freeipa/ipalib/plugins/trust.py

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# Authors:
# Alexander Bokovoy <abokovoy@redhat.com>
# Martin Kosek <mkosek@redhat.com>
#
# Copyright (C) 2011 Red Hat
# see file 'COPYING' for use and warranty information
#
# 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/>.
from ipalib.plugable import Registry
from ipalib.plugins.baseldap import *
from ipalib.plugins.dns import dns_container_exists
from ipapython.ipautil import realm_to_suffix
from ipalib import api, Str, StrEnum, Password, Bool, _, ngettext
from ipalib import Command
from ipalib import errors
from ldap import SCOPE_SUBTREE
from time import sleep
try:
import pysss_murmur #pylint: disable=F0401
_murmur_installed = True
except Exception, e:
_murmur_installed = False
try:
import pysss_nss_idmap #pylint: disable=F0401
_nss_idmap_installed = True
except Exception, e:
_nss_idmap_installed = False
if api.env.in_server and api.env.context in ['lite', 'server']:
try:
import ipaserver.dcerpc #pylint: disable=F0401
_bindings_installed = True
except ImportError:
_bindings_installed = False
__doc__ = _("""
Cross-realm trusts
Manage trust relationship between IPA and Active Directory domains.
In order to allow users from a remote domain to access resources in IPA
domain, trust relationship needs to be established. Currently IPA supports
only trusts between IPA and Active Directory domains under control of Windows
Server 2008 or later, with functional level 2008 or later.
Please note that DNS on both IPA and Active Directory domain sides should be
configured properly to discover each other. Trust relationship relies on
ability to discover special resources in the other domain via DNS records.
Examples:
1. Establish cross-realm trust with Active Directory using AD administrator
credentials:
ipa trust-add --type=ad <ad.domain> --admin <AD domain administrator> --password
2. List all existing trust relationships:
ipa trust-find
3. Show details of the specific trust relationship:
ipa trust-show <ad.domain>
4. Delete existing trust relationship:
ipa trust-del <ad.domain>
Once trust relationship is established, remote users will need to be mapped
to local POSIX groups in order to actually use IPA resources. The mapping should
be done via use of external membership of non-POSIX group and then this group
should be included into one of local POSIX groups.
Example:
1. Create group for the trusted domain admins' mapping and their local POSIX group:
ipa group-add --desc='<ad.domain> admins external map' ad_admins_external --external
ipa group-add --desc='<ad.domain> admins' ad_admins
2. Add security identifier of Domain Admins of the <ad.domain> to the ad_admins_external
group:
ipa group-add-member ad_admins_external --external 'AD\\Domain Admins'
3. Allow members of ad_admins_external group to be associated with ad_admins POSIX group:
ipa group-add-member ad_admins --groups ad_admins_external
4. List members of external members of ad_admins_external group to see their SIDs:
ipa group-show ad_admins_external
GLOBAL TRUST CONFIGURATION
When IPA AD trust subpackage is installed and ipa-adtrust-install is run,
a local domain configuration (SID, GUID, NetBIOS name) is generated. These
identifiers are then used when communicating with a trusted domain of the
particular type.
1. Show global trust configuration for Active Directory type of trusts:
ipa trustconfig-show --type ad
2. Modify global configuration for all trusts of Active Directory type and set
a different fallback primary group (fallback primary group GID is used as
a primary user GID if user authenticating to IPA domain does not have any other
primary GID already set):
ipa trustconfig-mod --type ad --fallback-primary-group "alternative AD group"
3. Change primary fallback group back to default hidden group (any group with
posixGroup object class is allowed):
ipa trustconfig-mod --type ad --fallback-primary-group "Default SMB Group"
""")
register = Registry()
trust_output_params = (
Str('trustdirection',
label=_('Trust direction')),
Str('trusttype',
label=_('Trust type')),
Str('truststatus',
label=_('Trust status')),
)
_trust_type_dict = {1 : _('Non-Active Directory domain'),
2 : _('Active Directory domain'),
3 : _('RFC4120-compliant Kerberos realm')}
_trust_direction_dict = {1 : _('Trusting forest'),
2 : _('Trusted forest'),
3 : _('Two-way trust')}
_trust_status_dict = {True : _('Established and verified'),
False : _('Waiting for confirmation by remote side')}
_trust_type_dict_unknown = _('Unknown')
_trust_type_option = StrEnum('trust_type',
cli_name='type',
label=_('Trust type (ad for Active Directory, default)'),
values=(u'ad',),
default=u'ad',
autofill=True,
)
DEFAULT_RANGE_SIZE = 200000
def trust_type_string(level):
"""
Returns a string representing a type of the trust. The original field is an enum:
LSA_TRUST_TYPE_DOWNLEVEL = 0x00000001,
LSA_TRUST_TYPE_UPLEVEL = 0x00000002,
LSA_TRUST_TYPE_MIT = 0x00000003
"""
string = _trust_type_dict.get(int(level), _trust_type_dict_unknown)
return unicode(string)
def trust_direction_string(level):
"""
Returns a string representing a direction of the trust. The original field is a bitmask taking two bits in use
LSA_TRUST_DIRECTION_INBOUND = 0x00000001,
LSA_TRUST_DIRECTION_OUTBOUND = 0x00000002
"""
string = _trust_direction_dict.get(int(level), _trust_type_dict_unknown)
return unicode(string)
def trust_status_string(level):
string = _trust_status_dict.get(level, _trust_type_dict_unknown)
return unicode(string)
def make_trust_dn(env, trust_type, dn):
assert isinstance(dn, DN)
if trust_type:
container_dn = DN(('cn', trust_type), env.container_trusts, env.basedn)
return DN(dn, container_dn)
return dn
def add_range(self, range_name, dom_sid, *keys, **options):
"""
First, we try to derive the parameters of the ID range based on the
information contained in the Active Directory.
If that was not successful, we go for our usual defaults (random base,
range size 200 000, ipa-ad-trust range type).
Any of these can be overriden by passing appropriate CLI options
to the trust-add command.
