/usr/lib/python2.7/dist-packages/twisted/conch/test/test_transport.py is in python-twisted-conch 1:13.2.0-1ubuntu1.
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# See LICENSE for details.
"""
Tests for ssh/transport.py and the classes therein.
"""
import struct
try:
import pyasn1
except ImportError:
pyasn1 = None
try:
import Crypto.Cipher.DES3
except ImportError:
Crypto = None
if pyasn1 is not None and Crypto is not None:
dependencySkip = None
from twisted.conch.ssh import transport, keys, factory
from twisted.conch.test import keydata
else:
if pyasn1 is None:
dependencySkip = "Cannot run without PyASN1"
elif Crypto is None:
dependencySkip = "can't run w/o PyCrypto"
class transport: # fictional modules to make classes work
class SSHTransportBase: pass
class SSHServerTransport: pass
class SSHClientTransport: pass
class factory:
class SSHFactory:
pass
from hashlib import md5, sha1
from twisted.trial import unittest
from twisted.internet import defer
from twisted.protocols import loopback
from twisted.python import randbytes
from twisted.python.reflect import qual, getClass
from twisted.conch.ssh import address, service, common
from twisted.test import proto_helpers
from twisted.conch.error import ConchError
class MockTransportBase(transport.SSHTransportBase):
"""
A base class for the client and server protocols. Stores the messages
it receieves instead of ignoring them.
@ivar errors: a list of tuples: (reasonCode, description)
@ivar unimplementeds: a list of integers: sequence number
@ivar debugs: a list of tuples: (alwaysDisplay, message, lang)
@ivar ignoreds: a list of strings: ignored data
"""
def connectionMade(self):
"""
Set up instance variables.
"""
transport.SSHTransportBase.connectionMade(self)
self.errors = []
self.unimplementeds = []
self.debugs = []
self.ignoreds = []
self.gotUnsupportedVersion = None
def _unsupportedVersionReceived(self, remoteVersion):
"""
Intercept unsupported version call.
@type remoteVersion: C{str}
"""
self.gotUnsupportedVersion = remoteVersion
return transport.SSHTransportBase._unsupportedVersionReceived(
self, remoteVersion)
def receiveError(self, reasonCode, description):
"""
Store any errors received.
@type reasonCode: C{int}
@type description: C{str}
"""
self.errors.append((reasonCode, description))
def receiveUnimplemented(self, seqnum):
"""
Store any unimplemented packet messages.
@type seqnum: C{int}
"""
self.unimplementeds.append(seqnum)
def receiveDebug(self, alwaysDisplay, message, lang):
"""
Store any debug messages.
@type alwaysDisplay: C{bool}
@type message: C{str}
@type lang: C{str}
"""
self.debugs.append((alwaysDisplay, message, lang))
def ssh_IGNORE(self, packet):
"""
Store any ignored data.
@type packet: C{str}
"""
self.ignoreds.append(packet)
class MockCipher(object):
"""
A mocked-up version of twisted.conch.ssh.transport.SSHCiphers.
"""
outCipType = 'test'
encBlockSize = 6
inCipType = 'test'
decBlockSize = 6
inMACType = 'test'
outMACType = 'test'
verifyDigestSize = 1
usedEncrypt = False
usedDecrypt = False
outMAC = (None, '', '', 1)
inMAC = (None, '', '', 1)
keys = ()
def encrypt(self, x):
"""
Called to encrypt the packet. Simply record that encryption was used
and return the data unchanged.
"""
self.usedEncrypt = True
if (len(x) % self.encBlockSize) != 0:
raise RuntimeError("length %i modulo blocksize %i is not 0: %i" %
(len(x), self.encBlockSize, len(x) % self.encBlockSize))
return x
def decrypt(self, x):
"""
Called to decrypt the packet. Simply record that decryption was used
and return the data unchanged.
"""
self.usedDecrypt = True
if (len(x) % self.encBlockSize) != 0:
raise RuntimeError("length %i modulo blocksize %i is not 0: %i" %
(len(x), self.decBlockSize, len(x) % self.decBlockSize))
return x
def makeMAC(self, outgoingPacketSequence, payload):
"""
Make a Message Authentication Code by sending the character value of
the outgoing packet.
"""
return chr(outgoingPacketSequence)
def verify(self, incomingPacketSequence, packet, macData):
"""
Verify the Message Authentication Code by checking that the packet
sequence number is the same.
"""
return chr(incomingPacketSequence) == macData
def setKeys(self, ivOut, keyOut, ivIn, keyIn, macIn, macOut):
"""
Record the keys.
"""
self.keys = (ivOut, keyOut, ivIn, keyIn, macIn, macOut)
class MockCompression:
"""
A mocked-up compression, based on the zlib interface. Instead of
compressing, it reverses the data and adds a 0x66 byte to the end.
"""
def compress(self, payload):
return payload[::-1] # reversed
def decompress(self, payload):
return payload[:-1][::-1]
def flush(self, kind):
return '\x66'
class MockService(service.SSHService):
"""
A mocked-up service, based on twisted.conch.ssh.service.SSHService.
@ivar started: True if this service has been started.
@ivar stopped: True if this service has been stopped.
"""
name = "MockService"
started = False
stopped = False
protocolMessages = {0xff: "MSG_TEST", 71: "MSG_fiction"}
def logPrefix(self):
return "MockService"
def serviceStarted(self):
"""
Record that the service was started.
"""
self.started = True
def serviceStopped(self):
"""
Record that the service was stopped.
"""
self.stopped = True
def ssh_TEST(self, packet):
"""
A message that this service responds to.
"""
self.transport.sendPacket(0xff, packet)
class MockFactory(factory.SSHFactory):
"""
A mocked-up factory based on twisted.conch.ssh.factory.SSHFactory.
"""
services = {
'ssh-userauth': MockService}
def getPublicKeys(self):
"""
Return the public keys that authenticate this server.
"""
return {
'ssh-rsa': keys.Key.fromString(keydata.publicRSA_openssh),
'ssh-dsa': keys.Key.fromString(keydata.publicDSA_openssh)}
def getPrivateKeys(self):
"""
Return the private keys that authenticate this server.
"""
return {
'ssh-rsa': keys.Key.fromString(keydata.privateRSA_openssh),
'ssh-dsa': keys.Key.fromString(keydata.privateDSA_openssh)}
def getPrimes(self):
"""
Return the Diffie-Hellman primes that can be used for the
diffie-hellman-group-exchange-sha1 key exchange.
"""
return {
1024: ((2, transport.DH_PRIME),),
2048: ((3, transport.DH_PRIME),),
4096: ((5, 7),)}
class MockOldFactoryPublicKeys(MockFactory):
"""
The old SSHFactory returned mappings from key names to strings from
getPublicKeys(). We return those here for testing.
"""
def getPublicKeys(self):
"""
We used to map key types to public key blobs as strings.
"""
keys = MockFactory.getPublicKeys(self)
for name, key in keys.items()[:]:
keys[name] = key.blob()
return keys
class MockOldFactoryPrivateKeys(MockFactory):
"""
The old SSHFactory returned mappings from key names to PyCrypto key
objects from getPrivateKeys(). We return those here for testing.
"""
def getPrivateKeys(self):
"""
We used to map key types to PyCrypto key objects.
"""
keys = MockFactory.getPrivateKeys(self)
for name, key in keys.items()[:]:
keys[name] = key.keyObject
return keys
class TransportTestCase(unittest.TestCase):
"""
Base class for transport test cases.
"""
klass = None
if dependencySkip:
skip = dependencySkip
def setUp(self):
self.transport = proto_helpers.StringTransport()
self.proto = self.klass()
self.packets = []
def secureRandom(len):
"""
Return a consistent entropy value
"""
return '\x99' * len
self.oldSecureRandom = randbytes.secureRandom
randbytes.secureRandom = secureRandom
def stubSendPacket(messageType, payload):
self.packets.append((messageType, payload))
self.proto.makeConnection(self.transport)
# we just let the kex packet go into the transport
self.proto.sendPacket = stubSendPacket
def finishKeyExchange(self, proto):
"""
Deliver enough additional messages to C{proto} so that the key exchange
which is started in L{SSHTransportBase.connectionMade} completes and
non-key exchange messages can be sent and received.
"""
proto.dataReceived("SSH-2.0-BogoClient-1.2i\r\n")
proto.dispatchMessage(
transport.MSG_KEXINIT, self._A_KEXINIT_MESSAGE)
proto._keySetup("foo", "bar")
# SSHTransportBase can't handle MSG_NEWKEYS, or it would be the right
# thing to deliver next. _newKeys won't work either, because
# sendKexInit (probably) hasn't been called. sendKexInit is
# responsible for setting up certain state _newKeys relies on. So,
# just change the key exchange state to what it would be when key
# exchange is finished.
proto._keyExchangeState = proto._KEY_EXCHANGE_NONE
def tearDown(self):
randbytes.secureRandom = self.oldSecureRandom
self.oldSecureRandom = None
def simulateKeyExchange(self, sharedSecret, exchangeHash):
"""
Finish a key exchange by calling C{_keySetup} with the given arguments.
Also do extra whitebox stuff to satisfy that method's assumption that
some kind of key exchange has actually taken place.
"""
self.proto._keyExchangeState = self.proto._KEY_EXCHANGE_REQUESTED
self.proto._blockedByKeyExchange = []
self.proto._keySetup(sharedSecret, exchangeHash)
class BaseSSHTransportTestCase(TransportTestCase):
"""
Test TransportBase. It implements the non-server/client specific
parts of the SSH transport protocol.
