/usr/bin/cpupcstat is in hugepages 2.19-0ubuntu1.
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# This script starts a requested application after setting up oprofile to
# collect TLB miss data. It will use this data to calculate the TLB
# apporximate TLB miss rate.
# Licensed under LGPL 2.1 as packaged with libhugetlbfs
# (c) Eric Munson 2009
use Getopt::Long;
use FindBin qw($Bin);
use lib "$Bin";
use POSIX ":sys_wait_h";
use TLBC::OpCollect;
use TLBC::PerfCollect;
use strict;
my ($arch, $cputype);
my $vmlinux;
my $target;
my $real_target;
my $target_pid;
my $target_global;
my $misses;
my $instructions = 0;
my $cycles = 0;
my $kern_misses;
my $time_elapsed;
my $wait_time = 10;
my $time_limit;
my $persist = 0;
my $instruct_ratio;
my $cycle_ratio;
my $service;
my $config;
my $cost_in_cycles = 0;
my $kernel;
my $force_oprofile;
my $collector;
my $miss_scale = 0;
my $ins_scale = 0;
my $cyc_scale = 0;
sub calc_tlbmiss_cost()
{
my $cost_script = `which tlbmiss_cost.sh`;
if ($cost_script eq "") {
$cost_script = "$Bin/contrib/tlbmiss_cost.sh";
}
my $data = `$cost_script --vmlinux $vmlinux`;
($data,$cost_in_cycles) = split(/\=/, $data);
chomp($cost_in_cycles);
}
sub start_target()
{
my $pid = fork();
if (not defined $pid) {
die "Failed to fork\n";
} elsif ($pid == 0) {
exec $target or die "Failed to exec '$target'\n";
} else {
return($pid);
}
}
sub run_profile()
{
my $start_time;
my $end_time;
my @results;
my $binName;
my $pid;
my $ret;
my $prev = 0;
my $kern_prev = 0;
my $ins_new = 0;
my $ins_prev = 0;
my $cyc_new = 0;
my $cyc_prev = 0;
my $new;
my @events;
if ($force_oprofile) {
$collector = TLBC::OpCollect->new();
} else {
$collector = TLBC::PerfCollect->new();
}
push(@events, "dtlb_miss");
if ($instruct_ratio) {
push(@events, "instructions");
}
if ($cycle_ratio || $service) {
push(@events, "timer");
}
$start_time = time();
if ($collector->setup($vmlinux, \@events) == 0) {
$collector = TLBC::OpCollect->new();
if ($force_oprofile ||
$collector->setup($vmlinux, \@events) == 0) {
die("Unable to setup data collector");
}
}
if (defined $target_pid) {
$target = readlink("/proc/$target_pid/exe");
chomp($target);
$binName = $target;
$pid = $target_pid;
} elsif (defined $target) {
if (defined $real_target) {
$binName = $real_target;
} else {
@results = split(/ /, $target);
$binName = $results[0];
}
$pid = start_target();
} elsif (defined $target_global) {
$binName='/';
$pid = $$;
}
$binName = `basename $binName`;
chomp($binName);
printf("%15s%18s%19s", "Target Name", "DTLB Miss Samples",
"Samples/second");
$miss_scale = $collector->samples("dtlb_miss");
if ($instruct_ratio) {
printf("%24s\n", "Instructions/TLB Miss\n");
$ins_scale = $collector->samples("instructions");
} elsif ($cycle_ratio) {
printf("%24s\n", "Cycles/TLB Miss\n");
$cyc_scale = $collector->samples("timer");
} elsif ($service) {
printf("%24s\n", "TLB Miss %age Time\n");
$cyc_scale = $collector->samples("timer");
} else {
print("\n");
}
printf("%15s%18s%19s\n", "", "Sample every " . $collector->samples("dtlb_miss"), "");
sleep($wait_time);
