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#
# Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 The SCons Foundation
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
# KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
# WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
__revision__ = "src/engine/SCons/JobTests.py 5134 2010/08/16 23:02:40 bdeegan"
import unittest
import random
import math
import SCons.Job
import sys
import time
# a large number
num_sines = 10000
# how many parallel jobs to perform for the test
num_jobs = 11
# how many tasks to perform for the test
num_tasks = num_jobs*5
class DummyLock(object):
"fake lock class to use if threads are not supported"
def acquire(self):
pass
def release(self):
pass
class NoThreadsException(object):
"raised by the ParallelTestCase if threads are not supported"
def __str__(self):
return "the interpreter doesn't support threads"
class Task(object):
"""A dummy task class for testing purposes."""
def __init__(self, i, taskmaster):
self.i = i
self.taskmaster = taskmaster
self.was_executed = 0
self.was_prepared = 0
def prepare(self):
self.was_prepared = 1
def _do_something(self):
pass
def needs_execute(self):
return True
def execute(self):
self.taskmaster.test_case.failUnless(self.was_prepared,
"the task wasn't prepared")
self.taskmaster.guard.acquire()
self.taskmaster.begin_list.append(self.i)
self.taskmaster.guard.release()
self._do_something()
self.was_executed = 1
self.taskmaster.guard.acquire()
self.taskmaster.end_list.append(self.i)
self.taskmaster.guard.release()
def executed(self):
self.taskmaster.num_executed = self.taskmaster.num_executed + 1
self.taskmaster.test_case.failUnless(self.was_prepared,
"the task wasn't prepared")
self.taskmaster.test_case.failUnless(self.was_executed,
"the task wasn't really executed")
self.taskmaster.test_case.failUnless(isinstance(self, Task),
"the task wasn't really a Task instance")
def failed(self):
self.taskmaster.num_failed = self.taskmaster.num_failed + 1
self.taskmaster.stop = 1
self.taskmaster.test_case.failUnless(self.was_prepared,
"the task wasn't prepared")
def postprocess(self):
self.taskmaster.num_postprocessed = self.taskmaster.num_postprocessed + 1
class RandomTask(Task):
def _do_something(self):
# do something that will take some random amount of time:
for i in range(random.randrange(0, num_sines, 1)):
x = math.sin(i)
time.sleep(0.01)
class ExceptionTask(object):
"""A dummy task class for testing purposes."""
def __init__(self, i, taskmaster):
self.taskmaster = taskmaster
self.was_prepared = 0
def prepare(self):
self.was_prepared = 1
def needs_execute(self):
return True
def execute(self):
raise Exception
def executed(self):
self.taskmaster.num_executed = self.taskmaster.num_executed + 1
self.taskmaster.test_case.failUnless(self.was_prepared,
"the task wasn't prepared")
self.taskmaster.test_case.failUnless(self.was_executed,
"the task wasn't really executed")
self.taskmaster.test_case.failUnless(self.__class__ is Task,
"the task wasn't really a Task instance")
def failed(self):
self.taskmaster.num_failed = self.taskmaster.num_failed + 1
self.taskmaster.stop = 1
self.taskmaster.test_case.failUnless(self.was_prepared,
"the task wasn't prepared")
def postprocess(self):
self.taskmaster.num_postprocessed = self.taskmaster.num_postprocessed + 1
def exception_set(self):
self.taskmaster.exception_set()
class Taskmaster(object):
"""A dummy taskmaster class for testing the job classes."""
def __init__(self, n, test_case, Task):
"""n is the number of dummy tasks to perform."""
