/* tslint:disable no-invalid-this */ import * as assert from 'assert' import * as ethUtil from 'ethereumjs-util' import { Wallet as ethersWallet } from 'ethers' const zip = require('lodash.zip') import Wallet from '../src' import Thirdparty from '../src/thirdparty' const n = 262144 const r = 8 const p = 1 const fixturePrivateKey = 'efca4cdd31923b50f4214af5d2ae10e7ac45a5019e9431cc195482d707485378' const fixturePrivateKeyStr = '0x' + fixturePrivateKey const fixturePrivateKeyBuffer = Buffer.from(fixturePrivateKey, 'hex') const fixturePublicKey = '5d4392f450262b276652c1fc037606abac500f3160830ce9df53aa70d95ce7cfb8b06010b2f3691c78c65c21eb4cf3dfdbfc0745d89b664ee10435bb3a0f906c' const fixturePublicKeyStr = '0x' + fixturePublicKey const fixturePublicKeyBuffer = Buffer.from(fixturePublicKey, 'hex') const fixtureWallet = Wallet.fromPrivateKey(fixturePrivateKeyBuffer) const fixtureEthersWallet = new ethersWallet(fixtureWallet.getPrivateKeyString()) describe('.getPrivateKey()', function() { it('should work', function() { assert.strictEqual(fixtureWallet.getPrivateKey().toString('hex'), fixturePrivateKey) }) it('should fail', function() { assert.throws(function() { Wallet.fromPrivateKey(Buffer.from('001122', 'hex')) }, /^Error: Private key does not satisfy the curve requirements \(ie. it is invalid\)$/) }) }) describe('.getPrivateKeyString()', function() { it('should work', function() { assert.strictEqual(fixtureWallet.getPrivateKeyString(), fixturePrivateKeyStr) }) }) describe('.getPublicKey()', function() { it('should work', function() { assert.strictEqual(fixtureWallet.getPublicKey().toString('hex'), fixturePublicKey) }) }) describe('.getPublicKeyString()', function() { it('should work', function() { assert.strictEqual(fixtureWallet.getPublicKeyString(), fixturePublicKeyStr) }) }) describe('.getAddress()', function() { it('should work', function() { assert.strictEqual( fixtureWallet.getAddress().toString('hex'), 'b14ab53e38da1c172f877dbc6d65e4a1b0474c3c', ) }) }) describe('.getAddressString()', function() { it('should work', function() { assert.strictEqual( fixtureWallet.getAddressString(), '0xb14ab53e38da1c172f877dbc6d65e4a1b0474c3c', ) }) }) describe('.getChecksumAddressString()', function() { it('should work', function() { assert.strictEqual( fixtureWallet.getChecksumAddressString(), '0xB14Ab53E38DA1C172f877DBC6d65e4a1B0474C3c', ) }) }) describe('public key only wallet', function() { const pubKey = Buffer.from(fixturePublicKey, 'hex') it('.fromPublicKey() should work', function() { assert.strictEqual( Wallet.fromPublicKey(pubKey) .getPublicKey() .toString('hex'), fixturePublicKey, ) }) it('.fromPublicKey() should not accept compressed keys in strict mode', function() { assert.throws(function() { Wallet.fromPublicKey( Buffer.from('030639797f6cc72aea0f3d309730844a9e67d9f1866e55845c5f7e0ab48402973d', 'hex'), ) }, /^Error: Invalid public key$/) }) it('.fromPublicKey() should accept compressed keys in non-strict mode', function() { const tmp = Buffer.from( '030639797f6cc72aea0f3d309730844a9e67d9f1866e55845c5f7e0ab48402973d', 'hex', ) assert.strictEqual( Wallet.fromPublicKey(tmp, true) .getPublicKey() .toString('hex'), '0639797f6cc72aea0f3d309730844a9e67d9f1866e55845c5f7e0ab48402973defa5cb69df462bcc6d73c31e1c663c225650e80ef14a507b203f2a12aea55bc1', ) }) it('.getAddress() should work', function() { assert.strictEqual( Wallet.fromPublicKey(pubKey) .getAddress() .toString('hex'), 'b14ab53e38da1c172f877dbc6d65e4a1b0474c3c', ) }) it('.getPrivateKey() should fail', function() { assert.throws(function() { Wallet.fromPublicKey(pubKey).getPrivateKey() }, /^Error: This