911 lines
26 KiB
Python
911 lines
26 KiB
Python
from common import gajim
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from common import xmpp
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from common import helpers
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from common import exceptions
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import random
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import string
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import time
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import xmpp.c14n
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import base64
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XmlDsig = 'http://www.w3.org/2000/09/xmldsig#'
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class StanzaSession(object):
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def __init__(self, conn, jid, thread_id, type):
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self.conn = conn
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self.jid = jid
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self.type = type
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if thread_id:
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self.received_thread_id = True
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self.thread_id = thread_id
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else:
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self.received_thread_id = False
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if type == 'normal':
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self.thread_id = None
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else:
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self.thread_id = self.generate_thread_id()
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self.last_send = 0
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self.status = None
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self.negotiated = {}
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def generate_thread_id(self):
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return "".join([random.choice(string.ascii_letters) for x in xrange(0,32)])
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def send(self, msg):
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if self.thread_id:
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msg.NT.thread = self.thread_id
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msg.setAttr('to', self.jid)
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self.conn.send_stanza(msg)
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if isinstance(msg, xmpp.Message):
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self.last_send = time.time()
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def reject_negotiation(self, body = None):
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msg = xmpp.Message()
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feature = msg.NT.feature
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feature.setNamespace(xmpp.NS_FEATURE)
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x = xmpp.DataForm(typ='submit')
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x.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn'))
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x.addChild(node=xmpp.DataField(name='accept', value='0'))
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feature.addChild(node=x)
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if body:
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msg.setBody(body)
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self.send(msg)
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self.cancelled_negotiation()
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def cancelled_negotiation(self):
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'''A negotiation has been cancelled, so reset this session to its default state.'''
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if hasattr(self, 'control'):
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self.control.on_cancel_session_negotiation()
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self.status = None
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self.negotiated = {}
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def terminate(self):
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msg = xmpp.Message()
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feature = msg.NT.feature
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feature.setNamespace(xmpp.NS_FEATURE)
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x = xmpp.DataForm(typ='submit')
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x.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn'))
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x.addChild(node=xmpp.DataField(name='terminate', value='1'))
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feature.addChild(node=x)
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self.send(msg)
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self.status = None
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def acknowledge_termination(self):
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# we could send an acknowledgement message to the remote client here
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self.status = None
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if gajim.HAVE_PYCRYPTO:
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from Crypto.Cipher import AES
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from Crypto.Hash import HMAC, SHA256
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from Crypto.PublicKey import RSA
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from common import crypto
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from common import dh
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import secrets
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# an encrypted stanza negotiation has several states. i've represented them
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# as the following values in the 'status'
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# attribute of the session object:
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# 1. None:
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# default state
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# 2. 'requested-e2e':
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# this client has initiated an esession negotiation and is waiting
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# for a response
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# 3. 'responded-e2e':
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# this client has responded to an esession negotiation request and
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# is waiting for the initiator to identify itself and complete the
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# negotiation
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# 4. 'identified-alice':
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# this client identified itself and is waiting for the responder to
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# identify itself and complete the negotiation
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# 5. 'active':
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# an encrypted session has been successfully negotiated. messages
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# of any of the types listed in 'encryptable_stanzas' should be
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# encrypted before they're sent.
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# the transition between these states is handled in gajim.py's
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# handle_session_negotiation method.
