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#!/usr/local/groundwork/perl/bin/perl -w
############################## check_snmp_storage ##############
# Version : 1.3.3
# Date : Jun 1 2007
# Author : Patrick Proy ( patrick at proy.org)
# Help : http://nagios.manubulon.com
# Licence : GPL - http://www.fsf.org/licenses/gpl.txt
# TODO :
# Contribs : Dimo Velev, Makina Corpus, A. Greiner-Bär
#################################################################
#
# help : ./check_snmp_storage -h
use strict;
use Net::SNMP;
use Getopt::Long;
# Nagios specific
use lib "/usr/local/groundwork/nagios/libexec";
use utils qw(%ERRORS $TIMEOUT);
#my $TIMEOUT = 15;
#my %ERRORS=('OK'=>0,'WARNING'=>1,'CRITICAL'=>2,'UNKNOWN'=>3,'DEPENDENT'=>4);
# SNMP Datas
my $storage_table= '1.3.6.1.2.1.25.2.3.1';
my $storagetype_table = '1.3.6.1.2.1.25.2.3.1.2';
my $index_table = '1.3.6.1.2.1.25.2.3.1.1';
my $descr_table = '1.3.6.1.2.1.25.2.3.1.3';
my $size_table = '1.3.6.1.2.1.25.2.3.1.5.';
my $used_table = '1.3.6.1.2.1.25.2.3.1.6.';
my $alloc_units = '1.3.6.1.2.1.25.2.3.1.4.';
#Storage types definition - from /usr/share/snmp/mibs/HOST-RESOURCES-TYPES.txt
my %hrStorage;
$hrStorage{"Other"} = '1.3.6.1.2.1.25.2.1.1';
$hrStorage{"1.3.6.1.2.1.25.2.1.1"} = 'Other';
$hrStorage{"Ram"} = '1.3.6.1.2.1.25.2.1.2';
$hrStorage{"1.3.6.1.2.1.25.2.1.2"} = 'Ram';
$hrStorage{"VirtualMemory"} = '1.3.6.1.2.1.25.2.1.3';
$hrStorage{"1.3.6.1.2.1.25.2.1.3"} = 'VirtualMemory';
$hrStorage{"FixedDisk"} = '1.3.6.1.2.1.25.2.1.4';
$hrStorage{"1.3.6.1.2.1.25.2.1.4"} = 'FixedDisk';
$hrStorage{"RemovableDisk"} = '1.3.6.1.2.1.25.2.1.5';
$hrStorage{"1.3.6.1.2.1.25.2.1.5"} = 'RemovableDisk';
$hrStorage{"FloppyDisk"} = '1.3.6.1.2.1.25.2.1.6';
$hrStorage{"1.3.6.1.2.1.25.2.1.6"} = 'FloppyDisk';
$hrStorage{"CompactDisk"} = '1.3.6.1.2.1.25.2.1.7';
$hrStorage{"1.3.6.1.2.1.25.2.1.7"} = 'CompactDisk';
$hrStorage{"RamDisk"} = '1.3.6.1.2.1.25.2.1.8';
$hrStorage{"1.3.6.1.2.1.25.2.1.8"} = 'RamDisk';
$hrStorage{"FlashMemory"} = '1.3.6.1.2.1.25.2.1.9';
$hrStorage{"1.3.6.1.2.1.25.2.1.9"} = 'FlashMemory';
$hrStorage{"NetworkDisk"} = '1.3.6.1.2.1.25.2.1.10';
$hrStorage{"1.3.6.1.2.1.25.2.1.10"} = 'NetworkDisk';
# Globals
my $Name='check_snmp_storage';
my $Version='1.3.3';
my $o_host = undef; # hostname
my $o_community = undef; # community
my $o_port = 161; # port
my $o_version2 = undef; #use snmp v2c
my $o_descr = undef; # description filter
my $o_storagetype = undef; # parse storage type also
my $o_warn = undef; # warning limit
my $o_crit= undef; # critical limit
my $o_help= undef; # wan't some help ?
