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poller-wrapper.py
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poller-wrapper.py
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#! /usr/bin/env python2
"""
poller-wrapper A small tool which wraps around the poller and tries to
guide the polling process with a more modern approach with a
Queue and workers
Author: Job Snijders <job.snijders@atrato.com>
Date: Jan 2013
Usage: This program accepts one command line argument: the number of threads
that should run simultaneously. If no argument is given it will assume
a default of 16 threads.
Ubuntu Linux: apt-get install python-mysqldb
FreeBSD: cd /usr/ports/*/py-MySQLdb && make install clean
Tested on: Python 2.7.3 / PHP 5.3.10-1ubuntu3.4 / Ubuntu 12.04 LTS
License: To the extent possible under law, Job Snijders has waived all
copyright and related or neighboring rights to this script.
This script has been put into the Public Domain. This work is
published from: The Netherlands.
"""
try:
import json
import os
import Queue
import subprocess
import sys
import threading
import time
except:
print "ERROR: missing one or more of the following python modules:"
print "threading, Queue, sys, subprocess, time, os, json"
sys.exit(2)
try:
import MySQLdb
except:
print "ERROR: missing the mysql python module:"
print "On ubuntu: apt-get install python-mysqldb"
print "On FreeBSD: cd /usr/ports/*/py-MySQLdb && make install clean"
sys.exit(2)
"""
Fetch configuration details from the config_to_json.php script
"""
ob_install_dir = os.path.dirname(os.path.realpath(__file__))
config_file = ob_install_dir + '/config.php'
def get_config_data():
config_cmd = ['/usr/bin/env', 'php', '%s/config_to_json.php' % ob_install_dir]
try:
proc = subprocess.Popen(config_cmd, stdout=subprocess.PIPE, stdin=subprocess.PIPE)
except:
print "ERROR: Could not execute: %s" % config_cmd
sys.exit(2)
return proc.communicate()[0]
try:
with open(config_file) as f:
pass
except IOError as e:
print "ERROR: Oh dear... %s does not seem readable" % config_file
sys.exit(2)
try:
config = json.loads(get_config_data())
except:
print "ERROR: Could not load or parse configuration, are PATHs correct?"
sys.exit(2)
poller_path = config['install_dir'] + '/poller.php'
db_username = config['db_user']
db_password = config['db_pass']
db_port = int(config['db_port'])
if config['db_host'][:5].lower() == 'unix:':
db_server = config['db_host']
db_port = 0
elif config['db_socket']:
db_server = config['db_socket']
db_port = 0
else:
db_server = config['db_host']
db_dbname = config['db_name']
def db_open():
try:
if db_port == 0:
db = MySQLdb.connect(host=db_server, user=db_username, passwd=db_password, db=db_dbname)
else:
db = MySQLdb.connect(host=db_server, port=db_port, user=db_username, passwd=db_password, db=db_dbname)
return db
except:
print "ERROR: Could not connect to MySQL database!"
sys.exit(2)
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC1
if 'distributed_poller_group' in config:
poller_group = str(config['distributed_poller_group'])
else:
poller_group = False
def memc_alive():
try:
global memc
key = str(uuid.uuid4())
memc.set('poller.ping.' + key, key, 60)
if memc.get('poller.ping.' + key) == key:
memc.delete('poller.ping.' + key)
return True
else:
return False
except:
return False
def memc_touch(key, time):
try:
global memc
val = memc.get(key)
memc.set(key, val, time)
except:
pass
if ('distributed_poller' in config and
'distributed_poller_memcached_host' in config and
'distributed_poller_memcached_port' in config and
config['distributed_poller']):
try:
import memcache
import uuid
memc = memcache.Client([config['distributed_poller_memcached_host'] + ':' +
str(config['distributed_poller_memcached_port'])])
if str(memc.get("poller.master")) == config['distributed_poller_name']:
print "This system is already joined as the poller master."
sys.exit(2)
if memc_alive():
if memc.get("poller.master") is None:
print "Registered as Master"
memc.set("poller.master", config['distributed_poller_name'], 10)
memc.set("poller.nodes", 0, 300)
IsNode = False
else:
print "Registered as Node joining Master %s" % memc.get("poller.master")
IsNode = True
memc.incr("poller.nodes")
distpoll = True
else:
print "Could not connect to memcached, disabling distributed poller."
distpoll = False
IsNode = False
except SystemExit:
raise
except ImportError:
print "ERROR: missing memcache python module:"
print "On deb systems: apt-get install python-memcache"
print "On other systems: easy_install python-memcached"
print "Disabling distributed poller."
distpoll = False
else:
distpoll = False
# EOC1
s_time = time.time()
real_duration = 0
per_device_duration = {}
polled_devices = 0
"""
Take the amount of threads we want to run in parallel from the commandline
if None are given or the argument was garbage, fall back to default of 16
"""
try:
amount_of_workers = int(sys.argv[1])
if amount_of_workers == 0:
print "ERROR: 0 threads is not a valid value"
sys.exit(2)
except:
amount_of_workers = 16
devices_list = []
"""
This query specificly orders the results depending on the last_polled_timetaken variable
Because this way, we put the devices likely to be slow, in the top of the queue
thus greatening our chances of completing _all_ the work in exactly the time it takes to
poll the slowest device! cool stuff he
"""
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC2
if poller_group is not False:
query = "select device_id from devices where poller_group IN(" + poller_group + ") and disabled = 0 order by last_polled_timetaken desc"
else:
query = "select device_id from devices where disabled = 0 order by last_polled_timetaken desc"
# EOC2
db = db_open()
cursor = db.cursor()
cursor.execute(query)
devices = cursor.fetchall()
for row in devices:
devices_list.append(int(row[0]))
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC3
if distpoll and not IsNode:
query = "select max(device_id),min(device_id) from devices"
cursor.execute(query)
devices = cursor.fetchall()
maxlocks = devices[0][0]
minlocks = devices[0][1]
# EOC3
db.close()
"""
A seperate queue and a single worker for printing information to the screen prevents
the good old joke:
Some people, when confronted with a problem, think,
"I know, I'll use threads," and then two they hav erpoblesms.
