[repo transaction] fix rollback behaviour as discussed on the mailing-list: instead of rollbacking automatically on Unauthorized/ValidationError, mark the transaction as uncommitable and disallow commiting
# 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/>.
from logilab.common.decorators import clear_cache
from cubicweb.devtools import init_test_database
from cubicweb.devtools.repotest import BasePlannerTC, test_plan
class _SetGenerator(object):
"""singleton to easily create set using "s[0]" or "s[0,1,2]" for instance
"""
def __getitem__(self, key):
try:
it = iter(key)
except TypeError:
it = (key,)
return set(it)
s = _SetGenerator()
from cubicweb.schema import ERQLExpression
from cubicweb.server.sources import AbstractSource
from cubicweb.server.msplanner import MSPlanner, PartPlanInformation
class FakeUserROSource(AbstractSource):
uri = 'zzz'
support_entities = {'CWUser': False}
support_relations = {}
def syntax_tree_search(self, *args, **kwargs):
return []
class FakeCardSource(AbstractSource):
uri = 'ccc'
support_entities = {'Card': True, 'Note': True, 'State': True}
support_relations = {'in_state': True, 'multisource_rel': True, 'multisource_inlined_rel': True,
'multisource_crossed_rel': True,}
dont_cross_relations = set(('fiche', 'state_of'))
cross_relations = set(('multisource_crossed_rel',))
def syntax_tree_search(self, *args, **kwargs):
return []
X_ALL_SOLS = sorted([{'X': 'Affaire'}, {'X': 'BaseTransition'}, {'X': 'Basket'},
{'X': 'Bookmark'}, {'X': 'CWAttribute'}, {'X': 'CWCache'},
{'X': 'CWConstraint'}, {'X': 'CWConstraintType'}, {'X': 'CWEType'},
{'X': 'CWGroup'}, {'X': 'CWPermission'}, {'X': 'CWProperty'},
{'X': 'CWRType'}, {'X': 'CWRelation'}, {'X': 'CWUser'},
{'X': 'CWUniqueTogetherConstraint'},
{'X': 'Card'}, {'X': 'Comment'}, {'X': 'Division'},
{'X': 'Email'}, {'X': 'EmailAddress'}, {'X': 'EmailPart'},
{'X': 'EmailThread'}, {'X': 'ExternalUri'}, {'X': 'File'},
{'X': 'Folder'}, {'X': 'Note'},
{'X': 'Personne'}, {'X': 'RQLExpression'}, {'X': 'Societe'},
{'X': 'State'}, {'X': 'SubDivision'}, {'X': 'SubWorkflowExitPoint'},
{'X': 'Tag'}, {'X': 'TrInfo'}, {'X': 'Transition'},
{'X': 'Workflow'}, {'X': 'WorkflowTransition'}])
# keep cnx so it's not garbage collected and the associated session is closed
repo, cnx = init_test_database()
def teardown_module(*args):
global repo, cnx
del repo, cnx
class BaseMSPlannerTC(BasePlannerTC):
"""test planner related feature on a 3-sources repository:
* system source supporting everything
* ldap source supporting CWUser
* rql source supporting Card
"""
repo = repo
def setUp(self):
#_QuerierTC.setUp(self)
self.setup()
# hijack Affaire security
affreadperms = list(self.schema['Affaire'].permissions['read'])
self.prevrqlexpr_affaire = affreadperms[-1]
# add access to type attribute so S can't be invariant
affreadperms[-1] = ERQLExpression('X concerne S?, S owned_by U, S type "X"')
self.schema['Affaire'].set_action_permissions('read', affreadperms)
# hijack CWUser security
userreadperms = list(self.schema['CWUser'].permissions['read'])
self.prevrqlexpr_user = userreadperms[-1]
userreadperms[-1] = ERQLExpression('X owned_by U')
self.schema['CWUser'].set_action_permissions('read', userreadperms)
self.add_source(FakeUserROSource, 'ldap')
self.add_source(FakeCardSource, 'cards')
def tearDown(self):
# restore hijacked security
self.restore_orig_affaire_security()
self.restore_orig_cwuser_security()
super(BaseMSPlannerTC, self).tearDown()
def restore_orig_affaire_security(self):
affreadperms = list(self.schema['Affaire'].permissions['read'])
affreadperms[-1] = self.prevrqlexpr_affaire
self.schema['Affaire'].set_action_permissions('read', affreadperms)
def restore_orig_cwuser_security(self):
if hasattr(self, '_orig_cwuser_security_restored'):
return
self._orig_cwuser_security_restored = True
userreadperms = list(self.schema['CWUser'].permissions['read'])
userreadperms[-1] = self.prevrqlexpr_user
self.schema['CWUser'].set_action_permissions('read', userreadperms)
class PartPlanInformationTC(BaseMSPlannerTC):
def _test(self, rql, *args):
if len(args) == 3:
kwargs, sourcesterms, needsplit = args
else:
sourcesterms, needsplit = args
kwargs = None
plan = self._prepare_plan(rql, kwargs)
union = plan.rqlst
plan.preprocess(union)
ppi = PartPlanInformation(plan, union.children[0])
for sourcevars in ppi._sourcesterms.itervalues():
for var in sourcevars.keys():
solindices = sourcevars.pop(var)
sourcevars[var._ms_table_key()] = solindices
self.assertEqual(ppi._sourcesterms, sourcesterms)
self.assertEqual(ppi.needsplit, needsplit)
def test_simple_system_only(self):
"""retrieve entities only supported by the system source"""
self._test('CWGroup X',
{self.system: {'X': s[0]}}, False)
def test_simple_system_ldap(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
self._test('CWUser X',
{self.system: {'X': s[0]}, self.ldap: {'X': s[0]}}, False)
def test_simple_system_rql(self):
"""retrieve Card X from both sources and return concatenation of results
"""
self._test('Any X, XT WHERE X is Card, X title XT',
{self.system: {'X': s[0]}, self.cards: {'X': s[0]}}, False)
def test_simple_eid_specified(self):
"""retrieve CWUser X from system source (eid is specified, can locate the entity)
"""
ueid = self.session.user.eid
self._test('Any X,L WHERE X eid %(x)s, X login L', {'x': ueid},
{self.system: {'X': s[0]}}, False)
def test_simple_eid_invariant(self):
"""retrieve CWUser X from system source (eid is specified, can locate the entity)
"""
ueid = self.session.user.eid
self._test('Any X WHERE X eid %(x)s', {'x': ueid},
{self.system: {'x': s[0]}}, False)
def test_simple_invariant(self):
"""retrieve CWUser X from system source only (X is invariant and in_group not supported by ldap source)
"""
self._test('Any X WHERE X is CWUser, X in_group G, G name "users"',
{self.system: {'X': s[0], 'G': s[0], 'in_group': s[0]}}, False)
def test_security_has_text(self):
"""retrieve CWUser X from system source only (has_text not supported by ldap source)
"""
# specify CWUser instead of any since the way this test is written we aren't well dealing
# with ambigous query (eg only considering the first solution)
self._test('CWUser X WHERE X has_text "bla"',
{self.system: {'X': s[0]}}, False)
def test_complex_base(self):
"""
1. retrieve Any X, L WHERE X is CWUser, X login L from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X, L WHERE X is TMP, X login L, X in_group G,
G name 'users' on the system source
"""
self._test('Any X,L WHERE X is CWUser, X in_group G, X login L, G name "users"',
{self.system: {'X': s[0], 'G': s[0], 'in_group': s[0]},
self.ldap : {'X': s[0]}}, True)
def test_complex_invariant_ordered(self):
"""
1. retrieve Any X,AA WHERE X modification_date AA from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X,AA ORDERBY AA WHERE %s owned_by X, X modification_date AA
on the system source
"""
ueid = self.session.user.eid
self._test('Any X,AA ORDERBY AA WHERE E eid %(x)s, E owned_by X, X modification_date AA', {'x': ueid},
{self.system: {'x': s[0], 'X': s[0], 'owned_by': s[0]},
self.ldap : {'X': s[0]}}, True)
def test_complex_invariant(self):
"""
1. retrieve Any X,L,AA WHERE X login L, X modification_date AA from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X,L,AA WHERE %s owned_by X, X login L, X modification_date AA
on the system source
"""
ueid = self.session.user.eid
self._test('Any X,L,AA WHERE E eid %(x)s, E owned_by X, X login L, X modification_date AA', {'x': ueid},
{self.system: {'x': s[0], 'X': s[0], 'owned_by': s[0]},
self.ldap : {'X': s[0]}}, True)
def test_complex_ambigous(self):
"""retrieve CWUser X from system and ldap sources, Person X from system source only
"""
self._test('Any X,F WHERE X firstname F',
{self.system: {'X': s[0, 1]},
self.ldap: {'X': s[0]}}, True)
def test_complex_multiple(self):
"""
1. retrieve Any X,A,Y,B WHERE X login A, Y login B from system and ldap sources, store
cartesian product of results into a temporary table
2. return the result of Any X,Y WHERE X login 'syt', Y login 'adim'
on the system source
"""
ueid = self.session.user.eid
self._test('Any X,Y WHERE X login "syt", Y login "adim"', {'x': ueid},
{self.system: {'Y': s[0], 'X': s[0]},
self.ldap: {'Y': s[0], 'X': s[0]}}, True)
def test_complex_aggregat(self):
solindexes = set(range(len([e for e in self.schema.entities() if not e.final])))
self._test('Any MAX(X)',
{self.system: {'X': solindexes}}, False)
def test_complex_optional(self):
ueid = self.session.user.eid
self._test('Any U WHERE WF wf_info_for X, X eid %(x)s, WF owned_by U?, WF from_state FS', {'x': ueid},
{self.system: {'WF': s[0], 'FS': s[0], 'U': s[0],
'from_state': s[0], 'owned_by': s[0], 'wf_info_for': s[0],
'x': s[0]}},
False)
def test_exists4(self):
"""
State S could come from both rql source and system source,
but since X cannot come from the rql source, the solution
{self.cards : 'S'} must be removed
"""
self._test('Any G,L WHERE X in_group G, X login L, G name "managers", '
'EXISTS(X copain T, T login L, T login in ("comme", "cochon")) OR '
'EXISTS(X in_state S, S name "pascontent", NOT X copain T2, T2 login "billy")',
{self.system: {'X': s[0], 'S': s[0], 'T2': s[0], 'T': s[0], 'G': s[0], 'copain': s[0], 'in_group': s[0]},
self.ldap: {'X': s[0], 'T2': s[0], 'T': s[0]}},
True)
def test_relation_need_split(self):
self._test('Any X, S WHERE X in_state S',
{self.system: {'X': s[0, 1, 2], 'S': s[0, 1, 2]},
self.cards: {'X': s[2], 'S': s[2]}},
True)
def test_not_relation_need_split(self):
self._test('Any SN WHERE NOT X in_state S, S name SN',
{self.cards: {'X': s[2], 'S': s[0, 1, 2]},
self.system: {'X': s[0, 1, 2], 'S': s[0, 1, 2]}},
True)
def test_not_relation_no_split_external(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
