# Samba4 AD database checker # # Copyright (C) Andrew Tridgell 2011 # Copyright (C) Matthieu Patou 2011 # # 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 . # import ldb import samba import time from base64 import b64decode, b64encode from samba import dsdb from samba import common from samba.dcerpc import misc from samba.dcerpc import drsuapi from samba.ndr import ndr_unpack, ndr_pack from samba.dcerpc import drsblobs from samba.samdb import dsdb_Dn from samba.dcerpc import security from samba.descriptor import ( get_wellknown_sds, get_deletedobjects_descriptor, get_diff_sds ) from samba.auth import system_session, admin_session from samba.netcmd import CommandError from samba.netcmd.fsmo import get_fsmo_roleowner from samba.colour import c_RED, c_DARK_YELLOW, c_DARK_CYAN, c_DARK_GREEN def dump_attr_values(vals): """Stringify a value list, using utf-8 if possible (which some tests want), or the python bytes representation otherwise (with leading 'b' and escapes like b'\x00'). """ result = [] for value in vals: try: result.append(value.decode('utf-8')) except UnicodeDecodeError: result.append(repr(value)) return ','.join(result) class dbcheck(object): """check a SAM database for errors""" def __init__(self, samdb, samdb_schema=None, verbose=False, fix=False, yes=False, quiet=False, in_transaction=False, quick_membership_checks=False, reset_well_known_acls=False, check_expired_tombstones=False, colour=False): self.samdb = samdb self.dict_oid_name = None self.samdb_schema = (samdb_schema or samdb) self.verbose = verbose self.fix = fix self.yes = yes self.quiet = quiet self.colour = colour self.remove_all_unknown_attributes = False self.remove_all_empty_attributes = False self.fix_all_normalisation = False self.fix_all_duplicates = False self.fix_all_DN_GUIDs = False self.fix_all_binary_dn = False self.remove_implausible_deleted_DN_links = False self.remove_plausible_deleted_DN_links = False self.fix_all_string_dn_component_mismatch = False self.fix_all_GUID_dn_component_mismatch = False self.fix_all_SID_dn_component_mismatch = False self.fix_all_SID_dn_component_missing = False self.fix_all_old_dn_string_component_mismatch = False self.fix_all_metadata = False self.fix_time_metadata = False self.fix_undead_linked_attributes = False self.fix_all_missing_backlinks = False self.fix_all_orphaned_backlinks = False self.fix_all_missing_forward_links = False self.duplicate_link_cache = dict() self.recover_all_forward_links = False self.fix_rmd_flags = False self.fix_ntsecuritydescriptor = False self.fix_ntsecuritydescriptor_owner_group = False self.seize_fsmo_role = False self.move_to_lost_and_found = False self.fix_instancetype = False self.fix_replmetadata_zero_invocationid = False self.fix_replmetadata_duplicate_attid = False self.fix_replmetadata_wrong_attid = False self.fix_replmetadata_unsorted_attid = False self.fix_deleted_deleted_objects = False self.fix_dn = False self.fix_base64_userparameters = False self.fix_utf8_userparameters = False self.fix_doubled_userparameters = False self.fix_sid_rid_set_conflict = False self.quick_membership_checks = quick_membership_checks self.reset_well_known_acls = reset_well_known_acls self.check_expired_tombstones = check_expired_tombstones self.expired_tombstones = 0 self.reset_all_well_known_acls = False self.in_transaction = in_transaction self.infrastructure_dn = ldb.Dn(samdb, "CN=Infrastructure," + samdb.domain_dn()) self.naming_dn = ldb.Dn(samdb, "CN=Partitions,%s" % samdb.get_config_basedn()) self.schema_dn = samdb.get_schema_basedn() self.rid_dn = ldb.Dn(samdb, "CN=RID Manager$,CN=System," + samdb.domain_dn()) self.ntds_dsa = ldb.Dn(samdb, samdb.get_dsServiceName()) self.class_schemaIDGUID = {} self.wellknown_sds = get_wellknown_sds(self.samdb) self.fix_all_missing_objectclass = False self.fix_missing_deleted_objects = False self.fix_replica_locations = False self.fix_missing_rid_set_master = False self.fix_changes_after_deletion_bug = False self.dn_set = set() self.link_id_cache = {} self.name_map = {} try: base_dn = "CN=DnsAdmins,%s" % samdb.get_wellknown_dn( samdb.get_default_basedn(), dsdb.DS_GUID_USERS_CONTAINER) res = samdb.search(base=base_dn, scope=ldb.SCOPE_BASE, attrs=["objectSid"]) dnsadmins_sid = ndr_unpack(security.dom_sid, res[0]["objectSid"][0]) self.name_map['DnsAdmins'] = str(dnsadmins_sid) except ldb.LdbError as e5: (enum, estr) = e5.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise self.system_session_info = system_session() self.admin_session_info = admin_session(None, samdb.get_domain_sid()) res = self.samdb.search(base=self.ntds_dsa, scope=ldb.SCOPE_BASE, attrs=['msDS-hasMasterNCs', 'hasMasterNCs']) if "msDS-hasMasterNCs" in res[0]: self.write_ncs = res[0]["msDS-hasMasterNCs"] else: # If the Forest Level is less than 2003 then there is no # msDS-hasMasterNCs, so we fall back to hasMasterNCs # no need to merge as all the NCs that are in hasMasterNCs must # also be in msDS-hasMasterNCs (but not the opposite) if "hasMasterNCs" in res[0]: self.write_ncs = res[0]["hasMasterNCs"] else: self.write_ncs = None res = self.samdb.search(base="", scope=ldb.SCOPE_BASE, attrs=['namingContexts']) self.deleted_objects_containers = [] self.ncs_lacking_deleted_containers = [] self.dns_partitions = [] try: self.ncs = res[0]["namingContexts"] except KeyError: pass except IndexError: pass for nc in self.ncs: try: dn = self.samdb.get_wellknown_dn(ldb.Dn(self.samdb, nc.decode('utf8')), dsdb.DS_GUID_DELETED_OBJECTS_CONTAINER) self.deleted_objects_containers.append(dn) except KeyError: self.ncs_lacking_deleted_containers.append(ldb.Dn(self.samdb, nc.decode('utf8'))) domaindns_zone = 'DC=DomainDnsZones,%s' % self.samdb.get_default_basedn() forestdns_zone = 'DC=ForestDnsZones,%s' % self.samdb.get_root_basedn() domain = self.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=["msDS-NC-Replica-Locations", "msDS-NC-RO-Replica-Locations"], base=self.samdb.get_partitions_dn(), expression="(&(objectClass=crossRef)(ncName=%s))" % domaindns_zone) if len(domain) == 1: self.dns_partitions.append((ldb.Dn(self.samdb, forestdns_zone), domain[0])) forest = self.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=["msDS-NC-Replica-Locations", "msDS-NC-RO-Replica-Locations"], base=self.samdb.get_partitions_dn(), expression="(&(objectClass=crossRef)(ncName=%s))" % forestdns_zone) if len(forest) == 1: self.dns_partitions.append((ldb.Dn(self.samdb, domaindns_zone), forest[0])) fsmo_dn = ldb.Dn(self.samdb, "CN=RID Manager$,CN=System," + self.samdb.domain_dn()) rid_master = get_fsmo_roleowner(self.samdb, fsmo_dn, "rid") if ldb.Dn(self.samdb, self.samdb.get_dsServiceName()) == rid_master: self.is_rid_master = True else: self.is_rid_master = False # To get your rid set # 1. Get server name res = self.samdb.search(base=ldb.Dn(self.samdb, self.samdb.get_serverName()), scope=ldb.SCOPE_BASE, attrs=["serverReference"]) # 2. Get server reference self.server_ref_dn = ldb.Dn(self.samdb, res[0]['serverReference'][0].decode('utf8')) # 3. Get RID Set res = self.samdb.search(base=self.server_ref_dn, scope=ldb.SCOPE_BASE, attrs=['rIDSetReferences']) if "rIDSetReferences" in res[0]: self.rid_set_dn = ldb.Dn(self.samdb, res[0]['rIDSetReferences'][0].decode('utf8')) else: self.rid_set_dn = None ntds_service_dn = "CN=Directory Service,CN=Windows NT,CN=Services,%s" % \ self.samdb.get_config_basedn().get_linearized() res = samdb.search(base=ntds_service_dn, scope=ldb.SCOPE_BASE, expression="(objectClass=nTDSService)", attrs=["tombstoneLifetime"]) if "tombstoneLifetime" in res[0]: self.tombstoneLifetime = int(res[0]["tombstoneLifetime"][0]) else: self.tombstoneLifetime = 180 self.compatibleFeatures = [] self.requiredFeatures = [] try: res = self.samdb.search(scope=ldb.SCOPE_BASE, base="@SAMBA_DSDB", attrs=["compatibleFeatures", "requiredFeatures"]) if "compatibleFeatures" in res[0]: self.compatibleFeatures = res[0]["compatibleFeatures"] if "requiredFeatures" in res[0]: self.requiredFeatures = res[0]["requiredFeatures"] except ldb.LdbError as e6: (enum, estr) = e6.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise def check_database(self, DN=None, scope=ldb.SCOPE_SUBTREE, controls=None, attrs=None): """perform a database check, returning the number of errors found""" res = self.samdb.search(base=DN, scope=scope, attrs=['dn'], controls=controls) self.report('Checking %u objects' % len(res)) error_count = 0 self.unfixable_errors = 0 error_count += self.check_deleted_objects_containers() self.attribute_or_class_ids = set() for object in res: self.dn_set.add(str(object.dn)) error_count += self.check_object(object.dn, requested_attrs=attrs) if DN is None: error_count += self.check_rootdse() if self.expired_tombstones > 0: self.report("NOTICE: found %d expired tombstones, " "'samba' will remove them daily, " "'samba-tool domain tombstones expunge' " "would do that immediately." % ( self.expired_tombstones)) self.report('Checked %u objects (%u errors)' % (len(res), error_count + self.unfixable_errors)) if self.unfixable_errors != 0: self.report(f"WARNING: {self.unfixable_errors} " "of these errors cannot be automatically fixed.") if error_count != 0 and not self.fix: self.report("Please use 'samba-tool dbcheck --fix' to fix " f"{error_count} errors") return error_count def check_deleted_objects_containers(self): """This function only fixes conflicts on the Deleted Objects containers, not the attributes""" error_count = 0 for nc in self.ncs_lacking_deleted_containers: if nc == self.schema_dn: continue error_count += 1 self.report("ERROR: NC %s lacks a reference to a Deleted Objects container" % nc) if not self.confirm_all('Fix missing Deleted Objects container for %s?' % (nc), 'fix_missing_deleted_objects'): continue dn = ldb.Dn(self.samdb, "CN=Deleted Objects") dn.add_base(nc) conflict_dn = None try: # If something already exists here, add a conflict res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=[], controls=["show_deleted:1", "extended_dn:1:1", "show_recycled:1", "reveal_internals:0"]) if len(res) != 0: guid = res[0].dn.get_extended_component("GUID") conflict_dn = ldb.Dn(self.samdb, "CN=Deleted Objects\\0ACNF:%s" % str(misc.GUID(guid))) conflict_dn.add_base(nc) except ldb.LdbError as e2: (enum, estr) = e2.args if enum == ldb.ERR_NO_SUCH_OBJECT: pass else: self.report("Couldn't check for conflicting Deleted Objects container: %s" % estr) return 1 if conflict_dn is not None: try: self.samdb.rename(dn, conflict_dn, ["show_deleted:1", "relax:0", "show_recycled:1"]) except ldb.LdbError as e1: (enum, estr) = e1.args self.report("Couldn't move old Deleted Objects placeholder: %s to %s: %s" % (dn, conflict_dn, estr)) return 1 # Refresh wellKnownObjects links res = self.samdb.search(base=nc, scope=ldb.SCOPE_BASE, attrs=['wellKnownObjects'], controls=["show_deleted:1", "extended_dn:0", "show_recycled:1", "reveal_internals:0"]) if len(res) != 1: self.report("wellKnownObjects was not found for NC %s" % nc) return 1 # Prevent duplicate deleted objects containers just in case wko = res[0]["wellKnownObjects"] listwko = [] proposed_objectguid = None for o in wko: dsdb_dn = dsdb_Dn(self.samdb, o.decode('utf8'), dsdb.DSDB_SYNTAX_BINARY_DN) if self.is_deleted_objects_dn(dsdb_dn): self.report("wellKnownObjects had duplicate Deleted Objects value %s" % o) # We really want to put this back in the same spot # as the original one, so that on replication we # merge, rather than conflict. proposed_objectguid = dsdb_dn.dn.get_extended_component("GUID") listwko.append(str(o)) if proposed_objectguid is not None: guid_suffix = "\nobjectGUID: %s" % str(misc.GUID(proposed_objectguid)) else: wko_prefix = "B:32:%s" % dsdb.DS_GUID_DELETED_OBJECTS_CONTAINER listwko.append('%s:%s' % (wko_prefix, dn)) guid_suffix = "" domain_sid = security.dom_sid(self.samdb.get_domain_sid()) sec_desc = get_deletedobjects_descriptor(domain_sid, name_map=self.name_map) sec_desc_b64 = b64encode(sec_desc).decode('utf8') # Insert a brand new Deleted Objects container self.samdb.add_ldif("""dn: %s objectClass: top objectClass: container description: Container for deleted objects isDeleted: TRUE isCriticalSystemObject: TRUE showInAdvancedViewOnly: TRUE nTSecurityDescriptor:: %s systemFlags: -1946157056%s""" % (dn, sec_desc_b64, guid_suffix), controls=["relax:0", "provision:0"]) delta = ldb.Message() delta.dn = ldb.Dn(self.samdb, str(res[0]["dn"])) delta["wellKnownObjects"] = ldb.MessageElement(listwko, ldb.FLAG_MOD_REPLACE, "wellKnownObjects") # Insert the link to the brand new container if self.do_modify(delta, ["relax:0"], "NC %s lacks Deleted Objects WKGUID" % nc, validate=False): self.report("Added %s well known guid link" % dn) self.deleted_objects_containers.append(dn) return error_count def report(self, msg): """print a message unless quiet is set""" if self.quiet: return if self.colour: if msg.startswith('ERROR'): msg = c_RED('ERROR') + msg[5:] elif msg.startswith('WARNING'): msg = c_DARK_YELLOW('WARNING') + msg[7:] elif msg.startswith('INFO'): msg = c_DARK_CYAN('INFO') + msg[4:] elif msg.startswith('NOTICE'): msg = c_DARK_CYAN('NOTICE') + msg[6:] elif msg.startswith('NOTE'): msg = c_DARK_CYAN('NOTE') + msg[4:] elif msg.startswith('SKIPPING'): msg = c_DARK_GREEN('SKIPPING') + msg[8:] print(msg) def confirm(self, msg, allow_all=False, forced=False): """confirm a change""" if not self.fix: return False if self.quiet: return self.yes if self.yes: forced = True return common.confirm(msg, forced=forced, allow_all=allow_all) ################################################################ # a local confirm function with support for 'all' def confirm_all(self, msg, all_attr): """confirm a change with support for "all" """ if not self.fix: return False if getattr(self, all_attr) == 'NONE': return False if getattr(self, all_attr) == 'ALL': forced = True else: forced = self.yes if self.quiet: return forced c = common.confirm(msg, forced=forced, allow_all=True) if c == 'ALL': setattr(self, all_attr, 'ALL') return True if c == 'NONE': setattr(self, all_attr, 'NONE') return False return c def do_delete(self, dn, controls, msg): """delete dn with optional verbose output""" if self.verbose: self.report("delete DN %s" % dn) try: controls = controls + ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK] self.samdb.delete(dn, controls=controls) except Exception as err: if self.in_transaction: raise CommandError("%s : %s" % (msg, err)) self.report("%s : %s" % (msg, err)) return False return True def do_modify(self, m, controls, msg, validate=True): """perform a modify with optional verbose output""" controls = controls + ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK] if self.verbose: self.report(self.samdb.write_ldif(m, ldb.CHANGETYPE_MODIFY)) self.report("controls: %r" % controls) try: self.samdb.modify(m, controls=controls, validate=validate) except Exception as err: if self.in_transaction: raise CommandError("%s : %s" % (msg, err)) self.report("%s : %s" % (msg, err)) return False return True def do_rename(self, from_dn, to_rdn, to_base, controls, msg): """perform a rename with optional verbose output""" if self.verbose: self.report("""dn: %s changeType: modrdn newrdn: %s deleteOldRdn: 1 newSuperior: %s""" % (str(from_dn), str(to_rdn), str(to_base))) try: to_dn = to_rdn + to_base controls = controls + ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK] self.samdb.rename(from_dn, to_dn, controls=controls) except Exception as err: if self.in_transaction: raise CommandError("%s : %s" % (msg, err)) self.report("%s : %s" % (msg, err)) return False return True def get_attr_linkID_and_reverse_name(self, attrname): if attrname in self.link_id_cache: return self.link_id_cache[attrname] linkID = self.samdb_schema.get_linkId_from_lDAPDisplayName(attrname) if linkID: revname = self.samdb_schema.get_backlink_from_lDAPDisplayName(attrname) else: revname = None self.link_id_cache[attrname] = (linkID, revname) return linkID, revname def err_empty_attribute(self, dn, attrname): """fix empty attributes""" self.report("ERROR: Empty attribute %s in %s" % (attrname, dn)) if not self.confirm_all('Remove empty attribute %s from %s?' % (attrname, dn), 'remove_all_empty_attributes'): self.report("Not fixing empty attribute %s" % attrname) return m = ldb.Message() m.dn = dn m[attrname] = ldb.MessageElement('', ldb.FLAG_MOD_DELETE, attrname) if self.do_modify(m, ["relax:0", "show_recycled:1"], "Failed to remove empty attribute %s" % attrname, validate=False): self.report("Removed empty attribute %s" % attrname) def err_normalise_mismatch(self, dn, attrname, values): """fix attribute normalisation errors, without altering sort order""" self.report("ERROR: Normalisation error for attribute %s in %s" % (attrname, dn)) mod_list = [] for val in values: normalised = self.samdb.dsdb_normalise_attributes( self.samdb_schema, attrname, [val]) if len(normalised) != 1: self.report("Unable to normalise value '%s'" % val) mod_list.append((val, '')) elif (normalised[0] != val): self.report("value '%s' should be '%s'" % (val, normalised[0])) mod_list.append((val, normalised[0])) if not self.confirm_all('Fix normalisation for %s from %s?' % (attrname, dn), 'fix_all_normalisation'): self.report("Not fixing attribute %s" % attrname) return m = ldb.Message() m.dn = dn for i in range(0, len(mod_list)): (val, nval) = mod_list[i] m['value_%u' % i] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) if nval != '': m['normv_%u' % i] = ldb.MessageElement(nval, ldb.FLAG_MOD_ADD, attrname) if self.do_modify(m, ["relax:0", "show_recycled:1"], "Failed to normalise attribute %s" % attrname, validate=False): self.report("Normalised attribute %s" % attrname) def err_normalise_mismatch_replace(self, dn, attrname, values): """fix attribute normalisation and/or sort errors""" normalised = self.samdb.dsdb_normalise_attributes(self.samdb_schema, attrname, values) if list(normalised) == values: # how we got here is a mystery. return self.report("ERROR: Normalisation error for attribute '%s' in '%s'" % (attrname, dn)) self.report("Values/Order of values do/does not match: %s/%s!" % (values, list(normalised))) if not self.confirm_all("Fix normalisation for '%s' from '%s'?" % (attrname, dn), 'fix_all_normalisation'): self.report("Not fixing attribute '%s'" % attrname) return m = ldb.Message() m.dn = dn m[attrname] = ldb.MessageElement(normalised, ldb.FLAG_MOD_REPLACE, attrname) if self.do_modify(m, ["relax:0", "show_recycled:1"], "Failed to normalise attribute %s" % attrname, validate=False): self.report("Normalised attribute %s" % attrname) def err_duplicate_values(self, dn, attrname, dup_values, values): """fix duplicate attribute values""" self.report("ERROR: Duplicate values for attribute '%s' in '%s'" % (attrname, dn)) self.report("Values contain a duplicate: [%s]/[%s]!" % (dump_attr_values(dup_values), dump_attr_values(values))) if not self.confirm_all("Fix duplicates for '%s' from '%s'?" % (attrname, dn), 'fix_all_duplicates'): self.report("Not fixing attribute '%s'" % attrname) return m = ldb.Message() m.dn = dn m[attrname] = ldb.MessageElement(values, ldb.FLAG_MOD_REPLACE, attrname) if self.do_modify(m, ["relax:0", "show_recycled:1"], "Failed to remove duplicate value on attribute %s" % attrname, validate=False): self.report("Removed duplicate value on attribute %s" % attrname) def is_deleted_objects_dn(self, dsdb_dn): """see if a dsdb_Dn is the special Deleted Objects DN""" return dsdb_dn.prefix == "B:32:%s:" % dsdb.DS_GUID_DELETED_OBJECTS_CONTAINER def err_missing_objectclass(self, dn): """handle object without objectclass""" self.report("ERROR: missing objectclass in object %s. If you have another working DC, please run 'samba-tool drs replicate --full-sync --local %s'" % (dn, self.samdb.get_nc_root(dn))) if not self.confirm_all("If you cannot re-sync from another DC, do you wish to delete object '%s'?" % dn, 'fix_all_missing_objectclass'): self.report("Not deleting object with missing objectclass '%s'" % dn) return if self.do_delete(dn, ["relax:0"], "Failed to remove DN %s" % dn): self.report("Removed DN %s" % dn) def err_deleted_dn(self, dn, attrname, val, dsdb_dn, correct_dn, remove_plausible=False): """handle a DN pointing to a deleted object""" if not remove_plausible: self.report("ERROR: target DN is deleted for %s in object %s - %s" % (attrname, dn, val)) self.report("Target GUID points at deleted DN %r" % str(correct_dn)) if not self.confirm_all('Remove DN link?', 'remove_implausible_deleted_DN_links'): self.report("Not removing") return else: self.report("WARNING: target DN is deleted for %s in object %s - %s" % (attrname, dn, val)) self.report("Target GUID points at deleted DN %r" % str(correct_dn)) if not self.confirm_all('Remove stale DN link?', 'remove_plausible_deleted_DN_links'): self.report("Not removing") return m = ldb.Message() m.dn = dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) if self.do_modify(m, ["show_recycled:1", "local_oid:%s:0" % dsdb.DSDB_CONTROL_REPLMD_VANISH_LINKS], "Failed to remove deleted DN attribute %s" % attrname): self.report("Removed deleted DN on attribute %s" % attrname) def err_missing_target_dn_or_GUID(self, dn, attrname, val, dsdb_dn): """handle a missing target DN (if specified, GUID form can't be found, and otherwise DN string form can't be found)""" # Don't change anything if the object itself is deleted if str(dn).find('\\0ADEL') != -1: # We don't bump the error count as Samba produces these # in normal operation self.report("WARNING: no target object found for GUID " "component link %s in deleted object " "%s - %s" % (attrname, dn, val)) self.report("Not removing dangling one-way " "link on deleted object " "(tombstone garbage collection in progress?)") return 0 # check if its a backlink linkID, _ = self.get_attr_linkID_and_reverse_name(attrname) if (linkID & 1 == 0) and str(dsdb_dn).find('\\0ADEL') == -1: linkID, reverse_link_name \ = self.get_attr_linkID_and_reverse_name(attrname) if reverse_link_name is not None: self.report("WARNING: no target object found for GUID " "component for one-way forward link " "%s in object " "%s - %s" % (attrname, dn, val)) self.report("Not removing dangling forward link") return 0 nc_root = self.samdb.get_nc_root(dn) try: target_nc_root = self.samdb.get_nc_root(dsdb_dn.dn) except ldb.LdbError as e: (enum, estr) = e.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise target_nc_root = None if target_nc_root is None: # We don't bump the error count as Samba produces # these in normal operation creating a lab domain (due # to the way the rename is handled, links to # now-expunged objects will never be fixed to stay # inside the NC self.report("WARNING: no target object found for GUID " "component for link " "%s in object to %s outside our NCs" "%s - %s" % (attrname, dsdb_dn.dn, dn, val)) self.report("Not removing dangling one-way " "left-over link outside our NCs " "(we might be building a renamed/lab domain)") return 0 if nc_root != target_nc_root: # We don't bump the error count as Samba produces these # in normal operation self.report("WARNING: no target object found for GUID " "component for cross-partition link " "%s in object " "%s - %s" % (attrname, dn, val)) self.report("Not removing dangling one-way " "cross-partition link " "(we might be mid-replication)") return 0 # Due to our link handling one-way links pointing to # missing objects are plausible. # # We don't bump the error count as Samba produces these # in normal operation self.report("WARNING: no target object found for GUID " "component for DN value %s in object " "%s - %s" % (attrname, dn, val)) self.err_deleted_dn(dn, attrname, val, dsdb_dn, dsdb_dn, True) return 0 # We bump the error count here, as we should have deleted this self.report("ERROR: no target object found for GUID " "component for link %s in object " "%s - %s" % (attrname, dn, val)) self.err_deleted_dn(dn, attrname, val, dsdb_dn, dsdb_dn, False) return 1 def err_missing_dn_GUID_component(self, dn, attrname, val, dsdb_dn, errstr): """handle a missing GUID extended DN component""" self.report("ERROR: %s component for %s in object %s - %s" % (errstr, attrname, dn, val)) controls = ["extended_dn:1:1", "show_recycled:1"] try: res = self.samdb.search(base=str(dsdb_dn.dn), scope=ldb.SCOPE_BASE, attrs=[], controls=controls) except ldb.LdbError as e7: (enum, estr) = e7.args self.report("unable to find object for DN %s - (%s)" % (dsdb_dn.dn, estr)) if enum != ldb.ERR_NO_SUCH_OBJECT: raise self.err_missing_target_dn_or_GUID(dn, attrname, val, dsdb_dn) return if len(res) == 0: self.report("unable to