[repoapi] Avoid deprecation warnings from session.id
Apparently it's called session.sessionid now.
# -*- coding: utf-8 -*-
# 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 cubicweb.web.views.entities module"""
from datetime import datetime
from logilab.common import tempattr
from logilab.common.decorators import clear_cache
from cubicweb import Binary, Unauthorized
from cubicweb.devtools.testlib import CubicWebTC
from cubicweb.mttransforms import HAS_TAL
from cubicweb.entity import can_use_rest_path
from cubicweb.entities import fetch_config
from cubicweb.uilib import soup2xhtml
from cubicweb.schema import RQLVocabularyConstraint, RRQLExpression
class EntityTC(CubicWebTC):
def setUp(self):
super(EntityTC, self).setUp()
self.backup_dict = {}
for cls in self.vreg['etypes'].iter_classes():
self.backup_dict[cls] = (cls.fetch_attrs, cls.cw_fetch_order)
def tearDown(self):
super(EntityTC, self).tearDown()
for cls in self.vreg['etypes'].iter_classes():
cls.fetch_attrs, cls.cw_fetch_order = self.backup_dict[cls]
def test_boolean_value(self):
e = self.vreg['etypes'].etype_class('CWUser')(self.request())
self.assertTrue(e)
def test_yams_inheritance(self):
from entities import Note
e = self.vreg['etypes'].etype_class('SubNote')(self.request())
self.assertIsInstance(e, Note)
e2 = self.vreg['etypes'].etype_class('SubNote')(self.request())
self.assertIs(e.__class__, e2.__class__)
def test_has_eid(self):
e = self.vreg['etypes'].etype_class('CWUser')(self.request())
self.assertEqual(e.eid, None)
self.assertEqual(e.has_eid(), False)
e.eid = 'X'
self.assertEqual(e.has_eid(), False)
e.eid = 0
self.assertEqual(e.has_eid(), True)
e.eid = 2
self.assertEqual(e.has_eid(), True)
def test_copy(self):
req = self.request()
req.create_entity('Tag', name=u'x')
p = req.create_entity('Personne', nom=u'toto')
oe = req.create_entity('Note', type=u'x')
self.execute('SET T ecrit_par U WHERE T eid %(t)s, U eid %(u)s',
{'t': oe.eid, 'u': p.eid})
self.execute('SET TAG tags X WHERE X eid %(x)s', {'x': oe.eid})
e = req.create_entity('Note', type=u'z')
e.copy_relations(oe.eid)
self.assertEqual(len(e.ecrit_par), 1)
self.assertEqual(e.ecrit_par[0].eid, p.eid)
self.assertEqual(len(e.reverse_tags), 1)
# check meta-relations are not copied, set on commit
self.assertEqual(len(e.created_by), 0)
def test_copy_with_nonmeta_composite_inlined(self):
req = self.request()
p = req.create_entity('Personne', nom=u'toto')
oe = req.create_entity('Note', type=u'x')
self.schema['ecrit_par'].rdef('Note', 'Personne').composite = 'subject'
self.execute('SET T ecrit_par U WHERE T eid %(t)s, U eid %(u)s',
{'t': oe.eid, 'u': p.eid})
e = req.create_entity('Note', type=u'z')
e.copy_relations(oe.eid)
self.assertFalse(e.ecrit_par)
self.assertTrue(oe.ecrit_par)
def test_copy_with_composite(self):
user = self.user()
adeleid = self.execute('INSERT EmailAddress X: X address "toto@logilab.org", U use_email X WHERE U login "admin"')[0][0]
e = self.execute('Any X WHERE X eid %(x)s', {'x': user.eid}).get_entity(0, 0)
self.assertEqual(e.use_email[0].address, "toto@logilab.org")
self.assertEqual(e.use_email[0].eid, adeleid)
usereid = self.execute('INSERT CWUser X: X login "toto", X upassword "toto", X in_group G '
'WHERE G name "users"')[0][0]
e = self.execute('Any X WHERE X eid %(x)s', {'x': usereid}).get_entity(0, 0)
e.copy_relations(user.eid)
self.assertFalse(e.use_email)
self.assertFalse(e.primary_email)
def test_copy_with_non_initial_state(self):
user = self.user()
user = self.execute('INSERT CWUser X: X login "toto", X upassword %(pwd)s, X in_group G WHERE G name "users"',
{'pwd': 'toto'}).get_entity(0, 0)
self.commit()
user.cw_adapt_to('IWorkflowable').fire_transition('deactivate')
self.commit()
eid2 = self.execute('INSERT CWUser X: X login "tutu", X upassword %(pwd)s', {'pwd': 'toto'})[0][0]
e = self.execute('Any X WHERE X eid %(x)s', {'x': eid2}).get_entity(0, 0)
e.copy_relations(user.eid)
self.commit()
e.cw_clear_relation_cache('in_state', 'subject')
self.assertEqual(e.cw_adapt_to('IWorkflowable').state, 'activated')
def test_related_cache_both(self):
user = self.execute('Any X WHERE X eid %(x)s', {'x':self.user().eid}).get_entity(0, 0)
adeleid = self.execute('INSERT EmailAddress X: X address "toto@logilab.org", U use_email X WHERE U login "admin"')[0][0]
self.commit()
