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#!@PERL@ -w
# check_uptime - check uptime to see how long the system is running.
#
# License Information:
# 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, or
# (at your option) any later version.
#
# 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, write to the Free Software
# Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
# USA
#
############################################################################
use POSIX;
use strict;
use Getopt::Long;
use vars qw($opt_V $opt_h $opt_v $verbose $PROGNAME $opt_w $opt_c
$opt_f $opt_s
$lower_warn_threshold $upper_warn_threshold
$lower_crit_threshold $upper_crit_threshold
$status $state $msg);
use FindBin;
use lib "$FindBin::Bin";
use utils qw(%ERRORS &print_revision &support &usage );
sub print_help ();
sub print_usage ();
sub process_arguments ();
$ENV{'PATH'}='@TRUSTED_PATH@';
$ENV{'BASH_ENV'}='';
$ENV{'ENV'}='';
$PROGNAME = "check_uptime";
$state = $ERRORS{'UNKNOWN'};
my $uptime_file = "/proc/uptime";
# Process arguments
Getopt::Long::Configure('bundling');
$status = process_arguments();
if ($status){
print "ERROR: processing arguments\n";
exit $ERRORS{"UNKNOWN"};
}
# Get uptime info from file
if ( ! -r $uptime_file ) {
print "ERROR: file '$uptime_file' is not readable\n";
exit $ERRORS{"UNKNOWN"};
}
if ( ! open FILE, "<", $uptime_file ) {
print "ERROR: cannot read from file '$uptime_file'\n";
exit $ERRORS{"UNKNOWN"};
}
chomp( my $file_content = <FILE> );
close FILE;
print "$uptime_file: $file_content\n" if $verbose;
# Get first digit value (without fraction)
my ( $uptime_seconds ) = $file_content =~ /^([\d]+)/;
# Bail out if value is not numeric
if ( $uptime_seconds !~ /^\d+$/ ) {
print "ERROR: no numeric value: $uptime_seconds\n";
exit $ERRORS{"UNKNOWN"};
}
# Do calculations for a "pretty" format (2 weeks, 5 days, ...)
my ( $secs, $mins, $hours, $days, $weeks );
$secs = $uptime_seconds;
$mins = $hours = $days = $weeks = 0;
if ( $secs > 100 ) {
$mins = int( $secs / 60 );
$secs -= $mins * 60;
}
if ( $mins > 100 ) {
$hours = int( $mins / 60 );
$mins -= $hours * 60;
}
if ( $hours > 48 ) {
$days = int( $hours / 24 );
$hours -= $days * 24;
}
if ( $days > 14 ) {
$weeks = int( $days / 7 );
$days -= $weeks * 7;
}
my $pretty_uptime = "";
$pretty_uptime .= sprintf( "%d week%s, ", $weeks, $weeks == 1 ? "" : "s" ) if $weeks;
$pretty_uptime .= sprintf( "%d day%s, ", $days, $days == 1 ? "" : "s" ) if $days;
$pretty_uptime .= sprintf( "%d hour%s, ", $hours, $hours == 1 ? "" : "s" ) if $hours;
$pretty_uptime .= sprintf( "%d minute%s, ", $mins, $mins == 1 ? "" : "s" ) if $mins;
# Replace last occurence of comma with "and"
$pretty_uptime =~ s/, $/ and /;
# Always print the seconds (though it may be 0 seconds)
$pretty_uptime .= sprintf( "%d second%s", $secs, $secs == 1 ? "" : "s" );
# Default to catch errors in program
my $state_str = "UNKNOWN";
# Check values
my $out_of_bounds_text = "";
if ( $uptime_seconds > $upper_crit_threshold ) {
$state_str = "CRITICAL";
$out_of_bounds_text = "upper crit";
} elsif ( $uptime_seconds < $lower_crit_threshold ) {
$state_str = "CRITICAL";
$out_of_bounds_text = "lower crit";
} elsif ( $uptime_seconds > $upper_warn_threshold ) {
$state_str = "WARNING";
$out_of_bounds_text = "upper warn";
} elsif ( $uptime_seconds < $lower_warn_threshold ) {
$state_str = "WARNING";
$out_of_bounds_text = "lower warn";
} else {
$state_str = "OK";
}
$msg = "$state_str: ";
$msg .= "uptime is $uptime_seconds seconds. ";
$msg .= "Exceeds $out_of_bounds_text threshold. " if $out_of_bounds_text;
$msg .= "Running for $pretty_uptime. " if $opt_f;
if ( $opt_s ) {
my $up_since = strftime( "%Y-%m-%d %H:%M:%S", localtime( time - $uptime_seconds ) );
$msg .= "Running since $up_since. ";
}
$state = $ERRORS{$state_str};
# Perfdata support
print "$msg|uptime=${uptime_seconds}s;$upper_warn_threshold;$upper_crit_threshold;0\n";
exit $state;
#####################################
#### subs
sub process_arguments(){
GetOptions
("V" => \$opt_V, "version" => \$opt_V,
"v" => \$opt_v, "verbose" => \$opt_v,
"h" => \$opt_h, "help" => \$opt_h,
"w=s" => \$opt_w, "warning=s" => \$opt_w, # warning if above this number
"c=s" => \$opt_c, "critical=s" => \$opt_c, # critical if above this number
"f" => \$opt_f, "for" => \$opt_f, # show "running for ..."
