wlan-lanforge-scripts/wifi_diag/wifi_pcap_diag.pl

#!/usr/bin/perl -w

# Read in a decoded pcap file and generate report
# Usage:  tshark -V -r wifi.pcap | ./wifi_pcap_diag.pl

use strict;
use warnings;
# Un-buffer output
$| = 1;
use Cwd qw(getcwd);

# this is pedantic necessity for the following use statements
use if (-e "/home/lanforge/scripts"), lib => "/home/lanforge/scripts";
use lib "../";
use lib "./";

use PeerConn;
use Packet;
use Getopt::Long;

my $cwd = getcwd();
if (defined $ENV{'DEBUG'} && $ENV{'DEBUG'} eq "1") {
  use diagnostics;
  use Carp;
  $SIG{ __DIE__  } = sub { Carp::confess( @_ ) };
  $SIG{ __WARN__ } = sub { Carp::confess( @_ ) };
}

my %peer_conns = ();

my $input_line_count = 0;
my $pkts_sofar = 0;
my $start_time = time();

my $cur_pkt = Packet->new(raw_pkt => "", frame_num => -1, dbg => "cur_pkt");
my $last_pkt = Packet->new(raw_pkt => "", frame_num => -1, is_rx => 0, dbg => "last_pkt");
my $first_ampdu_pkt = Packet->new(raw_pkt => "", frame_num => -1, dbg => "first_ampdu_pkt");
my $last_ba_rx_pkt = Packet->new(raw_pkt => "", frame_num => -1, dbg => "last_ba_rx_pkt");
my $last_ba_tx_pkt = Packet->new(raw_pkt => "", frame_num => -1, dbg => "last_ba_tx_pkt");


my $glb_fh_ba_tx;
my $glb_fh_ba_rx;
my $glb_fh_mcs_ps;
my $glb_fh_mcs_tx;
my $glb_fh_mcs_rx;
my $glb_fh_rtx_tx;
my $glb_fh_rtx_rx;
my $glb_fh_color_tx;
my $glb_fh_color_rx;
my $glb_fh_ru_alloc_tx;
my $glb_fh_ru_alloc_rx;
my $glb_fh_trig_type_tx;
my $glb_fh_trig_type_rx;
my $glb_fh_ps_tx;

my $tx_no_ack_found_big = 0;
my $rx_no_ack_found_big = 0;
my $tx_no_ack_found_all = 0;
my $rx_no_ack_found_all = 0;

my %glb_mcs_tx_hash = ();
my %glb_mcs_rx_hash = ();
my %glb_pkt_type_tx_hash = ();
my %glb_pkt_type_rx_hash = ();
my %glb_ampdu_pkt_count_rx_hash = ();
my %glb_ampdu_pkt_count_tx_hash = ();
my %glb_encoding_type_tx_hash = ();
my %glb_encoding_type_rx_hash = ();

my $ampdu_pkt_count_total_tx = 0;
my $ampdu_pkt_count_total_rx = 0;
my $wmm_info = "";

my $dut = "";
our $report_prefix = "wifi-diag-results";
my $non_dut_frames = 0;
my $show_help = 0;
my $gen_report = 0;
my $report_html = "";
my $html_table_border = "border=1";

my $usage = "$0
--dut {bssid-of-DUT}   # Orient reports with this as upstream peer (lower-case MAC address)
--gen_report           # Generate report off previously generated global data
--report_prefix  {string} # Prefix used for report files (default is $report_prefix)
--help                 # Show this help info.

Example:
mkdir -p netgear-up-5s && tshark -V -r /tmp/udp-up-20sta-netgear-5sec.pcapng | ./wifi_pcap_diag.pl --report_prefix \"netgear-up-5s/\" --dut dc:ef:09:e3:b8:7d > netgear-up-5s/foo.txt

View {report-prefix}/index.html for the report, and {report-prefix}/foo.txt for notes and warnings.

";


GetOptions
  (
   'help|h'            => \$show_help,
   'dut=s'             => \$dut,
   'report_prefix=s'   => \$::report_prefix,
   'gen_report'        => \$gen_report,
  ) || (print STDERR $usage && exit(1));


if ($show_help) {
  print $usage;
  exit 0
}

$::report_prefix .= "/"
  if ($report_prefix !~ m{/$});

my $glb_ba_tx_fname = $::report_prefix . "glb-ba-tx-rpt.txt";
my $glb_ba_rx_fname = $::report_prefix . "glb-ba-rx-rpt.txt";
my $glb_mcs_ps_fname = $::report_prefix . "glb-mcs-ps-rpt.txt";
my $glb_mcs_tx_fname = $::report_prefix . "glb-mcs-tx-rpt.txt";
my $glb_mcs_rx_fname = $::report_prefix . "glb-mcs-rx-rpt.txt";
my $glb_rtx_tx_fname = $::report_prefix . "glb-rtx-tx-rpt.txt";
my $glb_rtx_rx_fname = $::report_prefix . "glb-rtx-rx-rpt.txt";
my $glb_color_rx_fname = $::report_prefix . "glb-color-rx-rpt.txt";
my $glb_color_tx_fname = $::report_prefix . "glb-color-tx-rpt.txt";
my $glb_ru_alloc_rx_fname = $::report_prefix . "glb-ru-alloc-rx-rpt.txt";
my $glb_ru_alloc_tx_fname = $::report_prefix . "glb-ru-alloc-tx-rpt.txt";
my $glb_trig_type_rx_fname = $::report_prefix . "glb-trig-type-rx-rpt.txt";
my $glb_trig_type_tx_fname = $::report_prefix . "glb-trig-type-tx-rpt.txt";
my $glb_ps_tx_fname = $::report_prefix . "glb-ps-tx-rpt.txt";

if ($gen_report) {
  $report_html .= genGlobalReports();
  saveHtmlReport();
  exit 0;
}

system("mkdir -p " . $::report_prefix);

