[server/session] Implement anonymous_session
Now we have a simple rule to compute if a session is anonymous we can implement
the property for server session too. Having it on server side session will helps
the rework of the API to access repository. The new schema drop the concept of
DBAPISession and use server side session for the same purpose.
Related to #2953943
Related to #2503918
# copyright 2003-2012 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 cubicweb import ValidationError
from cubicweb.devtools.testlib import CubicWebTC
def add_wf(self, etype, name=None, default=False):
if name is None:
name = etype
return self.shell().add_workflow(name, etype, default=default,
ensure_workflowable=False)
def parse_hist(wfhist):
return [(ti.previous_state.name, ti.new_state.name,
ti.transition and ti.transition.name, ti.comment)
for ti in wfhist]
class WorkflowBuildingTC(CubicWebTC):
def test_wf_construction(self):
wf = add_wf(self, 'Company')
foo = wf.add_state(u'foo', initial=True)
bar = wf.add_state(u'bar')
self.assertEqual(wf.state_by_name('bar').eid, bar.eid)
self.assertEqual(wf.state_by_name('barrr'), None)
baz = wf.add_transition(u'baz', (foo,), bar, ('managers',))
self.assertEqual(wf.transition_by_name('baz').eid, baz.eid)
self.assertEqual(len(baz.require_group), 1)
self.assertEqual(baz.require_group[0].name, 'managers')
def test_duplicated_state(self):
wf = add_wf(self, 'Company')
wf.add_state(u'foo', initial=True)
self.commit()
wf.add_state(u'foo')
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual({'name-subject': 'workflow already has a state of that name'},
cm.exception.errors)
# no pb if not in the same workflow
wf2 = add_wf(self, 'Company')
foo = wf2.add_state(u'foo', initial=True)
self.commit()
# gnark gnark
bar = wf.add_state(u'bar')
self.commit()
bar.cw_set(name=u'foo')
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual({'name-subject': 'workflow already has a state of that name'},
cm.exception.errors)
def test_duplicated_transition(self):
wf = add_wf(self, 'Company')
foo = wf.add_state(u'foo', initial=True)
bar = wf.add_state(u'bar')
wf.add_transition(u'baz', (foo,), bar, ('managers',))
wf.add_transition(u'baz', (bar,), foo)
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual(cm.exception.errors, {'name-subject': 'workflow already have a transition of that name'})
# no pb if not in the same workflow
wf2 = add_wf(self, 'Company')
foo = wf.add_state(u'foo', initial=True)
bar = wf.add_state(u'bar')
wf.add_transition(u'baz', (foo,), bar, ('managers',))
self.commit()
# gnark gnark
biz = wf.add_transition(u'biz', (bar,), foo)
self.commit()
biz.cw_set(name=u'baz')
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual(cm.exception.errors, {'name-subject': 'workflow already have a transition of that name'})
class WorkflowTC(CubicWebTC):
def setup_database(self):
req = self.request()
rschema = self.schema['in_state']
for rdef in rschema.rdefs.itervalues():
self.assertEqual(rdef.cardinality, '1*')
self.member = self.create_user(req, 'member')
def test_workflow_base(self):
req = self.request()
e = self.create_user(req, 'toto')
iworkflowable = e.cw_adapt_to('IWorkflowable')
self.assertEqual(iworkflowable.state, 'activated')
iworkflowable.change_state('deactivated', u'deactivate 1')
self.commit()
iworkflowable.change_state('activated', u'activate 1')
self.commit()
iworkflowable.change_state('deactivated', u'deactivate 2')
self.commit()
e.cw_clear_relation_cache('wf_info_for', 'object')
self.assertEqual([tr.comment for tr in e.reverse_wf_info_for],
['deactivate 1', 'activate 1', 'deactivate 2'])
self.assertEqual(iworkflowable.latest_trinfo().comment, 'deactivate 2')
def test_possible_transitions(self):
user = self.execute('CWUser X').get_entity(0, 0)
iworkflowable = user.cw_adapt_to('IWorkflowable')
trs = list(iworkflowable.possible_transitions())
