#!/usr/bin/env perl -w # IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html ##################################################### # # Reads the cluster configuration file and primes the database in prep # for HW discovery and node deployment. # # Preconditions before running the xcatsetup cmd: # - # # Todo: Limitations on the values in the config file: # - do not yet support redundant bpcs or fsps # - also support verbose mode # ##################################################### package xCAT_plugin::setup; use strict; #use warnings; use xCAT::NodeRange; use xCAT::Schema; use xCAT::Table; use xCAT::Utils; use xCAT::MsgUtils; use Data::Dumper; use xCAT::DBobjUtils; use xCAT_plugin::networks; my $CALLBACK; my %STANZAS; my $SUB_REQ; my $DELETENODES; my %NUMCECSINFRAME; my $DHCPINTERFACES; sub handled_commands { return( { xcatsetup => "setup" } ); } sub process_request { use Getopt::Long; Getopt::Long::Configure("bundling"); #Getopt::Long::Configure("pass_through"); Getopt::Long::Configure("no_pass_through"); my $request = shift; $CALLBACK = shift; $SUB_REQ = shift; #my $nodes = $request->{node}; #my $command = $request->{command}->[0]; my $args = $request->{arg}; my $VERSION; my $HELP; my %SECTIONS; # which stanzas should be processed my $SECT; my $setup_usage = sub { my $exitcode = shift @_; my %rsp; push @{$rsp{data}}, "Usage: xcatsetup [-v|--version] [-?|-h|--help] [-s|--stanzas stanza-list] [--yesreallydeletenodes] "; if ($exitcode) { $rsp{errorcode} = $exitcode; } $CALLBACK->(\%rsp); }; # Process the cmd line args if ($args) { @ARGV = @{$args}; } else { @ARGV = (); } if (!GetOptions('h|?|help' => \$HELP, 'v|version' => \$VERSION, 's|stanzas=s' => \$SECT, 'yesreallydeletenodes' => \$DELETENODES) ) { $setup_usage->(1); return; } if ($HELP || (scalar(@ARGV)==0 && !$VERSION)) { $setup_usage->(0); return; } if ($VERSION) { my %rsp; my $version = xCAT::Utils->Version(); $rsp{data}->[0] = $version; $CALLBACK->(\%rsp); return; } if ($SECT) { foreach my $s (split(/[\s,]+/, $SECT)) { $SECTIONS{$s} = 1; } } #todo: support reading the config file from stdin my $input; my $filename = fullpath($ARGV[0], $request->{cwd}->[0]); if (!open($input, $filename)) { errormsg("Can not open file $filename.", 2); return; } # Parse the config file my $success = readFileInput($input); close($input); if (!$success) { return; } # Write the db entries writedb($request->{cwd}->[0], \%SECTIONS); } sub readFileInput { my $input = shift; my $l; my $stanza; my $linenum = 0; while ($l=<$input>) { $linenum++; # skip blank and comment lines next if ( $l =~ /^\s*$/ || $l =~ /^\s*#/ ); # process a real line if ( $l =~ /^\s*(\S+)\s*=\s*(.*)\s*$/ ) { my $attr = $1; my $val = $2; #$attr =~ s/^\s*//; # Remove any leading whitespace - already did that #$attr =~ s/\s*$//; # Remove any trailing whitespace - already did that $attr =~ tr/A-Z/a-z/; # Convert to lowercase #$val =~ s/^\s*//; #$val =~ s/\s*$//; # set the value in the hash for this stanza if (!defined($stanza)) { errormsg("expected stanza header at line $linenum.", 3); return; } $STANZAS{$stanza}->{$attr} = $val; } elsif ( $l =~ /^\s*(\S+)\s*:\s*$/) { $stanza = $1; } else { errormsg("syntax error on line $linenum.", 3); return 0; } } # end while - go to next line return 1; } # A few common tables that a lot of functions need. The value is whether or not is should autocommit. my %tables = ('site' => 1, 'nodelist' => 1, 'hosts' => 1, 'ppc' => 1, 'nodetype' => 1, 'nodehm' => 1, 'noderes' => 1, 'postscripts' => 1, 'nodepos' => 1, 'servicenode' => 1, 'nodegroup' => 0, 'networks' => 1, ); my $CECPOSITIONS; # a hash of the cec values in the nodepos table sub writedb { my ($cwd, $sections) = @_; # the current dir from the request and the stanzas that should be processed # Open some common tables that several of the stanzas need foreach my $tab (keys %tables) { $tables{$tab} = xCAT::Table->new($tab, -create=>1, -autocommit=>$tables{$tab}); if (!$tables{$tab}) { errormsg("Can not open $tab table in database. Exiting config file processing.", 3); return; } } # Write service LAN info (hash key=xcat-service-lan) #using hostname-range, write: nodelist.node, nodelist.groups, switches.switch #using hostname-range and starting-ip, write regex for: hosts.node, hosts.ip #using num-ports-per-switch, switch-port-prefix, switch-port-sequence, write: switch.node, switch.switch, switch.port #using dhcp-dynamic-range, write: networks.dynamicrange for the service network. # * Note: for AIX the permanent IPs for HMCs/FSPs/BPAs (specified in later stanzas) should be within this dynamic range, at the high end. For linux the permanent IPs should be outside this dynamic range. # * use the first IP in the specified dynamic range to locate the service network in the networks table #on aix stop bootp - see section 2.2.1.1 of p hw mgmt doc #run makedhcp -n my $iprange = $STANZAS{'xcat-service-lan'}->{'dhcp-dynamic-range'}; if ($iprange && (!scalar(keys(%$sections))||$$sections{'xcat-service-lan'})) { my $mkresult = xCAT_plugin::networks->donets(); unless (writenetworks($iprange)) { closetables(); return; } } # Write site table attrs (hash key=xcat-site) my $domain = $STANZAS{'xcat-site'}->{domain}; if ($domain && (!scalar(keys(%$sections))||$$sections{'xcat-site'})) { writesite($domain); } # Write HMC info (hash key=xcat-hmcs) my $hmcrange = $STANZAS{'xcat-hmcs'}->{'hostname-range'}; if ($hmcrange && (!scalar(keys(%$sections))||$$sections{'xcat-hmcs'})) { unless (writehmc($hmcrange)) { closetables(); return; } } # Write frame info (hash key=xcat-frames) my $framerange = $STANZAS{'xcat-frames'}->{'hostname-range'}; if ($framerange && (!scalar(keys(%$sections))||$$sections{'xcat-frames'})) { unless (writeframe($framerange, $cwd)) { closetables(); return; } } # Write CEC info (hash key=xcat-cecs) my $cecrange = $STANZAS{'xcat-cecs'}->{'hostname-range'}; if ($cecrange && (!scalar(keys(%$sections))||$$sections{'xcat-cecs'})) { unless (writecec($cecrange, $cwd)) { closetables(); return; } } # Save the CEC positions for all the node definitions later if ($cecrange) { $CECPOSITIONS = $tables{'nodepos'}->getNodesAttribs([noderange($cecrange)], ['rack','u']); #print Dumper($CECPOSITIONS); } # Write BB info (hash key=xcat-building-blocks) my $framesperbb = $STANZAS{'xcat-building-blocks'}->{'num-frames-per-bb'}; if ($framesperbb && (!scalar(keys(%$sections))||$$sections{'xcat-building-blocks'})) { unless (writebb($framesperbb)) { closetables(); return; } } # Write lpar info in ppc, noderes, servicenode, etc. my $lparrange = $STANZAS{'xcat-lpars'}->{'hostname-range'}; if ($lparrange && (!scalar(keys(%$sections))||$$sections{'xcat-lpars'})) { unless (writelpar($lparrange)) { closetables(); return; } #unless (writelpar-service($lparrange)) { closetables(); return; } #unless (writelpar-storage($lparrange)) { closetables(); return; } } my $snrange = $STANZAS{'xcat-service-nodes'}->{'hostname-range'}; if ($snrange && (!scalar(keys(%$sections))||$$sections{'xcat-service-nodes'})) { unless (writesn($snrange)) { closetables(); return; } } my $storagerange = $STANZAS{'xcat-storage-nodes'}->{'hostname-range'}; if ($storagerange && (!scalar(keys(%$sections))||$$sections{'xcat-storage-nodes'})) { unless (writestorage($storagerange)) { closetables(); return; } } my $computerange = $STANZAS{'xcat-compute-nodes'}->{'hostname-range'}; if ($computerange && (!scalar(keys(%$sections))||$$sections{'xcat-compute-nodes'})) { unless (writecompute($computerange)) { closetables(); return; } } closetables(); } sub closetables { # Close all the open common tables to finish up foreach my $tab (keys %tables) { if ($tables{$tab}) { $tables{$tab}->close(); } } } sub writenetworks { if ($DELETENODES) { return 1; } my $range = shift; infomsg('Defining networks attributes...'); # set the IP range specified in the config file #print "range=$range\n"; # find the network the range existed $range =~ /(\d+\.