mirror of
https://github.com/munin-monitoring/contrib.git
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290 lines
7.1 KiB
Perl
Executable File
290 lines
7.1 KiB
Perl
Executable File
#!/usr/bin/perl -w
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# -*- perl -*-
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# vim: sts=8 sw=8 ts=8
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#
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# Run "perldoc thisfilename" to get a well-formated set of documentation
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# for this munin plugin.
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#
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=head1 NAME
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openvzcpu - Munin plugin to monitor the amount of CPU used by each OpenVZ
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container running on this machine.
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=head2 SYNOPSIS
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Draws a stacked graph showing system/user/nice CPU usage for each container
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running on a OpenVZ hardware node. Must be run from outside of any container
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in order to gain access to the values generated by the OpenVZ kernel code in
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C</proc/vz/vestat>
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=head1 CONFIGURATION
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The following perl libraries are used:
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Graphics::ColorNames
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Graphics::ColorObject
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... on Debian based systems (i.e. Ubuntu etc.) you may just:
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aptitude install libcolor-calc-perl libgraphics-colorobject-perl
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Must be run as root in order to read C</proc/vz/vestat>
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Place the following in a file such as C</etc/munin/plugin-conf.d/openvzcpu>
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B<and then restart munin-node>.
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[openvzcpu]
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user root
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=head2 OPTIONS
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The following may be added to the file above, in order to enable the graphing
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of idle and iowait times:
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env.drawidle 1
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For kernels which have other than 100 jiffies per second (sic) n.b. this is
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unlikely to be necessary - you may add the followin to the plugin-specific
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configuration:
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env.HZ 1000
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If you have a high number of containers running on the machine, you may be
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able to gain extra clarity by asking munin to create a "taller" graph by
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adding the following to /etc/munin.conf, or in a file under
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C</etc/munin/munin-conf.d/> if you are using Munin v1.4 or above:
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openvzcpu.graph_height 700
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=head1 SEE ALSO
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http://wiki.openvz.org/Vestat
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=head1 TODO
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. Add Munin 1.4 multigraph support
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. Sort graphing order so that the smallest container is rendered at the
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bottom of the graph.
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. Make the colour list into a configuration item.
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. Fix graphing of non-container CPU usage.
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=head1 VERSION
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0.6 Initial Public Release
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=head1 AUTHOR
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Tim Small <tim@seoss.co.uk>
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Patches welcome.
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=head1 LICENSE
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GPLv2
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=head1 MAGIC MARKERS
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#%# family=auto
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#%# capabilities=autoconf
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=cut
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use strict;
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use Carp;
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use Graphics::ColorNames 2.10;
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use Graphics::ColorObject;
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my $vestat = '/proc/vz/vestat';
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my $stat = '/proc/stat';
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my @vestatitems = ('user', 'system', 'nice');
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my @colorlist = ('purple', 'green', 'red', 'pink2', 'green', 'brown', 'cyan', 'orange', 'blue', 'grey');
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############
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# autoconf #
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############
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if ( defined $ARGV[0] && $ARGV[0] eq 'autoconf' ) {
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if ( -r '/proc/stat' && -r '/proc/vz/vestat' ) {
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print "yes\n";
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} else {
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print "no\n";
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}
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exit 0;
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}
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my $hz = 100;
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#use Data::Dumper; croak Dumper(\%ENV);
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$hz = $ENV{'HZ'} if ( defined $ENV{'HZ'} );
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my $drawidle = 0;
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$drawidle = $ENV{'drawidle'} if ( defined $ENV{'drawidle'} );
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open VESTAT, "<$vestat" or croak "Failed to open $vestat\n";
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my %vejif;
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while (<VESTAT>) {
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my ($veid, $user, $nice, $system);
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($veid, $user, $nice, $system) = m,^\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+),;
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if (defined $veid) {
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$vejif{$veid}->{'user'} = $user;
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$vejif{$veid}->{'nice'} = $nice;
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$vejif{$veid}->{'system'} = $system;
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}
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}
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close VESTAT or croak "Failed to close $vestat\n";
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open STAT, "<$stat" or croak "Failed to open $stat\n";
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my $line = 0;
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my $cores = 0;
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while (<STAT>) {
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my ($user, $nice, $system, $idle, $iowait, $irq, $softirq);
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($user, $nice, $system, $idle, $iowait, $irq, $softirq) = m,^cpu\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+)\W+(\d+),;
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if (defined $user) {
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$vejif{'global'}->{'user'} = $user;
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$vejif{'global'}->{'nice'} = $nice;
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$vejif{'global'}->{'system'} = $system;
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$vejif{'global'}->{'idle'} = $idle;
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$vejif{'global'}->{'iowait'} = $iowait;
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$vejif{'global'}->{'irq'} = $irq;
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$vejif{'global'}->{'softirq'} = $softirq;
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}
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# Count number of CPU cores on this system while we are here
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$cores++ if m,cpu\d,;
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}
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$cores = 1 if $cores == 0;
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foreach my $thing (@vestatitems) {
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##FIXME this doesn't appear to work on 2.6.32. OpenVZ bug?