self.assertEqual(len(trs), 1)
self.assertEqual(trs[0].name, u'deactivate')
self.assertEqual(trs[0].destination(None).name, u'deactivated')
# test a std user get no possible transition
cnx = self.login('member')
req = self.request()
# fetch the entity using the new session
trs = list(req.user.cw_adapt_to('IWorkflowable').possible_transitions())
self.assertEqual(len(trs), 0)
cnx.close()
def _test_manager_deactivate(self, user):
iworkflowable = user.cw_adapt_to('IWorkflowable')
user.cw_clear_relation_cache('in_state', 'subject')
self.assertEqual(len(user.in_state), 1)
self.assertEqual(iworkflowable.state, 'deactivated')
trinfo = iworkflowable.latest_trinfo()
self.assertEqual(trinfo.previous_state.name, 'activated')
self.assertEqual(trinfo.new_state.name, 'deactivated')
self.assertEqual(trinfo.comment, 'deactivate user')
self.assertEqual(trinfo.comment_format, 'text/plain')
return trinfo
def test_change_state(self):
user = self.user()
iworkflowable = user.cw_adapt_to('IWorkflowable')
iworkflowable.change_state('deactivated', comment=u'deactivate user')
trinfo = self._test_manager_deactivate(user)
self.assertEqual(trinfo.transition, None)
def test_set_in_state_bad_wf(self):
wf = add_wf(self, 'CWUser')
s = wf.add_state(u'foo', initial=True)
self.commit()
with self.session.security_enabled(write=False):
with self.assertRaises(ValidationError) as cm:
self.session.execute('SET X in_state S WHERE X eid %(x)s, S eid %(s)s',
{'x': self.user().eid, 's': s.eid})
self.assertEqual(cm.exception.errors, {'in_state-subject': "state doesn't belong to entity's workflow. "
"You may want to set a custom workflow for this entity first."})
def test_fire_transition(self):
user = self.user()
iworkflowable = user.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate', comment=u'deactivate user')
user.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'deactivated')
self._test_manager_deactivate(user)
trinfo = self._test_manager_deactivate(user)
self.assertEqual(trinfo.transition.name, 'deactivate')
def test_goback_transition(self):
req = self.request()
wf = req.user.cw_adapt_to('IWorkflowable').current_workflow
asleep = wf.add_state('asleep')
wf.add_transition('rest', (wf.state_by_name('activated'),
wf.state_by_name('deactivated')),
asleep)
wf.add_transition('wake up', asleep)
user = self.create_user(req, 'stduser')
iworkflowable = user.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('rest')
self.commit()
iworkflowable.fire_transition('wake up')
self.commit()
self.assertEqual(iworkflowable.state, 'activated')
iworkflowable.fire_transition('deactivate')
self.commit()
iworkflowable.fire_transition('rest')
self.commit()
iworkflowable.fire_transition('wake up')
self.commit()
user.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'deactivated')
# XXX test managers can change state without matching transition
def _test_stduser_deactivate(self):
ueid = self.member.eid
req = self.request()
self.create_user(req, 'tutu')
cnx = self.login('tutu')
req = self.request()
iworkflowable = req.entity_from_eid(self.member.eid).cw_adapt_to('IWorkflowable')
with self.assertRaises(ValidationError) as cm:
iworkflowable.fire_transition('deactivate')
self.assertEqual(cm.exception.errors, {'by_transition-subject': "transition may not be fired"})
cnx.close()
cnx = self.login('member')
req = self.request()
iworkflowable = req.entity_from_eid(self.member.eid).cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
cnx.commit()
with self.assertRaises(ValidationError) as cm:
iworkflowable.fire_transition('activate')
self.assertEqual(cm.exception.errors, {'by_transition-subject': "transition may not be fired"})
cnx.close()
def test_fire_transition_owned_by(self):
self.execute('INSERT RQLExpression X: X exprtype "ERQLExpression", '
'X expression "X owned_by U", T condition X '
'WHERE T name "deactivate"')
self._test_stduser_deactivate()
