# -*- coding: iso-8859-1 -*-
# 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/>.
"""unit tests for module cubicweb.server.repository"""
import os
import sys
import threading
import time
import logging
from copy import deepcopy
from datetime import datetime
from logilab.common.testlib import TestCase, unittest_main
from yams.constraints import UniqueConstraint
from yams import register_base_type, unregister_base_type
from logilab.database import get_db_helper
from cubicweb import (BadConnectionId, RepositoryError, ValidationError,
UnknownEid, AuthenticationError, Unauthorized, QueryError)
from cubicweb.predicates import is_instance
from cubicweb.schema import CubicWebSchema, RQLConstraint
from cubicweb.dbapi import connect, multiple_connections_unfix
from cubicweb.devtools.testlib import CubicWebTC
from cubicweb.devtools.repotest import tuplify
from cubicweb.server import repository, hook
from cubicweb.server.sqlutils import SQL_PREFIX
from cubicweb.server.hook import Hook
from cubicweb.server.sources import native
from cubicweb.server.session import SessionClosedError
class RepositoryTC(CubicWebTC):
""" singleton providing access to a persistent storage for entities
and relation
"""
def test_unique_together_constraint(self):
self.execute('INSERT Societe S: S nom "Logilab", S type "SSLL", S cp "75013"')
with self.assertRaises(ValidationError) as wraperr:
self.execute('INSERT Societe S: S nom "Logilab", S type "SSLL", S cp "75013"')
self.assertEqual(
{'cp': u'cp is part of violated unicity constraint',
'nom': u'nom is part of violated unicity constraint',
'type': u'type is part of violated unicity constraint',
'unicity constraint': u'some relations violate a unicity constraint'},
wraperr.exception.args[1])
def test_unique_together_schema(self):
person = self.repo.schema.eschema('Personne')
self.assertEqual(len(person._unique_together), 1)
self.assertItemsEqual(person._unique_together[0],
('nom', 'prenom', 'inline2'))
def test_all_entities_have_owner(self):
self.assertFalse(self.execute('Any X WHERE NOT X owned_by U'))
def test_all_entities_have_is(self):
self.assertFalse(self.execute('Any X WHERE NOT X is ET'))
def test_all_entities_have_cw_source(self):
self.assertFalse(self.execute('Any X WHERE NOT X cw_source S'))
def test_connect(self):
cnxid = self.repo.connect(self.admlogin, password=self.admpassword)
self.assert_(cnxid)
self.repo.close(cnxid)
self.assertRaises(AuthenticationError,
self.repo.connect, self.admlogin, password='nimportnawak')
self.assertRaises(AuthenticationError,
self.repo.connect, self.admlogin, password='')
self.assertRaises(AuthenticationError,
self.repo.connect, self.admlogin, password=None)
self.assertRaises(AuthenticationError,
self.repo.connect, None, password=None)
self.assertRaises(AuthenticationError,
self.repo.connect, self.admlogin)
self.assertRaises(AuthenticationError,
self.repo.connect, None)
def test_execute(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
repo.execute(cnxid, 'Any X')
repo.execute(cnxid, 'Any X where X is Personne')
repo.execute(cnxid, 'Any X where X is Personne, X nom ~= "to"')
repo.execute(cnxid, 'Any X WHERE X has_text %(text)s', {'text': u'\xe7a'})
repo.close(cnxid)
def test_login_upassword_accent(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
repo.execute(cnxid, 'INSERT CWUser X: X login %(login)s, X upassword %(passwd)s, X in_group G WHERE G name "users"',
{'login': u"barnab�", 'passwd': u"h�h�h�".encode('UTF8')})
repo.commit(cnxid)
repo.close(cnxid)
cnxid = repo.connect(u"barnab�", password=u"h�h�h�".encode('UTF8'))
self.assert_(cnxid)
repo.close(cnxid)
def test_rollback_on_commit_error(self):
cnxid = self.repo.connect(self.admlogin, password=self.admpassword)
self.repo.execute(cnxid,
'INSERT CWUser X: X login %(login)s, X upassword %(passwd)s',
{'login': u"tutetute", 'passwd': 'tutetute'})
self.assertRaises(ValidationError, self.repo.commit, cnxid)
self.assertFalse(self.repo.execute(cnxid, 'CWUser X WHERE X login "tutetute"'))
self.repo.close(cnxid)
def test_rollback_on_execute_validation_error(self):
