| # Licensed to the Apache Software Foundation (ASF) under one or more |
| # contributor license agreements. See the NOTICE file distributed with |
| # this work for additional information regarding copyright ownership. |
| # The ASF licenses this file to You 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. |
| |
| import json |
| import time |
| from threading import Thread, Event |
| from datetime import datetime |
| |
| import mock |
| import pytest |
| |
| from aria.modeling import exceptions as modeling_exceptions |
| from aria.modeling import models |
| from aria.orchestrator import exceptions |
| from aria.orchestrator import events |
| from aria.orchestrator.workflow_runner import WorkflowRunner |
| from aria.orchestrator.workflows.executor.process import ProcessExecutor |
| from aria.orchestrator.workflows import api |
| from aria.orchestrator.workflows.core import engine, graph_compiler |
| from aria.orchestrator.workflows.executor import thread |
| from aria.orchestrator import ( |
| workflow, |
| operation, |
| ) |
| |
| from tests import ( |
| mock as tests_mock, |
| storage |
| ) |
| |
| from ..fixtures import ( # pylint: disable=unused-import |
| plugins_dir, |
| plugin_manager, |
| fs_model as model, |
| resource_storage as resource |
| ) |
| |
| custom_events = { |
| 'is_resumed': Event(), |
| 'is_active': Event(), |
| 'execution_cancelled': Event(), |
| 'execution_failed': Event(), |
| } |
| |
| |
| class TimeoutError(BaseException): |
| pass |
| |
| |
| class FailingTask(BaseException): |
| pass |
| |
| |
| def test_undeclared_workflow(request): |
| # validating a proper error is raised when the workflow is not declared in the service |
| with pytest.raises(exceptions.UndeclaredWorkflowError): |
| _create_workflow_runner(request, 'undeclared_workflow') |
| |
| |
| def test_missing_workflow_implementation(service, request): |
| # validating a proper error is raised when the workflow code path does not exist |
| workflow = models.Operation( |
| name='test_workflow', |
| service=service, |
| function='nonexistent.workflow.implementation') |
| service.workflows['test_workflow'] = workflow |
| |
| with pytest.raises(exceptions.WorkflowImplementationNotFoundError): |
| _create_workflow_runner(request, 'test_workflow') |
| |
| |
| def test_builtin_workflow_instantiation(request): |
| # validates the workflow runner instantiates properly when provided with a builtin workflow |
| # (expecting no errors to be raised on undeclared workflow or missing workflow implementation) |
| workflow_runner = _create_workflow_runner(request, 'install') |
| tasks = list(workflow_runner.execution.tasks) |
| assert len(tasks) == 18 # expecting 18 tasks for 2 node topology |
| |
| |
| def test_custom_workflow_instantiation(request): |
| # validates the workflow runner instantiates properly when provided with a custom workflow |
| # (expecting no errors to be raised on undeclared workflow or missing workflow implementation) |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| workflow_runner = _create_workflow_runner(request, mock_workflow) |
| tasks = list(workflow_runner.execution.tasks) |
| assert len(tasks) == 2 # mock workflow creates only start workflow and end workflow task |
| |
| |
| def test_existing_active_executions(request, service, model): |
| existing_active_execution = models.Execution( |
| service=service, |
| status=models.Execution.STARTED, |
| workflow_name='uninstall') |
| model.execution.put(existing_active_execution) |
| with pytest.raises(exceptions.ActiveExecutionsError): |
| _create_workflow_runner(request, 'install') |
| |
| |
| def test_existing_executions_but_no_active_ones(request, service, model): |
| existing_terminated_execution = models.Execution( |
| service=service, |
| status=models.Execution.SUCCEEDED, |
| workflow_name='uninstall') |
