view sat_pubsub/backend.py @ 363:a98b3d52c2ff

added missing #publish-options in disco features
author Arnaud Joset <info@agayon.be>
date Fri, 03 Nov 2017 13:59:15 +0100
parents 9e40fc16f4df
children 8bd8be6815ab
line wrap: on
line source

#!/usr/bin/python
#-*- coding: utf-8 -*-
#
# Copyright (c) 2012-2016 Jérôme Poisson
# Copyright (c) 2013-2016 Adrien Cossa
# Copyright (c) 2003-2011 Ralph Meijer


# 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/>.
# --

# This program is based on Idavoll (http://idavoll.ik.nu/),
# originaly written by Ralph Meijer (http://ralphm.net/blog/)
# It is sublicensed under AGPL v3 (or any later version) as allowed by the original
# license.

# --

# Here is a copy of the original license:

# Copyright (c) 2003-2011 Ralph Meijer

# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:

# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.

# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.


"""
Generic publish-subscribe backend.

This module implements a generic publish-subscribe backend service with
business logic as per
U{XEP-0060<http://www.xmpp.org/extensions/xep-0060.html>} that interacts with
a given storage facility. It also provides an adapter from the XMPP
publish-subscribe protocol.
"""

import uuid

from zope.interface import implements

from twisted.application import service
from twisted.python import components, log
from twisted.internet import defer, reactor
from twisted.words.protocols.jabber.error import StanzaError
# from twisted.words.protocols.jabber.jid import JID, InvalidFormat
from twisted.words.xish import utility

from wokkel import disco
from wokkel import data_form
from wokkel import rsm
from wokkel import iwokkel
from wokkel import pubsub

from sat_pubsub import error
from sat_pubsub import iidavoll
from sat_pubsub import const
from sat_pubsub import container

from copy import deepcopy


def _getAffiliation(node, entity):
    d = node.getAffiliation(entity)
    d.addCallback(lambda affiliation: (node, affiliation))
    return d


class BackendService(service.Service, utility.EventDispatcher):
    """
    Generic publish-subscribe backend service.

    @cvar nodeOptions: Node configuration form as a mapping from the field
                       name to a dictionary that holds the field's type, label
                       and possible options to choose from.
    @type nodeOptions: C{dict}.
    @cvar defaultConfig: The default node configuration.
    """

    implements(iidavoll.IBackendService)

    nodeOptions = {
            const.OPT_PERSIST_ITEMS:
                {"type": "boolean",
                 "label": "Persist items to storage"},
            const.OPT_DELIVER_PAYLOADS:
                {"type": "boolean",
                 "label": "Deliver payloads with event notifications"},
            const.OPT_SEND_LAST_PUBLISHED_ITEM:
                {"type": "list-single",
                 "label": "When to send the last published item",
                 "options": {
                     "never": "Never",
                     "on_sub": "When a new subscription is processed"}
                },
            const.OPT_ACCESS_MODEL:
                {"type": "list-single",
                 "label": "Who can subscribe to this node",
                 "options": {
                     const.VAL_AMODEL_OPEN: "Public node",
                     const.VAL_AMODEL_PRESENCE: "Node restricted to entites subscribed to owner presence",
                     const.VAL_AMODEL_PUBLISHER_ROSTER: "Node restricted to some groups of publisher's roster",
                     const.VAL_AMODEL_WHITELIST: "Node restricted to some jids",
                     }
                },
            const.OPT_ROSTER_GROUPS_ALLOWED:
                {"type": "list-multi",
                 "label": "Groups of the roster allowed to access the node",
                },
            const.OPT_PUBLISH_MODEL:
                {"type": "list-single",
                 "label": "Who can publish to this node",
                 "options": {
                     const.VAL_PMODEL_OPEN: "Everybody can publish",
                     const.VAL_PMODEL_PUBLISHERS: "Only owner and publishers can publish",
                     const.VAL_PMODEL_SUBSCRIBERS: "Everybody which subscribed to the node",
                     }
                },
            }

    subscriptionOptions = {
            "pubsub#subscription_type":
                {"type": "list-single",
                 "options": {
                     "items": "Receive notification of new items only",
                     "nodes": "Receive notification of new nodes only"}
                },
            "pubsub#subscription_depth":
                {"type": "list-single",
                 "options": {
                     "1": "Receive notification from direct child nodes only",
                     "all": "Receive notification from all descendent nodes"}
                },
            }

    def __init__(self, storage):
        utility.EventDispatcher.__init__(self)
        self.storage = storage
        self._callbackList = []

    def supportsPublishOptions(self):
        return True
    def supportsPublisherAffiliation(self):
        return True

    def supportsGroupBlog(self):
        return True

    def supportsOutcastAffiliation(self):
        return True

    def supportsPersistentItems(self):
        return True

    def supportsPublishModel(self):
        return True

    def getNodeType(self, nodeIdentifier, pep, recipient=None):
        # FIXME: manage pep and recipient
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.getType())
        return d

    def _getNodesIds(self, subscribed, pep, recipient):
        # TODO: filter whitelist nodes
        # TODO: handle publisher-roster (should probably be renamed to owner-roster for nodes)
        if not subscribed:
            allowed_accesses = {'open', 'whitelist'}
        else:
            allowed_accesses = {'open', 'presence', 'whitelist'}
        return self.storage.getNodeIds(pep, recipient, allowed_accesses)

    def getNodes(self, requestor, pep, recipient):
        if pep:
            d = self.privilege.isSubscribedFrom(requestor, recipient)
            d.addCallback(self._getNodesIds, pep, recipient)
            return d
        return self.storage.getNodeIds(pep, recipient)

    def getNodeMetaData(self, nodeIdentifier, pep, recipient=None):
        # FIXME: manage pep and recipient
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.getMetaData())
        d.addCallback(self._makeMetaData)
        return d

    def _makeMetaData(self, metaData):
        options = []
        for key, value in metaData.iteritems():
            if key in self.nodeOptions:
                option = {"var": key}
                option.update(self.nodeOptions[key])
                option["value"] = value
                options.append(option)

        return options

    def _checkAuth(self, node, requestor):
        """ Check authorisation of publishing in node for requestor """

        def check(affiliation):
            d = defer.succeed((affiliation, node))
            configuration = node.getConfiguration()
            publish_model = configuration[const.OPT_PUBLISH_MODEL]
            if publish_model == const.VAL_PMODEL_PUBLISHERS:
                if affiliation not in ['owner', 'publisher']:
                    raise error.Forbidden()
            elif publish_model == const.VAL_PMODEL_SUBSCRIBERS:
                if affiliation not in ['owner', 'publisher']:
                    # we are in subscribers publish model, we must check that
                    # the requestor is a subscriber to allow him to publish

                    def checkSubscription(subscribed):
                        if not subscribed:
                            raise error.Forbidden()
                        return (affiliation, node)

                    d.addCallback(lambda ignore: node.isSubscribed(requestor))
                    d.addCallback(checkSubscription)
            elif publish_model != const.VAL_PMODEL_OPEN:
                raise ValueError('Unexpected value') # publish_model must be publishers (default), subscribers or open.

