# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html package xCAT_plugin::sles; BEGIN { $::XCATROOT = $ENV{'XCATROOT'} ? $ENV{'XCATROOT'} : '/opt/xcat'; } use lib "$::XCATROOT/lib/perl"; use Storable qw(dclone); use Sys::Syslog; use File::Temp qw/tempdir/; use xCAT::Table; use xCAT::Utils; use xCAT::TableUtils; use xCAT::NetworkUtils; use xCAT::SvrUtils; use xCAT::MsgUtils; use Data::Dumper; use Getopt::Long; Getopt::Long::Configure("bundling"); Getopt::Long::Configure("pass_through"); use File::Path; use File::Copy; use File::Temp qw/mkdtemp/; my $httpmethod = "http"; my $httpport = "80"; my $useflowcontrol="0"; use File::Find; use File::Basename; use Digest::MD5 qw(md5_hex); use Socket; use strict; my @cpiopid; sub handled_commands { return { copycd => "sles", mknetboot => "nodetype:os=(sles.*)|(suse.*)", mkinstall => "nodetype:os=(sles.*)|(suse.*)", mkstatelite => "nodetype:os=(sles.*)", mksysclone => "nodetype:os=(sles.*)|(suse.*)" }; } sub mknetboot { my $req = shift; my $callback = shift; my $doreq = shift; my $statelite = 0; if($req->{command}->[0] =~ 'mkstatelite') { $statelite = "true"; } my $globaltftpdir = "/tftpboot"; my $nodes = @{$req->{node}}; my @nodes = @{$req->{node}}; my $noupdateinitrd = $req->{'noupdateinitrd'}; my $ignorekernelchk = $req->{'ignorekernelchk'}; my $ostab = xCAT::Table->new('nodetype'); #my $sitetab = xCAT::Table->new('site'); my $linuximagetab; my $pkgdir; my $osimagetab; my $installroot; $installroot = "/install"; my $xcatdport = "3001"; my $xcatiport = "3002"; my $nodestatus = "y"; #if ($sitetab) #{ #(my $ref) = $sitetab->getAttribs({key => 'installdir'}, 'value'); my @entries = xCAT::TableUtils->get_site_attribute("installdir"); my $t_entry = $entries[0]; if ( defined($t_entry) ) { $installroot = $t_entry; } #($ref) = $sitetab->getAttribs({key => 'xcatdport'}, 'value'); @entries = xCAT::TableUtils->get_site_attribute("xcatdport"); $t_entry = $entries[0]; if ( defined($t_entry) ) { $xcatdport = $t_entry; } @entries = xCAT::TableUtils->get_site_attribute("xcatiport"); $t_entry = $entries[0]; if ( defined($t_entry) ) { $xcatiport = $t_entry; } @entries = xCAT::TableUtils->get_site_attribute("nodestatus"); $t_entry = $entries[0]; if ( defined($t_entry) ) { $nodestatus = $t_entry; } #} my $ntents = $ostab->getNodesAttribs($req->{node}, ['os', 'arch', 'profile', 'provmethod']); my %img_hash=(); my $statetab; my $stateHash; if ($statelite) { $statetab = xCAT::Table->new('statelite', -create=>1); $stateHash = $statetab->getNodesAttribs(\@nodes, ['statemnt']); } # TODO: following the redhat change, get the necessary attributes before the next foreach # get the mac addresses for all the nodes my $mactab = xCAT::Table->new('mac'); my $machash = $mactab->getNodesAttribs(\@nodes, ['interface', 'mac']); my $restab = xCAT::Table->new('noderes'); my $reshash = $restab->getNodesAttribs(\@nodes, ['primarynic', 'tftpserver', 'tftpdir', 'xcatmaster', 'nfsserver', 'nfsdir', 'installnic']); my %donetftp=(); # Warning message for nodeset install/netboot/statelite foreach my $knode (keys %{$ntents}) { my $ent = $ntents->{$knode}->[0]; if ($ent && $ent->{provmethod} && (($ent->{provmethod} eq 'install') || ($ent->{provmethod} eq 'netboot') || ($ent->{provmethod} eq 'statelite'))) { my @ents = xCAT::TableUtils->get_site_attribute("disablenodesetwarning"); my $site_ent = $ents[0]; if (!defined($site_ent) || ($site_ent =~ /no/i) || ($site_ent =~ /0/)) { $callback->( { warning => ["The options \"install\", \"netboot\", and \"statelite\" have been deprecated. They should continue to work in this release, but have not been tested as carefully, and some new functions are not available with these options. For full function and support, use \"nodeset osimage=\" instead."], } ); # Do not print this warning message multiple times last; } } } foreach my $node (@nodes) { my $osver; my $arch; my $profile; my $provmethod; my $rootimgdir; my $nodebootif; # nodebootif will be used if noderes.installnic is not set my $dump; #for kdump my $crashkernelsize; my $rootfstype; my $cfgpart; my $imagename; # set it if running of 'nodeset osimage=xxx' my $ent= $ntents->{$node}->[0]; if ($ent and $ent->{provmethod} and ($ent->{provmethod} ne 'install') and ($ent->{provmethod} ne 'netboot') and ($ent->{provmethod} ne 'statelite')) { $imagename=$ent->{provmethod}; if (!exists($img_hash{$imagename})) { if (!$osimagetab) { $osimagetab=xCAT::Table->new('osimage', -create=>1); } (my $ref) = $osimagetab->getAttribs({imagename => $imagename}, 'osvers', 'osarch', 'profile', 'rootfstype', 'provmethod'); if ($ref) { $img_hash{$imagename}->{osver}=$ref->{'osvers'}; $img_hash{$imagename}->{osarch}=$ref->{'osarch'}; $img_hash{$imagename}->{profile}=$ref->{'profile'}; $img_hash{$imagename}->{rootfstype}=$ref->{'rootfstype'}; $img_hash{$imagename}->{provmethod}=$ref->{'provmethod'}; if (!$linuximagetab) { $linuximagetab=xCAT::Table->new('linuximage', -create=>1); } (my $ref1) = $linuximagetab->getAttribs({imagename => $imagename}, 'rootimgdir', 'nodebootif', 'dump', 'crashkernelsize', 'partitionfile'); if (($ref1) && ($ref1->{'rootimgdir'})) { $img_hash{$imagename}->{rootimgdir}=$ref1->{'rootimgdir'}; } if (($ref1) && ($ref1->{'nodebootif'})) { $img_hash{$imagename}->{nodebootif} = $ref1->{'nodebootif'}; } if (($ref1) && ($ref1->{'dump'})){ $img_hash{$imagename}->{dump} = $ref1->{'dump'}; } if (($ref1) && ($ref1->{'crashkernelsize'})) { $img_hash{$imagename}->{crashkernelsize} = $ref1->{'crashkernelsize'}; } if ($ref1 && $ref1->{'partitionfile'}) { # check the validity of the partition configuration file if ($ref1->{'partitionfile'} =~ /^s:(.*)/) { # the configuration file is a script if (-r $1) { $img_hash{$imagename}->{'cfgpart'} = "yes"; } } else { if (open (FILE, "<$ref1->{'partitionfile'}")) { while () { if (/enable=yes/) { $img_hash{$imagename}->{'cfgpart'} = "yes"; last; } } } close (FILE); } $img_hash{$imagename}->{'partfile'} = $ref1->{'partitionfile'}; } } else { $callback->( {error => ["The os image $imagename does not exists on the osimage table for $node"], errorcode => [1]}); next; } } my $ph=$img_hash{$imagename}; $osver = $ph->{osver}; $arch = $ph->{osarch}; $profile = $ph->{profile}; $rootfstype = $ph->{rootfstype}; $nodebootif = $ph->{nodebootif}; $provmethod = $ph->{provmethod}; $dump = $ph->{dump}; $crashkernelsize = $ph->{crashkernelsize}; $cfgpart = $ph->{'cfgpart'}; $rootimgdir = $ph->{rootimgdir}; unless ($rootimgdir) { $rootimgdir = "$installroot/netboot/$osver/$arch/$profile"; } }else { $osver = $ent->{os}; $arch = $ent->{arch}; $profile = $ent->{profile}; $rootfstype = "nfs"; # TODO: try to get it from the option or table my $imgname; if ($statelite) { $imgname = "$osver-$arch-statelite-$profile"; } else { $imgname = "$osver-$arch-netboot-$profile"; } if (! $osimagetab) { $osimagetab = xCAT::Table->new('osimage'); } if ($osimagetab) { my ($ref1) = $osimagetab->getAttribs({imagename => $imgname}, 'rootfstype'); if (($ref1) && ($ref1->{'rootfstype'})) { $rootfstype = $ref1->{'rootfstype'}; } } else { $callback->( { error => [ qq{Cannot find the linux image called "$osver-$arch-$provmethod-$profile", maybe you need to use the "nodeset osimage=" command to set the boot state} ], errorcode => [1]} ); } #get the dump path and kernel crash memory side for kdump on sles if (!$linuximagetab){ $linuximagetab = xCAT::Table->new('linuximage'); } if ($linuximagetab){ (my $ref1) = $linuximagetab->getAttribs({imagename => $imgname}, 'dump', 'crashkernelsize', 'partitionfile'); if ($ref1 && $ref1->{'dump'}){ $dump = $ref1->{'dump'}; } if ($ref1 and $ref1->{'crashkernelsize'}){ $crashkernelsize = $ref1->{'crashkernelsize'}; } if($ref1 and $ref1->{'partitionfile'}) { # check the validity of the partition configuration file if ($ref1->{'partitionfile'} =~ /^s:(.