perl-install/detect_devices.pm


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package detect_devices;

use diagnostics;
use strict;

use log;
use common qw(:common :file);
use c;


my $scsiDeviceAvailable;
my $CSADeviceAvailable;

1;

sub get {
    # Detect the default BIOS boot harddrive is kind of tricky. We may have IDE,
    # SCSI and RAID devices on the same machine. From what I see so far, the default
    # BIOS boot harddrive will be
    # 1. The first IDE device if IDE exists. Or 
    # 2. The first SCSI device if SCSI exists. Or
    # 3. The first RAID device if RAID exists.

    map { &{$_->[0]}() ? &{$_->[1]}() : () }
    [ \&hasIDE, \&getIDE ],
    [ \&hasSCSI, \&getSCSI ],
    [ \&hasDAC960, \&getDAC960 ],
    [ \&hasCompaqSmartArray, \&getCompaqSmartArray ];
}
sub hds() { grep { $_->{type} eq 'hd' } get(); }
sub cdroms() { grep { $_->{type} eq 'cdrom' } get(); }

sub hasSCSI() {
    defined $scsiDeviceAvailable and return $scsiDeviceAvailable;
    local *F;
    open F, "/proc/scsi/scsi" or log::l("failed to open /proc/scsi/scsi: $!"), return 0;
    foreach (<F>) {
	/devices: none/ and log::l("no scsi devices are available"), return $scsiDeviceAvailable = 0;
    }
    log::l("scsi devices are available");
    $scsiDeviceAvailable = 1;
}
sub hasIDE() { -e "/proc/ide" }
sub hasDAC960() { 1 }

sub hasCompaqSmartArray() {
    defined $CSADeviceAvailable and return $CSADeviceAvailable;
    -r "/proc/array/ida0" or log::l("failed to open /proc/array/ida0: $!"), return $CSADeviceAvailable = 0;
    log::l("Compaq Smart Array controllers available");
    $CSADeviceAvailable = 1;
}

sub getSCSI() {
    my @drives;
    my ($driveNum, $cdromNum, $tapeNum) = qw(0 0 0);
    my $err = sub { chop; die "unexpected line in /proc/scsi/scsi: $_"; };
    local $_;

    local *F;
    open F, "/proc/scsi/scsi" or die "failed to open /proc/scsi/scsi";
    local $_ = <F>; /^Attached devices:/ or return &$err();
    while ($_ = <F>) {
	my ($id) = /^Host:.*?Id: (\d+)/ or return &$err();
	$_ = <F>; my ($vendor, $model) = /^\s*Vendor:\s*(.*?)\s+Model:\s*(.*?)\s+Rev:/ or return &$err();
	$_ = <F>; my ($type) = /^\s*Type:\s*(.*)/ or &$err();
	my $device;
	if ($type =~ /Direct-Access/) {
	    $type = 'hd';
	    $device = "sd" . chr($driveNum++ + ord('a'));
	} elsif ($type =~ /Sequential-Access/) {
	    $type = 'tape';
	    $device = "st" . $tapeNum++;
	} elsif ($type =~ /CD-ROM/) {
	    $type = 'cdrom';
	    $device = "scd" . $cdromNum++;
	}
	$device and push @drives, { device => $device, type => $type, info => "$vendor $model", id => $id, bus => 0 };
    }
    @drives;
}

sub getIDE() {
    my @idi;

    # Great. 2.2 kernel, things are much easier and less error prone. 
    foreach my $d (glob_('/proc/ide/hd*')) {
	my ($t) = chop_(cat_("$d/media"));
	my $type = $ {{disk => 'hd', cdrom => 'cdrom', tape => 'tape', floppy => 'fd'}}{$t} or next;
	my ($info) = chop_(cat_("$d/model")); $info ||= "(none)";

	my $num = ord (($d =~ /(.)$/)[0]) - ord 'a';
	push @idi, { type => $type, device => basename($d), info => $info, bus => $num/2, id => $num%2 };
    }
    @idi;
}


sub getCompaqSmartArray() {
    my @idi;
    my $f;

    for (my $i = 0; -r ($f = "/proc/array/ida$i"); $i++) {
	local *F;
	open F, $f or die;
	local $_ = <F>;
	my ($name) = m|ida/(.*?):| or next;
	push @idi, { device => $name, info => "Compaq RAID logical disk", type => 'hd' };
    }
    @idi;
}

sub getDAC960() {
    my @idi;
    my $file = "/var/log/dmesg";
    -r $file or $file = "/tmp/syslog";

    local *F;
    open F, $file or die "Failed to open $file: $!";

