[web] don't rename resources in gen-static-datadir
We should use the result from WebConfiguration.locate_resource to know
which file to copy, not what name to copy it to. The destination file
should be the name of the resource, as the client will request it.
This matters in the case of cubicweb.css which locate_resource might
rewrite to cubicweb.old.css.
Closes #3206129
# 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/>.
"""Core hooks: check for data integrity according to the instance'schema
validity
"""
__docformat__ = "restructuredtext en"
_ = unicode
from threading import Lock
from cubicweb import validation_error
from cubicweb.schema import (META_RTYPES, WORKFLOW_RTYPES,
RQLConstraint, RQLUniqueConstraint)
from cubicweb.predicates import is_instance
from cubicweb.uilib import soup2xhtml
from cubicweb.server import hook
# special relations that don't have to be checked for integrity, usually
# because they are handled internally by hooks (so we trust ourselves)
DONT_CHECK_RTYPES_ON_ADD = META_RTYPES | WORKFLOW_RTYPES
DONT_CHECK_RTYPES_ON_DEL = META_RTYPES | WORKFLOW_RTYPES
_UNIQUE_CONSTRAINTS_LOCK = Lock()
_UNIQUE_CONSTRAINTS_HOLDER = None
def _acquire_unique_cstr_lock(session):
"""acquire the _UNIQUE_CONSTRAINTS_LOCK for the session.
This lock used to avoid potential integrity pb when checking
RQLUniqueConstraint in two different transactions, as explained in
http://intranet.logilab.fr/jpl/ticket/36564
"""
if 'uniquecstrholder' in session.transaction_data:
return
_UNIQUE_CONSTRAINTS_LOCK.acquire()
session.transaction_data['uniquecstrholder'] = True
# register operation responsible to release the lock on commit/rollback
_ReleaseUniqueConstraintsOperation(session)
def _release_unique_cstr_lock(session):
if 'uniquecstrholder' in session.transaction_data:
del session.transaction_data['uniquecstrholder']
_UNIQUE_CONSTRAINTS_LOCK.release()
class _ReleaseUniqueConstraintsOperation(hook.Operation):
def postcommit_event(self):
_release_unique_cstr_lock(self.session)
def rollback_event(self):
_release_unique_cstr_lock(self.session)
class _CheckRequiredRelationOperation(hook.DataOperationMixIn,
hook.LateOperation):
"""checking relation cardinality has to be done after commit in case the
relation is being replaced
"""
containercls = list
role = key = base_rql = None
def precommit_event(self):
session = self.session
pendingeids = session.transaction_data.get('pendingeids', ())
pendingrtypes = session.transaction_data.get('pendingrtypes', ())
for eid, rtype in self.get_data():
# recheck pending eids / relation types
if eid in pendingeids:
continue
if rtype in pendingrtypes:
continue
if not session.execute(self.base_rql % rtype, {'x': eid}):
etype = session.describe(eid)[0]
msg = _('at least one relation %(rtype)s is required on '
'%(etype)s (%(eid)s)')
raise validation_error(eid, {(rtype, self.role): msg},
{'rtype': rtype, 'etype': etype, 'eid': eid},
['rtype', 'etype'])
class _CheckSRelationOp(_CheckRequiredRelationOperation):
"""check required subject relation"""
role = 'subject'
base_rql = 'Any O WHERE S eid %%(x)s, S %s O'
class _CheckORelationOp(_CheckRequiredRelationOperation):
"""check required object relation"""
role = 'object'
base_rql = 'Any S WHERE O eid %%(x)s, S %s O'
class IntegrityHook(hook.Hook):
__abstract__ = True
category = 'integrity'
class CheckCardinalityHookBeforeDeleteRelation(IntegrityHook):
"""check cardinalities are satisfied"""
__regid__ = 'checkcard_before_delete_relation'
events = ('before_delete_relation',)
def __call__(self):
rtype = self.rtype
if rtype in DONT_CHECK_RTYPES_ON_DEL:
return
session = self._cw
eidfrom, eidto = self.eidfrom, self.eidto
rdef = session.rtype_eids_rdef(rtype, eidfrom, eidto)
if (rdef.subject, rtype, rdef.object) in session.transaction_data.get('pendingrdefs', ()):
