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disklist.pl
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disklist.pl
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#!/usr/local/bin/perl
use strict;
use warnings;
use POSIX;
#use XML::LibXML;
#==========================================================================
#
# disklist.pl : Report installed disk output for FreeBsd/FreeNAS
# Copyright (C) 2017 André Sébastien (sebastien.andre.288@gmail.com), Fort Pierre-Marie
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published by
# the Free Software Foundation, either version 3 of the License, or 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 Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
#==========================================================================
#
# $devices{'da14'}->{'device'} da14
# $devices{'da14'}->{'sectorsize'} 512
# $devices{'da14'}->{'disksize'} 2000398934016
# $devices{'da14'}->{'serial'} YFH1H5TD
# $devices{'da14'}->{'partitioned'} 0 or 1
# $devices{'da14'}->{'type'} SSD or HDD or NVME
# $devices{'da14'}->{'rpm'} 7200
# $devices{'da14'}->{'multipath'} multipath/disk46
# $devices{'da14'}->{'multipath_mode'} ACTIVE
# $devices{'da14'}->{'multipath_state'} OPTIMAL
#
our %devices;
our @devicesKeys;
#
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'gptid'} gptid/247b7464-8cba-11e6-b58c-0cc47a320ec8
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'uuid'} 247b7464-8cba-11e6-b58c-0cc47a320ec8
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'partition'} multipath/disk30p2
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'type'} freebsd-zfs
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'component'} multipath/disk30
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'device'} da97
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'devices'} da97,da96
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'path'} multipath/disk30
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'zpool'} volFAST
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'zpool_location'} volMAIN/mirror-0
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'zpool_state'} ONLINE
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'zpool_mount'} /mnt/volFAST
# $partitions{'gptid/fe38f700-829a-11e7-810a-00074304a2f0'}->{'encryption'} AES-XTS
#
our %partitions;
our @partitionsKeys;
#
# $sasdevices{'YFJ4G2BD'}->{'sas'} sas3
# $sasdevices{'YFJ4G2BD'}->{'controller'} 1
# $sasdevices{'YFJ4G2BD'}->{'adapter'} SAS2008
# $sasdevices{'YFJ4G2BD'}->{'enclosure'} 3
# $sasdevices{'YFJ4G2BD'}->{'slot'} 55
# $sasdevices{'YFJ4G2BD'}->{'serial'} YFJ4G2BD
# $sasdevices{'YFJ4G2BD'}->{'protocol'} SAS
# $sasdevices{'YFJ4G2BD'}->{'url'} sas2-0:1#6
#
our %sasdevices;
our %sasdevicesLocate;
# arguments
#
our @query_class;
our @query_component;
our @query_fs;
our @query_disktype;
our @query_multipath;
our $accept_smartctl=0;
our $accept_label=1;
our $accept_collapse=1;
our $output_columns="";
our $output_sort="";
our $output_layout="col";
our $locate=0;