"""
range_size = None
range_type = None
base_id = None
# First, get information about ID space from AD
# However, we skip this step if other than ipa-ad-trust-posix
# range type is enforced
if options.get('range_type', None) in (None, u'ipa-ad-trust-posix'):
# Get the base dn
domain = keys[-1]
basedn = realm_to_suffix(domain)
# Search for information contained in
# CN=ypservers,CN=ypServ30,CN=RpcServices,CN=System
info_filter = '(objectClass=msSFU30DomainInfo)'
info_dn = DN('CN=ypservers,CN=ypServ30,CN=RpcServices,CN=System')\
+ basedn
# Get the domain validator
domain_validator = ipaserver.dcerpc.DomainValidator(self.api)
if not domain_validator.is_configured():
raise errors.NotFound(
reason=_('Cannot search in trusted domains without own '
'domain configured. Make sure you have run '
'ipa-adtrust-install on the IPA server first'))
# KDC might not get refreshed data at the first time,
# retry several times
for retry in range(10):
info_list = domain_validator.search_in_dc(domain,
info_filter,
None,
SCOPE_SUBTREE,
basedn=info_dn,
quiet=True)
if info_list:
info = info_list[0]
break
else:
sleep(2)
required_msSFU_attrs = ['msSFU30MaxUidNumber', 'msSFU30OrderNumber']
if not info_list:
# We were unable to gain UNIX specific info from the AD
self.log.debug("Unable to gain POSIX info from the AD")
else:
if all(attr in info for attr in required_msSFU_attrs):
self.log.debug("Able to gain POSIX info from the AD")
range_type = u'ipa-ad-trust-posix'
max_uid = info.get('msSFU30MaxUidNumber')
max_gid = info.get('msSFU30MaxGidNumber', None)
max_id = int(max(max_uid, max_gid)[0])
base_id = int(info.get('msSFU30OrderNumber')[0])
range_size = (1 + (max_id - base_id) / DEFAULT_RANGE_SIZE)\
* DEFAULT_RANGE_SIZE
# Second, options given via the CLI options take precedence to discovery
if options.get('range_type', None):
range_type = options.get('range_type', None)
elif not range_type:
range_type = u'ipa-ad-trust'
if options.get('range_size', None):
range_size = options.get('range_size', None)
elif not range_size:
range_size = DEFAULT_RANGE_SIZE
if options.get('base_id', None):
base_id = options.get('base_id', None)
elif not base_id:
# Generate random base_id if not discovered nor given via CLI
base_id = DEFAULT_RANGE_SIZE + (
pysss_murmur.murmurhash3(
dom_sid,
len(dom_sid), 0xdeadbeefL
) % 10000
) * DEFAULT_RANGE_SIZE
# Finally, add new ID range
self.api.Command['idrange_add'](range_name,
ipabaseid=base_id,
ipaidrangesize=range_size,
ipabaserid=0,
iparangetype=range_type,
ipanttrusteddomainsid=dom_sid)
# Return the values that were generated inside this function
return range_type, range_size, base_id
@register()
class trust(LDAPObject):
"""
Trust object.
"""
trust_types = ('ad', 'ipa')
container_dn = api.env.container_trusts
object_name = _('trust')
object_name_plural = _('trusts')
object_class = ['ipaNTTrustedDomain']
default_attributes = ['cn', 'ipantflatname', 'ipanttrusteddomainsid',
'ipanttrusttype', 'ipanttrustattributes', 'ipanttrustdirection',
'ipanttrustpartner', 'ipanttrustforesttrustinfo',
'ipanttrustposixoffset', 'ipantsupportedencryptiontypes' ]
search_display_attributes = ['cn', 'ipantflatname',
'ipanttrusteddomainsid', 'ipanttrusttype']
managed_permissions = {
'System: Read Trust Information': {
# Allow reading of attributes needed for SSSD subdomains support
'non_object': True,
'ipapermlocation': DN(container_dn, api.env.basedn),
'replaces_global_anonymous_aci': True,
'ipapermbindruletype': 'all',
'ipapermright': {'read', 'search', 'compare'},
'ipapermdefaultattr': {
'cn', 'objectclass',
'ipantflatname', 'ipantsecurityidentifier',
'ipanttrusteddomainsid', 'ipanttrustpartner',
'ipantsidblacklistincoming', 'ipantsidblacklistoutgoing'
},
},
}
label = _('Trusts')
label_singular = _('Trust')
takes_params = (
Str('cn',
cli_name='realm',
label=_('Realm name'),
primary_key=True,
),
Str('ipantflatname',
cli_name='flat_name',
label=_('Domain NetBIOS name'),
flags=['no_create', 'no_update']),
Str('ipanttrusteddomainsid',
cli_name='sid',
label=_('Domain Security Identifier'),
flags=['no_create', 'no_update']),
Str('ipantsidblacklistincoming*',
csv=True,
cli_name='sid_blacklist_incoming',
label=_('SID blacklist incoming'),
flags=['no_create']),
Str('ipantsidblacklistoutgoing*',
csv=True,
cli_name='sid_blacklist_outgoing',
label=_('SID blacklist outgoing'),
flags=['no_create']),
)
def validate_sid_blacklists(self, entry_attrs):
if not _bindings_installed:
# SID validator is not available, return
# Even if invalid SID gets in the trust entry, it won't crash
# the validation process as it is translated to SID S-0-0
return
for attr in ('ipantsidblacklistincoming', 'ipantsidblacklistoutgoing'):
values = entry_attrs.get(attr)
if not values:
continue
for value in values:
if not ipaserver.dcerpc.is_sid_valid(value):
raise errors.ValidationError(name=attr,
error=_("invalid SID: %(value)s") % dict(value=value))
def get_dn(self, *keys, **kwargs):
sdn = map(lambda x: ('cn', x), keys)
sdn.reverse()
trust_type = kwargs.get('trust_type')
if trust_type is None:
ldap = self.backend
filter = ldap.make_filter({'objectclass': ['ipaNTTrustedDomain'], 'cn': [keys[-1]] },
rules=ldap.MATCH_ALL)
filter = ldap.combine_filters((filter, "ipaNTSecurityIdentifier=*"), rules=ldap.MATCH_ALL)
result = ldap.get_entries(DN(self.container_dn, self.env.basedn),
ldap.SCOPE_SUBTREE, filter, [''])
if len(result) > 1:
raise errors.OnlyOneValueAllowed(attr='trust domain')
return result[0].dn
dn=make_trust_dn(self.env, trust_type, DN(*sdn))
return dn
@register()
class trust_add(LDAPCreate):
__doc__ = _('''
Add new trust to use.
