#!/usr/bin/env python3 # # Unit tests for the multiprocessing package # import unittest import queue as pyqueue import time import io import sys import os import gc import signal import array import socket import random import logging import test.support # Skip tests if _multiprocessing wasn't built. _multiprocessing = test.support.import_module('_multiprocessing') # Skip tests if sem_open implementation is broken. test.support.import_module('multiprocessing.synchronize') # import threading after _multiprocessing to raise a more revelant error # message: "No module named _multiprocessing". _multiprocessing is not compiled # without thread support. import threading import multiprocessing.dummy import multiprocessing.connection import multiprocessing.managers import multiprocessing.heap import multiprocessing.pool from multiprocessing import util try: from multiprocessing.sharedctypes import Value, copy HAS_SHAREDCTYPES = True except ImportError: HAS_SHAREDCTYPES = False # # # def latin(s): return s.encode('latin') # # Constants # LOG_LEVEL = util.SUBWARNING #LOG_LEVEL = logging.DEBUG DELTA = 0.1 CHECK_TIMINGS = False # making true makes tests take a lot longer # and can sometimes cause some non-serious # failures because some calls block a bit # longer than expected if CHECK_TIMINGS: TIMEOUT1, TIMEOUT2, TIMEOUT3 = 0.82, 0.35, 1.4 else: TIMEOUT1, TIMEOUT2, TIMEOUT3 = 0.1, 0.1, 0.1 HAVE_GETVALUE = not getattr(_multiprocessing, 'HAVE_BROKEN_SEM_GETVALUE', False) WIN32 = (sys.platform == "win32") # # Some tests require ctypes # try: from ctypes import Structure, c_int, c_double except ImportError: Structure = object c_int = c_double = None # # Creates a wrapper for a function which records the time it takes to finish # class TimingWrapper(object): def __init__(self, func): self.func = func self.elapsed = None def __call__(self, *args, **kwds): t = time.time() try: return self.func(*args, **kwds) finally: self.elapsed = time.time() - t # # Base class for test cases # class BaseTestCase(object): ALLOWED_TYPES = ('processes', 'manager', 'threads') def assertTimingAlmostEqual(self, a, b): if CHECK_TIMINGS: self.assertAlmostEqual(a, b, 1) def assertReturnsIfImplemented(self, value, func, *args): try: res = func(*args) except NotImplementedError: pass else: return self.assertEqual(value, res) # For the sanity of Windows users, rather than crashing or freezing in # multiple ways. def __reduce__(self, *args): raise NotImplementedError("shouldn't try to pickle a test case") __reduce_ex__ = __reduce__ # # Return the value of a semaphore # def get_value(self): try: return self.get_value() except AttributeError: try: return self._Semaphore__value except AttributeError: try: return self._value except AttributeError: raise NotImplementedError # # Testcases # class _TestProcess(BaseTestCase): ALLOWED_TYPES = ('processes', 'threads') def test_current(self): if self.TYPE == 'threads': return current = self.current_process() authkey = current.authkey self.assertTrue(current.is_alive()) self.assertTrue(not current.daemon) self.assertIsInstance(authkey, bytes) self.assertTrue(len(authkey) > 0) self.assertEqual(current.ident, os.getpid()) self.assertEqual(current.exitcode, None) @classmethod def _test(cls, q, *args, **kwds): current = cls.current_process() q.put(args) q.put(kwds) q.put(current.name) if cls.TYPE != 'threads': q.put(bytes(current.authkey)) q.put(current.pid) def test_process(self): q = self.Queue(1) e = self.Event() args = (q, 1, 2) kwargs = {'hello':23, 'bye':2.54} name = 'SomeProcess' p = self.Process( target=self._test, args=args, kwargs=kwargs, name=name ) p.daemon = True current = self.current_process() if self.TYPE != 'threads': self.assertEqual(p.authkey, current.authkey) self.assertEqual(p.is_alive(), False) self.assertEqual(p.daemon, True) self.assertNotIn(p, self.active_children()) self.assertTrue(type(self.active_children()) is list) self.assertEqual(p.exitcode, None) p.start() self.assertEqual(p.exitcode, None) self.assertEqual(p.is_alive(), True) self.assertIn(p, self.active_children()) self.assertEqual(q.get(), args[1:]) self.assertEqual(q.get(), kwargs) self.assertEqual(q.get(), p.name) if self.TYPE != 'threads': self.assertEqual(q.get(), current.authkey) self.assertEqual(q.get(), p.pid) p.join() self.assertEqual(p.exitcode, 0) self.assertEqual(p.is_alive(), False) self.assertNotIn(p, self.active_children()) @classmethod def _test_terminate(cls): time.sleep(1000) def test_terminate(self): if self.TYPE == 'threads': return p = self.Process(target=self._test_terminate) p.daemon = True p.start() self.assertEqual(p.is_alive(), True) self.assertIn(p, self.active_children()) self.assertEqual(p.exitcode, None) p.terminate() join = TimingWrapper(p.join) self.assertEqual(join(), None) self.assertTimingAlmostEqual(join.elapsed, 0.0) self.assertEqual(p.is_alive(), False) self.assertNotIn(p, self.active_children()) p.join() # XXX sometimes get p.exitcode == 0 on Windows ... #self.assertEqual(p.exitcode, -signal.SIGTERM) def test_cpu_count(self): try: cpus = multiprocessing.cpu_count() except NotImplementedError: cpus = 1 self.assertTrue(type(cpus) is int) self.assertTrue(cpus >= 1) def test_active_children(self): self.assertEqual(type(self.active_children()), list) p = self.Process(target=time.sleep, args=(DELTA,)) self.assertNotIn(p, self.active_children()) p.start() self.assertIn(p, self.active_children()) p.join() self.assertNotIn(p, self.active_children()) @classmethod def _test_recursion(cls, wconn, id): from multiprocessing import forking wconn.send(id) if len(id) < 2: for i in range(2): p = cls.Process( target=cls._test_recursion, args=(wconn, id+[i]) ) p.start() p.join() def test_recursion(self): rconn, wconn = self.Pipe(duplex=False) self._test_recursion(wconn, []) time.sleep(DELTA) result = [] while rconn.poll(): result.append(rconn.recv()) expected = [ [], [0], [0, 0], [0, 1], [1], [1, 0], [1, 1] ] self.assertEqual(result, expected) # # # class _UpperCaser(multiprocessing.Process): def __init__(self): multiprocessing.Process.