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|
# -*- coding: utf-8 -*-
# Copyright: (c) 2012, Michael DeHaan <michael.dehaan@gmail.com>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import annotations
DOCUMENTATION = r'''
---
module: service
version_added: "0.1"
short_description: Manage services
description:
- Controls services on remote hosts. Supported init systems include BSD init,
OpenRC, SysV, Solaris SMF, systemd, upstart.
- This module acts as a proxy to the underlying service manager module. While all arguments will be passed to the
underlying module, not all modules support the same arguments. This documentation only covers the minimum intersection
of module arguments that all service manager modules support.
- This module is a proxy for multiple more specific service manager modules
(such as M(ansible.builtin.systemd) and M(ansible.builtin.sysvinit)).
This allows management of a heterogeneous environment of machines without creating a specific task for
each service manager. The module to be executed is determined by the O(use) option, which defaults to the
service manager discovered by M(ansible.builtin.setup). If M(ansible.builtin.setup) was not yet run, this module may run it.
- For Windows targets, use the M(ansible.windows.win_service) module instead.
options:
name:
description:
- Name of the service.
type: str
required: true
state:
description:
- V(started)/V(stopped) are idempotent actions that will not run
commands unless necessary.
- V(restarted) will always bounce the service.
- V(reloaded) will always reload.
- B(At least one of state and enabled are required.)
- Note that reloaded will start the service if it is not already started,
even if your chosen init system wouldn't normally.
type: str
choices: [ reloaded, restarted, started, stopped ]
sleep:
description:
- If the service is being V(restarted) then sleep this many seconds
between the stop and start command.
- This helps to work around badly-behaving init scripts that exit immediately
after signaling a process to stop.
- Not all service managers support sleep, i.e when using systemd this setting will be ignored.
type: int
version_added: "1.3"
pattern:
description:
- If the service does not respond to the status command, name a
substring to look for as would be found in the output of the I(ps)
command as a stand-in for a status result.
- If the string is found, the service will be assumed to be started.
- While using remote hosts with systemd this setting will be ignored.
type: str
version_added: "0.7"
enabled:
description:
- Whether the service should start on boot.
- B(At least one of state and enabled are required.)
type: bool
runlevel:
description:
- For OpenRC init scripts (e.g. Gentoo) only.
- The runlevel that this service belongs to.
- While using remote hosts with systemd this setting will be ignored.
type: str
default: default
arguments:
description:
- Additional arguments provided on the command line.
- While using remote hosts with systemd this setting will be ignored.
type: str
default: ''
aliases: [ args ]
use:
description:
- The service module actually uses system specific modules, normally through auto detection, this setting can force a specific module.
- Normally it uses the value of the 'ansible_service_mgr' fact and falls back to the old 'service' module when none matching is found.
- The 'old service module' still uses autodetection and in no way does it correspond to the C(service) command.
type: str
default: auto
version_added: 2.2
extends_documentation_fragment:
- action_common_attributes
- action_common_attributes.flow
attributes:
action:
support: full
async:
support: full
bypass_host_loop:
support: none
check_mode:
details: support depends on the underlying plugin invoked
support: N/A
diff_mode:
details: support depends on the underlying plugin invoked
support: N/A
platform:
details: The support depends on the availability for the specific plugin for each platform and if fact gathering is able to detect it
platforms: all
notes:
- For AIX, group subsystem names can be used.
- The C(service) command line utility is not part of any service manager system but a convenience.
It does not have a standard implementation across systems, and this action cannot use it directly.
Though it might be used if found in certain circumstances, the detected system service manager is normally preferred.
seealso:
- module: ansible.windows.win_service
author:
- Ansible Core Team
- Michael DeHaan
'''
EXAMPLES = r'''
- name: Start service httpd, if not started
ansible.builtin.service:
name: httpd
state: started
- name: Stop service httpd, if started
ansible.builtin.service:
name: httpd
state: stopped
- name: Restart service httpd, in all cases
ansible.builtin.service:
name: httpd
state: restarted
- name: Reload service httpd, in all cases
ansible.builtin.service:
name: httpd
state: reloaded
- name: Enable service httpd, and not touch the state
ansible.builtin.service:
name: httpd
enabled: yes
- name: Start service foo, based on running process /usr/bin/foo
ansible.builtin.service:
name: foo
pattern: /usr/bin/foo
state: started
- name: Restart network service for interface eth0
ansible.builtin.service:
name: network
state: restarted
args: eth0
'''
RETURN = r'''#'''
import glob
import json
import os
import platform
import re
import select
import shlex
import subprocess
import tempfile
import time
# The distutils module is not shipped with SUNWPython on Solaris.
# It's in the SUNWPython-devel package which also contains development files
# that don't belong on production boxes. Since our Solaris code doesn't
# depend on LooseVersion, do not import it on Solaris.
if platform.system() != 'SunOS':
from ansible.module_utils.compat.version import LooseVersion
from ansible.module_utils.common.text.converters import to_bytes, to_text
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.common.locale import get_best_parsable_locale
from ansible.module_utils.common.sys_info import get_platform_subclass
from ansible.module_utils.service import fail_if_missing, is_systemd_managed
from ansible.module_utils.six import PY2, b
class Service(object):
"""
This is the generic Service manipulation class that is subclassed
based on platform.
A subclass should override the following action methods:-
- get_service_tools
- service_enable
- get_service_status
- service_control
All subclasses MUST define platform and distribution (which may be None).