\d+\.\d+\.\d+)\-(\d+\.\d+\.\d+\.\d+)/; my ($ip1, $ip2, $ip3, $ip4) = split('\.', $1); my @entries = @{$tables{'networks'}->getAllEntries()}; if (@entries) { for my $net (@entries) { my %netref = %$net; my ($m1, $m2, $m3, $m4) = split('\.', $netref{'mask'}); my $n1 = ((int $ip1) & (int $m1)); my $n2 = ((int $ip2) & (int $m2)); my $n3 = ((int $ip3) & (int $m3)); my $n4 = ((int $ip4) & (int $m4)); my $ornet = "$n1.$n2.$n3.$n4"; if ($ornet eq $netref{'net'}) { $tables{'networks'}->setAttribs({'net' => $netref{'net'}, 'mask' => $netref{'mask'}}, {'dynamicrange' => $range}); $DHCPINTERFACES = $netref{'mgtifname'}; last; } } } return 1; } sub writesite { if ($DELETENODES) { return 1; } #write: domain, nameservers= my $domain = shift; infomsg('Defining site attributes...'); # set the domain specified in the config file #print "domain=$domain\n"; $tables{'site'}->setAttribs({key => 'domain'}, {value => $domain}); # set the site.nameservers value to the site.master value my $ref = $tables{'site'}->getAttribs({key => 'master'}, 'value'); if ($ref) { $tables{'site'}->setAttribs({key => 'nameservers'}, {value => $ref->{value} }); } # set the HFI switch topology if ($STANZAS{'xcat-site'}->{topology}) { $tables{'site'}->setAttribs({key => 'topology'}, {value => $STANZAS{'xcat-site'}->{topology} }); } # set site.dhcpinterfaces if ($DHCPINTERFACES) { $tables{'site'}->setAttribs({key => 'dhcpinterfaces'}, {value => $DHCPINTERFACES }); } return 1; } sub writehmc { # using hostname-range, write: nodelist.node, nodelist.groups my $hmcrange = shift; my $nodes = [noderange($hmcrange, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('HMCs', $hmcrange); deletegroup('hmc'); return 1; } my $hmchash; unless ($hmchash = parsenoderange($hmcrange)) { return 0; } infomsg('Defining HMCs...'); $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'hmc,all' }); staticGroup('hmc'); # using hostname-range and starting-ip, write regex for: hosts.node, hosts.ip my $hmcstartip = $STANZAS{'xcat-hmcs'}->{'starting-ip'}; if ($hmcstartip && isIP($hmcstartip)) { my $hmcstartnum = $$hmchash{'primary-start'}; my ($ipbase, $ipstart) = $hmcstartip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr my $regex = '|\S+?(\d+)\D*$|' . "$ipbase.($ipstart+" . '$1' . "-$hmcstartnum)|"; $tables{'hosts'}->setNodeAttribs('hmc', {ip => $regex}); } # using hostname-range, write regex for: ppc.node, nodetype.nodetype $tables{'ppc'}->setNodeAttribs('hmc', {nodetype => 'hmc'}); #$tables{'nodetype'}->setNodeAttribs('hmc', {nodetype => 'hmc'}); # Set the 1st two hmcs as the ones CNM should send service events to $nodes = [noderange($hmcrange, 0)]; $tables{'site'}->setAttribs({key => 'ea_primary_hmc'}, {value => $$nodes[0]}); if (scalar(@$nodes) >= 2) { $tables{'site'}->setAttribs({key => 'ea_backup_hmc'}, {value => $$nodes[1]}); } return 1; } sub writeframe { # write hostname-range in nodelist table my ($framerange, $cwd) = @_; my $nodes = [noderange($framerange, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('frames', $framerange); deletegroup('frame'); return 1; } infomsg('Defining frames...'); $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'frame,all' }); staticGroup('frame'); # Using the frame group, write starting-ip in hosts table my $framehash; my $framestartip = $STANZAS{'xcat-frames'}->{'starting-ip'}; if ($framestartip && isIP($framestartip)) { $framehash = parsenoderange($framerange); my $framestartnum = $$framehash{'primary-start'}; my ($ipbase, $ipstart) = $framestartip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr my $regex = '|\S+?(\d+)\D*$|' . "$ipbase.($ipstart+" . '$1' . "-$framestartnum)|"; $tables{'hosts'}->setNodeAttribs('frame', {ip => $regex}); } # Using the frame group, write: nodetype.nodetype, nodehm.mgt $tables{'ppc'}->setNodeAttribs('frame', {nodetype => 'frame'}); #$tables{'nodetype'}->setNodeAttribs('frame', {nodetype => 'bpa'}); # Using the frame group, num-frames-per-hmc, hmc hostname-range, write regex for: ppc.node, ppc.hcp, ppc.id # The frame # should come from the nodename my $idregex = '|\S+?(\d+)\D*$|(0+$1)|'; my %hash = (id => $idregex); if ($STANZAS{'xcat-site'}->{'use-direct-fsp-control'}) { $tables{'nodehm'}->setNodeAttribs('frame', {mgt => 'bpa'}); my $hcpregex = '|(.+)|($1)|'; # its managed by itself $hash{hcp} = $hcpregex; } else { $tables{'nodehm'}->setNodeAttribs('frame', {mgt => 'hmc'}); # let lsslp fill in the hcp } # Calculate which hmc manages this frame by dividing by num-frames-per-hmc my $framesperhmc = $STANZAS{'xcat-frames'}->{'num-frames-per-hmc'}; if ($framesperhmc and $STANZAS{'xcat-hmcs'}->{'hostname-range'}) { my $hmchash; unless ($hmchash = parsenoderange($STANZAS{'xcat-hmcs'}->{'hostname-range'})) { return 0; } my $hmcbase = $$hmchash{'primary-base'}; my $fnum = $$framehash{'primary-start'}; my $hmcattch = $$hmchash{'attach'}; my $umb = $$hmchash{'primary-start'}; my $sfpregex; #unless ($hmcattch) { $sfpregex = '|\S+?(\d+)$|'.$hmcbase.'(0+$1)|'; } unless ($hmcattch) { $sfpregex = '|\S+?(\d+)$|'.$hmcbase.'((0+$1-'.$fnum.')/'.$framesperhmc.'+'.$umb.')|'; } #else { $sfpregex = '|\S+?(\d+)$|'.$hmcbase.'(0+$1)'.$hmcattch.'|'; } else { $sfpregex = '|\S+?(\d+)$|'.$hmcbase.'((0+$1-'.$fnum.')/'.$framesperhmc.'+'.$umb.')'.$hmcattch.'|'; } $hash{'sfp'} = $sfpregex; } $tables{'ppc'}->setNodeAttribs('frame', \%hash); # Write vpd-file to vpd table if ($STANZAS{'xcat-frames'}->{'vpd-file'}) { my $filename = fullpath($STANZAS{'xcat-frames'}->{'vpd-file'}, $cwd); readwritevpd($filename); } return 1; } sub readwritevpd { my $filename = shift; if (!defined($filename)) { return; } my $content; if (!open(STANZAF, $filename)) { errormsg("Can not open file $filename.", 2); return; } while (my $line = ) { $content .= $line; } close STANZAF; #print "content=$content"; my $rc = xCAT::DBobjUtils->readFileInput($content); if ($rc) { errormsg("Error in processing stanza file $filename, rc=$rc.", 2); return; } $rc = xCAT::DBobjUtils->setobjdefs(\%::FILEATTRS); if ($rc) { errormsg("Error setting database attributes from stanza file $filename, rc=$rc.", 2); return; } } sub writecec { # write hostname-range in nodelist table my ($cecrange, $cwd) = @_; my $nodes = [noderange($cecrange, 0)]; if ($$nodes[0] =~ /\[/) { errormsg("hostname ranges with 2 sets of '[]' are not supported in xCAT 2.5 and below.", 21); return 0; } if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('CECs', $cecrange); deletegroup('cec'); dynamicGroups('delete', $nodes); return 1; } infomsg('Defining CECs...'); $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'cec,all' }); staticGroup('cec'); # Using the cec group, write starting-ip in hosts table my $cecstartip = $STANZAS{'xcat-cecs'}->{'starting-ip'}; my $cechash = parsenoderange($cecrange); if ($cecstartip && isIP($cecstartip)) { my ($ipbase, $ip3rd, $ip4th) = $cecstartip =~/^(\d+\.\d+)\.