disklist.pl

#!/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" ) {
          push @query_multipath , "ACTIVE" ;
          push @query_multipath , "PASSIVE";
          next;
      }
      elsif ( $arg =~ m/^-multi:.*$/ ) {
          my $m = $arg;
             $m =~ s/^-multi:(.*)$/$1/;
             $m = uc $m;

          if( $m eq "" ) {
             print "$0 : Bad usage using -multi:<multitype>\n";
             exit 1;
          }

          if( $m eq "NONE" ) {
             $m = "";
          }

          push @query_multipath , $m;
          next;
      }

      if ( $arg =~ m/^-fs:.*$/ ) {
          my $fs_type = $arg;
          $fs_type = $arg;
          $fs_type =~ s/^-fs:(.*)$/$1/;

          if( $fs_type eq "" ) {
             print "$0 : Bad usage using -fs:<fs_type>\n";
             exit 1;
          }

          push @query_fs , $fs_type;
          next;
      }

      if ( $arg =~ m/^-disk:.*$/ ) {
          my $disk_type = $arg;
          $disk_type =~ s/^-disk:(.*)$/$1/;
          $disk_type = uc $disk_type;

          if( $disk_type eq "UNKNOWN" ) {
            $disk_type = "???"
          }

          if( $disk_type eq "" ) {
             print "$0 : Bad usage using -disk:<disk_type>\n";
             exit 1;
          }

          push @query_disktype , $disk_type;
          next;
      }

      if( $arg eq "-nolabel" ) {
         $accept_label = 0;
         next;
      }

      if ( $arg eq "-h" ) {
          printHelp;
          exit 0;
      }

      print "$0 : Bad usage, unrecognized argument \"$arg\"\n";
      print "$0 : Use -h flag for more details.\n";
      exit 1;
   }

   if( $output_columns eq "" ) {
     $output_columns = "plzdDUTSRHXemos" . $output_columns;
   }

   if( scalar @query_fs == 0 ) {
     @query_fs = ( "zfs" , "none" );
   }

   if( scalar @query_multipath == 0 ) {
     @query_multipath = ( "ACTIVE" , "PASSIVE" , "" );
   }

   if( $accept_smartctl == 0 ) {
     $output_columns =~ tr/H//d;
     $output_columns =~ tr/h//d;
   }

   if( $args_state > 0 ) {
      print "$0 : Bad usage, missing argument.\n";
      print "$0 : Use -h flag for more details.\n";
      exit 2;
   }
}

sub applyFilterDevice {
   my ($idev) = @_;

   my $ok = 0;
   foreach my $mm ( @query_multipath ) {
      if( $mm eq $idev->{'multipath_mode'} ) {
        $ok = 1;
      }
   }
   if ( $ok == 0 ) {
      return 0;
   }

   #if( ( $accept_partitioned & 1 ) == 0 && $idev->{'partitioned'} == 0 ) {
      #return 0;
   #}
   #if( ( $accept_partitioned & 2 ) == 0 && $idev->{'partitioned'} == 1 ) {
      #return 0;
   #}

   if( scalar @query_disktype == 0 ) {
   }
   else {
      my $ok = 0;
      foreach my $dt ( @query_disktype ) { 
         if( $idev->{'type'} eq $dt ) {
            $ok = 1; 
         }
      }
      if( $ok == 0 ) {
         return 0;
      }
   }

   if( scalar @query_class == 0 ) {
       # do nothing
   }
   else {
      my $ok       = 0;
      my $index    = -1;
      my $comp     = "";
      my $classdev = 0;
      foreach my $class ( @query_class ) {
         $index = $index + 1;
         $comp  = $query_component[ $index ];

         if( ( $class eq "dev" ) || ( $class eq "multipath" ) || ( $class eq "serial" ) || ( $class eq "enclosure" ) ) {
            $classdev = 1;
         }
 
         if( ( $class eq "dev" ) && ( $comp eq $idev->{'device'} ) ) {
            $ok = 1;
         }

         if( ( $class eq "multipath" ) && ( $comp eq $idev->{'multipath'} ) ) {
            $ok = 1;
         }

         if( ( $class eq "serial" ) && ( $comp eq $idev->{'serial'} ) ) {
            $ok = 1;
         }

         if( ( $class eq "enclosure" ) ) {
            if( exists( $sasdevices{ $idev->{'serial'} } ) ) {
               if( $comp =~ m/#/ ) {
                  my $enc  = $comp;
                  my $slot = $comp;
        
