diff options
Diffstat (limited to 'rescue/tree/etc/oem-all')
-rwxr-xr-x | rescue/tree/etc/oem-all | 606 |
1 files changed, 606 insertions, 0 deletions
diff --git a/rescue/tree/etc/oem-all b/rescue/tree/etc/oem-all new file mode 100755 index 000000000..7af7e70ab --- /dev/null +++ b/rescue/tree/etc/oem-all @@ -0,0 +1,606 @@ +#!/usr/bin/perl + +if (shift(@ARGV) ne '-f') { + print "Call it with option -f, but don't fear loosing all your data, this command is dangerous!"; + print " +usage: /etc/oem -f [options] +where [options] are: + server : allow server installalation + boot_entries=entry1,...,entryN : set boot entries to use, + the first one is the default one + no<option> : disable options <option> +"; + exit 1; +} +my (%options, $yes, $hd, $hdp, $cd, $fs); + +#- avoid globing as it is not available in rescue ramdisk. +foreach my $device (split ' ', `/bin/ls -d /proc/ide/hd*`) { + open F, "$device/media" or next; + foreach (<F>) { + /disk/ and do { $hd ||= $device; $hd =~ s,/proc/ide/,,; }; + /cdrom/ and do { $cd ||= $device; $cd =~ s,/proc/ide/,,; }; + } + close F; +} +#- examine available SCSI devices (avoid SCSI floppies like LS-120 or ZIP disk or generic floppies). +eval { + system "/usr/bin/drvinst"; #- load scsi drivers else it wont do anything. + + my ($driveNum, $cdromNum) = (0, 0); + open F, "/proc/scsi/scsi" or die "no scsi available"; + local $_ = <F>; /^Attached devices:/ or die "to attached devices found"; + while ($_ = <F>) { + my ($id) = /^Host:.*?Id: (\d+)/ or die "no host found"; + $_ = <F>; my ($vendor, $model) = /^\s*Vendor:\s*(.*?)\s+Model:\s*(.*?)\s+Rev:/ or die "no vendor nor model found"; + $_ = <F>; my ($type) = /^\s*Type:\s*(.*)/; + if ($type =~ /Direct-Access/ && $model !~ /ZIP\s+\d+|LS-?120|144MB|[Ff]loppy/) { + $hd ||= "sd" . chr($driveNum++ + ord('a')); + } elsif ($type =~ /CD-ROM/) { + $cd ||= "scd" . $cdromNum++; + } + } + close F; +}; +#- examine DAC960 device. +#- there is a problem as there is no more than 7 partitions available, this means no /home and no /var. +unless ($hd) { + local $_; + open F, "dmesg |"; + while (<F>) { + m|/dev/(rd/.*?): .*?,| and $hd ||= $1, last; + } + close F; + if ($hd) { + my ($c_id, $d_id) = $hd =~ m|rd/c(\d+)d(\d+)|; + -d "/dev/rd" or mkdir "/dev/rd"; + system "mknod", "/dev/$hd", "b", 48+$c_id, 8*$d_id; + foreach (1..7) { + system "mknod", "/dev/${hd}p$_", "b", 48+$c_id, 8*$d_id+$_; + } + $hdp = $hd . 'p'; + } +} +#- examine Compaq Smart Array device. +unless ($hd) { + foreach ('array/ida', 'cpqarray/ida', 'cciss/cciss') { + my $prefix = "/proc/driver/$_"; #- kernel 2.4 places it here + $prefix = "/proc/$_" if !-e "${prefix}0"; #- kernel 2.2 + + my ($name) = m|/(.*)|; + for (my $i = 0; -r ($f = "${prefix}$i"); $i++) { + local $_; + open F, $f; + while (<F>) { + if (m|^\s*($name/.*?):|) { + $hd ||= $1; + } + } + close F; + } + } + if ($hd) { + my ($type, $c_id, $d_id) = $hd =~ m,(ida|cciss)/c(\d+)d(\d+),; + -d "/dev/$type" or mkdir "/dev/$type"; + system "mknod", "/dev/$hd", "b", ($type eq 'ida' ? 72 : 104)+$c_id, 16*$d_id; + foreach (1..15) { + system "mknod", "/dev/${hd}p$_", "b", ($type eq 'ida' ? 