open($glb_fh_ba_tx,  ">", $glb_ba_tx_fname) or die("Can't open $glb_ba_tx_fname for writing: $!\n");
open($glb_fh_ba_rx,  ">", $glb_ba_rx_fname) or die("Can't open $glb_ba_rx_fname for writing: $!\n");
open($glb_fh_mcs_ps, ">", $glb_mcs_ps_fname) or die("Can't open $glb_mcs_ps_fname for writing: $!\n");
open($glb_fh_mcs_tx, ">", $glb_mcs_tx_fname) or die("Can't open $glb_mcs_tx_fname for writing: $!\n");
open($glb_fh_mcs_rx, ">", $glb_mcs_rx_fname) or die("Can't open $glb_mcs_rx_fname for writing: $!\n");
open($glb_fh_rtx_tx, ">", $glb_rtx_tx_fname) or die("Can't open $glb_rtx_tx_fname for writing: $!\n");
open($glb_fh_rtx_rx, ">", $glb_rtx_rx_fname) or die("Can't open $glb_rtx_rx_fname for writing: $!\n");
open($glb_fh_color_rx, ">", $glb_color_rx_fname) or die("Can't open $glb_color_rx_fname for writing: $!\n");
open($glb_fh_color_tx, ">", $glb_color_tx_fname) or die("Can't open $glb_color_tx_fname for writing: $!\n");
open($glb_fh_ru_alloc_rx, ">", $glb_ru_alloc_rx_fname) or die("Can't open $glb_ru_alloc_rx_fname for writing: $!\n");
open($glb_fh_ru_alloc_tx, ">", $glb_ru_alloc_tx_fname) or die("Can't open $glb_ru_alloc_tx_fname for writing: $!\n");
open($glb_fh_trig_type_rx, ">", $glb_trig_type_rx_fname) or die("Can't open $glb_trig_type_rx_fname for writing: $!\n");
open($glb_fh_trig_type_tx, ">", $glb_trig_type_tx_fname) or die("Can't open $glb_trig_type_tx_fname for writing: $!\n");
open($glb_fh_ps_tx, ">", $glb_ps_tx_fname) or die("Can't open $glb_ps_tx_fname for writing: $!\n");

my $hdr =  "#timestamp\ttid\ttime_diff\tperiod_tot_pkts_ps\t" .
  "period_rx_pkts_ps\tperiod_rx_retrans_pkts_ps\tperiod_rx_amsdu_pkts_ps\tperiod_rx_retrans_amsdu_pkts_ps\tperiod_dummy_rx_pkts_ps\t" .
  "period_tx_pkts_ps\tperiod_tx_retrans_pkts_ps\tperiod_tx_amsdu_pkts_ps\tperiod_tx_retrans_amsdu_pkts_ps\tperiod_dummy_tx_pkts_ps\n";
print $glb_fh_mcs_ps $hdr;

# Global stats logic.
my $delta_time_rx_count = 0;
my $delta_time_rx = 0;
my $delta_time_tx_count = 0;
my $delta_time_tx = 0;
my $ampdu_chain_rx_count = 0;
my $ampdu_chain_rx_time = 0;
my $ampdu_chain_tx_count = 0;
my $ampdu_chain_tx_time = 0;

my $dup_ba_rx = 0;
my $dup_ba_tx = 0;
my $ba_ampdu_gap_rx = 0;
my $ba_ampdu_gap_tx = 0;
my $ba_ampdu_gap_rx_count = 0;
my $ba_ampdu_gap_tx_count = 0;

my $delta_ba_to_ampdu_rx = 0;
my $delta_ba_to_ampdu_tx = 0;
my $delta_ba_to_ampdu_rx_count = 0;
my $delta_ba_to_ampdu_tx_count = 0;

my $last_ps_timestamp = 0;
my $tot_pkts = 0;
my $rx_pkts = 0;
my $rx_amsdu_pkts = 0;
my $rx_retrans_pkts_all = 0;
my $rx_retrans_pkts_big = 0;
my $rx_amsdu_retrans_pkts = 0;
my $dummy_rx_pkts = 0;
my $tx_pkts = 0;
my $tx_amsdu_pkts = 0;
my $tx_retrans_pkts_all = 0;
my $tx_retrans_pkts_big = 0;
my $tx_amsdu_retrans_pkts = 0;
my $dummy_tx_pkts = 0;

my $last_tot_pkts = 0;
my $last_rx_pkts = 0;
my $last_rx_amsdu_pkts = 0;
my $last_rx_retrans_pkts_all = 0;
my $last_rx_amsdu_retrans_pkts = 0;
my $last_dummy_rx_pkts = 0;
my $last_tx_pkts = 0;
my $last_tx_amsdu_pkts = 0;
my $last_tx_retrans_pkts_all = 0;
my $last_tx_amsdu_retrans_pkts = 0;
my $last_dummy_tx_pkts = 0;

while (<>) {
  my $ln = $_;
  $input_line_count++;
  if ($ln =~ /^Frame (\d+):\s+(\d+) bytes on wire/) {
    if ($cur_pkt->raw_pkt() ne "") {
      processPkt($cur_pkt);
    }
    $cur_pkt = Packet->new(frame_num => $1,
			   bytes_on_wire => $2,
			   raw_pkt => $ln,
			   dbg => "main-$1");
  } else {
    $cur_pkt->append($ln);
  }

  #if ($pkts_sofar > 1500) {
  #  last;
  #}
}

if ($cur_pkt->raw_pkt() ne "") {
  processPkt($cur_pkt);
}

printProgress();

# Sum up some stats
for my $conn (values %peer_conns) {
  $conn->notify_done();
  $tx_no_ack_found_big += $conn->tx_no_ack_found_big();
  $rx_no_ack_found_big += $conn->rx_no_ack_found_big();
  $tx_no_ack_found_all += $conn->tx_no_ack_found_all();
  $rx_no_ack_found_all += $conn->rx_no_ack_found_all();
}

close($glb_fh_ba_tx);
close($glb_fh_ba_rx);
close($glb_fh_mcs_ps);
close($glb_fh_mcs_tx);
close($glb_fh_mcs_rx);
close($glb_fh_rtx_tx);
close($glb_fh_rtx_rx);
close($glb_fh_color_tx);
close($glb_fh_color_rx);
close($glb_fh_ru_alloc_tx);
close($glb_fh_ru_alloc_rx);
close($glb_fh_trig_type_tx);
close($glb_fh_trig_type_rx);
close($glb_fh_ps_tx);

$report_html .= genGlobalReports();

