#!/usr/bin/python # -*- coding: utf-8 -*- # This is unit with PPD tests import getopt import optparse import sys import os import base64 import re sys.path.append("bin/python") sys.path.append("../lib/subunit/python") import samba.getopt as options # Some error messages that are being tested from ldb import SCOPE_SUBTREE, SCOPE_ONELEVEL, SCOPE_BASE, LdbError from ldb import ERR_NO_SUCH_OBJECT, ERR_INVALID_DN_SYNTAX, ERR_UNWILLING_TO_PERFORM from ldb import ERR_INSUFFICIENT_ACCESS_RIGHTS # For running the test unit from samba.ndr import ndr_pack, ndr_unpack from samba.dcerpc import security from samba.auth import system_session from samba import Ldb from subunit import SubunitTestRunner import unittest parser = optparse.OptionParser("ldap [options] ") sambaopts = options.SambaOptions(parser) parser.add_option_group(sambaopts) parser.add_option_group(options.VersionOptions(parser)) # use command line creds if available credopts = options.CredentialsOptions(parser) parser.add_option_group(credopts) opts, args = parser.parse_args() if len(args) < 1: parser.print_usage() sys.exit(1) host = args[0] lp = sambaopts.get_loadparm() creds = credopts.get_credentials(lp) # # Tests start here # class AclTests(unittest.TestCase): def delete_force(self, ldb, dn): try: ldb.delete(dn) except LdbError, (num, _): self.assertEquals(num, ERR_NO_SUCH_OBJECT) def find_basedn(self, ldb): res = ldb.search(base="", expression="", scope=SCOPE_BASE, attrs=["defaultNamingContext"]) self.assertEquals(len(res), 1) return res[0]["defaultNamingContext"][0] def find_domain_sid(self, ldb): res = ldb.search(base=self.base_dn, expression="(objectClass=*)", scope=SCOPE_BASE) return ndr_unpack( security.dom_sid,res[0]["objectSid"][0]) def setUp(self): self.ldb_admin = ldb self.base_dn = self.find_basedn(self.ldb_admin) self.domain_sid = self.find_domain_sid(self.ldb_admin) print "baseDN: %s" % self.base_dn self.SAMBA = False; self.WIN = False res = self.ldb_admin.search(base="",expression="", scope=SCOPE_BASE, attrs=["vendorName"]) if res and "vendorName" in res[0].keys() and res[0]["vendorName"][0].find("Samba Team") != -1: self.SAMBA = True else: self.WIN = True if self.WIN: # Modify acluser1 & acluser2 to be excluded from 'Doamin Admin' group try: ldif = """ dn: CN=Domain Admins,CN=Users,""" + self.base_dn + """ changetype: modify delete: member member: """ + self.get_user_dn("acluser1") self.ldb_admin.modify_ldif(ldif) ldif = """ dn: CN=Domain Admins,CN=Users,""" + self.base_dn + """ changetype: modify delete: member member: """ + self.get_user_dn("acluser2") self.ldb_admin.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_UNWILLING_TO_PERFORM) # LDAP_ENTRY_ALREADY_EXISTS def tearDown(self): # Add self.delete_force(self.ldb_admin, "CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_add_ou1," + self.base_dn) # Modify self.delete_force(self.ldb_admin, self.get_user_dn("test_modify_user1")) self.delete_force(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) # Search self.delete_force(self.ldb_admin, "CN=test_search_user1,OU=test_search_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_search_ou1," + self.base_dn) # Delete self.delete_force(self.ldb_admin, self.get_user_dn("test_delete_user1")) # Rename OU3 self.delete_force(self.ldb_admin, "CN=test_rename_user1,OU=test_rename_ou3,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user2,OU=test_rename_ou3,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user5,OU=test_rename_ou3,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_rename_ou3,OU=test_rename_ou2," + self.base_dn) # Rename OU2 self.delete_force(self.ldb_admin, "CN=test_rename_user1,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user2,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user5,OU=test_rename_ou2," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_rename_ou2," + self.base_dn) # Rename OU1 self.delete_force(self.ldb_admin, "CN=test_rename_user1,OU=test_rename_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user2,OU=test_rename_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "CN=test_rename_user5,OU=test_rename_ou1," + self.base_dn) self.delete_force(self.ldb_admin, "OU=test_rename_ou1," + self.base_dn) def get_user_dn(self, name): return "CN=%s,CN=Users,%s" % (name, self.base_dn) def