/* 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 "ingen_config.h" #include #include #include #include "lv2/lv2plug.in/ns/ext/buf-size/buf-size.h" #include "lv2/lv2plug.in/ns/ext/state/state.h" #include "events/CreateGraph.hpp" #include "ingen/AtomReader.hpp" #include "ingen/Configuration.hpp" #include "ingen/Log.hpp" #include "ingen/Store.hpp" #include "ingen/StreamWriter.hpp" #include "ingen/Tee.hpp" #include "ingen/URIs.hpp" #include "ingen/World.hpp" #include "ingen/types.hpp" #include "raul/Maid.hpp" #include "BlockFactory.hpp" #include "Broadcaster.hpp" #include "BufferFactory.hpp" #include "ControlBindings.hpp" #include "DirectDriver.hpp" #include "Driver.hpp" #include "Engine.hpp" #include "Event.hpp" #include "EventWriter.hpp" #include "GraphImpl.hpp" #include "LV2Options.hpp" #include "PostProcessor.hpp" #include "PreProcessContext.hpp" #include "PreProcessor.hpp" #include "RunContext.hpp" #include "ThreadManager.hpp" #include "UndoStack.hpp" #include "Worker.hpp" #ifdef HAVE_SOCKET #include "SocketListener.hpp" #endif namespace Ingen { namespace Server { INGEN_THREAD_LOCAL unsigned ThreadManager::flags(0); bool ThreadManager::single_threaded(true); Engine::Engine(Ingen::World* world) : _world(world) , _options(new LV2Options(world->uris())) , _buffer_factory(new BufferFactory(*this, world->uris())) , _maid(new Raul::Maid) , _worker(new Worker(world->log(), event_queue_size())) , _sync_worker(new Worker(world->log(), event_queue_size(), true)) , _broadcaster(new Broadcaster()) , _control_bindings(new ControlBindings(*this)) , _block_factory(new BlockFactory(world)) , _undo_stack(new UndoStack(_world->uris(), _world->uri_map())) , _redo_stack(new UndoStack(_world->uris(), _world->uri_map())) , _post_processor(new PostProcessor(*this)) , _pre_processor(new PreProcessor(*this)) , _event_writer(new EventWriter(*this)) , _interface(_event_writer) , _atom_interface( new AtomReader(world->uri_map(), world->uris(), world->log(), *_interface)) , _root_graph(nullptr) , _cycle_start_time(0) , _rand_engine(0) , _uniform_dist(0.0f, 1.0f) , _quit_flag(false) , _reset_load_flag(false) , _atomic_bundles(world->conf().option("atomic-bundles").get()) , _activated(false) { if (!world->store()) { world->set_store(SPtr(new Store())); } for (int i = 0; i < world->conf().option("threads").get(); ++i) { Raul::RingBuffer* ring = new Raul::RingBuffer(24 * event_queue_size()); _notifications.push_back(ring); _run_contexts.push_back(new RunContext(*this, ring, i, i > 0)); } _world->lv2_features().add_feature(_worker->schedule_feature()); _world->lv2_features().add_feature(_options); _world->lv2_features().add_feature( SPtr( new LV2Features::EmptyFeature(LV2_BUF_SIZE__powerOf2BlockLength))); _world->lv2_features().add_feature( SPtr( new LV2Features::EmptyFeature(LV2_BUF_SIZE__fixedBlockLength))); _world->lv2_features().add_feature( SPtr( new LV2Features::EmptyFeature(LV2_BUF_SIZE__boundedBlockLength))); _world->lv2_features().add_feature( SPtr( new LV2Features::EmptyFeature(LV2_STATE__loadDefaultState))); if (world->conf().option("dump").get()) { _interface = std::make_shared( Tee::Sinks{ _event_writer, std::make_shared(world->uri_map(), world->uris(), URI("ingen:/engine"), stderr, ColorContext::Color::MAGENTA)}); } } Engine::~Engine() { _root_graph = nullptr; deactivate(); // Process all pending events const FrameTime end = std::numeric_limits::max(); RunContext& ctx = run_context(); locate(ctx.end(), end - ctx.end()); _post_processor->set_end_time(end); _post_processor->process(); while (!