/usr/share/arc/Sysinfo.pm is in nordugrid-arc-arex 5.0.5-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use POSIX;
use Sys::Hostname;
use Exporter;
our @ISA = ('Exporter'); # Inherit from Exporter
our @EXPORT_OK = qw(cpuinfo meminfo osinfo processid diskinfo diskspaces);
use LogUtils;
our $log = LogUtils->getLogger(__PACKAGE__);
# Return PIDs of named commands owned by the current user
# Only one pid is returned per command name
sub processid (@) {
my @procs = `ps -u $< -o pid,comm 2>/dev/null`;
if ( $? != 0 ) {
$log->info("Failed running: ps -u $< -o pid,comm");
$log->warning("Failed listing processes");
return {};
}
shift @procs; # throw away header line
# make hash of comm => pid
my %all;
/\s*(\d+)\s+(.+)/ and $all{$2} = $1 for @procs;
my %pids;
foreach my $name ( @_ ) {
$pids{$name} = $all{$name} if $all{$name};
}
return \%pids;
}
sub cpuinfo {
my $info = {};
my $nsockets; # total number of physical cpu sockets
my $ncores; # total number of cpu cores
my $nthreads; # total number of hardware execution threads
if (-f "/proc/cpuinfo") {
# Linux variant
my %sockets; # cpu socket IDs
my %cores; # cpu core IDs
open (CPUINFO, "</proc/cpuinfo")
or $log->warning("Failed opening /proc/cpuinfo: $!");
while ( my $line = <CPUINFO> ) {
if ($line=~/^model name\s*:\s+(.*)$/) {
$info->{cpumodel} = $1;
} elsif ($line=~/^vendor_id\s+:\s+(.*)$/) {
$info->{cpuvendor} = $1;
} elsif ($line=~/^cpu MHz\s+:\s+(.*)$/) {
$info->{cpufreq} = int $1;
} elsif ($line=~/^stepping\s+:\s+(.*)$/) {
$info->{cpustepping} = int $1;
} elsif ($line=~/^processor\s*:\s+(\d+)$/) {
++$nthreads;
} elsif ($line=~/^physical id\s*:\s+(\d+)$/) {
++$sockets{$1};
} elsif ($line=~/^core id\s*:\s+(\d+)$/) {
++$cores{$1};
}
}
close CPUINFO;
if ($info->{cpumodel} =~ m/^(.*?)\s+@\s+([.\d]+)GHz$/) {
$info->{cpumodel} = $1;
$info->{cpufreq} = int($2*1000);
} elsif ($info->{cpumodel} =~ m/\s+([.\d]+)GHz$/) {
$info->{cpufreq} = int($1*1000);
} elsif ($info->{cpumodel} =~ m/\s+([.\d]+)MHz$/) {
$info->{cpufreq} = int($1);
}
# count total cpu cores and sockets
$ncores = scalar keys %cores;
$nsockets = scalar keys %sockets;
if ($nthreads) {
# if /proc/cpuinfo does not provide socket and core IDs,
# assume every thread represents a separate cpu
$ncores = $nthreads unless $ncores;
$nsockets = $nthreads unless $nsockets;
}
} elsif (-x "/usr/sbin/system_profiler") {
# OS X
my @lines = `/usr/sbin/system_profiler SPHardwareDataType`;
$log->warning("Failed running system_profiler: $!") if $?;
for my $line ( @lines ) {
if ($line =~ /Processor Name:\s*(.*)/) {
$info->{cpumodel} = $1;
} elsif ($line =~ /Processor Speed:\s*([.\d]+) (\w+)/) {
if ($2 eq "MHz") {
$info->{cpufreq} = int $1;
} elsif ($2 eq "GHz") {
$info->{cpufreq} = int 1000*$1;
}
} elsif ($line =~ /Number Of Processors:\s*(.+)/) {
$nsockets = $1;
} elsif ($line =~ /Total Number Of Cores:\s*(.+)/) {
$ncores = $1;
$nthreads = $1; # Assume 1 execution thread per core (Ouch!)
