Mercurial > libervia-backend
view sat_frontends/jp/cmd_encryption.py @ 2807:0b7ce5daee9b
plugin XEP-0277: blog items data are now entirely serialised before going to bridge:
So far, and for historical reasons, blog items data where serialised using a unicode: unicode dict, which was causing trouble for many types of values (timestamps, booleans, lists).
This patch changes it by serialising the whole items before going to bridge, and deserialising it when going back. This way, complex data can be used easily in items.
This impact psEvent and serItemsData* methods which are renamed transItemsData* because there are not always serialising anymore (a new argument "serialise" allows to specify it).
When editing a blog post in jp, metadata are now more easy to manipulate, specially lists like tags.
| author | Goffi <goffi@goffi.org> |
|---|---|
| date | Sat, 23 Feb 2019 18:59:00 +0100 |
| parents | 003b8b4b56a7 |
| children | ab2696e34d29 |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # jp: a SAT command line tool # 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_frontends.jp import base from sat_frontends.jp.constants import Const as C from sat.core.i18n import _ from functools import partial from sat.tools.common import data_format from sat_frontends.jp import xmlui_manager __commands__ = ["Encryption"] class EncryptionAlgorithms(base.CommandBase): def __init__(self, host): extra_outputs = {"default": self.default_output} super(EncryptionAlgorithms, self).__init__( host, "algorithms", use_output=C.OUTPUT_LIST_DICT, extra_outputs=extra_outputs, use_profile=False, help=_("show available encryption algorithms")) self.need_loop = True def add_parser_options(self): pass def encryptionPluginsGetCb(self, plugins): self.output(plugins) self.host.quit() def default_output(self, plugins): if not plugins: self.disp(_(u"No encryption plugin registered!")) self.host.quit(C.EXIT_NOT_FOUND) else: self.disp(_(u"Following encryption algorithms are available: {algos}").format( algos=', '.join([p['name'] for p in plugins]))) self.host.quit() def start(self): self.host.bridge.encryptionPluginsGet( callback=self.encryptionPluginsGetCb, errback=partial( self.errback, msg=_(u"can't retrieve plugins: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, ), ) class EncryptionGet(base.CommandBase): def __init__(self, host): super(EncryptionGet, self).__init__( host, "get", use_output=C.OUTPUT_DICT, help=_(u"get encryption session data")) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "jid", type=base.unicode_decoder, help=_(u"jid of the entity to check") ) def messageEncryptionGetCb(self, serialised): session_data = data_format.deserialise(serialised) if session_data is None: self.disp( u"No encryption session found, the messages are sent in plain text.") self.host.quit(C.EXIT_NOT_FOUND) self.output(session_data) self.host.quit() def start(self): jids = self.host.check_jids([self.args.jid]) jid = jids[0] self.host.bridge.messageEncryptionGet( jid, self.profile, callback=self.messageEncryptionGetCb, errback=partial( self.errback, msg=_(u"can't get session: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, ), ) class EncryptionStart(base.CommandBase): def __init__(self, host): super(EncryptionStart, self).__init__( host, "start", help=_(u"start encrypted session with an entity")) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "--encrypt-noreplace", action="store_true", help=_(u"don't replace encryption algorithm if an other one is already used")) algorithm = self.parser.add_mutually_exclusive_group() algorithm.add_argument( "-n", "--name", help=_(u"algorithm name (DEFAULT: choose automatically)")) algorithm.add_argument( "-N", "--namespace", help=_(u"algorithm namespace (DEFAULT: choose automatically)")) self.parser.add_argument( "jid", type=base.unicode_decoder, help=_(u"jid of the entity to stop encrypted session with") ) def encryptionNamespaceGetCb(self, namespace): jids = self.host.check_jids([self.args.jid]) jid = jids[0] self.host.bridge.messageEncryptionStart( jid, namespace, not self.args.encrypt_noreplace, self.profile, callback=self.host.quit, errback=partial(self.errback, msg=_(u"Can't start encryption session: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, )) def start(self): if self.args.name is not None: self.host.bridge.encryptionNamespaceGet(self.args.name, callback=self.encryptionNamespaceGetCb, errback=partial(self.errback, msg=_(u"Can't get encryption namespace: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, )) elif self.args.namespace is not None: self.encryptionNamespaceGetCb(self.args.namespace) else: self.encryptionNamespaceGetCb(u"") class EncryptionStop(base.CommandBase): def __init__(self, host): super(EncryptionStop, self).__init__( host, "stop", help=_(u"stop encrypted session with an entity")) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "jid", type=base.unicode_decoder, help=_(u"jid of the entity to stop encrypted session with") ) def start(self): jids = self.host.check_jids([self.args.jid]) jid = jids[0] self.host.bridge.messageEncryptionStop( jid, self.profile, callback=self.host.quit, errback=partial( self.errback, msg=_(u"can't end encrypted session: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, ), ) class TrustUI(base.CommandBase): def __init__(self, host): super(TrustUI, self).__init__( host, "ui", help=_(u"get UI to manage trust")) self.need_loop = True def add_parser_options(self): self.parser.add_argument( "jid", type=base.unicode_decoder, help=_(u"jid of the entity to stop encrypted session with") ) algorithm = self.parser.add_mutually_exclusive_group() algorithm.add_argument( "-n", "--name", help=_(u"algorithm name (DEFAULT: current algorithm)")) algorithm.add_argument( "-N", "--namespace", help=_(u"algorithm namespace (DEFAULT: current algorithm)")) def encryptionTrustUIGetCb(self, xmlui_raw): xmlui = xmlui_manager.create(self.host, xmlui_raw) xmlui.show() xmlui.submitForm() def encryptionNamespaceGetCb(self, namespace): jids = self.host.check_jids([self.args.jid]) jid = jids[0] self.host.bridge.encryptionTrustUIGet( jid, namespace, self.profile, callback=self.encryptionTrustUIGetCb, errback=partial( self.errback, msg=_(u"can't end encrypted session: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, ), ) def start(self): if self.args.name is not None: self.host.bridge.encryptionNamespaceGet(self.args.name, callback=self.encryptionNamespaceGetCb, errback=partial(self.errback, msg=_(u"Can't get encryption namespace: {}"), exit_code=C.EXIT_BRIDGE_ERRBACK, )) elif self.args.namespace is not None: self.encryptionNamespaceGetCb(self.args.namespace) else: self.encryptionNamespaceGetCb(u"") class EncryptionTrust(base.CommandBase): subcommands = (TrustUI,) def __init__(self, host): super(EncryptionTrust, self).__init__( host, "trust", use_profile=False, help=_(u"trust manangement") ) class Encryption(base.CommandBase): subcommands = (EncryptionAlgorithms, EncryptionGet, EncryptionStart, EncryptionStop, EncryptionTrust) def __init__(self, host): super(Encryption, self).__init__( host, "encryption", use_profile=False, help=_(u"encryption sessions handling") )