(\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr #print Dumper($cechash); my $regex; if (defined($$cechash{'secondary-start'})) { # using name like f1c1 my $primstartnum = $$cechash{'primary-start'}; my $secstartnum = $$cechash{'secondary-start'}; # Math for 3rd field: ip3rd+primnum-primstartnum # Math for 4th field: ip4th+secnum-secstartnum $regex = '|\D+(\d+)\D+(\d+)\D*$|' . "$ipbase.($ip3rd+" . '$1' . "-$primstartnum).($ip4th+" . '$2' . "-$secstartnum)|"; } else { # using name like cec01 my $cecstartnum = $$cechash{'primary-start'}; # Math for 4th field: (ip4th-1+cecnum-cecstartnum)%254 + 1 # Math for 3rd field: (ip4th-1+cecnum-cecstartnum)/254 + ip3rd $regex = '|\S+?(\d+)$\D*|' . "$ipbase.((${ip4th}-1+" . '$1' . "-$cecstartnum)/254+$ip3rd).((${ip4th}-1+" . '$1' . "-$cecstartnum)%254+1)|"; } $tables{'hosts'}->setNodeAttribs('cec', {ip => $regex}); } # Using the cec group, write: nodetype.nodetype $tables{'ppc'}->setNodeAttribs('cec', {nodetype => 'cec'}); #$tables{'nodetype'}->setNodeAttribs('cec', {nodetype => 'fsp'}); # Write regex for ppc.hcp, nodehm.mgt if ($STANZAS{'xcat-site'}->{'use-direct-fsp-control'}) { $tables{'nodehm'}->setNodeAttribs('cec', {mgt => 'fsp'}); my $hcpregex = '|(.+)|($1)|'; # its managed by itself $tables{'ppc'}->setNodeAttribs('cec', {hcp => $hcpregex}); } else { $tables{'nodehm'}->setNodeAttribs('cec', {mgt => 'hmc'}); # let lsslp fill in the hcp } # Create dynamic groups for the nodes in each cec $nodes = [noderange($cecrange, 0)]; # the setNodesAttribs() function blanks out the nodes array dynamicGroups('add', $nodes, 'parent=='); $nodes = [noderange($cecrange, 0)]; # the setNodesAttribs() function blanks out the nodes array # If they are taking the simple approach for now of not assigning supernode #s, but just told # us how many cecs should be in each frame, write: ppc.id, ppc.parent, nodelist.groups, nodepos.rack, nodepos.u if (!($STANZAS{'xcat-cecs'}->{'supernode-list'}) && $STANZAS{'xcat-cecs'}->{'num-cecs-per-frame'}) { # Loop thru all cecs, incrementing the cageid and frameindex appropriately, and put the cec attrs in the hashes. my $cecsperframe = $STANZAS{'xcat-cecs'}->{'num-cecs-per-frame'}; my %ppchash; my %nodehash; my %nodeposhash; my $numcecs = 1; # the # of cecs we have assigned to the current frame my $cageid = 5; #todo: p7 ih starts at 5, but what about other models? my $frames = [noderange($STANZAS{'xcat-frames'}->{'hostname-range'}, 0)]; my $frameindex = 0; foreach my $cec (@$nodes) { my $framename = $$frames[$frameindex]; $ppchash{$cec} = { id => $cageid, parent => $framename }; $nodehash{$cec} = { groups => "${framename}cecs,cec,all" }; my ($framenum) = $framename =~ /\S+?(\d+)\D*$/; $nodeposhash{$cec} = { rack => $framenum+0, u => $cageid }; # increment indexes for the next iteration of the loop $cageid += 2; $numcecs++; if ($numcecs > $cecsperframe) { $frameindex++; $numcecs=1; $cageid=5; } #todo: p7 ih starts at 5 } $tables{'ppc'}->setNodesAttribs(\%ppchash); $tables{'nodelist'}->setNodesAttribs(\%nodehash); $tables{'nodepos'}->setNodesAttribs(\%nodeposhash); } # If they specified supernode-list, write ppc.supernode. While we are at it, also assign the cage id and parent. my %framesupers; if (!($STANZAS{'xcat-cecs'}->{'supernode-list'})) { return 1; } my $filename = fullpath($STANZAS{'xcat-cecs'}->{'supernode-list'}, $cwd); unless (readsupers($filename, \%framesupers)) { return; } my $i=0; # the index into the array of cecs #my $maxcageid=0; # check to see if all frames have same # of cecs if they are using f1c1 type name #my $alreadywarned=0; my $numcecs; # how many cecs in a frame we have assigned supernode nums to my %ppchash; my %nodehash; my %nodeposhash; my @nonexistant; # if there are less cecs in some frames, we may need to delete them # Collect each nodes supernode num into a hash foreach my $k (sort keys %framesupers) { my $f = $framesupers{$k}; # $f is a ptr to an array of super node numbers if (!$f) { next; } # in case some frame nums did not get filled in by user my $cageid = 5; #todo: p7 ih starts at 5, but what about other models? my $numcecs = 0; foreach my $s (@$f) { # loop thru the supernode nums in this frame my $supernum = $s; my $numnodes = 4; if ($s =~ /\(\d+\)/) { ($supernum, $numnodes) = $s =~ /^(\d+)\((\d+)\)/; } for (my $j=0; $j<$numnodes; $j++) { # assign the next few nodes to this supernode num my $nodename = $$nodes[$i++]; $numcecs++; #print "Setting $nodename supernode attribute to $supernum,$j\n"; $ppchash{$nodename} = { supernode => "$supernum,$j", id => $cageid, parent => $k }; $nodehash{$nodename} = { groups => "${k}cecs,cec,all" }; my ($framenum) = $k =~ /\S+?(\d+)\D*$/; $nodeposhash{$nodename} = { rack => $framenum+0, u => $cageid }; $cageid += 2; } } $NUMCECSINFRAME{$k} = $numcecs; # save this for later my ($knum) = $k =~ /(\d+)$/; $NUMCECSINFRAME{$knum+0} = $numcecs; # also save it by the frame num if (defined($$cechash{'secondary-start'}) && $numcecs != ($$cechash{'secondary-end'}-$$cechash{'secondary-start'}+1)) { # There are some cecs in this frame that did not get assigned supernode nums - maybe they do not exist #infomsg("Warning: the xcat-cecs:hostname-range of $cecrange appears to be using frame and CEC numbers in the CEC hostnames, but there is not the same number of CECs in each frame (according to the supernodelist). This causes the supernode numbers to be assigned to the wrong CECs."); my $totalcecs = $$cechash{'secondary-end'}-$$cechash{'secondary-start'}+1; #print "skipping cecs ", $numcecs+1, "-$totalcecs\n"; if ($STANZAS{'xcat-cecs'}->{'delete-unused-cecs'}) { # mark to be delete the unused cecs that do not have supernode nums specified for (my $l=1; $l<=($totalcecs-$numcecs); $l++) { push @nonexistant, $$nodes[$i++]; } } else { $i += ($totalcecs - $numcecs); # fast-forward over the cecs in this frame that do not have supernode nums } } } # Now write all of the attribute values to the tables if (scalar(keys %framesupers)) { if (scalar(@nonexistant)) { my $nr = join(',', @nonexistant); #print "deleting $nr\n"; noderm($nr); } $tables{'ppc'}->setNodesAttribs(\%ppchash); $tables{'nodelist'}->setNodesAttribs(\%nodehash); $tables{'nodepos'}->setNodesAttribs(\%nodeposhash); } return 1; } # Read/parse the supernode-list file and return the values in a hash of arrays sub readsupers { my $filename = shift; my $framesup = shift; if (!defined($filename)) { return; } my $input; if (!open($input, $filename)) { errormsg("Can not open file $filename.", 2); return 0; } my $l; my $linenum = 0; while ($l=<$input>) { $linenum++; # skip blank and comment lines next if ( $l =~ /^\s*$/ || $l =~ /^\s*#/ ); #print "l=$l\n"; # process a real line - name, then colon, then only whitespace, numbers, and parens my ($frame, $supernums); if ( ($frame, $supernums) = $l =~ /^\s*(\S+)\s*:\s*([\s,\(\)\d]+)$/ ) { #print "frame=$frame, supernums=$supernums\n"; my $supers = [split(/[\s,]+/, $supernums)]; # check the format of the super number entries foreach my $s (@$supers) { unless ($s=~/^\d+$/ || $s=~/^\d+\(\d+\)$/) { errormsg("invalid supernode specification $s in supernode-list file line $linenum.",8); return 0; } } # store the entries $$framesup{$frame} = $supers; } else { errormsg("syntax error on supernode-list file line $linenum.", 3); return 0; } } # end while - go to next line close($input); return 1; } sub writebb { my $framesperbb = shift; if ($DELETENODES) { return 1; } infomsg('Defining building blocks...'); # Set site.sharedtftp=1 since we have bldg blocks $tables{'site'}->setAttribs({key => 'sharedtftp'}, {value => 1}); $tables{'site'}->setAttribs({key => 'sshbetweennodes'}, {value => 'service'}); # Using num-frames-per-bb write ppc.parent (frame #) for bpas if ($framesperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-frames-per-bb: $framesperbb", 7); return 0; } my $bbregex = '|\S+?