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|
"""Tests for asyncio/sslproto.py."""
import logging
import socket
import unittest
from unittest import mock
try:
import ssl
except ImportError:
ssl = None
import asyncio
from asyncio import log
from asyncio import protocols
from asyncio import sslproto
from asyncio import tasks
from test.test_asyncio import utils as test_utils
from test.test_asyncio import functional as func_tests
def tearDownModule():
asyncio.set_event_loop_policy(None)
@unittest.skipIf(ssl is None, 'No ssl module')
class SslProtoHandshakeTests(test_utils.TestCase):
def setUp(self):
super().setUp()
self.loop = asyncio.new_event_loop()
self.set_event_loop(self.loop)
def ssl_protocol(self, *, waiter=None, proto=None):
sslcontext = test_utils.dummy_ssl_context()
if proto is None: # app protocol
proto = asyncio.Protocol()
ssl_proto = sslproto.SSLProtocol(self.loop, proto, sslcontext, waiter,
ssl_handshake_timeout=0.1)
self.assertIs(ssl_proto._app_transport.get_protocol(), proto)
self.addCleanup(ssl_proto._app_transport.close)
return ssl_proto
def connection_made(self, ssl_proto, *, do_handshake=None):
transport = mock.Mock()
sslpipe = mock.Mock()
sslpipe.shutdown.return_value = b''
if do_handshake:
sslpipe.do_handshake.side_effect = do_handshake
else:
def mock_handshake(callback):
return []
sslpipe.do_handshake.side_effect = mock_handshake
with mock.patch('asyncio.sslproto._SSLPipe', return_value=sslpipe):
ssl_proto.connection_made(transport)
return transport
def test_handshake_timeout_zero(self):
sslcontext = test_utils.dummy_ssl_context()
app_proto = mock.Mock()
waiter = mock.Mock()
with self.assertRaisesRegex(ValueError, 'a positive number'):
sslproto.SSLProtocol(self.loop, app_proto, sslcontext, waiter,
ssl_handshake_timeout=0)
def test_handshake_timeout_negative(self):
sslcontext = test_utils.dummy_ssl_context()
app_proto = mock.Mock()
waiter = mock.Mock()
with self.assertRaisesRegex(ValueError, 'a positive number'):
sslproto.SSLProtocol(self.loop, app_proto, sslcontext, waiter,
ssl_handshake_timeout=-10)
def test_eof_received_waiter(self):
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
self.connection_made(ssl_proto)
ssl_proto.eof_received()
test_utils.run_briefly(self.loop)
self.assertIsInstance(waiter.exception(), ConnectionResetError)
def test_fatal_error_no_name_error(self):
# From issue #363.
# _fatal_error() generates a NameError if sslproto.py
# does not import base_events.
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
# Temporarily turn off error logging so as not to spoil test output.
log_level = log.logger.getEffectiveLevel()
log.logger.setLevel(logging.FATAL)
try:
ssl_proto._fatal_error(None)
finally:
# Restore error logging.
log.logger.setLevel(log_level)
def test_connection_lost(self):
# From issue #472.
# yield from waiter hang if lost_connection was called.
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
self.connection_made(ssl_proto)
ssl_proto.connection_lost(ConnectionAbortedError)
test_utils.run_briefly(self.loop)
self.assertIsInstance(waiter.exception(), ConnectionAbortedError)
def test_close_during_handshake(self):
# bpo-29743 Closing transport during handshake process leaks socket
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
transport = self.connection_made(ssl_proto)
test_utils.run_briefly(self.loop)
ssl_proto._app_transport.close()
self.assertTrue(transport.abort.called)
def test_get_extra_info_on_closed_connection(self):
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
self.assertIsNone(ssl_proto._get_extra_info('socket'))
default = object()
self.assertIs(ssl_proto._get_extra_info('socket', default), default)
self.connection_made(ssl_proto)
self.assertIsNotNone(ssl_proto._get_extra_info('socket'))
ssl_proto.connection_lost(None)
self.assertIsNone(ssl_proto._get_extra_info('socket'))
def test_set_new_app_protocol(self):
waiter = asyncio.Future(loop=self.loop)
ssl_proto = self.ssl_protocol(waiter=waiter)
new_app_proto = asyncio.Protocol()
ssl_proto._app_transport.set_protocol(new_app_proto)
self.assertIs(ssl_proto._app_transport.get_protocol(), new_app_proto)
self.assertIs(ssl_proto._app_protocol, new_app_proto)
def test_data_received_after_closing(self):
ssl_proto = self.ssl_protocol()
self.connection_made(ssl_proto)
transp = ssl_proto._app_transport
transp.close()
# should not raise
self.assertIsNone(ssl_proto.data_received(b'data'))
def test_write_after_closing(self):
ssl_proto = self.ssl_protocol()
self.connection_made(ssl_proto)
transp = ssl_proto._app_transport
transp.close()
# should not raise
self.assertIsNone(transp.write(b'data'))
