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# Copyright (C) 2003-2007  Robey Pointer <robey@lag.net>
#
# 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 distrubuted 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 binascii import hexlify, unhexlify
import select
import socket
import sys
import time
import threading
import unittest

from paramiko import Transport, SecurityOptions, ServerInterface, RSAKey, DSSKey, \
    SSHException, BadAuthenticationType, InteractiveQuery, ChannelException
from paramiko import AUTH_FAILED, AUTH_PARTIALLY_SUCCESSFUL, AUTH_SUCCESSFUL
from paramiko import OPEN_SUCCEEDED, OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED
from loop import LoopSocket


class NullServer (ServerInterface):
    paranoid_did_password = False
    paranoid_did_public_key = False
    paranoid_key = DSSKey.from_private_key_file('tests/test_dss.key')
    
    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_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 != '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
        return False
    
    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.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):

    assertTrue = unittest.TestCase.failUnless   # for Python 2.3 and below
    assertFalse = unittest.TestCase.failIf      # for Python 2.3 and below

    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()

    def setup_test_server(self, client_options=None, server_options=None):
        host_key = RSAKey.from_private_key_file('tests/test_rsa.key')
        public_host_key = RSAKey(data=str(host_key))
        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.assert_(not event.isSet())
        self.ts.start_server(event, self.server)
        self.tc.connect(hostkey=public_host_key,
                        username='slowdive', password='pygmalion')
        event.wait(1.0)
        self.assert_(event.isSet())
        self.assert_(self.ts.is_active())

    def test_1_security_options(self):
        o = self.tc.get_security_options()
        self.assertEquals(type(o), SecurityOptions)
        self.assert_(('aes256-cbc', 'blowfish-cbc') != o.ciphers)
        o.ciphers = ('aes256-cbc', 'blowfish-cbc')
        self.assertEquals(('aes256-cbc', 'blowfish-cbc'), o.ciphers)
        try:
            o.ciphers = ('aes256-cbc', 'made-up-cipher')
            self.assert_(False)
        except ValueError:
            pass
        try:
            o.ciphers = 23
            self.assert_(False)
        except TypeError:
            pass
            
    def test_2_compute_key(self):
        self.tc.K = 123281095979686581523377256114209720774539068973101330872763622971399429481072519713536292772709507296759612401802191955568143056534122385270077606457721553469730659233569339356140085284052436697480759510519672848743794433460113118986816826624865291116513647975790797391795651716378444844877749505443714557929L
        self.tc.H = unhexlify('0C8307CDE6856FF30BA93684EB0F04C2520E9ED3')
        self.tc.session_id = self.tc.H
        key = self.tc._compute_key('C', 32)
        self.assertEquals('207E66594CA87C44ECCBA3B3CD39FDDB378E6FDB0F97C54B2AA0CFBF900CD995',
                          hexlify(key).upper())

    def test_3_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('tests/test_rsa.key')
        public_host_key = RSAKey(data=str(host_key))
        self.ts.add_server_key(host_key)
        event = threading.Event()
        server = NullServer()
        self.assert_(not event.isSet())
        self.assertEquals(None, self.tc.get_username())
        self.assertEquals(None, self.ts.get_username())
        self.assertEquals(False, self.tc.is_authenticated())
        self.assertEquals(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.assert_(event.isSet())
        self.assert_(self.ts.is_active())
        self.assertEquals('slowdive', self.tc.get_username())
        self.assertEquals('slowdive', self.ts.get_username())
        self.assertEquals(True, self.tc.is_authenticated())
        self.assertEquals(True, self.ts.is_authenticated())

    def test_4_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.assertEquals('aes256-cbc', self.tc.local_cipher)
        self.assertEquals('aes256-cbc', self.tc.remote_cipher)
        self.assertEquals(12, self.tc.packetizer.get_mac_size_out())
        self.assertEquals(12, self.tc.packetizer.get_mac_size_in())
        
        self.tc.send_ignore(1024)
        self.tc.renegotiate_keys()
        self.ts.send_ignore(1024)

    def test_5_keepalive(self):
        """
        verify that the keepalive will be sent.
        """
        self.setup_test_server()
        self.assertEquals(None, getattr(self.server, '_global_request', None))
        self.tc.set_keepalive(1)
        time.sleep(2)
        self.assertEquals('keepalive@lag.net', self.server._global_request)
        
    def test_6_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('no')
            self.assert_(False)
        except SSHException, x:
            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.assertEquals('Hello there.\n', f.readline())
        self.assertEquals('', f.readline())
        f = chan.makefile_stderr()
        self.assertEquals('This is on stderr.\n', f.readline())
        self.assertEquals('', 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.assertEquals('Hello there.\n', f.readline())
        self.assertEquals('This is on stderr.\n', f.readline())
        self.assertEquals('', f.readline())

    def test_7_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.assertEquals('communist j. cat\n', f.readline())
        chan.close()
        self.assertEquals('', f.readline())