    # We are looking for lines of this format:DAC960#0:
    # /dev/rd/c0d0: RAID-7, Online, 17928192 blocks, Write Thru0123456790123456789012    
    foreach (<F>) {
	my ($devicename, $info) = m|/dev/rd/(.*?): (.*?),| or next;
	push @idi, { info => $info, type => 'hd', devicename => $devicename }; 
	log::l("DAC960: $devicename: $info");
    }
    @idi;
}


sub getNet() { 
    grep { hasNetDevice($_) } qw(eth0 tr0 plip0 plip1 plip2 fddi0);
}
sub getPlip() {
    foreach (0..2) {
	hasNetDevice("plip$_") and log::l("plip$_ will be used for PLIP"), return "plip$_";
    }
    undef;
}

sub hasNet() { goto &getNet }
sub hasPlip() { goto &getPlip }
sub hasEthernet() { hasNetDevice("eth0"); }
sub hasTokenRing() { hasNetDevice("tr0"); }
sub hasNetDevice($) { c::hasNetDevice($_[0]) }
package install_steps; # $Id$

use diagnostics;
use strict;
use vars qw(@filesToSaveForUpgrade @filesNewerToUseAfterUpgrade @ISA);

#-######################################################################################
#- misc imports
#-######################################################################################
use common;
use install_any qw(:all);
use partition_table qw(:types);
use detect_devices;
use modules;
use run_program;
use lang;
use keyboard;
use fsedit;
use loopback;
use pkgs;
use any;
use log;
use fs;

@filesToSaveForUpgrade = qw(
/etc/ld.so.conf /etc/fstab /etc/hosts /etc/conf.modules /etc/modules.conf
);

@filesNewerToUseAfterUpgrade = qw(
/etc/profile
);

#-######################################################################################
#- OO Stuff
#-######################################################################################
sub new($$) {
    my ($type, $o) = @_;

    bless $o, ref $type || $type;
    return $o;
}

#-######################################################################################
#- In/Out Steps Functions
#-######################################################################################
sub enteringStep {
    my ($_o, $step) = @_;
    log::l("starting step `$step'");
}
sub leavingStep {
    my ($o, $step) = @_;
    log::l("step `$step' finished");

    if (-d "$o->{prefix}/root/drakx") {
	eval { cp_af("/tmp/ddebug.log", "$o->{prefix}/root/drakx") };
	output(install_any::auto_inst_file(), install_any::g_auto_install(1));
    }

    for (my $s = $o->{steps}{first}; $s; $s = $o->{steps}{$s}{next}) {
	#- the reachability property must be recomputed each time to take
	#- into account failed step.
	next if $o->{steps}{$s}{done} && !$o->{steps}{$s}{redoable};

	my $reachable = 1;
	if (my $needs = $o->{steps}{$s}{needs}) {
	    my @l = ref $needs ? @$needs : $needs;
	    $reachable = min(map { $o->{steps}{$_}{done} || 0 } @l);
	}
	$o->{steps}{$s}{reachable} = 1 if $reachable;
    }
    $o->{steps}{$step}{reachable} = $o->{steps}{$step}{redoable};

    while (my $f = shift @{$o->{steps}{$step}{toBeDone} || []}) {
	eval { &$f() };
	$o->ask_warn(N("Error"), [
N("An error occurred, but I don't know how to handle it nicely.
Continue at your own risk."), $@ ]) if $@;
    }
}

sub errorInStep($$) { print "error :(\n"; c::_exit(1) }
sub kill_action {}
sub set_help { 1 }

#-######################################################################################
#- Steps Functions
#-######################################################################################
#------------------------------------------------------------------------------
sub selectLanguage {
    my ($o) = @_;
    lang::set($o->{lang}, !$o->isa('interactive::gtk'));
    $o->{langs} ||= { $o->{lang} => 1 };

    log::l("selectLanguage: pack_langs ", lang::pack_langs($o->{langs}));

    #- for auto_install compatibility with old $o->{keyboard} containing directly $o->{keyboard}{KEYBOARD}
    $o->{keyboard} = { KEYBOARD => $o->{keyboard} } if $o->{keyboard} && !ref($o->{keyboard});

    if (!$o->{keyboard} || $o->{keyboard}{unsafe}) {
	$o->{keyboard} = keyboard::from_usb() || keyboard::lang2keyboard($o->{lang});
	$o->{keyboard}{unsafe} = 1;
	keyboard::setup($o->{keyboard}) if !$::live;
    }

    addToBeDone {
	lang::write_langs($o->{prefix}, $o->{langs});
    } 'formatPartitions' unless $::g_auto_install;
    addToBeDone {
	lang::write($o->{prefix}, $o->{lang});
    } 'installPackages' unless $::g_auto_install;
}
#------------------------------------------------------------------------------
sub selectKeyboard {
    my ($o) = @_;
    $o->{keyboard}{KBCHARSET} = lang::lang2charset($o->{lang});
    keyboard::setup($o->{keyboard});

    addToBeDone {
	keyboard::write($o->{keyboard});
    } 'installPackages' if !$::g_auto_install && (!$o->{isUpgrade} || !$o->{keyboard}{unsafe});
}
#------------------------------------------------------------------------------
sub acceptLicence {}

