freebsd-nq/contrib/ntp/scripts/summary.pl
1999-12-09 13:01:21 +00:00

358 lines
11 KiB
Perl

#!/usr/bin/perl -w
# $Id: summary.pl,v 1.1.1.1 1999/05/26 00:48:25 stenn Exp $
# Perl version of (summary.sh, loop.awk, peer.awk):
# Create summaries from xntpd's loop and peer statistics.
#
# Copyright (c) 1997, Ulrich Windl <Ulrich.Windl@rz.uni-regensburg.de>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
require 5.003; # "never tested with any other version of Perl"
use strict;
use Getopt::Long;
my $statsdir = ".";
my $skip_time_steps = 3600.0; # ignore time offsets larger that this
my $startdate = "19700101"; # first data file to use
my $enddate=`date -u +%Y%m%d`; chomp $enddate; --$enddate;
my $peer_dist_limit = 400.0;
my %options = ("directory=s" => \$statsdir,
"skip-time-steps:f" => \$skip_time_steps,
"start-date=s" => \$startdate,
"end-date=s" => \$enddate,
"peer-dist-limit=f" => \$peer_dist_limit);
if ( !GetOptions(%options) )
{
print STDERR "valid options for $0 are:\n";
my $opt;
foreach $opt (sort(keys %options)) {
print STDERR "\t--$opt ";
if ( ref($options{$opt}) eq "ARRAY" ) {
print STDERR "(" . join (" ", @{$options{$opt}}) . ")\n";
} else {
print STDERR "(${$options{$opt}})\n";
}
}
print STDERR "\n";
die;
}
die "$statsdir: no such directory" unless (-d $statsdir);
die "$skip_time_steps: skip-time-steps must be positive"
unless ($skip_time_steps >= 0.0);
die "$startdate: invalid start date"
unless ($startdate =~ m/.*([12]\d{3}[01]\d[0-3]\d)$/);
die "$enddate: invalid end date"
unless ($enddate =~ m/.*([12]\d{3}[01]\d[0-3]\d)$/);
$skip_time_steps = 0.128 if ($skip_time_steps == 0);
sub min
{
my ($result, @rest) = @_;
map { $result = $_ if ($_ < $result) } @rest;
return($result);
}
sub max
{
my ($result, @rest) = @_;
map { $result = $_ if ($_ > $result) } @rest;
return($result);
}
# calculate mean, range, and standard deviation for offset and frequency
sub do_loop
{
my ($directory, $fname, $out_file) = @_;
print "$directory/$fname\n";
open INPUT, "$directory/$fname";
open OUTPUT, ">>$out_file" or die "can't open $out_file: $!";
print OUTPUT "$fname\n";
my ($loop_tmax, $loop_fmax) = (-1e9, -1e9);
my ($loop_tmin, $loop_fmin) = (1e9, 1e9);
my ($loop_time_rms, $loop_freq_rms) = (0, 0);
my $loop_count = 0;
my $loop_time = 0;
my $loop_freq = 0;
my ($freq, $offs);
my @Fld;
while (<INPUT>) {
chop; # strip record separator
@Fld = split;
next if ($#Fld < 4);
# 50529 74356.259 -0.000112 16.1230 8
if ($Fld[2] > $skip_time_steps || $Fld[2] < -$skip_time_steps) {
warn "ignoring loop offset $Fld[2] (file $fname, line $.)\n";
next
}
$loop_count++;
($offs, $freq) = ($Fld[2], $Fld[3]);
$loop_tmax = max($loop_tmax, $offs);
$loop_tmin = min($loop_tmin, $offs);
$loop_fmax = max($loop_fmax, $freq);
$loop_fmin = min($loop_fmin, $freq);
$loop_time += $offs;
$loop_time_rms += $offs * $offs;
$loop_freq += $freq;
$loop_freq_rms += $freq * $freq;
}
close INPUT;
if ($loop_count > 1) {
$loop_time /= $loop_count;
