#!/usr/bin/env python3 # Simple tests for the ldb python bindings. # Copyright (C) 2007 Jelmer Vernooij import os from unittest import TestCase import sys sys.path.insert(0, "bin/python") import gc import time import ldb import shutil import errno TDB_PREFIX = "tdb://" MDB_PREFIX = "mdb://" MDB_INDEX_OBJ = { "dn": "@INDEXLIST", "@IDXONE": [b"1"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"] } def tempdir(): import tempfile try: dir_prefix = os.path.join(os.environ["SELFTEST_PREFIX"], "tmp") except KeyError: dir_prefix = None return tempfile.mkdtemp(dir=dir_prefix) class NoContextTests(TestCase): def test_valid_attr_name(self): self.assertTrue(ldb.valid_attr_name("foo")) self.assertFalse(ldb.valid_attr_name("24foo")) def test_timestring(self): self.assertEqual("19700101000000.0Z", ldb.timestring(0)) self.assertEqual("20071119191012.0Z", ldb.timestring(1195499412)) self.assertEqual("00000101000000.0Z", ldb.timestring(-62167219200)) self.assertEqual("99991231235959.0Z", ldb.timestring(253402300799)) # should result with OSError EOVERFLOW from gmtime() with self.assertRaises(OSError) as err: ldb.timestring(-62167219201) self.assertEqual(err.exception.errno, errno.EOVERFLOW) with self.assertRaises(OSError) as err: ldb.timestring(253402300800) self.assertEqual(err.exception.errno, errno.EOVERFLOW) with self.assertRaises(OSError) as err: ldb.timestring(0x7fffffffffffffff) self.assertEqual(err.exception.errno, errno.EOVERFLOW) def test_string_to_time(self): self.assertEqual(0, ldb.string_to_time("19700101000000.0Z")) self.assertEqual(1195499412, ldb.string_to_time("20071119191012.0Z")) self.assertEqual(-62167219200, ldb.string_to_time("00000101000000.0Z")) self.assertEqual(253402300799, ldb.string_to_time("99991231235959.0Z")) def test_binary_encode(self): encoded = ldb.binary_encode(b'test\\x') decoded = ldb.binary_decode(encoded) self.assertEqual(decoded, b'test\\x') encoded2 = ldb.binary_encode('test\\x') self.assertEqual(encoded2, encoded) class LdbBaseTest(TestCase): def setUp(self): super(LdbBaseTest, self).setUp() try: if self.prefix is None: self.prefix = TDB_PREFIX except AttributeError: self.prefix = TDB_PREFIX def tearDown(self): super(LdbBaseTest, self).tearDown() def url(self): return self.prefix + self.filename def flags(self): if self.prefix == MDB_PREFIX: return ldb.FLG_NOSYNC else: return 0 class SimpleLdb(LdbBaseTest): def setUp(self): super(SimpleLdb, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.ldb = ldb.Ldb(self.url(), flags=self.flags()) try: self.ldb.add(self.index) except AttributeError: pass def tearDown(self): shutil.rmtree(self.testdir) super(SimpleLdb, self).tearDown() # Ensure the LDB is closed now, so we close the FD del(self.ldb) def test_connect(self): ldb.Ldb(self.url(), flags=self.flags()) def test_connect_none(self): ldb.Ldb() def test_connect_later(self): x = ldb.Ldb() x.connect(self.url(), flags=self.flags()) def test_repr(self): x = ldb.Ldb() self.assertTrue(repr(x).startswith("]", repr(x.modules())) def test_firstmodule_none(self): x = ldb.Ldb() self.assertEqual(x.firstmodule, None) def test_firstmodule_tdb(self): x = ldb.Ldb(self.url(), flags=self.flags()) mod = x.firstmodule self.assertEqual(repr(mod), "") def test_search(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search()), 0) def test_search_controls(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search(controls=["paged_results:0:5"])), 0) def test_utf8_ldb_Dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) dn = ldb.Dn(l, (b'a=' + b'\xc4\x85\xc4\x87\xc4\x99\xc5\x82\xc5\x84\xc3\xb3\xc5\x9b\xc5\xba\xc5\xbc').decode('utf8')) def test_utf8_encoded_ldb_Dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) dn_encoded_utf8 = b'a=' + b'\xc4\x85\xc4\x87\xc4\x99\xc5\x82\xc5\x84\xc3\xb3\xc5\x9b\xc5\xba\xc5\xbc' try: dn = ldb.Dn(l, dn_encoded_utf8) except UnicodeDecodeError as e: raise except TypeError as te: p3errors = ["argument 2 must be str, not bytes", "Can't convert 'bytes' object to str implicitly"] self.assertIn(str(te), p3errors) def test_search_attrs(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search(ldb.Dn(l, ""), ldb.SCOPE_SUBTREE, "(dc=*)", ["dc"])), 0) def test_search_string_dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search("", ldb.SCOPE_SUBTREE, "(dc=*)", ["dc"])), 0) def test_search_attr_string(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertRaises(TypeError, l.search, attrs="dc") self.assertRaises(TypeError, l.search, attrs=b"dc") def test_opaque(self): l = ldb.Ldb(self.url(), flags=self.flags()) l.set_opaque("my_opaque", l) self.assertTrue(l.get_opaque("my_opaque") is not None) self.assertEqual(None, l.get_opaque("unknown")) def test_search_scope_base_empty_db(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search(ldb.Dn(l, "dc=foo1"), ldb.SCOPE_BASE)), 0) def test_search_scope_onelevel_empty_db(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(len(l.search(ldb.Dn(l, "dc=foo1"), ldb.SCOPE_ONELEVEL)), 0) def test_delete(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertRaises(ldb.LdbError, lambda: l.delete(ldb.Dn(l, "dc=foo2"))) def test_delete_w_unhandled_ctrl(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo1") m["b"] = [b"a"] m["objectUUID"] = b"0123456789abcdef" l.add(m) self.assertRaises(ldb.LdbError, lambda: l.delete(m.dn, ["search_options:1:2"])) l.delete(m.dn) def test_contains(self): name = self.url() l = ldb.Ldb(name, flags=self.flags()) self.assertFalse(ldb.Dn(l, "dc=foo3") in l) l = ldb.Ldb(name, flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo3") m["b"] = ["a"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: self.assertTrue(ldb.Dn(l, "dc=foo3") in l) self.assertFalse(ldb.Dn(l, "dc=foo4") in l) finally: l.delete(m.dn) def test_get_config_basedn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(None, l.get_config_basedn()) def test_get_root_basedn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(None, l.get_root_basedn()) def test_get_schema_basedn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(None, l.get_schema_basedn()) def test_get_default_basedn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(None, l.get_default_basedn()) def test_add(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo4") m["bla"] = b"bla" m["objectUUID"] = b"0123456789abcdef" self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo4")) def test_search_iterator(self): l = ldb.Ldb(self.url(), flags=self.flags()) s = l.search_iterator() s.abandon() try: for me in s: self.fail() self.fail() except RuntimeError as re: pass try: s.abandon() self.fail() except RuntimeError as re: pass try: s.result() self.fail() except RuntimeError as re: pass s = l.search_iterator() count = 0 for me in s: self.assertTrue(isinstance(me, ldb.Message)) count += 1 r = s.result() self.assertEqual(len(r), 0) self.assertEqual(count, 0) m1 = ldb.Message() m1.dn = ldb.Dn(l, "dc=foo4") m1["bla"] = b"bla" m1["objectUUID"] = b"0123456789abcdef" l.add(m1) try: s = l.search_iterator() msgs = [] for me in s: self.assertTrue(isinstance(me, ldb.Message)) count += 1 msgs.append(me) r = s.result() self.assertEqual(len(r), 0) self.assertEqual(len(msgs), 1) self.assertEqual(msgs[0].dn, m1.dn) m2 = ldb.Message() m2.dn = ldb.Dn(l, "dc=foo5") m2["bla"] = b"bla" m2["objectUUID"] = b"0123456789abcdee" l.add(m2) s = l.search_iterator() msgs = [] for me in s: self.assertTrue(isinstance(me, ldb.Message)) count += 1 msgs.append(me) r = s.result() self.assertEqual(len(r), 0) self.assertEqual(len(msgs), 2) if msgs[0].dn == m1.dn: self.assertEqual(msgs[0].dn, m1.dn) self.assertEqual(msgs[1].dn, m2.dn) else: self.assertEqual(msgs[0].dn, m2.dn) self.assertEqual(msgs[1].dn, m1.dn) s = l.search_iterator() msgs = [] for me in s: self.assertTrue(isinstance(me, ldb.Message)) count += 1 msgs.append(me) break try: s.result() self.fail() except RuntimeError as re: pass for me in s: self.assertTrue(isinstance(me, ldb.Message)) count += 1 msgs.append(me) break for me in s: self.fail() r = s.result() self.assertEqual(len(r), 0) self.assertEqual(len(msgs), 2) if msgs[0].dn == m1.dn: self.assertEqual(msgs[0].dn, m1.dn) self.assertEqual(msgs[1].dn, m2.dn) else: self.assertEqual(msgs[0].dn, m2.dn) self.assertEqual(msgs[1].dn, m1.dn) finally: l.delete(ldb.Dn(l, "dc=foo4")) l.delete(ldb.Dn(l, "dc=foo5")) def test_add_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo4") m["bla"] = "bla" m["objectUUID"] = b"0123456789abcdef" self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo4")) def test_add_w_unhandled_ctrl(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo4") m["bla"] = b"bla" self.assertEqual(len(l.search()), 0) self.assertRaises(ldb.LdbError, lambda: l.add(m, ["search_options:1:2"])) def test_add_dict(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = {"dn": ldb.Dn(l, "dc=foo5"), "bla": b"bla", "objectUUID": b"0123456789abcdef"} self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo5")) def test_add_dict_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = {"dn": ldb.Dn(l, "dc=foo5"), "bla": "bla", "objectUUID": b"0123456789abcdef"} self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo5")) def test_add_dict_string_dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = {"dn": "dc=foo6", "bla": b"bla", "objectUUID": b"0123456789abcdef"} self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo6")) def test_add_dict_bytes_dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = {"dn": b"dc=foo6", "bla": b"bla", "objectUUID": b"0123456789abcdef"} self.assertEqual(len(l.search()), 0) l.add(m) try: self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=foo6")) def test_rename(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo7") m["bla"] = b"bla" m["objectUUID"] = b"0123456789abcdef" self.assertEqual(len(l.search()), 0) l.add(m) try: l.rename(ldb.Dn(l, "dc=foo7"), ldb.Dn(l, "dc=bar")) self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=bar")) def test_rename_string_dns(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo8") m["bla"] = b"bla" m["objectUUID"] = b"0123456789abcdef" self.assertEqual(len(l.search()), 0) l.add(m) self.assertEqual(len(l.search()), 1) try: l.rename("dc=foo8", "dc=bar") self.assertEqual(len(l.search()), 1) finally: l.delete(ldb.Dn(l, "dc=bar")) def test_rename_bad_string_dns(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=foo8") m["bla"] = b"bla" m["objectUUID"] = b"0123456789abcdef" self.assertEqual(len(l.search()), 0) l.add(m) self.assertEqual(len(l.search()), 1) self.assertRaises(ldb.LdbError,lambda: l.rename("dcXfoo8", "dc=bar")) self.assertRaises(ldb.LdbError,lambda: l.rename("dc=foo8", "dcXbar")) l.delete(ldb.Dn(l, "dc=foo8")) def test_empty_dn(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertEqual(0, len(l.search())) m = ldb.Message() m.dn = ldb.Dn(l, "dc=empty") m["objectUUID"] = b"0123456789abcdef" l.add(m) rm = l.search() self.assertEqual(1, len(rm)) self.assertEqual(set(["dn", "distinguishedName", "objectUUID"]), set(rm[0].keys())) rm = l.search(m.dn) self.assertEqual(1, len(rm)) self.assertEqual(set(["dn", "distinguishedName", "objectUUID"]), set(rm[0].keys())) rm = l.search(m.dn, attrs=["blah"]) self.assertEqual(1, len(rm)) self.assertEqual(0, len(rm[0])) def test_modify_delete(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=modifydelete") m["bla"] = [b"1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) rm = l.search(m.dn)[0] self.assertEqual([b"1234"], list(rm["bla"])) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=modifydelete") m["bla"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "bla") self.assertEqual(ldb.FLAG_MOD_DELETE, m["bla"].flags()) l.modify(m) rm = l.search(m.dn) self.assertEqual(1, len(rm)) self.assertEqual(set(["dn", "distinguishedName", "objectUUID"]), set(rm[0].keys())) rm = l.search(m.dn, attrs=["bla"]) self.assertEqual(1, len(rm)) self.assertEqual(0, len(rm[0])) finally: l.delete(ldb.Dn(l, "dc=modifydelete")) def test_modify_delete_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=modifydelete") m.text["bla"] = ["1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) rm = l.search(m.dn)[0] self.assertEqual(["1234"], list(rm.text["bla"])) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=modifydelete") m["bla"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "bla") self.assertEqual(ldb.FLAG_MOD_DELETE, m["bla"].flags()) l.modify(m) rm = l.search(m.dn) self.assertEqual(1, len(rm)) self.assertEqual(set(["dn", "distinguishedName", "objectUUID"]), set(rm[0].keys())) rm = l.search(m.dn, attrs=["bla"]) self.assertEqual(1, len(rm)) self.assertEqual(0, len(rm[0])) finally: l.delete(ldb.Dn(l, "dc=modifydelete")) def test_modify_add(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = [b"1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla") self.assertEqual(ldb.FLAG_MOD_ADD, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual([b"1234", b"456"], list(rm["bla"])) finally: l.delete(ldb.Dn(l, "dc=add")) def test_modify_add_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m.text["bla"] = ["1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = ldb.MessageElement(["456"], ldb.FLAG_MOD_ADD, "bla") self.assertEqual(ldb.FLAG_MOD_ADD, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual(["1234", "456"], list(rm.text["bla"])) finally: l.delete(ldb.Dn(l, "dc=add")) def test_modify_replace(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=modify2") m["bla"] = [b"1234", b"456"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=modify2") m["bla"] = ldb.MessageElement([b"789"], ldb.FLAG_MOD_REPLACE, "bla") self.assertEqual(ldb.FLAG_MOD_REPLACE, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual([b"789"], list(rm["bla"])) rm = l.search(m.dn, attrs=["bla"])[0] self.assertEqual(1, len(rm)) finally: l.delete(ldb.Dn(l, "dc=modify2")) def test_modify_replace_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=modify2") m.text["bla"] = ["1234", "456"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=modify2") m["bla"] = ldb.MessageElement(["789"], ldb.FLAG_MOD_REPLACE, "bla") self.assertEqual(ldb.FLAG_MOD_REPLACE, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual(["789"], list(rm.text["bla"])) rm = l.search(m.dn, attrs=["bla"])[0] self.assertEqual(1, len(rm)) finally: l.delete(ldb.Dn(l, "dc=modify2")) def test_modify_flags_change(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = [b"1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla") self.assertEqual(ldb.FLAG_MOD_ADD, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual([b"1234", b"456"], list(rm["bla"])) # Now create another modify, but switch the flags before we do it m["bla"] = ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla") m["bla"].set_flags(ldb.FLAG_MOD_DELETE) l.modify(m) rm = l.search(m.dn, attrs=["bla"])[0] self.assertEqual(1, len(rm)) self.assertEqual([b"1234"], list(rm["bla"])) finally: l.delete(ldb.Dn(l, "dc=add")) def test_modify_flags_change_text(self): l = ldb.Ldb(self.url(), flags=self.flags()) m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m.text["bla"] = ["1234"] m["objectUUID"] = b"0123456789abcdef" l.add(m) try: m = ldb.Message() m.dn = ldb.Dn(l, "dc=add") m["bla"] = ldb.MessageElement(["456"], ldb.FLAG_MOD_ADD, "bla") self.assertEqual(ldb.FLAG_MOD_ADD, m["bla"].flags()) l.modify(m) rm = l.search(m.dn)[0] self.assertEqual(3, len(rm)) self.assertEqual(["1234", "456"], list(rm.text["bla"])) # Now create another modify, but switch the flags before we do it m["bla"] = ldb.MessageElement(["456"], ldb.FLAG_MOD_ADD, "bla") m["bla"].set_flags(ldb.FLAG_MOD_DELETE) l.modify(m) rm = l.search(m.dn, attrs=["bla"])[0] self.assertEqual(1, len(rm)) self.assertEqual(["1234"], list(rm.text["bla"])) finally: l.delete(ldb.Dn(l, "dc=add")) def test_transaction_commit(self): l = ldb.Ldb(self.url(), flags=self.flags()) l.transaction_start() m = ldb.Message(ldb.Dn(l, "dc=foo9")) m["foo"] = [b"bar"] m["objectUUID"] = b"0123456789abcdef" l.add(m) l.transaction_commit() l.delete(m.dn) def test_transaction_cancel(self): l = ldb.Ldb(self.url(), flags=self.flags()) l.transaction_start() m = ldb.Message(ldb.Dn(l, "dc=foo10")) m["foo"] = [b"bar"] m["objectUUID"] = b"0123456789abcdee" l.add(m) l.transaction_cancel() self.assertEqual(0, len(l.search(ldb.Dn(l, "dc=foo10")))) def test_set_debug(self): def my_report_fn(level, text): pass l = ldb.Ldb(self.url(), flags=self.flags()) l.set_debug(my_report_fn) def test_zero_byte_string(self): """Testing we do not get trapped in the \0 byte in a property string.""" l = ldb.Ldb(self.url(), flags=self.flags()) l.add({ "dn": b"dc=somedn", "objectclass": b"user", "cN": b"LDAPtestUSER", "givenname": b"ldap", "displayname": b"foo\0bar", "objectUUID": b"0123456789abcdef" }) res = l.search(expression="(dn=dc=somedn)") self.assertEqual(b"foo\0bar", res[0]["displayname"][0]) def test_no_crash_broken_expr(self): l = ldb.Ldb(self.url(), flags=self.flags()) self.assertRaises(ldb.LdbError, lambda: l.search("", ldb.SCOPE_SUBTREE, "&(dc=*)(dn=*)", ["dc"])) # Run the SimpleLdb tests against an lmdb backend class SimpleLdbLmdb(SimpleLdb): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(SimpleLdbLmdb, self).setUp() def tearDown(self): super(SimpleLdbLmdb, self).tearDown() class SimpleLdbNoLmdb(LdbBaseTest): def setUp(self): if os.environ.get('HAVE_LMDB', '1') != '0': self.skipTest("lmdb backend enabled") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(SimpleLdbNoLmdb, self).setUp() def tearDown(self): super(SimpleLdbNoLmdb, self).tearDown() def test_lmdb_disabled(self): self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") try: self.ldb = ldb.Ldb(self.url(), flags=self.flags()) self.fail("Should have failed on missing LMDB") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_OTHER) class SearchTests(LdbBaseTest): def tearDown(self): shutil.rmtree(self.testdir) super(SearchTests, self).tearDown() # Ensure the LDB is closed now, so we close the FD del(self.l) def setUp(self): super(SearchTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "search_test.ldb") options = ["modules:rdn_name"] if hasattr(self, 'IDXCHECK'): options.append("disable_full_db_scan_for_self_test:1") self.l = ldb.Ldb(self.url(), flags=self.flags(), options=options) try: self.l.add(self.index) except AttributeError: pass self.l.add({"dn": "@ATTRIBUTES", "DC": "CASE_INSENSITIVE"}) # Note that we can't use the name objectGUID here, as we # want to stay clear of the objectGUID handler in LDB and # instead use just the 16 bytes raw, which we just keep # to printable chars here for ease of handling. self.l.add({"dn": "DC=ORG", "name": b"org", "objectUUID": b"0000000000abcdef"}) self.l.add({"dn": "DC=EXAMPLE,DC=ORG", "name": b"org", "objectUUID": b"0000000001abcdef"}) self.l.add({"dn": "OU=OU1,DC=EXAMPLE,DC=ORG", "name": b"OU #1", "x": "y", "y": "a", "objectUUID": b"0023456789abcde3"}) self.l.add({"dn": "OU=OU2,DC=EXAMPLE,DC=ORG", "name": b"OU #2", "x": "y", "y": "a", "objectUUID": b"0023456789abcde4"}) self.l.add({"dn": "OU=OU3,DC=EXAMPLE,DC=ORG", "name": b"OU #3", "x": "y", "y": "a", "objectUUID": b"0023456789abcde5"}) self.l.add({"dn": "OU=OU4,DC=EXAMPLE,DC=ORG", "name": b"OU #4", "x": "z", "y": "b", "objectUUID": b"0023456789abcde6"}) self.l.add({"dn": "OU=OU5,DC=EXAMPLE,DC=ORG", "name": b"OU #5", "x": "y", "y": "a", "objectUUID": b"0023456789abcde7"}) self.l.add({"dn": "OU=OU6,DC=EXAMPLE,DC=ORG", "name": b"OU #6", "x": "y", "y": "a", "objectUUID": b"0023456789abcde8"}) self.l.add({"dn": "OU=OU7,DC=EXAMPLE,DC=ORG", "name": b"OU #7", "x": "y", "y": "c", "objectUUID": b"0023456789abcde9"}) self.l.add({"dn": "OU=OU8,DC=EXAMPLE,DC=ORG", "name": b"OU #8", "x": "y", "y": "b", "objectUUID": b"0023456789abcde0"}) self.l.add({"dn": "OU=OU9,DC=EXAMPLE,DC=ORG", "name": b"OU #9", "x": "y", "y": "a", "objectUUID": b"0023456789abcdea"}) self.l.add({"dn": "DC=EXAMPLE,DC=COM", "name": b"org", "objectUUID": b"0000000011abcdef"}) self.l.add({"dn": "DC=EXAMPLE,DC=NET", "name": b"org", "objectUUID": b"0000000021abcdef"}) self.l.add({"dn": "OU=UNIQUE,DC=EXAMPLE,DC=NET", "objectUUID": b"0000000022abcdef"}) self.l.add({"dn": "DC=SAMBA,DC=ORG", "name": b"samba.org", "objectUUID": b"0123456789abcdef"}) self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.l.add({"dn": "OU=USERS,DC=SAMBA,DC=ORG", "name": b"Users", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) self.l.add({"dn": "OU=OU1,DC=SAMBA,DC=ORG", "name": b"OU #1", "x": "y", "y": "a", "objectUUID": b"0123456789abcde3"}) self.l.add({"dn": "OU=OU2,DC=SAMBA,DC=ORG", "name": b"OU #2", "x": "y", "y": "a", "objectUUID": b"0123456789abcde4"}) self.l.add({"dn": "OU=OU3,DC=SAMBA,DC=ORG", "name": b"OU #3", "x": "y", "y": "a", "objectUUID": b"0123456789abcde5"}) self.l.add({"dn": "OU=OU4,DC=SAMBA,DC=ORG", "name": b"OU #4", "x": "y", "y": "a", "objectUUID": b"0123456789abcde6"}) self.l.add({"dn": "OU=OU5,DC=SAMBA,DC=ORG", "name": b"OU #5", "x": "y", "y": "a", "objectUUID": b"0123456789abcde7"}) self.l.add({"dn": "OU=OU6,DC=SAMBA,DC=ORG", "name": b"OU #6", "x": "y", "y": "a", "objectUUID": b"0123456789abcde8"}) self.l.add({"dn": "OU=OU7,DC=SAMBA,DC=ORG", "name": b"OU #7", "x": "y", "y": "a", "objectUUID": b"0123456789abcde9"}) self.l.add({"dn": "OU=OU8,DC=SAMBA,DC=ORG", "name": b"OU #8", "x": "y", "y": "a", "objectUUID": b"0123456789abcde0"}) self.l.add({"dn": "OU=OU9,DC=SAMBA,DC=ORG", "name": b"OU #9", "x": "y", "y": "a", "objectUUID": b"0123456789abcdea"}) self.l.add({"dn": "OU=OU10,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "y", "y": "a", "objectUUID": b"0123456789abcdeb"}) self.l.add({"dn": "OU=OU11,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "y", "y": "a", "objectUUID": b"0123456789abcdec"}) self.l.add({"dn": "OU=OU12,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "y", "y": "b", "objectUUID": b"0123456789abcded"}) self.l.add({"dn": "OU=OU13,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcdee"}) self.l.add({"dn": "OU=OU14,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd01"}) self.l.add({"dn": "OU=OU15,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd02"}) self.l.add({"dn": "OU=OU16,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd03"}) self.l.add({"dn": "OU=OU17,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd04"}) self.l.add({"dn": "OU=OU18,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd05"}) self.l.add({"dn": "OU=OU19,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd06"}) self.l.add({"dn": "OU=OU20,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "b", "objectUUID": b"0123456789abcd07"}) self.l.add({"dn": "OU=OU21,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "c", "objectUUID": b"0123456789abcd08"}) self.l.add({"dn": "OU=OU22,DC=SAMBA,DC=ORG", "name": b"OU #10", "x": "x", "y": "c", "objectUUID": b"0123456789abcd09"}) def test_base(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 1) def test_base_lower(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=samba,DC=org", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 1) def test_base_or(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(|(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 1) def test_base_or2(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(|(x=y)(y=b))") self.assertEqual(len(res11), 1) def test_base_and(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(&(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 0) def test_base_and2(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(&(x=y)(y=a))") self.assertEqual(len(res11), 1) def test_base_false(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(|(ou=ou13)(ou=ou12))") self.assertEqual(len(res11), 0) def test_check_base_false(self): """Testing a search""" res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(|(ou=ou13)(ou=ou12))") self.assertEqual(len(res11), 0) def test_check_base_error(self): """Testing a search""" checkbaseonsearch = {"dn": "@OPTIONS", "checkBaseOnSearch": b"TRUE"} try: self.l.add(checkbaseonsearch) except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) m = ldb.Message.from_dict(self.l, checkbaseonsearch) self.l.modify(m) try: res11 = self.l.search(base="OU=OU11x,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(|(ou=ou13)(ou=ou12))") self.fail("Should have failed on missing base") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_NO_SUCH_OBJECT) def test_subtree(self): """Testing a search""" try: res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE) if hasattr(self, 'IDXCHECK'): self.fail() except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") else: self.assertEqual(len(res11), 25) def test_subtree2(self): """Testing a search""" try: res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_SUBTREE) if hasattr(self, 'IDXCHECK'): self.fail() except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") else: self.assertEqual(len(res11), 36) def test_subtree_and(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 0) def test_subtree_and2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(x=y)(|(y=b)(y=c)))") self.assertEqual(len(res11), 1) def test_subtree_and2_lower(self): """Testing a search""" res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_SUBTREE, expression="(&(x=y)(|(y=b)(y=c)))") self.assertEqual(len(res11), 1) def test_subtree_or(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(|(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 2) def test_subtree_or2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(|(x=y)(y=b))") self.assertEqual(len(res11), 20) def test_subtree_or3(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(|(x=y)(y=b)(y=c))") self.assertEqual(len(res11), 22) def test_one_and(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 0) def test_one_and2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(x=y)(y=b))") self.assertEqual(len(res11), 1) def test_one_or(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(|(ou=ou11)(ou=ou12))") self.assertEqual(len(res11), 2) def test_one_or2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(|(x=y)(y=b))") self.assertEqual(len(res11), 20) def test_one_or2_lower(self): """Testing a search""" res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_ONELEVEL, expression="(|(x=y)(y=b))") self.assertEqual(len(res11), 20) def test_one_unindexable(self): """Testing a search""" try: res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_ONELEVEL, expression="(y=b*)") if hasattr(self, 'IDX') and \ not hasattr(self, 'IDXONE') and \ hasattr(self, 'IDXCHECK'): self.fail("Should have failed as un-indexed search") self.assertEqual(len(res11), 9) except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") def test_one_unindexable_presence(self): """Testing a search""" try: res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_ONELEVEL, expression="(y=*)") if hasattr(self, 'IDX') and \ not hasattr(self, 'IDXONE') and \ hasattr(self, 'IDXCHECK'): self.fail("Should have failed as un-indexed search") self.assertEqual(len(res11), 24) except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") def test_subtree_and_or(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(|(x=z)(y=b))(x=x)(y=c))") self.assertEqual(len(res11), 0) def test_subtree_and_or2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(x=x)(y=c)(|(x=z)(y=b)))") self.assertEqual(len(res11), 0) def test_subtree_and_or3(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(|(ou=ou11)(ou=ou10))(|(x=y)(y=b)(y=c)))") self.assertEqual(len(res11), 2) def test_subtree_and_or4(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(|(x=y)(y=b)(y=c))(|(ou=ou11)(ou=ou10)))") self.assertEqual(len(res11), 2) def test_subtree_and_or5(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(|(x=y)(y=b)(y=c))(ou=ou11))") self.assertEqual(len(res11), 1) def test_subtree_or_and(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(|(x=x)(y=c)(&(x=z)(y=b)))") self.assertEqual(len(res11), 10) def test_subtree_large_and_unique(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(ou=ou10)(y=a))") self.assertEqual(len(res11), 1) def test_subtree_unique(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(ou=ou10)") self.assertEqual(len(res11), 1) def test_subtree_unique_elsewhere(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_subtree_unique_elsewhere2(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=NET", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 1) def test_subtree_unique_elsewhere3(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_subtree_unique_elsewhere4(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_subtree_unique_elsewhere5(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=COM", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_subtree_unique_elsewhere6(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_subtree_unique_elsewhere7(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=COM", scope=ldb.SCOPE_SUBTREE, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_subtree_unique_here(self): """Testing a search""" res11 = self.l.search(base="OU=UNIQUE,DC=EXAMPLE,DC=NET", scope=ldb.SCOPE_SUBTREE, expression="(ou=unique)") self.assertEqual(len(res11), 1) def test_subtree_and_none(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(&(ou=ouX)(y=a))") self.assertEqual(len(res11), 0) def test_subtree_and_idx_record(self): """Testing a search against the index record""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(@IDXDN=DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 0) def test_subtree_and_idxone_record(self): """Testing a search against the index record""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(@IDXONE=DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 0) def test_onelevel(self): """Testing a search""" try: res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL) if hasattr(self, 'IDXCHECK') \ and not hasattr(self, 'IDXONE'): self.fail() except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") else: self.assertEqual(len(res11), 24) def test_onelevel2(self): """Testing a search""" try: res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL) if hasattr(self, 'IDXCHECK') \ and not hasattr(self, 'IDXONE'): self.fail() self.fail() except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") else: self.assertEqual(len(res11), 9) def test_onelevel_and_or(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=z)(y=b))(x=x)(y=c))") self.assertEqual(len(res11), 0) def test_onelevel_and_or2(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(x=x)(y=c)(|(x=z)(y=b)))") self.assertEqual(len(res11), 0) def test_onelevel_and_or3(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(ou=ou11)(ou=ou10))(|(x=y)(y=b)(y=c)))") self.assertEqual(len(res11), 2) def test_onelevel_and_or4(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(|(ou=ou11)(ou=ou10)))") self.assertEqual(len(res11), 2) def test_onelevel_and_or5(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(ou=ou11))") self.assertEqual(len(res11), 1) def test_onelevel_or_and(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(|(x=x)(y=c)(&(x=z)(y=b)))") self.assertEqual(len(res11), 10) def test_onelevel_large_and_unique(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ou10)(y=a))") self.assertEqual(len(res11), 1) def test_onelevel_unique(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=ou10)") self.assertEqual(len(res11), 1) def test_onelevel_unique_elsewhere(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_onelevel_unique_elsewhere2(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=NET", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 1) def test_onelevel_unique_elsewhere3(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_onelevel_unique_elsewhere4(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_onelevel_unique_elsewhere5(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=COM", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_onelevel_unique_elsewhere6(self): """Testing a search""" res11 = self.l.search(base="DC=EXAMPLE,DC=COM", scope=ldb.SCOPE_ONELEVEL, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_onelevel_unique_here(self): """Testing a search""" res11 = self.l.search(base="OU=UNIQUE,DC=EXAMPLE,DC=NET", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_onelevel_and_none(self): """Testing a search""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ouX)(y=a))") self.assertEqual(len(res11), 0) def test_onelevel_and_idx_record(self): """Testing a search against the index record""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(@IDXDN=DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 0) def test_onelevel_and_idxone_record(self): """Testing a search against the index record""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(@IDXONE=DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 0) def test_subtree_unindexable(self): """Testing a search""" try: res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_SUBTREE, expression="(y=b*)") if hasattr(self, 'IDX') and \ hasattr(self, 'IDXCHECK'): self.fail("Should have failed as un-indexed search") self.assertEqual(len(res11), 9) except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") def test_onelevel_only_and_or(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=z)(y=b))(x=x)(y=c))") self.assertEqual(len(res11), 0) def test_onelevel_only_and_or2(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(x=x)(y=c)(|(x=z)(y=b)))") self.assertEqual(len(res11), 0) def test_onelevel_only_and_or3(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(ou=ou11)(ou=ou10))(|(x=y)(y=b)(y=c)))") self.assertEqual(len(res11), 0) def test_onelevel_only_and_or4(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(|(ou=ou11)(ou=ou10)))") self.assertEqual(len(res11), 0) def test_onelevel_only_and_or5(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(ou=ou11))") self.assertEqual(len(res11), 0) def test_onelevel_only_or_and(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(|(x=x)(y=c)(&(x=z)(y=b)))") self.assertEqual(len(res11), 0) def