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xcat-core/xCAT-server/lib/xcat/plugins/sles.pm
Mark Gurevich ae5dea34b4 Improve SLES15 copycds for Media2 iso
2022-06-28 11:46:41 -04:00

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Perl
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# 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=(sle.*)|(suse.*)",
mkinstall => "nodetype:os=(sle.*)|(suse.*)",
mkstatelite => "nodetype:os=(sle.*)",
mksysclone => "nodetype:os=(sle.*)|(suse.*)"
};
}
sub mknetboot
{
my $req = shift;
my $callback = shift;
my $doreq = shift;
my $statelite = 0;
if ($req->{command}->[0] =~ 'mkstatelite') {
$statelite = "true";
}
my $bootparams = ${$req->{bootparams}};
my $nodes = @{ $req->{node} };
my @nodes = @{ $req->{node} };
my $noupdateinitrd = $req->{'noupdateinitrd'};
my $ignorekernelchk = $req->{'ignorekernelchk'};
my $linuximagetab;
my $pkgdir;
my $osimagetab;
my $installroot = xCAT::TableUtils->getInstallDir();
my $globaltftpdir = xCAT::TableUtils->getTftpDir();
xCAT::MsgUtils->trace(0, "d", "sles->mknetboot: installroot=$installroot globaltftpdir=$globaltftpdir");
my $xcatdport = "3001";
my $xcatiport = "3002";
my $nodestatus = "y";
my @entries = xCAT::TableUtils->get_site_attribute("xcatdport");
my $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 @myself = xCAT::NetworkUtils->determinehostname();
my $myname = $myself[ (scalar @myself) - 1 ];
my $ostab = xCAT::Table->new('nodetype');
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 = ();
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 (<FILE>) {
if (/enable=yes/) {
$img_hash{$imagename}->{'cfgpart'} = "yes";
last;
}
}
}
close(FILE);
}
$img_hash{$imagename}->{'partfile'} = $ref1->{'partitionfile'};
}
} else {
xCAT::MsgUtils->report_node_error($callback, $node, "The OS image '$imagename' for node does not exist");
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 {
# This is deprecated mode to define node's provmethod, not supported now.
my @ents = xCAT::TableUtils->get_site_attribute("disablenodesetwarning");
my $site_ent = $ents[0];
if (!defined($site_ent) || ($site_ent =~ /no/i) || ($site_ent =~ /0/))
{
if (!defined($::DISABLENODESETWARNING)) { # set by AAsn.pm
xCAT::MsgUtils->report_node_error($callback, $node, "OS image name must be specified in nodetype.provmethod");
next;
}
}
$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 = $ref1->{'rootfstype'};
}
} else {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Cannot find the linux image called "$osver-$arch-$imgname-$profile", maybe you need to use the "nodeset <nr> osimage=<osimage name>" command to set the boot state}
);
next;
}
#get the dump path and kernel crash memory side for kdump on sles
if (!$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 (<FILE>) {
if (/enable=yes/) {
$cfgpart = "yes";
last;
}
}
}
close(FILE);
}
}
}
else {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Cannot find the linux image called "$osver-$arch-$imgname-$profile", maybe you need to use the "nodeset <nr> osimage=<osimage name>" command to set the boot state}
);
next;
}
$rootimgdir = "$installroot/netboot/$osver/$arch/$profile";
}
unless ($osver and $arch and $profile)
{
xCAT::MsgUtils->report_node_error($callback, $node, "Insufficient nodetype entry or osimage entry for $node");
next;
}
