def _create_source_file(self, version, run_name): with open(os.path.join(self._test_dir, self._source_file), 'w') as f: f.write(self.sources[version]) self._codechecker_cfg['tag'] = self.tags[version] codechecker.check_and_store(self._codechecker_cfg, run_name, self._test_dir)
def __get_files_in_report(self): run_filter = RunFilter() run_filter.names = ['db_cleanup_test'] run_filter.exactMatch = True codechecker.check_and_store(self.codechecker_cfg, 'db_cleanup_test', self.test_dir) runs = self._cc_client.getRunData(run_filter, None, 0, None) run_id = runs[0].runId reports \ = self._cc_client.getRunResults([run_id], 10, 0, [], None, None, False) details = self._cc_client.getReportDetails(reports[0].reportId) files = set() files.update([bp.fileId for bp in details.pathEvents]) files.update([bp.fileId for bp in details.executionPath]) file_ids = set() for file_id in files: file_data = self._cc_client.getSourceFileData(file_id, False, None) if file_data.fileId is not None: file_ids.add(file_data.fileId) return file_ids
def test_store(self): """ Store should fail if the source files were modified since the last analysis. """ test_proj = os.path.join(self.test_workspace, 'test_proj') ret = codechecker.check_and_store(self._codechecker_cfg, 'test_proj', test_proj) self.assertEqual(ret, 0) ret = codechecker.store(self._codechecker_cfg, 'test_proj') self.assertEqual(ret, 0) test_proj_path = self._testproject_data['project_path'] test_proj_files = os.listdir(test_proj_path) print(test_proj_files) null_deref_file = os.path.join(test_proj_path, 'null_dereference.cpp') touch(null_deref_file) ret = codechecker.store(self._codechecker_cfg, 'test_proj') self.assertEqual(ret, 1)
def setup_package(): """Setup the environment for testing review_status.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('review_status') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE dir_path = os.path.dirname(os.path.realpath(__file__)) shutil.copytree(os.path.join(dir_path, 'review_status_files'), os.path.join(TEST_WORKSPACE, 'review_status_files')) test_project = 'single_bug' test_config = {} project_info = project.get_info(test_project) test_config['test_project'] = project_info skip_list_file = None test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'suppress_file': None, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [] } ret = project.clean(test_project, test_env) if ret: sys.exit(ret) # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = 'review_status' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) test_project_name = project_info['name'] + '_' + uuid.uuid4().hex ret = codechecker.check_and_store(codechecker_cfg, test_project_name, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") codechecker_cfg['run_names'] = [test_project_name] test_config['codechecker_cfg'] = codechecker_cfg env.export_test_cfg(TEST_WORKSPACE, test_config)
def setup_package(): """Setup the environment for testing blame information.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('blame') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_project = 'cpp' test_config = {} project_info = project.get_info(test_project) test_project_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_project_path) project_info['project_path'] = test_project_path test_project_name = project_info['name'] + '_' + uuid.uuid4().hex test_config['test_project'] = project_info suppress_file = None skip_list_file = None test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [], 'clean': True } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server(auth_required=True) server_access['viewer_product'] = 'blame' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Clean the test project, if needed by the tests. ret = project.clean(test_project) if ret: sys.exit(ret) ret = codechecker.check_and_store( codechecker_cfg, test_project_name, project.path(test_project)) if ret: sys.exit(1) print("Analyzing test project was succcessful.") # Save the run names in the configuration. codechecker_cfg['run_names'] = [test_project_name] test_config['codechecker_cfg'] = codechecker_cfg # Export the test configuration to the workspace. env.export_test_cfg(TEST_WORKSPACE, test_config)
