# Copyright (C) 2012-2019 FreeIPA Contributors see COPYING for license import logging from collections import namedtuple from textwrap import dedent from ipalib import Registry, errors from ipalib import Updater from ipapython.dn import DN from ipapython import ipautil from ipaplatform.paths import paths from ipaserver.install import sysupgrade from ipaserver.install.adtrustinstance import ( ADTRUSTInstance, map_Guests_to_nobody) from ipaserver.dcerpc_common import TRUST_BIDIRECTIONAL try: from samba.ndr import ndr_unpack from samba.dcerpc import lsa, drsblobs except ImportError: # If samba.ndr is not available, this machine is not provisioned # for serving a trust to Active Directory. As result, it does # not matter what ndr_unpack does but we save on pylint checks def ndr_unpack(x): raise NotImplementedError logger = logging.getLogger(__name__) register = Registry() DEFAULT_ID_RANGE_SIZE = 200000 trust_read_keys_template = \ ["cn=adtrust agents,cn=sysaccounts,cn=etc,{basedn}", "cn=trust admins,cn=groups,cn=accounts,{basedn}"] @register() class update_default_range(Updater): """ Create default ID range for upgraded servers. """ def execute(self, **options): ldap = self.api.Backend.ldap2 dn = DN(self.api.env.container_ranges, self.api.env.basedn) search_filter = "objectclass=ipaDomainIDRange" try: ldap.find_entries(search_filter, [], dn) except errors.NotFound: pass else: logger.debug("default_range: ipaDomainIDRange entry found, skip " "plugin") return False, [] dn = DN(('cn', 'admins'), self.api.env.container_group, self.api.env.basedn) try: admins_entry = ldap.get_entry(dn, ['gidnumber']) except errors.NotFound: logger.error("default_range: No local ID range and no admins " "group found. Cannot create default ID range") return False, [] id_range_base_id = admins_entry['gidnumber'][0] id_range_name = '%s_id_range' % self.api.env.realm id_range_size = DEFAULT_ID_RANGE_SIZE range_entry = [ dict(attr='objectclass', value='top'), dict(attr='objectclass', value='ipaIDrange'), dict(attr='objectclass', value='ipaDomainIDRange'), dict(attr='cn', value=id_range_name), dict(attr='ipabaseid', value=id_range_base_id), dict(attr='ipaidrangesize', value=id_range_size), dict(attr='iparangetype', value='ipa-local'), ] dn = DN(('cn', '%s_id_range' % self.api.env.realm), self.api.env.container_ranges, self.api.env.basedn) update = {'dn': dn, 'default': range_entry} # Default range entry has a hard-coded range size to 200000 which is # a default range size in ipa-server-install. This could cause issues # if user did not use a default range, but rather defined an own, # bigger range (option --idmax). # We should make our best to check if this is the case and provide # user with an information how to fix it. dn = DN(self.api.env.container_dna_posix_ids, self.api.env.basedn) search_filter = "objectclass=dnaSharedConfig" attrs = ['dnaHostname', 'dnaRemainingValues'] try: (entries, _truncated) = ldap.find_entries(search_filter, attrs, dn) except errors.NotFound: logger.warning("default_range: no dnaSharedConfig object found. " "Cannot check default range size.") else: masters = set() remaining_values_sum = 0 for entry in entries: hostname = entry.get('dnahostname', [None])[0] if hostname is None or hostname in masters: continue remaining_values = entry.get('dnaremainingvalues', [''])[0] try: remaining_values = int(remaining_values) except ValueError: logger.warning("default_range: could not parse " "remaining values from '%s'", remaining_values) continue else: remaining_values_sum += remaining_values masters.add(hostname) if remaining_values_sum > DEFAULT_ID_RANGE_SIZE: msg = ['could not verify default ID range size', 'Please use the following command