self.assertEqual(user._cw_related_cache, {})
email = user.primary_email[0]
self.assertEqual(sorted(user._cw_related_cache), ['primary_email_subject'])
self.assertEqual(list(email._cw_related_cache), ['primary_email_object'])
groups = user.in_group
self.assertEqual(sorted(user._cw_related_cache), ['in_group_subject', 'primary_email_subject'])
for group in groups:
self.assertFalse('in_group_subject' in group._cw_related_cache, list(group._cw_related_cache))
user.cw_clear_all_caches()
user.related('in_group', entities=True)
self.assertIn('in_group_subject', user._cw_related_cache)
user.cw_clear_all_caches()
user.related('in_group', targettypes=('CWGroup',), entities=True)
self.assertNotIn('in_group_subject', user._cw_related_cache)
def test_related_limit(self):
req = self.request()
p = req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien')
for tag in u'abcd':
req.create_entity('Tag', name=tag)
self.execute('SET X tags Y WHERE X is Tag, Y is Personne')
self.assertEqual(len(p.related('tags', 'object', limit=2)), 2)
self.assertEqual(len(p.related('tags', 'object')), 4)
p.cw_clear_all_caches()
self.assertEqual(len(p.related('tags', 'object', entities=True, limit=2)), 2)
self.assertEqual(len(p.related('tags', 'object', entities=True)), 4)
def test_related_targettypes(self):
req = self.request()
p = req.create_entity('Personne', nom=u'Loxodonta', prenom=u'Babar')
n = req.create_entity('Note', type=u'scratch', ecrit_par=p)
t = req.create_entity('Tag', name=u'a tag', tags=(p, n))
self.commit()
req = self.request()
t = req.entity_from_eid(t.eid)
self.assertEqual(2, t.related('tags').rowcount)
self.assertEqual(1, t.related('tags', targettypes=('Personne',)).rowcount)
self.assertEqual(1, t.related('tags', targettypes=('Note',)).rowcount)
def test_cw_instantiate_relation(self):
req = self.request()
p1 = req.create_entity('Personne', nom=u'di')
p2 = req.create_entity('Personne', nom=u'mascio')
t = req.create_entity('Tag', name=u't0', tags=[])
self.assertCountEqual(t.tags, [])
t = req.create_entity('Tag', name=u't1', tags=p1)
self.assertCountEqual(t.tags, [p1])
t = req.create_entity('Tag', name=u't2', tags=p1.eid)
self.assertCountEqual(t.tags, [p1])
t = req.create_entity('Tag', name=u't3', tags=[p1, p2.eid])
self.assertCountEqual(t.tags, [p1, p2])
def test_cw_instantiate_reverse_relation(self):
req = self.request()
t1 = req.create_entity('Tag', name=u't1')
t2 = req.create_entity('Tag', name=u't2')
p = req.create_entity('Personne', nom=u'di mascio', reverse_tags=t1)
self.assertCountEqual(p.reverse_tags, [t1])
p = req.create_entity('Personne', nom=u'di mascio', reverse_tags=t1.eid)
self.assertCountEqual(p.reverse_tags, [t1])
p = req.create_entity('Personne', nom=u'di mascio', reverse_tags=[t1, t2.eid])
self.assertCountEqual(p.reverse_tags, [t1, t2])
def test_fetch_rql(self):
user = self.user()
Personne = self.vreg['etypes'].etype_class('Personne')
Societe = self.vreg['etypes'].etype_class('Societe')
Note = self.vreg['etypes'].etype_class('Note')
peschema = Personne.e_schema
seschema = Societe.e_schema
torestore = []
for rdef, card in [(peschema.subjrels['travaille'].rdef(peschema, seschema), '1*'),
(peschema.subjrels['connait'].rdef(peschema, peschema), '11'),
(peschema.subjrels['evaluee'].rdef(peschema, Note.e_schema), '1*'),
(seschema.subjrels['evaluee'].rdef(seschema, Note.e_schema), '1*')]:
cm = tempattr(rdef, 'cardinality', card)
cm.__enter__()
torestore.append(cm)
try:
# testing basic fetch_attrs attribute
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB,AC ORDERBY AA '
'WHERE X is_instance_of Personne, X nom AA, X prenom AB, X modification_date AC')
# testing unknown attributes
Personne.fetch_attrs = ('bloug', 'beep')
self.assertEqual(Personne.fetch_rql(user), 'Any X WHERE X is_instance_of Personne')
# testing one non final relation
Personne.fetch_attrs = ('nom', 'prenom', 'travaille')
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB,AC,AD ORDERBY AA '
'WHERE X is_instance_of Personne, X nom AA, X prenom AB, X travaille AC?, AC nom AD')
# testing two non final relations
Personne.fetch_attrs = ('nom', 'prenom', 'travaille', 'evaluee')
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB,AC,AD,AE ORDERBY AA '
'WHERE X is_instance_of Personne, X nom AA, X prenom AB, X travaille AC?, AC nom AD, '
'X evaluee AE?')
