#!/usr/bin/python # # Copyright 2010, Pall Sigurdsson # # check_eva.py 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. # # check_eva.py 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 . # About this script # # This script will check the status of all EVA arrays via the sssu binary. # You will need the sssu binary in path (/usr/bin/sssu is a good place) # If you do not have sssu, check your commandview CD, it should have both # binaries for Windows and Linux # # UPDATE HISTORY: # 22 Jul 2015: Alastair Munro: # Disk failures need a Enclosure and Bay location so we can get failed disks easily replaced. Thus # changed objectname to this for disk checks. # Disk checks: include the comments field for the eva, so we can easily log a ticket with HP (we # System check: included comments # include eva serial number and DC cabinet location in here). # If check_system and system specified; drop system name from perf data fields and add Gb. # Turn off perfdata for disk shelves; we don't need to graph how many fc ports it has, etc; these rarely change! # # 17 Mar 2016: Alastair Munro: # No --system in the help; I wanted to add this and only discovered it by looking at the code! # Bring back reporting number of disks checked. # Cleaned up error reporting on failed disks. # Added --option and then noemptybays. All disk shelves should be fully populated with disks and all # shelves have the same number of disks. If a disk fails, it may get evicted and this will catch this. # This is part of the check_disks mode. Report warning if bays not full. # # 04 Apr 2016: Alastair Munro: # notinstalled is not a valid state for fans; especially for disk shelves. Thus alert on this. # check operationalstatedetail is not _ok. Sometimes objects report good but the detail is not _ok (eg _attention). # for disk enclosure, advise enclosure name and state before printing number of sensors, fans, etc. # # 10 May 2016: Alastair Munro: # check_controllers: powersources searching for key status rather than state. Now identifies failed/missing power supplies. # # 20 May 2016: Alastair Munro: # noemptybays not working as expected; tweaked to count disks rather than highest disk. # Some Defaults show_perfdata = True show_longserviceoutput = True debugging = False # check_eva defaults hostname = "localhost" username = "eva" password = "eva1234" mode = "check_systems" path = '' nagios_server = "94.142.154.10" nagios_port = 80 nagios_myhostname = None do_phone_home = False escape_newlines = False check_system = None # By default check all systems proxyserver = None options = None timeout = 0 # 0 means no timeout # set to true, if you do not have sssu binary handy server_side_troubleshooting = False # No real need to change anything below here version = "1.0.1" 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" perfdata = "" valid_modes = ("check_systems", "check_controllers", "check_diskgroups", "check_disks", "check_diskshelfs", "check_diskshelves") from sys import exit from sys import argv from os import getenv, environ import signal import subprocess import xmlrpclib import httplib # we need to set socket default timeout in case we are using the phone-home part import socket socket.setdefaulttimeout(5) def print_help(): print "check_eva version %s" % version print "This plugin checks HP EVA Array with the sssu command" print "" print "Usage: %s [OPTIONS]" % argv[0] print "OPTIONS:" print " [--host ]" print " [--username ]" print " [--password ]" print " [--mode ] " print " [--system ] " print " [--test]" print " [--timeout ]" print " [--options ]" print " [--debug]" print " [--help]" print "" print " Valid modes are: %s" % ', '.join(valid_modes) print " --options are dependant on --mode:" print " noemptybays (check_disks): don't ignore empty bays as a disk may have been removed. Assumes all bays are populated." print "" print "Example: %s --host commandview.example.net --username eva --password myPassword --mode check_systems" % (argv[0]) def error(errortext): print "* Error: %s" % errortext print_help() print "* Error: %s" % errortext exit(unknown) def