMkUd9dDb8msDeAfnJxrgAYhr' var hdkey = HDNode.fromBase58(key) assert.strictEqual(hdkey.keyPair.d.toBuffer(32).toString('hex'), '00000055378cf5fafb56c711c674143f9b0ee82ab0ba2924f19b64f5ae7cdbfd') var child = hdkey.derivePath('m/44\'/0\'/0\'/0/0\'') assert.strictEqual(child.keyPair.d.toBuffer().toString('hex'), '3348069561d2a0fb925e74bf198762acc47dce7db27372257d2d959a9e6f8aeb') }) }) })