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|
# Copyright (C) 2003-2009 Robey Pointer <robeypointer@gmail.com>
#
# This file is part of paramiko.
#
# Paramiko is free software; you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation; either version 2.1 of the License, or (at your option)
# any later version.
#
# Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with Paramiko; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
"""
Some unit tests for the ssh2 protocol in Transport.
"""
from __future__ import with_statement
from binascii import hexlify
from contextlib import contextmanager
import select
import socket
import time
import threading
import random
import unittest
from mock import Mock
from paramiko import (
AuthHandler,
ChannelException,
DSSKey,
Packetizer,
RSAKey,
SSHException,
AuthenticationException,
IncompatiblePeer,
SecurityOptions,
ServerInterface,
Transport,
)
from paramiko import AUTH_FAILED, AUTH_SUCCESSFUL
from paramiko import OPEN_SUCCEEDED, OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED
from paramiko.common import (
DEFAULT_MAX_PACKET_SIZE,
DEFAULT_WINDOW_SIZE,
MAX_WINDOW_SIZE,
MIN_PACKET_SIZE,
MIN_WINDOW_SIZE,
MSG_KEXINIT,
MSG_USERAUTH_SUCCESS,
cMSG_CHANNEL_WINDOW_ADJUST,
cMSG_UNIMPLEMENTED,
)
from paramiko.py3compat import bytes, byte_chr
from paramiko.message import Message
from .util import needs_builtin, _support, slow
from .loop import LoopSocket
LONG_BANNER = """\
Welcome to the super-fun-land BBS, where our MOTD is the primary thing we
provide. All rights reserved. Offer void in Tennessee. Stunt drivers were
used. Do not attempt at home. Some restrictions apply.
Happy birthday to Commie the cat!
Note: An SSH banner may eventually appear.
Maybe.
"""
class NullServer(ServerInterface):
paranoid_did_password = False
paranoid_did_public_key = False
paranoid_key = DSSKey.from_private_key_file(_support("test_dss.key"))
def __init__(self, allowed_keys=None):
self.allowed_keys = allowed_keys if allowed_keys is not None else []
def get_allowed_auths(self, username):
if username == "slowdive":
return "publickey,password"
return "publickey"
def check_auth_password(self, username, password):
if (username == "slowdive") and (password == "pygmalion"):
return AUTH_SUCCESSFUL
return AUTH_FAILED
def check_auth_publickey(self, username, key):
if key in self.allowed_keys:
return AUTH_SUCCESSFUL
return AUTH_FAILED
def check_channel_request(self, kind, chanid):
if kind == "bogus":
return OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED
return OPEN_SUCCEEDED
def check_channel_exec_request(self, channel, command):
if command != b"yes":
return False
return True
def check_channel_shell_request(self, channel):
return True
def check_global_request(self, kind, msg):
self._global_request = kind
# NOTE: for w/e reason, older impl of this returned False always, even
# tho that's only supposed to occur if the request cannot be served.
# For now, leaving that the default unless test supplies specific
# 'acceptable' request kind
return kind == "acceptable"
def check_channel_x11_request(
self,
channel,
single_connection,
auth_protocol,
auth_cookie,
screen_number,
):
self._x11_single_connection = single_connection
self._x11_auth_protocol = auth_protocol
self._x11_auth_cookie = auth_cookie
self._x11_screen_number = screen_number
return True
def check_port_forward_request(self, addr, port):
self._listen = socket.socket()
self._listen.bind(("127.0.0.1", 0))
self._listen.listen(1)
return self._listen.getsockname()[1]
def cancel_port_forward_request(self, addr, port):
self._listen.close()
self._listen = None
def check_channel_direct_tcpip_request(self, chanid, origin, destination):
self._tcpip_dest = destination
return OPEN_SUCCEEDED
class TransportTest(unittest.TestCase):
def setUp(self):
self.socks = LoopSocket()
self.sockc = LoopSocket()
self.sockc.link(self.socks)
self.tc = Transport(self.sockc)
self.ts = Transport(self.socks)
def tearDown(self):
self.tc.close()
self.ts.close()
self.socks.close()
self.sockc.close()
# TODO: unify with newer contextmanager
def setup_test_server(
self, client_options=None, server_options=None, connect_kwargs=None
):
host_key = RSAKey.from_private_key_file(_support("test_rsa.key"))
public_host_key = RSAKey(data=host_key.asbytes())
self.ts.add_server_key(host_key)
if client_options is not None:
client_options(self.tc.get_security_options())
if server_options is not None:
server_options(self.ts.get_security_options())
event = threading.Event()
self.server = NullServer()
self.assertTrue(not event.is_set())
self.ts.start_server(event, self.server)
if connect_kwargs is None:
connect_kwargs = dict(
hostkey=public_host_key,
username="slowdive",
password="pygmalion",
)
self.tc.connect(**connect_kwargs)
event.wait(1.0)
self.assertTrue(event.is_set())
self.assertTrue(self.ts.is_active())
def test_security_options(self):
o = self.tc.get_security_options()
self.assertEqual(type(o), SecurityOptions)
self.assertTrue(("aes256-cbc", "blowfish-cbc") != o.ciphers)
o.ciphers = ("aes256-cbc", "blowfish-cbc")
self.assertEqual(("aes256-cbc", "blowfish-cbc"), o.ciphers)
try:
o.ciphers = ("aes256-cbc", "made-up-cipher")
self.assertTrue(False)
except ValueError:
pass
try:
o.ciphers = 23
self.assertTrue(False)
