# Unix SMB/CIFS implementation. # Copyright (C) Andrew Bartlett # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # from samba import provision, param import tarfile import os import shutil from samba.tests import (env_loadparm, create_test_ou, BlackboxProcessError, BlackboxTestCase, connect_samdb) import ldb from samba.samdb import SamDB from samba.auth import system_session from samba import Ldb, dn_from_dns_name from samba.netcmd.fsmo import get_fsmo_roleowner import re from samba import sites from samba.dsdb import _dsdb_load_udv_v2 def get_prim_dom(secrets_path, lp): secrets_ldb = Ldb(secrets_path, session_info=system_session(), lp=lp) return secrets_ldb.search(base="CN=Primary Domains", attrs=['objectClass', 'samAccountName', 'secret', 'msDS-KeyVersionNumber'], scope=ldb.SCOPE_SUBTREE, expression="(objectClass=kerberosSecret)") # The backup tests require that a completely clean LoadParm object gets used # for the restore. Otherwise the same global LP gets re-used, and the LP # settings can bleed from one test case to another. # To do this, these tests should use check_output(), which executes the command # in a separate process (as opposed to runcmd(), runsubcmd()). # So although this is a samba-tool test, we don't inherit from SambaToolCmdTest # so that we never inadvertently use .runcmd() by accident. class DomainBackupBase(BlackboxTestCase): def setUp(self): super(DomainBackupBase, self).setUp() server = os.environ["DC_SERVER"] self.user_auth = "-U%s%%%s" % (os.environ["DC_USERNAME"], os.environ["DC_PASSWORD"]) # LDB connection to the original server being backed up self.ldb = connect_samdb("ldap://%s" % server) self.new_server = "BACKUPSERV" self.server = server.upper() self.base_cmd = None self.backup_markers = ['sidForRestore', 'backupDate'] self.restore_domain = os.environ["DOMAIN"] self.restore_realm = os.environ["REALM"] self.backend = None def use_backend(self, backend): """Explicitly set the DB backend that the backup should use""" self.backend = backend self.base_cmd += ["--backend-store=" + backend] def get_expected_partitions(self, samdb): basedn = str(samdb.get_default_basedn()) config_dn = "CN=Configuration,%s" % basedn return [basedn, config_dn, "CN=Schema,%s" % config_dn, "DC=DomainDnsZones,%s" % basedn, "DC=ForestDnsZones,%s" % basedn] def assert_partitions_present(self, samdb): """Asserts all expected partitions are present in the backup samdb""" res = samdb.search(base="", scope=ldb.SCOPE_BASE, attrs=['namingContexts']) actual_ncs = [str(r) for r in res[0].get('namingContexts')] expected_ncs = self.get_expected_partitions(samdb) for nc in expected_ncs: self.assertTrue(nc in actual_ncs, "%s not in %s" % (nc, str(actual_ncs))) def assert_repl_uptodate_vector(self, samdb): """Asserts an replUpToDateVector entry exists for the original DC""" orig_invoc_id = self.ldb.get_invocation_id() expected_ncs = self.get_expected_partitions(samdb) # loop through the partitions and check the upToDateness vector for nc in expected_ncs: found = False for cursor in _dsdb_load_udv_v2(samdb, nc): if orig_invoc_id == str(cursor.source_dsa_invocation_id): found = True break self.assertTrue(found, "Couldn't find UDTV for original DC") def assert_dcs_present(self, samdb, expected_server, expected_count=None): """Checks that the expected server is present in the restored DB""" search_expr = "(&(objectClass=Server)(serverReference=*))" res = samdb.search(samdb.get_config_basedn(), scope=ldb.SCOPE_SUBTREE, expression=search_expr) server_found = False for msg in res: if expected_server in str(msg.dn): server_found = True self.assertTrue(server_found, "Could not find %s server" % expected_server) if expected_count: self.assertTrue(len(res) == expected_count) def restore_dir(self): extract_dir = os.path.join(self.tempdir, 'tree') if not os.path.exists(extract_dir): os.mkdir(extract_dir) self.addCleanup(shutil.rmtree, extract_dir) return extract_dir def untar_backup(self, backup_file): """Untar the backup file's raw contents (i.e. not a proper restore)""" extract_dir = self.restore_dir() with tarfile.open(backup_file) as tf: tf.extractall(extract_dir) def _test_backup_untar(self, primary_domain_secrets=0): """Creates a backup, untars the raw files, and sanity-checks the DB""" backup_file = self.create_backup() self.untar_backup(backup_file) private_dir = os.path.join(self.restore_dir(), "private") samdb_path = os.path.join(private_dir, "sam.ldb") lp = env_loadparm() samdb = SamDB(url=samdb_path, session_info=system_session(), lp=lp) # check that backup markers were added to the DB res = samdb.search(base=ldb.Dn(samdb, "@SAMBA_DSDB"), scope=ldb.SCOPE_BASE, attrs=self.backup_markers) self.assertEqual(len(res), 1) for marker in self.backup_markers: self.assertIsNotNone(res[0].get(marker), "%s backup marker missing" % marker) # check the secrets.ldb entry for the primary domain. (Online/clone # backups shouldn't have this, as they never got it during the backup) secrets_path = os.path.join(private_dir, "secrets.ldb") res = get_prim_dom(secrets_path, lp) self.assertEqual(len(res), primary_domain_secrets) # sanity-check that all the partitions got backed up self.assert_partitions_present(samdb) def _test_backup_restore(self): """Does a backup/restore, with specific checks of the resulting DB""" backup_file = self.create_backup() self.restore_backup(backup_file) lp = self.check_restored_smbconf() self.check_restored_database(lp) def _test_backup_restore_no_secrets(self): """Does a backup/restore with secrets excluded from the resulting DB""" # exclude secrets when we create the backup backup_file = self.create_backup(extra_args=["--no-secrets"]) self.restore_backup(backup_file) lp = self.check_restored_smbconf() # assert that we don't find user secrets in the DB self.check_restored_database(lp, expect_secrets=False) def _test_backup_restore_into_site(self): """Does a backup and restores into a non-default site""" # create a new non-default site sitename = "Test-Site-For-Backups" sites.create_site(self.ldb, self.ldb.get_config_basedn(), sitename) self.addCleanup(sites.delete_site, self.ldb, self.ldb.get_config_basedn(), sitename) # restore the backup DC into the site we just created backup_file = self.create_backup() self.restore_backup(backup_file, ["--site=" + sitename]) lp = self.check_restored_smbconf() restored_ldb = self.check_restored_database(lp) # check the restored DC was added to the site we created, i.e. there's # an entry matching the new DC sitting underneath the site DN site_dn = "CN={0},CN=Sites,{1}".format(sitename, restored_ldb.get_config_basedn()) match_server = "(&(objectClass=server)(cn={0}))".format(self.new_server) res = restored_ldb.search(site_dn, scope=ldb.SCOPE_SUBTREE, expression=match_server) self.assertTrue(len(res) == 1, "Failed to find new DC under site") def create_smbconf(self, settings): """Creates a very basic smb.conf to pass to the restore tool""" # without the testenv config's settings, the NTACL backup_restore() # operation will fail (because we're not root). So first suck in all # testenv's settings, so we retain these in the new config. Note we # use a non-global LP so that these settings don't leak into other # places we use LoadParms testenv_conf = os.environ["SMB_CONF_PATH"] local_lp = param.LoadParm(filename_for_non_global_lp=testenv_conf) # add the new settings to the LP, then write the settings to file for key, val in settings.items(): local_lp.set(key, val) new_smbconf = os.path.join(self.tempdir, "smb.conf") local_lp.dump(False, new_smbconf) self.addCleanup(os.remove, new_smbconf) return new_smbconf def _test_backup_restore_with_conf(self): """Checks smb.conf values passed to the restore are retained""" backup_file = self.create_backup() # create an smb.conf that we pass to the restore. The netbios/state # dir should get overridden by the restore, the other settings should # trickle through into the restored dir's smb.conf settings = {'state directory': '/var/run', 'netbios name': 'FOOBAR', 'workgroup': 'NOTMYDOMAIN', 'realm': 'NOT.MY.REALM'} assert_settings = {'drs: max link sync': '275', 'prefork children': '7'} settings.update(assert_settings) smbconf = self.create_smbconf(settings) self.restore_backup(backup_file, ["--configfile=" + smbconf]) # this will check netbios name/state dir lp = self.check_restored_smbconf() self.check_restored_database(lp) # check the remaining settings are still intact for key, val in assert_settings.items(): self.assertEqual(str(lp.get(key)), val, "'%s' was '%s' in smb.conf" % (key, lp.get(key))) def check_restored_smbconf(self): """Sanity-check important smb.conf values are restored correctly""" smbconf = os.path.join(self.restore_dir(), "etc", "smb.conf") bkp_lp = param.LoadParm(filename_for_non_global_lp=smbconf) self.assertEqual(bkp_lp.get('netbios name'), self.new_server) self.assertEqual(bkp_lp.get('workgroup'), self.restore_domain) self.assertEqual(bkp_lp.get('realm'), self.restore_realm.upper()) # we restore with a fixed directory structure, so we can sanity-check # that the core filepaths settings are what we expect them to be private_dir = os.path.join(self.restore_dir(), "private") self.assertEqual(bkp_lp.get('private dir'), private_dir) state_dir = os.path.join(self.restore_dir(), "state") self.assertEqual(bkp_lp.get('state directory'), state_dir) return bkp_lp def check_restored_database(self, bkp_lp, expect_secrets=True): paths = provision.provision_paths_from_lp(bkp_lp, bkp_lp.get("realm")) bkp_pd = get_prim_dom(paths.secrets, bkp_lp) self.assertEqual(len(bkp_pd), 1) acn = bkp_pd[0].get('samAccountName') self.assertIsNotNone(acn) self.assertEqual(str(acn[0]), self.new_server + '$') self.assertIsNotNone(bkp_pd[0].get('secret')) samdb = SamDB(url=paths.samdb, session_info=system_session(), lp=bkp_lp, credentials=self.get_credentials()) # check that the backup markers have been removed from the restored DB res = samdb.search(base=ldb.Dn(samdb, "@SAMBA_DSDB"), scope=ldb.SCOPE_BASE, attrs=self.backup_markers) self.assertEqual(len(res), 1) for marker in self.backup_markers: self.assertIsNone(res[0].get(marker), "%s backup-marker left behind" % marker) # check that the repsFrom and repsTo values have been removed # from the restored DB res = samdb.search(base=samdb.get_default_basedn(), scope=ldb.SCOPE_BASE, attrs=['repsFrom', 'repsTo']) self.assertEqual(len(res), 1) self.assertIsNone(res[0].get('repsFrom')) self.assertIsNone(res[0].get('repsTo')) res = samdb.search(base=samdb.get_config_basedn(), scope=ldb.SCOPE_BASE, attrs=['repsFrom', 'repsTo']) self.assertEqual(len(res), 1) self.assertIsNone(res[0].get('repsFrom')) self.assertIsNone(res[0].get('repsTo')) # check the DB is using the backend we supplied if self.backend: res = samdb.search(base="@PARTITION", scope=ldb.SCOPE_BASE, attrs=["backendStore"]) backend = str(res[0].get("backendStore")) self.assertEqual(backend, self.backend) # check the restored DB has the expected partitions/DC/FSMO roles self.assert_partitions_present(samdb) self.assert_dcs_present(samdb, self.new_server, expected_count=1) self.assert_fsmo_roles(samdb, self.new_server, self.server) self.assert_secrets(samdb, expect_secrets=expect_secrets) # check we still have an uptodateness vector for the original DC self.assert_repl_uptodate_vector(samdb) return samdb def assert_user_secrets(self, samdb, username, expect_secrets): """Asserts that a user has/doesn't have secrets as expected""" basedn = str(samdb.get_default_basedn()) user_dn = "CN=%s,CN=users,%s" % (username, basedn) if expect_secrets: self.assertIsNotNone(samdb.searchone("unicodePwd", user_dn)) else: # the search should throw an exception because the secrets # attribute isn't actually there self.assertRaises(KeyError, samdb.searchone, "unicodePwd", user_dn) def assert_secrets(self, samdb, expect_secrets): """Check the user secrets in the restored DB match what's expected""" # check secrets for the built-in testenv users match what's expected test_users = ["alice", "bob", "jane"] for user in test_users: self.assert_user_secrets(samdb, user, expect_secrets) def assert_fsmo_roles(self, samdb, server, exclude_server): """Asserts the expected server is the FSMO role owner""" domain_dn = samdb.domain_dn() forest_dn = dn_from_dns_name(samdb.forest_dns_name()) fsmos = {'infrastructure': "CN=Infrastructure," + domain_dn, 'naming': "CN=Partitions,%s" % samdb.get_config_basedn(), 'schema': str(samdb.get_schema_basedn()), 'rid': "CN=RID Manager$,CN=System," + domain_dn, 'pdc': domain_dn, 'domaindns': "CN=Infrastructure,DC=DomainDnsZones," + domain_dn, 'forestdns': "CN=Infrastructure,DC=ForestDnsZones," + forest_dn} for role, dn in fsmos.items(): owner = get_fsmo_roleowner(samdb, ldb.Dn(samdb, dn), role) self.assertTrue("CN={0},".format(server) in owner.extended_str(), "Expected %s to own FSMO role %s" % (server, role)) self.assertTrue("CN={0},".format(exclude_server) not in owner.extended_str(), "%s found as FSMO %s role owner" % (server, role)) def cleanup_tempdir(self): for