$loop_time_rms = $loop_time_rms / $loop_count - $loop_time * $loop_time;
if ($loop_time_rms < 0) {
warn "loop_time_rms: $loop_time_rms < 0";
$loop_time_rms = 0;
}
$loop_time_rms = sqrt($loop_time_rms);
$loop_freq /= $loop_count;
$loop_freq_rms = $loop_freq_rms / $loop_count - $loop_freq * $loop_freq;
if ($loop_freq_rms < 0) {
warn "loop_freq_rms: $loop_freq_rms < 0";
$loop_freq_rms = 0;
}
$loop_freq_rms = sqrt($loop_freq_rms);
printf OUTPUT
("loop %d, %.0f+/-%.1f, rms %.1f, freq %.2f+/-%0.3f, var %.3f\n",
$loop_count, ($loop_tmax + $loop_tmin) / 2 * 1e6,
($loop_tmax - $loop_tmin) / 2 * 1e6, $loop_time_rms * 1e6,
($loop_fmax + $loop_fmin) / 2, ($loop_fmax - $loop_fmin) / 2,
$loop_freq_rms);
}
else {
warn "no valid lines in $directory/$fname";
}
close OUTPUT
}
# calculate mean, standard deviation, maximum offset, mean dispersion,
# and maximum distance for each peer
sub do_peer
{
my ($directory, $fname, $out_file) = @_;
print "$directory/$fname\n";
open INPUT, "$directory/$fname";
open OUTPUT, ">>$out_file" or die "can't open $out_file: $!";
print OUTPUT "$fname\n";
# we toss out all distances greater than one second on the assumption the
# peer is in initial acquisition
my ($n, $MAXDISTANCE) = (0, 1.0);
my %peer_time;
my %peer_time_rms;
my %peer_count;
my %peer_delay;
my %peer_disp;
my %peer_dist;
my %peer_ident;
my %peer_tmin;
my %peer_tmax;
my @Fld;
my ($i, $j);
my ($dist, $offs);
while (<INPUT>) {
chop; # strip record separator
@Fld = split;
next if ($#Fld < 6);
# 50529 83316.249 127.127.8.1 9674 0.008628 0.00000 0.00700
$dist = $Fld[6] + $Fld[5] / 2;
next if ($dist > $MAXDISTANCE);
$offs = $Fld[4];
if ($offs > $skip_time_steps || $offs < -$skip_time_steps) {
warn "ignoring peer offset $offs (file $fname, line $.)\n";
next
}
$i = $n;
for ($j = 0; $j < $n; $j++) {
if ($Fld[2] eq $peer_ident{$j}) {
$i = $j; # peer found
last;
}
}
if ($i == $n) { # add new peer
$peer_ident{$i} = $Fld[2];
$peer_tmax{$i} = $peer_dist{$i} = -1e9;
$peer_tmin{$i} = 1e9;
$peer_time{$i} = $peer_time_rms{$i} = 0;
$peer_delay{$i} = $peer_disp{$i} = 0;
$peer_count{$i} = 0;
$n++;
}
$peer_count{$i}++;
$peer_tmax{$i} = max($peer_tmax{$i}, $offs);
$peer_tmin{$i} = min($peer_tmin{$i}, $offs);
$peer_dist{$i} = max($peer_dist{$i}, $dist);
$peer_time{$i} += $offs;
$peer_time_rms{$i} += $offs * $offs;
$peer_delay{$i} += $Fld[5];
$peer_disp{$i} += $Fld[6];
}
close INPUT;
print OUTPUT
" ident cnt mean rms max delay dist disp\n";
print OUTPUT
"==========================================================================\n";
my @lines = ();
for ($i = 0; $i < $n; $i++) {
next if $peer_count{$i} < 2;
$peer_time{$i} /= $peer_count{$i};
$peer_time_rms{$i} = sqrt($peer_time_rms{$i} / $peer_count{$i} -
$peer_time{$i} * $peer_time{$i});
$peer_delay{$i} /= $peer_count{$i};
$peer_disp{$i} /= $peer_count{$i};
$peer_tmax{$i} = $peer_tmax{$i} - $peer_time{$i};
$peer_tmin{$i} = $peer_time{$i} - $peer_tmin{$i};
if ($peer_tmin{$i} > $peer_tmax{$i}) { # can this happen at all?