"""
def printworker():
nodeso = 0
while True:
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC4
global IsNode
global distpoll
if distpoll:
if not IsNode:
memc_touch('poller.master', 10)
nodes = memc.get('poller.nodes')
if nodes is None and not memc_alive():
print "WARNING: Lost Memcached. Taking over all devices. Nodes will quit shortly."
distpoll = False
nodes = nodeso
if nodes is not nodeso:
print "INFO: %s Node(s) Total" % (nodes)
nodeso = nodes
else:
memc_touch('poller.nodes', 10)
try:
worker_id, device_id, elapsed_time = print_queue.get(False)
except:
pass
try:
time.sleep(1)
except:
pass
continue
else:
worker_id, device_id, elapsed_time = print_queue.get()
# EOC4
global real_duration
global per_device_duration
global polled_devices
real_duration += elapsed_time
per_device_duration[device_id] = elapsed_time
polled_devices += 1
if elapsed_time < 300:
print "INFO: worker %s finished device %s in %s seconds" % (worker_id, device_id, elapsed_time)
else:
print "WARNING: worker %s finished device %s in %s seconds" % (worker_id, device_id, elapsed_time)
print_queue.task_done()
"""
This class will fork off single instances of the poller.php process, record
how long it takes, and push the resulting reports to the printer queue
"""
def poll_worker():
while True:
device_id = poll_queue.get()
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC5
if not distpoll or memc.get('poller.device.' + str(device_id)) is None:
if distpoll:
result = memc.add('poller.device.' + str(device_id), config['distributed_poller_name'], 300)
if not result:
print "This device (%s) appears to be being polled by another poller" % (device_id)
poll_queue.task_done()
continue
if not memc_alive() and IsNode:
print "Lost Memcached, Not polling Device %s as Node. Master will poll it." % device_id
poll_queue.task_done()
continue
# EOC5
try:
start_time = time.time()
command = "/usr/bin/env php %s -h %s >> /dev/null 2>&1" % (poller_path, device_id)
subprocess.check_call(command, shell=True)
elapsed_time = int(time.time() - start_time)
print_queue.put([threading.current_thread().name, device_id, elapsed_time])
except (KeyboardInterrupt, SystemExit):
raise
except:
pass
poll_queue.task_done()
poll_queue = Queue.Queue()
print_queue = Queue.Queue()
print "INFO: starting the poller at %s with %s threads, slowest devices first" % (time.strftime("%Y-%m-%d %H:%M:%S"),
amount_of_workers)
for device_id in devices_list:
poll_queue.put(device_id)
for i in range(amount_of_workers):
t = threading.Thread(target=poll_worker)
t.setDaemon(True)
t.start()
p = threading.Thread(target=printworker)
p.setDaemon(True)
p.start()
try:
poll_queue.join()
print_queue.join()
except (KeyboardInterrupt, SystemExit):
raise
total_time = int(time.time() - s_time)
print "INFO: poller-wrapper polled %s devices in %s seconds with %s workers" % (polled_devices, total_time, amount_of_workers)
# (c) 2015, GPLv3, Daniel Preussker <f0o@devilcode.org> <<<EOC6
if distpoll or memc_alive():
master = memc.get("poller.master")
if master == config['distributed_poller_name'] and not IsNode:
print "Wait for all poller-nodes to finish"
nodes = memc.get("poller.nodes")
while nodes > 0 and nodes is not None:
try:
time.sleep(1)
nodes = memc.get("poller.nodes")
except:
pass
print "Clearing Locks"
x = minlocks
while x <= maxlocks:
memc.delete('poller.device.' + str(x))
x = x + 1
print "%s Locks Cleared" % x
print "Clearing Nodes"
memc.delete("poller.master")
memc.delete("poller.nodes")
else:
memc.decr("poller.nodes")
print "Finished %s." % time.time()
# EOC6
show_stopper = False
db = db_open()
cursor = db.cursor()
query = "update pollers set last_polled=NOW(), devices='%d', time_taken='%d' where poller_name='%s'" % (polled_devices,
total_time, config['distributed_poller_name'])
response = cursor.execute(query)
if response == 1:
db.commit()
else:
query = "insert into pollers set poller_name='%s', last_polled=NOW(), devices='%d', time_taken='%d'" % (
config['distributed_poller_name'], polled_devices, total_time)
cursor.execute(query)
db.commit()
db.close()
if total_time > 300:
print "WARNING: the process took more than 5 minutes to finish, you need faster hardware or more threads"
print "INFO: in sequential style polling the elapsed time would have been: %s seconds" % real_duration
for device in per_device_duration:
if per_device_duration[device] > 300:
print "WARNING: device %s is taking too long: %s seconds" % (device, per_device_duration[device])
show_stopper = True
if show_stopper:
print "ERROR: Some devices are taking more than 300 seconds, the script cannot recommend you what to do."
else:
recommend = int(total_time / 300.0 * amount_of_workers + 1)
print "WARNING: Consider setting a minimum of %d threads. (This does not constitute professional advice!)" % recommend
sys.exit(2)