# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html BEGIN { $::XCATROOT = $ENV{'XCATROOT'} ? $ENV{'XCATROOT'} : '/opt/xcat'; } package xCAT::FSPvm; use lib "$::XCATROOT/lib/perl"; use strict; use Getopt::Long; use xCAT::PPCdb; use xCAT::PPCcli qw(SUCCESS EXPECT_ERROR RC_ERROR NR_ERROR); use xCAT::Usage; use xCAT::NodeRange; use xCAT::FSPUtils; #use Data::Dumper; ############################################## # Globals ############################################## my %method = ( mkvm => \&mkvm_parse_args, lsvm => \&lsvm_parse_args, rmvm => \&rmvm_parse_args, chvm => \&chvm_parse_args ); ########################################################################## # Parse the command line for options and operands ########################################################################## sub parse_args { my $request = shift; my $cmd = $request->{command}; ############################### # Invoke correct parse_args ############################### my $result = $method{$cmd}( $request ); return( $result ); } ########################################################################## # Parse the chvm command line for options and operands ########################################################################## sub chvm_parse_args { my $request = shift; my %opt = (); my $cmd = $request->{command}; my $args = $request->{arg}; ############################################# # Responds with usage statement ############################################# local *usage = sub { my $usage_string = xCAT::Usage->getUsage($cmd); return( [ $_[0], $usage_string] ); }; ############################################# # Process command-line arguments ############################################# if ( !defined( $args )) { $request->{method} = $cmd; return( \%opt ); } ############################################# # Checks case in GetOptions, allows opts # to be grouped (e.g. -vx), and terminates # at the first unrecognized option. ############################################# @ARGV = @$args; $Getopt::Long::ignorecase = 0; Getopt::Long::Configure( "bundling" ); if ( !GetOptions( \%opt, qw(V|verbose p=s i=s m=s r=s ) )) { return( usage() ); } #################################### # Check for "-" with no option #################################### if ( grep(/^-$/, @ARGV )) { return(usage( "Missing option: -" )); } #################################### # Check for an extra argument #################################### if ( defined( $ARGV[0] )) { return(usage( "Invalid argument: $ARGV[0]" )); } #################################### # Configuration file required #################################### #if ( !exists( $opt{p}) ) { # if ( !defined( $request->{stdin} )) { # return(usage( "Configuration file or attributes not specified" )); # } #} my @cfgdata ; if ( exists( $opt{p})) { if ( exists( $opt{i} ) || exists( $opt{r}) || exists( $opt{m} ) ) { return(usage("-p should NOT be used with -i, -r or -m.")); } $opt{p} = $request->{cwd}->[0] . '/' . $opt{p} if ( $opt{p} !~ /^\//); return ( usage( "Profile $opt{p} cannot be found")) if ( ! -f $opt{p}); open (PROFFILE, "<$opt{p}") or return ( usage( "Cannot open profile $opt{p}")); while( ) { chomp; if( $_ =~ /(\d+):(\s+)(\d+)\/([\w\.\-]+)\/(\w+)\//) { push @cfgdata, $_; } else { return ( usage( "Invalid line in profile: $_")); } } $opt{profile} = \@cfgdata; } if (defined( $request->{stdin} )) { $opt{p} = 1; if ( exists( $opt{i} ) || exists( $opt{r} ) || exists( $opt{m} ) ) { return(usage("When the profile is piped into the chvm command, the -i, -r and -m could NOT be used.")); } } #if (defined( $request->{stdin} )) { # my $p = $request->{stdin}; # my @io = split(/\n/, $p) ; # foreach (@io) { # chomp; # if( $_ =~ /(\d+):(\s+)(\d+),([\w\.\-]+),(\w+),/) { # push @cfgdata, $_; # } else { # return ( usage( "Invalid line in profile: $_")); # } # } # $opt{profile} = \@cfgdata; #} #print "in parse args:\n"; #print Dumper(\%opt); if ( exists( $opt{i} ) ) { if( !exists( $opt{r} ) ) { return(usage( "Option -i should be used with option -r ." )); } if ( $opt{i} !