# python join code # Copyright Andrew Tridgell 2010 # Copyright Andrew Bartlett 2010 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # from __future__ import print_function """Joining a domain.""" from samba.auth import system_session from samba.samdb import SamDB from samba import gensec, Ldb, drs_utils, arcfour_encrypt, string_to_byte_array import ldb, samba, sys, uuid from samba.ndr import ndr_pack, ndr_unpack from samba.dcerpc import security, drsuapi, misc, nbt, lsa, drsblobs, dnsserver, dnsp from samba.dsdb import DS_DOMAIN_FUNCTION_2003 from samba.credentials import Credentials, DONT_USE_KERBEROS from samba.provision import secretsdb_self_join, provision, provision_fill, FILL_DRS, FILL_SUBDOMAIN from samba.provision.common import setup_path from samba.schema import Schema from samba import descriptor from samba.net import Net from samba.provision.sambadns import setup_bind9_dns from samba import read_and_sub_file from samba import werror from base64 import b64encode from samba import WERRORError, NTSTATUSError from samba.dnsserver import ARecord, AAAARecord, PTRRecord, CNameRecord, NSRecord, MXRecord, SOARecord, SRVRecord, TXTRecord from samba import sd_utils import logging import talloc import random import time import re import os import tempfile class DCJoinException(Exception): def __init__(self, msg): super(DCJoinException, self).__init__("Can't join, error: %s" % msg) class DCJoinContext(object): """Perform a DC join.""" def __init__(ctx, logger=None, server=None, creds=None, lp=None, site=None, netbios_name=None, targetdir=None, domain=None, machinepass=None, use_ntvfs=False, dns_backend=None, promote_existing=False, plaintext_secrets=False, backend_store=None, forced_local_samdb=None): if site is None: site = "Default-First-Site-Name" ctx.logger = logger ctx.creds = creds ctx.lp = lp ctx.site = site ctx.targetdir = targetdir ctx.use_ntvfs = use_ntvfs ctx.plaintext_secrets = plaintext_secrets ctx.backend_store = backend_store ctx.promote_existing = promote_existing ctx.promote_from_dn = None ctx.nc_list = [] ctx.full_nc_list = [] ctx.creds.set_gensec_features(creds.get_gensec_features() | gensec.FEATURE_SEAL) ctx.net = Net(creds=ctx.creds, lp=ctx.lp) ctx.server = server ctx.forced_local_samdb = forced_local_samdb if forced_local_samdb: ctx.samdb = forced_local_samdb ctx.server = ctx.samdb.url else: if not ctx.server: ctx.logger.info("Finding a writeable DC for domain '%s'" % domain) ctx.server = ctx.find_dc(domain) ctx.logger.info("Found DC %s" % ctx.server) ctx.samdb = SamDB(url="ldap://%s" % ctx.server, session_info=system_session(), credentials=ctx.creds, lp=ctx.lp) try: ctx.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=["dn"]) except ldb.LdbError as e4: (enum, estr) = e4.args raise DCJoinException(estr) ctx.base_dn = str(ctx.samdb.get_default_basedn()) ctx.root_dn = str(ctx.samdb.get_root_basedn()) ctx.schema_dn = str(ctx.samdb.get_schema_basedn()) ctx.config_dn = str(ctx.samdb.get_config_basedn()) ctx.domsid = security.dom_sid(ctx.samdb.get_domain_sid()) ctx.forestsid = ctx.domsid ctx.domain_name = ctx.get_domain_name() ctx.forest_domain_name = ctx.get_forest_domain_name() ctx.invocation_id = misc.GUID(str(uuid.uuid4())) ctx.dc_ntds_dn = ctx.samdb.get_dsServiceName() ctx.dc_dnsHostName = ctx.get_dnsHostName() ctx.behavior_version = ctx.get_behavior_version() if machinepass is not None: ctx.acct_pass = machinepass else: ctx.acct_pass = samba.generate_random_machine_password(128, 255) ctx.dnsdomain = ctx.samdb.domain_dns_name() # the following are all dependent on the new DC's netbios_name (which # we expect to always be specified, except when cloning a DC) if netbios_name: # work out the DNs of all the objects we will be adding ctx.myname = netbios_name ctx.samname = "%s$" % ctx.myname ctx.server_dn = "CN=%s,CN=Servers,CN=%s,CN=Sites,%s" % (ctx.myname, ctx.site, ctx.config_dn) ctx.ntds_dn = "CN=NTDS Settings,%s" % ctx.server_dn ctx.acct_dn = "CN=%s,OU=Domain Controllers,%s" % (ctx.myname, ctx.base_dn) ctx.dnshostname = "%s.%s" % (ctx.myname.lower(), ctx.dnsdomain) ctx.dnsforest = ctx.samdb.forest_dns_name() topology_base = "CN=Topology,CN=Domain System Volume,CN=DFSR-GlobalSettings,CN=System,%s" % ctx.base_dn if ctx.dn_exists(topology_base): ctx.topology_dn = "CN=%s,%s" % (ctx.myname, topology_base) else: ctx.topology_dn = None ctx.SPNs = ["HOST/%s" % ctx.myname, "HOST/%s" % ctx.dnshostname, "GC/%s/%s" % (ctx.dnshostname, ctx.dnsforest)] res_rid_manager = ctx.samdb.search(scope=ldb.SCOPE_BASE, attrs=["rIDManagerReference"], base=ctx.base_dn) ctx.rid_manager_dn = res_rid_manager[0]["rIDManagerReference"][0] ctx.domaindns_zone = 'DC=DomainDnsZones,%s' % ctx.base_dn ctx.forestdns_zone = 'DC=ForestDnsZones,%s' % ctx.root_dn expr = "(&(objectClass=crossRef)(ncName=%s))" % ldb.binary_encode(ctx.domaindns_zone) res_domaindns = ctx.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=[], base=ctx.samdb.get_partitions_dn(), expression=expr) if dns_backend is None: ctx.dns_backend = "NONE" else: if len(res_domaindns) == 0: ctx.dns_backend = "NONE" print("NO DNS zone information found in source domain, not replicating DNS") else: ctx.dns_backend = dns_backend ctx.realm = ctx.dnsdomain ctx.tmp_samdb = None ctx.replica_flags = (drsuapi.DRSUAPI_DRS_INIT_SYNC | drsuapi.DRSUAPI_DRS_PER_SYNC | drsuapi.DRSUAPI_DRS_GET_ANC | drsuapi.DRSUAPI_DRS_GET_NC_SIZE | drsuapi.DRSUAPI_DRS_NEVER_SYNCED) # these elements are optional ctx.never_reveal_sid = None ctx.reveal_sid = None ctx.connection_dn = None ctx.RODC = False ctx.krbtgt_dn = None ctx.drsuapi = None ctx.managedby = None ctx.subdomain = False ctx.adminpass = None ctx.partition_dn = None ctx.dns_a_dn = None ctx.dns_cname_dn = None # Do not normally register 127. addresses but allow override for selftest ctx.force_all_ips = False def del_noerror(ctx, dn, recursive=False): if recursive: try: res = ctx.samdb.search(base=dn, scope=ldb.SCOPE_ONELEVEL, attrs=["dn"]) except Exception: return for r in res: ctx.del_noerror(r.dn, recursive=True) try: ctx.samdb.delete(dn) print("Deleted %s" % dn) except Exception: pass def cleanup_old_accounts(ctx, force=False): res = ctx.samdb.search(base=ctx.samdb.get_default_basedn(), expression='sAMAccountName=%s' % ldb.binary_encode(ctx.samname), attrs=["msDS-krbTgtLink", "objectSID"]) if len(res) == 0: return if not force: creds = Credentials() creds.guess(ctx.lp) try: creds.set_machine_account(ctx.lp) creds.set_kerberos_state(ctx.creds.get_kerberos_state()) machine_samdb = SamDB(url="ldap://%s" % ctx.server, session_info=system_session(), credentials=creds, lp=ctx.lp) except: pass else: token_res = machine_samdb.search(scope=ldb.SCOPE_BASE, base="", attrs=["tokenGroups"]) if token_res[0]["tokenGroups"][0] \ == res[0]["objectSID"][0]: raise DCJoinException("Not removing account %s which " "looks like a Samba DC account " "matching the password we already have. " "To override, remove secrets.ldb and secrets.tdb" % ctx.samname) ctx.del_noerror(res[0].dn, recursive=True) if "msDS-Krbtgtlink" in res[0]: new_krbtgt_dn = res[0]["msDS-Krbtgtlink"][0] ctx.del_noerror(ctx.new_krbtgt_dn) res = ctx.samdb.search(base=ctx.samdb.get_default_basedn(), expression='(&(sAMAccountName=%s)(servicePrincipalName=%s))' % (ldb.binary_encode("dns-%s" % ctx.myname), ldb.binary_encode("dns/%s" % ctx.dnshostname)), attrs=[]) if res: ctx.del_noerror(res[0].dn, recursive=True) res = ctx.samdb.search(base=ctx.samdb.get_default_basedn(), expression='(sAMAccountName=%s)' % ldb.binary_encode("dns-%s" % ctx.myname), attrs=[]) if res: raise DCJoinException("Not removing account %s which looks like " "a Samba DNS service account but does not " "have servicePrincipalName=%s" % (ldb.binary_encode("dns-%s" % ctx.myname), ldb.binary_encode("dns/%s" % ctx.dnshostname))) def cleanup_old_join(ctx, force=False): """Remove any DNs from a previous join.""" # find the krbtgt link if not ctx.subdomain: ctx.cleanup_old_accounts(force=force) if ctx.connection_dn is not None: ctx.del_noerror(ctx.connection_dn) if ctx.krbtgt_dn is not None: ctx.del_noerror(ctx.krbtgt_dn) ctx.del_noerror(ctx.ntds_dn) ctx.del_noerror(ctx.server_dn, recursive=True) if ctx.topology_dn: ctx.del_noerror(ctx.topology_dn) if ctx.partition_dn: ctx.del_noerror(ctx.partition_dn) if ctx.subdomain: binding_options = "sign" lsaconn = lsa.lsarpc("ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options), ctx.lp, ctx.creds) objectAttr = lsa.ObjectAttribute() objectAttr.sec_qos = lsa.QosInfo() pol_handle = lsaconn.OpenPolicy2(''.decode('utf-8'), objectAttr, security.SEC_FLAG_MAXIMUM_ALLOWED) name = lsa.String() name.string = ctx.realm info = lsaconn.QueryTrustedDomainInfoByName(pol_handle, name, lsa.LSA_TRUSTED_DOMAIN_INFO_FULL_INFO) lsaconn.DeleteTrustedDomain(pol_handle, info.info_ex.sid) name = lsa.String() name.string = ctx.forest_domain_name info = lsaconn.QueryTrustedDomainInfoByName(pol_handle, name, lsa.LSA_TRUSTED_DOMAIN_INFO_FULL_INFO) lsaconn.DeleteTrustedDomain(pol_handle, info.info_ex.sid) if ctx.dns_a_dn: ctx.del_noerror(ctx.dns_a_dn) if ctx.dns_cname_dn: ctx.del_noerror(ctx.dns_cname_dn) def promote_possible(ctx): """confirm that the account is just a bare NT4 BDC or a member server, so can be safely promoted""" if ctx.subdomain: # This shouldn't happen raise Exception("Can not promote into a subdomain") res = ctx.samdb.search(base=ctx.samdb.get_default_basedn(), expression='sAMAccountName=%s' % ldb.binary_encode(ctx.samname), attrs=["msDS-krbTgtLink", "userAccountControl", "serverReferenceBL", "rIDSetReferences"]) if len(res) == 0: raise Exception("Could not find domain member account '%s' to promote to a DC, use 'samba-tool domain join' instead'" % ctx.samname) if "msDS-krbTgtLink" in res[0] or "serverReferenceBL" in res[0] or "rIDSetReferences" in res[0]: raise Exception("Account '%s' appears to be an active DC, use 'samba-tool domain join' if you must re-create this account" % ctx.samname) if (int(res[0]["userAccountControl"][0]) & (samba.dsdb.UF_WORKSTATION_TRUST_ACCOUNT|samba.dsdb.UF_SERVER_TRUST_ACCOUNT) == 0): raise Exception("Account %s is not a domain member or a bare NT4 BDC, use 'samba-tool domain join' instead'" % ctx.samname) ctx.promote_from_dn = res[0].dn def find_dc(ctx, domain): """find a writeable DC for the given domain""" try: ctx.cldap_ret = ctx.net.finddc(domain=domain, flags=nbt.NBT_SERVER_LDAP | nbt.NBT_SERVER_DS | nbt.NBT_SERVER_WRITABLE) except NTSTATUSError as error: raise Exception("Failed to find a writeable DC for domain '%s': %s" % (domain, error[1])) except Exception: raise Exception("Failed to find a writeable DC for domain '%s'" % domain) if ctx.cldap_ret.client_site is not None and ctx.cldap_ret.client_site != "": ctx.site = ctx.cldap_ret.client_site return ctx.cldap_ret.pdc_dns_name def get_behavior_version(ctx): res = ctx.samdb.search(base=ctx.base_dn, scope=ldb.SCOPE_BASE, attrs=["msDS-Behavior-Version"]) if "msDS-Behavior-Version" in res[0]: return int(res[0]["msDS-Behavior-Version"][0]) else: return samba.dsdb.DS_DOMAIN_FUNCTION_2000 def get_dnsHostName(ctx): res = ctx.samdb.search(base="", scope=ldb.SCOPE_BASE, attrs=["dnsHostName"]) return res[0]["dnsHostName"][0] def get_domain_name(ctx): '''get netbios name of the domain from the partitions record''' partitions_dn = ctx.samdb.get_partitions_dn() res = ctx.samdb.search(base=partitions_dn, scope=ldb.SCOPE_ONELEVEL, attrs=["nETBIOSName"], expression='ncName=%s' % ldb.binary_encode(str(ctx.samdb.get_default_basedn()))) return res[0]["nETBIOSName"][0] def get_forest_domain_name(ctx): '''get netbios name of the domain from the partitions record''' partitions_dn = ctx.samdb.get_partitions_dn() res = ctx.samdb.search(base=partitions_dn, scope=ldb.SCOPE_ONELEVEL, attrs=["nETBIOSName"], expression='ncName=%s' % ldb.binary_encode(str(ctx.samdb.get_root_basedn()))) return res[0]["nETBIOSName"][0] def get_parent_partition_dn(ctx): '''get the parent domain partition DN from parent DNS name''' res = ctx.samdb.search(base=ctx.config_dn, attrs=[], expression='(&(objectclass=crossRef)(dnsRoot=%s)(systemFlags:%s:=%u))' % (ldb.binary_encode(ctx.parent_dnsdomain), ldb.OID_COMPARATOR_AND, samba.dsdb.SYSTEM_FLAG_CR_NTDS_DOMAIN)) return str(res[0].dn) def get_naming_master(ctx): '''get the parent domain partition DN from parent DNS name''' res = ctx.samdb.search(base='CN=Partitions,%s' % ctx.config_dn, attrs=['fSMORoleOwner'], scope=ldb.SCOPE_BASE, controls=["extended_dn:1:1"]) if not 'fSMORoleOwner' in res[0]: raise DCJoinException("Can't find naming master on partition DN %s in %s" % (ctx.partition_dn, ctx.samdb.url)) try: master_guid = str(misc.GUID(ldb.Dn(ctx.samdb, res[0]['fSMORoleOwner'][0].decode('utf8')).get_extended_component('GUID'))) except KeyError: raise DCJoinException("Can't find GUID in naming master on partition DN %s" % res[0]['fSMORoleOwner'][0]) master_host = '%s._msdcs.%s' % (master_guid, ctx.dnsforest) return master_host def get_mysid(ctx): '''get the SID of the connected user. Only works with w2k8 and later, so only used for RODC join''' res = ctx.samdb.search(base="", scope=ldb.SCOPE_BASE, attrs=["tokenGroups"]) binsid = res[0]["tokenGroups"][0] return ctx.samdb.schema_format_value("objectSID", binsid) def dn_exists(ctx, dn): '''check if a DN exists''' try: res = ctx.