"""Tests for unix_events.py.""" import collections import errno import io import os import signal import socket import stat import sys import tempfile import threading import unittest import warnings from unittest import mock if sys.platform == 'win32': raise unittest.SkipTest('UNIX only') import asyncio from asyncio import log from asyncio import test_utils from asyncio import unix_events MOCK_ANY = mock.ANY def close_pipe_transport(transport): # Don't call transport.close() because the event loop and the selector # are mocked if transport._pipe is None: return transport._pipe.close() transport._pipe = None @unittest.skipUnless(signal, 'Signals are not supported') class SelectorEventLoopSignalTests(test_utils.TestCase): def setUp(self): super().setUp() self.loop = asyncio.SelectorEventLoop() self.set_event_loop(self.loop) def test_check_signal(self): self.assertRaises( TypeError, self.loop._check_signal, '1') self.assertRaises( ValueError, self.loop._check_signal, signal.NSIG + 1) def test_handle_signal_no_handler(self): self.loop._handle_signal(signal.NSIG + 1) def test_handle_signal_cancelled_handler(self): h = asyncio.Handle(mock.Mock(), (), loop=mock.Mock()) h.cancel() self.loop._signal_handlers[signal.NSIG + 1] = h self.loop.remove_signal_handler = mock.Mock() self.loop._handle_signal(signal.NSIG + 1) self.loop.remove_signal_handler.assert_called_with(signal.NSIG + 1) @mock.patch('asyncio.unix_events.signal') def test_add_signal_handler_setup_error(self, m_signal): m_signal.NSIG = signal.NSIG m_signal.set_wakeup_fd.side_effect = ValueError self.assertRaises( RuntimeError, self.loop.add_signal_handler, signal.SIGINT, lambda: True) @mock.patch('asyncio.unix_events.signal') def test_add_signal_handler_coroutine_error(self, m_signal): m_signal.NSIG = signal.NSIG @asyncio.coroutine def simple_coroutine(): yield from [] # callback must not be a coroutine function coro_func = simple_coroutine coro_obj = coro_func() self.addCleanup(coro_obj.close) for func in (coro_func, coro_obj): self.assertRaisesRegex( TypeError, 'coroutines cannot be used with add_signal_handler', self.loop.add_signal_handler, signal.SIGINT, func) @mock.patch('asyncio.unix_events.signal') def test_add_signal_handler(self, m_signal): m_signal.NSIG = signal.NSIG cb = lambda: True self.loop.add_signal_handler(signal.SIGHUP, cb) h = self.loop._signal_handlers.get(signal.SIGHUP) self.assertIsInstance(h, asyncio.Handle) self.assertEqual(h._callback, cb) @mock.patch('asyncio.unix_events.signal') def test_add_signal_handler_install_error(self, m_signal): m_signal.NSIG = signal.NSIG def set_wakeup_fd(fd): if fd == -1: raise ValueError() m_signal.set_wakeup_fd = set_wakeup_fd class Err(OSError): errno = errno.EFAULT m_signal.signal.side_effect = Err self.assertRaises( Err, self.loop.add_signal_handler, signal.SIGINT, lambda: True) @mock.patch('asyncio.unix_events.signal') @mock.patch('asyncio.base_events.logger') def test_add_signal_handler_install_error2(self, m_logging, m_signal): m_signal.NSIG = signal.NSIG class Err(OSError): errno = errno.EINVAL m_signal.signal.side_effect = Err self.loop._signal_handlers[signal.SIGHUP] = lambda: True self.assertRaises( RuntimeError, self.loop.add_signal_handler, signal.SIGINT, lambda: True) self.assertFalse(m_logging.info.called) self.assertEqual(1, m_signal.set_wakeup_fd.call_count) @mock.patch('asyncio.unix_events.signal') @mock.patch('asyncio.base_events.logger') def test_add_signal_handler_install_error3(self, m_logging, m_signal): class Err(OSError): errno = errno.EINVAL m_signal.signal.side_effect = Err m_signal.NSIG = signal.NSIG self.assertRaises( RuntimeError, self.loop.add_signal_handler, signal.SIGINT, lambda: True) self.assertFalse(m_logging.info.called) self.assertEqual(2, m_signal.set_wakeup_fd.call_count) @mock.patch('asyncio.unix_events.signal') def test_remove_signal_handler(self, m_signal): m_signal.NSIG = signal.NSIG self.loop.add_signal_handler(signal.SIGHUP, lambda: True) self.assertTrue( self.loop.remove_signal_handler(signal.SIGHUP)) self.assertTrue(m_signal.set_wakeup_fd.called) self.assertTrue(m_signal.signal.called) self.assertEqual( (signal.SIGHUP, m_signal.SIG_DFL), m_signal.signal.call_args[0]) @mock.patch('asyncio.unix_events.signal') def test_remove_signal_handler_2(self, m_signal): m_signal.NSIG = signal.NSIG m_signal.SIGINT = signal.SIGINT self.loop.add_signal_handler(signal.SIGINT, lambda: True) self.loop._signal_handlers[signal.SIGHUP] = object() m_signal.set_wakeup_fd.reset_mock() self.assertTrue( self.loop.remove_signal_handler(signal.SIGINT)) self.assertFalse(m_signal.set_wakeup_fd.called) self.assertTrue(m_signal.signal.called) self.assertEqual( (signal.SIGINT, m_signal.default_int_handler), m_signal.signal.call_args[0]) @mock.patch('asyncio.unix_events.signal') @mock.patch('asyncio.base_events.logger') def