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|
# Authors:
# Alexander Bokovoy <abokovoy@redhat.com>
#
# Copyright (C) 2011 Red Hat
# see file 'COPYING' for use and warranty information
#
# Portions (C) Andrew Tridgell, Andrew Bartlett
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
# Make sure we only run this module at the server where samba4-python
# package is installed to avoid issues with unavailable modules
from ipalib.plugins.baseldap import *
from ipalib import api, Str, Password, DefaultFrom, _, ngettext, Object
from ipalib.parameters import Enum
from ipalib import Command
from ipalib import errors
from ipapython import ipautil
from ipapython.ipa_log_manager import *
from ipapython.dn import DN
from ipaserver.install import installutils
from ipaserver.plugins import ldap2
from ipalib.util import normalize_name
import os, string, struct, copy
import uuid
from samba import param
from samba import credentials
from samba.dcerpc import security, lsa, drsblobs, nbt, netlogon
from samba.ndr import ndr_pack
from samba import net
import samba
import random
from M2Crypto import RC4
try:
from ldap.controls import RequestControl as LDAPControl #pylint: disable=F0401
except ImportError:
from ldap.controls import LDAPControl as LDAPControl #pylint: disable=F0401
import ldap as _ldap
from ipapython.ipaldap import IPAdmin
from ipalib.session import krbccache_dir, krbccache_prefix
from dns import resolver, rdatatype
from dns.exception import DNSException
__doc__ = _("""
Classes to manage trust joins using DCE-RPC calls
The code in this module relies heavily on samba4-python package
and Samba4 python bindings.
""")
def is_sid_valid(sid):
try:
security.dom_sid(sid)
except TypeError:
return False
else:
return True
access_denied_error = errors.ACIError(info=_('CIFS server denied your credentials'))
dcerpc_error_codes = {
-1073741823:
errors.RemoteRetrieveError(reason=_('communication with CIFS server was unsuccessful')),
-1073741790: access_denied_error,
-1073741715: access_denied_error,
-1073741614: access_denied_error,
-1073741603:
errors.ValidationError(name=_('AD domain controller'), error=_('unsupported functional level')),
}
dcerpc_error_messages = {
"NT_STATUS_OBJECT_NAME_NOT_FOUND":
errors.NotFound(reason=_('Cannot find specified domain or server name')),
"NT_STATUS_INVALID_PARAMETER_MIX":
errors.RequirementError(name=_('At least the domain or IP address should be specified')),
}
def assess_dcerpc_exception(num=None,message=None):
"""
Takes error returned by Samba bindings and converts it into
an IPA error class.
"""
if num and num in dcerpc_error_codes:
return dcerpc_error_codes[num]
if message and message in dcerpc_error_messages:
return dcerpc_error_messages[message]
reason = _('''CIFS server communication error: code "%(num)s",
message "%(message)s" (both may be "None")''') % dict(num=num, message=message)
return errors.RemoteRetrieveError(reason=reason)
class ExtendedDNControl(LDAPControl):
# This class attempts to implement LDAP control that would work
# with both python-ldap 2.4.x and 2.3.x, thus there is mix of properties
# from both worlds and encodeControlValue has default parameter
def __init__(self):
self.controlValue = 1
self.controlType = "1.2.840.113556.1.4.529"
self.criticality = False
self.integerValue = 1
def encodeControlValue(self, value=None):
return '0\x03\x02\x01\x01'
class DomainValidator(object):
ATTR_FLATNAME = 'ipantflatname'
ATTR_SID = 'ipantsecurityidentifier'
ATTR_TRUSTED_SID = 'ipanttrusteddomainsid'
ATTR_TRUST_PARTNER = 'ipanttrustpartner'
ATTR_TRUST_AUTHOUT = 'ipanttrustauthoutgoing'
def __init__(self, api):
self.api = api
self.ldap = self.api.Backend.ldap2
self.domain = None
self.flatname = None
self.dn = None
self.sid = None
self._domains = None
self._info = dict()
self._creds = None
self._parm = None
def is_configured(self):
cn_trust_local = DN(('cn', self.api.env.domain), self.api.env.container_cifsdomains, self.api.env.basedn)
