[migration] fix add_relation_type() for symmetric relations
To check if the corresponding SQL table has to created, CWRelationAddOp
tests that the tablename is not in the 'createdtables' session variable
(i.e. the table hasn't been created before in the same transaction) and
that len(rschema.rdefs) is not greater to 1, that is the relation already
existed in the database before this transaction.
In case of symmetric relations, len(rschema).rdefs will be at least 2
since rdefs will store both (subj, obj) and (obj, subj) relation
definitions.
# copyright 2003-2010 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/>.
"""cubicweb.server.sources.ldapusers unit and functional tests
"""
import socket
from logilab.common.testlib import TestCase, unittest_main, mock_object
from cubicweb.devtools import TestServerConfiguration
from cubicweb.devtools.testlib import CubicWebTC
from cubicweb.devtools.repotest import RQLGeneratorTC
from cubicweb.server.sources.ldapuser import *
if '17.1' in socket.gethostbyname('ldap1'):
SYT = 'syt'
ADIM = 'adim'
else:
SYT = 'sthenault'
ADIM = 'adimascio'
def nopwd_authenticate(self, session, login, password):
"""used to monkey patch the source to get successful authentication without
upassword checking
"""
assert login, 'no login!'
searchfilter = [filter_format('(%s=%s)', (self.user_login_attr, login))]
searchfilter.extend([filter_format('(%s=%s)', ('objectClass', o))
for o in self.user_classes])
searchstr = '(&%s)' % ''.join(searchfilter)
# first search the user
try:
user = self._search(session, self.user_base_dn, self.user_base_scope,
searchstr)[0]
except IndexError:
# no such user
raise AuthenticationError()
# don't check upassword !
return self.extid2eid(user['dn'], 'CWUser', session)
class LDAPUserSourceTC(CubicWebTC):
config = TestServerConfiguration('data')
config.sources_file = lambda : 'data/sourcesldap'
def patch_authenticate(self):
self._orig_authenticate = LDAPUserSource.authenticate
LDAPUserSource.authenticate = nopwd_authenticate
def setup_database(self):
# XXX: need this first query else we get 'database is locked' from
# sqlite since it doesn't support multiple connections on the same
# database
# so doing, ldap inserted users don't get removed between each test
rset = self.sexecute('CWUser X')
# check we get some users from ldap
self.assert_(len(rset) > 1)
def tearDown(self):
if hasattr(self, '_orig_authenticate'):
LDAPUserSource.authenticate = self._orig_authenticate
CubicWebTC.tearDown(self)
def test_authenticate(self):
source = self.repo.sources_by_uri['ldapuser']
self.session.set_pool()
self.assertRaises(AuthenticationError,
source.authenticate, self.session, 'toto', 'toto')
def test_synchronize(self):
source = self.repo.sources_by_uri['ldapuser']
source.synchronize()
def test_base(self):
# check a known one
e = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT}).get_entity(0, 0)
self.assertEquals(e.login, SYT)
e.complete()
self.assertEquals(e.creation_date, None)
self.assertEquals(e.modification_date, None)
self.assertEquals(e.firstname, None)
self.assertEquals(e.surname, None)
self.assertEquals(e.in_group[0].name, 'users')
self.assertEquals(e.owned_by[0].login, SYT)
self.assertEquals(e.created_by, ())
self.assertEquals(e.primary_email[0].address, 'Sylvain Thenault')
# email content should be indexed on the user
rset = self.sexecute('CWUser X WHERE X has_text "thenault"')
self.assertEquals(rset.rows, [[e.eid]])
def test_not(self):
eid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
rset = self.sexecute('CWUser X WHERE NOT X eid %s' % eid)
self.assert_(rset)
self.assert_(not eid in (r[0] for r in rset))
def test_multiple(self):
seid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
aeid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': ADIM})[0][0]
rset = self.sexecute('CWUser X, Y WHERE X login %(syt)s, Y login %(adim)s',
{'syt': SYT, 'adim': ADIM})
self.assertEquals(rset.rows, [[seid, aeid]])
rset = self.sexecute('Any X,Y,L WHERE X login L, X login %(syt)s, Y login %(adim)s',
{'syt': SYT, 'adim': ADIM})