# similar to the above test but with an eid coming from the external source.
# the same plan may be used, since we won't find any record in the system source
# linking 9999999 to a state
self._test('Any SN WHERE NOT X in_state S, X eid %(x)s, S name SN',
{'x': 999999},
{self.cards: {'x': s[0], 'S': s[0]},
self.system: {'x': s[0], 'S': s[0]}},
False)
def test_relation_restriction_ambigous_need_split(self):
self._test('Any X,T WHERE X in_state S, S name "pending", T tags X',
{self.system: {'X': s[0, 1, 2], 'S': s[0, 1, 2], 'T': s[0, 1, 2], 'tags': s[0, 1, 2]},
self.cards: {'X': s[2], 'S': s[2]}},
True)
def test_simplified_var(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any U WHERE U in_group G, (G name IN ("managers", "logilab") OR (X require_permission P?, P name "bla", P require_group G)), X eid %(x)s, U eid %(u)s',
{'x': 999999, 'u': self.session.user.eid},
{self.system: {'P': s[0], 'G': s[0], 'X': s[0],
'require_permission': s[0], 'in_group': s[0], 'P': s[0], 'require_group': s[0],
'u': s[0]}},
False)
def test_delete_relation1(self):
ueid = self.session.user.eid
self._test('Any X, Y WHERE X created_by Y, X eid %(x)s, NOT Y eid %(y)s',
{'x': ueid, 'y': ueid},
{self.system: {'Y': s[0], 'created_by': s[0], 'x': s[0]}},
False)
def test_crossed_relation_eid_1_needattr(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
ueid = self.session.user.eid
self._test('Any Y,T WHERE X eid %(x)s, X multisource_crossed_rel Y, Y type T',
{'x': 999999,},
{self.cards: {'Y': s[0]}, self.system: {'Y': s[0], 'x': s[0]}},
True)
def test_crossed_relation_eid_1_invariant(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any Y WHERE X eid %(x)s, X multisource_crossed_rel Y',
{'x': 999999},
{self.system: {'Y': s[0], 'x': s[0]}},
False)
def test_crossed_relation_eid_2_invariant(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any Y WHERE X eid %(x)s, X multisource_crossed_rel Y',
{'x': 999999,},
{self.cards: {'Y': s[0], 'multisource_crossed_rel': s[0], 'x': s[0]},
self.system: {'Y': s[0], 'multisource_crossed_rel': s[0], 'x': s[0]}},
False)
def test_version_crossed_depends_on_1(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X,AD,AE WHERE E eid %(x)s, E multisource_crossed_rel X, X in_state AD, AD name AE',
{'x': 999999},
{self.cards: {'X': s[0], 'AD': s[0], 'multisource_crossed_rel': s[0], 'x': s[0]},
self.system: {'X': s[0], 'AD': s[0], 'multisource_crossed_rel': s[0], 'x': s[0]}},
True)
def test_version_crossed_depends_on_2(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any X,AD,AE WHERE E eid %(x)s, E multisource_crossed_rel X, X in_state AD, AD name AE',
{'x': 999999},
{self.cards: {'X': s[0], 'AD': s[0]},
self.system: {'X': s[0], 'AD': s[0], 'x': s[0]}},
True)
def test_simplified_var_3(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'cards', 999998)
self._test('Any S,T WHERE S eid %(s)s, N eid %(n)s, N type T, N is Note, S is State',
{'n': 999999, 's': 999998},
{self.cards: {'s': s[0], 'N': s[0]}}, False)
class MSPlannerTC(BaseMSPlannerTC):
def setUp(self):
BaseMSPlannerTC.setUp(self)
self.planner = MSPlanner(self.o.schema, self.repo.vreg.rqlhelper)
for cached in ('rel_type_sources', 'can_cross_relation', 'is_multi_sources_relation'):
clear_cache(self.repo, cached)
_test = test_plan
def test_simple_system_only(self):
"""retrieve entities only supported by the system source
"""
self._test('CWGroup X',
[('OneFetchStep', [('Any X WHERE X is CWGroup', [{'X': 'CWGroup'}])],
None, None, [self.system], {}, [])])
def test_simple_system_only_limit(self):
"""retrieve entities only supported by the system source
"""
self._test('CWGroup X LIMIT 10',
[('OneFetchStep', [('Any X LIMIT 10 WHERE X is CWGroup', [{'X': 'CWGroup'}])],
10, None, [self.system], {}, [])])
def test_simple_system_only_limit_offset(self):
"""retrieve entities only supported by the system source
"""
self._test('CWGroup X LIMIT 10 OFFSET 10',
[('OneFetchStep', [('Any X LIMIT 10 OFFSET 10 WHERE X is CWGroup', [{'X': 'CWGroup'}])],
10, 10, [self.system], {}, [])])
def test_simple_system_ldap(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
self._test('CWUser X',
[('OneFetchStep', [('Any X WHERE X is CWUser', [{'X': 'CWUser'}])],
None, None, [self.ldap, self.system], {}, [])])
def test_simple_system_ldap_limit(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
self._test('CWUser X LIMIT 10',
[('OneFetchStep', [('Any X LIMIT 10 WHERE X is CWUser', [{'X': 'CWUser'}])],
10, None, [self.ldap, self.system], {}, [])])
def test_simple_system_ldap_limit_offset(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
self._test('CWUser X LIMIT 10 OFFSET 10',
[('OneFetchStep', [('Any X LIMIT 10 OFFSET 10 WHERE X is CWUser', [{'X': 'CWUser'}])],
10, 10, [self.ldap, self.system], {}, [])])
def test_simple_system_ldap_ordered_limit_offset(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
self._test('CWUser X ORDERBY X LIMIT 10 OFFSET 10',
[('AggrStep', 'SELECT table0.C0 FROM table0 ORDER BY table0.C0 LIMIT 10 OFFSET 10', None, [
('FetchStep', [('Any X WHERE X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], {}, {'X': 'table0.C0'}, []),
]),
])
def test_simple_system_ldap_aggregat(self):
"""retrieve CWUser X from both sources and return concatenation of results
"""
# COUNT(X) is kept in sub-step and transformed into SUM(X) in the AggrStep
self._test('Any COUNT(X) WHERE X is CWUser',
[('AggrStep', 'SELECT SUM(table0.C0) FROM table0', None, [
('FetchStep', [('Any COUNT(X) WHERE X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], {}, {'COUNT(X)': 'table0.C0'}, []),
]),
])
def test_simple_system_rql(self):
"""retrieve Card X from both sources and return concatenation of results
"""
self._test('Any X, XT WHERE X is Card, X title XT',
[('OneFetchStep', [('Any X,XT WHERE X is Card, X title XT', [{'X': 'Card', 'XT': 'String'}])],
None, None, [self.cards, self.system], {}, [])])
def test_simple_eid_specified(self):
"""retrieve CWUser X from system source (eid is specified, can locate the entity)
"""
ueid = self.session.user.eid
self._test('Any X,L WHERE X eid %(x)s, X login L',
[('OneFetchStep', [('Any X,L WHERE X eid %s, X login L'%ueid, [{'X': 'CWUser', 'L': 'String'}])],
None, None, [self.system], {}, [])],
{'x': ueid})
def test_simple_eid_invariant(self):
"""retrieve CWUser X from system source (eid is specified, can locate the entity)
"""
ueid = self.session.user.eid
self._test('Any X WHERE X eid %(x)s',
[('OneFetchStep', [('Any %s'%ueid, [{}])],
None, None, [self.system], {}, [])],
{'x': ueid})
def test_simple_invariant(self):
"""retrieve CWUser X from system source only (X is invariant and in_group not supported by ldap source)
"""
self._test('Any X WHERE X is CWUser, X in_group G, G name "users"',
[('OneFetchStep', [('Any X WHERE X is CWUser, X in_group G, G name "users"',
[{'X': 'CWUser', 'G': 'CWGroup'}])],
None, None, [self.system], {}, [])])
def test_complex_base(self):
"""
1. retrieve Any X, L WHERE X is CWUser, X login L from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X, L WHERE X is TMP, X login LX in_group G,
G name 'users' on the system source
"""
self._test('Any X,L WHERE X is CWUser, X in_group G, X login L, G name "users"',
[('FetchStep', [('Any X,L WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, []),
('OneFetchStep', [('Any X,L WHERE X in_group G, X login L, G name "users", G is CWGroup, X is CWUser',
[{'X': 'CWUser', 'L': 'String', 'G': 'CWGroup'}])],
None, None, [self.system],
{'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, [])
])
def test_complex_base_limit_offset(self):
"""
1. retrieve Any X, L WHERE X is CWUser, X login L from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X, L WHERE X is TMP, X login LX in_group G,
G name 'users' on the system source
"""
self._test('Any X,L LIMIT 10 OFFSET 10 WHERE X is CWUser, X in_group G, X login L, G name "users"',
[('FetchStep', [('Any X,L WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, []),
('OneFetchStep', [('Any X,L LIMIT 10 OFFSET 10 WHERE X in_group G, X login L, G name "users", G is CWGroup, X is CWUser',
[{'X': 'CWUser', 'L': 'String', 'G': 'CWGroup'}])],
10, 10,
[self.system], {'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, [])
])
def test_complex_ordered(self):
self._test('Any L ORDERBY L WHERE X login L',
[('AggrStep', 'SELECT table0.C0 FROM table0 ORDER BY table0.C0', None,
[('FetchStep', [('Any L WHERE X login L, X is CWUser',
[{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], {}, {'X.login': 'table0.C0', 'L': 'table0.C0'}, []),
])
])
def test_complex_ordered_limit_offset(self):
self._test('Any L ORDERBY L LIMIT 10 OFFSET 10 WHERE X login L',
[('AggrStep', 'SELECT table0.C0 FROM table0 ORDER BY table0.C0 LIMIT 10 OFFSET 10', None,
[('FetchStep', [('Any L WHERE X login L, X is CWUser',
[{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], {}, {'X.login': 'table0.C0', 'L': 'table0.C0'}, []),
])
])
def test_complex_invariant_ordered(self):
"""
1. retrieve Any X,AA WHERE X modification_date AA from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X,AA ORDERBY AA WHERE %s owned_by X, X modification_date AA
on the system source
herrr, this is what is expected by the XXX :(, not the actual result (which is correct anyway)
"""
ueid = self.session.user.eid
self._test('Any X,AA ORDERBY AA WHERE E eid %(x)s, E owned_by X, X modification_date AA',
[('FetchStep',
[('Any X,AA WHERE X modification_date AA, X is CWUser',
[{'AA': 'Datetime', 'X': 'CWUser'}])],
[self.ldap, self.system], None,
{'AA': 'table0.C1', 'X': 'table0.C0', 'X.modification_date': 'table0.C1'}, []),
('OneFetchStep',
[('Any X,AA ORDERBY AA WHERE 5 owned_by X, X modification_date AA, X is CWUser',
[{'AA': 'Datetime', 'X': 'CWUser'}])],
None, None, [self.system],
{'AA': 'table0.C1', 'X': 'table0.C0', 'X.modification_date': 'table0.C1'}, []),
],
{'x': ueid})
def test_complex_invariant(self):
"""
1. retrieve Any X,L,AA WHERE X login L, X modification_date AA from system and ldap sources, store
concatenation of results into a temporary table
2. return the result of Any X,L,AA WHERE %s owned_by X, X login L, X modification_date AA
on the system source
"""
ueid = self.session.user.eid
self._test('Any X,L,AA WHERE E eid %(x)s, E owned_by X, X login L, X modification_date AA',
[('FetchStep', [('Any X,L,AA WHERE X login L, X modification_date AA, X is CWUser',
[{'AA': 'Datetime', 'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'AA': 'table0.C2', 'X': 'table0.C0', 'X.login': 'table0.C1', 'X.modification_date': 'table0.C2', 'L': 'table0.C1'}, []),
('OneFetchStep', [('Any X,L,AA WHERE %s owned_by X, X login L, X modification_date AA, X is CWUser'%ueid,
[{'AA': 'Datetime', 'X': 'CWUser', 'L': 'String'}])],
None, None, [self.system],
{'AA': 'table0.C2', 'X': 'table0.C0', 'X.login': 'table0.C1', 'X.modification_date': 'table0.C2', 'L': 'table0.C1'}, [])],
{'x': ueid})
def test_complex_ambigous(self):
"""retrieve CWUser X from system and ldap sources, Person X from system source only
"""
self._test('Any X,F WHERE X firstname F',
[('UnionStep', None, None, [
('OneFetchStep', [('Any X,F WHERE X firstname F, X is CWUser',
[{'X': 'CWUser', 'F': 'String'}])],
None, None, [self.ldap, self.system], {}, []),
('OneFetchStep', [('Any X,F WHERE X firstname F, X is Personne',
[{'X': 'Personne', 'F': 'String'}])],
None, None, [self.system], {}, []),
]),
])
def test_complex_ambigous_limit_offset(self):
"""retrieve CWUser X from system and ldap sources, Person X from system source only
"""
self._test('Any X,F LIMIT 10 OFFSET 10 WHERE X firstname F',
[('UnionStep', 10, 10, [
('OneFetchStep', [('Any X,F WHERE X firstname F, X is CWUser',
[{'X': 'CWUser', 'F': 'String'}])],
None, None,
[self.ldap, self.system], {}, []),
('OneFetchStep', [('Any X,F WHERE X firstname F, X is Personne',
[{'X': 'Personne', 'F': 'String'}])],
None, None, [self.system], {}, []),
]),
])
def test_complex_ambigous_ordered(self):
"""
1. retrieve CWUser X from system and ldap sources, Person X from system source only, store
each result in the same temp table
2. return content of the table sorted
"""
self._test('Any X,F ORDERBY F WHERE X firstname F',
[('AggrStep', 'SELECT table0.C0, table0.C1 FROM table0 ORDER BY table0.C1', None,
[('FetchStep', [('Any X,F WHERE X firstname F, X is CWUser',
[{'X': 'CWUser', 'F': 'String'}])],
[self.ldap, self.system], {},
{'X': 'table0.C0', 'X.firstname': 'table0.C1', 'F': 'table0.C1'}, []),
('FetchStep', [('Any X,F WHERE X firstname F, X is Personne',
[{'X': 'Personne', 'F': 'String'}])],
[self.system], {},
{'X': 'table0.C0', 'X.firstname': 'table0.C1', 'F': 'table0.C1'}, []),
]),
])
def test_complex_multiple(self):
"""
1. retrieve Any X,A,Y,B WHERE X login A, Y login B from system and ldap sources, store
cartesian product of results into a temporary table
2. return the result of Any X,Y WHERE X login 'syt', Y login 'adim'
on the system source
"""
ueid = self.session.user.eid
self._test('Any X,Y WHERE X login "syt", Y login "adim"',
[('FetchStep',
[('Any X WHERE X login "syt", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None,
{'X': 'table0.C0'}, []),
('FetchStep',
[('Any Y WHERE Y login "adim", Y is CWUser', [{'Y': 'CWUser'}])],
[self.ldap, self.system], None,
{'Y': 'table1.C0'}, []),
('OneFetchStep',
[('Any X,Y WHERE X is CWUser, Y is CWUser', [{'X': 'CWUser', 'Y': 'CWUser'}])],
None, None, [self.system],
{'X': 'table0.C0', 'Y': 'table1.C0'}, [])
], {'x': ueid})
def test_complex_multiple_limit_offset(self):
"""
1. retrieve Any X,A,Y,B WHERE X login A, Y login B from system and ldap sources, store
cartesian product of results into a temporary table
2. return the result of Any X,Y WHERE X login 'syt', Y login 'adim'
on the system source
"""
self._test('Any X,Y LIMIT 10 OFFSET 10 WHERE X login "syt", Y login "adim"',
[('FetchStep',
[('Any X WHERE X login "syt", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('FetchStep',
[('Any Y WHERE Y login "adim", Y is CWUser', [{'Y': 'CWUser'}])],
[self.ldap, self.system], None, {'Y': 'table1.C0'}, []),
('OneFetchStep',
[('Any X,Y LIMIT 10 OFFSET 10 WHERE X is CWUser, Y is CWUser', [{'X': 'CWUser', 'Y': 'CWUser'}])],
10, 10, [self.system],
{'X': 'table0.C0', 'Y': 'table1.C0'}, [])
])
def test_complex_aggregat(self):
self._test('Any MAX(X)',
[('OneFetchStep',
[('Any MAX(X)', X_ALL_SOLS)],
None, None, [self.system], {}, [])
])
def test_complex_typed_aggregat(self):
self._test('Any MAX(X) WHERE X is Card',
[('AggrStep', 'SELECT MAX(table0.C0) FROM table0', None,
[('FetchStep',