find object for DN %s" % dsdb_dn.dn) self.err_missing_target_dn_or_GUID(dn, attrname, val, dsdb_dn) return dsdb_dn.dn = res[0].dn if not self.confirm_all('Change DN to %s?' % str(dsdb_dn), 'fix_all_DN_GUIDs'): self.report("Not fixing %s" % errstr) return m = ldb.Message() m.dn = dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) m['new_value'] = ldb.MessageElement(str(dsdb_dn), ldb.FLAG_MOD_ADD, attrname) if self.do_modify(m, ["show_recycled:1"], "Failed to fix %s on attribute %s" % (errstr, attrname)): self.report("Fixed %s on attribute %s" % (errstr, attrname)) def err_incorrect_binary_dn(self, dn, attrname, val, dsdb_dn, errstr): """handle an incorrect binary DN component""" self.report("ERROR: %s binary component for %s in object %s - %s" % (errstr, attrname, dn, val)) if not self.confirm_all('Change DN to %s?' % str(dsdb_dn), 'fix_all_binary_dn'): self.report("Not fixing %s" % errstr) return m = ldb.Message() m.dn = dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) m['new_value'] = ldb.MessageElement(str(dsdb_dn), ldb.FLAG_MOD_ADD, attrname) if self.do_modify(m, ["show_recycled:1"], "Failed to fix %s on attribute %s" % (errstr, attrname)): self.report("Fixed %s on attribute %s" % (errstr, attrname)) def err_dn_string_component_old(self, dn, attrname, val, dsdb_dn, correct_dn): """handle a DN string being incorrect due to a rename or delete""" self.report("NOTE: old (due to rename or delete) DN string component for %s in object %s - %s" % (attrname, dn, val)) dsdb_dn.dn = correct_dn if not self.confirm_all('Change DN to %s?' % str(dsdb_dn), 'fix_all_old_dn_string_component_mismatch'): self.report("Not fixing old string component") return m = ldb.Message() m.dn = dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) m['new_value'] = ldb.MessageElement(str(dsdb_dn), ldb.FLAG_MOD_ADD, attrname) if self.do_modify(m, ["show_recycled:1", "local_oid:%s:1" % dsdb.DSDB_CONTROL_DBCHECK_FIX_LINK_DN_NAME], "Failed to fix old DN string on attribute %s" % (attrname)): self.report("Fixed old DN string on attribute %s" % (attrname)) def err_dn_component_target_mismatch(self, dn, attrname, val, dsdb_dn, correct_dn, mismatch_type): """handle a DN string being incorrect""" self.report("ERROR: incorrect DN %s component for %s in object %s - %s" % (mismatch_type, attrname, dn, val)) dsdb_dn.dn = correct_dn if not self.confirm_all('Change DN to %s?' % str(dsdb_dn), 'fix_all_%s_dn_component_mismatch' % mismatch_type): self.report("Not fixing %s component mismatch" % mismatch_type) return m = ldb.Message() m.dn = dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) m['new_value'] = ldb.MessageElement(str(dsdb_dn), ldb.FLAG_MOD_ADD, attrname) if self.do_modify(m, ["show_recycled:1"], "Failed to fix incorrect DN %s on attribute %s" % (mismatch_type, attrname)): self.report("Fixed incorrect DN %s on attribute %s" % (mismatch_type, attrname)) def err_dn_component_missing_target_sid(self, dn, attrname, val, dsdb_dn, target_sid_blob): """fix missing on linked attributes""" self.report("ERROR: missing DN SID component for %s in object %s - %s" % (attrname, dn, val)) if len(dsdb_dn.prefix) != 0: self.report("Not fixing missing DN SID on DN+BINARY or DN+STRING") return correct_dn = ldb.Dn(self.samdb, dsdb_dn.dn.extended_str()) correct_dn.set_extended_component("SID", target_sid_blob) if not self.confirm_all('Change DN to %s?' % correct_dn.extended_str(), 'fix_all_SID_dn_component_missing'): self.report("Not fixing missing DN SID component") return target_guid_blob = correct_dn.get_extended_component("GUID") guid_sid_dn = ldb.Dn(self.samdb, "") guid_sid_dn.set_extended_component("GUID", target_guid_blob) guid_sid_dn.set_extended_component("SID", target_sid_blob) m = ldb.Message() m.dn = dn m['new_value'] = ldb.MessageElement(guid_sid_dn.extended_str(), ldb.FLAG_MOD_ADD, attrname) controls = [ "show_recycled:1", "local_oid:%s:1" % dsdb.DSDB_CONTROL_DBCHECK_FIX_LINK_DN_SID ] if self.do_modify(m, controls, "Failed to ADD missing DN SID on attribute %s" % (attrname)): self.report("Fixed missing DN SID on attribute %s" % (attrname)) def err_unknown_attribute(self, obj, attrname): """handle an unknown attribute error""" self.report("ERROR: unknown attribute '%s' in %s" % (attrname, obj.dn)) if not self.confirm_all('Remove unknown attribute %s' % attrname, 'remove_all_unknown_attributes'): self.report("Not removing %s" % attrname) return m = ldb.Message() m.dn = obj.dn m['old_value'] = ldb.MessageElement([], ldb.FLAG_MOD_DELETE, attrname) if self.do_modify(m, ["relax:0", "show_recycled:1"], "Failed to remove unknown attribute %s" % attrname): self.report("Removed unknown attribute %s" % (attrname)) def err_undead_linked_attribute(self, obj, attrname, val): """handle a link that should not be there on a deleted object""" self.report("ERROR: linked attribute '%s' to '%s' is present on " "deleted object %s" % (attrname, val, obj.dn)) if not self.confirm_all('Remove linked attribute %s' % attrname, 'fix_undead_linked_attributes'): self.report("Not removing linked attribute %s" % attrname) return m = ldb.Message() m.dn = obj.dn m['old_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_DELETE, attrname) if self.do_modify(m, ["show_recycled:1", "show_deleted:1", "reveal_internals:0", "local_oid:%s:0" % dsdb.DSDB_CONTROL_REPLMD_VANISH_LINKS], "Failed to delete forward link %s" % attrname): self.report("Fixed undead forward link %s" % (attrname)) def err_missing_backlink(self, obj, attrname, val, backlink_name, target_dn): """handle a missing backlink value""" self.report("ERROR: missing backlink attribute '%s' in %s for link %s in %s" % (backlink_name, target_dn, attrname, obj.dn)) if not self.confirm_all('Fix missing backlink %s' % backlink_name, 'fix_all_missing_backlinks'): self.report("Not fixing missing backlink %s" % backlink_name) return m = ldb.Message() m.dn = target_dn m['new_value'] = ldb.MessageElement(val, ldb.FLAG_MOD_ADD, backlink_name) if self.do_modify(m, ["show_recycled:1", "relax:0"], "Failed to fix missing backlink %s" % backlink_name): self.report("Fixed missing backlink %s" % (backlink_name)) def err_incorrect_rmd_flags(self, obj, attrname, revealed_dn): """handle a incorrect RMD_FLAGS value""" rmd_flags = int(revealed_dn.dn.get_extended_component("RMD_FLAGS")) self.report("ERROR: incorrect RMD_FLAGS value %u for attribute '%s' in %s for link %s" % (rmd_flags, attrname, obj.dn, revealed_dn.dn.extended_str())) if not self.confirm_all('Fix incorrect RMD_FLAGS %u' % rmd_flags, 'fix_rmd_flags'): self.report("Not fixing incorrect RMD_FLAGS %u" % rmd_flags) return m = ldb.Message() m.dn = obj.dn m['old_value'] = ldb.MessageElement(str(revealed_dn), ldb.FLAG_MOD_DELETE, attrname) if self.do_modify(m, ["show_recycled:1", "reveal_internals:0", "show_deleted:0"], "Failed to fix incorrect RMD_FLAGS %u" % rmd_flags): self.report("Fixed incorrect RMD_FLAGS %u" % (rmd_flags)) def err_orphaned_backlink(self, obj_dn, backlink_attr, backlink_val, target_dn, forward_attr, forward_syntax, check_duplicates=True): """handle a orphaned backlink value""" if check_duplicates is True and self.has_duplicate_links(target_dn, forward_attr, forward_syntax): self.report("WARNING: Keep orphaned backlink attribute " + "'%s' in '%s' for link '%s' in '%s'" % ( backlink_attr, obj_dn, forward_attr, target_dn)) return self.report("ERROR: orphaned backlink attribute '%s' in %s for link %s in %s" % (backlink_attr, obj_dn, forward_attr, target_dn)) if not self.confirm_all('Remove orphaned backlink %s' % backlink_attr, 'fix_all_orphaned_backlinks'): self.report("Not removing orphaned backlink %s" % backlink_attr) return m = ldb.Message() m.dn = obj_dn m['value'] = ldb.MessageElement(backlink_val, ldb.FLAG_MOD_DELETE, backlink_attr) if self.do_modify(m, ["show_recycled:1", "relax:0"], "Failed to fix orphaned backlink %s" % backlink_attr): self.report("Fixed orphaned backlink %s" % (backlink_attr)) def err_recover_forward_links(self, obj, forward_attr, forward_vals): """handle a duplicate links value""" self.report("RECHECK: 'Missing/Duplicate/Correct link' lines above for attribute '%s' in '%s'" % (forward_attr, obj.dn)) if not self.confirm_all("Commit fixes for (missing/duplicate) forward links in attribute '%s'" % forward_attr, 'recover_all_forward_links'): self.report("Not fixing corrupted (missing/duplicate) forward links in attribute '%s' of '%s'" % ( forward_attr, obj.dn)) return m = ldb.Message() m.dn = obj.dn m['value'] = ldb.MessageElement(forward_vals, ldb.FLAG_MOD_REPLACE, forward_attr) if self.do_modify(m, ["local_oid:%s:1" % dsdb.DSDB_CONTROL_DBCHECK_FIX_DUPLICATE_LINKS], "Failed to fix duplicate links in attribute '%s'" % forward_attr): self.report("Fixed duplicate links in attribute '%s'" % (forward_attr)) duplicate_cache_key = "%s:%s" % (str(obj.dn), forward_attr) assert duplicate_cache_key in self.duplicate_link_cache self.duplicate_link_cache[duplicate_cache_key] = False def err_no_fsmoRoleOwner(self, obj): """handle a missing fSMORoleOwner""" self.report("ERROR: fSMORoleOwner not found for role %s" % (obj.dn)) res = self.samdb.search("", scope=ldb.SCOPE_BASE, attrs=["dsServiceName"]) assert len(res) == 1 serviceName = str(res[0]["dsServiceName"][0]) if not self.confirm_all('Seize role %s onto current DC by adding fSMORoleOwner=%s' % (obj.dn, serviceName), 'seize_fsmo_role'): self.report("Not Seizing role %s onto current DC by adding fSMORoleOwner=%s" % (obj.dn, serviceName)) return m = ldb.Message() m.dn = obj.dn m['value'] = ldb.MessageElement(serviceName, ldb.FLAG_MOD_ADD, 'fSMORoleOwner') if self.do_modify(m, [], "Failed to seize role %s onto current DC by adding fSMORoleOwner=%s" % (obj.dn, serviceName)): self.report("Seized role %s onto current DC by adding fSMORoleOwner=%s" % (obj.dn, serviceName)) def err_missing_parent(self, obj): """handle a missing parent""" self.report("ERROR: parent object not found for %s" % (obj.dn)) if not self.confirm_all('Move object %s into LostAndFound?' % (obj.dn), 'move_to_lost_and_found'): self.report('Not moving object %s into LostAndFound' % (obj.dn)) return keep_transaction = False self.samdb.transaction_start() try: nc_root = self.samdb.get_nc_root(obj.dn) lost_and_found = self.samdb.get_wellknown_dn(nc_root, dsdb.DS_GUID_LOSTANDFOUND_CONTAINER) new_dn = ldb.Dn(self.samdb, str(obj.dn)) new_dn.remove_base_components(len(new_dn) - 1) if self.do_rename(obj.dn, new_dn, lost_and_found, ["show_deleted:0", "relax:0"], "Failed to rename object %s into lostAndFound at %s" % (obj.dn, new_dn + lost_and_found)): self.report("Renamed object %s into lostAndFound at %s" % (obj.dn, new_dn + lost_and_found)) m = ldb.Message() m.dn = obj.dn m['lastKnownParent'] = ldb.MessageElement(str(obj.dn.parent()), ldb.FLAG_MOD_REPLACE, 'lastKnownParent') if self.do_modify(m, [], "Failed to set lastKnownParent on lostAndFound object at %s" % (new_dn + lost_and_found)): self.report("Set lastKnownParent on lostAndFound object at %s" % (new_dn + lost_and_found)) keep_transaction = True except: self.samdb.transaction_cancel() raise if keep_transaction: self.samdb.transaction_commit() else: self.samdb.transaction_cancel() def err_wrong_dn(self, obj, new_dn, rdn_attr, rdn_val, name_val, controls): """handle a wrong dn""" new_rdn = ldb.Dn(self.samdb, str(new_dn)) new_rdn.remove_base_components(len(new_rdn) - 1) new_parent = new_dn.parent() attributes = "" if rdn_val != name_val: attributes += "%s=%r " % (rdn_attr, rdn_val) attributes += "name=%r" % (name_val) self.report("ERROR: wrong dn[%s] %s new_dn[%s]" % (obj.dn, attributes, new_dn)) if not self.confirm_all("Rename %s to %s?" % (obj.dn, new_dn), 'fix_dn'): self.report("Not renaming %s to %s" % (obj.dn, new_dn)) return if self.do_rename(obj.dn, new_rdn, new_parent, controls, "Failed to rename object %s into %s" % (obj.dn, new_dn)): self.report("Renamed %s into %s" % (obj.dn, new_dn)) def err_wrong_instancetype(self, obj, calculated_instancetype): """handle a wrong instanceType""" self.report("ERROR: wrong instanceType %s on %s, should be %d" % (obj["instanceType"], obj.dn, calculated_instancetype)) if not self.confirm_all('Change instanceType from %s to %d on %s?' % (obj["instanceType"], calculated_instancetype, obj.dn), 'fix_instancetype'): self.report('Not changing instanceType from %s