Mercurial > libervia-backend
view sat/memory/disco.py @ 3217:0469c53ed5dd
core (memory/encryption): namespace can now be specified to test a specific algorithm in isEncryptionRequested
author | Goffi <goffi@goffi.org> |
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date | Wed, 18 Mar 2020 19:54:07 +0100 |
parents | 12486cd4fa8b |
children | e4d3ba75b1b2 |
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#!/usr/bin/env python3 # SAT: a jabber client # 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 import exceptions from sat.core.log import getLogger log = getLogger(__name__) from twisted.words.protocols.jabber import jid from twisted.words.protocols.jabber.error import StanzaError from twisted.internet import defer from twisted.internet import reactor from twisted.python import failure from sat.core.constants import Const as C from sat.tools import xml_tools from sat.memory import persistent from wokkel import disco from base64 import b64encode from hashlib import sha1 TIMEOUT = 15 CAP_HASH_ERROR = "ERROR" class HashGenerationError(Exception): pass class ByteIdentity(object): """This class manage identity as bytes (needed for i;octet sort), it is used for the hash generation""" def __init__(self, identity, lang=None): assert isinstance(identity, disco.DiscoIdentity) self.category = identity.category.encode("utf-8") self.idType = identity.type.encode("utf-8") self.name = identity.name.encode("utf-8") if identity.name else b"" self.lang = lang.encode("utf-8") if lang is not None else b"" def __bytes__(self): return b"%s/%s/%s/%s" % (self.category, self.idType, self.lang, self.name) class HashManager(object): """map object which manage hashes persistent storage is update when a new hash is added """ def __init__(self, persistent): self.hashes = { CAP_HASH_ERROR: disco.DiscoInfo() # used when we can't get disco infos } self.persistent = persistent def __getitem__(self, key): return self.hashes[key] def __setitem__(self, hash_, disco_info): if hash_ in self.hashes: log.debug("ignoring hash set: it is already known") return self.hashes[hash_] = disco_info self.persistent[hash_] = disco_info.toElement().toXml() def __contains__(self, hash_): return self.hashes.__contains__(hash_) def load(self): def fillHashes(hashes): for hash_, xml in hashes.items(): element = xml_tools.ElementParser()(xml) disco_info = disco.DiscoInfo.fromElement(element) if not disco_info.features and not disco_info.identities: log.warning( _( "no feature/identity found in disco element (hash: {cap_hash}), ignoring: {xml}" ).format(cap_hash=hash_, xml=xml) ) else: self.hashes[hash_] = disco_info log.info("Disco hashes loaded") d = self.persistent.load() d.addCallback(fillHashes) return d class Discovery(object): """ Manage capabilities of entities """ def __init__(self, host): self.host = host # TODO: remove legacy hashes def load(self): """Load persistent hashes""" self.hashes = HashManager(persistent.PersistentDict("disco")) return self.hashes.load() @defer.inlineCallbacks def hasFeature(self, client, feature, jid_=None, node=""): """Tell if an entity has the required feature @param feature: feature namespace @param jid_: jid of the target, or None for profile's server @param node(unicode): optional node to use for disco request @return: a Deferred which fire a boolean (True if feature is available) """ disco_infos = yield self.getInfos(client, jid_, node) defer.returnValue(feature in disco_infos.features) @defer.inlineCallbacks def checkFeature(self, client, feature, jid_=None, node=""): """Like hasFeature, but raise an exception is feature is not Found @param feature: feature namespace @param jid_: jid of the target, or None for profile's server @param node(unicode): optional node to use for disco request @raise: exceptions.FeatureNotFound """ disco_infos = yield self.getInfos(client, jid_, node) if not feature in disco_infos.features: raise failure.Failure(exceptions.FeatureNotFound()) @defer.inlineCallbacks def checkFeatures(self, client, features, jid_=None, identity=None, node=""): """Like checkFeature, but check several features at once, and check also identity @param features(iterable[unicode]): features to check @param jid_(jid.JID): jid of the target, or None for profile's server @param node(unicode): optional node to use for disco request @param identity(None, tuple(unicode, unicode): if not None, the entity must have an identity with this (category, type) tuple @raise: exceptions.FeatureNotFound """ disco_infos = yield self.getInfos(client, jid_, node) if not set(features).issubset(disco_infos.features): raise failure.Failure(exceptions.FeatureNotFound()) if identity is not None and identity not in disco_infos.identities: raise failure.Failure(exceptions.FeatureNotFound()) def getInfos(self, client, jid_=None, node="", use_cache=True): """get disco infos from jid_, filling capability hash if needed @param jid_: jid of the target, or None for profile's server @param node(unicode): optional node to use for disco request @param use_cache(bool): if True, use cached data if available @return: a Deferred which fire disco.DiscoInfo """ if jid_ is None: jid_ = jid.JID(client.jid.host) try: if not use_cache: # we ignore cache, so we pretend we haven't found it raise KeyError cap_hash = self.host.memory.getEntityData( jid_, [C.ENTITY_CAP_HASH], client.profile )[C.ENTITY_CAP_HASH] except (KeyError, exceptions.UnknownEntityError): # capability hash is not available, we'll compute one def infosCb(disco_infos): cap_hash = self.generateHash(disco_infos) self.hashes[cap_hash] = disco_infos self.host.memory.updateEntityData( jid_, C.ENTITY_CAP_HASH, cap_hash, profile_key=client.profile ) return disco_infos def infosEb(fail): if fail.check(defer.CancelledError): reason = "request time-out" fail = failure.Failure(exceptions.TimeOutError(str(fail.value))) else: try: reason = str(fail.value) except AttributeError: reason = str(fail) log.warning( "can't request disco infos from {jid}: {reason}".format( jid=jid_.full(), reason=reason ) ) # XXX we set empty disco in cache, to avoid getting an error or waiting # for a timeout again the next time self.host.memory.updateEntityData( jid_, C.ENTITY_CAP_HASH, CAP_HASH_ERROR, profile_key=client.profile ) raise fail d = client.disco.requestInfo(jid_, nodeIdentifier=node) d.addCallback(infosCb) d.addErrback(infosEb) return d else: disco_infos = self.hashes[cap_hash] return defer.succeed(disco_infos) @defer.inlineCallbacks def getItems(self, client, jid_=None, node="", use_cache=True): """get disco items from jid_, cache them for our own server @param jid_(jid.JID): jid of the target, or None for profile's server @param node(unicode): optional node to use for disco request @param use_cache(bool): if True, use cached data if available @return: a Deferred which fire disco.DiscoItems """ server_jid = jid.JID(client.jid.host) if jid_ is None: jid_ = server_jid if jid_ == server_jid and not node: # we cache items only for our own server and if node is not set try: items = self.host.memory.getEntityData( jid_, ["DISCO_ITEMS"], client.profile )["DISCO_ITEMS"] log.debug("[%s] disco items are in cache" % jid_.full()) if not use_cache: # we ignore cache, so we pretend we haven't found it raise KeyError except (KeyError, exceptions.UnknownEntityError): log.debug("Caching [%s] disco items" % jid_.full()) items = yield client.disco.requestItems(jid_, nodeIdentifier=node) self.host.memory.updateEntityData( jid_, "DISCO_ITEMS", items, profile_key=client.profile ) else: try: items = yield client.disco.requestItems(jid_, nodeIdentifier=node) except StanzaError as e: log.warning( "Error while requesting items for {jid}: {reason}".format( jid=jid_.full(), reason=e.condition ) ) items = disco.DiscoItems() defer.returnValue(items) def _infosEb(self, failure_, entity_jid): failure_.trap(StanzaError) log.warning( _("Error while requesting [%(jid)s]: %(error)s") % {"jid": entity_jid.full(), "error": failure_.getErrorMessage()} ) def findServiceEntity(self, client, category, type_, jid_=None): """Helper method to find first available entity from findServiceEntities args are the same as for [findServiceEntities] @return (jid.JID, None): found entity """ d = self.host.findServiceEntities(client, "pubsub", "service") d.addCallback(lambda entities: entities.pop() if entities else None) return d def findServiceEntities(self, client, category, type_, jid_=None): """Return all available items of an entity which correspond to (category, type_) @param category: identity's category @param type_: identitiy's type @param jid_: the jid of the target server (None for profile's server) @return: a set of found entities @raise defer.CancelledError: the request timed out """ found_entities = set() def infosCb(infos, entity_jid): if (category, type_) in infos.identities: found_entities.add(entity_jid) def gotItems(items): defers_list = [] for item in items: info_d = self.getInfos(client, item.entity) info_d.addCallbacks( infosCb, self._infosEb, [item.entity], None, [item.entity] ) defers_list.append(info_d) return defer.DeferredList(defers_list) d = self.getItems(client, jid_) d.addCallback(gotItems) d.addCallback(lambda __: found_entities) reactor.callLater( TIMEOUT, d.cancel ) # FIXME: one bad service make a general timeout return d def findFeaturesSet(self, client, features, identity=None, jid_=None): """Return entities (including jid_ and its items) offering