# GNU GPLv3, see LICENSE import random from unittest import TestCase from shamira import _shareByte from shamira import * class TestShamira(TestCase): _urandom = os.urandom @classmethod def setUpClass(cls): random.seed(17) os.urandom = lambda n: bytes(random.randint(0, 255) for i in range(n)) @classmethod def tearDownClass(cls): os.urandom = cls._urandom def test_shareByte(self): with self.assertRaises(InvalidParams): # too few shares _shareByte(b"a", 5, 4) with self.assertRaises(InvalidParams): # too many shares _shareByte(b"a", 5, 255) with self.assertRaises(ValueError): # not castable to int _shareByte("x", 2, 3) vals = _shareByte(ord(b"a"), 2, 3) points = list(zip(range(1, 256), vals)) self.assertEqual(gf256.getConstantCoef(*points), ord(b"a")) self.assertEqual(gf256.getConstantCoef(*points[:2]), ord(b"a")) self.assertNotEqual(gf256.getConstantCoef(*points[:1]), ord(b"a")) # underdetermined => random def testGenerateReconstructRaw(self): for (k, n) in [(2, 3), (254, 254)]: shares = generateRaw(b"abcd", k, n) random.shuffle(shares) self.assertEqual(reconstructRaw(*shares[:k]), b"abcd") self.assertNotEqual(reconstructRaw(*shares[:k-1]), b"abcd") def testGenerateReconstruct(self): for encoding in ["hex", "b32", "b64"]: for secret in [b"abcd", "abcde", "ěščřžý"]: for (k, n) in [(2, 3), (254, 254)]: raw = isinstance(secret, bytes) with self.subTest(enc=encoding, r=raw, sec=secret, k=k, n=n): shares = generate(secret, k, n, encoding) random.shuffle(shares) self.assertEqual(reconstruct(*shares[:k], encoding=encoding, raw=raw), secret) self.assertEqual(reconstruct(*shares[:k], raw=raw), secret) s = secret if raw else secret.encode("utf-8") self.assertNotEqual(reconstruct(*shares[:k-1], encoding=encoding, raw=True), s) shares = generate(b"\xfeaa", 2, 3) with self.assertRaises(DecodingException): reconstruct(*shares) def testEncode(self): share = (2, b"\x00\x01\x02") for (encoding, encodedStr) in [("hex", '000102'), ("b32", 'AAAQE==='), ("b64", 'AAEC')]: with self.subTest(enc=encoding): self.assertEqual(encode(share, encoding), "2."+encodedStr) def testDecode(self): with self.assertRaises(MalformedShare): decode("AAA") decode("1.") decode(".AAA") decode("1AAA") decode("1.0001020f", "hex") decode("1.000102030", "hex") decode("1.AAAQEAY") decode("1.AAAQEAy=") decode("1.AAECAw=", "b64") decode("1.AAECA?==", "b64") decode("256.00010203", "hex") self.assertEqual(decode("1.00010203", "hex"), (1, b"\x00\x01\x02\x03")) self.assertEqual(decode("2.AAAQEAY=", "b32"), (2, b"\x00\x01\x02\x03")) self.assertEqual(decode("3.AAECAw==", "b64"), (3, b"\x00\x01\x02\x03")) def testDetectEncoding(self): for shares in [ ["1.00010f"], # bad case ["1.000102030"], # bad char count ["1.AAAQEAY"], # no padding ["1.AAAQe==="], # bad case ["1.AAECA?=="], # bad char ["1.AAECAw="], # bad padding ["1.000102", "2.AAAQEAY="], # mixed encoding ["1.000102", "2.AAECAw=="], ["1.AAECAw==", "2.AAAQE==="], [".00010203"], # no index ["00010203"] # no index ]: with self.subTest(shares=shares): with self.assertRaises(DetectionException): detectEncoding(shares) self.assertEqual(detectEncoding(["10.00010203"]), "hex") self.assertEqual(detectEncoding(["2.AAAQEAY="]), "b32") self.assertEqual(detectEncoding(["3.AAECAw=="]), "b64") self.assertEqual(detectEncoding(["3.AAECAwQF", "1.00010203"]), "b64")