| version 1.32, 2009/11/10 19:46:06 |
version 1.33, 2009/11/10 23:11:18 |
|
|
| #!/usr/bin/perl -T |
#!/usr/bin/perl -T |
| # $RedRiver: check_hw_sensors,v 1.31 2009/11/10 18:24:56 andrew Exp $ |
# $RedRiver: check_hw_sensors,v 1.32 2009/11/10 19:46:06 andrew Exp $ |
| ######################################################################## |
######################################################################## |
| # check_hw_sensors *** A nagios check for OpenBSD sysctl hw.sensors |
# check_hw_sensors *** A nagios check for OpenBSD sysctl hw.sensors |
| # |
# |
|
|
| use strict; |
use strict; |
| use warnings; |
use warnings; |
| |
|
| %ENV = (); |
local %ENV = (); |
| |
|
| use constant NAGIOS_OUTPUT => 1; |
my $NAGIOS_OUTPUT => 1; |
| |
|
| my $License = <<'EOL'; |
my $LICENSE = <<'EOL'; |
| Copyright (c) 2009 Andrew Fresh <andrew@afresh1.com> |
Copyright (c) 2009 Andrew Fresh <andrew@afresh1.com> |
| Permission to use, copy, modify, and distribute this software for any |
Permission to use, copy, modify, and distribute this software for any |
| purpose with or without fee is hereby granted, provided that the above |
purpose with or without fee is hereby granted, provided that the above |
|
|
| |
|
| use POSIX; |
use POSIX; |
| use Config; |
use Config; |
| use lib "/usr/local/libexec/nagios"; |
use lib '/usr/local/libexec/nagios'; |
| use utils qw($TIMEOUT %ERRORS &support); |
use utils qw($TIMEOUT %ERRORS &support); |
| |
|
| use Getopt::Long; |
use Getopt::Long; |
| Getopt::Long::Configure('bundling'); |
Getopt::Long::Configure('bundling'); |
| |
|
| my $PROGNAME = "check_hw_sensors"; |
my $PROGNAME = 'check_hw_sensors'; |
| |
|
| my $SYSCTL = '/sbin/sysctl'; |
my $SYSCTL = '/sbin/sysctl'; |
| my $GETCAP = '/usr/bin/getcap'; |
my $GETCAP = '/usr/bin/getcap'; |
|
|
| my $OSVer = $Config{'osvers'} || 0; |
my $OSVer = $Config{'osvers'} || 0; |
| |
|
| my $state = 'UNKNOWN'; # tells whether the it is warning, critical, or OK |
my $state = 'UNKNOWN'; # tells whether the it is warning, critical, or OK |
| my %states; # This stores the count of states; |
|
| my $opt_V; |
my $opt_V; |
| my $opt_h; |
my $opt_h; |
| my $ignore_status; |
my $IGNORE_STATUS; |
| my $filename; |
my $FILENAME; |
| my $sensor; |
my $SENSOR; |
| my $warning; |
my $WARNING; |
| my $critical; |
my $CRITICAL; |
| |
|
| my $CHECK_SENSOR = $BASE; |
|
| my %CHECKS; |
|
| my @SENSORS; |
|
| |
|
| #Option checking |
#Option checking |
| my $status = GetOptions( |
my $getopt_status = GetOptions( |
| "version|V" => \$opt_V, |
'version|V' => \$opt_V, |
| "help|h" => \$opt_h, |
'help|h' => \$opt_h, |
| "ignore-status|i" => \$ignore_status, |
'ignore-status|i' => \$IGNORE_STATUS, |
| "filename|f:s" => \$filename, |
'filename|f:s' => \$FILENAME, |
| "sensor|s=s" => \$sensor, |
'sensor|s=s' => \$SENSOR, |
| "warning|w=s" => \$warning, |
'warning|w=s' => \$WARNING, |
| "critical|c=s" => \$critical, |