"""
klass = MockTransportBase
_A_KEXINIT_MESSAGE = (
"\xAA" * 16 +
common.NS('diffie-hellman-group1-sha1') +
common.NS('ssh-rsa') +
common.NS('aes256-ctr') +
common.NS('aes256-ctr') +
common.NS('hmac-sha1') +
common.NS('hmac-sha1') +
common.NS('none') +
common.NS('none') +
common.NS('') +
common.NS('') +
'\x00' + '\x00\x00\x00\x00')
def test_sendVersion(self):
"""
Test that the first thing sent over the connection is the version
string.
"""
# the other setup was done in the setup method
self.assertEqual(self.transport.value().split('\r\n', 1)[0],
"SSH-2.0-Twisted")
def test_sendPacketPlain(self):
"""
Test that plain (unencrypted, uncompressed) packets are sent
correctly. The format is::
uint32 length (including type and padding length)
byte padding length
byte type
bytes[length-padding length-2] data
bytes[padding length] padding
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
self.transport.clear()
message = ord('A')
payload = 'BCDEFG'
proto.sendPacket(message, payload)
value = self.transport.value()
self.assertEqual(value, '\x00\x00\x00\x0c\x04ABCDEFG\x99\x99\x99\x99')
def test_sendPacketEncrypted(self):
"""
Test that packets sent while encryption is enabled are sent
correctly. The whole packet should be encrypted.
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
proto.currentEncryptions = testCipher = MockCipher()
message = ord('A')
payload = 'BC'
self.transport.clear()
proto.sendPacket(message, payload)
self.assertTrue(testCipher.usedEncrypt)
value = self.transport.value()
self.assertEqual(
value,
# Four byte length prefix
'\x00\x00\x00\x08'
# One byte padding length
'\x04'
# The actual application data
'ABC'
# "Random" padding - see the secureRandom monkeypatch in setUp
'\x99\x99\x99\x99'
# The MAC
'\x02')
def test_sendPacketCompressed(self):
"""
Test that packets sent while compression is enabled are sent
correctly. The packet type and data should be encrypted.
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
proto.outgoingCompression = MockCompression()
self.transport.clear()
proto.sendPacket(ord('A'), 'B')
value = self.transport.value()
self.assertEqual(
value,
'\x00\x00\x00\x0c\x08BA\x66\x99\x99\x99\x99\x99\x99\x99\x99')
def test_sendPacketBoth(self):
"""
Test that packets sent while compression and encryption are
enabled are sent correctly. The packet type and data should be
compressed and then the whole packet should be encrypted.
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
proto.currentEncryptions = testCipher = MockCipher()
proto.outgoingCompression = MockCompression()
message = ord('A')
payload = 'BC'
self.transport.clear()
proto.sendPacket(message, payload)
self.assertTrue(testCipher.usedEncrypt)
value = self.transport.value()
self.assertEqual(
value,
# Four byte length prefix
'\x00\x00\x00\x0e'
# One byte padding length
'\x09'
# Compressed application data
'CBA\x66'
# "Random" padding - see the secureRandom monkeypatch in setUp
'\x99\x99\x99\x99\x99\x99\x99\x99\x99'
# The MAC
'\x02')
def test_getPacketPlain(self):
"""
Test that packets are retrieved correctly out of the buffer when
no encryption is enabled.
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
self.transport.clear()
proto.sendPacket(ord('A'), 'BC')
proto.buf = self.transport.value() + 'extra'
self.assertEqual(proto.getPacket(), 'ABC')
self.assertEqual(proto.buf, 'extra')
def test_getPacketEncrypted(self):
"""
Test that encrypted packets are retrieved correctly.
See test_sendPacketEncrypted.
"""
proto = MockTransportBase()
proto.sendKexInit = lambda: None # don't send packets
proto.makeConnection(self.transport)
self.transport.clear()
proto.currentEncryptions = testCipher = MockCipher()
proto.sendPacket(ord('A'), 'BCD')
value = self.transport.value()
proto.buf = value[:MockCipher.decBlockSize]
self.assertEqual(proto.getPacket(), None)
self.assertTrue(testCipher.usedDecrypt)
self.assertEqual(proto.first, '\x00\x00\x00\x0e\x09A')
proto.buf += value[MockCipher.decBlockSize:]
self.assertEqual(proto.getPacket(), 'ABCD')
self.assertEqual(proto.buf, '')
def test_getPacketCompressed(self):
"""
Test that compressed packets are retrieved correctly. See
test_sendPacketCompressed.
"""
proto = MockTransportBase()
proto.makeConnection(self.transport)
self.finishKeyExchange(proto)
self.transport.clear()
proto.outgoingCompression = MockCompression()
proto.incomingCompression = proto.outgoingCompression
proto.sendPacket(ord('A'), 'BCD')
proto.buf = self.transport.value()
self.assertEqual(proto.getPacket(), 'ABCD')
def test_getPacketBoth(self):
"""
Test that compressed and encrypted packets are retrieved correctly.
See test_sendPacketBoth.
"""
proto = MockTransportBase()
proto.sendKexInit = lambda: None
proto.makeConnection(self.transport)
self.transport.clear()
proto.currentEncryptions = MockCipher()
proto.outgoingCompression = MockCompression()
proto.incomingCompression = proto.outgoingCompression
proto.sendPacket(ord('A'), 'BCDEFG')
proto.buf = self.transport.value()
self.assertEqual(proto.getPacket(), 'ABCDEFG')
def test_ciphersAreValid(self):
"""
Test that all the supportedCiphers are valid.
"""
ciphers = transport.SSHCiphers('A', 'B', 'C', 'D')
iv = key = '\x00' * 16
for cipName in self.proto.supportedCiphers:
self.assertTrue(ciphers._getCipher(cipName, iv, key))
def test_sendKexInit(self):
"""
Test that the KEXINIT (key exchange initiation) message is sent
correctly. Payload::
bytes[16] cookie
string key exchange algorithms
string public key algorithms
string outgoing ciphers
string incoming ciphers
string outgoing MACs
string incoming MACs
string outgoing compressions
string incoming compressions
bool first packet follows
uint32 0
"""
value = self.transport.value().split('\r\n', 1)[1]
self.proto.buf = value
packet = self.proto.getPacket()
self.assertEqual(packet[0], chr(transport.MSG_KEXINIT))
self.assertEqual(packet[1:17], '\x99' * 16)
(kex, pubkeys, ciphers1, ciphers2, macs1, macs2, compressions1,
compressions2, languages1, languages2,
buf) = common.getNS(packet[17:], 10)
self.assertEqual(kex, ','.join(self.proto.supportedKeyExchanges))
self.assertEqual(pubkeys, ','.join(self.proto.supportedPublicKeys))
self.assertEqual(ciphers1, ','.join(self.proto.supportedCiphers))
self.assertEqual(ciphers2, ','.join(self.proto.supportedCiphers))
self.assertEqual(macs1, ','.join(self.proto.supportedMACs))
self.assertEqual(macs2, ','.join(self.proto.supportedMACs))
self.assertEqual(compressions1,
','.join(self.proto.supportedCompressions))
self.assertEqual(compressions2,
','.join(self.proto.supportedCompressions))
self.assertEqual(languages1, ','.join(self.proto.supportedLanguages))
self.assertEqual(languages2, ','.join(self.proto.supportedLanguages))
self.assertEqual(buf, '\x00' * 5)
def test_receiveKEXINITReply(self):
"""
Immediately after connecting, the transport expects a KEXINIT message
and does not reply to it.
"""
self.transport.clear()
self.proto.dispatchMessage(
transport.MSG_KEXINIT, self._A_KEXINIT_MESSAGE)
self.assertEqual(self.packets, [])
def test_sendKEXINITReply(self):
"""
When a KEXINIT message is received which is not a reply to an earlier
KEXINIT message which was sent, a KEXINIT reply is sent.
"""
self.finishKeyExchange(self.proto)
del self.packets[:]
self.proto.dispatchMessage(
transport.MSG_KEXINIT, self._A_KEXINIT_MESSAGE)
self.assertEqual(len(self.packets), 1)
self.assertEqual(self.packets[0][0], transport.MSG_KEXINIT)
def test_sendKexInitTwiceFails(self):
"""
A new key exchange cannot be started while a key exchange is already in
progress. If an attempt is made to send a I{KEXINIT} message using
L{SSHTransportBase.sendKexInit} while a key exchange is in progress
causes that method to raise a L{RuntimeError}.
"""
self.assertRaises(RuntimeError, self.proto.sendKexInit)
def test_sendKexInitBlocksOthers(self):
"""
After L{SSHTransportBase.sendKexInit} has been called, messages types
other than the following are queued and not sent until after I{NEWKEYS}
is sent by L{SSHTransportBase._keySetup}.
RFC 4253, section 7.1.
