tools/extract-stats.pl - external/github.com/DynamoRIO/dynamorio - Git at Google

 #!/usr/bin/perl -w

 # **********************************************************
 # Copyright (c) 2004 VMware, Inc.  All rights reserved.
 # **********************************************************

 # 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.
 #
 # * Neither the name of VMware, Inc. nor the names of its contributors may be
 #   used to endorse or promote products derived from this software without
 #   specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 # ARE DISCLAIMED. IN NO EVENT SHALL VMWARE, INC. OR CONTRIBUTORS BE LIABLE
 # FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 # DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 # SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 # CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 # OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
 # DAMAGE.

 ### extract-stats.pl
 ###
 ### Summarize data gathered from DR logs under the various loglevels


 sub init_tag($$) {

     my($tag, $rate) = @_;

     $marker_hash{$tag} = $marker_count++;
     $rate_hash{$tag} = $rate;
 }


 sub init_syscall_tags() {

     init_tag("System calls, pre", 1);
     init_tag("System calls, post", 1);

 }


 sub init_security_tags() {

     init_tag("Return after call total validations", 1);

 }


 sub init_cache_exits_tags() {

     init_tag("Fcache exits, total", 1);
     init_tag("Fcache exits, from traces", 1);
     init_tag("Fcache exits, from BBs", 1);
     init_tag("Fcache exits, total indirect branches", 1);
     init_tag("Fcache exits, total direct branches", 1);
     init_tag("Fcache exits, non-trace indirect branches", 1);
     init_tag("Fcache exits, ind target not in cache", 1);
     init_tag("Fcache exits, ind target extending a trace, BAD", 1);
     init_tag("Fcache exits, ind target in cache but not table", 1);
     init_tag("Fcache exits, from BB, ind target ...", 1);
     init_tag("Fcache exits, BB->BB, ind target ...", 1);
     init_tag("Fcache exits, BB->BB, ind back target ...", 1);
     init_tag("Fcache exits, BB->trace, ind target ...", 1);
     init_tag("Fcache exits, from trace, ind target ...", 1);
     init_tag("Fcache exits, trace->trace, ind target ...", 1);
     init_tag("Fcache exits, trace->BB, ind target ...", 1);
     init_tag("Fcache exits, indirect calls", 1);
     init_tag("Fcache exits, indirect jmps", 1);
     init_tag("Fcache exits, returns", 1);
     init_tag("Fcache exits, returns from traces", 1);
     init_tag("Fcache exits, dir target not in cache", 1);
     init_tag("Fcache exits, link not allowed", 1);
     init_tag("Fcache exits, target trace head", 1);
     init_tag("Fcache exits, extending a trace", 1);
     init_tag("Fcache exits, no link shared <-> private", 1);
     init_tag("Fragments generated, bb and trace", 1);
     init_tag("Trace fragments generated", 1);
     init_tag("Trace wannabes prevented from being traces", 1);
     init_tag("Future fragments generated", 1);
     init_tag("Shared fragments generated", 1);
     init_tag("Private fragments generated", 1);
     init_tag("Shared future fragments generated", 1);
     init_tag("Unique fragments generated", 1);
     init_tag("Fragments deleted for any reason", 1);
     init_tag("Fragments deleted due to capacity conflicts", 1);
     init_tag("Fragments deleted and replaced with traces", 1);
     init_tag("Fragments regenerated in cache", 1);
     init_tag("Trace fragments extended", 1);
     init_tag("Trace fragments extended, ibl exits updated", 1);
     init_tag("Patched fragments", 1);
     init_tag("Patched relocation slots", 1);
     init_tag("Branches linked, direct", 1);
     init_tag("Branches linked, indirect", 1);

 }


 sub init_cache_memory_tags() {

     init_tag("Fcache trace space claimed \\(bytes\\)", 0);
     init_tag("Fcache trace space used \\(bytes\\)", 0);
     init_tag("Fcache trace peak used \\(bytes\\)", 0);
     init_tag("Fcache trace headers \\(bytes\\)", 0);
     init_tag("Fcache trace fragment bodies \\(bytes\\)", 0);
     init_tag("Fcache trace direct exit stubs \\(bytes\\)", 0);
     init_tag("Fcache trace indirect exit stubs \\(bytes\\)", 0);
     init_tag("Fcache trace fragment prefixes \\(bytes\\)", 0);
     init_tag("Fcache trace align space \\(bytes\\)", 0);
     init_tag("Fcache bb capacity \\(bytes\\)", 0);
     init_tag("Fcache bb space claimed \\(bytes\\)", 0);
     init_tag("Fcache bb space used \\(bytes\\)", 0);
     init_tag("Fcache bb peak used \\(bytes\\)", 0);
     init_tag("Fcache bb headers \\(bytes\\)", 0);
     init_tag("Fcache bb fragment bodies \\(bytes\\)", 0);
     init_tag("Fcache bb indirect exit stubs \\(bytes\\)", 0);
     init_tag("Fcache bb align space \\(bytes\\)", 0);
     init_tag("Fcache shared capacity \\(bytes\\)", 0);
     init_tag("Fcache shared space claimed \\(bytes\\)", 0);
     init_tag("Fcache shared space used \\(bytes\\)", 0);
     init_tag("Fcache shared peak used \\(bytes\\)", 0);
     init_tag("Fcache shared headers \\(bytes\\)", 0);
     init_tag("Fcache shared fragment bodies \\(bytes\\)", 0);
     init_tag("Fcache shared direct exit stubs \\(bytes\\)", 0);
     init_tag("Fcache shared indirect exit stubs \\(bytes\\)", 0);
     init_tag("Fcache shared align space \\(bytes\\)", 0);
     init_tag("Fcache combined claimed \\(bytes\\)", 0);
     init_tag("Fcache combined capacity \\(bytes\\)", 0);
     init_tag("Peak fcache combined capacity \\(bytes\\)", 0);