'critical|c=s' => \$CRITICAL, |
| ); |
); |
| |
|
| if ( $status == 0 ) { |
if ( $getopt_status == 0 ) { |
| print_help(); |
print_help(); |
| exit $ERRORS{'OK'}; |
exit $ERRORS{'OK'}; |
| } |
} |
|
|
| } |
} |
| |
|
| # set the default this way so it only happens if someone typed -f or --filename |
# set the default this way so it only happens if someone typed -f or --filename |
| $filename = $DEFAULT_CONFIG if ( defined $filename && $filename eq '' ); |
$FILENAME = $DEFAULT_CONFIG if ( defined $FILENAME && $FILENAME eq q{} ); |
| |
|
| # Stuff is output in this file by print_sensor() |
# Stuff is output in this file by print_sensor() |
| # http://www.openbsd.org/cgi-bin/cvsweb/src/sbin/sysctl/sysctl.c |
# http://www.openbsd.org/cgi-bin/cvsweb/src/sbin/sysctl/sysctl.c |
| my @Type_Map = ( |
my @TYPE_MAP = ( |
| { type => 'temp', |
{ type => 'temp', |
| regex => qr/\sdegC$/, |
regex => qr/\sdegC$/xms, |
| }, |
}, |
| { type => 'fanrpm', |
{ type => 'fanrpm', |
| regex => qr/\sRPM$/, |
regex => qr/\sRPM$/xms, |
| }, |
}, |
| { type => 'volts_dc', |
{ type => 'volts_dc', |
| regex => qr/\sV\sDC$/, |
regex => qr/\sV\sDC$/xms, |
| }, |
}, |
| { type => 'amps', |
{ type => 'amps', |
| regex => qr/\sA$/, |
regex => qr/\sA$/xms, |
| }, |
}, |
| { type => 'watthour', |
{ type => 'watthour', |
| regex => qr/\sWh$/, |
regex => qr/\sWh$/xms, |
| }, |
}, |
| { type => 'amphour', |
{ type => 'amphour', |
| regex => qr/\sAh$/, |
regex => qr/\sAh$/xms, |
| }, |
}, |
| { type => 'indicator', |
{ type => 'indicator', |
| regex => qr/^(On|Off)$/, |
regex => qr/^(On|Off)$/xms, |
| }, |
}, |
| { type => 'integer', |
{ type => 'integer', |
| regex => qr/\sraw$/, |
regex => qr/\sraw$/xms, |
| }, |
}, |
| { type => 'percent', |
{ type => 'percent', |
| regex => qr/\s\%$/, |
regex => qr/\s\%$/xms, |
| }, |
}, |
| { type => 'lux', |
{ type => 'lux', |
| regex => qr/\slx$/, |
regex => qr/\slx$/xms, |
| }, |
}, |
| { type => 'drive', |
{ type => 'drive', |
| regex => qr/^drive\s/, |
regex => qr/^drive\s/xms, |
| }, |
}, |
| { type => 'timedelta', |
{ type => 'timedelta', |
| regex => qr/\ssecs$/, |
regex => qr/\ssecs$/xms, |
| }, |
}, |
| ); |
); |
| |
|
| if ( defined $sensor ) { |
my $CHECK_SENSOR = $BASE; |
| if ( $sensor !~ /^$BASE/ ) { |
my %CHECKS; |
| $sensor = $BASE . '.' . $sensor; |
if ( defined $SENSOR ) { |
| |
if ( $SENSOR !~ /^$BASE/xms ) { |
| |
$SENSOR = join q{.}, $BASE, $SENSOR; |
| } |
} |
| $CHECK_SENSOR = $sensor; |
$CHECK_SENSOR = $SENSOR; |
| |
|
| $CHECKS{$sensor}{'warn'} = $warning; |
$CHECKS{$SENSOR}{'warn'} = $WARNING; |
| $CHECKS{$sensor}{'crit'} = $critical; |
$CHECKS{$SENSOR}{'crit'} = $CRITICAL; |
| |
|
| } |
} |
| elsif ( defined $filename ) { |
elsif ( defined $FILENAME ) { |
| %CHECKS = parse_file($filename); |
%CHECKS = read_file($FILENAME); |
| } |
} |
| |
|
| open my $sysctl, "-|", $SYSCTL, $CHECK_SENSOR |
my @SENSORS = read_sensors($CHECK_SENSOR); |
