f568b0bfc7
git-svn-id: https://svn.code.sf.net/p/xcat/code/xcat-core/trunk@7853 8638fb3e-16cb-4fca-ae20-7b5d299a9bcd
840 lines
32 KiB
Perl
840 lines
32 KiB
Perl
#!/usr/bin/env perl -w
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# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html
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#####################################################
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#
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# Reads the cluster configuration file and primes the database in prep
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# for HW discovery and node deployment.
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#
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# Preconditions before running the xcatsetup cmd:
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# -
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#
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# Todo: Limitations on the values in the config file:
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# - do not yet support redundant bpcs or fsps
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# - chk all primary/secondary start/end to make sure they are the same length
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#
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#####################################################
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package xCAT_plugin::setup;
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use strict;
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#use warnings;
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use xCAT::NodeRange;
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use xCAT::Schema;
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use xCAT::Table;
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use xCAT::Utils;
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use xCAT::MsgUtils;
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use Data::Dumper;
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use xCAT::DBobjUtils;
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my $CALLBACK;
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my %STANZAS;
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sub handled_commands {
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return( { xcatsetup => "setup" } );
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}
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sub process_request
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{
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use Getopt::Long;
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Getopt::Long::Configure("bundling");
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#Getopt::Long::Configure("pass_through");
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Getopt::Long::Configure("no_pass_through");
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my $request = shift;
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$CALLBACK = shift;
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#my $nodes = $request->{node};
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#my $command = $request->{command}->[0];
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my $args = $request->{arg};
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my $VERSION;
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my $HELP;
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my %SECTIONS; # which stanzas should be processed
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my $SECT;
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my $setup_usage = sub {
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my $exitcode = shift @_;
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my %rsp;
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push @{$rsp{data}}, "Usage: xcatsetup [-v|--version] [-?|-h|--help] <cluster-config-file>";
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if ($exitcode) { $rsp{errorcode} = $exitcode; }
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$CALLBACK->(\%rsp);
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};
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# Process the cmd line args
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if ($args) { @ARGV = @{$args}; }
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else { @ARGV = (); }
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if (!GetOptions('h|?|help' => \$HELP, 'v|version' => \$VERSION, 's|stanzas=s' => \$SECT) ) { $setup_usage->(1); return; }
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if ($HELP || scalar(@ARGV)==0) { $setup_usage->(0); return; }
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if ($VERSION) {
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my %rsp;
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my $version = xCAT::Utils->Version();
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$rsp{data}->[0] = $version;
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$CALLBACK->(\%rsp);
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return;
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}
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if ($SECT) {
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foreach my $s (split(/[\s,]+/, $SECT)) { $SECTIONS{$s} = 1; }
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}
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my $input;
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my $filename = fullpath($ARGV[0], $request->{cwd}->[0]);
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if (!open($input, $filename)) {
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errormsg("Can not open file $filename.", 2);
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return;
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}
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# Parse the config file
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my $success = readFileInput($input);
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close($input);
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if (!$success) { return; }
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# Write the db entries
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writedb($request->{cwd}->[0], \%SECTIONS);
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}
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sub readFileInput {
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my $input = shift;
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my $l;
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my $stanza;
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my $linenum = 0;
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while ($l=<$input>) {
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$linenum++;
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# skip blank and comment lines
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next if ( $l =~ /^\s*$/ || $l =~ /^\s*#/ );
