# flake8: noqa: F403,F405 from common import * # isort:skip from apps.common.cbor import ( IndefiniteLengthArray, OrderedMap, Tagged, create_array_header, create_embedded_cbor_bytes_header, create_map_header, create_tagged_set_header, decode, encode, encode_streamed, ) class TestCardanoCbor(unittest.TestCase): def test_create_array_header(self): test_vectors = [ (0, "80"), (23, "97"), ((2**8) - 1, "98ff"), ((2**16) - 1, "99ffff"), ((2**32) - 1, "9affffffff"), ((2**64) - 1, "9bffffffffffffffff"), ] for val, header_hex in test_vectors: header = unhexlify(header_hex) self.assertEqual(create_array_header(val), header) with self.assertRaises(NotImplementedError): create_array_header(2**64) def test_create_tagged_set_header(self): test_vectors = [ (0, 'd9010280'), (23, 'd9010297'), ((2 ** 8) - 1, 'd9010298ff'), ((2 ** 16) - 1, 'd9010299ffff'), ((2 ** 32) - 1, 'd901029affffffff'), ((2 ** 64) - 1, 'd901029bffffffffffffffff'), ] for val, header_hex in test_vectors: header = unhexlify(header_hex) self.assertEqual(create_tagged_set_header(val), header) with self.assertRaises(NotImplementedError): create_tagged_set_header(2 ** 64) def test_create_map_header(self): test_vectors = [ (0, "a0"), (23, "b7"), ((2**8) - 1, "b8ff"), ((2**16) - 1, "b9ffff"), ((2**32) - 1, "baffffffff"), ((2**64) - 1, "bbffffffffffffffff"), ] for val, header_hex in test_vectors: header = unhexlify(header_hex) self.assertEqual(create_map_header(val), header) with self.assertRaises(NotImplementedError): create_map_header(2**64) def test_create_embedded_cbor_bytes_header(self): test_vectors = [ (0, "d81840"), (23, "d81857"), ((2**8) - 1, "d81858ff"), ((2**16) - 1, "d81859ffff"), ((2**32) - 1, "d8185affffffff"), ((2**64) - 1, "d8185bffffffffffffffff"), ] for val, header_hex in test_vectors: header = unhexlify(header_hex) self.assertEqual(create_embedded_cbor_bytes_header(val), header) with self.assertRaises(NotImplementedError): create_embedded_cbor_bytes_header(2**64) def test_cbor_encoding(self): test_vectors = [ # unsigned integers (0, "00"), (1, "01"), (10, "0a"), (23, "17"), (24, "1818"), (25, "1819"), (100, "1864"), (1000, "1903e8"), (1000000, "1a000f4240"), (1000000000000, "1b000000e8d4a51000"), # negative integers (-1, "20"), (-10, "29"), (-24, "37"), (-25, "3818"), (-26, "3819"), (-100, "3863"), (-1000, "3903E7"), (-1000000, "3A000F423F"), (-1000000000000, "3B000000E8D4A50FFF"), # binary strings (b"", "40"), (unhexlify("01020304"), "4401020304"), # text strings ("", "60"), ("Fun", "6346756e"), ( "P\u0159\xed\u0161ern\u011b \u017elu\u0165ou\u010dk\xfd k\u016f\u0148 \xfap\u011bl \u010f\xe1belsk\xe9 \xf3dy z\xe1ke\u0159n\xfd u\u010de\u0148 b\u011b\u017e\xed pod\xe9l z\xf3ny \xfal\u016f", "786550c599c3adc5a165726ec49b20c5be6c75c5a56f75c48d6bc3bd206bc5afc58820c3ba70c49b6c20c48fc3a162656c736bc3a920c3b36479207ac3a16b65c5996ec3bd2075c48d65c5882062c49bc5bec3ad20706f64c3a96c207ac3b36e7920c3ba6cc5af", ), # tags (Tagged(1, 1363896240), "c11a514b67b0"), (Tagged(23, unhexlify("01020304")), "d74401020304"), # arrays ([], "80"), ([1, 2, 3], "83010203"), ([1, [2, 3], [4, 5]], "8301820203820405"), ( list(range(1, 26)), "98190102030405060708090a0b0c0d0e0f101112131415161718181819", ), # maps ({}, "a0"), ({1: 2, 3: 4}, "a201020304"), ({3: 4, 1: 2}, "a201020304"), # indefinite (IndefiniteLengthArray([]), "9fff"), (IndefiniteLengthArray([1, [2, 3], [4, 5]]), "9f01820203820405ff"), ( IndefiniteLengthArray([1, [2, 3], IndefiniteLengthArray([4, 5])]), "9f018202039f0405ffff", ), # boolean (True, "f5"), (False, "f4"), # null (None, "f6"), ] for val, encoded_hex in test_vectors: encoded = unhexlify(encoded_hex) self.assertEqual(encode(val), encoded) self.assertEqual(decode(encoded), val) def test_cbor_tuples(self): """ Tuples should be encoded as arrays and decoded back as lists. """ test_vectors = [ ([], "80"), ([1, 2, 3], "83010203"), ([1, [2, 3], [4, 5]], "8301820203820405"), ( list(range(1, 26)), "98190102030405060708090a0b0c0d0e0f101112131415161718181819", ), ] for val, encoded_hex in test_vectors: value_tuple = tuple(val) encoded = unhexlify(encoded_hex) self.assertEqual(encode(value_tuple), encoded) self.assertEqual(decode(encoded), val) def test_cbor_ordered_map(self): """ OrderedMaps should be encoded as maps without any ordering and decoded back as dicts. """ test_vectors = [ ({}, "a0"), ([[1, 2], [3, 4]], "a201020304"), ([[3, 4], [1, 2]], "a203040102"), ] for val, encoded_hex in test_vectors: ordered_map = OrderedMap() for key, value in val: ordered_map[key] = value encoded = unhexlify(encoded_hex) self.assertEqual(encode(ordered_map), encoded) self.assertEqual(decode(encoded), {k: v for k, v in val}) def test_encode_streamed(self): large_dict = {i: i for i in range(100)} encoded = encode(large_dict) encoded_streamed = [bytes(item) for item in encode_streamed(large_dict)] self.assertEqual(b"".join(encoded_streamed), encoded) if __name__ == "__main__": unittest.main()