"s" => \$opt_s, "since" => \$opt_s, # show "running since ..."
);
if ($opt_V) {
print_revision($PROGNAME,'@NP_VERSION@');
exit $ERRORS{'UNKNOWN'};
}
if ($opt_h) {
print_help();
exit $ERRORS{'UNKNOWN'};
}
if (defined $opt_v) {
$verbose = $opt_v;
}
unless ( defined $opt_w && defined $opt_c ) {
print_usage();
exit $ERRORS{'UNKNOWN'};
}
# Check if a range was supplied ("lowvalue:highvalue") for warning and critical
# Otherwise, set 0 as the lower threshold and the parameter value as upper threshold
# (the uptime should always be positive, so there should be no issue)
if ( $opt_w =~ /^(.+):(.+)$/ ) {
$lower_warn_threshold = $1;
$upper_warn_threshold = $2;
} else {
$lower_warn_threshold = 0;
$upper_warn_threshold = $opt_w;
}
if ( $opt_c =~ /^(.+):(.+)$/ ) {
$lower_crit_threshold = $1;
$upper_crit_threshold = $2;
} else {
$lower_crit_threshold = 0;
$upper_crit_threshold = $opt_c;
}
# Set as seconds (calculate if suffix present)
$lower_warn_threshold = calc_as_seconds( $lower_warn_threshold );
$lower_crit_threshold = calc_as_seconds( $lower_crit_threshold );
$upper_warn_threshold = calc_as_seconds( $upper_warn_threshold );
$upper_crit_threshold = calc_as_seconds( $upper_crit_threshold );
# Check for numeric value of warning parameter
if ( $lower_warn_threshold !~ /^\d+$/ ) {
print "Lower warning (-w) is not numeric\n";
exit $ERRORS{'UNKNOWN'};
}
if ( $upper_warn_threshold !~ /^\d+$/ ) {
print "Upper warning (-w) is not numeric\n";
exit $ERRORS{'UNKNOWN'};
}
# Check for numeric value of critical parameter
if ( $lower_crit_threshold !~ /^\d+$/ ) {
print "Lower critical (-c) is not numeric\n";
exit $ERRORS{'UNKNOWN'};
}
if ( $upper_crit_threshold !~ /^\d+$/ ) {
print "Upper critical (-c) is not numeric\n";
exit $ERRORS{'UNKNOWN'};
}
# Check boundaries
if ( $upper_warn_threshold >= $upper_crit_threshold ) {
print "Upper Warning (-w) cannot be greater than Critical (-c)!\n";
exit $ERRORS{'UNKNOWN'};
}
if ( $lower_warn_threshold < $lower_crit_threshold ) {
print "Lower Warning (-w) cannot be greater than Critical (-c)!\n";
exit $ERRORS{'UNKNOWN'};
}
return $ERRORS{'OK'};
}
sub print_usage () {
print "Usage: $PROGNAME -w <warn> -c <crit> [-v]\n";
}
sub print_help () {
print_revision($PROGNAME,'@NP_VERSION@');
print "Copyright (c) 2002 Subhendu Ghosh/Carlos Canau/Benjamin Schmid\n";
print "Copyright (c) 2018 Bernd Arnold\n";
print "\n";
print_usage();
print "\n";
print " Checks the uptime of the system using $uptime_file\n";
print "\n";
print "-w (--warning) = Min. number of uptime to generate warning\n";
print "-c (--critical) = Min. number of uptime to generate critical alert ( w < c )\n";
print "-f (--for) = Show uptime in a pretty format (Running for x weeks, x days, ...)\n";
print "-s (--since) = Show last boot in yyyy-mm-dd HH:MM:SS format (output from 'uptime -s')\n";
print "-h (--help)\n";
print "-V (--version)\n";
print "-v (--verbose) = debugging output\n";
print "\n\n";
print "Note: -w and -c are required arguments.\n";
print " You can suffix both values with s for seconds (default), m (minutes), h (hours), d (days) or w (weeks).\n";
print "\n";
print "Range support: You may specify a range for both warning and critical thresholds.\n";
print " This works without additional Perl modules.\n";
print "Example: ./check_uptime -w 10m:4w -c 1m:8w\n";
print " Results in a critical state when uptime is below 60 seconds or higher than 8 weeks,\n";
print " and in a warning state when uptime is below 10 minutes or above 4 weeks.\n";
print "\n\n";
support();
}
sub calc_as_seconds () {
my $parameter = shift;
# Check if suffix is present
# Calculate parameter to seconds (to get an integer value finally)
# If no suffix is present, just return the value
# Possible suffixes:
# s = seconds
# m = minutes
# h = hours
# d = days
# w = weeks
my %factor = ( "s" => 1,
"m" => 60,
"h" => 60 * 60,
"d" => 60 * 60 * 24,
"w" => 60 * 60 * 24 * 7,
);
if ( $parameter =~ /^(\d+)([a-z])$/ ) {
my $value = $1;
my $suffix = $2;
print "detected: value=$value, suffix=$suffix\n" if $verbose;
if ( ! defined $factor{$suffix} ) {
print "Error: wrong suffix ($suffix) for value '$parameter'";
exit $ERRORS{'UNKNOWN'};
}
$parameter = $value * $factor{$suffix};
}
return $parameter;
}
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