is a public key only wallet$/) }) // it('.toV3() should fail', function () { // assert.throws(function () { // Wallet.fromPublicKey(pubKey).toV3() // }, /^Error: This is a public key only wallet$/) // }) }) describe('.fromExtendedPrivateKey()', function() { it('should work', function() { const xprv = 'xprv9s21ZrQH143K4KqQx9Zrf1eN8EaPQVFxM2Ast8mdHn7GKiDWzNEyNdduJhWXToy8MpkGcKjxeFWd8oBSvsz4PCYamxR7TX49pSpp3bmHVAY' assert.strictEqual( Wallet.fromExtendedPrivateKey(xprv).getAddressString(), '0xb800bf5435f67c7ee7d83c3a863269969a57c57c', ) }) }) describe('.fromExtendedPublicKey()', function() { it('should work', function() { const xpub = 'xpub661MyMwAqRbcGout4B6s29b6gGQsowyoiF6UgXBEr7eFCWYfXuZDvRxP9zEh1Kwq3TLqDQMbkbaRpSnoC28oWvjLeshoQz1StZ9YHM1EpcJ' assert.strictEqual( Wallet.fromExtendedPublicKey(xpub).getAddressString(), '0xb800bf5435f67c7ee7d83c3a863269969a57c57c', ) }) }) describe('.generate()', function() { it('should generate an account', function() { assert.strictEqual(Wallet.generate().getPrivateKey().length, 32) }) it('should generate an account compatible with ICAP Direct', function() { const max = new ethUtil.BN('088f924eeceeda7fe92e1f5b0fffffffffffffff', 16) const wallet = Wallet.generate(true) assert.strictEqual(wallet.getPrivateKey().length, 32) assert.strictEqual(new ethUtil.BN(wallet.getAddress()).lte(max), true) }) }) describe('.generateVanityAddress()', function() { it('should generate an account with 000 prefix (object)', function() { this.timeout(0) // never const wallet = Wallet.generateVanityAddress(/^000/) assert.strictEqual(wallet.getPrivateKey().length, 32) assert.strictEqual(wallet.getAddress()[0], 0) assert.strictEqual(wallet.getAddress()[1] >>> 4, 0) }) it('should generate an account with 000 prefix (string)', function() { this.timeout(0) // never const wallet = Wallet.generateVanityAddress('^000') assert.strictEqual(wallet.getPrivateKey().length, 32) assert.strictEqual(wallet.getAddress()[0], 0) assert.strictEqual(wallet.getAddress()[1] >>> 4, 0) }) }) describe('.getV3Filename()', function() { it('should work', function() { assert.strictEqual( fixtureWallet.getV3Filename(1457917509265), 'UTC--2016-03-14T01-05-09.265Z--b14ab53e38da1c172f877dbc6d65e4a1b0474c3c', ) }) }) describe('.toV3()', function() { const pw = 'testtest' const salt = 'dc9e4a98886738bd8aae134a1f89aaa5a502c3fbd10e336136d4d5fe47448ad6' const iv = 'cecacd85e9cb89788b5aab2f93361233' const uuid = '7e59dc028d42d09db29aa8a0f862cc81' const strKdfOptions = { iv, salt, uuid } const buffKdfOptions = { salt: Buffer.from(salt, 'hex'), iv: Buffer.from(iv, 'hex'), uuid: Buffer.from(uuid, 'hex'), } // generate all possible combinations of salt, iv, uuid properties, e.g. // {salt: [string], iv: [buffer], uuid: [string]} // the number of objects is naturally a radix for selecting one of the // input values for a given property; example, three objects and two keys: // [{a: 0, b: 0}, // {a: 1, b: 1}, // {a: 2, b: 2}] const makePermutations = (...objs: Array): Array => { const permus = [] const keys = Array.from( objs.reduce((acc: Set, curr: object) => { Object.keys(curr).forEach(key => { acc.add(key) }) return acc }, new Set()), ) const radix = objs.length const numPermus = radix ** keys.length for (let permuIdx = 0; permuIdx < numPermus; permuIdx++) { const selectors = permuIdx .toString(radix) .padStart(keys.length, '0') .split('') .map(v => parseInt(v, 10)) const obj: any = {} zip(selectors, keys).forEach(([sel, k]: [number, string]) => { if ((objs as any)[sel].hasOwnProperty(k)) { obj[k] = (objs as any)[sel][k] } }) permus.push(obj) } return permus } const makeEthersOptions = (opts: object) => { const obj: any = {} Object.entries(opts).forEach(([key, val]: [string, string | Buffer]) => { obj[key] = typeof val === 'string' ? '0x' + val : val }) return obj } const permutations = makePermutations(strKdfOptions, buffKdfOptions) it('should work with PBKDF2', async function() { this.timeout(0) // never const w = '{"version":3,"id":"7e59dc02-8d42-409d-b29a-a8a0f862cc81","address":"b14ab53e38da1c172f877dbc6d65e4a1b0474c3c","crypto":{"ciphertext":"01ee7f1a3c8d187ea244c92eea9e332ab0bb2b4c902d89bdd71f80dc384da1be","cipherparams":{"iv":"cecacd85e9cb89788b5aab2f93361233"},"cipher":"aes-128-ctr","kdf":"pbkdf2","kdfparams":{"dklen":32,"salt":"dc9e4a98886738bd8aae134a1f89aaa5a502c3fbd10e336136d4d5fe47448ad6","c":262144,"prf":"hmac-sha256"},"mac":"0c02cd0badfebd5e783e0cf41448f84086a96365fc3456716c33641a86ebc7cc"}}' await Promise.all( (permutations as Array<{ salt: string | Buffer iv: string | Buffer uuid: string | Buffer }>).map(async function({ salt, iv, uuid }) { const encFixtureWallet = fixtureWallet.toV3String(pw, { kdf: 'pbkdf2', c: n, uuid: uuid, salt: salt, iv: iv, }) assert.deepStrictEqual(JSON.parse(w), JSON.parse(encFixtureWallet)) // ethers doesn't support encrypting with PBKDF2 }), ) }) it('should work with Scrypt', async function() { this.timeout(0) // never const wStatic = '{"version":3,"id":"7e59dc02-8d42-409d-b29a-a8a0f862cc81","address":"b14ab53e38da1c172f877dbc6d65e4a1b0474c3c","crypto":{"ciphertext":"c52682025b1e5d5c06b816791921dbf439afe7a053abb9fac19f38a57499652c","cipherparams":{"iv":"cecacd85e9cb89788b5aab2f93361233"},"cipher":"aes-128-ctr","kdf":"scrypt","kdfparams":{"dklen":32,"salt":"dc9e4a98886738bd8aae134a1f89aaa5a502c3fbd10e336136d4d5fe47448ad6","n":262144,"r":8,"p":1},"mac":"27b98c8676dc6619d077453b38db645a4c7c17a3e686ee5adaf53c11ac1b890e"}}' const wRandom = Wallet.generate() const wEthers = new ethersWallet(wRandom.getPrivateKeyString()) await Promise.all( (permutations as Array<{ salt: string | Buffer iv: string | Buffer uuid: string | Buffer }>).map(async function({ salt, iv, uuid }) { const ethersOpts = makeEthersOptions({ salt, iv, uuid }) const encFixtureWallet = fixtureWallet.toV3String(pw, { kdf: 'scrypt', uuid: uuid, salt: salt, iv: iv, n: n, r: r, p: p, }) const encFixtureEthersWallet = ( await fixtureEthersWallet.encrypt(pw, { scrypt: { N: n, r: r, p: p }, salt: ethersOpts.salt, iv: ethersOpts.iv, uuid: ethersOpts.uuid, }) ).toLowerCase() const encRandomWallet = wRandom.toV3String(pw, { kdf: 'scrypt', uuid: uuid, salt: salt, iv: iv, n: n, r: r, p: p, }) const encEthersWallet = ( await wEthers.encrypt(pw, { scrypt: { N: n, r: r, p: p }, salt: ethersOpts.salt, iv: ethersOpts.iv, uuid: ethersOpts.uuid, }) ).toLowerCase() assert.deepStrictEqual(JSON.parse(wStatic), JSON.parse(encFixtureWallet)) assert.deepStrictEqual(JSON.parse(wStatic), JSON.parse(encFixtureEthersWallet)) assert.deepStrictEqual(JSON.parse(encRandomWallet), JSON.parse(encEthersWallet)) }), ) }) it('should work without providing options', function() { this.timeout(0) // never assert.strictEqual(fixtureWallet.toV3('testtest')['version'], 3) }) it('should fail for unsupported kdf', function() { this.timeout(0) // never assert.throws(function() { fixtureWallet.toV3('testtest', { kdf: 'superkey' }) }, /^Error: Unsupported kdf$/) }) it('should fail for bad salt', function() { const pw = 'test' const errStr = /^Error: Invalid salt, string must be empty or a non-zero even number of hex characters$/ assert.throws(function() { fixtureWallet.toV3(pw, { salt: 'f' }) }, errStr) assert.throws(function() { fixtureWallet.toV3(pw, { salt: 