Mercurial > libervia-backend
view src/memory/disco.py @ 2444:30278ea1ca7c
plugin XEP-0060: added node watching methods to bridge:
new methods psNodeWatchAdd and psNodeWatchRemove allows to set a watch for the time of the session on one node, to have a signal called when something change on this node.
This signal (psEventRaw) send raw data (raw XML), in opposition to psEvent which is there to send high level data (e.g. parsed blog data).
Those method are primarely there to let frontends manage local cache for pubsub nodes.
author | Goffi <goffi@goffi.org> |
---|---|
date | Sun, 19 Nov 2017 16:51:39 +0100 |
parents | a9fac72825a2 |
children | 0046283a285d |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # SAT: a jabber client # Copyright (C) 2009-2017 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 '' self.lang = lang.encode('utf-8') if lang is not None else '' def __str__(self): return "%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(u"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.iteritems(): element = xml_tools.ElementParser()(xml) self.hashes[hash_] = disco.DiscoInfo.fromElement(element) log.info(u"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=u''): """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=u''): """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=u''): """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=u'', 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: cap_hash = self.host.memory.getEntityData(jid_, [C.ENTITY_CAP_HASH], client.profile)[C.ENTITY_CAP_HASH] if not use_cache: # we ignore cache, so we pretend we haven't found it raise KeyError 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 = u"request time-out" else: try: reason = unicode(fail.value) except AttributeError: reason = unicode(fail) log.warning(u"Error while requesting disco infos from {jid}: {reason}".format(jid=jid_.full(), reason=reason)) self.host.memory.updateEntityData(jid_, C.ENTITY_CAP_HASH, CAP_HASH_ERROR, profile_key=client.profile) disco_infos = self.hashes[CAP_HASH_ERROR] return disco_infos 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=u'', 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(u"[%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(u"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(u"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(_(u"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 dummy: 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 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 dummy: 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 = [] 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(str(identity)) s.append('<') 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('<') #TODO: manage XEP-0128 data form here cap_hash = b64encode(sha1(''.join(s)).digest()) log.debug(_(u'Capability hash generated: [%s]') % cap_hash) return cap_hash @defer.inlineCallbacks def _discoInfos(self, entity_jid_s, node=u'', 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 = {} for form_type, form in 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 fields.append((data, values)) extensions[form_type or ""] = fields defer.returnValue((disco_infos.features, [(cat, type_, name or '') for (cat, type_), name in 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(_(u"invalid item (no jid)")) continue yield (item.entity.full(), item.nodeIdentifier or '', item.name or '') @defer.inlineCallbacks def _discoItems(self, entity_jid_s, node=u'', 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)