pginfo.pl revision d3c9722485327eb5b96de2f2108e9a84bd46096d
#! /usr/perl5/bin/perl
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License (the "License").
# You may not use this file except in compliance with the License.
#
# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
# or http://www.opensolaris.org/os/licensing.
# See the License for the specific language governing permissions
# and limitations under the License.
#
# When distributing Covered Code, include this CDDL HEADER in each
# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
# If applicable, add the following below this CDDL HEADER, with the
# fields enclosed by brackets "[]" replaced with your own identifying
# information: Portions Copyright [yyyy] [name of copyright owner]
#
# CDDL HEADER END
#
#
# Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved.
#
#
# pginfo - tool for displaying Processor Group information
#
use warnings;
use strict;
use File::Basename;
use Errno;
use POSIX qw(locale_h);
use Getopt::Long qw(:config no_ignore_case bundling auto_version);
use List::Util qw(first max min);
use Sun::Solaris::Utils qw(textdomain gettext);
use Sun::Solaris::Pg;
#
# Constants
#
# It is possible that wnen trying to parse PG information, PG generation changes
# which will cause PG new method to fail with errno set to EAGAIN In this case
# we retry open up to RETRY_COUNT times pausing RETRY_DELAY seconds between each
# retry.
#
# When printing PGs we print them as a little tree with each PG shifted by
# LEVEL_OFFSET from each parent. For example:
#
# PG RELATIONSHIP CPUs
# 0 System 0-7
# 3 Socket 0 2 4 6
# 2 Cache 0 2 4 6
#
use constant {
VERSION => 1.1,
LEVEL_OFFSET => 1,
RETRY_COUNT => 4,
RETRY_DELAY => 0.25,
};
#
# Return codes
#
# 0 Successful completion.
#
# 1 An error occurred.
#
# 2 Invalid command-line options were specified.
#
use constant {
E_SUCCESS => 0,
E_ERROR => 1,
E_USAGE => 2,
};
# Set message locale
setlocale(LC_ALL, "");
textdomain(TEXT_DOMAIN);
# Get script name for error messages
our $cmdname = basename($0, ".pl");
#
# Process options
#
my $do_cpulist; # -C - Show CPU IDs
my $do_cpus; # -c - Treat args as CPU IDs
my $do_physical; # -p - Show physical relationships
my $do_sharing_only; # -S - Only show sharing relationships
my $do_tree; # -T - Show ASCII tree
my $do_usage; # -h - Show usage
my $do_version; # -V - Show version
my $script_mode; # -I - Only show IDs
my $verbose = 0; # -v - Verbose output
my @sharing_filter; # -r string,...
my @sharing_filter_neg; # -R string,...
# Exit code
my $rc = E_SUCCESS;
# Parse options from the command line
GetOptions("cpus|c" => \$do_cpus,
"idlist|I" => \$script_mode,
"cpulist|C" => \$do_cpulist,
"physical|p" => \$do_physical,
"help|h|?" => \$do_usage,
"sharing|s" => \$do_sharing_only,
"relationship|r=s" => \@sharing_filter,
"norelationship|R=s" => \@sharing_filter_neg,
"tree|topology|T" => \$do_tree,
"version|V" => \$do_version,
"verbose+" => \$verbose,
"v+" => \$verbose,
) || usage(E_USAGE);
# Print usage message when -h is given
usage(E_SUCCESS) if $do_usage;
if ($do_version) {
#
# Print version information and exit
#
printf gettext("%s version %s\n"), $cmdname, VERSION;
exit(E_SUCCESS);
}
#
# Verify options compatibility
#
if ($script_mode && $do_cpulist) {
printf STDERR
gettext("%s: options -I and -C can not be used at the same time\n"),
$cmdname;
usage(E_USAGE);
}
if (($script_mode || $do_cpulist) &&
($do_physical || $do_sharing_only ||
$do_tree)) {
printf STDERR
gettext("%s: options -C and -I can not be used with -p -s or -T\n"),
$cmdname;
usage(E_USAGE);
}
if ($do_physical && $do_sharing_only) {
printf STDERR
gettext("%s: option -p can not be used with -s\n"), $cmdname;
usage(E_USAGE);
}
if ($do_tree && $do_sharing_only) {
printf STDERR
gettext("%s: option -T can not be used with -s\n"),
$cmdname;
usage(E_USAGE);
}
if ($verbose && !($script_mode || $do_cpulist || $do_sharing_only)) {
$do_tree = 1;
$do_physical = 1;
}
#
# Get PG information
#
my $p = Sun::Solaris::Pg->new(-tags => $do_physical,
-retry => RETRY_COUNT,
'-delay' => RETRY_DELAY);
if (!$p) {
printf STDERR
gettext("%s: can not obtain Processor Group information: $!\n"),
$cmdname;
exit(E_ERROR);
