/usr/share/arc/SGE.pm is in nordugrid-arc-arex 4.0.0-1.
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 qw(floor ceil);
our @ISA = ('Exporter');
our @EXPORT_OK = ('lrms_init',
'cluster_info',
'queue_info',
'jobs_info',
'users_info');
use LogUtils ( 'start_logging', 'error', 'warning', 'debug' );
##########################################
# Saved private variables
##########################################
our %lrms_queue;
our $config;
our $path;
our $maxwalltime;
our $max_u_jobs;
our %total_user_jobs;
# Regular expression used for interpreting output from qstat.
# The simpler approach of splitting the line will not work if a job's name
# includes a space
our $name_re = '.*\S'; # may contain space
our $ts_re = '\d\d\/\d\d\/\d{4} \d\d:\d\d:\d\d';
our $queue_re = '\S*\D\S*'; # not only digits
our $task_re = '[-,:\d]+'; # example: 4,6-8:1
our $job_re = '^\s*(\d+)\s+([.\d]+|nan)\s+('.$name_re.')\s+(\S+)\s+(\w+)'
. '\s+('.$ts_re.')(?:\s+('.$queue_re.'))??\s+(\d+)(?:\s+('.$task_re.'))?\s*$';
##########################################
# Private subs
##########################################
sub type_and_version () {
my ($type, $version);
my ($command) = "$path/qstat -help";
open QSTAT, "$command 2>/dev/null |";
my ($line) = <QSTAT>;
($type, $version) = split " ", $line;
close QSTAT;
error("Cannot indentify SGE version from output of '$command': $line")
unless $type =~ /GE/ and $version;
warning("Unsupported SGE version: $version") unless $version =~ /^6/;
return $type, $version;
}
sub queues () {
my (@queue, $line);
my ($command) = "$path/qconf -sql";
unless ( open QCONF, "$command 2>/dev/null |" ) {
error("$command failed.");}
while ( $line = <QCONF> ) {
chomp $line;
push @queue, $line;
}
close QCONF;
return @queue;
}
#
# Processes an array task definition (i.e.: '3,4,6-8,10-20:2')
# and returns the number of individual tasks
#
sub count_array_spec($) {
my $count = 0;
for my $spec (split ',', shift) {
# handles expressions like '6-10:2' and '6-10' and '6'
return 0 unless $spec =~ '^(\d+)(?:-(\d+)(?::(\d+))?)?$';
my ($lower,$upper,$step) = ($1,$2,$3);
$upper = $lower unless defined $upper;
$step = 1 unless $step;
$count += 1 + floor(abs($upper-$lower)/$step);
}
return $count;
}
sub cpudist (@) {
my (@cpuarray) = @_;
my (%cpuhash) = ();
my ($cpudistribution) ="";
while ( @cpuarray ) {
$cpuhash{ pop(@cpuarray) }++; }
while ( my ($cpus,$count) = each %cpuhash ) {
if ( $cpus > 0 ) {
$cpudistribution .= $cpus . 'cpu:' . $count . " ";
}
}
chop $cpudistribution;
return $cpudistribution;
}
sub slots () {
my ($totalcpus, $distr, $usedslots, $queued);
my ($foo, $line, @slotarray);
my $queuetotalslots = {};
# Get version of SGE since API has changed
# it is on the first line of output and is of the format
# GE 6.2u2_1
# or
# GE 6.0u8
my ($command) = "$path/qstat -help| sed -n '1,2 s/GE \\([0-9]\\.[0-9]\\).*/\\1/p'";
my ($version) = `$command`;
# Number of slots in execution hosts
$command = "$path/qconf -sep";
unless ( open QQ, "$command 2>/dev/null |" ) {
error("$command failed.");
}
while ( $line = <QQ> ) {
if ( $line =~ /^HOST/ || $line =~ /^=+/ ) { next; }
if ( $line =~ /^SUM\s+(\d+)/ ) {
$totalcpus = $1;
next;
}
my ($name, $ncpu, $arch ) = split " ", $line;
push @slotarray, $ncpu;
}
close QQ;
$distr = cpudist(@slotarray);
# Used slots in all queues
$command = "$path/qstat -g c";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
error("$command failed.");}
$usedslots = 0;
if ($version < 6.2){
while ( $line = <QSTAT> ) {
if ( $line =~ /^CLUSTER QUEUE/ || $line =~ /^-+/) { next; }
my ($name, $cqload, $used, $avail, $total, $aoACDS, $cdsuE )
= split " ", $line;
$usedslots += $used;
$$queuetotalslots{$name} = $total;
}
} else {
# Format changed in 6.2
while ( $line = <QSTAT> ) {
if ( $line =~ /^CLUSTER QUEUE/ || $line =~ /^-+/) { next; }
my ($name, $cqload, $used, $res, $avail, $total, $aoACDS, $cdsuE )
= split " ", $line;
$usedslots += $used;
$$queuetotalslots{$name} = $total;
}
}
close QSTAT;
# List all jobs
$command = "$path/qstat -u '*'";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
error("$command failed.");}
my $queuedcpus = 0;
my $queuedjobs = 0;
my $runningjobs = 0;
while ( $line = <QSTAT> ) {
# assume that all lines beginning with an integer are describing jobs
next unless $line =~ /^\s*\d+\s+/;
if ($line =~ /$job_re/) {
my ($id,$state,$slots,$tasks) = ($1,$5,$8,$9);