# Print out all peer-conns we found
for my $conn (values %peer_conns) {
  $conn->printme();
  $conn->gen_graphs();
}

saveHtmlReport();

if ($dut ne "") {
  print "NON-DUT frames in capture: $non_dut_frames\n";
}

exit 0;

sub saveHtmlReport {
  my $html = qq(<!DOCTYPE html><html lang=\"en\">
<head>
   <meta charset="utf-8" />
   <title>WiFi Diag Report</title>
   <style>
body {
   font-family: Arial, Helvetica,sans-serif;
   font-size: 14px;
   color: #204020;
}
table {
   border-collapse: collapse;
   background: #e0e0e0;
}
table, td, th {
   border: 1px solid gray;
   padding: 4px;
}
td {
   background: white;
}
td.ar {
   text-align: right;
}

h1, h2, th {
  color: rgb(42,91,41);
  text-align: center;
}
   </style>
</head>
<body >

<h1>WiFi Diag Report</h1>
<P>
);

  $html .= $report_html;

  $html .= "</body>
</html>\n";

  my $tmp = "$::report_prefix/index.html";
  $tmp =~ s{//}{/}g;
  open(my $IDX, ">", $tmp) or die("Can't open $tmp for writing: $!\n");
  print $IDX $html;
  close $IDX;

  print STDERR "Report saved to: $tmp\n";
}

sub genTimeGnuplot {
  my $ylabel = shift;
  my $title = shift;
  my $cols = shift;
  my $graph_data = shift;
  my $extra_gp = shift;

  my $extra = "";
  if (defined($extra_gp)) {
     $extra = $extra_gp;
  }

  my $text =qq(#!/usr/bin/gnuplot
# auto-generated gnuplot script
reset
set terminal png size 1024,480

set xdata time
set timefmt '\%s'
set format x '\%M:\%S'

set xlabel "Date"
set ylabel '$ylabel'

set title '$title'
set key below
set grid

$extra

plot '$graph_data' using $cols title '$title'
);
  return $text;
}

sub doTimeGraph {
  my $ylabel = shift;
  my $title = shift;
  my $cols = shift;
  my $data_file = shift;
  my $out_file = shift;
  my $extra = shift;
  my $pre_html = shift;

  my ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,
      $atime,$mtime,$ctime,$blksize,$blocks) = stat($data_file);
  if ($size < 4) {
     print("time-graph, skipping $data_file, size: $size\n");
     return "";
  }

  my $html = "";
  if (defined($pre_html)) {
     $html .= $pre_html;
  }

  my $text = genTimeGnuplot($ylabel, $title, $cols, $data_file, $extra);
  my $png_fname = "$::report_prefix/$out_file";
  $png_fname =~ s{//}{/}g;
  my $tmp = $report_prefix . "_gnuplot_tmp_script.txt";
  $tmp =~ s{//}{/}g;
  open(my $GP, ">", $tmp) or die("Can't open $tmp for writing: $!\n");
  print $GP $text;
  close $GP;
  my $cmd = "gnuplot $tmp > $png_fname";
  print "cmd: $cmd\n";
  system($cmd);

  $html .= qq(<img src="$out_file" alt="$title"><br>\n);
  return $html;
}

sub htmlMcsHistogram {
  my $html = "";

  if ($rx_pkts) {
    $html .= "RX (All) Retransmit percentage: $rx_retrans_pkts_all/$rx_pkts == " . ($rx_retrans_pkts_all * 100.0) / $rx_pkts . "<br>\n";
  } else {
    $html .= "RX (All) Retransmit percentage: $rx_retrans_pkts_all/$rx_pkts == 0<br>\n";
  }
  $html .= "RX (Big) Retransmit count: $rx_retrans_pkts_big<br>\n";
  if ($tx_pkts) {
    $html .= "TX (All) Retransmit percentage: $tx_retrans_pkts_all/$tx_pkts == " . ($tx_retrans_pkts_all * 100.0) / $tx_pkts . "<br>\n";
  } else {
    $html .= "TX (All) Retransmit percentage: $tx_retrans_pkts_all/$tx_pkts == 0<br>\n";
  }
  $html .= "TX (Big) Retransmit count: $tx_retrans_pkts_big<br>\n";

  $html .= "RX (All) no-ack-found: $rx_no_ack_found_all<br>\n";
  $html .= "RX (Big) no-ack-found: $rx_no_ack_found_big<br>\n";
  $html .= "TX (All) no-ack-found: $tx_no_ack_found_all<br>\n";
  $html .= "TX (Big) no-ack-found: $tx_no_ack_found_big<br>\n";

  $html .= "TX Packets acked but not captured: $dummy_tx_pkts<br>\n";
  $html .= "RX Packets acked but not captured: $dummy_rx_pkts<br>\n";

  if ($delta_time_tx_count) {
    $html .= "TX average gap between AMPDU frames (ms): " . (($delta_time_tx * 1000.0) / $delta_time_tx_count) . "<br>\n";
  }
  if ($delta_time_rx_count) {
    $html .= "RX average gap between AMPDU frames (ms): " . (($delta_time_rx * 1000.0) / $delta_time_rx_count) . "<br><P>\n";
  }
  if ($ampdu_chain_tx_count) {
    $html .= "TX average AMPDU chain time (ms): " . (($ampdu_chain_tx_time * 1000.0) / $ampdu_chain_tx_count) . "<br>\n";
  }
  if ($ampdu_chain_rx_count) {
    $html .= "RX average AMPDU chain time (ms): " . (($ampdu_chain_rx_time * 1000.0) / $ampdu_chain_rx_count) . "<br>\n";
  }

  if ($ba_ampdu_gap_rx_count) {
    $html .= "TX BA to RX AMPDU average gap (ms): " . (($ba_ampdu_gap_rx * 1000.0) / $ba_ampdu_gap_rx_count) . "<br>\n";
  }
  if ($ba_ampdu_gap_tx_count) {
    $html .= "RX BA to TX AMPDU average gap (ms): " . (($ba_ampdu_gap_tx * 1000.0) / $ba_ampdu_gap_tx_count) . "<br>\n";
  }