| model.execution.put(existing_terminated_execution) |
| # no active executions exist, so no error should be raised |
| _create_workflow_runner(request, 'install') |
| |
| |
| def test_default_executor(request): |
| # validates the ProcessExecutor is used by the workflow runner by default |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine') as mock_engine_cls: |
| _create_workflow_runner(request, mock_workflow) |
| _, engine_kwargs = mock_engine_cls.call_args |
| assert isinstance(engine_kwargs.get('executors').values()[0], ProcessExecutor) |
| |
| |
| def test_custom_executor(request): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| custom_executor = mock.MagicMock() |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine') as mock_engine_cls: |
| _create_workflow_runner(request, mock_workflow, executor=custom_executor) |
| _, engine_kwargs = mock_engine_cls.call_args |
| assert engine_kwargs.get('executors').values()[0] == custom_executor |
| |
| |
| def test_task_configuration_parameters(request): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| task_max_attempts = 5 |
| task_retry_interval = 7 |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine.execute') as \ |
| mock_engine_execute: |
| _create_workflow_runner(request, mock_workflow, task_max_attempts=task_max_attempts, |
| task_retry_interval=task_retry_interval).execute() |
| _, engine_kwargs = mock_engine_execute.call_args |
| assert engine_kwargs['ctx']._task_max_attempts == task_max_attempts |
| assert engine_kwargs['ctx']._task_retry_interval == task_retry_interval |
| |
| |
| def test_execute(request, service): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| mock_engine = mock.MagicMock() |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine.execute', |
| return_value=mock_engine) as mock_engine_execute: |
| workflow_runner = _create_workflow_runner(request, mock_workflow) |
| workflow_runner.execute() |
| |
| _, engine_kwargs = mock_engine_execute.call_args |
| assert engine_kwargs['ctx'].service.id == service.id |
| assert engine_kwargs['ctx'].execution.workflow_name == 'test_workflow' |
| |
| mock_engine_execute.assert_called_once_with(ctx=workflow_runner._workflow_context, |
| resuming=False, |
| retry_failed=False) |
| |
| |
| def test_cancel_execution(request): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| mock_engine = mock.MagicMock() |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine', return_value=mock_engine): |
| workflow_runner = _create_workflow_runner(request, mock_workflow) |
| workflow_runner.cancel() |
| mock_engine.cancel_execution.assert_called_once_with(ctx=workflow_runner._workflow_context) |
| |
| |
| def test_execution_model_creation(request, service, model): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine'): |
| workflow_runner = _create_workflow_runner(request, mock_workflow) |
| |
| assert model.execution.get(workflow_runner.execution.id) == workflow_runner.execution |
| assert workflow_runner.execution.service.id == service.id |
| assert workflow_runner.execution.workflow_name == mock_workflow |
| assert workflow_runner.execution.created_at <= datetime.utcnow() |
| assert workflow_runner.execution.inputs == dict() |
| |
| |
| def test_execution_inputs_override_workflow_inputs(request): |
| wf_inputs = {'input1': 'value1', 'input2': 'value2', 'input3': 5} |
| mock_workflow = _setup_mock_workflow_in_service( |
| request, |
| inputs=dict((name, models.Input.wrap(name, val)) for name, val |
| in wf_inputs.iteritems())) |
| |
| with mock.patch('aria.orchestrator.workflow_runner.engine.Engine'): |
| workflow_runner = _create_workflow_runner( |
| request, mock_workflow, inputs={'input2': 'overriding-value2', 'input3': 7}) |
| |
| assert len(workflow_runner.execution.inputs) == 3 |
| # did not override input1 - expecting the default value from the workflow inputs |
