# Authors: Ade Lee # # Copyright (C) 2014 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 . # from __future__ import absolute_import import base64 import logging import time import ldap import os import shutil import traceback import dbus from configparser import DEFAULTSECT, ConfigParser, RawConfigParser import six from pki.client import PKIConnection import pki.system from ipalib import api, errors, x509 from ipalib.install import certmonger from ipalib.constants import CA_DBUS_TIMEOUT, IPA_CA_RECORD, RENEWAL_CA_NAME from ipaplatform import services from ipaplatform.constants import constants from ipaplatform.paths import paths from ipapython import directivesetter from ipapython import ipaldap from ipapython import ipautil from ipapython.dn import DN from ipaserver.install import service from ipaserver.install import sysupgrade from ipaserver.install import replication from ipaserver.install.installutils import stopped_service logger = logging.getLogger(__name__) INTERNAL_TOKEN = "internal" def get_security_domain(): """ Get the security domain from the REST interface on the local Dogtag CA This function will succeed if the local dogtag CA is up. """ connection = PKIConnection( protocol='https', hostname=api.env.ca_host, port='8443' ) domain_client = pki.system.SecurityDomainClient(connection) info = domain_client.get_security_domain_info() return info def is_installing_replica(sys_type): """ We expect only one of each type of Dogtag subsystem in an IPA deployment. That means that if a subsystem of the specified type has already been deployed - and therefore appears in the security domain - then we must be installing a replica. """ info = get_security_domain() try: sys_list = info.systems[sys_type] return len(sys_list.hosts) > 0 except KeyError: return False class DogtagInstance(service.Service): """ This is the base class for a Dogtag 10+ instance, which uses a shared tomcat instance and DS to host the relevant subsystems. It contains functions that will be common to installations of the CA, KRA, and eventually TKS and TPS. """ # Mapping of nicknames for tracking requests, and the profile to # use for that certificate. 'configure_renewal()' reads this # dict. The profile MUST be specified. tracking_reqs = dict() # HSM state is shared between CA and KRA hsm_sstore = 'pki_hsm' # override token for specific nicknames token_names = dict() def get_token_name(self, nickname): """Look up token name for nickname.""" return self.token_names.get(nickname, self.token_name) ipaca_groups = DN(('ou', 'groups'), ('o', 'ipaca')) ipaca_people = DN(('ou', 'people'), ('o', 'ipaca')) groups_aci = ( b'(targetfilter="(objectClass=groupOfUniqueNames)")' b'(targetattr="cn || description || objectclass || uniquemember")' b'(version 3.0; acl "Allow users from o=ipaca to read groups"; ' b'allow (read, search, compare) ' b'userdn="ldap:///uid=*,ou=people,o=ipaca";)' ) def __init__(self, realm, subsystem, service_desc, host_name=None, nss_db=paths.PKI_TOMCAT_ALIAS_DIR, service_prefix=None, config=None): """Initializer""" super(DogtagInstance, self).__init__( 'pki-tomcatd', service_desc=service_desc, realm_name=realm, service_user=constants.PKI_USER, service_prefix=service_prefix ) self.admin_password = None self.fqdn = host_name self.pkcs12_info = None self.clone = False self.basedn = None self.admin_user = "admin" self.admin_dn = DN( ('uid', self.admin_user), self.ipaca_people ) self.admin_groups = None self.tmp_agent_db = None self.subsystem = subsystem # replication parameters self.master_host = None self.master_replication_port = 389 self.nss_db = nss_db self.config = config # Path to CS.cfg # filled out by configure_instance self.pki_config_override = None self.ca_subject = None self.subject_base = None def is_installed(self): """ Determine if subsystem instance has been installed. Returns True/False """ return os.path.exists(os.path.join( paths.VAR_LIB_PKI_TOMCAT_DIR, self.subsystem.lower())) def spawn_instance(self, cfg_file, nolog_list=()): """ Create and configure a new Dogtag instance using pkispawn. Passes in a configuration file with IPA-specific parameters. """ subsystem = self.subsystem args = [paths.PKISPAWN, "-s", subsystem, "-f", cfg_file] with open(cfg_file) as f: logger.debug( 'Contents of pkispawn configuration file (%s):\n%s', cfg_file, ipautil.nolog_replace(f.read(), nolog_list)) try: ipautil.run(args, nolog=nolog_list) except ipautil.CalledProcessError as e: self.handle_setup_error(e) def clean_pkispawn_files(self): if self.tmp_agent_db is not None: logger.debug("Removing %s", self.tmp_agent_db) shutil.rmtree(self.tmp_agent_db, ignore_errors=True) client_dir = os.path.join( '/root/.dogtag/pki-tomcat/', self.subsystem.lower()) logger.debug("Removing %s", client_dir) shutil.rmtree(client_dir, ignore_errors=True) def restart_instance(self): self.restart('pki-tomcat') def start_instance(self): self.start('pki-tomcat') def stop_instance(self): try: self.stop('pki-tomcat') except Exception: logger.debug("%s", traceback.format_exc()) logger.critical( "Failed to stop the Dogtag instance." "See the installation log for details.") def enable_client_auth_to_db(self): """ Enable client auth connection to the internal db. """ sub_system_nickname = "subsystemCert cert-pki-ca" if self.token_name != INTERNAL_TOKEN: # TODO: Dogtag 10.6.9 does not like "internal" prefix. sub_system_nickname = '{}:{}'.format( self.token_name, sub_system_nickname ) with stopped_service('pki-tomcatd', 'pki-tomcat'): directivesetter.set_directive( self.config, 'authz.instance.DirAclAuthz.ldap.ldapauth.authtype', 'SslClientAuth', quotes=False, separator='=') directivesetter.set_directive( self.config, 'authz.instance.DirAclAuthz.ldap.ldapauth.clientCertNickname', sub_system_nickname, quotes=False, separator='=') directivesetter.set_directive( self.config, 'authz.instance.DirAclAuthz.ldap.ldapconn.port', '636', quotes=False, separator='=') directivesetter.set_directive( self.config, 'authz.instance.DirAclAuthz.ldap.ldapconn.secureConn', 'true', quotes=False, separator='=') directivesetter.set_directive( self.config, 'internaldb.ldapauth.authtype', 'SslClientAuth', quotes=False, separator='=') directivesetter.set_directive( self.config, 'internaldb.ldapauth.clientCertNickname', sub_system_nickname, quotes=False, separator='=') directivesetter.set_directive( self.config, 'internaldb.ldapconn.port', '636', quotes=False, separator='=') directivesetter.set_directive( self.config, 'internaldb.ldapconn.secureConn', 'true', quotes=False, separator='=') # Remove internaldb password as is not needed anymore directivesetter.set_directive(paths.PKI_TOMCAT_PASSWORD_CONF, 'internaldb', None, separator='=') def uninstall(self): if self.is_installed(): self.print_msg("Unconfiguring %s" % self.subsystem) try: ipautil.run([paths.PKIDESTROY, "-i", 'pki-tomcat', "-s", self.subsystem]) except ipautil.CalledProcessError as e: logger.critical("failed to uninstall %s instance %s", self.subsystem, e) def http_proxy(self): """ Update the http proxy file """ template_filename = ( os.path.join(paths.USR_SHARE_IPA_DIR, "ipa-pki-proxy.conf.template")) sub_dict = dict( DOGTAG_PORT=8009, CLONE='' if self.clone else '#', FQDN=self.fqdn, ) template = ipautil.template_file(template_filename, sub_dict) with open(paths.HTTPD_IPA_PKI_PROXY_CONF, "w") as fd: fd.write(template) os.fchmod(fd.fileno(), 0o644) def configure_certmonger_renewal(self): """ Create a new CA type for certmonger that will retrieve updated certificates from the