'fff' }) }, errStr) assert.throws(function() { fixtureWallet.toV3(pw, { salt: 'xfff' }) }, errStr) assert.throws(function() { fixtureWallet.toV3(pw, { salt: 'fffx' }) }, errStr) assert.throws(function() { fixtureWallet.toV3(pw, { salt: 'fffxff' }) }, errStr) assert.throws(function() { // @ts-ignore fixtureWallet.toV3(pw, { salt: {} }) }, /^Error: Invalid salt, must be a string \(empty or a non-zero even number of hex characters\) or buffer$/) }) it('should work with empty salt', async function() { this.timeout(0) // never const pw = 'test' let salt: any = '' let w = fixtureWallet.toV3(pw, { salt: salt, kdf: 'pbkdf2' }) assert.strictEqual(salt, w.crypto.kdfparams.salt) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w, pw).getPrivateKeyString(), ) salt = '0x' w = fixtureWallet.toV3(pw, { salt: salt, kdf: 'pbkdf2' }) assert.strictEqual('', w.crypto.kdfparams.salt) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w, pw).getPrivateKeyString(), ) salt = Buffer.from('', 'hex') w = fixtureWallet.toV3(pw, { salt: salt, kdf: 'pbkdf2' }) assert.strictEqual('', w.crypto.kdfparams.salt) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w, pw).getPrivateKeyString(), ) salt = '' let iv = 'ffffffffffffffffffffffffffffffff' let uuid = 'ffffffffffffffffffffffffffffffff' let wStr = fixtureWallet.toV3String(pw, { salt: salt, iv: iv, uuid: uuid, kdf: 'scrypt', n: n, r: r, p: p, }) let wEthersStr = await new ethersWallet(fixtureWallet.getPrivateKeyString()).encrypt(pw, { scrypt: { N: n, r: r, p: p }, salt: '0x' + (salt as string), iv: '0x' + iv, uuid: '0x' + uuid, }) assert.strictEqual(salt, JSON.parse(wStr).crypto.kdfparams.salt) assert.deepStrictEqual(JSON.parse(wStr), JSON.parse(wEthersStr.toLowerCase())) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(JSON.parse(wStr), pw).getPrivateKeyString(), ) assert.strictEqual( fixtureWallet.getPrivateKeyString(), (await ethersWallet.fromEncryptedJson(wEthersStr, pw)).privateKey, ) salt = '0x' iv = '0x' + iv uuid = '0x' + uuid wStr = fixtureWallet.toV3String(pw, { salt: salt, iv: iv, uuid: uuid, kdf: 'scrypt', n: n, r: r, p: p, }) wEthersStr = await new ethersWallet(fixtureWallet.getPrivateKeyString()).encrypt(pw, { scrypt: { N: n, r: r, p: p }, salt: salt, iv: iv, uuid: uuid, }) assert.strictEqual('', JSON.parse(wStr).crypto.kdfparams.salt) assert.deepStrictEqual(JSON.parse(wStr), JSON.parse(wEthersStr.toLowerCase())) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(JSON.parse(wStr), pw).getPrivateKeyString(), ) assert.strictEqual( fixtureWallet.getPrivateKeyString(), (await ethersWallet.fromEncryptedJson(wEthersStr, pw)).privateKey, ) salt = Buffer.from('', 'hex') wStr = fixtureWallet.toV3String(pw, { salt: salt, iv: iv, uuid: uuid, kdf: 'scrypt', n: n, r: r, p: p, }) wEthersStr = await new ethersWallet(fixtureWallet.getPrivateKeyString()).encrypt(pw, { scrypt: { N: n, r: r, p: p }, salt: salt, iv: iv, uuid: uuid, }) assert.strictEqual('', JSON.parse(wStr).crypto.kdfparams.salt) assert.deepStrictEqual(JSON.parse(wStr), JSON.parse(wEthersStr.toLowerCase())) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(JSON.parse(wStr), pw).getPrivateKeyString(), ) assert.strictEqual( fixtureWallet.getPrivateKeyString(), (await ethersWallet.fromEncryptedJson(wEthersStr, pw)).privateKey, ) }) it('should fail for bad iv', function() { const pw = 'test' const errStrLength = /^Error: Invalid iv, string must be 32 hex characters$/ const errBuffLength = /^Error: Invalid iv, buffer must be 16 bytes$/ assert.throws(function() { fixtureWallet.toV3(pw, { iv: '' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: 