/* This file is part of Ingen. Copyright 2007-2017 David Robillard Ingen is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or 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 Affero General Public License for details. You should have received a copy of the GNU Affero General Public License along with Ingen. If not, see . */ #include "JackDriver.hpp" #include "Buffer.hpp" #include "BufferFactory.hpp" #include "BufferRef.hpp" #include "DuplexPort.hpp" #include "Engine.hpp" #include "FrameTimer.hpp" #include "GraphImpl.hpp" #include "PortType.hpp" #include "RunContext.hpp" #include "ThreadManager.hpp" #include "ingen_config.h" #include "util.hpp" #include "ingen/Atom.hpp" #include "ingen/Configuration.hpp" #include "ingen/Log.hpp" #include "ingen/Properties.hpp" #include "ingen/URI.hpp" #include "ingen/URIMap.hpp" #include "ingen/URIs.hpp" #include "ingen/World.hpp" #include "lv2/atom/atom.h" #include "lv2/atom/forge.h" #include "lv2/atom/util.h" #include "raul/Path.hpp" #include "raul/Semaphore.hpp" #include #include #include #if USE_JACK_METADATA #include "jackey.h" #include #endif #include #include #include #include #include #include using jack_sample_t = jack_default_audio_sample_t; namespace ingen::server { JackDriver::JackDriver(Engine& engine) : _engine(engine) , _forge() , _midi_event_type(_engine.world().uris().midi_MidiEvent) { lv2_atom_forge_init(&_forge, &engine.world().uri_map().urid_map()); } JackDriver::~JackDriver() { deactivate(); _ports.clear_and_dispose([](EnginePort* p) { delete p; }); } bool JackDriver::attach(const std::string& server_name, const std::string& client_name, void* jack_client) { assert(!_client); if (!jack_client) { // Try supplied server name if (!_client && !server_name.empty()) { if ((_client = jack_client_open(client_name.c_str(), JackServerName, nullptr, server_name.c_str()))) { _engine.log().info("Connected to Jack server `%1%'\n", server_name); } } // Server name not specified, or that server doesn't exist // Connect to default server if (!_client) { if ((_client = jack_client_open(client_name.c_str(), JackNullOption, nullptr))) { _engine.log().info("Connected to default Jack server\n"); } } // Still failed if (!_client) { _engine.log().error("Unable to connect to Jack\n"); return false; } } else { _client = static_cast(jack_client); } _sample_rate = jack_get_sample_rate(_client); _block_length = jack_get_buffer_size(_client); _seq_size = static_cast( jack_port_type_get_buffer_size(_client, JACK_DEFAULT_MIDI_TYPE)); _fallback_buffer = AudioBufPtr( static_cast( Buffer::aligned_alloc(sizeof(float) * _block_length))); jack_on_shutdown(_client, shutdown_cb, this); jack_set_thread_init_callback(_client, thread_init_cb, this); jack_set_buffer_size_callback(_client, block_length_cb, this); for (auto& p : _ports) { register_port(p); } _timer = std::make_unique(_block_length, _sample_rate); return true; } bool JackDriver::activate() { World& world = _engine.world(); if (_is_activated) { _engine.log().warn("Jack driver already activated\n"); return false; } if (!_client) { attach(world.conf().option("jack-server").ptr(), world.conf().option("jack-name").ptr(), nullptr); } if (!_client) { return false; } jack_set_process_callback(_client, process_cb, this); _is_activated = true; if (jack_activate(_client)) { _engine.log().error("Could not activate Jack client, aborting\n"); return false; } _engine.log().info("Activated Jack client `%1%'\n", world.conf().option("jack-name").ptr()); return true; } void JackDriver::deactivate() { if (_is_activated) { _flag = true; _is_activated = false; _sem.timed_wait(std::chrono::seconds(1)); for (auto& p : _ports) { unregister_port(p); } if (_client) { jack_deactivate(_client); jack_client_close(_client); _client = nullptr; } _engine.log().info("Deactivated Jack client\n"); } } EnginePort* JackDriver::get_port(const raul::Path& path) { for (auto& p : _ports) { if (p.graph_port()->path() == path) { return &p; } } return nullptr; } void JackDriver::add_port(RunContext& ctx, EnginePort* port) { _ports.push_back(*port); DuplexPort* graph_port = port->graph_port(); if (graph_port->is_a(PortType::AUDIO) || graph_port->is_a(PortType::CV)) { const SampleCount nframes = ctx.nframes(); auto* jport = static_cast(port->handle()); void* jbuf = jack_port_get_buffer(jport, nframes); /* Jack fails to return a buffer if this is too soon after registering the port, so use a silent