dogtag master server. """ cmonger = services.knownservices.certmonger cmonger.enable() if not services.knownservices.dbus.is_running(): # some platforms protect dbus with RefuseManualStart=True services.knownservices.dbus.start() cmonger.start() bus = dbus.SystemBus() obj = bus.get_object('org.fedorahosted.certmonger', '/org/fedorahosted/certmonger') iface = dbus.Interface(obj, 'org.fedorahosted.certmonger') for suffix, args in [('', ''), ('-reuse', ' --reuse-existing')]: name = RENEWAL_CA_NAME + suffix path = iface.find_ca_by_nickname(name) if not path: command = paths.DOGTAG_IPA_CA_RENEW_AGENT_SUBMIT + args iface.add_known_ca( name, command, dbus.Array([], dbus.Signature('s')), # Give dogtag extra time to generate cert timeout=CA_DBUS_TIMEOUT) def __get_pin(self, token_name=INTERNAL_TOKEN): try: return certmonger.get_pin(token_name) except IOError as e: logger.debug( 'Unable to determine PIN for the Dogtag instance: %s', e) raise RuntimeError(e) def configure_renewal(self): """ Configure certmonger to renew system certs """ for nickname in self.tracking_reqs: token_name = self.get_token_name(nickname) pin = self.__get_pin(token_name) try: certmonger.start_tracking( certpath=self.nss_db, ca=RENEWAL_CA_NAME, nickname=nickname, token_name=token_name, pin=pin, pre_command='stop_pkicad', post_command='renew_ca_cert "%s"' % nickname, profile=self.tracking_reqs[nickname], ) except RuntimeError as e: logger.error( "certmonger failed to start tracking certificate: %s", e) def stop_tracking_certificates(self, stop_certmonger=True): """Stop tracking our certificates. Called on uninstall. """ logger.debug( "Configuring certmonger to stop tracking system certificates " "for %s", self.subsystem) cmonger = services.knownservices.certmonger if not services.knownservices.dbus.is_running(): # some platforms protect dbus with RefuseManualStart=True services.knownservices.dbus.start() cmonger.start() for nickname in self.tracking_reqs: try: certmonger.stop_tracking( self.nss_db, nickname=nickname) except RuntimeError as e: logger.error( "certmonger failed to stop tracking certificate: %s", e) if stop_certmonger: cmonger.stop() def update_cert_cs_cfg(self, directive, cert): """ When renewing a Dogtag subsystem certificate the configuration file needs to get the new certificate as well. ``directive`` is the directive to update in CS.cfg cert is IPACertificate. cs_cfg is the path to the CS.cfg file """ with stopped_service('pki-tomcatd', 'pki-tomcat'): directivesetter.set_directive( self.config, directive, # the cert must be only the base64 string without headers (base64.b64encode(cert.public_bytes(x509.Encoding.DER)) .decode('ascii')), quotes=False, separator='=') def get_admin_cert(self): """ Get the certificate for the admin user by checking the ldap entry for the user. There should be only one certificate per user. """ logger.debug('Trying to find the certificate for the admin user') conn = None try: conn = ipaldap.LDAPClient.from_realm(self.realm) conn.external_bind() entry_attrs = conn.get_entry(self.admin_dn, ['usercertificate']) admin_cert = entry_attrs.get('usercertificate')[0] # TODO(edewata) Add check to warn if there is more than one cert. finally: if conn is not None: conn.unbind() return admin_cert def handle_setup_error(self, e): logger.critical("Failed to configure %s instance: %s", self.subsystem, e) logger.critical("See the installation logs and the following " "files/directories for more information:") logger.critical(" %s", paths.TOMCAT_TOPLEVEL_DIR) raise RuntimeError("%s configuration failed." % self.subsystem) def add_ipaca_aci(self): """Add ACI to allow ipaca users to read their own group information Dogtag users aren't allowed to enumerate their own groups. The setup_admin() method