package install_any; # $Id$ use diagnostics; use strict; use vars qw(@ISA %EXPORT_TAGS @EXPORT_OK @needToCopy @needToCopyIfRequiresSatisfied $boot_medium); @ISA = qw(Exporter); %EXPORT_TAGS = ( all => [ qw(getNextStep spawnShell addToBeDone) ], ); @EXPORT_OK = map { @$_ } values %EXPORT_TAGS; #-###################################################################################### #- misc imports #-###################################################################################### use common qw(:common :system :functional :file); use run_program; use partition_table qw(:types); use partition_table_raw; use devices; use fsedit; use modules; use detect_devices; use lang; use any; use log; use fs; #- package that have to be copied for proper installation (just to avoid changing cdrom) #- here XFree86 is copied entirey if not already installed, maybe better to copy only server. @needToCopy = qw( XFree86-8514 XFree86-AGX XFree86-Mach32 XFree86-Mach64 XFree86-Mach8 XFree86-Mono XFree86-P9000 XFree86-S3 XFree86-S3V XFree86-SVGA XFree86-W32 XFree86-I128 XFree86-Sun XFree86-SunMono XFree86-Sun24 XFree86-3DLabs XFree86-FBDev XFree86-server XFree86 XFree86-glide-module Device3Dfx Glide_V3-DRI Glide_V5 Mesa dhcpcd pump dhcpxd dhcp-client isdn4net isdn4k-utils dev pptp-adsl-fr rp-pppoe ppp ypbind rhs-printfilters lpr cups cups-drivers samba ncpfs ghostscript-utils ); #- package that have to be copied only if all their requires are satisfied. @needToCopyIfRequiresSatisfied = qw( xpp kups kisdn ); #- boot medium (the first medium to take into account). $boot_medium = 1; #-###################################################################################### #- Media change variables&functions #-###################################################################################### my $postinstall_rpms = ''; my $current_medium = $boot_medium; my $asked_medium = $boot_medium; my $cdrom = undef; sub useMedium($) { #- before ejecting the first CD, there are some files to copy! #- does nothing if the function has already been called. $_[0] > 1 and $::o->{method} eq 'cdrom' and setup_postinstall_rpms($::o->{prefix}, $::o->{packages}); $asked_medium eq $_[0] or log::l("selecting new medium '$_[0]'"); $asked_medium = $_[0]; } sub changeMedium($$) { my ($method, $medium) = @_; log::l("change to medium $medium for method $method (refused by default)"); 0; } sub relGetFile($) { local $_ = $_[0]; m|\.rpm$| ? "$::o->{packages}{mediums}{$asked_medium}{rpmsdir}/$_" : $_; } sub askChangeMedium($$) { my ($method, $medium) = @_; my $allow; do { eval { $allow = changeMedium($method, $medium) }; } while ($@); #- really it is not allowed to die in changeMedium!!! or install will cores with rpmlib!!! $allow; } sub errorOpeningFile($) { my ($file) = @_; $file eq 'XXX' and return; #- special case to force closing file after rpmlib transaction. $current_medium eq $asked_medium and log::l("errorOpeningFile $file"), return; #- nothing to do in such case. $::o->{packages}{mediums}{$asked_medium}{selected} or return; #- not selected means no need for worying about. my $max = 32; #- always refuse after $max tries. if ($::o->{method} eq "cdrom") { cat_("/proc/mounts") =~ m|(/tmp/\S+)\s+/tmp/rhimage| and $cdrom = $1; return unless $cdrom; ejectCdrom($cdrom); while ($max > 0 && askChangeMedium($::o->{method}, $asked_medium)) { $current_medium = $asked_medium; eval { fs::mount($cdrom, "/tmp/rhimage", "iso9660", 'readonly') }; my $getFile = getFile($file); $getFile and return $getFile; $current_medium = 'unknown'; #- don't know what CD is inserted now. ejectCdrom($cdrom); --$max; } } else { while ($max > 0 && askChangeMedium($::o->{method}, $asked_medium)) { $current_medium = $asked_medium; my $getFile = getFile($file); $getFile and return $getFile; $current_medium = 'unknown'; #- don't know what CD image has been copied. --$max; } } #- keep in mind the asked medium has been refused on this way. #- this means it is no more selected. $::o->{packages}{mediums}{$asked_medium}{selected} = undef; #- on cancel, we can expect the current medium to be undefined too, #- this enable remounting if selecting a package back. $current_medium = 'unknown'; return; } sub getFile { my ($f, $method) = @_; my $rel = relGetFile($f); do { if ($method =~ /crypto/i) { require crypto; crypto::getFile($f); } elsif ($::o->{method} eq "ftp") { require ftp; ftp::getFile($rel); } elsif ($::o->{method} eq "http") { require http; http::getFile($rel); } else { #- try to open the file, but examine if it is present in the repository, this allow #- handling changing a media when some of the file on the first CD has been copied #- to other to avoid media change... my $f2 = "$postinstall_rpms/$f"; $f2 = "/tmp/rhimage/$rel" unless $postinstall_rpms && -e $f2; open GETFILE, $f2 and *GETFILE; } } || errorOpeningFile($f); } sub getAndSaveFile { my ($file, $local) = @_; local *F; open F, ">$local" or return; local $/ = \ (16 * 1024); my $f = ref($file) ? $file : getFile($file) or return; local $_; while (<$f>) { syswrite F, $_ } 1; } #-###################################################################################### #- Post installation RPMS from cdrom only, functions #-###################################################################################### sub setup_postinstall_rpms($$) { my ($prefix, $packages) = @_; $postinstall_rpms and return; $postinstall_rpms = "$prefix/usr/postinstall-rpm"; require pkgs; require commands; log::l("postinstall rpms directory set to $postinstall_rpms"); clean_postinstall_rpms(); #- make sure in case of previous upgrade problem. commands::mkdir_('-p', $postinstall_rpms); #- compute closure of unselected package that may be copied, #- don't complain if package does not exists as it may happen #- for the various architecture taken into account (X servers). my %toCopy; foreach (@needToCopy) { my $pkg = pkgs::packageByName($packages, $_); pkgs::selectPackage($packages, $pkg, 0, \%toCopy) if $pkg; } @toCopy{@needToCopyIfRequiresSatisfied} = (); my @toCopy = map { pkgs::packageByName($packages, $_) } keys %toCopy; #- extract headers of package, this is necessary for getting #- the complete filename of each package. #- copy the package files in the postinstall RPMS directory. #- last arg is default medium '' known as the CD#1. pkgs::extractHeaders($prefix, \@toCopy, $packages->{mediums}{1}); commands::cp((map { "/tmp/rhimage/" . relGetFile(pkgs::packageFile($_)) } @toCopy), $postinstall_rpms); } sub clean_postinstall_rpms() { require commands; $postinstall_rpms and -d $postinstall_rpms and commands::rm('-rf', $postinstall_rpms); } #-###################################################################################### #- Functions #-###################################################################################### sub kernelVersion { my ($o) = @_; local $_ = readlink("$::o->{prefix}/boot/vmlinuz") and return first(/vmlinuz-(.