def spawn(self, deployer): if config.str2bool(deployer.mdict['pki_skip_installation']): logger.info('Skipping NSS database creation') return instance = self.instance instance.load() usePSSForRSASigningAlg = \ deployer.mdict['pki_use_pss_rsa_signing_algorithm'] if usePSSForRSASigningAlg == "True": self.set_signing_algs_for_pss(deployer) subsystem = instance.get_subsystem(deployer.mdict['pki_subsystem'].lower()) if config.str2bool(deployer.mdict['pki_hsm_enable']): hsm_token = deployer.mdict['pki_token_name'] subsystem.config['preop.module.token'] = hsm_token # Since 'certutil' does NOT strip the 'token=' portion of # the 'token=password' entries, create a temporary server 'pfile' # which ONLY contains the 'password' for the purposes of # allowing 'certutil' to generate the security databases logger.info('Creating password file: %s', deployer.mdict['pki_shared_pfile']) deployer.password.create_password_conf( deployer.mdict['pki_shared_pfile'], deployer.mdict['pki_server_database_password'], pin_sans_token=True) deployer.file.modify(deployer.mdict['pki_shared_password_conf']) if not os.path.isdir(deployer.mdict['pki_server_database_path']): instance.makedirs(deployer.mdict['pki_server_database_path'], force=True) nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_server_database_path'], password_file=deployer.mdict['pki_shared_pfile']) try: if not nssdb.exists(): logger.info('Creating NSS database: %s', deployer.mdict['pki_server_database_path']) nssdb.create() finally: nssdb.close() if not os.path.islink(deployer.mdict['pki_instance_database_link']): instance.symlink( deployer.mdict['pki_server_database_path'], deployer.mdict['pki_instance_database_link'], force=True) instance.symlink( deployer.mdict['pki_instance_database_link'], deployer.mdict['pki_subsystem_database_link'], force=True) if config.str2bool(deployer.mdict['pki_hsm_enable']) and \ not nssdb.module_exists(deployer.mdict['pki_hsm_modulename']): nssdb.add_module( deployer.mdict['pki_hsm_modulename'], deployer.mdict['pki_hsm_libfile']) # Set the initial NSS database ownership and permissions. pki.util.chown( deployer.mdict['pki_server_database_path'], deployer.mdict['pki_uid'], deployer.mdict['pki_gid']) pki.util.chmod( deployer.mdict['pki_server_database_path'], config.PKI_DEPLOYMENT_DEFAULT_SECURITY_DATABASE_PERMISSIONS) os.chmod( deployer.mdict['pki_server_database_path'], pki.server.DEFAULT_DIR_MODE) # import system certificates before starting the server pki_server_pkcs12_path = deployer.mdict['pki_server_pkcs12_path'] if pki_server_pkcs12_path: pki_server_pkcs12_password = deployer.mdict[ 'pki_server_pkcs12_password'] if not pki_server_pkcs12_password: raise Exception('Missing pki_server_pkcs12_password property.') nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_server_database_path'], password_file=deployer.mdict['pki_shared_pfile']) try: nssdb.import_pkcs12( pkcs12_file=pki_server_pkcs12_path, pkcs12_password=pki_server_pkcs12_password) finally: nssdb.close() # update external CA file (if needed) external_certs_path = deployer.mdict['pki_server_external_certs_path'] if external_certs_path is not None: self.update_external_certs_conf(external_certs_path, deployer) # import CA certificates from PKCS #12 file for cloning pki_clone_pkcs12_path = deployer.mdict['pki_clone_pkcs12_path'] pki_server_database_path = deployer.mdict['pki_server_database_path'] if pki_clone_pkcs12_path: pki_clone_pkcs12_password = deployer.mdict[ 'pki_clone_pkcs12_password'] if not pki_clone_pkcs12_password: raise Exception('Missing pki_clone_pkcs12_password property.') nssdb = pki.nssdb.NSSDatabase( directory=pki_server_database_path, password_file=deployer.mdict['pki_shared_pfile']) try: print('Importing certificates from %s:' % pki_clone_pkcs12_path) # The PKCS12 class requires an NSS database to run. For simplicity # it uses the NSS database that has just been created. pkcs12 = pki.pkcs12.PKCS12( path=pki_clone_pkcs12_path, password=pki_clone_pkcs12_password, nssdb=nssdb) try: pkcs12.show_certs() finally: pkcs12.close() # Import certificates nssdb.import_pkcs12( pkcs12_file=pki_clone_pkcs12_path, pkcs12_password=pki_clone_pkcs12_password) print('Imported