bitcoinjs-lib/test/eckey.js
Daniel Cousens 6c0eebe94b tests: use filepaths directly
After a long IRC discussion, it was decided that the use of direct
filepaths instead of the module is a more pure form of testing ,
although it may provide less overall coverage than the mixed integration
style imports used previously.

This will need to be remedied by further integration testing in
/test/integration.
2014-05-13 18:05:56 +10:00

83 lines
3 KiB
JavaScript

var assert = require('assert')
var crypto = require('../src/crypto')
var ECKey = require('../src/eckey')
var ECPubKey = require('../src/ecpubkey')
describe('ECKey', function() {
describe('constructor', function() {
it('parses hex', function() {
var priv = '18e14a7b6a307f426a94f8114701e7c8e774e7f9a47e2c2035db29a206321725'
var pub = '0450863ad64a87ae8a2fe83c1af1a8403cb53f53e486d8511dad8a04887e5b235' +
'22cd470243453a299fa9e77237716103abc11a1df38855ed6f2ee187e9c582ba6'
var key = ECKey.fromHex(priv, false)
assert.equal(key.pub.toHex(), pub)
assert.equal(key.pub.compressed, false)
})
it('parses WIF', function() {
var priv = '5HwoXVkHoRM8sL2KmNRS217n1g8mPPBomrY7yehCuXC1115WWsh'
var pub = '044f355bdcb7cc0af728ef3cceb9615d90684bb5b2ca5f859ab0' +
'f0b704075871aa385b6b1b8ead809ca67454d9683fcf2ba03456d6fe2c4abe2b07f0fbdbb2f1c1'
var addr = '1MsHWS1BnwMc3tLE8G35UXsS58fKipzB7a'
var key = ECKey.fromWIF(priv)
assert.equal(key.pub.compressed, false)
assert.equal(key.pub.toHex(), pub)
assert.equal(key.pub.getAddress().toString(), addr)
})
it('parses compressed WIF', function() {
var priv = 'KwntMbt59tTsj8xqpqYqRRWufyjGunvhSyeMo3NTYpFYzZbXJ5Hp'
var pub = '034f355bdcb7cc0af728ef3cceb9615d90684bb5b2ca5f859ab0f0b704075871aa'
var addr = '1Q1pE5vPGEEMqRcVRMbtBK842Y6Pzo6nK9'
var key = ECKey.fromWIF(priv)
assert.equal(key.pub.compressed, true)
assert.equal(key.pub.toHex(), pub)
assert.equal(key.pub.getAddress().toString(), addr)
})
it('alternative constructor syntax', function() {
var priv = 'ca48ec9783cf3ad0dfeff1fc254395a2e403cbbc666477b61b45e31d3b8ab458'
var pub = '044b12d9d7c77db68388b6ff7c89046174c871546436806bcd80d07c28ea81199' +
'283fbec990dad6fb98f93f712d50cb874dd717de6a184158d63886dda3090f566'
var key = ECKey.fromHex(priv, false)
assert.equal(key.pub.toHex(), pub)
assert.equal(key.pub.compressed, false)
assert.equal(key.toHex(), priv)
})
})
describe('signing', function() {
var hpriv = 'ca48ec9783cf3ad0dfeff1fc254395a2e403cbbc666477b61b45e31d3b8ab458'
var hcpub = '024b12d9d7c77db68388b6ff7c89046174c871546436806bcd80d07c28ea811992'
var hash = crypto.sha256('Vires in numeris')
it('should verify against the private key', function() {
var priv = ECKey.fromHex(hpriv)
var signature = priv.sign(hash)
assert(priv.pub.verify(hash, signature))
})
it('should verify against the public key', function() {
var priv = ECKey.fromHex(hpriv)
var pub = ECPubKey.fromHex(hcpub, true)
var signature = priv.sign(hash)
assert(pub.verify(hash, signature))
})
it('should not verify against the wrong private key', function() {
var priv1 = ECKey.fromHex(hpriv)
var priv2 = ECKey.fromHex('1111111111111111111111111111111111111111111111111111111111111111')
var signature = priv1.sign(hash)
assert(!priv2.pub.verify(hash, signature))
})
})
})