##############################################################################
# Start TLS Tests
##############################################################################
class BaseStartTLS(func_tests.FunctionalTestCaseMixin):
PAYLOAD_SIZE = 1024 * 100
TIMEOUT = 60
def new_loop(self):
raise NotImplementedError
def test_buf_feed_data(self):
class Proto(asyncio.BufferedProtocol):
def __init__(self, bufsize, usemv):
self.buf = bytearray(bufsize)
self.mv = memoryview(self.buf)
self.data = b''
self.usemv = usemv
def get_buffer(self, sizehint):
if self.usemv:
return self.mv
else:
return self.buf
def buffer_updated(self, nsize):
if self.usemv:
self.data += self.mv[:nsize]
else:
self.data += self.buf[:nsize]
for usemv in [False, True]:
proto = Proto(1, usemv)
protocols._feed_data_to_buffered_proto(proto, b'12345')
self.assertEqual(proto.data, b'12345')
proto = Proto(2, usemv)
protocols._feed_data_to_buffered_proto(proto, b'12345')
self.assertEqual(proto.data, b'12345')
proto = Proto(2, usemv)
protocols._feed_data_to_buffered_proto(proto, b'1234')
self.assertEqual(proto.data, b'1234')
proto = Proto(4, usemv)
protocols._feed_data_to_buffered_proto(proto, b'1234')
self.assertEqual(proto.data, b'1234')
proto = Proto(100, usemv)
protocols._feed_data_to_buffered_proto(proto, b'12345')
self.assertEqual(proto.data, b'12345')
proto = Proto(0, usemv)
with self.assertRaisesRegex(RuntimeError, 'empty buffer'):
protocols._feed_data_to_buffered_proto(proto, b'12345')
def test_start_tls_client_reg_proto_1(self):
HELLO_MSG = b'1' * self.PAYLOAD_SIZE
server_context = test_utils.simple_server_sslcontext()
client_context = test_utils.simple_client_sslcontext()
def serve(sock):
sock.settimeout(self.TIMEOUT)
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.start_tls(server_context, server_side=True)
sock.sendall(b'O')
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.shutdown(socket.SHUT_RDWR)
sock.close()
class ClientProto(asyncio.Protocol):
def __init__(self, on_data, on_eof):
self.on_data = on_data
self.on_eof = on_eof
self.con_made_cnt = 0
def connection_made(proto, tr):
proto.con_made_cnt += 1
# Ensure connection_made gets called only once.
self.assertEqual(proto.con_made_cnt, 1)
def data_received(self, data):
self.on_data.set_result(data)
def eof_received(self):
self.on_eof.set_result(True)
async def client(addr):
await asyncio.sleep(0.5)
on_data = self.loop.create_future()
on_eof = self.loop.create_future()
tr, proto = await self.loop.create_connection(
lambda: ClientProto(on_data, on_eof), *addr)
tr.write(HELLO_MSG)
new_tr = await self.loop.start_tls(tr, proto, client_context)
self.assertEqual(await on_data, b'O')
new_tr.write(HELLO_MSG)
await on_eof
new_tr.close()
with self.tcp_server(serve, timeout=self.TIMEOUT) as srv:
self.loop.run_until_complete(
asyncio.wait_for(client(srv.addr), timeout=10))
def test_start_tls_client_buf_proto_1(self):
HELLO_MSG = b'1' * self.PAYLOAD_SIZE
server_context = test_utils.simple_server_sslcontext()
client_context = test_utils.simple_client_sslcontext()
client_con_made_calls = 0
def serve(sock):
sock.settimeout(self.TIMEOUT)
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.start_tls(server_context, server_side=True)
sock.sendall(b'O')
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.sendall(b'2')
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.shutdown(socket.SHUT_RDWR)
sock.close()
class ClientProtoFirst(asyncio.BufferedProtocol):
def __init__(self, on_data):
self.on_data = on_data
self.buf = bytearray(1)
def connection_made(self, tr):
nonlocal client_con_made_calls
client_con_made_calls += 1
def get_buffer(self, sizehint):
return self.buf
def buffer_updated(self, nsize):
assert nsize == 1
self.on_data.set_result(bytes(self.buf[:nsize]))
class ClientProtoSecond(asyncio.Protocol):
def __init__(self, on_data, on_eof):
self.on_data = on_data
self.on_eof = on_eof
self.con_made_cnt = 0
def connection_made(self, tr):
nonlocal client_con_made_calls
client_con_made_calls += 1
def data_received(self, data):
self.on_data.set_result(data)
def eof_received(self):
self.on_eof.set_result(True)
async def client(addr):
await asyncio.sleep(0.5)
on_data1 = self.loop.create_future()
on_data2 = self.loop.create_future()
on_eof = self.loop.create_future()
tr, proto = await self.loop.create_connection(
lambda: ClientProtoFirst(on_data1), *addr)
tr.write(HELLO_MSG)
new_tr = await self.loop.start_tls(tr, proto, client_context)
self.assertEqual(await on_data1, b'O')
new_tr.write(HELLO_MSG)
new_tr.set_protocol(ClientProtoSecond(on_data2, on_eof))
self.assertEqual(await on_data2, b'2')
new_tr.write(HELLO_MSG)
await on_eof
new_tr.close()