# report output layout
#
our @layout;
sub parseDisks {
# da70
#
my $disk;
my $device = "";
my $type = "";
my $description = "";
my $sectorsize = "";
my $rpm = "";
my $disksize = "";
my $serial = "";
for( `geom disk list` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^Geom name:/ ) {
$device = $line;
$device =~ s/^.*:[\s]*(.*)[\s]*$/$1/;
$type = "";
$description = "";
$sectorsize = "";
$rpm = "";
$disksize = "";
$serial = "";
$disk = {};
$disk->{ 'device' } = $device;
$disk->{ 'type' } = "";
$disk->{ 'description' } = "";
$disk->{ 'sectorsize' } = "";
$disk->{ 'rpm' } = "";
$disk->{ 'temperature' } = "";
$disk->{ 'poh' } = "";
$disk->{ 'disksize' } = "";
$disk->{ 'serial' } = "";
$disk->{ 'partitioned' } = 0;
$disk->{ 'multipath' } = "";
$disk->{ 'multipath_mode' } = "";
$disk->{ 'multipath_state' } = "";
$devices{ $device } = $disk;
}
if ( $line =~ m/^Consumers:/ ) {
$device = "";
$type = "";
$description = "";
$sectorsize = "";
$rpm = "";
$disksize = "";
$serial = "";
}
if ( $line =~ m/^[\s]*descr:/ ) {
$description = $line;
$description =~ s/^.*:[\s]*(.*)[\s]*$/$1/;
if ( $device ne "" ) { $disk->{ 'description' } = $description; }
}
if ( $line =~ m/^[\s]*Sectorsize:/ ) {
$sectorsize = $line;
$sectorsize =~ s/^.*:[\s]*(.*)[\s]*$/$1/;
if ( $device ne "" ) { $disk->{ 'sectorsize' } = $sectorsize; }
}
if ( $line =~ m/^[\s]*rotationrate:/ ) {
$rpm = $line;
$rpm =~ s/^.*:[\s]*(.*)[\s]*$/$1/;
if ( $device ne "" ) {
$disk->{ 'rpm' } = $rpm;
if ( $rpm =~ m/^[0-9]+$/ ) {
if( $rpm > 0 ) {
$disk->{ 'type' } = "HDD";
}
else {
$disk->{ 'type' } = "SSD";
}
}
else {
$disk->{ 'type' } = "???";
$disk->{ 'rpm' } = "???";
}
}
}
if ( $line =~ m/^[\s]*Mediasize:/ ) {
$disksize = $line;
$disksize =~ s/^.*:[\s]*([0-9]*)[\s]*.*$/$1/;
if ( $device ne "" ) { $disk->{ 'disksize' } = $disksize; }
}
if ( $line =~ m/^[\s]*ident:/ ) {
$serial = $line;
$serial =~ s/^.*:[\s]*(.*)[\s]*$/$1/;
$serial =~ s/[^a-zA-Z0-9]//g;
if ( $device ne "" ) { $disk->{ 'serial' } = $serial; }
}
}
}
sub parsePartitions {
my $inProviders = 0;
my $inConsumers = 0;
my $part = "";
my $type = "";
my $component = "";
my $uuid = "";
my %providers;
for( `gpart list` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^Providers:/ ) {
$inProviders = 1;
$inConsumers = 0;
}
if( $line =~ m/^Consumers:/ ) {
$inProviders = 0;
$inConsumers = 1;
if ( $part ne "" ) {
$providers{ $part }->{'gptid'} = "";
$providers{ $part }->{'uuid'} = $uuid;
$providers{ $part }->{'partition'} = $part;
$providers{ $part }->{'type'} = $type;
}
$uuid = "";
$part = "";
$type = "";
$component = "";
}
if( ( $line =~ m/^\d+\.[\s]*Name:/ ) && ( $inProviders == 1 ) ) {
if ( $part ne "" ) {
$providers{ $part }->{'gptid'} = "";
$providers{ $part }->{'uuid'} = $uuid;
$providers{ $part }->{'partition'} = $part;
$providers{ $part }->{'type'} = $type;
}
$uuid = "";
$part = $line;
$part =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
$type = "";
$component = "";
}
if( ( $line =~ m/^[\s]*type:/ ) && ( $inProviders == 1 ) ) {
$type = $line;
$type =~ s/^[\s]*type:[\s]*(.*)[\s]*$/$1/;
if( $type =~ m/^!/ ) {