            return d

        d = node.getAffiliation(requestor)
        d.addCallback(check)
        return d

    def parseItemConfig(self, item):
        """Get and remove item configuration information

        @param item (domish.Element): item to parse
        @return (tuple[unicode, dict)): (access_model, item_config)
        """
        item_config = None
        access_model = const.VAL_AMODEL_DEFAULT
        for idx, elt in enumerate(item.elements()):
            if elt.uri != 'data_form.NS_X_DATA' or elt.name != 'x':
                continue
            form = data_form.Form.fromElement(elt)
            if form.formNamespace == const.NS_ITEM_CONFIG:
                item_config = form
                del item.children[idx] #we need to remove the config from item
                break

        if item_config:
            access_model = item_config.get(const.OPT_ACCESS_MODEL, const.VAL_AMODEL_DEFAULT)
        return (access_model, item_config)

    def parseCategories(self, item_elt):
        """Check if item contain an atom entry, and parse categories if possible

        @param item (domish.Element): item to parse
        @return (list): list of found categories
        """
        categories = []
        try:
            entry_elt = item_elt.elements(const.NS_ATOM, "entry").next()
        except StopIteration:
            return categories

        for category_elt in entry_elt.elements(const.NS_ATOM, 'category'):
            category = category_elt.getAttribute('term')
            if category:
                categories.append(category)

        return categories

    def enforceSchema(self, item_elt, schema, affiliation):
        """modifify item according to element, or refuse publishing

        @param item_elt(domish.Element): item to check/modify
        @param schema(domish.Eement): schema to enfore
        @param affiliation(unicode): affiliation of the publisher
        """
        try:
            x_elt = next(item_elt.elements(data_form.NS_X_DATA, 'x'))
            item_form = data_form.Form.fromElement(x_elt)
        except (StopIteration, data_form.Error):
            raise pubsub.BadRequest(text="node has a schema but item has no form")
        else:
            item_elt.children.remove(x_elt)

        schema_form = data_form.Form.fromElement(schema)

        # we enforce restrictions
        for field_elt in schema.elements(data_form.NS_X_DATA, 'field'):
            var = field_elt['var']
            for restrict_elt in field_elt.elements(const.NS_SCHEMA_RESTRICT, 'restrict'):
                write_restriction = restrict_elt.attributes.get('write')
                if write_restriction is not None:
                    if write_restriction == 'owner':
                        if affiliation != 'owner':
                            # write is not allowed on this field, we use default value
                            # we can safely use Field from schema_form because
                            # we have created this instance only for this method
                            try:
                                item_form.removeField(item_form.fields[var])
                            except KeyError:
                                pass
                            item_form.addField(schema_form.fields[var])
                    else:
                        raise StanzaError('feature-not-implemented', text='unknown write restriction {}'.format(write_restriction))

        # we now remove every field which is not in data schema
        to_remove = set()
        for item_var, item_field in item_form.fields.iteritems():
            if item_var not in schema_form.fields:
                to_remove.add(item_field)

        for field in to_remove:
            item_form.removeField(field)
        item_elt.addChild(item_form.toElement())

    def _checkOverwrite(self, node, itemIdentifiers, publisher):
        """Check that the itemIdentifiers correspond to items published
        by the current publisher"""
        def doCheck(item_pub_map):
            for item_publisher in item_pub_map.itervalues():
                if item_publisher.userhost() != publisher.userhost():
                    raise error.ItemForbidden()

        d = node.getItemsPublishers(itemIdentifiers)
        d.addCallback(doCheck)
        return d

    def publish(self, nodeIdentifier, items, requestor, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(self._checkAuth, requestor)
        #FIXME: owner and publisher are not necessarly the same. So far we use only owner to get roster.
        #FIXME: in addition, there can be several owners: that is not managed yet
        d.addCallback(self._doPublish, items, requestor, pep, recipient)
        return d

    def _doPublish(self, result, items, requestor, pep, recipient):
        affiliation, node = result
        if node.nodeType == 'collection':
            raise error.NoPublishing()

        configuration = node.getConfiguration()
        persistItems = configuration[const.OPT_PERSIST_ITEMS]
        deliverPayloads = configuration[const.OPT_DELIVER_PAYLOADS]

        if items and not persistItems and not deliverPayloads:
            raise error.ItemForbidden()
        elif not items and (persistItems or deliverPayloads):
            raise error.ItemRequired()

        items_data = []
        check_overwrite = False
        for item in items:
            # we enforce publisher (cf XEP-0060 §7.1.2.3)
            item['publisher'] = requestor.full()
            if persistItems or deliverPayloads:
                item.uri = None
                item.defaultUri = None
                if not item.getAttribute("id"):
                    item["id"] = str(uuid.uuid4())
                else:
                    check_overwrite = True
            access_model, item_config = self.parseItemConfig(item)
            categories = self.parseCategories(item)
            schema = node.getSchema()
            if schema is not None:
                self.enforceSchema(item, schema, affiliation)
            items_data.append(container.ItemData(item, access_model, item_config, categories))

        if persistItems:
            if check_overwrite and affiliation != 'owner':
                # we don't want a publisher to overwrite the item
                # of an other publisher
                d = self._checkOverwrite(node, [item['id'] for item in items if item.getAttribute('id')], requestor)
                d.addCallback(lambda _: node.storeItems(items_data, requestor))
            else:
                d = node.storeItems(items_data, requestor)
        else:
            d = defer.succeed(None)

        d.addCallback(self._doNotify, node, items_data,
                      deliverPayloads, pep, recipient)
        return d

    def _doNotify(self, result, node, items_data, deliverPayloads, pep, recipient):
        if items_data and not deliverPayloads:
            for item_data in items_data:
                item_data.item.children = []
        self.dispatch({'items_data': items_data, 'node': node, 'pep': pep, 'recipient': recipient},
                      '//event/pubsub/notify')

    def getNotifications(self, node, items_data):
        """Build a list of subscriber to the node

        subscribers will be associated with subscribed items,
        and subscription type.
        """

        def toNotifications(subscriptions, items_data):
            subsBySubscriber = {}
            for subscription in subscriptions:
                if subscription.options.get('pubsub#subscription_type',
                                            'items') == 'items':
                    subs = subsBySubscriber.setdefault(subscription.subscriber,
                                                       set())
                    subs.add(subscription)

            notifications = [(subscriber, subscriptions_, items_data)
                             for subscriber, subscriptions_
                             in subsBySubscriber.iteritems()]

            return notifications

        def rootNotFound(failure):
            failure.trap(error.NodeNotFound)
            return []

