server/repository.py
author David Douard <david.douard@logilab.fr>
Mon, 29 Jul 2013 14:22:40 +0200
branchstable
changeset 9193 eaa58d1c7d5f
parent 9184 b982e88e4836
child 9226 653f1d4a1101
permissions -rw-r--r--
[pkg] python-central has been removed from Debian

# copyright 2003-2013 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of CubicWeb.
#
# CubicWeb is free software: you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option)
# any later version.
#
# CubicWeb 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 Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with CubicWeb.  If not, see <http://www.gnu.org/licenses/>.
"""Defines the central class for the CubicWeb RQL server: the repository.

The repository is an abstraction allowing execution of rql queries against
data sources. Most of the work is actually done in helper classes. The
repository mainly:

* brings these classes all together to provide a single access
  point to a cubicweb instance.
* handles session management
* provides method for pyro registration, to call if pyro is enabled
"""
__docformat__ = "restructuredtext en"

import sys
import threading
import Queue
from warnings import warn
from itertools import chain
from os.path import join
from datetime import datetime
from time import time, localtime, strftime

from logilab.common.decorators import cached, clear_cache
from logilab.common.compat import any
from logilab.common import flatten

from yams import BadSchemaDefinition
from yams.schema import role_name
from rql import RQLSyntaxError
from rql.utils import rqlvar_maker

from cubicweb import (CW_SOFTWARE_ROOT, CW_MIGRATION_MAP, QueryError,
                      UnknownEid, AuthenticationError, ExecutionError,
                      ETypeNotSupportedBySources, MultiSourcesError,
                      BadConnectionId, Unauthorized, ValidationError,
                      RepositoryError, UniqueTogetherError, onevent)
from cubicweb import cwvreg, schema, server
from cubicweb.server import ShuttingDown, utils, hook, pool, querier, sources
from cubicweb.server.session import Session, InternalSession, InternalManager
from cubicweb.server.ssplanner import EditedEntity

NO_CACHE_RELATIONS = set( [('owned_by', 'object'),
                           ('created_by', 'object'),
                           ('cw_source', 'object'),
                           ])

def prefill_entity_caches(entity):
    session = entity._cw
    # prefill entity relation caches
    for rschema in entity.e_schema.subject_relations():
        rtype = str(rschema)
        if rtype in schema.VIRTUAL_RTYPES or (rtype, 'subject') in NO_CACHE_RELATIONS:
            continue
        if rschema.final:
            entity.cw_attr_cache.setdefault(rtype, None)
        else:
            entity.cw_set_relation_cache(rtype, 'subject',
                                         session.empty_rset())
    for rschema in entity.e_schema.object_relations():
        rtype = str(rschema)
        if rtype in schema.VIRTUAL_RTYPES or (rtype, 'object') in NO_CACHE_RELATIONS:
            continue
        entity.cw_set_relation_cache(rtype, 'object', session.empty_rset())

def del_existing_rel_if_needed(session, eidfrom, rtype, eidto):
    """delete existing relation when adding a new one if card is 1 or ?

    have to be done once the new relation has been inserted to avoid having
    an entity without a relation for some time

    this kind of behaviour has to be done in the repository so we don't have
    hooks order hazardness
    """
    # skip that if integrity explicitly disabled
    if not session.is_hook_category_activated('activeintegrity'):
        return
    rdef = session.rtype_eids_rdef(rtype, eidfrom, eidto)
    card = rdef.cardinality
    # one may be tented to check for neweids but this may cause more than one
    # relation even with '1?'  cardinality if thoses relations are added in the
    # same transaction where the entity is being created. This never occurs from
    # the web interface but may occurs during test or dbapi connection (though
    # not expected for this).  So: don't do it, we pretend to ensure repository
    # consistency.
    #
    # notes:
    # * inlined relations will be implicitly deleted for the subject entity
    # * we don't want read permissions to be applied but we want delete
    #   permission to be checked
    if card[0] in '1?':
        with session.security_enabled(read=False):
            session.execute('DELETE X %s Y WHERE X eid %%(x)s, '
                            'NOT Y eid %%(y)s' % rtype,
                                {'x': eidfrom, 'y': eidto})
    if card[1] in '1?':
        with session.security_enabled(read=False):
            session.execute('DELETE X %s Y WHERE Y eid %%(y)s, '
                            'NOT X eid %%(x)s' % rtype,
                            {'x': eidfrom, 'y': eidto})


def preprocess_inlined_relations(session, entity):
    """when an entity is added, check if it has some inlined relation which
    requires to be extrated for proper call hooks
    """
    relations = []
    activeintegrity = session.is_hook_category_activated('activeintegrity')
    eschema = entity.e_schema
    for attr in entity.cw_edited:
        rschema = eschema.subjrels[attr]
        if not rschema.final: # inlined relation
            value = entity.cw_edited[attr]
            relations.append((attr, value))
            session.update_rel_cache_add(entity.eid, attr, value)
            rdef = session.rtype_eids_rdef(attr, entity.eid, value)
            if rdef.cardinality[1] in '1?' and activeintegrity:
                with session.security_enabled(read=False):
                    session.execute('DELETE X %s Y WHERE Y eid %%(y)s' % attr,
                                    {'x': entity.eid, 'y': value})
    return relations


class NullEventBus(object):
    def publish(self, msg):
        pass

    def add_subscription(self, topic, callback):
        pass

    def start(self):
        pass

    def stop(self):
        pass


class Repository(object):
    """a repository provides access to a set of persistent storages for
    entities and relations

    XXX protect pyro access
    """

    def __init__(self, config, tasks_manager=None, vreg=None):
        self.config = config
        if vreg is None:
            vreg = cwvreg.CWRegistryStore(config)
        self.vreg = vreg
        self._tasks_manager = tasks_manager

        self.pyro_registered = False
        self.pyro_uri = None
        # every pyro client is handled in its own thread; map these threads to
        # the session we opened for them so we can clean up when they go away
        self._pyro_sessions = {}
        self.app_instances_bus = NullEventBus()
        self.info('starting repository from %s', self.config.apphome)
        # dictionary of opened sessions
        self._sessions = {}


        # list of functions to be called at regular interval
        # list of running threads
        self._running_threads = []
        # initial schema, should be build or replaced latter
        self.schema = schema.CubicWebSchema(config.appid)
        self.vreg.schema = self.schema # until actual schema is loaded...
        # shutdown flag
        self.shutting_down = False
        # sources (additional sources info in the system database)
        self.system_source = self.get_source('native', 'system',
                                             config.sources()['system'].copy())
        self.sources = [self.system_source]
        self.sources_by_uri = {'system': self.system_source}
        # querier helper, need to be created after sources initialization
        self.querier = querier.QuerierHelper(self, self.schema)
        # cache eid -> (type, physical source, extid, actual source)
        self._type_source_cache = {}
        # cache (extid, source uri) -> eid
        self._extid_cache = {}
        # open some connection sets
        if config.init_cnxset_pool:
            self.init_cnxset_pool()
        # the hooks manager
        self.hm = hook.HooksManager(self.vreg)
        # registry hook to fix user class on registry reload
        @onevent('after-registry-reload', self)
        def fix_user_classes(self):
            # After registery reload the 'CWUser' class used for CWEtype
            # changed.  To any existing user object have a different class than
            # the new loaded one. We are hot fixing this.
            usercls = self.vreg['etypes'].etype_class('CWUser')
            for session in self._sessions.itervalues():
                if not isinstance(session.user, InternalManager):
                    session.user.__class__ = usercls

