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|
package fs::partitioning_wizard; # $Id$
use diagnostics;
use strict;
use utf8;
use common;
use devices;
use fsedit;
use fs::type;
use fs::mount_point;
use partition_table;
use partition_table::raw;
use partition_table::dos;
use POSIX qw(ceil);
#- 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 $max;
MB($mb);
}
sub to_Mb {
my ($size_sector) = @_;
to_int($size_sector / 2048);
}
sub partition_with_diskdrake {
my ($in, $all_hds, $fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab) = @_;
my $ok;
do {
$ok = 1;
my $do_force_reload = sub {
my $new_hds = fs::get::empty_all_hds();
fs::any::get_hds($new_hds, $fstab, $manual_fstab, $partitioning_flags, $skip_mtab, $in);
%$all_hds = %$new_hds;
$all_hds;
};
require diskdrake::interactive;
{
local $::expert = 0;
diskdrake::interactive::main($in, $all_hds, $do_force_reload);
}
my @fstab = fs::get::fstab($all_hds);
unless (fs::get::root_(\@fstab)) {
$ok = 0;
$in->ask_okcancel(N("Partitioning"), N("You must have a root partition.
For this, create a partition (or click on an existing one).
Then choose action ``Mount point'' and set it to `/'"), 1) or return;
}
if (!any { isSwap($_) } @fstab) {
$ok &&= $in->ask_okcancel('', N("You do not have a swap partition.\n\nContinue anyway?"));
}
if (arch() =~ /ia64/ && !fs::get::has_mntpoint("/boot/efi", $all_hds)) {
$in->ask_warn('', N("You must have a FAT partition mounted in /boot/efi"));
$ok = '';
}
} until $ok;
1;
}
sub partitionWizardSolutions {
my ($in, $all_hds, $all_fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab, $target) = @_;
my $hds = $all_hds->{hds};
my $fstab;
my $full_fstab = [ fs::get::fstab($all_hds) ];
if ($target) {
$hds = [ $target ];
$fstab = [ grep { $_->{rootDevice} eq $target->{device} } fs::get::fstab($all_hds) ];
} else {
$fstab = $full_fstab;
}
my @wizlog;
my (%solutions);
my $min_linux = MB(600);
my $min_swap = MB(50);
my $min_freewin = MB(100);
# each solution is a [ score, text, function ], where the function retunrs true if succeeded
my @hds_rw = grep { !$_->{readonly} } @$hds;
my @hds_can_add = grep { $_->can_add } @hds_rw;
if (fs::get::hds_free_space(@hds_can_add) > $min_linux) {
$solutions{free_space} = [ 30, N("Use free space"), sub { fsedit::auto_allocate($all_hds, $partitions); 1 } ];
} else {
push @wizlog, N("Not enough free space to allocate new partitions") . ": " .
(@hds_can_add ?
fs::get::hds_free_space(@hds_can_add) . " < $min_linux" :
"no harddrive on which partitions can be added");
}
if (my @truefs = grep { isTrueLocalFS($_) } @$fstab) {
#- value twice the ext2 partitions
$solutions{existing_part} = [ 20 + @truefs + @$fstab, N("Use existing partitions"), sub { fs::mount_point::ask_mount_points($in, $full_fstab, $all_hds) } ];
} else {
push @wizlog, N("There is no existing partition to use");
}
if (my @ok_for_resize_fat = grep { isFat_or_NTFS($_) && !fs::get::part2hd($_, $all_hds)->{readonly}
&& !isRecovery($_) && $_->{size} > $min_linux + $min_swap + $min_freewin } @$fstab) {
@ok_for_resize_fat = map {
my $part = $_;
my $hd = fs::get::part2hd($part, $all_hds);
my $resize_fat = eval {
my $pkg = $part->{fs_type} eq 'vfat' ? do {
require resize_fat::main;
'resize_fat::main';
} : do {
require diskdrake::resize_ntfs;
'diskdrake::resize_ntfs';
};
$pkg->new($part->{device}, devices::make($part->{device}));
};
if ($@) {
log::l("The FAT resizer is unable to handle $part->{device} partition%s", formatError($@));
undef $part;
}
if ($part) {
my $min_win = eval {
my $_w = $in->wait_message(N("Resizing"), N("Computing the size of the Microsoft Windows® partition"));
$resize_fat->min_size + $min_freewin;
};
if ($@) {
log::l("The FAT resizer is unable to get minimal size for $part->{device} partition %s", formatError($@));
undef $part;
} else {
my $min_linux_all = $min_linux + $min_swap;
#- 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).