my $o_type= undef; # pl, pu, mbl, mbu
my @o_typeok= ("pu","pl","bu","bl"); # valid values for o_type
my $o_verb= undef; # verbose mode
my $o_version= undef; # print version
my $o_noreg= undef; # Do not use Regexp for name
my $o_sum= undef; # add all storage before testing
my $o_index= undef; # Parse index instead of description
my $o_negate= undef; # Negate the regexp if set
my $o_timeout= 5; # Default 5s Timeout
my $o_perf= undef; # Output performance data
my $o_short= undef; # Short output parameters
my @o_shortL= undef; # output type,where,cut
my $o_reserve= 0; # % reserved blocks (A. Greiner-Bär patch)
my $o_giga= undef; # output and levels in gigabytes instead of megabytes
# SNMPv3 specific
my $o_login= undef; # Login for snmpv3
my $o_passwd= undef; # Pass for snmpv3
my $v3protocols=undef; # V3 protocol list.
my $o_authproto='md5'; # Auth protocol
my $o_privproto='des'; # Priv protocol
my $o_privpass= undef; # priv password
# SNMP Message size parameter (Makina Corpus contrib)
my $o_octetlength=undef;
# functions
sub p_version { print "$Name version : $Version\n"; }
sub print_usage {
print "Usage: $Name [-v] -H <host> -C <snmp_community> [-2] | (-l login -x passwd [-X pass -L <authp>,<privp>]) [-p <port>] -m <name in desc_oid> [-q storagetype] -w <warn_level> -c <crit_level> [-t <timeout>] [-T pl|pu|bl|bu ] [-r -s -i -G] [-e] [-S 0|1[,1,<car>]] [-o <octet_length>] [-R <% reserved>]\n";
}
sub round ($$) {
sprintf "%.$_[1]f", $_[0];
}
sub is_pattern_valid { # Test for things like "<I\s*[^>" or "+5-i"
my $pat = shift;
if (!defined($pat)) { $pat=" ";} # Just to get rid of compilation time warnings
return eval { "" =~ /$pat/; 1 } || 0;
}
# Get the alarm signal (just in case snmp timout screws up)
$SIG{'ALRM'} = sub {
print ("ERROR: General time-out (Alarm signal)\n");
exit $ERRORS{"UNKNOWN"};
};
sub isnnum { # Return true if arg is not a number
my $num = shift;
if ( $num =~ /^-?(\d+\.?\d*)|(^\.\d+)$/ ) { return 0 ;}
return 1;
}
sub help {
print "\nSNMP Disk Monitor for Nagios version ",$Version,"\n";
print "(c)2004-2007 Patrick Proy\n\n";
print_usage();
print <<EOT;
By default, plugin will monitor %used on drives :
warn if %used > warn and critical if %used > crit
-v, --verbose
print extra debugging information (and lists all storages)
-h, --help
print this help message
-H, --hostname=HOST
name or IP address of host to check
-C, --community=COMMUNITY NAME
community name for the host's SNMP agent (implies SNMP v1)
-2, --v2c
Use snmp v2c
-l, --login=LOGIN ; -x, --passwd=PASSWD
Login and auth password for snmpv3 authentication
If no priv password exists, implies AuthNoPriv
-X, --privpass=PASSWD
Priv password for snmpv3 (AuthPriv protocol)
-L, --protocols=<authproto>,<privproto>
<authproto> : Authentication protocol (md5|sha : default md5)
<privproto> : Priv protocole (des|aes : default des)
-x, --passwd=PASSWD
Password for snmpv3 authentication
-p, --port=PORT
SNMP port (Default 161)
-m, --name=NAME
Name in description OID (can be mounpoints '/home' or 'Swap Space'...)
This is treated as a regexp : -m /var will match /var , /var/log, /opt/var ...
Test it before, because there are known bugs (ex : trailling /)
No trailing slash for mountpoints !