except TypeError:
pass
def testb_security_options_reset(self):
o = self.tc.get_security_options()
# should not throw any exceptions
o.ciphers = o.ciphers
o.digests = o.digests
o.key_types = o.key_types
o.kex = o.kex
o.compression = o.compression
def test_compute_key(self):
self.tc.K = 123281095979686581523377256114209720774539068973101330872763622971399429481072519713536292772709507296759612401802191955568143056534122385270077606457721553469730659233569339356140085284052436697480759510519672848743794433460113118986816826624865291116513647975790797391795651716378444844877749505443714557929 # noqa
self.tc.H = b"\x0C\x83\x07\xCD\xE6\x85\x6F\xF3\x0B\xA9\x36\x84\xEB\x0F\x04\xC2\x52\x0E\x9E\xD3" # noqa
self.tc.session_id = self.tc.H
key = self.tc._compute_key("C", 32)
self.assertEqual(
b"207E66594CA87C44ECCBA3B3CD39FDDB378E6FDB0F97C54B2AA0CFBF900CD995", # noqa
hexlify(key).upper(),
)
def test_simple(self):
"""
verify that we can establish an ssh link with ourselves across the
loopback sockets. this is hardly "simple" but it's simpler than the
later tests. :)
"""
host_key = RSAKey.from_private_key_file(_support("test_rsa.key"))
public_host_key = RSAKey(data=host_key.asbytes())
self.ts.add_server_key(host_key)
event = threading.Event()
server = NullServer()
self.assertTrue(not event.is_set())
self.assertEqual(None, self.tc.get_username())
self.assertEqual(None, self.ts.get_username())
self.assertEqual(False, self.tc.is_authenticated())
self.assertEqual(False, self.ts.is_authenticated())
self.ts.start_server(event, server)
self.tc.connect(
hostkey=public_host_key, username="slowdive", password="pygmalion"
)
event.wait(1.0)
self.assertTrue(event.is_set())
self.assertTrue(self.ts.is_active())
self.assertEqual("slowdive", self.tc.get_username())
self.assertEqual("slowdive", self.ts.get_username())
self.assertEqual(True, self.tc.is_authenticated())
self.assertEqual(True, self.ts.is_authenticated())
def test_long_banner(self):
"""
verify that a long banner doesn't mess up the handshake.
"""
host_key = RSAKey.from_private_key_file(_support("test_rsa.key"))
public_host_key = RSAKey(data=host_key.asbytes())
self.ts.add_server_key(host_key)
event = threading.Event()
server = NullServer()
self.assertTrue(not event.is_set())
self.socks.send(LONG_BANNER)
self.ts.start_server(event, server)
self.tc.connect(
hostkey=public_host_key, username="slowdive", password="pygmalion"
)
event.wait(1.0)
self.assertTrue(event.is_set())
self.assertTrue(self.ts.is_active())
def test_special(self):
"""
verify that the client can demand odd handshake settings, and can
renegotiate keys in mid-stream.
"""
def force_algorithms(options):
options.ciphers = ("aes256-cbc",)
options.digests = ("hmac-md5-96",)
self.setup_test_server(client_options=force_algorithms)
self.assertEqual("aes256-cbc", self.tc.local_cipher)
self.assertEqual("aes256-cbc", self.tc.remote_cipher)
self.assertEqual(12, self.tc.packetizer.get_mac_size_out())
self.assertEqual(12, self.tc.packetizer.get_mac_size_in())
self.tc.send_ignore(1024)
self.tc.renegotiate_keys()
self.ts.send_ignore(1024)
@slow
def test_keepalive(self):
"""
verify that the keepalive will be sent.
"""
self.setup_test_server()
self.assertEqual(None, getattr(self.server, "_global_request", None))
self.tc.set_keepalive(1)
time.sleep(2)
self.assertEqual("keepalive@lag.net", self.server._global_request)
def test_exec_command(self):
"""
verify that exec_command() does something reasonable.
"""
self.setup_test_server()
chan = self.tc.open_session()
schan = self.ts.accept(1.0)
try:
chan.exec_command(
b"command contains \xfc and is not a valid UTF-8 string"
)
self.assertTrue(False)
except SSHException:
pass
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
schan.send("Hello there.\n")
schan.send_stderr("This is on stderr.\n")
schan.close()
f = chan.makefile()
self.assertEqual("Hello there.\n", f.readline())
self.assertEqual("", f.readline())
f = chan.makefile_stderr()
self.assertEqual("This is on stderr.\n", f.readline())
self.assertEqual("", f.readline())
# now try it with combined stdout/stderr
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
schan.send("Hello there.\n")
schan.send_stderr("This is on stderr.\n")
schan.close()
chan.set_combine_stderr(True)
f = chan.makefile()
self.assertEqual("Hello there.\n", f.readline())
self.assertEqual("This is on stderr.\n", f.readline())
self.assertEqual("", f.readline())
def test_channel_can_be_used_as_context_manager(self):
"""
verify that exec_command() does something reasonable.
"""
self.setup_test_server()
with self.tc.open_session() as chan:
with self.ts.accept(1.0) as schan:
chan.exec_command("yes")
schan.send("Hello there.\n")
schan.close()
f = chan.makefile()
self.assertEqual("Hello there.\n", f.readline())
self.assertEqual("", f.readline())
def test_invoke_shell(self):
"""
verify that invoke_shell() does something reasonable.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.invoke_shell()
schan = self.ts.accept(1.0)
chan.send("communist j. cat\n")
f = schan.makefile()
self.assertEqual("communist j. cat\n", f.readline())
chan.close()
self.assertEqual("", f.readline())
def test_channel_exception(self):
"""
verify that ChannelException is thrown for a bad open-channel request.
