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|
package diskdrake::interactive; # $Id$
use diagnostics;
use strict;
use common;
use partition_table qw(:types);
use partition_table_raw;
use detect_devices;
use run_program;
use loopback;
use devices;
use fsedit;
use raid;
use any;
use log;
use fs;
=begin
struct part {
int active # one of { 0 | 0x80 } x86 only, primary only
int start # in sectors
int size # in sectors
int type # 0x82, 0x83, 0x6 ...
string device # 'hda5', 'sdc1' ...
string rootDevice # 'sda', 'hdc' ...
string real_mntpoint # directly on real /, '/tmp/hdimage' ...
string mntpoint # '/', '/usr' ...
string options # 'defaults', 'noauto'
string device_windobe # 'C', 'D' ...
string encrypt_key # [0-9A-Za-z./]{20,}
string comment # comment to have in fstab
bool isMounted
bool isFormatted
bool notFormatted
# isFormatted means the device is formatted
# !isFormatted && notFormatted means the device is not formatted
# !isFormatted && !notFormatted means we don't know which state we're in
int raid # for partitions of type isRawRAID and which isPartOfRAID, the raid device number
string lvm # partition used as a PV for the VG with {lvm} as LVMname
loopback loopback[] # loopback living on this partition
# internal
string real_device # '/dev/loop0', '/dev/loop1' ...
# internal CHS (Cylinder/Head/Sector)
int start_cyl, start_head, start_sec, end_cyl, end_head, end_sec,
}
struct part_allocate inherits part {
int maxsize # in sectors (alike "size")
int ratio #
string hd # 'hda', 'hdc'
string parts # for creating raid partitions. eg: 'foo bar' where 'foo' and 'bar' are mntpoint
}
struct part_raid inherits part {
string chunk-size # usually '64k'
string level # one of { 0, 1, 4, 5, 'linear' }
part disks[]
# invalid: active, start, rootDevice, device_windobe?, CHS
}
struct part_loopback inherits part {
string loopback_file # absolute file name which is relative to the partition
part loopback_device # where the loopback file live
# device is special here: it is the absolute filename of the loopback file.
# invalid: active, start, rootDevice, device_windobe, CHS
}
struct part_lvm inherits part {
# invalid: active, start, device_windobe, CHS
}
struct partition_table_elem {
part normal[] #
part extended # the main/next extended
part raw[4] # primary partitions
}
struct geom {
int heads
int sectors
int cylinders
int totalcylinders # for SUN, forget it
int start # always 0, forget it
}
struct hd {
int totalsectors # size in sectors
string device # 'hda', 'sdc' ...
string device_alias # 'cdrom', 'floppy' ...
string media_type # one of { 'hd', 'cdrom', 'fd', 'tape' }
string capacity # contain of the strings of { 'burner', 'DVD' }
string info # name of the hd, eg: 'QUANTUM ATLAS IV 9 WLS'
bool isDirty # does it need to be written to the disk
bool needKernelReread # must we tell the kernel to reread the partition table
bool hasBeenDirty # for undo
bool rebootNeeded # happens when a kernel reread failed
bool partitionsRenumbered # happens when you
# - remove an extended partition which is not the last one
# - add an extended partition which is the first extended partition
int bus, id
partition_table_elem primary
partition_table_elem extended[]
geom geom
# internal
string prefix # for some RAID arrays device=>c0d0 and prefix=>c0d0p
string file # '/dev/hda' ...
}
struct hd_lvm inherits hd {
int PE_size # block size (granularity, similar to cylinder size on x86)
string LVMname # VG name
part_lvm disks[]
# invalid: bus, id, extended, geom
}
struct raw_hd inherits hd {
string type # 0x82, 0x83, 'nfs', ...
string mntpoint # '/', '/usr' ...
string options # 'defaults', 'noauto'
# invalid: isDirty, needKernelReread, hasBeenDirty, rebootNeeded, primary, extended
}
struct all_hds {
hd hds[]
hd_lvm lvms[]
part_raid raids[] # indexed by number: raids[$n]{device} is "md$n"
part_loopback loopbacks[]
raw_hd raw_hds[]
raw_hd nfss[]
raw_hd smbs[]
raw_hd special[]
# internal: if fstab_to_string($all_hds) eq current_fstab then no need to save
string current_fstab
}
=cut
sub main {
my ($in, $all_hds) = @_;
if ($in->isa('interactive_gtk')) {
require diskdrake::hd_gtk;
goto &diskdrake::hd_gtk::main;
}
my ($current_part, $current_hd);
while (1) {
my $choose_txt = $current_part ? __("Choose another partition") : __("Choose a partition");
my $parts_and_holes = [ fsedit::get_all_fstab_and_holes($all_hds) ];
my $choose_part = sub {
$current_part = $in->ask_from_listf('diskdrake', translate($choose_txt), sub { format_part_info_short(fsedit::part2hd($_[0], $all_hds), $_[0]) }, $parts_and_holes, $current_part) || return;