$type = "unknown";
}
}
if( ( $line =~ m/^[\s]*rawuuid:/ ) && ( $inProviders == 1 ) ) {
$uuid = $line;
$uuid =~ s/^[\s]*rawuuid:[\s]*(.*)[\s]*$/$1/;
}
if( ( $line =~ m/^\d+\.\sName:/ ) && ( $inConsumers == 1 ) ) {
$component = $line;
$component =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
foreach my $p ( keys %providers ) {
my $ilabel = $providers{ $p };
$partitions{ $ilabel->{'uuid'} } = $providers{ $p };
$partitions{ $ilabel->{'uuid'} }->{'component'} = $component;
$partitions{ $ilabel->{'uuid'} }->{'device'} = "";
$partitions{ $ilabel->{'uuid'} }->{'devices'} = "";
$partitions{ $ilabel->{'uuid'} }->{'zpool'} = "";
$partitions{ $ilabel->{'uuid'} }->{'zpool_location'} = "";
$partitions{ $ilabel->{'uuid'} }->{'zpool_state'} = "";
$partitions{ $ilabel->{'uuid'} }->{'zpool_mount'} = "";
$partitions{ $ilabel->{'uuid'} }->{'path'} = "";
$partitions{ $ilabel->{'uuid'} }->{'encryption'} = "";
if( exists( $devices{ $component } ) ) {
$partitions{ $ilabel->{'uuid'} }->{'device'} = $component;
$devices{ $component }->{'partitioned'} = 1;
}
}
undef %providers;
$inConsumers = 0;
}
}
}
sub parseLabels() {
my $inProviders = 0;
my $inConsumers = 0;
my $gptid = "";
my $part = "";
for( `glabel list` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^Providers:/ ) {
$inProviders = 1;
$inConsumers = 0;
}
if( $line =~ m/^Consumers:/ ) {
$inProviders = 0;
$inConsumers = 1;
}
if( ( $line =~ m/^\d+\.[\s]*Name:/ ) && ( $inProviders == 1 ) ) {
$gptid = $line;
$gptid =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
}
if( ( $line =~ m/^\d+\.\sName:/ ) && ( $inConsumers == 1 ) ) {
$part = $line;
$part =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
my $ipart = "";
my $oldkey = "";
foreach my $p ( keys %partitions ) {
my $ilabel = $partitions{ $p };
if( $ilabel->{'partition'} eq $part ) {
$ipart = $ilabel;
$oldkey = $p;
}
}
if( $oldkey ne "" ) {
delete( $partitions{ $oldkey } );
$ipart->{'gptid'} = $gptid;
$partitions{ $gptid } = $ipart;
}
$ipart = "";
$oldkey = "";
$part = "";
$gptid = "";
}
}
foreach my $p ( keys %partitions ) {
my $ilabel = $partitions{ $p };
if( $ilabel->{'gptid'} eq "" ) {
delete( $partitions{ $p } );
$ilabel->{'gptid'} = "gptid/" . $ilabel->{'uuid'};
$partitions{ $ilabel->{'gptid'} } = $ilabel;
}
}
}
sub parseMultiPath {
# multipath/disk3 OPTIMAL da70 (ACTIVE)
# da22 (PASSIVE)
my $multipath = "";
my $multipathState = "";
my $inProviders = 0;
my $inConsumers = 0;
my $disk = "";
my $diskMode = "";
for( `gmultipath list` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^Providers:/ ) {
$inProviders = 1;
$inConsumers = 0;
$multipath = "";
$multipathState = "";
$disk = "";
$diskMode = "";
}
if( $line =~ m/^Consumers:/ ) {
$inProviders = 0;
$inConsumers = 1;
}
if( ( $line =~ m/^\d+\.[\s]*Name:/ ) && ( $inProviders == 1 ) ) {
$multipath = $line;
$multipath =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
}
if( ( $line =~ m/^[\s]*State:/ ) && ( $inProviders == 1 ) ) {
$multipathState = $line;
$multipathState =~ s/^[\s]*State:[\s]*(.*)[\s]*$/$1/;
}
if( ( $line =~ m/^\d+\.[\s]*Name:/ ) && ( $inConsumers == 1 ) ) {
