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0b3f2c659a
Rather than just disabling inbound replication, consider that there may be another server in the test network, and ensure we do not replicate to or from it either. replica_sync.py is omitted, as it tests some more subtle variations of the DISABLE_INBOUND_REPL flag. Signed-off-by: Andrew Bartlett <abartlet@samba.org> Reviewed-by: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
379 lines
16 KiB
Python
379 lines
16 KiB
Python
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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#
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# Unix SMB/CIFS implementation.
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# Copyright (C) Kamen Mazdrashki <kamenim@samba.org> 2010
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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#
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#
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# Usage:
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# export DC1=dc1_dns_name
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# export DC2=dc2_dns_name
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# export SUBUNITRUN=$samba4srcdir/scripting/bin/subunitrun
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# PYTHONPATH="$PYTHONPATH:$samba4srcdir/torture/drs/python" $SUBUNITRUN delete_object -U"$DOMAIN/$DC_USERNAME"%"$DC_PASSWORD"
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#
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import time
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from ldb import (
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SCOPE_SUBTREE,
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)
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import drs_base, ldb
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class DrsDeleteObjectTestCase(drs_base.DrsBaseTestCase):
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def setUp(self):
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super(DrsDeleteObjectTestCase, self).setUp()
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# disable automatic replication temporary
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self._disable_all_repl(self.dnsname_dc1)
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self._disable_all_repl(self.dnsname_dc2)
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# make sure DCs are synchronized before the test
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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self._net_drs_replicate(DC=self.dnsname_dc1, fromDC=self.dnsname_dc2, forced=True)
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def tearDown(self):
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self._enable_all_repl(self.dnsname_dc1)
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self._enable_all_repl(self.dnsname_dc2)
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super(DrsDeleteObjectTestCase, self).tearDown()
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def _make_username(self):
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return "DrsDelObjUser_" + time.strftime("%s", time.gmtime())
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# now also used to check the group
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def _check_obj(self, sam_ldb, obj_orig, is_deleted):
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# search the user by guid as it may be deleted
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guid_str = self._GUID_string(obj_orig["objectGUID"][0])
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expression = "(objectGUID=%s)" % guid_str
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res = sam_ldb.search(base=self.domain_dn,
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expression=expression,
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controls=["show_deleted:1"])
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self.assertEquals(len(res), 1)
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user_cur = res[0]
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# Deleted Object base DN
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dodn = self._deleted_objects_dn(sam_ldb)
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# now check properties of the user
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cn_orig = obj_orig["cn"][0]
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cn_cur = user_cur["cn"][0]
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name_orig = obj_orig["name"][0]
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name_cur = user_cur["name"][0]
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if is_deleted:
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self.assertEquals(user_cur["isDeleted"][0],"TRUE")
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self.assertFalse("objectCategory" in user_cur)
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self.assertFalse("sAMAccountType" in user_cur)
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self.assertFalse("description" in user_cur)
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self.assertFalse("memberOf" in user_cur)
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self.assertFalse("member" in user_cur)
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self.assertTrue(dodn in str(user_cur["dn"]),
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"User %s is deleted but it is not located under %s (found at %s)!" % (name_orig, dodn, user_cur["dn"]))
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self.assertEquals(name_cur, name_orig + "\nDEL:" + guid_str)
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self.assertEquals(name_cur, user_cur.dn.get_rdn_value())
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self.assertEquals(cn_cur, cn_orig + "\nDEL:" + guid_str)
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self.assertEquals(name_cur, cn_cur)
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else:
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self.assertFalse("isDeleted" in user_cur)
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self.assertEquals(name_cur, name_orig)
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self.assertEquals(name_cur, user_cur.dn.get_rdn_value())
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self.assertEquals(cn_cur, cn_orig)
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self.assertEquals(name_cur, cn_cur)
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self.assertEquals(obj_orig["dn"], user_cur["dn"])
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self.assertTrue(dodn not in str(user_cur["dn"]))
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return user_cur
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def test_ReplicateDeletedObject1(self):
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"""Verifies how a deleted-object is replicated between two DCs.
