Пример #1
0
 def _app_home(self):
     stats = StatisticUpdater(config=self._config)
     with ConnectTo(FrontEndDbInterface, config=self._config) as sc:
         latest_firmware_submissions = sc.get_last_added_firmwares(int(self._config['database'].get('number_of_latest_firmwares_to_display', '10')))
         latest_comments = sc.get_latest_comments(int(self._config['database'].get('number_of_latest_firmwares_to_display', '10')))
     with ConnectTo(CompareDbInterface, config=self._config) as sc:
         latest_comparison_results = sc.page_compare_results(limit=10)
     general_stats = stats.get_general_stats()
     stats.shutdown()
     return render_template('home.html', general_stats=general_stats, latest_firmware_submissions=latest_firmware_submissions,
                            latest_comments=latest_comments, latest_comparison_results=latest_comparison_results)
Пример #2
0
class TestStatistic(unittest.TestCase):
    @classmethod
    def setUpClass(cls):
        cls.config = get_config_for_testing()
        cls.mongo_server = MongoMgr(config=cls.config)

    def setUp(self):
        self.updater = StatisticUpdater(config=self.config)
        self.frontend_db_interface = StatisticDbViewer(config=self.config)

    def tearDown(self):
        self.updater.shutdown()
        self.frontend_db_interface.shutdown()
        clean_test_database(self.config, get_database_names(self.config))
        gc.collect()

    @classmethod
    def tearDownClass(cls):
        cls.mongo_server.shutdown()

    def test_update_and_get_statistic(self):
        self.updater.db.update_statistic('test', {'test1': 1})
        result = self.frontend_db_interface.get_statistic('test')
        self.assertEqual(result['test1'], 1, 'result not correct')
        self.updater.db.update_statistic('test', {'test1': 2})
        result = self.frontend_db_interface.get_statistic('test')
        self.assertEqual(result['test1'], 2, 'result not correct')

    def test_get_general_stats(self):
        result = self.updater.get_general_stats()
        self.assertEqual(result['number_of_firmwares'], 0,
                         'number of firmwares not correct')
        self.assertEqual(result['number_of_unique_files'], 0,
                         'number of files not correct')
        self.updater.db.firmwares.insert_one({'test': 1})
        self.updater.db.file_objects.insert_one({'test': 1})
        result = self.updater.get_general_stats()
        self.assertEqual(result['number_of_firmwares'], 1,
                         'number of firmwares not correct')
        self.assertEqual(result['number_of_unique_files'], 1,
                         'number of files not correct')

    def test_convert_dict_list_to_list(self):
        test_list = [{
            'count': 1,
            '_id': 'A'
        }, {
            'count': 2,
            '_id': 'B'
        }, {
            'count': 3,
            '_id': None
        }]
        result = self.updater._convert_dict_list_to_list(test_list)
        self.assertIsInstance(result, list, 'result is not a list')
        self.assertIn(['A', 1], result)
        self.assertIn(['B', 2], result)
        self.assertIn(['not available', 3], result)
        self.assertEqual(len(result), 3, 'too many keys in the result')

    def test_filter_sanitized_entries(self):
        test_list = [
            ['valid', 1],
            [
                'sanitized_81abfc7a79c8c1ed85f6b9fc2c5d9a3edc4456c4aecb9f95b4d7a2bf9bf652da_1',
                1
            ]
        ]
        result = self.updater._filter_sanitized_objects(test_list)
        self.assertEqual(result, [['valid', 1]])

    def test_find_most_frequent_architecture(self):
        test_list = [
            'MIPS, 32-bit, big endian (M)', 'MIPS (M)',
            'MIPS, 32-bit, big endian (M)', 'MIPS, 32-bit, big endian (M)'
        ]
        result = self.updater._find_most_frequent_architecture(test_list)
        expected_result = 'MIPS, 32-bit, big endian (M)'
        self.assertEqual(result, expected_result)
        test_list = ['A', 'B', 'B', 'B', 'C', 'C']
        result = self.updater._find_most_frequent_architecture(test_list)
        expected_result = 'B'
        self.assertEqual(result, expected_result)