'ff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: 'ffffffffffffffffffffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: 'xfffffffffffffffffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: 'fffffffffffffffffffffffffffffffx' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: 'fffffffffffffffxffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: Buffer.from('', 'hex') }) }, errBuffLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: Buffer.from('ff', 'hex') }) }, errBuffLength) assert.throws(function() { fixtureWallet.toV3(pw, { iv: Buffer.from('ffffffffffffffffffffffffffffffffff', 'hex') }) }, errBuffLength) assert.throws(function() { // @ts-ignore fixtureWallet.toV3(pw, { iv: {} }) }, /^Error: Invalid iv, must be a string \(32 hex characters\) or buffer \(16 bytes\)$/) }) it('should fail for bad uuid', function() { const pw = 'test' const errStrLength = /^Error: Invalid uuid, string must be 32 hex characters$/ const errBuffLength = /^Error: Invalid uuid, buffer must be 16 bytes$/ assert.throws(function() { fixtureWallet.toV3(pw, { uuid: '' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: 'ff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: 'ffffffffffffffffffffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: 'xfffffffffffffffffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: 'fffffffffffffffffffffffffffffffx' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: 'fffffffffffffffxffffffffffffffff' }) }, errStrLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: Buffer.from('', 'hex') }) }, errBuffLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: Buffer.from('ff', 'hex') }) }, errBuffLength) assert.throws(function() { fixtureWallet.toV3(pw, { uuid: Buffer.from('ffffffffffffffffffffffffffffffffff', 'hex') }) }, errBuffLength) assert.throws(function() { // @ts-ignore fixtureWallet.toV3(pw, { uuid: {} }) }, /^Error: Invalid uuid, must be a string \(32 hex characters\) or buffer \(16 bytes\)$/) }) it('should strip leading "0x" from salt, iv, uuid', function() { this.timeout(0) // never const pw = 'test' const salt = 'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa' const iv = 'bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb' const uuid = 'cccccccccccccccccccccccccccccccc' let w = fixtureWallet.toV3(pw, { salt: '0x' + salt, iv: '0X' + iv, uuid: '0x' + uuid, kdf: 'pbkdf2', }) let w2 = fixtureWallet.toV3(pw, { salt: '0x' + salt, iv: '0X' + iv, uuid: uuid, kdf: 'pbkdf2' }) assert.strictEqual(salt, w.crypto.kdfparams.salt) assert.strictEqual(iv, w.crypto.cipherparams.iv) assert.strictEqual(w.id, w2.id) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w, pw).getPrivateKeyString(), ) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w2, pw).getPrivateKeyString(), ) w = fixtureWallet.toV3(pw, { salt: '0x' + salt, iv: '0X' + iv, uuid: '0x' + uuid, kdf: 'scrypt', }) w2 = fixtureWallet.toV3(pw, { salt: '0x' + salt, iv: '0X' + iv, uuid: uuid, kdf: 'scrypt' }) assert.strictEqual(salt, w.crypto.kdfparams.salt) assert.strictEqual(iv, w.crypto.cipherparams.iv) assert.strictEqual(w.id, w2.id) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w, pw).getPrivateKeyString(), ) assert.strictEqual( fixtureWallet.getPrivateKeyString(), Wallet.fromV3(w2, pw).getPrivateKeyString(), ) }) }) /* describe('.fromV1()', function () { it('should work', function () { const sample = '{"Address":"d4584b5f6229b7be90727b0fc8c6b91bb427821f","Crypto":{"CipherText":"07533e172414bfa50e99dba4a0ce603f654ebfa1ff46277c3e0c577fdc87f6bb4e4fe16c5a94ce6ce14cfa069821ef9b","IV":"16d67ba0ce5a339ff2f07951253e6ba8","KeyHeader":{"Kdf":"scrypt","KdfParams":{"DkLen":32,"N":262144,"P":1,"R":8,"SaltLen":32},"Version":"1"},"MAC":"8ccded24da2e99a11d48cda146f9cc8213eb423e2ea0d8427f41c3be414424dd","Salt":"06870e5e6a24e183a5c807bd1c43afd86d573f7db303ff4853d135cd0fd3fe91"},"Id":"0498f19a-59db-4d54-ac95-33901b4f1870","Version":"1"}' const wallet = Wallet.fromV1(sample, 'foo') assert.strictEqual(wallet.getAddressString(), '0xd4584b5f6229b7be90727b0fc8c6b91bb427821f') }) }) */ describe('.fromV3()', function() { it('should work with PBKDF2', async function() { const w = '{"crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"6087dab2f9fdbbfaddc31a909735c1e6"},"ciphertext":"5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46","kdf":"pbkdf2","kdfparams":{"c":262144,"dklen":32,"prf":"hmac-sha256","salt":"ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"},"mac":"517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e9b2"},"id":"3198bc9c-6672-5ab3-d995-4942343ae5b6","version":3}' let wEthersCompat = JSON.parse(w) // see: https://github.com/ethers-io/ethers.js/issues/582 wEthersCompat.address = '0x008aeeda4d805471df9b2a5b0f38a0c3bcba786b' wEthersCompat = JSON.stringify(wEthersCompat) const pw = 'testpassword' const wallet = Wallet.fromV3(w, pw) const wRandom = Wallet.generate().toV3String(pw, { kdf: 'pbkdf2' }) const walletRandom = Wallet.fromV3(wRandom, pw) this.timeout(0) // never assert.strictEqual(wallet.getAddressString(), '0x008aeeda4d805471df9b2a5b0f38a0c3bcba786b') assert.strictEqual( wallet.getAddressString(), (await ethersWallet.fromEncryptedJson(wEthersCompat, pw)).address.toLowerCase(), ) assert.strictEqual( walletRandom.getAddressString(), (await ethersWallet.fromEncryptedJson(wRandom, pw)).address.toLowerCase(), ) }) it('should work with Scrypt', async function() { const sample = '{"address":"2f91eb73a6cd5620d7abb50889f24eea7a6a4feb","crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"a2bc4f71e8445d64ceebd1247079fbd8"},"ciphertext":"6b9ab7954c9066fa1e54e04e2c527c7d78a77611d5f84fede1bd61ab13c51e3e","kdf":"scrypt","kdfparams":{"dklen":32,"n":262144,"r":1,"p":8,"salt":"caf551e2b7ec12d93007e528093697a4c68e8a50e663b2a929754a8085d9ede4"},"mac":"506cace9c5c32544d39558025cb3bf23ed94ba2626e5338c82e50726917e1a15"},"id":"1b3cad9b-fa7b-4817-9022-d5e598eb5fe3","version":3}' const pw = 'testtest' const wallet = Wallet.fromV3(sample, pw) const sampleRandom = Wallet.generate().toV3String(pw) const walletRandom = Wallet.fromV3(sampleRandom, pw) this.timeout(0) // never assert.strictEqual(wallet.getAddressString(), '0x2f91eb73a6cd5620d7abb50889f24eea7a6a4feb') assert.strictEqual( wallet.getAddressString(), (await ethersWallet.fromEncryptedJson(sample, pw)).address.toLowerCase(), ) assert.strictEqual( walletRandom.getAddressString(), (await ethersWallet.fromEncryptedJson(sampleRandom, pw)).address.toLowerCase(), ) }) it("should work with 'unencrypted' wallets", function() { const w = '{"address":"a9886ac7489ecbcbd79268a79ef00d940e5fe1f2","crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"c542cf883299b5b0a29155091054028d"},"ciphertext":"0a83c77235840cffcfcc5afe5908f2d7f89d7d54c4a796dfe2f193e90413ee9d","kdf":"scrypt","kdfparams":{"dklen":32,"n":262144,"r":1,"p":8,"salt":"699f7bf5f6985068dfaaff9db3b06aea8fe3dd3140b3addb4e60620ee97a0316"},"mac":"613fed2605240a2ff08b8d93ccc48c5b3d5023b7088189515d70df41d65f44de"},"id":"0edf817a-ee0e-4e25-8314-1f9e88a60811","version":3}' const wallet = Wallet.fromV3(w, '') this.timeout(0) // never assert.strictEqual(wallet.getAddressString(), '0xa9886ac7489ecbcbd79268a79ef00d940e5fe1f2') }) it('should fail with invalid password', function() { const