/* This file is part of Ingen. * Copyright (C) 2007-2009 Dave Robillard * * Ingen 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. * * Ingen 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 details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ //#define ENABLE_AVAHI 1 #include #include #include #include #include "ingen-config.h" #include "raul/SharedPtr.hpp" #include "raul/AtomLiblo.hpp" #include "interface/ClientInterface.hpp" #include "ClientBroadcaster.hpp" #include "Engine.hpp" #include "OSCClientSender.hpp" #include "OSCEngineReceiver.hpp" #include "QueuedEventSource.hpp" #include "ThreadManager.hpp" using namespace std; namespace Ingen { /*! \page engine_osc_namespace Engine OSC Namespace Documentation * *

These are the commands the engine recognizes. A client can control every * aspect of the engine entirely with these commands.

* *

All commands on this page are in the "control band". If a client needs to * know about the state of the engine, it must listen to the "notification band". * See the "Client OSC Namespace Documentation" for details. */ OSCEngineReceiver::OSCEngineReceiver(Engine& engine, size_t queue_size, uint16_t port) : QueuedEngineInterface(engine, queue_size) // FIXME , _server(NULL) { _receive_thread = new ReceiveThread(*this); char port_str[6]; snprintf(port_str, 6, "%u", port); _server = lo_server_new(port_str, error_cb); #ifdef ENABLE_AVAHI lo_server_avahi_init(_server, "ingen"); #endif if (_server == NULL) { cerr << "[OSC] Could not start OSC server. Aborting." << endl; exit(EXIT_FAILURE); } else { char* lo_url = lo_server_get_url(_server); cout << "[OSC] Started OSC server at " << lo_url << endl; free(lo_url); } // For debugging, print all incoming OSC messages //lo_server_add_method(_server, NULL, NULL, generic_cb, NULL); // Set response address for this message. // It's important this is first and returns nonzero. lo_server_add_method(_server, NULL, NULL, set_response_address_cb, this); // Commands lo_server_add_method(_server, "/ingen/ping", "i", ping_cb, this); lo_server_add_method(_server, "/ingen/ping_queued", "i", ping_slow_cb, this); lo_server_add_method(_server, "/ingen/quit", "i", quit_cb, this); //lo_server_add_method(_server, "/ingen/register_client", "is", register_client_cb, this); lo_server_add_method(_server, "/ingen/register_client", "i", register_client_cb, this); lo_server_add_method(_server, "/ingen/unregister_client", "i", unregister_client_cb, this); lo_server_add_method(_server, "/ingen/load_plugins", "i", load_plugins_cb, this); lo_server_add_method(_server, "/ingen/activate", "i", engine_activate_cb, this); lo_server_add_method(_server, "/ingen/deactivate", "i", engine_deactivate_cb, this); lo_server_add_method(_server, "/ingen/new_patch", "isi", new_patch_cb, this); lo_server_add_method(_server, "/ingen/clear_patch", "is", clear_patch_cb, this); lo_server_add_method(_server, "/ingen/set_polyphony", "isi", set_polyphony_cb, this); lo_server_add_method(_server, "/ingen/set_polyphonic", "isT", set_polyphonic_cb, this); lo_server_add_method(_server, "/ingen/set_polyphonic", "isF", set_polyphonic_cb, this); lo_server_add_method(_server, "/ingen/put", NULL, put_cb, this); lo_server_add_method(_server, "/ingen/move", "iss", move_cb, this); lo_server_add_method(_server, "/ingen/del", "is", del_cb, this); lo_server_add_method(_server, "/ingen/connect", "iss", connect_cb, this); lo_server_add_method(_server, "/ingen/disconnect", "iss", disconnect_cb, this); lo_server_add_method(_server, "/ingen/disconnect_all", "iss", disconnect_all_cb, this); lo_server_add_method(_server, "/ingen/set_port_value", NULL, set_port_value_cb, this); lo_server_add_method(_server, "/ingen/note_on", "isii", note_on_cb, this); lo_server_add_method(_server, "/ingen/note_off", "isi", note_off_cb, this); lo_server_add_method(_server, "/ingen/all_notes_off", "isi", all_notes_off_cb, this); lo_server_add_method(_server, "/ingen/midi_learn", "is", midi_learn_cb, this); lo_server_add_method(_server, "/ingen/set_variable", NULL, variable_set_cb, this); lo_server_add_method(_server, "/ingen/set_property", NULL, property_set_cb, this); // Queries