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class EncryptedStanzaSession(StanzaSession):
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def __init__(self, conn, jid, thread_id, type = 'chat'):
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StanzaSession.__init__(self, conn, jid, thread_id, type = 'chat')
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self.loggable = True
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self.xes = {}
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self.es = {}
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self.n = 128
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self.enable_encryption = False
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# _s denotes 'self' (ie. this client)
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self._kc_s = None
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# _o denotes 'other' (ie. the client at the other end of the session)
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self._kc_o = None
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# keep the encrypter updated with my latest cipher key
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def set_kc_s(self, value):
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self._kc_s = value
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self.encrypter = self.cipher.new(self._kc_s, self.cipher.MODE_CTR,
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counter=self.encryptcounter)
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def get_kc_s(self):
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return self._kc_s
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# keep the decrypter updated with the other party's latest cipher key
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def set_kc_o(self, value):
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self._kc_o = value
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self.decrypter = self.cipher.new(self._kc_o, self.cipher.MODE_CTR,
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counter=self.decryptcounter)
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def get_kc_o(self):
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return self._kc_o
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kc_s = property(get_kc_s, set_kc_s)
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kc_o = property(get_kc_o, set_kc_o)
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def encryptcounter(self):
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self.c_s = (self.c_s + 1) % (2 ** self.n)
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return crypto.encode_mpi_with_padding(self.c_s)
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def decryptcounter(self):
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self.c_o = (self.c_o + 1) % (2 ** self.n)
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return crypto.encode_mpi_with_padding(self.c_o)
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def sign(self, string):
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if self.negotiated['sign_algs'] == (XmlDsig + 'rsa-sha256'):
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hash = crypto.sha256(string)
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return crypto.encode_mpi(gajim.pubkey.sign(hash, '')[0])
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def encrypt_stanza(self, stanza):
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encryptable = filter(lambda x: x.getName() not in ('error', 'amp',
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'thread'), stanza.getChildren())
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# XXX can also encrypt contents of <error/> elements in stanzas @type =
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# 'error'
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# (except for <defined-condition
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# xmlns='urn:ietf:params:xml:ns:xmpp-stanzas'/> child elements)
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old_en_counter = self.c_s
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for element in encryptable:
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stanza.delChild(element)
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plaintext = ''.join(map(str, encryptable))
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m_compressed = self.compress(plaintext)
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m_final = self.encrypt(m_compressed)
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c = stanza.NT.c
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c.setNamespace('http://www.xmpp.org/extensions/xep-0200.html#ns')
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c.NT.data = base64.b64encode(m_final)
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# XXX check for rekey request, handle <key/> elements
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m_content = ''.join(map(str, c.getChildren()))
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c.NT.mac = base64.b64encode(self.hmac(self.km_s, m_content + \
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crypto.encode_mpi(old_en_counter)))
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return stanza
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def hmac(self, key, content):
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return HMAC.new(key, content, self.hash_alg).digest()
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def generate_initiator_keys(self, k):
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return (self.hmac(k, 'Initiator Cipher Key'),
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self.hmac(k, 'Initiator MAC Key'),
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self.hmac(k, 'Initiator SIGMA Key') )
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def generate_responder_keys(self, k):
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return (self.hmac(k, 'Responder Cipher Key'),
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self.hmac(k, 'Responder MAC Key'),
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self.hmac(k, 'Responder SIGMA Key') )
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def compress(self, plaintext):
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if self.compression == None:
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return plaintext
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def decompress(self, compressed):
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if self.compression == None:
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return compressed
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def encrypt(self, encryptable):
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padded = crypto.pad_to_multiple(encryptable, 16, ' ', False)
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return self.encrypter.encrypt(padded)
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def decrypt_stanza(self, stanza):
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c = stanza.getTag(name='c',
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namespace='http://www.xmpp.org/extensions/xep-0200.html#ns')
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stanza.delChild(c)
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# contents of <c>, minus <mac>, minus whitespace
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macable = ''.join(map(str, filter(lambda x: x.getName() != 'mac',
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c.getChildren())))
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received_mac = base64.b64decode(c.getTagData('mac'))
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calculated_mac = self.hmac(self.km_o, macable + \
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crypto.encode_mpi_with_padding(self.c_o))
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if not calculated_mac == received_mac:
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raise exceptions.DecryptionError, 'bad signature'
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m_final = base64.b64decode(c.getTagData('data'))
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m_compressed = self.decrypt(m_final)
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plaintext = self.decompress(m_compressed)
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try:
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parsed = xmpp.Node(node='<node>' + plaintext + '</node>')
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except:
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raise exceptions.DecryptionError, 'decrypted <data/> not parseable as XML'
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for child in parsed.getChildren():
