#!/usr/bin/env python3 # (C) 2022 by Harald Welte # All Rights Reserved # # 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 from pySim.tlv import * class TestUtils(unittest.TestCase): def test_camel_to_snake(self): cases = [ ('CamelCase', 'camel_case'), ('CamelCaseUPPER', 'camel_case_upper'), ('Camel_CASE_underSCORE', 'camel_case_under_score'), ] for c in cases: self.assertEqual(camel_to_snake(c[0]), c[1]) def test_flatten_dict_lists(self): inp = [ { 'first': 1 }, { 'second': 2 }, { 'third': 3 }, ] out = { 'first': 1, 'second':2, 'third': 3} self.assertEqual(flatten_dict_lists(inp), out) def test_flatten_dict_lists_nodict(self): inp = [ { 'first': 1 }, { 'second': 2 }, { 'third': 3 }, 4, ] self.assertEqual(flatten_dict_lists(inp), inp) def test_flatten_dict_lists_nested(self): inp = {'top': [ { 'first': 1 }, { 'second': 2 }, { 'third': 3 }, ] } out = {'top': { 'first': 1, 'second':2, 'third': 3 } } self.assertEqual(flatten_dict_lists(inp), out) class TestTranscodable(unittest.TestCase): class XC_constr_class(Transcodable): _construct = Int8ub def __init__(self): super().__init__(); def test_XC_constr_class(self): """Transcodable derived class with _construct class variable""" xc = TestTranscodable.XC_constr_class() self.assertEqual(xc.from_bytes(b'\x23'), 35) self.assertEqual(xc.to_bytes(), b'\x23') class XC_constr_instance(Transcodable): def __init__(self): super().__init__(); self._construct = Int8ub def test_XC_constr_instance(self): """Transcodable derived class with _construct instance variable""" xc = TestTranscodable.XC_constr_instance() self.assertEqual(xc.from_bytes(b'\x23'), 35) self.assertEqual(xc.to_bytes(), b'\x23') class XC_method_instance(Transcodable): def __init__(self): super().__init__(); def _from_bytes(self, do): return ('decoded', do) def _to_bytes(self): return self.decoded[1] def test_XC_method_instance(self): """Transcodable derived class with _{from,to}_bytes() methods""" xc = TestTranscodable.XC_method_instance() self.assertEqual(xc.to_bytes(), b'') self.assertEqual(xc.from_bytes(b''), None) self.assertEqual(xc.from_bytes(b'\x23'), ('decoded', b'\x23')) self.assertEqual(xc.to_bytes(), b'\x23') class TestIE(unittest.TestCase): class MyIE(IE, tag=0x23, desc='My IE description'): _construct = Int8ub def to_ie(self): return self.to_bytes() def test_IE_empty(self): ie = TestIE.MyIE() self.assertEqual(ie.to_dict(), {'my_ie': None}) self.assertEqual(repr(ie), 'MyIE(None)') self.assertEqual(ie.is_constructed(), False) def test_IE_from_bytes(self): ie = TestIE.MyIE() ie.from_bytes(b'\x42') self.assertEqual(ie.to_dict(), {'my_ie': 66}) self.assertEqual(repr(ie), 'MyIE(66)') self.assertEqual(ie.is_constructed(), False) self.assertEqual(ie.to_bytes(), b'\x42') self.assertEqual(ie.to_ie(), b'\x42') if __name__ == "__main__": unittest.main()