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# process a real line
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if ( $l =~ /^\s*(\S+)\s*=\s*(.*)\s*$/ ) {
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my $attr = $1;
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my $val = $2;
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#$attr =~ s/^\s*//; # Remove any leading whitespace - already did that
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#$attr =~ s/\s*$//; # Remove any trailing whitespace - already did that
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$attr =~ tr/A-Z/a-z/; # Convert to lowercase
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#$val =~ s/^\s*//;
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#$val =~ s/\s*$//;
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# set the value in the hash for this stanza
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if (!defined($stanza)) { errormsg("expected stanza header at line $linenum.", 3); return; }
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$STANZAS{$stanza}->{$attr} = $val;
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}
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elsif ( $l =~ /^\s*(\S+)\s*:\s*$/) {
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$stanza = $1;
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}
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else {
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errormsg("syntax error on line $linenum.", 3);
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return 0;
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}
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} # end while - go to next line
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return 1;
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}
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# A few global variables for common tables that a lot of functions need
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my %tables = ('site' => 0,
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'nodelist' => 0,
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'hosts' => 0,
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'ppc' => 0,
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'nodetype' => 0,
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'nodehm' => 0,
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'noderes' => 0,
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);
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sub writedb {
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my ($cwd, $sections) = @_; # the current dir from the request and the stanzas that should be processed
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#todo: add syntax checking for input values
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# Open some common tables that several of the stanzas need
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foreach my $tab (keys %tables) {
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$tables{$tab} = xCAT::Table->new($tab, -create=>1);
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if (!$tables{$tab}) { errormsg("Can not open $tab table in database. Exiting config file processing.", 3); return; }
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}
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# Write site table attrs (hash key=xcat-site)
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my $domain = $STANZAS{'xcat-site'}->{domain};
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if ($domain && (!scalar(keys(%$sections))||$$sections{'xcat-site'})) { writesite($domain); }
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# Write service LAN info (hash key=xcat-service-lan)
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#using hostname-range, write: nodelist.node, nodelist.groups, switches.switch
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#using hostname-range and starting-ip, write regex for: hosts.node, hosts.ip
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#using num-ports-per-switch, switch-port-prefix, switch-port-sequence, write: switch.node, switch.switch, switch.port
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#using dhcp-dynamic-range, write: networks.dynamicrange for the service network.
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# * Note: for AIX the permanent IPs for HMCs/FSPs/BPAs (specified in later stanzas) should be within this dynamic range, at the high end. For linux the permanent IPs should be outside this dynamic range.
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# * use the first IP in the specified dynamic range to locate the service network in the networks table
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#on aix stop bootp - see section 2.2.1.1 of p hw mgmt doc
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#run makedhcp -n
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# Write HMC info (hash key=xcat-hmcs)
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my $hmcrange = $STANZAS{'xcat-hmcs'}->{'hostname-range'};
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if ($hmcrange && (!scalar(keys(%$sections))||$$sections{'xcat-site'})) { writehmc($hmcrange); }
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# Write frame info (hash key=xcat-frames)
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my $framerange = $STANZAS{'xcat-frames'}->{'hostname-range'};
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if ($framerange && (!scalar(keys(%$sections))||$$sections{'xcat-frames'})) { writeframe($framerange, $cwd); }
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# Write CEC info (hash key=xcat-cecs)
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my $cecrange = $STANZAS{'xcat-cecs'}->{'hostname-range'};
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if ($cecrange && (!scalar(keys(%$sections))||$$sections{'xcat-cecs'})) { writecec($cecrange, $cwd); }
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# Write BB info (hash key=xcat-building-blocks)
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my $framesperbb = $STANZAS{'xcat-building-blocks'}->{'num-frames-per-bb'};
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if ($framesperbb && (!scalar(keys(%$sections))||$$sections{'xcat-building-blocks'})) { writebb($framesperbb); }
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# Write lpar info in ppc, noderes, servicenode
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my $snrange = $STANZAS{'xcat-service-nodes'}->{'hostname-range'};
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if ($snrange && (!scalar(keys(%$sections))||$$sections{'xcat-service-nodes'})) { writesn($snrange); }
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my $storagerange = $STANZAS{'xcat-storage-nodes'}->{'hostname-range'};
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if ($storagerange && (!scalar(keys(%$sections))||$$sections{'xcat-storage-nodes'})) { writestorage($storagerange); }
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my $computerange = $STANZAS{'xcat-compute-nodes'}->{'hostname-range'};