    def test_count_occurrences(self):
        test_list = ['A', 'B', 'B', 'C', 'C', 'C']
        result = set(self.updater._count_occurrences(test_list))
        expected_result = {('A', 1), ('C', 3), ('B', 2)}
        self.assertEqual(result, expected_result)

    def test_shorten_architecture_string(self):
        tests_string = 'MIPS, 64-bit, little endian (M)'
        result = self.updater._shorten_architecture_string(tests_string)
        self.assertEqual(result, 'MIPS, 64-bit')
        tests_string = 'MIPS (M)'
        result = self.updater._shorten_architecture_string(tests_string)
        self.assertEqual(result, 'MIPS')

    def test_round(self):
        self.assertEqual(StatisticUpdater._round([('NX enabled', 1696)], 1903),
                         0.89122)

    def test_get_mitigation_data(self):
        result_list = [('PIE enabled', 3), ('Canary enabled', 9),
                       ('RELRO partially enabled', 7),
                       ('PIE/DSO present', 565), ('PIE disabled', 702),
                       ('NX enabled', 1696), ('PIE - invalid ELF file', 633),
                       ('Canary disabled', 1894), ('RELRO fully enabled', 40),
                       ('NX disabled', 207), ('RELRO disabled', 1856)]
        mitigation_on = StatisticUpdater.extract_mitigation_from_list(
            'NX enabled', result_list)
        mitigation_off = StatisticUpdater.extract_mitigation_from_list(
            'Canary disabled', result_list)
        mitigation_partial = StatisticUpdater.extract_mitigation_from_list(
            'RELRO partially enabled', result_list)
        mitigation_invalid = StatisticUpdater.extract_mitigation_from_list(
            'PIE - invalid ELF file', result_list)
        self.assertEqual(mitigation_on, [('NX enabled', 1696)])
        self.assertEqual(mitigation_off, [('Canary disabled', 1894)])
        self.assertEqual(mitigation_partial, [('RELRO partially enabled', 7)])
        self.assertEqual(mitigation_invalid, [('PIE - invalid ELF file', 633)])

    def test_set_single_stats(self):
        result = [('PIE - invalid ELF file', 100), ('NX disabled', 200),
                  ('PIE/DSO present', 300), ('RELRO fully enabled', 400),
                  ('PIE enabled', 500), ('RELRO partially enabled', 600),
                  ('Canary disabled', 700), ('NX enabled', 800),
                  ('PIE disabled', 900), ('Canary enabled', 1000),
                  ('RELRO disabled', 1100)]

        stats = {'exploit_mitigations': []}
        self.set_nx_stats_to_dict(result, stats)

        stats = {'exploit_mitigations': []}
        self.set_canary_stats_to_dict(result, stats)

        stats = {'exploit_mitigations': []}
        self.set_pie_stats_to_dict(result, stats)

        stats = {'exploit_mitigations': []}
        self.set_relro_stats_to_dict(result, stats)

    def set_nx_stats_to_dict(self, result, stats):
        nx_off, nx_on = self.updater.extract_nx_data_from_analysis(result)
        self.assertEqual(nx_off, [('NX disabled', 200)])
        self.assertEqual(nx_on, [('NX enabled', 800)])
        total_amount_of_files = calculate_total_files([nx_off, nx_on])
        self.assertEqual(total_amount_of_files, 1000)
        self.updater.append_nx_stats_to_result_dict(nx_off, nx_on, stats,
                                                    total_amount_of_files)
        self.assertEqual(
            stats, {
                'exploit_mitigations': [('NX enabled', 800, 0.8),
                                        ('NX disabled', 200, 0.2)]
            })

    def set_canary_stats_to_dict(self, result, stats):
        canary_off, canary_on = self.updater.extract_canary_data_from_analysis(
            result)
        self.assertEqual(canary_off, [('Canary disabled', 700)])
        self.assertEqual(canary_on, [('Canary enabled', 1000)])
        total_amount_of_files = calculate_total_files([canary_off, canary_on])
        self.assertEqual(total_amount_of_files, 1700)
        self.updater.append_canary_stats_to_result_dict(
            canary_off, canary_on, stats, total_amount_of_files)
        self.assertEqual(
            stats, {
                'exploit_mitigations': [('Canary enabled', 1000, 0.58824),
                                        ('Canary disabled', 700, 0.41176)]
            })