    def test_8_channel_exception(self):
        """
        verify that ChannelException is thrown for a bad open-channel request.
        """
        self.setup_test_server()
        try:
            chan = self.tc.open_channel('bogus')
            self.fail('expected exception')
        except ChannelException, x:
            self.assert_(x.code == OPEN_FAILED_ADMINISTRATIVELY_PROHIBITED)

    def test_9_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.assert_(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.assertEquals('Hello there.\n', f.readline())
        self.assertEquals('', f.readline())
        count = 0
        while not chan.exit_status_ready():
            time.sleep(0.1)
            count += 1
            if count > 50:
                raise Exception("timeout")
        self.assertEquals(23, chan.recv_exit_status())
        chan.close()

    def test_A_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.assertEquals([], r)
        self.assertEquals([], w)
        self.assertEquals([], 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.assertEquals([chan], r)
        self.assertEquals([], w)
        self.assertEquals([], e)

        self.assertEquals('hello\n', chan.recv(6))
        
        # and, should be dead again now
        r, w, e = select.select([chan], [], [], 0.1)
        self.assertEquals([], r)
        self.assertEquals([], w)
        self.assertEquals([], 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.assertEquals([chan], r)
        self.assertEquals([], w)
        self.assertEquals([], e)
        self.assertEquals('', chan.recv(16))
        
        # make sure the pipe is still open for now...
        p = chan._pipe
        self.assertEquals(False, p._closed)
        chan.close()
        # ...and now is closed.
        self.assertEquals(True, p._closed)
   
    def test_B_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.assertEquals(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 xrange(50):
            if self.tc.H != self.tc.session_id:
                break
            time.sleep(0.1)
        self.assertNotEquals(self.tc.H, self.tc.session_id)

        schan.close()

    def test_C_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
        # tests show this is actually compressed to *52 bytes*!  including packet overhead!  nice!! :)
        self.assert_(bytes2 - bytes < 1024)
        self.assertEquals(52, bytes2 - bytes)

        chan.close()
        schan.close()

    def test_D_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)):
            requested.append((addr, port))
            self.tc._queue_incoming_channel(c)
            
        self.assertEquals(None, getattr(self.server, '_x11_screen_number', None))
        cookie = chan.request_x11(0, single_connection=True, handler=handler)
        self.assertEquals(0, self.server._x11_screen_number)
        self.assertEquals('MIT-MAGIC-COOKIE-1', self.server._x11_auth_protocol)
        self.assertEquals(cookie, self.server._x11_auth_cookie)
        self.assertEquals(True, self.server._x11_single_connection)
        
        x11_server = self.ts.open_x11_channel(('localhost', 6093))
        x11_client = self.tc.accept()
        self.assertEquals('localhost', requested[0][0])
        self.assertEquals(6093, requested[0][1])
        
        x11_server.send('hello')
        self.assertEquals('hello', x11_client.recv(5))
        
        x11_server.close()
        x11_client.close()
        chan.close()
        schan.close()

    def test_E_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')
        schan = self.ts.accept(1.0)
        
        requested = []
        def handler(c, (origin_addr, origin_port), (server_addr, server_port)):
            requested.append((origin_addr, origin_port))
            requested.append((server_addr, server_port))
            self.tc._queue_incoming_channel(c)
            
        port = self.tc.request_port_forward('', 0, handler)
        self.assertEquals(port, self.server._listen.getsockname()[1])

        cs = socket.socket()
        cs.connect(('', 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.assertEquals('hello', cch.recv(5))
        sch.close()
        cch.close()
        ss.close()
        cs.close()
        
        # now cancel it.
        self.tc.cancel_port_forward('', port)
        self.assertTrue(self.server._listen is None)

    def test_F_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')
        schan = 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.listen(1)
        greeting_port = greeting_server.getsockname()[1]

        cs = self.tc.open_channel('direct-tcpip', ('', greeting_port), ('', 9000))
        sch = self.ts.accept(1.0)
        cch = socket.socket()
        cch.connect(self.server._tcpip_dest)
        
        ss, _ = greeting_server.accept()
        ss.send('Hello!\n')
        ss.close()
        sch.send(cch.recv(8192))
        sch.close()
        
        self.assertEquals('Hello!\n', cs.recv(7))
        cs.close()

    def test_G_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.assertEquals([], r)
        self.assertEquals([], w)
        self.assertEquals([], 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.assertEquals([chan], r)
        self.assertEquals([], w)
        self.assertEquals([], e)

        self.assertEquals('hello\n', chan.recv_stderr(6))
        
        # and, should be dead again now
        r, w, e = select.select([chan], [], [], 0.1)
        self.assertEquals([], r)
        self.assertEquals([], w)
        self.assertEquals([], e)

        schan.close()
        chan.close()

    def test_H_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.assertEquals(chan.send_ready(), True)
        total = 0
        K = '*' * 1024
        while total < 1024 * 1024:
            chan.send(K)
            total += len(K)
            if not chan.send_ready():
                break
        self.assert_(total < 1024 * 1024)

        schan.close()
        chan.close()
        self.assertEquals(chan.send_ready(), True)