This command establishes trust relationship to another domain
which becomes 'trusted'. As result, users of the trusted domain
may access resources of this domain.
Only trusts to Active Directory domains are supported right now.
The command can be safely run multiple times against the same domain,
this will cause change to trust relationship credentials on both
sides.
''')
range_types = {
u'ipa-ad-trust': unicode(_('Active Directory domain range')),
u'ipa-ad-trust-posix': unicode(_('Active Directory trust range with '
'POSIX attributes')),
}
takes_options = LDAPCreate.takes_options + (
_trust_type_option,
Str('realm_admin?',
cli_name='admin',
label=_("Active Directory domain administrator"),
),
Password('realm_passwd?',
cli_name='password',
label=_("Active directory domain administrator's password"),
confirm=False,
),
Str('realm_server?',
cli_name='server',
label=_('Domain controller for the Active Directory domain (optional)'),
),
Password('trust_secret?',
cli_name='trust_secret',
label=_('Shared secret for the trust'),
confirm=False,
),
Int('base_id?',
cli_name='base_id',
label=_('First Posix ID of the range reserved for the trusted domain'),
),
Int('range_size?',
cli_name='range_size',
label=_('Size of the ID range reserved for the trusted domain'),
),
StrEnum('range_type?',
label=_('Range type'),
cli_name='range_type',
doc=(_('Type of trusted domain ID range, one of {vals}'
.format(vals=', '.join(range_types.keys())))),
values=tuple(range_types.keys()),
),
)
msg_summary = _('Added Active Directory trust for realm "%(value)s"')
msg_summary_existing = _('Re-established trust to domain "%(value)s"')
has_output_params = LDAPCreate.has_output_params + trust_output_params
def execute(self, *keys, **options):
full_join = self.validate_options(*keys, **options)
old_range, range_name, dom_sid = self.validate_range(*keys, **options)
result = self.execute_ad(full_join, *keys, **options)
if not old_range:
# Store the created range type, since for POSIX trusts no
# ranges for the subdomains should be added, POSIX attributes
# provide a global mapping across all subdomains
(created_range_type, _, _) = add_range(self, range_name, dom_sid,
*keys, **options)
else:
created_range_type = old_range['result']['iparangetype'][0]
trust_filter = "cn=%s" % result['value']
ldap = self.obj.backend
(trusts, truncated) = ldap.find_entries(
base_dn=DN(api.env.container_trusts, api.env.basedn),
filter=trust_filter)
result['result'] = entry_to_dict(trusts[0], **options)
# Fetch topology of the trust forest -- we need always to do it
# for AD trusts, regardless of the type of idranges associated with it
# Note that fetch_domains_from_trust will add needed ranges for
# the algorithmic ID mapping case.
if (options.get('trust_type') == u'ad' and
options.get('trust_secret') is None):
domains = fetch_domains_from_trust(self, self.trustinstance,
result['result'], **options)
# Format the output into human-readable values
result['result']['trusttype'] = [trust_type_string(
result['result']['ipanttrusttype'][0])]
result['result']['trustdirection'] = [trust_direction_string(
result['result']['ipanttrustdirection'][0])]
result['result']['truststatus'] = [trust_status_string(
result['verified'])]
del result['verified']
return result
def validate_options(self, *keys, **options):
if not _bindings_installed:
raise errors.NotFound(
name=_('AD Trust setup'),
reason=_(
'Cannot perform join operation without Samba 4 support '
'installed. Make sure you have installed server-trust-ad '
'sub-package of IPA'
)
)
if not _murmur_installed and 'base_id' not in options:
raise errors.ValidationError(
name=_('missing base_id'),
error=_(
'pysss_murmur is not available on the server '
'and no base-id is given.'
)
)
if 'trust_type' not in options:
raise errors.RequirementError(name=_('trust type'))
if options['trust_type'] != u'ad':
raise errors.ValidationError(
name=_('trust type'),
error=_('only "ad" is supported')
)
# If domain name and realm does not match, IPA server is not be able
# to establish trust with Active Directory.
realm_not_matching_domain = (api.env.domain.upper() != api.env.realm)
if options['trust_type'] == u'ad' and realm_not_matching_domain:
raise errors.ValidationError(
name=_('Realm-domain mismatch'),
error=_('To establish trust with Active Directory, the '
'domain name and the realm name of the IPA server '
'must match')
)
self.trustinstance = ipaserver.dcerpc.TrustDomainJoins(self.api)
if not self.trustinstance.configured:
raise errors.NotFound(
name=_('AD Trust setup'),
reason=_(
'Cannot perform join operation without own domain '
'configured. Make sure you have run ipa-adtrust-install '
'on the IPA server first'
)
)
self.realm_server = options.get('realm_server')
self.realm_admin = options.get('realm_admin')
self.realm_passwd = options.get('realm_passwd')
if self.realm_admin:
names = self.realm_admin.split('@')
if len(names) > 1:
# realm admin name is in UPN format, user@realm, check that
# realm is the same as the one that we are attempting to trust
if keys[-1].lower() != names[-1].lower():
raise errors.ValidationError(
name=_('AD Trust setup'),
error=_(
'Trusted domain and administrator account use '
'different realms'
)
)
self.realm_admin = names[0]
if not self.realm_passwd:
raise errors.ValidationError(
name=_('AD Trust setup'),
error=_('Realm administrator password should be specified')
)
return True
return False
def validate_range(self, *keys, **options):
# If a range for this trusted domain already exists,
# '--base-id' or '--range-size' options should not be specified
range_name = keys[-1].upper() + '_id_range'
range_type = options.get('range_type')
try:
old_range = api.Command['idrange_show'](range_name, raw=True)
except errors.NotFound:
old_range = None
if options.get('trust_type') == u'ad':
if range_type and range_type not in (u'ipa-ad-trust',
u'ipa-ad-trust-posix'):
raise errors.ValidationError(
name=_('id range type'),
error=_(
'Only the ipa-ad-trust and ipa-ad-trust-posix are '
'allowed values for --range-type when adding an AD '
'trust.'
