#!/usr/bin/python # -*- encoding: utf-8; py-indent-offset: 4 -*- # SpearHead Systems # The BLADE-MIB is somewhat goofy redarding the blower # information. The blowers are listed sequentially # below the same subtrees: # BLADE-MIB::blower1speed.0 = STRING: "50% of maximum" # BLADE-MIB::blower2speed.0 = STRING: "50% of maximum" # BLADE-MIB::blower1State.0 = INTEGER: good(1) # BLADE-MIB::blower2State.0 = INTEGER: good(1) # BLADE-MIB::blowers.20.0 = STRING: "1712" # BLADE-MIB::blowers.21.0 = STRING: "1696" # BLADE-MIB::blowers.30.0 = INTEGER: 0 # BLADE-MIB::blowers.31.0 = INTEGER: 0 # # The same with -On: # .1.3.6.1.4.1.2.3.51.2.2.3.1.0 = STRING: "49% of maximum" # .1.3.6.1.4.1.2.3.51.2.2.3.2.0 = STRING: "No Blower" # .1.3.6.1.4.1.2.3.51.2.2.3.10.0 = INTEGER: good(1) # .1.3.6.1.4.1.2.3.51.2.2.3.11.0 = INTEGER: unknown(0) # .1.3.6.1.4.1.2.3.51.2.2.3.20.0 = STRING: "1696" # .1.3.6.1.4.1.2.3.51.2.2.3.21.0 = STRING: "No Blower" # .1.3.6.1.4.1.2.3.51.2.2.3.30.0 = INTEGER: 0 # .1.3.6.1.4.1.2.3.51.2.2.3.31.0 = INTEGER: 2 # # How can we safely determine the number of blowers without # assuming that each blower has four entries? # We assume that all blowers are in state OK (used for # inventory only) def number_of_flex_blowers(info): n = 0 while len(info) > n and len(info[n][0]) > 1: # state lines n += 1 return n def inventory_flex_blade_blowers(info): inventory = [] n = number_of_flex_blowers(info) for i in range(0, n): if info[i + n][0] != "0": # skip unknown blowers inventory.append( ("%d/%d" % (i+1,n), None, None) ) return inventory def check_flex_blade_blowers(item, _no_params, info): blower, num_flex_blowers = map(int, item.split("/")) text = info[blower-1][0] perfdata = [] output = '' state = info[blower-1 + num_blowers][0] try: rpm = int(info[blower-1 + 2*num_blowers][0]) perfdata += [("rpm", rpm)] output += 'Flex Speed at %d RMP' % rpm except: pass try: perc = int(text.split("%")[0]) perfdata += [("perc", perc, None, None, 0, 100)] if output == '': output += 'Flex Speed is at %d%% of max' % perc else: output += ' (%d%% of max)' % perc except: pass if state == "1": return (0, output, perfdata) else: return (2, output, perfdata) check_info["flex_blade_blowers"] = { 'check_function': check_flex_blade_blowers, 'inventory_function': inventory_flex_blade_blowers, 'service_description': 'IBM Flex Blower %s', 'has_perfdata': True, 'snmp_info': ('.1.3.6.1.4.1.2.3.51.2.2', [3]), 'snmp_scan_function': \ lambda oid: re.match('IBM Flex Chassis Management Module', oid(".1.3.6.1.2.1.1.1.0")) != None, }