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import socket
import selectors
import telnetlib
import threading
import contextlib
from test import support
from test.support import socket_helper
import unittest
HOST = socket_helper.HOST
def server(evt, serv):
serv.listen()
evt.set()
try:
conn, addr = serv.accept()
conn.close()
except socket.timeout:
pass
finally:
serv.close()
class GeneralTests(unittest.TestCase):
def setUp(self):
self.evt = threading.Event()
self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.sock.settimeout(60) # Safety net. Look issue 11812
self.port = socket_helper.bind_port(self.sock)
self.thread = threading.Thread(target=server, args=(self.evt,self.sock))
self.thread.setDaemon(True)
self.thread.start()
self.evt.wait()
def tearDown(self):
self.thread.join()
del self.thread # Clear out any dangling Thread objects.
def testBasic(self):
# connects
telnet = telnetlib.Telnet(HOST, self.port)
telnet.sock.close()
def testContextManager(self):
with telnetlib.Telnet(HOST, self.port) as tn:
self.assertIsNotNone(tn.get_socket())
self.assertIsNone(tn.get_socket())
def testTimeoutDefault(self):
self.assertTrue(socket.getdefaulttimeout() is None)
socket.setdefaulttimeout(30)
try:
telnet = telnetlib.Telnet(HOST, self.port)
finally:
socket.setdefaulttimeout(None)
self.assertEqual(telnet.sock.gettimeout(), 30)
telnet.sock.close()
def testTimeoutNone(self):
# None, having other default
self.assertTrue(socket.getdefaulttimeout() is None)
socket.setdefaulttimeout(30)
try:
telnet = telnetlib.Telnet(HOST, self.port, timeout=None)
finally:
socket.setdefaulttimeout(None)
self.assertTrue(telnet.sock.gettimeout() is None)
telnet.sock.close()
def testTimeoutValue(self):
telnet = telnetlib.Telnet(HOST, self.port, timeout=30)
self.assertEqual(telnet.sock.gettimeout(), 30)
telnet.sock.close()
def testTimeoutOpen(self):
telnet = telnetlib.Telnet()
telnet.open(HOST, self.port, timeout=30)
self.assertEqual(telnet.sock.gettimeout(), 30)
telnet.sock.close()
def testGetters(self):
# Test telnet getter methods
telnet = telnetlib.Telnet(HOST, self.port, timeout=30)
t_sock = telnet.sock
self.assertEqual(telnet.get_socket(), t_sock)
self.assertEqual(telnet.fileno(), t_sock.fileno())
telnet.sock.close()
class SocketStub(object):
''' a socket proxy that re-defines sendall() '''
def __init__(self, reads=()):
self.reads = list(reads) # Intentionally make a copy.
self.writes = []
self.block = False
def sendall(self, data):
self.writes.append(data)
def recv(self, size):
out = b''
while self.reads and len(out) < size:
out += self.reads.pop(0)
if len(out) > size:
self.reads.insert(0, out[size:])
out = out[:size]
return out
class TelnetAlike(telnetlib.Telnet):
def fileno(self):
raise NotImplementedError()
def close(self): pass
def sock_avail(self):
return (not self.sock.block)
def msg(self, msg, *args):
with support.captured_stdout() as out:
telnetlib.Telnet.msg(self, msg, *args)
self._messages += out.getvalue()
return
class MockSelector(selectors.BaseSelector):
def __init__(self):
self.keys = {}
@property
def resolution(self):
return 1e-3
def register(self, fileobj, events, data=None):
key = selectors.SelectorKey(fileobj, 0, events, data)
self.keys[fileobj] = key
return key
def unregister(self, fileobj):
return self.keys.pop(fileobj)
def select(self, timeout=None):
block = False
for fileobj in self.keys:
if isinstance(fileobj, TelnetAlike):
block = fileobj.sock.block
break
if block:
return []