def test_disable_checker(self): """ The test depends on a run which was configured for update mode. Compared to the original test analysis in this run the deadcode.Deadstores checker was disabled. """ run_results = get_all_run_results(self._cc_client, self._runid) print_run_results(run_results) # Get check command for the first storage. original_check_command = \ self._cc_client.getCheckCommand(None, self._runid) # Run the anaysis again with different setup. test_project_path = self._testproject_data['project_path'] ret = project.clean(test_project_path) if ret: sys.exit(ret) initial_codechecker_cfg = env.import_test_cfg( self._test_workspace)['codechecker_cfg'] # Disable some checkers for the analysis. deadcode = 'deadcode.DeadStores' initial_codechecker_cfg['checkers'] = ['-d', deadcode] initial_test_project_name = self._run_name ret = codechecker.check_and_store(initial_codechecker_cfg, initial_test_project_name, test_project_path) if ret: sys.exit(1) # Get the results to compare. updated_results = get_all_run_results(self._cc_client, self._runid) all_bugs = self._testproject_data[self._clang_to_test]['bugs'] deadcode_bugs = \ [bug['hash'] for bug in all_bugs if bug['checker'] == deadcode] self.assertEquals(len(updated_results), len(all_bugs)) self.assertTrue(all(map( lambda b: b.detectionStatus == 'unresolved', filter(lambda x: x in deadcode_bugs, updated_results)))) # Get check command for the updated storage. updated_check_command = \ self._cc_client.getCheckCommand(None, self._runid) # Check that the check command is changed. self.assertNotEqual(original_check_command, updated_check_command) self.assertTrue(deadcode not in original_check_command) self.assertTrue(deadcode in updated_check_command)
def test_remove_run_results(self): """ Test for removing run results and run. """ # Run the anaysis again with different setup. test_project_path = self._testproject_data['project_path'] ret = project.clean(test_project_path) if ret: sys.exit(ret) codechecker.check_and_store(self._codechecker_cfg, 'remove_run_results', test_project_path) run_filter = RunFilter(names=['remove_run_results'], exactMatch=True) sort_mode = RunSortMode(RunSortType.DATE, Order.ASC) runs = self._cc_client.getRunData(run_filter, None, 0, sort_mode) self.assertEqual(len(runs), 1) run_id = runs[0].runId orig_results_count = \ self._cc_client.getRunResultCount([run_id], None, None) self.assertNotEqual(orig_results_count, 0) checker_filter = ReportFilter(checkerName=["core.CallAndMessage"]) res_count = self._cc_client.getRunResultCount([run_id], checker_filter, None) self.assertNotEqual(res_count, 0) self._cc_client.removeRunReports([run_id], checker_filter, None) res_count = self._cc_client.getRunResultCount([run_id], checker_filter, None) self.assertEqual(res_count, 0) # Remove the run. self._cc_client.removeRun(run_id, None) # Check that we removed all results from the run. res = self._cc_client.getRunResultCount([run_id], None, None) self.assertEqual(res, 0)
def __get_files_in_report(self, run_name): codechecker.check_and_store(self.codechecker_cfg, run_name, self.test_dir) run_id = self.__get_run_id([run_name]) reports \ = self._cc_client.getRunResults([run_id], 10, 0, [], None, None, False) details = self._cc_client.getReportDetails(reports[0].reportId) files = set() files.update([bp.fileId for bp in details.pathEvents]) files.update([bp.fileId for bp in details.executionPath]) file_ids = set() for file_id in files: file_data = self._cc_client.getSourceFileData(file_id, False, None) if file_data.fileId is not None: file_ids.add(file_data.fileId) return file_ids
def setup_package(): """Setup the environment for the tests. """ global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('cleanup_plan') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_project = 'cpp' test_project_path = project.path(test_project) test_config = {} project_info = project.get_info(test_project) test_config['test_project'] = project_info test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'reportdir': os.path.join(TEST_WORKSPACE, 'reports'), 'checkers': [] } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = 'cleanup_plan' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Check the test project for the first time. test_project_name = project_info['name'] + '_' + uuid.uuid4().hex ret = codechecker.check_and_store(codechecker_cfg, test_project_name, test_project_path) if ret: sys.exit(1) print("Analyzing test project was successful.") codechecker_cfg['run_names'] = [test_project_name] test_config['codechecker_cfg'] = codechecker_cfg env.export_test_cfg(TEST_WORKSPACE, test_config)