class ValidationErrorAfterHook(Hook):
__regid__ = 'valerror-after-hook'
__select__ = Hook.__select__ & is_instance('CWGroup')
events = ('after_update_entity',)
def __call__(self):
raise ValidationError(self.entity.eid, {})
with self.temporary_appobjects(ValidationErrorAfterHook):
self.assertRaises(ValidationError,
self.execute, 'SET X name "toto" WHERE X is CWGroup, X name "guests"')
self.assertTrue(self.execute('Any X WHERE X is CWGroup, X name "toto"'))
with self.assertRaises(QueryError) as cm:
self.commit()
self.assertEqual(str(cm.exception), 'transaction must be rolled back')
self.rollback()
self.assertFalse(self.execute('Any X WHERE X is CWGroup, X name "toto"'))
def test_rollback_on_execute_unauthorized(self):
class UnauthorizedAfterHook(Hook):
__regid__ = 'unauthorized-after-hook'
__select__ = Hook.__select__ & is_instance('CWGroup')
events = ('after_update_entity',)
def __call__(self):
raise Unauthorized()
with self.temporary_appobjects(UnauthorizedAfterHook):
self.assertRaises(Unauthorized,
self.execute, 'SET X name "toto" WHERE X is CWGroup, X name "guests"')
self.assertTrue(self.execute('Any X WHERE X is CWGroup, X name "toto"'))
with self.assertRaises(QueryError) as cm:
self.commit()
self.assertEqual(str(cm.exception), 'transaction must be rolled back')
self.rollback()
self.assertFalse(self.execute('Any X WHERE X is CWGroup, X name "toto"'))
def test_close(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
self.assert_(cnxid)
repo.close(cnxid)
self.assertRaises(BadConnectionId, repo.execute, cnxid, 'Any X')
def test_invalid_cnxid(self):
self.assertRaises(BadConnectionId, self.repo.execute, 0, 'Any X')
self.assertRaises(BadConnectionId, self.repo.close, None)
def test_shared_data(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
repo.set_shared_data(cnxid, 'data', 4)
cnxid2 = repo.connect(self.admlogin, password=self.admpassword)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), 4)
self.assertEqual(repo.get_shared_data(cnxid2, 'data'), None)
repo.set_shared_data(cnxid2, 'data', 5)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), 4)
self.assertEqual(repo.get_shared_data(cnxid2, 'data'), 5)
repo.get_shared_data(cnxid2, 'data', pop=True)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), 4)
self.assertEqual(repo.get_shared_data(cnxid2, 'data'), None)
repo.close(cnxid)
repo.close(cnxid2)
self.assertRaises(BadConnectionId, repo.get_shared_data, cnxid, 'data')
self.assertRaises(BadConnectionId, repo.get_shared_data, cnxid2, 'data')
self.assertRaises(BadConnectionId, repo.set_shared_data, cnxid, 'data', 1)
self.assertRaises(BadConnectionId, repo.set_shared_data, cnxid2, 'data', 1)
def test_check_session(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
self.assertIsInstance(repo.check_session(cnxid), float)
repo.close(cnxid)
self.assertRaises(BadConnectionId, repo.check_session, cnxid)
def test_transaction_base(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
# check db state
result = repo.execute(cnxid, 'Personne X')
self.assertEqual(result.rowcount, 0)
# rollback entity insertion
repo.execute(cnxid, "INSERT Personne X: X nom 'bidule'")
result = repo.execute(cnxid, 'Personne X')
self.assertEqual(result.rowcount, 1)
repo.rollback(cnxid)
result = repo.execute(cnxid, 'Personne X')
self.assertEqual(result.rowcount, 0, result.rows)
# commit
repo.execute(cnxid, "INSERT Personne X: X nom 'bidule'")
repo.commit(cnxid)
result = repo.execute(cnxid, 'Personne X')
self.assertEqual(result.rowcount, 1)
repo.close(cnxid)
def test_transaction_base2(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
# rollback relation insertion
repo.execute(cnxid, "SET U in_group G WHERE U login 'admin', G name 'guests'")
result = repo.execute(cnxid, "Any U WHERE U in_group G, U login 'admin', G name 'guests'")
self.assertEqual(result.rowcount, 1)
repo.rollback(cnxid)
result = repo.execute(cnxid, "Any U WHERE U in_group G, U login 'admin', G name 'guests'")
self.assertEqual(result.rowcount, 0, result.rows)
repo.close(cnxid)