needs the permission to wait, until all group information has been replicated. """ dn = self.ipaca_groups mod = [(ldap.MOD_ADD, 'aci', [self.groups_aci])] try: api.Backend.ldap2.modify_s(dn, mod) except ldap.TYPE_OR_VALUE_EXISTS: logger.debug("%s already has ACI to read group information", dn) else: logger.debug("Added ACI to read groups to %s", dn) def setup_admin(self): self.admin_user = "admin-%s" % self.fqdn self.admin_password = ipautil.ipa_generate_password() self.admin_dn = DN( ('uid', self.admin_user), self.ipaca_people ) # remove user if left-over exists try: api.Backend.ldap2.delete_entry(self.admin_dn) except errors.NotFound: pass # add user entry = api.Backend.ldap2.make_entry( self.admin_dn, objectclass=["top", "person", "organizationalPerson", "inetOrgPerson", "cmsuser"], uid=[self.admin_user], cn=[self.admin_user], sn=[self.admin_user], usertype=['adminType'], mail=['root@localhost'], userPassword=[self.admin_password], userstate=['1'] ) api.Backend.ldap2.add_entry(entry) wait_groups = [] for group in self.admin_groups: group_dn = DN(('cn', group), self.ipaca_groups) mod = [(ldap.MOD_ADD, 'uniqueMember', [self.admin_dn])] try: api.Backend.ldap2.modify_s(group_dn, mod) except ldap.TYPE_OR_VALUE_EXISTS: # already there return None else: wait_groups.append(group_dn) # Now wait until the other server gets replicated this data master_conn = ipaldap.LDAPClient.from_hostname_secure( self.master_host ) logger.debug( "Waiting %s seconds for %s to appear on %s", api.env.replication_wait_timeout, self.admin_dn, master_conn ) deadline = time.time() + api.env.replication_wait_timeout while time.time() < deadline: time.sleep(1) try: master_conn.simple_bind(self.admin_dn, self.admin_password) except errors.ACIError: # user not replicated yet pass else: logger.debug("Successfully logged in as %s", self.admin_dn) break else: logger.error( "Unable to log in as %s on %s", self.admin_dn, master_conn ) logger.info( "[hint] tune with replication_wait_timeout" ) raise errors.NotFound( reason="{} did not replicate to {}".format( self.admin_dn, master_conn ) ) # wait for group membership for group_dn in wait_groups: replication.wait_for_entry( master_conn, group_dn, timeout=api.env.replication_wait_timeout, attr='uniqueMember', attrvalue=self.admin_dn ) def __remove_admin_from_group(self, group): dn = DN(('cn', group), self.ipaca_groups) mod = [(ldap.MOD_DELETE, 'uniqueMember', self.admin_dn)] try: api.Backend.ldap2.modify_s(dn, mod) except ldap.NO_SUCH_ATTRIBUTE: # already removed pass def teardown_admin(self): for group in self.admin_groups: self.__remove_admin_from_group(group) api.Backend.ldap2.delete_entry(self.admin_dn) def backup_config(self): """ Create a backup copy of CS.cfg """ config = self.config bak = config + '.ipabkp' if services.knownservices['pki_tomcatd'].is_running('pki-tomcat'): raise RuntimeError( "Dogtag must be stopped when creating backup of %s" % config) shutil.copy(config, bak) # shutil.copy() doesn't copy owner s = os.stat(config) os.chown(bak, s.st_uid, s.st_gid) def reindex_task(self, force=False): """Reindex ipaca entries pkispawn sometimes does not run its indextasks. This leads to slow unindexed filters on attributes such as description, which is used to log in with a certificate. Explicitly reindex attribute that should have been reindexed by CA's indextasks.ldif. See https://pagure.io/dogtagpki/issue/3083 """ state_name = 'reindex_task' if not force and sysupgrade.get_upgrade_state('dogtag', state_name): return cn = "indextask_ipaca_{}".format(int(time.time())) dn = DN( ('cn', cn), ('cn', 'index'), ('cn', 'tasks'), ('cn', 'config') ) entry = api.Backend.ldap2.make_entry( dn, objectClass=['top', 'extensibleObject'], cn=[cn], nsInstance=['ipaca'], # Dogtag PKI