# for interpreting state codes:
# http://gridengine.sunsource.net/nonav/source/browse/~checkout~/gridengine/source/libs/japi/jobstates.html
if ($state =~ /[rtsSTR]/) {
# This should match the jobs that would be listed by qstat -s rs
# Job is either running, transfering or suspended for some reason.
# It may also be waiting to be deleted while in the above states.
# OBS: hr (hold running) state are also counted here.
# R is state for restarted job.
$runningjobs++;
} elsif ($state =~ /[hw]/) {
# This should match the jobs that would be listed by qstat -s p
# Job is pending in the queue. It's possibly being hold or it can be in an error state.
my $ntasks = 1;
$ntasks = count_array_spec($tasks) if defined $tasks;
error("Cannot understand array job specification '$tasks' from qstat line: $line") unless $ntasks;
$queuedjobs += $ntasks;
$queuedcpus += $ntasks * $slots;
} else {
# should not happen
warning("SGE job $id is in an unexpected state: $state");
}
} else {
error("cannot parse an output line from $command: $line");
}
}
close QSTAT;
return ($totalcpus, $distr, $usedslots, $runningjobs, $queuedjobs, $queuedcpus, $queuetotalslots);
}
sub global_limits() {
my ($command) = "$path/qconf -sconf global";
unless ( open QQ, "$command 2>/dev/null |" ) {
error("$command failed.");
}
my $max_jobs = 0;
while ( my $line = <QQ> ) {
$max_jobs = $1 if $line =~ /^max_jobs\s+(\d+)/;
$max_u_jobs = $1 if $line =~ /^max_u_jobs\s+(\d+)/;
}
close QQ;
return ($max_jobs, $max_u_jobs);
}
sub req_limits ($) {
my ($s) = shift;
my ($reqcputime, $reqwalltime);
# required cputime
if ($s =~ /h_cpu=(\d+)/ ) {
$reqcputime=ceil($1/60);
} elsif ($s =~ /s_cpu=(\d+)/ ) {
$reqcputime=ceil($1/60);
} else {
$reqcputime="";
}
# required walltime
if ($s =~ /h_rt=(\d+)/ ) {
$reqwalltime=ceil($1/60);
} elsif ($s =~ /s_rt=(\d+)/ ) {
$reqwalltime=ceil($1/60);
} else {
$reqwalltime="";
}
return ($reqcputime, $reqwalltime);
}
############################################
# Public subs
#############################################
sub configure_sge_env(%) {
my %config = @_;
$ENV{SGE_ROOT} = $config{sge_root} || $ENV{SGE_ROOT};
error("sge_root must be defined in arc.conf") unless $ENV{SGE_ROOT};
$ENV{SGE_CELL} = $config{sge_cell} || $ENV{SGE_CELL} || 'default';
$ENV{SGE_QMASTER_PORT} = $config{sge_qmaster_port} if $config{sge_qmaster_port};
$ENV{SGE_EXECD_PORT} = $config{sge_execd_port} if $config{sge_execd_port};
for (split ':', $ENV{PATH}) {
$ENV{SGE_BIN_PATH} = $_ and last if -x "$_/qsub";
}
$ENV{SGE_BIN_PATH} = $config{sge_bin_path} || $ENV{SGE_BIN_PATH};
error("SGE executables not found") unless -x "$ENV{SGE_BIN_PATH}/qsub";
$path = $ENV{SGE_BIN_PATH};
}
sub cluster_info ($) {
$config = shift;
configure_sge_env(%$config);
my (%lrms_cluster);
# Figure out SGE type and version
( $lrms_cluster{lrms_type}, $lrms_cluster{lrms_version} )
= type_and_version();
# SGE has per-slot cputime limit
$lrms_cluster{has_total_cputime_limit} = 0;