__init__(self) self.child_conn, self.parent_conn = multiprocessing.Pipe() def run(self): self.parent_conn.close() for s in iter(self.child_conn.recv, None): self.child_conn.send(s.upper()) self.child_conn.close() def submit(self, s): assert type(s) is str self.parent_conn.send(s) return self.parent_conn.recv() def stop(self): self.parent_conn.send(None) self.parent_conn.close() self.child_conn.close() class _TestSubclassingProcess(BaseTestCase): ALLOWED_TYPES = ('processes',) def test_subclassing(self): uppercaser = _UpperCaser() uppercaser.start() self.assertEqual(uppercaser.submit('hello'), 'HELLO') self.assertEqual(uppercaser.submit('world'), 'WORLD') uppercaser.stop() uppercaser.join() # # # def queue_empty(q): if hasattr(q, 'empty'): return q.empty() else: return q.qsize() == 0 def queue_full(q, maxsize): if hasattr(q, 'full'): return q.full() else: return q.qsize() == maxsize class _TestQueue(BaseTestCase): @classmethod def _test_put(cls, queue, child_can_start, parent_can_continue): child_can_start.wait() for i in range(6): queue.get() parent_can_continue.set() def test_put(self): MAXSIZE = 6 queue = self.Queue(maxsize=MAXSIZE) child_can_start = self.Event() parent_can_continue = self.Event() proc = self.Process( target=self._test_put, args=(queue, child_can_start, parent_can_continue) ) proc.daemon = True proc.start() self.assertEqual(queue_empty(queue), True) self.assertEqual(queue_full(queue, MAXSIZE), False) queue.put(1) queue.put(2, True) queue.put(3, True, None) queue.put(4, False) queue.put(5, False, None) queue.put_nowait(6) # the values may be in buffer but not yet in pipe so sleep a bit time.sleep(DELTA) self.assertEqual(queue_empty(queue), False) self.assertEqual(queue_full(queue, MAXSIZE), True) put = TimingWrapper(queue.put) put_nowait = TimingWrapper(queue.put_nowait) self.assertRaises(pyqueue.Full, put, 7, False) self.assertTimingAlmostEqual(put.elapsed, 0) self.assertRaises(pyqueue.Full, put, 7, False, None) self.assertTimingAlmostEqual(put.elapsed, 0) self.assertRaises(pyqueue.Full, put_nowait, 7) self.assertTimingAlmostEqual(put_nowait.elapsed, 0) self.assertRaises(pyqueue.Full, put, 7, True, TIMEOUT1) self.assertTimingAlmostEqual(put.elapsed, TIMEOUT1) self.assertRaises(pyqueue.Full, put, 7, False, TIMEOUT2) self.assertTimingAlmostEqual(put.elapsed, 0) self.assertRaises(pyqueue.Full, put, 7, True, timeout=TIMEOUT3) self.assertTimingAlmostEqual(put.elapsed, TIMEOUT3) child_can_start.set() parent_can_continue.wait() self.assertEqual(queue_empty(queue), True) self.assertEqual(queue_full(queue, MAXSIZE), False) proc.join() @classmethod def _test_get(cls, queue, child_can_start, parent_can_continue): child_can_start.wait() #queue.put(1) queue.put(2) queue.put(3) queue.put(4) queue.put(5) parent_can_continue.set() def test_get(self): queue = self.Queue() child_can_start = self.Event() parent_can_continue = self.Event() proc = self.Process( target=self._test_get, args=(queue, child_can_start, parent_can_continue) ) proc.daemon = True proc.start() self.assertEqual(queue_empty(queue), True) child_can_start.set() parent_can_continue.wait() time.sleep(DELTA) self.assertEqual(queue_empty(queue), False) # Hangs unexpectedly, remove for now #self.assertEqual(queue.get(), 1) self.assertEqual(queue.get(True, None), 2) self.assertEqual(queue.get(True), 3) self.assertEqual(queue.get(timeout=1), 4) self.assertEqual(queue.get_nowait(), 5) self.assertEqual(queue_empty(queue), True) get = TimingWrapper(queue.get) get_nowait = TimingWrapper(queue.get_nowait) self.assertRaises(pyqueue.Empty, get, False) self.assertTimingAlmostEqual(get.elapsed, 0) self.assertRaises(pyqueue.Empty, get, False, None) self.assertTimingAlmostEqual(get.elapsed, 0) self.assertRaises(pyqueue.Empty, get_nowait) self.assertTimingAlmostEqual(get_nowait.elapsed, 0) self.assertRaises(pyqueue.Empty, get, True, TIMEOUT1) self.assertTimingAlmostEqual(get.elapsed, TIMEOUT1) self.assertRaises(pyqueue.Empty, get, False, TIMEOUT2) self.assertTimingAlmostEqual(get.elapsed, 0) self.assertRaises(pyqueue.Empty, get, timeout=TIMEOUT3) self.assertTimingAlmostEqual(get.elapsed, TIMEOUT3) proc.join() @classmethod def _test_fork(cls, queue): for i in range(10, 20): queue.put(i) # note that at this point the items may only be buffered, so the # process cannot shutdown until the feeder thread has finished # pushing items onto the pipe. def test_fork(self): # Old versions of Queue would fail to create a new feeder # thread for a forked process if the original process had its # own feeder thread. This test checks that this no longer # happens. queue = self.Queue() # put items on queue so that main process starts a feeder thread for i in range(10): queue.put(i) # wait to make sure thread starts before we fork a new process time.sleep(DELTA) # fork process p = self.Process(target=self._test_fork, args=(queue,)) p.start() # check that all expected items are in the queue for i in range(20): self.assertEqual(queue.get(), i) self.assertRaises(pyqueue.Empty, queue.get, False) p.join() def test_qsize(self): q = self.Queue() try: self.assertEqual(q.qsize(), 0) except NotImplementedError: return q.put(1) self.assertEqual(q.qsize(), 1) q.put(5) self.assertEqual(q.qsize(), 2) q.get() self.assertEqual(q.qsize(), 1) q.get() self.assertEqual(q.qsize(), 0) @classmethod def _test_task_done(cls, q): for obj in iter(q.get, None): time.sleep(DELTA) q.task_done() def test_task_done(self): queue = self.JoinableQueue() if sys.version_info < (2, 5) and not hasattr(queue, 'task_done'): self.skipTest("requires 'queue.task_done()' method") workers = [self.Process(target=self._test_task_done, args=(queue,)) for i in range(4)] for p in workers: p.start() for i in range(10): queue.put(i) queue.join() for p in workers: queue.put(None) for p in workers: p.join() # # # class _TestLock(BaseTestCase): def test_lock(self): lock = self.Lock() self.assertEqual(lock.acquire(), True) self.assertEqual(lock.acquire(False), False) self.assertEqual(lock.release(), None) self.assertRaises((ValueError, threading.ThreadError), lock.release) def test_rlock(self): lock = self.RLock() self.assertEqual(lock.acquire(), True) self.assertEqual(lock.acquire(), True) self.assertEqual(lock.acquire(), True) self.assertEqual(lock.release(), None) self.assertEqual(lock.release(), None) self.assertEqual(lock.release(), None) self.assertRaises((AssertionError, RuntimeError), lock.release) def test_lock_context(self): with self.Lock(): pass class _TestSemaphore(BaseTestCase): def _test_semaphore(self, sem): self.assertReturnsIfImplemented(2, get_value, sem) self.assertEqual(sem.acquire(), True) self.assertReturnsIfImplemented(1, get_value, sem) self.assertEqual(sem.acquire(), True) self.assertReturnsIfImplemented(0, get_value, sem) self.assertEqual(sem.acquire(False), False) self.assertReturnsIfImplemented(0, get_value, sem) self.assertEqual(sem.release(), None) self.assertReturnsIfImplemented(1, get_value, sem) self.assertEqual(sem.release(), None) self.assertReturnsIfImplemented(2, get_value, sem) def test_semaphore(self): sem = self.Semaphore(2) self._test_semaphore(sem) self.assertEqual(sem.release(), None) self.assertReturnsIfImplemented(3, get_value, sem) self.assertEqual(sem.release(), None) self.assertReturnsIfImplemented(4, get_value, sem) def test_bounded_semaphore(self): sem = self.BoundedSemaphore(2) self._test_semaphore(sem) # Currently fails on OS/X #if HAVE_GETVALUE: # self.assertRaises(ValueError, sem.release) # self.assertReturnsIfImplemented(2, get_value, sem) def test_timeout(self): if self.TYPE != 'processes': return sem = self.Semaphore(0) acquire = TimingWrapper(sem.acquire) self.assertEqual(acquire(False), False) self.assertTimingAlmostEqual(acquire.elapsed, 0.0) self.assertEqual(acquire(False, None), False) self.assertTimingAlmostEqual(acquire.elapsed, 0.0) self.assertEqual(acquire(False, TIMEOUT1), False) self.assertTimingAlmostEqual(acquire.elapsed, 0) self.assertEqual(acquire(True, TIMEOUT2), False) self.assertTimingAlmostEqual(acquire.elapsed, TIMEOUT2) self.assertEqual(acquire(timeout=TIMEOUT3), False) self.assertTimingAlmostEqual(acquire.elapsed, TIMEOUT3) class _TestCondition(BaseTestCase): @classmethod def f(cls, cond, sleeping, woken, timeout=None): cond.acquire() sleeping.release() cond.wait(timeout) woken.release() cond.release() def check_invariant(self, cond): # this is only supposed to succeed when there are no sleepers if self.TYPE == 'processes': try: sleepers = (cond._sleeping_count.get_value() - cond._woken_count.get_value()) self.assertEqual(sleepers, 0) self.assertEqual(cond._wait_semaphore.get_value(), 0) except NotImplementedError: pass def test_notify(self): cond = self.Condition() sleeping = self.Semaphore(0) woken = self.Semaphore(0) p = self.Process(target=self.f, args=(cond, sleeping, woken)) p.daemon = True p.start() p = threading.Thread(target=self.f, args=(cond, sleeping, woken)) p.daemon = True p.start() # wait for both children to start sleeping sleeping.acquire() sleeping.acquire() # check no process/thread has woken up time.sleep(DELTA) self.assertReturnsIfImplemented(0, get_value, woken) # wake up one process/thread cond.acquire() cond.notify() cond.release() # check one process/thread has woken up time.sleep(DELTA) self.assertReturnsIfImplemented(1, get_value, woken) # wake up another cond.acquire() cond.notify() cond.release() # check other has woken up time.sleep(DELTA) self.assertReturnsIfImplemented(2, get_value, woken) # check state is not mucked up self.check_invariant(cond) p.join() def test_notify_all(self): cond = self.Condition() sleeping = self.Semaphore(0) woken = self.Semaphore(0) # start some threads/processes which will timeout for i in range(3): p = self.Process(target=self.f, args=(cond, sleeping, woken, TIMEOUT1)) p.daemon = True p.start() t = threading.Thread(target=self.f, args=(cond, sleeping, woken, TIMEOUT1)) t.daemon = True t.start() # wait for them all to sleep for i in range(6): sleeping.acquire() # check they have all timed out for i in range(6): woken.acquire() self.assertReturnsIfImplemented(0, get_value, woken) # check state is not mucked up self.check_invariant(cond) # start some more threads/processes for i in range(3): p = self.Process(target=self.f, args=(cond, sleeping, woken)) p.daemon = True p.start() t = threading.Thread(target=self.f, args=(cond, sleeping, woken)) t.daemon = True t.start() # wait for them to all sleep for i in range(6): sleeping.acquire() # check no process/thread has woken up time.sleep(DELTA) self.assertReturnsIfImplemented(0, get_value, woken) # wake them all up cond.acquire() cond.notify_all() cond.release() # check they have all woken time.sleep(DELTA) self.assertReturnsIfImplemented(6, get_value, woken) # check state is not mucked up self.check_invariant(cond) def test_timeout(self): cond = self.Condition() wait = TimingWrapper(cond.wait) cond.acquire() res = wait(TIMEOUT1) cond.release() self.assertEqual(res, False) self.assertTimingAlmostEqual(wait.elapsed, TIMEOUT1) class _TestEvent(BaseTestCase): @classmethod def _test_event(cls, event): time.sleep(TIMEOUT2) event.set() def test_event(self): event = self.Event() wait = TimingWrapper(event.wait) # Removed temporarily, due to API shear, this does not # work with threading._Event objects. is_set == isSet self.assertEqual(event.is_set(), False) # Removed, threading.Event.wait() will return the value of the __flag # instead of None. API Shear with the semaphore backed mp.Event self.assertEqual(wait(0.0), False) self.assertTimingAlmostEqual(wait.elapsed, 0.0) self.assertEqual(wait(TIMEOUT1), False) self.assertTimingAlmostEqual(wait.elapsed, TIMEOUT1) event.set() # See note above on the API differences self.assertEqual(event.is_set(), True) self.assertEqual(wait(), True) self.assertTimingAlmostEqual(wait.elapsed, 0.0) self.assertEqual(wait(TIMEOUT1), True) self.assertTimingAlmostEqual(wait.elapsed, 0.0) # self.assertEqual(event.is_set(), True) event.clear() #self.assertEqual(event.is_set(), False) self.Process(target=self._test_event, args=(event,)).start() self.assertEqual(wait(), True) # # # class _TestValue(BaseTestCase): ALLOWED_TYPES = ('processes',) codes_values = [ ('i', 4343, 24234), ('d', 3.625, -4.25), ('h', -232, 234), ('c', latin('x'), latin('y')) ] def setUp(self): if not HAS_SHAREDCTYPES: self.skipTest("requires multiprocessing.sharedctypes") @classmethod def _test(cls, values): for sv, cv in zip(values, cls.codes_values): sv.value = cv[2] def test_value(self, raw=False): if raw: values = [self.RawValue(code, value) for code, value, _ in self.codes_values] else: values = [self.Value(code, value) for code, value, _ in self.codes_values] for sv, cv in zip(values, self.codes_values): self.assertEqual(sv.value, cv[1]) proc = self.Process(target=self._test, args=(values,)) proc.start() proc.join() for