self.test_case = test_case
self.stop = None
self.num_tasks = n
self.num_iterated = 0
self.num_executed = 0
self.num_failed = 0
self.num_postprocessed = 0
self.Task = Task
# 'guard' guards 'task_begin_list' and 'task_end_list'
try:
import threading
self.guard = threading.Lock()
except:
self.guard = DummyLock()
# keep track of the order tasks are begun in
self.begin_list = []
# keep track of the order tasks are completed in
self.end_list = []
def next_task(self):
if self.stop or self.all_tasks_are_iterated():
return None
else:
self.num_iterated = self.num_iterated + 1
return self.Task(self.num_iterated, self)
def all_tasks_are_executed(self):
return self.num_executed == self.num_tasks
def all_tasks_are_iterated(self):
return self.num_iterated == self.num_tasks
def all_tasks_are_postprocessed(self):
return self.num_postprocessed == self.num_tasks
def tasks_were_serial(self):
"analyze the task order to see if they were serial"
serial = 1 # assume the tasks were serial
for i in range(num_tasks):
serial = serial and (self.begin_list[i]
== self.end_list[i]
== (i + 1))
return serial
def exception_set(self):
pass
def cleanup(self):
pass
SaveThreadPool = None
ThreadPoolCallList = []
class ParallelTestCase(unittest.TestCase):
def runTest(self):
"test parallel jobs"
try:
import threading
except:
raise NoThreadsException()
taskmaster = Taskmaster(num_tasks, self, RandomTask)
jobs = SCons.Job.Jobs(num_jobs, taskmaster)
jobs.run()
self.failUnless(not taskmaster.tasks_were_serial(),
"the tasks were not executed in parallel")
self.failUnless(taskmaster.all_tasks_are_executed(),
"all the tests were not executed")
self.failUnless(taskmaster.all_tasks_are_iterated(),
"all the tests were not iterated over")
self.failUnless(taskmaster.all_tasks_are_postprocessed(),
"all the tests were not postprocessed")
self.failIf(taskmaster.num_failed,
"some task(s) failed to execute")
# Verify that parallel jobs will pull all of the completed tasks
# out of the queue at once, instead of one by one. We do this by
# replacing the default ThreadPool class with one that records the
# order in which tasks are put() and get() to/from the pool, and
# which sleeps a little bit before call get() to let the initial
# tasks complete and get their notifications on the resultsQueue.
class SleepTask(Task):
def _do_something(self):
time.sleep(0.1)
global SaveThreadPool
SaveThreadPool = SCons.Job.ThreadPool
class WaitThreadPool(SaveThreadPool):
def put(self, task):
ThreadPoolCallList.append('put(%s)' % task.i)
return SaveThreadPool.put(self, task)
def get(self):
time.sleep(0.5)
result = SaveThreadPool.get(self)
ThreadPoolCallList.append('get(%s)' % result[0].i)
return result
SCons.Job.ThreadPool = WaitThreadPool
try:
taskmaster = Taskmaster(3, self, SleepTask)
jobs = SCons.Job.Jobs(2, taskmaster)
jobs.run()