#print"osvr=$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 $compressedrootimg=xCAT::SvrUtils->searchcompressedrootimg("$rootimgdir");
if ($statelite) {
unless (-r "$rootimgdir/kernel") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Did you run "genimage" before running "liteimg"? kernel cannot be found at $rootimgdir/kernel on $myname}
);
next;
}
if ($rootfstype eq "ramdisk" and !-r "$rootimgdir/rootimg-statelite.gz") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{No packed rootimage for the platform $osver, arch $arch and profile $profile, please run liteimg to create it}
);
next;
}
if (!-r "$rootimgdir/initrd-statelite.gz") {
if (!-r "$rootimgdir/initrd.gz") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Did you run "genimage" before running "liteimg"? initrd.gz or initrd-statelite.gz cannot be found}
);
next;
}
else {
copy("$rootimgdir/initrd.gz", "$rootimgdir/initrd-statelite.gz");
}
}
} else {
unless (-r "$rootimgdir/kernel") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Did you run "genimage" before running "packimage"? kernel cannot be found at $rootimgdir/kernel on $myname}
);
next;
}
if (!-r "$rootimgdir/initrd-stateless.gz") {
if (!-r "$rootimgdir/initrd.gz") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{Did you run "genimage" before running "packimage"? initrd.gz or initrd-stateless.gz cannot be found}
);
next;
}
else {
copy("$rootimgdir/initrd.gz", "$rootimgdir/initrd-stateless.gz");
}
}
unless (-r -f "$rootimgdir/$compressedrootimg") {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{No packed image for platform $osver, architecture $arch, and profile $profile, please run packimage before nodeset}
);
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") {
xCAT::MsgUtils->report_node_error($callback, $node, qq{Copying to $tftppath failed.});
next;
}
} else {
unless (-r "$tftppath/kernel"
and -r "$tftppath/initrd-stateless.gz") {
xCAT::MsgUtils->report_node_error($callback, $node, qq{Copying to $tftppath failed.});
next;
}
}
# TODO: move the table operations out of the foreach loop
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 = $reshash->{$node}->[0]; #$restab->getNodeAttribs($node, ['tftpserver']);
if ($ient and $ient->{xcatmaster}) {
$xcatmaster = $ient->{xcatmaster};
} else {
$xcatmaster = '!myipfn!'; #allow service nodes to dynamically nominate themselves as a good contact point, this is of limited use in the event that xcat is not the dhcp/tftp server
}
if ($ient and $ient->{nfsserver} and $ient->{nfsserver} ne '<xcatmaster>') {
$imgsrv = $ient->{nfsserver};
}elsif ($ient and $ient->{tftpserver} and $ient->{tftpserver} ne '<xcatmaster>') {
$imgsrv = $ient->{tftpserver};
} else {
$imgsrv = $xcatmaster;
}
unless ($imgsrv)
{
xCAT::MsgUtils->report_node_error($callback, $node, "Unable to determine or reasonably guess the image server for $node");
next;
}
# Start to build kcmdline
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 = $rootimgdir;
if ($ient->{nfsdir} ne '') {
$nfsdir = $ient->{nfsdir} . "/netboot/$osver/$arch/$profile";
}
if (&using_dracut($rootimgdir)) {
$kcmdline = "root=nfs:$nfssrv:$nfsdir/rootimg:ro STATEMNT=";
} else {
$kcmdline = "NFSROOT=$nfssrv:$nfsdir STATEMNT=";
}
} else {
$kcmdline = "imgurl=$httpmethod://$imgsrv:$httpport/$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://$imgsrv:$httpport/$rootimgdir/$compressedrootimg ";
}
$kcmdline .= "XCAT=$xcatmaster:$xcatdport quiet ";
