Mercurial > libervia-backend
view libervia/backend/plugins/plugin_xep_0085.py @ 4332:71c939e34ca6
XEP-0373 (OX): Adjust to gpgme updates: generate with explicit algorithm and subkeys
author | Syndace <me@syndace.dev> |
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date | Sat, 13 Jul 2024 18:28:28 +0200 |
parents | 0d7bb4df2343 |
children |
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#!/usr/bin/env python3 # SAT plugin for Chat State Notifications Protocol (xep-0085) # Copyright (C) 2009-2016 Adrien Cossa (souliane@mailoo.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 libervia.backend.core.i18n import _ from libervia.backend.core.constants import Const as C from libervia.backend.core import exceptions from libervia.backend.core.log import getLogger log = getLogger(__name__) from wokkel import disco, iwokkel from zope.interface import implementer from twisted.words.protocols.jabber.jid import JID try: from twisted.words.protocols.xmlstream import XMPPHandler except ImportError: from wokkel.subprotocols import XMPPHandler from twisted.words.xish import domish from twisted.internet import reactor from twisted.internet import error as internet_error NS_XMPP_CLIENT = "jabber:client" NS_CHAT_STATES = "http://jabber.org/protocol/chatstates" CHAT_STATES = ["active", "inactive", "gone", "composing", "paused"] MESSAGE_TYPES = ["chat", "groupchat"] PARAM_KEY = "Notifications" PARAM_NAME = "Enable chat state notifications" ENTITY_KEY = PARAM_KEY + "_" + PARAM_NAME DELETE_VALUE = "DELETE" PLUGIN_INFO = { C.PI_NAME: "Chat State Notifications Protocol Plugin", C.PI_IMPORT_NAME: "XEP-0085", C.PI_TYPE: "XEP", C.PI_PROTOCOLS: ["XEP-0085"], C.PI_DEPENDENCIES: [], C.PI_MAIN: "XEP_0085", C.PI_HANDLER: "yes", C.PI_DESCRIPTION: _("""Implementation of Chat State Notifications Protocol"""), } # Describe the internal transitions that are triggered # by a timer. Beside that, external transitions can be # runned to target the states "active" or "composing". # Delay is specified here in seconds. TRANSITIONS = { "active": {"next_state": "inactive", "delay": 120}, "inactive": {"next_state": "gone", "delay": 480}, "gone": {"next_state": "", "delay": 0}, "composing": {"next_state": "paused", "delay": 30}, "paused": {"next_state": "inactive", "delay": 450}, } class UnknownChatStateException(Exception): """ This error is raised when an unknown chat state is used. """ pass class XEP_0085(object): """ Implementation for XEP 0085 """ params = """ <params> <individual> <category name="%(category_name)s" label="%(category_label)s"> <param name="%(param_name)s" label="%(param_label)s" value="true" type="bool" security="0"/> </category> </individual> </params> """ % { "category_name": PARAM_KEY, "category_label": _(PARAM_KEY), "param_name": PARAM_NAME, "param_label": _("Enable chat state notifications"), } def __init__(self, host): log.info(_("Chat State Notifications plugin initialization")) self.host = host self.map = ( {} ) # FIXME: would be better to use client instead of mapping profile to data # parameter value is retrieved before each use host.memory.update_params(self.params) # triggers from core host.trigger.add("message_received", self.message_received_trigger) host.trigger.add("sendMessage", self.send_message_trigger) host.trigger.add("param_update_trigger", self.param_update_trigger) # args: to_s (jid as string), profile host.bridge.add_method( "chat_state_composing", ".plugin", in_sign="ss", out_sign="", method=self.chat_state_composing, ) # args: from (jid as string), state in CHAT_STATES, profile host.bridge.add_signal("chat_state_received", ".plugin", signature="sss") def get_handler(self, client): return XEP_0085_handler(self, client.profile) def profile_disconnected(self, client): """Eventually send a 'gone' state to all one2one contacts.""" profile = client.profile if profile not in self.map: return for to_jid in self.map[profile]: # FIXME: the "unavailable" presence stanza is received by to_jid # before the chat state, so it will be ignored... find a way to # actually defer the disconnection self.map[profile][to_jid]._onEvent("gone") del self.map[profile] def update_cache(self, entity_jid, value, profile): """Update the entity data of the given profile for one or all contacts. Reset the chat state(s) display if the notification has been disabled. @param entity_jid: contact's JID, or C.ENTITY_ALL to update all contacts. @param value: True, False or DELETE_VALUE to delete the entity data @param profile: current profile """ client = self.host.get_client(profile) if value == DELETE_VALUE: