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#!/usr/bin/python
# -*- coding: utf-8 -*-
# (c) 2012, Michael DeHaan <michael.dehaan@gmail.com>
#
# This file is part of Ansible
#
# Ansible 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.
#
# Ansible 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 Ansible. If not, see <http://www.gnu.org/licenses/>.
DOCUMENTATION = '''
---
module: service
author: Michael DeHaan
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version_added: 0.1
short_description: Manage services.
description:
- Controls services on remote hosts.
options:
name:
required: true
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description:
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- Name of the service.
state:
required: false
choices: [ started, stopped, restarted, reloaded ]
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description:
- C(started)/C(stopped) are idempotent actions that will not run
commands unless necessary. C(restarted) will always bounce the
service. C(reloaded) will always reload.
pattern:
required: false
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version_added: "0.7"
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description:
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- 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,
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the service will be assumed to be running.
enabled:
required: false
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choices: [ "yes", "no" ]
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description:
- Whether the service should start on boot.
arguments:
description:
- Additional arguments provided on the command line
aliases: [ 'args' ]
examples:
- description: Example action to start service httpd, if not running
code: "service: name=httpd state=started"
- description: Example action to stop service httpd, if running
code: "service: name=httpd state=stopped"
- description: Example action to restart service httpd, in all cases
code: "service: name=httpd state=restarted"
- description: Example action to reload service httpd, in all cases
code: "service: name=httpd state=reloaded"
- description: Example action to start service foo, based on running process /usr/bin/foo
code: "service: name=foo pattern=/usr/bin/foo state=started"
- description: Example action to restart network service for interface eth0
code: "service: name=network state=restarted args=eth0"
'''
import platform
import os
import tempfile
import shlex
import select
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):
return load_platform_subclass(Service, args, kwargs)
def __init__(self, module):
self.module = module
self.name = module.params['name']
self.state = module.params['state']
self.pattern = module.params['pattern']
self.enable = module.boolean(module.params.get('enabled', None))
self.changed = False
self.running = 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
# select whether we dump additional debug info through syslog
self.syslogging = 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):
if self.syslogging:
syslog.openlog('ansible-%s' % os.path.basename(__file__))
syslog.syslog(syslog.LOG_NOTICE, 'Command %s, daemonize %r' % (cmd, daemonize))
# Most things don't need to be daemonized
if not daemonize:
return self.module.run_command(cmd)
# 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
p = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, preexec_fn=lambda: os.close(pipe[1]))
stdout = ""
stderr = ""
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)
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
os.write(pipe[1], json.dumps([p.returncode, stdout, stderr]))
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 = ""
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(data)
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 not "pattern=" in line:
# so as to not confuse ./hacking/test-module
self.running = True
break
def check_service_changed(self):
if self.state and self.running == None:
self.module.fail_json(msg="failed determining the current service state => state stays unchanged")
# Find out if state has changed
if not self.running and self.state in ["started", "running"]:
self.changed = True
elif self.running and self.state in ["stopped","reloaded"]:
self.changed = True
elif self.state == "restarted":
self.changed = True
def modify_service_state(self):
# Only do something if state will change
if self.changed:
# Control service
if self.state in ['started', 'running']:
self.action = "start"
elif self.state == 'stopped':
self.action = "stop"
elif self.state == 'reloaded':
self.action = "reload"
elif self.state == 'restarted':
self.action = "restart"
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")
changed = None
entry = '%s="%s"\n' % (self.rcconf_key, self.rcconf_value)
RCFILE = open(self.rcconf_file, "r")
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 == self.rcconf_value:
# Since the proper entry already exists we can stop iterating.
changed = False
break
else:
# We found the key but the value is wrong, replace with new entry.
rcline = entry
changed = True
# Add line to the list.
new_rc_conf.append(rcline)
# We are done with reading the current rc.conf, close it.
RCFILE.close()
# If we did not see any trace of our entry we need to add it.
if changed is None:
new_rc_conf.append(entry)
changed = True
if changed is True:
# 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)
# Close temporary file.
os.close(TMP_RCCONF)
# Replace previous rc.conf.
self.module.atomic_replace(tmp_rcconf_file, self.rcconf_file)
# ===========================================
# Subclass: Linux
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', 'initctl', 'systemctl' ]
initpaths = [ '/etc/init.d' ]
location = dict()
for binary in binaries:
location[binary] = None
for binary in binaries:
location[binary] = self.module.get_bin_path(binary)
# Locate a tool for enable options
if location.get('systemctl', None):
self.enable_cmd = location['systemctl']
elif location.get('chkconfig', None):
self.enable_cmd = location['chkconfig']
elif location.get('update-rc.d', None):
self.enable_cmd = location['update-rc.d']
if self.enable_cmd is None:
self.module.fail_json(msg='unable to find enable binary')