| or die "Couldn't open sysctl: $!"; |
my %STATES = check_sensors( \@SENSORS, \%CHECKS, |
| while (<$sysctl>) { |
{ IGNORE_STATUS => $IGNORE_STATUS } ); |
| chomp; |
|
| my ( $id, $output ) = split /=/xms; |
my $have_results = 0; |
| |
$state = 'OK'; |
| |
foreach my $error ( sort { $ERRORS{$b} <=> $ERRORS{$a} } keys %ERRORS ) { |
| |
if ( exists $STATES{$error} ) { |
| |
$have_results++; |
| |
$state = $error if $ERRORS{$state} < $ERRORS{$error}; |
| |
|
| |
if ($NAGIOS_OUTPUT) { |
| |
print "$error (" . scalar( @{ $STATES{$error} } ) . ")"; |
| |
if ( $error ne 'OK' ) { |
| |
s/\s+/ /gxms; |
| |
print '<br>'; |
| |
print map {" - $_<br>"} @{ $STATES{$error} }; |
| |
} |
| |
} |
| |
else { |
| |
print "$error (" . scalar( @{ $STATES{$error} } ) . "):\n"; |
| |
foreach ( @{ $STATES{$error} } ) { |
| |
print " $_\n"; |
| |
} |
| |
} |
| |
} |
| |
} |
| |
if ( $have_results == 0 ) { |
| |
print "No results found\n"; |
| |
} |
| |
exit $ERRORS{$state}; |
| |
|
| |
sub read_sensors { |
| |
my ($sensor) = @_; |
| |
my @S; |
| |
open my $sysctl, '-|', $SYSCTL, $sensor |
| |
or die "Couldn't open sysctl: $!\n"; |
| |
while (<$sysctl>) { |
| |
chomp; |
| |
push @S, parse_sensor($_); |
| |
} |
| |
## no critic 'die' |
| |
close $sysctl |
| |
or die $! |
| |
? "Error closing sysctl pipe: $!\n" |
| |
: "Exit status $? from sysctl\n"; |
| |
|
| |
return @S; |
| |
} |
| |
|
| |
sub parse_sensor { |
| |
my ($sensor) = @_; |
| |
|
| |
my ( $id, $output ) = split /=/xms, $sensor; |
| my @s = split /\./xms, $id; |
my @s = split /\./xms, $id; |
| my @o = split /,\s*/xms, $output; |
my @o = split /,\s*/xms, $output; |
| |
|
|
|
| elsif ( $OSVer >= 4.0 ) { |
elsif ( $OSVer >= 4.0 ) { |
| $data = $o[2]; |
$data = $o[2]; |
| $status = $o[3]; |
$status = $o[3]; |
| foreach my $t (@Type_Map) { |
foreach my $t (@TYPE_MAP) { |
| if ( $data =~ /$t->{'regex'}/xms ) { |
if ( $data =~ /$t->{'regex'}/xms ) { |
| $type = $t->{'type'}; |
$type = $t->{'type'}; |
| last; |
last; |
|
|
| |
|
| $type ||= 'unknown'; |
$type ||= 'unknown'; |
| |
|
| push @SENSORS, |
return { |
| { |
|
| id => $id, |
id => $id, |
| output => $output, |
output => $output, |
| source => $source, |
source => $source, |
|
|
| status => $status, |
status => $status, |
| type => $type, |
type => $type, |
| data => $data, |
data => $data, |
| }; |
}; |
| } |
} |
| close $sysctl; |
|
| |
|
| foreach my $sensor (@SENSORS) { |
sub read_file { |
| my ( $r, $data ); |
|
| if ( exists $CHECKS{ $sensor->{id} } ) { |
|
| $r = check_sensor( $sensor, $CHECKS{ $sensor->{id} } ); |
|
| $data = $sensor->{id} . '=' . $sensor->{output}; |
|
| } |
|
| elsif ( !$ignore_status && $sensor->{status} ) { |
|
| $r = check_sensor( $sensor, { STATUS => 1 } ); |
|
| $data = $sensor->{id} . '=' . $sensor->{output}; |
|
| } |
|
| else { |
|
| |
|
| # ignore this sensor, theoretically you could do the check and |
|
| # that would show unknown sensors. |