modify_desc(self, object_dn, desc): """ Modify security descriptor using either SDDL string or security.descriptor object """ assert(isinstance(desc, str) or isinstance(desc, security.descriptor)) mod = """ dn: """ + object_dn + """ changetype: modify replace: nTSecurityDescriptor """ if isinstance(desc, str): mod += "nTSecurityDescriptor: %s" % desc elif isinstance(desc, security.descriptor): mod += "nTSecurityDescriptor:: %s" % base64.b64encode(ndr_pack(desc)) self.ldb_admin.modify_ldif(mod) return # Everything below is used in case of emergency or # double modify verification of some sort assert(isinstance(desc, security.descriptor)) fn = "/tmp/tmpMod" f = open(fn, "w"); f.write(mod); f.close() cmd = "ldapmodify -x -h %s -D %s -w %s -f %s" \ % (host[7:], self.get_user_dn(creds.get_username()), creds.get_password(), fn) return os.system( cmd ) == 0 def add_group_member(self, _ldb, group_dn, member_dn): """ Modify user to ge member of a group e.g. User to be 'Doamin Admin' group member """ ldif = """ dn: """ + group_dn + """ changetype: modify add: member member: """ + member_dn _ldb.modify_ldif(ldif) def create_ou(self, _ldb, ou_dn, desc=None): ou_dict = { "dn" : ou_dn, "ou" : ou_dn.split(",")[0][3:], "objectClass" : "organizationalUnit", "url" : "www.bbc.co.uk", } if desc: assert(isinstance(desc, str) or isinstance(desc, security.descriptor)) if isinstance(desc, str): ldif += "nTSecurityDescriptor: %s" % desc elif isinstance(desc, security.descriptor): ldif += "nTSecurityDescriptor:: %s" % base64.b64encode(ndr_pack(desc)) _ldb.add(ou_dict) def create_user(self, _ldb, user_dn, desc=None): user_dict = { "dn" : user_dn, "sAMAccountName" : user_dn.split(",")[0][3:], "objectClass" : "user", "userPassword" : "samba123@", "url" : "www.bbc.co.uk", } if desc: assert(isinstance(desc, str) or isinstance(desc, security.descriptor)) if isinstance(desc, str): ldif += "nTSecurityDescriptor: %s" % desc elif isinstance(desc, security.descriptor): ldif += "nTSecurityDescriptor:: %s" % base64.b64encode(ndr_pack(desc)) _ldb.add(user_dict) def create_group(self, _ldb, group_dn, desc=None): group_dict = { "dn" : group_dn, "objectClass" : "group", "sAMAccountName" : group_dn.split(",")[0][3:], "groupType" : "4", "url" : "www.bbc.co.uk", } if desc: assert(isinstance(desc, str) or isinstance(desc, security.descriptor)) if isinstance(desc, str): ldif += "nTSecurityDescriptor: %s" % desc elif isinstance(desc, security.descriptor): ldif += "nTSecurityDescriptor:: %s" % base64.b64encode(ndr_pack(desc)) _ldb.add(group_dict) def read_desc(self, object_dn): res = self.ldb_admin.search(object_dn, SCOPE_BASE, None, ["nTSecurityDescriptor"]) desc = res[0]["nTSecurityDescriptor"][0] return ndr_unpack( security.descriptor, desc ) def enable_account(self, user_dn): """Enable an account. :param user_dn: Dn of the account to enable. """ res = self.ldb_admin.search(user_dn, SCOPE_BASE, None, ["userAccountControl"]) assert len(res) == 1 userAccountControl = res[0]["userAccountControl"][0] userAccountControl = int(userAccountControl) if (userAccountControl & 0x2): userAccountControl = userAccountControl & ~0x2 # remove disabled bit if (userAccountControl & 0x20): userAccountControl = userAccountControl & ~0x20 # remove 'no password required' bit mod = """ dn: """ + user_dn + """ changetype: modify replace: userAccountControl userAccountControl: %s""" % userAccountControl if self.WIN: mod = re.sub("userAccountControl: \d.*", "userAccountControl: 544", mod) self.ldb_admin.modify_ldif(mod) def get_ldb_connection(self, target_username, target_password): username_save = creds.get_username(); password_save = creds.get_password() creds.set_username(target_username) creds.set_password(target_password) ldb_target = Ldb(host, credentials=creds, session_info=system_session(), lp=lp) creds.set_username(username_save); creds.set_password(password_save) return ldb_target def get_object_sid(self, object_dn): res = self.ldb_admin.search(object_dn) return ndr_unpack( security.dom_sid, res[0]["objectSid"][0] ) def dacl_add_ace(self, object_dn, ace): desc = self.read_desc( object_dn ) desc_sddl = desc.as_sddl( self.domain_sid ) if ace in desc_sddl: return if desc_sddl.find("(") >= 0: desc_sddl = desc_sddl[:desc_sddl.index("(")] + ace + desc_sddl[desc_sddl.index("("):] else: desc_sddl = desc_sddl + ace self.modify_desc(object_dn, desc_sddl) def get_desc_sddl(self, object_dn): """ Return object nTSecutiryDescriptor in SDDL format """ desc = self.read_desc(object_dn) return desc.as_sddl(self.domain_sid) # Testing section def test_add_domainadmin_notowner(self): """ 1 Testing OU with the rights of Doman Admin not creator of the OU """ # Creating simple user if self.SAMBA: # Create domain admin that will be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create second domain admin that will not be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser2")) self.create_user(self.ldb_admin, self.get_user_dn("acluser2")) self.enable_account(self.get_user_dn("acluser2")) # Test if we have any additional groups for users than default ones if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser2") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Modify acluser1 & acluser2 to be 'Doamin Admin' group member self.add_group_member(self.ldb_admin, "CN=Domain Admins,CN=Users," + self.base_dn, \ self.get_user_dn("acluser1")) self.add_group_member(self.ldb_admin, "CN=Domain Admins,CN=Users," + self.base_dn, \ self.get_user_dn("acluser2")) # Create LDAP connection with OUs crator domain admin credentials ldb_owner = self.get_ldb_connection("acluser1", "samba123@") # Create LDAP connection with second domain admin credentials that is not creator of the OUs ldb_notowner = self.get_ldb_connection("acluser2", "samba123@") # Make sure top OU is deleted (and so everything under it) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, [] ) # Change descriptor for top level OU self.create_ou(ldb_owner, "OU=test_add_ou1," + self.base_dn) self.create_ou(ldb_owner, "OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) user_sid = self.get_object_sid(self.get_user_dn("acluser2")) mod = "(D;CI;WPCC;;;%s)" % str(user_sid) self.dacl_add_ace("OU=test_add_ou1," + self.base_dn, mod) # Test user and group creation with another domain admin's credentials self.create_user(ldb_notowner, "CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.create_group(ldb_notowner, "CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) # Make sure we HAVE created the two objects -- user and group # !!! We should not be able to do that, but however beacuse of ACE ordering our inherited Deny ACE # !!! comes after explicit (A;;RPWPCRCCDCLCLORCWOWDSDDTSW;;;DA) that comes from somewhere res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertTrue( len(res) > 0 ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertTrue( len(res) > 0 ) def test_add_regular_user(self): """ 2 Testing OU with the regular user that has no rights granted over the OU """ # Creating simple user if self.SAMBA: # Create domain admin that will be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create regular user that will not be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser2")) self.create_user(self.ldb_admin, self.get_user_dn("acluser2")) self.enable_account(self.get_user_dn("acluser2")) # Test if we have any additional groups for users than default ones if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser2") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Modify acluser1 to be 'Doamin Admin' group member self.add_group_member(self.ldb_admin, "CN=Domain Admins,CN=Users," + self.base_dn, \ self.get_user_dn("acluser1")) # Create LDAP connection with OUs crator domain admin credentials ldb_owner = self.get_ldb_connection("acluser1", "samba123@") # Create LDAP connection with a regular user that has the right 'Crate child User objects' ldb_user = self.get_ldb_connection("acluser2", "samba123@") # Make sure top OU is deleted (and so everything under it) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, [] ) # Create a parent-child OU structure with domain admin credentials self.create_ou(ldb_owner, "OU=test_add_ou1," + self.base_dn) self.create_ou(ldb_owner, "OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) # Test user and group creation with regular user credentials try: self.create_user(ldb_user, "CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.create_group(ldb_user, "CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: self.fail() # Make sure we HAVEN'T created any of two objects -- user or group res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, []) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, []) def test_add_granted_user(self): """ 3 Testing OU with the rights of regular user granted the right 'Create User child objects' """ # Creating simple user if self.SAMBA: # Create domain admin that will be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create second domain admin that will not be creator of OU parent-child structure self.delete_force(self.ldb_admin, self.get_user_dn("acluser2")) self.create_user(self.ldb_admin, self.get_user_dn("acluser2")) self.enable_account(self.get_user_dn("acluser2")) # Test if we have any additional groups for users than default ones if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser2") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Modify acluser1 to be 'Doamin Admin' group member self.add_group_member(self.ldb_admin, "CN=Domain Admins,CN=Users," + self.base_dn, \ self.get_user_dn("acluser1")) # Create LDAP connection with OUs crator domain admin credentials ldb_owner = self.get_ldb_connection("acluser1", "samba123@") # Create LDAP connection with a regular user that has the right 'Crate child User objects' ldb_guser = self.get_ldb_connection("acluser2", "samba123@") # Make sure top OU is deleted (and so everything under it) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, [] ) # Change descriptor for top level OU self.create_ou(ldb_owner, "OU=test_add_ou1," + self.base_dn) user_sid = self.get_object_sid(self.get_user_dn("acluser2")) mod = "(OA;CI;CC;bf967aba-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace("OU=test_add_ou1," + self.base_dn, mod) self.create_ou(ldb_owner, "OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) # Test user and group creation with granted user only to one of the objects self.create_user(ldb_guser, "CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) try: self.create_group(ldb_guser, "CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: self.fail() # Make sure we HAVE created the one of two objects -- user res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertNotEqual( len(res), 0 ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, []) def test_add_domainadmin_owner(self): """ 4 Testing OU with the rights of Doman Admin creator of the OU""" # Creating acluser1 if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Test if we have any additional groups for user than default if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Modify acluser1 to be 'Doamin Admin' group member self.add_group_member(self.ldb_admin, "CN=Domain Admins,CN=Users," + self.base_dn, \ self.get_user_dn("acluser1")) # Create LDAP connection with OUs crator domain admin credentials ldb_owner = self.get_ldb_connection("acluser1", "samba123@") # Make sure top OU is deleted (and so everything under it) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("OU=test_add_ou1", self.base_dn) ) self.assertEqual( res, [] ) self.create_ou(ldb_owner, "OU=test_add_ou1," + self.base_dn) self.create_ou(ldb_owner, "OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.create_user(ldb_owner, "CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) self.create_group(ldb_owner, "CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1," + self.base_dn) # Make sure we have successfully created the two objects -- user and group res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_user1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertTrue( len(res) > 0 ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s,%s)" \ % ("CN=test_add_group1,OU=test_add_ou2,OU=test_add_ou1", self.base_dn) ) self.assertTrue( len(res) > 0 ) def test_modify_u1(self): """5 Modify one attribute if you have DS_WRITE_PROPERTY for it""" # Creating acluser1 if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Test if we have any additional groups for user than default if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # First test object -- User print "Testing modify on User object" self.delete_force(self.ldb_admin, self.get_user_dn("test_modify_user1")) self.create_user(self.ldb_admin, self.get_user_dn("test_modify_user1")) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace(self.get_user_dn("test_modify_user1"), mod) ldif = """ dn: """ + self.get_user_dn("test_modify_user1") + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("test_modify_user1") ) self.assertEqual(res[0]["displayName"][0], "test_changed") # Second test object -- Group print "Testing modify on Group object" self.delete_force(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) self.create_group(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace("CN=test_modify_group1,CN=Users," + self.base_dn, mod) ldif = """ dn: CN=test_modify_group1,CN=Users,""" + self.base_dn + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % str("CN=test_modify_group1,CN=Users," + self.base_dn) ) self.assertEqual(res[0]["displayName"][0], "test_changed") # Second test object -- Organizational Unit print "Testing modify on OU object" self.delete_force(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) self.create_ou(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace("OU=test_modify_ou1," + self.base_dn, mod) ldif = """ dn: OU=test_modify_ou1,""" + self.base_dn + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % str("OU=test_modify_ou1," + self.base_dn) ) self.assertEqual(res[0]["displayName"][0], "test_changed") def test_modify_u2(self): """6 Modify two attributes as you have DS_WRITE_PROPERTY granted only for one of them""" # Creating acluser1 if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Test if we have any additional groups for user than default if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # First test object -- User print "Testing modify on User object" self.delete_force(self.ldb_admin, self.get_user_dn("test_modify_user1")) self.create_user(self.ldb_admin, self.get_user_dn("test_modify_user1")) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace(self.get_user_dn("test_modify_user1"), mod) # Modify on attribute you have rights for ldif = """ dn: """ + self.get_user_dn("test_modify_user1") + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("test_modify_user1") ) self.assertEqual(res[0]["displayName"][0], "test_changed") # Modify on attribute you do not have rights for granted ldif = """ dn: """ + self.get_user_dn("test_modify_user1") + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() # Second test object -- Group print "Testing modify on Group object" self.delete_force(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) self.create_group(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace("CN=test_modify_group1,CN=Users," + self.base_dn, mod) ldif = """ dn: CN=test_modify_group1,CN=Users,""" + self.base_dn + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % str("CN=test_modify_group1,CN=Users," + self.base_dn) ) self.assertEqual(res[0]["displayName"][0], "test_changed") # Modify on attribute you do not have rights for granted ldif = """ dn: CN=test_modify_group1,CN=Users,""" + self.base_dn + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() # Second test object -- Organizational Unit print "Testing modify on OU object" self.delete_force(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) self.create_ou(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) user_sid = self.get_object_sid( self.get_user_dn("acluser1") ) mod = "(OA;;WP;bf967953-0de6-11d0-a285-00aa003049e2;;%s)" % str(user_sid) self.dacl_add_ace("OU=test_modify_ou1," + self.base_dn, mod) ldif = """ dn: OU=test_modify_ou1,""" + self.base_dn + """ changetype: modify replace: displayName displayName: test_changed""" ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % str("OU=test_modify_ou1," + self.base_dn) ) self.assertEqual(res[0]["displayName"][0], "test_changed") # Modify on attribute you do not have rights for granted ldif = """ dn: OU=test_modify_ou1,""" + self.base_dn + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() def test_modify_u3(self): """7 Modify one attribute as you have no what so ever rights granted""" # Creating acluser1 if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Test if we have any additional groups for user than default if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser1") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # First test object -- User print "Testing modify on User object" self.delete_force(self.ldb_admin, self.get_user_dn("test_modify_user1")) self.create_user(self.ldb_admin, self.get_user_dn("test_modify_user1")) # Modify