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nvidia.ph
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# copyright, 2003-2009 Hewlett-Packard Development Company, LP
# NOTE - by default, this module only collects data once a minute, which you can change
# with the i=x parameter (eg --import nvidia,i=x). Regardless of the collection interval,
# date will be reported every interval in brief/verbose formats to provide a consisent
# set of output each monitoring cycle.
# n v d i a m o n i t o r i n g
use strict;
# Allow reference to collectl variables, but be CAREFUL as these should be treated as readonly
our ($Version, $miniFiller, $rate, $SEP, $datetime, $miniInstances, $interval, $showColFlag, $playback);
my ($nvidiaInterval, $nvidiaImportCount, $nvidiaSampleCounter, $nvidiaAllFlag);
my ($nvidiaOpts, $nvidiaNumGpus,$nvidiaProdName, $nvidiaDriverVer);
my (@nvidiaTemp, @nvidiaFan, @nvidiaGpuUtil, @nvidiaMemUtil);
my ($nvidiaTempTot, $nvidiaFanTot, $nvidiaGpuUtilTot, $nvidiaMemUtilTot);
my ($nvidiaTempTOT, $nvidiaFanTOT, $nvidiaGpuUtilTOT, $nvidiaMemUtilTOT);
my $nvidiaGpuFirst;
my $nvidiaGpuNum=-1;
my $nvidiaSection=0;
my $nvidiaLastValFlag;
my $nvidiaCommand='/usr/bin/nvidia-smi';
my $nvidiaFullCmd="$nvidiaCommand -q -a";
sub nvidiaInit
{
my $impOptsref=shift;
my $impKeyref= shift;
# If we ever run with a ':' in the interval, we need to be sure we're
# only looking at the main one.
my $nvidiaInterval1=(split(/:/, $interval))[0];
# For now, only options are a, 'i=, d, s and sd
$nvidiaOpts='';
$nvidiaInterval=60;
if (defined($$impOptsref))
{
foreach my $option (split(/,/,$$impOptsref))
{
my ($name, $value)=split(/=/, $option);
error("invalid misc option: '$name'") if $name ne 'a' && $name ne 'i' && $name!~/^[ds]+$/;
$nvidiaInterval=$value if $name eq 'i';
$nvidiaAllFlag=1 if $name eq 'a';
$nvidiaOpts=$name if $name=~/^[ds]+$/;
}
}
# Special case: if --showcowheaders, we're called with -i0 and need to reset so the
# division below doesn't bomb out.
$nvidiaInterval1=1 if $showColFlag;
$nvidiaImportCount=int($nvidiaInterval/$nvidiaInterval1);
error("nvidia interval option not a multiple of '$nvidiaInterval1' seconds")
if $nvidiaInterval1*$nvidiaImportCount != $nvidiaInterval;
$nvidiaOpts='s' if $nvidiaOpts eq '';
$$impOptsref=$nvidiaOpts;
$$impKeyref='nvid';
# since totals only initialized in 'analyze' routine, do it here too in case no data
# in raw file during playback.
$nvidiaTempTot=$nvidiaFanTot=$nvidiaGpuUtilTot=$nvidiaMemUtilTot=0;
# R u n C o m m a n d I n R e a l t i m e M o d e
# when running in collection mode only, we need to make sure we're nvidia enabled
if ($playback eq '')
{
if ($playback eq '' && !-e $nvidiaCommand || $Version lt '3.5.0-3')
{
my $message="cannot find '$nvidiaCommand'" if !-e $nvidiaCommand;
$message="this nvidia.ph requires at least collectl V3.5.1" if $Version lt '3.5.1';
pushmsg('W', "$message. GPU monitoring disabled");
$$impOptsref=$$impKeyref='';
return(-1);
}
# Now run command once to get a get a few constants for header AND number of GPUs
# NOTE: if it returns its names its probably a help message and the desired commands
# are not suppoted, hence not a GPU we can monitor.
my $output=`$nvidiaFullCmd`;
if ($output=~/nvidia-smi/)
{
pushmsg('W', "nvidia GPU doesn' support '$nvidiaFullCmd'. GPU monitoring disabled");
$$impOptsref=$$impKeyref='';
return(-1);
}
$nvidiaNumGpus=0;
foreach my $line ((split(/\n/, $output)))
{
chomp $line;
$nvidiaDriverVer=$1 if $line=~/Driver Version\s+:\s+(.*)/;
if ($line=~/Product Name\s+:\s+(.*)/)
{
$nvidiaProdName=$1;
$nvidiaNumGpus++;
}
}
$nvidiaSampleCounter=-1;
}
return(1);
}
# Nothing to add to header
sub nvidiaUpdateHeader
{
my $lineref=shift;
$$lineref.="# GPU: Type: nvidia $nvidiaProdName Version: $nvidiaDriverVer NumGPU: $nvidiaNumGpus\n";
}
sub nvidiaGetHeader
{
my $headerref=shift;