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if ($computerange && (!scalar(keys(%$sections))||$$sections{'xcat-compute-nodes'})) { writecompute($computerange); }
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# Close all the open common tables to finish up
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foreach my $tab (keys %tables) {
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if ($tables{$tab}) { $tables{$tab}->close(); }
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}
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# Temporarily write out the contents of the hash
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#foreach my $k (keys %STANZAS) {
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# my $stanza = $STANZAS{$k};
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# print "$k\n";
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# foreach my $attr (keys %$stanza) {
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# my $val = $$stanza{$attr};
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# print " $attr=$val\n";
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# }
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#}
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}
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sub writesite {
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#write: domain, nameservers=<MN>
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my $domain = shift;
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infomsg('Defining site attributes...');
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# set the domain specified in the config file
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#print "domain=$domain\n";
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$tables{'site'}->setAttribs({key => 'domain'}, {value => $domain});
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# set the site.nameservers value to the site.master value
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my $ref = $tables{'site'}->getAttribs({key => 'master'}, 'value');
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if ($ref) {
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$tables{'site'}->setAttribs({key => 'nameservers'}, {value => $ref->{value} });
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}
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$tables{'site'}->close();
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#todo: put dynamic range in networks table
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#todo: set site.dhcpinterfaces
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}
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sub writehmc {
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#using hostname-range, write: nodelist.node, nodelist.groups
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my $hmcrange = shift;
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infomsg('Defining HMCs...');
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my $nodes = [noderange($hmcrange, 0)];
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my ($hmcstartnum) = $$nodes[0] =~/^\D+(\d+)$/; # save this value for later
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#print "$$nodes[0], $hmcstartnum\n";
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if (scalar(@$nodes)) {
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#my %nodehash;
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#foreach my $n (@$nodes) { print "n=$n\n"; $nodehash{$n} = { node => $n, groups => 'hmc,all' }; }
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$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'hmc,all' });
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}
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#using hostname-range and starting-ip, write regex for: hosts.node, hosts.ip
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my $hmcstartip = $STANZAS{'xcat-hmcs'}->{'starting-ip'};
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if ($hmcstartip) {
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my ($ipbase, $ipstart) = $hmcstartip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
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# take the number from the nodename, and as it increases, increase the ip addr
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my $regex = '|\D+(\d+)|' . "$ipbase.($ipstart+" . '$1' . "-$hmcstartnum)|";
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$tables{'hosts'}->setNodeAttribs('hmc', {ip => $regex});
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}
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#using hostname-range, write regex for: ppc.node, nodetype.nodetype
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$tables{'ppc'}->setNodeAttribs('hmc', {comments => 'hmc'});
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$tables{'nodetype'}->setNodeAttribs('hmc', {nodetype => 'hmc'});
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}
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sub writeframe {
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# write hostname-range in nodelist table
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my ($framerange, $cwd) = @_;
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infomsg('Defining frames...');
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my $nodes = [noderange($framerange, 0)];
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my ($framestartnum) = $$nodes[0] =~/^\D+(\d+)$/; # save this value for later
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#print "$$nodes[0], $framestartnum\n";
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if (scalar(@$nodes)) {
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#my %nodehash;
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#foreach my $n (@$nodes) { print "n=$n\n"; $nodehash{$n} = { node => $n, groups => 'hmc,all' }; }
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$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'frame,all' });
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}
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# Using the frame group, write starting-ip in hosts table
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my $framestartip = $STANZAS{'xcat-frames'}->{'starting-ip'};
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if ($framestartip) {
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my ($ipbase, $ipstart) = $framestartip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
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# take the number from the nodename, and as it increases, increase the ip addr
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my $regex = '|\D+(\d+)|' . "$ipbase.($ipstart+" . '$1' . "-$framestartnum)|";
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$tables{'hosts'}->setNodeAttribs('frame', {ip => $regex});
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}
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# Using the frame group, write: nodetype.nodetype, nodehm.mgt
