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check_eva python port alpha

This commit is contained in:
Páll Guðjón Sigurðsson 2010-09-01 15:53:28 +00:00
parent b939b94d62
commit ca1bf43dc8

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#!/usr/bin/python
# First some defaults
hostname="evahost"
username="eva"
password="eval1234"
mode="check_system"
# No real need to change anything below here
version="1.0"
ok=0
warning=1
critical=2
unknown=3
not_present = -1
state = {}
state[not_present] = "Not Present"
state[ok] = "OK"
state[warning] = "Warning"
state[critical] = "Critical"
state[unknown] = "Unknown"
longserviceoutput="\n"
valid_modes = ( "check_system", "check_controllers", "check_diskgroups")
from sys import exit
from sys import argv
import subprocess
def print_help():
print "check_eva version %s" % version
print "This plugin of HP EVA Array with the sssu command"
print ""
print "Usage: %s [OPTIONS]" % argv[0]
print "OPTIONS:"
print " [--host <host>]"
print " [--username <user>]"
print " [--password <password]"
print " [--mode <mode>] "
print " [--test]"
print " [--help]"
print ""
print " Valid modes are: %s" % ', '.join(valid_modes)
def error(errortext):
print "* Error: %s" % errortext
print_help()
print "* Error: %s" % errortext
exit(unknown)
# parse arguments
arguments=argv[1:]
while len(arguments) > 0:
arg=arguments.pop(0)
if arg == 'invalid':
pass
elif arg == '-H' or arg == '--host':
hostname=arguments.pop(0)
elif arg == '-U' or arg == '--username':
username=arguments.pop(0)
elif arg == '-P' or arg == '--password':
password = arguments.pop(0)
elif arg == '-T' or arg == '--test':
testmode=1
elif arg == '-M' or arg == '--mode':
mode=arguments.pop(0)
if mode not in valid_modes:
error("Invalid --mode %s" % arg)
elif arg == '-h' or '--help':
print_help()
exit(ok)
else:
print "testasdasd"
error( "Invalid argument %s"% arg)
subitems = {}
subitems['fan'] = 'fans'
subitems['source'] = 'powersources'
subitems['hostport'] = 'hostports'
subitems['module'] = 'modules'
subitems['sensor'] = 'sensors'
'''runCommand: Runs command from the shell prompt. Exit Nagios style if unsuccessful'''
def runCommand(command):
proc = subprocess.Popen(command, shell=True, stdout=subprocess.PIPE,stderr=subprocess.PIPE,)
stdout, stderr = proc.communicate('through stdin to stdout')
if proc.returncode > 0:
print "Errorcode %s on command '%s' (%s)" % (proc.returncode,command, stderr.strip())
#print stderr, stdout
exit(unknown)
else:
return stdout
'''Runs the sssu command. This one is responsible for error checking from sssu'''
def run_sssu(system=None, command="ls system full"):
commands = []
continue_on_error="set option on_error=continue"
login="select manager %s USERNAME=%s PASSWORD=%s"%(hostname,username,password)
commands.append(continue_on_error)
commands.append(login)
if system != None:
commands.append("select SYSTEM %s" % system)
commands.append(command)
commandstring = "sssu "
for i in commands: commandstring = commandstring + '"%s" '% i
#print mystring
if command == "ls system full":
output = runCommand("cat sssu.out")
elif command == "ls disk_groups full":
output = runCommand("cat ls_disk*")
elif command == "ls controller full":
output = runCommand("cat ls_controller")
else:
print "What command is this?", command
exit(unknown)
output = output.split('\n')
# Lets process the top few results from the sssu command. Make sure the results make sense
error = 0
if output.pop(0) != '': error = 1
if output.pop(0) != '': error = 1
if output.pop(0) != 'SSSU for HP StorageWorks Command View EVA': error = 1
if output.pop(0).find('Version:') != 0: error=1
if output.pop(0).find('Build:') != 0: error=1
if output.pop(0).find('NoSystemSelected> ') != 0: error=1
if output.pop(0) != '': error = 1
if output.pop(0).find('NoSystemSelected> ') != 0: error=1
if output.pop(0) != '': error = 1
buffer = ""
for i in output:
buffer = buffer + i + "\n"
if i.find('error') > -1:
print "Error running sssu command: %s" % i
error = 1
if i.find('information:') > 0: break
if error > 0:
print "Error running the sssu command"
print commandstring
print buffer
exit(unknown)
objects = []
object = None
parent_object = None
for line in output:
if len(line) == 0:
continue
line = line.strip()
tmp = line.split()
if len(tmp) == 0:
if object:
if not object['master'] in objects: objects.append( object['master'] )
object = None
continue
key = tmp[0].strip()
if object and not object['master'] in objects: objects.append( object['master'] )
if key == 'object':
object = {}
object['master'] = object
if key == 'controllertemperaturestatus':
object = object['master']
if key in subitems.values():
object['master'][key] = []
if key in subitems.keys():
mastergroup = subitems[key]
master = object['master']
object = {}
object['object_type'] = key
object['master'] = master
object['master'][mastergroup].append(object)
if line.find('.:') > 0:
# We work on first come, first serve basis, so if
# we accidentally see same key again, we will ignore
if not object.has_key(key):
value = ' '.join( tmp[2:] ).strip()
object[key] = value
#for i in objects:
# print i['objectname']
return objects
def end(summary,perfdata,longserviceoutput,nagios_state):
print "%s - %s | %s" % (state[nagios_state], summary,perfdata)
print longserviceoutput
exit(nagios_state)
def check_system():
summary=""
perfdata=""
#longserviceoutput="\n"
nagios_state = ok
objects = run_sssu()
for i in objects:
name = i['objectname']
operationalstate = i['operationalstate']
# Lets see if this array is working
if operationalstate != 'good':
nagios_state = max(nagios_state, warning)
# Lets add to the summary
summary = summary + " %s=%s " %(name, operationalstate)
# Collect the performance data
interesting_perfdata = 'totalstoragespace|usedstoragespace|availablestoragespace'
perfdata = perfdata + get_perfdata(i,interesting_perfdata.split('|'), identifier="%s_"% name)
# Collect extra info for longserviceoutput
long("%s = %s (%s)\n" % ( i['objectname'], i['operationalstate'], i['operationalstatedetail']) )
interesting_fields = 'licensestate|systemtype|firmwareversion|nscfwversion|totalstoragespace|usedstoragespace|availablestoragespace'
for x in interesting_fields.split('|'):
long( " %s = %s \n" %(x, i[x]) )
long("\n")
end(summary,perfdata,longserviceoutput,nagios_state)
def get_perfdata(object, interesting_fields, identifier=""):
perfdata = ""
for i in interesting_fields:
if i == '': continue
perfdata = perfdata + "'%s%s'=%s " % (identifier, i, object[i])
return perfdata
def long(text):
global longserviceoutput
longserviceoutput = longserviceoutput + text
def get_longserviceoutput(object, interesting_fields):
longserviceoutput = ""
for i in interesting_fields:
longserviceoutput = longserviceoutput + "%s = %s \n" %(i, object[i])
return longserviceoutput
def check_operationalstate(object):
if object['operationalstate'] != 'good':
return warning
return ok
def check_diskgroups():
summary=""
perfdata=""
nagios_state = ok
systems = run_sssu()
objects = []
for i in systems:
result = run_sssu(system=i['name'], command="ls disk_groups full")
for x in result:
x['systemname'] = i['objectname']
objects.append( x )
for i in objects:
systemname = i['systemname']
objectname = i['diskgroupname']
# Lets see if this object is working
nagios_state = max( check_operationalstate(i), nagios_state )
# Lets add to the summary
summary = summary + " %s/%s is %s " %(systemname,objectname, i['operationalstate'])
# Lets get some perfdata
interesting_fields = "totaldisks|totalstoragespacegb|usedstoragespacegb|occupancyalarmlevel"
identifier = "%s/%s" % (systemname,objectname)
perfdata = perfdata + get_perfdata(i, interesting_fields.split('|'), identifier=identifier)
# Long Serviceoutput
interesting_fields = "totaldisks levelingstate levelingprogress totalstoragespacegb usedstoragespacegb occupancyalarmlevel"