                  $enc  =~ s/^([^#]+)#[^#]+$/$1/;
                  $slot =~ s/^[^#]+#([^#]+)$/$1/;

                  my $ok_enclosure = 0;
                  my $ok_slot      = 0;
                  if( $enc eq $sasdevices{ $idev->{'serial'} }->{'enclosure'} ) {
                     $ok_enclosure = 1;
                  }
                  if( $slot eq $sasdevices{ $idev->{'serial'} }->{'slot'} ) {
                     $ok_slot = 1;
                  }

                  if( $ok_enclosure == 1 && $ok_slot == 1 ) {
                     $ok = 1;
                  }
               } 
               else {
                  if( $comp eq $sasdevices{ $idev->{'serial'} }->{'enclosure'} ) {
                     $ok = 1;
                  }
               }
            }
         }
      }
      if( $ok == 0 && $classdev == 1 ) {
         return 0;
      }
   }

   return 1;
}

sub applyFilterLabel {
   my ($ilabel) = @_;

   if( scalar @query_class == 0 ) {
       # do nothing
   }
   else {
      my $ok         = 0;
      my $index      = -1;
      my $comp       = "";
      my $classpart  = 0;
      foreach my $class ( @query_class ) {
         $index = $index + 1;
         $comp  = $query_component[ $index ];

         if( ( $class eq "gptid" ) || ( $class eq "part" ) || ( $class eq "zpool" ) ) {
            $classpart = 1;
         }

         if( $class eq "gptid" ) {
             if( $ilabel eq "" ) {
                # do nothing
             }
             elsif( $comp eq $ilabel->{'gptid'} ) {
                $ok = 1;
             }
         } 

         if( $class eq "part" ) {
             if( $ilabel eq "" ) {
                # do nothing
             }
             elsif( $comp eq $ilabel->{'partition'} ) {
                $ok = 1;
             }
         } 

         if( $class eq "zpool" ) {
             if( $ilabel eq "" ) {
                # do nothing
             }
             elsif( $comp eq $ilabel->{'zpool'} ) {
                $ok = 1;
             }
         } 
      }
      if( $ok == 0 && $classpart == 1 ) {
         return 0;
      }
   }

   if( $ilabel eq "" ) {
      my $ok = 0;
      foreach my $fs ( @query_fs ) { 
         if( ( $fs eq "all" ) || ( $fs eq "none" ) ) {
           $ok = 1;
         }
      }

      if( $ok == 0 ) {
         return 0;
      }
   }
   else {
      my $ok = 0;
      foreach my $fs ( @query_fs ) { 
         if( ( $fs eq "all" ) || ( $fs eq "any" ) ) {
           $ok = 1;
         }
         elsif( $fs eq "zfs" ) {
           if( $ilabel->{'type'} eq "freebsd-zfs" ) {
              $ok = 1;
           }
         }
         elsif( $fs eq "swap" ) {
           if( $ilabel->{'type'} eq "freebsd-swap" ) {
              $ok = 1;
           }
         }
         elsif( $fs eq "boot" ) {
           if( $ilabel->{'type'} eq "bios-boot" ) {
              $ok = 1;
           }
         }
         else {
           if( $ilabel->{'type'} eq $fs ) {
              $ok = 1;
           }
         }
      }

      if( $ok == 0 ) {
         return 0;
      }
   }

   return 1;
}

# compare items that foloww the scheme xxxxxxx01 like devices (ada01) or multipath (multipath/disk30)
#
sub compare_components {
   my ($a,$b) = @_;
   if( ( $a =~ m/[0-9]$/ ) && ( $b =~ m/[0-9]$/ ) ) {
     my $pa = $a;
     my $ia = $a;
     $pa =~ s/^(.*?)([0-9]+)$/$1/;
     $ia =~ s/^(.*?)([0-9]+)$/$2/;