lo_server_add_method(_server, "/ingen/request_variable", "iss", variable_get_cb, this); lo_server_add_method(_server, "/ingen/request_plugin", "is", request_plugin_cb, this); lo_server_add_method(_server, "/ingen/request_object", "is", request_object_cb, this); lo_server_add_method(_server, "/ingen/request_plugins", "i", request_plugins_cb, this); lo_server_add_method(_server, "/ingen/request_all_objects", "i", request_all_objects_cb, this); lo_server_add_method(_server, NULL, NULL, unknown_cb, NULL); Thread::set_name("OSC Receiver"); } OSCEngineReceiver::~OSCEngineReceiver() { deactivate(); stop(); _receive_thread->stop(); delete _receive_thread; if (_server != NULL) { #ifdef ENABLE_AVAHI lo_server_avahi_free(_server); #endif lo_server_free(_server); _server = NULL; } } void OSCEngineReceiver::activate_source() { QueuedEventSource::activate_source(); _receive_thread->set_name("OSC Receiver"); _receive_thread->start(); _receive_thread->set_scheduling(SCHED_FIFO, 5); // Jack default appears to be 10 } void OSCEngineReceiver::deactivate_source() { _receive_thread->stop(); QueuedEventSource::deactivate_source(); } /** Override the semaphore driven _run method of QueuedEngineInterface * to wait on OSC messages and prepare them right away in the same thread. */ void OSCEngineReceiver::ReceiveThread::_run() { Thread::get().set_context(THREAD_PRE_PROCESS); /* get a timestamp here and stamp all the events with the same time so * they all get executed in the same cycle */ while (true) { assert(_receiver._server); /*if ( ! _server) { cout << "[OSCEngineReceiver] Server is NULL, exiting" << endl; break; }*/ // Wait on a message and enqueue it lo_server_recv(_receiver._server); // Enqueue every other message that is here "now" // (would this provide truly atomic bundles?) while (lo_server_recv_noblock(_receiver._server, 0) > 0) if (_receiver.unprepared_events()) _receiver.whip(); // No more unprepared events } } /** Create a new responder for this message, if necessary. * * This is based on the fact that the current responder is stored in a ref * counted pointer, and events just take a reference to that. Thus, events * may delete their responder if we've since switched to a new one, or the * same one can stay around and serve a series of events. * Hooray for reference counting. * * If this message came from the same source as the last message, no allocation * of responders or lo_addresses or any of it needs to be done. Unfortunately * the only way to check is by comparing URLs, because liblo addresses suck. * Lack of a fast liblo address comparison really sucks here, in any case. */ int OSCEngineReceiver::set_response_address_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg, void* user_data) { OSCEngineReceiver* const me = reinterpret_cast(user_data); if (argc < 1 || types[0] != 'i') // Not a valid Ingen message return 0; // Save liblo the trouble const int32_t id = argv[0]->i; const lo_address addr = lo_message_get_source(msg); char* const url = lo_address_get_url(addr); const SharedPtr r = me->_responder; /* Different address than last time, have to do a lookup */ if (!r || !r->client() || strcmp(url, r->client()->uri().c_str())) { Shared::ClientInterface* client = me->_engine.broadcaster()->client(url); if (client) me->_responder = SharedPtr(new Responder(client, id)); else me->_responder = SharedPtr(new Responder()); } if (id != -1) { me->set_next_response_id(id); } else { me->disable_responses(); } // If this returns 0 no OSC commands will work return 1; } void OSCEngineReceiver::error_cb(int num, const char* msg, const char* path) { cerr << "liblo server error " << num << " in path \"" << "\" - " << msg << endl; } /** \page engine_osc_namespace *

/ingen/ping

* \arg \b response-id (integer) * * Reply to sender immediately with a successful response. */ int OSCEngineReceiver::_ping_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const lo_address addr = lo_message_get_source(msg); if (lo_send(addr, "/ingen/ok", "i", argv[0]->i) < 0) cerr << "WARNING: Unable to send response: " << lo_address_errstr(addr) << endl; return 0; } /** \page engine_osc_namespace *

