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|
package diskdrake::interactive;
use diagnostics;
use strict;
use utf8;
use lib qw(/usr/lib/libDrakX); # for perl_checker
use MDK::Common; # for perl_checker
use common;
use fs::type;
use fs::loopback;
use fs::format;
use fs::mount_options;
use fs;
use partition_table;
use partition_table::raw;
use detect_devices;
use run_program;
use devices;
use fsedit;
use raid;
use any;
use log;
=head1 SYNOPSYS
struct part {
int active # one of { 0 | 0x80 } x86 only, primary only
int start # in sectors
int size # in sectors
int pt_type # 0x82, 0x83, 0x6 ...
string fs_type # 'ext2', 'nfs', ...
string type_name # 'Linux RAID', 'Linux Logical Volume Manager', ...
int part_number # 1 for hda1...
string device # 'hda5', 'sdc1' ...
string device_LABEL # volume label. LABEL=xxx or /dev/disk/by-label/xxx can be used in fstab instead of the device
string device_UUID # volume UUID. UUID=xxx or /dev/disk/by-uuid/xxx can be used in fstab instead of the device
bool prefer_device_LABEL # should the {device_LABEL} or the {device} be used in fstab
bool prefer_device_UUID # should the {device_UUID} or the {device} be used in fstab
bool prefer_device # should the {device} be used in fstab
bool faked_device # false if {device} is a real device, true for nfs/smb/dav/none devices. If the field does not exist, we do not know
bool device_LABEL_changed # true if device_LABEL is different from the one on the disk
string rootDevice # 'sda', 'hdc' ... (can also be a VG_name)
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
string volume_label #
bool is_removable # is the partition on a removable drive
bool isMounted
bool isFormatted
bool notFormatted
# isFormatted means the device is formatted
# !isFormatted && notFormatted means the device is not formatted
# !isFormatted && !notFormatted means we do not know which state we're in
string raid # for partitions of type isRawRAID and which isPartOfRAID, the raid device
string lvm # partition used as a PV for the VG with {lvm} as VG_name #-#
loopback loopback[] # loopback living on this partition
string dmcrypt_key
string dm_name
bool dm_active
# internal
string real_device # '/dev/loop0', '/dev/loop1' ... (used for encrypted loopback)
# 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 min_hd_size # in sectors (do not allocate if the drive is smaller than the given 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 # in KiB, usually '64'
string level # one of { 0, 1, 4, 5, 'linear' }
string UUID
part disks[]
# invalid: active, start, rootDevice, device_windobe?, CHS
}
struct part_dmcrypt inherits part {
string dmcrypt_name
# rootDevice is special here: it is the device hosting the dm
}
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
string lv_name
}
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 readonly # is it allowed to modify the partition table
bool getting_rid_of_readonly_allowed # is it forbidden to write because the partition table is badly handled, or is it because we MUST not change the partition table
bool isDirty # does it need to be written to the disk
list will_tell_kernel # list of actions to tell to the kernel so that it knows the new partition table
bool rebootNeeded # happens when a kernel reread failed
list partitionsRenumbered # happens when you
# - remove an extended partition which is not the last one
# - add an extended partition which is the first extended partition
list allPartitionsRenumbered # used to update bootloader configuration
int bus, id
bool is_removable # is it a removable drive
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 VG_name # VG name
part_lvm disks[]
# invalid: bus, id, extended, geom
}
struct raw_hd inherits hd {
string fs_type # 'ext2', 'nfs', ...
string mntpoint # '/', '/usr' ...
string options # 'defaults', 'noauto'
# invalid: isDirty, will_tell_kernel, rebootNeeded, primary, extended
}
struct all_hds {
hd hds[]
hd_lvm lvms[]
part_raid raids[]
part_dmcrypt dmcrypts[]
part_loopback loopbacks[]
raw_hd raw_hds[]
raw_hd nfss[]
raw_hd smbs[]
raw_hd davs[]
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, $do_force_reload) = @_;
if ($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 ? N_("Choose another partition") : N_("Choose a partition");
my $parts_and_holes = [ fs::get::fstab_and_holes($all_hds) ];
my $choose_part = sub {
$current_part = $in->ask_from_listf('diskdrake', translate($choose_txt),
sub {
my $hd = fs::get::part2hd($_[0] || return, $all_hds);
format_part_info_short($hd, $_[0]);
}, $parts_and_holes, $current_part) || return;
$current_hd = fs::get::part2hd($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) {
$in->ask_from_({
cancel => N("Exit"),
title => 'diskdrake',
messages => format_part_info($current_hd, $current_part),
},
[ { val => \$a, list => $actions, format => \&translate, type => 'list', sort => 0, gtk => { use_boxradio => 0 } } ]) or last;
my $v = eval { $actions{$a}() };
if (my $err = $@) {
$in->ask_warn(N("Error"), formatError($err));
}
if ($v eq 'force_reload') {
$all_hds = $do_force_reload->();
}
$current_hd = $current_part = '' if !is_part_existing($current_part, $all_hds);
} else {
$choose_part->();
}
partition_table::assign_device_numbers($_) foreach fs::get::hds($all_hds);
}
return if eval { Done($in, $all_hds) };
if (my $err = $@) {
$in->ask_warn(N("Error"), formatError($err));
}
goto &main;
}
################################################################################
# general actions
################################################################################
sub general_possible_actions {
my ($_in, $_all_hds) = @_;
if_($::isInstall, N_("More"));
}
sub Done {
my ($in, $all_hds) = @_;
eval { raid::verify($all_hds->{raids}) };
if (my $err = $@) {
$::expert or die;
$in->ask_okcancel(N("Confirmation"), [ formatError($err), N("Continue anyway?") ]) or return;
}
foreach (@{$all_hds->{hds}}) {
if (!write_partitions($in, $_, 'skip_check_rebootNeeded')) {
return if !$::isStandalone;
$in->ask_yesorno(N("Quit without saving"), N("Quit without writing the partition table?"), 1) or return;
}
}
foreach (@{$all_hds->{raids}}) {
raid::make($all_hds->{raids}, $_);
}
if (!$::isInstall) {
my $new = fs::fstab_to_string($all_hds);
if ($new ne $all_hds->{current_fstab} && $in->ask_yesorno(N("Confirmation"), N("Do you want to save the /etc/fstab modifications?"), 1)) {
$all_hds->{current_fstab} = $new;
fs::write_fstab($all_hds);
}
update_bootloader_for_renumbered_partitions($in, $all_hds);
if (any { $_->{rebootNeeded} } @{$all_hds->{hds}}) {
$in->ask_warn(N("Partitioning"), N("You need to reboot for the partition table modifications to take effect"));
tell_wm_and_reboot();
}
}
if (my $part = find { $_->{mntpoint} && !maybeFormatted($_) } fs::get::fstab($all_hds)) {
$in->ask_okcancel(N("Warning"), N("You should format partition %s.
Otherwise no entry for mount point %s will be written in fstab.