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$tables{'nodetype'}->setNodeAttribs('frame', {nodetype => 'bpa'});
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# Using the frame group, num-frames-per-hmc, hmc hostname-range, write regex for: ppc.node, ppc.hcp, ppc.id
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# The frame # should come from the nodename
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my $idregex = '|\D+(\d+)|(0+$1)|';
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my %hash = (id => $idregex);
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if ($STANZAS{'xcat-site'}->{'use-direct-fsp-control'}) {
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$tables{'nodehm'}->setNodeAttribs('frame', {mgt => 'fsp'});
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my $hcpregex = '|(.+)|($1)|'; # its managed by itself
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$hash{hcp} = $hcpregex;
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}
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else {
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$tables{'nodehm'}->setNodeAttribs('frame', {mgt => 'hmc'});
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# let lsslp fill in the hcp
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}
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# Calculate which hmc manages this frame by dividing by num-frames-per-hmc
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#my $framesperhmc = $STANZAS{'xcat-frames'}->{'num-frames-per-hmc'};
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$tables{'ppc'}->setNodeAttribs('frame', \%hash);
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# Write vpd-file to vpd table
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my $filename = fullpath($STANZAS{'xcat-frames'}->{'vpd-file'}, $cwd);
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readwritevpd($filename);
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}
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sub readwritevpd {
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my $filename = shift;
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if (!defined($filename)) { return; }
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my $content;
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if (!open(STANZAF, $filename)) { errormsg("Can not open file $filename.", 2); return; }
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while (my $line = <STANZAF>) { $content .= $line; }
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close STANZAF;
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#print "content=$content";
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my $rc = xCAT::DBobjUtils->readFileInput($content);
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if ($rc) { errormsg("Error in processing stanza file $filename, rc=$rc.", 2); return; }
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$rc = xCAT::DBobjUtils->setobjdefs(\%::FILEATTRS);
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if ($rc) { errormsg("Error setting database attributes from stanza file $filename, rc=$rc.", 2); return; }
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}
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sub writecec {
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# write hostname-range in nodelist table
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my ($cecrange, $cwd) = @_;
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infomsg('Defining CECs...');
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my $nodes = [noderange($cecrange, 0)];
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if ($$nodes[0] =~ /\[/) {
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errormsg("hostname ranges with 2 sets of '[]' are not supported in xCAT 2.5 and below.", 21);
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return;
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}
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if (scalar(@$nodes)) {
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#my %nodehash;
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#foreach my $n (@$nodes) { print "n=$n\n"; $nodehash{$n} = { node => $n, groups => 'hmc,all' }; }
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$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'cec,all' });
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}
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# Using the cec group, write starting-ip in hosts table
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my $cecstartip = $STANZAS{'xcat-cecs'}->{'starting-ip'};
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if ($cecstartip) {
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my ($ipbase, $ip3rd, $ip4th) = $cecstartip =~/^(\d+\.\d+)\.(\d+)\.(\d+)$/;
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# take the number from the nodename, and as it increases, increase the ip addr
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my $cechash = parsenoderange($cecrange);
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#print Dumper($cechash);
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my $regex;
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if (defined($$cechash{'secondary-start'})) {
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# using name like f1c1
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my $primstartnum = $$cechash{'primary-start'};
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my $secstartnum = $$cechash{'secondary-start'};
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# Math for 3rd field: ip3rd+primnum-primstartnum
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# Math for 4th field: ip4th+secnum-secstartnum
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$regex = '|\D+(\d+)\D+(\d+)$|' . "$ipbase.($ip3rd+" . '$1' . "-$primstartnum).($ip4th+" . '$2' . "-$secstartnum)|";
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}
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else {
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# using name like cec01
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my $cecstartnum = $$cechash{'primary-start'};
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# Math for 4th field: (ip4th-1+cecnum-cecstartnum)%254 + 1
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# Math for 3rd field: (ip4th-1+cecnum-cecstartnum)/254 + ip3rd
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$regex = '|\D+(\d+)$|' . "$ipbase.((${ip4th}-1+" . '$1' . "-$cecstartnum)/254+$ip3rd).((${ip4th}-1+" . '$1' . "-$cecstartnum)%254+1)|";
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}
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$tables{'hosts'}->setNodeAttribs('cec', {ip => $regex});
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}
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# Using the cec group, write: nodetype.nodetype
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$tables{'nodetype'}->setNodeAttribs('cec', {nodetype => 'fsp'});
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# Write regex for ppc.hcp, nodehm.mgt. lsslp will fill in parent.
