import asyncio import contextlib import logging import os import platform import signal import socket import ssl import subprocess import sys from unittest import mock from uuid import uuid4 import pytest from conftest import IS_UNIX, needs_unix from aiohttp import web from aiohttp.helpers import PY_37 from aiohttp.test_utils import make_mocked_coro from aiohttp.web_runner import BaseRunner # Test for features of OS' socket support if IS_UNIX: with socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) as _abstract_path_sock: try: _abstract_path_sock.bind(b"\x00" + uuid4().hex.encode("ascii")) except FileNotFoundError: _abstract_path_failed = True else: _abstract_path_failed = False finally: del _abstract_path_sock else: _abstract_path_failed = True skip_if_no_abstract_paths = pytest.mark.skipif( _abstract_path_failed, reason="Linux-style abstract paths are not supported." ) del IS_UNIX, _abstract_path_failed HAS_IPV6 = socket.has_ipv6 if HAS_IPV6: # The socket.has_ipv6 flag may be True if Python was built with IPv6 # support, but the target system still may not have it. # So let's ensure that we really have IPv6 support. try: with socket.socket(socket.AF_INET6, socket.SOCK_STREAM): pass except OSError: HAS_IPV6 = False # tokio event loop does not allow to override attributes def skip_if_no_dict(loop): if not hasattr(loop, "__dict__"): pytest.skip("can not override loop attributes") def skip_if_on_windows(): if platform.system() == "Windows": pytest.skip("the test is not valid for Windows") @pytest.fixture def patched_loop(loop): skip_if_no_dict(loop) server = mock.Mock() server.wait_closed = make_mocked_coro(None) loop.create_server = make_mocked_coro(server) unix_server = mock.Mock() unix_server.wait_closed = make_mocked_coro(None) loop.create_unix_server = make_mocked_coro(unix_server) asyncio.set_event_loop(loop) return loop def stopper(loop): def raiser(): raise KeyboardInterrupt def f(*args): loop.call_soon(raiser) return f def test_run_app_http(patched_loop) -> None: app = web.Application() startup_handler = make_mocked_coro() app.on_startup.append(startup_handler) cleanup_handler = make_mocked_coro() app.on_cleanup.append(cleanup_handler) web.run_app(app, print=stopper(patched_loop), loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None ) startup_handler.assert_called_once_with(app) cleanup_handler.assert_called_once_with(app) def test_run_app_close_loop(patched_loop) -> None: app = web.Application() web.run_app(app, print=stopper(patched_loop), loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None ) assert patched_loop.is_closed() mock_unix_server_single = [ mock.call(mock.ANY, "/tmp/testsock1.sock", ssl=None, backlog=128), ] mock_unix_server_multi = [ mock.call(mock.ANY, "/tmp/testsock1.sock", ssl=None, backlog=128), mock.call(mock.ANY, "/tmp/testsock2.sock", ssl=None, backlog=128), ] mock_server_single = [ mock.call( mock.ANY, "127.0.0.1", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), ] mock_server_multi = [ mock.call( mock.ANY, "127.0.0.1", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), mock.call( mock.ANY, "192.168.1.1", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), ] mock_server_default_8989 = [ mock.call( mock.ANY, None, 8989, ssl=None, backlog=128, reuse_address=None, reuse_port=None ) ] mock_socket = mock.Mock(getsockname=lambda: ("mock-socket", 123)) mixed_bindings_tests = ( ( # type: ignore "Nothing Specified", {}, [ mock.call( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ) ], [], ), ("Port Only", {"port": 8989}, mock_server_default_8989, []), ("Multiple Hosts", {"host": ("127.0.0.1", "192.168.1.1")}, mock_server_multi, []), ( "Multiple Paths", {"path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock")}, [], mock_unix_server_multi, ), ( "Multiple Paths, Port", {"path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock"), "port": 