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# Author: Alexander Bokovoy <abokovoy@redhat.com>
# Tomas Babej <tbabej@redhat.com>
#
# 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 <http://www.gnu.org/licenses/>.
#
'''
This base module contains default implementations of IPA interface for
interacting with system services.
'''
import os
import json
import time
import collections
import six
import ipalib
from ipapython import ipautil
from ipaplatform.paths import paths
# Canonical names of services as IPA wants to see them. As we need to have
# *some* naming, set them as in Red Hat distributions. Actual implementation
# should make them available through knownservices.<name> and take care of
# re-mapping internally, if needed
wellknownservices = ['certmonger', 'dirsrv', 'httpd', 'ipa', 'krb5kdc',
'messagebus', 'nslcd', 'nscd', 'ntpd', 'portmap',
'rpcbind', 'kadmin', 'sshd', 'autofs', 'rpcgssd',
'rpcidmapd', 'pki_tomcatd', 'chronyd', 'domainname',
'named', 'ods_enforcerd', 'ods_signerd']
# The common ports for these services. This is used to wait for the
# service to become available.
wellknownports = {
'dirsrv': [389], # only used if the incoming instance name is blank
'pki-tomcatd@pki-tomcat.service': [8080, 8443],
'pki-tomcat': [8080, 8443],
'pki-tomcatd': [8080, 8443], # used if the incoming instance name is blank
}
SERVICE_POLL_INTERVAL = 0.1 # seconds
class KnownServices(collections.Mapping):
"""
KnownServices is an abstract class factory that should give out instances
of well-known platform services. Actual implementation must create these
instances as its own attributes on first access (or instance creation)
and cache them.
"""
def __init__(self, d):
self.__d = d
def __getitem__(self, key):
return self.__d[key]
def __iter__(self):
return iter(self.__d)
def __len__(self):
return len(self.__d)
def __call__(self):
return six.itervalues(self.__d)
def __getattr__(self, name):
try:
return self.__d[name]
except KeyError:
raise AttributeError(name)
class PlatformService(object):
"""
PlatformService abstracts out external process running on the system
which is possible to administer (start, stop, check status, etc).
"""
def __init__(self, service_name, api=ipalib.api):
self.service_name = service_name
self.api = api
def start(self, instance_name="", capture_output=True, wait=True,
update_service_list=True):
"""
When a service is started record the fact in a special file.
This allows ipactl stop to always stop all services that have
been started via ipa tools
"""
if not update_service_list:
return
svc_list = []
try:
with open(paths.SVC_LIST_FILE, 'r') as f:
svc_list = json.load(f)
except Exception:
# not fatal, may be the first service
pass
if self.service_name not in svc_list:
svc_list.append(self.service_name)
with open(paths.SVC_LIST_FILE, 'w') as f:
json.dump(svc_list, f)
return
def stop(self, instance_name="", capture_output=True,
update_service_list=True):
"""
When a service is stopped remove it from the service list file.
"""
if not update_service_list:
return
svc_list = []
try:
with open(paths.SVC_LIST_FILE, 'r') as f:
svc_list = json.load(f)
except Exception:
# not fatal, may be the first service
pass
while self.service_name in svc_list:
svc_list.remove(self.service_name)
with open(paths.SVC_LIST_FILE, 'w') as f:
json.dump(svc_list, f)
return
def restart(self, instance_name="", capture_output=True, wait=True):
return
def is_running(self, instance_name=""):
return False
def is_installed(self):
return False
def is_enabled(self, instance_name=""):
return False
def is_masked(self, instance_name=""):
return False
def enable(self, instance_name=""):
return
def disable(self, instance_name=""):
return
def mask(self, instance_name=""):
return
def unmask(self, instance_name=""):
return
def install(self, instance_name=""):
return
def remove(self, instance_name=""):
return
def get_config_dir(self, instance_name=""):
return
def get_user_name(self, instance_name=""):
return
def get_group_name(self, instance_name=""):
return
def get_binary_path(self):
return
def get_package_name(self):
return
class SystemdService(PlatformService):