|
| } |
|
| if ( defined $r ) { |
|
| push @{ $states{$r} }, $data; |
|
| } |
|
| } |
|
| |
|
| my $have_results = 0; |
|
| $state = 'OK'; |
|
| foreach my $error ( sort { $ERRORS{$b} <=> $ERRORS{$a} } keys %ERRORS ) { |
|
| if ( exists $states{$error} ) { |
|
| $have_results++; |
|
| $state = $error if $ERRORS{$state} < $ERRORS{$error}; |
|
| |
|
| if (NAGIOS_OUTPUT) { |
|
| print "$error (" . scalar( @{ $states{$error} } ) . ")"; |
|
| if ( $error ne 'OK' ) { |
|
| print '<br>'; |
|
| print map {" - $_<br>"} @{ $states{$error} }; |
|
| } |
|
| } |
|
| else { |
|
| print "$error (" . scalar( @{ $states{$error} } ) . "):\n"; |
|
| foreach ( @{ $states{$error} } ) { |
|
| print " $_\n"; |
|
| } |
|
| } |
|
| } |
|
| } |
|
| if ( $have_results == 0 ) { |
|
| print "No results found\n"; |
|
| } |
|
| exit $ERRORS{$state}; |
|
| |
|
| sub parse_file { |
|
| my $filename = shift; |
my $filename = shift; |
| my %contents; |
my %contents; |
| |
|
| die "file '$filename' does not exist." unless -e $filename; |
die "file '$filename' does not exist.\n" unless -e $filename; |
| |
|
| open my $fh, '-|', $GETCAP, '-a', '-f', $filename |
open my $fh, '-|', $GETCAP, '-a', '-f', $filename |
| or die "Couldn't open FILE '$GETCAP -a -f $filename': $!"; |
or die "Couldn't open '$GETCAP -a -f $filename': $!\n"; |
| while (<$fh>) { |
while (<$fh>) { |
| chomp; |
chomp; |
| my ( $key, @c ) = split /\:/; |
my ( $s, @c ) = split /\:/xms; |
| foreach (@c) { |
$contents{$s} = parse_line(@c); |
| my ( $k, $v ) = split /\=/; |
|
| if ( lc($k) eq 'ignore' ) { |
|
| $contents{$key}{'IGNORE'} = 1; |
|
| } |
|
| elsif ( lc($k) eq 'status' ) { |
|
| $contents{$key}{'STATUS'} = 1; |
|
| } |
|
| else { |
|
| $contents{$key}{$k} = $v; |
|
| } |
|
| } |
|
| } |
} |
| close $fh; |
## no critic 'die' |
| |
close $fh |
| |
or die $! |
| |
? "Error closing getcap pipe: $!\n" |
| |
: "Exit status $? from getcap\n"; |
| |
|
| return %contents; |
return %contents; |
| } |
} |
| |
|
| |
sub parse_line { |
| |
my (@c) = @_; |
| |
my %c; |
| |
foreach (@c) { |
| |
my ( $k, $v ) = split /\=/xms; |
| |
if ( lc($k) eq 'ignore' ) { $c{'IGNORE'} = 1; } |
| |
elsif ( lc($k) eq 'status' ) { $c{'STATUS'} = 1; } |
| |
else { $c{$k} = $v; } |
| |
} |
| |
return \%c; |
| |
} |
| |
|
| sub parse_check { |
sub parse_check { |
| my $check = shift; |
my $check = shift; |
| |
|
|
|
| return 'IGNORE' if $check->{'IGNORE'}; |
return 'IGNORE' if $check->{'IGNORE'}; |
| |
|
| foreach my $code ( 'crit', 'warn' ) { |
foreach my $code ( 'crit', 'warn' ) { |
| if ( defined $check->{$code} && $check->{$code} =~ /:/ ) { |
if ( defined $check->{$code} && $check->{$code} =~ /:/xms ) { |
| if ( my ( $low, $high ) = split /:/, $check->{$code} ) { |
if ( my ( $low, $high ) = split /:/xms, $check->{$code} ) { |
| $check->{ $code . '.low' } = $low if length $low; |
$check->{ $code . '.low' } = $low if length $low; |