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stanza.addChild(node=child)
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return stanza
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def decrypt(self, ciphertext):
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return self.decrypter.decrypt(ciphertext)
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def logging_preference(self):
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if gajim.config.get('log_encrypted_sessions'):
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return ["may", "mustnot"]
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else:
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return ["mustnot", "may"]
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def get_shared_secret(self, e, y, p):
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if (not 1 < e < (p - 1)):
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raise exceptions.NegotiationError, "invalid DH value"
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return crypto.sha256(crypto.encode_mpi(crypto.powmod(e, y, p)))
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def c7lize_mac_id(self, form):
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kids = form.getChildren()
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macable = filter(lambda x: x.getVar() not in ('mac', 'identity'), kids)
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return ''.join(map(lambda el: xmpp.c14n.c14n(el), macable))
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def verify_identity(self, form, dh_i, sigmai, i_o):
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m_o = base64.b64decode(form['mac'])
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id_o = base64.b64decode(form['identity'])
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m_o_calculated = self.hmac(self.km_o, crypto.encode_mpi(self.c_o) + id_o)
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if m_o_calculated != m_o:
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raise exceptions.NegotiationError, 'calculated m_%s differs from received m_%s' % (i_o, i_o)
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if i_o == 'a' and self.sas_algs == 'sas28x5':
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# XXX not necessary if there's a verified retained secret
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self.sas = crypto.sas_28x5(m_o, self.form_s)
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if self.negotiated['recv_pubkey']:
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plaintext = self.decrypt(id_o)
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parsed = xmpp.Node(node='<node>' + plaintext + '</node>')
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if self.negotiated['recv_pubkey'] == 'hash':
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fingerprint = parsed.getTagData('fingerprint')
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# XXX find stored pubkey or terminate session
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raise 'unimplemented'
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else:
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if self.negotiated['sign_algs'] == (XmlDsig + 'rsa-sha256'):
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keyvalue = parsed.getTag(name='RSAKeyValue', namespace=XmlDsig)
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n, e = map(lambda x: crypto.decode_mpi(base64.b64decode(
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keyvalue.getTagData(x))), ('Modulus', 'Exponent'))
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eir_pubkey = RSA.construct((n,long(e)))
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pubkey_o = xmpp.c14n.c14n(keyvalue)
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else:
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# XXX DSA, etc.
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raise 'unimplemented'
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enc_sig = parsed.getTag(name='SignatureValue',
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namespace=XmlDsig).getData()
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signature = (crypto.decode_mpi(base64.b64decode(enc_sig)),)
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else:
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mac_o = self.decrypt(id_o)
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pubkey_o = ''
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c7l_form = self.c7lize_mac_id(form)
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content = self.n_s + self.n_o + crypto.encode_mpi(dh_i) + pubkey_o
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if sigmai:
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self.form_o = c7l_form
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content += self.form_o
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else:
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form_o2 = c7l_form
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content += self.form_o + form_o2
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mac_o_calculated = self.hmac(self.ks_o, content)
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if self.negotiated['recv_pubkey']:
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hash = crypto.sha256(mac_o_calculated)
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if not eir_pubkey.verify(hash, signature):
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raise exceptions.NegotiationError, 'public key signature verification failed!'
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elif mac_o_calculated != mac_o:
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raise exceptions.NegotiationError, 'calculated mac_%s differs from received mac_%s' % (i_o, i_o)
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def make_identity(self, form, dh_i):
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if self.negotiated['send_pubkey']:
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if self.negotiated['sign_algs'] == (XmlDsig + 'rsa-sha256'):
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pubkey = secrets.secrets().my_pubkey(self.conn.name)
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fields = (pubkey.n, pubkey.e)
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cb_fields = map(lambda f: base64.b64encode(crypto.encode_mpi(f)), fields)
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pubkey_s = '<RSAKeyValue xmlns="http://www.w3.org/2000/09/xmldsig#"><Modulus>%s</Modulus><Exponent>%s</Exponent></RSAKeyValue>' % tuple(cb_fields)
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else:
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pubkey_s = ''
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form_s2 = ''.join(map(lambda el: xmpp.c14n.c14n(el), form.getChildren()))
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old_c_s = self.c_s
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content = self.n_o + self.n_s + crypto.encode_mpi(dh_i) + pubkey_s + self.form_s + form_s2
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mac_s = self.hmac(self.ks_s, content)
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if self.negotiated['send_pubkey']:
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signature = self.sign(mac_s)
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sign_s = '<SignatureValue xmlns="http://www.w3.org/2000/09/xmldsig#">%s</SignatureValue>' % base64.b64encode(signature)
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if self.negotiated['send_pubkey'] == 'hash':
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b64ed = base64.b64encode(self.hash(pubkey_s))
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pubkey_s = '<fingerprint>%s</fingerprint>' % b64ed
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id_s = self.encrypt(pubkey_s + sign_s)
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else:
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id_s = self.encrypt(mac_s)
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m_s = self.hmac(self.km_s, crypto.encode_mpi(old_c_s) + id_s)
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if self.status == 'requested-e2e' and self.sas_algs == 'sas28x5':
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# we're alice; check for a retained secret
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# if none exists, prompt the user with the SAS
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self.sas = crypto.sas_28x5(m_s, self.form_o)
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if self.sigmai:
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# XXX save retained secret?