to %d on %s' % (obj["instanceType"], calculated_instancetype, obj.dn)) return m = ldb.Message() m.dn = obj.dn m['value'] = ldb.MessageElement(str(calculated_instancetype), ldb.FLAG_MOD_REPLACE, 'instanceType') if self.do_modify(m, ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK_MODIFY_RO_REPLICA], "Failed to correct missing instanceType on %s by setting instanceType=%d" % (obj.dn, calculated_instancetype)): self.report("Corrected instancetype on %s by setting instanceType=%d" % (obj.dn, calculated_instancetype)) def err_short_userParameters(self, obj, attrname, value): # This is a truncated userParameters due to a pre 4.1 replication bug self.report("ERROR: incorrect userParameters value on object %s. If you have another working DC that does not give this warning, please run 'samba-tool drs replicate --full-sync --local %s'" % (obj.dn, self.samdb.get_nc_root(obj.dn))) def err_base64_userParameters(self, obj, attrname, value): """handle a userParameters that is wrongly base64 encoded""" self.report("ERROR: wrongly formatted userParameters %s on %s, should not be base64-encoded" % (value, obj.dn)) if not self.confirm_all('Convert userParameters from base64 encoding on %s?' % (obj.dn), 'fix_base64_userparameters'): self.report('Not changing userParameters from base64 encoding on %s' % (obj.dn)) return m = ldb.Message() m.dn = obj.dn m['value'] = ldb.MessageElement(b64decode(obj[attrname][0]), ldb.FLAG_MOD_REPLACE, 'userParameters') if self.do_modify(m, [], "Failed to correct base64-encoded userParameters on %s by converting from base64" % (obj.dn)): self.report("Corrected base64-encoded userParameters on %s by converting from base64" % (obj.dn)) def err_utf8_userParameters(self, obj, attrname, value): """handle a userParameters that is wrongly utf-8 encoded""" self.report("ERROR: wrongly formatted userParameters on %s, " "should not be pseudo-UTF8 encoded" % (obj.dn)) if not self.confirm_all('Convert userParameters from UTF8 encoding on %s?' % (obj.dn), 'fix_utf8_userparameters'): self.report('Not changing userParameters from UTF8 encoding on %s' % (obj.dn)) return m = ldb.Message() m.dn = obj.dn m['value'] = ldb.MessageElement(obj[attrname][0].decode('utf8').encode('utf-16-le'), ldb.FLAG_MOD_REPLACE, 'userParameters') if self.do_modify(m, [], "Failed to correct psudo-UTF8 encoded userParameters on %s by converting from UTF8" % (obj.dn)): self.report("Corrected psudo-UTF8 encoded userParameters on %s by converting from UTF8" % (obj.dn)) def err_doubled_userParameters(self, obj, attrname, value): """handle a userParameters that has been utf-16 encoded twice""" self.report("ERROR: wrongly formatted userParameters on %s, should not be double UTF16 encoded" % (obj.dn)) if not self.confirm_all('Convert userParameters from doubled UTF-16 encoding on %s?' % (obj.dn), 'fix_doubled_userparameters'): self.report('Not changing userParameters from doubled UTF-16 encoding on %s' % (obj.dn)) return m = ldb.Message() m.dn = obj.dn # m['value'] = ldb.MessageElement(obj[attrname][0].decode('utf-16-le').decode('utf-16-le').encode('utf-16-le'), # hmm the above old python2 code doesn't make sense to me and cannot # work in python3 because a string doesn't have a decode method. # However in python2 for some unknown reason this double decode # followed by encode seems to result in what looks like utf8. # In python2 just .decode('utf-16-le').encode('utf-16-le') does nothing # but trigger the 'double UTF16 encoded' condition again :/ # # In python2 and python3 value.decode('utf-16-le').encode('utf8') seems # to do the trick and work as expected. m['value'] = ldb.MessageElement(obj[attrname][0].decode('utf-16-le').encode('utf8'), ldb.FLAG_MOD_REPLACE, 'userParameters') if self.do_modify(m, [], "Failed to correct doubled-UTF16 encoded userParameters on %s by converting" % (obj.dn)): self.report("Corrected doubled-UTF16 encoded userParameters on %s by converting" % (obj.dn)) def err_odd_userParameters(self, obj, attrname): """Fix a truncated userParameters due to a pre 4.1 replication bug""" self.report("ERROR: incorrect userParameters value on object %s (odd length). If you have another working DC that does not give this warning, please run 'samba-tool drs replicate --full-sync --local %s'" % (obj.dn, self.samdb.get_nc_root(obj.dn))) def find_revealed_link(self, dn, attrname, guid): """return a revealed link in an object""" res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=[attrname], controls=["show_deleted:0", "extended_dn:0", "reveal_internals:0"]) syntax_oid = self.samdb_schema.get_syntax_oid_from_lDAPDisplayName(attrname) for val in res[0][attrname]: dsdb_dn = dsdb_Dn(self.samdb, val.decode('utf8'), syntax_oid) guid2 = dsdb_dn.dn.get_extended_component("GUID") if guid == guid2: return dsdb_dn return None def check_duplicate_links(self, obj, forward_attr, forward_syntax, forward_linkID, backlink_attr): """check a linked values for duplicate forward links""" error_count = 0 duplicate_dict = dict() unique_dict = dict() # Only forward links can have this problem if forward_linkID & 1: # If we got the reverse, skip it return (error_count, duplicate_dict, unique_dict) if backlink_attr is None: return (error_count, duplicate_dict, unique_dict) duplicate_cache_key = "%s:%s" % (str(obj.dn), forward_attr) if duplicate_cache_key not in self.duplicate_link_cache: self.duplicate_link_cache[duplicate_cache_key] = False for val in obj[forward_attr]: dsdb_dn = dsdb_Dn(self.samdb, val.decode('utf8'), forward_syntax) # all DNs should have a GUID component guid = dsdb_dn.dn.get_extended_component("GUID") if guid is None: continue guidstr = str(misc.GUID(guid)) keystr = guidstr + dsdb_dn.prefix if keystr not in unique_dict: unique_dict[keystr] = dsdb_dn continue error_count += 1 if keystr not in duplicate_dict: duplicate_dict[keystr] = dict() duplicate_dict[keystr]["keep"] = None duplicate_dict[keystr]["delete"] = list() # Now check for the highest RMD_VERSION v1 = int(unique_dict[keystr].dn.get_extended_component("RMD_VERSION")) v2 = int(dsdb_dn.dn.get_extended_component("RMD_VERSION")) if v1 > v2: duplicate_dict[keystr]["keep"] = unique_dict[keystr] duplicate_dict[keystr]["delete"].append(dsdb_dn) continue if v1 < v2: duplicate_dict[keystr]["keep"] = dsdb_dn duplicate_dict[keystr]["delete"].append(unique_dict[keystr]) unique_dict[keystr] = dsdb_dn continue # Fallback to the highest RMD_LOCAL_USN u1 = int(unique_dict[keystr].dn.get_extended_component("RMD_LOCAL_USN")) u2 = int(dsdb_dn.dn.get_extended_component("RMD_LOCAL_USN")) if u1 >= u2: duplicate_dict[keystr]["keep"] = unique_dict[keystr] duplicate_dict[keystr]["delete"].append(dsdb_dn) continue duplicate_dict[keystr]["keep"] = dsdb_dn duplicate_dict[keystr]["delete"].append(unique_dict[keystr]) unique_dict[keystr] = dsdb_dn if error_count != 0: self.duplicate_link_cache[duplicate_cache_key] = True return (error_count, duplicate_dict, unique_dict) def has_duplicate_links(self, dn, forward_attr, forward_syntax): """check a linked values for duplicate forward links""" error_count = 0 duplicate_cache_key = "%s:%s" % (str(dn), forward_attr) if duplicate_cache_key in self.duplicate_link_cache: return self.duplicate_link_cache[duplicate_cache_key] forward_linkID, backlink_attr = self.get_attr_linkID_and_reverse_name(forward_attr) attrs = [forward_attr] controls = ["extended_dn:1:1", "reveal_internals:0"] # check its the right GUID try: res = self.samdb.search(base=str(dn), scope=ldb.SCOPE_BASE, attrs=attrs, controls=controls) except ldb.LdbError as e8: (enum, estr) = e8.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise return False obj = res[0] error_count, duplicate_dict, unique_dict = \ self.check_duplicate_links(obj, forward_attr, forward_syntax, forward_linkID, backlink_attr) if duplicate_cache_key in self.duplicate_link_cache: return self.duplicate_link_cache[duplicate_cache_key] return False def find_missing_forward_links_from_backlinks(self, obj, forward_attr, forward_syntax, backlink_attr, forward_unique_dict): """Find all backlinks linking to obj_guid_str not already in forward_unique_dict""" missing_forward_links = [] error_count = 0 if backlink_attr is None: return (missing_forward_links, error_count) if forward_syntax != ldb.SYNTAX_DN: self.report("Not checking for missing forward links for syntax: %s" % forward_syntax) return (missing_forward_links, error_count) if "sortedLinks" in self.compatibleFeatures: self.report("Not checking for missing forward links because the db " + "has the sortedLinks feature") return (missing_forward_links, error_count) try: obj_guid = obj['objectGUID'][0] obj_guid_str = str(ndr_unpack(misc.GUID, obj_guid)) filter = "(%s=)" % (backlink_attr, obj_guid_str) res = self.samdb.search(expression=filter, scope=ldb.SCOPE_SUBTREE, attrs=["objectGUID"], controls=["extended_dn:1:1", "search_options:1:2", "paged_results:1:1000"]) except ldb.LdbError as e9: (enum, estr) = e9.args raise for r in res: target_dn = dsdb_Dn(self.samdb, r.dn.extended_str(), forward_syntax) guid = target_dn.dn.get_extended_component("GUID") guidstr = str(misc.GUID(guid)) if guidstr in forward_unique_dict: continue # A valid forward link looks like this: # # ; # ; # ; # ; # ; # ; # ; # ; # ; # CN=unsorted-u8,CN=Users,DC=release-4-5-0-pre1,DC=samba,DC=corp # # Note that versions older than Samba 4.8 create # links with RMD_VERSION=0. # # Try to get the local_usn and time from objectClass # if possible and fallback to any other one. repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, obj['replPropertyMetadata'][0]) for o in repl.ctr.array: local_usn = o.local_usn t = o.originating_change_time if o.attid == drsuapi.DRSUAPI_ATTID_objectClass: break # We use a magic invocationID for restoring missing # forward links to recover from bug #13228. # This should allow some more future magic to fix the # problem. # # It also means it looses the conflict resolution # against almost every real invocation, if the # version is also 0. originating_invocid = misc.GUID("ffffffff-4700-4700-4700-000000b13228") originating_usn = 1 rmd_addtime = t rmd_changetime = t rmd_flags = 0 rmd_invocid = originating_invocid rmd_originating_usn = originating_usn rmd_local_usn = local_usn rmd_version = 0 target_dn.dn.set_extended_component("RMD_ADDTIME", str(rmd_addtime)) target_dn.dn.set_extended_component("RMD_CHANGETIME", str(rmd_changetime)) target_dn.dn.set_extended_component("RMD_FLAGS", str(rmd_flags)) target_dn.dn.set_extended_component("RMD_INVOCID", ndr_pack(rmd_invocid)) target_dn.dn.set_extended_component("RMD_ORIGINATING_USN", str(rmd_originating_usn)) target_dn.dn.set_extended_component("RMD_LOCAL_USN", str(rmd_local_usn)) target_dn.dn.set_extended_component("RMD_VERSION", str(rmd_version)) error_count += 1 missing_forward_links.append(target_dn) return (missing_forward_links, error_count) def check_dn(self, obj, attrname, syntax_oid): """check a DN attribute for correctness""" error_count = 0 obj_guid = obj['objectGUID'][0] linkID, reverse_link_name = self.get_attr_linkID_and_reverse_name(attrname) if reverse_link_name is not None: reverse_syntax_oid = self.samdb_schema.get_syntax_oid_from_lDAPDisplayName(reverse_link_name) else: reverse_syntax_oid = None is_member_link = attrname in ("member", "memberOf") if is_member_link and self.quick_membership_checks: duplicate_dict = {} else: error_count, duplicate_dict, unique_dict = \ self.check_duplicate_links(obj, attrname, syntax_oid, linkID, reverse_link_name) if len(duplicate_dict) != 0: missing_forward_links, missing_error_count = \ self.find_missing_forward_links_from_backlinks(obj, attrname, syntax_oid, reverse_link_name, unique_dict) error_count += missing_error_count forward_links = [dn for dn in unique_dict.values()] if missing_error_count != 0: self.report("ERROR: Missing and duplicate forward link values for attribute '%s' in '%s'" % ( attrname, obj.dn)) else: self.report("ERROR: Duplicate forward link values for attribute '%s' in '%s'" % (attrname, obj.dn)) for m in missing_forward_links: self.report("Missing link '%s'" % (m)) if not self.confirm_all("Schedule re-adding missing forward link for attribute %s" % attrname, 'fix_all_missing_forward_links'): self.err_orphaned_backlink(m.dn, reverse_link_name, obj.dn.extended_str(), obj.dn, attrname, syntax_oid, check_duplicates=False) continue forward_links += [m] for keystr in duplicate_dict.keys(): d = duplicate_dict[keystr] for dd in d["delete"]: self.report("Duplicate link '%s'" % dd) self.report("Correct link '%s'" % d["keep"]) # We now construct the sorted dn values. # They're sorted by the objectGUID of the target # See dsdb_Dn.