(\d+)\D*$|((($1-1)/' . $framesperbb . ')+1)|'; $tables{'ppc'}->setNodeAttribs('frame', {parent => $bbregex}); return 1; } # Create lpar node definitions. This stanza is used only if they are using hostnames like f1c1p1 sub writelpar { my $range = shift; my $nodes = [noderange($range, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('LPAR nodes', $range); deletegroup('lpar'); deletegroup('service'); deletegroup('compute'); #todo: also delete dynamic groups: dynamicGroups('delete', [keys(%servicenodes)]); return 1; } infomsg('Defining LPAR nodes...'); my $rangeparts = parsenoderange($range); if (!defined($$rangeparts{'tertiary-start'})) { errormsg("Currently only support xcat-lpars:hostname-range format like f[1-2]c[1-2]p[1-2].", 5); return 0; } my ($startnum) = $$rangeparts{'primary-start'}; # save this value for later $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'compute,lpar,all' }); staticGroup('lpar'); staticGroup('service'); staticGroup('compute'); # Write regex for hosts.node, hosts.ip, etc, for all lpars. Also write a special entry # for service nodes, since they also have an ethernet adapter. my $startip = $STANZAS{'xcat-lpars'}->{'starting-ip'}; if ($startip && isIP($startip)) { my ($ipbase, $ip2nd, $ip3rd, $ip4th) = $startip =~/^(\d+)\.(\d+)\.(\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr # using name like f1c1p1 my $primstartnum = $$rangeparts{'primary-start'}; my $secstartnum = $$rangeparts{'secondary-start'}; my $thirdstartnum = $$rangeparts{'tertiary-start'}; # Math for 2nd field: ip2nd+primnum-primstartnum # Math for 3rd field: ip3rd+secnum-secstartnum # Math for 4th field: ip4th+thirdnum-thirdstartnum my $regex = '|\D+(\d+)\D+(\d+)\D+(\d+)\D*$|' . "$ipbase.($ip2nd+" . '$1' . "-$primstartnum).($ip3rd+" . '$2' . "-$secstartnum).($ip4th+" . '$3' . "-$thirdstartnum)|"; my %hash = (ip => $regex); # for service nodes, use the starting ip from that stanza my $serviceip = $STANZAS{'xcat-service-nodes'}->{'starting-ip'}; my ($servbase, $serv2nd, $serv3rd, $serv4th) = $serviceip =~/^(\d+)\.(\d+)\.(\d+)\.(\d+)$/; my %servicehash; if ($serviceip && isIP($serviceip)) { my $serviceregex = '|\D+(\d+)\D+(\d+)\D+(\d+)\D*$|' . "$servbase.($serv2nd+" . '$1' . "-$primstartnum).($serv3rd+" . '$2' . "-$secstartnum).($serv4th+" . '$3' . "-$thirdstartnum)|"; $servicehash{ip} = $serviceregex; } my $otherint = $STANZAS{'xcat-lpars'}->{'otherinterfaces'}; if ($otherint) { # need to replace each ip addr in otherinterfaces with a regex my @ifs = split(/[\s,]+/, $otherint); foreach my $if (@ifs) { my ($nic, $nicip) = split(/:/, $if); if (!isIP($nicip)) { next; } my ($nicbase, $nic2nd, $nic3rd, $nic4th) = $nicip =~/^(\d+)\.(\d+)\.(\d+)\.(\d+)$/; $if = "$nic:$nicbase.($nic2nd+" . '$1' . "-$primstartnum).($nic3rd+" . '$2' . "-$secstartnum).($nic4th+" . '$3' . "-$thirdstartnum)"; } $regex = '|\D+(\d+)\D+(\d+)\D+(\d+)\D*$|' . join(',', @ifs) . '|'; #print "regex=$regex\n"; $hash{otherinterfaces} = $regex; if ($serviceip && isIP($serviceip)) { # same as regular lpar value, except prepend the lpar ip as -hf0 my $hf0 = "-hf0:$ipbase.($ip2nd+" . '$1' . "-$primstartnum).($ip3rd+" . '$2' . "-$secstartnum).($ip4th+" . '$3' . "-$thirdstartnum)"; my $serviceregex = '|\D+(\d+)\D+(\d+)\D+(\d+)\D*$|' . "$hf0," . join(',', @ifs) . '|'; $servicehash{otherinterfaces} = $serviceregex; } } my $aliases = $STANZAS{'xcat-lpars'}->{'aliases'}; if ($aliases) { # support more than 1 alias my @alist = split(/[\s,]+/, $aliases); foreach my $a (@alist) { if ($a=~/^-/) { $a = '($1)' . $a; } } # prepend the hostname $regex = '|(.+)|' . join(',', @alist) . '|'; $hash{hostnames} = $regex; # For services nodes, we do not really need any aliases, but we have to override the above $servicehash{hostnames} = '|(.+)|($1)-eth0|'; } $tables{'hosts'}->setNodeAttribs('lpar', \%hash); if ($serviceip && isIP($serviceip)) { $tables{'hosts'}->setNodeAttribs('service', \%servicehash); } } # If there are an inconsistent # of cecs in each frame, delete the lpars that are not really there if ($STANZAS{'xcat-cecs'}->{'delete-unused-cecs'} and $STANZAS{'xcat-cecs'}->{'supernode-list'} and !$STANZAS{'xcat-cecs'}->{'num-cecs-per-frame'}) { my @nodestodelete; # the lpars to delete my $maxcecs = $$rangeparts{'secondary-end'} - $$rangeparts{'secondary-start'} + 1; foreach my $k (sort keys %NUMCECSINFRAME) { if ($NUMCECSINFRAME{$k} >= $maxcecs) { next; } # this frame is completely populated # create the noderange of the lpars that need to be deleted my ($framenum) = $k =~ /(\d+)$/; my $len = length($$rangeparts{'secondary-start'}); my $index1 = $NUMCECSINFRAME{$k} + $$rangeparts{'secondary-start'}; $index1 = sprintf("%0${len}d", $index1); my $index2 = $$rangeparts{'secondary-end'}; $index2 = sprintf("%0${len}d", $index2); $len = length($$rangeparts{'primary-start'}); $framenum = sprintf("%0${len}d", $framenum); my $nr = $$rangeparts{'primary-base'} . $framenum . $$rangeparts{'secondary-base'} . "[$index1-$index2]" . $$rangeparts{'tertiary-base'} . '[' . $$rangeparts{'tertiary-start'} . '-' . $$rangeparts{'tertiary-end'} . ']'; if ($$rangeparts{'attach'}) { $nr .= $$rangeparts{'attach'};} push @nodestodelete, $nr; } my $delnodes = join(',', @nodestodelete); #print "should delete: $delnodes\n"; #rmdef('f5c12p[1-8]'); noderm($delnodes); } # Set some attrs common to all lpars $tables{'nodetype'}->setNodeAttribs('lpar', {nodetype => 'osi', arch => 'ppc64'}); $tables{'nodehm'}->setNodeAttribs('lpar', {mgt => 'fsp', cons => 'fsp'}); $tables{'noderes'}->setNodeAttribs('lpar', {netboot => 'yaboot'}); # Write regexs for some of the ppc attrs # Note: we assume here that if they used f1c1p1 for nodes they should use f1c1 for cecs my $cechash = parsenoderange($STANZAS{'xcat-cecs'}->{'hostname-range'}); my $cecprimbase = $$cechash{'primary-base'}; #my $cecprimlen = length($$cechash{'primary-start'}); my $cecsecbase = $$cechash{'secondary-base'}; if (!$cecsecbase) { errormsg("when using LPAR names like f1c1p1, you must also use CEC names like f1c1",7); return 0; } my $framehash = parsenoderange($STANZAS{'xcat-frames'}->{'hostname-range'}); #my $framebase = $$framehash{'primary-base'}; #my $framestart = $$framehash{'primary-start'}; #my $framelen = length($$framehash{'primary-start'}); my %ppchash; my %nodeposhash; $ppchash{id} = '|^\D+\d+\D+\d+\D+(\d+)\D*$|(($1-1)*4+1)|'; #todo: this is p7 ih specific # convert between the lpar name and the cec name. Assume that numbers are the same, but the base can be different my $regex = '|^\D+(\d+)\D+(\d+)\D+\d+\D*$|' . "$cecprimbase" . '($1)' . "$cecsecbase" .'