$current_hd = fsedit::part2hd($current_part, $all_hds);
};
$choose_part->() if !$current_part;
return if !$current_part;
my %actions = my @actions = (
if_($current_part,
(map { my $s = $_; $_ => sub { $diskdrake::interactive::{$s}($in, $current_hd, $current_part, $all_hds) } } part_possible_actions($in, $current_hd, $current_part, $all_hds)),
'____________________________' => sub {},
),
if_(@$parts_and_holes > 1, $choose_txt => $choose_part),
if_($current_hd,
(map { my $s = $_; $_ => sub { $diskdrake::interactive::{$s}($in, $current_hd, $all_hds) } } hd_possible_actions_interactive($in, $current_hd, $all_hds)),
),
(map { my $s = $_; $_ => sub { $diskdrake::interactive::{$s}($in, $all_hds) } } general_possible_actions($in, $all_hds)),
);
my ($actions) = list2kv(@actions);
my $a;
if ($current_part) {
$in->ask_from_({
cancel => _("Exit"),
title => 'diskdrake',
messages => format_part_info($current_hd, $current_part),
},
[ { val => \$a, list => $actions, format => \&translate, type => 'list', sort => 0, gtk => { use_boxradio => 0 } } ]) or last;
$actions{$a}();
$current_hd = $current_part = '' if !is_part_existing($current_part, $all_hds);
} else {
$choose_part->();
}
partition_table::assign_device_numbers($_) foreach fsedit::all_hds($all_hds);
}
Done($in, $all_hds) or goto &main;
}
################################################################################
# general actions
################################################################################
sub general_possible_actions {
__("Undo"), ($::expert ? __("Toggle to normal mode") : __("Toggle to expert mode"));
}
sub Undo {
my ($in, $all_hds) = @_;
fsedit::undo($all_hds);
}
sub Wizard {
$::o->{wizard} = 1;
goto &Done;
}
sub Done {
my ($in, $all_hds) = @_;
eval { raid::verify($all_hds->{raids}) };
if (my $err = $@) {
$::expert or die;
$in->ask_okcancel('', [ formatError($err), _("Continue anyway?")]) or return;
}
foreach (@{$all_hds->{hds}}) {
if (!write_partitions($in, $_)) {
return if !$::isStandalone;
$in->ask_yesorno(_("Quit without saving"), _("Quit without writing the partition table?"), 1) or return;
}
}
if (!$::isInstall) {
my $new = fs::fstab_to_string($all_hds);
if ($new ne $all_hds->{current_fstab} && $in->ask_yesorno('', _("Do you want to save /etc/fstab modifications"), 1)) {
$all_hds->{current_fstab} = $new;
fs::write_fstab($all_hds);
}
}
1;
}
################################################################################
# per-hd actions
################################################################################
sub hd_possible_actions {
__("Clear all"), if_($::isInstall, __("Auto allocate")), __("More");
}
sub hd_possible_actions_interactive {
hd_possible_actions(), __("Hard drive information");
}
sub Clear_all {
my ($in, $hd, $all_hds) = @_;
isPartOfLVM($_) and RemoveFromLVM($in, $hd, $_, $all_hds) foreach partition_table::get_normal_parts($hd);
partition_table_raw::zero_MBR_and_dirty($hd);
}
sub Auto_allocate {
my ($in, $hd, $all_hds) = @_;
my $suggestions = partitions_suggestions($in) or return;
my %all_hds_ = %$all_hds;
$all_hds_{hds} = [ sort { $a == $hd ? -1 : 1 } @{$all_hds->{hds}} ];
eval { fsedit::auto_allocate(\%all_hds_, $suggestions) };
if ($@) {
$@ =~ /partition table already full/ or die;
$in->ask_warn("", [
_("All primary partitions are used"),
_("I can't add any more partition"),
_("To have more partitions, please delete one to be able to create an extended partition"),
]);
}
}
sub More {
my ($in, $hd) = @_;
$in->ask_from('', '',
[
{ val => _("Save partition table"), clicked_may_quit => sub { SaveInFile($in, $hd); 1 } },
{ val => _("Restore partition table"), clicked_may_quit => sub { ReadFromFile($in, $hd); 1 } },
{ val => _("Rescue partition table"), clicked_may_quit => sub { Rescuept($in, $hd); 1 } },
if_($::isInstall,
{ val => _("Reload partition table"), clicked => sub {
$::o->{all_hds} = fsedit::empty_all_hds();
die "setstep doPartitionDisks\n" if $::setstep;
} }),
if_($::isInstall,
{ text => _("Removable media automounting"), val => \$::o->{useSupermount}, type => 'bool' },
),
],
);
}
sub ReadFromFile {
my ($in, $hd) = @_;
my $file = $::isStandalone ? $in->ask_file(_("Select file")) : devices::make("fd0") or return;
eval {
catch_cdie { partition_table::load($hd, $file) }
sub {
$@ =~ /bad totalsectors/ or return;
$in->ask_yesorno('',
_("The backup partition table has not the same size
Still continue?"), 0);
};
};
if (my $err = $@) {
$in->ask_warn(_("Error"), formatError($err));
}
}
sub SaveInFile {
my ($in, $hd) = @_;
my $file = $::isStandalone ?
