################################################################################ # Copyright 2005-2013 MERETHIS # Centreon is developped by : Julien Mathis and Romain Le Merlus under # GPL Licence 2.0. # # This program 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 2 of the License. # # This program 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 . # # Linking this program statically or dynamically with other modules is making a # combined work based on this program. Thus, the terms and conditions of the GNU # General Public License cover the whole combination. # # As a special exception, the copyright holders of this program give MERETHIS # permission to link this program with independent modules to produce an executable, # regardless of the license terms of these independent modules, and to copy and # distribute the resulting executable under terms of MERETHIS choice, provided that # MERETHIS also meet, for each linked independent module, the terms and conditions # of the license of that module. An independent module is a module which is not # derived from this program. If you modify this program, you may extend this # exception to your version of the program, but you are not obliged to do so. If you # do not wish to do so, delete this exception statement from your version. # # For more information : contact@centreon.com # Authors : Quentin Garnier # #################################################################################### package network::citrix::netscaler::common::mode::health; use base qw(centreon::plugins::mode); use strict; use warnings; my $oid_nsSysHealthEntry = '.1.3.6.1.4.1.5951.4.1.1.41.7.1'; my $oid_sysHealthCounterName = '.1.3.6.1.4.1.5951.4.1.1.41.7.1.1'; my $oid_sysHealthCounterValue = '.1.3.6.1.4.1.5951.4.1.1.41.7.1.2'; my $thresholds = { psu => [ ['normal', 'OK'], ['not present', 'OK'], ['failed', 'CRITICAL'], ['not supported', 'UNKNOWN'], ], }; my %map_psu_status = ( 0 => 'normal', 1 => 'not present', 2 => 'failed', 3 => 'not supported', ); sub new { my ($class, %options) = @_; my $self = $class->SUPER::new(package => __PACKAGE__, %options); bless $self, $class; $self->{version} = '1.0'; $options{options}->add_options(arguments => { "exclude:s" => { name => 'exclude' }, "component:s" => { name => 'component', default => 'all' }, "no-component:s" => { name => 'no_component' }, "threshold-overload:s@" => { name => 'threshold_overload' }, }); $self->{components} = {}; $self->{no_components} = undef; return $self; } sub check_options { my ($self, %options) = @_; $self->SUPER::init(%options); if (defined($self->{option_results}->{no_component})) { if ($self->{option_results}->{no_component} ne '') { $self->{no_components} = $self->{option_results}->{no_component}; } else { $self->{no_components} = 'critical'; } } $self->{overload_th} = {}; foreach my $val (@{$self->{option_results}->{threshold_overload}}) { if ($val !~ /^(.*?),(.*)$/) { $self->{output}->add_option_msg(short_msg => "Wrong treshold-overload option '" . $val . "'."); $self->{output}->option_exit(); } my ($section, $status, $filter) = ('node', $1, $2); if ($self->{output}->is_litteral_status(status => $status) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong treshold-overload status '" . $val . "'."); $self->{output}->option_exit(); } $self->{overload_th}->{$section} = [] if (!defined($self->{overload_th}->{$section})); push @{$self->{overload_th}->{$section}}, {filter => $filter, status => $status}; } } sub run { my ($self, %options) = @_; # $options{snmp} = snmp object $self->{snmp} = $options{snmp}; $self->{result} = $self->{snmp}->get_table(oid => $oid_nsSysHealthEntry); if ($self->{option_results}->{component} eq 'all') { $self->check_psu(); $self->check_fanspeed(); $self->check_temperature(); $self->check_voltage(); } elsif ($self->{option_results}->{component} eq 'psu') { $self->check_psu(); } elsif ($self->{option_results}->{component} eq 'fanspeed') { $self->check_fanspeed(); } elsif ($self->{option_results}->{component} eq 