# -*- coding: utf-8 -*- # Copyright (C) 2013 Yahoo! Inc. All Rights Reserved. # # 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. import abc from concurrent import futures import six from taskflow.utils import async_utils from taskflow.utils import misc from taskflow.utils import threading_utils # Execution and reversion events. EXECUTED = 'executed' REVERTED = 'reverted' def _execute_task(task, arguments, progress_callback): with task.autobind('update_progress', progress_callback): try: result = task.execute(**arguments) except Exception: # NOTE(imelnikov): wrap current exception with Failure # object and return it. result = misc.Failure() return (task, EXECUTED, result) def _revert_task(task, arguments, result, failures, progress_callback): kwargs = arguments.copy() kwargs['result'] = result kwargs['flow_failures'] = failures with task.autobind('update_progress', progress_callback): try: result = task.revert(**kwargs) except Exception: # NOTE(imelnikov): wrap current exception with Failure # object and return it. result = misc.Failure() return (task, REVERTED, result) @six.add_metaclass(abc.ABCMeta) class TaskExecutorBase(object): """Executes and reverts tasks. This class takes task and its arguments and executes or reverts it. It encapsulates knowledge on how task should be executed or reverted: right now, on separate thread, on another machine, etc. """ @abc.abstractmethod def execute_task(self, task, task_uuid, arguments, progress_callback=None): """Schedules task execution.""" @abc.abstractmethod def revert_task(self, task, task_uuid, arguments, result, failures, progress_callback=None): """Schedules task reversion.""" @abc.abstractmethod def wait_for_any(self, fs, timeout=None): """Wait for futures returned by this executor to complete.""" def start(self): """Prepare to execute tasks.""" pass def stop(self): """Finalize task executor.""" pass class SerialTaskExecutor(TaskExecutorBase): """Execute task one after another.""" def execute_task(self, task, task_uuid, arguments, progress_callback=None): return async_utils.make_completed_future( _execute_task(task, arguments, progress_callback)) def revert_task(self, task, task_uuid, arguments, result, failures, progress_callback=None): return async_utils.make_completed_future( _revert_task(task, arguments, result, failures, progress_callback)) def wait_for_any(self, fs, timeout=None): # NOTE(imelnikov): this executor returns only done futures. return (fs, set()) class ParallelTaskExecutor(TaskExecutorBase): """Executes tasks in parallel. Submits tasks to executor which should provide interface similar to concurrent.Futures.Executor. """ def __init__(self, executor=None): self._executor = executor self._own_executor = executor is None def execute_task(self, task, task_uuid, arguments, progress_callback=None): return self._executor.submit( _execute_task, task, arguments, progress_callback) def revert_task(self, task, task_uuid, arguments, result, failures, progress_callback=None): return self._executor.submit( _revert_task, task, arguments, result, failures, progress_callback) def wait_for_any(self, fs, timeout=None): return async_utils.wait_for_any(fs, timeout) def start(self): if self._own_executor: thread_count = threading_utils.get_optimal_thread_count() self._executor = futures.ThreadPoolExecutor(thread_count) def stop(self): if self._own_executor: self._executor.shutdown(wait=True) self._executor = None