    def init_cnxset_pool(self):
        """should be called bootstrap_repository, as this is what it does"""
        config = self.config
        self._cnxsets_pool = Queue.Queue()
        # 0. init a cnxset that will be used to fetch bootstrap information from
        #    the database
        self._cnxsets_pool.put_nowait(pool.ConnectionsSet(self.sources))
        # 1. set used cubes
        if config.creating or not config.read_instance_schema:
            config.bootstrap_cubes()
        else:
            self.set_schema(self.config.load_bootstrap_schema(), resetvreg=False)
            config.init_cubes(self.get_cubes())
        # 2. load schema
        if config.quick_start:
            # quick start: only to get a minimal repository to get cubes
            # information (eg dump/restore/...)
            #
            # restrict appobject_path to only load hooks and entity classes in
            # the registry
            config.cube_appobject_path = set(('hooks', 'entities'))
            config.cubicweb_appobject_path = set(('hooks', 'entities'))
            # limit connections pool to 1
            config['connections-pool-size'] = 1
        if config.quick_start or config.creating or not config.read_instance_schema:
            # load schema from the file system
            if not config.creating:
                self.warning("set fs instance'schema")
            self.set_schema(config.load_schema(expand_cubes=True))
        else:
            # normal start: load the instance schema from the database
            self.info('loading schema from the repository')
            self.set_schema(self.deserialize_schema())
        # 3. initialize data sources
        if config.creating:
            # call init_creating so that for instance native source can
            # configurate tsearch according to postgres version
            for source in self.sources:
                source.init_creating()
        else:
            self.init_sources_from_database()
            if 'CWProperty' in self.schema:
                self.vreg.init_properties(self.properties())
        # 4. close initialization connection set and reopen fresh ones for
        #    proper initialization
        self._get_cnxset().close(True)
        self.cnxsets = [] # list of available cnxsets (can't iterate on a Queue)
        for i in xrange(config['connections-pool-size']):
            self.cnxsets.append(pool.ConnectionsSet(self.sources))
            self._cnxsets_pool.put_nowait(self.cnxsets[-1])

    # internals ###############################################################

    def init_sources_from_database(self):
        self.sources_by_eid = {}
        if self.config.quick_start \
               or not 'CWSource' in self.schema: # # 3.10 migration
            self.system_source.init_creating()
            return
        with self.internal_session() as session:
            # FIXME: sources should be ordered (add_entity priority)
            for sourceent in session.execute(
                'Any S, SN, SA, SC WHERE S is_instance_of CWSource, '
                'S name SN, S type SA, S config SC').entities():
                if sourceent.name == 'system':
                    self.system_source.eid = sourceent.eid
                    self.sources_by_eid[sourceent.eid] = self.system_source
                    self.system_source.init(True, sourceent)
                    continue
                self.add_source(sourceent, add_to_cnxsets=False)

    def _clear_planning_caches(self):
        for cache in ('source_defs', 'is_multi_sources_relation',
                      'can_cross_relation', 'rel_type_sources'):
            clear_cache(self, cache)

    def add_source(self, sourceent, add_to_cnxsets=True):
        source = self.get_source(sourceent.type, sourceent.name,
                                 sourceent.host_config, sourceent.eid)
        self.sources_by_eid[sourceent.eid] = source
        self.sources_by_uri[sourceent.name] = source
        if self.config.source_enabled(source):
            # call source's init method to complete their initialisation if
            # needed (for instance looking for persistent configuration using an
            # internal session, which is not possible until connections sets have been
            # initialized)
            source.init(True, sourceent)
            if not source.copy_based_source:
                self.sources.append(source)
                self.querier.set_planner()
                if add_to_cnxsets:
                    for cnxset in self.cnxsets:
                       cnxset.add_source(source)
        else:
            source.init(False, sourceent)
        self._clear_planning_caches()

    def remove_source(self, uri):
        source = self.sources_by_uri.pop(uri)
        del self.sources_by_eid[source.eid]
        if self.config.source_enabled(source) and not source.copy_based_source:
            self.sources.remove(source)
            self.querier.set_planner()
            for cnxset in self.cnxsets:
                cnxset.remove_source(source)
        self._clear_planning_caches()

    def get_source(self, type, uri, source_config, eid=None):
        # set uri and type in source config so it's available through
        # source_defs()
        source_config['uri'] = uri
        source_config['type'] = type
        return sources.get_source(type, source_config, self, eid)

    def set_schema(self, schema, resetvreg=True):
        self.info('set schema %s %#x', schema.name, id(schema))
        if resetvreg:
            # trigger full reload of all appobjects
            self.vreg.set_schema(schema)
        else:
            self.vreg._set_schema(schema)
        self.querier.set_schema(schema)
        # don't use self.sources, we may want to give schema even to disabled
        # sources
        for source in self.sources_by_uri.itervalues():
            source.set_schema(schema)
        self.schema = schema

    def deserialize_schema(self):
        """load schema from the database"""
        from cubicweb.server.schemaserial import deserialize_schema
        appschema = schema.CubicWebSchema(self.config.appid)
        self.debug('deserializing db schema into %s %#x', appschema.name, id(appschema))
        with self.internal_session() as session:
            try:
                deserialize_schema(appschema, session)
            except BadSchemaDefinition:
                raise
            except Exception as ex:
                import traceback
                traceback.print_exc()
                raise (Exception('Is the database initialised ? (cause: %s)' % ex),
                       None, sys.exc_info()[-1])
        return appschema

    def _prepare_startup(self):
        """Prepare "Repository as a server" for startup.

        * trigger server startup hook,
        * register session clean up task.
        """
        if not (self.config.creating or self.config.repairing
                or self.config.quick_start):
            # call instance level initialisation hooks
            self.hm.call_hooks('server_startup', repo=self)
            # register a task to cleanup expired session
            self.cleanup_session_time = self.config['cleanup-session-time'] or 60 * 60 * 24
            assert self.cleanup_session_time > 0
            cleanup_session_interval = min(60*60, self.cleanup_session_time / 3)
            assert self._tasks_manager is not None, "This Repository is not intended to be used as a server"
            self._tasks_manager.add_looping_task(cleanup_session_interval,
                                                 self.clean_sessions)

    def start_looping_tasks(self):
        """Actual "Repository as a server" startup.

        * trigger server startup hook,
        * register session clean up task,
        * start all tasks.

        XXX Other startup related stuffs are done elsewhere. In Repository
        XXX __init__ or in external codes (various server managers).
        """
        self._prepare_startup()
        assert self._tasks_manager is not None, "This Repository is not intended to be used as a server"
        self._tasks_manager.start()

    def looping_task(self, interval, func, *args):
        """register a function to be called every `interval` seconds.

        looping tasks can only be registered during repository initialization,
        once done this method will fail.
        """
        assert self._tasks_manager is not None, "This Repository is not intended to be used as a server"
        self._tasks_manager.add_looping_task(interval, func, *args)

    def threaded_task(self, func):
        """start function in a separated thread"""
        utils.RepoThread(func, self._running_threads).start()

    #@locked
    def _get_cnxset(self):
        try:
            return self._cnxsets_pool.get(True, timeout=5)
        except Queue.Empty:
            raise Exception('no connections set available after 5 secs, probably either a '
                            'bug in code (too many uncommited/rollbacked '
                            'connections) or too much load on the server (in '
                            'which case you can try to set a bigger '
                            'connections pool size)')

    def _free_cnxset(self, cnxset):
        self._cnxsets_pool.put_nowait(cnxset)