__cmp__() vals = [str(dn) for dn in sorted(forward_links)] self.err_recover_forward_links(obj, attrname, vals) # We should continue with the fixed values obj[attrname] = ldb.MessageElement(vals, 0, attrname) for val in obj[attrname]: dsdb_dn = dsdb_Dn(self.samdb, val.decode('utf8'), syntax_oid) # all DNs should have a GUID component guid = dsdb_dn.dn.get_extended_component("GUID") if guid is None: error_count += 1 self.err_missing_dn_GUID_component(obj.dn, attrname, val, dsdb_dn, "missing GUID") continue guidstr = str(misc.GUID(guid)) attrs = ['isDeleted', 'replPropertyMetaData'] if (str(attrname).lower() == 'msds-hasinstantiatedncs') and (obj.dn == self.ntds_dsa): fixing_msDS_HasInstantiatedNCs = True attrs.append("instanceType") else: fixing_msDS_HasInstantiatedNCs = False if reverse_link_name is not None: attrs.append(reverse_link_name) # check its the right GUID try: res = self.samdb.search(base="" % guidstr, scope=ldb.SCOPE_BASE, attrs=attrs, controls=["extended_dn:1:1", "show_recycled:1", "reveal_internals:0" ]) except ldb.LdbError as e3: (enum, estr) = e3.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise # We don't always want to error_count += self.err_missing_target_dn_or_GUID(obj.dn, attrname, val, dsdb_dn) continue if fixing_msDS_HasInstantiatedNCs: dsdb_dn.prefix = "B:8:%08X:" % int(res[0]['instanceType'][0]) dsdb_dn.binary = "%08X" % int(res[0]['instanceType'][0]) if str(dsdb_dn) != str(val): error_count += 1 self.err_incorrect_binary_dn(obj.dn, attrname, val, dsdb_dn, "incorrect instanceType part of Binary DN") continue # now we have two cases - the source object might or might not be deleted is_deleted = 'isDeleted' in obj and str(obj['isDeleted'][0]).upper() == 'TRUE' target_is_deleted = 'isDeleted' in res[0] and str(res[0]['isDeleted'][0]).upper() == 'TRUE' if is_deleted and obj.dn not in self.deleted_objects_containers and linkID: # A fully deleted object should not have any linked # attributes. (MS-ADTS 3.1.1.5.5.1.1 Tombstone # Requirements and 3.1.1.5.5.1.3 Recycled-Object # Requirements) self.err_undead_linked_attribute(obj, attrname, val) error_count += 1 continue elif target_is_deleted and not self.is_deleted_objects_dn(dsdb_dn) and linkID: # the target DN is not allowed to be deleted, unless the target DN is the # special Deleted Objects container error_count += 1 local_usn = dsdb_dn.dn.get_extended_component("RMD_LOCAL_USN") if local_usn: if 'replPropertyMetaData' in res[0]: repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, res[0]['replPropertyMetadata'][0]) found_data = False for o in repl.ctr.array: if o.attid == drsuapi.DRSUAPI_ATTID_isDeleted: deleted_usn = o.local_usn if deleted_usn >= int(local_usn): # If the object was deleted after the link # was last modified then, clean it up here found_data = True break if found_data: self.err_deleted_dn(obj.dn, attrname, val, dsdb_dn, res[0].dn, True) continue self.err_deleted_dn(obj.dn, attrname, val, dsdb_dn, res[0].dn, False) continue # We should not check for incorrect # components on deleted links, as these are allowed to # go stale (we just need the GUID, not the name) rmd_blob = dsdb_dn.dn.get_extended_component("RMD_FLAGS") rmd_flags = 0 if rmd_blob is not None: rmd_flags = int(rmd_blob) # assert the DN matches in string form, where a reverse # link exists, otherwise (below) offer to fix it as a non-error. # The string form is essentially only kept for forensics, # as we always re-resolve by GUID in normal operations. if not rmd_flags & 1 and reverse_link_name is not None: if str(res[0].dn) != str(dsdb_dn.dn): error_count += 1 self.err_dn_component_target_mismatch(obj.dn, attrname, val, dsdb_dn, res[0].dn, "string") continue if res[0].dn.get_extended_component("GUID") != dsdb_dn.dn.get_extended_component("GUID"): error_count += 1 self.err_dn_component_target_mismatch(obj.dn, attrname, val, dsdb_dn, res[0].dn, "GUID") continue target_sid = res[0].dn.get_extended_component("SID") link_sid = dsdb_dn.dn.get_extended_component("SID") if link_sid is None and target_sid is not None: error_count += 1 self.err_dn_component_missing_target_sid(obj.dn, attrname, val, dsdb_dn, target_sid) continue if link_sid != target_sid: error_count += 1 self.err_dn_component_target_mismatch(obj.dn, attrname, val, dsdb_dn, res[0].dn, "SID") continue # Only for non-links, not even forward-only links # (otherwise this breaks repl_meta_data): # # Now we have checked the GUID and SID, offer to fix old # DN strings as a non-error (DNs, not links so no # backlink). Samba does not maintain this string # otherwise, so we don't increment error_count. if reverse_link_name is None: if linkID == 0 and str(res[0].dn) != str(dsdb_dn.dn): # Pass in the old/bad DN without the part, # otherwise the LDB code will correct it on the way through # (Note: we still want to preserve the DSDB DN prefix in the # case of binary DNs) bad_dn = dsdb_dn.prefix + dsdb_dn.dn.get_linearized() self.err_dn_string_component_old(obj.dn, attrname, bad_dn, dsdb_dn, res[0].dn) continue if is_member_link and self.quick_membership_checks: continue # check the reverse_link is correct if there should be one match_count = 0 if reverse_link_name in res[0]: for v in res[0][reverse_link_name]: v_dn = dsdb_Dn(self.samdb, v.decode('utf8')) v_guid = v_dn.dn.get_extended_component("GUID") v_blob = v_dn.dn.get_extended_component("RMD_FLAGS") v_rmd_flags = 0 if v_blob is not None: v_rmd_flags = int(v_blob) if v_rmd_flags & 1: continue if v_guid == obj_guid: match_count += 1 if match_count != 1: if syntax_oid == dsdb.DSDB_SYNTAX_BINARY_DN or reverse_syntax_oid == dsdb.DSDB_SYNTAX_BINARY_DN: if not linkID & 1: # Forward binary multi-valued linked attribute forward_count = 0 for w in obj[attrname]: w_guid = dsdb_Dn(self.samdb, w.decode('utf8')).dn.get_extended_component("GUID") if w_guid == guid: forward_count += 1 if match_count == forward_count: continue expected_count = 0 for v in obj[attrname]: v_dn = dsdb_Dn(self.samdb, v.decode('utf8')) v_guid = v_dn.dn.get_extended_component("GUID") v_blob = v_dn.dn.get_extended_component("RMD_FLAGS") v_rmd_flags = 0 if v_blob is not None: v_rmd_flags = int(v_blob) if v_rmd_flags & 1: continue if v_guid == guid: expected_count += 1 if match_count == expected_count: continue diff_count = expected_count - match_count if linkID & 1: # If there's a backward link on binary multi-valued linked attribute, # let the check on the forward link remedy the value. # UNLESS, there is no forward link detected. if match_count == 0: error_count += 1 self.err_orphaned_backlink(obj.dn, attrname, val, dsdb_dn.dn, reverse_link_name, reverse_syntax_oid) continue # Only warn here and let the forward link logic fix it. self.report("WARNING: Link (back) mismatch for '%s' (%d) on '%s' to '%s' (%d) on '%s'" % ( attrname, expected_count, str(obj.dn), reverse_link_name, match_count, str(dsdb_dn.dn))) continue assert not target_is_deleted self.report("ERROR: Link (forward) mismatch for '%s' (%d) on '%s' to '%s' (%d) on '%s'" % ( attrname, expected_count, str(obj.dn), reverse_link_name, match_count, str(dsdb_dn.dn))) # Loop until the difference between the forward and # the backward links is resolved. while diff_count != 0: error_count += 1 if diff_count > 0: if match_count > 0 or diff_count > 1: # TODO no method to fix these right now self.report("ERROR: Can't fix missing " "multi-valued backlinks on %s" % str(dsdb_dn.dn)) break self.err_missing_backlink(obj, attrname, obj.dn.extended_str(), reverse_link_name, dsdb_dn.dn) diff_count -= 1 else: self.err_orphaned_backlink(res[0].dn, reverse_link_name, obj.dn.extended_str(), obj.dn, attrname, syntax_oid) diff_count += 1 return error_count def find_repl_attid(self, repl, attid): for o in repl.ctr.array: if o.attid == attid: return o return None def get_originating_time(self, val, attid): """Read metadata properties and return the originating time for a given attributeId. :return: the originating time or 0 if not found """ repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, val) o = self.find_repl_attid(repl, attid) if o is not None: return o.originating_change_time return 0 def process_metadata(self, dn, val): """Read metadata properties and list attributes in it. raises KeyError if the attid is unknown.""" set_att = set() wrong_attids = set() list_attid = [] in_schema_nc = dn.is_child_of(self.schema_dn) repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, val) for o in repl.ctr.array: att = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) set_att.add(att.lower()) list_attid.append(o.attid) correct_attid = self.samdb_schema.get_attid_from_lDAPDisplayName(att, is_schema_nc=in_schema_nc) if correct_attid != o.attid: wrong_attids.add(o.attid) return (set_att, list_attid, wrong_attids) def fix_metadata(self, obj, attr): """re-write replPropertyMetaData elements for a single attribute for a object. This is used to fix missing replPropertyMetaData elements""" guid_str = str(ndr_unpack(misc.GUID, obj['objectGUID'][0])) dn = ldb.Dn(self.samdb, "" % guid_str) res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=[attr], controls=["search_options:1:2", "show_recycled:1"]) msg = res[0] nmsg = ldb.Message() nmsg.dn = dn nmsg[attr] = ldb.MessageElement(msg[attr], ldb.FLAG_MOD_REPLACE, attr) if self.do_modify(nmsg, ["relax:0", "provision:0", "show_recycled:1"], "Failed to fix metadata for attribute %s" % attr): self.report("Fixed metadata for attribute %s" % attr) def ace_get_effective_inherited_type(self, ace): if ace.flags & security.SEC_ACE_FLAG_INHERIT_ONLY: return None check = False if ace.type == security.SEC_ACE_TYPE_ACCESS_ALLOWED_OBJECT: check = True elif ace.type == security.SEC_ACE_TYPE_ACCESS_DENIED_OBJECT: check = True elif ace.type == security.SEC_ACE_TYPE_SYSTEM_AUDIT_OBJECT: check = True elif ace.type == security.SEC_ACE_TYPE_SYSTEM_ALARM_OBJECT: check = True if not check: return None if not ace.object.flags & security.SEC_ACE_INHERITED_OBJECT_TYPE_PRESENT: return None return str(ace.object.inherited_type) def lookup_class_schemaIDGUID(self, cls): if cls in self.class_schemaIDGUID: return self.class_schemaIDGUID[cls] flt = "(&(ldapDisplayName=%s)(objectClass=classSchema))" % cls res = self.samdb.search(base=self.schema_dn, expression=flt, attrs=["schemaIDGUID"]) t = str(ndr_unpack(misc.GUID, res[0]["schemaIDGUID"][0])) self.class_schemaIDGUID[cls] = t return t def process_sd(self, dn, obj): sd_attr = "nTSecurityDescriptor" sd_val = obj[sd_attr] sd = ndr_unpack(security.descriptor, sd_val[0]) is_deleted = 'isDeleted' in obj and str(obj['isDeleted'][0]).upper() == 'TRUE' if is_deleted: # we don't fix deleted objects return (sd, None) sd_clean = security.descriptor() sd_clean.owner_sid = sd.owner_sid sd_clean.group_sid = sd.group_sid sd_clean.type = sd.type sd_clean.revision = sd.revision broken = False last_inherited_type = None aces = [] if sd.sacl is not None: aces = sd.sacl.aces for i in range(0, len(aces)): ace = aces[i] if not ace.flags & security.SEC_ACE_FLAG_INHERITED_ACE: sd_clean.sacl_add(ace) continue t = self.ace_get_effective_inherited_type(ace) if t is None: continue if last_inherited_type is not None: if t != last_inherited_type: # if it inherited from more than # one type it's very likely to be broken # # If not the recalculation will calculate # the same result. broken = True continue last_inherited_type = t aces = [] if sd.dacl is not None: aces = sd.dacl.aces for i in range(0, len(aces)): ace = aces[i] if not ace.flags & security.SEC_ACE_FLAG_INHERITED_ACE: sd_clean.dacl_add(ace) continue t = self.ace_get_effective_inherited_type(ace) if t is None: continue if last_inherited_type is not None: if t != last_inherited_type: # if it inherited from more than # one type it's very likely to be broken # # If not the recalculation will calculate # the same result. broken = True continue last_inherited_type = t if broken: return (sd_clean, sd) if last_inherited_type is None: # ok return (sd, None) cls = None try: cls = obj["objectClass"][-1] except KeyError as e: pass if cls is None: res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=["isDeleted", "objectClass"], controls=["show_recycled:1"]) o = res[0] is_deleted = 'isDeleted' in o and str(o['isDeleted'][0]).upper() == 'TRUE' if is_deleted: # we don't fix deleted objects return (sd, None) cls = o["objectClass"][-1] t = self.lookup_class_schemaIDGUID(cls) if t != last_inherited_type: # broken return (sd_clean, sd) # ok return (sd, None) def err_wrong_sd(self, dn, sd, sd_broken): """re-write the SD due to incorrect inherited ACEs""" sd_attr = "nTSecurityDescriptor" sd_val = ndr_pack(sd) sd_flags = security.SECINFO_DACL | security.SECINFO_SACL if not self.confirm_all('Fix %s on %s?' % (sd_attr, dn), 'fix_ntsecuritydescriptor'): self.report('Not fixing %s on %s\n' % (sd_attr, dn)) return nmsg = ldb.Message() nmsg.dn = dn nmsg[sd_attr] = ldb.MessageElement(sd_val, ldb.FLAG_MOD_REPLACE, sd_attr) if self.do_modify(nmsg, ["sd_flags:1:%d" % sd_flags], "Failed to fix attribute %s" % sd_attr): self.report("Fixed attribute '%s' of '%s'\n" % (sd_attr, dn)) def err_wrong_default_sd(self, dn, sd, diff): """re-write the SD due to not matching the default (optional mode for fixing an incorrect provision)""" sd_attr = "nTSecurityDescriptor" sd_val = ndr_pack(sd) sd_flags = security.SECINFO_DACL | security.SECINFO_SACL if sd.owner_sid is not None: sd_flags |= security.SECINFO_OWNER if sd.group_sid is not None: sd_flags |= security.SECINFO_GROUP if not self.confirm_all('Reset %s on %s back to provision default?