$min_win += partition_table::raw::cylinder_size($hd);
if ($part->{size} <= $min_linux_all + $min_win) {
# die N("Your Microsoft Windows® partition is too fragmented. Please reboot your computer under Microsoft Windows®, run the ``defrag'' utility, then restart the Mandriva Linux installation.");
undef $part;
} else {
$part->{resize_fat} = $resize_fat;
$part->{min_win} = $min_win;
$part->{min_linux} = $min_linux_all;
#- try to keep at least 1GB free for Windows
#- try to use from 6GB to 10% free space for Linux
my $suggested_size = max(
$part->{min_win} + 1 * MB(1024),
min(
$part->{size} - int(0.1 * ($part->{size} - $part->{min_win})),
$part->{size} - 6 * MB(1024),
),
);
$part->{req_size} = max(min($suggested_size, $part->{size} - $part->{min_linux}), $part->{min_win});
}
}
}
$part || ();
} @ok_for_resize_fat;
if (@ok_for_resize_fat) {
$solutions{resize_fat} =
[ 20 - @ok_for_resize_fat, N("Use the free space on a Microsoft Windows® partition"),
sub {
my $part;
if (!$in->isa('interactive::gtk')) {
$part = $in->ask_from_listf_raw({ messages => N("Which partition do you want to resize?"),
interactive_help_id => 'resizeFATChoose',
}, \&partition_table::description, \@ok_for_resize_fat) or return;
$part->{size} > $part->{min_linux} + $part->{min_win} or die N("Your Microsoft Windows® partition is too fragmented. Please reboot your computer under Microsoft Windows®, run the ``defrag'' utility, then restart the Mandriva Linux installation.");
} else {
$part = top(grep { $_->{req_size} } @ok_for_resize_fat);
}
my $resize_fat = $part->{resize_fat};
my $hd = fs::get::part2hd($part, $all_hds);
$in->ask_okcancel('', formatAlaTeX(
#-PO: keep the double empty lines between sections, this is formatted a la LaTeX
N("WARNING!
Your Microsoft Windows® partition will be now resized.
Be careful: this operation is dangerous. If you have not already done so, you first need to exit the installation, run \"chkdsk c:\" from a Command Prompt under Microsoft Windows® (beware, running graphical program \"scandisk\" is not enough, be sure to use \"chkdsk\" in a Command Prompt!), optionally run defrag, then restart the installation. You should also backup your data.