# connection_made() should be called only once -- when
# we establish connection for the first time. Start TLS
# doesn't call connection_made() on application protocols.
self.assertEqual(client_con_made_calls, 1)
with self.tcp_server(serve, timeout=self.TIMEOUT) as srv:
self.loop.run_until_complete(
asyncio.wait_for(client(srv.addr),
timeout=self.TIMEOUT))
def test_start_tls_slow_client_cancel(self):
HELLO_MSG = b'1' * self.PAYLOAD_SIZE
client_context = test_utils.simple_client_sslcontext()
server_waits_on_handshake = self.loop.create_future()
def serve(sock):
sock.settimeout(self.TIMEOUT)
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
try:
self.loop.call_soon_threadsafe(
server_waits_on_handshake.set_result, None)
data = sock.recv_all(1024 * 1024)
except ConnectionAbortedError:
pass
finally:
sock.close()
class ClientProto(asyncio.Protocol):
def __init__(self, on_data, on_eof):
self.on_data = on_data
self.on_eof = on_eof
self.con_made_cnt = 0
def connection_made(proto, tr):
proto.con_made_cnt += 1
# Ensure connection_made gets called only once.
self.assertEqual(proto.con_made_cnt, 1)
def data_received(self, data):
self.on_data.set_result(data)
def eof_received(self):
self.on_eof.set_result(True)
async def client(addr):
await asyncio.sleep(0.5)
on_data = self.loop.create_future()
on_eof = self.loop.create_future()
tr, proto = await self.loop.create_connection(
lambda: ClientProto(on_data, on_eof), *addr)
tr.write(HELLO_MSG)
await server_waits_on_handshake
with self.assertRaises(asyncio.TimeoutError):
await asyncio.wait_for(
self.loop.start_tls(tr, proto, client_context),
0.5)
with self.tcp_server(serve, timeout=self.TIMEOUT) as srv:
self.loop.run_until_complete(
asyncio.wait_for(client(srv.addr), timeout=10))
def test_start_tls_server_1(self):
HELLO_MSG = b'1' * self.PAYLOAD_SIZE
server_context = test_utils.simple_server_sslcontext()
client_context = test_utils.simple_client_sslcontext()
def client(sock, addr):
sock.settimeout(self.TIMEOUT)
sock.connect(addr)
data = sock.recv_all(len(HELLO_MSG))
self.assertEqual(len(data), len(HELLO_MSG))
sock.start_tls(client_context)
sock.sendall(HELLO_MSG)
sock.shutdown(socket.SHUT_RDWR)
sock.close()
class ServerProto(asyncio.Protocol):
def __init__(self, on_con, on_eof, on_con_lost):
self.on_con = on_con
self.on_eof = on_eof
self.on_con_lost = on_con_lost
self.data = b''
def connection_made(self, tr):
self.on_con.set_result(tr)
def data_received(self, data):
self.data += data
def eof_received(self):
self.on_eof.set_result(1)
def connection_lost(self, exc):
if exc is None:
self.on_con_lost.set_result(None)
else:
self.on_con_lost.set_exception(exc)
async def main(proto, on_con, on_eof, on_con_lost):
tr = await on_con
tr.write(HELLO_MSG)
self.assertEqual(proto.data, b'')
new_tr = await self.loop.start_tls(
tr, proto, server_context,
server_side=True,
ssl_handshake_timeout=self.TIMEOUT)
await on_eof
await on_con_lost
self.assertEqual(proto.data, HELLO_MSG)
new_tr.close()
async def run_main():
on_con = self.loop.create_future()
on_eof = self.loop.create_future()
on_con_lost = self.loop.create_future()
proto = ServerProto(on_con, on_eof, on_con_lost)
server = await self.loop.create_server(
lambda: proto, '127.0.0.1', 0)
addr = server.sockets[0].getsockname()
with self.tcp_client(lambda sock: client(sock, addr),
timeout=self.TIMEOUT):
await asyncio.wait_for(
main(proto, on_con, on_eof, on_con_lost),
timeout=self.TIMEOUT)
server.close()
await server.wait_closed()
self.loop.run_until_complete(run_main())
def test_start_tls_wrong_args(self):
async def main():
with self.assertRaisesRegex(TypeError, 'SSLContext, got'):
await self.loop.start_tls(None, None, None)
sslctx = test_utils.simple_server_sslcontext()
with self.assertRaisesRegex(TypeError, 'is not supported'):
await self.loop.start_tls(None, None, sslctx)
