au_test_harness/parallel_test_job.py - mirrors/cros/chromiumos/platform/crostestutils - Git at Google

 # Copyright (c) 2011 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.

 """Module containing methods/classes related to running parallel test jobs."""

 import sys
 import threading
 import time

 import cros_build_lib as cros_lib

 class ParallelJob(threading.Thread):
   """Small wrapper for threading.  Thread that releases a semaphores on exit."""

   def __init__(self, starting_semaphore, ending_semaphore, target, args):
     """Initializes an instance of a job.

     Args:
       starting_semaphore: Semaphore used by caller to wait on such that
         there isn't more than a certain number of threads running.  Should
         be initialized to a value for the number of threads wanting to be run
         at a time.
       ending_semaphore:  Semaphore is released every time a job ends.  Should be
         initialized to 0 before starting first job.  Should be acquired once for
         each job.  Threading.Thread.join() has a bug where if the run function
         terminates too quickly join() will hang forever.
       target:  The func to run.
       args:  Args to pass to the fun.
     """
     threading.Thread.__init__(self, target=target, args=args)
     self._target = target
     self._args = args
     self._starting_semaphore = starting_semaphore
     self._ending_semaphore = ending_semaphore
     self._output = None
     self._completed = False

   def run(self):
     """Thread override.  Runs the method specified and sets output."""
     try:
       self._output = self._target(*self._args)
     finally:
       # Our own clean up.
       self._Cleanup()
       self._completed = True
       # From threading.py to avoid a refcycle.
       del self._target, self._args

   def GetOutput(self):
     """Returns the output of the method run."""
     assert self._completed, 'GetOutput called before thread was run.'
     return self._output

   def _Cleanup(self):
     """Releases semaphores for a waiting caller."""
     self._starting_semaphore.release()
     self._ending_semaphore.release()

   def __str__(self):
     return '%s(%s)' % (self._target, self._args)


 def RunParallelJobs(number_of_simultaneous_jobs, jobs, jobs_args,
                     print_status):
   """Runs set number of specified jobs in parallel.

   Args:
     number_of_simultaneous_jobs:  Max number of threads to be run in parallel.
     jobs:  Array of methods to run.
     jobs_args:  Array of args associated with method calls.
     print_status: True if you'd like this to print out .'s as it runs jobs.
   Returns:
     Returns an array of results corresponding to each thread.
   """
   def _TwoTupleize(x, y):
     return (x, y)

   threads = []
   job_start_semaphore = threading.Semaphore(number_of_simultaneous_jobs)
   join_semaphore = threading.Semaphore(0)
   assert len(jobs) == len(jobs_args), 'Length of args array is wrong.'

   # Create the parallel jobs.
   for job, args in map(_TwoTupleize, jobs, jobs_args):
     thread = ParallelJob(job_start_semaphore, join_semaphore, target=job,
                          args=args)
     threads.append(thread)

   # Cache sudo access.
   cros_lib.RunCommand(['sudo', 'echo', 'Caching sudo credentials'],
                       print_cmd=False, redirect_stdout=True,
                       redirect_stderr=True)

   # We use a semaphore to ensure we don't run more jobs than required.
   # After each thread finishes, it releases (increments semaphore).
   # Acquire blocks of num jobs reached and continues when a thread finishes.
   for next_thread in threads:
     job_start_semaphore.acquire(blocking=True)
     next_thread.start()

   # Wait on the rest of the threads to finish.
   for thread in threads:
     while not join_semaphore.acquire(blocking=False):
       time.sleep(5)
       if print_status:
         print >> sys.stderr, '.',

   return [thread.GetOutput() for thread in threads]
	# Copyright (c) 2011 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.

	"""Module containing methods/classes related to running parallel test jobs."""

	import sys
	import threading
	import time

	import cros_build_lib as cros_lib

	class ParallelJob(threading.Thread):
	"""Small wrapper for threading. Thread that releases a semaphores on exit."""

	def __init__(self, starting_semaphore, ending_semaphore, target, args):
	"""Initializes an instance of a job.

	Args:
	starting_semaphore: Semaphore used by caller to wait on such that
	there isn't more than a certain number of threads running. Should
	be initialized to a value for the number of threads wanting to be run
	at a time.
	ending_semaphore: Semaphore is released every time a job ends. Should be
	initialized to 0 before starting first job. Should be acquired once for
	each job. Threading.Thread.join() has a bug where if the run function
	terminates too quickly join() will hang forever.
	target: The func to run.
	args: Args to pass to the fun.
	"""
	threading.Thread.__init__(self, target=target, args=args)
	self._target = target
	self._args = args
	self._starting_semaphore = starting_semaphore
	self._ending_semaphore = ending_semaphore
	self._output = None
	self._completed = False

	def run(self):
	"""Thread override. Runs the method specified and sets output."""
	try:
	self._output = self._target(*self._args)
	finally:
	# Our own clean up.
	self._Cleanup()
	self._completed = True
	# From threading.py to avoid a refcycle.
	del self._target, self._args

	def GetOutput(self):
	"""Returns the output of the method run."""
	assert self._completed, 'GetOutput called before thread was run.'
	return self._output

	def _Cleanup(self):
	"""Releases semaphores for a waiting caller."""
	self._starting_semaphore.release()
	self._ending_semaphore.release()

	def __str__(self):
	return '%s(%s)' % (self._target, self._args)


	def RunParallelJobs(number_of_simultaneous_jobs, jobs, jobs_args,
	print_status):
	"""Runs set number of specified jobs in parallel.

	Args:
	number_of_simultaneous_jobs: Max number of threads to be run in parallel.
	jobs: Array of methods to run.
	jobs_args: Array of args associated with method calls.
	print_status: True if you'd like this to print out .'s as it runs jobs.
	Returns:
	Returns an array of results corresponding to each thread.
	"""
	def _TwoTupleize(x, y):
	return (x, y)

	threads = []
	job_start_semaphore = threading.Semaphore(number_of_simultaneous_jobs)
	join_semaphore = threading.Semaphore(0)
	assert len(jobs) == len(jobs_args), 'Length of args array is wrong.'

	# Create the parallel jobs.
	for job, args in map(_TwoTupleize, jobs, jobs_args):
	thread = ParallelJob(job_start_semaphore, join_semaphore, target=job,
	args=args)
	threads.append(thread)

	# Cache sudo access.
	cros_lib.RunCommand(['sudo', 'echo', 'Caching sudo credentials'],
	print_cmd=False, redirect_stdout=True,
	redirect_stderr=True)

	# We use a semaphore to ensure we don't run more jobs than required.
	# After each thread finishes, it releases (increments semaphore).
	# Acquire blocks of num jobs reached and continues when a thread finishes.
	for next_thread in threads:
	job_start_semaphore.acquire(blocking=True)
	next_thread.start()

	# Wait on the rest of the threads to finish.
	for thread in threads:
	while not join_semaphore.acquire(blocking=False):
	time.sleep(5)
	if print_status:
	print >> sys.stderr, '.',

	return [thread.GetOutput() for thread in threads]