8989}, mock_server_default_8989, mock_unix_server_multi, ), ( "Multiple Paths, Single Host", {"path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock"), "host": "127.0.0.1"}, mock_server_single, mock_unix_server_multi, ), ( "Single Path, Single Host", {"path": "/tmp/testsock1.sock", "host": "127.0.0.1"}, mock_server_single, mock_unix_server_single, ), ( "Single Path, Multiple Hosts", {"path": "/tmp/testsock1.sock", "host": ("127.0.0.1", "192.168.1.1")}, mock_server_multi, mock_unix_server_single, ), ( "Single Path, Port", {"path": "/tmp/testsock1.sock", "port": 8989}, mock_server_default_8989, mock_unix_server_single, ), ( "Multiple Paths, Multiple Hosts, Port", { "path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock"), "host": ("127.0.0.1", "192.168.1.1"), "port": 8000, }, [ mock.call( mock.ANY, "127.0.0.1", 8000, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), mock.call( mock.ANY, "192.168.1.1", 8000, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), ], mock_unix_server_multi, ), ( "Only socket", {"sock": [mock_socket]}, [mock.call(mock.ANY, ssl=None, sock=mock_socket, backlog=128)], [], ), ( "Socket, port", {"sock": [mock_socket], "port": 8765}, [ mock.call( mock.ANY, None, 8765, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), mock.call(mock.ANY, sock=mock_socket, ssl=None, backlog=128), ], [], ), ( "Socket, Host, No port", {"sock": [mock_socket], "host": "localhost"}, [ mock.call( mock.ANY, "localhost", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), mock.call(mock.ANY, sock=mock_socket, ssl=None, backlog=128), ], [], ), ( "reuse_port", {"reuse_port": True}, [ mock.call( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=True, ) ], [], ), ( "reuse_address", {"reuse_address": False}, [ mock.call( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=False, reuse_port=None, ) ], [], ), ( "reuse_port, reuse_address", {"reuse_address": True, "reuse_port": True}, [ mock.call( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=True, reuse_port=True, ) ], [], ), ( "Port, reuse_port", {"port": 8989, "reuse_port": True}, [ mock.call( mock.ANY, None, 8989, ssl=None, backlog=128, reuse_address=None, reuse_port=True, ) ], [], ), ( "Multiple Hosts, reuse_port", {"host": ("127.0.0.1", "192.168.1.1"), "reuse_port": True}, [ mock.call( mock.ANY, "127.0.0.1", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=True, ), mock.call( mock.ANY, "192.168.1.1", 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=True, ), ], [], ), ( "Multiple Paths, Port, reuse_address", { "path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock"), "port": 8989, "reuse_address": False, }, [ mock.call( mock.ANY, None, 8989, ssl=None, backlog=128, reuse_address=False, reuse_port=None, ) ], mock_unix_server_multi, ), ( "Multiple Paths, Single Host, reuse_address, reuse_port", { "path": ("/tmp/testsock1.sock", "/tmp/testsock2.sock"), "host": "127.0.0.1", "reuse_address": True, "reuse_port": True, }, [ mock.call( mock.ANY, "127.0.0.1", 8080, ssl=None, backlog=128, reuse_address=True, reuse_port=True, ), ], mock_unix_server_multi, ), ) mixed_bindings_test_ids = [test[0] for test in mixed_bindings_tests] mixed_bindings_test_params = [test[1:] for test in mixed_bindings_tests] @pytest.mark.parametrize( "run_app_kwargs, expected_server_calls, expected_unix_server_calls", mixed_bindings_test_params, ids=mixed_bindings_test_ids, ) def test_run_app_mixed_bindings( run_app_kwargs, expected_server_calls, expected_unix_server_calls, patched_loop ): app = web.Application() web.run_app(app, print=stopper(patched_loop), **run_app_kwargs, loop=patched_loop) assert patched_loop.create_unix_server.mock_calls == expected_unix_server_calls assert patched_loop.create_server.mock_calls == expected_server_calls def test_run_app_https(patched_loop) -> None: app = web.Application() ssl_context = ssl.create_default_context() web.run_app( app, ssl_context=ssl_context, print=stopper(patched_loop), loop=patched_loop ) patched_loop.create_server.assert_called_with( mock.ANY, None, 8443, ssl=ssl_context, backlog=128, reuse_address=None, reuse_port=None, ) def test_run_app_nondefault_host_port(patched_loop, aiohttp_unused_port) -> None: port = aiohttp_unused_port() host = "127.0.0.1" app = web.Application() web.run_app( app, host=host, port=port, print=stopper(patched_loop), loop=patched_loop ) patched_loop.create_server.assert_called_with( mock.ANY, host, port, ssl=None, backlog=128, reuse_address=None, reuse_port=None ) def test_run_app_multiple_hosts(patched_loop) -> None: hosts = ("127.0.0.1", "127.0.0.2") app = web.Application() web.run_app(app, host=hosts, print=stopper(patched_loop), loop=patched_loop) calls = map( lambda h: mock.call( mock.ANY, h, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None, ), hosts, ) patched_loop.create_server.assert_has_calls(calls) def test_run_app_custom_backlog(patched_loop) -> None: app = web.Application() web.run_app(app, backlog=10, print=stopper(patched_loop), loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, None, 8080, ssl=None, backlog=10, reuse_address=None, reuse_port=None ) def test_run_app_custom_backlog_unix(patched_loop) -> None: app = web.Application() web.run_app( app, path="/tmp/tmpsock.sock", backlog=10, print=stopper(patched_loop), loop=patched_loop, ) patched_loop.create_unix_server.assert_called_with( mock.ANY, "/tmp/tmpsock.sock", ssl=None, backlog=10 ) def test_run_app_http_unix_socket(patched_loop, unix_sockname) -> None: app = web.Application() printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app(app, path=unix_sockname, print=printer, loop=patched_loop) patched_loop.create_unix_server.assert_called_with( mock.ANY, unix_sockname, ssl=None, backlog=128 ) assert f"http://unix:{unix_sockname}:" in printer.call_args[0][0] def test_run_app_https_unix_socket(patched_loop, unix_sockname) -> None: app = web.Application() ssl_context = ssl.create_default_context() printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app( app, path=unix_sockname, ssl_context=ssl_context, print=printer, loop=patched_loop, ) patched_loop.create_unix_server.assert_called_with( mock.ANY, unix_sockname, ssl=ssl_context, backlog=128 ) assert f"https://unix:{unix_sockname}:" in printer.call_args[0][0] @needs_unix @skip_if_no_abstract_paths def test_run_app_abstract_linux_socket(patched_loop) -> None: sock_path = b"\x00" + uuid4().hex.encode("ascii") app = web.Application() web.run_app( app, path=sock_path.decode("ascii", "ignore"), print=stopper(patched_loop), loop=patched_loop, ) patched_loop.create_unix_server.assert_called_with( mock.ANY, sock_path.decode("ascii"), ssl=None, backlog=128 ) def test_run_app_preexisting_inet_socket(patched_loop, mocker) -> None: app = web.Application() sock = socket.socket() with contextlib.closing(sock): sock.bind(("0.0.0.0", 0)) _, port = sock.getsockname() printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app(app, sock=sock, print=printer, loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, sock=sock, backlog=128, ssl=None ) assert f"http://0.0.0.0:{port}" in printer.call_args[0][0] @pytest.mark.skipif(not HAS_IPV6, reason="IPv6 is not available") def test_run_app_preexisting_inet6_socket(patched_loop) -> None: app = web.Application() sock = socket.socket(socket.AF_INET6) with contextlib.closing(sock): sock.bind(("::", 0)) port = sock.getsockname()[1] printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app(app, sock=sock, print=printer, loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, sock=sock, backlog=128, ssl=None ) assert f"http://[::]:{port}" in printer.call_args[0][0] @needs_unix def test_run_app_preexisting_unix_socket(patched_loop, mocker) -> None: app = web.Application() sock_path = "/tmp/test_preexisting_sock1" sock = socket.socket(socket.AF_UNIX) with contextlib.closing(sock): sock.bind(sock_path) os.unlink(sock_path) printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app(app, sock=sock, print=printer, loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, sock=sock, backlog=128, ssl=None ) assert f"http://unix:{sock_path}:" in printer.call_args[0][0] def test_run_app_multiple_preexisting_sockets(patched_loop) -> None: app = web.Application() sock1 = socket.socket() sock2 = socket.socket() with contextlib.closing(sock1), contextlib.closing(sock2): sock1.bind(("0.0.0.0", 0)) _, port1 = sock1.getsockname() sock2.bind(("0.0.0.0", 0)) _, port2 = sock2.getsockname() printer = mock.Mock(wraps=stopper(patched_loop)) web.run_app(app, sock=(sock1, sock2), print=printer, loop=patched_loop) patched_loop.create_server.assert_has_calls( [ mock.call(mock.ANY, sock=sock1, backlog=128, ssl=None), mock.call(mock.ANY, sock=sock2, backlog=128, ssl=None), ] ) assert f"http://0.0.0.0:{port1}" in printer.call_args[0][0] assert f"http://0.0.0.0:{port2}" in printer.call_args[0][0] _script_test_signal = """ from aiohttp import web app = web.Application() web.run_app(app, host=()) """ def test_sigint() -> None: skip_if_on_windows() with subprocess.Popen( [sys.executable, "-u", "-c", _script_test_signal], stdout=subprocess.PIPE, ) as proc: for line in proc.stdout: if line.startswith(b"======== Running on"): break proc.send_signal(signal.SIGINT) assert proc.wait() == 0 def test_sigterm() -> None: skip_if_on_windows() with subprocess.Popen( [sys.executable, "-u", "-c", _script_test_signal], stdout=subprocess.PIPE, ) as proc: for line in proc.stdout: if line.startswith(b"======== Running on"): break proc.terminate() assert proc.wait() == 0 def test_startup_cleanup_signals_even_on_failure(patched_loop) -> None: patched_loop.create_server = mock.Mock(side_effect=RuntimeError()) app = web.Application() startup_handler = make_mocked_coro() app.on_startup.append(startup_handler) cleanup_handler = make_mocked_coro() app.on_cleanup.append(cleanup_handler) with pytest.raises(RuntimeError): web.run_app(app, print=stopper(patched_loop), loop=patched_loop) startup_handler.assert_called_once_with(app) cleanup_handler.assert_called_once_with(app) def test_run_app_coro(patched_loop) -> None: startup_handler = cleanup_handler = None async def make_app(): nonlocal startup_handler, cleanup_handler app = web.Application() startup_handler = make_mocked_coro() app.on_startup.append(startup_handler) cleanup_handler = make_mocked_coro() app.on_cleanup.append(cleanup_handler) return app web.run_app(make_app(), print=stopper(patched_loop), loop=patched_loop) patched_loop.create_server.assert_called_with( mock.ANY, None, 8080, ssl=None, backlog=128, reuse_address=None, reuse_port=None ) startup_handler.assert_called_once_with(mock.ANY) cleanup_handler.assert_called_once_with(mock.ANY) def test_run_app_default_logger(monkeypatch, patched_loop): patched_loop.set_debug(True) logger = web.access_logger attrs = { "hasHandlers.return_value": False, "level": logging.NOTSET, "name": "aiohttp.access", } mock_logger = mock.create_autospec(logger, name="mock_access_logger") mock_logger.configure_mock(**attrs) app = web.Application() web.run_app( app, print=stopper(patched_loop), access_log=mock_logger, loop=patched_loop, ) mock_logger.setLevel.assert_any_call(logging.DEBUG) mock_logger.hasHandlers.assert_called_with() assert isinstance(mock_logger.addHandler.call_args[0][0], logging.StreamHandler) def test_run_app_default_logger_setup_requires_debug(patched_loop): patched_loop.set_debug(False) logger = web.access_logger attrs = { "hasHandlers.return_value": False, "level": logging.NOTSET, "name": "aiohttp.access", } mock_logger = mock.create_autospec(logger, name="mock_access_logger") mock_logger.configure_mock(**attrs) app = web.Application() web.run_app( app, print=stopper(patched_loop), access_log=mock_logger, loop=patched_loop, ) mock_logger.setLevel.assert_not_called() mock_logger.hasHandlers.assert_not_called() mock_logger.addHandler.assert_not_called() def test_run_app_default_logger_setup_requires_default_logger(patched_loop): patched_loop.set_debug(True) logger = web.access_logger attrs = { "hasHandlers.return_value": False, "level": logging.NOTSET, "name": None, } mock_logger = mock.create_autospec(logger, name="mock_access_logger") mock_logger.configure_mock(**attrs) app = web.Application() web.run_app( app, print=stopper(patched_loop), access_log=mock_logger, loop=patched_loop, ) mock_logger.setLevel.assert_not_called() mock_logger.hasHandlers.assert_not_called() mock_logger.addHandler.assert_not_called() def test_run_app_default_logger_setup_only_if_unconfigured(patched_loop): patched_loop.set_debug(True) logger = web.access_logger attrs = { "hasHandlers.return_value": True, "level": None, "name": "aiohttp.access", } mock_logger = mock.create_autospec(logger, name="mock_access_logger") mock_logger.configure_mock(**attrs) app = web.Application() web.run_app( app, print=stopper(patched_loop), access_log=mock_logger, loop=patched_loop, ) mock_logger.setLevel.assert_not_called() mock_logger.hasHandlers.assert_called_with() mock_logger.addHandler.assert_not_called() def test_run_app_cancels_all_pending_tasks(patched_loop): app = web.Application() task = None async def on_startup(app): nonlocal task loop = asyncio.get_event_loop() task = loop.create_task(asyncio.sleep(1000)) app.on_startup.append(on_startup) web.run_app(app, print=stopper(patched_loop), loop=patched_loop) assert task.cancelled() def test_run_app_cancels_done_tasks(patched_loop): app = web.Application() task = None async def coro(): return 123 async def on_startup(app): nonlocal task loop = asyncio.get_event_loop() task = loop.create_task(coro()) app.on_startup.append(on_startup) web.run_app(app, print=stopper(patched_loop), loop=patched_loop) assert task.done() def test_run_app_cancels_failed_tasks(patched_loop): app = web.Application() task = None exc = RuntimeError("FAIL") async def fail(): try: await asyncio.sleep(1000) except asyncio.CancelledError: raise exc async def on_startup(app): nonlocal task loop = asyncio.get_event_loop() task = loop.create_task(fail()) await asyncio.sleep(0.01) app.on_startup.append(on_startup) exc_handler = mock.Mock() patched_loop.set_exception_handler(exc_handler) web.run_app(app, print=stopper(patched_loop), loop=patched_loop) assert task.done() msg = { "message": "unhandled exception during asyncio.run() shutdown", "exception": exc, "task": task, } exc_handler.assert_called_with(patched_loop, msg) def test_run_app_keepalive_timeout(patched_loop, mocker, monkeypatch): new_timeout = 1234 base_runner_init_orig = BaseRunner.__init__ def base_runner_init_spy(self, *args, **kwargs): assert kwargs["keepalive_timeout"] == new_timeout base_runner_init_orig(self, *args, **kwargs) app = web.Application() monkeypatch.setattr(BaseRunner, "__init__", base_runner_init_spy) web.run_app( app, keepalive_timeout=new_timeout, print=stopper(patched_loop), loop=patched_loop, ) @pytest.mark.skipif(not PY_37, reason="contextvars support is required") def test_run_app_context_vars(patched_loop): from contextvars import ContextVar count = 0 VAR = ContextVar("VAR", default="default") async def on_startup(app): nonlocal count assert "init" == VAR.get() VAR.set("on_startup") count += 1 async def on_cleanup(app): nonlocal count assert "on_startup" == VAR.get() count += 1 async def init(): nonlocal count assert "default" == VAR.get() VAR.set("init") app = web.Application() app.on_startup.append(on_startup) app.on_cleanup.append(on_cleanup) count += 1 return app web.run_app(init(), print=stopper(patched_loop), loop=patched_loop) assert count == 3