-q, --storagetype=[Other|Ram|VirtualMemory|FixedDisk|RemovableDisk|FloppyDisk
CompactDisk|RamDisk|FlashMemory|NetworkDisk]
Also check the storage type in addition of the name
It is possible to use regular expressions ( "FixedDisk|FloppyDisk" )
-r, --noregexp
Do not use regexp to match NAME in description OID
-s, --sum
Add all storages that match NAME (used space and total space)
THEN make the tests.
-i, --index
Parse index table instead of description table to select storage
-e, --exclude
Select all storages except the one(s) selected by -m
No action on storage type selection
-T, --type=TYPE
pl : calculate percent left
pu : calculate percent used (Default)
bl : calculate MegaBytes left
bu : calculate MegaBytes used
-w, --warn=INTEGER
percent / MB of disk used to generate WARNING state
you can add the % sign
-c, --critical=INTEGER
percent / MB of disk used to generate CRITICAL state
you can add the % sign
-R, --reserved=INTEGER
% reserved blocks for superuser
For ext2/3 filesystems, it is 5% by default
-G, --gigabyte
output, warning & critical levels in gigabytes
-f, --perfparse
Perfparse compatible output
-S, --short=<type>[,<where>,<cut>]
<type>: Make the output shorter :
0 : only print the global result except the disk in warning or critical
ex: "< 80% : OK"
1 : Don't print all info for every disk
ex : "/ : 66 %used (< 80) : OK"
<where>: (optional) if = 1, put the OK/WARN/CRIT at the beginning
<cut>: take the <n> first caracters or <n> last if n<0
-o, --octetlength=INTEGER
max-size of the SNMP message, usefull in case of Too Long responses.
Be carefull with network filters. Range 484 - 65535, default are
usually 1472,1452,1460 or 1440.
-t, --timeout=INTEGER
timeout for SNMP in seconds (Default: 5)
-V, --version
prints version number
Note :
with T=pu or T=bu : OK < warn < crit
with T=pl ot T=bl : crit < warn < OK
If multiple storage are selected, the worse condition will be returned
i.e if one disk is critical, the return is critical
example :
Browse storage list : <script> -C <community> -H <host> -m <anything> -w 1 -c 2 -v
the -m option allows regexp in perl format :
Test drive C,F,G,H,I on Windows : -m ^[CFGHI]:
Test all mounts containing /var : -m /var
Test all mounts under /var : -m ^/var
Test only /var : -m /var -r
Test all swap spaces : -m ^Swap
Test all but swap spaces : -m ^Swap -e
EOT
}
sub verb { my $t=shift; print $t,"\n" if defined($o_verb) ; }
sub check_options {
Getopt::Long::Configure ("bundling");
GetOptions(
'v' => \$o_verb, 'verbose' => \$o_verb,
'h' => \$o_help, 'help' => \$o_help,
'H:s' => \$o_host, 'hostname:s' => \$o_host,
'p:i' => \$o_port, 'port:i' => \$o_port,
'C:s' => \$o_community, 'community:s' => \$o_community,
'2' => \$o_version2, 'v2c' => \$o_version2,
'l:s' => \$o_login, 'login:s' => \$o_login,
'x:s' => \$o_passwd, 'passwd:s' => \$o_passwd,
'X:s' => \$o_privpass, 'privpass:s' => \$o_privpass,
'L:s' => \$v3protocols, 'protocols:s' => \$v3protocols,
'c:s' => \$o_crit, 'critical:s' => \$o_crit,
'w:s' => \$o_warn, 'warn:s' => \$o_warn,