# Count used/free CPUs and queued jobs in the cluster
# Note: SGE has the concept of "slots", which roughly corresponds to
# concept of "cpus" in ARC (PBS) LRMS interface.
( $lrms_cluster{totalcpus},
$lrms_cluster{cpudistribution},
$lrms_cluster{usedcpus},
$lrms_cluster{runningjobs},
$lrms_cluster{queuedjobs},
$lrms_cluster{queuedcpus})
= slots ();
# List LRMS queues
@{$lrms_cluster{queue}} = queues();
return %lrms_cluster;
}
sub queue_info ($$) {
$config = shift;
configure_sge_env(%$config);
my ($qname) = shift;
# status
# running
# totalcpus
my ($command) = "$path/qstat -g c";
unless ( open QSTAT, "$command 2> /dev/null |" ) {
error("$command failed.");}
my ($line, $used);
my ($sub_running, $sub_status, $sub_totalcpus);
while ( $line = <QSTAT> ) {
if ( $line =~ /^(CLUSTER QUEUE)/ || $line =~ /^-+$/ ) {next}
my (@a) = split " ", $line;
if ( $a[0] eq $qname ) {
# SGE 6.2 has an extra column between USED and AVAIL
$lrms_queue{status} = $a[-4];
$lrms_queue{running} = $a[2];
$lrms_queue{totalcpus} = $a[-3];
}
}
close QSTAT;
# settings in the config file override
$lrms_queue{totalcpus} = $$config{totalcpus} if $$config{totalcpus};
# Number of available (free) cpus can not be larger that
# free cpus in the whole cluster
my ($totalcpus, $distr, $usedslots, $runningjobs, $queuedjobs, $queuedcpus, $queuetotalslots) = slots ( );
if ( $lrms_queue{status} > $totalcpus-$usedslots ) {
$lrms_queue{status} = $totalcpus-$usedslots;
$lrms_queue{status} = 0 if $lrms_queue{status} < 0;
}
# reserve negative numbers for error states
if ($lrms_queue{status}<0) {
warning("lrms_queue{status} = $lrms_queue{status}")}
# Grid Engine has hard and soft limits for both CPU time and
# wall clock time. Nordugrid schema only has CPU time.
# The lowest of the 2 limits is returned by this code.
my $qlist = $qname;
$command = "$path/qconf -sq $qlist";
open QCONF, "$command 2>/dev/null |" or error("$command failed.");
while ( $line = <QCONF> ) {
if ($line =~ /^[sh]_rt\s+(.*)/) {
next if $1 eq 'INFINITY';
my @a = split ":", $1;
my $timelimit;
if (@a == 3) {
$timelimit = 60*$a[0]+$a[1];
} elsif (@a == 4) {
$timelimit = 24*60*$a[0]+60*$a[1]+$a[2];
} elsif (@a == 1) {
$timelimit = int($a[0]/60);
} else {
warning("Error parsing time info in output of $command");
next;
}
if (not defined $lrms_queue{maxwalltime} || $lrms_queue{maxwalltime} > $timelimit) {
$lrms_queue{maxwalltime} = $timelimit;
}
}
if ($line =~ /^[sh]_cpu\s+(.*)/) {
next if $1 eq 'INFINITY';
my @a = split ":", $1;
my $timelimit;
if (@a == 3) {
$timelimit = 60*$a[0]+$a[1];
} elsif (@a == 4) {
$timelimit = 24*60*$a[0]+60*$a[1]+$a[2];
} elsif (@a == 1) {
$timelimit = int($a[0]/60);
} else {
warning("Error parsing time info in output of $command");
next;
}
if (not defined $lrms_queue{maxcputime} || $lrms_queue{maxcputime} > $timelimit) {
$lrms_queue{maxcputime} = $timelimit;
}
}
}
close QCONF;
# Global variable; saved for later use in users_info()
$maxwalltime = $lrms_queue{maxwalltime};
$lrms_queue{maxwalltime} = "" unless $lrms_queue{maxwalltime};
$lrms_queue{maxcputime} = "" unless $lrms_queue{maxcputime};
$lrms_queue{minwalltime} = "";
$lrms_queue{mincputime} = "";
$lrms_queue{defaultcput} = "";
$lrms_queue{defaultwallt} = "";
# Grid Engine puts queueing jobs in single "PENDING" state pool,
# so here we report the total number queueing jobs in the cluster.
$lrms_queue{queued} = $queuedjobs;