def test_transaction_base3(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
# rollback state change which trigger TrInfo insertion
session = repo._get_session(cnxid)
session.set_cnxset()
user = session.user
user.cw_adapt_to('IWorkflowable').fire_transition('deactivate')
rset = repo.execute(cnxid, 'TrInfo T WHERE T wf_info_for X, X eid %(x)s', {'x': user.eid})
self.assertEqual(len(rset), 1)
repo.rollback(cnxid)
rset = repo.execute(cnxid, 'TrInfo T WHERE T wf_info_for X, X eid %(x)s', {'x': user.eid})
self.assertEqual(len(rset), 0)
repo.close(cnxid)
def test_transaction_interleaved(self):
self.skipTest('implement me')
def test_close_kill_processing_request(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
repo.execute(cnxid, 'INSERT CWUser X: X login "toto", X upassword "tutu", X in_group G WHERE G name "users"')
repo.commit(cnxid)
lock = threading.Lock()
lock.acquire()
# close has to be in the thread due to sqlite limitations
def close_in_a_few_moment():
lock.acquire()
repo.close(cnxid)
t = threading.Thread(target=close_in_a_few_moment)
t.start()
def run_transaction():
lock.release()
repo.execute(cnxid, 'DELETE CWUser X WHERE X login "toto"')
repo.commit(cnxid)
try:
with self.assertRaises(SessionClosedError) as cm:
run_transaction()
self.assertEqual(str(cm.exception), 'try to access connections set on a closed session %s' % cnxid)
finally:
t.join()
def test_initial_schema(self):
schema = self.repo.schema
# check order of attributes is respected
notin = set(('eid', 'is', 'is_instance_of', 'identity',
'creation_date', 'modification_date', 'cwuri',
'owned_by', 'created_by', 'cw_source',
'update_permission', 'read_permission',
'add_permission', 'in_basket'))
self.assertListEqual(['relation_type',
'from_entity', 'to_entity',
'constrained_by',
'cardinality', 'ordernum',
'indexed', 'fulltextindexed', 'internationalizable',
'defaultval', 'extra_props',
'description', 'description_format'],
[r.type
for r in schema.eschema('CWAttribute').ordered_relations()
if r.type not in notin])
self.assertEqual(schema.eschema('CWEType').main_attribute(), 'name')
self.assertEqual(schema.eschema('State').main_attribute(), 'name')
constraints = schema.rschema('name').rdef('CWEType', 'String').constraints
self.assertEqual(len(constraints), 2)
for cstr in constraints[:]:
if isinstance(cstr, UniqueConstraint):
constraints.remove(cstr)
break
else:
self.fail('unique constraint not found')
sizeconstraint = constraints[0]
self.assertEqual(sizeconstraint.min, None)
self.assertEqual(sizeconstraint.max, 64)
constraints = schema.rschema('relation_type').rdef('CWAttribute', 'CWRType').constraints
self.assertEqual(len(constraints), 1)
cstr = constraints[0]
self.assert_(isinstance(cstr, RQLConstraint))
self.assertEqual(cstr.expression, 'O final TRUE')
ownedby = schema.rschema('owned_by')
self.assertEqual(ownedby.objects('CWEType'), ('CWUser',))
def test_pyro(self):
import Pyro
Pyro.config.PYRO_MULTITHREADED = 0
done = []
self.repo.config.global_set_option('pyro-ns-host', 'NO_PYRONS')
daemon = self.repo.pyro_register()
try:
uri = self.repo.pyro_uri.replace('PYRO', 'pyroloc')
# the client part has to be in the thread due to sqlite limitations
t = threading.Thread(target=self._pyro_client, args=(uri, done))
t.start()
while not done:
daemon.handleRequests(1.0)
t.join(1)
if t.isAlive():
self.fail('something went wrong, thread still alive')
finally:
repository.pyro_unregister(self.repo.config)
from logilab.common import pyro_ext
pyro_ext._DAEMONS.clear()
def _pyro_client(self, uri, done):
cnx = connect(uri,
u'admin', password='gingkow',
initlog=False) # don't reset logging configuration
try:
cnx.load_appobjects(subpath=('entities',))
# check we can get the schema
schema = cnx.get_schema()
self.assertTrue(cnx.vreg)
self.assertTrue('etypes'in cnx.vreg)
cu = cnx.cursor()
rset = cu.execute('Any U,G WHERE U in_group G')
user = iter(rset.entities()).next()
self.assertTrue(user._cw)
self.assertTrue(user._cw.vreg)
from cubicweb.entities import authobjs
self.assertIsInstance(user._cw.user, authobjs.CWUser)