($2)|'; $ppchash{hcp} = $regex; $ppchash{parent} = $regex; $ppchash{nodetype} = 'lpar'; #print Dumper($CECPOSITIONS); $tables{'ppc'}->setNodeAttribs('lpar', \%ppchash); #todo: for now, let the nodepos attrs for the cec be good enough #$nodeposhash{rack} = {rack => $CECPOSITIONS->{$cecname}->[0]->{rack}, u => $CECPOSITIONS->{$cecname}->[0]->{u}}; #$nodeposhash{u} = {rack => $CECPOSITIONS->{$cecname}->[0]->{rack}, u => $CECPOSITIONS->{$cecname}->[0]->{u}}; #$tables{'nodepos'}->setNodeAttribs('lpar', \%nodeposhash); # Figure out which lpars are service nodes and storage nodes and put them in groups my $framesperbb = $STANZAS{'xcat-building-blocks'}->{'num-frames-per-bb'}; my $numframes = $$rangeparts{'primary-end'} - $$rangeparts{'primary-start'} + 1; my $numbbs = int($numframes/$framesperbb) + ($numframes%$framesperbb > 0); my %servicenodes; my %storagenodes; my %lpars; #my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'}; #if ($cecsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-cecs-per-bb: $cecsperbb", 7); return 0; } for (my $b=1; $b<=$numbbs; $b++) { my $framebase = ($b-1) * $framesperbb + 1; findSNsinBB('service', $b, $framebase, $rangeparts, \%servicenodes, \%lpars) or return 0; findSNsinBB('storage', $b, $framebase, $rangeparts, \%storagenodes) or return 0; } if (scalar(keys(%servicenodes))) { $tables{'nodelist'}->setNodesAttribs(\%servicenodes); } if (scalar(keys(%storagenodes))) { $tables{'nodelist'}->setNodesAttribs(\%storagenodes); } if (scalar(keys(%lpars))) { $tables{'noderes'}->setNodesAttribs(\%lpars); } # Set some more service node specific attributes $tables{'servicenode'}->setNodeAttribs('service', {nameserver=>1, dhcpserver=>1, tftpserver=>1, nfsserver=>1, conserver=>1, monserver=>1, ftpserver=>1, nimserver=>1, ipforward=>1}); if ($STANZAS{'ll-config'}->{'central_manager_list'}) { # write the LL postscript for service nodes addPostscript('service', 'llserver.sh'); addPostscript('compute', 'llcompute.sh'); } dynamicGroups('add', [keys(%servicenodes)], 'xcatmaster=='); } # Find either service nodes or storage nodes in a BB. Adds the nodenames of the lpars to the snodes hash, # and defines the groups in the hash, and assigns the other lpars to the correct service node. sub findSNsinBB { my ($sntext, $bb, $framebase, $rangeparts, $snodes, $lpars) = @_; my $primbase = $$rangeparts{'primary-base'}; my $primlen = length($$rangeparts{'primary-start'}); my $secbase = $$rangeparts{'secondary-base'}; my $seclen = length($$rangeparts{'secondary-start'}); my $tertbase = $$rangeparts{'tertiary-base'}; my $tertlen = length($$rangeparts{'tertiary-start'}); my $framesperbb = $STANZAS{'xcat-building-blocks'}->{'num-frames-per-bb'}; # Determine the lpar node name for each service/storage node my $snsperbb = $STANZAS{"xcat-$sntext-nodes"}->{"num-$sntext-nodes-per-bb"}; if ($snsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-$sntext-nodes-per-bb: $snsperbb", 7); return 0; } my @snpositions = split(/[\s,]+/, $STANZAS{"xcat-$sntext-nodes"}->{'cec-positions-in-bb'}); if (scalar(@snpositions) != $snsperbb) { errormsg("invalid number of positions specified for xcat-$sntext-nodes:cec-positions-in-bb.", 3); return 0; } my @snsinbb; foreach my $p (@snpositions) { my $cecbase = 0; my $frame = $framebase; while ($p > ($cecbase + $NUMCECSINFRAME{$frame})) { # p is not in this frame, go on to the next $cecbase += $NUMCECSINFRAME{$frame}; $frame++; #print "cecbase=$cecbase, frame=$frame\n"; if ($frame >= ($framebase+$framesperbb)) { errormsg("Can not find $sntext node position $p in building block $bb.",9); return 0; } } my $cecinframe = $p - $cecbase; #my $nodename = $primbase . sprintf("%0${primlen}d", $frame) . $secbase . sprintf("%0${seclen}d", $cecinframe) . $tertbase . sprintf("%0${tertlen}d", 1); my $nodename = buildNodename($frame, $cecinframe, 1, $primbase, $primlen, $secbase, $seclen, $tertbase, $tertlen); #print "nodename=$nodename\n"; $$snodes{$nodename} = { groups => "bb$bb$sntext,$sntext,lpar,all" }; push @snsinbb, "$frame,$cecinframe"; # save for later } if ($lpars) { # Set xcatmaster/servicenode attrs for lpars my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'}; if ($cecsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-cecs-per-bb: $cecsperbb", 7); return 0; } my $servsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'}; my $cecspersn = int($cecsperbb / $snsperbb); my $pmax = $STANZAS{'xcat-lpars'}->{'num-lpars-per-cec'}; # Loop thru all lpars in this BB, assigning it to a service node my $snindex = 0; my $cecinthisbb = 1; for (my $f=$framebase; $f<($framebase+$framesperbb); $f++) { for (my $c=1; $c<=$NUMCECSINFRAME{$f}; $c++) { # form the current service node name my ($snframe, $sncec) = split(/,/, $snsinbb[$snindex]); my $snname = buildNodename($snframe, $sncec, 1, $primbase, $primlen, $secbase, $seclen, $tertbase, $tertlen); my $othersns; # build the list of other service node names for (my $s=0; $s $snname, servicenode => "$snname$othersns"}; } # move to the next cec and possibly the next sn $cecinthisbb++; if ($cecinthisbb>$cecspersn && $snindex<(scalar(@snsinbb)-1)) { $snindex++; } } } # delete the service nodes themselves from this list foreach my $serv (@snsinbb) { my ($snframe, $sncec) = split(/,/, $serv); my $snname = buildNodename($snframe, $sncec, 1, $primbase, $primlen, $secbase, $seclen, $tertbase, $tertlen); delete $$lpars{$snname}; } } return 1; } sub buildNodename { my ($frame, $cec, $partition, $primbase, $primlen, $secbase, $seclen, $tertbase, $tertlen) = @_; my $lparname = $primbase . sprintf("%0${primlen}d", $frame) . $secbase . sprintf("%0${seclen}d", $cec) . $tertbase . sprintf("%0${tertlen}d", $partition); return $lparname; } # Create service node definitions sub writesn { my $range = shift; if (defined($STANZAS{'xcat-lpars'}->{'hostname-range'})) { errormsg("Can not define hostname-range in both the xcat-lpars and xcat-service-nodes stanzas.", 8); return 0; } my $nodes = [noderange($range, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('service nodes', $range); deletegroup('service'); dynamicGroups('delete', $nodes); return 1; } infomsg('Defining service nodes...'); # We support name formats: sn01 or (todo:) b1s1 my $rangeparts = parsenoderange($range); my ($startnum) = $$rangeparts{'primary-start'}; # save this value for later $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'service,lpar,all' }); staticGroup('service'); # Write regex for: hosts.node, hosts.ip my $startip = $STANZAS{'xcat-service-nodes'}->{'starting-ip'}; if ($startip && isIP($startip)) { my ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr my $regex = '|\S+?(\d+)$|' . "$ipbase.($ipstart+" . '$1' . "-$startnum)|"; my %hash = (ip => $regex); my $otherint = $STANZAS{'xcat-service-nodes'}->{'otherinterfaces'}; if ($otherint) { # need to replace each ip addr in otherinterfaces with a regex my @ifs = split(/[\s,]+/, $otherint); foreach my $if (@ifs) { my ($nic, $startip) = split(/:/, $if); if (!isIP($startip)) { next; } ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; $if = "$nic:$ipbase.($ipstart+" . '$1' . "-$startnum)"; } $regex = '|\S+?