Mercurial > libervia-backend
view sat/plugins/plugin_misc_nat-port.py @ 3028:ab2696e34d29
Python 3 port:
/!\ this is a huge commit
/!\ starting from this commit, SàT is needs Python 3.6+
/!\ SàT maybe be instable or some feature may not work anymore, this will improve with time
This patch port backend, bridge and frontends to Python 3.
Roughly this has been done this way:
- 2to3 tools has been applied (with python 3.7)
- all references to python2 have been replaced with python3 (notably shebangs)
- fixed files not handled by 2to3 (notably the shell script)
- several manual fixes
- fixed issues reported by Python 3 that where not handled in Python 2
- replaced "async" with "async_" when needed (it's a reserved word from Python 3.7)
- replaced zope's "implements" with @implementer decorator
- temporary hack to handle data pickled in database, as str or bytes may be returned,
to be checked later
- fixed hash comparison for password
- removed some code which is not needed anymore with Python 3
- deactivated some code which needs to be checked (notably certificate validation)
- tested with jp, fixed reported issues until some basic commands worked
- ported Primitivus (after porting dependencies like urwid satext)
- more manual fixes
author | Goffi <goffi@goffi.org> |
---|---|
date | Tue, 13 Aug 2019 19:08:41 +0200 |
parents | 003b8b4b56a7 |
children | 9d0df638c8b4 |
line wrap: on
line source
#!/usr/bin/env python3 # -*- coding: utf-8 -*- # SAT plugin for NAT port mapping # 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.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