'temperature') { $self->check_temperature(); } elsif ($self->{option_results}->{component} eq 'voltage') { $self->check_voltage(); } else { $self->{output}->add_option_msg(short_msg => "Wrong option. Cannot find component '" . $self->{option_results}->{component} . "'."); $self->{output}->option_exit(); } my $total_components = 0; my $display_by_component = ''; my $display_by_component_append = ''; foreach my $comp (sort(keys %{$self->{components}})) { # Skipping short msg when no components next if ($self->{components}->{$comp}->{total} == 0 && $self->{components}->{$comp}->{skip} == 0); $total_components += $self->{components}->{$comp}->{total} + $self->{components}->{$comp}->{skip}; my $count_by_components = $self->{components}->{$comp}->{total} + $self->{components}->{$comp}->{skip}; $display_by_component .= $display_by_component_append . $self->{components}->{$comp}->{total} . '/' . $count_by_components . ' ' . $self->{components}->{$comp}->{name}; $display_by_component_append = ', '; } $self->{output}->output_add(severity => 'OK', short_msg => sprintf("All %s components are ok [%s].", $total_components, $display_by_component, ) ); if (defined($self->{option_results}->{no_component}) && $total_components == 0) { $self->{output}->output_add(severity => $self->{no_components}, short_msg => 'No components are checked.'); } $self->{output}->display(); $self->{output}->exit(); } sub check_exclude { my ($self, %options) = @_; if (defined($options{instance})) { if (defined($self->{option_results}->{exclude}) && $self->{option_results}->{exclude} =~ /(^|\s|,)${options{section}}[^,]*#\Q$options{instance}\E#/) { $self->{components}->{$options{section}}->{skip}++; $self->{output}->output_add(long_msg => sprintf("Skipping $options{section} section $options{instance} instance.")); return 1; } } elsif (defined($self->{option_results}->{exclude}) && $self->{option_results}->{exclude} =~ /(^|\s|,)$options{section}(\s|,|$)/) { $self->{output}->output_add(long_msg => sprintf("Skipping $options{section} section.")); return 1; } return 0; } sub get_severity { my ($self, %options) = @_; my $status = 'UNKNOWN'; # default if (defined($self->{overload_th}->{$options{section}})) { foreach (@{$self->{overload_th}->{$options{section}}}) { if ($options{value} =~ /$_->{filter}/i) { $status = $_->{status}; return $status; } } } foreach (@{$thresholds->{$options{section}}}) { if ($options{value} =~ /$$_[0]/i) { $status = $$_[1]; return $status; } } return $status; } sub absent_problem { my ($self, %options) = @_; if (defined($self->{option_results}->{absent}) && $self->{option_results}->{absent} =~ /(^|\s|,)($options{section}(\s*,|$)|${options{section}}[^,]*#\Q$options{instance}\E#)/) { $self->{output}->output_add(severity => 'CRITICAL', short_msg => sprintf("Component '%s' instance '%s' is not present", $options{section}, $options{instance})); return 1; } return 0; } sub check_fanspeed { my ($self) = @_; $self->{output}->output_add(long_msg => "Checking fanspeed"); $self->{components}->{fanspeed} = {name => 'fanspeed', total => 0, skip => 0}; return if ($self->check_exclude(section => 'fanspeed')); foreach my $oid ($self->{snmp}->oid_lex_sort(keys %{$self->{result}})) { next if ($oid !~ /^$oid_sysHealthCounterName\.(.*)$/ || $self->{result}->{$oid} !~ /Speed|Fan/i); my $name = $self->{result}->{$oid}; $oid =~ /^$oid_sysHealthCounterName\.(.*)$/; my $value = $self->{result}->{$oid_sysHealthCounterValue . '.' . $1}; if ($value == 0) { $self->{output}->output_add(long_msg => sprintf("Skipping Fanspeed '%s' (counter is 0)", $name)); next; } next if ($self->check_exclude(section => 'fanspeed', instance => $name)); $self->{components}->{fanspeed}->{total}++; $self->{output}->output_add(long_msg => sprintf("Fan '%s' speed is %s (rpm)", $name, $value)); $self->{output}->perfdata_add(label => "speed_" . $name, unit => 'rpm', value => $value, min => 0); } } sub check_psu { my ($self) = @_; $self->{output}->output_add(long_msg => "Checking power supplies"); $self->{components}->{psu} = {name => 'psus', total => 0, skip => 0}; return if ($self->check_exclude(section => 'psu')); foreach my $oid ($self->{snmp}->oid_lex_sort(keys %{$self->{result}})) { next if ($oid !