From 36c69351dd7d544680e60cb8f1cee95787131d53 Mon Sep 17 00:00:00 2001 From: drebs Date: Tue, 7 Oct 2014 12:38:37 -0300 Subject: Temporarilly add taskthread to make it easier to package for debian. --- client/pkg/requirements.pip | 1 - client/src/taskthread/__init__.py | 296 +++++++++++++++++++ client/src/taskthread/tests/__init__.py | 13 + client/src/taskthread/tests/unit/__init__.py | 13 + .../src/taskthread/tests/unit/test_taskthread.py | 315 +++++++++++++++++++++ 5 files changed, 637 insertions(+), 1 deletion(-) create mode 100755 client/src/taskthread/__init__.py create mode 100755 client/src/taskthread/tests/__init__.py create mode 100755 client/src/taskthread/tests/unit/__init__.py create mode 100755 client/src/taskthread/tests/unit/test_taskthread.py diff --git a/client/pkg/requirements.pip b/client/pkg/requirements.pip index ae8d2dac..411a5d5e 100644 --- a/client/pkg/requirements.pip +++ b/client/pkg/requirements.pip @@ -4,7 +4,6 @@ u1db scrypt pycryptopp cchardet -taskthread zope.proxy # diff --git a/client/src/taskthread/__init__.py b/client/src/taskthread/__init__.py new file mode 100755 index 00000000..a734a829 --- /dev/null +++ b/client/src/taskthread/__init__.py @@ -0,0 +1,296 @@ +# Copyright 2013 Hewlett-Packard Development Company, L.P. +# +# 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 logging +import threading + +__version__ = '1.4' + + +logger = logging.getLogger(__name__) + + +class TaskInProcessException(BaseException): + pass + + +class TaskThread(threading.Thread): + """ + A thread object that repeats a task. + + Usage example:: + + from taskthread import TaskThread + + import time + + def my_task(*args, **kwargs): + print args, kwargs + + task_thread = TaskThread(my_task) + task_thread.start() + for i in xrange(10): + task_thread.run_task() + task_thread.join_task() + task_thread.join() + + .. note:: If :py:meth:`~TaskThread.run_task` is + invoked while run_task is in progress, + :py:class:`~.TaskInProcessException` will + be raised. + + :param task: + A ``function``. This param is the task to execute when + run_task is called. + :param event: + A ``threading.Event``. This event will be set when run_task + is called. The default value is a new event, but may be + specified for testing purposes. + """ + + daemon = True + ''' + Threads marked as daemon will be terminated. + ''' + def __init__(self, task, event=threading.Event(), + *args, **kwargs): + super(TaskThread, self).__init__() + self.task = task + self.task_event = event + self.running = True + self.running_lock = threading.Lock() + self.in_task = False + self.task_complete = threading.Event() + self.args = args + self.kwargs = kwargs + + def run(self): + """ + Called by threading.Thread, this runs in the new thread. + """ + while True: + self.task_event.wait() + if not self.running: + logger.debug("TaskThread exiting") + return + logger.debug("TaskThread starting task") + with self.running_lock: + self.task_event.clear() + self.task_complete.clear() + self.task(*self.args, **self.kwargs) + with self.running_lock: + self.in_task = False + self.task_complete.set() + + def run_task(self, *args, **kwargs): + """ + Run an instance of the task. + + :param args: + The arguments to pass to the task. + + :param kwargs: + The keyword arguments to pass to the task. + """ + # Don't allow this call if the thread is currently + # in a task. + with self.running_lock: + if self.in_task: + raise TaskInProcessException() + self.in_task = True + logger.debug("Waking up the thread") + self.args = args + self.kwargs = kwargs + # Wake up the thread to do it's thing + self.task_event.set() + + def join_task(self, time_out): + """ + Wait for the currently running task to complete. + + :param time_out: + An ``int``. The amount of time to wait for the + task to finish. + """ + with self.running_lock: + if not self.in_task: + return + + success = self.task_complete.wait(time_out) + if success: + self.task_complete.clear() + return success + + def join(self, timeout=None): + """ + Wait for the task to finish + """ + self.running = False + self.task_event.set() + super(TaskThread, self).join(timeout=timeout) + + +class TimerTask(object): + """ + An object that executes a commit function at a given interval. + This class is driven by a TaskThread. A new TaskThread will be + created the first time :py:meth:`.