def handle_request_for_new_build(self, build_params): """ Creates a new Build object and adds it to the request queue to be processed. :param build_params: :type build_params: dict[str, str] :rtype tuple [bool, dict [str, str]] """ build_request = BuildRequest(build_params) success = False if build_request.is_valid(): build = Build(build_request) self._all_builds_by_id[build.build_id()] = build build.generate_project_type() self._build_request_handler.handle_build_request(build) response = {'build_id': build.build_id()} success = True elif not build_request.is_valid_type(): response = {'error': 'Invalid build request type.'} else: required_params = build_request.required_parameters() response = { 'error': 'Missing required parameter. Required parameters: {}'.format( required_params) } return success, response # todo: refactor to use exception instead of boolean
def handle_request_for_new_build(self, build_params): """ Creates a new Build object and adds it to the request queue to be processed. :param build_params: :type build_params: dict[str, str] :rtype tuple [bool, dict [str, str]] """ build_request = BuildRequest(build_params) success = False if build_request.is_valid(): build = Build(build_request) self._all_builds_by_id[build.build_id()] = build build.generate_project_type() # WIP(joey): This should be internal to the Build object. self._build_request_handler.handle_build_request(build) response = {'build_id': build.build_id()} success = True elif not build_request.is_valid_type(): response = {'error': 'Invalid build request type.'} else: required_params = build_request.required_parameters() response = {'error': 'Missing required parameter. Required parameters: {}'.format(required_params)} return success, response # todo: refactor to use exception instead of boolean
def test_handle_result_reported_from_slave_when_build_is_canceled(self): build_id = 1 slave_url = "url" build = Build(BuildRequest({})) self.patch('app.master.build.util') build.generate_project_type() build.cancel() self.patch_object(build, '_handle_subjob_payload') self.patch_object(build, '_mark_subjob_complete') master = ClusterMaster() slave_registry = SlaveRegistry.singleton() BuildStore._all_builds_by_id[build_id] = build slave_registry._all_slaves_by_url[slave_url] = Mock() mock_scheduler = self.mock_scheduler_pool.get(build) master.handle_result_reported_from_slave(slave_url, build_id, 1) self.assertEqual(build._handle_subjob_payload.call_count, 1, "Canceled builds should " "handle payload") self.assertEqual( build._mark_subjob_complete.call_count, 1, "Canceled builds should mark " "their subjobs complete") self.assertTrue( mock_scheduler.execute_next_subjob_or_free_executor.called)
def test_deserialized_build_api_representation_is_same_as_original_build_no_failures( self): build = Build( BuildRequest({ 'type': 'git', 'url': 'git@name/repo.git', 'job_name': 'Example' })) build.generate_project_type() BuildStore.add(build) reconstructed_build = Build.load_from_db(build.build_id()) original_build_results = build.api_representation() reconstructed_build_results = reconstructed_build.api_representation() diff = self._compare_dictionaries_with_same_keys( original_build_results, reconstructed_build_results) # The build_project_directory is an auto generated tmp directory -- these will never be the same diff.pop('request_params|build_project_directory', None) # This is very similar to self.assertDictEqual, but here we won't consider different key orderings # as "not equal" which matters because `api_representation` does not have deterministic ordering self.assertEqual( diff, {}, 'Deserialized build is not the same as the original build.')