't:i' => \$o_timeout, 'timeout:i' => \$o_timeout,
'm:s' => \$o_descr, 'name:s' => \$o_descr,
'T:s' => \$o_type, 'type:s' => \$o_type,
'r' => \$o_noreg, 'noregexp' => \$o_noreg,
's' => \$o_sum, 'sum' => \$o_sum,
'i' => \$o_index, 'index' => \$o_index,
'e' => \$o_negate, 'exclude' => \$o_negate,
'V' => \$o_version, 'version' => \$o_version,
'q:s' => \$o_storagetype, 'storagetype:s'=> \$o_storagetype,
'S:s' => \$o_short, 'short:s' => \$o_short,
'o:i' => \$o_octetlength, 'octetlength:i' => \$o_octetlength,
'f' => \$o_perf, 'perfparse' => \$o_perf,
'R:i' => \$o_reserve, 'reserved:i' => \$o_reserve,
'G' => \$o_giga, 'gigabyte' => \$o_giga
);
if (defined($o_help) ) { help(); exit $ERRORS{"UNKNOWN"}};
if (defined($o_version) ) { p_version(); exit $ERRORS{"UNKNOWN"}};
# check mount point regexp
if (!is_pattern_valid($o_descr))
{ print "Bad pattern for mount point !\n"; print_usage(); exit $ERRORS{"UNKNOWN"}}
# check snmp information
if ( !defined($o_community) && (!defined($o_login) || !defined($o_passwd)) )
{ print "Put snmp login info!\n"; print_usage(); exit $ERRORS{"UNKNOWN"}}
if ((defined($o_login) || defined($o_passwd)) && (defined($o_community) || defined($o_version2)) )
{ print "Can't mix snmp v1,2c,3 protocols!\n"; print_usage(); exit $ERRORS{"UNKNOWN"}}
if (defined ($v3protocols)) {
if (!defined($o_login)) { print "Put snmp V3 login info with protocols!\n"; print_usage(); exit $ERRORS{"UNKNOWN"}}
my @v3proto=split(/,/,$v3protocols);
if ((defined ($v3proto[0])) && ($v3proto[0] ne "")) {$o_authproto=$v3proto[0]; } # Auth protocol
if (defined ($v3proto[1])) {$o_privproto=$v3proto[1]; } # Priv protocol
if ((defined ($v3proto[1])) && (!defined($o_privpass))) {
print "Put snmp V3 priv login info with priv protocols!\n"; print_usage(); exit $ERRORS{"UNKNOWN"}}
}
# Check types
if ( !defined($o_type) ) { $o_type="pu" ;}
if ( ! grep( /^$o_type$/ ,@o_typeok) ) { print_usage(); exit $ERRORS{"UNKNOWN"}};
# Check compulsory attributes
if ( ! defined($o_descr) || ! defined($o_host) || !defined($o_warn) ||
!defined($o_crit)) { print_usage(); exit $ERRORS{"UNKNOWN"}};
# Get rid of % sign if any
$o_warn =~ s/\%//;
$o_crit =~ s/\%//;
# Check for positive numbers
if (($o_warn < 0) || ($o_crit < 0)) { print " warn and critical > 0 \n";print_usage(); exit $ERRORS{"UNKNOWN"}};
# check if warn or crit in % and MB is tested
if ( ( ( $o_warn =~ /%/ ) || ($o_crit =~ /%/)) && ( ( $o_type eq 'bu' ) || ( $o_type eq 'bl' ) ) ) {
print "warning or critical cannot be in % when MB are tested\n";
print_usage(); exit $ERRORS{"UNKNOWN"};
}
# Check warning and critical values
if ( ( $o_type eq 'pu' ) || ( $o_type eq 'bu' )) {
if ($o_warn >= $o_crit) { print " warn < crit if type=",$o_type,"\n";print_usage(); exit $ERRORS{"UNKNOWN"}};
}
if ( ( $o_type eq 'pl' ) || ( $o_type eq 'bl' )) {
if ($o_warn <= $o_crit) { print " warn > crit if type=",$o_type,"\n";print_usage(); exit $ERRORS{"UNKNOWN"}};
}
if ( ($o_warn < 0 ) || ($o_crit < 0 )) { print "warn and crit must be > 0\n";print_usage(); exit $ERRORS{"UNKNOWN"}};