database nsIndexAttribute=[ # from pki/base/ca/shared/conf/indextasks.ldif 'archivedBy', 'certstatus', 'clientId', 'dataType', 'dateOfCreate', 'description', 'duration', 'extension', 'issuedby', 'issuername', 'metaInfo', 'notafter', 'notbefore', 'ownername', 'publicKeyData', 'requestid', 'requestowner', 'requestsourceid', 'requeststate', 'requesttype', 'revInfo', 'revokedOn', 'revokedby', 'serialno', 'status', 'subjectname', ], ttl=[10], ) logger.debug('Creating ipaca reindex task %s', dn) api.Backend.ldap2.add_entry(entry) logger.debug('Waiting for task...') exitcode = replication.wait_for_task(api.Backend.ldap2, dn) logger.debug( 'Task %s has finished with exit code %i', dn, exitcode ) sysupgrade.set_upgrade_state('dogtag', state_name, True) def set_hsm_state(self, config): section_name = self.subsystem.upper() assert section_name == 'CA' if config.getboolean(section_name, 'pki_hsm_enable', fallback=False): enable = True token_name = config.get(section_name, 'pki_token_name') else: enable = False token_name = INTERNAL_TOKEN self.sstore.backup_state(self.hsm_sstore, "enabled", enable) self.sstore.backup_state(self.hsm_sstore, "token_name", token_name) def restore_hsm_state(self): return ( self.sstore.restore_state(self.hsm_sstore, "enabled"), self.sstore.restore_state(self.hsm_sstore, "token_name"), ) @property def hsm_enabled(self): """Is HSM support enabled?""" return self.sstore.get_state(self.hsm_sstore, "enabled") @property def token_name(self): """HSM token name""" return self.sstore.get_state(self.hsm_sstore, "token_name") def _configure_clone(self, subsystem_config, security_domain_hostname, clone_pkcs12_path): subsystem_config.update( # Security domain registration pki_security_domain_hostname=security_domain_hostname, pki_security_domain_https_port=443, pki_security_domain_user=self.admin_user, pki_security_domain_password=self.admin_password, # Clone pki_clone=True, pki_clone_pkcs12_path=clone_pkcs12_path, pki_clone_pkcs12_password=self.dm_password, pki_clone_replication_security="TLS", pki_clone_replication_master_port=self.master_replication_port, pki_clone_replication_clone_port=389, pki_clone_replicate_schema=False, pki_clone_uri="https://%s" % ipautil.format_netloc( self.master_host, 443), ) def _create_spawn_config(self, subsystem_config): loader = PKIIniLoader( subsystem=self.subsystem, fqdn=self.fqdn, domain=api.env.domain, subject_base=self.subject_base, ca_subject=self.ca_subject, admin_user=self.admin_user, admin_password=self.admin_password, dm_password=self.dm_password, pki_config_override=self.pki_config_override ) return loader.create_spawn_config(subsystem_config) class PKIIniLoader: # supported subsystems subsystems = ('CA', 'KRA') # default, hard-coded, and immutable settings ipaca_default = os.path.join( paths.USR_SHARE_IPA_DIR, 'ipaca_default.ini' ) # customizable settings ipaca_customize = os.path.join( paths.USR_SHARE_IPA_DIR, 'ipaca_customize.ini' ) # keys that may be stored in a HSM token token_stanzas = ( 'pki_audit_signing_token', 'pki_subsystem_token', 'pki_ca_signing_token', 'pki_ocsp_signing_token', 'pki_storage_token', 'pki_transport_token', ) # Set of immutable keys, initialized on demand _immutable_keys = None # Set of immutable config keys that are defined in dynamic code instead # of ipaca_default config file. _immutable_code_keys = frozenset({ # dogtaginstance 'pki_admin_password', 'pki_ds_password', 'pki_dns_domainname', 'pki_hostname', 'pki_subsystem', 'pki_subsystem_type', # clone settings 'pki_security_domain_hostname', 'pki_security_domain_https_port', 'pki_security_domain_user', 'pki_security_domain_password', 'pki_clone', 'pki_clone_pkcs12_path', 'pki_clone_pkcs12_password', 'pki_clone_replication_security', 'pki_clone_replication_master_port', 