# # module to manage channel lists & data # # This is the base class for all channel operations, which is everything to do # with input and output really. # # The instance variable in the outside world will be generally be called $dxchan # # This class is 'inherited' (if that is the goobledegook for what I am doing) # by various other modules. The point to understand is that the 'instance variable' # is in fact what normal people would call the state vector and all useful info # about a connection goes in there. # # Another point to note is that a vector may contain a list of other vectors. # I have simply added another variable to the vector for 'simplicity' (or laziness # as it is more commonly called) # # PLEASE NOTE - I am a C programmer using this as a method of learning perl # firstly and OO about ninthly (if you don't like the design and you can't # improve it with better OO and thus make it smaller and more efficient, then tough). # # Copyright (c) 1998-2000 - Dirk Koopman G1TLH # # # package DXChannel; use Msg; use DXM; use DXUtil; use DXVars; use DXDebug; use Filter; use Prefix; use Route; use strict; use vars qw(%channels %valid @ISA $count); %channels = (); $count = 0; %valid = ( call => '0,Callsign', conn => '9,Msg Conn ref', user => '9,DXUser ref', startt => '0,Start Time,atime', t => '9,Time,atime', pc50_t => '5,Last PC50 Time,atime', priv => '9,Privilege', state => '0,Current State', oldstate => '5,Last State', list => '9,Dep Chan List', name => '0,User Name', consort => '5,Connection Type', 'sort' => '5,Type of Channel', wwv => '0,Want WWV,yesno', wcy => '0,Want WCY,yesno', wx => '0,Want WX,yesno', talk => '0,Want Talk,yesno', ann => '0,Want Announce,yesno', here => '0,Here?,yesno', conf => '0,In Conference?,yesno', dx => '0,DX Spots,yesno', redirect => '0,Redirect messages to', lang => '0,Language', func => '5,Function', loc => '9,Local Vars', # used by func to store local variables in beep => '0,Want Beeps,yesno', lastread => '5,Last Msg Read', outbound => '5,outbound?,yesno', remotecmd => '9,doing rcmd,yesno', pagelth => '0,Page Length', pagedata => '9,Page Data Store', group => '0,Access Group,parray', # used to create a group of users/nodes for some purpose or other isolate => '5,Isolate network,yesno', delayed => '5,Delayed messages,parray', annfilter => '5,Ann Filt-out', wwvfilter => '5,WWV Filt-out', wcyfilter => '5,WCY Filt-out', spotsfilter => '5,Spot Filt-out', routefilter => '5,Route Filt-out', inannfilter => '5,Ann Filt-inp', inwwvfilter => '5,WWV Filt-inp', inwcyfilter => '5,WCY Filt-inp', inspotsfilter => '5,Spot Filt-inp', inroutefilter => '5,Route Filt-inp', passwd => '9,Passwd List,yesno', pingint => '5,Ping Interval ', nopings => '5,Ping Obs Count', lastping => '5,Ping last sent,atime', pingtime => '5,Ping totaltime,parray', pingave => '0,Ping ave time', logininfo => '9,Login info req,yesno', talklist => '0,Talk List,parray', cluster => '5,Cluster data', isbasic => '9,Internal Connection', errors => '9,Errors', route => '9,Route Data', dxcc => '0,Country Code', itu => '0,ITU Zone', cq => '0,CQ Zone', enhanced => '5,Enhanced Client,yesno', gtk => '5,Using GTK,yesno', senddbg => '8,Sending Debug,yesno', width => '0,Column Width', disconnecting => '9,Disconnecting,yesno', ann_talk => '0,Suppress Talk Anns,yesno', metric => '1,Route metric', badcount => '1,Bad Word Count', edit => '7,Edit Function', registered => '9,Registered?,yesno', prompt => '0,Required Prompt', version => '1,Node Version', build => '1,Node Build', verified => '9,Verified?,yesno', newroute => '1,New Style Routing,yesno', ve7cc => '0,VE7CC program special,yesno', lastmsgpoll => '0,Last Msg Poll,atime', inscript => '9,In a script,yesno', handle_xml => '9,Handles XML,yesno', do_pc9x => '9,Handles PC9x,yesno', inqueue => '9,Input Queue,parray', next_pc92_update => '9,Next PC92 Update,atime', next_pc92_keepalive => '9,Next PC92 KeepAlive,atime', ); # object destruction sub DESTROY { my $self = shift; for (keys %$self) { if (ref($self->{$_})) { delete $self->{$_}; } } dbg("DXChannel $self->{call} destroyed ($count)") if isdbg('chan'); $count--; } # create a new channel object [$obj = DXChannel->new($call, $msg_conn_obj, $user_obj)] sub alloc { my ($pkg, $call, $conn, $user) = @_; my $self = {}; die "trying to create a duplicate channel for $call" if $channels{$call}; $self->{call} = $call; $self->{priv} = 0; $self->{conn} = $conn if defined $conn; # if this isn't defined then it must be a list if (defined $user) { $self->{user} = $user; $self->{lang} = $user->lang; $user->new_group unless $user->group; $user->new_buddies unless $user->buddies; $self->{group} = $user->group; $self->{sort} = $user->sort; } $self->{startt} = $self->{t} = time; $self->{state} = 0; $self->{oldstate} = 0; $self->{lang} = $main::lang if !$self->{lang}; $self->{func} = ""; # add in all the dxcc, itu, zone info my @dxcc = Prefix::extract($call); if (@dxcc > 0) { $self->{dxcc} = $dxcc[1]->dxcc; $self->{itu} = $dxcc[1]->itu; $self->{cq} = $dxcc[1]->cq; } $self->{inqueue} = []; $count++; dbg("DXChannel $self->{call} created ($count)") if isdbg('chan'); bless $self, $pkg; return $channels{$call} = $self; } # rebless this channel as something else sub rebless { my $self = shift; my $class = shift; return $channels{$self->{call}} = bless $self, $class; } sub rec { my ($self, $msg) = @_; # queue the message and the channel object for later processing if (defined $msg) { push @{$self->{inqueue}}, $msg; } } # obtain a channel object by callsign [$obj = DXChannel::get($call)] sub get { my $call = shift; return $channels{$call}; } # obtain all the channel objects sub get_all { return values(%channels); } # # gimme all the ak1a nodes # sub get_all_nodes { my $ref; my @out; foreach $ref (values %channels) { push @out, $ref if $ref->is_node; } return @out; } # return a list of all users sub get_all_users { my $ref; my @out; foreach $ref (values %channels) { push @out, $ref if $ref->is_user; } return @out; } # return a list of all user callsigns sub get_all_user_calls { my $ref; my @out; foreach $ref (values %channels) { push @out, $ref->{call} if $ref->is_user; } return @out; } # obtain a channel object by searching for its connection reference sub get_by_cnum { my ($pkg, $conn) = @_; my $self; foreach $self (values(%channels)) { return $self if ($self->{conn} == $conn); } return undef; } # get rid of a channel object [$obj->del()] sub del { my $self = shift; $self->{group} = undef; # belt and braces delete $channels{$self->{call}}; } # is it a bbs sub is_bbs { my $self = shift; return $self->{'sort'} eq 'B'; } sub is_node { my $self = shift; return $self->{'sort'} =~ /[ACRSXW]/; } # is it an ak1a node ? sub is_ak1a { my $self = shift; return $self->{'sort'} eq 'A'; } # is it a user? sub is_user { my $self = shift; return $self->{'sort'} eq 'U'; } # is it a clx node sub is_clx { my $self = shift; return $self->{'sort'} eq 'C'; } # it is Aranea sub is_aranea { my $self = shift; return $self->{'sort'} eq 'W'; } # is it a spider node sub is_spider { my $self = shift; return $self->{'sort'} eq 'S'; } # is it a DXNet node sub is_dxnet { my $self = shift; return $self->{'sort'} eq 'X'; } # is it a ar-cluster node sub is_arcluster { my $self = shift; return $self->{'sort'} eq 'R'; } # for perl 5.004's benefit sub sort { my $self = shift; return @_ ? $self->{'sort'} = shift : $self->{'sort'} ; } # find out whether we are prepared to believe this callsign on this interface sub is_believed { my $self = shift; my $call = shift; return grep $call eq $_, $self->user->believe; } # handle out going messages, immediately without waiting for the select to drop # this could, in theory, block sub send_now { my $self = shift; my $conn = $self->{conn}; return unless $conn; my $sort = shift; my $call = $self->{call}; for (@_) { # chomp; my @lines = split /\n/; for (@lines) { $conn->send_now("$sort$call|$_"); # debug log it, but not if it is a log message dbg("-> $sort $call $_") if $sort ne 'L' && isdbg('chan'); } } $self->{t} = time; } # # send later