w = '{"crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"6087dab2f9fdbbfaddc31a909735c1e6"},"ciphertext":"5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46","kdf":"pbkdf2","kdfparams":{"c":262144,"dklen":32,"prf":"hmac-sha256","salt":"ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"},"mac":"517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e9b2"},"id":"3198bc9c-6672-5ab3-d995-4942343ae5b6","version":3}' assert.throws(function() { Wallet.fromV3(w, 'wrongtestpassword') }, /^Error: Key derivation failed - possibly wrong passphrase$/) }) it('should work with (broken) mixed-case input files', function() { const w = '{"Crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"6087dab2f9fdbbfaddc31a909735c1e6"},"ciphertext":"5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46","kdf":"pbkdf2","kdfparams":{"c":262144,"dklen":32,"prf":"hmac-sha256","salt":"ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"},"mac":"517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e9b2"},"id":"3198bc9c-6672-5ab3-d995-4942343ae5b6","version":3}' const wallet = Wallet.fromV3(w, 'testpassword', true) assert.strictEqual(wallet.getAddressString(), '0x008aeeda4d805471df9b2a5b0f38a0c3bcba786b') }) it("shouldn't work with (broken) mixed-case input files in strict mode", function() { const w = '{"Crypto":{"cipher":"aes-128-ctr","cipherparams":{"iv":"6087dab2f9fdbbfaddc31a909735c1e6"},"ciphertext":"5318b4d5bcd28de64ee5559e671353e16f075ecae9f99c7a79a38af5f869aa46","kdf":"pbkdf2","kdfparams":{"c":262144,"dklen":32,"prf":"hmac-sha256","salt":"ae3cd4e7013836a3df6bd7241b12db061dbe2c6785853cce422d148a624ce0bd"},"mac":"517ead924a9d0dc3124507e3393d175ce3ff7c1e96529c6c555ce9e51205e9b2"},"id":"3198bc9c-6672-5ab3-d995-4942343ae5b6","version":3}' assert.throws(function() { Wallet.fromV3(w, 'testpassword') }) // FIXME: check for assert message(s) }) it('should fail for wrong version', function() { const w = '{"version":2}' assert.throws(function() { Wallet.fromV3(w, 'testpassword') }, /^Error: Not a V3 wallet$/) }) it('should fail for wrong kdf', function() { const w = '{"crypto":{"kdf":"superkey"},"version":3}' assert.throws(function() { Wallet.fromV3(w, 'testpassword') }, /^Error: Unsupported key derivation scheme$/) }) it('should fail for wrong prf in pbkdf2', function() { const w = '{"crypto":{"kdf":"pbkdf2","kdfparams":{"prf":"invalid"}},"version":3}' assert.throws(function() { Wallet.fromV3(w, 'testpassword') }, /^Error: Unsupported parameters to PBKDF2$/) }) }) describe('.fromEthSale()', function() { // Generated using https://github.com/ethereum/pyethsaletool/ [4afd19ad60cee8d09b645555180bc3a7c8a25b67] it('should work with short password (8 characters)', function() { const json = '{"encseed": "81ffdfaf2736310ce87df268b53169783e8420b98f3405fb9364b96ac0feebfb62f4cf31e0d25f1ded61f083514dd98c3ce1a14a24d7618fd513b6d97044725c7d2e08a7d9c2061f2c8a05af01f06755c252f04cab20fee2a4778130440a9344", "ethaddr": "22f8c5dd4a0a9d59d580667868df2da9592ab292", "email": "hello@ethereum.org", "btcaddr": "1DHW32MFwHxU2nk2SLAQq55eqFotT9jWcq"}' const wallet = Wallet.fromEthSale(json, 'testtest') assert.strictEqual(wallet.getAddressString(), '0x22f8c5dd4a0a9d59d580667868df2da9592ab292') }) it('should work with long password (19 characters)', function() { const json = '{"encseed": "0c7e462bd67c6840ed2fa291090b2f46511b798d34492e146d6de148abbccba45d8fcfc06bea2e5b9d6c5d17b51a9a046c1054a032f24d96a56614a14dcd02e3539685d7f09b93180067160f3a9db648ccca610fc2f983fc65bf973304cbf5b6", "ethaddr": "c90b232231c83b462723f473b35cb8b1db868108", "email": "thisisalongpassword@test.com", "btcaddr": "1Cy2fN2ov5BrMkzgrzE34YadCH2yLMNkTE"}' const