$disk = $line;
$disk =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
$diskMode = "";
$devices{ $disk }->{'multipath'} = $multipath;
$devices{ $disk }->{'multipath_mode'} = "n/a";
$devices{ $disk }->{'multipath_state'} = $multipathState;
}
if( ( $line =~ m/^[\s]+State:/ ) && ( $inConsumers == 1 ) ) {
$diskMode = $line;
$diskMode =~ s/^[\s]+State:[\s]*(.*)[\s]*$/$1/;
$devices{ $disk }->{'multipath_mode'} = $diskMode;
foreach my $gptid ( keys %partitions ) {
if( $partitions{ $gptid }->{'component'} eq $multipath ) {
$partitions{ $gptid }->{'path'} = $multipath;
$devices{ $disk }->{'partitioned'} = 1;
if( $partitions{ $gptid }->{'devices'} eq "" ) {
$partitions{ $gptid }->{'device'} = $disk;
$partitions{ $gptid }->{'devices'} = $disk;
}
else {
$partitions{ $gptid }->{'devices'} = $partitions{ $gptid }->{'devices'} . "," . $disk;
}
}
}
}
}
foreach my $gptid ( keys %partitions ) {
if( $partitions{ $gptid }->{'devices'} eq "" ) {
$partitions{ $gptid }->{'devices'} = $partitions{ $gptid }->{'device'};
}
}
}
sub parseGeli {
my $inProviders = 0;
my $inConsumers = 0;
my $encrypted = "";
my $algorithm = "";
for( `geli list` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^Providers:/ ) {
$inProviders = 1;
$inConsumers = 0;
}
if( $line =~ m/^Consumers:/ ) {
$inProviders = 0;
$inConsumers = 1;
}
if( $line =~ m/^Geom name:/ ) {
$encrypted = $line;
$encrypted =~ s/^Geom name:[\s]*(.*)[\s]*$/$1/;
$algorithm = "";
}
if( $line =~ m/^EncryptionAlgorithm:/ ) {
$algorithm = $line;
$algorithm =~ s/^EncryptionAlgorithm:[\s]*(.*)[\s]*$/$1/;
}
if( ( $line =~ m/^\d+\.\sName:/ ) && ( $inConsumers == 1 ) ) {
my $plain = $line;
$plain =~ s/^\d+\.\sName:[\s]*(.*)[\s]*$/$1/;
foreach my $gptid ( keys %partitions ) {
if( $gptid eq $plain ) {
my $ilabel = $partitions{ $plain };
$ilabel->{'gptid'} = $encrypted;
$ilabel->{'encryption'} = $algorithm;
delete( $partitions{ $plain } );
$partitions{ $encrypted } = $ilabel;
}
}
}
}
}
sub parseZpools {
my $zpool = "";
my $state = "";
my @hierarchy;
for( `zpool status` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^[\s]*pool:/ ) {
$zpool = $line;
$zpool =~ s/^[\s]*pool:[\s]*(.*)[\s]*$/$1/;
next;
}
if ( $line =~ m/^[\s]*state:/ ) {
$state = $line;
$state =~ s/^[\s]*state:[\s]*(.*)[\s]*$/$1/;
next;
}
if ( $line =~ m/^[\s]+NAME[\s]+STATE[\s]+/ ) {
next;
}
if( $line =~ m/^\t/ ) {
# ok, line to handle
}
else {
next;
}
my $whites = $line;
$whites =~ s/^([\s]+)[^\s]+.*$/$1/;
my $level = ( length( $whites ) - 1 ) / 2;
my $item = $line;
$item =~ s/^[\s]*([^\s]+)[\s]*.*$/$1/;
#if( $item =~ m/\.eli$/ ) {
# $item =~ s/^(.*)\.eli$/$1/;
# $encrypted = 1;
#}
splice @hierarchy , $level , scalar( @hierarchy ) , ( $item );
my $location = "";
foreach my $x ( @hierarchy ) {
if( $x eq $item ) {
next;
}
if( $location eq "" ) {
$location = $x;
}
else {
$location = $location . "/" . $x;
}
}
if ( $item =~ m/^gptid\// ) {
my $gptid = $item;
if( exists( $partitions{ $gptid } ) ) {
$partitions{ $gptid }->{'zpool'} = $zpool;
$partitions{ $gptid }->{'zpool_location'} = $location;