try:
(dn, entry_attrs) = self.ldap.get_entry(cn_trust_local, [self.ATTR_FLATNAME, self.ATTR_SID])
self.flatname = entry_attrs[self.ATTR_FLATNAME][0]
self.sid = entry_attrs[self.ATTR_SID][0]
self.dn = dn
self.domain = self.api.env.domain
except errors.NotFound, e:
return False
return True
def get_trusted_domains(self):
"""Returns dict of trusted domain tuples (flatname, sid, trust_auth_outgoing), keyed by domain name"""
cn_trust = DN(('cn', 'ad'), self.api.env.container_trusts, self.api.env.basedn)
try:
search_kw = {'objectClass': 'ipaNTTrustedDomain'}
filter = self.ldap.make_filter(search_kw, rules=self.ldap.MATCH_ALL)
(entries, truncated) = self.ldap.find_entries(filter=filter, base_dn=cn_trust,
attrs_list=[self.ATTR_TRUSTED_SID,
self.ATTR_FLATNAME,
self.ATTR_TRUST_PARTNER,
self.ATTR_TRUST_AUTHOUT])
result = dict()
for dn, entry in entries:
try:
trust_partner = entry[self.ATTR_TRUST_PARTNER][0]
flatname_normalized = entry[self.ATTR_FLATNAME][0].lower()
trusted_sid = entry[self.ATTR_TRUSTED_SID][0]
except KeyError, e:
# Some piece of trusted domain info in LDAP is missing
# Skip the domain, but leave log entry for investigation
api.log.warn("Trusted domain '%s' entry misses an attribute: %s",
dn, e)
continue
trust_authout = entry.get(self.ATTR_TRUST_AUTHOUT, [None])[0]
# We were able to read all Trusted domain attributes but the secret
# User is not member of trust admins group
if trust_authout is None:
raise errors.ACIError(
info=_('communication with trusted domains is allowed '
'for Trusts administrator group members only'))
result[trust_partner] = (flatname_normalized,
security.dom_sid(trusted_sid),
trust_authout)
return result
except errors.NotFound, e:
return []
def get_domain_by_sid(self, sid, exact_match=False):
if not self.domain:
# our domain is not configured or self.is_configured() never run
# reject SIDs as we can't check correctness of them
raise errors.ValidationError(name='sid',
error=_('domain is not configured'))
# Parse sid string to see if it is really in a SID format
try:
test_sid = security.dom_sid(sid)
except TypeError:
raise errors.ValidationError(name='sid',
error=_('SID is not valid'))
# At this point we have SID_NT_AUTHORITY family SID and really need to
# check it against prefixes of domain SIDs we trust to
if not self._domains:
self._domains = self.get_trusted_domains()
if len(self._domains) == 0:
# Our domain is configured but no trusted domains are configured
# This means we can't check the correctness of a trusted
# domain SIDs
raise errors.ValidationError(name='sid',
error=_('no trusted domain is configured'))
# We have non-zero list of trusted domains and have to go through
# them one by one and check their sids as prefixes / exact match
# depending on the value of exact_match flag
if exact_match:
# check exact match of sids
for domain in self._domains:
if sid == str(self._domains[domain][1]):
return domain
raise errors.NotFound(reason=_("SID does not match exactly"
"with any trusted domain's SID"))
else:
# check as prefixes
test_sid_subauths = test_sid.sub_auths
for domain in self._domains:
domsid = self._domains[domain][1]
sub_auths = domsid.sub_auths
num_auths = min(test_sid.num_auths, domsid.num_auths)
if test_sid_subauths[:num_auths] == sub_auths[:num_auths]:
return domain
raise errors.NotFound(reason=_('SID does not match any '
'trusted domain'))
def is_trusted_sid_valid(self, sid):
try:
self.get_domain_by_sid(sid)
except (errors.ValidationError, errors.NotFound):
return False
else:
return True
def is_trusted_domain_sid_valid(self, sid):
try:
self.get_domain_by_sid(sid, exact_match=True)
except (errors.ValidationError, errors.NotFound):
return False
else:
return True
def get_sid_from_domain_name(self, name):
"""Returns binary representation of SID for the trusted domain name
or None if name is not in the list of trusted domains."""
