#!/usr/bin/env python3 import unittest from pySim.utils import h2b, b2h from pySim.sms import SMS_SUBMIT, SMS_DELIVER, AddressField from pySim.ota import * # pre-defined SPI values for use in test cases below SPI_CC_POR_CIPHERED_CC = { 'counter':'no_counter', 'ciphering':True, 'rc_cc_ds': 'cc', 'por_in_submit':False, 'por_shall_be_ciphered':True, 'por_rc_cc_ds': 'cc', 'por': 'por_required' } SPI_CC_POR_UNCIPHERED_CC = { 'counter':'no_counter', 'ciphering':True, 'rc_cc_ds': 'cc', 'por_in_submit':False, 'por_shall_be_ciphered':False, 'por_rc_cc_ds': 'cc', 'por': 'por_required' } SPI_CC_POR_UNCIPHERED_NOCC = { 'counter':'no_counter', 'ciphering':True, 'rc_cc_ds': 'cc', 'por_in_submit':False, 'por_shall_be_ciphered':False, 'por_rc_cc_ds': 'no_rc_cc_ds', 'por': 'por_required' } ###################################################################### # old-style code-driven test (lots of code copy+paste) ###################################################################### class Test_SMS_AES128(unittest.TestCase): tar = h2b('B00011') """Test the OtaDialectSms for AES128 algorithms.""" def __init__(self, foo, **kwargs): super().__init__(foo, **kwargs) self.od = OtaKeyset(algo_crypt='aes_cbc', kic_idx=2, algo_auth='aes_cmac', kid_idx=2, kic=h2b('200102030405060708090a0b0c0d0e0f'), kid=h2b('201102030405060708090a0b0c0d0e0f')) self.dialect = OtaDialectSms() self.spi_base = SPI_CC_POR_CIPHERED_CC def _check_response(self, r, d): self.assertEqual(d['number_of_commands'], 1) self.assertEqual(d['last_status_word'], '6132') self.assertEqual(d['last_response_data'], u'') self.assertEqual(r['response_status'], 'por_ok') def test_resp_aes128_ciphered(self): spi = self.spi_base r, d = self.dialect.decode_resp(self.od, spi, '027100002412b00011ebc6b497e2cad7aedf36ace0e3a29b38853f0fe9ccde81913be5702b73abce1f') self._check_response(r, d) def test_cmd_aes128_ciphered(self): spi = self.spi_base r = self.dialect.encode_cmd(self.od, self.tar, spi, h2b('00a40004023f00')) self.assertEqual(b2h(r), '00281506192222b00011e87cceebb2d93083011ce294f93fc4d8de80da1abae8c37ca3e72ec4432e5058') class Test_SMS_3DES(unittest.TestCase): tar = h2b('b00000') """Test the OtaDialectSms for 3DES algorithms.""" def __init__(self, foo, **kwargs): super().__init__(foo, **kwargs) # KIC1 + KID1 of 8988211000000467285 KIC1 = h2b('D0FDA31990D8D64178601317191669B4') KID1 = h2b('D24EB461799C5E035C77451FD9404463') KIC3 = h2b('C21DD66ACAC13CB3BC8B331B24AFB57B') KID3 = h2b('12110C78E678C25408233076AA033615') self.od = OtaKeyset(algo_crypt='triple_des_cbc2', kic_idx=3, kic=KIC3, algo_auth='triple_des_cbc2', kid_idx=3, kid=KID3) self.dialect = OtaDialectSms() self.spi_base = { 'counter':'no_counter', 'ciphering': True, 'rc_cc_ds': 'cc', 'por_in_submit':False, 'por': 'por_required', 'por_shall_be_ciphered': True, 'por_rc_cc_ds': 'cc', } def _check_response(self, r, d): self.assertEqual(d['number_of_commands'], 1) self.assertEqual(d['last_status_word'], '612f') self.assertEqual(d['last_response_data'], u'') self.assertEqual(r['response_status'], 'por_ok') def test_resp_3des_ciphered(self): spi = self.spi_base spi['por_shall_be_ciphered'] = True spi['por_rc_cc_ds'] = 'cc' r, d = self.dialect.decode_resp(self.od, spi, '027100001c12b000119660ebdb81be189b5e4389e9e7ab2bc0954f963ad869ed7c') self._check_response(r, d) def