if ( ( $o_type eq 'pl' ) || ( $o_type eq 'pu' )) {
if ( ($o_warn > 100 ) || ($o_crit > 100 )) { print "percent must be < 100\n";print_usage(); exit $ERRORS{"UNKNOWN"}};
}
# Check short values
if ( defined ($o_short)) {
@o_shortL=split(/,/,$o_short);
if ((isnnum($o_shortL[0])) || ($o_shortL[0] !=0) && ($o_shortL[0]!=1)) {
print "-S first option must be 0 or 1\n";print_usage(); exit $ERRORS{"UNKNOWN"};
}
if (defined ($o_shortL[1])&& $o_shortL[1] eq "") {$o_shortL[1]=undef};
if (defined ($o_shortL[2]) && isnnum($o_shortL[2]))
{print "-S last option must be an integer\n";print_usage(); exit $ERRORS{"UNKNOWN"};}
}
#### octet length checks
if (defined ($o_octetlength) && (isnnum($o_octetlength) || $o_octetlength > 65535 || $o_octetlength < 484 )) {
print "octet lenght must be < 65535 and > 484\n";print_usage(); exit $ERRORS{"UNKNOWN"};
}
#### reserved blocks checks (A. Greiner-Bär patch).
if (defined ($o_reserve) && (isnnum($o_reserve) || $o_reserve > 99 || $o_reserve < 0 )) {
print "reserved blocks must be < 100 and >= 0\n";print_usage(); exit $ERRORS{"UNKNOWN"};
}
}
########## MAIN #######
check_options();
# Check gobal timeout
if (defined($TIMEOUT)) {
verb("Alarm at $TIMEOUT");
alarm($TIMEOUT);
} else {
verb("no timeout defined : $o_timeout + 10");
alarm ($o_timeout+10);
}
# Connect to host
my ($session,$error);
if ( defined($o_login) && defined($o_passwd)) {
# SNMPv3 login
verb("SNMPv3 login");
if (!defined ($o_privpass)) {
verb("SNMPv3 AuthNoPriv login : $o_login, $o_authproto");
($session, $error) = Net::SNMP->session(
-hostname => $o_host,
-version => '3',
-username => $o_login,
-authpassword => $o_passwd,
-authprotocol => $o_authproto,
-port => $o_port,
-timeout => $o_timeout
);
} else {
verb("SNMPv3 AuthPriv login : $o_login, $o_authproto, $o_privproto");
($session, $error) = Net::SNMP->session(
-hostname => $o_host,
-version => '3',
-username => $o_login,
-authpassword => $o_passwd,
-authprotocol => $o_authproto,
-privpassword => $o_privpass,
-privprotocol => $o_privproto,
-port => $o_port,
-timeout => $o_timeout
);
}
} else {
if (defined ($o_version2)) {
# SNMPv2 Login
verb("SNMP v2c login");
($session, $error) = Net::SNMP->session(
-hostname => $o_host,
-version => 2,
-community => $o_community,
-port => $o_port,
-timeout => $o_timeout
);
} else {
# SNMPV1 login
verb("SNMP v1 login");
($session, $error) = Net::SNMP->session(
-hostname => $o_host,
-community => $o_community,
-port => $o_port,
-timeout => $o_timeout
);
}
}
if (!defined($session)) {
printf("ERROR: %s.\n", $error);
exit $ERRORS{"UNKNOWN"};
}
if (defined($o_octetlength)) {
my $oct_resultat=undef;
my $oct_test= $session->max_msg_size();
verb(" actual max octets:: $oct_test");
$oct_resultat = $session->max_msg_size($o_octetlength);
if (!defined($oct_resultat)) {
printf("ERROR: Session settings : %s.\n", $session->error);
$session->close;
exit $ERRORS{"UNKNOWN"};
}
$oct_test= $session->max_msg_size();
verb(" new max octets:: $oct_test");
}
my $resultat=undef;
my $stype=undef;