*)/); require pkgs; my $p = pkgs::packageByName($o->{packages}, "kernel") or die "I couldn't find the kernel package!"; pkgs::packageVersion($p) . "-" . pkgs::packageRelease($p); } sub getNextStep { my ($s) = $::o->{steps}{first}; $s = $::o->{steps}{$s}{next} while $::o->{steps}{$s}{done} || !$::o->{steps}{$s}{reachable}; $s; } sub spawnShell { return if $::o->{localInstall} || $::testing; -x "/bin/sh" or die "cannot open shell - /usr/bin/sh doesn't exist"; fork and return; $ENV{DISPLAY} ||= ":0"; #- why not :pp local *F; sysopen F, "/dev/tty2", 2 or die "cannot open /dev/tty2 -- no shell will be provided"; open STDIN, "<&F" or die ''; open STDOUT, ">&F" or die ''; open STDERR, ">&F" or die ''; close F; c::setsid(); ioctl(STDIN, c::TIOCSCTTY(), 0) or warn "could not set new controlling tty: $!"; exec {"/bin/sh"} "-/bin/sh" or log::l("exec of /bin/sh failed: $!"); } sub fsck_option { my ($o) = @_; my $y = $o->{security} < 3 && $::beginner ? "-y " : ""; substInFile { s/^(\s*fsckoptions="?)(-y )?/$1$y/ } "$o->{prefix}/etc/rc.d/rc.sysinit"; } sub getAvailableSpace { my ($o) = @_; #- 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); my $n = !$::testing && getAvailableSpace_mounted($o->{prefix}) || getAvailableSpace_raw($o->{fstab}) * 512 / 1.07; $n - max(0.1 * $n, $minAvailableSize); } sub getAvailableSpace_mounted { my ($prefix) = @_; my $dir = -d "$prefix/usr" ? "$prefix/usr" : "$prefix"; my (undef, $free) = common::df($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 $nb << 11; } die "missing root partition"; } sub setPackages { my ($o) = @_; require pkgs; if (!$o->{packages} || is_empty_hash_ref($o->{packages}{names})) { $o->{packages} = pkgs::psUsingHdlists($o->{prefix}, $o->{method}); push @{$o->{default_packages}}, "nfs-utils-clients" if $o->{method} eq "nfs"; push @{$o->{default_packages}}, "numlock" if $o->{miscellaneous}{numlock}; push @{$o->{default_packages}}, "kernel-secure" if $o->{security} > 3; push @{$o->{default_packages}}, "kernel-smp" if $o->{security} <= 3 && detect_devices::hasSMP(); #- no need for kernel-smp if we have kernel-secure which is smp push @{$o->{default_packages}}, "kernel-pcmcia-cs" if $o->{pcmcia}; push @{$o->{default_packages}}, "raidtools" if $o->{raid} && !is_empty_array_ref($o->{raid}{raid}); push @{$o->{default_packages}}, "reiserfs-utils" if grep { isReiserfs($_) } @{$o->{fstab}}; push @{$o->{default_packages}}, "alsa", "alsa-utils" if modules::get_alias("snd-slot-0") =~ /^snd-card-/; pkgs::getDeps($o->{prefix}, $o->{packages}); pkgs::selectPackage($o->{packages}, pkgs::packageByName($o->{packages}, 'basesystem') || die("missing basesystem package"), 1); # #- some program that may be crazy on some conditions (hack waiting for Aurora to work if no fb). # $o->{allowFB} && (!detect_devices::matching_desc('Rage LT') && # !detect_devices::matching_desc('SiS') && # !detect_devices::matching_desc('Rage Mobility')) # or push @pkgs::skip_list (*deprecated*), 'Aurora'; #- must be done after selecting base packages (to save memory) pkgs::getProvides($o->{packages}); $o->{compss} = pkgs::readCompss($o->{prefix}, $o->{packages}); #- must