Mercurial > libervia-backend
view sat_frontends/jp/cmd_debug.py @ 2738:eb58f26ed236
plugin XEP-0384: update to last python-omemo + trust management:
- Plugin has been updated to use last version of python-omemo (10.0.3).
- A temporary method remove all storage data if they are found, this method must be removed before 0.7 release (only people using dev version should have old omemo data in there storage).
- Trust management is not implemented, using new encryptionTrustUIGet method (an UI is also displayed when trust handling is needed before sending a message).
- omemo.DefaultOTPKPolicy is now used, instead of previous test policy of always deleting.
OMEMO e2e encryption is now functional for one2one conversations, including fingerprint management.
author | Goffi <goffi@goffi.org> |
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date | Wed, 02 Jan 2019 18:50:28 +0100 |
parents | 56f94936df1e |
children | 003b8b4b56a7 |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # jp: a SàT command line tool # Copyright (C) 2009-2018 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 base from sat.core.i18n import _ from sat_frontends.jp.constants import Const as C from sat.tools.common.ansi import ANSI as A import json __commands__ = ["Debug"] class BridgeCommon(object): def evalArgs(self): if self.args.arg: try: return eval(u"[{}]".format(u",".join(self.args.arg))) except SyntaxError as e: self.disp( u"Can't evaluate arguments: {mess}\n{text}\n{offset}^".format( mess=e, text=e.text.decode("utf-8"), offset=u" " * (e.offset - 1) ), error=True, ) self.host.quit(C.EXIT_BAD_ARG) else: return [] class Method(base.CommandBase, BridgeCommon): def __init__(self, host): base.CommandBase.__init__(self, host, "method", help=_(u"call a bridge method")) BridgeCommon.__init__(self) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "method", type=str, help=_(u"name of the method to execute") ) self.parser.add_argument( "arg", type=base.unicode_decoder, nargs="*", help=_(u"argument of the method") ) def method_cb(self, ret=None): if ret is not None: self.disp(unicode(ret)) self.host.quit() def method_eb(self, failure): self.disp( _(u"Error while executing {}: {}".format(self.args.method, failure)), error=True, ) self.host.quit(C.EXIT_ERROR) def start(self): method = getattr(self.host.bridge, self.args.method) args = self.evalArgs() try: method( *args, profile=self.profile, callback=self.method_cb, errback=self.method_eb ) except TypeError: # maybe the method doesn't need a profile ? try: method(*args, callback=self.method_cb, errback=self.method_eb) except TypeError: self.method_eb(_(u"bad arguments")) class Signal(base.CommandBase, BridgeCommon): def __init__(self, host): base.CommandBase.__init__( self, host, "signal", help=_(u"send a fake signal from backend") ) BridgeCommon.__init__(self) def add_parser_options(self): self.parser.add_argument( "signal", type=str, help=_(u"name of the signal to send") ) self.parser.add_argument( "arg", type=base.unicode_decoder, nargs="*", help=_(u"argument of the signal") ) def start(self): args = self.evalArgs() json_args = json.dumps(args) # XXX: we use self.args.profile and not self.profile # because we want the raw profile_key (so plugin handle C.PROF_KEY_NONE) self.host.bridge.debugFakeSignal(self.args.signal, json_args, self.args.profile) class Bridge(base.CommandBase): subcommands = (Method, Signal) def __init__(self, host): super(Bridge, self).__init__( host, "bridge", use_profile=False, help=_("bridge s(t)imulation") ) class Monitor(base.CommandBase): def __init__(self, host): super(Monitor, self).__init__( host, "monitor", use_verbose=True, use_profile=False, use_output=C.OUTPUT_XML, help=_("monitor XML stream"), ) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "-d", "--direction", choices=("in", "out", "both"), default="both", help=_(u"stream direction filter"), ) def printXML(self, direction, xml_data, profile): if self.args.direction == "in" and direction != "IN": return if self.args.direction == "out" and direction != "OUT": return verbosity = self.host.verbosity if not xml_data.strip(): if verbosity <= 2: return whiteping = True else: whiteping = False if verbosity: profile_disp = u" ({})".format(profile) if verbosity > 1 else u"" if direction == "IN": self.disp( A.color( A.BOLD, A.FG_YELLOW, "<<<===== IN ====", A.FG_WHITE, profile_disp ) ) else: self.disp( A.color( A.BOLD, A.FG_CYAN, "==== OUT ====>>>", A.FG_WHITE, profile_disp ) ) if whiteping: self.disp("[WHITESPACE PING]") else: try: self.output(xml_data) except Exception: # initial stream is not valid XML, # in this case we print directly to data # FIXME: we should test directly lxml.etree.XMLSyntaxError # but importing lxml directly here is not clean # should be wrapped in a custom Exception self.disp(xml_data) self.disp(u"") def start(self): self.host.bridge.register_signal("xmlLog", self.printXML, "plugin") class Debug(base.CommandBase): subcommands = (Bridge, Monitor) def __init__(self, host): super(Debug, self).__init__( host, "debug", use_profile=False, help=_("debugging tools") )