$in->ask_file(_("Select file")) :
$in->ask_okcancel(_("Warning"),
_("Insert a floppy in drive
All data on this floppy will be lost"), 1) && devices::make(detect_devices::floppy()) or return;
eval { partition_table::save($hd, $file) };
if (my $err = $@) {
$in->ask_warn(_("Error"), formatError($err));
}
}
sub Rescuept {
my ($in, $hd) = @_;
my $w = $in->wait_message('', _("Trying to rescue partition table"));
fsedit::rescuept($hd);
}
sub Hd_info {
my ($in, $hd) = @_;
$in->ask_warn('', [ _("Detailed information"), format_hd_info($hd) ]);
}
################################################################################
# per-part actions
################################################################################
sub part_possible_actions {
my ($in, $hd, $part, $all_hds) = @_;
$part or return;
my %actions = my @l = (
__("Mount point") => '($part->{real_mntpoint} && common::usingRamdisk()) || (!isBusy && !isSwap && !isNonMountable)',
__("Type") => '!isBusy && $::expert',
__("Options") => '$::expert',
__("Resize") => '!isBusy && !isSpecial || isLVM($hd) && isMounted && isThisFs("xfs", $part)',
__("Move") => '!isBusy && !isSpecial && $::expert && 0', # disable for the moment
__("Format") => '!isBusy && ($::expert || $::isStandalone)',
__("Mount") => '!isBusy && (hasMntpoint || isSwap) && maybeFormatted && ($::expert || $::isStandalone)',
__("Add to RAID") => '!isBusy && isRawRAID && !isSpecial',
__("Add to LVM") => '!isBusy && isRawLVM',
__("Unmount") => '!$part->{real_mntpoint} && isMounted',
__("Delete") => '!isBusy',
__("Remove from RAID") => 'isPartOfRAID',
__("Remove from LVM") => 'isPartOfLVM',
__("Modify RAID") => 'isPartOfRAID && !isMounted($all_hds->{raids}[$part->{raid}])',
__("Use for loopback") => '!$part->{real_mntpoint} && isMountableRW && !isSpecial && hasMntpoint && $::expert',
);
my ($actions_names) = list2kv(@l);
my %macros = (
hasMntpoint => '$part->{mntpoint}',
isPrimary => 'isPrimary($part, $hd)',
);
if ($part->{type} == 0) {
__("Create");
} else {
grep {
my $cond = $actions{$_};
while (my ($k, $v) = each %macros) {
$cond =~ s/$k/qq(($v))/e;
}
$cond =~ s/(^|[^:\$]) \b ([a-z]\w{3,}) \b ($|[\s&\)])/$1 . $2 . '($part)' . $3/exg;
eval $cond;
} @$actions_names;
}
}
sub Create {
my ($in, $hd, $part, $all_hds) = @_;
my ($def_start, $def_size, $max) = ($part->{start}, $part->{size}, $part->{start} + $part->{size});
$part->{maxsize} = $part->{size}; $part->{size} = 0;
if (!fsedit::suggest_part($part, $all_hds)) {
$part->{size} = $part->{maxsize};
$part->{type} ||= 0x483;
}
#- update adjustment for start and size, take into account the minimum partition size
#- including one less sector for start due to a capacity to increase the adjustement by
#- one.
my ($primaryOrExtended, $migrate_files);
my $type = type2name($part->{type});
my $mb_size = $part->{size} >> 11;
my $has_startsector = ($::expert || arch() !~ /i.86/) && !isLVM($hd);
my $w = $in->ask_from(_("Create a new partition"), '',
[
if_($has_startsector,
{ label => _("Start sector: "), val => \$part->{start}, min => $def_start, max => ($max - min_partition_size($hd)), type => 'range' },
),
{ label => _("Size in MB: "), val => \$mb_size, min => min_partition_size($hd) >> 11, max => $def_size >> 11, type => 'range' },
{ label => _("Filesystem type: "), val => \$type, list => [ partition_table::important_types() ], sort => 0 },
{ label => _("Mount point: "), val => \$part->{mntpoint}, list => [ fsedit::suggestions_mntpoint($all_hds), '' ],
disabled => sub { my $p = { type => name2type($type) }; isSwap($p) || isNonMountable($p) }, type => 'combo', not_edit => 0,
},
if_($::expert && $hd->hasExtended,
{ label => _("Preference: "), val => \$primaryOrExtended, list => [ '', "Extended", "Primary", if_($::expert, "Extended_0x85") ] },
),
], changed => sub {
if ($part->{start} + ($mb_size << 11) > $max) {
if ($_[0] == 0) {
# Start sector changed => restricting Size
$mb_size = ($max - $part->{start}) >> 11;
} else {
# Size changed => restricting Start sector
$part->{start} = $max - ($mb_size << 11);
}
}
}, complete => sub {
$part->{size} = from_Mb($mb_size, min_partition_size($hd), $max - $part->{start}); #- need this to be able to get back the approximation of using MB
$part->{type} = name2type($type);
$part->{mntpoint} = '' if isNonMountable($part);
$part->{mntpoint} = 'swap' if isSwap($part);
fs::set_default_options($part);
check($in, $hd, $part, $all_hds) or return 1;
$migrate_files = need_migration($in, $part->{mntpoint}) or return 1;
fsedit::add($hd, $part, $all_hds, { force => 1, primaryOrExtended => $primaryOrExtended });
0;
},
) or return;
warn_if_renumbered($in, $hd);
if ($migrate_files eq 'migrate') {
format_($in, $hd, $part, $all_hds) or return;
migrate_files($in, $hd, $part);
fs::mount_part($part);
}
}
sub Delete {
my ($in, $hd, $part, $all_hds) = @_;
if (isRAID($part)) {
raid::delete($all_hds->{raids}, $part);
} elsif (isLVM($hd)) {
lvm::lv_delete($hd, $part);
} elsif (isLoopback($part)) {
my $f = "$part->{loopback_device}{mntpoint}$part->{loopback_file}";
if (-e $f && $in->ask_yesorno('', _("Remove the loopback file?"))) {
unlink $f;
}
my $l = $part->{loopback_device}{loopback};
@$l = grep { $_ != $part } @$l;
delete $part->{loopback_device}{loopback} if @$l == 0;
fsedit::recompute_loopbacks($all_hds);
} else {
if (arch() =~ /ppc/) {
undef $partition_table_mac::bootstrap_part if (isAppleBootstrap($part) && ($part->{device} = $partition_table_mac::bootstrap_part));
}
partition_table::remove($hd, $part);
warn_if_renumbered($in, $hd);
}
}
sub Type {
my ($in, $hd, $part) = @_;
my $warn = sub { ask_alldatawillbelost($in, $part, __("After changing type of partition %s, all data on this partition will be lost")) };
#- for ext2, warn after choosing as ext2->ext3 can be achieved without loosing any data :)
isExt2($part) or $warn->() or return;
my $type = type2name($part->{type});
$in->ask_from(_("Change partition type"),
_("Which filesystem do you want?"),
[ { label => _("Type"), val => \$type, list => [ partition_table::important_types() ], sort => 0, not_edit => !$::expert } ]) or return;
if (isExt2($part) && isThisFs('ext3', { type => name2type($type) })) {
my $w = $in->wait_message('', _("Switching from ext2 to ext3"));
if (run_program::run("tune2fs", "-j", devices::make($part->{device}))) {
$part->{type} = name2type($type);
$part->{isFormatted} = 1; #- assume that if tune2fs works, partition is formatted
#- disable the fsck (don't do it together with -j in case -j fails?)