to set correct ID range size', ' $ ipa range-mod %s --range-size=RANGE_SIZE' % id_range_name, 'RANGE_SIZE may be computed from --idstart and --idmax options ' 'used during IPA server installation:', ' RANGE_SIZE = (--idmax) - (--idstart) + 1' ] logger.error("default_range: %s", "\n".join(msg)) return False, [update] @register() class update_default_trust_view(Updater): """ Create Default Trust View for upgraded servers. """ def execute(self, **options): ldap = self.api.Backend.ldap2 default_trust_view_dn = DN(('cn', 'Default Trust View'), self.api.env.container_views, self.api.env.basedn) default_trust_view_entry = [ dict(attr='objectclass', value='top'), dict(attr='objectclass', value='ipaIDView'), dict(attr='cn', value='Default Trust View'), dict(attr='description', value='Default Trust View for AD users. ' 'Should not be deleted.'), ] # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] # Second, make sure the Default Trust View does not exist yet try: ldap.get_entry(default_trust_view_dn) except errors.NotFound: pass else: logger.debug('Default Trust View already present on this server') return False, [] # We have a server with AD trust support without Default Trust View. # Create the Default Trust View entry. update = { 'dn': default_trust_view_dn, 'default': default_trust_view_entry } return False, [update] @register() class update_sigden_extdom_broken_config(Updater): """Fix configuration of sidgen and extdom plugins Upgrade to IPA 4.2+ cause that sidgen and extdom plugins have improperly configured basedn. All trusts which have been added when config was broken must to be re-added manually. https://fedorahosted.org/freeipa/ticket/5665 """ sidgen_config_dn = DN("cn=IPA SIDGEN,cn=plugins,cn=config") extdom_config_dn = DN("cn=ipa_extdom_extop,cn=plugins,cn=config") def _fix_config(self): """Due upgrade error configuration of sidgen and extdom plugins may contain literally "$SUFFIX" value instead of real DN in nsslapd-basedn attribute :return: True if config was fixed, False if fix is not needed """ ldap = self.api.Backend.ldap2 basedn_attr = 'nsslapd-basedn' modified = False for dn in (self.sidgen_config_dn, self.extdom_config_dn): try: entry = ldap.get_entry(dn, attrs_list=[basedn_attr]) except errors.NotFound: logger.debug("configuration for %s not found, skipping", dn) else: configured_suffix = entry.single_value.get(basedn_attr) if configured_suffix is None: raise RuntimeError( "Missing attribute {attr} in {dn}".format( attr=basedn_attr, dn=dn ) ) elif configured_suffix == "$SUFFIX": # configured value is wrong, fix it entry.single_value[basedn_attr] = str(self.api.env.basedn) logger.debug("updating attribute %s of %s to correct " "value %s", basedn_attr, dn, self.api.env.basedn) ldap.update_entry(entry) modified = True else: logger.debug("configured basedn for %s is okay", dn) return modified def execute(self, **options): if sysupgrade.get_upgrade_state('sidgen', 'config_basedn_updated'): logger.debug("Already done, skipping") return False, () restart = False if self._fix_config(): sysupgrade.set_upgrade_state('sidgen', 'update_sids', True) restart = True # DS has to be restarted to apply changes sysupgrade.set_upgrade_state('sidgen', 'config_basedn_updated', True) return restart, () @register() class update_sids(Updater): """SIDs may be not created properly if bug with wrong configuration for sidgen and extdom plugins is effective This must be run after "update_sigden_extdom_broken_config" https://fedorahosted.org/freeipa/ticket/5665 """ sidgen_config_dn = DN("cn=IPA SIDGEN,cn=plugins,cn=config") def execute(self, **options): ldap = self.api.Backend.ldap2 if sysupgrade.get_upgrade_state('sidgen', 'update_sids') is