bitcoinjs-lib/test/integration/addresses.js

141 lines
5.8 KiB
JavaScript

/* global describe, it */
var assert = require('assert')
var bigi = require('bigi')
var bitcoin = require('../../')
var dhttp = require('dhttp/200')
// deterministic RNG for testing only
function rng () { return Buffer.from('zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz') }
describe('bitcoinjs-lib (addresses)', function () {
it('can generate a random address', function () {
var keyPair = bitcoin.ECPair.makeRandom({ rng: rng })
var address = keyPair.getAddress()
assert.strictEqual(address, '1F5VhMHukdnUES9kfXqzPzMeF1GPHKiF64')
})
it('can generate an address from a SHA256 hash', function () {
var hash = bitcoin.crypto.sha256(Buffer.from('correct horse battery staple'))
var d = bigi.fromBuffer(hash)
var keyPair = new bitcoin.ECPair(d)
var address = keyPair.getAddress()
// Generating addresses from SHA256 hashes is not secure if the input to the hash function is predictable
// Do not use with predictable inputs
assert.strictEqual(address, '1C7zdTfnkzmr13HfA2vNm5SJYRK6nEKyq8')
})
it('can import an address via WIF', function () {
var keyPair = bitcoin.ECPair.fromWIF('Kxr9tQED9H44gCmp6HAdmemAzU3n84H3dGkuWTKvE23JgHMW8gct')
var address = keyPair.getAddress()
assert.strictEqual(address, '19AAjaTUbRjQCMuVczepkoPswiZRhjtg31')
})
it('can generate a 2-of-3 multisig P2SH address', function () {
var pubKeys = [
'026477115981fe981a6918a6297d9803c4dc04f328f22041bedff886bbc2962e01',
'02c96db2302d19b43d4c69368babace7854cc84eb9e061cde51cfa77ca4a22b8b9',
'03c6103b3b83e4a24a0e33a4df246ef11772f9992663db0c35759a5e2ebf68d8e9'
].map(function (hex) { return Buffer.from(hex, 'hex') })
var redeemScript = bitcoin.script.multisig.output.encode(2, pubKeys) // 2 of 3
var scriptPubKey = bitcoin.script.scriptHash.output.encode(bitcoin.crypto.hash160(redeemScript))
var address = bitcoin.address.fromOutputScript(scriptPubKey)
assert.strictEqual(address, '36NUkt6FWUi3LAWBqWRdDmdTWbt91Yvfu7')
})
it('can generate a SegWit address', function () {
var keyPair = bitcoin.ECPair.fromWIF('Kxr9tQED9H44gCmp6HAdmemAzU3n84H3dGkuWTKvE23JgHMW8gct')
var pubKey = keyPair.getPublicKeyBuffer()
var scriptPubKey = bitcoin.script.witnessPubKeyHash.output.encode(bitcoin.crypto.hash160(pubKey))
var address = bitcoin.address.fromOutputScript(scriptPubKey)
assert.strictEqual(address, 'bc1qt97wqg464zrhnx23upykca5annqvwkwujjglky')
})
it('can generate a SegWit address (via P2SH)', function () {
var keyPair = bitcoin.ECPair.fromWIF('Kxr9tQED9H44gCmp6HAdmemAzU3n84H3dGkuWTKvE23JgHMW8gct')
var pubKey = keyPair.getPublicKeyBuffer()
var redeemScript = bitcoin.script.witnessPubKeyHash.output.encode(bitcoin.crypto.hash160(pubKey))
var scriptPubKey = bitcoin.script.scriptHash.output.encode(bitcoin.crypto.hash160(redeemScript))
var address = bitcoin.address.fromOutputScript(scriptPubKey)
assert.strictEqual(address, '34AgLJhwXrvmkZS1o5TrcdeevMt22Nar53')
})
it('can generate a SegWit 3-of-4 multisig address', function () {
var pubKeys = [
'026477115981fe981a6918a6297d9803c4dc04f328f22041bedff886bbc2962e01',
'02c96db2302d19b43d4c69368babace7854cc84eb9e061cde51cfa77ca4a22b8b9',
'023e4740d0ba639e28963f3476157b7cf2fb7c6fdf4254f97099cf8670b505ea59',
'03c6103b3b83e4a24a0e33a4df246ef11772f9992663db0c35759a5e2ebf68d8e9'
].map(function (hex) { return Buffer.from(hex, 'hex') })
var witnessScript = bitcoin.script.multisig.output.encode(3, pubKeys) // 3 of 4
var scriptPubKey = bitcoin.script.witnessScriptHash.output.encode(bitcoin.crypto.sha256(witnessScript))
var address = bitcoin.address.fromOutputScript(scriptPubKey)
assert.strictEqual(address, 'bc1q75f6dv4q8ug7zhujrsp5t0hzf33lllnr3fe7e2pra3v24mzl8rrqtp3qul')
})
it('can generate a SegWit 2-of-2 multisig address (via P2SH)', function () {
var pubKeys = [
'026477115981fe981a6918a6297d9803c4dc04f328f22041bedff886bbc2962e01',
'02c96db2302d19b43d4c69368babace7854cc84eb9e061cde51cfa77ca4a22b8b9'
].map(function (hex) { return Buffer.from(hex, 'hex') })
var witnessScript = bitcoin.script.multisig.output.encode(2, pubKeys) // 2 of 2
var redeemScript = bitcoin.script.witnessScriptHash.output.encode(bitcoin.crypto.sha256(witnessScript))
var scriptPubKey = bitcoin.script.scriptHash.output.encode(bitcoin.crypto.hash160(redeemScript))
var address = bitcoin.address.fromOutputScript(scriptPubKey)
assert.strictEqual(address, '3P4mrxQfmExfhxqjLnR2Ah4WES5EB1KBrN')
})
it('can support the retrieval of transactions for an address (via 3PBP)', function (done) {
var keyPair = bitcoin.ECPair.makeRandom()
var address = keyPair.getAddress()
dhttp({
method: 'POST',
url: 'https://api.ei8ht.com.au/3/addrtxs',
body: {
addrs: [address],
height: 0
}
}, function (err, transactions) {
if (err) return done(err)
// random private keys [probably] have no transactions
assert.strictEqual(Object.keys(transactions).length, 0)
done()
})
})
// other networks
it('can generate a Testnet address', function () {
var testnet = bitcoin.networks.testnet
var keyPair = bitcoin.ECPair.makeRandom({ network: testnet, rng: rng })
var wif = keyPair.toWIF()
var address = keyPair.getAddress()
assert.strictEqual(address, 'mubSzQNtZfDj1YdNP6pNDuZy6zs6GDn61L')
assert.strictEqual(wif, 'cRgnQe9MUu1JznntrLaoQpB476M8PURvXVQB5R2eqms5tXnzNsrr')
})
it('can generate a Litecoin address', function () {
var litecoin = bitcoin.networks.litecoin
var keyPair = bitcoin.ECPair.makeRandom({ network: litecoin, rng: rng })
var wif = keyPair.toWIF()
var address = keyPair.getAddress()
assert.strictEqual(address, 'LZJSxZbjqJ2XVEquqfqHg1RQTDdfST5PTn')
assert.strictEqual(wif, 'T7A4PUSgTDHecBxW1ZiYFrDNRih2o7M8Gf9xpoCgudPF9gDiNvuS')
})
})