$kcmdline .= " XCATHTTPPORT=$httpport ";
#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")) {
$kcmdline .= " nonodestatus ";
}
if (($::XCATSITEVALS{xcatdebugmode} eq "1") or ($::XCATSITEVALS{xcatdebugmode} eq "2")) {
my ($host, $ipaddr) = xCAT::NetworkUtils->gethostnameandip($xcatmaster);
if ($ipaddr) {
#for use in postscript and postbootscript in xcatdsklspost in the rootimg
$kcmdline .= " LOGSERVER=$ipaddr ";
#for use in syslog dracut module in the initrd
$kcmdline .= " syslog.server=$ipaddr syslog.type=rsyslogd syslog.filter=*.* ";
}
else {
#for use in postscript and postbootscript in xcatdsklspost in the rootimg
$kcmdline .= " LOGSERVER=$xcatmaster ";
#for use in syslog dracut module in the initrd
$kcmdline .= " syslog.server=$xcatmaster syslog.type=rsyslogd syslog.filter=*.* ";
}
$kcmdline .= " xcatdebugmode=$::XCATSITEVALS{xcatdebugmode} ";
}
$kcmdline .= "NODE=$node ";
# add flow control setting
$kcmdline .= "FC=$useflowcontrol ";
# add dhcp for ip
$kcmdline .= "ip=dhcp ";
my $mac;
my $installnic;
my $primarynic;
if ($reshash->{$node}->[0] and $reshash->{$node}->[0]->{installnic}) {
$installnic = $reshash->{$node}->[0]->{installnic};
}
if ($reshash->{$node}->[0] and $reshash->{$node}->[0]->{primarynic}) {
$primarynic = $reshash->{$node}->[0]->{primarynic};
}
if (defined($machash->{$node}->[0]) && $machash->{$node}->[0]->{'mac'}) {
$mac = xCAT::Utils->parseMacTabEntry($machash->{$node}->[0]->{mac}, $node);
}
my $net_params = xCAT::NetworkUtils->gen_net_boot_params($installnic, $primarynic, $mac, $nodebootif);
if (defined($net_params->{ifname}) || defined($net_params->{netdev})) {
$kcmdline .= " $net_params->{ifname} $net_params->{netdev} ";
} elsif (defined($net_params->{BOOTIF}) && ($net_params->{setmac} || $arch =~ /ppc/)) {
$kcmdline .= " $net_params->{BOOTIF} ";
}
if (defined $sent->{serialport}) {
#my $sent = $hmtab->getNodeAttribs($node,['serialspeed','serialflow']);
unless ($sent->{serialspeed}) {
xCAT::MsgUtils->report_node_error($callback, $node,"serialport defined, but no serialspeed for $node in nodehm table");
next;
}
if ($arch =~ /ppc64le/i) {
$kcmdline .=
"console=tty0 console=hvc" . $sent->{serialport} . "," . $sent->{serialspeed};
} else {
$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";
# special case for the dracut-enabled OSes
if ($statelite) {
unless (&using_dracut($rootimgdir) && ($rootfstype eq "ramdisk")) {
$initrdstr = "$rtftppath/initrd-statelite.gz";
}
}
if ($statelite)
{
my $statelitetb = xCAT::Table->new('statelite');
my $mntopts = $statelitetb->getNodeAttribs($node, ['mntopts']);
my $mntoptions = $mntopts->{'mntopts'};
if (defined($mntoptions)) {
$kcmdline .= " MNTOPTS=$mntoptions";
}
}
$bootparams->{$node}->[0]->{kernel} = "$rtftppath/kernel";
$bootparams->{$node}->[0]->{initrd} = $initrdstr;
$bootparams->{$node}->[0]->{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 $noupdateinitrd = $request->{'noupdateinitrd'};
my $ignorekernelchk = $request->{'ignorekernelchk'};
my $bootparams = ${$request->{bootparams}};
my @nodes = @{ $request->{node} };
my $node;
#my $sitetab = xCAT::Table->new('site');
my $linuximagetab;
my $osimagetab;
my $osdistrouptab;
#>>>>>>>used for trace log start>>>>>>>
my @args = ();
my %opt;
if (ref($request->{arg})) {
@args = @{ $request->{arg} };
} else {
@args = ($request->{arg});
}
@ARGV = @args;
GetOptions('V' => \$opt{V});
my $verbose_on_off = 0;