certificates into %s:' % pki_server_database_path) nssdb.show_certs() finally: nssdb.close() # Export CA certificate to PEM file; same command as in # PKIServer.setup_cert_authentication(). # openssl pkcs12 -in <p12_file_path> -out /tmp/auth.pem -nodes -nokeys pki_ca_crt_path = os.path.join(pki_server_database_path, 'ca.crt') cmd_export_ca = [ 'openssl', 'pkcs12', '-in', pki_clone_pkcs12_path, '-out', pki_ca_crt_path, '-nodes', '-nokeys', '-passin', 'pass:'******'utf-8') logger.debug('Result of CA certificate export: %s', res_ca) # At this point, we're running as root. However, the subsystem # will eventually start up as non-root and will attempt to do a # migration. If we don't fix the permissions now, migration will # fail and subsystem won't start up. pki.util.chmod(pki_ca_crt_path, 0o644) pki.util.chown(pki_ca_crt_path, deployer.mdict['pki_uid'], deployer.mdict['pki_gid']) ca_cert_path = deployer.mdict.get('pki_cert_chain_path') if ca_cert_path and os.path.exists(ca_cert_path): destination = os.path.join(instance.nssdb_dir, "ca.crt") if not os.path.exists(destination): # When we're passed a CA certificate file and we don't already # have a CA file for some reason, we need to copy the passed # file as the root CA certificate to establish trust in the # Python code. It doesn't import it into the NSS DB for Java # code, but so far we haven't had any issues with certificate # validation there. This is only usually necessary when # installing a non-CA subsystem on a fresh system. instance.copyfile(ca_cert_path, destination) if len(deployer.instance.tomcat_instance_subsystems()) < 2: # Check to see if a secure connection is being used for the DS if config.str2bool(deployer.mdict['pki_ds_secure_connection']): # Check to see if a directory server CA certificate # using the same nickname already exists # # NOTE: ALWAYS use the software DB regardless of whether # the instance will utilize 'softokn' or an HSM # rv = deployer.certutil.verify_certificate_exists( path=deployer.mdict['pki_server_database_path'], token=deployer.mdict['pki_self_signed_token'], nickname=deployer.mdict[ 'pki_ds_secure_connection_ca_nickname' ], password_file=deployer.mdict['pki_shared_pfile']) if not rv: # Import the directory server CA certificate rv = deployer.certutil.import_cert( deployer.mdict['pki_ds_secure_connection_ca_nickname'], deployer.mdict[ 'pki_ds_secure_connection_ca_trustargs'], deployer.mdict['pki_ds_secure_connection_ca_pem_file'], password_file=deployer.mdict['pki_shared_pfile'], path=deployer.mdict['pki_server_database_path'], token=deployer.mdict['pki_self_signed_token']) # Always delete the temporary 'pfile' deployer.file.delete(deployer.mdict['pki_shared_pfile']) # Store system cert parameters in installation step to guarantee the # parameters exist during configuration step and to allow customization. certs = subsystem.find_system_certs() for cert in certs: # get CS.cfg tag and pkispawn tag config_tag = cert['id'] deploy_tag = config_tag if config_tag == 'signing': # for CA and OCSP deploy_tag = subsystem.name + '_signing' # store nickname nickname = deployer.mdict['pki_%s_nickname' % deploy_tag] subsystem.config['%s.%s.nickname' % (subsystem.name, config_tag)] = nickname subsystem.config['preop.cert.%s.nickname' % config_tag] = nickname # store tokenname tokenname = deployer.mdict['pki_%s_token' % deploy_tag] subsystem.config['%s.%s.tokenname' % (subsystem.name, config_tag)] = tokenname fullname = nickname if pki.nssdb.normalize_token(tokenname): fullname = tokenname + ':' + nickname subsystem.config['%s.cert.%s.nickname' % (subsystem.name, config_tag)] = fullname # store subject DN subject_dn = deployer.mdict['pki_%s_subject_dn' % deploy_tag] subsystem.config['preop.cert.%s.dn' % config_tag] = subject_dn keyalgorithm = deployer.mdict['pki_%s_key_algorithm' % deploy_tag] subsystem.config['preop.cert.%s.keyalgorithm' % config_tag] = keyalgorithm signingalgorithm = deployer.mdict.get( 'pki_%s_signing_algorithm' % deploy_tag, keyalgorithm) subsystem.config['preop.cert.