When sure, press %s.", N("Next")))) or return;
my $oldsize = $part->{size};
if (!$in->isa('interactive::gtk')) {
my $mb_size = to_Mb($part->{req_size});
my $max_win = $part->{size} - $part->{min_linux};
$in->ask_from(N("Partitionning"), N("Which size do you want to keep for Microsoft Windows® on partition %s?", partition_table::description($part)), [
{ label => N("Size"), val => \$mb_size, min => to_Mb($part->{min_win}), max => to_Mb($max_win), type => 'range' },
]) or return;
$part->{req_size} = from_Mb($mb_size, $part->{min_win}, $part->{max_win});
}
$part->{size} = $part->{req_size};
$hd->adjustEnd($part);
eval {
my $_w = $in->wait_message(N("Resizing"), N("Resizing Microsoft Windows® partition"));
$resize_fat->resize($part->{size});
};
if (my $err = $@) {
$part->{size} = $oldsize;
die N("FAT resizing failed: %s", formatError($err));
}
$in->ask_warn('', N("To ensure data integrity after resizing the partition(s),
filesystem checks will be run on your next boot into Microsoft Windows®")) if $part->{fs_type} ne 'vfat';
set_isFormatted($part, 1);
partition_table::will_tell_kernel($hd, resize => $part); #- down-sizing, write_partitions is not needed
partition_table::adjust_local_extended($hd, $part);
partition_table::adjust_main_extended($hd);
fsedit::auto_allocate($all_hds, $partitions);
1;
}, \@ok_for_resize_fat ];
}
} else {
push @wizlog, N("There is no FAT partition to resize (or not enough space left)");
}
if (@$fstab && @hds_rw) {
$solutions{wipe_drive} =
[ 10, fsedit::is_one_big_fat_or_NT($hds) ? N("Remove Microsoft Windows®") : N("Erase and use entire disk"),
sub {
my $hd;
if (!$in->isa('interactive::gtk')) {
$hd = $in->ask_from_listf_raw({ messages => N("You have more than one hard drive, which one do you install linux on?"),
title => N("Partitioning"),
interactive_help_id => 'takeOverHdChoose',
},
\&partition_table::description, \@hds_rw) or return;
} else {
$hd = $target;
}
$in->ask_okcancel_({ messages => N("ALL existing partitions and their data will be lost on drive %s", partition_table::description($hd)),
title => N("Partitioning"),
interactive_help_id => 'takeOverHdConfirm' }) or return;
fsedit::partition_table_clear_and_initialize($all_hds->{lvms}, $hd, $in);
fsedit::auto_allocate($all_hds, $partitions);
1;
} ];
}
if (@hds_rw || find { $_->isa('partition_table::lvm') } @$hds) {
$solutions{diskdrake} = [ 0, N("Custom disk partitioning"), sub {
partition_with_diskdrake($in, $all_hds, $all_fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab);
} ];
}
$solutions{fdisk} =
[ -10, N("Use fdisk"), sub {
$in->enter_console;
foreach (@$hds) {
print "\n" x 10, N("You can now partition %s.
When you are done, do not forget to save using `w'", partition_table::description($_));
print "\n\n";
my $pid = 0;
if (arch() =~ /ppc/) {
$pid = fork() or exec "pdisk", devices::make($_->{device});
} else {
$pid = fork() or exec "fdisk", devices::make($_->{device});
}
waitpid($pid, 0);
}
$in->leave_console;
0;
} ] if $partitioning_flags->{fdisk};
log::l("partitioning wizard log:\n", (map { ">>wizlog>>$_\n" } @wizlog));
%solutions;
}
sub warn_reboot_needed {
my ($in) = @_;
$in->ask_warn(N("Partitioning"), N("You need to reboot for the partition table modifications to take place"));
}
sub create_display_box {
my ($kind, $resize, $fill_empty, $button) = @_;
my @parts = fs::get::hds_fstab_and_holes($kind->{val});
my $totalsectors = $kind->{val}{totalsectors};
my $width = 540;
$width -= 24 if $resize || $fill_empty;
my $minwidth = 40;
my $display_box = ugtk2::gtkset_size_request(Gtk2::HBox->new(0,0), -1, 26);
my $sep_count = @parts - 1;
#- ratio used to compute initial partition pixel width (each partition should be > min_width)
#- though, the pixel/sectors ratio can not be the same for all the partitions
my $initial_ratio = $totalsectors ? ($width - @parts * $minwidth - $sep_count) / $totalsectors : 1;
my $vbox = Gtk2::VBox->new;
