#!/usr/bin/env python3 # # Copyright 2017, The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Unittests for atest.""" # pylint: disable=line-too-long import datetime import os import sys import tempfile import unittest from importlib import reload from io import StringIO from unittest import mock import atest import constants import module_info from metrics import metrics_utils from test_finders import test_info #pylint: disable=protected-access class AtestUnittests(unittest.TestCase): """Unit tests for atest.py""" @mock.patch('os.environ.get', return_value=None) def test_missing_environment_variables_uninitialized(self, _): """Test _has_environment_variables when no env vars.""" self.assertTrue(atest._missing_environment_variables()) @mock.patch('os.environ.get', return_value='out/testcases/') def test_missing_environment_variables_initialized(self, _): """Test _has_environment_variables when env vars.""" self.assertFalse(atest._missing_environment_variables()) def test_parse_args(self): """Test _parse_args parses command line args.""" test_one = 'test_name_one' test_two = 'test_name_two' custom_arg = '--custom_arg' custom_arg_val = 'custom_arg_val' pos_custom_arg = 'pos_custom_arg' # Test out test and custom args are properly retrieved. args = [test_one, test_two, '--', custom_arg, custom_arg_val] parsed_args = atest._parse_args(args) self.assertEqual(parsed_args.tests, [test_one, test_two]) self.assertEqual(parsed_args.custom_args, [custom_arg, custom_arg_val]) # Test out custom positional args with no test args. args = ['--', pos_custom_arg, custom_arg_val] parsed_args = atest._parse_args(args) self.assertEqual(parsed_args.tests, []) self.assertEqual(parsed_args.custom_args, [pos_custom_arg, custom_arg_val]) def test_has_valid_test_mapping_args(self): """Test _has_valid_test_mapping_args method.""" # Test test mapping related args are not mixed with incompatible args. options_no_tm_support = [ ('--generate-baseline', '5'), ('--detect-regression', 'path'), ('--generate-new-metrics', '5') ] tm_options = [ '--test-mapping', '--include-subdirs' ] for tm_option in tm_options: for no_tm_option, no_tm_option_value in options_no_tm_support: args = [tm_option, no_tm_option] if no_tm_option_value is not None: args.append(no_tm_option_value) parsed_args = atest._parse_args(args) self.assertFalse( atest._has_valid_test_mapping_args(parsed_args), 'Failed to validate: %s' % args) @mock.patch('json.load', return_value={}) @mock.patch('builtins.open', new_callable=mock.mock_open) @mock.patch('os.path.isfile', return_value=True) @mock.patch('atest_utils._has_colors', return_value=True) @mock.patch.object(module_info.ModuleInfo, 'get_module_info',) def test_print_module_info_from_module_name(self, mock_get_module_info, _mock_has_colors, _isfile, _open, _json): """Test _print_module_info_from_module_name method.""" mod_one_name = 'mod1' mod_one_path = ['src/path/mod1'] mod_one_installed = ['installed/path/mod1'] mod_one_suites = ['device_test_mod1', 'native_test_mod1'] mod_one = {constants.MODULE_NAME: mod_one_name, constants.MODULE_PATH: mod_one_path, constants.MODULE_INSTALLED: mod_one_installed, constants.MODULE_COMPATIBILITY_SUITES: mod_one_suites} # Case 1: The testing_module('mod_one') can be found in module_info. mock_get_module_info.return_value = mod_one capture_output = StringIO() sys.stdout = capture_output mod_info = module_info.ModuleInfo() # Check return value = True, since 'mod_one' can be found. self.assertTrue( atest._print_module_info_from_module_name(mod_info, mod_one_name)) # Assign sys.stdout back to default. sys.stdout = sys.__stdout__ correct_output = ('\x1b[1;32mmod1\x1b[0m\n' '\x1b[1;36m\tCompatibility suite\x1b[0m\n' '\t\tdevice_test_mod1\n' '\t\tnative_test_mod1\n' '\x1b[1;36m\tSource code path\x1b[0m\n' '\t\tsrc/path/mod1\n' '\x1b[1;36m\tInstalled path\x1b[0m\n' '\t\tinstalled/path/mod1\n') # Check the function correctly printed module_info in color to stdout self.assertEqual(capture_output.getvalue(), correct_output) # Case 2: The testing_module('mod_one') can NOT be found in module_info. mock_get_module_info.return_value = None capture_output = StringIO() sys.stdout = capture_output # Check return value = False, since 'mod_one' can NOT be found. self.assertFalse( atest._print_module_info_from_module_name(mod_info, mod_one_name)) # Assign sys.stdout back to default. sys.stdout = sys.