"""
# sendKexInit is called by connectionMade, which is called in setUp.
# So we're in the state already.
disallowedMessageTypes = [
transport.MSG_SERVICE_REQUEST,
transport.MSG_KEXINIT,
]
# Drop all the bytes sent by setUp, they're not relevant to this test.
self.transport.clear()
# Get rid of the sendPacket monkey patch, we are testing the behavior
# of sendPacket.
del self.proto.sendPacket
for messageType in disallowedMessageTypes:
self.proto.sendPacket(messageType, 'foo')
self.assertEqual(self.transport.value(), "")
self.finishKeyExchange(self.proto)
# Make the bytes written to the transport cleartext so it's easier to
# make an assertion about them.
self.proto.nextEncryptions = MockCipher()
# Pseudo-deliver the peer's NEWKEYS message, which should flush the
# messages which were queued above.
self.proto._newKeys()
self.assertEqual(self.transport.value().count("foo"), 2)
def test_sendDebug(self):
"""
Test that debug messages are sent correctly. Payload::
bool always display
string debug message
string language
"""
self.proto.sendDebug("test", True, 'en')
self.assertEqual(
self.packets,
[(transport.MSG_DEBUG,
"\x01\x00\x00\x00\x04test\x00\x00\x00\x02en")])
def test_receiveDebug(self):
"""
Test that debug messages are received correctly. See test_sendDebug.
"""
self.proto.dispatchMessage(
transport.MSG_DEBUG,
'\x01\x00\x00\x00\x04test\x00\x00\x00\x02en')
self.assertEqual(self.proto.debugs, [(True, 'test', 'en')])
def test_sendIgnore(self):
"""
Test that ignored messages are sent correctly. Payload::
string ignored data
"""
self.proto.sendIgnore("test")
self.assertEqual(
self.packets, [(transport.MSG_IGNORE,
'\x00\x00\x00\x04test')])
def test_receiveIgnore(self):
"""
Test that ignored messages are received correctly. See
test_sendIgnore.
"""
self.proto.dispatchMessage(transport.MSG_IGNORE, 'test')
self.assertEqual(self.proto.ignoreds, ['test'])
def test_sendUnimplemented(self):
"""
Test that unimplemented messages are sent correctly. Payload::
uint32 sequence number
"""
self.proto.sendUnimplemented()
self.assertEqual(
self.packets, [(transport.MSG_UNIMPLEMENTED,
'\x00\x00\x00\x00')])
def test_receiveUnimplemented(self):
"""
Test that unimplemented messages are received correctly. See
test_sendUnimplemented.
"""
self.proto.dispatchMessage(transport.MSG_UNIMPLEMENTED,
'\x00\x00\x00\xff')
self.assertEqual(self.proto.unimplementeds, [255])
def test_sendDisconnect(self):
"""
Test that disconnection messages are sent correctly. Payload::
uint32 reason code
string reason description
string language
"""
disconnected = [False]
def stubLoseConnection():
disconnected[0] = True
self.transport.loseConnection = stubLoseConnection
self.proto.sendDisconnect(0xff, "test")
self.assertEqual(
self.packets,
[(transport.MSG_DISCONNECT,
"\x00\x00\x00\xff\x00\x00\x00\x04test\x00\x00\x00\x00")])
self.assertTrue(disconnected[0])
def test_receiveDisconnect(self):
"""
Test that disconnection messages are received correctly. See
test_sendDisconnect.
"""
disconnected = [False]
def stubLoseConnection():
disconnected[0] = True
self.transport.loseConnection = stubLoseConnection
self.proto.dispatchMessage(transport.MSG_DISCONNECT,
'\x00\x00\x00\xff\x00\x00\x00\x04test')
self.assertEqual(self.proto.errors, [(255, 'test')])
self.assertTrue(disconnected[0])
def test_dataReceived(self):
"""
Test that dataReceived parses packets and dispatches them to
ssh_* methods.
"""
kexInit = [False]
def stubKEXINIT(packet):
kexInit[0] = True
self.proto.ssh_KEXINIT = stubKEXINIT
self.proto.dataReceived(self.transport.value())
self.assertTrue(self.proto.gotVersion)
self.assertEqual(self.proto.ourVersionString,
self.proto.otherVersionString)
self.assertTrue(kexInit[0])
def test_service(self):
"""
Test that the transport can set the running service and dispatches
packets to the service's packetReceived method.
"""
service = MockService()
self.proto.setService(service)
self.assertEqual(self.proto.service, service)
self.assertTrue(service.started)
self.proto.dispatchMessage(0xff, "test")
self.assertEqual(self.packets, [(0xff, "test")])
service2 = MockService()
self.proto.setService(service2)
self.assertTrue(service2.started)
self.assertTrue(service.stopped)
self.proto.connectionLost(None)
self.assertTrue(service2.stopped)
def test_avatar(self):
"""
Test that the transport notifies the avatar of disconnections.
"""
disconnected = [False]
def logout():
disconnected[0] = True
self.proto.logoutFunction = logout
self.proto.avatar = True
self.proto.connectionLost(None)
self.assertTrue(disconnected[0])
def test_isEncrypted(self):
"""
Test that the transport accurately reflects its encrypted status.
"""
self.assertFalse(self.proto.isEncrypted('in'))
self.assertFalse(self.proto.isEncrypted('out'))
self.assertFalse(self.proto.isEncrypted('both'))
self.proto.currentEncryptions = MockCipher()
self.assertTrue(self.proto.isEncrypted('in'))
self.assertTrue(self.proto.isEncrypted('out'))
self.assertTrue(self.proto.isEncrypted('both'))
self.proto.currentEncryptions = transport.SSHCiphers('none', 'none',
'none', 'none')
self.assertFalse(self.proto.isEncrypted('in'))
self.assertFalse(self.proto.isEncrypted('out'))
self.assertFalse(self.proto.isEncrypted('both'))
self.assertRaises(TypeError, self.proto.isEncrypted, 'bad')
def test_isVerified(self):
"""
Test that the transport accurately reflects its verified status.
"""
self.assertFalse(self.proto.isVerified('in'))
self.assertFalse(self.proto.isVerified('out'))
self.assertFalse(self.proto.isVerified('both'))
self.proto.currentEncryptions = MockCipher()
self.assertTrue(self.proto.isVerified('in'))
self.assertTrue(self.proto.isVerified('out'))
self.assertTrue(self.proto.isVerified('both'))
self.proto.currentEncryptions = transport.SSHCiphers('none', 'none',
'none', 'none')
self.assertFalse(self.proto.isVerified('in'))
self.assertFalse(self.proto.isVerified('out'))
self.assertFalse(self.proto.isVerified('both'))
self.assertRaises(TypeError, self.proto.isVerified, 'bad')
def test_loseConnection(self):
"""
Test that loseConnection sends a disconnect message and closes the
connection.
"""
disconnected = [False]
def stubLoseConnection():
disconnected[0] = True
self.transport.loseConnection = stubLoseConnection
self.proto.loseConnection()
self.assertEqual(self.packets[0][0], transport.MSG_DISCONNECT)
self.assertEqual(self.packets[0][1][3],
chr(transport.DISCONNECT_CONNECTION_LOST))
def test_badVersion(self):
"""
Test that the transport disconnects when it receives a bad version.
"""
def testBad(version):
self.packets = []
self.proto.gotVersion = False
disconnected = [False]
def stubLoseConnection():
disconnected[0] = True
self.transport.loseConnection = stubLoseConnection
for c in version + '\r\n':
self.proto.dataReceived(c)
self.assertTrue(disconnected[0])
self.assertEqual(self.packets[0][0], transport.MSG_DISCONNECT)
self.assertEqual(
self.packets[0][1][3],
chr(transport.DISCONNECT_PROTOCOL_VERSION_NOT_SUPPORTED))
testBad('SSH-1.5-OpenSSH')
testBad('SSH-3.0-Twisted')
testBad('GET / HTTP/1.1')
def test_dataBeforeVersion(self):
"""
Test that the transport ignores data sent before the version string.
"""
proto = MockTransportBase()
proto.makeConnection(proto_helpers.StringTransport())
data = ("""here's some stuff beforehand
here's some other stuff
""" + proto.ourVersionString + "\r\n")
[proto.dataReceived(c) for c in data]
self.assertTrue(proto.gotVersion)
self.assertEqual(proto.otherVersionString, proto.ourVersionString)
def test_compatabilityVersion(self):
"""
Test that the transport treats the compatbility version (1.99)
as equivalent to version 2.0.
"""
proto = MockTransportBase()
proto.makeConnection(proto_helpers.StringTransport())
proto.dataReceived("SSH-1.99-OpenSSH\n")
self.assertTrue(proto.gotVersion)
self.assertEqual(proto.otherVersionString, "SSH-1.99-OpenSSH")
def test_supportedVersionsAreAllowed(self):
"""
If an unusual SSH version is received and is included in
C{supportedVersions}, an unsupported version error is not emitted.
"""
proto = MockTransportBase()
proto.supportedVersions = ("9.99", )
proto.makeConnection(proto_helpers.StringTransport())
proto.dataReceived("SSH-9.99-OpenSSH\n")
self.assertFalse(proto.gotUnsupportedVersion)
def test_unsupportedVersionsCallUnsupportedVersionReceived(self):
"""
If an unusual SSH version is received and is not included in
C{supportedVersions}, an unsupported version error is emitted.
"""
proto = MockTransportBase()
proto.supportedVersions = ("2.0", )
proto.makeConnection(proto_helpers.StringTransport())
proto.dataReceived("SSH-9.99-OpenSSH\n")
self.assertEqual("9.99", proto.gotUnsupportedVersion)
def test_badPackets(self):
"""
Test that the transport disconnects with an error when it receives
bad packets.
