xcat-core/perl-xCAT/xCAT/FSPvitals.pm
zhaoertao 74db2d9120 snyc from trunk
git-svn-id: https://svn.code.sf.net/p/xcat/code/xcat-core/branches/2.8@15445 8638fb3e-16cb-4fca-ae20-7b5d299a9bcd
2013-03-11 01:57:06 +00:00

494 lines
15 KiB
Perl

# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html
package xCAT::FSPvitals;
use strict;
use Getopt::Long;
use xCAT::PPCcli qw(SUCCESS EXPECT_ERROR RC_ERROR NR_ERROR);
use xCAT::FSPpower;
use xCAT::Usage;
use xCAT::PPCvitals;
use xCAT::FSPUtils;
#use Data::Dumper;
##########################################################################
# Parse the command line for options and operands
##########################################################################
sub parse_args {
xCAT::PPCvitals::parse_args(@_);
}
##########################################################################
# Returns Frame voltages/currents
##########################################################################
sub enumerate_volt {
my $exp = shift;
my $d = shift;
my $mtms = @$d[2];
#my $volt = xCAT::PPCcli::lshwinfo( $exp, "frame", $mtms );
#my $Rc = shift(@$volt);
my $value = "Not supported by FSPvitals";
####################################
# Return error
####################################
#if ( $Rc != SUCCESS ) {
# return( [RC_ERROR, $value] );
#}
####################################
# Success - return voltages
####################################
return( [SUCCESS, $value] );
}
##########################################################################
# Returns cage temperatures
##########################################################################
sub enumerate_temp {
my $exp = shift;
my $frame = shift;
my %outhash = ();
}
##########################################################################
# Returns refcode ; In DFM, it will get both the LCD value and the Current Power status Value
##########################################################################
sub enumerate_lcds {
my $request= shift;
my $name= shift;
my $d = shift;
my $action = shift;
my $only_lcds = shift;
my $prefix = "Current LCD:";
my $power_status_prefix = "Current Power Status:";
my $Rc;
my @refcode;
my $c = 0;
my $values = xCAT::FSPUtils::fsp_api_action ($request, $name, $d, $action);
$Rc = @$values[2];
my $data = @$values[1];
my $t_n = @$values[0];
if( $Rc != 0 ) {
my @names = split(/,/, $t_n);
my @t_data = split(/\n/, $data);
foreach my $n (@names) {
if( $data =~ /$n/ ) {
chomp $t_data[$c];
#push @refcode,[$n, "$prefix $t_data[$c]", $Rc];
if($t_data[$c] =~ /Error/ ) {
if( $only_lcds == 0) {
push @refcode,[$n, "$power_status_prefix $t_data[$c]", $Rc];
}
push @refcode,[$n, "$prefix $t_data[$c]", $Rc];
} else {
if( $only_lcds == 0) {
# get power status
if( $data =~ /1\|/) {
push @refcode, [$n, "$power_status_prefix on", $Rc] ;
} else {
push @refcode, [$n, "$power_status_prefix off", $Rc];
}
}
# get lcd value
if( $t_data[$c] =~ /1\|(\w[\w\s]*)/) {
push @refcode, [$n, "$prefix $1", $Rc] ;
} else {
push @refcode, [$n, "$prefix blank", $Rc];
}
}
$c++;
} else {
push @refcode, [$n, "$prefix $data", $Rc];
if( $only_lcds == 0) {
push @refcode, [$n, "$power_status_prefix $data", $Rc];
}
}
}
} else {
my @array = split(/\n/, $data);
foreach my $a (@array) {
if ($a !~ /:\s?[^\s]*\s?[0|1]/) {
next;
}
my @t = split(/:/, $a);
my $name = $t[0];
$data = $t[1];