))
base_id = options.get('base_id')
range_size = options.get('range_size')
if old_range and (base_id or range_size):
raise errors.ValidationError(
name=_('id range'),
error=_(
'An id range already exists for this trust. '
'You should either delete the old range, or '
'exclude --base-id/--range-size options from the command.'
)
)
# If a range for this trusted domain already exists,
# domain SID must also match
self.trustinstance.populate_remote_domain(
keys[-1],
self.realm_server,
self.realm_admin,
self.realm_passwd
)
dom_sid = self.trustinstance.remote_domain.info['sid']
if old_range:
old_dom_sid = old_range['result']['ipanttrusteddomainsid'][0]
old_range_type = old_range['result']['iparangetype'][0]
if old_dom_sid != dom_sid:
raise errors.ValidationError(
name=_('range exists'),
error=_(
'ID range with the same name but different domain SID '
'already exists. The ID range for the new trusted '
'domain must be created manually.'
)
)
if range_type and range_type != old_range_type:
raise errors.ValidationError(name=_('range type change'),
error=_('ID range for the trusted domain already exists, '
'but it has a different type. Please remove the '
'old range manually, or do not enforce type '
'via --range-type option.'))
return old_range, range_name, dom_sid
def execute_ad(self, full_join, *keys, **options):
# Join domain using full credentials and with random trustdom
# secret (will be generated by the join method)
# First see if the trust is already in place
# Force retrieval of the trust object by not passing trust_type
try:
dn = self.obj.get_dn(keys[-1])
except errors.NotFound:
dn = None
# 1. Full access to the remote domain. Use admin credentials and
# generate random trustdom password to do work on both sides
if full_join:
try:
result = self.trustinstance.join_ad_full_credentials(
keys[-1],
self.realm_server,
self.realm_admin,
self.realm_passwd
)
except errors.NotFound:
error_message=_("Unable to resolve domain controller for '%s' domain. ") % (keys[-1])
instructions=[]
if dns_container_exists(self.obj.backend):
try:
dns_zone = api.Command.dnszone_show(keys[-1])['result']
if ('idnsforwardpolicy' in dns_zone) and dns_zone['idnsforwardpolicy'][0] == u'only':
instructions.append(_("Forward policy is defined for it in IPA DNS, "
"perhaps forwarder points to incorrect host?"))
except (errors.NotFound, KeyError) as e:
instructions.append(_("IPA manages DNS, please verify "
"your DNS configuration and "
"make sure that service records "
"of the '%(domain)s' domain can "
"be resolved. Examples how to "
"configure DNS with CLI commands "
"or the Web UI can be found in "
"the documentation. " ) %
dict(domain=keys[-1]))
else:
instructions.append(_("Since IPA does not manage DNS records, ensure DNS "
"is configured to resolve '%(domain)s' domain from "
"IPA hosts and back.") % dict(domain=keys[-1]))
raise errors.NotFound(reason=error_message, instructions=instructions)
if result is None:
raise errors.ValidationError(name=_('AD Trust setup'),
error=_('Unable to verify write permissions to the AD'))
ret = dict(
value=pkey_to_value(
self.trustinstance.remote_domain.info['dns_domain'],
options),
verified=result['verified']
)
if dn:
ret['summary'] = self.msg_summary_existing % ret
return ret
# 2. We don't have access to the remote domain and trustdom password
# is provided. Do the work on our side and inform what to do on remote
# side.
if 'trust_secret' in options:
result = self.trustinstance.join_ad_ipa_half(
keys[-1],
self.realm_server,
options['trust_secret']
)
ret = dict(
value=pkey_to_value(
self.trustinstance.remote_domain.info['dns_domain'],
options),
verified=result['verified']
)
if dn:
ret['summary'] = self.msg_summary_existing % ret
return ret
raise errors.ValidationError(name=_('AD Trust setup'),
error=_('Not enough arguments specified to perform trust setup'))
@register()
class trust_del(LDAPDelete):
__doc__ = _('Delete a trust.')
msg_summary = _('Deleted trust "%(value)s"')
@register()
class trust_mod(LDAPUpdate):
__doc__ = _("""
Modify a trust (for future use).
Currently only the default option to modify the LDAP attributes is
available. More specific options will be added in coming releases.