~ /^([1-9]{1}|[1-9]{1}[0-9]+)$/ ) { return(usage( "Invalid entry: $opt{i}" )); } my @id = (1, 5, 9, 13, 17, 21, 25, 29); my @found = grep(/^$opt{i}$/, @id ); if ( @found != 1) { return(usage( "Invalid entry: $opt{i}.\n For Power 775, starting numeric id of the newly created partitions only could be 1, 5, 9, 13, 17, 21, 25 and 29." )); } #if ( !exists($opt{o}) ) { # return(usage("For Power 775, -i should be used with -o")); #} #my @value = (1, 2, 3, 4, 5); #if ( grep(/^$opt{i}$/, @id ) != 1) { # return(usage( "Invalid entry: $opt{o}.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of mkvm." )); #} } # pending memory interleaving mode (1- interleaved, 2- non-interleaved) # non-interleaved mode means the memory cannot be shared across the processors in an octant. # interleaved means the memory can be shared. if( exists($opt{m}) ) { if( $opt{m} =~ /^interleaved$/ || $opt{m} =~ /^1$/ ) { $opt{m} = 1; } elsif( $opt{m} =~ /^non-interleaved$/ || $opt{m} =~ /^2$/ ) { $opt{m} = 2; } else { return(usage( "Invalid entry: $opt{m}.\n For Power 775, the pending memory interleaving mode only could be interleaved(or 1), or non-interleaved(or 2)." )); } } else { $opt{m} = 2 ;# non-interleaved, which is the default } my @ratio = (1, 2, 3, 4, 5); my %octant_cfg = (); if ( exists( $opt{r} ) ) { if( !exists( $opt{i} ) ) { return(usage( "Option -r should be used with option -i ." )); } my @elems = split(/\,/,$opt{r}); my $range=""; while (my $elem = shift @elems) { if ($elem !~ /\:/) { return (usage("Invalid argument $elem.\n The input format for 'r' should be like this: \"-r Octant_id:Value\".")) } if($elem !~ /\-/) { my @subelems = split(/\:/, $elem); if( $subelems[0] < 0 || $subelems[0] > 7) { return(usage("Octant ID only could be 0 to 7 in the octant configuration value $elem")); } if( grep(/^$subelems[1]$/, @ratio ) != 1) { return(usage( "Invalid octant configuration value in $elem.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of chvm." )); } if( exists($octant_cfg{$subelems[0]}) && $octant_cfg{$subelems[0]} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$subelems[0]} = $subelems[1]; $range .= "$elem,"; } else { my @subelems = split(/\:/, $elem); my ($left,$right) = split(/\-/, $subelems[0]); if( $left < 0 || $left > 7 || $right < 0 || $right > 7) { return(usage("Octant ID only could be 0 to 7 in the octant configuration rule $elem")); } if($left == $right) { if( grep(/^$subelems[1]$/, @ratio ) != 1) { return(usage( "Invalid octant configuration value in $elem.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of chvm." )); } if( exists($octant_cfg{$left}) || $octant_cfg{$left} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$left} = $subelems[1]; $range .="$left:$subelems[1]," } elsif($left < $right ) { my $i = $left; for( $i; $i <=$right ; $i ++) { if( exists($octant_cfg{$i}) || $octant_cfg{$i} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$i} = $subelems[1]; $range .= "$i:$subelems[1],"; } } else { return(usage("In the octant configuration rule $elem, the left octant ID could NOT be bigger than the right octant ID")); } } # end of "if .. else.." } # end of while } #end of if if ( exists( $opt{i} ) && exists( $opt{r} ) ) { $opt{octant_cfg}{octant_cfg_value} = (\%octant_cfg); $opt{octant_cfg}{memory_interleave} = $opt{m}; $opt{target} = \@{$request->{node}}; my $ppctab = xCAT::Table->new( 'ppc'); unless($ppctab) { return(usage("Cannot open ppc table")); } my $other_p; foreach my $node( @{$request->{node}} ) { my $parent_hash = $ppctab->getNodeAttribs( $node,[qw(parent)]); my $p = $parent_hash->{parent}; if ( !