# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
+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
-from samba.dcerpc import security, drsuapi, misc, nbt, lsa, drsblobs
+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 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):
super(DCJoinException, self).__init__("Can't join, error: %s" % msg)
-class dc_join(object):
+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, clone_only=False):
- ctx.clone_only=clone_only
+ 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.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.creds.set_gensec_features(creds.get_gensec_features() | gensec.FEATURE_SEAL)
ctx.net = Net(creds=ctx.creds, lp=ctx.lp)
- if server is not None:
- ctx.server = server
- else:
- 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.server = server
+ ctx.forced_local_samdb = forced_local_samdb
- ctx.samdb = SamDB(url="ldap://%s" % ctx.server,
- session_info=system_session(),
- credentials=ctx.creds, lp=ctx.lp)
+ 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, (enum, estr):
+ except ldb.LdbError as e4:
+ (enum, estr) = e4.args
raise DCJoinException(estr)
ctx.acct_pass = samba.generate_random_machine_password(128, 255)
ctx.dnsdomain = ctx.samdb.domain_dns_name()
- if clone_only:
- # 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()
- else:
+ # 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
else:
if len(res_domaindns) == 0:
ctx.dns_backend = "NONE"
- print "NO DNS zone information found in source domain, not replicating DNS"
+ print("NO DNS zone information found in source domain, not replicating DNS")
else:
ctx.dns_backend = dns_backend
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:
ctx.del_noerror(r.dn, recursive=True)
try:
ctx.samdb.delete(dn)
- print "Deleted %s" % dn
+ print("Deleted %s" % dn)
except Exception:
pass
- def cleanup_old_accounts(ctx):
+ 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
- creds = Credentials()
- creds.guess(ctx.lp)
- try:
- creds.set_machine_account(ctx.lp)
- 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 "
- "maching the password we already have. "
- "To override, remove secrets.ldb and secrets.tdb"
- % ctx.samname)
+ 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)
ldb.binary_encode("dns/%s" % ctx.dnshostname)))
- def cleanup_old_join(ctx):
+ 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()
+ ctx.cleanup_old_accounts(force=force)
if ctx.connection_dn is not None:
ctx.del_noerror(ctx.connection_dn)
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"""
"""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 != "":
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]).get_extended_component('GUID')))
+ 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])
'''check if a DN exists'''
try:
res = ctx.samdb.search(base=dn, scope=ldb.SCOPE_BASE, attrs=[])
- except ldb.LdbError, (enum, estr):
+ except ldb.LdbError as e5:
+ (enum, estr) = e5.args
if enum == ldb.ERR_NO_SUCH_OBJECT:
return False
raise
def add_krbtgt_account(ctx):
'''RODCs need a special krbtgt account'''
- print "Adding %s" % ctx.krbtgt_dn
+ print("Adding %s" % ctx.krbtgt_dn)
rec = {
"dn" : ctx.krbtgt_dn,
"objectclass" : "user",
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
+ print("Got krbtgt_name=%s" % ctx.krbtgt_name)
m = ldb.Message()
m.dn = ldb.Dn(ctx.samdb, ctx.acct_dn)
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)
+ 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() >= 4:
+ 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)
def join_ntdsdsa_obj(ctx):
'''return the ntdsdsa object to add'''
- print "Adding %s" % ctx.ntds_dn
+ print("Adding %s" % ctx.ntds_dn)
rec = {
"dn" : ctx.ntds_dn,
"objectclass" : "nTDSDSA",
'''add the ntdsdsa object'''
rec = ctx.join_ntdsdsa_obj()
- if ctx.RODC:
+ 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])
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):
+ 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
+ print("Adding %s" % ctx.acct_dn)
rec = {
"dn" : ctx.acct_dn,
"objectClass": "computer",
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:
- ctx.samdb.add(rec)
+ 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
+ print("Adding %s" % ctx.server_dn)
rec = {
"dn": ctx.server_dn,
"objectclass" : "server",
ctx.samdb.modify(m)
if ctx.connection_dn is not None:
- print "Adding %s" % ctx.connection_dn
+ print("Adding %s" % ctx.connection_dn)
rec = {
"dn" : ctx.connection_dn,
"objectclass" : "nTDSConnection",
ctx.samdb.add(rec)
if ctx.acct_dn:
- print "Adding SPNs to %s" % 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)):
# 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
+ 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, (num, _):
+ except ldb.LdbError as e2:
+ (num, _) = e2.args
if num != ldb.ERR_UNWILLING_TO_PERFORM:
pass
ctx.net.set_password(account_name=ctx.samname,
newpassword=ctx.acct_pass.encode('utf-8'))
res = ctx.samdb.search(base=ctx.acct_dn, scope=ldb.SCOPE_BASE,
- attrs=["msDS-KeyVersionNumber"])
+ 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)
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')),
- "DNSNAME" : ctx.dnshostname}))
+ {"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"]
+ 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"]
samba.dsdb.UF_ACCOUNTDISABLE)
try:
ctx.samdb.add(msg)
- except ldb.LdbError, (num, _):
+ except ldb.LdbError as e:
+ (num, _) = e.args
if num != ldb.ERR_ENTRY_ALREADY_EXISTS:
raise
# 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
+ 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, (num, _):
+ 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,
def join_add_objects2(ctx):
"""add the various objects needed for the join, for subdomains post replication"""
- print "Adding %s" % ctx.partition_dn
+ 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 = {
def join_provision(ctx):
"""Provision the local SAM."""