# Get rid of UTF8 translation in case of accentuated caracters (thanks to Dimo Velev).
$session->translate(Net::SNMP->TRANSLATE_NONE);
if (defined ($o_index)){
if (Net::SNMP->VERSION < 4) {
$resultat = $session->get_table($index_table);
} else {
$resultat = $session->get_table(Baseoid => $index_table);
}
} else {
if (Net::SNMP->VERSION < 4) {
$resultat = $session->get_table($descr_table);
} else {
$resultat = $session->get_table(Baseoid => $descr_table);
}
}
#get storage typetable for reference
if (defined($o_storagetype)){
if (Net::SNMP->VERSION < 4) {
$stype = $session->get_table($storagetype_table);
} else {
$stype = $session->get_table(Baseoid => $storagetype_table);
}
}
if (!defined($resultat) | (!defined($stype) && defined($o_storagetype))) {
printf("ERROR: Description/Type table : %s.\n", $session->error);
$session->close;
exit $ERRORS{"UNKNOWN"};
}
my @tindex = undef;
my @oids = undef;
my @descr = undef;
my $num_int = 0;
my $count_oid = 0;
my $test = undef;
my $perf_out= undef;
# Select storage by regexp of exact match
# and put the oid to query in an array
verb("Filter : $o_descr");
foreach my $key ( keys %$resultat) {
verb("OID : $key, Desc : $$resultat{$key}");
# test by regexp or exact match / include or exclude
if (defined($o_negate)) {
$test = defined($o_noreg)
? $$resultat{$key} ne $o_descr
: $$resultat{$key} !~ /$o_descr/;
} else {
$test = defined($o_noreg)
? $$resultat{$key} eq $o_descr
: $$resultat{$key} =~ /$o_descr/;
}
if ($test) {
# get the index number of the interface
my @oid_list = split (/\./,$key);
$tindex[$num_int] = pop (@oid_list);
# Check if storage type is OK
if (defined($o_storagetype)) {
my($skey)=$storagetype_table.".".$tindex[$num_int];
verb(" OID : $skey, Storagetype: $hrStorage{$$stype{$skey}} ?= $o_storagetype");
if ( $hrStorage{$$stype{$skey}} !~ $o_storagetype) {
$test=undef;
}
}
if ($test) {
# get the full description
$descr[$num_int]=$$resultat{$key};
# put the oid in an array
$oids[$count_oid++]=$size_table . $tindex[$num_int];
$oids[$count_oid++]=$used_table . $tindex[$num_int];
$oids[$count_oid++]=$alloc_units . $tindex[$num_int];
verb(" Name : $descr[$num_int], Index : $tindex[$num_int]");
$num_int++;
}
}
}
verb("storages selected : $num_int");
if ( $num_int == 0 ) { print "Unknown storage : $o_descr : ERROR\n" ; exit $ERRORS{"UNKNOWN"};}
my $result=undef;
if (Net::SNMP->VERSION < 4) {
$result = $session->get_request(@oids);
} else {
if ($session->version == 0) {
# snmpv1
$result = $session->get_request(Varbindlist => \@oids);
} else {
# snmp v2c or v3 : get_bulk_request is not really good for this, so do simple get
$result = $session->get_request(Varbindlist => \@oids);
foreach my $key ( keys %$result) { verb("$key : $$result{$key}"); }
}
}
if (!defined($result)) { printf("ERROR: Size table :%s.\n", $session->error); $session->close;
exit $ERRORS{"UNKNOWN"};
}
$session->close;