""")
msg_summary = _('Modified trust "%(value)s" '
'(change will be effective in 60 seconds)')
def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options):
Use DN objects instead of strings * Convert every string specifying a DN into a DN object * Every place a dn was manipulated in some fashion it was replaced by the use of DN operators * Add new DNParam parameter type for parameters which are DN's * DN objects are used 100% of the time throughout the entire data pipeline whenever something is logically a dn. * Many classes now enforce DN usage for their attributes which are dn's. This is implmented via ipautil.dn_attribute_property(). The only permitted types for a class attribute specified to be a DN are either None or a DN object. * Require that every place a dn is used it must be a DN object. This translates into lot of:: assert isinstance(dn, DN) sprinkled through out the code. Maintaining these asserts is valuable to preserve DN type enforcement. The asserts can be disabled in production. The goal of 100% DN usage 100% of the time has been realized, these asserts are meant to preserve that. The asserts also proved valuable in detecting functions which did not obey their function signatures, such as the baseldap pre and post callbacks. * Moved ipalib.dn to ipapython.dn because DN class is shared with all components, not just the server which uses ipalib. * All API's now accept DN's natively, no need to convert to str (or unicode). * Removed ipalib.encoder and encode/decode decorators. Type conversion is now explicitly performed in each IPASimpleLDAPObject method which emulates a ldap.SimpleLDAPObject method. * Entity & Entry classes now utilize DN's * Removed __getattr__ in Entity & Entity clases. There were two problems with it. It presented synthetic Python object attributes based on the current LDAP data it contained. There is no way to validate synthetic attributes using code checkers, you can't search the code to find LDAP attribute accesses (because synthetic attriutes look like Python attributes instead of LDAP data) and error handling is circumscribed. Secondly __getattr__ was hiding Python internal methods which broke class semantics. * Replace use of methods inherited from ldap.SimpleLDAPObject via IPAdmin class with IPAdmin methods. Directly using inherited methods was causing us to bypass IPA logic. Mostly this meant replacing the use of search_s() with getEntry() or getList(). Similarly direct access of the LDAP data in classes using IPAdmin were replaced with calls to getValue() or getValues(). * Objects returned by ldap2.find_entries() are now compatible with either the python-ldap access methodology or the Entity/Entry access methodology. * All ldap operations now funnel through the common IPASimpleLDAPObject giving us a single location where we interface to python-ldap and perform conversions. * The above 4 modifications means we've greatly reduced the proliferation of multiple inconsistent ways to perform LDAP operations. We are well on the way to having a single API in IPA for doing LDAP (a long range goal). * All certificate subject bases are now DN's * DN objects were enhanced thusly: - find, rfind, index, rindex, replace and insert methods were added - AVA, RDN and DN classes were refactored in immutable and mutable variants, the mutable variants are EditableAVA, EditableRDN and EditableDN. By default we use the immutable variants preserving important semantics. To edit a DN cast it to an EditableDN and cast it back to DN when done editing. These issues are fully described in other documentation. - first_key_match was removed - DN equalty comparison permits comparison to a basestring * Fixed ldapupdate to work with DN's. This work included: - Enhance test_updates.py to do more checking after applying update. Add test for update_from_dict(). Convert code to use unittest classes. - Consolidated duplicate code. - Moved code which should have been in the class into the class. - Fix the handling of the 'deleteentry' update action. It's no longer necessary to supply fake attributes to make it work. Detect case where subsequent update applies a change to entry previously marked for deletetion. General clean-up and simplification of the 'deleteentry' logic. - Rewrote a couple of functions to be clearer and more Pythonic. - Added documentation on the data structure being used. - Simplfy the use of update_from_dict() * Removed all usage of get_schema() which was being called prior to accessing the .schema attribute of an object. If a class is using internal lazy loading as an optimization it's not right to require users of the interface to be aware of internal optimization's. schema is now a property and when the schema property is accessed it calls a private internal method to perform the lazy loading. * Added SchemaCache class to cache the schema's from individual servers. This was done because of the observation we talk to different LDAP servers, each of which may have it's own schema. Previously we globally cached the schema from the first server we connected to and returned that schema in all contexts. The cache includes controls to invalidate it thus forcing a schema refresh. * Schema caching is now senstive to the run time context. During install and upgrade the schema can change leading to errors due to out-of-date cached schema. The schema cache is refreshed in these contexts. * We are aware of the LDAP syntax of all LDAP attributes. Every attribute returned from an LDAP operation is passed through a central table look-up based on it's LDAP syntax. The table key is the LDAP syntax it's value is a Python callable that returns a Python object matching the LDAP syntax. There are a handful of LDAP attributes whose syntax is historically incorrect (e.g. DistguishedNames that are defined as DirectoryStrings). The table driven conversion mechanism is augmented with a table of hard coded exceptions. Currently only the following conversions occur via the table: - dn's are converted to DN objects - binary objects are converted to Python str objects (IPA convention). - everything else is converted to unicode using UTF-8 decoding (IPA convention). However, now that the table driven conversion mechanism is in place it would be trivial to do things such as converting attributes which have LDAP integer syntax into a Python integer, etc. * Expected values in the unit tests which are a DN no longer need to use lambda expressions to promote the returned value to a DN for equality comparison. The return value is automatically promoted to a DN. The lambda expressions have been removed making the code much simpler and easier to read. * Add class level logging to a number of classes which did not support logging, less need for use of root_logger. * Remove ipaserver/conn.py, it was unused. * Consolidated duplicate code wherever it was found. * Fixed many places that used string concatenation to form a new string rather than string formatting operators. This is necessary because string formatting converts it's arguments to a string prior to building the result string. You can't concatenate a string and a non-string. * Simplify logic in rename_managed plugin. Use DN operators to edit dn's. * The live version of ipa-ldap-updater did not generate a log file. The offline version did, now both do. https://fedorahosted.org/freeipa/ticket/1670 https://fedorahosted.org/freeipa/ticket/1671 https://fedorahosted.org/freeipa/ticket/1672 https://fedorahosted.org/freeipa/ticket/1673 https://fedorahosted.org/freeipa/ticket/1674 https://fedorahosted.org/freeipa/ticket/1392 https://fedorahosted.org/freeipa/ticket/2872
2012-05-13 06:36:35 -05:00
assert isinstance(dn, DN)
self.obj.validate_sid_blacklists(entry_attrs)
return dn
@register()
class trust_find(LDAPSearch):
__doc__ = _('Search for trusts.')
has_output_params = LDAPSearch.has_output_params + trust_output_params +\
(Str('ipanttrusttype'),)
msg_summary = ngettext(
'%(count)d trust matched', '%(count)d trusts matched', 0
)
# Since all trusts types are stored within separate containers under 'cn=trusts',
# search needs to be done on a sub-tree scope
def pre_callback(self, ldap, filters, attrs_list, base_dn, scope, *args, **options):
# list only trust, not trust domains
trust_filter = '(ipaNTSecurityIdentifier=*)'
filter = ldap.combine_filters((filters, trust_filter), rules=ldap.MATCH_ALL)
return (filter, base_dn, ldap.SCOPE_SUBTREE)
def post_callback(self, ldap, entries, truncated, *args, **options):
if options.get('pkey_only', False):
return truncated
for attrs in entries:
# Translate ipanttrusttype to trusttype if --raw not used
trust_type = attrs.get('ipanttrusttype', [None])[0]
if not options.get('raw', False) and trust_type is not None:
attrs['trusttype'] = trust_type_string(attrs['ipanttrusttype'][0])
del attrs['ipanttrusttype']
return truncated
@register()
class trust_show(LDAPRetrieve):