        d1 = node.getSubscriptions('subscribed')
        # FIXME: must add root node subscriptions ?
        # d2 = self.storage.getNode('', False) # FIXME: to check
        # d2.addCallback(lambda node: node.getSubscriptions('subscribed'))
        # d2.addErrback(rootNotFound)
        # d = defer.gatherResults([d1, d2])
        # d.addCallback(lambda result: result[0] + result[1])
        d1.addCallback(toNotifications, items_data)
        return d1

    def registerPublishNotifier(self, observerfn, *args, **kwargs):
        self.addObserver('//event/pubsub/notify', observerfn, *args, **kwargs)

    def registerRetractNotifier(self, observerfn, *args, **kwargs):
        self.addObserver('//event/pubsub/retract', observerfn, *args, **kwargs)

    def subscribe(self, nodeIdentifier, subscriber, requestor, pep, recipient):
        subscriberEntity = subscriber.userhostJID()
        if subscriberEntity != requestor.userhostJID():
            return defer.fail(error.Forbidden())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, subscriberEntity)
        d.addCallback(self._doSubscribe, subscriber, pep, recipient)
        return d

    def _doSubscribe(self, result, subscriber, pep, recipient):
        node, affiliation = result

        if affiliation == 'outcast':
            raise error.Forbidden()

        access_model = node.getAccessModel()

        if access_model == const.VAL_AMODEL_OPEN:
            d = defer.succeed(None)
        elif access_model == const.VAL_AMODEL_PRESENCE:
            d = self.checkPresenceSubscription(node, subscriber)
        elif access_model == const.VAL_AMODEL_PUBLISHER_ROSTER:
            d = self.checkRosterGroups(node, subscriber)
        elif access_model == const.VAL_AMODEL_WHITELIST:
            d = self.checkNodeAffiliations(node, subscriber)
        else:
            raise NotImplementedError

        def trapExists(failure):
            failure.trap(error.SubscriptionExists)
            return False

        def cb(sendLast):
            d = node.getSubscription(subscriber)
            if sendLast:
                d.addCallback(self._sendLastPublished, node, pep, recipient)
            return d

        d.addCallback(lambda _: node.addSubscription(subscriber, 'subscribed', {}))
        d.addCallbacks(lambda _: True, trapExists)
        d.addCallback(cb)

        return d

    def _sendLastPublished(self, subscription, node, pep, recipient):

        def notifyItem(items_data):
            if items_data:
                reactor.callLater(0, self.dispatch,
                                     {'items_data': items_data,
                                      'node': node,
                                      'pep': pep,
                                      'recipient': recipient,
                                      'subscription': subscription,
                                     },
                                     '//event/pubsub/notify')

        config = node.getConfiguration()
        sendLastPublished = config.get('pubsub#send_last_published_item',
                                       'never')
        if sendLastPublished == 'on_sub' and node.nodeType == 'leaf':
            entity = subscription.subscriber.userhostJID()
            d = self.getItemsData(node.nodeIdentifier, entity, recipient, maxItems=1, ext_data={'pep': pep})
            d.addCallback(notifyItem)
            d.addErrback(log.err)

        return subscription

    def unsubscribe(self, nodeIdentifier, subscriber, requestor, pep, recipient):
        if subscriber.userhostJID() != requestor.userhostJID():
            return defer.fail(error.Forbidden())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.removeSubscription(subscriber))
        return d

    def getSubscriptions(self, requestor, nodeIdentifier, pep, recipient):
        """retrieve subscriptions of an entity

        @param requestor(jid.JID): entity who want to check subscriptions
        @param nodeIdentifier(unicode, None): identifier of the node
            node to get all subscriptions of a service
        """
        return self.storage.getSubscriptions(requestor, nodeIdentifier, pep, recipient)

    def supportsAutoCreate(self):
        return True

    def supportsCreatorCheck(self):
        return True

    def supportsInstantNodes(self):
        return True

    def createNode(self, nodeIdentifier, requestor, options = None, pep=False, recipient=None):
        if not nodeIdentifier:
            nodeIdentifier = 'generic/%s' % uuid.uuid4()

        if not options:
            options = {}

        # if self.supportsCreatorCheck():
        #     groupblog = nodeIdentifier.startswith(const.NS_GROUPBLOG_PREFIX)
        #     try:
        #         nodeIdentifierJID = JID(nodeIdentifier[len(const.NS_GROUPBLOG_PREFIX):] if groupblog else nodeIdentifier)
        #     except InvalidFormat:
        #         is_user_jid = False
        #     else:
        #         is_user_jid = bool(nodeIdentifierJID.user)

        #     if is_user_jid and nodeIdentifierJID.userhostJID() != requestor.userhostJID():
        #         #we have an user jid node, but not created by the owner of this jid
        #         print "Wrong creator"
        #         raise error.Forbidden()

        nodeType = 'leaf'
        config = self.storage.getDefaultConfiguration(nodeType)
        config['pubsub#node_type'] = nodeType
        config.update(options)

        # TODO: handle schema on creation
        d = self.storage.createNode(nodeIdentifier, requestor, config, None, pep, recipient)
        d.addCallback(lambda _: nodeIdentifier)
        return d

    def getDefaultConfiguration(self, nodeType):
        d = defer.succeed(self.storage.getDefaultConfiguration(nodeType))
        return d

    def getNodeConfiguration(self, nodeIdentifier, pep, recipient):
        if not nodeIdentifier:
            return defer.fail(error.NoRootNode())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.getConfiguration())

        return d

    def setNodeConfiguration(self, nodeIdentifier, options, requestor, pep, recipient):
        if not nodeIdentifier:
            return defer.fail(error.NoRootNode())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doSetNodeConfiguration, options)
        return d

    def _doSetNodeConfiguration(self, result, options):
        node, affiliation = result

        if affiliation != 'owner':
            raise error.Forbidden()

        return node.setConfiguration(options)

    def getNodeSchema(self, nodeIdentifier, pep, recipient):
        if not nodeIdentifier:
            return defer.fail(error.NoRootNode())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.getSchema())

        return d


    def setNodeSchema(self, nodeIdentifier, schema, requestor, pep, recipient):
        """set or remove Schema of a node

        @param nodeIdentifier(unicode): identifier of the pubusb node
        @param schema(domish.Element, None): schema to set
            None to remove schema
        """
        if not nodeIdentifier:
            return defer.fail(error.NoRootNode())