%s.signingalgorithm' % config_tag] = signingalgorithm if subsystem.name == 'ca': if config_tag == 'signing': subsystem.config['ca.signing.defaultSigningAlgorithm'] = signingalgorithm subsystem.config['ca.crl.MasterCRL.signingAlgorithm'] = signingalgorithm elif config_tag == 'ocsp_signing': subsystem.config['ca.ocsp_signing.defaultSigningAlgorithm'] = signingalgorithm elif subsystem.name == 'ocsp': if config_tag == 'signing': subsystem.config['ocsp.signing.defaultSigningAlgorithm'] = signingalgorithm elif subsystem.name == 'kra': if config_tag == 'transport': subsystem.config['kra.transportUnit.signingAlgorithm'] = signingalgorithm # TODO: move more system cert params here admin_dn = deployer.mdict['pki_admin_subject_dn'] subsystem.config['preop.cert.admin.dn'] = admin_dn # If specified in the deployment parameter, add generic CA signing cert # extension parameters into the CS.cfg. Generic extension for other # system certs can be added directly into CS.cfg after before the # configuration step. if subsystem.type == 'CA': signing_nickname = subsystem.config['ca.signing.nickname'] subsystem.config['ca.signing.certnickname'] = signing_nickname subsystem.config['ca.signing.cacertnickname'] = signing_nickname ocsp_signing_nickname = subsystem.config['ca.ocsp_signing.nickname'] subsystem.config['ca.ocsp_signing.certnickname'] = ocsp_signing_nickname subsystem.config['ca.ocsp_signing.cacertnickname'] = ocsp_signing_nickname if deployer.configuration_file.add_req_ext: subsystem.config['preop.cert.signing.ext.oid'] = \ deployer.configuration_file.req_ext_oid subsystem.config['preop.cert.signing.ext.data'] = \ deployer.configuration_file.req_ext_data subsystem.config['preop.cert.signing.ext.critical'] = \ deployer.configuration_file.req_ext_critical.lower() if deployer.configuration_file.req_ski: subsystem.config['preop.cert.signing.subject_key_id'] = \ deployer.configuration_file.req_ski if subsystem.type == 'KRA': storage_nickname = subsystem.config['kra.storage.nickname'] storage_token = subsystem.config['kra.storage.tokenname'] if pki.nssdb.normalize_token(storage_token): subsystem.config['kra.storageUnit.hardware'] = storage_token subsystem.config['kra.storageUnit.nickName'] = \ storage_token + ':' + storage_nickname else: subsystem.config['kra.storageUnit.nickName'] = \ storage_nickname transport_nickname = subsystem.config['kra.transport.nickname'] transport_token = subsystem.config['kra.transport.tokenname'] if pki.nssdb.normalize_token(transport_token): subsystem.config['kra.transportUnit.nickName'] = \ transport_token + ':' + transport_nickname else: subsystem.config['kra.transportUnit.nickName'] = \ transport_nickname if subsystem.type == 'OCSP': signing_nickname = subsystem.config['ocsp.signing.nickname'] subsystem.config['ocsp.signing.certnickname'] = signing_nickname subsystem.config['ocsp.signing.cacertnickname'] = signing_nickname audit_nickname = subsystem.config['%s.audit_signing.nickname' % subsystem.name] audit_token = subsystem.config['%s.audit_signing.tokenname' % subsystem.name] if pki.nssdb.normalize_token(audit_token): audit_nickname = audit_token + ':' + audit_nickname subsystem.config['log.instance.SignedAudit.signedAuditCertNickname'] = audit_nickname san_inject = config.str2bool(deployer.mdict['pki_san_inject']) logger.info('Injecting SAN: %s', san_inject) san_for_server_cert = deployer.mdict.get('pki_san_for_server_cert') logger.info('SSL server cert SAN: %s', san_for_server_cert) if san_inject and san_for_server_cert: subsystem.config['service.injectSAN'] = 'true' subsystem.config['service.sslserver.san'] = san_for_server_cert subsystem.save() # Place 'slightly' less restrictive permissions on # the top-level client directory ONLY deployer.directory.create( deployer.mdict['pki_client_subsystem_dir'], uid=0, gid=0, perms=config.PKI_DEPLOYMENT_DEFAULT_CLIENT_DIR_PERMISSIONS) # Since 'certutil' does NOT strip the 'token=' portion of # the 'token=password' entries, create a client password file # which ONLY contains the 'password' for the purposes of # allowing 'certutil' to generate the security databases logger.info('Creating password file: %s', deployer.mdict['pki_client_password_conf']) deployer.password.create_password_conf( deployer.mdict['pki_client_password_conf'], deployer.mdict['pki_client_database_password'], pin_sans_token=True) deployer.file.modify( deployer.mdict['pki_client_password_conf'], uid=0, gid=0) # Similarly, create a simple password file containing the # PKCS #12 password used when exporting the 'Admin Certificate' # into a PKCS #12 file deployer.password.create_client_pkcs12_password_conf( deployer.mdict['pki_client_pkcs12_password_conf']) deployer.file.modify(deployer.mdict['pki_client_pkcs12_password_conf']) pki.util.makedirs(deployer.mdict['pki_client_database_dir'], force=True) nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_client_database_dir'], password_file=deployer.mdict['pki_client_password_conf']) try: if not nssdb.exists(): nssdb.create() finally: nssdb.close()
def spawn(self, deployer): if config.str2bool(deployer.mdict['pki_skip_installation']): logger.info('Skipping NSS database creation') return logger.info('Creating NSS database') instance = pki.server.instance.PKIInstance( deployer.mdict['pki_instance_name']) instance.load() subsystem = instance.get_subsystem( deployer.mdict['pki_subsystem'].lower()) if config.str2bool(deployer.mdict['pki_hsm_enable']): hsm_token = deployer.mdict['pki_token_name'] subsystem.config['preop.module.token'] = hsm_token # Since 'certutil' does NOT strip the 'token=' portion of # the 'token=password' entries, create a temporary server 'pfile' # which ONLY contains the 'password' for the purposes of # allowing 'certutil' to generate the security databases logger.info('Creating password file: %s', deployer.mdict['pki_shared_pfile']) deployer.password.create_password_conf( deployer.mdict['pki_shared_pfile'], deployer.mdict['pki_server_database_password'], pin_sans_token=True) deployer.file.modify(deployer.mdict['pki_shared_password_conf']) if not os.path.isdir(deployer.mdict['pki_server_database_path']): instance.makedirs(deployer.mdict['pki_server_database_path'], force=True) nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_server_database_path'], password_file=deployer.mdict['pki_shared_pfile']) try: if not nssdb.exists(): nssdb.create() finally: nssdb.close() if not os.path.islink(deployer.mdict['pki_instance_database_link']): instance.symlink(deployer.mdict['pki_server_database_path'], deployer.mdict['pki_instance_database_link'], force=True) instance.symlink(deployer.mdict['pki_instance_database_link'], deployer.mdict['pki_subsystem_database_link'], force=True) if config.str2bool(deployer.mdict['pki_hsm_enable']) and \ not nssdb.module_exists(deployer.mdict['pki_hsm_modulename']): nssdb.add_module(deployer.mdict['pki_hsm_modulename'], deployer.mdict['pki_hsm_libfile']) pki.util.chown(deployer.mdict['pki_server_database_path'], deployer.mdict['pki_uid'], deployer.mdict['pki_uid']) pki.util.chmod( deployer.mdict['pki_server_database_path'], config.PKI_DEPLOYMENT_DEFAULT_SECURITY_DATABASE_PERMISSIONS) os.chmod(deployer.mdict['pki_server_database_path'], config.PKI_DEPLOYMENT_DEFAULT_DIR_PERMISSIONS) # import system certificates before starting the server pki_server_pkcs12_path = deployer.mdict['pki_server_pkcs12_path'] if pki_server_pkcs12_path: pki_server_pkcs12_password = deployer.mdict[ 'pki_server_pkcs12_password'] if not pki_server_pkcs12_password: raise Exception('Missing pki_server_pkcs12_password property.') nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_server_database_path'], password_file=deployer.mdict['pki_shared_pfile']) try: nssdb.import_pkcs12(pkcs12_file=pki_server_pkcs12_path, pkcs12_password=pki_server_pkcs12_password) finally: nssdb.close() # update external CA file (if needed) external_certs_path = deployer.mdict[ 'pki_server_external_certs_path'] if external_certs_path is not None: self.update_external_certs_conf(external_certs_path, deployer) # import CA certificates from PKCS #12 file for cloning pki_clone_pkcs12_path = deployer.mdict['pki_clone_pkcs12_path'] if pki_clone_pkcs12_path: pki_clone_pkcs12_password = deployer.mdict[ 'pki_clone_pkcs12_password'] if not pki_clone_pkcs12_password: raise Exception('Missing