"""
platform = 'Generic'
distribution = None
def __new__(cls, *args, **kwargs):
new_cls = get_platform_subclass(Service)
return super(cls, new_cls).__new__(new_cls)
def __init__(self, module):
self.module = module
self.name = module.params['name']
self.state = module.params['state']
self.sleep = module.params['sleep']
self.pattern = module.params['pattern']
self.enable = module.params['enabled']
self.runlevel = module.params['runlevel']
self.changed = False
self.running = None
self.crashed = None
self.action = None
self.svc_cmd = None
self.svc_initscript = None
self.svc_initctl = None
self.enable_cmd = None
self.arguments = module.params.get('arguments', '')
self.rcconf_file = None
self.rcconf_key = None
self.rcconf_value = None
self.svc_change = False
# ===========================================
# Platform specific methods (must be replaced by subclass).
def get_service_tools(self):
self.module.fail_json(msg="get_service_tools not implemented on target platform")
def service_enable(self):
self.module.fail_json(msg="service_enable not implemented on target platform")
def get_service_status(self):
self.module.fail_json(msg="get_service_status not implemented on target platform")
def service_control(self):
self.module.fail_json(msg="service_control not implemented on target platform")
# ===========================================
# Generic methods that should be used on all platforms.
def execute_command(self, cmd, daemonize=False):
locale = get_best_parsable_locale(self.module)
lang_env = dict(LANG=locale, LC_ALL=locale, LC_MESSAGES=locale)
# Most things don't need to be daemonized
if not daemonize:
# chkconfig localizes messages and we're screen scraping so make
# sure we use the C locale
return self.module.run_command(cmd, environ_update=lang_env)
# This is complex because daemonization is hard for people.
# What we do is daemonize a part of this module, the daemon runs the
# command, picks up the return code and output, and returns it to the
# main process.
pipe = os.pipe()
pid = os.fork()
if pid == 0:
os.close(pipe[0])
# Set stdin/stdout/stderr to /dev/null
fd = os.open(os.devnull, os.O_RDWR)
if fd != 0:
os.dup2(fd, 0)
if fd != 1:
os.dup2(fd, 1)
if fd != 2:
os.dup2(fd, 2)
if fd not in (0, 1, 2):
os.close(fd)
# Make us a daemon. Yes, that's all it takes.
pid = os.fork()
if pid > 0:
os._exit(0)
os.setsid()
os.chdir("/")
pid = os.fork()
if pid > 0:
os._exit(0)
# Start the command
if PY2:
# Python 2.6's shlex.split can't handle text strings correctly
cmd = to_bytes(cmd, errors='surrogate_or_strict')
cmd = shlex.split(cmd)
else:
# Python3.x shex.split text strings.
cmd = to_text(cmd, errors='surrogate_or_strict')
cmd = [to_bytes(c, errors='surrogate_or_strict') for c in shlex.split(cmd)]
# In either of the above cases, pass a list of byte strings to Popen
# chkconfig localizes messages and we're screen scraping so make
# sure we use the C locale
p = subprocess.Popen(cmd, shell=False, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=lang_env, preexec_fn=lambda: os.close(pipe[1]))
stdout = b("")
stderr = b("")
fds = [p.stdout, p.stderr]
# Wait for all output, or until the main process is dead and its output is done.
while fds:
rfd, wfd, efd = select.select(fds, [], fds, 1)
if not (rfd + wfd + efd) and p.poll() is not None:
break
if p.stdout in rfd:
dat = os.read(p.stdout.fileno(), 4096)
if not dat:
fds.remove(p.stdout)
stdout += dat
if p.stderr in rfd:
dat = os.read(p.stderr.fileno(), 4096)
if not dat:
fds.remove(p.stderr)
stderr += dat
p.wait()
# Return a JSON blob to parent
blob = json.dumps([p.returncode, to_text(stdout), to_text(stderr)])
os.write(pipe[1], to_bytes(blob, errors='surrogate_or_strict'))
os.close(pipe[1])
os._exit(0)
elif pid == -1:
self.module.fail_json(msg="unable to fork")
else:
os.close(pipe[1])
os.waitpid(pid, 0)
# Wait for data from daemon process and process it.
data = b("")
while True:
rfd, wfd, efd = select.select([pipe[0]], [], [pipe[0]])
if pipe[0] in rfd:
dat = os.read(pipe[0], 4096)
if not dat:
break
data += dat
return json.loads(to_text(data, errors='surrogate_or_strict'))
def check_ps(self):
# Set ps flags
if platform.system() == 'SunOS':
psflags = '-ef'
else:
psflags = 'auxww'
# Find ps binary
psbin = self.module.get_bin_path('ps', True)
(rc, psout, pserr) = self.execute_command('%s %s' % (psbin, psflags))
# If rc is 0, set running as appropriate
if rc == 0:
self.running = False
lines = psout.split("\n")
for line in lines:
if self.pattern in line and "pattern=" not in line:
# so as to not confuse ./hacking/test-module.py
self.running = True
break
def check_service_changed(self):
if self.state and self.running is None:
self.module.fail_json(msg="failed determining service state, possible typo of service name?")
# Find out if state has changed
if not self.running and self.state in ["reloaded", "started"]:
self.svc_change = True
elif self.running and self.state in ["reloaded", "stopped"]:
self.svc_change = True
elif self.state == "restarted":
self.svc_change = True
if self.module.check_mode and self.svc_change:
self.module.exit_json(changed=True, msg='service state changed')
def modify_service_state(self):
# Only do something if state will change
if self.svc_change:
# Control service
if self.state in ['started']:
self.action = "start"
elif not self.running and self.state == 'reloaded':
self.action = "start"
elif self.state == 'stopped':
self.action = "stop"
elif self.state == 'reloaded':
self.action = "reload"
elif self.state == 'restarted':
self.action = "restart"
if self.module.check_mode:
self.module.exit_json(changed=True, msg='changing service state')
return self.service_control()
else:
# If nothing needs to change just say all is well
rc = 0
err = ''
out = ''
return rc, out, err
def service_enable_rcconf(self):
if self.rcconf_file is None or self.rcconf_key is None or self.rcconf_value is None:
self.module.fail_json(msg="service_enable_rcconf() requires rcconf_file, rcconf_key and rcconf_value")
self.changed = None
entry = '%s="%s"\n' % (self.rcconf_key, self.rcconf_value)
with open(self.rcconf_file, "r") as RCFILE:
new_rc_conf = []
# Build a list containing the possibly modified file.
for rcline in RCFILE:
# Parse line removing whitespaces, quotes, etc.
rcarray = shlex.split(rcline, comments=True)
if len(rcarray) >= 1 and '=' in rcarray[0]:
(key, value) = rcarray[0].split("=", 1)
if key == self.rcconf_key:
if value.upper() == self.rcconf_value:
# Since the proper entry already exists we can stop iterating.
self.changed = False
break
else:
# We found the key but the value is wrong, replace with new entry.
rcline = entry
self.changed = True
# Add line to the list.
new_rc_conf.append(rcline.strip() + '\n')
# If we did not see any trace of our entry we need to add it.
if self.changed is None:
new_rc_conf.append(entry)
self.changed = True
if self.changed is True:
if self.module.check_mode:
self.module.exit_json(changed=True, msg="changing service enablement")