*)/) { # the configuration file is a script if (-r $1) { $cfgpart = "yes"; } } else { if (-r $ref1->{'partitionfile'} && open (FILE, "<$ref1->{'partitionfile'}")) { while () { if (/enable=yes/) { $cfgpart = "yes"; last; } } } close (FILE); } } } else{ $callback->( { error => [qq{ Cannot find the linux image called "$osver-$arch-$imgname-$profile", maybe you need to use the "nodeset osimage=" command to set the boot state}], errorcode => [1] } ); } $rootimgdir="$installroot/netboot/$osver/$arch/$profile"; } unless ($osver and $arch and $profile) { $callback->( { error => ["Insufficient nodetype entry or osimage entry for $node"], errorcode => [1] } ); next; } #print"osvr=$osver, arch=$arch, profile=$profile, imgdir=$rootimgdir\n"; my $platform; if ($osver =~ /sles.*/) { $platform = "sles"; # TODO: should get the $pkgdir value from the linuximage table $pkgdir = "$installroot/$osver/$arch"; }elsif($osver =~ /suse.*/){ $platform = "sles"; } my $suffix = 'gz'; if (-r "$rootimgdir/rootimg.sfs") { $suffix = 'sfs'; } if ($statelite) { unless ( -r "$rootimgdir/kernel") { $callback->({ error=>[qq{Did you run "genimage" before running "liteimg"? kernel cannot be found}], errorcode => [1] }); next; } if ( $rootfstype eq "ramdisk" and ! -r "$rootimgdir/rootimg-statelite.gz" ) { $callback->({ error=>[qq{No packed rootimage for the platform $osver, arch $arch and profile $profile, please run liteimg to create it}], errorcode=>[1] }); next; } if (!-r "$rootimgdir/initrd-statelite.gz") { if (! -r "$rootimgdir/initrd.gz") { $callback->({ error=>[qq{Did you run "genimage" before running "liteimg"? initrd.gz or initrd-statelite.gz cannot be found}], errorcode=>[1] }); next; } else { copy("$rootimgdir/initrd.gz", "$rootimgdir/initrd-statelite.gz"); } } } else { unless ( -r "$rootimgdir/kernel") { $callback->({ error=>[qq{Did you run "genimage" before running "packimage"? kernel cannot be found}], errorcode=>[1] }); next; } if (!-r "$rootimgdir/initrd-stateless.gz") { if (! -r "$rootimgdir/initrd.gz") { $callback->({ error=>[qq{Did you run "genimage" before running "packimage"? initrd.gz or initrd-stateless.gz cannot be found}], errorcode=>[1] }); next; } else { copy("$rootimgdir/initrd.gz", "$rootimgdir/initrd-stateless.gz"); } } unless ( -r "$rootimgdir/rootimg.gz" or -r "$rootimgdir/rootimg.sfs" ) { $callback->({ error=>[qq{No packed image for platform $osver, architecture $arch, and profile $profile, please run packimage before nodeset}], errorcode=>[1] }); next; } } my $tftpdir; if ($reshash->{$node}->[0] and $reshash->{$node}->[0]->{tftpdir}) { $tftpdir = $reshash->{$node}->[0]->{tftpdir}; } else { $tftpdir = $globaltftpdir; } # Copy the boot resource to /tftpboot and check to only copy once my $docopy = 0; my $tftppath; my $rtftppath; # the relative tftp path without /tftpboot/ if ($imagename) { $tftppath = "$tftpdir/xcat/osimage/$imagename"; $rtftppath = "xcat/osimage/$imagename"; unless ($donetftp{$imagename}) { $docopy = 1; $donetftp{$imagename} = 1; } } else { $tftppath = "/$tftpdir/xcat/netboot/$osver/$arch/$profile/"; $rtftppath = "xcat/netboot/$osver/$arch/$profile/"; unless ($donetftp{$osver,$arch,$profile,$tftpdir}) { $docopy = 1; $donetftp{$osver,$arch,$profile,$tftpdir} = 1; } } if ($docopy && !$noupdateinitrd) { mkpath("$tftppath"); copy("$rootimgdir/kernel", "$tftppath"); if ($statelite) { copy("$rootimgdir/initrd-statelite.gz", "$tftppath"); } else { copy("$rootimgdir/initrd-stateless.gz", "$tftppath"); } } if ($statelite) { unless ( -r "$tftppath/kernel" and -r "$tftppath/initrd-statelite.gz" ) { $callback->({ error=>[qq{copying to $tftppath failed}], errorcode=>[1] }); next; } } else { unless ( -r "$tftppath/kernel" and -r "$tftppath/initrd-stateless.gz") { $callback->({ error=>[qq{copying to $tftppath failed}], errorcode=>[1] }); next; } } # TODO: move the table operations out of the foreach loop my $bptab = xCAT::Table->new('bootparams',-create=>1); my $hmtab = xCAT::Table->new('nodehm'); my $sent = $hmtab->getNodeAttribs($node, ['serialport', 'serialspeed', 'serialflow']); # determine image server, if tftpserver use it, else use xcatmaster # last resort use self my $imgsrv; my $ient; my $xcatmaster; $ient = $restab->getNodeAttribs($node, ['xcatmaster']); if ($ient and $ient->{xcatmaster}) { $xcatmaster = $ient->{xcatmaster}; } else { $xcatmaster = '!myipfn!'; #allow service nodes to dynamically nominate themselves as a good contact point, this is of limited use in the event that xcat is not the dhcp/tftp server } $ient = $restab->getNodeAttribs($node, ['tftpserver']); if ($ient and $ient->{tftpserver}) { $imgsrv = $ient->{tftpserver}; } else { # $ient = $restab->getNodeAttribs($node, ['xcatmaster']); # if ($ient and $ient->{xcatmaster}) # { # $imgsrv = $ient->{xcatmaster}; # } # else # { # # master removed, does not work for servicenode pools # #$ient = $sitetab->getAttribs({key => master}, value); # #if ($ient and $ient->{value}) # #{ # # $imgsrv = $ient->{value}; # #} # #else # #{ # $imgsrv = '!myipfn!'; # #} # } $imgsrv = $xcatmaster; } unless ($imgsrv) { $callback->( { error => [ "Unable to determine or reasonably guess the image server for $node" ], errorcode => [1] } ); next; } my $kcmdline; if ($statelite) { if($rootfstype ne "ramdisk") { # get entry for nfs root if it exists; # have to get nfssvr, nfsdir and xcatmaster from noderes table my $nfssrv = $imgsrv; my $nfsdir = $rootimgdir; if ($restab) { my $resHash = $restab->getNodeAttribs($node, ['nfsserver', 'nfsdir']); if($resHash and $resHash->{nfsserver}) { $nfssrv = $resHash->{nfsserver}; } if($resHash and $resHash->{nfsdir} ne '') { $nfsdir = $resHash->{nfsdir} . "/netboot/$osver/$arch/$profile"; } } $kcmdline = "NFSROOT=$nfssrv:$nfsdir STATEMNT="; } else { $kcmdline = "imgurl=$httpmethod://$imgsrv/$rootimgdir/rootimg-statelite.gz STATEMNT="; } # add support for subVars in the value of "statemnt" my $statemnt=""; if (exists($stateHash->{$node})) { $statemnt = $stateHash->{$node}->[0]->{statemnt}; if (grep /\$/, $statemnt) { my ($server, $dir) = split(/:/, $statemnt); #if server is blank, then its the directory unless($dir) { $dir = $server; $server = ''; } if(grep /\$|#CMD/, $dir) { $dir = xCAT::SvrUtils->subVars($dir, $node, 'dir', $callback); $dir =~ s/\/\//\//g; } if($server) { $server = xCAT::SvrUtils->subVars($server, $node, 'server', $callback); } $statemnt = $server . ":" . $dir; } } $kcmdline .= $statemnt . " "; # get "xcatmaster" value from the "noderes" table if($rootfstype ne "ramdisk") { #BEGIN service node my $isSV = xCAT::Utils->isServiceNode(); my $res = xCAT::Utils->runcmd("hostname", 0); my $sip = xCAT::NetworkUtils->getipaddr($res); # this is the IP of service node if($isSV and (($xcatmaster eq $sip) or ($xcatmaster eq $res))) { # if the NFS directory in litetree is on the service node, # and it is not exported, then it will be mounted automatically xCAT::SvrUtils->setupNFSTree($node, $sip, $callback); # then, export the statemnt directory if it is on the service node if($statemnt) { xCAT::SvrUtils->setupStatemnt($sip, $statemnt, $callback); } } #END sevice node } } else { $kcmdline = "imgurl=$httpmethod://$imgsrv/$rootimgdir/rootimg.$suffix "; } $kcmdline .= "XCAT=$xcatmaster:$xcatdport quiet "; #if site.nodestatus="n", append "nonodestatus" to kcmdline #to inform the statelite/stateless node not to update the nodestatus during provision if(($nodestatus eq "n") or ($nodestatus eq "N") or ($nodestatus eq "0")){ $kcmdline .= " nonodestatus "; } $kcmdline .= "NODE=$node "; # add flow control setting $kcmdline .