kopia lustrzana https://github.com/projecthorus/radiosonde_auto_rx
228 wiersze
6.3 KiB
Perl
Executable File
228 wiersze
6.3 KiB
Perl
Executable File
#!/usr/bin/env perl
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use strict;
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use warnings;
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use POSIX qw(strftime);
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## rs_detect.c return:
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## #define DFM 2
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## #define RS41 3
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## #define RS92 4
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## #define M10 5
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## #define iMet 6
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my $log_dir = "log";
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my $utc = strftime('%Y%m%d_%H%M%S', gmtime);
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print $utc, "UTC", "\n";
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my $powfile = sprintf "log_power\.csv";
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my $ppm = 54;
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my $fos = 403200000 * ( 1 + $ppm/1000000 ); # 403.2MHz-Linie
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my $scan_f1 = "400.6M";
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my $scan_f2 = "405.9M";
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my $line;
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my @fields;
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my $date;
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my $time;
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my $f1;
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my $f2;
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my $f;
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my $step;
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my @db;
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my $i;
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my $j;
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my $peak = 0;
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my $peak_start;
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my $peak_end = 0;
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my $freq;
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my $ret;
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my $inv;
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my $dec;
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my $wavfile;
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my $filter;
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my $breite = "";
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my $rs;
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my $WFM;
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my $squelch;
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my $snr = 6;
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my @peakarray;
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my $num_peaks;
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print "[rtl_power: scan $scan_f1:$scan_f2]\n";
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system("timeout 30 rtl_power -p $ppm -f $scan_f1:$scan_f2:800 -i20 -1 $powfile 2>/dev/null");
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if ( $? == -1 ) {
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print "Fehler: $!\n";
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}
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my $fh;
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open ($fh, '<', "$powfile") or die "Kann '$powfile' nicht oeffnen: $!\n";
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@peakarray = ();
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my $num_lines = 0;
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while ($line = <$fh>) {
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$num_lines += 1;
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chomp $line;
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@db = split(",", $line);
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$date = $db[0];
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shift @db;
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$time = $db[0];
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shift @db;
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$f1 = $db[0];
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shift @db;
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$f2 = $db[0];
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shift @db;
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$step = $db[0];
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shift @db;
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shift @db;
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my $sum = eval join '+', @db;
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my $mean = $sum / scalar(@db);
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#printf "level: %.1f\n", $mean;
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$squelch = $mean + $snr;
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$peak = 0;
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$peak_start = $peak_end = 0;
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for ($j = 0; $j < scalar(@db)-1; $j++) {
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if ($db[$j] > $squelch) {
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if ($peak == 0) {
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$peak_start = $f1 + $j*$step;
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}
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$peak = 1;
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}
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elsif ($peak > 0) {
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if ($db[$j+1] <= $squelch) {
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$peak_end = $f1 + ($j-1)*$step;
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$peak = 0;
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}
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if ($peak_start < $peak_end) {
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$freq = $peak_start + ($peak_end-$peak_start)/2;
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if ( !($freq > $fos-1000 && $freq < $fos+1000) ) { ## 403.2MHz-Linie auslassen
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push @peakarray, $freq;
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}
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}
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}
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}
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}
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close $fh;
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if ($num_lines == 0) {
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print "[reset dvb-t ...]\n";
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reset_dvbt();
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}
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else {
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$num_peaks = scalar(@peakarray);
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for ($j = 0; $j < $num_peaks-1; $j++) {