def test_fire_transition_has_update_perm(self):
self.execute('INSERT RQLExpression X: X exprtype "ERQLExpression", '
'X expression "U has_update_permission X", T condition X '
'WHERE T name "deactivate"')
self._test_stduser_deactivate()
def test_swf_base(self):
"""subworkflow
+-----------+ tr1 +-----------+
| swfstate1 | ------>| swfstate2 |
+-----------+ +-----------+
| tr2 +-----------+
`------>| swfstate3 |
+-----------+
main workflow
+--------+ swftr1 +--------+
| state1 | -------[swfstate2]->| state2 |
+--------+ | +--------+
| +--------+
`-[swfstate3]-->| state3 |
+--------+
"""
# sub-workflow
swf = add_wf(self, 'CWGroup', name='subworkflow')
swfstate1 = swf.add_state(u'swfstate1', initial=True)
swfstate2 = swf.add_state(u'swfstate2')
swfstate3 = swf.add_state(u'swfstate3')
tr1 = swf.add_transition(u'tr1', (swfstate1,), swfstate2)
tr2 = swf.add_transition(u'tr2', (swfstate1,), swfstate3)
# main workflow
mwf = add_wf(self, 'CWGroup', name='main workflow', default=True)
state1 = mwf.add_state(u'state1', initial=True)
state2 = mwf.add_state(u'state2')
state3 = mwf.add_state(u'state3')
swftr1 = mwf.add_wftransition(u'swftr1', swf, state1,
[(swfstate2, state2), (swfstate3, state3)])
self.assertEqual(swftr1.destination(None).eid, swfstate1.eid)
# workflows built, begin test
group = self.request().create_entity('CWGroup', name=u'grp1')
self.commit()
iworkflowable = group.cw_adapt_to('IWorkflowable')
self.assertEqual(iworkflowable.current_state.eid, state1.eid)
self.assertEqual(iworkflowable.current_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.main_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.subworkflow_input_transition(), None)
iworkflowable.fire_transition('swftr1', u'go')
self.commit()
group.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_state.eid, swfstate1.eid)
self.assertEqual(iworkflowable.current_workflow.eid, swf.eid)
self.assertEqual(iworkflowable.main_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.subworkflow_input_transition().eid, swftr1.eid)
iworkflowable.fire_transition('tr1', u'go')
self.commit()
group.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_state.eid, state2.eid)
self.assertEqual(iworkflowable.current_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.main_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.subworkflow_input_transition(), None)
# force back to swfstate1 is impossible since we can't any more find
# subworkflow input transition
with self.assertRaises(ValidationError) as cm:
iworkflowable.change_state(swfstate1, u'gadget')
self.assertEqual(cm.exception.errors, {'to_state-subject': "state doesn't belong to entity's workflow"})
self.rollback()
# force back to state1
iworkflowable.change_state('state1', u'gadget')
iworkflowable.fire_transition('swftr1', u'au')
group.cw_clear_all_caches()
iworkflowable.fire_transition('tr2', u'chapeau')
self.commit()
group.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_state.eid, state3.eid)
self.assertEqual(iworkflowable.current_workflow.eid, mwf.eid)
self.assertEqual(iworkflowable.main_workflow.eid, mwf.eid)
self.assertListEqual(parse_hist(iworkflowable.workflow_history),
[('state1', 'swfstate1', 'swftr1', 'go'),
('swfstate1', 'swfstate2', 'tr1', 'go'),
('swfstate2', 'state2', 'swftr1', 'exiting from subworkflow subworkflow'),
('state2', 'state1', None, 'gadget'),
('state1', 'swfstate1', 'swftr1', 'au'),
('swfstate1', 'swfstate3', 'tr2', 'chapeau'),
('swfstate3', 'state3', 'swftr1', 'exiting from subworkflow subworkflow'),
])
def test_swf_exit_consistency(self):
# sub-workflow
swf = add_wf(self, 'CWGroup', name='subworkflow')
swfstate1 = swf.add_state(u'swfstate1', initial=True)
swfstate2 = swf.add_state(u'swfstate2')
tr1 = swf.add_transition(u'tr1', (swfstate1,), swfstate2)
# main workflow
mwf = add_wf(self, 'CWGroup', name='main workflow', default=True)