# make sure the tcp connection is closed properly; yes, it's disgusting.
adapter = cnx._repo.adapter
cnx.close()
adapter.release()
done.append(True)
finally:
# connect monkey patch some method by default, remove them
multiple_connections_unfix()
def test_zmq(self):
try:
import zmq
except ImportError:
self.skipTest("zmq in not available")
done = []
from cubicweb.devtools import TestServerConfiguration as ServerConfiguration
from cubicweb.server.cwzmq import ZMQRepositoryServer
# the client part has to be in a thread due to sqlite limitations
t = threading.Thread(target=self._zmq_client, args=(done,))
t.start()
zmq_server = ZMQRepositoryServer(self.repo)
zmq_server.connect('zmqpickle-tcp://127.0.0.1:41415')
t2 = threading.Thread(target=self._zmq_quit, args=(done, zmq_server,))
t2.start()
zmq_server.run()
t2.join(1)
t.join(1)
if t.isAlive():
self.fail('something went wrong, thread still alive')
def _zmq_quit(self, done, srv):
while not done:
time.sleep(0.1)
srv.quit()
def _zmq_client(self, done):
try:
cnx = connect('zmqpickle-tcp://127.0.0.1:41415', u'admin', password=u'gingkow',
initlog=False) # don't reset logging configuration
try:
cnx.load_appobjects(subpath=('entities',))
# check we can get the schema
schema = cnx.get_schema()
self.assertTrue(cnx.vreg)
self.assertTrue('etypes'in cnx.vreg)
cu = cnx.cursor()
rset = cu.execute('Any U,G WHERE U in_group G')
user = iter(rset.entities()).next()
self.assertTrue(user._cw)
self.assertTrue(user._cw.vreg)
from cubicweb.entities import authobjs
self.assertIsInstance(user._cw.user, authobjs.CWUser)
cnx.close()
done.append(True)
finally:
# connect monkey patch some method by default, remove them
multiple_connections_unfix()
finally:
done.append(False)
def test_internal_api(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
session = repo._get_session(cnxid, setcnxset=True)
self.assertEqual(repo.type_and_source_from_eid(2, session),
('CWGroup', None, 'system'))
self.assertEqual(repo.type_from_eid(2, session), 'CWGroup')
repo.close(cnxid)
def test_public_api(self):
self.assertEqual(self.repo.get_schema(), self.repo.schema)
self.assertEqual(self.repo.source_defs(), {'system': {'type': 'native',
'uri': 'system',
'use-cwuri-as-url': False}
})
# .properties() return a result set
self.assertEqual(self.repo.properties().rql, 'Any K,V WHERE P is CWProperty,P pkey K, P value V, NOT P for_user U')
def test_session_api(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
self.assertEqual(repo.user_info(cnxid), (6, 'admin', set([u'managers']), {}))
self.assertEqual({'type': u'CWGroup', 'extid': None, 'source': 'system'},
repo.entity_metas(cnxid, 2))
self.assertEqual(repo.describe(cnxid, 2), (u'CWGroup', 'system', None, 'system'))
repo.close(cnxid)
self.assertRaises(BadConnectionId, repo.user_info, cnxid)
self.assertRaises(BadConnectionId, repo.describe, cnxid, 1)
def test_shared_data_api(self):
repo = self.repo
cnxid = repo.connect(self.admlogin, password=self.admpassword)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), None)
repo.set_shared_data(cnxid, 'data', 4)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), 4)
repo.get_shared_data(cnxid, 'data', pop=True)
repo.get_shared_data(cnxid, 'whatever', pop=True)
self.assertEqual(repo.get_shared_data(cnxid, 'data'), None)
repo.close(cnxid)
self.assertRaises(BadConnectionId, repo.set_shared_data, cnxid, 'data', 0)
self.assertRaises(BadConnectionId, repo.get_shared_data, cnxid, 'data')
def test_schema_is_relation(self):
no_is_rset = self.execute('Any X WHERE NOT X is ET')
self.assertFalse(no_is_rset, no_is_rset.description)
# def test_perfo(self):
# self.set_debug(True)
# from time import time, clock
# t, c = time(), clock()
# try:
# self.create_user('toto')
# finally:
# self.set_debug(False)
# print 'test time: %.3f (time) %.3f (cpu)' % ((time() - t), clock() - c)
def test_delete_if_singlecard1(self):
note = self.request().create_entity('Affaire')
p1 = self.request().create_entity('Personne', nom=u'toto')
self.execute('SET A todo_by P WHERE A eid %(x)s, P eid %(p)s',
