[entity] introduce a new 'adapters' registry
This changeset introduces the notion in adapters (as in Zope Component Architecture)
in a cubicweb way, eg using a specific registry of appobjects.
This allows nicer code structure, by avoid clutering entity classes and moving
code usually specific to a place of the ui (or something else) together with the
code that use the interface.
We don't use actual interface anymore, they are implied by adapters (which
may be abstract), whose reg id is an interface name.
Appobjects that used to 'implements(IFace)' should now be rewritten by:
* coding an IFaceAdapter(EntityAdapter) defining (implementing if desired)
the interface, usually with __regid__ = 'IFace'
* use "adaptable('IFace')" as selector instead
Also, the implements_adapter_compat decorator eases backward compatibility
with adapter's methods that may still be found on entities implementing
the interface.
Notice that unlike ZCA, we don't support automatic adapters chain (yagni?).
All interfaces defined in cubicweb have been turned into adapters, also
some new ones have been introduced to cleanup Entity / AnyEntity classes
namespace. At the end, the pluggable mixins mecanism should disappear in
favor of adapters as well.
# 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 __future__ import with_statement
from cubicweb import ValidationError
from cubicweb.devtools.testlib import CubicWebTC
from cubicweb.transaction import *
class UndoableTransactionTC(CubicWebTC):
def setup_database(self):
self.session.undo_actions = set('CUDAR')
self.toto = self.create_user('toto', password='toto', groups=('users',),
commit=False)
self.txuuid = self.commit()
def tearDown(self):
self.restore_connection()
self.session.undo_support = set()
super(UndoableTransactionTC, self).tearDown()
def check_transaction_deleted(self, txuuid):
# also check transaction actions have been properly deleted
cu = self.session.system_sql(
"SELECT * from tx_entity_actions WHERE tx_uuid='%s'" % txuuid)
self.failIf(cu.fetchall())
cu = self.session.system_sql(
"SELECT * from tx_relation_actions WHERE tx_uuid='%s'" % txuuid)
self.failIf(cu.fetchall())
def test_undo_api(self):
self.failUnless(self.txuuid)
# test transaction api
self.assertRaises(NoSuchTransaction,
self.cnx.transaction_info, 'hop')
self.assertRaises(NoSuchTransaction,
self.cnx.transaction_actions, 'hop')
self.assertRaises(NoSuchTransaction,
self.cnx.undo_transaction, 'hop')
txinfo = self.cnx.transaction_info(self.txuuid)
self.failUnless(txinfo.datetime)
self.assertEquals(txinfo.user_eid, self.session.user.eid)
self.assertEquals(txinfo.user().login, 'admin')
actions = txinfo.actions_list()
self.assertEquals(len(actions), 2)
actions = txinfo.actions_list(public=False)
self.assertEquals(len(actions), 6)
a1 = actions[0]
self.assertEquals(a1.action, 'C')
self.assertEquals(a1.eid, self.toto.eid)
self.assertEquals(a1.etype,'CWUser')
self.assertEquals(a1.changes, None)
self.assertEquals(a1.public, True)
self.assertEquals(a1.order, 1)
a4 = actions[3]
self.assertEquals(a4.action, 'A')
self.assertEquals(a4.rtype, 'in_group')
self.assertEquals(a4.eid_from, self.toto.eid)
self.assertEquals(a4.eid_to, self.toto.in_group[0].eid)
self.assertEquals(a4.order, 4)
for i, rtype in ((1, 'owned_by'), (2, 'owned_by'),
(4, 'in_state'), (5, 'created_by')):
a = actions[i]
self.assertEquals(a.action, 'A')
self.assertEquals(a.eid_from, self.toto.eid)
self.assertEquals(a.rtype, rtype)
self.assertEquals(a.order, i+1)
# test undoable_transactions
txs = self.cnx.undoable_transactions()
self.assertEquals(len(txs), 1)
self.assertEquals(txs[0].uuid, self.txuuid)
# test transaction_info / undoable_transactions security
cnx = self.login('anon')