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self.check_identity(lambda : ())
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return (xmpp.DataField(name='identity', value=base64.b64encode(id_s)), \
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xmpp.DataField(name='mac', value=base64.b64encode(m_s)))
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def negotiate_e2e(self, sigmai):
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self.negotiated = {}
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request = xmpp.Message()
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feature = request.NT.feature
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feature.setNamespace(xmpp.NS_FEATURE)
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x = xmpp.DataForm(typ='form')
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x.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='accept', value='1', typ='boolean', required=True))
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# this field is incorrectly called 'otr' in XEPs 0116 and 0217
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x.addChild(node=xmpp.DataField(name='logging', typ='list-single', options=self.logging_preference(), required=True))
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# unsupported options: 'disabled', 'enabled'
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x.addChild(node=xmpp.DataField(name='disclosure', typ='list-single', options=['never'], required=True))
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x.addChild(node=xmpp.DataField(name='security', typ='list-single', options=['e2e'], required=True))
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x.addChild(node=xmpp.DataField(name='crypt_algs', value='aes128-ctr', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='hash_algs', value='sha256', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='compress', value='none', typ='hidden'))
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# unsupported options: 'iq', 'presence'
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x.addChild(node=xmpp.DataField(name='stanzas', typ='list-multi', options=['message']))
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x.addChild(node=xmpp.DataField(name='init_pubkey', options=['none', 'key', 'hash'], typ='list-single'))
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# XXX store key, use hash
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x.addChild(node=xmpp.DataField(name='resp_pubkey', options=['none', 'key'], typ='list-single'))
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x.addChild(node=xmpp.DataField(name='ver', value='1.0', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='rekey_freq', value='4294967295', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='sas_algs', value='sas28x5', typ='hidden'))
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x.addChild(node=xmpp.DataField(name='sign_algs', value='http://www.w3.org/2000/09/xmldsig#rsa-sha256', typ='hidden'))
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self.n_s = crypto.generate_nonce()
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x.addChild(node=xmpp.DataField(name='my_nonce', value=base64.b64encode(self.n_s), typ='hidden'))
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modp_options = [ 5, 14, 2, 1 ]
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x.addChild(node=xmpp.DataField(name='modp', typ='list-single', options=map(lambda x: [ None, x ], modp_options)))
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x.addChild(node=self.make_dhfield(modp_options, sigmai))
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self.sigmai = sigmai
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self.form_s = ''.join(map(lambda el: xmpp.c14n.c14n(el), x.getChildren()))