     my $pb = $b;
     my $ib = $b;
     $pb =~ s/^(.*?)([0-9]+)$/$1/;
     $ib =~ s/^(.*?)([0-9]+)$/$2/;

     if( $pa eq $pb ) {
        return $ia <=> $ib;
     }
     return $pa cmp $pb;
   }
   return $a cmp $b;
}

# sort
#  zpool , multipath , multipath_mode , device, partition
sub compare_labels {
   my ($a,$b) = @_;

   my $labelA = $partitions{ $a }; 
   my $labelB = $partitions{ $b }; 

   my $devA   = $devices{ $labelA->{'device'} };
   my $devB   = $devices{ $labelB->{'device'} };

   my $ocol;

   my $valA;
   my $valB;

   my $res;

   my $sort = $output_sort;
   if( $sort eq "" ) {
     $sort = "zZmodp";
   }

   foreach my $col (split //, $sort) {
      $ocol   = getColumnLayout( $col );

      $valA   = getPrintableValue( $devA , $labelA , $ocol );
      $valB   = getPrintableValue( $devB , $labelB , $ocol );
      
      $res    = compare_components( $valA , $valB );  
      if( $res == 0 ) {
         next;
      }
      return $res;
   }
   return 0;
}

sub compare_devices {
   my ($a,$b) = @_;

   my $devA   = $devices{ $a };
   my $devB   = $devices{ $b };

   my $ocol;

   my $valA;
   my $valB;

   my $res;

   my $sort = $output_sort;
   if( $sort eq "" ) {
     $sort = "zZmodp";
   }

   foreach my $col (split //, $sort) {
      $ocol   = getColumnLayout( $col );

      $valA   = getPrintableValue( $devA , "" , $ocol );
      $valB   = getPrintableValue( $devB , "" , $ocol );
      
      $res    = compare_components( $valA , $valB );  
      if( $res == 0 ) {
         next;
      }
      return $res;
   }
   return 0;
}

sub prepareOutputLayout {
   my ($display_columns) = @_;
   undef(@layout);

   my $ocol;
   foreach my $col (split //, $display_columns) {
      $ocol = getColumnLayout( $col );

      push @layout , $ocol;
   }
}

sub getColumnLayout {
   my ($col) = @_;

   my $ocol;

   my $owner    = "";
   my $info     = "";
   my $title    = "";
   my $align    = "left";
      
   $ocol = {};

   if( $col eq "p" ) { $owner = 'label'    ; $info = 'partition';       $title="partition";                      }
   if( $col eq "P" ) { $owner = 'label'    ; $info = 'type';            $title="fs";                             }
   if( $col eq "l" ) { $owner = 'label'    ; $info = 'gptid';           $title="label";                          }
   if( $col eq "z" ) { $owner = 'label'    ; $info = 'zpool';           $title="zpool";                          }
   if( $col eq "Z" ) { $owner = 'label'    ; $info = 'zpool_location';  $title="zpool-location";                 }
   if( $col eq "M" ) { $owner = 'label'    ; $info = 'zpool_mount';     $title="zpool-mount";                    }
   if( $col eq "X" ) { $owner = 'label'    ; $info = 'encryption';      $title="encryption";                     }
   if( $col eq "d" ) { $owner = 'device'   ; $info = 'device';          $title="device";                         }
   if( $col eq "t" ) { $owner = 'device'   ; $info = 'sectorsize';      $title="sector";         $align="right"; }
   if( $col eq "D" ) { $owner = 'device'   ; $info = 'description';     $title="disk";                           }
   if( $col eq "U" ) { $owner = 'device'   ; $info = 'disksize';        $title="size";           $align="right"; }
   if( $col eq "T" ) { $owner = 'device'   ; $info = 'type';            $title="type";                           }
   if( $col eq "S" ) { $owner = 'device'   ; $info = 'serial';          $title="serial";                         }
   if( $col eq "R" ) { $owner = 'device'   ; $info = 'rpm';             $title="rpm";            $align="right"; }
   if( $col eq "H" ) { $owner = 'smartctl' ; $info = 'temperature';     $title="temp";           $align="right"; }
   if( $col eq "h" ) { $owner = 'smartctl' ; $info = 'poh';             $title="power-on-hours"; $align="right"; }
   if( $col eq "e" ) { $owner = 'serial'   ; $info = 'url';             $title="sas-location";                   }
   if( $col eq "m" ) { $owner = 'device'   ; $info = 'multipath';       $title="multipath";                      }
   if( $col eq "o" ) { $owner = 'device'   ; $info = 'multipath_mode';  $title="multipath-mode";                 }
   if( $col eq "s" ) { $owner = 'device'   ; $info = 'multipath_state'; $title="multipath-state";                }