$partitions{ $gptid }->{'zpool_state'} = $state;
}
}
else {
my $part = $item;
foreach my $gptid ( keys %partitions ) {
if( $partitions{ $gptid }->{'partition'} eq $part ) {
$partitions{ $gptid }->{'zpool'} = $zpool;
$partitions{ $gptid }->{'zpool_location'} = $location;
$partitions{ $gptid }->{'zpool_state'} = $state;
}
}
}
}
#NAME SIZE ALLOC FREE EXPANDSZ FRAG CAP DEDUP HEALTH ALTROOT
#freenas-boot 57.5G 4.53G 53.0G - - 7% 1.00x ONLINE -
#volBACKUP 14.5T 6.00T 8.50T - 23% 41% 1.00x ONLINE /mnt
my $index_altroot_column = 9;
for( `zpool list` ) {
(my $line) = /^(.*)$/;
if( $line =~ m/^NAME/ ) {
my $altroot_header = (split ' ', $line)[9];
if( $altroot_header eq "ALTROOT" ) {
$index_altroot_column = 9;
}
else {
# we can have an extra column CKPOINT
$index_altroot_column = 10;
}
next;
}
my $zpool = $line;
$zpool =~ s/^([^\s]+)\s.*$/$1/;
my $altroot = (split ' ', $line)[$index_altroot_column];
if( $altroot ne "-" ) {
foreach my $gptid ( keys %partitions ) {
if( $partitions{ $gptid }->{'zpool'} eq $zpool ) {
$partitions{ $gptid }->{'zpool_mount'} = $altroot . "/" . $zpool;
}
}
}
}
}
sub parseSasDevices {
my ($sasircu) = @_;
for( `$sasircu list | grep '^[ ]*[0-9]'` ) {
(my $controller,my $adapter) = /^[\s]+([0-9]+)[\s]+([^\s]+)[\s]+.*$/;
my $ondisk = 0;
my $disk;
for( `$sasircu $controller display ` ) {
(my $line) = /^(.*)$/;
if( $line =~ m/^Device is a Hard disk/ ) {
$ondisk = 1;
$disk = {};
}
if( $ondisk == 1 ) {
if( $line =~ m/Enclosure/ ) {
$disk->{'enclosure'} = $line;
$disk->{'enclosure'} =~ s/^.*:[ ]+([^ ]*).*$/$1/;
}
if( $line =~ m/Slot/ ) {
$disk->{'slot'} = $line;
$disk->{'slot'} =~ s/^.*:[ ]+([^ ]*).*$/$1/;
}
if( $line =~ m/Protocol/ ) {
$disk->{'protocol'} = $line;
$disk->{'protocol'} =~ s/^.*:[ ]+([^ ]*).*$/$1/;
}
if( $line =~ m/Serial No/ ) {
$disk->{'serial'} = $line;
$disk->{'serial'} =~ s/^.*:[ ]+([^ ]*).*$/$1/;
$disk->{'serial'} =~ s/[^a-zA-Z0-9]//g;
}
if( $line =~ m/Drive Type/ ) {
$disk->{'type'} = $line;
$disk->{'type'} =~ s/^.*:[ ]+([^ ]*).*$/$1/;
}
if( $line =~ m/Drive Type/ ) {
$disk->{'controller'} = $controller;
$disk->{'adapter'} = $adapter;
if( $sasircu eq "sas2ircu" ) {
$disk->{'sas'} = "sas2";
}
if( $sasircu eq "sas3ircu" ) {
$disk->{'sas'} = "sas3";
}
$sasdevices{ $disk->{'serial'} } = $disk;
my $url = $adapter . "(" . $controller . "):" . $disk->{'enclosure'} . "#" . $disk->{'slot'};
$disk->{'url'} = $url;
$ondisk = 0;
}
}
}
}
}
sub parseSmartctlDevice {
my ($dev) = @_;
my $idev = $devices{ $dev };
my $temp = "";
my $poh = "";
for( `smartctl -a /dev/$dev` ) {
(my $line) = /^(.*)$/;
if ( $line =~ m/^190 / ) {
$temp = (split ' ', $line)[9];
}
else {
if ( ( $line =~ m/^194 / ) && ( "$temp" eq "" ) ) {
$temp = (split ' ', $line)[9];
}
else {
if ( $line =~ m/^Current Drive Temperature:/ ) {
$temp = (split ' ', $line)[3];
}
else {
# do nothing
}
}
}
if ( $line =~ m/^ 9 / ) {
$poh = (split ' ', $line)[9];
}
else {
if ( $line =~ m/number of hours powered up/ ) {
$poh = (split ' ', $line)[6];
$poh =~ s/^(.*)\..*$/$1/;
}
}
}
if ( $temp eq "" ) {
$temp = "???"
}
if ( $poh eq "" ) {
$poh = "???"