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doSetNodeSchema, schema)
        return d

    def _doSetNodeSchema(self, result, schema):
        node, affiliation = result

        if affiliation != 'owner':
            raise error.Forbidden()

        return node.setSchema(schema)

    def getAffiliations(self, entity, nodeIdentifier, pep, recipient):
        return self.storage.getAffiliations(entity, nodeIdentifier, pep, recipient)

    def getAffiliationsOwner(self, nodeIdentifier, requestor, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doGetAffiliationsOwner)
        return d

    def _doGetAffiliationsOwner(self, result):
        node, affiliation = result

        if affiliation != 'owner':
            raise error.Forbidden()
        return node.getAffiliations()

    def setAffiliationsOwner(self, nodeIdentifier, requestor, affiliations, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doSetAffiliationsOwner, requestor, affiliations)
        return d

    def _doSetAffiliationsOwner(self, result, requestor, affiliations):
        # Check that requestor is allowed to set affiliations, and delete entities
        # with "none" affiliation

        # TODO: return error with failed affiliations in case of failure
        node, requestor_affiliation = result

        if requestor_affiliation != 'owner':
            raise error.Forbidden()

        # we don't allow requestor to change its own affiliation
        requestor_bare = requestor.userhostJID()
        if requestor_bare in affiliations and affiliations[requestor_bare] != 'owner':
            # FIXME: it may be interesting to allow the owner to ask for ownership removal
            #        if at least one other entity is owner for this node
            raise error.Forbidden("You can't change your own affiliation")

        to_delete = [jid_ for jid_, affiliation in affiliations.iteritems() if affiliation == 'none']
        for jid_ in to_delete:
            del affiliations[jid_]

        if to_delete:
            d = node.deleteAffiliations(to_delete)
            if affiliations:
                d.addCallback(lambda dummy: node.setAffiliations(affiliations))
        else:
            d = node.setAffiliations(affiliations)

        return d

    def getSubscriptionsOwner(self, nodeIdentifier, requestor, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doGetSubscriptionsOwner)
        return d

    def _doGetSubscriptionsOwner(self, result):
        node, affiliation = result

        if affiliation != 'owner':
            raise error.Forbidden()
        return node.getSubscriptions()

    def setSubscriptionsOwner(self, nodeIdentifier, requestor, subscriptions, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doSetSubscriptionsOwner, requestor, subscriptions)
        return d

    def unwrapFirstError(self, failure):
        failure.trap(defer.FirstError)
        return failure.value.subFailure

    def _doSetSubscriptionsOwner(self, result, requestor, subscriptions):
        # Check that requestor is allowed to set subscriptions, and delete entities
        # with "none" subscription

        # TODO: return error with failed subscriptions in case of failure
        node, requestor_affiliation = result

        if requestor_affiliation != 'owner':
            raise error.Forbidden()

        d_list = []

        for subscription in subscriptions.copy():
            if subscription.state == 'none':
                subscriptions.remove(subscription)
                d_list.append(node.removeSubscription(subscription.subscriber))

        if subscriptions:
            d_list.append(node.setSubscriptions(subscriptions))

        d = defer.gatherResults(d_list, consumeErrors=True)
        d.addCallback(lambda _: None)
        d.addErrback(self.unwrapFirstError)
        return d

    def filterItemsWithSchema(self, items_data, schema, owner):
        """check schema restriction and remove fields/items if they don't comply

        @param items_data(list[ItemData]): items to filter
            items in this list will be modified
        @param schema(domish.Element): node schema
        @param owner(bool): True is requestor is a owner of the node
        """
        fields_to_remove = set()
        for field_elt in schema.elements(data_form.NS_X_DATA, 'field'):
            for restrict_elt in field_elt.elements(const.NS_SCHEMA_RESTRICT, 'restrict'):
                read_restriction = restrict_elt.attributes.get('read')
                if read_restriction is not None:
                    if read_restriction == 'owner':
                        if not owner:
                            fields_to_remove.add(field_elt['var'])
                    else:
                        raise StanzaError('feature-not-implemented', text='unknown read restriction {}'.format(read_restriction))
        items_to_remove = []
        for idx, item_data in enumerate(items_data):
            item_elt = item_data.item
            try:
                x_elt = next(item_elt.elements(data_form.NS_X_DATA, 'x'))
            except StopIteration:
                log.msg("WARNING, item {id} has a schema but no form, ignoring it")
                items_to_remove.append(item_data)
                continue
            form = data_form.Form.fromElement(x_elt)
            # we remove fields which are not visible for this user
            for field in fields_to_remove:
                try:
                    form.removeField(form.fields[field])
                except KeyError:
                    continue
            item_elt.children.remove(x_elt)
            item_elt.addChild(form.toElement())

        for item_data in items_to_remove:
            items_data.remove(item_data)

    def checkPresenceSubscription(self, node, requestor):
        """check if requestor has presence subscription from node owner

        @param node(Node): node to check
        @param requestor(jid.JID): entity who want to access node
        """
        def gotRoster(roster):
            if roster is None:
                raise error.Forbidden()

            if requestor not in roster:
                raise error.Forbidden()

            if not roster[requestor].subscriptionFrom:
                raise error.Forbidden()

        d = self.getOwnerRoster(node)
        d.addCallback(gotRoster)
        return d

    @defer.inlineCallbacks
    def checkRosterGroups(self, node, requestor):
        """check if requestor is in allowed groups of a node

        @param node(Node): node to check
        @param requestor(jid.JID): entity who want to access node
        """
        roster = yield self.getOwnerRoster(node)

        if roster is None:
            raise error.Forbidden()

        if requestor not in roster:
            raise error.Forbidden()

        authorized_groups = yield node.getAuthorizedGroups()

        if not roster[requestor].groups.intersection(authorized_groups):
            # requestor is in roster but not in one of the allowed groups
            raise error.Forbidden()

    def checkNodeAffiliations(self, node, requestor):
        """check if requestor is in white list of a node

        @param node(Node): node to check
        @param requestor(jid.JID): entity who want to access node
        """
        def gotAffiliations(affiliations):
            try:
                affiliation = affiliations[requestor.userhostJID()]
            except KeyError:
                raise error.Forbidden()
            else:
                if affiliation not in ('owner', 'publisher', 'member'):
                    raise error.Forbidden()

        d = node.getAffiliations()
        d.addCallback(gotAffiliations)
        return d

    @defer.inlineCallbacks
    def checkNodeAccess(self, node, requestor):
        """check if a requestor can access data of a node

        @param node(Node): node to check
        @param requestor(jid.JID): entity who want to access node
        @return (tuple): permissions data with:
            - owner(bool): True if requestor is owner of the node
            - roster(None, ): roster of the requestor
                None if not needed/available
            - access_model(str): access model of the node
        @raise error.Forbidden: access is not granted
        @raise error.NotLeafNodeError: this node is not a leaf
        """
        node, affiliation = yield _getAffiliation(node, requestor)

        if not iidavoll.ILeafNode.providedBy(node):
            raise error.NotLeafNodeError()

        if affiliation == 'outcast':
            raise error.Forbidden()