self.assertRaises(NoSuchTransaction,
cnx.transaction_info, self.txuuid)
self.assertRaises(NoSuchTransaction,
cnx.transaction_actions, self.txuuid)
self.assertRaises(NoSuchTransaction,
cnx.undo_transaction, self.txuuid)
txs = cnx.undoable_transactions()
self.assertEquals(len(txs), 0)
def test_undoable_transactions(self):
toto = self.toto
e = self.session.create_entity('EmailAddress',
address=u'toto@logilab.org',
reverse_use_email=toto)
txuuid1 = self.commit()
toto.delete()
txuuid2 = self.commit()
undoable_transactions = self.cnx.undoable_transactions
txs = undoable_transactions(action='D')
self.assertEquals(len(txs), 1, txs)
self.assertEquals(txs[0].uuid, txuuid2)
txs = undoable_transactions(action='C')
self.assertEquals(len(txs), 2, txs)
self.assertEquals(txs[0].uuid, txuuid1)
self.assertEquals(txs[1].uuid, self.txuuid)
txs = undoable_transactions(eid=toto.eid)
self.assertEquals(len(txs), 3)
self.assertEquals(txs[0].uuid, txuuid2)
self.assertEquals(txs[1].uuid, txuuid1)
self.assertEquals(txs[2].uuid, self.txuuid)
txs = undoable_transactions(etype='CWUser')
self.assertEquals(len(txs), 2)
txs = undoable_transactions(etype='CWUser', action='C')
self.assertEquals(len(txs), 1)
self.assertEquals(txs[0].uuid, self.txuuid)
txs = undoable_transactions(etype='EmailAddress', action='D')
self.assertEquals(len(txs), 0)
txs = undoable_transactions(etype='EmailAddress', action='D',
public=False)
self.assertEquals(len(txs), 1)
self.assertEquals(txs[0].uuid, txuuid2)
txs = undoable_transactions(eid=toto.eid, action='R', public=False)
self.assertEquals(len(txs), 1)
self.assertEquals(txs[0].uuid, txuuid2)
def test_undo_deletion_base(self):
toto = self.toto
e = self.session.create_entity('EmailAddress',
address=u'toto@logilab.org',
reverse_use_email=toto)
# entity with inlined relation
p = self.session.create_entity('CWProperty',
pkey=u'ui.default-text-format',
value=u'text/rest',
for_user=toto)
self.commit()
txs = self.cnx.undoable_transactions()
self.assertEquals(len(txs), 2)
toto.delete()
txuuid = self.commit()
actions = self.cnx.transaction_info(txuuid).actions_list()
self.assertEquals(len(actions), 1)
toto.clear_all_caches()
e.clear_all_caches()
errors = self.cnx.undo_transaction(txuuid)
undotxuuid = self.commit()
self.assertEquals(undotxuuid, None) # undo not undoable
self.assertEquals(errors, [])
self.failUnless(self.execute('Any X WHERE X eid %(x)s', {'x': toto.eid}))
self.failUnless(self.execute('Any X WHERE X eid %(x)s', {'x': e.eid}))
self.failUnless(self.execute('Any X WHERE X has_text "toto@logilab"'))
self.assertEquals(toto.cw_adapt_to('IWorkflowable').state, 'activated')
self.assertEquals(toto.cw_adapt_to('IEmailable').get_email(), 'toto@logilab.org')
self.assertEquals([(p.pkey, p.value) for p in toto.reverse_for_user],
[('ui.default-text-format', 'text/rest')])
self.assertEquals([g.name for g in toto.in_group],
['users'])
self.assertEquals([et.name for et in toto.related('is', entities=True)],
['CWUser'])
self.assertEquals([et.name for et in toto.is_instance_of],
['CWUser'])
# undoing shouldn't be visble in undoable transaction, and the undoed
# transaction should be removed
txs = self.cnx.undoable_transactions()
self.assertEquals(len(txs), 2)
self.assertRaises(NoSuchTransaction,
self.cnx.transaction_info, txuuid)
self.check_transaction_deleted(txuuid)
# the final test: check we can login with the previously deleted user
self.login('toto')
def test_undo_deletion_integrity_1(self):
session = self.session
# 'Personne fiche Card with' '??' cardinality
c = session.create_entity('Card', title=u'hop', content=u'hop')
p = session.create_entity('Personne', nom=u'louis', fiche=c)
self.commit()
c.delete()
