var assert = require('assert') var crypto = require('../src/crypto') var ecdsa = require('../src/ecdsa') var message = require('../src/message') var networks = require('../src/networks') var BigInteger = require('bigi') var ecurve = require('ecurve') var curve = ecurve.getCurveByName('secp256k1') var fixtures = require('./fixtures/ecdsa.json') describe('ecdsa', function() { describe('deterministicGenerateK', function() { fixtures.valid.forEach(function(f) { it('determines k for \"' + f.message + '\"', function() { var d = BigInteger.fromHex(f.d) var h1 = crypto.sha256(f.message) var k = ecdsa.deterministicGenerateK(curve, h1, d) assert.equal(k.toHex(), f.k) }) }) }) describe('recoverPubKey', function() { fixtures.valid.forEach(function(f) { it('recovers the pubKey for ' + f.d, function() { var d = BigInteger.fromHex(f.d) var Q = curve.params.G.multiply(d) var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } var h1 = crypto.sha256(f.message) var e = BigInteger.fromBuffer(h1) var Qprime = ecdsa.recoverPubKey(curve, e, signature, f.compact.i) assert(Qprime.equals(Q)) }) }) describe('with i ∈ {0,1,2,3}', function() { var hash = message.magicHash('1111', networks.bitcoin) var e = BigInteger.fromBuffer(hash) var signature = new Buffer('INcvXVVEFyIfHLbDX+xoxlKFn3Wzj9g0UbhObXdMq+YMKC252o5RHFr0/cKdQe1WsBLUBi4morhgZ77obDJVuV0=', 'base64') var parsed = ecdsa.parseSigCompact(signature) var points = [ '03e3a8c44a8bf712f1fbacee274fb19c0239b1a9e877eff0075ea335f2be8ff380', '0279be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', '03d49e765f0bc27525c51a1b98fb1c99dacd59abe85a203af90f758260550b56c5', '027eea09d46ac7fb6aa2e96f9c576677214ffdc238eb167734a9b39d1eb4c3d30d' ] points.forEach(function(expectedHex, i) { it('recovers an expected point for i of ' + i, function() { var Qprime = ecdsa.recoverPubKey(curve, e, parsed.signature, i) var QprimeHex = Qprime.getEncoded().toString('hex') assert.equal(QprimeHex, expectedHex) }) }) }) fixtures.invalid.recoverPubKey.forEach(function(f) { it('throws on ' + f.description, function() { var e = BigInteger.fromHex(f.e) var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } assert.throws(function() { ecdsa.recoverPubKey(curve, e, signature, f.i) }, new RegExp(f.exception)) }) }) }) describe('sign', function() { fixtures.valid.forEach(function(f) { it('produces a deterministic signature for \"' + f.message + '\"', function() { var d = BigInteger.fromHex(f.d) var hash = crypto.sha256(f.message) var signature = ecdsa.sign(curve, hash, d) assert.equal(signature.r.toString(), f.signature.r) assert.equal(signature.s.toString(), f.signature.s) }) }) it('should sign with low S value', function() { var hash = crypto.sha256('Vires in numeris') var sig = ecdsa.sign(curve, hash, BigInteger.ONE) // See BIP62 for more information var N_OVER_TWO = curve.params.n.shiftRight(1) assert(sig.s.compareTo(N_OVER_TWO) <= 0) }) }) describe('verifyRaw', function() { fixtures.valid.forEach(function(f) { it('verifies a valid signature for \"' + f.message + '\"', function() { var d = BigInteger.fromHex(f.d) var Q = curve.params.G.multiply(d) var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } var e = BigInteger.fromBuffer(crypto.sha256(f.message)) assert(ecdsa.verifyRaw(curve, e, signature, Q)) }) }) fixtures.invalid.verifyRaw.forEach(function(f) { it('fails to verify with ' + f.description, function() { var d = BigInteger.fromHex(f.d) var e = BigInteger.fromHex(f.e) var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } var Q = curve.params.G.multiply(d) assert.equal(ecdsa.verifyRaw(curve, e, signature, Q), false) }) }) }) describe('serializeSig', function() { it('encodes a DER signature', function() { fixtures.valid.forEach(function(f) { var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } var signature = new Buffer(ecdsa.serializeSig(signature)) assert.equal(signature.toString('hex'), f.DER) }) }) }) describe('parseSig', function() { it('decodes the correct signature', function() { fixtures.valid.forEach(function(f) { var buffer = new Buffer(f.DER, 'hex') var signature = ecdsa.parseSig(buffer) assert.equal(signature.r.toString(), f.signature.r) assert.equal(signature.s.toString(), f.signature.s) }) }) fixtures.invalid.DER.forEach(function(f) { it('throws on ' + f.hex, function() { var buffer = new Buffer(f.hex, 'hex') assert.throws(function() { ecdsa.parseSig(buffer) }, new RegExp(f.exception)) }) }) }) describe('serializeSigCompact', function() { fixtures.valid.forEach(function(f) { it('encodes ' + f.compact.hex + ' correctly', function() { var signature = { r: new BigInteger(f.signature.r), s: new BigInteger(f.signature.s) } var i = f.compact.i var compressed = f.compact.compressed var signature = ecdsa.serializeSigCompact(signature, i, compressed) assert.equal(signature.toString('hex'), f.compact.hex) }) }) }) describe('parseSigCompact', function() { fixtures.valid.forEach(function(f) { it('decodes ' + f.compact.hex + ' correctly', function() { var buffer = new Buffer(f.compact.hex, 'hex') var parsed = ecdsa.parseSigCompact(buffer) assert.equal(parsed.signature.r.toString(), f.signature.r) assert.equal(parsed.signature.s.toString(), f.signature.s) assert.equal(parsed.i, f.compact.i) assert.equal(parsed.compressed, f.compact.compressed) }) }) fixtures.invalid.compact.forEach(function(f) { it('throws on ' + f.hex, function() { var buffer = new Buffer(f.hex, 'hex') assert.throws(function() { ecdsa.parseSigCompact(buffer) }, new RegExp(f.exception)) }) }) }) })