72 : 104)+$c_id, 16*$d_id+$_; + } + $hdp = $hd . 'p'; + } +} +$hd && -e "/dev/$hd" or die "unable to access hard disk"; +print "hd: $hd\ncd: $cd\n"; +$hdp ||= $hd; + +#- try to free any reference to hard disk which will be used (as in rescue mode it has already loaded +#- existing partition in /mnt. +open F, "/proc/mounts"; +while (<F>) { + /$hdp(\d*)\s+(\S+)/ and $already_mounted{$2} = "$hdp$1"; +} +foreach (sort { $b cmp $a } keys %already_mounted) { + print "umounting $already_mounted{$_} from $_\n"; + system "umount", $_; +} + +#- find a cdrom (like) image, normally a true cdrom but if nfs install is running, use it instead. +mkdir "/cdrom"; +open F, "/proc/cmdline"; +while (<F>) { + /automatic=method:nfs,.*server:([^\s,]*),.*directory:([^\s,]*)/ + and system "mount", "-r", "-t", "nfs", "$1:$2", "/cdrom", "-o", "nolock"; +} +close F; +unless (-e "/cdrom/VERSION") { + -e "/dev/$cd" or die "unable to access local cdrom"; + system "mount", "-r", "-t", "iso9660", "/dev/$cd", "/cdrom"; +} + +open F, "/cdrom/VERSION" or die "no installation cdrom found on $cd"; +while (<F>) { + /\[boot_entries[=:]([^]]*)\]/ and $options{boot_entries} = $1; + /\[ext2\]/ and $options{fs} = "ext2"; + /\[ext3\]/ and $options{fs} = "ext3"; +} +close F; +foreach (@ARGV) { /^([^=:]*)[=:]?(.*)/ and $options{$1} = $2; /^no([^=:]*)/ and delete $options{$1} } + +foreach (keys %options) { + print "Using option [$_" . ($options{$_} && "=$options{$_}") . "]\n"; +} + +#- filesystem to use. +$fs ||= $options{fs} || "ext3"; +$fs eq "ext3" and system "modprobe", "ext3"; +print "Using filesystem of type $fs\n"; + +#- check for already existing partition table, if none are found +#- create 3 partitions (one for install, one for swap and one for root). +#- if only a fat partition is found, resize it do include the above partition. +#- other combination are really dangerous and are not supported, ask +#- the user that all data on the disk will be erased and go on. +my ($heads, $sectors, $cylinders, $hd_size, @hd_parts); +sub correct_start_end { + my ($rstart, $end, $keep_start) = @_; + my ($cylinder_size, $c_start, $c_end) = ($sectors*$heads*512/1024/1024, undef, undef); + if (abs($cylinder_size*$cylinders-$hd_size)/$hd_size < 0.01) { + $c_start = $$rstart+($keep_start ? 0 : $cylinder_size/$heads); + $c_end = $cylinder_size*int(1/2+$end/$cylinder_size); + $c_end > $hd_size and $c_end = $hd_size; + $$rstart = $c_end; + } else { + $c_start = $$rstart; + $c_end = $end; + $c_end > $hd_size and $c_end = $hd_size; + $$rstart = $c_end+5; #- fall back to use a problable safe method. + } + $c_start >= $c_end and die "no space left for partitionning\n"; + ($c_start, $c_end); +} +open F, "fdisk -l /dev/$hd |"; +while (<F>) { + /(\d+)\s*heads/ and $heads = $1; + /(\d+)\s*sectors/ and $sectors = $1; + /(\d+)\s*cylinders/ and $cylinders = $1; +} +if ($heads == 1 && $cylinders == 1) { + $cylinders = $sectors / 255 / 63; + $heads = 255; + $sectors = 63; +} +close F; +for (1..2) { + open F, "parted /dev/$hd -s print |"; + while (<F>) { + /^Disk geometry [^:]*:\s*([\d\.]