non/nonlib/OSC/Endpoint.C

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/*******************************************************************************/
/* Copyright (C) 2010 Jonathan Moore Liles */
/* */
/* This program is free software; you can redistribute it and/or modify it */
/* under the terms of the GNU General Public License as published by the */
/* Free Software Foundation; either version 2 of the License, or (at your */
/* option) any later version. */
/* */
/* This program is distributed in the hope that it will be useful, but WITHOUT */
/* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or */
/* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for */
/* more details. */
/* */
/* You should have received a copy of the GNU General Public License along */
/* with This program; see the file COPYING. If not,write to the Free Software */
/* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
/*******************************************************************************/
#include <lo/lo.h>
#include "debug.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <unistd.h>
#include <math.h>
#include "Endpoint.H"
#include "Thread.H"
#pragma GCC diagnostic ignored "-Wunused-parameter"
static int SCAN_BATCH_SIZE = 100;
namespace OSC
{
/**********/
/* Method */
/**********/
Method::Method ( )
{
_path = _typespec = _documentation = 0;
}
Method::~Method ( )
{
if ( _path )
free( _path );
if ( _typespec )
free( _typespec );
if ( _documentation )
free( _documentation );
}
/**********/
/* Signal */
/**********/
Signal::Signal ( const char *path, Direction dir )
{
_direction = dir;
_path = NULL;
if ( path )
_path = strdup( path );
_value = 0.0f;
_endpoint = NULL;
_peer = NULL;
_documentation = 0;
_user_data = 0;
_connection_state_callback = 0;
_connection_state_userdata = 0;
}
Signal::~Signal ( )
{
if ( _endpoint )
{
_endpoint->del_signal( this );
}
if ( _path )
free( _path );
_path = NULL;
_endpoint = NULL;
}
void
Signal::rename ( const char *path )
{
char *new_path;
asprintf( &new_path, "%s%s", _endpoint->name() ? _endpoint->name() : "", path );
DMESSAGE( "Renaming signal %s to %s", this->path(), new_path );
/* if ( _direction == Signal::Input ) */
/* { */
lo_server_del_method( _endpoint->_server, _path, NULL );
lo_server_add_method( _endpoint->_server, new_path, NULL, _endpoint->osc_sig_handler, this );
/* } */
for ( std::list<Peer*>::iterator i = _endpoint->_peers.begin();
i != _endpoint->_peers.end();
++i )
{
_endpoint->send( (*i)->addr, "/signal/renamed", _path, new_path );
}
_endpoint->rename_translation_destination( _path, new_path );
free( _path );
_path = new_path;
}
void
Signal::value ( float f )
{
if ( f == _value )
return;
_value = f;
if ( direction() == Output )
{
for ( std::list<Peer*>::iterator i = _endpoint->_peers.begin();
i != _endpoint->_peers.end();
++i )
{
_endpoint->send( (*i)->addr,
path(),
f );
}
// free(s);
}
/* else if ( direction() == Input ) */
/* { */
/* DMESSAGE( "Sending value feedback for signal %s...", path() ); */
/* for ( std::list<Signal*>::iterator i = _incoming.begin(); */
/* i != _incoming.end(); */
/* ++i ) */
/* { */
/* DMESSAGE( "Sending value feedback to %s %s %f", lo_address_get_url( (*i)->_peer->addr), (*i)->path() , f); */
/* _endpoint->send( (*i)->_peer->addr, */
/* (*i)->path(), */
/* f ); */
/* } */
/* } */
}
/* char * */
/* Signal::get_output_connection_peer_name_and_path ( int n ) */
/* { */
/* Signal *t = NULL; */
/* int j = 0; */
/* for ( std::list<Signal*>::const_iterator i = _outgoing.begin(); */
/* i != _outgoing.end(); */
/* ++i, ++j ) */
/* { */
/* if ( j == n ) */
/* { */
/* t = *i; */
/* break; */
/* } */
/* } */
/* if ( t ) */
/* { */
/* char *r; */
/* asprintf( &r, "%s%s", t->_peer->name, t->path() ); */
/* return r; */
/* } */
/* else */
/* return NULL; */
/* } */
/* */