= "FC=$useflowcontrol "; # add the kernel-booting parameter: netdev=, or BOOTIF= my $netdev = ""; my $mac = $machash->{$node}->[0]->{mac}; if ($reshash->{$node}->[0] and $reshash->{$node}->[0]->{installnic} and ($reshash->{$node}->[0]->{installnic} ne "mac")) { $kcmdline .= "netdev=" . $reshash->{$node}->[0]->{installnic} . " "; } elsif ($nodebootif) { $kcmdline .= "netdev=" . $nodebootif . " "; } elsif ($reshash->{$node}->[0] and $reshash->{$node}->[0]->{primarynic} and ($reshash->{$node}->[0]->{primarynic} ne "mac")) { $kcmdline .= "netdev=" . $reshash->{$node}->[0]->{primarynic} . " "; } else { if ($arch =~ /x86/) { #do nothing, we'll let pxe/xnba work their magic } elsif ($mac) { $kcmdline .= "BOOTIF=" . $mac . " "; } else { $callback->({ error=>[qq{"cannot get the mac address for $node in mac table"}], errorcode=>[1] }); } } if (defined $sent->{serialport}) { #my $sent = $hmtab->getNodeAttribs($node,['serialspeed','serialflow']); unless ($sent->{serialspeed}) { $callback->( { error => [ "serialport defined, but no serialspeed for $node in nodehm table" ], errorcode => [1] } ); next; } $kcmdline .= "console=tty0 console=ttyS" . $sent->{serialport} . "," . $sent->{serialspeed}; if ($sent->{serialflow} =~ /(hard|tcs|ctsrts)/) { $kcmdline .= "n8r"; } } #create the kcmd for node to support kdump if ($dump){ if ($crashkernelsize){ $kcmdline .= " crashkernel=$crashkernelsize dump=$dump "; } else{ # for ppc64, the crashkernel paramter should be "128M@32M", otherwise, some kernel crashes will be met if ($arch eq "ppc64"){ $kcmdline .= " crashkernel=256M\@64M dump=$dump "; } if ($arch =~ /86/){ $kcmdline .= " crashkernel=128M dump=$dump "; } } } # add the cmdline parameters for handling the local disk for stateless if ($cfgpart eq "yes") { if ($statelite) { $kcmdline .= " PARTITION_SLES"; } else { $kcmdline .= " PARTITION_DOMOUNT_SLES"; } } my $initrdstr = "$rtftppath/initrd-stateless.gz"; $initrdstr = "$rtftppath/initrd-statelite.gz" if ($statelite); if($statelite) { my $statelitetb = xCAT::Table->new('statelite'); my $mntopts = $statelitetb->getNodeAttribs($node, ['mntopts']); my $mntoptions = $mntopts->{'mntopts'}; if(defined($mntoptions)) { $kcmdline .= "MNTOPTS=\'$mntoptions\'"; } } $bptab->setNodeAttribs( $node, { kernel => "$rtftppath/kernel", initrd => $initrdstr, kcmdline => $kcmdline }); } } sub process_request { my $request = shift; my $callback = shift; my $doreq = shift; my $distname = undef; my $arch = undef; my $path = undef; if ($::XCATSITEVALS{"httpmethod"}) { $httpmethod = $::XCATSITEVALS{"httpmethod"}; } if ($::XCATSITEVALS{"httpport"}) { $httpport = $::XCATSITEVALS{"httpport"}; } if ($::XCATSITEVALS{"useflowcontrol"}) { $useflowcontrol = $::XCATSITEVALS{"useflowcontrol"}; } if ($request->{command}->[0] eq 'copycd') { return copycd($request, $callback, $doreq); } elsif ($request->{command}->[0] eq 'mkinstall') { return mkinstall($request, $callback, $doreq); } elsif ($request->{command}->[0] eq 'mknetboot' or $request->{command}->[0] eq 'mkstatelite') { return mknetboot($request, $callback, $doreq); } elsif ($request->{command}->[0] eq 'mksysclone') { return mksysclone($request, $callback, $doreq); } } sub mkinstall { my $request = shift; my $callback = shift; my $doreq = shift; my $globaltftpdir = xCAT::TableUtils->getTftpDir(); my $noupdateinitrd = $request->{'noupdateinitrd'}; my $ignorekernelchk = $request->{'ignorekernelchk'}; my @nodes = @{$request->{node}}; my $node; my $ostab = xCAT::Table->new('nodetype'); #my $sitetab = xCAT::Table->new('site'); my $linuximagetab; my $osimagetab; my $osdistrouptab; my $ntents = $ostab->getNodesAttribs($request->{node}, ['os', 'arch', 'profile', 'provmethod']); my %img_hash=(); my $installroot; $installroot = "/install"; my $restab = xCAT::Table->new('noderes'); my $bptab = xCAT::Table->new('bootparams',-create=>1); my $hmtab = xCAT::Table->new('nodehm'); my $resents = $restab->getNodesAttribs( \@nodes, [ 'nfsserver', 'tftpdir','xcatmaster', 'primarynic', 'installnic' ] ); my $hments = $hmtab->getNodesAttribs(\@nodes, ['serialport', 'serialspeed', 'serialflow']); #if ($sitetab) #{ #(my $ref) = $sitetab->getAttribs({key => 'installdir'}, 'value'); my @entries = xCAT::TableUtils->get_site_attribute("installdir"); my $t_entry = $entries[0]; if ( defined($t_entry) ) { $installroot = $t_entry; } #} my %donetftp; require xCAT::Template; #only used here, load so memory can be COWed # Define a variable for driver update list my @dd_drivers; # Warning message for nodeset install/netboot/statelite foreach my $knode (keys %{$ntents}) { my $ent = $ntents->{$knode}->[0]; if ($ent && $ent->{provmethod} && (($ent->{provmethod} eq 'install') || ($ent->{provmethod} eq 'netboot') || ($ent->{provmethod} eq 'statelite'))) { my @ents = xCAT::TableUtils->get_site_attribute("disablenodesetwarning"); my $site_ent = $ents[0]; if (!defined($site_ent) || ($site_ent =~ /no/i) || ($site_ent =~ /0/)) { $callback->( { warning => ["The options \"install\", \"netboot\", and \"statelite\" have been deprecated. They should continue to work in this release, but have not been tested as carefully, and some new functions are not available with these options. For full function and support, use \"nodeset osimage=\" instead."], } ); # Do not print this warning message multiple times last; } } } foreach $node (@nodes) { my $os; my $arch; my $profile; my $tmplfile; my $pkgdir; my $pkglistfile; my $osinst; my $ent = $ntents->{$node}->[0]; my $plat = ""; my $tftpdir; my $partfile; my $netdrivers; my $driverupdatesrc; my $osupdir; my $imagename; # set it if running of 'nodeset osimage=xxx' if ($resents->{$node} and $resents->{$node}->[0]->{tftpdir}) { $tftpdir = $resents->{$node}->[0]->{tftpdir}; } else { $tftpdir = $globaltftpdir; } if ($ent and $ent->{provmethod} and ($ent->{provmethod} ne 'install') and ($ent->{provmethod} ne 'netboot') and ($ent->{provmethod} ne 'statelite')) { $imagename=$ent->{provmethod}; if (!exists($img_hash{$imagename})) { if (!$osimagetab) { $osimagetab=xCAT::Table->new('osimage', -create=>1); } (my $ref) = $osimagetab->getAttribs({imagename => $imagename}, 'osvers', 'osarch', 'profile', 'provmethod', 'osupdatename'); if ($ref) { $img_hash{$imagename}->{osver}=$ref->{'osvers'}; $img_hash{$imagename}->{osarch}=$ref->{'osarch'}; $img_hash{$imagename}->{profile}=$ref->{'profile'}; $img_hash{$imagename}->{provmethod}=$ref->{'provmethod'}; if (!$linuximagetab) { $linuximagetab=xCAT::Table->new('linuximage', -create=>1); } (my $ref1) = $linuximagetab->getAttribs({imagename => $imagename}, 'template', 'pkgdir', 'pkglist', 'partitionfile', 'driverupdatesrc', 'netdrivers'); if ($ref1) { if ($ref1->{'template'}) { $img_hash{$imagename}->{template}=$ref1->{'template'}; } if ($ref1->{'pkgdir'}) { $img_hash{$imagename}->{pkgdir}=$ref1->{'pkgdir'}; } if ($ref1->{'pkglist'}) { $img_hash{$imagename}->{pkglist}=$ref1->{'pkglist'}; } if ($ref1->{'partitionfile'}) { $img_hash{$imagename}->{partitionfile}=$ref1->{'partitionfile'}; } if ($ref1->{'driverupdatesrc'}) { $img_hash{$imagename}->{driverupdatesrc}=$ref1->{'driverupdatesrc'}; } if ($ref1->{'netdrivers'}) { $img_hash{$imagename}->{netdrivers}=$ref1->{'netdrivers'}; } } } else { $callback->( {error => ["The os image $imagename does not exists on the osimage table for $node"], errorcode => [1]}); next; } # get the path list of the osdistroupdate if ($ref->{'osupdatename'}) { my $osdisupdir; my @osupdatenames = split (/,/, $ref->{'osupdatename'}); unless ($osdistrouptab) { $osdistrouptab=xCAT::Table->new('osdistroupdate', -create=>1); unless ($osdistrouptab) { $callback->({ error => ["Cannot open the table osdistroupdate."], errorcode => [1] }); next; } } my @osdup = $osdistrouptab->getAllAttribs("osupdatename", "dirpath"); foreach my $upname (@osupdatenames) { foreach my $upref (@osdup) { if ($upref->{'osupdatename'} eq $upname) { $osdisupdir .