{'x': note.eid, 'p': p1.eid})
rset = self.execute('Any P WHERE A todo_by P, A eid %(x)s',
{'x': note.eid})
self.assertEqual(len(rset), 1)
p2 = self.request().create_entity('Personne', nom=u'tutu')
self.execute('SET A todo_by P WHERE A eid %(x)s, P eid %(p)s',
{'x': note.eid, 'p': p2.eid})
rset = self.execute('Any P WHERE A todo_by P, A eid %(x)s',
{'x': note.eid})
self.assertEqual(len(rset), 1)
self.assertEqual(rset.rows[0][0], p2.eid)
def test_delete_if_object_inlined_singlecard(self):
req = self.request()
c = req.create_entity('Card', title=u'Carte')
req.create_entity('Personne', nom=u'Vincent', fiche=c)
req.create_entity('Personne', nom=u'Florent', fiche=c)
self.commit()
self.assertEqual(len(c.reverse_fiche), 1)
def test_cw_set_in_before_update(self):
# local hook
class DummyBeforeHook(Hook):
__regid__ = 'dummy-before-hook'
__select__ = Hook.__select__ & is_instance('EmailAddress')
events = ('before_update_entity',)
def __call__(self):
# safety belt: avoid potential infinite recursion if the test
# fails (i.e. RuntimeError not raised)
pendings = self._cw.transaction_data.setdefault('pending', set())
if self.entity.eid not in pendings:
pendings.add(self.entity.eid)
self.entity.cw_set(alias=u'foo')
with self.temporary_appobjects(DummyBeforeHook):
req = self.request()
addr = req.create_entity('EmailAddress', address=u'a@b.fr')
addr.cw_set(address=u'a@b.com')
rset = self.execute('Any A,AA WHERE X eid %(x)s, X address A, X alias AA',
{'x': addr.eid})
self.assertEqual(rset.rows, [[u'a@b.com', u'foo']])
def test_cw_set_in_before_add(self):
# local hook
class DummyBeforeHook(Hook):
__regid__ = 'dummy-before-hook'
__select__ = Hook.__select__ & is_instance('EmailAddress')
events = ('before_add_entity',)
def __call__(self):
# cw_set is forbidden within before_add_entity()
self.entity.cw_set(alias=u'foo')
with self.temporary_appobjects(DummyBeforeHook):
req = self.request()
# XXX will fail with python -O
self.assertRaises(AssertionError, req.create_entity,
'EmailAddress', address=u'a@b.fr')
def test_multiple_edit_cw_set(self):
"""make sure cw_edited doesn't get cluttered
by previous entities on multiple set
"""
# local hook
class DummyBeforeHook(Hook):
_test = self # keep reference to test instance
__regid__ = 'dummy-before-hook'
__select__ = Hook.__select__ & is_instance('Affaire')
events = ('before_update_entity',)
def __call__(self):
# invoiced attribute shouldn't be considered "edited" before the hook
self._test.assertFalse('invoiced' in self.entity.cw_edited,
'cw_edited cluttered by previous update')
self.entity.cw_edited['invoiced'] = 10
with self.temporary_appobjects(DummyBeforeHook):
req = self.request()
req.create_entity('Affaire', ref=u'AFF01')
req.create_entity('Affaire', ref=u'AFF02')
req.execute('SET A duration 10 WHERE A is Affaire')
def test_user_friendly_error(self):
from cubicweb.entities.adapters import IUserFriendlyUniqueTogether
class MyIUserFriendlyUniqueTogether(IUserFriendlyUniqueTogether):
__select__ = IUserFriendlyUniqueTogether.__select__ & is_instance('Societe')
def raise_user_exception(self):
raise ValidationError(self.entity.eid, {'hip': 'hop'})
with self.temporary_appobjects(MyIUserFriendlyUniqueTogether):
req = self.request()
s = req.create_entity('Societe', nom=u'Logilab', type=u'ssll', cp=u'75013')
self.commit()
with self.assertRaises(ValidationError) as cm:
req.create_entity('Societe', nom=u'Logilab', type=u'ssll', cp=u'75013')
self.assertEqual(cm.exception.errors, {'hip': 'hop'})
self.rollback()
req.create_entity('Societe', nom=u'Logilab', type=u'ssll', cp=u'31400')
with self.assertRaises(ValidationError) as cm:
s.cw_set(cp=u'31400')
self.assertEqual(cm.exception.entity, s.eid)
self.assertEqual(cm.exception.errors, {'hip': 'hop'})
self.rollback()
class SchemaDeserialTC(CubicWebTC):
appid = 'data-schemaserial'
@classmethod
def setUpClass(cls):
register_base_type('BabarTestType', ('jungle_speed',))
helper = get_db_helper('sqlite')
helper.TYPE_MAPPING['BabarTestType'] = 'TEXT'
helper.TYPE_CONVERTERS['BabarTestType'] = lambda x: '"%s"' % x
