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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/tornado/test/tcpclient_test.py

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#
# Copyright 2014 Facebook
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from contextlib import closing
import getpass
import os
import socket
import unittest
from tornado.concurrent import Future
from tornado.netutil import bind_sockets, Resolver
from tornado.queues import Queue
from tornado.tcpclient import TCPClient, _Connector
from tornado.tcpserver import TCPServer
from tornado.testing import AsyncTestCase, gen_test
from tornado.test.util import skipIfNoIPv6, refusing_port, skipIfNonUnix
from tornado.gen import TimeoutError
import typing
if typing.TYPE_CHECKING:
from tornado.iostream import IOStream # noqa: F401
from typing import List, Dict, Tuple # noqa: F401
# Fake address families for testing. Used in place of AF_INET
# and AF_INET6 because some installations do not have AF_INET6.
AF1, AF2 = 1, 2
class TestTCPServer(TCPServer):
def __init__(self, family):
super().__init__()
self.streams = [] # type: List[IOStream]
self.queue = Queue() # type: Queue[IOStream]
sockets = bind_sockets(0, "localhost", family)
self.add_sockets(sockets)
self.port = sockets[0].getsockname()[1]
def handle_stream(self, stream, address):
self.streams.append(stream)
self.queue.put(stream)
def stop(self):
super().stop()
for stream in self.streams:
stream.close()
class TCPClientTest(AsyncTestCase):
def setUp(self):
super().setUp()
self.server = None
self.client = TCPClient()
def start_server(self, family):
if family == socket.AF_UNSPEC and "TRAVIS" in os.environ:
self.skipTest("dual-stack servers often have port conflicts on travis")
self.server = TestTCPServer(family)
return self.server.port
def stop_server(self):
if self.server is not None:
self.server.stop()
self.server = None
def tearDown(self):
self.client.close()
self.stop_server()
super().tearDown()
def skipIfLocalhostV4(self):
# The port used here doesn't matter, but some systems require it
# to be non-zero if we do not also pass AI_PASSIVE.
addrinfo = self.io_loop.run_sync(lambda: Resolver().resolve("localhost", 80))
families = set(addr[0] for addr in addrinfo)
if socket.AF_INET6 not in families:
self.skipTest("localhost does not resolve to ipv6")
@gen_test
def do_test_connect(self, family, host, source_ip=None, source_port=None):
port = self.start_server(family)
stream = yield self.client.connect(
host, port, source_ip=source_ip, source_port=source_port
)
assert self.server is not None
server_stream = yield self.server.queue.get()
with closing(stream):
stream.write(b"hello")
data = yield server_stream.read_bytes(5)
self.assertEqual(data, b"hello")
def test_connect_ipv4_ipv4(self):
self.do_test_connect(socket.AF_INET, "127.0.0.1")
def test_connect_ipv4_dual(self):
self.do_test_connect(socket.AF_INET, "localhost")
@skipIfNoIPv6
def test_connect_ipv6_ipv6(self):
self.skipIfLocalhostV4()
self.do_test_connect(socket.AF_INET6, "::1")
@skipIfNoIPv6
def test_connect_ipv6_dual(self):
self.skipIfLocalhostV4()
if Resolver.configured_class().__name__.endswith("TwistedResolver"):
self.skipTest("TwistedResolver does not support multiple addresses")
self.do_test_connect(socket.AF_INET6, "localhost")
def test_connect_unspec_ipv4(self):
self.do_test_connect(socket.AF_UNSPEC, "127.0.0.1")
@skipIfNoIPv6
def test_connect_unspec_ipv6(self):
self.skipIfLocalhostV4()
self.do_test_connect(socket.AF_UNSPEC, "::1")
def test_connect_unspec_dual(self):
self.do_test_connect(socket.AF_UNSPEC, "localhost")
@gen_test
def test_refused_ipv4(self):
cleanup_func, port = refusing_port()
self.addCleanup(cleanup_func)
with self.assertRaises(IOError):
yield self.client.connect("127.0.0.1", port)
def test_source_ip_fail(self):
"""Fail when trying to use the source IP Address '8.8.8.8'.
"""
self.assertRaises(
socket.error,
self.do_test_connect,
socket.AF_INET,
"127.0.0.1",
source_ip="8.8.8.8",
)
def test_source_ip_success(self):
"""Success when trying to use the source IP Address '127.0.0.1'.
"""
self.do_test_connect(socket.AF_INET, "127.0.0.1", source_ip="127.0.0.1")
@skipIfNonUnix
def test_source_port_fail(self):
"""Fail when trying to use source port 1.