$peer_tmax{$i} = $peer_tmin{$i};
}
push @lines, sprintf
"%-15s %4d %8.3f %8.3f %8.3f %8.3f %8.3f %8.3f\n",
$peer_ident{$i}, $peer_count{$i}, $peer_time{$i} * 1e3,
$peer_time_rms{$i} * 1e3, $peer_tmax{$i} * 1e3,
$peer_delay{$i} * 1e3, $peer_dist{$i} * 1e3, $peer_disp{$i} * 1e3;
}
print OUTPUT sort @lines;
close OUTPUT;
}
sub do_clock
{
my ($directory, $fname, $out_file) = @_;
print "$directory/$fname\n";
open INPUT, "$directory/$fname";
open OUTPUT, ">>$out_file" or die "can't open $out_file: $!";
print OUTPUT "$fname\n";
close INPUT;
close OUTPUT;
}
sub peer_summary
{
my $in_file = shift;
my ($i, $j, $n);
my (%peer_ident, %peer_count, %peer_mean, %peer_var, %peer_max);
my (%peer_1, %peer_2, %peer_3, %peer_4);
my $dist;
my $max;
open INPUT, "<$in_file" or die "can't open $in_file: $!";
my @Fld;
$n = 0;
while (<INPUT>) {
chop; # strip record separator
@Fld = split;
next if ($#Fld < 7 || $Fld[0] eq 'ident');
$i = $n;
for ($j = 0; $j < $n; $j++) {
if ($Fld[0] eq $peer_ident{$j}) {
$i = $j;
last; # peer found
}
}
if ($i == $n) { # add new peer
$peer_count{$i} = $peer_mean{$i} = $peer_var{$i} = 0;
$peer_max{$i} = 0;
$peer_1{$i} = $peer_2{$i} = $peer_3{$i} = $peer_4{$i} = 0;
$peer_ident{$i} = $Fld[0];
++$n;
}
$dist = $Fld[6] - $Fld[5] / 2;
if ($dist < $peer_dist_limit) {
$peer_count{$i}++;
$peer_mean{$i} += $Fld[2];
$peer_var{$i} += $Fld[3] * $Fld[3];
$max = $Fld[4];
$peer_max{$i} = max($peer_max{$i}, $max);
if ($max > 1) {
$peer_1{$i}++;
if ($max > 5) {
$peer_2{$i}++;
if ($max > 10) {
$peer_3{$i}++;
if ($max > 50) {
$peer_4{$i}++;
}
}
}
}
}
else {
warn "dist exceeds limit: $dist (file $in_file, line $.)\n";
}
}
close INPUT;
my @lines = ();
print
" host days mean rms max >1 >5 >10 >50\n";
print
"==================================================================\n";
for ($i = 0; $i < $n; $i++) {
next if ($peer_count{$i} < 2);
$peer_mean{$i} /= $peer_count{$i};
$peer_var{$i} = sqrt($peer_var{$i} / $peer_count{$i} -
$peer_mean{$i} * $peer_mean{$i});
push @lines, sprintf
"%-15s %3d %9.3f% 9.3f %9.3f %3d %3d %3d %3d\n",
$peer_ident{$i}, $peer_count{$i}, $peer_mean{$i}, $peer_var{$i},
$peer_max{$i}, $peer_1{$i}, $peer_2{$i}, $peer_3{$i}, $peer_4{$i};
}
print sort @lines;
}
my $loop_summary="/tmp/loop_summary";
my $peer_summary="/tmp/peer_summary";
my $clock_summary="/tmp/clock_summary";
my (@loopfiles, @peerfiles, @clockfiles);
print STDERR "Creating summaries from $statsdir ($startdate to $enddate)\n";
opendir SDIR, $statsdir or die "directory ${statsdir}: $!";
rewinddir SDIR;
@loopfiles=sort grep /loop.*[12]\d{3}[01]\d[0-3]\d/, readdir SDIR;
rewinddir SDIR;
@peerfiles=sort grep /peer.*[12]\d{3}[01]\d[0-3]\d/, readdir SDIR;
rewinddir SDIR;
@clockfiles=sort grep /clock.*[12]\d{3}[01]\d[0-3]\d/, readdir SDIR;
closedir SDIR;
map { unlink $_ if -f $_ } ($loop_summary, $peer_summary, $clock_summary);
my $date;
map {
$date = $_; $date =~ s/.*([12]\d{3}[01]\d[0-3]\d)$/$1/;
if ($date ge $startdate && $date le $enddate) {
do_loop $statsdir, $_, $loop_summary;
}
} @loopfiles;
map {
$date = $_; $date =~ s/.*([12]\d{3}[01]\d[0-3]\d)$/$1/;
if ($date ge $startdate && $date le $enddate) {
do_peer $statsdir, $_, $peer_summary;
}
} @peerfiles;
map {
$date = $_; $date =~ s/.*([12]\d{3}[01]\d[0-3]\d)$/$1/;
if ($date ge $startdate && $date le $enddate) {
do_clock $statsdir, $_, $clock_summary;
}
} @clockfiles;
print STDERR "Creating peer summary with limit $peer_dist_limit\n";
peer_summary $peer_summary if (-f $peer_summary);