on attribute you do not have rights for granted ldif = """ dn: """ + self.get_user_dn("test_modify_user1") + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() # Second test object -- Group print "Testing modify on Group object" self.delete_force(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) self.create_group(self.ldb_admin, "CN=test_modify_group1,CN=Users," + self.base_dn) # Modify on attribute you do not have rights for granted ldif = """ dn: CN=test_modify_group1,CN=Users,""" + self.base_dn + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() # Second test object -- Organizational Unit print "Testing modify on OU object" self.delete_force(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) self.create_ou(self.ldb_admin, "OU=test_modify_ou1," + self.base_dn) # Modify on attribute you do not have rights for granted ldif = """ dn: OU=test_modify_ou1,""" + self.base_dn + """ changetype: modify replace: url url: www.samba.org""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() def test_modify_u4(self): """11 Grant WP to PRINCIPAL_SELF and test modify""" # Creating acluser1 if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser3")) self.create_user(self.ldb_admin, self.get_user_dn("acluser3")) self.enable_account(self.get_user_dn("acluser3")) # Test if we have any additional groups for user than default if self.WIN: res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser3") ) try: self.assertEqual( res[0]["memberOf"][0], "" ) except KeyError: pass else: self.fail() # Create user connection that we will test with ldb_user = self.get_ldb_connection("acluser3", "samba123@") ldif = """ dn: """ + self.get_user_dn("acluser3") + """ changetype: modify add: adminDescription adminDescription: blah blah blah""" try: ldb_user.modify_ldif(ldif) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: # This 'modify' operation should always throw ERR_INSUFFICIENT_ACCESS_RIGHTS self.fail() mod = "(OA;;WP;bf967919-0de6-11d0-a285-00aa003049e2;;PS)" self.dacl_add_ace(self.get_user_dn("acluser3"), mod) # Modify on attribute you have rights for ldb_user.modify_ldif(ldif) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % self.get_user_dn("acluser3"), attrs=["adminDescription"] ) self.assertEqual(res[0]["adminDescription"][0], "blah blah blah") #enable these when we have search implemented def _test_search_u1(self): """See if can prohibit user to read another User object""" # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) ou_dn = "OU=test_search_ou1," + self.base_dn user_dn = "CN=test_search_user1," + ou_dn # Create clean OU self.delete_force(self.ldb_admin, ou_dn) self.create_ou(self.ldb_admin, ou_dn) desc = self.read_desc( ou_dn ) desc_sddl = desc.as_sddl( self.domain_sid ) # Parse descriptor's SDDL and remove all inherited ACEs reffering # to 'Registered Users' or 'Authenticated Users' desc_aces = re.findall("\(.*?\)", desc_sddl) for ace in desc_aces: if ("I" in ace) and (("RU" in ace) or ("AU" in ace)): desc_sddl = desc_sddl.replace(ace, "") # Add 'P' in the DACL so it breaks further inheritance desc_sddl = desc_sddl.replace("D:AI(", "D:PAI(") # Create a security descriptor object and OU with that descriptor desc = security.descriptor.from_sddl( desc_sddl, self.domain_sid ) self.delete_force(self.ldb_admin, ou_dn) self.create_ou(self.ldb_admin, ou_dn, desc) # Create clean user self.delete_force(self.ldb_admin, user_dn) self.create_user(self.ldb_admin, user_dn) desc = self.read_desc( user_dn ) desc_sddl = desc.as_sddl( self.domain_sid ) # Parse security descriptor SDDL and remove all 'Read' ACEs # reffering to AU desc_aces = re.findall("\(.*?\)", desc_sddl) for ace in desc_aces: if ("AU" in ace) and ("R" in ace): desc_sddl = desc_sddl.replace(ace, "") # Create user with the edited descriptor desc = security.descriptor.from_sddl( desc_sddl, self.domain_sid ) self.delete_force(self.ldb_admin, user_dn) self.create_user(self.ldb_admin, user_dn, desc) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") res = ldb_user.