self.assertEquals(rset.rows, [[seid, aeid, SYT]])
def test_in(self):
seid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
aeid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': ADIM})[0][0]
rset = self.sexecute('Any X,L ORDERBY L WHERE X login IN("%s", "%s"), X login L' % (SYT, ADIM))
self.assertEquals(rset.rows, [[aeid, ADIM], [seid, SYT]])
def test_relations(self):
eid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
rset = self.sexecute('Any X,E WHERE X is CWUser, X login L, X primary_email E')
self.assert_(eid in (r[0] for r in rset))
rset = self.sexecute('Any X,L,E WHERE X is CWUser, X login L, X primary_email E')
self.assert_(SYT in (r[1] for r in rset))
def test_count(self):
nbusers = self.sexecute('Any COUNT(X) WHERE X is CWUser')[0][0]
# just check this is a possible number
self.assert_(nbusers > 1, nbusers)
self.assert_(nbusers < 30, nbusers)
def test_upper(self):
eid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
rset = self.sexecute('Any UPPER(L) WHERE X eid %s, X login L' % eid)
self.assertEquals(rset[0][0], SYT.upper())
def test_unknown_attr(self):
eid = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT})[0][0]
rset = self.sexecute('Any L,C,M WHERE X eid %s, X login L, '
'X creation_date C, X modification_date M' % eid)
self.assertEquals(rset[0][0], SYT)
self.assertEquals(rset[0][1], None)
self.assertEquals(rset[0][2], None)
def test_sort(self):
logins = [l for l, in self.sexecute('Any L ORDERBY L WHERE X login L')]
self.assertEquals(logins, sorted(logins))
def test_lower_sort(self):
logins = [l for l, in self.sexecute('Any L ORDERBY lower(L) WHERE X login L')]
self.assertEquals(logins, sorted(logins))
def test_or(self):
rset = self.sexecute('DISTINCT Any X WHERE X login %(login)s OR (X in_group G, G name "managers")',
{'login': SYT})
self.assertEquals(len(rset), 2, rset.rows) # syt + admin
def test_nonregr_set_owned_by(self):
# test that when a user coming from ldap is triggering a transition
# the related TrInfo has correct owner information
self.sexecute('SET X in_group G WHERE X login %(syt)s, G name "managers"', {'syt': SYT})
self.commit()
syt = self.sexecute('CWUser X WHERE X login %(login)s', {'login': SYT}).get_entity(0, 0)
self.assertEquals([g.name for g in syt.in_group], ['managers', 'users'])
self.patch_authenticate()
cnx = self.login(SYT, password='dummypassword')
cu = cnx.cursor()
adim = cu.execute('CWUser X WHERE X login %(login)s', {'login': ADIM}).get_entity(0, 0)
iworkflowable = adim.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
try:
cnx.commit()
adim.clear_all_caches()
self.assertEquals(adim.in_state[0].name, 'deactivated')
trinfo = iworkflowable.latest_trinfo()
self.assertEquals(trinfo.owned_by[0].login, SYT)
# select from_state to skip the user's creation TrInfo
rset = self.sexecute('Any U ORDERBY D DESC WHERE WF wf_info_for X,'
'WF creation_date D, WF from_state FS,'
'WF owned_by U?, X eid %(x)s',
{'x': adim.eid})
self.assertEquals(rset.rows, [[syt.eid]])
finally:
# restore db state
self.restore_connection()
adim = self.sexecute('CWUser X WHERE X login %(login)s', {'login': ADIM}).get_entity(0, 0)
adim.cw_adapt_to('IWorkflowable').fire_transition('activate')
self.sexecute('DELETE X in_group G WHERE X login %(syt)s, G name "managers"', {'syt': SYT})
def test_same_column_names(self):
self.sexecute('Any X, Y WHERE X copain Y, X login "comme", Y login "cochon"')
def test_multiple_entities_from_different_sources(self):
self.create_user('cochon')
self.failUnless(self.sexecute('Any X,Y WHERE X login %(syt)s, Y login "cochon"', {'syt': SYT}))
def test_exists1(self):
self.session.set_pool()
self.session.create_entity('CWGroup', name=u'bougloup1')
self.session.create_entity('CWGroup', name=u'bougloup2')
self.sexecute('SET U in_group G WHERE G name ~= "bougloup%", U login "admin"')
self.sexecute('SET U in_group G WHERE G name = "bougloup1", U login %(syt)s', {'syt': SYT})
rset = self.sexecute('Any L,SN ORDERBY L WHERE X in_state S, S name SN, X login L, EXISTS(X in_group G, G name ~= "bougloup%")')