test_onelevel_only_large_and_unique(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ou10)(y=a))") self.assertEqual(len(res11), 0) def test_onelevel_only_unique(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_onelevel_only_unique2(self): """Testing a search""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=unique)") self.assertEqual(len(res11), 0) def test_onelevel_only_and_none(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ouX)(y=a))") self.assertEqual(len(res11), 0) def test_onelevel_small_and_or(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=z)(y=b))(x=x)(y=c))") self.assertEqual(len(res11), 0) def test_onelevel_small_and_or2(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(x=x)(y=c)(|(x=z)(y=b)))") self.assertEqual(len(res11), 0) def test_onelevel_small_and_or3(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(ou=ou1)(ou=ou2))(|(x=y)(y=b)(y=c)))") self.assertEqual(len(res11), 2) def test_onelevel_small_and_or4(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(|(ou=ou1)(ou=ou2)))") self.assertEqual(len(res11), 2) def test_onelevel_small_and_or5(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(|(x=y)(y=b)(y=c))(ou=ou1))") self.assertEqual(len(res11), 1) def test_onelevel_small_or_and(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(|(x=x)(y=c)(&(x=z)(y=b)))") self.assertEqual(len(res11), 2) def test_onelevel_small_large_and_unique(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ou9)(y=a))") self.assertEqual(len(res11), 1) def test_onelevel_small_unique_elsewhere(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(ou=ou10)") self.assertEqual(len(res11), 0) def test_onelevel_small_and_none(self): """Testing a search (showing that onelevel is not subtree)""" res11 = self.l.search(base="DC=EXAMPLE,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(&(ou=ouX)(y=a))") self.assertEqual(len(res11), 0) def test_subtree_unindexable_presence(self): """Testing a search""" try: res11 = self.l.search(base="DC=samba,DC=org", scope=ldb.SCOPE_SUBTREE, expression="(y=*)") if hasattr(self, 'IDX') and \ hasattr(self, 'IDXCHECK'): self.fail("Should have failed as un-indexed search") self.assertEqual(len(res11), 24) except ldb.LdbError as err: enum = err.args[0] estr = err.args[1] self.assertEqual(enum, ldb.ERR_INAPPROPRIATE_MATCHING) self.assertIn(estr, "ldb FULL SEARCH disabled") def test_dn_filter_one(self): """Testing that a dn= filter succeeds (or fails with disallowDNFilter set and IDXGUID or (IDX and not IDXONE) mode) when the scope is SCOPE_ONELEVEL. This should be made more consistent, but for now lock in the behaviour """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(dn=OU=OU1,DC=SAMBA,DC=ORG)") if hasattr(self, 'disallowDNFilter') and \ hasattr(self, 'IDX') and \ (hasattr(self, 'IDXGUID') or ((not hasattr(self, 'IDXONE') and hasattr(self, 'IDX')))): self.assertEqual(len(res11), 0) else: self.assertEqual(len(res11), 1) def test_dn_filter_subtree(self): """Testing that a dn= filter succeeds (or fails with disallowDNFilter set) when the scope is SCOPE_SUBTREE""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(dn=OU=OU1,DC=SAMBA,DC=ORG)") if hasattr(self, 'disallowDNFilter') \ and hasattr(self, 'IDX'): self.assertEqual(len(res11), 0) else: self.assertEqual(len(res11), 1) def test_dn_filter_base(self): """Testing that (incorrectly) a dn= filter works when the scope is SCOPE_BASE""" res11 = self.l.search(base="OU=OU1,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(dn=OU=OU1,DC=SAMBA,DC=ORG)") # At some point we should fix this, but it isn't trivial self.assertEqual(len(res11), 1) def test_distinguishedName_filter_one(self): """Testing that a distinguishedName= filter succeeds when the scope is SCOPE_ONELEVEL. This should be made more consistent, but for now lock in the behaviour """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(distinguishedName=OU=OU1,DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 1) def test_distinguishedName_filter_subtree(self): """Testing that a distinguishedName= filter succeeds when the scope is SCOPE_SUBTREE""" res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(distinguishedName=OU=OU1,DC=SAMBA,DC=ORG)") self.assertEqual(len(res11), 1) def test_distinguishedName_filter_base(self): """Testing that (incorrectly) a distinguishedName= filter works when the scope is SCOPE_BASE""" res11 = self.l.search(base="OU=OU1,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(distinguishedName=OU=OU1,DC=SAMBA,DC=ORG)") # At some point we should fix this, but it isn't trivial self.assertEqual(len(res11), 1) def test_bad_dn_filter_base(self): """Testing that a dn= filter on an invalid DN works when the scope is SCOPE_BASE but returns zero results""" res11 = self.l.search(base="OU=OU1,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(dn=OU=OU1,DC=SAMBA,DCXXXX)") # At some point we should fix this, but it isn't trivial self.assertEqual(len(res11), 0) def test_bad_dn_filter_one(self): """Testing that a dn= filter succeeds but returns zero results when the DN is not valid on a SCOPE_ONELEVEL search """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(dn=OU=OU1,DC=SAMBA,DCXXXX)") self.assertEqual(len(res11), 0) def test_bad_dn_filter_subtree(self): """Testing that a dn= filter succeeds but returns zero results when the DN is not valid on a SCOPE_SUBTREE search """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(dn=OU=OU1,DC=SAMBA,DCXXXX)") self.assertEqual(len(res11), 0) def test_bad_distinguishedName_filter_base(self): """Testing that a distinguishedName= filter on an invalid DN works when the scope is SCOPE_BASE but returns zero results""" res11 = self.l.search(base="OU=OU1,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE, expression="(distinguishedName=OU=OU1,DC=SAMBA,DCXXXX)") # At some point we should fix this, but it isn't trivial self.assertEqual(len(res11), 0) def test_bad_distinguishedName_filter_one(self): """Testing that a distinguishedName= filter succeeds but returns zero results when the DN is not valid on a SCOPE_ONELEVEL search """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_ONELEVEL, expression="(distinguishedName=OU=OU1,DC=SAMBA,DCXXXX)") self.assertEqual(len(res11), 0) def test_bad_distinguishedName_filter_subtree(self): """Testing that a distinguishedName= filter succeeds but returns zero results when the DN is not valid on a SCOPE_SUBTREE search """ res11 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(distinguishedName=OU=OU1,DC=SAMBA,DCXXXX)") self.assertEqual(len(res11), 0) def test_bad_dn_search_base(self): """Testing with a bad base DN (SCOPE_BASE)""" try: res11 = self.l.search(base="OU=OU1,DC=SAMBA,DCXXX", scope=ldb.SCOPE_BASE) self.fail("Should have failed with ERR_INVALID_DN_SYNTAX") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) def test_bad_dn_search_one(self): """Testing with a bad base DN (SCOPE_ONELEVEL)""" try: res11 = self.l.search(base="DC=SAMBA,DCXXXX", scope=ldb.SCOPE_ONELEVEL) self.fail("Should have failed with ERR_INVALID_DN_SYNTAX") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) def test_bad_dn_search_subtree(self): """Testing with a bad base DN (SCOPE_SUBTREE)""" try: res11 = self.l.search(base="DC=SAMBA,DCXXXX", scope=ldb.SCOPE_SUBTREE) self.fail("Should have failed with ERR_INVALID_DN_SYNTAX") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) # Run the search tests against an lmdb backend class SearchTestsLmdb(SearchTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(SearchTestsLmdb, self).setUp() def tearDown(self): super(SearchTestsLmdb, self).tearDown() class IndexedSearchTests(SearchTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): super(IndexedSearchTests, self).setUp() self.l.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"]}) self.IDX = True class IndexedCheckSearchTests(IndexedSearchTests): """Test searches using the index, to ensure the index doesn't break things (full scan disabled)""" def setUp(self): self.IDXCHECK = True super(IndexedCheckSearchTests, self).setUp() class IndexedSearchDnFilterTests(SearchTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): super(IndexedSearchDnFilterTests, self).setUp() self.l.add({"dn": "@OPTIONS", "disallowDNFilter": "TRUE"}) self.disallowDNFilter = True self.l.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"]}) self.IDX = True class IndexedAndOneLevelSearchTests(SearchTests): """Test searches using the index including @IDXONE, to ensure the index doesn't break things""" def setUp(self): super(IndexedAndOneLevelSearchTests, self).setUp() self.l.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXONE": [b"1"]}) self.IDX = True self.IDXONE = True class IndexedCheckedAndOneLevelSearchTests(IndexedAndOneLevelSearchTests): """Test searches using the index including @IDXONE, to ensure the index doesn't break things (full scan disabled)""" def setUp(self): self.IDXCHECK = True super(IndexedCheckedAndOneLevelSearchTests, self).setUp() class IndexedAndOneLevelDNFilterSearchTests(SearchTests): """Test searches using the index including @IDXONE, to ensure the index doesn't break things""" def setUp(self): super(IndexedAndOneLevelDNFilterSearchTests, self).setUp() self.l.add({"dn": "@OPTIONS", "disallowDNFilter": "TRUE", "checkBaseOnSearch": "TRUE"}) self.disallowDNFilter = True self.checkBaseOnSearch = True self.l.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXONE": [b"1"]}) self.IDX = True self.IDXONE = True class GUIDIndexedSearchTests(SearchTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): self.index = {"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]} super(GUIDIndexedSearchTests, self).setUp() self.IDXGUID = True class GUIDIndexedDNFilterSearchTests(SearchTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): self.index = {"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]} super(GUIDIndexedDNFilterSearchTests, self).setUp() self.l.add({"dn": "@OPTIONS", "disallowDNFilter": "TRUE", "checkBaseOnSearch": "TRUE"}) self.disallowDNFilter = True self.checkBaseOnSearch = True self.IDX = True self.IDXGUID = True class GUIDAndOneLevelIndexedSearchTests(SearchTests): """Test searches using the index including @IDXONE, to ensure the index doesn't break things""" def setUp(self): self.index = {"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXONE": [b"1"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]} super(GUIDAndOneLevelIndexedSearchTests, self).setUp() self.l.add({"dn": "@OPTIONS", "disallowDNFilter": "TRUE", "checkBaseOnSearch": "TRUE"}) self.disallowDNFilter = True self.checkBaseOnSearch = True self.IDX = True self.IDXGUID = True self.IDXONE = True class GUIDIndexedSearchTestsLmdb(GUIDIndexedSearchTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX super(GUIDIndexedSearchTestsLmdb, self).setUp() def tearDown(self): super(GUIDIndexedSearchTestsLmdb, self).tearDown() class GUIDIndexedDNFilterSearchTestsLmdb(GUIDIndexedDNFilterSearchTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX super(GUIDIndexedDNFilterSearchTestsLmdb, self).setUp() def tearDown(self): super(GUIDIndexedDNFilterSearchTestsLmdb, self).tearDown() class GUIDAndOneLevelIndexedSearchTestsLmdb(GUIDAndOneLevelIndexedSearchTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX super(GUIDAndOneLevelIndexedSearchTestsLmdb, self).setUp() def