\n%s' % (sd_attr, dn, diff), 'reset_all_well_known_acls'): self.report('Not resetting %s on %s\n' % (sd_attr, dn)) return m = ldb.Message() m.dn = dn m[sd_attr] = ldb.MessageElement(sd_val, ldb.FLAG_MOD_REPLACE, sd_attr) if self.do_modify(m, ["sd_flags:1:%d" % sd_flags], "Failed to reset attribute %s" % sd_attr): self.report("Fixed attribute '%s' of '%s'\n" % (sd_attr, dn)) def err_missing_sd_owner(self, dn, sd): """re-write the SD due to a missing owner or group""" sd_attr = "nTSecurityDescriptor" sd_val = ndr_pack(sd) sd_flags = security.SECINFO_OWNER | security.SECINFO_GROUP if not self.confirm_all('Fix missing owner or group in %s on %s?' % (sd_attr, dn), 'fix_ntsecuritydescriptor_owner_group'): self.report('Not fixing missing owner or group %s on %s\n' % (sd_attr, dn)) return nmsg = ldb.Message() nmsg.dn = dn nmsg[sd_attr] = ldb.MessageElement(sd_val, ldb.FLAG_MOD_REPLACE, sd_attr) # By setting the session_info to admin_session_info and # setting the security.SECINFO_OWNER | security.SECINFO_GROUP # flags we cause the descriptor module to set the correct # owner and group on the SD, replacing the None/NULL values # for owner_sid and group_sid currently present. # # The admin_session_info matches that used in provision, and # is the best guess we can make for an existing object that # hasn't had something specifically set. # # This is important for the dns related naming contexts. self.samdb.set_session_info(self.admin_session_info) if self.do_modify(nmsg, ["sd_flags:1:%d" % sd_flags], "Failed to fix metadata for attribute %s" % sd_attr): self.report("Fixed attribute '%s' of '%s'\n" % (sd_attr, dn)) self.samdb.set_session_info(self.system_session_info) def is_expired_tombstone(self, dn, repl_val): if self.check_expired_tombstones: # This is not the default, it's just # used to keep dbcheck tests work with # old static provision dumps return False if dn in self.deleted_objects_containers: # The Deleted Objects container will look like an expired # tombstone return False repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_val) isDeleted = self.find_repl_attid(repl, drsuapi.DRSUAPI_ATTID_isDeleted) delete_time = samba.nttime2unix(isDeleted.originating_change_time) current_time = time.time() tombstone_delta = self.tombstoneLifetime * (24 * 60 * 60) delta = current_time - delete_time if delta <= tombstone_delta: return False expunge_time = delete_time + tombstone_delta delta_days = delta / (24 * 60 * 60) if delta_days <= 2: self.report("SKIPPING additional checks on object " "%s which very recently " "became an expired tombstone (normal)" % dn) self.report("INFO: it is expected this will be expunged " "by the next daily task some time after %s, " "%d hours ago" % (time.ctime(expunge_time), delta // (60 * 60))) else: self.report("SKIPPING: object %s is an expired tombstone" % dn) self.report("INFO: it was expected this object would have " "been expunged soon after" "%s, %d days ago" % (time.ctime(expunge_time), delta_days)) self.report("isDeleted: attid=0x%08x version=%d invocation=%s usn=%s (local=%s) at %s" % ( isDeleted.attid, isDeleted.version, isDeleted.originating_invocation_id, isDeleted.originating_usn, isDeleted.local_usn, time.ctime(samba.nttime2unix(isDeleted.originating_change_time)))) self.expired_tombstones += 1 return True def find_changes_after_deletion(self, repl_val): repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_val) isDeleted = self.find_repl_attid(repl, drsuapi.DRSUAPI_ATTID_isDeleted) delete_time = samba.nttime2unix(isDeleted.originating_change_time) tombstone_delta = self.tombstoneLifetime * (24 * 60 * 60) found = [] for o in repl.ctr.array: if o.attid == drsuapi.DRSUAPI_ATTID_isDeleted: continue if o.local_usn <= isDeleted.local_usn: continue if o.originating_change_time <= isDeleted.originating_change_time: continue change_time = samba.nttime2unix(o.originating_change_time) delta = change_time - delete_time if delta <= tombstone_delta: continue # If the modification happened after the tombstone lifetime # has passed, we have a bug as the object might be deleted # already on other DCs and won't be able to replicate # back found.append(o) return found, isDeleted def has_changes_after_deletion(self, dn, repl_val): found, isDeleted = self.find_changes_after_deletion(repl_val) if len(found) == 0: return False def report_attid(o): try: attname = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) except KeyError: attname = "" % o.attid self.report("%s: attid=0x%08x version=%d invocation=%s usn=%s (local=%s) at %s" % ( attname, o.attid, o.version, o.originating_invocation_id, o.originating_usn, o.local_usn, time.ctime(samba.nttime2unix(o.originating_change_time)))) self.report("ERROR: object %s, has changes after deletion" % dn) report_attid(isDeleted) for o in found: report_attid(o) return True def err_changes_after_deletion(self, dn, repl_val): found, isDeleted = self.find_changes_after_deletion(repl_val) in_schema_nc = dn.is_child_of(self.schema_dn) rdn_attr = dn.get_rdn_name() rdn_attid = self.samdb_schema.get_attid_from_lDAPDisplayName(rdn_attr, is_schema_nc=in_schema_nc) unexpected = [] for o in found: if o.attid == rdn_attid: continue if o.attid == drsuapi.DRSUAPI_ATTID_name: continue if o.attid == drsuapi.DRSUAPI_ATTID_lastKnownParent: continue try: attname = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) except KeyError: attname = "" % o.attid unexpected.append(attname) if len(unexpected) > 0: self.report('Unexpeted attributes: %s' % ",".join(unexpected)) self.report('Not fixing changes after deletion bug') return if not self.confirm_all('Delete broken tombstone object %s deleted %s days ago?' % ( dn, self.tombstoneLifetime), 'fix_changes_after_deletion_bug'): self.report('Not fixing changes after deletion bug') return if self.do_delete(dn, ["relax:0"], "Failed to remove DN %s" % dn): self.report("Removed DN %s" % dn) def has_replmetadata_zero_invocationid(self, dn, repl_meta_data): repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_meta_data) ctr = repl.ctr found = False for o in ctr.array: # Search for a zero invocationID if o.originating_invocation_id != misc.GUID("00000000-0000-0000-0000-000000000000"): continue found = True self.report("""ERROR: on replPropertyMetaData of %s, the instanceType on attribute 0x%08x, version %d changed at %s is 00000000-0000-0000-0000-000000000000, but should be non-zero. Proposed fix is to set to our invocationID (%s).""" % (dn, o.attid, o.version, time.ctime(samba.nttime2unix(o.originating_change_time)), self.samdb.get_invocation_id())) return found def err_replmetadata_zero_invocationid(self, dn, attr, repl_meta_data): repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_meta_data) ctr = repl.ctr now = samba.unix2nttime(int(time.time())) found = False for o in ctr.array: # Search for a zero invocationID if o.originating_invocation_id != misc.GUID("00000000-0000-0000-0000-000000000000"): continue found = True seq = self.samdb.sequence_number(ldb.SEQ_NEXT) o.version = o.version + 1 o.originating_change_time = now o.originating_invocation_id = misc.GUID(self.samdb.get_invocation_id()) o.originating_usn = seq o.local_usn = seq if found: replBlob = ndr_pack(repl) msg = ldb.Message() msg.dn = dn if not self.confirm_all('Fix %s on %s by setting originating_invocation_id on some elements to our invocationID %s?' % (attr, dn, self.samdb.get_invocation_id()), 'fix_replmetadata_zero_invocationid'): self.report('Not fixing zero originating_invocation_id in %s on %s\n' % (attr, dn)) return nmsg = ldb.Message() nmsg.dn = dn nmsg[attr] = ldb.MessageElement(replBlob, ldb.FLAG_MOD_REPLACE, attr) if self.do_modify(nmsg, ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK_MODIFY_RO_REPLICA, "local_oid:1.3.6.1.4.1.7165.4.3.14:0"], "Failed to fix attribute %s" % attr): self.report("Fixed attribute '%s' of '%s'\n" % (attr, dn)) def err_replmetadata_unknown_attid(self, dn, attr, repl_meta_data): repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_meta_data) ctr = repl.ctr for o in ctr.array: # Search for an invalid attid try: att = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) except KeyError: self.report('ERROR: attributeID 0X%0X is not known in our schema, not fixing %s on %s\n' % (o.attid, attr, dn)) return def err_replmetadata_incorrect_attid(self, dn, attr, repl_meta_data, wrong_attids): repl = ndr_unpack(drsblobs.replPropertyMetaDataBlob, repl_meta_data) fix = False set_att = set() remove_attid = set() hash_att = {} in_schema_nc = dn.is_child_of(self.schema_dn) ctr = repl.ctr # Sort the array, except for the last element. This strange # construction, creating a new list, due to bugs in samba's # array handling in IDL generated objects. ctr.array = sorted(ctr.array[:], key=lambda o: o.attid) # Now walk it in reverse, so we see the low (and so incorrect, # the correct values are above 0x80000000) values first and # remove the 'second' value we see. for o in reversed(ctr.array): print("%s: 0x%08x" % (dn, o.attid)) att = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) if att.lower() in set_att: self.report('ERROR: duplicate attributeID values for %s in %s on %s\n' % (att, attr, dn)) if not self.confirm_all('Fix %s on %s by removing the duplicate value 0x%08x for %s (keeping 0x%08x)?' % (attr, dn, o.attid, att, hash_att[att].attid), 'fix_replmetadata_duplicate_attid'): self.report('Not fixing duplicate value 0x%08x for %s in %s on %s\n' % (o.attid, att, attr, dn)) return fix = True remove_attid.add(o.attid) # We want to set the metadata for the most recent # update to have been applied locally, that is the metadata # matching the (eg string) value in the attribute if o.local_usn > hash_att[att].local_usn: # This is always what we would have sent over DRS, # because the DRS server will have sent the # msDS-IntID, but with the values from both # attribute entries. hash_att[att].version = o.version hash_att[att].originating_change_time = o.originating_change_time hash_att[att].originating_invocation_id = o.originating_invocation_id hash_att[att].originating_usn = o.originating_usn hash_att[att].local_usn = o.local_usn # Do not re-add the value to the set or overwrite the hash value continue hash_att[att] = o set_att.add(att.lower()) # Generate a real list we can sort on properly new_list = [o for o in ctr.array if o.attid not in remove_attid] if (len(wrong_attids) > 0): for o in new_list: if o.attid in wrong_attids: att = self.samdb_schema.get_lDAPDisplayName_by_attid(o.attid) correct_attid = self.samdb_schema.get_attid_from_lDAPDisplayName(att, is_schema_nc=in_schema_nc) self.report('ERROR: incorrect attributeID values in %s on %s\n' % (attr, dn)) if not