# # Copyright 2015 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 os::linux::local::mode::diskio; use base qw(centreon::plugins::mode); use strict; use warnings; use centreon::plugins::misc; use centreon::plugins::statefile; use Digest::MD5 qw(md5_hex); 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 => { "hostname:s" => { name => 'hostname' }, "remote" => { name => 'remote' }, "ssh-option:s@" => { name => 'ssh_option' }, "ssh-path:s" => { name => 'ssh_path' }, "ssh-command:s" => { name => 'ssh_command', default => 'ssh' }, "timeout:s" => { name => 'timeout', default => 30 }, "sudo" => { name => 'sudo' }, "command:s" => { name => 'command', default => 'tail' }, "command-path:s" => { name => 'command_path', }, "command-options:s" => { name => 'command_options', default => '-n +1 /proc/stat /proc/diskstats 2>&1' }, "warning-bytes-read:s" => { name => 'warning_bytes_read' }, "critical-bytes-read:s" => { name => 'critical_bytes_read' }, "warning-bytes-write:s" => { name => 'warning_bytes_write' }, "critical-bytes-write:s" => { name => 'critical_bytes_write' }, "warning-utils:s" => { name => 'warning_utils' }, "critical-utils:s" => { name => 'critical_utils' }, "name:s" => { name => 'name' }, "regexp" => { name => 'use_regexp' }, "regexp-isensitive" => { name => 'use_regexpi' }, "interrupt-frequency:s" => { name => 'interrupt_frequency', default => 1000 }, "bytes_per_sector:s" => { name => 'bytes_per_sector', default => 512 }, "skip" => { name => 'skip', }, }); $self->{result} = { cpu => {}, total_cpu => 0, disks => {} }; $self->{hostname} = undef; $self->{statefile_value} = centreon::plugins::statefile->new(%options); return $self; } sub check_options { my ($self, %options) = @_; $self->SUPER::init(%options); if (($self->{perfdata}->threshold_validate(label => 'warning-bytes-read', value => $self->{option_results}->{warning_bytes_read})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong warning-bytes-read threshold '" . $self->{option_results}->{warning_bytes_read} . "'."); $self->{output}->option_exit(); } if (($self->{perfdata}->threshold_validate(label => 'critical-bytes-read', value => $self->{option_results}->{critical_bytes_read})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong critical-bytes-read threshold '" . $self->{option_results}->{critical_bytes_read} . "'."); $self->{output}->option_exit(); } if (($self->{perfdata}->threshold_validate(label => 'warning-bytes-write', value => $self->{option_results}->{warning_bytes_write})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong warning-bytes-write threshold '" . $self->{option_results}->{warning_bytes_write} . "'."); $self->{output}->option_exit(); } if (($self->{perfdata}->threshold_validate(label => 'critical-bytes-write', value => $self->{option_results}->{critical_bytes_write})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong critical-bytes-write threshold '" . $self->{option_results}->{critical_bytes_writes} . "'."); $self->{output}->option_exit(); } if (($self->{perfdata}->threshold_validate(label => 'warning-utils', value => $self->{option_results}->{warning_utils})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong warning-utils threshold '" . $self->{option_results}->{warning_utils} . "'."); $self->{output}->option_exit(); } if (($self->{perfdata}->threshold_validate(label => 'critical-utils', value => $self->{option_results}->{critical_utils})) == 0) { $self->{output}->add_option_msg(short_msg => "Wrong critical-utils threshold '" . $self->{option_results}->{critical_utils} . "'."); $self->{output}->option_exit(); } $self->{statefile_value}->check_options(%options); $self->{hostname} = $self->{option_results}->{hostname}; if (!defined($self->{hostname})) { $self->{hostname} = 'me'; } } sub manage_selection { my ($self, %options) = @_; my $stdout = centreon::plugins::misc::execute(output => $self->{output}, options => $self->{option_results}, sudo => $self->{option_results}->{sudo}, command => $self->{option_results}->{command}, command_path => $self->{option_results}->{command_path}, command_options => $self->{option_results}->{command_options}); $stdout =~ /\/proc\/stat(.*)\/proc\/diskstats(.*)/msg; my ($cpu_parts, $disk_parts) = ($1, $2); # Manage CPU Parts $cpu_parts =~ /^cpu\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)/ms; $self->{result}->{cpu}->{idle} = $4; $self->{result}->{cpu}->{system} = $3; $self->{result}->{cpu}->{user} = $1; $self->{result}->{cpu}->{iowait} = $5; while ($cpu_parts =~ /^cpu(\d+)/msg) { $self->{result}->{total_cpu}++; } # Manage Disk Parts while ($disk_parts =~ /^\s*(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+/msg) { my ($partition_name, $read_sector, $write_sector, $read_ms, $write_ms, $ms_ticks) = ($3, $6, $10, $7, $11, $13); next if (defined($self->{option_results}->{name}) && defined($self->{option_results}->{use_regexp}) && defined($self->{option_results}->{use_regexpi}) && $partition_name !