test_remove_signal_handler_cleanup_error(self, m_logging, m_signal): m_signal.NSIG = signal.NSIG self.loop.add_signal_handler(signal.SIGHUP, lambda: True) m_signal.set_wakeup_fd.side_effect = ValueError self.loop.remove_signal_handler(signal.SIGHUP) self.assertTrue(m_logging.info) @mock.patch('asyncio.unix_events.signal') def test_remove_signal_handler_error(self, m_signal): m_signal.NSIG = signal.NSIG self.loop.add_signal_handler(signal.SIGHUP, lambda: True) m_signal.signal.side_effect = OSError self.assertRaises( OSError, self.loop.remove_signal_handler, signal.SIGHUP) @mock.patch('asyncio.unix_events.signal') def test_remove_signal_handler_error2(self, m_signal): m_signal.NSIG = signal.NSIG self.loop.add_signal_handler(signal.SIGHUP, lambda: True) class Err(OSError): errno = errno.EINVAL m_signal.signal.side_effect = Err self.assertRaises( RuntimeError, self.loop.remove_signal_handler, signal.SIGHUP) @mock.patch('asyncio.unix_events.signal') def test_close(self, m_signal): m_signal.NSIG = signal.NSIG self.loop.add_signal_handler(signal.SIGHUP, lambda: True) self.loop.add_signal_handler(signal.SIGCHLD, lambda: True) self.assertEqual(len(self.loop._signal_handlers), 2) m_signal.set_wakeup_fd.reset_mock() self.loop.close() self.assertEqual(len(self.loop._signal_handlers), 0) m_signal.set_wakeup_fd.assert_called_once_with(-1) @unittest.skipUnless(hasattr(socket, 'AF_UNIX'), 'UNIX Sockets are not supported') class SelectorEventLoopUnixSocketTests(test_utils.TestCase): def setUp(self): super().setUp() self.loop = asyncio.SelectorEventLoop() self.set_event_loop(self.loop) def test_create_unix_server_existing_path_sock(self): with test_utils.unix_socket_path() as path: sock = socket.socket(socket.AF_UNIX) sock.bind(path) sock.listen(1) sock.close() coro = self.loop.create_unix_server(lambda: None, path) srv = self.loop.run_until_complete(coro) srv.close() self.loop.run_until_complete(srv.wait_closed()) def test_create_unix_server_existing_path_nonsock(self): with tempfile.NamedTemporaryFile() as file: coro = self.loop.create_unix_server(lambda: None, file.name) with self.assertRaisesRegex(OSError, 'Address.*is already in use'): self.loop.run_until_complete(coro) def test_create_unix_server_ssl_bool(self): coro = self.loop.create_unix_server(lambda: None, path='spam', ssl=True) with self.assertRaisesRegex(TypeError, 'ssl argument must be an SSLContext'): self.loop.run_until_complete(coro) def test_create_unix_server_nopath_nosock(self): coro = self.loop.create_unix_server(lambda: None, path=None) with self.assertRaisesRegex(ValueError, 'path was not specified, and no sock'): self.loop.run_until_complete(coro) def test_create_unix_server_path_inetsock(self): sock = socket.socket() with sock: coro = self.loop.create_unix_server(lambda: None, path=None, sock=sock) with self.assertRaisesRegex(ValueError, 'A UNIX Domain Stream.*was expected'): self.loop.run_until_complete(coro) def test_create_unix_connection_path_inetsock(self): sock = socket.socket() with sock: coro = self.loop.create_unix_connection(lambda: None, path=None, sock=sock) with self.assertRaisesRegex(ValueError, 'A UNIX Domain Stream.*was expected'): self.loop.run_until_complete(coro) @mock.patch('asyncio.unix_events.socket') def test_create_unix_server_bind_error(self, m_socket): # Ensure that the socket is closed on any bind error sock = mock.Mock() m_socket.socket.return_value = sock sock.bind.side_effect = OSError coro = self.loop.create_unix_server(lambda: None, path="/test") with self.assertRaises(OSError): self.loop.run_until_complete(coro) self.assertTrue(sock.close.called) sock.bind.side_effect = MemoryError coro = self.loop.create_unix_server(lambda: None, path="/test") with self.assertRaises(MemoryError): self.loop.run_until_complete(coro) self.assertTrue(sock.close.called) def test_create_unix_connection_path_sock(self): coro = self.loop.create_unix_connection( lambda: None, os.devnull, sock=object()) with self.assertRaisesRegex(ValueError, 'path and sock can not be'): self.loop.run_until_complete(coro) def test_create_unix_connection_nopath_nosock(self): coro = self.loop.create_unix_connection( lambda: None, None) with self.assertRaisesRegex(ValueError, 'no path and sock were specified'): self.loop.run_until_complete(coro) def test_create_unix_connection_nossl_serverhost(self): coro = self.loop.create_unix_connection( lambda: None, os.devnull, server_hostname='spam') with self.assertRaisesRegex(ValueError, 'server_hostname is only meaningful'): self.loop.run_until_complete(coro) def test_create_unix_connection_ssl_noserverhost(self): coro = self.loop.create_unix_connection( lambda: None, os.devnull, ssl=True) with self.assertRaisesRegex( ValueError, 'you