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feature.addChild(node=x)
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self.status = 'requested-e2e'
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self.send(request)
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# 4.3 esession response (bob)
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def verify_options_bob(self, form):
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negotiated = {'recv_pubkey': None, 'send_pubkey': None}
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not_acceptable = []
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ask_user = {}
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fixed = { 'disclosure': 'never',
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'security': 'e2e',
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'crypt_algs': 'aes128-ctr',
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'hash_algs': 'sha256',
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'compress': 'none',
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'stanzas': 'message',
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'init_pubkey': 'none',
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'resp_pubkey': 'none',
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'ver': '1.0',
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'sas_algs': 'sas28x5' }
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self.encryptable_stanzas = ['message']
|
|
|
|
self.sas_algs = 'sas28x5'
|
|
self.cipher = AES
|
|
self.hash_alg = SHA256
|
|
self.compression = None
|
|
|
|
for name, field in map(lambda name: (name, form.getField(name)), form.asDict().keys()):
|
|
options = map(lambda x: x[1], field.getOptions())
|
|
values = field.getValues()
|
|
|
|
if not field.getType() in ('list-single', 'list-multi'):
|
|
options = values
|
|
|
|
if name in fixed:
|
|
if fixed[name] in options:
|
|
negotiated[name] = fixed[name]
|
|
else:
|
|
not_acceptable.append(name)
|
|
elif name == 'rekey_freq':
|
|
preferred = int(options[0])
|
|
negotiated['rekey_freq'] = preferred
|
|
self.rekey_freq = preferred
|
|
elif name == 'logging':
|
|
my_prefs = self.logging_preference()
|
|
|
|
if my_prefs[0] in options: # our first choice is offered, select it
|
|
pref = my_prefs[0]
|
|
negotiated['logging'] = pref
|
|
else: # see if other acceptable choices are offered
|
|
for pref in my_prefs:
|
|
if pref in options:
|
|
ask_user['logging'] = pref
|
|
break
|
|
|
|
if not 'logging' in ask_user:
|
|
not_acceptable.append(name)
|
|
elif name == 'init_pubkey':
|
|
for x in ('key'):
|
|
if x in options:
|
|
negotiated['recv_pubkey'] = x
|
|
break
|
|
elif name == 'resp_pubkey':
|
|
for x in ('hash', 'key'):
|
|
if x in options:
|
|
negotiated['send_pubkey'] = x
|
|
break
|
|
elif name == 'sign_algs':
|
|
if (XmlDsig + 'rsa-sha256') in options:
|
|
negotiated['sign_algs'] = XmlDsig + 'rsa-sha256'
|
|
else:
|
|
# XXX some things are handled elsewhere, some things are not-implemented
|
|
pass
|
|
|
|
return (negotiated, not_acceptable, ask_user)
|
|
|
|
# 4.3 esession response (bob)
|
|
def respond_e2e_bob(self, form, negotiated, not_acceptable):
|
|
response = xmpp.Message()
|
|
feature = response.NT.feature
|
|
feature.setNamespace(xmpp.NS_FEATURE)
|
|
|
|
x = xmpp.DataForm(typ='submit')
|
|
|
|
x.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn'))
|
|
x.addChild(node=xmpp.DataField(name='accept', value='true'))
|
|
|
|
for name in negotiated:
|
|
# some fields are internal and should not be sent
|
|
if not name in ('send_pubkey', 'recv_pubkey'):
|
|
x.addChild(node=xmpp.DataField(name=name, value=negotiated[name]))
|
|
|
|
self.negotiated = negotiated
|
|
|
|
# the offset of the group we chose (need it to match up with the dhhash)
|
|
group_order = 0
|
|