| assert workflow_runner.execution.inputs['input1'].value == 'value1' |
| # overrode input2 |
| assert workflow_runner.execution.inputs['input2'].value == 'overriding-value2' |
| # overrode input of integer type |
| assert workflow_runner.execution.inputs['input3'].value == 7 |
| |
| |
| def test_execution_inputs_undeclared_inputs(request): |
| mock_workflow = _setup_mock_workflow_in_service(request) |
| |
| with pytest.raises(modeling_exceptions.UndeclaredInputsException): |
| _create_workflow_runner(request, mock_workflow, inputs={'undeclared_input': 'value'}) |
| |
| |
| def test_execution_inputs_missing_required_inputs(request): |
| mock_workflow = _setup_mock_workflow_in_service( |
| request, inputs={'required_input': models.Input.wrap('required_input', value=None)}) |
| |
| with pytest.raises(modeling_exceptions.MissingRequiredInputsException): |
| _create_workflow_runner(request, mock_workflow, inputs={}) |
| |
| |
| def test_execution_inputs_wrong_type_inputs(request): |
| mock_workflow = _setup_mock_workflow_in_service( |
| request, inputs={'input': models.Input.wrap('input', 'value')}) |
| |
| with pytest.raises(modeling_exceptions.ParametersOfWrongTypeException): |
| _create_workflow_runner(request, mock_workflow, inputs={'input': 5}) |
| |
| |
| def test_execution_inputs_builtin_workflow_with_inputs(request): |
| # built-in workflows don't have inputs |
| with pytest.raises(modeling_exceptions.UndeclaredInputsException): |
| _create_workflow_runner(request, 'install', inputs={'undeclared_input': 'value'}) |
| |
| |
| def test_workflow_function_parameters(request, tmpdir): |
| # validating the workflow function is passed with the |
| # merged execution inputs, in dict form |
| |
| # the workflow function parameters will be written to this file |
| output_path = str(tmpdir.join('output')) |
| wf_inputs = {'output_path': output_path, 'input1': 'value1', 'input2': 'value2', 'input3': 5} |
| |
| mock_workflow = _setup_mock_workflow_in_service( |
| request, inputs=dict((name, models.Input.wrap(name, val)) for name, val |
| in wf_inputs.iteritems())) |
| |
| _create_workflow_runner(request, mock_workflow, |
| inputs={'input2': 'overriding-value2', 'input3': 7}) |
| |
| with open(output_path) as f: |
| wf_call_kwargs = json.load(f) |
| assert len(wf_call_kwargs) == 3 |
| assert wf_call_kwargs.get('input1') == 'value1' |
| assert wf_call_kwargs.get('input2') == 'overriding-value2' |
| assert wf_call_kwargs.get('input3') == 7 |
| |
| |
| @pytest.fixture |
| def service(model): |
| # sets up a service in the storage |
| service_id = tests_mock.topology.create_simple_topology_two_nodes(model) |
| service = model.service.get(service_id) |
| return service |
| |
| |
| def _setup_mock_workflow_in_service(request, inputs=None): |
| # sets up a mock workflow as part of the service, including uploading |
| # the workflow code to the service's dir on the resource storage |
| service = request.getfixturevalue('service') |
| resource = request.getfixturevalue('resource') |
| |
| source = tests_mock.workflow.__file__ |
| resource.service_template.upload(str(service.service_template.id), source) |
| mock_workflow_name = 'test_workflow' |
| arguments = {} |
| if inputs: |
| for input in inputs.itervalues(): |
| arguments[input.name] = input.as_argument() |
| workflow = models.Operation( |
| name=mock_workflow_name, |
| service=service, |
| function='workflow.mock_workflow', |
| inputs=inputs or {}, |
| arguments=arguments) |
| service.workflows[mock_workflow_name] = workflow |
| return mock_workflow_name |
| |
| |
| def _create_workflow_runner(request, workflow_name, inputs=None, executor=None, |
| task_max_attempts=None, task_retry_interval=None): |
| # helper method for instantiating a workflow runner |
| service_id = request.getfixturevalue('service').id |
| model = request.getfixturevalue('model') |
