/usr/share/arc/ARC0mod.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.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 | package ARC0mod;
#
# Loads ARC0.6 LRMS modules for use with ARC1
#
# To include a new (ARC 0.6) LRMS plugin:
#
# 1. Each LRMS specific module needs to provide subroutines
# cluster_info, queue_info, jobs_info, and users_info.
#
# 2. References to subroutines defined in new LRMS modules are added
# to the select_lrms subroutine in this module, and the module reference
# itself, naturally.
# NB: ARC0 modules use minutes for time units. ARC1 modules use seconds.
require Exporter;
our @ISA = qw(Exporter);
our @EXPORT_OK = qw(get_lrms_info get_lrms_options_schema);
use LogUtils;
use strict;
our $log = LogUtils->getLogger(__PACKAGE__);
our %modnames = ( PBS => "PBS",
SGE => "SGE",
LL => "LL",
LSF => "LSF",
DGBRIDGE => "DGBridge",
CONDOR => "Condor",
SLURM => "SLURM",
BOINC => "Boinc",
FORK => "Fork"
);
# Whether the module implements support for listing nodes.
our $has_nodes = 1;
sub load_lrms($) {
my $lrms_name = uc(shift);
my $module = $modnames{$lrms_name};
$log->error("No ARC0 module for $lrms_name") unless $module;
eval { require "$module.pm" };
$log->error("Failed to load LRMS module $module: $@") if $@;
import $module qw(cluster_info queue_info jobs_info users_info);
eval { import $module qw(nodes_info) };
if ($@) {
$log->debug("LRMS module $module does not export 'nodes_info'");
$has_nodes=0;
}
$LogUtils::default_logger = LogUtils->getLogger($module);
}
# Just generic options, cannot assume anything LRMS specific here
sub get_lrms_options_schema {
return {
'lrms' => '', # name of the LRMS module
'queues' => { # queue names are keys in this hash
'*' => {
'users' => [ '' ] # list of user IDs to query in the LRMS
}
},
'jobs' => [ '' ] # list of jobs IDs to query in the LRMS
}
}
sub get_lrms_info($) {
my $options = shift;
my %cluster_config = %$options;
delete $cluster_config{queues};
delete $cluster_config{jobs};
my $lrms_info = {cluster => {}, queues => {}, jobs => {}};
my $cluster_info = { cluster_info(\%cluster_config) };
delete $cluster_info->{queue};
$lrms_info->{cluster} = delete_empty($cluster_info);
$lrms_info->{nodes} = { nodes_info(\%cluster_config) } if $has_nodes;
for my $qname ( keys %{$options->{queues}} ) {
my %queue_config = (%cluster_config, %{$options->{queues}{$qname}});
delete $queue_config{users};
my $jids = $options->{jobs};
# TODO: interface change: jobs under each queue
my $jobs_info = { jobs_info(\%queue_config, $qname, $jids) };
for my $job ( values %$jobs_info ) {
$job->{status} ||= 'EXECUTED';
delete_empty($job);
}
$lrms_info->{jobs} = { %{$lrms_info->{jobs}}, %$jobs_info };
my $queue_info = { queue_info(\%queue_config, $qname) };
$lrms_info->{queues}{$qname} = delete_empty($queue_info);
my $users = $options->{queues}{$qname}{users};
$queue_info->{users} = { users_info(\%queue_config, $qname, $users) };
for my $user ( values %{$queue_info->{users}} ) {
my $freecpus = $user->{freecpus};
$user->{freecpus} = split_freecpus($freecpus) if defined $freecpus;
delete_empty($user);
}
$queue_info->{acl_users} = $queue_config{acl_users}
if defined $queue_config{acl_users};
}
# ARC0 LRMS plugins use minutes. Convert to seconds here.
for my $queue (values %{$lrms_info->{queues}}) {
$queue->{minwalltime} = int 60*$queue->{minwalltime} if $queue->{minwalltime};
$queue->{mincputime} = int 60*$queue->{mincputime} if $queue->{mincputime};
$queue->{maxwalltime} = int 60*$queue->{maxwalltime} if $queue->{maxwalltime};
$queue->{maxcputime} = int 60*$queue->{maxcputime} if $queue->{maxcputime};
$queue->{defaultwallt} = int 60*$queue->{defaultwallt} if $queue->{defaultwallt};
$queue->{defaultcput} = int 60*$queue->{defaultcput} if $queue->{defaultcput};
}
for my $job (values %{$lrms_info->{jobs}}) {
$job->{reqcputime} = int 60*$job->{reqcputime} if $job->{reqcputime};
$job->{reqwalltime} = int 60*$job->{reqwalltime} if $job->{reqwalltime};
$job->{cputime} = int 60*$job->{cputime} if $job->{cputime};
$job->{walltime} = int 60*$job->{walltime} if $job->{walltime};
delete $job->{nodes} unless @{$job->{nodes}};
delete $job->{comment} unless @{$job->{comment}};
}
return $lrms_info;
}
sub delete_empty($) {
my $hashref = shift;
foreach my $k ( keys %$hashref) {
delete $hashref->{$k}
if ! defined $hashref->{$k} || $hashref->{$k} eq '';
}
return $hashref;
}
# Convert frecpus string into a hash.
# Example: "6 11:2880 23:1440" --> { 6 => 0, 11 => 2880, 23 => 1440 }
# OBS: Assuming the function cpu vs. time is monotone, this transformation is safe.
sub split_freecpus($) {
my $freecpus_string = shift;
my $freecpus_hash = {};
for my $countsecs (split ' ', $freecpus_string) {
if ($countsecs =~ /^(\d+)(?::(\d+))?$/) {
$freecpus_hash->{$1} = $2 || 0; # 0 means unlimited
} else {
$log->warning("Bad freecpus string: $freecpus_string");
return {};
}
}
return $freecpus_hash;
}
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