fallback buffer if necessary. */ graph_port->set_driver_buffer( jbuf ? jbuf : _fallback_buffer.get(), nframes * sizeof(float)); } } void JackDriver::remove_port(RunContext&, EnginePort* port) { _ports.erase(_ports.iterator_to(*port)); } void JackDriver::register_port(EnginePort& port) { jack_port_t* jack_port = jack_port_register( _client, port.graph_port()->path().substr(1).c_str(), ((port.graph_port()->is_a(PortType::AUDIO) || port.graph_port()->is_a(PortType::CV)) ? JACK_DEFAULT_AUDIO_TYPE : JACK_DEFAULT_MIDI_TYPE), (port.graph_port()->is_input() ? JackPortIsInput : JackPortIsOutput), 0); if (!jack_port) { throw JackDriver::PortRegistrationFailedException(); } port.set_handle(jack_port); for (const auto& p : port.graph_port()->properties()) { port_property_internal(jack_port, p.first, p.second); } } void JackDriver::unregister_port(EnginePort& port) { if (jack_port_unregister(_client, static_cast(port.handle()))) { _engine.log().error("Failed to unregister Jack port\n"); } port.set_handle(nullptr); } void JackDriver::rename_port(const raul::Path& old_path, const raul::Path& new_path) { EnginePort* eport = get_port(old_path); if (eport) { #if USE_JACK_PORT_RENAME jack_port_rename(_client, static_cast(eport->handle()), new_path.substr(1).c_str()); #else jack_port_set_name((jack_port_t*)eport->handle(), new_path.substr(1).c_str()); #endif } } void JackDriver::port_property(const raul::Path& path, const URI& uri, const Atom& value) { #if USE_JACK_METADATA EnginePort* eport = get_port(path); if (eport) { const auto* const jport = static_cast(eport->handle()); port_property_internal(jport, uri, value); } #endif } void JackDriver::port_property_internal(const jack_port_t* jport, const URI& uri, const Atom& value) { #if USE_JACK_METADATA if (uri == _engine.world().uris().lv2_name) { jack_set_property(_client, jack_port_uuid(jport), JACK_METADATA_PRETTY_NAME, value.ptr(), "text/plain"); } else if (uri == _engine.world().uris().lv2_index) { jack_set_property(_client, jack_port_uuid(jport), JACKEY_ORDER, std::to_string(value.get()).c_str(), "http://www.w3.org/2001/XMLSchema#integer"); } else if (uri == _engine.world().uris().rdf_type) { if (value == _engine.world().uris().lv2_CVPort) { jack_set_property(_client, jack_port_uuid(jport), JACKEY_SIGNAL_TYPE, "CV", "text/plain"); } } #endif } EnginePort* JackDriver::create_port(DuplexPort* graph_port) { EnginePort* eport = nullptr; if (graph_port->is_a(PortType::AUDIO) || graph_port->is_a(PortType::CV)) { // Audio buffer port, use Jack buffer directly eport = new EnginePort(graph_port); graph_port->set_is_driver_port(*_engine.buffer_factory()); } else if (graph_port->is_a(PortType::ATOM) && graph_port->buffer_type() == _engine.world().uris().atom_Sequence) { // Sequence port, make Jack port but use internal LV2 format buffer eport = new EnginePort(graph_port); } if (eport) { register_port(*eport); } return eport; } void JackDriver::pre_process_port(RunContext& ctx, EnginePort* port) { const URIs& uris = ctx.engine().world().uris(); const SampleCount nframes = ctx.nframes(); auto* jack_port = static_cast(port->handle()); DuplexPort* graph_port = port->graph_port(); Buffer* graph_buf = graph_port->buffer(0).get(); void* jack_buf = jack_port_get_buffer(jack_port, nframes); if (graph_port->is_a(PortType::AUDIO) || graph_port->is_a(PortType::CV)) { graph_port->set_driver_buffer(jack_buf, nframes * sizeof(float)); if (graph_port->is_input()) { graph_port->monitor(ctx); } else { graph_port->buffer(0)->clear(); // TODO: Avoid when possible } } else if (graph_port->buffer_type() == uris.atom_Sequence) { graph_buf->prepare_write(ctx); if (graph_port->is_input()) { // Copy events from Jack port buffer into graph port buffer const jack_nframes_t event_count = jack_midi_get_event_count(jack_buf); for (jack_nframes_t i = 0; i < event_count; ++i) { jack_midi_event_t ev; jack_midi_event_get(&ev, jack_buf, i); if (!graph_buf->append_event( ev.time, ev.size, _midi_event_type, ev.buffer)) { _engine.log().rt_error("Failed to write to MIDI buffer, events lost!