Mercurial > libervia-backend
view sat/plugins/plugin_xep_0260.py @ 3028:ab2696e34d29
Python 3 port:
/!\ this is a huge commit
/!\ starting from this commit, SàT is needs Python 3.6+
/!\ SàT maybe be instable or some feature may not work anymore, this will improve with time
This patch port backend, bridge and frontends to Python 3.
Roughly this has been done this way:
- 2to3 tools has been applied (with python 3.7)
- all references to python2 have been replaced with python3 (notably shebangs)
- fixed files not handled by 2to3 (notably the shell script)
- several manual fixes
- fixed issues reported by Python 3 that where not handled in Python 2
- replaced "async" with "async_" when needed (it's a reserved word from Python 3.7)
- replaced zope's "implements" with @implementer decorator
- temporary hack to handle data pickled in database, as str or bytes may be returned,
to be checked later
- fixed hash comparison for password
- removed some code which is not needed anymore with Python 3
- deactivated some code which needs to be checked (notably certificate validation)
- tested with jp, fixed reported issues until some basic commands worked
- ported Primitivus (after porting dependencies like urwid satext)
- more manual fixes
| author | Goffi <goffi@goffi.org> |
|---|---|
| date | Tue, 13 Aug 2019 19:08:41 +0200 |
| parents | 69e4716d6268 |
| children | 9d0df638c8b4 |
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#!/usr/bin/env python3 # -*- coding: utf-8 -*- # SAT plugin for Jingle (XEP-0260) # Copyright (C) 2009-2019 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program 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 Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. from sat.core.i18n import _ from sat.core.constants import Const as C from sat.core.log import getLogger log = getLogger(__name__) from sat.core import exceptions from wokkel import disco, iwokkel from zope.interface import implementer from twisted.words.xish import domish from twisted.words.protocols.jabber import jid from twisted.internet import defer import uuid try: from twisted.words.protocols.xmlstream import XMPPHandler except ImportError: from wokkel.subprotocols import XMPPHandler NS_JINGLE_S5B = "urn:xmpp:jingle:transports:s5b:1" PLUGIN_INFO = { C.PI_NAME: "Jingle SOCKS5 Bytestreams", C.PI_IMPORT_NAME: "XEP-0260", C.PI_TYPE: "XEP", C.PI_MODES: C.PLUG_MODE_BOTH, C.PI_PROTOCOLS: ["XEP-0260"], C.PI_DEPENDENCIES: ["XEP-0166", "XEP-0065"], C.PI_RECOMMENDATIONS: ["XEP-0261"], # needed for fallback C.PI_MAIN: "XEP_0260", C.PI_HANDLER: "yes", C.PI_DESCRIPTION: _("""Implementation of Jingle SOCKS5 Bytestreams"""), } class ProxyError(Exception): def __str__(self): return "an error happened while trying to use the proxy" class XEP_0260(object): # TODO: udp handling def __init__(self, host): log.info(_("plugin Jingle SOCKS5 Bytestreams")) self.host = host self._j = host.plugins["XEP-0166"] # shortcut to access jingle self._s5b = host.plugins["XEP-0065"] # and socks5 bytestream try: self._jingle_ibb = host.plugins["XEP-0261"] except KeyError: self._jingle_ibb = None self._j.registerTransport(NS_JINGLE_S5B, self._j.TRANSPORT_STREAMING, self, 100) def getHandler(self, client): return XEP_0260_handler() def _parseCandidates(self, transport_elt): """Parse <candidate> elements @param transport_elt(domish.Element): parent <transport> element @return (list[plugin_xep_0065.Candidate): list of parsed candidates """ candidates = [] for candidate_elt in transport_elt.elements(NS_JINGLE_S5B, "candidate"): try: cid = candidate_elt["cid"] host = candidate_elt["host"] jid_ = jid.JID(candidate_elt["jid"]) port = int(candidate_elt.getAttribute("port", 1080)) priority = int(candidate_elt["priority"]) type_ = candidate_elt.getAttribute("type", self._s5b.TYPE_DIRECT) except (KeyError, ValueError): raise exceptions.DataError() candidate = self._s5b.Candidate(host, port, type_, priority, jid_, cid) candidates.append(candidate) # self._s5b.registerCandidate(candidate) return candidates def _buildCandidates(self, session, candidates, sid, session_hash, client, mode=None): """Build <transport> element with candidates @param session(dict): jingle session data @param candidates(iterator[plugin_xep_0065.Candidate]): iterator of candidates to add @param sid(unicode): transport stream id @param client: %(doc_client)s @param mode(str, None): 'tcp' or 'udp', or None to have no attribute @return (domish.Element): parent <transport> element where <candidate> elements must be added """ proxy = next( ( candidate for candidate in candidates if candidate.type == self._s5b.TYPE_PROXY ), None, ) transport_elt = domish.Element((NS_JINGLE_S5B, "transport")) transport_elt["sid"] = sid if proxy is not None: transport_elt["dstaddr"] = session_hash if mode is not None: transport_elt["mode"] = "tcp" # XXX: we only manage tcp for now for candidate in candidates: log.debug("Adding candidate: {}".format(candidate)) candidate_elt = transport_elt.addElement("candidate", NS_JINGLE_S5B) if candidate.id is None: candidate.id = str(uuid.uuid4()) candidate_elt["cid"] = candidate.id candidate_elt["host"] = candidate.host candidate_elt["jid"] = candidate.jid.full() candidate_elt["port"] = str(candidate.port) candidate_elt["priority"] = str(candidate.priority) candidate_elt["type"] = candidate.type return transport_elt @defer.inlineCallbacks def jingleSessionInit(self, client, session, content_name): content_data = session["contents"][content_name] transport_data = content_data["transport_data"] sid = transport_data["sid"] = str(uuid.uuid4()) session_hash = transport_data["session_hash"] = self._s5b.getSessionHash( session["local_jid"], session["peer_jid"], sid ) transport_data["peer_session_hash"] = self._s5b.getSessionHash( session["peer_jid"], session["local_jid"], sid ) # requester and target are inversed for peer candidates transport_data["stream_d"] = self._s5b.registerHash(client, session_hash, None) candidates = transport_data["candidates"] = yield self._s5b.getCandidates( client, session["local_jid"]) mode = "tcp" # XXX: we only manage tcp for now transport_elt = self._buildCandidates( session, candidates, sid, session_hash, client, mode ) defer.returnValue(transport_elt) def _proxyActivatedCb(self, iq_result_elt, client, candidate, session, content_name): """Called when activation confirmation has been received from proxy cf XEP-0260 § 2.4 """ # now that the proxy is activated, we have to inform other peer iq_elt, transport_elt = self._j.buildAction( client, self._j.A_TRANSPORT_INFO, session, content_name ) activated_elt = transport_elt.addElement("activated") activated_elt["cid"] = candidate.id iq_elt.send() def _proxyActivatedEb(self, stanza_error, client, candidate, session, content_name): """Called when activation error has been received from proxy cf XEP-0260 § 2.4 """ # TODO: fallback to IBB # now that the proxy is activated, we have to inform other peer iq_elt, transport_elt = self._j.buildAction( client, self._j.A_TRANSPORT_INFO, session, content_name ) transport_elt.addElement("proxy-error") iq_elt.send() log.warning( "Can't activate proxy, we need to fallback to IBB: {reason}".format( reason=stanza_error.value.condition ) ) self.doFallback(session, content_name, client) def _foundPeerCandidate( self, candidate, session, transport_data, content_name, client ): """Called when the best candidate from other peer is found @param candidate(XEP_0065.Candidate, None): selected candidate, or None if no candidate is accessible @param session(dict): session data @param transport_data(dict): transport data @param content_name(unicode): name of the current content @param client(unicode): %(doc_client)s """ transport_data["best_candidate"] = candidate # we need to disconnect all non selected candidates before removing them for c in transport_data["peer_candidates"]: if c is None or c is candidate: continue c.discard() del transport_data["peer_candidates"] iq_elt, transport_elt = self._j.buildAction( client, self._j.A_TRANSPORT_INFO, session, content_name ) if candidate is None: log.warning("Can't connect to any peer candidate") candidate_elt = transport_elt.addElement("candidate-error") else: log.info("Found best peer candidate: {}".format(str(candidate))) candidate_elt = transport_elt.addElement("candidate-used") candidate_elt["cid"] = candidate.id iq_elt.send() # TODO: check result stanza self._checkCandidates(session, content_name, transport_data, client) def _checkCandidates(self, session, content_name, transport_data, client): """Called when a candidate has been choosed if we have both candidates, we select one, or fallback to an other transport @param session(dict): session data @param content_name(unicode): name of the current content @param transport_data(dict): transport data @param client(unicode): %(doc_client)s """ content_data = session["contents"][content_name] try: best_candidate = transport_data["best_candidate"] except KeyError: # we have not our best candidate yet return try: peer_best_candidate = transport_data["peer_best_candidate"] except KeyError: # we have not peer best candidate yet return # at this point we have both candidates, it's time to choose one if best_candidate is None or peer_best_candidate is None: choosed_candidate = best_candidate or peer_best_candidate else: if best_candidate.priority == peer_best_candidate.priority: # same priority, we choose initiator one according to XEP-0260 §2.4 #4 log.debug( "Candidates have same priority, we select the one choosed by initiator" ) if session["initiator"] == session["local_jid"]: choosed_candidate = best_candidate else: choosed_candidate = peer_best_candidate else: choosed_candidate = max( best_candidate, peer_best_candidate, key=lambda c: c.priority ) if choosed_candidate is None: log.warning("Socks5 negociation failed, we need to fallback to IBB") self.doFallback(session, content_name, client) else: if choosed_candidate == peer_best_candidate: # peer_best_candidate was choosed from the candidates we have sent # so our_candidate is true if choosed_candidate is peer_best_candidate our_candidate = True # than also mean that best_candidate must be discarded ! try: best_candidate.discard() except AttributeError: # but it can be None pass else: our_candidate = False log.info( "Socks5 negociation successful, {who} candidate will be used: {candidate}".format( who="our" if our_candidate else "other peer", candidate=choosed_candidate, ) ) del transport_data["best_candidate"] del transport_data["peer_best_candidate"] if choosed_candidate.type == self._s5b.TYPE_PROXY: # the stream transfer need to wait for proxy activation # (see XEP-0260 § 2.4) if our_candidate: d = self._s5b.connectCandidate( client, choosed_candidate, transport_data["session_hash"] ) d.addCallback( lambda __: choosed_candidate.activate( transport_data["sid"], session["peer_jid"], client ) ) args = [client, choosed_candidate, session, content_name] d.addCallbacks( self._proxyActivatedCb, self._proxyActivatedEb, args, None, args ) else: # this Deferred will be called when we'll receive activation confirmation from other peer d = transport_data["activation_d"] = defer.Deferred() else: d = defer.succeed(None) if content_data["senders"] == session["role"]: # we can now start the stream transfer (or start it after proxy activation) d.addCallback( lambda __: choosed_candidate.startTransfer( transport_data["session_hash"] ) ) d.addErrback(self._startEb, session, content_name, client) def _startEb(self, fail, session, content_name, client): """Called when it's not possible to start the transfer Will try to fallback to IBB """ try: reason = str(fail.value) except AttributeError: reason = str(fail) log.warning("Cant start transfert, we'll try fallback method: {}".format(reason)) self.doFallback(session, content_name, client) def _candidateInfo( self, candidate_elt, session, content_name, transport_data, client ): """Called when best candidate has been received from peer (or if none is working) @param candidate_elt(domish.Element): candidate-used or candidate-error element (see XEP-0260 §2.3) @param session(dict): session data @param content_name(unicode): name of the current content @param transport_data(dict): transport data @param client(unicode): %(doc_client)s """ if candidate_elt.name == "candidate-error": # candidate-error, no candidate worked transport_data["peer_best_candidate"] = None else: # candidate-used, one candidate was choosed try: cid = candidate_elt.attributes["cid"] except KeyError: log.warning("No cid found in <candidate-used>") raise exceptions.DataError try: candidate = next(( c for c in transport_data["candidates"] if c.id == cid )) except StopIteration: log.warning("Given cid doesn't correspond to any known candidate !") raise exceptions.DataError # TODO: send an error to other peer, and use better exception except KeyError: # a transport-info can also be intentionaly sent too early by other peer # but there is little probability log.error( '"candidates" key doesn\'t exists in transport_data, it should at this point' ) raise exceptions.InternalError # at this point we have the candidate choosed by other peer transport_data["peer_best_candidate"] = candidate log.info("Other peer best candidate: {}".format(candidate)) del transport_data["candidates"] self._checkCandidates(session, content_name, transport_data, client) def _proxyActivationInfo( self, proxy_elt, session, content_name, transport_data, client ): """Called when proxy has been activated (or has sent an error) @param proxy_elt(domish.Element): <activated/> or <proxy-error/> element (see XEP-0260 §2.4) @param session(dict): session data @param content_name(unicode): name of the current content @param transport_data(dict): transport data @param client(unicode): %(doc_client)s """ try: activation_d = transport_data.pop("activation_d") except KeyError: log.warning("Received unexpected transport-info for proxy activation") if proxy_elt.name == "activated": activation_d.callback(None) else: activation_d.errback(ProxyError()) @defer.inlineCallbacks def jingleHandler(self, client, action, session, content_name, transport_elt): content_data = session["contents"][content_name] transport_data = content_data["transport_data"] if action in (self._j.A_ACCEPTED_ACK, self._j.A_PREPARE_RESPONDER): pass elif action == self._j.A_SESSION_ACCEPT: # initiator side, we select a candidate in the ones sent by responder assert "peer_candidates" not in transport_data transport_data["peer_candidates"] = self._parseCandidates(transport_elt) elif action == self._j.A_START: session_hash = transport_data["session_hash"] peer_candidates = transport_data["peer_candidates"] stream_object = content_data["stream_object"] self._s5b.associateStreamObject(client, session_hash, stream_object) stream_d = transport_data.pop("stream_d") stream_d.chainDeferred(content_data["finished_d"]) peer_session_hash = transport_data["peer_session_hash"] d = self._s5b.getBestCandidate( client, peer_candidates, session_hash, peer_session_hash ) d.addCallback( self._foundPeerCandidate, session, transport_data, content_name, client ) elif action == self._j.A_SESSION_INITIATE: # responder side, we select a candidate in the ones sent by initiator # and we give our candidates assert "peer_candidates" not in transport_data sid = transport_data["sid"] = transport_elt["sid"] session_hash = transport_data["session_hash"] = self._s5b.getSessionHash( session["local_jid"], session["peer_jid"], sid ) peer_session_hash = transport_data[ "peer_session_hash" ] = self._s5b.getSessionHash( session["peer_jid"], session["local_jid"], sid ) # requester and target are inversed for peer candidates peer_candidates = transport_data["peer_candidates"] = self._parseCandidates( transport_elt ) stream_object = content_data["stream_object"] stream_d = self._s5b.registerHash(client, session_hash, stream_object) stream_d.chainDeferred(content_data["finished_d"]) d = self._s5b.getBestCandidate( client, peer_candidates, session_hash, peer_session_hash ) d.addCallback( self._foundPeerCandidate, session, transport_data, content_name, client ) candidates = yield self._s5b.getCandidates(client, session["local_jid"]) # we remove duplicate candidates candidates = [ candidate for candidate in candidates if candidate not in peer_candidates ] transport_data["candidates"] = candidates # we can now build a new <transport> element with our candidates transport_elt = self._buildCandidates( session, candidates, sid, session_hash, client ) elif action == self._j.A_TRANSPORT_INFO: # transport-info can be about candidate or proxy activation candidate_elt = None for method, names in ( (self._candidateInfo, ("candidate-used", "candidate-error")), (self._proxyActivationInfo, ("activated", "proxy-error")), ): for name in names: try: candidate_elt = next(transport_elt.elements(NS_JINGLE_S5B, name)) except StopIteration: continue else: method( candidate_elt, session, content_name, transport_data, client ) break if candidate_elt is None: log.warning( "Unexpected transport element: {}".format(transport_elt.toXml()) ) elif action == self._j.A_DESTROY: # the transport is replaced (fallback ?), We need mainly to kill XEP-0065 session. # note that sid argument is not necessary for sessions created by this plugin self._s5b.killSession(None, transport_data["session_hash"], None, client) else: log.warning("FIXME: unmanaged action {}".format(action)) defer.returnValue(transport_elt) def jingleTerminate(self, client, action, session, content_name, reason_elt): if reason_elt.decline: log.debug("Session declined, deleting S5B session") # we just need to clean the S5B session if it is declined content_data = session["contents"][content_name] transport_data = content_data["transport_data"] self._s5b.killSession(None, transport_data["session_hash"], None, client) def _doFallback(self, feature_checked, session, content_name, client): """Do the fallback, method called once feature is checked @param feature_checked(bool): True if other peer can do IBB """ if not feature_checked: log.warning( "Other peer can't manage jingle IBB, be have to terminate the session" ) self._j.terminate(client, self._j.REASON_CONNECTIVITY_ERROR, session) else: self._j.transportReplace( client, self._jingle_ibb.NAMESPACE, session, content_name ) def doFallback(self, session, content_name, client): """Fallback to IBB transport, used in last resort @param session(dict): session data @param content_name(unicode): name of the current content @param client(unicode): %(doc_client)s """ if session["role"] != self._j.ROLE_INITIATOR: # only initiator must do the fallback, see XEP-0260 §3 return if self._jingle_ibb is None: log.warning( "Jingle IBB (XEP-0261) plugin is not available, we have to close the session" ) self._j.terminate(client, self._j.REASON_CONNECTIVITY_ERROR, session) else: d = self.host.hasFeature( client, self._jingle_ibb.NAMESPACE, session["peer_jid"] ) d.addCallback(self._doFallback, session, content_name, client) return d @implementer(iwokkel.IDisco) class XEP_0260_handler(XMPPHandler): def getDiscoInfo(self, requestor, target, nodeIdentifier=""): return [disco.DiscoFeature(NS_JINGLE_S5B)] def getDiscoItems(self, requestor, target, nodeIdentifier=""): return []