# Create a temporary file next to the current rc.conf (so we stay on the same filesystem).
# This way the replacement operation is atomic.
rcconf_dir = os.path.dirname(self.rcconf_file)
rcconf_base = os.path.basename(self.rcconf_file)
(TMP_RCCONF, tmp_rcconf_file) = tempfile.mkstemp(dir=rcconf_dir, prefix="%s-" % rcconf_base)
# Write out the contents of the list into our temporary file.
for rcline in new_rc_conf:
os.write(TMP_RCCONF, rcline.encode())
# Close temporary file.
os.close(TMP_RCCONF)
# Replace previous rc.conf.
self.module.atomic_move(tmp_rcconf_file, self.rcconf_file)
class LinuxService(Service):
"""
This is the Linux Service manipulation class - it is currently supporting
a mixture of binaries and init scripts for controlling services started at
boot, as well as for controlling the current state.
"""
platform = 'Linux'
distribution = None
def get_service_tools(self):
paths = ['/sbin', '/usr/sbin', '/bin', '/usr/bin']
binaries = ['service', 'chkconfig', 'update-rc.d', 'rc-service', 'rc-update', 'initctl', 'systemctl', 'start', 'stop', 'restart', 'insserv']
initpaths = ['/etc/init.d']
location = dict()
for binary in binaries:
location[binary] = self.module.get_bin_path(binary, opt_dirs=paths)
for initdir in initpaths:
initscript = "%s/%s" % (initdir, self.name)
if os.path.isfile(initscript):
self.svc_initscript = initscript
def check_systemd():
# tools must be installed
if location.get('systemctl', False):
return is_systemd_managed(self.module)
return False
# Locate a tool to enable/disable a service
if check_systemd():
# service is managed by systemd
self.__systemd_unit = self.name
self.svc_cmd = location['systemctl']
self.enable_cmd = location['systemctl']
elif location.get('initctl', False) and os.path.exists("/etc/init/%s.conf" % self.name):
# service is managed by upstart
self.enable_cmd = location['initctl']
# set the upstart version based on the output of 'initctl version'
self.upstart_version = LooseVersion('0.0.0')
try:
version_re = re.compile(r'\(upstart (.*)\)')
rc, stdout, stderr = self.module.run_command('%s version' % location['initctl'])
if rc == 0:
res = version_re.search(stdout)
if res:
self.upstart_version = LooseVersion(res.groups()[0])
except Exception:
pass # we'll use the default of 0.0.0
self.svc_cmd = location['initctl']
elif location.get('rc-service', False):
# service is managed by OpenRC
self.svc_cmd = location['rc-service']
self.enable_cmd = location['rc-update']
return # already have service start/stop tool too!
elif self.svc_initscript:
# service is managed by with SysV init scripts
if location.get('update-rc.d', False):
# and uses update-rc.d
self.enable_cmd = location['update-rc.d']
elif location.get('insserv', None):
# and uses insserv
self.enable_cmd = location['insserv']
elif location.get('chkconfig', False):
# and uses chkconfig
self.enable_cmd = location['chkconfig']
if self.enable_cmd is None:
fail_if_missing(self.module, False, self.name, msg='host')
# If no service control tool selected yet, try to see if 'service' is available
if self.svc_cmd is None and location.get('service', False):
self.svc_cmd = location['service']
# couldn't find anything yet
if self.svc_cmd is None and not self.svc_initscript:
self.module.fail_json(msg='cannot find \'service\' binary or init script for service, possible typo in service name?, aborting')
if location.get('initctl', False):
self.svc_initctl = location['initctl']
def get_systemd_service_enabled(self):
def sysv_exists(name):
script = '/etc/init.d/' + name
return os.access(script, os.X_OK)
def sysv_is_enabled(name):
return bool(glob.glob('/etc/rc?.d/S??' + name))
service_name = self.__systemd_unit
(rc, out, err) = self.execute_command("%s is-enabled %s" % (self.enable_cmd, service_name,))
if rc == 0:
return True
elif out.startswith('disabled'):
return False
elif sysv_exists(service_name):
return sysv_is_enabled(service_name)
else:
return False
def get_systemd_status_dict(self):
# Check status first as show will not fail if service does not exist
(rc, out, err) = self.execute_command("%s show '%s'" % (self.enable_cmd, self.__systemd_unit,))
if rc != 0:
self.module.fail_json(msg='failure %d running systemctl show for %r: %s' % (rc, self.__systemd_unit, err))
elif 'LoadState=not-found' in out:
self.module.fail_json(msg='systemd could not find the requested service "%r": %s' % (self.__systemd_unit, err))
key = None
value_buffer = []
status_dict = {}
for line in out.splitlines():
if '=' in line:
if not key:
key, value = line.split('=', 1)
# systemd fields that are shell commands can be multi-line
# We take a value that begins with a "{" as the start of
# a shell command and a line that ends with "}" as the end of
# the command
if value.lstrip().startswith('{'):
if value.rstrip().endswith('}'):
status_dict[key] = value
key = None
else:
value_buffer.append(value)
else:
status_dict[key] = value
key = None
else:
if line.rstrip().endswith('}'):
status_dict[key] = '\n'.join(value_buffer)
key = None
else:
value_buffer.append(value)
else:
value_buffer.append(value)
return status_dict
def get_systemd_service_status(self):
d = self.get_systemd_status_dict()
if d.get('ActiveState') == 'active':