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This test should verify that:
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- deleted-object is replicated properly
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- We verify that after replication,
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object's state to conform to a tombstone-object state
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- This test replicates the object modifications to
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the server with the user deleted first
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TODO: It will also be great if check replPropertyMetaData.
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TODO: Check for deleted-object state, depending on DC's features
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when recycle-bin is enabled
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"""
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# work-out unique username to test with
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username = self._make_username()
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# create user on DC1
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self.ldb_dc1.newuser(username=username, password="P@sswOrd!")
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ldb_res = self.ldb_dc1.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=%s)" % username)
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self.assertEquals(len(ldb_res), 1)
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user_orig = ldb_res[0]
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user_dn = ldb_res[0]["dn"]
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# check user info on DC1
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print "Testing for %s with GUID %s" % (username, self._GUID_string(user_orig["objectGUID"][0]))
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=False)
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# trigger replication from DC1 to DC2
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# delete user on DC1
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self.ldb_dc1.delete(user_dn)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be valid user
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user_cur = self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=False)
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# The user should not have a description or memberOf yet
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self.assertFalse("description" in user_cur)
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self.assertFalse("memberOf" in user_cur)
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self.ldb_dc2.newgroup("group_%s" % username)
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self.ldb_dc2.newgroup("group2_%s" % username)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("sAMAccountName" in ldb_res[0])
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group_orig = ldb_res[0]
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group_dn = ldb_res[0]["dn"]
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# modify user on DC2 to have a description and be a member of the group
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m = ldb.Message()
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m.dn = user_dn
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m["description"] = ldb.MessageElement("a description",
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ldb.FLAG_MOD_ADD, "description")
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self.ldb_dc2.modify(m)
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m = ldb.Message()
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m.dn = group_dn
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m["member"] = ldb.MessageElement(str(user_dn),
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ldb.FLAG_MOD_ADD, "member")
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self.ldb_dc2.modify(m)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group2_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("sAMAccountName" in ldb_res[0])
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group2_dn = ldb_res[0]["dn"]
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group2_orig = ldb_res[0]
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m = ldb.Message()
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m.dn = group2_dn
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m["member"] = ldb.MessageElement(str(group_dn),
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ldb.FLAG_MOD_ADD, "member")
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self.ldb_dc2.modify(m)
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# check user info on DC2 - should be valid user
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user_cur = self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=False)
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# The user should not have a description yet
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self.assertTrue("description" in user_cur)
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self.assertTrue("memberOf" in user_cur)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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# This group is a member of another group
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self.assertTrue("memberOf" in ldb_res[0])
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# The user was deleted on DC1, but check the modify we just did on DC2
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self.assertTrue("member" in ldb_res[0])
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# trigger replication from DC2 to DC1
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# to check if deleted object gets restored
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self._net_drs_replicate(DC=self.dnsname_dc1, fromDC=self.dnsname_dc2, forced=True)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be valid user
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=False)
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ldb_res = self.ldb_dc1.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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# This group is a member of another group
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self.assertTrue("memberOf" in ldb_res[0])
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# The user was deleted on DC1, but the modify we did on DC2, check it never replicated in
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self.assertFalse("member" in ldb_res[0])
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# trigger replication from DC1 to DC2
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# to check if deleted object is replicated
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=True)
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# delete group on DC1
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self.ldb_dc1.delete(group_dn)
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# trigger replication from DC1 to DC2
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# to check if deleted object is replicated
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# check group info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=group_orig, is_deleted=True)
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# check group info on DC2 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=group_orig, is_deleted=True)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group2_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertFalse("member" in ldb_res[0])
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# delete group on DC1
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self.ldb_dc1.delete(group2_dn)
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# trigger replication from DC1 to DC2
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# to check if deleted object is replicated
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# check group info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=group2_orig, is_deleted=True)
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# check group info on DC2 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=group2_orig, is_deleted=True)
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def test_ReplicateDeletedObject2(self):
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"""Verifies how a deleted-object is replicated between two DCs.