Quit anyway?", $part->{device}, $part->{mntpoint})) or return if $::isStandalone;
}
1;
}
################################################################################
# per-hd actions
################################################################################
sub hd_possible_actions_base {
my ($hd) = @_;
(
if_(!$hd->{readonly} || $hd->{getting_rid_of_readonly_allowed}, N_("Clear all")),
if_(!$hd->{readonly} && $::isInstall, N_("Auto allocate")),
);
}
sub hd_possible_actions_extra {
my ($_hd) = @_;
$::expert ? N_("Normal mode") : N_("Expert mode");
}
sub hd_possible_actions {
my ($_in, $hd, $_all_hds) = @_;
hd_possible_actions_base($hd);
hd_possible_actions_extra($hd);
}
sub hd_possible_actions_interactive {
my ($_in, $_hd, $_all_hds) = @_;
&hd_possible_actions, N_("Hard disk drive information");
}
sub Clear_all {
my ($in, $hd, $all_hds) = @_;
return if detect_devices::is_xbox(); #- do not let them wipe the OS
my @parts = partition_table::get_normal_parts($hd);
foreach (@parts) {
RemoveFromLVM($in, $hd, $_, $all_hds) if isPartOfLVM($_);
RemoveFromRAID($in, $hd, $_, $all_hds) if isPartOfRAID($_);
RemoveFromDm($in, $hd, $_, $all_hds) if $_->{dm_active};
}
if (isLVM($hd)) {
lvm::lv_delete($hd, $_) foreach @parts;
} else {
$hd->{readonly} = 0; #- give a way out of readonly-ness. only allowed when getting_rid_of_readonly_allowed
$hd->{getting_rid_of_readonly_allowed} = 0; #- we don't need this flag anymore
fsedit::partition_table_clear_and_initialize($all_hds->{lvms}, $hd, $in);
}
fsedit::init_mntpnt_suggestions($all_hds, 1);
}
sub Auto_allocate {
my ($in, $hd, $all_hds) = @_;
my $suggestions = partitions_suggestions($in, $all_hds) or return;
my %all_hds_ = %$all_hds;
$all_hds_{hds} = [ sort { $a == $hd ? -1 : 1 } fs::get::hds($all_hds) ];
eval { fsedit::auto_allocate(\%all_hds_, $suggestions, $hd) };
if ($@) {
$@ =~ /partition table already full/ or die;
$in->ask_warn("", [
N("All primary partitions are used"),
N("I cannot add any more partitions"),
N("To have more partitions, please delete one to be able to create an extended partition"),
]);
}
}
sub More {
my ($in, $_hd) = @_;
my $r;
$in->ask_from(N("More"), '',
[
{ val => N("Reload partition table"), clicked_may_quit => sub { $r = 'force_reload'; 1 } },
],
) && $r;
}
sub Hd_info {
my ($in, $hd) = @_;
$in->ask_warn(N("Warning"), [ N("Detailed information"), format_hd_info($hd) ]);
}
################################################################################
# per-part actions
################################################################################
sub is_LVM_resizable {
my ($part) = @_;
member($part->{fs_type}, qw(btrfs ext3 ext4 nilfs2 reiserfs xfs));
}
sub part_possible_actions {
my ($_in, $hd, $part, $all_hds) = @_;
$part or return;
my %actions = my @l = (
N_("View") => '!isSwap && !isNonMountable && maybeFormatted',
N_("Mount point") => '$part->{real_mntpoint} || (!isBusy && !isSwap && !isNonMountable)',
N_("Type") => '!isBusy && $::expert && (!readonly || $part->{pt_type} == 0x83)',
N_("Options") => '!isSwap($part) && !isNonMountable && $::expert',
N_("Label") => '!isNonMountable && $::expert && fs::format::canEditLabel($part)',
N_("Resize") => '!isBusy && !readonly && !isSpecial || isLVM($hd) && is_LVM_resizable',
N_("Format") => '!isBusy && isFormatable && (!readonly && ($::expert || $::isStandalone) || fs::type::isRawLUKS($part))',
N_("Mount") => '!isBusy && (hasMntpoint || isSwap) && maybeFormatted && ($::expert || $::isStandalone)',
N_("Add to RAID") => '!isBusy && isRawRAID && (!isSpecial || isRAID)',
N_("Add to LVM") => '!isBusy && isRawLVM',
N_("Use") => '!isBusy && fs::type::isRawLUKS($part) && !$part->{notFormatted}',
N_("Unmount") => '!$part->{real_mntpoint} && isMounted',
N_("Delete") => '!isBusy && !readonly',
N_("Remove from RAID") => 'isPartOfRAID',
N_("Remove from LVM") => 'isPartOfLVM',
N_("Remove from dm") => '$part->{dm_active}',
N_("Modify RAID") => 'canModifyRAID',
N_("Use for loopback") => '!$part->{real_mntpoint} && isMountableRW && !isSpecial && hasMntpoint && maybeFormatted && $::expert',
);
my ($actions_names) = list2kv(@l);
my $_all_hds = $all_hds; #- help perl_checker know the $all_hds *is* used in the macro below
my %macros = (
readonly => '$hd->{readonly}',
hasMntpoint => '$part->{mntpoint}',
canModifyRAID => 'isPartOfRAID($part) && !isMounted(fs::get::device2part($part->{raid}, $all_hds->{raids}))',
);
if (isEmpty($part)) {
if_(!$hd->{readonly}, N_("Create"));
} elsif ($part->{pt_type} == 0xbf && detect_devices::is_xbox()) {
#- XBox OS partitions, do not allow anything
return;
} 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;
my $res = eval $cond;
if (my $err = $@) {
warn "ERROR: Bogus condition for '$actions{$_}': $err\n";
}
$res;
} @$actions_names;
}
}
sub View {
my ($in, $_hd, $part, $_all_hds) = @_;
my $handle = any::inspect($part, $::prefix);
if ($handle) {
$in->ask_directory({ 'directory' => $handle->{dir} });
} else {
$in->ask_warn(N("Error"), N("Failed to mount partition"));
}
}
#- in case someone use diskdrake only to create partitions,
#- ie without assigning a mount point,
#- do not suggest mount points anymore
my $do_suggest_mount_point = $::isInstall;
sub Create {
my ($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)) {
$part->{mntpoint} = '' if !$do_suggest_mount_point;
} else {
$part->{size} = $part->{maxsize};
fs::type::suggest_fs_type($part, defaultFS());
}
if (isLVM($hd)) {
lvm::suggest_lv_name($hd, $part);
}
#- update adjustment for start and size, take into account the minimum partition size
#- including one less sector for start due to a capacity to increase the adjustement by
#- one.