    def pinfo(self):
        # XXX: session.cnxset is accessed from a local storage, would be interesting
        #      to see if there is a cnxset set in any thread specific data)
        return '%s: %s (%s)' % (self._cnxsets_pool.qsize(),
                                ','.join(session.user.login for session in self._sessions.itervalues()
                                         if session.cnxset),
                                threading.currentThread())
    def shutdown(self):
        """called on server stop event to properly close opened sessions and
        connections
        """
        assert not self.shutting_down, 'already shutting down'
        if not (self.config.creating or self.config.repairing
                or self.config.quick_start):
            # then, the system source is still available
            self.hm.call_hooks('before_server_shutdown', repo=self)
        self.shutting_down = True
        self.system_source.shutdown()
        if self._tasks_manager is not None:
            self._tasks_manager.stop()
        if not (self.config.creating or self.config.repairing
                or self.config.quick_start):
            self.hm.call_hooks('server_shutdown', repo=self)
        for thread in self._running_threads:
            self.info('waiting thread %s...', thread.getName())
            thread.join()
            self.info('thread %s finished', thread.getName())
        self.close_sessions()
        while not self._cnxsets_pool.empty():
            cnxset = self._cnxsets_pool.get_nowait()
            try:
                cnxset.close(True)
            except Exception:
                self.exception('error while closing %s' % cnxset)
                continue
        if self.pyro_registered:
            if self._use_pyrons():
                pyro_unregister(self.config)
            self.pyro_uri = None
        hits, misses = self.querier.cache_hit, self.querier.cache_miss
        try:
            self.info('rql st cache hit/miss: %s/%s (%s%% hits)', hits, misses,
                      (hits * 100) / (hits + misses))
            hits, misses = self.system_source.cache_hit, self.system_source.cache_miss
            self.info('sql cache hit/miss: %s/%s (%s%% hits)', hits, misses,
                      (hits * 100) / (hits + misses))
            nocache  = self.system_source.no_cache
            self.info('sql cache usage: %s/%s (%s%%)', hits+ misses, nocache,
                      ((hits + misses) * 100) / (hits + misses + nocache))
        except ZeroDivisionError:
            pass

    def check_auth_info(self, session, login, authinfo):
        """validate authentication, raise AuthenticationError on failure, return
        associated CWUser's eid on success.
        """
        # iter on sources_by_uri then check enabled source since sources doesn't
        # contain copy based sources
        for source in self.sources_by_uri.itervalues():
            if self.config.source_enabled(source) and source.support_entity('CWUser'):
                try:
                    return source.authenticate(session, login, **authinfo)
                except AuthenticationError:
                    continue
        else:
            raise AuthenticationError('authentication failed with all sources')

    def authenticate_user(self, session, login, **authinfo):
        """validate login / password, raise AuthenticationError on failure
        return associated CWUser instance on success
        """
        eid = self.check_auth_info(session, login, authinfo)
        cwuser = self._build_user(session, eid)
        if self.config.consider_user_state and \
               not cwuser.cw_adapt_to('IWorkflowable').state in cwuser.AUTHENTICABLE_STATES:
            raise AuthenticationError('user is not in authenticable state')
        return cwuser

    def _build_user(self, session, eid):
        """return a CWUser entity for user with the given eid"""
        cls = self.vreg['etypes'].etype_class('CWUser')
        st = cls.fetch_rqlst(session.user, ordermethod=None)
        st.add_eid_restriction(st.get_variable('X'), 'x', 'Substitute')
        rset = session.execute(st.as_string(), {'x': eid})
        assert len(rset) == 1, rset
        cwuser = rset.get_entity(0, 0)
        # pylint: disable=W0104
        # prefetch / cache cwuser's groups and properties. This is especially
        # useful for internal sessions to avoid security insertions
        cwuser.groups
        cwuser.properties
        return cwuser

    # public (dbapi) interface ################################################

    def stats(self): # XXX restrict to managers session?
        """Return a dictionary containing some statistics about the repository
        resources usage.

        This is a public method, not requiring a session id.
        """
        results = {}
        querier = self.querier
        source = self.system_source
        for size, maxsize, hits, misses, title in (
            (len(querier._rql_cache), self.config['rql-cache-size'],
            querier.cache_hit, querier.cache_miss, 'rqlt_st'),
            (len(source._cache), self.config['rql-cache-size'],
            source.cache_hit, source.cache_miss, 'sql'),
            ):
            results['%s_cache_size' % title] =  '%s / %s' % (size, maxsize)
            results['%s_cache_hit' % title] =  hits
            results['%s_cache_miss' % title] = misses
            results['%s_cache_hit_percent' % title] = (hits * 100) / (hits + misses)
        results['type_source_cache_size'] = len(self._type_source_cache)
        results['extid_cache_size'] = len(self._extid_cache)
        results['sql_no_cache'] = self.system_source.no_cache
        results['nb_open_sessions'] = len(self._sessions)
        results['nb_active_threads'] = threading.activeCount()
        looping_tasks = self._tasks_manager._looping_tasks
        results['looping_tasks'] = ', '.join(str(t) for t in looping_tasks)
        results['available_cnxsets'] = self._cnxsets_pool.qsize()
        results['threads'] = ', '.join(sorted(str(t) for t in threading.enumerate()))
        return results

    def gc_stats(self, nmax=20):
        """Return a dictionary containing some statistics about the repository
        memory usage.

        This is a public method, not requiring a session id.

        nmax is the max number of (most) referenced object returned as
        the 'referenced' result
        """

        from cubicweb._gcdebug import gc_info
        from cubicweb.appobject import AppObject
        from cubicweb.rset import ResultSet
        from cubicweb.dbapi import Connection, Cursor
        from cubicweb.web.request import CubicWebRequestBase
        from rql.stmts import Union

        lookupclasses = (AppObject,
                         Union, ResultSet,
                         Connection, Cursor,
                         CubicWebRequestBase)
        try:
            from cubicweb.server.session import Session, InternalSession
            lookupclasses += (InternalSession, Session)
        except ImportError:
            pass # no server part installed

        results = {}
        counters, ocounters, garbage = gc_info(lookupclasses,
                                               viewreferrersclasses=())
        values = sorted(counters.iteritems(), key=lambda x: x[1], reverse=True)
        results['lookupclasses'] = values
        values = sorted(ocounters.iteritems(), key=lambda x: x[1], reverse=True)[:nmax]
        results['referenced'] = values
        results['unreachable'] = len(garbage)
        return results

    def get_schema(self):
        """Return the instance schema.

        This is a public method, not requiring a session id.
        """
        return self.schema

    def get_cubes(self):
        """Return the list of cubes used by this instance.

        This is a public method, not requiring a session id.
        """
        versions = self.get_versions(not (self.config.creating
                                          or self.config.repairing
                                          or self.config.quick_start
                                          or self.config.mode == 'test'))
        cubes = list(versions)
        cubes.remove('cubicweb')
        return cubes

    def get_option_value(self, option, foreid=None):
        """Return the value for `option` in the configuration. If `foreid` is
        specified, the actual repository to which this entity belongs is
        derefenced and the option value retrieved from it.

        This is a public method, not requiring a session id.
        """
        # XXX we may want to check we don't give sensible information
        # XXX the only cube using 'foreid', apycot, stop used this, we probably
        # want to drop this argument
        if foreid is None:
            return self.config[option]
        _, sourceuri, extid, _ = self.type_and_source_from_eid(foreid)
        if sourceuri == 'system':
            return self.config[option]
        cnxset = self._get_cnxset()
        try:
            cnx = cnxset.connection(sourceuri)
            # needed to check connection is valid and usable by the current
            # thread
            newcnx = self.sources_by_uri[sourceuri].check_connection(cnx)
            if newcnx is not None:
                cnx = newcnx
            return cnx.get_option_value(option, extid)
        finally:
            self._free_cnxset(cnxset)

    @cached
    def get_versions(self, checkversions=False):
        """Return the a dictionary containing cubes used by this instance
        as key with their version as value, including cubicweb version.

        This is a public method, not requiring a session id.
        """
        from logilab.common.changelog import Version
        vcconf = {}
        with self.internal_session() as session:
            for pk, version in session.execute(
                'Any K,V WHERE P is CWProperty, P value V, P pkey K, '
                'P pkey ~="system.version.%"', build_descr=False):
                cube = pk.split('.')[-1]
                # XXX cubicweb migration
                if cube in CW_MIGRATION_MAP:
                    cube = CW_MIGRATION_MAP[cube]
                version = Version(version)
                vcconf[cube] = version
                if checkversions:
                    if cube != 'cubicweb':
                        fsversion = self.config.cube_version(cube)
                    else:
                        fsversion = self.config.cubicweb_version()
                    if version < fsversion:
                        msg = ('instance has %s version %s but %s '
                               'is installed. Run "cubicweb-ctl upgrade".')
                        raise ExecutionError(msg % (cube, version, fsversion))
        return vcconf

    @cached
    def source_defs(self):
        """Return the a dictionary containing source uris as value and a
        dictionary describing each source as value.