"""
def testBad(packet, error=transport.DISCONNECT_PROTOCOL_ERROR):
self.packets = []
self.proto.buf = packet
self.assertEqual(self.proto.getPacket(), None)
self.assertEqual(len(self.packets), 1)
self.assertEqual(self.packets[0][0], transport.MSG_DISCONNECT)
self.assertEqual(self.packets[0][1][3], chr(error))
testBad('\xff' * 8) # big packet
testBad('\x00\x00\x00\x05\x00BCDE') # length not modulo blocksize
oldEncryptions = self.proto.currentEncryptions
self.proto.currentEncryptions = MockCipher()
testBad('\x00\x00\x00\x08\x06AB123456', # bad MAC
transport.DISCONNECT_MAC_ERROR)
self.proto.currentEncryptions.decrypt = lambda x: x[:-1]
testBad('\x00\x00\x00\x08\x06BCDEFGHIJK') # bad decryption
self.proto.currentEncryptions = oldEncryptions
self.proto.incomingCompression = MockCompression()
def stubDecompress(payload):
raise Exception('bad compression')
self.proto.incomingCompression.decompress = stubDecompress
testBad('\x00\x00\x00\x04\x00BCDE', # bad decompression
transport.DISCONNECT_COMPRESSION_ERROR)
self.flushLoggedErrors()
def test_unimplementedPackets(self):
"""
Test that unimplemented packet types cause MSG_UNIMPLEMENTED packets
to be sent.
"""
seqnum = self.proto.incomingPacketSequence
def checkUnimplemented(seqnum=seqnum):
self.assertEqual(self.packets[0][0],
transport.MSG_UNIMPLEMENTED)
self.assertEqual(self.packets[0][1][3], chr(seqnum))
self.proto.packets = []
seqnum += 1
self.proto.dispatchMessage(40, '')
checkUnimplemented()
transport.messages[41] = 'MSG_fiction'
self.proto.dispatchMessage(41, '')
checkUnimplemented()
self.proto.dispatchMessage(60, '')
checkUnimplemented()
self.proto.setService(MockService())
self.proto.dispatchMessage(70, '')
checkUnimplemented()
self.proto.dispatchMessage(71, '')
checkUnimplemented()
def test_getKey(self):
"""
Test that _getKey generates the correct keys.
"""
self.proto.sessionID = 'EF'
k1 = sha1('AB' + 'CD' + 'K' + self.proto.sessionID).digest()
k2 = sha1('ABCD' + k1).digest()
self.assertEqual(self.proto._getKey('K', 'AB', 'CD'), k1 + k2)
def test_multipleClasses(self):
"""
Test that multiple instances have distinct states.
"""
proto = self.proto
proto.dataReceived(self.transport.value())
proto.currentEncryptions = MockCipher()
proto.outgoingCompression = MockCompression()
proto.incomingCompression = MockCompression()
proto.setService(MockService())
proto2 = MockTransportBase()
proto2.makeConnection(proto_helpers.StringTransport())
proto2.sendIgnore('')
self.assertNotEqual(proto.gotVersion, proto2.gotVersion)
self.assertNotEqual(proto.transport, proto2.transport)
self.assertNotEqual(proto.outgoingPacketSequence,
proto2.outgoingPacketSequence)
self.assertNotEqual(proto.incomingPacketSequence,
proto2.incomingPacketSequence)
self.assertNotEqual(proto.currentEncryptions,
proto2.currentEncryptions)
self.assertNotEqual(proto.service, proto2.service)
class ServerAndClientSSHTransportBaseCase:
"""
Tests that need to be run on both the server and the client.
"""
def checkDisconnected(self, kind=None):
"""
Helper function to check if the transport disconnected.
"""
if kind is None:
kind = transport.DISCONNECT_PROTOCOL_ERROR
self.assertEqual(self.packets[-1][0], transport.MSG_DISCONNECT)
self.assertEqual(self.packets[-1][1][3], chr(kind))
def connectModifiedProtocol(self, protoModification,
kind=None):
"""
Helper function to connect a modified protocol to the test protocol
and test for disconnection.
"""
if kind is None:
kind = transport.DISCONNECT_KEY_EXCHANGE_FAILED
proto2 = self.klass()
protoModification(proto2)
proto2.makeConnection(proto_helpers.StringTransport())
self.proto.dataReceived(proto2.transport.value())
if kind:
self.checkDisconnected(kind)
return proto2
def test_disconnectIfCantMatchKex(self):
"""
Test that the transport disconnects if it can't match the key
exchange
"""
def blankKeyExchanges(proto2):
proto2.supportedKeyExchanges = []
self.connectModifiedProtocol(blankKeyExchanges)
def test_disconnectIfCantMatchKeyAlg(self):
"""
Like test_disconnectIfCantMatchKex, but for the key algorithm.
"""
def blankPublicKeys(proto2):
proto2.supportedPublicKeys = []
self.connectModifiedProtocol(blankPublicKeys)
def test_disconnectIfCantMatchCompression(self):
"""
Like test_disconnectIfCantMatchKex, but for the compression.
"""
def blankCompressions(proto2):
proto2.supportedCompressions = []
self.connectModifiedProtocol(blankCompressions)
def test_disconnectIfCantMatchCipher(self):
"""
Like test_disconnectIfCantMatchKex, but for the encryption.
"""
def blankCiphers(proto2):
proto2.supportedCiphers = []
self.connectModifiedProtocol(blankCiphers)
def test_disconnectIfCantMatchMAC(self):
"""
Like test_disconnectIfCantMatchKex, but for the MAC.
"""
def blankMACs(proto2):
proto2.supportedMACs = []
self.connectModifiedProtocol(blankMACs)
def test_getPeer(self):
"""
Test that the transport's L{getPeer} method returns an
L{SSHTransportAddress} with the L{IAddress} of the peer.
"""
self.assertEqual(self.proto.getPeer(),
address.SSHTransportAddress(
self.proto.transport.getPeer()))
def test_getHost(self):
"""
Test that the transport's L{getHost} method returns an
L{SSHTransportAddress} with the L{IAddress} of the host.
"""
self.assertEqual(self.proto.getHost(),
address.SSHTransportAddress(
self.proto.transport.getHost()))
class ServerSSHTransportTestCase(ServerAndClientSSHTransportBaseCase,
TransportTestCase):
"""
Tests for the SSHServerTransport.
"""
klass = transport.SSHServerTransport
def setUp(self):
TransportTestCase.setUp(self)
self.proto.factory = MockFactory()
self.proto.factory.startFactory()
def tearDown(self):
TransportTestCase.tearDown(self)
self.proto.factory.stopFactory()
del self.proto.factory
def test_KEXINIT(self):
"""
Test that receiving a KEXINIT packet sets up the correct values on the
server.
"""
self.proto.dataReceived( 'SSH-2.0-Twisted\r\n\x00\x00\x01\xd4\t\x14'
'\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99'
'\x99\x00\x00\x00=diffie-hellman-group1-sha1,diffie-hellman-g'
'roup-exchange-sha1\x00\x00\x00\x0fssh-dss,ssh-rsa\x00\x00\x00'
'\x85aes128-ctr,aes128-cbc,aes192-ctr,aes192-cbc,aes256-ctr,ae'
's256-cbc,cast128-ctr,cast128-cbc,blowfish-ctr,blowfish-cbc,3d'
'es-ctr,3des-cbc\x00\x00\x00\x85aes128-ctr,aes128-cbc,aes192-c'
'tr,aes192-cbc,aes256-ctr,aes256-cbc,cast128-ctr,cast128-cbc,b'
'lowfish-ctr,blowfish-cbc,3des-ctr,3des-cbc\x00\x00\x00\x12hma'
'c-md5,hmac-sha1\x00\x00\x00\x12hmac-md5,hmac-sha1\x00\x00\x00'
'\tnone,zlib\x00\x00\x00\tnone,zlib\x00\x00\x00\x00\x00\x00'
'\x00\x00\x00\x00\x00\x00\x00\x99\x99\x99\x99\x99\x99\x99\x99'
'\x99')
self.assertEqual(self.proto.kexAlg,
'diffie-hellman-group1-sha1')
self.assertEqual(self.proto.keyAlg,
'ssh-dss')
self.assertEqual(self.proto.outgoingCompressionType,
'none')
self.assertEqual(self.proto.incomingCompressionType,
'none')
ne = self.proto.nextEncryptions
self.assertEqual(ne.outCipType, 'aes128-ctr')
self.assertEqual(ne.inCipType, 'aes128-ctr')
self.assertEqual(ne.outMACType, 'hmac-md5')
self.assertEqual(ne.inMACType, 'hmac-md5')
def test_ignoreGuessPacketKex(self):
"""
The client is allowed to send a guessed key exchange packet
after it sends the KEXINIT packet. However, if the key exchanges
do not match, that guess packet must be ignored. This tests that
the packet is ignored in the case of the key exchange method not
matching.
"""
kexInitPacket = '\x00' * 16 + (
''.join([common.NS(x) for x in
[','.join(y) for y in
[self.proto.supportedKeyExchanges[::-1],
self.proto.supportedPublicKeys,
self.proto.supportedCiphers,
self.proto.supportedCiphers,
self.proto.supportedMACs,
self.proto.supportedMACs,
self.proto.supportedCompressions,
self.proto.supportedCompressions,
self.proto.supportedLanguages,
self.proto.supportedLanguages]]])) + (
'\xff\x00\x00\x00\x00')
self.proto.ssh_KEXINIT(kexInitPacket)
self.assertTrue(self.proto.ignoreNextPacket)
self.proto.ssh_DEBUG("\x01\x00\x00\x00\x04test\x00\x00\x00\x00")
self.assertTrue(self.proto.ignoreNextPacket)
self.proto.ssh_KEX_DH_GEX_REQUEST_OLD('\x00\x00\x08\x00')
self.assertFalse(self.proto.ignoreNextPacket)
self.assertEqual(self.packets, [])
self.proto.ignoreNextPacket = True
self.proto.ssh_KEX_DH_GEX_REQUEST('\x00\x00\x08\x00' * 3)
self.assertFalse(self.proto.ignoreNextPacket)
self.assertEqual(self.packets, [])
def test_ignoreGuessPacketKey(self):
"""
Like test_ignoreGuessPacketKex, but for an incorrectly guessed
public key format.