self.assertEquals(rset.rows, [['admin', 'activated'], [SYT, 'activated']])
def test_exists2(self):
self.create_user('comme')
self.create_user('cochon')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "cochon"')
rset = self.sexecute('Any GN ORDERBY GN WHERE X in_group G, G name GN, (G name "managers" OR EXISTS(X copain T, T login in ("comme", "cochon")))')
self.assertEquals(rset.rows, [['managers'], ['users']])
def test_exists3(self):
self.create_user('comme')
self.create_user('cochon')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "cochon"')
self.failUnless(self.sexecute('Any X, Y WHERE X copain Y, X login "comme", Y login "cochon"'))
self.sexecute('SET X copain Y WHERE X login %(syt)s, Y login "cochon"', {'syt': SYT})
self.failUnless(self.sexecute('Any X, Y WHERE X copain Y, X login %(syt)s, Y login "cochon"', {'syt': SYT}))
rset = self.sexecute('Any GN,L WHERE X in_group G, X login L, G name GN, G name "managers" OR EXISTS(X copain T, T login in ("comme", "cochon"))')
self.assertEquals(sorted(rset.rows), [['managers', 'admin'], ['users', 'comme'], ['users', SYT]])
def test_exists4(self):
self.create_user('comme')
self.create_user('cochon', groups=('users', 'guests'))
self.create_user('billy')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "cochon"')
self.sexecute('SET X copain Y WHERE X login "cochon", Y login "cochon"')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "billy"')
self.sexecute('SET X copain Y WHERE X login %(syt)s, Y login "billy"', {'syt': SYT})
# search for group name, login where
# CWUser copain with "comme" or "cochon" AND same login as the copain
# OR
# CWUser in_state activated AND not copain with billy
#
# SO we expect everybody but "comme" and "syt"
rset= self.sexecute('Any GN,L WHERE X in_group G, X login L, G name GN, '
'EXISTS(X copain T, T login L, T login in ("comme", "cochon")) OR '
'EXISTS(X in_state S, S name "activated", NOT X copain T2, T2 login "billy")')
all = self.sexecute('Any GN, L WHERE X in_group G, X login L, G name GN')
all.rows.remove(['users', 'comme'])
all.rows.remove(['users', SYT])
self.assertEquals(sorted(rset.rows), sorted(all.rows))
def test_exists5(self):
self.create_user('comme')
self.create_user('cochon', groups=('users', 'guests'))
self.create_user('billy')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "cochon"')
self.sexecute('SET X copain Y WHERE X login "cochon", Y login "cochon"')
self.sexecute('SET X copain Y WHERE X login "comme", Y login "billy"')
self.sexecute('SET X copain Y WHERE X login %(syt)s, Y login "cochon"', {'syt': SYT})
rset= self.sexecute('Any L WHERE X login L, '
'EXISTS(X copain T, T login in ("comme", "cochon")) AND '
'NOT EXISTS(X copain T2, T2 login "billy")')
self.assertEquals(sorted(rset.rows), [['cochon'], [SYT]])
rset= self.sexecute('Any GN,L WHERE X in_group G, X login L, G name GN, '
'EXISTS(X copain T, T login in ("comme", "cochon")) AND '
'NOT EXISTS(X copain T2, T2 login "billy")')
self.assertEquals(sorted(rset.rows), [['guests', 'cochon'],
['users', 'cochon'],
['users', SYT]])
def test_cd_restriction(self):
rset = self.sexecute('CWUser X WHERE X creation_date > "2009-02-01"')
# admin/anon but no ldap user since it doesn't support creation_date
self.assertEquals(sorted(e.login for e in rset.entities()),
['admin', 'anon'])
def test_union(self):
afeids = self.sexecute('State X')
ueids = self.sexecute('CWUser X')
rset = self.sexecute('(Any X WHERE X is State) UNION (Any X WHERE X is CWUser)')
self.assertEquals(sorted(r[0] for r in rset.rows),
sorted(r[0] for r in afeids + ueids))
def _init_security_test(self):
self.create_user('iaminguestsgrouponly', groups=('guests',))
cnx = self.login('iaminguestsgrouponly')
return cnx.cursor()
def test_security1(self):
cu = self._init_security_test()
rset = cu.execute('CWUser X WHERE X login %(login)s', {'login': SYT})
self.assertEquals(rset.rows, [])
rset = cu.execute('Any X WHERE X login "iaminguestsgrouponly"')
self.assertEquals(len(rset.rows), 1)
def test_security2(self):
cu = self._init_security_test()