fs::disable_forced_fsck($part->{device});
return;
}
}
#- either we switch to non-ext3 or switching losslessly to ext3 failed
!isExt2($part) or $warn->() or return;
if (defined $type) {
my $i_type = name2type($type);
fsedit::change_type(name2type($type), $hd, $part);
}
}
sub Mount_point {
my ($in, $hd, $part, $all_hds) = @_;
my $migrate_files;
my $mntpoint = $part->{mntpoint} || do {
my $part_ = { %$part };
if (fsedit::suggest_part($part_, $all_hds)) {
fsedit::has_mntpoint('/', $all_hds) || $part_->{mntpoint} eq '/boot' ? $part_->{mntpoint} : '/';
} else { '' }
};
$in->ask_from(
'',
isLoopback($part) ? _("Where do you want to mount loopback file %s?", $part->{loopback_file}) :
_("Where do you want to mount device %s?", $part->{device}),
[ { label => _("Mount point"), val => \$mntpoint,
list => [ if_($mntpoint, $mntpoint), fsedit::suggestions_mntpoint($all_hds), '' ],
not_edit => !$::expert } ],
complete => sub {
!isPartOfLoopback($part) || $mntpoint or $in->ask_warn('',
_("Can't unset mount point as this partition is used for loop back.
Remove the loopback first")), return 1;
$part->{mntpoint} eq $mntpoint || check_mntpoint($in, $mntpoint, $hd, $part, $all_hds) or return 1;
$migrate_files = need_migration($in, $mntpoint) or return 1;
0;
}
) or return;
$part->{mntpoint} = $mntpoint;
if ($migrate_files eq 'migrate') {
format_($in, $hd, $part, $all_hds) or return;
migrate_files($in, $hd, $part);
fs::mount_part($part);
}
}
sub Mount_point_raw_hd {
my ($in, $part, $all_hds, $propositions) = @_;
my $mntpoint = $part->{mntpoint};
$in->ask_from(
'',
_("Where do you want to mount device %s?", $part->{device}),
[ { label => _("Mount point"), val => \$mntpoint,
list => [ if_($mntpoint, $mntpoint), '', @$propositions ],
not_edit => 0 } ],
complete => sub {
$part->{mntpoint} eq $mntpoint || check_mntpoint($in, $mntpoint, {}, $part, $all_hds) or return 1;
0;
}
) or return;
$part->{mntpoint} = $mntpoint;
}
sub Resize {
my ($in, $hd, $part) = @_;
my (%nice_resize, $block_count, $free_block, $block_size);
my ($min, $max) = (min_partition_size($hd), partition_table::next_start($hd, $part) - $part->{start});
if (maybeFormatted($part)) {
# here we may have a non-formatted or a formatted partition
# -> doing as if it was formatted
if (isFat($part)) {
write_partitions($in, $hd) or return;
#- try to resize without losing data
my $w = $in->wait_message(_("Resizing"), _("Computing FAT filesystem bounds"));
$nice_resize{fat} = resize_fat::main->new($part->{device}, devices::make($part->{device}));
$min = max($min, $nice_resize{fat}->min_size);
$max = min($max, $nice_resize{fat}->max_size);
} elsif (isExt2($part)) {
write_partitions($in, $hd) or return;
$nice_resize{ext2} = devices::make($part->{device});
my $r = `dumpe2fs $nice_resize{ext2} 2>/dev/null`;
$r =~ /Block count:\s*(\d+)/ and $block_count = $1;
$r =~ /Free blocks:\s*(\d+)/ and $free_block = $1;
$r =~ /Block size:\s*(\d+)/ and $block_size = $1;
log::l("dumpe2fs $nice_resize{ext2} gives: Block_count=$block_count, Free_blocks=$free_block, Block_size=$block_size");
if ($block_count && $free_block && $block_size) {
$min = max($min, ($block_count - $free_block) * $block_size / 512);
$max = min($max, $block_count * $block_size / 512);
} else {
delete $nice_resize{ext2};
}
} elsif (isThisFs("reiserfs", $part)) {
write_partitions($in, $hd) or return;
if (defined (my $free = fs::df($part))) {
$nice_resize{reiserfs} = 1;
$min = max($min, $free);
}
} elsif (isThisFs('xfs', $part) && isLVM($hd) && $::isStandalone && isMounted($part)) {
$min = $part->{size}; #- ensure the user can only increase
$nice_resize{xfs} = 1;
}
#- make sure that even after normalizing the size to cylinder boundaries, the minimun will be saved,
#- this save at least a cylinder (less than 8Mb).