 }


 sub init_memory_tags() {

     init_tag("Heap headers \\(bytes\\)", 0);
     init_tag("Total memory from OS", 0);
     init_tag("Peak total memory from OS", 0);
     init_tag("Stack capacity \\(bytes\\)", 0);
     init_tag("Peak stack capacity \\(bytes\\)", 0);
     init_tag("Mmap capacity \\(bytes\\)", 0);
     init_tag("Peak mmap capacity \\(bytes\\)", 0);
     init_tag("Heap capacity \\(bytes\\)", 0);
     init_tag("Peak heap capacity \\(bytes\\)", 0);
     init_tag("Total memory from OS", 0);
     init_tag("Peak total memory from OS", 0);
     init_tag("Our library space \\(bytes\\)", 0);
     init_tag("Application reserved-only capacity \\(bytes\\)", 0);
     init_tag("Peak application reserved-only capacity \\(bytes\\)", 0);
     init_tag("Application committed capacity \\(bytes\\)", 0);
     init_tag("Peak application committed capacity \\(bytes\\)", 0);
     init_tag("Application stack capacity \\(bytes\\)", 0);
     init_tag("Peak application stack capacity \\(bytes\\)", 0);
     init_tag("Application heap capacity \\(bytes\\)", 0);
     init_tag("Peak application heap capacity \\(bytes\\)", 0);
     init_tag("Application image capacity \\(bytes\\)", 0);
     init_tag("Peak application image capacity \\(bytes\\)", 0);
     init_tag("Application mmap capacity \\(bytes\\)", 0);
     init_tag("Peak application mmap capacity \\(bytes\\)", 0);
     init_tag("Application executable capacity \\(bytes\\)", 0);
     init_tag("Peak application executable capacity \\(bytes\\)", 0);
     init_tag("Application read-only capacity \\(bytes\\)", 0);
     init_tag("Peak application read-only capacity \\(bytes\\)", 0);
     init_tag("Application writable capacity \\(bytes\\)", 0);
     init_tag("Peak application writable capacity \\(bytes\\)", 0);
     init_tag("Total \\(app + us\\) virtual size \\(bytes\\)", 0);
     init_tag("Peak total \\(app + us\\) virtual size \\(bytes\\)", 0);
     init_tag("Application virtual size \\(bytes\\)", 0);
     init_tag("Peak application virtual size \\(bytes\\)", 0);
     init_tag("Our additional virtual size \\(bytes\\)", 0);
     init_tag("Peak our additional virtual size \\(bytes\\)", 0);
     init_tag("Our commited capacity \\(bytes\\)", 0);
     init_tag("Our peak commited capacity \\(bytes\\)", 0);
     init_tag("Our reserved capacity \\(bytes\\)", 0);
     init_tag("Our peak reserved capacity \\(bytes\\)", 0);
     init_tag("App unallocatable free space", 0);
     init_tag("Peak app unallocatable free space", 0);
     init_tag("Our unallocatable free space", 0);
     init_tag("Our peak unallocatable free space", 0);
     init_tag("Total unallocatable free space", 0);
     init_tag("Peak total unallocatable free space", 0);
     init_tag("Number of unaligned allocations \\(TEB's etc.\\)", 0);
     init_tag("Peak unaligned allocations", 0);
 }


 sub process_snapshot($$) {

     my($verbose, $line) = @_;

     if ($verbose) {
         print STDERR "Digest $line...\n";
     }

     # Bypass the "** statistics @<fragment count>" line.
     if ($line =~ /^(All|Thread) statistics @[0-9]/) {
         if ($verbose) {
             print STDERR "Bypass $line\n";
         }
         return;
     }

     my $found = 0;
     my $key;
     my $value;

     $lines[ $line_count++ ] = $line;
     while (($key, $value) = each %marker_hash) {
         if ($found == 1) {
             next;
         }
         if ($verbose) {
             print STDERR "Check for \"$key\" in line $.: $line\n";
         }

         # XXX Match thread stats also...
         #if ($line =~ /^[ ]*${key}[ ]+:[ ]+(\d+)/) {
         if ($line =~ /^[ ]*${key}[ ]+(\(thread\))?:[ ]+(\d+)/) {
         #if ($line =~ /^[ ]*${key}/ && /:[ ]+(\d+)/) {

             # Adjust for processing thread-private log files.
             my $counter = defined($2) ? $2 : $1;
             if ($verbose) {
                 print STDERR "Count for $key is $counter\n";
             }

             # XXX Tried to put the substr call in the parens but
             # it wouldn't work.
             #if ($line eq "(") {
             #    if ($verbose) {
             #        print STDERR "THREAD log\n";
             #    }
             #}
             # Now update the table
             $counter_array[$value][$snapshot_opens] = $counter;
             $valid{$key} = 1;
             if ($verbose) {
                 print STDERR "Update counter for $key => $value, " .
                     "$snapshot_opens with $counter\n";
             }
             # We don't 'last' out of the loop because we'd have
             # to reset the hash iter using 'keys' on the next
             # key match. And keys could be a sort underneath, which
             # is costlier than continuing the loop, which is
             # linear.
             $found = 1;
         }
     }
 }

 sub prepare_stats($$$) {

     my $i;
     my($limit, $value, $rate) = @_;

     # Clean up undefined values.
     for ($i = 0; $i < $limit - 1; $i++) {
         if (!defined($counter_array[$value][$i])) {
             $counter_array[$value][$i] = 0;
         }
     }

     # We don't track non-rate stats incrementally.
     if ($rate) {
         $avg_rate = $counter_array[$value][$limit - 1] /
             int($snapshot_times[$limit - 1] / 1000000);
         for ($i = $limit - 1; $i > 0; $i--) {
             $counter_array[$value][$i] -= $counter_array[$value][$i-1];
             $rate_array[$value][$i] =
                 ($counter_array[$value][$i] - $counter_array[$value][$i-1]) /
                 $snapshot_times[$i];
         }
     }
 }

 sub numerically { $a <=> $b; }

 sub compute_stats($$$$) {

     my $i;
     my($limit, $key, $value, $rate) = @_;
     my $start_index = $limit > 2 ? 1 : 0;

