#!/usr/bin/env python3 # (C) 2023-2024 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 import copy from osmocom.utils import h2b, b2h from pySim.esim.saip import * from pySim.esim.saip.personalization import * from pprint import pprint as pp class SaipTest(unittest.TestCase): with open('smdpp-data/upp/TS48v2_SAIP2.3_NoBERTLV.der', 'rb') as f: per_input = f.read() pes = ProfileElementSequence.from_der(per_input) expected_pet_list = ['header', 'mf', 'pukCodes', 'pinCodes', 'telecom', 'pinCodes', 'genericFileManagement', 'usim', 'opt-usim', 'pinCodes', 'akaParameter', 'gsm-access', 'df-5gs', 'df-saip','csim', 'opt-csim', 'pinCodes', 'cdmaParameter', 'isim', 'opt-isim', 'pinCodes', 'akaParameter', 'genericFileManagement', 'genericFileManagement', 'securityDomain', 'rfm', 'rfm', 'rfm', 'rfm', 'end'] def test_reencode_sequence(self): """Test that we can decode and re-encode the entire DER encoded UPP.""" reencoded_der = self.pes.to_der() self.assertEqual(reencoded_der, self.per_input) def test_reencode_pe(self): """Test that we can decode and re-encode reach individual ProfileElement.""" remainder = self.per_input while len(remainder): first_tlv, remainder = bertlv_first_segment(remainder) pe = ProfileElement.from_der(first_tlv) with self.subTest(pe.type): reenc_tlv = pe.to_der() self.assertEqual(reenc_tlv, first_tlv) def test_sequence_helpers(self): """Verify that the convenience helpers worked as expected.""" self.assertEqual([x.type for x in self.pes.pe_list], self.expected_pet_list) self.assertEqual(len(self.pes.pes_by_naa), 4) def test_personalization(self): """Test some of the personalization operations.""" pes = copy.deepcopy(self.pes) params = [Puk1('01234567'), Puk2(98765432), Pin1('1111'), Pin2(2222), Adm1('11111111'), K(h2b('000102030405060708090a0b0c0d0e0f')), Opc(h2b('101112131415161718191a1b1c1d1e1f'))] for p in params: p.validate() p.apply(pes) # TODO: we don't actually test the results here, but we just verify there is no exception pes.to_der() def test_constructor_encode(self): """Test that DER-encoding of PE created by "empty" constructor works without raising exception.""" for cls in [ProfileElementMF, ProfileElementPuk, ProfileElementPin, ProfileElementTelecom, ProfileElementUSIM, ProfileElementISIM, ProfileElementAKA, ProfileElementSD, ProfileElementSSD, ProfileElementOptUSIM, ProfileElementOptISIM, ProfileElementHeader, ProfileElementEnd]: with self.subTest(cls.__name__): pes = ProfileElementSequence() inst = cls() pes.append(inst) pes.to_der() # RFM requires some constructor arguments cls = ProfileElementRFM with self.subTest(cls.__name__): pes = ProfileElementSequence() inst = cls(inst_aid=b'\x01\x02', sd_aid=b'\x03\x04', tar_list=[b'\x01\x02\x03']) pes.append(inst) pes.to_der() class OidTest(unittest.TestCase): def test_cmp(self): self.assertTrue(oid.OID('1.0') > oid.OID('0.9')) self.assertTrue(oid.OID('1.0') == oid.OID('1.0')) self.assertTrue(oid.OID('1.0.1') > oid.OID('1.0')) self.assertTrue(oid.OID('1.0.2') > oid.OID('1.0.1')) if __name__ == "__main__": unittest.main()