not True: logger.debug("SIDs do not need to be generated") return False, () # check if IPA domain for AD trust has been created, and if we need to # regenerate missing SIDs if attribute 'ipaNTSecurityIdentifier' domain_IPA_AD_dn = DN( ('cn', self.api.env.domain), self.api.env.container_cifsdomains, self.api.env.basedn) attr_name = 'ipaNTSecurityIdentifier' try: entry = ldap.get_entry(domain_IPA_AD_dn, attrs_list=[attr_name]) except errors.NotFound: logger.debug("IPA domain object %s is not configured", domain_IPA_AD_dn) sysupgrade.set_upgrade_state('sidgen', 'update_sids', False) return False, () else: if not entry.single_value.get(attr_name): # we need to run sidgen task sidgen_task_dn = DN( "cn=generate domain sid,cn=ipa-sidgen-task,cn=tasks," "cn=config") sidgen_tasks_attr = { "objectclass": ["top", "extensibleObject"], "cn": ["sidgen"], "delay": [0], "nsslapd-basedn": [self.api.env.basedn], } task_entry = ldap.make_entry(sidgen_task_dn, **sidgen_tasks_attr) try: ldap.add_entry(task_entry) except errors.DuplicateEntry: logger.debug("sidgen task already created") else: logger.debug("sidgen task has been created") # we have to check all trusts domains which may been affected by the # bug. Symptom is missing 'ipaNTSecurityIdentifier' attribute base_dn = DN(self.api.env.container_adtrusts, self.api.env.basedn) try: trust_domain_entries, truncated = ldap.find_entries( base_dn=base_dn, scope=ldap.SCOPE_ONELEVEL, attrs_list=["cn"], # more types of trusts can be stored under cn=trusts, we need # the type with ipaNTTrustPartner attribute filter="(&(ipaNTTrustPartner=*)(!(%s=*)))" % attr_name ) except errors.NotFound: pass else: if truncated: logger.warning("update_sids: Search results were truncated") for entry in trust_domain_entries: domain = entry.single_value["cn"] logger.error( "Your trust to %s is broken. Please re-create it by " "running 'ipa trust-add' again.", domain) sysupgrade.set_upgrade_state('sidgen', 'update_sids', False) return False, () def get_gidNumber(ldap, env): # Read the gidnumber of the fallback group and returns a list with it dn = DN(('cn', ADTRUSTInstance.FALLBACK_GROUP_NAME), env.container_group, env.basedn) try: entry = ldap.get_entry(dn, ['gidnumber']) gidNumber = entry.get('gidnumber') except errors.NotFound: logger.error("%s not found", ADTRUSTInstance.FALLBACK_GROUP_NAME) return None if gidNumber is None: logger.error("%s does not have a gidnumber", ADTRUSTInstance.FALLBACK_GROUP_NAME) return None return gidNumber @register() class update_tdo_gidnumber(Updater): """ Create a gidNumber attribute for Trusted Domain Objects. The value is taken from the fallback group defined in cn=Default SMB Group. """ def execute(self, **options): ldap = self.api.Backend.ldap2 # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] gidNumber = get_gidNumber(ldap, self.api.env) if not gidNumber: logger.error("%s does not have a gidnumber", ADTRUSTInstance.FALLBACK_GROUP_NAME) return False, () # For each trusted domain object, add posix attributes # to allow use of a trusted domain account by AD DCs # to authenticate against our Samba instance try: tdos = ldap.get_entries( DN(self.api.env.container_adtrusts, self.api.env.basedn), scope=ldap.SCOPE_ONELEVEL, filter="(&(objectclass=ipaNTTrustedDomain)" "(objectclass=ipaIDObject))", attrs_list=['gidnumber', 'uidnumber', 'objectclass', 'ipantsecurityidentifier', 'ipaNTTrustDirection' 'uid', 'cn', 'ipantflatname']) for tdo in tdos: # if the trusted domain object does not contain gidnumber, # add the default fallback group gidnumber if not tdo.get('gidnumber'): tdo['gidnumber'] = gidNumber # Generate uidNumber and ipaNTSecurityIdentifier if # uidNumber is missing. We rely on