be done after getProvides pkgs::read_rpmsrate($o->{packages}, getFile("Mandrake/base/rpmsrate")); ($o->{compssUsers}, $o->{compssUsersSorted}, $o->{compssUsersIcons}, $o->{compssUsersDescr}) = pkgs::readCompssUsers($o->{packages}, $o->{meta_class}); $o->{compssUsersChoice}{SYSTEM} = 1; $o->{compssUsersChoice}{$_} = 1 foreach map { @{$o->{compssUsers}{$_}} } @{$o->{compssUsersSorted}}; foreach (@{lang::unpack_lang_codes(lang::pack_langs($o->{langs}))}) { push @{$o->{default_packages}}, pkgs::packageByName($o->{packages}, "locales-$_") || next; $o->{compssUsersChoice}{qq(LOCALES"$_")} = 1; } # if (detect_devices::matching_desc('Matrox.* G[24]00') || # detect_devices::matching_desc('Riva.*128') || # detect_devices::matching_desc('Rage X[CL]') || # detect_devices::matching_desc('Rage Mobility (?:P\/M|L) ') || # detect_devices::matching_desc('3D Rage (?:LT|Pro)') || # detect_devices::matching_desc('Voodoo [35]') || # detect_devices::matching_desc('Voodoo Banshee') || # detect_devices::matching_desc('8281[05].* CGC') || # detect_devices::matching_desc('Radeon ') || # detect_devices::matching_desc('Rage 128')) { # } #- for the first time, select package to upgrade. #- TOCHECK this may not be the best place for that as package are selected at some other point. $o->selectPackagesToUpgrade if $o->{isUpgrade}; } else { #- this has to be done to make sure necessary files for urpmi are #- present. pkgs::psUpdateHdlistsDeps($o->{prefix}, $o->{method}); #- remove upgrade flag with selection one. TOCHECK #pkgs::unselectAllPackagesIncludingUpgradable($o->{packages}); } } sub addToBeDone(&$) { my ($f, $step) = @_; return &$f() if $::o->{steps}{$step}{done}; push @{$::o->{steps}{$step}{toBeDone}}, $f; } sub setAuthentication { my ($o) = @_; my ($shadow, $md5, $nis) = @{$o->{authentication} || {}}{qw(shadow md5 NIS)}; my $p = $o->{prefix}; any::enableMD5Shadow($p, $shadow, $md5); any::enableShadow($p) if $shadow; if ($nis) { $o->pkg_install("ypbind"); my $domain = $o->{netc}{NISDOMAIN}; $domain || $nis ne "broadcast" or die _("Can't use broadcast with no NIS domain"); my $t = $domain ? "domain $domain" . ($nis ne "broadcast" && " server") : "ypserver"; substInFile { $_ = "#~$_" unless /^#/; $_ .= "$t $nis\n" if eof; } "$p/etc/yp.conf"; require network; network::write_conf("$p/etc/sysconfig/network", $o->{netc}); } } sub killCardServices { my $pid = chop_(cat_("/tmp/cardmgr.pid")); $pid and kill(15, $pid); #- send SIGTERM } sub hdInstallPath() { cat_("/proc/mounts") =~ m|/\w+/(\S+)\s+/tmp/hdimage| or return; my ($part) = grep { $_->{device} eq $1 } @{$::o->{fstab}}; $part->{mntpoint} or grep { $_->{mntpoint} eq "/mnt/hd" } @{$::o->{fstab}} and return; $part->{mntpoint} ||= "/mnt/hd"; $part->{mntpoint} . first(readlink("/tmp/rhimage") =~ m|^/tmp/hdimage/(.*)|); } sub unlockCdrom(;$) { my ($cdrom) = @_; $cdrom or cat_("/proc/mounts") =~ m|(/tmp/\S+)\s+/tmp/rhimage| and $cdrom = $1; $cdrom or cat_("/proc/mounts") =~ m|(/dev/\S+)\s+/mnt/cdrom | and $cdrom = $1; eval { $cdrom and ioctl detect_devices::tryOpen($1), c::CDROM_LOCKDOOR(), 0 }; } sub ejectCdrom(;$) { my ($cdrom) = @_; $cdrom or cat_("/proc/mounts") =~ m|(/tmp/\S+)\s+/tmp/rhimage| and $cdrom = $1; $cdrom or cat_("/proc/mounts") =~ m|(/dev/\S+)\s+/mnt/cdrom | and $cdrom = $1; my $f = eval { $cdrom && detect_devices::tryOpen($cdrom) } or