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|
import asyncore
import unittest
import select
import os
import socket
import sys
import time
import errno
import struct
import threading
from test import support
from io import BytesIO
if support.PGO:
raise unittest.SkipTest("test is not helpful for PGO")
HAS_UNIX_SOCKETS = hasattr(socket, 'AF_UNIX')
class dummysocket:
def __init__(self):
self.closed = False
def close(self):
self.closed = True
def fileno(self):
return 42
class dummychannel:
def __init__(self):
self.socket = dummysocket()
def close(self):
self.socket.close()
class exitingdummy:
def __init__(self):
pass
def handle_read_event(self):
raise asyncore.ExitNow()
handle_write_event = handle_read_event
handle_close = handle_read_event
handle_expt_event = handle_read_event
class crashingdummy:
def __init__(self):
self.error_handled = False
def handle_read_event(self):
raise Exception()
handle_write_event = handle_read_event
handle_close = handle_read_event
handle_expt_event = handle_read_event
def handle_error(self):
self.error_handled = True
# used when testing senders; just collects what it gets until newline is sent
def capture_server(evt, buf, serv):
try:
serv.listen()
conn, addr = serv.accept()
except socket.timeout:
pass
else:
n = 200
start = time.monotonic()
while n > 0 and time.monotonic() - start < 3.0:
r, w, e = select.select([conn], [], [], 0.1)
if r:
n -= 1
data = conn.recv(10)
# keep everything except for the newline terminator
buf.write(data.replace(b'\n', b''))
if b'\n' in data:
break
time.sleep(0.01)
conn.close()
finally:
serv.close()
evt.set()
def bind_af_aware(sock, addr):
"""Helper function to bind a socket according to its family."""
if HAS_UNIX_SOCKETS and sock.family == socket.AF_UNIX:
# Make sure the path doesn't exist.
support.unlink(addr)
support.bind_unix_socket(sock, addr)
else:
sock.bind(addr)
class HelperFunctionTests(unittest.TestCase):
def test_readwriteexc(self):
# Check exception handling behavior of read, write and _exception
# check that ExitNow exceptions in the object handler method
# bubbles all the way up through asyncore read/write/_exception calls
tr1 = exitingdummy()
self.assertRaises(asyncore.ExitNow, asyncore.read, tr1)
self.assertRaises(asyncore.ExitNow, asyncore.write, tr1)
self.assertRaises(asyncore.ExitNow, asyncore._exception, tr1)
# check that an exception other than ExitNow in the object handler
# method causes the handle_error method to get called
tr2 = crashingdummy()
asyncore.read(tr2)
self.assertEqual(tr2.error_handled, True)
tr2 = crashingdummy()
asyncore.write(tr2)
self.assertEqual(tr2.error_handled, True)
tr2 = crashingdummy()
asyncore._exception(tr2)
self.assertEqual(tr2.error_handled, True)
# asyncore.readwrite uses constants in the select module that
# are not present in Windows systems (see this thread:
# http://mail.python.org/pipermail/python-list/2001-October/109973.html)
# These constants should be present as long as poll is available
@unittest.skipUnless(hasattr(select, 'poll'), 'select.poll required')
def test_readwrite(self):
# Check that correct methods are called by readwrite()
attributes = ('read', 'expt', 'write', 'closed', 'error_handled')
expected = (
(select.POLLIN, 'read'),
(select.POLLPRI, 'expt'),
(select.POLLOUT, 'write'),
(select.POLLERR, 'closed'),
(select.POLLHUP, 'closed'),
(select.POLLNVAL, 'closed'),
)
class testobj:
def __init__(self):
self.read = False
self.write = False
self.closed = False
self.expt = False
self.error_handled = False
def handle_read_event(self):
self.read = True
def handle_write_event(self):
self.write = True
def handle_close(self):
self.closed = True
def handle_expt_event(self):
self.expt = True
def handle_error(self):
self.error_handled = True
for flag, expectedattr in expected:
tobj = testobj()
self.assertEqual(getattr(tobj, expectedattr), False)
asyncore.readwrite(tobj, flag)