+)-([\d\.]+)/ and do { $hd_size = $2 - $1 - 1 }; + #/^Disk label type:\s*msdos/ and do { $hd_type = 'msdos' }; + /^(\d+)\s+([\d\.]+)\s+([\d\.]+)\s+(primary|logical|extended)\s*(\S*)/ and do { + #- this automatically drops extended partition here! + push @hd_parts, { minor => $1, start => $2, end => $3, type => $4, fstype => $5 }; + }; + } + close F; + $hd_size and last; + print "Unable to detect partition on disk, trying with new label\n"; + do { + print " + +I'm going to install the OEM version on your hard drive +[1;31;40m!!ALL DATA WILL BE LOST!![0m + +Type \`\`yes'' and [enter] to go on\n" + } while (($yes = <STDIN>) !~ /^\s*yes\s*$/i); + system "parted", "/dev/$hd", "mklabel", "msdos"; +} +my ($min_size, $def_size, $trigger_size, $inst_size, $swap_size) = (4000, 3500, 4000, 1500, 128); +$hd_size > $min_size or die "hard disk is too small to contain oem install (${hd_size}MB found, need $min_size at least)"; + +my ($fat_pos, $resize_fat_size, $root_size); +if (@hd_parts == 1 && $hd_parts[$fat_pos = 0]{fstype} eq 'FAT' || + @hd_parts == 2 && $hd_parts[0]{type} eq 'primary' && $hd_parts[$fat_pos = 1]{fstype} eq 'FAT' || + @hd_parts == 3 && $hd_parts[0]{type} eq 'primary' && $hd_parts[1]{type} eq 'primary' && $hd_parts[$fat_pos = 2]{fstype} eq 'FAT' || + @hd_parts == 2 && $hd_parts[0]{type} eq 'extended' && $hd_parts[$fat_pos = 1]{fstype} eq 'FAT' || + @hd_parts == 3 && $hd_parts[0]{type} eq 'extended' && $hd_parts[1]{type} eq 'primary' && $hd_parts[$fat_pos = 5]{fstype} eq 'FAT') { + if ($hd_size - $hd_parts[$fat_pos]{end} > $min_size) { + #- check first if there are some available space left on the disk. + #- so we are using it, root_size is fixed to match hard disk size. + $resize_fat_size = 0; + $root_size = $hd_size - $hd_parts[$fat_pos]{end} - $inst_size - $swap_size; + $root_size > $trigger_size and $root_size = $def_size; + } elsif ($hd_size > 2*$min_size) { + #- resize this fat partition. + $resize_fat_size = 0.5 * $hd_size; + $root_size = $hd_size - $resize_fat_size - $inst_size - $swap_size; + $root_size > $trigger_size and $root_size = $def_size; + } +} +unless ($root_size) { + #- there have not been defined above, so remove everything and start from + #- a blank partition. + $resize_fat_size = undef; + $root_size = $hd_size - $resize_fat_size - $inst_size - $swap_size; + $root_size > $trigger_size and $root_size = $def_size; +} + +#- launch parted to edit partition table, start at minor. +#- point define where we start. +my $minor = defined $resize_fat_size && $hd_parts[0]{type} eq 'extended' ? 6 : 5; +my $point = 0.0; + +if (defined $resize_fat_size) { + do { + print " + +[1;31;40m!!An existing Windows partition has been found and will be kept. +Additional Linux partitions will be created!![0m + +Type \`\`yes'' and [enter] to go on\n" + } while (($yes = <STDIN>) !