  $html .= "Duplicate TX BA without AMPDU between them: $dup_ba_tx<br>\n";
  $html .= "Duplicate RX BA without AMPDU between them: $dup_ba_rx<br>\n";

  if ($wmm_info ne "") {
    $html .= "WMM Info from DUT Beacon<br><pre>\n$wmm_info</pre>";
  }

  if ($tx_pkts) {
     $html .= "<h4>TX Encoding rate histogram.</h4>\n
<table $html_table_border><tr><th>Rate Mbps</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort {$a <=> $b} keys %glb_mcs_tx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_mcs_tx_hash{$name}, ($glb_mcs_tx_hash{$name} * 100.0) / $tx_pkts);
     }
     $html .= "</table><P>\n";
  }

  if ($rx_pkts) {
     $html .= "<h4>RX Encoding rate histogram</h4>\n
<table $html_table_border><tr><th>Rate Mbps</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort {$a <=> $b} keys %glb_mcs_rx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_mcs_rx_hash{$name}, ($glb_mcs_rx_hash{$name} * 100.0) / $rx_pkts);
     }
     $html .= "</table><P>\n";
  }

  if ($tx_pkts) {
     $html .= "<h4>TX PPDU Format histogram.</h4>\n
<table $html_table_border><tr><th>PPDU Format</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort keys %glb_encoding_type_tx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_encoding_type_tx_hash{$name}, ($glb_encoding_type_tx_hash{$name} * 100.0) / $tx_pkts);
     }
     $html .= "</table><P>\n";
  }

  if ($rx_pkts) {
     $html .= "<h4>RX PPDU Format histogram.</h4>\n
<table $html_table_border><tr><th>PPDU Format</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort keys %glb_encoding_type_rx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_encoding_type_rx_hash{$name}, ($glb_encoding_type_rx_hash{$name} * 100.0) / $rx_pkts);
     }
     $html .= "</table><P>\n";
  }

  if ($tx_pkts + $dummy_tx_pkts) {
     $html .= "<h4>TX Packet Type histogram</h4>\n
<table $html_table_border><tr><th>Type</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort keys %glb_pkt_type_tx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_pkt_type_tx_hash{$name}, ($glb_pkt_type_tx_hash{$name} * 100.0) / ($tx_pkts + $dummy_tx_pkts));
     }

     $html .= sprintf(qq(<tr><td>ACK but not Captured</td><td class="ar">%d</td><td class="ar">%f</td></tr>\n),
                      $dummy_tx_pkts, ($dummy_tx_pkts * 100.0) / ($tx_pkts + $dummy_tx_pkts));
     $html .= "</table><P>\n";
  }

  if ($rx_pkts + $dummy_rx_pkts) {
     $html .= "<h4>RX Packet Type histogram</h4>\n
<table $html_table_border><tr><th>Type</th><th>Packets</th><th>Percentage</th></tr>";
     foreach my $name (sort keys %glb_pkt_type_rx_hash) {
        $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                         $name, $glb_pkt_type_rx_hash{$name}, ($glb_pkt_type_rx_hash{$name} * 100.0) / ($rx_pkts + $dummy_rx_pkts));
     }
     $html .= sprintf(qq(<tr><td>ACK but not Captured</td><td class="ar">%d</td><td class="ar">%f</td></tr>\n),
                      $dummy_rx_pkts, ($dummy_rx_pkts * 100.0) / ($rx_pkts + $dummy_rx_pkts));
     $html .= "</table><P>\n";
  }

  if ($ampdu_chain_tx_count) {
    $html .= "<h4>TX AMPDU chain count histogram<h4>Average: " . $ampdu_pkt_count_total_tx / $ampdu_chain_tx_count . "\n";
    $html .= "<table $html_table_border><tr><th>Chain Count</th><th>Packets</th><th>Percentage</th></tr>";
    foreach my $name (sort {$a <=> $b} keys %glb_ampdu_pkt_count_tx_hash) {
      $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                       $name, $glb_ampdu_pkt_count_tx_hash{$name}, ($glb_ampdu_pkt_count_tx_hash{$name} * 100.0) / $ampdu_chain_tx_count);
    }
    $html .= "</table><P>\n";
  }

  if ($ampdu_chain_rx_count) {
    $html .= "<h4>RX AMPDU chain count histogram</h4> Average: " . $ampdu_pkt_count_total_rx / $ampdu_chain_rx_count . "\n";
    $html .= "<table $html_table_border><tr><th>Chain Count</th><th>Packets</th><th>Percentage</th></tr>";
    foreach my $name (sort {$a <=> $b} keys %glb_ampdu_pkt_count_rx_hash) {
      $html .= sprintf(qq(<tr><td>%s</td><td class="ar">%s</td><td class="ar">%f</td></tr>\n),
                       $name, $glb_ampdu_pkt_count_rx_hash{$name}, ($glb_ampdu_pkt_count_rx_hash{$name} * 100.0) / $ampdu_chain_rx_count);
    }
    $html .= "</table><P>\n";
  }

  return $html;
}

sub genGlobalReports {
  my $html = "";

  $html .= htmlMcsHistogram();

  # General idea is to write out gnumeric scripts and run them.

  $html .= "\n\n<P>MCS/Encoding Rates over time<P>\n";
  $html .= doTimeGraph("Encoding Rate Mbps", "TX Packet encoding rate over time", "1:2", $glb_mcs_tx_fname, "glb-mcs-tx.png");
  $html .= doTimeGraph("Encoding Rate Mbps", "RX Packet encoding rate over time", "1:2", $glb_mcs_rx_fname, "glb-mcs-rx.png");
  $html .= doTimeGraph("TX Retransmits", "TX Packet Retransmits over time", "1:2", $glb_rtx_tx_fname, "glb-mcs-tx-retrans.png");
  $html .= doTimeGraph("RX Retransmits", "RX Packet Retransmits over time", "1:2", $glb_rtx_rx_fname, "glb-mcs-rx-retrans.png");

  # Global per-second stats
  $html .= doTimeGraph("Total-pps", "Total Packet per sec", "1:4", $glb_mcs_ps_fname, "glb-mcs-tot-ps.png");
  $html .= doTimeGraph("RX-pps", "RX Packet per sec", "1:5", $glb_mcs_ps_fname, "glb-mcs-rx-ps.png");
  $html .= doTimeGraph("RX-retrans-ps", "RX Retrans per sec", "1:6", $glb_mcs_ps_fname, "glb-mcs-rx-amsdu-ps.png");
  $html .= doTimeGraph("RX-amsdu-pps", "RX AMSDU per sec", "1:7", $glb_mcs_ps_fname, "glb-mcs-rx-amsdu-ps.png");
  $html .= doTimeGraph("RX-retrans-amsdu-pps", "RX Retrans AMSDU per sec", "1:8", $glb_mcs_ps_fname, "glb-mcs-rx-rtx-amsdu-ps.png");
  $html .= doTimeGraph("RX-dummy pps", "RX Dummy Packets per sec", "1:9", $glb_mcs_ps_fname, "glb-mcs-rx-dummy-pps.png");
  $html .= doTimeGraph("TX-pps", "TX Packet per sec", "1:10", $glb_mcs_ps_fname, "glb-mcs-tx-ps.png");
  $html .= doTimeGraph("TX-retrans-ps", "TX Retrans per sec", "1:11", $glb_mcs_ps_fname, "glb-mcs-tx-amsdu-ps.png");
  $html .= doTimeGraph("TX-amsdu-pps", "TX AMSDU per sec", "1:12", $glb_mcs_ps_fname, "glb-mcs-tx-amsdu-ps.png");
  $html .= doTimeGraph("TX-retrans-amsdu-pps", "TX Retrans AMSDU per sec", "1:13", $glb_mcs_ps_fname, "glb-mcs-tx-rtx-amsdu-ps.png");
  $html .= doTimeGraph("TX-dummy pps", "TX Dummy Packets per sec", "1:14", $glb_mcs_ps_fname, "glb-mcs-tx-dummy-pps.png");