= ",$upref->{'dirpath'}"; last; } } } $osdisupdir =~ s/^,//; $img_hash{$imagename}->{'osupdir'} = $osdisupdir; } } my $ph=$img_hash{$imagename}; $os = $ph->{osver}; $arch = $ph->{osarch}; $profile = $ph->{profile}; $tmplfile=$ph->{template}; $pkgdir=$ph->{pkgdir}; if (!$pkgdir) { $pkgdir="$installroot/$os/$arch"; } $pkglistfile=$ph->{pkglist}; $partfile=$ph->{partitionfile}; $netdrivers = $ph->{netdrivers}; $driverupdatesrc = $ph->{driverupdatesrc}; $osupdir = $ph->{'osupdir'}; } else { $os = $ent->{os}; $arch = $ent->{arch}; $profile = $ent->{profile}; if($os =~/sles.*/){ $plat = "sles"; }elsif($os =~/suse.*/){ $plat = "suse"; }else{ $plat = "foobar"; print "You should never get here! Programmer error!"; return; } $tmplfile=xCAT::SvrUtils::get_tmpl_file_name("$installroot/custom/install/$plat", $profile, $os, $arch); if (! $tmplfile) { $tmplfile=xCAT::SvrUtils::get_tmpl_file_name("$::XCATROOT/share/xcat/install/$plat", $profile, $os, $arch); } $pkglistfile=xCAT::SvrUtils::get_pkglist_file_name("$installroot/custom/install/$plat", $profile, $os, $arch); if (! $pkglistfile) { $pkglistfile=xCAT::SvrUtils::get_pkglist_file_name("$::XCATROOT/share/xcat/install/$plat", $profile, $os, $arch); } $pkgdir="$installroot/$os/$arch"; #get the partition file from the linuximage table my $imgname = "$os-$arch-install-$profile"; if (! $linuximagetab) { $linuximagetab = xCAT::Table->new('linuximage'); } if ( $linuximagetab ) { (my $ref1) = $linuximagetab->getAttribs({imagename => $imgname}, 'partitionfile'); if ( $ref1 and $ref1->{'partitionfile'}){ $partfile = $ref1->{'partitionfile'}; } } else { $callback->( { error => [qq{ Cannot find the linux image called "$imgname", maybe you need to use the "nodeset osimage=" command to set the boot state}], errorcode => [1] } ); } } unless ($os and $arch and $profile) { $callback->( { error => ["No profile defined in nodetype or osimage table for $node"], errorcode => [1] } ); next; } unless ( -r "$tmplfile") { $callback->( { error => ["No AutoYaST template exists for " . $ent->{profile} . " in directory $installroot/custom/install/$plat or $::XCATROOT/share/xcat/install/$plat"], errorcode => [1] } ); next; } #To support multiple paths for osimage.pkgdir. We require the first value of osimage.pkgdir # should be the os base pkgdir. my $tmppkgdir=$pkgdir; my @srcdirs = split(",", $pkgdir); $pkgdir = $srcdirs[0]; # trim the "/" in /install/sles11.3/x86_64/ $pkgdir =~ s/\/$//; if( $pkgdir =~/^($installroot\/$os\/$arch)$/) { $srcdirs[0]="$pkgdir/1"; $tmppkgdir=join(",", @srcdirs); } #Call the Template class to do substitution to produce a kickstart file in the autoinst dir my $tmperr; if (-r "$tmplfile") { $tmperr = xCAT::Template->subvars( $tmplfile, "$installroot/autoinst/$node", $node, $pkglistfile, $tmppkgdir, $os, $partfile ); } if ($tmperr) { $callback->( { node => [ { name => [$node], error => [$tmperr], errorcode => [1] } ] } ); next; } # create the node-specific post script DEPRECATED, don't do #mkpath "/install/postscripts/"; if ( ( $arch =~ /x86_64/ and -r "$pkgdir/1/boot/$arch/loader/linux" and -r "$pkgdir/1/boot/$arch/loader/initrd" ) or ( $arch =~ /x86$/ and -r "$pkgdir/1/boot/i386/loader/linux" and -r "$pkgdir/1/boot/i386/loader/initrd" ) or ($arch =~ /ppc/ and -r "$pkgdir/1/suseboot/inst64") ) { #TODO: driver slipstream, targetted for network. # Copy the install resource to /tftpboot and check to only copy once my $docopy = 0; my $tftppath; my $rtftppath; # the relative tftp path without /tftpboot/ if ($imagename) { $tftppath = "/$tftpdir/xcat/osimage/$imagename"; $rtftppath = "xcat/osimage/$imagename"; unless ($donetftp{$imagename}) { $docopy = 1; $donetftp{$imagename} = 1; } } else { $tftppath = "/$tftpdir/xcat/$os/$arch/$profile"; $rtftppath = "xcat/$os/$arch/$profile"; unless ($donetftp{"$os|$arch|$profile|$tftpdir"}) { $docopy = 1; $donetftp{"$os|$arch|$profile|$tftpdir"} = 1; } } if ($docopy) { mkpath("$tftppath"); if ($arch =~ /x86_64/) { unless ($noupdateinitrd) { copy("$pkgdir/1/boot/$arch/loader/linux", "$tftppath"); copy("$pkgdir/1/boot/$arch/loader/initrd", "$tftppath"); @dd_drivers = &insert_dd($callback, $os, $arch, "$tftppath/initrd", "$tftppath/linux", $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk); } } elsif ($arch =~ /x86/) { unless ($noupdateinitrd) { copy("$pkgdir/1/boot/i386/loader/linux", "$tftppath"); copy("$pkgdir/1/boot/i386/loader/initrd", "$tftppath"); @dd_drivers = &insert_dd($callback, $os, $arch, "$tftppath/initrd", "$tftppath/linux", $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk); } } elsif ($arch =~ /ppc/) { unless ($noupdateinitrd) { copy("$pkgdir/1/suseboot/inst64", "$tftppath"); @dd_drivers = &insert_dd($callback, $os, $arch, "$tftppath/inst64", undef, $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk); } } } #We have a shot... my $ent = $resents->{$node}->[0]; my $sent = $hments->{$node}->[0]; #hmtab->getNodeAttribs($node, ['serialport', 'serialspeed', 'serialflow']); my $netserver; if ($ent and $ent->{xcatmaster}) { $netserver = $ent->{xcatmaster}; } else { $netserver = '!myipfn!'; } if ($ent and $ent->{nfsserver}) { $netserver = $ent->{nfsserver}; } if ($::XCATSITEVALS{managedaddressmode} =~ /static/){ unless($netserver eq '!myipfn!'){ my($host,$ip)=xCAT::NetworkUtils->gethostnameandip($netserver); $netserver=$ip; } } my $httpprefix = $pkgdir; if ($installroot =~ /\/$/) { #must prepend /install/ $httpprefix =~ s/^$installroot/\/install\//; } else { $httpprefix =~ s/^$installroot/\/install/; } my $kcmdline = "quiet autoyast=$httpmethod://" . $netserver . ":" . $httpport . "/install/autoinst/" . $node . " install=$httpmethod://" . $netserver . ":" . $httpport . "$httpprefix/1"; my $netdev = ""; if ($ent->{installnic}) { if ($ent->{installnic} eq "mac") { my $mactab = xCAT::Table->new("mac"); my $macref = $mactab->getNodeAttribs($node, ['mac']); $netdev = $macref->{mac}; } else { $netdev = $ent->{installnic}; } } elsif ($ent->{primarynic}) { if ($ent->{primarynic} eq "mac") { my $mactab = xCAT::Table->new("mac"); my $macref = $mactab->getNodeAttribs($node, ['mac']); $netdev = $macref->{mac}; } else { $netdev = $ent->{primarynic}; } } else { $netdev = "bootif"; } if ($netdev eq "") #why it is blank, no mac defined? { $callback->( { error => ["No mac.mac for $node defined"], errorcode => [1] } ); } unless ($netdev eq "bootif") { #if going by bootif, BOOTIF will suffice $kcmdline .= " netdevice=" . $netdev; } # Add the kernel paramets for driver update disk loading foreach (@dd_drivers) { $kcmdline .= " dud=file:/cus_driverdisk/$_"; } #if site.managedaddressmode=static, specify the network configuration as kernel options #to avoid multicast dhcp if($::XCATSITEVALS{managedaddressmode} =~ /static/){ my ($ipaddr,$hostname,$gateway,$netmask)=xCAT::NetworkUtils->getNodeNetworkCfg($node); unless($ipaddr) { $callback->( { error => [ "cannot resolve the ip address of $node" ], errorcode => [1] } ); } if($gateway eq ''){ $gateway = xCAT::NetworkUtils->my_ip_facing($ipaddr); } $kcmdline .=" hostip=$ipaddr netmask=$netmask gateway=$gateway hostname=$hostname "; my %nameservers=%{xCAT::NetworkUtils->getNodeNameservers([$node])}; my @nameserverARR=split (",",$nameservers{$node}); my @nameserversIP; foreach (@nameserverARR) { my $ip; if($_ eq ''){ $ip = xCAT::NetworkUtils->my_ip_facing($gateway); }else{ (undef,$ip) = xCAT::NetworkUtils->gethostnameandip($_); } push @nameserversIP, $ip; } if(scalar @nameserversIP){ $kcmdline .=" Nameserver=".join(",",@nameserversIP); } my $nd = xCAT::NetworkUtils->getNodeDomains([$node]); my %nodedomains = %$nd; my $domain=$nodedomains{$node}; $kcmdline .