my $part_sep;
my $desc;
my $last = $resize && $resize->[-1];
foreach my $entry (@parts) {
my $part_info = Gtk2::Label->new($entry->{device_LABEL});
my @colorized_fs_types = qw(ext2 ext3 ext4 xfs swap vfat ntfs ntfs-3g);
my $part_widget = Gtk2::EventBox->new;
$entry->{width} = int($entry->{size} * $initial_ratio) + $minwidth;
if ($last && $last->{device} eq $entry->{device}) {
#- entry is the last resizable partition
my $ratio;
my $update_ratio = sub { $ratio = $entry->{width} / $entry->{size} };
$update_ratio->();
$part_widget->set_name("PART_vfat");
$part_info->set_size_request(ceil($ratio * $entry->{min_win}), 0);
my $mdv_widget = gtkadd(gtkset_name(Gtk2::EventBox->new, "PART_new"),
gtkset_size_request(gtknew("Image", file => "small-logo"),
$ratio * MB(600), 0));
my $hpane = Gtk2::HPaned->new;
$hpane->add1($part_widget);
$hpane->child1_shrink(0);
$hpane->add2($mdv_widget);
$hpane->child2_shrink(0);
$hpane->set_position(ceil($ratio * $entry->{req_size}));
ugtk2::gtkset_size_request($hpane, $entry->{width}, 0);
ugtk2::gtkpack__($display_box, $hpane);
my $add_part_size_info = sub {
my ($name, $label) = @_;
ugtk2::gtkpack__($desc,
gtkadd(gtkset_name(Gtk2::EventBox->new, $name),
Gtk2::Label->new(" " x 4)),
gtkset_size_request(gtkset_alignment($label, 0, 0.5),
150, 20));
};
$desc = Gtk2::HBox->new(0,0);
my $win_size_label = Gtk2::Label->new;
$add_part_size_info->("PART_vfat", $win_size_label);
my $mdv_size_label = Gtk2::Label->new;
$add_part_size_info->("PART_new", $mdv_size_label);
my $update_size_labels = sub {
$win_size_label->set_label(" Windows (" . formatXiB($entry->{req_size}, 512) . ")");
$mdv_size_label->set_label(" Mandriva (" . formatXiB($entry->{size} - $entry->{req_size}, 512) . ")");
0;
};
my $update_req_size = sub {
$entry->{req_size} = int($hpane->get_position / $ratio);
$update_size_labels->();
};
my $button_activate = sub {
$button->activate;
0;
};
$hpane->signal_connect('size-allocate' => sub {
my (undef, $alloc) = @_;
$entry->{width} = $alloc->width;
$update_ratio->();
0;
});
$update_size_labels->();
$hpane->signal_connect('motion-notify-event' => $update_req_size);
$hpane->signal_connect('move-handle' => $update_req_size);
$hpane->signal_connect('button-press-event' => $button_activate);
$vbox->signal_connect('button-press-event' => $button_activate);
$button->signal_connect('focus-in-event' => sub {
$hpane->grab_focus;
0;
});
} else {
if ($fill_empty && isEmpty($entry)) {
$part_info = gtknew("Image", file => "small-logo");
$part_widget->set_name("PART_new");
} else {
$part_widget->set_name("PART_" . (isEmpty($entry) ? 'empty' :
$entry->{fs_type} && member($entry->{fs_type}, @colorized_fs_types) ? $entry->{fs_type} :
'other'));
}
$part_widget->set_size_request($entry->{width}, 0);
ugtk2::gtkpack($display_box, $part_widget);
}
$part_widget->add($part_info);
$part_sep = gtkadd(Gtk2::EventBox->new,
gtkset_size_request(Gtk2::Label->new("."), 1, 0));
gtkpack__($display_box, $part_sep);
}
$display_box->remove($part_sep);
unless ($resize || $fill_empty) {
my @types = (N_("Ext2/3/4"), N_("XFS"), N_("Swap"), arch() =~ /sparc/ ? N_("SunOS") : arch() eq "ppc" ? N_("HFS") : N_("Windows"),
N_("Other"), N_("Empty"));
my %name2fs_type = ('Ext2/3/4' => 'ext3', 'XFS' => 'xfs', Swap => 'swap', Other => 'other', "Windows" => 'vfat', HFS => 'hfs');
$desc = ugtk2::gtkpack(Gtk2::HBox->new,
map {
my $t = $name2fs_type{$_};
my $ev = Gtk2::EventBox->new;
my $w = Gtk2::Label->new(translate($_));
$ev->add($w);
$ev->set_name('PART_' . ($t || 'empty'));
$ev;
} @types);
}
$vbox->add($display_box);
$vbox->add($desc) if $desc;
$vbox;
}
sub display_choices {
my ($o, $contentbox, $mainw, %solutions) = @_;
my @solutions = sort { $solutions{$b}[0] <=> $solutions{$a}[0] } keys %solutions;
my @sol = grep { $solutions{$_}[0] >= 0 } @solutions;
log::l('' . "solutions found: " . join('', map { $solutions{$_}[1] } @sol) .