| $check->{ $code . '.high' } = $high if length $high; |
$check->{ $code . '.high' } = $high if length $high; |
| } |
} |
| delete $check->{$code}; |
delete $check->{$code}; |
| } |
} |
| |
|
| foreach my $severity ( 'low', 'high' ) { |
foreach my $direction ( 'low', 'high' ) { |
| if ( defined $check->{$severity} ) { |
my $c = $code . '.' . $direction; |
| $check->{ $code . '.' . $severity } = $check->{$severity} |
if ( defined $check->{$direction} ) { |
| if !defined $check->{ $code . '.' . $severity }; |
$check->{$c} ||= $check->{$direction}; |
| } |
} |
| |
|
| |
if ( defined $check->{$c} ) { |
| |
my $old = $check->{$c}; |
| |
$check->{$c} =~ s/[^\d\.]//gxms; |
| |
if ( !length $check->{$c} ) { |
| |
warn "INVALID CHECK ($old)\n"; |
| |
delete $check->{$c}; |
| |
} |
| |
} |
| } |
} |
| no warnings 'uninitialized'; |
|
| $check->{$code} = [ split /,\s*/, $check->{$code} ]; |
if ( defined $check->{$code} ) { |
| |
$check->{$code} = [ split /,\s*/xms, $check->{$code} ]; |
| |
} |
| |
else { |
| |
$check->{$code} = []; |
| |
} |
| } |
} |
| |
|
| return $check; |
return $check; |
| } |
} |
| |
|
| |
sub check_sensors { |
| |
my ( $S, $C, $O ) = @_; |
| |
|
| |
my %states; |
| |
foreach my $sensor ( @{$S} ) { |
| |
my ( $r, $data ); |
| |
if ( exists $C->{ $sensor->{id} } ) { |
| |
$r = check_sensor( $sensor, $C->{ $sensor->{id} } ); |
| |
$data = $sensor->{id} . '=' . $sensor->{output}; |
| |
} |
| |
elsif ( !$O->{ignore_status} && $sensor->{status} ) { |
| |
$r = check_sensor( $sensor, { STATUS => 1 } ); |
| |
$data = $sensor->{id} . '=' . $sensor->{output}; |
| |
} |
| |
else { |
| |
|
| |
# ignore this sensor, theoretically you could do the check and |
| |
# that would show unknown sensors. |
| |
} |
| |
if ( defined $r ) { |
| |
push @{ $states{$r} }, $data; |
| |
} |
| |
} |
| |
|
| |
return %states; |
| |
} |
| |
|
| sub check_sensor { |
sub check_sensor { |
| my $sensor = shift; |
my ( $sensor, $check ) = @_; |
| my $check = shift; |
|
| my $result = 'UNKNOWN'; |
my $result = 'UNKNOWN'; |
| my %errors = ( |
|
| 'warn' => 'WARNING', |
|
| 'crit' => 'CRITICAL', |
|
| ); |
|
| |
|
| return $result unless ref $sensor eq 'HASH'; |
return $result unless ref $sensor eq 'HASH'; |
| $check = parse_check($check) if $check; |
$check = parse_check($check) if $check; |
| |
|
| if ( !$check ) { |
if ( !$check ) { return $result; } |
| return $result; |
|
| } |
|
| elsif ( $check eq 'STATUS' ) { |
elsif ( $check eq 'STATUS' ) { |
| |
|
| # It looks like doing this should be safe, from |
# It looks like returning $sensor->{status} should be safe, from |
| # src/sbin/sysctl/sysctl.c |
# src/sbin/sysctl/sysctl.c |
| return ( $sensor->{'status'} || $result ); |
return ( $sensor->{'status'} || $result ); |
| } |
} |
| elsif ( $check eq 'IGNORE' ) { |
elsif ( $check eq 'IGNORE' ) { return; } |
| return; |
|
| |
my $type = $sensor->{'type'}; |
| |
if (grep { $type eq $_ } |
| |
qw( |