     # Sort the counter array and store the max and median. Don't count
     # the first counter as it's often artificially high.
     @sorted_counters = sort numerically
         @{ $counter_array[$value] } [$start_index..$limit - 1];
     $max_val = $sorted_counters[$limit - ($limit > 2 ? 2 : 1)];
     $median_val = $sorted_counters[$median_index];

     # XXX Figure out how to sort this and use an array of structs
     $prev_time = $max_rate = $max_time = $max_rate_time = 0;

     @rate_array = ();

     for ($i = $start_index; $i < $limit; $i++) {
         $curr_time = $snapshot_times[$i];
         $count = $counter_array[$value][$i];

         # Find the largest value.
         if ($count == $max_val) {
             $max_time = $curr_time;
         }

         # Find the largest rate.
         if ($rate) {
             # If the delta is too small, don't compute a rate.
             if ($curr_time - $prev_time == 0) {
                 next;
             }
             $current_rate = int(1000000 * $count / ($curr_time - $prev_time));
             if ($current_rate > $max_rate) {
                 $max_rate = $current_rate;
                 $max_rate_time = $curr_time;
             }
             $rate_array[$i] = $current_rate;
             $prev_time = $curr_time;
         }
     }

     # Sort the rate array and store the max and median. Don't count
     # the first counter as it's not computed.
     for ($i = $start_index; $i < $limit; $i++) {
         if (!defined($rate_array[$i])) {
             $rate_array[$i] = 0;
         }
     }

     if ($rate) {
         @sorted_rates = sort numerically
             @rate_array [$start_index..$limit - 1];
         $max_rate = $sorted_rates[$limit - 2];
         $median_rate = $sorted_rates[$median_index];
     }
 }

 sub print_stats($$$$$) {

     my $i;
     my $currtime;
     my $prevtime = 0;
     my($rate, $value, $details, $limit, $raw) = @_;

     if (!$raw && $rate) {
         printf "\tmax rate = $max_rate [snapshot = " .
             int($max_rate_time / 1000000) . "], median rate = $median_rate" .
             ", avg rate = " . int($avg_rate) . "\n"
     }
     elsif ($raw) {
         print "$key raw data\n";
     }

     if ($details || $raw) {
         if ($rate) {
             printf "%15s %15s %15s\n", "Snapshot (us)", "Value", "Rate (/s)";
             printf "%15s %15s %15s\n", "==========", "==========",
             "==========";
         }
         else {
             printf "%15s %15s\n", "Snapshot (us)", "Value";
             printf "%15s %15s\n", "==========", "==========";
         }
         for ($i = 0; $i < $limit; $i++) {
             $currtime = $snapshot_times[$i];
             if ($raw && !defined($counter_array[$value][$i])) {
                 $counter_array[$value][$i] = 0;
             }
             printf "%15d %15d", "$currtime", "$counter_array[$value][$i]";
             if ($rate) {
                 printf " %15.2f", $counter_array[$value][$i] /
                     (($currtime - $prevtime)/1000000);
             }
             printf "\n";
             $prevtime = $currtime;
         }
     }
     print "\n";
 }


 ################## main() ################

 $usage = "Usage: $0 -v -d -cache_exits -cache_memory -memory <stats file>\n";

 $verbose = 0;
 $warning = 0;
 $details = 0;
 %marker_hash = ();
 %valid = ();
 %rate_hash = (); # tracks if a tag is a rate or not

 @counter_array = ();
 @rate_array = ();

 $catch_cache_exits = 1;
 $catch_syscalls = 1;
 $catch_security = 1;
 $catch_cache_memory = 0;
 $catch_memory = 0;

 while ($#ARGV >= 0) {
     if ($ARGV[0] eq "-v") {
         $verbose = 1;
     }
     elsif ($ARGV[0] eq "-w") {
         $warning = 1;
     }
     elsif ($ARGV[0] eq "-d") {
         $details = 1;
     }
     elsif ($ARGV[0] eq "-catch_syscalls") {
         $catch_syscalls = 1;
     }
     elsif ($ARGV[0] eq "-cache_exits") {
         $catch_cache_exits = 1;
     }
     elsif ($ARGV[0] eq "-cache_memory") {
         $catch_cache_memory = 1;
     }
     elsif ($ARGV[0] eq "-memory") {
         init_memory_tags();
     }
     else {
         $logfile = $ARGV[0];
     }
     shift;
 }
 if (!defined($logfile)) {
     print $usage;
     exit;
 }

 open(PROFILE, "< $logfile") || die "Error opening $logfile\n";

 if ($catch_security) {
     init_security_tags();
 }
 if ($catch_syscalls) {
     init_syscall_tags();
 }
 if ($catch_cache_exits) {
     init_cache_exits_tags();
 }
 if ($catch_cache_memory) {
     init_cache_memory_tags();
 }
 if ($catch_memory) {
     init_memory_tags();
 }

 if ($verbose) {
     print STDERR "# stats to match: $marker_count...\n";
 }

 print "Stats from logfile $logfile\n(All rates are in per s)\n";

 $marker_count = 0;

 $snapshot_opens = 0;
 $time_snapshot_start = 0;
 $fragment_snapshot_start = 0;