tearDown(self): super(GUIDAndOneLevelIndexedSearchTestsLmdb, self).tearDown() class AddModifyTests(LdbBaseTest): def tearDown(self): shutil.rmtree(self.testdir) super(AddModifyTests, self).tearDown() # Ensure the LDB is closed now, so we close the FD del(self.l) def setUp(self): super(AddModifyTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "add_test.ldb") self.l = ldb.Ldb(self.url(), flags=self.flags(), options=["modules:rdn_name"]) try: self.l.add(self.index) except AttributeError: pass self.l.add({"dn": "DC=SAMBA,DC=ORG", "name": b"samba.org", "objectUUID": b"0123456789abcdef"}) self.l.add({"dn": "@ATTRIBUTES", "objectUUID": "UNIQUE_INDEX"}) def test_add_dup(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) try: self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) self.fail("Should have failed adding duplicate entry") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) def test_add_bad(self): try: self.l.add({"dn": "BAD,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.fail("Should have failed adding entry with invalid DN") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) def test_add_del_add(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.l.delete("OU=DUP,DC=SAMBA,DC=ORG") self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) def test_add_move_add(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) def test_add_move_fail_move_move(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) res2 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(objectUUID=0123456789abcde1)") self.assertEqual(len(res2), 1) self.assertEqual(str(res2[0].dn), "OU=DUP,DC=SAMBA,DC=ORG") res3 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(objectUUID=0123456789abcde2)") self.assertEqual(len(res3), 1) self.assertEqual(str(res3[0].dn), "OU=DUP2,DC=SAMBA,DC=ORG") try: self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on duplicate DN") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) self.l.rename("OU=DUP2,DC=SAMBA,DC=ORG", "OU=DUP3,DC=SAMBA,DC=ORG") self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") res2 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(objectUUID=0123456789abcde1)") self.assertEqual(len(res2), 1) self.assertEqual(str(res2[0].dn), "OU=DUP2,DC=SAMBA,DC=ORG") res3 = self.l.search(base="DC=SAMBA,DC=ORG", scope=ldb.SCOPE_SUBTREE, expression="(objectUUID=0123456789abcde2)") self.assertEqual(len(res3), 1) self.assertEqual(str(res3[0].dn), "OU=DUP3,DC=SAMBA,DC=ORG") def test_move_missing(self): try: self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on missing") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_NO_SUCH_OBJECT) def test_move_missing2(self): self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) try: self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on missing") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_NO_SUCH_OBJECT) def test_move_bad(self): self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) try: self.l.rename("OUXDUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on invalid DN") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) def test_move_bad2(self): self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) try: self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OUXDUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on missing") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_INVALID_DN_SYNTAX) def test_move_fail_move_add(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) try: self.l.rename("OU=DUP,DC=SAMBA,DC=ORG", "OU=DUP2,DC=SAMBA,DC=ORG") self.fail("Should have failed on duplicate DN") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) self.l.rename("OU=DUP2,DC=SAMBA,DC=ORG", "OU=DUP3,DC=SAMBA,DC=ORG") self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde3"}) class AddModifyTestsLmdb(AddModifyTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(AddModifyTestsLmdb, self).setUp() def tearDown(self): super(AddModifyTestsLmdb, self).tearDown() class IndexedAddModifyTests(AddModifyTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): if not hasattr(self, 'index'): self.index = {"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou", b"objectUUID", b"z"], "@IDXONE": [b"1"]} super(IndexedAddModifyTests, self).setUp() def test_duplicate_GUID(self): try: self.l.add({"dn": "OU=DUPGUID,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcdef"}) self.fail("Should have failed adding duplicate GUID") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_CONSTRAINT_VIOLATION) def test_duplicate_name_dup_GUID(self): self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"a123456789abcdef"}) try: self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"a123456789abcdef"}) self.fail("Should have failed adding duplicate GUID") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) def test_duplicate_name_dup_GUID2(self): self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"abc3456789abcdef"}) try: self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"aaa3456789abcdef"}) self.fail("Should have failed adding duplicate DN") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_ENTRY_ALREADY_EXISTS) # Checking the GUID didn't stick in the index self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"aaa3456789abcdef"}) def test_add_dup_guid_add(self): self.l.add({"dn": "OU=DUP,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) try: self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde1"}) self.fail("Should have failed on duplicate GUID") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_CONSTRAINT_VIOLATION) self.l.add({"dn": "OU=DUP2,DC=SAMBA,DC=ORG", "name": b"Admins", "x": "z", "y": "a", "objectUUID": b"0123456789abcde2"}) def test_duplicate_index_values(self): self.l.add({"dn": "OU=DIV1,DC=SAMBA,DC=ORG", "name": b"Admins", "z": "1", "objectUUID": b"0123456789abcdff"}) self.l.add({"dn": "OU=DIV2,DC=SAMBA,DC=ORG", "name": b"Admins", "z": "1", "objectUUID": b"0123456789abcdfd"}) class GUIDIndexedAddModifyTests(IndexedAddModifyTests): """Test searches using the index, to ensure the index doesn't break things""" def setUp(self): self.index = {"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXONE": [b"1"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]} super(GUIDIndexedAddModifyTests, self).setUp() class GUIDTransIndexedAddModifyTests(GUIDIndexedAddModifyTests): """Test GUID index behaviour insdie the transaction""" def setUp(self): super(GUIDTransIndexedAddModifyTests, self).setUp() self.l.transaction_start() def tearDown(self): self.l.transaction_commit() super(GUIDTransIndexedAddModifyTests, self).tearDown() class TransIndexedAddModifyTests(IndexedAddModifyTests): """Test index behaviour insdie the transaction""" def setUp(self): super(TransIndexedAddModifyTests, self).setUp() self.l.transaction_start() def tearDown(self): self.l.transaction_commit() super(TransIndexedAddModifyTests, self).tearDown() class GuidIndexedAddModifyTestsLmdb(GUIDIndexedAddModifyTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX super(GuidIndexedAddModifyTestsLmdb, self).setUp() def tearDown(self): super(GuidIndexedAddModifyTestsLmdb, self).tearDown() class GuidTransIndexedAddModifyTestsLmdb(GUIDTransIndexedAddModifyTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX super(GuidTransIndexedAddModifyTestsLmdb, self).setUp() def tearDown(self): super(GuidTransIndexedAddModifyTestsLmdb, self).tearDown() class BadIndexTests(LdbBaseTest): def setUp(self): super(BadIndexTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.ldb = ldb.Ldb(self.url(), flags=self.flags()) if hasattr(self, 'IDXGUID'): self.ldb.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]}) else: self.ldb.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"]}) super(BadIndexTests, self).setUp() def test_unique(self): self.ldb.add({"dn": "x=x,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "1"}) self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde2", "y": "1"}) self.ldb.add({"dn": "x=z,dc=samba,dc=org", "objectUUID": b"0123456789abcde3", "y": "1"}) res = self.ldb.search(expression="(y=1)", base="dc=samba,dc=org") self.assertEqual(len(res), 3) # Now set this to unique index, but forget to check the result try: self.ldb.add({"dn": "@ATTRIBUTES", "y": "UNIQUE_INDEX"}) self.fail() except ldb.LdbError: pass # We must still have a working index res = self.ldb.search(expression="(y=1)", base="dc=samba,dc=org") self.assertEqual(len(res), 3) def test_unique_transaction(self): self.ldb.add({"dn": "x=x,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "1"}) self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde2", "y": "1"}) self.ldb.add({"dn": "x=z,dc=samba,dc=org", "objectUUID": b"0123456789abcde3", "y": "1"}) res = self.ldb.search(expression="(y=1)", base="dc=samba,dc=org") self.assertEqual(len(res), 3) self.ldb.transaction_start() # Now set this to unique index, but forget to check the result try: self.ldb.add({"dn": "@ATTRIBUTES", "y": "UNIQUE_INDEX"}) except ldb.LdbError: pass try: self.ldb.transaction_commit() self.fail() except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_OPERATIONS_ERROR) # We must still have a working index res = self.ldb.search(expression="(y=1)", base="dc=samba,dc=org") self.assertEqual(len(res), 3) def test_casefold(self): self.ldb.add({"dn": "x=x,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "a"}) self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde2", "y": "A"}) self.ldb.add({"dn": "x=z,dc=samba,dc=org", "objectUUID": b"0123456789abcde3", "y": ["a", "A"]}) res = self.ldb.search(expression="(y=a)", base="dc=samba,dc=org") self.assertEqual(len(res), 2) self.ldb.add({"dn": "@ATTRIBUTES", "y": "CASE_INSENSITIVE"}) # We must still have a working index res = self.ldb.search(expression="(y=a)", base="dc=samba,dc=org") if hasattr(self, 'IDXGUID'): self.assertEqual(len(res), 3) else: # We should not return this entry twice, but sadly # we have not yet fixed # https://bugzilla.samba.org/show_bug.cgi?id=13361 self.assertEqual(len(res), 4) def test_casefold_transaction(self): self.ldb.add({"dn": "x=x,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "a"}) self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde2", "y": "A"}) self.ldb.add({"dn": "x=z,dc=samba,dc=org", "objectUUID": b"0123456789abcde3", "y": ["a", "A"]}) res = self.ldb.search(expression="(y=a)", base="dc=samba,dc=org") self.assertEqual(len(res), 2) self.ldb.transaction_start() self.ldb.add({"dn": "@ATTRIBUTES", "y": "CASE_INSENSITIVE"}) self.ldb.transaction_commit() # We must still have a working index res = self.ldb.search(expression="(y=a)", base="dc=samba,dc=org") if hasattr(self, 'IDXGUID'): self.assertEqual(len(res), 3) else: # We should not return this entry twice, but sadly # we have not yet fixed # https://bugzilla.samba.org/show_bug.cgi?id=13361 self.assertEqual(len(res), 4) def test_modify_transaction(self): self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "2", "z": "2"}) res = self.ldb.search(expression="(y=2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.ldb.add({"dn": "@ATTRIBUTES", "y": "UNIQUE_INDEX"}) self.ldb.transaction_start() m = ldb.Message() m.dn = ldb.Dn(self.ldb, "x=y,dc=samba,dc=org") m["0"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "y") m["1"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "not-here") try: self.ldb.modify(m) self.fail() except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_NO_SUCH_ATTRIBUTE) try: self.ldb.transaction_commit() # We should fail here, but we want to be sure # we fail below except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_OPERATIONS_ERROR) # The index should still be pointing to x=y res = self.ldb.search(expression="(y=2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) try: self.ldb.add({"dn": "x=y2,dc=samba,dc=org", "objectUUID": b"0123456789abcde2", "y": "2"}) self.fail("Added unique attribute twice") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_CONSTRAINT_VIOLATION) res = self.ldb.search(expression="(y=2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.assertEqual(str(res[0].dn), "x=y,dc=samba,dc=org") def tearDown(self): super(BadIndexTests, self).tearDown() class GUIDBadIndexTests(BadIndexTests): """Test Bad index things with GUID index mode""" def setUp(self): self.IDXGUID = True super(GUIDBadIndexTests, self).setUp() class GUIDBadIndexTestsLmdb(BadIndexTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ self.IDXGUID = True super(GUIDBadIndexTestsLmdb, self).setUp() def tearDown(self): super(GUIDBadIndexTestsLmdb, self).tearDown() class BatchModeTests(LdbBaseTest): def setUp(self): super(BatchModeTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.ldb = ldb.Ldb(self.url(), flags=self.flags(), options=["batch_mode:1"]) if hasattr(self, 'IDXGUID'): self.ldb.