~ /^\s*yes\s*$/i); + #- keep the current partition table, and try to resize the fat partition + #- if the size is not 0. + #- KEEP IN MIND there is only one partition defined. + open F, "| parted -s /dev/$hd"; + if ($resize_fat_size) { + $point = $hd_parts[$fat_pos]{start}; + printf F "resize %d %s %s\n", $hd_parts[$fat_pos]{minor}, correct_start_end(\$point, $point+$resize_fat_size, 'keepstart'); + } else { + $point = $hd_parts[$fat_pos]{end}; + } + $point+=9; #- keep blank space between partitions if parted cannot handle partition table correctly. +} else { + unless (defined $yes) { + do { + print " + +I'm going to install the OEM version on your hard drive +[1;31;40m!!ALL DATA WILL BE LOST!![0m + +Type \`\`yes'' and [enter] to go on\n" + } while (($yes = <STDIN>) !~ /^\s*yes\s*$/i); + } + #- build a new disk label here. + open F, "| parted -s /dev/$hd"; + print F "mklabel msdos\n"; +} + +#- at this point, the partition are created. +my ($instz, $inst, $swap, $root, $var, $home) = ($minor-1, $minor, $minor+1, $minor+2, undef, undef); + +#- all linux partition are stored inside an extended partition, this is easier to manipulate after. +if ($minor == 5) { + print F "mkpart extended $point $hd_size\n"; +} else { + $hd_parts[0]{type} eq 'extended' or die "first partition assumed to be extended"; + $point = $hd_parts[0]{start}; + print F "resize $hd_parts[0]{minor} $point $hd_size\n"; +} +printf F "mkpart logical ext2 %s %s\n", correct_start_end(\$point, $point+$inst_size); +printf F "mkpart logical linux-swap %s %s\n", correct_start_end(\$point, $point+$swap_size); +printf F "mkpart logical %s %s %s\n", $fs, correct_start_end(\$point, $point+$root_size); +if (exists $options{server} && $hd !~ /^rd\//) { + my $var_size = ($hd_size - $point) / 2; + if ($var_size > 1500) { + $var = $root+1; + printf F "mkpart logical %s %s %s\n", $fs, correct_start_end(\$point, $point+$var_size); + } +} +if ($hd_size - $point > 100 && $hd !~ /^rd\//) { + $home = ($var || $root) + 1; + printf F "mkpart logical %s %s %s\n", $fs, correct_start_end(\$point, $hd_size); +} +print F "quit\n"; +close F or die "unable to partition the disk $hd"; + +#- we have to build swap and mount it. +print "Setting swap\n"; +system "mkswap", "/dev/$hdp$swap"; +system "swapon", "/dev/$hdp$swap"; + +#- we have to format using right fs. +print "Formatting /dev/$hdp$inst partition\n"; +mkfs("ext2", "/dev/$hdp$inst"); +print "Formatting /dev/$hdp$root partition\n"; +mkfs($fs, "/dev/$hdp$root"); +if ($var) { + print "Formatting /dev/$hdp$var partition\n"; + mkfs($fs, "/dev/$hdp$var"); +} +if ($home) { + print "Formatting /dev/$hdp$home partition\n"; + mkfs($fs, "/dev/$hdp$home"); +} + +print "Mounting partitions\n"; +mkdir "/hd"; +system "mount", "-t", "ext2", "/dev/$hdp$inst", "/hd"; +mkdir "/mnt"; +system "mount", "-t", $fs, "/dev/$hdp$root", "/mnt"; +if ($var) { + mkdir "/mnt/var"; + system "mount", "-t", $fs, "/dev/$hdp$var", "/mnt/var"; +} +if ($home) { + mkdir "/mnt/home"; + system "mount", "-t", $fs, "/dev/$hdp$home", "/mnt/home"; +} + +print "Copying installation on hard drive\n"; +mkdir "/hd/boot"; +if (-e "/cdrom/oem/vmlinuz" && -e "/cdrom/oem/all.rdz") { + system "cp", "-a", "/cdrom/oem/vmlinuz", "/hd/boot/vmlinuz"; + system "cp", "-a", "/cdrom/oem/all.rdz", "/hd/boot/all.rdz"; +} elsif (-e "/cdrom/boot/vmlinuz" && -e "/cdrom/boot/hd.rdz") { + system "cp", "-a", "/cdrom/boot/vmlinuz", "/hd/boot/vmlinuz"; + system "cp", "-a", "/cdrom/boot/hd.rdz", "/hd/boot/all.rdz"; +} elsif (-e "/cdrom/images/hd.img") { + mkdir "/tmp/hd"; + system "modprobe", "loop"; + system "modprobe", "vfat"; + system "mount", "-t", "vfat", "/cdrom/images/hd.img", "/tmp/hd", "-o", "loop"; + system "cp", "-a", "/tmp/hd/vmlinuz", "/hd/boot/vmlinuz"; + system "cp", "-a", "/tmp/hd/hd.rdz", "/hd/boot/all.rdz"; + system "umount", "/tmp/hd"; +} else { + die "no installation stage1 found"; +} + +mkdir "/hd/Mandrake"; +mkdir "/hd/Mandrake/RPMS"; +system "cp", "-a", "/cdrom/VERSION", "/hd"; +system "cp", "-a", "/cdrom/Mandrake/base", "/cdrom/Mandrake/mdkinst", "/hd/Mandrake"; + +if (open F, ">/hd/Mandrake/oem_patch.pl") { + print "Setting OEM specific extension to DrakX\n"; + if (exists $options{server}) { + print F q{ + use install_steps; + package install_steps; + undef *choosePackages; + *choosePackages = sub { + my ($o, $packages, $compssUsers, $first_time) = @_; + + #- make sure we kept some space left for available else the system may + #- not be able to start (xfs at least). + my $available = install_any::getAvailableSpace($o); + my $availableCorrected = pkgs::invCorrectSize($available / sqr(1024)) * sqr(1024); + + #- avoid destroying user selection of packages but only + #- for expert, as they may have done individual selection before. + install_any::unselectMostPackages($o); + + #- use specific OEM packages selection, go to level 5 + #- and disable some extension. + $o->{compssUsersChoice}{$_} = 0 foreach 'GNOME'; + $o->{compssUsersChoice}{$_} = 0 + foreach map { @{$o->{compssUsers}{$_}{flags}} } 'Workstation|Office Workstation', 'Workstation|Internet station'; + $o->{compssListLevel} = 5; + pkgs::setSelectedFromCompssList($packages, $o->{compssUsersChoice}, $o->{compssListLevel}, $availableCorrected); + + $availableCorrected; + }; + }; + } else { + print F q{ + use install_steps; + package install_steps; + undef *choosePackages; + *choosePackages = sub { + my ($o, $packages, $compssUsers, $first_time) = @_; + + #- make sure we kept some space left for available else the system may + #- not be able to start (xfs at least). + my $available = install_any::getAvailableSpace($o); + my $availableCorrected = pkgs::invCorrectSize($available / sqr(1024)) * sqr(1024); + + #- avoid destroying user selection of packages but only + #- for expert, as they may have done individual selection before. + install_any::unselectMostPackages($o); + + #- use specific OEM packages selection, go to level 4. + #- and select at least GAMES group, everything else has + #- already be selected during master preparation. + $o->{compssListLevel} = 4; + $o->{compssUsersChoice}{GAMES} = 1; + pkgs::setSelectedFromCompssList($packages, $o->{compssUsersChoice}, $o->{compssListLevel}, $availableCorrected); + + $availableCorrected; + }; + }; + } + if ($options{boot_entries}) { + print "Setting OEM specific extension for boot entries\n"; + print F q{ + my $sorted_entries = q(} . $options{boot_entries} . q{); #- insert boot_entries options here as string q(...). + my $old_setupBootloaderBefore = \&setupBootloaderBefore; + undef *setupBootloaderBefore; + *setupBootloaderBefore = sub { + $old_setupBootloaderBefore->(@_); + my @entries = split ',', $sorted_entries; + my @result_entries; + foreach my $p (@entries) { + foreach (@{$_[0]{bootloader}{entries}}) { + $_->{label} eq $p and push @result_entries, $_; + } + } + if (@result_entries) { + $_[0]{bootloader}{entries} = \@result_entries; + $_[0]{bootloader}{default} = $result_entries[0]{label}; #- first image is default. + } + }; + }; + } + close F; +} + +print "Setting bootloader\n"; +mkdir "/hd/boot/grub"; +foreach (1..2) { + -e "/hd/boot/grub/stage$_" or system "cp", "-a", "/boot/grub/stage$_", "/hd/boot/grub"; +} +open F, ">/hd/boot/grub/menu.lst"; +if (defined $resize_fat_size) { + print F "timeout 5\n"; + print F "color black/cyan yellow/cyan\n\n"; + print F "title linux\n"; +} else { + print F "timeout 0\n\n"; + print F "title oem\n"; +} +print F "kernel (hd0,$instz)/boot/vmlinuz ramdisk_size=32000 automatic=method:disk,disk:$hd,partition:$hdp$inst,directory:/ hd vga=788 fbeginner oem defcfg=/tmp/hdimage/Mandrake/oem_patch.pl\n"; +print F "initrd (hd0,$instz)/boot/all.rdz\n"; +#- if a windows partition is available, add an entrie for it. +if (defined $resize_fat_size) { + print F "\ntitle windows\n"; + printf F "rootnoverify (hd0,%s)\n", $hd_parts[$fat_pos]{minor}-1; + print F "makeactive\n"; + print F "chainloader +1\n"; +} +close F; +open F, ">/hd/boot/grub/device.map"; +print F "(hd0) /dev/$hd\n"; +close F; +open F, "| grub --device-map=/hd/boot/grub/device.map --batch"; +print F "install (hd0,$instz)/boot/grub/stage1 d (hd0) (hd0,$instz)/boot/grub/stage2 p (hd0,$instz)/boot/grub/menu.lst\n"; +print F "quit\n"; +close F or die "error while executing grub"; + +my $packages = read_depslist("/cdrom/Mandrake/base/depslist.ordered"); + +my @media; +open F, "/cdrom/Mandrake/base/hdlists"; +foreach (<F>) { + chomp; + s/\s*#.*$//; + /^\s*$/ and next; + m/^\s*(hdlist\S*\.cz2?)\s+(\S+)\s*(.*)$/ or die "invalid hdlist description \"$_\" in hdlists file"; + + push @media, { hdlist => $1, rpmsdir => $2, descr => $3 }; +} +close F; + +#- initialize installation. +foreach (qw(/etc /etc/sysconfig /etc/rpm /var /var/lib /var/lib/rpm /var/log /proc)) { + mkdir "/mnt/$_"; +} +system "mount", "-t", "proc", "proc", "/mnt/proc"; +open F, ">/mnt/etc/fstab"; +print F "/dev/$hdp$root / $fs defaults 1 1\n"; +if ($var) { + print F "/dev/$hdp$var /var $fs defaults 1 2\n"; +} +if ($home) { + print F "/dev/$hdp$home /home $fs defaults 1 2\n"; +} +close F; + +#- keep in mind all the rpm files available (according to hdlists). +my (%files, %rpms); + +require packdrake; +foreach my $medium (@media) { + my $packer = new packdrake("/cdrom/Mandrake/base/$medium->{hdlist}"); + foreach (@{$packer->{files}}) { + $packer->{data}{$_}[0] eq 'f' or next; + my ($fullname, $file) = /([^:]*):(.