"""
kexInitPacket = '\x00' * 16 + (
''.join([common.NS(x) for x in
[','.join(y) for y in
[self.proto.supportedKeyExchanges,
self.proto.supportedPublicKeys[::-1],
self.proto.supportedCiphers,
self.proto.supportedCiphers,
self.proto.supportedMACs,
self.proto.supportedMACs,
self.proto.supportedCompressions,
self.proto.supportedCompressions,
self.proto.supportedLanguages,
self.proto.supportedLanguages]]])) + (
'\xff\x00\x00\x00\x00')
self.proto.ssh_KEXINIT(kexInitPacket)
self.assertTrue(self.proto.ignoreNextPacket)
self.proto.ssh_DEBUG("\x01\x00\x00\x00\x04test\x00\x00\x00\x00")
self.assertTrue(self.proto.ignoreNextPacket)
self.proto.ssh_KEX_DH_GEX_REQUEST_OLD('\x00\x00\x08\x00')
self.assertFalse(self.proto.ignoreNextPacket)
self.assertEqual(self.packets, [])
self.proto.ignoreNextPacket = True
self.proto.ssh_KEX_DH_GEX_REQUEST('\x00\x00\x08\x00' * 3)
self.assertFalse(self.proto.ignoreNextPacket)
self.assertEqual(self.packets, [])
def test_KEXDH_INIT(self):
"""
Test that the KEXDH_INIT packet causes the server to send a
KEXDH_REPLY with the server's public key and a signature.
"""
self.proto.supportedKeyExchanges = ['diffie-hellman-group1-sha1']
self.proto.supportedPublicKeys = ['ssh-rsa']
self.proto.dataReceived(self.transport.value())
e = pow(transport.DH_GENERATOR, 5000,
transport.DH_PRIME)
self.proto.ssh_KEX_DH_GEX_REQUEST_OLD(common.MP(e))
y = common.getMP('\x00\x00\x00\x40' + '\x99' * 64)[0]
f = common._MPpow(transport.DH_GENERATOR, y, transport.DH_PRIME)
sharedSecret = common._MPpow(e, y, transport.DH_PRIME)
h = sha1()
h.update(common.NS(self.proto.ourVersionString) * 2)
h.update(common.NS(self.proto.ourKexInitPayload) * 2)
h.update(common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob()))
h.update(common.MP(e))
h.update(f)
h.update(sharedSecret)
exchangeHash = h.digest()
signature = self.proto.factory.privateKeys['ssh-rsa'].sign(
exchangeHash)
self.assertEqual(
self.packets,
[(transport.MSG_KEXDH_REPLY,
common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob())
+ f + common.NS(signature)),
(transport.MSG_NEWKEYS, '')])
def test_KEX_DH_GEX_REQUEST_OLD(self):
"""
Test that the KEX_DH_GEX_REQUEST_OLD message causes the server
to reply with a KEX_DH_GEX_GROUP message with the correct
Diffie-Hellman group.
"""
self.proto.supportedKeyExchanges = [
'diffie-hellman-group-exchange-sha1']
self.proto.supportedPublicKeys = ['ssh-rsa']
self.proto.dataReceived(self.transport.value())
self.proto.ssh_KEX_DH_GEX_REQUEST_OLD('\x00\x00\x04\x00')
self.assertEqual(
self.packets,
[(transport.MSG_KEX_DH_GEX_GROUP,
common.MP(transport.DH_PRIME) + '\x00\x00\x00\x01\x02')])
self.assertEqual(self.proto.g, 2)
self.assertEqual(self.proto.p, transport.DH_PRIME)
def test_KEX_DH_GEX_REQUEST_OLD_badKexAlg(self):
"""
Test that if the server recieves a KEX_DH_GEX_REQUEST_OLD message
and the key exchange algorithm is not 'diffie-hellman-group1-sha1' or
'diffie-hellman-group-exchange-sha1', we raise a ConchError.
"""
self.proto.kexAlg = None
self.assertRaises(ConchError, self.proto.ssh_KEX_DH_GEX_REQUEST_OLD,
None)
def test_KEX_DH_GEX_REQUEST(self):
"""
Test that the KEX_DH_GEX_REQUEST message causes the server to reply
with a KEX_DH_GEX_GROUP message with the correct Diffie-Hellman
group.
"""
self.proto.supportedKeyExchanges = [
'diffie-hellman-group-exchange-sha1']
self.proto.supportedPublicKeys = ['ssh-rsa']
self.proto.dataReceived(self.transport.value())
self.proto.ssh_KEX_DH_GEX_REQUEST('\x00\x00\x04\x00\x00\x00\x08\x00' +
'\x00\x00\x0c\x00')
self.assertEqual(
self.packets,
[(transport.MSG_KEX_DH_GEX_GROUP,
common.MP(transport.DH_PRIME) + '\x00\x00\x00\x01\x03')])
self.assertEqual(self.proto.g, 3)
self.assertEqual(self.proto.p, transport.DH_PRIME)
def test_KEX_DH_GEX_INIT_after_REQUEST(self):
"""
Test that the KEX_DH_GEX_INIT message after the client sends
KEX_DH_GEX_REQUEST causes the server to send a KEX_DH_GEX_INIT message
with a public key and signature.
"""
self.test_KEX_DH_GEX_REQUEST()
e = pow(self.proto.g, 3, self.proto.p)
y = common.getMP('\x00\x00\x00\x80' + '\x99' * 128)[0]
f = common._MPpow(self.proto.g, y, self.proto.p)
sharedSecret = common._MPpow(e, y, self.proto.p)
h = sha1()
h.update(common.NS(self.proto.ourVersionString) * 2)
h.update(common.NS(self.proto.ourKexInitPayload) * 2)
h.update(common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob()))
h.update('\x00\x00\x04\x00\x00\x00\x08\x00\x00\x00\x0c\x00')
h.update(common.MP(self.proto.p))
h.update(common.MP(self.proto.g))
h.update(common.MP(e))
h.update(f)
h.update(sharedSecret)
exchangeHash = h.digest()
self.proto.ssh_KEX_DH_GEX_INIT(common.MP(e))
self.assertEqual(
self.packets[1],
(transport.MSG_KEX_DH_GEX_REPLY,
common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob()) +
f + common.NS(self.proto.factory.privateKeys['ssh-rsa'].sign(
exchangeHash))))
def test_KEX_DH_GEX_INIT_after_REQUEST_OLD(self):
"""
Test that the KEX_DH_GEX_INIT message after the client sends
KEX_DH_GEX_REQUEST_OLD causes the server to sent a KEX_DH_GEX_INIT
message with a public key and signature.
"""
self.test_KEX_DH_GEX_REQUEST_OLD()
e = pow(self.proto.g, 3, self.proto.p)
y = common.getMP('\x00\x00\x00\x80' + '\x99' * 128)[0]
f = common._MPpow(self.proto.g, y, self.proto.p)
sharedSecret = common._MPpow(e, y, self.proto.p)
h = sha1()
h.update(common.NS(self.proto.ourVersionString) * 2)
h.update(common.NS(self.proto.ourKexInitPayload) * 2)
h.update(common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob()))
h.update('\x00\x00\x04\x00')
h.update(common.MP(self.proto.p))
h.update(common.MP(self.proto.g))
h.update(common.MP(e))
h.update(f)
h.update(sharedSecret)
exchangeHash = h.digest()
self.proto.ssh_KEX_DH_GEX_INIT(common.MP(e))
self.assertEqual(
self.packets[1:],
[(transport.MSG_KEX_DH_GEX_REPLY,
common.NS(self.proto.factory.publicKeys['ssh-rsa'].blob()) +
f + common.NS(self.proto.factory.privateKeys['ssh-rsa'].sign(
exchangeHash))),
(transport.MSG_NEWKEYS, '')])
def test_keySetup(self):
"""
Test that _keySetup sets up the next encryption keys.
"""
self.proto.nextEncryptions = MockCipher()
self.simulateKeyExchange('AB', 'CD')
self.assertEqual(self.proto.sessionID, 'CD')
self.simulateKeyExchange('AB', 'EF')
self.assertEqual(self.proto.sessionID, 'CD')
self.assertEqual(self.packets[-1], (transport.MSG_NEWKEYS, ''))
newKeys = [self.proto._getKey(c, 'AB', 'EF') for c in 'ABCDEF']
self.assertEqual(
self.proto.nextEncryptions.keys,
(newKeys[1], newKeys[3], newKeys[0], newKeys[2], newKeys[5],
newKeys[4]))
def test_NEWKEYS(self):
"""
Test that NEWKEYS transitions the keys in nextEncryptions to
currentEncryptions.
"""
self.test_KEXINIT()
self.proto.nextEncryptions = transport.SSHCiphers('none', 'none',
'none', 'none')
self.proto.ssh_NEWKEYS('')
self.assertIs(self.proto.currentEncryptions,
self.proto.nextEncryptions)
self.assertIs(self.proto.outgoingCompression, None)
self.assertIs(self.proto.incomingCompression, None)
self.proto.outgoingCompressionType = 'zlib'
self.simulateKeyExchange('AB', 'CD')
self.proto.ssh_NEWKEYS('')
self.assertIsNot(self.proto.outgoingCompression, None)
self.proto.incomingCompressionType = 'zlib'
self.simulateKeyExchange('AB', 'EF')
self.proto.ssh_NEWKEYS('')
self.assertIsNot(self.proto.incomingCompression, None)
def test_SERVICE_REQUEST(self):
"""
Test that the SERVICE_REQUEST message requests and starts a
service.