# The key here is that we get(1) and get(2) from the
# resultsQueue before we put(3), but get(1) and get(2) can
# be in either order depending on how the first two parallel
# tasks get scheduled by the operating system.
expect = [
['put(1)', 'put(2)', 'get(1)', 'get(2)', 'put(3)', 'get(3)'],
['put(1)', 'put(2)', 'get(2)', 'get(1)', 'put(3)', 'get(3)'],
]
assert ThreadPoolCallList in expect, ThreadPoolCallList
finally:
SCons.Job.ThreadPool = SaveThreadPool
class SerialTestCase(unittest.TestCase):
def runTest(self):
"test a serial job"
taskmaster = Taskmaster(num_tasks, self, RandomTask)
jobs = SCons.Job.Jobs(1, taskmaster)
jobs.run()
self.failUnless(taskmaster.tasks_were_serial(),
"the tasks were not executed in series")
self.failUnless(taskmaster.all_tasks_are_executed(),
"all the tests were not executed")
self.failUnless(taskmaster.all_tasks_are_iterated(),
"all the tests were not iterated over")
self.failUnless(taskmaster.all_tasks_are_postprocessed(),
"all the tests were not postprocessed")
self.failIf(taskmaster.num_failed,
"some task(s) failed to execute")
class NoParallelTestCase(unittest.TestCase):
def runTest(self):
"test handling lack of parallel support"
def NoParallel(tm, num, stack_size):
raise NameError
save_Parallel = SCons.Job.Parallel
SCons.Job.Parallel = NoParallel
try:
taskmaster = Taskmaster(num_tasks, self, RandomTask)
jobs = SCons.Job.Jobs(2, taskmaster)
self.failUnless(jobs.num_jobs == 1,
"unexpected number of jobs %d" % jobs.num_jobs)
jobs.run()
self.failUnless(taskmaster.tasks_were_serial(),
"the tasks were not executed in series")
self.failUnless(taskmaster.all_tasks_are_executed(),
"all the tests were not executed")
self.failUnless(taskmaster.all_tasks_are_iterated(),
"all the tests were not iterated over")
self.failUnless(taskmaster.all_tasks_are_postprocessed(),
"all the tests were not postprocessed")
self.failIf(taskmaster.num_failed,
"some task(s) failed to execute")
finally:
SCons.Job.Parallel = save_Parallel
class SerialExceptionTestCase(unittest.TestCase):
def runTest(self):
"test a serial job with tasks that raise exceptions"
taskmaster = Taskmaster(num_tasks, self, ExceptionTask)
jobs = SCons.Job.Jobs(1, taskmaster)
jobs.run()
self.failIf(taskmaster.num_executed,
"a task was executed")
self.failUnless(taskmaster.num_iterated == 1,
"exactly one task should have been iterated")
self.failUnless(taskmaster.num_failed == 1,
"exactly one task should have failed")
self.failUnless(taskmaster.num_postprocessed == 1,
"exactly one task should have been postprocessed")
class ParallelExceptionTestCase(unittest.TestCase):
def runTest(self):
"test parallel jobs with tasks that raise exceptions"
taskmaster = Taskmaster(num_tasks, self, ExceptionTask)
jobs = SCons.Job.Jobs(num_jobs, taskmaster)
jobs.run()
self.failIf(taskmaster.num_executed,
"a task was executed")
self.failUnless(taskmaster.num_iterated >= 1,
"one or more task should have been iterated")
self.failUnless(taskmaster.num_failed >= 1,
"one or more tasks should have failed")
self.failUnless(taskmaster.num_postprocessed >= 1,
"one or more tasks should have been postprocessed")
#---------------------------------------------------------------------
# Above tested Job object with contrived Task and Taskmaster objects.
# Now test Job object with actual Task and Taskmaster objects.
import SCons.Taskmaster
import SCons.Node
import time
class DummyNodeInfo(object):
def update(self, obj):
pass
class testnode (SCons.Node.Node):
def __init__(self):
SCons.Node.Node.__init__(self)
self.expect_to_be = SCons.Node.executed
self.ninfo = DummyNodeInfo()
class goodnode (testnode):
def __init__(self):
SCons.Node.Node.__init__(self)
self.expect_to_be = SCons.Node.up_to_date
self.ninfo = DummyNodeInfo()
class slowgoodnode (goodnode):
def prepare(self):
# Delay to allow scheduled Jobs to run while the dispatcher
# sleeps. Keep this short because it affects the time taken
# by this test.
time.sleep(0.15)
goodnode.prepare(self)
class badnode (goodnode):
def __init__(self):
goodnode.__init__(self)
self.expect_to_be = SCons.Node.failed
def build(self, **kw):
raise Exception('badnode exception')
class slowbadnode (badnode):
def build(self, **kw):