# Only the attribute modified by the routine we expect to be
# called should be True.
for attr in attributes:
self.assertEqual(getattr(tobj, attr), attr==expectedattr)
# check that ExitNow exceptions in the object handler method
# bubbles all the way up through asyncore readwrite call
tr1 = exitingdummy()
self.assertRaises(asyncore.ExitNow, asyncore.readwrite, tr1, flag)
# check that an exception other than ExitNow in the object handler
# method causes the handle_error method to get called
tr2 = crashingdummy()
self.assertEqual(tr2.error_handled, False)
asyncore.readwrite(tr2, flag)
self.assertEqual(tr2.error_handled, True)
def test_closeall(self):
self.closeall_check(False)
def test_closeall_default(self):
self.closeall_check(True)
def closeall_check(self, usedefault):
# Check that close_all() closes everything in a given map
l = []
testmap = {}
for i in range(10):
c = dummychannel()
l.append(c)
self.assertEqual(c.socket.closed, False)
testmap[i] = c
if usedefault:
socketmap = asyncore.socket_map
try:
asyncore.socket_map = testmap
asyncore.close_all()
finally:
testmap, asyncore.socket_map = asyncore.socket_map, socketmap
else:
asyncore.close_all(testmap)
self.assertEqual(len(testmap), 0)
for c in l:
self.assertEqual(c.socket.closed, True)
def test_compact_traceback(self):
try:
raise Exception("I don't like spam!")
except:
real_t, real_v, real_tb = sys.exc_info()
r = asyncore.compact_traceback()
else:
self.fail("Expected exception")
(f, function, line), t, v, info = r
self.assertEqual(os.path.split(f)[-1], 'test_asyncore.py')
self.assertEqual(function, 'test_compact_traceback')
self.assertEqual(t, real_t)
self.assertEqual(v, real_v)
self.assertEqual(info, '[%s|%s|%s]' % (f, function, line))
class DispatcherTests(unittest.TestCase):
def setUp(self):
pass
def tearDown(self):
asyncore.close_all()
def test_basic(self):
d = asyncore.dispatcher()
self.assertEqual(d.readable(), True)
self.assertEqual(d.writable(), True)
def test_repr(self):
d = asyncore.dispatcher()
self.assertEqual(repr(d), '<asyncore.dispatcher at %#x>' % id(d))
def test_log(self):
d = asyncore.dispatcher()
# capture output of dispatcher.log() (to stderr)
l1 = "Lovely spam! Wonderful spam!"
l2 = "I don't like spam!"
with support.captured_stderr() as stderr:
d.log(l1)
d.log(l2)
lines = stderr.getvalue().splitlines()
self.assertEqual(lines, ['log: %s' % l1, 'log: %s' % l2])
def test_log_info(self):
d = asyncore.dispatcher()
# capture output of dispatcher.log_info() (to stdout via print)
l1 = "Have you got anything without spam?"
l2 = "Why can't she have egg bacon spam and sausage?"
l3 = "THAT'S got spam in it!"
with support.captured_stdout() as stdout:
d.log_info(l1, 'EGGS')
d.log_info(l2)
d.log_info(l3, 'SPAM')
lines = stdout.getvalue().splitlines()
expected = ['EGGS: %s' % l1, 'info: %s' % l2, 'SPAM: %s' % l3]
self.assertEqual(lines, expected)
def test_unhandled(self):
d = asyncore.dispatcher()
d.ignore_log_types = ()
# capture output of dispatcher.log_info() (to stdout via print)
with support.captured_stdout() as stdout:
d.handle_expt()
d.handle_read()
d.handle_write()
d.handle_connect()
lines = stdout.getvalue().splitlines()
expected = ['warning: unhandled incoming priority event',
'warning: unhandled read event',
'warning: unhandled write event',
'warning: unhandled connect event']
self.assertEqual(lines, expected)
def test_strerror(self):
# refers to bug #8573
err = asyncore._strerror(errno.EPERM)
if hasattr(os, 'strerror'):
self.assertEqual(err, os.strerror(errno.EPERM))
err = asyncore._strerror(-1)
self.assertTrue(err != "")
class dispatcherwithsend_noread(asyncore.dispatcher_with_send):
def readable(self):
return False
def handle_connect(self):
pass
class DispatcherWithSendTests(unittest.TestCase):
def setUp(self):
pass
def tearDown(self):
asyncore.close_all()
@support.reap_threads
def test_send(self):
evt = threading.Event()
sock = socket.socket()
sock.settimeout(3)
port = support.bind_port(sock)
cap = BytesIO()
args = (evt, cap, sock)
t = threading.Thread(target=capture_server, args=args)
t.start()
try:
# wait a little longer for the server to initialize (it sometimes
# refuses connections on slow machines without this wait)
time.sleep(0.2)
data = b"Suppose there isn't a 16-ton weight?"
