centreon-plugins/connectors/vmware/lib/cmdcpuvm.pm

package centreon::esxd::cmdcpuvm;

use strict;
use warnings;
use centreon::esxd::common;

sub new {
    my $class = shift;
    my $self  = {};
    $self->{logger} = shift;
    $self->{obj_esxd} = shift;
    $self->{commandName} = 'cpuvm';
    
    bless $self, $class;
    return $self;
}

sub getCommandName {
    my $self = shift;
    return $self->{commandName};
}

sub checkArgs {
    my $self = shift;
    my ($vm, $warn, $crit, $warn2, $crit2) = @_;

    if (!defined($vm) || $vm eq "") {
        $self->{logger}->writeLogError("ARGS error: need vm hostname");
        return 1;
    }
    if (defined($warn) && $warn !~ /^-?(?:\d+\.?|\.\d)\d*\z/) {
        $self->{logger}->writeLogError("ARGS error: warn threshold must be a positive number");
        return 1;
    } 
    if (defined($crit) && $crit !~ /^-?(?:\d+\.?|\.\d)\d*\z/) {
        $self->{logger}->writeLogError("ARGS error: crit threshold must be a positive number");
        return 1;
    }
    if (defined($warn) && defined($crit) && $warn > $crit) {
        $self->{logger}->writeLogError("ARGS error: warn threshold must be lower than crit threshold");
        return 1;
    }
    if (defined($warn2) && $warn2 !~ /^-?(?:\d+\.?|\.\d)\d*\z/) {
        $self->{logger}->writeLogError("ARGS error: warn2 threshold must be a positive number");
        return 1;
    } 
    if (defined($crit2) && $crit2 !~ /^-?(?:\d+\.?|\.\d)\d*\z/) {
        $self->{logger}->writeLogError("ARGS error: crit2 threshold must be a positive number");
        return 1;
    }
    if (defined($warn2) && defined($crit2) && $warn2 > $crit2) {
        $self->{logger}->writeLogError("ARGS error: warn2 threshold must be lower than crit2 threshold");
        return 1;
    }
    return 0;
}

sub initArgs {
    my $self = shift;
    $self->{lvm} = $_[0];
    $self->{warn} = (defined($_[1]) ? $_[1] : 80);
    $self->{crit} = (defined($_[2]) ? $_[2] : 90);
    $self->{warn2} = (defined($_[3]) ? $_[3] : 5);
    $self->{crit2} = (defined($_[4]) ? $_[4] : 10);
}

sub run {
    my $self = shift;

    if (!($self->{obj_esxd}->{perfcounter_speriod} > 0)) {
        my $status = centreon::esxd::common::errors_mask(0, 'UNKNOWN');
        $self->{obj_esxd}->print_response(centreon::esxd::common::get_status($status) . "|Can't retrieve perf counters.\n");
        return ;
    }

    my %filters = ('name' => $self->{lvm});
    my @properties = ('name', 'runtime.connectionState', 'runtime.powerState');
    my $result = centreon::esxd::common::get_entities_host($self->{obj_esxd}, 'VirtualMachine', \%filters, \@properties);
    if (!defined($result)) {
        return ;
    }
    
    return if (centreon::esxd::common::vm_state($self->{obj_esxd}, $self->{lvm}, 
                                                $$result[0]->{'runtime.connectionState'}->val,
                                                $$result[0]->{'runtime.powerState'}->val) == 0);

    my @instances = ('*');

    my $values = centreon::esxd::common::generic_performance_values_historic($self->{obj_esxd},
                        $result, 
                        [{'label' => 'cpu.usage.average', 'instances' => \@instances},
                         {'label' => 'cpu.usagemhz.average', 'instances' => \@instances},
                         {'label' => 'cpu.ready.summation', 'instances' => \@instances}],
                        $self->{obj_esxd}->{perfcounter_speriod});
    return if (centreon::esxd::common::performance_errors($self->{obj_esxd}, $values) == 1);
    
    my $status = 0; # OK
    my $output = '';
    my $total_cpu_average = centreon::esxd::common::simplify_number(centreon::esxd::common::convert_number($values->{$self->{obj_esxd}->{perfcounter_cache}->{'cpu.usage.average'}->{'key'} . ":"}[0] * 0.01));
    my $total_cpu_mhz_average = centreon::esxd::common::simplify_number(centreon::esxd::common::convert_number($values->{$self->{obj_esxd}->{perfcounter_cache}->{'cpu.usagemhz.average'}->{'key'} . ":"}[0]));
    my $total_cpu_ready = centreon::esxd::common::simplify_number($values->{$self->{obj_esxd}->{perfcounter_cache}->{'cpu.ready.summation'}->{'key'} . ":"}[0] / ($self->{obj_esxd}->{perfcounter_speriod} * 1000) * 100);
    
    if ($total_cpu_average >= $self->{warn}) {
        $status = centreon::esxd::common::errors_mask($status, 'WARNING');
    }
    if ($total_cpu_average >= $self->{crit}) {
        $status = centreon::esxd::common::errors_mask($status, 'CRITICAL');
    }
    if ($total_cpu_ready >= $self->{warn2}) {
        $status = centreon::esxd::common::errors_mask($status, 'WARNING');
    }
    if ($total_cpu_ready >= $self->{crit2}) {
        $status = centreon::esxd::common::errors_mask($status, 'CRITICAL');
    }
    

    $output = "CPU ready '$total_cpu_ready%', Total Average CPU usage '$total_cpu_average%', Total Average CPU '" . $total_cpu_mhz_average . "MHz' on last " . int($self->{obj_esxd}->{perfcounter_speriod} / 60) . "min | cpu_ready=$total_cpu_ready%;$self->{warn2};$self->{crit2};0; cpu_total=$total_cpu_average%;$self->{warn};$self->{crit};0;100 cpu_total_MHz=" . $total_cpu_mhz_average . "MHz";

    foreach my $id (sort { my ($cida, $cia) = split /:/, $a;
                   my ($cidb, $cib) = split /:/, $b;
                               $cia = -1 if (!defined($cia) || $cia eq "");
                               $cib = -1 if (!defined($cib) || $cib eq "");
                   $cia <=> $cib} keys %$values) {
        my ($counter_id, $instance) = split /:/, $id;
        next if ($self->{obj_esxd}->{perfcounter_cache}->{'cpu.usagemhz.average'}->{'key'} != $counter_id);
        if ($instance ne "") {
            $output .= " cpu" . $instance . "_MHz=" . centreon::esxd::common::simplify_number(centreon::esxd::common::convert_number($values->{$id}[0])) . "MHz";
        }
    }
    $self->{obj_esxd}->print_response(centreon::esxd::common::get_status($status) . "|$output\n");
}

1;