test_resp_3des_signed(self): spi = self.spi_base spi['por_shall_be_ciphered'] = False spi['por_rc_cc_ds'] = 'cc' r, d = self.dialect.decode_resp(self.od, spi, '027100001612b000110000000000000055f47118381175fb01612f') self._check_response(r, d) def test_resp_3des_signed_err(self): """Expect an OtaCheckError exception if the computed CC != received CC""" spi = self.spi_base spi['por_shall_be_ciphered'] = False spi['por_rc_cc_ds'] = 'cc' with self.assertRaises(OtaCheckError) as context: r, d = self.dialect.decode_resp(self.od, spi, '027100001612b000110000000000000055f47118381175fb02612f') self.assertTrue('!= Computed CC' in str(context.exception)) def test_resp_3des_none(self): spi = self.spi_base spi['por_shall_be_ciphered'] = False spi['por_rc_cc_ds'] = 'no_rc_cc_ds' r, d = self.dialect.decode_resp(self.od, spi, '027100000e0ab000110000000000000001612f') self._check_response(r, d) def test_cmd_3des_ciphered(self): spi = self.spi_base spi['ciphering'] = True spi['rc_cc_ds'] = 'no_rc_cc_ds' r = self.dialect.encode_cmd(self.od, self.tar, spi, h2b('00a40000023f00')) self.assertEqual(b2h(r), '00180d04193535b00000e3ec80a849b554421276af3883927c20') def test_cmd_3des_signed(self): spi = self.spi_base spi['ciphering'] = False spi['rc_cc_ds'] = 'cc' r = self.dialect.encode_cmd(self.od, self.tar, spi, h2b('00a40000023f00')) self.assertEqual(b2h(r), '1502193535b00000000000000000072ea17bdb72060e00a40000023f00') def test_cmd_3des_none(self): spi = self.spi_base spi['ciphering'] = False spi['rc_cc_ds'] = 'no_rc_cc_ds' r = self.dialect.encode_cmd(self.od, self.tar, spi, h2b('00a40000023f00')) self.assertEqual(b2h(r), '0d00193535b0000000000000000000a40000023f00') ###################################################################### # new-style data-driven tests ###################################################################### # SJA5 SAMPLE cards provisioned by execute_ipr.py OTA_KEYSET_SJA5_SAMPLES = OtaKeyset(algo_crypt='triple_des_cbc2', kic_idx=3, algo_auth='triple_des_cbc2', kid_idx=3, kic=h2b('300102030405060708090a0b0c0d0e0f'), kid=h2b('301102030405060708090a0b0c0d0e0f')) OTA_KEYSET_SJA5_AES128 = OtaKeyset(algo_crypt='aes_cbc', kic_idx=2, algo_auth='aes_cmac', kid_idx=2, kic=h2b('200102030405060708090a0b0c0d0e0f'), kid=h2b('201102030405060708090a0b0c0d0e0f')) class OtaTestCase(unittest.TestCase): def __init__(self, methodName='runTest', **kwargs): super().__init__(methodName, **kwargs) # RAM: B00000 # SIM RFM: B00010 # USIM RFM: B00011 self.tar = h2b('B00011') class SmsOtaTestCase(OtaTestCase): # Array describing the input/output data for the tests. We use the # unittest subTests context manager to iterate over the entries of # this testdatasets list. This is much more productive than # manually writing one class per test. testdatasets = [ { 'name': '3DES-SJA5-CIPHERED-CC', 'ota_keyset': OTA_KEYSET_SJA5_SAMPLES, 'spi': SPI_CC_POR_CIPHERED_CC, 'request': { 'apdu': b'\x00\xa4\x00\x04\x02\x3f\x00', 'encoded_cmd': '00201506193535b00011ae733256918d050b87c94fbfe12e4dc402f262c41cf67f2f', 'encoded_tpdu': '400881214365877ff6227052000000000302700000201506193535b00011ae733256918d050b87c94fbfe12e4dc402f262c41cf67f2f', }, 'response': { 'encoded_resp': '027100001c12b000118bb989492c632529326a2f4681feb37c825bc9021c9f6d0b', 