my ($primaryOrExtended, $migrate_files);
my $type_name = fs::type::part2type_name($part);
my $mb_size = to_Mb($part->{size});
my $has_startsector = ($::expert || arch() !~ /i.86/) && !isLVM($hd);
my $use_dmcrypt;
my $requested_type;
$in->ask_from(N("Create a new partition"), '',
[
{ label => N("Create a new partition"), title => 1 },
if_($has_startsector,
{ label => N("Start sector: "), val => \$part->{start}, min => $def_start, max => ($max - min_partition_size($hd)),
type => 'range', SpinButton => $::expert, changed => sub { $mb_size = min($mb_size, to_Mb($max - $part->{start})) } },
),
{ label => N("Size in MB: "), val => \$mb_size, min => to_Mb(min_partition_size($hd)), max => to_Mb($def_size),
type => 'range', SpinButton => $::expert, changed => sub { $part->{start} = min($part->{start}, $max - $mb_size * 2048) } },
{ label => N("Filesystem type: "), val => \$type_name, list => [ fs::type::type_names($::expert, $hd) ],
sort => 0, if_($::expert, gtk => { wrap_width => 2 }, do_not_ellipsize => 1) },
{ label => N("Mount point: "), val => \$part->{mntpoint}, list => [ fsedit::suggestions_mntpoint($all_hds), '' ],
if_(isLVM($hd), changed => sub {
undef $part->{lv_name};
lvm::suggest_lv_name($hd, $part);
}), type => 'combo', not_edit => 0,
disabled => sub { my $p = fs::type::type_name2subpart($type_name); isSwap($p) || isNonMountable($p) }, type => 'combo', not_edit => 0,
},
if_($::expert && $hd->hasExtended,
{ label => N("Preference: "), val => \$primaryOrExtended, list => [ '', "Extended", "Primary", if_($::expert, "Extended_0x85") ] },
),
if_(isLVM($hd),
{ label => N("Logical volume name "), val => \$part->{lv_name}, list => [ qw(root swap usr home var), '' ], sort => 0, not_edit => 0 },
),
{ label => N("Encrypt partition"), type => 'bool', val => \$use_dmcrypt, disabled => sub { $part->{mntpoint} eq "/boot" } },
{ label => N("Encryption key "), val => \$part->{dmcrypt_key}, disabled => sub { !$use_dmcrypt }, hidden => 1, weakness_check => 1 },
{ label => N("Encryption key (again)"), val => \$part->{dmcrypt_key2}, disabled => sub { !$use_dmcrypt }, hidden => 1 },
], 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
$do_suggest_mount_point = 0 if !$part->{mntpoint};
put_in_hash($part, fs::type::type_name2subpart($type_name));
$part->{mntpoint} = '' if isNonMountable($part);
$part->{mntpoint} = 'swap' if isSwap($part);
fs::mount_options::set_default($part, ignore_is_removable => 1);
# if user asked to encrypt the partition, use dm-crypt and create requested fs inside
if ($use_dmcrypt) {
my $err;
$err = N("The encryption keys do not match") unless $part->{dmcrypt_key} eq $part->{dmcrypt_key2};
$err = N("Missing encryption key") unless $part->{dmcrypt_key};
if ($err) {
$in->ask_warn(N("Error"), $err);
return 1;
}
$requested_type = $type_name;
$type_name = 'Encrypted';
}
put_in_hash($part, fs::type::type_name2subpart($type_name));
check($in, $hd, $part, $all_hds) or return 1;
$migrate_files = need_migration($in, $part->{mntpoint}) or return 1;
my $seen;
eval {
catch_cdie { fsedit::add($hd, $part, $all_hds, { force => 1, primaryOrExtended => $primaryOrExtended }) }
sub { $seen = 1; $in->ask_okcancel('', formatError($@)) };
};
if (my $err = $@) {
if ($err =~ /raw_add/ && $hd->hasExtended && !$hd->{primary}{extended}) {
$in->ask_warn(N("Error"), N("You cannot create a new partition
(since you reached the maximal number of primary partitions).
First remove a primary partition and create an extended partition."));
return 0;
} else {
$in->ask_warn(N("Error"), formatError($err)) if !$seen;
return 1;
}
}
0;
},
) or return;
if ($use_dmcrypt) {
write_partitions($in, $hd) or return;
# Initialize it and format it
dmcrypt_format($in, $hd, $part, $all_hds);
my $p = find { $part->{dm_name} eq $_->{dmcrypt_name} } @{$all_hds->{dmcrypts}};
my $p2 = fs::type::type_name2subpart($requested_type);
$p->{fs_type} = $p2->{fs_type};
$p->{type_name} = $requested_type;
$p->{mntpoint} = $part->{mntpoint};
$part->{mntpoint} = '';
if ($::isStandalone) {
fs::format::check_package_is_installed_format($in->do_pkgs, $p->{fs_type}) or log::l("Missing package");
}
_format_raw($in, $p, $all_hds, isRawLVM($p));
}
warn_if_renumbered($in, $hd);
if ($migrate_files eq 'migrate') {
# FIXME check encrypt case
format_($in, $hd, $part, $all_hds) or return;
migrate_files($in, $hd, $part);
fs::mount::part($part);
}
}
sub Delete {
my ($in, $hd, $part, $all_hds) = @_;
if (fs::type::isLUKS($part)) {
my $p = find { $_->{dm_name} eq $part->{dmcrypt_name} } partition_table::get_normal_parts($hd);
RemoveFromDm($in, $hd, $p, $all_hds);
$part = $p;
}
if (isRAID($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(N("Warning"), N("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($all_hds);
} else {
partition_table::remove($hd, $part);
warn_if_renumbered($in, $hd);
}
}
sub Type {
my ($in, $hd, $part) = @_;
my $warned;
my $warn = sub {
$warned = 1;
if (maybeFormatted($part)) {
ask_alldatawillbelost($in, $part, N_("After changing type of partition %s, all data on this partition will be lost"));
} else {
1;
}
};
#- for ext2/ext3, warn after choosing as ext2->ext3 and ext*->ext4 can be achieved without loosing any data :)
member($part->{fs_type}, qw(ext2 ext3)) || $part->{fs_type} =~ /ntfs/ or $warn->() or return;
my @types = fs::type::type_names($::expert, $hd);
#- when readonly, Type() is allowed only when changing {fs_type} but not {pt_type}
#- eg: switching between ext2, ext3, ext4, reiserfs...
@types = grep { fs::type::type_name2pt_type($_) == $part->{pt_type} } @types if $hd->{readonly};
my $type_name = fs::type::part2type_name($part);
$in->ask_from_({ title => N("Change partition type") },
[
{ label => N("Which filesystem do you want?"), title => 1 },
{ label => N("Type"), val => \$type_name, type => 'list', list => \@types, sort => 1, do_not_ellipsize => 1,
focus => sub { 1 }, not_edit => 1, gtk => { wrap_width => 2 } } ]) or return;
my $type = $type_name && fs::type::type_name2subpart($type_name);
if ($part->{fs_type} eq 'ext2' && $type->{fs_type} eq 'ext3') {
my $_w = $in->wait_message(N("Please wait"), N("Switching from %s to %s", 'ext2', $type->{fs_type}));
if (run_program::run("tune2fs", "-j", devices::make($part->{device}))) {
put_in_hash($part, $type);
set_isFormatted($part, 1); #- assume that if tune2fs works, partition is formatted
#- disable the fsck (do not do it together with -j in case -j fails?)
fs::format::disable_forced_fsck($part->{device});
return;
}
} elsif (member($part->{fs_type}, qw(ext2 ext3)) && $type->{fs_type} eq 'ext4') {
# FIXME enable some nice flags
put_in_hash($part, $type);
return;
} elsif ($type->{fs_type} =~ /ntfs/ && $part->{fs_type} =~ /ntfs/) {
if ($type->{fs_type} eq 'ntfs-3g') {
local $::prefix = ''; # For draklive-install
$in->do_pkgs->ensure_binary_is_installed('ntfs-3g', 'mount.ntfs-3g') or return;
}
put_in_hash($part, $type);
return;
}
#- either we switch to non-ext3 or switching losslessly to ext3 failed
$warned or $warn->() or return;
if (defined $type) {
check_type($in, $type, $hd, $part) and fsedit::change_type($type, $hd, $part);
}
}
sub Label {
my ($in, $hd, $part) = @_;
my $new_label = $part->{device_LABEL} || "";
write_partitions($in, $hd) or return;
$in->ask_from(N("Set volume label"),
maybeFormatted($part) ?