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This test should verify that:
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- deleted-object is replicated properly
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- We verify that after replication,
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object's state to conform to a tombstone-object state
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- This test replicates the delete to the server with the
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object modifications first
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TODO: It will also be great if check replPropertyMetaData.
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TODO: Check for deleted-object state, depending on DC's features
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when recycle-bin is enabled
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"""
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# work-out unique username to test with
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username = self._make_username()
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# create user on DC1
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self.ldb_dc1.newuser(username=username, password="P@sswOrd!")
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ldb_res = self.ldb_dc1.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=%s)" % username)
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self.assertEquals(len(ldb_res), 1)
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user_orig = ldb_res[0]
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user_dn = ldb_res[0]["dn"]
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# check user info on DC1
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print "Testing for %s with GUID %s" % (username, self._GUID_string(user_orig["objectGUID"][0]))
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=False)
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# trigger replication from DC1 to DC2
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# delete user on DC1
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self.ldb_dc1.delete(user_dn)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be valid user
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user_cur = self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=False)
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# The user should not have a description or memberOf yet
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self.assertFalse("description" in user_cur)
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self.assertFalse("memberOf" in user_cur)
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self.ldb_dc2.newgroup("group_%s" % username)
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self.ldb_dc2.newgroup("group2_%s" % username)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("sAMAccountName" in ldb_res[0])
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group_orig = ldb_res[0]
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group_dn = ldb_res[0]["dn"]
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# modify user on DC2 to have a description and be a member of the group
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m = ldb.Message()
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m.dn = user_dn
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m["description"] = ldb.MessageElement("a description",
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ldb.FLAG_MOD_ADD, "description")
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self.ldb_dc2.modify(m)
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m = ldb.Message()
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m.dn = group_dn
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m["member"] = ldb.MessageElement(str(user_dn),
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ldb.FLAG_MOD_ADD, "member")
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self.ldb_dc2.modify(m)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group2_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("sAMAccountName" in ldb_res[0])
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group2_dn = ldb_res[0]["dn"]
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group2_orig = ldb_res[0]
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m = ldb.Message()
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m.dn = group2_dn
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m["member"] = ldb.MessageElement(str(group_dn),
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ldb.FLAG_MOD_ADD, "member")
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self.ldb_dc2.modify(m)
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# check user info on DC2 - should be valid user
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user_cur = self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=False)
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# The user should not have a description yet
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self.assertTrue("description" in user_cur)
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self.assertTrue("memberOf" in user_cur)
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# trigger replication from DC1 to DC2
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# to check if deleted object gets restored
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=True)
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ldb_res = self.ldb_dc2.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("memberOf" in ldb_res[0])
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self.assertFalse("member" in ldb_res[0])
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# trigger replication from DC2 to DC1
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# to check if deleted object is replicated
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self._net_drs_replicate(DC=self.dnsname_dc1, fromDC=self.dnsname_dc2, forced=True)
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# check user info on DC1 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc1, obj_orig=user_orig, is_deleted=True)
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# check user info on DC2 - should be deleted
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self._check_obj(sam_ldb=self.ldb_dc2, obj_orig=user_orig, is_deleted=True)
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ldb_res = self.ldb_dc1.search(base=self.domain_dn,
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scope=SCOPE_SUBTREE,
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expression="(samAccountName=group_%s)" % username)
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self.assertTrue(len(ldb_res) == 1)
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self.assertTrue("memberOf" in ldb_res[0])
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self.assertFalse("member" in ldb_res[0])
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# delete group on DC1
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self.ldb_dc1.delete(group_dn)
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self.ldb_dc1.delete(group2_dn)
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# trigger replication from DC1 to DC2, for cleanup
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self._net_drs_replicate(DC=self.dnsname_dc2, fromDC=self.dnsname_dc1, forced=True)
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