        # node access check
        owner = affiliation == 'owner'
        access_model = node.getAccessModel()
        roster = None

        if access_model == const.VAL_AMODEL_OPEN or owner:
            pass
        elif access_model == const.VAL_AMODEL_PRESENCE:
            yield self.checkPresenceSubscription(node, requestor)
        elif access_model == const.VAL_AMODEL_PUBLISHER_ROSTER:
            # FIXME: for node, access should be renamed owner-roster, not publisher
            yield self.checkRosterGroups(node, requestor)
        elif access_model == const.VAL_AMODEL_WHITELIST:
            yield self.checkNodeAffiliations(node, requestor)
        else:
            raise Exception(u"Unknown access_model")

        defer.returnValue((affiliation, owner, roster, access_model))

    @defer.inlineCallbacks
    def getItemsIds(self, nodeIdentifier, requestor, authorized_groups, unrestricted, maxItems=None, ext_data=None, pep=False, recipient=None):
        # FIXME: items access model are not checked
        # TODO: check items access model
        node = yield self.storage.getNode(nodeIdentifier, pep, recipient)
        affiliation, owner, roster, access_model = yield self.checkNodeAccess(node, requestor)
        ids = yield node.getItemsIds(authorized_groups,
                                     unrestricted,
                                     maxItems,
                                     ext_data)
        defer.returnValue(ids)

    def getItems(self, nodeIdentifier, requestor, recipient, maxItems=None,
                       itemIdentifiers=None, ext_data=None):
        d = self.getItemsData(nodeIdentifier, requestor, recipient, maxItems, itemIdentifiers, ext_data)
        d.addCallback(lambda items_data: [item_data.item for item_data in items_data])
        return d

    @defer.inlineCallbacks
    def getOwnerRoster(self, node, owners=None):
        # FIXME: roster of publisher, not owner, must be used
        if owners is None:
            owners = yield node.getOwners()

        if len(owners) != 1:
            log.msg('publisher-roster access is not allowed with more than 1 owner')
            return

        owner_jid = owners[0]

        try:
            roster = yield self.privilege.getRoster(owner_jid)
        except Exception as e:
            log.msg("Error while getting roster of {owner_jid}: {msg}".format(
                owner_jid = owner_jid.full(),
                msg = e))
            return
        defer.returnValue(roster)

    @defer.inlineCallbacks
    def getItemsData(self, nodeIdentifier, requestor, recipient, maxItems=None,
                       itemIdentifiers=None, ext_data=None):
        """like getItems but return the whole ItemData"""
        if maxItems == 0:
            log.msg("WARNING: maxItems=0 on items retrieval")
            defer.returnValue([])

        if ext_data is None:
            ext_data = {}
        node = yield self.storage.getNode(nodeIdentifier, ext_data.get('pep', False), recipient)
        try:
            affiliation, owner, roster, access_model = yield self.checkNodeAccess(node, requestor)
        except error.NotLeafNodeError:
            defer.returnValue([])

        # at this point node access is checked

        if owner:
            # requestor_groups is only used in restricted access
            requestor_groups = None
        else:
            if roster is None:
                # FIXME: publisher roster should be used, not owner
                roster = yield self.getOwnerRoster(node)
                if roster is None:
                    roster = {}
            roster_item = roster.get(requestor.userhostJID())
            requestor_groups = tuple(roster_item.groups) if roster_item else tuple()

        if itemIdentifiers:
            items_data = yield node.getItemsById(requestor_groups, owner, itemIdentifiers)
        else:
            items_data = yield node.getItems(requestor_groups, owner, maxItems, ext_data)

        if owner:
            # Add item config data form to items with roster access model
            for item_data in items_data:
                if item_data.access_model == const.VAL_AMODEL_OPEN:
                    pass
                elif item_data.access_model == const.VAL_AMODEL_PUBLISHER_ROSTER:
                    form = data_form.Form('submit', formNamespace=const.NS_ITEM_CONFIG)
                    access = data_form.Field(None, const.OPT_ACCESS_MODEL, value=const.VAL_AMODEL_PUBLISHER_ROSTER)
                    allowed = data_form.Field(None, const.OPT_ROSTER_GROUPS_ALLOWED, values=item_data.config[const.OPT_ROSTER_GROUPS_ALLOWED])
                    form.addField(access)
                    form.addField(allowed)
                    item_data.item.addChild(form.toElement())
                elif access_model == const.VAL_AMODEL_WHITELIST:
                    #FIXME
                    raise NotImplementedError
                else:
                    raise error.BadAccessTypeError(access_model)

        schema = node.getSchema()
        if schema is not None:
            self.filterItemsWithSchema(items_data, schema, owner)

        yield self._items_rsm(items_data, node, requestor_groups, owner, itemIdentifiers, ext_data)
        defer.returnValue(items_data)

    def _setCount(self, value, response):
        response.count = value

    def _setIndex(self, value, response, adjust):
        """Set index in RSM response

        @param value(int): value of the reference index (i.e. before or after item)
        @param response(RSMResponse): response instance to fill
        @param adjust(int): adjustement term (i.e. difference between reference index and first item of the result)
        """
        response.index = value + adjust

    def _items_rsm(self, items_data, node, authorized_groups, owner,
                   itemIdentifiers, ext_data):
        # FIXME: move this to a separate module
        # TODO: Index can be optimized by keeping a cache of the last RSM request
        #       An other optimisation would be to look for index first and use it as offset
        try:
            rsm_request = ext_data['rsm']
        except KeyError:
            # No RSM in this request, nothing to do
            return items_data

        if itemIdentifiers:
            log.msg("WARNING, itemIdentifiers used with RSM, ignoring the RSM part")
            return items_data

        response = rsm.RSMResponse()

        d_count = node.getItemsCount(authorized_groups, owner, ext_data)
        d_count.addCallback(self._setCount, response)
        d_list = [d_count]

        if items_data:
            response.first = items_data[0].item['id']
            response.last = items_data[-1].item['id']

            # index handling
            if rsm_request.index is not None:
                response.index = rsm_request.index
            elif rsm_request.before:
                # The last page case (before == '') is managed in render method
                d_index = node.getItemsIndex(rsm_request.before, authorized_groups, owner, ext_data)
                d_index.addCallback(self._setIndex, response, -len(items_data))
                d_list.append(d_index)
            elif rsm_request.after is not None:
                d_index = node.getItemsIndex(rsm_request.after, authorized_groups, owner, ext_data)
                d_index.addCallback(self._setIndex, response, 1)
                d_list.append(d_index)
            else:
                # the first page was requested
                response.index = 0

        def render(result):
            if rsm_request.before == '':
                # the last page was requested
                response.index = response.count - len(items_data)
            items_data.append(container.ItemData(response.toElement()))
            return items_data

        return defer.DeferredList(d_list).addCallback(render)

    def retractItem(self, nodeIdentifier, itemIdentifiers, requestor, notify, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doRetract, itemIdentifiers, requestor, notify, pep, recipient)
        return d

    def _doRetract(self, result, itemIdentifiers, requestor, notify, pep, recipient):
        node, affiliation = result
        persistItems = node.getConfiguration()[const.OPT_PERSIST_ITEMS]

        if not persistItems:
            raise error.NodeNotPersistent()