$p) { return(usage("Not found the parent of $node")); } if(! defined( $other_p)) { $other_p = $p; } if ($other_p ne $p) { return(usage("For Power 775, please make sure the noderange are in one CEC ")); } } $request->{node} = [$other_p]; $request->{noderange} = $other_p; } #################################### # No operands - add command name #################################### $request->{method} = $cmd; return( \%opt ); } ########################################################################## # Parse the mkvm command line for options and operands ########################################################################## sub mkvm_parse_args { my $request = shift; my %opt = (); my $cmd = $request->{command}; my $args = $request->{arg}; ############################################# # Responds with usage statement ############################################# local *usage = sub { my $usage_string = xCAT::Usage->getUsage($cmd); return( [ $_[0], $usage_string] ); }; ############################################# # Process command-line arguments ############################################# if ( !defined( $args )) { return(usage( "No command specified" )); } ############################################# # Checks case in GetOptions, allows opts # to be grouped (e.g. -vx), and terminates # at the first unrecognized option. ############################################# @ARGV = @$args; $Getopt::Long::ignorecase = 0; Getopt::Long::Configure( "bundling" ); # if ( !GetOptions( \%opt, qw(V|verbose ibautocfg ibacap=s i=s l=s c=s p=s full) )) { # return( usage() ); # } if ( !GetOptions( \%opt, qw(V|verbose i=s m=s r=s ) )) { return( usage() ); } #################################### # Check for "-" with no option #################################### if ( grep(/^-$/, @ARGV )) { return(usage( "Missing option: -" )); } #################################### # Check for non-zero integer #################################### if ( exists( $opt{i} ) ) { if ( $opt{i} !~ /^([1-9]{1}|[1-9]{1}[0-9]+)$/ ) { return(usage( "Invalid entry: $opt{i}" )); } my @id = (1, 5, 9, 13, 17, 21, 25, 29); my @found = grep(/^$opt{i}$/, @id ); if ( @found != 1) { return(usage( "Invalid entry: $opt{i}.\n For Power 775, starting numeric id of the newly created partitions only could be 1, 5, 9, 13, 17, 21, 25 and 29." )); } #if ( !exists($opt{o}) ) { # return(usage("For Power 775, -i should be used with -o")); #} #my @value = (1, 2, 3, 4, 5); #if ( grep(/^$opt{i}$/, @id ) != 1) { # return(usage( "Invalid entry: $opt{o}.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of mkvm." )); #} } # pending memory interleaving mode (1- interleaved, 2- non-interleaved) # non-interleaved mode means the memory cannot be shared across the processors in an octant. # interleaved means the memory can be shared. if( exists($opt{m}) ) { if( $opt{m} =~ /^interleaved$/ || $opt{m} =~ /^1$/ ) { $opt{m} = 1; } elsif( $opt{m} =~ /^non-interleaved$/ || $opt{m} =~ /^2$/ ) { $opt{m} = 2; } else { return(usage( "Invalid entry: $opt{m}.\n For Power 775, the pending memory interleaving mode only could be interleaved(or 1), or non-interleaved(or 2)." )); } } else { $opt{m} = 2 ;# non-interleaved, which is the default } my @ratio = (1, 2, 3, 4, 5); my %octant_cfg = (); if ( exists( $opt{r} ) ) { my @elems = split(/\,/,$opt{r}); my $range=""; while (my $elem = shift @elems) { if($elem !~ /\-/) { my @subelems = split(/\:/, $elem); if( $subelems[0] < 0 || $subelems[0] > 7) { return(usage("Octant ID only could be 0 to 7 in the octant configuration value $elem")); } if( grep(/^$subelems[1]$/, @ratio ) != 1) { return(usage( "Invalid octant configuration value in $elem.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of mkvm." )); } if( exists($octant_cfg{$subelems[0]}) && $octant_cfg{$subelems[0]} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$subelems[0]} = $subelems[1]; $range .= "$elem,"; } else { my @subelems = split(/\:/, $elem); my ($left,$right) = split(/\-/, $subelems[0]); if( $left < 0 || $left > 7 || $right < 0 || $right > 7) { return(usage("Octant ID only could be 0 to 7 in the octant configuration rule $elem")); } if($left == $right) { if( grep(/^$subelems[1]$/, @ratio ) != 1) { return(usage( "Invalid octant configuration value in $elem.\n For Power 775, octant configuration values only could be 1, 2, 3, 4, 5. Please see the details in manpage of mkvm." )); } if( exists($octant_cfg{$left}) || $octant_cfg{$left} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$left} = $subelems[1]; $range .