# Only a few ms left...
alarm(0);
# Sum everything if -s and more than one storage
if ( defined ($o_sum) && ($num_int > 1) ) {
verb("Adding all entries");
$$result{$size_table . $tindex[0]} *= $$result{$alloc_units . $tindex[0]};
$$result{$used_table . $tindex[0]} *= $$result{$alloc_units . $tindex[0]};
$$result{$alloc_units . $tindex[0]} = 1;
for (my $i=1;$i<$num_int;$i++) {
$$result{$size_table . $tindex[0]} += ($$result{$size_table . $tindex[$i]}
* $$result{$alloc_units . $tindex[$i]});
$$result{$used_table . $tindex[0]} += ($$result{$used_table . $tindex[$i]}
* $$result{$alloc_units . $tindex[$i]});
}
$num_int=1;
$descr[0]="Sum of all $o_descr";
}
my $i=undef;
my $warn_state=0;
my $crit_state=0;
my ($p_warn,$p_crit);
my $output=undef;
my $output_metric_val = 1024**2;
my $output_metric = "M";
# Set the metric
if (defined($o_giga)) {
$output_metric_val *= 1024;
$output_metric='G';
}
for ($i=0;$i<$num_int;$i++) {
verb("Descr : $descr[$i]");
verb("Size : $$result{$size_table . $tindex[$i]}");
verb("Used : $$result{$used_table . $tindex[$i]}");
verb("Alloc : $$result{$alloc_units . $tindex[$i]}");
if (!defined($$result{$size_table . $tindex[$i]}) ||
!defined($$result{$used_table . $tindex[$i]}) ||
!defined ($$result{$alloc_units . $tindex[$i]})) {
print "Data not fully defined for storage ",$descr[$i]," : UNKNOWN\n";
exit $ERRORS{"UNKNOWN"};
}
my $to = $$result{$size_table . $tindex[$i]} * ( ( 100 - $o_reserve ) / 100 ) * $$result{$alloc_units . $tindex[$i]} / $output_metric_val;
my $pu=undef;
if ( $$result{$used_table . $tindex[$i]} != 0 ) {
$pu = $$result{$used_table . $tindex[$i]}* 100 / ( $$result{$size_table . $tindex[$i]} * ( 100 - $o_reserve ) / 100 );
}else {
$pu=0;
}
my $bu = $$result{$used_table . $tindex[$i]} * $$result{$alloc_units . $tindex[$i]} / $output_metric_val;
my $pl = 100 - $pu;
my $bl = ( ( $$result{$size_table . $tindex[$i]} * ( ( 100 - $o_reserve ) / 100 ) - ( $$result{$used_table . $tindex[$i]} ) ) * $$result{$alloc_units . $tindex[$i]} / $output_metric_val );
# add a ' ' if some data exists in $perf_out
$perf_out .= " " if (defined ($perf_out)) ;
##### Ouputs and checks
# Keep complete description fot performance output (in MB)
my $Pdescr=$descr[$i];
$Pdescr =~ s/[`~!\$%\^&\*'"<>|\?,\(= )]/_/g;
##### TODO : subs "," with something
if (defined($o_shortL[2])) {
if ($o_shortL[2] < 0) {$descr[$i]=substr($descr[$i],$o_shortL[2]);}
else {$descr[$i]=substr($descr[$i],0,$o_shortL[2]);}
}
if ($o_type eq "pu") { # Checks % used
my $locstate=0;
$p_warn=$o_warn*$to/100;$p_crit=$o_crit*$to/100;
(($pu >= $o_crit) && ($locstate=$crit_state=1))
|| (($pu >= $o_warn) && ($locstate=$warn_state=1));
if (defined($o_shortL[2])) {}
if (!defined($o_shortL[0]) || ($locstate==1)) { # print full output if warn or critical state
$output.=sprintf ("%s: %.0f%%used(%.0f%sB/%.0f%sB) ",$descr[$i],$pu,$bu,$output_metric,$to,$output_metric);
} elsif ($o_shortL[0] == 1) {
$output.=sprintf ("%s: %.0f%% ",$descr[$i],$pu);
}
}