 # Buffer the lines pertaining to memory data
 @lines = ();
 $line_count = 0;

 while (<PROFILE>) {

     chop($_);

     if ($verbose) {
         print STDERR "Check line $. >>$_<<\n";
     }

     if (/^Begin stats @([0-9]+):([0-9]+):([0-9]+)$/) {
         if ($time_snapshot_start || $fragment_snapshot_start) {
             if ($warning) {
                 print STDERR "WARNING: Nested time stats detected, " .
                     "line $.!\n";
             }
             $snapshot_times[$snapshot_opens++] = $currtime;
         }
         $currtime = ($1 * 60 + $2) * 1000000 + $3;
         $time_snapshot_start = 1;
         $fragment_snapshot_start = 0;
         @lines = ();
         $line_count = 0;
         if ($verbose) {
             print STDERR "Begin time-based snapshot for $currtime " .
                 "\@line $.\n";
         }
     }
     # An alternative to pull out only the fragment count is
     # /^All statistics @([0-9]+)+ \([0-9]+:[0-9]+\.[0-9]+\)/
     elsif (/^All statistics @([0-9]+) \(([0-9]+):([0-9]+)\.([0-9]+)\)/) {
         if ($1 == 0 && $2 == 0 && $3 == 0 && $4 == 0) {
             if ($verbose) {
                 print STDERR "Skip 0-time 'All stats...'\n";
             }
             next;
         }
         elsif ($time_snapshot_start) { # time-based snapshot begin-marker
             if ($verbose) {
                 print STDERR "Skip 'All stats...', gathering time stats\n";
             }
             next;
         }
         else { # Open a snapshot
             if ($fragment_snapshot_start) {
                 if ($warning) {
                     print STDERR "WARNING: Nested fragment stats detected, " .
                         "line $.!\n";
                 }
                 $snapshot_times[$snapshot_opens++] = $currtime;
             }
             $currtime = ($2 * 60 + $3) * 1000000 + $4;
             $fragment_snapshot_start = 1;
             $time_snapshot_start = 0;
             @lines = ();
             $line_count = 0;
             if ($verbose) {
                 print STDERR "Begin fragment-based snapshot $currtime " .
                     "\@line $.\n";
             }
         }
     }
     elsif (/^Thread statistics @[0-9]+ global, ([0-9]+) thread fragments \(([0-9]+):([0-9]+)\.([0-9]+)\)/) { # Begin thread-private stats
         if ($1 == 0 && $2 == 0 && $3 == 0 && $4 == 0) {
             if ($verbose) {
                 print STDERR "Skip 0-time \"Thread statistics...\"\n";
             }
             next;
         }
         elsif ($time_snapshot_start) { # time-based snapshot begin-marker
             if ($verbose) {
                 print STDERR "Skip \"Thread statistics...\", " .
                     "gathering time stats\n";
             }
             next;
         }
         else { # Open a snapshot
             if ($fragment_snapshot_start) {
                 if ($warning) {
                     print STDERR "WARNING: Nested fragment stats detected, " .
                         "line $.!\n";
                 }
                 $snapshot_times[$snapshot_opens++] = $currtime;
             }
             $currtime = ($2 * 60 + $3) * 1000000 + $4;
             $fragment_snapshot_start = 1;
             $time_snapshot_start = 0;
             @lines = ();
             $line_count = 0;
             if ($verbose) {
                 print STDERR "Begin fragment-based snapshot $currtime " .
                     "\@line $.\n";
             }
         }
     }
     elsif (/^End stats/) { # We see a time-based snapshot end-marker
         if ($fragment_snapshot_start) {
             print STDERR "ERROR: fragment-based stats open, " .
                 "time-based trying to close, line $.!\n";
             die;
         }
         elsif (!$time_snapshot_start) {
             print STDERR "ERROR: no time-based stats open, " .
                 "time-based trying to close, line $.!\n";
             die;
         }
         else { # All is well, close this snapshot
             $snapshot_times[$snapshot_opens++] = $currtime;
             $time_snapshot_start = 0;
             if ($verbose) {
                 print STDERR "End time-based snapshot for $currtime\n";
             }
         }
     }
     # XXX Sometimes "/^[ ]+Peak our additional virtual size/" works??
     elsif (/^(Process|Thread) heap breakdown:$/) {
         #if (!$fragment_snapshot_start && !$time_snapshot_start) {
         #    print STDERR "ERROR: no stats window open, " .
         #        "fragment-based trying to close, line $.!\n";
         #    die;
         #}
         if ($fragment_snapshot_start) { # All is well, close this snapshot
             $snapshot_times[$snapshot_opens++] = $currtime;
             $fragment_snapshot_start = 0;
             if ($verbose) {
                 print STDERR "End fragment-based snapshot for $currtime\n";
             }
         }
     }

     elsif (/^(Process|Thread) heap breakdown:$/) {
         #if (!$fragment_snapshot_start && !$time_snapshot_start) {
         #    print STDERR "ERROR: no stats window open, " .
         #        "fragment-based trying to close, line $.!\n";
         #    die;
         #}
         if ($fragment_snapshot_start) { # All is well, close this snapshot
             $snapshot_times[$snapshot_opens++] = $currtime;
             $fragment_snapshot_start = 0;
             if ($verbose) {
                 print STDERR "End fragment-based snapshot for $currtime\n";
             }
         }
     }

     # We are reading a stats snapshot
     elsif ($fragment_snapshot_start || $time_snapshot_start) {
         if ($verbose) {
             print STDERR "Process line $_\n";
         }
         process_snapshot($verbose, $_);
     }
 }

 $median_index = $snapshot_opens / 2;

 # The times are in microseconds. Let's group by milliseconds.
 printf "# snapshots $snapshot_opens, median snapshot time " .
     int($snapshot_times[$median_index]/1000000) . "s\n\n";

 if ($snapshot_opens == 0) {
     print "No snapshots collected!\n";
     print STDERR "No snapshots collected!\n";
     exit;
 }

 foreach $key (sort keys %marker_hash) {

     if (!defined($valid{$key})) {
         if ($verbose) {
             print STDERR "Bypass $key, no stats gathered...\n";
         }
         next;
     }

     # Is this a rate-oriented stat? What's the index into the
     # counter table?
     $rate = $rate_hash{$key};
     $value = $marker_hash{$key};

     # print_stats($rate, $value, $details, $snapshot_opens, 1);

     prepare_stats($snapshot_opens, $value, $rate);
     compute_stats($snapshot_opens, $key, $value, $rate);

     if ($verbose) {
         print STDERR "Print summary for $key...\n";
     }

     print "$key: median = $median_val\n" .
         "max = $max_val [snapshot time = " . int($max_time / 1000000) .
         "s]\n";

     print_stats($rate, $value, $details, $snapshot_opens, 0);
 }
	#!/usr/bin/perl -w

	# **********************************************************
	# Copyright (c) 2004 VMware, Inc. All rights reserved.
	# **********************************************************

	# 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.
	#
	# * Neither the name of VMware, Inc. nor the names of its contributors may be
	# used to endorse or promote products derived from this software without
	# specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	# ARE DISCLAIMED. IN NO EVENT SHALL VMWARE, INC. OR CONTRIBUTORS BE LIABLE
	# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
	# DAMAGE.