have to pass server_hostname when using ssl'): self.loop.run_until_complete(coro) class UnixReadPipeTransportTests(test_utils.TestCase): def setUp(self): super().setUp() self.loop = self.new_test_loop() self.protocol = test_utils.make_test_protocol(asyncio.Protocol) self.pipe = mock.Mock(spec_set=io.RawIOBase) self.pipe.fileno.return_value = 5 blocking_patcher = mock.patch('asyncio.unix_events._set_nonblocking') blocking_patcher.start() self.addCleanup(blocking_patcher.stop) fstat_patcher = mock.patch('os.fstat') m_fstat = fstat_patcher.start() st = mock.Mock() st.st_mode = stat.S_IFIFO m_fstat.return_value = st self.addCleanup(fstat_patcher.stop) def read_pipe_transport(self, waiter=None): transport = unix_events._UnixReadPipeTransport(self.loop, self.pipe, self.protocol, waiter=waiter) self.addCleanup(close_pipe_transport, transport) return transport def test_ctor(self): waiter = asyncio.Future(loop=self.loop) tr = self.read_pipe_transport(waiter=waiter) self.loop.run_until_complete(waiter) self.protocol.connection_made.assert_called_with(tr) self.loop.assert_reader(5, tr._read_ready) self.assertIsNone(waiter.result()) @mock.patch('os.read') def test__read_ready(self, m_read): tr = self.read_pipe_transport() m_read.return_value = b'data' tr._read_ready() m_read.assert_called_with(5, tr.max_size) self.protocol.data_received.assert_called_with(b'data') @mock.patch('os.read') def test__read_ready_eof(self, m_read): tr = self.read_pipe_transport() m_read.return_value = b'' tr._read_ready() m_read.assert_called_with(5, tr.max_size) self.assertFalse(self.loop.readers) test_utils.run_briefly(self.loop) self.protocol.eof_received.assert_called_with() self.protocol.connection_lost.assert_called_with(None) @mock.patch('os.read') def test__read_ready_blocked(self, m_read): tr = self.read_pipe_transport() m_read.side_effect = BlockingIOError tr._read_ready() m_read.assert_called_with(5, tr.max_size) test_utils.run_briefly(self.loop) self.assertFalse(self.protocol.data_received.called) @mock.patch('asyncio.log.logger.error') @mock.patch('os.read') def test__read_ready_error(self, m_read, m_logexc): tr = self.read_pipe_transport() err = OSError() m_read.side_effect = err tr._close = mock.Mock() tr._read_ready() m_read.assert_called_with(5, tr.max_size) tr._close.assert_called_with(err) m_logexc.assert_called_with( test_utils.MockPattern( 'Fatal read error on pipe transport' '\nprotocol:.*\ntransport:.*'), exc_info=(OSError, MOCK_ANY, MOCK_ANY)) @mock.patch('os.read') def test_pause_reading(self, m_read): tr = self.read_pipe_transport() m = mock.Mock() self.loop.add_reader(5, m) tr.pause_reading() self.assertFalse(self.loop.readers) @mock.patch('os.read') def test_resume_reading(self, m_read): tr = self.read_pipe_transport() tr.resume_reading() self.loop.assert_reader(5, tr._read_ready) @mock.patch('os.read') def test_close(self, m_read): tr = self.read_pipe_transport() tr._close = mock.Mock() tr.close() tr._close.assert_called_with(None) @mock.patch('os.read') def test_close_already_closing(self, m_read): tr = self.read_pipe_transport() tr._closing = True tr._close = mock.Mock() tr.close() self.assertFalse(tr._close.called) @mock.patch('os.read') def test__close(self, m_read): tr = self.read_pipe_transport() err = object() tr._close(err) self.assertTrue(tr.is_closing()) self.assertFalse(self.loop.readers) test_utils.run_briefly(self.loop) self.protocol.connection_lost.assert_called_with(err) def test__call_connection_lost(self): tr = self.read_pipe_transport() self.assertIsNotNone(tr._protocol) self.assertIsNotNone(tr._loop) err = None tr._call_connection_lost(err) self.protocol.connection_lost.assert_called_with(err) self.pipe.close.assert_called_with() self.assertIsNone(tr._protocol) self.assertIsNone(tr._loop) def test__call_connection_lost_with_err(self): tr = self.read_pipe_transport() self.assertIsNotNone(tr._protocol) self.assertIsNotNone(tr._loop) err = OSError() tr._call_connection_lost(err) self.protocol.connection_lost.assert_called_with(err) self.pipe.close.assert_called_with() self.assertIsNone(tr._protocol) self.assertIsNone(tr._loop) class UnixWritePipeTransportTests(test_utils.TestCase): def setUp(self): super().setUp() self.loop = self.new_test_loop() self.protocol = test_utils.make_test_protocol(asyncio.BaseProtocol) self.pipe = mock.Mock(spec_set=io.RawIOBase) self.pipe.fileno.return_value = 5 blocking_patcher = mock.patch('asyncio.unix_events._set_nonblocking') blocking_patcher.start() self.addCleanup(blocking_patcher.stop) fstat_patcher = mock.patch('os.fstat') m_fstat = fstat_patcher.start() st = mock.Mock() st.st_mode = stat.S_IFSOCK m_fstat.return_value = st self.addCleanup(fstat_patcher.stop) def write_pipe_transport(self, waiter=None): transport = unix_events._UnixWritePipeTransport(self.loop, self.pipe, self.protocol, waiter=waiter) self.addCleanup(close_pipe_transport, transport) return transport def test_ctor(self): waiter = asyncio.Future(loop=self.loop) tr = self.write_pipe_transport(waiter=waiter) self.loop.run_until_complete(waiter) self.protocol.connection_made.assert_called_with(tr) self.loop.assert_reader(5, tr._read_ready) self.assertEqual(None, waiter.result()) def test_can_write_eof(self): tr = self.write_pipe_transport() self.assertTrue(tr.can_write_eof()) @mock.patch('os.write') def test_write(self, m_write): tr = self.write_pipe_transport() m_write.return_value = 4 tr.write(b'data') m_write.assert_called_with(5, b'data') self.assertFalse(self.loop.writers) self.assertEqual(bytearray(), tr._buffer) @mock.patch('os.write') def test_write_no_data(self, m_write): tr = self.write_pipe_transport() tr.write(b'') self.assertFalse(m_write.called) self.assertFalse(self.loop.writers) self.assertEqual(bytearray(b''), tr._buffer) @mock.patch('os.write') def test_write_partial(self, m_write): tr = self.write_pipe_transport() m_write.return_value = 2 tr.write(b'data') self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'ta'), tr._buffer) @mock.patch('os.write') def test_write_buffer(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'previous') tr.write(b'data') self.assertFalse(m_write.called) self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'previousdata'), tr._buffer) @mock.patch('os.write') def test_write_again(self, m_write): tr = self.write_pipe_transport() m_write.side_effect = BlockingIOError() tr.write(b'data') m_write.assert_called_with(5, bytearray(b'data')) self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'data'), tr._buffer) @mock.patch('asyncio.unix_events.logger') @mock.patch('os.write') def test_write_err(self, m_write, m_log): tr = self.write_pipe_transport() err = OSError() m_write.side_effect = err tr._fatal_error = mock.Mock() tr.write(b'data') m_write.assert_called_with(5, b'data') self.assertFalse(self.loop.writers) self.assertEqual(bytearray(), tr._buffer) tr._fatal_error.assert_called_with( err, 'Fatal write error on pipe transport') self.assertEqual(1, tr._conn_lost) tr.write(b'data') self.assertEqual(2, tr._conn_lost) tr.write(b'data') tr.write(b'data') tr.write(b'data') tr.write(b'data') # This is a bit overspecified. :-( m_log.warning.assert_called_with( 'pipe closed by peer or os.write(pipe, data) raised exception.') tr.close() @mock.patch('os.write') def test_write_close(self, m_write): tr = self.write_pipe_transport() tr._read_ready() # pipe was closed by peer tr.write(b'data') self.assertEqual(tr._conn_lost, 1) tr.write(b'data') self.assertEqual(tr._conn_lost, 2) def test__read_ready(self): tr = self.write_pipe_transport() tr._read_ready() self.assertFalse(self.loop.readers) self.assertFalse(self.loop.writers) self.assertTrue(tr.is_closing()) test_utils.run_briefly(self.loop) self.protocol.connection_lost.assert_called_with(None) @mock.patch('os.write') def test__write_ready(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'data') m_write.return_value = 4 tr._write_ready() self.assertFalse(self.loop.writers) self.assertEqual(bytearray(), tr._buffer) @mock.patch('os.write') def test__write_ready_partial(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'data') m_write.return_value = 3 tr._write_ready() self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'a'), tr._buffer) @mock.patch('os.write') def test__write_ready_again(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'data') m_write.side_effect = BlockingIOError() tr._write_ready() m_write.assert_called_with(5, bytearray(b'data')) self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'data'), tr._buffer) @mock.patch('os.write') def test__write_ready_empty(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'data') m_write.return_value = 0 tr._write_ready() m_write.assert_called_with(5, bytearray(b'data')) self.loop.assert_writer(5, tr._write_ready) self.assertEqual(bytearray(b'data'), tr._buffer) @mock.patch('asyncio.log.logger.error') @mock.patch('os.write') def test__write_ready_err(self, m_write, m_logexc): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._buffer = bytearray(b'data') m_write.side_effect = err = OSError() tr._write_ready() self.assertFalse(self.loop.writers) self.assertFalse(self.loop.readers) self.assertEqual(bytearray(), tr._buffer) self.assertTrue(tr.is_closing()) m_logexc.assert_called_with( test_utils.MockPattern( 'Fatal write error on pipe transport' '\nprotocol:.*\ntransport:.