"""
self.setup_test_server()
try:
self.tc.open_channel("bogus")
self.fail("expected exception")
except ChannelException as e:
self.assertTrue(e.code == OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED)
def test_exit_status(self):
"""
verify that get_exit_status() works.
"""
self.setup_test_server()
chan = self.tc.open_session()
schan = self.ts.accept(1.0)
chan.exec_command("yes")
schan.send("Hello there.\n")
self.assertTrue(not chan.exit_status_ready())
# trigger an EOF
schan.shutdown_read()
schan.shutdown_write()
schan.send_exit_status(23)
schan.close()
f = chan.makefile()
self.assertEqual("Hello there.\n", f.readline())
self.assertEqual("", f.readline())
count = 0
while not chan.exit_status_ready():
time.sleep(0.1)
count += 1
if count > 50:
raise Exception("timeout")
self.assertEqual(23, chan.recv_exit_status())
chan.close()
def test_select(self):
"""
verify that select() on a channel works.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.invoke_shell()
schan = self.ts.accept(1.0)
# nothing should be ready
r, w, e = select.select([chan], [], [], 0.1)
self.assertEqual([], r)
self.assertEqual([], w)
self.assertEqual([], e)
schan.send("hello\n")
# something should be ready now (give it 1 second to appear)
for i in range(10):
r, w, e = select.select([chan], [], [], 0.1)
if chan in r:
break
time.sleep(0.1)
self.assertEqual([chan], r)
self.assertEqual([], w)
self.assertEqual([], e)
self.assertEqual(b"hello\n", chan.recv(6))
# and, should be dead again now
r, w, e = select.select([chan], [], [], 0.1)
self.assertEqual([], r)
self.assertEqual([], w)
self.assertEqual([], e)
schan.close()
# detect eof?
for i in range(10):
r, w, e = select.select([chan], [], [], 0.1)
if chan in r:
break
time.sleep(0.1)
self.assertEqual([chan], r)
self.assertEqual([], w)
self.assertEqual([], e)
self.assertEqual(bytes(), chan.recv(16))
# make sure the pipe is still open for now...
p = chan._pipe
self.assertEqual(False, p._closed)
chan.close()
# ...and now is closed.
self.assertEqual(True, p._closed)
def test_renegotiate(self):
"""
verify that a transport can correctly renegotiate mid-stream.
"""
self.setup_test_server()
self.tc.packetizer.REKEY_BYTES = 16384
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
self.assertEqual(self.tc.H, self.tc.session_id)
for i in range(20):
chan.send("x" * 1024)
chan.close()
# allow a few seconds for the rekeying to complete
for i in range(50):
if self.tc.H != self.tc.session_id:
break
time.sleep(0.1)
self.assertNotEqual(self.tc.H, self.tc.session_id)
schan.close()
def test_compression(self):
"""
verify that zlib compression is basically working.
"""
def force_compression(o):
o.compression = ("zlib",)
self.setup_test_server(force_compression, force_compression)
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
bytes = self.tc.packetizer._Packetizer__sent_bytes
chan.send("x" * 1024)
bytes2 = self.tc.packetizer._Packetizer__sent_bytes
block_size = self.tc._cipher_info[self.tc.local_cipher]["block-size"]
mac_size = self.tc._mac_info[self.tc.local_mac]["size"]
# tests show this is actually compressed to *52 bytes*! including
# packet overhead! nice!! :)
self.assertTrue(bytes2 - bytes < 1024)
self.assertEqual(16 + block_size + mac_size, bytes2 - bytes)
chan.close()
schan.close()
def test_x11(self):
"""
verify that an x11 port can be requested and opened.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
requested = []
def handler(c, addr_port):
addr, port = addr_port
requested.append((addr, port))
self.tc._queue_incoming_channel(c)
self.assertEqual(
None, getattr(self.server, "_x11_screen_number", None)
)
cookie = chan.request_x11(0, single_connection=True, handler=handler)
self.assertEqual(0, self.server._x11_screen_number)
self.assertEqual("MIT-MAGIC-COOKIE-1", self.server._x11_auth_protocol)
self.assertEqual(cookie, self.server._x11_auth_cookie)
self.assertEqual(True, self.server._x11_single_connection)
x11_server = self.ts.open_x11_channel(("localhost", 6093))
x11_client = self.tc.accept()
self.assertEqual("localhost", requested[0][0])
self.assertEqual(6093, requested[0][1])
x11_server.send("hello")
self.assertEqual(b"hello", x11_client.recv(5))
x11_server.close()
x11_client.close()
chan.close()
schan.close()
def test_reverse_port_forwarding(self):
"""
verify that a client can ask the server to open a reverse port for
forwarding.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.exec_command("yes")
self.ts.accept(1.0)
requested = []
def handler(c, origin_addr_port, server_addr_port):
requested.append(origin_addr_port)
requested.append(server_addr_port)
self.tc._queue_incoming_channel(c)
port = self.tc.request_port_forward("127.0.0.1", 0, handler)
self.assertEqual(port, self.server._listen.getsockname()[1])
cs = socket.socket()
cs.connect(("127.0.0.1", port))
ss, _ = self.server._listen.accept()
sch = self.ts.open_forwarded_tcpip_channel(
ss.getsockname(), ss.getpeername()
)
cch = self.tc.accept()
sch.send("hello")
self.assertEqual(b"hello", cch.recv(5))
sch.close()
cch.close()
ss.close()
cs.close()