   if( $owner eq "" ) {
      print "Unknown column identifier $col\n";
      exit 1;
   }

   $ocol->{'col'}       = $col;
   $ocol->{'owner'}     = $owner;
   $ocol->{'info'}      = $info;
   $ocol->{'title'}     = $title;
   $ocol->{'maxlength'} = length($title);       # computed later with values
   $ocol->{'align'}     = $align;
   $ocol->{'enabled'}   = 0;
  
   return $ocol;
}

sub getPrintableValue {
   my ($idev,$ilabel,$layout) = @_;

   my $owner = $layout->{'owner'};
   my $info  = $layout->{'info'};

   my $value = "";
   if( $owner eq "device" ) {
      $value = $idev->{ $info };
   }
   if( $owner eq "smartctl" ) {
      if( $info eq "temperature" ) {
         if( $idev->{ 'temperature' } eq "" ) {
             parseSmartctlDevice( $idev->{'device'} );
         }
      }
      if( $info eq "poh" ) {
         if( $idev->{ 'poh' } eq "" ) {
             parseSmartctlDevice( $idev->{'device'} );
         }
      }
      $value = $idev->{ $info };
   }
   if( $owner eq "label" ) {
       if( $ilabel eq "" ) {
           $value = "";
       }
       else {
           $value = $ilabel->{ $info };
       }
   } 
   if( $owner eq "serial" ) {
      if( exists( $sasdevices{ $idev->{'serial'} } ) ) {
           $value = $sasdevices{ $idev->{'serial'} }->{ $info };
      }
      else {
           $value = "";
      }
   }
   if( $info eq "disksize" ) {
      $value = floor( $value / 1000 / 1000 / 1000 );
   }
   if( $info eq "device" ) {
      if( $ilabel ne "" ) {
          $value = $ilabel->{'devices'};
      }
   }
   if( $info eq "multipath_mode" ) {
      if( $ilabel ne "" && $ilabel->{'devices'} =~ m/,/ ) {
          $value = "";
      }
   }

   if( !defined $value ) {
     print "Error while accessing data for (owner=$owner, data=$info)\n";
     die;
   }
   if( !defined $layout->{ 'maxlength' } ) {
     print "Error while accessing data for (owner=$owner, data=$info)\n";
     die;
   }
   if( length($value) > $layout->{ 'maxlength' } ) {
     $layout->{ 'maxlength' } = length($value);
   }
 
   return $value;
}

sub printReportHeader {
   if( $output_layout eq "list" ) {
      # do nothing
   }
   else {
      my $index = 0;
      foreach my $info ( @layout ) { 
          my $value = $info->{'title'};
          printComponent( $value , $info , $index );
          $index = $index + 1;
      }
      print "\n";

  
      if( $output_layout eq "col" ) { 
         my $line  = "";
            $index = 0;
         foreach my $info ( @layout ) { 
            
             my $field = ( '-' x $info->{'maxlength'} );
             if( $index > 0 ) {
                $line = $line . "--" . $field;
             }
             else {
                $line = $line . $field;
             }
             $index = $index + 1;
         }
         print $line . "\n";
      }
   }
}