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if ($peakarray[$j+1]-$peakarray[$j] < 10e3) { # DFM peak-to-peak: 6kHz
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push @peakarray, $peakarray[$j]+($peakarray[$j+1]-$peakarray[$j])/2;
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}
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elsif ($peakarray[$j+1]-$peakarray[$j] < 34e3) { # iMet peak-to-peak: 24kHz
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push @peakarray, $peakarray[$j]+($peakarray[$j+1]-$peakarray[$j])/2;
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}
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}
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print "[rtl_fm: detect/decode]\n";
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for ($j = 0; $j < $num_peaks; $j++) {
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$freq = sprintf "%.0f", $peakarray[$j];
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eval {
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local $SIG{ALRM} = sub {die "alarm\n"};
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alarm 30; # beide Bandbreiten
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print "\n$freq Hz: "; # detect ohne highpass 20
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system("timeout 12s rtl_fm -p $ppm -M fm -s 15k -f $freq 2>/dev/null |\
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sox -t raw -r 15k -e s -b 16 -c 1 - -r 48000 -t wav - 2>/dev/null |\
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./rs_detect -s -z -t 8 2>/dev/null");
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$ret = $? >> 8;
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if (!$ret) { # mehr Bandbreite bei iMet
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system("timeout 12s rtl_fm -p $ppm -M fm -s 36k -o 4 -f $freq 2>/dev/null |\
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sox -t raw -r 36k -e s -b 16 -c 1 - -r 48000 -t wav - 2>/dev/null |\
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./rs_detect -s -z -t 8 2>/dev/null");
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$ret = $? >> 8;
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}
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alarm 0;
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};
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if ($@) {
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die unless $@ =~ /alarm/;
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reset_dvbt();
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print "[reset dvb-t ...]\n";
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}
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if ($ret) {
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if ($ret & 0x80) {
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$inv = '-i';
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$ret = - (0x100 - $ret); # obwohl ($ret & 0x80) = core dump
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}
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else { $inv = ''; }
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$rs = "";
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$WFM = "";
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if (abs($ret) == 2) { $rs = "dfm"; $breite = "15k"; $dec = './dfm06 -vv --ecc'; $filter = "lowpass 2000 highpass 20"; }
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if (abs($ret) == 3) { $rs = "rs41"; $breite = "12k"; $dec = './rs41ecc --ecc -v'; $filter = "lowpass 2600"; }
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if (abs($ret) == 4) { $rs = "rs92"; $breite = "12k"; $dec = './rs92gps --vel2 -a almanac.txt'; $filter = "lowpass 2500 highpass 20"; }
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if (abs($ret) == 5) { $rs = "m10"; $breite = "24k"; $dec = './m10x -vv'; $filter = "highpass 20"; }
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if (abs($ret) == 6) { $rs = "imet"; $breite = "40k"; $dec = './imet1ab -v'; $filter = "highpass 20"; $WFM = "-o 4"; }
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if ($inv) { print "-";} print uc($rs)," ($utc)\n";
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$utc = strftime('%Y%m%d_%H%M%S', gmtime);
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$wavfile = $rs."-".$utc."Z-".$freq."Hz.wav";
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if ($rs) {
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system("timeout 30s rtl_fm -p $ppm -M fm $WFM -s $breite -f $freq 2>/dev/null |\
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sox -t raw -r $breite -e s -b 16 -c 1 - -r 48000 -b 8 -t wav - $filter 2>/dev/null |\
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tee $log_dir/$wavfile | $dec $inv 2>/dev/null");
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}
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}
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}
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print "\n";
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}
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print "\n=\n";
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## $snr: peak sensitivity: wenn zu niedrig, viele Kandidaten;
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## wenn zu hoch, zu wenige (rs41 sendet nur 1/2 sek.
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## andere Methoden:
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## Fenster/Bandbreite aufsummieren/integrieren; Schwerpunkt;
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## rtl-sdr IQ-Band: 1 Minute aufnehmen und dann analysieren/scannen.
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##
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## rs92: aktuellen (SEM) almanac.txt
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## wenn brdc-emphemerides (-e) benutzt werden, darauf achten, dass diese
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## aktuell sind, wenn ueber laengeren Zeitraum gescannt wird
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##
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## rs_detect.c und decoder: gleiche Polaritaet in read_bits_fsk(),
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## am besten als gemeinsame include-Datei wav_audio.c
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###################################################################################################
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## http://askubuntu.com/questions/645/how-do-you-reset-a-usb-device-from-the-command-line
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## usbreset.c -> reset_usb
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sub reset_dvbt {
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my @devices = split("\n",`lsusb`);
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foreach my $line (@devices) {
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if ($line =~ /\w+\s(\d+)\s\w+\s(\d+):\sID\s([0-9a-f]+):([0-9a-f]+).+Realtek Semiconductor Corp\./) {
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if ($4 eq "2832" || $4 eq "2838") {
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system("./reset_usb /dev/bus/usb/$1/$2");
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}
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}
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}
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}
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