domains = self.get_trusted_domains()
if name in domains:
return domains[name][1]
else:
return None
def get_trusted_domain_objects(self, domain=None, flatname=None, filter="",
attrs=None, scope=_ldap.SCOPE_SUBTREE, basedn=None):
"""
Search for LDAP objects in a trusted domain specified either by `domain'
or `flatname'. The actual LDAP search is specified by `filter', `attrs',
`scope' and `basedn'. When `basedn' is empty, database root DN is used.
"""
assert domain is not None or flatname is not None
"""Returns SID for the trusted domain object (user or group only)"""
if not self.domain:
# our domain is not configured or self.is_configured() never run
raise errors.ValidationError(name=_('Trust setup'),
error=_('Our domain is not configured'))
if not self._domains:
self._domains = self.get_trusted_domains()
if len(self._domains) == 0:
# Our domain is configured but no trusted domains are configured
raise errors.ValidationError(name=_('Trust setup'),
error=_('No trusted domain is not configured'))
entries = None
if domain is not None:
if domain not in self._domains:
raise errors.ValidationError(name=_('trusted domain object'),
error= _('domain is not trusted'))
# Now we have a name to check against our list of trusted domains
entries = self.search_in_gc(domain, filter, attrs, scope, basedn)
elif flatname is not None:
# Flatname was specified, traverse through the list of trusted
# domains first to find the proper one
found_flatname = False
for domain in self._domains:
if self._domains[domain][0] == flatname:
found_flatname = True
entries = self.search_in_gc(domain, filter, attrs, scope, basedn)
if entries:
break
if not found_flatname:
raise errors.ValidationError(name=_('trusted domain object'),
error= _('no trusted domain matched the specified flat name'))
if not entries:
raise errors.NotFound(reason=_('trusted domain object not found'))
return entries
def get_trusted_domain_object_sid(self, object_name):
components = normalize_name(object_name)
if not ('domain' in components or 'flatname' in components):
# No domain or realm specified, ambiguous search
raise errors.ValidationError(name=_('trusted domain object'),
error= _('Ambiguous search, user domain was not specified'))
attrs = ['objectSid']
filter = '(&(sAMAccountName=%(name)s)(|(objectClass=user)(objectClass=group)))' \
% dict(name=components['name'])
scope = _ldap.SCOPE_SUBTREE
entries = self.get_trusted_domain_objects(components.get('domain'),
components.get('flatname'), filter, attrs, scope)
if len(entries) > 1:
# Treat non-unique entries as invalid
raise errors.ValidationError(name=_('trusted domain object'),
error= _('Trusted domain did not return a unique object'))
sid = self.__sid_to_str(entries[0][1]['objectSid'][0])
try:
test_sid = security.dom_sid(sid)
return unicode(test_sid)
except TypeError, e:
raise errors.ValidationError(name=_('trusted domain object'),
error= _('Trusted domain did not return a valid SID for the object'))
def get_trusted_domain_user_and_groups(self, object_name):
"""
Returns a tuple with user SID and a list of SIDs of all groups he is
a member of.