$min += partition_table_raw::cylinder_size($hd);
$min >= $max and return $in->ask_warn('', _("This partition is not resizeable"));
#- for these, we have tools to resize partition table
#- without losing data (or at least we hope so :-)
if (%nice_resize) {
ask_alldatamaybelost($in, $part, __("All data on this partition should be backed-up")) or return;
} else {
ask_alldatawillbelost($in, $part, __("After resizing partition %s, all data on this partition will be lost")) or return;
}
}
my $mb_size = $part->{size} >> 11;
$in->ask_from(_("Resize"), _("Choose the new size"), [
{ label => _("New size in MB: "), val => \$mb_size, min => $min >> 11, max => $max >> 11, type => 'range' },
]) or return;
my $size = from_Mb($mb_size, $min, $max);
$part->{size} == $size and return;
my $oldsize = $part->{size};
$hd->{isDirty} = $hd->{needKernelReread} = 1;
$part->{size} = $size;
$hd->adjustEnd($part);
undef $@;
my $b = before_leaving { $@ and $part->{size} = $oldsize };
my $w = $in->wait_message(_("Resizing"), '');
if (isLVM($hd)) {
lvm::lv_resize($part, $oldsize) if $size > $oldsize;
}
if ($nice_resize{fat}) {
local *log::l = sub { $w->set(join(' ', @_)) };
$nice_resize{fat}->resize($part->{size});
} elsif ($nice_resize{ext2}) {
my $s = int(($part->{size} << 9) / $block_size);
log::l("resize2fs $nice_resize{ext2} to size $s in block of $block_size bytes");
system "resize2fs", "-pf", $nice_resize{ext2}, $s;
} elsif ($nice_resize{reiserfs}) {
log::l("reiser resize to $part->{size} sectors");
install_any::check_prog ("resize_reiserfs") if $::isInstall;
system "resize_reiserfs", "-f", "-q", "-s" . $part->{size}/2 . "K", devices::make($part->{device});
} elsif ($nice_resize{xfs}) {
system "xfs_growfs", $part->{mntpoint};
}
if (%nice_resize) {
$part->{isFormatted} = 1;
} else {
$part->{notFormatted} = 1;
$part->{isFormatted} = 0;
partition_table::verifyParts($hd);
}
if (isLVM($hd)) {
lvm::lv_resize($part, $oldsize) if $size < $oldsize;
} else {
partition_table::adjust_local_extended($hd, $part);
partition_table::adjust_main_extended($hd);
}
}
sub Move {
my ($in, $hd, $part, $all_hds) = @_;
my $hd2 = $in->ask_from_listf(_("Move"),
_("Which disk do you want to move it to?"), \&partition_table::description, @{$all_hds->{hds}}) or return;
my $start2 = $in->ask_from_entry(_("Sector"),
_("Which sector do you want to move it to?"));
defined $start2 or return;
my $w = $in->wait_message(_("Moving"), _("Moving partition..."));
fsedit::move($hd, $part, $hd2, $start2);
}
sub Format {
my ($in, $hd, $part, $all_hds) = @_;
format_($in, $hd, $part, $all_hds);
}
sub Mount {
my ($in, $hd, $part) = @_;
write_partitions($in, $hd) or return;
fs::mount_part($part);
}
sub Add2RAID {
my ($in, $hd, $part, $all_hds) = @_;
my $raids = $all_hds->{raids};
local $_ = @$raids == () ? "new" :
$in->ask_from_list_('', _("Choose an existing RAID to add to"),
[ (grep {$_} map_index { $_ && "md$::i" } @$raids), __("new") ]) or return;
if (/new/) {
my $nb1 = raid::new($raids, $part);
defined modifyRAID($in, $raids, $nb1) or return raid::delete($raids, $nb1);
} else {
raid::add($raids, $part, $_);
}
raid::update(@$raids);
raid::stopAll();
}
sub Add2LVM {
my ($in, $hd, $part, $all_hds) = @_;
my $lvms = $all_hds->{lvms};
write_partitions($in, $_) or return foreach isRAID($part) ? @{$all_hds->{hds}} : $hd;
my $lvm = $in->ask_from_listf_('', _("Choose an existing LVM to add to"),
sub { ref $_[0] ? $_[0]{LVMname} : $_[0] },
[ @$lvms, __("new") ]) or return;
if (!ref $lvm) {
# create new lvm
my $name = $in->ask_from_entry('', _("LVM name?")) or return;
$name =~ s/\W/_/g;
$name = substr($name, 0, 63); # max length must be < NAME_LEN / 2 where NAME_LEN is 128
$lvm = bless { disks => [], LVMname => $name }, 'lvm';
push @$lvms, $lvm;
}
$part->{lvm} = $lvm->{LVMname};
push @{$lvm->{disks}}, $part;
delete $part->{mntpoint};
require lvm;
lvm::check($in) if $::isStandalone;
lvm::vg_add($part);
lvm::update_size($lvm);
}
sub Unmount {
my ($in, $hd, $part) = @_;
fs::umount_part($part);
}
sub RemoveFromRAID {
my ($in, $hd, $part, $all_hds) = @_;
raid::removeDisk($all_hds->{raids}, $part);
}
sub RemoveFromLVM {
my ($in, $hd, $part, $all_hds) = @_;
my $lvms = $all_hds->{lvms};
isPartOfLVM($part) or die;
my ($lvm) = grep { $_->{LVMname} eq $part->{lvm} } @$lvms;
lvm::vg_destroy($lvm);
@$lvms = grep { $_ != $lvm } @$lvms;
}
sub ModifyRAID {
my ($in, $hd, $part, $all_hds) = @_;
modifyRAID($in, $all_hds->{raids}, $part->{raid});
}
sub Loopback {
my ($in, $hd, $real_part, $all_hds) = @_;
write_partitions($in, $hd) or return;
my $handle = any::inspect($real_part) or $in->ask_warn('', _("This partition can't be used for loopback")), return;
