Mercurial > libervia-backend
view sat/core/xmpp.py @ 3012:2224fbbd45dd
memory (disco): fixed boolean to string conversion
author | Goffi <goffi@goffi.org> |
---|---|
date | Thu, 18 Jul 2019 20:26:49 +0200 |
parents | 94708a7d3ecf |
children | ab2696e34d29 |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # SAT: a jabber client # 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/>. import sys import time import calendar import uuid from functools import partial from sat.core.i18n import _ from sat.core.constants import Const as C from sat.memory import cache from twisted.internet import defer, error as internet_error from twisted.words.protocols.jabber.xmlstream import XMPPHandler from twisted.words.protocols.jabber import xmlstream from twisted.words.protocols.jabber import error from twisted.words.protocols.jabber import jid from twisted.words.xish import domish from twisted.python import failure from wokkel import client as wokkel_client, disco, xmppim, generic, iwokkel from wokkel import component from wokkel import delay from sat.core.log import getLogger from sat.core import exceptions from sat.memory import encryption from sat.memory import persistent from sat.tools import xml_tools from zope.interface import implements log = getLogger(__name__) NS_X_DATA = u"jabber:x:data" NS_DISCO_INFO = u"http://jabber.org/protocol/disco#info" NS_XML_ELEMENT = u"urn:xmpp:xml-element" NS_ROSTER_VER = u"urn:xmpp:features:rosterver" # we use 2 "@" which is illegal in a jid, to be sure we are not mixing keys # with roster jids ROSTER_VER_KEY = u"@version@" class SatXMPPEntity(object): """Common code for Client and Component""" def __init__(self, host_app, profile, max_retries): factory = self.factory # we monkey patch clientConnectionLost to handle networkEnabled/networkDisabled # and to allow plugins to tune reconnection mechanism clientConnectionFailed_ori = factory.clientConnectionFailed clientConnectionLost_ori = factory.clientConnectionLost factory.clientConnectionFailed = partial( self.connectionTerminated, term_type=u"failed", cb=clientConnectionFailed_ori) factory.clientConnectionLost = partial( self.connectionTerminated, term_type=u"lost", cb=clientConnectionLost_ori) factory.maxRetries = max_retries factory.maxDelay = 30 # when self._connected_d is None, we are not connected # else, it's a deferred which fire on disconnection self._connected_d = None self.profile = profile self.host_app = host_app self.cache = cache.Cache(host_app, profile) self.mess_id2uid = {} # map from message id to uid used in history. # Key: (full_jid, message_id) Value: uid # this Deferred fire when entity is connected self.conn_deferred = defer.Deferred() self._progress_cb = {} # callback called when a progress is requested # (key = progress id) self.actions = {} # used to keep track of actions for retrieval (key = action_id) self.encryption = encryption.EncryptionHandler(self) def __unicode__(self): return u"Client instance for profile {profile}".format(profile=self.profile) def __str__(self): return self.__unicode__.encode('utf-8') ## initialisation ## @defer.inlineCallbacks def _callConnectionTriggers(self): """Call conneting trigger prepare connected trigger @param plugins(iterable): plugins to use @return (list[object, callable]): plugin to trigger tuples with: - plugin instance - profileConnected* triggers (to call after connection) """ plugin_conn_cb = [] for plugin in self._getPluginsList(): # we check if plugin handle client mode if plugin.is_handler: plugin.getHandler(self).setHandlerParent(self) # profileConnecting/profileConnected methods handling # profile connecting is called right now (before actually starting client) connecting_cb = getattr(plugin, "profileConnecting", None) if connecting_cb is not None: yield connecting_cb(self) # profile connected is called after client is ready and roster is got connected_cb = getattr(plugin, "profileConnected", None) if connected_cb is not None: plugin_conn_cb.append((plugin, connected_cb)) defer.returnValue(plugin_conn_cb) def _getPluginsList(self): """Return list of plugin to use need to be implemented by subclasses this list is used to call profileConnect* triggers @return(iterable[object]): plugins to use """ raise NotImplementedError def _createSubProtocols(self): return def entityConnected(self): """Called once connection is done may return a Deferred, to perform initialisation tasks """ return @classmethod @defer.inlineCallbacks def startConnection(cls, host, profile, max_retries): """instantiate the entity and start the connection""" # FIXME: reconnection doesn't seems to be handled correclty # (client is deleted then recreated from scratch) # most of methods called here should be called once on first connection # (e.g. adding subprotocols) # but client should not be deleted except if session is finished # (independently of connection/deconnection) try: port = int( host.memory.getParamA( C.FORCE_PORT_PARAM, "Connection", profile_key=profile ) ) except ValueError: log.debug(_("Can't parse port value, using default value")) port = ( None ) # will use default value 5222 or be retrieved from a DNS SRV record password = yield host.memory.asyncGetParamA( "Password", "Connection", profile_key=profile ) entity = host.profiles[profile] = cls( host, profile, jid.JID(host.memory.getParamA("JabberID", "Connection", profile_key=profile)), password, host.memory.getParamA(C.FORCE_SERVER_PARAM, "Connection", profile_key=profile) or None, port, max_retries, ) entity._createSubProtocols() entity.fallBack = SatFallbackHandler(host) entity.fallBack.setHandlerParent(entity) entity.versionHandler = SatVersionHandler(C.APP_NAME_FULL, host.full_version) entity.versionHandler.setHandlerParent(entity) entity.identityHandler = SatIdentityHandler() entity.identityHandler.setHandlerParent(entity) log.debug(_("setting plugins parents")) plugin_conn_cb = yield entity._callConnectionTriggers() entity.startService() yield entity.conn_deferred yield defer.maybeDeferred(entity.entityConnected) # Call profileConnected callback for all plugins, # and print error message if any of them fails conn_cb_list = [] for __, callback in plugin_conn_cb: conn_cb_list.append(defer.maybeDeferred(callback, entity)) list_d = defer.DeferredList(conn_cb_list) def logPluginResults(results): all_succeed = all([success for success, result in results]) if not all_succeed: log.error(_(u"Plugins initialisation error")) for idx, (success, result) in enumerate(results): if not success: log.error( u"error (plugin %(name)s): %(failure)s" % { "name": plugin_conn_cb[idx][0]._info["import_name"], "failure": result, } ) yield list_d.addCallback( logPluginResults ) # FIXME: we should have a timeout here, and a way to know if a plugin freeze # TODO: mesure launch time of each plugin def _disconnectionCb(self, __): self._connected_d = None def _disconnectionEb(self, failure_): log.error(_(u"Error while disconnecting: {}".format(failure_))) def _authd(self, xmlstream): super(SatXMPPEntity, self)._authd(xmlstream) log.debug(_(u"{profile} identified").format(profile=self.profile)) self.streamInitialized() def _finish_connection(self, __): self.conn_deferred.callback(None) def streamInitialized(self): """Called after _authd""" log.debug(_(u"XML stream is initialized")) if not self.host_app.trigger.point("xml_init", self): return self.postStreamInit() def postStreamInit(self): """Workflow after stream initalisation.""" log.info( _(u"********** [{profile}] CONNECTED **********").format(profile=self.profile) ) # the following Deferred is used to know when we are connected # so we need to be set it to None when connection is lost self._connected_d = defer.Deferred() self._connected_d.addCallback(self._cleanConnection) self._connected_d.addCallback(self._disconnectionCb) self._connected_d.addErrback(self._disconnectionEb) # we send the signal to the clients self.host_app.bridge.connected(self.jid.full(), self.profile) self.disco = SatDiscoProtocol(self) self.disco.setHandlerParent(self) self.discoHandler = disco.DiscoHandler() self.discoHandler.setHandlerParent(self) disco_d = defer.succeed(None) if not self.host_app.trigger.point("Disco handled", disco_d, self.profile): return disco_d.addCallback(self._finish_connection) def initializationFailed(self, reason): log.error( _( u"ERROR: XMPP connection failed for profile '%(profile)s': %(reason)s" % {"profile": self.profile, "reason": reason} ) ) self.conn_deferred.errback(reason.value) try: super(SatXMPPEntity, self).initializationFailed(reason) except: # we already chained an errback, no need to raise an exception pass ## connection ## def connectionTerminated(self, connector, reason, term_type, cb): """Display disconnection reason, and call factory method This method is monkey patched to factory, allowing plugins to handle finely reconnection with the triggers. @param connector(twisted.internet.base.BaseConnector): current connector @param reason(failure.Failure): why connection has been terminated @param term_type(unicode): on of 'failed' or 'lost' @param cb(callable): original factory method @trigger connection_failed(connector, reason): connection can't be established @trigger connection_lost(connector, reason): connection was available but it not anymore """ # we save connector because it may be deleted when connection will be dropped # if reconnection is disabled self._saved_connector = connector if reason is not None and not isinstance(reason.value, internet_error.ConnectionDone): try: reason_str = unicode(reason.value) except Exception: # FIXME: workaround for Android were p4a strips docstrings # while Twisted use docstring in __str__ # TODO: create a ticket upstream, Twisted should work when optimization # is used reason_str = unicode(reason.value.__class__) log.warning(u"Connection {term_type}: {reason}".format( term_type = term_type, reason=reason_str)) if not self.host_app.trigger.point(u"connection_" + term_type, connector, reason): return return cb(connector, reason) def networkDisabled(self): """Indicate that network has been completely disabled In other words, internet is not available anymore and transport must be stopped. Retrying is disabled too, as it makes no sense to try without network, and it may use resources (notably battery on mobiles). """ log.info(_(u"stopping connection because of network disabled")) self.factory.continueTrying = 0 self._network_disabled = True if self.xmlstream is not None: self.xmlstream.transport.abortConnection() def networkEnabled(self): """Indicate that network has been (re)enabled This happens when e.g. user activate WIFI connection. """ try: connector = self._saved_connector network_disabled = self._network_disabled except AttributeError: # connection has not been stopped by networkDisabled # we don't have to restart it log.debug(u"no connection to restart") return else: del self._network_disabled if not network_disabled: raise exceptions.InternalError(u"network_disabled should be True") log.info(_(u"network is available, trying to connect")) # we want to be sure to start fresh self.factory.resetDelay() # we have a saved connector, meaning the connection has been stopped previously # we can now try to reconnect connector.connect() def _connected(self, xs): send_hooks = [] receive_hooks = [] self.host_app.trigger.point( "stream_hooks", self, receive_hooks, send_hooks) for hook in receive_hooks: xs.addHook(C.STREAM_HOOK_RECEIVE, hook) for hook in send_hooks: xs.addHook(C.STREAM_HOOK_SEND, hook) super(SatXMPPEntity, self)._connected(xs) def disconnectProfile(self, reason): if self._connected_d is not None: self.host_app.bridge.disconnected( self.profile ) # we send the signal to the clients self._connected_d.callback(None) self.host_app.purgeEntity( self.profile ) # and we remove references to this client log.info( _(u"********** [{profile}] DISCONNECTED **********").format( profile=self.profile ) ) if not self.conn_deferred.called: if reason is None: err = error.StreamError(u"Server unexpectedly closed the connection") else: err = reason try: if err.value.args[0][0][2] == "certificate verify failed": err = exceptions.InvalidCertificate( _(u"Your server certificate is not valid " u"(its identity can't be checked).\n\n" u"This should never happen and may indicate that " u"somebody is trying to spy on you.