(\d+)$|' . join(',', @ifs) . '|'; #print "regex=$regex\n"; $hash{otherinterfaces} = $regex; } $tables{'hosts'}->setNodeAttribs('service', \%hash); } # Write regex for: ppc.id, nodetype.nodetype, etc. $tables{'ppc'}->setNodeAttribs('service', {id => '1', nodetype => 'lpar'}); $tables{'nodetype'}->setNodeAttribs('service', {nodetype => 'osi', arch => 'ppc64'}); $tables{'nodehm'}->setNodeAttribs('service', {mgt => 'fsp', cons => 'fsp'}); $tables{'noderes'}->setNodeAttribs('service', {netboot => 'yaboot'}); $tables{'servicenode'}->setNodeAttribs('service', {nameserver=>1, dhcpserver=>1, tftpserver=>1, nfsserver=>1, conserver=>1, monserver=>1, ftpserver=>1, nimserver=>1, ipforward=>1}); if ($STANZAS{'ll-config'}->{'central_manager_list'}) { # write the LL postscript for service nodes addPostscript('service', 'llserver.sh') } # Figure out what cec each sn is in and write ppc.hcp and ppc.parent # Math for SN in BB: cecnum = ( ( (snnum-1) / snsperbb) * cecsperbb) + cecstart-1 + snpositioninbb my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'}; if ($cecsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-cecs-per-bb: $cecsperbb", 7); return 0; } my $snsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'}; if ($snsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-service-nodes-per-bb: $snsperbb", 7); return 0; } my @positions = split(/[\s,]+/, $STANZAS{'xcat-service-nodes'}->{'cec-positions-in-bb'}); if (scalar(@positions) != $snsperbb) { errormsg("invalid number of positions specified for xcat-service-nodes:cec-positions-in-bb.", 3); return 0; } my $cechash = parsenoderange($STANZAS{'xcat-cecs'}->{'hostname-range'}); my $cecbase = $$cechash{'primary-base'}; my $cecstart = $$cechash{'primary-start'}; my $ceclen = length($$cechash{'primary-start'}); # these are only needed for names like f2c3 my $secbase = $$cechash{'secondary-base'}; my $secstart = $$cechash{'secondary-start'}; my $secend = $$cechash{'secondary-end'}; my $seclen = length($$cechash{'secondary-start'}); $nodes = [noderange($range, 0)]; my %nodehash; my %nodeposhash; my %grouphash; # Go thru each service node and calculate which cec it is in for (my $i=0; $i "${bbname}service,service,lpar,all"}; # figure out the CEC num my $snpositioninbb = $positions[$i % $snsperbb]; # the offset within the BB my $cecnum = ( int($i/$snsperbb) * $cecsperbb) + $snpositioninbb; # which cec num, counting from the beginning my $cecname; if (!$secbase) { $cecname = $cecbase . sprintf("%0${ceclen}d", $cecnum); } else { # calculate the 2 indexes for a name like f2c3 # we essentially have to do base n math, where n is the size of the second range my $n = $secend - $secstart + 1; my $primary = int(($cecnum-1) / $n) + 1; my $secondary = ($cecnum-1) % $n + 1; $cecname = $cecbase . sprintf("%0${ceclen}d", $primary) . $secbase . sprintf("%0${seclen}d", $secondary); } #print "sn=$$nodes[$i], cec=$cecname\n"; $nodehash{$$nodes[$i]} = {hcp => $cecname, parent => $cecname}; #print Dumper($CECPOSITIONS); #print "cecname=$cecname\n"; $nodeposhash{$$nodes[$i]} = {rack => $CECPOSITIONS->{$cecname}->[0]->{rack}, u => $CECPOSITIONS->{$cecname}->[0]->{u}}; } $tables{'ppc'}->setNodesAttribs(\%nodehash); $tables{'nodelist'}->setNodesAttribs(\%grouphash); $tables{'nodepos'}->setNodesAttribs(\%nodeposhash); # Create dynamic groups for the nodes in each service node $nodes = [noderange($range, 0)]; # the setNodesAttribs() function blanks out the nodes array dynamicGroups('add', $nodes, 'xcatmaster=='); return 1; } # Create storage node definitions sub writestorage { my $range = shift; if (defined($STANZAS{'xcat-lpars'}->{'hostname-range'})) { errormsg("Can not define hostname-range in both the xcat-lpars and xcat-storage-nodes stanzas.", 8); return 0; } my $nodes = [noderange($range, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('storage nodes', $range); deletegroup('storage'); return 1; } infomsg('Defining storage nodes...'); my $rangeparts = parsenoderange($range); my ($startnum) = $$rangeparts{'primary-start'}; # save this value for later $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'storage,lpar,all' }); staticGroup('storage'); # Write regex for: hosts.node, hosts.ip my $startip = $STANZAS{'xcat-storage-nodes'}->{'starting-ip'}; if ($startip && isIP($startip)) { my ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr my $regex = '|\S+?(\d+)$|' . "$ipbase.($ipstart+" . '$1' . "-$startnum)|"; my %hash = (ip => $regex); my $otherint = $STANZAS{'xcat-storage-nodes'}->{'otherinterfaces'}; if ($otherint) { # need to replace each ip addr in otherinterfaces with a regex my @ifs = split(/[\s,]+/, $otherint); foreach my $if (@ifs) { my ($nic, $startip) = split(/:/, $if); if (!isIP($startip)) { next; } ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/; $if = "$nic:$ipbase.($ipstart+" . '$1' . "-$startnum)"; } $regex = '|\S+?(\d+)$|' . join(',', @ifs) . '|'; #print "regex=$regex\n"; $hash{otherinterfaces} = $regex; } my $aliases = $STANZAS{'xcat-storage-nodes'}->{'aliases'}; if ($aliases) { # support more than 1 alias my @alist = split(/[\s,]+/, $aliases); foreach my $a (@alist) { if ($a=~/^-/) { $a = '($1)' . $a; } } # prepend the hostname $regex = '|(.+)|' . join(',', @alist) . '|'; $hash{hostnames} = $regex; } $tables{'hosts'}->setNodeAttribs('storage', \%hash); } # Write ppc.id, nodetype.nodetype, etc. $tables{'ppc'}->setNodeAttribs('storage', {id => '1', nodetype => 'lpar'}); $tables{'nodetype'}->setNodeAttribs('storage', {nodetype => 'osi', arch => 'ppc64'}); $tables{'nodehm'}->setNodeAttribs('storage', {mgt => 'fsp', cons => 'fsp'}); $tables{'noderes'}->setNodeAttribs('storage', {netboot => 'yaboot'}); # Figure out what cec each storage node is in and write ppc.hcp, ppc.parent, noderes.xcatmaster, noderes.servicenode # Math for SN in BB: cecnum = ( ( (snnum-1) / snsperbb) * cecsperbb) + cecstart-1 + snpositioninbb my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'}; if ($cecsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-cecs-per-bb: $cecsperbb", 7); return 0; } my $snsperbb = $STANZAS{'xcat-storage-nodes'}->{'num-storage-nodes-per-bb'}; if ($snsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-storage-nodes-per-bb: $snsperbb", 7); return 0; } my @positions = split(/[\s,]+/, $STANZAS{'xcat-storage-nodes'}->{'cec-positions-in-bb'}); if (scalar(@positions) != $snsperbb) { errormsg("invalid number of positions specified for xcat-storage-nodes:cec-positions-in-bb.", 3); return 0; } my $cechash = parsenoderange($STANZAS{'xcat-cecs'}->{'hostname-range'}); my $cecbase = $$cechash{'primary-base'}; my $cecstart = $$cechash{'primary-start'}; my $ceclen = length($$cechash{'primary-start'}); # these are only needed for names like f2c3 my $secbase = $$cechash{'secondary-base'}; my $secstart = $$cechash{'secondary-start'}; my $secend = $$cechash{'secondary-end'}; my $seclen = length($$cechash{'secondary-start'}); my $sns = [noderange($STANZAS{'xcat-service-nodes'}->{'hostname-range'}, 0)]; $nodes = [noderange($range, 0)]; my %nodehash; my %nodeposhash; my %grouphash; my %nodereshash; # Go thru each storage node and calculate which cec it is in for (my $i=0; $i "${bbname}storage,lpar,storage,all"}; # figure out the CEC num my $snpositioninbb = $positions[$i % $snsperbb]; # the offset within the BB my $cecnum = ( int($i/$snsperbb) * $cecsperbb) + $snpositioninbb; # which cec num, counting from the beginning my $cecname; if (!