rset = cu.execute('Any X WHERE X has_text %(syt)s', {'syt': SYT})
self.assertEquals(rset.rows, [])
rset = cu.execute('Any X WHERE X has_text "iaminguestsgrouponly"')
self.assertEquals(len(rset.rows), 1)
def test_security3(self):
cu = self._init_security_test()
rset = cu.execute('Any F WHERE X has_text %(syt)s, X firstname F', {'syt': SYT})
self.assertEquals(rset.rows, [])
rset = cu.execute('Any F WHERE X has_text "iaminguestsgrouponly", X firstname F')
self.assertEquals(rset.rows, [[None]])
def test_nonregr1(self):
self.sexecute('Any X,AA ORDERBY AA DESC WHERE E eid %(x)s, E owned_by X, '
'X modification_date AA',
{'x': self.session.user.eid})
def test_nonregr2(self):
self.sexecute('Any X,L,AA WHERE E eid %(x)s, E owned_by X, '
'X login L, X modification_date AA',
{'x': self.session.user.eid})
def test_nonregr3(self):
self.sexecute('Any X,AA ORDERBY AA DESC WHERE E eid %(x)s, '
'X modification_date AA',
{'x': self.session.user.eid})
def test_nonregr4(self):
emaileid = self.sexecute('INSERT EmailAddress X: X address "toto@logilab.org"')[0][0]
self.sexecute('Any X,AA WHERE X use_email Y, Y eid %(x)s, X modification_date AA',
{'x': emaileid})
def test_nonregr5(self):
# original jpl query:
# Any X, NOW - CD, P WHERE P is Project, U interested_in P, U is CWUser, U login "sthenault", X concerns P, X creation_date CD ORDERBY CD DESC LIMIT 5
rql = 'Any X, NOW - CD, P ORDERBY CD DESC LIMIT 5 WHERE P bookmarked_by U, U login "%s", P is X, X creation_date CD' % self.session.user.login
self.sexecute(rql, )#{'x': })
def test_nonregr6(self):
self.sexecute('Any B,U,UL GROUPBY B,U,UL WHERE B created_by U?, B is File '
'WITH U,UL BEING (Any U,UL WHERE ME eid %(x)s, (EXISTS(U identity ME) '
'OR (EXISTS(U in_group G, G name IN("managers", "staff")))) '
'OR (EXISTS(U in_group H, ME in_group H, NOT H name "users")), U login UL, U is CWUser)',
{'x': self.session.user.eid})
class GlobTrFuncTC(TestCase):
def test_count(self):
trfunc = GlobTrFunc('count', 0)
res = trfunc.apply([[1], [2], [3], [4]])
self.assertEquals(res, [[4]])
trfunc = GlobTrFunc('count', 1)
res = trfunc.apply([[1, 2], [2, 4], [3, 6], [1, 5]])
self.assertEquals(res, [[1, 2], [2, 1], [3, 1]])
def test_sum(self):
trfunc = GlobTrFunc('sum', 0)
res = trfunc.apply([[1], [2], [3], [4]])
self.assertEquals(res, [[10]])
trfunc = GlobTrFunc('sum', 1)
res = trfunc.apply([[1, 2], [2, 4], [3, 6], [1, 5]])
self.assertEquals(res, [[1, 7], [2, 4], [3, 6]])
def test_min(self):
trfunc = GlobTrFunc('min', 0)
res = trfunc.apply([[1], [2], [3], [4]])
self.assertEquals(res, [[1]])
trfunc = GlobTrFunc('min', 1)
res = trfunc.apply([[1, 2], [2, 4], [3, 6], [1, 5]])
self.assertEquals(res, [[1, 2], [2, 4], [3, 6]])
def test_max(self):
trfunc = GlobTrFunc('max', 0)
res = trfunc.apply([[1], [2], [3], [4]])
self.assertEquals(res, [[4]])
trfunc = GlobTrFunc('max', 1)
res = trfunc.apply([[1, 2], [2, 4], [3, 6], [1, 5]])
self.assertEquals(res, [[1, 5], [2, 4], [3, 6]])
# XXX
LDAPUserSourceTC._init_repo()
repo = LDAPUserSourceTC.repo
def teardown_module(*args):
global repo
del repo
del RQL2LDAPFilterTC.schema
class RQL2LDAPFilterTC(RQLGeneratorTC):
schema = repo.schema
def setUp(self):
RQLGeneratorTC.setUp(self)
ldapsource = repo.sources[-1]
self.pool = repo._get_pool()
session = mock_object(pool=self.pool)
self.o = RQL2LDAPFilter(ldapsource, session)
def tearDown(self):
repo._free_pool(self.pool)
RQLGeneratorTC.tearDown(self)
def test_base(self):
rqlst = self._prepare('CWUser X WHERE X login "toto"').children[0]
self.assertEquals(self.o.generate(rqlst, 'X')[1],
'(&(objectClass=top)(objectClass=posixAccount)(uid=toto))')
def test_kwargs(self):
rqlst = self._prepare('CWUser X WHERE X login %(x)s').children[0]
self.o._args = {'x': "toto"}
self.assertEquals(self.o.generate(rqlst, 'X')[1],
'(&(objectClass=top)(objectClass=posixAccount)(uid=toto))')
def test_get_attr(self):
rqlst = self._prepare('Any X WHERE E firstname X, E eid 12').children[0]
self.assertRaises(UnknownEid, self.o.generate, rqlst, 'E')
if __name__ == '__main__':
unittest_main()