\n" u"Please contact your server administrator.")) self.factory.stopTrying() try: # with invalid certificate, we should not retry to connect # so we delete saved connector to avoid reconnection if # networkEnabled is called. del self._saved_connector except AttributeError: pass except (IndexError, TypeError): pass self.conn_deferred.errback(err) def _disconnected(self, reason): super(SatXMPPEntity, self)._disconnected(reason) if not self.host_app.trigger.point("disconnected", self, reason): return self.disconnectProfile(reason) @defer.inlineCallbacks def _cleanConnection(self, __): """method called on disconnection used to call profileDisconnected* triggers """ trigger_name = "profileDisconnected" for plugin in self._getPluginsList(): disconnected_cb = getattr(plugin, trigger_name, None) if disconnected_cb is not None: yield disconnected_cb(self) def isConnected(self): try: return bool(self.xmlstream.transport.connected) except AttributeError: return False def entityDisconnect(self): if not self.host_app.trigger.point("disconnecting", self): return log.info(_(u"Disconnecting...")) self.stopService() if self._connected_d is not None: return self._connected_d else: return defer.succeed(None) ## sending ## def IQ(self, type_=u"set", timeout=60): """shortcut to create an IQ element managing deferred @param type_(unicode): IQ type ('set' or 'get') @param timeout(None, int): timeout in seconds @return((D)domish.Element: result stanza errback is called if and error stanza is returned """ iq_elt = xmlstream.IQ(self.xmlstream, type_) iq_elt.timeout = timeout return iq_elt def sendError(self, iq_elt, condition): """Send error stanza build from iq_elt @param iq_elt(domish.Element): initial IQ element @param condition(unicode): error condition """ iq_error_elt = error.StanzaError(condition).toResponse(iq_elt) self.xmlstream.send(iq_error_elt) def generateMessageXML(self, data): """Generate <message/> stanza from message data @param data(dict): message data domish element will be put in data['xml'] following keys are needed: - from - to - uid: can be set to '' if uid attribute is not wanted - message - type - subject - extra @return (dict) message data """ data["xml"] = message_elt = domish.Element((None, "message")) message_elt["to"] = data["to"].full() message_elt["from"] = data["from"].full() message_elt["type"] = data["type"] if data["uid"]: # key must be present but can be set to '' # by a plugin to avoid id on purpose message_elt["id"] = data["uid"] for lang, subject in data["subject"].iteritems(): subject_elt = message_elt.addElement("subject", content=subject) if lang: subject_elt[(C.NS_XML, "lang")] = lang for lang, message in data["message"].iteritems(): body_elt = message_elt.addElement("body", content=message) if lang: body_elt[(C.NS_XML, "lang")] = lang try: thread = data["extra"]["thread"] except KeyError: if "thread_parent" in data["extra"]: raise exceptions.InternalError( u"thread_parent found while there is not associated thread" ) else: thread_elt = message_elt.addElement("thread", content=thread) try: thread_elt["parent"] = data["extra"]["thread_parent"] except KeyError: pass return data def addPostXmlCallbacks(self, post_xml_treatments): """Used to add class level callbacks at the end of the workflow @param post_xml_treatments(D): the same Deferred as in sendMessage trigger """ raise NotImplementedError def sendMessage(self, to_jid, message, subject=None, mess_type="auto", extra=None, uid=None, no_trigger=False,): r"""Send a message to an entity @param to_jid(jid.JID): destinee of the message @param message(dict): message body, key is the language (use '' when unknown) @param subject(dict): message subject, key is the language (use '' when unknown) @param mess_type(str): one of standard message type (cf RFC 6121 §5.2.2) or: - auto: for automatic type detection - info: for information ("info_type" can be specified in extra) @param extra(dict, None): extra data. Key can be: - info_type: information type, can be TODO @param uid(unicode, None): unique id: should be unique at least in this XMPP session if None, an uuid will be generated @param no_trigger (bool): if True, sendMessage[suffix] trigger will no be used useful when a message need to be sent without any modification /!\ this will also skip encryption methods! """ if subject is None: subject = {} if extra is None: extra = {} assert mess_type in C.MESS_TYPE_ALL data = { # dict is similar to the one used in client.onMessage "from": self.jid, "to": to_jid, "uid": uid or unicode(uuid.uuid4()), "message": message, "subject": subject, "type": mess_type, "extra": extra, "timestamp": time.time(), } # XXX: plugin can add their pre XML treatments to this deferred pre_xml_treatments = defer.Deferred() # XXX: plugin can add their post XML treatments to this deferred post_xml_treatments = defer.Deferred() if data["type"] == C.MESS_TYPE_AUTO: # we try to guess the type if data["subject"]: data["type"] = C.MESS_TYPE_NORMAL elif not data["to"].resource: # if to JID has a resource, # the type is not 'groupchat' # we may have a groupchat message, we check if the we know this jid try: entity_type = self.host_app.memory.getEntityDatum( data["to"], C.ENTITY_TYPE, self.profile ) # FIXME: should entity_type manage resources ? except (exceptions.UnknownEntityError, KeyError): entity_type = "contact" if entity_type == C.ENTITY_TYPE_MUC: data["type"] = C.MESS_TYPE_GROUPCHAT else: data["type"] = C.MESS_TYPE_CHAT else: data["type"] == C.MESS_TYPE_CHAT data["type"] == C.MESS_TYPE_CHAT if data["subject"] else C.MESS_TYPE_NORMAL # FIXME: send_only is used by libervia's OTR plugin to avoid # the triggers from frontend, and no_trigger do the same # thing internally, this could be unified send_only = data["extra"].get("send_only", False) if not no_trigger and not send_only: # is the session encrypted? If so we indicate it in data self.encryption.setEncryptionFlag(data) if not self.host_app.trigger.point( "sendMessage" + self.trigger_suffix, self, data, pre_xml_treatments, post_xml_treatments, ): return defer.succeed(None) log.debug(_(u"Sending message (type {type}, to {to})") .format(type=data["type"], to=to_jid.full())) pre_xml_treatments.addCallback(lambda __: self.generateMessageXML(data)) pre_xml_treatments.chainDeferred(post_xml_treatments) post_xml_treatments.addCallback(self.sendMessageData) if send_only: log.debug(_(u"Triggers, storage and echo have been inhibited by the " u"'send_only' parameter")) else: self.addPostXmlCallbacks(post_xml_treatments) post_xml_treatments.addErrback(self._cancelErrorTrap) post_xml_treatments.addErrback(self.host_app.logErrback) pre_xml_treatments.callback(data) return