super(SchemaDeserialTC, cls).setUpClass()
@classmethod
def tearDownClass(cls):
unregister_base_type('BabarTestType')
helper = get_db_helper('sqlite')
helper.TYPE_MAPPING.pop('BabarTestType', None)
helper.TYPE_CONVERTERS.pop('BabarTestType', None)
super(SchemaDeserialTC, cls).tearDownClass()
def test_deserialization_base(self):
"""Check the following deserialization
* all CWEtype has name
* Final type
* CWUniqueTogetherConstraint
* _unique_together__ content"""
origshema = self.repo.schema
try:
self.repo.config.repairing = True # avoid versions checking
self.repo.set_schema(self.repo.deserialize_schema())
table = SQL_PREFIX + 'CWEType'
namecol = SQL_PREFIX + 'name'
finalcol = SQL_PREFIX + 'final'
self.session.set_cnxset()
cu = self.session.system_sql('SELECT %s FROM %s WHERE %s is NULL' % (
namecol, table, finalcol))
self.assertEqual(cu.fetchall(), [])
cu = self.session.system_sql('SELECT %s FROM %s WHERE %s=%%(final)s ORDER BY %s'
% (namecol, table, finalcol, namecol), {'final': True})
self.assertEqual(cu.fetchall(), [(u'BabarTestType',),
(u'BigInt',), (u'Boolean',), (u'Bytes',),
(u'Date',), (u'Datetime',),
(u'Decimal',),(u'Float',),
(u'Int',),
(u'Interval',), (u'Password',),
(u'String',),
(u'TZDatetime',), (u'TZTime',), (u'Time',)])
sql = ("SELECT etype.cw_eid, etype.cw_name, cstr.cw_eid, rel.eid_to "
"FROM cw_CWUniqueTogetherConstraint as cstr, "
" relations_relation as rel, "
" cw_CWEType as etype "
"WHERE cstr.cw_eid = rel.eid_from "
" AND cstr.cw_constraint_of = etype.cw_eid "
" AND etype.cw_name = 'Personne' "
";")
cu = self.session.system_sql(sql)
rows = cu.fetchall()
self.assertEqual(len(rows), 3)
person = self.repo.schema.eschema('Personne')
self.assertEqual(len(person._unique_together), 1)
self.assertItemsEqual(person._unique_together[0],
('nom', 'prenom', 'inline2'))
finally:
self.repo.set_schema(origshema)
def test_custom_attribute_param(self):
origshema = self.repo.schema
try:
self.repo.config.repairing = True # avoid versions checking
self.repo.set_schema(self.repo.deserialize_schema())
pes = self.repo.schema['Personne']
attr = pes.rdef('custom_field_of_jungle')
self.assertIn('jungle_speed', vars(attr))
self.assertEqual(42, attr.jungle_speed)
finally:
self.repo.set_schema(origshema)
class DataHelpersTC(CubicWebTC):
def test_create_eid(self):
self.session.set_cnxset()
self.assert_(self.repo.system_source.create_eid(self.session))
def test_type_from_eid(self):
self.session.set_cnxset()
self.assertEqual(self.repo.type_from_eid(2, self.session), 'CWGroup')
def test_type_from_eid_raise(self):
self.session.set_cnxset()
self.assertRaises(UnknownEid, self.repo.type_from_eid, -2, self.session)
def test_add_delete_info(self):
entity = self.repo.vreg['etypes'].etype_class('Personne')(self.session)
entity.eid = -1
entity.complete = lambda x: None
self.session.set_cnxset()
self.repo.add_info(self.session, entity, self.repo.system_source)
cu = self.session.system_sql('SELECT * FROM entities WHERE eid = -1')
data = cu.fetchall()
self.assertEqual(tuplify(data), [(-1, 'Personne', 'system', None)])
self.repo.delete_info(self.session, entity, 'system')
#self.repo.commit()
cu = self.session.system_sql('SELECT * FROM entities WHERE eid = -1')
data = cu.fetchall()
self.assertEqual(data, [])
class FTITC(CubicWebTC):
def test_fulltext_container_entity(self):
assert self.schema.rschema('use_email').fulltext_container == 'subject'
req = self.request()
toto = req.create_entity('EmailAddress', address=u'toto@logilab.fr')
self.commit()
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'toto'})
self.assertEqual(rset.rows, [])
req.user.cw_set(use_email=toto)
self.commit()
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'toto'})
self.assertEqual(rset.rows, [[req.user.eid]])
req.execute('DELETE X use_email Y WHERE X login "admin", Y eid %(y)s',
{'y': toto.eid})
self.commit()
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'toto'})
self.assertEqual(rset.rows, [])
tutu = req.create_entity('EmailAddress', address=u'tutu@logilab.fr')
req.user.cw_set(use_email=tutu)