LIMITATIONS:
- only Trusted Admins group members can use this function as it
uses secret for IPA-Trusted domain link
- List of group SIDs does not contain group memberships outside
of the trusted domain
"""
components = normalize_name(object_name)
domain = components.get('domain')
flatname = components.get('flatname')
name = components.get('name')
is_valid_sid = is_sid_valid(object_name)
if is_valid_sid:
# Find a trusted domain for the SID
domain = self.get_domain_by_sid(object_name)
# Now search a trusted domain for a user with this SID
attrs = ['cn']
filter = '(&(objectClass=user)(objectSid=%(sid)s))' \
% dict(sid=object_name)
try:
entries = self.get_trusted_domain_objects(domain=domain, filter=filter,
attrs=attrs, scope=_ldap.SCOPE_SUBTREE)
except errors.NotFound:
raise errors.NotFound(reason=_('trusted domain user not found'))
user_dn = entries[0][0]
elif domain or flatname:
attrs = ['cn']
filter = '(&(sAMAccountName=%(name)s)(objectClass=user))' \
% dict(name=name)
try:
entries = self.get_trusted_domain_objects(domain,
flatname, filter, attrs, _ldap.SCOPE_SUBTREE)
except errors.NotFound:
raise errors.NotFound(reason=_('trusted domain user not found'))
user_dn = entries[0][0]
else:
# No domain or realm specified, ambiguous search
raise errors.ValidationError(name=_('trusted domain object'),
error= _('Ambiguous search, user domain was not specified'))
# Get SIDs of user object and it's groups
# tokenGroups attribute must be read with a scope BASE for a known user
# distinguished name to avoid search error
attrs = ['objectSID', 'tokenGroups']
filter = "(objectClass=user)"
entries = self.get_trusted_domain_objects(domain,
flatname, filter, attrs, _ldap.SCOPE_BASE, user_dn)
object_sid = self.__sid_to_str(entries[0][1]['objectSid'][0])
group_sids = [self.__sid_to_str(sid) for sid in entries[0][1]['tokenGroups']]
return (object_sid, group_sids)
def __sid_to_str(self, sid):
"""
Converts binary SID to string representation
Returns unicode string
"""
sid_rev_num = ord(sid[0])
number_sub_id = ord(sid[1])
ia = struct.unpack('!Q','\x00\x00'+sid[2:8])[0]
subs = [
struct.unpack('<I',sid[8+4*i:12+4*i])[0]
for i in range(number_sub_id)
]
return u'S-%d-%d-%s' % ( sid_rev_num, ia, '-'.join([str(s) for s in subs]),)
def __extract_trusted_auth(self, info):
"""
Returns in clear trusted domain account credentials
"""
clear = None
auth = drsblobs.trustAuthInOutBlob()
auth.__ndr_unpack__(info['auth'])
auth_array = auth.current.array[0]
if auth_array.AuthType == lsa.TRUST_AUTH_TYPE_CLEAR:
clear = ''.join(map(chr, auth_array.AuthInfo.password)).decode('utf-16-le')
return clear
def __kinit_as_trusted_account(self, info, password):
"""
Initializes ccache with trusted domain account credentials.
Applies session code defaults for ccache directory and naming prefix.
Session code uses krbccache_prefix+<pid>, we use
krbccache_prefix+<TD>+<domain netbios name> so there is no clash
Returns tuple (ccache name, principal) where (None, None) signifes an error
on ccache initialization
"""
ccache_name = os.path.join(krbccache_dir, "%sTD%s" % (krbccache_prefix, info['name'][0]))
principal = '%s$@%s' % (self.flatname, info['dns_domain'].upper())
(stdout, stderr, returncode) = ipautil.run(['/usr/bin/kinit', principal],
env={'KRB5CCNAME':ccache_name},
stdin=password, raiseonerr=False)
if returncode == 0:
return (ccache_name, principal)
else:
if returncode == 1:
raise errors.ACIError(
info=_("KDC for %(domain)s denied trust account for IPA domain with a message '%(message)s'") %
dict(domain=info['dns_domain'],message=stderr.strip()))
return (None, None)
def search_in_gc(self, domain, filter, attrs, scope, basedn=None):
"""
Perform LDAP search in a trusted domain `domain' Global Catalog.