# nordugrid-queue-maxqueuable
# SGE has a global limit on total number of jobs, but not per-queue limit.
# This global limit can be used as an upper bound for nordugrid-queue-maxqueuable
my ($max_jobs,$max_u_jobs) = global_limits();
$max_jobs = "" unless $max_jobs;
$lrms_queue{maxqueuable} = $max_jobs;
# nordugrid-queue-maxrunning
# The total max running jobs is the number of slots for this queue
$lrms_queue{maxrunning} = $$queuetotalslots{$qname} || "";
# nordugrid-queue-maxuserrun
$lrms_queue{maxuserrun} = "";
return %lrms_queue;
}
sub jobs_info ($$@) {
$config = shift;
my ($qname) = shift;
my ($jids) = shift;
my $line;
my (%lrms_jobs);
# Running jobs
my ($command) = "$path/qstat -u '*' -s rs";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
error("$command failed.");}
while ( $line = <QSTAT>) {
# assume that all lines beginning with an integer are describing jobs
next unless $line =~ /^\s*\d+\s+/;
if ($line =~ /$job_re/) {
my ($id,$user,$state,$queue,$slots) = ($1,$4,$5,$7,$8);
$total_user_jobs{$user}++;
if (grep { $id == $_ } @$jids) {
# it's a grid job.
# grid jobs are never array jobs so we don't worry about multiple lines for the same job id.
if ($state =~ /^R?[rt]$/) {
$lrms_jobs{$id}{status} = 'R';
} else {
$lrms_jobs{$id}{status} = 'S';
}
my ($cluster_queue, $exec_host) = split '@', $queue;
$lrms_jobs{$id}{nodes} = [ $exec_host ]; # master node for parellel runs
$lrms_jobs{$id}{cpus} = $slots;
$lrms_jobs{$id}{walltime} = "";
$lrms_jobs{$id}{rank} = "";
}
} else {
error("cannot parse an output line from $command: $line");
}
}
close QSTAT;
# lrms_jobs{$id}{status}
# lrms_jobs{$id}{rank}
# Pending (queued) jobs
# NOTE: Counting rank based on all queues.
$command = "$path/qstat -u '*' -s p";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
error("$command failed.");}
my ($rank) = 1;
while ( $line = <QSTAT> ) {
# assume that all lines beginning with an integer are describing jobs
next unless $line =~ /^\s*\d+\s+/;
if ($line =~ /$job_re/) {
my ($id,$user,$state,$slots,$tasks) = ($1,$4,$5,$8,$9);
if (grep { $id == $_ } @$jids) {
# it's a grid job.
# grid jobs are never array jobs so we don't worry about multiple lines for the same job id.
$lrms_jobs{$id}{rank} = $rank;
if ( $state =~ /E/ ) {
$lrms_jobs{$id}{status} = 'O';
} else { # Normally queued
$lrms_jobs{$id}{status} = 'Q';
}
}
my $ntasks = 1;
$ntasks = count_array_spec($tasks) if defined $tasks;
error("Cannot understand array job specification '$tasks' from qstat line: $line") unless $ntasks;
$total_user_jobs{$user} += $ntasks;
$rank += $ntasks;
} else {
error("cannot parse an output line from $command: $line");
}
}
close QSTAT;
# lrms_jobs{$id}{mem}
# lrms_jobs{$id}{walltime}
# lrms_jobs{$id}{cputime}
# lrms_jobs{$id}{reqwalltime}
# lrms_jobs{$id}{reqcputime}
# lrms_jobs{$id}{comment}
my (@running, @queueing, @otherlrms, @notinlrms);
foreach my $jid ( @{$jids} ) {
next unless exists $lrms_jobs{$jid};
if ($lrms_jobs{$jid}{status} eq 'R') {
push @running, $jid;
} elsif ($lrms_jobs{$jid}{status} eq 'S') {
push @running, $jid;
} elsif ($lrms_jobs{$jid}{status} eq 'Q') {
push @queueing, $jid;
} elsif ($lrms_jobs{$jid}{status} eq 'O') {
push @otherlrms, $jid;
} else {
push @notinlrms, $jid;