  $html .= doTimeGraph("Power Save", "TX Power Save Awake (1) or Sleep(0), over time", "1:2", $glb_ps_tx_fname, "glb-ps-tx.png",
                       "set yrange [-1:2]");

  $html .= doTimeGraph("BSS Color", "RX BSS Color over time", "1:2", $glb_color_rx_fname, "glb-color-rx.png");
  $html .= doTimeGraph("BSS Color", "TX BSS Color over time", "1:2", $glb_color_tx_fname, "glb-color-tx.png");

  my $tt_desc = "<P>Basic Type (Indicates OFDMA): 0, Beamforming Report Poll (BRP, indicates MU-MIMO): 1, Multi-User Block Ack Request (MU-BAR): 2,<br>\n" .
     " Multi-User Request To Send (MU-RTS): 3, Buffer Status Report Poll (BSRP): 4, Group Case Retries (GCR MU-BAR): 5<br>\n" .
     " Bandwidth Query Report Poll (BQRP): 6, NDP Feedback Report Poll (NFRP): 7\n";
  $html .= doTimeGraph("Trigger Type", "RX Trigger Type over time.", "1:2", $glb_trig_type_rx_fname, "glb-trig-type-rx.png", "", $tt_desc);
  $html .= doTimeGraph("Trigger Type", "TX Trigger Type over time.", "1:2", $glb_trig_type_tx_fname, "glb-trig-type-tx.png", "", $tt_desc);

  $html .= doTimeGraph("Basic Trigger RU Alloc", "RX RU Alloc over time.", "1:2", $glb_ru_alloc_rx_fname, "glb-ru-alloc-rx.png");
  $html .= doTimeGraph("Basic Trigger RU Alloc", "TX RU Alloc over time.", "1:2", $glb_ru_alloc_tx_fname, "glb-ru-alloc-tx.png");

  # Local peer sending BA back to DUT
  $html .= "\n\n<P>Block-Acks sent from all local endpoints to DUT.<P>\n";
  $html .= doTimeGraph("BA Latency", "TX Block-Ack latency from last known frame", "1:6", $glb_ba_tx_fname, "glb-ba-tx-latency.png");
  $html .= doTimeGraph("Packets Acked", "TX Block-Ack packets Acked per Pkt", "1:3", $glb_ba_tx_fname, "glb-ba-tx-pkts-per-ack.png");
  $html .= doTimeGraph("Duplicate Packets Acked", "TX Block-Ack packets DUP-Acked per Pkt", "1:4", $glb_ba_tx_fname, "glb-ba-tx-pkts-dup-per-ack.png");

  # DUT sending BA to local peer
  $html .= "\n\n<P>Block-Acks sent from DUT to all local endpoints.<P>\n";
  $html .= doTimeGraph("BA Latency", "RX Block-Ack latency from last known frame", "1:6", $glb_ba_rx_fname, "glb-ba-rx-latency.png");
  $html .= doTimeGraph("Packets Acked", "RX Block-Ack packets Acked per Pkt", "1:3", $glb_ba_rx_fname, "glb-ba-rx-pkts-per-ack.png");
  $html .= doTimeGraph("Duplicate Packets Acked", "RX Block-Ack packets DUP-Acked per Pkt", "1:4", $glb_ba_rx_fname, "glb-ba-rx-pkts-dup-per-ack.png");

  return $html;
}

sub printProgress {
  my $now = time();
  my $diff_sec = $now - $start_time;
  my $hour = int($diff_sec / (60 * 60));
  my $min = int($diff_sec / 60);
  my $sec = $diff_sec - ($hour * 60 * 60 + $min * 60);
  my $pps = 0;
  if ($diff_sec != 0) {
    $pps = int($pkts_sofar / $diff_sec);
  }
  print STDERR "NOTE: Processed $pkts_sofar packets and $input_line_count input lines in $hour:$min:$sec so far ($pps pps).\n";
}

sub processPkt {
  my $pkt = shift;

  # Find which station (or AP) sent this pkt.
  # Add graph point for mcs vs time
  # Add graph point for retransmits
  # Check sequence-no gap

  # Skip malformed packets, cannot trust the contents anyway
  if ($pkt->{is_malformed}) {
    return;
  }

  #print "processPkt, frame: " . $pkt->{frame_num} . " seqno: " . $pkt->seqno() . " transmitter: " . $pkt->transmitter()
  #  . " receiver: " . $pkt->receiver() . "\n";