return
card = rdef.cardinality
if card[0] in '1+' and not session.deleted_in_transaction(eidfrom):
_CheckSRelationOp.get_instance(session).add_data((eidfrom, rtype))
if card[1] in '1+' and not session.deleted_in_transaction(eidto):
_CheckORelationOp.get_instance(session).add_data((eidto, rtype))
class CheckCardinalityHookAfterAddEntity(IntegrityHook):
"""check cardinalities are satisfied"""
__regid__ = 'checkcard_after_add_entity'
events = ('after_add_entity',)
def __call__(self):
eid = self.entity.eid
eschema = self.entity.e_schema
for rschema, targetschemas, role in eschema.relation_definitions():
# skip automatically handled relations
if rschema.type in DONT_CHECK_RTYPES_ON_ADD:
continue
rdef = rschema.role_rdef(eschema, targetschemas[0], role)
if rdef.role_cardinality(role) in '1+':
if role == 'subject':
op = _CheckSRelationOp.get_instance(self._cw)
else:
op = _CheckORelationOp.get_instance(self._cw)
op.add_data((eid, rschema.type))
class _CheckConstraintsOp(hook.DataOperationMixIn, hook.LateOperation):
""" check a new relation satisfy its constraints """
containercls = list
def precommit_event(self):
session = self.session
for values in self.get_data():
eidfrom, rtype, eidto, constraints = values
# first check related entities have not been deleted in the same
# transaction
if session.deleted_in_transaction(eidfrom):
continue
if session.deleted_in_transaction(eidto):
continue
for constraint in constraints:
# XXX
# * lock RQLConstraint as well?
# * use a constraint id to use per constraint lock and avoid
# unnecessary commit serialization ?
if isinstance(constraint, RQLUniqueConstraint):
_acquire_unique_cstr_lock(session)
try:
constraint.repo_check(session, eidfrom, rtype, eidto)
except NotImplementedError:
self.critical('can\'t check constraint %s, not supported',
constraint)
class CheckConstraintHook(IntegrityHook):
"""check the relation satisfy its constraints
this is delayed to a precommit time operation since other relation which
will make constraint satisfied (or unsatisfied) may be added later.
"""
__regid__ = 'checkconstraint'
events = ('after_add_relation',)
def __call__(self):
# XXX get only RQL[Unique]Constraints?
rdef = self._cw.rtype_eids_rdef(self.rtype, self.eidfrom, self.eidto)
constraints = rdef.constraints
if constraints:
_CheckConstraintsOp.get_instance(self._cw).add_data(
(self.eidfrom, self.rtype, self.eidto, constraints))
class CheckAttributeConstraintHook(IntegrityHook):
"""check the attribute relation satisfy its constraints
this is delayed to a precommit time operation since other relation which
will make constraint satisfied (or unsatisfied) may be added later.
"""
__regid__ = 'checkattrconstraint'
events = ('after_add_entity', 'after_update_entity')
def __call__(self):
eschema = self.entity.e_schema
for attr in self.entity.cw_edited:
if eschema.subjrels[attr].final:
constraints = [c for c in eschema.rdef(attr).constraints
if isinstance(c, (RQLUniqueConstraint, RQLConstraint))]
if constraints:
_CheckConstraintsOp.get_instance(self._cw).add_data(
(self.entity.eid, attr, None, constraints))
class CheckUniqueHook(IntegrityHook):
__regid__ = 'checkunique'
events = ('before_add_entity', 'before_update_entity')
def __call__(self):
entity = self.entity
eschema = entity.e_schema
for attr, val in entity.cw_edited.iteritems():
if eschema.subjrels[attr].final and eschema.has_unique_values(attr):
if val is None:
continue
rql = '%s X WHERE X %s %%(val)s' % (entity.e_schema, attr)
rset = self._cw.execute(rql, {'val': val})
if rset and rset[0][0] != entity.eid:
msg = _('the value "%s" is already used, use another one')
raise validation_error(entity, {(attr, 'subject'): msg},
(val,))
class DontRemoveOwnersGroupHook(IntegrityHook):