pre_xml_treatments def _cancelErrorTrap(self, failure): """A message sending can be cancelled by a plugin treatment""" failure.trap(exceptions.CancelError) def messageAddToHistory(self, data): """Store message into database (for local history) @param data: message data dictionnary @param client: profile's client """ if data[u"type"] != C.MESS_TYPE_GROUPCHAT: # we don't add groupchat message to history, as we get them back # and they will be added then if data[u"message"] or data[u"subject"]: # we need a message to store self.host_app.memory.addToHistory(self, data) else: log.warning( u"No message found" ) # empty body should be managed by plugins before this point return data def messageGetBridgeArgs(self, data): """Generate args to use with bridge from data dict""" return (data[u"uid"], data[u"timestamp"], data[u"from"].full(), data[u"to"].full(), data[u"message"], data[u"subject"], data[u"type"], data[u"extra"]) def messageSendToBridge(self, data): """Send message to bridge, so frontends can display it @param data: message data dictionnary @param client: profile's client """ if data[u"type"] != C.MESS_TYPE_GROUPCHAT: # we don't send groupchat message to bridge, as we get them back # and they will be added the if (data[u"message"] or data[u"subject"]): # we need a message to send # something # We send back the message, so all frontends are aware of it self.host_app.bridge.messageNew( *self.messageGetBridgeArgs(data), profile=self.profile ) else: log.warning(_(u"No message found")) return data class SatXMPPClient(SatXMPPEntity, wokkel_client.XMPPClient): implements(iwokkel.IDisco) trigger_suffix = "" is_component = False def __init__(self, host_app, profile, user_jid, password, host=None, port=C.XMPP_C2S_PORT, max_retries=C.XMPP_MAX_RETRIES): # XXX: DNS SRV records are checked when the host is not specified. # If no SRV record is found, the host is directly extracted from the JID. self.started = time.time() # Currently, we use "client/pc/Salut à Toi", but as # SàT is multi-frontends and can be used on mobile devices, as a bot, # with a web frontend, # etc., we should implement a way to dynamically update identities through the # bridge self.identities = [disco.DiscoIdentity(u"client", u"pc", C.APP_NAME)] if sys.platform == "android": # FIXME: temporary hack as SRV is not working on android # TODO: remove this hack and fix SRV log.info(u"FIXME: Android hack, ignoring SRV") if host is None: host = user_jid.host # for now we consider Android devices to be always phones self.identities = [disco.DiscoIdentity(u"client", u"phone", C.APP_NAME)] hosts_map = host_app.memory.getConfig(None, "hosts_dict", {}) if host is None and user_jid.host in hosts_map: host_data = hosts_map[user_jid.host] if isinstance(host_data, basestring): host = host_data elif isinstance(host_data, dict): if u"host" in host_data: host = host_data[u"host"] if u"port" in host_data: port = host_data[u"port"] else: log.warning( _(u"invalid data used for host: {data}").format(data=host_data) ) host_data = None if host_data is not None: log.info( u"using {host}:{port} for host {host_ori} as requested in config" .format(host_ori=user_jid.host, host=host, port=port) ) self.check_certificate = host_app.memory.getParamA( "check_certificate", "Connection", profile_key=profile) wokkel_client.XMPPClient.__init__( self, user_jid, password, host or None, port or C.XMPP_C2S_PORT, check_certificate = self.check_certificate ) SatXMPPEntity.__init__(self, host_app, profile, max_retries) if not self.check_certificate: msg = (_(u"Certificate validation is deactivated, this is unsecure and " u"somebody may be spying on you. If you have no good reason to disable " u"certificate validation, please activate \"Check certificate\" in your " u"settings in \"Connection\" tab.")) xml_tools.quickNote(host_app, self, msg, _(u"Security notice"), level = C.XMLUI_DATA_LVL_WARNING) def _getPluginsList(self): for p in self.host_app.plugins.itervalues(): if C.PLUG_MODE_CLIENT in p._info[u"modes"]: yield p def _createSubProtocols(self): self.messageProt = SatMessageProtocol(self.host_app) self.messageProt.setHandlerParent(self) self.roster = SatRosterProtocol(self.host_app) self.roster.setHandlerParent(self) self.presence = SatPresenceProtocol(self.host_app) self.presence.setHandlerParent(self) @classmethod @defer.inlineCallbacks def startConnection(cls, host, profile, max_retries): yield super(SatXMPPClient, cls).startConnection(host, profile, max_retries) entity = host.profiles[profile] # we finally send our presence entity.presence.available() def entityConnected(self): # we want to be sure that we got the roster return self.roster.got_roster def addPostXmlCallbacks(self, post_xml_treatments): post_xml_treatments.addCallback(self.messageAddToHistory) post_xml_treatments.addCallback(self.messageSendToBridge) def send(self, obj): # original send method accept string # but we restrict to domish.Element to make trigger treatments easier assert isinstance(obj, domish.Element) # XXX: this trigger is the last one before sending stanza on wire # it is intended for things like end 2 end encryption. # *DO NOT* cancel (i.e. return False) without very good reason # (out of band transmission for instance). # e2e should have a priority of 0 here, and out of band transmission # a lower priority # FIXME: trigger not used yet, can be uncommented when e2e full stanza # encryption is implemented # if not self.host_app.trigger.point("send", self, obj): # return super(SatXMPPClient, self).send(obj) @defer.inlineCallbacks def sendMessageData(self, mess_data): """Convenient method to send message data to stream This method will send mess_data[u'xml'] to stream, but a trigger is there The trigger can't be cancelled, it's a good place for e2e encryption which don't handle full stanza encryption This trigger can return a Deferred (it's an asyncPoint) @param mess_data(dict): message data as constructed by onMessage workflow @return (dict): mess_data (so it can be used in a deferred chain) """ # XXX: This is the last trigger before u"send" (last but one globally) # for sending message. # This is intented for e2e encryption which doesn't do full stanza # encryption (e.g. OTR) # This trigger point