__stdout__ null_output = '' # Check if no module_info, then nothing printed to screen. self.assertEqual(capture_output.getvalue(), null_output) @mock.patch('json.load', return_value={}) @mock.patch('builtins.open', new_callable=mock.mock_open) @mock.patch('os.path.isfile', return_value=True) @mock.patch('atest_utils._has_colors', return_value=True) @mock.patch.object(module_info.ModuleInfo, 'get_module_info',) def test_print_test_info(self, mock_get_module_info, _mock_has_colors, _isfile, _open, _json): """Test _print_test_info method.""" mod_one_name = 'mod1' mod_one = {constants.MODULE_NAME: mod_one_name, constants.MODULE_PATH: ['path/mod1'], constants.MODULE_INSTALLED: ['installed/mod1'], constants.MODULE_COMPATIBILITY_SUITES: ['suite_mod1']} mod_two_name = 'mod2' mod_two = {constants.MODULE_NAME: mod_two_name, constants.MODULE_PATH: ['path/mod2'], constants.MODULE_INSTALLED: ['installed/mod2'], constants.MODULE_COMPATIBILITY_SUITES: ['suite_mod2']} mod_three_name = 'mod3' mod_three = {constants.MODULE_NAME: mod_two_name, constants.MODULE_PATH: ['path/mod3'], constants.MODULE_INSTALLED: ['installed/mod3'], constants.MODULE_COMPATIBILITY_SUITES: ['suite_mod3']} test_name = mod_one_name build_targets = set([mod_one_name, mod_two_name, mod_three_name]) t_info = test_info.TestInfo(test_name, 'mock_runner', build_targets) test_infos = set([t_info]) # The _print_test_info() will print the module_info of the test_info's # test_name first. Then, print its related build targets. If the build # target be printed before(e.g. build_target == test_info's test_name), # it will skip it and print the next build_target. # Since the build_targets of test_info are mod_one, mod_two, and # mod_three, it will print mod_one first, then mod_two, and mod_three. # # _print_test_info() calls _print_module_info_from_module_name() to # print the module_info. And _print_module_info_from_module_name() # calls get_module_info() to get the module_info. So we can mock # get_module_info() to achieve that. mock_get_module_info.side_effect = [mod_one, mod_two, mod_three] capture_output = StringIO() sys.stdout = capture_output mod_info = module_info.ModuleInfo() atest._print_test_info(mod_info, test_infos) # Assign sys.stdout back to default. sys.stdout = sys.__stdout__ correct_output = ('\x1b[1;32mmod1\x1b[0m\n' '\x1b[1;36m\tCompatibility suite\x1b[0m\n' '\t\tsuite_mod1\n' '\x1b[1;36m\tSource code path\x1b[0m\n' '\t\tpath/mod1\n' '\x1b[1;36m\tInstalled path\x1b[0m\n' '\t\tinstalled/mod1\n' '\x1b[1;35m\tRelated build targets\x1b[0m\n' '\t\tmod1, mod2, mod3\n' '\x1b[1;32mmod2\x1b[0m\n' '\x1b[1;36m\tCompatibility suite\x1b[0m\n' '\t\tsuite_mod2\n' '\x1b[1;36m\tSource code path\x1b[0m\n' '\t\tpath/mod2\n' '\x1b[1;36m\tInstalled path\x1b[0m\n' '\t\tinstalled/mod2\n' '\x1b[1;32mmod3\x1b[0m\n' '\x1b[1;36m\tCompatibility suite\x1b[0m\n' '\t\tsuite_mod3\n' '\x1b[1;36m\tSource code path\x1b[0m\n' '\t\tpath/mod3\n' '\x1b[1;36m\tInstalled path\x1b[0m\n' '\t\tinstalled/mod3\n' '\x1b[1;37m\x1b[0m\n') self.assertEqual(capture_output.getvalue(), correct_output) @mock.patch.object(metrics_utils, 'send_exit_event') def test_validate_exec_mode(self, _send_exit): """Test _validate_exec_mode.""" args = [] parsed_args = atest._parse_args(args) no_install_test_info = test_info.TestInfo( 'mod', '', set(), data={}, module_class=["JAVA_LIBRARIES"], install_locations=set(['device'])) host_test_info = test_info.TestInfo( 'mod', '', set(), data={}, module_class=["NATIVE_TESTS"], install_locations=set(['host'])) device_test_info = test_info.TestInfo( 'mod', '', set(), data={}, module_class=["NATIVE_TESTS"], install_locations=set(['device'])) both_test_info = test_info.TestInfo( 'mod', '', set(), data={}, module_class=["NATIVE_TESTS"], install_locations=set(['host', 'device'])) # $atest test_infos = [host_test_info] atest._validate_exec_mode(parsed_args, test_infos) self.assertFalse(parsed_args.host) # $atest with host_tests set to True parsed_args = atest._parse_args([]) test_infos = [host_test_info] atest._validate_exec_mode(parsed_args, test_infos, host_tests=True) # Make sure the host option is not set. self.assertFalse(parsed_args.host) # $atest with host_tests set to False parsed_args = atest._parse_args([]) test_infos = [host_test_info] atest._validate_exec_mode(parsed_args, test_infos, host_tests=False) self.assertFalse(parsed_args.host) # $atest with host_tests set to False parsed_args = atest._parse_args([]) test_infos = [device_test_info] atest._validate_exec_mode(parsed_args, test_infos, host_tests=False) # Make sure the host option is not set. self.assertFalse(parsed_args.host) # $atest with host_tests set to True parsed_args = atest._parse_args([]) test_infos = [device_test_info] self.assertRaises(SystemExit, atest._validate_exec_mode, parsed_args, test_infos, host_tests=True) # $atest parsed_args = atest._parse_args([]) test_infos = [both_test_info] atest._validate_exec_mode(parsed_args, test_infos) self.assertFalse(parsed_args.host) # $atest parsed_args = atest._parse_args([]) test_infos = [no_install_test_info] atest._validate_exec_mode(parsed_args, test_infos) self.assertFalse(parsed_args.host) def test_make_test_run_dir(self): """Test make_test_run_dir.""" tmp_dir = tempfile.mkdtemp() constants.ATEST_RESULT_ROOT = tmp_dir date_time = None work_dir = atest.make_test_run_dir() folder_name = os.path.basename(work_dir) date_time = datetime.datetime.strptime('_'.join(folder_name.split('_')[0:2]), atest.TEST_RUN_DIR_PREFIX) reload(constants) self.assertTrue(date_time) if __name__ == '__main__': unittest.main()