[('Any MAX(X) WHERE X is Card', [{'X': 'Card'}])],
[self.cards, self.system], {}, {'MAX(X)': 'table0.C0'}, [])
])
])
def test_complex_greater_eid(self):
self._test('Any X WHERE X eid > 12',
[('OneFetchStep',
[('Any X WHERE X eid > 12', X_ALL_SOLS)],
None, None, [self.system], {}, [])
])
def test_complex_greater_typed_eid(self):
self._test('Any X WHERE X eid > 12, X is Card',
[('OneFetchStep',
[('Any X WHERE X eid > 12, X is Card', [{'X': 'Card'}])],
None, None, [self.system], {}, [])
])
def test_complex_optional(self):
ueid = self.session.user.eid
self._test('Any U WHERE WF wf_info_for X, X eid %(x)s, WF owned_by U?, WF from_state FS',
[('OneFetchStep', [('Any U WHERE WF wf_info_for 5, WF owned_by U?, WF from_state FS',
[{'WF': 'TrInfo', 'FS': 'State', 'U': 'CWUser'}])],
None, None, [self.system], {}, [])],
{'x': ueid})
def test_complex_optional(self):
ueid = self.session.user.eid
self._test('Any U WHERE WF wf_info_for X, X eid %(x)s, WF owned_by U?, WF from_state FS',
[('OneFetchStep', [('Any U WHERE WF wf_info_for 5, WF owned_by U?, WF from_state FS',
[{'WF': 'TrInfo', 'FS': 'State', 'U': 'CWUser'}])],
None, None, [self.system], {}, [])],
{'x': ueid})
def test_3sources_ambigous(self):
self._test('Any X,T WHERE X owned_by U, U login "syt", X title T, X is IN(Bookmark, Card, EmailThread)',
[('FetchStep', [('Any X,T WHERE X title T, X is Card', [{'X': 'Card', 'T': 'String'}])],
[self.cards, self.system], None,
{'T': 'table0.C1', 'X': 'table0.C0', 'X.title': 'table0.C1'}, []),
('FetchStep', [('Any U WHERE U login "syt", U is CWUser', [{'U': 'CWUser'}])],
[self.ldap, self.system], None,
{'U': 'table1.C0'}, []),
('UnionStep', None, None, [
('OneFetchStep', [('Any X,T WHERE X owned_by U, X title T, U is CWUser, X is IN(Bookmark, EmailThread)',
[{'T': 'String', 'U': 'CWUser', 'X': 'Bookmark'},
{'T': 'String', 'U': 'CWUser', 'X': 'EmailThread'}])],
None, None, [self.system], {'U': 'table1.C0'}, []),
('OneFetchStep', [('Any X,T WHERE X owned_by U, X title T, U is CWUser, X is Card',
[{'X': 'Card', 'U': 'CWUser', 'T': 'String'}])],
None, None, [self.system],
{'X': 'table0.C0', 'X.title': 'table0.C1', 'T': 'table0.C1', 'U': 'table1.C0'}, []),
]),
])
def test_restricted_max(self):
# dumb query to emulate the one generated by svnfile.entities.rql_revision_content
self._test('Any V, MAX(VR) WHERE V is Card, V creation_date VR, '
'(V creation_date TODAY OR (V creation_date < TODAY AND NOT EXISTS('
'X is Card, X creation_date < TODAY, X creation_date >= VR)))',
[('FetchStep', [('Any VR WHERE X creation_date < TODAY, X creation_date VR, X is Card',
[{'X': 'Card', 'VR': 'Datetime'}])],
[self.cards, self.system], None,
{'VR': 'table0.C0', 'X.creation_date': 'table0.C0'}, []),
('FetchStep', [('Any V,VR WHERE V creation_date VR, V is Card',
[{'VR': 'Datetime', 'V': 'Card'}])],
[self.cards, self.system], None,
{'VR': 'table1.C1', 'V': 'table1.C0', 'V.creation_date': 'table1.C1'}, []),
('OneFetchStep', [('Any V,MAX(VR) WHERE V creation_date VR, (V creation_date TODAY) OR (V creation_date < TODAY, NOT EXISTS(X creation_date >= VR, X is Card)), V is Card',
[{'X': 'Card', 'VR': 'Datetime', 'V': 'Card'}])],
None, None, [self.system],
{'VR': 'table1.C1', 'V': 'table1.C0', 'V.creation_date': 'table1.C1', 'X.creation_date': 'table0.C0'}, [])
])
def test_outer_supported_rel1(self):
# both system and rql support all variables, can be
self._test('Any X, R WHERE X is Note, X in_state S, X type R, '
'NOT EXISTS(Y is Note, Y in_state S, Y type R, X identity Y)',
[('OneFetchStep', [('Any X,R WHERE X is Note, X in_state S, X type R, NOT EXISTS(Y is Note, Y in_state S, Y type R, X identity Y), S is State',
[{'Y': 'Note', 'X': 'Note', 'S': 'State', 'R': 'String'}])],
None, None,
[self.cards, self.system], {}, [])
])
def test_not_identity(self):
self._test('Any X WHERE NOT X identity U, U eid %s' % self.session.user.eid,
[('OneFetchStep',
[('Any X WHERE NOT X identity 5, X is CWUser', [{'X': 'CWUser'}])],
None, None,
[self.ldap, self.system], {}, [])
])
def test_outer_supported_rel2(self):
self._test('Any X, MAX(R) GROUPBY X WHERE X in_state S, X login R, '
'NOT EXISTS(Y is Note, Y in_state S, Y type R)',
[('FetchStep', [('Any A,R WHERE Y in_state A, Y type R, A is State, Y is Note',
[{'Y': 'Note', 'A': 'State', 'R': 'String'}])],
[self.cards, self.system], None,
{'A': 'table0.C0', 'R': 'table0.C1', 'Y.type': 'table0.C1'}, []),
('FetchStep', [('Any X,R WHERE X login R, X is CWUser', [{'X': 'CWUser', 'R': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table1.C0', 'X.login': 'table1.C1', 'R': 'table1.C1'}, []),
('OneFetchStep', [('Any X,MAX(R) GROUPBY X WHERE X in_state S, X login R, NOT EXISTS(Y type R, S identity A, A is State, Y is Note), S is State, X is CWUser',
[{'Y': 'Note', 'X': 'CWUser', 'S': 'State', 'R': 'String', 'A': 'State'}])],
None, None, [self.system],
{'A': 'table0.C0', 'X': 'table1.C0', 'X.login': 'table1.C1', 'R': 'table1.C1', 'Y.type': 'table0.C1'}, [])
])
def test_security_has_text(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X WHERE X has_text "bla"',
[('FetchStep', [('Any E WHERE E type "X", E is Note', [{'E': 'Note'}])],
[self.cards, self.system], None, {'E': 'table0.C0'}, []),
('UnionStep', None, None,
[('OneFetchStep',
[(u'Any X WHERE X has_text "bla", (EXISTS(X owned_by 5)) OR ((((EXISTS(D concerne C?, C owned_by 5, C type "X", X identity D, C is Division, D is Affaire)) OR (EXISTS(H concerne G?, G owned_by 5, G type "X", X identity H, G is SubDivision, H is Affaire))) OR (EXISTS(I concerne F?, F owned_by 5, F type "X", X identity I, F is Societe, I is Affaire))) OR (EXISTS(J concerne E?, E owned_by 5, X identity J, E is Note, J is Affaire))), X is Affaire',
[{'C': 'Division', 'E': 'Note', 'D': 'Affaire', 'G': 'SubDivision', 'F': 'Societe', 'I': 'Affaire', 'H': 'Affaire', 'J': 'Affaire', 'X': 'Affaire'}])],
None, None, [self.system], {'E': 'table0.C0'}, []),
('OneFetchStep',
[('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is Basket',
[{'X': 'Basket'}]),
('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is CWUser',
[{'X': 'CWUser'}]),
('Any X WHERE X has_text "bla", X is IN(Card, Comment, Division, Email, EmailThread, File, Folder, Note, Personne, Societe, SubDivision, Tag)',
[{'X': 'Card'}, {'X': 'Comment'},
{'X': 'Division'}, {'X': 'Email'}, {'X': 'EmailThread'},
{'X': 'File'}, {'X': 'Folder'},
{'X': 'Note'}, {'X': 'Personne'}, {'X': 'Societe'},
{'X': 'SubDivision'}, {'X': 'Tag'}]),],
None, None, [self.system], {}, []),
])
])
def test_security_has_text_limit_offset(self):
# use a guest user
self.session = self.user_groups_session('guests')
# note: same as the above query but because of the subquery usage, the display differs (not printing solutions for each union)
self._test('Any X LIMIT 10 OFFSET 10 WHERE X has_text "bla"',
[('FetchStep', [('Any E WHERE E type "X", E is Note', [{'E': 'Note'}])],
[self.cards, self.system], None, {'E': 'table1.C0'}, []),
('UnionFetchStep', [
('FetchStep', [('Any X WHERE X has_text "bla", (EXISTS(X owned_by 5)) OR ((((EXISTS(D concerne C?, C owned_by 5, C type "X", X identity D, C is Division, D is Affaire)) OR (EXISTS(H concerne G?, G owned_by 5, G type "X", X identity H, G is SubDivision, H is Affaire))) OR (EXISTS(I concerne F?, F owned_by 5, F type "X", X identity I, F is Societe, I is Affaire))) OR (EXISTS(J concerne E?, E owned_by 5, X identity J, E is Note, J is Affaire))), X is Affaire',
[{'C': 'Division', 'E': 'Note', 'D': 'Affaire', 'G': 'SubDivision', 'F': 'Societe', 'I': 'Affaire', 'H': 'Affaire', 'J': 'Affaire', 'X': 'Affaire'}])],
[self.system], {'E': 'table1.C0'}, {'X': 'table0.C0'}, []),
('FetchStep',
[('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is Basket',
[{'X': 'Basket'}]),
('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is CWUser',
[{'X': 'CWUser'}]),
('Any X WHERE X has_text "bla", X is IN(Card, Comment, Division, Email, EmailThread, File, Folder, Note, Personne, Societe, SubDivision, Tag)',
[{'X': 'Card'}, {'X': 'Comment'},
{'X': 'Division'}, {'X': 'Email'}, {'X': 'EmailThread'},
{'X': 'File'}, {'X': 'Folder'},
{'X': 'Note'}, {'X': 'Personne'}, {'X': 'Societe'},
{'X': 'SubDivision'}, {'X': 'Tag'}])],
[self.system], {}, {'X': 'table0.C0'}, []),
]),
('OneFetchStep',
[('Any X LIMIT 10 OFFSET 10',
[{'X': 'Affaire'}, {'X': 'Basket'},
{'X': 'CWUser'}, {'X': 'Card'}, {'X': 'Comment'},
{'X': 'Division'}, {'X': 'Email'}, {'X': 'EmailThread'},
{'X': 'File'}, {'X': 'Folder'},
{'X': 'Note'}, {'X': 'Personne'}, {'X': 'Societe'},
{'X': 'SubDivision'}, {'X': 'Tag'}])],
10, 10, [self.system], {'X': 'table0.C0'}, [])
])
def test_security_user(self):
"""a guest user trying to see another user: EXISTS(X owned_by U) is automatically inserted"""
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X WHERE X login "bla"',
[('FetchStep',
[('Any X WHERE X login "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('OneFetchStep',
[('Any X WHERE EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0'}, [])])
def test_security_complex_has_text(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X WHERE X has_text "bla", X firstname "bla"',
[('FetchStep', [('Any X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('UnionStep', None, None, [
('OneFetchStep', [('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0'}, []),
('OneFetchStep', [('Any X WHERE X has_text "bla", X firstname "bla", X is Personne', [{'X': 'Personne'}])],
None, None, [self.system], {}, []),
]),
])
def test_security_complex_has_text_limit_offset(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X LIMIT 10 OFFSET 10 WHERE X has_text "bla", X firstname "bla"',
[('FetchStep', [('Any X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table1.C0'}, []),
('UnionFetchStep', [
('FetchStep', [('Any X WHERE X has_text "bla", EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
[self.system], {'X': 'table1.C0'}, {'X': 'table0.C0'}, []),
('FetchStep', [('Any X WHERE X has_text "bla", X firstname "bla", X is Personne', [{'X': 'Personne'}])],
[self.system], {}, {'X': 'table0.C0'}, []),
]),
('OneFetchStep',
[('Any X LIMIT 10 OFFSET 10', [{'X': 'CWUser'}, {'X': 'Personne'}])],
10, 10, [self.system], {'X': 'table0.C0'}, [])
])
def test_security_complex_aggregat(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any MAX(X)',
[('FetchStep', [('Any E WHERE E type "X", E is Note', [{'E': 'Note'}])],
[self.cards, self.system], None, {'E': 'table1.C0'}, []),
('FetchStep', [('Any X WHERE X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table2.C0'}, []),
('UnionFetchStep', [
('FetchStep', [('Any X WHERE EXISTS(X owned_by 5), X is Basket', [{'X': 'Basket'}])],
[self.system], {}, {'X': 'table0.C0'}, []),
('UnionFetchStep',
[('FetchStep', [('Any X WHERE X is IN(Card, Note, State)',
[{'X': 'Card'}, {'X': 'Note'}, {'X': 'State'}])],
[self.cards, self.system], {}, {'X': 'table0.C0'}, []),
('FetchStep',
[('Any X WHERE X is IN(BaseTransition, Bookmark, CWAttribute, CWCache, CWConstraint, CWConstraintType, CWEType, CWGroup, CWPermission, CWProperty, CWRType, CWRelation, CWUniqueTogetherConstraint, Comment, Division, Email, EmailAddress, EmailPart, EmailThread, ExternalUri, File, Folder, Personne, RQLExpression, Societe, SubDivision, SubWorkflowExitPoint, Tag, TrInfo, Transition, Workflow, WorkflowTransition)',
[{'X': 'BaseTransition'}, {'X': 'Bookmark'},
{'X': 'CWAttribute'}, {'X': 'CWCache'},
{'X': 'CWConstraint'}, {'X': 'CWConstraintType'},
{'X': 'CWEType'}, {'X': 'CWGroup'},
{'X': 'CWPermission'}, {'X': 'CWProperty'},
{'X': 'CWRType'}, {'X': 'CWRelation'},
{'X': 'CWUniqueTogetherConstraint'},
{'X': 'Comment'}, {'X': 'Division'},
{'X': 'Email'}, {'X': 'EmailAddress'},
{'X': 'EmailPart'}, {'X': 'EmailThread'},
{'X': 'ExternalUri'}, {'X': 'File'},
{'X': 'Folder'},
{'X': 'Personne'}, {'X': 'RQLExpression'},
{'X': 'Societe'}, {'X': 'SubDivision'},
{'X': 'SubWorkflowExitPoint'}, {'X': 'Tag'},
{'X': 'TrInfo'}, {'X': 'Transition'},
{'X': 'Workflow'}, {'X': 'WorkflowTransition'}])],
[self.system], {}, {'X': 'table0.C0'}, []),
]),
('FetchStep', [('Any X WHERE EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
[self.system], {'X': 'table2.C0'}, {'X': 'table0.C0'}, []),
('FetchStep', [('Any X WHERE (EXISTS(X owned_by 5)) OR ((((EXISTS(D concerne C?, C owned_by 5, C type "X", X identity D, C is Division, D is Affaire)) OR (EXISTS(H concerne G?, G owned_by 5, G type "X", X identity H, G is SubDivision, H is Affaire))) OR (EXISTS(I concerne F?, F owned_by 5, F type "X", X identity I, F is Societe, I is Affaire))) OR (EXISTS(J concerne E?, E owned_by 5, X identity J, E is Note, J is Affaire))), X is Affaire',
[{'C': 'Division', 'E': 'Note', 'D': 'Affaire', 'G': 'SubDivision', 'F': 'Societe', 'I': 'Affaire', 'H': 'Affaire', 'J': 'Affaire', 'X': 'Affaire'}])],
[self.system], {'E': 'table1.C0'}, {'X': 'table0.C0'}, []),
]),
('OneFetchStep', [('Any MAX(X)', X_ALL_SOLS)],
None, None, [self.system], {'X': 'table0.C0'}, [])
])
def test_security_complex_aggregat2(self):
# use a guest user
self.session = self.user_groups_session('guests')
X_ET_ALL_SOLS = []
for s in X_ALL_SOLS:
ets = {'ET': 'CWEType'}
ets.update(s)
X_ET_ALL_SOLS.append(ets)
self._test('Any ET, COUNT(X) GROUPBY ET ORDERBY ET WHERE X is ET',
[('FetchStep', [('Any X WHERE X is IN(Card, Note, State)',
[{'X': 'Card'}, {'X': 'Note'}, {'X': 'State'}])],
[self.cards, self.system], None, {'X': 'table1.C0'}, []),
('FetchStep', [('Any E WHERE E type "X", E is Note', [{'E': 'Note'}])],
[self.cards, self.system], None, {'E': 'table2.C0'}, []),
('FetchStep', [('Any X WHERE X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table3.C0'}, []),
('UnionFetchStep',
[('FetchStep', [('Any ET,X WHERE X is ET, EXISTS(X owned_by 5), ET is CWEType, X is Basket',
[{'ET': 'CWEType', 'X': 'Basket'}])],
[self.system], {}, {'ET': 'table0.C0', 'X': 'table0.C1'}, []),
('FetchStep', [('Any ET,X WHERE X is ET, (EXISTS(X owned_by 5)) OR ((((EXISTS(D concerne C?, C owned_by 5, C type "X", X identity D, C is Division, D is Affaire)) OR (EXISTS(H concerne G?, G owned_by 5, G type "X", X identity H, G is SubDivision, H is Affaire))) OR (EXISTS(I concerne F?, F owned_by 5, F type "X", X identity I, F is Societe, I is Affaire))) OR (EXISTS(J concerne E?, E owned_by 5, X identity J, E is Note, J is Affaire))), ET is CWEType, X is Affaire',
[{'C': 'Division', 'E': 'Note', 'D': 'Affaire',
'G': 'SubDivision', 'F': 'Societe', 'I': 'Affaire',
'H': 'Affaire', 'J': 'Affaire', 'X': 'Affaire',
'ET': 'CWEType'}])],