if ($opt{V}) { $verbose_on_off = 1; }
#>>>>>>>used for trace log end>>>>>>>
my $ostab = xCAT::Table->new('nodetype');
my $ntents = $ostab->getNodesAttribs($request->{node}, [ 'os', 'arch', 'profile', 'provmethod' ]);
my %img_hash = ();
my $restab = xCAT::Table->new('noderes');
my $hmtab = xCAT::Table->new('nodehm');
my $resents =
$restab->getNodesAttribs(
\@nodes,
[
'nfsserver', 'tftpdir', 'xcatmaster',
'primarynic', 'installnic', 'tftpserver'
]
);
my $hments =
$hmtab->getNodesAttribs(\@nodes, [ 'serialport', 'serialspeed', 'serialflow' ]);
my $globaltftpdir = xCAT::TableUtils->getTftpDir();
my $installroot = xCAT::TableUtils->getInstallDir();
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: installroot=$installroot globaltftpdir=$globaltftpdir");
my %donetftp;
require xCAT::Template; #only used here, load so memory can be COWed
# Define a variable for driver update list
my @dd_drivers;
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 $imagename; # set it if running of 'nodeset osimage=xxx'
my %tmpl_hash;
if ($resents->{$node} and $resents->{$node}->[0]->{tftpdir}) {
$tftpdir = $resents->{$node}->[0]->{tftpdir};
} else {
$tftpdir = $globaltftpdir;
}
if ($resents and $resents->{$node}->[0]->{xcatmaster} ) {
$tmpl_hash{"xcatmaster"} = $resents->{$node}->[0]->{xcatmaster};
}
if ($resents and $resents->{$node}->[0]->{tftpserver}) {
$tmpl_hash{"tftpserver"} = $resents->{$node}->[0]->{tftpserver};
}
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: tftpdir=$tftpdir");
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} = $ref1->{'netdrivers'};
}
}
} else {
xCAT::MsgUtils->report_node_error($callback, $node, "The OS image '$imagename' for node does not exist");
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 = $ph->{'osupdir'};
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: imagename=$imagename pkgdir=$pkgdir pkglistfile=$pkglistfile tmplfile=$tmplfile partfile=$partfile");
}
else {
my @ents = xCAT::TableUtils->get_site_attribute("disablenodesetwarning");
my $site_ent = $ents[0];
if (!defined($site_ent) || ($site_ent =~ /no/i) || ($site_ent =~ /0/))
{
if (!defined($::DISABLENODESETWARNING)) { # set by AAsn.pm
xCAT::MsgUtils->report_node_error($callback, $node, "OS image name must be specified in nodetype.provmethod");
next;
}
}
$os = $ent->{os};
$arch = $ent->{arch};
$profile = $ent->{profile};
if ($os =~ /sles.*/) {
$plat = "sles";
} elsif ($os =~ /sle.*/) {
$plat = "sle";
} elsif ($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";
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: imagename=$imgname pkgdir=$pkgdir pkglistfile=$pkglistfile tmplfile=$tmplfile");
if (!$linuximagetab) {
$linuximagetab = xCAT::Table->new('linuximage');
}
if ($linuximagetab) {
(my $ref1) = $linuximagetab->getAttribs({ imagename => $imgname }, 'partitionfile');
if ($ref1 and $ref1->{'partitionfile'}) {
$partfile = $ref1->{'partitionfile'};
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: partfile=$partfile");
}
}
else {
xCAT::MsgUtils->report_node_error($callback, $node,
qq{ Cannot find the linux image called "$imgname", maybe you need to use the "nodeset <nr> osimage=<your_image_name>" command to set the boot state}
);
}
}
unless ($os and $arch and $profile)
{
xCAT::MsgUtils->report_node_error($callback, $node, "Insufficient nodetype entry or osimage entry for $node");
next;
}
unless (-r "$tmplfile")
