#!/usr/bin/env python # -*- coding: utf-8 -*- # # Tests various schema replication scenarios # # Copyright (C) Kamen Mazdrashki 2010 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # # # Usage: # export DC1=dc1_dns_name # export DC2=dc2_dns_name # export SUBUNITRUN=$samba4srcdir/scripting/bin/subunitrun # PYTHONPATH="$PYTHONPATH:$samba4srcdir/torture/drs/python" $SUBUNITRUN repl_schema -U"$DOMAIN/$DC_USERNAME"%"$DC_PASSWORD" # import time import random from ldb import ( ERR_NO_SUCH_OBJECT, LdbError, SCOPE_BASE, Message, FLAG_MOD_ADD, FLAG_MOD_REPLACE, ) import drs_base class DrsReplSchemaTestCase(drs_base.DrsBaseTestCase): # prefix for all objects created obj_prefix = None # current Class or Attribute object id obj_id = 0 def setUp(self): super(DrsReplSchemaTestCase, self).setUp() # initialize objects prefix if not done yet if self.obj_prefix is None: t = time.strftime("%s", time.gmtime()) DrsReplSchemaTestCase.obj_prefix = "DrsReplSchema-%s" % t def tearDown(self): super(DrsReplSchemaTestCase, self).tearDown() def _make_obj_names(self, base_name): '''Try to create a unique name for an object that is to be added to schema''' self.obj_id += 1 obj_name = "%s-%d-%s" % (self.obj_prefix, self.obj_id, base_name) obj_ldn = obj_name.replace("-", "") obj_dn = "CN=%s,%s" % (obj_name, self.schema_dn) return (obj_dn, obj_name, obj_ldn) def _schema_new_class(self, ldb_ctx, base_name, attrs=None): (class_dn, class_name, class_ldn) = self._make_obj_names(base_name) rec = {"dn": class_dn, "objectClass": ["top", "classSchema"], "cn": class_name, "lDAPDisplayName": class_ldn, "governsId": "1.2.840." + str(random.randint(1,100000)) + ".1.5.13", "instanceType": "4", "objectClassCategory": "1", "subClassOf": "top", "systemOnly": "FALSE"} # allow overriding/adding attributes if not attrs is None: rec.update(attrs) # add it to the Schema try: ldb_ctx.add(rec) except LdbError, (enum, estr): self.fail("Adding record failed with %d/%s" % (enum, estr)) self._ldap_schemaUpdateNow(ldb_ctx) return (rec["lDAPDisplayName"], rec["dn"]) def _schema_new_attr(self, ldb_ctx, base_name, attrs=None): (attr_dn, attr_name, attr_ldn) = self._make_obj_names(base_name) rec = {"dn": attr_dn, "objectClass": ["top", "attributeSchema"], "cn": attr_name, "lDAPDisplayName": attr_ldn, "attributeId": "1.2.841." + str(random.randint(1,100000)) + ".1.5.13", "attributeSyntax": "2.5.5.12", "omSyntax": "64", "instanceType": "4", "isSingleValued": "TRUE", "systemOnly": "FALSE"} # allow overriding/adding attributes if not attrs is None: rec.update(attrs) # add it to the Schema ldb_ctx.add(rec) self._ldap_schemaUpdateNow(ldb_ctx) return (rec["lDAPDisplayName"], rec["dn"]) def _check_object(self, obj_dn): '''Check if object obj_dn exists on both DCs''' res_dc1 = self.ldb_dc1.search(base=obj_dn, scope=SCOPE_BASE, attrs=["*"]) self.assertEquals(len(res_dc1), 1, "%s doesn't exists on %s" % (obj_dn, self.dnsname_dc1)) try: res_dc2 = self.ldb_dc2.search(base=obj_dn, scope=SCOPE_BASE, attrs=["*"]) except LdbError, (enum, estr): if enum == ERR_NO_SUCH_OBJECT: self.fail("%s doesn't exists on %s" % (obj_dn, self.dnsname_dc2)) raise self.assertEquals(len(res_dc2), 1, "%s doesn't exists on %s" % (obj_dn, self.dnsname_dc2)) def test_class(self): """Simple test for classSchema replication""" # add new classSchema object (c_ldn, c_dn) = self._schema_new_class(self.ldb_dc1, "cls-S") # force replication from DC1 to DC2 self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, nc_dn=self.schema_dn) # check object is replicated self._check_object(c_dn) def test_classInheritance(self): """Test inheritance through subClassOf I think 5 levels of inheritance is pretty decent for now.""" # add 5 levels deep hierarchy c_dn_list = [] c_ldn_last = None for i in range(1, 6): base_name = "cls-I-%02d" % i (c_ldn, c_dn) = self._schema_new_class(self.ldb_dc1, base_name) c_dn_list.append(c_dn) if c_ldn_last: # inherit from last class added m = Message.from_dict(self.ldb_dc1, {"dn": c_dn, "subClassOf": c_ldn_last}, FLAG_MOD_REPLACE) self.ldb_dc1.modify(m) # store last class ldapDisplayName c_ldn_last = c_ldn # force replication from DC1 to DC2 self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, nc_dn=self.schema_dn) # check objects are replicated for c_dn in c_dn_list: self._check_object(c_dn) def test_classWithCustomAttribute(self): """Create new Attribute and a Class, that has value for newly created attribute. This should check code path that searches for AttributeID_id in Schema cache""" # add new attributeSchema object (a_ldn, a_dn) = self._schema_new_attr(self.ldb_dc1, "attr-A") # add a base classSchema class so we can use our new # attribute in class definition in a sibling class (c_ldn, c_dn) = self._schema_new_class(self.ldb_dc1, "cls-A", {"systemMayContain": a_ldn}) # add new classSchema object with value for a_ldb attribute (c_ldn, c_dn) = self._schema_new_class(self.ldb_dc1, "cls-B", {"objectClass": ["top", "classSchema", c_ldn], a_ldn: "test_classWithCustomAttribute"}) # force replication from DC1 to DC2 self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, nc_dn=self.schema_dn) # check objects are replicated self._check_object(c_dn) self._check_object(a_dn) def test_attribute(self): """Simple test for attributeSchema replication""" # add new attributeSchema object (a_ldn, a_dn) = self._schema_new_attr(self.ldb_dc1, "attr-S") # force replication from DC1 to DC2 self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, nc_dn=self.schema_dn) # check object is replicated self._check_object(a_dn) def test_all(self): """Basic plan is to create bunch of classSchema and attributeSchema objects, replicate Schema NC and then check all objects are replicated correctly""" # add new classSchema object (c_ldn, c_dn) = self._schema_new_class(self.ldb_dc1, "cls-A") # add new attributeSchema object (a_ldn, a_dn) = self._schema_new_attr(self.ldb_dc1, "attr-A") # add attribute to the class we have m = Message.from_dict(self.ldb_dc1, {"dn": c_dn, "mayContain": a_ldn}, FLAG_MOD_ADD) self.ldb_dc1.modify(m) # force replication from DC1 to DC2 self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, nc_dn=self.schema_dn) # check objects are replicated self._check_object(c_dn) self._check_object(a_dn)