Lib.test.test_socketserver.py Maven / Gradle / Ivy
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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""
Test suite for SocketServer.py.
"""
import contextlib
import imp
import os
import select
import signal
import socket
import tempfile
import unittest
import SocketServer
import test.test_support
from test.test_support import reap_children, reap_threads, verbose
try:
import threading
except ImportError:
threading = None
test.test_support.requires("network")
TEST_STR = "hello world\n"
HOST = test.test_support.HOST
HAVE_UNIX_SOCKETS = hasattr(socket, "AF_UNIX")
HAVE_FORKING = hasattr(os, "fork") and os.name != "os2"
def signal_alarm(n):
"""Call signal.alarm when it exists (i.e. not on Windows)."""
if hasattr(signal, 'alarm') and not test.test_support.is_jython:
signal.alarm(n)
select_fn = select.select
if test.test_support.is_jython:
select_fn = select.cpython_compatible_select
def receive(sock, n, timeout=20):
r, w, x = select_fn([sock], [], [], timeout)
if sock in r:
return sock.recv(n)
else:
raise RuntimeError, "timed out on %r" % (sock,)
if HAVE_UNIX_SOCKETS:
class ForkingUnixStreamServer(SocketServer.ForkingMixIn,
SocketServer.UnixStreamServer):
pass
class ForkingUnixDatagramServer(SocketServer.ForkingMixIn,
SocketServer.UnixDatagramServer):
pass
@contextlib.contextmanager
def simple_subprocess(testcase):
pid = os.fork()
if pid == 0:
# Don't throw an exception; it would be caught by the test harness.
os._exit(72)
yield None
pid2, status = os.waitpid(pid, 0)
testcase.assertEqual(pid2, pid)
testcase.assertEqual(72 << 8, status)
@unittest.skipUnless(threading, 'Threading required for this test.')
class SocketServerTest(unittest.TestCase):
"""Test all socket servers."""
def setUp(self):
signal_alarm(20) # Kill deadlocks after 20 seconds.
self.port_seed = 0
self.test_files = []
def tearDown(self):
signal_alarm(0) # Didn't deadlock.
reap_children()
for fn in self.test_files:
try:
os.remove(fn)
except os.error:
pass
self.test_files[:] = []
def pickaddr(self, proto):
if proto == socket.AF_INET:
return (HOST, 0)
else:
# XXX: We need a way to tell AF_UNIX to pick its own name
# like AF_INET provides port==0.
dir = None
if os.name == 'os2':
dir = '\socket'
fn = tempfile.mktemp(prefix='unix_socket.', dir=dir)
if os.name == 'os2':
# AF_UNIX socket names on OS/2 require a specific prefix
# which can't include a drive letter and must also use
# backslashes as directory separators
if fn[1] == ':':
fn = fn[2:]
if fn[0] in (os.sep, os.altsep):
fn = fn[1:]
if os.sep == '/':
fn = fn.replace(os.sep, os.altsep)
else:
fn = fn.replace(os.altsep, os.sep)
self.test_files.append(fn)
return fn
def make_server(self, addr, svrcls, hdlrbase):
class MyServer(svrcls):
def handle_error(self, request, client_address):
self.close_request(request)
self.server_close()
raise
class MyHandler(hdlrbase):
def handle(self):
line = self.rfile.readline()
self.wfile.write(line)
if verbose: print "creating server"
server = MyServer(addr, MyHandler)
self.assertEqual(server.server_address, server.socket.getsockname())
return server
@unittest.skipUnless(threading, 'Threading required for this test.')