my ($min, $max) = (1, loopback::getFree($handle->{dir}, $real_part));
my $part = { maxsize => $max, size => 0, loopback_device => $real_part, notFormatted => 1 };
if (!fsedit::suggest_part($part, $all_hds)) {
$part->{size} = $part->{maxsize};
$part->{type} ||= 0x483;
}
delete $part->{mntpoint}; # we don't want the suggested mntpoint
my $type = type2name($part->{type});
my $mb_size = $part->{size} >> 11;
$in->ask_from(_("Loopback"), '', [
{ label => _("Loopback file name: "), val => \$part->{loopback_file} },
{ label => _("Size in MB: "), val => \$mb_size, min => $min >> 11, max => $max >> 11, type => 'range' },
{ label => _("Filesystem type: "), val => \$type, list => [ partition_table::important_types() ], not_edit => !$::expert, sort => 0 },
],
complete => sub {
$part->{loopback_file} or $in->ask_warn('', _("Give a file name")), return 1, 0;
$part->{loopback_file} =~ s|^([^/])|/$1|;
if (my $size = loopback::verifFile($handle->{dir}, $part->{loopback_file}, $real_part)) {
$size == -1 and $in->ask_warn('', _("File already used by another loopback, choose another one")), return 1, 0;
$in->ask_yesorno('', _("File already exists. Use it?")) or return 1, 0;
delete $part->{notFormatted};
$part->{size} = divide($size, 512);
} else {
$part->{size} = from_Mb($mb_size, $min, $max);
}
0;
}) or return;
$part->{type} = name2type($type);
push @{$real_part->{loopback}}, $part;
fsedit::recompute_loopbacks($all_hds);
}
sub Options {
my ($in, $hd, $part, $all_hds) = @_;
my @simple_options = qw(user noauto supermount);
my (undef, $user_implies) = fs::mount_options();
my ($options, $unknown) = fs::mount_options_unpack($part);
my %help = fs::mount_options_help(keys %$options);
my $prev_user = $options->{user};
$in->ask_from(_("Mount options"),
'',
[
(map {;
{ label => $_, text => scalar warp_text(formatAlaTeX($help{$_})), val => \$options->{$_},
advanced => !$part->{rootDevice} && !member($_, @simple_options), if_(!/=$/, type => 'bool'), }
} keys %$options),
{ label => _("Various"), val => \$unknown, advanced => 1 },
],
changed => sub {
if ($prev_user != $options->{user}) {
$prev_user = $options->{user};
$options->{$_} = $options->{user} foreach @$user_implies;
}
if ($options->{encrypted}) {
# modify $part->{options} for the check
local $part->{options};
fs::mount_options_pack($part, $options, $unknown);
if (!check($in, $hd, $part, $all_hds)) {
$options->{encrypted} = 0;
} elsif (!$part->{encrypt_key} && !isSwap($part)) {
if (my $encrypt_key = choose_encrypt_key($in)) {
$options->{'encryption='} = 'AES128';
$part->{encrypt_key} = $encrypt_key;
} else {
$options->{encrypted} = 0;
}
}
} else {
delete $options->{'encryption='};
delete $part->{encrypt_key};
}
},
) or return;
fs::mount_options_pack($part, $options, $unknown);
}
{
no strict;
*{"Toggle to normal mode"} = sub { $::expert = 0 };
*{"Toggle to expert mode"} = sub { $::expert = 1 };
*{"Clear all"} = *Clear_all;
*{"Auto allocate"} = *Auto_allocate;
*{"Mount point"} = *Mount_point;
*{"Modify RAID"} = *ModifyRAID;
*{"Add to RAID"} = *Add2RAID;
*{"Remove from RAID"} = *RemoveFromRAID;
*{"Add to LVM"} = *Add2LVM;
*{"Remove from LVM"} = *RemoveFromLVM;
*{"Use for loopback"} = *Loopback;
*{"Hard drive information"} = *Hd_info;
}
################################################################################
# helpers
################################################################################
sub is_part_existing {
my ($part, $all_hds) = @_;
$part && grep { fsedit::is_same_part($part, $_) } fsedit::get_all_fstab_and_holes($all_hds);
}
sub modifyRAID {
my ($in, $raids, $nb) = @_;
my $md = "md$nb";
$in->ask_from('', '',
[
{ label => _("device"), val => \$md, list => [ map { "md$_" } grep { $nb == $_ || !$raids->[$_] } 0..8 ] },
{ label => _("level"), val => \$raids->[$nb]{level}, list => [ qw(0 1 4 5 linear) ] },
{ label => _("chunk size"), val => \$raids->[$nb]{'chunk-size'} },
],
) or return;
raid::updateSize($raids->[$nb]); # changing the raid level changes the size available
raid::changeNb($raids, $nb, first($md =~ /(\d+)/));
}
sub ask_alldatamaybelost {
my ($in, $part, $msg) = @_;
maybeFormatted($part) or return 1;
#- here we may have a non-formatted or a formatted partition
#- -> doing as if it was formatted
$in->ask_okcancel(_("Read carefully!"), [ _("Be careful: this operation is dangerous."), _($msg, $part->{device}) ], 1);
}
sub ask_alldatawillbelost {
my ($in, $part, $msg) = @_;
maybeFormatted($part) or return 1;
#- here we may have a non-formatted or a formatted partition
#- -> doing as if it was formatted
$in->ask_okcancel(_("Read carefully!"), _($msg, $part->{device}), 1);
}
sub partitions_suggestions {
my ($in) = @_;
my $t = $::expert ?