*'), exc_info=(OSError, MOCK_ANY, MOCK_ANY)) self.assertEqual(1, tr._conn_lost) test_utils.run_briefly(self.loop) self.protocol.connection_lost.assert_called_with(err) @mock.patch('os.write') def test__write_ready_closing(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) tr._closing = True tr._buffer = bytearray(b'data') m_write.return_value = 4 tr._write_ready() self.assertFalse(self.loop.writers) self.assertFalse(self.loop.readers) self.assertEqual(bytearray(), tr._buffer) self.protocol.connection_lost.assert_called_with(None) self.pipe.close.assert_called_with() @mock.patch('os.write') def test_abort(self, m_write): tr = self.write_pipe_transport() self.loop.add_writer(5, tr._write_ready) self.loop.add_reader(5, tr._read_ready) tr._buffer = [b'da', b'ta'] tr.abort() self.assertFalse(m_write.called) self.assertFalse(self.loop.readers) self.assertFalse(self.loop.writers) self.assertEqual([], tr._buffer) self.assertTrue(tr.is_closing()) test_utils.run_briefly(self.loop) self.protocol.connection_lost.assert_called_with(None) def test__call_connection_lost(self): tr = self.write_pipe_transport() self.assertIsNotNone(tr._protocol) self.assertIsNotNone(tr._loop) err = None tr._call_connection_lost(err) self.protocol.connection_lost.assert_called_with(err) self.pipe.close.assert_called_with() self.assertIsNone(tr._protocol) self.assertIsNone(tr._loop) def test__call_connection_lost_with_err(self): tr = self.write_pipe_transport() self.assertIsNotNone(tr._protocol) self.assertIsNotNone(tr._loop) err = OSError() tr._call_connection_lost(err) self.protocol.connection_lost.assert_called_with(err) self.pipe.close.assert_called_with() self.assertIsNone(tr._protocol) self.assertIsNone(tr._loop) def test_close(self): tr = self.write_pipe_transport() tr.write_eof = mock.Mock() tr.close() tr.write_eof.assert_called_with() # closing the transport twice must not fail tr.close() def test_close_closing(self): tr = self.write_pipe_transport() tr.write_eof = mock.Mock() tr._closing = True tr.close() self.assertFalse(tr.write_eof.called) def test_write_eof(self): tr = self.write_pipe_transport() tr.write_eof() self.assertTrue(tr.is_closing()) self.assertFalse(self.loop.readers) test_utils.run_briefly(self.loop) self.protocol.connection_lost.assert_called_with(None) def test_write_eof_pending(self): tr = self.write_pipe_transport() tr._buffer = [b'data'] tr.write_eof() self.assertTrue(tr.is_closing()) self.assertFalse(self.protocol.connection_lost.called) class AbstractChildWatcherTests(unittest.TestCase): def test_not_implemented(self): f = mock.Mock() watcher = asyncio.AbstractChildWatcher() self.assertRaises( NotImplementedError, watcher.add_child_handler, f, f) self.assertRaises( NotImplementedError, watcher.remove_child_handler, f) self.assertRaises( NotImplementedError, watcher.attach_loop, f) self.assertRaises( NotImplementedError, watcher.close) self.assertRaises( NotImplementedError, watcher.__enter__) self.assertRaises( NotImplementedError, watcher.__exit__, f, f, f) class BaseChildWatcherTests(unittest.TestCase): def test_not_implemented(self): f = mock.Mock() watcher = unix_events.BaseChildWatcher() self.assertRaises( NotImplementedError, watcher._do_waitpid, f) WaitPidMocks = collections.namedtuple("WaitPidMocks", ("waitpid", "WIFEXITED", "WIFSIGNALED", "WEXITSTATUS", "WTERMSIG", )) class ChildWatcherTestsMixin: ignore_warnings = mock.patch.object(log.logger, "warning") def setUp(self): super().setUp() self.loop = self.new_test_loop() self.running = False self.zombies = {} with mock.patch.object( self.loop, "add_signal_handler") as self.m_add_signal_handler: self.watcher = self.create_watcher() self.watcher.attach_loop(self.loop) def waitpid(self, pid, flags): if isinstance(self.watcher, asyncio.SafeChildWatcher) or pid != -1: self.assertGreater(pid, 0) try: if pid < 0: return self.zombies.popitem() else: return pid, self.zombies.pop(pid) except KeyError: pass if self.running: return 0, 0 else: raise ChildProcessError() def add_zombie(self, pid, returncode): self.zombies[pid] = returncode + 32768 def WIFEXITED(self, status): return status >= 32768 def WIFSIGNALED(self, status): return 32700 < status < 32768 def WEXITSTATUS(self, status): self.assertTrue(self.WIFEXITED(status)) return status - 32768 def WTERMSIG(self, status): self.assertTrue(self.WIFSIGNALED(status)) return 32768 - status def test_create_watcher(self): self.m_add_signal_handler.assert_called_once_with( signal.SIGCHLD, self.watcher._sig_chld) def waitpid_mocks(func): def wrapped_func(self): def patch(target, wrapper): return mock.patch(target, wraps=wrapper, new_callable=mock.Mock) with patch('os.WTERMSIG', self.WTERMSIG) as m_WTERMSIG, \ patch('os.WEXITSTATUS', self.WEXITSTATUS) as m_WEXITSTATUS, \ patch('os.WIFSIGNALED', self.WIFSIGNALED) as m_WIFSIGNALED, \ patch('os.WIFEXITED', self.WIFEXITED) as m_WIFEXITED, \ patch('os.waitpid', self.waitpid) as m_waitpid: func(self, WaitPidMocks(m_waitpid, m_WIFEXITED, m_WIFSIGNALED, m_WEXITSTATUS, m_WTERMSIG, )) return