| |
fan fanrpm |
| |
volt volts_dc |
| |
amps watthour amphour |
| |
integer raw percent |
| |
lux temp timedelta |
| |
) |
| |
) |
| |
{ |
| |
$result = check_sensor_numeric( $sensor->{'data'}, $check ); |
| } |
} |
| |
elsif ( grep { $type eq $_ } qw( drive indicator ) ) { |
| |
my $data = $sensor->{'data'}; |
| |
$data =~ s/^drive\s+//xms; |
| |
$result = check_sensor_list( $data, $check ); |
| |
} |
| |
else { |
| |
warn 'Unknown Sensor Type: ', $sensor->{'id'}, '=', $type, "\n"; |
| |
} |
| |
|
| foreach my $code ( 'warn', 'crit' ) { |
return $result; |
| if ( $sensor->{'type'} eq 'fan' |
} |
| || $sensor->{'type'} eq 'fanrpm' |
|
| || $sensor->{'type'} eq 'volt' |
|
| || $sensor->{'type'} eq 'volts_dc' |
|
| || $sensor->{'type'} eq 'amps' |
|
| || $sensor->{'type'} eq 'watthour' |
|
| || $sensor->{'type'} eq 'amphour' |
|
| || $sensor->{'type'} eq 'integer' |
|
| || $sensor->{'type'} eq 'raw' |
|
| || $sensor->{'type'} eq 'percent' |
|
| || $sensor->{'type'} eq 'lux' |
|
| || $sensor->{'type'} eq 'timedelta' ) |
|
| { |
|
| my $data = $sensor->{'data'}; |
|
| $data =~ s/[^\d\.]//gxms; |
|
| if ( !length $data ) { |
|
| warn |
|
| "INVALID DATA ($sensor->{'data'}) for '$sensor->{'id'}'\n"; |
|
| next; |
|
| } |
|
| |
|
| if ( defined $check->{ $code . ".low" } |
sub check_sensor_numeric { |
| || defined $check->{ $code . ".high" } ) |
my ( $data, $check ) = @_; |
| { |
|
| if ( defined $check->{ $code . ".low" } ) { |
|
| my $c = $check->{ $code . ".low" }; |
|
| $c =~ s/[^\d\.]//gxms; |
|
| |
|
| if ( !length $c ) { |
my $result = 'UNKNOWN'; |
| warn "INVALID CHECK (" |
my %errors = ( |
| . $check->{ $code . ".low" } |
'warn' => 'WARNING', |
| . ") for '$sensor->{'id'}:$code.low'\n"; |
'crit' => 'CRITICAL', |
| next; |
); |
| } |
|
| |
|
| $result = $errors{$code} |
$data =~ s/[^\d\.]//gxms; |
| if ( $c >= $data ); |
if ( !length $data ) { |
| |
warn "INVALID DATA ($data)\n"; |
| |
return $result; |
| |
} |
| |
|
| |
foreach my $code ( 'warn', 'crit' ) { |
| |
if ( defined $check->{ $code . ".low" } |
| |
|| defined $check->{ $code . ".high" } ) |
| |
{ |
| |
if (( defined $check->{ $code . ".low" } |
| |
&& $check->{ $code . ".low" } >= $data |
| |
) |
| |
|| ( defined $check->{ $code . ".high" } |
| |
&& $check->{ $code . ".high" } <= $data ) |
| |
) |
| |
{ |
| |
$result = $errors{$code}; |
| |
} |
| |
$result = 'OK' if $result eq 'UNKNOWN'; |
| |
} |
| |
elsif ( @{ $check->{$code} } ) { |
| |
my $matched = 0; |
| |
NUMERIC_CHECK: foreach ( @{ $check->{$code} } ) { |
| |
my $c = $_; |
| |
$c =~ s/[^\d\.]//gxms; |
| |
if ( !length $c ) { |
| |
warn "INVALID CHECK (" . $_ . ") for '$code'\n"; |
| |
next; |
| } |
} |
| if ( defined $check->{ $code . ".high" } ) { |
|
| my $c = $check->{ $code . ".high" }; |
|
| $c =~ s/[^\d\.]//gxms; |
|
| if ( !length $c ) { |
|
| warn "INVALID CHECK (" |
|
| . $check->{ $code . ".high" } |
|
| . ") for '$sensor->{'id'}:$code.high'\n"; |