self.host.memory.del_entity_datum(client, entity_jid, ENTITY_KEY) else: self.host.memory.update_entity_data(client, entity_jid, ENTITY_KEY, value) if not value or value == DELETE_VALUE: # reinit chat state UI for this or these contact(s) self.host.bridge.chat_state_received(entity_jid.full(), "", profile) def param_update_trigger(self, name, value, category, type_, profile): """Reset all the existing chat state entity data associated with this profile after a parameter modification. @param name: parameter name @param value: "true" to activate the notifications, or any other value to delete it @param category: parameter category @param type_: parameter type """ if (category, name) == (PARAM_KEY, PARAM_NAME): self.update_cache( C.ENTITY_ALL, True if C.bool(value) else DELETE_VALUE, profile=profile ) return False return True def message_received_trigger(self, client, message, post_treat): """ Update the entity cache when we receive a message with body. Check for a chat state in the message and signal frontends. """ profile = client.profile if not self.host.memory.param_get_a(PARAM_NAME, PARAM_KEY, profile_key=profile): return True from_jid = JID(message.getAttribute("from")) if self._is_muc(from_jid, profile): from_jid = from_jid.userhostJID() else: # update entity data for one2one chat # assert from_jid.resource # FIXME: assert doesn't work on normal message from server (e.g. server announce), because there is no resource try: next(domish.generateElementsNamed(message.elements(), name="body")) try: next(domish.generateElementsNamed(message.elements(), name="active")) # contact enabled Chat State Notifications self.update_cache(from_jid, True, profile=profile) except StopIteration: if message.getAttribute("type") == "chat": # contact didn't enable Chat State Notifications self.update_cache(from_jid, False, profile=profile) return True except StopIteration: pass # send our next "composing" states to any MUC and to the contacts who enabled the feature self._chat_state_init(from_jid, message.getAttribute("type"), profile) state_list = [ child.name for child in message.elements() if message.getAttribute("type") in MESSAGE_TYPES and child.name in CHAT_STATES and child.defaultUri == NS_CHAT_STATES ] for state in state_list: # there must be only one state according to the XEP if state != "gone" or message.getAttribute("type") != "groupchat": self.host.bridge.chat_state_received( message.getAttribute("from"), state, profile ) break return True def send_message_trigger( self, client, mess_data, pre_xml_treatments, post_xml_treatments ): """ Eventually add the chat state to the message and initiate the state machine when sending an "active" state. """ profile = client.profile def treatment(mess_data): message = mess_data["xml"] to_jid = JID(message.getAttribute("to")) if not self._check_activation(to_jid, forceEntityData=True, profile=profile): return mess_data try: # message with a body always mean active state next(domish.generateElementsNamed(message.elements(), name="body")) message.addElement("active", NS_CHAT_STATES) # launch the chat state machine (init the timer) if self._is_muc(to_jid, profile): to_jid = to_jid.userhostJID() self._chat_state_active(to_jid, mess_data["type"], profile) except StopIteration: if "chat_state" in mess_data["extra"]: state = mess_data["extra"].pop("chat_state") assert state in CHAT_STATES message.addElement(state, NS_CHAT_STATES) return mess_data post_xml_treatments.addCallback(treatment) return True def _is_muc(self, to_jid, profile): """Tell if that JID is a MUC or not @param to_jid (JID): full or bare JID to check @param profile (str): %(doc_profile)s @return: bool """ client = self.host.get_client(profile) try: type_ = self.host.memory.get_entity_datum( client, to_jid.userhostJID(), C.ENTITY_TYPE ) if type_ == C.ENTITY_TYPE_MUC: return True except (exceptions.UnknownEntityError, KeyError): pass return False def _check_activation(self, to_jid, forceEntityData, profile): """ @param to_jid: the contact's full JID (or bare if you know it's a MUC) @param forceEntityData: if set to True, a non-existing entity data will be considered to be True (and initialized) @param: current profile @return: True if the notifications should be sent to this JID. """ client = self.host.get_client(profile) # check if the parameter is active if not self.host.memory.param_get_a(PARAM_NAME, PARAM_KEY, profile_key=profile): return False # check if notifications should be sent to this contact if self._is_muc(to_jid, profile): return True # FIXME: this assertion crash when we want to