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=[]) except ldb.LdbError as e5: (enum, estr) = e5.args if enum == ldb.ERR_NO_SUCH_OBJECT: return False raise return True def add_krbtgt_account(ctx): '''RODCs need a special krbtgt account''' print("Adding %s" % ctx.krbtgt_dn) rec = { "dn": ctx.krbtgt_dn, "objectclass": "user", "useraccountcontrol": str(samba.dsdb.UF_NORMAL_ACCOUNT | samba.dsdb.UF_ACCOUNTDISABLE), "showinadvancedviewonly": "TRUE", "description": "krbtgt for %s" % ctx.samname} ctx.samdb.add(rec, ["rodc_join:1:1"]) # now we need to search for the samAccountName attribute on the krbtgt DN, # as this will have been magically set to the krbtgt number res = ctx.samdb.search(base=ctx.krbtgt_dn, scope=ldb.SCOPE_BASE, attrs=["samAccountName"]) ctx.krbtgt_name = res[0]["samAccountName"][0] print("Got krbtgt_name=%s" % ctx.krbtgt_name) m = ldb.Message() m.dn = ldb.Dn(ctx.samdb, ctx.acct_dn) m["msDS-krbTgtLink"] = ldb.MessageElement(ctx.krbtgt_dn, ldb.FLAG_MOD_REPLACE, "msDS-krbTgtLink") ctx.samdb.modify(m) ctx.new_krbtgt_dn = "CN=%s,CN=Users,%s" % (ctx.krbtgt_name, ctx.base_dn) print("Renaming %s to %s" % (ctx.krbtgt_dn, ctx.new_krbtgt_dn)) ctx.samdb.rename(ctx.krbtgt_dn, ctx.new_krbtgt_dn) def drsuapi_connect(ctx): '''make a DRSUAPI connection to the naming master''' binding_options = "seal" if ctx.lp.log_level() >= 9: binding_options += ",print" binding_string = "ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options) ctx.drsuapi = drsuapi.drsuapi(binding_string, ctx.lp, ctx.creds) (ctx.drsuapi_handle, ctx.bind_supported_extensions) = drs_utils.drs_DsBind(ctx.drsuapi) def create_tmp_samdb(ctx): '''create a temporary samdb object for schema queries''' ctx.tmp_schema = Schema(ctx.domsid, schemadn=ctx.schema_dn) ctx.tmp_samdb = SamDB(session_info=system_session(), url=None, auto_connect=False, credentials=ctx.creds, lp=ctx.lp, global_schema=False, am_rodc=False) ctx.tmp_samdb.set_schema(ctx.tmp_schema) def build_DsReplicaAttribute(ctx, attrname, attrvalue): '''build a DsReplicaAttributeCtr object''' r = drsuapi.DsReplicaAttribute() r.attid = ctx.tmp_samdb.get_attid_from_lDAPDisplayName(attrname) r.value_ctr = 1 def DsAddEntry(ctx, recs): '''add a record via the DRSUAPI DsAddEntry call''' if ctx.drsuapi is None: ctx.drsuapi_connect() if ctx.tmp_samdb is None: ctx.create_tmp_samdb() objects = [] for rec in recs: id = drsuapi.DsReplicaObjectIdentifier() id.dn = rec['dn'] attrs = [] for a in rec: if a == 'dn': continue if not isinstance(rec[a], list): v = [rec[a]] else: v = rec[a] rattr = ctx.tmp_samdb.dsdb_DsReplicaAttribute(ctx.tmp_samdb, a, v) attrs.append(rattr) attribute_ctr = drsuapi.DsReplicaAttributeCtr() attribute_ctr.num_attributes = len(attrs) attribute_ctr.attributes = attrs object = drsuapi.DsReplicaObject() object.identifier = id object.attribute_ctr = attribute_ctr list_object = drsuapi.DsReplicaObjectListItem() list_object.object = object objects.append(list_object) req2 = drsuapi.DsAddEntryRequest2() req2.first_object = objects[0] prev = req2.first_object for o in objects[1:]: prev.next_object = o prev = o (level, ctr) = ctx.drsuapi.DsAddEntry(ctx.drsuapi_handle, 2, req2) if level == 2: if ctr.dir_err != drsuapi.DRSUAPI_DIRERR_OK: print("DsAddEntry failed with dir_err %u" % ctr.dir_err) raise RuntimeError("DsAddEntry failed") if ctr.extended_err[0] != werror.WERR_SUCCESS: print("DsAddEntry failed with status %s info %s" % (ctr.extended_err)) raise RuntimeError("DsAddEntry failed") if level == 3: if ctr.err_ver != 1: raise RuntimeError("expected err_ver 1, got %u" % ctr.err_ver) if ctr.err_data.status[0] != werror.WERR_SUCCESS: if ctr.err_data.info is None: print("DsAddEntry failed with status %s, info omitted" % (ctr.err_data.status[1])) else: print("DsAddEntry failed with status %s info %s" % (ctr.err_data.status[1], ctr.err_data.info.extended_err)) raise RuntimeError("DsAddEntry failed") if ctr.err_data.dir_err != drsuapi.DRSUAPI_DIRERR_OK: print("DsAddEntry failed with dir_err %u" % ctr.err_data.dir_err) raise RuntimeError("DsAddEntry failed") return ctr.objects def join_ntdsdsa_obj(ctx): '''return the ntdsdsa object to add''' print("Adding %s" % ctx.ntds_dn) rec = { "dn": ctx.ntds_dn, "objectclass": "nTDSDSA", "systemFlags": str(samba.dsdb.SYSTEM_FLAG_DISALLOW_MOVE_ON_DELETE), "dMDLocation": ctx.schema_dn} nc_list = [ctx.base_dn, ctx.config_dn, ctx.schema_dn] if ctx.behavior_version >= samba.dsdb.DS_DOMAIN_FUNCTION_2003: rec["msDS-Behavior-Version"] = str(samba.dsdb.DS_DOMAIN_FUNCTION_2008_R2) if ctx.behavior_version >= samba.dsdb.DS_DOMAIN_FUNCTION_2003: rec["msDS-HasDomainNCs"] = ctx.base_dn if ctx.RODC: rec["objectCategory"] = "CN=NTDS-DSA-RO,%s" % ctx.schema_dn rec["msDS-HasFullReplicaNCs"] = ctx.full_nc_list rec["options"] = "37" else: rec["objectCategory"] = "CN=NTDS-DSA,%s" % ctx.schema_dn rec["HasMasterNCs"] = [] for nc in nc_list: if nc in ctx.full_nc_list: rec["HasMasterNCs"].append(nc) if ctx.behavior_version >= samba.dsdb.DS_DOMAIN_FUNCTION_2003: rec["msDS-HasMasterNCs"] = ctx.full_nc_list rec["options"] = "1" rec["invocationId"] = ndr_pack(ctx.invocation_id) return rec def join_add_ntdsdsa(ctx): '''add the ntdsdsa object''' rec = ctx.join_ntdsdsa_obj() if ctx.forced_local_samdb: ctx.samdb.add(rec, controls=["relax:0"]) elif ctx.RODC: ctx.samdb.add(rec, ["rodc_join:1:1"]) else: ctx.DsAddEntry([rec]) # find the GUID of our NTDS DN res = ctx.samdb.search(base=ctx.ntds_dn, scope=ldb.SCOPE_BASE, attrs=["objectGUID"]) ctx.ntds_guid = misc.GUID(ctx.samdb.schema_format_value("objectGUID", res[0]["objectGUID"][0])) def join_add_objects(ctx, specified_sid=None): '''add the various objects needed for the join''' if ctx.acct_dn: print("Adding %s" % ctx.acct_dn) rec = { "dn": ctx.acct_dn, "objectClass": "computer", "displayname": ctx.samname, "samaccountname": ctx.samname, "userAccountControl": str(ctx.userAccountControl | samba.dsdb.UF_ACCOUNTDISABLE), "dnshostname": ctx.dnshostname} if ctx.behavior_version >= samba.dsdb.DS_DOMAIN_FUNCTION_2008: rec['msDS-SupportedEncryptionTypes'] = str(samba.dsdb.ENC_ALL_TYPES) elif ctx.promote_existing: rec['msDS-SupportedEncryptionTypes'] = [] if ctx.managedby: rec["managedby"] = ctx.managedby elif ctx.promote_existing: rec["managedby"] = [] if ctx.never_reveal_sid: rec["msDS-NeverRevealGroup"] = ctx.never_reveal_sid elif ctx.promote_existing: rec["msDS-NeverRevealGroup"] = [] if ctx.reveal_sid: rec["msDS-RevealOnDemandGroup"] = ctx.reveal_sid elif ctx.promote_existing: rec["msDS-RevealOnDemandGroup"] = [] if specified_sid: rec["objectSid"] = ndr_pack(specified_sid) if ctx.promote_existing: if ctx.promote_from_dn != ctx.acct_dn: ctx.samdb.rename(ctx.promote_from_dn, ctx.acct_dn) ctx.samdb.modify(ldb.Message.from_dict(ctx.samdb, rec, ldb.FLAG_MOD_REPLACE)) else: controls = None if specified_sid is not None: controls = ["relax:0"] ctx.samdb.add(rec, controls=controls) if ctx.krbtgt_dn: ctx.add_krbtgt_account() if ctx.server_dn: print("Adding %s" % ctx.server_dn) rec = { "dn": ctx.server_dn, "objectclass": "server", # windows uses 50000000 decimal for systemFlags. A windows hex/decimal mixup bug? "systemFlags": str(samba.dsdb.SYSTEM_FLAG_CONFIG_ALLOW_RENAME | samba.dsdb.SYSTEM_FLAG_CONFIG_ALLOW_LIMITED_MOVE | samba.dsdb.SYSTEM_FLAG_DISALLOW_MOVE_ON_DELETE), # windows seems to add the dnsHostName later "dnsHostName": ctx.dnshostname} if ctx.acct_dn: rec["serverReference"] = ctx.acct_dn ctx.samdb.add(rec) if ctx.subdomain: # the rest is done after replication ctx.ntds_guid = None return if ctx.ntds_dn: ctx.join_add_ntdsdsa() # Add the Replica-Locations or RO-Replica-Locations attributes # TODO Is this supposed to be for the schema partition too? expr = "(&(objectClass=crossRef)(ncName=%s))" % ldb.binary_encode(ctx.domaindns_zone) domain = (ctx.