        This is a public method, not requiring a session id.
        """
        sources = {}
        # remove sensitive information
        for uri, source in self.sources_by_uri.iteritems():
            sources[uri] = source.public_config
        return sources

    def properties(self):
        """Return a result set containing system wide properties.

        This is a public method, not requiring a session id.
        """
        with self.internal_session() as session:
            # don't use session.execute, we don't want rset.req set
            return self.querier.execute(session, 'Any K,V WHERE P is CWProperty,'
                                        'P pkey K, P value V, NOT P for_user U',
                                        build_descr=False)

    # XXX protect this method: anonymous should be allowed and registration
    # plugged
    def register_user(self, login, password, email=None, **kwargs):
        """check a user with the given login exists, if not create it with the
        given password. This method is designed to be used for anonymous
        registration on public web site.
        """
        with self.internal_session() as session:
            # for consistency, keep same error as unique check hook (although not required)
            errmsg = session._('the value "%s" is already used, use another one')
            if (session.execute('CWUser X WHERE X login %(login)s', {'login': login},
                                build_descr=False)
                or session.execute('CWUser X WHERE X use_email C, C address %(login)s',
                                   {'login': login}, build_descr=False)):
                qname = role_name('login', 'subject')
                raise ValidationError(None, {qname: errmsg % login})
            # we have to create the user
            user = self.vreg['etypes'].etype_class('CWUser')(session)
            if isinstance(password, unicode):
                # password should *always* be utf8 encoded
                password = password.encode('UTF8')
            kwargs['login'] = login
            kwargs['upassword'] = password
            self.glob_add_entity(session, EditedEntity(user, **kwargs))
            session.execute('SET X in_group G WHERE X eid %(x)s, G name "users"',
                            {'x': user.eid})
            if email or '@' in login:
                d = {'login': login, 'email': email or login}
                if session.execute('EmailAddress X WHERE X address %(email)s', d,
                                   build_descr=False):
                    qname = role_name('address', 'subject')
                    raise ValidationError(None, {qname: errmsg % d['email']})
                session.execute('INSERT EmailAddress X: X address %(email)s, '
                                'U primary_email X, U use_email X '
                                'WHERE U login %(login)s', d, build_descr=False)
            session.commit()
        return True

    def find_users(self, fetch_attrs, **query_attrs):
        """yield user attributes for cwusers matching the given query_attrs
        (the result set cannot survive this method call)

        This can be used by low-privileges account (anonymous comes to
        mind).

        `fetch_attrs`: tuple of attributes to be fetched
        `query_attrs`: dict of attr/values to restrict the query
        """
        assert query_attrs
        if not hasattr(self, '_cwuser_attrs'):
            cwuser = self.schema['CWUser']
            self._cwuser_attrs = set(str(rschema)
                                     for rschema, _eschema in cwuser.attribute_definitions()
                                     if not rschema.meta)
        cwuserattrs = self._cwuser_attrs
        for k in chain(fetch_attrs, query_attrs):
            if k not in cwuserattrs:
                raise Exception('bad input for find_user')
        with self.internal_session() as session:
            varmaker = rqlvar_maker()
            vars = [(attr, varmaker.next()) for attr in fetch_attrs]
            rql = 'Any %s WHERE X is CWUser, ' % ','.join(var[1] for var in vars)
            rql += ','.join('X %s %s' % (var[0], var[1]) for var in vars) + ','
            rset = session.execute(rql + ','.join('X %s %%(%s)s' % (attr, attr)
                                                  for attr in query_attrs),
                                   query_attrs)
            return rset.rows

    def connect(self, login, **kwargs):
        """open a connection for a given user

        raise `AuthenticationError` if the authentication failed
        raise `ConnectionError` if we can't open a connection
        """
        cnxprops = kwargs.pop('cnxprops', None)
        # use an internal connection
        with self.internal_session() as session:
            # try to get a user object
            user = self.authenticate_user(session, login, **kwargs)
        session = Session(user, self, cnxprops)
        if threading.currentThread() in self._pyro_sessions:
            # assume no pyro client does one get_repository followed by
            # multiple repo.connect
            assert self._pyro_sessions[threading.currentThread()] == None
            self.debug('record session %s', session)
            self._pyro_sessions[threading.currentThread()] = session
        user._cw = user.cw_rset.req = session
        user.cw_clear_relation_cache()
        self._sessions[session.id] = session
        self.info('opened session %s for user %s', session.id, login)
        self.hm.call_hooks('session_open', session)
        # commit session at this point in case write operation has been done
        # during `session_open` hooks
        session.commit()
        return session.id

    def execute(self, sessionid, rqlstring, args=None, build_descr=True,
                txid=None):
        """execute a RQL query

        * rqlstring should be an unicode string or a plain ascii string
        * args the optional parameters used in the query
        * build_descr is a flag indicating if the description should be
          built on select queries
        """
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            try:
                rset = self.querier.execute(session, rqlstring, args,
                                            build_descr)
                # NOTE: the web front will (re)build it when needed
                #       e.g in facets
                #       Zeroed to avoid useless overhead with pyro
                rset._rqlst = None
                return rset
            except (ValidationError, Unauthorized, RQLSyntaxError):
                raise
            except Exception:
                # FIXME: check error to catch internal errors
                self.exception('unexpected error while executing %s with %s', rqlstring, args)
                raise
        finally:
            session.free_cnxset()

    def describe(self, sessionid, eid, txid=None):
        """return a tuple `(type, physical source uri, extid, actual source
        uri)` for the entity of the given `eid`
        """
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            return self.type_and_source_from_eid(eid, session)
        finally:
            session.free_cnxset()

    def check_session(self, sessionid):
        """raise `BadConnectionId` if the connection is no more valid, else
        return its latest activity timestamp.
        """
        return self._get_session(sessionid, setcnxset=False).timestamp

    def get_shared_data(self, sessionid, key, default=None, pop=False, txdata=False):
        """return value associated to key in the session's data dictionary or
        session's transaction's data if `txdata` is true.

        If pop is True, value will be removed from the dictionary.

        If key isn't defined in the dictionary, value specified by the
        `default` argument will be returned.
        """
        session = self._get_session(sessionid, setcnxset=False)
        return session.get_shared_data(key, default, pop, txdata)

    def set_shared_data(self, sessionid, key, value, txdata=False):
        """set value associated to `key` in shared data

        if `txdata` is true, the value will be added to the repository session's
        transaction's data which are cleared on commit/rollback of the current
        transaction.
        """
        session = self._get_session(sessionid, setcnxset=False)
        session.set_shared_data(key, value, txdata)

    def commit(self, sessionid, txid=None):
        """commit transaction for the session with the given id"""
        self.debug('begin commit for session %s', sessionid)
        try:
            session = self._get_session(sessionid)
            session.set_tx(txid)
            return session.commit()
        except (ValidationError, Unauthorized):
            raise
        except Exception:
            self.exception('unexpected error')
            raise

    def rollback(self, sessionid, txid=None):
        """commit transaction for the session with the given id"""
        self.debug('begin rollback for session %s', sessionid)
        try:
            session = self._get_session(sessionid)
            session.set_tx(txid)
            session.rollback()
        except Exception:
            self.exception('unexpected error')
            raise

    def close(self, sessionid, txid=None, checkshuttingdown=True):
        """close the session with the given id"""
        session = self._get_session(sessionid, setcnxset=True, txid=txid,
                                    checkshuttingdown=checkshuttingdown)
        # operation uncommited before close are rollbacked before hook is called
        session.rollback(free_cnxset=False)
        self.hm.call_hooks('session_close', session)
        # commit session at this point in case write operation has been done
        # during `session_close` hooks
        session.commit()
        session.close()
        if threading.currentThread() in self._pyro_sessions:
            self._pyro_sessions[threading.currentThread()] = None
        del self._sessions[sessionid]
        self.info('closed session %s for user %s', sessionid, session.user.login)