wrapped_func @waitpid_mocks def test_sigchld(self, m): # register a child callback = mock.Mock() with self.watcher: self.running = True self.watcher.add_child_handler(42, callback, 9, 10, 14) self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child is running self.watcher._sig_chld() self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child terminates (returncode 12) self.running = False self.add_zombie(42, 12) self.watcher._sig_chld() self.assertTrue(m.WIFEXITED.called) self.assertTrue(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) callback.assert_called_once_with(42, 12, 9, 10, 14) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WEXITSTATUS.reset_mock() callback.reset_mock() # ensure that the child is effectively reaped self.add_zombie(42, 13) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback.called) self.assertFalse(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WEXITSTATUS.reset_mock() # sigchld called again self.zombies.clear() self.watcher._sig_chld() self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) @waitpid_mocks def test_sigchld_two_children(self, m): callback1 = mock.Mock() callback2 = mock.Mock() # register child 1 with self.watcher: self.running = True self.watcher.add_child_handler(43, callback1, 7, 8) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # register child 2 with self.watcher: self.watcher.add_child_handler(44, callback2, 147, 18) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # children are running self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child 1 terminates (signal 3) self.add_zombie(43, -3) self.watcher._sig_chld() callback1.assert_called_once_with(43, -3, 7, 8) self.assertFalse(callback2.called) self.assertTrue(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertTrue(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WTERMSIG.reset_mock() callback1.reset_mock() # child 2 still running self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child 2 terminates (code 108) self.add_zombie(44, 108) self.running = False self.watcher._sig_chld() callback2.assert_called_once_with(44, 108, 147, 18) self.assertFalse(callback1.called) self.assertTrue(m.WIFEXITED.called) self.assertTrue(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WEXITSTATUS.reset_mock() callback2.reset_mock() # ensure that the children are effectively reaped self.add_zombie(43, 14) self.add_zombie(44, 15) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WEXITSTATUS.reset_mock() # sigchld called again self.zombies.clear() self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) @waitpid_mocks def test_sigchld_two_children_terminating_together(self, m): callback1 = mock.Mock() callback2 = mock.Mock() # register child 1 with self.watcher: self.running = True self.watcher.add_child_handler(45, callback1, 17, 8) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # register child 2 with self.watcher: self.watcher.add_child_handler(46, callback2, 1147, 18) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # children are running self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child 1 terminates (code 78) # child 2 terminates (signal 5) self.add_zombie(45, 78) self.add_zombie(46, -5) self.running = False self.watcher._sig_chld() callback1.assert_called_once_with(45, 78, 17, 8) callback2.assert_called_once_with(46, -5, 1147, 18) self.assertTrue(m.WIFSIGNALED.called) self.assertTrue(m.WIFEXITED.called) self.assertTrue(m.WEXITSTATUS.called) self.assertTrue(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WTERMSIG.reset_mock() m.WEXITSTATUS.reset_mock() callback1.reset_mock() callback2.reset_mock() # ensure that the children are effectively reaped self.add_zombie(45, 14) self.add_zombie(46, 15) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WTERMSIG.called) @waitpid_mocks def test_sigchld_race_condition(self, m): # register a child callback = mock.Mock() with self.watcher: # child terminates before being registered self.add_zombie(50, 4) self.watcher._sig_chld() self.watcher.add_child_handler(50, callback, 1, 12) callback.assert_called_once_with(50, 4, 1, 12) callback.reset_mock() # ensure that the child is effectively reaped self.add_zombie(50, -1) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback.called) @waitpid_mocks def test_sigchld_replace_handler(self, m): callback1 = mock.Mock() callback2 = mock.Mock() # register a child with self.watcher: self.running = True self.watcher.add_child_handler(51, callback1, 19) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # register the same child again with self.watcher: self.watcher.add_child_handler(51, callback2, 21) self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child terminates (signal 8) self.running = False