| resource = request.getfixturevalue('resource') |
| plugin_manager = request.getfixturevalue('plugin_manager') |
| |
| # task configuration parameters can't be set to None, therefore only |
| # passing those if they've been set by the test |
| task_configuration_kwargs = dict() |
| if task_max_attempts is not None: |
| task_configuration_kwargs['task_max_attempts'] = task_max_attempts |
| if task_retry_interval is not None: |
| task_configuration_kwargs['task_retry_interval'] = task_retry_interval |
| |
| return WorkflowRunner( |
| workflow_name=workflow_name, |
| service_id=service_id, |
| inputs=inputs or {}, |
| executor=executor, |
| model_storage=model, |
| resource_storage=resource, |
| plugin_manager=plugin_manager, |
| **task_configuration_kwargs) |
| |
| |
| class TestResumableWorkflows(object): |
| |
| def _create_initial_workflow_runner( |
| self, workflow_context, workflow, executor, inputs=None): |
| |
| service = workflow_context.service |
| service.workflows['custom_workflow'] = tests_mock.models.create_operation( |
| 'custom_workflow', |
| operation_kwargs={ |
| 'function': '{0}.{1}'.format(__name__, workflow.__name__), |
| 'inputs': dict((k, models.Input.wrap(k, v)) for k, v in (inputs or {}).items()) |
| } |
| ) |
| workflow_context.model.service.update(service) |
| |
| wf_runner = WorkflowRunner( |
| service_id=workflow_context.service.id, |
| inputs=inputs or {}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| workflow_name='custom_workflow', |
| executor=executor) |
| return wf_runner |
| |
| @staticmethod |
| def _wait_for_active_and_cancel(workflow_runner): |
| if custom_events['is_active'].wait(60) is False: |
| raise TimeoutError("is_active wasn't set to True") |
| workflow_runner.cancel() |
| if custom_events['execution_cancelled'].wait(60) is False: |
| raise TimeoutError("Execution did not end") |
| |
| def test_resume_workflow(self, workflow_context, thread_executor): |
| node = workflow_context.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| node.attributes['invocations'] = models.Attribute.wrap('invocations', 0) |
| self._create_interface(workflow_context, node, mock_pass_first_task_only) |
| |
| wf_runner = self._create_initial_workflow_runner( |
| workflow_context, mock_parallel_tasks_workflow, thread_executor, |
| inputs={'number_of_tasks': 2}) |
| |
| wf_thread = Thread(target=wf_runner.execute) |
| wf_thread.daemon = True |
| wf_thread.start() |
| |
| # Wait for the execution to start |
| self._wait_for_active_and_cancel(wf_runner) |
| node = workflow_context.model.node.refresh(node) |
| |
| tasks = workflow_context.model.task.list(filters={'_stub_type': None}) |
| assert any(task.status == task.SUCCESS for task in tasks) |
| assert any(task.status == task.RETRYING for task in tasks) |
| custom_events['is_resumed'].set() |
| assert any(task.status == task.RETRYING for task in tasks) |
| |
| # Create a new workflow runner, with an existing execution id. This would cause |
| # the old execution to restart. |
| new_wf_runner = WorkflowRunner( |
| service_id=wf_runner.service.id, |
| inputs={}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| execution_id=wf_runner.execution.id, |
| executor=thread_executor) |
| |
| new_wf_runner.execute() |
| |
| # Wait for it to finish and assert changes. |
| node = workflow_context.model.node.refresh(node) |
| assert all(task.status == task.SUCCESS for task in tasks) |
| assert node.attributes['invocations'].value == 3 |
| assert wf_runner.execution.status == wf_runner.execution.SUCCEEDED |
| |
| def test_resume_started_task(self, workflow_context, thread_executor): |
| node = workflow_context.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| node.attributes['invocations'] = models.Attribute.wrap('invocations', 0) |
| self._create_interface(workflow_context, node, mock_stuck_task) |