}
}
} elsif (-x "/usr/bin/kstat" ) {
# Solaris
my %chips;
eval {
require Sun::Solaris::Kstat;
my $ks = Sun::Solaris::Kstat->new();
my $cpuinfo = $ks->{cpu_info};
$log->error("kstat: key not found: cpu_info") unless defined $cpuinfo;
for my $id (keys %$cpuinfo) {
my $info = $cpuinfo->{$id}{"cpu_info$id"};
$log->error("kstat: key not found: cpu_info$id") unless defined $info;
$chips{$info->{chip_id}}++;
$nthreads++;
}
my $info = $cpuinfo->{0}{"cpu_info0"};
$log->error("kstat: key not found: cpu_info0") unless defined $info;
# $info->{cpumodel} = $info->{cpu_type}; # like sparcv9
$info->{cpumodel} = $info->{implementation}; # like UltraSPARC-III+
$info->{cpufreq} = int $info->{clock_MHz};
};
if ($@) {
$log->error("Failed running module Sun::Solaris::Kstat: $@");
}
$nsockets = $ncores = scalar keys %chips;
} else {
$log->warning("Unsupported operating system");
}
$info->{cputhreadcount} = $nthreads if $nthreads;
$info->{cpucorecount} = $ncores if $ncores;
$info->{cpusocketcount} = $nsockets if $nsockets;
return $info;
}
sub meminfo {
my ($memtotal, $swaptotal);
if (-f "/proc/cpuinfo") {
# Linux variant
open (MEMINFO, "</proc/meminfo")
or $log->warning("Failed opening /proc/meminfo: $!");
while ( my $line = <MEMINFO> ) {
if ($line =~ /^MemTotal:\s+(.*) kB$/) {
$memtotal = int ($1/1024);
} elsif ($line =~ /^SwapTotal:\s+(.*) kB$/) {
$swaptotal = int ($1/1024);
}
}
}
my $info = {};
$info->{pmem} = $memtotal if $memtotal;
$info->{vmem} = $memtotal + $swaptotal if $memtotal and $swaptotal;
return $info;
}
sub osinfo {
my $info = {};
my ($sysname, $nodename, $release, $version, $machine) = POSIX::uname();
$info->{machine} = $machine;
$info->{sysname} = $sysname;
$info->{release} = $release;
if ($sysname =~ /linux/i) {
my ($id, $descr, $version);
if (-x '/usr/bin/lsb_release' or -x '/bin/lsb_release') {
if (open RELEASE, 'lsb_release -a |') {
while (<RELEASE>) {
$id = lc $1 if m/^Distributor ID:\s+(.*)/;
$descr = $1 if m/^Description:\s+(.*)/;
$version = $1 if m/^Release:\s+([.\d]+)/;
}
}
close RELEASE;
} elsif (open RELEASE, '< /etc/lsb-release') {
while (<RELEASE>) {
$id = lc $1 if m/^DISTRIB_ID=(.*)/;
$descr = $1 if m/^DISTRIB_DESCRIPTION=(.*)/;
$version = $1 if m/^DISTRIB_RELEASE=([.\d]+)/;
}
close RELEASE;
} elsif (open RELEASE, '< /etc/redhat-release') {
($descr, $version) = ($1,$2) if <RELEASE> =~ m/(.*) release ([.\d]+)/;
close RELEASE;
} elsif (open RELEASE, '< /etc/debian_version') {
$version = $1 if <RELEASE> =~ m/^([.\d]+)$/;
$id = 'debian';
close RELEASE;
} elsif (open RELEASE, '< /etc/SuSE-release') {
while (<RELEASE>) {
$version = $1 if m/^VERSION\s*=\s*([.\d]+)/;
}
$id = 'suse';
close RELEASE;
} elsif (open RELEASE, '< /etc/gentoo-release') {
$version = $1 if <RELEASE> =~ m/.* version ([.\d]+)/;
$id = 'gentoo';
close RELEASE;