*)/ ? ($1, "$2.rpm") : ($_, "$_.rpm"); + $files{$fullname} = $file; + $rpms{$file} = $medium->{rpmsdir}; + } +} + +#- copy and install from each cd image. +foreach my $medium (@media) { + while ($cd && ! -d "/cdrom/$medium->{rpmsdir}") { + system "unmount", "/dev/$cd"; + system "eject", "/dev/$cd"; + print "Please insert the cdrom labeled \"$medium->{descr}\"\n and press [enter] when done\n"; + $yes = <STDIN>; + system "mount", "-r", "-t", "iso9660", "/dev/$cd", "/cdrom"; + } + + print "Copying packages from medium labeled \"$medium->{descr}\" to hard disk\n"; + system "mkdir", "-p", "/hd/$medium->{rpmsdir}"; + foreach my $pkg (@{$packages->{depslist}}) { + $files{rpm_fullname($pkg)} or next; + my $file = "/cdrom/$medium->{rpmsdir}/" . $files{rpm_fullname($pkg)}; + if (-e $file) { + print " copying " . rpm_fullname($pkg) . "\n"; + system "cp", "-a", $file, "/hd/$medium->{rpmsdir}"; + } + } +} + +#- try to figure out if a oem-message-graphic already exists. +#- if this is the case, rename it to /mnt/boot/message-graphic +if (-e "/cdrom/Mandrake/base/oem-message-graphic") { + print "Using specific oem graphic image\n"; + if (-e "/mnt/boot/message-graphic") { + rename "/mnt/boot/message-graphic", "/mnt/boot/message-graphic.old"; + system "cp", "-a", "/cdrom/Mandrake/base/oem-message-graphic", "/mnt/boot/message-graphic"; + } elsif (-e "/mnt/boot/lilo-graphic/message") { + rename "/mnt/boot/lilo-graphic/message", "/mnt/boot/lilo-graphic/message.old"; + system "cp", "-a", "/cdrom/Mandrake/base/oem-message-graphic", "/mnt/boot/lilo-graphic/message"; + } +} + +#- clean all initrd image which may have been built. +system "rm -f /mnt/boot/initrd*"; + +system "umount", "/mnt/proc"; +$home and system "umount", "/mnt/home"; +$var and system "umount", "/mnt/var"; +system "umount", "/mnt"; +system "umount", "/hd"; +system "umount", "/cdrom"; + +$cd and system "eject", "/dev/$cd"; + +print " +Done. OEM hard drive ready! +The hard drive is now ready for a customer. +System is now halted.\n\n"; + +system "halt"; + +#- gives way to format partition (simpler approach) +sub mkfs { + my ($fs, $dev) = @_; + for ($fs) { + /ext2/ and do { system "mkfs.ext2", $dev; + next }; + /ext3/ and do { system "mkfs.ext2", "-j", $dev; + system "tune2fs", "-c0", "-i0", $dev; + next }; + die "unknown fs: $_\n"; + } +} + +sub chop_version { + ($_[0] =~ /^([^:\s]*)-[^:\-\s]+-[^:\-\s]+\.[^:\.\-\s]*(?::\S*)?/)[0] || die "unable to parse $_[0]"; +} +sub rpm_fullname { + ($_[0]{name} =~ /^([^:\s]*-[^:\-\s]+-[^:\-\s]+\.[^:\.\-\s]*)(?::\S*)?/)[0] || die "unable to parse $_[0]"; +} + +sub read_depslist { + my ($file) = @_; + my $packages = { depslist => [], names => {} }; + + #- read depslist.oredered file. + my $id = 0; + + open F, "$file" or die "unable to open ordered dependencies list file"; + while (<F>) { + my ($name, $size, @deps) = split; + push @{$packages->{depslist}}, { id => $id++, name => $name, size => $size, deps => \@deps }; + } + close F; + + foreach (@{$packages->{depslist}}) { + $packages->{names}{chop_version($_->{name})} = $_; + } + + print "read " . scalar(@{$packages->{depslist}}) . " package dependancies\n"; + $packages; +} + |