void
Endpoint::error_handler(int num, const char *msg, const char *path)
{
WARNING( "LibLO server error %d in path %s: %s\n", num, path, msg);
}
Endpoint::Endpoint ( )
{
_learning_path = NULL;
_learning_callback = NULL;
_peer_signal_notification_callback = 0;
_peer_signal_notification_userdata = 0;
_peer_scan_complete_callback = 0;
_peer_scan_complete_userdata = 0;
_server = 0;
_name = 0;
owner = 0;
}
int
Endpoint::init ( int proto, const char *port )
{
DMESSAGE( "Creating OSC server" );
_server = lo_server_new_with_proto( port, proto, error_handler );
char *url = lo_server_get_url( _server );
_addr = lo_address_new_from_url( url );
free( url );
if ( ! _server )
{
WARNING( "Error creating OSC server" );
return -1;
}
add_method( "/signal/hello", "ss", &Endpoint::osc_sig_hello, this, "" );
add_method( "/signal/connect", "ss", &Endpoint::osc_sig_connect, this, "" );
add_method( "/signal/disconnect", "ss", &Endpoint::osc_sig_disconnect, this, "" );
add_method( "/signal/renamed", "ss", &Endpoint::osc_sig_renamed, this, "" );
add_method( "/signal/removed", "s", &Endpoint::osc_sig_removed, this, "" );
add_method( "/signal/created", "ssfff", &Endpoint::osc_sig_created, this, "" );
add_method( "/signal/list", NULL, &Endpoint::osc_signal_lister, this, "" );
add_method( "/reply", NULL, &Endpoint::osc_reply, this, "" );
add_method( NULL, NULL, &Endpoint::osc_generic, this, "" );
return 0;
}
Endpoint::~Endpoint ( )
{
// lo_server_thread_free( _st );
for ( std::list<Method*>::iterator i = _methods.begin();
i != _methods.end();
i++ )
delete(*i);
_methods.clear();
if ( _server )
{
lo_server_free( _server );
_server = 0;
}
lo_address_free( _addr );
_addr = 0;
}
OSC::Signal *
Endpoint::find_target_by_peer_address ( std::list<Signal*> *l, lo_address addr )
{
for ( std::list<Signal*>::iterator i = l->begin();
i != l->end();
++i )
{
if ( address_matches( addr, (*i)->_peer->addr ) )
{
return *i;
}
}
return NULL;
}
OSC::Signal *
Endpoint::find_peer_signal_by_path ( Peer *p, const char *path )
{
for ( std::list<Signal*>::iterator i = p->_signals.begin();
i != p->_signals.end();
++i )
{
if ( !strcmp( (*i)->path(), path ) )
return *i;
}
return NULL;
}
OSC::Signal *
Endpoint::find_signal_by_path ( const char *path )
{
for ( std::list<Signal*>::iterator i = _signals.begin();
i != _signals.end();
++i )
{
if ( !strcmp( (*i)->path(), path ) )
return *i;
}
return NULL;
}
void
Endpoint::hello ( const char *url )
{
assert( name() );
lo_address addr = lo_address_new_from_url ( url );
char *our_url = this->url();
send( addr, "/signal/hello", name(), our_url );
free( our_url );
lo_address_free( addr );
}
void
Endpoint::handle_hello ( const char *peer_name, const char *peer_url )
{
DMESSAGE( "Got hello from %s", peer_name );
Peer *p = find_peer_by_name( peer_name );
if ( ! p )
{
scan_peer( peer_name, peer_url );
}
else
{
/* maybe the peer has a new URL */
/* update address */
lo_address addr = lo_address_new_from_url( peer_url );
if ( address_matches( addr, p->addr ) )
{
free( addr );
return;
}
if ( p->addr )
free( p->addr );
p->addr = addr;
/* scan it while we're at it */
p->_scanning = true;
DMESSAGE( "Scanning peer %s", peer_name );
send( p->addr, "/signal/list" );
}
if ( name() )
{
hello( peer_url );
}
else
{
DMESSAGE( "Not sending hello because we don't have a name yet!" );
}
}
int
Endpoint::osc_sig_hello ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
Endpoint *ep = (Endpoint*)user_data;
const char *peer_name = &argv[0]->s;
const char *peer_url = &argv[1]->s;
ep->handle_hello( peer_name, peer_url );
return 0;
}
int
Endpoint::osc_sig_disconnect ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
const char *their_name = &argv[0]->s;
const char *our_name = &argv[1]->s;
Endpoint *ep = (Endpoint*)user_data;
Signal *s = ep->find_signal_by_path( our_name );
if ( ! s )
return 0;