  $pkts_sofar++;
  if (($pkts_sofar % 10000) == 0) {
    printProgress();
  }

  # If pkt is an ACK, it will not have a sender address.  Guess based on
  # previous packet.
  if ($pkt->type_subtype() eq "Acknowledgement (0x001d)") {
    if ($last_pkt->transmitter() eq $pkt->receiver()) {
      $pkt->set_transmitter($last_pkt->receiver());
      if ($last_pkt->acked_by() != -1) {
	print "WARNING:  ack frame: " . $pkt->frame_num() . " acking frame: " .
	  $last_pkt->frame_num() . " already acked by frame: " . $last_pkt->acked_by() . "\n";
      } elsif ($last_pkt->block_acked_by() != -1) {
	print "WARNING:  ack frame: " . $pkt->frame_num() . " acking frame: " .
	  $last_pkt->frame_num() . " already block-acked by frame: " . $last_pkt->block_acked_by() . "\n";
      } else {
	$last_pkt->set_acked_by($pkt->frame_num());
      }
    } else {
      print "ERROR:  Frame " . $pkt->frame_num() . " is ACK for unknown packet.\n";
      $non_dut_frames++;
      #$last_pkt = $pkt;
      return;
    }
  }

  if ($dut ne "") {
    # Ignore frames not to/from DUT
    if (!(($dut eq $pkt->receiver()) ||
	  ($dut eq $pkt->transmitter()))) {
      $non_dut_frames++;
      return;
    }

    if ($wmm_info eq "") {
      if ($pkt->type_subtype() eq "Beacon frame (0x0008)") {
	$wmm_info = $pkt->{wmm_info};
      }
    }
  }

  my $hash = $pkt->receiver() . "." . $pkt->transmitter();
  my $hash2 = $pkt->transmitter() . "." . $pkt->receiver();

  my $peer_conn;
  if (exists $peer_conns{$hash}) {
    $peer_conn = $peer_conns{$hash};
  } else {
    if (exists $peer_conns{$hash2}) {
      $peer_conn = $peer_conns{$hash2};
    } else {
      if ($dut eq $pkt->receiver()) {
	$peer_conn = PeerConn->new(glb_fh_ba_tx => $glb_fh_ba_tx,
				   glb_fh_ba_rx => $glb_fh_ba_rx,
				   report_prefix => $report_prefix,
				   local_addr => $pkt->transmitter(),
				   peer_addr => $pkt->receiver());
      } else {
	$peer_conn = PeerConn->new(glb_fh_ba_tx => $glb_fh_ba_tx,
				   glb_fh_ba_rx => $glb_fh_ba_rx,
				   report_prefix => $report_prefix,
				   local_addr => $pkt->receiver(),
				   peer_addr => $pkt->transmitter());
      }
      $peer_conns{$hash} = $peer_conn;
    }
  }

  $peer_conn->add_pkt($pkt);

  # Gather some global stats

  # Add mcs to histogram.
  my $delta = -1;
  if ($last_pkt->seqno() + 1 == $pkt->seqno()) {
    #print "seqno seq match...\n";
    #print "last_pkt is rx: " . $last_pkt->{is_rx} . "\n";
    #print "pkt is rx: " . $pkt->{is_rx} . "\n";
    #print "last pkt tid: " . $last_pkt->{tid} . "\n";
    #print "pkt tid: " . $pkt->{tid} . "\n";
    if (($last_pkt->{is_rx} == $pkt->{is_rx}) && $last_pkt->{tid} == $pkt->{tid}) {
      # We have two packets in an AMPDU train most likely
      #print "timedelta: " . $pkt->{timedelta} . "\n";
      $delta = $pkt->{timedelta};
    }
  }

  my $this_ampdu_pkt_count;
  my $ampdu_chain_time;
  my $is_last_ampdu = 0;
  if ($pkt->{is_ampdu} || $pkt->{is_msdu}) {
    if ($last_pkt->frame_num() != -1 && (!($last_pkt->{is_ampdu} || $last_pkt->{is_msdu}))) {
      # This is first ampdu since a non-ampdu frame.  Calculate diff between that and last BA
      if ($pkt->{is_rx} && ($last_ba_tx_pkt->{ba_valid})) {
	my $diff = $pkt->timestamp() - $last_ba_tx_pkt->timestamp();
	$ba_ampdu_gap_rx += $diff;
	$ba_ampdu_gap_rx_count++;
	if ($diff > 0.001) {
	  print "INFO:  TX BA to RX AMPDU gap: $diff between frames: " . $last_ba_tx_pkt->frame_num() . " and: " . $pkt->frame_num() . "\n";
	}
	$last_ba_tx_pkt->{ba_valid} = 0;
      } elsif ((!$pkt->{is_rx}) && ($last_ba_rx_pkt->{ba_valid})) {
	my $diff = $pkt->timestamp() - $last_ba_rx_pkt->timestamp();
	$ba_ampdu_gap_tx += $diff;
	$ba_ampdu_gap_tx_count++;
	if ($diff > 0.001) {
	  print "INFO:  RX BA to TX AMPDU gap: $diff between frames: " . $last_ba_rx_pkt->frame_num() . " and: " . $pkt->frame_num() . "\n";
	}
	$last_ba_rx_pkt->{ba_valid} = 0;
      }
    }

    if ($first_ampdu_pkt->seqno() != -1) {
      if (($first_ampdu_pkt->{is_rx} == $pkt->{is_rx}) && $pkt->{tid} == $first_ampdu_pkt->{tid}) {
	# Belongs to same tid, so must be part of the same pkt chain.
	# Calculate pkt count based on seqno, since sniffer probably misses a lot of frames
	# at high speed.
	if ($pkt->seqno() < $first_ampdu_pkt->seqno()) {
	  # Looks like we have a wrap.
	  $this_ampdu_pkt_count = 4096 - $first_ampdu_pkt->seqno();
	  $this_ampdu_pkt_count += $pkt->seqno();
	} else {
	  $this_ampdu_pkt_count = $pkt->seqno() - $first_ampdu_pkt->seqno();
	  $this_ampdu_pkt_count++; # range is inclusive
	}
	if ($pkt->{is_last_ampdu}) {
	  $is_last_ampdu = 1;
	  $ampdu_chain_time = $pkt->timestamp() - $first_ampdu_pkt->timestamp();
	  print "First ampdu pkt: " . $first_ampdu_pkt->frame_num() . " seqno: " . $first_ampdu_pkt->seqno()
	    . " last: " . $pkt->frame_num() . " seqno: " . $pkt->seqno()
	    . " chain-time: $ampdu_chain_time, chain-count: $this_ampdu_pkt_count.\n";
	  $first_ampdu_pkt->{seqno} = -1; # Initialize to invalid again.
	}
      } else {
	# We must have not captured the last one, so skip accounting this one.
	$first_ampdu_pkt->{seqno} = -1; # Initialize to invalid again.
      }
    } else {
      if (! $pkt->{is_last_ampdu}) {
	$this_ampdu_pkt_count = 1;
	$first_ampdu_pkt = $pkt;
      }
    }
  } else {
    # Not an ampdu frame
    # One way or another, we are done with ampdu frame sequence, zero this out
    # in case we didn't sniff the last one.
    # We must have not captured the last one, so skip accounting this one.
    $first_ampdu_pkt->{seqno} = -1; # Initialize to invalid again.
    if ($pkt->type_subtype() eq "802.11 Block Ack (0x0019)") {
      # Only grab the initial BA in case we have one side ignoring BA
      if ($pkt->{is_rx}) {
	if (!$last_ba_rx_pkt->{ba_valid}) {
	  $last_ba_rx_pkt = $pkt;
	  $last_ba_rx_pkt->{ba_valid} = 1;
	} else {
	  print "NOTE:  Multiple RX block-acks seen without ampdu between them, first BA frame: " . $last_ba_rx_pkt->frame_num()
	    . " this BA frame num: " . $pkt->frame_num() . "\n";
	  $dup_ba_rx++;
	}
      } else {
	if (!$last_ba_tx_pkt->{ba_valid}) {
	  $last_ba_tx_pkt = $pkt;
	  $last_ba_tx_pkt->{ba_valid} = 1;
	} else {
	  print "NOTE:  Multiple TX block-acks seen without ampdu between them, first BA frame: " . $last_ba_tx_pkt->frame_num()
	    . " this BA frame num: " . $pkt->frame_num() . "\n";
	  $dup_ba_tx++;
	}
      }
    }
  }