[self.system], {'E': 'table2.C0'}, {'ET': 'table0.C0', 'X': 'table0.C1'},
[]),
('FetchStep', [('Any ET,X WHERE X is ET, EXISTS(X owned_by 5), ET is CWEType, X is CWUser',
[{'ET': 'CWEType', 'X': 'CWUser'}])],
[self.system], {'X': 'table3.C0'}, {'ET': 'table0.C0', 'X': 'table0.C1'}, []),
# extra UnionFetchStep could be avoided but has no cost, so don't care
('UnionFetchStep',
[('FetchStep', [('Any ET,X WHERE X is ET, ET is CWEType, X is IN(BaseTransition, Bookmark, CWAttribute, CWCache, CWConstraint, CWConstraintType, CWEType, CWGroup, CWPermission, CWProperty, CWRType, CWRelation, CWUniqueTogetherConstraint, Comment, Division, Email, EmailAddress, EmailPart, EmailThread, ExternalUri, File, Folder, Personne, RQLExpression, Societe, SubDivision, SubWorkflowExitPoint, Tag, TrInfo, Transition, Workflow, WorkflowTransition)',
[{'X': 'BaseTransition', 'ET': 'CWEType'},
{'X': 'Bookmark', 'ET': 'CWEType'}, {'X': 'CWAttribute', 'ET': 'CWEType'},
{'X': 'CWCache', 'ET': 'CWEType'}, {'X': 'CWConstraint', 'ET': 'CWEType'},
{'X': 'CWConstraintType', 'ET': 'CWEType'}, {'X': 'CWEType', 'ET': 'CWEType'},
{'X': 'CWGroup', 'ET': 'CWEType'}, {'X': 'CWPermission', 'ET': 'CWEType'},
{'X': 'CWProperty', 'ET': 'CWEType'}, {'X': 'CWRType', 'ET': 'CWEType'},
{'X': 'CWRelation', 'ET': 'CWEType'},
{'X': 'CWUniqueTogetherConstraint', 'ET': 'CWEType'},
{'X': 'Comment', 'ET': 'CWEType'},
{'X': 'Division', 'ET': 'CWEType'}, {'X': 'Email', 'ET': 'CWEType'},
{'X': 'EmailAddress', 'ET': 'CWEType'}, {'X': 'EmailPart', 'ET': 'CWEType'},
{'X': 'EmailThread', 'ET': 'CWEType'}, {'X': 'ExternalUri', 'ET': 'CWEType'},
{'X': 'File', 'ET': 'CWEType'}, {'X': 'Folder', 'ET': 'CWEType'},
{'X': 'Personne', 'ET': 'CWEType'},
{'X': 'RQLExpression', 'ET': 'CWEType'}, {'X': 'Societe', 'ET': 'CWEType'},
{'X': 'SubDivision', 'ET': 'CWEType'}, {'X': 'SubWorkflowExitPoint', 'ET': 'CWEType'},
{'X': 'Tag', 'ET': 'CWEType'}, {'X': 'TrInfo', 'ET': 'CWEType'},
{'X': 'Transition', 'ET': 'CWEType'}, {'X': 'Workflow', 'ET': 'CWEType'},
{'X': 'WorkflowTransition', 'ET': 'CWEType'}])],
[self.system], {}, {'ET': 'table0.C0', 'X': 'table0.C1'}, []),
('FetchStep',
[('Any ET,X WHERE X is ET, ET is CWEType, X is IN(Card, Note, State)',
[{'ET': 'CWEType', 'X': 'Card'},
{'ET': 'CWEType', 'X': 'Note'},
{'ET': 'CWEType', 'X': 'State'}])],
[self.system], {'X': 'table1.C0'}, {'ET': 'table0.C0', 'X': 'table0.C1'}, []),
]),
]),
('OneFetchStep',
[('Any ET,COUNT(X) GROUPBY ET ORDERBY ET', X_ET_ALL_SOLS)],
None, None, [self.system], {'ET': 'table0.C0', 'X': 'table0.C1'}, [])
])
def test_security_3sources(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X, XT WHERE X is Card, X owned_by U, X title XT, U login "syt"',
[('FetchStep',
[('Any X,XT WHERE X title XT, X is Card', [{'X': 'Card', 'XT': 'String'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'}, []),
('FetchStep',
[('Any U WHERE U login "syt", U is CWUser', [{'U': 'CWUser'}])],
[self.ldap, self.system], None, {'U': 'table1.C0'}, []),
('OneFetchStep',
[('Any X,XT WHERE X owned_by U, X title XT, EXISTS(U owned_by 5), U is CWUser, X is Card',
[{'X': 'Card', 'U': 'CWUser', 'XT': 'String'}])],
None, None, [self.system],
{'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1', 'U': 'table1.C0'}, [])
])
def test_security_3sources_identity(self):
self.restore_orig_cwuser_security()
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X, XT WHERE X is Card, X owned_by U, X title XT, U login "syt"',
[('FetchStep',
[('Any X,XT WHERE X title XT, X is Card', [{'X': 'Card', 'XT': 'String'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'}, []),
('OneFetchStep',
[('Any X,XT WHERE X owned_by U, X title XT, U login "syt", EXISTS(U identity 5), U is CWUser, X is Card',
[{'U': 'CWUser', 'X': 'Card', 'XT': 'String'}])],
None, None, [self.system], {'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'}, [])
])
def test_security_3sources_identity_optional_var(self):
self.restore_orig_cwuser_security()
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X,XT,U WHERE X is Card, X owned_by U?, X title XT, U login L',
[('FetchStep',
[('Any U,L WHERE U login L, EXISTS(U identity 5), U is CWUser',
[{'L': 'String', u'U': 'CWUser'}])],
[self.system], {}, {'L': 'table0.C1', 'U': 'table0.C0', 'U.login': 'table0.C1'}, []),
('FetchStep',
[('Any X,XT WHERE X title XT, X is Card', [{'X': 'Card', 'XT': 'String'}])],
[self.cards, self.system], None, {'X': 'table1.C0', 'X.title': 'table1.C1', 'XT': 'table1.C1'}, []),
('OneFetchStep',
[('Any X,XT,U WHERE X owned_by U?, X title XT, X is Card',
[{'X': 'Card', 'U': 'CWUser', 'XT': 'String'}])],
None, None, [self.system], {'L': 'table0.C1',
'U': 'table0.C0',
'X': 'table1.C0',
'X.title': 'table1.C1',
'XT': 'table1.C1'}, [])
])
def test_security_3sources_limit_offset(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X, XT LIMIT 10 OFFSET 10 WHERE X is Card, X owned_by U, X title XT, U login "syt"',
[('FetchStep',
[('Any X,XT WHERE X title XT, X is Card', [{'X': 'Card', 'XT': 'String'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'}, []),
('FetchStep',
[('Any U WHERE U login "syt", U is CWUser', [{'U': 'CWUser'}])],
[self.ldap, self.system], None, {'U': 'table1.C0'}, []),
('OneFetchStep',
[('Any X,XT LIMIT 10 OFFSET 10 WHERE X owned_by U, X title XT, EXISTS(U owned_by 5), U is CWUser, X is Card',
[{'X': 'Card', 'U': 'CWUser', 'XT': 'String'}])],
10, 10, [self.system],
{'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1', 'U': 'table1.C0'}, [])
])
def test_exists_base(self):
self._test('Any X,L,S WHERE X in_state S, X login L, EXISTS(X in_group G, G name "bougloup")',
[('FetchStep', [('Any X,L WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None, {'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, []),
('OneFetchStep', [("Any X,L,S WHERE X in_state S, X login L, "
'EXISTS(X in_group G, G name "bougloup", G is CWGroup), S is State, X is CWUser',
[{'X': 'CWUser', 'L': 'String', 'S': 'State', 'G': 'CWGroup'}])],
None, None, [self.system],
{'X': 'table0.C0', 'X.login': 'table0.C1', 'L': 'table0.C1'}, [])])
def test_exists_complex(self):
self._test('Any G WHERE X in_group G, G name "managers", EXISTS(X copain T, T login in ("comme", "cochon"))',
[('FetchStep', [('Any T WHERE T login IN("comme", "cochon"), T is CWUser', [{'T': 'CWUser'}])],
[self.ldap, self.system], None, {'T': 'table0.C0'}, []),
('OneFetchStep',
[('Any G WHERE X in_group G, G name "managers", EXISTS(X copain T, T is CWUser), G is CWGroup, X is CWUser',
[{'X': 'CWUser', 'T': 'CWUser', 'G': 'CWGroup'}])],
None, None, [self.system], {'T': 'table0.C0'}, [])])
def test_exists3(self):
self._test('Any G,L WHERE X in_group G, X login L, G name "managers", EXISTS(X copain T, T login in ("comme", "cochon"))',
[('FetchStep',
[('Any T WHERE T login IN("comme", "cochon"), T is CWUser',
[{'T': 'CWUser'}])],
[self.ldap, self.system], None, {'T': 'table0.C0'}, []),
('FetchStep',
[('Any L,X WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table1.C1', 'X.login': 'table1.C0', 'L': 'table1.C0'}, []),
('OneFetchStep',
[('Any G,L WHERE X in_group G, X login L, G name "managers", EXISTS(X copain T, T is CWUser), G is CWGroup, X is CWUser',
[{'G': 'CWGroup', 'L': 'String', 'T': 'CWUser', 'X': 'CWUser'}])],
None, None,
[self.system], {'T': 'table0.C0', 'X': 'table1.C1', 'X.login': 'table1.C0', 'L': 'table1.C0'}, [])])
def test_exists4(self):
self._test('Any G,L WHERE X in_group G, X login L, G name "managers", '
'EXISTS(X copain T, T login L, T login in ("comme", "cochon")) OR '
'EXISTS(X in_state S, S name "pascontent", NOT X copain T2, T2 login "billy")',
[('FetchStep',
[('Any T,L WHERE T login L, T login IN("comme", "cochon"), T is CWUser', [{'T': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'T': 'table0.C0', 'T.login': 'table0.C1', 'L': 'table0.C1'}, []),
('FetchStep',
[('Any T2 WHERE T2 login "billy", T2 is CWUser', [{'T2': 'CWUser'}])],
[self.ldap, self.system], None, {'T2': 'table1.C0'}, []),
('FetchStep',
[('Any L,X WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None, {'X': 'table2.C1', 'X.login': 'table2.C0', 'L': 'table2.C0'}, []),
('OneFetchStep',
[('Any G,L WHERE X in_group G, X login L, G name "managers", (EXISTS(X copain T, T login L, T is CWUser)) OR (EXISTS(X in_state S, S name "pascontent", NOT EXISTS(X copain T2), S is State)), G is CWGroup, T2 is CWUser, X is CWUser',
[{'G': 'CWGroup', 'L': 'String', 'S': 'State', 'T': 'CWUser', 'T2': 'CWUser', 'X': 'CWUser'}])],
None, None, [self.system],
{'T2': 'table1.C0', 'L': 'table2.C0',
'T': 'table0.C0', 'T.login': 'table0.C1', 'X': 'table2.C1', 'X.login': 'table2.C0'}, [])])
def test_exists5(self):
self._test('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")',
[('FetchStep', [('Any T WHERE T login IN("comme", "cochon"), T is CWUser',
[{'T': 'CWUser'}])],
[self.ldap, self.system], None, {'T': 'table0.C0'}, []),
('FetchStep', [('Any T2 WHERE T2 login "billy", T2 is CWUser', [{'T2': 'CWUser'}])],
[self.ldap, self.system], None, {'T2': 'table1.C0'}, []),
('FetchStep', [('Any L,X WHERE X login L, X is CWUser', [{'X': 'CWUser', 'L': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table2.C1', 'X.login': 'table2.C0', 'L': 'table2.C0'}, []),
('OneFetchStep', [('Any GN,L WHERE X in_group G, X login L, G name GN, EXISTS(X copain T, T is CWUser), NOT EXISTS(X copain T2, T2 is CWUser), G is CWGroup, X is CWUser',
[{'G': 'CWGroup', 'GN': 'String', 'L': 'String', 'T': 'CWUser', 'T2': 'CWUser', 'X': 'CWUser'}])],
None, None, [self.system],
{'T': 'table0.C0', 'T2': 'table1.C0',
'X': 'table2.C1', 'X.login': 'table2.C0', 'L': 'table2.C0'}, [])])
def test_exists_security_no_invariant(self):
ueid = self.session.user.eid
self._test('Any X,AA,AB,AC,AD ORDERBY AA WHERE X is CWUser, X login AA, X firstname AB, X surname AC, X modification_date AD, A eid %(B)s, \
EXISTS(((X identity A) OR \
(EXISTS(X in_group C, C name IN("managers", "staff"), C is CWGroup))) OR \
(EXISTS(X in_group D, A in_group D, NOT D name "users", D is CWGroup)))',
[('FetchStep', [('Any X,AA,AB,AC,AD WHERE X login AA, X firstname AB, X surname AC, X modification_date AD, X is CWUser',
[{'AA': 'String', 'AB': 'String', 'AC': 'String', 'AD': 'Datetime',
'X': 'CWUser'}])],
[self.ldap, self.system], None, {'AA': 'table0.C1', 'AB': 'table0.C2',
'AC': 'table0.C3', 'AD': 'table0.C4',
'X': 'table0.C0',
'X.firstname': 'table0.C2',
'X.login': 'table0.C1',
'X.modification_date': 'table0.C4',
'X.surname': 'table0.C3'}, []),
('OneFetchStep', [('Any X,AA,AB,AC,AD ORDERBY AA WHERE X login AA, X firstname AB, X surname AC, X modification_date AD, EXISTS(((X identity 5) OR (EXISTS(X in_group C, C name IN("managers", "staff"), C is CWGroup))) OR (EXISTS(X in_group D, 5 in_group D, NOT D name "users", D is CWGroup))), X is CWUser',
[{'AA': 'String', 'AB': 'String', 'AC': 'String', 'AD': 'Datetime',
'C': 'CWGroup', 'D': 'CWGroup', 'X': 'CWUser'}])],
None, None, [self.system],
{'AA': 'table0.C1', 'AB': 'table0.C2', 'AC': 'table0.C3', 'AD': 'table0.C4',
'X': 'table0.C0',
'X.firstname': 'table0.C2', 'X.login': 'table0.C1', 'X.modification_date': 'table0.C4', 'X.surname': 'table0.C3'},
[])],
{'B': ueid})
def test_relation_need_split(self):
self._test('Any X, S WHERE X in_state S',
[('UnionStep', None, None, [
('OneFetchStep', [('Any X,S WHERE X in_state S, S is State, X is IN(Affaire, CWUser)',
[{'X': 'Affaire', 'S': 'State'}, {'X': 'CWUser', 'S': 'State'}])],
None, None, [self.system], {}, []),
('OneFetchStep', [('Any X,S WHERE X in_state S, S is State, X is Note',
[{'X': 'Note', 'S': 'State'}])],
None, None, [self.cards, self.system], {}, []),
])])
def test_relation_selection_need_split(self):
self._test('Any X,S,U WHERE X in_state S, X todo_by U',
[('FetchStep', [('Any X,S WHERE X in_state S, S is State, X is Note',
[{'X': 'Note', 'S': 'State'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'S': 'table0.C1'}, []),
('UnionStep', None, None,
[('OneFetchStep', [('Any X,S,U WHERE X in_state S, X todo_by U, S is State, U is CWUser, X is Note',
[{'X': 'Note', 'S': 'State', 'U': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0', 'S': 'table0.C1'}, []),
('OneFetchStep', [('Any X,S,U WHERE X in_state S, X todo_by U, S is State, U is Personne, X is Affaire',
[{'X': 'Affaire', 'S': 'State', 'U': 'Personne'}])],
None, None, [self.system], {}, []),
])
])
def test_relation_restriction_need_split(self):
self._test('Any X,U WHERE X in_state S, S name "pending", X todo_by U',
[('FetchStep', [('Any X WHERE X in_state S, S name "pending", S is State, X is Note',
[{'X': 'Note', 'S': 'State'}])],
[self.cards, self.system], None, {'X': 'table0.C0'}, []),
('UnionStep', None, None,
[('OneFetchStep', [('Any X,U WHERE X todo_by U, U is CWUser, X is Note',
[{'X': 'Note', 'U': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0'}, []),
('OneFetchStep', [('Any X,U WHERE X in_state S, S name "pending", X todo_by U, S is State, U is Personne, X is Affaire',
[{'S': 'State', 'U': 'Personne', 'X': 'Affaire'}])],
None, None, [self.system], {}, [])
])
])
def test_relation_restriction_ambigous_need_split(self):
self._test('Any X,T WHERE X in_state S, S name "pending", T tags X',
[('FetchStep', [('Any X WHERE X in_state S, S name "pending", S is State, X is Note',
[{'X': 'Note', 'S': 'State'}])],
[self.cards, self.system], None, {'X': 'table0.C0'}, []),
('UnionStep', None, None, [
('OneFetchStep', [('Any X,T WHERE T tags X, T is Tag, X is Note',
[{'X': 'Note', 'T': 'Tag'}])],
None, None,
[self.system], {'X': 'table0.C0'}, []),
('OneFetchStep', [('Any X,T WHERE X in_state S, S name "pending", T tags X, S is State, T is Tag, X is IN(Affaire, CWUser)',
[{'X': 'Affaire', 'S': 'State', 'T': 'Tag'},
{'X': 'CWUser', 'S': 'State', 'T': 'Tag'}])],
None, None,
[self.system], {}, []),
])
])
def test_not_relation_no_split_internal(self):
ueid = self.session.user.eid
# NOT on a relation supported by rql and system source: we want to get
# all states (eg from both sources) which are not related to entity with the
# given eid. The "NOT X in_state S, X eid %(x)s" expression is necessarily true
# in the source where %(x)s is not coming from and will be removed during rql
# generation for the external source
self._test('Any SN WHERE NOT X in_state S, X eid %(x)s, S name SN',
[('OneFetchStep', [('Any SN WHERE NOT EXISTS(5 in_state S), S name SN, S is State',
[{'S': 'State', 'SN': 'String'}])],
None, None, [self.cards, self.system], {}, [])],
{'x': ueid})
def test_not_relation_no_split_external(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