pki_clone_pkcs12_password property.') nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_server_database_path'], password_file=deployer.mdict['pki_shared_pfile']) try: print('Importing certificates from %s:' % pki_clone_pkcs12_path) # The PKCS12 class requires an NSS database to run. For simplicity # it uses the NSS database that has just been created. pkcs12 = pki.pkcs12.PKCS12(path=pki_clone_pkcs12_path, password=pki_clone_pkcs12_password, nssdb=nssdb) try: pkcs12.show_certs() finally: pkcs12.close() # Import certificates nssdb.import_pkcs12(pkcs12_file=pki_clone_pkcs12_path, pkcs12_password=pki_clone_pkcs12_password) # Set certificate trust flags if subsystem.type == 'CA': nssdb.modify_cert( nickname=deployer.mdict['pki_ca_signing_nickname'], trust_attributes='CTu,Cu,Cu') nssdb.modify_cert( nickname=deployer.mdict['pki_audit_signing_nickname'], trust_attributes='u,u,Pu') print('Imported certificates into %s:' % deployer.mdict['pki_server_database_path']) nssdb.show_certs() finally: nssdb.close() if len(deployer.instance.tomcat_instance_subsystems()) < 2: # Check to see if a secure connection is being used for the DS if config.str2bool(deployer.mdict['pki_ds_secure_connection']): # Check to see if a directory server CA certificate # using the same nickname already exists # # NOTE: ALWAYS use the software DB regardless of whether # the instance will utilize 'softokn' or an HSM # rv = deployer.certutil.verify_certificate_exists( path=deployer.mdict['pki_server_database_path'], token=deployer.mdict['pki_self_signed_token'], nickname=deployer. mdict['pki_ds_secure_connection_ca_nickname'], password_file=deployer.mdict['pki_shared_pfile']) if not rv: # Import the directory server CA certificate rv = deployer.certutil.import_cert( deployer.mdict['pki_ds_secure_connection_ca_nickname'], deployer. mdict['pki_ds_secure_connection_ca_trustargs'], deployer.mdict['pki_ds_secure_connection_ca_pem_file'], password_file=deployer.mdict['pki_shared_pfile'], path=deployer.mdict['pki_server_database_path'], token=deployer.mdict['pki_self_signed_token']) # Always delete the temporary 'pfile' deployer.file.delete(deployer.mdict['pki_shared_pfile']) # Store system cert parameters in installation step to guarantee the # parameters exist during configuration step and to allow customization. certs = subsystem.find_system_certs() for cert in certs: # get CS.cfg tag and pkispawn tag config_tag = cert['id'] deploy_tag = config_tag if config_tag == 'signing': # for CA and OCSP deploy_tag = subsystem.name + '_signing' # store nickname nickname = deployer.mdict['pki_%s_nickname' % deploy_tag] subsystem.config['%s.%s.nickname' % (subsystem.name, config_tag)] = nickname subsystem.config['preop.cert.%s.nickname' % config_tag] = nickname # store tokenname tokenname = deployer.mdict['pki_%s_token' % deploy_tag] subsystem.config['%s.%s.tokenname' % (subsystem.name, config_tag)] = tokenname fullname = nickname if pki.nssdb.normalize_token(tokenname): fullname = tokenname + ':' + nickname subsystem.config['%s.cert.%s.nickname' % (subsystem.name, config_tag)] = fullname # store subject DN subject_dn = deployer.mdict['pki_%s_subject_dn' % deploy_tag] subsystem.config['preop.cert.%s.dn' % config_tag] = subject_dn keytype = deployer.mdict['pki_%s_key_type' % deploy_tag] subsystem.config['preop.cert.%s.keytype' % config_tag] = keytype keyalgorithm = deployer.mdict['pki_%s_key_algorithm' % deploy_tag] subsystem.config['preop.cert.%s.keyalgorithm' % config_tag] = keyalgorithm signingalgorithm = deployer.mdict.get( 'pki_%s_signing_algorithm' % deploy_tag, keyalgorithm) subsystem.config['preop.cert.