freeipa/ipaplatform/redhat/services.py
Simo Sorce d2f5fc304f Configure HTTPD to work via Gss-Proxy
https://fedorahosted.org/freeipa/ticket/4189
https://fedorahosted.org/freeipa/ticket/5959

Signed-off-by: Simo Sorce <simo@redhat.com>
Reviewed-By: Jan Cholasta <jcholast@redhat.com>
2017-02-15 07:13:37 +01:00

271 lines
11 KiB
Python

# Author: Alexander Bokovoy <abokovoy@redhat.com>
# Tomas Babej <tbabej@redhat.com>
#
# Copyright (C) 2011-2014 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 <http://www.gnu.org/licenses/>.
#
"""
Contains Red Hat OS family-specific service class implementations.
"""
import os
import time
import contextlib
from ipaplatform.tasks import tasks
from ipaplatform.base import services as base_services
from ipapython import ipautil, dogtag
from ipapython.ipa_log_manager import root_logger
from ipaplatform.paths import paths
# Mappings from service names as FreeIPA code references to these services
# to their actual systemd service names
# 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
redhat_system_units = dict((x, "%s.service" % x)
for x in base_services.wellknownservices)
redhat_system_units['rpcgssd'] = 'nfs-secure.service'
redhat_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).
redhat_system_units['dirsrv'] = 'dirsrv@.service'
# Our PKI instance is pki-tomcatd@pki-tomcat.service
redhat_system_units['pki-tomcatd'] = 'pki-tomcatd@pki-tomcat.service'
redhat_system_units['pki_tomcatd'] = redhat_system_units['pki-tomcatd']
redhat_system_units['ipa-otpd'] = 'ipa-otpd.socket'
redhat_system_units['ipa-dnskeysyncd'] = 'ipa-dnskeysyncd.service'
redhat_system_units['named-regular'] = 'named.service'
redhat_system_units['named-pkcs11'] = 'named-pkcs11.service'
redhat_system_units['named'] = redhat_system_units['named-pkcs11']
redhat_system_units['ods-enforcerd'] = 'ods-enforcerd.service'
redhat_system_units['ods_enforcerd'] = redhat_system_units['ods-enforcerd']
redhat_system_units['ods-signerd'] = 'ods-signerd.service'
redhat_system_units['ods_signerd'] = redhat_system_units['ods-signerd']
redhat_system_units['gssproxy'] = 'gssproxy.service'
# Service classes that implement Red Hat OS family-specific behaviour
class RedHatService(base_services.SystemdService):
system_units = redhat_system_units
def __init__(self, service_name, api=None):
systemd_name = service_name
if service_name in self.system_units:
systemd_name = self.system_units[service_name]
else:
if '.' not in service_name:
# 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(RedHatService, self).__init__(service_name, systemd_name, api)
class RedHatDirectoryService(RedHatService):
def tune_nofile_platform(self, num=8192, fstore=None):
"""
Increase the number of files descriptors available to directory server
from the default 1024 to 8192. This will allow to support a greater
number of clients out of the box.
This is a part of the implementation that is systemd-specific.
Returns False if the setting of the nofile limit needs to be skipped.
"""
if os.path.exists(paths.SYSCONFIG_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': str(num)}
ipautil.inifile_replace_variables(paths.SYSCONFIG_DIRSRV_SYSTEMD,
'service',
replacevars=replacevars)
tasks.restore_context(paths.SYSCONFIG_DIRSRV_SYSTEMD)
ipautil.run(["/bin/systemctl", "--system", "daemon-reload"],
raiseonerr=False)
return True
def restart(self, instance_name="", capture_output=True, wait=True,
ldapi=False):
# 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().
if instance_name:
elements = self.systemd_name.split("@")
srv_etc = os.path.join(paths.ETC_SYSTEMD_SYSTEM_DIR,
self.systemd_name)
srv_tgt = os.path.join(paths.ETC_SYSTEMD_SYSTEM_DIR,
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)
with self.__wait(instance_name, wait, ldapi) as wait:
super(RedHatDirectoryService, self).restart(
instance_name, capture_output=capture_output, wait=wait)
def start(self, instance_name="", capture_output=True, wait=True,
ldapi=False):
with self.__wait(instance_name, wait, ldapi) as wait:
super(RedHatDirectoryService, self).start(
instance_name, capture_output=capture_output, wait=wait)
@contextlib.contextmanager
def __wait(self, instance_name, wait, ldapi):
if ldapi:
instance_name = self.service_instance(instance_name)
if instance_name.endswith('.service'):
instance_name = instance_name[:-8]
if instance_name.startswith('dirsrv'):
# this is intentional, return the empty string if the instance
# name is 'dirsrv'
instance_name = instance_name[7:]
if not instance_name:
ldapi = False
if ldapi:
yield False
socket_name = paths.SLAPD_INSTANCE_SOCKET_TEMPLATE % instance_name
ipautil.wait_for_open_socket(socket_name,
self.api.env.startup_timeout)
else:
yield wait
class RedHatIPAService(RedHatService):
# 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.
def enable(self, instance_name=""):
super(RedHatIPAService, self).enable(instance_name)
self.restart(instance_name)
class RedHatCAService(RedHatService):
def wait_until_running(self):
root_logger.debug('Waiting until the CA is running')
timeout = float(self.api.env.startup_timeout)
op_timeout = time.time() + timeout
while time.time() < op_timeout:
try:
# check status of CA instance on this host, not remote ca_host
status = dogtag.ca_status(self.api.env.host)
except Exception as e:
status = 'check interrupted due to error: %s' % e
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(RedHatCAService, 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(RedHatCAService, self).restart(
instance_name, capture_output=capture_output, wait=wait)
if wait:
self.wait_until_running()
def is_running(self, instance_name="", wait=True):
if instance_name:
return super(RedHatCAService, self).is_running(instance_name)
try:
status = dogtag.ca_status()
if status == 'running':
return True
elif status == 'starting' and wait:
# Exception is raised if status is 'starting' even after wait
self.wait_until_running()
return True
except Exception as e:
root_logger.debug(
'Failed to check CA status: {err}'.format(err=e)
)
return False
# Function that constructs proper Red Hat OS family-specific server classes for
# services of specified name
def redhat_service_class_factory(name, api=None):
if name == 'dirsrv':
return RedHatDirectoryService(name, api)
if name == 'ipa':
return RedHatIPAService(name, api)
if name in ('pki-tomcatd', 'pki_tomcatd'):
return RedHatCAService(name, api)
return RedHatService(name, api)
# Magicdict containing RedHatService instances.
class RedHatServices(base_services.KnownServices):
def __init__(self):
import ipalib # FixMe: break import cycle
services = dict()
for s in base_services.wellknownservices:
services[s] = self.service_class_factory(s, ipalib.api)
# Call base class constructor. This will lock services to read-only
super(RedHatServices, self).__init__(services)
def service_class_factory(self, name, api=None):
return redhat_service_class_factory(name, api)
# Objects below are expected to be exported by platform module
timedate_services = base_services.timedate_services
service = redhat_service_class_factory
knownservices = RedHatServices()