can't cancel the method yield self.host_app.trigger.asyncPoint("sendMessageData", self, mess_data, triggers_no_cancel=True) self.send(mess_data[u"xml"]) defer.returnValue(mess_data) def feedback(self, to_jid, message, extra=None): """Send message to frontends This message will be an info message, not recorded in history. It can be used to give feedback of a command @param to_jid(jid.JID): destinee jid @param message(unicode): message to send to frontends @param extra(None, dict): extra data to use in particular, info subtype can be specified with MESS_EXTRA_INFO """ if extra is None: extra = {} self.host_app.bridge.messageNew( uid=unicode(uuid.uuid4()), timestamp=time.time(), from_jid=self.jid.full(), to_jid=to_jid.full(), message={u"": message}, subject={}, mess_type=C.MESS_TYPE_INFO, extra=extra, profile=self.profile, ) def _finish_connection(self, __): d = self.roster.requestRoster() d.addCallback(lambda __: super(SatXMPPClient, self)._finish_connection(__)) class SatXMPPComponent(SatXMPPEntity, component.Component): """XMPP component This component are similar but not identical to clients. An entry point plugin is launched after component is connected. Component need to instantiate MessageProtocol itself """ implements(iwokkel.IDisco) trigger_suffix = ( "Component" ) # used for to distinguish some trigger points set in SatXMPPEntity is_component = True sendHistory = ( False ) # XXX: set to True from entry plugin to keep messages in history for received # messages def __init__(self, host_app, profile, component_jid, password, host=None, port=None, max_retries=C.XMPP_MAX_RETRIES): self.started = time.time() if port is None: port = C.XMPP_COMPONENT_PORT ## entry point ## entry_point = host_app.memory.getEntryPoint(profile) try: self.entry_plugin = host_app.plugins[entry_point] except KeyError: raise exceptions.NotFound( _(u"The requested entry point ({entry_point}) is not available").format( entry_point=entry_point ) ) self.identities = [disco.DiscoIdentity(u"component", u"generic", C.APP_NAME)] # jid is set automatically on bind by Twisted for Client, but not for Component self.jid = component_jid if host is None: try: host = component_jid.host.split(u".", 1)[1] except IndexError: raise ValueError(u"Can't guess host from jid, please specify a host") # XXX: component.Component expect unicode jid, while Client expect jid.JID. # this is not consistent, so we use jid.JID for SatXMPP* component.Component.__init__(self, host, port, component_jid.full(), password) SatXMPPEntity.__init__(self, host_app, profile, max_retries) def _buildDependencies(self, current, plugins, required=True): """build recursively dependencies needed for a plugin this method build list of plugin needed for a component and raises errors if they are not available or not allowed for components @param current(object): parent plugin to check use entry_point for first call @param plugins(list): list of validated plugins, will be filled by the method give an empty list for first call @param required(bool): True if plugin is mandatory for recursive calls only, should not be modified by inital caller @raise InternalError: one of the plugin is not handling components @raise KeyError: one plugin should be present in self.host_app.plugins but it is not """ if C.PLUG_MODE_COMPONENT not in current._info[u"modes"]: if not required: return else: log.error( _( u"Plugin {current_name} is needed for {entry_name}, " u"but it doesn't handle component mode" ).format( current_name=current._info[u"import_name"], entry_name=self.entry_plugin._info[u"import_name"], ) ) raise exceptions.InternalError(_(u"invalid plugin mode")) for import_name in current._info.get(C.PI_DEPENDENCIES, []): # plugins are already loaded as dependencies # so we know they are in self.host_app.plugins dep = self.host_app.plugins[import_name] self._buildDependencies(dep, plugins) for import_name in current._info.get(C.PI_RECOMMENDATIONS, []): # here plugins are only recommendations, # so they may not exist in self.host_app.plugins try: dep = self.host_app.plugins[import_name] except KeyError: continue self._buildDependencies(dep, plugins, required=False) if current not in plugins: # current can be required for several plugins and so # it can already be present in the list plugins.append(current) def _getPluginsList(self): # XXX: for component we don't launch all plugins triggers # but only the ones from which there is a dependency plugins = [] self._buildDependencies(self.entry_plugin, plugins) return plugins def entityConnected(self): # we can now launch entry point try: start_cb = self.entry_plugin.componentStart except AttributeError: return else: return start_cb(self) def addPostXmlCallbacks(self, post_xml_treatments): if self.sendHistory: post_xml_treatments.addCallback(self.messageAddToHistory) class SatMessageProtocol(xmppim.MessageProtocol): def __init__(self, host): xmppim.MessageProtocol.__init__(self) self.host = host def parseMessage(self, message_elt): """parse a message XML and return message_data @param message_elt(domish.Element): raw <message> xml @param client(SatXMPPClient, None): client to map message id to uid if None, mapping will not be done @return(dict): message data """ if message_elt.name != u"message": log.warning(_( u"parseMessage used with a non <message/> stanza, ignoring: {xml}" .format(xml=message_elt.toXml()))) return {} if message_elt.uri is None: # wokkel element parsing strip out root namespace message_elt.defaultUri = message_elt.uri = C.NS_CLIENT for c in message_elt.elements(): if c.uri is None: c.uri = C.NS_CLIENT elif message_elt.uri != C.NS_CLIENT: log.warning(_( u"received <message> with a wrong namespace: {xml}" .format(xml=message_elt.toXml()))) client = self.parent if not message_elt.hasAttribute(u'to'): message_elt['to'] = client.jid.full() message = {} subject = {} extra = {} data = { u"from": jid.JID(message_elt["from"]), u"to": jid.JID(message_elt["to"]), u"uid": message_elt.getAttribute( u"uid", unicode(uuid.uuid4()) ), # XXX: uid is not a standard attribute but may be added by plugins u"message": message, u"subject": subject, u"type": message_elt.getAttribute(u"type", u"normal"), u"extra": extra, } try: message_id = data[u"extra"][u"message_id"] = message_elt[u"id"] except KeyError: pass else: client.mess_id2uid[(data["from"], message_id)] = data["uid"] # message for e in message_elt.elements(C.NS_CLIENT, "body"): message[e.getAttribute((C.NS_XML, "lang"), "")] = unicode(e) # subject for e in message_elt.elements(C.NS_CLIENT, "subject"): subject[e.getAttribute((C.NS_XML, "lang"), "")] = unicode(e) # delay and timestamp try: received_timestamp = message_elt._received_timestamp except AttributeError: # message_elt._received_timestamp should have been set in onMessage # but if parseMessage is called directly, it can be missing log.debug(u"missing received timestamp for {message_elt}".format( message_elt=message_elt)) received_timestamp = time.time() try: delay_elt = message_elt.elements(delay.NS_DELAY, "delay").next() except StopIteration: data["timestamp"] = received_timestamp else: parsed_delay = delay.Delay.fromElement(delay_elt) data["timestamp"] = calendar.timegm(parsed_delay.stamp.utctimetuple()) data["received_timestamp"] = received_timestamp if parsed_delay.sender: data["delay_sender"] = parsed_delay.sender.full() self.host.trigger.point("message_parse", client, message_elt, data) return data def _onMessageStartWorkflow(self, cont, client, message_elt, post_treat): """Parse message and do post treatments It is the first callback called after MessageReceived trigger @param cont(bool): workflow will continue only if this is True @param message_elt(domish.Element): message stanza may have be modified by triggers @param post_treat(defer.Deferred): post parsing treatments """ if not cont: return data = self.parseMessage(message_elt) post_treat.addCallback(self.skipEmptyMessage) post_treat.addCallback(self.addToHistory) post_treat.addCallback(self.bridgeSignal, data) post_treat.addErrback(self.cancelErrorTrap) post_treat.callback(data) def onMessage(self, message_elt): # TODO: handle threads message_elt._received_timestamp = time.time() client = self.parent if not "from" in message_elt.attributes: message_elt["from"] = client.jid.host log.debug(_(u"got message from: {from_}").format(from_=message_elt["from"])) # plugin can add their treatments to this deferred post_treat = defer.Deferred() d = self.host.trigger.asyncPoint( "MessageReceived", client, message_elt, post_treat ) d.addCallback(self._onMessageStartWorkflow, client, message_elt, post_treat) def skipEmptyMessage(self, data): if not data["message"] and not data["extra"] and not data["subject"]: raise failure.Failure(exceptions.CancelError("Cancelled empty message")) return data def addToHistory(self, data): if data.pop(u"history", None) == C.HISTORY_SKIP: log.info(u"history is skipped as requested") data[u"extra"][u"history"] = C.HISTORY_SKIP else: if data[u"message"] or data[u"subject"]: # we need a message to store return self.host.memory.addToHistory(self.parent, data) else: log.debug(u"not storing empty message to history: {data}" .format(data=data)) def bridgeSignal(self, __, data): try: data["extra"]["received_timestamp"] = unicode(data["received_timestamp"]) data["extra"]["delay_sender"] = data["delay_sender"] except KeyError: pass if C.MESS_KEY_ENCRYPTION in data: data[u"extra"][u"encrypted"] = C.BOOL_TRUE if data is not None: if data["message"] or data["subject"] or data["type"] == C.MESS_TYPE_INFO: self.host.bridge.messageNew( data["uid"], data["timestamp"], data["from"].full(), data["to"].full(), data["message"], data["subject"], data["type"], data["extra"], profile=self.parent.profile, ) else: log.debug(u"Discarding bridge signal for empty message: {data}".format( data=data)) return data def cancelErrorTrap(self, failure_): """A message sending can be cancelled by a plugin treatment""" failure_.trap(exceptions.CancelError) class SatRosterProtocol(xmppim.RosterClientProtocol): def __init__(self, host): xmppim.RosterClientProtocol.__init__(self) self.host = host self.got_roster = defer.Deferred() # called when roster is received and ready # XXX: the two following dicts keep a local copy of the roster self._jids = {} # map from jids to RosterItem: key=jid value=RosterItem self._groups = {} # map from groups to jids: key=group value=set of jids @property def versioning(self): """True if server support roster versioning""" return (NS_ROSTER_VER, u'ver') in self.parent.xmlstream.features @property def roster_cache(self): """Cache of roster from storage This property return a new PersistentDict on each call, it must be loaded manually if necessary """ return persistent.PersistentDict(NS_ROSTER_VER, self.parent.profile) def _registerItem(self, item): """Register item in local cache item must be already registered in self._jids before this method is called @param item (RosterIem): item added """ log.debug(u"registering item: {}".format(item.entity.full())) if item.entity.resource: log.warning( u"Received a roster item with a resource, this is not common but not " u"restricted by RFC 6121, this case may be not well tested." ) if not item.subscriptionTo: if not item.subscriptionFrom: log.info( _(u"There's no subscription between you and [{}]!").format( item.entity.full() ) ) else: log.info(_(u"You are not subscribed to [{}]!").format(item.entity.full())) if not item.subscriptionFrom: log.info(_(u"[{}] is not subscribed to you!").format(item.entity.full())) for group in item.groups: self._groups.setdefault(group, set()).add(item.entity) @defer.inlineCallbacks def _cacheRoster(self, version): """Serialise local roster and save it to storage @param version(unicode): version of roster in local cache """ roster_cache = self.roster_cache yield roster_cache.clear() roster_cache[ROSTER_VER_KEY] = version for roster_jid, roster_item in self._jids.iteritems(): roster_jid_s = roster_jid.full() roster_item_elt = roster_item.toElement().toXml() roster_cache[roster_jid_s] = roster_item_elt @defer.inlineCallbacks def resync(self): """Ask full roster to resync database this should not be necessary, but may be used if user suspsect roster to be somehow corrupted """ roster_cache = self.roster_cache yield roster_cache.clear() self._jids.clear() self._groups.clear() yield self.requestRoster() @defer.inlineCallbacks def requestRoster(self): """Ask the server for Roster list """ if self.versioning: log.info(_(u"our server support roster versioning, we use it")) roster_cache = self.roster_cache yield roster_cache.load() try: version = roster_cache[ROSTER_VER_KEY] except KeyError: log.info(_(u"no roster in cache, we start fresh")) # u"" means we use versioning without valid roster in cache version = u"" else: log.info(_(u"We have roster v{version} in cache").format(version=version)) # we deserialise cached roster to our local cache for roster_jid_s, roster_item_elt_s in roster_cache.iteritems(): if roster_jid_s == ROSTER_VER_KEY: continue roster_jid = jid.JID(roster_jid_s) roster_item_elt = generic.parseXml(roster_item_elt_s.encode('utf-8')) roster_item = xmppim.RosterItem.fromElement(roster_item_elt) self._jids[roster_jid] = roster_item self._registerItem(roster_item) else: log.warning(_(u"our server doesn't support roster versioning")) version = None log.debug("requesting roster") roster = yield self.getRoster(version=version) if roster is None: log.debug(u"empty roster result received, we'll get roster item with roster " u"pushes") else: # a full roster is received self._groups.clear() self._jids = roster for item in roster.itervalues(): if not item.subscriptionTo and not item.subscriptionFrom and not item.ask: # XXX: current behaviour: we don't want contact in our roster list # if there is no presence subscription # may change in the future log.info( u"Removing contact {} from roster because there is no presence " u"subscription".format( item.jid ) ) self.removeItem(item.entity) # FIXME: to be checked else: self._registerItem(item) yield self._cacheRoster(roster.version) if not self.got_roster.called: # got_roster may already be called if we use resync() self.got_roster.callback(None) def removeItem(self, to_jid): """Remove a contact from roster list @param to_jid: a JID instance @return: Deferred """ return xmppim.RosterClientProtocol.removeItem(self, to_jid) def getAttributes(self, item): """Return dictionary of attributes as used in bridge from a RosterItem @param item: RosterItem @return: dictionary of attributes """ item_attr = { "to": unicode(item.subscriptionTo), "from": unicode(item.subscriptionFrom), "ask": unicode(item.ask), } if item.name: item_attr["name"] = item.name return item_attr def setReceived(self, request): item = request.item entity = item.entity log.info(_(u"adding {entity} to roster").format(entity=entity.full())) if request.version is not None: # we update the cache in storage roster_cache = self.roster_cache roster_cache[entity.full()] = item.toElement().toXml() roster_cache[ROSTER_VER_KEY] = request.version try: # update the cache for the groups the contact has been removed from left_groups = set(self._jids[entity].groups).difference(item.groups) for group in left_groups: jids_set = self._groups[group] jids_set.remove(entity) if not jids_set: del self._groups[group] except KeyError: pass # no previous item registration (or it's been cleared) self._jids[entity] = item self._registerItem(item) self.host.bridge.newContact( entity.full(), self.getAttributes(item), item.groups, self.parent.profile ) def removeReceived(self, request): entity = request.item.entity log.info(_(u"removing {entity} from roster").format(entity=entity.full())) if request.version is not None: # we update the cache in storage roster_cache = self.roster_cache try: del roster_cache[request.item.entity.full()] except KeyError: # because we don't use load(), cache won't have the key, but it # will be deleted from storage anyway pass roster_cache[ROSTER_VER_KEY] = request.version # we first remove item from local cache (self._groups and self._jids) try: item = self._jids.pop(entity) except KeyError: log.error( u"Received a roster remove event for an item not in cache ({})".format( entity ) ) return for group in item.groups: try: jids_set = self._groups[group] jids_set.remove(entity) if not jids_set: del self._groups[group] except KeyError: log.warning( u"there is no cache for the group [{group}] of the removed roster " u"item [{jid_}]".format(group=group, jid=entity) ) # then we send the bridge signal self.host.bridge.contactDeleted(entity.full(), self.parent.profile) def getGroups(self): """Return a list of groups""" return self._groups.keys() def getItem(self, entity_jid): """Return RosterItem for a given jid @param entity_jid(jid.JID): jid of the contact @return(RosterItem, None): RosterItem instance None if contact is not in cache """ return self._jids.get(entity_jid, None) def getJids(self): """Return all jids of the roster""" return self._jids.keys() def isJidInRoster(self, entity_jid): """Return True if jid is in roster""" return entity_jid in self._jids def isPresenceAuthorised(self, entity_jid): """Return True if entity is authorised to see our presence""" try: item = self._jids[entity_jid.userhostJID()] except KeyError: return False return item.subscriptionFrom def getItems(self): """Return all items of the roster""" return self._jids.values() def getJidsFromGroup(self, group): try: return self._groups[group] except KeyError: raise exceptions.UnknownGroupError(group) def getJidsSet(self, type_, groups=None): """Helper method to get a set of jids @param type_(unicode): one of: C.ALL: get all jids from roster C.GROUP: get jids from groups (listed in "groups") @groups(list[unicode]): list of groups used if type_==C.GROUP @return (set(jid.JID)): set of selected jids """ if type_ == C.ALL and groups is not None: raise ValueError("groups must not be set for {} type".format(C.ALL)) if type_ == C.ALL: return set(self.getJids()) elif type_ == C.GROUP: jids = set() for group in groups: jids.update(self.getJidsFromGroup(group)) return jids else: raise ValueError(u"Unexpected type_ {}".format(type_)) def getNick(self, entity_jid): """Return a nick name for an entity return nick choosed by user if available else return user part of entity_jid """ item = self.getItem(entity_jid) if item is None: return entity_jid.user else: return item.name or entity_jid.user class SatPresenceProtocol(xmppim.PresenceClientProtocol): def __init__(self, host): xmppim.PresenceClientProtocol.