"""delete the composed of a composite relation when this relation is deleted
"""
__regid__ = 'checkownersgroup'
__select__ = IntegrityHook.__select__ & is_instance('CWGroup')
events = ('before_delete_entity', 'before_update_entity')
def __call__(self):
entity = self.entity
if self.event == 'before_delete_entity' and entity.name == 'owners':
raise validation_error(entity, {None: _("can't be deleted")})
elif self.event == 'before_update_entity' \
and 'name' in entity.cw_edited:
oldname, newname = entity.cw_edited.oldnewvalue('name')
if oldname == 'owners' and newname != oldname:
raise validation_error(entity, {('name', 'subject'): _("can't be changed")})
class TidyHtmlFields(IntegrityHook):
"""tidy HTML in rich text strings"""
__regid__ = 'htmltidy'
events = ('before_add_entity', 'before_update_entity')
def __call__(self):
entity = self.entity
metaattrs = entity.e_schema.meta_attributes()
edited = entity.cw_edited
for metaattr, (metadata, attr) in metaattrs.iteritems():
if metadata == 'format' and attr in edited:
try:
value = edited[attr]
except KeyError:
continue # no text to tidy
if isinstance(value, unicode): # filter out None and Binary
if getattr(entity, str(metaattr)) == 'text/html':
edited[attr] = soup2xhtml(value, self._cw.encoding)
class StripCWUserLoginHook(IntegrityHook):
"""ensure user logins are stripped"""
__regid__ = 'stripuserlogin'
__select__ = IntegrityHook.__select__ & is_instance('CWUser')
events = ('before_add_entity', 'before_update_entity',)
def __call__(self):
login = self.entity.cw_edited.get('login')
if login:
self.entity.cw_edited['login'] = login.strip()
# 'active' integrity hooks: you usually don't want to deactivate them, they are
# not really integrity check, they maintain consistency on changes
class _DelayedDeleteOp(hook.DataOperationMixIn, hook.Operation):
"""delete the object of composite relation except if the relation has
actually been redirected to another composite
"""
base_rql = None
def precommit_event(self):
session = self.session
pendingeids = session.transaction_data.get('pendingeids', ())
eids_by_etype_rtype = {}
for eid, rtype in self.get_data():
# don't do anything if the entity is being deleted
if eid not in pendingeids:
etype = session.describe(eid)[0]
key = (etype, rtype)
if key not in eids_by_etype_rtype:
eids_by_etype_rtype[key] = [str(eid)]
else:
eids_by_etype_rtype[key].append(str(eid))
for (etype, rtype), eids in eids_by_etype_rtype.iteritems():
# quite unexpectedly, not deleting too many entities at a time in
# this operation benefits to the exec speed (possibly on the RQL
# parsing side)
start = 0
incr = 500
while start < len(eids):
session.execute(self.base_rql % (etype, ','.join(eids[start:start+incr]), rtype))
start += incr
class _DelayedDeleteSEntityOp(_DelayedDeleteOp):
"""delete orphan subject entity of a composite relation"""
base_rql = 'DELETE %s X WHERE X eid IN (%s), NOT X %s Y'
class _DelayedDeleteOEntityOp(_DelayedDeleteOp):
"""check required object relation"""
base_rql = 'DELETE %s X WHERE X eid IN (%s), NOT Y %s X'
class DeleteCompositeOrphanHook(hook.Hook):
"""delete the composed of a composite relation when this relation is deleted
"""
__regid__ = 'deletecomposite'
events = ('before_delete_relation',)
category = 'activeintegrity'
def __call__(self):
# if the relation is being delete, don't delete composite's components
# automatically
session = self._cw
rtype = self.rtype
rdef = session.rtype_eids_rdef(rtype, self.eidfrom, self.eidto)
if (rdef.subject, rtype, rdef.object) in session.transaction_data.get('pendingrdefs', ()):
return
composite = rdef.composite
if composite == 'subject':
_DelayedDeleteOEntityOp.get_instance(self._cw).add_data(
(self.eidto, rtype))
elif composite == 'object':
_DelayedDeleteSEntityOp.get_instance(self._cw).add_data(
(self.eidfrom, rtype))