debug(debugtext): global debugging if debugging: print debugtext # 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 == '--timeout': timeout = int(arguments.pop(0)) elif arg == '--path': path = arguments.pop(0) + '/' elif arg == '-M' or arg == '--mode': mode = arguments.pop(0) if mode not in valid_modes: error("Invalid --mode %s" % arg) elif arg == '-d' or arg == '--debug': debugging = True elif arg == '--longserviceoutput': show_longserviceoutput = True elif arg == '--no-longserviceoutput': show_longserviceoutput = False elif arg == '--perfdata': show_perfdata = True elif arg == '--no-perfdata': show_perfdata = False elif arg == '--nagios_myhostname': nagios_myhostname = arguments.pop(0) elif arg == '--nagios_server': nagios_server = arguments.pop(0) elif arg == '--nagios_port': nagios_port = arguments.pop(0) elif arg == '--system': check_system = arguments.pop(0) elif arg == '--phone-home': do_phone_home = True elif arg == '--proxy': proxyserver = arguments.pop(0) elif arg == '--escape-newlines': escape_newlines = True elif arg == '--options': options = arguments.pop(0) elif arg == '-h' or arg == '--help': print_help() exit(ok) else: error("Invalid argument %s" % arg) subitems = {} subitems['fan'] = 'fans' subitems['source'] = 'powersources' subitems['hostport'] = 'hostports' subitems['module'] = 'modules' subitems['sensor'] = 'sensors' subitems['powersupply'] = 'powersupplies' subitems['bus'] = 'communicationbuses' subitems['port'] = 'fibrechannelports' def runCommand(command): """ runCommand: Runs command from the shell prompt. Exit Nagios style if unsuccessful """ 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 "Error %s: %s\n command was: '%s'" % (proc.returncode, stderr.strip(), command) # File not found, lets print path if proc.returncode == 127 or proc.returncode == 1: path = getenv("PATH") print "Current Path: %s" % path exit(unknown) else: return stdout def run_sssu(system=None, command="ls system full"): """Runs the sssu command. This one is responsible for error checking from sssu""" 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 is not None: commands.append('select SYSTEM "%s"' % system) commands.append(command) commandstring = "sssu " for i in commands: commandstring += '"%s" ' % i global server_side_troubleshooting if server_side_troubleshooting == True: commandstring = 'cat "debug/%s"' % command # 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 = runCommand(commandstring) debug(commandstring) 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).strip() != '': error = 1 if output.pop(0).strip() != '': error = 2 if output.pop(0).strip().find('SSSU for HP') != 0: error = 3 if output.pop(0).strip().find('Version:') != 0: error = 4 if output.pop(0).strip().find('Build:') != 0: error = 5 if output.pop(0).strip().find('NoSystemSelected> ') != 0: error = 6 #if output.pop(0).strip() != '': error = 1 #if output.pop(0).strip().find('NoSystemSelected> ') != 0: error=1 #if output.pop(0).strip() != '': error = 1 str_buffer = "" for i in output: str_buffer = str_buffer + i + "\n" if i.find('Error') > -1: print "This is the command i was trying to execute: %s" % i error = 1 if i.find('information:') > 0: break if error > 0: print "Error running the sssu command: " + str(error) print commandstring print str_buffer exit(unknown) objects = [] current_object = None for line in output: if len(line) == 0: continue line = line.strip() tmp = line.split() if len(tmp) == 0: if current_object: if not current_object['master'] in objects: objects.append(current_object['master']) current_object = None continue key = tmp[0].strip() if current_object and not current_object['master'] in objects: objects.append(current_object['master']) if key == 'object': current_object = {} current_object['master'] = current_object if key == 'controllertemperaturestatus': current_object = current_object['master'] if key == 'iomodules': key = 'modules' # if key in subitems.values(): # object['master'][key] = [] if key in subitems.keys(): mastergroup = subitems[key] master = current_object['master'] current_object = {} current_object['object_type'] = key