	### extract-stats.pl
	###
	### Summarize data gathered from DR logs under the various loglevels


	sub init_tag($$) {

	my($tag, $rate) = @_;

	$marker_hash{$tag} = $marker_count++;
	$rate_hash{$tag} = $rate;
	}


	sub init_syscall_tags() {

	init_tag("System calls, pre", 1);
	init_tag("System calls, post", 1);

	}


	sub init_security_tags() {

	init_tag("Return after call total validations", 1);

	}


	sub init_cache_exits_tags() {

	init_tag("Fcache exits, total", 1);
	init_tag("Fcache exits, from traces", 1);
	init_tag("Fcache exits, from BBs", 1);
	init_tag("Fcache exits, total indirect branches", 1);
	init_tag("Fcache exits, total direct branches", 1);
	init_tag("Fcache exits, non-trace indirect branches", 1);
	init_tag("Fcache exits, ind target not in cache", 1);
	init_tag("Fcache exits, ind target extending a trace, BAD", 1);
	init_tag("Fcache exits, ind target in cache but not table", 1);
	init_tag("Fcache exits, from BB, ind target ...", 1);
	init_tag("Fcache exits, BB->BB, ind target ...", 1);
	init_tag("Fcache exits, BB->BB, ind back target ...", 1);
	init_tag("Fcache exits, BB->trace, ind target ...", 1);
	init_tag("Fcache exits, from trace, ind target ...", 1);
	init_tag("Fcache exits, trace->trace, ind target ...", 1);
	init_tag("Fcache exits, trace->BB, ind target ...", 1);
	init_tag("Fcache exits, indirect calls", 1);
	init_tag("Fcache exits, indirect jmps", 1);
	init_tag("Fcache exits, returns", 1);
	init_tag("Fcache exits, returns from traces", 1);
	init_tag("Fcache exits, dir target not in cache", 1);
	init_tag("Fcache exits, link not allowed", 1);
	init_tag("Fcache exits, target trace head", 1);
	init_tag("Fcache exits, extending a trace", 1);
	init_tag("Fcache exits, no link shared <-> private", 1);
	init_tag("Fragments generated, bb and trace", 1);
	init_tag("Trace fragments generated", 1);
	init_tag("Trace wannabes prevented from being traces", 1);
	init_tag("Future fragments generated", 1);
	init_tag("Shared fragments generated", 1);
	init_tag("Private fragments generated", 1);
	init_tag("Shared future fragments generated", 1);
	init_tag("Unique fragments generated", 1);
	init_tag("Fragments deleted for any reason", 1);
	init_tag("Fragments deleted due to capacity conflicts", 1);
	init_tag("Fragments deleted and replaced with traces", 1);
	init_tag("Fragments regenerated in cache", 1);
	init_tag("Trace fragments extended", 1);
	init_tag("Trace fragments extended, ibl exits updated", 1);
	init_tag("Patched fragments", 1);
	init_tag("Patched relocation slots", 1);
	init_tag("Branches linked, direct", 1);
	init_tag("Branches linked, indirect", 1);

	}


	sub init_cache_memory_tags() {

	init_tag("Fcache trace space claimed \\(bytes\\)", 0);
	init_tag("Fcache trace space used \\(bytes\\)", 0);
	init_tag("Fcache trace peak used \\(bytes\\)", 0);
	init_tag("Fcache trace headers \\(bytes\\)", 0);
	init_tag("Fcache trace fragment bodies \\(bytes\\)", 0);
	init_tag("Fcache trace direct exit stubs \\(bytes\\)", 0);
	init_tag("Fcache trace indirect exit stubs \\(bytes\\)", 0);
	init_tag("Fcache trace fragment prefixes \\(bytes\\)", 0);
	init_tag("Fcache trace align space \\(bytes\\)", 0);
	init_tag("Fcache bb capacity \\(bytes\\)", 0);
	init_tag("Fcache bb space claimed \\(bytes\\)", 0);
	init_tag("Fcache bb space used \\(bytes\\)", 0);
	init_tag("Fcache bb peak used \\(bytes\\)", 0);
	init_tag("Fcache bb headers \\(bytes\\)", 0);
	init_tag("Fcache bb fragment bodies \\(bytes\\)", 0);
	init_tag("Fcache bb indirect exit stubs \\(bytes\\)", 0);
	init_tag("Fcache bb align space \\(bytes\\)", 0);
	init_tag("Fcache shared capacity \\(bytes\\)", 0);
	init_tag("Fcache shared space claimed \\(bytes\\)", 0);
	init_tag("Fcache shared space used \\(bytes\\)", 0);
	init_tag("Fcache shared peak used \\(bytes\\)", 0);
	init_tag("Fcache shared headers \\(bytes\\)", 0);
	init_tag("Fcache shared fragment bodies \\(bytes\\)", 0);
	init_tag("Fcache shared direct exit stubs \\(bytes\\)", 0);
	init_tag("Fcache shared indirect exit stubs \\(bytes\\)", 0);
	init_tag("Fcache shared align space \\(bytes\\)", 0);
	init_tag("Fcache combined claimed \\(bytes\\)", 0);
	init_tag("Fcache combined capacity \\(bytes\\)", 0);
	init_tag("Peak fcache combined capacity \\(bytes\\)", 0);