"""
self.proto.ssh_SERVICE_REQUEST(common.NS('ssh-userauth'))
self.assertEqual(self.packets, [(transport.MSG_SERVICE_ACCEPT,
common.NS('ssh-userauth'))])
self.assertEqual(self.proto.service.name, 'MockService')
def test_disconnectNEWKEYSData(self):
"""
Test that NEWKEYS disconnects if it receives data.
"""
self.proto.ssh_NEWKEYS("bad packet")
self.checkDisconnected()
def test_disconnectSERVICE_REQUESTBadService(self):
"""
Test that SERVICE_REQUESTS disconnects if an unknown service is
requested.
"""
self.proto.ssh_SERVICE_REQUEST(common.NS('no service'))
self.checkDisconnected(transport.DISCONNECT_SERVICE_NOT_AVAILABLE)
class ClientSSHTransportTestCase(ServerAndClientSSHTransportBaseCase,
TransportTestCase):
"""
Tests for SSHClientTransport.
"""
klass = transport.SSHClientTransport
def test_KEXINIT(self):
"""
Test that receiving a KEXINIT packet sets up the correct values on the
client. The way algorithms are picks is that the first item in the
client's list that is also in the server's list is chosen.
"""
self.proto.dataReceived( 'SSH-2.0-Twisted\r\n\x00\x00\x01\xd4\t\x14'
'\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99\x99'
'\x99\x00\x00\x00=diffie-hellman-group1-sha1,diffie-hellman-g'
'roup-exchange-sha1\x00\x00\x00\x0fssh-dss,ssh-rsa\x00\x00\x00'
'\x85aes128-ctr,aes128-cbc,aes192-ctr,aes192-cbc,aes256-ctr,ae'
's256-cbc,cast128-ctr,cast128-cbc,blowfish-ctr,blowfish-cbc,3d'
'es-ctr,3des-cbc\x00\x00\x00\x85aes128-ctr,aes128-cbc,aes192-c'
'tr,aes192-cbc,aes256-ctr,aes256-cbc,cast128-ctr,cast128-cbc,b'
'lowfish-ctr,blowfish-cbc,3des-ctr,3des-cbc\x00\x00\x00\x12hma'
'c-md5,hmac-sha1\x00\x00\x00\x12hmac-md5,hmac-sha1\x00\x00\x00'
'\tzlib,none\x00\x00\x00\tzlib,none\x00\x00\x00\x00\x00\x00'
'\x00\x00\x00\x00\x00\x00\x00\x99\x99\x99\x99\x99\x99\x99\x99'
'\x99')
self.assertEqual(self.proto.kexAlg,
'diffie-hellman-group-exchange-sha1')
self.assertEqual(self.proto.keyAlg,
'ssh-rsa')
self.assertEqual(self.proto.outgoingCompressionType,
'none')
self.assertEqual(self.proto.incomingCompressionType,
'none')
ne = self.proto.nextEncryptions
self.assertEqual(ne.outCipType, 'aes256-ctr')
self.assertEqual(ne.inCipType, 'aes256-ctr')
self.assertEqual(ne.outMACType, 'hmac-sha1')
self.assertEqual(ne.inMACType, 'hmac-sha1')
def verifyHostKey(self, pubKey, fingerprint):
"""
Mock version of SSHClientTransport.verifyHostKey.
"""
self.calledVerifyHostKey = True
self.assertEqual(pubKey, self.blob)
self.assertEqual(fingerprint.replace(':', ''),
md5(pubKey).hexdigest())
return defer.succeed(True)
def setUp(self):
TransportTestCase.setUp(self)
self.blob = keys.Key.fromString(keydata.publicRSA_openssh).blob()
self.privObj = keys.Key.fromString(keydata.privateRSA_openssh)
self.calledVerifyHostKey = False
self.proto.verifyHostKey = self.verifyHostKey
def test_notImplementedClientMethods(self):
"""
verifyHostKey() should return a Deferred which fails with a
NotImplementedError exception. connectionSecure() should raise
NotImplementedError().
"""
self.assertRaises(NotImplementedError, self.klass().connectionSecure)
def _checkRaises(f):
f.trap(NotImplementedError)
d = self.klass().verifyHostKey(None, None)
return d.addCallback(self.fail).addErrback(_checkRaises)
def test_KEXINIT_groupexchange(self):
"""
Test that a KEXINIT packet with a group-exchange key exchange results
in a KEX_DH_GEX_REQUEST_OLD message..
"""
self.proto.supportedKeyExchanges = [
'diffie-hellman-group-exchange-sha1']
self.proto.dataReceived(self.transport.value())
self.assertEqual(self.packets, [(transport.MSG_KEX_DH_GEX_REQUEST_OLD,
'\x00\x00\x08\x00')])
def test_KEXINIT_group1(self):
"""
Like test_KEXINIT_groupexchange, but for the group-1 key exchange.
"""
self.proto.supportedKeyExchanges = ['diffie-hellman-group1-sha1']
self.proto.dataReceived(self.transport.value())
self.assertEqual(common.MP(self.proto.x)[5:], '\x99' * 64)
self.assertEqual(self.packets,
[(transport.MSG_KEXDH_INIT, self.proto.e)])
def test_KEXINIT_badKexAlg(self):
"""
Test that the client raises a ConchError if it receives a
KEXINIT message bug doesn't have a key exchange algorithm that we
understand.
"""
self.proto.supportedKeyExchanges = ['diffie-hellman-group2-sha1']
data = self.transport.value().replace('group1', 'group2')
self.assertRaises(ConchError, self.proto.dataReceived, data)
def test_KEXDH_REPLY(self):
"""
Test that the KEXDH_REPLY message verifies the server.
"""
self.test_KEXINIT_group1()
sharedSecret = common._MPpow(transport.DH_GENERATOR,
self.proto.x, transport.DH_PRIME)
h = sha1()
h.update(common.NS(self.proto.ourVersionString) * 2)
h.update(common.NS(self.proto.ourKexInitPayload) * 2)
h.update(common.NS(self.blob))
h.update(self.proto.e)
h.update('\x00\x00\x00\x01\x02') # f
h.update(sharedSecret)
exchangeHash = h.digest()
def _cbTestKEXDH_REPLY(value):
self.assertIs(value, None)
self.assertEqual(self.calledVerifyHostKey, True)
self.assertEqual(self.proto.sessionID, exchangeHash)
signature = self.privObj.sign(exchangeHash)
d = self.proto.ssh_KEX_DH_GEX_GROUP(
(common.NS(self.blob) + '\x00\x00\x00\x01\x02' +
common.NS(signature)))
d.addCallback(_cbTestKEXDH_REPLY)
return d
def test_KEX_DH_GEX_GROUP(self):
"""
Test that the KEX_DH_GEX_GROUP message results in a
KEX_DH_GEX_INIT message with the client's Diffie-Hellman public key.
"""
self.test_KEXINIT_groupexchange()
self.proto.ssh_KEX_DH_GEX_GROUP(
'\x00\x00\x00\x01\x0f\x00\x00\x00\x01\x02')
self.assertEqual(self.proto.p, 15)
self.assertEqual(self.proto.g, 2)
self.assertEqual(common.MP(self.proto.x)[5:], '\x99' * 40)
self.assertEqual(self.proto.e,
common.MP(pow(2, self.proto.x, 15)))
self.assertEqual(self.packets[1:], [(transport.MSG_KEX_DH_GEX_INIT,
self.proto.e)])
def test_KEX_DH_GEX_REPLY(self):
"""
Test that the KEX_DH_GEX_REPLY message results in a verified
server.
"""
self.test_KEX_DH_GEX_GROUP()
sharedSecret = common._MPpow(3, self.proto.x, self.proto.p)
h = sha1()
h.update(common.NS(self.proto.ourVersionString) * 2)
h.update(common.NS(self.proto.ourKexInitPayload) * 2)
h.update(common.NS(self.blob))
h.update('\x00\x00\x08\x00\x00\x00\x00\x01\x0f\x00\x00\x00\x01\x02')
h.update(self.proto.e)
h.update('\x00\x00\x00\x01\x03') # f
h.update(sharedSecret)
exchangeHash = h.digest()
def _cbTestKEX_DH_GEX_REPLY(value):
self.assertIs(value, None)
self.assertEqual(self.calledVerifyHostKey, True)
self.assertEqual(self.proto.sessionID, exchangeHash)
signature = self.privObj.sign(exchangeHash)
d = self.proto.ssh_KEX_DH_GEX_REPLY(
common.NS(self.blob) +
'\x00\x00\x00\x01\x03' +
common.NS(signature))
d.addCallback(_cbTestKEX_DH_GEX_REPLY)
return d
def test_keySetup(self):
"""
Test that _keySetup sets up the next encryption keys.