\n"); } } } graph_port->monitor(ctx); } } void JackDriver::post_process_port(RunContext& ctx, EnginePort* port) const { const URIs& uris = ctx.engine().world().uris(); const SampleCount nframes = ctx.nframes(); auto* jack_port = static_cast(port->handle()); DuplexPort* graph_port = port->graph_port(); void* jack_buf = port->buffer(); if (port->graph_port()->is_output()) { if (!jack_buf) { // First cycle for a new output, so pre_process wasn't called jack_buf = jack_port_get_buffer(jack_port, nframes); port->set_buffer(jack_buf); } if (graph_port->buffer_type() == uris.atom_Sequence) { // Copy LV2 MIDI events to Jack MIDI buffer Buffer* const graph_buf = graph_port->buffer(0).get(); auto* seq = graph_buf->get(); jack_midi_clear_buffer(jack_buf); LV2_ATOM_SEQUENCE_FOREACH (seq, ev) { const auto* buf = static_cast(LV2_ATOM_BODY(&ev->body)); if (ev->body.type == this->_midi_event_type) { jack_midi_event_write( jack_buf, ev->time.frames, buf, ev->body.size); } } } } // Reset graph port buffer pointer to no longer point to the Jack buffer if (graph_port->is_driver_port()) { graph_port->set_driver_buffer(nullptr, 0); } } void JackDriver::append_time_events(RunContext& ctx, Buffer& buffer) { const URIs& uris = ctx.engine().world().uris(); const jack_position_t* pos = &_position; const bool rolling = (_transport_state == JackTransportRolling); // Do nothing if there is no unexpected time change (other than rolling) if (rolling == _old_rolling && pos->frame == _old_frame && pos->beats_per_minute == _old_bpm) { return; } // Update old time information to detect change next cycle _old_frame = pos->frame; _old_rolling = rolling; _old_bpm = pos->beats_per_minute; // Build an LV2 position object to append to the buffer LV2_Atom pos_buf[16]; LV2_Atom_Forge_Frame frame; lv2_atom_forge_set_buffer(&_forge, reinterpret_cast(pos_buf), sizeof(pos_buf)); lv2_atom_forge_object(&_forge, &frame, 0, uris.time_Position); lv2_atom_forge_key(&_forge, uris.time_frame); lv2_atom_forge_long(&_forge, pos->frame); lv2_atom_forge_key(&_forge, uris.time_speed); lv2_atom_forge_float(&_forge, rolling ? 1.0 : 0.0); if (pos->valid & JackPositionBBT) { lv2_atom_forge_key(&_forge, uris.time_barBeat); lv2_atom_forge_float( &_forge, pos->beat - 1 + (pos->tick / pos->ticks_per_beat)); lv2_atom_forge_key(&_forge, uris.time_bar); lv2_atom_forge_long(&_forge, pos->bar - 1); lv2_atom_forge_key(&_forge, uris.time_beatUnit); lv2_atom_forge_int(&_forge, pos->beat_type); lv2_atom_forge_key(&_forge, uris.time_beatsPerBar); lv2_atom_forge_float(&_forge, pos->beats_per_bar); lv2_atom_forge_key(&_forge, uris.time_beatsPerMinute); lv2_atom_forge_float(&_forge, pos->beats_per_minute); } // Append position to buffer at offset 0 (start of this cycle) auto* lpos = static_cast(pos_buf); buffer.append_event(0, lpos->size, lpos->type, static_cast(LV2_ATOM_BODY_CONST(lpos))); } SampleCount JackDriver::frame_time() const { return _timer->frame_time(_engine.current_time()) + _engine.block_length(); } /**** Jack Callbacks ****/ /** Jack process callback, drives entire audio thread. * * \callgraph */ REALTIME int JackDriver::_process_cb(jack_nframes_t nframes) { if (nframes == 0 || ! _is_activated) { if (_flag) { _sem.post(); } return 0; } /* Note that Jack may not call this function for a cycle, if overloaded, so a rolling counter here would not always be correct. */ const jack_nframes_t start_of_current_cycle = jack_last_frame_time(_client); _transport_state = jack_transport_query(_client, &_position); _timer->update(_engine.current_time(), start_of_current_cycle - _engine.block_length()); _engine.locate(start_of_current_cycle, nframes); // Read input for (auto& p : _ports) { pre_process_port(_engine.run_context(), &p); } // Process _engine.run(nframes); // Write output for (auto& p : _ports) { post_process_port(_engine.run_context(), &p); } // Update expected transport frame for next cycle to detect changes if (_transport_state == JackTransportRolling) { _old_frame += nframes; } return 0; } void JackDriver::thread_init_cb(void*) { ThreadManager::set_flag(THREAD_PROCESS); ThreadManager::set_flag(THREAD_IS_REAL_TIME); } void JackDriver::_shutdown_cb() { _engine.log().info("Jack shutdown, exiting\n"); _is_activated = false; _client = nullptr; } int JackDriver::_block_length_cb(jack_nframes_t nframes) { if (_engine.root_graph()) { _block_length = nframes; _seq_size = static_cast( jack_port_type_get_buffer_size(_client, JACK_DEFAULT_MIDI_TYPE)); _engine.root_graph()->set_buffer_size( _engine.run_context(), *_engine.buffer_factory(), PortType::AUDIO, _engine.buffer_factory()->audio_buffer_size(nframes)); _engine.root_graph()->set_buffer_size( _engine.run_context(), *_engine.buffer_factory(), PortType::ATOM, _seq_size); } return 0; } } // namespace ingen::server