# Locate a tool for runtime service management (start, stop etc.)
if location.get('service', None):
self.svc_cmd = location['service']
else:
for initdir in initpaths:
initscript = "%s/%s" % (initdir,self.name)
if os.path.isfile(initscript):
self.svc_initscript = initscript
if not self.svc_cmd and not self.svc_initscript:
self.module.fail_json(msg='unable to find service binary nor initscript')
if location.get('initctl', None):
self.svc_initctl = location['initctl']
def get_service_status(self):
self.action = "status"
rc, status_stdout, status_stderr = self.service_control()
# Check if we got upstart on the system and then the job state
if self.svc_initctl != None 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" % (self.svc_initctl, self.name))
if initctl_status_stdout.find("stop/waiting") != -1:
self.running = False
elif initctl_status_stdout.find("start/running") != -1:
self.running = True
# if the job status is still not known check it by response code
if self.running == None:
if rc in [2, 3, 69]:
self.running = False
elif rc == 0:
self.running = True
# if the job status is still not known check it by status output keywords
if self.running == None:
# first tranform 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 and "not" in cleanout:
self.running = False
elif "run" in cleanout and "not" not in cleanout:
self.running = True
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 check it by special conditions
if self.running == None:
if self.name == 'iptables' and status_stdout.find("ACCEPT") != -1:
# iptables status command output is lame
# TODO: lookup if we can use a return code for this instead?
self.running = True
def service_enable(self):
# we change argument depending on real binary used
# update-rc.d wants enable/disable while
# chkconfig wants on/off
# also, systemctl needs the arguments reversed
if self.enable:
on_off = "on"
enable_disable = "enable"
else:
on_off = "off"
enable_disable = "disable"
if self.enable_cmd.endswith("update-rc.d"):
args = (self.enable_cmd, self.name, enable_disable)
elif self.enable_cmd.endswith("systemctl"):
args = (self.enable_cmd, enable_disable, self.name + ".service")
else:
args = (self.enable_cmd, self.name, on_off)
if self.enable is not None:
return self.execute_command("%s %s %s" % args)
def service_control(self):
# Decide what command to run
if self.svc_cmd:
svc_cmd = "%s %s" % (self.svc_cmd, self.name)
elif self.svc_initscript:
svc_cmd = "%s" % self.svc_initscript
if self.action is not "restart":
rc_state, stdout, stderr = self.execute_command("%s %s %s" % (svc_cmd, self.action, self.arguments), daemonize=True)
else:
rc1, stdout1, stderr1 = self.execute_command("%s %s %s" % (svc_cmd, 'stop', self.arguments), daemonize=True)
rc2, stdout2, stderr2 = self.execute_command("%s %s %s" % (svc_cmd, 'start', self.arguments), daemonize=True)
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)
# ===========================================
# Subclass: FreeBSD
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')
def get_service_status(self):
rc, stdout, stderr = self.execute_command("%s %s %s" % (self.svc_cmd, self.name, 'onestatus'))
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','/usr/local/etc/rc.conf' ]
for rcfile in rcfiles:
if os.path.isfile(rcfile):
self.rcconf_file = rcfile
self.rcconf_key = "%s_enable" % self.name
return self.service_enable_rcconf()
def service_control(self):
if self.action is "start":
self.action = "onestart"
if self.action is "stop":
self.action = "onestop"
if self.action is "reload":
self.action = "onereload"
return self.execute_command("%s %s %s" % (self.svc_cmd, self.name, self.action))
# ===========================================
# Subclass: OpenBSD
class OpenBsdService(Service):
"""
This is the OpenBSD Service manipulation class - it uses /etc/rc.d for
service control. Enabling a service is currently not supported because the
<service>_flags variable is not boolean, you should supply a rc.conf.local
file in some other way.
"""
platform = 'OpenBSD'
distribution = None
def get_service_tools(self):
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 rc.d script')
def get_service_status(self):
rc, stdout, stderr = self.execute_command("%s %s" % (self.svc_cmd, 'check'))
if rc == 1:
self.running = False
elif rc == 0:
self.running = True
def service_control(self):
return self.execute_command("%s %s" % (self.svc_cmd, self.action))
# ===========================================
# Main control flow
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def main():
module = AnsibleModule(
argument_spec = dict(
name = dict(required=True),
state = dict(choices=['running', 'started', 'stopped', 'restarted', 'reloaded']),
pattern = dict(required=False, default=None),
enabled = dict(choices=BOOLEANS),
arguments = dict(aliases=['args'], default=''),
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)
)
service = Service(module)
if service.syslogging:
syslog.openlog('ansible-%s' % os.path.basename(__file__))
syslog.syslog(syslog.LOG_NOTICE, 'Service instantiated - platform %s' % service.platform)
if service.distribution:
syslog.syslog(syslog.LOG_NOTICE, 'Service instantiated - distribution %s' % service.distribution)
rc = 0
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out = ''
err = ''
result = {}
result['name'] = service.name
result['state'] = service.state
# Find service management tools
service.get_service_tools()
# Enable/disable service startup at boot if requested
if service.module.params['enabled']:
service.service_enable()
# Collect service status
if service.pattern:
service.check_ps()
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:
module.fail_json(msg=err)
else:
module.fail_json(msg=out)
result['changed'] = service.changed
if service.module.params['enabled']:
result['enabled'] = service.module.params['enabled']
if service.state:
result['state'] = service.state
module.exit_json(**result)
# this is magic, see lib/ansible/module_common.py
#<<INCLUDE_ANSIBLE_MODULE_COMMON>>
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main()