N("Beware, this will be written to disk as soon as you validate!")
: N("Beware, this will be written to disk only after formatting!"),
[
{ label => N("Which volume label?"), title => 1 },
{ label => N("Label:"), val => \$new_label } ]) or return;
fs::format::check_package_is_installed_label($in->do_pkgs, $part->{fs_type}) or return;
$part->{prefer_device_LABEL} = to_bool($part->{device_LABEL}) && !isLVM($part);
return if $new_label eq $part->{device_LABEL};
$part->{device_LABEL} = $new_label;
$part->{device_LABEL_changed} = 1;
fs::format::clean_label($part);
fs::format::write_label($part);
}
sub Mount_point {
my ($in, $hd, $part, $all_hds) = @_;
my $migrate_files;
my $mntpoint = $part->{mntpoint} || do {
my $part_ = { %$part };
if (fsedit::suggest_part($part_, $all_hds)) {
fs::get::has_mntpoint('/', $all_hds) || $part_->{mntpoint} eq '/boot' ? $part_->{mntpoint} : '/';
} else { '' }
};
my $msg = isLoopback($part) ? N("Where do you want to mount the loopback file %s?", $part->{loopback_file}) :
N("Where do you want to mount device %s?", $part->{device});
$in->ask_from_({
callbacks => {
complete => sub {
!isPartOfLoopback($part) || $mntpoint or $in->ask_warn(N("Error"),
N("Cannot 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, $part, $all_hds) or return 1;
$migrate_files = need_migration($in, $mntpoint) or return 1;
0;
} },
},
[
{ label => $msg, title => 1 },
{ label => N("Mount point"), val => \$mntpoint,
list => [ uniq(if_($mntpoint, $mntpoint), fsedit::suggestions_mntpoint($all_hds), '') ],
focus => sub { 1 },
not_edit => 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} || shift @propositions;
$in->ask_from(
N("Mount point"),
'',
[
{ label => N("Where do you want to mount %s?", $part->{device}), title => 1 },
{ label => N("Mount point"), val => \$mntpoint,
list => [ if_($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} = $mntpoint;
}
#- side-effects: mounts the fs
sub _get_dir_for_online_resize {
my ($part) = @_;
my $dir = "/tmp/tmp_resize_" . $part->{fs_type} . ".$$";
if ($part->{isMounted}) {
$dir = ($::prefix || '') . $part->{mntpoint};
} else {
mkdir_p($dir);
fs::mount::mount(devices::make($part->{device}), $dir, $part->{fs_type});
}
return $dir;
}
sub _set_min_size_from_avail_space {
my ($part, $min) = @_;
if (defined(my $free = fs::df($part))) {
$$min = max($$min, $part->{size} - $free);
}
}
sub Resize {
my ($in, $hd, $part) = @_;
my (%nice_resize, $online_resize);
my $low_part = $part;
if (isLUKS($part)) {
$low_part = find { $_->{dm_name} eq $part->{dmcrypt_name} } partition_table::get_normal_parts($hd);
}
my ($min, $max) = (min_partition_size($hd), max_partition_resize($hd, $low_part));
if (maybeFormatted($part)) {
# here we may have a non-formatted or a formatted partition
# -> doing as if it was formatted
if ($part->{fs_type} eq 'vfat') {
write_partitions($in, $hd) or return;
#- try to resize without losing data
my $_w = $in->wait_message(N("Resizing"), N("Computing FAT filesystem bounds"));
require resize_fat::main;
$nice_resize{fat} = resize_fat::main->new($part->{device}, devices::make($part->{device}));
$min = max($min, $nice_resize{fat}->min_size);
$max = min($max, $nice_resize{fat}->max_size);
} elsif (member($part->{fs_type}, qw(ext2 ext3 ext4))) {
write_partitions($in, $hd) or return;
require diskdrake::resize_ext2;
if ($nice_resize{ext2} = diskdrake::resize_ext2->new($part->{device}, devices::make($part->{device}))) {
$min = max($min, $nice_resize{ext2}->min_size);
} else {
delete $nice_resize{ext2};
}
} elsif ($part->{fs_type} eq 'f2fs') {
$min = $part->{size}; #- ensure the user can only increase
$nice_resize{f2fs} = 1;
} elsif ($part->{fs_type} =~ /ntfs/) {
write_partitions($in, $hd) or return;
require diskdrake::resize_ntfs;
diskdrake::resize_ntfs::check_prog($in) or return;
$nice_resize{ntfs} = diskdrake::resize_ntfs->new($part->{device}, devices::make($part->{device}));
$min = $nice_resize{ntfs}->min_size or delete $nice_resize{ntfs};
} elsif ($part->{fs_type} eq 'reiserfs') {
write_partitions($in, $hd) or return;
$nice_resize{reiserfs} = 1;
if ($part->{isMounted}) {
$min = $part->{size}; #- ensure the user can only increase
} else {
_set_min_size_from_avail_space($part, \$min);
}
} elsif ($part->{fs_type} eq 'xfs') {
$min = $part->{size}; #- ensure the user can only increase
$online_resize = $part->{fs_type};
} elsif (member($part->{fs_type}, qw(btrfs nilfs2))) {
$online_resize = $part->{fs_type};
}
# Btrf, nilfs2 && XFS only support online resizing
# (Ext3/4 too but we can resize it offline so we don't care - though growing online is interesting)
if ($online_resize) {
write_partitions($in, $hd) or return;
$nice_resize{$online_resize} = 1;
_set_min_size_from_avail_space($part, \$min);
}
#- 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 $in->ask_warn(N("Warning"), N("This partition is not resizeable"));
#- for these, we have tools to resize partition table
#- without losing data (or at least we hope so :-)
if (%nice_resize) {
ask_alldatamaybelost($in, $part, N_("All data on this partition should be backed up")) or return;
} else {
ask_alldatawillbelost($in, $part, N_("After resizing partition %s, all data on this partition will be lost")) or return;
}
}
my $mb_size = to_Mb($part->{size});
my ($gmin, $gmax) = (to_Mb($min), to_Mb($max));
$in->ask_from(N("Resize"), '', [
{ label => N("Choose the new size"), title => 1 },
{ label => N("New size in MB: "), val => \$mb_size, min => $gmin, max => $gmax, type => 'range', SpinButton => $::expert },
{ label => N("Minimum size: %s MB", $gmin) },
{ label => N("Maximum size: %s MB", $gmax) },
]) or return;
my $size = from_Mb($mb_size, $min, $max);
$part->{size} == $size and return;
my $oldsize = $part->{size};
$low_part->{size} = $part->{size} = $size;
$hd->adjustEnd($low_part);
undef $@;
my $_b = before_leaving { $@ and $part->{size} = $oldsize };
my $adjust = sub {
my ($write_partitions) = @_;
if (isLVM($hd)) {
lvm::lv_resize($low_part, $oldsize);
