dahdi-tools/xpp/perl_modules/Dahdi/Span.pm

package Dahdi::Span;
#
# Written by Oron Peled <oron@actcom.co.il>
# Copyright (C) 2007, Xorcom
# This program is free software; you can redistribute and/or
# modify it under the same terms as Perl itself.
#
# $Id$
#
use strict;
use Dahdi::Utils;
use Dahdi::Chans;

=head1 NAME

Dahdi::Spans - Perl interface to a Dahdi span information

This package allows access from perl to information about a Dahdi
channel. It is part of the Dahdi Perl package.

A span is a logical unit of Dahdi channels. Normally a port in a
digital card or a whole analog card.

See documentation of module L<Dahdi> for usage example. Specifically
C<Dahdi::spans()> must be run initially.

=head1 by_number()

Get a span by its Dahdi span number.

=head1 Span Properties

=head2 num()

The span number.

=head2 name()

The name field of a Dahdi span. E.g.:

  TE2/0/1

=head2 description()

The description field of the span. e.g:

  "T2XXP (PCI) Card 0 Span 1" HDB3/CCS/CRC4 RED

=head2 chans()

The list of the channels (L<Dahdi::Chan> objects) of this span.
In a scalar context returns the number of channels this span has.

=head2 bchans()

Likewise a list of bchannels (or a count in a scalar context).

=head2 is_sync_master()

Is this span the source of timing for Dahdi?

=head2 type()

Type of span, or "UNKNOWN" if could not be detected. Current known
types: 

BRI_TE, BRI_NT, E1_TE, E1_NT, J1_TE, J1_NT, T1_TE, T1_NT, FXS, FXO

=head2 is_pri()

Is this an E1/J1/T1 span?

=head2 is_bri()

Is this a BRI span?

=head2 is_digital()

Is this a digital (as opposed to analog) span?

=head2 termtype()

Set for digital spans. "TE" or "NT". Will probably be assumed to be "TE"
if there's no information pointing either way.

=head2 coding()

Suggested sane coding type (e.g.: "hdb3", "b8zs") for this type of span. 

=head2 framing()

Suggested sane framing type (e.g.: "ccs", "esf") for this type of span. 

=head2 yellow(), crc4()

Likewise, suggestions ofr the respective fields in the span= line in
/etc/dahdi/system.conf for this span.

=head2 signalling()

Suggested chan_dahdi.conf signalling for channels of this span.

=head2 switchtype()

Suggested chan_dahdi.conf switchtype for channels of this span.

=head1 Note

Most of those properties are normally used as lower-case functions, but
actually set in the module as capital-letter propeties. To look at e.g.
"signalling" is set, look for "SIGNALLING".

=cut

sub chans($) {
	my $span = shift;
	return @{$span->{CHANS}};
}

sub by_number($) {
	my $span_number = shift;
	die "Missing span number" unless defined $span_number;
	my @spans = Dahdi::spans();

	my ($span) = grep { $_->num == $span_number } @spans;
	return $span;
}

my @bri_strings = (
		'BRI_(NT|TE)',
		'(?:quad|octo)BRI PCI ISDN Card.* \[(NT|TE)\]',
		'octoBRI \[(NT|TE)\] ',
		'HFC-S PCI A ISDN.* \[(NT|TE)\] ',
		'(B4XXP) \(PCI\) Card', # Use dahdi_scan to determine TE/NT mode
		'(WCBRI)', # has selectable NT/TE modes via dahdi_cfg
		);

my @pri_strings = (
		'Tormenta 2 .*Quad (E1|T1)',       # tor2.
		'Xorcom XPD.*: (E1|T1)',           # Astribank PRI
		'Digium Wildcard .100P (T1|E1)/', # wct1xxp
		'ISA Tormenta Span 1',	           # torisa
		'TE110P T1/E1',                    # wcte11xp
		'Wildcard TE120P',                 # wcte12xp
		'Wildcard TE121',                  # wcte12xp
		'Wildcard TE122',                  # wcte12xp
		'Wildcard TE133',                  # wcte13xp
		'Wildcard TE134',                  # wcte13xp
		'T[248]XXP \(PCI\) Card ',          # wct4xxp
		'WCTE43X \(PCI\) Card ',           # wcte43xp
		'WCTE23X \(PCI\) Card ',           # wcte43xp
		'R[24]T1 \(PCI\) Card',            # rxt1
		'Rhino R1T1 (E1)/PRA Card',        # r1t1
		'Rhino R1T1 (T1)/PRI Card',        # r1t1
		'WP(E1|T1)/.* "wanpipe',           # Sangoma E1/T1
		);

my @soft_term_type_strings = (
		'Xorcom XPD.*: (E1|T1)',           # Astribank PRI
		'(WCBRI)', # has selectable NT/TE modes via dahdi_cfg
);

our $DAHDI_BRI_NET = 'bri_net';
our $DAHDI_BRI_CPE = 'bri_cpe';

our $DAHDI_PRI_NET = 'pri_net';
our $DAHDI_PRI_CPE = 'pri_cpe';

sub init_proto($$) {
	my $self = shift;
	my $proto = shift;