Returns resulting entries or None
"""
entries = None
sid = None
info = self.__retrieve_trusted_domain_gc_list(domain)
if not info:
raise errors.ValidationError(name=_('Trust setup'),
error=_('Cannot retrieve trusted domain GC list'))
for (host, port) in info['gc']:
entries = self.__search_in_gc(info, host, port, filter, attrs, scope, basedn)
if entries:
break
return entries
def __search_in_gc(self, info, host, port, filter, attrs, scope, basedn=None):
"""
Actual search in AD LDAP server, using SASL GSSAPI authentication
Returns LDAP result or None
"""
conn = IPAdmin(host=host, port=port, no_schema=True, decode_attrs=False)
auth = self.__extract_trusted_auth(info)
if attrs is None:
attrs = []
if auth:
(ccache_name, principal) = self.__kinit_as_trusted_account(info, auth)
if ccache_name:
old_ccache = os.environ.get('KRB5CCNAME')
os.environ["KRB5CCNAME"] = ccache_name
# OPT_X_SASL_NOCANON is used to avoid hard requirement for PTR
# records pointing back to the same host name
conn.set_option(_ldap.OPT_X_SASL_NOCANON, _ldap.OPT_ON)
conn.do_sasl_gssapi_bind()
if basedn is None:
# Use domain root base DN
basedn = DN(*map(lambda p: ('dc', p), info['dns_domain'].split('.')))
entries = conn.get_entries(basedn, scope, filter, attrs)
os.environ["KRB5CCNAME"] = old_ccache
return entries
def __retrieve_trusted_domain_gc_list(self, domain):
"""
Retrieves domain information and preferred GC list
Returns dictionary with following keys
name -- NetBIOS name of the trusted domain
dns_domain -- DNS name of the trusted domain
auth -- encrypted credentials for trusted domain account
gc -- array of tuples (server, port) for Global Catalog
"""
if domain in self._info:
return self._info[domain]
if not self._creds:
self._parm = param.LoadParm()
self._parm.load(os.path.join(ipautil.SHARE_DIR,"smb.conf.empty"))
self._parm.set('netbios name', self.flatname)
self._creds = credentials.Credentials()
self._creds.set_kerberos_state(credentials.MUST_USE_KERBEROS)
self._creds.guess(self._parm)
self._creds.set_workstation(self.flatname)
netrc = net.Net(creds=self._creds, lp=self._parm)
finddc_error = None
result = None
try:
result = netrc.finddc(domain=domain, flags=nbt.NBT_SERVER_LDAP | nbt.NBT_SERVER_GC | nbt.NBT_SERVER_CLOSEST)
except RuntimeError, e:
finddc_error = e
info = dict()
info['auth'] = self._domains[domain][2]
servers = []
if result:
info['name'] = unicode(result.domain_name)
info['dns_domain'] = unicode(result.dns_domain)
servers = [(unicode(result.pdc_dns_name), 3268)]
else:
info['name'] = self._domains[domain]
info['dns_domain'] = domain
# Retrieve GC servers list
gc_name = '_gc._tcp.%s.' % info['dns_domain']
try:
answers = resolver.query(gc_name, rdatatype.SRV)
except DNSException, e:
answers = []
for answer in answers:
server = str(answer.target).rstrip(".")
servers.append((server, answer.port))
info['gc'] = servers
# Both methods should not fail at the same time
if finddc_error and len(info['gc']) == 0:
raise assess_dcerpc_exception(message=str(finddc_error))
self._info[domain] = info
return info
class TrustDomainInstance(object):
def __init__(self, hostname, creds=None):
self.parm = param.LoadParm()
self.parm.load(os.path.join(ipautil.SHARE_DIR,"smb.conf.empty"))
if len(hostname) > 0:
self.parm.set('netbios name', hostname)
self.creds = creds
self.hostname = hostname
self.info = {}
self._pipe = None
self._policy_handle = None
self.read_only = False
def __gen_lsa_connection(self, binding):
if self.creds is None:
raise errors.RequirementError(name=_('CIFS credentials object'))
try:
result = lsa.lsarpc(binding, self.parm, self.creds)
return result
except RuntimeError, (num, message):
raise assess_dcerpc_exception(num=num, message=message)
def __init_lsa_pipe(self, remote_host):
"""
Try to initialize connection to the LSA pipe at remote host.