sidgen plugin here # to generate ipaNTSecurityIdentifier. if not tdo.get('uidnumber'): tdo['uidnumber'] = ['-1'] if 'posixAccount' not in tdo.get('objectclass'): tdo['objectclass'].extend(['posixAccount']) # Based on the flat name of a TDO, # add user name FLATNAME$ (note dollar sign) # to allow SSSD to map this TDO to a POSIX account if not tdo.get('uid'): tdo['uid'] = ["{flatname}$".format( flatname=tdo.single_value['ipantflatname'])] if not tdo.get('homedirectory'): tdo['homedirectory'] = ['/dev/null'] # Store resulted entry try: ldap.update_entry(tdo) except errors.ExecutionError as e: logger.warning( "Failed to update trusted domain object %s", tdo.dn) logger.debug("Exception during TDO update: %s", str(e)) except errors.NotFound: logger.debug("No trusted domain object to update") return False, () return False, () @register() class update_mapping_Guests_to_nobody(Updater): """ Map BUILTIN\\Guests group to nobody Samba 4.9 became more strict on availability of builtin Guests group """ def execute(self, **options): # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] map_Guests_to_nobody() return False, [] @register() class update_tdo_to_new_layout(Updater): """ Transform trusted domain objects into a new layout There are now two Kerberos principals per direction of trust: INBOUND: - krbtgt/@, enabled by default - @, disabled by default on our side as it is only used by SSSD to retrieve TDO creds when operating as an AD Trust agent across IPA topology OUTBOUND: - krbtgt/@, enabled by default - @, enabled by default and used by remote trusted DCs to authenticate against us This principal also has krbtgt/@ defined as a Kerberos principal alias. This is due to how Kerberos key salt is derived for cross-realm principals on AD side Finally, Samba requires account to also possess POSIX and SMB identities. We ensure this by making the trusted domain object to be this account with 'uid' and 'cn' attributes being '' and uidNumber/gidNumber generated automatically. Also, we ensure the trusted domain object is given a SID. The update to POSIX/SMB identities is done through the update plugin update_tdo_gidnumber. """ tgt_principal_template = "krbtgt/{remote}@{local}" nbt_principal_template = "{nbt}$@{realm}" trust_filter = \ "(&(objectClass=ipaNTTrustedDomain)(objectClass=ipaIDObject))" trust_attrs = ("ipaNTFlatName", "ipaNTTrustPartner", "ipaNTTrustDirection", "cn", "ipaNTTrustAttributes", "ipaNTAdditionalSuffixes", "ipaNTTrustedDomainSID", "ipaNTTrustType", "ipaNTTrustAuthIncoming", "ipaNTTrustAuthOutgoing") change_password_template = \ "change_password -pw {password} " \ "-e aes256-cts-hmac-sha1-96,aes128-cts-hmac-sha1-96 " \ "{principal}" KRB_PRINC_CREATE_DEFAULT = 0x00000000 KRB_PRINC_CREATE_DISABLED = 0x00000001 KRB_PRINC_CREATE_AGENT_PERMISSION = 0x00000002 KRB_PRINC_CREATE_IDENTITY = 0x00000004 KRB_PRINC_MUST_EXIST = 0x00000008 # This is a flag for krbTicketFlags attribute # to disallow creating any tickets using this principal KRB_DISALLOW_ALL_TIX = 0x00000040 def retrieve_trust_password(self, packed): # The structure of the trust secret is described at # https://github.com/samba-team/samba/blob/master/ # librpc/idl/drsblobs.idl#L516-L569 # In our case in LDAP TDO object stores # `struct trustAuthInOutBlob` that has `count` and # the `current` of `AuthenticationInformationArray` struct # which has own `count` and `array` of `AuthenticationInformation` # structs that have `AuthType` field which should be equal to # `LSA_TRUST_AUTH_TYPE_CLEAR`. # Then AuthInfo field would contain a password as an array of bytes assert(packed.count != 0) assert(packed.current.count != 0) assert(packed.current.array[0].AuthType == lsa.TRUST_AUTH_TYPE_CLEAR) clear_value = packed.current.array[0].AuthInfo.password return ''.join(map(chr, clear_value)) def set_krb_principal(self, principals, password, trustdn, flags=None): ldap = self.api.Backend.ldap2 if isinstance(principals, (list, tuple)): trust_principal = principals[0] alias = principals[1] else: trust_principal = principals alias = None entry = None en = None try: entry = ldap.get_entry( DN(('krbprincipalname', trust_principal), trustdn)) dn = entry.dn action = ldap.update_entry ticket_flags = int(entry.single_value.get('krbticketflags', 0)) logger.debug("Updating Kerberos principal entry for %s", trust_principal) except errors.NotFound: # For a principal that must exist, we re-raise the exception # to let the caller to handle this situation if flags & self.KRB_PRINC_MUST_EXIST: raise ticket_flags = 0 if alias: try: en = ldap.get_entry( DN(('krbprincipalname', alias), trustdn)) ldap.delete_entry(en.dn) ticket_flags = int(en.single_value.get( 'krbticketflags', 0)) except errors.NotFound: logger.debug("Entry for alias TDO does not exist for " "trusted domain object %s, skip it", alias) dn = DN(('krbprincipalname', trust_principal), trustdn) entry = ldap.make_entry(dn) logger.debug("Adding Kerberos principal entry for %s", trust_principal) action = ldap.add_entry entry_data = { 'objectclass': ['krbPrincipal', 'krbPrincipalAux', 'krbTicketPolicyAux', 'top'], 'krbcanonicalname': [trust_principal], 'krbprincipalname': [trust_principal], } if flags & self.KRB_PRINC_CREATE_DISABLED: entry_data['krbticketflags'] = (ticket_flags | self.KRB_DISALLOW_ALL_TIX) if flags & self.KRB_PRINC_CREATE_AGENT_PERMISSION: entry_data['objectclass'].extend(['ipaAllowedOperations']) if alias: entry_data['krbprincipalname'].extend([alias]) if en: entry_data['krbprincipalkey'] = en.single_value.get( 'krbprincipalkey') entry_data['krbextradata'] = en.single_value.get( 'krbextradata') read_keys = en.get('ipaAllowedToPerform;read_keys', []) if not read_keys: # Old style, no ipaAllowedToPerform;read_keys in the entry, # use defaults that ipasam should have set when creating a # trust read_keys = list(map( lambda x: x.format(basedn=self.api.env.basedn), trust_read_keys_template)) entry_data['ipaAllowedToPerform;read_keys'] = read_keys entry.update(entry_data) try: action(entry) except errors.EmptyModlist: logger.debug("No update was required for Kerberos principal %s", trust_principal) # If entry existed, no need to set Kerberos keys on it if action == ldap.update_entry: logger.debug("No need to update Kerberos keys for " "existing Kerberos principal %s", trust_principal) return # Now that entry is updated, set its Kerberos keys. # # It would be a complication to use ipa-getkeytab LDAP extended control # here because we would need to encode the request in ASN.1 sequence # and we don't have the code to do so exposed in Python bindings. # Instead, as we run on IPA master, we can use kadmin.local for that # directly. # We pass the command as a stdin to both avoid shell interpolation # of the passwords and also to avoid its exposure to other processes # Since we don't want to record the output, make also a redacted log change_password = self.change_password_template.format( password=password, principal=trust_principal) redacted = self.change_password_template.format( password='', principal=trust_principal) logger.debug("Updating Kerberos keys for %s with the following " "kadmin command:\n\t%s", trust_principal, redacted) ipautil.run([paths.KADMIN_LOCAL, "-x", "ipa-setup-override-restrictions"], stdin=change_password, skip_output=True) def execute(self, **options): # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] ldap = self.api.Backend.ldap2 gidNumber = get_gidNumber(ldap, self.api.env) if gidNumber is None: return False, [] result = self.api.Command.trustconfig_show()['result'] our_nbt_name = result.get('ipantflatname', [None])[0] if not our_nbt_name: return False, [] trusts_dn = self.api.env.container_adtrusts + self.api.env.basedn # We might be in a situation when no trusts exist yet # In such case there is nothing to upgrade but we have to catch # an exception or it will abort the whole upgrade process try: trusts = ldap.get_entries( base_dn=trusts_dn, scope=ldap.SCOPE_ONELEVEL, filter=self.trust_filter, attrs_list=self.trust_attrs) except errors.EmptyResult: trusts = [] # For every trust, retrieve its principals and convert for t_entry in trusts: t_dn = t_entry.dn logger.debug('Processing trust domain object %s', str(t_dn)) t_realm = t_entry.single_value.get('ipaNTTrustPartner').upper() direction = int(t_entry.single_value.get('ipaNTTrustDirection')) passwd_incoming = self.retrieve_trust_password( ndr_unpack(drsblobs.trustAuthInOutBlob, t_entry.single_value.get('ipaNTTrustAuthIncoming'))) passwd_outgoing = self.retrieve_trust_password( ndr_unpack(drsblobs.trustAuthInOutBlob, t_entry.single_value.get('ipaNTTrustAuthOutgoing'))) # For outbound and inbound trusts, process four principals total if (direction & TRUST_BIDIRECTIONAL) == TRUST_BIDIRECTIONAL: # 1. OUTBOUND: krbtgt/@ must exist trust_principal = self.tgt_principal_template.format( remote=t_realm, local=self.api.env.realm) try: self.set_krb_principal(trust_principal, passwd_outgoing, t_dn, flags=self.KRB_PRINC_CREATE_DEFAULT) except errors.NotFound: # It makes no sense to convert this one, skip the trust # completely, better to re-establish one logger.error( "Broken trust to AD: %s not found, " "please re-establish the trust to %s", trust_principal, t_realm) continue # 2. Create @ nbt_name = t_entry.single_value.get('ipaNTFlatName') nbt_principal = self.nbt_principal_template.format( nbt=nbt_name, realm=self.api.env.realm) tgt_principal = self.tgt_principal_template.format( remote=nbt_name, local=self.api.env.realm) self.set_krb_principal([nbt_principal, tgt_principal], passwd_incoming, t_dn, flags=self.KRB_PRINC_CREATE_DEFAULT) # 3. INBOUND: krbtgt/@ must exist trust_principal = self.tgt_principal_template.format( remote=self.api.env.realm, local=t_realm) try: self.set_krb_principal(trust_principal, passwd_outgoing, t_dn, flags=self.KRB_PRINC_CREATE_DEFAULT) except errors.NotFound: # It makes no sense to convert this one, skip the trust # completely, better to re-establish one logger.error( "Broken trust to AD: %s not found, " "please re-establish the trust to %s", trust_principal, t_realm) continue # 4. Create krbtgt/@, disabled nbt_principal = self.nbt_principal_template.format( nbt=our_nbt_name, realm=t_realm) tgt_principal = self.tgt_principal_template.format( remote=our_nbt_name, local=t_realm) self.set_krb_principal([tgt_principal, nbt_principal], passwd_incoming, t_dn, flags=self.KRB_PRINC_CREATE_DEFAULT | self.KRB_PRINC_CREATE_AGENT_PERMISSION | self.KRB_PRINC_CREATE_DISABLED) return False, [] KeyEntry = namedtuple('KeyEntry', ['kvno', 'principal', 'etype', 'key']) @register() class update_host_cifs_keytabs(Updater): """Synchronize host keytab and Samba keytab Samba needs access to host/domain.controller principal keys to allow validation of DCE RPC requests sent by domain members since those use a service ticket to host/domain.controller principal because in Active Directory service keys are the same as the machine account credentials and services are just aliases to the machine account object. """ host_princ_template = "host/{master}@{realm}" valid_etypes = ['aes256-cts-hmac-sha1-96', 