# testing one non final relation with recursion
Personne.fetch_attrs = ('nom', 'prenom', 'travaille')
Societe.fetch_attrs = ('nom', 'evaluee')
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB,AC,AD,AE,AF ORDERBY AA,AF DESC '
'WHERE X is_instance_of Personne, X nom AA, X prenom AB, X travaille AC?, AC nom AD, '
'AC evaluee AE?, AE modification_date AF'
)
# testing symmetric relation
Personne.fetch_attrs = ('nom', 'connait')
self.assertEqual(Personne.fetch_rql(user), 'Any X,AA,AB ORDERBY AA '
'WHERE X is_instance_of Personne, X nom AA, X connait AB?')
# testing optional relation
peschema.subjrels['travaille'].rdef(peschema, seschema).cardinality = '?*'
Personne.fetch_attrs = ('nom', 'prenom', 'travaille')
Societe.fetch_attrs = ('nom',)
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB,AC,AD ORDERBY AA WHERE X is_instance_of Personne, X nom AA, X prenom AB, X travaille AC?, AC nom AD')
# testing relation with cardinality > 1
peschema.subjrels['travaille'].rdef(peschema, seschema).cardinality = '**'
self.assertEqual(Personne.fetch_rql(user),
'Any X,AA,AB ORDERBY AA WHERE X is_instance_of Personne, X nom AA, X prenom AB')
# XXX test unauthorized attribute
finally:
# fetch_attrs restored by generic tearDown
for cm in torestore:
cm.__exit__(None, None, None)
def test_related_rql_base(self):
Personne = self.vreg['etypes'].etype_class('Personne')
Note = self.vreg['etypes'].etype_class('Note')
SubNote = self.vreg['etypes'].etype_class('SubNote')
self.assertTrue(issubclass(self.vreg['etypes'].etype_class('SubNote'), Note))
Personne.fetch_attrs, Personne.cw_fetch_order = fetch_config(('nom', 'type'))
Note.fetch_attrs, Note.cw_fetch_order = fetch_config(('type',))
SubNote.fetch_attrs, SubNote.cw_fetch_order = fetch_config(('type',))
p = self.request().create_entity('Personne', nom=u'pouet')
self.assertEqual(p.cw_related_rql('evaluee'),
'Any X,AA,AB ORDERBY AA WHERE E eid %(x)s, E evaluee X, '
'X type AA, X modification_date AB')
n = self.request().create_entity('Note')
self.assertEqual(n.cw_related_rql('evaluee', role='object',
targettypes=('Societe', 'Personne')),
"Any X,AA ORDERBY AB DESC WHERE E eid %(x)s, X evaluee E, "
"X is IN(Personne, Societe), X nom AA, "
"X modification_date AB")
Personne.fetch_attrs, Personne.cw_fetch_order = fetch_config(('nom', ))
# XXX
self.assertEqual(p.cw_related_rql('evaluee'),
'Any X,AA ORDERBY AA DESC '
'WHERE E eid %(x)s, E evaluee X, X modification_date AA')
tag = self.vreg['etypes'].etype_class('Tag')(self.request())
self.assertEqual(tag.cw_related_rql('tags', 'subject'),
'Any X,AA ORDERBY AA DESC '
'WHERE E eid %(x)s, E tags X, X modification_date AA')
self.assertEqual(tag.cw_related_rql('tags', 'subject', ('Personne',)),
'Any X,AA,AB ORDERBY AA '
'WHERE E eid %(x)s, E tags X, X is Personne, X nom AA, '
'X modification_date AB')
def test_related_rql_ambiguous_cant_use_fetch_order(self):
tag = self.vreg['etypes'].etype_class('Tag')(self.request())
for ttype in self.schema['tags'].objects():
self.vreg['etypes'].etype_class(ttype).fetch_attrs = ('modification_date',)
self.assertEqual(tag.cw_related_rql('tags', 'subject'),
'Any X,AA ORDERBY AA DESC '
'WHERE E eid %(x)s, E tags X, X modification_date AA')
def test_related_rql_fetch_ambiguous_rtype(self):
soc_etype = self.vreg['etypes'].etype_class('Societe')
soc = soc_etype(self.request())
soc_etype.fetch_attrs = ('fournit',)
self.vreg['etypes'].etype_class('Service').fetch_attrs = ('fabrique_par',)
self.vreg['etypes'].etype_class('Produit').fetch_attrs = ('fabrique_par',)
self.vreg['etypes'].etype_class('Usine').fetch_attrs = ('lieu',)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ('nom',)
self.assertEqual(soc.cw_related_rql('fournit', 'subject'),
'Any X,A WHERE E eid %(x)s, E fournit X, X fabrique_par A')
def test_unrelated_rql_security_1_manager(self):
user = self.request().user
rql = user.cw_unrelated_rql('use_email', 'EmailAddress', 'subject')[0]
self.assertEqual(rql, 'Any O,AA,AB,AC ORDERBY AC DESC '
'WHERE NOT A use_email O, S eid %(x)s, '
'O is_instance_of EmailAddress, O address AA, O alias AB, O modification_date AC')
def test_unrelated_rql_security_1_user(self):
req = self.request()
self.create_user(req, 'toto')
self.login('toto')
user = req.user