return; getFile("XXX"); #- close still opened filehandle eval { fs::umount("/tmp/rhimage") }; ioctl $f, c::CDROMEJECT(), 1; } sub setupFB { my ($o, $vga) = @_; $vga ||= 785; #- assume at least 640x480x16. require bootloader; #- update bootloader entries with vga, all kernel are now framebuffer. foreach (qw(vmlinuz vmlinuz-secure vmlinuz-smp vmlinuz-hack)) { if (my $e = bootloader::get("/boot/$_", $o->{bootloader})) { $e->{vga} = $vga; } } bootloader::install($o->{prefix}, $o->{bootloader}, $o->{fstab}, $o->{hds}); 1; } sub install_urpmi { my ($prefix, $method, $mediums) = @_; my @cfg = map_index { my $name = $_->{fakemedium}; local *LIST; open LIST, ">$prefix/var/lib/urpmi/list.$name" or log::l("failed to write list.$name"), return; my $dir = ${{ nfs => "file://mnt/nfs", hd => "file:/" . hdInstallPath(), ftp => $ENV{URLPREFIX}, http => $ENV{URLPREFIX}, cdrom => "removable_cdrom_$::i://mnt/cdrom" }}{$method} . "/$_->{rpmsdir}"; local *FILES; open FILES, "packdrake -c /tmp/$_->{hdlist} | parsehdlist - |"; chop, print LIST "$dir/$_\n" foreach ; close FILES or log::l("parsehdlist failed"), return; close LIST; $dir .= " with ../base/$_->{hdlist}" if $method =~ /ftp|http/; "$name $dir\n"; } values %$mediums; eval { output "$prefix/etc/urpmi/urpmi.cfg", @cfg }; } #-############################################################################### #- kde stuff #-############################################################################### sub kderc_largedisplay { my ($prefix) = @_; update_userkderc($_, 'KDE', Contrast => 7, kfmIconStyle => "Large", kpanelIconStyle => "Normal", #- to change to Large when icons looks better KDEIconStyle => "Large") foreach list_skels($prefix, '.kderc'); substInFile { s/^(GridWidth)=85/$1=100/; s/^(GridHeight)=70/$1=75/; } $_ foreach list_skels($prefix, '.kde/share/config/kfmrc'); } sub kdeicons_postinstall { my ($prefix) = @_; #- parse etc/fstab file to search for dos/win, floppy, zip, cdroms icons. #- handle both supermount and fsdev usage. my %l = ( 'cdrom' => [ 'cdrom', 'Cd-Rom' ], 'zip' => [ 'zip', 'Zip' ], 'floppy-ls' => [ 'floppy', 'LS-120' ], 'floppy' => [ 'floppy', 'Floppy' ], ); foreach (fs::read_fstab("$prefix/etc/fstab")) { my ($name_, $nb) = $_->{mntpoint} =~ m|.*/(\S+?)(\d*)$/|; my ($name, $text) = @{$l{$name_} || []}; my $f = ${{ supermount => sub { $name .= '.fsdev' if $name }, vfat => sub { $name = 'Dos_'; $text = $name_ }, }}{$_->{type}}; &$f if $f; template2userfile($prefix, "$ENV{SHARE_PATH}/$name.kdelnk.in", "Desktop/$text" . ($nb && " $nb"). ".kdelnk", 1, %$_) if $name; } # rename the .kdelnk to the name found in the .kdelnk as kde doesn't use it # for displaying foreach my $dir (grep { -d $_ } list_skels($prefix, 'Desktop')) { foreach (grep { /\.kdelnk$/ } all($dir)) { cat_("$dir/$_") =~ /^Name\[\Q$ENV{LANG}\E\]=(.{2,14})$/m and rename "$dir/$_", "$dir/$1.kdelnk"; } } } sub kdemove_desktop_file { my ($prefix) = @_; my @toMove = qw(doc.kdelnk news.kdelnk updates.kdelnk home.kdelnk printer.kdelnk floppy.kdelnk cdrom.kdelnk FLOPPY.kdelnk CDROM.kdelnk); #- remove any existing save in Trash of each user and #- move appropriate file there after an upgrade. foreach my $dir (grep { -d $_ } list_skels($prefix, 'Desktop')) { unlink("$dir/Trash/$_") && rename("$dir/$_", "$dir/Trash/$_") foreach grep { -e "$dir/$_" } @toMove, grep { /\.rpmorig$/ } all($dir) } } #-############################################################################### #- auto_install stuff #-############################################################################### sub auto_inst_file() { ($::g_auto_install ? "/tmp" : "$::o->{prefix}/root") . "/auto_inst.cfg.pl" } sub g_auto_install(;$) { my ($f) = @_; $f ||= auto_inst_file; my $o = {}; require pkgs; $o->{default_packages} = [ map { pkgs::packageName($_) } grep { pkgs::packageFlagSelected($_) && !pkgs::packageFlagBase($_) } values %{$::o->{packages}{names}} ]; my @fields = qw(mntpoint type size); $o->{partitions} = [ map { my %l; @l{@fields} = @$_{@fields}; \%l } grep { $_->{mntpoint} } @{$::o->{fstab}} ]; exists $::o->{$_} and $o->{$_} = $::o->{$_} foreach qw(lang autoSCSI authentication printer mouse wacom netc timezone superuser intf keyboard mkbootdisk users installClass partitioning isUpgrade manualFstab nomouseprobe crypto security netcnx useSupermount autoExitInstall); #- TODO modules bootloader if (my $card = $::o->{X}{card}) { $o->{X}{$_} = $::o->{X}{$_} foreach qw(default_depth resolution_wanted); if ($o->{X}{default_depth} and my $depth = $card->{depth}{$o->{X}{default_depth}}) { $depth ||= []; $o->{X}{resolution_wanted} ||= join "x", @{$depth->[0]} unless is_empty_array_ref($depth->[0]); $o->{X}{monitor} = $::o->{X}{monitor} if $::o->{X}{monitor}{manual}; } } local $o->{partitioning}{auto_allocate} = 1; local $o->{autoExitInstall} = 1; $_ = { %{$_ || {}} }, delete @$_{qw(oldu oldg password password2)} foreach $o->{superuser}, @{$o->{users} || []}; output($f, "# You should always check the syntax with 'perl -cw auto_inst.cfg.pl' before testing\n", Data::Dumper->Dump([$o], ['$o']), "\0"); } sub loadO { my ($O, $f) = @_; $f ||= auto_inst_file; my $o; if ($f =~ /^(floppy|patch)$/) { my $f = $f eq "floppy" ? 'auto_inst.cfg' : "patch"; unless ($::testing) { fs::mount(devices::make(detect_devices::floppy()), "/mnt", (arch() =~ /sparc/ ? "romfs" : "vfat"), 'readonly'); $f = "/mnt/$f"; } -e $f or $f .= '.pl'; my $b = before_leaving { fs::umount("/mnt") unless $::testing; modules::unload($_) foreach qw(vfat fat); }; $o = loadO($O, $f); } else { -e "$f.pl" and $f .= ".pl" unless -e $f; my $fh = -e $f ? do { local *F; open F, $f; *F } : getFile($f) or die _("Error reading file $f"); { local $/ = "\0"; no strict; eval <$fh>; close $fh; $@ and log::l("Bad kickstart file $f (failed $@)"); } add2hash_($o ||= {}, $O); } bless $o, ref $O; } sub generate_ks_cfg { my ($o) = @_; return if $o->{method} =~ /hd|cdrom/; my $ks; if ($o->{method} =~ /ftp|http/) { $ks .= "url --url $ENV{URLPREFIX}\n"; } elsif ($o->{method} =~ /nfs/) { cat_("/proc/mounts") =~ m|(\S+):(\S+)\s+/tmp/rhimage nfs| or die; $ks .= "nfs --server $1 --dir $2\n"; } my ($intf) = values %{$o->{intf}}; if ($intf->{BOOTPROTO} =~ /^(dhcp|bootp)$/) { $ks .= "network --bootproto $intf->{BOOTPROTO}\n"; } else { require network; my %l = (ip => $intf->{IPADDR}, netmask => $intf->{NETMASK}, gateway => $o->{netc}{GATEWAY}); $ks .= "network " . join(" ", map_each { $::b && "--$::a $::b" } %l); $ks .= " --nameserver $_" foreach network::dnsServers($o->{netc}); $ks .