self.add_zombie(51, -8) self.watcher._sig_chld() callback2.assert_called_once_with(51, -8, 21) self.assertFalse(callback1.called) self.assertTrue(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertTrue(m.WTERMSIG.called) m.WIFSIGNALED.reset_mock() m.WIFEXITED.reset_mock() m.WTERMSIG.reset_mock() callback2.reset_mock() # ensure that the child is effectively reaped self.add_zombie(51, 13) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(m.WTERMSIG.called) @waitpid_mocks def test_sigchld_remove_handler(self, m): callback = mock.Mock() # register a child with self.watcher: self.running = True self.watcher.add_child_handler(52, callback, 1984) self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # unregister the child self.watcher.remove_child_handler(52) self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child terminates (code 99) self.running = False self.add_zombie(52, 99) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback.called) @waitpid_mocks def test_sigchld_unknown_status(self, m): callback = mock.Mock() # register a child with self.watcher: self.running = True self.watcher.add_child_handler(53, callback, -19) self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # terminate with unknown status self.zombies[53] = 1178 self.running = False self.watcher._sig_chld() callback.assert_called_once_with(53, 1178, -19) self.assertTrue(m.WIFEXITED.called) self.assertTrue(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) callback.reset_mock() m.WIFEXITED.reset_mock() m.WIFSIGNALED.reset_mock() # ensure that the child is effectively reaped self.add_zombie(53, 101) with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback.called) @waitpid_mocks def test_remove_child_handler(self, m): callback1 = mock.Mock() callback2 = mock.Mock() callback3 = mock.Mock() # register children with self.watcher: self.running = True self.watcher.add_child_handler(54, callback1, 1) self.watcher.add_child_handler(55, callback2, 2) self.watcher.add_child_handler(56, callback3, 3) # remove child handler 1 self.assertTrue(self.watcher.remove_child_handler(54)) # remove child handler 2 multiple times self.assertTrue(self.watcher.remove_child_handler(55)) self.assertFalse(self.watcher.remove_child_handler(55)) self.assertFalse(self.watcher.remove_child_handler(55)) # all children terminate self.add_zombie(54, 0) self.add_zombie(55, 1) self.add_zombie(56, 2) self.running = False with self.ignore_warnings: self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) callback3.assert_called_once_with(56, 2, 3) @waitpid_mocks def test_sigchld_unhandled_exception(self, m): callback = mock.Mock() # register a child with self.watcher: self.running = True self.watcher.add_child_handler(57, callback) # raise an exception m.waitpid.side_effect = ValueError with mock.patch.object(log.logger, 'error') as m_error: self.assertEqual(self.watcher._sig_chld(), None) self.assertTrue(m_error.called) @waitpid_mocks def test_sigchld_child_reaped_elsewhere(self, m): # register a child callback = mock.Mock() with self.watcher: self.running = True self.watcher.add_child_handler(58, callback) self.assertFalse(callback.called) self.assertFalse(m.WIFEXITED.called) self.assertFalse(m.WIFSIGNALED.called) self.assertFalse(m.WEXITSTATUS.called) self.assertFalse(m.WTERMSIG.called) # child terminates self.running = False self.add_zombie(58, 4) # waitpid is called elsewhere os.waitpid(58, os.WNOHANG) m.waitpid.reset_mock() # sigchld with self.ignore_warnings: self.watcher._sig_chld() if isinstance(self.watcher, asyncio.FastChildWatcher): # here the FastChildWatche enters a deadlock # (there is no way to prevent it) self.assertFalse(callback.called) else: callback.assert_called_once_with(58, 255) @waitpid_mocks def test_sigchld_unknown_pid_during_registration(self, m): # register two children callback1 = mock.Mock() callback2 = mock.Mock() with self.ignore_warnings, self.watcher: self.running = True # child 1 terminates self.add_zombie(591, 7) # an unknown child terminates self.add_zombie(593, 17) self.watcher._sig_chld() self.watcher.add_child_handler(591, callback1) self.watcher.add_child_handler(592, callback2) callback1.assert_called_once_with(591, 7) self.assertFalse(callback2.called) @waitpid_mocks def test_set_loop(self, m): # register a child callback = mock.Mock() with self.watcher: self.running = True self.watcher.add_child_handler(60, callback) # attach a new loop old_loop = self.loop self.loop = self.new_test_loop() patch = mock.patch.object with patch(old_loop, "remove_signal_handler") as m_old_remove, \ patch(self.loop, "add_signal_handler") as m_new_add: self.watcher.attach_loop(self.loop) m_old_remove.assert_called_once_with( signal.SIGCHLD) m_new_add.assert_called_once_with( signal.SIGCHLD, self.watcher._sig_chld) # child