#!/usr/bin/env python3 # (C) 2023 by Harald Welte # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import unittest import logging from pySim.utils import * from pySim.filesystem import * import pySim.iso7816_4 import pySim.ts_102_221 import pySim.ts_102_222 import pySim.ts_31_102 import pySim.ts_31_103 import pySim.ts_51_011 import pySim.sysmocom_sja2 import pySim.gsm_r import pySim.cdma_ruim def get_qualified_name(c): """return the qualified (by module) name of a class.""" return "%s.%s" % (c.__module__, c.__name__) class LinFixed_Test(unittest.TestCase): classes = all_subclasses(LinFixedEF) maxDiff = None @staticmethod def _parse_t(t): """Parse a test description which can either be a 2-tuple of (enc, dec) or a 3-tuple of (enc, rec_nr, dec).""" if len(t) == 2: encoded = t[0] rec_num = 1 decoded = t[1] else: encoded = t[0] rec_num = t[1] decoded = t[2] return encoded, rec_num, decoded def test_decode_record(self): """Test the decoder for a linear-fixed EF. Requires the given LinFixedEF subclass to have an '_test_decode' attribute, containing a list of tuples. Each tuple can either be a * 2-tuple (hexstring, decoded_dict) or a * 3-tuple (hexstring, record_nr, decoded_dict) """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_decode'): for t in c._test_decode: encoded, rec_num, decoded = self._parse_t(t) with self.subTest(name, test_decode=t): inst = c() logging.debug("Testing decode of %s", name) re_dec = inst.decode_record_hex(encoded, rec_num) self.assertEqual(decoded, re_dec) if hasattr(c, '_test_no_pad') and c._test_no_pad: continue with self.subTest(name, test_decode_padded=t): encoded = encoded + 'ff' inst = c() logging.debug("Testing padded decode of %s", name) re_dec = inst.decode_record_hex(encoded, rec_num) self.assertEqual(decoded, re_dec) def test_encode_record(self): """Test the encoder for a linear-fixed EF. Requires the given LinFixedEF subclass to have an '_test_encode' attribute, containing a list of tuples. Each tuple can either be a * 2-tuple (hexstring, decoded_dict) or a * 3-tuple (hexstring, record_nr, decoded_dict) """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_encode'): for t in c._test_encode: with self.subTest(name, test_encode=t): inst = c() encoded, rec_num, decoded = self._parse_t(t) logging.debug("Testing encode of %s", name) re_enc = inst.encode_record_hex(decoded, rec_num) self.assertEqual(encoded.upper(), re_enc.upper()) def test_de_encode_record(self): """Test the decoder and encoder for a linear-fixed EF. Performs first a decoder test, and then re-encodes the decoded data, comparing the re-encoded data with the initial input data. Requires the given LinFixedEF subclass to have a '_test_de_encode' attribute, containing a list of tuples. Each tuple can either be a * 2-tuple (hexstring, decoded_dict) or a * 3-tuple (hexstring, record_nr, decoded_dict) """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_de_encode'): for t in c._test_de_encode: encoded, rec_num, decoded = self._parse_t(t) with self.subTest(name, test_de_encode=t): inst = c() logging.debug("Testing decode of %s", name) re_dec = inst.decode_record_hex(encoded, rec_num) self.assertEqual(decoded, re_dec) # re-encode the decoded data logging.debug("Testing re-encode of %s", name) re_enc = inst.encode_record_hex(re_dec, rec_num) self.assertEqual(encoded.upper(), re_enc.upper()) if hasattr(c, '_test_no_pad') and c._test_no_pad: continue with self.subTest(name, test_decode_padded=t): encoded = encoded + 'ff' inst = c() logging.debug("Testing padded decode of %s", name) re_dec = inst.decode_record_hex(encoded, rec_num) self.assertEqual(decoded, re_dec) class TransRecEF_Test(unittest.TestCase): classes = all_subclasses(TransRecEF) maxDiff = None def test_decode_record(self): """Test the decoder for a transparent record-oriented EF. Requires the given TransRecEF subclass to have an '_test_decode' attribute, containing a list of tuples. Each tuple has to be a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_decode'): for t in c._test_decode: with self.subTest(name, test_decode=t): inst = c() encoded = t[0] decoded = t[1] logging.debug("Testing decode of %s", name) re_dec = inst.decode_record_hex(encoded) self.assertEqual(decoded, re_dec) # there's no point in testing padded input, as TransRecEF have a fixed record # size and we cannot ever receive more input data than