if ($o_type eq 'bu') { # Checks MBytes used
my $locstate=0;
$p_warn=$o_warn;$p_crit=$o_crit;
( ($bu >= $o_crit) && ($locstate=$crit_state=1) )
|| ( ($bu >= $o_warn) && ($locstate=$warn_state=1) );
if (!defined($o_shortL[0]) || ($locstate==1)) { # print full output if warn or critical state
$output.=sprintf("%s: %.0f%sBused/%.0f%sB (%.0f%%) ",$descr[$i],$bu,$output_metric,$to,$output_metric,$pu);
} elsif ($o_shortL[0] == 1) {
$output.=sprintf("%s: %.0f%sB ",$descr[$i],$bu,$output_metric);
}
}
if ($o_type eq 'bl') {
my $locstate=0;
$p_warn=$to-$o_warn;$p_crit=$to-$o_crit;
( ($bl <= $o_crit) && ($locstate=$crit_state=1) )
|| ( ($bl <= $o_warn) && ($locstate=$warn_state=1) );
if (!defined($o_shortL[0]) || ($locstate==1)) { # print full output if warn or critical state
$output.=sprintf ("%s: %.0f%sBleft/%.0f%sB (%.0f%%) ",$descr[$i],$bl,$output_metric,$to,$output_metric,$pl);
} elsif ($o_shortL[0] == 1) {
$output.=sprintf ("%s: %.0f%sB ",$descr[$i],$bl,$output_metric);
}
}
if ($o_type eq 'pl') {
my $locstate=0;
$p_warn=(100-$o_warn)*$to/100;$p_crit=(100-$o_crit)*$to/100;
( ($pl <= $o_crit) && ($locstate=$crit_state=1) )
|| ( ($pl <= $o_warn) && ($locstate=$warn_state=1) );
if (!defined($o_shortL[0]) || ($locstate==1)) { # print full output if warn or critical state
$output.=sprintf ("%s: %.0f%%left(%.0f%sB/%.0f%sB) ",$descr[$i],$pl,$bl,$output_metric,$to,$output_metric);
} elsif ($o_shortL[0] == 1) {
$output.=sprintf ("%s: %.0f%% ",$descr[$i],$pl);
}
}
# Performance output (in MB)
$perf_out .= "'".$Pdescr. "'=" . round($bu,0) . $output_metric ."B;" . round($p_warn,0)
. ";" . round($p_crit,0) . ";0;" . round($to,0);
}
verb ("Perf data : $perf_out");
my $comp_oper=undef;
my $comp_unit=undef;
($o_type eq "pu") && ($comp_oper ="<") && ($comp_unit ="%");
($o_type eq "pl") && ($comp_oper =">") && ($comp_unit ="%");
($o_type eq "bu") && ($comp_oper ="<") && ($comp_unit = $output_metric."B");
($o_type eq 'bl') && ($comp_oper =">") && ($comp_unit =$output_metric."B");
if (!defined ($output)) { $output="All selected storages "; }
if ( $crit_state == 1) {
$comp_oper = ($comp_oper eq "<") ? ">" : "<"; # Inverse comp operator
if (defined($o_shortL[1])) {
print "CRITICAL : (",$comp_oper,$o_crit,$comp_unit,") ",$output;
} else {
print $output,"(",$comp_oper,$o_crit,$comp_unit,") : CRITICAL";
}
(defined($o_perf)) ? print " | ",$perf_out,"\n" : print "\n";
exit $ERRORS{"CRITICAL"};
}
if ( $warn_state == 1) {
$comp_oper = ($comp_oper eq "<") ? ">" : "<"; # Inverse comp operator
if (defined($o_shortL[1])) {
print "WARNING : (",$comp_oper,$o_warn,$comp_unit,") ",$output;
} else {
print $output,"(",$comp_oper,$o_warn,$comp_unit,") : WARNING";
}
(defined($o_perf)) ? print " | ",$perf_out,"\n" : print "\n";
exit $ERRORS{"WARNING"};
}
if (defined($o_shortL[1])) {
print "OK : (",$comp_oper,$o_warn,$comp_unit,") ",$output;
} else {
print $output,"(",$comp_oper,$o_warn,$comp_unit,") : OK";
}
(defined($o_perf)) ? print " | ",$perf_out,"\n" : print "\n";
exit $ERRORS{"OK"};