	$self->{PROTO} = $proto;
	if($proto eq 'E1') {
		$self->{DCHAN_IDX} = 15;
		$self->{BCHAN_LIST} = [ 0 .. 14, 16 .. 30 ];
	} elsif($proto eq 'T1') {
		$self->{DCHAN_IDX} = 23;
		$self->{BCHAN_LIST} = [ 0 .. 22 ];
	}
	$self->{TYPE} = "${proto}_$self->{TERMTYPE}";
}

sub get_digital_spantype {
	my $span_no = shift;
	my @lines = split /\n/, `dahdi_scan`;
	my $found_span = 0;
	foreach my $line (@lines) {
		if (! $found_span) {
			if ($line =~ m/\[$span_no\]/) {
				$found_span = 1;
			}
		} else {
			if ($line !~ m/^\[/) {
				if ($line =~ m/digital-(TE|NT)/ ){
					return $1;
				}
			} else {
				$found_span = 0;
			}
		}
	}
	die "Cannot determine digital spantype";
}

sub new($$) {
	my $pack = shift or die "Wasn't called as a class method\n";
	my $proc_file = shift or die "Missing a proc file parameter\n";
	$proc_file =~ m{[^/]*/(\d+)$};
	my $num = $1 or die " Invalid span file name: $proc_file\n";
	my $self = { NUM => $num };
	bless $self, $pack;
	$self->{TYPE} = "UNKNOWN";
	open(F, "$proc_file") or die "Failed to open '$proc_file\n";
	my $head = <F>;
	chomp $head;
	$self->{IS_DIGITAL} = 0;
	$self->{IS_BRI} = 0;
	$self->{IS_PRI} = 0;
	$self->{TERMTYPE} = "UNKNOWN";
	foreach my $cardtype (@bri_strings) {
		if($head =~ m/$cardtype/) {
			my $termtype = $1;
			if ($1 eq 'B4XXP') {
				$termtype = get_digital_spantype($num);
			}
			if ($1 eq 'WCBRI') {
				$termtype = 'TE';
			}
			$self->{IS_DIGITAL} = 1;
			$self->{IS_BRI} = 1;
			$self->{TERMTYPE} = $termtype;
			$self->{TYPE} = "BRI_$termtype";
			$self->{DCHAN_IDX} = 2;
			$self->{BCHAN_LIST} = [ 0, 1 ];
			$self->init_proto('BRI');
			last;
		}
	}
	foreach my $cardtype (@pri_strings) {
		if($head =~ m/$cardtype/) {
			my @info;

			push(@info, $1) if defined $1;
			push(@info, $2) if defined $2;
			my ($proto) = grep(/(E1|T1|J1)/, @info);
			$proto = 'UNKNOWN' unless defined $proto;
			my ($termtype) = grep(/(NT|TE)/, @info);
			$termtype = 'UNKNOWN' unless defined $termtype;

			$self->{IS_DIGITAL} = 1;
			$self->{IS_PRI} = 1;
			$self->{TERMTYPE} = $termtype;
			$self->init_proto($proto);
			last;
		}
	}
	$self->{IS_SOFT_TERM_TYPE} = 0;
	foreach my $cardtype (@soft_term_type_strings) {
		if($head =~ m/$cardtype/) {
			$self->{IS_SOFT_TERM_TYPE} = 1;
			last;
		}
	}

	if (($self->is_soft_term_type == 0) and ($self->termtype eq "UNKNOWN")) {
		$self->{IS_SOFT_TERM_TYPE} = 1;
	}