/ingen/ping_queued

* \arg \b response-id (integer) * * Reply to sender with a successful response after going through the event queue. * This is useful for checking if the engine is actually active, or for sending after * several events as a sentinel and wait on it's response, to know when all previous * events have finished processing. */ int OSCEngineReceiver::_ping_slow_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { ping(); return 0; } /** \page engine_osc_namespace *

/ingen/quit

* \arg \b response-id (integer) * * Terminate the engine. * Note that there are NO order guarantees with this command at all. You could * send 10 messages then quit, and the quit reply could come immediately and the * 10 messages would never get executed. */ int OSCEngineReceiver::_quit_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { quit(); return 0; } /** \page engine_osc_namespace *

/ingen/register_client

* \arg \b response-id (integer) * * Register a new client with the engine. * The incoming address will be used for the new registered client. If you * want to register a different specific address, use the URL version. */ int OSCEngineReceiver::_register_client_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { lo_address addr = lo_message_get_source(msg); char* const url = lo_address_get_url(addr); Shared::ClientInterface* client = new OSCClientSender((const char*)url); register_client(client); free(url); return 0; } /** \page engine_osc_namespace *

/ingen/unregister_client

* \arg \b response-id (integer) * * Unregister a client. */ int OSCEngineReceiver::_unregister_client_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { lo_address addr = lo_message_get_source(msg); char* url = lo_address_get_url(addr); unregister_client(url); free(url); return 0; } /** \page engine_osc_namespace *

/ingen/load_plugins

* \arg \b response-id (integer) * * Locate all available plugins, making them available for use. */ int OSCEngineReceiver::_load_plugins_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { load_plugins(); return 0; } /** \page engine_osc_namespace *

/ingen/activate

* \arg \b response-id (integer) * * Activate the engine (event processing and all drivers, e.g. audio and MIDI). * Note that you must send this message first if you want the engine to do * anything at all - including respond to your messages! */ int OSCEngineReceiver::_engine_activate_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { QueuedEngineInterface::activate(); return 0; } /** \page engine_osc_namespace *

/ingen/deactivate

* \arg \b response-id (integer) * * Deactivate the engine. */ int OSCEngineReceiver::_engine_deactivate_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { QueuedEngineInterface::deactivate(); return 0; } /** \page engine_osc_namespace *

/ingen/move

* \arg \b response-id (integer) * \arg \b old-path - Object's path * \arg \b new-path - Object's new path * * Move (rename) an Object. */ int OSCEngineReceiver::_move_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* old_path = &argv[1]->s; const char* new_path = &argv[2]->s; move(old_path, new_path); return 0; } /** \page engine_osc_namespace *

/ingen/clear_patch

* \arg \b response-id (integer) * \arg \b patch-path - Patch's path * * Remove all nodes from a patch. */ int OSCEngineReceiver::_clear_patch_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* patch_path = &argv[1]->s; clear_patch(patch_path); return 0; } /** \page engine_osc_namespace *

/ingen/del

* \arg \b response-id (integer) * \arg \b path (string) - Full path of the object * * Delete a graph object. */ int OSCEngineReceiver::_del_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* obj_path = &argv[1]->s; del(obj_path); return 0; } /** \page engine_osc_namespace *

/ingen/connect

* \arg \b response-id (integer) * \arg \b src-port-path (string) - Full path of source port * \arg \b dst-port-path (string) - Full path of destination port * * Connect two ports (which must be in the same patch). */ int OSCEngineReceiver::_connect_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* src_port_path = &argv[1]->s; const char* dst_port_path = &argv[2]->s; connect(src_port_path, dst_port_path); return 0; } /** \page engine_osc_namespace *

/ingen/disconnect

* \arg \b response-id (integer) * \arg \b src-port-path (string) - Full path of source port * \arg \b dst-port-path (string) - Full path of destination port * * Disconnect two ports. */ int OSCEngineReceiver::_disconnect_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* src_port_path = &argv[1]->s; const char* dst_port_path = &argv[2]->s; disconnect(src_port_path, dst_port_path); return 0; } /** \page engine_osc_namespace *