$secbase) { $cecname = $cecbase . sprintf("%0${ceclen}d", $cecnum); } else { # calculate the 2 indexes for a name like f2c3 # we essentially have to do base n math, where n is the size of the second range my $n = $secend - $secstart + 1; my $primary = int(($cecnum-1) / $n) + 1; my $secondary = ($cecnum-1) % $n + 1; $cecname = $cecbase . sprintf("%0${ceclen}d", $primary) . $secbase . sprintf("%0${seclen}d", $secondary); } #print "sn=$$nodes[$i], cec=$cecname\n"; $nodehash{$$nodes[$i]} = {hcp => $cecname, parent => $cecname}; $nodeposhash{$$nodes[$i]} = {rack => $CECPOSITIONS->{$cecname}->[0]->{rack}, u => $CECPOSITIONS->{$cecname}->[0]->{u}}; # Now determine the service node this storage node is under #my $bbnum = int(($cecnum-1) / $cecsperbb) + 1; my $cecinthisbb = ($cecnum-1) % $cecsperbb + 1; my $servsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'}; #todo: handle case where this does not divide evenly my $cecspersn = int($cecsperbb / $servsperbb); my $snoffset = int(($cecinthisbb-1) / $cecspersn) + 1; my $snsbeforethisbb = ($bbnum-1) * $servsperbb; my $snnum = $snsbeforethisbb + $snoffset; my $snname = $$sns[$snnum-1]; # generate a list of the other SNs in this BB my $othersns; for (my $s=$snsbeforethisbb+1; $s<=$snsbeforethisbb+$servsperbb; $s++) { if ($s != $snnum) { $othersns .= ',' . $$sns[$s-1]; } } $nodereshash{$$nodes[$i]} = {xcatmaster => $snname, servicenode => "$snname$othersns"}; } $tables{'ppc'}->setNodesAttribs(\%nodehash); $tables{'nodelist'}->setNodesAttribs(\%grouphash); $tables{'noderes'}->setNodesAttribs(\%nodereshash); $tables{'nodepos'}->setNodesAttribs(\%nodeposhash); return 1; } # Create compute node definitions sub writecompute { my $range = shift; if (defined($STANZAS{'xcat-lpars'}->{'hostname-range'})) { errormsg("Can not define hostname-range in both the xcat-lpars and xcat-storage-nodes stanzas.", 8); return 0; } my $nodes = [noderange($range, 0)]; if (!scalar(@$nodes)) { return 1; } if ($DELETENODES) { deletenodes('compute nodes', $range); deletegroup('compute'); return 1; } infomsg('Defining compute nodes...'); $tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'compute,lpar,all' }); staticGroup('compute'); # Write regex for: hosts.node, hosts.ip my $nodehash = parsenoderange($range); my $startip = $STANZAS{'xcat-compute-nodes'}->{'starting-ip'}; if ($startip && isIP($startip)) { my ($ipbase, $ip3rd, $ip4th) = $startip =~/^(\d+\.\d+)\.(\d+)\.(\d+)$/; # take the number from the nodename, and as it increases, increase the ip addr my $startnum = $$nodehash{'primary-start'}; # Math for 4th field: (ip4th-1+nodenum-startnum)%254 + 1 # Math for 3rd field: (ip4th-1+nodenum-startnum)/254 + ip3rd my $regex = '|\S+?(\d+)$|' . "$ipbase.((${ip4th}-1+" . '$1' . "-$startnum)/254+$ip3rd).((${ip4th}-1+" . '$1' . "-$startnum)%254+1)|"; #my $regex = '|\D+(\d+)|' . "$ipbase.($ipstart+" . '$1' . "-$startnum)|"; my %hash = (ip => $regex); my $otherint = $STANZAS{'xcat-compute-nodes'}->{'otherinterfaces'}; if ($otherint) { # need to replace each ip addr in otherinterfaces with a regex my @ifs = split(/[\s,]+/, $otherint); foreach my $if (@ifs) { my ($nic, $startip) = split(/:/, $if); if (!isIP($startip)) { next; } ($ipbase, $ip3rd, $ip4th) = $startip =~/^(\d+\.\d+)\.(\d+)\.(\d+)$/; #$if = "$nic:$ipbase.($ipstart+" . '$1' . "-$startnum)"; $if = "$nic:$ipbase.((${ip4th}-1+" . '$1' . "-$startnum)/254+$ip3rd).((${ip4th}-1+" . '$1' . "-$startnum)%254+1)"; } $regex = '|\S+?(\d+)$|' . join(',', @ifs) . '|'; #print "regex=$regex\n"; $hash{otherinterfaces} = $regex; } my $aliases = $STANZAS{'xcat-compute-nodes'}->{'aliases'}; if ($aliases) { # support more than 1 alias my @alist = split(/[\s,]+/, $aliases); foreach my $a (@alist) { if ($a=~/^-/) { $a = '($1)' . $a; } } # prepend the hostname $regex = '|(.+)|' . join(',', @alist) . '|'; $hash{hostnames} = $regex; } $tables{'hosts'}->setNodeAttribs('compute', \%hash); } # Write regex for: nodetype.nodetype, etc. $tables{'ppc'}->setNodeAttribs('compute', {nodetype => 'lpar'}); $tables{'nodetype'}->setNodeAttribs('compute', {nodetype => 'osi', arch => 'ppc64'}); $tables{'nodehm'}->setNodeAttribs('compute', {mgt => 'fsp', cons => 'fsp'}); $tables{'noderes'}->setNodeAttribs('compute', {netboot => 'yaboot'}); if ($STANZAS{'ll-config'}->{'central_manager_list'}) { # write the LL postscript for compute nodes addPostscript('compute', 'llcompute.sh'); } # Figure out what cec each compute node is in and write ppc.hcp, ppc.parent, ppc.id, noderes.xcatmaster, noderes.servicenode my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'}; if ($cecsperbb !~ /^\d+$/) { errormsg("invalid non-integer value for num-cecs-per-bb: $cecsperbb", 7); return 0; } my $lparspercec = $STANZAS{'xcat-lpars'}->{'num-lpars-per-cec'}; if ($lparspercec !~ /^\d+$/) { errormsg("invalid non-integer value for num-lpars-per-cec: $lparspercec", 7); return 0; } my $snsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'}; # store the positions of service and storage nodes, so we can avoid those my %snpositions; my @positions = split(/[\s,]+/, $STANZAS{'xcat-service-nodes'}->{'cec-positions-in-bb'}); foreach (@positions) { $snpositions{$_} = 1; } @positions = split(/[\s,]+/, $STANZAS{'xcat-storage-nodes'}->{'cec-positions-in-bb'}); foreach (@positions) { $snpositions{$_} = 1; } my $cecs = [noderange($STANZAS{'xcat-cecs'}->{'hostname-range'}, 0)]; my $sns = [noderange($STANZAS{'xcat-service-nodes'}->{'hostname-range'}, 0)]; $nodes = [noderange($range, 0)]; my %nodehash; my %nodeposhash; my %nodereshash; # set these incrementers to the imaginary position just before the 1st position my $cecnum = 0; my $lparid = $lparspercec; # Go thru each compute node and calculate which cec it is in for (my $i=0; $i= $lparspercec) { $cecnum++; $lparid=1; } # at the end of the cec else { $lparid++ } if ($lparid == 1) { # check if this is a service or storage node position my $pos = ($cecnum-1) % $cecsperbb + 1; if ($snpositions{$pos}) { if ($lparid >= $lparspercec) { $cecnum++; $lparid=1; } # at the end of the cec else { $lparid++ } } } my $cecname = $$cecs[$cecnum-1]; my $id = $lparid; if ($lparspercec == 8) { #todo: for now assume 8 means a p7 IH. Make a different way to determine this is a p7 IH $id = ( ($lparid-1) * 4) + 1; } #print "sn=$$nodes[$i], cec=$cecname\n"; $nodehash{$$nodes[$i]} = {hcp => $cecname, parent => $cecname, id => $id}; $nodeposhash{$$nodes[$i]} = {rack => $CECPOSITIONS->{$cecname}->[0]->{rack}, u => $CECPOSITIONS->{$cecname}->[0]->{u}}; # Now determine the service node this compute node is under my $bbnum = int(($cecnum-1) / $cecsperbb) + 1; my $cecinthisbb = ($cecnum-1) % $cecsperbb + 1; #todo: handle case where this does not divide evenly my $cecspersn = int($cecsperbb / $snsperbb); my $snoffset = int(($cecinthisbb-1) / $cecspersn) + 1; my $snsbeforethisbb = ($bbnum-1) * $snsperbb; my $snnum = $snsbeforethisbb + $snoffset; my $snname = $$sns[$snnum-1]; # generate a list of the other SNs in this BB my $othersns; for (my $s=$snsbeforethisbb+1; $s<=$snsbeforethisbb+$snsperbb; $s++) { if ($s != $snnum) { $othersns .