Mercurial > libervia-backend
view sat/plugins/plugin_xep_0234.py @ 2853:6901a425d882
quick frontend (widgets): improved deletion of widget:
QuickWidget deletion has been improved a bit. A new "all_instances" kwarg can be used to completely delete all instances of a widget.
author | Goffi <goffi@goffi.org> |
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date | Sun, 10 Mar 2019 18:03:41 +0100 |
parents | 003b8b4b56a7 |
children | 69e4716d6268 |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # SAT plugin for Jingle File Transfer (XEP-0234) # 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 wokkel import disco, iwokkel from zope.interface import implements from sat.tools import utils from sat.tools import stream from sat.tools.common import date_utils import os.path from twisted.words.xish import domish from twisted.words.protocols.jabber import jid from twisted.python import failure from twisted.words.protocols.jabber.xmlstream import XMPPHandler from twisted.internet import defer from twisted.internet import reactor from twisted.internet import error as internet_error from collections import namedtuple from sat.tools.common import regex import mimetypes NS_JINGLE_FT = "urn:xmpp:jingle:apps:file-transfer:5" PLUGIN_INFO = { C.PI_NAME: "Jingle File Transfer", C.PI_IMPORT_NAME: "XEP-0234", C.PI_TYPE: "XEP", C.PI_MODES: C.PLUG_MODE_BOTH, C.PI_PROTOCOLS: ["XEP-0234"], C.PI_DEPENDENCIES: ["XEP-0166", "XEP-0300", "FILE"], C.PI_MAIN: "XEP_0234", C.PI_HANDLER: "yes", C.PI_DESCRIPTION: _("""Implementation of Jingle File Transfer"""), } EXTRA_ALLOWED = {u"path", u"namespace", u"file_desc", u"file_hash"} Range = namedtuple("Range", ("offset", "length")) class XEP_0234(object): # TODO: assure everything is closed when file is sent or session terminate is received # TODO: call self._f.unregister when unloading order will be managing (i.e. when dependencies will be unloaded at the end) Range = Range # we copy the class here, so it can be used by other plugins def __init__(self, host): log.info(_("plugin Jingle File Transfer initialization")) self.host = host host.registerNamespace("jingle-ft", NS_JINGLE_FT) self._j = host.plugins["XEP-0166"] # shortcut to access jingle self._j.registerApplication(NS_JINGLE_FT, self) self._f = host.plugins["FILE"] self._f.register( NS_JINGLE_FT, self.fileJingleSend, priority=10000, method_name=u"Jingle" ) self._hash = self.host.plugins["XEP-0300"] host.bridge.addMethod( "fileJingleSend", ".plugin", in_sign="ssssa{ss}s", out_sign="", method=self._fileJingleSend, async=True, ) host.bridge.addMethod( "fileJingleRequest", ".plugin", in_sign="sssssa{ss}s", out_sign="s", method=self._fileJingleRequest, async=True, ) def getHandler(self, client): return XEP_0234_handler() def getProgressId(self, session, content_name): """Return a unique progress ID @param session(dict): jingle session @param content_name(unicode): name of the content @return (unicode): unique progress id """ return u"{}_{}".format(session["id"], content_name) # generic methods def buildFileElement( self, name, file_hash=None, hash_algo=None, size=None, mime_type=None, desc=None, modified=None, transfer_range=None, path=None, namespace=None, file_elt=None, **kwargs ): """Generate a <file> element with available metadata @param file_hash(unicode, None): hash of the file empty string to set <hash-used/> element @param hash_algo(unicode, None): hash algorithm used if file_hash is None and hash_algo is set, a <hash-used/> element will be generated @param transfer_range(Range, None): where transfer must start/stop @param modified(int, unicode, None): date of last modification 0 to use current date int to use an unix timestamp else must be an unicode string which will be used as it (it must be an XMPP time) @param file_elt(domish.Element, None): element to use None to create a new one @param **kwargs: data for plugin extension (ignored by default) @return (domish.Element): generated element @trigger XEP-0234_buildFileElement(file_elt, extra_args): can be used to extend elements to add """ if file_elt is None: file_elt = domish.Element((NS_JINGLE_FT, u"file")) for name, value in ( (u"name", name), (u"size", size), ("media-type", mime_type), (u"desc", desc), (u"path", path), (u"namespace", namespace), ): if value is not None: file_elt.addElement(name, content=unicode(value)) if modified is not None: if isinstance(modified, int): file_elt.addElement(u"date", utils.xmpp_date(modified or None)) else: file_elt.addElement(u"date", modified) elif "created" in kwargs: file_elt.addElement(u"date", utils.xmpp_date(kwargs.pop("created"))) range_elt = file_elt.addElement(u"range") if transfer_range is not None: if transfer_range.offset is not None: range_elt[u"offset"] = transfer_range.offset if transfer_range.length is not None: range_elt[u"length"] = transfer_range.length if file_hash is not None: if not file_hash: file_elt.addChild(self._hash.buildHashUsedElt()) else: file_elt.addChild(self._hash.buildHashElt(file_hash, hash_algo)) elif hash_algo is not None: file_elt.addChild(self._hash.buildHashUsedElt(hash_algo)) self.host.trigger.point(u"XEP-0234_buildFileElement", file_elt, extra_args=kwargs) if kwargs: for kw in kwargs: log.debug("ignored keyword: {}".format(kw)) return file_elt def buildFileElementFromDict(self, file_data, **kwargs): """like buildFileElement but get values from a file_data dict @param file_data(dict): metadata to use @param **kwargs: data to override """ if kwargs: file_data = file_data.copy() file_data.update(kwargs) return self.buildFileElement(**file_data) def parseFileElement( self, file_elt, file_data=None, given=False, parent_elt=None, keep_empty_range=False, ): """Parse a <file> element and file dictionary accordingly @param file_data(dict, None): dict where the data will be set following keys will be set (and overwritten if they already exist): name, file_hash, hash_algo, size, mime_type, desc, path, namespace, range if None, a new dict is created @param given(bool): if True, prefix hash key with "given_" @param parent_elt(domish.Element, None): parent of the file element if set, file_elt must not be set @param keep_empty_range(bool): if True, keep empty range (i.e. range when offset and length are None) empty range are useful to know if a peer_jid can handle range @return (dict): file_data @trigger XEP-0234_parseFileElement(file_elt, file_data): can be used to parse new elements @raise exceptions.NotFound: there is not <file> element in parent_elt @raise exceptions.DataError: if file_elt uri is not NS_JINGLE_FT """ if parent_elt is not None: if file_elt is not None: raise exceptions.InternalError( u"file_elt must be None if parent_elt is set" ) try: file_elt = next(parent_elt.elements(NS_JINGLE_FT, u"file")) except StopIteration: raise exceptions.NotFound() else: if not file_elt or file_elt.uri != NS_JINGLE_FT: raise exceptions.DataError( u"invalid <file> element: {stanza}".format(stanza=file_elt.toXml()) ) if file_data is None: file_data = {} for name in (u"name", u"desc", u"path", u"namespace"): try: file_data[name] = unicode(next(file_elt.elements(NS_JINGLE_FT, name))) except StopIteration: pass name = file_data.get(u"name") if name == u"..": # we don't want to go to parent dir when joining to a path name = u"--" file_data[u"name"] = name elif name is not None and u"/" in name or u"\\" in name: file_data[u"name"] = regex.pathEscape(name) try: file_data[u"mime_type"] = unicode( next(file_elt.elements(NS_JINGLE_FT, u"media-type")) ) except StopIteration: pass try: file_data[u"size"] = int( unicode(next(file_elt.elements(NS_JINGLE_FT, u"size"))) ) except StopIteration: pass try: file_data[u"modified"] = date_utils.date_parse( next(file_elt.elements(NS_JINGLE_FT, u"date")) ) except StopIteration: pass try: range_elt = file_elt.elements(NS_JINGLE_FT, u"range").next() except StopIteration: pass else: offset = range_elt.getAttribute("offset") length = range_elt.getAttribute("length") if offset or length or keep_empty_range: file_data[u"transfer_range"] = Range(offset=offset, length=length) prefix = u"given_" if given else u"" hash_algo_key, hash_key = u"hash_algo", prefix + u"file_hash" try: file_data[hash_algo_key], file_data[hash_key] = self._hash.parseHashElt( file_elt ) except exceptions.NotFound: pass self.host.trigger.point(u"XEP-0234_parseFileElement", file_elt, file_data) return file_data # bridge methods def _fileJingleSend( self, peer_jid, filepath, name="", file_desc="", extra=None, profile=C.PROF_KEY_NONE, ): client = self.host.getClient(profile) return self.fileJingleSend( client, jid.JID(peer_jid), filepath, name or None, file_desc or None, extra or None, ) @defer.inlineCallbacks def fileJingleSend( self, client, peer_jid, filepath, name, file_desc=None, extra=None ): """Send a file using jingle file transfer @param peer_jid(jid.JID): destinee jid @param filepath(str): absolute path of the file @param name(unicode, None): name of the file @param file_desc(unicode, None): description of the file @return (D(unicode)): progress id """ progress_id_d = defer.Deferred() if extra is None: extra = {} if file_desc is not None: extra["file_desc"] = file_desc yield self._j.initiate( client, peer_jid, [ { "app_ns": NS_JINGLE_FT, "senders": self._j.ROLE_INITIATOR, "app_kwargs": { "filepath": filepath, "name": name, "extra": extra, "progress_id_d": progress_id_d, }, } ], ) progress_id = yield progress_id_d defer.returnValue(progress_id) def _fileJingleRequest( self, peer_jid, filepath, name="", file_hash="", hash_algo="", extra=None, profile=C.PROF_KEY_NONE, ): client = self.host.getClient(profile) return self.fileJingleRequest( client, jid.JID(peer_jid), filepath, name or None, file_hash or None, hash_algo or None, extra or None, ) @defer.inlineCallbacks def fileJingleRequest( self, client, peer_jid, filepath, name=None, file_hash=None, hash_algo=None, extra=None, ): """Request a file using jingle file transfer @param peer_jid(jid.JID): destinee jid @param filepath(str): absolute path where the file will be downloaded @param name(unicode, None): name of the file @param file_hash(unicode, None): hash of the file @return (D(unicode)): progress id """ progress_id_d = defer.Deferred() if extra is None: extra = {} if file_hash is not None: if hash_algo is None: raise ValueError(_(u"hash_algo must be set if file_hash is set")) extra["file_hash"] = file_hash extra["hash_algo"] = hash_algo else: if hash_algo is not None: raise ValueError(_(u"file_hash must be set if hash_algo is set")) yield self._j.initiate( client, peer_jid, [ { "app_ns": NS_JINGLE_FT, "senders": self._j.ROLE_RESPONDER, "app_kwargs": { "filepath": filepath, "name": name, "extra": extra, "progress_id_d": progress_id_d, }, } ], ) progress_id = yield progress_id_d defer.returnValue(progress_id) # jingle callbacks def jingleSessionInit( self, client, session, content_name, filepath, name, extra, progress_id_d ): if extra is None: extra = {} else: if not EXTRA_ALLOWED.issuperset(extra): raise ValueError( _(u"only the following keys are allowed in extra: {keys}").format( keys=u", ".join(EXTRA_ALLOWED) ) ) progress_id_d.callback(self.getProgressId(session, content_name)) content_data = session["contents"][content_name] application_data = content_data["application_data"] assert "file_path" not in application_data application_data["file_path"] = filepath file_data = application_data["file_data"] = {} desc_elt = domish.Element((NS_JINGLE_FT, "description")) file_elt = desc_elt.addElement("file") if content_data[u"senders"] == self._j.ROLE_INITIATOR: # we send a file if name is None: name = os.path.basename(filepath) file_data[u"date"] = utils.xmpp_date() file_data[u"desc"] = extra.pop(u"file_desc", u"") file_data[u"name"] = name