}
$idev->{'temperature'} = $temp;
$idev->{'poh'} = $poh;
}
sub completeDiskType {
foreach my $device ( keys %devices ) {
if( $device =~ m/^nvd/ ) {
$devices{ $device }->{'type'}= 'NVME';
}
if( $device =~ m/^pmem/ ) {
$devices{ $device }->{'type'}= 'NVRAM';
}
}
}
sub printHelp() {
print "disklist.pl [-i:<class> <entity>]* [-fs:<fstype>]* [-disk:<disktype>]* [-nolabel] [-multi[:<multitype>]* [-o:<otype>] [-c:<columns>]* [-sort:<column>]* [-all] [-long] [-short] [-static] [-smartctl] [-locate[:<duration]] [-h]\n";
print "\n";
print "version 1.1c \@2020 (sebastien.andre.288\@gmail.com)\n";
print " contributors (github.com/danielewood)\n";
print "\n";
print " List information about detected disks from a single command by merging results from multiple standard FreeBSD tools:\n";
print " > geom disk list\n";
print " > gpart list\n";
print " > glabel list\n";
print " > geli list\n";
print " > gmultipath list\n";
print " > zpool status\n";
print " > zpool list\n";
print " > sas2ircu list\n";
print " > sas2ircu # display\n";
print " > sas2ircu # locate #:#\n";
print " > sas3ircu list\n";
print " > sas3ircu # display\n";
print " > sas3ircu # locate #:#\n";
print " > smartctl -A <device>\n";
print "\n";
print " This program comes with ABSOLUTELY NO WARRANTY.\n";
print " This is free software, and you are welcome to redistribute it under certain conditions (cf. GNU Lesser General Public Licence v3)\n";
print "\n";
print " Arguments are:\n";
print "\n";
print " -i:<class> <entity> \n";
print " Filter devices/partitions that match the specified <entity> on the corresponding <class>\n";
print " Classes are:\n";
print " dev : Filter on a device name (example: -i:dev ada0)\n";
print " zpool : Filter on a ZFS pool name (example: -i:zpool tank)\n";
print " part : Filter on a partition name (example: -i:part ada0p1)\n";
print " gptid : Filter on a gpt label (example: -i:gptid gptid/fe38f700-829a-11e7-810a-00074304a2f0)\n";
print " serial : Filter on a Disk Serial number (example: -i:serial YFJ4G2BD)\n";
print " multipath : Filter on a SAS multipath disk name (example: -i:multipath multipath/disk1)\n";
print " enclosure : Filter on a SAS enclosure location (example: -i:enclosure 1#6), you can specify <enclosure> or <enclosure>#<slot>\n";
print "\n";
print " This argument can be set multiple times for specifying multiple filters.\n";
print "\n";
print " Be careful, evaluation is done using the following logical form :\n";
print " ( device_predicate1 OR device_predicate2 OR ... ) AND ( partition_predicate1 OR partition_predicate2 .... )\n";
print "\n";
print " devices predicates are : dev, multipath, serial, enclosure\n";
print " partitions predicates are : zpool, part, gptid\n";
print "\n";
print " -fs:<fstype>\n";
print " Filter devices/partitions that have a partition that match the specified file system type\n";
print " FileSystem types are:\n";
print " all : Accept any partition type and disk not partitioned. (example: -fs:all)\n";
print " none : Accept only disk not partitioned. (example: -fs:none)\n";
print " any : Accept any partition type. (example: -fs:any)\n";
print " zfs : Accept only freebsd-zfs partition type. (example: -fs:zfs)\n";
print " swap : Accept only freebsd-swap partition type. (example: -fs:swap)\n";
print " boot : Accept only bios-boot partition type. (example: -fs:boot)\n";
print " unknown : Accept only unknown partition type. (example: -fs:unknown)\n";
print "\n";
print " This argument can be set multiples times for specifying a list of fs types.\n";
print " By default this command use theses options : -fs:zfs -fs:none\n";
print "\n";
print " -disk:<disktype>\n";
print " Filter devices/partitions that match the specified disk type\n";
print " Disk types are:\n";
print " sdd : Solid State Drive (example: -disk:ssd)\n";
print " hdd : Spindle Drive (example: -disk:hdd)\n";
print " nvme : NVME Solid State Drive (example: -disk:nvme)\n";
print " nvram : NVRAM Drive (example: -disk:nvram)\n";
print " unknown : Unknown drive type (example: -disk:unknown)\n";
print "\n";
print " This argument can be set multiples times for specifying a list of disk types\n";
