/usr/lib/python3/dist-packages/twisted/test/test_threadpool.py is in python3-twisted-experimental 13.2.0-0ubuntu1.
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# See LICENSE for details.
"""
Tests for L{twisted.python.threadpool}
"""
from __future__ import division, absolute_import
import pickle, time, weakref, gc, threading
from twisted.python.compat import _PY3
from twisted.trial import unittest
from twisted.python import threadpool, threadable, failure, context
#
# See the end of this module for the remainder of the imports.
#
class Synchronization(object):
failures = 0
def __init__(self, N, waiting):
self.N = N
self.waiting = waiting
self.lock = threading.Lock()
self.runs = []
def run(self):
# This is the testy part: this is supposed to be invoked
# serially from multiple threads. If that is actually the
# case, we will never fail to acquire this lock. If it is
# *not* the case, we might get here while someone else is
# holding the lock.
if self.lock.acquire(False):
if not len(self.runs) % 5:
time.sleep(0.0002) # Constant selected based on
# empirical data to maximize the
# chance of a quick failure if this
# code is broken.
self.lock.release()
else:
self.failures += 1
# This is just the only way I can think of to wake up the test
# method. It doesn't actually have anything to do with the
# test.
self.lock.acquire()
self.runs.append(None)
if len(self.runs) == self.N:
self.waiting.release()
self.lock.release()
synchronized = ["run"]
threadable.synchronize(Synchronization)
class ThreadPoolTestCase(unittest.SynchronousTestCase):
"""
Test threadpools.
"""
def getTimeout(self):
"""
Return number of seconds to wait before giving up.
"""
return 5 # Really should be order of magnitude less
def _waitForLock(self, lock):
# We could just use range(), but then we use an extra 30MB of memory
# on Python 2:
if _PY3:
items = range(1000000)
else:
items = xrange(1000000)
for i in items:
if lock.acquire(False):
break
time.sleep(1e-5)
else:
self.fail("A long time passed without succeeding")
def test_attributes(self):
"""
L{ThreadPool.min} and L{ThreadPool.max} are set to the values passed to
L{ThreadPool.__init__}.
"""
pool = threadpool.ThreadPool(12, 22)
self.assertEqual(pool.min, 12)
self.assertEqual(pool.max, 22)
def test_start(self):
"""
L{ThreadPool.start} creates the minimum number of threads specified.
"""
pool = threadpool.ThreadPool(0, 5)
pool.start()
self.addCleanup(pool.stop)
self.assertEqual(len(pool.threads), 0)
pool = threadpool.ThreadPool(3, 10)
self.assertEqual(len(pool.threads), 0)
pool.start()
self.addCleanup(pool.stop)
self.assertEqual(len(pool.threads), 3)
def test_threadCreationArguments(self):
"""
Test that creating threads in the threadpool with application-level
objects as arguments doesn't results in those objects never being
freed, with the thread maintaining a reference to them as long as it
exists.
"""
tp = threadpool.ThreadPool(0, 1)
tp.start()
self.addCleanup(tp.stop)
# Sanity check - no threads should have been started yet.
self.assertEqual(tp.threads, [])
# Here's our function
def worker(arg):
pass
# weakref needs an object subclass
class Dumb(object):
pass
# And here's the unique object
unique = Dumb()
workerRef = weakref.ref(worker)
uniqueRef = weakref.ref(unique)
# Put some work in
tp.callInThread(worker, unique)
# Add an event to wait completion
event = threading.Event()
tp.callInThread(event.set)
event.wait(self.getTimeout())
del worker
del unique
gc.collect()
self.assertEqual(uniqueRef(), None)
self.assertEqual(workerRef(), None)
def test_threadCreationArgumentsCallInThreadWithCallback(self):
"""
As C{test_threadCreationArguments} above, but for
callInThreadWithCallback.
"""
tp = threadpool.ThreadPool(0, 1)
tp.start()
self.addCleanup(tp.stop)
# Sanity check - no threads should have been started yet.
self.assertEqual(tp.threads, [])
# this holds references obtained in onResult
refdict = {} # name -> ref value
onResultWait = threading.Event()
onResultDone = threading.Event()
resultRef = []
# result callback
def onResult(success, result):
onResultWait.wait(self.getTimeout())
refdict['workerRef'] = workerRef()
refdict['uniqueRef'] = uniqueRef()
onResultDone.set()
resultRef.append(weakref.ref(result))
# Here's our function
def worker(arg, test):
return Dumb()
# weakref needs an object subclass
class Dumb(object):
pass
# And here's the unique object
unique = Dumb()
onResultRef = weakref.ref(onResult)
workerRef = weakref.ref(worker)
uniqueRef = weakref.ref(unique)
# Put some work in
tp.callInThreadWithCallback(onResult, worker, unique, test=unique)
del worker
del unique
gc.collect()
# let onResult collect the refs
onResultWait.set()
# wait for onResult
onResultDone.wait(self.getTimeout())
self.assertEqual(uniqueRef(), None)
self.assertEqual(workerRef(), None)
# XXX There's a race right here - has onResult in the worker thread
# returned and the locals in _worker holding it and the result been
# deleted yet?
del onResult
gc.collect()
self.assertEqual(onResultRef(), None)
self.assertEqual(resultRef[0](), None)
def test_persistence(self):
"""
Threadpools can be pickled and unpickled, which should preserve the
number of threads and other parameters.