if ( s->_direction == Signal::Input )
{
DMESSAGE( "Peer %s has disconnected from signal %s", our_name, their_name );
ep->del_translation( their_name );
if ( s->_connection_state_callback )
s->_connection_state_callback( s, s->_connection_state_userdata );
return 0;
}
return 0;
}
int
Endpoint::osc_sig_connect ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
const char *src_path = &argv[0]->s;
const char *dst_path = &argv[1]->s;
Endpoint *ep = (Endpoint*)user_data;
Signal *dst_s = ep->find_signal_by_path( dst_path );
if ( ! dst_s )
{
WARNING( "Unknown destination signal in connection attempt: \"%s\"", dst_path );
return 0;
}
if ( dst_s->_endpoint != ep )
{
WARNING( "Got connection request for a destination signal we don't own" );
return 0;
}
DMESSAGE( "Has requested signal connection %s |> %s", src_path, dst_s->path() );
ep->add_translation( src_path, dst_s->path() );
/* if ( dst_s->_connection_state_callback ) */
/* dst_s->_connection_state_callback( dst_s, dst_s->_connection_state_userdata ); */
return 0;
}
int
Endpoint::osc_sig_removed ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
const char *name = &argv[0]->s;
Endpoint *ep = (Endpoint*)user_data;
Peer *p = ep->find_peer_by_address( lo_message_get_source( msg ) );
if ( ! p )
{
WARNING( "Got signal removed notification from unknown peer." );
return 0;
}
Signal *o = ep->find_peer_signal_by_path( p, name );
if ( ! o )
{
WARNING( "Unknown signal: %s", name );
return 0;
}
DMESSAGE( "Signal %s:%s was removed", o->_peer->name, o->path() );
if ( ep->_peer_signal_notification_callback )
ep->_peer_signal_notification_callback( o, Signal::Removed, ep->_peer_signal_notification_userdata );
p->_signals.remove(o);
delete o;
return 0;
}
int
Endpoint::osc_sig_created ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
Endpoint *ep = (Endpoint*)user_data;
const char *name = &argv[0]->s;
const char *direction = &argv[1]->s;
const float min = argv[2]->f;
const float max = argv[3]->f;
const float default_value = argv[4]->f;
Peer *p = ep->find_peer_by_address( lo_message_get_source( msg ) );
if ( ! p )
{
WARNING( "Got signal creation notification from unknown peer" );
return 0;
}
Signal::Direction dir = Signal::Input;
if ( !strcmp( direction, "in" ) )
dir = Signal::Input;
else if ( !strcmp( direction, "out" ) )
dir = Signal::Output;
Signal *s = new Signal( name, dir );
s->_peer = p;
s->parameter_limits( min, max, default_value );
p->_signals.push_back( s );
DMESSAGE( "Peer %s has created signal %s (%s %f %f %f)", p->name,
name, direction, min, max, default_value );
if ( ep->_peer_signal_notification_callback )
ep->_peer_signal_notification_callback( s, Signal::Created, ep->_peer_signal_notification_userdata );
return 0;
}
int
Endpoint::osc_sig_renamed ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
DMESSAGE( "Got renamed message." );
const char *old_name = &argv[0]->s;
const char *new_name = &argv[1]->s;
Endpoint *ep = (Endpoint*)user_data;
Peer *p = ep->find_peer_by_address( lo_message_get_source( msg ) );
if ( ! p )
{
WARNING( "Got signal rename notification from unknown peer." );
return 0;
}
Signal *o = ep->find_peer_signal_by_path( p, old_name );
if ( ! o )
{
WARNING( "Unknown signal: %s", old_name );
return 0;
}
DMESSAGE( "Signal %s was renamed to %s", o->_path, new_name );
ep->rename_translation_source( o->_path, new_name );
free( o->_path );
o->_path = strdup( new_name );
return 0;
}
int
Endpoint::osc_sig_handler ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
Signal *o;
float f = 0.0;
if ( ! strcmp( types, "f" ) )
{
/* accept a value for signal named in path */
o = (Signal*)user_data;
f = argv[0]->f;
}
else if ( ! types || 0 == types[0] )
{
/* reply with current value */
o = (Signal*)user_data;
o->_endpoint->send( lo_message_get_source( msg ), "/reply", path, o->value() );