	}


	sub init_memory_tags() {

	init_tag("Heap headers \\(bytes\\)", 0);
	init_tag("Total memory from OS", 0);
	init_tag("Peak total memory from OS", 0);
	init_tag("Stack capacity \\(bytes\\)", 0);
	init_tag("Peak stack capacity \\(bytes\\)", 0);
	init_tag("Mmap capacity \\(bytes\\)", 0);
	init_tag("Peak mmap capacity \\(bytes\\)", 0);
	init_tag("Heap capacity \\(bytes\\)", 0);
	init_tag("Peak heap capacity \\(bytes\\)", 0);
	init_tag("Total memory from OS", 0);
	init_tag("Peak total memory from OS", 0);
	init_tag("Our library space \\(bytes\\)", 0);
	init_tag("Application reserved-only capacity \\(bytes\\)", 0);
	init_tag("Peak application reserved-only capacity \\(bytes\\)", 0);
	init_tag("Application committed capacity \\(bytes\\)", 0);
	init_tag("Peak application committed capacity \\(bytes\\)", 0);
	init_tag("Application stack capacity \\(bytes\\)", 0);
	init_tag("Peak application stack capacity \\(bytes\\)", 0);
	init_tag("Application heap capacity \\(bytes\\)", 0);
	init_tag("Peak application heap capacity \\(bytes\\)", 0);
	init_tag("Application image capacity \\(bytes\\)", 0);
	init_tag("Peak application image capacity \\(bytes\\)", 0);
	init_tag("Application mmap capacity \\(bytes\\)", 0);
	init_tag("Peak application mmap capacity \\(bytes\\)", 0);
	init_tag("Application executable capacity \\(bytes\\)", 0);
	init_tag("Peak application executable capacity \\(bytes\\)", 0);
	init_tag("Application read-only capacity \\(bytes\\)", 0);
	init_tag("Peak application read-only capacity \\(bytes\\)", 0);
	init_tag("Application writable capacity \\(bytes\\)", 0);
	init_tag("Peak application writable capacity \\(bytes\\)", 0);
	init_tag("Total \\(app + us\\) virtual size \\(bytes\\)", 0);
	init_tag("Peak total \\(app + us\\) virtual size \\(bytes\\)", 0);
	init_tag("Application virtual size \\(bytes\\)", 0);
	init_tag("Peak application virtual size \\(bytes\\)", 0);
	init_tag("Our additional virtual size \\(bytes\\)", 0);
	init_tag("Peak our additional virtual size \\(bytes\\)", 0);
	init_tag("Our commited capacity \\(bytes\\)", 0);
	init_tag("Our peak commited capacity \\(bytes\\)", 0);
	init_tag("Our reserved capacity \\(bytes\\)", 0);
	init_tag("Our peak reserved capacity \\(bytes\\)", 0);
	init_tag("App unallocatable free space", 0);
	init_tag("Peak app unallocatable free space", 0);
	init_tag("Our unallocatable free space", 0);
	init_tag("Our peak unallocatable free space", 0);
	init_tag("Total unallocatable free space", 0);
	init_tag("Peak total unallocatable free space", 0);
	init_tag("Number of unaligned allocations \\(TEB's etc.\\)", 0);
	init_tag("Peak unaligned allocations", 0);
	}


	sub process_snapshot($$) {

	my($verbose, $line) = @_;

	if ($verbose) {
	print STDERR "Digest $line...\n";
	}

	# Bypass the "** statistics @<fragment count>" line.
	if ($line =~ /^(All\|Thread) statistics @[0-9]/) {
	if ($verbose) {
	print STDERR "Bypass $line\n";
	}
	return;
	}

	my $found = 0;
	my $key;
	my $value;

	$lines[ $line_count++ ] = $line;
	while (($key, $value) = each %marker_hash) {
	if ($found == 1) {
	next;
	}
	if ($verbose) {
	print STDERR "Check for \"$key\" in line $.: $line\n";
	}

	# XXX Match thread stats also...
	#if ($line =~ /^[ ]*${key}[ ]+:[ ]+(\d+)/) {
	if ($line =~ /^[ ]*${key}[ ]+(\(thread\))?:[ ]+(\d+)/) {
	#if ($line =~ /^[ ]*${key}/ && /:[ ]+(\d+)/) {

	# Adjust for processing thread-private log files.
	my $counter = defined($2) ? $2 : $1;
	if ($verbose) {
	print STDERR "Count for $key is $counter\n";
	}

	# XXX Tried to put the substr call in the parens but
	# it wouldn't work.
	#if ($line eq "(") {
	# if ($verbose) {
	# print STDERR "THREAD log\n";
	# }
	#}
	# Now update the table
	$counter_array[$value][$snapshot_opens] = $counter;
	$valid{$key} = 1;
	if ($verbose) {
	print STDERR "Update counter for $key => $value, " .
	"$snapshot_opens with $counter\n";
	}
	# We don't 'last' out of the loop because we'd have
	# to reset the hash iter using 'keys' on the next
	# key match. And keys could be a sort underneath, which
	# is costlier than continuing the loop, which is
	# linear.
	$found = 1;
	}
	}
	}

	sub prepare_stats($$$) {

	my $i;
	my($limit, $value, $rate) = @_;

	# Clean up undefined values.
	for ($i = 0; $i < $limit - 1; $i++) {
	if (!defined($counter_array[$value][$i])) {
	$counter_array[$value][$i] = 0;
	}
	}

	# We don't track non-rate stats incrementally.
	if ($rate) {
	$avg_rate = $counter_array[$value][$limit - 1] /
	int($snapshot_times[$limit - 1] / 1000000);
	for ($i = $limit - 1; $i > 0; $i--) {
	$counter_array[$value][$i] -= $counter_array[$value][$i-1];
	$rate_array[$value][$i] =
	($counter_array[$value][$i] - $counter_array[$value][$i-1]) /
	$snapshot_times[$i];
	}
	}
	}

	sub numerically { $a <=> $b; }

	sub compute_stats($$$$) {

	my $i;
	my($limit, $key, $value, $rate) = @_;
	my $start_index = $limit > 2 ? 1 : 0;