"""
self.proto.nextEncryptions = MockCipher()
self.simulateKeyExchange('AB', 'CD')
self.assertEqual(self.proto.sessionID, 'CD')
self.simulateKeyExchange('AB', 'EF')
self.assertEqual(self.proto.sessionID, 'CD')
self.assertEqual(self.packets[-1], (transport.MSG_NEWKEYS, ''))
newKeys = [self.proto._getKey(c, 'AB', 'EF') for c in 'ABCDEF']
self.assertEqual(self.proto.nextEncryptions.keys,
(newKeys[0], newKeys[2], newKeys[1], newKeys[3],
newKeys[4], newKeys[5]))
def test_NEWKEYS(self):
"""
Test that NEWKEYS transitions the keys from nextEncryptions to
currentEncryptions.
"""
self.test_KEXINIT()
secure = [False]
def stubConnectionSecure():
secure[0] = True
self.proto.connectionSecure = stubConnectionSecure
self.proto.nextEncryptions = transport.SSHCiphers(
'none', 'none', 'none', 'none')
self.simulateKeyExchange('AB', 'CD')
self.assertIsNot(self.proto.currentEncryptions,
self.proto.nextEncryptions)
self.proto.nextEncryptions = MockCipher()
self.proto.ssh_NEWKEYS('')
self.assertIs(self.proto.outgoingCompression, None)
self.assertIs(self.proto.incomingCompression, None)
self.assertIs(self.proto.currentEncryptions,
self.proto.nextEncryptions)
self.assertTrue(secure[0])
self.proto.outgoingCompressionType = 'zlib'
self.simulateKeyExchange('AB', 'GH')
self.proto.ssh_NEWKEYS('')
self.assertIsNot(self.proto.outgoingCompression, None)
self.proto.incomingCompressionType = 'zlib'
self.simulateKeyExchange('AB', 'IJ')
self.proto.ssh_NEWKEYS('')
self.assertIsNot(self.proto.incomingCompression, None)
def test_SERVICE_ACCEPT(self):
"""
Test that the SERVICE_ACCEPT packet starts the requested service.
"""
self.proto.instance = MockService()
self.proto.ssh_SERVICE_ACCEPT('\x00\x00\x00\x0bMockService')
self.assertTrue(self.proto.instance.started)
def test_requestService(self):
"""
Test that requesting a service sends a SERVICE_REQUEST packet.
"""
self.proto.requestService(MockService())
self.assertEqual(self.packets, [(transport.MSG_SERVICE_REQUEST,
'\x00\x00\x00\x0bMockService')])
def test_disconnectKEXDH_REPLYBadSignature(self):
"""
Test that KEXDH_REPLY disconnects if the signature is bad.
"""
self.test_KEXDH_REPLY()
self.proto._continueKEXDH_REPLY(None, self.blob, 3, "bad signature")
self.checkDisconnected(transport.DISCONNECT_KEY_EXCHANGE_FAILED)
def test_disconnectGEX_REPLYBadSignature(self):
"""
Like test_disconnectKEXDH_REPLYBadSignature, but for DH_GEX_REPLY.
"""
self.test_KEX_DH_GEX_REPLY()
self.proto._continueGEX_REPLY(None, self.blob, 3, "bad signature")
self.checkDisconnected(transport.DISCONNECT_KEY_EXCHANGE_FAILED)
def test_disconnectNEWKEYSData(self):
"""
Test that NEWKEYS disconnects if it receives data.
"""
self.proto.ssh_NEWKEYS("bad packet")
self.checkDisconnected()
def test_disconnectSERVICE_ACCEPT(self):
"""
Test that SERVICE_ACCEPT disconnects if the accepted protocol is
differet from the asked-for protocol.
"""
self.proto.instance = MockService()
self.proto.ssh_SERVICE_ACCEPT('\x00\x00\x00\x03bad')
self.checkDisconnected()
def test_noPayloadSERVICE_ACCEPT(self):
"""
Some commercial SSH servers don't send a payload with the
SERVICE_ACCEPT message. Conch pretends that it got the correct
name of the service.
"""
self.proto.instance = MockService()
self.proto.ssh_SERVICE_ACCEPT('') # no payload
self.assertTrue(self.proto.instance.started)
self.assertEqual(len(self.packets), 0) # not disconnected
class GetMACTestCase(unittest.TestCase):
"""
Tests for L{SSHCiphers._getMAC}.
"""
if dependencySkip:
skip = dependencySkip
def setUp(self):
self.ciphers = transport.SSHCiphers(b'A', b'B', b'C', b'D')
# MD5 digest is 16 bytes. Put some non-zero bytes into that part of
# the key. Maybe varying the bytes a little bit means a bug in the
# implementation is more likely to be caught by the assertions below.
# The remaining 48 bytes of NULs are to pad the key out to 64 bytes.
# It doesn't seem to matter that SHA1 produces a larger digest. The
# material seems always to need to be truncated at 16 bytes.
self.key = '\x55\xaa' * 8 + '\x00' * 48
self.ipad = b''.join(chr(ord(b) ^ 0x36) for b in self.key)
self.opad = b''.join(chr(ord(b) ^ 0x5c) for b in self.key)
def test_hmacsha1(self):
"""
When L{SSHCiphers._getMAC} is called with the C{b"hmac-sha1"} MAC
algorithm name it returns a tuple of (sha1 digest object, inner pad,
outer pad, sha1 digest size) with a C{key} attribute set to the value
of the key supplied.
"""
params = self.ciphers._getMAC(b"hmac-sha1", self.key)
self.assertEqual(
(sha1, self.ipad, self.opad, sha1().digest_size, self.key),
params + (params.key,))
def test_md5sha1(self):
"""
When L{SSHCiphers._getMAC} is called with the C{b"hmac-md5"} MAC
algorithm name it returns a tuple of (md5 digest object, inner pad,
outer pad, md5 digest size) with a C{key} attribute set to the value of
the key supplied.
"""
params = self.ciphers._getMAC(b"hmac-md5", self.key)
self.assertEqual(
(md5, self.ipad, self.opad, md5().digest_size, self.key),
params + (params.key,))
def test_none(self):
"""
When L{SSHCiphers._getMAC} is called with the C{b"none"} MAC algorithm
name it returns a tuple of (None, "", "", 0)
"""
params = self.ciphers._getMAC(b"none", self.key)
self.assertEqual((None, b"", b"", 0), params)
class SSHCiphersTestCase(unittest.TestCase):
"""
Tests for the SSHCiphers helper class.
"""
if dependencySkip:
skip = dependencySkip
def test_init(self):
"""
Test that the initializer sets up the SSHCiphers object.
"""
ciphers = transport.SSHCiphers('A', 'B', 'C', 'D')
self.assertEqual(ciphers.outCipType, 'A')
self.assertEqual(ciphers.inCipType, 'B')
self.assertEqual(ciphers.outMACType, 'C')
self.assertEqual(ciphers.inMACType, 'D')
def test_getCipher(self):
"""
Test that the _getCipher method returns the correct cipher.
"""
ciphers = transport.SSHCiphers('A', 'B', 'C', 'D')
iv = key = '\x00' * 16
for cipName, (modName, keySize, counter) in ciphers.cipherMap.items():
cip = ciphers._getCipher(cipName, iv, key)
if cipName == 'none':
self.assertIsInstance(cip, transport._DummyCipher)
else:
self.assertTrue(getClass(cip).__name__.startswith(modName))
def test_setKeysCiphers(self):
"""
Test that setKeys sets up the ciphers.
"""
key = '\x00' * 64
cipherItems = transport.SSHCiphers.cipherMap.items()
for cipName, (modName, keySize, counter) in cipherItems:
encCipher = transport.SSHCiphers(cipName, 'none', 'none', 'none')
decCipher = transport.SSHCiphers('none', cipName, 'none', 'none')
cip = encCipher._getCipher(cipName, key, key)
bs = cip.block_size
encCipher.setKeys(key, key, '', '', '', '')
decCipher.setKeys('', '', key, key, '', '')
self.assertEqual(encCipher.encBlockSize, bs)
self.assertEqual(decCipher.decBlockSize, bs)
enc = cip.encrypt(key[:bs])
enc2 = cip.encrypt(key[:bs])
if counter:
self.assertNotEqual(enc, enc2)
self.assertEqual(encCipher.encrypt(key[:bs]), enc)
self.assertEqual(encCipher.encrypt(key[:bs]), enc2)
self.assertEqual(decCipher.decrypt(enc), key[:bs])
self.assertEqual(decCipher.decrypt(enc2), key[:bs])
def test_setKeysMACs(self):
"""
Test that setKeys sets up the MACs.
"""
key = '\x00' * 64
for macName, mod in transport.SSHCiphers.macMap.items():
outMac = transport.SSHCiphers('none', 'none', macName, 'none')
inMac = transport.SSHCiphers('none', 'none', 'none', macName)
outMac.setKeys('', '', '', '', key, '')
inMac.setKeys('', '', '', '', '', key)
if mod:
ds = mod().digest_size
else:
ds = 0
self.assertEqual(inMac.verifyDigestSize, ds)
if mod:
mod, i, o, ds = outMac._getMAC(macName, key)
seqid = 0
data = key
packet = '\x00' * 4 + key
if mod:
mac = mod(o + mod(i + packet).digest()).digest()
else:
mac = ''
self.assertEqual(outMac.makeMAC(seqid, data), mac)
self.assertTrue(inMac.verify(seqid, data, mac))
def test_makeMAC(self):
"""
L{SSHCiphers.makeMAC} computes the HMAC of an outgoing SSH message with
a particular sequence id and content data.