return 0;
}
else
{
return -1;
}
o->_value = f;
if ( o->_handler )
o->_handler( f, o->_user_data );
return 1;
}
const char**
Endpoint::get_connections ( const char *path )
{
const char ** conn = NULL;
int j = 0;
for ( std::map<std::string,TranslationDestination>::iterator i = _translations.begin();
i != _translations.end();
i++ )
{
if ( !strcmp( i->second.path.c_str(), path ) )
{
conn = (const char**)realloc( conn, sizeof( char * ) * (j+2));
conn[j++] = i->first.c_str();
}
}
if ( conn )
conn[j] = 0;
return conn;
}
void
Endpoint::clear_translations ( void )
{
_translations.clear();
}
void
Endpoint::add_translation ( const char *a, const char *b )
{
_translations[a].path = b;
}
void
Endpoint::del_translation ( const char *a )
{
std::map<std::string,TranslationDestination>::iterator i = _translations.find( a );
if ( i != _translations.end() )
_translations.erase( i );
}
void
Endpoint::rename_translation_destination ( const char *a, const char *b )
{
for ( std::map<std::string,TranslationDestination>::iterator i = _translations.begin();
i != _translations.end();
i++ )
{
if ( !strcmp( i->second.path.c_str(), a ) )
{
i->second.path = b;
}
}
}
void
Endpoint::rename_translation_source ( const char *a, const char *b )
{
std::map<std::string,TranslationDestination>::iterator i = _translations.find( a );
if ( i != _translations.end() )
{
_translations[b] = _translations[a];
_translations.erase( i );
}
}
int
Endpoint::ntranslations ( void )
{
return _translations.size();
}
bool
Endpoint::get_translation ( int n, const char **from, const char **to )
{
int j = 0;
for ( std::map<std::string,TranslationDestination>::const_iterator i = _translations.begin();
i != _translations.end();
i++, j++)
{
if ( j == n )
{
*from = i->first.c_str();
*to = i->second.path.c_str();
return true;
}
}
return false;
}
int
Endpoint::osc_generic ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
// OSC_DMSG();
Endpoint *ep = (Endpoint*)user_data;
if ( ep->_learning_path )
{
ep->add_translation( path, ep->_learning_path );
DMESSAGE( "Learned translation \"%s\" -> \"%s\"", path, ep->_learning_path );
free(ep->_learning_path);
ep->_learning_callback(ep->_learning_userdata);
ep->_learning_userdata = NULL;
ep->_learning_callback = NULL;
ep->_learning_path = NULL;
return 0;
}
{
std::map<std::string,TranslationDestination>::iterator i = ep->_translations.find( path );
if ( i != ep->_translations.end() )
{
const char *dpath = i->second.path.c_str();
// DMESSAGE( "Translating message \"%s\" to \"%s\"", path, dpath );
if ( !strcmp(types, "f" ))
{
// DMESSAGE( "recording value %f", argv[0]->f );
i->second.current_value = argv[0]->f;
}
/* FIXME: this was intended to break feedback cycles, but it actually
results in some feedback values not being sent at all */
/* i->second.suppress_feedback = true; */
lo_send_message(ep->_addr, dpath, msg );
return 0;
}
}
if ( argc || path[ strlen(path) - 1 ] != '/' )
return -1;
for ( std::list<Method*>::const_iterator i = ep->_methods.begin(); i != ep->_methods.end(); ++i )
{
if ( ! (*i)->path() )
continue;
if (! strncmp( (*i)->path(), path, strlen(path) ) )
{
/* asprintf( &stored_path, "%s (%s); %s", path, typespec, argument_description ); */
((Endpoint*)user_data)->send( lo_message_get_source( msg ), "/reply", path, (*i)->path() );
}
}
((Endpoint*)user_data)->send( lo_message_get_source( msg ), "/reply", path );
return 0;
}
int
Endpoint::osc_signal_lister ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
// OSC_DMSG();
const char *prefix = NULL;
int skip = 0;
bool batch_mode = true;
int start;
const int count = SCAN_BATCH_SIZE;
if ( 's' == types[0] )
{
prefix = &argv[0]->s;
DMESSAGE( "Listing signals for prefix \"%s\"", prefix );
skip++;
batch_mode = 2 == argc;
}
else
{
DMESSAGE( "Listing all signals." );
}
if ( 0 == argc || 's' == types[0] )
{