current_object['master'] = master if not current_object['master'].has_key(mastergroup): current_object['master'][mastergroup] = [] current_object['master'][mastergroup].append(current_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 current_object.has_key(key): value = ' '.join(tmp[2:]).strip() current_object[key] = value # Check if we were instructed to check only one eva system global check_system if command == "ls system full" and check_system is not None: tmp_objects = [] for i in objects: if i['objectname'] == check_system: tmp_objects.append(i) objects = tmp_objects return objects def end(summary, perfdata, longserviceoutput, nagios_state): global show_longserviceoutput global show_perfdata global nagios_server global do_phone_home global nagios_port global nagios_myhostname global hostname global mode global escape_newlines global check_system message = "%s - %s" % (state[nagios_state], summary) if show_perfdata: message = "%s | %s" % (message, perfdata) if show_longserviceoutput: message = "%s\n%s" % (message, longserviceoutput.strip()) if escape_newlines == True: lines = message.split('\n') message = '\\n'.join(lines) debug("do_phone_home = %s" % do_phone_home) if do_phone_home == True: try: if nagios_myhostname is None: if environ.has_key('HOSTNAME'): nagios_myhostname = environ['HOSTNAME'] elif environ.has_key('COMPUTERNAME'): nagios_myhostname = environ['COMPUTERNAME'] else: nagios_myhostname = hostname try: phone_home(nagios_server, nagios_port, status=nagios_state, message=message, hostname=nagios_myhostname, servicename=mode, system=check_system ) except Exception: pass except: raise print message exit(nagios_state) class ProxiedTransport(xmlrpclib.Transport): def set_proxy(self, proxy): self.proxy = proxy def make_connection(self, host): self.realhost = host h = httplib.HTTP(self.proxy) return h def send_request(self, connection, handler, request_body): connection.putrequest("POST", 'http://%s%s' % (self.realhost, handler)) def send_host(self, connection, host): connection.putheader('Host', self.realhost) def phone_home(nagios_server, nagios_port, status, message, hostname=None, servicename=None, system=None): """phone_home: Sends results to remote nagios server via python xml-rpc""" debug("phoning home: %s" % servicename) if system is not None: servicename = str(servicename) + str(system) uri = "http://%s:%s" % (nagios_server, nagios_port) global proxyserver if proxyserver is not None: p = ProxiedTransport() p.set_proxy(proxyserver) s = xmlrpclib.Server(uri, transport=p) else: s = xmlrpclib.ServerProxy(uri) s.nagiosupdate(hostname, servicename, status, message) return 0 def check_systems(): 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 += " %s=%s " % (name, operationalstate) # Collect the performance data interesting_perfdata = 'totalstoragespace|usedstoragespace|availablestoragespace' perfdata += get_perfdata( i, interesting_perfdata.split('|'), identifier="%s_" % name) # Collect extra info for longserviceoutput longoutput("%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('|'): longoutput("- %s = %s \n" % (x, i[x])) longoutput("\n") end(summary, perfdata, longserviceoutput, nagios_state) def get_perfdata(my_object, interesting_fields, identifier=""): perfdata = "" for i in interesting_fields: if i == '': continue perfdata += "'%s%s'=%s " % (identifier, i, my_object[i]) return perfdata def add_perfdata(text): global perfdata text = text.strip() perfdata += " %s " % text def longoutput(text): global longserviceoutput longserviceoutput = longserviceoutput + text def get_longserviceoutput(my_object, interesting_fields): longserviceoutput = "" for i in interesting_fields: longserviceoutput += "%s = %s \n" % (i, my_object[i]) return longserviceoutput def check_operationalstate(my_object, print_failed_objects=False, namefield='objectname', detailfield='operationalstatedetail', statefield='operationalstate', valid_states=None): if not valid_states: valid_states = ['good'] if not my_object.has_key(detailfield): detailfield = statefield if not my_object.has_key(statefield): if print_failed_objects: longoutput("- Warning, %s does not have any '%s'" % (my_object[namefield], statefield)) return warning if my_object[statefield] not in valid_states: if print_failed_objects: longoutput("- Warning, %s=%s (%s)\n" % (my_object[namefield], my_object['operationalstate'], my_object[detailfield])) return warning debug("OK, %s=%s (%s)\n" % (my_object[namefield], my_object['operationalstate'], my_object[detailfield])) return ok # Count no. disks per shelf: # Count no disks per shelf; highest value is number to expect per shelf. # Report any shelves not equal to highest value. # An oddity is that there may be a gap in the numbering! # def check_numdisks_pershelf(disk,systemname): rtn={} rtn['systemname']=systemname rtn['state']=0 rtn['text']=None bay={} for x in disk: s=x['shelfnumber'] b=int(x['diskbaynumber']) bay.setdefault(s, 0) bay[s] += 1 maxdisk=max(bay.values()) ns=len(bay) for k in sorted(bay, key=int): if bay[k] < maxdisk: if rtn['text'] is None: rtn['state']=1 rtn['text']="\n%s: Failed disk/s? Some of the %d shelves have < %d disks: shelf%s=%d" % ( systemname, ns, maxdisk, k, bay[k]) else: rtn['text']+=", shelf%s=%d" % ( k, bay[k]) if rtn['text'] is None: rtn['text']="\n%s: All %d disk shelves have %d disks each." % (systemname, ns, maxdisk) else: rtn['text']+="." rtn['text']+="\n" return rtn def check_generic(command="ls disk full", namefield="objectname", perfdata_fields=None, longserviceoutputfields=None, detailedsummary=False): if not perfdata_fields: perfdata_fields = [] if not longserviceoutputfields: longserviceoutputfields = [] global perfdata global options nagios_state = ok systems = run_sssu() objects = [] if command == 'ls system full': objects = systems for i in systems: i['systemname'] = '' # i['objectname'] else: for i in systems: result = run_sssu(system=i['objectname'], command=command) if options == "noemptybays": shelves=check_numdisks_pershelf(result,i['objectname']) nagios_state = max(shelves['state'], nagios_state) longoutput(shelves['text']) for x in result: x['systemname'] = i['objectname'] x['comments'] = i['comments'] objects.append(x) summary = "%s objects " % len(objects) #print objects # debug usedstoragespacegb = 0 occupancyalarmlvel = 0 warninggb = 0 for i in objects: systemname = i['systemname'] # Some versions of commandview use "objectname" instead of namefield if i.has_key(namefield): objectname = i[namefield] else: objectname = i['objectname'] if command == "ls disk full": encbay = "Enc%s_Bay%s" % (i['shelfnumber'], i['diskbaynumber'] ) # Some versions of CV also return garbage objects, luckily it is easy # to find these if i.has_key('objecttype') and i['objecttype'] == 'typenotset': longoutput( "Object %s was skipped because objecttype == typenotset\n" % objectname) continue # Lets see if this object is working nagios_state = max(check_operationalstate(i), nagios_state) if command == "ls diskshelf full": longoutput("%s/%s=%s (%s)\n" % (systemname, objectname, i['operationalstate'], i['operationalstatedetail'])) # Lets add to the summary #if i['operationalstate'] != 'good' or detailedsummary == True: if i['operationalstate'] != 'good' or detailedsummary == True or not '_ok' in i['operationalstatedetail']: if command == "ls disk full": summary += " %s/%s (eva_comment=%s)=%s (%s)" % ( systemname, encbay, i['comments'], i['operationalstate'], i['operationalstatedetail']) else: if i['operationalstate'] == "good": summary += " %s/%s=%s" % ( systemname, objectname, i['operationalstatedetail']) else: summary += " %s/%s=%s (%s)" % ( systemname, objectname, i['operationalstate'],i['operationalstatedetail']) if not '_ok' in i['operationalstatedetail']: nagios_state = max(warning, nagios_state) # Lets get some perfdata if check_system is not None: identifier = "%s_" % objectname else: identifier = "%s/%s_" % (systemname, objectname) i['identifier'] = identifier for field in perfdata_fields: if field == '': continue if command == 'ls system full' and check_system != None: add_perfdata("'%s'=%sGb " % (field, i.get(field, None))) else: add_perfdata("'%s%s'=%s " % (identifier, field, i.get(field, None))) # Disk group gets