| |
| wf_runner = self._create_initial_workflow_runner( |
| workflow_context, mock_parallel_tasks_workflow, thread_executor, |
| inputs={'number_of_tasks': 1}) |
| |
| wf_thread = Thread(target=wf_runner.execute) |
| wf_thread.daemon = True |
| wf_thread.start() |
| |
| self._wait_for_active_and_cancel(wf_runner) |
| node = workflow_context.model.node.refresh(node) |
| task = workflow_context.model.task.list(filters={'_stub_type': None})[0] |
| assert node.attributes['invocations'].value == 1 |
| assert task.status == task.STARTED |
| assert wf_runner.execution.status in (wf_runner.execution.CANCELLED, |
| wf_runner.execution.CANCELLING) |
| custom_events['is_resumed'].set() |
| |
| new_thread_executor = thread.ThreadExecutor() |
| try: |
| new_wf_runner = WorkflowRunner( |
| service_id=wf_runner.service.id, |
| inputs={}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| execution_id=wf_runner.execution.id, |
| executor=new_thread_executor) |
| |
| new_wf_runner.execute() |
| finally: |
| new_thread_executor.close() |
| |
| # Wait for it to finish and assert changes. |
| node = workflow_context.model.node.refresh(node) |
| assert node.attributes['invocations'].value == 2 |
| assert task.status == task.SUCCESS |
| assert wf_runner.execution.status == wf_runner.execution.SUCCEEDED |
| |
| def test_resume_failed_task(self, workflow_context, thread_executor): |
| node = workflow_context.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| node.attributes['invocations'] = models.Attribute.wrap('invocations', 0) |
| self._create_interface(workflow_context, node, mock_failed_before_resuming) |
| |
| wf_runner = self._create_initial_workflow_runner(workflow_context, |
| mock_parallel_tasks_workflow, |
| thread_executor) |
| wf_thread = Thread(target=wf_runner.execute) |
| wf_thread.setDaemon(True) |
| wf_thread.start() |
| |
| self._wait_for_active_and_cancel(wf_runner) |
| node = workflow_context.model.node.refresh(node) |
| |
| task = workflow_context.model.task.list(filters={'_stub_type': None})[0] |
| assert node.attributes['invocations'].value == 2 |
| assert task.status == task.STARTED |
| assert wf_runner.execution.status in (wf_runner.execution.CANCELLED, |
| wf_runner.execution.CANCELLING) |
| |
| custom_events['is_resumed'].set() |
| assert node.attributes['invocations'].value == 2 |
| |
| # Create a new workflow runner, with an existing execution id. This would cause |
| # the old execution to restart. |
| new_thread_executor = thread.ThreadExecutor() |
| try: |
| new_wf_runner = WorkflowRunner( |
| service_id=wf_runner.service.id, |
| inputs={}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| execution_id=wf_runner.execution.id, |
| executor=new_thread_executor) |
| |
| new_wf_runner.execute() |
| finally: |
| new_thread_executor.close() |
| |
| # Wait for it to finish and assert changes. |
| node = workflow_context.model.node.refresh(node) |
| assert node.attributes['invocations'].value == task.max_attempts - 1 |
| assert task.status == task.SUCCESS |
| assert wf_runner.execution.status == wf_runner.execution.SUCCEEDED |
| |
| def test_resume_failed_task_and_successful_task(self, workflow_context, thread_executor): |
| node = workflow_context.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| node.attributes['invocations'] = models.Attribute.wrap('invocations', 0) |
| self._create_interface(workflow_context, node, mock_pass_first_task_only) |
| |
| wf_runner = self._create_initial_workflow_runner( |
| workflow_context, |
| mock_parallel_tasks_workflow, |
| thread_executor, |
| inputs={'retry_interval': 1, 'max_attempts': 2, 'number_of_tasks': 2} |
| ) |
| wf_thread = Thread(target=wf_runner.execute) |
| wf_thread.setDaemon(True) |
| wf_thread.start() |
| |
| if custom_events['execution_failed'].wait(60) is False: |
| raise TimeoutError("Execution did not end") |