# Make sure playback file contains nvidia gpu data and if not, just set number
# of gpus to 1 to make display logic work because maybe this is intended.
if ($$headerref!~/GPU:(.*)Version/ || $1!~/nvidia/)
{
logmsg('W', "playback file does not contain nvidia data");
$nvidiaNumGpus=1;
}
else
{
# Now parse header for real
$$headerref=~/GPU:.*Type: (.*).*Version: (.*)\s+NumGPU: (\d+)/;
$nvidiaDriverVer=$2;
$nvidiaNumGpus=$3;
}
}
sub nvidiaGetData
{
# only read counters when OUR interval directs us to.
return if ($nvidiaSampleCounter++ % $nvidiaImportCount)!=0;
getExec(0, $nvidiaFullCmd, 'nvid');
}
sub nvidiaInitInterval
{
# all initialization totals MUST be done in Analyze() because this not called
# each pass when writing to a raw file.
}
sub nvidiaAnalyze
{
my $type= shift;
my $dataref=shift;
# we need to know when last counter seen AND we can't use InitInterval()
$nvidiaLastValFlag=0;
# This is a mess! Difference drivers generate different output
if ($nvidiaDriverVer lt '270.41.19') # until I know better
{
# GPU number always preceeds data
$nvidiaGpuNum=$1 if $$dataref=~/^GPU (\d+)/;
my $i=$nvidiaGpuNum;
$nvidiaTemp[$i]=$1 if $$dataref=~/^Temp.*?(\d+)/;
$nvidiaFan[$i]=$1 if $$dataref=~/^Fan.*?(\d+)/;
$nvidiaGpuUtil[$i]=$1 if $$dataref=~/^GPU.*: (\d+)/;
# This indicates the end of a set of data. If more data elements
# are ever added, we'll need a different 'last' variable test
if ($$dataref=~/^Memory.*?(\d+)/)
{
$nvidiaMemUtil[$i]=$1;
$nvidiaLastValFlag=1;
}
}
elsif ($nvidiaDriverVer ge '270.41.19')
{
# for this driver version this isn't a number but a string so just bump index
# and make a note of it so we recognize the start of a new interval
if ($$dataref=~/^GPU (.*)/ && $$dataref!~/UUID/)
{
$nvidiaGpuFirst=$1 if !defined($nvidiaGpuFirst);
$nvidiaGpuNum=-1 if $1 eq $nvidiaGpuFirst;
$nvidiaGpuNum++;
}
$nvidiaSection=10 if $$dataref=~/^PCI/;
$nvidiaSection=20 if $$dataref=~/^Fan/;
$nvidiaSection=30 if $$dataref=~/^Memory Usage/;
$nvidiaSection=40 if $$dataref=~/^Utilization/;
$nvidiaSection=50 if $$dataref=~/^Ecc Mode/;
$nvidiaSection=60 if $$dataref=~/^ECC Errors/;
$nvidiaSection=70 if $$dataref=~/^Temperature/;
$nvidiaSection=80 if $$dataref=~/^Power Readings/;
$nvidiaSection=90 if $$dataref=~/^Clocks/;
# for now we only care about Fan, Utiliztion and Temp
return if $nvidiaSection!=20 && $nvidiaSection!=40 && $nvidiaSection!=70;
my $i=$nvidiaGpuNum;
$nvidiaFan[$i]=$1 if $nvidiaSection==20 && $$dataref=~/^Fan.*?(\d+)/;
$nvidiaGpuUtil[$i]=$1 if $nvidiaSection==40 && $$dataref=~/^Gpu.*: (\d+)/;
$nvidiaMemUtil[$i]=$1 if $nvidiaSection==40 && $$dataref=~/^Memory.*?(\d+)/;
if ($nvidiaSection==70 && $$dataref=~/^Gpu.*?(\d+)/)
{
$nvidiaTemp[$i]=$1;
$nvidiaLastValFlag=1;