{
xCAT::MsgUtils->report_node_error($callback, $node,
"No AutoYaST template exists for " . $ent->{profile} . " in directory $installroot/custom/install/$plat or $::XCATROOT/share/xcat/install/$plat"
);
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 ( -d "$pkgdir/2") {
$srcdirs[0] = "$pkgdir/1,$pkgdir/2";
}else{
$srcdirs[0] = "$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,
$partfile,
\%tmpl_hash
);
}
if ($tmperr) {
xCAT::MsgUtils->report_node_error($callback, $node, $tmperr);
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 (
$arch eq "ppc64le"
and -r "$pkgdir/1/boot/ppc64le/linux"
and -r "$pkgdir/1/boot/ppc64le/initrd"
)
or (
$arch eq "ppc64"
and -r "$pkgdir/1/suseboot/linux64"
and -r "$pkgdir/1/suseboot/initrd64"
)
or ($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, $ignorekernelchk);
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: copy initrd.img and linux to $tftppath");
}
} elsif ($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, $ignorekernelchk);
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: copy initrd.img and linux to $tftppath");
}
} elsif ($arch eq "ppc64le") {
unless ($noupdateinitrd) {
copy("$pkgdir/1/boot/$arch/linux", "$tftppath");
copy("$pkgdir/1/boot/$arch/initrd", "$tftppath");
@dd_drivers = &insert_dd($callback, $os, $arch, "$tftppath/initrd", "$tftppath/linux", $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk);
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: copy initrd.img and linux to $tftppath");
}
}
elsif ($arch eq "ppc64") {
unless ($noupdateinitrd) {
if (-r "$pkgdir/1/suseboot/linux64" and -r "$pkgdir/1/suseboot/initrd64") {
#from sles11.3, suseboot/linux64 and suseboot/initrd64 are used for diskful
#network installation
#the previous suseboot/inst64 can not be run on Power8 BE
copy("$pkgdir/1/suseboot/linux64", "$tftppath");
copy("$pkgdir/1/suseboot/initrd64", "$tftppath");
#TODO: need to verify whether initrd64 and linux64 can be inserted into initrd
#@dd_drivers = &insert_dd($callback, $os, $arch,"$tftppath/initrd64" ,"$tftppath/linux64", undef, $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk);
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: copy initrd64 and linux64 to $tftppath");
}
elsif (-r "$pkgdir/1/suseboot/inst64") {
#suseboot/inst64 is used for network installation before sles11.3
#suseboot/inst64 can not be run on Power8 BE
copy("$pkgdir/1/suseboot/inst64", "$tftppath");
@dd_drivers = &insert_dd($callback, $os, $arch, "$tftppath/inst64", undef, $driverupdatesrc, $netdrivers, $osupdir, $ignorekernelchk);
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: copy inst64 to $tftppath");
}
}
}
}
#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 $installnic;
my $primarynic;
my $mac;
if ($ent->{installnic}) {
$installnic = $ent->{installnic};
}
if ($ent->{primarynic}) {
$primarynic = $ent->{primarynic};
}
my $mactab = xCAT::Table->new("mac");
my $macref = $mactab->getNodeAttribs($node, ['mac']);
if ($macref->{mac}) {
$mac = xCAT::Utils->parseMacTabEntry($macref->{mac}, $node);
}
my $net_params = xCAT::NetworkUtils->gen_net_boot_params($installnic, $primarynic, $mac);
if (defined($net_params->{netdevice})) {
$kcmdline .= " $net_params->{netdevice} ";
}
# 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 ($ipaddr) {
xCAT::MsgUtils->report_node_error($callback, $node, "cannot resolve the ip address of $node");