d = dispatcherwithsend_noread()
d.create_socket()
d.connect((support.HOST, port))
# give time for socket to connect
time.sleep(0.1)
d.send(data)
d.send(data)
d.send(b'\n')
n = 1000
while d.out_buffer and n > 0:
asyncore.poll()
n -= 1
evt.wait()
self.assertEqual(cap.getvalue(), data*2)
finally:
support.join_thread(t)
@unittest.skipUnless(hasattr(asyncore, 'file_wrapper'),
'asyncore.file_wrapper required')
class FileWrapperTest(unittest.TestCase):
def setUp(self):
self.d = b"It's not dead, it's sleeping!"
with open(support.TESTFN, 'wb') as file:
file.write(self.d)
def tearDown(self):
support.unlink(support.TESTFN)
def test_recv(self):
fd = os.open(support.TESTFN, os.O_RDONLY)
w = asyncore.file_wrapper(fd)
os.close(fd)
self.assertNotEqual(w.fd, fd)
self.assertNotEqual(w.fileno(), fd)
self.assertEqual(w.recv(13), b"It's not dead")
self.assertEqual(w.read(6), b", it's")
w.close()
self.assertRaises(OSError, w.read, 1)
def test_send(self):
d1 = b"Come again?"
d2 = b"I want to buy some cheese."
fd = os.open(support.TESTFN, os.O_WRONLY | os.O_APPEND)
w = asyncore.file_wrapper(fd)
os.close(fd)
w.write(d1)
w.send(d2)
w.close()
with open(support.TESTFN, 'rb') as file:
self.assertEqual(file.read(), self.d + d1 + d2)
@unittest.skipUnless(hasattr(asyncore, 'file_dispatcher'),
'asyncore.file_dispatcher required')
def test_dispatcher(self):
fd = os.open(support.TESTFN, os.O_RDONLY)
data = []
class FileDispatcher(asyncore.file_dispatcher):
def handle_read(self):
data.append(self.recv(29))
s = FileDispatcher(fd)
os.close(fd)
asyncore.loop(timeout=0.01, use_poll=True, count=2)
self.assertEqual(b"".join(data), self.d)
def test_resource_warning(self):
# Issue #11453
fd = os.open(support.TESTFN, os.O_RDONLY)
f = asyncore.file_wrapper(fd)
os.close(fd)
with support.check_warnings(('', ResourceWarning)):
f = None
support.gc_collect()
def test_close_twice(self):
fd = os.open(support.TESTFN, os.O_RDONLY)
f = asyncore.file_wrapper(fd)
os.close(fd)
os.close(f.fd) # file_wrapper dupped fd
with self.assertRaises(OSError):
f.close()
self.assertEqual(f.fd, -1)
# calling close twice should not fail
f.close()
class BaseTestHandler(asyncore.dispatcher):
def __init__(self, sock=None):
asyncore.dispatcher.__init__(self, sock)
self.flag = False
def handle_accept(self):
raise Exception("handle_accept not supposed to be called")
def handle_accepted(self):
raise Exception("handle_accepted not supposed to be called")
def handle_connect(self):
raise Exception("handle_connect not supposed to be called")
def handle_expt(self):
raise Exception("handle_expt not supposed to be called")
def handle_close(self):
raise Exception("handle_close not supposed to be called")
def handle_error(self):
raise
class BaseServer(asyncore.dispatcher):
"""A server which listens on an address and dispatches the
connection to a handler.