def setup_package(): """Setup the environment for the tests. """ global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('comment') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_project = 'cpp' test_project_path = project.path(test_project) test_config = {} project_info = project.get_info(test_project) test_config['test_project'] = project_info suppress_file = None skip_list_file = None test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'reportdir': os.path.join(TEST_WORKSPACE, 'reports'), 'checkers': ['-d', 'core.CallAndMessage', '-e', 'core.StackAddressEscape'] } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server(auth_required=True) server_access['viewer_product'] = 'comment' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Check the test project for the first time. test_project_names = [] test_project_name = project_info['name'] + '_' + uuid.uuid4().hex test_project_names.append(test_project_name) ret = codechecker.check_and_store(codechecker_cfg, test_project_name, test_project_path) if ret: sys.exit(1) print("Analyzing test project was successful.") # Check the test project again. test_project_name = project_info['name'] + '_' + uuid.uuid4().hex test_project_names.append(test_project_name) ret = codechecker.check_and_store(codechecker_cfg, test_project_name, test_project_path) if ret: sys.exit(1) print("Analyzing test project was succcessful.") codechecker_cfg['run_names'] = test_project_names test_config['codechecker_cfg'] = codechecker_cfg env.export_test_cfg(TEST_WORKSPACE, test_config)
def setup_package(): """Setup the environment for testing products.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('producttest') # Set the TEST_WORKSPACE used by the tests. os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_config = {} test_project = 'single_bug' project_info = project.get_info(test_project) # Copy the test project to the workspace. The tests should # work only on this test project. test_proj_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_proj_path) project_info['project_path'] = test_proj_path # Generate a unique name for this test run. test_project_name = project_info['name'] + '_' + uuid.uuid4().hex test_config['test_project'] = project_info # Get an environment which should be used by the tests. test_env = env.test_env(TEST_WORKSPACE) # Create a basic CodeChecker config for the tests, this should # be imported by the tests and they should only depend on these # configuration options. codechecker_cfg = { 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [] } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server(auth_required=True) server_access['viewer_product'] = 'producttest' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Clean the test project, if needed by the tests. ret = project.clean(test_project) if ret: sys.exit(ret) # Check the test project, if needed by the tests. ret = codechecker.check_and_store(codechecker_cfg, test_project_name, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") # Save the run names in the configuration. codechecker_cfg['run_names'] = [test_project_name] test_config['codechecker_cfg'] = codechecker_cfg # Export the test configuration to the workspace. env.export_test_cfg(TEST_WORKSPACE, test_config)
def setup_package(): """Setup the environment for the tests.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('cmdline') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_project = 'cpp' test_config = {} project_info = project.get_info(test_project) # Copy the test project to the workspace. The tests should # work only on this test project. test_proj_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_proj_path) project_info['project_path'] = test_proj_path test_config['test_project'] = project_info suppress_file = None skip_list_file = None test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [], 'description': "Runs for command line test." } ret = project.clean(test_project) if ret: sys.exit(ret) # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = 'cmdline' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Generate a unique name for this test run. test_project_name_1 = project_info['name'] + '1_' + uuid.uuid4().hex ret = codechecker.check_and_store(codechecker_cfg, test_project_name_1, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") test_project_name_2 = project_info['name'] + '2_' + uuid.uuid4().hex ret = codechecker.check_and_store(codechecker_cfg, test_project_name_2, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") codechecker_cfg['run_names'] = [test_project_name_1, test_project_name_2] test_config['codechecker_cfg'] = codechecker_cfg env.export_test_cfg(TEST_WORKSPACE, test_config)