wallet = Wallet.fromEthSale(json, 'thisisalongpassword') assert.strictEqual(wallet.getAddressString(), '0xc90b232231c83b462723f473b35cb8b1db868108') }) // From https://github.com/ryepdx/pyethrecover/blob/master/test_wallets/ico.json it("should work with pyethrecover's wallet", function() { const json = '{"encseed": "8b4001bf61a10760d8e0876fb791e4ebeb85962f565c71697c789c23d1ade4d1285d80b2383ae5fc419ecf5319317cd94200b65df0cc50d659cbbc4365fc08e8", "ethaddr": "83b6371ba6bd9a47f82a7c4920835ef4be08f47b", "bkp": "9f566775e56486f69413c59f7ef923bc", "btcaddr": "1Nzg5v6uRCAa6Fk3CUU5qahWxEDZdZ1pBm"}' const wallet = Wallet.fromEthSale(json, 'password123') assert.strictEqual(wallet.getAddressString(), '0x83b6371ba6bd9a47f82a7c4920835ef4be08f47b') }) }) describe('.fromEtherWallet()', function() { // it('should work with unencrypted input', function () { // const etherWalletUnencrypted = '{"address":"0x9d6abd11d36cc20d4836c25967f1d9efe6b1a27c","encrypted":true,"locked":false,"hash":"b7a6621e8b125a17234d3e5c35522696a84134d98d07eab2479d020a8613c4bd","private":"a2c6222146ca2269086351fda9f8d2dfc8a50331e8a05f0f400c13653a521862","public":"2ed129b50b1a4dbbc53346bf711df6893265ad0c700fd11431b0bc3a66bd383a87b10ad835804a6cbe092e0375a0cc3524acf06b1ec7bb978bf25d2d6c35d120"}' // const wallet = Thirdparty.fromEtherWallet(etherWalletUnencrypted) // assert.strictEqual(wallet.getAddressString(), '0x9d6abd11d36cc20d4836c25967f1d9efe6b1a27c') // }) it('should work with encrypted input', function() { const etherWalletEncrypted = '{"address":"0x9d6abd11d36cc20d4836c25967f1d9efe6b1a27c","encrypted":true,"locked":true,"hash":"b7a6621e8b125a17234d3e5c35522696a84134d98d07eab2479d020a8613c4bd","private":"U2FsdGVkX1/hGPYlTZYGhzdwvtkoZfkeII4Ga4pSd/Ak373ORnwZE4nf/FFZZFcDTSH1X1+AmewadrW7dqvwr76QMYQVlihpPaFV307hWgKckkG0Mf/X4gJIQQbDPiKdcff9","public":"U2FsdGVkX1/awUDAekZQbEiXx2ct4ugXwgBllY0Hz+IwYkHiEhhxH+obu7AF7PCU2Vq5c0lpCzBUSvk2EvFyt46bw1OYIijw0iOr7fWMJEkz3bfN5mt9pYJIiPzN0gxM8u4mrmqLPUG2SkoZhWz4NOlqRUHZq7Ep6aWKz7KlEpzP9IrvDYwGubci4h+9wsspqtY1BdUJUN59EaWZSuOw1g=="}' const wallet = Thirdparty.fromEtherWallet(etherWalletEncrypted, 'testtest') assert.strictEqual(wallet.getAddressString(), '0x9d6abd11d36cc20d4836c25967f1d9efe6b1a27c') }) }) describe('.fromEtherCamp()', function() { it('should work with seed text', function() { const wallet = Thirdparty.fromEtherCamp('ethercamp123') assert.strictEqual(wallet.getAddressString(), '0x182b6ca390224c455f11b6337d74119305014ed4') }) }) describe('.fromKryptoKit()', function() { // it('should work with basic input (d-type)', function () { // const wallet = Thirdparty.fromKryptoKit('dBWfH8QZSGbg1sAYHLBhqE5R8VGAoM7') // assert.strictEqual(wallet.getAddressString(), '0x3611981ad2d6fc1d7579d6ce4c6bc37e272c369c') // }) it('should work with encrypted input (q-type)', function() { const wallet = Thirdparty.fromKryptoKit( 'qhah1VeT0RgTvff1UKrUrxtFViiQuki16dd353d59888c25', 'testtest', ) assert.strictEqual(wallet.getAddressString(), '0x3c753e27834db67329d1ec1fab67970ec1e27112') }) }) describe('.fromQuorumWallet()', function() { it('should work', function() { const wallet = Thirdparty.fromQuorumWallet('testtesttest', 'ethereumjs-wallet') assert.strictEqual(wallet.getAddressString(), '0x1b86ccc22e8f137f204a41a23033541242a48815') }) }) describe('raw new Wallet() init', function() { it('should fail when both priv and pub key provided', function() { assert.throws(function() { new Wallet(fixturePrivateKeyBuffer, fixturePublicKeyBuffer) }, /^Error: Cannot supply both a private and a public key to the constructor$/) }) })