/* obsolete unbatched mode left for backwards compatibility... */
WARNING("Peer asked for unbatched signal list... will incur delays!");
batch_mode = false;
}
else
{
/* we have to list these in batches, otherwise they the UDP packets overrun and get dropped... Probably
wouldn't be an issue with TCP transport. */
batch_mode = true;
start = argv[0+skip]->i;
/* count = argv[1+skip]->i; */
}
Endpoint *ep = (Endpoint*)user_data;
int sent = 0;
int s = 0;
bool more = false;
lo_bundle b;
if ( batch_mode )
{
b = lo_bundle_new(LO_TT_IMMEDIATE);
}
for ( std::list<Signal*>::const_iterator i = ep->_signals.begin(); i != ep->_signals.end(); ++i )
{
Signal *o = *i;
if ( ! prefix || ! strncmp( o->path(), prefix, strlen(prefix) ) )
{
if ( s++ < start )
continue;
/* DMESSAGE( "Listing signal %s", o->path() ); */
if ( batch_mode )
{
lo_message m = lo_message_new();
lo_message_add_string( m, path );
lo_message_add_string( m, o->path() );
lo_message_add_string( m, o->_direction == Signal::Input ? "in" : "out" );
lo_message_add_float( m, o->parameter_limits().min );
lo_message_add_float( m, o->parameter_limits().max );
lo_message_add_float( m, o->parameter_limits().default_value );
lo_bundle_add_message( b, "/reply", m );
}
else
{
ep->send( lo_message_get_source( msg ),
"/reply",
path,
o->path(),
o->_direction == Signal::Input ? "in" : "out",
o->parameter_limits().min,
o->parameter_limits().max,
o->parameter_limits().default_value
);
}
if ( batch_mode )
{
if ( ++sent == count )
{
more = true;
break;
}
}
else
{
usleep(1000);
}
}
}
if ( batch_mode )
{
lo_message m = lo_message_new();
lo_message_add_string(m, path);
lo_message_add_int32( m, sent );
lo_message_add_int32( m, more );
lo_bundle_add_message( b, "/reply", m );
lo_send_bundle_from( lo_message_get_source( msg ), ep->_server, b );
/* ep->send( lo_message_get_source( msg ), "/reply", path, sent, more ); */
}
else
ep->send( lo_message_get_source( msg ), "/reply", path );
return 0;
}
bool
Endpoint::address_matches ( lo_address addr1, lo_address addr2 )
{
char *purl = strdup( lo_address_get_port( addr1 ) );
char *url = strdup( lo_address_get_port( addr2 ) );
bool r = !strcmp( purl, url );
free( purl );
free( url );
return r;
}
void
Endpoint::list_peer_signals ( void *v )
{
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
for ( std::list<Signal*>::iterator j = (*i)->_signals.begin();
j != (*i)->_signals.end();
++j )
{
if ( _peer_signal_notification_callback )
_peer_signal_notification_callback( *j, OSC::Signal::Created, v );
}
}
}
Peer *
Endpoint::find_peer_by_address ( lo_address addr )
{
char *url = strdup( lo_address_get_port( addr ) );
Peer *p = NULL;
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
char *purl = strdup( lo_address_get_port( (*i)->addr ) );
if ( !strcmp( purl, url ) )
{
free( purl );
p = *i;
break;
}
free(purl);
}
free( url );
return p;
}
Peer *
Endpoint::find_peer_by_name ( const char *name )
{
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
if ( !strcmp( name, (*i)->name ) )
{
return *i;
}
}
return NULL;
}
bool
Endpoint::disconnect_signal ( OSC::Signal *s, const char *signal_path )
{
if ( s->_direction == Signal::Output )
{
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
send( (*i)->addr, "/signal/disconnect",
s->path(),
signal_path);
}
return true;
}
return false;
}
bool
Endpoint::connect_signal( OSC::Signal *s, const char *signal_path )
{
if ( s->_direction == Signal::Output )
{
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
i++ )
{
send( (*i)->addr, "/signal/connect",
s->path(),
signal_path );
}
}
return true;
}
int
Endpoint::osc_reply ( const char *path, const char *types, lo_arg **argv, int argc, lo_message msg, void *user_data )
{
Endpoint *ep = (Endpoint*)user_data;
if ( argc && !strcmp( &argv[0]->s, "/signal/list" ) )
{
Peer *p = ep->find_peer_by_address( lo_message_get_source( msg ) );