# run-once services (for which a single successful exit indicates
# that they are running as designed) should not be restarted here.
# Thus, we are not checking d['SubState'].
self.running = True
self.crashed = False
elif d.get('ActiveState') == 'failed':
self.running = False
self.crashed = True
elif d.get('ActiveState') is None:
self.module.fail_json(msg='No ActiveState value in systemctl show output for %r' % (self.__systemd_unit,))
else:
self.running = False
self.crashed = False
return self.running
def get_service_status(self):
if self.svc_cmd and self.svc_cmd.endswith('systemctl'):
return self.get_systemd_service_status()
self.action = "status"
rc, status_stdout, status_stderr = self.service_control()
# if we have decided the service is managed by upstart, we check for some additional output...
if self.svc_initctl and self.running is None:
# check the job status by upstart response
initctl_rc, initctl_status_stdout, initctl_status_stderr = self.execute_command("%s status %s %s" % (self.svc_initctl, self.name, self.arguments))
if "stop/waiting" in initctl_status_stdout:
self.running = False
elif "start/running" in initctl_status_stdout:
self.running = True
if self.svc_cmd and self.svc_cmd.endswith("rc-service") and self.running is None:
openrc_rc, openrc_status_stdout, openrc_status_stderr = self.execute_command("%s %s status" % (self.svc_cmd, self.name))
self.running = "started" in openrc_status_stdout
self.crashed = "crashed" in openrc_status_stderr
# Prefer a non-zero return code. For reference, see:
# http://refspecs.linuxbase.org/LSB_4.1.0/LSB-Core-generic/LSB-Core-generic/iniscrptact.html
if self.running is None and rc in [1, 2, 3, 4, 69]:
self.running = False
# if the job status is still not known check it by status output keywords
# Only check keywords if there's only one line of output (some init
# scripts will output verbosely in case of error and those can emit
# keywords that are picked up as false positives
if self.running is None and status_stdout.count('\n') <= 1:
# first transform the status output that could irritate keyword matching
cleanout = status_stdout.lower().replace(self.name.lower(), '')
if "stop" in cleanout:
self.running = False
elif "run" in cleanout:
self.running = not ("not " in cleanout)
elif "start" in cleanout and "not " not in cleanout:
self.running = True
elif 'could not access pid file' in cleanout:
self.running = False
elif 'is dead and pid file exists' in cleanout:
self.running = False
elif 'dead but subsys locked' in cleanout:
self.running = False
elif 'dead but pid file exists' in cleanout:
self.running = False
# if the job status is still not known and we got a zero for the
# return code, assume here that the service is running
if self.running is None and rc == 0:
self.running = True
# if the job status is still not known check it by special conditions
if self.running is None:
if self.name == 'iptables' and "ACCEPT" in status_stdout:
# iptables status command output is lame
# TODO: lookup if we can use a return code for this instead?
self.running = True
return self.running
def service_enable(self):
if self.enable_cmd is None:
self.module.fail_json(msg='cannot detect command to enable service %s, typo or init system potentially unknown' % self.name)
self.changed = True
action = None
#
# Upstart's initctl
#
if self.enable_cmd.endswith("initctl"):
def write_to_override_file(file_name, file_contents, ):
override_file = open(file_name, 'w')
override_file.write(file_contents)
override_file.close()
initpath = '/etc/init'
if self.upstart_version >= LooseVersion('0.6.7'):
manreg = re.compile(r'^manual\s*$', re.M | re.I)
config_line = 'manual\n'
else:
manreg = re.compile(r'^start on manual\s*$', re.M | re.I)
config_line = 'start on manual\n'
conf_file_name = "%s/%s.conf" % (initpath, self.name)
override_file_name = "%s/%s.override" % (initpath, self.name)
# Check to see if files contain the manual line in .conf and fail if True
with open(conf_file_name) as conf_file_fh:
conf_file_content = conf_file_fh.read()
if manreg.search(conf_file_content):
self.module.fail_json(msg="manual stanza not supported in a .conf file")
self.changed = False
if os.path.exists(override_file_name):
with open(override_file_name) as override_fh:
override_file_contents = override_fh.read()
# Remove manual stanza if present and service enabled
if self.enable and manreg.search(override_file_contents):
self.changed = True
override_state = manreg.sub('', override_file_contents)
# Add manual stanza if not present and service disabled
elif not (self.enable) and not (manreg.search(override_file_contents)):
self.changed = True
override_state = '\n'.join((override_file_contents, config_line))
# service already in desired state
else:
pass
# Add file with manual stanza if service disabled
elif not (self.enable):
self.changed = True
override_state = config_line
else:
# service already in desired state
pass
if self.module.check_mode:
self.module.exit_json(changed=self.changed)
# The initctl method of enabling and disabling services is much
# different than for the other service methods. So actually
# committing the change is done in this conditional and then we
# skip the boilerplate at the bottom of the method
if self.changed:
try:
write_to_override_file(override_file_name, override_state)
except Exception:
self.module.fail_json(msg='Could not modify override file')
return
#
# SysV's chkconfig
#
if self.enable_cmd.endswith("chkconfig"):
if self.enable:
action = 'on'
else:
action = 'off'
(rc, out, err) = self.execute_command("%s --list %s" % (self.enable_cmd, self.name))
if 'chkconfig --add %s' % self.name in err:
self.execute_command("%s --add %s" % (self.enable_cmd, self.name))
(rc, out, err) = self.execute_command("%s --list %s" % (self.enable_cmd, self.name))
if self.name not in out:
self.module.fail_json(msg="service %s does not support chkconfig" % self.name)
# TODO: look back on why this is here
# state = out.split()[-1]
# Check if we're already in the correct state
if "3:%s" % action in out and "5:%s" % action in out:
self.changed = False
return
#
# Systemd's systemctl
#
if self.enable_cmd.endswith("systemctl"):
if self.enable:
action = 'enable'
else:
action = 'disable'