__init__(self) self.host = host def send(self, obj): presence_d = defer.succeed(None) if not self.host.trigger.point("Presence send", self.parent, obj, presence_d): return presence_d.addCallback(lambda __: super(SatPresenceProtocol, self).send(obj)) def availableReceived(self, entity, show=None, statuses=None, priority=0): if not statuses: statuses = {} if None in statuses: # we only want string keys statuses[C.PRESENCE_STATUSES_DEFAULT] = statuses.pop(None) if not self.host.trigger.point( "presence_received", self.parent, entity, show, priority, statuses ): return self.host.memory.setPresenceStatus( entity, show or "", int(priority), statuses, self.parent.profile ) # now it's time to notify frontends self.host.bridge.presenceUpdate( entity.full(), show or "", int(priority), statuses, self.parent.profile ) def unavailableReceived(self, entity, statuses=None): log.debug( _(u"presence update for [%(entity)s] (unavailable, statuses=%(statuses)s)") % {"entity": entity, C.PRESENCE_STATUSES: statuses} ) if not statuses: statuses = {} if None in statuses: # we only want string keys statuses[C.PRESENCE_STATUSES_DEFAULT] = statuses.pop(None) if not self.host.trigger.point( "presence_received", self.parent, entity, C.PRESENCE_UNAVAILABLE, 0, statuses, ): return # now it's time to notify frontends # if the entity is not known yet in this session or is already unavailable, # there is no need to send an unavailable signal try: presence = self.host.memory.getEntityDatum( entity, "presence", self.parent.profile ) except (KeyError, exceptions.UnknownEntityError): # the entity has not been seen yet in this session pass else: if presence.show != C.PRESENCE_UNAVAILABLE: self.host.bridge.presenceUpdate( entity.full(), C.PRESENCE_UNAVAILABLE, 0, statuses, self.parent.profile, ) self.host.memory.setPresenceStatus( entity, C.PRESENCE_UNAVAILABLE, 0, statuses, self.parent.profile ) def available(self, entity=None, show=None, statuses=None, priority=None): """Set a presence and statuses. @param entity (jid.JID): entity @param show (unicode): value in ('unavailable', '', 'away', 'xa', 'chat', 'dnd') @param statuses (dict{unicode: unicode}): multilingual statuses with the entry key beeing a language code on 2 characters or "default". """ if priority is None: try: priority = int( self.host.memory.getParamA( "Priority", "Connection", profile_key=self.parent.profile ) ) except ValueError: priority = 0 if statuses is None: statuses = {} # default for us is None for wokkel # so we must temporarily switch to wokkel's convention... if C.PRESENCE_STATUSES_DEFAULT in statuses: statuses[None] = statuses.pop(C.PRESENCE_STATUSES_DEFAULT) presence_elt = xmppim.AvailablePresence(entity, show, statuses, priority) # ... before switching back if None in statuses: statuses["default"] = statuses.pop(None) if not self.host.trigger.point("presence_available", presence_elt, self.parent): return self.send(presence_elt) @defer.inlineCallbacks def subscribed(self, entity): yield self.parent.roster.got_roster xmppim.PresenceClientProtocol.subscribed(self, entity) self.host.memory.delWaitingSub(entity.userhost(), self.parent.profile) item = self.parent.roster.getItem(entity) if ( not item or not item.subscriptionTo ): # we automatically subscribe to 'to' presence log.debug(_('sending automatic "from" subscription request')) self.subscribe(entity) def unsubscribed(self, entity): xmppim.PresenceClientProtocol.unsubscribed(self, entity) self.host.memory.delWaitingSub(entity.userhost(), self.parent.profile) def subscribedReceived(self, entity): log.debug(_(u"subscription approved for [%s]") % entity.userhost()) self.host.bridge.subscribe("subscribed", entity.userhost(), self.parent.profile) def unsubscribedReceived(self, entity): log.debug(_(u"unsubscription confirmed for [%s]") % entity.userhost()) self.host.bridge.subscribe("unsubscribed", entity.userhost(), self.parent.profile) @defer.inlineCallbacks def subscribeReceived(self, entity): log.debug(_(u"subscription request from [%s]") % entity.userhost()) yield self.parent.roster.got_roster item = self.parent.roster.getItem(entity) if item and item.subscriptionTo: # We automatically accept subscription if we are already subscribed to # contact presence log.debug(_("sending automatic subscription acceptance")) self.subscribed(entity) else: self.host.memory.addWaitingSub( "subscribe", entity.userhost(), self.parent.profile ) self.host.bridge.subscribe( "subscribe", entity.userhost(), self.parent.profile ) @defer.inlineCallbacks def unsubscribeReceived(self, entity): log.debug(_(u"unsubscription asked for [%s]") % entity.userhost()) yield self.parent.roster.got_roster item = self.parent.roster.getItem(entity) if item and item.subscriptionFrom: # we automatically remove contact log.debug(_("automatic contact deletion")) self.host.delContact(entity, self.parent.profile) self.host.bridge.subscribe("unsubscribe", entity.userhost(), self.parent.profile) class SatDiscoProtocol(disco.DiscoClientProtocol): implements(iwokkel.IDisco) def __init__(self, host): disco.DiscoClientProtocol.__init__(self) def getDiscoInfo(self, requestor, target, nodeIdentifier=""): # those features are implemented in Wokkel (or sat_tmp.wokkel) # and thus are always available return [disco.DiscoFeature(NS_X_DATA), disco.DiscoFeature(NS_XML_ELEMENT), disco.DiscoFeature(NS_DISCO_INFO)] def getDiscoItems(self, requestor, target, nodeIdentifier=""): return [] class SatFallbackHandler(generic.FallbackHandler): def __init__(self, host): generic.FallbackHandler.__init__(self) def iqFallback(self, iq): if iq.handled is True: return log.debug(u"iqFallback: xml = [%s]" % (iq.toXml())) generic.FallbackHandler.iqFallback(self, iq) class SatVersionHandler(generic.VersionHandler): def getDiscoInfo(self, requestor, target, node): # XXX: We need to work around wokkel's behaviour (namespace not added if there # is a node) as it cause issues with XEP-0115 & PEP (XEP-0163): there is a # node when server ask for disco info, and not when we generate the key, so # the hash is used with different disco features, and when the server (seen # on ejabberd) generate its own hash for security check it reject our # features (resulting in e.g. no notification on PEP) return generic.VersionHandler.getDiscoInfo(self, requestor, target, None) class SatIdentityHandler(XMPPHandler): """Manage disco Identity of SàT.""" implements(iwokkel.IDisco) # TODO: dynamic identity update (see docstring). Note that a XMPP entity can have # several identities def getDiscoInfo(self, requestor, target, nodeIdentifier=""): return self.parent.identities def getDiscoItems(self, requestor, target, nodeIdentifier=""): return []