our @ISA = qw(DXChannel);
-our $startup_delay =0;#3*60; # don't send anything out until this timer has expired
+our $startup_delay = 10*60; # don't send anything out until this timer has expired
# this is to allow the feed to "warm up" with duplicates
- # so that the "big rush" doesn't happen.
+ # so that the "big rush" doesn't happen.
our $minspottime = 60*60; # the time between respots of a callsign - if a call is
# still being spotted (on the same freq) and it has been
if ($mode eq 'RTTY') {
$mode = 'RTT';
}
-
- # We have an RBN data line, dedupe it very simply on time, ignore QRG completely.
- # This works because the skimmers are NTP controlled (or should be) and will receive
- # the spot at the same time (velocity factor of the atmosphere and network delays
- # carefully (not) taken into account :-)
-
- # Note, there is no intelligence here, but there are clearly basic heuristics that could
- # be applied at this point that reject (more likely rewrite) the call of a busted spot that would
- # useful for a zonal hotspot requirement from the cluster node.
- # In reality, this mechanism would be incorporated within the cluster code, utilising the dxqsl database,
- # and other resources in DXSpider, thus creating a zone map for an emitted spot. This is then passed through the
- # normal "to-user" spot system (where normal spots are sent to be displayed per user) and then be
- # processed through the normal, per user, spot filtering system - like a regular spot.
+ # The main de-duping key is [call, $frequency], but we probe a bit around that frequency to find a
+ # range of concurrent frequencies that might be in play.
# The key to this is deducing the true callsign by "majority voting" (the greater the number of spotters
# the more effective this is) together with some lexical analsys probably in conjuction with DXSpider
# process to just the standard "message passing" which has been shown to be able to sustain over 5000
# per second (limited by the test program's output and network speed, rather than DXSpider's handling).
- my $nqrg = nearest(.5, $qrg); # normalised to nearest Khz
+ my $nqrg = nearest(1, $qrg); # normalised to nearest Khz
my $sp = "$call|$nqrg"; # hopefully the skimmers will be calibrated at least this well!
+ my $spp = sprintf("$call|%d", $nqrg+1); # but, clearly, my hopes are rudely dashed
+ my $spm = sprintf("$call|%d", $nqrg-1); # in BOTH directions!
# do we have it?
my $spot = $spots->{$sp};
+ $spot = $spots->{$spp}, $sp = $spp, dbg('SPP') if !$spot && exists $spots->{$spp};
+ $spot = $spots->{$spm}, $sp = $spm, dbg('SPM') if !$spot && exists $spots->{$spm};
+
# if we have one and there is only one slot and that slot's time isn't expired for respot then return
my $respot = 0;
- if ($spot && @$spot == 1) {
- unless ($self->{minspottime} > 0 && $tim - $spot->[0] >= $self->{minspottime}) {
- dbg("RBN: key: '$sp' call: $call qrg: $qrg DUPE \@ ". atime(int $spot->[0])) if isdbg('rbn');
- return;
+ if ($spot && ref $spot) {
+ if (@$spot == 1) {
+ unless ($self->{minspottime} > 0 && $tim - $spot->[0] >= $self->{minspottime}) {
+ dbg("RBN: key: '$sp' call: $call qrg: $qrg DUPE \@ ". atime(int $spot->[0])) if isdbg('rbn');
+ return;
+ }
+
+ dbg("RBN: key: '$sp' RESPOTTING call: $call qrg: $qrg last seen \@ ". atime(int $spot->[0])) if isdbg('rbn');
+ ++$respot;
}
- dbg("RBN: key: '$sp' RESPOTTING call: $call qrg: $qrg last seen \@ ". atime(int $spot->[0])) if isdbg('rbn');
- ++$respot;
