cpython/Lib/test/test_concurrent_futures/test_process_pool.py

233 lines
8.7 KiB
Python

import os
import sys
import threading
import time
import unittest
from concurrent import futures
from concurrent.futures.process import BrokenProcessPool
from test import support
from test.support import hashlib_helper
from .executor import ExecutorTest, mul
from .util import (
ProcessPoolForkMixin, ProcessPoolForkserverMixin, ProcessPoolSpawnMixin,
create_executor_tests, setup_module)
class EventfulGCObj():
def __init__(self, mgr):
self.event = mgr.Event()
def __del__(self):
self.event.set()
class ProcessPoolExecutorTest(ExecutorTest):
@unittest.skipUnless(sys.platform=='win32', 'Windows-only process limit')
def test_max_workers_too_large(self):
with self.assertRaisesRegex(ValueError,
"max_workers must be <= 61"):
futures.ProcessPoolExecutor(max_workers=62)
def test_killed_child(self):
# When a child process is abruptly terminated, the whole pool gets
# "broken".
futures = [self.executor.submit(time.sleep, 3)]
# Get one of the processes, and terminate (kill) it
p = next(iter(self.executor._processes.values()))
p.terminate()
for fut in futures:
self.assertRaises(BrokenProcessPool, fut.result)
# Submitting other jobs fails as well.
self.assertRaises(BrokenProcessPool, self.executor.submit, pow, 2, 8)
def test_map_chunksize(self):
def bad_map():
list(self.executor.map(pow, range(40), range(40), chunksize=-1))
ref = list(map(pow, range(40), range(40)))
self.assertEqual(
list(self.executor.map(pow, range(40), range(40), chunksize=6)),
ref)
self.assertEqual(
list(self.executor.map(pow, range(40), range(40), chunksize=50)),
ref)
self.assertEqual(
list(self.executor.map(pow, range(40), range(40), chunksize=40)),
ref)
self.assertRaises(ValueError, bad_map)
@classmethod
def _test_traceback(cls):
raise RuntimeError(123) # some comment
def test_traceback(self):
# We want ensure that the traceback from the child process is
# contained in the traceback raised in the main process.
future = self.executor.submit(self._test_traceback)
with self.assertRaises(Exception) as cm:
future.result()
exc = cm.exception
self.assertIs(type(exc), RuntimeError)
self.assertEqual(exc.args, (123,))
cause = exc.__cause__
self.assertIs(type(cause), futures.process._RemoteTraceback)
self.assertIn('raise RuntimeError(123) # some comment', cause.tb)
with support.captured_stderr() as f1:
try:
raise exc
except RuntimeError:
sys.excepthook(*sys.exc_info())
self.assertIn('raise RuntimeError(123) # some comment',
f1.getvalue())
@hashlib_helper.requires_hashdigest('md5')
def test_ressources_gced_in_workers(self):
# Ensure that argument for a job are correctly gc-ed after the job
# is finished
mgr = self.get_context().Manager()
obj = EventfulGCObj(mgr)
future = self.executor.submit(id, obj)
future.result()
self.assertTrue(obj.event.wait(timeout=1))
# explicitly destroy the object to ensure that EventfulGCObj.__del__()
# is called while manager is still running.
support.gc_collect()
obj = None
support.gc_collect()
mgr.shutdown()
mgr.join()
def test_saturation(self):
executor = self.executor
mp_context = self.get_context()
sem = mp_context.Semaphore(0)
job_count = 15 * executor._max_workers
for _ in range(job_count):
executor.submit(sem.acquire)
self.assertEqual(len(executor._processes), executor._max_workers)
for _ in range(job_count):
sem.release()
def test_idle_process_reuse_one(self):
executor = self.executor
assert executor._max_workers >= 4
if self.get_context().get_start_method(allow_none=False) == "fork":
raise unittest.SkipTest("Incompatible with the fork start method.")