# now cancel it.
self.tc.cancel_port_forward("127.0.0.1", port)
self.assertTrue(self.server._listen is None)
def test_port_forwarding(self):
"""
verify that a client can forward new connections from a locally-
forwarded port.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.exec_command("yes")
self.ts.accept(1.0)
# open a port on the "server" that the client will ask to forward to.
greeting_server = socket.socket()
greeting_server.bind(("127.0.0.1", 0))
greeting_server.listen(1)
greeting_port = greeting_server.getsockname()[1]
cs = self.tc.open_channel(
"direct-tcpip", ("127.0.0.1", greeting_port), ("", 9000)
)
sch = self.ts.accept(1.0)
cch = socket.socket()
cch.connect(self.server._tcpip_dest)
ss, _ = greeting_server.accept()
ss.send(b"Hello!\n")
ss.close()
sch.send(cch.recv(8192))
sch.close()
self.assertEqual(b"Hello!\n", cs.recv(7))
cs.close()
def test_stderr_select(self):
"""
verify that select() on a channel works even if only stderr is
receiving data.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.invoke_shell()
schan = self.ts.accept(1.0)
# nothing should be ready
r, w, e = select.select([chan], [], [], 0.1)
self.assertEqual([], r)
self.assertEqual([], w)
self.assertEqual([], e)
schan.send_stderr("hello\n")
# something should be ready now (give it 1 second to appear)
for i in range(10):
r, w, e = select.select([chan], [], [], 0.1)
if chan in r:
break
time.sleep(0.1)
self.assertEqual([chan], r)
self.assertEqual([], w)
self.assertEqual([], e)
self.assertEqual(b"hello\n", chan.recv_stderr(6))
# and, should be dead again now
r, w, e = select.select([chan], [], [], 0.1)
self.assertEqual([], r)
self.assertEqual([], w)
self.assertEqual([], e)
schan.close()
chan.close()
def test_send_ready(self):
"""
verify that send_ready() indicates when a send would not block.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.invoke_shell()
schan = self.ts.accept(1.0)
self.assertEqual(chan.send_ready(), True)
total = 0
K = "*" * 1024
limit = 1 + (64 * 2 ** 15)
while total < limit:
chan.send(K)
total += len(K)
if not chan.send_ready():
break
self.assertTrue(total < limit)
schan.close()
chan.close()
self.assertEqual(chan.send_ready(), True)
def test_rekey_deadlock(self):
"""
Regression test for deadlock when in-transit messages are received
after MSG_KEXINIT is sent
Note: When this test fails, it may leak threads.
"""
# Test for an obscure deadlocking bug that can occur if we receive
# certain messages while initiating a key exchange.
#
# The deadlock occurs as follows:
#
# In the main thread:
# 1. The user's program calls Channel.send(), which sends
# MSG_CHANNEL_DATA to the remote host.
# 2. Packetizer discovers that REKEY_BYTES has been exceeded, and
# sets the __need_rekey flag.
#
# In the Transport thread:
# 3. Packetizer notices that the __need_rekey flag is set, and raises
# NeedRekeyException.
# 4. In response to NeedRekeyException, the transport thread sends
# MSG_KEXINIT to the remote host.
#
# On the remote host (using any SSH implementation):
# 5. The MSG_CHANNEL_DATA is received, and MSG_CHANNEL_WINDOW_ADJUST
# is sent.
# 6. The MSG_KEXINIT is received, and a corresponding MSG_KEXINIT is
# sent.
#
# In the main thread:
# 7. The user's program calls Channel.send().
# 8. Channel.send acquires Channel.lock, then calls
# Transport._send_user_message().
# 9. Transport._send_user_message waits for Transport.clear_to_send
# to be set (i.e., it waits for re-keying to complete).
# Channel.lock is still held.
#
# In the Transport thread:
# 10. MSG_CHANNEL_WINDOW_ADJUST is received; Channel._window_adjust
# is called to handle it.
# 11. Channel._window_adjust tries to acquire Channel.lock, but it
# blocks because the lock is already held by the main thread.
#
# The result is that the Transport thread never processes the remote
# host's MSG_KEXINIT packet, because it becomes deadlocked while
# handling the preceding MSG_CHANNEL_WINDOW_ADJUST message.
# We set up two separate threads for sending and receiving packets,
# while the main thread acts as a watchdog timer. If the timer
# expires, a deadlock is assumed.
class SendThread(threading.Thread):
def __init__(self, chan, iterations, done_event):
threading.Thread.__init__(
self, None, None, self.__class__.__name__
)
self.setDaemon(True)
self.chan = chan
self.iterations = iterations
self.done_event = done_event
self.watchdog_event = threading.Event()
self.last = None
def run(self):
try:
for i in range(1, 1 + self.iterations):
if self.done_event.is_set():
break
self.watchdog_event.set()
# print i, "SEND"
self.chan.send("x" * 2048)
finally:
self.done_event.set()
self.watchdog_event.set()
class ReceiveThread(threading.Thread):
def __init__(self, chan, done_event):
threading.Thread.__init__(
self, None, None, self.__class__.__name__
)
self.setDaemon(True)
self.chan = chan
self.done_event = done_event
self.watchdog_event = threading.Event()
def run(self):
try:
while not self.done_event.is_set():
if self.chan.recv_ready():
chan.recv(65536)
self.watchdog_event.set()
else:
if random.randint(0, 1):
time.sleep(random.randint(0, 500) / 1000.0)
finally:
self.done_event.set()
self.watchdog_event.set()
self.setup_test_server()
self.ts.packetizer.REKEY_BYTES = 2048
chan = self.tc.open_session()
chan.exec_command("yes")
schan = self.ts.accept(1.0)