+ } elsif ($spot) {
+ dbg("RBN: key '$sp' = '$spot' not ref");
+ return;
}
# here we either have an existing spot record buildup on the go, or we need to create the first one
# add me to the display queue unless we are waiting for initial in rush to finish
return unless $self->{inrushpreventor} < $main::systime;
- push @queue, $sp if @$spot == 1; # queue the KEY (not the record)
+ push @{$self->{queue}}, $sp if @$spot == 1; # queue the KEY (not the record)
# build up a new record and store it in the buildup
# deal with the unix time
$utz -= 86400 if $utz > $tim+3600; # too far ahead, drag it back one day
# create record and add into the buildup
- my $r = [$origin, nearest(.1, $qrg), $call, $mode, $s, $t, $utz, $respot];
+ my $r = [$origin, nearest(.1, $qrg), $call, $mode, $s, $t, $utz, $respot, $u];
dbg("RBN: key: '$sp' ADD RECORD call: $call qrg: $qrg origin: $origin") if isdbg('rbn');
push @$spot, $r;
my $now = clock_gettime(CLOCK_REALTIME);
# now run the waiting queue which just contains KEYS ($call|$qrg)
- foreach $sp (@queue) {
+ foreach $sp (@{$self->{queue}}) {
my $cand = $spots->{$sp};
- if ($now >= $cand->[0]+$dwelltime ) {
+ unless ($cand && $cand->[0]) {
+ dbg "RBN Cand " . ($cand ? 'def' : 'undef') . " [0] " . ($cand->[0] ? 'def' : 'undef') . " dwell $dwelltime";
+ next;
+ }
+ if ($now >= $cand->[0] + $dwelltime ) {
# we have a candidate, create qualitee value(s);
unless (@$cand > 1) {
dbg "RBN: QUEUE key '$sp' MISSING RECORDS " . dd($cand) if isdbg 'rbn';
- shift @queue;
+ shift @{$self->{queue}};
next;
}
my $savedtime = shift @$cand; # save the start time
# clear out the data and make this now just "spotted", but no further action required until respot time
dbg "RBN: QUEUE key '$sp' cleared" if isdbg 'rbn';
+
$spots->{$sp} = [$savedtime];
- shift @queue;
+ shift @{$self->{queue}};
} else {
dbg sprintf("RBN: QUEUE key: '$sp' SEND time not yet reached %.1f secs left", $spot->[0] + $dwelltime - $now) if isdbg 'rbnqueue';
}
my $saver;
my %zone;
+ my %qrg;
+ my $respot;
+
foreach my $r (@$spot) {
- # $r = [$origin, $qrg, $call, $mode, $s, $t, $utz, $respot];
+ # $r = [$origin, $qrg, $call, $mode, $s, $t, $utz, $respot, $qra];
# Spot::prepare($qrg, $call, $utz, $comment, $origin);
my $comment = sprintf "%-3s %2ddB $quality", $r->[3], $r->[4];
my @s = Spot::prepare($r->[1], $r->[2], $r->[6], $comment, $r->[0]);
-
+ $respot = 1 if $r->[7];
++$zone{$s[11]}; # save the spotter's zone
+ ++$qrg{$s[0]}; # and the qrg
+
# save the highest strength one
if ($r->[4] < $strength) {
if ($saver) {
my $buf;
+ # create a zone list of spotters
delete $zone{$saver->[11]}; # remove this spotter's zone (leaving all the other zones)
my $z = join ',', sort {$a <=> $b} keys %zone;
- $saver->[3] .= " Z:$z" if length $z;
+
+ # determine the most likely qrg and then set it
+ my $mv = 0;
+ my $fk;
+ my $c = 0;
+ while (my ($k, $v) = each %qrg) {
+ $fk = $k, $mv = $v if $v > $mv;
+ ++$c;
+ }
+ $saver->[0] = $fk;
+ $saver->[3] .= '*' if $c > 1;
+ $saver->[3] .= '+' if $respot;
+ $saver->[3] .= " Z:$z" if $z;
+
dbg("RBN: SENDING call: $saver->[1] qrg: $saver->[0] origin: $saver->[4] $saver->[3]") if isdbg 'rbn';
if ($dxchan->{ve7cc}) {
$buf = VE7CC::dx_spot($dxchan, @$saver);
}
$buf =~ s/^DX/RB/;
$dxchan->local_send('N', $buf);
+
+ if ($saver->[8] && is_qra($saver->[8])) {
+ my $user = DXUser::get_current($s[1]) || DXUser::new($s[1]);
+ $user->qra($saver->[8]) unless $user->qra;
+ $user->lastseen($main::systime);
+ }
}
}