# While our target is still running and we have not exceeded our
# runtime, collect oprofile data every $wait_time seconds to display
# the dtlb miss rate.
while (waitpid($pid, WNOHANG) <= 0 || $persist) {
$collector->read_eventcount();
$ret = $collector->get_current_eventcount($binName, "dtlb_miss");
$new = $ret - $prev;
printf("%15s%18d%19f", $binName, $new, $new / $wait_time);
$prev = $ret;
if ($instruct_ratio) {
$ret = $collector->get_current_eventcount($binName,
"instructions");
$ins_new = $ret - $ins_prev;
if ($new == 0) {
printf("%24f\n", $new);
} else {
printf("%24f\n",
($ins_new * $ins_scale) / ($new * $miss_scale));
}
$ins_prev = $ret;
} elsif ($cycle_ratio) {
$ret = $collector->get_current_eventcount($binName,
"timer");
$cyc_new = $ret - $cyc_prev;
if ($new == 0) {
printf("%24f\n", $new);
} else {
printf("%24f\n",
($cyc_new * $cyc_scale) / ($new * $miss_scale));
}
$cyc_prev = $ret;
} elsif ($service) {
$ret = $collector->get_current_eventcount($binName,
"timer");
$cyc_new = $ret - $cyc_prev;
my $miss_cycles = $new * $cost_in_cycles * $miss_scale;
my $total_cycles = $cyc_new * $cyc_scale;
printf "%24.4f%%\n", $miss_cycles * 100/$total_cycles;
$cyc_prev = $ret;
} else {
print("\n");
}
if ($kernel) {
$ret = $collector->get_current_eventcount("vmlinux", "dtlb_miss");
$new = $ret - $kern_prev;
printf("%15s%18d%19f\n", "vmlinux", $new,
$new / $wait_time);
$kern_prev = $ret;
}
$end_time = time();
$time_elapsed = $end_time - $start_time;
if (defined $time_limit && $time_elapsed > $time_limit) {
last;
}
sleep($wait_time);
}
$end_time = time();
$time_elapsed = $end_time - $start_time;
$collector->read_eventcount();
$misses = $collector->get_current_eventcount($binName, "dtlb_miss");
if ($instruct_ratio) {
$instructions = $collector->get_current_eventcount($binName, "instructions");
}
if ($cycle_ratio || $service) {
$cycles = $collector->get_current_eventcount($binName, "timer");
}
if ($kernel) {
$kern_misses = $collector->get_current_eventcount("vmlinux", "dtlb_miss");
}
$collector->shutdown();
}
sub get_target()
{
$target .= $_[0] . " ";
}
sub print_usage()
{
print "Usage: cpupcstat [options] target
Options:
--vmlinux /path/to/vmlinux Sets the vmlinux file to use
--delay N Waits N seconds before rereading the
miss rate
--target-global Watch the miss rate of all processes
--target-pid P Watch the miss rate of P instead of a target
--real-target T Watch T instead of target in case target is
a launcher script
--time-limit L Sets a time limit for watching the target
--kernel Output DTLB miss data for the kernel as well
as the specified target
--time-servicing Print the percentage of time servicing TLB
misses
--misses-per-instruction Prints the ratio of TLB misses per
instruction retired
--misses-per-cycle Prints the ratio of TLB misses per CPU cycle
--force-oprofile The perf tool is prefered for data
collection with oprofile as the fall back,
force oprofile usage instead
--help prints this message
Note: If --target-pid is specified, target will be ignored.\n";
exit(0);
}
sub exit_cleanup()
{
my $collector = TLBC::OpCollect->new();
$collector->shutdown();
exit(0);
}
use sigtrap 'handler' => \&exit_cleanup, 'INT';
Getopt::Long::Configure ('bundling');
GetOptions ('v|vmlinux=s' => \$vmlinux,
'h|help' => \&print_usage,
'd|delay=i' => \$wait_time,
'g|target-global' => \$target_global,
'p|target-pid=i' => \$target_pid,
'r|real-target=s' => \$real_target,
'l|time-limit=i' => \$time_limit,
'k|kernel' => \$kernel,
'i|misses-per-instruction' => \$instruct_ratio,
'c|misses-per-cycle' => \$cycle_ratio,
't|time-servicing' => \$service,
'C|cost-config=s' => \$config,
'o|force-oprofile' => \$force_oprofile,
's|persist' => \$persist,
'<>' => \&get_target);
if (!$target && !$target_global && not defined $target_pid) {
print_usage();
}
if (!$vmlinux) {
$vmlinux = "/boot/vmlinux-" . `uname -r`;
}
chomp($vmlinux);
if ($target) {
chomp($target);
}
if ($service) {
calc_tlbmiss_cost();
}
$misses = 0;
$kern_misses = 0;
run_profile();
if ($misses > 0) {
print("\n$target saw $misses total DTLB miss samples over ",
"$time_elapsed seconds\n");
print("at rate of ", $misses / $time_elapsed, " samples/second\n");
$misses *= $miss_scale;
$cycles *= $cyc_scale;
$instructions *= $ins_scale;
if ($instruct_ratio && $instructions > 0) {
print("The ratio of instructions retired per TLB miss was ",
$instructions / $misses, "\n");
}
if ($cycle_ratio && $cycles > 0) {
print("The ratio of cycles per TLB miss was ",
$cycles / $misses, "\n");
}
if ($service && $cycles > 0) {
if ($cost_in_cycles <= 0) {
calc_tlbmiss_cost();
}
my $total_cost = $cost_in_cycles * $misses;
print("$target spent ",
$total_cost / $cycles * 100,
"% of its CPU cycles servicing\nTLB misses\n");
}
}
if ($kern_misses > 0) {
print("The kernel saw $kern_misses total DTLB miss samples over ",
"$time_elapsed seconds\n");
print("at rate of ", $kern_misses / $time_elapsed, " samples/second\n");
}
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