    def call_service(self, sessionid, regid, async, **kwargs):
        """
        See :class:`cubicweb.dbapi.Connection.call_service`
        and :class:`cubicweb.server.Service`
        """
        session = self._get_session(sessionid)
        return self._call_service_with_session(session, regid, async, **kwargs)

    def _call_service_with_session(self, session, regid, async, **kwargs):
        if async:
            self.info('calling service %s asynchronously', regid)
            def task():
                session.set_cnxset()
                try:
                    service = session.vreg['services'].select(regid, session, **kwargs)
                    return service.call(**kwargs)
                finally:
                    session.rollback() # free cnxset
            self.threaded_task(task)
        else:
            self.info('calling service %s synchronously', regid)
            session.set_cnxset()
            try:
                service = session.vreg['services'].select(regid, session, **kwargs)
                return service.call(**kwargs)
            finally:
                session.free_cnxset()

    def user_info(self, sessionid, props=None):
        """this method should be used by client to:
        * check session id validity
        * update user information on each user's request (i.e. groups and
          custom properties)
        """
        user = self._get_session(sessionid, setcnxset=False).user
        return user.eid, user.login, user.groups, user.properties

    def undoable_transactions(self, sessionid, ueid=None, txid=None,
                              **actionfilters):
        """See :class:`cubicweb.dbapi.Connection.undoable_transactions`"""
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            return self.system_source.undoable_transactions(session, ueid,
                                                            **actionfilters)
        finally:
            session.free_cnxset()

    def transaction_info(self, sessionid, txuuid, txid=None):
        """See :class:`cubicweb.dbapi.Connection.transaction_info`"""
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            return self.system_source.tx_info(session, txuuid)
        finally:
            session.free_cnxset()

    def transaction_actions(self, sessionid, txuuid, public=True, txid=None):
        """See :class:`cubicweb.dbapi.Connection.transaction_actions`"""
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            return self.system_source.tx_actions(session, txuuid, public)
        finally:
            session.free_cnxset()

    def undo_transaction(self, sessionid, txuuid, txid=None):
        """See :class:`cubicweb.dbapi.Connection.undo_transaction`"""
        session = self._get_session(sessionid, setcnxset=True, txid=txid)
        try:
            return self.system_source.undo_transaction(session, txuuid)
        finally:
            session.free_cnxset()

    # public (inter-repository) interface #####################################

    def entities_modified_since(self, etypes, mtime):
        """function designed to be called from an external repository which
        is using this one as a rql source for synchronization, and return a
        3-uple containing :
        * the local date
        * list of (etype, eid) of entities of the given types which have been
          modified since the given timestamp (actually entities whose full text
          index content has changed)
        * list of (etype, eid) of entities of the given types which have been
          deleted since the given timestamp
        """
        with self.internal_session() as session:
            updatetime = datetime.utcnow()
            modentities, delentities = self.system_source.modified_entities(
                session, etypes, mtime)
            return updatetime, modentities, delentities

    # session handling ########################################################

    def close_sessions(self):
        """close every opened sessions"""
        for sessionid in list(self._sessions):
            try:
                self.close(sessionid, checkshuttingdown=False)
            except Exception: # XXX BaseException?
                self.exception('error while closing session %s' % sessionid)

    def clean_sessions(self):
        """close sessions not used since an amount of time specified in the
        configuration
        """
        mintime = time() - self.cleanup_session_time
        self.debug('cleaning session unused since %s',
                   strftime('%T', localtime(mintime)))
        nbclosed = 0
        for session in self._sessions.values():
            if session.timestamp < mintime:
                self.close(session.id)
                nbclosed += 1
        return nbclosed

    def internal_session(self, cnxprops=None, safe=False):
        """return a dbapi like connection/cursor using internal user which have
        every rights on the repository. The `safe` argument is a boolean flag
        telling if integrity hooks should be activated or not.

        *YOU HAVE TO* commit/rollback or close (rollback implicitly) the
        session once the job's done, else you'll leak connections set up to the
        time where no one is available, causing irremediable freeze...
        """
        session = InternalSession(self, cnxprops, safe)
        session.set_cnxset()
        return session

    def _get_session(self, sessionid, setcnxset=False, txid=None,
                     checkshuttingdown=True):
        """return the user associated to the given session identifier"""
        if checkshuttingdown and self.shutting_down:
            raise ShuttingDown('Repository is shutting down')
        try:
            session = self._sessions[sessionid]
        except KeyError:
            raise BadConnectionId('No such session %s' % sessionid)
        if setcnxset:
            session.set_tx(txid) # must be done before set_cnxset
            session.set_cnxset()
        return session

    # data sources handling ###################################################
    # * correspondance between eid and (type, source)
    # * correspondance between eid and local id (i.e. specific to a given source)

    def type_and_source_from_eid(self, eid, session=None):
        """return a tuple `(type, physical source uri, extid, actual source
        uri)` for the entity of the given `eid`
        """
        try:
            eid = int(eid)
        except ValueError:
            raise UnknownEid(eid)
        try:
            return self._type_source_cache[eid]
        except KeyError:
            if session is None:
                session = self.internal_session()
                free_cnxset = True
            else:
                free_cnxset = False
            try:
                etype, uri, extid, auri = self.system_source.eid_type_source(
                    session, eid)
            finally:
                if free_cnxset:
                    session.free_cnxset()
            self._type_source_cache[eid] = (etype, uri, extid, auri)
            if uri != 'system':
                self._extid_cache[(extid, uri)] = eid
            return etype, uri, extid, auri

    def clear_caches(self, eids):
        etcache = self._type_source_cache
        extidcache = self._extid_cache
        rqlcache = self.querier._rql_cache
        for eid in eids:
            try:
                etype, uri, extid, auri = etcache.pop(int(eid)) # may be a string in some cases
                rqlcache.pop( ('%s X WHERE X eid %s' % (etype, eid),), None)
                extidcache.pop((extid, uri), None)
            except KeyError:
                etype = None
            rqlcache.pop( ('Any X WHERE X eid %s' % eid,), None)
            for source in self.sources:
                source.clear_eid_cache(eid, etype)

    def type_from_eid(self, eid, session=None):
        """return the type of the entity with id <eid>"""
        return self.type_and_source_from_eid(eid, session)[0]

    def source_from_eid(self, eid, session=None):
        """return the source for the given entity's eid"""
        return self.sources_by_uri[self.type_and_source_from_eid(eid, session)[1]]

    def querier_cache_key(self, session, rql, args, eidkeys):
        cachekey = [rql]
        for key in sorted(eidkeys):
            try:
                etype = self.type_from_eid(args[key], session)
            except KeyError:
                raise QueryError('bad cache key %s (no value)' % key)
            except TypeError:
                raise QueryError('bad cache key %s (value: %r)' % (
                    key, args[key]))
            cachekey.append(etype)
            # ensure eid is correctly typed in args
            args[key] = int(args[key])
        return tuple(cachekey)

    def eid2extid(self, source, eid, session=None):
        """get local id from an eid"""
        etype, uri, extid, _ = self.type_and_source_from_eid(eid, session)
        if source.uri != uri:
            # eid not from the given source
            raise UnknownEid(eid)
        return extid

    def extid2eid(self, source, extid, etype, session=None, insert=True,
                  complete=True, commit=True, sourceparams=None):
        """Return eid from a local id. If the eid is a negative integer, that
        means the entity is known but has been copied back to the system source
        hence should be ignored.