}
# Try to stay within the predefined values for OSName_t from GLUE2 spec (GFD.147).
if ($descr) {
$id = 'centos' if $descr =~ m/^CentOS/i;
$id = 'fedoracore' if $descr =~ m/^Fedora/i;
$id = 'scientificlinux' if $descr =~ m/^Scientific Linux/i;
$id = 'scientificlinuxcern' if $descr =~ m/^Scientific Linux CERN/i;
$id = 'redhatenterpriseas' if $descr =~ m/^Red Hat Enterprise/i and not $id;
}
$info->{osname} = $id if $id;
$info->{osversion} = $version if $version;
} elsif ($sysname eq 'Darwin') {
my $version = `sw_vers -productVersion`;
chomp $version;
if ($version =~ m/10\.[\d.]+/) {
my $name;
$info->{osname} = 'panther' if $version =~ m/^10\.3/;
$info->{osname} = 'tiger' if $version =~ m/^10\.4/;
$info->{osname} = 'leopard' if $version =~ m/^10\.5/;
$info->{osname} = 'snowleopard' if $version =~ m/^10\.6/;
$info->{osversion} = $version;
}
} elsif ($sysname eq 'SunOS') {
$release =~ s/^5\.//; # SunOS 5.10 == solaris 10
$info->{osname} = 'solaris';
$info->{osversion} = $release;
}
return $info;
}
#
# Returns disk space (total and free) in MB on a filesystem
#
sub diskinfo ($) {
my $path = shift;
my ($diskfree, $disktotal, $mountpoint);
if ( -d "$path") {
# check if on afs
if ($path =~ m#/afs/#) {
my @dfstring =`fs listquota $path 2>/dev/null`;
if ($? != 0) {
$log->warning("Failed running: fs listquota $path");
} elsif ($dfstring[-1] =~ /\s+(\d+)\s+(\d+)\s+\d+%\s+\d+%/) {
$disktotal = int $1/1024;
$diskfree = int(($1 - $2)/1024);
$mountpoint = '/afs';
} else {
$log->warning("Failed interpreting output of: fs listquota $path");
}
# "ordinary" disk
} else {
my @dfstring =`df -k $path 2>/dev/null`;
if ($? != 0) {
$log->warning("Failed running: df -k $path");
# The first column may be printed on a separate line.
# The relevant numbers are always on the last line.
} elsif ($dfstring[-1] =~ /\s+(\d+)\s+\d+\s+(\d+)\s+\d+%\s+(\/\S*)$/) {
$disktotal = int $1/1024;
$diskfree = int $2/1024;
$mountpoint = $3;
} else {
$log->warning("Failed interpreting output of: df -k $path");
}
}
} else {
$log->warning("No such directory: $path");
}
return undef if not defined $disktotal;
return {megstotal => $disktotal, megsfree => $diskfree, mountpoint => $mountpoint};
}
# Given a list of paths, it finds the set of mount points of the filesystems
# containing the paths. It then returns a hash with these keys:
# ndisks: number of distinct nount points
# freesum: sum of free space on all mount points
# freemin: minimum free space of any mount point
# freemax: maximum free space of any mount point
# totalsum: sum of total space on all mountpoints
# totalmin: minimum total space of any mount point
# totalmax: maximum total space of any mount point
# errors: the number of non-existing paths
sub diskspaces {
my ($freesum, $freemin, $freemax);
my ($totalsum, $totalmin, $totalmax);
my $errors = 0;
my %mounts;
for my $path (@_) {
my $di = diskinfo($path);
if ($di) {
my ($total, $free, $mount) = ($di->{megstotal},$di->{megsfree},$di->{mountpoint});
$mounts{$mount}{free} = $free;
$mounts{$mount}{total} = $total;
} else {
++$errors;
}
}
for my $stats (values %mounts) {
if (defined $freesum) {
$freesum += $stats->{free};
$freemin = $stats->{free} if $freemin > $stats->{free};
$freemax = $stats->{free} if $freemax < $stats->{free};
$totalsum += $stats->{total};
$totalmin = $stats->{total} if $totalmin > $stats->{total};
$totalmax = $stats->{total} if $totalmax < $stats->{total};
} else {
$freesum = $freemin = $freemax = $stats->{free};
$totalsum = $totalmin = $totalmax = $stats->{total};
}
}
return ( ndisks => scalar keys %mounts,
freesum => $freesum || 0,
freemin => $freemin || 0,
freemax => $freemax || 0,
totalsum => $totalsum || 0,
totalmin => $totalmin || 0,
totalmax => $totalmax || 0,
errors => $errors );
}
1;
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