#------------------------------------------------------------------------------
sub setupSCSI {
    my ($o) = @_;
    modules::configure_pcmcia($o->{pcmcia}) if $o->{pcmcia};
    modules::load_ide();
    modules::load_category('bus/firewire');
    modules::load_category('disk/scsi|hardware_raid');

    install_any::getHds($o, $o);
}

#------------------------------------------------------------------------------
sub selectInstallClass {
    my ($o) = @_;

    if ($o->{partitioning}{use_existing_root} || $o->{isUpgrade}) {
	# either one root is defined (and all is ok), or we take the first one we find
	my $p = fsedit::get_root_($o->{fstab}) || first(install_any::find_root_parts($o->{fstab}, $o->{prefix})) or die;
	install_any::use_root_part($o->{all_hds}, $p, $o->{prefix});
    } 
}

#------------------------------------------------------------------------------
sub doPartitionDisksBefore {
    my ($o) = @_;
    eval { 
	eval { fs::umount("$o->{prefix}/proc") };
	eval {          fs::umount_all($o->{fstab}, $o->{prefix}) };
	eval { sleep 1; fs::umount_all($o->{fstab}, $o->{prefix}) } if $@; #- HACK
    } if $o->{fstab} && !$::testing && !$::live;
}

#------------------------------------------------------------------------------
sub doPartitionDisksAfter {
    my ($o) = @_;

    if (!$::testing) {
	my $hds = $o->{all_hds}{hds};
	partition_table::write($_) foreach @$hds;
	$_->{rebootNeeded} and $o->rebootNeeded foreach @$hds;
    }

    fs::set_removable_mntpoints($o->{all_hds});
    fs::set_all_default_options($o->{all_hds}, $o->{useSupermount}, $o->{security}, lang::fs_options($o->{lang}))
	if !$o->{isUpgrade};

    $o->{fstab} = [ fsedit::get_all_fstab($o->{all_hds}) ];
    fsedit::get_root_($o->{fstab}) or die "Oops, no root partition";

    if (arch() =~ /ppc/ && detect_devices::get_mac_generation() =~ /NewWorld/) {
	die "Need bootstrap partition to boot system!" if !(defined $partition_table::mac::bootstrap_part);
    }
    
    if (arch() =~ /ia64/ && !fsedit::has_mntpoint("/boot/efi", $o->{all_hds})) {
	die N("You must have a FAT partition mounted in /boot/efi");
    }

    if ($o->{partitioning}{use_existing_root}) {
	#- ensure those partitions are mounted so that they are not proposed in choosePartitionsToFormat
	fs::mount_part($_, $o->{prefix}) foreach sort { $a->{mntpoint} cmp $b->{mntpoint} }
						 grep { $_->{mntpoint} && maybeFormatted($_) } @{$o->{fstab}};
    }

    cat_("/proc/mounts") =~ m|(\S+)\s+/tmp/image nfs| &&
      !any { $_->{mntpoint} eq "/mnt/nfs" } @{$o->{all_hds}{nfss}} and
	push @{$o->{all_hds}{nfss}}, { type => 'nfs', mntpoint => "/mnt/nfs", device => $1, options => "noauto,ro,nosuid,soft,rsize=8192,wsize=8192" };
}

#------------------------------------------------------------------------------
sub doPartitionDisks {
    my ($o) = @_;

    if ($o->{partitioning}{auto_allocate}) {
	fsedit::auto_allocate($o->{all_hds}, $o->{partitions});
    }
}

#------------------------------------------------------------------------------

sub ask_mntpoint_s {
    my ($_o, $fstab) = @_;

    #- TODO: set the mntpoints

    my %m; foreach (@$fstab) {
	my $m = $_->{mntpoint};

	next if !$m || $m eq 'swap'; #- there may be a lot of swap.