# Check if we're already in the correct state
service_enabled = self.get_systemd_service_enabled()
# self.changed should already be true
if self.enable == service_enabled:
self.changed = False
return
#
# OpenRC's rc-update
#
if self.enable_cmd.endswith("rc-update"):
if self.enable:
action = 'add'
else:
action = 'delete'
(rc, out, err) = self.execute_command("%s show" % self.enable_cmd)
for line in out.splitlines():
service_name, runlevels = line.split('|')
service_name = service_name.strip()
if service_name != self.name:
continue
runlevels = re.split(r'\s+', runlevels)
# service already enabled for the runlevel
if self.enable and self.runlevel in runlevels:
self.changed = False
# service already disabled for the runlevel
elif not self.enable and self.runlevel not in runlevels:
self.changed = False
break
else:
# service already disabled altogether
if not self.enable:
self.changed = False
if not self.changed:
return
#
# update-rc.d style
#
if self.enable_cmd.endswith("update-rc.d"):
enabled = False
slinks = glob.glob('/etc/rc?.d/S??' + self.name)
if slinks:
enabled = True
if self.enable != enabled:
self.changed = True
if self.enable:
action = 'enable'
klinks = glob.glob('/etc/rc?.d/K??' + self.name)
if not klinks:
if not self.module.check_mode:
(rc, out, err) = self.execute_command("%s %s defaults" % (self.enable_cmd, self.name))
if rc != 0:
if err:
self.module.fail_json(msg=err)
else:
self.module.fail_json(msg=out) % (self.enable_cmd, self.name, action)
else:
action = 'disable'
if not self.module.check_mode:
(rc, out, err) = self.execute_command("%s %s %s" % (self.enable_cmd, self.name, action))
if rc != 0:
if err:
self.module.fail_json(msg=err)
else:
self.module.fail_json(msg=out) % (self.enable_cmd, self.name, action)
else:
self.changed = False
return
#
# insserv (Debian <=7, SLES, others)
#
if self.enable_cmd.endswith("insserv"):
if self.enable:
(rc, out, err) = self.execute_command("%s -n -v %s" % (self.enable_cmd, self.name))
else:
(rc, out, err) = self.execute_command("%s -n -r -v %s" % (self.enable_cmd, self.name))
self.changed = False
for line in err.splitlines():
if self.enable and line.find('enable service') != -1:
self.changed = True
break
if not self.enable and line.find('remove service') != -1:
self.changed = True
break
if self.module.check_mode:
self.module.exit_json(changed=self.changed)
if not self.changed:
return
if self.enable:
(rc, out, err) = self.execute_command("%s %s" % (self.enable_cmd, self.name))
if (rc != 0) or (err != ''):
self.module.fail_json(msg=("Failed to install service. rc: %s, out: %s, err: %s" % (rc, out, err)))
return (rc, out, err)
else:
(rc, out, err) = self.execute_command("%s -r %s" % (self.enable_cmd, self.name))
if (rc != 0) or (err != ''):
self.module.fail_json(msg=("Failed to remove service. rc: %s, out: %s, err: %s" % (rc, out, err)))
return (rc, out, err)
#
# If we've gotten to the end, the service needs to be updated
#
self.changed = True
# we change argument order depending on real binary used:
# rc-update and systemctl need the argument order reversed
if self.enable_cmd.endswith("rc-update"):
args = (self.enable_cmd, action, self.name + " " + self.runlevel)
elif self.enable_cmd.endswith("systemctl"):
args = (self.enable_cmd, action, self.__systemd_unit)
else:
args = (self.enable_cmd, self.name, action)
if self.module.check_mode:
self.module.exit_json(changed=self.changed)
(rc, out, err) = self.execute_command("%s %s %s" % args)
if rc != 0:
if err:
self.module.fail_json(msg="Error when trying to %s %s: rc=%s %s" % (action, self.name, rc, err))
else:
self.module.fail_json(msg="Failure for %s %s: rc=%s %s" % (action, self.name, rc, out))
return (rc, out, err)
def service_control(self):
# Decide what command to run
svc_cmd = ''
arguments = self.arguments
if self.svc_cmd:
if not self.svc_cmd.endswith("systemctl"):
if self.svc_cmd.endswith("initctl"):
# initctl commands take the form <cmd> <action> <name>
svc_cmd = self.svc_cmd
arguments = "%s %s" % (self.name, arguments)
else:
# SysV and OpenRC take the form <cmd> <name> <action>
svc_cmd = "%s %s" % (self.svc_cmd, self.name)
else:
# systemd commands take the form <cmd> <action> <name>
svc_cmd = self.svc_cmd
arguments = "%s %s" % (self.__systemd_unit, arguments)
elif self.svc_cmd is None and self.svc_initscript:
# upstart
svc_cmd = "%s" % self.svc_initscript
# In OpenRC, if a service crashed, we need to reset its status to
# stopped with the zap command, before we can start it back.
if self.svc_cmd and self.svc_cmd.endswith('rc-service') and self.action == 'start' and self.crashed:
self.execute_command("%s zap" % svc_cmd, daemonize=True)
if self.action != "restart":
if svc_cmd != '':
# upstart or systemd or OpenRC
rc_state, stdout, stderr = self.execute_command("%s %s %s" % (svc_cmd, self.action, arguments), daemonize=True)
else:
# SysV
rc_state, stdout, stderr = self.execute_command("%s %s %s" % (self.action, self.name, arguments), daemonize=True)
elif self.svc_cmd and self.svc_cmd.endswith('rc-service'):
# All services in OpenRC support restart.
rc_state, stdout, stderr = self.execute_command("%s %s %s" % (svc_cmd, self.action, arguments), daemonize=True)
else:
# In other systems, not all services support restart. Do it the hard way.
if svc_cmd != '':
# upstart or systemd
rc1, stdout1, stderr1 = self.execute_command("%s %s %s" % (svc_cmd, 'stop', arguments), daemonize=True)
else:
# SysV
rc1, stdout1, stderr1 = self.execute_command("%s %s %s" % ('stop', self.name, arguments), daemonize=True)
if self.sleep:
time.sleep(self.sleep)
if svc_cmd != '':
# upstart or systemd
rc2, stdout2, stderr2 = self.execute_command("%s %s %s" % (svc_cmd, 'start', arguments), daemonize=True)
else:
# SysV
rc2, stdout2, stderr2 = self.execute_command("%s %s %s" % ('start', self.name, arguments), daemonize=True)
# merge return information
if rc1 != 0 and rc2 == 0:
rc_state = rc2
stdout = stdout2
stderr = stderr2
else:
rc_state = rc1 + rc2
stdout = stdout1 + stdout2
stderr = stderr1 + stderr2
return (rc_state, stdout, stderr)
class FreeBsdService(Service):
"""
This is the FreeBSD Service manipulation class - it uses the /etc/rc.conf
file for controlling services started at boot and the 'service' binary to
check status and perform direct service manipulation.