| |
| tasks = workflow_context.model.task.list(filters={'_stub_type': None}) |
| node = workflow_context.model.node.refresh(node) |
| assert node.attributes['invocations'].value == 3 |
| failed_task = [t for t in tasks if t.status == t.FAILED][0] |
| |
| # First task passes |
| assert any(task.status == task.FAILED for task in tasks) |
| assert failed_task.attempts_count == 2 |
| # Second task fails |
| assert any(task.status == task.SUCCESS for task in tasks) |
| assert wf_runner.execution.status in wf_runner.execution.FAILED |
| |
| custom_events['is_resumed'].set() |
| new_thread_executor = thread.ThreadExecutor() |
| try: |
| new_wf_runner = WorkflowRunner( |
| service_id=wf_runner.service.id, |
| retry_failed_tasks=True, |
| inputs={}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| execution_id=wf_runner.execution.id, |
| executor=new_thread_executor) |
| |
| new_wf_runner.execute() |
| finally: |
| new_thread_executor.close() |
| |
| # Wait for it to finish and assert changes. |
| node = workflow_context.model.node.refresh(node) |
| assert failed_task.attempts_count == 1 |
| assert node.attributes['invocations'].value == 4 |
| assert all(task.status == task.SUCCESS for task in tasks) |
| assert wf_runner.execution.status == wf_runner.execution.SUCCEEDED |
| |
| def test_two_sequential_task_first_task_failed(self, workflow_context, thread_executor): |
| node = workflow_context.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| node.attributes['invocations'] = models.Attribute.wrap('invocations', 0) |
| self._create_interface(workflow_context, node, mock_fail_first_task_only) |
| |
| wf_runner = self._create_initial_workflow_runner( |
| workflow_context, |
| mock_sequential_tasks_workflow, |
| thread_executor, |
| inputs={'retry_interval': 1, 'max_attempts': 1, 'number_of_tasks': 2} |
| ) |
| wf_thread = Thread(target=wf_runner.execute) |
| wf_thread.setDaemon(True) |
| wf_thread.start() |
| |
| if custom_events['execution_failed'].wait(60) is False: |
| raise TimeoutError("Execution did not end") |
| |
| tasks = workflow_context.model.task.list(filters={'_stub_type': None}) |
| node = workflow_context.model.node.refresh(node) |
| assert node.attributes['invocations'].value == 1 |
| assert any(t.status == t.FAILED for t in tasks) |
| assert any(t.status == t.PENDING for t in tasks) |
| |
| custom_events['is_resumed'].set() |
| new_thread_executor = thread.ThreadExecutor() |
| try: |
| new_wf_runner = WorkflowRunner( |
| service_id=wf_runner.service.id, |
| inputs={}, |
| model_storage=workflow_context.model, |
| resource_storage=workflow_context.resource, |
| plugin_manager=None, |
| execution_id=wf_runner.execution.id, |
| executor=new_thread_executor) |
| |
| new_wf_runner.execute() |
| finally: |
| new_thread_executor.close() |
| |
| # Wait for it to finish and assert changes. |
| node = workflow_context.model.node.refresh(node) |
| assert node.attributes['invocations'].value == 2 |
| assert any(t.status == t.SUCCESS for t in tasks) |
| assert any(t.status == t.FAILED for t in tasks) |
| assert wf_runner.execution.status == wf_runner.execution.SUCCEEDED |
| |
| |
| |
| @staticmethod |
| @pytest.fixture |
| def thread_executor(): |
| result = thread.ThreadExecutor() |
| try: |
| yield result |
| finally: |
| result.close() |
| |
| @staticmethod |
| @pytest.fixture |
| def workflow_context(tmpdir): |
| workflow_context = tests_mock.context.simple(str(tmpdir)) |
| yield workflow_context |
| storage.release_sqlite_storage(workflow_context.model) |
| |
| @staticmethod |
| def _create_interface(ctx, node, func, arguments=None): |
| interface_name = 'aria.interfaces.lifecycle' |
| operation_kwargs = dict(function='{name}.{func.__name__}'.format( |
| name=__name__, func=func)) |
| if arguments: |
| # the operation has to declare the arguments before those may be passed |