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if ($STANZAS{'xcat-site'}->{'use-direct-fsp-control'}) {
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$tables{'nodehm'}->setNodeAttribs('cec', {mgt => 'fsp'});
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my $hcpregex = '|(.+)|($1)|'; # its managed by itself
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$tables{'ppc'}->setNodeAttribs('cec', {hcp => $hcpregex});
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}
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else {
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$tables{'nodehm'}->setNodeAttribs('cec', {mgt => 'hmc'});
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# let lsslp fill in the hcp
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}
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# Write supernode-list in ppc.supernode. While we are at it, also assign the cage id and parent.
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$nodes = [noderange($cecrange, 0)]; # the setNodesAttribs() function blanks out the nodes array
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my %framesupers;
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my $filename = fullpath($STANZAS{'xcat-cecs'}->{'supernode-list'}, $cwd);
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readsupers($filename, \%framesupers);
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my $i=0; # the index into the array of cecs
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my %ppchash;
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my %nodehash;
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# Collect each nodes supernode num into a hash
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foreach my $k (sort keys %framesupers) {
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my $f = $framesupers{$k}; # $f is a ptr to an array of super node numbers
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if (!$f) { next; } # in case some frame nums did not get filled in by user
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my $cageid = 1;
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foreach my $s (@$f) { # loop thru the supernode nums in this frame
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my $supernum = $s;
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my $numnodes = 4;
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if ($s =~ /\(\d+\)/) { ($supernum, $numnodes) = $s =~ /^(\d+)\((\d+)\)/; }
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for (my $j=0; $j<$numnodes; $j++) { # assign the next few nodes to this supernode num
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my $nodename = $$nodes[$i++];
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#print "Setting $nodename supernode attribute to $supernum,$j\n";
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$ppchash{$nodename} = { supernode => "$supernum,$j", id => $cageid, parent => $k };
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$nodehash{$nodename} = { groups => "${k}cecs,cec,all" };
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$cageid += 2;
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}
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}
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}
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# Now write all of the supernode values to the ppc table
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if (scalar(keys %framesupers)) {
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$tables{'ppc'}->setNodesAttribs(\%ppchash);
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$tables{'nodelist'}->setNodesAttribs(\%nodehash);
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|
}
|
|
}
|
|
|
|
# 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;
|
|
}
|
|
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";
|
|
$$framesup{$frame} = [split(/[\s,]+/, $supernums)];
|
|
}
|
|
|
|
else {
|
|
errormsg("syntax error on line $linenum.", 3);
|
|
return;
|
|
}
|
|
} # end while - go to next line
|
|
close($input);
|
|
}
|
|
|
|
|
|
sub writebb {
|
|
my $framesperbb = shift;
|
|
infomsg('Defining building blocks...');
|
|
|
|
# Set site.sharedtftp=1 since we have bldg blocks
|
|
$tables{'site'}->setAttribs({key => 'sharedtftp'}, {value => 1});
|
|
|
|
# Using num-frames-per-bb write ppc.parent (frame #) for bpas
|
|
my $bbregex = '|\D+(\d+)|((($1-1)/' . $framesperbb . ')+1)|';
|
|
$tables{'ppc'}->setNodeAttribs('frame', {parent => $bbregex});
|
|
}
|
|
|
|
|
|
# Create service node definitions
|
|
sub writesn {
|
|
my $range = shift;
|
|
infomsg('Defining service nodes...');
|
|
# We support name formats: sn01 or (todo:) b1s1
|
|
my $nodes = [noderange($range, 0)];
|
|
my $rangeparts = parsenoderange($range);
|
|
my ($startnum) = $$rangeparts{'primary-start'}; # save this value for later
|
|
if (scalar(@$nodes)) {
|
|
$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'service,all' });
|
|
}
|
|
|
|
# Write regex for: hosts.node, hosts.ip
|
|
my $startip = $STANZAS{'xcat-service-nodes'}->{'starting-ip'};
|
|
if ($startip) {
|
|
my ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
|
|
# take the number from the nodename, and as it increases, increase the ip addr
|
|
my $regex = '|\D+(\d+)|' . "$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(/:/, $if);
|
|
($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
|
|
$if = "$nic:$ipbase.($ipstart+" . '$1' . "-$startnum)";
|
|
}
|
|
$regex = '|\D+(\d+)|' . join(',', @ifs) . '|';
|
|
#print "regex=$regex\n";
|
|
$hash{otherinterfaces} = $regex;
|
|
}
|
|
|
|
$tables{'hosts'}->setNodeAttribs('service', \%hash);