"""
def __init__(self, family, addr, handler=BaseTestHandler):
asyncore.dispatcher.__init__(self)
self.create_socket(family)
self.set_reuse_addr()
bind_af_aware(self.socket, addr)
self.listen(5)
self.handler = handler
@property
def address(self):
return self.socket.getsockname()
def handle_accepted(self, sock, addr):
self.handler(sock)
def handle_error(self):
raise
class BaseClient(BaseTestHandler):
def __init__(self, family, address):
BaseTestHandler.__init__(self)
self.create_socket(family)
self.connect(address)
def handle_connect(self):
pass
class BaseTestAPI:
def tearDown(self):
asyncore.close_all(ignore_all=True)
def loop_waiting_for_flag(self, instance, timeout=5):
timeout = float(timeout) / 100
count = 100
while asyncore.socket_map and count > 0:
asyncore.loop(timeout=0.01, count=1, use_poll=self.use_poll)
if instance.flag:
return
count -= 1
time.sleep(timeout)
self.fail("flag not set")
def test_handle_connect(self):
# make sure handle_connect is called on connect()
class TestClient(BaseClient):
def handle_connect(self):
self.flag = True
server = BaseServer(self.family, self.addr)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_handle_accept(self):
# make sure handle_accept() is called when a client connects
class TestListener(BaseTestHandler):
def __init__(self, family, addr):
BaseTestHandler.__init__(self)
self.create_socket(family)
bind_af_aware(self.socket, addr)
self.listen(5)
self.address = self.socket.getsockname()
def handle_accept(self):
self.flag = True
server = TestListener(self.family, self.addr)
client = BaseClient(self.family, server.address)
self.loop_waiting_for_flag(server)
def test_handle_accepted(self):
# make sure handle_accepted() is called when a client connects
class TestListener(BaseTestHandler):
def __init__(self, family, addr):
BaseTestHandler.__init__(self)
self.create_socket(family)
bind_af_aware(self.socket, addr)
self.listen(5)
self.address = self.socket.getsockname()
def handle_accept(self):
asyncore.dispatcher.handle_accept(self)
def handle_accepted(self, sock, addr):
sock.close()
self.flag = True
server = TestListener(self.family, self.addr)
client = BaseClient(self.family, server.address)
self.loop_waiting_for_flag(server)
def test_handle_read(self):
# make sure handle_read is called on data received
class TestClient(BaseClient):
def handle_read(self):
self.flag = True
class TestHandler(BaseTestHandler):
def __init__(self, conn):
BaseTestHandler.__init__(self, conn)
self.send(b'x' * 1024)
server = BaseServer(self.family, self.addr, TestHandler)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_handle_write(self):
# make sure handle_write is called
class TestClient(BaseClient):
def handle_write(self):
self.flag = True
server = BaseServer(self.family, self.addr)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_handle_close(self):
# make sure handle_close is called when the other end closes
# the connection
class TestClient(BaseClient):
def handle_read(self):
# in order to make handle_close be called we are supposed
# to make at least one recv() call
self.recv(1024)
def handle_close(self):
self.flag = True
self.close()
class TestHandler(BaseTestHandler):
def __init__(self, conn):
BaseTestHandler.__init__(self, conn)
self.close()
server = BaseServer(self.family, self.addr, TestHandler)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_handle_close_after_conn_broken(self):
# Check that ECONNRESET/EPIPE is correctly handled (issues #5661 and
# #11265).
data = b'\0' * 128
class TestClient(BaseClient):
def handle_write(self):
self.send(data)
def handle_close(self):
self.flag = True
self.close()
def handle_expt(self):
self.flag = True
self.close()
class TestHandler(BaseTestHandler):
def handle_read(self):
self.recv(len(data))
self.close()
def writable(self):
return False
server = BaseServer(self.family, self.addr, TestHandler)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
@unittest.skipIf(sys.platform.startswith("sunos"),
"OOB support is broken on Solaris")
def test_handle_expt(self):
# Make sure handle_expt is called on OOB data received.
# Note: this might fail on some platforms as OOB data is
# tenuously supported and rarely used.
if HAS_UNIX_SOCKETS and self.family == socket.AF_UNIX:
self.skipTest("Not applicable to AF_UNIX sockets.")
if sys.platform == "darwin" and self.use_poll:
self.skipTest("poll may fail on macOS; see issue #28087")
class TestClient(BaseClient):
def handle_expt(self):
self.socket.recv(1024, socket.MSG_OOB)
self.flag = True
class TestHandler(BaseTestHandler):
def __init__(self, conn):
BaseTestHandler.__init__(self, conn)
self.socket.send(bytes(chr(244), 'latin-1'), socket.MSG_OOB)
server = BaseServer(self.family, self.addr, TestHandler)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_handle_error(self):
class TestClient(BaseClient):
def handle_write(self):
1.0 / 0
def handle_error(self):
self.flag = True
try:
raise
except ZeroDivisionError:
pass
else:
raise Exception("exception not raised")
server = BaseServer(self.family, self.addr)
client = TestClient(self.family, server.address)
self.loop_waiting_for_flag(client)
def test_connection_attributes(self):
server = BaseServer(self.family, self.addr)
client = BaseClient(self.family, server.address)
# we start disconnected
self.assertFalse(server.connected)
self.assertTrue(server.accepting)
# this can't be taken for granted across all platforms
#self.assertFalse(client.connected)
self.assertFalse(client.accepting)
# execute some loops so that client connects to server
asyncore.loop(timeout=0.01, use_poll=self.use_poll, count=100)
self.assertFalse(server.connected)
self.assertTrue(server.accepting)
self.assertTrue(client.connected)
self.assertFalse(client.accepting)
# disconnect the client
client.close()
self.assertFalse(server.connected)
self.assertTrue(server.accepting)
self.assertFalse(client.connected)
self.assertFalse(client.accepting)
# stop serving
server.close()
self.assertFalse(server.connected)
self.assertFalse(server.accepting)
def test_create_socket(self):
s = asyncore.dispatcher()
s.create_socket(self.family)
self.assertEqual(s.socket.type, socket.SOCK_STREAM)
self.assertEqual(s.socket.family, self.family)
self.assertEqual(s.socket.gettimeout(), 0)
self.assertFalse(s.socket.get_inheritable())
def test_bind(self):
if HAS_UNIX_SOCKETS and self.family == socket.AF_UNIX:
self.skipTest("Not applicable to AF_UNIX sockets.")