="$left:$subelems[1]," } elsif($left < $right ) { my $i = $left; for( $i; $i <=$right ; $i ++) { if( exists($octant_cfg{$i}) || $octant_cfg{$i} == $subelems[1] ) { return(usage("In the octant configuration rule, same octant with different octant configuration value. Error!")); } $octant_cfg{$i} = $subelems[1]; $range .= "$i:$subelems[1],"; } } else { return(usage("In the octant configuration rule $elem, the left octant ID could NOT be bigger than the right octant ID")); } } # end of "if .. else.." } # end of while } #end of if $opt{octant_cfg}{octant_cfg_value} = (\%octant_cfg); $opt{octant_cfg}{memory_interleave} = $opt{m}; if ( !exists( $opt{i} ) || !exists( $opt{r} ) ) { return(usage()); } $opt{target} = \@{$request->{node}}; my $ppctab = xCAT::Table->new( 'ppc'); unless($ppctab) { return(usage("Cannot open ppc table")); } my $other_p; foreach my $node( @{$request->{node}} ) { my $parent_hash = $ppctab->getNodeAttribs( $node,[qw(parent)]); my $p = $parent_hash->{parent}; if ( !$p) { return(usage("Not found the parent of $node")); } if(! defined( $other_p)) { $other_p = $p; } if ($other_p ne $p) { return(usage("For Power 775, please make sure the noderange are in one CEC ")); } } $request->{node} = [$other_p]; $request->{noderange} = $other_p; #################################### # No operands - add command name #################################### $request->{method} = $cmd; return( \%opt ); } ########################################################################## # Parse the rmvm command line for options and operands ########################################################################## sub rmvm_parse_args { my $request = shift; my %opt = (); my $cmd = $request->{command}; my $args = $request->{arg}; ############################################# # Responds with usage statement ############################################# local *usage = sub { my $usage_string = xCAT::Usage->getUsage($cmd); return( [ $_[0], $usage_string] ); }; ############################################# # Process command-line arguments ############################################# if ( !defined( $args )) { $request->{method} = $cmd; return( \%opt ); } ############################################# # Checks case in GetOptions, allows opts # to be grouped (e.g. -vx), and terminates # at the first unrecognized option. ############################################# @ARGV = @$args; $Getopt::Long::ignorecase = 0; Getopt::Long::Configure( "bundling" ); if ( !GetOptions( \%opt, qw(V|verbose service r) )) { return( usage() ); } return(usage( "rmvm doesn't support for Power 775." )); #################################### # Check for "-" with no option #################################### if ( grep(/^-$/, @ARGV )) { return(usage( "Missing option: -" )); } #################################### # Check for an extra argument #################################### if ( defined( $ARGV[0] )) { return(usage( "Invalid Argument: $ARGV[0]" )); } #################################### # No operands - add command name #################################### $request->{method} = $cmd; return( \%opt ); } ########################################################################## # Parse the lsvm command line for options and operands ########################################################################## sub lsvm_parse_args { my $request = shift; my %opt = (); my $cmd = $request->{command}; my $args = $request->{arg}; ############################################# # Responds with usage statement ############################################# local *usage = sub { my $usage_string = xCAT::Usage->getUsage($cmd); return( [ $_[0], $usage_string] ); }; ############################################# # Process command-line arguments ############################################# if ( !defined( $args )) { $request->{method} = $cmd; return( \%opt ); } ############################################# # Checks case in GetOptions, allows opts # to be grouped (e.g. -vx), and terminates # at the first unrecognized option. ############################################# @ARGV = @$args; $Getopt::Long::ignorecase = 0; Getopt::Long::Configure( "bundling" ); if ( !GetOptions( \%opt, qw(V|verbose ) )) { return( usage() ); } #################################### # Check for "-" with no option #################################### if ( grep(/^-$/, @ARGV )) { return(usage( "Missing option: -" )); } #################################### # Check for an extra argument #################################### if ( defined( $ARGV[0] )) { return(usage( "Invalid Argument: $ARGV[0]" )); } #################################### # No operands - add command name #################################### $request->{method} = $cmd; return( \%opt ); } ########################################################################## # Changes the configuration of an existing partition ########################################################################## sub modify { my $request = shift; my $hash = shift; my $usage_string = xCAT::Usage->getUsage($request->{command}); return modify_by_prof( $request, $hash) if ( $request->{opt}->{p} || $request->{stdin}); return create( $request, $hash) if ( $request->{opt}->{i}); return ([["Error", "Miss argument\n".$usage_string, 1]]); } ########################################################################## # Changes the configuration of an existing # partition based on the profile specified ########################################################################## sub modify_by_prof { my $request = shift; my $hash = shift; my $name = @{$request->{node}}[0]; my $opt = $request->{opt}; my @values; my $cfgdata = $opt->{profile}; my $profile; my $cec_name; my $td; my %io = (); my %lpar_state = (); my @result; if (defined( $request->{stdin} )) { my $p = $request->{stdin}; my @io = split(/\n/, $p) ; foreach (@io) { chomp; if( $_ =~ /(\d+):(\s+)(\d+)\/([\w\.\-]+)\/(\w+)\//) { push @$cfgdata, $_; } else { return (\["Error", "Invalid line in profile: $_", -1]); } } } #print Dumper($cfgdata); while (my ($cec,$h) = each(%$hash) ) { while (my ($lpar,$d) = each(%$h) ) { $td = $d; @$td[4] = "fsp"; $cec_name = @$d[3]; } #get the current I/O slot information my $action = "get_io_slot_info"; my $values = xCAT::FSPUtils::fsp_api_action ($cec_name, $td, $action); my $Rc = $$values[2]; if ( $Rc != 0 ) { push @result, [$cec_name, $$values[1], $Rc]; return (\@result); } my @data = split(/\n/, $$values[1]); foreach my $v (@data) { my ($lparid, $busid, $location, $drc_index, $owner_type, $owner, $descr) = split(/,/, $v); $io{$drc_index}{lparid} = $lparid; $io{$drc_index}{owner_type} = $owner_type; $io{$drc_index}{owner} = $owner; } #get all the nodes state in the same cec $action = "all_lpars_state"; undef($values); my $values = xCAT::FSPUtils::fsp_state_action ($cec_name, "fsp", $action); $Rc = shift(@$values); if ( $Rc != 0 ) { push @result, [$cec_name, $$values[0], $Rc]; return (\@result); } foreach ( @$values ) { my ($state,$lparid) = split /,/; $lpar_state{$lparid} = $state; } } ################################## # Check if LPAR profile exists ################################### while (my ($cec,$h) = each(%$hash) ) { while (my ($lpar,$d) = each(%$h) ) { my $id = @$d[0]; #print Dumper($cfgdata); my @found = grep(/^$id:/, @$cfgdata ); #print Dumper(\@found); my $action = "set_io_slot_owner"; my $tooltype = 0; foreach my $f (@found) { #'1: 514/U78A9.001.0123456-P1-C17/0x21010202/2/1' my ($bus,$location,$drc_index,@t) = split(/\//, $f); my $orig_id = $io{$drc_index}{lparid}; # the current owning lpar and the new owning lpar must be in power off state if (($lpar_state{$orig_id} ne "Not Activated") || ($lpar_state{$id} ne "Not Activated" )){ push @result, [$lpar, "For the I/O $location, the current owning lpar(id=$orig_id) of the I/O and the new owning lpar(id=$id) must be in Not Activated state at first. And then run chvm again", -1]; return ( \@result ); } my $values = xCAT::FSPUtils::fsp_api_action ($lpar, $d, $action, $tooltype, $drc_index); #my $Rc = shift(@$values); my $Rc = pop(@$values); if ( $Rc != 0 ) { push @result, [$lpar, $$values[1],$Rc]; next; } } } } return( \@result ); } sub enumerate { my $h = shift; my $mtms = shift; my %outhash = (); my $cec; my $type; my @td; while (my ($name,$d) = each(%$h) ) { $cec = @$d[3]; $type = @$d[4]; @td = @$d; } $td[4]="fsp"; my $action = "get_io_slot_info"; my $values = xCAT::FSPUtils::fsp_api_action ($cec, \@td, $action); #my $Rc = shift(@$values); my $Rc = $$values[2]; if ( $Rc != 0 ) { $outhash{ 1 } = "The LPARs' I/O slots information could NOT be listed because the cec is in power off state"; } else { $outhash{ 0 } = $$values[1]; } #my @t; #foreach my $value ( @$values ) { # my ($lparid, $busid, $slot_location_code, $drc_index,@t ) = split (/,/, $value); # push (@{$outhash{$lparid}}, $value); #} if( $type =~ /^(fsp|cec)$/ ) { $action = "query_octant_cfg"; my $values = xCAT::FSPUtils::fsp_api_action ($cec, \@td, $action); my $Rc = pop(@$values); if ( $Rc != 0 ) { return( [$Rc,$$values[1]] ); } #$outhash{ $cec } = @$values[0]; my $data = $$values[1]; my @value = split(/:/, $data); my $pendingpumpmode = $value[0]; my $currentpumpMode = $value[1]; my $octantcount = $value[2]; my $j = 3; my $res = "PendingPumpMode=$pendingpumpmode,CurrentPumpMode=$currentpumpMode,OctantCount=$octantcount:\n"; for(my $i=0; $i < $octantcount; $i++) { $res = $res."OctantID=".$value[$j++].",PendingOctCfg=".$value[$j++].",CurrentOctCfg=".$value[$j++].",PendingMemoryInterleaveMode=".$value[$j++].",CurrentMemoryInterleaveMode=".$value[$j++].";\n"; } $outhash{ $cec } = $res; } return( [0,\%outhash] ); } ########################################################################## # Lists logical partitions ########################################################################## sub list { my $request = shift; my $hash = shift; my $args = $request->{opt}; my $values = (); my @value = (); my $node_name; my $d; my @result; #print Dumper($hash); while (my ($mtms,$h) = each(%$hash) ) { my $info = enumerate( $h, $mtms ); my $Rc = shift(@$info); my $data = @$info[0]; my $values = $data->{0}; my $msg = $data->{1}; while (($node_name,$d) = each(%$h) ) { my $cec = @$d[3]; my $type = @$d[4]; my $id = @$d[0]; if ( $Rc != SUCCESS ) { push @result, [$node_name, $data,$Rc]; next; } # if ( !exists( $data->{$id} )) { # push @result, [$node_name, "Node not found",1]; # next; # } if( defined($msg)) { push @result,[$node_name, $msg, 0]; } else { # get the I/O slot information my $v; my @t; my @value = split(/\n/, $values); foreach my $v (@value) { my ($lparid, @t ) = split (/,/, $v); if ($type=~/^(fsp|cec)$/) { push @result,[$lparid, join('/', @t), $Rc]; } else { if( $lparid eq $id) { push @result,[$lparid, join('/', @t), $Rc]; } } } } # get the octant configuration value if ($type=~/^(fsp|cec)$/) { my $value = $data->{$cec}; push @result,[$node_name, $value, $Rc]; } } # end of while }# end of while return( \@result ); } ########################################################################## # Lists logical partitions ########################################################################## sub list_orig { my $request = shift; my $hash = shift; my $args = $request->{opt}; my $values = (); my @value = (); my $node_name; my $d; my @result; while (my ($mtms,$h) = each(%$hash) ) { while (($node_name,$d) = each(%$h) ) { my $lparid = @$d[0]; my $mtms = @$d[2]; my $type = @$d[4]; my $pprofile; #################################### # Must be CEC or LPAR #################################### if ( $type !~ /^(lpar|fsp|cec)$/ ) { #$values->{$lpar} = [$lpar,"Node must be LPAR or CEC",RC_ERROR]; return ( [$node_name,"Node must be LPAR or CEC",RC_ERROR]); #next; } #################################### # This is a single LPAR #################################### if ( $type eq "lpar" ) { #$lpars[0] = "$lpar,$lparid"; } #################################### # This is a CEC #################################### else { my $values = xCAT::FSPUtils::fsp_api_action( $node_name, $d, "query_octant_cfg"); my $Rc = @$values[2]; my $data = @$values[1]; if ( $Rc != SUCCESS ) { push @result, [$node_name,$data,$Rc]; } else { my @value = split(/,/, $data); my $pendingpumpmode = $value[0]; my $currentpumpMode = $value[1]; my $octantcount = $value[2]; my $j = 3; my $res = "PendingPumpMode=$pendingpumpmode,CurrentPumpMode=$currentpumpMode,OctantCount=$octantcount:"; for(my $i=0; $i < $octantcount; $i++) { $res = $res."OctantID=".