%s.signingalgorithm' % config_tag] = signingalgorithm if subsystem.name == 'ca': if config_tag == 'signing': subsystem.config[ 'ca.signing.defaultSigningAlgorithm'] = signingalgorithm subsystem.config[ 'ca.crl.MasterCRL.signingAlgorithm'] = signingalgorithm elif config_tag == 'ocsp_signing': subsystem.config[ 'ca.ocsp_signing.defaultSigningAlgorithm'] = signingalgorithm elif subsystem.name == 'ocsp': if config_tag == 'signing': subsystem.config[ 'ocsp.signing.defaultSigningAlgorithm'] = signingalgorithm elif subsystem.name == 'kra': if config_tag == 'transport': subsystem.config[ 'kra.transportUnit.signingAlgorithm'] = signingalgorithm # TODO: move more system cert params here admin_dn = deployer.mdict['pki_admin_subject_dn'] subsystem.config['preop.cert.admin.dn'] = admin_dn # If specified in the deployment parameter, add generic CA signing cert # extension parameters into the CS.cfg. Generic extension for other # system certs can be added directly into CS.cfg after before the # configuration step. if subsystem.type == 'CA': signing_nickname = subsystem.config['ca.signing.nickname'] subsystem.config['ca.signing.certnickname'] = signing_nickname subsystem.config['ca.signing.cacertnickname'] = signing_nickname ocsp_signing_nickname = subsystem.config[ 'ca.ocsp_signing.nickname'] subsystem.config[ 'ca.ocsp_signing.certnickname'] = ocsp_signing_nickname subsystem.config[ 'ca.ocsp_signing.cacertnickname'] = ocsp_signing_nickname if deployer.configuration_file.add_req_ext: subsystem.config['preop.cert.signing.ext.oid'] = \ deployer.configuration_file.req_ext_oid subsystem.config['preop.cert.signing.ext.data'] = \ deployer.configuration_file.req_ext_data subsystem.config['preop.cert.signing.ext.critical'] = \ deployer.configuration_file.req_ext_critical.lower() if deployer.configuration_file.req_ski: subsystem.config['preop.cert.signing.subject_key_id'] = \ deployer.configuration_file.req_ski if subsystem.type == 'KRA': storage_nickname = subsystem.config['kra.storage.nickname'] storage_token = subsystem.config['kra.storage.tokenname'] if pki.nssdb.normalize_token(storage_token): subsystem.config['kra.storageUnit.hardware'] = storage_token subsystem.config['kra.storageUnit.nickName'] = \ storage_token + ':' + storage_nickname else: subsystem.config['kra.storageUnit.nickName'] = \ storage_nickname transport_nickname = subsystem.config['kra.transport.nickname'] transport_token = subsystem.config['kra.transport.tokenname'] if pki.nssdb.normalize_token(transport_token): subsystem.config['kra.transportUnit.nickName'] = \ transport_token + ':' + transport_nickname else: subsystem.config['kra.transportUnit.nickName'] = \ transport_nickname if subsystem.type == 'OCSP': signing_nickname = subsystem.config['ocsp.signing.nickname'] subsystem.config['ocsp.signing.certnickname'] = signing_nickname subsystem.config['ocsp.signing.cacertnickname'] = signing_nickname audit_nickname = subsystem.config['%s.audit_signing.nickname' % subsystem.name] audit_token = subsystem.config['%s.audit_signing.tokenname' % subsystem.name] if pki.nssdb.normalize_token(audit_token): audit_nickname = audit_token + ':' + audit_nickname subsystem.config[ 'log.instance.SignedAudit.signedAuditCertNickname'] = audit_nickname subsystem.save() # Place 'slightly' less restrictive permissions on # the top-level client directory ONLY deployer.directory.create( deployer.mdict['pki_client_subsystem_dir'], uid=0, gid=0, perms=config.PKI_DEPLOYMENT_DEFAULT_CLIENT_DIR_PERMISSIONS) # Since 'certutil' does NOT strip the 'token=' portion of # the 'token=password' entries, create a client password file # which ONLY contains the 'password' for the purposes of # allowing 'certutil' to generate the security databases logger.info('Creating password file: %s', deployer.mdict['pki_client_password_conf']) deployer.password.create_password_conf( deployer.mdict['pki_client_password_conf'], deployer.mdict['pki_client_database_password'], pin_sans_token=True) deployer.file.modify(deployer.mdict['pki_client_password_conf'], uid=0, gid=0) # Similarly, create a simple password file containing the # PKCS #12 password used when exporting the 'Admin Certificate' # into a PKCS #12 file deployer.password.create_client_pkcs12_password_conf( deployer.mdict['pki_client_pkcs12_password_conf']) deployer.file.modify(deployer.mdict['pki_client_pkcs12_password_conf']) pki.util.makedirs(deployer.mdict['pki_client_database_dir'], force=True) nssdb = pki.nssdb.NSSDatabase( directory=deployer.mdict['pki_client_database_dir'], password_file=deployer.mdict['pki_client_password_conf']) try: if not nssdb.exists(): nssdb.create() finally: nssdb.close()