|
|
}
|
|
|
|
# Write regex for: ppc.id, nodetype.nodetype, etc.
|
|
$tables{'ppc'}->setNodeAttribs('service', {id => '1'});
|
|
$tables{'nodetype'}->setNodeAttribs('service', {nodetype => 'osi', arch => 'ppc64'});
|
|
$tables{'nodehm'}->setNodeAttribs('service', {mgt => 'fsp', cons => 'fsp'});
|
|
$tables{'noderes'}->setNodeAttribs('service', {netboot => 'yaboot'});
|
|
my $sntab = xCAT::Table->new('servicenode', -create=>1);
|
|
if (!$sntab) { errormsg("Can not open servicenode table in database.", 3); }
|
|
else {
|
|
$sntab->setNodeAttribs('service', {nameserver=>1, dhcpserver=>1, tftpserver=>1, nfsserver=>1, conserver=>1, monserver=>1, ftpserver=>1, nimserver=>1, ipforward=>1});
|
|
}
|
|
|
|
# Figure out what cec each sn is in and write ppc.hcp and ppc.parent
|
|
#todo: also write nodepos table
|
|
# Math for SN in BB: cecnum = ( ( (snnum-1) / snsperbb) * cecsperbb) + cecstart-1 + snpositioninbb
|
|
my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'};
|
|
my $snsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'};
|
|
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; }
|
|
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($$cechash{'secondary-start'});
|
|
$nodes = [noderange($range, 0)];
|
|
my %nodehash;
|
|
my %grouphash;
|
|
my $bbs = [noderange($STANZAS{'xcat-frames'}->{'hostname-range'}, 0)];
|
|
# Go thru each service node and calculate which cec it is in
|
|
for (my $i=0; $i<scalar(@$nodes); $i++) {
|
|
# figure out the BB num to add this node to that group
|
|
my $bbnum = int($i/$snsperbb) + 1;
|
|
my $bbname = $$bbs[$bbnum-1];
|
|
$grouphash{$$nodes[$i]} = {groups => "${bbname}service,service,all"};
|
|
# figure out the CEC num
|
|
my $snpositioninbb = $positions[$i % $snsperbb]; # the offset within the BB
|
|
my $cecnum = ( int($i/$snsperbb) * $cecsperbb) + $snpositioninbb; # which cec num, counting from the beginning
|
|
my $cecname;
|
|
if (!$secbase) {
|
|
$cecname = $cecbase . sprintf("%0${ceclen}d", $cecnum);
|
|
}
|
|
else { # calculate the 2 indexes for a name like f2c3
|
|
# we essentially have to do base n math, where n is the size of the second range
|
|
my $n = $secend - $secstart + 1;
|
|
my $primary = int(($cecnum-1) / $n) + 1;
|
|
my $secondary = ($cecnum-1) % $n + 1;
|
|
$cecname = $cecbase . sprintf("%0${ceclen}d", $primary) . $secbase . sprintf("%0${seclen}d", $secondary);
|
|
}
|
|
#print "sn=$$nodes[$i], cec=$cecname\n";
|
|
$nodehash{$$nodes[$i]} = {hcp => $cecname, parent => $cecname};
|
|
}
|
|
$tables{'ppc'}->setNodesAttribs(\%nodehash);
|
|
$tables{'nodelist'}->setNodesAttribs(\%grouphash);
|
|
}
|
|
|
|
|
|
# Create storage node definitions
|
|
sub writestorage {
|
|
my $range = shift;
|
|
infomsg('Defining storage nodes...');
|
|
my $nodes = [noderange($range, 0)];
|
|
my $rangeparts = parsenoderange($range);
|
|
my ($startnum) = $$rangeparts{'primary-start'}; # save this value for later
|
|
if (scalar(@$nodes)) {
|
|
$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'storage,all' });
|
|
}
|
|
|
|
# Write regex for: hosts.node, hosts.ip
|
|
my $startip = $STANZAS{'xcat-storage-nodes'}->{'starting-ip'};