send a message to an online bare jid # assert to_jid.resource or not self.host.memory.is_entity_available(to_jid, profile) # must either have a resource, or talk to an offline contact try: return self.host.memory.get_entity_datum(client, to_jid, ENTITY_KEY) except (exceptions.UnknownEntityError, KeyError): if forceEntityData: # enable it for the first time self.update_cache(to_jid, True, profile=profile) return True # wait for the first message before sending states return False def _chat_state_init(self, to_jid, mess_type, profile): """ Data initialization for the chat state machine. @param to_jid (JID): full JID for one2one, bare JID for MUC @param mess_type (str): "one2one" or "groupchat" @param profile (str): %(doc_profile)s """ if mess_type is None: return profile_map = self.map.setdefault(profile, {}) if to_jid not in profile_map: machine = ChatStateMachine(self.host, to_jid, mess_type, profile) self.map[profile][to_jid] = machine def _chat_state_active(self, to_jid, mess_type, profile_key): """ Launch the chat state machine on "active" state. @param to_jid (JID): full JID for one2one, bare JID for MUC @param mess_type (str): "one2one" or "groupchat" @param profile (str): %(doc_profile)s """ profile = self.host.memory.get_profile_name(profile_key) if profile is None: raise exceptions.ProfileUnknownError self._chat_state_init(to_jid, mess_type, profile) self.map[profile][to_jid]._onEvent("active") def chat_state_composing(self, to_jid_s, profile_key): """Move to the "composing" state when required. Since this method is called from the front-end, it needs to check the values of the parameter "Send chat state notifications" and the entity data associated to the target JID. @param to_jid_s (str): contact full JID as a string @param profile_key (str): %(doc_profile_key)s """ # TODO: try to optimize this method which is called often client = self.host.get_client(profile_key) to_jid = JID(to_jid_s) if self._is_muc(to_jid, client.profile): to_jid = to_jid.userhostJID() elif not to_jid.resource: to_jid.resource = self.host.memory.main_resource_get(client, to_jid) if not self._check_activation( to_jid, forceEntityData=False, profile=client.profile ): return try: self.map[client.profile][to_jid]._onEvent("composing") except (KeyError, AttributeError): # no message has been sent/received since the notifications # have been enabled, it's better to wait for a first one pass class ChatStateMachine(object): """ This class represents a chat state, between one profile and one target contact. A timer is used to move from one state to the other. The initialization is done through the "active" state which is internally set when a message is sent. The state "composing" can be set externally (through the bridge by a frontend). Other states are automatically set with the timer. """ def __init__(self, host, to_jid, mess_type, profile): """ Initialization need to store the target, message type and a profile for sending later messages. """ self.host = host self.to_jid = to_jid self.mess_type = mess_type self.profile = profile self.state = None self.timer = None def _onEvent(self, state): """ Move to the specified state, eventually send the notification to the contact (the "active" state is automatically sent with each message) and set the timer. """ assert state in TRANSITIONS transition = TRANSITIONS[state] assert "next_state" in transition and "delay" in transition if state != self.state and state != "active": if state != "gone" or self.mess_type != "groupchat": # send a new message without body log.debug( "sending state '{state}' to {jid}".format( state=state, jid=self.to_jid.full() ) ) client = self.host.get_client(self.profile) mess_data = { "from": client.jid, "to": self.to_jid, "uid": "", "message": {}, "type": self.mess_type, "subject": {}, "extra": {}, } client.generate_message_xml(mess_data) mess_data["xml"].addElement(state, NS_CHAT_STATES) client.send(mess_data["xml"]) self.state = state try: self.timer.cancel() except (internet_error.AlreadyCalled, AttributeError): pass if transition["next_state"] and transition["delay"] > 0: self.timer = reactor.callLater( transition["delay"], self._onEvent, transition["next_state"] ) @implementer(iwokkel.IDisco) class XEP_0085_handler(XMPPHandler): def __init__(self, plugin_parent, profile): self.plugin_parent = plugin_parent self.host = plugin_parent.host self.profile = profile def getDiscoInfo(self, requestor, target, nodeIdentifier=""): return [disco.DiscoFeature(NS_CHAT_STATES)] def getDiscoItems(self, requestor, target, nodeIdentifier=""): return []