# # Copyright 2019 Centreon (http://www.centreon.com/) # # Centreon is a full-fledged industry-strength solution that meets # the needs in IT infrastructure and application monitoring for # service performance. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # package apps::proxmox::ve::restapi::mode::nodeusage; use base qw(centreon::plugins::templates::counter); use strict; use warnings; use Digest::MD5 qw(md5_hex); use centreon::plugins::templates::catalog_functions qw(catalog_status_threshold); sub custom_status_output { my ($self, %options) = @_; my $msg = 'state : ' . $self->{result_values}->{state}; return $msg; } sub custom_status_calc { my ($self, %options) = @_; $self->{result_values}->{state} = $options{new_datas}->{$self->{instance} . '_state'}; $self->{result_values}->{name} = $options{new_datas}->{$self->{instance} . '_name'}; return 0; } sub custom_cpu_calc { my ($self, %options) = @_; my $delta_cpu_total = $options{new_datas}->{$self->{instance} . '_cpu_total_usage'} - $options{old_datas}->{$self->{instance} . '_cpu_total_usage'}; $self->{result_values}->{prct_cpu} = (($delta_cpu_total) * 100); $self->{result_values}->{display} = $options{new_datas}->{$self->{instance} . '_display'}; return 0; } sub custom_memory_perfdata { my ($self, %options) = @_; $self->{output}->perfdata_add( label => 'memory_used', unit => 'B', instances => $self->use_instances(extra_instance => $options{extra_instance}) ? $self->{result_values}->{display} : undef, value => $self->{result_values}->{used}, warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), min => 0, max => $self->{result_values}->{total} ); } sub custom_memory_threshold { my ($self, %options) = @_; my $exit = $self->{perfdata}->threshold_check(value => $self->{result_values}->{prct_used}, threshold => [ { label => 'critical-' . $self->{thlabel}, exit_litteral => 'critical' }, { label => 'warning-' . $self->{thlabel}, exit_litteral => 'warning' } ]); return $exit; } sub custom_memory_output { my ($self, %options) = @_; my ($total_size_value, $total_size_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{total}); my ($total_used_value, $total_used_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{used}); my ($total_free_value, $total_free_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{free}); my $msg = sprintf("Memory Total: %s Used: %s (%.2f%%) Free: %s (%.2f%%)", $total_size_value . " " . $total_size_unit, $total_used_value . " " . $total_used_unit, $self->{result_values}->{prct_used}, $total_free_value . " " . $total_free_unit, $self->{result_values}->{prct_free}); return $msg; } sub custom_memory_calc { my ($self, %options) = @_; $self->{result_values}->{display} = $options{new_datas}->{$self->{instance} . '_display'}; $self->{result_values}->{total} = $options{new_datas}->{$self->{instance} . '_memory_total'}; $self->{result_values}->{used} = $options{new_datas}->{$self->{instance} . '_memory_usage'}; $self->{result_values}->{free} = $self->{result_values}->{total} - $self->{result_values}->{used}; $self->{result_values}->{prct_free} = $self->{result_values}->{free} * 100 / $self->{result_values}->{total}; $self->{result_values}->{prct_used} = $self->{result_values}->{used} * 100 / $self->{result_values}->{total}; return 0; } sub custom_swap_perfdata { my ($self, %options) = @_; $self->{output}->perfdata_add( label => 'swap_used', unit => 'B', instances => $self->use_instances(extra_instance => $options{extra_instance}) ? $self->{result_values}->{display} : undef, value => $self->{result_values}->{used}, warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), min => 0, max => $self->{result_values}->{total} ); } sub custom_swap_threshold { my ($self, %options) = @_; my $exit = $self->{perfdata}->threshold_check(value => $self->{result_values}->{prct_used}, threshold => [ { label => 'critical-' . $self->{thlabel}, exit_litteral => 'critical' }, { label => 'warning-' . $self->{thlabel}, exit_litteral => 'warning' } ]); return $exit; } sub custom_swap_output { my ($self, %options) = @_; my ($total_size_value, $total_size_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{total}); my ($total_used_value, $total_used_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{used}); my ($total_free_value, $total_free_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{free}); my $msg = sprintf("Swap Total: %s Used: %s (%.2f%%) Free: %s (%.2f%%)", $total_size_value . " " . $total_size_unit, $total_used_value . " " . $total_used_unit, $self->{result_values}->{prct_used}, $total_free_value . " " . $total_free_unit, $self->{result_values}->{prct_free}); return $msg; } sub custom_swap_calc { my ($self, %options) = @_; $self->{result_values}->{display} = $options{new_datas}->{$self->{instance} . '_display'}; $self->{result_values}->{total} = $options{new_datas}->{$self->{instance} . '_swap_total'}; $self->{result_values}->{used} = $options{new_datas}->{$self->{instance} . '_swap_usage'}; $self->{result_values}->{free} = $self->{result_values}->{total} - $self->{result_values}->{used}; $self->{result_values}->{prct_free} = $self->{result_values}->{free} * 100 / $self->{result_values}->{total}; $self->{result_values}->{prct_used} = $self->{result_values}->{used} * 100 / $self->{result_values}->{total}; return 0; } sub custom_fs_perfdata { my ($self, %options) = @_; $self->{output}->perfdata_add( label => 'fs_used', unit => 'B', instances => $self->use_instances(extra_instance => $options{extra_instance}) ? $self->{result_values}->{display} : undef, value => $self->{result_values}->{used}, warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-' . $self->{thlabel}, total => $self->{result_values}->{total}, cast_int => 1), min => 0, max => $self->{result_values}->{total} ); } sub custom_fs_threshold { my ($self, %options) = @_; my $exit = $self->{perfdata}->threshold_check(value => $self->{result_values}->{prct_used}, threshold => [ { label => 'critical-' . $self->{thlabel}, exit_litteral => 'critical' }, { label => 'warning-' . $self->{thlabel}, exit_litteral => 'warning' } ]); return $exit; } sub custom_fs_output { my ($self, %options) = @_; my ($total_size_value, $total_size_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{total}); my ($total_used_value, $total_used_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{used}); my ($total_free_value, $total_free_unit) = $self->{perfdata}->change_bytes(value => $self->{result_values}->{free}); my $msg = sprintf("Root Filesystem Total: %s Used: %s (%.2f%%) Free: %s (%.2f%%)", $total_size_value . " " . $total_size_unit, $total_used_value . " " . $total_used_unit, $self->{result_values}->{prct_used}, $total_free_value . " " . $total_free_unit, $self->{result_values}->{prct_free}); return $msg; } sub custom_fs_calc { my ($self, %options) = @_; $self->{result_values}->{display} = $options{new_datas}->{$self->{instance} . '_display'}; $self->{result_values}->{total} = $options{new_datas}->{$self->{instance} . '_fs_total'}; $self->{result_values}->{used} = $options{new_datas}->{$self->{instance} . '_fs_usage'}; $self->{result_values}->{free} = $self->{result_values}->{total} - $self->{result_values}->{used}; $self->{result_values}->{prct_free} = $self->{result_values}->{free} * 100 / $self->{result_values}->{total}; $self->{result_values}->{prct_used} = $self->{result_values}->{used} * 100 / $self->{result_values}->{total}; return 0; } sub set_counters { my ($self, %options) = @_; $self->{maps_counters_type} = [ { name => 'nodes', type => 1, cb_prefix_output => 'prefix_nodes_output', message_multiple => 'All nodes are ok', skipped_code => { -11 => 1 } }, ]; $self->{maps_counters}->{nodes} = [ { label => 'node-status', threshold => 0, set => { key_values => [ { name => 'state' }, { name => 'name' } ], closure_custom_calc => $self->can('custom_status_calc'), closure_custom_output => $self->can('custom_status_output'), closure_custom_perfdata => sub { return 0; }, closure_custom_threshold_check => \&catalog_status_threshold, } }, { label => 'cpu', set => { key_values => [ { name => 'cpu_total_usage', diff => 1 }, { name => 'cpu_number' }, { name => 'display' } ], output_template => 'CPU Usage : %.2f %%', closure_custom_calc => $self->can('custom_cpu_calc'), output_use => 'prct_cpu', threshold_use => 'prct_cpu', perfdatas => [ { label => 'cpu', value => 'prct_cpu', template => '%.2f', unit => '%', min => 0, max => 100, label_extra_instance => 1, instance_use => 'display' }, ], } }, { label => 'memory', set => { key_values => [ { name => 'memory_usage' }, { name => 'memory_total' }, { name => 'display' } ], closure_custom_calc => $self->can('custom_memory_calc'), closure_custom_output => $self->can('custom_memory_output'), closure_custom_perfdata => $self->can('custom_memory_perfdata'), closure_custom_threshold_check => $self->can('custom_memory_threshold'), } }, { label => 'fs', set => { key_values => [ { name => 'fs_usage' }, { name => 'fs_total' }, { name => 'display' } ], closure_custom_calc => $self->can('custom_fs_calc'), closure_custom_output => $self->can('custom_fs_output'), closure_custom_perfdata => $self->can('custom_fs_perfdata'), closure_custom_threshold_check => $self->can('custom_fs_threshold'), } }, { label => 'swap', set => { key_values => [ { name => 'swap_usage' }, { name => 'swap_total' }, { name => 'display' } ], closure_custom_calc => $self->can('custom_swap_calc'), closure_custom_output => $self->can('custom_swap_output'), closure_custom_perfdata => $self->can('custom_swap_perfdata'), closure_custom_threshold_check => $self->can('custom_swap_threshold'), } }, ]; } sub new { my ($class, %options) = @_; my $self = $class->SUPER::new(package => __PACKAGE__, %options, statefile => 1); bless $self, $class; $self->{version} = '1.0'; $options{options}->add_options(arguments => { "node-id:s" => { name => 'node_id' }, "node-name:s" => { name => 'node_name' }, "filter-name:s" => { name => 'filter_name' }, "use-name" => { name => 'use_name' }, "warning-node-status:s" => { name => 'warning_node_status', default => '' }, "critical-node-status:s" => { name => 'critical_node_status', default => '' }, }); $self->{statefile_cache_nodes} = centreon::plugins::statefile->new(%options); return $self; } sub check_options { my ($self, %options) = @_; $self->SUPER::check_options(%options); $self->change_macros(macros => ['warning_node_status', 'critical_node_status']); $self->{statefile_cache_nodes}->check_options(%options); } sub prefix_nodes_output { my ($self, %options) = @_; return "Node '" . $options{instance_value}->{display} . "' "; } sub manage_selection { my ($self, %options) = @_; $self->{nodes} = {}; my $result = $options{custom}->api_get_nodes( node_id => $self->{option_results}->{node_id}, node_name => $self->{option_results}->{node_name}, statefile => $self->{statefile_cache_nodes} ); foreach my $node_id (keys %{$result}) { next if (!defined($result->{$node_id}->{Stats})); my $name = $result->{$node_id}->{Name}; if (defined($self->{option_results}->{filter_name}) && $self->{option_results}->{filter_name} ne '' && $name !~ /$self->{option_results}->{filter_name}/) { $self->{output}->output_add(long_msg => "skipping '" . $name . "': no matching filter.", debug => 1); next; } $self->{nodes}->{$node_id} = { display => defined($self->{option_results}->{use_name}) ? $name : $node_id, name => $name, state => $result->{$node_id}->{State}, cpu_total_usage => $result->{$node_id}->{Stats}->{cpu}, cpu_number => $result->{$node_id}->{Stats}->{cpuinfo}->{cpus}, memory_usage => $result->{$node_id}->{Stats}->{memory}->{used}, memory_total => $result->{$node_id}->{Stats}->{memory}->{total}, swap_usage => $result->{$node_id}->{Stats}->{swap}->{used}, swap_total => $result->{$node_id}->{Stats}->{swap}->{total}, fs_usage => $result->{$node_id}->{Stats}->{rootfs}->{used}, fs_total => $result->{$node_id}->{Stats}->{rootfs}->{total}, }; } if (scalar(keys %{$self->{nodes}}) <= 0) { $self->{output}->add_option_msg(short_msg => "No node found."); $self->{output}->option_exit(); } my $hostnames = $options{custom}->get_hostnames(); $self->{cache_name} = "proxmox_" . $self->{mode} . '_' .$hostnames . '_' . $options{custom}->get_port() . '_' . (defined($self->{option_results}->{filter_counters}) ? md5_hex($self->{option_results}->{filter_counters}) : md5_hex('all')) . '_' . (defined($self->{option_results}->{filter_name}) ? md5_hex($self->{option_results}->{filter_name}) : md5_hex('all')) . '_' . (defined($self->{option_results}->{node_id}) ? md5_hex($self->{option_results}->{node_id}) : md5_hex('all')) . '_' . (defined($self->{option_results}->{node_name}) ? md5_hex($self->{option_results}->{node_name}) : md5_hex('all')); } 1; __END__ =head1 MODE Check node usage. =over 8 =item B<--node-id> Exact node ID. =item B<--node-name> Exact node name (if multiple names: names separated by ':'). =item B<--use-name> Use node name for perfdata and display. =item B<--filter-name> Filter by node name (can be a regexp). =item B<--filter-counters> Only display some counters (regexp can be used). Example: --filter-counters='^node-status$' =item B<--warning-*> Threshold warning. Can be: 'cpu' (%), 'memory' (%), 'swap' (%), 'fs' (%). =item B<--critical-*> Threshold critical. Can be: 'cpu' (%), 'memory' (%), 'swap' (%), 'fs' (%). =item B<--warning-node-status> Set warning threshold for status (Default: -) Can used special variables like: %{name}, %{state}. =item B<--critical-node-status> Set critical threshold for status (Default: -). Can used special variables like: %{name}, %{state}. =back =cut