self.loop.run_until_complete(main())
def test_handshake_timeout(self):
# bpo-29970: Check that a connection is aborted if handshake is not
# completed in timeout period, instead of remaining open indefinitely
client_sslctx = test_utils.simple_client_sslcontext()
messages = []
self.loop.set_exception_handler(lambda loop, ctx: messages.append(ctx))
server_side_aborted = False
def server(sock):
nonlocal server_side_aborted
try:
sock.recv_all(1024 * 1024)
except ConnectionAbortedError:
server_side_aborted = True
finally:
sock.close()
async def client(addr):
await asyncio.wait_for(
self.loop.create_connection(
asyncio.Protocol,
*addr,
ssl=client_sslctx,
server_hostname='',
ssl_handshake_timeout=10.0),
0.5)
with self.tcp_server(server,
max_clients=1,
backlog=1) as srv:
with self.assertRaises(asyncio.TimeoutError):
self.loop.run_until_complete(client(srv.addr))
self.assertTrue(server_side_aborted)
# Python issue #23197: cancelling a handshake must not raise an
# exception or log an error, even if the handshake failed
self.assertEqual(messages, [])
def test_create_connection_ssl_slow_handshake(self):
client_sslctx = test_utils.simple_client_sslcontext()
messages = []
self.loop.set_exception_handler(lambda loop, ctx: messages.append(ctx))
def server(sock):
try:
sock.recv_all(1024 * 1024)
except ConnectionAbortedError:
pass
finally:
sock.close()
async def client(addr):
reader, writer = await asyncio.open_connection(
*addr,
ssl=client_sslctx,
server_hostname='',
loop=self.loop,
ssl_handshake_timeout=1.0)
with self.tcp_server(server,
max_clients=1,
backlog=1) as srv:
with self.assertRaisesRegex(
ConnectionAbortedError,
r'SSL handshake.*is taking longer'):
self.loop.run_until_complete(client(srv.addr))
self.assertEqual(messages, [])
def test_create_connection_ssl_failed_certificate(self):
self.loop.set_exception_handler(lambda loop, ctx: None)
sslctx = test_utils.simple_server_sslcontext()
client_sslctx = test_utils.simple_client_sslcontext(
disable_verify=False)
def server(sock):
try:
sock.start_tls(
sslctx,
server_side=True)
except ssl.SSLError:
pass
except OSError:
pass
finally:
sock.close()
async def client(addr):
reader, writer = await asyncio.open_connection(
*addr,
ssl=client_sslctx,
server_hostname='',
loop=self.loop,
ssl_handshake_timeout=1.0)
with self.tcp_server(server,
max_clients=1,
backlog=1) as srv:
with self.assertRaises(ssl.SSLCertVerificationError):
self.loop.run_until_complete(client(srv.addr))
def test_start_tls_client_corrupted_ssl(self):
self.loop.set_exception_handler(lambda loop, ctx: None)
sslctx = test_utils.simple_server_sslcontext()
client_sslctx = test_utils.simple_client_sslcontext()
def server(sock):
orig_sock = sock.dup()
try:
sock.start_tls(
sslctx,
server_side=True)
sock.sendall(b'A\n')
sock.recv_all(1)
orig_sock.send(b'please corrupt the SSL connection')
except ssl.SSLError:
pass
finally:
orig_sock.close()
sock.close()
async def client(addr):
reader, writer = await asyncio.open_connection(
*addr,
ssl=client_sslctx,
server_hostname='',
loop=self.loop)
self.assertEqual(await reader.readline(), b'A\n')
writer.write(b'B')
with self.assertRaises(ssl.SSLError):
await reader.readline()
writer.close()
return 'OK'
with self.tcp_server(server,
max_clients=1,
backlog=1) as srv:
res = self.loop.run_until_complete(client(srv.addr))
self.assertEqual(res, 'OK')
@unittest.skipIf(ssl is None, 'No ssl module')
class SelectorStartTLSTests(BaseStartTLS, unittest.TestCase):
def new_loop(self):
return asyncio.SelectorEventLoop()
@unittest.skipIf(ssl is None, 'No ssl module')
@unittest.skipUnless(hasattr(asyncio, 'ProactorEventLoop'), 'Windows only')
class ProactorStartTLSTests(BaseStartTLS, unittest.TestCase):
def new_loop(self):
return asyncio.ProactorEventLoop()
if __name__ == '__main__':
unittest.main()
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