@reap_threads
def run_server(self, svrcls, hdlrbase, testfunc):
server = self.make_server(self.pickaddr(svrcls.address_family),
svrcls, hdlrbase)
# We had the OS pick a port, so pull the real address out of
# the server.
addr = server.server_address
if verbose:
print "server created"
print "ADDR =", addr
print "CLASS =", svrcls
t = threading.Thread(
name='%s serving' % svrcls,
target=server.serve_forever,
# Short poll interval to make the test finish quickly.
# Time between requests is short enough that we won't wake
# up spuriously too many times.
kwargs={'poll_interval':0.01})
t.daemon = True # In case this function raises.
t.start()
if verbose: print "server running"
for i in range(3):
if verbose: print "test client", i
testfunc(svrcls.address_family, addr)
if verbose: print "waiting for server"
server.shutdown()
t.join()
if verbose: print "done"
def stream_examine(self, proto, addr):
s = socket.socket(proto, socket.SOCK_STREAM)
s.connect(addr)
s.sendall(TEST_STR)
buf = data = receive(s, 100)
while data and '\n' not in buf:
data = receive(s, 100)
buf += data
self.assertEqual(buf, TEST_STR)
s.close()
def dgram_examine(self, proto, addr):
s = socket.socket(proto, socket.SOCK_DGRAM)
s.sendto(TEST_STR, addr)
buf = data = receive(s, 100)
while data and '\n' not in buf:
data = receive(s, 100)
buf += data
self.assertEqual(buf, TEST_STR)
s.close()
def test_TCPServer(self):
self.run_server(SocketServer.TCPServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
def test_ThreadingTCPServer(self):
self.run_server(SocketServer.ThreadingTCPServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
if HAVE_FORKING:
def test_ForkingTCPServer(self):
with simple_subprocess(self):
self.run_server(SocketServer.ForkingTCPServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
if HAVE_UNIX_SOCKETS:
def test_UnixStreamServer(self):
self.run_server(SocketServer.UnixStreamServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
def test_ThreadingUnixStreamServer(self):
self.run_server(SocketServer.ThreadingUnixStreamServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
if HAVE_FORKING:
def test_ForkingUnixStreamServer(self):
with simple_subprocess(self):
self.run_server(ForkingUnixStreamServer,
SocketServer.StreamRequestHandler,
self.stream_examine)
def test_UDPServer(self):
self.run_server(SocketServer.UDPServer,
SocketServer.DatagramRequestHandler,
self.dgram_examine)
def test_ThreadingUDPServer(self):
self.run_server(SocketServer.ThreadingUDPServer,
SocketServer.DatagramRequestHandler,
self.dgram_examine)
if HAVE_FORKING:
def test_ForkingUDPServer(self):
with simple_subprocess(self):
self.run_server(SocketServer.ForkingUDPServer,
SocketServer.DatagramRequestHandler,
self.dgram_examine)
# Alas, on Linux (at least) recvfrom() doesn't return a meaningful
# client address so this cannot work:
# if HAVE_UNIX_SOCKETS:
# def test_UnixDatagramServer(self):
# self.run_server(SocketServer.UnixDatagramServer,
# SocketServer.DatagramRequestHandler,
# self.dgram_examine)
#
# def test_ThreadingUnixDatagramServer(self):
# self.run_server(SocketServer.ThreadingUnixDatagramServer,
# SocketServer.DatagramRequestHandler,
# self.dgram_examine)
#
# if HAVE_FORKING:
# def test_ForkingUnixDatagramServer(self):
# self.run_server(SocketServer.ForkingUnixDatagramServer,
# SocketServer.DatagramRequestHandler,
# self.dgram_examine)
@reap_threads
def test_shutdown(self):
# Issue #2302: shutdown() should always succeed in making an
# other thread leave serve_forever().
class MyServer(SocketServer.TCPServer):
pass
class MyHandler(SocketServer.StreamRequestHandler):
pass
threads = []
for i in range(20):
s = MyServer((HOST, 0), MyHandler)
t = threading.Thread(
name='MyServer serving',
target=s.serve_forever,
kwargs={'poll_interval':0.01})
t.daemon = True # In case this function raises.
threads.append((t, s))
for t, s in threads:
t.start()
s.shutdown()
for t, s in threads:
t.join()
def test_main():
if imp.lock_held():
# If the import lock is held, the threads will hang
raise unittest.SkipTest("can't run when import lock is held")
test.test_support.run_unittest(SocketServerTest)
if __name__ == "__main__":
test_main()
signal_alarm(3) # Shutdown shouldn't take more than 3 seconds.