rql = user.cw_unrelated_rql('use_email', 'EmailAddress', 'subject')[0]
self.assertEqual(rql, 'Any O,AA,AB,AC ORDERBY AC DESC '
'WHERE NOT A use_email O, S eid %(x)s, '
'O is_instance_of EmailAddress, O address AA, O alias AB, O modification_date AC')
user = self.execute('Any X WHERE X login "admin"').get_entity(0, 0)
rql = user.cw_unrelated_rql('use_email', 'EmailAddress', 'subject')[0]
self.assertEqual(rql, 'Any O,AA,AB,AC ORDERBY AC DESC '
'WHERE NOT A use_email O, S eid %(x)s, '
'O is EmailAddress, O address AA, O alias AB, O modification_date AC, AD eid %(AE)s, '
'EXISTS(S identity AD, NOT AD in_group AF, AF name "guests", AF is CWGroup), A is CWUser')
def test_unrelated_rql_security_1_anon(self):
self.login('anon')
user = self.request().user
rql = user.cw_unrelated_rql('use_email', 'EmailAddress', 'subject')[0]
self.assertEqual(rql, 'Any O,AA,AB,AC ORDERBY AC DESC '
'WHERE NOT A use_email O, S eid %(x)s, '
'O is EmailAddress, O address AA, O alias AB, O modification_date AC, AD eid %(AE)s, '
'EXISTS(S identity AD, NOT AD in_group AF, AF name "guests", AF is CWGroup), A is CWUser')
def test_unrelated_rql_security_2(self):
email = self.execute('INSERT EmailAddress X: X address "hop"').get_entity(0, 0)
rql = email.cw_unrelated_rql('use_email', 'CWUser', 'object')[0]
self.assertEqual(rql, 'Any S,AA,AB,AC,AD ORDERBY AA '
'WHERE NOT S use_email O, O eid %(x)s, S is_instance_of CWUser, '
'S login AA, S firstname AB, S surname AC, S modification_date AD')
self.login('anon')
rperms = self.schema['EmailAddress'].permissions['read']
clear_cache(self.schema['EmailAddress'], 'get_groups')
clear_cache(self.schema['EmailAddress'], 'get_rqlexprs')
self.schema['EmailAddress'].permissions['read'] = ('managers', 'users', 'guests',)
try:
email = self.execute('Any X WHERE X eid %(x)s', {'x': email.eid}).get_entity(0, 0)
rql = email.cw_unrelated_rql('use_email', 'CWUser', 'object')[0]
self.assertEqual(rql, 'Any S,AA,AB,AC,AD ORDERBY AA '
'WHERE NOT S use_email O, O eid %(x)s, S is CWUser, '
'S login AA, S firstname AB, S surname AC, S modification_date AD, '
'AE eid %(AF)s, EXISTS(S identity AE, NOT AE in_group AG, AG name "guests", AG is CWGroup)')
finally:
clear_cache(self.schema['EmailAddress'], 'get_groups')
clear_cache(self.schema['EmailAddress'], 'get_rqlexprs')
self.schema['EmailAddress'].permissions['read'] = rperms
def test_unrelated_rql_security_nonexistant(self):
self.login('anon')
email = self.vreg['etypes'].etype_class('EmailAddress')(self.request())
rql = email.cw_unrelated_rql('use_email', 'CWUser', 'object')[0]
self.assertEqual(rql, 'Any S,AA,AB,AC,AD ORDERBY AA '
'WHERE S is CWUser, '
'S login AA, S firstname AB, S surname AC, S modification_date AD, '
'AE eid %(AF)s, EXISTS(S identity AE, NOT AE in_group AG, AG name "guests", AG is CWGroup)')
def test_unrelated_rql_constraints_creation_subject(self):
person = self.vreg['etypes'].etype_class('Personne')(self.request())
rql = person.cw_unrelated_rql('connait', 'Personne', 'subject')[0]
self.assertEqual(
rql, 'Any O,AA,AB,AC ORDERBY AC DESC WHERE '
'O is_instance_of Personne, O nom AA, O prenom AB, O modification_date AC')
def test_unrelated_rql_constraints_creation_object(self):
person = self.vreg['etypes'].etype_class('Personne')(self.request())
rql = person.cw_unrelated_rql('connait', 'Personne', 'object')[0]
self.assertEqual(
rql, 'Any S,AA,AB,AC ORDERBY AC DESC WHERE '
'S is Personne, S nom AA, S prenom AB, S modification_date AC, '
'NOT (S connait AD, AD nom "toto"), AD is Personne, '
'EXISTS(S travaille AE, AE nom "tutu")')
def test_unrelated_rql_security_rel_perms(self):
'''check `connait` add permission has no effect for a new entity on the
unrelated rql'''
rdef = self.schema['Personne'].rdef('connait')
perm_rrqle = RRQLExpression('U has_update_permission S')
with self.temporary_permissions((rdef, {'add': (perm_rrqle,)})):
person = self.vreg['etypes'].etype_class('Personne')(self.request())
rql = person.cw_unrelated_rql('connait', 'Personne', 'subject')[0]
self.assertEqual(rql, 'Any O,AA,AB,AC ORDERBY AC DESC WHERE '
'O is_instance_of Personne, O nom AA, O prenom AB, '
'O modification_date AC')
def test_unrelated_rql_constraints_edition_subject(self):