print "\n";
print " -nolabel\n";
print " Restrict output only to devices (disks) without reporting any informations about partitions.\n";
print " That allows for example to report on available disks with these options: -nolabel -multi:none -multi:active\n";
print " By default, partitioned disk will be reported with partitions details.\n";
print "\n";
print " -multi[:<mode>]\n";
print " Filter devices/partitions that use SAS multipath and optionaly match the multipath mode (ACTIVE or PASSIVE)\n";
print " Multipath modes are:\n";
print " none : The disk device must not use SAS multipath (example: -multi:none)\n";
print " active : The disk device must use SAS multipath and be the ACTIVE device (example: -multi:active)\n";
print " passive : The disk device must use SAS multipath and be the PASSIVE device (example: -multi:passive)\n";
print "\n";
print " If no Multipath mode is specified, the disk device must use SAS multipath, whatever the mode of the device.\n";
print " This argument can be set multiples times\n";
print "\n";
print " -o:<otype>\n";
print " Output format to use for reporting devices.\n";
print " Output formats are:\n";
print " col : Each device is reported in a dedicated row. Information is padded with whitespaces into columns and columns are separated by 2 whitespaces.\n";
print " csv : Each device is reported in a dedicated row. Columns are separated by a semi-colon accordingly to CSV format without any padding.\n";
print " list : Each device is reported in multiple rows. Each information is presented on a dedicated row using the format \"property: value\".\n";
print "\n";
print " If ommited, the default is -o:col\n";
print "\n";
print " -c:<columns>\n";
print " Specify a series of columns to report represented by <columns>. Each column has a symbol identifier.\n";
print " The order of a symbol identifier determines the order of the column in the report output.\n";
print " Columns identifiers are:\n";
print " p : Partition name (example: ada0p1)\n";
print " P : Partition type. (example: freebsd-zfs)\n";
print " l : Partition label (gptid). (example: gptid/fe38f700-829a-11e7-810a-00074304a2f0)\n";
print " z : ZFS pool name (example: tank)\n";
print " Z : Partition location on the pool (example: tank/mirror-0)\n";
print " M : ZFS mount point (example: /mnt/tank)\n";
print " X : Partition encryption algorithm (example: AES-XTS)\n";
print "\n";
print " d : device code (example: ada0)\n";
print " t : device sectorsize in Bytes (example: 512)\n";
print "\n";
print " D : Disk Description (example: HITACHI HUS72302CLAR2000)\n";
print " U : Disk size in Gb (example: 2000)\n";
print " T : Disk type (example: SSD)\n";
print " S : Disk Serial Number (example: YFJ4G2BD)\n";
print " R : Disk Rotational speed (example: 7200)\n";
print " H : Disk temperature in °C (smartctl) (example: 43°)\n";
print " h : Power on Hours (smartctl) (example: 2711)\n";
print "\n";
print " e : Controller/Enclosure location (example: SAS3008(0):1#6)\n";
print "\n";
print " m : SAS Multipath device (example: multipath/disk1)\n";
print " o : SAS Multipath device mode (example: ACTIVE or PASSIVE)\n";
print " s : SAS Multipath state (example: OPTIMAL)\n";
print "\n";
print " Columns using \"smartctl\" will be reported only if the -smartctl switch is used.\n";
print " Some of theses attributes are vendor specifics and may be not available (mainly for SAS devices)...\n";
print "\n";
print " You can add -short, -long switches for using a column profile + specified columns.\n";
print " In this case, the column order is based on the columns from the selected profile followed by the specified columns.\n";
print " If a column identifier appears more than once, the column will be reported multiple times.\n";
print "\n";
print " -sort:<columns>\n";
print " Specify a series of columns to use for sorting devices and partitions.\n";
print " The order of the symbol identifier determines the sort order of the column in the output.\n";
print " This tools always reports partitions first and unpartitioned disks afterwards.\n";