  $tot_pkts++;
  my $dr = $pkt->{datarate};
  if ($pkt->{is_rx}) {
    if ($delta != -1) {
      $delta_time_rx_count++;
      $delta_time_rx += $delta;
    }

    if ($is_last_ampdu) {
      $ampdu_chain_rx_count++;
      $ampdu_chain_rx_time += $ampdu_chain_time;
      $ampdu_pkt_count_total_rx += $this_ampdu_pkt_count;

      if (exists $glb_ampdu_pkt_count_rx_hash{$this_ampdu_pkt_count}) {
	$glb_ampdu_pkt_count_rx_hash{$this_ampdu_pkt_count}++;
      } else {
	$glb_ampdu_pkt_count_rx_hash{$this_ampdu_pkt_count} = 1;
      }
    }

    if (exists $glb_mcs_rx_hash{$dr}) {
      $glb_mcs_rx_hash{$dr}++;
    } else {
      $glb_mcs_rx_hash{$dr} = 1;
    }

    $dr = $pkt->{ppdu_format};
    if (exists $glb_encoding_type_rx_hash{$dr}) {
      $glb_encoding_type_rx_hash{$dr}++;
    } else {
      $glb_encoding_type_rx_hash{$dr} = 1;
    }

    $dr = $pkt->type_subtype() . $pkt->{priority};
    if (exists $glb_pkt_type_rx_hash{$dr}) {
      $glb_pkt_type_rx_hash{$dr}++;
    } else {
      $glb_pkt_type_rx_hash{$dr} = 1;
    }
    $rx_pkts++;
    $rx_amsdu_pkts += $pkt->{amsdu_frame_count};
    if ($pkt->retrans()) {
      $rx_retrans_pkts_all++;
      if ($pkt->{bytes_on_wire} > 1000) {
	print "Frame " . $pkt->{frame_num} . " is a BIG RX retransmit frame.\n";
	$rx_retrans_pkts_big++;
      }
      else {
	print "Frame " . $pkt->{frame_num} . " is an RX retransmit frame.\n";
      }

      $rx_amsdu_retrans_pkts += $pkt->{amsdu_frame_count};
    }
    my $ln = "" . $pkt->timestamp() . "\t" . $pkt->datarate() . "\n";
    print $glb_fh_mcs_rx $ln;
    if ($pkt->{bss_color_known}) {
       $ln = "" . $pkt->timestamp() . "\t" . $pkt->{bss_color} . "\n";
       print $glb_fh_color_rx $ln;
    }
    if ($pkt->{trigger_type_basic}) {
       # We may have multiple, split them out.
       my @toks = split(/,/, $pkt->{trigger_user_ru_alloc});
       my $ti;
       for ($ti = 0; $ti<@toks; $ti++) {
          my $tok = $toks[$ti];
          # tok looks like: 55 (106 tones)
          if ($tok =~ /\s*(\d+)\s+.*/) {
             $ln = "" . $pkt->timestamp() . "\t" . $1 . "\n";
             print $glb_fh_ru_alloc_rx $ln;
          }
       }
    }
    if ($pkt->{trigger_type_num} >= 0) {
       $ln = "" . $pkt->timestamp() . "\t" . $pkt->{trigger_type_num} . "\n";
       print $glb_fh_trig_type_rx $ln;
    }
    if ($pkt->retrans()) {
      $ln = "" . $pkt->timestamp() . "\t" . $pkt->retrans() . "\n";
      print $glb_fh_rtx_rx $ln;
    }
  } else {
    # else is tx
    if ($delta != -1) {
      $delta_time_tx_count++;
      $delta_time_tx += $delta;
    }

    if ($is_last_ampdu) {
      $ampdu_chain_tx_count++;
      $ampdu_chain_tx_time += $ampdu_chain_time;
      $ampdu_pkt_count_total_tx += $this_ampdu_pkt_count;

      if (exists $glb_ampdu_pkt_count_tx_hash{$this_ampdu_pkt_count}) {
	$glb_ampdu_pkt_count_tx_hash{$this_ampdu_pkt_count}++;
      } else {
	$glb_ampdu_pkt_count_tx_hash{$this_ampdu_pkt_count} = 1;
      }
    }

    if (exists $glb_mcs_tx_hash{$dr}) {
      $glb_mcs_tx_hash{$dr}++;
    } else {
      $glb_mcs_tx_hash{$dr} = 1;
    }

    $dr = $pkt->{ppdu_format};
    if (exists $glb_encoding_type_tx_hash{$dr}) {
      $glb_encoding_type_tx_hash{$dr}++;
    } else {
      $glb_encoding_type_tx_hash{$dr} = 1;
    }