        # we need to get the items before removing them, for the notifications

        def removeItems(items_data):
            """Remove the items and keep only actually removed ones in items_data"""
            d = node.removeItems(itemIdentifiers)
            d.addCallback(lambda removed: [item_data for item_data in items_data if item_data.item["id"] in removed])
            return d

        def checkPublishers(publishers_map):
            """Called when requestor is neither owner neither publisher of the Node

            We check that requestor is publisher of all the items he wants to retract
            and raise error.Forbidden if it is not the case
            """
            # TODO: the behaviour should be configurable (per node ?)
            if any((requestor.userhostJID() != publisher.userhostJID() for publisher in publishers_map.itervalues())):
                raise error.Forbidden()

        if affiliation in ['owner', 'publisher']:
            # the requestor is owner or publisher of the node
            # he can retract what he wants
            d = defer.succeed(None)
        else:
            # the requestor doesn't have right to retract on the whole node
            # we check if he is a publisher for all items he wants to retract
            # and forbid the retraction else.
            d = node.getItemsPublishers(itemIdentifiers)
            d.addCallback(checkPublishers)
        d.addCallback(lambda dummy: node.getItemsById(None, True, itemIdentifiers))
        d.addCallback(removeItems)

        if notify:
            d.addCallback(self._doNotifyRetraction, node, pep, recipient)
        return d

    def _doNotifyRetraction(self, items_data, node, pep, recipient):
        self.dispatch({'items_data': items_data,
                       'node': node,
                       'pep': pep,
                       'recipient': recipient},
                      '//event/pubsub/retract')

    def purgeNode(self, nodeIdentifier, requestor, pep, recipient):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doPurge)
        return d

    def _doPurge(self, result):
        node, affiliation = result
        persistItems = node.getConfiguration()[const.OPT_PERSIST_ITEMS]

        if affiliation != 'owner':
            raise error.Forbidden()

        if not persistItems:
            raise error.NodeNotPersistent()

        d = node.purge()
        d.addCallback(self._doNotifyPurge, node.nodeIdentifier)
        return d

    def _doNotifyPurge(self, result, nodeIdentifier):
        self.dispatch(nodeIdentifier, '//event/pubsub/purge')

    def registerPreDelete(self, preDeleteFn):
        self._callbackList.append(preDeleteFn)

    def getSubscribers(self, nodeIdentifier, pep, recipient):
        def cb(subscriptions):
            return [subscription.subscriber for subscription in subscriptions]

        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(lambda node: node.getSubscriptions('subscribed'))
        d.addCallback(cb)
        return d

    def deleteNode(self, nodeIdentifier, requestor, pep, recipient, redirectURI=None):
        d = self.storage.getNode(nodeIdentifier, pep, recipient)
        d.addCallback(_getAffiliation, requestor)
        d.addCallback(self._doPreDelete, redirectURI, pep, recipient)
        return d

    def _doPreDelete(self, result, redirectURI, pep, recipient):
        node, affiliation = result

        if affiliation != 'owner':
            raise error.Forbidden()

        data = {'node': node,
                'redirectURI': redirectURI}

        d = defer.DeferredList([cb(data, pep, recipient)
                                for cb in self._callbackList],
                               consumeErrors=1)
        d.addCallback(self._doDelete, node.nodeDbId)

    def _doDelete(self, result, nodeDbId):
        dl = []
        for succeeded, r in result:
            if succeeded and r:
                dl.extend(r)

        d = self.storage.deleteNodeByDbId(nodeDbId)
        d.addCallback(self._doNotifyDelete, dl)

        return d

    def _doNotifyDelete(self, result, dl):
        for d in dl:
            d.callback(None)


class PubSubResourceFromBackend(pubsub.PubSubResource):
    """
    Adapts a backend to an xmpp publish-subscribe service.
    """

    features = [
        "config-node",
        "create-nodes",
        "delete-any",
        "delete-nodes",
        "item-ids",
        "meta-data",
        "publish",
        "purge-nodes",
        "retract-items",
        "retrieve-affiliations",
        "retrieve-default",
        "retrieve-items",
        "retrieve-subscriptions",
        "subscribe",
    ]

    discoIdentity = disco.DiscoIdentity('pubsub',
                                        'service',
                                        u'Salut à Toi pubsub service')

    pubsubService = None

    _errorMap = {
        error.NodeNotFound: ('item-not-found', None, None),
        error.NodeExists: ('conflict', None, None),
        error.Forbidden: ('forbidden', None, None),
        error.NotAuthorized: ('not-authorized', None, None),
        error.ItemNotFound: ('item-not-found', None, None),
        error.ItemForbidden: ('bad-request', 'item-forbidden', None),
        error.ItemRequired: ('bad-request', 'item-required', None),
        error.NoInstantNodes: ('not-acceptable',
                               'unsupported',
                               'instant-nodes'),
        error.NotSubscribed: ('unexpected-request', 'not-subscribed', None),
        error.InvalidConfigurationOption: ('not-acceptable', None, None),
        error.InvalidConfigurationValue: ('not-acceptable', None, None),
        error.NodeNotPersistent: ('feature-not-implemented',
                                  'unsupported',
                                  'persistent-node'),
        error.NoRootNode: ('bad-request', None, None),
        error.NoCollections: ('feature-not-implemented',
                              'unsupported',
                              'collections'),
        error.NoPublishing: ('feature-not-implemented',
                             'unsupported',
                             'publish'),
    }

    def __init__(self, backend):
        pubsub.PubSubResource.__init__(self)

        self.backend = backend
        self.hideNodes = False

        self.backend.registerPublishNotifier(self._notifyPublish)
        self.backend.registerRetractNotifier(self._notifyRetract)
        self.backend.registerPreDelete(self._preDelete)

        # FIXME: to be removed, it's not useful anymore as PEP is now used
        # if self.backend.supportsCreatorCheck():
        #     self.features.append("creator-jid-check")  #SàT custom feature: Check that a node (which correspond to
                                                       #                    a jid in this server) is created by the right jid

        if self.backend.supportsAutoCreate():
            self.features.append("auto-create")

        if self.backend.supportsPublishOptions():
            self.features.append("publish-options")

        if self.backend.supportsInstantNodes():
            self.features.append("instant-nodes")

        if self.backend.supportsOutcastAffiliation():
            self.features.append("outcast-affiliation")

        if self.backend.supportsPersistentItems():
            self.features.append("persistent-items")

        if self.backend.supportsPublisherAffiliation():
            self.features.append("publisher-affiliation")

        if self.backend.supportsGroupBlog():
            self.features.append("groupblog")