with letter (more control) # sub send_later { my $self = shift; my $conn = $self->{conn}; return unless $conn; my $sort = shift; my $call = $self->{call}; for (@_) { # chomp; my @lines = split /\n/; for (@lines) { $conn->send_later("$sort$call|$_"); # debug log it, but not if it is a log message dbg("-> $sort $call $_") if $sort ne 'L' && isdbg('chan'); } } $self->{t} = time; } # # the normal output routine # sub send # this is always later and always data { my $self = shift; my $conn = $self->{conn}; return unless $conn; my $call = $self->{call}; foreach my $l (@_) { for (ref $l ? @$l : $l) { my @lines = split /\n/; for (@lines) { $conn->send_later("D$call|$_"); dbg("-> D $call $_") if isdbg('chan'); } } } $self->{t} = $main::systime; } # send a file (always later) sub send_file { my ($self, $fn) = @_; my $call = $self->{call}; my $conn = $self->{conn}; my @buf; open(F, $fn) or die "can't open $fn for sending file ($!)"; @buf = ; close(F); $self->send(@buf); } # this will implement language independence (in time) sub msg { my $self = shift; return DXM::msg($self->{lang}, @_); } # stick a broadcast on the delayed queue (but only up to 20 items) sub delay { my $self = shift; my $s = shift; $self->{delayed} = [] unless $self->{delayed}; push @{$self->{delayed}}, $s; if (@{$self->{delayed}} >= 20) { shift @{$self->{delayed}}; # lose oldest one } } # change the state of the channel - lots of scope for debugging here :-) sub state { my $self = shift; if (@_) { $self->{oldstate} = $self->{state}; $self->{state} = shift; $self->{func} = '' unless defined $self->{func}; dbg("$self->{call} channel func $self->{func} state $self->{oldstate} -> $self->{state}\n") if isdbg('state'); # if there is any queued up broadcasts then splurge them out here if ($self->{delayed} && ($self->{state} eq 'prompt' || $self->{state} eq 'talk')) { $self->send (@{$self->{delayed}}); delete $self->{delayed}; } } return $self->{state}; } # disconnect this channel sub disconnect { my $self = shift; my $user = $self->{user}; $user->close() if defined $user; $self->{conn}->disconnect if $self->{conn}; $self->del(); } # # just close all the socket connections down without any fiddling about, cleaning, being # nice to other processes and otherwise telling them what is going on. # # This is for the benefit of forked processes to prepare for starting new programs, they # don't want or need all this baggage. # sub closeall { my $ref; foreach $ref (values %channels) { $ref->{conn}->disconnect() if $ref->{conn}; } } # # Tell all the users that we have come in or out (if they want to know) # sub tell_login { my ($self, $m, $call) = @_; $call ||= $self->{call}; # send info to all logged in thingies my @dxchan = get_all_users(); my $dxchan; foreach $dxchan (@dxchan) { next if $dxchan == $self; next if $dxchan->{call} eq $main::mycall; $dxchan->send($dxchan->msg($m, $call)) if $dxchan->{logininfo}; } } # # Tell all the users if a buddy is logged or out # sub tell_buddies { my ($self, $m, $call, $node) = @_; $call ||= $self->{call}; $call =~ s/-\d+$//; $m .= 'n' if $node; # send info to all logged in thingies my @dxchan = get_all_users(); my $dxchan; foreach $dxchan (@dxchan) { next if $dxchan == $self; next if $dxchan->{call} eq $main::mycall; $dxchan->send($dxchan->msg($m, $call, $node)) if grep $_ eq $call, @{$dxchan->{user}->{buddies}} ; } } # various access routines # # return a list of valid elements # sub fields { return keys(%valid); } # # return a prompt for a field # sub field_prompt { my ($self, $ele) = @_; return $valid{$ele}; } # take a standard input message and decode it into its standard parts sub decode_input { my $dxchan = shift; my $data = shift; my ($sort, $call, $line) = $data =~ /^([A-Z])([A-Z0-9\-]{3,9})\|(.