" (all solutions found: " . join('', map { $solutions{$_}[1] } @solutions) . ")");
@solutions = @sol if @sol > 1;
log::l("solutions: ", int @solutions);
@solutions or $o->ask_warn(N("Partitioning"), N("I can not find any room for installing")), die 'already displayed';
log::l('HERE: ', join(',', map { $solutions{$_}[1] } @solutions));
$contentbox->foreach(sub { $contentbox->remove($_[0]) });
$mainw->{kind}{display_box} ||= create_display_box($mainw->{kind});
ugtk2::gtkpack2__($contentbox, $mainw->{kind}{display_box});
ugtk2::gtkpack__($contentbox, gtknew('Label',
text => N("The DrakX Partitioning wizard found the following solutions:"),
alignment => [0, 0]));
my $choicesbox = gtknew('VBox');
my $oldbutton;
my $sep;
foreach my $s (@solutions) {
my $item;
my $vbox = gtknew('VBox');
my $button = gtknew('RadioButton', child => $vbox);
if ($s eq 'free_space') {
$item = create_display_box($mainw->{kind}, undef, 1);
} elsif ($s eq 'resize_fat') {
$item = create_display_box($mainw->{kind}, $solutions{$s}[3], undef, $button);
} elsif ($s eq 'existing_part') {
} elsif ($s eq 'wipe_drive') {
$item = Gtk2::EventBox->new;
my $b2 = gtknew("Image", file => "small-logo");
$item->add($b2);
$item->set_size_request(-1,26);
$item->set_name("PART_new");
} elsif ($s eq 'diskdrake') {
} else {
log::l($s);
next;
}
$vbox->set_size_request(1024, -1);
ugtk2::gtkpack($vbox,
gtknew('Label',
text => $solutions{$s}[1],
alignment => [0, 0]));
ugtk2::gtkpack($vbox, $item) if defined($item);
$button->set_group($oldbutton->get_group) if $oldbutton;
$oldbutton = $button;
$button->signal_connect('toggled', sub { $mainw->{sol} = $solutions{$s} if $_[0]->get_active });
ugtk2::gtkpack2__($choicesbox, $button);
$sep = gtknew('HSeparator');
ugtk2::gtkpack2__($choicesbox, $sep);
}
$choicesbox->remove($sep);
ugtk2::gtkadd($contentbox, $choicesbox);
$mainw->{sol} = $solutions{@solutions[0]};
}
sub main {
my ($o, $all_hds, $fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab, $b_nodiskdrake) = @_;
my $sol;
if ($o->isa('interactive::gtk')) {
require mygtk2;
mygtk2->import(qw(gtknew));
require ugtk2;
ugtk2->import(qw(:wrappers));
my $mainw = ugtk2->new(N("Partitioning"), %$o, if__($::main_window, transient => $::main_window));
$mainw->{box_allow_grow} = 1;
mygtk2::set_main_window_size($mainw->{rwindow});
require diskdrake::hd_gtk;
diskdrake::hd_gtk::load_theme();
my $mainbox = Gtk2::VBox->new;
my @kinds = map { diskdrake::hd_gtk::hd2kind($_) } sort { $a->{is_removable} <=> $b->{is_removable} } @{$all_hds->{hds} };
push @kinds, map { diskdrake::hd_gtk::raid2kind($_) } @{$all_hds->{raids}};
my $hdchoice = Gtk2::HBox->new;
my $hdchoicelabel = Gtk2::Label->new(N("Here is the content of your disk drive "));
my $combobox = Gtk2::ComboBox->new_text;
foreach (@kinds) {
my $info = $_->{val}{info} || $_->{val}{device};