	# Sort the counter array and store the max and median. Don't count
	# the first counter as it's often artificially high.
	@sorted_counters = sort numerically
	@{ $counter_array[$value] } [$start_index..$limit - 1];
	$max_val = $sorted_counters[$limit - ($limit > 2 ? 2 : 1)];
	$median_val = $sorted_counters[$median_index];

	# XXX Figure out how to sort this and use an array of structs
	$prev_time = $max_rate = $max_time = $max_rate_time = 0;

	@rate_array = ();

	for ($i = $start_index; $i < $limit; $i++) {
	$curr_time = $snapshot_times[$i];
	$count = $counter_array[$value][$i];

	# Find the largest value.
	if ($count == $max_val) {
	$max_time = $curr_time;
	}

	# Find the largest rate.
	if ($rate) {
	# If the delta is too small, don't compute a rate.
	if ($curr_time - $prev_time == 0) {
	next;
	}
	$current_rate = int(1000000 * $count / ($curr_time - $prev_time));
	if ($current_rate > $max_rate) {
	$max_rate = $current_rate;
	$max_rate_time = $curr_time;
	}
	$rate_array[$i] = $current_rate;
	$prev_time = $curr_time;
	}
	}

	# Sort the rate array and store the max and median. Don't count
	# the first counter as it's not computed.
	for ($i = $start_index; $i < $limit; $i++) {
	if (!defined($rate_array[$i])) {
	$rate_array[$i] = 0;
	}
	}

	if ($rate) {
	@sorted_rates = sort numerically
	@rate_array [$start_index..$limit - 1];
	$max_rate = $sorted_rates[$limit - 2];
	$median_rate = $sorted_rates[$median_index];
	}
	}

	sub print_stats($$$$$) {

	my $i;
	my $currtime;
	my $prevtime = 0;
	my($rate, $value, $details, $limit, $raw) = @_;

	if (!$raw && $rate) {
	printf "\tmax rate = $max_rate [snapshot = " .
	int($max_rate_time / 1000000) . "], median rate = $median_rate" .
	", avg rate = " . int($avg_rate) . "\n"
	}
	elsif ($raw) {
	print "$key raw data\n";
	}

	if ($details \|\| $raw) {
	if ($rate) {
	printf "%15s %15s %15s\n", "Snapshot (us)", "Value", "Rate (/s)";
	printf "%15s %15s %15s\n", "==========", "==========",
	"==========";
	}
	else {
	printf "%15s %15s\n", "Snapshot (us)", "Value";
	printf "%15s %15s\n", "==========", "==========";
	}
	for ($i = 0; $i < $limit; $i++) {
	$currtime = $snapshot_times[$i];
	if ($raw && !defined($counter_array[$value][$i])) {
	$counter_array[$value][$i] = 0;
	}
	printf "%15d %15d", "$currtime", "$counter_array[$value][$i]";
	if ($rate) {
	printf " %15.2f", $counter_array[$value][$i] /
	(($currtime - $prevtime)/1000000);
	}
	printf "\n";
	$prevtime = $currtime;
	}
	}
	print "\n";
	}


	################## main() ################

	$usage = "Usage: $0 -v -d -cache_exits -cache_memory -memory <stats file>\n";

	$verbose = 0;
	$warning = 0;
	$details = 0;
	%marker_hash = ();
	%valid = ();
	%rate_hash = (); # tracks if a tag is a rate or not

	@counter_array = ();
	@rate_array = ();

	$catch_cache_exits = 1;
	$catch_syscalls = 1;
	$catch_security = 1;
	$catch_cache_memory = 0;
	$catch_memory = 0;

	while ($#ARGV >= 0) {
	if ($ARGV[0] eq "-v") {
	$verbose = 1;
	}
	elsif ($ARGV[0] eq "-w") {
	$warning = 1;
	}
	elsif ($ARGV[0] eq "-d") {
	$details = 1;
	}
	elsif ($ARGV[0] eq "-catch_syscalls") {
	$catch_syscalls = 1;
	}
	elsif ($ARGV[0] eq "-cache_exits") {
	$catch_cache_exits = 1;
	}
	elsif ($ARGV[0] eq "-cache_memory") {
	$catch_cache_memory = 1;
	}
	elsif ($ARGV[0] eq "-memory") {
	init_memory_tags();
	}
	else {
	$logfile = $ARGV[0];
	}
	shift;
	}
	if (!defined($logfile)) {
	print $usage;
	exit;
	}

	open(PROFILE, "< $logfile") \|\| die "Error opening $logfile\n";

	if ($catch_security) {
	init_security_tags();
	}
	if ($catch_syscalls) {
	init_syscall_tags();
	}
	if ($catch_cache_exits) {
	init_cache_exits_tags();
	}
	if ($catch_cache_memory) {
	init_cache_memory_tags();
	}
	if ($catch_memory) {
	init_memory_tags();
	}

	if ($verbose) {
	print STDERR "# stats to match: $marker_count...\n";
	}

	print "Stats from logfile $logfile\n(All rates are in per s)\n";

	$marker_count = 0;

	$snapshot_opens = 0;
	$time_snapshot_start = 0;
	$fragment_snapshot_start = 0;