self.modp = int(form.getField('modp').getOptions()[group_order][1])
|
|
x.addChild(node=xmpp.DataField(name='modp', value=self.modp))
|
|
|
|
g = dh.generators[self.modp]
|
|
p = dh.primes[self.modp]
|
|
|
|
self.n_o = base64.b64decode(form['my_nonce'])
|
|
|
|
dhhashes = form.getField('dhhashes').getValues()
|
|
self.negotiated['He'] = base64.b64decode(dhhashes[group_order].encode("utf8"))
|
|
|
|
bytes = int(self.n / 8)
|
|
|
|
self.n_s = crypto.generate_nonce()
|
|
|
|
self.c_o = crypto.decode_mpi(crypto.random_bytes(bytes)) # n-bit random number
|
|
self.c_s = self.c_o ^ (2 ** (self.n - 1))
|
|
|
|
self.y = crypto.srand(2 ** (2 * self.n - 1), p - 1)
|
|
self.d = crypto.powmod(g, self.y, p)
|
|
|
|
to_add = { 'my_nonce': self.n_s,
|
|
'dhkeys': crypto.encode_mpi(self.d),
|
|
'counter': crypto.encode_mpi(self.c_o),
|
|
'nonce': self.n_o }
|
|
|
|
for name in to_add:
|
|
b64ed = base64.b64encode(to_add[name])
|
|
x.addChild(node=xmpp.DataField(name=name, value=b64ed))
|
|
|
|
self.form_o = ''.join(map(lambda el: xmpp.c14n.c14n(el), form.getChildren()))
|
|
self.form_s = ''.join(map(lambda el: xmpp.c14n.c14n(el), x.getChildren()))
|
|
|
|
self.status = 'responded-e2e'
|
|
|
|
feature.addChild(node=x)
|
|
|
|
if not_acceptable:
|
|
response = xmpp.Error(response, xmpp.ERR_NOT_ACCEPTABLE)
|
|
|
|
feature = xmpp.Node(xmpp.NS_FEATURE + ' feature')
|
|
|
|
for f in not_acceptable:
|
|
n = xmpp.Node('field')
|
|
n['var'] = f
|
|
feature.addChild(node=n)
|
|
|
|
response.T.error.addChild(node=feature)
|
|
|
|
self.send(response)
|
|
|
|
# 'Alice Accepts'
|
|
def verify_options_alice(self, form):
|
|
negotiated = {}
|
|
ask_user = {}
|
|
not_acceptable = []
|
|
|
|
if not form['logging'] in self.logging_preference():
|
|
not_acceptable.append(form['logging'])
|
|
elif form['logging'] != self.logging_preference()[0]:
|
|
ask_user['logging'] = form['logging']
|
|
else:
|
|
negotiated['logging'] = self.logging_preference()[0]
|
|
|
|
for r,a in (('recv_pubkey', 'resp_pubkey'), ('send_pubkey', 'init_pubkey')):
|
|
negotiated[r] = None
|
|
|
|
if a in form.asDict() and form[a] in ('key', 'hash'):
|
|
negotiated[r] = form[a]
|
|
|
|
if 'sign_algs' in form.asDict():
|
|
if form['sign_algs'] in (XmlDsig + 'rsa-sha256',):
|
|
negotiated['sign_algs'] = form['sign_algs']
|
|
else:
|
|
not_acceptable.append(form['sign_algs'])
|
|
|
|
return (negotiated, not_acceptable, ask_user)
|
|
|
|
# 'Alice Accepts', continued
|
|
def accept_e2e_alice(self, form, negotiated):
|
|
self.encryptable_stanzas = ['message']
|
|
self.sas_algs = 'sas28x5'
|
|
self.cipher = AES
|
|
self.hash_alg = SHA256
|
|
self.compression = None
|
|
|
|
self.negotiated = negotiated
|
|
|
|
accept = xmpp.Message()
|
|
feature = accept.NT.feature
|
|
feature.setNamespace(xmpp.NS_FEATURE)
|
|
|
|
result = xmpp.DataForm(typ='result')
|
|
|
|
self.c_s = crypto.decode_mpi(base64.b64decode(form['counter']))
|
|
self.c_o = self.c_s ^ (2 ** (self.n - 1))
|
|
|
|
self.n_o = base64.b64decode(form['my_nonce'])
|
|
|
|
mod_p = int(form['modp'])
|
|
p = dh.primes[mod_p]
|
|
x = self.xes[mod_p]
|
|
e = self.es[mod_p]
|
|
|
|
self.d = crypto.decode_mpi(base64.b64decode(form['dhkeys']))
|
|
|
|
self.k = self.get_shared_secret(self.d, x, p)
|
|
|
|
result.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn'))
|
|
result.addChild(node=xmpp.DataField(name='accept', value='1'))
|
|
result.addChild(node=xmpp.DataField(name='nonce', value=base64.b64encode(self.n_o)))
|
|
|
|
self.kc_s, self.km_s, self.ks_s = self.generate_initiator_keys(self.k)
|
|
|
|
if self.sigmai:
|
|
self.kc_o, self.km_o, self.ks_o = self.generate_responder_keys(self.k)
|
|
self.verify_identity(form, self.d, True, 'b')
|
|
else:
|
|
srses = secrets.secrets().retained_secrets(self.conn.name, self.jid.getStripped())
|
|
rshashes = [self.hmac(self.n_s, rs) for (rs,v) in srses]
|
|
|
|
if not rshashes:
|
|