executor.submit(mul, 21, 2).result()
executor.submit(mul, 6, 7).result()
executor.submit(mul, 3, 14).result()
self.assertEqual(len(executor._processes), 1)
def test_idle_process_reuse_multiple(self):
executor = self.executor
assert executor._max_workers <= 5
if self.get_context().get_start_method(allow_none=False) == "fork":
raise unittest.SkipTest("Incompatible with the fork start method.")
executor.submit(mul, 12, 7).result()
executor.submit(mul, 33, 25)
executor.submit(mul, 25, 26).result()
executor.submit(mul, 18, 29)
executor.submit(mul, 1, 2).result()
executor.submit(mul, 0, 9)
self.assertLessEqual(len(executor._processes), 3)
executor.shutdown()
def test_max_tasks_per_child(self):
context = self.get_context()
if context.get_start_method(allow_none=False) == "fork":
with self.assertRaises(ValueError):
self.executor_type(1, mp_context=context, max_tasks_per_child=3)
return
# not using self.executor as we need to control construction.
# arguably this could go in another class w/o that mixin.
executor = self.executor_type(
1, mp_context=context, max_tasks_per_child=3)
f1 = executor.submit(os.getpid)
original_pid = f1.result()
# The worker pid remains the same as the worker could be reused
f2 = executor.submit(os.getpid)
self.assertEqual(f2.result(), original_pid)
self.assertEqual(len(executor._processes), 1)
f3 = executor.submit(os.getpid)
self.assertEqual(f3.result(), original_pid)
# A new worker is spawned, with a statistically different pid,
# while the previous was reaped.
f4 = executor.submit(os.getpid)
new_pid = f4.result()
self.assertNotEqual(original_pid, new_pid)
self.assertEqual(len(executor._processes), 1)
executor.shutdown()
def test_max_tasks_per_child_defaults_to_spawn_context(self):
# not using self.executor as we need to control construction.
# arguably this could go in another class w/o that mixin.
executor = self.executor_type(1, max_tasks_per_child=3)
self.assertEqual(executor._mp_context.get_start_method(), "spawn")
def test_max_tasks_early_shutdown(self):
context = self.get_context()
if context.get_start_method(allow_none=False) == "fork":
raise unittest.SkipTest("Incompatible with the fork start method.")
# not using self.executor as we need to control construction.
# arguably this could go in another class w/o that mixin.
executor = self.executor_type(
3, mp_context=context, max_tasks_per_child=1)
futures = []
for i in range(6):
futures.append(executor.submit(mul, i, i))
executor.shutdown()
for i, future in enumerate(futures):
self.assertEqual(future.result(), mul(i, i))
def test_python_finalization_error(self):
# gh-109047: Catch RuntimeError on thread creation
# during Python finalization.
context = self.get_context()
# gh-109047: Mock the threading.start_joinable_thread() function to inject
# RuntimeError: simulate the error raised during Python finalization.
# Block the second creation: create _ExecutorManagerThread, but block
# QueueFeederThread.
orig_start_new_thread = threading._start_joinable_thread
nthread = 0
def mock_start_new_thread(func, *args):
nonlocal nthread
if nthread >= 1:
raise RuntimeError("can't create new thread at "
"interpreter shutdown")
nthread += 1
return orig_start_new_thread(func, *args)
with support.swap_attr(threading, '_start_joinable_thread',
mock_start_new_thread):
executor = self.executor_type(max_workers=2, mp_context=context)
with executor:
with self.assertRaises(BrokenProcessPool):
list(executor.map(mul, [(2, 3)] * 10))
executor.shutdown()
create_executor_tests(globals(), ProcessPoolExecutorTest,
executor_mixins=(ProcessPoolForkMixin,
ProcessPoolForkserverMixin,
ProcessPoolSpawnMixin))
def setUpModule():
setup_module()
if __name__ == "__main__":
unittest.main()