= "\n"; } $ks; } sub guess_mount_point { my ($part, $prefix, $user) = @_; my %l = ( '/' => 'etc/fstab', '/boot' => 'vmlinuz', '/tmp' => '.X11-unix', '/usr' => 'X11R6', '/var' => 'catman', ); my $handle = any::inspect($part, $prefix) or return; my $d = $handle->{dir}; my ($mnt) = grep { -e "$d/$l{$_}" } keys %l; $mnt ||= (stat("$d/.bashrc"))[4] ? '/root' : '/home/user' . ++$$user if -e "$d/.bashrc"; $mnt ||= (grep { -d $_ && (stat($_))[4] >= 500 && -e "$_/.bashrc" } glob_("$d")) ? '/home' : ''; ($mnt, $handle); } sub suggest_mount_points { my ($hds, $prefix, $uniq) = @_; my @fstab = fsedit::get_fstab(@$hds); my $user; foreach my $part (grep { isTrueFS($_) } @fstab) { $part->{mntpoint} && !$part->{unsafeMntpoint} and next; #- if already found via an fstab my ($mnt, $handle) = guess_mount_point($part, $prefix, \$user) or next; next if $uniq && fsedit::mntpoint2part($mnt, \@fstab); $part->{mntpoint} = $mnt; delete $part->{unsafeMntpoint}; #- try to find other mount points via fstab fs::get_mntpoints_from_fstab([ fsedit::get_fstab(@$hds) ], $handle->{dir}, $uniq) if $mnt eq '/'; } $_->{mntpoint} and log::l("suggest_mount_points: $_->{device} -> $_->{mntpoint}") foreach @fstab; } #- mainly for finding the root partitions for upgrade sub find_root_parts { my ($hds, $prefix) = @_; log::l("find_root_parts"); my $user; grep { my ($mnt) = guess_mount_point($_, $prefix, \$user); $mnt eq '/'; } fsedit::get_fstab(@$hds); } sub use_root_part { my ($fstab, $part, $prefix) = @_; { my $handle = any::inspect($part, $prefix) or die; fs::get_mntpoints_from_fstab($fstab, $handle->{dir}, 'uniq'); } map { $_->{mntpoint} = 'swap' } grep { isSwap($_) } @$fstab; #- use all available swap. } sub getHds { my ($o, $f_err) = @_; my $ok = 1; my $flags = $o->{partitioning}; my @drives = detect_devices::hds(); # add2hash_($o->{partitioning}, { readonly => 1 }) if partition_table_raw::typeOfMBR($drives[0]{device}) eq 'system_commander'; getHds: $o->{hds} = catch_cdie { fsedit::hds(\@drives, $flags) } sub { $ok = 0; my $err = $@; $err =~ s/ at (.*?)$//; log::l("error reading partition table: $err"); !$flags->{readonly} && $f_err and $f_err->($err); }; if (is_empty_array_ref($o->{hds}) && $o->{autoSCSI}) { $o->setupSCSI; #- ask for an unautodetected scsi card goto getHds; } $ok = fsedit::verifyHds($o->{hds}, $flags->{readonly}, $ok) unless $flags->{clearall} || $flags->{clear}; $o->{fstab} = [ fsedit::get_fstab(@{$o->{hds}}) ]; fs::check_mounted($o->{fstab}); fs::merge_fstabs($o->{fstab}, $o->{manualFstab}); my @win = grep { isFat($_) && isFat({ type => fsedit::typeOfPart($_->{device}) }) } @{$o->{fstab}}; log::l("win parts: ", join ",", map { $_->{device} } @win) if @win; if (@win == 1) { $win[0]{mntpoint} = "/mnt/windows"; } else { my %w; foreach (@win) { my $v = $w{$_->{device_windobe}}++; $_->{mntpoint} = $_->{unsafeMntpoint} = "/mnt/win_" . lc($_->{device_windobe}) . ($v ? $v+1 : ''); #- lc cuz of StartOffice(!) cf dadou } } my @sunos = grep { isSunOS($_) && type2name($_->{type}) =~ /root/i } @{$o->{fstab}}; #- take only into account root partitions. if (@sunos) { my $v = ''; map { $_->{mntpoint} = $_->{unsafeMntpoint} = "/mnt/sunos" . ($v && ++$v) } @sunos; } #- a good job is to mount SunOS root partition, and to use mount point described here in /etc/vfstab. $ok; } sub log_sizes { my ($o) = @_; my @df = common::df($o->{prefix}); log::l(sprintf "Installed: %dMB(df), %dMB(rpm)", ($df[0] - $df[1]) / 1024, sum(`rpm --root $o->{prefix}/ -qa --queryformat "%{size}\n"`) / sqr(1024)) if -x "$o->{prefix}/bin/rpm"; } 1;