"""
# Use the test vectors given in the appendix of RFC 2104.
vectors = [
(b"\x0b" * 16, b"Hi There",
b"9294727a3638bb1c13f48ef8158bfc9d"),
(b"Jefe", b"what do ya want for nothing?",
b"750c783e6ab0b503eaa86e310a5db738"),
(b"\xAA" * 16, b"\xDD" * 50,
b"56be34521d144c88dbb8c733f0e8b3f6"),
]
for key, data, mac in vectors:
outMAC = transport.SSHCiphers('none', 'none', 'hmac-md5', 'none')
outMAC.outMAC = outMAC._getMAC("hmac-md5", key)
(seqid,) = struct.unpack('>L', data[:4])
shortened = data[4:]
self.assertEqual(
mac, outMAC.makeMAC(seqid, shortened).encode("hex"),
"Failed HMAC test vector; key=%r data=%r" % (key, data))
class CounterTestCase(unittest.TestCase):
"""
Tests for the _Counter helper class.
"""
if dependencySkip:
skip = dependencySkip
def test_init(self):
"""
Test that the counter is initialized correctly.
"""
counter = transport._Counter('\x00' * 8 + '\xff' * 8, 8)
self.assertEqual(counter.blockSize, 8)
self.assertEqual(counter.count.tostring(), '\x00' * 8)
def test_count(self):
"""
Test that the counter counts incrementally and wraps at the top.
"""
counter = transport._Counter('\x00', 1)
self.assertEqual(counter(), '\x01')
self.assertEqual(counter(), '\x02')
[counter() for i in range(252)]
self.assertEqual(counter(), '\xff')
self.assertEqual(counter(), '\x00')
class TransportLoopbackTestCase(unittest.TestCase):
"""
Test the server transport and client transport against each other,
"""
if dependencySkip:
skip = dependencySkip
def _runClientServer(self, mod):
"""
Run an async client and server, modifying each using the mod function
provided. Returns a Deferred called back when both Protocols have
disconnected.
@type mod: C{func}
@rtype: C{defer.Deferred}
"""
factory = MockFactory()
server = transport.SSHServerTransport()
server.factory = factory
factory.startFactory()
server.errors = []
server.receiveError = lambda code, desc: server.errors.append((
code, desc))
client = transport.SSHClientTransport()
client.verifyHostKey = lambda x, y: defer.succeed(None)
client.errors = []
client.receiveError = lambda code, desc: client.errors.append((
code, desc))
client.connectionSecure = lambda: client.loseConnection()
server = mod(server)
client = mod(client)
def check(ignored, server, client):
name = repr([server.supportedCiphers[0],
server.supportedMACs[0],
server.supportedKeyExchanges[0],
server.supportedCompressions[0]])
self.assertEqual(client.errors, [])
self.assertEqual(server.errors, [(
transport.DISCONNECT_CONNECTION_LOST,
"user closed connection")])
if server.supportedCiphers[0] == 'none':
self.assertFalse(server.isEncrypted(), name)
self.assertFalse(client.isEncrypted(), name)
else:
self.assertTrue(server.isEncrypted(), name)
self.assertTrue(client.isEncrypted(), name)
if server.supportedMACs[0] == 'none':
self.assertFalse(server.isVerified(), name)
self.assertFalse(client.isVerified(), name)
else:
self.assertTrue(server.isVerified(), name)
self.assertTrue(client.isVerified(), name)
d = loopback.loopbackAsync(server, client)
d.addCallback(check, server, client)
return d
def test_ciphers(self):
"""
Test that the client and server play nicely together, in all
the various combinations of ciphers.
"""
deferreds = []
for cipher in transport.SSHTransportBase.supportedCiphers + ['none']:
def setCipher(proto):
proto.supportedCiphers = [cipher]
return proto
deferreds.append(self._runClientServer(setCipher))
return defer.DeferredList(deferreds, fireOnOneErrback=True)
def test_macs(self):
"""
Like test_ciphers, but for the various MACs.
"""
deferreds = []
for mac in transport.SSHTransportBase.supportedMACs + ['none']:
def setMAC(proto):
proto.supportedMACs = [mac]
return proto
deferreds.append(self._runClientServer(setMAC))
return defer.DeferredList(deferreds, fireOnOneErrback=True)
def test_keyexchanges(self):
"""
Like test_ciphers, but for the various key exchanges.
"""
deferreds = []
for kex in transport.SSHTransportBase.supportedKeyExchanges:
def setKeyExchange(proto):
proto.supportedKeyExchanges = [kex]
return proto
deferreds.append(self._runClientServer(setKeyExchange))
return defer.DeferredList(deferreds, fireOnOneErrback=True)
def test_compressions(self):
"""
Like test_ciphers, but for the various compressions.
"""
deferreds = []
for compression in transport.SSHTransportBase.supportedCompressions:
def setCompression(proto):
proto.supportedCompressions = [compression]
return proto
deferreds.append(self._runClientServer(setCompression))
return defer.DeferredList(deferreds, fireOnOneErrback=True)
class RandomNumberTestCase(unittest.TestCase):
"""
Tests for the random number generator L{_getRandomNumber} and private
key generator L{_generateX}.
"""
if dependencySkip:
skip = dependencySkip
def test_usesSuppliedRandomFunction(self):
"""
L{_getRandomNumber} returns an integer constructed directly from the
bytes returned by the random byte generator passed to it.
"""
def random(bytes):
# The number of bytes requested will be the value of each byte
# we return.
return chr(bytes) * bytes
self.assertEqual(
transport._getRandomNumber(random, 32),
4 << 24 | 4 << 16 | 4 << 8 | 4)
def test_rejectsNonByteMultiples(self):
"""
L{_getRandomNumber} raises L{ValueError} if the number of bits
passed to L{_getRandomNumber} is not a multiple of 8.
"""
self.assertRaises(
ValueError,
transport._getRandomNumber, None, 9)
def test_excludesSmall(self):
"""
If the random byte generator passed to L{_generateX} produces bytes
which would result in 0 or 1 being returned, these bytes are
discarded and another attempt is made to produce a larger value.
"""
results = [chr(0), chr(1), chr(127)]
def random(bytes):
return results.pop(0) * bytes
self.assertEqual(
transport._generateX(random, 8),
127)
def test_excludesLarge(self):
"""
If the random byte generator passed to L{_generateX} produces bytes
which would result in C{(2 ** bits) - 1} being returned, these bytes
are discarded and another attempt is made to produce a smaller
value.
"""
results = [chr(255), chr(64)]
def random(bytes):
return results.pop(0) * bytes
self.assertEqual(
transport._generateX(random, 8),
64)
class OldFactoryTestCase(unittest.TestCase):
"""
The old C{SSHFactory.getPublicKeys}() returned mappings of key names to
strings of key blobs and mappings of key names to PyCrypto key objects from
C{SSHFactory.getPrivateKeys}() (they could also be specified with the
C{publicKeys} and C{privateKeys} attributes). This is no longer supported
by the C{SSHServerTransport}, so we warn the user if they create an old
factory.
"""
if dependencySkip:
skip = dependencySkip
def test_getPublicKeysWarning(self):
"""
If the return value of C{getPublicKeys}() isn't a mapping from key
names to C{Key} objects, then warn the user and convert the mapping.
"""
sshFactory = MockOldFactoryPublicKeys()
self.assertWarns(DeprecationWarning,
"Returning a mapping from strings to strings from"
" getPublicKeys()/publicKeys (in %s) is deprecated. Return "
"a mapping from strings to Key objects instead." %
(qual(MockOldFactoryPublicKeys),),
factory.__file__, sshFactory.startFactory)
self.assertEqual(sshFactory.publicKeys, MockFactory().getPublicKeys())
def test_getPrivateKeysWarning(self):
"""
If the return value of C{getPrivateKeys}() isn't a mapping from key
names to C{Key} objects, then warn the user and convert the mapping.
"""
sshFactory = MockOldFactoryPrivateKeys()
self.assertWarns(DeprecationWarning,
"Returning a mapping from strings to PyCrypto key objects from"
" getPrivateKeys()/privateKeys (in %s) is deprecated. Return"
" a mapping from strings to Key objects instead." %
(qual(MockOldFactoryPrivateKeys),),
factory.__file__, sshFactory.startFactory)
self.assertEqual(sshFactory.privateKeys,
MockFactory().getPrivateKeys())
def test_publicKeysWarning(self):
"""
If the value of the C{publicKeys} attribute isn't a mapping from key
names to C{Key} objects, then warn the user and convert the mapping.
"""
sshFactory = MockOldFactoryPublicKeys()
sshFactory.publicKeys = sshFactory.getPublicKeys()
self.assertWarns(DeprecationWarning,
"Returning a mapping from strings to strings from"
" getPublicKeys()/publicKeys (in %s) is deprecated. Return "
"a mapping from strings to Key objects instead." %
(qual(MockOldFactoryPublicKeys),),
factory.__file__, sshFactory.startFactory)
self.assertEqual(sshFactory.publicKeys, MockFactory().getPublicKeys())
def test_privateKeysWarning(self):
"""
If the return value of C{privateKeys} attribute isn't a mapping from
key names to C{Key} objects, then warn the user and convert the
mapping.
"""
sshFactory = MockOldFactoryPrivateKeys()
sshFactory.privateKeys = sshFactory.getPrivateKeys()
self.assertWarns(DeprecationWarning,
"Returning a mapping from strings to PyCrypto key objects from"
" getPrivateKeys()/privateKeys (in %s) is deprecated. Return"
" a mapping from strings to Key objects instead." %
(qual(MockOldFactoryPrivateKeys),),
factory.__file__, sshFactory.startFactory)
self.assertEqual(sshFactory.privateKeys,
MockFactory().getPrivateKeys())
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