"""
pool = threadpool.ThreadPool(7, 20)
self.assertEqual(pool.min, 7)
self.assertEqual(pool.max, 20)
# check that unpickled threadpool has same number of threads
copy = pickle.loads(pickle.dumps(pool))
self.assertEqual(copy.min, 7)
self.assertEqual(copy.max, 20)
def _threadpoolTest(self, method):
"""
Test synchronization of calls made with C{method}, which should be
one of the mechanisms of the threadpool to execute work in threads.
"""
# This is a schizophrenic test: it seems to be trying to test
# both the callInThread()/dispatch() behavior of the ThreadPool as well
# as the serialization behavior of threadable.synchronize(). It
# would probably make more sense as two much simpler tests.
N = 10
tp = threadpool.ThreadPool()
tp.start()
self.addCleanup(tp.stop)
waiting = threading.Lock()
waiting.acquire()
actor = Synchronization(N, waiting)
for i in range(N):
method(tp, actor)
self._waitForLock(waiting)
self.failIf(actor.failures, "run() re-entered %d times" %
(actor.failures,))
def test_callInThread(self):
"""
Call C{_threadpoolTest} with C{callInThread}.
"""
return self._threadpoolTest(
lambda tp, actor: tp.callInThread(actor.run))
def test_callInThreadException(self):
"""
L{ThreadPool.callInThread} logs exceptions raised by the callable it
is passed.
"""
class NewError(Exception):
pass
def raiseError():
raise NewError()
tp = threadpool.ThreadPool(0, 1)
tp.callInThread(raiseError)
tp.start()
tp.stop()
errors = self.flushLoggedErrors(NewError)
self.assertEqual(len(errors), 1)
def test_callInThreadWithCallback(self):
"""
L{ThreadPool.callInThreadWithCallback} calls C{onResult} with a
two-tuple of C{(True, result)} where C{result} is the value returned
by the callable supplied.
"""
waiter = threading.Lock()
waiter.acquire()
results = []
def onResult(success, result):
waiter.release()
results.append(success)
results.append(result)
tp = threadpool.ThreadPool(0, 1)
tp.callInThreadWithCallback(onResult, lambda: "test")
tp.start()
try:
self._waitForLock(waiter)
finally:
tp.stop()
self.assertTrue(results[0])
self.assertEqual(results[1], "test")
def test_callInThreadWithCallbackExceptionInCallback(self):
"""
L{ThreadPool.callInThreadWithCallback} calls C{onResult} with a
two-tuple of C{(False, failure)} where C{failure} represents the
exception raised by the callable supplied.
"""
class NewError(Exception):
pass
def raiseError():
raise NewError()
waiter = threading.Lock()
waiter.acquire()
results = []
def onResult(success, result):
waiter.release()
results.append(success)
results.append(result)
tp = threadpool.ThreadPool(0, 1)
tp.callInThreadWithCallback(onResult, raiseError)
tp.start()
try:
self._waitForLock(waiter)
finally:
tp.stop()
self.assertFalse(results[0])
self.assertTrue(isinstance(results[1], failure.Failure))
self.assertTrue(issubclass(results[1].type, NewError))
def test_callInThreadWithCallbackExceptionInOnResult(self):
"""
L{ThreadPool.callInThreadWithCallback} logs the exception raised by
C{onResult}.
"""
class NewError(Exception):
pass
waiter = threading.Lock()
waiter.acquire()
results = []
def onResult(success, result):
results.append(success)
results.append(result)
raise NewError()
tp = threadpool.ThreadPool(0, 1)
tp.callInThreadWithCallback(onResult, lambda : None)
tp.callInThread(waiter.release)
tp.start()
try:
self._waitForLock(waiter)
finally:
tp.stop()
errors = self.flushLoggedErrors(NewError)
self.assertEqual(len(errors), 1)
self.assertTrue(results[0])
self.assertEqual(results[1], None)
def test_callbackThread(self):
"""
L{ThreadPool.callInThreadWithCallback} calls the function it is
given and the C{onResult} callback in the same thread.
"""
threadIds = []
event = threading.Event()
def onResult(success, result):
threadIds.append(threading.currentThread().ident)
event.set()
def func():
threadIds.append(threading.currentThread().ident)
tp = threadpool.ThreadPool(0, 1)
tp.callInThreadWithCallback(onResult, func)
tp.start()
self.addCleanup(tp.stop)
event.wait(self.getTimeout())
self.assertEqual(len(threadIds), 2)
self.assertEqual(threadIds[0], threadIds[1])
def test_callbackContext(self):
"""
The context L{ThreadPool.callInThreadWithCallback} is invoked in is
shared by the context the callable and C{onResult} callback are
invoked in.
