1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
|
package fs::any;
use diagnostics;
use strict;
use c;
use common;
use fsedit;
use fs::get;
use fs::mount_point;
use fs::type;
use run_program;
sub get_hds {
my ($all_hds, $fstab, $manual_fstab, $partitioning_flags, $skip_mtab, $o_in) = @_;
my $probed_all_hds = fsedit::get_hds($partitioning_flags, $o_in);
my $hds = $probed_all_hds->{hds};
if (is_empty_array_ref($hds)) { #- no way
die N("An error occurred - no valid devices were found on which to create new filesystems. Please check your hardware for the cause of this problem");
}
#- try to figure out if the same number of hds is available, use them if ok.
@{$all_hds->{hds} || []} == @$hds and return 1;
fs::get_raw_hds('', $probed_all_hds);
fs::add2all_hds($probed_all_hds, @$manual_fstab);
%$all_hds = %$probed_all_hds;
@$fstab = fs::get::really_all_fstab($all_hds);
if (!$skip_mtab) {
#- do not mount the windows partition
fs::merge_info_from_mtab($fstab);
fs::mount_point::suggest_mount_points_always($fstab);
}
1;
}
sub write_hds {
my ($all_hds, $fstab, $set_mount_defaults, $on_reboot_needed, $opts) = @_;
if (!$::testing) {
my $hds = $all_hds->{hds};
partition_table::write($_) foreach @$hds;
$_->{rebootNeeded} and $on_reboot_needed->() foreach @$hds;
}
fs::set_removable_mntpoints($all_hds);
fs::mount_options::set_all_default($all_hds, %$opts, lang::fs_options($opts->{locale}))
if $set_mount_defaults;
@$fstab = fs::get::fstab($all_hds);
}
sub set_cdrom_symlink {
my ($raw_hds) = @_;
foreach (grep { $_->{media_type} eq 'cdrom' } @$raw_hds) {
next if $_->{device_alias};
my $alias = basename($_->{mntpoint}) or next;
log::l("using alias $alias for $_->{device}");
$_->{device_alias} = $alias;
symlink($_->{device}, "/dev/$alias");
}
}
sub check_hds_boot_and_root {
my ($all_hds, $fstab, $isUpgrade, $o_match_all_hardware) = @_;
fs::get::root_($fstab) or die "Oops, no root partition";
return if $o_match_all_hardware;
if (is_uefi()) {
if (!fs::get::has_mntpoint("/boot/EFI", $all_hds)) {
die N("You must have a ESP FAT32 partition mounted in /boot/EFI");
}
} else {
# if we are doing an upgrade, the user may still be using a legacy bootloader
return if $isUpgrade;
if (is_boot_bios_part_needed($all_hds)) {
die N("You must have a BIOS boot partition for non-UEFI GPT-partitioned disks. Please create one before continuing.");
}
}
}
sub create_minimal_files() {
mkdir "$::prefix/$_", 0755 foreach
qw(dev etc etc/profile.d etc/rpm etc/sysconfig etc/sysconfig/console
etc/sysconfig/network-scripts etc/sysconfig/console/consolefonts
etc/sysconfig/console/consoletrans
home mnt run tmp var var/tmp var/lib var/lib/rpm var/lib/urpmi);
mkdir "$::prefix/$_", 0700 foreach qw(root root/tmp root/drakx);
}
sub prepare_minimal_root() {
create_minimal_files();
# ensure we've all needed devices, for bootloader install and mkinitrd:
run_program::run('mount', '--bind', '/dev', "$::prefix/dev");
run_program::run('mount', '--bind', '/run', "$::prefix/run");
eval { fs::mount::mount('none', "$::prefix/proc", 'proc') };
eval { fs::mount::mount('none', "$::prefix/sys", 'sysfs') };
eval { fs::mount::sys_kernel_debug($::prefix) };
}
sub getNeededMinSpace {
my ($n) = @_;
#- make sure of this place to be available for installation, this could help a lot.
#- currently doing a very small install use 36Mb of postinstall-rpm, but installing
#- these packages may eat up to 90Mb (of course not all the server may be installed!).
#- 65mb may be a good choice to avoid almost all problem of insuficient space left...
my $minAvailableSize = 65 * sqr(1024);
max(0.1 * $n, $minAvailableSize);
}
sub getAvailableSpace {
my ($fstab, $o_skip_mounted, $o_skip_min_space) = @_;
my $n = !$::testing && !$o_skip_mounted && getAvailableSpace_mounted($::prefix) ||
getAvailableSpace_raw($fstab) * 512 / 1.07;
$o_skip_min_space ? $n : $n - getNeededMinSpace($n);
}
sub getAvailableSpace_mounted {
my ($prefix) = @_;
my $dir = -d "$prefix/usr" ? "$prefix/usr" : $prefix;
my (undef, $free) = MDK::Common::System::df($dir) or return;
log::l("getAvailableSpace_mounted $free KB");
$free * 1024 || 1;
}
sub getAvailableSpace_raw {
my ($fstab) = @_;
do { $_->{mntpoint} eq '/usr' and return $_->{size} } foreach @$fstab;
do { $_->{mntpoint} eq '/' and return $_->{size} } foreach @$fstab;
if ($::testing) {
my $nb = 450;
log::l("taking ${nb}MB for testing");
return MB($nb);
}
die "missing root partition";
}
=head3 is_boot_bios_part_needed($all_hds)
Returns whether a Boot BIOS Partition is needed
Returns true if all of the following are true:
- legacy boot (not UEFI)
- all disks are (or will be) GPT
- no disks have a BIOS boot partition
=cut
sub is_boot_bios_part_needed {
my ($all_hds) = @_;
# never needed for UEFI boot
return if is_uefi();
# do we already have one?
my @parts = map { partition_table::get_normal_parts($_) } fs::get::hds($all_hds);
return if any { isBIOS_GRUB($_) } @parts;
# do we have any non-GPT disks?
foreach my $hd (@{$all_hds->{hds}}) {
my $type = $hd->{pt_table_type} || partition_table::default_type($hd);
return if $type ne 'gpt';
}
1;
}
1;
|