This method tries consequently all possible transport options
and selects one that works. See __gen_lsa_bindings() for details.
The actual result may depend on details of existing credentials.
For example, using signing causes NO_SESSION_KEY with Win2K8 and
using kerberos against Samba with signing does not work.
"""
# short-cut: if LSA pipe is initialized, skip completely
if self._pipe:
return
attempts = 0
bindings = self.__gen_lsa_bindings(remote_host)
for binding in bindings:
try:
self._pipe = self.__gen_lsa_connection(binding)
if self._pipe:
break
except errors.ACIError, e:
attempts = attempts + 1
if self._pipe is None and attempts == len(bindings):
raise errors.ACIError(
info=_('CIFS server %(host)s denied your credentials') % dict(host=remote_host))
if self._pipe is None:
raise errors.RemoteRetrieveError(
reason=_('Cannot establish LSA connection to %(host)s. Is CIFS server running?') % dict(host=remote_host))
self.binding = binding
def __gen_lsa_bindings(self, remote_host):
"""
There are multiple transports to issue LSA calls. However, depending on a
system in use they may be blocked by local operating system policies.
Generate all we can use. __init_lsa_pipe() will try them one by one until
there is one working.
We try NCACN_NP before NCACN_IP_TCP and signed sessions before unsigned.
"""
transports = (u'ncacn_np', u'ncacn_ip_tcp')
options = ( u',', u'')
binding_template=lambda x,y,z: u'%s:%s[%s]' % (x, y, z)
return [binding_template(t, remote_host, o) for t in transports for o in options]
def retrieve_anonymously(self, remote_host, discover_srv=False):
"""
When retrieving DC information anonymously, we can't get SID of the domain
"""
netrc = net.Net(creds=self.creds, lp=self.parm)
try:
if discover_srv:
result = netrc.finddc(domain=remote_host, flags=nbt.NBT_SERVER_LDAP | nbt.NBT_SERVER_DS)
else:
result = netrc.finddc(address=remote_host, flags=nbt.NBT_SERVER_LDAP | nbt.NBT_SERVER_DS)
except RuntimeError, e:
raise assess_dcerpc_exception(message=str(e))
if not result:
return False
self.info['name'] = unicode(result.domain_name)
self.info['dns_domain'] = unicode(result.dns_domain)
self.info['dns_forest'] = unicode(result.forest)
self.info['guid'] = unicode(result.domain_uuid)
self.info['dc'] = unicode(result.pdc_dns_name)