next;
}
if ($gateway eq '<xcatmaster>') {
my @gatewayd = xCAT::NetworkUtils->my_ip_facing($ipaddr);
unless ($gatewayd[0]) { $gateway = $gatewayd[1]; }
}
$kcmdline .= " hostip=$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 '<xcatmaster>') {
my @ipd = xCAT::NetworkUtils->my_ip_facing($gateway);
unless ($ipd[0]) { $ip = $ipd[1]; }
} 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 ";
$kcmdline .= " netwait=10 ";
}
if (($::XCATSITEVALS{xcatdebugmode} eq "1") or ($::XCATSITEVALS{xcatdebugmode} eq "2")) {
unless ($netserver eq '!myipfn!') {
my ($host, $ip) = xCAT::NetworkUtils->gethostnameandip($netserver);
$netserver = $ip;
}
if ($::XCATSITEVALS{xcatdebugmode} eq "2") {
#enable ssh access during installation,the password is set to "cluster"
$kcmdline .= " UseSSH=1 SSHPassword=cluster";
}
$kcmdline .= " Loghost=$netserver";
}
if (defined($sent->{serialport})) {
unless ($sent->{serialspeed}) {
xCAT::MsgUtils->report_node_error($callback, $node, "serialport defined, but no serialspeed for this node in nodehm table");
next;
}
if ($arch =~ /ppc64le/i) {
$kcmdline .=
" console=tty0 console=hvc"
. $sent->{serialport} . ","
. $sent->{serialspeed};
} else {
$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/ or $arch eq "ppc64le")
{
$kernelpath = "$rtftppath/linux";
$initrdpath = "$rtftppath/initrd";
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: kcmdline=$kcmdline kernal=$kernelpath initrd=$initrdpath");
$bootparams->{$node}->[0]->{kernel} = $kernelpath;
$bootparams->{$node}->[0]->{initrd} = $initrdpath;
$bootparams->{$node}->[0]->{kcmdline} = $kcmdline;
}
elsif ($arch eq "ppc64")
{
if (-r "$tftppath/linux64" and -r "$tftppath/initrd64") {
#from sles11.3, suseboot/linux64 and suseboot/initrd64 are used for diskful
#network installation
#the previous suseboot/inst64 can not be run on Power8 BE
$kernelpath = "$rtftppath/linux64";
$initrdpath = "$rtftppath/initrd64";
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: kcmdline=$kcmdline kernal=$kernelpath initrd=$initrdpath");
$bootparams->{$node}->[0]->{kernel} = $kernelpath;
$bootparams->{$node}->[0]->{initrd} = $initrdpath;
$bootparams->{$node}->[0]->{kcmdline} = $kcmdline;
}
elsif (-r "$tftppath/inst64") {
#suseboot/inst64 is used for network installation before sles11.3
#suseboot/inst64 can not be run on Power8 BE
$kernelpath = "$rtftppath/inst64";
xCAT::MsgUtils->trace($verbose_on_off, "d", "sles->mkinstall: kcmdline=$kcmdline kernal=$kernelpath initrd=");
$bootparams->{$node}->[0]->{kernel} = $kernelpath;
$bootparams->{$node}->[0]->{initrd} = "";
$bootparams->{$node}->[0]->{kcmdline} = $kcmdline;
}
}
}
else {
xCAT::MsgUtils->report_node_error($callback, $node, "Failed to detect copycd configured install source at /install/$os/$arch");
next;
}
} # end foreach node
#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 $bootparams = ${$request->{bootparams}};
my $osimagetab;
my %img_hash = ();
my $installroot = xCAT::TableUtils->getInstallDir();
my $globaltftpdir = xCAT::TableUtils->getTftpDir();
xCAT::MsgUtils->trace(0, "d", "sles->mksysclone: installroot=$installroot globaltftpdir=$globaltftpdir");
my $node;
my $ostab = xCAT::Table->new('nodetype');
my $restab = xCAT::Table->new('noderes');
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 <noderange> 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 <noderange> osimage=<osimage_name>\" 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/replace_byid_device", "$pspath/11all.replace_byid_device");