def test_generate_project_type_raises_error_if_failed_to_generate_project( self): build = Build(BuildRequest({})) self.patch( 'app.master.build.util.create_project_type').return_value = None with self.assertRaises(BuildProjectError): build.generate_project_type()
def test_handle_result_reported_from_slave_when_build_is_canceled(self): build_id = 1 slave_url = "url" build = Build(BuildRequest({})) self.patch('app.master.build.util') build.generate_project_type() build.cancel() self.patch_object(build, '_handle_subjob_payload') self.patch_object(build, '_mark_subjob_complete') master = ClusterMaster() slave_registry = SlaveRegistry.singleton() BuildStore._all_builds_by_id[build_id] = build slave_registry._all_slaves_by_url[slave_url] = Mock() mock_scheduler = self.mock_scheduler_pool.get(build) master.handle_result_reported_from_slave(slave_url, build_id, 1) self.assertEqual(build._handle_subjob_payload.call_count, 1, "Canceled builds should " "handle payload") self.assertEqual(build._mark_subjob_complete.call_count, 1, "Canceled builds should mark " "their subjobs complete") self.assertTrue(mock_scheduler.execute_next_subjob_or_free_executor.called)
def _create_test_build( self, build_status=None, job_config=None, num_subjobs=3, num_atoms_per_subjob=3, slaves=None, ): """ Create a Build instance for testing purposes. The instance will be created and brought to the specified state similarly to how it would reach that state in actual app execution. Build instances have a huge amount of internal state with complicated interactions, so this helper method helps us write tests that are much more consistent and closer to reality. It also helps us avoid modifying a build's private members directly. :type build_status: BuildStatus :rtype: Build """ build = Build(BuildRequest(build_parameters={})) if build_status is None: return build # QUEUED: Instantiate a mock project_type instance for the build. mock_project_type = self._create_mock_project_type() self.patch('app.master.build.util.create_project_type' ).return_value = mock_project_type build.generate_project_type() if build_status is BuildStatus.QUEUED: return build # PREPARED: Create a fake job config and subjobs and hand them off to the build. job_config = job_config or self._create_job_config() mock_project_type.job_config.return_value = job_config subjobs = self._create_subjobs(count=num_subjobs, num_atoms_each=num_atoms_per_subjob, job_config=job_config) subjob_calculator = self._create_mock_subjob_calc(subjobs) build.prepare(subjob_calculator) if build_status is BuildStatus.PREPARED: return build # BUILDING: Allocate a slave and begin subjob executions on that slave. slaves = slaves or [self._create_mock_slave()] scheduler = self.scheduler_pool.get(build) for slave in slaves: scheduler.allocate_slave(slave=slave) scheduler.begin_subjob_executions_on_slave(slave=slave) if build_status is BuildStatus.BUILDING: return build # ERROR: Mark the in-progress build as failed. if build_status is BuildStatus.ERROR: build.mark_failed( failure_reason='Test build was intentionally marked failed.') return build # CANCELED: Cancel the in-progress build. if build_status is BuildStatus.CANCELED: build.cancel() return build # FINISHED: Complete all subjobs and allow all postbuild tasks to execute. self._finish_test_build(build) if build_status is BuildStatus.FINISHED: return build raise ValueError( 'Unsupported value for build_status: "{}".'.format(build_status))
def _create_test_build( self, build_status=None, job_config=None, num_subjobs=3, num_atoms_per_subjob=3, slaves=None, ): """ Create a Build instance for testing purposes. The instance will be created and brought to the specified state similarly to how it would reach that state in actual app execution. Build instances have a huge amount of internal state with complicated interactions, so this helper method helps us write tests that are much more consistent and closer to reality. It also helps us avoid modifying a build's private members directly. :type build_status: BuildStatus :rtype: Build """ build = Build(BuildRequest(build_parameters={})) if build_status is None: return build # QUEUED: Instantiate a mock project_type instance for the build. mock_project_type = self._create_mock_project_type() self.patch('app.master.build.util.create_project_type').return_value = mock_project_type build.generate_project_type() if build_status is BuildStatus.QUEUED: return build # PREPARED: Create a fake job config and subjobs and hand them off to the build. job_config = job_config or self._create_job_config() mock_project_type.job_config.return_value = job_config subjobs = self._create_subjobs(count=num_subjobs, num_atoms_each=num_atoms_per_subjob, job_config=job_config) subjob_calculator = self._create_mock_subjob_calc(subjobs) build.prepare(subjob_calculator) if build_status is BuildStatus.PREPARED: return build # BUILDING: Allocate a slave and begin subjob executions on that slave. slaves = slaves or [self._create_mock_slave()] scheduler = self.scheduler_pool.get(build) for slave in slaves: scheduler.allocate_slave(slave=slave) scheduler.begin_subjob_executions_on_slave(slave=slave) if build_status is BuildStatus.BUILDING: return build # ERROR: Mark the in-progress build as failed. if build_status is BuildStatus.ERROR: build.mark_failed(failure_reason='Test build was intentionally marked failed.') return build # CANCELED: Cancel the in-progress build. if build_status is BuildStatus.CANCELED: build.cancel() return build # FINISHED: Complete all subjobs and allow all postbuild tasks to execute. self._finish_test_build(build) if build_status is BuildStatus.FINISHED: return build raise ValueError('Unsupported value for build_status: "{}".'.format(build_status))
def test_generate_project_type_raises_error_if_failed_to_generate_project(self): build = Build(BuildRequest({})) self.patch('app.master.build.util.create_project_type').return_value = None with self.assertRaises(BuildProjectError): build.generate_project_type()