~ /^$oid_sysHealthCounterName\.(.*)$/ || $self->{result}->{$oid} !~ /PowerSupply(.)FailureStatus/i); my $instance = $1; my $name = $self->{result}->{$oid}; $oid =~ /^$oid_sysHealthCounterName\.(.*)$/; my $value = $self->{result}->{$oid_sysHealthCounterValue . '.' . $1}; next if ($map_psu_status{$value} eq 'not present' && $self->absent_problem(section => 'psu', instance => $instance)); next if ($self->check_exclude(section => 'psu', instance => $instance)); $self->{components}->{psu}->{total}++; $self->{output}->output_add(long_msg => sprintf("Power Supply '%s' status is %s", $instance, $map_psu_status{$value})); my $exit = $self->get_severity(section => 'psu', value => $map_psu_status{$value}); if (!$self->{output}->is_status(value => $exit, compare => 'ok', litteral => 1)) { $self->{output}->output_add(severity => $exit, short_msg => sprintf("Power Supply '%s' status is %s", $instance, $map_psu_status{$value})); } } } sub check_voltage { my ($self) = @_; $self->{output}->output_add(long_msg => "Checking voltages"); $self->{components}->{voltage} = {name => 'voltages', total => 0, skip => 0}; return if ($self->check_exclude(section => 'voltage')); foreach my $oid ($self->{snmp}->oid_lex_sort(keys %{$self->{result}})) { next if ($oid !~ /^$oid_sysHealthCounterName\.(.*)$/ || $self->{result}->{$oid} !~ /Voltage|IntelCPUVttPower/i); my $name = $self->{result}->{$oid}; $oid =~ /^$oid_sysHealthCounterName\.(.*)$/; my $value = $self->{result}->{$oid_sysHealthCounterValue . '.' . $1} / 1000; # in mv if ($value == 0) { $self->{output}->output_add(long_msg => sprintf("Skipping voltage '%s' (counter is 0)", $name)); next; } next if ($self->check_exclude(section => 'voltage', instance => $name)); $self->{components}->{voltage}->{total}++; $self->{output}->output_add(long_msg => sprintf("Voltage '%s' is %.2f V", $name, $value)); $self->{output}->perfdata_add(label => "volt_" . $name, unit => 'V', value => sprintf("%.2f", $value), min => 0); } } sub check_temperature { my ($self) = @_; $self->{output}->output_add(long_msg => "Checking temperatures"); $self->{components}->{temperature} = {name => 'temperatures', total => 0, skip => 0}; return if ($self->check_exclude(section => 'temperature')); foreach my $oid ($self->{snmp}->oid_lex_sort(keys %{$self->{result}})) { next if ($oid !~ /^$oid_sysHealthCounterName\.(.*)$/ || $self->{result}->{$oid} !~ /temperature/i); my $name = $self->{result}->{$oid}; $oid =~ /^$oid_sysHealthCounterName\.(.*)$/; my $value = $self->{result}->{$oid_sysHealthCounterValue . '.' . $1}; # in C if ($value == 0) { $self->{output}->output_add(long_msg => sprintf("Skipping temperature '%s' (counter is 0)", $name)); next; } next if ($self->check_exclude(section => 'temperature', instance => $name)); $self->{components}->{temperature}->{total}++; $self->{output}->output_add(long_msg => sprintf("temperature '%s' is %s C", $name, $value)); $self->{output}->perfdata_add(label => "temp_" . $name, unit => 'C', value => $value, min => 0); } } 1; __END__ =head1 MODE Check System Health Status (temperatures, voltages, power supplies, fanspeed). =over 8 =item B<--component> Which component to check (Default: 'all'). Can be: 'temperature', 'voltage', 'fanspeed', 'psu'. =item B<--exclude> Exclude some parts (comma seperated list) (Example: --exclude=psu) Can also exclude specific instance: --exclude='psu#1#' =item B<--no-component> Return an error if no compenents are checked. If total (with skipped) is 0. (Default: 'critical' returns). =item B<--absent-problem> Return an error if an entity is not 'present' (default is 'ok') (only for psu) Can be specific or global: --exclude=psu#1# =item B<--threshold-overload> Set to overload default threshold values (syntax: status,regexp). It used before default thresholds (order stays) (only for psu). Example: --threshold-overload='CRITICAL,^(?!(normal)$)' =back =cut