filename in os.listdir(self.tempdir): filepath = os.path.join(self.tempdir, filename) shutil.rmtree(filepath) def run_cmd(self, args): """Executes a samba-tool backup/restore command""" cmd = " ".join(args) print("Executing: samba-tool %s" % cmd) try: # note: it's important we run the cmd in a separate process here out = self.check_output("samba-tool " + cmd) except BlackboxProcessError as e: # if the command failed, it may have left behind temporary files. # We're going to fail the test, but first cleanup any temp files so # that we skip the TestCaseInTempDir._remove_tempdir() assertions self.cleanup_tempdir() self.fail("Error calling samba-tool: %s" % e) print(out) def create_backup(self, extra_args=None): """Runs the backup cmd to produce a backup file for the testenv DC""" # Run the backup command and check we got one backup tar file args = self.base_cmd + ["--targetdir=" + self.tempdir] if extra_args: args += extra_args self.run_cmd(args) # find the filename of the backup-file generated tar_files = [] for fn in os.listdir(self.tempdir): if (fn.startswith("samba-backup-") and fn.endswith(".tar.bz2")): tar_files.append(fn) self.assertTrue(len(tar_files) == 1, "Domain backup created %u tar files" % len(tar_files)) # clean up the backup file once the test finishes backup_file = os.path.join(self.tempdir, tar_files[0]) self.addCleanup(os.remove, backup_file) return backup_file def restore_backup(self, backup_file, extra_args=None): """Restores the samba directory files from a given backup""" # Run the restore command extract_dir = self.restore_dir() args = ["domain", "backup", "restore", "--backup-file=" + backup_file, "--targetdir=" + extract_dir, "--newservername=" + self.new_server] if extra_args: args += extra_args self.run_cmd(args) # sanity-check the restore doesn't modify the original DC by mistake self.assert_partitions_present(self.ldb) self.assert_dcs_present(self.ldb, self.server) self.assert_fsmo_roles(self.ldb, self.server, self.new_server) class DomainBackupOnline(DomainBackupBase): def setUp(self): super(DomainBackupOnline, self).setUp() self.base_cmd = ["domain", "backup", "online", "--server=" + self.server, self.user_auth] # run the common test cases above using online backups def test_backup_untar(self): self._test_backup_untar() def test_backup_restore(self): self.use_backend("tdb") self._test_backup_restore() def test_backup_restore_with_conf(self): self.use_backend("mdb") self._test_backup_restore_with_conf() def test_backup_restore_no_secrets(self): self.use_backend("tdb") self._test_backup_restore_no_secrets() def test_backup_restore_into_site(self): self.use_backend("mdb") self._test_backup_restore_into_site() class DomainBackupRename(DomainBackupBase): # run the above test cases using a rename backup def setUp(self): super(DomainBackupRename, self).setUp() self.new_server = "RENAMESERV" self.restore_domain = "NEWDOMAIN" self.restore_realm = "rename.test.net" self.new_basedn = "DC=rename,DC=test,DC=net" self.base_cmd = ["domain", "backup", "rename", self.restore_domain, self.restore_realm, "--server=" + self.server, self.user_auth] self.backup_markers += ['backupRename'] # run the common test case code for backup-renames def test_backup_untar(self): self._test_backup_untar() def test_backup_restore(self): self.use_backend("mdb") self._test_backup_restore() def test_backup_restore_with_conf(self): self.use_backend("tdb") self._test_backup_restore_with_conf() def test_backup_restore_no_secrets(self): self.use_backend("mdb") self._test_backup_restore_no_secrets() def test_backup_restore_into_site(self): self.use_backend("tdb") self._test_backup_restore_into_site() def test_backup_invalid_args(self): """Checks that rename commands with invalid args are rejected""" # try a "rename" using the same realm as the DC currently has rename_cmd = "samba-tool domain backup rename " bad_cmd = "{cmd} {domain} {realm}".format(cmd=rename_cmd, domain=self.restore_domain, realm=os.environ["REALM"]) self.assertRaises(BlackboxProcessError, self.check_output, bad_cmd) # try a "rename" using the same domain as the DC currently has bad_cmd = "{cmd} {domain} {realm}".format(cmd=rename_cmd, domain=os.environ["DOMAIN"], realm=self.restore_realm) self.assertRaises(BlackboxProcessError, self.check_output, bad_cmd) def add_link(self, attr, source, target): m = ldb.Message() m.dn = ldb.Dn(self.ldb, source) m[attr] = ldb.MessageElement(target, ldb.FLAG_MOD_ADD, attr) self.ldb.modify(m) def test_one_way_links(self): """Sanity-check that a rename handles one-way links correctly""" # Do some initial setup on the DC before back it up: # create an OU to hold the test objects we'll create test_ou = create_test_ou(self.ldb, "rename_test") self.addCleanup(self.ldb.delete, test_ou, ["tree_delete:1"]) # create the source and target objects and link them together. # We use addressBookRoots2 here because it's a one-way link src_dn = "CN=link_src,%s" % test_ou self.ldb.add({"dn": src_dn, "objectclass": "msExchConfigurationContainer"}) target_dn = "OU=link_tgt,%s" % test_ou self.ldb.add({"dn": target_dn, "objectclass": "organizationalunit"}) link_attr = "addressBookRoots2" self.add_link(link_attr, src_dn, target_dn) # add a second link target that's in a different partition server_dn = ("CN=testrename,CN=Servers,CN=Default-First-Site-Name," "CN=Sites,%s" % str(self.ldb.get_config_basedn())) self.ldb.add({"dn": server_dn, "objectclass": "server"}) self.addCleanup(self.ldb.delete, server_dn) self.add_link(link_attr, src_dn, server_dn) # do the backup/restore backup_file = self.create_backup() self.restore_backup(backup_file) lp = self.check_restored_smbconf() restored_ldb = self.check_restored_database(lp) # work out what the new DNs should be old_basedn = str(self.ldb.get_default_basedn()) new_target_dn = re.sub(old_basedn + '$', self.new_basedn, target_dn) new_src_dn = re.sub(old_basedn + '$', self.new_basedn, src_dn) new_server_dn = re.sub(old_basedn + '$', self.new_basedn, server_dn) # check the links exist in the renamed DB with the correct DNs res = restored_ldb.search(base=new_src_dn, scope=ldb.SCOPE_BASE, attrs=[link_attr]) self.assertEqual(len(res), 1, "Failed to find renamed link source object") self.assertTrue(link_attr in res[0], "Missing link attribute") link_values = [str(x) for x in res[0][link_attr]] self.assertTrue(new_target_dn in link_values) self.assertTrue(new_server_dn in link_values) # extra checks we run on the restored DB in the rename case def check_restored_database(self, lp, expect_secrets=True): # run the common checks over the restored DB common_test = super(DomainBackupRename, self) samdb = common_test.check_restored_database(lp, expect_secrets) # check we have actually renamed the DNs basedn = str(samdb.get_default_basedn()) self.assertEqual(basedn, self.new_basedn) # check the partition and netBIOS name match the new domain partitions_dn = samdb.get_partitions_dn() nc_name = ldb.binary_encode(str(basedn)) res = samdb.search(base=partitions_dn, scope=ldb.SCOPE_ONELEVEL, attrs=["nETBIOSName", "cn"], expression='ncName=%s' % nc_name) self.assertEqual(len(res), 1, "Looking up partition's NetBIOS name failed") self.assertEqual(str(res[0].get("nETBIOSName")), self.restore_domain) self.assertEqual(str(res[0].get("cn")), self.restore_domain) # check the DC has the correct dnsHostname realm = self.restore_realm dn = "CN=%s,OU=Domain Controllers,%s" % (self.new_server, self.new_basedn) res = samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=["dNSHostName"]) self.assertEqual(len(res), 1, "Looking up new DC's dnsHostname failed") expected_val = "%s.%s" % (self.new_server.lower(), realm) self.assertEqual(str(res[0].get("dNSHostName")), expected_val) # check the DNS zones for the new realm are present dn = "DC=%s,CN=MicrosoftDNS,DC=DomainDnsZones,%s" % (realm, basedn) res = samdb.search(base=dn, scope=ldb.SCOPE_BASE) self.assertEqual(len(res), 1, "Lookup of new domain's DNS zone failed") forestdn = samdb.get_root_basedn().get_linearized() dn = "DC=_msdcs.%s,CN=MicrosoftDNS,DC=ForestDnsZones,%s" % (realm, forestdn) res = samdb.search(base=dn, scope=ldb.SCOPE_BASE) self.assertEqual(len(res), 1, "Lookup of new domain's DNS zone failed") return samdb class DomainBackupOffline(DomainBackupBase): def setUp(self): super(DomainBackupOffline, self).setUp() self.base_cmd = ["domain", "backup", "offline"] def test_backup_untar(self): self._test_backup_untar(primary_domain_secrets=1) def test_backup_restore_with_conf(self): self._test_backup_restore_with_conf() def test_backup_restore(self): self._test_backup_restore() def test_backup_restore_into_site(self): self._test_backup_restore_into_site()