state1 = mwf.add_state(u'state1', initial=True)
state2 = mwf.add_state(u'state2')
state3 = mwf.add_state(u'state3')
mwf.add_wftransition(u'swftr1', swf, state1,
[(swfstate2, state2), (swfstate2, state3)])
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual(cm.exception.errors, {'subworkflow_exit-subject': u"can't have multiple exits on the same state"})
def test_swf_fire_in_a_row(self):
# sub-workflow
subwf = add_wf(self, 'CWGroup', name='subworkflow')
xsigning = subwf.add_state('xsigning', initial=True)
xaborted = subwf.add_state('xaborted')
xsigned = subwf.add_state('xsigned')
xabort = subwf.add_transition('xabort', (xsigning,), xaborted)
xsign = subwf.add_transition('xsign', (xsigning,), xsigning)
xcomplete = subwf.add_transition('xcomplete', (xsigning,), xsigned,
type=u'auto')
# main workflow
twf = add_wf(self, 'CWGroup', name='mainwf', default=True)
created = twf.add_state(_('created'), initial=True)
identified = twf.add_state(_('identified'))
released = twf.add_state(_('released'))
closed = twf.add_state(_('closed'))
twf.add_wftransition(_('identify'), subwf, (created,),
[(xsigned, identified), (xaborted, created)])
twf.add_wftransition(_('release'), subwf, (identified,),
[(xsigned, released), (xaborted, identified)])
twf.add_wftransition(_('close'), subwf, (released,),
[(xsigned, closed), (xaborted, released)])
self.commit()
group = self.request().create_entity('CWGroup', name=u'grp1')
self.commit()
iworkflowable = group.cw_adapt_to('IWorkflowable')
for trans in ('identify', 'release', 'close'):
iworkflowable.fire_transition(trans)
self.commit()
def test_swf_magic_tr(self):
# sub-workflow
subwf = add_wf(self, 'CWGroup', name='subworkflow')
xsigning = subwf.add_state('xsigning', initial=True)
xaborted = subwf.add_state('xaborted')
xsigned = subwf.add_state('xsigned')
xabort = subwf.add_transition('xabort', (xsigning,), xaborted)
xsign = subwf.add_transition('xsign', (xsigning,), xsigned)
# main workflow
twf = add_wf(self, 'CWGroup', name='mainwf', default=True)
created = twf.add_state(_('created'), initial=True)
identified = twf.add_state(_('identified'))
released = twf.add_state(_('released'))
twf.add_wftransition(_('identify'), subwf, created,
[(xaborted, None), (xsigned, identified)])
twf.add_wftransition(_('release'), subwf, identified,
[(xaborted, None)])
self.commit()
group = self.request().create_entity('CWGroup', name=u'grp1')
self.commit()
iworkflowable = group.cw_adapt_to('IWorkflowable')
for trans, nextstate in (('identify', 'xsigning'),
('xabort', 'created'),
('identify', 'xsigning'),
('xsign', 'identified'),
('release', 'xsigning'),
('xabort', 'identified')
):
iworkflowable.fire_transition(trans)
self.commit()
group.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, nextstate)
class CustomWorkflowTC(CubicWebTC):
def setup_database(self):
req = self.request()
self.member = self.create_user(req, 'member')
def test_custom_wf_replace_state_no_history(self):
"""member in inital state with no previous history, state is simply
redirected when changing workflow
"""
wf = add_wf(self, 'CWUser')
wf.add_state('asleep', initial=True)
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
self.member.cw_clear_all_caches()
iworkflowable = self.member.cw_adapt_to('IWorkflowable')
self.assertEqual(iworkflowable.state, 'activated')# no change before commit
self.commit()
self.member.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_workflow.eid, wf.eid)
self.assertEqual(iworkflowable.state, 'asleep')
self.assertEqual(iworkflowable.workflow_history, ())
def test_custom_wf_replace_state_keep_history(self):
"""member in inital state with some history, state is redirected and
state change is recorded to history
"""
iworkflowable = self.member.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
iworkflowable.fire_transition('activate')
wf = add_wf(self, 'CWUser')