mime_type = mimetypes.guess_type(name, strict=False)[0] if mime_type is not None: file_data[u"mime_type"] = mime_type file_data[u"size"] = os.path.getsize(filepath) if u"namespace" in extra: file_data[u"namespace"] = extra[u"namespace"] if u"path" in extra: file_data[u"path"] = extra[u"path"] self.buildFileElementFromDict(file_data, file_elt=file_elt, file_hash=u"") else: # we request a file file_hash = extra.pop(u"file_hash", u"") if not name and not file_hash: raise ValueError(_(u"you need to provide at least name or file hash")) if name: file_data[u"name"] = name if file_hash: file_data[u"file_hash"] = file_hash file_data[u"hash_algo"] = extra[u"hash_algo"] else: file_data[u"hash_algo"] = self._hash.getDefaultAlgo() if u"namespace" in extra: file_data[u"namespace"] = extra[u"namespace"] if u"path" in extra: file_data[u"path"] = extra[u"path"] self.buildFileElementFromDict(file_data, file_elt=file_elt) return desc_elt def jingleRequestConfirmation(self, client, action, session, content_name, desc_elt): """This method request confirmation for a jingle session""" content_data = session["contents"][content_name] senders = content_data[u"senders"] if senders not in (self._j.ROLE_INITIATOR, self._j.ROLE_RESPONDER): log.warning(u"Bad sender, assuming initiator") senders = content_data[u"senders"] = self._j.ROLE_INITIATOR # first we grab file informations try: file_elt = desc_elt.elements(NS_JINGLE_FT, "file").next() except StopIteration: raise failure.Failure(exceptions.DataError) file_data = {"progress_id": self.getProgressId(session, content_name)} if senders == self._j.ROLE_RESPONDER: # we send the file return self._fileSendingRequestConf( client, session, content_data, content_name, file_data, file_elt ) else: # we receive the file return self._fileReceivingRequestConf( client, session, content_data, content_name, file_data, file_elt ) @defer.inlineCallbacks def _fileSendingRequestConf( self, client, session, content_data, content_name, file_data, file_elt ): """parse file_elt, and handle file retrieving/permission checking""" self.parseFileElement(file_elt, file_data) content_data["application_data"]["file_data"] = file_data finished_d = content_data["finished_d"] = defer.Deferred() # confirmed_d is a deferred returning confimed value (only used if cont is False) cont, confirmed_d = self.host.trigger.returnPoint( "XEP-0234_fileSendingRequest", client, session, content_data, content_name, file_data, file_elt, ) if not cont: confirmed = yield confirmed_d if confirmed: args = [client, session, content_name, content_data] finished_d.addCallbacks( self._finishedCb, self._finishedEb, args, None, args ) defer.returnValue(confirmed) log.warning(_(u"File continue is not implemented yet")) defer.returnValue(False) def _fileReceivingRequestConf( self, client, session, content_data, content_name, file_data, file_elt ): """parse file_elt, and handle user permission/file opening""" self.parseFileElement(file_elt, file_data, given=True) try: hash_algo, file_data["given_file_hash"] = self._hash.parseHashElt(file_elt) except exceptions.NotFound: try: hash_algo = self._hash.parseHashUsedElt(file_elt) except exceptions.NotFound: raise failure.Failure(exceptions.DataError) if hash_algo is not None: file_data["hash_algo"] = hash_algo file_data["hash_hasher"] = hasher = self._hash.getHasher(hash_algo) file_data["data_cb"] = lambda data: hasher.update(data) try: file_data["size"] = int(file_data["size"]) except ValueError: raise failure.Failure(exceptions.DataError) name = file_data["name"] if "/" in name or "\\" in name: log.warning( u"File name contain path characters, we replace them: {}".format(name) ) file_data["name"] = name.replace("/", "_").replace("\\", "_") content_data["application_data"]["file_data"] = file_data # now we actualy request permission to