if ( ! p )
{
WARNING( "Got input list reply from unknown peer." );
return 0;
}
if ( argc == 1 )
{
/* old handler for backwards compatibility */
p->_scanning = false;
DMESSAGE( "Done scanning %s", p->name );
if ( ep->_peer_scan_complete_callback )
ep->_peer_scan_complete_callback(ep->_peer_scan_complete_userdata);
}
else
if ( argc == 3 )
{
const int sent = argv[1]->i;
const int more = argv[2]->i;
if ( !more )
{
p->_scanning = false;
DMESSAGE( "Done scanning %s", p->name );
if ( ep->_peer_scan_complete_callback )
ep->_peer_scan_complete_callback(ep->_peer_scan_complete_userdata);
}
else
{
DMESSAGE( "Scanning next batch %s", p->name );
p->_scanning_current += sent;
ep->send( p->addr, "/signal/list", p->_scanning_current );
}
}
else if ( argc == 6 && p->_scanning )
{
Signal *s = ep->find_peer_signal_by_path( p, &argv[1]->s );
if ( s )
return 0;
/* DMESSAGE( "Peer %s has signal %s (%s)", p->name, &argv[1]->s, &argv[2]->s ); */
int dir = 0;
if ( !strcmp( &argv[2]->s, "in" ) )
dir = Signal::Input;
else if ( !strcmp( &argv[2]->s, "out" ) )
dir = Signal::Output;
s = new Signal( &argv[1]->s, (Signal::Direction)dir );
s->_peer = p;
s->parameter_limits( argv[3]->f, argv[4]->f, argv[5]->f );
p->_signals.push_back( s );
// ep->_signals.push_back(s);
if ( ep->_peer_signal_notification_callback )
ep->_peer_signal_notification_callback( s, Signal::Created, ep->_peer_signal_notification_userdata );
}
return 0;
}
else
return -1;
}
Method *
Endpoint::add_method ( const char *path, const char *typespec, lo_method_handler handler, void *user_data, const char *argument_description )
{
// DMESSAGE( "Added OSC method %s (%s)", path, typespec );
lo_server_add_method( _server, path, typespec, handler, user_data );
Method *md = new Method;
if ( path )
md->_path = strdup( path );
if ( typespec )
md->_typespec = strdup( typespec );
if ( argument_description )
md->_documentation = strdup( argument_description );
_methods.push_back( md );
return md;
}
Signal *
Endpoint::add_signal ( const char *path, Signal::Direction dir, float min, float max, float default_value, signal_handler handler, void *user_data )
{
char *s;
asprintf( &s, "%s%s", name() ? name() : "", path );
Signal *o = new Signal( s, dir );
free(s);
o->_handler = handler;
o->_user_data = user_data;
o->_endpoint = this;
o->parameter_limits( min, max, default_value );
_signals.push_back( o );
/* if ( dir == Signal::Input ) */
/* { */
lo_server_add_method( _server, o->_path, NULL, osc_sig_handler, o );
/* } */
/* tell our peers about it */
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
send( (*i)->addr,
"/signal/created",
o->path(),
o->_direction == Signal::Input ? "in" : "out",
min,
max,
default_value
);
}
return o;
}
void
Endpoint::del_method ( const char *path, const char *typespec )
{
// DMESSAGE( "Deleted OSC method %s (%s)", path, typespec );
lo_server_del_method( _server, path, typespec );
for ( std::list<Method *>::iterator i = _methods.begin(); i != _methods.end(); ++i )
{
if ( ! (*i)->path() )
continue;
if ( ! strcmp( path, (*i)->path() ) &&
! strcmp( typespec, (*i)->typespec() ) )
{
delete *i;
i = _methods.erase( i );
break;
}
}
}
void
Endpoint::del_method ( Method *meth )
{
// DMESSAGE( "Deleted OSC method %s (%s)", path, typespec );
lo_server_del_method( _server, meth->path(), meth->typespec() );
delete meth;
_methods.remove( meth );
}
void
Endpoint::del_signal ( Signal *o )
{
// DMESSAGE( "Deleted OSC method %s (%s)", path, typespec );
lo_server_del_method( _server, o->path(), NULL );
/* tell our peers about it */
for ( std::list<Peer*>::iterator i = _peers.begin();
i != _peers.end();
++i )
{
send( (*i)->addr,
"/signal/removed",
o->path() );
}
/* FIXME: clear loopback connections first! */
_signals.remove( o );
}
/* prepare to learn a translation for /path/. The next unhandled message to come through will be mapped to /path/ */