s1 = asyncore.dispatcher()
s1.create_socket(self.family)
s1.bind(self.addr)
s1.listen(5)
port = s1.socket.getsockname()[1]
s2 = asyncore.dispatcher()
s2.create_socket(self.family)
# EADDRINUSE indicates the socket was correctly bound
self.assertRaises(OSError, s2.bind, (self.addr[0], port))
def test_set_reuse_addr(self):
if HAS_UNIX_SOCKETS and self.family == socket.AF_UNIX:
self.skipTest("Not applicable to AF_UNIX sockets.")
with socket.socket(self.family) as sock:
try:
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
except OSError:
unittest.skip("SO_REUSEADDR not supported on this platform")
else:
# if SO_REUSEADDR succeeded for sock we expect asyncore
# to do the same
s = asyncore.dispatcher(socket.socket(self.family))
self.assertFalse(s.socket.getsockopt(socket.SOL_SOCKET,
socket.SO_REUSEADDR))
s.socket.close()
s.create_socket(self.family)
s.set_reuse_addr()
self.assertTrue(s.socket.getsockopt(socket.SOL_SOCKET,
socket.SO_REUSEADDR))
@support.reap_threads
def test_quick_connect(self):
# see: http://bugs.python.org/issue10340
if self.family not in (socket.AF_INET, getattr(socket, "AF_INET6", object())):
self.skipTest("test specific to AF_INET and AF_INET6")
server = BaseServer(self.family, self.addr)
# run the thread 500 ms: the socket should be connected in 200 ms
t = threading.Thread(target=lambda: asyncore.loop(timeout=0.1,
count=5))
t.start()
try:
with socket.socket(self.family, socket.SOCK_STREAM) as s:
s.settimeout(.2)
s.setsockopt(socket.SOL_SOCKET, socket.SO_LINGER,
struct.pack('ii', 1, 0))
try:
s.connect(server.address)
except OSError:
pass
finally:
support.join_thread(t)
class TestAPI_UseIPv4Sockets(BaseTestAPI):
family = socket.AF_INET
addr = (support.HOST, 0)
@unittest.skipUnless(support.IPV6_ENABLED, 'IPv6 support required')
class TestAPI_UseIPv6Sockets(BaseTestAPI):
family = socket.AF_INET6
addr = (support.HOSTv6, 0)
@unittest.skipUnless(HAS_UNIX_SOCKETS, 'Unix sockets required')
class TestAPI_UseUnixSockets(BaseTestAPI):
if HAS_UNIX_SOCKETS:
family = socket.AF_UNIX
addr = support.TESTFN
def tearDown(self):
support.unlink(self.addr)
BaseTestAPI.tearDown(self)
class TestAPI_UseIPv4Select(TestAPI_UseIPv4Sockets, unittest.TestCase):
use_poll = False
@unittest.skipUnless(hasattr(select, 'poll'), 'select.poll required')
class TestAPI_UseIPv4Poll(TestAPI_UseIPv4Sockets, unittest.TestCase):
use_poll = True
class TestAPI_UseIPv6Select(TestAPI_UseIPv6Sockets, unittest.TestCase):
use_poll = False
@unittest.skipUnless(hasattr(select, 'poll'), 'select.poll required')
class TestAPI_UseIPv6Poll(TestAPI_UseIPv6Sockets, unittest.TestCase):
use_poll = True
class TestAPI_UseUnixSocketsSelect(TestAPI_UseUnixSockets, unittest.TestCase):
use_poll = False
@unittest.skipUnless(hasattr(select, 'poll'), 'select.poll required')
class TestAPI_UseUnixSocketsPoll(TestAPI_UseUnixSockets, unittest.TestCase):
use_poll = True
if __name__ == "__main__":
unittest.main()
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