def setup_package(): """Setup the environment for testing delete_runs.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('delete_runs') # Set the TEST_WORKSPACE used by the tests. os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_config = {} test_project = 'simple' project_info = project.get_info(test_project) # Copy the test project to the workspace. The tests should # work only on this test project. test_proj_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_proj_path) project_info['project_path'] = test_proj_path # Generate a unique name for this test run. test_project_name = project_info['name'] test_config['test_project'] = project_info # Suppress file should be set here if needed by the tests. suppress_file = None # Skip list file should be set here if needed by the tests. skip_list_file = None # Get an environment which should be used by the tests. test_env = env.test_env(TEST_WORKSPACE) # Create a basic CodeChecker config for the tests, this should # be imported by the tests and they should only depend on these # configuration options. codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [] } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = 'delete_runs' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) for i in range(0, 5): # Clean the test project, if needed by the tests. ret = project.clean(test_project) if ret: sys.exit(ret) # Check the test project, if needed by the tests. ret = codechecker.check_and_store(codechecker_cfg, test_project_name + '_' + str(i), test_proj_path) if ret: sys.exit(1) print("Analyzing the test project was successful {}.".format(str(i))) # If the check process is very fast, datetime of multiple runs can be # almost the same different in microseconds. Test cases of delete runs # can be failed for this reason because we didn't process microseconds # in command line arguments. time.sleep(1) # Save the run names in the configuration. codechecker_cfg['run_names'] \ = [test_project_name + '_' + str(i) for i in range(0, 5)] test_config['codechecker_cfg'] = codechecker_cfg # Export the test configuration to the workspace. env.export_test_cfg(TEST_WORKSPACE, test_config)
def _check_source_file(self, cfg): codechecker.check_and_store(cfg, self._run_name, self._test_dir)
def setup_package(): """Setup the environment for the tests.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('report_viewer_api') os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE test_project = 'cpp' test_config = {} project_info = project.get_info(test_project) test_proj_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_proj_path) project_info['project_path'] = test_proj_path test_config['test_project'] = project_info suppress_file = None skip_list_file = None tag = 'v1.0' test_env = env.test_env(TEST_WORKSPACE) codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': ['-e', 'clang-diagnostic-return-type'], 'tag': tag } ret = project.clean(test_project) if ret: sys.exit(ret) # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = 'report_viewer_api' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) test_project_name = project_info['name'] + '_' + uuid.uuid4().hex + '**' ret = codechecker.check_and_store(codechecker_cfg, test_project_name, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") test_project_name_new = project_info['name'] + '*' + uuid.uuid4().hex + '%' # Let's run the second analysis with different # checkers to have some real difference. codechecker_cfg['checkers'] = ['-e', 'core.CallAndMessage', '-d', 'core.StackAddressEscape', '-d', 'unix.Malloc' ] codechecker_cfg['tag'] = None ret = codechecker.check_and_store(codechecker_cfg, test_project_name_new, project.path(test_project)) if ret: sys.exit(1) print("Second analysis of the test project was successful.") test_project_name_third = project_info['name'] + uuid.uuid4().hex # Let's run the third analysis. ret = codechecker.check_and_store(codechecker_cfg, test_project_name_third, project.path(test_project)) if ret: sys.exit(1) print("Third analysis of the test project was successful.") # Let's run the second analysis and updat the same run. codechecker_cfg['checkers'] = ['-d', 'core.StackAddressEscape'] ret = codechecker.check_and_store(codechecker_cfg, test_project_name_third, project.path(test_project)) if ret: sys.exit(1) print("4th analysis of the test project was successful.") codechecker_cfg['run_names'] = [test_project_name, test_project_name_new] test_config['codechecker_cfg'] = codechecker_cfg env.export_test_cfg(TEST_WORKSPACE, test_config)