	($self->{NAME}, $self->{DESCRIPTION}) = (split(/\s+/, $head, 4))[2, 3];
	$self->{IS_DAHDI_SYNC_MASTER} =
		($self->{DESCRIPTION} =~ /\(MASTER\)/) ? 1 : 0;
	$self->{CHANS} = [];
	my @channels;
	my $index = 0;
	my @channel_lines = <F>;
	foreach (@channel_lines) {
		chomp;
		s/^\s*//;
		s/\s*$//;
		next unless /\S/;
		next unless /^\s*\d+/; # must be a real channel string.
		my $c = Dahdi::Chans->new($self, $index, $_);
		push(@channels, $c);
		$index++;
	}
	close F;
	if($self->is_pri()) {
		# Check for PRI with unknown type strings
		if($index == 31) {
			if($self->{PROTO} eq 'UNKNOWN') {
				$self->init_proto('E1');
			} elsif($self->{PROTO} ne 'E1')  {
				die "$index channels in a $self->{PROTO} span";
			}
		} elsif($index == 24) {
			if($self->{PROTO} eq 'UNKNOWN') {
				$self->init_proto('T1');	# FIXME: J1?
			} elsif($self->{PROTO} ne 'T1') {
				die "$index channels in a $self->{PROTO} span";
			}
		}
	}
	@channels = sort { $a->num <=> $b->num } @channels;
	$self->{CHANS} = \@channels;
	$self->{YELLOW} = undef;
	$self->{CRC4} = undef;
	$self->{SOFTNTTE} = undef;
	$self->{TERMINATION} = undef;
	if($self->is_bri()) {
		$self->{CODING} = 'ami';
		$self->{DCHAN} = ($self->chans())[$self->{DCHAN_IDX}];
		$self->{BCHANS} = [ ($self->chans())[@{$self->{BCHAN_LIST}}] ];
		# Infer some info from channel name:
		my $first_chan = ($self->chans())[0] || die "$0: No channels in span #$num\n";
		my $chan_fqn = $first_chan->fqn();
		if($chan_fqn =~ m(ZTHFC.*/|ztqoz.*/|XPP_BRI_.*|B4/.*|WCBRI/.*)) {		# BRI
			if($chan_fqn =~ m(WCBRI/.*)) {		# make sure to set termination resistors on hybrid cards
				$self->{TERMINATION} = 'term';
				$self->{SOFTNTTE} = 'te';
			}
			$self->{FRAMING} = 'ccs';
			$self->{SWITCHTYPE} = 'euroisdn';
			$self->{SIGNALLING} = ($self->{TERMTYPE} eq 'NT') ? $DAHDI_BRI_NET : $DAHDI_BRI_CPE ;
		} elsif($chan_fqn =~ m(ztgsm.*/)) {				# Junghanns's GSM cards. 
			$self->{FRAMING} = 'ccs';
			$self->{SIGNALLING} = 'gsm';
		}
	}
	if($self->is_pri()) {
		$self->{DCHAN} = ($self->chans())[$self->{DCHAN_IDX}];
		$self->{BCHANS} = [ ($self->chans())[@{$self->{BCHAN_LIST}}] ];
		if($self->{PROTO} eq 'E1') {
			$self->{CODING} = 'hdb3';
			$self->{FRAMING} = 'ccs';
			$self->{SWITCHTYPE} = 'euroisdn';
			$self->{CRC4} = 'crc4';
		} elsif($self->{PROTO} eq 'T1') {
			$self->{CODING} = 'b8zs';
			$self->{FRAMING} = 'esf';
			$self->{SWITCHTYPE} = 'national';
		} else {
			die "'$self->{PROTO}' unsupported yet";
		}
	}
	return $self;
}

sub bchans($) {
	my $self = shift || die;

	return @{$self->{BCHANS}};
}

sub set_termtype($$) {
	my $span = shift || die;
	my $termtype = shift || die;
	$span->{TERMTYPE} = $termtype;
	if ($span->is_pri) {
		$span->{SIGNALLING} = ($termtype eq 'NT') ? $DAHDI_PRI_NET : $DAHDI_PRI_CPE ;
	} elsif ($span->is_bri) {
		$span->{SIGNALLING} = ($termtype eq 'NT') ? $DAHDI_BRI_NET : $DAHDI_BRI_CPE ;
	}
	$span->{TYPE} = $span->proto . "_$termtype";
}

sub pri_set_fromconfig($$) {
	my $span = shift || die;
	my $genconf = shift || die;
	my $name = $span->name;
	return unless $span->is_soft_term_type;
#	if(defined $termtype) {
#		die "Termtype for $name already defined as $termtype\n";
#	}
	my $pri_termtype = $genconf->{pri_termtype};
	my @pri_specs;
	if(defined $pri_termtype) {
		@pri_specs = @{$pri_termtype};
	}
	push(@pri_specs , 'SPAN/* TE');		# Default
	my @patlist = ( "SPAN/" . $span->num );
	my $xpd = Dahdi::Xpp::xpd_of_span($span);
	if(defined $xpd) {
		my $xbus = $xpd->xbus;
		my $xbus_name = $xbus->name;
		my $xpd_name = "XPD-" . $xpd->id;
		my $label = $xbus->label;
		my $connector = $xbus->connector;
		#print "DEBUG: '$xbus_name/$xpd_name' LABEL='$label' CONNECTOR='$connector'\n";
		push(@patlist, "NUM/$xbus_name/$xpd_name");
		push(@patlist, "LABEL/$label/$xpd_name");
		push(@patlist, "CONNECTOR/$connector/$xpd_name");
	}
	#print STDERR "PATLIST=@patlist\n";
	my $match_termtype;
SPEC:
	for(my $i = 0; $i < @pri_specs; $i++) {
		my $spec = $pri_specs[$i];
		#print STDERR "spec: $spec\n";
		my ($match, $termtype) = split(/\s+/, $spec);
		next unless defined $match and defined $termtype;
		# Convert "globs" to regex
		$match =~ s/\*/.*/g;
		$match =~ s/\?/./g;
		#print STDERR "match: $match\n";
		foreach my $pattern (@patlist) {
			#print STDERR "testmatch: $pattern =~ $match\n";
			if($pattern =~ /^$match$/) {
				#print STDERR "MATCH '$pattern' ~ '$match' termtype=$termtype\n";
				$match_termtype = $termtype;
				last SPEC;
			}
		}
	}
	die "Unknown pri_termtype" unless defined $match_termtype;
	$span->set_termtype($match_termtype);
}


1;