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) def _test_search_u2(self): """User's group ACEs cleared and after that granted RIGHT_DS_READ_PROPERTY to another User object""" # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) ou_dn = "OU=test_search_ou1," + self.base_dn user_dn = "CN=test_search_user1," + ou_dn # Create clean OU self.delete_force(self.ldb_admin, ou_dn) self.create_ou(self.ldb_admin, ou_dn) desc = self.read_desc( ou_dn ) desc_sddl = desc.as_sddl( self.domain_sid ) # Parse descriptor's SDDL and remove all inherited ACEs reffering # to 'Registered Users' or 'Authenticated Users' desc_aces = re.findall("\(.*?\)", desc_sddl) for ace in desc_aces: if ("I" in ace) and (("RU" in ace) or ("AU" in ace)): desc_sddl = desc_sddl.replace(ace, "") # Add 'P' in the DACL so it breaks further inheritance desc_sddl = desc_sddl.replace("D:AI(", "D:PAI(") # Create a security descriptor object and OU with that descriptor desc = security.descriptor.from_sddl( desc_sddl, self.domain_sid ) self.delete_force(self.ldb_admin, ou_dn) self.create_ou(self.ldb_admin, ou_dn, desc) # Create clean user self.delete_force(self.ldb_admin, user_dn) self.create_user(self.ldb_admin, user_dn) # Parse security descriptor SDDL and remove all 'Read' ACEs # reffering to AU desc_aces = re.findall("\(.*?\)", desc_sddl) for ace in desc_aces: if ("AU" in ace) and ("R" in ace): desc_sddl = desc_sddl.replace(ace, "") #mod = "(OA;;RP;e48d0154-bcf8-11d1-8702-00c04fb96050;;AU)" mod = "(A;;RP;;;AU)" self.dacl_add_ace(user_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") res = ldb_user.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertNotEqual( res, [] ) def test_delete_u1(self): """User is prohibited by default to delete another User object""" # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Create user that we try to delete self.delete_force(self.ldb_admin, self.get_user_dn("test_delete_user")) self.create_user(self.ldb_admin, self.get_user_dn("test_delete_user")) # Here delete User object should ALWAYS through exception try: ldb_user.delete(self.get_user_dn("test_delete_user")) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: self.fail() def test_delete_u2(self): """User's group has RIGHT_DELETE to another User object""" user_dn = self.get_user_dn("test_delete_user1") # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Create user that we try to delete self.delete_force(self.ldb_admin, user_dn) self.create_user(self.ldb_admin, user_dn) mod = "(A;;SD;;;AU)" self.dacl_add_ace(user_dn, mod) # Try to delete User object ldb_user.delete( user_dn ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) def test_delete_u3(self): """User indentified by SID has RIGHT_DELETE to another User object""" user_dn = self.get_user_dn("test_delete_user1") # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Create user that we try to delete self.delete_force(self.ldb_admin, user_dn) self.create_user(self.ldb_admin, user_dn) mod = "(A;;SD;;;%s)" % str( self.get_object_sid(self.get_user_dn("acluser1")) ) self.dacl_add_ace(user_dn, mod) # Try to delete User object ldb_user.delete( user_dn ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) def test_rename_u1(self): """ 6 Regular user fails to rename 'User object' within single OU""" # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create OU structure self.create_ou(self.ldb_admin, "OU=test_rename_ou1," + self.base_dn) self.create_user(self.ldb_admin, "CN=test_rename_user1,OU=test_rename_ou1," + self.base_dn) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") try: ldb_user.rename("CN=test_rename_user1,OU=test_rename_ou1," + self.base_dn, \ "CN=test_rename_user5,OU=test_rename_ou1," + self.base_dn) except LdbError, (num, _): self.assertEquals(num, ERR_INSUFFICIENT_ACCESS_RIGHTS) else: self.fail() def test_rename_u2(self): """ 7 Grant WRITE_PROPERTY to AU so regular user can rename 'User object' within single OU""" ou_dn = "OU=test_rename_ou1," + self.base_dn user_dn = "CN=test_rename_user1," + ou_dn rename_user_dn = "CN=test_rename_user5," + ou_dn # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) print "Test rename with rights granted to AU" # Create OU structure self.create_ou(self.ldb_admin, ou_dn) self.create_user(self.ldb_admin, user_dn) mod = "(A;;WP;;;AU)" self.dacl_add_ace(user_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having WP to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) print "Test rename with rights granted to 'User object' SID" # Create