        If no record is found, ie the entity is not known yet:

        1. an eid is attributed

        2. the source's :meth:`before_entity_insertion` method is called to
           build the entity instance

        3. unless source's :attr:`should_call_hooks` tell otherwise,
          'before_add_entity' hooks are called

        4. record is added into the system source

        5. the source's :meth:`after_entity_insertion` method is called to
           complete building of the entity instance

        6. unless source's :attr:`should_call_hooks` tell otherwise,
          'before_add_entity' hooks are called
        """
        uri = 'system' if source.copy_based_source else source.uri
        cachekey = (extid, uri)
        try:
            return self._extid_cache[cachekey]
        except KeyError:
            pass
        free_cnxset = False
        if session is None:
            session = self.internal_session()
            free_cnxset = True
        eid = self.system_source.extid2eid(session, uri, extid)
        if eid is not None:
            self._extid_cache[cachekey] = eid
            self._type_source_cache[eid] = (etype, uri, extid, source.uri)
            if free_cnxset:
                session.free_cnxset()
            return eid
        if not insert:
            return
        # no link between extid and eid, create one using an internal session
        # since the current session user may not have required permissions to
        # do necessary stuff and we don't want to commit user session.
        #
        # Moreover, even if session is already an internal session but is
        # processing a commit, we have to use another one
        if not session.is_internal_session:
            session = self.internal_session()
            free_cnxset = True
        try:
            eid = self.system_source.create_eid(session)
            self._extid_cache[cachekey] = eid
            self._type_source_cache[eid] = (etype, uri, extid, source.uri)
            entity = source.before_entity_insertion(
                session, extid, etype, eid, sourceparams)
            if source.should_call_hooks:
                # get back a copy of operation for later restore if necessary,
                # see below
                pending_operations = session.pending_operations[:]
                self.hm.call_hooks('before_add_entity', session, entity=entity)
            self.add_info(session, entity, source, extid, complete=complete)
            source.after_entity_insertion(session, extid, entity, sourceparams)
            if source.should_call_hooks:
                self.hm.call_hooks('after_add_entity', session, entity=entity)
            if commit or free_cnxset:
                session.commit(free_cnxset)
            return eid
        except Exception:
            if commit or free_cnxset:
                session.rollback(free_cnxset)
            else:
                # XXX do some cleanup manually so that the transaction has a
                # chance to be commited, with simply this entity discarded
                self._extid_cache.pop(cachekey, None)
                self._type_source_cache.pop(eid, None)
                if 'entity' in locals():
                    hook.CleanupDeletedEidsCacheOp.get_instance(session).add_data(entity.eid)
                    self.system_source.delete_info_multi(session, [entity], uri)
                    if source.should_call_hooks:
                        session._tx.pending_operations = pending_operations
            raise

    def add_info(self, session, entity, source, extid=None, complete=True):
        """add type and source info for an eid into the system table,
        and index the entity with the full text index
        """
        # begin by inserting eid/type/source/extid into the entities table
        hook.CleanupNewEidsCacheOp.get_instance(session).add_data(entity.eid)
        self.system_source.add_info(session, entity, source, extid, complete)

    def delete_info(self, session, entity, sourceuri, scleanup=None):
        """called by external source when some entity known by the system source
        has been deleted in the external source
        """
        # mark eid as being deleted in session info and setup cache update
        # operation
        hook.CleanupDeletedEidsCacheOp.get_instance(session).add_data(entity.eid)
        self._delete_info(session, entity, sourceuri, scleanup)

    def _delete_info(self, session, entity, sourceuri, scleanup=None):
        """delete system information on deletion of an entity:

        * delete all remaining relations from/to this entity

        * call delete info on the system source which will transfer record from
          the entities table to the deleted_entities table

        When scleanup is specified, it's expected to be the source's eid, in
        which case we'll specify the target's relation source so that this
        source is ignored. E.g. we want to delete relations stored locally, as
        the deletion information comes from the external source, it's its
        responsability to have cleaned-up its own relations.
        """
        pendingrtypes = session.transaction_data.get('pendingrtypes', ())
        if scleanup is not None:
            source = self.sources_by_eid[scleanup]
        # delete remaining relations: if user can delete the entity, he can
        # delete all its relations without security checking
        with session.security_enabled(read=False, write=False):
            eid = entity.eid
            for rschema, _, role in entity.e_schema.relation_definitions():
                rtype = rschema.type
                if rtype in schema.VIRTUAL_RTYPES or rtype in pendingrtypes:
                    continue
                if role == 'subject':
                    # don't skip inlined relation so they are regularly
                    # deleted and so hooks are correctly called
                    rql = 'DELETE X %s Y WHERE X eid %%(x)s' % rtype
                else:
                    rql = 'DELETE Y %s X WHERE X eid %%(x)s' % rtype
                if scleanup is not None:
                    # if the relation can't be crossed, nothing to cleanup (we
                    # would get a BadRQLQuery from the multi-sources planner).
                    # This may still leave some junk if the mapping has changed
                    # at some point, but one can still run db-check to catch
                    # those
                    if not source in self.can_cross_relation(rtype):
                        continue
                    # source cleaning: only delete relations stored locally
                    # (here, scleanup
                    rql += ', NOT (Y cw_source S, S eid %(seid)s)'
                try:
                    session.execute(rql, {'x': eid, 'seid': scleanup},
                                    build_descr=False)
                except Exception:
                    if self.config.mode == 'test':
                        raise
                    self.exception('error while cascading delete for entity %s '
                                   'from %s. RQL: %s', entity, sourceuri, rql)
        self.system_source.delete_info_multi(session, [entity], sourceuri)

    def _delete_info_multi(self, session, entities, sourceuri, scleanup=None):
        """same as _delete_info but accepts a list of entities with
        the same etype and belinging to the same source.
        """
        pendingrtypes = session.transaction_data.get('pendingrtypes', ())
        if scleanup is not None:
            source = self.sources_by_eid[scleanup]
        # delete remaining relations: if user can delete the entity, he can
        # delete all its relations without security checking
        with session.security_enabled(read=False, write=False):
            in_eids = ','.join([str(_e.eid) for _e in entities])
            for rschema, _, role in entities[0].e_schema.relation_definitions():
                rtype = rschema.type
                if rtype in schema.VIRTUAL_RTYPES or rtype in pendingrtypes:
                    continue
                if role == 'subject':
                    # don't skip inlined relation so they are regularly
                    # deleted and so hooks are correctly called
                    rql = 'DELETE X %s Y WHERE X eid IN (%s)' % (rtype, in_eids)
                else:
                    rql = 'DELETE Y %s X WHERE X eid IN (%s)' % (rtype, in_eids)
                if scleanup is not None:
                    # if the relation can't be crossed, nothing to cleanup (we
                    # would get a BadRQLQuery from the multi-sources planner).
                    # This may still leave some junk if the mapping has changed
                    # at some point, but one can still run db-check to catch
                    # those
                    if not source in self.can_cross_relation(rtype):
                        continue
                    # source cleaning: only delete relations stored locally
                    rql += ', NOT (Y cw_source S, S eid %(seid)s)'
                try:
                    session.execute(rql, {'seid': scleanup}, build_descr=False)
                except ValidationError:
                    raise
                except Unauthorized:
                    self.exception('Unauthorized exception while cascading delete for entity %s '
                                   'from %s. RQL: %s.\nThis should not happen since security is disabled here.',
                                   entities, sourceuri, rql)
                    raise
                except Exception:
                    if self.config.mode == 'test':
                        raise
                    self.exception('error while cascading delete for entity %s '
                                   'from %s. RQL: %s', entities, sourceuri, rql)
        self.system_source.delete_info_multi(session, entities, sourceuri)

    def locate_relation_source(self, session, subject, rtype, object):
        subjsource = self.source_from_eid(subject, session)
        objsource = self.source_from_eid(object, session)
        if not subjsource is objsource:
            source = self.system_source
            if not (subjsource.may_cross_relation(rtype)
                    and objsource.may_cross_relation(rtype)):
                raise MultiSourcesError(
                    "relation %s can't be crossed among sources"
                    % rtype)
        elif not subjsource.support_relation(rtype):
            source = self.system_source
        else:
            source = subjsource
        if not source.support_relation(rtype, True):
            raise MultiSourcesError(
                "source %s doesn't support write of %s relation"
                % (source.uri, rtype))
        return source