person = self.request().create_entity('Personne', nom=u'sylvain')
rql = person.cw_unrelated_rql('connait', 'Personne', 'subject')[0]
self.assertEqual(
rql, 'Any O,AA,AB,AC ORDERBY AC DESC WHERE '
'NOT S connait O, S eid %(x)s, O is Personne, '
'O nom AA, O prenom AB, O modification_date AC, '
'NOT S identity O')
def test_unrelated_rql_constraints_edition_object(self):
person = self.request().create_entity('Personne', nom=u'sylvain')
rql = person.cw_unrelated_rql('connait', 'Personne', 'object')[0]
self.assertEqual(
rql, 'Any S,AA,AB,AC ORDERBY AC DESC WHERE '
'NOT S connait O, O eid %(x)s, S is Personne, '
'S nom AA, S prenom AB, S modification_date AC, '
'NOT S identity O, NOT (S connait AD, AD nom "toto"), '
'EXISTS(S travaille AE, AE nom "tutu")')
def test_unrelated_rql_s_linkto_s(self):
req = self.request()
person = self.vreg['etypes'].etype_class('Personne')(req)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ()
soc = req.create_entity('Societe', nom=u'logilab')
lt_infos = {('actionnaire', 'subject'): [soc.eid]}
rql, args = person.cw_unrelated_rql('associe', 'Personne', 'subject',
lt_infos=lt_infos)
self.assertEqual(u'Any O ORDERBY O WHERE O is Personne, '
u'EXISTS(AA eid %(SOC)s, O actionnaire AA)', rql)
self.assertEqual({'SOC': soc.eid}, args)
def test_unrelated_rql_s_linkto_o(self):
req = self.request()
person = self.vreg['etypes'].etype_class('Personne')(req)
self.vreg['etypes'].etype_class('Societe').fetch_attrs = ()
soc = req.create_entity('Societe', nom=u'logilab')
lt_infos = {('contrat_exclusif', 'object'): [soc.eid]}
rql, args = person.cw_unrelated_rql('actionnaire', 'Societe', 'subject',
lt_infos=lt_infos)
self.assertEqual(u'Any O ORDERBY O WHERE NOT A actionnaire O, '
u'O is_instance_of Societe, NOT EXISTS(O eid %(O)s), '
u'A is Personne', rql)
self.assertEqual({'O': soc.eid}, args)
def test_unrelated_rql_o_linkto_s(self):
req = self.request()
soc = self.vreg['etypes'].etype_class('Societe')(req)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ()
person = req.create_entity('Personne', nom=u'florent')
lt_infos = {('contrat_exclusif', 'subject'): [person.eid]}
rql, args = soc.cw_unrelated_rql('actionnaire', 'Personne', 'object',
lt_infos=lt_infos)
self.assertEqual(u'Any S ORDERBY S WHERE NOT S actionnaire A, '
u'S is_instance_of Personne, NOT EXISTS(S eid %(S)s), '
u'A is Societe', rql)
self.assertEqual({'S': person.eid}, args)
def test_unrelated_rql_o_linkto_o(self):
req = self.request()
soc = self.vreg['etypes'].etype_class('Societe')(req)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ()
person = req.create_entity('Personne', nom=u'florent')
lt_infos = {('actionnaire', 'object'): [person.eid]}
rql, args = soc.cw_unrelated_rql('dirige', 'Personne', 'object',
lt_infos=lt_infos)
self.assertEqual(u'Any S ORDERBY S WHERE NOT S dirige A, '
u'S is_instance_of Personne, EXISTS(S eid %(S)s), '
u'A is Societe', rql)
self.assertEqual({'S': person.eid}, args)
def test_unrelated_rql_s_linkto_s_no_info(self):
req = self.request()
person = self.vreg['etypes'].etype_class('Personne')(req)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ()
soc = req.create_entity('Societe', nom=u'logilab')
rql, args = person.cw_unrelated_rql('associe', 'Personne', 'subject')
self.assertEqual(u'Any O ORDERBY O WHERE O is_instance_of Personne', rql)
self.assertEqual({}, args)
def test_unrelated_rql_s_linkto_s_unused_info(self):
req = self.request()
person = self.vreg['etypes'].etype_class('Personne')(req)
self.vreg['etypes'].etype_class('Personne').fetch_attrs = ()
other_p = req.create_entity('Personne', nom=u'titi')
lt_infos = {('dirige', 'subject'): [other_p.eid]}
rql, args = person.cw_unrelated_rql('associe', 'Personne', 'subject',
lt_infos=lt_infos)
self.assertEqual(u'Any O ORDERBY O WHERE O is_instance_of Personne', rql)
def test_unrelated_base(self):
req = self.request()
p = req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien')
e = req.create_entity('Tag', name=u'x')
related = [r.eid for r in e.tags]
self.assertEqual(related, [])
unrelated = [r[0] for r in e.unrelated('tags', 'Personne', 'subject')]
self.assertTrue(p.eid in unrelated)
self.execute('SET X tags Y WHERE X is Tag, Y is Personne')
e = self.execute('Any X WHERE X is Tag').get_entity(0, 0)