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]}) else: self.ldb.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"]}) def test_modify_transaction(self): self.ldb.add({"dn": "x=y,dc=samba,dc=org", "objectUUID": b"0123456789abcde1", "y": "2", "z": "2"}) res = self.ldb.search(expression="(y=2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.ldb.add({"dn": "@ATTRIBUTES", "y": "UNIQUE_INDEX"}) self.ldb.transaction_start() m = ldb.Message() m.dn = ldb.Dn(self.ldb, "x=y,dc=samba,dc=org") m["0"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "y") m["1"] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, "not-here") try: self.ldb.modify(m) self.fail() except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_NO_SUCH_ATTRIBUTE) try: self.ldb.transaction_commit() self.fail("Commit should have failed as we were in batch mode") except ldb.LdbError as err: enum = err.args[0] self.assertEqual(enum, ldb.ERR_OPERATIONS_ERROR) def tearDown(self): super(BatchModeTests, self).tearDown() class DnTests(TestCase): def setUp(self): super(DnTests, self).setUp() self.ldb = ldb.Ldb() def tearDown(self): super(DnTests, self).tearDown() del(self.ldb) def test_set_dn_invalid(self): x = ldb.Message() def assign(): x.dn = "astring" self.assertRaises(TypeError, assign) def test_eq(self): x = ldb.Dn(self.ldb, "dc=foo11,bar=bloe") y = ldb.Dn(self.ldb, "dc=foo11,bar=bloe") self.assertEqual(x, y) y = ldb.Dn(self.ldb, "dc=foo11,bar=blie") self.assertNotEqual(x, y) def test_str(self): x = ldb.Dn(self.ldb, "dc=foo12,bar=bloe") self.assertEqual(x.__str__(), "dc=foo12,bar=bloe") def test_repr(self): x = ldb.Dn(self.ldb, "dc=foo13,bla=blie") self.assertEqual(x.__repr__(), "Dn('dc=foo13,bla=blie')") def test_get_casefold_2(self): x = ldb.Dn(self.ldb, "dc=foo14,bar=bloe") self.assertEqual(x.get_casefold(), "DC=FOO14,BAR=bloe") def test_validate(self): x = ldb.Dn(self.ldb, "dc=foo15,bar=bloe") self.assertTrue(x.validate()) def test_parent(self): x = ldb.Dn(self.ldb, "dc=foo16,bar=bloe") self.assertEqual("bar=bloe", x.parent().__str__()) def test_parent_nonexistent(self): x = ldb.Dn(self.ldb, "@BLA") self.assertEqual(None, x.parent()) def test_is_valid(self): x = ldb.Dn(self.ldb, "dc=foo18,dc=bloe") self.assertTrue(x.is_valid()) x = ldb.Dn(self.ldb, "") self.assertTrue(x.is_valid()) def test_is_special(self): x = ldb.Dn(self.ldb, "dc=foo19,bar=bloe") self.assertFalse(x.is_special()) x = ldb.Dn(self.ldb, "@FOOBAR") self.assertTrue(x.is_special()) def test_check_special(self): x = ldb.Dn(self.ldb, "dc=foo20,bar=bloe") self.assertFalse(x.check_special("FOOBAR")) x = ldb.Dn(self.ldb, "@FOOBAR") self.assertTrue(x.check_special("@FOOBAR")) def test_len(self): x = ldb.Dn(self.ldb, "dc=foo21,bar=bloe") self.assertEqual(2, len(x)) x = ldb.Dn(self.ldb, "dc=foo21") self.assertEqual(1, len(x)) def test_add_child(self): x = ldb.Dn(self.ldb, "dc=foo22,bar=bloe") self.assertTrue(x.add_child(ldb.Dn(self.ldb, "bla=bloe"))) self.assertEqual("bla=bloe,dc=foo22,bar=bloe", x.__str__()) def test_add_base(self): x = ldb.Dn(self.ldb, "dc=foo23,bar=bloe") base = ldb.Dn(self.ldb, "bla=bloe") self.assertTrue(x.add_base(base)) self.assertEqual("dc=foo23,bar=bloe,bla=bloe", x.__str__()) def test_add_child_str(self): x = ldb.Dn(self.ldb, "dc=foo22,bar=bloe") self.assertTrue(x.add_child("bla=bloe")) self.assertEqual("bla=bloe,dc=foo22,bar=bloe", x.__str__()) def test_add_base_str(self): x = ldb.Dn(self.ldb, "dc=foo23,bar=bloe") base = "bla=bloe" self.assertTrue(x.add_base(base)) self.assertEqual("dc=foo23,bar=bloe,bla=bloe", x.__str__()) def test_add(self): x = ldb.Dn(self.ldb, "dc=foo24") y = ldb.Dn(self.ldb, "bar=bla") self.assertEqual("dc=foo24,bar=bla", str(x + y)) def test_remove_base_components(self): x = ldb.Dn(self.ldb, "dc=foo24,dc=samba,dc=org") x.remove_base_components(len(x) - 1) self.assertEqual("dc=foo24", str(x)) def test_parse_ldif(self): msgs = self.ldb.parse_ldif("dn: foo=bar\n") msg = next(msgs) self.assertEqual("foo=bar", str(msg[1].dn)) self.assertTrue(isinstance(msg[1], ldb.Message)) ldif = self.ldb.write_ldif(msg[1], ldb.CHANGETYPE_NONE) self.assertEqual("dn: foo=bar\n\n", ldif) def test_parse_ldif_more(self): msgs = self.ldb.parse_ldif("dn: foo=bar\n\n\ndn: bar=bar") msg = next(msgs) self.assertEqual("foo=bar", str(msg[1].dn)) msg = next(msgs) self.assertEqual("bar=bar", str(msg[1].dn)) def test_print_ldif(self): ldif = '''dn: dc=foo27 foo: foo ''' self.msg = ldb.Message(ldb.Dn(self.ldb, "dc=foo27")) self.msg["foo"] = [b"foo"] self.assertEqual(ldif, self.ldb.write_ldif(self.msg, ldb.CHANGETYPE_NONE)) def test_print_ldif_binary(self): # this also confirms that ldb flags are set even without a URL) self.ldb = ldb.Ldb(flags=ldb.FLG_SHOW_BINARY) ldif = '''dn: dc=foo27 foo: f öö ''' self.msg = ldb.Message(ldb.Dn(self.ldb, "dc=foo27")) self.msg["foo"] = ["f\nöö"] self.assertEqual(ldif, self.ldb.write_ldif(self.msg, ldb.CHANGETYPE_NONE)) def test_print_ldif_no_base64_bad(self): ldif = '''dn: dc=foo27 foo: f öö ''' self.msg = ldb.Message(ldb.Dn(self.ldb, "dc=foo27")) self.msg["foo"] = ["f\nöö"] self.msg["foo"].set_flags(ldb.FLAG_FORCE_NO_BASE64_LDIF) self.assertEqual(ldif, self.ldb.write_ldif(self.msg, ldb.CHANGETYPE_NONE)) def test_print_ldif_no_base64_good(self): ldif = '''dn: dc=foo27 foo: föö ''' self.msg = ldb.Message(ldb.Dn(self.ldb, "dc=foo27")) self.msg["foo"] = ["föö"] self.msg["foo"].set_flags(ldb.FLAG_FORCE_NO_BASE64_LDIF) self.assertEqual(ldif, self.ldb.write_ldif(self.msg, ldb.CHANGETYPE_NONE)) def test_canonical_string(self): x = ldb.Dn(self.ldb, "dc=foo25,bar=bloe") self.assertEqual("/bloe/foo25", x.canonical_str()) def test_canonical_ex_string(self): x = ldb.Dn(self.ldb, "dc=foo26,bar=bloe") self.assertEqual("/bloe\nfoo26", x.canonical_ex_str()) def test_ldb_is_child_of(self): """Testing ldb_dn_compare_dn""" dn1 = ldb.Dn(self.ldb, "dc=base") dn2 = ldb.Dn(self.ldb, "cn=foo,dc=base") dn3 = ldb.Dn(self.ldb, "cn=bar,dc=base") dn4 = ldb.Dn(self.ldb, "cn=baz,cn=bar,dc=base") self.assertTrue(dn1.is_child_of(dn1)) self.assertTrue(dn2.is_child_of(dn1)) self.assertTrue(dn4.is_child_of(dn1)) self.assertTrue(dn4.is_child_of(dn3)) self.assertTrue(dn4.is_child_of(dn4)) self.assertFalse(dn3.is_child_of(dn2)) self.assertFalse(dn1.is_child_of(dn4)) def test_ldb_is_child_of_str(self): """Testing ldb_dn_compare_dn""" dn1_str = "dc=base" dn2_str = "cn=foo,dc=base" dn3_str = "cn=bar,dc=base" dn4_str = "cn=baz,cn=bar,dc=base" dn1 = ldb.Dn(self.ldb, dn1_str) dn2 = ldb.Dn(self.ldb, dn2_str) dn3 = ldb.Dn(self.ldb, dn3_str) dn4 = ldb.Dn(self.ldb, dn4_str) self.assertTrue(dn1.is_child_of(dn1_str)) self.assertTrue(dn2.is_child_of(dn1_str)) self.assertTrue(dn4.is_child_of(dn1_str)) self.assertTrue(dn4.is_child_of(dn3_str)) self.assertTrue(dn4.is_child_of(dn4_str)) self.assertFalse(dn3.is_child_of(dn2_str)) self.assertFalse(dn1.is_child_of(dn4_str)) def test_get_component_name(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_component_name(0), 'cn') self.assertEqual(dn.get_component_name(1), 'dc') self.assertEqual(dn.get_component_name(2), None) self.assertEqual(dn.get_component_name(-1), None) def test_get_component_value(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_component_value(0), 'foo') self.assertEqual(dn.get_component_value(1), 'base') self.assertEqual(dn.get_component_name(2), None) self.assertEqual(dn.get_component_name(-1), None) def test_set_component(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") dn.set_component(0, 'cn', 'bar') self.assertEqual(str(dn), "cn=bar,dc=base") dn.set_component(1, 'o', 'asep') self.assertEqual(str(dn), "cn=bar,o=asep") self.assertRaises(TypeError, dn.set_component, 2, 'dc', 'base') self.assertEqual(str(dn), "cn=bar,o=asep") dn.set_component(1, 'o', 'a,b+c') self.assertEqual(str(dn), r"cn=bar,o=a\,b\+c") def test_set_component_bytes(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") dn.set_component(0, 'cn', b'bar') self.assertEqual(str(dn), "cn=bar,dc=base") dn.set_component(1, 'o', b'asep') self.assertEqual(str(dn), "cn=bar,o=asep") def test_set_component_none(self): dn = ldb.Dn(self.ldb, "cn=foo,cn=bar,dc=base") self.assertRaises(TypeError, dn.set_component, 1, 'cn', None) def test_get_extended_component_null(self): dn = ldb.Dn(self.ldb, "cn=foo,cn=bar,dc=base") self.assertEqual(dn.get_extended_component("TEST"), None) def test_get_extended_component(self): self.ldb._register_test_extensions() dn = ldb.Dn(self.ldb, ";cn=bar,dc=base") self.assertEqual(dn.get_extended_component("TEST"), b"foo") def test_set_extended_component(self): self.ldb._register_test_extensions() dn = ldb.Dn(self.ldb, "dc=base") dn.set_extended_component("TEST", "foo") self.assertEqual(dn.get_extended_component("TEST"), b"foo") dn.set_extended_component("TEST", b"bar") self.assertEqual(dn.get_extended_component("TEST"), b"bar") def test_extended_str(self): self.ldb._register_test_extensions() dn = ldb.Dn(self.ldb, ";cn=bar,dc=base") self.assertEqual(dn.extended_str(), ";cn=bar,dc=base") def test_get_rdn_name(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_rdn_name(), 'cn') def test_get_rdn_value(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_rdn_value(), 'foo') def test_get_casefold(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_casefold(), 'CN=FOO,DC=BASE') def test_get_linearized(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertEqual(dn.get_linearized(), 'cn=foo,dc=base') def test_is_null(self): dn = ldb.Dn(self.ldb, "cn=foo,dc=base") self.assertFalse(dn.is_null()) dn = ldb.Dn(self.ldb, '') self.assertTrue(dn.is_null()) class LdbMsgTests(TestCase): def setUp(self): super(LdbMsgTests, self).setUp() self.msg = ldb.Message() def test_init_dn(self): self.msg = ldb.Message(ldb.Dn(ldb.Ldb(), "dc=foo27")) self.assertEqual("dc=foo27", str(self.msg.dn)) def test_iter_items(self): self.assertEqual(0, len(self.msg.items())) self.msg.dn = ldb.Dn(ldb.Ldb(), "dc=foo28") self.assertEqual(1, len(self.msg.items())) def test_items(self): self.msg["foo"] = ["foo"] self.msg["bar"] = ["bar"] try: items = self.msg.items() except: self.fail() self.assertEqual([("foo", ldb.MessageElement(["foo"])), ("bar", ldb.MessageElement(["bar"]))], items) self.msg.dn = ldb.Dn(ldb.Ldb(), "dc=test") try: items = self.msg.items() except: self.fail() self.assertEqual([("dn", ldb.Dn(ldb.Ldb(), "dc=test")), ("foo", ldb.MessageElement(["foo"])), ("bar", ldb.MessageElement(["bar"]))], items) def test_repr(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "dc=foo29") self.msg["dc"] = b"foo" self.assertIn(repr(self.msg), [ "Message({'dn': Dn('dc=foo29'), 'dc': MessageElement([b'foo'])})", "Message({'dc': MessageElement([b'foo']), 'dn': Dn('dc=foo29')})", ]) self.assertIn(repr(self.msg.text), [ "Message({'dn': Dn('dc=foo29'), 'dc': MessageElement([b'foo'])}).text", "Message({'dc': MessageElement([b'foo']), 'dn': Dn('dc=foo29')}).text", ]) def test_len(self): self.assertEqual(0, len(self.msg)) def test_notpresent(self): self.assertRaises(KeyError, lambda: self.msg["foo"]) def test_invalid(self): try: self.assertRaises(TypeError, lambda: self.msg[42]) except KeyError: self.fail() def test_del(self): del self.msg["foo"] def test_add(self): self.msg.add(ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla")) def test_add_text(self): self.msg.add(ldb.MessageElement(["456"], ldb.FLAG_MOD_ADD, "bla")) def test_elements_empty(self): self.assertEqual([], self.msg.elements()) def test_elements(self): el = ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla") self.msg.add(el) self.assertEqual([el], self.msg.elements()) self.assertEqual([el.text], self.msg.text.elements()) def test_add_value(self): self.assertEqual(0, len(self.msg)) self.msg["foo"] = [b"foo"] self.assertEqual(1, len(self.msg)) def test_add_value_text(self): self.assertEqual(0, len(self.msg)) self.msg["foo"] = ["foo"] self.assertEqual(1, len(self.msg)) def test_add_value_multiple(self): self.assertEqual(0, len(self.msg)) self.msg["foo"] = [b"foo", b"bla"] self.assertEqual(1, len(self.msg)) self.assertEqual([b"foo", b"bla"], list(self.msg["foo"])) def test_add_value_multiple_text(self): self.assertEqual(0, len(self.msg)) self.msg["foo"] = ["foo", "bla"] self.assertEqual(1, len(self.msg)) self.assertEqual(["foo", "bla"], list(self.msg.text["foo"])) def test_set_value(self): self.msg["foo"] = [b"fool"] self.assertEqual([b"fool"], list(self.msg["foo"])) self.msg["foo"] = [b"bar"] self.assertEqual([b"bar"], list(self.msg["foo"])) def test_set_value_text(self): self.msg["foo"] = ["fool"] self.assertEqual(["fool"], list(self.msg.text["foo"])) self.msg["foo"] = ["bar"] self.assertEqual(["bar"], list(self.msg.text["foo"])) def test_keys(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.msg["foo"] = [b"bla"] self.msg["bar"] = [b"bla"] self.assertEqual(["dn", "foo", "bar"], list(self.msg.keys())) def test_keys_text(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.msg["foo"] = ["bla"] self.msg["bar"] = ["bla"] self.assertEqual(["dn", "foo", "bar"], list(self.msg.text.keys())) def test_dn(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.assertEqual("@BASEINFO", self.msg.dn.__str__()) def test_get_dn(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.assertEqual("@BASEINFO", self.msg.get("dn").__str__()) def test_dn_text(self): self.msg.text.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.assertEqual("@BASEINFO", str(self.msg.dn)) self.assertEqual("@BASEINFO", str(self.msg.text.dn)) def test_get_dn_text(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.assertEqual("@BASEINFO", str(self.msg.get("dn"))) self.assertEqual("@BASEINFO", str(self.msg.text.get("dn"))) def test_get_invalid(self): self.msg.dn = ldb.Dn(ldb.Ldb(), "@BASEINFO") self.assertRaises(TypeError, self.msg.get, 42) def test_get_other(self): self.msg["foo"] = [b"bar"] self.assertEqual(b"bar", self.msg.get("foo")[0]) self.assertEqual(b"bar", self.msg.get("foo", idx=0)) self.assertEqual(None, self.msg.get("foo", idx=1)) self.assertEqual("", self.msg.get("foo", default='', idx=1)) def test_get_other_text(self): self.msg["foo"] = ["bar"] self.assertEqual(["bar"], list(self.msg.text.get("foo"))) self.assertEqual("bar", self.msg.text.get("foo")[0]) self.assertEqual("bar", self.msg.text.get("foo", idx=0)) self.assertEqual(None, self.msg.get("foo", idx=1)) self.assertEqual("", self.msg.get("foo", default='', idx=1)) def test_get_default(self): self.assertEqual(None, self.msg.get("tatayoyo", idx=0)) self.assertEqual("anniecordie", self.msg.get("tatayoyo", "anniecordie")) def test_get_default_text(self): self.assertEqual(None, self.msg.text.get("tatayoyo", idx=0)) self.assertEqual("anniecordie", self.msg.text.get("tatayoyo", "anniecordie")) def test_get_unknown(self): self.assertEqual(None, self.msg.get("lalalala")) def test_get_unknown_text(self): self.assertEqual(None, self.msg.text.get("lalalala")) def test_contains(self): self.msg['foo'] = ['bar'] self.assertIn('foo', self.msg) self.msg['Foo'] = ['bar'] self.assertIn('Foo', self.msg) def test_contains_case(self): self.msg['foo'] = ['bar'] self.assertIn('Foo', self.msg) self.msg['Foo'] = ['bar'] self.assertIn('foo', self.msg) def test_contains_dn(self): self.assertIn('dn', self.msg) def test_contains_dn_case(self): self.assertIn('DN', self.msg) def test_contains_invalid(self): self.assertRaises(TypeError, lambda: None in self.msg) def test_msg_diff(self): l = ldb.Ldb() msgs = l.parse_ldif("dn: foo=bar\nfoo: bar\nbaz: do\n\ndn: foo=bar\nfoo: bar\nbaz: dont\n") msg1 = next(msgs)[1] msg2 = next(msgs)[1] msgdiff = l.msg_diff(msg1, msg2) self.assertEqual("foo=bar", msgdiff.get("dn").__str__()) self.assertRaises(KeyError, lambda: msgdiff["foo"]) self.assertEqual(1, len(msgdiff)) def test_equal_empty(self): msg1 = ldb.Message() msg2 = ldb.Message() self.assertEqual(msg1, msg2) def test_equal_simplel(self): db = ldb.Ldb() msg1 = ldb.Message() msg1.dn = ldb.Dn(db, "foo=bar") msg2 = ldb.Message() msg2.dn = ldb.Dn(db, "foo=bar") self.assertEqual(msg1, msg2) msg1['foo'] = b'bar' msg2['foo'] = b'bar' self.assertEqual(msg1, msg2) msg2['foo'] = b'blie' self.assertNotEqual(msg1, msg2) msg2['foo'] = b'blie' def test_from_dict(self): rec = {"dn": "dc=fromdict", "a1": [b"a1-val1", b"a1-val1"]} l = ldb.Ldb() # check different types of input Flags for flags in [ldb.FLAG_MOD_ADD, ldb.FLAG_MOD_REPLACE, ldb.FLAG_MOD_DELETE]: m = ldb.Message.from_dict(l, rec, flags) self.assertEqual(rec["a1"], list(m["a1"])) self.assertEqual(flags, m["a1"].flags()) # check input params self.assertRaises(TypeError, ldb.Message.from_dict, dict(), rec, ldb.FLAG_MOD_REPLACE) self.assertRaises(TypeError, ldb.Message.from_dict, l, list(), ldb.FLAG_MOD_REPLACE) self.assertRaises(ValueError, ldb.Message.from_dict, l, rec, 0) # Message.from_dict expects dictionary with 'dn' err_rec = {"a1": [b"a1-val1", b"a1-val1"]} self.assertRaises(TypeError, ldb.Message.from_dict, l, err_rec, ldb.FLAG_MOD_REPLACE) def test_from_dict_text(self): rec = {"dn": "dc=fromdict", "a1": ["a1-val1", "a1-val1"]} l = ldb.Ldb() # check different types of input Flags for flags in [ldb.FLAG_MOD_ADD, ldb.FLAG_MOD_REPLACE, ldb.FLAG_MOD_DELETE]: m = ldb.Message.from_dict(l, rec, flags) self.assertEqual(rec["a1"], list(m.text["a1"])) self.assertEqual(flags, m.text["a1"].flags()) # check input params self.assertRaises(TypeError, ldb.Message.from_dict, dict(), rec, ldb.FLAG_MOD_REPLACE) self.assertRaises(TypeError, ldb.Message.from_dict, l, list(), ldb.FLAG_MOD_REPLACE) self.assertRaises(ValueError, ldb.Message.from_dict, l, rec, 0) # Message.from_dict expects dictionary with 'dn' err_rec = {"a1": ["a1-val1", "a1-val1"]} self.assertRaises(TypeError, ldb.Message.from_dict, l, err_rec, ldb.FLAG_MOD_REPLACE) def test_copy_add_message_element(self): m = ldb.Message() m["1"] = ldb.MessageElement([b"val 111"], ldb.FLAG_MOD_ADD, "1") m["2"] = ldb.MessageElement([b"val 222"], ldb.FLAG_MOD_ADD, "2") mto = ldb.Message() mto["1"] = m["1"] mto["2"] = m["2"] self.assertEqual(mto["1"], m["1"]) self.assertEqual(mto["2"], m["2"]) mto = ldb.Message() mto.add(m["1"]) mto.add(m["2"]) self.assertEqual(mto["1"], m["1"]) self.assertEqual(mto["2"], m["2"]) def test_copy_add_message_element_text(self): m = ldb.Message() m["1"] = ldb.MessageElement(["val 111"], ldb.FLAG_MOD_ADD, "1") m["2"] = ldb.MessageElement(["val 222"], ldb.FLAG_MOD_ADD, "2") mto = ldb.Message() mto["1"] = m["1"] mto["2"] = m["2"] self.assertEqual(mto["1"], m.text["1"]) self.assertEqual(mto["2"], m.text["2"]) mto = ldb.Message() mto.add(m["1"]) mto.add(m["2"]) self.assertEqual(mto.text["1"], m.text["1"]) self.assertEqual(mto.text["2"], m.text["2"]) self.assertEqual(mto["1"], m["1"]) self.assertEqual(mto["2"], m["2"]) class MessageElementTests(TestCase): def test_cmp_element(self): x = ldb.MessageElement([b"foo"]) y = ldb.MessageElement([b"foo"]) z = ldb.MessageElement([b"bzr"]) self.assertEqual(x, y) self.assertNotEqual(x, z) def test_cmp_element_text(self): x = ldb.MessageElement([b"foo"]) y = ldb.MessageElement(["foo"]) self.assertEqual(x, y) def test_create_iterable(self): x = ldb.MessageElement([b"foo"]) self.assertEqual([b"foo"], list(x)) self.assertEqual(["foo"], list(x.text)) def test_repr(self): x = ldb.MessageElement([b"foo"]) self.assertEqual("MessageElement([b'foo'])", repr(x)) self.assertEqual("MessageElement([b'foo']).text", repr(x.text)) x = ldb.MessageElement([b"foo", b"bla"]) self.assertEqual(2, len(x)) self.assertEqual("MessageElement([b'foo',b'bla'])", repr(x)) self.assertEqual("MessageElement([b'foo',b'bla']).text", repr(x.text)) def test_get_item(self): x = ldb.MessageElement([b"foo", b"bar"]) self.assertEqual(b"foo", x[0]) self.assertEqual(b"bar", x[1]) self.assertEqual(b"bar", x[-1]) self.assertRaises(IndexError, lambda: x[45]) def test_get_item_text(self): x = ldb.MessageElement(["foo", "bar"]) self.assertEqual("foo", x.text[0]) self.assertEqual("bar", x.text[1]) self.assertEqual("bar", x.text[-1]) self.assertRaises(IndexError, lambda: x[45]) def test_len(self): x = ldb.MessageElement([b"foo", b"bar"]) self.assertEqual(2, len(x)) def test_eq(self): x = ldb.MessageElement([b"foo", b"bar"]) y = ldb.MessageElement([b"foo", b"bar"]) self.assertEqual(y, x) x = ldb.MessageElement([b"foo"]) self.assertNotEqual(y, x) y = ldb.MessageElement([b"foo"]) self.assertEqual(y, x) def test_extended(self): el = ldb.MessageElement([b"456"], ldb.FLAG_MOD_ADD, "bla") self.assertEqual("MessageElement([b'456'])", repr(el)) self.assertEqual("MessageElement([b'456']).text", repr(el.text)) def test_bad_text(self): el = ldb.MessageElement(b'\xba\xdd') self.assertRaises(UnicodeDecodeError, el.text.