$in->ask_from_list_('', _("What type of partitioning?"), [ keys %fsedit::suggestions ]) :
'simple';
$fsedit::suggestions{$t};
}
sub check_type {
my ($in, $type, $hd, $part) = @_;
eval { fsedit::check_type($type, $hd, $part) };
my $err = $@;
$in->ask_warn('', $err) if $err;
!$err;
}
sub check_mntpoint {
my ($in, $mntpoint, $hd, $part, $all_hds) = @_;
eval { fsedit::check_mntpoint($mntpoint, $hd, $part, $all_hds) };
local $_ = $@;
if (m|/boot ending on cylinder > 1024|) {
$in->ask_warn('',
_("Sorry I won't accept to create /boot so far onto the drive (on a cylinder > 1024).
Either you use LILO and it won't work, or you don't use LILO and you don't need /boot"));
} elsif (m|/ ending on cylinder > 1024|) {
$in->ask_warn('',
_("The partition you've selected to add as root (/) is physically located beyond
the 1024th cylinder of the hard drive, and you have no /boot partition.
If you plan to use the LILO boot manager, be careful to add a /boot partition"));
undef $_;
} elsif (m|raid / with no /boot|) {
$in->ask_warn('',
_("You've selected a software RAID partition as root (/).
No bootloader is able to handle this without a /boot partition.
So be careful to add a /boot partition"));
undef $_;
} elsif ($_) {
$in->ask_warn('', formatError($_));
}
!$_;
}
sub check {
my ($in, $hd, $part, $all_hds) = @_;
check_type($in, $part->{type}, $hd, $part) &&
check_mntpoint($in, $part->{mntpoint}, $hd, $part, $all_hds);
}
sub write_partitions {
my ($in, $hd) = @_;
$hd->{isDirty} or return 1;
isLVM($hd) and return 1;
$in->ask_okcancel(_("Read carefully!"), _("Partition table of drive %s is going to be written to disk!", $hd->{device}), 1) or return;
if (!$::testing) {
partition_table::write($hd);
}
$hd->{rebootNeeded} and die _("You'll need to reboot before the modification can take place");
1;
}
sub unmount {
my ($hd, $part) = @_;
fs::umount_part($part);
}
sub format_ {
my ($in, $hd, $part, $all_hds) = @_;
write_partitions($in, $_) or return foreach isRAID($part) ? @{$all_hds->{hds}} : $hd;
ask_alldatawillbelost($in, $part, __("After formatting partition %s, all data on this partition will be lost")) or return;
$part->{isFormatted} = 0; #- force format;
my $w = $in->wait_message(_("Formatting"),
isLoopback($part) ? _("Formatting loopback file %s", $part->{loopback_file}) :
_("Formatting partition %s", $part->{device}));
fs::format_part($all_hds->{raids}, $part);
1;
}
sub need_migration {
my ($in, $mntpoint) = @_;
my @l = grep { $_ ne "lost+found" } all($mntpoint);
if (@l && $::isStandalone) {
my $choice;
my @choices = (__("Move files to the new partition"), __("Hide files"));
$in->ask_from('', _("Directory %s already contains data\n(%s)", $mntpoint, formatList(5, @l)),
[ { val => \$choice, list => \@choices, type => 'list' } ]) or return;
$choice eq $choices[0] ? 'migrate' : 'hide';
} else {
'hide';
}
}
sub migrate_files {
my ($in, $hd, $part, $all_hds) = @_;
my $wait = $in->wait_message('', _("Moving files to the new partition"));
my $handle = any::inspect($part, '', 'rw');
my @l = glob_("$part->{mntpoint}/*");
foreach (@l) {
$wait->set(_("Copying %s", $_));
system("cp", "-a", $_, $handle->{dir});
}
foreach (@l) {
$wait->set(_("Removing %s", $_));
system("rm", "-rf", $_);
}
}
sub warn_if_renumbered {
my ($in, $hd) = @_;
my $l = delete $hd->{partitionsRenumbered};
return if is_empty_array_ref($l);
my @l = map { _("partition %s is now known as %s", @$_) } @$l;
$in->ask_warn('', join("\n", 'Partitions have been renumbered: ', @l));
}
#- unit of $mb is mega bytes, min and max are in sectors, this
#- function is used to convert back to sectors count the size of
#- a partition ($mb) given from the interface (on Resize or Create).
