Mercurial > libervia-backend
view sat/plugins/plugin_misc_nat-port.py @ 3237:b0c57c9a4bd8
plugin XEP-0384: OMEMO trust policy:
OMEMO trust policy can now be specified. For now there are 2 policies:
- `manual`: each new device fingerprint must be explicitly trusted or not before the
device can be used, and the message sent
- `BTBV` (Blind Trust Before Verification): each new device fingerprint is automically
trusted, until user manually trust or not a device, in which case the behaviour becomes
the same as for `manual` for the entity. When using the Trust UI, user can put the
entity back to blind trust if they wish.
A message is send as feedback to user when a new device is/must be trusted, trying to
explain clearly what's happening to the user.
Devices which have been automically trusted are marked, so user can know which ones may
cause security issue.
| author | Goffi <goffi@goffi.org> |
|---|---|
| date | Fri, 27 Mar 2020 10:02:14 +0100 |
| parents | 559a625a236b |
| children | be6d91572633 |
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#!/usr/bin/env python3 # SAT plugin for NAT port mapping # Copyright (C) 2009-2020 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.core.i18n import _ from sat.core.constants import Const as C from sat.core.log import getLogger log = getLogger(__name__) from sat.core import exceptions from twisted.internet import threads from twisted.internet import defer from twisted.python import failure import threading try: import miniupnpc except ImportError: raise exceptions.MissingModule( "Missing module MiniUPnPc, please download/install it (and its Python binding) at http://miniupnp.free.fr/ (or use pip install miniupnpc)" ) PLUGIN_INFO = { C.PI_NAME: "NAT port mapping", C.PI_IMPORT_NAME: "NAT-PORT", C.PI_TYPE: C.PLUG_TYPE_MISC, C.PI_MAIN: "NatPort", C.PI_HANDLER: "no", C.PI_DESCRIPTION: _("""Automatic NAT port mapping using UPnP"""), } STARTING_PORT = 6000 # starting point to automatically find a port DEFAULT_DESC = ( "SaT port mapping" ) # we don't use "à" here as some bugged NAT don't manage charset correctly class MappingError(Exception): pass class NatPort(object): # TODO: refresh data if a new connection is detected (see plugin_misc_ip) def __init__(self, host): log.info(_("plugin NAT Port initialization")) self.host = host self._external_ip = None self._initialised = defer.Deferred() self._upnp = miniupnpc.UPnP() # will be None if no device is available self._upnp.discoverdelay = 200 self._mutex = threading.Lock() # used to protect access to self._upnp self._starting_port_cache = None # used to cache the first available port self._to_unmap = [] # list of tuples (ext_port, protocol) of ports to unmap on unload discover_d = threads.deferToThread(self._discover) discover_d.chainDeferred(self._initialised) self._initialised.addErrback(self._init_failed) def unload(self): if self._to_unmap: log.info("Cleaning mapped ports") return threads.deferToThread(self._unmapPortsBlocking) def _init_failed(self, failure_): e = failure_.trap(exceptions.NotFound, exceptions.FeatureNotFound) if e == exceptions.FeatureNotFound: log.info("UPnP-IGD seems to be not activated on the device") else: log.info("UPnP-IGD not available") self._upnp = None def _discover(self): devices = self._upnp.discover() if devices: log.info("{nb} UPnP-IGD device(s) found".format(nb=devices)) else: log.info("Can't find UPnP-IGD device on the local network") raise failure.Failure(exceptions.NotFound()) self._upnp.selectigd() try: self._external_ip = self._upnp.externalipaddress() except Exception: raise failure.Failure(exceptions.FeatureNotFound()) def getIP(self, local=False): """Return IP address found with UPnP-IGD @param local(bool): True to get external IP address, False to get local network one @return (None, str): found IP address, or None of something got wrong """ def getIP(__): if self._upnp is None: return None # lanaddr can be the empty string if not found, # we need to return None in this case return (self._upnp.lanaddr or None) if local else self._external_ip return self._initialised.addCallback(getIP) def _unmapPortsBlocking(self): """Unmap ports mapped in this session""" self._mutex.acquire() try: for port, protocol in self._to_unmap: log.info("Unmapping port {}".format(port)) unmapping = self._upnp.deleteportmapping( # the last parameter is remoteHost, we don't use it port, protocol, "", ) if not unmapping: log.error( "Can't unmap port {port} ({protocol})".format( port=port, protocol=protocol ) ) del self._to_unmap[:] finally: self._mutex.release() def _mapPortBlocking(self, int_port, ext_port, protocol, desc): """Internal blocking method to map port @param int_port(int): internal port to use @param ext_port(int): external port to use, or None to find one automatically @param protocol(str): 'TCP' or 'UDP' @param desc(str): description of the mapping @param return(int, None): external port used in case of success, otherwise None """ # we use mutex to avoid race condition if 2 threads # try to acquire a port at the same time self._mutex.acquire() try: if ext_port is None: # find a free port starting_port = self._starting_port_cache ext_port = STARTING_PORT if starting_port is None else starting_port ret = self._upnp.getspecificportmapping(ext_port, protocol) while ret != None and ext_port < 65536: ext_port += 1 ret = self._upnp.getspecificportmapping(ext_port, protocol) if starting_port is None: # XXX: we cache the first successfuly found external port # to avoid testing again the first series the next time self._starting_port_cache = ext_port try: mapping = self._upnp.addportmapping( # the last parameter is remoteHost, we don't use it ext_port, protocol, self._upnp.lanaddr, int_port, desc, "", ) except Exception as e: log.error(_("addportmapping error: {msg}").format(msg=e)) raise failure.Failure(MappingError()) if not mapping: raise failure.Failure(MappingError()) else: self._to_unmap.append((ext_port, protocol)) finally: self._mutex.release() return ext_port def mapPort(self, int_port, ext_port=None, protocol="TCP", desc=DEFAULT_DESC): """Add a port mapping @param int_port(int): internal port to use @param ext_port(int,None): external port to use, or None to find one automatically @param protocol(str): 'TCP' or 'UDP' @param desc(unicode): description of the mapping Some UPnP IGD devices have broken encoding. It's probably a good idea to avoid non-ascii chars here @return (D(int, None)): external port used in case of success, otherwise None """ if self._upnp is None: return defer.succeed(None) def mappingCb(ext_port): log.info( "{protocol} mapping from {int_port} to {ext_port} successful".format( protocol=protocol, int_port=int_port, ext_port=ext_port ) ) return ext_port def mappingEb(failure_): failure_.trap(MappingError) log.warning("Can't map internal {int_port}".format(int_port=int_port)) def mappingUnknownEb(failure_): log.error(_("error while trying to map ports: {msg}").format(msg=failure_)) d = threads.deferToThread( self._mapPortBlocking, int_port, ext_port, protocol, desc ) d.addCallbacks(mappingCb, mappingEb) d.addErrback(mappingUnknownEb) return d