__getitem__, 0) class ModuleTests(TestCase): def setUp(self): super(ModuleTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.ldb = ldb.Ldb(self.filename) def tearDown(self): shutil.rmtree(self.testdir) super(ModuleTests, self).setUp() def test_register_module(self): class ExampleModule: name = "example" ldb.register_module(ExampleModule) def test_use_module(self): ops = [] class ExampleModule: name = "bla" def __init__(self, ldb, next): ops.append("init") self.next = next def search(self, *args, **kwargs): return self.next.search(*args, **kwargs) def request(self, *args, **kwargs): pass ldb.register_module(ExampleModule) l = ldb.Ldb(self.filename) l.add({"dn": "@MODULES", "@LIST": "bla"}) self.assertEqual([], ops) l = ldb.Ldb(self.filename) self.assertEqual(["init"], ops) class LdbResultTests(LdbBaseTest): def setUp(self): super(LdbResultTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.l = ldb.Ldb(self.url(), flags=self.flags()) try: self.l.add(self.index) except AttributeError: pass self.l.add({"dn": "DC=SAMBA,DC=ORG", "name": b"samba.org", "objectUUID": b"0123456789abcde0"}) self.l.add({"dn": "OU=ADMIN,DC=SAMBA,DC=ORG", "name": b"Admins", "objectUUID": b"0123456789abcde1"}) self.l.add({"dn": "OU=USERS,DC=SAMBA,DC=ORG", "name": b"Users", "objectUUID": b"0123456789abcde2"}) self.l.add({"dn": "OU=OU1,DC=SAMBA,DC=ORG", "name": b"OU #1", "objectUUID": b"0123456789abcde3"}) self.l.add({"dn": "OU=OU2,DC=SAMBA,DC=ORG", "name": b"OU #2", "objectUUID": b"0123456789abcde4"}) self.l.add({"dn": "OU=OU3,DC=SAMBA,DC=ORG", "name": b"OU #3", "objectUUID": b"0123456789abcde5"}) self.l.add({"dn": "OU=OU4,DC=SAMBA,DC=ORG", "name": b"OU #4", "objectUUID": b"0123456789abcde6"}) self.l.add({"dn": "OU=OU5,DC=SAMBA,DC=ORG", "name": b"OU #5", "objectUUID": b"0123456789abcde7"}) self.l.add({"dn": "OU=OU6,DC=SAMBA,DC=ORG", "name": b"OU #6", "objectUUID": b"0123456789abcde8"}) self.l.add({"dn": "OU=OU7,DC=SAMBA,DC=ORG", "name": b"OU #7", "objectUUID": b"0123456789abcde9"}) self.l.add({"dn": "OU=OU8,DC=SAMBA,DC=ORG", "name": b"OU #8", "objectUUID": b"0123456789abcdea"}) self.l.add({"dn": "OU=OU9,DC=SAMBA,DC=ORG", "name": b"OU #9", "objectUUID": b"0123456789abcdeb"}) self.l.add({"dn": "OU=OU10,DC=SAMBA,DC=ORG", "name": b"OU #10", "objectUUID": b"0123456789abcdec"}) def tearDown(self): shutil.rmtree(self.testdir) super(LdbResultTests, self).tearDown() # Ensure the LDB is closed now, so we close the FD del(self.l) def test_return_type(self): res = self.l.search() self.assertEqual(str(res), "") def test_get_msgs(self): res = self.l.search() list = res.msgs def test_get_controls(self): res = self.l.search() list = res.controls def test_get_referals(self): res = self.l.search() list = res.referals def test_iter_msgs(self): found = False for l in self.l.search().msgs: if str(l.dn) == "OU=OU10,DC=SAMBA,DC=ORG": found = True self.assertTrue(found) def test_iter_msgs_count(self): self.assertTrue(self.l.search().count > 0) # 13 objects has been added to the DC=SAMBA, DC=ORG self.assertEqual(self.l.search(base="DC=SAMBA,DC=ORG").count, 13) def test_iter_controls(self): res = self.l.search().controls it = iter(res) def test_create_control(self): self.assertRaises(ValueError, ldb.Control, self.l, "tatayoyo:0") c = ldb.Control(self.l, "relax:1") self.assertEqual(c.critical, True) self.assertEqual(c.oid, "1.3.6.1.4.1.4203.666.5.12") def test_iter_refs(self): res = self.l.search().referals it = iter(res) def test_search_sequence_msgs(self): found = False res = self.l.search().msgs for i in range(0, len(res)): l = res[i] if str(l.dn) == "OU=OU10,DC=SAMBA,DC=ORG": found = True self.assertTrue(found) def test_search_as_iter(self): found = False res = self.l.search() for l in res: if str(l.dn) == "OU=OU10,DC=SAMBA,DC=ORG": found = True self.assertTrue(found) def test_search_iter(self): found = False res = self.l.search_iterator() for l in res: if str(l.dn) == "OU=OU10,DC=SAMBA,DC=ORG": found = True self.assertTrue(found) # Show that search results can't see into a transaction def test_search_against_trans(self): found11 = False (r1, w1) = os.pipe() (r2, w2) = os.pipe() # For the first element, fork a child that will # write to the DB pid = os.fork() if pid == 0: # In the child, re-open del(self.l) gc.collect() child_ldb = ldb.Ldb(self.url(), flags=self.flags()) # start a transaction child_ldb.transaction_start() # write to it child_ldb.add({"dn": "OU=OU11,DC=SAMBA,DC=ORG", "name": b"samba.org", "objectUUID": b"o123456789acbdef"}) os.write(w1, b"added") # Now wait for the search to be done os.read(r2, 6) # and commit try: child_ldb.transaction_commit() except ldb.LdbError as err: # We print this here to see what went wrong in the child print(err) os._exit(1) os.write(w1, b"transaction") os._exit(0) self.assertEqual(os.read(r1, 5), b"added") # This should not turn up until the transaction is concluded res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 0) os.write(w2, b"search") # Now wait for the transaction to be done. This should # deadlock, but the search doesn't hold a read lock for the # iterator lifetime currently. self.assertEqual(os.read(r1, 11), b"transaction") # This should now turn up, as the transaction is over res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 1) self.assertFalse(found11) (got_pid, status) = os.waitpid(pid, 0) self.assertEqual(got_pid, pid) def test_search_iter_against_trans(self): found = False found11 = False # We need to hold this iterator open to hold the all-record # lock res = self.l.search_iterator() (r1, w1) = os.pipe() (r2, w2) = os.pipe() # For the first element, with the sequence open (which # means with ldb locks held), fork a child that will # write to the DB pid = os.fork() if pid == 0: # In the child, re-open del(res) del(self.l) gc.collect() child_ldb = ldb.Ldb(self.url(), flags=self.flags()) # start a transaction child_ldb.transaction_start() # write to it child_ldb.add({"dn": "OU=OU11,DC=SAMBA,DC=ORG", "name": b"samba.org", "objectUUID": b"o123456789acbdef"}) os.write(w1, b"added") # Now wait for the search to be done os.read(r2, 6) # and commit try: child_ldb.transaction_commit() except ldb.LdbError as err: # We print this here to see what went wrong in the child print(err) os._exit(1) os.write(w1, b"transaction") os._exit(0) self.assertEqual(os.read(r1, 5), b"added") # This should not turn up until the transaction is concluded res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 0) os.write(w2, b"search") # allow the transaction to start time.sleep(1) # This should not turn up until the search finishes and # removed the read lock, but for ldb_tdb that happened as soon # as we called the first res.next() res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 0) # These results are all collected at the first next(res) call for l in res: if str(l.dn) == "OU=OU10,DC=SAMBA,DC=ORG": found = True if str(l.dn) == "OU=OU11,DC=SAMBA,DC=ORG": found11 = True # Now wait for the transaction to be done. self.assertEqual(os.read(r1, 11), b"transaction") # This should now turn up, as the transaction is over and all # read locks are gone res11 = self.l.search(base="OU=OU11,DC=SAMBA,DC=ORG", scope=ldb.SCOPE_BASE) self.assertEqual(len(res11), 1) self.assertTrue(found) self.assertFalse(found11) (got_pid, status) = os.waitpid(pid, 0) self.assertEqual(got_pid, pid) class LdbResultTestsLmdb(LdbResultTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(LdbResultTestsLmdb, self).setUp() def tearDown(self): super(LdbResultTestsLmdb, self).tearDown() class BadTypeTests(TestCase): def test_control(self): l = ldb.Ldb() self.assertRaises(TypeError, ldb.Control, '', 'relax:1') self.assertRaises(TypeError, ldb.Control, ldb, 1234) def test_modify(self): l = ldb.Ldb() dn = ldb.Dn(l, 'a=b') m = ldb.Message(dn) self.assertRaises(TypeError, l.modify, '') self.assertRaises(TypeError, l.modify, m, '') def test_add(self): l = ldb.Ldb() dn = ldb.Dn(l, 'a=b') m = ldb.Message(dn) self.assertRaises(TypeError, l.add, '') self.assertRaises(TypeError, l.add, m, '') def test_delete(self): l = ldb.Ldb() dn = ldb.Dn(l, 'a=b') self.assertRaises(TypeError, l.add, '') self.assertRaises(TypeError, l.add, dn, '') def test_rename(self): l = ldb.Ldb() dn = ldb.Dn(l, 'a=b') self.assertRaises(TypeError, l.add, '', dn) self.assertRaises(TypeError, l.add, dn, '') self.assertRaises(TypeError, l.add, dn, dn, '') def test_search(self): l = ldb.Ldb() self.assertRaises(TypeError, l.search, base=1234) self.assertRaises(TypeError, l.search, scope='') self.assertRaises(TypeError, l.search, expression=1234) self.assertRaises(TypeError, l.search, attrs='') self.assertRaises(TypeError, l.search, controls='') class VersionTests(TestCase): def test_version(self): self.assertTrue(isinstance(ldb.__version__, str)) class NestedTransactionTests(LdbBaseTest): def setUp(self): super(NestedTransactionTests, self).setUp() self.testdir = tempdir() self.filename = os.path.join(self.testdir, "test.ldb") self.ldb = ldb.Ldb(self.url(), flags=self.flags()) self.ldb.add({"dn": "@INDEXLIST", "@IDXATTR": [b"x", b"y", b"ou"], "@IDXGUID": [b"objectUUID"], "@IDX_DN_GUID": [b"GUID"]}) super(NestedTransactionTests, self).setUp() # # This test documents that currently ldb does not support true nested # transactions. # # Note: The test is written so that it treats failure as pass. # It is done this way as standalone ldb builds do not use the samba # known fail mechanism # def test_nested_transactions(self): self.ldb.transaction_start() self.ldb.add({"dn": "x=x1,dc=samba,dc=org", "objectUUID": b"0123456789abcde1"}) res = self.ldb.search(expression="(objectUUID=0123456789abcde1)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.ldb.add({"dn": "x=x2,dc=samba,dc=org", "objectUUID": b"0123456789abcde2"}) res = self.ldb.search(expression="(objectUUID=0123456789abcde2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.ldb.transaction_start() self.ldb.add({"dn": "x=x3,dc=samba,dc=org", "objectUUID": b"0123456789abcde3"}) res = self.ldb.search(expression="(objectUUID=0123456789abcde3)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) self.ldb.transaction_cancel() # # Check that we can not see the record added by the cancelled # transaction. # Currently this fails as ldb does not support true nested # transactions, and only the outer commits and cancels have an effect # res = self.ldb.search(expression="(objectUUID=0123456789abcde3)", base="dc=samba,dc=org") # # FIXME this test currently passes on a failure, i.e. if nested # transaction support worked correctly the correct test would # be. # self.assertEqual(len(res), 0) # as the add of objectUUID=0123456789abcde3 would reverted when # the sub transaction it was nested in was rolled back. # # Currently this is not the case so the record is still present. self.assertEqual(len(res), 1) # Commit the outer transaction # self.ldb.transaction_commit() # # Now check we can still see the records added in the outer # transaction. # res = self.ldb.search(expression="(objectUUID=0123456789abcde1)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) res = self.ldb.search(expression="(objectUUID=0123456789abcde2)", base="dc=samba,dc=org") self.assertEqual(len(res), 1) # # And that we can't see the records added by the nested transaction. # res = self.ldb.search(expression="(objectUUID=0123456789abcde3)", base="dc=samba,dc=org") # FIXME again if nested transactions worked correctly we would not # see this record. The test should be. # self.assertEqual(len(res), 0) self.assertEqual(len(res), 1) def tearDown(self): super(NestedTransactionTests, self).tearDown() class LmdbNestedTransactionTests(NestedTransactionTests): def setUp(self): if os.environ.get('HAVE_LMDB', '1') == '0': self.skipTest("No lmdb backend") self.prefix = MDB_PREFIX self.index = MDB_INDEX_OBJ super(LmdbNestedTransactionTests, self).setUp() def tearDown(self): super(LmdbNestedTransactionTests, self).tearDown() if __name__ == '__main__': import unittest unittest.TestProgram()