}
#
# Convert -[Rr] string1,string2,... into list (string1, string2, ...)
#
@sharing_filter = map { split /,/ } @sharing_filter;
@sharing_filter_neg = map { split /,/ } @sharing_filter_neg;
#
# Get list of all PGs in the system
#
my @all_pgs = $p->all_depth_first();
if (scalar(@all_pgs) == 0) {
printf STDERR
gettext("%s: this system does not have any Processor groups\n"),
$cmdname;
exit(E_ERROR);
}
#
# @pgs is the list of PGs we are going to work with after all the option
# processing
#
my @pgs = @all_pgs;
#
# get list of all CPUs in the system by looking at the root PG cpus
#
my @all_cpus = $p->cpus($p->root());
#
# If there are arguments in the command line, treat them as either PG IDs or as
# CPUs that should be converted to PG IDs.
# Arguments can be specified as x-y x,y,z and use special keyword 'all'
#
if (scalar @ARGV) {
#
# Convert 'all' in arguments to all CPUs or all PGs
#
my @args;
my @all = $do_cpus ? @all_cpus : @all_pgs;
@args = map { $_ eq 'all' ? @all : $_ } @ARGV;
# Expand any x-y,z ranges
@args = $p->expand(@args);
if ($do_cpus) {
# @bad_cpus is a list of invalid CPU IDs
my @bad_cpus = $p->set_subtract(\@all_cpus, \@args);
if (scalar @bad_cpus) {
printf STDERR
gettext("%s: Invalid processor IDs %s\n"),
$cmdname, $p->id_collapse(@bad_cpus);
$rc = E_ERROR;
}
#
# List of PGs is the list of any PGs that contain specified CPUs
#
@pgs = grep {
my @cpus = $p->cpus($_);
scalar($p->intersect(\@cpus, \@args));
} @all_pgs;
} else {
# @pgs is a list of valid CPUs in the arguments
@pgs = $p->intersect(\@all_pgs, \@args);
# @bad_pgs is a list of invalid PG IDs
my @bad_pgs = $p->set_subtract(\@all_pgs, \@args);
if (scalar @bad_pgs) {
printf STDERR
gettext("%s: Invalid PG IDs %s\n"),
$cmdname, $p->id_collapse(@bad_pgs);
$rc = E_ERROR;
}
}
}
#
# Now we have list of PGs to work with. Now apply filtering. First list only
# those matching -R
#
@pgs = grep { list_match($p->sh_name($_), @sharing_filter) } @pgs if
scalar @sharing_filter;
# Remove any that doesn't match -r
@pgs = grep { !list_match($p->sh_name($_), @sharing_filter_neg) } @pgs if
scalar @sharing_filter_neg;
# Do we have any PGs left?
if (scalar(@pgs) == 0) {
printf STDERR
gettext("%s: no processor groups matching command line arguments %s\n"),
$cmdname, "@ARGV";
exit(E_ERROR);