that size. def test_encode_record(self): """Test the encoder for a transparent record-oriented EF. Requires the given TransRecEF subclass to have an '_test_encode' attribute, containing a list of tuples. Each tuple has to be a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_decode'): for t in c._test_decode: with self.subTest(name, test_decode=t): inst = c() encoded = t[0] decoded = t[1] logging.debug("Testing decode of %s", name) re_dec = inst.decode_record_hex(encoded) self.assertEqual(decoded, re_dec) def test_de_encode_record(self): """Test the decoder and encoder for a transparent record-oriented EF. Performs first a decoder test, and then re-encodes the decoded data, comparing the re-encoded data with the initial input data. Requires the given TransRecEF subclass to have a '_test_de_encode' attribute, containing a list of tuples. Each tuple has to be a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_de_encode'): for t in c._test_de_encode: with self.subTest(name, test_de_encode=t): inst = c() encoded = t[0] decoded = t[1] logging.debug("Testing decode of %s", name) re_dec = inst.decode_record_hex(encoded) self.assertEqual(decoded, re_dec) # re-encode the decoded data logging.debug("Testing re-encode of %s", name) re_enc = inst.encode_record_hex(re_dec) self.assertEqual(encoded.upper(), re_enc.upper()) # there's no point in testing padded input, as TransRecEF have a fixed record # size and we cannot ever receive more input data than that size. class TransparentEF_Test(unittest.TestCase): maxDiff = None @classmethod def get_classes(cls): """get list of TransparentEF sub-classes which are not a TransRecEF subclass.""" classes = all_subclasses(TransparentEF) trans_rec_classes = all_subclasses(TransRecEF) return filter(lambda c: c not in trans_rec_classes, classes) @classmethod def setUpClass(cls): """set-up method called once for this class by unittest framework""" cls.classes = cls.get_classes() def test_decode_file(self): """Test the decoder for a transparent EF. Requires the given TransparentEF subclass to have a '_test_decode' attribute, containing a list of tuples. Each tuple is a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_decode'): for t in c._test_decode: encoded = t[0] decoded = t[1] with self.subTest(name, test_decode=t): inst = c() logging.debug("Testing decode of %s", name) re_dec = inst.decode_hex(encoded) self.assertEqual(decoded, re_dec) if hasattr(c, '_test_no_pad') and c._test_no_pad: continue with self.subTest(name, test_decode_padded=t): encoded = encoded + 'ff' inst = c() logging.debug("Testing padded decode of %s", name) re_dec = inst.decode_hex(encoded) self.assertEqual(decoded, re_dec) def test_encode_file(self): """Test the encoder for a transparent EF. Requires the given TransparentEF subclass to have a '_test_encode' attribute, containing a list of tuples. Each tuple is a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_encode'): for t in c._test_encode: with self.subTest(name, test_encode=t): inst = c() encoded = t[0] decoded = t[1] logging.debug("Testing encode of %s", name) re_dec = inst.decode_hex(encoded) self.assertEqual(decoded, re_dec) def test_de_encode_file(self): """Test the decoder and encoder for a transparent EF. Performs first a decoder test, and then re-encodes the decoded data, comparing the re-encoded data with the initial input data. Requires the given TransparentEF subclass to have a '_test_de_encode' attribute, containing a list of tuples. Each tuple is a 2-tuple (hexstring, decoded_dict). """ for c in self.classes: name = get_qualified_name(c) if hasattr(c, '_test_de_encode'): for t in c._test_de_encode: encoded = t[0] decoded = t[1] with self.subTest(name, test_de_encode=t): inst = c() logging.debug("Testing decode of %s", name) re_dec = inst.decode_hex(encoded) self.assertEqual(decoded, re_dec) logging.debug("Testing re-encode of %s", name) re_dec = inst.decode_hex(encoded) re_enc = inst.encode_hex(re_dec) self.assertEqual(encoded.upper(), re_enc.upper()) if hasattr(c, '_test_no_pad') and c._test_no_pad: continue with self.subTest(name, test_decode_padded=t): encoded = encoded + 'ff' inst = c() logging.debug("Testing padded decode of %s", name) re_dec = inst.decode_hex(encoded) self.assertEqual(decoded, re_dec) if __name__ == '__main__': logger = logging.getLogger() logger.setLevel(logging.DEBUG) unittest.main()