|
|
if ($startip) {
|
|
my ($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
|
|
# take the number from the nodename, and as it increases, increase the ip addr
|
|
my $regex = '|\D+(\d+)|' . "$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(/:/, $if);
|
|
($ipbase, $ipstart) = $startip =~/^(\d+\.\d+\.\d+)\.(\d+)$/;
|
|
$if = "$nic:$ipbase.($ipstart+" . '$1' . "-$startnum)";
|
|
}
|
|
$regex = '|\D+(\d+)|' . join(',', @ifs) . '|';
|
|
#print "regex=$regex\n";
|
|
$hash{otherinterfaces} = $regex;
|
|
}
|
|
my $aliases = $STANZAS{'xcat-storage-nodes'}->{'aliases'};
|
|
if ($aliases) {
|
|
#todo: support more than 1 alias
|
|
$regex = '|(.+)|($1)' . "$aliases|";
|
|
$hash{hostnames} = $regex;
|
|
}
|
|
|
|
$tables{'hosts'}->setNodeAttribs('storage', \%hash);
|
|
}
|
|
|
|
# Write ppc.id, nodetype.nodetype, etc.
|
|
$tables{'ppc'}->setNodeAttribs('storage', {id => '1'});
|
|
$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
|
|
#todo: also write nodepos table
|
|
# Math for SN in BB: cecnum = ( ( (snnum-1) / snsperbb) * cecsperbb) + cecstart-1 + snpositioninbb
|
|
my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'};
|
|
my $snsperbb = $STANZAS{'xcat-storage-nodes'}->{'num-storage-nodes-per-bb'};
|
|
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; }
|
|
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($$cechash{'secondary-start'});
|
|
my $sns = [noderange($STANZAS{'xcat-service-nodes'}->{'hostname-range'}, 0)];
|
|
$nodes = [noderange($range, 0)];
|
|
my %nodehash;
|
|
my %grouphash;
|
|
my %nodereshash;
|
|
my $bbs = [noderange($STANZAS{'xcat-frames'}->{'hostname-range'}, 0)];
|
|
# Go thru each storage node and calculate which cec it is in
|
|
for (my $i=0; $i<scalar(@$nodes); $i++) {
|
|
# figure out the BB num to add this node to that group
|
|
my $bbnum = int($i/$snsperbb) + 1;
|
|
my $bbname = $$bbs[$bbnum-1];
|
|
$grouphash{$$nodes[$i]} = {groups => "${bbname}storage,storage,all"};
|
|
# figure out the CEC num
|
|
my $snpositioninbb = $positions[$i % $snsperbb]; # the offset within the BB
|
|
my $cecnum = ( int($i/$snsperbb) * $cecsperbb) + $snpositioninbb; # which cec num, counting from the beginning
|
|
my $cecname;
|
|
if (!$secbase) {
|
|
$cecname = $cecbase . sprintf("%0${ceclen}d", $cecnum);
|
|
}
|
|
else { # calculate the 2 indexes for a name like f2c3
|
|
# we essentially have to do base n math, where n is the size of the second range
|
|
my $n = $secend - $secstart + 1;
|
|
my $primary = int(($cecnum-1) / $n) + 1;
|
|
my $secondary = ($cecnum-1) % $n + 1;
|
|
$cecname = $cecbase . sprintf("%0${ceclen}d", $primary) . $secbase . sprintf("%0${seclen}d", $secondary);
|
|
}
|
|
#print "sn=$$nodes[$i], cec=$cecname\n";
|
|
$nodehash{$$nodes[$i]} = {hcp => $cecname, parent => $cecname};
|
|
|
|
# Now determine the service node this compute node is under
|
|
#my $bbnum = int(($cecnum-1) / $cecsperbb) + 1;
|
|
my $cecinthisbb = ($cecnum-1) % $cecsperbb + 1;
|
|
my $servsperbb = $STANZAS{'xcat-service-nodes'}->{'num-service-nodes-per-bb'};
|
|
my $cecspersn = int($cecsperbb / $servsperbb);
|
|