#- modified to take into account a true bounding with min and max.
sub from_Mb {
my ($mb, $min, $max) = @_;
$mb <= $min >> 11 and return $min;
$mb >= $max >> 11 and return $max;
$mb * 2048;
}
sub format_part_info {
my ($hd, $part) = @_;
my $info = '';
$info .= _("Mount point: ") . "$part->{mntpoint}\n" if $part->{mntpoint};
$info .= _("Device: ") . "$part->{device}\n" if $part->{device} && !isLoopback($part);
$info .= _("DOS drive letter: %s (just a guess)\n", $part->{device_windobe}) if $part->{device_windobe};
if (arch() eq "ppc") {
my $new_value = $part->{pType};
$new_value =~ s/[^A-Za-z0-9_]//g;
$info .= _("Type: ") . $new_value . ($::expert ? sprintf " (0x%x)", $part->{type} : '') . "\n";
if (defined $part->{pName}) {
$new_value = $part->{pName};
$new_value =~ s/[^A-Za-z0-9_]//g;
$info .= _("Name: ") . $new_value . "\n";
}
} elsif ($part->{type}) {
my $type = substr(type2name($part->{type}), 0, 40); # limit the length
$info .= _("Type: ") . $type . ($::expert ? sprintf " (0x%x)", $part->{type} : '') . "\n";
} else {
$info .= _("Empty") . "\n";
}
$info .= _("Start: sector %s\n", $part->{start}) if $::expert && !isSpecial($part);
$info .= _("Size: %s", formatXiB($part->{size}, 512));
$info .= sprintf " (%s%%)", int 100 * $part->{size} / $hd->{totalsectors} if $hd->{totalsectors};
$info .= _(", %s sectors", $part->{size}) if $::expert;
$info .= "\n";
$info .= _("Cylinder %d to %d\n", $part->{start} / $hd->cylinder_size(), ($part->{start} + $part->{size} - 1) / $hd->cylinder_size()) if ($::expert || !$part->{type}) && !isSpecial($part);
$info .= _("Formatted\n") if $part->{isFormatted};
$info .= _("Not formatted\n") if !$part->{isFormatted} && $part->{notFormatted};
$info .= _("Mounted\n") if $part->{isMounted};
$info .= _("RAID md%s\n", $part->{raid}) if isPartOfRAID($part);
$info .= sprintf "LVM %s\n", $part->{lvm} if isPartOfLVM($part);
$info .= _("Loopback file(s):\n %s\n", join(", ", map { $_->{loopback_file} } @{$part->{loopback}})) if isPartOfLoopback($part);
$info .= _("Partition booted by default\n (for MS-DOS boot, not for lilo)\n") if $part->{active} && $::expert;
if (isRAID($part)) {
$info .= _("Level %s\n", $part->{level});
$info .= _("Chunk size %s\n", $part->{'chunk-size'});
$info .= _("RAID-disks %s\n", join ", ", map { $_->{device} } @{$part->{disks}});
} elsif (isLoopback($part)) {
$info .= _("Loopback file name: %s", $part->{loopback_file});
}
if (isApple($part)) {
$info .= _("\nChances are, this partition is\na Driver partition, you should\nprobably leave it alone.\n");
}
if (isAppleBootstrap($part)) {
$info .= _("\nThis special Bootstrap\npartition is for\ndual-booting your system.\n");
}
# restrict the length of the lines
$info =~ s/(.{60}).*/$1.../mg;
$info;
}
sub format_part_info_short {
my ($hd, $part) = @_;
$part->{type} ?
partition_table::description($part) :
format_part_info($hd, $part);
}
sub format_hd_info {
my ($hd) = @_;
my $info = '';
$info .= _("Device: ") . "$hd->{device}\n";
$info .= _("Size: %s\n", formatXiB($hd->{totalsectors}, 512)) if $hd->{totalsectors};
$info .= _("Geometry: %s cylinders, %s heads, %s sectors\n", @{$hd->{geom}}{qw(cylinders heads sectors)}) if $::expert && $hd->{geom};
$info .= _("Info: ") . ($hd->{info} || $hd->{media_type}) . "\n" if $::expert && ($hd->{info} || $hd->{media_type});
$info .= _("LVM-disks %s\n", join ", ", map {$_->{device}} @{$hd->{disks}}) if isLVM($hd) && $hd->{disks};
$info .= _("Partition table type: %s\n", $1) if $::expert && ref($hd) =~ /_([^_]+)$/;
$info .= _("on bus %d id %d\n", $hd->{bus}, $hd->{id}) if $::expert && exists $hd->{bus};
$info;
}
sub format_raw_hd_info {
my ($raw_hd) = @_;
my $info = '';
$info .= _("Mount point: ") . "$raw_hd->{mntpoint}\n" if $raw_hd->{mntpoint};
$info .= format_hd_info($raw_hd);
if ($raw_hd->{type}) {
my $type = substr(type2name($raw_hd->{type}), 0, 40); # limit the length
$info .= _("Type: ") . $type . "\n";
}
$info .= _("Options: %s", $raw_hd->{options}) if $raw_hd->{options};
$info;
}
#- get the minimal size of partition in sectors to help diskdrake on
#- limit cases, include a cylinder + start of a eventually following
#- logical partition.
sub min_partition_size { $_[0]->cylinder_size() + 2*$_[0]->{geom}{sectors} }
sub choose_encrypt_key {
my ($in) = @_;
my ($encrypt_key, $encrypt_key2);
$in->ask_from_(
{
title => _("Filesystem encryption key"),
messages => _("Choose your filesystem encryption key"),
callbacks => {
complete => sub {
length $encrypt_key < 20 and $in->ask_warn('', _("This encryption key is too simple (must be at least %d characters long)", 20)), return (1,0);
$encrypt_key eq $encrypt_key2 or $in->ask_warn('', [ _("The encryption keys do not match"), _("Please try again") ]), return (1,1);
return 0
} } }, [
{ label => _("Encryption key"), val => \$encrypt_key, hidden => 1 },
{ label => _("Encryption key (again)"), val => \$encrypt_key2, hidden => 1 },
]) && $encrypt_key;
}
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