=" Domain=$domain "; } if (defined $sent->{serialport}) { unless ($sent->{serialspeed}) { $callback->( { error => [ "serialport defined, but no serialspeed for $node in nodehm table" ], errorcode => [1] } ); next; } $kcmdline .= " console=tty0 console=ttyS" . $sent->{serialport} . "," . $sent->{serialspeed}; if ($sent and ($sent->{serialflow} =~ /(ctsrts|cts|hard)/)) { $kcmdline .= "n8r"; } } # for pSLES installation, the dhcp request may timeout # due to spanning tree settings or multiple network adapters. # use dhcptimeout=150 to avoid dhcp timeout if ($arch =~ /ppc/) { $kcmdline .= " dhcptimeout=150"; } my $kernelpath; my $initrdpath; if ($arch =~ /x86/) { $kernelpath = "$rtftppath/linux"; $initrdpath = "$rtftppath/initrd"; $bptab->setNodeAttribs( $node, { kernel => $kernelpath, initrd => $initrdpath, kcmdline => $kcmdline } ); } elsif ($arch =~ /ppc/) { $kernelpath = "$rtftppath/inst64"; $bptab->setNodeAttribs( $node, { kernel => $kernelpath, initrd => "", kcmdline => $kcmdline } ); } } else { $callback->( { error => [ "Failed to detect copycd configured install source at /install/$os/$arch" ], errorcode => [1] } ); } } #my $rc = xCAT::TableUtils->create_postscripts_tar(); #if ($rc != 0) #{ # xCAT::MsgUtils->message("S", "Error creating postscripts tar file."); #} } sub mksysclone { my $request = shift; my $callback = shift; my $doreq = shift; my @nodes = @{$request->{node}}; my $osimagetab; my %img_hash=(); my $installroot; my $globaltftpdir; $installroot = "/install"; $globaltftpdir = "/tftpboot"; my @ents = xCAT::TableUtils->get_site_attribute("installdir"); my $site_ent = $ents[0]; if( defined($site_ent) ) { $installroot = $site_ent; } @ents = xCAT::TableUtils->get_site_attribute("tftpdir"); $site_ent = $ents[0]; if( defined($site_ent) ) { $globaltftpdir = $site_ent; } my $node; my $ostab = xCAT::Table->new('nodetype'); my $restab = xCAT::Table->new('noderes'); my $bptab = xCAT::Table->new('bootparams',-create=>1); my $hmtab = xCAT::Table->new('nodehm'); my %osents = %{$ostab->getNodesAttribs(\@nodes, ['os', 'arch', 'provmethod'])}; my %rents = %{$restab->getNodesAttribs(\@nodes, ['xcatmaster', 'nfsserver', 'tftpdir', 'primarynic', 'installnic'])}; my %hents = %{$hmtab->getNodesAttribs(\@nodes, ['serialport', 'serialspeed', 'serialflow'])}; my $xcatdport="3001"; my @entries = xCAT::TableUtils->get_site_attribute("xcatdport"); if ( defined($entries[0])) { $xcatdport = $entries[0]; } my @entries = xCAT::TableUtils->get_site_attribute("master"); my $master_entry = $entries[0]; require xCAT::Template; my $flag_return = 0; # Warning message for nodeset install/netboot/statelite foreach my $knode (keys %osents) { my $ent = $osents{$knode}->[0]; if ($ent && $ent->{provmethod} && ($ent->{provmethod} eq 'sysclone')){ $callback->( { error => ["$knode: The provmethod \"sysclone\" have been deprecated. use \"nodeset osimage=\" instead."], errorcode => [1]}); # Do not print this warning message multiple times $flag_return = 1; } } if ( $flag_return == 1 ){ return; } # copy postscripts my $pspath = "$installroot/sysclone/scripts/post-install/"; my $clusterfile = "$installroot/sysclone/scripts/cluster.txt"; mkpath("$pspath"); copy("$installroot/postscripts/configefi","$pspath/15all.configefi"); copy("$installroot/postscripts/updatenetwork","$pspath/16all.updatenetwork"); copy("$installroot/postscripts/runxcatpost","$pspath/17all.runxcatpost"); copy("$installroot/postscripts/killsyslog","$pspath/99all.killsyslog"); unless (-r "$pspath/10all.fix_swap_uuids") { mkpath("$pspath"); copy("/var/lib/systemimager/scripts/post-install/10all.fix_swap_uuids","$pspath"); } unless (-r "$pspath/11all.replace_byid_device") { mkpath("$pspath"); copy("/var/lib/systemimager/scripts/post-install/11all.replace_byid_device","$pspath"); } unless (-r "$pspath/95all.monitord_rebooted") { mkpath("$pspath"); copy("/var/lib/systemimager/scripts/post-install/95all.monitord_rebooted","$pspath"); } # copy hosts copy("/etc/hosts","$installroot/sysclone/scripts/"); foreach $node (@nodes) { my $os; my $tftpdir; my $arch; my $imagename; # set it if running of 'nodeset osimage=xxx' my $xcatmaster; my $instserver; my $ient = $rents{$node}->[0]; if ($ient and $ient->{xcatmaster}) { $xcatmaster = $ient->{xcatmaster}; } else { $xcatmaster = $master_entry; } my $osinst; if ($rents{$node}->[0] and $rents{$node}->[0]->{tftpdir}) { $tftpdir = $rents{$node}->[0]->{tftpdir}; } else { $tftpdir = $globaltftpdir; } my $ent = $osents{$node}->[0]; if ($ent and $ent->{provmethod} and ($ent->{provmethod} ne 'install') and ($ent->{provmethod} ne 'netboot') and ($ent->{provmethod} ne 'statelite') and ($ent->{provmethod} ne 'sysclone')) { $imagename=$ent->{provmethod}; #print "imagename=$imagename\n"; if (!exists($img_hash{$imagename})) { if (!$osimagetab) { $osimagetab=xCAT::Table->new('osimage', -create=>1); } (my $ref) = $osimagetab->getAttribs({imagename => $imagename}, 'osvers', 'osarch', 'profile', 'provmethod'); if ($ref) { $img_hash{$imagename}->{osarch}=$ref->{'osarch'}; } else { $callback->( {error => ["The os image $imagename does not exists on the osimage table for $node"], errorcode => [1]}); next; } } my $ph=$img_hash{$imagename}; $arch = $ph->{osarch}; } # copy kernel and initrd from image dir to /tftpboot my $ramdisk_size = 200000; if ( -r "$tftpdir/xcat/genesis.kernel.$arch" and ( -r "$tftpdir/xcat/genesis.fs.$arch.gz" or -r "$tftpdir/xcat/genesis.fs.$arch.lzma" )) { #We have a shot... my $ent = $rents{$node}->[0]; my $sent = $hents{$node}->[0]; my $kcmdline = "ramdisk_size=$ramdisk_size"; my $ksdev = ""; if ($ent->{installnic}) { $ksdev = $ent->{installnic}; } elsif ($ent->{primarynic}) { $ksdev = $ent->{primarynic}; } else { $ksdev = "bootif"; #if not specified, fall back to bootif } if ($ksdev eq "mac") { my $mactab = xCAT::Table->new("mac"); my $macref = $mactab->getNodeAttribs($node, ['mac']); $ksdev = $macref->{mac}; } unless ( $ksdev eq "bootif" ) { $kcmdline .= " netdevice=" . $ksdev; } if ($arch =~ /ppc/) { $kcmdline .= " dhcptimeout=150"; } if (defined($sent->{serialport})) { unless ($sent->{serialspeed}) { $callback->( { error => [ "serialport defined, but no serialspeed for $node in nodehm table" ], errorcode => [1] } ); } else { #go cmdline if serial console is requested, the shiny ansi is just impractical $kcmdline .= " cmdline console=tty0 console=ttyS" . $sent->{serialport} . "," . $sent->{serialspeed}; if ($sent->{serialflow} =~ /(hard|cts|ctsrts)/) { $kcmdline .= "n8r"; } } } $kcmdline .= " XCAT=$xcatmaster:$xcatdport xcatd=$xcatmaster:$xcatdport SCRIPTNAME=$imagename"; my $i = "xcat/genesis.fs.$arch.gz"; if ( -r "$tftpdir/xcat/genesis.fs.$arch.lzma" ){ $i = "xcat/genesis.fs.$arch.lzma"; } $bptab->setNodeAttribs( $node, { kernel => "xcat/genesis.kernel.$arch", initrd => $i, kcmdline => $kcmdline } ); } else { $callback->( { error => ["Kernel and initrd not found in $tftpdir/xcat"], errorcode => [1] } ); } # assign nodes to an image if (-r "$clusterfile") { my $cmd = qq{cat $clusterfile | grep "$node"}; my $out = xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC == 0) { my $out = `sed -i /$node./d $clusterfile`; } } my $cmd =qq{echo "$node:compute:$imagename:" >> $clusterfile}; my $out = xCAT::Utils->runcmd($cmd, -1); unless (-r "$installroot/sysclone/images/$imagename/opt/xcat/xcatdsklspost") { mkpath("$installroot/sysclone/images/$imagename/opt/xcat/"); copy("$installroot/postscripts/xcatdsklspost","$installroot/sysclone/images/$imagename/opt/xcat/"); } } # check systemimager-server-rsyncd to make sure it's running. my $out = xCAT::Utils->runcmd("service systemimager-server-rsyncd status", -1); if ($::RUNCMD_RC != 0) { # not running my $rc = xCAT::Utils->startService("systemimager-server-rsyncd"); if ($rc != 0) { return 1; } } } sub copycd { my $request = shift; my $callback = shift; my $doreq = shift; my $distname = ""; my $detdistname = ""; my $installroot; my $arch; my $path; my $mntpath=undef; my $inspection=undef; my $noosimage=undef; my $nonoverwrite=undef; $installroot = "/install"; #my $sitetab = xCAT::Table->new('site'); #if ($sitetab) #{ #(my $ref) = $sitetab->getAttribs({key => 'installdir'}, 'value'); #print Dumper($ref); my @entries = xCAT::TableUtils->get_site_attribute("installdir"); my $t_entry = $entries[0]; if ( defined($t_entry) ) { $installroot = $t_entry; } #} @ARGV = @{$request->{arg}}; GetOptions( 'n=s' => \$distname, 'a=s' => \$arch, 'm=s' => \$mntpath, 'i' => \$inspection, 'p=s' => \$path, 'o' => \$noosimage, 'w' => \$nonoverwrite, ); unless ($mntpath) { #this plugin needs $mntpath... return; } if ($distname and $distname !