"""
myctx = context.theContextTracker.currentContext().contexts[-1]
myctx['testing'] = 'this must be present'
contexts = []
event = threading.Event()
def onResult(success, result):
ctx = context.theContextTracker.currentContext().contexts[-1]
contexts.append(ctx)
event.set()
def func():
ctx = context.theContextTracker.currentContext().contexts[-1]
contexts.append(ctx)
tp = threadpool.ThreadPool(0, 1)
tp.callInThreadWithCallback(onResult, func)
tp.start()
self.addCleanup(tp.stop)
event.wait(self.getTimeout())
self.assertEqual(len(contexts), 2)
self.assertEqual(myctx, contexts[0])
self.assertEqual(myctx, contexts[1])
def test_existingWork(self):
"""
Work added to the threadpool before its start should be executed once
the threadpool is started: this is ensured by trying to release a lock
previously acquired.
"""
waiter = threading.Lock()
waiter.acquire()
tp = threadpool.ThreadPool(0, 1)
tp.callInThread(waiter.release) # before start()
tp.start()
try:
self._waitForLock(waiter)
finally:
tp.stop()
def test_workerStateTransition(self):
"""
As the worker receives and completes work, it transitions between
the working and waiting states.
"""
pool = threadpool.ThreadPool(0, 1)
pool.start()
self.addCleanup(pool.stop)
# sanity check
self.assertEqual(pool.workers, 0)
self.assertEqual(len(pool.waiters), 0)
self.assertEqual(len(pool.working), 0)
# fire up a worker and give it some 'work'
threadWorking = threading.Event()
threadFinish = threading.Event()
def _thread():
threadWorking.set()
threadFinish.wait()
pool.callInThread(_thread)
threadWorking.wait()
self.assertEqual(pool.workers, 1)
self.assertEqual(len(pool.waiters), 0)
self.assertEqual(len(pool.working), 1)
# finish work, and spin until state changes
threadFinish.set()
while not len(pool.waiters):
time.sleep(0.0005)
# make sure state changed correctly
self.assertEqual(len(pool.waiters), 1)
self.assertEqual(len(pool.working), 0)
def test_workerState(self):
"""
Upon entering a _workerState block, the threads unique identifier is
added to a stateList and is removed upon exiting the block.
"""
pool = threadpool.ThreadPool()
workerThread = object()
stateList = []
with pool._workerState(stateList, workerThread):
self.assertIn(workerThread, stateList)
self.assertNotIn(workerThread, stateList)
def test_workerStateExceptionHandling(self):
"""
The _workerState block does not consume L{Exception}s or change the
L{Exception} that gets raised.
"""
pool = threadpool.ThreadPool()
workerThread = object()
stateList = []
try:
with pool._workerState(stateList, workerThread):
self.assertIn(workerThread, stateList)
1 / 0
except ZeroDivisionError:
pass
except:
self.fail("_workerState shouldn't change raised exceptions")
else:
self.fail("_workerState shouldn't consume exceptions")
self.assertNotIn(workerThread, stateList)
class RaceConditionTestCase(unittest.SynchronousTestCase):
def getTimeout(self):
"""
Return number of seconds to wait before giving up.
"""
return 5 # Really should be order of magnitude less
def setUp(self):
self.event = threading.Event()
self.threadpool = threadpool.ThreadPool(0, 10)
self.threadpool.start()
def tearDown(self):
del self.event
self.threadpool.stop()
del self.threadpool
def test_synchronization(self):
"""
Test a race condition: ensure that actions run in the pool synchronize
with actions run in the main thread.
"""
timeout = self.getTimeout()
self.threadpool.callInThread(self.event.set)
self.event.wait(timeout)
self.event.clear()
for i in range(3):
self.threadpool.callInThread(self.event.wait)
self.threadpool.callInThread(self.event.set)
self.event.wait(timeout)
if not self.event.isSet():
self.event.set()
self.fail("Actions not synchronized")
def test_singleThread(self):
"""
The submission of a new job to a thread pool in response to the
C{onResult} callback does not cause a new thread to be added to the
thread pool.
This requires that the thread which calls C{onResult} to have first
marked itself as available so that when the new job is queued, that
thread may be considered to run it. This is desirable so that when
only N jobs are ever being executed in the thread pool at once only
N threads will ever be created.
"""
# Ensure no threads running
self.assertEqual(self.threadpool.workers, 0)
event = threading.Event()
event.clear()
def onResult(success, counter):
event.set()
for i in range(10):
self.threadpool.callInThreadWithCallback(
onResult, lambda: None)
event.wait()
event.clear()
self.assertEqual(self.threadpool.workers, 1)
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