## it will not parse the power status if only lcds.
# $only_lcds = 0, it will get the power status
# $only_lcds = 0, not get the power status.
if( $only_lcds == 0) {
# get power status
if( $data =~ /1\|/) {
push @refcode, [$name, "$power_status_prefix on", $Rc] ;
} else {
push @refcode, [$name, "$power_status_prefix off", $Rc];
}
}
# get lcd value
if( $data =~ /1\|(\w[\w\s]*)/) {
push @refcode, [$name, "$prefix $1", $Rc] ;
} else {
push @refcode, [$name, "$prefix blank", $Rc];
}
}
}
return \@refcode;
}
##########################################################################
# Returns rack environmentals
##########################################################################
sub enumerate_rackenv {
my $request= shift;
my $name= shift;
my $d = shift;
#my $mtms = @$d[2];
my $Rc;
my $attr;
my $value;
my %outhash = ();
my $action = "get_rack_env";
my $values = xCAT::FSPUtils::fsp_api_action ($request, $name, $d, $action);
$Rc = @$values[2];
my $data = @$values[1];
if ( $Rc != 0 ) {
return( [$Rc,@$values[1]] );
}
my $i = 0;
my @t = split(/\n/, $data);
foreach my $td ( @t ) {
my ($attr,$value) = split (/:/, $td);
$outhash{ $attr } = $value;
$outhash{$i}{ $attr } = $value;
$i++;
}
return ( [0,\%outhash] );
}
##########################################################################
# Returns voltages/currents
##########################################################################
sub voltage {
my $request = shift;
my $hash = shift;
my $exp = shift;
my $hwtype = @$exp[2];
my @result = ();
my $text = "Frame Voltages: ";
my @prefix = (
"Frame Voltage (Vab): %sV",
"Frame Voltage (Vbc): %sV",
"Frame Voltage (Vca): %sV",
"Frame Current (Ia): %sA",
"Frame Current (Ib): %sA",
"Frame Current (Ic): %sA",
);
while (my ($mtms,$h) = each(%$hash) ) {
while (my ($name,$d) = each(%$h) ) {
#################################
# Voltages available in frame
#################################
#if ( @$d[4] ne "bpa" && @$d[4] ne "frame") {
# push @result, [$name,"$text Only available for BPA/Frame",1];
# next;
#}
#my $volt = enumerate_volt( $exp, $d );
#my $Rc = shift(@$volt);
#################################
# Output error
#################################
#if ( $Rc != SUCCESS ) {
# push @result, [$name,"$text @$volt[0]",$Rc];
# next;
#}
#################################
# Output value
#################################
#my @values = split /,/, @$volt[0];
#my $i = 0;
#foreach ( @prefix ) {
# my $value = sprintf($_, $values[$i++]);
# push @result, [$name,$value,$Rc];
#}
push @result, [$name,"$text: Not supported in Direct FSP Management", 1];
}
}
return( \@result );
}
##########################################################################
# Returns temperatures for CEC
##########################################################################
sub temp {
my $request = shift;
my $hash = shift;
my $exp = shift;
my $hwtype = @$exp[2];
my @result = ();
my %frame = ();
my $prefix = "System Temperature:";
#########################################
# Group by frame
#########################################
while (my ($mtms,$h) = each(%$hash) ) {
while (my ($name,$d) = each(%$h) ) {
my $mtms = @$d[5];
push @result, [$name,"System Temperature Not support in Direct FSP Management",-1];
#################################
# No frame commands for IVM
#################################
if ( $hwtype eq "ivm" ) {
push @result, [$name,"$prefix Not available (No BPA)",1];
next;
}
#################################
# Temperatures not available
#################################
if ( @$d[4] !~ /^(fsp|lpar|cec)$/ ) {
my $text = "$prefix Only available for CEC/LPAR";
push @result, [$name,$text,1];
next;
}
#################################
# Error - No frame
#################################
if ( $mtms eq "0" ) {
push @result, [$name,"$prefix Not available (No BPA)",1];
next;
}
#################################
# Save node
#################################
$frame{$mtms}{$name} = $d;
}
}
return( \@result );
while (my ($mtms,$h) = each(%frame) ) {
#################################
# Get temperatures this frame
#################################
my $temp = enumerate_temp( $exp, $mtms );
my $Rc = shift(@$temp);
my $data = @$temp[0];
while (my ($name,$d) = each(%$h) ) {