self.commit()
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'tutu'})
self.assertEqual(rset.rows, [[req.user.eid]])
tutu.cw_set(address=u'hip@logilab.fr')
self.commit()
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'tutu'})
self.assertEqual(rset.rows, [])
rset = req.execute('Any X WHERE X has_text %(t)s', {'t': 'hip'})
self.assertEqual(rset.rows, [[req.user.eid]])
def test_no_uncessary_ftiindex_op(self):
req = self.request()
req.create_entity('Workflow', name=u'dummy workflow', description=u'huuuuu')
self.assertFalse(any(x for x in self.session.pending_operations
if isinstance(x, native.FTIndexEntityOp)))
class DBInitTC(CubicWebTC):
def test_versions_inserted(self):
inserted = [r[0] for r in self.execute('Any K ORDERBY K WHERE P pkey K, P pkey ~= "system.version.%"')]
self.assertEqual(inserted,
[u'system.version.basket', u'system.version.card', u'system.version.comment',
u'system.version.cubicweb', u'system.version.email',
u'system.version.file', u'system.version.folder',
u'system.version.localperms', u'system.version.tag'])
CALLED = []
class InlineRelHooksTC(CubicWebTC):
"""test relation hooks are called for inlined relations
"""
def setUp(self):
CubicWebTC.setUp(self)
CALLED[:] = ()
def _after_relation_hook(self, cnxset, fromeid, rtype, toeid):
self.called.append((fromeid, rtype, toeid))
def test_inline_relation(self):
"""make sure <event>_relation hooks are called for inlined relation"""
class EcritParHook(hook.Hook):
__regid__ = 'inlinedrelhook'
__select__ = hook.Hook.__select__ & hook.match_rtype('ecrit_par')
events = ('before_add_relation', 'after_add_relation',
'before_delete_relation', 'after_delete_relation')
def __call__(self):
CALLED.append((self.event, self.eidfrom, self.rtype, self.eidto))
with self.temporary_appobjects(EcritParHook):
eidp = self.execute('INSERT Personne X: X nom "toto"')[0][0]
eidn = self.execute('INSERT Note X: X type "T"')[0][0]
self.execute('SET N ecrit_par Y WHERE N type "T", Y nom "toto"')
self.assertEqual(CALLED, [('before_add_relation', eidn, 'ecrit_par', eidp),
('after_add_relation', eidn, 'ecrit_par', eidp)])
CALLED[:] = ()
self.execute('DELETE N ecrit_par Y WHERE N type "T", Y nom "toto"')
self.assertEqual(CALLED, [('before_delete_relation', eidn, 'ecrit_par', eidp),
('after_delete_relation', eidn, 'ecrit_par', eidp)])
CALLED[:] = ()
eidn = self.execute('INSERT Note N: N ecrit_par P WHERE P nom "toto"')[0][0]
self.assertEqual(CALLED, [('before_add_relation', eidn, 'ecrit_par', eidp),
('after_add_relation', eidn, 'ecrit_par', eidp)])
def test_unique_contraint(self):
req = self.request()
toto = req.create_entity('Personne', nom=u'toto')
a01 = req.create_entity('Affaire', ref=u'A01', todo_by=toto)
req.cnx.commit()
req = self.request()
req.create_entity('Note', type=u'todo', inline1=a01)
req.cnx.commit()
req = self.request()
req.create_entity('Note', type=u'todo', inline1=a01)
with self.assertRaises(ValidationError) as cm:
req.cnx.commit()
self.assertEqual(cm.exception.errors, {'inline1-subject': u'RQLUniqueConstraint S type T, S inline1 A1, A1 todo_by C, Y type T, Y inline1 A2, A2 todo_by C failed'})
def test_add_relations_at_creation_with_del_existing_rel(self):
req = self.request()
person = req.create_entity('Personne', nom=u'Toto', prenom=u'Lanturlu', sexe=u'M')
users_rql = 'Any U WHERE U is CWGroup, U name "users"'
users = self.execute(users_rql).get_entity(0, 0)
req.create_entity('CWUser',
login=u'Toto',
upassword=u'firstname',
firstname=u'firstname',
surname=u'surname',
reverse_login_user=person,
in_group=users)
self.commit()
class PerformanceTest(CubicWebTC):
def setUp(self):
super(PerformanceTest, self).setUp()
logger = logging.getLogger('cubicweb.session')
#logger.handlers = [logging.StreamHandler(sys.stdout)]
logger.setLevel(logging.INFO)
self.info = logger.info
def tearDown(self):
super(PerformanceTest, self).tearDown()
logger = logging.getLogger('cubicweb.session')
logger.setLevel(logging.CRITICAL)
def test_composite_deletion(self):
req = self.request()
personnes = []
t0 = time.time()