"""
if getpass.getuser() == "root":
# Root can use any port so we can't easily force this to fail.
# This is mainly relevant for docker.
self.skipTest("running as root")
self.assertRaises(
socket.error,
self.do_test_connect,
socket.AF_INET,
"127.0.0.1",
source_port=1,
)
@gen_test
def test_connect_timeout(self):
timeout = 0.05
class TimeoutResolver(Resolver):
def resolve(self, *args, **kwargs):
return Future() # never completes
with self.assertRaises(TimeoutError):
yield TCPClient(resolver=TimeoutResolver()).connect(
"1.2.3.4", 12345, timeout=timeout
)
class TestConnectorSplit(unittest.TestCase):
def test_one_family(self):
# These addresses aren't in the right format, but split doesn't care.
primary, secondary = _Connector.split([(AF1, "a"), (AF1, "b")])
self.assertEqual(primary, [(AF1, "a"), (AF1, "b")])
self.assertEqual(secondary, [])
def test_mixed(self):
primary, secondary = _Connector.split(
[(AF1, "a"), (AF2, "b"), (AF1, "c"), (AF2, "d")]
)
self.assertEqual(primary, [(AF1, "a"), (AF1, "c")])
self.assertEqual(secondary, [(AF2, "b"), (AF2, "d")])
class ConnectorTest(AsyncTestCase):
class FakeStream(object):
def __init__(self):
self.closed = False
def close(self):
self.closed = True
def setUp(self):
super().setUp()
self.connect_futures = (
{}
) # type: Dict[Tuple[int, typing.Any], Future[ConnectorTest.FakeStream]]
self.streams = {} # type: Dict[typing.Any, ConnectorTest.FakeStream]
self.addrinfo = [(AF1, "a"), (AF1, "b"), (AF2, "c"), (AF2, "d")]
def tearDown(self):
# Unless explicitly checked (and popped) in the test, we shouldn't
# be closing any streams
for stream in self.streams.values():
self.assertFalse(stream.closed)
super().tearDown()
def create_stream(self, af, addr):
stream = ConnectorTest.FakeStream()
self.streams[addr] = stream
future = Future() # type: Future[ConnectorTest.FakeStream]
self.connect_futures[(af, addr)] = future
return stream, future
def assert_pending(self, *keys):
self.assertEqual(sorted(self.connect_futures.keys()), sorted(keys))
def resolve_connect(self, af, addr, success):
future = self.connect_futures.pop((af, addr))
if success:
future.set_result(self.streams[addr])
else:
self.streams.pop(addr)
future.set_exception(IOError())
# Run the loop to allow callbacks to be run.
self.io_loop.add_callback(self.stop)
self.wait()
def assert_connector_streams_closed(self, conn):
for stream in conn.streams:
self.assertTrue(stream.closed)
def start_connect(self, addrinfo):
conn = _Connector(addrinfo, self.create_stream)
# Give it a huge timeout; we'll trigger timeouts manually.
future = conn.start(3600, connect_timeout=self.io_loop.time() + 3600)
return conn, future
def test_immediate_success(self):
conn, future = self.start_connect(self.addrinfo)
self.assertEqual(list(self.connect_futures.keys()), [(AF1, "a")])
self.resolve_connect(AF1, "a", True)
self.assertEqual(future.result(), (AF1, "a", self.streams["a"]))
def test_immediate_failure(self):
# Fail with just one address.
conn, future = self.start_connect([(AF1, "a")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assertRaises(IOError, future.result)
def test_one_family_second_try(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
self.resolve_connect(AF1, "b", True)
self.assertEqual(future.result(), (AF1, "b", self.streams["b"]))
def test_one_family_second_try_failure(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
self.resolve_connect(AF1, "b", False)
self.assertRaises(IOError, future.result)
def test_one_family_second_try_timeout(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
# trigger the timeout while the first lookup is pending;
# nothing happens.
conn.on_timeout()
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
self.resolve_connect(AF1, "b", True)
self.assertEqual(future.result(), (AF1, "b", self.streams["b"]))
def test_two_families_immediate_failure(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"), (AF2, "c"))
self.resolve_connect(AF1, "b", False)
self.resolve_connect(AF2, "c", True)
self.assertEqual(future.result(), (AF2, "c", self.streams["c"]))
def test_two_families_timeout(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_timeout()
self.assert_pending((AF1, "a"), (AF2, "c"))
self.resolve_connect(AF2, "c", True)
self.assertEqual(future.result(), (AF2, "c", self.streams["c"]))
# resolving 'a' after the connection has completed doesn't start 'b'
self.resolve_connect(AF1, "a", False)
self.assert_pending()
def test_success_after_timeout(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_timeout()
self.assert_pending((AF1, "a"), (AF2, "c"))
self.resolve_connect(AF1, "a", True)
self.assertEqual(future.result(), (AF1, "a", self.streams["a"]))