}
}
# We can only do initialization and update totals when we see last data element (actually
# we could have updated the totals as each element seen but this is a little easier.
if ($nvidiaLastValFlag)
{
my $i=$nvidiaGpuNum;
# These only done once/interval, not per GPU
$nvidiaTempTot=$nvidiaFanTot=$nvidiaGpuUtilTot=$nvidiaMemUtilTot=0 if $i==0;
$nvidiaTempTot+= $nvidiaTemp[$i];
$nvidiaFanTot+= $nvidiaFan[$i];
# $nvidiaGpuUtilTot+=$nvidiaGpuUtil[$i];
# $nvidiaMemUtilTot+=$nvidiaMemUtil[$i];
}
}
sub nvidiaPrintBrief
{
my $type=shift;
my $lineref=shift;
# DReyeVR edits here, added explicit call to nvidia-smi querying gpu/memory utilization
$nvidiaGpuUtilTot=`nvidia-smi --query-gpu=utilization.gpu --format=csv,noheader,nounits`;
$nvidiaMemUtilTot=`nvidia-smi --query-gpu=utilization.memory --format=csv,noheader,nounits`;
if ($type==1) # header line 1
{
$$lineref.="<------nvidia------->";
}
elsif ($type==2) # header line 2
{
$$lineref.=" Temp Fan% Gpu% Mem% ";
}
elsif ($type==3) # data
{
my $num=$nvidiaNumGpus;
$$lineref.=sprintf(" %4d %4d %4d %4d ",
$nvidiaTempTot/$num, $nvidiaFanTot/$num, $nvidiaGpuUtilTot/$num, $nvidiaMemUtilTot/$num);
}
elsif ($type==4) # reset 'total' counters
{
$nvidiaTempTOT=$nvidiaFanTOT=$nvidiaGpuUtilTOT=$nvidiaMemUtilTOT=0;
}
elsif ($type==5) # increment 'total' counters
{
$nvidiaTempTOT+= $nvidiaTempTot;
$nvidiaFanTOT+= $nvidiaFanTot;
$nvidiaGpuUtilTOT+=$nvidiaGpuUtilTot;
$nvidiaMemUtilTOT+=$nvidiaMemUtilTot;
}
elsif ($type==6) # print 'total' counters
{
my $num=$nvidiaNumGpus;
printf(" %4d %4d %4d %4d ",
int($nvidiaTempTOT/$num/$miniInstances), int($nvidiaFanTOT/$num/$miniInstances),
int($nvidiaGpuUtilTOT/$num/$miniInstances), int($nvidiaMemUtilTOT/$num/$miniInstances));
}
}
sub nvidiaPrintVerbose
{
my $printHeader=shift;
my $homeFlag= shift;
my $lineref= shift;
# DReyeVR edits here, added explicit call to nvidia-smi querying gpu/memory utilization
$nvidiaGpuUtilTot=`nvidia-smi --query-gpu=utilization.gpu --format=csv,noheader,nounits`;
$nvidiaMemUtilTot=`nvidia-smi --query-gpu=utilization.memory --format=csv,noheader,nounits`;
if ($nvidiaOpts=~/s/)
{
my $line='';
if ($printHeader)
{
$line.="\n" if !$homeFlag;
$line.="# GPU STATISTICS\n";
$line.="#$miniFiller Temp Fan% GPU% Mem%\n";
}
my $num=$nvidiaNumGpus;
$$lineref=$line;
$$lineref.=sprintf("$datetime %3d %3d %3d %3d\n",
int($nvidiaTempTot/$num), int($nvidiaFanTot/$num),
int($nvidiaGpuUtilTot/$num), int($nvidiaMemUtilTot/$num));
}
if ($nvidiaOpts=~/d/)
{
my $line='';
if ($printHeader)
{
$line.="\n" if !$homeFlag;
$line.="# GPU DETAIL\n";
$line.="#$miniFiller Num Temp Fan% GPU% Mem%\n";
}
$$lineref=$line;
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{
$$lineref.=sprintf("$datetime %3d %3d %3d %3d %3d\n",
$i, $nvidiaTemp[$i], $nvidiaFan[$i], $nvidiaGpuUtil[$i], $nvidiaMemUtil[$i])
}
}
}
sub nvidiaPrintPlot
{
my $type= shift;
my $ref1= shift;
# DReyeVR edits here, added explicit call to nvidia-smi querying gpu/memory utilization
$nvidiaGpuUtilTot=`nvidia-smi --query-gpu=utilization.gpu --format=csv,noheader,nounits`;
$nvidiaMemUtilTot=`nvidia-smi --query-gpu=utilization.memory --format=csv,noheader,nounits`;
# H e a d e r s
# Summary
if ($type==1 && $nvidiaOpts=~/s/)
{
$$ref1.="[NVIDIA]Temp${SEP}[NVIDIA]Fan${SEP}[NVIDIA]Gpu${SEP}[NVIDIA]Mem${SEP}"
}
# Detail
if ($type==2 && $nvidiaOpts=~/d/)
{