sv, cv in zip(values, self.codes_values): self.assertEqual(sv.value, cv[2]) def test_rawvalue(self): self.test_value(raw=True) def test_getobj_getlock(self): val1 = self.Value('i', 5) lock1 = val1.get_lock() obj1 = val1.get_obj() val2 = self.Value('i', 5, lock=None) lock2 = val2.get_lock() obj2 = val2.get_obj() lock = self.Lock() val3 = self.Value('i', 5, lock=lock) lock3 = val3.get_lock() obj3 = val3.get_obj() self.assertEqual(lock, lock3) arr4 = self.Value('i', 5, lock=False) self.assertFalse(hasattr(arr4, 'get_lock')) self.assertFalse(hasattr(arr4, 'get_obj')) self.assertRaises(AttributeError, self.Value, 'i', 5, lock='navalue') arr5 = self.RawValue('i', 5) self.assertFalse(hasattr(arr5, 'get_lock')) self.assertFalse(hasattr(arr5, 'get_obj')) class _TestArray(BaseTestCase): ALLOWED_TYPES = ('processes',) @classmethod def f(cls, seq): for i in range(1, len(seq)): seq[i] += seq[i-1] @unittest.skipIf(c_int is None, "requires _ctypes") def test_array(self, raw=False): seq = [680, 626, 934, 821, 150, 233, 548, 982, 714, 831] if raw: arr = self.RawArray('i', seq) else: arr = self.Array('i', seq) self.assertEqual(len(arr), len(seq)) self.assertEqual(arr[3], seq[3]) self.assertEqual(list(arr[2:7]), list(seq[2:7])) arr[4:8] = seq[4:8] = array.array('i', [1, 2, 3, 4]) self.assertEqual(list(arr[:]), seq) self.f(seq) p = self.Process(target=self.f, args=(arr,)) p.start() p.join() self.assertEqual(list(arr[:]), seq) @unittest.skipIf(c_int is None, "requires _ctypes") def test_rawarray(self): self.test_array(raw=True) @unittest.skipIf(c_int is None, "requires _ctypes") def test_getobj_getlock_obj(self): arr1 = self.Array('i', list(range(10))) lock1 = arr1.get_lock() obj1 = arr1.get_obj() arr2 = self.Array('i', list(range(10)), lock=None) lock2 = arr2.get_lock() obj2 = arr2.get_obj() lock = self.Lock() arr3 = self.Array('i', list(range(10)), lock=lock) lock3 = arr3.get_lock() obj3 = arr3.get_obj() self.assertEqual(lock, lock3) arr4 = self.Array('i', range(10), lock=False) self.assertFalse(hasattr(arr4, 'get_lock')) self.assertFalse(hasattr(arr4, 'get_obj')) self.assertRaises(AttributeError, self.Array, 'i', range(10), lock='notalock') arr5 = self.RawArray('i', range(10)) self.assertFalse(hasattr(arr5, 'get_lock')) self.assertFalse(hasattr(arr5, 'get_obj')) # # # class _TestContainers(BaseTestCase): ALLOWED_TYPES = ('manager',) def test_list(self): a = self.list(list(range(10))) self.assertEqual(a[:], list(range(10))) b = self.list() self.assertEqual(b[:], []) b.extend(list(range(5))) self.assertEqual(b[:], list(range(5))) self.assertEqual(b[2], 2) self.assertEqual(b[2:10], [2,3,4]) b *= 2 self.assertEqual(b[:], [0, 1, 2, 3, 4, 0, 1, 2, 3, 4]) self.assertEqual(b + [5, 6], [0, 1, 2, 3, 4, 0, 1, 2, 3, 4, 5, 6]) self.assertEqual(a[:], list(range(10))) d = [a, b] e = self.list(d) self.assertEqual( e[:], [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9], [0, 1, 2, 3, 4, 0, 1, 2, 3, 4]] ) f = self.list([a]) a.append('hello') self.assertEqual(f[:], [[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 'hello']]) def test_dict(self): d = self.dict() indices = list(range(65, 70)) for i in indices: d[i] = chr(i) self.assertEqual(d.copy(), dict((i, chr(i)) for i in indices)) self.assertEqual(sorted(d.keys()), indices) self.assertEqual(sorted(d.values()), [chr(i) for i in indices]) self.assertEqual(sorted(d.items()), [(i, chr(i)) for i in indices]) def test_namespace(self): n = self.Namespace() n.name = 'Bob' n.job = 'Builder' n._hidden = 'hidden' self.assertEqual((n.name, n.job), ('Bob', 'Builder')) del n.job self.assertEqual(str(n), "Namespace(name='Bob')") self.assertTrue(hasattr(n, 'name')) self.assertTrue(not hasattr(n, 'job')) # # # def sqr(x, wait=0.0): time.sleep(wait) return x*x class _TestPool(BaseTestCase): def test_apply(self): papply = self.pool.apply self.assertEqual(papply(sqr, (5,)), sqr(5)) self.assertEqual(papply(sqr, (), {'x':3}), sqr(x=3)) def test_map(self): pmap = self.pool.map self.assertEqual(pmap(sqr, list(range(10))), list(map(sqr, list(range(10))))) self.assertEqual(pmap(sqr, list(range(100)), chunksize=20), list(map(sqr, list(range(100))))) def test_map_chunksize(self): try: self.pool.map_async(sqr, [], chunksize=1).get(timeout=TIMEOUT1) except multiprocessing.TimeoutError: self.fail("pool.map_async with chunksize stalled on null list") def test_async(self): res = self.pool.apply_async(sqr, (7, TIMEOUT1,)) get = TimingWrapper(res.get) self.assertEqual(get(), 49) self.assertTimingAlmostEqual(get.elapsed, TIMEOUT1) def test_async_timeout(self): res = self.pool.apply_async(sqr, (6, TIMEOUT2 + 0.2)) get = TimingWrapper(res.get) self.assertRaises(multiprocessing.TimeoutError, get, timeout=TIMEOUT2) self.assertTimingAlmostEqual(get.elapsed, TIMEOUT2) def test_imap(self): it = self.pool.imap(sqr, list(range(10))) self.assertEqual(list(it), list(map(sqr, list(range(10))))) it = self.pool.imap(sqr, list(range(10))) for i in range(10): self.assertEqual(next(it), i*i) self.assertRaises(StopIteration, it.__next__) it = self.pool.imap(sqr, list(range(1000)), chunksize=100) for i in range(1000): self.assertEqual(next(it), i*i) self.assertRaises(StopIteration, it.__next__) def test_imap_unordered(self): it = self.pool.imap_unordered(sqr, list(range(1000))) self.assertEqual(sorted(it), list(map(sqr, list(range(1000))))) it = self.pool.imap_unordered(sqr, list(range(1000)), chunksize=53) self.assertEqual(sorted(it), list(map(sqr, list(range(1000))))) def test_make_pool(self): p = multiprocessing.Pool(3) self.assertEqual(3, len(p._pool)) p.close() p.join() def test_terminate(self): if self.TYPE == 'manager': # On Unix a forked process increfs each shared object to # which its parent process held a reference. If the # forked process gets terminated then there is likely to # be a reference leak. So to prevent # _TestZZZNumberOfObjects from failing we skip this test # when using a manager. return result = self.pool.map_async( time.sleep, [0.1 for i in range(10000)], chunksize=1 ) self.pool.terminate() join = TimingWrapper(self.pool.join) join() self.assertTrue(join.elapsed < 0.5) def raising(): raise KeyError("key") def unpickleable_result(): return lambda: 42 class _TestPoolWorkerErrors(BaseTestCase): ALLOWED_TYPES = ('processes', ) def