def test_suppress_comment_in_db(self): """ Exported source suppress comment stored as a review status in the db. """ runid = self._runid logging.debug("Get all run results from the db for runid: " + str(runid)) hash_to_suppress_msgs = {} with open(os.path.join(self._test_project_path, "suppress.expected"), 'r', encoding="utf-8", errors="ignore") as expected: for line in expected: src_code_info = line.strip().split('||') status = None if len(src_code_info) == 4: # Newest source code comment format where status is given. bug_hash, _, msg, status = src_code_info elif len(src_code_info) == 3: # Old format where review status is not given. bug_hash, _, msg = src_code_info else: # Oldest source code comment format where status and file # name are not given. bug_hash, msg = src_code_info rw_status = ReviewStatus.FALSE_POSITIVE if status == 'confirmed': rw_status = ReviewStatus.CONFIRMED elif status == 'intentional': rw_status = ReviewStatus.INTENTIONAL hash_to_suppress_msgs[bug_hash] = {'message': msg, 'status': rw_status} run_results = get_all_run_results(self._cc_client, runid) self.assertIsNotNone(run_results) self.assertNotEqual(len(run_results), 0) for bug_hash in hash_to_suppress_msgs: expected = hash_to_suppress_msgs[bug_hash] report = [x for x in run_results if x.bugHash == bug_hash][0] # Check the stored suppress comment self.assertEqual(report.reviewData.comment, expected['message']) self.assertEqual(report.reviewData.status, expected['status']) # Change review status to confirmed bug. review_comment = "This is really a bug" status = ReviewStatus.CONFIRMED success = self._cc_client.changeReviewStatus( report.reportId, status, review_comment) self.assertTrue(success) logging.debug("Bug review status changed successfully") # Get the results to compare. updated_results = get_all_run_results(self._cc_client, self._runid) self.assertIsNotNone(updated_results) self.assertNotEqual(len(updated_results), 0) for bug_hash in hash_to_suppress_msgs: report = [x for x in updated_results if x.bugHash == bug_hash][0] # Check the stored suppress comment self.assertEqual(report.reviewData.comment, "This is really a bug") self.assertEqual(report.reviewData.status, ReviewStatus.CONFIRMED) # Check the same project again. codechecker_cfg = env.import_test_cfg( self._test_workspace)['codechecker_cfg'] initial_test_project_name = self._run_name ret = codechecker.check_and_store(codechecker_cfg, initial_test_project_name, self._test_project_path) if ret: sys.exit(1) # Get the results to compare. updated_results = get_all_run_results(self._cc_client, self._runid) self.assertIsNotNone(updated_results) self.assertNotEqual(len(updated_results), 0) for bug_hash in hash_to_suppress_msgs: expected = hash_to_suppress_msgs[bug_hash] report = [x for x in updated_results if x.bugHash == bug_hash][0] # Check that source code comments in the database are changed back # after storage. self.assertEqual(report.reviewData.comment, expected['message']) self.assertEqual(report.reviewData.status, expected['status'])
def test_garbage_file_collection(self): event = multiprocessing.Event() event.clear() self.codechecker_cfg['viewer_port'] = env.get_free_port() env.export_test_cfg(self.test_workspace, {'codechecker_cfg': self.codechecker_cfg}) env.enable_auth(self.test_workspace) server_access = codechecker.start_server(self.codechecker_cfg, event) server_access['viewer_port'] \ = self.codechecker_cfg['viewer_port'] server_access['viewer_product'] \ = self.codechecker_cfg['viewer_product'] codechecker.add_test_package_product(server_access, self.test_workspace) self._cc_client = env.setup_viewer_client(self.test_workspace) self.assertIsNotNone(self._cc_client) run_name1 = 'db_cleanup_test' run_name2 = f'{run_name1}2' self.__create_test_dir() # Store the results. codechecker.check_and_store(self.codechecker_cfg, run_name1, self.test_dir) # Store the results to a different run too to see if we remove only one # run, comments and review statuses not cleared. codechecker.check_and_store(self.codechecker_cfg, run_name2, self.test_dir) run_id1 = self.__get_run_id([run_name1]) report = self._cc_client.getRunResults(None, 1, 0, [], None, None, False)[0] report_hash = report.bugHash report_id = report.reportId # Add a new comment. comment = CommentData(author='anybody', message='Msg') success = self._cc_client.addComment(report_id, comment) self.assertTrue(success) # Change review status. success = self._cc_client.changeReviewStatus(report_id, ReviewStatus.CONFIRMED, 'Real bug') self.assertTrue(success) # Remove the first storage. self._cc_client.removeRun(run_id1, None) # Comments and review statuses are not cleared, because the second # run results still reference them. run_id2 = self.