~start` is called. All + subsequent calls to start will reuse the same thread. + + Usage example:: + + from taskthread import TimerTask + import time + + count = 0 + def get_count(): + return count + def execute(): + print "Count: %d" % count + + task = TimerTask(execute, + timeout=10, + count_fcn=get_count, + threshold=1) + + task.start() + + for i in xrange(100000): + count += 1 + time.sleep(1) + task.stop() + count = 0 + task.start() + for i in xrange(100000): + count += 1 + time.sleep(1) + task.shutdown() + + :param execute_fcn: + A `function`. This function will be executed on each time interval. + + :param delay: + An `int`. The delay in **seconds** invocations of + `execute_fcn`. Default: `10`. + + :param count_fcn: + A `function`. This function returns a current count. If the count + has not changed more the `threshold` since the last invocation of + `execute_fcn`, `execute_fcn` will not be called again. If not + specified, `execute_fcn` will be called each time the timer fires. + **Optional**. If count_fcn is specified, ``threshold`` is required. + + :param threshold: + An `int`. Specifies the minimum delta in `count_fcn` that must be + met for `execute_fcn` to be invoked. **Optional**. Must be + specified in conjunction with `count_fcn`. + + """ + def __init__(self, execute_fcn, delay=10, count_fcn=None, threshold=None): + self.running = True + self.execute_fcn = execute_fcn + self.last_count = 0 + self.event = threading.Event() + self.delay = delay + self.thread = None + self.running_lock = threading.RLock() + if bool(threshold) != bool(count_fcn): + raise ValueError("Must specify threshold " + "and count_fcn, or neither") + + self.count_fcn = count_fcn + self.threshold = threshold + + def start(self): + """ + Start the task. This starts a :py:class:`.~TaskThread`, and starts + running run_threshold_timer on the thread. + + """ + if not self.thread: + logger.debug('Starting up the taskthread') + self.thread = TaskThread(self._run_threshold_timer) + self.thread.start() + + if self.threshold: + self.last_count = 0 + + logger.debug('Running the task') + self.running = True + self.thread.run_task() + + def stop(self): + """ + Stop the task, leaving the :py:class:`.~TaskThread` running + so start can be called again. + + """ + logger.debug('Stopping the task') + wait = False + with self.running_lock: + if self.running: + wait = True + self.running = False + if wait: + self.event.set() + self.thread.join_task(2) + + def shutdown(self): + """ + Close down the task thread and stop the task if it is running. + + """ + logger.debug('Shutting down the task') + self.stop() + self.thread.join(2) + + def _exec_if_threshold_met(self): + new_count = self.count_fcn() + logger.debug('new_count: %d' % new_count) + if new_count >= self.last_count + self.threshold: + self.execute_fcn() + self.last_count = new_count + + def _exec(self): + if self.count_fcn: + self._exec_if_threshold_met() + else: + self.execute_fcn() + + def _wait(self): + self.event.wait(timeout=self.delay) + self.event.clear() + logger.debug('Task woken up') + + def _exit_loop(self): + """ + If self.running is false, it means the task should shut down. + """ + exit_loop = False + with self.running_lock: + if not self.running: + exit_loop = True + logger.debug('Task shutting down') + return exit_loop + + def _run_threshold_timer(self): + """ + Main loop of the timer task + + """ + logger.debug('In Task') + while True: + self._wait() + if self._exit_loop(): + return + self._exec() diff --git a/client/src/taskthread/tests/__init__.py b/client/src/taskthread/tests/__init__.py new file mode 100755 index 00000000..92bd912f --- /dev/null +++ b/client/src/taskthread/tests/__init__.py @@ -0,0 +1,13 @@ +# Copyright 2013 Hewlett-Packard Development Company, L.P. +# +# 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. diff --git a/client/src/taskthread/tests/unit/__init__.py b/client/src/taskthread/tests/unit/__init__.py new file mode 100755 index 00000000..92bd912f --- /dev/null +++ b/client/src/taskthread/tests/unit/__init__.py @@ -0,0 +1,13 @@ +# Copyright 2013 Hewlett-Packard Development Company, L.P. +# +# 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. diff --git a/client/src/taskthread/tests/unit/test_taskthread.py b/client/src/taskthread/tests/unit/test_taskthread.py new file mode 100755 index 00000000..82565922 --- /dev/null +++ b/client/src/taskthread/tests/unit/test_taskthread.py @@ -0,0 +1,315 @@ +# -*- coding: utf-8 -*- +# Copyright 2013 Hewlett-Packard Development Company, L.P. +# +# 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.:w + + +import threading +import unittest2 as unittest + +from mock import Mock, patch + +from taskthread import TaskThread, TaskInProcessException, TimerTask + +forever_event = threading.Event() + + +def forever_function(*args, **kwargs): + forever_event.wait() + forever_event.clear() + + +class TaskThreadTestCase(unittest.TestCase): + """ + Tests for :py:class:`.TaskThread`. + """ + + def test___init__(self): + """ + Test the __init__ method. It doesn't really do much. + """ + task_thread = TaskThread(forever_function) + self.assertEqual(forever_function, task_thread.task) + + def test_run_not_running(self): + """ + Verifies that thread will shut down when running is false + """ + event = Mock() + event.wait = Mock(side_effect=[True]) + event.clear = Mock(side_effect=Exception("Should never be called")) + task_thread = TaskThread(forever_function, + event=event) + task_thread.running = False + task_thread.run() + event.wait.assert_called_once_with() + + def test_run_executes_task(self): + event = Mock() + event.wait = Mock(side_effect=[True, True]) + + def stop_iteration(*args, **kwargs): + args[0].running = False + + task_thread = TaskThread(stop_iteration, + event=event) + + task_thread.args = [task_thread] + task_thread.kwargs = {'a': 2} + task_thread.in_task = True + task_thread.run() + self.assertEqual(False, task_thread.in_task) + + def test_run_task(self): + event = Mock() + task_thread = TaskThread(forever_function, + event=event) + args = [1] + kwargs = {'a': 1} + + task_thread.run_task(*args, **kwargs) + self.assertEqual(tuple(args), task_thread.args) + self.assertEqual(kwargs, task_thread.kwargs) + event.set.assert_called_once_with() + + def test_run_task_task_in_progress(self): + event = Mock() + task_thread = TaskThread(forever_function, + event=event) + task_thread.in_task = True + self.assertRaises(TaskInProcessException, task_thread.run_task) + + def test_join_task(self): + task_thread = TaskThread(forever_function) + task_thread.in_task = True + task_thread.task_complete = Mock() + task_thread.task_complete.wait = Mock(side_effect=[True]) + success = task_thread.join_task(1) + self.assertTrue(success) + + def test_join_task_not_running(self): + task_thread = TaskThread(forever_function) + task_thread.task_complete = Mock() + task_thread.wait =\ + Mock(side_effect=Exception("Should never be called")) + task_thread.join_task(1) + + def test_join(self): + task_thread = TaskThread(forever_function) + task_thread.start() + task_thread.run_task() + # Set the event so the task completes + forever_event.set() + task_thread.join_task(1) + task_thread.join(1) + + def test_execute_multiple_tasks(self): + task_thread = TaskThread(forever_function) + task_thread.start() + task_thread.run_task() + # Set the event so the task completes + forever_event.set() + task_thread.join_task(1) + forever_event.set() + task_thread.join_task(1) + task_thread.join(1) + + +def my_func(): + pass + + +class TimerTaskTestCase(unittest.TestCase): + + def test___int__(self): + + task = TimerTask(my_func, + delay=100) + self.assertEqual(my_func, task.execute_fcn) + self.assertEqual(100, task.delay) + self.assertIsNone(task.count_fcn) + self.assertIsNone(task.threshold) + + def test___int__raises(self): + self.assertRaises(ValueError, TimerTask.__init__, + TimerTask(None), + my_func(), + count_fcn=Mock()) + + self.assertRaises(ValueError, TimerTask.