} else {
if ($write_partitions && isLUKS($part)) {
run_program::run('cryptsetup', 'luksClose', $part->{dmcrypt_name}) or die("Failed to resize partition, maybe it is mounted");
}
partition_table::will_tell_kernel($hd, resize => $low_part);
partition_table::adjust_local_extended($hd, $low_part);
partition_table::adjust_main_extended($hd);
write_partitions($in, $hd) or return if $write_partitions && (%nice_resize || isLUKS($part));
if ($write_partitions && isLUKS($part)) {
require fs::dmcrypt;
fs::dmcrypt::open_part([], $low_part);
}
}
1;
};
$adjust->(1) or return if $size > $oldsize;
my $wait = $in->wait_message(N("Please wait"), N("Resizing"));
if ($nice_resize{fat}) {
local *log::l = sub { $wait->set(join(' ', @_)) };
$nice_resize{fat}->resize($part->{size});
} elsif ($nice_resize{ext2}) {
$nice_resize{ext2}->resize($part->{size});
} elsif ($nice_resize{ntfs}) {
log::l("ntfs resize to $part->{size} sectors");
$nice_resize{ntfs}->resize($part->{size});
$wait = undef;
$in->ask_warn(N("Warning"), N("To ensure data integrity after resizing the partition(s),
filesystem checks will be run on your next boot into Microsoft Windows®"));
} elsif ($nice_resize{reiserfs}) {
log::l("reiser resize to $part->{size} sectors");
run_program::run_or_die('resize_reiserfs', '-f', '-q', '-s' . int($part->{size}/2) . 'K', devices::make($part->{device}));
} elsif ($online_resize) {
my $dir = _get_dir_for_online_resize($part);
my @cmd;
if ($nice_resize{btrfs}) {
@cmd = (qw(btrfs filesystem resize), $part->{size}*512, $dir);
} elsif ($nice_resize{nilfs2}) {
@cmd = ('nilfs-resize', devices::make($part->{device}), $part->{size}*512);
} elsif ($nice_resize{xfs}) {
@cmd = ("xfs_growfs", $dir);
}
if (!run_program::run(@cmd)) {
$nice_resize{$part->{fs_type}} = undef;
# we just mounted it in order to do online resize but online resize failed:
if (!$part->{isMounted}) {
fs::mount::umount($dir);
unlink($dir);
}
}
} elsif ($nice_resize{f2fs}) {
run_program::run_or_die("resize.f2fs", devices::make($part->{device}));
}
if (%nice_resize) {
set_isFormatted($part, 1);
} else {
set_isFormatted($part, 0);
partition_table::verifyParts($hd) if !isLVM($hd);
$part->{mntpoint} = '' if isNonMountable($part); #- mainly for ntfs, which we cannot format
}
$adjust->(0) if $size < $oldsize;
}
sub Format {
my ($in, $hd, $part, $all_hds) = @_;
format_($in, $hd, $part, $all_hds);
}
sub Mount {
my ($in, $hd, $part) = @_;
ensure_we_have_encrypt_key_if_needed($in, $part) or return;
write_partitions($in, $hd) or return;
my $w;
fs::mount::part($part, 0, sub {
my ($msg) = @_;
$w ||= $in->wait_message(N("Please wait"), $msg);
$w->set($msg);
});
}
sub dmcrypt_open {
my ($in, $_hd, $part, $all_hds) = @_;
$part->{dm_name} ||= do {
my $s = $part->{device};
$s =~ s/\W/_/g;
"crypt_$s";
};
if (!$part->{dmcrypt_key}) {
$in->ask_from_({
title => N("Filesystem encryption key"),
messages => N("Enter your filesystem encryption key"),
}, [ { label => N("Encryption key"), val => \$part->{dmcrypt_key},
hidden => 1, focus => sub { 1 } } ]) or return;
}
eval { require fs::dmcrypt; fs::dmcrypt::open_part($all_hds->{dmcrypts}, $part) };
if ($@) {
delete $part->{dmcrypt_key};
die(($? >> 8) == 255 ? N("Invalid key") : $@);
}
detect_lvms_on_dmcrypt($all_hds);
}
# Detect LVMs on top of dmcrypt
sub detect_lvms_on_dmcrypt {
my ($all_hds) = @_,
require File::Temp;
require fs::dmcrypt;
my (undef, $tmp_file) = File::Temp::mkstemp('/tmp/crypttab.XXXXXXX');
fs::dmcrypt::save_crypttab_($all_hds, $tmp_file);
require lvm;
lvm::detect_during_install();
$all_hds->{lvms} = [ fsedit::lvms($all_hds) ];
fs::dmcrypt::read_crypttab_($all_hds, $tmp_file);
rm_rf($tmp_file);
}
sub Add2RAID {
my ($in, $_hd, $part, $all_hds) = @_;
my $raids = $all_hds->{raids};
my $md_part = $in->ask_from_listf(N("Add to RAID"), N("Choose an existing RAID to add to"),
sub { ref($_[0]) ? $_[0]{device} : $_[0] },
[ @$raids, N_("new") ]) or return;
if (ref($md_part)) {
raid::add($md_part, $part);
raid::write_conf($raids) if $::isStandalone;
} else {
raid::check_prog($in) or return;
my $md_part = raid::new($raids, disks => [ $part ]);
modifyRAID($in, $raids, $md_part) or return raid::delete($raids, $md_part);
}
}
sub Add2LVM {
my ($in, $hd, $part, $all_hds) = @_;
my $lvms = $all_hds->{lvms};
my @lvm_names = map { $_->{VG_name} } @$lvms;
write_partitions($in, $_) or return foreach isRAID($part) ? @{$all_hds->{hds}} : $hd;
my $lvm = $in->ask_from_listf_(N("Add to LVM"), N("Choose an existing LVM to add to"),
sub { ref($_[0]) ? $_[0]{VG_name} : $_[0] },
[ @$lvms, N_("new") ]) or return;
require lvm;
if (!ref $lvm) {
# create new lvm
my $n; my $str = "vg-mga";
while (member("$str$n", @lvm_names)) {
$n++;
}
my $name = "$str$n";
$in->ask_from_({ title => N("LVM name"),
messages => N("Enter a name for the new LVM volume group"),
focus_first => 1,
ok_disabled => sub { !$name },
validate => sub {
member($name, @lvm_names) or return 1;
$in->ask_warn(N("Error"), N("\"%s\" already exists", $name));
return 0;
} },
[ { label => N("LVM name"), val => \$name } ]) or return;
$lvm = new lvm($name);
push @$lvms, $lvm;
}
my $_w = $in->wait_message(N("Please wait"), N("Setting up LVM"));
raid::make($all_hds->{raids}, $part) if isRAID($part);
lvm::check($in->do_pkgs) if $::isStandalone;
lvm::add_to_VG($part, $lvm);
}
sub Unmount {
my ($_in, $_hd, $part) = @_;
fs::mount::umount_part($part);
}
sub RemoveFromRAID {
my ($_in, $_hd, $part, $all_hds) = @_;
raid::removeDisk($all_hds->{raids}, $part);
}
sub RemoveFromDm {
my ($_in, $_hd, $part, $all_hds) = @_;
require fs::dmcrypt;
fs::dmcrypt::close_part($all_hds->{dmcrypts}, $part);
}
sub RemoveFromLVM {
my ($in, $_hd, $part, $all_hds) = @_;
isPartOfLVM($part) or die;
my ($lvm, $other_lvms) = partition { $_->{VG_name} eq $part->{lvm} } @{$all_hds->{lvms}};
if (@{$lvm->[0]{disks}} > 1) {
my ($used, $_total) = lvm::pv_physical_extents($part);
if ($used) {
$in->ask_yesorno(N("Warning"), N("Physical volume %s is still in use.