__get_run_id([run_name2]) r_filter = ReportFilter(reviewStatus=[ReviewStatus.CONFIRMED]) run_results = self._cc_client.getRunResults([run_id2], 1, 0, None, r_filter, None, False) self.assertTrue(run_results) comments = self._cc_client.getComments(run_results[0].reportId) self.assertTrue(comments) # Remove the second run too, so it will cleanup the unused commments # and review statuses. self._cc_client.removeRun(run_id2, None) # Store results again and check that previous comments and review # statuses are gone. files_in_report_before = self.__get_files_in_report(run_name1) r_filter = ReportFilter(reportHash=[report_hash]) report = self._cc_client.getRunResults(None, 1, 0, None, r_filter, None, False)[0] report_id = report.reportId comments = self._cc_client.getComments(report_id) self.assertFalse(comments) r_filter = ReportFilter(reviewStatus=[ReviewStatus.CONFIRMED]) run_results = self._cc_client.getRunResults(None, 1, 0, None, r_filter, None, False) self.assertFalse(run_results) # Checker severity levels. self.__check_serverity_of_reports(run_name1) self.__rename_project_dir() # Delete previous analysis report directory. rmtree(self.codechecker_cfg['reportdir']) files_in_report_after = self.__get_files_in_report(run_name1) event.set() event.clear() # Change severity level of core.DivideZero to LOW. with open(self.workspace_severity_cfg, 'r+', encoding='utf-8', errors='ignore') as severity_cgf_file: severity_map = json.load(severity_cgf_file) severity_map['core.DivideZero'] = 'LOW' severity_cgf_file.seek(0) severity_cgf_file.truncate() severity_cgf_file.write(str(json.dumps(severity_map))) self.codechecker_cfg['viewer_port'] = env.get_free_port() env.export_test_cfg(self.test_workspace, {'codechecker_cfg': self.codechecker_cfg}) codechecker.start_server(self.codechecker_cfg, event) codechecker.login(self.codechecker_cfg, self.test_workspace, 'cc', 'test') self._cc_client = env.setup_viewer_client(self.test_workspace) self.assertIsNotNone(self._cc_client) self.assertEqual(len(files_in_report_before & files_in_report_after), 0) for file_id in files_in_report_before: f = self._cc_client.getSourceFileData(file_id, False, None) self.assertIsNone(f.fileId) # Checker severity levels. self.__check_serverity_of_reports(run_name1) event.set()
def _check_source_file(self, cfg): codechecker.check_and_store(cfg, 'hello', self._test_dir)
def setup_package(): """Setup the environment for testing $TEST_NAME$.""" global TEST_WORKSPACE TEST_WORKSPACE = env.get_workspace('$TEST_NAME$') # Set the TEST_WORKSPACE used by the tests. os.environ['TEST_WORKSPACE'] = TEST_WORKSPACE # Get the clang version which is used for testing. # Important because different clang releases might # find different errors. clang_version = env.clang_to_test() test_config = {} test_project = 'cpp' project_info = project.get_info(test_project) # Copy the test project to the workspace. The tests should # work only on this test project. test_proj_path = os.path.join(TEST_WORKSPACE, "test_proj") shutil.copytree(project.path(test_project), test_proj_path) project_info['project_path'] = test_proj_path # Generate a unique name for this test run. test_project_name = project_info['name'] + '_' + uuid.uuid4().hex test_config['test_project'] = project_info # Suppress file should be set here if needed by the tests. suppress_file = None # Skip list file should be set here if needed by the tests. skip_list_file = None # Get an environment which should be used by the tests. test_env = env.test_env(TEST_WORKSPACE) # Create a basic CodeChecker config for the tests, this should # be imported by the tests and they should only depend on these # configuration options. codechecker_cfg = { 'suppress_file': suppress_file, 'skip_list_file': skip_list_file, 'check_env': test_env, 'workspace': TEST_WORKSPACE, 'checkers': [] } # Start or connect to the running CodeChecker server and get connection # details. print("This test uses a CodeChecker server... connecting...") server_access = codechecker.start_or_get_server() server_access['viewer_product'] = '$TEST_NAME$' codechecker.add_test_package_product(server_access, TEST_WORKSPACE) # Extend the checker configuration with the server access. codechecker_cfg.update(server_access) # Clean the test project, if needed by the tests. ret = project.clean(test_project) if ret: sys.exit(ret) # Check the test project, if needed by the tests. ret = codechecker.check_and_store(codechecker_cfg, test_project_name, project.path(test_project)) if ret: sys.exit(1) print("Analyzing the test project was successful.") # Save the run names in the configuration. codechecker_cfg['run_names'] = [test_project_name] test_config['codechecker_cfg'] = codechecker_cfg # Export the test configuration to the workspace. env.export_test_cfg(TEST_WORKSPACE, test_config)