# Author: Alexander Bokovoy # # 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 . # import os import time from ipapython import ipautil, dogtag from ipapython.platform import base, redhat from ipapython.platform.base import systemd from ipapython.platform.fedora16 import selinux from ipapython.ipa_log_manager import root_logger from ipalib import api # For beginning just remap names to add .service # As more services will migrate to systemd, unit names will deviate and # mapping will be kept in this dictionary system_units = dict(map(lambda x: (x, "%s.service" % (x)), base.wellknownservices)) system_units['rpcgssd'] = 'nfs-secure.service' system_units['rpcidmapd'] = 'nfs-idmap.service' # Rewrite dirsrv and pki-tomcatd services as they support instances via separate # service generator. To make this working, one needs to have both foo@.servic # and foo.target -- the latter is used when request should be coming for # all instances (like stop). systemd, unfortunately, does not allow one # to request action for all service instances at once if only foo@.service # unit is available. To add more, if any of those services need to be # started/stopped automagically, one needs to manually create symlinks in # /etc/systemd/system/foo.target.wants/ (look into systemd.py's enable() # code). system_units['dirsrv'] = 'dirsrv@.service' # Our directory server instance for PKI is dirsrv@PKI-IPA.service system_units['pkids'] = 'dirsrv@PKI-IPA.service' # Old style PKI instance system_units['pki-cad'] = 'pki-cad@pki-ca.service' system_units['pki_cad'] = system_units['pki-cad'] # Our PKI instance is pki-tomcatd@pki-tomcat.service system_units['pki-tomcatd'] = 'pki-tomcatd@pki-tomcat.service' system_units['pki_tomcatd'] = system_units['pki-tomcatd'] system_units['ipa-otpd'] = 'ipa-otpd.socket' class Fedora16Service(systemd.SystemdService): def __init__(self, service_name): systemd_name = service_name if service_name in system_units: systemd_name = system_units[service_name] else: if len(service_name.split('.')) == 1: # if service_name does not have a dot, it is not foo.service # and not a foo.target. Thus, not correct service name for # systemd, default to foo.service style then systemd_name = "%s.service" % (service_name) super(Fedora16Service, self).__init__(service_name, systemd_name) # Special handling of directory server service # # We need to explicitly enable instances to install proper symlinks as # dirsrv.target.wants/ dependencies. Standard systemd service class does it # on enable() method call. Unfortunately, ipa-server-install does not do # explicit dirsrv.enable() because the service startup is handled by ipactl. # # If we wouldn't do this, our instances will not be started as systemd would # not have any clue about instances (PKI-IPA and the domain we serve) at all. # Thus, hook into dirsrv.restart(). class Fedora16DirectoryService(Fedora16Service): def enable(self, instance_name=""): super(Fedora16DirectoryService, self).enable(instance_name) dirsrv_systemd = "/etc/sysconfig/dirsrv.systemd" if os.path.exists(dirsrv_systemd): # We need to enable LimitNOFILE=8192 in the dirsrv@.service # Since 389-ds-base-1.2.10-0.8.a7 the configuration of the # service parameters is performed via # /etc/sysconfig/dirsrv.systemd file which is imported by systemd # into dirsrv@.service unit replacevars = {'LimitNOFILE':'8192'} ipautil.inifile_replace_variables(dirsrv_systemd, 'service', replacevars=replacevars) selinux.restore_context(dirsrv_systemd) ipautil.run(["/bin/systemctl", "--system", "daemon-reload"],raiseonerr=False) def restart(self, instance_name="", capture_output=True, wait=True): if len(instance_name) > 0: elements = self.systemd_name.split("@") srv_etc = os.path.join(self.SYSTEMD_ETC_PATH, self.systemd_name) srv_tgt = os.path.join(self.SYSTEMD_ETC_PATH, self.SYSTEMD_SRV_TARGET % (elements[0])) srv_lnk = os.path.join(srv_tgt, self.service_instance(instance_name)) if not os.path.exists(srv_etc): self.enable(instance_name) elif not os.path.samefile(srv_etc, srv_lnk): os.unlink(srv_lnk) os.symlink(srv_etc, srv_lnk) super(Fedora16DirectoryService, self).restart(instance_name, capture_output=capture_output, wait=wait) # Enforce restart of IPA services when we do enable it # This gets around the fact that after ipa-server-install systemd thinks # ipa.service is not yet started but all services were actually started # already. class Fedora16IPAService(Fedora16Service): def enable(self, instance_name=""): super(Fedora16IPAService, self).enable(instance_name) self.restart(instance_name) class Fedora16SSHService(Fedora16Service): def get_config_dir(self, instance_name=""): return '/etc/ssh' class Fedora16CAService(Fedora16Service): def __wait_until_running(self): # We must not wait for the httpd proxy if httpd is not set up yet. # Unfortunately, knownservices.httpd.is_installed() can return # false positives, so check for existence of our configuration file. # TODO: Use a cleaner solution if not os.path.exists('/etc/httpd/conf.d/ipa.conf'): root_logger.debug( 'The httpd proxy is not installed, skipping wait for CA') return root_logger.debug('Waiting until the CA is running') timeout = api.env.startup_timeout op_timeout = time.time() + timeout while time.time() < op_timeout: try: status = dogtag.ca_status() except Exception: status = 'check interrupted' root_logger.debug('The CA status is: %s' % status) if status == 'running': break root_logger.debug('Waiting for CA to start...') time.sleep(1) else: raise RuntimeError('CA did not start in %ss' % timeout) def start(self, instance_name="", capture_output=True, wait=True): super(Fedora16CAService, self).start( instance_name, capture_output=capture_output, wait=wait) if wait: self.__wait_until_running() def restart(self, instance_name="", capture_output=True, wait=True): super(Fedora16CAService, self).restart( instance_name, capture_output=capture_output, wait=wait) if wait: self.__wait_until_running() # Redirect directory server service through special sub-class due to its # special handling of instances def f16_service(name): if name == 'dirsrv': return Fedora16DirectoryService(name) if name == 'ipa': return Fedora16IPAService(name) if name == 'sshd': return Fedora16SSHService(name) if name in ('pki-cad', 'pki_cad', 'pki-tomcatd', 'pki_tomcatd'): return Fedora16CAService(name) return Fedora16Service(name) class Fedora16Services(base.KnownServices): def __init__(self): services = dict() for s in base.wellknownservices: services[s] = f16_service(s) # Call base class constructor. This will lock services to read-only super(Fedora16Services, self).__init__(services)