# we've never spoken before, but we'll pretend we have
|
|
rshash_size = self.hash_alg.digest_size
|
|
rshashes.append(crypto.random_bytes(rshash_size))
|
|
|
|
rshashes = [base64.b64encode(rshash) for rshash in rshashes]
|
|
result.addChild(node=xmpp.DataField(name='rshashes', value=rshashes))
|
|
result.addChild(node=xmpp.DataField(name='dhkeys', value=base64.b64encode(crypto.encode_mpi(e))))
|
|
|
|
self.form_o = ''.join(map(lambda el: xmpp.c14n.c14n(el), form.getChildren()))
|
|
|
|
# MUST securely destroy K unless it will be used later to generate the final shared secret
|
|
|
|
for datafield in self.make_identity(result, e):
|
|
result.addChild(node=datafield)
|
|
|
|
feature.addChild(node=result)
|
|
self.send(accept)
|
|
|
|
if self.sigmai:
|
|
self.status = 'active'
|
|
self.enable_encryption = True
|
|
else:
|
|
self.status = 'identified-alice'
|
|
|
|
# 4.5 esession accept (bob)
|
|
def accept_e2e_bob(self, form):
|
|
response = xmpp.Message()
|
|
|
|
init = response.NT.init
|
|
init.setNamespace(xmpp.NS_ESESSION_INIT)
|
|
|
|
x = xmpp.DataForm(typ='result')
|
|
|
|
for field in ('nonce', 'dhkeys', 'rshashes', 'identity', 'mac'):
|
|
assert field in form.asDict(), "alice's form didn't have a %s field" % field
|
|
|
|
# 4.5.1 generating provisory session keys
|
|
e = crypto.decode_mpi(base64.b64decode(form['dhkeys']))
|
|
p = dh.primes[self.modp]
|
|
|
|
if crypto.sha256(crypto.encode_mpi(e)) != self.negotiated['He']:
|
|
raise exceptions.NegotiationError, 'SHA256(e) != He'
|
|
|
|
k = self.get_shared_secret(e, self.y, p)
|
|
|
|
self.kc_o, self.km_o, self.ks_o = self.generate_initiator_keys(k)
|
|
|
|
# 4.5.2 verifying alice's identity
|
|
|
|
self.verify_identity(form, e, False, 'a')
|
|
|
|
# 4.5.4 generating bob's final session keys
|
|
|
|
srs = ''
|
|
|
|
srses = secrets.secrets().retained_secrets(self.conn.name, self.jid.getStripped())
|
|
rshashes = [base64.b64decode(rshash) for rshash in form.getField('rshashes').getValues()]
|
|
|
|
for (secret, verified) in srses:
|
|
if self.hmac(self.n_o, secret) in rshashes:
|
|
srs = secret
|
|
break
|
|
|
|
# other shared secret
|
|
# (we're not using one)
|
|
oss = ''
|
|
|
|
k = crypto.sha256(k + srs + oss)
|
|
|
|
self.kc_s, self.km_s, self.ks_s = self.generate_responder_keys(k)
|
|
self.kc_o, self.km_o, self.ks_o = self.generate_initiator_keys(k)
|
|
|
|
# 4.5.5
|
|
if srs:
|
|
srshash = self.hmac(srs, 'Shared Retained Secret')
|
|
else:
|
|
srshash = crypto.random_bytes(32)
|
|
|
|
x.addChild(node=xmpp.DataField(name='FORM_TYPE', value='urn:xmpp:ssn'))
|
|
x.addChild(node=xmpp.DataField(name='nonce', value=base64.b64encode(self.n_o)))
|
|
x.addChild(node=xmpp.DataField(name='srshash', value=base64.b64encode(srshash)))
|
|
|
|
for datafield in self.make_identity(x, self.d):
|
|
x.addChild(node=datafield)
|
|
|
|
init.addChild(node=x)
|
|
|
|
self.send(response)
|
|
|
|
self.do_retained_secret(k, srs)
|
|
|
|
if self.negotiated['logging'] == 'mustnot':
|
|
self.loggable = False
|
|
|
|
self.status = 'active'
|
|
self.enable_encryption = True
|
|
|
|
if hasattr(self, 'control'):
|
|
self.control.print_esession_details()
|
|
|
|
def final_steps_alice(self, form):
|
|
srs = ''
|
|
srses = secrets.secrets().retained_secrets(self.conn.name, self.jid.getStripped())
|
|
|
|
srshash = base64.b64decode(form['srshash'])
|
|
|
|
for (secret, verified) in srses:
|
|
if self.hmac(secret, 'Shared Retained Secret') == srshash:
|
|
srs = secret
|
|
break
|
|
|
|
oss = ''
|
|
k = crypto.sha256(self.k + srs + oss)
|
|
del self.k
|
|
|
|
self.do_retained_secret(k, srs)
|
|
|
|
# don't need to calculate ks_s here
|
|
|
|
self.kc_s, self.km_s, self.ks_s = self.generate_initiator_keys(k)
|
|
self.kc_o, self.km_o, self.ks_o = self.generate_responder_keys(k)
|
|
|
|
# 4.6.2 Verifying Bob's Identity
|
|
|
|
self.verify_identity(form, self.d, False, 'b')