else:
return [(key, key.events) for key in self.keys.values()]
def get_map(self):
return self.keys
@contextlib.contextmanager
def test_socket(reads):
def new_conn(*ignored):
return SocketStub(reads)
try:
old_conn = socket.create_connection
socket.create_connection = new_conn
yield None
finally:
socket.create_connection = old_conn
return
def test_telnet(reads=(), cls=TelnetAlike):
''' return a telnetlib.Telnet object that uses a SocketStub with
reads queued up to be read '''
for x in reads:
assert type(x) is bytes, x
with test_socket(reads):
telnet = cls('dummy', 0)
telnet._messages = '' # debuglevel output
return telnet
class ExpectAndReadTestCase(unittest.TestCase):
def setUp(self):
self.old_selector = telnetlib._TelnetSelector
telnetlib._TelnetSelector = MockSelector
def tearDown(self):
telnetlib._TelnetSelector = self.old_selector
class ReadTests(ExpectAndReadTestCase):
def test_read_until(self):
"""
read_until(expected, timeout=None)
test the blocking version of read_util
"""
want = [b'xxxmatchyyy']
telnet = test_telnet(want)
data = telnet.read_until(b'match')
self.assertEqual(data, b'xxxmatch', msg=(telnet.cookedq, telnet.rawq, telnet.sock.reads))
reads = [b'x' * 50, b'match', b'y' * 50]
expect = b''.join(reads[:-1])
telnet = test_telnet(reads)
data = telnet.read_until(b'match')
self.assertEqual(data, expect)
def test_read_all(self):
"""
read_all()
Read all data until EOF; may block.
"""
reads = [b'x' * 500, b'y' * 500, b'z' * 500]
expect = b''.join(reads)
telnet = test_telnet(reads)
data = telnet.read_all()
self.assertEqual(data, expect)
return
def test_read_some(self):
"""
read_some()
Read at least one byte or EOF; may block.
"""
# test 'at least one byte'
telnet = test_telnet([b'x' * 500])
data = telnet.read_some()
self.assertTrue(len(data) >= 1)
# test EOF
telnet = test_telnet()
data = telnet.read_some()
self.assertEqual(b'', data)
def _read_eager(self, func_name):
"""
read_*_eager()
Read all data available already queued or on the socket,
without blocking.
"""
want = b'x' * 100
telnet = test_telnet([want])
func = getattr(telnet, func_name)
telnet.sock.block = True
self.assertEqual(b'', func())
telnet.sock.block = False
data = b''
while True:
try:
data += func()
except EOFError:
break
self.assertEqual(data, want)
def test_read_eager(self):
# read_eager and read_very_eager make the same guarantees
# (they behave differently but we only test the guarantees)
self._read_eager('read_eager')
self._read_eager('read_very_eager')
# NB -- we need to test the IAC block which is mentioned in the
# docstring but not in the module docs
def read_very_lazy(self):
want = b'x' * 100
telnet = test_telnet([want])
self.assertEqual(b'', telnet.read_very_lazy())
while telnet.sock.reads:
telnet.fill_rawq()
data = telnet.read_very_lazy()
self.assertEqual(want, data)
self.assertRaises(EOFError, telnet.read_very_lazy)
def test_read_lazy(self):
want = b'x' * 100
telnet = test_telnet([want])
self.assertEqual(b'', telnet.read_lazy())
data = b''
while True:
try:
read_data = telnet.read_lazy()
data += read_data
if not read_data:
telnet.fill_rawq()
except EOFError:
break
self.assertTrue(want.startswith(data))
self.assertEqual(data, want)
class nego_collector(object):
def __init__(self, sb_getter=None):
self.seen = b''
self.sb_getter = sb_getter
self.sb_seen = b''
def do_nego(self, sock, cmd, opt):
self.seen += cmd + opt
if cmd == tl.SE and self.sb_getter:
sb_data = self.sb_getter()
self.sb_seen += sb_data