# resolving 'c' after completion closes the connection.
self.resolve_connect(AF2, "c", True)
self.assertTrue(self.streams.pop("c").closed)
def test_all_fail(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_timeout()
self.assert_pending((AF1, "a"), (AF2, "c"))
self.resolve_connect(AF2, "c", False)
self.assert_pending((AF1, "a"), (AF2, "d"))
self.resolve_connect(AF2, "d", False)
# one queue is now empty
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
self.assertFalse(future.done())
self.resolve_connect(AF1, "b", False)
self.assertRaises(IOError, future.result)
def test_one_family_timeout_after_connect_timeout(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
conn.on_connect_timeout()
# the connector will close all streams on connect timeout, we
# should explicitly pop the connect_future.
self.connect_futures.pop((AF1, "a"))
self.assertTrue(self.streams.pop("a").closed)
conn.on_timeout()
# if the future is set with TimeoutError, we will not iterate next
# possible address.
self.assert_pending()
self.assertEqual(len(conn.streams), 1)
self.assert_connector_streams_closed(conn)
self.assertRaises(TimeoutError, future.result)
def test_one_family_success_before_connect_timeout(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", True)
conn.on_connect_timeout()
self.assert_pending()
self.assertEqual(self.streams["a"].closed, False)
# success stream will be pop
self.assertEqual(len(conn.streams), 0)
# streams in connector should be closed after connect timeout
self.assert_connector_streams_closed(conn)
self.assertEqual(future.result(), (AF1, "a", self.streams["a"]))
def test_one_family_second_try_after_connect_timeout(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
conn.on_connect_timeout()
self.connect_futures.pop((AF1, "b"))
self.assertTrue(self.streams.pop("b").closed)
self.assert_pending()
self.assertEqual(len(conn.streams), 2)
self.assert_connector_streams_closed(conn)
self.assertRaises(TimeoutError, future.result)
def test_one_family_second_try_failure_before_connect_timeout(self):
conn, future = self.start_connect([(AF1, "a"), (AF1, "b")])
self.assert_pending((AF1, "a"))
self.resolve_connect(AF1, "a", False)
self.assert_pending((AF1, "b"))
self.resolve_connect(AF1, "b", False)
conn.on_connect_timeout()
self.assert_pending()
self.assertEqual(len(conn.streams), 2)
self.assert_connector_streams_closed(conn)
self.assertRaises(IOError, future.result)
def test_two_family_timeout_before_connect_timeout(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_timeout()
self.assert_pending((AF1, "a"), (AF2, "c"))
conn.on_connect_timeout()
self.connect_futures.pop((AF1, "a"))
self.assertTrue(self.streams.pop("a").closed)
self.connect_futures.pop((AF2, "c"))
self.assertTrue(self.streams.pop("c").closed)
self.assert_pending()
self.assertEqual(len(conn.streams), 2)
self.assert_connector_streams_closed(conn)
self.assertRaises(TimeoutError, future.result)
def test_two_family_success_after_timeout(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_timeout()
self.assert_pending((AF1, "a"), (AF2, "c"))
self.resolve_connect(AF1, "a", True)
# if one of streams succeed, connector will close all other streams
self.connect_futures.pop((AF2, "c"))
self.assertTrue(self.streams.pop("c").closed)
self.assert_pending()
self.assertEqual(len(conn.streams), 1)
self.assert_connector_streams_closed(conn)
self.assertEqual(future.result(), (AF1, "a", self.streams["a"]))
def test_two_family_timeout_after_connect_timeout(self):
conn, future = self.start_connect(self.addrinfo)
self.assert_pending((AF1, "a"))
conn.on_connect_timeout()
self.connect_futures.pop((AF1, "a"))
self.assertTrue(self.streams.pop("a").closed)
self.assert_pending()
conn.on_timeout()
# if the future is set with TimeoutError, connector will not
# trigger secondary address.
self.assert_pending()
self.assertEqual(len(conn.streams), 1)
self.assert_connector_streams_closed(conn)
self.assertRaises(TimeoutError, future.result)
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