#!/usr/bin/perl # $o->{hints}->{component} *was* 'Workstation' or 'Server' or NULL use diagnostics; use strict; use vars qw($testing $INSTALL_VERSION $o); use lib qw(/usr/bin/perl-install . c c/blib/arch); use common qw(:common :file :system); use install_any qw(:all); use log; use net; use keyboard; use fs; use fsedit; use install_steps; use install_methods; use modules; use partition_table qw(:types); use detect_devices; $testing = $ENV{PERL_INSTALL_TEST}; $INSTALL_VERSION = 0; my @installStepsFields = qw(text skipOnCancel skipOnLocal prev next); my @installSteps = ( selectInstallClass => [ "Select installation class", 0, 0 ], setupSCSI => [ "Setup SCSI", 0, 1 ], partitionDisks => [ "Setup filesystems", 0, 1 ], findInstallFiles => [ "Find installation files", 1, 0 ], choosePackages => [ "Choose packages to install", 0, 0 ], doInstallStep => [ "Install system", 0, 0 ], # configureMouse => [ "Configure mouse", 0, 0 ], finishNetworking => [ "Configure networking", 0, 0 ], # configureTimezone => [ "Configure timezone", 0, 0 ], # configureServices => [ "Configure services", 0, 0 ], # configurePrinter => [ "Configure printer", 0, 0 ], setRootPassword => [ "Set root password", 0, 0 ], addUser => [ "Add a user", 0, 0 ], createBootdisk => [ "Create bootdisk", 0, 1 ], setupBootloader => [ "Install bootloader", 0, 1 ], # configureX => [ "Configure X", 0, 0 ], exitInstall => [ "Exit install", 0, 0, undef, 'done' ], ); # this table is translated at run time my @upgradeSteps = ( setupSCSI => [ "Setup SCSI", 0, 0 ], upgrFindInstall => [ "Find current installation", 0, 0 ], findInstallFiles => [ "Find installation files", 1, 0 ], upgrChoosePackages => [ "Choose packages to upgrade", 0, 0 ], doInstallStep => [ "Upgrade system", 0, 0 ], createBootdisk => [ "Create bootdisk", 0, 0 , 'none' ], setupBootloader => [ "Install bootloader", 0, 0 ], exitInstall => [ "Exit install", 0, 0 , undef, 'done' ], ); my (%installSteps, %upgradeSteps); for (my $i = 0; $i < @installSteps; $i += 2) { my %h; @h{@installStepsFields} = @{ $installSteps[$i + 1] }; $h{prev} ||= $installSteps[$i - 2]; $h{next} ||= $installSteps[$i + 2]; $installSteps{ $installSteps[$i] } = \%h; } $installSteps{first} = $installSteps[0]; for (my $i = 0; $i < @upgradeSteps; $i += 2) { my %h; @h{@installStepsFields} = @{ $upgradeSteps[$i + 1] }; $h{prev} ||= $upgradeSteps[$i - 2]; $h{next} ||= $upgradeSteps[$i + 2]; $upgradeSteps{ $upgradeSteps[$i] } = \%h; } $upgradeSteps{first} = $upgradeSteps[0]; # partition layout for a server my @serverPartitioning = ( { mntpoint => "/boot", size => 16 << 11, type => 0x83 }, { mntpoint => "/", size => 256 << 11, type => 0x83 }, { mntpoint => "/usr", size => 512 << 11, type => 0x83, growable => 1 }, { mntpoint => "/var", size => 256 << 11, type => 0x83 }, { mntpoint => "/home", size => 512 << 11, type => 0x83, growable => 1 }, { mntpoint => "swap", size => 64 << 11, type => 0x82 } ); my $default = { display => "129.104.42.9:0", user => { name => 'foo', password => 'foo', shell => '/bin/bash', realname => 'really, it is foo' }, rootPassword => 'toto', lang => 'us', isUpgrade => 0, installClass => 'Server', bootloader => { onmbr => 0, linear => 0 }, mkbootdisk => 0, comps => [ qw() ], packages => [ qw() ], partitionning => { clearall => 1, eraseBadPartitions => 1, autoformat => 1 }, partitions => [ { mntpoint => "/boot", size => 16 << 11, type => 0x83 }, { mntpoint => "/", size => 300 << 11, type => 0x83 }, { mntpoint => "swap", size => 64 << 11, type => 0x82 }, # { mntpoint => "/usr", size => 400 << 11, type => 0x83, growable => 1 }, ], }; $o = { default => $default }; sub selectPath { $o->{isUpgrade} = $o->selectInstallOrUpgrade; $o->{steps} = $o->{isUpgrade} ? \%upgradeSteps : \%installSteps; } sub selectInstallClass { $o->{installClass} = $o->selectInstallClass; if ($o->{installClass} eq 