    def set_pie_stats_to_dict(self, result, stats):
        pie_invalid, pie_off, pie_on, pie_partial = self.updater.extract_pie_data_from_analysis(
            result)
        self.assertEqual(pie_invalid, [('PIE - invalid ELF file', 100)])
        self.assertEqual(pie_off, [('PIE disabled', 900)])
        self.assertEqual(pie_partial, [('PIE/DSO present', 300)])
        self.assertEqual(pie_on, [('PIE enabled', 500)])
        total_amount_of_files = calculate_total_files(
            [pie_on, pie_partial, pie_off, pie_invalid])
        self.assertEqual(total_amount_of_files, 1800)
        self.updater.append_pie_stats_to_result_dict(pie_invalid, pie_off,
                                                     pie_on, pie_partial,
                                                     stats,
                                                     total_amount_of_files)
        self.assertEqual(
            stats, {
                'exploit_mitigations':
                [('PIE enabled', 500, 0.27778),
                 ('PIE/DSO present', 300, 0.16667), ('PIE disabled', 900, 0.5),
                 ('PIE - invalid ELF file', 100, 0.05556)]
            })

    def set_relro_stats_to_dict(self, result, stats):
        relro_off, relro_on, relro_partial = self.updater.extract_relro_data_from_analysis(
            result)
        self.assertEqual(relro_off, [('RELRO disabled', 1100)])
        self.assertEqual(relro_on, [('RELRO fully enabled', 400)])
        self.assertEqual(relro_partial, [('RELRO partially enabled', 600)])
        total_amount_of_files = calculate_total_files(
            [relro_off, relro_on, relro_partial])
        self.assertEqual(total_amount_of_files, 2100)
        self.updater.append_relro_stats_to_result_dict(relro_off, relro_on,
                                                       relro_partial, stats,
                                                       total_amount_of_files)
        self.assertEqual(
            stats, {
                'exploit_mitigations':
                [('RELRO fully enabled', 400, 0.19048),
                 ('RELRO partially enabled', 600, 0.28571),
                 ('RELRO disabled', 1100, 0.52381)]
            })

    def test_get_all_stats(self):
        result = [('PIE - invalid ELF file', 100), ('NX disabled', 200),
                  ('PIE/DSO present', 300), ('RELRO fully enabled', 400),
                  ('PIE enabled', 500), ('RELRO partially enabled', 600),
                  ('Canary disabled', 700), ('NX enabled', 800),
                  ('PIE disabled', 900), ('Canary enabled', 1000),
                  ('RELRO disabled', 1100)]
        stats = {'exploit_mitigations': []}
        self.updater.get_stats_nx(result, stats)
        self.updater.get_stats_canary(result, stats)
        self.updater.get_stats_relro(result, stats)
        self.updater.get_stats_pie(result, stats)
        self.assertEqual(
            stats, {
                'exploit_mitigations':
                [('NX enabled', 800, 0.8), ('NX disabled', 200, 0.2),
                 ('Canary enabled', 1000, 0.58824),
                 ('Canary disabled', 700, 0.41176),
                 ('RELRO fully enabled', 400, 0.19048),
                 ('RELRO partially enabled', 600, 0.28571),
                 ('RELRO disabled', 1100, 0.52381),
                 ('PIE enabled', 500, 0.27778),
                 ('PIE/DSO present', 300, 0.16667), ('PIE disabled', 900, 0.5),
                 ('PIE - invalid ELF file', 100, 0.05556)]
            })

    def test_return_none_if_no_exploit_mitigations(self):
        result = []
        stats = {'exploit_mitigations': []}
        self.assertEqual(self.updater.get_stats_nx(result, stats), None)

    def test_fetch_mitigations(self):
        self.assertEqual(self.updater.get_exploit_mitigations_stats(),
                         {'exploit_mitigations': []})