$value[$j++].",PendingOctCfg=".$value[$j++].",CurrentOctCfg=".$value[$j++].",PendingMemoryInterleaveMode=".$value[$j++].",CurrentMemoryInterleaveMode".$value[$j++].";"; } push @result,[$node_name, $res, $Rc]; } } } } return( \@result ); } ########################################################################## # Creates/changes logical partitions ########################################################################## sub create { my $request = shift; my $hash = shift; my $opt = $request->{opt}; my @values = (); my @result; my $cec_name; my $d; my $lparid; my $mtms; my $type; my $profile; my $starting_lpar_id = $opt->{i}; my $octant_cfg = $opt->{octant_cfg}; my $node_number =@{$opt->{target}}; my %node_id = (); my @nodes = @{$opt->{target}}; #print Dumper($request); ##################################### # Get source node information ##################################### while ( my ($cec,$h) = each(%$hash) ) { while ( my ($name,$data) = each(%$h) ) { $d = $data; $lparid = @$d[0]; $mtms = @$d[2]; $type = @$d[4]; $cec_name = $name; ##################################### # Must be LPAR ##################################### if ( $type !~ /^(fsp|cec)$/ ) { return( [[$cec_name,"Node's parent must be fsp or CEC",RC_ERROR]] ); } } my $values = xCAT::FSPUtils::fsp_api_action ($cec_name, $d, "query_octant_cfg"); my $Rc = shift(@$values); if ( $Rc != 0 ) { return( [[$cec_name,$$values[0],$Rc]] ); } my @v = split(/:/, $$values[0]); $octant_cfg->{pendingpumpmode} = $v[0]; my $number_of_lpars_per_octant; my $octant_num_needed; my $starting_octant_id; my $octant_conf_value; my $octant_cfg_value = $octant_cfg->{octant_cfg_value}; my $new_pending_interleave_mode = $octant_cfg->{memory_interleave}; $starting_octant_id = int($starting_lpar_id/4); my $lparnum_from_octant = 0; my $new_pending_pump_mode = $octant_cfg->{pendingpumpmode}; my $parameters; #my $parameters = "$new_pending_pump_mode:$octant_num_needed"; my $octant_id = $starting_octant_id ; my $i = 0; my $res; for($i=0; $i < (keys %$octant_cfg_value) ; $i++) { if(! exists($octant_cfg_value->{$octant_id})) { $res = "starting LPAR id is $starting_lpar_id, starting octant id is $starting_octant_id. The octants should be used continuously. Octant $octant_id configuration value isn't provided. Wrong plan."; return ([[$cec_name, $res, -1]]); } my $octant_conf_value = $octant_cfg_value->{$octant_id}; #octant configuration values could be 1,2,3,4,5 ; AS following: # 1 - 1 partition with all cpus and memory of the octant # 2 - 2 partitions with a 50/50 split of cpus and memory # 3 - 3 partitions with a 25/25/50 split of cpus and memory # 4 - 4 partitions with a 25/25/25/25 split of cpus and memory # 5 - 2 partitions with a 25/75 split of cpus and memory if($octant_conf_value == 1) { $number_of_lpars_per_octant = 1; } elsif($octant_conf_value == 2 ) { $number_of_lpars_per_octant = 2; } elsif($octant_conf_value == 3 ) { $number_of_lpars_per_octant = 3; } elsif($octant_conf_value == 4 ) { $number_of_lpars_per_octant = 4; } elsif($octant_conf_value == 5 ) { $number_of_lpars_per_octant = 2; } else { $res = "octant $i, configuration values: $octant_conf_value. Wrong octant configuration values!\n"; return ([[$cec_name, $res, -1]]); } my $j; for($j = 1; $j < $number_of_lpars_per_octant+1 ; $j++) { if(@nodes) { my $node = shift(@nodes); $node_id{$node} = $j + $octant_id * 4; } } $lparnum_from_octant += $number_of_lpars_per_octant; $octant_num_needed++; $parameters .= ":$octant_id:$octant_conf_value:$new_pending_interleave_mode"; $octant_id++; } $parameters = "$new_pending_pump_mode:$octant_num_needed".$parameters; ##if($node_number != $lparnum_from_octant ) {## if($node_number > $lparnum_from_octant ) { $res = "According to the partition split rule and the starting LPAR id, $lparnum_from_octant LPARs will be gotten. But the noderange has $node_number node. Wrong plan.