tl = telnetlib
class WriteTests(unittest.TestCase):
'''The only thing that write does is replace each tl.IAC for
tl.IAC+tl.IAC'''
def test_write(self):
data_sample = [b'data sample without IAC',
b'data sample with' + tl.IAC + b' one IAC',
b'a few' + tl.IAC + tl.IAC + b' iacs' + tl.IAC,
tl.IAC,
b'']
for data in data_sample:
telnet = test_telnet()
telnet.write(data)
written = b''.join(telnet.sock.writes)
self.assertEqual(data.replace(tl.IAC,tl.IAC+tl.IAC), written)
class OptionTests(unittest.TestCase):
# RFC 854 commands
cmds = [tl.AO, tl.AYT, tl.BRK, tl.EC, tl.EL, tl.GA, tl.IP, tl.NOP]
def _test_command(self, data):
""" helper for testing IAC + cmd """
telnet = test_telnet(data)
data_len = len(b''.join(data))
nego = nego_collector()
telnet.set_option_negotiation_callback(nego.do_nego)
txt = telnet.read_all()
cmd = nego.seen
self.assertTrue(len(cmd) > 0) # we expect at least one command
self.assertIn(cmd[:1], self.cmds)
self.assertEqual(cmd[1:2], tl.NOOPT)
self.assertEqual(data_len, len(txt + cmd))
nego.sb_getter = None # break the nego => telnet cycle
def test_IAC_commands(self):
for cmd in self.cmds:
self._test_command([tl.IAC, cmd])
self._test_command([b'x' * 100, tl.IAC, cmd, b'y'*100])
self._test_command([b'x' * 10, tl.IAC, cmd, b'y'*10])
# all at once
self._test_command([tl.IAC + cmd for (cmd) in self.cmds])
def test_SB_commands(self):
# RFC 855, subnegotiations portion
send = [tl.IAC + tl.SB + tl.IAC + tl.SE,
tl.IAC + tl.SB + tl.IAC + tl.IAC + tl.IAC + tl.SE,
tl.IAC + tl.SB + tl.IAC + tl.IAC + b'aa' + tl.IAC + tl.SE,
tl.IAC + tl.SB + b'bb' + tl.IAC + tl.IAC + tl.IAC + tl.SE,
tl.IAC + tl.SB + b'cc' + tl.IAC + tl.IAC + b'dd' + tl.IAC + tl.SE,
]
telnet = test_telnet(send)
nego = nego_collector(telnet.read_sb_data)
telnet.set_option_negotiation_callback(nego.do_nego)
txt = telnet.read_all()
self.assertEqual(txt, b'')
want_sb_data = tl.IAC + tl.IAC + b'aabb' + tl.IAC + b'cc' + tl.IAC + b'dd'
self.assertEqual(nego.sb_seen, want_sb_data)
self.assertEqual(b'', telnet.read_sb_data())
nego.sb_getter = None # break the nego => telnet cycle
def test_debuglevel_reads(self):
# test all the various places that self.msg(...) is called
given_a_expect_b = [
# Telnet.fill_rawq
(b'a', ": recv b''\n"),
# Telnet.process_rawq
(tl.IAC + bytes([88]), ": IAC 88 not recognized\n"),
(tl.IAC + tl.DO + bytes([1]), ": IAC DO 1\n"),
(tl.IAC + tl.DONT + bytes([1]), ": IAC DONT 1\n"),
(tl.IAC + tl.WILL + bytes([1]), ": IAC WILL 1\n"),
(tl.IAC + tl.WONT + bytes([1]), ": IAC WONT 1\n"),
]
for a, b in given_a_expect_b:
telnet = test_telnet([a])
telnet.set_debuglevel(1)
txt = telnet.read_all()
self.assertIn(b, telnet._messages)
return
def test_debuglevel_write(self):
telnet = test_telnet()
telnet.set_debuglevel(1)
telnet.write(b'xxx')
expected = "send b'xxx'\n"
self.assertIn(expected, telnet._messages)
def test_debug_accepts_str_port(self):
# Issue 10695
with test_socket([]):
telnet = TelnetAlike('dummy', '0')
telnet._messages = ''
telnet.set_debuglevel(1)
telnet.msg('test')
self.assertRegex(telnet._messages, r'0.*test')
class ExpectTests(ExpectAndReadTestCase):
def test_expect(self):
"""
expect(expected, [timeout])
Read until the expected string has been seen, or a timeout is
hit (default is no timeout); may block.
"""
want = [b'x' * 10, b'match', b'y' * 10]
telnet = test_telnet(want)
(_,_,data) = telnet.expect([b'match'])
self.assertEqual(data, b''.join(want[:-1]))
if __name__ == '__main__':
unittest.main()