user def gotConfirmation(confirmed): if confirmed: args = [client, session, content_name, content_data] finished_d.addCallbacks( self._finishedCb, self._finishedEb, args, None, args ) return confirmed # deferred to track end of transfer finished_d = content_data["finished_d"] = defer.Deferred() d = self._f.getDestDir( client, session["peer_jid"], content_data, file_data, stream_object=True ) d.addCallback(gotConfirmation) return d def jingleHandler(self, client, action, session, content_name, desc_elt): content_data = session["contents"][content_name] application_data = content_data["application_data"] if action in (self._j.A_ACCEPTED_ACK,): pass elif action == self._j.A_SESSION_INITIATE: file_elt = desc_elt.elements(NS_JINGLE_FT, "file").next() try: file_elt.elements(NS_JINGLE_FT, "range").next() except StopIteration: # initiator doesn't manage <range>, but we do so we advertise it # FIXME: to be checked log.debug("adding <range> element") file_elt.addElement("range") elif action == self._j.A_SESSION_ACCEPT: assert not "stream_object" in content_data file_data = application_data["file_data"] file_path = application_data["file_path"] senders = content_data[u"senders"] if senders != session[u"role"]: # we are receiving the file try: # did the responder specified the size of the file? file_elt = next(desc_elt.elements(NS_JINGLE_FT, u"file")) size_elt = next(file_elt.elements(NS_JINGLE_FT, u"size")) size = int(unicode(size_elt)) except (StopIteration, ValueError): size = None # XXX: hash security is not critical here, so we just take the higher mandatory one hasher = file_data["hash_hasher"] = self._hash.getHasher() content_data["stream_object"] = stream.FileStreamObject( self.host, client, file_path, mode="wb", uid=self.getProgressId(session, content_name), size=size, data_cb=lambda data: hasher.update(data), ) else: # we are sending the file size = file_data["size"] # XXX: hash security is not critical here, so we just take the higher mandatory one hasher = file_data["hash_hasher"] = self._hash.getHasher() content_data["stream_object"] = stream.FileStreamObject( self.host, client, file_path, uid=self.getProgressId(session, content_name), size=size, data_cb=lambda data: hasher.update(data), ) finished_d = content_data["finished_d"] = defer.Deferred() args = [client, session, content_name, content_data] finished_d.addCallbacks(self._finishedCb, self._finishedEb, args, None, args) else: log.warning(u"FIXME: unmanaged action {}".format(action)) return desc_elt def jingleSessionInfo(self, client, action, session, content_name, jingle_elt): """Called on session-info action manage checksum, and ignore <received/> element """ # TODO: manage <received/> element content_data = session["contents"][content_name] elts = [elt for elt in jingle_elt.elements() if elt.uri == NS_JINGLE_FT] if not elts: return for elt in elts: if elt.name == "received": pass elif elt.name == "checksum": # we have received the file hash, we need to parse it if content_data["senders"] == session["role"]: log.warning( u"unexpected checksum received while we are the file sender" ) raise exceptions.DataError info_content_name = elt["name"] if info_content_name != content_name: # it was for an other content... return file_data = content_data["application_data"]["file_data"] try: file_elt = elt.elements((NS_JINGLE_FT, "file")).next() except StopIteration: raise exceptions.DataError algo, file_data["given_file_hash"] = self._hash.parseHashElt(file_elt) if algo != file_data.get("hash_algo"): log.warning( u"Hash algorithm used in given hash ({peer_algo}) doesn't correspond to the one we have used ({our_algo}) [{profile}]".format( peer_algo=algo, our_algo=file_data.get("hash_algo"), profile=client.profile, ) ) else: self._receiverTryTerminate( client, session, content_name, content_data ) else: raise NotImplementedError def