|
| next; |
|
| } |
|
| |
|
| $result = $errors{$code} |
if ( $c eq $data ) { |
| if ( $c <= $data ); |
$matched = 1; |
| |
last NUMERIC_CHECK; |
| } |
} |
| |
} |
| |
if ($matched) { |
| $result = 'OK' if $result eq 'UNKNOWN'; |
$result = 'OK' if $result eq 'UNKNOWN'; |
| } |
} |
| elsif ( @{ $check->{$code} } ) { |
else { |
| my $matched = 0; |
$result = $errors{$code}; |
| foreach ( @{ $check->{$code} } ) { |
|
| my $c = $_; |
|
| $c =~ s/[^\d\.]//gxms; |
|
| if ( !length $c ) { |
|
| warn "INVALID CHECK (" . $_ |
|
| . ") for '$sensor->{'id'}:$code'\n"; |
|
| next; |
|
| } |
|
| |
|
| if ( $c eq $data ) { |
|
| $matched = 1; |
|
| last; |
|
| } |
|
| } |
|
| if ($matched) { |
|
| $result = 'OK' if $result eq 'UNKNOWN'; |
|
| } |
|
| else { |
|
| $result = $errors{$code}; |
|
| } |
|
| } |
} |
| } |
} |
| elsif ( $sensor->{'type'} eq 'temp' ) { |
} |
| my ( $degC, $degF ) = split /\//, $sensor->{'data'}; |
|
| $degC =~ s/[^\d\.]//gxms; |
|
| $degF ||= $degC * 9 / 5 + 32; |
|
| $degF =~ s/[^\d\.]//gxms; |
|
| if ( defined $check->{ $code . ".low" } |
|
| || defined $check->{ $code . ".high" } ) |
|
| { |
|
| if ( defined $check->{ $code . ".low" } ) { |
|
| my $c = $check->{ $code . ".low" }; |
|
| my $data = $degC; |
|
| |
|
| $data = $degF if ( $c =~ /F/ixms ); |
return $result; |
| if ( !length $data ) { |
} |
| warn "INVALID DATA (" |
|
| . $sensor->{'data'} |
|
| . ") for '$sensor->{'id'}'\n"; |
|
| next; |
|
| } |
|
| |
|
| $c =~ s/[^\d\.]//gxms; |
sub check_sensor_list { |
| if ( !length $c ) { |
my ( $data, $check ) = @_; |
| warn "INVALID CHECK (" |
|
| . $check->{ $code . ".low" } |
|
| . ") for '$sensor->{'id'}':$code.low\n"; |
|
| next; |
|
| } |
|
| |
|
| $result = $errors{$code} |
my $result = 'UNKNOWN'; |
| if ( $c >= $data ); |
my %errors = ( |
| } |
'warn' => 'WARNING', |
| if ( defined $check->{ $code . ".high" } ) { |
'crit' => 'CRITICAL', |
| my $c = $check->{ $code . ".high" }; |
); |
| |
|
| my $data = $degC; |
foreach my $code ( 'warn', 'crit' ) { |
| $data = $degF if ( $c =~ /F/ixms ); |
if ( @{ $check->{$code} } ) { |
| if ( !length $data ) { |
my $matched = 0; |
| warn "INVALID DATA (" |
LIST_CHECK: foreach ( @{ $check->{$code} } ) { |
| . $sensor->{'data'} |
if ( $_ eq $data ) { |
| . ") for '$sensor->{'id'}'\n"; |
$matched = 1; |
| next; |
last LIST_CHECK; |
| } |
|
| |
|
| $c =~ s/[^\d\.]//gxms; |
|
| if ( !length $c ) { |
|
| warn "INVALID CHECK (" |
|
| . $check->{ $code . ".high" } |
|
| . ") for '$sensor->{'id'}:$code.high'\n"; |
|
| next; |
|
| } |
|
| |
|
| $result = $errors{$code} |
|
| if ( $c <= $data ); |
|
| } |
} |
| |
} |
| |
if ($matched) { |
| $result = 'OK' if $result eq 'UNKNOWN'; |
$result = 'OK' if $result eq 'UNKNOWN'; |
| } |
} |
| elsif ( @{ $check->{$code} } ) { |
else { |
| my $matched = 0; |
$result = $errors{$code}; |
| foreach ( @{ $check->{$code} } ) { |
|
| my $c = $_; |
|