my $mtms = @$d[2];
#############################
# Output error
#############################
if ( $Rc != SUCCESS ) {
push @result, [$name,"$prefix $data",$Rc];
next;
}
#############################
# CEC not in frame
#############################
if ( !exists( $data->{$mtms} )) {
push @result, [$name,"$prefix CEC '$mtms' not found",1];
next;
}
#############################
# Output value
#############################
my $cel = $data->{$mtms};
my $fah = ($cel * 1.8) + 32;
my $value = "$prefix $cel C ($fah F)";
push @result, [$name,$value,$Rc];
}
}
return( \@result );
}
##########################################################################
# Returns rack environmentals
##########################################################################
sub rackenv {
my $request = shift;
my $hash = shift;
my @result = ();
my %frame = ();
my $prefix = "Rack Environmentals:";
#########################################
# Group by frame
#########################################
while (my ($mtms,$h) = each(%$hash) ) {
while (my ($name,$d) = each(%$h) ) {
my $mtms = @$d[5];
#################################
# Temperatures not available
#################################
if ( @$d[4] !~ /^(bpa|frame)$/ ) {
my $text = "$prefix Only available for BPA/Frame";
push @result, [$name,$text,1];
next;
}
my $action = "get_rack_env";
my $values = xCAT::FSPUtils::fsp_api_action ($request, $name, $d, $action);
my $Rc = @$values[2];
my $data = @$values[1];
if ( $Rc != 0 ) {
push @result, [$name,$data, $Rc];
next;
}
my @t = split(/\n/, $data);
foreach my $td ( @t ) {
push @result, [$name,$td, $Rc];
if ( !exists($request->{verbose}) ) {
#if( $td =~ /^Rack altitude in meters/ ) {
if( $td =~ /^BPA-B total output in watts/ ) {
last;
}
}
}
}
}
return( \@result );
}
##########################################################################
# Returns system power status (on or off)
# This subroutine will not be used in DFM
# And the power status will be returned with lcds
##########################################################################
sub power {
return( xCAT::FSPpower::state(@_,"Current Power Status: ",1));
}
##########################################################################
# Returns system state
##########################################################################
sub state {
return( xCAT::FSPpower::state(@_,"System State: "));
}
###########################################################################
# Returns system LCD status and the power status
##########################################################################
sub lcds {
my $request = shift;
my $hash = shift;
my $exp = shift;
my $result;
my $newids;
my $newnames;
my $newd;
my $action;
my $type;
my $only_lcds;
if( $request->{method} =~ /^lcds$/ ) {
$only_lcds = 1;
}
while (my ($mtms,$h) = each(%$hash) ) {
while(my ($name, $d) = each(%$h) ){
$newids .="$$d[0],";
$newnames .="$name,";
$newd = $d;
if( defined( $type) && $type ne $$d[4] ) {
push @$result, [$name, "$name\'s type is $$d[4]. Please get the lcds for $type and $$d[4] seperately", -1 ];
return $result;
}
$type = $$d[4];
}
}
if( $type =~ /lpar|blade/ ) {
$action = "query_lcds";
} else {
$action = "cec_query_lcds";
}
$$newd[0] = $newids;
$result = enumerate_lcds($request, $newnames, $newd, $action, $only_lcds);
return $result;
}
sub lcds_orig {
my $request = shift;
my $hash = shift;
my $exp = shift;
my $hwtype = @$exp[2];
my @result = ();
my $text = "Current LCD:";
my $prefix = "Current LCD%d: %s";
my $rcode = undef;
my $refcodes = undef;
my $Rc = undef;
my $num = undef;
my $value = undef;
while (my ($mtms,$h) = each(%$hash) ) {
while(my ($name, $d) = each(%$h) ){
$refcodes = enumerate_lcds($request, $name, $d);
$num = 1;
foreach $rcode (@$refcodes){
$Rc = shift(@$rcode);
$value = sprintf($prefix, $num, @$rcode[0]);
push @result, [$name, $value, $Rc];
$num = $num + 1;
}
}
}
return \@result;
}
##########################################################################
# Returns all vitals
##########################################################################
sub all {
my @values = (
@{rackenv(@_)},
@{state(@_)},
@{lcds(@_)},
);
my @sorted_values = sort {$a->[0] cmp $b->[0]} @values;
return( \@sorted_values );
}
1;