# Netlogon response doesn't contain SID of the domain.
# We need to do rootDSE search with LDAP_SERVER_EXTENDED_DN_OID control to reveal the SID
ldap_uri = 'ldap://%s' % (result.pdc_dns_name)
conn = _ldap.initialize(ldap_uri)
conn.set_option(_ldap.OPT_SERVER_CONTROLS, [ExtendedDNControl()])
result = None
try:
(objtype, res) = conn.search_s('', _ldap.SCOPE_BASE)[0]
result = res['defaultNamingContext'][0]
self.info['dns_hostname'] = res['dnsHostName'][0]
except _ldap.LDAPError, e:
root_logger.error(
"LDAP error when connecting to %(host)s: %(error)s" %
dict(host=unicode(result.pdc_name), error=str(e)))
if result:
self.info['sid'] = self.parse_naming_context(result)
return True
def parse_naming_context(self, context):
naming_ref = re.compile('.*<SID=(S-.*)>.*')
return naming_ref.match(context).group(1)
def retrieve(self, remote_host):
self.__init_lsa_pipe(remote_host)
objectAttribute = lsa.ObjectAttribute()
objectAttribute.sec_qos = lsa.QosInfo()
try:
self._policy_handle = self._pipe.OpenPolicy2(u"", objectAttribute, security.SEC_FLAG_MAXIMUM_ALLOWED)
result = self._pipe.QueryInfoPolicy2(self._policy_handle, lsa.LSA_POLICY_INFO_DNS)
except RuntimeError, (num, message):
raise assess_dcerpc_exception(num=num, message=message)
self.info['name'] = unicode(result.name.string)
self.info['dns_domain'] = unicode(result.dns_domain.string)
self.info['dns_forest'] = unicode(result.dns_forest.string)
self.info['guid'] = unicode(result.domain_guid)
self.info['sid'] = unicode(result.sid)
self.info['dc'] = remote_host
def generate_auth(self, trustdom_secret):
def arcfour_encrypt(key, data):
c = RC4.RC4(key)
return c.update(data)
def string_to_array(what):
blob = [0] * len(what)
for i in range(len(what)):
blob[i] = ord(what[i])
return blob
password_blob = string_to_array(trustdom_secret.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
confounder = [3]*512
for i in range(512):
confounder[i] = random.randint(0, 255)
trustpass = drsblobs.trustDomainPasswords()
trustpass.confounder = confounder
trustpass.outgoing = outgoing
trustpass.incoming = outgoing
trustpass_blob = ndr_pack(trustpass)
encrypted_trustpass = arcfour_encrypt(self._pipe.session_key, trustpass_blob)
auth_blob = lsa.DATA_BUF2()
auth_blob.size = len(encrypted_trustpass)
auth_blob.data = string_to_array(encrypted_trustpass)
auth_info = lsa.TrustDomainInfoAuthInfoInternal()
auth_info.auth_blob = auth_blob
self.auth_info = auth_info
def establish_trust(self, another_domain, trustdom_secret):
"""
Establishes trust between our and another domain
Input: another_domain -- instance of TrustDomainInstance, initialized with #retrieve call
trustdom_secret -- shared secred used for the trust
"""
self.generate_auth(trustdom_secret)
info = lsa.TrustDomainInfoInfoEx()
info.domain_name.string = another_domain.info['dns_domain']
info.netbios_name.string = another_domain.info['name']
info.sid = security.dom_sid(another_domain.info['sid'])
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_FOREST_TRANSITIVE
if self.info['name'] == info.netbios_name.string:
# Check that NetBIOS names do not clash
raise errors.ValidationError(name=u'AD Trust Setup',
error=_('the IPA server and the remote domain cannot share the same '
'NetBIOS name: %s') % self.info['name'])
try:
dname = lsa.String()
dname.string = another_domain.info['dns_domain']
res = self._pipe.QueryTrustedDomainInfoByName(self._policy_handle, dname, lsa.LSA_TRUSTED_DOMAIN_INFO_FULL_INFO)
self._pipe.DeleteTrustedDomain(self._policy_handle, res.info_ex.sid)
except RuntimeError, e:
pass
try:
trustdom_handle = self._pipe.CreateTrustedDomainEx2(self._policy_handle, info, self.auth_info, security.SEC_STD_DELETE)
except RuntimeError, (num, message):
raise assess_dcerpc_exception(num=num, message=message)
try:
infoclass = lsa.TrustDomainInfoSupportedEncTypes()
infoclass.enc_types = security.KERB_ENCTYPE_RC4_HMAC_MD5
infoclass.enc_types |= security.KERB_ENCTYPE_AES128_CTS_HMAC_SHA1_96
infoclass.enc_types |= security.KERB_ENCTYPE_AES256_CTS_HMAC_SHA1_96
self._pipe.SetInformationTrustedDomain(trustdom_handle, lsa.LSA_TRUSTED_DOMAIN_SUPPORTED_ENCRYPTION_TYPES, infoclass)
except RuntimeError, e:
pass
def verify_trust(self, another_domain):
def retrieve_netlogon_info_2(domain, function_code, data):
try:
netr_pipe = netlogon.netlogon(domain.binding, domain.parm, domain.creds)
result = netr_pipe.netr_LogonControl2Ex(logon_server=None,
function_code=function_code,
level=2,
data=data
)
return result
except RuntimeError, (num, message):
raise assess_dcerpc_exception(num=num, message=message)
result = retrieve_netlogon_info_2(self,
netlogon.NETLOGON_CONTROL_TC_VERIFY,
another_domain.info['dns_domain'])
if (result and (result.flags and netlogon.NETLOGON_VERIFY_STATUS_RETURNED)):