Do you want to move used physical extents on this volume to other volumes?", $part->{device})) or return;
my $_w = $in->wait_message(N("Please wait"), N("Moving physical extents"));
lvm::pv_move($part);
}
lvm::vg_reduce($lvm->[0], $part);
} else {
lvm::vg_destroy($lvm->[0]);
$all_hds->{lvms} = $other_lvms;
}
}
sub ModifyRAID {
my ($in, $_hd, $part, $all_hds) = @_;
modifyRAID($in, $all_hds->{raids}, fs::get::device2part($part->{raid}, $all_hds->{raids}));
}
sub Loopback {
my ($in, $hd, $real_part, $all_hds) = @_;
write_partitions($in, $hd) or return;
my $handle = any::inspect($real_part) or $in->ask_warn(N("Error"), N("This partition cannot be used for loopback")), return;
my ($min, $max) = (1, fs::loopback::getFree($handle->{dir}, $real_part));
$max = min($max, 1 << (31 - 9)) if $real_part->{fs_type} eq 'vfat'; #- FAT does not handle file size bigger than 2GB
my $part = { maxsize => $max, size => 0, loopback_device => $real_part, notFormatted => 1 };
if (!fsedit::suggest_part($part, $all_hds)) {
$part->{size} = $part->{maxsize};
fs::type::suggest_fs_type($part, defaultFS());
}
delete $part->{mntpoint}; # we do not want the suggested mntpoint
my $type_name = fs::type::part2type_name($part);
my $mb_size = to_Mb($part->{size});
$in->ask_from(N("Loopback"), '', [
{ label => N("Loopback file name: "), val => \$part->{loopback_file} },
{ label => N("Size in MB: "), val => \$mb_size, min => to_Mb($min), max => to_Mb($max), type => 'range', SpinButton => $::expert },
{ label => N("Filesystem type: "), val => \$type_name, list => [ fs::type::type_names($::expert, $hd) ], not_edit => !$::expert, sort => 0 },
],
complete => sub {
$part->{loopback_file} or $in->ask_warn(N("Give a file name"), N("Give a file name")), return 1, 0;
$part->{loopback_file} =~ s|^([^/])|/$1|;
if (my $size = fs::loopback::verifFile($handle->{dir}, $part->{loopback_file}, $real_part)) {
$size == -1 and $in->ask_warn(N("Warning"), N("File is already used by another loopback, choose another one")), return 1, 0;
$in->ask_yesorno(N("Warning"), N("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, $max);
}
0;
}) or return;
put_in_hash($part, fs::type::type_name2subpart($type_name));
push @{$real_part->{loopback}}, $part;
fsedit::recompute_loopbacks($all_hds);
}
sub Options {
my ($in, $_hd, $part, $_all_hds) = @_;
my @simple_options = qw(users noauto username= password=);
my (undef, $user_implies) = fs::mount_options::list();
my ($options, $unknown) = fs::mount_options::unpack($part);
my %help = fs::mount_options::help();
my %callbacks = (
# we don't want both user and users
user => sub { $options->{users} = 0; $options->{$_} = $options->{user} foreach @$user_implies },
users => sub { $options->{user} = 0; $options->{$_} = $options->{users} foreach @$user_implies },
# we don't want both relatime and noatime
relatime => sub { $options->{noatime} = 0 },
noatime => sub { $options->{relatime} = 0 },
);
$in->ask_from(N("Mount options"),
'',
[
{ label => N("Mount options"), title => 1 },
(map {
{ label => $_, text => scalar warp_text(formatAlaTeX($help{$_}), 60), val => \$options->{$_}, hidden => scalar(/password/),
advanced => !$part->{rootDevice} && !member($_, @simple_options), if_(!/=$/, type => 'bool'),
if_($callbacks{$_}, changed => $callbacks{$_}),
};
} keys %$options),
{ label => N("Various"), val => \$unknown, advanced => 1 },
],
complete => sub {
if (($options->{usrquota} || $options->{grpquota}) && !$::isInstall) {
$in->do_pkgs->ensure_binary_is_installed('quota', 'quotacheck');
}
}) or return;
fs::mount_options::pack($part, $options, $unknown);
1;
}
{
no strict;
*{'Normal mode'} = sub() { $::expert = 0 };
*{'Expert mode'} = sub() { $::expert = 1 };
*{'Clear all'} = \&Clear_all;
*{'Auto allocate'} = \&Auto_allocate;
*{'Mount point'} = \&Mount_point;
*{'Modify RAID'} = \&ModifyRAID;
*{'Add to RAID'} = \&Add2RAID;
*{'Remove from RAID'} = \&RemoveFromRAID;
*{Use} = \&dmcrypt_open;
*{'Remove from dm'} = \&RemoveFromDm;
*{'Add to LVM'} = \&Add2LVM;
*{'Remove from LVM'} = \&RemoveFromLVM;
*{'Use for loopback'} = \&Loopback;
*{'Hard disk drive information'} = \&Hd_info;
}
################################################################################
# helpers
################################################################################
sub is_part_existing {
my ($part, $all_hds) = @_;
$part && any { fsedit::are_same_partitions($part, $_) } fs::get::fstab_and_holes($all_hds);
}
sub modifyRAID {
my ($in, $raids, $md_part) = @_;
my $new_device = $md_part->{device};
$in->ask_from(N("Options"), '',
[
{ label => N("device"), val => \$new_device, list => [ $md_part->{device}, raid::free_mds($raids) ], sort => 0 },
{ label => N("level"), val => \$md_part->{level}, list => [ qw(0 1 4 5 6 10 linear) ] },
{ label => N("chunk size in KiB"), val => \$md_part->{'chunk-size'} },
],
) or return;
raid::change_device($md_part, $new_device);
raid::updateSize($md_part); # changing the raid level changes the size available
raid::write_conf($raids) if $::isStandalone;
1;
}
sub ask_alldatamaybelost {
my ($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
$in->ask_okcancel(N("Read carefully"),
[ N("Be careful: this operation is dangerous."), sprintf(translate($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
$in->ask_okcancel(N("Read carefully"), sprintf(translate($msg), $part->{device}), 1);
}
sub partitions_suggestions {
my ($in, $all_hds) = @_;
fsedit::init_mntpnt_suggestions($all_hds);
my $t = $::expert ?
