scheduler/thread_lib.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.


 """Thread library for drone management.

 This library contains a threaded task queue capable of starting, monitoring
 and syncing threads across remote and localhost drones asynchronously. It also
 contains a wrapper for standard python threads that records exceptions so they
 can be re-raised in the thread manager. The api exposed by the threaded task
 queue is as follows:
     1. worker: The staticmethod executed by all worker threads.
     2. execute: Takes a list of drones and invokes a worker thread per drone.
         This method assumes that all drones have a queue of pending calls
         for execution.
     3. wait_on_drones: Waits for all worker threads started by execute to finish
         and raises any exceptions as a consolidated DroneTaskQueueException.
     4. get_results: Returns the results of all threads as a dictionary keyed
         on the drones.
 """

 import collections
 import Queue
 import threading
 import logging

 import common
 from autotest_lib.scheduler import drone_task_queue


 class ExceptionRememberingThread(threading.Thread):
     """A wrapper around regular python threads that records exceptions."""

     def run(self):
         """Wrapper around the thread's run method."""
         try:
             super(ExceptionRememberingThread, self).run()
         except Exception as self.err:
             logging.error('%s raised an exception that will be re-raised by '
                           'the thread pool manager.', self.getName())
         else:
             self.err = None


 class ThreadedTaskQueue(drone_task_queue.DroneTaskQueue):
     """Threaded implementation of a drone task queue."""

     result = collections.namedtuple('task', ['drone', 'results'])

     def __init__(self, name='thread_queue'):
         self.results_queue = Queue.Queue()
         self.drone_threads = {}
         self.name = name


     @staticmethod
     def worker(drone, results_queue):
         """Worker for task execution.

         Execute calls queued against the given drone and place the return value
         in results_queue.

         @param drone: A drone with calls to execute.
         @param results_queue: A queue, into which the worker places
             ThreadedTaskQueue.result from the drone calls.
         """
         logging.info('(Worker.%s) starting.', drone.hostname)
         results_queue.put(ThreadedTaskQueue.result(
             drone, drone.execute_queued_calls()))
         logging.info('(Worker.%s) finished.', drone.hostname)


     def wait_on_drones(self):
         """Wait on all threads that are currently refreshing a drone.

         @raises DroneTaskQueueException: Consolidated exception for all
             drone thread exceptions.
         """
         if not self.drone_threads:
             return
         # TODO: Make this process more resilient. We can:
         # 1. Timeout the join.
         # 2. Kick out the exception/timeout drone.
         # 3. Selectively retry exceptions.
         # For now, it is compliant with the single threaded drone manager which
         # will raise all drone_utility, ssh and drone_manager exceptions.
         drone_exceptions = []
         for drone, thread in self.drone_threads.iteritems():
             tname = thread.getName()
             logging.info('(Task Queue) Waiting for %s', tname)
             thread.join()
             if thread.err:
                 drone_exceptions.append((drone, thread.err))
         logging.info('(Task Queue) All threads have returned, clearing map.')
         self.drone_threads = {}
         if not drone_exceptions:
             return
         exception_msg = ''
         for drone, err in drone_exceptions:
             exception_msg += ('Drone %s raised Exception %s\n' %
                               (drone.hostname, err))
         raise drone_task_queue.DroneTaskQueueException(exception_msg)


     def get_results(self):
         """Get a results dictionary keyed on the drones.

         This method synchronously waits till all drone threads have returned
         before checking for results. It is meant to be invoked in conjunction
         with the 'execute' method, which creates a thread per drone.

         @return: A dictionary of return values from the drones.
         """
         self.wait_on_drones()
         results = {}
         while not self.results_queue.empty():
             drone_results = self.results_queue.get()
             if drone_results.drone in results:
                 raise drone_task_queue.DroneTaskQueueException(
                         'Task queue has recorded results for drone %s: %s' %
                         (drone_results.drone, results))
             results[drone_results.drone] = drone_results.results
         return results


     def execute(self, drones, wait=True):
         """Invoke a thread per drone, to execute drone_utility in parallel.

         @param drones: A list of drones with calls to execute.
         @param wait: If True, this method will only return when all the drones
             have returned the result of their respective invocations of
             drone_utility. The results_queue and drone_threads will be cleared.
             If False, the caller must clear both the queue and the map before
             the next invocation of 'execute', by calling 'get_results'.

         @return: A dictionary keyed on the drones, containing a list of return
             values from the execution of drone_utility.

         @raises DroneManagerError: If the results queue or drone map isn't empty
             at the time of invocation.
         """
         if not self.results_queue.empty():
             raise drone_task_queue.DroneTaskQueueException(
                     'Cannot clobber results queue: %s, it should be cleared '
                     'through get_results.' % self.results_queue)
         if self.drone_threads:
             raise drone_task_queue.DroneTaskQueueException(
                     'Cannot clobber thread map: %s, it should be cleared '
                     'through wait_on_drones' % self.drone_threads)
         for drone in drones:
             if not drone.get_calls():
                 continue
             worker_thread = ExceptionRememberingThread(
                     target=ThreadedTaskQueue.worker,
                     args=(drone, self.results_queue))
             # None of these threads are allowed to survive past the tick they
             # were spawned in, and the scheduler won't die mid-tick, so none
             # of the threads need to be daemons. However, if the scheduler does
             # die unexpectedly we can just forsake the daemon threads.
             self.drone_threads[drone] = worker_thread
             # The name is only used for debugging
             worker_thread.setName('%s.%s' %
                                   (self.name, drone.hostname.replace('.', '_')))
             worker_thread.daemon = True
             worker_thread.start()
         return self.get_results() if wait else None
	# Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.