unrelated = [r[0] for r in e.unrelated('tags', 'Personne', 'subject')]
self.assertFalse(p.eid in unrelated)
def test_unrelated_limit(self):
req = self.request()
e = req.create_entity('Tag', name=u'x')
req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien')
req.create_entity('Personne', nom=u'thenault', prenom=u'sylvain')
self.assertEqual(len(e.unrelated('tags', 'Personne', 'subject', limit=1)),
1)
def test_unrelated_security(self):
rperms = self.schema['EmailAddress'].permissions['read']
clear_cache(self.schema['EmailAddress'], 'get_groups')
clear_cache(self.schema['EmailAddress'], 'get_rqlexprs')
self.schema['EmailAddress'].permissions['read'] = ('managers', 'users', 'guests',)
try:
email = self.execute('INSERT EmailAddress X: X address "hop"').get_entity(0, 0)
rset = email.unrelated('use_email', 'CWUser', 'object')
self.assertEqual([x.login for x in rset.entities()], [u'admin', u'anon'])
user = self.request().user
rset = user.unrelated('use_email', 'EmailAddress', 'subject')
self.assertEqual([x.address for x in rset.entities()], [u'hop'])
req = self.request()
self.create_user(req, 'toto')
self.login('toto')
email = self.execute('Any X WHERE X eid %(x)s', {'x': email.eid}).get_entity(0, 0)
rset = email.unrelated('use_email', 'CWUser', 'object')
self.assertEqual([x.login for x in rset.entities()], ['toto'])
user = self.request().user
rset = user.unrelated('use_email', 'EmailAddress', 'subject')
self.assertEqual([x.address for x in rset.entities()], ['hop'])
user = self.execute('Any X WHERE X login "admin"').get_entity(0, 0)
rset = user.unrelated('use_email', 'EmailAddress', 'subject')
self.assertEqual([x.address for x in rset.entities()], [])
self.login('anon')
email = self.execute('Any X WHERE X eid %(x)s', {'x': email.eid}).get_entity(0, 0)
rset = email.unrelated('use_email', 'CWUser', 'object')
self.assertEqual([x.login for x in rset.entities()], [])
user = self.request().user
rset = user.unrelated('use_email', 'EmailAddress', 'subject')
self.assertEqual([x.address for x in rset.entities()], [])
finally:
clear_cache(self.schema['EmailAddress'], 'get_groups')
clear_cache(self.schema['EmailAddress'], 'get_rqlexprs')
self.schema['EmailAddress'].permissions['read'] = rperms
def test_unrelated_new_entity(self):
e = self.vreg['etypes'].etype_class('CWUser')(self.request())
unrelated = [r[0] for r in e.unrelated('in_group', 'CWGroup', 'subject')]
# should be default groups but owners, i.e. managers, users, guests
self.assertEqual(len(unrelated), 3)
def test_printable_value_string(self):
e = self.request().create_entity('Card', title=u'rest test', content=u'du :eid:`1:*ReST*`',
content_format=u'text/rest')
self.assertEqual(e.printable_value('content'),
'<p>du <a class="reference" href="http://testing.fr/cubicweb/cwsource/system">*ReST*</a></p>')
e.cw_attr_cache['content'] = 'du <em>html</em> <ref rql="CWUser X">users</ref>'
e.cw_attr_cache['content_format'] = 'text/html'
self.assertEqual(e.printable_value('content'),
'du <em>html</em> <a href="http://testing.fr/cubicweb/view?rql=CWUser%20X">users</a>')
e.cw_attr_cache['content'] = 'du *texte*'
e.cw_attr_cache['content_format'] = 'text/plain'
self.assertEqual(e.printable_value('content'),
'<p>\ndu *texte*<br/></p>')
e.cw_attr_cache['title'] = 'zou'
e.cw_attr_cache['content'] = '''\
a title
=======
du :eid:`1:*ReST*`'''
e.cw_attr_cache['content_format'] = 'text/rest'
self.assertEqual(e.printable_value('content', format='text/plain'),
e.cw_attr_cache['content'])
e.cw_attr_cache['content'] = u'<b>yo (zou éà ;)</b>'
e.cw_attr_cache['content_format'] = 'text/html'
self.assertEqual(e.printable_value('content', format='text/plain').strip(),
u'**yo (zou éà ;)**')
if HAS_TAL:
e.cw_attr_cache['content'] = '<h1 tal:content="self/title">titre</h1>'
e.cw_attr_cache['content_format'] = 'text/cubicweb-page-template'
self.assertEqual(e.printable_value('content'),
'<h1>zou</h1>')
def test_printable_value_bytes(self):
req = self.request()
e = req.create_entity('File', data=Binary('lambda x: 1'), data_format=u'text/x-python',
data_encoding=u'ascii', data_name=u'toto.py')
from cubicweb import mttransforms
if mttransforms.HAS_PYGMENTS_TRANSFORMS:
import pygments
if tuple(int(i) for i in pygments.__version__.split('.')[:2]) >= (1, 3):