$info =~ s|^(?:.*/)?(.{16}).*|$1|;
$info .= " (" . formatXiB($_->{val}{totalsectors}, 512) . ")" if $_->{val}{totalsectors};
$combobox->append_text($info);
}
$combobox->set_active(0);
ugtk2::gtkpack2__($hdchoice, $hdchoicelabel);
$hdchoice->add($combobox);
ugtk2::gtkpack2__($mainbox, $hdchoice);
my $contentbox = Gtk2::VBox->new(0, 12);
$mainbox->add($contentbox);
my $kind = @kinds[$combobox->get_active];
my %solutions = partitionWizardSolutions($o, $all_hds, $fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab, diskdrake::hd_gtk::kind2hd($kind));
delete $solutions{diskdrake} if $b_nodiskdrake;
$mainw->{kind} = $kind;
display_choices($o, $contentbox, $mainw, %solutions);
$combobox->signal_connect("changed", sub {
$mainw->{kind} = @kinds[$combobox->get_active];
my %solutions = partitionWizardSolutions($o, $all_hds, $fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab, diskdrake::hd_gtk::kind2hd($mainw->{kind}));
delete $solutions{diskdrake} if $b_nodiskdrake;
display_choices($o, $contentbox, $mainw, %solutions);
$mainw->{window}->show_all;
});
my @more_buttons = (
if_($::isInstall,
[ gtknew('Install_Button',
text => N("Help"),
clicked => sub { interactive::gtk::display_help($o, {interactive_help_id => 'doPartitionDisks' }, $mainw) }),
undef, 1 ]),
);
my $buttons_pack = $mainw->create_okcancel(N("Next"), undef, '', @more_buttons);
$mainbox->pack_end($buttons_pack, 0, 0, 0);
ugtk2::gtkadd($mainw->{window}, $mainbox);
$mainw->{window}->show_all;
$mainw->main;
$sol=$mainw->{sol};
} else {
my %solutions = partitionWizardSolutions($o, $all_hds, $fstab, $manual_fstab, $partitions, $partitioning_flags, $skip_mtab);
delete $solutions{diskdrake} if $b_nodiskdrake;
my @solutions = sort { $b->[0] <=> $a->[0] } values %solutions;
my @sol = grep { $_->[0] >= 0 } @solutions;
log::l('' . "solutions found: " . join('', map { $_->[1] } @sol) .
" (all solutions found: " . join('', map { $_->[1] } @solutions) . ")");
@solutions = @sol if @sol > 1;
log::l("solutions: ", int @solutions);
@solutions or $o->ask_warn(N("Partitioning"), N("I can not find any room for installing")), die 'already displayed';
log::l('HERE: ', join(',', map { $_->[1] } @solutions));
$o->ask_from_({
title => N("Partitioning"),
interactive_help_id => 'doPartitionDisks',
},
[
{ label => N("The DrakX Partitioning wizard found the following solutions:"), title => $::isInstall },
{ val => \$sol, list => \@solutions, format => sub { $_[0][1] }, type => 'list' },
]);
}
log::l("partitionWizard calling solution $sol->[1]");
my $ok = eval { $sol->[2]->() };
if (my $err = $@) {
if ($err =~ /wizcancel/) {
$_->destroy foreach $::WizardTable->get_children;
} else {
$o->ask_warn('', N("Partitioning failed: %s", formatError($err)));
}
}
$ok or goto &main;
1;
}
1;
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