# similar to the above test but with an eid coming from the external source.
# the same plan may be used, since we won't find any record in the system source
# linking 9999999 to a state
self._test('Any SN WHERE NOT X in_state S, X eid %(x)s, S name SN',
[('OneFetchStep', [('Any SN WHERE NOT EXISTS(999999 in_state S), S name SN, S is State',
[{'S': 'State', 'SN': 'String'}])],
None, None, [self.cards, self.system], {}, [])],
{'x': 999999})
def test_not_relation_need_split(self):
self._test('Any SN WHERE NOT X in_state S, S name SN',
[('FetchStep', [('Any SN,S WHERE S name SN, S is State',
[{'S': 'State', 'SN': 'String'}])],
[self.cards, self.system], None, {'S': 'table0.C1', 'S.name': 'table0.C0', 'SN': 'table0.C0'},
[]),
('IntersectStep', None, None,
[('OneFetchStep',
[('Any SN WHERE NOT EXISTS(X in_state S, X is Note), S name SN, S is State',
[{'S': 'State', 'SN': 'String', 'X': 'Note'}])],
None, None, [self.cards, self.system], {},
[]),
('OneFetchStep',
[('Any SN WHERE NOT EXISTS(X in_state S, X is IN(Affaire, CWUser)), S name SN, S is State',
[{'S': 'State', 'SN': 'String', 'X': 'Affaire'},
{'S': 'State', 'SN': 'String', 'X': 'CWUser'}])],
None, None, [self.system], {'S': 'table0.C1', 'S.name': 'table0.C0', 'SN': 'table0.C0'},
[]),]
)])
def test_external_attributes_and_relation(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any A,B,C,D WHERE A eid %(x)s,A creation_date B,A modification_date C, A todo_by D?',
[('FetchStep', [('Any A,B,C WHERE A eid 999999, A creation_date B, A modification_date C, A is Note',
[{'A': 'Note', 'C': 'Datetime', 'B': 'Datetime'}])],
[self.cards], None,
{'A': 'table0.C0', 'A.creation_date': 'table0.C1', 'A.modification_date': 'table0.C2', 'C': 'table0.C2', 'B': 'table0.C1'}, []),
#('FetchStep', [('Any D WHERE D is CWUser', [{'D': 'CWUser'}])],
# [self.ldap, self.system], None, {'D': 'table1.C0'}, []),
('OneFetchStep', [('Any A,B,C,D WHERE A creation_date B, A modification_date C, A todo_by D?, A is Note, D is CWUser',
[{'A': 'Note', 'C': 'Datetime', 'B': 'Datetime', 'D': 'CWUser'}])],
None, None, [self.system],
{'A': 'table0.C0', 'A.creation_date': 'table0.C1', 'A.modification_date': 'table0.C2', 'C': 'table0.C2', 'B': 'table0.C1'}, [])],
{'x': 999999})
def test_simplified_var(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any U WHERE U in_group G, (G name IN ("managers", "logilab") OR (X require_permission P?, P name "bla", P require_group G)), X eid %(x)s, U eid %(u)s',
[('OneFetchStep', [('Any 5 WHERE 5 in_group G, (G name IN("managers", "logilab")) OR (X require_permission P?, P name "bla", P require_group G), X eid 999999',
[{'X': 'Note', 'G': 'CWGroup', 'P': 'CWPermission'}])],
None, None, [self.system], {}, [])],
{'x': 999999, 'u': self.session.user.eid})
def test_has_text(self):
self._test('Card X WHERE X has_text "toto"',
[('OneFetchStep', [('Any X WHERE X has_text "toto", X is Card',
[{'X': 'Card'}])],
None, None, [self.system], {}, [])])
def test_has_text_3(self):
self._test('Any X WHERE X has_text "toto", X title "zoubidou", X is IN (Card, EmailThread)',
[('FetchStep', [(u'Any X WHERE X title "zoubidou", X is Card',
[{'X': 'Card'}])],
[self.cards, self.system], None, {'X': 'table0.C0'}, []),
('UnionStep', None, None, [
('OneFetchStep', [(u'Any X WHERE X has_text "toto", X is Card',
[{'X': 'Card'}])],
None, None, [self.system], {'X': 'table0.C0'}, []),
('OneFetchStep', [(u'Any X WHERE X has_text "toto", X title "zoubidou", X is EmailThread',
[{'X': 'EmailThread'}])],
None, None, [self.system], {}, []),
]),
])
def test_has_text_orderby_rank(self):
self._test('Any X ORDERBY FTIRANK(X) WHERE X has_text "bla", X firstname "bla"',
[('FetchStep', [('Any X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('AggrStep', 'SELECT table1.C1 FROM table1 ORDER BY table1.C0', None, [
('FetchStep', [('Any FTIRANK(X),X WHERE X has_text "bla", X is CWUser',
[{'X': 'CWUser'}])],
[self.system], {'X': 'table0.C0'}, {'FTIRANK(X)': 'table1.C0', 'X': 'table1.C1'}, []),
('FetchStep', [('Any FTIRANK(X),X WHERE X has_text "bla", X firstname "bla", X is Personne',
[{'X': 'Personne'}])],
[self.system], {}, {'FTIRANK(X)': 'table1.C0', 'X': 'table1.C1'}, []),
]),
])
def test_security_has_text_orderby_rank(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X ORDERBY FTIRANK(X) WHERE X has_text "bla", X firstname "bla"',
[('FetchStep', [('Any X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table1.C0'}, []),
('UnionFetchStep',
[('FetchStep', [('Any X WHERE X firstname "bla", X is Personne', [{'X': 'Personne'}])],
[self.system], {}, {'X': 'table0.C0'}, []),
('FetchStep', [('Any X WHERE EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
[self.system], {'X': 'table1.C0'}, {'X': 'table0.C0'}, [])]),
('OneFetchStep', [('Any X ORDERBY FTIRANK(X) WHERE X has_text "bla"',
[{'X': 'CWUser'}, {'X': 'Personne'}])],
None, None, [self.system], {'X': 'table0.C0'}, []),
])
def test_has_text_select_rank(self):
self._test('Any X, FTIRANK(X) WHERE X has_text "bla", X firstname "bla"',
# XXX unecessary duplicate selection
[('FetchStep', [('Any X,X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C1'}, []),
('UnionStep', None, None, [
('OneFetchStep', [('Any X,FTIRANK(X) WHERE X has_text "bla", X is CWUser', [{'X': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C1'}, []),
('OneFetchStep', [('Any X,FTIRANK(X) WHERE X has_text "bla", X firstname "bla", X is Personne', [{'X': 'Personne'}])],
None, None, [self.system], {}, []),
]),
])
def test_security_has_text_select_rank(self):
# use a guest user
self.session = self.user_groups_session('guests')
self._test('Any X, FTIRANK(X) WHERE X has_text "bla", X firstname "bla"',
[('FetchStep', [('Any X,X WHERE X firstname "bla", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C1'}, []),
('UnionStep', None, None, [
('OneFetchStep', [('Any X,FTIRANK(X) WHERE X has_text "bla", EXISTS(X owned_by 5), X is CWUser', [{'X': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C1'}, []),
('OneFetchStep', [('Any X,FTIRANK(X) WHERE X has_text "bla", X firstname "bla", X is Personne', [{'X': 'Personne'}])],
None, None, [self.system], {}, []),
]),
])
def test_sort_func(self):
self._test('Note X ORDERBY DUMB_SORT(RF) WHERE X type RF',
[('AggrStep', 'SELECT table0.C0 FROM table0 ORDER BY DUMB_SORT(table0.C1)', None, [
('FetchStep', [('Any X,RF WHERE X type RF, X is Note',
[{'X': 'Note', 'RF': 'String'}])],
[self.cards, self.system], {}, {'X': 'table0.C0', 'X.type': 'table0.C1', 'RF': 'table0.C1'}, []),
])
])
def test_ambigous_sort_func(self):
self._test('Any X ORDERBY DUMB_SORT(RF) WHERE X title RF, X is IN (Bookmark, Card, EmailThread)',
[('AggrStep', 'SELECT table0.C0 FROM table0 ORDER BY DUMB_SORT(table0.C1)', None,
[('FetchStep', [('Any X,RF WHERE X title RF, X is Card',
[{'X': 'Card', 'RF': 'String'}])],
[self.cards, self.system], {},
{'X': 'table0.C0', 'X.title': 'table0.C1', 'RF': 'table0.C1'}, []),
('FetchStep', [('Any X,RF WHERE X title RF, X is IN(Bookmark, EmailThread)',
[{'RF': 'String', 'X': 'Bookmark'},
{'RF': 'String', 'X': 'EmailThread'}])],
[self.system], {},
{'X': 'table0.C0', 'X.title': 'table0.C1', 'RF': 'table0.C1'}, []),
]),
])
def test_attr_unification_1(self):
self._test('Any X,Y WHERE X is Bookmark, Y is Card, X title T, Y title T',
[('FetchStep',
[('Any Y,T WHERE Y title T, Y is Card', [{'T': 'String', 'Y': 'Card'}])],
[self.cards, self.system], None,
{'T': 'table0.C1', 'Y': 'table0.C0', 'Y.title': 'table0.C1'}, []),
('OneFetchStep',
[('Any X,Y WHERE X title T, Y title T, X is Bookmark, Y is Card',
[{'T': 'String', 'X': 'Bookmark', 'Y': 'Card'}])],
None, None, [self.system],
{'T': 'table0.C1', 'Y': 'table0.C0', 'Y.title': 'table0.C1'}, [])
])
def test_attr_unification_2(self):
self._test('Any X,Y WHERE X is Note, Y is Card, X type T, Y title T',
[('FetchStep',
[('Any X,T WHERE X type T, X is Note', [{'T': 'String', 'X': 'Note'}])],
[self.cards, self.system], None,
{'T': 'table0.C1', 'X': 'table0.C0', 'X.type': 'table0.C1'}, []),
('FetchStep',
[('Any Y,T WHERE Y title T, Y is Card', [{'T': 'String', 'Y': 'Card'}])],
[self.cards, self.system], None,
{'T': 'table1.C1', 'Y': 'table1.C0', 'Y.title': 'table1.C1'}, []),
('OneFetchStep',
[('Any X,Y WHERE X type T, Y title T, X is Note, Y is Card',
[{'T': 'String', 'X': 'Note', 'Y': 'Card'}])],
None, None, [self.system],
{'T': 'table1.C1',
'X': 'table0.C0', 'X.type': 'table0.C1',
'Y': 'table1.C0', 'Y.title': 'table1.C1'}, [])
])
def test_attr_unification_neq_1(self):
self._test('Any X,Y WHERE X is Bookmark, Y is Card, X creation_date D, Y creation_date > D',
[('FetchStep',
[('Any Y,D WHERE Y creation_date D, Y is Card',
[{'D': 'Datetime', 'Y': 'Card'}])],
[self.cards,self.system], None,
{'D': 'table0.C1', 'Y': 'table0.C0', 'Y.creation_date': 'table0.C1'}, []),
('OneFetchStep',
[('Any X,Y WHERE X creation_date D, Y creation_date > D, X is Bookmark, Y is Card',
[{'D': 'Datetime', 'X': 'Bookmark', 'Y': 'Card'}])], None, None,
[self.system],
{'D': 'table0.C1', 'Y': 'table0.C0', 'Y.creation_date': 'table0.C1'}, [])
])
def test_subquery_1(self):
self._test('DISTINCT Any B,C ORDERBY C WHERE A created_by B, B login C, EXISTS(B owned_by D), D eid %(E)s '
'WITH A,N BEING ((Any X,N WHERE X is Tag, X name N) UNION (Any X,T WHERE X is Bookmark, X title T))',
[('FetchStep', [('Any X,N WHERE X is Tag, X name N', [{'N': 'String', 'X': 'Tag'}]),
('Any X,T WHERE X is Bookmark, X title T',
[{'T': 'String', 'X': 'Bookmark'}])],
[self.system], {}, {'N': 'table0.C1', 'X': 'table0.C0', 'X.name': 'table0.C1'}, []),
('FetchStep',
[('Any B,C WHERE B login C, B is CWUser', [{'B': 'CWUser', 'C': 'String'}])],
[self.ldap, self.system], None, {'B': 'table1.C0', 'B.login': 'table1.C1', 'C': 'table1.C1'}, []),
('OneFetchStep', [('DISTINCT Any B,C ORDERBY C WHERE A created_by B, B login C, EXISTS(B owned_by 5), B is CWUser, A is IN(Bookmark, Tag)',
[{'A': 'Bookmark', 'B': 'CWUser', 'C': 'String'},
{'A': 'Tag', 'B': 'CWUser', 'C': 'String'}])],
None, None, [self.system],
{'A': 'table0.C0',
'B': 'table1.C0', 'B.login': 'table1.C1',
'C': 'table1.C1',
'N': 'table0.C1'},
[])],
{'E': self.session.user.eid})
def test_subquery_2(self):
self._test('DISTINCT Any B,C ORDERBY C WHERE A created_by B, B login C, EXISTS(B owned_by D), D eid %(E)s '
'WITH A,N BEING ((Any X,N WHERE X is Tag, X name N) UNION (Any X,T WHERE X is Card, X title T))',
[('UnionFetchStep',
[('FetchStep', [('Any X,N WHERE X is Tag, X name N', [{'N': 'String', 'X': 'Tag'}])],
[self.system], {},
{'N': 'table0.C1',
'T': 'table0.C1',
'X': 'table0.C0',
'X.name': 'table0.C1',
'X.title': 'table0.C1'}, []),
('FetchStep', [('Any X,T WHERE X is Card, X title T',
[{'T': 'String', 'X': 'Card'}])],
[self.cards, self.system], {},
{'N': 'table0.C1',
'T': 'table0.C1',
'X': 'table0.C0',
'X.name': 'table0.C1',
'X.title': 'table0.C1'}, []),
]),
('FetchStep',
[('Any B,C WHERE B login C, B is CWUser', [{'B': 'CWUser', 'C': 'String'}])],
[self.ldap, self.system], None, {'B': 'table1.C0', 'B.login': 'table1.C1', 'C': 'table1.C1'}, []),