        # if self.backend.supportsPublishModel():       #XXX: this feature is not really described in XEP-0060, we just can see it in examples
        #     self.features.append("publish_model")     #     but it's necessary for microblogging comments (see XEP-0277)

    def getFullItem(self, item_data):
        """ Attach item configuration to this item

        Used to give item configuration back to node's owner (and *only* to owner)
        """
        # TODO: a test should check that only the owner get the item configuration back

        item, item_config = item_data.item, item_data.config
        new_item = deepcopy(item)
        if item_config:
            new_item.addChild(item_config.toElement())
        return new_item

    @defer.inlineCallbacks
    def _notifyPublish(self, data):
        items_data = data['items_data']
        node = data['node']
        pep = data['pep']
        recipient = data['recipient']

        owners, notifications_filtered = yield self._prepareNotify(items_data, node, data.get('subscription'), pep, recipient)

        # we notify the owners
        # FIXME: check if this comply with XEP-0060 (option needed ?)
        # TODO: item's access model have to be sent back to owner
        # TODO: same thing for getItems

        for owner_jid in owners:
            notifications_filtered.append(
                (owner_jid,
                 set([pubsub.Subscription(node.nodeIdentifier,
                                          owner_jid,
                                          'subscribed')]),
                 [self.getFullItem(item_data) for item_data in items_data]))

        if pep:
            defer.returnValue(self.backend.privilege.notifyPublish(
                recipient,
                node.nodeIdentifier,
                notifications_filtered))

        else:
            defer.returnValue(self.pubsubService.notifyPublish(
                self.serviceJID,
                node.nodeIdentifier,
                notifications_filtered))

    def _notifyRetract(self, data):
        items_data = data['items_data']
        node = data['node']
        pep = data['pep']
        recipient = data['recipient']

        def afterPrepare(result):
            owners, notifications_filtered = result
            #we add the owners

            for owner_jid in owners:
                notifications_filtered.append(
                    (owner_jid,
                     set([pubsub.Subscription(node.nodeIdentifier,
                                              owner_jid,
                                              'subscribed')]),
                     [item_data.item for item_data in items_data]))

            if pep:
                return self.backend.privilege.notifyRetract(
                    recipient,
                    node.nodeIdentifier,
                    notifications_filtered)

            else:
                return self.pubsubService.notifyRetract(
                    self.serviceJID,
                    node.nodeIdentifier,
                    notifications_filtered)

        d = self._prepareNotify(items_data, node, data.get('subscription'), pep, recipient)
        d.addCallback(afterPrepare)
        return d

    @defer.inlineCallbacks
    def _prepareNotify(self, items_data, node, subscription=None, pep=None, recipient=None):
        """Do a bunch of permissions check and filter notifications

        The owner is not added to these notifications,
        it must be added by the calling method
        @param items_data(tuple): must contain:
            - item (domish.Element)
            - access_model (unicode)
            - access_list (dict as returned getItemsById, or item_config)
        @param node(LeafNode): node hosting the items
        @param subscription(pubsub.Subscription, None): TODO

        @return (tuple): will contain:
            - notifications_filtered
            - node_owner_jid
            - items_data
        """
        if subscription is None:
            notifications = yield self.backend.getNotifications(node, items_data)
        else:
            notifications = [(subscription.subscriber, [subscription], items_data)]

        if pep and node.getConfiguration()[const.OPT_ACCESS_MODEL] in ('open', 'presence'):
            # for PEP we need to manage automatic subscriptions (cf. XEP-0163 §4)
            explicit_subscribers = {subscriber for subscriber, _, _ in notifications}
            auto_subscribers = yield self.backend.privilege.getAutoSubscribers(recipient, node.nodeIdentifier, explicit_subscribers)
            for sub_jid in auto_subscribers:
                 sub = pubsub.Subscription(node.nodeIdentifier, sub_jid, 'subscribed')
                 notifications.append((sub_jid, [sub], items_data))

        owners = yield node.getOwners()
        owner_roster = None

        # now we check access of subscriber for each item, and keep only allowed ones

        #we filter items not allowed for the subscribers
        notifications_filtered = []
        schema = node.getSchema()

        for subscriber, subscriptions, items_data in notifications:
            subscriber_bare = subscriber.userhostJID()
            if subscriber_bare in owners:
                # as notification is always sent to owner,
                # we ignore owner if he is here
                continue
            allowed_items = [] #we keep only item which subscriber can access

            if schema is not None:
                # we have to deepcopy items because different subscribers may receive
                # different items (e.g. read restriction in schema)
                items_data = deepcopy(items_data)
                self.backend.filterItemsWithSchema(items_data, schema, False)

            for item_data in items_data:
                item, access_model = item_data.item, item_data.access_model
                access_list = item_data.config
                if access_model == const.VAL_AMODEL_OPEN:
                    allowed_items.append(item)
                elif access_model == const.VAL_AMODEL_PUBLISHER_ROSTER:
                    if owner_roster is None:
                        # FIXME: publisher roster should be used, not owner
                        owner_roster= yield self.getOwnerRoster(node, owners)
                    if owner_roster is None:
                        owner_roster = {}
                    if not subscriber_bare in owner_roster:
                        continue
                    #the subscriber is known, is he in the right group ?
                    authorized_groups = access_list[const.OPT_ROSTER_GROUPS_ALLOWED]
                    if owner_roster[subscriber_bare].groups.intersection(authorized_groups):
                        allowed_items.append(item)
                else: #unknown access_model
                    # TODO: white list access
                    raise NotImplementedError

            if allowed_items:
                notifications_filtered.append((subscriber, subscriptions, allowed_items))

        defer.returnValue((owners, notifications_filtered))

    def _preDelete(self, data, pep, recipient):
        nodeIdentifier = data['node'].nodeIdentifier
        redirectURI = data.get('redirectURI', None)
        d = self.backend.getSubscribers(nodeIdentifier, pep, recipient)
        d.addCallback(lambda subscribers: self.pubsubService.notifyDelete(
                                                self.serviceJID,
                                                nodeIdentifier,
                                                subscribers,
                                                redirectURI))
        return d

    def _mapErrors(self, failure):
        e = failure.trap(*self._errorMap.keys())

        condition, pubsubCondition, feature = self._errorMap[e]
        msg = failure.value.msg

        if pubsubCondition:
            exc = pubsub.PubSubError(condition, pubsubCondition, feature, msg)
        else:
            exc = StanzaError(condition, text=msg)

        raise exc

    def getInfo(self, requestor, service, nodeIdentifier, pep=None, recipient=None):
        return [] # FIXME: disabled for now, need to manage PEP
        if not requestor.resource:
            # this avoid error when getting a disco request from server during namespace delegation
            return []
        info = {}

        def saveType(result):
            info['type'] = result
            return nodeIdentifier

        def saveMetaData(result):
            info['meta-data'] = result
            return info

        def trapNotFound(failure):
            failure.trap(error.NodeNotFound)
            return info

        d = defer.succeed(nodeIdentifier)
        d.addCallback(self.backend.getNodeType)
        d.addCallback(saveType)
        d.addCallback(self.backend.getNodeMetaData)
        d.addCallback(saveMetaData)
        d.addErrback(trapNotFound)
        d.addErrback(self._mapErrors)
        return d

    def getNodes(self, requestor, service, nodeIdentifier):
        """return nodes for disco#items