/ingen/disconnect_all

* \arg \b response-id (integer) * \arg \b patch-path (string) - The (parent) patch in which to disconnect object. * \arg \b object-path (string) - Full path of object. * * Disconnect all connections to/from a node/port. */ int OSCEngineReceiver::_disconnect_all_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* patch_path = &argv[1]->s; const char* object_path = &argv[2]->s; disconnect_all(patch_path, object_path); return 0; } /** \page engine_osc_namespace *

/ingen/set_port_value

* \arg \b response-id (integer) * \arg \b port-path (string) - Name of port * \arg \b value (float) - Value to set port to. * * Set the value of a port for all voices. */ int OSCEngineReceiver::_set_port_value_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { if (argc < 3 || argc > 5 || strncmp(types, "is", 2)) return 1; const char* port_path = &argv[1]->s; using Raul::Atom; if (!strcmp(types, "isf")) { // float, all voices const float value = argv[2]->f; set_port_value(port_path, Atom(value)); } else if (!strcmp(types, "isif")) { // float, specific voice const float value = argv[3]->f; set_voice_value(port_path, argv[2]->i, Atom(value)); } else if (!strcmp(types, "issb")) { // blob (event), all voices const char* type = &argv[2]->s; lo_blob b = argv[3]; size_t data_size = lo_blob_datasize(b); void* data = lo_blob_dataptr(b); set_port_value(port_path, Atom(type, data_size, data)); } else if (!strcmp(types, "isisb")) { // blob (event), specific voice const char* type = &argv[3]->s; lo_blob b = argv[4]; size_t data_size = lo_blob_datasize(b); void* data = lo_blob_dataptr(b); set_voice_value(port_path, argv[2]->i, Atom(type, data_size, data)); } else if (!strcmp(types, "issN")) { // empty event (type only), all voices const char* type = &argv[2]->s; set_port_value(port_path, Atom(type, 0, NULL)); } else if (!strcmp(types, "isisN")) { // empty event (type only), specific voice const char* type = &argv[3]->s; set_voice_value(port_path, argv[2]->i, Atom(type, 0, NULL)); } else { return 1; } return 0; } /** \page engine_osc_namespace *

/ingen/note_on

* \arg \b response-id (integer) * \arg \b node-path (string) - Patch of Node to trigger (must be a trigger or note node) * \arg \b note-num (int) - MIDI style note number (0-127) * \arg \b velocity (int) - MIDI style velocity (0-127) * * Trigger a note-on, just as if it came from MIDI. */ int OSCEngineReceiver::_note_on_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { /* const char* node_path = &argv[1]->s; const uint8_t note_num = argv[2]->i; const uint8_t velocity = argv[3]->i; */ cerr << "FIXME: OSC note on\n"; //note_on(node_path, note_num, velocity); return 0; } /** \page engine_osc_namespace *

/ingen/note_off

* \arg \b response-id (integer) * \arg \b node-path (string) - Patch of Node to trigger (must be a trigger or note node) * \arg \b note-num (int) - MIDI style note number (0-127) * * Trigger a note-off, just as if it came from MIDI. */ int OSCEngineReceiver::_note_off_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { /* const char* patch_path = &argv[1]->s; const uint8_t note_num = argv[2]->i; */ cerr << "FIXME: OSC note off\n"; //note_off(patch_path, note_num); return 0; } /** \page engine_osc_namespace *

/ingen/all_notes_off

* \arg \b response-id (integer) * \arg \b patch-path (string) - Patch of patch to send event to * * Trigger a note-off for all voices, just as if it came from MIDI. */ int OSCEngineReceiver::_all_notes_off_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { /* const char* patch_path = &argv[1]->s; */ cerr << "FIXME: OSC all notes off\n"; //all_notes_off(patch_path); return 0; } /** \page engine_osc_namespace *