self.assertEqual(e.printable_value('data'),
'''<div class="highlight"><pre><span class="k">lambda</span> <span class="n">x</span><span class="p">:</span> <span class="mi">1</span>
</pre></div>''')
else:
self.assertEqual(e.printable_value('data'),
'''<div class="highlight"><pre><span class="k">lambda</span> <span class="n">x</span><span class="p">:</span> <span class="mf">1</span>
</pre></div>''')
else:
self.assertEqual(e.printable_value('data'),
'''<pre class="python">
<span style="color: #C00000;">lambda</span> <span style="color: #000000;">x</span><span style="color: #0000C0;">:</span> <span style="color: #0080C0;">1</span>
</pre>''')
e = req.create_entity('File', data=Binary('*héhéhé*'), data_format=u'text/rest',
data_encoding=u'utf-8', data_name=u'toto.txt')
self.assertEqual(e.printable_value('data'),
u'<p><em>héhéhé</em></p>')
def test_printable_value_bad_html(self):
"""make sure we don't crash if we try to render invalid XHTML strings"""
req = self.request()
e = req.create_entity('Card', title=u'bad html', content=u'<div>R&D<br>',
content_format=u'text/html')
tidy = lambda x: x.replace('\n', '')
self.assertEqual(tidy(e.printable_value('content')),
'<div>R&D<br/></div>')
e.cw_attr_cache['content'] = u'yo !! R&D <div> pas fermé'
self.assertEqual(tidy(e.printable_value('content')),
u'yo !! R&D <div> pas fermé</div>')
e.cw_attr_cache['content'] = u'R&D'
self.assertEqual(tidy(e.printable_value('content')), u'R&D')
e.cw_attr_cache['content'] = u'R&D;'
self.assertEqual(tidy(e.printable_value('content')), u'R&D;')
e.cw_attr_cache['content'] = u'yo !! R&D <div> pas fermé'
self.assertEqual(tidy(e.printable_value('content')),
u'yo !! R&D <div> pas fermé</div>')
e.cw_attr_cache['content'] = u'été <div> été'
self.assertEqual(tidy(e.printable_value('content')),
u'été <div> été</div>')
e.cw_attr_cache['content'] = u'C'est un exemple sérieux'
self.assertEqual(tidy(e.printable_value('content')),
u"C'est un exemple sérieux")
# make sure valid xhtml is left untouched
e.cw_attr_cache['content'] = u'<div>R&D<br/></div>'
self.assertEqual(e.printable_value('content'), e.cw_attr_cache['content'])
e.cw_attr_cache['content'] = u'<div>été</div>'
self.assertEqual(e.printable_value('content'), e.cw_attr_cache['content'])
e.cw_attr_cache['content'] = u'été'
self.assertEqual(e.printable_value('content'), e.cw_attr_cache['content'])
e.cw_attr_cache['content'] = u'hop\r\nhop\nhip\rmomo'
self.assertEqual(e.printable_value('content'), u'hop\nhop\nhip\nmomo')
def test_printable_value_bad_html_ms(self):
req = self.request()
e = req.create_entity('Card', title=u'bad html', content=u'<div>R&D<br>',
content_format=u'text/html')
tidy = lambda x: x.replace('\n', '')
e.cw_attr_cache['content'] = u'<div x:foo="bar">ms orifice produces weird html</div>'
# Caution! current implementation of soup2xhtml strips first div element
content = soup2xhtml(e.printable_value('content'), 'utf-8')
self.assertMultiLineEqual(content, u'<div>ms orifice produces weird html</div>')
def test_fulltextindex(self):
e = self.vreg['etypes'].etype_class('File')(self.request())
e.cw_attr_cache['description'] = 'du <em>html</em>'
e.cw_attr_cache['description_format'] = 'text/html'
e.cw_attr_cache['data'] = Binary('some <em>data</em>')
e.cw_attr_cache['data_name'] = 'an html file'
e.cw_attr_cache['data_format'] = 'text/html'
e.cw_attr_cache['data_encoding'] = 'ascii'
e._cw.transaction_data = {} # XXX req should be a session
words = e.cw_adapt_to('IFTIndexable').get_words()
words['C'].sort()
self.assertEqual({'C': sorted(['an', 'html', 'file', 'du', 'html', 'some', 'data'])},
words)
def test_nonregr_relation_cache(self):
req = self.request()
p1 = req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien')
p2 = req.create_entity('Personne', nom=u'toto')
self.execute('SET X evaluee Y WHERE X nom "di mascio", Y nom "toto"')
self.assertEqual(p1.evaluee[0].nom, "toto")
self.assertTrue(not p1.reverse_evaluee)
def test_complete_relation(self):
session = self.session
eid = session.execute(
'INSERT TrInfo X: X comment "zou", X wf_info_for U, X from_state S1, X to_state S2 '
'WHERE U login "admin", S1 name "activated", S2 name "deactivated"')[0][0]
trinfo = self.execute('Any X WHERE X eid %(x)s', {'x': eid}).get_entity(0, 0)