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M')
for j in xrange(0, 2000, 100):
abraham.cw_set(personne_composite=personnes[j:j+100])
t1 = time.time()
self.info('creation: %.2gs', (t1 - t0))
req.cnx.commit()
t2 = time.time()
self.info('commit creation: %.2gs', (t2 - t1))
self.execute('DELETE Personne P WHERE P eid %(eid)s', {'eid': abraham.eid})
t3 = time.time()
self.info('deletion: %.2gs', (t3 - t2))
req.cnx.commit()
t4 = time.time()
self.info("commit deletion: %2gs", (t4 - t3))
def test_add_relation_non_inlined(self):
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
req.cnx.commit()
t0 = time.time()
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M',
personne_composite=personnes[:100])
t1 = time.time()
self.info('creation: %.2gs', (t1 - t0))
for j in xrange(100, 2000, 100):
abraham.cw_set(personne_composite=personnes[j:j+100])
t2 = time.time()
self.info('more relations: %.2gs', (t2-t1))
req.cnx.commit()
t3 = time.time()
self.info('commit creation: %.2gs', (t3 - t2))
def test_add_relation_inlined(self):
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
req.cnx.commit()
t0 = time.time()
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M',
personne_inlined=personnes[:100])
t1 = time.time()
self.info('creation: %.2gs', (t1 - t0))
for j in xrange(100, 2000, 100):
abraham.cw_set(personne_inlined=personnes[j:j+100])
t2 = time.time()
self.info('more relations: %.2gs', (t2-t1))
req.cnx.commit()
t3 = time.time()
self.info('commit creation: %.2gs', (t3 - t2))
def test_session_add_relation(self):
""" to be compared with test_session_add_relations"""
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M')
req.cnx.commit()
t0 = time.time()
add_relation = self.session.add_relation
for p in personnes:
add_relation(abraham.eid, 'personne_composite', p.eid)
req.cnx.commit()
t1 = time.time()
self.info('add relation: %.2gs', t1-t0)
def test_session_add_relations (self):
""" to be compared with test_session_add_relation"""
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M')
req.cnx.commit()
t0 = time.time()
add_relations = self.session.add_relations
relations = [('personne_composite', [(abraham.eid, p.eid) for p in personnes])]
add_relations(relations)
req.cnx.commit()
t1 = time.time()
self.info('add relations: %.2gs', t1-t0)
def test_session_add_relation_inlined(self):
""" to be compared with test_session_add_relations"""
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M')
req.cnx.commit()
t0 = time.time()
add_relation = self.session.add_relation
for p in personnes:
add_relation(abraham.eid, 'personne_inlined', p.eid)
req.cnx.commit()
t1 = time.time()
self.info('add relation (inlined): %.2gs', t1-t0)
def test_session_add_relations_inlined (self):
""" to be compared with test_session_add_relation"""
req = self.request()
personnes = []
for i in xrange(2000):
p = req.create_entity('Personne', nom=u'Doe%03d'%i, prenom=u'John', sexe=u'M')
personnes.append(p)
abraham = req.create_entity('Personne', nom=u'Abraham', prenom=u'John', sexe=u'M')
req.cnx.commit()
t0 = time.time()
add_relations = self.session.add_relations
relations = [('personne_inlined', [(abraham.eid, p.eid) for p in personnes])]
add_relations(relations)
req.cnx.commit()
t1 = time.time()
self.info('add relations (inlined): %.2gs', t1-t0)
def test_optional_relation_reset_1(self):
req = self.request()
p1 = req.create_entity('Personne', nom=u'Vincent')
p2 = req.create_entity('Personne', nom=u'Florent')
w = req.create_entity('Affaire', ref=u'wc')
w.cw_set(todo_by=[p1,p2])
w.cw_clear_all_caches()
self.commit()
self.assertEqual(len(w.todo_by), 1)
self.assertEqual(w.todo_by[0].eid, p2.eid)
def test_optional_relation_reset_2(self):
req = self.request()
p1 = req.create_entity('Personne', nom=u'Vincent')
p2 = req.create_entity('Personne', nom=u'Florent')
w = req.create_entity('Affaire', ref=u'wc')
w.cw_set(todo_by=p1)
self.commit()
w.cw_set(todo_by=p2)
w.cw_clear_all_caches()
self.commit()
self.assertEqual(len(w.todo_by), 1)
self.assertEqual(w.todo_by[0].eid, p2.eid)
if __name__ == '__main__':
unittest_main()