sub printComponentHeader {
   my ($first) = @_;
   if( $output_layout eq "list" ) {
      if( $first == 0 ) { 
         print "\n";
         print "---------------------\n";
         print "\n";
      }
   }
   else {
      # do nothing
   }
}

sub printComponent {
   my ($value,$layout,$index) = @_;
   
   my $fmt    = "%s";
   my $sep    = ";";
   my $prefix = "";
   my $suffix = "";

   if( $output_layout eq "col" ) {
      if( $layout->{'align'} eq "right" ) {
         $fmt = "%+" . $layout->{'maxlength'} . "s";
      }
      else {
         $fmt = "%-" . $layout->{'maxlength'} . "s";
      }
      $sep = "  ";
   }
   if( $output_layout eq "list" ) {
      $sep    = "";
      $prefix = $layout->{'title'} . ": ";
      $suffix = "\n";
   }

   if( $index > 0 ) {
      print $sep;
   }
   print $prefix;
   printf( $fmt , $value );
   print $suffix;
}

sub printComponentFooter {
   if( $output_layout eq "list" ) {
      # do nothing
   }
   else {
      print "\n";
   }
}

sub printReportFooter {
   # do nothing
}

sub doReport {
   my ($print) = @_;

   # loop each components
   #
   if ( $print > 0 ) {
      printReportHeader;
   }

   my %reportedDisks;

   my $first = 1;
   if( $accept_label == 1 ) {
      foreach my $label ( @partitionsKeys ) { 
         my $idev   = $devices{ $partitions{ $label }->{ 'device' } };
         my $ilabel = $partitions{ $label };
         my $value  = "";
      
         # filters
         if( applyFilterDevice($idev)  == 0 ) { next; }
         if( applyFilterLabel($ilabel) == 0 ) { next; }

         $reportedDisks{ $idev->{'device'} } = 1;
  
         my $index = 0;
         if( $print > 0 ) {
            printComponentHeader($first);
            $first = 0;

            if( $locate > 0 ) {
               if( exists( $sasdevices{ $idev->{'serial'} } ) ) {
                  if( !exists( $sasdevicesLocate{ $idev->{'serial'} } ) ) {
                     $sasdevicesLocate{ $idev->{'serial'} } = $sasdevices{ $idev->{'serial'} };
                  }
               }
            }
         }
         foreach my $info ( @layout ) { 
             $value = getPrintableValue( $idev , $ilabel , $info );
             if( $print > 0 ) {
                 printComponent( $value , $info , $index );
                 $index = $index + 1;
             }
             else {
                if( $value ne "" ) {
                   $info->{'enabled'} = 1;
                }
             }
         }
         if( $print > 0 ) {
            printComponentFooter;
         }
      }
   }
   foreach my $dev ( @devicesKeys ) {
      my $idev   = $devices{ $dev };
      my $ilabel = "";

      if( ( $idev->{ 'partitioned' } == 1 ) && ( $accept_label == 1 ) ) {
         next;
      }

      # filters
      if( applyFilterDevice($idev)  == 0 ) { next; }
      if( applyFilterLabel($ilabel) == 0 ) { next; }

      $reportedDisks{ $idev->{'device'} } = 1;

      my $index = 0;

      if( $print > 0 ) { 
         printComponentHeader($first);
         $first = 0;

         if( $locate > 0 ) {
            if( exists( $sasdevices{ $idev->{'serial'} } ) ) {
               if( !exists( $sasdevicesLocate{ $idev->{'serial'} } ) ) {
                  $sasdevicesLocate{ $idev->{'serial'} } = $sasdevices{ $idev->{'serial'} };
               }
            }
         }
      }
      foreach my $info ( @layout ) { 
          my $value = getPrintableValue( $idev , $ilabel , $info );
          if( $print > 0 ) {
              printComponent( $value , $info , $index );
              $index = $index + 1;
          }
          else {
             if( $value ne "" ) {
                $info->{'enabled'} = 1;
             }
          }
      }
      if( $print > 0 ) {
         printComponentFooter;
      }
   }
   if( $print > 0 ) { 
      printReportFooter;
   }