self.confirm_all('Fix %s on %s by replacing incorrect value 0x%08x for %s (new 0x%08x)?' % (attr, dn, o.attid, att, hash_att[att].attid), 'fix_replmetadata_wrong_attid'): self.report('Not fixing incorrect value 0x%08x with 0x%08x for %s in %s on %s\n' % (o.attid, correct_attid, att, attr, dn)) return fix = True o.attid = correct_attid if fix: # Sort the array, (we changed the value so must re-sort) new_list[:] = sorted(new_list[:], key=lambda o: o.attid) # If we did not already need to fix it, then ask about sorting if not fix: self.report('ERROR: unsorted attributeID values in %s on %s\n' % (attr, dn)) if not self.confirm_all('Fix %s on %s by sorting the attribute list?' % (attr, dn), 'fix_replmetadata_unsorted_attid'): self.report('Not fixing %s on %s\n' % (attr, dn)) return # The actual sort done is done at the top of the function ctr.count = len(new_list) ctr.array = new_list replBlob = ndr_pack(repl) nmsg = ldb.Message() nmsg.dn = dn nmsg[attr] = ldb.MessageElement(replBlob, ldb.FLAG_MOD_REPLACE, attr) if self.do_modify(nmsg, ["local_oid:%s:0" % dsdb.DSDB_CONTROL_DBCHECK_MODIFY_RO_REPLICA, "local_oid:1.3.6.1.4.1.7165.4.3.14:0", "local_oid:1.3.6.1.4.1.7165.4.3.25:0"], "Failed to fix attribute %s" % attr): self.report("Fixed attribute '%s' of '%s'\n" % (attr, dn)) def is_deleted_deleted_objects(self, obj): faulty = False if "description" not in obj: self.report("ERROR: description not present on Deleted Objects container %s" % obj.dn) faulty = True if "showInAdvancedViewOnly" not in obj or str(obj['showInAdvancedViewOnly'][0]).upper() == 'FALSE': self.report("ERROR: showInAdvancedViewOnly not present on Deleted Objects container %s" % obj.dn) faulty = True if "objectCategory" not in obj: self.report("ERROR: objectCategory not present on Deleted Objects container %s" % obj.dn) faulty = True if "isCriticalSystemObject" not in obj or str(obj['isCriticalSystemObject'][0]).upper() == 'FALSE': self.report("ERROR: isCriticalSystemObject not present on Deleted Objects container %s" % obj.dn) faulty = True if "isRecycled" in obj: self.report("ERROR: isRecycled present on Deleted Objects container %s" % obj.dn) faulty = True if "isDeleted" in obj and str(obj['isDeleted'][0]).upper() == 'FALSE': self.report("ERROR: isDeleted not set on Deleted Objects container %s" % obj.dn) faulty = True if "objectClass" not in obj or (len(obj['objectClass']) != 2 or str(obj['objectClass'][0]) != 'top' or str(obj['objectClass'][1]) != 'container'): self.report("ERROR: objectClass incorrectly set on Deleted Objects container %s" % obj.dn) faulty = True if "systemFlags" not in obj or str(obj['systemFlags'][0]) != '-1946157056': self.report("ERROR: systemFlags incorrectly set on Deleted Objects container %s" % obj.dn) faulty = True return faulty def err_deleted_deleted_objects(self, obj): nmsg = ldb.Message() nmsg.dn = dn = obj.dn if "description" not in obj: nmsg["description"] = ldb.MessageElement("Container for deleted objects", ldb.FLAG_MOD_REPLACE, "description") if "showInAdvancedViewOnly" not in obj: nmsg["showInAdvancedViewOnly"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "showInAdvancedViewOnly") if "objectCategory" not in obj: nmsg["objectCategory"] = ldb.MessageElement("CN=Container,%s" % self.schema_dn, ldb.FLAG_MOD_REPLACE, "objectCategory") if "isCriticalSystemObject" not in obj: nmsg["isCriticalSystemObject"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "isCriticalSystemObject") if "isRecycled" in obj: nmsg["isRecycled"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_DELETE, "isRecycled") nmsg["isDeleted"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "isDeleted") nmsg["systemFlags"] = ldb.MessageElement("-1946157056", ldb.FLAG_MOD_REPLACE, "systemFlags") nmsg["objectClass"] = ldb.MessageElement(["top", "container"], ldb.FLAG_MOD_REPLACE, "objectClass") if not self.confirm_all('Fix Deleted Objects container %s by restoring default attributes?' % (dn), 'fix_deleted_deleted_objects'): self.report('Not fixing missing/incorrect attributes on %s\n' % (dn)) return if self.do_modify(nmsg, ["relax:0"], "Failed to fix Deleted Objects container %s" % dn): self.report("Fixed Deleted Objects container '%s'\n" % (dn)) def err_replica_locations(self, obj, cross_ref, attr): nmsg = ldb.Message() nmsg.dn = cross_ref target = self.samdb.get_dsServiceName() if self.samdb.am_rodc(): self.report('Not fixing %s %s for the RODC' % (attr, obj.dn)) return if not self.confirm_all('Add yourself to the replica locations for %s?' % (obj.dn), 'fix_replica_locations'): self.report('Not fixing missing/incorrect attributes on %s\n' % (obj.dn)) return nmsg[attr] = ldb.MessageElement(target, ldb.FLAG_MOD_ADD, attr) if self.do_modify(nmsg, [], "Failed to add %s for %s" % (attr, obj.dn)): self.report("Fixed %s for %s" % (attr, obj.dn)) def is_fsmo_role(self, dn): if dn == self.samdb.domain_dn: return True if dn == self.infrastructure_dn: return True if dn == self.naming_dn: return True if dn == self.schema_dn: return True if dn == self.rid_dn: return True return False def calculate_instancetype(self, dn): instancetype = 0 nc_root = self.samdb.get_nc_root(dn) if dn == nc_root: instancetype |= dsdb.INSTANCE_TYPE_IS_NC_HEAD try: self.samdb.search(base=dn.parent(), scope=ldb.SCOPE_BASE, attrs=[], controls=["show_recycled:1"]) except ldb.LdbError as e4: (enum, estr) = e4.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise else: instancetype |= dsdb.INSTANCE_TYPE_NC_ABOVE if self.write_ncs is not None and str(nc_root) in [str(x) for x in self.write_ncs]: instancetype |= dsdb.INSTANCE_TYPE_WRITE return instancetype def get_wellknown_sd(self, dn): for [sd_dn, descriptor_fn] in self.wellknown_sds: if dn == sd_dn: domain_sid = security.dom_sid(self.samdb.get_domain_sid()) return ndr_unpack(security.descriptor, descriptor_fn(domain_sid, name_map=self.name_map)) raise KeyError def find_checkable_attrs(self, dn, requested_attrs): """A helper function for check_object() that calculates the list of attributes that need to be checked, and returns that as a list in the original case, and a set normalised to lowercase (for easy existence checks). """ if requested_attrs is None: attrs = ['*'] else: attrs = list(requested_attrs) lc_attrs = set(x.lower() for x in attrs) def add_attr(a): if a.lower() not in lc_attrs: attrs.append(a) lc_attrs.add(a.lower()) if ("dn" in lc_attrs or "distinguishedname" in lc_attrs or dn.get_rdn_name().lower() in lc_attrs): attrs.append("name") lc_attrs.add('name') if 'name' in lc_attrs: for a in (dn.get_rdn_name(), "isDeleted", "systemFlags"): add_attr(a) need_replPropertyMetaData = False if '*' in lc_attrs: need_replPropertyMetaData = True else: for a in attrs: linkID, _ = self.get_attr_linkID_and_reverse_name(a) if linkID == 0: continue if linkID & 1: continue need_replPropertyMetaData = True break if need_replPropertyMetaData: add_attr("replPropertyMetaData") add_attr("objectGUID") return attrs, lc_attrs def check_object(self, dn, requested_attrs=None): """check one object""" if self.verbose: self.report("Checking object %s" % dn) # search attrs are used to find the attributes, lc_attrs are # used for existence checks search_attrs, lc_attrs = self.find_checkable_attrs(dn, requested_attrs) try: sd_flags = 0 sd_flags |= security.SECINFO_OWNER sd_flags |= security.SECINFO_GROUP sd_flags |= security.SECINFO_DACL sd_flags |= security.SECINFO_SACL res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE, controls=[ "extended_dn:1:1", "show_recycled:1", "show_deleted:1", "sd_flags:1:%d" % sd_flags, "reveal_internals:0", ], attrs=search_attrs) except ldb.LdbError as e10: (enum, estr) = e10.args if enum == ldb.ERR_NO_SUCH_OBJECT: if self.in_transaction: self.report("ERROR: Object %s disappeared during check" % dn) return 1 return 0 raise if len(res) != 1: self.report("ERROR: Object %s failed to load during check" % dn) return 1 obj = res[0] error_count = 0 set_attrs_from_md = set() set_attrs_seen = set() got_objectclass = False nc_dn = self.samdb.get_nc_root(obj.dn) try: deleted_objects_dn = self.samdb.get_wellknown_dn(nc_dn, samba.dsdb.DS_GUID_DELETED_OBJECTS_CONTAINER) except KeyError: # We have no deleted objects DN for schema, and we check for this above for the other # NCs deleted_objects_dn = None object_rdn_attr = None object_rdn_val = None name_val = None isDeleted = False systemFlags = 0 repl_meta_data_val = None for attrname in obj: if attrname.lower() == 'isdeleted': if str(obj[attrname][0]) != "FALSE": isDeleted = True if attrname.lower() == 'systemflags': systemFlags = int(obj[attrname][0]) if attrname.lower() == 'replpropertymetadata': repl_meta_data_val = obj[attrname][0] if isDeleted and repl_meta_data_val: if self.has_changes_after_deletion(dn, repl_meta_data_val): error_count += 1 self.err_changes_after_deletion(dn, repl_meta_data_val) return error_count if self.is_expired_tombstone(dn, repl_meta_data_val): return error_count for attrname in obj: if attrname == 'dn' or attrname == "distinguishedName": continue if attrname.lower() == 'objectclass': got_objectclass = True if attrname.lower() == "name": if len(obj[attrname]) != 1: self.unfixable_errors += 1 self.report("ERROR: Not fixing num_values(%d) for '%s' on '%s'" % (len(obj[attrname]), attrname, str(obj.dn))) else: name_val = str(obj[attrname][0]) if attrname.lower() == str(obj.dn.get_rdn_name()).lower(): object_rdn_attr = attrname if len(obj[attrname]) != 1: self.unfixable_errors += 1 self.report("ERROR: Not fixing num_values(%d) for '%s' on '%s'" % (len(obj[attrname]), attrname, str(obj.dn))) else: object_rdn_val = str(obj[attrname][0]) if attrname.lower() == 'replpropertymetadata': if self.has_replmetadata_zero_invocationid(dn, obj[attrname][0]): error_count += 1 self.err_replmetadata_zero_invocationid(dn, attrname, obj[attrname][0]) # We don't continue, as we may also have other fixes for this attribute # based on what other attributes we see. try: (set_attrs_from_md, list_attid_from_md, wrong_attids) \ = self.process_metadata(dn, obj[attrname][0]) except KeyError: error_count += 1 self.err_replmetadata_unknown_attid(dn, attrname, obj[attrname]) continue if len(set_attrs_from_md) < len(list_attid_from_md) \ or len(wrong_attids) > 0 \ or sorted(list_attid_from_md) != list_attid_from_md: error_count += 1 self.err_replmetadata_incorrect_attid(dn, attrname, obj[attrname][0], wrong_attids) else: # Here we check that the first attid is 0 # (objectClass). if list_attid_from_md[0] != 0: self.unfixable_errors += 1 self.report("ERROR: Not fixing incorrect initial attributeID in '%s' on '%s', it should be objectClass" % (attrname, str(dn))) continue if attrname.lower() == 'ntsecuritydescriptor': (sd, sd_broken) = self.process_sd(dn, obj) if sd_broken is not None: self.err_wrong_sd(dn, sd, sd_broken) error_count += 1 continue if sd.owner_sid is None or sd.group_sid is None: self.err_missing_sd_owner(dn, sd) error_count += 1 continue if dn == deleted_objects_dn or self.reset_well_known_acls: try: well_known_sd = self.get_wellknown_sd(dn) except KeyError: continue current_sd = ndr_unpack(security.descriptor, obj[attrname][0]) ignoreAdditionalACEs = False if not self.reset_well_known_acls: ignoreAdditionalACEs = True diff = get_diff_sds(well_known_sd, current_sd, security.dom_sid(self.samdb.get_domain_sid()), ignoreAdditionalACEs=ignoreAdditionalACEs) if diff != "": self.err_wrong_default_sd(dn, well_known_sd, diff) error_count += 1 continue continue if attrname.lower() == 'objectclass': normalised = self.samdb.dsdb_normalise_attributes(self.samdb_schema, attrname, obj[attrname]) # Do not consider the attribute incorrect if: # - The sorted (alphabetically) list is the same, including case # - The first and last elements are the same # # This avoids triggering an error due to # non-determinism in the sort routine in (at least) # 4.3 and earlier, and the fact that any AUX classes # in these attributes are also not sorted when # imported from Windows (they are just in the reverse # order of last set) if sorted(normalised) != sorted(obj[attrname]) \ or normalised[0] != obj[attrname][0] \ or normalised[-1] != obj[attrname][-1]: self.err_normalise_mismatch_replace(dn, attrname, list(obj[attrname])) error_count += 1 continue if attrname.lower() == 'userparameters': userparams = obj[attrname][0] if