    def locate_etype_source(self, etype):
        for source in self.sources:
            if source.support_entity(etype, 1):
                return source
        else:
            raise ETypeNotSupportedBySources(etype)

    def init_entity_caches(self, session, entity, source):
        """add entity to session entities cache and repo's extid cache.
        Return entity's ext id if the source isn't the system source.
        """
        session.set_entity_cache(entity)
        suri = source.uri
        if suri == 'system':
            extid = None
        else:
            if source.copy_based_source:
                suri = 'system'
            extid = source.get_extid(entity)
            self._extid_cache[(str(extid), suri)] = entity.eid
        self._type_source_cache[entity.eid] = (entity.cw_etype, suri, extid,
                                               source.uri)
        return extid

    def glob_add_entity(self, session, edited):
        """add an entity to the repository

        the entity eid should originaly be None and a unique eid is assigned to
        the entity instance
        """
        entity = edited.entity
        entity._cw_is_saved = False # entity has an eid but is not yet saved
        # init edited_attributes before calling before_add_entity hooks
        entity.cw_edited = edited
        source = self.locate_etype_source(entity.cw_etype)
        # allocate an eid to the entity before calling hooks
        entity.eid = self.system_source.create_eid(session)
        # set caches asap
        extid = self.init_entity_caches(session, entity, source)
        if server.DEBUG & server.DBG_REPO:
            print 'ADD entity', self, entity.cw_etype, entity.eid, edited
        prefill_entity_caches(entity)
        if source.should_call_hooks:
            self.hm.call_hooks('before_add_entity', session, entity=entity)
        relations = preprocess_inlined_relations(session, entity)
        edited.set_defaults()
        if session.is_hook_category_activated('integrity'):
            edited.check(creation=True)
        try:
            source.add_entity(session, entity)
        except UniqueTogetherError as exc:
            userhdlr = session.vreg['adapters'].select(
                'IUserFriendlyError', session, entity=entity, exc=exc)
            userhdlr.raise_user_exception()
        self.add_info(session, entity, source, extid, complete=False)
        edited.saved = entity._cw_is_saved = True
        # trigger after_add_entity after after_add_relation
        if source.should_call_hooks:
            self.hm.call_hooks('after_add_entity', session, entity=entity)
            # call hooks for inlined relations
            for attr, value in relations:
                self.hm.call_hooks('before_add_relation', session,
                                    eidfrom=entity.eid, rtype=attr, eidto=value)
                self.hm.call_hooks('after_add_relation', session,
                                    eidfrom=entity.eid, rtype=attr, eidto=value)
        return entity.eid

    def glob_update_entity(self, session, edited):
        """replace an entity in the repository
        the type and the eid of an entity must not be changed
        """
        entity = edited.entity
        if server.DEBUG & server.DBG_REPO:
            print 'UPDATE entity', entity.cw_etype, entity.eid, \
                  entity.cw_attr_cache, edited
        hm = self.hm
        eschema = entity.e_schema
        session.set_entity_cache(entity)
        orig_edited = getattr(entity, 'cw_edited', None)
        entity.cw_edited = edited
        try:
            only_inline_rels, need_fti_update = True, False
            relations = []
            source = self.source_from_eid(entity.eid, session)
            for attr in list(edited):
                if attr == 'eid':
                    continue
                rschema = eschema.subjrels[attr]
                if rschema.final:
                    if getattr(eschema.rdef(attr), 'fulltextindexed', False):
                        need_fti_update = True
                    only_inline_rels = False
                else:
                    # inlined relation
                    previous_value = entity.related(attr) or None
                    if previous_value is not None:
                        previous_value = previous_value[0][0] # got a result set
                        if previous_value == entity.cw_attr_cache[attr]:
                            previous_value = None
                        elif source.should_call_hooks:
                            hm.call_hooks('before_delete_relation', session,
                                          eidfrom=entity.eid, rtype=attr,
                                          eidto=previous_value)
                    relations.append((attr, edited[attr], previous_value))
            if source.should_call_hooks:
                # call hooks for inlined relations
                for attr, value, _t in relations:
                    hm.call_hooks('before_add_relation', session,
                                  eidfrom=entity.eid, rtype=attr, eidto=value)
                if not only_inline_rels:
                    hm.call_hooks('before_update_entity', session, entity=entity)
            if session.is_hook_category_activated('integrity'):
                edited.check()
            try:
                source.update_entity(session, entity)
                edited.saved = True
            except UniqueTogetherError as exc:
                etype, rtypes = exc.args
                problems = {}
                for col in rtypes:
                    problems[col] = session._('violates unique_together constraints (%s)') % (','.join(rtypes))
                raise ValidationError(entity.eid, problems)
            self.system_source.update_info(session, entity, need_fti_update)
            if source.should_call_hooks:
                if not only_inline_rels:
                    hm.call_hooks('after_update_entity', session, entity=entity)
                for attr, value, prevvalue in relations:
                    # if the relation is already cached, update existant cache
                    relcache = entity.cw_relation_cached(attr, 'subject')
                    if prevvalue is not None:
                        hm.call_hooks('after_delete_relation', session,
                                      eidfrom=entity.eid, rtype=attr, eidto=prevvalue)
                        if relcache is not None:
                            session.update_rel_cache_del(entity.eid, attr, prevvalue)
                    del_existing_rel_if_needed(session, entity.eid, attr, value)
                    if relcache is not None:
                        session.update_rel_cache_add(entity.eid, attr, value)
                    else:
                        entity.cw_set_relation_cache(attr, 'subject',
                                                     session.eid_rset(value))
                    hm.call_hooks('after_add_relation', session,
                                  eidfrom=entity.eid, rtype=attr, eidto=value)
        finally:
            if orig_edited is not None:
                entity.cw_edited = orig_edited


    def glob_delete_entities(self, session, eids):
        """delete a list of  entities and all related entities from the repository"""
        # mark eids as being deleted in session info and setup cache update
        # operation (register pending eids before actual deletion to avoid
        # multiple call to glob_delete_entities)
        op = hook.CleanupDeletedEidsCacheOp.get_instance(session)
        if not isinstance(eids, (set, frozenset)):
            warn('[3.13] eids should be given as a set', DeprecationWarning,
                 stacklevel=2)
            eids = frozenset(eids)
        eids = eids - op._container
        op._container |= eids
        data_by_etype_source = {} # values are ([list of eids],
                                  #             [list of extid],
                                  #             [list of entities])
        #
        # WARNING: the way this dictionary is populated is heavily optimized
        # and does not use setdefault on purpose. Unless a new release
        # of the Python interpreter advertises large perf improvements
        # in setdefault, this should not be changed without profiling.