- print "Calling bare provision"
+ print("Calling bare provision")
smbconf = ctx.lp.configfile
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)
- print "Provision OK for domain DN %s" % presult.domaindn
+ 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
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]).get_extended_component('GUID')))
+ 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])
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"
+ print("Starting replication")
ctx.local_samdb.transaction_start()
try:
source_dsa_invocation_id = misc.GUID(ctx.samdb.get_invocation_id())
repl_creds = ctx.creds
binding_options = "seal"
- if ctx.lp.log_level() >= 5:
+ if ctx.lp.log_level() >= 9:
binding_options += ",print"
- repl = drs_utils.drs_Replicate(
- "ncacn_ip_tcp:%s[%s]" % (ctx.server, binding_options),
- ctx.lp, repl_creds, ctx.local_samdb, ctx.invocation_id)
+
+ 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,
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"
+ 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,
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)"
+ 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))
+ print("Replicating %s" % (str(nc)))
repl.replicate(nc, source_dsa_invocation_id,
- destination_dsa_guid, rodc=ctx.RODC,
- replica_flags=ctx.replica_flags)
+ destination_dsa_guid, rodc=ctx.RODC,
+ replica_flags=ctx.replica_flags)
if ctx.RODC:
repl.replicate(ctx.acct_dn, source_dsa_invocation_id,
repl.replicate(ctx.rid_manager_dn, source_dsa_invocation_id,
destination_dsa_guid,
exop=drsuapi.DRSUAPI_EXOP_FSMO_RID_ALLOC)
- except samba.DsExtendedError, (enum, estr):
+ 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."
+ 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.source_dsa_invocation_id = source_dsa_invocation_id
ctx.destination_dsa_guid = destination_dsa_guid
- print "Committing SAM database"
+ print("Committing SAM database")
except:
ctx.local_samdb.transaction_cancel()
raise
if not ctx.RODC:
r.options |= drsuapi.DRSUAPI_DRS_WRIT_REP
- if ctx.drsuapi:
- ctx.drsuapi.DsReplicaUpdateRefs(ctx.drsuapi_handle, 1, r)
+ 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."""
# 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
- if not ctx.clone_only:
- ctx.logger.info("Sending DsReplicaUpdateRefs for all the replicated partitions")
- for nc in ctx.nc_list:
- ctx.send_DsReplicaUpdateRefs(nc)
+ ctx.logger.info("Sending DsReplicaUpdateRefs for all the replicated partitions")
+ for nc in ctx.nc_list:
+ ctx.send_DsReplicaUpdateRefs(nc)
- if not ctx.clone_only and ctx.RODC:
- print "Setting RODC invocationId"
+ 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.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
- if ctx.clone_only:
- guid = ctx.remote_dc_ntds_guid
- else:
- guid = ctx.ntds_guid
-
+ guid = ctx.ntds_guid
m["dsServiceName"] = ldb.MessageElement("<GUID=%s>" % str(guid),
ldb.FLAG_MOD_REPLACE, "dsServiceName")
ctx.local_samdb.modify(m)
- if ctx.clone_only or ctx.subdomain:
+ if ctx.subdomain:
return
secrets_ldb = Ldb(ctx.paths.secrets, session_info=system_session(), lp=ctx.lp)
def join_setup_trusts(ctx):
"""provision the local SAM."""
- print "Setup domain trusts with server %s" % ctx.server
+ 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)
"trustAuthIncoming" : ndr_pack(outgoing),
"trustAuthOutgoing" : ndr_pack(outgoing),
"securityIdentifier" : ndr_pack(ctx.forestsid)
- }
+ }
ctx.local_samdb.add(rec)
rec = {
"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 do_join(ctx):
+ 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
ctx.full_nc_list += [ctx.domaindns_zone]
ctx.full_nc_list += [ctx.forestdns_zone]
- if not ctx.clone_only:
- if ctx.promote_existing:
- ctx.promote_possible()
- else:
- ctx.cleanup_old_join()
+ def do_join(ctx):
+ ctx.build_nc_lists()
+
+ if ctx.promote_existing:
+ ctx.promote_possible()
+ else:
+ ctx.cleanup_old_join()
try:
- if not ctx.clone_only:
- ctx.join_add_objects()
+ ctx.join_add_objects()
ctx.join_provision()
ctx.join_replicate()
- if (not ctx.clone_only and ctx.subdomain):
+ 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"
+ print("Join failed - cleaning up")
except IOError:
pass
- if not ctx.clone_only:
- ctx.cleanup_old_join()
+ 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):
+ promote_existing=False, plaintext_secrets=False,
+ backend_store=None):
"""Join as a RODC."""
- ctx = dc_join(logger, server, creds, lp, site, netbios_name, targetdir, domain,
- machinepass, use_ntvfs, dns_backend, promote_existing)
+ 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)
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):
+ promote_existing=False, plaintext_secrets=False,
+ backend_store=None):
"""Join as a DC."""
- ctx = dc_join(logger, server, creds, lp, site, netbios_name, targetdir, domain,
- machinepass, use_ntvfs, dns_backend, promote_existing)
+ 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)
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):
- """Join as a DC."""
- ctx = dc_join(logger, server, creds, lp, site=None, netbios_name=None, targetdir=targetdir, domain=domain,
- machinepass=None, use_ntvfs=False, dns_backend="NONE", promote_existing=False, clone_only=True)
+ 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.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
-
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):
+ dns_backend=None, plaintext_secrets=False,
+ backend_store=None):
"""Join as a DC."""
- ctx = dc_join(logger, server, creds, lp, site, netbios_name, targetdir, parent_domain,
- machinepass, use_ntvfs, dns_backend)
+ 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)
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("<GUID=%s>" % 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