__doc__ = _('Display information about a trust.')
has_output_params = LDAPRetrieve.has_output_params + trust_output_params +\
(Str('ipanttrusttype'), Str('ipanttrustdirection'))
def post_callback(self, ldap, dn, entry_attrs, *keys, **options):
assert isinstance(dn, DN)
# Translate ipanttrusttype to trusttype
# and ipanttrustdirection to trustdirection
# if --raw not used
if not options.get('raw', False):
trust_type = entry_attrs.get('ipanttrusttype', [None])[0]
if trust_type is not None:
entry_attrs['trusttype'] = trust_type_string(trust_type)
del entry_attrs['ipanttrusttype']
dir_str = entry_attrs.get('ipanttrustdirection', [None])[0]
if dir_str is not None:
entry_attrs['trustdirection'] = [trust_direction_string(dir_str)]
del entry_attrs['ipanttrustdirection']
return dn
_trustconfig_dn = {
u'ad': DN(('cn', api.env.domain), api.env.container_cifsdomains, api.env.basedn),
}
@register()
class trustconfig(LDAPObject):
"""
Trusts global configuration object
"""
object_name = _('trust configuration')
default_attributes = [
'cn', 'ipantsecurityidentifier', 'ipantflatname', 'ipantdomainguid',
'ipantfallbackprimarygroup',
]
label = _('Global Trust Configuration')
label_singular = _('Global Trust Configuration')
takes_params = (
Str('cn',
label=_('Domain'),
flags=['no_update'],
),
Str('ipantsecurityidentifier',
label=_('Security Identifier'),
flags=['no_update'],
),
Str('ipantflatname',
label=_('NetBIOS name'),
flags=['no_update'],
),
Str('ipantdomainguid',
label=_('Domain GUID'),
flags=['no_update'],
),
Str('ipantfallbackprimarygroup',
cli_name='fallback_primary_group',
label=_('Fallback primary group'),
),
)
def get_dn(self, *keys, **kwargs):
trust_type = kwargs.get('trust_type')
if trust_type is None:
raise errors.RequirementError(name='trust_type')
try:
return _trustconfig_dn[kwargs['trust_type']]
except KeyError:
raise errors.ValidationError(name='trust_type',
error=_("unsupported trust type"))
def _normalize_groupdn(self, entry_attrs):
"""
Checks that group with given name/DN exists and updates the entry_attrs
"""
if 'ipantfallbackprimarygroup' not in entry_attrs:
return
group = entry_attrs['ipantfallbackprimarygroup']
if isinstance(group, (list, tuple)):
group = group[0]
if group is None:
return
try:
dn = DN(group)
# group is in a form of a DN
try:
self.backend.get_entry(dn)
except errors.NotFound:
self.api.Object['group'].handle_not_found(group)
# DN is valid, we can just return
return
except ValueError:
# The search is performed for groups with "posixgroup" objectclass
# and not "ipausergroup" so that it can also match groups like
# "Default SMB Group" which does not have this objectclass.
try:
group_entry = self.backend.find_entry_by_attr(
self.api.Object['group'].primary_key.name,
group,
['posixgroup'],
[''],
DN(api.env.container_group, api.env.basedn))
except errors.NotFound:
self.api.Object['group'].handle_not_found(group)
else:
entry_attrs['ipantfallbackprimarygroup'] = [group_entry.dn]
def _convert_groupdn(self, entry_attrs, options):
"""
Convert an group dn into a name. As we use CN as user RDN, its value
can be extracted from the DN without further LDAP queries.
"""
if options.get('raw', False):
return
try:
groupdn = entry_attrs['ipantfallbackprimarygroup'][0]
except (IndexError, KeyError):
groupdn = None
if groupdn is None:
return
assert isinstance(groupdn, DN)
entry_attrs['ipantfallbackprimarygroup'] = [groupdn[0][0].value]
@register()
class trustconfig_mod(LDAPUpdate):
__doc__ = _('Modify global trust configuration.')
takes_options = LDAPUpdate.takes_options + (_trust_type_option,)
msg_summary = _('Modified "%(value)s" trust configuration')
def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options):
self.obj._normalize_groupdn(entry_attrs)
return dn
def execute(self, *keys, **options):
result = super(trustconfig_mod, self).execute(*keys, **options)
result['value'] = pkey_to_value(options['trust_type'], options)
return result
def post_callback(self, ldap, dn, entry_attrs, *keys, **options):
self.obj._convert_groupdn(entry_attrs, options)
return dn
@register()
class trustconfig_show(LDAPRetrieve):