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## #Subtract total container usage from overall usage to get non-openvz
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## # usage (AKA VEID 0)
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## $vejif{'0'}->{$thing} = $vejif{'global'}->{$thing};
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## foreach my $veid (keys %vejif) {
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## next if $veid eq 'global';
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## $vejif{'0'}->{$thing} = $vejif{'0'}->{$thing} - $vejif{$veid}->{$thing};
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## }
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delete $vejif{'global'}->{$thing};
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}
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##########
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# config #
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##########
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if ( defined $ARGV[0] && $ARGV[0] eq 'config' ) {
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my $uplimit = $cores;
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my $first = 1;
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my $veprocessed = 0;
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#print 'graph_args --base 1000 -r --lower-limit 0 --units-length 4 --y-grid 0.01:10';
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print 'graph_args --base 1000 -r --lower-limit 0 -Y';
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print " --upper-limit $uplimit" if $drawidle;
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print <<STDCONFIG;
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graph_title OpenVZ container CPU usage
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graph_vlabel CPU cores used ($cores available)
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graph_scale no
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graph_info This graph shows how CPU time is spent.
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graph_category openvz
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graph_period second
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STDCONFIG
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if (0) {
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print "graph_printf %6.3lf\n";
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}
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foreach my $veid (keys %vejif) {
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next if $veid eq 'global';
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my $color = $colorlist[$veprocessed++ % @colorlist];
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my $vename = `vzlist -H -o name $veid`;
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($vename) = ($vename =~ m,(\w*),);
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my $cnameobj = new Graphics::ColorNames(qw( X ));
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# Use LCHab colour space in order to be able to change the
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# Apparent brightness of the color (by scaling the "L"
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# component). Convert back to RGB for munin.
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my @lchab = @{
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(Graphics::ColorObject->new_RGBhex(
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$cnameobj->hex($color)
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))->as_LCHab()
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};
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foreach my $item ('system', 'user', 'nice') {
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my @itemc;
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@itemc = @lchab;
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$itemc[0] = 1.3 * $itemc[0] if ($item eq 'nice');
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$itemc[0] = 0.7 * $itemc[0] if ($item eq 'system');
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my $itemcolor = Graphics::ColorObject->new_LCHab(\@itemc);
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print "v${veid}${item}.label $vename $item\n";
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if($first) {
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print "v${veid}${item}.draw AREA\n";
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$first = 0;
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} else {
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print "v${veid}${item}.draw STACK\n";
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}
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print "v${veid}${item}.colour " . $itemcolor->as_RGBhex() . "\n";
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print "v${veid}${item}.min 0\n";
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print "v${veid}${item}.type DERIVE\n";
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print "v${veid}${item}.cdef v${veid}${item},100,/\n";
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}
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}
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print <<STDCONFIG;
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vglobalirq.label irq
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vglobalirq.draw STACK
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vglobalirq.min 0
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vglobalirq.colour EEEE00
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vglobalirq.type DERIVE
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vglobalirq.cdef vglobalirq,100,/
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vglobalirq.info CPU time spent handling interrupts
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vglobalsoftirq.label softirq
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vglobalsoftirq.draw STACK
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vglobalsoftirq.min 0
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vglobalsoftirq.colour CCCC00
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vglobalsoftirq.type DERIVE
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vglobalsoftirq.cdef vglobalsoftirq,100,/
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vglobalsoftirq.info CPU time spent handling "batched" interrupts
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STDCONFIG
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if ($drawidle) {
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print <<STDCONFIG
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vglobalidle.label idle
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vglobalidle.draw STACK
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vglobalidle.colour EEEEEE
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vglobalidle.min 0
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vglobalidle.type DERIVE
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vglobalidle.cdef vglobalidle,100,/
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vglobalidle.info Idle CPU time
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vglobaliowait.label iowait
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vglobaliowait.draw STACK
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vglobaliowait.colour DDDDDD
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vglobaliowait.min 0
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vglobaliowait.type DERIVE
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vglobaliowait.cdef vglobaliowait,100,/
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vglobaliowait.info CPU time spent waiting for I/O operations to finish when there is nothing else to do.
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STDCONFIG
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}
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exit 0;
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}
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foreach my $veid (keys %vejif) {
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foreach my $datapoint (keys %{$vejif{$veid}}) {
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printf "v${veid}${datapoint}.value %.0f\n", $vejif{$veid}->{$datapoint} / $hz * 100;
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}
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}
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