('OneFetchStep', [('DISTINCT Any B,C ORDERBY C WHERE A created_by B, B login C, EXISTS(B owned_by 5), B is CWUser, A is IN(Card, Tag)',
[{'A': 'Card', 'B': 'CWUser', 'C': 'String'},
{'A': 'Tag', 'B': 'CWUser', 'C': 'String'}])],
None, None, [self.system],
{'A': 'table0.C0',
'B': 'table1.C0', 'B.login': 'table1.C1',
'C': 'table1.C1',
'N': 'table0.C1'},
[])],
{'E': self.session.user.eid})
def test_eid_dont_cross_relation_1(self):
repo._type_source_cache[999999] = ('Personne', 'system', 999999)
self._test('Any Y,YT WHERE X eid %(x)s, X fiche Y, Y title YT',
[('OneFetchStep', [('Any Y,YT WHERE X eid 999999, X fiche Y, Y title YT',
[{'X': 'Personne', 'Y': 'Card', 'YT': 'String'}])],
None, None, [self.system], {}, [])],
{'x': 999999})
def test_eid_dont_cross_relation_2(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self.cards.dont_cross_relations.add('concerne')
try:
self._test('Any Y,S,YT,X WHERE Y concerne X, Y in_state S, X eid 999999, Y ref YT',
[('OneFetchStep', [('Any Y,S,YT,999999 WHERE Y concerne 999999, Y in_state S, Y ref YT',
[{'Y': 'Affaire', 'YT': 'String', 'S': 'State'}])],
None, None, [self.system], {}, [])],
{'x': 999999})
finally:
self.cards.dont_cross_relations.remove('concerne')
# external source w/ .cross_relations == ['multisource_crossed_rel'] ######
def test_crossed_relation_eid_1_invariant(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any Y WHERE X eid %(x)s, X multisource_crossed_rel Y',
[('OneFetchStep', [('Any Y WHERE 999999 multisource_crossed_rel Y', [{u'Y': 'Note'}])],
None, None, [self.system], {}, [])
],
{'x': 999999,})
def test_crossed_relation_eid_1_needattr(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any Y,T WHERE X eid %(x)s, X multisource_crossed_rel Y, Y type T',
[('FetchStep', [('Any Y,T WHERE Y type T, Y is Note', [{'T': 'String', 'Y': 'Note'}])],
[self.cards, self.system], None,
{'T': 'table0.C1', 'Y': 'table0.C0', 'Y.type': 'table0.C1'}, []),
('OneFetchStep', [('Any Y,T WHERE 999999 multisource_crossed_rel Y, Y type T, Y is Note',
[{'T': 'String', 'Y': 'Note'}])],
None, None, [self.system],
{'T': 'table0.C1', 'Y': 'table0.C0', 'Y.type': 'table0.C1'}, []),
],
{'x': 999999,})
def test_crossed_relation_eid_2_invariant(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any Y WHERE X eid %(x)s, X multisource_crossed_rel Y',
[('OneFetchStep', [('Any Y WHERE 999999 multisource_crossed_rel Y, Y is Note', [{'Y': 'Note'}])],
None, None, [self.cards, self.system], {}, [])
],
{'x': 999999,})
def test_crossed_relation_eid_2_needattr(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any Y,T WHERE X eid %(x)s, X multisource_crossed_rel Y, Y type T',
[('OneFetchStep', [('Any Y,T WHERE 999999 multisource_crossed_rel Y, Y type T, Y is Note',
[{'T': 'String', 'Y': 'Note'}])],
None, None, [self.cards, self.system], {},
[]),
],
{'x': 999999,})
def test_crossed_relation_eid_not_1(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any Y WHERE X eid %(x)s, NOT X multisource_crossed_rel Y',
[('FetchStep', [('Any Y WHERE Y is Note', [{'Y': 'Note'}])],
[self.cards, self.system], None, {'Y': 'table0.C0'}, []),
('OneFetchStep', [('Any Y WHERE NOT EXISTS(999999 multisource_crossed_rel Y), Y is Note',
[{'Y': 'Note'}])],
None, None, [self.system],
{'Y': 'table0.C0'}, [])],
{'x': 999999,})
# def test_crossed_relation_eid_not_2(self):
# repo._type_source_cache[999999] = ('Note', 'cards', 999999)
# self._test('Any Y WHERE X eid %(x)s, NOT X multisource_crossed_rel Y',
# [],
# {'x': 999999,})
def test_crossed_relation_base_XXXFIXME(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any X,Y,T WHERE X multisource_crossed_rel Y, Y type T, X type T',
[('FetchStep', [('Any X,T WHERE X type T, X is Note', [{'T': 'String', 'X': 'Note'}])],
[self.cards, self.system], None,
{'T': 'table0.C1', 'X': 'table0.C0', 'X.type': 'table0.C1'}, []),
('FetchStep', [('Any Y,T WHERE Y type T, Y is Note', [{'T': 'String', 'Y': 'Note'}])],
[self.cards, self.system], None,
{'T': 'table1.C1', 'Y': 'table1.C0', 'Y.type': 'table1.C1'}, []),
('UnionStep', None, None,
[('OneFetchStep', [('Any X,Y,T WHERE X multisource_crossed_rel Y, Y type T, X type T, X is Note, Y is Note',
[{'T': 'String', 'X': 'Note', 'Y': 'Note'}])],
None, None, [self.cards], None,
[]),
('OneFetchStep', [('Any X,Y,T WHERE X multisource_crossed_rel Y, Y type T, X type T, X is Note, Y is Note',
[{'T': 'String', 'X': 'Note', 'Y': 'Note'}])],
None, None, [self.system],
{'T': 'table1.C1', 'X': 'table0.C0', 'X.type': 'table0.C1',
'Y': 'table1.C0', 'Y.type': 'table1.C1'},
[])]
)],
{'x': 999999,})
# edition queries tests ###################################################
def test_insert_simplified_var_1(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'system', None)
self._test('INSERT Note X: X in_state S, X type T WHERE S eid %(s)s, N eid %(n)s, N type T',
[('InsertStep',
[('InsertRelationsStep',
[('OneFetchStep', [('Any T WHERE N eid 999999, N type T, N is Note',
[{'N': 'Note', 'T': 'String'}])],
None, None, [self.cards], {}, [])])
])
],
{'n': 999999, 's': 999998})
def test_insert_simplified_var_2(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'system', None)
self._test('INSERT Note X: X in_state S, X type T, X migrated_from N WHERE S eid %(s)s, N eid %(n)s, N type T',
[('InsertStep',
[('InsertRelationsStep',
[('OneFetchStep', [('Any T WHERE N eid 999999, N type T, N is Note',
[{'N': 'Note', 'T': 'String'}])],
None, None, [self.cards], {}, [])
])
])
],
{'n': 999999, 's': 999998})
def test_insert_simplified_var_3(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'cards', 999998)
self._test('INSERT Note X: X in_state S, X type T WHERE S eid %(s)s, N eid %(n)s, N type T',
[('InsertStep',
[('InsertRelationsStep',
[('OneFetchStep', [('Any T WHERE N eid 999999, N type T, N is Note',
[{'N': 'Note', 'T': 'String'}])],
None, None, [self.cards], {}, [])]
)]
)],
{'n': 999999, 's': 999998})
def test_insert_simplified_var_4(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'system', None)
self._test('INSERT Note X: X in_state S, X type "bla", X migrated_from N WHERE S eid %(s)s, N eid %(n)s',
[('InsertStep',
[('InsertRelationsStep', [])]
)],
{'n': 999999, 's': 999998})
def test_insert_simplified_var_5(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('State', 'system', None)
self._test('INSERT Note X: X in_state S, X type "bla", X migrated_from N WHERE S eid %(s)s, N eid %(n)s, A concerne N',
[('InsertStep',
[('InsertRelationsStep',
[('OneFetchStep',
[('Any A WHERE A concerne 999999, A is Affaire',
[{'A': 'Affaire'}])],
None, None, [self.system], {}, []),
]),
])
],
{'n': 999999, 's': 999998})
def test_delete_relation1(self):
ueid = self.session.user.eid
self._test('DELETE X created_by Y WHERE X eid %(x)s, NOT Y eid %(y)s',
[('DeleteRelationsStep', [
('OneFetchStep', [('Any 5,Y WHERE %s created_by Y, NOT Y eid %s, Y is CWUser'%(ueid, ueid),
[{'Y': 'CWUser'}])],
None, None, [self.system], {}, []),
]),
],
{'x': ueid, 'y': ueid})
def test_delete_relation2(self):
ueid = self.session.user.eid
self._test('DELETE X created_by Y WHERE X eid %(x)s, NOT Y login "syt"',
[('FetchStep', [('Any Y WHERE NOT Y login "syt", Y is CWUser', [{'Y': 'CWUser'}])],
[self.ldap, self.system], None, {'Y': 'table0.C0'}, []),
('DeleteRelationsStep', [
('OneFetchStep', [('Any %s,Y WHERE %s created_by Y, Y is CWUser'%(ueid,ueid), [{'Y': 'CWUser'}])],
None, None, [self.system], {'Y': 'table0.C0'}, []),
]),
],
{'x': ueid, 'y': ueid})
def test_delete_entity1(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('DELETE Note X WHERE X eid %(x)s, NOT Y multisource_rel X',
[('DeleteEntitiesStep',
[('OneFetchStep', [('Any 999999 WHERE NOT EXISTS(Y multisource_rel 999999), Y is IN(Card, Note)',
[{'Y': 'Card'}, {'Y': 'Note'}])],
None, None, [self.system], {}, [])
])
],
{'x': 999999})
def test_delete_entity2(self):
repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('DELETE Note X WHERE X eid %(x)s, NOT X multisource_inlined_rel Y',
[('DeleteEntitiesStep',
[('OneFetchStep', [('Any X WHERE X eid 999999, NOT X multisource_inlined_rel Y, X is Note, Y is IN(Affaire, Note)',
[{'X': 'Note', 'Y': 'Affaire'}, {'X': 'Note', 'Y': 'Note'}])],
None, None, [self.system], {}, [])
])
],
{'x': 999999})
def test_update(self):
self._test('SET X copain Y WHERE X login "comme", Y login "cochon"',
[('FetchStep',
[('Any X WHERE X login "comme", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('FetchStep',
[('Any Y WHERE Y login "cochon", Y is CWUser', [{'Y': 'CWUser'}])],
[self.ldap, self.system], None, {'Y': 'table1.C0'}, []),
('UpdateStep',
[('OneFetchStep',
[('DISTINCT Any X,Y WHERE X is CWUser, Y is CWUser',
[{'X': 'CWUser', 'Y': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0', 'Y': 'table1.C0'}, [])
])
])
def test_update2(self):
self._test('SET U in_group G WHERE G name ~= "bougloup%", U login "admin"',
[('FetchStep', [('Any U WHERE U login "admin", U is CWUser', [{'U': 'CWUser'}])],
[self.ldap, self.system], None, {'U': 'table0.C0'}, []),
('UpdateStep', [
('OneFetchStep', [('DISTINCT Any U,G WHERE G name ILIKE "bougloup%", G is CWGroup, U is CWUser',
[{'U': 'CWUser', 'G': 'CWGroup'}])],
None, None, [self.system], {'U': 'table0.C0'}, []),
]),
])
def test_update3(self):
anoneid = self.user_groups_session('guests').user.eid
# since we are adding a in_state relation for an entity in the system
# source, states should only be searched in the system source as well
self._test('SET X in_state S WHERE X eid %(x)s, S name "deactivated"',
[('UpdateStep', [
('OneFetchStep', [('DISTINCT Any S WHERE S name "deactivated", S is State',
[{'S': 'State'}])],
None, None, [self.system], {}, []),
]),
],
{'x': anoneid})
# def test_update4(self):
# # since we are adding a in_state relation with a state from the system
# # source, CWUser should only be searched only in the system source as well
# rset = self.execute('State X WHERE X name "activated"')
# assert len(rset) == 1, rset
# activatedeid = rset[0][0]
# self._test('SET X in_state S WHERE X is CWUser, S eid %s' % activatedeid,
# [('UpdateStep', [
# ('OneFetchStep', [('DISTINCT Any X,%s WHERE X is CWUser' % activatedeid,
# [{'X': 'CWUser'}])],
# None, None, [self.system], {}, []),
# ]),
# ])
def test_ldap_user_related_to_invariant_and_dont_cross_rel(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self.cards.dont_cross_relations.add('created_by')
try:
self._test('Any X,XL WHERE E eid %(x)s, E created_by X, X login XL',
[('FetchStep', [('Any X,XL WHERE X login XL, X is CWUser',
[{'X': 'CWUser', 'XL': 'String'}])],
[self.ldap, self.system], None,
{'X': 'table0.C0', 'X.login': 'table0.C1', 'XL': 'table0.C1'},
[]),
('OneFetchStep',
[('Any X,XL WHERE 999999 created_by X, X login XL, X is CWUser',
[{'X': 'CWUser', 'XL': 'String'}])],
None, None,
[self.system],
{'X': 'table0.C0', 'X.login': 'table0.C1', 'XL': 'table0.C1'},
[])],
{'x': 999999})
finally:
self.cards.dont_cross_relations.remove('created_by')
def test_ambigous_cross_relation(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self.cards.support_relations['see_also'] = True
self.cards.cross_relations.add('see_also')
try:
self._test('Any X,AA ORDERBY AA WHERE E eid %(x)s, E see_also X, X modification_date AA',
[('AggrStep',
'SELECT table0.C0, table0.C1 FROM table0 ORDER BY table0.C1',
None,
[('FetchStep',
[('Any X,AA WHERE 999999 see_also X, X modification_date AA, X is Note',
[{'AA': 'Datetime', 'X': 'Note'}])], [self.cards, self.system], {},
{'AA': 'table0.C1', 'X': 'table0.C0',
'X.modification_date': 'table0.C1'},
[]),
('FetchStep',
[('Any X,AA WHERE 999999 see_also X, X modification_date AA, X is Bookmark',
[{'AA': 'Datetime', 'X': 'Bookmark'}])],
[self.system], {},
{'AA': 'table0.C1', 'X': 'table0.C0',
'X.modification_date': 'table0.C1'},
[])])],
{'x': 999999})
finally:
del self.cards.support_relations['see_also']
self.cards.cross_relations.remove('see_also')
# non regression tests ####################################################
def test_nonregr1(self):
self._test('Any X, Y WHERE X copain Y, X login "syt", Y login "cochon"',
[('FetchStep',
[('Any X WHERE X login "syt", X is CWUser', [{'X': 'CWUser'}])],
[self.ldap, self.system], None, {'X': 'table0.C0'}, []),
('FetchStep',
[('Any Y WHERE Y login "cochon", Y is CWUser', [{'Y': 'CWUser'}])],
[self.ldap, self.system], None, {'Y': 'table1.C0'}, []),
('OneFetchStep',
[('Any X,Y WHERE X copain Y, X is CWUser, Y is CWUser',
[{'X': 'CWUser', 'Y': 'CWUser'}])],
None, None, [self.system], {'X': 'table0.C0', 'Y': 'table1.C0'}, [])
])
def test_nonregr2(self):
iworkflowable = self.session.user.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
treid = iworkflowable.latest_trinfo().eid
self._test('Any X ORDERBY D DESC WHERE E eid %(x)s, E wf_info_for X, X modification_date D',
[('FetchStep', [('Any X,D WHERE X modification_date D, X is Note',
[{'X': 'Note', 'D': 'Datetime'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'X.modification_date': 'table0.C1', 'D': 'table0.C1'}, []),
('FetchStep', [('Any X,D WHERE X modification_date D, X is CWUser',
[{'X': 'CWUser', 'D': 'Datetime'}])],
[self.ldap, self.system], None, {'X': 'table1.C0', 'X.modification_date': 'table1.C1', 'D': 'table1.C1'}, []),
('AggrStep', 'SELECT table2.C0 FROM table2 ORDER BY table2.C1 DESC', None, [
('FetchStep', [('Any X,D WHERE E eid %s, E wf_info_for X, X modification_date D, E is TrInfo, X is Affaire'%treid,
[{'X': 'Affaire', 'E': 'TrInfo', 'D': 'Datetime'}])],
[self.system],
{},
{'X': 'table2.C0', 'X.modification_date': 'table2.C1', 'D': 'table2.C1', 'E.wf_info_for': 'table2.C0'}, []),
('FetchStep', [('Any X,D WHERE E eid %s, E wf_info_for X, X modification_date D, E is TrInfo, X is CWUser'%treid,
[{'X': 'CWUser', 'E': 'TrInfo', 'D': 'Datetime'}])],
[self.system],
{'X': 'table1.C0', 'X.modification_date': 'table1.C1', 'D': 'table1.C1'},
{'X': 'table2.C0', 'X.modification_date': 'table2.C1', 'D': 'table2.C1', 'E.wf_info_for': 'table2.C0'}, []),
('FetchStep', [('Any X,D WHERE E eid %s, E wf_info_for X, X modification_date D, E is TrInfo, X is Note'%treid,
[{'X': 'Note', 'E': 'TrInfo', 'D': 'Datetime'}])],
[self.system],
{'X': 'table0.C0', 'X.modification_date': 'table0.C1', 'D': 'table0.C1'},
{'X': 'table2.C0', 'X.modification_date': 'table2.C1', 'D': 'table2.C1', 'E.wf_info_for': 'table2.C0'}, []),
]),
],
{'x': treid})
def test_nonregr3(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
self._test('Any X, NOW - CD, P ORDERBY CD DESC LIMIT 5 WHERE P bookmarked_by U, U login "admin", P is X, X creation_date CD',
[('FetchStep', [('Any U WHERE U login "admin", U is CWUser', [{'U': 'CWUser'}])],
[self.ldap, self.system], None, {'U': 'table0.C0'}, []),
('OneFetchStep', [('Any X,(NOW - CD),P ORDERBY CD DESC LIMIT 5 WHERE P bookmarked_by U, P is X, X creation_date CD, P is Bookmark, U is CWUser, X is CWEType',
[{'P': 'Bookmark', 'U': 'CWUser', 'X': 'CWEType', 'CD': 'Datetime'}])],
5, None, [self.system], {'U': 'table0.C0'}, [])]
)
def test_nonregr4(self):
self._test('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',
[#('FetchStep', [('Any U WHERE U is CWUser', [{'U': 'CWUser'}])],
# [self.ldap, self.system], None, {'U': 'table0.C0'}, []),
('OneFetchStep', [('Any U ORDERBY D DESC WHERE WF wf_info_for 5, WF creation_date D, WF from_state FS, WF owned_by U?',
[{'WF': 'TrInfo', 'FS': 'State', 'U': 'CWUser', 'D': 'Datetime'}])],
None, None,
[self.system], {}, [])],
{'x': self.session.user.eid})
def test_nonregr5(self):
# original jpl query:
# DISTINCT Version V WHERE MB done_in MV, MV eid %(x)s,
# MB depends_on B, B done_in V, V version_of P, NOT P eid %(p)s'
cardeid = self.execute('INSERT Card X: X title "hop"')[0][0]
noteeid = self.execute('INSERT Note X')[0][0]
self._test('DISTINCT Card V WHERE MB documented_by MV, MV eid %(x)s, '
'MB depends_on B, B documented_by V, V multisource_rel P, NOT P eid %(p)s',
[('FetchStep', [('Any V WHERE V multisource_rel P, NOT P eid %s, P is Note, V is Card'%noteeid,
[{'P': 'Note', 'V': 'Card'}])],
[self.cards, self.system], None, {'V': 'table0.C0'}, []),
('OneFetchStep', [('DISTINCT Any V WHERE MB documented_by %s, MB depends_on B, B documented_by V, B is Affaire, MB is Affaire, V is Card'%cardeid,
[{'B': 'Affaire', 'MB': 'Affaire', 'V': 'Card'}])],
None, None, [self.system], {'V': 'table0.C0'}, [])],
{'x': cardeid, 'p': noteeid})
def test_nonregr6(self):
self._test('Any X WHERE X concerne Y',
[('OneFetchStep', [('Any X WHERE X concerne Y',
[{'Y': 'Division', 'X': 'Affaire'},
{'Y': 'Note', 'X': 'Affaire'},
{'Y': 'Societe', 'X': 'Affaire'},
{'Y': 'SubDivision', 'X': 'Affaire'},
{'Y': 'Affaire', 'X': 'Personne'}])],
None, None, [self.system], {}, [])
])
self._test('Any X WHERE X concerne Y, Y is Note',
[('FetchStep', [('Any Y WHERE Y is Note', [{'Y': 'Note'}])],
[self.cards, self.system], None, {'Y': 'table0.C0'}, []),
('OneFetchStep', [('Any X WHERE X concerne Y, X is Affaire, Y is Note',
[{'X': 'Affaire', 'Y': 'Note'}])],
None, None, [self.system], {'Y': 'table0.C0'}, [])
])
def test_nonregr7(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any S,SUM(DUR),SUM(I),(SUM(I) - SUM(DUR)),MIN(DI),MAX(DI) GROUPBY S ORDERBY S WHERE A is Affaire, A duration DUR, A invoiced I, A modification_date DI, A in_state S, S name SN, (EXISTS(A concerne WP, W multisource_rel WP)) OR (EXISTS(A concerne W)), W eid %(n)s',
[('FetchStep', [('Any WP WHERE 999999 multisource_rel WP, WP is Note', [{'WP': 'Note'}])],
[self.cards], None, {'WP': u'table0.C0'}, []),
('OneFetchStep', [('Any S,SUM(DUR),SUM(I),(SUM(I) - SUM(DUR)),MIN(DI),MAX(DI) GROUPBY S ORDERBY S WHERE A duration DUR, A invoiced I, A modification_date DI, A in_state S, S name SN, (EXISTS(A concerne WP, WP is Note)) OR (EXISTS(A concerne 999999)), A is Affaire, S is State',
[{'A': 'Affaire', 'DI': 'Datetime', 'DUR': 'Int', 'I': 'Int', 'S': 'State', 'SN': 'String', 'WP': 'Note'}])],
None, None, [self.system], {'WP': u'table0.C0'}, [])],
{'n': 999999})
def test_nonregr8(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X,Z WHERE X eid %(x)s, X multisource_rel Y, Z concerne X',
[('FetchStep', [('Any 999999 WHERE 999999 multisource_rel Y, Y is Note',
[{'Y': 'Note'}])],
[self.cards],
None, {u'%(x)s': 'table0.C0'},
[]),
('OneFetchStep', [('Any 999999,Z WHERE Z concerne 999999, Z is Affaire',
[{'Z': 'Affaire'}])],
None, None, [self.system],
{u'%(x)s': 'table0.C0'}, []),
],
{'x': 999999})
def test_nonregr9(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
repo._type_source_cache[999998] = ('Note', 'cards', 999998)
self._test('SET X migrated_from Y WHERE X eid %(x)s, Y multisource_rel Z, Z eid %(z)s, Y migrated_from Z',
[('FetchStep', [('Any Y WHERE Y multisource_rel 999998, Y is Note', [{'Y': 'Note'}])],
[self.cards], None, {'Y': u'table0.C0'}, []),
('UpdateStep',
[('OneFetchStep', [('DISTINCT Any Y WHERE Y migrated_from 999998, Y is Note',
[{'Y': 'Note'}])],
None, None, [self.system],
{'Y': u'table0.C0'}, [])])],
{'x': 999999, 'z': 999998})
def test_nonregr10(self):
repo._type_source_cache[999999] = ('CWUser', 'ldap', 999999)
self._test('Any X,AA,AB ORDERBY AA WHERE E eid %(x)s, E owned_by X, X login AA, X modification_date AB',
[('FetchStep',
[('Any X,AA,AB WHERE X login AA, X modification_date AB, X is CWUser',
[{'AA': 'String', 'AB': 'Datetime', 'X': 'CWUser'}])],
[self.ldap, self.system], None, {'AA': 'table0.C1', 'AB': 'table0.C2',
'X': 'table0.C0', 'X.login': 'table0.C1', 'X.modification_date': 'table0.C2'},
[]),
('OneFetchStep',
[('Any X,AA,AB ORDERBY AA WHERE 999999 owned_by X, X login AA, X modification_date AB, X is CWUser',
[{'AA': 'String', 'AB': 'Datetime', 'X': 'CWUser'}])],
None, None, [self.system], {'AA': 'table0.C1', 'AB': 'table0.C2',
'X': 'table0.C0', 'X.login': 'table0.C1', 'X.modification_date': 'table0.C2'},
[])
],
{'x': 999999})
def test_nonregr11(self):
repo._type_source_cache[999999] = ('Bookmark', 'system', 999999)
self._test('SET X bookmarked_by Y WHERE X eid %(x)s, Y login "hop"',
[('UpdateStep',
[('OneFetchStep', [('DISTINCT Any Y WHERE Y login "hop", Y is CWUser', [{'Y': 'CWUser'}])],
None, None, [self.ldap, self.system], {}, [])]
)],
{'x': 999999})
def test_nonregr12(self):
repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X ORDERBY Z DESC WHERE X modification_date Z, E eid %(x)s, E see_also X',
[('FetchStep', [('Any X,Z WHERE X modification_date Z, X is Note',
[{'X': 'Note', 'Z': 'Datetime'}])],
[self.cards, self.system], None, {'X': 'table0.C0', 'X.modification_date': 'table0.C1', 'Z': 'table0.C1'},
[]),
('AggrStep', 'SELECT table1.C0 FROM table1 ORDER BY table1.C1 DESC', None,
[('FetchStep', [('Any X,Z WHERE X modification_date Z, 999999 see_also X, X is Bookmark',
[{'X': 'Bookmark', 'Z': 'Datetime'}])],
[self.system], {}, {'X': 'table1.C0', 'X.modification_date': 'table1.C1',
'Z': 'table1.C1'},
[]),
('FetchStep', [('Any X,Z WHERE X modification_date Z, 999999 see_also X, X is Note',
[{'X': 'Note', 'Z': 'Datetime'}])],
[self.system], {'X': 'table0.C0', 'X.modification_date': 'table0.C1',
'Z': 'table0.C1'},
{'X': 'table1.C0', 'X.modification_date': 'table1.C1',
'Z': 'table1.C1'},
[])]
)],
{'x': 999999})
def test_nonregr13_1(self):
# identity wrapped into exists:
# should'nt propagate constraint that U is in the same source as ME
self._test('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)',
[('FetchStep', [('Any U,UL WHERE U login UL, U is CWUser',
[{'U': 'CWUser', 'UL': 'String'}])],
[self.ldap, self.system], None,
{'U': 'table0.C0', 'U.login': 'table0.C1', 'UL': 'table0.C1'},
[]),
('FetchStep', [('Any U,UL WHERE ((EXISTS(U identity 5)) OR (EXISTS(U in_group G, G name IN("managers", "staff"), G is CWGroup))) OR (EXISTS(U in_group H, 5 in_group H, NOT H name "users", H is CWGroup)), U login UL, U is CWUser',
[{'G': 'CWGroup', 'H': 'CWGroup', 'U': 'CWUser', 'UL': 'String'}])],
[self.system],
{'U': 'table0.C0', 'U.login': 'table0.C1', 'UL': 'table0.C1'},
{'U': 'table1.C0', 'U.login': 'table1.C1', 'UL': 'table1.C1'},
[]),
('OneFetchStep', [('Any B,U,UL GROUPBY B,U,UL WHERE B created_by U?, B is File',
[{'B': 'File', 'U': 'CWUser', 'UL': 'String'}])],
None, None, [self.system],
{'U': 'table1.C0', 'UL': 'table1.C1'},
[])],
{'x': self.session.user.eid})
def test_nonregr13_2(self):