userparams == b' ': error_count += 1 self.err_short_userParameters(obj, attrname, obj[attrname]) continue elif userparams[:16] == b'\x20\x00' * 8: # This is the correct, normal prefix continue elif userparams[:20] == b'IAAgACAAIAAgACAAIAAg': # this is the typical prefix from a windows migration error_count += 1 self.err_base64_userParameters(obj, attrname, obj[attrname]) continue #43:00:00:00:74:00:00:00:78 elif (userparams[1] != 0 and userparams[3] != 0 and userparams[5] != 0 and userparams[7] != 0 and userparams[9] != 0): # This is a prefix that is not in UTF-16 format # for the space or munged dialback prefix error_count += 1 self.err_utf8_userParameters(obj, attrname, obj[attrname]) continue elif len(userparams) % 2 != 0: # This is a value that isn't even in length error_count += 1 self.err_odd_userParameters(obj, attrname) continue elif (userparams[1] == 0 and userparams[2] == 0 and userparams[3] == 0 and userparams[4] != 0 and userparams[5] == 0): # This is a prefix that would happen if a # SAMR-written value was replicated from a Samba # 4.1 server to a working server error_count += 1 self.err_doubled_userParameters(obj, attrname, obj[attrname]) continue if attrname.lower() == 'attributeid' or attrname.lower() == 'governsid': if obj[attrname][0] in self.attribute_or_class_ids: self.unfixable_errors += 1 self.report('Error: %s %s on %s already exists as an attributeId or governsId' % (attrname, obj.dn, obj[attrname][0])) else: self.attribute_or_class_ids.add(obj[attrname][0]) # check for empty attributes for val in obj[attrname]: if val == b'': self.err_empty_attribute(dn, attrname) error_count += 1 continue # get the syntax oid for the attribute, so we can can have # special handling for some specific attribute types try: syntax_oid = self.samdb_schema.get_syntax_oid_from_lDAPDisplayName(attrname) except Exception as msg: self.err_unknown_attribute(obj, attrname) error_count += 1 continue linkID, reverse_link_name = self.get_attr_linkID_and_reverse_name(attrname) flag = self.samdb_schema.get_systemFlags_from_lDAPDisplayName(attrname) if (not flag & dsdb.DS_FLAG_ATTR_NOT_REPLICATED and not flag & dsdb.DS_FLAG_ATTR_IS_CONSTRUCTED and not linkID): set_attrs_seen.add(attrname.lower()) if syntax_oid in [dsdb.DSDB_SYNTAX_BINARY_DN, dsdb.DSDB_SYNTAX_OR_NAME, dsdb.DSDB_SYNTAX_STRING_DN, ldb.SYNTAX_DN]: # it's some form of DN, do specialised checking on those error_count += self.check_dn(obj, attrname, syntax_oid) else: values = set() # check for incorrectly normalised attributes for val in obj[attrname]: values.add(val) normalised = self.samdb.dsdb_normalise_attributes(self.samdb_schema, attrname, [val]) if len(normalised) != 1 or normalised[0] != val: self.err_normalise_mismatch(dn, attrname, obj[attrname]) error_count += 1 break if len(obj[attrname]) != len(values): self.err_duplicate_values(dn, attrname, obj[attrname], list(values)) error_count += 1 break if attrname.lower() == "instancetype": calculated_instancetype = self.calculate_instancetype(dn) if len(obj["instanceType"]) != 1 or int(obj["instanceType"][0]) != calculated_instancetype: error_count += 1 self.err_wrong_instancetype(obj, calculated_instancetype) if not got_objectclass and ("*" in lc_attrs or "objectclass" in lc_attrs): error_count += 1 self.err_missing_objectclass(dn) if ("*" in lc_attrs or "name" in lc_attrs): if name_val is None: self.unfixable_errors += 1 self.report("ERROR: Not fixing missing 'name' on '%s'" % (str(obj.dn))) if object_rdn_attr is None: self.unfixable_errors += 1 self.report("ERROR: Not fixing missing '%s' on '%s'" % (obj.dn.get_rdn_name(), str(obj.dn))) if name_val is not None: parent_dn = None controls = ["show_recycled:1", "relax:0"] if isDeleted: if not (systemFlags & samba.dsdb.SYSTEM_FLAG_DISALLOW_MOVE_ON_DELETE): parent_dn = deleted_objects_dn controls += ["local_oid:%s:1" % dsdb.DSDB_CONTROL_DBCHECK_FIX_LINK_DN_NAME] if parent_dn is None: parent_dn = obj.dn.parent() try: expected_dn = ldb.Dn(self.samdb, "RDN=RDN,%s" % (parent_dn)) except ValueError as e: self.unfixable_errors += 1 self.report(f"ERROR: could not handle parent DN '{parent_dn}': " "skipping RDN checks") else: expected_dn.set_component(0, obj.dn.get_rdn_name(), name_val) if obj.dn == deleted_objects_dn: expected_dn = obj.dn if expected_dn != obj.dn: error_count += 1 self.err_wrong_dn(obj, expected_dn, object_rdn_attr, object_rdn_val, name_val, controls) elif obj.dn.get_rdn_value() != object_rdn_val: self.unfixable_errors += 1 self.report("ERROR: Not fixing %s=%r on '%s'" % (object_rdn_attr, object_rdn_val, obj.dn)) show_dn = True if repl_meta_data_val: if obj.dn == deleted_objects_dn: isDeletedAttId = 131120 # It's 29/12/9999 at 23:59:59 UTC as specified in MS-ADTS 7.1.1.4.2 Deleted Objects Container expectedTimeDo = 2650466015990000000 originating = self.get_originating_time(repl_meta_data_val, isDeletedAttId) if originating != expectedTimeDo: if self.confirm_all("Fix isDeleted originating_change_time on '%s'" % str(dn), 'fix_time_metadata'): nmsg = ldb.Message() nmsg.dn = dn nmsg["isDeleted"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "isDeleted") error_count += 1 self.samdb.modify(nmsg, controls=["provision:0"]) else: self.report("Not fixing isDeleted originating_change_time on '%s'" % str(dn)) for att in set_attrs_seen.difference(set_attrs_from_md): if show_dn: self.report("On object %s" % dn) show_dn = False error_count += 1 self.report("ERROR: Attribute %s not present in replication metadata" % att) if not self.confirm_all("Fix missing replPropertyMetaData element '%s'" % att, 'fix_all_metadata'): self.report("Not fixing missing replPropertyMetaData element '%s'" % att) continue self.fix_metadata(obj, att) if self.is_fsmo_role(dn): if "fSMORoleOwner" not in obj and ("*" in lc_attrs or "fsmoroleowner" in lc_attrs): self.err_no_fsmoRoleOwner(obj) error_count += 1 try: if dn != self.samdb.get_root_basedn() and str(dn.parent()) not in self.dn_set: res = self.samdb.search(base=dn.parent(), scope=ldb.SCOPE_BASE, controls=["show_recycled:1", "show_deleted:1"]) except ldb.LdbError as e11: (enum, estr) = e11.args if enum == ldb.ERR_NO_SUCH_OBJECT: if isDeleted: self.report("WARNING: parent object not found for %s" % (obj.dn)) self.report("Not moving to LostAndFound " "(tombstone garbage collection in progress?)") else: self.err_missing_parent(obj) error_count += 1 else: raise if dn in self.deleted_objects_containers and '*' in lc_attrs: if self.is_deleted_deleted_objects(obj): self.err_deleted_deleted_objects(obj) error_count += 1 for (dns_part, msg) in self.dns_partitions: if dn == dns_part and 'repsFrom' in obj: location = "msDS-NC-Replica-Locations" if self.samdb.am_rodc(): location = "msDS-NC-RO-Replica-Locations" if location not in msg: # There are no replica locations! self.err_replica_locations(obj, msg.dn, location) error_count += 1 continue found = False for loc in msg[location]: if str(loc) == self.samdb.get_dsServiceName(): found = True if not found: # This DC is not in the replica locations self.err_replica_locations(obj, msg.dn, location) error_count += 1 if dn == self.server_ref_dn: # Check we have a valid RID Set if "*" in lc_attrs or "ridsetreferences" in lc_attrs: if "rIDSetReferences" not in obj: # NO RID SET reference # We are RID master, allocate it. error_count += 1 if self.is_rid_master: # Allocate a RID Set if self.confirm_all('Allocate the missing RID set for ' 'RID master?', 'fix_missing_rid_set_master'): # We don't have auto-transaction logic on # extended operations, so we have to do it # here. self.samdb.transaction_start() try: self.samdb.create_own_rid_set() except: self.samdb.transaction_cancel() raise self.samdb.transaction_commit() elif not self.samdb.am_rodc(): self.report("No RID Set found for this server: %s, " "and we are not the RID Master (so can " "not self-allocate)" % dn) # Check some details of our own RID Set # # Note that the attributes have very bad names. From ridalloc.c: # # Note: the RID allocation attributes in AD are very badly named. # Here is what we think they really do: # # in RID Set object: # - rIDPreviousAllocationPool: the pool which a DC is currently # pulling RIDs from. Managed by client DC # # - rIDAllocationPool: the pool that the DC will switch to next, # when rIDPreviousAllocationPool is exhausted. Managed by RID # Manager. # # - rIDNextRID: the last RID allocated by this DC. Managed by # client DC # # in RID Manager object: # - rIDAvailablePool: the pool where the RID Manager gets new rID # pools from when it gets a EXOP_RID_ALLOC getncchanges call # (or locally when the DC is the RID Manager) if dn == self.rid_set_dn: pool_attrs = ["rIDAllocationPool", "rIDPreviousAllocationPool"] res = self.samdb.search(base=self.rid_set_dn, scope=ldb.SCOPE_BASE, attrs=pool_attrs) for pool_attr in pool_attrs: if pool_attr not in res[0]: continue pool = int(res[0][pool_attr][0]) high = pool >> 32 low = 0xFFFFFFFF & pool if pool != 0 and low >= high: self.report("Invalid RID pool %d-%d, %d >= %d!" % (low, high, low, high)) self.unfixable_errors += 1 if "rIDAllocationPool" not in res[0]: self.report("No rIDAllocationPool found in %s" % dn) self.unfixable_errors += 1 try: next_free_rid, high = self.samdb.free_rid_bounds() except ldb.LdbError as err: enum, estr = err.args self.report("Couldn't get available RIDs: %s" % estr) self.unfixable_errors += 1 else: # Check the remainder of this pool for conflicts. If # ridalloc_allocate_rid() moves to a new pool, this # will be above high, so we will stop. domain_sid = self.samdb.get_domain_sid() while next_free_rid <= high: sid = "%s-%d" % (domain_sid, next_free_rid) try: res = self.samdb.search(base="" % sid, scope=ldb.SCOPE_BASE, attrs=[]) except ldb.LdbError as e: (enum, estr) = e.args if enum != ldb.ERR_NO_SUCH_OBJECT: raise res = None if res is not None: self.report("SID %s for %s conflicts with our current " "RID set in %s" % (sid, res[0].dn, dn)) error_count += 1 if self.confirm_all('Fix conflict between SID %s and ' 'RID pool in %s by allocating a ' 'new RID?' % (sid, dn), 'fix_sid_rid_set_conflict'): self.samdb.transaction_start() # This will burn RIDs, which will move # past the conflict. We then check again # to see if the new RID conflicts, until # the end of the current pool. We don't # look at the next pool to avoid burning # all RIDs in one go in some strange # failure case. try: while True: allocated_rid = self.samdb.allocate_rid() if allocated_rid >= next_free_rid: next_free_rid = allocated_rid + 1 break except: self.samdb.transaction_cancel() raise self.samdb.transaction_commit() else: break else: next_free_rid += 1 return error_count ################################################################ # check special @ROOTDSE attributes def check_rootdse(self): """check the @ROOTDSE special object""" dn = ldb.Dn(self.samdb, '@ROOTDSE') if self.verbose: self.report("Checking object %s" % dn) res = self.samdb.search(base=dn, scope=ldb.SCOPE_BASE) if len(res) != 1: self.report("Object %s disappeared during check" % dn) return 1 obj = res[0] error_count = 0 # check that the dsServiceName is in GUID form if 'dsServiceName' not in obj: self.report('ERROR: dsServiceName missing in @ROOTDSE') return error_count + 1 if not str(obj['dsServiceName'][0]).startswith('" % guid_str, ldb.FLAG_MOD_REPLACE, 'dsServiceName') if self.do_modify(m, [], "Failed to change dsServiceName to GUID form", validate=False): self.report("Changed dsServiceName to GUID form") return error_count ############################################### # re-index the database def reindex_database(self): """re-index the whole database""" m = ldb.Message() m.dn = ldb.Dn(self.samdb, "@ATTRIBUTES") m['add'] = ldb.MessageElement('NONE', ldb.FLAG_MOD_ADD, 'force_reindex') m['delete'] = ldb.MessageElement('NONE', ldb.FLAG_MOD_DELETE, 'force_reindex') return self.do_modify(m, [], 're-indexed database', validate=False) ############################################### # reset @MODULES def reset_modules(self): """reset @MODULES to that needed for current sam.ldb (to read a very old database)""" m = ldb.Message() m.dn = ldb.Dn(self.samdb, "@MODULES") m['@LIST'] = ldb.MessageElement('samba_dsdb', ldb.FLAG_MOD_REPLACE, '@LIST') return self.do_modify(m, [], 'reset @MODULES on database', validate=False)