OU structure self.delete_force(self.ldb_admin, user_dn) self.delete_force(self.ldb_admin, rename_user_dn) self.delete_force(self.ldb_admin, ou_dn) self.create_ou(self.ldb_admin, ou_dn) self.create_user(self.ldb_admin, user_dn) sid = self.get_object_sid(self.get_user_dn("acluser1")) mod = "(A;;WP;;;%s)" % str(sid) self.dacl_add_ace(user_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having WP to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) def test_rename_u3(self): """ 8 Rename 'User object' cross OU with WP, SD and CC right granted on reg. user to AU""" ou1_dn = "OU=test_rename_ou1," + self.base_dn ou2_dn = "OU=test_rename_ou2," + self.base_dn user_dn = "CN=test_rename_user2," + ou1_dn rename_user_dn = "CN=test_rename_user5," + ou2_dn # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) print "Test rename with rights granted to AU" # Create OU structure self.create_ou(self.ldb_admin, ou1_dn) self.create_ou(self.ldb_admin, ou2_dn) self.create_user(self.ldb_admin, user_dn) mod = "(A;;WPSD;;;AU)" self.dacl_add_ace(user_dn, mod) mod = "(A;;CC;;;AU)" self.dacl_add_ace(ou2_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having SD and CC to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) print "Test rename with rights granted to 'User object' SID" # Create OU structure self.delete_force(self.ldb_admin, user_dn) self.delete_force(self.ldb_admin, rename_user_dn) self.delete_force(self.ldb_admin, ou1_dn) self.delete_force(self.ldb_admin, ou2_dn) self.create_ou(self.ldb_admin, ou1_dn) self.create_ou(self.ldb_admin, ou2_dn) self.create_user(self.ldb_admin, user_dn) sid = self.get_object_sid(self.get_user_dn("acluser1")) mod = "(A;;WPSD;;;%s)" % str(sid) self.dacl_add_ace(user_dn, mod) mod = "(A;;CC;;;%s)" % str(sid) self.dacl_add_ace(ou2_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having SD and CC to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) def test_rename_u4(self): """9 Rename 'User object' cross OU with WP, DC and CC right granted on OU & user to AU""" ou1_dn = "OU=test_rename_ou1," + self.base_dn ou2_dn = "OU=test_rename_ou2," + self.base_dn user_dn = "CN=test_rename_user2," + ou1_dn rename_user_dn = "CN=test_rename_user2," + ou2_dn # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create OU structure self.create_ou(self.ldb_admin, ou1_dn) self.create_ou(self.ldb_admin, ou2_dn) #mod = "(A;CI;DCWP;;;AU)" mod = "(A;;DC;;;AU)" self.dacl_add_ace(ou1_dn, mod) mod = "(A;;CC;;;AU)" self.dacl_add_ace(ou2_dn, mod) self.create_user(self.ldb_admin, user_dn) mod = "(A;;WP;;;AU)" self.dacl_add_ace(user_dn, mod) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having SD and CC to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) def test_rename_u5(self): """10 Rename 'User object' cross OU (second level) with WP, DC and CC right granted on OU to AU""" ou1_dn = "OU=test_rename_ou1," + self.base_dn ou2_dn = "OU=test_rename_ou2," + self.base_dn ou3_dn = "OU=test_rename_ou3," + ou2_dn user_dn = "CN=test_rename_user2," + ou1_dn rename_user_dn = "CN=test_rename_user5," + ou3_dn # Creating simple user to search with if self.SAMBA: self.delete_force(self.ldb_admin, self.get_user_dn("acluser1")) self.create_user(self.ldb_admin, self.get_user_dn("acluser1")) self.enable_account(self.get_user_dn("acluser1")) # Create OU structure self.create_ou(self.ldb_admin, ou1_dn) self.create_ou(self.ldb_admin, ou2_dn) self.create_ou(self.ldb_admin, ou3_dn) mod = "(A;CI;WPDC;;;AU)" self.dacl_add_ace(ou1_dn, mod) mod = "(A;;CC;;;AU)" self.dacl_add_ace(ou3_dn, mod) self.create_user(self.ldb_admin, user_dn) # Create user connectiona that we will test with ldb_user = self.get_ldb_connection("acluser1", "samba123@") # Rename 'User object' having SD and CC to AU ldb_user.rename(user_dn, rename_user_dn) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % user_dn ) self.assertEqual( res, [] ) res = self.ldb_admin.search( self.base_dn, expression="(distinguishedName=%s)" \ % rename_user_dn ) self.assertNotEqual( res, [] ) # Important unit running information if not "://" in host: host = "ldap://%s" % host ldb = Ldb(host, credentials=creds, session_info=system_session(), lp=lp) runner = SubunitTestRunner() rc = 0 if not runner.run(unittest.makeSuite(AclTests)).wasSuccessful(): rc = 1 sys.exit(rc)