# Monkey patch the client's Transport._handler_table so that the client
# sends MSG_CHANNEL_WINDOW_ADJUST whenever it receives an initial
# MSG_KEXINIT. This is used to simulate the effect of network latency
# on a real MSG_CHANNEL_WINDOW_ADJUST message.
self.tc._handler_table = (
self.tc._handler_table.copy()
) # copy per-class dictionary
_negotiate_keys = self.tc._handler_table[MSG_KEXINIT]
def _negotiate_keys_wrapper(self, m):
if self.local_kex_init is None: # Remote side sent KEXINIT
# Simulate in-transit MSG_CHANNEL_WINDOW_ADJUST by sending it
# before responding to the incoming MSG_KEXINIT.
m2 = Message()
m2.add_byte(cMSG_CHANNEL_WINDOW_ADJUST)
m2.add_int(chan.remote_chanid)
m2.add_int(1) # bytes to add
self._send_message(m2)
return _negotiate_keys(self, m)
self.tc._handler_table[MSG_KEXINIT] = _negotiate_keys_wrapper
# Parameters for the test
iterations = 500 # The deadlock does not happen every time, but it
# should after many iterations.
timeout = 5
# This event is set when the test is completed
done_event = threading.Event()
# Start the sending thread
st = SendThread(schan, iterations, done_event)
st.start()
# Start the receiving thread
rt = ReceiveThread(chan, done_event)
rt.start()
# Act as a watchdog timer, checking
deadlocked = False
while not deadlocked and not done_event.is_set():
for event in (st.watchdog_event, rt.watchdog_event):
event.wait(timeout)
if done_event.is_set():
break
if not event.is_set():
deadlocked = True
break
event.clear()
# Tell the threads to stop (if they haven't already stopped). Note
# that if one or more threads are deadlocked, they might hang around
# forever (until the process exits).
done_event.set()
# Assertion: We must not have detected a timeout.
self.assertFalse(deadlocked)
# Close the channels
schan.close()
chan.close()
def test_sanitze_packet_size(self):
"""
verify that we conform to the rfc of packet and window sizes.
"""
for val, correct in [
(4095, MIN_PACKET_SIZE),
(None, DEFAULT_MAX_PACKET_SIZE),
(2 ** 32, MAX_WINDOW_SIZE),
]:
self.assertEqual(self.tc._sanitize_packet_size(val), correct)
def test_sanitze_window_size(self):
"""
verify that we conform to the rfc of packet and window sizes.
"""
for val, correct in [
(32767, MIN_WINDOW_SIZE),
(None, DEFAULT_WINDOW_SIZE),
(2 ** 32, MAX_WINDOW_SIZE),
]:
self.assertEqual(self.tc._sanitize_window_size(val), correct)
@slow
def test_handshake_timeout(self):
"""
verify that we can get a hanshake timeout.
"""
# Tweak client Transport instance's Packetizer instance so
# its read_message() sleeps a bit. This helps prevent race conditions
# where the client Transport's timeout timer thread doesn't even have
# time to get scheduled before the main client thread finishes
# handshaking with the server.
# (Doing this on the server's transport *sounds* more 'correct' but
# actually doesn't work nearly as well for whatever reason.)
class SlowPacketizer(Packetizer):
def read_message(self):
time.sleep(1)
return super(SlowPacketizer, self).read_message()
# NOTE: prettttty sure since the replaced .packetizer Packetizer is now
# no longer doing anything with its copy of the socket...everything'll
# be fine. Even tho it's a bit squicky.
self.tc.packetizer = SlowPacketizer(self.tc.sock)
# Continue with regular test red tape.
host_key = RSAKey.from_private_key_file(_support("test_rsa.key"))
public_host_key = RSAKey(data=host_key.asbytes())
self.ts.add_server_key(host_key)
event = threading.Event()
server = NullServer()
self.assertTrue(not event.is_set())
self.tc.handshake_timeout = 0.000000000001
self.ts.start_server(event, server)
self.assertRaises(
EOFError,
self.tc.connect,
hostkey=public_host_key,
username="slowdive",
password="pygmalion",
)
def test_select_after_close(self):
"""
verify that select works when a channel is already closed.