void
Endpoint::learn ( const char *path, void (*callback)(void*), void *userdata )
{
if ( _learning_path )
free( _learning_path );
_learning_path = NULL;
_learning_callback = callback;
_learning_userdata = userdata;
if ( path )
_learning_path = strdup( path );
}
/** if there's a translation with a destination of 'path', then send feedback for it */
void
Endpoint::send_feedback ( const char *path, float v, bool force )
{
for ( std::map<std::string,TranslationDestination>::iterator i = _translations.begin();
i != _translations.end();
i++ )
{
if ( path && ! strcmp( i->second.path.c_str(), path ) )
{
/* found it */
if ( !i->second.suppress_feedback && ( force || fabsf(i->second.current_value - v ) > 0.001f ))
{
const char *spath = i->first.c_str();
// DMESSAGE( "Sending feedback to \"%s\": %f", spath, v );
/* send to all peers */
for ( std::list<Peer*>::iterator p = _peers.begin();
p != _peers.end();
++p )
{
send( (*p)->addr, spath, v );
}
i->second.current_value = v;
}
i->second.suppress_feedback = false;
/* break; */
}
}
}
Peer *
Endpoint::add_peer ( const char *name, const char *url )
{
Peer *p = new Peer;
DMESSAGE( "Adding peer %s @ %s...", name, url );
p->name = strdup( name );
p->addr = lo_address_new_from_url( url );
_peers.push_back( p );
return p;
}
void
Endpoint::scan_peer ( const char *name, const char *url )
{
Peer *p = add_peer(name,url);
p->_scanning = true;
p->_scanning_current = 0;
DMESSAGE( "Scanning peer %s", name );
send( p->addr, "/signal/list", p->_scanning_current );
}
void *
Endpoint::osc_thread ( void * arg )
{
((Endpoint*)arg)->osc_thread();
return NULL;
}
void
Endpoint::osc_thread ( void )
{
_thread.name( "OSC" );
DMESSAGE( "OSC Thread running" );
run();
}
void
Endpoint::start ( void )
{
if ( !_thread.clone( &Endpoint::osc_thread, this ) )
FATAL( "Could not create OSC thread" );
/* lo_server_thread_start( _st ); */
}
void
Endpoint::stop ( void )
{
_thread.join();
// lo_server_thread_stop( _st );
}
int
Endpoint::port ( void ) const
{
return lo_server_get_port( _server );
}
char *
Endpoint::url ( void ) const
{
return lo_server_get_url( _server );
}
/** Process any waiting events and return immediately */
void
Endpoint::check ( void ) const
{
wait( 0 );
}
/** Process any waiting events and return after timeout */
void
Endpoint::wait ( int timeout ) const
{
if ( lo_server_wait( _server, timeout ) )
while ( lo_server_recv_noblock( _server, 0 ) ) { }
}
/** Process events forever */
void
Endpoint::run ( void ) const
{
for ( ;; )
{
lo_server_recv( _server );
}
}
int
Endpoint::send ( lo_address to, const char *path, std::list< OSC_Value > values )
{
lo_message m = lo_message_new();
for ( std::list< OSC_Value >::const_iterator i = values.begin();
i != values.end();
++i )
{
const OSC_Value *ov = &(*i);
switch ( ov->type() )
{
case 'f':
// DMESSAGE( "Adding float %f", ((OSC_Float*)ov)->value() );
lo_message_add_float( m, ((OSC_Float*)ov)->value() );
break;
case 'i':
// DMESSAGE( "Adding int %i", ((OSC_Int*)ov)->value() );
lo_message_add_int32( m, ((OSC_Int*)ov)->value() );
break;
case 's':
// DMESSAGE( "Adding string %s", ((OSC_String*)ov)->value() );
lo_message_add_string( m, ((OSC_String*)ov)->value() );
break;
default:
FATAL( "Unknown format: %c", ov->type() );
break;
}
}
// DMESSAGE( "Path: %s", path );
lo_bundle b = lo_bundle_new( LO_TT_IMMEDIATE );
lo_bundle_add_message(b, path, m );
int r = lo_send_bundle_from( to, _server, b );
// int r = lo_send_message_from( to, _server, path, m );
// lo_message_free( m );
return r;
}
int
Endpoint::send ( lo_address to, const char *path )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "" );
}
int
Endpoint::send ( lo_address to, const char *path, int v )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "i", v );
}
int