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=[], base=ctx.samdb.get_partitions_dn(), expression=expr), ctx.domaindns_zone) expr = "(&(objectClass=crossRef)(ncName=%s))" % ldb.binary_encode(ctx.forestdns_zone) forest = (ctx.samdb.search(scope=ldb.SCOPE_ONELEVEL, attrs=[], base=ctx.samdb.get_partitions_dn(), expression=expr), ctx.forestdns_zone) for part, zone in (domain, forest): if zone not in ctx.nc_list: continue if len(part) == 1: m = ldb.Message() m.dn = part[0].dn attr = "msDS-NC-Replica-Locations" if ctx.RODC: attr = "msDS-NC-RO-Replica-Locations" m[attr] = ldb.MessageElement(ctx.ntds_dn, ldb.FLAG_MOD_ADD, attr) ctx.samdb.modify(m) if ctx.connection_dn is not None: print("Adding %s" % ctx.connection_dn) rec = { "dn": ctx.connection_dn, "objectclass": "nTDSConnection", "enabledconnection": "TRUE", "options": "65", "fromServer": ctx.dc_ntds_dn} ctx.samdb.add(rec) if ctx.acct_dn: print("Adding SPNs to %s" % ctx.acct_dn) m = ldb.Message() m.dn = ldb.Dn(ctx.samdb, ctx.acct_dn) for i in range(len(ctx.SPNs)): ctx.SPNs[i] = ctx.SPNs[i].replace("$NTDSGUID", str(ctx.ntds_guid)) m["servicePrincipalName"] = ldb.MessageElement(ctx.SPNs, ldb.FLAG_MOD_REPLACE, "servicePrincipalName") ctx.samdb.modify(m) # The account password set operation should normally be done over # LDAP. Windows 2000 DCs however allow this only with SSL # connections which are hard to set up and otherwise refuse with # ERR_UNWILLING_TO_PERFORM. In this case we fall back to libnet # over SAMR. print("Setting account password for %s" % ctx.samname) try: ctx.samdb.setpassword("(&(objectClass=user)(sAMAccountName=%s))" % ldb.binary_encode(ctx.samname), ctx.acct_pass, force_change_at_next_login=False, username=ctx.samname) except ldb.LdbError as e2: (num, _) = e2.args if num != ldb.ERR_UNWILLING_TO_PERFORM: pass ctx.net.set_password(account_name=ctx.samname, domain_name=ctx.domain_name, newpassword=ctx.acct_pass.encode('utf-8')) res = ctx.samdb.search(base=ctx.acct_dn, scope=ldb.SCOPE_BASE, attrs=["msDS-KeyVersionNumber", "objectSID"]) if "msDS-KeyVersionNumber" in res[0]: ctx.key_version_number = int(res[0]["msDS-KeyVersionNumber"][0]) else: ctx.key_version_number = None ctx.new_dc_account_sid = ndr_unpack(security.dom_sid, res[0]["objectSid"][0]) print("Enabling account") m = ldb.Message() m.dn = ldb.Dn(ctx.samdb, ctx.acct_dn) m["userAccountControl"] = ldb.MessageElement(str(ctx.userAccountControl), ldb.FLAG_MOD_REPLACE, "userAccountControl") ctx.samdb.modify(m) if ctx.dns_backend.startswith("BIND9_"): ctx.dnspass = samba.generate_random_password(128, 255) recs = ctx.samdb.parse_ldif(read_and_sub_file(setup_path("provision_dns_add_samba.ldif"), {"DNSDOMAIN": ctx.dnsdomain, "DOMAINDN": ctx.base_dn, "HOSTNAME": ctx.myname, "DNSPASS_B64": b64encode(ctx.dnspass.encode('utf-16-le')).decode('utf8'), "DNSNAME": ctx.dnshostname})) for changetype, msg in recs: assert changetype == ldb.CHANGETYPE_NONE dns_acct_dn = msg["dn"] print("Adding DNS account %s with dns/ SPN" % msg["dn"]) # Remove dns password (we will set it as a modify, as we can't do clearTextPassword over LDAP) del msg["clearTextPassword"] # Remove isCriticalSystemObject for similar reasons, it cannot be set over LDAP del msg["isCriticalSystemObject"] # Disable account until password is set msg["userAccountControl"] = str(samba.dsdb.UF_NORMAL_ACCOUNT | samba.dsdb.UF_ACCOUNTDISABLE) try: ctx.samdb.add(msg) except ldb.LdbError as e: (num, _) = e.args if num != ldb.ERR_ENTRY_ALREADY_EXISTS: raise # The account password set operation should normally be done over # LDAP. Windows 2000 DCs however allow this only with SSL # connections which are hard to set up and otherwise refuse with # ERR_UNWILLING_TO_PERFORM. In this case we fall back to libnet # over SAMR. print("Setting account password for dns-%s" % ctx.myname) try: ctx.samdb.setpassword("(&(objectClass=user)(samAccountName=dns-%s))" % ldb.binary_encode(ctx.myname), ctx.dnspass, force_change_at_next_login=False, username=ctx.samname) except ldb.LdbError as e3: (num, _) = e3.args if num != ldb.ERR_UNWILLING_TO_PERFORM: raise ctx.net.set_password(account_name="dns-%s" % ctx.myname, domain_name=ctx.domain_name, newpassword=ctx.dnspass) res = ctx.samdb.search(base=dns_acct_dn, scope=ldb.SCOPE_BASE, attrs=["msDS-KeyVersionNumber"]) if "msDS-KeyVersionNumber" in res[0]: ctx.dns_key_version_number = int(res[0]["msDS-KeyVersionNumber"][0]) else: ctx.dns_key_version_number = None def join_add_objects2(ctx): """add the various objects needed for the join, for subdomains post replication""" print("Adding %s" % ctx.partition_dn) name_map = {'SubdomainAdmins': "%s-%s" % (str(ctx.domsid), security.DOMAIN_RID_ADMINS)} sd_binary = descriptor.get_paritions_crossref_subdomain_descriptor(ctx.forestsid, name_map=name_map) rec = { "dn": ctx.partition_dn, "objectclass": "crossRef", "objectCategory": "CN=Cross-Ref,%s" % ctx.schema_dn, "nCName": ctx.base_dn, "nETBIOSName": ctx.domain_name, "dnsRoot": ctx.dnsdomain, "trustParent": ctx.parent_partition_dn, "systemFlags": str(samba.dsdb.SYSTEM_FLAG_CR_NTDS_NC|samba.dsdb.SYSTEM_FLAG_CR_NTDS_DOMAIN), "ntSecurityDescriptor": sd_binary, } if ctx.behavior_version >= samba.dsdb.DS_DOMAIN_FUNCTION_2003: rec["msDS-Behavior-Version"] = str(ctx.behavior_version) rec2 = ctx.join_ntdsdsa_obj() objects = ctx.DsAddEntry([rec, rec2]) if len(objects) != 2: raise DCJoinException("Expected 2 objects from DsAddEntry") ctx.ntds_guid = objects[1].guid print("Replicating partition DN") ctx.repl.replicate(ctx.partition_dn, misc.GUID("00000000-0000-0000-0000-000000000000"), ctx.ntds_guid, exop=drsuapi.DRSUAPI_EXOP_REPL_OBJ, replica_flags=drsuapi.DRSUAPI_DRS_WRIT_REP) print("Replicating NTDS DN") ctx.repl.replicate(ctx.ntds_dn, misc.GUID("00000000-0000-0000-0000-000000000000"), ctx.ntds_guid, exop=drsuapi.DRSUAPI_EXOP_REPL_OBJ, replica_flags=drsuapi.DRSUAPI_DRS_WRIT_REP) def join_provision(ctx): """Provision the local SAM.""" print("Calling bare provision") smbconf = ctx.lp.configfile presult = provision(ctx.logger, system_session(), smbconf=smbconf, targetdir=ctx.targetdir, samdb_fill=FILL_DRS, realm=ctx.realm, rootdn=ctx.root_dn, domaindn=ctx.base_dn, schemadn=ctx.schema_dn, configdn=ctx.config_dn, serverdn=ctx.server_dn, domain=ctx.domain_name, hostname=ctx.myname, domainsid=ctx.domsid, machinepass=ctx.acct_pass, serverrole="active directory domain controller", sitename=ctx.site, lp=ctx.lp, ntdsguid=ctx.ntds_guid, use_ntvfs=ctx.use_ntvfs, dns_backend=ctx.dns_backend, plaintext_secrets=ctx.plaintext_secrets, backend_store=ctx.backend_store ) print("Provision OK for domain DN %s" % presult.domaindn) ctx.local_samdb = presult.samdb ctx.lp = presult.lp ctx.paths = presult.paths ctx.names = presult.names # Fix up the forestsid, it may be different if we are joining as a subdomain ctx.names.forestsid = ctx.forestsid def join_provision_own_domain(ctx): """Provision the local SAM.""" # we now operate exclusively on the local database, which # we need to reopen in order to get