test_async_error_callback(self): p = multiprocessing.Pool(2) scratchpad = [None] def errback(exc): scratchpad[0] = exc res = p.apply_async(raising, error_callback=errback) self.assertRaises(KeyError, res.get) self.assertTrue(scratchpad[0]) self.assertIsInstance(scratchpad[0], KeyError) p.close() p.join() def test_unpickleable_result(self): from multiprocessing.pool import MaybeEncodingError p = multiprocessing.Pool(2) # Make sure we don't lose pool processes because of encoding errors. for iteration in range(20): scratchpad = [None] def errback(exc): scratchpad[0] = exc res = p.apply_async(unpickleable_result, error_callback=errback) self.assertRaises(MaybeEncodingError, res.get) wrapped = scratchpad[0] self.assertTrue(wrapped) self.assertIsInstance(scratchpad[0], MaybeEncodingError) self.assertIsNotNone(wrapped.exc) self.assertIsNotNone(wrapped.value) p.close() p.join() class _TestPoolWorkerLifetime(BaseTestCase): ALLOWED_TYPES = ('processes', ) def test_pool_worker_lifetime(self): p = multiprocessing.Pool(3, maxtasksperchild=10) self.assertEqual(3, len(p._pool)) origworkerpids = [w.pid for w in p._pool] # Run many tasks so each worker gets replaced (hopefully) results = [] for i in range(100): results.append(p.apply_async(sqr, (i, ))) # Fetch the results and verify we got the right answers, # also ensuring all the tasks have completed. for (j, res) in enumerate(results): self.assertEqual(res.get(), sqr(j)) # Refill the pool p._repopulate_pool() # Wait until all workers are alive countdown = 5 while countdown and not all(w.is_alive() for w in p._pool): countdown -= 1 time.sleep(DELTA) finalworkerpids = [w.pid for w in p._pool] # All pids should be assigned. See issue #7805. self.assertNotIn(None, origworkerpids) self.assertNotIn(None, finalworkerpids) # Finally, check that the worker pids have changed self.assertNotEqual(sorted(origworkerpids), sorted(finalworkerpids)) p.close() p.join() # # Test that manager has expected number of shared objects left # class _TestZZZNumberOfObjects(BaseTestCase): # Because test cases are sorted alphabetically, this one will get # run after all the other tests for the manager. It tests that # there have been no "reference leaks" for the manager's shared # objects. Note the comment in _TestPool.test_terminate(). ALLOWED_TYPES = ('manager',) def test_number_of_objects(self): EXPECTED_NUMBER = 1 # the pool object is still alive multiprocessing.active_children() # discard dead process objs gc.collect() # do garbage collection refs = self.manager._number_of_objects() debug_info = self.manager._debug_info() if refs != EXPECTED_NUMBER: print(self.manager._debug_info()) print(debug_info) self.assertEqual(refs, EXPECTED_NUMBER) # # Test of creating a customized manager class # from multiprocessing.managers import BaseManager, BaseProxy, RemoteError class FooBar(object): def f(self): return 'f()' def g(self): raise ValueError def _h(self): return '_h()' def baz(): for i in range(10): yield i*i class IteratorProxy(BaseProxy): _exposed_ = ('__next__',) def __iter__(self): return self def __next__(self): return self._callmethod('__next__') class MyManager(BaseManager): pass MyManager.register('Foo', callable=FooBar) MyManager.register('Bar', callable=FooBar, exposed=('f', '_h')) MyManager.register('baz', callable=baz, proxytype=IteratorProxy) class _TestMyManager(BaseTestCase): ALLOWED_TYPES = ('manager',) def test_mymanager(self): manager = MyManager() manager.start() foo = manager.Foo() bar = manager.Bar() baz = manager.baz() foo_methods = [name for name in ('f', 'g', '_h') if hasattr(foo, name)] bar_methods = [name for name in ('f', 'g', '_h') if hasattr(bar, name)] self.assertEqual(foo_methods, ['f', 'g']) self.assertEqual(bar_methods, ['f', '_h']) self.assertEqual(foo.f(), 'f()') self.assertRaises(ValueError, foo.g) self.assertEqual(foo._callmethod('f'), 'f()') self.assertRaises(RemoteError, foo._callmethod, '_h') self.assertEqual(bar.f(), 'f()') self.assertEqual(bar._h(), '_h()') self.assertEqual(bar._callmethod('f'), 'f()') self.assertEqual(bar._callmethod('_h'), '_h()') self.assertEqual(list(baz), [i*i for i in range(10)]) manager.shutdown() # # Test of connecting to a remote server and using xmlrpclib for serialization # _queue = pyqueue.Queue() def get_queue(): return _queue class QueueManager(BaseManager): '''manager class used by server process''' QueueManager.register('get_queue', callable=get_queue) class QueueManager2(BaseManager): '''manager class which specifies the same interface as QueueManager''' QueueManager2.register('get_queue') SERIALIZER = 'xmlrpclib' class _TestRemoteManager(BaseTestCase): ALLOWED_TYPES = ('manager',) @classmethod def _putter(cls, address, authkey): manager = QueueManager2( address=address, authkey=authkey, serializer=SERIALIZER ) manager.connect() queue = manager.get_queue() queue.put(('hello world', None, True, 2.25)) def test_remote(self): authkey = os.urandom(32) manager = QueueManager( address=('localhost', 0), authkey=authkey, serializer=SERIALIZER ) manager.start() p = self.Process(target=self._putter, args=(manager.address, authkey)) p.start() manager2 = QueueManager2( address=manager.address, authkey=authkey, serializer=SERIALIZER ) manager2.connect() queue = manager2.get_queue() # Note that xmlrpclib will deserialize object as a list not a tuple self.assertEqual(queue.get(), ['hello world', None, True, 2.25]) # Because we are using xmlrpclib for serialization instead of # pickle this will cause a serialization error. self.assertRaises(Exception, queue.put, time.sleep) # Make queue finalizer run before the server is stopped del queue manager.shutdown() class _TestManagerRestart(BaseTestCase): @classmethod def _putter(cls, address, authkey): manager = QueueManager( address=address, authkey=authkey, serializer=SERIALIZER) manager.connect() queue = manager.get_queue() queue.put('hello world') def test_rapid_restart(self): authkey = os.urandom(32) manager = QueueManager( address=('localhost', 0), authkey=authkey, serializer=SERIALIZER) srvr = manager.get_server() addr = srvr.address # Close the connection.Listener socket which gets opened as a part # of manager.get_server(). It's not needed for the test. srvr.listener.close() manager.start() p = self.Process(target=self._putter, args=(manager.address, authkey)) p.start() queue = manager.get_queue() self.assertEqual(queue.get(), 'hello world') del queue manager.shutdown() manager = QueueManager( address=addr, authkey=authkey, serializer=SERIALIZER) manager.start() manager.shutdown() # # # SENTINEL = latin('') class _TestConnection(BaseTestCase): ALLOWED_TYPES = ('processes', 'threads') @classmethod def _echo(cls, conn): for msg in iter(conn.recv_bytes, SENTINEL): conn.send_bytes(msg) conn.close() def test_connection(self): conn, child_conn = self.Pipe() p = self.Process(target=self._echo, args=(child_conn,)) p.daemon = True p.start() seq = [1, 2.25, None] msg = latin('hello world') longmsg = msg * 10 arr = array.array('i', list(range(4))) if self.TYPE == 'processes': self.assertEqual(type(conn.fileno()), int) self.assertEqual(conn.send(seq), None) self.assertEqual(conn.recv(), seq) self.assertEqual(conn.send_bytes(msg), None) self.assertEqual(conn.recv_bytes(), msg) if self.TYPE == 'processes': buffer = array.array('i', [0]*10) expected = list(arr) + [0] * (10 - len(arr)) self.assertEqual(conn.send_bytes(arr), None) self.assertEqual(conn.recv_bytes_into(buffer), len(arr) * buffer.itemsize) self.assertEqual(list(buffer), expected) buffer = array.array('i', [0]*10) expected = [0] * 3 + list(arr) + [0] * (10 - 3 - len(arr)) self.assertEqual(conn.send_bytes(arr), None) self.assertEqual(conn.recv_bytes_into(buffer, 3 * buffer.itemsize), len(arr) * buffer.itemsize) self.assertEqual(list(buffer), expected) buffer = bytearray(latin(' ' * 40)) self.assertEqual(conn.send_bytes(longmsg), None) try: res = conn.recv_bytes_into(buffer) except multiprocessing.BufferTooShort as e: self.assertEqual(e.args, (longmsg,)) else: self.fail('expected BufferTooShort, got %s' % res) poll = TimingWrapper(conn.poll) self.assertEqual(poll(), False) self.assertTimingAlmostEqual(poll.elapsed, 0) self.assertEqual(poll(TIMEOUT1), False) self.assertTimingAlmostEqual(poll.elapsed, TIMEOUT1) conn.send(None) self.assertEqual(poll(TIMEOUT1), True) self.assertTimingAlmostEqual(poll.elapsed, 0) self.assertEqual(conn.recv(), None) really_big_msg = latin('X') * (1024 * 1024 * 16) # 16Mb conn.send_bytes(really_big_msg) self.assertEqual(conn.recv_bytes(), really_big_msg) conn.send_bytes(SENTINEL) # tell child to quit child_conn.close() if self.TYPE == 'processes': self.assertEqual(conn.readable, True) self.assertEqual(conn.writable, True) self.assertRaises(EOFError, conn.recv) self.assertRaises(EOFError, conn.recv_bytes) p.join() def test_duplex_false(self): reader, writer = self.Pipe(duplex=False) self.assertEqual(writer.send(1), None) self.assertEqual(reader.recv(), 1) if self.TYPE == 'processes': self.assertEqual(reader.readable, True) self.assertEqual(reader.writable, False) self.assertEqual(writer.readable, False) self.assertEqual(writer.writable, True) self.assertRaises(IOError, reader.send, 2) self.assertRaises(IOError, writer.recv) self.assertRaises(IOError, writer.poll) def test_spawn_close(self): # We test that a pipe connection can be closed by parent # process immediately after child is spawned. On Windows this # would have sometimes failed on old versions because # child_conn would be closed before the child got a chance to # duplicate it. conn, child_conn = self.Pipe() p = self.Process(target=self._echo, args=(child_conn,)) p.start() child_conn.close() # this might complete before child initializes msg = latin('hello') conn.send_bytes(msg) self.assertEqual(conn.recv_bytes(), msg) conn.send_bytes(SENTINEL) conn.close() p.join() def test_sendbytes(self): if self.TYPE != 'processes': return msg = latin('abcdefghijklmnopqrstuvwxyz') a, b = self.Pipe() a.send_bytes(msg) self.assertEqual(b.recv_bytes(), msg) a.send_bytes(msg, 5) self.assertEqual(b.recv_bytes(), msg[5:]) a.send_bytes(msg, 7, 8) self.assertEqual(b.recv_bytes(), msg[7:7+8]) a.send_bytes(msg, 26) self.assertEqual(b.recv_bytes(), latin('')) a.send_bytes(msg, 26, 0) self.assertEqual(b.recv_bytes(), latin('')) self.assertRaises(ValueError, a.send_bytes, msg, 27) self.assertRaises(ValueError, a.send_bytes, msg, 22, 5) self.assertRaises(ValueError, a.send_bytes, msg, 26, 1) self.assertRaises(ValueError, a.send_bytes, msg, -1) self.assertRaises(ValueError, a.send_bytes, msg, 4, -1) class _TestListenerClient(BaseTestCase): ALLOWED_TYPES = ('processes', 'threads') @classmethod def _test(cls, address): conn = cls.connection.Client(address) conn.send('hello') conn.close() def test_listener_client(self): for family in self.connection.families: l = self.connection.Listener(family=family) p = self.Process(target=self._test, args=(l.address,)) p.daemon = True p.start() conn = l.accept() self.assertEqual(conn.recv(), 'hello') p.join() l.close() # # Test of sending connection and socket objects between processes # """ class _TestPicklingConnections(BaseTestCase): ALLOWED_TYPES = ('processes',) def _listener(self, conn, families): for fam in families: l = self.connection.Listener(family=fam) conn.send(l.address) new_conn = l.accept() conn.send(new_conn) if self.TYPE == 'processes': l = socket.socket() l.bind(('localhost', 0)) conn.send(l.getsockname()) l.listen(1) new_conn, addr = l.accept() conn.send(new_conn) conn.recv() def _remote(self, conn): for (address, msg) in iter(conn.recv, None): client = self.connection.Client(address) client.send(msg.upper()) client.close() if self.TYPE == 'processes': address, msg = conn.recv() client = socket.socket() client.connect(address) client.sendall(msg.upper()) client.close() conn.close() def test_pickling(self): try: multiprocessing.allow_connection_pickling() except ImportError: return families = self.connection.families lconn, lconn0 = self.Pipe() lp = self.Process(target=self._listener, args=(lconn0, families)) lp.start() lconn0.close() rconn, rconn0 = self.Pipe() rp = self.Process(target=self._remote, args=(rconn0,)) rp.start() rconn0.close() for fam in families: msg = ('This connection uses family %s' % fam).encode('ascii') address = lconn.recv() rconn.send((address, msg)) new_conn = lconn.recv() self.assertEqual(new_conn.recv(), msg.upper()) rconn.send(None) if self.TYPE == 'processes': msg = latin('This connection uses a normal socket') address = lconn.recv() rconn.send((address, msg)) if hasattr(socket, 'fromfd'): new_conn = lconn.recv() self.assertEqual(new_conn.recv(100), msg.upper()) else: # XXX On Windows with Py2.6 need to backport fromfd() discard = lconn.recv_bytes() lconn.send(None) rconn.close() lconn.close() lp.join() rp.join() """ # # # class _TestHeap(BaseTestCase): ALLOWED_TYPES = ('processes',) def test_heap(self): iterations = 5000 maxblocks = 50 blocks = [] # create and destroy lots of blocks of different sizes for i in range(iterations): size = int(random.lognormvariate(0, 1) * 1000) b = multiprocessing.heap.BufferWrapper(size) blocks.append(b) if len(blocks) > maxblocks: i = random.randrange(maxblocks) del blocks[i] # get the heap object heap = multiprocessing.heap.BufferWrapper._heap # verify the state of the heap all = [] occupied = 0 for L in list(heap._len_to_seq.values()): for arena, start, stop in L: all.append((heap._arenas.index(arena), start, stop, stop-start, 'free')) for arena, start, stop in heap._allocated_blocks: all.append((heap._arenas.index(arena), start, stop, stop-start, 'occupied')) occupied += (stop-start) all.sort() for i in range(len(all)-1): (arena, start, stop) = all[i][:3] (narena, nstart, nstop) = all[i+1][:3] self.assertTrue((arena != narena and nstart == 0) or (stop == nstart)) # # # class _Foo(Structure): _fields_ = [ ('x', c_int), ('y', c_double) ] class _TestSharedCTypes(BaseTestCase): ALLOWED_TYPES = ('processes',) def setUp(self): if not HAS_SHAREDCTYPES: self.skipTest("requires multiprocessing.sharedctypes") @classmethod def _double(cls, x, y, foo, arr, string): x.value *= 2 y.value *= 2 foo.x *= 2 foo.y *= 2 string.value *= 2 for i in range(len(arr)): arr[i] *= 2 def test_sharedctypes(self, lock=False): x = Value('i', 7, lock=lock) y = Value(c_double, 1.0/3.0, lock=lock) foo = Value(_Foo, 3, 2, lock=lock) arr = self.Array('d', list(range(10)), lock=lock) string = self.Array('c', 20, lock=lock) string.value = latin('hello') p = self.Process(target=self._double, args=(x, y, foo, arr, string)) p.start() p.join() self.assertEqual(x.value, 14) self.assertAlmostEqual(y.value, 2.0/3.0) self.assertEqual(foo.x, 6) self.assertAlmostEqual(foo.y, 4.0) for i in range(10): self.assertAlmostEqual(arr[i], i*2) self.assertEqual(string.value, latin('hellohello')) def test_synchronize(self): self.test_sharedctypes(lock=True) def test_copy(self): foo = _Foo(2, 5.0) bar = copy(foo) foo.x = 0 foo.y = 0 self.assertEqual(bar.x, 2) self.assertAlmostEqual(bar.y, 5.0) # # # class _TestFinalize(BaseTestCase): ALLOWED_TYPES = ('processes',) @classmethod def _test_finalize(cls, conn): class Foo(object): pass a = Foo() util.Finalize(a, conn.send, args=('a',)) del a # triggers callback for a b = Foo() close_b = util.Finalize(b, conn.send, args=('b',)) close_b() # triggers callback for b close_b() # does nothing because callback has already been called del b # does nothing because callback has already been called c = Foo() util.Finalize(c, conn.send, args=('c',)) d10 = Foo() util.Finalize(d10, conn.send, args=('d10',), exitpriority=1) d01 = Foo() util.Finalize(d01, conn.send, args=('d01',), exitpriority=0) d02 = Foo() util.Finalize(d02, conn.send, args=('d02',), exitpriority=0) d03 = Foo() util.Finalize(d03, conn.send, args=('d03',), exitpriority=0) util.Finalize(None, conn.send, args=('e',), exitpriority=-10) util.Finalize(None, conn.send, args=('STOP',), exitpriority=-100) # call multiprocessing's cleanup function then exit process without # garbage collecting locals util._exit_function() conn.close() os._exit(0) def test_finalize(self): conn, child_conn = self.Pipe() p = self.Process(target=self._test_finalize, args=(child_conn,)) p.start() p.join() result = [obj for obj in iter(conn.recv, 'STOP')] self.assertEqual(result, ['a', 'b', 'd10', 'd03', 'd02', 'd01', 'e']) # # Test that from ... import * works for each module # class _TestImportStar(BaseTestCase): ALLOWED_TYPES = ('processes',) def test_import(self): modules = [ 'multiprocessing', 'multiprocessing.connection', 'multiprocessing.heap', 'multiprocessing.managers', 'multiprocessing.pool', 'multiprocessing.process', 'multiprocessing.reduction', 'multiprocessing.synchronize', 'multiprocessing.util' ] if c_int is not None: # This module requires _ctypes modules.append('multiprocessing.sharedctypes') for name in modules: __import__(name) mod = sys.modules[name] for attr in getattr(mod, '__all__', ()): self.assertTrue( hasattr(mod, attr), '%r does not have attribute %r' % (mod, attr) ) # # Quick test that logging works -- does not test logging output # class _TestLogging(BaseTestCase): ALLOWED_TYPES = ('processes',) def test_enable_logging(self): logger = multiprocessing.get_logger() logger.setLevel(util.SUBWARNING) self.assertTrue(logger is not None) logger.debug('this will not be printed') logger.info('nor will this') logger.setLevel(LOG_LEVEL) @classmethod def _test_level(cls, conn): logger = multiprocessing.get_logger() conn.send(logger.getEffectiveLevel()) def test_level(self): LEVEL1 = 32 LEVEL2 = 37 logger = multiprocessing.get_logger() root_logger = logging.getLogger() root_level = root_logger.level reader, writer = multiprocessing.Pipe(duplex=False) logger.setLevel(LEVEL1) self.Process(target=self._test_level, args=(writer,)).start() self.assertEqual(LEVEL1, reader.recv()) logger.setLevel(logging.NOTSET) root_logger.setLevel(LEVEL2) self.Process(target=self._test_level, args=(writer,)).start() self.assertEqual(LEVEL2, reader.recv()) root_logger.setLevel(root_level) logger.setLevel(level=LOG_LEVEL) # class _TestLoggingProcessName(BaseTestCase): # # def handle(self, record): # assert record.processName == multiprocessing.current_process().name # self.__handled = True # # def test_logging(self): # handler = logging.Handler() # handler.handle = self.handle # self.__handled = False # # Bypass getLogger() and side-effects # logger = logging.getLoggerClass()( # 'multiprocessing.test.TestLoggingProcessName') # logger.addHandler(handler) # logger.propagate = False # # logger.warn('foo') # assert self.