'response_status': 'por_ok', 'number_of_commands': 1, 'last_status_word': '6132', 'last_response_data': '', } }, { 'name': '3DES-SJA5-UNCIPHERED-CC', 'ota_keyset': OTA_KEYSET_SJA5_SAMPLES, 'spi': SPI_CC_POR_UNCIPHERED_CC, 'request': { 'apdu': b'\x00\xa4\x00\x04\x02\x3f\x00', 'encoded_cmd': '00201506093535b00011c49ac91ab8159ba5b83a54fb6385e0a5e31694f8b215fafc', 'encoded_tpdu': '400881214365877ff6227052000000000302700000201506093535b00011c49ac91ab8159ba5b83a54fb6385e0a5e31694f8b215fafc', }, 'response': { 'encoded_resp': '027100001612b0001100000000000000b5bcd6353a421fae016132', 'response_status': 'por_ok', 'number_of_commands': 1, 'last_status_word': '6132', 'last_response_data': '', } }, { 'name': '3DES-SJA5-UNCIPHERED-NOCC', 'ota_keyset': OTA_KEYSET_SJA5_SAMPLES, 'spi': SPI_CC_POR_UNCIPHERED_NOCC, 'request': { 'apdu': b'\x00\xa4\x00\x04\x02\x3f\x00', 'encoded_cmd': '00201506013535b000113190be334900f52b025f3f7eddfe868e96ebf310023b7769', 'encoded_tpdu': '400881214365877ff6227052000000000302700000201506013535b000113190be334900f52b025f3f7eddfe868e96ebf310023b7769', }, 'response': { 'encoded_resp': '027100000e0ab0001100000000000000016132', 'response_status': 'por_ok', 'number_of_commands': 1, 'last_status_word': '6132', 'last_response_data': '', } }, { 'name': 'AES128-SJA5-CIPHERED-CC', 'ota_keyset': OTA_KEYSET_SJA5_AES128, 'spi': SPI_CC_POR_CIPHERED_CC, 'request': { 'apdu': b'\x00\xa4\x00\x04\x02\x3f\x00', 'encoded_cmd': '00281506192222b00011e87cceebb2d93083011ce294f93fc4d8de80da1abae8c37ca3e72ec4432e5058', 'encoded_tpdu': '400881214365877ff6227052000000000302700000281506192222b00011e87cceebb2d93083011ce294f93fc4d8de80da1abae8c37ca3e72ec4432e5058', }, 'response': { 'encoded_resp': '027100002412b00011ebc6b497e2cad7aedf36ace0e3a29b38853f0fe9ccde81913be5702b73abce1f', 'response_status': 'por_ok', 'number_of_commands': 1, 'last_status_word': '6132', 'last_response_data': '', } }, # TODO: AES192 # TODO: AES256 ] def __init__(self, methodName='runTest', **kwargs): super().__init__(methodName, **kwargs) self.dialect = OtaDialectSms() self.da = AddressField('12345678', 'unknown', 'isdn_e164') def test_encode_cmd(self): for t in SmsOtaTestCase.testdatasets: with self.subTest(name=t['name']): kset = t['ota_keyset'] outp = self.dialect.encode_cmd(kset, self.tar, t['spi'], apdu=t['request']['apdu']) #print("result: %s" % b2h(outp)) self.assertEqual(b2h(outp), t['request']['encoded_cmd']) with_udh = b'\x02\x70\x00' + outp #print("with_udh: %s" % b2h(with_udh)) tpdu = SMS_DELIVER(tp_udhi=True, tp_oa=self.da, tp_pid=0x7F, tp_dcs=0xF6, tp_scts=h2b('22705200000000'), tp_udl=3, tp_ud=with_udh) #print("TPDU: %s" % tpdu) #print("tpdu: %s" % b2h(tpdu.to_bytes())) self.assertEqual(b2h(tpdu.to_bytes()), t['request']['encoded_tpdu']) def test_decode_resp(self): for t in SmsOtaTestCase.testdatasets: with self.subTest(name=t['name']): kset = t['ota_keyset'] r, d = self.dialect.decode_resp(kset, t['spi'], t['response']['encoded_resp']) #print("RESP: %s / %s" % (r, d)) self.assertEqual(r.response_status, t['response']['response_status']) self.assertEqual(d.number_of_commands, t['response']['number_of_commands']) self.assertEqual(d.last_status_word, t['response']['last_status_word']) self.assertEqual(d.last_response_data, t['response']['last_response_data'])