	"""Thread library for drone management.

	This library contains a threaded task queue capable of starting, monitoring
	and syncing threads across remote and localhost drones asynchronously. It also
	contains a wrapper for standard python threads that records exceptions so they
	can be re-raised in the thread manager. The api exposed by the threaded task
	queue is as follows:
	1. worker: The staticmethod executed by all worker threads.
	2. execute: Takes a list of drones and invokes a worker thread per drone.
	This method assumes that all drones have a queue of pending calls
	for execution.
	3. wait_on_drones: Waits for all worker threads started by execute to finish
	and raises any exceptions as a consolidated DroneTaskQueueException.
	4. get_results: Returns the results of all threads as a dictionary keyed
	on the drones.
	"""

	import collections
	import Queue
	import threading
	import logging

	import common
	from autotest_lib.scheduler import drone_task_queue


	class ExceptionRememberingThread(threading.Thread):
	"""A wrapper around regular python threads that records exceptions."""

	def run(self):
	"""Wrapper around the thread's run method."""
	try:
	super(ExceptionRememberingThread, self).run()
	except Exception as self.err:
	logging.error('%s raised an exception that will be re-raised by '
	'the thread pool manager.', self.getName())
	else:
	self.err = None


	class ThreadedTaskQueue(drone_task_queue.DroneTaskQueue):
	"""Threaded implementation of a drone task queue."""

	result = collections.namedtuple('task', ['drone', 'results'])

	def __init__(self, name='thread_queue'):
	self.results_queue = Queue.Queue()
	self.drone_threads = {}
	self.name = name


	@staticmethod
	def worker(drone, results_queue):
	"""Worker for task execution.

	Execute calls queued against the given drone and place the return value
	in results_queue.

	@param drone: A drone with calls to execute.
	@param results_queue: A queue, into which the worker places
	ThreadedTaskQueue.result from the drone calls.
	"""
	logging.info('(Worker.%s) starting.', drone.hostname)
	results_queue.put(ThreadedTaskQueue.result(
	drone, drone.execute_queued_calls()))
	logging.info('(Worker.%s) finished.', drone.hostname)


	def wait_on_drones(self):
	"""Wait on all threads that are currently refreshing a drone.

	@raises DroneTaskQueueException: Consolidated exception for all
	drone thread exceptions.
	"""
	if not self.drone_threads:
	return
	# TODO: Make this process more resilient. We can:
	# 1. Timeout the join.
	# 2. Kick out the exception/timeout drone.
	# 3. Selectively retry exceptions.
	# For now, it is compliant with the single threaded drone manager which
	# will raise all drone_utility, ssh and drone_manager exceptions.
	drone_exceptions = []
	for drone, thread in self.drone_threads.iteritems():
	tname = thread.getName()
	logging.info('(Task Queue) Waiting for %s', tname)
	thread.join()
	if thread.err:
	drone_exceptions.append((drone, thread.err))
	logging.info('(Task Queue) All threads have returned, clearing map.')
	self.drone_threads = {}
	if not drone_exceptions:
	return
	exception_msg = ''
	for drone, err in drone_exceptions:
	exception_msg += ('Drone %s raised Exception %s\n' %
	(drone.hostname, err))
	raise drone_task_queue.DroneTaskQueueException(exception_msg)


	def get_results(self):
	"""Get a results dictionary keyed on the drones.

	This method synchronously waits till all drone threads have returned
	before checking for results. It is meant to be invoked in conjunction
	with the 'execute' method, which creates a thread per drone.

	@return: A dictionary of return values from the drones.
	"""
	self.wait_on_drones()
	results = {}
	while not self.results_queue.empty():
	drone_results = self.results_queue.get()
	if drone_results.drone in results:
	raise drone_task_queue.DroneTaskQueueException(
	'Task queue has recorded results for drone %s: %s' %
	(drone_results.drone, results))
	results[drone_results.drone] = drone_results.results
	return results


	def execute(self, drones, wait=True):
	"""Invoke a thread per drone, to execute drone_utility in parallel.

	@param drones: A list of drones with calls to execute.
	@param wait: If True, this method will only return when all the drones
	have returned the result of their respective invocations of
	drone_utility. The results_queue and drone_threads will be cleared.
	If False, the caller must clear both the queue and the map before
	the next invocation of 'execute', by calling 'get_results'.

	@return: A dictionary keyed on the drones, containing a list of return
	values from the execution of drone_utility.

	@raises DroneManagerError: If the results queue or drone map isn't empty
	at the time of invocation.
	"""
	if not self.results_queue.empty():
	raise drone_task_queue.DroneTaskQueueException(
	'Cannot clobber results queue: %s, it should be cleared '
	'through get_results.' % self.results_queue)
	if self.drone_threads:
	raise drone_task_queue.DroneTaskQueueException(
	'Cannot clobber thread map: %s, it should be cleared '
	'through wait_on_drones' % self.drone_threads)
	for drone in drones:
	if not drone.get_calls():
	continue
	worker_thread = ExceptionRememberingThread(
	target=ThreadedTaskQueue.worker,
	args=(drone, self.results_queue))
	# None of these threads are allowed to survive past the tick they
	# were spawned in, and the scheduler won't die mid-tick, so none
	# of the threads need to be daemons. However, if the scheduler does
	# die unexpectedly we can just forsake the daemon threads.
	self.drone_threads[drone] = worker_thread
	# The name is only used for debugging
	worker_thread.setName('%s.%s' %
	(self.name, drone.hostname.replace('.', '_')))
	worker_thread.daemon = True
	worker_thread.start()
	return self.get_results() if wait else None