SYSTEMD_SRV_TARGET = "%s.target.wants"
def __init__(self, service_name, systemd_name, **kwargs):
super(SystemdService, self).__init__(service_name, **kwargs)
self.systemd_name = systemd_name
self.lib_path = os.path.join(paths.LIB_SYSTEMD_SYSTEMD_DIR, self.systemd_name)
self.lib_path_exists = None
def service_instance(self, instance_name, operation=None):
if self.lib_path_exists is None:
self.lib_path_exists = os.path.exists(self.lib_path)
elements = self.systemd_name.split("@")
# Make sure the correct DS instance is returned
if elements[0] == 'dirsrv' and not instance_name:
return ('dirsrv@%s.service'
% str(self.api.env.realm.replace('.', '-')))
# Short-cut: if there is already exact service name, return it
if self.lib_path_exists and instance_name:
if len(elements) == 1:
# service name is like pki-tomcatd.target or krb5kdc.service
return self.systemd_name
if len(elements) > 1 and elements[1][0] != '.':
# Service name is like pki-tomcatd@pki-tomcat.service
# and that file exists
return self.systemd_name
if len(elements) > 1:
# We have dynamic service
if instance_name:
# Instanciate dynamic service
return "%s@%s.service" % (elements[0], instance_name)
else:
# No instance name, try with target
tgt_name = "%s.target" % (elements[0])
srv_lib = os.path.join(paths.LIB_SYSTEMD_SYSTEMD_DIR, tgt_name)
if os.path.exists(srv_lib):
return tgt_name
return self.systemd_name
def parse_variables(self, text, separator=None):
"""
Parses 'systemctl show' output and returns a dict[variable]=value
Arguments: text -- 'systemctl show' output as string
separator -- optional (defaults to None), what separates
the key/value pairs in the text
"""
def splitter(x, separator=None):
if len(x) > 1:
y = x.split(separator)
return (y[0], y[-1])
return (None, None)
return dict(splitter(x, separator=separator) for x in text.split("\n"))
def wait_for_open_ports(self, instance_name=""):
"""
If this is a service we need to wait for do so.
"""
ports = None
if instance_name in wellknownports:
ports = wellknownports[instance_name]
else:
elements = self.systemd_name.split("@")
if elements[0] in wellknownports:
ports = wellknownports[elements[0]]
if ports:
ipautil.wait_for_open_ports('localhost', ports,
self.api.env.startup_timeout)
def stop(self, instance_name="", capture_output=True):
instance = self.service_instance(instance_name)
args = [paths.SYSTEMCTL, "stop", instance]
# The --ignore-dependencies switch is used to avoid possible
# deadlock during the shutdown transaction. For more details, see
# https://fedorahosted.org/freeipa/ticket/3729#comment:1 and
# https://bugzilla.redhat.com/show_bug.cgi?id=973331#c11
if instance == "ipa-otpd.socket":
args.append("--ignore-dependencies")
ipautil.run(args, skip_output=not capture_output)
if getattr(self.api.env, 'context', None) in ['ipactl', 'installer']:
update_service_list = True
else:
update_service_list = False
super(SystemdService, self).stop(
instance_name,
update_service_list=update_service_list)
def start(self, instance_name="", capture_output=True, wait=True):
ipautil.run([paths.SYSTEMCTL, "start",
self.service_instance(instance_name)],
skip_output=not capture_output)
if getattr(self.api.env, 'context', None) in ['ipactl', 'installer']:
update_service_list = True
else:
update_service_list = False
if wait and self.is_running(instance_name):
self.wait_for_open_ports(self.service_instance(instance_name))
super(SystemdService, self).start(
instance_name,
update_service_list=update_service_list)
def restart(self, instance_name="", capture_output=True, wait=True):
ipautil.run([paths.SYSTEMCTL, "restart",
self.service_instance(instance_name)],
skip_output=not capture_output)
if wait and self.is_running(instance_name):
self.wait_for_open_ports(self.service_instance(instance_name))
def is_running(self, instance_name=""):
instance = self.service_instance(instance_name, 'is-active')
while True:
try:
result = ipautil.run(
[paths.SYSTEMCTL, "is-active", instance],
capture_output=True
)
except ipautil.CalledProcessError as e:
if e.returncode == 3 and 'activating' in str(e.output):
time.sleep(SERVICE_POLL_INTERVAL)
continue
return False
else:
# activating
if result.returncode == 3 and 'activating' in result.output:
time.sleep(SERVICE_POLL_INTERVAL)
continue
# active
if result.returncode == 0:
return True
# not active
return False
def is_installed(self):
try:
result = ipautil.run(
[paths.SYSTEMCTL, "list-unit-files", "--full"],
capture_output=True)
if result.returncode != 0:
return False
else:
svar = self.parse_variables(result.output)
if not self.service_instance("") in svar:
# systemd doesn't show the service
return False
except ipautil.CalledProcessError:
return False
return True
def is_enabled(self, instance_name=""):
enabled = True
try:
result = ipautil.run(
[paths.SYSTEMCTL, "is-enabled",
self.service_instance(instance_name)])
if result.returncode != 0:
enabled = False
except ipautil.CalledProcessError:
enabled = False
return enabled
def is_masked(self, instance_name=""):
masked = False
try:
result = ipautil.run(
[paths.SYSTEMCTL, "is-enabled",
self.service_instance(instance_name)],
capture_output=True)
if result.returncode == 1 and result.output == 'masked':
masked = True
except ipautil.CalledProcessError:
pass
return masked
def enable(self, instance_name=""):
if self.lib_path_exists is None:
self.lib_path_exists = os.path.exists(self.lib_path)
elements = self.systemd_name.split("@")
l = len(elements)
if self.lib_path_exists and (l > 1 and elements[1][0] != '.'):
# There is explicit service unit supporting this instance,
# follow normal systemd enabler
self.__enable(instance_name)
return
if self.lib_path_exists and (l == 1):
# There is explicit service unit which does not support
# the instances, ignore instance
self.__enable()
return
if len(instance_name) > 0 and l > 1:
# New instance, we need to do following:
# 1. Make /etc/systemd/system/<service>.target.wants/
# if it is not there
# 2. Link /etc/systemd/system/<service>.target.wants/
# <service>@<instance_name>.service to
# /lib/systemd/system/<service>@.service
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))
try:
if not ipautil.dir_exists(srv_tgt):
os.mkdir(srv_tgt)
if os.path.exists(srv_lnk):
# Remove old link
os.unlink(srv_lnk)
if not os.path.exists(srv_lnk):
# object does not exist _or_ is a broken link
if not os.path.islink(srv_lnk):
# if it truly does not exist, make a link
os.symlink(self.lib_path, srv_lnk)
else:
# Link exists and it is broken, make new one
os.unlink(srv_lnk)
os.symlink(self.lib_path, srv_lnk)
ipautil.run([paths.SYSTEMCTL, "--system", "daemon-reload"])
except:
pass
else:
self.__enable(instance_name)
def disable(self, instance_name=""):
elements = self.systemd_name.split("@")
if instance_name != "" and len(elements) > 1:
# Remove instance, we need to do following:
# Remove link from /etc/systemd/system/<service>.target.wants/
# <service>@<instance_name>.service
# to /lib/systemd/system/<service>@.service
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))
try:
if ipautil.dir_exists(srv_tgt):
if os.path.islink(srv_lnk):
os.unlink(srv_lnk)
ipautil.run([paths.SYSTEMCTL, "--system", "daemon-reload"])
except:
pass
else:
try:
ipautil.run([paths.SYSTEMCTL, "disable",
self.service_instance(instance_name)])
except ipautil.CalledProcessError:
pass
def mask(self, instance_name=""):
srv_tgt = os.path.join(paths.ETC_SYSTEMD_SYSTEM_DIR, self.service_instance(instance_name))
if os.path.exists(srv_tgt):
os.unlink(srv_tgt)
try:
ipautil.run([paths.SYSTEMCTL, "mask",
self.service_instance(instance_name)])
except ipautil.CalledProcessError:
pass
def unmask(self, instance_name=""):
try:
ipautil.run([paths.SYSTEMCTL, "unmask",
self.service_instance(instance_name)])
except ipautil.CalledProcessError:
pass
def __enable(self, instance_name=""):
try:
ipautil.run([paths.SYSTEMCTL, "enable",
self.service_instance(instance_name)])
except ipautil.CalledProcessError:
pass
def install(self):
self.enable()
def remove(self):
self.disable()
# Objects below are expected to be exported by platform module
service = None
knownservices = None
# System may support more time&date services. FreeIPA supports ntpd only, other
# services will be disabled during IPA installation
timedate_services = ['ntpd', 'chronyd']
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