~ /$self->{option_results}->{name}/i); next if (defined($self->{option_results}->{name}) && defined($self->{option_results}->{use_regexp}) && !defined($self->{option_results}->{use_regexpi}) && $partition_name !~ /$self->{option_results}->{name}/); next if (defined($self->{option_results}->{name}) && !defined($self->{option_results}->{use_regexp}) && !defined($self->{option_results}->{use_regexpi}) && $partition_name ne $self->{option_results}->{name}); if (defined($self->{option_results}->{skip}) && $read_sector == 0 && $write_sector == 0) { $self->{output}->output_add(long_msg => "Skipping partition '" . $partition_name . "': no read/write IO."); next; } $self->{result}->{disks}->{$partition_name} = { read_sectors => $read_sector, write_sectors => $write_sector, read_ms => $read_ms, write_ms => $write_ms, ticks => $ms_ticks}; } if (scalar(keys %{$self->{result}->{disks}}) <= 0) { if (defined($self->{option_results}->{name})) { $self->{output}->add_option_msg(short_msg => "No partition found for name '" . $self->{option_results}->{name} . "'."); } else { $self->{output}->add_option_msg(short_msg => "No partition found."); } $self->{output}->option_exit(); } } sub run { my ($self, %options) = @_; $self->manage_selection(); my $new_datas = {}; $self->{statefile_value}->read(statefile => "cache_linux_local_" . $self->{hostname} . '_' . $self->{mode} . '_' . (defined($self->{option_results}->{name}) ? md5_hex($self->{option_results}->{name}) : md5_hex('all'))); $new_datas->{last_timestamp} = time(); my $old_timestamp = $self->{statefile_value}->get(name => 'last_timestamp'); if (!defined($self->{option_results}->{name}) || defined($self->{option_results}->{use_regexp})) { $self->{output}->output_add(severity => 'OK', short_msg => 'All partitions are ok.'); } foreach my $name (sort(keys %{$self->{result}->{disks}})) { my $old_datas = {}; my $next = 0; foreach (keys %{$self->{result}->{disks}->{$name}}) { $new_datas->{$_ . '_' . $name} = $self->{result}->{disks}->{$name}->{$_}; $old_datas->{$_ . '_' . $name} = $self->{statefile_value}->get(name => $_ . '_' . $name); if (!defined($old_datas->{$_ . '_' . $name})) { $next = 1; } elsif ($new_datas->{$_ . '_' . $name} < $old_datas->{$_ . '_' . $name}) { # We set 0. has reboot $old_datas->{$_ . '_' . $name} = 0; } } foreach (keys %{$self->{result}->{cpu}}) { $new_datas->{'cpu_' . $_} = $self->{result}->{cpu}->{$_}; $old_datas->{'cpu_' . $_} = $self->{statefile_value}->get(name => 'cpu_' . $_); if (!defined($old_datas->{'cpu_' . $_})) { $next = 1; } elsif ($new_datas->{'cpu_' . $_} < $old_datas->{'cpu_' . $_}) { # We set 0. has reboot $old_datas->{'cpu_' . $_} = 0; } } if (!defined($old_timestamp) || $next == 1) { next; } my $time_delta = $new_datas->{last_timestamp} - $old_timestamp; if ($time_delta <= 0) { # At least one second. two fast calls ;) $time_delta = 1; } ############ # Do calc my $read_bytes_per_seconds = ($new_datas->{'read_sectors_' . $name} - $old_datas->{'read_sectors_' . $name}) * $self->{option_results}->{bytes_per_sector} / $time_delta; my $write_bytes_per_seconds = ($new_datas->{'write_sectors_' . $name} - $old_datas->{'write_sectors_' . $name}) * $self->{option_results}->{bytes_per_sector} / $time_delta; my $read_ms = $new_datas->{'read_ms_' . $name} - $old_datas->{'read_ms_' . $name}; my $write_ms = $new_datas->{'write_ms_' . $name} - $old_datas->{'write_ms_' . $name}; my $delta_ms = $self->{option_results}->{interrupt_frequency} * (($new_datas->{cpu_idle} + $new_datas->{cpu_iowait} + $new_datas->{cpu_user} + $new_datas->{cpu_system}) - ($old_datas->{cpu_idle} + $old_datas->{cpu_iowait} + $old_datas->{cpu_user} + $old_datas->{cpu_system})) / $self->{result}->{total_cpu} / 100; my $utils = 100 * ($new_datas->{'ticks_' . $name} - $old_datas->{'ticks_' . $name}) / $delta_ms; if ($utils > 100) { $utils = 100; } ########### # Manage Output ########### my $exit1 = $self->{perfdata}->threshold_check(value => $read_bytes_per_seconds, threshold => [ { label => 'critical-bytes-read', 'exit_litteral' => 'critical' }, { label => 'warning-bytes-read', exit_litteral => 'warning' } ]); my $exit2 = $self->{perfdata}->threshold_check(value => $write_bytes_per_seconds, threshold => [ { label => 'critical-bytes-write', 'exit_litteral' => 'critical' }, { label => 'warning-bytes-write', exit_litteral => 'warning' } ]); my $exit3 = $self->{perfdata}->threshold_check(value => $utils, threshold => [ { label => 'critical-utils', 'exit_litteral' => 'critical' }, { label => 'warning-utils', exit_litteral => 'warning' } ]); my $exit = $self->{output}->get_most_critical(status => [ $exit1, $exit2, $exit3 ]); my ($read_value, $read_unit) = $self->{perfdata}->change_bytes(value => $read_bytes_per_seconds); my ($write_value, $write_unit) = $self->{perfdata}->change_bytes(value => $write_bytes_per_seconds); $self->{output}->output_add(long_msg => sprintf("Partition '%s' Read I/O : %s/s, Write I/O : %s/s, Write Time : %s ms, Read Time : %s ms, %%Utils: %.2f %%", $name, $read_value . $read_unit, $write_value . $write_unit, $read_ms, $write_ms, $utils )); if (!$self->{output}->is_status(value => $exit, compare => 'ok', litteral => 1) || (defined($self->{option_results}->{name}) && !defined($self->{option_results}->{use_regexp}))) { $self->{output}->output_add(severity => $exit, short_msg => sprintf("Partition '%s' Read I/O : %s/s, Write I/O : %s/s, Write Time : %s ms, Read Time : %s ms, %%Utils: %.2f %%", $name, $read_value . $read_unit, $write_value . $write_unit, $read_ms, $write_ms, $utils )); } my $extra_label = ''; $extra_label = '_' . $name if (!defined($self->{option_results}->{name}) || defined($self->{option_results}->{use_regexp})); $self->{output}->perfdata_add(label => 'readio' . $extra_label, unit => 'B/s', value => sprintf("%.2f", $read_bytes_per_seconds), warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-bytes-read'), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-bytes-read'), min => 0); $self->{output}->perfdata_add(label => 'writeio' . $extra_label, unit => 'B/s', value => sprintf("%.2f", $write_bytes_per_seconds), warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-bytes-write'), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-bytes-write'), min => 0); $self->{output}->perfdata_add(label => 'readtime' . $extra_label, unit => 'ms', value => $read_ms, min => 0); $self->{output}->perfdata_add(label => 'writetime' . $extra_label, unit => 'ms', value => $write_ms, min => 0); $self->{output}->perfdata_add(label => 'utils' . $extra_label, unit => '%', value => sprintf("%.2f", $utils), warning => $self->{perfdata}->get_perfdata_for_output(label => 'warning-utils'), critical => $self->{perfdata}->get_perfdata_for_output(label => 'critical-util'), min => 0, max => 100); } $self->{statefile_value}->write(data => $new_datas); if (!defined($old_timestamp)) { $self->{output}->output_add(severity => 'OK', short_msg => "Buffer creation..."); } $self->{output}->display(); $self->{output}->exit(); } 1; __END__ =head1 MODE Check some disk io counters: read and writes bytes per seconds, milliseconds time spent reading and writing, %util (like iostat) =over 8 =item B<--remote> Execute command remotely in 'ssh'. =item B<--hostname> Hostname to query (need --remote). =item B<--ssh-option> Specify multiple options like the user (example: --ssh-option='-l=centreon-engine' --ssh-option='-p=52'). =item B<--ssh-path> Specify ssh command path (default: none) =item B<--ssh-command> Specify ssh command (default: 'ssh'). Useful to use 'plink'. =item B<--timeout> Timeout in seconds for the command (Default: 30). =item B<--sudo> Use 'sudo' to execute the command. =item B<--command> Command to get information (Default: 'tail'). Can be changed if you have output in a file. =item B<--command-path> Command path (Default: none). =item B<--command-options> Command options (Default: '-n +1 /proc/stat /proc/diskstats 2>&1'). =item B<--warning-bytes-read> Threshold warning in bytes per seconds read. =item B<--critical-bytes-read> Threshold critical in bytes per seconds read. =item B<--warning-bytes-write> Threshold warning in bytes per seconds write. =item B<--critical-bytes-write> Threshold critical in bytes per seconds write. =item B<--warning-utils> Threshold warning in %utils. =item B<--critical-utils> Threshold critical in %utils. =item B<--name> Set the partition name (empty means 'check all partitions') =item B<--regexp> Allows to use regexp to filter partition name (with option --name). =item B<--regexp-isensitive> Allows to use regexp non case-sensitive (with --regexp). =item B<--bytes-per-sector> Bytes per sector (Default: 512) =item B<--interrupt-frequency> Linux Kernel Timer Interrupt Frequency (Default: 1000) =item B<--skip> Skip partitions with 0 sectors read/write. =back =cut