"""
platform = 'FreeBSD'
distribution = None
def get_service_tools(self):
self.svc_cmd = self.module.get_bin_path('service', True)
if not self.svc_cmd:
self.module.fail_json(msg='unable to find service binary')
self.sysrc_cmd = self.module.get_bin_path('sysrc')
def get_service_status(self):
rc, stdout, stderr = self.execute_command("%s %s %s %s" % (self.svc_cmd, self.name, 'onestatus', self.arguments))
if self.name == "pf":
self.running = "Enabled" in stdout
else:
if rc == 1:
self.running = False
elif rc == 0:
self.running = True
def service_enable(self):
if self.enable:
self.rcconf_value = "YES"
else:
self.rcconf_value = "NO"
rcfiles = ['/etc/rc.conf', '/etc/rc.conf.local', '/usr/local/etc/rc.conf']
for rcfile in rcfiles:
if os.path.isfile(rcfile):
self.rcconf_file = rcfile
rc, stdout, stderr = self.execute_command("%s %s %s %s" % (self.svc_cmd, self.name, 'rcvar', self.arguments))
try:
rcvars = shlex.split(stdout, comments=True)
except Exception:
# TODO: add a warning to the output with the failure
pass
if not rcvars:
self.module.fail_json(msg="unable to determine rcvar", stdout=stdout, stderr=stderr)
# In rare cases, i.e. sendmail, rcvar can return several key=value pairs
# Usually there is just one, however. In other rare cases, i.e. uwsgi,
# rcvar can return extra uncommented data that is not at all related to
# the rcvar. We will just take the first key=value pair we come across
# and hope for the best.
for rcvar in rcvars:
if '=' in rcvar:
self.rcconf_key, default_rcconf_value = rcvar.split('=', 1)
break
if self.rcconf_key is None:
self.module.fail_json(msg="unable to determine rcvar", stdout=stdout, stderr=stderr)
if self.sysrc_cmd: # FreeBSD >= 9.2
rc, current_rcconf_value, stderr = self.execute_command("%s -n %s" % (self.sysrc_cmd, self.rcconf_key))
# it can happen that rcvar is not set (case of a system coming from the ports collection)
# so we will fallback on the default
if rc != 0:
current_rcconf_value = default_rcconf_value
if current_rcconf_value.strip().upper() != self.rcconf_value:
self.changed = True
if self.module.check_mode:
self.module.exit_json(changed=True, msg="changing service enablement")
rc, change_stdout, change_stderr = self.execute_command("%s %s=\"%s\"" % (self.sysrc_cmd, self.rcconf_key, self.rcconf_value))
if rc != 0:
self.module.fail_json(msg="unable to set rcvar using sysrc", stdout=change_stdout, stderr=change_stderr)
# sysrc does not exit with code 1 on permission error => validate successful change using service(8)
rc, check_stdout, check_stderr = self.execute_command("%s %s %s" % (self.svc_cmd, self.name, "enabled"))
if self.enable != (rc == 0): # rc = 0 indicates enabled service, rc = 1 indicates disabled service
self.module.fail_json(msg="unable to set rcvar: sysrc did not change value", stdout=change_stdout, stderr=change_stderr)
else:
self.changed = False
else: # Legacy (FreeBSD < 9.2)
try:
return self.service_enable_rcconf()
except Exception:
self.module.fail_json(msg='unable to set rcvar')
def service_control(self):
if self.action == "start":
self.action = "onestart"
if self.action == "stop":
self.action = "onestop"
if self.action == "reload":
self.action = "onereload"
ret = self.execute_command("%s %s %s %s" % (self.svc_cmd, self.name, self.action, self.arguments))
if self.sleep:
time.sleep(self.sleep)
return ret
class DragonFlyBsdService(FreeBsdService):
"""
This is the DragonFly BSD Service manipulation class - it uses the /etc/rc.conf
file for controlling services started at boot and the 'service' binary to
check status and perform direct service manipulation.
"""
platform = 'DragonFly'
distribution = None
def service_enable(self):
if self.enable:
self.rcconf_value = "YES"
else:
self.rcconf_value = "NO"
rcfiles = ['/etc/rc.conf'] # Overkill?
for rcfile in rcfiles:
if os.path.isfile(rcfile):
self.rcconf_file = rcfile
self.rcconf_key = "%s" % self.name.replace("-", "_")
return self.service_enable_rcconf()
class OpenBsdService(Service):
"""
This is the OpenBSD Service manipulation class - it uses rcctl(8) or
/etc/rc.d scripts for service control. Enabling a service is
only supported if rcctl is present.
