Mercurial > libervia-backend
view libervia/backend/bridge/pb.py @ 4204:879bad48cc2d
frontends (tools/webrtc): implement X11 desktop sharing:
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author | Goffi <goffi@goffi.org> |
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date | Tue, 16 Jan 2024 10:42:00 +0100 |
parents | a8a0fa678ce2 |
children | 0d7bb4df2343 |
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#!/usr/bin/env python3 # SAT: a jabber client # Copyright (C) 2009-2021 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 dataclasses from functools import partial from pathlib import Path from twisted.spread import jelly, pb from twisted.internet import reactor from libervia.backend.core.log import getLogger from libervia.backend.tools import config log = getLogger(__name__) ## jelly hack # we monkey patch jelly to handle namedtuple ori_jelly = jelly._Jellier.jelly def fixed_jelly(self, obj): """this method fix handling of namedtuple""" if isinstance(obj, tuple) and not obj is tuple: obj = tuple(obj) return ori_jelly(self, obj) jelly._Jellier.jelly = fixed_jelly @dataclasses.dataclass(eq=False) class HandlerWrapper: # we use a wrapper to keep signals handlers because RemoteReference doesn't support # comparison (other than equality), making it unusable with a list handler: pb.RemoteReference class PBRoot(pb.Root): def __init__(self): self.signals_handlers = [] def remote_init_bridge(self, signals_handler): self.signals_handlers.append(HandlerWrapper(signals_handler)) log.info("registered signal handler") def send_signal_eb(self, failure_, signal_name): if not failure_.check(pb.PBConnectionLost): log.error( f"Error while sending signal {signal_name}: {failure_}", ) def send_signal(self, name, args, kwargs): to_remove = [] for wrapper in self.signals_handlers: handler = wrapper.handler try: d = handler.callRemote(name, *args, **kwargs) except pb.DeadReferenceError: to_remove.append(wrapper) else: d.addErrback(self.send_signal_eb, name) if to_remove: for wrapper in to_remove: log.debug("Removing signal handler for dead frontend") self.signals_handlers.remove(wrapper) def _bridge_deactivate_signals(self): if hasattr(self, "signals_paused"): log.warning("bridge signals already deactivated") if self.signals_handler: self.signals_paused.extend(self.signals_handler) else: self.signals_paused = self.signals_handlers self.signals_handlers = [] log.debug("bridge signals have been deactivated") def _bridge_reactivate_signals(self): try: self.signals_handlers = self.signals_paused except AttributeError: log.debug("signals were already activated") else: del self.signals_paused log.debug("bridge signals have been reactivated") ##METHODS_PART## class bridge(object): def __init__(self): log.info("Init Perspective Broker...") self.root = PBRoot() conf = config.parse_main_conf() get_conf = partial(config.get_conf, conf, "bridge_pb", "") conn_type = get_conf("connection_type", "unix_socket") if conn_type == "unix_socket": local_dir = Path(config.config_get(conf, "", "local_dir")).resolve() socket_path = local_dir / "bridge_pb" log.info(f"using UNIX Socket at {socket_path}") reactor.listenUNIX( str(socket_path), pb.PBServerFactory(self.root), mode=0o600 ) elif conn_type == "socket": port = int(get_conf("port", 8789)) log.info(f"using TCP Socket at port {port}") reactor.listenTCP(port, pb.PBServerFactory(self.root)) else: raise ValueError(f"Unknown pb connection type: {conn_type!r}") def send_signal(self, name, *args, **kwargs): self.root.send_signal(name, args, kwargs) def remote_init_bridge(self, signals_handler): self.signals_handlers.append(signals_handler) log.info("registered signal handler") def register_method(self, name, callback): log.debug("registering PB bridge method [%s]" % name) setattr(self.root, "remote_" + name, callback) # self.root.register_method(name, callback) def add_method( self, name, int_suffix, in_sign, out_sign, method, async_=False, doc={} ): """Dynamically add a method to PB bridge""" # FIXME: doc parameter is kept only temporary, the time to remove it from calls log.debug("Adding method {name} to PB bridge".format(name=name)) self.register_method(name, method) def add_signal(self, name, int_suffix, signature, doc={}): log.debug("Adding signal {name} to PB bridge".format(name=name)) setattr( self, name, lambda *args, **kwargs: self.send_signal(name, *args, **kwargs) ) def bridge_deactivate_signals(self): """Stop sending signals to bridge Mainly used for mobile frontends, when the frontend is paused """ self.root._bridge_deactivate_signals() def bridge_reactivate_signals(self): """Send again signals to bridge Should only be used after bridge_deactivate_signals has been called """ self.root._bridge_reactivate_signals() def _debug(self, action, params, profile): self.send_signal("_debug", action, params, profile) def action_new(self, action_data, id, security_limit, profile): self.send_signal("action_new", action_data, id, security_limit, profile) def connected(self, jid_s, profile): self.send_signal("connected", jid_s, profile) def contact_deleted(self, entity_jid, profile): self.send_signal("contact_deleted", entity_jid, profile) def contact_new(self, contact_jid, attributes, groups, profile): self.send_signal("contact_new", contact_jid, attributes, groups, profile) def disconnected(self, profile): self.send_signal("disconnected", profile) def entity_data_updated(self, jid, name, value, profile): self.send_signal("entity_data_updated", jid, name, value, profile) def message_encryption_started(self, to_jid, encryption_data, profile_key): self.send_signal("message_encryption_started", to_jid, encryption_data, profile_key) def message_encryption_stopped(self, to_jid, encryption_data, profile_key): self.send_signal("message_encryption_stopped", to_jid, encryption_data, profile_key) def message_new(self, uid, timestamp, from_jid, to_jid, message, subject, mess_type, extra, profile): self.send_signal("message_new", uid, timestamp, from_jid, to_jid, message, subject, mess_type, extra, profile) def message_update(self, uid, message_type, message_data, profile): self.send_signal("message_update", uid, message_type, message_data, profile) def notification_deleted(self, id, profile): self.send_signal("notification_deleted", id, profile) def notification_new(self, id, timestamp, type, body_plain, body_rich, title, requires_action, priority, expire_at, extra, profile): self.send_signal("notification_new", id, timestamp, type, body_plain, body_rich, title, requires_action, priority, expire_at, extra, profile) def param_update(self, name, value, category, profile): self.send_signal("param_update", name, value, category, profile) def presence_update(self, entity_jid, show, priority, statuses, profile): self.send_signal("presence_update", entity_jid, show, priority, statuses, profile) def progress_error(self, id, error, profile): self.send_signal("progress_error", id, error, profile) def progress_finished(self, id, metadata, profile): self.send_signal("progress_finished", id, metadata, profile) def progress_started(self, id, metadata, profile): self.send_signal("progress_started", id, metadata, profile) def subscribe(self, sub_type, entity_jid, profile): self.send_signal("subscribe", sub_type, entity_jid, profile)