copy("$installroot/postscripts/configefi", "$pspath/15all.configefi");
copy("$installroot/postscripts/updatenetwork", "$pspath/16all.updatenetwork");
copy("$installroot/postscripts/runxcatpost", "$pspath/17all.runxcatpost");
copy("$installroot/postscripts/makeinitrd", "$pspath/20all.makeinitrd");
copy("$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");
#}
if (-e "$pspath/95all.monitord_rebooted")
{
`rm $pspath/95all.monitord_rebooted`;
}
# copy hosts
copy("/etc/hosts", "$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 $installnic;
my $primarynic;
my $mac;
if ($ent->{installnic}) {
$installnic = $ent->{installnic};
}
if ($ent->{primarynic}) {
$primarynic = $ent->{primarynic};
}
my $mactab = xCAT::Table->new("mac");
my $macref = $mactab->getNodeAttribs($node, ['mac']);
if ($macref->{mac}) {
$mac = xCAT::Utils->parseMacTabEntry($macref->{mac}, $node);
}
my $net_params = xCAT::NetworkUtils->gen_net_boot_params($installnic, $primarynic, $mac);
$kcmdline .= " $net_params->{netdevice} ";
if ($arch =~ /ppc/) {
$kcmdline .= " dhcptimeout=150";
$kcmdline .= " $net_params->{BOOTIF} ";
}
if (defined($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";
}
$bootparams->{$node}->[0]->{kernel} = "xcat/genesis.kernel.$arch";
$bootparams->{$node}->[0]->{initrd} = $i;
$bootparams->{$node}->[0]->{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 $rc = xCAT::Utils->runcmd($cmd, -1);
my $imagedir;
my $osimagetab = xCAT::Table->new('linuximage');
my $osimageentry = $osimagetab->getAttribs({ imagename => $imagename }, 'rootimgdir');
if ($osimageentry) {
$imagedir = $osimageentry->{rootimgdir};
$imagedir =~ s/^(\/.*)\/.+\/?$/$1/;
} else {
$imagedir = "$installroot/sysclone/images";
$cmd = "chdef -t osimage $imagename rootimgdir=$imagedir/$imagename";
$rc = `$cmd`;
}
my $cfgimagedir = `cat /etc/systemimager/rsync_stubs/40$imagename|grep path`;
chomp($cfgimagedir);
$cfgimagedir =~ s/^\s+path=(\/.*)\/.+$/$1/g;
if ($imagedir ne $cfgimagedir) {
my $oldstr = `cat /etc/systemimager/rsync_stubs/40$imagename|grep path`;
chomp($oldstr);
$oldstr =~ s/\//\\\\\//g;
my $targetstr = "\tpath=" . $imagedir . "/" . $imagename;
$targetstr =~ s/\//\\\\\//g;
$cmd = "sed -i \"s/$oldstr/$targetstr/\" /etc/systemimager/rsync_stubs/40$imagename";
$rc = `$cmd`;
}
$rc = `export PERL5LIB=/usr/lib/perl5/site_perl/;LANG=C si_mkrsyncd_conf`;
unless (-r "$imagedir/$imagename/opt/xcat/xcatdsklspost")
{
mkpath("$imagedir/$imagename/opt/xcat/");
copy("$installroot/postscripts/xcatdsklspost", "$imagedir/$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 $retcode = xCAT::Utils->checkservicestatus("systemimager-server-rsyncd");
if ($retcode != 0) {
my $rc = xCAT::Utils->startservice("systemimager-server-rsyncd");
if ($rc != 0) {
$callback->(
{ error => [ "systemimager-server-rsyncd start unsuccessfully. please check if there is rsync service already run in your s
erver, if so, stop it first and try again" ],
errorcode => [1] }
);
return 1;
}
}
}
# Check whether the dracut is supported by this os
sub using_dracut
{
my $rootimgdir = shift;
if ( -f "$rootimgdir/rootimg/etc/dracut.conf" ) {
return 1;
} else {
return 0;
}
}
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)
{
# $mntpath needs to be specified for this plugin
return;