	$m{$m} and die N("Duplicate mount point %s", $m);
	$m{$m} = 1;

	#- in case the type does not correspond, force it to ext3
	$_->{type} = 0x483 if $m =~ m|^/| && !isTrueFS($_) && !isOtherAvailableFS($_);
    }
    1;
}


sub rebootNeeded($) {
    my ($_o) = @_;
    log::l("Rebooting...");
    c::_exit(0);
}

sub choosePartitionsToFormat($$) {
    my ($_o, $fstab) = @_;

    foreach (@$fstab) {
	$_->{mntpoint} = "swap" if isSwap($_);
	$_->{mntpoint} or next;
	
	add2hash_($_, { toFormat => $_->{notFormatted} });
        $_->{toFormatUnsure} = member($_->{mntpoint}, '/', '/usr');

	if (!$_->{toFormat}) {
	    my $t = fsedit::typeOfPart($_->{device});
	    $_->{toFormatUnsure} ||=
	      #- if detected dos/win, it's not precise enough to just compare the types (too many of them)
	      (!$t || isOtherAvailableFS({ type => $t }) ? !isOtherAvailableFS($_) : $t != $_->{type});
	}
    }
}

sub formatMountPartitions {
    my ($o) = @_;
    fs::formatMount_all($o->{all_hds}{raids}, $o->{fstab}, $o->{prefix});
}

#------------------------------------------------------------------------------
sub setPackages {
    my ($o, $rebuild_needed) = @_;

    install_any::setPackages($o, $rebuild_needed);
    pkgs::selectPackagesAlreadyInstalled($o->{packages}, $o->{prefix});
    $rebuild_needed and pkgs::selectPackagesToUpgrade($o->{packages}, $o->{prefix});
}

sub choosePackages {
    my ($o, $packages, $_compssUsers, $first_time) = @_;

    #- now for upgrade, package that must be upgraded are
    #- selected first, after is used the same scheme as install.

    #- 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);
    log::l(sprintf "available size %s (corrected %s)", formatXiB($available), formatXiB($availableCorrected));

    add2hash_($o, { compssListLevel => 5 }) if !$::auto_install;

    #- avoid destroying user selection of packages but only
    #- for expert, as they may have done individual selection before.
    if ($first_time || !$::expert) {
	exists $o->{compssListLevel}
	  and pkgs::setSelectedFromCompssList($packages, $o->{compssUsersChoice}, $o->{compssListLevel}, $availableCorrected);
    }
    $availableCorrected;
}

sub beforeInstallPackages {
    my ($o) = @_;

    #- save these files in case of upgrade failure.
    if ($o->{isUpgrade}) {
	foreach (@filesToSaveForUpgrade) {
	    unlink "$o->{prefix}/$_.mdkgisave";
	    if (-e "$o->{prefix}/$_") {
		eval { cp_af("$o->{prefix}/$_", "$o->{prefix}/$_.mdkgisave") };
	    }
	}
	foreach (@filesNewerToUseAfterUpgrade) {
	    unlink "$o->{prefix}/$_.rpmnew";
	}
    }

    #- some packages need such files for proper installation.
    install_any::write_fstab($o);

    require network;
    network::add2hosts("$o->{prefix}/etc/hosts", "localhost.localdomain", "127.0.0.1");

    log::l("setting excludedocs to $o->{excludedocs}");
    substInFile { s/%_excludedocs.*//; $_ .= "%_excludedocs yes\n" if eof && $o->{excludedocs} } "$o->{prefix}/etc/rpm/macros";

    #- add oem lilo theme and background if the files exists.
    mkdir "$o->{prefix}$_" foreach qw(/boot /usr /usr/share /usr/share/mdk);
    install_any::getAndSaveFile("Mandrake/base/oem-message-graphic", "$o->{prefix}/boot/oem-message-graphic");
    install_any::getAndSaveFile("Mandrake/base/oem-background.png", "$o->{prefix}/usr/share/mdk/oem-background.png");
}

sub pkg_install {
    my ($o, @l) = @_;
    log::l("selecting packages");
    require pkgs;
    if ($::testing) {
	log::l("selecting package \"$_\"") foreach @l;
    } else {
	$o->{packages}{rpmdb} ||= pkgs::rpmDbOpen($o->{prefix});
	pkgs::selectPackage($o->{packages}, pkgs::packageByName($o->{packages}, $_) || die "$_ rpm not found") foreach @l;
    }
    my @toInstall = pkgs::packagesToInstall($o->{packages});
    if (@toInstall) {
	log::l("installing packages");
	$o->installPackages;
    } else {
	log::l("all packages selected are already installed, nothing to do")
    }
}

sub pkg_install_if_requires_satisfied {
    my ($o, @l) = @_;
    require pkgs;
    $o->{packages}{rpmdb} ||= pkgs::rpmDbOpen($o->{prefix});
    foreach (@l) {
	my %newSelection;
	my $pkg = pkgs::packageByName($o->{packages}, $_) || die "$_ rpm not found";
	pkgs::selectPackage($o->{packages}, $pkg, 0, \%newSelection);