"""
self.setup_test_server()
chan = self.tc.open_session()
chan.invoke_shell()
schan = self.ts.accept(1.0)
schan.close()
# give client a moment to receive close notification
time.sleep(0.1)
r, w, e = select.select([chan], [], [], 0.1)
self.assertEqual([chan], r)
self.assertEqual([], w)
self.assertEqual([], e)
def test_channel_send_misc(self):
"""
verify behaviours sending various instances to a channel
"""
self.setup_test_server()
text = u"\xa7 slice me nicely"
with self.tc.open_session() as chan:
schan = self.ts.accept(1.0)
if schan is None:
self.fail("Test server transport failed to accept")
sfile = schan.makefile()
# TypeError raised on non string or buffer type
self.assertRaises(TypeError, chan.send, object())
self.assertRaises(TypeError, chan.sendall, object())
# sendall() accepts a unicode instance
chan.sendall(text)
expected = text.encode("utf-8")
self.assertEqual(sfile.read(len(expected)), expected)
@needs_builtin("buffer")
def test_channel_send_buffer(self):
"""
verify sending buffer instances to a channel
"""
self.setup_test_server()
data = 3 * b"some test data\n whole"
with self.tc.open_session() as chan:
schan = self.ts.accept(1.0)
if schan is None:
self.fail("Test server transport failed to accept")
sfile = schan.makefile()
# send() accepts buffer instances
sent = 0
while sent < len(data):
sent += chan.send(buffer(data, sent, 8)) # noqa
self.assertEqual(sfile.read(len(data)), data)
# sendall() accepts a buffer instance
chan.sendall(buffer(data)) # noqa
self.assertEqual(sfile.read(len(data)), data)
@needs_builtin("memoryview")
def test_channel_send_memoryview(self):
"""
verify sending memoryview instances to a channel
"""
self.setup_test_server()
data = 3 * b"some test data\n whole"
with self.tc.open_session() as chan:
schan = self.ts.accept(1.0)
if schan is None:
self.fail("Test server transport failed to accept")
sfile = schan.makefile()
# send() accepts memoryview slices
sent = 0
view = memoryview(data)
while sent < len(view):
sent += chan.send(view[sent : sent + 8])
self.assertEqual(sfile.read(len(data)), data)
# sendall() accepts a memoryview instance
chan.sendall(memoryview(data))
self.assertEqual(sfile.read(len(data)), data)
def test_server_rejects_open_channel_without_auth(self):
try:
self.setup_test_server(connect_kwargs={})
self.tc.open_session()
except ChannelException as e:
assert e.code == OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED
else:
assert False, "Did not raise ChannelException!"
def test_server_rejects_arbitrary_global_request_without_auth(self):
self.setup_test_server(connect_kwargs={})
# NOTE: this dummy global request kind would normally pass muster
# from the test server.
self.tc.global_request("acceptable")
# Global requests never raise exceptions, even on failure (not sure why
# this was the original design...ugh.) Best we can do to tell failure
# happened is that the client transport's global_response was set back
# to None; if it had succeeded, it would be the response Message.
err = "Unauthed global response incorrectly succeeded!"
assert self.tc.global_response is None, err
def test_server_rejects_port_forward_without_auth(self):
# NOTE: at protocol level port forward requests are treated same as a
# regular global request, but Paramiko server implements a special-case
# method for it, so it gets its own test. (plus, THAT actually raises
# an exception on the client side, unlike the general case...)
self.setup_test_server(connect_kwargs={})
try:
self.tc.request_port_forward("localhost", 1234)
except SSHException as e:
assert "forwarding request denied" in str(e)
else:
assert False, "Did not raise SSHException!"
def _send_unimplemented(self, server_is_sender):
self.setup_test_server()
sender, recipient = self.tc, self.ts
if server_is_sender:
sender, recipient = self.ts, self.tc
recipient._send_message = Mock()
msg = Message()
msg.add_byte(cMSG_UNIMPLEMENTED)
sender._send_message(msg)
# TODO: I hate this but I literally don't see a good way to know when
# the recipient has received the sender's message (there are no
# existing threading events in play that work for this), esp in this
# case where we don't WANT a response (as otherwise we could
# potentially try blocking on the sender's receipt of a reply...maybe).
time.sleep(0.1)
assert not recipient._send_message.called
def test_server_does_not_respond_to_MSG_UNIMPLEMENTED(self):
self._send_unimplemented(server_is_sender=False)
def test_client_does_not_respond_to_MSG_UNIMPLEMENTED(self):
self._send_unimplemented(server_is_sender=True)
def _send_client_message(self, message_type):
self.setup_test_server(connect_kwargs={})
self.ts._send_message = Mock()
# NOTE: this isn't 100% realistic (most of these message types would
# have actual other fields in 'em) but it suffices to test the level of
# message dispatch we're interested in here.
msg = Message()
# TODO: really not liking the whole cMSG_XXX vs MSG_XXX duality right
# now, esp since the former is almost always just byte_chr(the
# latter)...but since that's the case...
msg.add_byte(byte_chr(message_type))
self.tc._send_message(msg)
# No good way to actually wait for server action (see above tests re:
# MSG_UNIMPLEMENTED). Grump.
time.sleep(0.1)
def _expect_unimplemented(self):