}
if ($path) {
# if path if specified, clean up removing trailing slash...
$path =~ s/\/$//;
# and multiple slashes
$path =~ s,//*,/,g;
}
if ($distname and $distname !~ /^sle|^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
my $discnumber;
my $darch;
my $linktwo = 0;
if (-r $mntpath . "/content")
{
my $dinfo;
open($dinfo, $mntpath . "/content");
while (<$dinfo>)
{
if (m/^DEFAULTBASE\s+(\S+)/)
{
$darch = $1;
chomp($darch);
last;
}
if (not $darch and m/^BASEARCHS\s+(\S+)/) {
$darch = $1;
}
if (not $darch and m/^REPOID.*\/(\S+)/) {
$darch = $1;
}
}
close($dinfo);
unless ($darch)
{
return;
}
my $dirh;
opendir($dirh, $mntpath);
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/ || $prod =~ m/SLES/ || $prod =~ m/SDK/)
{
if (-f "$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 = $detdistname; }
}
unless ($distname) {
if (/^DISTRO/ || /^LABEL/) {
# only set to $1 if the regex was successful
if ($_ =~ /sles:(\d+),/) {
$distname = "sles" . $1;
} elsif ($_ =~ /sles:(\d+):sp(\d+),/) {
$distname = "sles" . $1 . "." . $2;
} elsif ($_ =~ /Software Development Kit\s*(\d+)\s*SP(\d+)/) {
$distname = "sles" . $1 . "." . $2;
} elsif ($_ =~ /Software Development Kit\s*(\d+)/) {
$distname = "sles" . $1;
if ($_ =~ /sdk:(\d+):sp(\d+),/) {
$distname = "sles" . $1 . "." . $2;
}
}
}
}
}
} 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/ || $prod =~ m/SDK/) {
#
# It's been seen that the 3rd disc on the SDK ISO images are using 'media.1' instead of
# media.3 to represent the 3rd disc. This code here is to work around this issue. I'm not
# sure why this only applies to sles 11.3 since I do see the same issue in sles 11. But will
# keep the logic as is... checking for >= 11.3
#
(my $numver = $distname) =~ s/[^0-9]//g;
if ($numver >= 11.3) {
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);
} elsif (-r $mntpath . "/media.1/media") {
my $dinfo;
open($dinfo, $mntpath . "/media.1/media");
my $dsc = <$dinfo>;
if ($dsc =~ /x86_64/) {
$darch = "x86_64";
} elsif ($dsc =~ /ppc64le/) {
$darch = "ppc64le" ;
}
if ($dsc =~ /Installer/ and $dsc =~ /SLE-15/) {
$discnumber = 1;
unless ($distname) {
if ($dsc =~ /SLE-15-SP(\d)/) {
$distname = "sle15.$1";
} else {
$distname = "sle15";
}
};
} elsif ($dsc =~ /SLE-15/ and $dsc =~ /Packages/) {
$discnumber = 2;
unless ($distname) {
if ($dsc =~ /SLE-15-SP(\d)/) {
$distname = "sle15.$1";
} else {
$distname = "sle15";
}
};
} elsif ($dsc =~ /SLE-15/ and $dsc =~ /SOURCE/) {
$discnumber = 2;
unless ($distname) {
if ($dsc =~ /SLE-15-SP(\d)/) {
$distname = "sle15.$1";
} else {
$distname = "sle15";
}
};
} elsif ($dsc =~ /SLE-15/ and $dsc =~ /Full/) {
$discnumber = 1;
$linktwo = 1;
unless ($distname) {
if ($dsc =~ /SLE-15-SP(\d)/) {
$distname = "sle15.$1";
} else {
$distname = "sle15";
}
};
}
}
unless ($distname and $discnumber)
{
#failed to parse the disc info
return;
}
if ($darch and $darch =~ /i.86/)
{
$darch = "x86";
}
elsif ($darch and ($darch eq "ppc64le" or $darch eq "ppc64el")) {
$darch = "ppc64le";
}
elsif ($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("$ospkgpath");
if ($linktwo) { symlink("$path/$discnumber", "$path/2"); }
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 (<PIPE>) {
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/<os>/<arch>
#
# 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;
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