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{
$$ref1.="[NVIDIA:$i]Temp${SEP}[NVIDIA:$i]Fan${SEP}[NVIDIA:$i]Gpu${SEP}[NVIDIA:$i]Mem${SEP}"
}
}
# D a t a
# Summary
if ($type==3 && $nvidiaOpts=~/s/)
{
my $num=$nvidiaNumGpus;
$$ref1.=sprintf("$SEP%d$SEP%d$SEP%d$SEP%d",
$nvidiaTempTot/$num, $nvidiaFanTot/$num, $nvidiaGpuUtilTot/$num, $nvidiaMemUtilTot/$num)
}
# Detail
if ($type==4 && $nvidiaOpts=~/d/)
{
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{
$$ref1.=sprintf("$SEP%d$SEP%d$SEP%d$SEP%d",
$nvidiaTemp[$i], $nvidiaFan[$i], $nvidiaGpuUtil[$i], $nvidiaMemUtil[$i]);
}
}
}
sub nvidiaPrintExport
{
my $type= shift;
my $ref1= shift;
my $ref2= shift;
my $ref3= shift;
# DReyeVR edits here, added explicit call to nvidia-smi querying gpu/memory utilization
$nvidiaGpuUtilTot=`nvidia-smi --query-gpu=utilization.gpu --format=csv,noheader,nounits`;
$nvidiaMemUtilTot=`nvidia-smi --query-gpu=utilization.memory --format=csv,noheader,nounits`;
# counters are only returned based on "i=" or default of 60 seconds
return if !$nvidiaAllFlag && (($nvidiaSampleCounter-1) % $nvidiaImportCount)!=0;
if ($nvidiaOpts=~/s/)
{
if ($type eq 'l')
{
push @$ref1, "nvidia.temp"; push @$ref2, sprintf("%d", $nvidiaTempTot/$nvidiaNumGpus);
push @$ref1, "nvidia.fan"; push @$ref2, sprintf("%d", $nvidiaFanTot/$nvidiaNumGpus);
push @$ref1, "nvidia.gpu"; push @$ref2, sprintf("%d", $nvidiaGpuUtilTot/$nvidiaNumGpus);
push @$ref1, "nvidia.mem"; push @$ref2, sprintf("%d", $nvidiaMemUtilTot/$nvidiaNumGpus);
}
elsif ($type eq 's')
{
my $num=$nvidiaNumGpus;
$$ref1.=sprintf("(nvidiatot (temp %d)(fan %d)(gpu %d)(mem %d))\n",
$nvidiaTempTot/$num, $nvidiaFanTot/$num, $nvidiaGpuUtilTot/$num, $nvidiaMemUtilTot/$num);
}
elsif ($type eq 'g')
{
push @$ref2, 'pct', 'pct', 'pct', 'pct';
push @$ref1, "nvidia.temp"; push @$ref3, sprintf("%d", $nvidiaTempTot/$nvidiaNumGpus);
push @$ref1, "nvidia.fan"; push @$ref3, sprintf("%d", $nvidiaFanTot/$nvidiaNumGpus);
push @$ref1, "nvidia.gpu"; push @$ref3, sprintf("%d", $nvidiaGpuUtilTot/$nvidiaNumGpus);
push @$ref1, "nvidia.mem"; push @$ref3, sprintf("%d", $nvidiaMemUtilTot/$nvidiaNumGpus);
}
}
if ($nvidiaOpts=~/d/)
{
if ($type=~/[gl]/)
{
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{
if ($type eq 'l')
{
push @$ref1, "nvidia.temp$i"; push @$ref2, sprintf("%d", $nvidiaTemp[$i]);
push @$ref1, "nvidia.fan$i"; push @$ref2, sprintf("%d", $nvidiaFan[$i]);
push @$ref1, "nvidia.gpu$i"; push @$ref2, sprintf("%d", $nvidiaGpuUtil[$i]);
push @$ref1, "nvidia.mem$i"; push @$ref2, sprintf("%d", $nvidiaMemUtil[$i]);
}
elsif ($type eq 'g')
{
push @$ref2, 'pct', 'pct', 'pct', 'pct';
push @$ref1, "nvidia.temp$i"; push @$ref3, sprintf("%d", $nvidiaTemp[$i]);
push @$ref1, "nvidia.fan$i"; push @$ref3, sprintf("%d", $nvidiaFan[$i]);
push @$ref1, "nvidia.gpu$i"; push @$ref3, sprintf("%d", $nvidiaGpuUtil[$i]);
push @$ref1, "nvidia.mem$i"; push @$ref3, sprintf("%d", $nvidiaMemUtil[$i]);
}
}
}
elsif ($type eq 's')
{
$$ref2.="(nvidiainfo\n";
$$ref2.=" (num";
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{ $$ref2.=" $i"; }
$$ref2.=")\n";
my ($temp, $fan, $gpu, $mem)=('','','','');
for (my $i=0; $i<$nvidiaNumGpus; $i++)
{
$temp.=" $nvidiaTemp[$i]";
$fan.= " $nvidiaFan[$i]";
$gpu.= " $nvidiaGpuUtil[$i]";
$mem.= " $nvidiaMemUtil[$i]";
}
$$ref2.=" (temp$temp)\n";
$$ref2.=" (fan$fan)\n";
$$ref2.=" (gpu$gpu)\n";
$$ref2.=" (mem$mem))\n";
}
}
}
1;