trinfo.complete()
self.assertTrue(isinstance(trinfo.cw_attr_cache['creation_date'], datetime))
self.assertTrue(trinfo.cw_relation_cached('from_state', 'subject'))
self.assertTrue(trinfo.cw_relation_cached('to_state', 'subject'))
self.assertTrue(trinfo.cw_relation_cached('wf_info_for', 'subject'))
self.assertEqual(trinfo.by_transition, ())
def test_request_cache(self):
req = self.request()
user = self.execute('CWUser X WHERE X login "admin"', req=req).get_entity(0, 0)
state = user.in_state[0]
samestate = self.execute('State X WHERE X name "activated"', req=req).get_entity(0, 0)
self.assertTrue(state is samestate)
def test_rest_path(self):
req = self.request()
note = req.create_entity('Note', type=u'z')
self.assertEqual(note.rest_path(), 'note/%s' % note.eid)
# unique attr
tag = req.create_entity('Tag', name=u'x')
self.assertEqual(tag.rest_path(), 'tag/x')
# test explicit rest_attr
person = req.create_entity('Personne', prenom=u'john', nom=u'doe')
self.assertEqual(person.rest_path(), 'personne/doe')
# ambiguity test
person2 = req.create_entity('Personne', prenom=u'remi', nom=u'doe')
person.cw_clear_all_caches()
self.assertEqual(person.rest_path(), unicode(person.eid))
self.assertEqual(person2.rest_path(), unicode(person2.eid))
# unique attr with None value (nom in this case)
friend = req.create_entity('Ami', prenom=u'bob')
self.assertEqual(friend.rest_path(), unicode(friend.eid))
def test_can_use_rest_path(self):
self.assertTrue(can_use_rest_path(u'zobi'))
# don't use rest if we have /, ? or & in the path (breaks mod_proxy)
self.assertFalse(can_use_rest_path(u'zo/bi'))
self.assertFalse(can_use_rest_path(u'zo&bi'))
self.assertFalse(can_use_rest_path(u'zo?bi'))
def test_cw_set_attributes(self):
req = self.request()
person = req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien')
self.assertEqual(person.prenom, u'adrien')
self.assertEqual(person.nom, u'di mascio')
person.cw_set(prenom=u'sylvain', nom=u'thénault')
person = self.execute('Personne P').get_entity(0, 0) # XXX retreival needed ?
self.assertEqual(person.prenom, u'sylvain')
self.assertEqual(person.nom, u'thénault')
def test_cw_set_relations(self):
req = self.request()
person = req.create_entity('Personne', nom=u'chauvat', prenom=u'nicolas')
note = req.create_entity('Note', type=u'x')
note.cw_set(ecrit_par=person)
note = req.create_entity('Note', type=u'y')
note.cw_set(ecrit_par=person.eid)
self.assertEqual(len(person.reverse_ecrit_par), 2)
def test_metainformation_and_external_absolute_url(self):
req = self.request()
note = req.create_entity('Note', type=u'z')
metainf = note.cw_metainformation()
self.assertEqual(metainf, {'source': {'type': 'native', 'uri': 'system',
'use-cwuri-as-url': False},
'type': u'Note', 'extid': None})
self.assertEqual(note.absolute_url(), 'http://testing.fr/cubicweb/note/%s' % note.eid)
metainf['source'] = metainf['source'].copy()
metainf['source']['base-url'] = 'http://cubicweb2.com/'
metainf['extid'] = 1234
self.assertEqual(note.absolute_url(), 'http://cubicweb2.com/note/1234')
def test_absolute_url_empty_field(self):
req = self.request()
card = req.create_entity('Card', wikiid=u'', title=u'test')
self.assertEqual(card.absolute_url(),
'http://testing.fr/cubicweb/%s' % card.eid)
def test_create_and_compare_entity(self):
req = self.request()
p1 = req.create_entity('Personne', nom=u'fayolle', prenom=u'alexandre')
p2 = req.create_entity('Personne', nom=u'campeas', prenom=u'aurelien')
note = req.create_entity('Note', type=u'z')
req = self.request()
p = req.create_entity('Personne', nom=u'di mascio', prenom=u'adrien',
connait=p1, evaluee=[p1, p2],
reverse_ecrit_par=note)
self.assertEqual(p.nom, 'di mascio')
self.assertEqual([c.nom for c in p.connait], ['fayolle'])
self.assertEqual(sorted([c.nom for c in p.evaluee]), ['campeas', 'fayolle'])
self.assertEqual([c.type for c in p.reverse_ecrit_par], ['z'])
req = self.request()
auc = req.execute('Personne P WHERE P prenom "aurelien"').get_entity(0,0)
persons = set()
persons.add(p1)
persons.add(p2)
persons.add(auc)
self.assertEqual(2, len(persons))
self.assertNotEqual(p1, p2)
self.assertEqual(p2, auc)
if __name__ == '__main__':
from logilab.common.testlib import unittest_main
unittest_main()