"""
platform = 'OpenBSD'
distribution = None
def get_service_tools(self):
self.enable_cmd = self.module.get_bin_path('rcctl')
if self.enable_cmd:
self.svc_cmd = self.enable_cmd
else:
rcdir = '/etc/rc.d'
rc_script = "%s/%s" % (rcdir, self.name)
if os.path.isfile(rc_script):
self.svc_cmd = rc_script
if not self.svc_cmd:
self.module.fail_json(msg='unable to find svc_cmd')
def get_service_status(self):
if self.enable_cmd:
rc, stdout, stderr = self.execute_command("%s %s %s" % (self.svc_cmd, 'check', self.name))
else:
rc, stdout, stderr = self.execute_command("%s %s" % (self.svc_cmd, 'check'))
if stderr:
self.module.fail_json(msg=stderr)
if rc == 1:
self.running = False
elif rc == 0:
self.running = True
def service_control(self):
if self.enable_cmd:
return self.execute_command("%s -f %s %s" % (self.svc_cmd, self.action, self.name), daemonize=True)
else:
return self.execute_command("%s -f %s" % (self.svc_cmd, self.action))
def service_enable(self):
if not self.enable_cmd:
return super(OpenBsdService, self).service_enable()
rc, stdout, stderr = self.execute_command("%s %s %s %s" % (self.enable_cmd, 'get', self.name, 'status'))
status_action = None
if self.enable:
if rc != 0:
status_action = "on"
elif self.enable is not None:
# should be explicit False at this point
if rc != 1:
status_action = "off"
if status_action is not None:
self.changed = True
if not self.module.check_mode:
rc, stdout, stderr = self.execute_command("%s set %s status %s" % (self.enable_cmd, self.name, status_action))
if rc != 0:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg="rcctl failed to modify service status")
class NetBsdService(Service):
"""
This is the NetBSD Service manipulation class - it uses the /etc/rc.conf
file for controlling services started at boot, check status and perform
direct service manipulation. Init scripts in /etc/rc.d are used for
controlling services (start/stop) as well as for controlling the current
state.
"""
platform = 'NetBSD'
distribution = None
def get_service_tools(self):
initpaths = ['/etc/rc.d'] # better: $rc_directories - how to get in here? Run: sh -c '. /etc/rc.conf ; echo $rc_directories'
for initdir in initpaths:
initscript = "%s/%s" % (initdir, self.name)
if os.path.isfile(initscript):
self.svc_initscript = initscript
if not self.svc_initscript:
self.module.fail_json(msg='unable to find rc.d script')
def service_enable(self):
if self.enable:
self.rcconf_value = "YES"
else:
self.rcconf_value = "NO"
rcfiles = ['/etc/rc.conf'] # Overkill?
for rcfile in rcfiles:
if os.path.isfile(rcfile):
self.rcconf_file = rcfile
self.rcconf_key = "%s" % self.name.replace("-", "_")
return self.service_enable_rcconf()
def get_service_status(self):
self.svc_cmd = "%s" % self.svc_initscript
rc, stdout, stderr = self.execute_command("%s %s" % (self.svc_cmd, 'onestatus'))
if rc == 1:
self.running = False
elif rc == 0:
self.running = True
def service_control(self):
if self.action == "start":
self.action = "onestart"
if self.action == "stop":
self.action = "onestop"
self.svc_cmd = "%s" % self.svc_initscript
return self.execute_command("%s %s" % (self.svc_cmd, self.action), daemonize=True)
class SunOSService(Service):
"""
This is the SunOS Service manipulation class - it uses the svcadm
command for controlling services, and svcs command for checking status.
It also tries to be smart about taking the service out of maintenance
state if necessary.
"""
platform = 'SunOS'
distribution = None
def get_service_tools(self):
self.svcs_cmd = self.module.get_bin_path('svcs', True)
if not self.svcs_cmd:
self.module.fail_json(msg='unable to find svcs binary')
self.svcadm_cmd = self.module.get_bin_path('svcadm', True)
if not self.svcadm_cmd:
self.module.fail_json(msg='unable to find svcadm binary')
if self.svcadm_supports_sync():
self.svcadm_sync = '-s'
else:
self.svcadm_sync = ''
def svcadm_supports_sync(self):
# Support for synchronous restart/refresh is only supported on
# Oracle Solaris >= 11.2
for line in open('/etc/release', 'r').readlines():
m = re.match(r'\s+Oracle Solaris (\d+)\.(\d+).*', line.rstrip())
if m and m.groups() >= ('11', '2'):
return True
def get_service_status(self):
status = self.get_sunos_svcs_status()
# Only 'online' is considered properly running. Everything else is off
# or has some sort of problem.
if status == 'online':
self.running = True
else:
self.running = False
def get_sunos_svcs_status(self):
rc, stdout, stderr = self.execute_command("%s %s" % (self.svcs_cmd, self.name))
if rc == 1:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg=stdout)
lines = stdout.rstrip("\n").split("\n")
status = lines[-1].split(" ")[0]
# status is one of: online, offline, degraded, disabled, maintenance, uninitialized
# see man svcs(1)
return status
def service_enable(self):
# Get current service enablement status
rc, stdout, stderr = self.execute_command("%s -l %s" % (self.svcs_cmd, self.name))
if rc != 0:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg=stdout)
enabled = False
temporary = False
# look for enabled line, which could be one of:
# enabled true (temporary)
# enabled false (temporary)
# enabled true
# enabled false
for line in stdout.split("\n"):
if line.startswith("enabled"):
if "true" in line:
enabled = True
if "temporary" in line:
temporary = True
startup_enabled = (enabled and not temporary) or (not enabled and temporary)
if self.enable and startup_enabled:
return
elif (not self.enable) and (not startup_enabled):
return
if not self.module.check_mode:
# Mark service as started or stopped (this will have the side effect of
# actually stopping or starting the service)
if self.enable:
subcmd = "enable -rs"
else:
subcmd = "disable -s"
rc, stdout, stderr = self.execute_command("%s %s %s" % (self.svcadm_cmd, subcmd, self.name))
if rc != 0:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg=stdout)
self.changed = True
def service_control(self):
status = self.get_sunos_svcs_status()
# if starting or reloading, clear maintenance states
if self.action in ['start', 'reload', 'restart'] and status in ['maintenance', 'degraded']:
rc, stdout, stderr = self.execute_command("%s clear %s" % (self.svcadm_cmd, self.name))
if rc != 0:
return rc, stdout, stderr
status = self.get_sunos_svcs_status()
if status in ['maintenance', 'degraded']:
self.module.fail_json(msg="Failed to bring service out of %s status." % status)
if self.action == 'start':
subcmd = "enable -rst"
elif self.action == 'stop':
subcmd = "disable -st"
elif self.action == 'reload':
subcmd = "refresh %s" % (self.svcadm_sync)
elif self.action == 'restart' and status == 'online':
subcmd = "restart %s" % (self.svcadm_sync)
elif self.action == 'restart' and status != 'online':
subcmd = "enable -rst"
return self.execute_command("%s %s %s" % (self.svcadm_cmd, subcmd, self.name))
class AIX(Service):
"""
This is the AIX Service (SRC) manipulation class - it uses lssrc, startsrc, stopsrc
and refresh for service control. Enabling a service is currently not supported.