    def test_known_vulnerabilities_works(self):
        self.assertEqual(self.updater.get_known_vulnerabilities_stats(),
                         {'known_vulnerabilities': []})
Пример #3
0
class TestStatistic(unittest.TestCase):
    def setUp(self):
        self.config = get_config_for_testing()
        self.mongo_server = MongoMgr(config=self.config)
        self.updater = StatisticUpdater(config=self.config)
        self.frontend_db_interface = StatisticDbViewer(config=self.config)

    def tearDown(self):
        self.updater.shutdown()
        self.frontend_db_interface.shutdown()
        clean_test_database(self.config, get_database_names(self.config))
        self.mongo_server.shutdown()
        gc.collect()

    def test_update_and_get_statistic(self):
        self.updater.db.update_statistic('test', {'test1': 1})
        result = self.frontend_db_interface.get_statistic('test')
        self.assertEqual(result['test1'], 1, 'result not correct')
        self.updater.db.update_statistic('test', {'test1': 2})
        result = self.frontend_db_interface.get_statistic('test')
        self.assertEqual(result['test1'], 2, 'result not correct')

    def test_get_general_stats(self):
        result = self.updater.get_general_stats()
        self.assertEqual(result['number_of_firmwares'], 0,
                         'number of firmwares not correct')
        self.assertEqual(result['number_of_unique_files'], 0,
                         'number of files not correct')
        self.updater.db.firmwares.insert_one({'test': 1})
        self.updater.db.file_objects.insert_one({'test': 1})
        result = self.updater.get_general_stats()
        self.assertEqual(result['number_of_firmwares'], 1,
                         'number of firmwares not correct')
        self.assertEqual(result['number_of_unique_files'], 1,
                         'number of files not correct')

    def test_convert_dict_list_to_list(self):
        test_list = [{
            'count': 1,
            '_id': 'A'
        }, {
            'count': 2,
            '_id': 'B'
        }, {
            'count': 3,
            '_id': None
        }]
        result = self.updater._convert_dict_list_to_list(test_list)
        self.assertIsInstance(result, list, 'result is not a list')
        self.assertIn(['A', 1], result)
        self.assertIn(['B', 2], result)
        self.assertIn(['not available', 3], result)
        self.assertEqual(len(result), 3, 'too many keys in the result')

    def test_filter_sanitized_entries(self):
        test_list = [
            ['valid', 1],
            [
                'sanitized_81abfc7a79c8c1ed85f6b9fc2c5d9a3edc4456c4aecb9f95b4d7a2bf9bf652da_1',
                1
            ]
        ]
        result = self.updater._filter_sanitzized_objects(test_list)
        self.assertEqual(result, [['valid', 1]])

    def test_find_most_frequent_architecture(self):
        test_list = [
            'MIPS, 32-bit, big endian (M)', 'MIPS (M)',
            'MIPS, 32-bit, big endian (M)', 'MIPS, 32-bit, big endian (M)'
        ]
        result = self.updater._find_most_frequent_architecture(test_list)
        expected_result = 'MIPS, 32-bit, big endian (M)'
        self.assertEqual(result, expected_result)
        test_list = ['A', 'B', 'B', 'B', 'C', 'C']
        result = self.updater._find_most_frequent_architecture(test_list)
        expected_result = 'B'
        self.assertEqual(result, expected_result)

    def test_count_occurrences(self):
        test_list = ['A', 'B', 'B', 'C', 'C', 'C']
        result = set(self.updater._count_occurrences(test_list))
        expected_result = {('A', 1), ('C', 3), ('B', 2)}
        self.assertEqual(result, expected_result)

    def test_shorten_architecture_string(self):
        tests_string = 'MIPS, 64-bit, little endian (M)'
        result = self.updater._shorten_architecture_string(tests_string)
        self.assertEqual(result, 'MIPS, 64-bit')
        tests_string = 'MIPS (M)'
        result = self.updater._shorten_architecture_string(tests_string)
        self.assertEqual(result, 'MIPS')