my $snoffset = int(($cecinthisbb-1) / $cecspersn) + 1;
|
|
my $snsbeforethisbb = ($bbnum-1) * $servsperbb;
|
|
my $snnum = $snsbeforethisbb + $snoffset;
|
|
my $snname = $$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);
|
|
}
|
|
|
|
|
|
# Create compute node definitions
|
|
sub writecompute {
|
|
my $range = shift;
|
|
infomsg('Defining compute nodes...');
|
|
my $nodes = [noderange($range, 0)];
|
|
if (scalar(@$nodes)) {
|
|
$tables{'nodelist'}->setNodesAttribs($nodes, { groups => 'compute,all' });
|
|
}
|
|
|
|
# Write regex for: hosts.node, hosts.ip
|
|
my $nodehash = parsenoderange($range);
|
|
my $startip = $STANZAS{'xcat-compute-nodes'}->{'starting-ip'};
|
|
if ($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 = '|\D+(\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);
|
|
($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 = '|\D+(\d+)|' . join(',', @ifs) . '|';
|
|
#print "regex=$regex\n";
|
|
$hash{otherinterfaces} = $regex;
|
|
}
|
|
my $aliases = $STANZAS{'xcat-compute-nodes'}->{'aliases'};
|
|
if ($aliases) {
|
|
#todo: support more than 1 alias
|
|
$regex = '|(.+)|($1)' . "$aliases|";
|
|
$hash{hostnames} = $regex;
|
|
}
|
|
|
|
$tables{'hosts'}->setNodeAttribs('compute', \%hash);
|
|
}
|
|
|
|
# Write regex for: nodetype.nodetype, etc.
|
|
$tables{'nodetype'}->setNodeAttribs('compute', {nodetype => 'osi', arch => 'ppc64'});
|
|
$tables{'nodehm'}->setNodeAttribs('compute', {mgt => 'fsp', cons => 'fsp'});
|
|
$tables{'noderes'}->setNodeAttribs('compute', {netboot => 'yaboot'});
|
|
|
|
# Figure out what cec each compute node is in and write ppc.hcp, ppc.parent, ppc.id, noderes.xcatmaster, noderes.servicenode
|
|
#todo: also write nodepos table
|
|
my $cecsperbb = $STANZAS{'xcat-building-blocks'}->{'num-cecs-per-bb'};
|
|
my $lparspercec = $STANZAS{'xcat-lpars'}->{'num-lpars-per-cec'};
|
|
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 %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<scalar(@$nodes); $i++) {
|
|
if ($lparid >= $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};
|
|
|
|
# Now determine the service node this compute node is under
|
|
my $bbnum = int(($cecnum-1) / $cecsperbb) + 1;
|
|
my $cecinthisbb = ($cecnum-1) % $cecsperbb + 1;
|
|
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);
|
|
}
|
|
|
|
|
|
# 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 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'}) = $nr =~ /^\s*(\S+)\[(\d+)[\-\:](\d+)\](\S+)\[(\d+)[\-\:](\d+)\]\s*$/;
|
|
#print Dumper($ret);
|
|
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'}) = $nr =~ /^\s*(\S+)\[(\d+)[\-\:](\d+)\]\s*$/;
|
|
return $ret;
|
|
}
|
|
|
|
# Check for normal range, e.g. n01-n20
|
|
my $base2;
|
|
if ( $nr =~ /^\s*\D+\d+\-\D+\d+\s*$/ ) {
|
|
($$ret{'primary-base'}, $$ret{'primary-start'}, $base2, $$ret{'primary-end'}) = $nr =~ /^\s*(\D+)(\d+)\-(\D+)(\d+)\s*$/;
|
|
if ($$ret{'primary-base'} ne $base2) { return undef; } # ill-formed range
|
|
return $ret;
|
|
}
|
|
|
|
return undef; # range did not match any of the cases above
|
|
}
|
|
|
|
|
|
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);
|
|
}
|
|
|
|
1;
|