'pki_clone_replication_clone_port', 'pki_clone_replicate_schema', 'pki_clone_uri', # cainstance 'pki_ds_secure_connection', 'pki_server_database_password', 'pki_ds_create_new_db', 'pki_clone_setup_replication', 'pki_clone_reindex_data', 'pki_external', 'pki_ca_signing_csr_path', 'pki_ca_signing_cert_path', 'pki_cert_chain_path', 'pki_external_step_two', # krainstance 'pki_issuing_ca_uri', 'pki_client_database_dir', 'pki_client_database_password', 'pki_client_database_purge', 'pki_client_pkcs12_password', 'pki_import_admin_cert', 'pki_client_admin_cert_p12', }) def __init__(self, subsystem, fqdn, domain, subject_base, ca_subject, admin_user, admin_password, dm_password, pki_config_override=None): self.pki_config_override = pki_config_override self.defaults = dict( # pretty much static ipa_ca_pem_file=paths.IPA_CA_CRT, # variable ipa_ca_subject=ca_subject, ipa_subject_base=subject_base, ipa_fqdn=fqdn, ipa_ocsp_uri="http://{}.{}/ca/ocsp".format( IPA_CA_RECORD, ipautil.format_netloc(domain)), ipa_admin_cert_p12=paths.DOGTAG_ADMIN_P12, ipa_admin_user=admin_user, pki_admin_password=admin_password, pki_ds_password=dm_password, # Dogtag's pkiparser defines these config vars by default: pki_dns_domainname=domain, pki_hostname=fqdn, pki_subsystem=subsystem.upper(), pki_subsystem_type=subsystem.lower(), home_dir=os.path.expanduser("~"), # for softhsm2 testing softhsm2_so=paths.LIBSOFTHSM2_SO ) @classmethod def get_immutable_keys(cls): """Get set of immutable keys Immutable keys are calculated from 'ipaca_default' config file and known keys that are defined in code. """ if cls._immutable_keys is None: immutable = set() immutable.update(cls._immutable_code_keys) cfg = RawConfigParser() with open(cls.ipaca_default) as f: cfg.read_file(f) for section in cls.subsystems: for k, _v in cfg.items(section, raw=True): if k.startswith('pki_'): immutable.add(k) cls._immutable_keys = frozenset(immutable) return cls._immutable_keys @classmethod def verify_pki_config_override(cls, filename): """Verify pki config override file * filename must be an absolute path to an existing file * file must be a valid ini file * ini file must not override immutable settings TODO: The checker does not verify config interpolation values, yet. The validator does not have access to all settings. :param filename: path to pki.ini """ if not os.path.isfile(filename): raise ValueError( "Config file '{}' does not exist.".format(filename) ) if not os.path.isabs(filename): raise ValueError( "Config file '{}' is not an absolute path.".format(filename) ) try: cfg = RawConfigParser() with open(filename) as f: cfg.read_file(f) except Exception as e: raise ValueError( "Invalid config '{}': {}".format(filename, e) ) immutable_keys = cls.get_immutable_keys() invalid_keys = set() sections = [cfg.default_section] sections.extend(cls.subsystems) for section in sections: if not cfg.has_section(section): continue for k, _v in cfg.items(section, raw=True): if k in immutable_keys: invalid_keys.add(k) if invalid_keys: raise ValueError( "'{}' overrides immutable options: {}".format( filename, ', '.join(sorted(invalid_keys)) ) ) def _mangle_values(self, dct): """Stringify and quote % as %% to avoid interpolation errors * booleans are converted to 'True', 'False' * DN and numbers are converted to string * None is turned into empty string '' """ result = {} for k, v in dct.items(): if isinstance(v, (DN, bool, six.integer_types)): v = six.text_type(v) elif v is None: v = '' result[k] = v.replace('%', '%%') return result def _get_default_config(self): """Load default config :return: config parser, immutable keys """ defaults = self._mangle_values(self.defaults) # create a config template with interpolation support # read base config cfgtpl = ConfigParser(defaults=defaults) cfgtpl.optionxform = str with open(self.ipaca_default) as f: cfgtpl.read_file(f) # overwrite defaults with our defaults for key, value in defaults.items(): cfgtpl.set(DEFAULTSECT, key, value) # all keys in default conf + known keys defined in code are # considered immutable. immutable_keys = set() immutable_keys.update(self._immutable_code_keys) for section_name in self.subsystems: for k, _v in cfgtpl.items(section_name, raw=True): immutable_keys.add(k) return cfgtpl, immutable_keys def _verify_immutable(self, config, immutable_settings, filename): section_name = self.defaults['pki_subsystem'] errs = [] for key, isvalue in immutable_settings.items(): cfgvalue = config.get(section_name, key) if isvalue != cfgvalue: errs.append(f"{key}: '{cfgvalue}' != '{isvalue}'") if errs: raise ValueError( '{} overrides immutable options:\n{}'.format( filename, '\n'.join(errs) ) ) def create_spawn_config(self, subsystem_config): """Create config instance """ section_name = self.defaults['pki_subsystem'] cfgtpl, immutable_keys = self._get_default_config() # overwrite CA/KRA config with subsystem settings subsystem_config = self._mangle_values(subsystem_config) for key, value in subsystem_config.items(): cfgtpl.set(section_name, key, value) # get a mapping of settings that cannot be modified by users immutable_settings = { k: v for k, v in cfgtpl.items(section_name) if k in immutable_keys } # add ipaca_customize overlay, # These are settings that can be modified by a user, too. We use # ipaca_customize.ini to set sensible defaults. with open(self.ipaca_customize) as f: cfgtpl.read_file(f) # load external overlay from command line if self.pki_config_override is not None: with open(self.pki_config_override) as f: cfgtpl.read_file(f) # verify again self._verify_immutable( cfgtpl, immutable_settings, self.pki_config_override ) # key backup is not compatible with HSM support if cfgtpl.getboolean(section_name, 'pki_hsm_enable', fallback=False): cfgtpl.set(section_name, 'pki_backup_keys', 'False') cfgtpl.set(section_name, 'pki_backup_password', '') pki_token_name = cfgtpl.get(section_name, 'pki_token_name') for stanza in self.token_stanzas: if cfgtpl.has_option(section_name, stanza): cfgtpl.set(section_name, stanza, pki_token_name) # Next up, get rid of interpolation variables, DEFAULT, # irrelevant sections and unused variables. Only the subsystem # section is copied into a new raw config parser. A raw config # parser is necessary, because ConfigParser.write() write passwords # with '%' in a way, that is not accepted by Dogtag. config = RawConfigParser() config.optionxform = str config.add_section(section_name) for key, value in sorted(cfgtpl.items(section=section_name)): if key.startswith('pki_'): config.set(section_name, key, value) return config def test(): import sys sharedir = os.path.abspath(os.path.join( os.path.dirname(os.path.join(__file__)), os.pardir, os.pardir, 'install', 'share', )) class TestPKIIniLoader(PKIIniLoader): ipaca_default = os.path.join(sharedir, 'ipaca_default.ini') ipaca_customize = os.path.join(sharedir, 'ipaca_customize.ini') override = os.path.join(sharedir, 'ipaca_softhsm2.ini') base_settings = dict( fqdn='replica.ipa.example', domain='ipa.example', subject_base='o=IPA,o=EXAMPLE', ca_subject='cn=CA,o=IPA,o=EXAMPLE', admin_user='admin', admin_password='Secret1', dm_password='Secret2', pki_config_override=override, ) for subsystem in TestPKIIniLoader.subsystems: print('-' * 78) loader = TestPKIIniLoader(subsystem=subsystem, **base_settings) loader.verify_pki_config_override(loader.ipaca_customize) loader.verify_pki_config_override(override) config = loader.create_spawn_config({}) config.write(sys.stdout, False) if __name__ == '__main__': test()