	# Buffer the lines pertaining to memory data
	@lines = ();
	$line_count = 0;

	while (<PROFILE>) {

	chop($_);

	if ($verbose) {
	print STDERR "Check line $. >>$_<<\n";
	}

	if (/^Begin stats @([0-9]+):([0-9]+):([0-9]+)$/) {
	if ($time_snapshot_start \|\| $fragment_snapshot_start) {
	if ($warning) {
	print STDERR "WARNING: Nested time stats detected, " .
	"line $.!\n";
	}
	$snapshot_times[$snapshot_opens++] = $currtime;
	}
	$currtime = ($1 * 60 + $2) * 1000000 + $3;
	$time_snapshot_start = 1;
	$fragment_snapshot_start = 0;
	@lines = ();
	$line_count = 0;
	if ($verbose) {
	print STDERR "Begin time-based snapshot for $currtime " .
	"\@line $.\n";
	}
	}
	# An alternative to pull out only the fragment count is
	# /^All statistics @([0-9]+)+ \([0-9]+:[0-9]+\.[0-9]+\)/
	elsif (/^All statistics @([0-9]+) \(([0-9]+):([0-9]+)\.([0-9]+)\)/) {
	if ($1 == 0 && $2 == 0 && $3 == 0 && $4 == 0) {
	if ($verbose) {
	print STDERR "Skip 0-time 'All stats...'\n";
	}
	next;
	}
	elsif ($time_snapshot_start) { # time-based snapshot begin-marker
	if ($verbose) {
	print STDERR "Skip 'All stats...', gathering time stats\n";
	}
	next;
	}
	else { # Open a snapshot
	if ($fragment_snapshot_start) {
	if ($warning) {
	print STDERR "WARNING: Nested fragment stats detected, " .
	"line $.!\n";
	}
	$snapshot_times[$snapshot_opens++] = $currtime;
	}
	$currtime = ($2 * 60 + $3) * 1000000 + $4;
	$fragment_snapshot_start = 1;
	$time_snapshot_start = 0;
	@lines = ();
	$line_count = 0;
	if ($verbose) {
	print STDERR "Begin fragment-based snapshot $currtime " .
	"\@line $.\n";
	}
	}
	}
	elsif (/^Thread statistics @[0-9]+ global, ([0-9]+) thread fragments \(([0-9]+):([0-9]+)\.([0-9]+)\)/) { # Begin thread-private stats
	if ($1 == 0 && $2 == 0 && $3 == 0 && $4 == 0) {
	if ($verbose) {
	print STDERR "Skip 0-time \"Thread statistics...\"\n";
	}
	next;
	}
	elsif ($time_snapshot_start) { # time-based snapshot begin-marker
	if ($verbose) {
	print STDERR "Skip \"Thread statistics...\", " .
	"gathering time stats\n";
	}
	next;
	}
	else { # Open a snapshot
	if ($fragment_snapshot_start) {
	if ($warning) {
	print STDERR "WARNING: Nested fragment stats detected, " .
	"line $.!\n";
	}
	$snapshot_times[$snapshot_opens++] = $currtime;
	}
	$currtime = ($2 * 60 + $3) * 1000000 + $4;
	$fragment_snapshot_start = 1;
	$time_snapshot_start = 0;
	@lines = ();
	$line_count = 0;
	if ($verbose) {
	print STDERR "Begin fragment-based snapshot $currtime " .
	"\@line $.\n";
	}
	}
	}
	elsif (/^End stats/) { # We see a time-based snapshot end-marker
	if ($fragment_snapshot_start) {
	print STDERR "ERROR: fragment-based stats open, " .
	"time-based trying to close, line $.!\n";
	die;
	}
	elsif (!$time_snapshot_start) {
	print STDERR "ERROR: no time-based stats open, " .
	"time-based trying to close, line $.!\n";
	die;
	}
	else { # All is well, close this snapshot
	$snapshot_times[$snapshot_opens++] = $currtime;
	$time_snapshot_start = 0;
	if ($verbose) {
	print STDERR "End time-based snapshot for $currtime\n";
	}
	}
	}
	# XXX Sometimes "/^[ ]+Peak our additional virtual size/" works??
	elsif (/^(Process\|Thread) heap breakdown:$/) {
	#if (!$fragment_snapshot_start && !$time_snapshot_start) {
	# print STDERR "ERROR: no stats window open, " .
	# "fragment-based trying to close, line $.!\n";
	# die;
	#}
	if ($fragment_snapshot_start) { # All is well, close this snapshot
	$snapshot_times[$snapshot_opens++] = $currtime;
	$fragment_snapshot_start = 0;
	if ($verbose) {
	print STDERR "End fragment-based snapshot for $currtime\n";
	}
	}
	}

	elsif (/^(Process\|Thread) heap breakdown:$/) {
	#if (!$fragment_snapshot_start && !$time_snapshot_start) {
	# print STDERR "ERROR: no stats window open, " .
	# "fragment-based trying to close, line $.!\n";
	# die;
	#}
	if ($fragment_snapshot_start) { # All is well, close this snapshot
	$snapshot_times[$snapshot_opens++] = $currtime;
	$fragment_snapshot_start = 0;
	if ($verbose) {
	print STDERR "End fragment-based snapshot for $currtime\n";
	}
	}
	}

	# We are reading a stats snapshot
	elsif ($fragment_snapshot_start \|\| $time_snapshot_start) {
	if ($verbose) {
	print STDERR "Process line $_\n";
	}
	process_snapshot($verbose, $_);
	}
	}

	$median_index = $snapshot_opens / 2;

	# The times are in microseconds. Let's group by milliseconds.
	printf "# snapshots $snapshot_opens, median snapshot time " .
	int($snapshot_times[$median_index]/1000000) . "s\n\n";

	if ($snapshot_opens == 0) {
	print "No snapshots collected!\n";
	print STDERR "No snapshots collected!\n";
	exit;
	}

	foreach $key (sort keys %marker_hash) {

	if (!defined($valid{$key})) {
	if ($verbose) {
	print STDERR "Bypass $key, no stats gathered...\n";
	}
	next;
	}

	# Is this a rate-oriented stat? What's the index into the
	# counter table?
	$rate = $rate_hash{$key};
	$value = $marker_hash{$key};

	# print_stats($rate, $value, $details, $snapshot_opens, 1);

	prepare_stats($snapshot_opens, $value, $rate);
	compute_stats($snapshot_opens, $key, $value, $rate);

	if ($verbose) {
	print STDERR "Print summary for $key...\n";
	}

	print "$key: median = $median_val\n" .
	"max = $max_val [snapshot time = " . int($max_time / 1000000) .
	"s]\n";

	print_stats($rate, $value, $details, $snapshot_opens, 0);
	}