/usr/sbin/check_lft_balance is in infiniband-diags 2.0.0-2.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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#
# Copyright (C) 2001-2003 The Regents of the University of California.
# Copyright (c) 2006 The Regents of the University of California.
# Copyright (c) 2007-2008 Voltaire, Inc. All rights reserved.
#
# Produced at Lawrence Livermore National Laboratory.
# Written by Ira Weiny <weiny2@llnl.gov>
# Jim Garlick <garlick@llnl.gov>
# Albert Chu <chu11@llnl.gov>
#
# This software is available to you under a choice of one of two
# licenses. You may choose to be licensed under the terms of the GNU
# General Public License (GPL) Version 2, available from the file
# COPYING in the main directory of this source tree, or the
# OpenIB.org BSD license below:
#
# Redistribution and use in source and binary forms, with or
# without modification, are permitted provided that the following
# conditions are met:
#
# - Redistributions of source code must retain the above
# copyright notice, this list of conditions and the following
# disclaimer.
#
# - Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials
# provided with the distribution.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
use strict;
use Getopt::Std;
my $ibnetdiscover_cache = "";
my $dump_lft_file = "";
my $verbose = 0;
my $switch_lid = undef;
my $switch_guid = undef;
my $switch_name = undef;
my %switch_port_count = ();
my @switch_maybe_directly_connected_hosts = ();
my $host = undef;
my @host_ports = ();
my @lft_lines = ();
my $lft_line;
my $lids_per_port;
my $lids_per_port_calculated;
my $heuristic_flag = 0;
sub usage
{
my $prog = `basename $0`;
chomp($prog);
print "Usage: $prog -l lft-output -i ibnetdiscover-cache [-e] [-v]\n";
print " Generate lft-output via \"dump_lfts.sh > lft-output\"\n";
print " Generate ibnetdiscover-cache via \"ibnetdiscover --cache ibnetdiscover-cache\"\n";
print " -e turn on heuristic(s) to look at switch balances deeper\n";
print " -v verbose output, output all switches\n";
exit 2;
}
sub is_port_up
{
my $iblinkinfo_output = $_[0];
my $port = $_[1];
my $decport;
my @lines;
my $line;
$port =~ /0+(.+)/;
$decport = $1;
# Add a space if necessary
if ($decport >= 1 && $decport <= 9) {
$decport = " $decport";
}
@lines = split("\n", $iblinkinfo_output);
foreach $line (@lines) {
if ($line =~ /$decport\[..\] ==/) {
if ($line =~ /Down/) {
return 0;
}
else {
return 1;
}
}
}
# return 0 if not found
return 0;
}
sub is_directly_connected
{
my $iblinkinfo_output = $_[0];
my $port = $_[1];
my $decport;
my $str;
my $rv = 0;
my $host_tmp;
my @lines;
my $line;
if (($switch_port_count{$port} != $lids_per_port)
|| !(@switch_maybe_directly_connected_hosts))
{
return $rv;
}
$port =~ /0+(.+)/;
$decport = $1;
# Add a space if necessary
if ($decport >= 1 && $decport <= 9) {
$decport = " $decport";
}
@lines = split("\n", $iblinkinfo_output);
foreach $line (@lines) {
if ($line =~ /$decport\[..\] ==/) {
$str = $line;
}
}
if ($str =~ "Active") {
$str =~
/[\d]+[\s]+[\d]+\[.+\] \=\=.+\=\=>[\s]+[\d]+[\s]+[\d]+\[.+\] \"(.+)\".+/;
for $host_tmp (@switch_maybe_directly_connected_hosts) {
if ($1 == $host_tmp) {
$rv = 1;
last;
}
}
}
return $rv;
}
sub output_switch_port_usage
{
my $min_usage = 999999;
my $max_usage = 0;
my $min_usage2 = 999999;
my $max_usage2 = 0;
my @ports = (
"001", "002", "003", "004", "005", "006", "007", "008",
"009", "010", "011", "012", "013", "014", "015", "016",
"017", "018", "019", "020", "021", "022", "023", "024",
"025", "026", "027", "028", "029", "030", "031", "032",
"033", "034", "035", "036"
);
my @output_ports = ();
my @double_check_ports = ();
my $port;
my $iblinkinfo_output;
my $is_unbalanced = 0;
my $ports_on_switch = 0;
my $all_zero_flag = 1;
my $ret;
$iblinkinfo_output = `iblinkinfo --load-cache $ibnetdiscover_cache -S $switch_guid`;
for $port (@ports) {
if (!defined($switch_port_count{$port})) {
$switch_port_count{$port} = 0;
}
if ($switch_port_count{$port} == 0) {
# If port is down, don't use it in this calculation
$ret = is_port_up($iblinkinfo_output, $port);
if ($ret == 0) {
next;
}
}
$ports_on_switch++;
# If port is directly connected to a node, don't use
# it in this calculation.
if (is_directly_connected($iblinkinfo_output, $port) == 1) {
next;
}
# Save off ports that should be output later
push(@output_ports, $port);
if ($switch_port_count{$port} < $min_usage) {
$min_usage = $switch_port_count{$port};
}
if ($switch_port_count{$port} > $max_usage) {
$max_usage = $switch_port_count{$port};
}
}
if ($max_usage > ($min_usage + 1)) {
$is_unbalanced = 1;