features @param features: iterable of features which must be present @param identity(None, tuple(unicode, unicode)): if not None, accept only this (category/type) identity @param jid_: the jid of the target server (None for profile's server) @param profile: %(doc_profile)s @return: a set of found entities """ if jid_ is None: jid_ = jid.JID(client.jid.host) features = set(features) found_entities = set() def infosCb(infos, entity): if entity is None: log.warning(_("received an item without jid")) return if identity is not None and identity not in infos.identities: return if features.issubset(infos.features): found_entities.add(entity) def gotItems(items): defer_list = [] for entity in [jid_] + [item.entity for item in items]: infos_d = self.getInfos(client, entity) infos_d.addCallbacks(infosCb, self._infosEb, [entity], None, [entity]) defer_list.append(infos_d) return defer.DeferredList(defer_list) d = self.getItems(client, jid_) d.addCallback(gotItems) d.addCallback(lambda __: found_entities) reactor.callLater( TIMEOUT, d.cancel ) # FIXME: one bad service make a general timeout return d def generateHash(self, services): """ Generate a unique hash for given service hash algorithm is the one described in XEP-0115 @param services: iterable of disco.DiscoIdentity/disco.DiscoFeature, as returned by discoHandler.info """ s = [] # identities byte_identities = [ ByteIdentity(service) for service in services if isinstance(service, disco.DiscoIdentity) ] # FIXME: lang must be managed here byte_identities.sort(key=lambda i: i.lang) byte_identities.sort(key=lambda i: i.idType) byte_identities.sort(key=lambda i: i.category) for identity in byte_identities: s.append(bytes(identity)) s.append(b"<") # features byte_features = [ service.encode("utf-8") for service in services if isinstance(service, disco.DiscoFeature) ] byte_features.sort() # XXX: the default sort has the same behaviour as the requested RFC 4790 i;octet sort for feature in byte_features: s.append(feature) s.append(b"<") # extensions ext = list(services.extensions.values()) ext.sort(key=lambda f: f.formNamespace.encode('utf-8')) for extension in ext: s.append(extension.formNamespace.encode('utf-8')) s.append(b"<") fields = extension.fieldList fields.sort(key=lambda f: f.var.encode('utf-8')) for field in fields: s.append(field.var.encode('utf-8')) s.append(b"<") values = [v.encode('utf-8') for v in field.values] values.sort() for value in values: s.append(value) s.append(b"<") cap_hash = b64encode(sha1(b"".join(s)).digest()).decode('utf-8') log.debug(_("Capability hash generated: [{cap_hash}]").format(cap_hash=cap_hash)) return cap_hash @defer.inlineCallbacks def _discoInfos( self, entity_jid_s, node="", use_cache=True, profile_key=C.PROF_KEY_NONE ): """ Discovery method for the bridge @param entity_jid_s: entity we want to discover @param use_cache(bool): if True, use cached data if available @param node(unicode): optional node to use @return: list of tuples """ client = self.host.getClient(profile_key) entity = jid.JID(entity_jid_s) disco_infos = yield self.getInfos(client, entity, node, use_cache) extensions = {} # FIXME: should extensions be serialised using tools.common.data_format? for form_type, form in list(disco_infos.extensions.items()): fields = [] for field in form.fieldList: data = {"type": field.fieldType} for attr in ("var", "label", "desc"): value = getattr(field, attr) if value is not None: data[attr] = value values = [field.value] if field.value is not None else field.values if field.fieldType == "boolean": values = [C.boolConst(v) for v in values] fields.append((data, values)) extensions[form_type or ""] = fields defer.returnValue(( [str(f) for f in disco_infos.features], [(cat, type_, name or "") for (cat, type_), name in list(disco_infos.identities.items())], extensions)) def items2tuples(self, disco_items): """convert disco items to tuple of strings @param disco_items(iterable[disco.DiscoItem]): items @return G(tuple[unicode,unicode,unicode]): serialised items """ for item in disco_items: if not item.entity: log.warning(_("invalid item (no jid)")) continue yield (item.entity.full(), item.nodeIdentifier or "", item.name or "") @defer.inlineCallbacks def _discoItems( self, entity_jid_s, node="", use_cache=True, profile_key=C.PROF_KEY_NONE ): """ Discovery method for the bridge @param entity_jid_s: entity we want to discover @param node(unicode): optional node to use @param use_cache(bool): if True, use cached data if available @return: list of tuples""" client = self.host.getClient(profile_key) entity = jid.JID(entity_jid_s) disco_items = yield self.getItems(client, entity, node, use_cache) ret = list(self.items2tuples(disco_items)) defer.returnValue(ret)