# Ensure MSG_UNIMPLEMENTED was sent (implies it hit end of loop instead
# of truly handling the given message).
# NOTE: When bug present, this will actually be the first thing that
# fails (since in many cases actual message handling doesn't involve
# sending a message back right away).
assert self.ts._send_message.call_count == 1
reply = self.ts._send_message.call_args[0][0]
reply.rewind() # Because it's pre-send, not post-receive
assert reply.get_byte() == cMSG_UNIMPLEMENTED
def test_server_transports_reject_client_message_types(self):
# TODO: handle Transport's own tables too, not just its inner auth
# handler's table. See TODOs in auth_handler.py
for message_type in AuthHandler._client_handler_table:
self._send_client_message(message_type)
self._expect_unimplemented()
# Reset for rest of loop
self.tearDown()
self.setUp()
def test_server_rejects_client_MSG_USERAUTH_SUCCESS(self):
self._send_client_message(MSG_USERAUTH_SUCCESS)
# Sanity checks
assert not self.ts.authenticated
assert not self.ts.auth_handler.authenticated
# Real fix's behavior
self._expect_unimplemented()
class AlgorithmDisablingTests(unittest.TestCase):
def test_preferred_lists_default_to_private_attribute_contents(self):
t = Transport(sock=Mock())
assert t.preferred_ciphers == t._preferred_ciphers
assert t.preferred_macs == t._preferred_macs
assert t.preferred_keys == tuple(
t._preferred_keys
+ tuple(
"{}-cert-v01@openssh.com".format(x) for x in t._preferred_keys
)
)
assert t.preferred_kex == t._preferred_kex
def test_preferred_lists_filter_disabled_algorithms(self):
t = Transport(
sock=Mock(),
disabled_algorithms={
"ciphers": ["aes128-cbc"],
"macs": ["hmac-md5"],
"keys": ["ssh-dss"],
"kex": ["diffie-hellman-group14-sha256"],
},
)
assert "aes128-cbc" in t._preferred_ciphers
assert "aes128-cbc" not in t.preferred_ciphers
assert "hmac-md5" in t._preferred_macs
assert "hmac-md5" not in t.preferred_macs
assert "ssh-dss" in t._preferred_keys
assert "ssh-dss" not in t.preferred_keys
assert "ssh-dss-cert-v01@openssh.com" not in t.preferred_keys
assert "diffie-hellman-group14-sha256" in t._preferred_kex
assert "diffie-hellman-group14-sha256" not in t.preferred_kex
def test_implementation_refers_to_public_algo_lists(self):
t = Transport(
sock=Mock(),
disabled_algorithms={
"ciphers": ["aes128-cbc"],
"macs": ["hmac-md5"],
"keys": ["ssh-dss"],
"kex": ["diffie-hellman-group14-sha256"],
"compression": ["zlib"],
},
)
# Enable compression cuz otherwise disabling one option for it makes no
# sense...
t.use_compression(True)
# Effectively a random spot check, but kex init touches most/all of the
# algorithm lists so it's a good spot.
t._send_message = Mock()
t._send_kex_init()
# Cribbed from Transport._parse_kex_init, which didn't feel worth
# refactoring given all the vars involved :(
m = t._send_message.call_args[0][0]
m.rewind()
m.get_byte() # the msg type
m.get_bytes(16) # cookie, discarded
kexen = m.get_list()
server_keys = m.get_list()
ciphers = m.get_list()
m.get_list()
macs = m.get_list()
m.get_list()
compressions = m.get_list()
# OK, now we can actually check that our disabled algos were not
# included (as this message includes the full lists)
assert "aes128-cbc" not in ciphers
assert "hmac-md5" not in macs
assert "ssh-dss" not in server_keys
assert "diffie-hellman-group14-sha256" not in kexen
assert "zlib" not in compressions
@contextmanager
def server(
hostkey=None,
init=None,
server_init=None,
client_init=None,
connect=None,
pubkeys=None,
catch_error=False,
):
"""
SSH server contextmanager for testing.
:param hostkey:
Host key to use for the server; if None, loads
``test_rsa.key``.
:param init:
Default `Transport` constructor kwargs to use for both sides.
:param server_init:
Extends and/or overrides ``init`` for server transport only.
:param client_init:
Extends and/or overrides ``init`` for client transport only.
:param connect:
Kwargs to use for ``connect()`` on the client.
:param pubkeys:
List of public keys for auth.
:param catch_error:
Whether to capture connection errors & yield from contextmanager.
Necessary for connection_time exception testing.
"""
if init is None:
init = {}
if server_init is None:
server_init = {}
if client_init is None:
client_init = {}
if connect is None:
connect = dict(username="slowdive", password="pygmalion")
socks = LoopSocket()
sockc = LoopSocket()
sockc.link(socks)
tc = Transport(sockc, **dict(init, **client_init))
ts = Transport(socks, **dict(init, **server_init))
if hostkey is None:
hostkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
ts.add_server_key(hostkey)
event = threading.Event()
server = NullServer(allowed_keys=pubkeys)
assert not event.is_set()
assert not ts.is_active()
assert tc.get_username() is None
assert ts.get_username() is None
assert not tc.is_authenticated()
assert not ts.is_authenticated()
err = None
# Trap errors and yield instead of raising right away; otherwise callers
# cannot usefully deal with problems at connect time which stem from errors
# in the server side.
try:
ts.start_server(event, server)
tc.connect(**connect)
event.wait(1.0)
assert event.is_set()
assert ts.is_active()
assert tc.is_active()
except Exception as e:
if not catch_error:
raise
err = e
yield (tc, ts, err) if catch_error else (tc, ts)
tc.close()
ts.close()
socks.close()
sockc.close()
_disable_sha2 = dict(
disabled_algorithms=dict(keys=["rsa-sha2-256", "rsa-sha2-512"])
)
_disable_sha1 = dict(disabled_algorithms=dict(keys=["ssh-rsa"]))
_disable_sha2_pubkey = dict(
disabled_algorithms=dict(pubkeys=["rsa-sha2-256", "rsa-sha2-512"])
)
_disable_sha1_pubkey = dict(disabled_algorithms=dict(pubkeys=["ssh-rsa"]))
class TestSHA2SignatureKeyExchange(unittest.TestCase):
