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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 SSHClient.
"""
from __future__ import with_statement
import socket
from tempfile import mkstemp
import threading
import unittest
import weakref
import warnings
import os
import time
from tests.util import test_path
import paramiko
from paramiko.common import PY2, b
from paramiko.ssh_exception import SSHException
FINGERPRINTS = {
'ssh-dss': b'\x44\x78\xf0\xb9\xa2\x3c\xc5\x18\x20\x09\xff\x75\x5b\xc1\xd2\x6c',
'ssh-rsa': b'\x60\x73\x38\x44\xcb\x51\x86\x65\x7f\xde\xda\xa2\x2b\x5a\x57\xd5',
'ecdsa-sha2-nistp256': b'\x25\x19\xeb\x55\xe6\xa1\x47\xff\x4f\x38\xd2\x75\x6f\xa5\xd5\x60',
}
class NullServer (paramiko.ServerInterface):
def __init__(self, *args, **kwargs):
# Allow tests to enable/disable specific key types
self.__allowed_keys = kwargs.pop('allowed_keys', [])
super(NullServer, self).__init__(*args, **kwargs)
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 paramiko.AUTH_SUCCESSFUL
return paramiko.AUTH_FAILED
def check_auth_publickey(self, username, key):
try:
expected = FINGERPRINTS[key.get_name()]
except KeyError:
return paramiko.AUTH_FAILED
if (
key.get_name() in self.__allowed_keys and
key.get_fingerprint() == expected
):
return paramiko.AUTH_SUCCESSFUL
return paramiko.AUTH_FAILED
def check_channel_request(self, kind, chanid):
return paramiko.OPEN_SUCCEEDED
def check_channel_exec_request(self, channel, command):
if command != b'yes':
return False
return True
class SSHClientTest (unittest.TestCase):
def setUp(self):
self.sockl = socket.socket()
self.sockl.bind(('localhost', 0))
self.sockl.listen(1)
self.addr, self.port = self.sockl.getsockname()
self.connect_kwargs = dict(
hostname=self.addr,
port=self.port,
username='slowdive',
look_for_keys=False,
)
self.event = threading.Event()
def tearDown(self):
for attr in "tc ts socks sockl".split():
if hasattr(self, attr):
getattr(self, attr).close()
def _run(self, allowed_keys=None, delay=0):
if allowed_keys is None:
allowed_keys = FINGERPRINTS.keys()
self.socks, addr = self.sockl.accept()
self.ts = paramiko.Transport(self.socks)
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
self.ts.add_server_key(host_key)
server = NullServer(allowed_keys=allowed_keys)
if delay:
time.sleep(delay)
self.ts.start_server(self.event, server)
def _test_connection(self, **kwargs):
"""
(Most) kwargs get passed directly into SSHClient.connect().
The exception is ``allowed_keys`` which is stripped and handed to the
``NullServer`` used for testing.
"""
run_kwargs = {'allowed_keys': kwargs.pop('allowed_keys', None)}
# Server setup
threading.Thread(target=self._run, kwargs=run_kwargs).start()
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
# Client setup
self.tc = paramiko.SSHClient()
self.tc.get_host_keys().add('[%s]:%d' % (self.addr, self.port), 'ssh-rsa', public_host_key)
# Actual connection
self.tc.connect(**dict(self.connect_kwargs, **kwargs))
# Authentication successful?
self.event.wait(1.0)
self.assertTrue(self.event.is_set())
self.assertTrue(self.ts.is_active())
self.assertEqual('slowdive', self.ts.get_username())
self.assertEqual(True, self.ts.is_authenticated())
# Command execution functions?
stdin, stdout, stderr = self.tc.exec_command('yes')
schan = self.ts.accept(1.0)
schan.send('Hello there.\n')
schan.send_stderr('This is on stderr.\n')
schan.close()
self.assertEqual('Hello there.\n', stdout.readline())
self.assertEqual('', stdout.readline())
self.assertEqual('This is on stderr.\n', stderr.readline())
self.assertEqual('', stderr.readline())
# Cleanup
stdin.close()
stdout.close()
stderr.close()
def test_1_client(self):
"""
verify that the SSHClient stuff works too.
"""
self._test_connection(password='pygmalion')
def test_2_client_dsa(self):
"""
verify that SSHClient works with a DSA key.
"""
self._test_connection(key_filename=test_path('test_dss.key'))
def test_client_rsa(self):
"""
verify that SSHClient works with an RSA key.
"""
self._test_connection(key_filename=test_path('test_rsa.key'))
def test_2_5_client_ecdsa(self):
"""
verify that SSHClient works with an ECDSA key.
"""
self._test_connection(key_filename=test_path('test_ecdsa.key'))
def test_3_multiple_key_files(self):
"""
verify that SSHClient accepts and tries multiple key files.
"""
# This is dumb :(
types_ = {
'rsa': 'ssh-rsa',
'dss': 'ssh-dss',
'ecdsa': 'ecdsa-sha2-nistp256',
}
# Various combos of attempted & valid keys
# TODO: try every possible combo using itertools functions
for attempt, accept in (
(['rsa', 'dss'], ['dss']), # Original test #3
(['dss', 'rsa'], ['dss']), # Ordering matters sometimes, sadly
(['dss', 'rsa', 'ecdsa'], ['dss']), # Try ECDSA but fail
(['rsa', 'ecdsa'], ['ecdsa']), # ECDSA success
):
try:
self._test_connection(
key_filename=[
test_path('test_{0}.key'.format(x)) for x in attempt
],
allowed_keys=[types_[x] for x in accept],
)
finally:
# Clean up to avoid occasional gc-related deadlocks.
# TODO: use nose test generators after nose port
self.tearDown()
self.setUp()
def test_multiple_key_files_failure(self):
"""
Expect failure when multiple keys in play and none are accepted
"""
# Until #387 is fixed we have to catch a high-up exception since
# various platforms trigger different errors here >_<
self.assertRaises(SSHException,
self._test_connection,
key_filename=[test_path('test_rsa.key')],
allowed_keys=['ecdsa-sha2-nistp256'],
)
def test_4_auto_add_policy(self):
"""
verify that SSHClient's AutoAddPolicy works.