*)$/; my $chcall = (ref $dxchan) ? $dxchan->call : "UN.KNOWN"; # the above regexp must work unless (defined $sort && defined $call && defined $line) { # $data =~ s/([\x00-\x1f\x7f-\xff])/uc sprintf("%%%02x",ord($1))/eg; dbg("DUFF Line on $chcall: $data"); return (); } if(ref($dxchan) && $call ne $chcall) { dbg("DUFF Line come in for $call on wrong channel $chcall"); return(); } return ($sort, $call, $line); } # broadcast a message to all clusters taking into account isolation # [except those mentioned after buffer] sub broadcast_nodes { my $s = shift; # the line to be rebroadcast my @except = @_; # to all channels EXCEPT these (dxchannel refs) my @dxchan = get_all_nodes(); my $dxchan; # send it if it isn't the except list and isn't isolated and still has a hop count foreach $dxchan (@dxchan) { next if grep $dxchan == $_, @except; next if $dxchan == $main::me; my $routeit = $dxchan->can('adjust_hops') ? $dxchan->adjust_hops($s) : $s; # adjust its hop count by node name $dxchan->send($routeit) unless $dxchan->{isolate} || !$routeit; } } # broadcast a message to all clusters ignoring isolation # [except those mentioned after buffer] sub broadcast_all_nodes { my $s = shift; # the line to be rebroadcast my @except = @_; # to all channels EXCEPT these (dxchannel refs) my @dxchan = get_all_nodes(); my $dxchan; # send it if it isn't the except list and isn't isolated and still has a hop count foreach $dxchan (@dxchan) { next if grep $dxchan == $_, @except; next if $dxchan == $main::me; my $routeit = $dxchan->can('adjust_hops') ? $dxchan->adjust_hops($s) : $s; # adjust its hop count by node name $dxchan->send($routeit); } } # broadcast to all users # storing the spot or whatever until it is in a state to receive it sub broadcast_users { my $s = shift; # the line to be rebroadcast my $sort = shift; # the type of transmission my $fref = shift; # a reference to an object to filter on my @except = @_; # to all channels EXCEPT these (dxchannel refs) my @dxchan = get_all_users(); my $dxchan; my @out; foreach $dxchan (@dxchan) { next if grep $dxchan == $_, @except; push @out, $dxchan; } broadcast_list($s, $sort, $fref, @out); } # broadcast to a list of users sub broadcast_list { my $s = shift; my $sort = shift; my $fref = shift; my $dxchan; foreach $dxchan (@_) { my $filter = 1; next if $dxchan == $main::me; if ($sort eq 'dx') { next unless $dxchan->{dx}; ($filter) = $dxchan->{spotsfilter}->it(@{$fref}) if ref $fref; next unless $filter; } next if $sort eq 'ann' && !$dxchan->{ann} && $s !~ /^To\s+LOCAL\s+de\s+(?:$main::myalias|$main::mycall)/i; next if $sort eq 'wwv' && !$dxchan->{wwv}; next if $sort eq 'wcy' && !$dxchan->{wcy}; next if $sort eq 'wx' && !$dxchan->{wx}; $s =~ s/\a//og unless $dxchan->{beep}; if ($dxchan->{state} eq 'prompt' || $dxchan->{state} eq 'talk') { $dxchan->send($s); } else { $dxchan->delay($s); } } } sub process { foreach my $dxchan (get_all()) { while (my $data = shift @{$dxchan->{inqueue}}) { my ($sort, $call, $line) = $dxchan->decode_input($data); next unless defined $sort; # do the really sexy console interface bit! (Who is going to do the TK interface then?) dbg("<- $sort $call $line") if $sort ne 'D' && isdbg('chan'); if ($dxchan->{disconnecting}) { dbg('In disconnection, ignored'); next; } # handle A records my $user = $dxchan->user; if ($sort eq 'A' || $sort eq 'O') { $dxchan->start($line, $sort); } elsif ($sort eq 'I') { die "\$user not defined for $call" if !defined $user; # normal input $dxchan->normal($line); } elsif ($sort eq 'Z') { $dxchan->disconnect; } elsif ($sort eq 'D') { ; # ignored (an echo) } elsif ($sort eq 'G') { $dxchan->enhanced($line); } else { print STDERR atime, " Unknown command letter ($sort) received from $call\n"; } } } } sub handle_xml { my $self = shift; my $r = 0; if (DXXml::available()) { $r = $self->{handle_xml} || 0; } else { delete $self->{handle_xml} if exists $self->{handle_xml}; } return $r; } #no strict; sub AUTOLOAD { no strict; my $name = $AUTOLOAD; return if $name =~ /::DESTROY$/; $name =~ s/^.*:://o; confess "Non-existant field '$AUTOLOAD'" if !$valid{$name}; # this clever line of code creates a subroutine which takes over from autoload # from OO Perl - Conway *$AUTOLOAD = sub {@_ > 1 ? $_[0]->{$name} = $_[1] : $_[0]->{$name}}; goto &$AUTOLOAD; } 1; __END__;