a special perfdata treatment if command == "ls disk_group full": totalstoragespacegb = float(i['totalstoragespacegb']) usedstoragespacegb = float(i['usedstoragespacegb']) occupancyalarmlvel = float(i['occupancyalarmlevel']) warninggb = totalstoragespacegb * occupancyalarmlvel / 100 add_perfdata(" '%sdiskusage'=%s;%s;%s " % (identifier, usedstoragespacegb, warninggb, totalstoragespacegb)) # Long Serviceoutput if command == "ls disk full": longoutput("\n%s/%s (%s)=%s (%s)\n" % (systemname, objectname, encbay, i['operationalstate'], i['operationalstatedetail'])) #(systemname, objectname, i['operationalstate'], i['operationalstatedetail'])) # If diskgroup has a problem because it is over allocated. Lets inform # about that if command == "ls disk_group full" and usedstoragespacegb > warninggb: longoutput( "- %s - diskgroup usage is over %s%% threshold !\n" % (state[warning], occupancyalarmlvel)) # If a disk has a problem, lets display some extra info on it elif command == "ls disk full" and i['operationalstate'] != 'good': longoutput("Issues on this drive. Further details:\n") #longoutput("Warning - %s/%s=%s (%s)\n" % #(systemname, encbay, i['operationalstate'], i['operationalstatedetail'])) #fields = "objectname modelnumber firmwareversion serialnumber failurepredicted diskdrivetype shelfnumber diskbaynumber comments".split( fields = "modelnumber firmwareversion serialnumber failurepredicted diskdrivetype shelfnumber diskbaynumber comments".split( ) for field in fields: longoutput("- %s = %s\n" % (field, i[field])) nagios_state = max(nagios_state, check_multiple_objects(i, 'sensors')) nagios_state = max(nagios_state, check_multiple_objects(i, 'fans')) nagios_state = max( nagios_state, check_multiple_objects(i, 'powersupplies')) nagios_state = max( nagios_state, check_multiple_objects(i, 'communicationbuses')) nagios_state = max( nagios_state, check_multiple_objects(i, 'fibrechannelports')) nagios_state = max(nagios_state, check_multiple_objects(i, 'modules')) for x in longserviceoutputfields: if i.has_key(x): longoutput("- %s = %s\n" % (x, i[x])) end(summary, perfdata, longserviceoutput, nagios_state) def check_multiple_objects(my_object, name): item_status = not_present if my_object.has_key(name): item_status = not_present valid_states = ['good'] namefield = "name" detailfield = 'operationalstatedetail' #if name == 'fans' or name == 'sensors': if name == 'sensors': valid_states = [ 'good', 'notavailable', 'unsupported', 'notinstalled'] elif name == 'fans': valid_states = [ 'good', 'notavailable', 'unsupported'] elif name == 'fibrechannelports': valid_states.append('notinstalled') num_items = len(my_object[name]) for item in my_object[name]: stat = check_operationalstate( item, print_failed_objects=True, namefield=namefield, valid_states=valid_states, detailfield=detailfield) item_status = max(stat, item_status) longoutput('- %s on %s (%s detected)\n' % (state[item_status], name, num_items)) add_perfdata(" '%s%s'=%s" % (my_object['identifier'], name, num_items)) return item_status def check_controllers(): perfdata = "" # longserviceoutput="\n" nagios_state = ok systems = run_sssu() controllers = [] for i in systems: result = run_sssu(system=i['objectname'], command="ls controller full") for controller in result: controller['systemname'] = i['objectname'] controllers.append(controller) summary = "%s objects " % len(controllers) for i in controllers: systemname = i['systemname'] if i.has_key('controllername'): controllername = i['controllername'] else: controllername = i['objectname'] # Lets see if this controller is working nagios_state = max(check_operationalstate(i), nagios_state) # Lets add to the summary if not i.has_key('operationalstate'): summary += " %s does not have any operationalstate " % controllername nagios_state = max(unknown, nagios_state) continue elif i['operationalstate'] != 'good': summary += " %s/%s=%s " % ( systemname, controllername, i['operationalstate']) # Lets get some perfdata interesting_fields = "controllermainmemory" identifier = "%s/%s_" % (systemname, controllername) perfdata += get_perfdata( i, interesting_fields.split('|'), identifier=identifier) # Long Serviceoutput #longserviceoutput = longserviceoutput + get_longserviceoutput(i, interesting_fields.split('|') ) #longserviceoutput = longserviceoutput + "\n%s/%s\n"%(systemname,controllername) longoutput("\n%s/%s = %s (%s)\n" % (systemname, controllername, i['operationalstate'], i['operationalstatedetail'])) longoutput("- firmwareversion = %s \n" % (i['firmwareversion'])) longoutput("- serialnumber = %s \n" % (i['serialnumber'])) controllertemperaturestatus = 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.has_key("controllertemperaturestatus"): 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, hostportstate) message = "Hostport %s state = %s\n" % ( hostport['portname'], hostport['operationalstate']) longoutput(message) if i.has_key('fans'): for fan in i['fans']: fanstate = max(fanstate, ok) #long(" %s = %s\n" % (fan['fanname'], fan['status'])) if fan.has_key('status'): status = fan['status'] elif fan.has_key('installstatus'): status = fan['installstatus'] if status != 'normal' and status != 'yes': fanstate = max(warning, fanstate) longoutput("Fan %s status = %s\n" % (fan['fanname'], status)) if i.has_key('powersources'): for source in i['powersources']: source_state = max(source_state, ok) #if not source.has_key('status'): # Should be state not status if not source.has_key('state'): continue if source['state'] != 'good': source_state = max(warning, source_state) longoutput("Powersource %s state = %s\n" % (source['type'], source['state'])) if i.has_key('modules'): 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) longoutput("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) longoutput("- %s on fans\n" % (state[fanstate])) longoutput("- %s on cachememory\n" % (state[cache_state])) longoutput("- %s on temperature\n" % (state[controllertemperaturestatus])) longoutput("- %s on hostports\n" % (state[hostportstate])) longoutput("- %s on sensors\n" % (state[sensorstate])) longoutput("- %s on powersupplies\n" % (state[source_state])) longoutput("- %s on batterymodules\n" % (state[module_state])) longoutput('\n') end(summary, perfdata, longserviceoutput, nagios_state) def set_path(): global path current_path = getenv('PATH') if path == '': if current_path.find('C:\\') > -1: # We are on this platform path = ";C:\\Program Files\\Hewlett-Packard\\Sanworks\\Element Manager for StorageWorks HSV" else: path = ":/usr/local/bin" current_path = "%s%s" % (current_path, path) environ['PATH'] = current_path set_path() # Create an alarm so that plugin can exit properly if timeout occurs exit_with_timeout = lambda x, y: error("Timeout of %s seconds exceeded" % timeout) signal.signal(signal.SIGALRM, exit_with_timeout) signal.alarm(timeout) if mode == 'check_systems': perfdata_fields = 'totalstoragespace usedstoragespace availablestoragespace'.split( ) longserviceoutputfields = 'comments licensestate systemtype firmwareversion nscfwversion totalstoragespace usedstoragespace availablestoragespace'.split( ) command = "ls system full" namefield = "objectname" check_generic(command=command, namefield=namefield, longserviceoutputfields=longserviceoutputfields, perfdata_fields=perfdata_fields) elif mode == 'check_controllers': check_controllers() elif mode == 'check_diskgroups': command = "ls disk_group full" namefield = 'diskgroupname' longserviceoutputfields = "totaldisks levelingstate levelingprogress totalstoragespacegb usedstoragespacegb occupancyalarmlevel".split( ) perfdata_fields = "totaldisks".split() check_generic(command=command, namefield=namefield, longserviceoutputfields=longserviceoutputfields, perfdata_fields=perfdata_fields) elif mode == 'check_disks': check_generic(command="ls disk full", namefield="objectname") elif mode == 'check_diskshelfs' or mode == 'check_diskshelves': show_perfdata = False # Ideally should fixed the code; but this does the trick! check_generic(command="ls diskshelf full", namefield="diskshelfname", longserviceoutputfields=[], perfdata_fields=[]) else: print "* Error: Mode %s not found" % mode print_help() print "* Error: Mode %s not found" % mode exit(unknown)