__init__, + TimerTask(None), + my_func(), + threshold=Mock()) + + @patch('taskthread.TaskThread') + def test_start(self, TaskThreadMock): + task = TimerTask(my_func) + thread = TaskThreadMock.return_value + + task.start() + self.assertTrue(task.running) + self.assertEqual(thread, task.thread) + thread.start.assert_called_once_with() + thread.run_task.assert_called_once_with() + + @patch('taskthread.TaskThread') + def test_start_restarts(self, TaskThreadMock): + task = TimerTask(my_func, threshold=1, count_fcn=Mock()) + thread = TaskThreadMock.return_value + task.last_count = 1 + task.thread = thread + + task.start() + self.assertEqual(0, task.last_count) + self.assertEqual(0, thread.start.called) + thread.run_task.assert_called_once_with() + + @patch('taskthread.TaskThread') + def test_stop(self, TaskThreadMock): + running_lock = Mock() + running_lock.__enter__ = Mock() + running_lock.__exit__ = Mock() + task = TimerTask(my_func) + task.thread = TaskThreadMock.return_value + task.running = True + task.event = Mock() + task.running_lock = running_lock + + task.stop() + + self.assertEqual(False, task.running) + self.assertEqual(1, task.event.set.called) + running_lock.__enter__.assert_called_once_with() + running_lock.__exit__.assert_called_once_with(None, None, None) + task.thread.join_task.assert_called_once_with(2) + + @patch('taskthread.TaskThread') + def test_stop_not_running(self, TaskThreadMock): + task = TimerTask(my_func) + task.thread = TaskThreadMock.return_value + task.running = False + task.event = Mock() + + task.stop() + + self.assertEqual(False, task.running) + self.assertEqual(0, task.event.set.called) + self.assertEqual(0, task.thread.join_task.called) + + @patch('taskthread.TaskThread') + def test_shutdown(self, TaskThreadMock): + task = TimerTask(my_func) + task.thread = TaskThreadMock.return_value + task.running = False + task.shutdown() + task.thread.join.assert_called_once_with(2) + + def test__exec_if_threshold_met(self): + self.called = False + + def exec_fcn(): + self.called = True + + def count_fcn(): + return 10 + + task = TimerTask(exec_fcn, count_fcn=count_fcn, threshold=1) + task.last_count = 9 + task._exec_if_threshold_met() + self.assertTrue(self.called) + self.assertEqual(10, task.last_count) + + def test__exec_if_threshold_met_not_met(self): + + def exec_fcn(): + raise Exception("This shouldn't happen!!") + + def count_fcn(): + return 10 + + task = TimerTask(exec_fcn, count_fcn=count_fcn, threshold=10) + task.last_count = 9 + task._exec_if_threshold_met() + self.assertEqual(9, task.last_count) + + def test__exec(self): + self.called = False + + def exec_fcn(): + self.called = True + + task = TimerTask(exec_fcn) + task._exec() + self.assertTrue(self.called) + + def test__exec_threshold(self): + self.called = False + + def exec_fcn(): + self.called = True + + def count_fcn(): + return 1 + + task = TimerTask(exec_fcn, count_fcn=count_fcn, threshold=1) + task._exec() + self.assertTrue(self.called) + + @patch('threading.Event') + def test__wait(self, event_mock): + task = TimerTask(my_func) + event = event_mock.return_value + + task._wait() + event.wait.assert_called_once_with(timeout=task.delay) + self.assertEqual(1, event.clear.called) + + @patch('threading.RLock') + def test__exit_loop(self, mock_rlock): + task = TimerTask(my_func) + task.running = False + lock = mock_rlock.return_value + lock.__enter__ = Mock() + lock.__exit__ = Mock() + self.assertTrue(task._exit_loop()) + self.assertEqual(1, lock.__enter__.called) + lock.__exit__.assert_called_once_with(None, None, None) + + @patch('threading.RLock') + def test__exit_loop_running(self, mock_rlock): + lock = mock_rlock.return_value + lock.__enter__ = Mock() + lock.__exit__ = Mock() + task = TimerTask(my_func) + task.running = True + self.assertFalse(task._exit_loop()) + self.assertEqual(1, lock.__enter__.called) + lock.__exit__.assert_called_once_with(None, None, None) + + @patch('threading.RLock') + @patch('threading.Event') + def test__run_threshold_timer(self, event_mock, rlock_mock): + self.task = None + event = event_mock.return_value + lock = rlock_mock.return_value + lock.__enter__ = Mock() + lock.__exit__ = Mock() + + def exec_fcn(): + self.task.running = False + + self.task = TimerTask(exec_fcn) + self.task._run_threshold_timer() + + self.assertFalse(self.task.running) + self.assertEqual(2, event.wait.call_count) -- cgit v1.2.3