'aes128-cts-hmac-sha1-96'] def extract_key_refs(self, keytab): host_princ = self.host_princ_template.format( master=self.api.env.host, realm=self.api.env.realm) result = ipautil.run([paths.KLIST, "-eK", "-k", keytab], capture_output=True, raiseonerr=False, nolog_output=True) if result.returncode != 0: return None keys_to_sync = [] for l in result.output.splitlines(): if (host_princ in l and any(e in l for e in self.valid_etypes)): els = l.split() els[-2] = els[-2].strip('()') els[-1] = els[-1].strip('()') keys_to_sync.append(KeyEntry._make(els)) return keys_to_sync def copy_key(self, keytab, keyentry): # keyentry.key is a hex value of the actual key # prefixed with 0x, as produced by klist -K -k. # However, ktutil accepts hex value without 0x, so # we should strip first two characters. stdin = dedent("""\ rkt {keytab} addent -key -p {principal} -k {kvno} -e {etype} {key} wkt {keytab} """).format(keytab=keytab, principal=keyentry.principal, kvno=keyentry.kvno, etype=keyentry.etype, key=keyentry.key[2:]) result = ipautil.run([paths.KTUTIL], stdin=stdin, raiseonerr=False, umask=0o077, nolog_output=True) if result.returncode != 0: logger.warning('Unable to update %s with new keys', keytab) def execute(self, **options): # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] # Extract keys from the host and samba keytabs hostkeys = self.extract_key_refs(paths.KRB5_KEYTAB) cifskeys = self.extract_key_refs(paths.SAMBA_KEYTAB) if any([hostkeys is None, cifskeys is None]): logger.warning('Either %s or %s are missing or unreadable', paths.KRB5_KEYTAB, paths.SAMBA_KEYTAB) return False, [] # If there are missing host keys in the samba keytab, copy them over # Also copy those keys that differ in the content and/or KVNO for hostkey in hostkeys: copied = False uptodate = False for cifskey in cifskeys: if all([cifskey.principal == hostkey.principal, cifskey.etype == hostkey.etype]): if any([cifskey.key != hostkey.key, cifskey.kvno != hostkey.kvno]): self.copy_key(paths.SAMBA_KEYTAB, hostkey) copied = True break else: uptodate = True if not (copied or uptodate): self.copy_key(paths.SAMBA_KEYTAB, hostkey) return False, [] @register() class update_tdo_default_read_keys_permissions(Updater): trust_filter = \ "(&(objectClass=krbPrincipal)(krbPrincipalName=krbtgt/{nbt}@*))" def execute(self, **options): ldap = self.api.Backend.ldap2 # First, see if trusts are enabled on the server if not self.api.Command.adtrust_is_enabled()['result']: logger.debug('AD Trusts are not enabled on this server') return False, [] result = self.api.Command.trustconfig_show()['result'] our_nbt_name = result.get('ipantflatname', [None])[0] if not our_nbt_name: return False, [] trusts_dn = self.api.env.container_adtrusts + self.api.env.basedn trust_filter = self.trust_filter.format(nbt=our_nbt_name) # We might be in a situation when no trusts exist yet # In such case there is nothing to upgrade but we have to catch # an exception or it will abort the whole upgrade process try: tdos = ldap.get_entries( base_dn=trusts_dn, scope=ldap.SCOPE_SUBTREE, filter=trust_filter, attrs_list=['*']) except errors.EmptyResult: tdos = [] for tdo in tdos: updates = dict() oc = tdo.get('objectClass', []) if 'ipaAllowedOperations' not in oc: updates['objectClass'] = oc + ['ipaAllowedOperations'] read_keys = tdo.get('ipaAllowedToPerform;read_keys', []) if not read_keys: read_keys_values = list(map( lambda x: x.format(basedn=self.api.env.basedn), trust_read_keys_template)) updates['ipaAllowedToPerform;read_keys'] = read_keys_values tdo.update(updates) try: ldap.update_entry(tdo) except errors.EmptyModlist: logger.debug("No update was required for TDO %s", tdo.single_value.get('krbCanonicalName')) return False, []