        Pubsub/PEP nodes will be returned if disco node is not specified
        else Pubsub/PEP items will be returned
        (according to what requestor can access)
        """
        try:
            pep = service.pep
        except AttributeError:
            pep = False

        if service.resource:
            return defer.succeed([])

        if nodeIdentifier:
            d = self.backend.getItemsIds(nodeIdentifier,
                                         requestor,
                                         [],
                                         requestor.userhostJID() == service,
                                         None,
                                         None,
                                         pep,
                                         service)
            # items must be set as name, not node
            d.addCallback(lambda items: [(None, item) for item in items])

        else:
            d = self.backend.getNodes(requestor.userhostJID(),
                                      pep,
                                      service)
        return d.addErrback(self._mapErrors)

    def getConfigurationOptions(self):
        return self.backend.nodeOptions

    def _publish_errb(self, failure, request):
        if failure.type == error.NodeNotFound and self.backend.supportsAutoCreate():
            print "Auto-creating node %s" % (request.nodeIdentifier,)
            d = self.backend.createNode(request.nodeIdentifier,
                                        request.sender,
                                        pep=self._isPep(request),
                                        recipient=request.recipient)
            d.addCallback(lambda ignore,
                                 request: self.backend.publish(request.nodeIdentifier,
                                                               request.items,
                                                               request.sender,
                                                               self._isPep(request),
                                                               request.recipient,
                                                              ),
                          request)
            return d

        return failure

    def _isPep(self, request):
        try:
            return request.delegated
        except AttributeError:
            return False

    def publish(self, request):
        d = self.backend.publish(request.nodeIdentifier,
                                 request.items,
                                 request.sender,
                                 self._isPep(request),
                                 request.recipient)
        d.addErrback(self._publish_errb, request)
        return d.addErrback(self._mapErrors)

    def subscribe(self, request):
        d = self.backend.subscribe(request.nodeIdentifier,
                                   request.subscriber,
                                   request.sender,
                                   self._isPep(request),
                                   request.recipient)
        return d.addErrback(self._mapErrors)

    def unsubscribe(self, request):
        d = self.backend.unsubscribe(request.nodeIdentifier,
                                     request.subscriber,
                                     request.sender,
                                     self._isPep(request),
                                     request.recipient)
        return d.addErrback(self._mapErrors)

    def subscriptions(self, request):
        d = self.backend.getSubscriptions(request.sender,
                                          request.nodeIdentifier,
                                          self._isPep(request),
                                          request.recipient)
        return d.addErrback(self._mapErrors)

    def affiliations(self, request):
        """Retrieve affiliation for normal entity (cf. XEP-0060 §5.7)

        retrieve all node where this jid is affiliated
        """
        d = self.backend.getAffiliations(request.sender,
                                         request.nodeIdentifier,
                                         self._isPep(request),
                                         request.recipient)
        return d.addErrback(self._mapErrors)

    def create(self, request):
        d = self.backend.createNode(request.nodeIdentifier,
                                    request.sender, request.options,
                                    self._isPep(request),
                                    request.recipient)
        return d.addErrback(self._mapErrors)

    def default(self, request):
        d = self.backend.getDefaultConfiguration(request.nodeType,
                                                 self._isPep(request),
                                                 request.sender)
        return d.addErrback(self._mapErrors)

    def configureGet(self, request):
        d = self.backend.getNodeConfiguration(request.nodeIdentifier,
                                              self._isPep(request),
                                              request.recipient)
        return d.addErrback(self._mapErrors)

    def configureSet(self, request):
        d = self.backend.setNodeConfiguration(request.nodeIdentifier,
                                              request.options,
                                              request.sender,
                                              self._isPep(request),
                                              request.recipient)
        return d.addErrback(self._mapErrors)

    def affiliationsGet(self, request):
        """Retrieve affiliations for owner (cf. XEP-0060 §8.9.1)

        retrieve all affiliations for a node
        """
        d = self.backend.getAffiliationsOwner(request.nodeIdentifier,
                                              request.sender,
                                              self._isPep(request),
                                              request.recipient)
        return d.addErrback(self._mapErrors)

    def affiliationsSet(self, request):
        d = self.backend.setAffiliationsOwner(request.nodeIdentifier,
                                              request.sender,
                                              request.affiliations,
                                              self._isPep(request),
                                              request.recipient)
        return d.addErrback(self._mapErrors)

    def subscriptionsGet(self, request):
        """Retrieve subscriptions for owner (cf. XEP-0060 §8.8.1)

        retrieve all affiliations for a node
        """
        d = self.backend.getSubscriptionsOwner(request.nodeIdentifier,
                                               request.sender,
                                               self._isPep(request),
                                               request.recipient)
        return d.addErrback(self._mapErrors)

    def subscriptionsSet(self, request):
        d = self.backend.setSubscriptionsOwner(request.nodeIdentifier,
                                              request.sender,
                                              request.subscriptions,
                                              self._isPep(request),
                                              request.recipient)
        return d.addErrback(self._mapErrors)

    def items(self, request):
        ext_data = {}
        if const.FLAG_ENABLE_RSM and request.rsm is not None:
            ext_data['rsm'] = request.rsm
        try:
            ext_data['pep'] = request.delegated
        except AttributeError:
            pass
        d = self.backend.getItems(request.nodeIdentifier,
                                  request.sender,
                                  request.recipient,
                                  request.maxItems,
                                  request.itemIdentifiers,
                                  ext_data)
        return d.addErrback(self._mapErrors)

    def retract(self, request):
        d = self.backend.retractItem(request.nodeIdentifier,
                                     request.itemIdentifiers,
                                     request.sender,
                                     request.notify,
                                     self._isPep(request),
                                     request.recipient)
        return d.addErrback(self._mapErrors)

    def purge(self, request):
        d = self.backend.purgeNode(request.nodeIdentifier,
                                   request.sender,
                                   self._isPep(request),
                                   request.recipient)
        return d.addErrback(self._mapErrors)

    def delete(self, request):
        d = self.backend.deleteNode(request.nodeIdentifier,
                                    request.sender,
                                    self._isPep(request),
                                    request.recipient)
        return d.addErrback(self._mapErrors)

components.registerAdapter(PubSubResourceFromBackend,
                           iidavoll.IBackendService,
                           iwokkel.IPubSubResource)