    $dr = $pkt->type_subtype() . $pkt->{priority};
    if (exists $glb_pkt_type_tx_hash{$dr}) {
      $glb_pkt_type_tx_hash{$dr}++;
    } else {
      $glb_pkt_type_tx_hash{$dr} = 1;
    }
    $tx_pkts++;
    $tx_amsdu_pkts += $pkt->{amsdu_frame_count};
    if ($pkt->retrans()) {
      $tx_retrans_pkts_all++;
      if ($pkt->{bytes_on_wire} > 1000) {
	print "Frame " . $pkt->{frame_num} . " is a BIG TX retransmit frame.\n";
	$tx_retrans_pkts_big++;
      }
      else {
	print "Frame " . $pkt->{frame_num} . " is a TX retransmit frame.\n";
      }
      $tx_amsdu_retrans_pkts += $pkt->{amsdu_frame_count};
    }
    my $ln = "" . $pkt->timestamp() . "\t" . $pkt->datarate() . "\n";
    print $glb_fh_mcs_tx $ln;
    if ($pkt->{bss_color_known}) {
       $ln = "" . $pkt->timestamp() . "\t" . $pkt->{bss_color} . "\n";
       print $glb_fh_color_tx $ln;
    }
    if ($pkt->{ps_awake} != -1) {
       $ln = "" . $pkt->timestamp() . "\t" . $pkt->{ps_awake} . "\n";
       print $glb_fh_ps_tx $ln;
    }
    if ($pkt->{trigger_type_basic}) {
       # We may have multiple, split them out.
       my @toks = split(/,/, $pkt->{trigger_user_ru_alloc});
       my $ti;
       for ($ti = 0; $ti<@toks; $ti++) {
          my $tok = $toks[$ti];
          # tok looks like: 55 (106 tones)
          if ($tok =~ /\s*(\d+)\s+.*/) {
             $ln = "" . $pkt->timestamp() . "\t" . $1 . "\n";
             print $glb_fh_ru_alloc_tx $ln;
          }
       }
    }
    if ($pkt->{trigger_type_num} >= 0) {
       $ln = "" . $pkt->timestamp() . "\t" . $pkt->{trigger_type_num} . "\n";
       print $glb_fh_trig_type_tx $ln;
    }
    if ($pkt->retrans()) {
      $ln = "" . $pkt->timestamp() . "\t" . $pkt->retrans() . "\n";
      print $glb_fh_rtx_tx $ln;
    }
  }

  $dummy_rx_pkts += $pkt->{dummy_rx_pkts};
  $dummy_tx_pkts += $pkt->{dummy_tx_pkts};

  my $gen_ps = ($last_ps_timestamp + 1.0) < $pkt->{timestamp};
  if ($gen_ps) {
    my $diff =  $pkt->{timestamp} - $last_ps_timestamp;
    my $period_tot_pkts = $tot_pkts - $last_tot_pkts;
    my $period_rx_pkts = $rx_pkts - $last_rx_pkts;
    my $period_rx_amsdu_pkts = $rx_amsdu_pkts - $last_rx_amsdu_pkts;
    my $period_rx_retrans_pkts_all = $rx_retrans_pkts_all - $last_rx_retrans_pkts_all;
    my $period_rx_retrans_amsdu_pkts = $rx_amsdu_retrans_pkts - $last_rx_amsdu_retrans_pkts;
    my $period_tx_pkts = $tx_pkts - $last_tx_pkts;
    my $period_tx_amsdu_pkts = $tx_amsdu_pkts - $last_tx_amsdu_pkts;
    my $period_tx_retrans_pkts_all = $tx_retrans_pkts_all - $last_tx_retrans_pkts_all;
    my $period_tx_retrans_amsdu_pkts = $tx_amsdu_retrans_pkts - $last_tx_amsdu_retrans_pkts;
    my $period_dummy_rx_pkts = $dummy_rx_pkts - $last_dummy_rx_pkts;
    my $period_dummy_tx_pkts = $dummy_tx_pkts - $last_dummy_tx_pkts;

    my $period_tot_pkts_ps = ($period_tot_pkts + $period_dummy_tx_pkts + $period_dummy_rx_pkts) / $diff;
    my $period_rx_pkts_ps = ($period_rx_pkts + $period_dummy_rx_pkts) / $diff;
    my $period_rx_amsdu_pkts_ps = $period_rx_amsdu_pkts / $diff;
    my $period_rx_retrans_pkts_ps = $period_rx_retrans_pkts_all / $diff;
    my $period_rx_retrans_amsdu_pkts_ps = $period_rx_retrans_amsdu_pkts / $diff;
    my $period_tx_pkts_ps = ($period_tx_pkts + $period_dummy_tx_pkts) / $diff;
    my $period_tx_amsdu_pkts_ps = $period_tx_amsdu_pkts / $diff;
    my $period_tx_retrans_pkts_ps = $period_tx_retrans_pkts_all / $diff;
    my $period_tx_retrans_amsdu_pkts_ps = $period_tx_retrans_amsdu_pkts / $diff;
    my $period_dummy_rx_pkts_ps = $period_dummy_rx_pkts / $diff;
    my $period_dummy_tx_pkts_ps = $period_dummy_tx_pkts / $diff;

    $last_ps_timestamp = $pkt->timestamp();
    $last_tot_pkts = $tot_pkts;
    $last_rx_pkts = $rx_pkts;
    $last_rx_amsdu_pkts = $rx_amsdu_pkts;
    $last_rx_retrans_pkts_all = $rx_retrans_pkts_all;
    $last_rx_amsdu_retrans_pkts = $rx_amsdu_retrans_pkts;
    $last_tx_pkts = $tx_pkts;
    $last_tx_amsdu_pkts = $tx_amsdu_pkts;
    $last_tx_retrans_pkts_all = $tx_retrans_pkts_all;
    $last_tx_amsdu_retrans_pkts = $tx_amsdu_retrans_pkts;
    $last_dummy_rx_pkts = $dummy_rx_pkts;
    $last_dummy_tx_pkts = $dummy_tx_pkts;

    # 'tidno is -1 here, keeping format similar to the per-tid data to make generating reports easier.
    my $ln =  "" . $pkt->timestamp() . "\t-1\t$diff\t$period_tot_pkts_ps\t" .
      "$period_rx_pkts_ps\t$period_rx_retrans_pkts_ps\t$period_rx_amsdu_pkts_ps\t$period_rx_retrans_amsdu_pkts_ps\t$period_dummy_rx_pkts_ps\t" .
	"$period_tx_pkts_ps\t$period_tx_retrans_pkts_ps\t$period_tx_amsdu_pkts_ps\t$period_tx_retrans_amsdu_pkts_ps\t$period_dummy_tx_pkts_ps\n";
    print $glb_fh_mcs_ps $ln;
  }

  $last_pkt = $pkt;

  #print "pkt: rcvr: " . $pkt->receiver() . " transmitter: " . $pkt->transmitter() . "\n";
}