   if ( $print > 0 ) {
      print "\n";
      print "" . ( scalar keys %reportedDisks ) . " selected disk(s)\n";
   }
}

sub doLocate() {
   if( $locate == 0 ) {
       return;
   }
   if( scalar keys %sasdevicesLocate == 0 ) {
       return;
   }
  
   my $blink_mode = 1;
   my $saslocate  = "ON";
   my $sas;
   
   print "\n";
   print "Locating devices ";

   # store STDOUT
   open (my $STDOLD, '>&', STDOUT);

   for( my $count = 0 ; $count < $locate ; $count++ ) {
      if( $blink_mode > 0 ) {
         $saslocate = "ON";
      }
      else {
         $saslocate = "OFF";
      }

      open( STDOUT , ">" , "/dev/null" );

      foreach my $serial ( keys %sasdevicesLocate ) {
           $sas = $sasdevicesLocate{ $serial };

           if( $sas->{'sas'} eq "sas2" ) {
              system( "sas2ircu" , $sas->{'controller'} , "locate" , $sas->{'enclosure'} . ":" . $sas->{'slot'} , $saslocate );
           }
           elsif( $sas->{'sas'} eq "sas3" ) {
              system( "sas3ircu" , $sas->{'controller'} , "locate" , $sas->{'enclosure'} . ":" . $sas->{'slot'} , $saslocate );
           }
      }   
 
      # restore STDOUT
      open (STDOUT, '>&', $STDOLD);

      print ".";
      $blink_mode = $blink_mode * -1;
      sleep(1);
   }
  
   print "\n";
}

sub scan {
   # get host configuration
   #
   parseDisks();
   parsePartitions();
   parseLabels();
   parseGeli();
   parseMultiPath();
   parseZpools();
   parseSasDevices("sas2ircu");
   parseSasDevices("sas3ircu");
   completeDiskType();
   #printPartitions();

   # sort devices/partitions before filtering them
   #
   @partitionsKeys  = sort( { compare_labels($a,$b)  } keys %partitions );
   @devicesKeys     = sort( { compare_devices($a,$b) } keys %devices    );
}

sub report {
   my ($display_columns) = @_;

   # compute the layout (except padding)
   #
   prepareOutputLayout($display_columns);

   doReport(0); # just compute padding

   # check unused columns
   my $shrinked = 0;
   if( $accept_collapse == 1 ) {
      foreach my $col ( @layout ) {
          if( $col->{'enabled'} == 0 ) {
             $_ = $display_columns;
             eval sprintf "tr/%s//d", map quotemeta, $col->{'col'};
             $display_columns = $_;
             $shrinked        =  1;
          }
      }
   }

   if( $output_sort eq "" ) {
      if( $display_columns =~ m/z/ ) {
         $output_sort = $output_sort . "z";
      }
      if( $display_columns =~ m/Z/ ) {
         $output_sort = $output_sort . "Z";
      }
      if( $display_columns =~ m/m/ ) {
         $output_sort = $output_sort . "m";
      }
      if( $display_columns =~ m/o/ ) {
         $output_sort = $output_sort . "o";
      }
      if( $display_columns =~ m/d/ ) {
         $output_sort = $output_sort . "d";
      }
      if( $display_columns =~ m/p/ ) {
         $output_sort = $output_sort . "p";
      }

      @partitionsKeys  = sort( { compare_labels($a,$b)  } keys %partitions );
      @devicesKeys     = sort( { compare_devices($a,$b) } keys %devices    );
   }

   if( $shrinked == 1 ) {
      prepareOutputLayout($display_columns);
      doReport(0);
   }

   doReport(1); # real reporting
   doLocate();
}

if( caller ) {
   parseArgumentsDiskList();
}
else {
   parseArgumentsDiskList(@ARGV);
   scan();
   report( $output_columns );
}

1;