print " Columns related to partitions (like PplzZMX) are unused for sorting devices (but used for sorting partitions).\n";
print " By default, the sort is set to zZmodp (if a column is not reported, it is removed from the sort key also)\n";
print " Columns identifiers are the same as used for -c:<columns> switch\n";
print "\n";
print " -all\n";
print " Reports all columns. It's equivalent to -c:pPlzZMdtDUTSRHhemosX\n";
print "\n";
print " -long\n";
print " Reports on most of the columns and is the default. It's equivalent to -c:plzdDUTSRHemosX\n";
print " Can be used in conjunction with -c: switch to add some columns to the -long profile.\n";
print "\n";
print " -short\n";
print " Reports with a basic number of columns. It's equivalent to -c:pzdDUT\n";
print " Can be used in conjunction with -c: switch to add some columns to the -short profile.\n";
print "\n";
print " -static\n";
print " By default, empty columns are automatically removed from the report.\n";
print " This switch prevent any columns to be removed even if they are empties.\n";
print "\n";
print " -smartctl\n";
print " Allow the use of \"smartctl\" commands for providing additional disk informations\n";
print " Without this switch, columns that need smartctl will be removed from the output.\n";
print "\n";
print " -locate[:duration]\n";
print " Blink leds for the specified duration in seconds for all reported disks (using sas2 or sas3 controllers)\n";
print " The default duration is 10 seconds when no specified.\n";
print " For example you can locate a drive by it's serial number:\n";
print " disklist.pl -i:serial YFJ4G2BD -locate\n";
print " -h\n";
print " Print this help.\n";
print "\n";
}
sub printPartitions {
foreach my $p ( keys %partitions ) {
print ">>>>>> ( $p )\n";
printPartitionItem( $partitions{ $p } , 'partition' );
printPartitionItem( $partitions{ $p } , 'uuid' );
printPartitionItem( $partitions{ $p } , 'gptid' );
printPartitionItem( $partitions{ $p } , 'type' );
printPartitionItem( $partitions{ $p } , 'component' );
printPartitionItem( $partitions{ $p } , 'device' );
printPartitionItem( $partitions{ $p } , 'devices' );
printPartitionItem( $partitions{ $p } , 'path' );
printPartitionItem( $partitions{ $p } , 'zpool' );
printPartitionItem( $partitions{ $p } , 'zpool_location' );
printPartitionItem( $partitions{ $p } , 'zpool_state' );
printPartitionItem( $partitions{ $p } , 'zpool_mount' );
printPartitionItem( $partitions{ $p } , 'encryption' );
print "<<<<<<\n";
}
die;
}
sub printPartitionItem() {
my ($ilabel,$item) = @_;
if( defined( $ilabel->{ $item } ) ){
print " $item : $ilabel->{ $item }\n";
}
else {
print " $item : <undefined>\n";
}
}
sub parseArgumentsDiskList {
my @arguments = @_;
my $args_state=0; # 0 = none ; 1 = query entity ;
foreach my $arg ( @arguments ) {
if ( $args_state == 1 ) {
push @query_component , $arg;
$args_state = 0;
next;
}
if ( $arg =~ m/^-i:.*$/ ) {
my $c = $arg;
$c =~ s/^-i:(.*)$/$1/;
if( $c eq "" ) {
print "$0 : Bad usage using -i:<class>\n";
exit 1;
}
push @query_class , $c;
$args_state = 1;
next;
}
if ( $arg =~ m/^-c:.*$/ ) {
my $x = $arg;
$x =~ s/^-c:(.*)$/$1/;
if( $x eq "" ) {
print "$0 : Bad usage using -x:<columns>\n";
exit 1;
}
$output_columns = $output_columns . $x;
next;
}
if ( $arg =~ m/^-sort:.*$/ ) {
my $x = $arg;
$x =~ s/^-sort:(.*)$/$1/;
if( $x eq "" ) {
print "$0 : Bad usage using -sort:<columns>\n";
exit 1;
}
$output_sort = $output_sort . $x;
next;
}
if ( $arg =~ m/^-o:.*$/ ) {
$output_layout = $arg;
$output_layout =~ s/^-o:(.*)$/$1/;
next;
}
if ( $arg eq "-all" ) {
$output_columns = "pPlzZMdtDUTSRHhemosX" . $output_columns;
next;
}
if ( $arg eq "-long" ) {
$output_columns = "plzdDUTSRHemosX" . $output_columns;
next;
}
if ( $arg eq "-short" ) {
$output_columns = "pzdDUT" . $output_columns;
next;
}
if ( $arg eq "-static" ) {
$accept_collapse = 0;
next;
}
if ( $arg eq "-smartctl" ) {
$accept_smartctl=1;
next;
}
if ( $arg eq "-locate" ) {
$locate=10;
next;
}
if ( $arg =~ m/^-locate:[\d]+$/ ) {
my $m = $arg;
$m =~ s/^-locate:(.*)$/$1/;
$locate = int( $m );
next;
}
if ( $arg eq "-multi" ) {