# NOTE: these all rely on the default server() hostkey being RSA
# NOTE: these rely on both sides being properly implemented re: agreed-upon
# hostkey during kex being what's actually used. Truly proving that eg
# SHA512 was used, is quite difficult w/o super gross hacks. However, there
# are new tests in test_pkey.py which use known signature blobs to prove
# the SHA2 family was in fact used!
def test_base_case_ssh_rsa_still_used_as_fallback(self):
# Prove that ssh-rsa is used if either, or both, participants have SHA2
# algorithms disabled
for which in ("init", "client_init", "server_init"):
with server(**{which: _disable_sha2}) as (tc, _):
assert tc.host_key_type == "ssh-rsa"
def test_kex_with_sha2_512(self):
# It's the default!
with server() as (tc, _):
assert tc.host_key_type == "rsa-sha2-512"
def test_kex_with_sha2_256(self):
# No 512 -> you get 256
with server(
init=dict(disabled_algorithms=dict(keys=["rsa-sha2-512"]))
) as (tc, _):
assert tc.host_key_type == "rsa-sha2-256"
def _incompatible_peers(self, client_init, server_init):
with server(
client_init=client_init, server_init=server_init, catch_error=True
) as (tc, ts, err):
# If neither side blew up then that's bad!
assert err is not None
# If client side blew up first, it'll be straightforward
if isinstance(err, IncompatiblePeer):
pass
# If server side blew up first, client sees EOF & we need to check
# the server transport for its saved error (otherwise it can only
# appear in log output)
elif isinstance(err, EOFError):
assert ts.saved_exception is not None
assert isinstance(ts.saved_exception, IncompatiblePeer)
# If it was something else, welp
else:
raise err
def test_client_sha2_disabled_server_sha1_disabled_no_match(self):
self._incompatible_peers(
client_init=_disable_sha2, server_init=_disable_sha1
)
def test_client_sha1_disabled_server_sha2_disabled_no_match(self):
self._incompatible_peers(
client_init=_disable_sha1, server_init=_disable_sha2
)
def test_explicit_client_hostkey_not_limited(self):
# Be very explicit about the hostkey on BOTH ends,
# and ensure it still ends up choosing sha2-512.
# (This is a regression test vs previous implementation which overwrote
# the entire preferred-hostkeys structure when given an explicit key as
# a client.)
hostkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(hostkey=hostkey, connect=dict(hostkey=hostkey)) as (tc, _):
assert tc.host_key_type == "rsa-sha2-512"
class TestExtInfo(unittest.TestCase):
def test_ext_info_handshake(self):
with server() as (tc, _):
kex = tc._get_latest_kex_init()
assert kex["kex_algo_list"][-1] == "ext-info-c"
assert tc.server_extensions == {
"server-sig-algs": b"ssh-ed25519,ecdsa-sha2-nistp256,ecdsa-sha2-nistp384,ecdsa-sha2-nistp521,rsa-sha2-512,rsa-sha2-256,ssh-rsa,ssh-dss" # noqa
}
def test_client_uses_server_sig_algs_for_pubkey_auth(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
server_init=dict(
disabled_algorithms=dict(pubkeys=["rsa-sha2-512"])
),
) as (tc, _):
assert tc.is_authenticated()
# Client settled on 256 despite itself not having 512 disabled
assert tc._agreed_pubkey_algorithm == "rsa-sha2-256"
# TODO: these could move into test_auth.py but that badly needs refactoring
# with this module anyways...
class TestSHA2SignaturePubkeys(unittest.TestCase):
def test_pubkey_auth_honors_disabled_algorithms(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
init=dict(
disabled_algorithms=dict(
pubkeys=["ssh-rsa", "rsa-sha2-256", "rsa-sha2-512"]
)
),
catch_error=True,
) as (_, _, err):
assert isinstance(err, SSHException)
assert "no RSA pubkey algorithms" in str(err)
def test_client_sha2_disabled_server_sha1_disabled_no_match(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
client_init=_disable_sha2_pubkey,
server_init=_disable_sha1_pubkey,
catch_error=True,
) as (tc, ts, err):
assert isinstance(err, AuthenticationException)
def test_client_sha1_disabled_server_sha2_disabled_no_match(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
client_init=_disable_sha1_pubkey,
server_init=_disable_sha2_pubkey,
catch_error=True,
) as (tc, ts, err):
assert isinstance(err, AuthenticationException)
def test_ssh_rsa_still_used_when_sha2_disabled(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
# NOTE: this works because key obj comparison uses public bytes
# TODO: would be nice for PKey to grow a legit "give me another obj of
# same class but just the public bits" using asbytes()
with server(
pubkeys=[privkey], connect=dict(pkey=privkey), init=_disable_sha2
) as (tc, _):
assert tc.is_authenticated()
def test_sha2_512(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
init=dict(
disabled_algorithms=dict(pubkeys=["ssh-rsa", "rsa-sha2-256"])
),
) as (tc, ts):
assert tc.is_authenticated()
assert tc._agreed_pubkey_algorithm == "rsa-sha2-512"
def test_sha2_256(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
init=dict(
disabled_algorithms=dict(pubkeys=["ssh-rsa", "rsa-sha2-512"])
),
) as (tc, ts):
assert tc.is_authenticated()
assert tc._agreed_pubkey_algorithm == "rsa-sha2-256"
def test_sha2_256_when_client_only_enables_256(self):
privkey = RSAKey.from_private_key_file(_support("test_rsa.key"))
with server(
pubkeys=[privkey],
connect=dict(pkey=privkey),
# Client-side only; server still accepts all 3.
client_init=dict(
disabled_algorithms=dict(pubkeys=["ssh-rsa", "rsa-sha2-512"])
),
) as (tc, ts):
assert tc.is_authenticated()
assert tc._agreed_pubkey_algorithm == "rsa-sha2-256"
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