txuuid = self.commit()
c2 = session.create_entity('Card', title=u'hip', content=u'hip')
p.set_relations(fiche=c2)
self.commit()
errors = self.cnx.undo_transaction(txuuid)
self.commit()
p.clear_all_caches()
self.assertEquals(p.fiche[0].eid, c2.eid)
self.assertEquals(len(errors), 1)
self.assertEquals(errors[0],
"Can't restore object relation fiche to entity "
"%s which is already linked using this relation." % p.eid)
def test_undo_deletion_integrity_2(self):
# test validation error raised if we can't restore a required relation
session = self.session
g = session.create_entity('CWGroup', name=u'staff')
session.execute('DELETE U in_group G WHERE U eid %(x)s', {'x': self.toto.eid})
self.toto.set_relations(in_group=g)
self.commit()
self.toto.delete()
txuuid = self.commit()
g.delete()
self.commit()
errors = self.cnx.undo_transaction(txuuid)
self.assertEquals(errors,
[u"Can't restore relation in_group, object entity "
"%s doesn't exist anymore." % g.eid])
ex = self.assertRaises(ValidationError, self.commit)
self.assertEquals(ex.entity, self.toto.eid)
self.assertEquals(ex.errors,
{'in_group-subject': u'at least one relation in_group is '
'required on CWUser (%s)' % self.toto.eid})
def test_undo_creation_1(self):
session = self.session
c = session.create_entity('Card', title=u'hop', content=u'hop')
p = session.create_entity('Personne', nom=u'louis', fiche=c)
txuuid = self.commit()
errors = self.cnx.undo_transaction(txuuid)
self.commit()
self.failIf(errors)
self.failIf(self.execute('Any X WHERE X eid %(x)s', {'x': c.eid}))
self.failIf(self.execute('Any X WHERE X eid %(x)s', {'x': p.eid}))
self.failIf(self.execute('Any X,Y WHERE X fiche Y'))
self.session.set_pool()
for eid in (p.eid, c.eid):
self.failIf(session.system_sql(
'SELECT * FROM entities WHERE eid=%s' % eid).fetchall())
self.failIf(session.system_sql(
'SELECT 1 FROM owned_by_relation WHERE eid_from=%s' % eid).fetchall())
# added by sql in hooks (except when using dataimport)
self.failIf(session.system_sql(
'SELECT 1 FROM is_relation WHERE eid_from=%s' % eid).fetchall())
self.failIf(session.system_sql(
'SELECT 1 FROM is_instance_of_relation WHERE eid_from=%s' % eid).fetchall())
self.check_transaction_deleted(txuuid)
def test_undo_creation_integrity_1(self):
session = self.session
tutu = self.create_user('tutu', commit=False)
txuuid = self.commit()
email = self.request().create_entity('EmailAddress', address=u'tutu@cubicweb.org')
prop = self.request().create_entity('CWProperty', pkey=u'ui.default-text-format',
value=u'text/html')
tutu.set_relations(use_email=email, reverse_for_user=prop)
self.commit()
ex = self.assertRaises(ValidationError,
self.cnx.undo_transaction, txuuid)
self.assertEquals(ex.entity, tutu.eid)
self.assertEquals(ex.errors,
{None: 'some later transaction(s) touch entity, undo them first'})
def test_undo_creation_integrity_2(self):
session = self.session
g = session.create_entity('CWGroup', name=u'staff')
txuuid = self.commit()
session.execute('DELETE U in_group G WHERE U eid %(x)s', {'x': self.toto.eid})
self.toto.set_relations(in_group=g)
self.commit()
ex = self.assertRaises(ValidationError,
self.cnx.undo_transaction, txuuid)
self.assertEquals(ex.entity, g.eid)
self.assertEquals(ex.errors,
{None: 'some later transaction(s) touch entity, undo them first'})
# self.assertEquals(errors,
# [u"Can't restore relation in_group, object entity "
# "%s doesn't exist anymore." % g.eid])
# ex = self.assertRaises(ValidationError, self.commit)
# self.assertEquals(ex.entity, self.toto.eid)
# self.assertEquals(ex.errors,
# {'in_group-subject': u'at least one relation in_group is '
# 'required on CWUser (%s)' % self.toto.eid})
# test implicit 'replacement' of an inlined relation