icinga2-checks/check_eth

182 lines
5.5 KiB
Perl
Executable File

#!/usr/bin/perl -w
use strict;
use warnings;
use Getopt::Long;
use constant BITS => 8;
use constant BYTES => 1;
my $iface = "";
my $bandwidth = "";
my $warning = "";
my $critical = "";
my $percent = "";
GetOptions(
"i|interface=s" => \$iface,
"w|warning=s" => \$warning,
"c|critical=s" => \$critical,
"b|bandwidth=s" => \$bandwidth,
"p|percent" => \$percent
);
my $bitmod = BYTES;
my $tmpfile = "/tmp/traffic";
my $output = "";
my $line = "";
my %status = ( 'OK' => 0,
'WARNING' => 1,
'CRITICAL' => 2,
'UNKNOWN' => 3
);
my $exit_status = $status{OK};
my %data = ( 'time' => 0, 'last_time' => 0,
'rxbytes' => 0, 'last_rxbytes' => 0,
'txbytes' => 0, 'last_txbytes' => 0
);
my %speed = ( 'tx' => 0,
'rx' => 0,
'interval' => 1
);
usage() if ( !$iface || !$warning || !$critical );
if ( $percent ) {
usage() if ( !$bandwidth || $bandwidth !~ /^\d+[kKmMgG]$/ );
usage() if ( $warning !~ /^\d{1,3}$/ || $warning>100 || $critical !~ /^\d{1,3}$/ || $critical>100 );
$bandwidth = human2bytes($bandwidth);
} else {
$warning = human2bytes($warning);
$critical = human2bytes($critical);
usage() if ( !$warning || !$critical )
}
usage() if ( $warning > $critical );
open ( NET, "</proc/net/dev" ) or die ( "Can't open /proc/net/dev: $!" );
while ( <NET> ) {
chomp();
if ( $_ =~ /^\s*$iface\:\s*(\d+)(?:\s*(?:\d+)){7}\s*(\d+)(?:\s*(?:\d+)){7}\s*$/ ) {
$data{time} = time - 1;
$data{rxbytes} = $1;
$data{txbytes} = $2;
last;
}
}
close( NET );
if ( $data{time} == 0 && $data{rxbytes} == 0 && $data{txbytes} == 0 ) {
exit $status{UNKNOWN};
}
if ( open( TMP, "<$tmpfile-$iface" ) ) {
my @line = <TMP>; chomp( @line );
( $data{last_time}, $data{last_rxbytes}, $data{last_txbytes} ) = split( ":", $line[0] );
}
if ( open( TMP, ">$tmpfile-$iface" ) ) {
print( TMP "$data{time}:$data{rxbytes}:$data{txbytes}\n" );
close( TMP );
}
$data{last_time} = $data{time} if ( !$data{last_time} || $data{last_time} > $data{time} );
$data{last_rxbytes} = $data{rxbytes} if ( !$data{last_rxbytes} || $data{last_rxbytes} > $data{rxbytes} );
$data{last_txbytes} = $data{txbytes} if ( !$data{last_txbytes} || $data{last_txbytes} > $data{txbytes} );
$speed{interval} = $data{time} - $data{last_time} + 1;
$speed{rx} = ( $data{rxbytes} - $data{last_rxbytes} ) / $speed{interval};
$speed{tx} = ( $data{txbytes} - $data{last_txbytes} ) / $speed{interval};
$output = "RX Bytes: ". bytes2human($data{rxbytes}) ."B, TX Bytes: ". bytes2human($data{txbytes}) ."B; ";
$output .= sprintf( "RX Speed: %s%sps, TX Speed: %s%sps; ",
bytes2human($speed{rx}*$bitmod), ($bitmod==BITS)?"b":"B", bytes2human($speed{tx}*$bitmod), ($bitmod==BITS)?"b":"B" );
if ( $percent ) {
if ( ( $speed{rx} / $bandwidth ) * 100 > $critical || ( $speed{tx} / $bandwidth ) * 100 > $critical ) {
$exit_status = $status{CRITICAL};
$output .= "CRITICAL";
} elsif ( ( $speed{rx} / $bandwidth ) * 100 > $warning || ( $speed{tx} / $bandwidth ) * 100 > $warning ) {
$exit_status = $status{WARNING};
$output .= "WARNING";
} else {
$output .= "OK";
}
} else {
if ( ( $speed{rx} > $critical ) or ( $speed{tx} > $critical ) ) {
$exit_status = $status{CRITICAL};
$output .= "CRITICAL";
} elsif ( ( $speed{rx} > $warning ) or ( $speed{tx} > $warning ) ) {
$exit_status = $status{WARNING};
$output .= "WARNING";
} else {
$output .= "OK";
}
}
$output .= " bandwidth utilization";
$output .= sprintf( " | rx=%.0f;%2.0f;%2.0f tx=%.0f;%2.0f;%2.0f",
$speed{rx}*$bitmod, ($percent)?$warning*$bandwidth/100:$warning, ($percent)?$critical*$bandwidth/100:$critical,
$speed{tx}*$bitmod, ($percent)?$warning*$bandwidth/100:$warning, ($percent)?$critical*$bandwidth/100:$critical );
print "$output\n";
exit( $exit_status );
# helper function
sub bytes2human {
my $bytes = shift;
return 0 if !$bytes;
my @units = ( '','K','M','G','T' );
my $offset = 0;
while ( $bytes > 1024 ){
$bytes = $bytes / 1024;
$offset++;
}
return sprintf( "%2.0f%s", $bytes, $units[$offset] );
}
sub human2bytes {
my $value = shift;
return 0 if ( !$value || $value !~ /^(\d+)(\w)$/ );
my ($number, $scale) = ($1,$2);
my $bitmod = ( $scale =~ /[kmg]/ ) ? BITS : BYTES;
my @units = ( '','K','M','G','T' );
my $offset = 0;
while( $units[$offset] ne "\u$scale" && $offset <= scalar(@units) ) {
$number *= 1024;
$offset++;
}
return $number/$bitmod;
}
sub usage {
print <<EOU;
Usage: $0 -i <interface> -w <warn> -c <critical> [-p -b <bandwidth>]
-i, --interface STRING
Network interface name (example: eth0)
-w, --warning STRING
Warning interface speed level (K/M/G Bps, k/m/g bps)
If using with -p value should be in percentage (1-100)
-c, --critilcal STRING
Critical interface speed level (K/M/G Bps, k/m/g bps)
If using with -p value should be in percentage (1-100)
-p
Calculate warning and critical levels in percentage based on interface bandwidth
-b, --bandwidth STRING
Interface bandwidth value (K/M/G Bps, k/m/g bps)
EOU
unlink($tmpfile);
exit $status{UNKNOWN};
}