        for eid in eids:
            etype, sourceuri, extid, _ = self.type_and_source_from_eid(eid, session)
            # XXX should cache entity's cw_metainformation
            entity = session.entity_from_eid(eid, etype)
            try:
                data_by_etype_source[(etype, sourceuri)].append(entity)
            except KeyError:
                data_by_etype_source[(etype, sourceuri)] = [entity]
        for (etype, sourceuri), entities in data_by_etype_source.iteritems():
            if server.DEBUG & server.DBG_REPO:
                print 'DELETE entities', etype, [entity.eid for entity in entities]
            source = self.sources_by_uri[sourceuri]
            if source.should_call_hooks:
                self.hm.call_hooks('before_delete_entity', session, entities=entities)
            if session.deleted_in_transaction(source.eid):
                # source is being deleted, think to give scleanup argument
                self._delete_info_multi(session, entities, sourceuri, scleanup=source.eid)
            else:
                self._delete_info_multi(session, entities, sourceuri)
            source.delete_entities(session, entities)
            if source.should_call_hooks:
                self.hm.call_hooks('after_delete_entity', session, entities=entities)
        # don't clear cache here, it is done in a hook on commit

    def glob_add_relation(self, session, subject, rtype, object):
        """add a relation to the repository"""
        self.glob_add_relations(session, {rtype: [(subject, object)]})

    def glob_add_relations(self, session, relations):
        """add several relations to the repository

        relations is a dictionary rtype: [(subj_eid, obj_eid), ...]
        """
        sources = {}
        subjects_by_types = {}
        objects_by_types = {}
        activintegrity = session.is_hook_category_activated('activeintegrity')
        for rtype, eids_subj_obj in relations.iteritems():
            if server.DEBUG & server.DBG_REPO:
                for subjeid, objeid in eids_subj_obj:
                    print 'ADD relation', subjeid, rtype, objeid
            for subjeid, objeid in eids_subj_obj:
                source = self.locate_relation_source(session, subjeid, rtype, objeid)
                if source not in sources:
                    relations_by_rtype = {}
                    sources[source] = relations_by_rtype
                else:
                    relations_by_rtype = sources[source]
                if rtype in relations_by_rtype:
                    relations_by_rtype[rtype].append((subjeid, objeid))
                else:
                    relations_by_rtype[rtype] = [(subjeid, objeid)]
                if not activintegrity:
                    continue
                # take care to relation of cardinality '?1', as all eids will
                # be inserted later, we've remove duplicated eids since they
                # won't be catched by `del_existing_rel_if_needed`
                rdef = session.rtype_eids_rdef(rtype, subjeid, objeid)
                card = rdef.cardinality
                if card[0] in '?1':
                    with session.security_enabled(read=False):
                        session.execute('DELETE X %s Y WHERE X eid %%(x)s, '
                                        'NOT Y eid %%(y)s' % rtype,
                                        {'x': subjeid, 'y': objeid})
                    subjects = subjects_by_types.setdefault(rdef, {})
                    if subjeid in subjects:
                        del relations_by_rtype[rtype][subjects[subjeid]]
                        subjects[subjeid] = len(relations_by_rtype[rtype]) - 1
                        continue
                    subjects[subjeid] = len(relations_by_rtype[rtype]) - 1
                if card[1] in '?1':
                    with session.security_enabled(read=False):
                        session.execute('DELETE X %s Y WHERE Y eid %%(y)s, '
                                        'NOT X eid %%(x)s' % rtype,
                                        {'x': subjeid, 'y': objeid})
                    objects = objects_by_types.setdefault(rdef, {})
                    if objeid in objects:
                        del relations_by_rtype[rtype][objects[objeid]]
                        objects[objeid] = len(relations_by_rtype[rtype])
                        continue
                    objects[objeid] = len(relations_by_rtype[rtype])
        for source, relations_by_rtype in sources.iteritems():
            if source.should_call_hooks:
                for rtype, source_relations in relations_by_rtype.iteritems():
                    self.hm.call_hooks('before_add_relation', session,
                                    rtype=rtype, eids_from_to=source_relations)
            for rtype, source_relations in relations_by_rtype.iteritems():
                source.add_relations(session, rtype, source_relations)
                rschema = self.schema.rschema(rtype)
                for subjeid, objeid in source_relations:
                    session.update_rel_cache_add(subjeid, rtype, objeid, rschema.symmetric)
            if source.should_call_hooks:
                for rtype, source_relations in relations_by_rtype.iteritems():
                    self.hm.call_hooks('after_add_relation', session,
                                       rtype=rtype, eids_from_to=source_relations)

    def glob_delete_relation(self, session, subject, rtype, object):
        """delete a relation from the repository"""
        if server.DEBUG & server.DBG_REPO:
            print 'DELETE relation', subject, rtype, object
        source = self.locate_relation_source(session, subject, rtype, object)
        if source.should_call_hooks:
            self.hm.call_hooks('before_delete_relation', session,
                               eidfrom=subject, rtype=rtype, eidto=object)
        source.delete_relation(session, subject, rtype, object)
        rschema = self.schema.rschema(rtype)
        session.update_rel_cache_del(subject, rtype, object, rschema.symmetric)
        if rschema.symmetric:
            # on symmetric relation, we can't now in which sense it's
            # stored so try to delete both
            source.delete_relation(session, object, rtype, subject)
        if source.should_call_hooks:
            self.hm.call_hooks('after_delete_relation', session,
                               eidfrom=subject, rtype=rtype, eidto=object)


    # pyro handling ###########################################################

    @property
    @cached
    def pyro_appid(self):
        from logilab.common import pyro_ext as pyro
        config = self.config
        appid = '%s.%s' % pyro.ns_group_and_id(
            config['pyro-instance-id'] or config.appid,
            config['pyro-ns-group'])
        # ensure config['pyro-instance-id'] is a full qualified pyro name
        config['pyro-instance-id'] = appid
        return appid

    def _use_pyrons(self):
        """return True if the pyro-ns-host is set to something else
        than NO_PYRONS, meaning we want to go through a pyro
        nameserver"""
        return self.config['pyro-ns-host'] != 'NO_PYRONS'

    def pyro_register(self, host=''):
        """register the repository as a pyro object"""
        from logilab.common import pyro_ext as pyro
        daemon = pyro.register_object(self, self.pyro_appid,
                                      daemonhost=self.config['pyro-host'],
                                      nshost=self.config['pyro-ns-host'],
                                      use_pyrons=self._use_pyrons())
        self.info('repository registered as a pyro object %s', self.pyro_appid)
        self.pyro_uri =  pyro.get_object_uri(self.pyro_appid)
        self.info('pyro uri is: %s', self.pyro_uri)
        self.pyro_registered = True
        # register a looping task to regularly ensure we're still registered
        # into the pyro name server
        if self._use_pyrons():
            self.looping_task(60*10, self._ensure_pyro_ns)
        pyro_sessions = self._pyro_sessions
        # install hacky function to free cnxset
        def handleConnection(conn, tcpserver, sessions=pyro_sessions):
            sessions[threading.currentThread()] = None
            return tcpserver.getAdapter().__class__.handleConnection(tcpserver.getAdapter(), conn, tcpserver)
        daemon.getAdapter().handleConnection = handleConnection
        def removeConnection(conn, sessions=pyro_sessions):
            daemon.__class__.removeConnection(daemon, conn)
            session = sessions.pop(threading.currentThread(), None)
            if session is None:
                # client was not yet connected to the repo
                return
            if not session.closed:
                self.close(session.id)
        daemon.removeConnection = removeConnection
        return daemon

    def _ensure_pyro_ns(self):
        if not self._use_pyrons():
            return
        from logilab.common import pyro_ext as pyro
        pyro.ns_reregister(self.pyro_appid, nshost=self.config['pyro-ns-host'])
        self.info('repository re-registered as a pyro object %s',
                  self.pyro_appid)

    # multi-sources planner helpers ###########################################

    @cached
    def rel_type_sources(self, rtype):
        return tuple([source for source in self.sources
                      if source.support_relation(rtype)
                      or rtype in source.dont_cross_relations])

    @cached
    def can_cross_relation(self, rtype):
        return tuple([source for source in self.sources
                      if source.support_relation(rtype)
                      and rtype in source.cross_relations])

    @cached
    def is_multi_sources_relation(self, rtype):
        return any(source for source in self.sources
                   if not source is self.system_source
                   and source.support_relation(rtype))

    # these are overridden by set_log_methods below
    # only defining here to prevent pylint from complaining
    info = warning = error = critical = exception = debug = lambda msg,*a,**kw: None


def pyro_unregister(config):
    """unregister the repository from the pyro name server"""
    from logilab.common.pyro_ext import ns_unregister
    appid = config['pyro-instance-id'] or config.appid
    ns_unregister(appid, config['pyro-ns-group'], config['pyro-ns-host'])


from logging import getLogger
from cubicweb import set_log_methods
set_log_methods(Repository, getLogger('cubicweb.repository'))