= ',' . $$sns[$s-1]; } } $nodereshash{$$nodes[$i]} = {xcatmaster => $snname, servicenode => "$snname$othersns"}; } $tables{'ppc'}->setNodesAttribs(\%nodehash); $tables{'noderes'}->setNodesAttribs(\%nodereshash); $tables{'nodepos'}->setNodesAttribs(\%nodeposhash); return 1; } # Parse a noderange like n01-n20, n[01-20], or f[1-2]c[01-10]. # Returns a hash that contains: primary-base, primary-start, primary-end, primary-pad, secondary-base, secondary-start, secondary-end, secondary-pad sub parsenoderange { my $nr = shift; my $ret = {}; # Check for a 3 square bracket range, e.g. f[1-2]c[01-10]p[1-8]a if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}, $$ret{'secondary-base'}, $$ret{'secondary-start'}, $$ret{'secondary-end'}, $$ret{'tertiary-base'}, $$ret{'tertiary-start'}, $$ret{'tertiary-end'}, $$ret{'attach'}) = ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10); if ( (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) || (length($$ret{'secondary-start'}) != length($$ret{'secondary-end'})) || (length($$ret{'tertiary-start'}) != length($$ret{'tertiary-end'})) ) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ( ($$ret{'primary-start'} != 1) || ($$ret{'secondary-start'} != 1) || ($$ret{'tertiary-start'} != 1) ) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for a 3 square bracket range, e.g. f[1-2]c[01-10]p[1-8] if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\]\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}, $$ret{'secondary-base'}, $$ret{'secondary-start'}, $$ret{'secondary-end'}, $$ret{'tertiary-base'}, $$ret{'tertiary-start'}, $$ret{'tertiary-end'}) = ($1, $2, $3, $4, $5, $6, $7, $8, $9); if ( (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) || (length($$ret{'secondary-start'}) != length($$ret{'secondary-end'})) || (length($$ret{'tertiary-start'}) != length($$ret{'tertiary-end'})) ) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ( ($$ret{'primary-start'} != 1) || ($$ret{'secondary-start'} != 1) || ($$ret{'tertiary-start'} != 1) ) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for a 2 square bracket range, e.g. f[1-2]c[01-10]a if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}, $$ret{'secondary-base'}, $$ret{'secondary-start'}, $$ret{'secondary-end'}, $$ret{'attach'}) = ($1, $2, $3, $4, $5, $6, $7); if ( (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) || (length($$ret{'secondary-start'}) != length($$ret{'secondary-end'})) ) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ( ($$ret{'primary-start'} != 1) || ($$ret{'secondary-start'} != 1) ) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for a 2 square bracket range, e.g. f[1-2]c[01-10] if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\[(\d+)[\-\:](\d+)\]\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}, $$ret{'secondary-base'}, $$ret{'secondary-start'}, $$ret{'secondary-end'}) = ($1, $2, $3, $4, $5, $6); if ( (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) || (length($$ret{'secondary-start'}) != length($$ret{'secondary-end'})) ) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ( ($$ret{'primary-start'} != 1) || ($$ret{'secondary-start'} != 1) ) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for a square bracket range, e.g. n[01-20]a if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\](\S+?)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}, $$ret{'attach'}) = ($1, $2, $3, $4); if (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ($$ret{'primary-start'} != 1) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for a square bracket range, e.g. n[01-20] if ( $nr =~ /^\s*(\S+?)\[(\d+)[\-\:](\d+)\]\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}) = ($1, $2, $3); if (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ($$ret{'primary-start'} != 1) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for normal range, e.g. n01a-n20a my $base2; if ( $nr =~ /^\s*(\S+?)(\d+)(\S+?)\-(\S+?)(\d+)(\S+?)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'attach'}, $base2, $$ret{'primary-end'}, $$ret{'attach2'}) = ($1, $2, $3, $4, $5, $6); if ($$ret{'primary-base'} ne $base2) { errormsg("invalid noderange format: $nr", 5); return undef; } if (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ($$ret{'primary-start'} != 1) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # Check for normal range, e.g. n01-n20 my $base2; if ( $nr =~ /^\s*(\S+?)(\d+)\-(\S+?)(\d+)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $base2, $$ret{'primary-end'}) = ($1, $2, $3, $4); if ($$ret{'primary-base'} ne $base2) { errormsg("invalid noderange format: $nr", 5); return undef; } if (length($$ret{'primary-start'}) != length($$ret{'primary-end'})) { errormsg("invalid noderange format: $nr. The beginning and ending numbers of the range must have the same number of digits.", 5); return undef; } #if ($$ret{'primary-start'} != 1) { errormsg("invalid noderange format: $nr. Currently noderanges must start at 1.", 5); return undef; } return $ret; } # It may be a simple single nodename if ( $nr =~ /^\s*([^\[\]\-\:\s]+?)(\d+)\s*$/ ) { ($$ret{'primary-base'}, $$ret{'primary-start'}, $$ret{'primary-end'}) = ($1, $2, $2); return $ret; } errormsg("invalid noderange format: $nr", 5); return undef; # range did not match any of the cases above } # Verify this is valid IP address format (ipv4 only for right now). # If not, print error msg and return 0. sub isIP { my $ip = shift; if ($ip =~ /^\s*\d+\.\d+\.\d+\.\d+\s*$/) { return 1; } errormsg("invalid IP address format: $ip", 6); return 0; } sub errormsg { my $msg = shift; my $exitcode = shift; my %rsp; push @{$rsp{error}}, $msg; xCAT::MsgUtils->message('E', \%rsp, $CALLBACK, $exitcode); return; } sub infomsg { my $msg = shift; my %rsp; push @{$rsp{info}}, $msg; xCAT::MsgUtils->message('I', \%rsp, $CALLBACK); return; } sub fullpath { my ($filename, $cwd) = @_; if ($filename =~ /^\s*\//) { return $filename; } # it was already a full path return xCAT::Utils->full_path($filename, $cwd); } sub deletenodes { my ($name, $range) = @_; if ($range !~ /\S/) { return; } infomsg("Deleting $name..."); rmdef($range); return; } sub deletegroup { my $group = shift; if ($group !~ /\S/) { return; } #print "group=$group\n"; my $ret = xCAT::Utils->runxcmd({ command => ['rmdef'], arg => ['-t','group','--nocache','-o',$group] }, $SUB_REQ, 0, 1); if ($$ret[0] !~ /^Object definitions have been removed\.$/) { xCAT::MsgUtils->message('D', {data=>$ret}, $CALLBACK); } } sub rmdef { my $range = shift; if ($range !~ /\S/) { return; } #print "deleting $range\n"; my $ret = xCAT::Utils->runxcmd({ command => ['rmdef'], arg => ['-t','node','--nocache','-o',$range] }, $SUB_REQ, 0, 1); #print Dumper($ret); if ($$ret[0] !~ /^Object definitions have been removed\.$/ && $$ret[0] !~ /^Could not find an object named/) { xCAT::MsgUtils->message('D', {data=>$ret}, $CALLBACK); } #$CALLBACK->({data=>$ret}); } sub noderm { my $range = shift; if ($range !~ /\S/) { return; } #print "noderm $range\n"; my $ret = xCAT::Utils->runxcmd({ command => ['noderm'], noderange => [$range] }, $SUB_REQ, 0, 1); xCAT::MsgUtils->message('D', {data=>$ret}, $CALLBACK); } # Create or delete dynamic groups for the given node list sub dynamicGroups { my ($action, $nodes, $where) = @_; #my $ntab = xCAT::Table->new('nodegroup', -create=>1,-autocommit=>0); #if (!$ntab) { errormsg("Can not open nodegroup table in database.", 3); return; } my $ntab = $tables{'nodegroup'}; foreach my $n (@$nodes) { if ($action ne 'delete') { #print "adding group ${n}nodes with $where$n\n"; $ntab->setAttribs({groupname => "${n}nodes"}, {grouptype => 'dynamic', members => 'dynamic', wherevals => "$where$n" }); } else { $ntab->delEntries({groupname => "${n}nodes"}); } } $ntab->commit(); #$ntab->close(); } sub staticGroup { my $group = shift; $tables{'nodegroup'}->setAttribs({groupname => $group}, {grouptype => 'static', members => 'static'}); # this makes rmdef happier $tables{'nodegroup'}->commit(); } sub addPostscript { my ($group, $postscript) = @_; my $ref = $tables{'postscripts'}->getNodeAttribs($group, 'postscripts'); #print Dumper($ref); my $posts; if ($ref && $ref->{postscripts}=~/\S/) { $posts = $ref->{postscripts}; if ($posts !~ /(^|,)llserver\.sh(,|$)/) { $posts .= ",$postscript"; } } else { $posts = "$postscript"; } $tables{'postscripts'}->setNodeAttribs($group, {postscripts => $posts }); } 1;