NAME
Protocol::OSC - Open Sound Control v1.1 implementation
SYNOPSIS
my $osc = Protocol::OSC->new;
my $data = $osc->message(qw(/echo isf 3 ping 3.14)); # pack
my $packet = $osc->parse($data); # parse
$osc->actions->{$path} = $code_ref; # add callback
$packet->process($data, $scheduler_coderef); # parse and execute callbacks
DESCRIPTION
This module implements (de)coding and processing of OSC packets according the specification. It's pure Perl implementation, yet faster than Net::LibLO (~4x) and Net::OpenSoundControl (~2x). Also it provides connection agnostic interface and path matching and type tagging according OSC v1 specification ( and v1.1 )
CONSTRUCTOR
new( ?actions => {}, ?scheduler => sub {...} )
Creates Protocol::Instance with optional "actions" argument which is hashref of pairs: path => coderef and optional default scheduler for "process" method - see below.
METHODS
message($path, $typetag, ?@args)
Encodes message to packet. Typetag supports these OSC-types: ifstdbht. Everything else (like TFNI) will not affect packing of @args. Alias: msg
bundle(undef || $unix_time, [@message_or_bundle], ...)
Encodes bundle to packet. Pack several OSC messages/bundles to a bundle.
parse($data)
Parses OSC packet data. Returns OSC message/bundle. OSC-message is a blessed arrayref [$path, $type, @args] with corresponding methods path, type, args. OSC-bundle is a blessed arrayref [$time, @packets] with corresponding methods time, packets
process($data, ?$scheduler_cb)
Parses OSC packet/data and process messages in it. It will call matched actions throught $scheduler_cb which is just sub { $_[0]->(splice @_,1) }
by default(or specifed in constructor). Arguments to scheduler are $action_coderef, $time, $action_path, $osc_msg, ?@osc_bundles.
actions
Returns hashref of actions: path => coderef pairs. One could modify this hashref or use methods below.
set_cb($path, $cb)
Set coderef $cb to actions
del_cb($path)
Remove coderef at $path from actions at $path
match($osc_path_pattern)
Returns mathched actions in form of list of arrayrefs [$path, $coderef]
time2tag($unix_time)
Converts (fractional) unix epoch time to NTP timestamp, which is list of ($seconds_since_1900_01_01, $int32_fraction_parts_of_second). If $unix_time is undef then (0,1) is returned which means immediate execution by OSC specs.
tag2time($ntp_time, $fraction_of_sec)
Reverse of previous.
to_stream($data)
Packs raw OSC data for (tcp) streaming.
from_steam($buf)
Returns list of raw OSC data packets in $buf from stream buffer and residue of $buf.
EXAMPLES
Sending
make packet
my $data = $osc->message(my @specs = qw(/echo isf 3 ping 3.14));
# or
use Time::HiRes 'time';
my $data $osc->bundle(time, [@specs], [@specs2], ...);
via UDP
my $udp = IO::Socket::INET->new( PeerAddr => 'localhost', PeerPort => '57120', Proto => 'udp', Type => SOCK_DGRAM) || die $!;
$udp->send($data);
via TCP
my $tcp = IO::Socket::INET->new( PeerAddr => 'localhost', PeerPort => '57120', Proto => 'tcp', Type => SOCK_STREAM) || die $!;
$tcp->send($osc->to_stream($data));
Receiving
UDP
my $in = IO::Socket::INET->new( qw(LocalAddr localhost LocalPort), $port, qw(Proto udp Type), SOCK_DGRAM ) || die $!;
$in->recv(my $packet, $in->sockopt(SO_RCVBUF));
my $p = $osc->parse($packet);
TCP
$in = IO::Socket::INET->new( qw(LocalAddr localhost LocalPort), $port, qw(Proto tcp Type), SOCK_STREAM, qw(Listen 1 Reuse 1) ) || die $!;
$in->accept->recv(my $packet, $in->sockopt(SO_RCVBUF));
my $p = $osc->parse(($osc->from_stream($packet))[0]);
Dispatching
$osc->set_cb('/echo', sub {
my ($at_time, $path, $msg, @maybe_bundles) = @_;
say $at_time if $at_time; # time of parent bundle if message comes from bundle(s)
say $path; # matched path
say $msg->path; # path pattern of OSC message
say $msg->type; # typetag
say @{$msg->args}; # message arguments
map { # all bundles from which $msg comes (from inner to outer)
say $_->time; # time of bundle
say $_->packets; # array of messages/bundle in bundle
} @maybe_bundles;
});
...
$osc->process($osc->parse($data));
Ping-Pong using AnyEvent::Handle::UDP
use AnyEvent::Handle::UDP;
my $udp_handle = AnyEvent::Handle::UDP->new(
bind => [0, $port],
on_recv => sub {
my ($data, $handle, $client_addr) = @_;
my $msg = $osc->parse($data);
say $msg->path;
$handle->push_send($osc->message(qw(/pong i), ($msg->args)[0]), $client_addr) if $msg->path eq '/ping';
}
);
$udp_handle->push_send($osc->message(qw(/ping i 3)), [0, $port]);
Benchmarks
encode
cmpthese -1, {
'Net::LibLO::Message' => sub { Net::LibLO::Message->new(qw(isf 3 laaaa 3.0)) },
'Protocol::OSC' => sub { $protocol->message(qw(/echo isf 3 laaaa 3.0)) },
'Net::OpenSoundControl' => sub { Net::OpenSoundControl::encode([qw(/echo i 3 s laaaa f 3.0)]) }
};
...
Rate Net::LibLO::Message Net::OpenSoundControl Protocol::OSC
Net::LibLO::Message 20479/s -- -7% -51%
Net::OpenSoundControl 21920/s 7% -- -48%
Protocol::OSC 41754/s 104% 90% --
decode
cmpthese -1, {
'Protocol::OSC' => sub { $protocol->parse($data) },
'Net::OpenSoundControl' => sub { Net::OpenSoundControl::decode($data) }
};
Rate Net::OpenSoundControl Protocol::OSC
Net::OpenSoundControl 1630/s -- -65%
Protocol::OSC 4654/s 186% --
SUPPORT
GitHub
Search MetaCPAN
AUTHOR
Yegor Korablev <egor@cpan.org>
LICENSE
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
TODO
more docs, examples and tests.. as usual )