}
#
# Global list of PGs that should be excluded from the output - it is only used
# when tree mode is specified.
#
my @exclude_pgs;
if ($do_tree) {
@exclude_pgs = grep {
list_match($p->sh_name($_), @sharing_filter_neg)
} @all_pgs;
#
# In tree mode add PGs that are in the lineage of given PGs
#
@pgs = pg_lineage($p, @pgs)
}
#
# -I is specified, print list of all PGs
#
if ($script_mode) {
if (scalar(@pgs)) {
@pgs = sort { $a <=> $b } @pgs;
print "@pgs\n";
} else {
print "none\n";
}
exit($rc);
}
#
# -C is specified, print list of all CPUs belonging to PGs
#
if ($do_cpulist) {
my @cpu_list = $p->uniqsort(map { $p->cpus($_) } @pgs);
print "@cpu_list\n";
exit($rc);
}
# Mapping of relationships to list of PGs
my %pgs_by_relationship;
# Maximum length of all sharing names
my $max_sharename_len = length('RELATIONSHIP');
# Maximum length of PG ID
my $max_pg_len = length(max(@pgs)) + 1;
#
# For calculating proper offsets we need to know minimum and maximum level for
# all PGs
#
my @levels = map { $p->level($_) } @pgs;
my $maxlevel = max(@levels);
my $minlevel = min(@levels);
# Calculate maximum string length that should be used to represent PGs
foreach my $pg (@pgs) {
my $name = $p->sh_name ($pg) || "unknown";
my $level = $p->level($pg) || 0;
if ($do_physical) {
my $tags = $p->tags($pg);
$name = "$name [$tags]" if $tags;
}
my $length = length($name) + $level - $minlevel;
$max_sharename_len = $length if $length > $max_sharename_len;
}
if ($do_sharing_only) {
#
# -s - only print sharing relationships
# Get list of sharing relationships
my @relationships = $p->sharing_relationships(@pgs);
if ($verbose) {
printf "%-${max_sharename_len}s %s\n",
'RELATIONSHIP', 'PGs';
foreach my $rel (@relationships) {
my @pg_rel = grep { $p->sh_name($_) eq $rel }
@pgs;
my $pg_rel = $p->id_collapse (@pg_rel);
$pgs_by_relationship{$rel} = \@pg_rel;
}
}
foreach my $rel (@relationships) {
printf "%-${max_sharename_len}s", $rel;
if ($verbose) {
my @pgs = @{$pgs_by_relationship{$rel}};
my $pgs = $p->id_collapse (@pgs);
print ' ', $pgs;
}
print "\n";
}
# we are done
exit($rc);
}
#
# Print PGs either in list form or tree form
#
if (!$do_tree) {
my $header;
$header = sprintf "%-${max_pg_len}s %-${max_sharename_len}s" .
" %s\n",
'PG', 'RELATIONSHIP', 'CPUs';
print $header;
map { pg_print ($p, $_) } @pgs;
} else {
#
# Construct a tree from PG hierarchy and prune any PGs that are
# specified with -R option
#
my $pg_tree = pg_make_tree($p);
map { pg_remove_from_tree($pg_tree, $_) } @exclude_pgs;
# Find top-level PGs
my @top_level = grep {
$pg_tree->{$_} && !defined($pg_tree->{$_}->{parent})
} @pgs;
# Print each top-level node as ASCII tree
foreach my $pg (@top_level) {
my $children = $pg_tree->{$pg}->{children};
my @children = $children ? @{$children} : ();
@children = $p->intersect(\@children, \@pgs);
pg_print_tree($p, $pg_tree, $pg, '', '', scalar @children);
}
}
# We are done!
exit($rc);
######################################################################
# Internal functions
#
#
# pg_print(cookie, pg)
# print PG information in list mode
#
sub pg_print
{
my $p = shift;
my $pg = shift;
my $sharing = $p->sh_name($pg);
if ($do_physical) {
my $tags = $p->tags($pg);
$sharing = "$sharing [$tags]" if $tags;
}
my $level = $p->level($pg) - $minlevel;
$sharing = (' ' x (LEVEL_OFFSET * $level)) . $sharing;
my $cpus = $p->cpus($pg);
printf "%-${max_pg_len}d %-${max_sharename_len}s", $pg, $sharing;
print " $cpus";
print "\n";
}
#
# pg_showcpus(cookie, pg)
# Print CPUs in the current PG
#
sub pg_showcpus
{
my $p = shift;
my $pg = shift;
my @cpus = $p->cpus($pg);
my $ncpus = scalar @cpus;
return 0 unless $ncpus;
my $cpu_string = $p->cpus($pg);
return (($ncpus == 1) ?