| operation_kwargs['arguments'] = arguments |
| operation_name = 'create' |
| interface = tests_mock.models.create_interface(node.service, interface_name, operation_name, |
| operation_kwargs=operation_kwargs) |
| node.interfaces[interface.name] = interface |
| ctx.model.node.update(node) |
| |
| return node, interface_name, operation_name |
| |
| @staticmethod |
| def _engine(workflow_func, workflow_context, executor): |
| graph = workflow_func(ctx=workflow_context) |
| execution = workflow_context.execution |
| graph_compiler.GraphCompiler(workflow_context, executor.__class__).compile(graph) |
| workflow_context.execution = execution |
| |
| return engine.Engine(executors={executor.__class__: executor}) |
| |
| @pytest.fixture(autouse=True) |
| def register_to_events(self): |
| def execution_cancelled(*args, **kwargs): |
| custom_events['execution_cancelled'].set() |
| |
| def execution_failed(*args, **kwargs): |
| custom_events['execution_failed'].set() |
| |
| events.on_cancelled_workflow_signal.connect(execution_cancelled) |
| events.on_failure_workflow_signal.connect(execution_failed) |
| yield |
| events.on_cancelled_workflow_signal.disconnect(execution_cancelled) |
| events.on_failure_workflow_signal.disconnect(execution_failed) |
| for event in custom_events.values(): |
| event.clear() |
| |
| |
| @workflow |
| def mock_sequential_tasks_workflow(ctx, graph, |
| retry_interval=1, max_attempts=10, number_of_tasks=1): |
| node = ctx.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| graph.sequence(*_create_tasks(node, retry_interval, max_attempts, number_of_tasks)) |
| |
| |
| @workflow |
| def mock_parallel_tasks_workflow(ctx, graph, |
| retry_interval=1, max_attempts=10, number_of_tasks=1): |
| node = ctx.model.node.get_by_name(tests_mock.models.DEPENDENCY_NODE_NAME) |
| graph.add_tasks(*_create_tasks(node, retry_interval, max_attempts, number_of_tasks)) |
| |
| |
| def _create_tasks(node, retry_interval, max_attempts, number_of_tasks): |
| return [ |
| api.task.OperationTask(node, |
| 'aria.interfaces.lifecycle', |
| 'create', |
| retry_interval=retry_interval, |
| max_attempts=max_attempts) |
| for _ in xrange(number_of_tasks) |
| ] |
| |
| |
| |
| @operation |
| def mock_failed_before_resuming(ctx): |
| """ |
| The task should run atmost ctx.task.max_attempts - 1 times, and only then pass. |
| overall, the number of invocations should be ctx.task.max_attempts - 1 |
| """ |
| ctx.node.attributes['invocations'] += 1 |
| |
| if ctx.node.attributes['invocations'] == 2: |
| custom_events['is_active'].set() |
| # unfreeze the thread only when all of the invocations are done |
| while ctx.node.attributes['invocations'] < ctx.task.max_attempts - 1: |
| time.sleep(5) |
| |
| elif ctx.node.attributes['invocations'] == ctx.task.max_attempts - 1: |
| # pass only just before the end. |
| return |
| else: |
| # fail o.w. |
| raise FailingTask("stop this task") |
| |
| |
| @operation |
| def mock_stuck_task(ctx): |
| ctx.node.attributes['invocations'] += 1 |
| while not custom_events['is_resumed'].isSet(): |
| if not custom_events['is_active'].isSet(): |
| custom_events['is_active'].set() |
| time.sleep(5) |
| |
| |
| @operation |
| def mock_pass_first_task_only(ctx): |
| ctx.node.attributes['invocations'] += 1 |
| |
| if ctx.node.attributes['invocations'] != 1: |
| custom_events['is_active'].set() |
| if not custom_events['is_resumed'].isSet(): |
| # if resume was called, increase by one. o/w fail the execution - second task should |
| # fail as long it was not a part of resuming the workflow |
| raise FailingTask("wasn't resumed yet") |
| |
| |
| @operation |
| def mock_fail_first_task_only(ctx): |
| ctx.node.attributes['invocations'] += 1 |
| |
| if not custom_events['is_resumed'].isSet() and ctx.node.attributes['invocations'] == 1: |
| raise FailingTask("First task should fail") |