terminates self.running = False self.add_zombie(60, 9) self.watcher._sig_chld() callback.assert_called_once_with(60, 9) @waitpid_mocks def test_set_loop_race_condition(self, m): # register 3 children callback1 = mock.Mock() callback2 = mock.Mock() callback3 = mock.Mock() with self.watcher: self.running = True self.watcher.add_child_handler(61, callback1) self.watcher.add_child_handler(62, callback2) self.watcher.add_child_handler(622, callback3) # detach the loop old_loop = self.loop self.loop = None with mock.patch.object( old_loop, "remove_signal_handler") as m_remove_signal_handler: with self.assertWarnsRegex( RuntimeWarning, 'A loop is being detached'): self.watcher.attach_loop(None) m_remove_signal_handler.assert_called_once_with( signal.SIGCHLD) # child 1 & 2 terminate self.add_zombie(61, 11) self.add_zombie(62, -5) # SIGCHLD was not caught self.assertFalse(callback1.called) self.assertFalse(callback2.called) self.assertFalse(callback3.called) # attach a new loop self.loop = self.new_test_loop() with mock.patch.object( self.loop, "add_signal_handler") as m_add_signal_handler: self.watcher.attach_loop(self.loop) m_add_signal_handler.assert_called_once_with( signal.SIGCHLD, self.watcher._sig_chld) callback1.assert_called_once_with(61, 11) # race condition! callback2.assert_called_once_with(62, -5) # race condition! self.assertFalse(callback3.called) callback1.reset_mock() callback2.reset_mock() # child 3 terminates self.running = False self.add_zombie(622, 19) self.watcher._sig_chld() self.assertFalse(callback1.called) self.assertFalse(callback2.called) callback3.assert_called_once_with(622, 19) @waitpid_mocks def test_close(self, m): # register two children callback1 = mock.Mock() with self.watcher: self.running = True # child 1 terminates self.add_zombie(63, 9) # other child terminates self.add_zombie(65, 18) self.watcher._sig_chld() self.watcher.add_child_handler(63, callback1) self.watcher.add_child_handler(64, callback1) self.assertEqual(len(self.watcher._callbacks), 1) if isinstance(self.watcher, asyncio.FastChildWatcher): self.assertEqual(len(self.watcher._zombies), 1) with mock.patch.object( self.loop, "remove_signal_handler") as m_remove_signal_handler: self.watcher.close() m_remove_signal_handler.assert_called_once_with( signal.SIGCHLD) self.assertFalse(self.watcher._callbacks) if isinstance(self.watcher, asyncio.FastChildWatcher): self.assertFalse(self.watcher._zombies) @waitpid_mocks def test_add_child_handler_with_no_loop_attached(self, m): callback = mock.Mock() with self.create_watcher() as watcher: with self.assertRaisesRegex( RuntimeError, 'the child watcher does not have a loop attached'): watcher.add_child_handler(100, callback) class SafeChildWatcherTests (ChildWatcherTestsMixin, test_utils.TestCase): def create_watcher(self): return asyncio.SafeChildWatcher() class FastChildWatcherTests (ChildWatcherTestsMixin, test_utils.TestCase): def create_watcher(self): return asyncio.FastChildWatcher() class PolicyTests(unittest.TestCase): def create_policy(self): return asyncio.DefaultEventLoopPolicy() def test_get_child_watcher(self): policy = self.create_policy() self.assertIsNone(policy._watcher) watcher = policy.get_child_watcher() self.assertIsInstance(watcher, asyncio.SafeChildWatcher) self.assertIs(policy._watcher, watcher) self.assertIs(watcher, policy.get_child_watcher()) self.assertIsNone(watcher._loop) def test_get_child_watcher_after_set(self): policy = self.create_policy() watcher = asyncio.FastChildWatcher() policy.set_child_watcher(watcher) self.assertIs(policy._watcher, watcher) self.assertIs(watcher, policy.get_child_watcher()) def test_get_child_watcher_with_mainloop_existing(self): policy = self.create_policy() loop = policy.get_event_loop() self.assertIsNone(policy._watcher) watcher = policy.get_child_watcher() self.assertIsInstance(watcher, asyncio.SafeChildWatcher) self.assertIs(watcher._loop, loop) loop.close() def test_get_child_watcher_thread(self): def f(): policy.set_event_loop(policy.new_event_loop()) self.assertIsInstance(policy.get_event_loop(), asyncio.AbstractEventLoop) watcher = policy.get_child_watcher() self.assertIsInstance(watcher, asyncio.SafeChildWatcher) self.assertIsNone(watcher._loop) policy.get_event_loop().close() policy = self.create_policy() th = threading.Thread(target=f) th.start() th.join() def test_child_watcher_replace_mainloop_existing(self): policy = self.create_policy() loop = policy.get_event_loop() watcher = policy.get_child_watcher() self.assertIs(watcher._loop, loop) new_loop = policy.new_event_loop() policy.set_event_loop(new_loop) self.assertIs(watcher._loop, new_loop) policy.set_event_loop(None) self.assertIs(watcher._loop, None) loop.close() new_loop.close() if __name__ == '__main__': unittest.main()