"CPU: $cpu_string":
"CPUs: $cpu_string");
}
#
# pg_print_node(cookie, pg)
# print PG as ASCII tree node
#
sub pg_print_node
{
my $p = shift;
my $pg = shift;
my $sharing = $p->sh_name($pg);
if ($do_physical) {
my $tags = $p->tags($pg);
$sharing = "$sharing [$tags]" if $tags;
}
print "$pg ($sharing)";
my $cpus = pg_showcpus($p, $pg);
print " $cpus";
print "\n";
}
#
# pg_print_tree(cookie, tree, pg, prefix, childprefix, npeers)
# print ASCII tree of PGs in the tree
# prefix should be used for the current node, childprefix for children nodes
# npeers is the number of peers of the current node
#
sub pg_print_tree
{
my $p = shift;
my $pg_tree = shift;
my $pg = shift;
return unless defined ($pg); # done!
my $prefix = shift;
my $childprefix = shift;
my $npeers = shift;
# Get list of my children
my $children = $pg_tree->{$pg}->{children};
my @children = $children ? @{$children} : ();
@children = $p->intersect(\@children, \@pgs);
my $nchildren = scalar @children;
my $printprefix = "$childprefix";
my $printpostfix = $npeers ? "| " : " ";
my $bar = $npeers ? "|" : "`";
print $childprefix ? $childprefix : "";
print $prefix ? "$bar" . "-- " : "";
pg_print_node ($p, $pg);
my $new_prefix = $npeers ? $prefix : " ";
# Print the subtree with a new offset, starting from each child
map {
pg_print_tree($p, $pg_tree, $_, "| ",
"$childprefix$new_prefix", --$nchildren)
} @children;
}
#
# list_match(arg, list)
# Return arg if argument matches any of the elements on the list
#
sub list_match
{
my $arg = shift;
return first { $arg =~ m/$_/i } @_;
}
#
# Make a version of PG parent-children relationships from cookie
#
sub pg_make_tree
{
my $p = shift;
my $pg_tree = ();
foreach my $pg ($p->all()) {
my @children = $p->children($pg);
$pg_tree->{$pg}->{parent} = $p->parent($pg);
$pg_tree->{$pg}->{children} = \@children;
}
return ($pg_tree);
}
#
# pg_remove_from_tree(tree, pg)
# Prune PG from the tree
#
sub pg_remove_from_tree
{
my $pg_tree = shift;
my $pg = shift;
my $node = $pg_tree->{$pg};
return unless $node;
my @children = @{$node->{children}};
my $parent = $node->{parent};
my $parent_node;
#
# Children have a new parent
#
map { $pg_tree->{$_}->{parent} = $parent } @children;
#
# All children move to the parent (if there is one)
#
if (defined($parent) && ($parent_node = $pg_tree->{$parent})) {
#
# Merge children from parent and @children list
#
my @parent_children = @{$parent_node->{children}};
#
# Remove myself from parent children
#
@parent_children = grep { $_ != $pg } @parent_children;
@parent_children = $p->nsort(@parent_children, @children);
$parent_node->{children} = \@parent_children;
}
# Remove current node
delete $pg_tree->{$pg};
}
#
# For a given list of PGs return the full lineage
#
sub pg_lineage
{
my $p = shift;
return unless scalar @_;
my @parents = grep { defined($_) } map { $p->parent ($_) } @_;
return ($p->uniq(@_, @parents, pg_lineage ($p, @parents)));
}
#
# Print usage information and exit with the return code specified
#
sub usage
{
my $rc = shift;
printf STDERR
gettext("Usage:\t%s [-T] [-p] [-v] [-r string] [-R string] [pg ... | -c processor_id ...]\n\n"),
$cmdname;
printf STDERR
gettext("\t%s -s [-v] [-r string] [-R string] [pg ... | -c processor_id ...]\n\n"), $cmdname;
printf STDERR gettext("\t%s -C | -I [-r string] [-R string] [pg ... | -c processor_id ...]\n\n"),
$cmdname;
printf STDERR gettext("\t%s -h\n\n"), $cmdname;
exit($rc);
}
__END__