Endpoint::send ( lo_address to, const char *path, float v )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "f", v );
}
int
Endpoint::send ( lo_address to, const char *path, double v )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "d", v );
}
int
Endpoint::send ( lo_address to, const char *path, const char * v )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "s", v );
}
int
Endpoint::send ( lo_address to, const char *path, const char * v1, float v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sf", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, const char * v1, const char *v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "ss", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, const char * v1, const char *v2, const char *v3 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sss", v1, v2, v3 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2, int v3, int v4 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "siii", v1, v2, v3, v4 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, int v3, int v4, int v5 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "ssiii", v1, v2, v3, v4, v5 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, const char *v3, int v4, int v5, int v6 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sssiii", v1, v2, v3, v4, v5, v6 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "si", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, int v1, const char *v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "is", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2, const char *v3 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sis", v1, v2, v3 );
}
int
Endpoint::send ( lo_address to, const char *path, int v1, const char *v2, const char *v3, const char *v4 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "isss", v1, v2, v3, v4 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2, const char *v3, const char *v4, const char *v5 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sisss", v1, v2, v3, v4, v5 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, const char *v3, const char *v4, const char *v5 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sssss", v1, v2, v3, v4, v5 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, const char *v3, const char *v4 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "ssss", v1, v2, v3, v4 );
}
int
Endpoint::send ( lo_address to, const char *path, lo_message msg )
{
return lo_send_message_from( to, _server, path, msg );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, int v3, float v4, float v5, float v6 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "ssifff", v1, v2, v3, v4, v5, v6 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, const char *v3, int v4, float v5, float v6, float v7 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sssifff", v1, v2, v3, v4, v5, v6, v7 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, const char *v2, const char *v3, float v4, float v5, float v6 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sssfff", v1, v2, v3, v4, v5, v6 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2, int v3 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "sii", v1, v2, v3 );
}
int
Endpoint::send ( lo_address to, const char *path, int v1, int v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "ii", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, int v1, float v2 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "if", v1, v2 );
}
int
Endpoint::send ( lo_address to, const char *path, const char *v1, int v2, int v3, float v4 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "siif", v1, v2, v3, v4 );
}
int
Endpoint::send ( lo_address to, const char *path, int v1, int v2, float v3 )
{
return lo_send_from( to, _server, LO_TT_IMMEDIATE, path, "iif", v1, v2, v3 );
}
}