jingleTerminate(self, client, action, session, content_name, jingle_elt): if jingle_elt.decline: # progress is the only way to tell to frontends that session has been declined progress_id = self.getProgressId(session, content_name) self.host.bridge.progressError( progress_id, C.PROGRESS_ERROR_DECLINED, client.profile ) def _sendCheckSum(self, client, session, content_name, content_data): """Send the session-info with the hash checksum""" file_data = content_data["application_data"]["file_data"] hasher = file_data["hash_hasher"] hash_ = hasher.hexdigest() log.debug(u"Calculated hash: {}".format(hash_)) iq_elt, jingle_elt = self._j.buildSessionInfo(client, session) checksum_elt = jingle_elt.addElement((NS_JINGLE_FT, "checksum")) checksum_elt["creator"] = content_data["creator"] checksum_elt["name"] = content_name file_elt = checksum_elt.addElement("file") file_elt.addChild(self._hash.buildHashElt(hash_)) iq_elt.send() def _receiverTryTerminate( self, client, session, content_name, content_data, last_try=False ): """Try to terminate the session This method must only be used by the receiver. It check if transfer is finished, and hash available, if everything is OK, it check hash and terminate the session @param last_try(bool): if True this mean than session must be terminated even given hash is not available @return (bool): True if session was terminated """ if not content_data.get("transfer_finished", False): return False file_data = content_data["application_data"]["file_data"] given_hash = file_data.get("given_file_hash") if given_hash is None: if last_try: log.warning( u"sender didn't sent hash checksum, we can't check the file [{profile}]".format( profile=client.profile ) ) self._j.delayedContentTerminate(client, session, content_name) content_data["stream_object"].close() return True return False hasher = file_data["hash_hasher"] hash_ = hasher.hexdigest() if hash_ == given_hash: log.info(u"Hash checked, file was successfully transfered: {}".format(hash_)) progress_metadata = { "hash": hash_, "hash_algo": file_data["hash_algo"], "hash_verified": C.BOOL_TRUE, } error = None else: log.warning(u"Hash mismatch, the file was not transfered correctly") progress_metadata = None error = u"Hash mismatch: given={algo}:{given}, calculated={algo}:{our}".format( algo=file_data["hash_algo"], given=given_hash, our=hash_ ) self._j.delayedContentTerminate(client, session, content_name) content_data["stream_object"].close(progress_metadata, error) # we may have the last_try timer still active, so we try to cancel it try: content_data["last_try_timer"].cancel() except (KeyError, internet_error.AlreadyCalled): pass return True def _finishedCb(self, __, client, session, content_name, content_data): log.info(u"File transfer terminated") if content_data["senders"] != session["role"]: # we terminate the session only if we are the receiver, # as recommanded in XEP-0234 §2 (after example 6) content_data["transfer_finished"] = True if not self._receiverTryTerminate( client, session, content_name, content_data ): # we have not received the hash yet, we wait 5 more seconds content_data["last_try_timer"] = reactor.callLater( 5, self._receiverTryTerminate, client, session, content_name, content_data, last_try=True, ) else: # we are the sender, we send the checksum self._sendCheckSum(client, session, content_name, content_data) content_data["stream_object"].close() def _finishedEb(self, failure, client, session, content_name, content_data): log.warning(u"Error while streaming file: {}".format(failure)) content_data["stream_object"].close() self._j.contentTerminate( client, session, content_name, reason=self._j.REASON_FAILED_TRANSPORT ) class XEP_0234_handler(XMPPHandler): implements(iwokkel.IDisco) def getDiscoInfo(self, requestor, target, nodeIdentifier=""): return [disco.DiscoFeature(NS_JINGLE_FT)] def getDiscoItems(self, requestor, target, nodeIdentifier=""): return []