"""
threading.Thread(target=self._run).start()
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
self.tc = paramiko.SSHClient()
self.tc.set_missing_host_key_policy(paramiko.AutoAddPolicy())
self.assertEqual(0, len(self.tc.get_host_keys()))
self.tc.connect(password='pygmalion', **self.connect_kwargs)
self.event.wait(1.0)
self.assertTrue(self.event.is_set())
self.assertTrue(self.ts.is_active())
self.assertEqual('slowdive', self.ts.get_username())
self.assertEqual(True, self.ts.is_authenticated())
self.assertEqual(1, len(self.tc.get_host_keys()))
self.assertEqual(public_host_key, self.tc.get_host_keys()['[%s]:%d' % (self.addr, self.port)]['ssh-rsa'])
def test_5_save_host_keys(self):
"""
verify that SSHClient correctly saves a known_hosts file.
"""
warnings.filterwarnings('ignore', 'tempnam.*')
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
fd, localname = mkstemp()
os.close(fd)
client = paramiko.SSHClient()
self.assertEquals(0, len(client.get_host_keys()))
host_id = '[%s]:%d' % (self.addr, self.port)
client.get_host_keys().add(host_id, 'ssh-rsa', public_host_key)
self.assertEquals(1, len(client.get_host_keys()))
self.assertEquals(public_host_key, client.get_host_keys()[host_id]['ssh-rsa'])
client.save_host_keys(localname)
with open(localname) as fd:
assert host_id in fd.read()
os.unlink(localname)
def test_6_cleanup(self):
"""
verify that when an SSHClient is collected, its transport (and the
transport's packetizer) is closed.
"""
# Unclear why this is borked on Py3, but it is, and does not seem worth
# pursuing at the moment.
# XXX: It's the release of the references to e.g packetizer that fails
# in py3...
if not PY2:
return
threading.Thread(target=self._run).start()
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
self.tc = paramiko.SSHClient()
self.tc.set_missing_host_key_policy(paramiko.AutoAddPolicy())
self.assertEqual(0, len(self.tc.get_host_keys()))
self.tc.connect(**dict(self.connect_kwargs, password='pygmalion'))
self.event.wait(1.0)
self.assertTrue(self.event.is_set())
self.assertTrue(self.ts.is_active())
p = weakref.ref(self.tc._transport.packetizer)
self.assertTrue(p() is not None)
self.tc.close()
del self.tc
# hrm, sometimes p isn't cleared right away. why is that?
#st = time.time()
#while (time.time() - st < 5.0) and (p() is not None):
# time.sleep(0.1)
# instead of dumbly waiting for the GC to collect, force a collection
# to see whether the SSHClient object is deallocated correctly
import gc
gc.collect()
self.assertTrue(p() is None)
def test_client_can_be_used_as_context_manager(self):
"""
verify that an SSHClient can be used a context manager
"""
threading.Thread(target=self._run).start()
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
with paramiko.SSHClient() as tc:
self.tc = tc
self.tc.set_missing_host_key_policy(paramiko.AutoAddPolicy())
self.assertEquals(0, len(self.tc.get_host_keys()))
self.tc.connect(**dict(self.connect_kwargs, password='pygmalion'))
self.event.wait(1.0)
self.assertTrue(self.event.is_set())
self.assertTrue(self.ts.is_active())
self.assertTrue(self.tc._transport is not None)
self.assertTrue(self.tc._transport is None)
def test_7_banner_timeout(self):
"""
verify that the SSHClient has a configurable banner timeout.
"""
# Start the thread with a 1 second wait.
threading.Thread(target=self._run, kwargs={'delay': 1}).start()
host_key = paramiko.RSAKey.from_private_key_file(test_path('test_rsa.key'))
public_host_key = paramiko.RSAKey(data=host_key.asbytes())
self.tc = paramiko.SSHClient()
self.tc.get_host_keys().add('[%s]:%d' % (self.addr, self.port), 'ssh-rsa', public_host_key)
# Connect with a half second banner timeout.
kwargs = dict(self.connect_kwargs, banner_timeout=0.5)
self.assertRaises(
paramiko.SSHException,
self.tc.connect,
**kwargs
)
def test_8_auth_trickledown(self):
"""
Failed key auth doesn't prevent subsequent pw auth from succeeding
"""
# NOTE: re #387, re #394
# If pkey module used within Client._auth isn't correctly handling auth
# errors (e.g. if it allows things like ValueError to bubble up as per
# midway thru #394) client.connect() will fail (at key load step)
# instead of succeeding (at password step)
kwargs = dict(
# Password-protected key whose passphrase is not 'pygmalion' (it's
# 'television' as per tests/test_pkey.py). NOTE: must use
# key_filename, loading the actual key here with PKey will except
# immediately; we're testing the try/except crap within Client.
key_filename=[test_path('test_rsa_password.key')],
# Actual password for default 'slowdive' user
password='pygmalion',
)
self._test_connection(**kwargs)
|