long( "\n%s/%s = %s (%s)\n"%(systemname,objectname,i['operationalstate'], i['operationalstatedetail']) )
for x in interesting_fields.split():
long( " %s = %s\n" % (x, i[x]))
end(summary,perfdata,longserviceoutput,nagios_state)
def check_controllers():
summary=""
perfdata=""
#longserviceoutput="\n"
nagios_state = ok
systems = run_sssu()
controllers =[]
for i in systems:
result = run_sssu(system=i['name'], command="ls controller full")
for controller in result:
controller['systemname'] = i['objectname']
controllers.append( controller )
for i in controllers:
systemname = i['systemname']
controllername = i['controllername']
# Lets see if this controller is working
nagios_state = max( check_operationalstate(i), nagios_state )
# Lets add to the summary
summary = summary + " %s/%s is %s " %(systemname,controllername, i['operationalstate'])
# Lets get some perfdata
interesting_fields = "controllermainmemory"
identifier = "%s/%s" % (systemname,controllername)
perfdata = perfdata + get_perfdata(i, interesting_fields.split('|'), identifier=identifier)
# Long Serviceoutput
interesting_fields = "operationalstate|operationalstatedetail|firmwareversion|serialnumber"
#longserviceoutput = longserviceoutput + get_longserviceoutput(i, interesting_fields.split('|') )
#longserviceoutput = longserviceoutput + "\n%s/%s\n"%(systemname,controllername)
long( "\n%s/%s = %s (%s)\n"%(systemname,controllername,i['operationalstate'], i['operationalstatedetail']) )
long( " firmwareversion = %s \n" %(i['firmwareversion']))
long( " serialnumber = %s \n" %(i['serialnumber']))
controllertemperaturestatus = not_present
cache_state = not_present
fanstate = not_present
hostportstate = not_present
sensorstate = ok
source_state = not_present
module_state = not_present
# Check the cache status
if i['cachecondition'] == 'good':
cache_state = ok
else:
cache_state = warning
# Check Temperature
if i['controllertemperaturestatus'] == 'normal':
controllertemperaturestatus = ok
else:
controllertemperaturestatus = warning
# Process the subsensors
for hostport in i['hostports']:
#long(" %s = %s\n" % (hostport['portname'], hostport['operationalstate']))
hostportstate = max(hostportstate,ok)
if hostport['operationalstate'] != 'good':
hostportstate = max(warning,hostport_state)
long("Hostport %s state = %s\n" % hostport['portname'], hostport['operationalstate'])
for fan in i['fans']:
fanstate = max(fanstate,ok)
#long(" %s = %s\n" % (fan['fanname'], fan['status']))
if fan['status'] != 'normal':
fanstate = max(warning,fanstate)
long("Fan %s status = %s\n" % (fan['fanname'],fan['status']))
for source in i['powersources']:
source_state = max(source_state,ok)
if source['state'] != 'good':
source_state = max(warning,source_state)
long("Powersource %s status = %s\n" % (source['type'],source['state']))
for module in i['modules']:
module_state = max(module_state,ok)
if module['operationalstate'] not in ('good','not_present'):
module_state = max(warning,module_state)
long("Battery Module %s status = %s\n" % (module['name'],module['operationalstate']))
for i in (fanstate,hostportstate,sensorstate,source_state,module_state,cache_state,controllertemperaturestatus):
nagios_state = max(nagios_state, i)
long(" %s on fans\n"%( state[fanstate] ) )
long(" %s on cachememory\n"%( state[cache_state] ) )
long(" %s on temperature\n"%( state[controllertemperaturestatus] ) )
long(" %s on hostports\n"%( state[hostportstate] ) )
long(" %s on sensors\n"%( state[sensorstate] ) )
long(" %s on powersupplies\n"%( state[source_state] ) )
long(" %s on batterymodules\n"%( state[module_state] ) )
long('\n')
end(summary,perfdata,longserviceoutput,nagios_state)
if mode == 'check_system':
check_system()
elif mode == 'check_controllers':
check_controllers()
elif mode == 'check_diskgroups':
check_diskgroups()
else:
print "* Error: Mode %s not found" % mode
print_help()
print "* Error: Mode %s not found" % mode
exit(unknown)