'Server') { #TODO } } sub setupSCSI { $o->{direction} < 0 && detect_devices::hasSCSI() and return; # If we have any scsi adapters configured from earlier, then don't bother asking again while (my ($k, $v) = each %modules::loaded) { $v->{type} eq 'scsi' and return; } # $o->setupSCSIInterfaces(0, \%modules::loaded, $o->{hints}->{flags}->{autoscsi}, $o->{direction}); } sub partitionDisks { $o->{drives} = [ detect_devices::hds() ]; $o->{hds} = fsedit::hds($o->{drives}, $o->{default}->{partitionning}); @{$o->{hds}} > 0 or die "An error has occurred - no valid devices were found on which to create new filesystems. Please check your hardware for the cause of this problem"; unless ($o->{isUpgrade}) { $o->doPartitionDisks($o->{hds}); unless ($testing) { # Write partitions to disk foreach (@{$o->{hds}}) { partition_table::write($_); } } } $o->{fstab} = [ fsedit::get_fstab(@{$o->{hds}}) ]; my $root_fs; map { $_->{mntpoint} eq '/' and $root_fs = $_ } @{$o->{fstab}}; $root_fs or die "partitionning failed: no root filesystem"; $testing and return; if ($o->{default}->{partitionning}->{autoformat}) { log::l("formatting all filesystems"); foreach (@{$o->{fstab}}) { fs::format_part($_) if $_->{mntpoint} && isExt2($_) || isSwap($_); } } fs::mount_all($o->{fstab}, $o->{prefix}); } sub findInstallFiles { $o->{packages} = $o->{method}->getPackageSet; $o->{comps} = $o->{method}->getComponentSet($o->{packages}); } sub choosePackages { $o->choosePackages($o->{packages}, $o->{comps}); } sub doInstallStep { $testing and return 0; $o->beforeInstallPackages; $o->installPackages($o->{packages}); $o->afterInstallPackages; } sub configureMouse { $o->mouseConfig } sub finishNetworking { $o->finishNetworking } sub configureTimezone { $o->timeConfig } sub configureServices { $o->servicesConfig } sub setRootPassword { $o->setRootPassword } sub addUser { $o->addUser } sub createBootdisk { $testing and return; $o->{isUpgrade} or fs::write($o->{prefix}, $o->{fstab}); modules::write_conf("$o->{prefix}/etc/conf.modules", 'append'); $o->createBootdisk; } sub setupBootloader { $o->{isUpgrade} or modules::read_conf("$o->{prefix}/etc/conf.modules"); $o->setupBootloader; } sub configureX { $o->setupXfree; } sub exitInstall { $o->exitInstall } sub main { $SIG{__DIE__} = sub { chomp $_[0]; log::l("ERROR: $_[0]") }; # if this fails, it's okay -- it might help with free space though unlink "/sbin/install"; print STDERR "in second stage install\n"; log::openLog(($testing || $o->{localInstall}) && 'debug.log'); log::l("second stage install running (version $INSTALL_VERSION)"); log::ld("extra log messages are enabled"); spawnSync(); eval { spawnShell() }; $o->{prefix} = "/mnt"; $o->{method} = install_methods->new('cdrom'); $o = install_steps->new($o); $o->{lang} = $o->chooseLanguage; $o->{netc} = net::readNetConfig("/tmp"); if (my ($file) = glob_('/tmp/ifcfg-*')) { log::l("found network config file $file"); $o->{intf} = net::readNetInterfaceConfig($file); } log::l("reading /usr/lib/rpm/rpmrc"); c::rpmReadConfigFiles() or die "can't read rpm config files"; log::l("\tdone"); modules::load_deps("/modules/modules.dep"); modules::read_conf("/tmp/conf.modules"); # make sure we don't pick up any gunk from the outside world $ENV{PATH} = "/usr/bin:/bin:/sbin:/usr/sbin:/mnt/sbin:/mnt/bin:/mnt/usr/sbin:/mnt/usr/bin"; $ENV{LD_LIBRARY_PATH} = ""; $o->{keyboard} = eval { keyboard::read("/tmp/keyboard") } || $default->{keyboard}; selectPath(); for (my $step = $o->{steps}->{first}; $step ne 'done'; $step = getNextStep($step)) { log::l("entering step $step"); &{$main::{$step}}() and $o->{steps}->{completed} = 1; log::l("step $step finished"); } killCardServices(); log::l("installation complete, leaving"); unless $testing; } sub killCardServices { my $pid = cat_("/tmp/cardmgr.pid"); $pid and kill(15, chop_($pid)); # send SIGTERM } main(@ARGV);