|
|
# Note: If Alice discovers an error then she SHOULD ignore any encrypted content she received in the stanza.
|
|
|
|
if self.negotiated['logging'] == 'mustnot':
|
|
self.loggable = False
|
|
|
|
self.status = 'active'
|
|
self.enable_encryption = True
|
|
|
|
if hasattr(self, 'control'):
|
|
self.control.print_esession_details()
|
|
|
|
# calculate and store the new retained secret
|
|
# prompt the user to check the remote party's identity (if necessary)
|
|
def do_retained_secret(self, k, srs):
|
|
new_srs = self.hmac(k, 'New Retained Secret')
|
|
account = self.conn.name
|
|
bjid = self.jid.getStripped()
|
|
|
|
if srs:
|
|
if secrets.secrets().srs_verified(account, bjid, srs):
|
|
secrets.secrets().replace_srs(account, bjid, srs, new_srs, True)
|
|
else:
|
|
def _cb(verified):
|
|
secrets.secrets().replace_srs(account, bjid, srs, new_srs, verified)
|
|
|
|
self.check_identity(_cb)
|
|
else:
|
|
def _cb(verified):
|
|
secrets.secrets().save_new_srs(account, bjid, new_srs, verified)
|
|
|
|
self.check_identity(_cb)
|
|
|
|
def make_dhfield(self, modp_options, sigmai):
|
|
dhs = []
|
|
|
|
for modp in modp_options:
|
|
p = dh.primes[modp]
|
|
g = dh.generators[modp]
|
|
|
|
x = crypto.srand(2 ** (2 * self.n - 1), p - 1)
|
|
|
|
# XXX this may be a source of performance issues
|
|
e = crypto.powmod(g, x, p)
|
|
|
|
self.xes[modp] = x
|
|
self.es[modp] = e
|
|
|
|
if sigmai:
|
|
dhs.append(base64.b64encode(crypto.encode_mpi(e)))
|
|
name = 'dhkeys'
|
|
else:
|
|
He = crypto.sha256(crypto.encode_mpi(e))
|
|
dhs.append(base64.b64encode(He))
|
|
name = 'dhhashes'
|
|
|
|
return xmpp.DataField(name=name, typ='hidden', value=dhs)
|
|
|
|
def terminate_e2e(self):
|
|
self.terminate()
|
|
|
|
self.enable_encryption = False
|
|
|
|
def acknowledge_termination(self):
|
|
StanzaSession.acknowledge_termination(self)
|
|
|
|
self.enable_encryption = False
|
|
|
|
def fail_bad_negotiation(self, reason, fields = None):
|
|
'''sends an error and cancels everything.
|
|
|
|
if fields == None, the remote party has given us a bad cryptographic value of some kind
|
|
|
|
otherwise, list the fields we haven't implemented'''
|
|
|
|
err = xmpp.Error(xmpp.Message(), xmpp.ERR_FEATURE_NOT_IMPLEMENTED)
|
|
err.T.error.T.text.setData(reason)
|
|
|
|
if fields:
|
|
feature = xmpp.Node(xmpp.NS_FEATURE + ' feature')
|
|
|
|
for field in fields:
|
|
fn = xmpp.Node('field')
|
|
fn['var'] = field
|
|
feature.addChild(node=feature)
|
|
|
|
err.addChild(node=feature)
|
|
|
|
self.send(err)
|
|
|
|
self.status = None
|
|
self.enable_encryption = False
|
|
|
|
# this prevents the MAC check on decryption from succeeding,
|
|
# preventing falsified messages from going through.
|
|
self.km_o = ''
|
|
|
|
def is_loggable(self):
|
|
account = self.conn.name
|
|
no_log_for = gajim.config.get_per('accounts', account, 'no_log_for')
|
|
|
|
if not no_log_for:
|
|
no_log_for = ''
|
|
|
|
no_log_for = no_log_for.split()
|
|
|
|
return self.loggable and account not in no_log_for and self.jid not in no_log_for
|
|
|
|
def cancelled_negotiation(self):
|
|
StanzaSession.cancelled_negotiation(self)
|
|
self.enable_encryption = False
|
|
|
|
self.km_o = ''
|