"""This test case provides support for checking forking and wait behavior. To test different wait behavior, override the wait_impl method. We want fork1() semantics -- only the forking thread survives in the child after a fork(). On some systems (e.g. Solaris without posix threads) we find that all active threads survive in the child after a fork(); this is an error. """ import os, sys, time, unittest import test.support as support threading = support.import_module('threading') LONGSLEEP = 2 SHORTSLEEP = 0.5 NUM_THREADS = 4 class ForkWait(unittest.TestCase): def setUp(self): self._threading_key = support.threading_setup() self.alive = {} self.stop = 0 self.threads = [] def tearDown(self): # Stop threads self.stop = 1 for thread in self.threads: thread.join() thread = None self.threads.clear() support.threading_cleanup(*self._threading_key) def f(self, id): while not self.stop: self.alive[id] = os.getpid() try: time.sleep(SHORTSLEEP) except OSError: pass def wait_impl(self, cpid): for i in range(10): # waitpid() shouldn't hang, but some of the buildbots seem to hang # in the forking tests. This is an attempt to fix the problem. spid, status = os.waitpid(cpid, os.WNOHANG) if spid == cpid: break time.sleep(2 * SHORTSLEEP) self.assertEqual(spid, cpid) self.assertEqual(status, 0, "cause = %d, exit = %d" % (status&0xff, status>>8)) def test_wait(self): for i in range(NUM_THREADS): thread = threading.Thread(target=self.f, args=(i,)) thread.start() self.threads.append(thread) # busy-loop to wait for threads deadline = time.monotonic() + 10.0 while len(self.alive) < NUM_THREADS: time.sleep(0.1) if deadline < time.monotonic(): break a = sorted(self.alive.keys()) self.assertEqual(a, list(range(NUM_THREADS))) prefork_lives = self.alive.copy() if sys.platform in ['unixware7']: cpid = os.fork1() else: cpid = os.fork() if cpid == 0: # Child time.sleep(LONGSLEEP) n = 0 for key in self.alive: if self.alive[key] != prefork_lives[key]: n += 1 os._exit(n) else: # Parent self.wait_impl(cpid)