package partition_table::gpt; use diagnostics; use strict; use vars qw(@ISA); @ISA = qw(partition_table::raw); use fs::type; use partition_table::raw; use c; my $nb_primary = 128; # See https://en.wikipedia.org/wiki/GUID_Partition_Table#Partition_type_GUIDs for a list of exitings GUIDs my %parted_mapping = ( 'linux-swap(v1)' => 'swap', 'ntfs' => 'ntfs-3g', 'fat16' => 'vfat', 'fat32' => 'vfat', ); my %rev_parted_mapping = reverse %parted_mapping; # prefer 'fat32' over 'fat16': $rev_parted_mapping{vfat} = 'fat32'; sub read_one { my ($hd, $_sector) = @_; c::get_disk_type($hd->{file}) eq "gpt" or die "$hd->{device} not a GPT disk ($hd->{file})"; my @pt; foreach (c::get_disk_partitions($hd->{file})) { # compatibility with MBR partitions tables: $_->{pt_type} = 0x82 if $_->{fs_type} eq 'swap'; $_->{pt_type} = 0x0b if $_->{fs_type} eq 'vfat'; $_->{pt_type} = 0x83 if $_->{fs_type} =~ /^ext/; # fix detecting ESP (special case are they're detected through pt_type): if ($_->{flag} eq 'ESP') { $_->{pt_type} = 0xef; } elsif ($_->{flag} eq 'BIOS_GRUB') { $_->{fs_type} = $_->{flag}; # hack to prevent it to land in hd->{raw} $_->{pt_type} = $_->{flag}; # hack... } elsif ($_->{flag} eq 'LVM') { $_->{pt_type} = 0x8e; } elsif ($_->{flag} eq 'RAID') { $_->{pt_type} = 0xfd; } elsif ($_->{flag} eq 'RECOVERY') { $_->{pt_type} = 0x12; } $_->{fs_type} = $parted_mapping{$_->{fs_type}} if $parted_mapping{$_->{fs_type}}; @pt[$_->{part_number}-1] = $_; } for (my $part_number = 1; $part_number < $nb_primary; $part_number++) { next if exists($pt[$part_number-1]); $pt[$part_number-1] = { part_number => $part_number }; } \@pt; } sub write { my ($hd, $_sector, $pt, $_info) = @_; my $partitions_killed; # Initialize the disk if current partition table is not gpt if (c::get_disk_type($hd->{file}) ne "gpt") { c::set_disk_type($hd->{file}, "gpt"); $partitions_killed = 1; } foreach (@{$hd->{will_tell_kernel}}) { my ($action, $part_number, $o_start, $o_size) = @$_; my ($part) = grep { $_->{start} == $o_start && $_->{size} == $o_size } @$pt; print "($action, $part_number, $o_start, $o_size)\n"; if ($action eq 'add') { local $part->{fs_type} = $rev_parted_mapping{$part->{fs_type}} if $rev_parted_mapping{$part->{fs_type}}; c::disk_add_partition($hd->{file}, $o_start, $o_size, $part->{fs_type}) or die "failed to add partition #$part_number on $hd->{file}"; my $flag; if (isESP($part)) { $flag = 'ESP'; } elsif (isBIOS_GRUB($part)) { $flag = 'BIOS_GRUB'; } elsif (isRawLVM($part)) { $flag = 'LVM'; } elsif (isRawRAID($part)) { $flag = 'RAID'; } if ($flag) { c::set_partition_flag($hd->{file}, $part_number, $flag) or die "failed to set type '$flag' for $part->{file} on $part->{mntpoint}"; } } elsif ($action eq 'del' && !$partitions_killed) { c::disk_del_partition($hd->{file}, $part_number) or die "failed to del partition #$part_number on $hd->{file}"; } } # prevent errors when telling kernel to reread partition table: # (above add/del_partition result in udev events) system(qw(udevadm settle)); common::sync(); 1; } sub initialize { my ($class, $hd) = @_; my @raw; for (my $part_number = 0; $part_number < $nb_primary-1; $part_number++) { # part_number starts at 1 $raw[$part_number] = { part_number => $part_number + 1 }; } $hd->{primary} = { raw => \@raw }; bless $hd, $class; } sub can_add { &can_raw_add } sub adjustStart {} sub adjustEnd {} 1;