| my $data = $degC; |
|
| |
|
| $data = $degF if ( $c =~ /F/ixms ); |
|
| if ( !length $data ) { |
|
| warn "INVALID DATA (" |
|
| . $sensor->{'data'} |
|
| . ") for '$sensor->{'id'}'\n"; |
|
| next; |
|
| } |
|
| |
|
| $c =~ s/[^\d\.]//gxms; |
|
| if ( !length $c ) { |
|
| warn "INVALID CHECK (" . $_ |
|
| . ") for '$sensor->{'id'}':$code\n"; |
|
| next; |
|
| } |
|
| |
|
| if ( $c eq $data ) { |
|
| $matched = 1; |
|
| last; |
|
| } |
|
| } |
|
| if ($matched) { |
|
| $result = 'OK' if $result eq 'UNKNOWN'; |
|
| } |
|
| else { |
|
| $result = $errors{$code}; |
|
| } |
|
| } |
} |
| } |
} |
| elsif ($sensor->{'type'} eq 'drive' |
|
| || $sensor->{'type'} eq 'indicator' ) |
|
| { |
|
| $sensor->{'data'} =~ s/^drive\s+//; |
|
| if ( @{ $check->{$code} } ) { |
|
| my $matched = 0; |
|
| foreach ( @{ $check->{$code} } ) { |
|
| if ( $_ eq $sensor->{'data'} ) { |
|
| $matched = 1; |
|
| last; |
|
| } |
|
| } |
|
| if ($matched) { |
|
| $result = 'OK' if $result eq 'UNKNOWN'; |
|
| } |
|
| else { |
|
| $result = $errors{$code}; |
|
| } |
|
| } |
|
| |
|
| } |
|
| else { |
|
| warn 'Unknown Sensor Type: ', |
|
| $sensor->{'id'}, |
|
| '=', |
|
| $sensor->{'type'}, |
|
| "\n"; |
|
| } |
|
| |
|
| } |
} |
| |
|
| return $result; |
return $result; |
|
|
| can be used when appropriate, or you can use the following: |
can be used when appropriate, or you can use the following: |
| |
|
| fanrpm, volts_dc, amps, watthour, amphour, integer (raw), percent, |
fanrpm, volts_dc, amps, watthour, amphour, integer (raw), percent, |
| lux or timedelta - Anything that includes digits. Both the value of |
lux, temp or timedelta - Anything that includes digits. Both the |
| the check and the value of the sensor response that are not either a |
value of the check and the value of the sensor response that are not |
| digit or period are stripped and then the two resultant values are |
either a digit or period are stripped and then the two resultant |
| compared. |
values are compared. |
| |
|
| temp - Can be as above, but if the entry has an F in it, |
|
| it compares farenheit, otherwise it uses celcius. |
|
| |
|
| indicator or drive - does a case sensitive match of each |
indicator or drive - does a case sensitive match of each |
| entry in the comma separated list and if it does not match |
entry in the comma separated list and if it does not match |
| any of the entries, it sets the status. |
any of the entries, it sets the status. |
|
|
| |
|
| print_revision( $PROGNAME, '$Revision$' ); |
print_revision( $PROGNAME, '$Revision$' ); |
| |
|
| print $License; |
print $LICENSE; |
| |
|
| |
return; |
| } |
} |
| |
|
| sub print_revision { |
sub print_revision { |
|
|
| $rev =~ s/^\D+([\d\.]+)\D+$/v$1/xms; |
$rev =~ s/^\D+([\d\.]+)\D+$/v$1/xms; |
| |
|
| print "$prog $rev\n"; |
print "$prog $rev\n"; |
| |
|
| |
return; |
| } |
} |
| |
|
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