#!/usr/bin/perl
###########################################################################
# creates a UAC and a UAS using Net::SIP::Simple
# and makes call from UAC to UAS,
# transfer RTP data during call, then hang up
###########################################################################
use strict;
use warnings;
use Test::More tests => 8*6;
do './testlib.pl' || do './t/testlib.pl' || die "no testlib";
use Net::SIP ':all';
use IO::Socket;
use File::Temp;
my @tests;
for my $transport (qw(udp tcp tls)) {
for my $family (qw(ip4 ip6)) {
push @tests, [ $transport, $family ];
}
}
for my $t (@tests) {
my ($transport,$family) = @$t;
SKIP: {
if (my $err = test_use_config($family,$transport)) {
skip $err,8;
next;
}
note("------- test with family $family transport $transport");
do_test($transport);
}
}
sub do_test {
my $transport = shift;
# create leg for UAS on dynamic port
my ($sock_uas,$uas_addr) = create_socket($transport);
note( "UAS on $uas_addr" );
# fork UAS and make call from UAC to UAS
pipe( my $read,my $write); # for status updates
defined( my $pid = fork() ) || die $!;
if ( $pid == 0 ) {
# CHILD = UAS
$SIG{__DIE__} = undef;
close($read);
$write->autoflush;
uas( $sock_uas, $write );
exit(0);
}
local $SIG{__DIE__} = sub { kill 9,$pid if $pid; ok( 0,'died' ) };
local $SIG{ALRM} = sub { kill 9,$pid if $pid; ok( 0,'timed out' ) };
alarm(30);
# PARENT = UAC
close( $sock_uas );
close($write);
uac(test_sip_uri($uas_addr), $read);
ok( <$read>, "UAS finished" );
killall();
}
###############################################
# UAC
###############################################
sub uac {
my ($peer_uri,$pipe) = @_;
Debug->set_prefix( "DEBUG(uac):" );
my $packets = 100;
my $send_something = sub {
return unless $packets-- > 0;
my $buf = sprintf "%010d",$packets;
$buf .= "1234567890" x 15;
return $buf; # 160 bytes for PCMU/8000
};
# create Net::SIP::Simple object
my $rtp_done;
my ($transport) = sip_uri2sockinfo($peer_uri);
my ($lsock,$laddr) = create_socket($transport);
note( "UAC on $laddr" );
my $uac = Simple->new(
from => 'me.uac@example.com',
domain2proxy => { 'example.com' => $peer_uri },
leg => Net::SIP::Leg->new(
sock => $lsock,
test_leg_args('caller.sip.test'),
),
);
ok( $uac, 'UAC created' );
# wait until UAS is ready and listening
ok( <$pipe>, "UAS ready\n" );
# Call UAS
my $call = $uac->invite(
'you.uas@example.com',
init_media => $uac->rtp( 'send_recv', $send_something ),
cb_rtp_done => \$rtp_done,
);
ok( ! $uac->error, 'no error on UAC' );
ok( $call, 'Call established' );
$call->loop( \$rtp_done, 10 );
ok( $rtp_done, "Done sending RTP" );
my $stop;
$call->bye( cb_final => \$stop );
$call->loop( \$stop,10 );
ok( $stop, 'UAS down' );
ok( <$pipe>, "UAS RTP ok\n" );
$uac->cleanup;
}
###############################################
# UAS
###############################################
sub uas {
my ($sock,$pipe) = @_;
Debug->set_prefix( "DEBUG(uas):" );
my $uas = Simple->new(
domain => 'example.com',
leg => Net::SIP::Leg->new(
sock => $sock,
test_leg_args('listen.sip.test'),
),
) || die $!;
# store received RTP data in array
my @received;
my $save_rtp = sub {
my $buf = shift;
push @received,$buf;
#warn substr( $buf,0,10)."\n";
};
# Listen
my $call_closed;
$uas->listen(
cb_create => sub { note( 'call created' );1 },
cb_established => sub { note( 'call established' ) },
cb_cleanup => sub {
note( 'call cleaned up' );
$call_closed =1;
},
init_media => $uas->rtp( 'recv_echo', $save_rtp ),
);
# notify UAC process that I'm listening
print $pipe "UAS ready\n";
# Loop until call is closed, at most 10 seconds
$uas->loop( \$call_closed, 10 );
note( "received ".int(@received)."/100 packets" );
# at least 20% of all RTP packets should come through
if ( @received > 20 ) {
print $pipe "UAS RTP ok\n"
} else {
print $pipe "UAS RTP received only ".int(@received)."/100 packets\n";
}
# done
if ( $call_closed ) {
print $pipe "UAS finished\n";
} else {
print $pipe "call closed by timeout not stopvar\n";
}
}