# netr_LogonControl2Ex() returns non-None result only if overall call
# result was WERR_OK which means verification was correct.
# We only check that it was indeed status for verification process
return True
return False
class TrustDomainJoins(object):
def __init__(self, api):
self.api = api
self.local_domain = None
self.remote_domain = None
domain_validator = DomainValidator(api)
self.configured = domain_validator.is_configured()
if self.configured:
self.local_flatname = domain_validator.flatname
self.local_dn = domain_validator.dn
self.__populate_local_domain()
def __populate_local_domain(self):
# Initialize local domain info using kerberos only
ld = TrustDomainInstance(self.local_flatname)
ld.creds = credentials.Credentials()
ld.creds.set_kerberos_state(credentials.MUST_USE_KERBEROS)
ld.creds.guess(ld.parm)
ld.creds.set_workstation(ld.hostname)
ld.retrieve(installutils.get_fqdn())
self.local_domain = ld
def __populate_remote_domain(self, realm, realm_server=None, realm_admin=None, realm_passwd=None):
def get_instance(self):
# Fetch data from foreign domain using password only
rd = TrustDomainInstance('')
rd.parm.set('workgroup', self.local_domain.info['name'])
rd.creds = credentials.Credentials()
rd.creds.set_kerberos_state(credentials.DONT_USE_KERBEROS)
rd.creds.guess(rd.parm)
return rd
rd = get_instance(self)
rd.creds.set_anonymous()
rd.creds.set_workstation(self.local_domain.hostname)
if realm_server is None:
rd.retrieve_anonymously(realm, discover_srv=True)
else:
rd.retrieve_anonymously(realm_server, discover_srv=False)
rd.read_only = True
if realm_admin and realm_passwd:
if 'name' in rd.info:
names = realm_admin.split('\\')
if len(names) > 1:
# realm admin is in DOMAIN\user format
# strip DOMAIN part as we'll enforce the one discovered
realm_admin = names[-1]
auth_string = u"%s\%s%%%s" % (rd.info['name'], realm_admin, realm_passwd)
td = get_instance(self)
td.creds.parse_string(auth_string)
td.creds.set_workstation(self.local_domain.hostname)
if realm_server is None:
# we must have rd.info['dns_hostname'] then, part of anonymous discovery
td.retrieve(rd.info['dns_hostname'])
else:
td.retrieve(realm_server)
td.read_only = False
self.remote_domain = td
return
# Otherwise, use anonymously obtained data
self.remote_domain = rd
def join_ad_full_credentials(self, realm, realm_server, realm_admin, realm_passwd):
if not self.configured:
return None
self.__populate_remote_domain(realm, realm_server, realm_admin, realm_passwd)
if not self.remote_domain.read_only:
trustdom_pass = samba.generate_random_password(128, 128)
self.remote_domain.establish_trust(self.local_domain, trustdom_pass)
self.local_domain.establish_trust(self.remote_domain, trustdom_pass)
result = self.remote_domain.verify_trust(self.local_domain)
return dict(local=self.local_domain, remote=self.remote_domain, verified=result)
return None
def join_ad_ipa_half(self, realm, realm_server, trustdom_passwd):
if not self.configured:
return None
self.__populate_remote_domain(realm, realm_server, realm_passwd=None)
self.local_domain.establish_trust(self.remote_domain, trustdom_passwd)
return dict(local=self.local_domain, remote=self.remote_domain, verified=False)
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