Would require to add an entry in the /etc/inittab file (mkitab, chitab and rmitab
commands)
"""
platform = 'AIX'
distribution = None
def get_service_tools(self):
self.lssrc_cmd = self.module.get_bin_path('lssrc', True)
if not self.lssrc_cmd:
self.module.fail_json(msg='unable to find lssrc binary')
self.startsrc_cmd = self.module.get_bin_path('startsrc', True)
if not self.startsrc_cmd:
self.module.fail_json(msg='unable to find startsrc binary')
self.stopsrc_cmd = self.module.get_bin_path('stopsrc', True)
if not self.stopsrc_cmd:
self.module.fail_json(msg='unable to find stopsrc binary')
self.refresh_cmd = self.module.get_bin_path('refresh', True)
if not self.refresh_cmd:
self.module.fail_json(msg='unable to find refresh binary')
def get_service_status(self):
status = self.get_aix_src_status()
# Only 'active' is considered properly running. Everything else is off
# or has some sort of problem.
if status == 'active':
self.running = True
else:
self.running = False
def get_aix_src_status(self):
# Check subsystem status
rc, stdout, stderr = self.execute_command("%s -s %s" % (self.lssrc_cmd, self.name))
if rc == 1:
# If check for subsystem is not ok, check if service name is a
# group subsystem
rc, stdout, stderr = self.execute_command("%s -g %s" % (self.lssrc_cmd, self.name))
if rc == 1:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg=stdout)
else:
# Check all subsystem status, if one subsystem is not active
# the group is considered not active.
lines = stdout.splitlines()
for state in lines[1:]:
if state.split()[-1].strip() != "active":
status = state.split()[-1].strip()
break
else:
status = "active"
# status is one of: active, inoperative
return status
else:
lines = stdout.rstrip("\n").split("\n")
status = lines[-1].split(" ")[-1]
# status is one of: active, inoperative
return status
def service_control(self):
# Check if service name is a subsystem of a group subsystem
rc, stdout, stderr = self.execute_command("%s -a" % (self.lssrc_cmd))
if rc == 1:
if stderr:
self.module.fail_json(msg=stderr)
else:
self.module.fail_json(msg=stdout)
else:
lines = stdout.splitlines()
subsystems = []
groups = []
for line in lines[1:]:
subsystem = line.split()[0].strip()
group = line.split()[1].strip()
subsystems.append(subsystem)
if group:
groups.append(group)
# Define if service name parameter:
# -s subsystem or -g group subsystem
if self.name in subsystems:
srccmd_parameter = "-s"
elif self.name in groups:
srccmd_parameter = "-g"
if self.action == 'start':
srccmd = self.startsrc_cmd
elif self.action == 'stop':
srccmd = self.stopsrc_cmd
elif self.action == 'reload':
srccmd = self.refresh_cmd
elif self.action == 'restart':
self.execute_command("%s %s %s" % (self.stopsrc_cmd, srccmd_parameter, self.name))
if self.sleep:
time.sleep(self.sleep)
srccmd = self.startsrc_cmd
if self.arguments and self.action in ('start', 'restart'):
return self.execute_command("%s -a \"%s\" %s %s" % (srccmd, self.arguments, srccmd_parameter, self.name))
else:
return self.execute_command("%s %s %s" % (srccmd, srccmd_parameter, self.name))
# ===========================================
# Main control flow
def main():
module = AnsibleModule(
argument_spec=dict(
name=dict(type='str', required=True),
state=dict(type='str', choices=['started', 'stopped', 'reloaded', 'restarted']),
sleep=dict(type='int'),
pattern=dict(type='str'),
enabled=dict(type='bool'),
runlevel=dict(type='str', default='default'),
arguments=dict(type='str', default='', aliases=['args']),
),
supports_check_mode=True,
required_one_of=[['state', 'enabled']],
)
service = Service(module)
module.debug('Service instantiated - platform %s' % service.platform)
if service.distribution:
module.debug('Service instantiated - distribution %s' % service.distribution)
rc = 0
out = ''
err = ''
result = {}
result['name'] = service.name
# Find service management tools
service.get_service_tools()
# Enable/disable service startup at boot if requested
if service.module.params['enabled'] is not None:
# FIXME: ideally this should detect if we need to toggle the enablement state, though
# it's unlikely the changed handler would need to fire in this case so it's a minor thing.
service.service_enable()
result['enabled'] = service.enable
if module.params['state'] is None:
# Not changing the running state, so bail out now.
result['changed'] = service.changed
module.exit_json(**result)
result['state'] = service.state
# Collect service status
if service.pattern:
service.check_ps()
else:
service.get_service_status()
# Calculate if request will change service state
service.check_service_changed()
# Modify service state if necessary
(rc, out, err) = service.modify_service_state()
if rc != 0:
if err and "Job is already running" in err:
# upstart got confused, one such possibility is MySQL on Ubuntu 12.04
# where status may report it has no start/stop links and we could
# not get accurate status
pass
else:
if err:
module.fail_json(msg=err)
else:
module.fail_json(msg=out)
result['changed'] = service.changed | service.svc_change
if service.module.params['enabled'] is not None:
result['enabled'] = service.module.params['enabled']
if not service.module.params['state']:
status = service.get_service_status()
if status is None:
result['state'] = 'absent'
elif status is False:
result['state'] = 'started'
else:
result['state'] = 'stopped'
else:
# as we may have just bounced the service the service command may not
# report accurate state at this moment so just show what we ran
if service.module.params['state'] in ['reloaded', 'restarted', 'started']:
result['state'] = 'started'
else:
result['state'] = 'stopped'
module.exit_json(**result)
if __name__ == '__main__':
main()
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