wf.add_state('asleep', initial=True)
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
self.commit()
self.member.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_workflow.eid, wf.eid)
self.assertEqual(iworkflowable.state, 'asleep')
self.assertEqual(parse_hist(iworkflowable.workflow_history),
[('activated', 'deactivated', 'deactivate', None),
('deactivated', 'activated', 'activate', None),
('activated', 'asleep', None, 'workflow changed to "CWUser"')])
def test_custom_wf_no_initial_state(self):
"""try to set a custom workflow which has no initial state"""
iworkflowable = self.member.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
wf = add_wf(self, 'CWUser')
wf.add_state('asleep')
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual(cm.exception.errors, {'custom_workflow-subject': u'workflow has no initial state'})
def test_custom_wf_bad_etype(self):
"""try to set a custom workflow which doesn't apply to entity type"""
wf = add_wf(self, 'Company')
wf.add_state('asleep', initial=True)
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
with self.assertRaises(ValidationError) as cm:
self.commit()
self.assertEqual(cm.exception.errors, {'custom_workflow-subject': u"workflow isn't a workflow for this type"})
def test_del_custom_wf(self):
"""member in some state shared by the new workflow, nothing has to be
done
"""
iworkflowable = self.member.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
wf = add_wf(self, 'CWUser')
wf.add_state('asleep', initial=True)
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
self.commit()
self.execute('DELETE X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': self.member.eid})
self.member.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'asleep')# no change before commit
self.commit()
self.member.cw_clear_all_caches()
self.assertEqual(iworkflowable.current_workflow.name, "default user workflow")
self.assertEqual(iworkflowable.state, 'activated')
self.assertEqual(parse_hist(iworkflowable.workflow_history),
[('activated', 'deactivated', 'deactivate', None),
('deactivated', 'asleep', None, 'workflow changed to "CWUser"'),
('asleep', 'activated', None, 'workflow changed to "default user workflow"'),])
class AutoTransitionTC(CubicWebTC):
def setup_custom_wf(self):
wf = add_wf(self, 'CWUser')
asleep = wf.add_state('asleep', initial=True)
dead = wf.add_state('dead')
wf.add_transition('rest', asleep, asleep)
wf.add_transition('sick', asleep, dead, type=u'auto',
conditions=({'expr': u'X surname "toto"',
'mainvars': u'X'},))
return wf
def test_auto_transition_fired(self):
wf = self.setup_custom_wf()
req = self.request()
user = self.create_user(req, 'member')
iworkflowable = user.cw_adapt_to('IWorkflowable')
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': user.eid})
self.commit()
user.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'asleep')
self.assertEqual([t.name for t in iworkflowable.possible_transitions()],
['rest'])
iworkflowable.fire_transition('rest')
self.commit()
user.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'asleep')
self.assertEqual([t.name for t in iworkflowable.possible_transitions()],
['rest'])
self.assertEqual(parse_hist(iworkflowable.workflow_history),
[('asleep', 'asleep', 'rest', None)])
user.cw_set(surname=u'toto') # fulfill condition
self.commit()
iworkflowable.fire_transition('rest')
self.commit()
user.cw_clear_all_caches()
self.assertEqual(iworkflowable.state, 'dead')
self.assertEqual(parse_hist(iworkflowable.workflow_history),
[('asleep', 'asleep', 'rest', None),
('asleep', 'asleep', 'rest', None),
('asleep', 'dead', 'sick', None),])
def test_auto_transition_custom_initial_state_fired(self):
wf = self.setup_custom_wf()
req = self.request()
user = self.create_user(req, 'member', surname=u'toto')
self.execute('SET X custom_workflow WF WHERE X eid %(x)s, WF eid %(wf)s',
{'wf': wf.eid, 'x': user.eid})