# Appears to take a while to build, allowing faster builds to
# overlap. Time duration is not especially important, but if
# it is faster than slowgoodnode then these could complete
# while the scheduler is sleeping.
time.sleep(0.05)
raise Exception('slowbadnode exception')
class badpreparenode (badnode):
def prepare(self):
raise Exception('badpreparenode exception')
class _SConsTaskTest(unittest.TestCase):
def _test_seq(self, num_jobs):
for node_seq in [
[goodnode],
[badnode],
[slowbadnode],
[slowgoodnode],
[badpreparenode],
[goodnode, badnode],
[slowgoodnode, badnode],
[goodnode, slowbadnode],
[goodnode, goodnode, goodnode, slowbadnode],
[goodnode, slowbadnode, badpreparenode, slowgoodnode],
[goodnode, slowbadnode, slowgoodnode, badnode]
]:
self._do_test(num_jobs, node_seq)
def _do_test(self, num_jobs, node_seq):
testnodes = []
for tnum in range(num_tasks):
testnodes.append(node_seq[tnum % len(node_seq)]())
taskmaster = SCons.Taskmaster.Taskmaster(testnodes,
tasker=SCons.Taskmaster.AlwaysTask)
jobs = SCons.Job.Jobs(num_jobs, taskmaster)
# Exceptions thrown by tasks are not actually propagated to
# this level, but are instead stored in the Taskmaster.
jobs.run()
# Now figure out if tests proceeded correctly. The first test
# that fails will shutdown the initiation of subsequent tests,
# but any tests currently queued for execution will still be
# processed, and any tests that completed before the failure
# would have resulted in new tests being queued for execution.
# Apply the following operational heuristics of Job.py:
# 0) An initial jobset of tasks will be queued before any
# good/bad results are obtained (from "execute" of task in
# thread).
# 1) A goodnode will complete immediately on its thread and
# allow another node to be queued for execution.
# 2) A badnode will complete immediately and suppress any
# subsequent execution queuing, but all currently queued
# tasks will still be processed.
# 3) A slowbadnode will fail later. It will block slots in
# the job queue. Nodes that complete immediately will
# allow other nodes to be queued in their place, and this
# will continue until either (#2) above or until all job
# slots are filled with slowbadnode entries.
# One approach to validating this test would be to try to
# determine exactly how many nodes executed, how many didn't,
# and the results of each, and then to assert failure on any
# mismatch (including the total number of built nodes).
# However, while this is possible to do for a single-processor
# system, it is nearly impossible to predict correctly for a
# multi-processor system and still test the characteristics of
# delayed execution nodes. Stated another way, multithreading
# is inherently non-deterministic unless you can completely
# characterize the entire system, and since that's not
# possible here, we shouldn't try.
# Therefore, this test will simply scan the set of nodes to
# see if the node was executed or not and if it was executed
# that it obtained the expected value for that node
# (i.e. verifying we don't get failure crossovers or
# mislabelling of results).
for N in testnodes:
state = N.get_state()
self.failUnless(state in [SCons.Node.no_state, N.expect_to_be],
"Node %s got unexpected result: %s" % (N, state))
self.failUnless([N for N in testnodes if N.get_state()],
"no nodes ran at all.")
class SerialTaskTest(_SConsTaskTest):
def runTest(self):
"test serial jobs with actual Taskmaster and Task"
self._test_seq(1)
class ParallelTaskTest(_SConsTaskTest):
def runTest(self):
"test parallel jobs with actual Taskmaster and Task"
self._test_seq(num_jobs)
#---------------------------------------------------------------------
def suite():
suite = unittest.TestSuite()
suite.addTest(ParallelTestCase())
suite.addTest(SerialTestCase())
suite.addTest(NoParallelTestCase())
suite.addTest(SerialExceptionTestCase())
suite.addTest(ParallelExceptionTestCase())
suite.addTest(SerialTaskTest())
suite.addTest(ParallelTaskTest())
return suite
if __name__ == "__main__":
runner = unittest.TextTestRunner()
result = runner.run(suite())
if (len(result.failures) == 0
and len(result.errors) == 1
and isinstance(result.errors[0][0], SerialTestCase)
and isinstance(result.errors[0][1][0], NoThreadsException)):
sys.exit(2)
elif not result.wasSuccessful():
sys.exit(1)
# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4:
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