/ingen/midi_learn

* \arg \b response-id (integer) * \arg \b node-path (string) - Path of control node. * * Initiate MIDI learn for a given control node. * The node will learn the next MIDI control event it receives and set * its outputs accordingly. * This command does nothing for objects that are not a control internal. */ int OSCEngineReceiver::_midi_learn_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* patch_path = &argv[1]->s; midi_learn(patch_path); return 0; } /** \page engine_osc_namespace *

/ingen/set_variable

* \arg \b response-id (integer) * \arg \b object-path (string) - Full path of object to associate variable with * \arg \b key (string) - Key (index/predicate/ID) for new variable * \arg \b value (string) - Value of new variable * * Set a variable, associated with a graph object. */ int OSCEngineReceiver::_variable_set_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { if (argc != 4 || types[0] != 'i' || types[1] != 's' || types[2] != 's') return 1; const char* object_path = &argv[1]->s; const char* key = &argv[2]->s; Raul::Atom value = Raul::AtomLiblo::lo_arg_to_atom(types[3], argv[3]); set_variable(object_path, key, value); return 0; } /** \page engine_osc_namespace *

/ingen/set_property

* \arg \b response-id (integer) * \arg \b object-path (string) - Full path of object to associate variable with * \arg \b key (string) - URI/QName for predicate of this property (e.g. "ingen:enabled") * \arg \b value (string) - Value of property * * Set a property on a graph object. */ int OSCEngineReceiver::_property_set_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { if (argc != 4 || types[0] != 'i' || types[1] != 's' || types[2] != 's') return 1; const char* object_path = &argv[1]->s; const char* key = &argv[2]->s; Raul::Atom value = Raul::AtomLiblo::lo_arg_to_atom(types[3], argv[3]); set_property(object_path, key, value); return 0; } /** \page engine_osc_namespace *

/ingen/request_variable

* \arg \b response-id (integer) * \arg \b object-path (string) - Full path of object variable is associated with * \arg \b key (string) - Key (index) for piece of variable * * Request the value of a variable on a graph object. */ int OSCEngineReceiver::_variable_get_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* object_path = &argv[1]->s; const char* key = &argv[2]->s; request_variable(object_path, key); return 0; } /** \page engine_osc_namespace *

/ingen/request_plugin

* \arg \b response-id (integer) * \arg \b port-path (string) - Full path of port to send the value of * * Request the value of a port. */ int OSCEngineReceiver::_request_plugin_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* uri = &argv[1]->s; request_plugin(uri); return 0; } /** \page engine_osc_namespace *

/ingen/request_object

* \arg \b response-id (integer) * \arg \b port-path (string) - Full path of port to send the value of \n\n * * Request all properties of a graph object. */ int OSCEngineReceiver::_request_object_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { const char* object_path = &argv[1]->s; request_object(object_path); return 0; } /** \page engine_osc_namespace *

/ingen/request_plugins

* \arg \b response-id (integer) * * Request the engine send a list of all known plugins. */ int OSCEngineReceiver::_request_plugins_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { request_plugins(); return 0; } /** \page engine_osc_namespace *

/ingen/request_all_objects

* \arg \b response-id (integer) * * Requests all information about all known objects. */ int OSCEngineReceiver::_request_all_objects_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg) { request_all_objects(); return 0; } // Static Callbacks // // Display incoming OSC messages (for debugging purposes) int OSCEngineReceiver::generic_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg, void* user_data) { printf("[OSCMsg] %s (%s)\t", path, types); for (int i=0; i < argc; ++i) { lo_arg_pp(lo_type(types[i]), argv[i]); printf("\t"); } printf("\n"); return 1; // not handled } int OSCEngineReceiver::unknown_cb(const char* path, const char* types, lo_arg** argv, int argc, lo_message msg, void* user_data) { const lo_address addr = lo_message_get_source(msg); char* const url = lo_address_get_url(addr); cerr << "Unknown command " << path << " (" << types << "), sending error.\n"; string error_msg = "Unknown command: "; error_msg.append(path).append(" ").append(types); OSCClientSender(url).error(error_msg); return 0; } } // namespace Ingen extern "C" { Ingen::OSCEngineReceiver* new_osc_receiver(Ingen::Engine& engine, size_t queue_size, uint16_t port) { return new Ingen::OSCEngineReceiver(engine, queue_size, port); } } // extern "C"