~ /^sles|^suse/) { #If they say to call it something other than SLES or SUSE, give up? return; } #parse the disc info of the os media to get the distribution, arch of the os unless (-r $mntpath . "/content") { return; } my $dinfo; open($dinfo, $mntpath . "/content"); my $darch; while (<$dinfo>) { if (m/^DEFAULTBASE\s+(\S+)/) { $darch = $1; chomp($darch); last; } if (not $darch and m/^BASEARCHS\s+(\S+)/) { $darch = $1; } } close($dinfo); unless ($darch) { return; } my $dirh; opendir($dirh, $mntpath); my $discnumber; my $totaldiscnumber; while (my $pname = readdir($dirh)) { if ($pname =~ /media.(\d+)/) { $discnumber = $1; chomp($discnumber); my $mfile; open($mfile, $mntpath . "/" . $pname . "/media"); <$mfile>; <$mfile>; $totaldiscnumber = <$mfile>; chomp($totaldiscnumber); close($mfile); open($mfile, $mntpath . "/" . $pname . "/products"); my $prod = <$mfile>; close($mfile); if ($prod =~ m/SUSE-Linux-Enterprise-Server/ || $prod =~ m/SUSE-Linux-Enterprise-Software-Development-Kit/) { if (-f "$mntpath/content") { my $content; open($content,"<","$mntpath/content"); my @contents = <$content>; close($content); foreach (@contents) { if (/^VERSION/) { my @verpair = split /\s+|-/; $detdistname = "sles".$verpair[1]; unless ($distname) { $distname = $detdistname; } } } } else { my @parts = split /\s+/, $prod; my @subparts = split /-/, $parts[2]; $detdistname = "sles" . $subparts[0]; unless ($distname) { $distname = "sles" . $subparts[0] }; } if($prod =~ m/Software-Development-Kit/) { if ($distname eq 'sles11.3') { if ($discnumber == 1 and $totaldiscnumber == 1) { #disc 3, aka disc1 of 'debug' $discnumber = 3; } } $discnumber = 'sdk' . $discnumber; } # check media.1/products for text. # the cselx is a special GE built version. # openSUSE is the normal one. }elsif($prod =~ m/cselx 1.0-0|openSUSE 11.1-0/){ $distname = "suse11"; $detdistname = "suse11"; } } } closedir($dirh); unless ($distname and $discnumber) { #failed to parse the disc info return; } if ($darch and $darch =~ /i.86/) { $darch = "x86"; } elsif ($darch and $darch =~ /ppc/) { $darch = "ppc64"; } if ($darch) { unless ($arch) { $arch = $darch; } if ($arch and $arch ne $darch) { $callback->( { error => ["Requested SLES architecture $arch, but media is $darch"], errorcode => [1] } ); return; } } if($inspection) { $callback->( { info => "DISTNAME:$distname\n"."ARCH:$arch\n"."DISCNO:$discnumber\n" } ); return; } %{$request} = (); #clear request we've got it. my $defaultpath="$installroot/$distname/$arch"; unless($path) { $path=$defaultpath; } my $osdistroname=$distname."-".$arch; if ($::XCATSITEVALS{osimagerequired}){ my ($nohaveimages,$errstr) = xCAT::SvrUtils->update_tables_with_templates($distname, $arch,$path,$osdistroname,checkonly=>1); if ($nohaveimages) { $callback->({error => "No Templates found to support $distname($arch)",errorcode=>2}); return; } } my $ospkgpath= "$path/$discnumber"; #tranverse the directory structure of the os media and get the fingerprint my @filelist=(); find( { "wanted" => sub{s/$mntpath/\./;push(@filelist,$_);}, "no_chdir" => 1, "follow" => 0, }, $mntpath ); my @sortedfilelist=sort @filelist; my $fingerprint=md5_hex(join("",@sortedfilelist)); #check whether the os media has already been copied in my $disccopiedin=0; my $tabosdistro=xCAT::Table->new('osdistro',-create=>1); if($tabosdistro) { my %keyhash=(); $keyhash{osdistroname} = $osdistroname; my $ref = undef; $ref=$tabosdistro->getAttribs(\%keyhash, 'dirpaths'); if ($ref and $ref->{dirpaths} ) { my @dirpaths=split(',',$ref->{dirpaths}); foreach(@dirpaths) { if(0 == system("grep -E "."\"\\<$fingerprint\\>\""." $_"."/.fingerprint")) { $disccopiedin=1; if($nonoverwrite) { $callback->( { info => ["The disc iso has already been copied in!"] } ); $tabosdistro->close(); return; } last; } } } } $tabosdistro->close(); #create the destination directory of the os media copying if(-l $ospkgpath) { unlink($ospkgpath); }elsif(-d $ospkgpath) { rmtree($ospkgpath); } mkpath("$ospkgpath"); my $omask = umask 0022; umask $omask; $callback->( {data => "Copying media to $ospkgpath"}); my $rc; #the intrupt handler of SIGINT and SIGTERM $SIG{INT} = $SIG{TERM} = sub { foreach(@cpiopid){ kill 15, $_; use POSIX ":sys_wait_h"; my $kid=0; do { $kid = waitpid($_, WNOHANG); } while $kid != $_; } if ($mntpath) { chdir("/"); system("umount $mntpath"); system("rm -rf $mntpath"); } exit; }; #media copy process my $kid; chdir $mntpath; my $numFiles = scalar(@sortedfilelist); my $child = open($kid,"|-"); unless (defined $child) { $callback->({error=>"Media copy operation fork failure"}); return; } if ($child) { push @cpiopid,$child; chdir("/"); for (@sortedfilelist) { print $kid $_."\n"; } close($kid); $rc = $?; } else { my $c = "nice -n 20 cpio -vdump $ospkgpath"; my $k2 = open(PIPE, "$c 2>&1 |") || exit(1); chdir("/"); push @cpiopid, $k2; my $copied = 0; my ($percent, $fout); while(){ next if /^cpio:/; $percent = $copied / $numFiles; $fout = sprintf "%0.2f%%", $percent * 100; $callback->({sinfo => "$fout"}); ++$copied; } if($copied == $numFiles) { #media copy success exit(0); } else { #media copy failed exit(1); } } # system( # "cd $path; find . | nice -n 20 cpio -dump $installroot/$distname/$arch/$discnumber/" # ); chmod 0755, "$path"; chmod 0755, "$ospkgpath"; #append the fingerprint to the .fingerprint file to indicate that the os media has been copied in unless($disccopiedin) { my $ret=open(my $fpd,">>","$path/.fingerprint"); if($ret){ print $fpd "$fingerprint,"; close($fpd); } } #if the destination path is not the default, create a symlink named by the default path to the specified path unless($path =~ /^($defaultpath)/) { mkpath("$defaultpath/$discnumber"); if(-d "$defaultpath/$discnumber") { rmtree("$defaultpath/$discnumber"); } else { unlink("$defaultpath/$discnumber"); } my $hassymlink = eval { symlink("",""); 1 }; if ($hassymlink) { symlink($ospkgpath,"$defaultpath/$discnumber"); }else { link($ospkgpath,"$defaultpath/$discnumber"); } } if ($detdistname eq "sles10.2" and $discnumber eq "1") { #Go and correct inst_startup.ycp in the install root my $tmnt = tempdir("xcat-sles.$$.XXXXXX",TMPDIR=>1); my $tdir = tempdir("xcat-slesd.