self.commit()
iworkflowable = user.cw_adapt_to('IWorkflowable')
self.assertEqual(iworkflowable.state, 'dead')
def test_auto_transition_initial_state_fired(self):
wf = self.execute('Any WF WHERE ET default_workflow WF, '
'ET name %(et)s', {'et': 'CWUser'}).get_entity(0, 0)
dead = wf.add_state('dead')
wf.add_transition('sick', wf.state_by_name('activated'), dead,
type=u'auto', conditions=({'expr': u'X surname "toto"',
'mainvars': u'X'},))
self.commit()
req = self.request()
user = self.create_user(req, 'member', surname=u'toto')
self.commit()
iworkflowable = user.cw_adapt_to('IWorkflowable')
self.assertEqual(iworkflowable.state, 'dead')
class WorkflowHooksTC(CubicWebTC):
def setUp(self):
CubicWebTC.setUp(self)
req = self.request()
self.wf = req.user.cw_adapt_to('IWorkflowable').current_workflow
self.s_activated = self.wf.state_by_name('activated').eid
self.s_deactivated = self.wf.state_by_name('deactivated').eid
self.s_dummy = self.wf.add_state(u'dummy').eid
self.wf.add_transition(u'dummy', (self.s_deactivated,), self.s_dummy)
ueid = self.create_user(req, 'stduser', commit=False).eid
# test initial state is set
rset = self.execute('Any N WHERE S name N, X in_state S, X eid %(x)s',
{'x' : ueid})
self.assertFalse(rset, rset.rows)
self.commit()
initialstate = self.execute('Any N WHERE S name N, X in_state S, X eid %(x)s',
{'x' : ueid})[0][0]
self.assertEqual(initialstate, u'activated')
# give access to users group on the user's wf transitions
# so we can test wf enforcing on euser (managers don't have anymore this
# enforcement
self.execute('SET X require_group G '
'WHERE G name "users", X transition_of WF, WF eid %(wf)s',
{'wf': self.wf.eid})
self.commit()
# XXX currently, we've to rely on hooks to set initial state, or to use execute
# def test_initial_state(self):
# cnx = self.login('stduser')
# cu = cnx.cursor()
# self.assertRaises(ValidationError, cu.execute,
# 'INSERT CWUser X: X login "badaboum", X upassword %(pwd)s, '
# 'X in_state S WHERE S name "deactivated"', {'pwd': 'oops'})
# cnx.close()
# # though managers can do whatever he want
# self.execute('INSERT CWUser X: X login "badaboum", X upassword %(pwd)s, '
# 'X in_state S, X in_group G WHERE S name "deactivated", G name "users"', {'pwd': 'oops'})
# self.commit()
# test that the workflow is correctly enforced
def _cleanup_msg(self, msg):
"""remove the variable part of one specific error message"""
lmsg = msg.split()
lmsg.pop(1)
lmsg.pop()
return ' '.join(lmsg)
def test_transition_checking1(self):
cnx = self.login('stduser')
user = cnx.user(self.session)
iworkflowable = user.cw_adapt_to('IWorkflowable')
with self.assertRaises(ValidationError) as cm:
iworkflowable.fire_transition('activate')
self.assertEqual(self._cleanup_msg(cm.exception.errors['by_transition-subject']),
u"transition isn't allowed from")
cnx.close()
def test_transition_checking2(self):
cnx = self.login('stduser')
user = cnx.user(self.session)
iworkflowable = user.cw_adapt_to('IWorkflowable')
with self.assertRaises(ValidationError) as cm:
iworkflowable.fire_transition('dummy')
self.assertEqual(self._cleanup_msg(cm.exception.errors['by_transition-subject']),
u"transition isn't allowed from")
cnx.close()
def test_transition_checking3(self):
with self.login('stduser') as cnx:
session = self.session
user = self.user()
iworkflowable = user.cw_adapt_to('IWorkflowable')
iworkflowable.fire_transition('deactivate')
session.commit()
session.set_cnxset()
with self.assertRaises(ValidationError) as cm:
iworkflowable.fire_transition('deactivate')
self.assertEqual(self._cleanup_msg(cm.exception.errors['by_transition-subject']),
u"transition isn't allowed from")
session.rollback()
session.set_cnxset()
# get back now
iworkflowable.fire_transition('activate')
session.commit()
if __name__ == '__main__':
from logilab.common.testlib import unittest_main
unittest_main()