__doc__ = _('Show global trust configuration.')
takes_options = LDAPRetrieve.takes_options + (_trust_type_option,)
def execute(self, *keys, **options):
result = super(trustconfig_show, self).execute(*keys, **options)
result['value'] = pkey_to_value(options['trust_type'], options)
return result
def post_callback(self, ldap, dn, entry_attrs, *keys, **options):
self.obj._convert_groupdn(entry_attrs, options)
return dn
if _nss_idmap_installed:
_idmap_type_dict = {
pysss_nss_idmap.ID_USER : 'user',
pysss_nss_idmap.ID_GROUP : 'group',
pysss_nss_idmap.ID_BOTH : 'both',
}
def idmap_type_string(level):
string = _idmap_type_dict.get(int(level), 'unknown')
return unicode(string)
@register()
class trust_resolve(Command):
NO_CLI = True
__doc__ = _('Resolve security identifiers of users and groups in trusted domains')
takes_options = (
Str('sids+',
label = _('Security Identifiers (SIDs)'),
csv = True,
),
)
has_output_params = (
Str('name', label= _('Name')),
Str('sid', label= _('SID')),
)
has_output = (
output.ListOfEntries('result'),
)
def execute(self, *keys, **options):
result = list()
if not _nss_idmap_installed:
return dict(result=result)
try:
sids = map(lambda x: str(x), options['sids'])
xlate = pysss_nss_idmap.getnamebysid(sids)
for sid in xlate:
entry = dict()
entry['sid'] = [unicode(sid)]
entry['name'] = [unicode(xlate[sid][pysss_nss_idmap.NAME_KEY])]
entry['type'] = [idmap_type_string(xlate[sid][pysss_nss_idmap.TYPE_KEY])]
result.append(entry)
except ValueError, e:
pass
return dict(result=result)
@register()
class adtrust_is_enabled(Command):
NO_CLI = True
__doc__ = _('Determine whether ipa-adtrust-install has been run on this '
'system')
def execute(self, *keys, **options):
ldap = self.api.Backend.ldap2
adtrust_dn = DN(
('cn', 'ADTRUST'),
('cn', api.env.host),
('cn', 'masters'),
('cn', 'ipa'),
('cn', 'etc'),
api.env.basedn
)
try:
ldap.get_entry(adtrust_dn)
except errors.NotFound:
return dict(result=False)
return dict(result=True)
@register()
class compat_is_enabled(Command):
NO_CLI = True
__doc__ = _('Determine whether Schema Compatibility plugin is configured '
'to serve trusted domain users and groups')
def execute(self, *keys, **options):
ldap = self.api.Backend.ldap2
users_dn = DN(
('cn', 'users'),
('cn', 'Schema Compatibility'),
('cn', 'plugins'),
('cn', 'config')
)
groups_dn = DN(
('cn', 'groups'),
('cn', 'Schema Compatibility'),
('cn', 'plugins'),
('cn', 'config')
)
try:
users_entry = ldap.get_entry(users_dn)
except errors.NotFound:
return dict(result=False)
attr = users_entry.get('schema-compat-lookup-nsswitch')
if not attr or 'user' not in attr:
return dict(result=False)
try:
groups_entry = ldap.get_entry(groups_dn)
except errors.NotFound:
return dict(result=False)
attr = groups_entry.get('schema-compat-lookup-nsswitch')
if not attr or 'group' not in attr:
return dict(result=False)
return dict(result=True)
@register()
class sidgen_was_run(Command):
"""
This command tries to determine whether the sidgen task was run during
ipa-adtrust-install. It does that by simply checking the "editors" group
for the presence of the ipaNTSecurityIdentifier attribute - if the
attribute is present, the sidgen task was run.
Since this command relies on the existence of the "editors" group, it will
fail loudly in case this group does not exist.
"""
NO_CLI = True
__doc__ = _('Determine whether ipa-adtrust-install has been run with '
'sidgen task')
def execute(self, *keys, **options):
ldap = self.api.Backend.ldap2
editors_dn = DN(
('cn', 'editors'),
('cn', 'groups'),
('cn', 'accounts'),
api.env.basedn
)
try:
editors_entry = ldap.get_entry(editors_dn)
except errors.NotFound:
raise errors.NotFound(
name=_('sidgen_was_run'),
reason=_(
'This command relies on the existence of the "editors" '
'group, but this group was not found.'
)
)
attr = editors_entry.get('ipaNTSecurityIdentifier')
if not attr:
return dict(result=False)
return dict(result=True)
@register()
class trustdomain(LDAPObject):
"""
Object representing a domain of the AD trust.
"""
parent_object = 'trust'
trust_type_idx = {'2':u'ad'}
object_name = _('trust domain')
object_name_plural = _('trust domains')
object_class = ['ipaNTTrustedDomain']
default_attributes = ['cn', 'ipantflatname', 'ipanttrusteddomainsid', 'ipanttrustpartner']
search_display_attributes = ['cn', 'ipantflatname', 'ipanttrusteddomainsid', ]
label = _('Trusted domains')
label_singular = _('Trusted domain')
takes_params = (
Str('cn',
label=_('Domain name'),
cli_name='domain',
primary_key=True
),
Str('ipantflatname?',
cli_name='flat_name',
label=_('Domain NetBIOS name'),
),
Str('ipanttrusteddomainsid?',
cli_name='sid',
label=_('Domain Security Identifier'),
),
Str('ipanttrustpartner?',
label=_('Trusted domain partner'),
flags=['no_display', 'no_option'],
),
)
# LDAPObject.get_dn() only passes all but last element of keys and no kwargs
# to the parent object's get_dn() no matter what you pass to it. Make own get_dn()
# as we really need all elements to construct proper dn.
def get_dn(self, *keys, **kwargs):
sdn = map(lambda x: ('cn', x), keys)
sdn.reverse()
trust_type = kwargs.get('trust_type')
if not trust_type:
trust_type=u'ad'
dn=make_trust_dn(self.env, trust_type, DN(*sdn))
return dn
@register()
class trustdomain_find(LDAPSearch):
__doc__ = _('Search domains of the trust')
has_output_params = LDAPSearch.has_output_params + (
Flag('domain_enabled', label= _('Domain enabled')),
)
def pre_callback(self, ldap, filters, attrs_list, base_dn, scope, *args, **options):
return (filters, base_dn, ldap.SCOPE_SUBTREE)
def post_callback(self, ldap, entries, truncated, *args, **options):
if options.get('pkey_only', False):
return truncated
trust_dn = self.obj.get_dn(args[0], trust_type=u'ad')
trust_entry = ldap.get_entry(trust_dn)
for entry in entries:
sid = entry['ipanttrusteddomainsid'][0]
blacklist = trust_entry.get('ipantsidblacklistincoming')
if blacklist is None:
continue
if sid in blacklist:
entry['domain_enabled'] = [False]
else:
entry['domain_enabled'] = [True]
return truncated
@register()
class trustdomain_mod(LDAPUpdate):
__doc__ = _('Modify trustdomain of the trust')
NO_CLI = True
takes_options = LDAPUpdate.takes_options + (_trust_type_option,)
@register()
class trustdomain_add(LDAPCreate):
__doc__ = _('Allow access from the trusted domain')
NO_CLI = True
takes_options = LDAPCreate.takes_options + (_trust_type_option,)
def pre_callback(self, ldap, dn, entry_attrs, attrs_list, *keys, **options):
if 'ipanttrustpartner' in options:
entry_attrs['ipanttrustpartner'] = [options['ipanttrustpartner']]
return dn
@register()
class trustdomain_del(LDAPDelete):