the newly created schema print("Reconnecting to local samdb") ctx.samdb = SamDB(url=ctx.local_samdb.url, session_info=system_session(), lp=ctx.local_samdb.lp, global_schema=False) ctx.samdb.set_invocation_id(str(ctx.invocation_id)) ctx.local_samdb = ctx.samdb ctx.logger.info("Finding domain GUID from ncName") res = ctx.local_samdb.search(base=ctx.partition_dn, scope=ldb.SCOPE_BASE, attrs=['ncName'], controls=["extended_dn:1:1", "reveal_internals:0"]) if 'nCName' not in res[0]: raise DCJoinException("Can't find naming context on partition DN %s in %s" % (ctx.partition_dn, ctx.samdb.url)) try: ctx.names.domainguid = str(misc.GUID(ldb.Dn(ctx.samdb, res[0]['ncName'][0].decode('utf8')).get_extended_component('GUID'))) except KeyError: raise DCJoinException("Can't find GUID in naming master on partition DN %s" % res[0]['ncName'][0]) ctx.logger.info("Got domain GUID %s" % ctx.names.domainguid) ctx.logger.info("Calling own domain provision") secrets_ldb = Ldb(ctx.paths.secrets, session_info=system_session(), lp=ctx.lp) presult = provision_fill(ctx.local_samdb, secrets_ldb, ctx.logger, ctx.names, ctx.paths, dom_for_fun_level=DS_DOMAIN_FUNCTION_2003, targetdir=ctx.targetdir, samdb_fill=FILL_SUBDOMAIN, machinepass=ctx.acct_pass, serverrole="active directory domain controller", lp=ctx.lp, hostip=ctx.names.hostip, hostip6=ctx.names.hostip6, dns_backend=ctx.dns_backend, adminpass=ctx.adminpass) print("Provision OK for domain %s" % ctx.names.dnsdomain) def create_replicator(ctx, repl_creds, binding_options): '''Creates a new DRS object for managing replications''' return drs_utils.drs_Replicate( "ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options), ctx.lp, repl_creds, ctx.local_samdb, ctx.invocation_id) def join_replicate(ctx): """Replicate the SAM.""" print("Starting replication") ctx.local_samdb.transaction_start() try: source_dsa_invocation_id = misc.GUID(ctx.samdb.get_invocation_id()) if ctx.ntds_guid is None: print("Using DS_BIND_GUID_W2K3") destination_dsa_guid = misc.GUID(drsuapi.DRSUAPI_DS_BIND_GUID_W2K3) else: destination_dsa_guid = ctx.ntds_guid if ctx.RODC: repl_creds = Credentials() repl_creds.guess(ctx.lp) repl_creds.set_kerberos_state(DONT_USE_KERBEROS) repl_creds.set_username(ctx.samname) repl_creds.set_password(ctx.acct_pass.encode('utf-8')) else: repl_creds = ctx.creds binding_options = "seal" if ctx.lp.log_level() >= 9: binding_options += ",print" repl = ctx.create_replicator(repl_creds, binding_options) repl.replicate(ctx.schema_dn, source_dsa_invocation_id, destination_dsa_guid, schema=True, rodc=ctx.RODC, replica_flags=ctx.replica_flags) repl.replicate(ctx.config_dn, source_dsa_invocation_id, destination_dsa_guid, rodc=ctx.RODC, replica_flags=ctx.replica_flags) if not ctx.subdomain: # Replicate first the critical object for the basedn if not ctx.domain_replica_flags & drsuapi.DRSUAPI_DRS_CRITICAL_ONLY: print("Replicating critical objects from the base DN of the domain") ctx.domain_replica_flags |= drsuapi.DRSUAPI_DRS_CRITICAL_ONLY repl.replicate(ctx.base_dn, source_dsa_invocation_id, destination_dsa_guid, rodc=ctx.RODC, replica_flags=ctx.domain_replica_flags) ctx.domain_replica_flags ^= drsuapi.DRSUAPI_DRS_CRITICAL_ONLY repl.replicate(ctx.base_dn, source_dsa_invocation_id, destination_dsa_guid, rodc=ctx.RODC, replica_flags=ctx.domain_replica_flags) print("Done with always replicated NC (base, config, schema)") # At this point we should already have an entry in the ForestDNS # and DomainDNS NC (those under CN=Partions,DC=...) in order to # indicate that we hold a replica for this NC. for nc in (ctx.domaindns_zone, ctx.forestdns_zone): if nc in ctx.nc_list: print("Replicating %s" % (str(nc))) repl.replicate(nc, source_dsa_invocation_id, destination_dsa_guid, rodc=ctx.RODC, replica_flags=ctx.replica_flags) if ctx.RODC: repl.replicate(ctx.acct_dn, source_dsa_invocation_id, destination_dsa_guid, exop=drsuapi.DRSUAPI_EXOP_REPL_SECRET, rodc=True) repl.replicate(ctx.new_krbtgt_dn, source_dsa_invocation_id, destination_dsa_guid, exop=drsuapi.DRSUAPI_EXOP_REPL_SECRET, rodc=True) elif ctx.rid_manager_dn != None: # Try and get a RID Set if we can. This is only possible against the RID Master. Warn otherwise. try: repl.replicate(ctx.rid_manager_dn, source_dsa_invocation_id, destination_dsa_guid, exop=drsuapi.DRSUAPI_EXOP_FSMO_RID_ALLOC) except samba.DsExtendedError as e1: (enum, estr) = e1.args if enum == drsuapi.DRSUAPI_EXOP_ERR_FSMO_NOT_OWNER: print("WARNING: Unable to replicate own RID Set, as server %s (the server we joined) is not the RID Master." % ctx.server) print("NOTE: This is normal and expected, Samba will be able to create users after it contacts the RID Master at first startup.") else: raise ctx.repl = repl ctx.source_dsa_invocation_id = source_dsa_invocation_id ctx.destination_dsa_guid = destination_dsa_guid print("Committing SAM database") except: ctx.local_samdb.transaction_cancel() raise else: ctx.local_samdb.transaction_commit() def send_DsReplicaUpdateRefs(ctx, dn): r = drsuapi.DsReplicaUpdateRefsRequest1() r.naming_context = drsuapi.DsReplicaObjectIdentifier() r.naming_context.dn = str(dn) r.naming_context.guid = misc.GUID("00000000-0000-0000-0000-000000000000") r.naming_context.sid = security.dom_sid("S-0-0") r.dest_dsa_guid = ctx.ntds_guid r.dest_dsa_dns_name = "%s._msdcs.%s" % (str(ctx.ntds_guid), ctx.dnsforest) r.options = drsuapi.DRSUAPI_DRS_ADD_REF | drsuapi.DRSUAPI_DRS_DEL_REF if not ctx.RODC: r.options |= drsuapi.DRSUAPI_DRS_WRIT_REP if ctx.drsuapi is None: ctx.drsuapi_connect() ctx.drsuapi.DsReplicaUpdateRefs(ctx.drsuapi_handle, 1, r) def join_add_dns_records(ctx): """Remotely Add a DNS record to the target DC. We assume that if we replicate DNS that the server holds the DNS roles and can accept updates. This avoids issues getting replication going after the DC first starts as the rest of the domain does not have to wait for samba_dnsupdate to run successfully. Specifically, we add the records implied by the DsReplicaUpdateRefs call above. We do not just run samba_dnsupdate as we want to strictly operate against the DC we just joined: - We do not want to query another DNS server - We do not want to obtain a Kerberos ticket (as the KDC we select may not be the DC we just joined, and so may not be in sync with the password we just set) - We do not wish to set the _ldap records until we have started - We do not wish to use NTLM (the --use-samba-tool mode forces NTLM) """ client_version = dnsserver.DNS_CLIENT_VERSION_LONGHORN record_type = dnsp.DNS_TYPE_A select_flags = dnsserver.DNS_RPC_VIEW_AUTHORITY_DATA |\ dnsserver.DNS_RPC_VIEW_NO_CHILDREN zone = ctx.dnsdomain msdcs_zone = "_msdcs.%s" % ctx.dnsforest name = ctx.myname msdcs_cname = str(ctx.ntds_guid) cname_target = "%s.%s" % (name, zone) IPs = samba.interface_ips(ctx.lp, ctx.force_all_ips) ctx.logger.info("Adding %d remote DNS records for %s.