$in->ask_from_list_(N("Partitioning Type"), N("What type of partitioning?"), [ keys %fsedit::suggestions ]) :
'simple';
$fsedit::suggestions{$t};
}
sub check_type {
my ($in, $type, $hd, $part) = @_;
eval { fs::type::check($type->{fs_type}, $hd, $part) };
if (my $err = $@) {
$in->ask_warn(N("Error"), formatError($err));
return;
}
if ($::isStandalone && $type->{fs_type} && fs::format::known_type($type)) {
fs::format::check_package_is_installed_format($in->do_pkgs, $type->{fs_type}) or return;
}
1;
}
sub check_mntpoint {
my ($in, $mntpoint, $part, $all_hds) = @_;
my $seen;
eval {
catch_cdie { fsedit::check_mntpoint($mntpoint, $part, $all_hds) }
sub { $seen = 1; $in->ask_okcancel(N("Error"), formatError($@)) };
};
if (my $err = $@) {
$in->ask_warn(N("Error"), formatError($err)) if !$seen;
return;
}
1;
}
sub check {
my ($in, $hd, $part, $all_hds) = @_;
check_type($in, $part, $hd, $part) &&
check_mntpoint($in, $part->{mntpoint}, $part, $all_hds);
}
sub check_rebootNeeded {
my ($_in, $hd) = @_;
$hd->{rebootNeeded} and die N("You'll need to reboot before the modification can take effect");
}
sub write_partitions {
my ($in, $hd, $b_skip_check_rebootNeeded) = @_;
check_rebootNeeded($in, $hd) if !$b_skip_check_rebootNeeded;
$hd->{isDirty} or return 1;
isLVM($hd) and return 1;
$in->ask_okcancel(N("Read carefully"), N("Partition table of drive %s is going to be written to disk", $hd->{device}), 1) or return;
partition_table::write($hd) if !$::testing;
check_rebootNeeded($in, $hd) if !$b_skip_check_rebootNeeded;
# fix resizing's failures due to udev's race when writing the partition table
run_program::run('udevadm', 'settle');
1;
}
sub ensure_we_have_encrypt_key_if_needed {
my ($in, $part) = @_;
if (fs::type::isRawLUKS($part)) {
$part->{dmcrypt_key} ||= choose_encrypt_key($in, {}, 'skip_encrypt_algo') or return;
}
1;
}
sub dmcrypt_format {
my ($in, $_hd, $part, $_all_hds) = @_;
my $_wait = $in->wait_message(N("Please wait"), N("Formatting partition %s", $part->{device}));
require fs::dmcrypt;
fs::dmcrypt::format_part($part);
# we open it now:
&dmcrypt_open;
}
sub format_ {
my ($in, $hd, $part, $all_hds) = @_;
ensure_we_have_encrypt_key_if_needed($in, $part) or return;
write_partitions($in, $_) or return foreach isRAID($part) ? @{$all_hds->{hds}} : $hd;
ask_alldatawillbelost($in, $part, N_("After formatting partition %s, all data on this partition will be lost")) or return;
if (fs::type::isRawLUKS($part)) {
return &dmcrypt_format;
}
if ($::isStandalone) {
fs::format::check_package_is_installed_format($in->do_pkgs, $part->{fs_type}) or return;
}
_format_raw($in, $part, $all_hds);
}
sub _format_raw {
my ($in, $part, $all_hds, $o_skip) = @_;
if ($::expert && isBlockCheckable($part)) {
$part->{toFormatCheck} = $in->ask_yesorno(N("Confirmation"), N("Check for bad blocks?"));
}
$part->{isFormatted} = 0; #- force format;
# Wait for the newly created device to appear before formatting it
my ($_w, $wait_message) = $in->wait_message_with_progress_bar;
fs::format::part($all_hds, $part, $wait_message) if !$o_skip;
1;
}
sub need_migration {
my ($in, $mntpoint) = @_;
my @l = grep { $_ ne "lost+found" } all($mntpoint);
if (@l && $::isStandalone) {
my $choice;
my @choices = (N_("Move files to the new partition"), N_("Hide files"));
$in->ask_from(N("Warning"), N("Directory %s already contains data
(%s)
You can either choose to move the files into the partition that will be mounted there or leave them where they are (which results in hiding them by the contents of the mounted partition)",
$mntpoint, formatList(5, @l)),
[ { val => \$choice, list => \@choices, type => 'list', format => sub { translate($_[0]) } } ]) or return;
$choice eq $choices[0] ? 'migrate' : 'hide';
} else {
'hide';
}
}
sub migrate_files {
my ($in, $_hd, $part) = @_;
my $wait = $in->wait_message(N("Please wait"), N("Moving files to the new partition"));
my $handle = any::inspect($part, '', 'rw');
my @l = glob_("$part->{mntpoint}/*");
foreach (@l) {
$wait->set(N("Copying %s", $_));
system("cp", "-a", $_, $handle->{dir}) == 0 or die "copying failed";
}
foreach (@l) {
$wait->set(N("Removing %s", $_));
system("rm", "-rf", $_) == 0 or die "removing files failed";
}
}
sub warn_if_renumbered {
my ($in, $hd) = @_;
my $l = delete $hd->{partitionsRenumbered};
return if is_empty_array_ref($l);
push @{$hd->{allPartitionsRenumbered}}, @$l;
my @l = map {
my ($old, $new) = @$_;
N("partition %s is now known as %s", $old, $new) } @$l;
$in->ask_warn(N("Warning"), join("\n", 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) = @_;
$mb <= to_Mb($min) and return $min;
$mb >= to_Mb($max) and return $max;
$mb * 2048;
}
sub to_Mb {
my ($size_sector) = @_;
to_int($size_sector / 2048);
}
sub format_part_info {
my ($hd, $part) = @_;
my $info = '';
$info .= N("Mount point: ") . "$part->{mntpoint}\n" if $part->{mntpoint};
$info .= N("Device: ") . "$part->{device}\n" if $part->{device} && !isLoopback($part);
$info .= N("Volume label: ") . "$part->{device_LABEL}\n" if $part->{device_LABEL};
$info .= N("UUID: ") . "$part->{device_UUID}\n" if $::expert && $part->{device_UUID};
$info .= N("DOS drive letter: %s (just a guess)\n", $part->{device_windobe}) if $part->{device_windobe};
if (isEmpty($part)) {
$info .= N("Empty") . "\n";
} else {
$info .= N("Type: ") . (fs::type::part2type_name($part) || $part->{fs_type}) . ($::expert ? sprintf " (0x%x)", $part->{pt_type} : '') . "\n";
}