__doc__ = _('Remove infromation about the domain associated with the trust.')
msg_summary = _('Removed information about the trusted domain "%(value)s"')
def execute(self, *keys, **options):
# Note that pre-/post- callback handling for LDAPDelete is causing pre_callback
# to always receive empty keys. We need to catch the case when root domain is being deleted
for domain in keys[1]:
if keys[0].lower() == domain:
raise errors.ValidationError(name='domain',
error=_("cannot delete root domain of the trust, use trust-del to delete the trust itself"))
try:
res = api.Command.trustdomain_enable(keys[0], domain)
except errors.AlreadyActive:
pass
result = super(trustdomain_del, self).execute(*keys, **options)
result['value'] = pkey_to_value(keys[1], options)
return result
def fetch_domains_from_trust(self, trustinstance, trust_entry, **options):
trust_name = trust_entry['cn'][0]
creds = None
password = options.get('realm_passwd', None)
if password:
admin_name = options.get('realm_admin')
sp = admin_name.split('\\')
if len(sp) == 1:
sp.insert(0, trustinstance.remote_domain.info['name'])
creds = u"{name}%{password}".format(name="\\".join(sp),
password=password)
domains = ipaserver.dcerpc.fetch_domains(self.api,
trustinstance.local_flatname,
trust_name, creds=creds)
result = []
if not domains:
return result
# trust range must exist by the time fetch_domains_from_trust is called
range_name = trust_name.upper() + '_id_range'
old_range = api.Command.idrange_show(range_name, raw=True)['result']
idrange_type = old_range['iparangetype'][0]
for dom in domains:
dom['trust_type'] = u'ad'
try:
name = dom['cn']
del dom['cn']
if 'all' in options:
dom['all'] = options['all']
if 'raw' in options:
dom['raw'] = options['raw']
res = self.api.Command.trustdomain_add(trust_name, name, **dom)
result.append(res['result'])
if idrange_type != u'ipa-ad-trust-posix':
range_name = name.upper() + '_id_range'
dom['range_type'] = u'ipa-ad-trust'
add_range(self, range_name, dom['ipanttrusteddomainsid'],
trust_name, name, **dom)
except errors.DuplicateEntry:
# Ignore updating duplicate entries
pass
return result
@register()
class trust_fetch_domains(LDAPRetrieve):
__doc__ = _('Refresh list of the domains associated with the trust')
has_output = output.standard_list_of_entries
def execute(self, *keys, **options):
if not _bindings_installed:
raise errors.NotFound(
name=_('AD Trust setup'),
reason=_(
'Cannot perform join operation without Samba 4 support '
'installed. Make sure you have installed server-trust-ad '
'sub-package of IPA'
)
)
trust = self.api.Command.trust_show(keys[0], raw=True)['result']
trustinstance = ipaserver.dcerpc.TrustDomainJoins(self.api)
if not trustinstance.configured:
raise errors.NotFound(
name=_('AD Trust setup'),
reason=_(
'Cannot perform join operation without own domain '
'configured. Make sure you have run ipa-adtrust-install '
'on the IPA server first'
)
)
domains = fetch_domains_from_trust(self, trustinstance, trust)
result = dict()
if len(domains) > 0:
result['summary'] = unicode(_('List of trust domains successfully refreshed'))
else:
result['summary'] = unicode(_('No new trust domains were found'))
result['result'] = domains
result['count'] = len(domains)
result['truncated'] = False
return result
@register()
class trustdomain_enable(LDAPQuery):
__doc__ = _('Allow use of IPA resources by the domain of the trust')
has_output = output.standard_value
msg_summary = _('Enabled trust domain "%(value)s"')
def execute(self, *keys, **options):
ldap = self.api.Backend.ldap2
if keys[0].lower() == keys[1].lower():
raise errors.ValidationError(name='domain',
error=_("Root domain of the trust is always enabled for the existing trust"))
try:
trust_dn = self.obj.get_dn(keys[0], trust_type=u'ad')
trust_entry = ldap.get_entry(trust_dn)
except errors.NotFound:
self.api.Object[self.obj.parent_object].handle_not_found(keys[0])
dn = self.obj.get_dn(keys[0], keys[1], trust_type=u'ad')
try:
entry = ldap.get_entry(dn)
sid = entry['ipanttrusteddomainsid'][0]
if sid in trust_entry['ipantsidblacklistincoming']:
trust_entry['ipantsidblacklistincoming'].remove(sid)
ldap.update_entry(trust_entry)
# Force MS-PAC cache re-initialization on KDC side
domval = ipaserver.dcerpc.DomainValidator(api)
(ccache_name, principal) = domval.kinit_as_http(keys[0])
else:
raise errors.AlreadyActive()
except errors.NotFound:
self.obj.handle_not_found(*keys)
return dict(
result=True,
value=pkey_to_value(keys[1], options),
)
@register()
class trustdomain_disable(LDAPQuery):
__doc__ = _('Disable use of IPA resources by the domain of the trust')
has_output = output.standard_value
msg_summary = _('Disabled trust domain "%(value)s"')
def execute(self, *keys, **options):
ldap = self.api.Backend.ldap2
if keys[0].lower() == keys[1].lower():
raise errors.ValidationError(name='domain',
error=_("cannot disable root domain of the trust, use trust-del to delete the trust itself"))
try:
trust_dn = self.obj.get_dn(keys[0], trust_type=u'ad')
trust_entry = ldap.get_entry(trust_dn)
except errors.NotFound:
self.api.Object[self.obj.parent_object].handle_not_found(keys[0])
dn = self.obj.get_dn(keys[0], keys[1], trust_type=u'ad')
try:
entry = ldap.get_entry(dn)
sid = entry['ipanttrusteddomainsid'][0]
if not (sid in trust_entry['ipantsidblacklistincoming']):
trust_entry['ipantsidblacklistincoming'].append(sid)
ldap.update_entry(trust_entry)
# Force MS-PAC cache re-initialization on KDC side
domval = ipaserver.dcerpc.DomainValidator(api)
(ccache_name, principal) = domval.kinit_as_http(keys[0])
else:
raise errors.AlreadyInactive()
except errors.NotFound:
self.obj.handle_not_found(*keys)
return dict(
result=True,
value=pkey_to_value(keys[1], options),
)