%s" % \ (len(IPs), name, zone)) binding_options = "sign" dns_conn = dnsserver.dnsserver("ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options), ctx.lp, ctx.creds) name_found = True sd_helper = samba.sd_utils.SDUtils(ctx.samdb) change_owner_sd = security.descriptor() change_owner_sd.owner_sid = ctx.new_dc_account_sid change_owner_sd.group_sid = security.dom_sid("%s-%d" % (str(ctx.domsid), security.DOMAIN_RID_DCS)) # TODO: Remove any old records from the primary DNS name try: (buflen, res) \ = dns_conn.DnssrvEnumRecords2(client_version, 0, ctx.server, zone, name, None, dnsp.DNS_TYPE_ALL, select_flags, None, None) except WERRORError as e: if e.args[0] == werror.WERR_DNS_ERROR_NAME_DOES_NOT_EXIST: name_found = False pass if name_found: for rec in res.rec: for record in rec.records: if record.wType == dnsp.DNS_TYPE_A or \ record.wType == dnsp.DNS_TYPE_AAAA: # delete record del_rec_buf = dnsserver.DNS_RPC_RECORD_BUF() del_rec_buf.rec = record try: dns_conn.DnssrvUpdateRecord2(client_version, 0, ctx.server, zone, name, None, del_rec_buf) except WERRORError as e: if e.args[0] == werror.WERR_DNS_ERROR_NAME_DOES_NOT_EXIST: pass else: raise for IP in IPs: if IP.find(':') != -1: ctx.logger.info("Adding DNS AAAA record %s.%s for IPv6 IP: %s" % (name, zone, IP)) rec = AAAARecord(IP) else: ctx.logger.info("Adding DNS A record %s.%s for IPv4 IP: %s" % (name, zone, IP)) rec = ARecord(IP) # Add record add_rec_buf = dnsserver.DNS_RPC_RECORD_BUF() add_rec_buf.rec = rec dns_conn.DnssrvUpdateRecord2(client_version, 0, ctx.server, zone, name, add_rec_buf, None) if (len(IPs) > 0): domaindns_zone_dn = ldb.Dn(ctx.samdb, ctx.domaindns_zone) (ctx.dns_a_dn, ldap_record) \ = ctx.samdb.dns_lookup("%s.%s" % (name, zone), dns_partition=domaindns_zone_dn) # Make the DC own the DNS record, not the administrator sd_helper.modify_sd_on_dn(ctx.dns_a_dn, change_owner_sd, controls=["sd_flags:1:%d" % (security.SECINFO_OWNER | security.SECINFO_GROUP)]) # Add record ctx.logger.info("Adding DNS CNAME record %s.%s for %s" % (msdcs_cname, msdcs_zone, cname_target)) add_rec_buf = dnsserver.DNS_RPC_RECORD_BUF() rec = CNameRecord(cname_target) add_rec_buf.rec = rec dns_conn.DnssrvUpdateRecord2(client_version, 0, ctx.server, msdcs_zone, msdcs_cname, add_rec_buf, None) forestdns_zone_dn = ldb.Dn(ctx.samdb, ctx.forestdns_zone) (ctx.dns_cname_dn, ldap_record) \ = ctx.samdb.dns_lookup("%s.%s" % (msdcs_cname, msdcs_zone), dns_partition=forestdns_zone_dn) # Make the DC own the DNS record, not the administrator sd_helper.modify_sd_on_dn(ctx.dns_cname_dn, change_owner_sd, controls=["sd_flags:1:%d" % (security.SECINFO_OWNER | security.SECINFO_GROUP)]) ctx.logger.info("All other DNS records (like _ldap SRV records) " + "will be created samba_dnsupdate on first startup") def join_replicate_new_dns_records(ctx): for nc in (ctx.domaindns_zone, ctx.forestdns_zone): if nc in ctx.nc_list: ctx.logger.info("Replicating new DNS records in %s" % (str(nc))) ctx.repl.replicate(nc, ctx.source_dsa_invocation_id, ctx.ntds_guid, rodc=ctx.RODC, replica_flags=ctx.replica_flags, full_sync=False) def join_finalise(ctx): """Finalise the join, mark us synchronised and setup secrets db.""" # FIXME we shouldn't do this in all cases # If for some reasons we joined in another site than the one of # DC we just replicated from then we don't need to send the updatereplicateref # as replication between sites is time based and on the initiative of the # requesting DC ctx.logger.info("Sending DsReplicaUpdateRefs for all the replicated partitions") for nc in ctx.nc_list: ctx.send_DsReplicaUpdateRefs(nc) if ctx.RODC: print("Setting RODC invocationId") ctx.local_samdb.set_invocation_id(str(ctx.invocation_id)) ctx.local_samdb.set_opaque_integer("domainFunctionality", ctx.behavior_version) m = ldb.Message() m.dn = ldb.Dn(ctx.local_samdb, "%s" % ctx.ntds_dn) m["invocationId"] = ldb.MessageElement(ndr_pack(ctx.invocation_id), ldb.FLAG_MOD_REPLACE, "invocationId") ctx.local_samdb.modify(m) # Note: as RODC the invocationId is only stored # on the RODC itself, the other DCs never see it. # # Thats is why we fix up the replPropertyMetaData stamp # for the 'invocationId' attribute, we need to change # the 'version' to '0', this is what windows 2008r2 does as RODC # # This means if the object on a RWDC ever gets a invocationId # attribute, it will have version '1' (or higher), which will # will overwrite the RODC local value. ctx.local_samdb.set_attribute_replmetadata_version(m.dn, "invocationId", 0) ctx.logger.info("Setting isSynchronized and dsServiceName") m = ldb.Message() m.dn = ldb.Dn(ctx.local_samdb, '@ROOTDSE') m["isSynchronized"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "isSynchronized") guid = ctx.ntds_guid m["dsServiceName"] = ldb.MessageElement("" % str(guid), ldb.FLAG_MOD_REPLACE, "dsServiceName") ctx.local_samdb.modify(m) if ctx.subdomain: return secrets_ldb = Ldb(ctx.paths.secrets, session_info=system_session(), lp=ctx.lp) ctx.logger.info("Setting up secrets database") secretsdb_self_join(secrets_ldb, domain=ctx.domain_name, realm=ctx.realm, dnsdomain=ctx.dnsdomain, netbiosname=ctx.myname, domainsid=ctx.domsid, machinepass=ctx.acct_pass, secure_channel_type=ctx.secure_channel_type, key_version_number=ctx.key_version_number) if ctx.dns_backend.startswith("BIND9_"): setup_bind9_dns(ctx.local_samdb, secrets_ldb, ctx.names, ctx.paths, ctx.lp, ctx.logger, dns_backend=ctx.dns_backend, dnspass=ctx.dnspass, os_level=ctx.behavior_version, targetdir=ctx.targetdir, key_version_number=ctx.dns_key_version_number) def join_setup_trusts(ctx): """provision the local SAM.""" print("Setup domain trusts with server %s" % ctx.server) binding_options = "" # why doesn't signing work here? w2k8r2 claims no session key lsaconn = lsa.lsarpc("ncacn_np:%s[%s]" % (ctx.server, binding_options), ctx.lp, ctx.creds) objectAttr = lsa.ObjectAttribute() objectAttr.sec_qos = lsa.QosInfo() pol_handle = lsaconn.OpenPolicy2(''.decode('utf-8'), objectAttr, security.SEC_FLAG_MAXIMUM_ALLOWED) info = lsa.TrustDomainInfoInfoEx() info.domain_name.string = ctx.dnsdomain info.netbios_name.string = ctx.domain_name info.sid = ctx.domsid info.trust_direction = lsa.LSA_TRUST_DIRECTION_INBOUND | lsa.LSA_TRUST_DIRECTION_OUTBOUND info.trust_type = lsa.LSA_TRUST_TYPE_UPLEVEL info.trust_attributes = lsa.LSA_TRUST_ATTRIBUTE_WITHIN_FOREST try: oldname = lsa.String() oldname.string = ctx.dnsdomain oldinfo = lsaconn.QueryTrustedDomainInfoByName(pol_handle, oldname, lsa.LSA_TRUSTED_DOMAIN_INFO_FULL_INFO) print("Removing old trust record for %s (SID %s)" % (ctx.dnsdomain, oldinfo.info_ex.sid)) lsaconn.DeleteTrustedDomain(pol_handle, oldinfo.info_ex.sid) except RuntimeError: pass password_blob = string_to_byte_array(ctx.trustdom_pass.encode('utf-16-le')) clear_value = drsblobs.AuthInfoClear() clear_value.size = len(password_blob) clear_value.password = password_blob clear_authentication_information = drsblobs.AuthenticationInformation() clear_authentication_information.LastUpdateTime = samba.unix2nttime(int(time.time())) clear_authentication_information.AuthType = lsa.TRUST_AUTH_TYPE_CLEAR clear_authentication_information.AuthInfo = clear_value authentication_information_array = drsblobs.AuthenticationInformationArray() authentication_information_array.count = 1 authentication_information_array.array = [clear_authentication_information] outgoing = drsblobs.trustAuthInOutBlob() outgoing.count = 1 outgoing.current = authentication_information_array trustpass = drsblobs.trustDomainPasswords() confounder = [3] * 512 for i in range(512): confounder[i] = random.randint(0, 255) trustpass.confounder = confounder trustpass.outgoing = outgoing trustpass.incoming = outgoing trustpass_blob = ndr_pack(trustpass) encrypted_trustpass = arcfour_encrypt(lsaconn.session_key, trustpass_blob) auth_blob = lsa.DATA_BUF2() auth_blob.size = len(encrypted_trustpass) auth_blob.data = string_to_byte_array(encrypted_trustpass) auth_info = lsa.TrustDomainInfoAuthInfoInternal() auth_info.auth_blob = auth_blob trustdom_handle = lsaconn.CreateTrustedDomainEx2(pol_handle, info, auth_info, security.SEC_STD_DELETE) rec = { "dn": "cn=%s,cn=system,%s" % (ctx.dnsforest, ctx.base_dn), "objectclass": "trustedDomain", "trustType": str(info.trust_type), "trustAttributes": str(info.trust_attributes), "trustDirection": str(info.trust_direction), "flatname": ctx.forest_domain_name, "trustPartner": ctx.dnsforest, "trustAuthIncoming": ndr_pack(outgoing), "trustAuthOutgoing": ndr_pack(outgoing), "securityIdentifier": ndr_pack(ctx.forestsid) } ctx.local_samdb.add(rec) rec = { "dn": "cn=%s$,cn=users,%s" % (ctx.forest_domain_name, ctx.base_dn), "objectclass": "user", "userAccountControl": str(samba.dsdb.UF_INTERDOMAIN_TRUST_ACCOUNT), "clearTextPassword": ctx.trustdom_pass.encode('utf-16-le'), "samAccountName": "%s$" % ctx.forest_domain_name } ctx.local_samdb.add(rec) def build_nc_lists(ctx): # nc_list is the list of naming context (NC) for which we will # replicate in and send a updateRef command to the partner DC # full_nc_list is the list of naming context (NC) we hold # read/write copies of. These are not subsets of each other. ctx.nc_list = [ctx.config_dn, ctx.schema_dn] ctx.full_nc_list = [ctx.base_dn, ctx.config_dn, ctx.schema_dn] if ctx.subdomain and ctx.dns_backend != "NONE": ctx.full_nc_list += [ctx.domaindns_zone] elif not ctx.subdomain: ctx.nc_list += [ctx.base_dn] if ctx.dns_backend != "NONE": ctx.nc_list += [ctx.domaindns_zone] ctx.nc_list += [ctx.forestdns_zone] ctx.full_nc_list += [ctx.domaindns_zone] ctx.full_nc_list += [ctx.forestdns_zone] def do_join(ctx): ctx.build_nc_lists() if ctx.promote_existing: ctx.promote_possible() else: ctx.cleanup_old_join() try: ctx.join_add_objects() ctx.join_provision() ctx.join_replicate() if ctx.subdomain: ctx.join_add_objects2() ctx.join_provision_own_domain() ctx.join_setup_trusts() if ctx.dns_backend != "NONE": ctx.join_add_dns_records() ctx.join_replicate_new_dns_records() ctx.join_finalise() except: try: print("Join failed - cleaning up") except IOError: pass ctx.cleanup_old_join() raise def join_RODC(logger=None, server=None, creds=None, lp=None, site=None, netbios_name=None, targetdir=None, domain=None, domain_critical_only=False, machinepass=None, use_ntvfs=False, dns_backend=None, promote_existing=False, plaintext_secrets=False, backend_store=None): """Join as a RODC.""" ctx = DCJoinContext(logger, server, creds, lp, site, netbios_name, targetdir, domain, machinepass, use_ntvfs, dns_backend, promote_existing, plaintext_secrets, backend_store=backend_store) lp.set("workgroup", ctx.domain_name) logger.info("workgroup is %s" % ctx.domain_name) lp.set("realm", ctx.realm) logger.info("realm is %s" % ctx.realm) ctx.krbtgt_dn = "CN=krbtgt_%s,CN=Users,%s" % (ctx.myname, ctx.base_dn) # setup some defaults for accounts that should be replicated to this RODC ctx.never_reveal_sid = [ "" % (ctx.domsid, security.DOMAIN_RID_RODC_DENY), "" % security.SID_BUILTIN_ADMINISTRATORS, "" % security.SID_BUILTIN_SERVER_OPERATORS, "" % security.SID_BUILTIN_BACKUP_OPERATORS, "" % security.SID_BUILTIN_ACCOUNT_OPERATORS] ctx.reveal_sid = "" % (ctx.domsid, security.DOMAIN_RID_RODC_ALLOW) mysid = ctx.get_mysid() admin_dn = "" % mysid ctx.managedby = admin_dn ctx.userAccountControl = (samba.dsdb.UF_WORKSTATION_TRUST_ACCOUNT | samba.dsdb.UF_TRUSTED_TO_AUTHENTICATE_FOR_DELEGATION | samba.dsdb.UF_PARTIAL_SECRETS_ACCOUNT) ctx.SPNs.extend(["RestrictedKrbHost/%s" % ctx.myname, "RestrictedKrbHost/%s" % ctx.dnshostname]) ctx.connection_dn = "CN=RODC Connection (FRS),%s" % ctx.ntds_dn ctx.secure_channel_type = misc.SEC_CHAN_RODC ctx.RODC = True ctx.replica_flags |= (drsuapi.DRSUAPI_DRS_SPECIAL_SECRET_PROCESSING | drsuapi.DRSUAPI_DRS_GET_ALL_GROUP_MEMBERSHIP) ctx.domain_replica_flags = ctx.replica_flags if domain_critical_only: ctx.domain_replica_flags |= drsuapi.DRSUAPI_DRS_CRITICAL_ONLY ctx.do_join() logger.info("Joined domain %s (SID %s) as an RODC" % (ctx.domain_name, ctx.domsid)) def join_DC(logger=None, server=None, creds=None, lp=None, site=None, netbios_name=None, targetdir=None, domain=None, domain_critical_only=False, machinepass=None, use_ntvfs=False, dns_backend=None, promote_existing=False, plaintext_secrets=False, backend_store=None): """Join as a DC.""" ctx = DCJoinContext(logger, server, creds, lp, site, netbios_name, targetdir, domain, machinepass, use_ntvfs, dns_backend, promote_existing, plaintext_secrets, backend_store=backend_store) lp.set("workgroup", ctx.domain_name) logger.info("workgroup is %s" % ctx.domain_name) lp.set("realm", ctx.realm) logger.info("realm is %s" % ctx.realm) ctx.userAccountControl = samba.dsdb.UF_SERVER_TRUST_ACCOUNT | samba.dsdb.UF_TRUSTED_FOR_DELEGATION ctx.SPNs.append('E3514235-4B06-11D1-AB04-00C04FC2DCD2/$NTDSGUID/%s' % ctx.dnsdomain) ctx.secure_channel_type = misc.SEC_CHAN_BDC ctx.replica_flags |= (drsuapi.DRSUAPI_DRS_WRIT_REP | drsuapi.DRSUAPI_DRS_FULL_SYNC_IN_PROGRESS) ctx.domain_replica_flags = ctx.replica_flags if domain_critical_only: ctx.domain_replica_flags |= drsuapi.DRSUAPI_DRS_CRITICAL_ONLY ctx.do_join() logger.info("Joined domain %s (SID %s) as a DC" % (ctx.domain_name, ctx.domsid)) def join_clone(logger=None, server=None, creds=None, lp=None, targetdir=None, domain=None, include_secrets=False, dns_backend="NONE"): """Creates a local clone of a remote DC.""" ctx = DCCloneContext(logger, server, creds, lp, targetdir=targetdir, domain=domain, dns_backend=dns_backend, include_secrets=include_secrets) lp.set("workgroup", ctx.domain_name) logger.info("workgroup is %s" % ctx.domain_name) lp.set("realm", ctx.realm) logger.info("realm is %s" % ctx.realm) ctx.do_join() logger.info("Cloned domain %s (SID %s)" % (ctx.domain_name, ctx.domsid)) return ctx def join_subdomain(logger=None, server=None, creds=None, lp=None, site=None, netbios_name=None, targetdir=None, parent_domain=None, dnsdomain=None, netbios_domain=None, machinepass=None, adminpass=None, use_ntvfs=False, dns_backend=None, plaintext_secrets=False, backend_store=None): """Join as a DC.""" ctx = DCJoinContext(logger, server, creds, lp, site, netbios_name, targetdir, parent_domain, machinepass, use_ntvfs, dns_backend, plaintext_secrets, backend_store=backend_store) ctx.subdomain = True if adminpass is None: ctx.adminpass = samba.generate_random_password(12, 32) else: ctx.adminpass = adminpass ctx.parent_domain_name = ctx.domain_name ctx.domain_name = netbios_domain ctx.realm = dnsdomain ctx.parent_dnsdomain = ctx.dnsdomain ctx.parent_partition_dn = ctx.get_parent_partition_dn() ctx.dnsdomain = dnsdomain ctx.partition_dn = "CN=%s,CN=Partitions,%s" % (ctx.domain_name, ctx.config_dn) ctx.naming_master = ctx.get_naming_master() if ctx.naming_master != ctx.server: logger.info("Reconnecting to naming master %s" % ctx.naming_master) ctx.server = ctx.naming_master ctx.samdb = SamDB(url="ldap://%s" % ctx.server, session_info=system_session(), credentials=ctx.creds, lp=ctx.lp) res = ctx.samdb.search(base="", scope=ldb.SCOPE_BASE, attrs=['dnsHostName'], controls=[]) ctx.server = res[0]["dnsHostName"] logger.info("DNS name of new naming master is %s" % ctx.server) ctx.base_dn = samba.dn_from_dns_name(dnsdomain) ctx.forestsid = ctx.domsid ctx.domsid = security.random_sid() ctx.acct_dn = None ctx.dnshostname = "%s.%s" % (ctx.myname.lower(), ctx.dnsdomain) # Windows uses 240 bytes as UTF16 so we do ctx.trustdom_pass = samba.generate_random_machine_password(120, 120) ctx.userAccountControl = samba.dsdb.UF_SERVER_TRUST_ACCOUNT | samba.dsdb.UF_TRUSTED_FOR_DELEGATION ctx.SPNs.append('E3514235-4B06-11D1-AB04-00C04FC2DCD2/$NTDSGUID/%s' % ctx.dnsdomain) ctx.secure_channel_type = misc.SEC_CHAN_BDC ctx.replica_flags |= (drsuapi.DRSUAPI_DRS_WRIT_REP | drsuapi.DRSUAPI_DRS_FULL_SYNC_IN_PROGRESS) ctx.domain_replica_flags = ctx.replica_flags ctx.do_join() ctx.logger.info("Created domain %s (SID %s) as a DC" % (ctx.domain_name, ctx.domsid)) class DCCloneContext(DCJoinContext): """Clones a remote DC.""" def __init__(ctx, logger=None, server=None, creds=None, lp=None, targetdir=None, domain=None, dns_backend=None, include_secrets=False): super(DCCloneContext, ctx).__init__(logger, server, creds, lp, targetdir=targetdir, domain=domain, dns_backend=dns_backend) # As we don't want to create or delete these DNs, we set them to None ctx.server_dn = None ctx.ntds_dn = None ctx.acct_dn = None ctx.myname = ctx.server.split('.')[0] ctx.ntds_guid = None ctx.rid_manager_dn = None # Save this early ctx.remote_dc_ntds_guid = ctx.samdb.get_ntds_GUID() ctx.replica_flags |= (drsuapi.DRSUAPI_DRS_WRIT_REP | drsuapi.DRSUAPI_DRS_FULL_SYNC_IN_PROGRESS) if not include_secrets: ctx.replica_flags |= drsuapi.DRSUAPI_DRS_SPECIAL_SECRET_PROCESSING ctx.domain_replica_flags = ctx.replica_flags def join_finalise(ctx): ctx.logger.info("Setting isSynchronized and dsServiceName") m = ldb.Message() m.dn = ldb.Dn(ctx.local_samdb, '@ROOTDSE') m["isSynchronized"] = ldb.MessageElement("TRUE", ldb.FLAG_MOD_REPLACE, "isSynchronized") # We want to appear to be the server we just cloned guid = ctx.remote_dc_ntds_guid m["dsServiceName"] = ldb.MessageElement("" % str(guid), ldb.FLAG_MOD_REPLACE, "dsServiceName") ctx.local_samdb.modify(m) def do_join(ctx): ctx.build_nc_lists() # When cloning a DC, we just want to provision a DC locally, then # grab the remote DC's entire DB via DRS replication ctx.join_provision() ctx.join_replicate() ctx.join_finalise() # Used to create a renamed backup of a DC. Renaming the domain means that the # cloned/backup DC can be started without interfering with the production DC. class DCCloneAndRenameContext(DCCloneContext): """Clones a remote DC, renaming the domain along the way.""" def __init__(ctx, new_base_dn, new_domain_name, new_realm, logger=None, server=None, creds=None, lp=None, targetdir=None, domain=None, dns_backend=None, include_secrets=True): super(DCCloneAndRenameContext, ctx).__init__(logger, server, creds, lp, targetdir=targetdir, domain=domain, dns_backend=dns_backend, include_secrets=include_secrets) # store the new DN (etc) that we want the cloned DB to use ctx.new_base_dn = new_base_dn ctx.new_domain_name = new_domain_name ctx.new_realm = new_realm def create_replicator(ctx, repl_creds, binding_options): """Creates a new DRS object for managing replications""" # We want to rename all the domain objects, and the simplest way to do # this is during replication. This is because the base DN of the top- # level replicated object will flow through to all the objects below it binding_str = "ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options) return drs_utils.drs_ReplicateRenamer(binding_str, ctx.lp, repl_creds, ctx.local_samdb, ctx.invocation_id, ctx.base_dn, ctx.new_base_dn) def create_non_global_lp(ctx, global_lp): '''Creates a non-global LoadParm based on the global LP's settings''' # the samba code shares a global LoadParm by default. Here we create a # new LoadParm that retains the global settings, but any changes we # make to it won't automatically affect the rest of the samba code. # The easiest way to do this is to dump the global settings to a # temporary smb.conf file, and then load the temp file into a new # non-global LoadParm fd, tmp_file = tempfile.mkstemp() global_lp.dump(False, tmp_file) local_lp = samba.param.LoadParm(filename_for_non_global_lp=tmp_file) os.remove(tmp_file) return local_lp def rename_dn(ctx, dn_str): '''Uses string substitution to replace the base DN''' old_base_dn = ctx.base_dn return re.sub('%s$' % old_base_dn, ctx.new_base_dn, dn_str) # we want to override the normal DCCloneContext's join_provision() so that # use the new domain DNs during the provision. We do this because: # - it sets up smb.conf/secrets.ldb with the new realm/workgroup values # - it sets up a default SAM DB that uses the new Schema DNs (without which # we couldn't apply the renamed DRS objects during replication) def join_provision(ctx): """Provision the local (renamed) SAM.""" print("Provisioning the new (renamed) domain...") # the provision() calls make_smbconf() which uses lp.dump()/lp.load() # to create a new smb.conf. By default, it uses the global LoadParm to # do this, and so it would overwrite the realm/domain values globally. # We still need the global LoadParm to retain the old domain's details, # so we can connect to (and clone) the existing DC. # So, copy the global settings into a non-global LoadParm, which we can # then pass into provision(). This generates a new smb.conf correctly, # without overwriting the global realm/domain values just yet. non_global_lp = ctx.create_non_global_lp(ctx.lp) # do the provision with the new/renamed domain DN values presult = provision(ctx.logger, system_session(), targetdir=ctx.targetdir, samdb_fill=FILL_DRS, realm=ctx.new_realm, lp=non_global_lp, rootdn=ctx.rename_dn(ctx.root_dn), domaindn=ctx.new_base_dn, schemadn=ctx.rename_dn(ctx.schema_dn), configdn=ctx.rename_dn(ctx.config_dn), domain=ctx.new_domain_name, domainsid=ctx.domsid, serverrole="active directory domain controller", dns_backend=ctx.dns_backend) print("Provision OK for renamed domain DN %s" % presult.domaindn) ctx.local_samdb = presult.samdb ctx.paths = presult.paths