SickGear/tornado/test/netutil_test.py

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from __future__ import absolute_import, division, print_function, with_statement
import os
import signal
import socket
from subprocess import Popen
import sys
import time
from tornado.netutil import BlockingResolver, ThreadedResolver, is_valid_ip, bind_sockets
from tornado.stack_context import ExceptionStackContext
from tornado.testing import AsyncTestCase, gen_test
from tornado.test.util import unittest, skipIfNoNetwork
try:
from concurrent import futures
except ImportError:
futures = None
try:
import pycares
except ImportError:
pycares = None
else:
from tornado.platform.caresresolver import CaresResolver
try:
import twisted
import twisted.names
except ImportError:
twisted = None
else:
from tornado.platform.twisted import TwistedResolver
class _ResolverTestMixin(object):
def test_localhost(self):
self.resolver.resolve('localhost', 80, callback=self.stop)
result = self.wait()
self.assertIn((socket.AF_INET, ('127.0.0.1', 80)), result)
@gen_test
def test_future_interface(self):
addrinfo = yield self.resolver.resolve('localhost', 80,
socket.AF_UNSPEC)
self.assertIn((socket.AF_INET, ('127.0.0.1', 80)),
addrinfo)
# It is impossible to quickly and consistently generate an error in name
# resolution, so test this case separately, using mocks as needed.
class _ResolverErrorTestMixin(object):
def test_bad_host(self):
def handler(exc_typ, exc_val, exc_tb):
self.stop(exc_val)
return True # Halt propagation.
with ExceptionStackContext(handler):
self.resolver.resolve('an invalid domain', 80, callback=self.stop)
result = self.wait()
self.assertIsInstance(result, Exception)
@gen_test
def test_future_interface_bad_host(self):
with self.assertRaises(Exception):
yield self.resolver.resolve('an invalid domain', 80,
socket.AF_UNSPEC)
def _failing_getaddrinfo(*args):
"""Dummy implementation of getaddrinfo for use in mocks"""
raise socket.gaierror("mock: lookup failed")
@skipIfNoNetwork
class BlockingResolverTest(AsyncTestCase, _ResolverTestMixin):
def setUp(self):
super(BlockingResolverTest, self).setUp()
self.resolver = BlockingResolver(io_loop=self.io_loop)
# getaddrinfo-based tests need mocking to reliably generate errors;
# some configurations are slow to produce errors and take longer than
# our default timeout.
class BlockingResolverErrorTest(AsyncTestCase, _ResolverErrorTestMixin):
def setUp(self):
super(BlockingResolverErrorTest, self).setUp()
self.resolver = BlockingResolver(io_loop=self.io_loop)
self.real_getaddrinfo = socket.getaddrinfo
socket.getaddrinfo = _failing_getaddrinfo
def tearDown(self):
socket.getaddrinfo = self.real_getaddrinfo
super(BlockingResolverErrorTest, self).tearDown()
@skipIfNoNetwork
@unittest.skipIf(futures is None, "futures module not present")
class ThreadedResolverTest(AsyncTestCase, _ResolverTestMixin):
def setUp(self):
super(ThreadedResolverTest, self).setUp()
self.resolver = ThreadedResolver(io_loop=self.io_loop)
def tearDown(self):
self.resolver.close()
super(ThreadedResolverTest, self).tearDown()
class ThreadedResolverErrorTest(AsyncTestCase, _ResolverErrorTestMixin):
def setUp(self):
super(ThreadedResolverErrorTest, self).setUp()
self.resolver = BlockingResolver(io_loop=self.io_loop)
self.real_getaddrinfo = socket.getaddrinfo
socket.getaddrinfo = _failing_getaddrinfo
def tearDown(self):
socket.getaddrinfo = self.real_getaddrinfo
super(ThreadedResolverErrorTest, self).tearDown()
@skipIfNoNetwork
@unittest.skipIf(futures is None, "futures module not present")
@unittest.skipIf(sys.platform == 'win32', "preexec_fn not available on win32")
class ThreadedResolverImportTest(unittest.TestCase):
def test_import(self):
TIMEOUT = 5
# Test for a deadlock when importing a module that runs the
# ThreadedResolver at import-time. See resolve_test.py for
# full explanation.
command = [
sys.executable,
'-c',
'import tornado.test.resolve_test_helper']
start = time.time()
popen = Popen(command, preexec_fn=lambda: signal.alarm(TIMEOUT))
while time.time() - start < TIMEOUT:
return_code = popen.poll()
if return_code is not None:
self.assertEqual(0, return_code)
return # Success.
time.sleep(0.05)
self.fail("import timed out")
# We do not test errors with CaresResolver:
# Some DNS-hijacking ISPs (e.g. Time Warner) return non-empty results
# with an NXDOMAIN status code. Most resolvers treat this as an error;
# C-ares returns the results, making the "bad_host" tests unreliable.
# C-ares will try to resolve even malformed names, such as the
# name with spaces used in this test.
@skipIfNoNetwork
@unittest.skipIf(pycares is None, "pycares module not present")
class CaresResolverTest(AsyncTestCase, _ResolverTestMixin):
def setUp(self):
super(CaresResolverTest, self).setUp()
self.resolver = CaresResolver(io_loop=self.io_loop)
# TwistedResolver produces consistent errors in our test cases so we
# can test the regular and error cases in the same class.
@skipIfNoNetwork
@unittest.skipIf(twisted is None, "twisted module not present")
@unittest.skipIf(getattr(twisted, '__version__', '0.0') < "12.1", "old version of twisted")
class TwistedResolverTest(AsyncTestCase, _ResolverTestMixin,
_ResolverErrorTestMixin):
def setUp(self):
super(TwistedResolverTest, self).setUp()
self.resolver = TwistedResolver(io_loop=self.io_loop)
class IsValidIPTest(unittest.TestCase):
def test_is_valid_ip(self):
self.assertTrue(is_valid_ip('127.0.0.1'))
self.assertTrue(is_valid_ip('4.4.4.4'))
self.assertTrue(is_valid_ip('::1'))
self.assertTrue(is_valid_ip('2620:0:1cfe:face:b00c::3'))
self.assertTrue(not is_valid_ip('www.google.com'))
self.assertTrue(not is_valid_ip('localhost'))
self.assertTrue(not is_valid_ip('4.4.4.4<'))
self.assertTrue(not is_valid_ip(' 127.0.0.1'))
self.assertTrue(not is_valid_ip(''))
self.assertTrue(not is_valid_ip(' '))
self.assertTrue(not is_valid_ip('\n'))
self.assertTrue(not is_valid_ip('\x00'))
class TestPortAllocation(unittest.TestCase):
def test_same_port_allocation(self):
if 'TRAVIS' in os.environ:
self.skipTest("dual-stack servers often have port conflicts on travis")
sockets = bind_sockets(None, 'localhost')
try:
port = sockets[0].getsockname()[1]
self.assertTrue(all(s.getsockname()[1] == port
for s in sockets[1:]))
finally:
for sock in sockets:
sock.close()