__handled # # Test to verify handle verification, see issue 3321 # class TestInvalidHandle(unittest.TestCase): @unittest.skipIf(WIN32, "skipped on Windows") def test_invalid_handles(self): conn = _multiprocessing.Connection(44977608) self.assertRaises(IOError, conn.poll) self.assertRaises(IOError, _multiprocessing.Connection, -1) # # Functions used to create test cases from the base ones in this module # def get_attributes(Source, names): d = {} for name in names: obj = getattr(Source, name) if type(obj) == type(get_attributes): obj = staticmethod(obj) d[name] = obj return d def create_test_cases(Mixin, type): result = {} glob = globals() Type = type.capitalize() for name in list(glob.keys()): if name.startswith('_Test'): base = glob[name] if type in base.ALLOWED_TYPES: newname = 'With' + Type + name[1:] class Temp(base, unittest.TestCase, Mixin): pass result[newname] = Temp Temp.__name__ = newname Temp.__module__ = Mixin.__module__ return result # # Create test cases # class ProcessesMixin(object): TYPE = 'processes' Process = multiprocessing.Process locals().update(get_attributes(multiprocessing, ( 'Queue', 'Lock', 'RLock', 'Semaphore', 'BoundedSemaphore', 'Condition', 'Event', 'Value', 'Array', 'RawValue', 'RawArray', 'current_process', 'active_children', 'Pipe', 'connection', 'JoinableQueue' ))) testcases_processes = create_test_cases(ProcessesMixin, type='processes') globals().update(testcases_processes) class ManagerMixin(object): TYPE = 'manager' Process = multiprocessing.Process manager = object.__new__(multiprocessing.managers.SyncManager) locals().update(get_attributes(manager, ( 'Queue', 'Lock', 'RLock', 'Semaphore', 'BoundedSemaphore', 'Condition', 'Event', 'Value', 'Array', 'list', 'dict', 'Namespace', 'JoinableQueue' ))) testcases_manager = create_test_cases(ManagerMixin, type='manager') globals().update(testcases_manager) class ThreadsMixin(object): TYPE = 'threads' Process = multiprocessing.dummy.Process locals().update(get_attributes(multiprocessing.dummy, ( 'Queue', 'Lock', 'RLock', 'Semaphore', 'BoundedSemaphore', 'Condition', 'Event', 'Value', 'Array', 'current_process', 'active_children', 'Pipe', 'connection', 'dict', 'list', 'Namespace', 'JoinableQueue' ))) testcases_threads = create_test_cases(ThreadsMixin, type='threads') globals().update(testcases_threads) class OtherTest(unittest.TestCase): # TODO: add more tests for deliver/answer challenge. def test_deliver_challenge_auth_failure(self): class _FakeConnection(object): def recv_bytes(self, size): return b'something bogus' def send_bytes(self, data): pass self.assertRaises(multiprocessing.AuthenticationError, multiprocessing.connection.deliver_challenge, _FakeConnection(), b'abc') def test_answer_challenge_auth_failure(self): class _FakeConnection(object): def __init__(self): self.count = 0 def recv_bytes(self, size): self.count += 1 if self.count == 1: return multiprocessing.connection.CHALLENGE elif self.count == 2: return b'something bogus' return b'' def send_bytes(self, data): pass self.assertRaises(multiprocessing.AuthenticationError, multiprocessing.connection.answer_challenge, _FakeConnection(), b'abc') # # Test Manager.start()/Pool.__init__() initializer feature - see issue 5585 # def initializer(ns): ns.test += 1 class TestInitializers(unittest.TestCase): def setUp(self): self.mgr = multiprocessing.Manager() self.ns = self.mgr.Namespace() self.ns.test = 0 def tearDown(self): self.mgr.shutdown() def test_manager_initializer(self): m = multiprocessing.managers.SyncManager() self.assertRaises(TypeError, m.start, 1) m.start(initializer, (self.ns,)) self.assertEqual(self.ns.test, 1) m.shutdown() def test_pool_initializer(self): self.assertRaises(TypeError, multiprocessing.Pool, initializer=1) p = multiprocessing.Pool(1, initializer, (self.ns,)) p.close() p.join() self.assertEqual(self.ns.test, 1) # # Issue 5155, 5313, 5331: Test process in processes # Verifies os.close(sys.stdin.fileno) vs. sys.stdin.close() behavior # def _ThisSubProcess(q): try: item = q.get(block=False) except pyqueue.Empty: pass def _TestProcess(q): queue = multiprocessing.Queue() subProc = multiprocessing.Process(target=_ThisSubProcess, args=(queue,)) subProc.start() subProc.join() def _afunc(x): return x*x def pool_in_process(): pool = multiprocessing.Pool(processes=4) x = pool.map(_afunc, [1, 2, 3, 4, 5, 6, 7]) class _file_like(object): def __init__(self, delegate): self._delegate = delegate self._pid = None @property def cache(self): pid = os.getpid() # There are no race conditions since fork keeps only the running thread if pid != self._pid: self._pid = pid self._cache = [] return self._cache def write(self, data): self.cache.append(data) def flush(self): self._delegate.write(''.join(self.cache)) self._cache = [] class TestStdinBadfiledescriptor(unittest.TestCase): def test_queue_in_process(self): queue = multiprocessing.Queue() proc = multiprocessing.Process(target=_TestProcess, args=(queue,)) proc.start() proc.join() def test_pool_in_process(self): p = multiprocessing.Process(target=pool_in_process) p.start() p.join() def test_flushing(self): sio = io.StringIO() flike = _file_like(sio) flike.write('foo') proc = multiprocessing.Process(target=lambda: flike.flush()) flike.flush() assert sio.getvalue() == 'foo' testcases_other = [OtherTest, TestInvalidHandle, TestInitializers, TestStdinBadfiledescriptor] # # # def test_main(run=None): if sys.platform.startswith("linux"): try: lock = multiprocessing.RLock() except OSError: raise unittest.SkipTest("OSError raises on RLock creation, see issue 3111!") if run is None: from test.support import run_unittest as run util.get_temp_dir() # creates temp directory for use by all processes multiprocessing.get_logger().setLevel(LOG_LEVEL) ProcessesMixin.pool = multiprocessing.Pool(4) ThreadsMixin.pool = multiprocessing.dummy.Pool(4) ManagerMixin.manager.__init__() ManagerMixin.manager.start() ManagerMixin.pool = ManagerMixin.manager.Pool(4) testcases = ( sorted(testcases_processes.values(), key=lambda tc:tc.__name__) + sorted(testcases_threads.values(), key=lambda tc:tc.__name__) + sorted(testcases_manager.values(), key=lambda tc:tc.__name__) + testcases_other ) loadTestsFromTestCase = unittest.defaultTestLoader.loadTestsFromTestCase suite = unittest.TestSuite(loadTestsFromTestCase(tc) for tc in testcases) run(suite) ThreadsMixin.pool.terminate() ProcessesMixin.pool.terminate() ManagerMixin.pool.terminate() ManagerMixin.manager.shutdown() del ProcessesMixin.pool, ThreadsMixin.pool, ManagerMixin.pool def main(): test_main(unittest.TextTestRunner(verbosity=2).run) if __name__ == '__main__': main()