$info .= N("Start: sector %s\n", $part->{start}) if $::expert && !isSpecial($part) && !isLVM($hd);
if ($hd->{totalsectors}) {
$info .= N("Size: %s (%s%% of disk)", formatXiB($part->{size}, 512), int 100 * $part->{size} / $hd->{totalsectors});
} else {
$info .= N("Size: %s", formatXiB($part->{size}, 512));
}
$info .= N(", %s sectors", $part->{size}) if $::expert;
$info .= "\n";
$info .= N("Cylinder %d to %d\n", $part->{start} / $hd->cylinder_size, ($part->{start} + $part->{size} - 1) / $hd->cylinder_size) if ($::expert || isEmpty($part)) && !isSpecial($part) && !isLVM($hd) && $hd->cylinder_size;
$info .= N("Number of logical extents: %d\n", $part->{size} / $hd->cylinder_size) if $::expert && isLVM($hd);
$info .= N("Formatted\n") if $part->{isFormatted};
$info .= N("Not formatted\n") if !$part->{isFormatted} && $part->{notFormatted};
$info .= N("Mounted\n") if $part->{isMounted};
$info .= N("RAID %s\n", $part->{raid}) if isPartOfRAID($part);
if (fs::type::isRawLUKS($part) || fs::type::isLUKS($part)) {
$info .= N("Encrypted") . "\n";
if (fs::type::isRawLUKS($part)) {
$info .= ($part->{dm_active} && $part->{dm_name} ? N(" (mapped on %s)", $part->{dm_name}) :
$part->{dm_name} ? N(" (to map on %s)", $part->{dm_name}) :
N(" (inactive)")) . "\n";
}
}
if (isPartOfLVM($part)) {
$info .= sprintf "LVM %s\n", $part->{lvm};
$info .= sprintf "Used physical extents %d / %d\n", lvm::pv_physical_extents($part);
}
$info .= N("Loopback file(s):\n %s\n", join(", ", map { $_->{loopback_file} } @{$part->{loopback}})) if isPartOfLoopback($part);
$info .= N("Partition booted by default\n (for MS-DOS boot, not for lilo)\n") if $part->{active} && $::expert;
if (isRAID($part)) {
$info .= N("Level %s\n", $part->{level});
$info .= N("Chunk size %d KiB\n", $part->{'chunk-size'});
$info .= N("RAID-disks %s\n", join ", ", map { $_->{device} } @{$part->{disks}});
} elsif (isLoopback($part)) {
$info .= N("Loopback file name: %s", $part->{loopback_file});
}
if (isApple($part)) {
$info .= N("\nChances are, this partition is\na Driver partition. You should\nprobably leave it alone.\n");
}
if (isAppleBootstrap($part)) {
$info .= N("\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, $part) = @_;
isEmpty($part) ? N("Free space on %s (%s)", $hd->{device}, formatXiB($part->{size}, 512))
: partition_table::description($part);
}
sub format_hd_info {
my ($hd) = @_;
my $info = '';
$info .= N("Device: ") . "$hd->{device}\n";
$info .= N("Read-only") . "\n" if $hd->{readonly};
$info .= N("Size: %s\n", formatXiB($hd->{totalsectors}, 512)) if $hd->{totalsectors};
$info .= N("Geometry: %s cylinders, %s heads, %s sectors\n", $hd->{geom}{cylinders}, $hd->{geom}{heads}, $hd->{geom}{sectors}) if $::expert && $hd->{geom};
$info .= N("Name: ") . $hd->{info} . "\n" if $hd->{info};
$info .= N("Medium type: ") . $hd->{media_type} . "\n" if $hd->{media_type} && $::expert;
$info .= N("LVM-disks %s\n", join ", ", map { $_->{device} } @{$hd->{disks}}) if isLVM($hd) && $hd->{disks};
$info .= N("Partition table type: %s\n", $1) if $::expert && ref($hd) =~ /_([^_]+)$/;
$info .= N("on channel %d id %d\n", $hd->{channel}, $hd->{id}) if $::expert && exists $hd->{channel};
$info;
}
sub format_raw_hd_info {
my ($raw_hd) = @_;
my $info = '';
$info .= N("Mount point: ") . "$raw_hd->{mntpoint}\n" if $raw_hd->{mntpoint};
$info .= format_hd_info($raw_hd);
if (!isEmpty($raw_hd)) {
$info .= N("Type: ") . (fs::type::part2type_name($raw_hd) || $raw_hd->{fs_type}) . "\n";
}
if (my $s = $raw_hd->{options}) {
$s =~ s/password=([^\s,]*)/'password=' . ('x' x length($1))/e;
$info .= N("Options: %s", $s);
}
$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 max_partition_resize {
my ($hd, $part) = @_;
if (isLVM($hd)) {
$part->{size} + fs::get::vg_free_space($hd);
} else {
partition_table::next_start($hd, $part) - $part->{start};
}
}
sub choose_encrypt_key {
my ($in, $options, $skip_encrypt_algo) = @_;
my ($encrypt_key, $encrypt_key2);
my @algorithms = map { "AES$_" } 128, 196, 256, 512, 1024, 2048;
my $encrypt_algo = $options->{'encryption='} || "AES128";
$in->ask_from_(
{
title => N("Filesystem encryption key"),
messages => N("Choose your filesystem encryption key"),
callbacks => {
complete => sub {
length $encrypt_key < 6 and $in->ask_warn(N("Warning"), N("This encryption key is too simple (must be at least %d characters long)", 6)), return 1,0;
$encrypt_key eq $encrypt_key2 or $in->ask_warn(N("Error"), [ N("The encryption keys do not match"), N("Please try again") ]), return 1,1;
return 0;
} } }, [
{ label => N("Encryption key"), val => \$encrypt_key, hidden => 1, focus => sub { 1 } },
{ label => N("Encryption key (again)"), val => \$encrypt_key2, hidden => 1 },
if_(!$skip_encrypt_algo,
{ label => N("Encryption algorithm"), type => 'list', val => \$encrypt_algo, list => \@algorithms },
),
]) or return;
$skip_encrypt_algo ? $encrypt_key : ($encrypt_key, $encrypt_algo);
}
sub tell_wm_and_reboot() {
my ($wm, $pid) = any::running_window_manager();
if (!$wm) {
system('reboot');
} else {
any::ask_window_manager_to_logout_then_do($wm, $pid, 'reboot');
}
}
sub update_bootloader_for_renumbered_partitions {
my ($in, $all_hds) = @_;
my @renumbering = map { @{$_->{allPartitionsRenumbered} || []} } @{$all_hds->{hds}} or return;
require bootloader;
bootloader::update_for_renumbered_partitions($in, \@renumbering, $all_hds);
}
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