}
# In the event this is a switch lineboard, it will almost always never
# balanced. Half the ports go up to the spine, and the rest of the ports
# go down to HCAs. So we will do a special heuristic:
#
# If about 1/2 of the remaining ports are balanced, then we will consider the
# entire switch balanced.
#
# Also, we do this only if there are enough alive ports on the switch to care.
# I picked 12 somewhat randomly
if ($heuristic_flag == 1
&& $is_unbalanced == 1
&& $ports_on_switch > 12) {
@double_check_ports = ();
for $port (@output_ports) {
if ($switch_port_count{$port} == $max_usage
|| $switch_port_count{$port} == ($max_usage - 1)
|| $switch_port_count{$port} == 0) {
next;
}
push(@double_check_ports, $port);
}
# we'll call half +/- 1 "about half"
if (@double_check_ports == int($ports_on_switch / 2)
|| @double_check_ports == int($ports_on_switch / 2) + 1
|| @double_check_ports == int($ports_on_switch / 2) - 1) {
for $port (@double_check_ports) {
if ($switch_port_count{$port} < $min_usage2) {
$min_usage2 = $switch_port_count{$port};
}
if ($switch_port_count{$port} > $max_usage2) {
$max_usage2 = $switch_port_count{$port};
}
}
if (!($max_usage2 > ($min_usage2 + 1))) {
$is_unbalanced = 0;
}
}
}
# Another special case is when you have a non-fully-populated switch
# Many ports will be zero. So if all active ports != max or max-1 are = 0
# we will also consider this balanced.
if ($heuristic_flag == 1
&& $is_unbalanced == 1
&& $ports_on_switch > 12) {
@double_check_ports = ();
for $port (@output_ports) {
if ($switch_port_count{$port} == $max_usage
|| $switch_port_count{$port} == ($max_usage - 1)) {
next;
}
push(@double_check_ports, $port);
}
for $port (@double_check_ports) {
if ($switch_port_count{$port} != 0) {
$all_zero_flag = 0;
last;
}
}
if ($all_zero_flag == 1) {
$is_unbalanced = 0;
}
}
if ($verbose || $is_unbalanced == 1) {
if ($is_unbalanced == 1) {
print "Unbalanced Switch Port Usage: ";
print "$switch_name, $switch_guid\n";
} else {
print
"Switch Port Usage: $switch_name, $switch_guid\n";
}
for $port (@output_ports) {
print "Port $port: $switch_port_count{$port}\n";
}
}
}
sub process_host_ports
{
my $test_port;
my $tmp;
my $flag = 0;
if (@host_ports == $lids_per_port) {
# Are all the host ports identical?
$test_port = $host_ports[0];
for $tmp (@host_ports) {
if ($tmp != $test_port) {
$flag = 1;
last;
}
}
# If all host ports are identical, maybe its directly
# connected to a host.
if ($flag == 0) {
push(@switch_maybe_directly_connected_hosts, $host);
}
}
}
if (!getopts("hl:i:ve")) {
usage();
}
if (defined($main::opt_h)) {
usage();
}
if (defined($main::opt_l)) {
$dump_lft_file = $main::opt_l;
} else {
print STDERR ("Must specify dump lfts file\n");
usage();
exit 1;
}
if (defined($main::opt_i)) {
$ibnetdiscover_cache = $main::opt_i;
} else {
print STDERR ("Must specify ibnetdiscover cache\n");
usage();
exit 1;
}
if (defined($main::opt_v)) {
$verbose = 1;
}
if (defined($main::opt_e)) {
$heuristic_flag = 1;
}
if (!open(FH, "< $dump_lft_file")) {
print STDERR ("Couldn't open dump lfts file: $dump_lft_file: $!\n");
}
@lft_lines = <FH>;
foreach $lft_line (@lft_lines) {
chomp($lft_line);
if ($lft_line =~ /Unicast/) {
if (@host_ports) {
process_host_ports();
}
if (defined($switch_name)) {
output_switch_port_usage();
}
if ($lft_line =~ /Unicast lids .+ of switch DR path slid .+ guid (.+) \((.+)\)/) {
$switch_guid = $1;
$switch_name = $2;
}
if ($lft_line =~ /Unicast lids .+ of switch Lid .+ guid (.+) \((.+)\)/) {
$switch_guid = $1;
$switch_name = $2;
}
@switch_maybe_directly_connected_hosts = ();
%switch_port_count = ();
@host_ports = ();
$lids_per_port = 0;
$lids_per_port_calculated = 0;
} elsif ($lft_line =~ /Channel/ || $lft_line =~ /Router/) {
$lft_line =~ /.+ (.+) : \(.+ portguid .+: '(.+)'\)/;
$host = $2;
$switch_port_count{$1}++;
if (@host_ports) {
process_host_ports();
}
@host_ports = ($1);
if ($lids_per_port == 0) {
$lids_per_port++;
} else {
$lids_per_port_calculated++;
}
} elsif ($lft_line =~ /path/) {
$lft_line =~ /.+ (.+) : \(path #. out of .: portguid .+\)/;
$switch_port_count{$1}++;
if ($lids_per_port_calculated == 0) {
$lids_per_port++;
}
push(@host_ports, $1);
} else {
if ($lids_per_port) {
$lids_per_port_calculated++;
}
next;
}
}
if (@host_ports) {
process_host_ports();
}
output_switch_port_usage();
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