# identity *not* wrapped into exists.
#
# XXX this test fail since in this case, in "U identity 5" U and 5 are
# from the same scope so constraints are applied (telling the U should
# come from the same source as user with eid 5).
#
# IMO this is normal, unless we introduce a special case for the
# identity relation. BUT I think it's better to leave it as is and to
# explain constraint propagation rules, and so why this should be
# wrapped in exists() if used in multi-source
self.skipTest('take a look at me if you wish')
self._test('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, (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)',
[('FetchStep', [('Any U,UL WHERE U login UL, U is CWUser',
[{'U': 'CWUser', 'UL': 'String'}])],
[self.ldap, self.system], None,
{'U': 'table0.C0', 'U.login': 'table0.C1', 'UL': 'table0.C1'},
[]),
('FetchStep', [('Any U,UL WHERE ((U identity 5) OR (EXISTS(U in_group G, G name IN("managers", "staff"), G is CWGroup))) OR (EXISTS(U in_group H, 5 in_group H, NOT H name "users", H is CWGroup)), U login UL, U is CWUser',
[{'G': 'CWGroup', 'H': 'CWGroup', 'U': 'CWUser', 'UL': 'String'}])],
[self.system],
{'U': 'table0.C0', 'U.login': 'table0.C1', 'UL': 'table0.C1'},
{'U': 'table1.C0', 'U.login': 'table1.C1', 'UL': 'table1.C1'},
[]),
('OneFetchStep', [('Any B,U,UL GROUPBY B,U,UL WHERE B created_by U?, B is File',
[{'B': 'File', 'U': 'CWUser', 'UL': 'String'}])],
None, None, [self.system],
{'U': 'table1.C0', 'UL': 'table1.C1'},
[])],
{'x': self.session.user.eid})
def test_nonregr14_1(self):
repo._type_source_cache[999999] = ('CWUser', 'ldap', 999999)
self._test('Any X WHERE X eid %(x)s, X owned_by U, U eid %(u)s',
[('OneFetchStep', [('Any 999999 WHERE 999999 owned_by 999999', [{}])],
None, None, [self.system], {}, [])],
{'x': 999999, 'u': 999999})
def test_nonregr14_2(self):
repo._type_source_cache[999999] = ('CWUser', 'ldap', 999999)
repo._type_source_cache[999998] = ('Note', 'system', 999998)
self._test('Any X WHERE X eid %(x)s, X owned_by U, U eid %(u)s',
[('OneFetchStep', [('Any 999998 WHERE 999998 owned_by 999999', [{}])],
None, None, [self.system], {}, [])],
{'x': 999998, 'u': 999999})
def test_nonregr14_3(self):
repo._type_source_cache[999999] = ('CWUser', 'system', 999999)
repo._type_source_cache[999998] = ('CWUser', 'ldap', 999998)
self._test('Any X WHERE X eid %(x)s, X owned_by U, U eid %(u)s',
[('OneFetchStep', [('Any 999998 WHERE 999998 owned_by 999999', [{}])],
None, None, [self.system], {}, [])],
{'x': 999998, 'u': 999999})
def test_nonregr_identity_no_source_access_1(self):
repo._type_source_cache[999999] = ('CWUser', 'ldap', 999998)
self._test('Any S WHERE S identity U, S eid %(s)s, U eid %(u)s',
[('OneFetchStep', [('Any 999999 WHERE 999999 identity 999999', [{}])],
None, None, [self.system], {}, [])],
{'s': 999999, 'u': 999999})
def test_nonregr_identity_no_source_access_2(self):
repo._type_source_cache[999999] = ('EmailAddress', 'system', 999999)
repo._type_source_cache[999998] = ('CWUser', 'ldap', 999998)
self._test('Any X WHERE O use_email X, ((EXISTS(O identity U)) OR (EXISTS(O in_group G, G name IN("managers", "staff")))) OR (EXISTS(O in_group G2, U in_group G2, NOT G2 name "users")), X eid %(x)s, U eid %(u)s',
[('OneFetchStep', [('Any 999999 WHERE O use_email 999999, ((EXISTS(O identity 999998)) OR (EXISTS(O in_group G, G name IN("managers", "staff")))) OR (EXISTS(O in_group G2, 999998 in_group G2, NOT G2 name "users"))',
[{'G': 'CWGroup', 'G2': 'CWGroup', 'O': 'CWUser'}])],
None, None, [self.system], {}, [])],
{'x': 999999, 'u': 999998})
def test_state_of_cross(self):
self._test('DELETE State X WHERE NOT X state_of Y',
[('DeleteEntitiesStep',
[('OneFetchStep',
[('Any X WHERE NOT X state_of Y, X is State, Y is Workflow',
[{'X': 'State', 'Y': 'Workflow'}])],
None, None, [self.system], {}, [])])]
)
class MSPlannerTwoSameExternalSourcesTC(BasePlannerTC):
"""test planner related feature on a 3-sources repository:
* 2 rql sources supporting Card
"""
repo = repo
def setUp(self):
self.setup()
self.add_source(FakeCardSource, 'cards')
self.add_source(FakeCardSource, 'cards2')
self.planner = MSPlanner(self.o.schema, self.repo.vreg.rqlhelper)
assert repo.sources_by_uri['cards2'].support_relation('multisource_crossed_rel')
assert 'multisource_crossed_rel' in repo.sources_by_uri['cards2'].cross_relations
assert repo.sources_by_uri['cards'].support_relation('multisource_crossed_rel')
assert 'multisource_crossed_rel' in repo.sources_by_uri['cards'].cross_relations
_test = test_plan
def test_linked_external_entities(self):
repo._type_source_cache[999999] = ('Tag', 'system', 999999)
self._test('Any X,XT WHERE X is Card, X title XT, T tags X, T eid %(t)s',
[('FetchStep',
[('Any X,XT WHERE X title XT, X is Card', [{'X': 'Card', 'XT': 'String'}])],
[self.cards, self.cards2, self.system],
None, {'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'},
[]),
('OneFetchStep',
[('Any X,XT WHERE X title XT, 999999 tags X, X is Card',
[{'X': 'Card', 'XT': 'String'}])],
None, None, [self.system],
{'X': 'table0.C0', 'X.title': 'table0.C1', 'XT': 'table0.C1'},
[])],
{'t': 999999})
def test_version_depends_on(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X,AD,AE WHERE E eid %(x)s, E migrated_from X, X in_state AD, AD name AE',
[('FetchStep', [('Any X,AD,AE WHERE X in_state AD, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
[self.cards, self.cards2, self.system],
None, {'AD': 'table0.C1', 'AD.name': 'table0.C2',
'AE': 'table0.C2', 'X': 'table0.C0'},
[]),
('OneFetchStep', [('Any X,AD,AE WHERE 999999 migrated_from X, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
None, None, [self.system],
{'AD': 'table0.C1', 'AD.name': 'table0.C2', 'AE': 'table0.C2', 'X': 'table0.C0'},
[])],
{'x': 999999})
def test_version_crossed_depends_on_1(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X,AD,AE WHERE E eid %(x)s, E multisource_crossed_rel X, X in_state AD, AD name AE',
[('FetchStep', [('Any X,AD,AE WHERE X in_state AD, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
[self.cards, self.cards2, self.system],
None, {'AD': 'table0.C1', 'AD.name': 'table0.C2',
'AE': 'table0.C2', 'X': 'table0.C0'},
[]),
('UnionStep', None, None,
[('OneFetchStep', [('Any X,AD,AE WHERE 999999 multisource_crossed_rel X, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
None, None, [self.cards], None,
[]),
('OneFetchStep', [('Any X,AD,AE WHERE 999999 multisource_crossed_rel X, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
None, None, [self.system],
{'AD': 'table0.C1', 'AD.name': 'table0.C2',
'AE': 'table0.C2', 'X': 'table0.C0'},
[])]
)],
{'x': 999999})
def test_version_crossed_depends_on_2(self):
self.repo._type_source_cache[999999] = ('Note', 'system', 999999)
self._test('Any X,AD,AE WHERE E eid %(x)s, E multisource_crossed_rel X, X in_state AD, AD name AE',
[('FetchStep', [('Any X,AD,AE WHERE X in_state AD, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
[self.cards, self.cards2, self.system],
None, {'AD': 'table0.C1', 'AD.name': 'table0.C2',
'AE': 'table0.C2', 'X': 'table0.C0'},
[]),
('OneFetchStep', [('Any X,AD,AE WHERE 999999 multisource_crossed_rel X, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
None, None, [self.system],
{'AD': 'table0.C1', 'AD.name': 'table0.C2', 'AE': 'table0.C2', 'X': 'table0.C0'},
[])],
{'x': 999999})
def test_version_crossed_depends_on_3(self):
self._test('Any X,AD,AE WHERE E multisource_crossed_rel X, X in_state AD, AD name AE, E is Note',
[('FetchStep', [('Any X,AD,AE WHERE X in_state AD, AD name AE, AD is State, X is Note',
[{'AD': 'State', 'AE': 'String', 'X': 'Note'}])],
[self.cards, self.cards2, self.system],
None, {'AD': 'table0.C1', 'AD.name': 'table0.C2',
'AE': 'table0.C2', 'X': 'table0.C0'},
[]),
('FetchStep', [('Any E WHERE E is Note', [{'E': 'Note'}])],
[self.cards, self.cards2, self.system],
None, {'E': 'table1.C0'},
[]),
('UnionStep', None, None,
[('OneFetchStep', [('Any X,AD,AE WHERE E multisource_crossed_rel X, AD name AE, AD is State, E is Note, X is Note',
[{'AD': 'State', 'AE': 'String', 'E': 'Note', 'X': 'Note'}])],
None, None, [self.cards, self.cards2], None,
[]),
('OneFetchStep', [('Any X,AD,AE WHERE E multisource_crossed_rel X, AD name AE, AD is State, E is Note, X is Note',
[{'AD': 'State', 'AE': 'String', 'E': 'Note', 'X': 'Note'}])],
None, None, [self.system],
{'AD': 'table0.C1',
'AD.name': 'table0.C2',
'AE': 'table0.C2',
'E': 'table1.C0',
'X': 'table0.C0'},
[])]
)]
)
def test_nonregr_dont_cross_rel_source_filtering_1(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any S WHERE E eid %(x)s, E in_state S, NOT S name "moved"',
[('OneFetchStep', [('Any S WHERE 999999 in_state S, NOT S name "moved", S is State',
[{'S': 'State'}])],
None, None, [self.cards], {}, []
)],
{'x': 999999})
def test_nonregr_dont_cross_rel_source_filtering_2(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X,AA,AB WHERE E eid %(x)s, E in_state X, X name AA, X modification_date AB',
[('OneFetchStep', [('Any X,AA,AB WHERE 999999 in_state X, X name AA, X modification_date AB, X is State',
[{'AA': 'String', 'AB': 'Datetime', 'X': 'State'}])],
None, None, [self.cards], {}, []
)],
{'x': 999999})
def test_nonregr_eid_query(self):
self.repo._type_source_cache[999999] = ('Note', 'cards', 999999)
self._test('Any X WHERE X eid 999999',
[('OneFetchStep', [('Any 999999', [{}])],
None, None, [self.system], {}, []
)],
{'x': 999999})
def test_nonregr_not_is(self):
self._test("Any X WHERE X owned_by U, U login 'anon', NOT X is Comment",
[('FetchStep', [('Any X WHERE X is IN(Card, Note, State)',
[{'X': 'Note'}, {'X': 'State'}, {'X': 'Card'}])],
[self.cards, self.cards2, self.system],
None, {'X': 'table0.C0'}, []),
('UnionStep', None, None,
[('OneFetchStep',
[(u'Any X WHERE X owned_by U, U login "anon", U is CWUser, X is IN(Affaire, BaseTransition, Basket, Bookmark, CWAttribute, CWCache, CWConstraint, CWConstraintType, CWEType, CWGroup, CWPermission, CWProperty, CWRType, CWRelation, CWUniqueTogetherConstraint, CWUser, Division, Email, EmailAddress, EmailPart, EmailThread, ExternalUri, File, Folder, Personne, RQLExpression, Societe, SubDivision, SubWorkflowExitPoint, Tag, TrInfo, Transition, Workflow, WorkflowTransition)',
[{'U': 'CWUser', 'X': 'Affaire'},
{'U': 'CWUser', 'X': 'BaseTransition'},
{'U': 'CWUser', 'X': 'Basket'},
{'U': 'CWUser', 'X': 'Bookmark'},
{'U': 'CWUser', 'X': 'CWAttribute'},
{'U': 'CWUser', 'X': 'CWCache'},
{'U': 'CWUser', 'X': 'CWConstraint'},
{'U': 'CWUser', 'X': 'CWConstraintType'},
{'U': 'CWUser', 'X': 'CWEType'},
{'U': 'CWUser', 'X': 'CWGroup'},
{'U': 'CWUser', 'X': 'CWPermission'},
{'U': 'CWUser', 'X': 'CWProperty'},
{'U': 'CWUser', 'X': 'CWRType'},
{'U': 'CWUser', 'X': 'CWRelation'},
{'U': 'CWUser', 'X': 'CWUniqueTogetherConstraint'},
{'U': 'CWUser', 'X': 'CWUser'},
{'U': 'CWUser', 'X': 'Division'},
{'U': 'CWUser', 'X': 'Email'},
{'U': 'CWUser', 'X': 'EmailAddress'},
{'U': 'CWUser', 'X': 'EmailPart'},
{'U': 'CWUser', 'X': 'EmailThread'},
{'U': 'CWUser', 'X': 'ExternalUri'},
{'U': 'CWUser', 'X': 'File'},
{'U': 'CWUser', 'X': 'Folder'},
{'U': 'CWUser', 'X': 'Personne'},
{'U': 'CWUser', 'X': 'RQLExpression'},
{'U': 'CWUser', 'X': 'Societe'},
{'U': 'CWUser', 'X': 'SubDivision'},
{'U': 'CWUser', 'X': 'SubWorkflowExitPoint'},
{'U': 'CWUser', 'X': 'Tag'},
{'U': 'CWUser', 'X': 'TrInfo'},
{'U': 'CWUser', 'X': 'Transition'},
{'U': 'CWUser', 'X': 'Workflow'},
{'U': 'CWUser', 'X': 'WorkflowTransition'}])],
None, None,
[self.system], {}, []),
('OneFetchStep',
[(u'Any X WHERE X owned_by U, U login "anon", U is CWUser, X is IN(Card, Note, State)',
[{'U': 'CWUser', 'X': 'Note'},
{'U': 'CWUser', 'X': 'State'},
{'U': 'CWUser', 'X': 'Card'}])],
None, None,
[self.system], {'X': 'table0.C0'}, [])
])
])
class FakeVCSSource(AbstractSource):
uri = 'ccc'
support_entities = {'Card': True, 'Note': True}
support_relations = {'multisource_inlined_rel': True,
'multisource_rel': True}
def syntax_tree_search(self, *args, **kwargs):
return []
class MSPlannerVCSSource(BasePlannerTC):
repo = repo
def setUp(self):
self.setup()
self.add_source(FakeVCSSource, 'vcs')
self.planner = MSPlanner(self.o.schema, self.repo.vreg.rqlhelper)
_test = test_plan
def test_multisource_inlined_rel_skipped(self):
self._test('Any MAX(VC) '
'WHERE VC multisource_inlined_rel R2, R para %(branch)s, VC in_state S, S name "published", '
'(EXISTS(R identity R2)) OR (EXISTS(R multisource_rel R2))',
[('FetchStep', [('Any VC WHERE VC multisource_inlined_rel R2, R para "???", (EXISTS(R identity R2)) OR (EXISTS(R multisource_rel R2)), R is Note, R2 is Note, VC is Note',
[{'R': 'Note', 'R2': 'Note', 'VC': 'Note'}])],
[self.vcs, self.system], None,
{'VC': 'table0.C0'},
[]),
('OneFetchStep', [(u'Any MAX(VC) WHERE VC in_state S, S name "published", S is State, VC is Note',
[{'S': 'State', 'VC': 'Note'}])],
None, None, [self.system],
{'VC': 'table0.C0'},
[])
])
def test_fully_simplified_extsource(self):
self.repo._type_source_cache[999998] = ('Note', 'vcs', 999998)
self.repo._type_source_cache[999999] = ('Note', 'vcs', 999999)
self._test('Any X, Y WHERE NOT X multisource_rel Y, X eid 999998, Y eid 999999',
[('OneFetchStep', [('Any 999998,999999 WHERE NOT EXISTS(999998 multisource_rel 999999)', [{}])],
None, None, [self.vcs], {}, [])
])
def test_nonregr_fully_simplified_extsource(self):
self.repo._type_source_cache[999998] = ('Note', 'vcs', 999998)
self.repo._type_source_cache[999999] = ('Note', 'vcs', 999999)
self.repo._type_source_cache[1000000] = ('Note', 'system', 1000000)
self._test('DISTINCT Any T,FALSE,L,M WHERE L eid 1000000, M eid 999999, T eid 999998',
[('OneFetchStep', [('DISTINCT Any 999998,FALSE,1000000,999999', [{}])],
None, None, [self.system], {}, [])
])
if __name__ == '__main__':
from logilab.common.testlib import unittest_main
unittest_main()