\n"; return ([[$cec_name, $res, -1]]); } #$values = xCAT::FSPUtils::fsp_api_create_parttion( $starting_lpar_id, $octant_cfg, $node_number, $d, "set_octant_cfg"); $values = xCAT::FSPUtils::fsp_api_action ($cec_name, $d, "set_octant_cfg", 0, $parameters); my $Rc = $$values[2]; my $data = $$values[1]; if ( $Rc != SUCCESS ) { push @result, [$cec_name,$data,$Rc]; } else { foreach my $name ( @{$opt->{target}} ) { push @result, [$name,"Success", $Rc]; xCAT::FSPvm::xCATdB("mkvm", $name, "",$node_id{$name}, $d, "fsp", $name ); } push @result, [$cec_name,"Please reboot the CEC $cec_name before using chvm to assign the I/O slots to the LPARs", "mkvm"]; #$request->{callback}->({info => ["Please reboot the CEC $cec_name before using chvm to assign the I/O slots to the LPARs"]}); } } return( \@result ); } ########################################################################## # Adds/removes LPARs from the xCAT database ########################################################################## sub xCATdB { my $cmd = shift; my $name = shift; my $profile = shift; my $lparid = shift; my $d = shift; my $hwtype = shift; my $lpar = shift; my $parent = shift; ####################################### # Remove entry ####################################### if ( $cmd eq "rmvm" ) { return( xCAT::PPCdb::rm_ppc( $name )); } ####################################### # Change entry ####################################### elsif ( $cmd eq "chvm" ) { my $ppctab = xCAT::Table->new( "ppc", -create=>1, -autocommit=>1 ); ################################### # Error opening ppc database ################################### if ( !defined( $ppctab )) { return( "Error opening 'ppc' database" ); } $ppctab->setNodeAttribs( $name, {pprofile=>$profile} ); } ####################################### # Add entry ####################################### else { if ( !defined( $profile )) { $profile = $name; } my ($model,$serial) = split /\*/,@$d[2]; my $server = @$d[3]; my $fsp = @$d[2]; ################################### # Find FSP name in ppc database ################################### my $tab = xCAT::Table->new( "ppc" ); ################################### # Error opening ppc database ################################### if ( !defined( $tab )) { return( "Error opening 'ppc' database" ); } ################################### # If there is no parent provided # this lpar should be the cloned # in the same cec # Otherwise it should be cloned # between cecs ################################### if ( ! $parent) { my ($ent) = $tab->getNodeAttribs($lpar, ['parent'] ); ################################### # Node not found ################################### if ( !defined( $ent )) { return( "'$lpar' not found in 'ppc' database" ); } ################################### # Attributes not found ################################### if ( !exists( $ent->{parent} )) { return( "'parent' attribute not found in 'ppc' database" ); } $parent = $ent->{parent}; } my $values = join( ",", "lpar", $name, $lparid, $model, $serial, "", $server, $profile, $parent ); return( xCAT::PPCdb::add_ppc( $hwtype, [$values] )); } return undef; } ########################################################################## # Creates logical partitions ########################################################################## sub mkvm { my $request = $_[0]; my $opt = $request->{opt}; # decide if issuing mkvm with the option '-f'. # if yes, mklpar will be invoked to # create a full system partition for each CECs managed by the HMC. if ( exists($opt->{full})) { return( mkfulllpar(@_) ); } else { # if no, it will execute the original function. return( create(@_) ); } } ########################################################################## # Change logical partition ########################################################################## sub chvm { return( modify(@_) ); } ########################################################################## # No rmvm for Power 775 ########################################################################## #sub rmvm { # return( remove(@_) ); #} ########################################################################## # Lists logical partition profile ########################################################################## sub lsvm { return( list(@_) ); } 1;