$$.XXXXXX",TMPDIR=>1); my $startupfile; my $ycparch = $arch; if ($arch eq "x86") { $ycparch = "i386"; } system("mount -o loop $installroot/$distname/$arch/$discnumber/boot/$ycparch/root $tmnt"); system("cd $tmnt;find . |cpio -dump $tdir"); system("umount $tmnt;rm $installroot/$distname/$arch/$discnumber/boot/$ycparch/root"); open($startupfile,"<","$tdir/usr/share/YaST2/clients/inst_startup.ycp"); my @ycpcontents = <$startupfile>; my @newcontents; my $writecont=1; close($startupfile); foreach (@ycpcontents) { if (/No hard disks/) { $writecont=0; } elsif (/\}/) { $writecont=1; } s/cancel/next/; if ($writecont) { push @newcontents, $_; } } open($startupfile,">","$tdir/usr/share/YaST2/clients/inst_startup.ycp"); foreach (@newcontents) { print $startupfile $_; } close($startupfile); system("cd $tdir;mkfs.cramfs . $installroot/$distname/$arch/$discnumber/boot/$ycparch/root"); system("rm -rf $tmnt $tdir"); } if ($rc != 0) { $callback->({error => "Media copy operation failed, status $rc"}); } else { $callback->({data => "Media copy operation successful"}); my @ret=xCAT::SvrUtils->update_osdistro_table($distname,$arch,$path,$osdistroname); if ($ret[0] != 0) { $callback->({data => "Error when updating the osdistro tables: " . $ret[1]}); } #if --noosimage option is not specified, create the relevant osimage and linuximage entris unless($noosimage){ my @ret=xCAT::SvrUtils->update_tables_with_templates($distname, $arch,$path,$osdistroname); if ($ret[0] != 0) { $callback->({data => "Error when updating the osimage tables: " . $ret[1]}); } my @ret=xCAT::SvrUtils->update_tables_with_mgt_image($distname, $arch, $path,$osdistroname); if ($ret[0] != 0) { $callback->({data => "Error when updating the osimage tables for management node " . $ret[1]}); } my @ret=xCAT::SvrUtils->update_tables_with_diskless_image($distname, $arch, undef, "netboot",$path,$osdistroname); if ($ret[0] != 0) { $callback->({data => "Error when updating the osimage tables for stateless: " . $ret[1]}); } my @ret=xCAT::SvrUtils->update_tables_with_diskless_image($distname, $arch, undef, "statelite",$path,$osdistroname); if ($ret[0] != 0) { $callback->({data => "Error when updating the osimage tables for statelite: " . $ret[1]}); } } } } # callback subroutine for 'find' command to return the path my $driver_name; my $real_path; sub get_path () { if ($File::Find::name =~ /\/$driver_name/) { $real_path = $File::Find::name; } } # callback subroutine for 'find' command to return the path for all the matches my @all_real_path; sub get_all_path () { if ($File::Find::name =~ /\/$driver_name/) { push @all_real_path, $File::Find::name; } } # Get the driver disk or driver rpm from the osimage.driverupdatesrc # The valid value: dud:/install/dud/dd.img,rpm:/install/rpm/d.rpm, if missing the tag: 'dud'/'rpm' # the 'rpm' is default. # # If cannot find the driver disk from osimage.driverupdatesrc, will try to search driver disk # from /install/driverdisk// # # For driver rpm, the driver list will be gotten from osimage.netdrivers. If not set, copy all the drivers from driver # rpm to the initrd. # sub insert_dd () { my $callback = shift; if ($callback eq "xCAT_plugin::sles") { $callback = shift; } my $os = shift; my $arch = shift; my $img = shift; my $kernelpath = shift; my $driverupdatesrc = shift; my $drivers = shift; my $osupdirlist = shift; my $ignorekernelchk = shift; my $install_dir = xCAT::TableUtils->getInstallDir(); my $cmd; my @dd_list; my @rpm_list; my @vendor_rpm; # the rpms from driverupdatesrc attribute my @driver_list; my $Injectalldriver; my $updatealldriver; my @rpm_drivers; # since the all rpms for drivers searching will be extracted to one dir, the newer rpm should be # extracted later so that the newer drivers will overwirte the older one if certain drvier is included # in multiple rpms # # The order of rpm list in the @rpm_list should be: osdistroupdate1, osdistroupdate2, driverupdatesrc # # get the kernel-*.rpm from the dirpath of osdistroupdate if ($osupdirlist) { my @osupdirs = split (/,/, $osupdirlist); foreach my $osupdir (@osupdirs) { # find all the rpms start with kernel.* my @kernel_rpms = `find $osupdir -name kernel-*.rpm`; push @rpm_list, @kernel_rpms; } } # Parse the parameters to the the source of Driver update disk and Driver rpm, and driver list as well if ($driverupdatesrc) { my @srcs = split(',', $driverupdatesrc); foreach my $src (@srcs) { if ($src =~ /dud:(.*)/i) { push @dd_list, $1; } elsif ($src =~ /rpm:(.*)/i) { push @rpm_list, $1; push @vendor_rpm, $1; } else { push @rpm_list, $src; push @vendor_rpm, $src; } } } if (! @dd_list) { # get Driver update disk from the default path if not specified in osimage # check the Driver Update Disk images, it can be .img or .iso if (-d "$install_dir/driverdisk/$os/$arch") { $cmd = "find $install_dir/driverdisk/$os/$arch -type f"; @dd_list = xCAT::Utils->runcmd($cmd, -1); } } foreach (split /,/,$drivers) { if (/^allupdate$/) { $Injectalldriver = 1; next; } elsif (/^updateonly$/) { $updatealldriver = 1; next; } unless (/\.ko$/) { s/$/.ko/; } push @driver_list, $_; } chomp(@dd_list); chomp(@rpm_list); chomp(@vendor_rpm); unless (@dd_list || (@rpm_list && ($Injectalldriver || $updatealldriver || @driver_list))) { return (); } # Create the tmp dir for dd hack my $dd_dir = mkdtemp("/tmp/ddtmpXXXXXXX"); mkpath "$dd_dir/initrd_img"; my $pkgdir="$install_dir/$os/$arch"; # Unzip the original initrd # This only needs to be done for ppc or handling the driver rpm # For the driver disk against x86, append the driver disk to initrd directly if ($arch =~/ppc/ || (@rpm_list && ($Injectalldriver || $updatealldriver || @driver_list))) { if ($arch =~ /ppc/) { $cmd = "gunzip --quiet -c $pkgdir/1/suseboot/initrd64 > $dd_dir/initrd"; } elsif ($arch =~ /x86/) { $cmd = "gunzip --quiet -c $img > $dd_dir/initrd"; } xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not gunzip the initial initrd."; xCAT::MsgUtils->message("E", $rsp, $callback); return (); } # Unpack the initrd $cmd = "cd $dd_dir/initrd_img; cpio -id --quiet < $dd_dir/initrd"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update disk failed. Could not extract files from the initial initrd."; xCAT::MsgUtils->message("E", $rsp, $callback); return (); } # Start to load the drivers from rpm packages if (@rpm_list && ($Injectalldriver || $updatealldriver || @driver_list)) { # Extract the files from rpm to the tmp dir mkpath "$dd_dir/rpm"; my $new_kernel_ver; foreach my $rpm (@rpm_list) { if (-r $rpm) { $cmd = "cd $dd_dir/rpm; rpm2cpio $rpm | cpio -idum"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not extract files from the rpm $rpm."; xCAT::MsgUtils->message("I", $rsp, $callback); } } else { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not read the rpm $rpm."; xCAT::MsgUtils->message("I", $rsp, $callback); } # get the new kernel if it exists in the update distro my @new_kernels = <$dd_dir/rpm/boot/vmlinu*>; foreach my $new_kernel (@new_kernels) { if (-r $new_kernel && $new_kernel =~ /\/vmlinu[zx]-(.*(x86_64|ppc64|default))$/) { $new_kernel_ver = $1; $cmd = "/bin/mv -f $new_kernel $dd_dir/rpm/newkernel"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not move $new_kernel to $dd_dir/rpm/newkernel."; xCAT::MsgUtils->message("I", $rsp, $callback); } } } } # Extract files from vendor rpm when $ignorekernelchk is specified if ($ignorekernelchk) { mkpath "$dd_dir/vendor_rpm"; foreach my $rpm (@vendor_rpm) { if (-r $rpm) { $cmd = "cd $dd_dir/vendor_rpm; rpm2cpio $rpm | cpio -idum"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not extract files from the rpm $rpm."; xCAT::MsgUtils->message("I", $rsp, $callback); } } else { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not read the rpm $rpm."; xCAT::MsgUtils->message("I", $rsp, $callback); } } } # To skip the conflict of files that some rpm uses the xxx.ko.new as the name of the driver # Change it back to xxx.ko here $driver_name = "\*ko.new"; @all_real_path = (); my @rpmfiles = <$dd_dir/rpm/*>; if ($ignorekernelchk) { push @rpmfiles, <$dd_dir/vendor_rpm/*>; } find(\&get_all_path, @rpmfiles); foreach my $file (@all_real_path) { my $newname = $file; $newname =~ s/\.new$//; $cmd = "mv -f $file $newname"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not rename $file."; xCAT::MsgUtils->message("I", $rsp, $callback); } } # Copy the firmware to the rootimage if (-d "$dd_dir/rpm/lib/firmware") { if (! -d "$dd_dir/initrd_img/lib") { mkpath "$dd_dir/initrd_img/lib"; } $cmd = "/bin/cp -rf $dd_dir/rpm/lib/firmware $dd_dir/initrd_img/lib"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not copy firmware to the initrd."; xCAT::MsgUtils->message("I", $rsp, $callback); } } # if the new kernel from update distro is not existed in initrd, create the path for it if (! -r "$dd_dir/initrd_img/lib/modules/$new_kernel_ver/") { mkpath ("$dd_dir/initrd_img/lib/modules/$new_kernel_ver/"); # link the /modules to this new kernel dir unlink "$dd_dir/initrd_img/modules"; $cmd = "/bin/ln -sf lib/modules/$new_kernel_ver/initrd $dd_dir/initrd_img/modules"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not create link to the new kernel dir."; xCAT::MsgUtils->message("I", $rsp, $callback); } } # get the name list for all drivers in the original initrd if 'netdrivers=updateonly' # then only the drivers in this list will be updated from the drvier rpms if ($updatealldriver) { $driver_name = "\*\.ko"; @all_real_path = (); find(\&get_all_path, <$dd_dir/initrd_img/lib/modules/*>); foreach my $real_path (@all_real_path) { my $driver = basename($real_path); push @driver_list, $driver; } } # Copy the drivers to the rootimage # Figure out the kernel version my @kernelpaths = <$dd_dir/initrd_img/lib/modules/*>; my @kernelvers; if ($new_kernel_ver) { push @kernelvers, $new_kernel_ver; } foreach (@kernelpaths) { my $kernelv = basename($_); if ($kernelv =~ /^[\d\.]+/) { if ($new_kernel_ver) { rmtree ("$dd_dir/initrd_img/lib/modules/$kernelv"); } else { push @kernelvers, $kernelv; } } } foreach my $kernelver (@kernelvers) { # if $ignorekernelchk is specified, copy all files from vendor_rpm dir to target kernel dir if ($ignorekernelchk) { my @kernelpath4vrpm = <$dd_dir/vendor_rpm/lib/modules/*>; foreach my $path (@kernelpath4vrpm) { unless (-d "$dd_dir/rpm/lib/modules/$kernelver") { mkpath "$dd_dir/rpm/lib/modules/$kernelver"; } $cmd = "/bin/cp -rf $path/* $dd_dir/rpm/lib/modules/$kernelver"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not copy driver $path from vendor rpm."; xCAT::MsgUtils->message("I", $rsp, $callback); } } } unless (-d "$dd_dir/rpm/lib/modules/$kernelver") { next; } if (@driver_list) { # copy the specific drivers to initrd foreach my $driver (@driver_list) { $driver_name = $driver; @all_real_path = (); find(\&get_all_path, <$dd_dir/rpm/lib/modules/$kernelver/*>); # NOTE: for the initrd of sles that the drivers are put in the /lib/modules/$kernelver/initrd/ foreach my $real_path (@all_real_path) { if ($real_path && $real_path =~ m!$dd_dir/rpm/lib/modules/$kernelver/!) { if (! -d "$dd_dir/initrd_img/lib/modules/$kernelver/initrd") { mkpath "$dd_dir/initrd_img/lib/modules/$kernelver/initrd"; } $cmd = "/bin/cp -rf $real_path $dd_dir/initrd_img/lib/modules/$kernelver/initrd"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not copy driver $driver to the initrd."; xCAT::MsgUtils->message("I", $rsp, $callback); } else { push @rpm_drivers, $driver; } } } } } elsif ($Injectalldriver) { # copy all the drviers to the initrd $driver_name = "\*\.ko"; @all_real_path = (); find(\&get_all_path, <$dd_dir/rpm/lib/modules/$kernelver/*>); foreach my $real_path (@all_real_path) { # NOTE: for the initrd of sles that the drivers are put in the /lib/modules/$kernelver/initrd/ if ($real_path && $real_path =~ m!$dd_dir/rpm/lib/modules/$kernelver/!) { if (! -d "$dd_dir/initrd_img/lib/modules/$kernelver/initrd") { mkpath "$dd_dir/initrd_img/lib/modules/$kernelver/initrd"; } $cmd = "/bin/cp -rf $real_path $dd_dir/initrd_img/lib/modules/$kernelver/initrd"; my $driver = basename($real_path); xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not copy driver $driver to the initrd."; xCAT::MsgUtils->message("I", $rsp, $callback); } else { push @rpm_drivers, $driver; } } } } # regenerate the modules dependency foreach my $kernelver (@kernelvers) { $cmd = "cd $dd_dir/initrd_img; depmod -b . $kernelver"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update failed. Could not generate the depdency for the drivers in the initrd."; xCAT::MsgUtils->message("I", $rsp, $callback); } } } } # end of loading drivers from rpm packages # Create the dir for driver update disk mkpath("$dd_dir/initrd_img/cus_driverdisk"); # insert the driver update disk into the cus_driverdisk dir foreach my $dd (@dd_list) { copy($dd, "$dd_dir/initrd_img/cus_driverdisk"); } # Repack the initrd # In order to avoid the runcmd add the '2>&1' at end of the cpio # cmd, the echo cmd is added at the end $cmd = "cd $dd_dir/initrd_img; find . -print | cpio -H newc -o > $dd_dir/initrd | echo"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update disk failed. Could not pack the hacked initrd."; xCAT::MsgUtils->message("E", $rsp, $callback); return (); } # zip the initrd #move ("$dd_dir/initrd.new", "$dd_dir/initrd"); $cmd = "gzip -f $dd_dir/initrd"; xCAT::Utils->runcmd($cmd, -1); if ($arch =~/ppc/) { if (-r "$dd_dir/rpm/newkernel") { # if there's new kernel from update distro, then use it copy ("$dd_dir/rpm/newkernel", "$dd_dir/kernel"); } else { # make sure the src kernel existed $cmd = "gunzip -c $pkgdir/1/suseboot/linux64.gz > $dd_dir/kernel"; xCAT::Utils->runcmd($cmd, -1); } # create the zimage $cmd = "env -u POSIXLY_CORRECT /lib/lilo/scripts/make_zimage_chrp.sh --vmlinux $dd_dir/kernel --initrd $dd_dir/initrd.gz --output $img"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update disk failed. Could not pack the hacked initrd."; xCAT::MsgUtils->message("E", $rsp, $callback); return (); } } elsif ($arch =~/x86/) { if (-r "$dd_dir/rpm/newkernel") { # if there's new kernel from update distro, then use it copy ("$dd_dir/rpm/newkernel", $kernelpath); } copy ("$dd_dir/initrd.gz", "$img"); } } elsif ($arch =~ /x86/) { mkpath("$dd_dir/initrd_img/cus_driverdisk"); # insert the driver update disk into the cus_driverdisk dir foreach my $dd (@dd_list) { copy($dd, "$dd_dir/initrd_img/cus_driverdisk"); } # Repack the initrd # In order to avoid the runcmd add the '2>&1' at end of the cpio # cmd, the echo cmd is added at the end $cmd = "cd $dd_dir/initrd_img; find . -print | cpio -H newc -o > $dd_dir/initrd | echo"; xCAT::Utils->runcmd($cmd, -1); if ($::RUNCMD_RC != 0) { my $rsp; push @{$rsp->{data}}, "Handle the driver update disk failed. Could not pack the hacked initrd."; xCAT::MsgUtils->message("E", $rsp, $callback); return (); } $cmd = "gzip -f $dd_dir/initrd"; xCAT::Utils->runcmd($cmd, -1); my $rdhandle; my $ddhandle; open($rdhandle,">>",$img); open ($ddhandle,"<","$dd_dir/initrd.gz"); binmode($rdhandle); binmode($ddhandle); { local $/ = 32768; my $block; while ($block = <$ddhandle>) { print $rdhandle $block; } } close($rdhandle); close($ddhandle); } # clean the env system("rm -rf $dd_dir"); my $rsp; if (@dd_list) { push @{$rsp->{data}}, "The driver update disk:".join(',',@dd_list)." have been injected to initrd."; } # remove the duplicated names my %dnhash; foreach (@rpm_drivers) { $dnhash{$_} = 1; } @rpm_drivers = keys %dnhash; if (@rpm_list) { if (@rpm_drivers) { push @{$rsp->{data}}, "The drivers:".join(',', sort(@rpm_drivers))." from ".join(',', sort(@rpm_list))." have been injected to initrd."; } else { push @{$rsp->{data}}, "No driver was injected to initrd."; } } xCAT::MsgUtils->message("I", $rsp, $callback); my @dd_files = (); foreach my $dd (sort(@dd_list)) { chomp($dd); $dd =~ s/^.*\///; push @dd_files, $dd; } return sort(@dd_files); } #sub get_tmpl_file_name { # my $base=shift; # my $profile=shift; # my $os=shift; # my $arch=shift; # if (-r "$base/$profile.$os.$arch.tmpl") { # return "$base/$profile.$os.$arch.tmpl"; # } # elsif (-r "$base/$profile.$os.tmpl") { # return "$base/$profile.$os.tmpl"; # } # elsif (-r "$base/$profile.$arch.tmpl") { # return "$base/$profile.$arch.tmpl"; # } # elsif (-r "$base/$profile.tmpl") { # return "$base/$profile.tmpl"; # } # # return ""; #} 1;