gajim-otrplugin/otr.py

158 lines
7.2 KiB
Python

## Copyright (C) 2008-2012 Kjell Braden <afflux@pentabarf.de>
## Copyright (C) 2019 Pavel R. <pd at narayana dot im>
#
# This file is part of Gajim OTR Plugin.
#
# Gajim OTR Plugin is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published
# by the Free Software Foundation; version 3 only.
#
# This software is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You can always obtain full license text at <http://www.gnu.org/licenses/>.
import os
import string
import random
import itertools
import logging
from inspect import signature
from gajim.common import const, app, helpers, configpaths
from nbxmpp.protocol import Message, JID
import pathlib
import sys
sys.path.insert(0, pathlib.Path(__file__).parent.resolve())
sys.modules['gajim_otrplugin'] = sys.modules['gajim-otrplugin']
from gajim_otrplugin.potr import context, crypt, proto
from .keystore import Keystore
# Prototype of OTR Channel (secure conversations between Gajim user (Alice) and Gajim peer (Bob)
class OTRChannel(context.Context):
# this method may be called self.sendMessage() when we need to send some data to our <peer> via XMPP
def inject(self,msg,appdata=None):
stanza = Message(to=self.peer, body=msg.decode(), typ='chat')
stanza.setThread(appdata or self.generateThreadId())
self.user.stream.send_stanza(stanza)
# this method called on channel state change
def setState(self,state=0):
if state and state != self.state:
self.getCurrentTrust() is None and self.setCurrentTrust(0) != 0 and self.printl(OTR.TRUSTED[None].format(fprint=self.getCurrentKey())) # new fingerprint
self.printl(OTR.STATUS[state].format(peer=self.peer,trust=OTR.TRUSTED[self.getCurrentTrust()],fprint=self.getCurrentKey())) # state is changed
self.state = state
# print some text to chat window
def printl(self,line):
println = self.user.getControl(self.peer) and self.user.getControl(self.peer).conv_textview.print_conversation_line
println and println("OTR: "+line,kind='status',name='',tim='',**('jid' in signature(println).parameters and {'jid':None} or {}))
@staticmethod
def getPolicy(policy): return OTR.DEFAULT_POLICY.get(policy)
@staticmethod
def generateThreadId():
return ''.join(
[f(string.ascii_letters) for f in itertools.repeat(
random.choice, 32)]
)
# OTR instance for Gajim user (Alice)
class OTR(context.Account):
PROTO = ('XMPP', 1024)
ENCRYPTION_NAME = ('OTR')
DEFAULT_POLICY = {
'REQUIRE_ENCRYPTION': True,
'ALLOW_V1': False,
'ALLOW_V2': True,
'SEND_TAG': True,
'WHITESPACE_START_AKE': True,
'ERROR_START_AKE': True,
}
TRUSTED = {None:"new fingerprint received: *{fprint}*", 0:"untrusted", 1:"trusted", 2:"authenticated"}
STATUS = {
context.STATE_PLAINTEXT: "(re-)starting encrypted conversation with {peer}..",
context.STATE_ENCRYPTED: "{trust} encrypted conversation started (fingerprint: {fprint})",
context.STATE_FINISHED: "encrypted conversation with {peer} closed (fingerprint: {fprint})",
context.UnencryptedMessage: "this message is *not encrypted*: {msg}",
context.NotEncryptedError: "unable to process message (channel lost)",
context.ErrorReceived: "received error message: {err}",
crypt.InvalidParameterError: "unable to decrypt message (key/signature mismatch)",
}
def __init__(self,account):
super(OTR,self).__init__(account,*OTR.PROTO)
self.log = logging.getLogger('gajim.p.otr.otr')
self.account = account
self.stream = app.connections[account]
self.jid = self.stream.get_own_jid()
self.keystore = Keystore(os.path.join(configpaths.get('MY_DATA'), 'otr_' + self.jid.getStripped() + '.db'))
self.loadTrusts()
# get chat control
def getControl(self,peer):
ctl = app.interface.msg_win_mgr.get_control(peer.getStripped(),self.account)
return ctl
# get OTR context (encrypted dialog between Alice and Bob)
def getContext(self,peer):
peer in self.ctxs and self.ctxs[peer].state == context.STATE_FINISHED and self.ctxs.pop(peer).disconnect() # close dead channels
self.ctxs[peer] = self.ctxs.get(peer) or OTRChannel(self,peer)
return self.ctxs[peer]
# load my private key
def loadPrivkey(self):
my = self.keystore.load(jid=self.jid)
return (my and my.privatekey) and crypt.PK.parsePrivateKey(bytes.fromhex(my.privatekey))[0] or None
# save my privatekey
def savePrivkey(self):
self.keystore.save(jid=self.jid,privatekey=self.getPrivkey().serializePrivateKey().hex())
# load known fingerprints
def loadTrusts(self):
for peer in self.keystore.load(): self.setTrust(peer.jid,peer.fingerprint,peer.trust)
# save known fingerprints
def saveTrusts(self):
for peer,fingerprints in self.trusts.items():
for fingerprint,trust in fingerprints.items(): self.keystore.save(jid=peer,fingerprint=fingerprint,trust=trust)
# decrypt message
def decrypt(self,stanza,properties):
peer = stanza.getFrom()
msgtxt = stanza.getBody()
channel, ctl = self.getContext(peer), self.getControl(peer)
try:
text, tlvs = channel.receiveMessage(msgtxt.encode(),appdata=stanza.getThread()) or b''
except (context.UnencryptedMessage,context.NotEncryptedError,context.ErrorReceived,crypt.InvalidParameterError) as e:
self.log.error("** got exception while decrypting message: %s" % e)
channel.printl(OTR.STATUS[e].format(msg=msgtxt,err=e.args[0].error))
else:
event.setBody(text and text.decode() or "")
properties.encrypted = OTR.ENCRYPTION_NAME
finally:
if channel.mayRetransmit and channel.state and ctl: channel.mayRetransmit = ctl.send_message(channel.lastMessage.decode())
# encrypt message
def encrypt(self,event,callback):
peer = event.msg_iq.getTo()
channel, ctl = self.getContext(peer), event.control
if event.xhtml: return ctl.send_message(event.message) # skip xhtml messages
try:
encrypted = channel.sendMessage(context.FRAGMENT_SEND_ALL_BUT_LAST,event.message.encode(),appdata=event.msg_iq.getThread()) or b''
message = (encrypted != self.getDefaultQueryMessage(OTR.DEFAULT_POLICY.get)) and event.message or ""
except context.NotEncryptedError as e:
self.log.error("** got exception while encrypting message: %s" % e)
channel.printl(peer,OTR.STATUS[e])
else:
event.msg_iq.setBody(encrypted.decode()) # encrypted data goes here
event.message = message # message that will be displayed in our chat goes here
event.encrypted, event.additional_data["encrypted"] = OTR.ENCRYPTION_NAME, {"name":OTR.ENCRYPTION_NAME} # some mandatory encryption flags
callback(event)