}
}
# If qstat does not match, job has finished already.
foreach my $jid ( @{$jids} ) {
next if exists $lrms_jobs{$jid};
debug("Job executed $jid");
$lrms_jobs{$jid}{status} = '';
$lrms_jobs{$jid}{mem} = '';
$lrms_jobs{$jid}{walltime} = '';
$lrms_jobs{$jid}{cputime} = '';
$lrms_jobs{$jid}{reqwalltime} = '';
$lrms_jobs{$jid}{reqcputime} = '';
$lrms_jobs{$jid}{rank} = '';
$lrms_jobs{$jid}{nodes} = [];
$lrms_jobs{$jid}{comment} = [];
}
my ($jid);
# Running jobs
my ($jidstr) = join ',', @running;
$command = "$path/qstat -j $jidstr";
$jid = "";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
debug("Command $command failed.")}
while ( $line = <QSTAT>) {
if ( $line =~ /^job_number:\s+(\d+)/) {
$jid=$1;
$lrms_jobs{$jid}{comment} = [ ];
next;
}
if ( $line =~ /^usage/) {
# Memory usage in kB
# SGE reports mem, vmem and maxvmem
# maxvmem chosen here
$line =~ /maxvmem=(\d+)\.?(\d*)\s*(\w+)/;
my ($mult) = 1024;
if ($3 eq "M") {$mult = 1024}
if ($3 eq "G") {$mult = 1024*1024}
$lrms_jobs{$jid}{mem} = int($mult*$1 + $2*$mult/1000);
# used cpu time
$line =~ /cpu=((\d+:?)*)/;
my (@a) = $1 =~ /(\d+):?/g;
if ( @a == 4 ) {
$lrms_jobs{$jid}{cputime} =
60 * ( $a[0]*24 + $a[1] ) + $a[2] ;
} else {
$lrms_jobs{$jid}{cputime} =
60 * $a[0] + $a[1];}
next;
}
if ($line =~ /^hard resource_list/) {
( $lrms_jobs{$jid}{reqcputime},
$lrms_jobs{$jid}{reqwalltime} ) =
req_limits($line);
}
next;
}
close QSTAT;
# Normally queueing job
$jidstr = join ',', @queueing;
$command = "$path/qstat -j $jidstr";
$jid = "";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
debug("Command $command failed.")}
while ( $line = <QSTAT>) {
if ( $line =~ /^job_number:\s+(\d+)/) {
$jid=$1;
next;
}
if ($line =~ /^hard resource_list/) {
( $lrms_jobs{$jid}{reqcputime},
$lrms_jobs{$jid}{reqwalltime} ) =
req_limits($line);
next;
}
# Reason for beeing held in queue
if ( $line =~ /^\s*(cannot run because.*)/ ) {
if ( exists $lrms_jobs{$jid}{comment} ) {
push @{ $lrms_jobs{$jid}{comment} }, "LRMS: $1";
} else {
$lrms_jobs{$jid}{comment} = [ "LRMS: $1" ];
}
}
next;
}
close QSTAT;
# Other LRMS state, often jobs pending in error state 'Eqw'
# Skip the rest if no jobs are in this state
return %lrms_jobs unless @otherlrms;
$jidstr = join ',', @otherlrms;
$command = "$path/qstat -j $jidstr";
$jid = "";
unless ( open QSTAT, "$command 2>/dev/null |" ) {
debug("Command $command failed.")}
while ( $line = <QSTAT>) {
if ( $line =~ /^job_number:\s+(\d+)/) {
$jid=$1;
$lrms_jobs{$jid}{nodes} = [];
$lrms_jobs{$jid}{mem} = "";
$lrms_jobs{$jid}{cputime} = "";
$lrms_jobs{$jid}{walltime} = "";
next;
}
if ($line =~ /^hard resource_list/) {
( $lrms_jobs{$jid}{reqcputime},
$lrms_jobs{$jid}{reqwalltime} ) =
req_limits($line);
next;
}
# Error reason nro 1
if ($line =~ /^error reason\s*\d*:\s*(.*)/ ) {
if ( exists $lrms_jobs{$jid}{comment} ) {
push @{$lrms_jobs{$jid}{comment}}, "LRMS: $1";
} else {
$lrms_jobs{$jid}{comment} = [ "LRMS: $1" ];
}
next;
}
# Let's say it once again ;-)
if ($line =~ /(job is in error state)/ ) {
if ( exists $lrms_jobs{$jid}{comment} ) {
push @{ $lrms_jobs{$jid}{comment} }, "LRMS: $1";
} else {
$lrms_jobs{$jid}{comment} = [ "LRMS: $1" ];
}
}
next;
}
return %lrms_jobs;
}
sub users_info($$@) {
$config = shift;
my ($qname) = shift;
my ($accts) = shift;
my (%lrms_users);
# freecpus
# queue length
#
# This is nearly impossible to implement generally for
# complex system such as grid engine. Using simple
# estimate.
if ( ! exists $lrms_queue{status} ) {
%lrms_queue = queue_info($config,$qname);
}
foreach my $u ( @{$accts} ) {
$lrms_users{$u}{freecpus} = $lrms_queue{status};
$lrms_users{$u}{freecpus} .= ":$maxwalltime" if $maxwalltime;
$lrms_users{$u}{queuelength} = "$lrms_queue{queued}";
}
return %lrms_users;
}
1;
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