_pre_processor->empty()) { _pre_processor->process(ctx, *_post_processor, 1); _post_processor->process(); } _atom_interface.reset(); // Delete run contexts _quit_flag = true; _tasks_available.notify_all(); for (RunContext* ctx : _run_contexts) { ctx->join(); delete ctx; } for (Raul::RingBuffer* ring : _notifications) { delete ring; } const SPtr store = this->store(); if (store) { for (auto& s : *store.get()) { if (!dynamic_ptr_cast(s.second)->parent()) { s.second.reset(); } } store->clear(); } _world->set_store(SPtr()); } void Engine::listen() { #ifdef HAVE_SOCKET _listener = UPtr(new SocketListener(*this)); #endif } void Engine::advance(SampleCount nframes) { for (RunContext* ctx : _run_contexts) { ctx->locate(ctx->start() + nframes, block_length()); } } void Engine::locate(FrameTime s, SampleCount nframes) { for (RunContext* ctx : _run_contexts) { ctx->locate(s, nframes); } } void Engine::set_root_graph(GraphImpl* graph) { _root_graph = graph; } void Engine::flush_events(const std::chrono::milliseconds& sleep_ms) { bool finished = !pending_events(); while (!finished) { // Run one audio block to execute prepared events run(block_length()); advance(block_length()); // Run one main iteration to post-process events main_iteration(); // Sleep before continuing if there are still events to process if (!(finished = !pending_events())) { std::this_thread::sleep_for(sleep_ms); } } } void Engine::emit_notifications(FrameTime end) { for (RunContext* ctx : _run_contexts) { ctx->emit_notifications(end); } } bool Engine::pending_notifications() { for (const RunContext* ctx : _run_contexts) { if (ctx->pending_notifications()) { return true; } } return false; } bool Engine::wait_for_tasks() { if (!_quit_flag) { std::unique_lock lock(_tasks_mutex); _tasks_available.wait(lock); } return !_quit_flag; } void Engine::signal_tasks_available() { _tasks_available.notify_all(); } Task* Engine::steal_task(unsigned start_thread) { for (unsigned i = 0; i < _run_contexts.size(); ++i) { const unsigned id = (start_thread + i) % _run_contexts.size(); RunContext* const ctx = _run_contexts[id]; ParTask* par = ctx->task(); if (par) { Task* t = steal(*par, *ctx); if (t) { return t; } } } return nullptr; } SPtr Engine::store() const { return _world->store(); } SampleRate Engine::sample_rate() const { return _driver->sample_rate(); } SampleCount Engine::block_length() const { return _driver->block_length(); } size_t Engine::sequence_size() const { return _driver->seq_size(); } size_t Engine::event_queue_size() const { return world()->conf().option("queue-size").get(); } void Engine::quit() { _quit_flag = true; } Properties Engine::load_properties() const { const Ingen::URIs& uris = world()->uris(); return { { uris.ingen_meanRunLoad, uris.forge.make(floorf(_run_load.mean) / 100.0f) }, { uris.ingen_minRunLoad, uris.forge.make(_run_load.min / 100.0f) }, { uris.ingen_maxRunLoad, uris.forge.make(_run_load.max / 100.0f) } }; } bool Engine::main_iteration() { _post_processor->process(); _maid->cleanup(); if (_run_load.changed) { _broadcaster->put(URI("ingen:/engine"), load_properties()); _run_load.changed = false; } return !_quit_flag; } void Engine::set_driver(SPtr driver) { _driver = driver; for (RunContext* ctx : _run_contexts) { ctx->set_priority(driver->real_time_priority()); ctx->set_rate(driver->sample_rate()); } _buffer_factory->set_block_length(driver->block_length()); _options->set(sample_rate(), block_length(), buffer_factory()->default_size(_world->uris().atom_Sequence)); } SampleCount Engine::event_time() { if (ThreadManager::single_threaded) { return 0; } return _driver->frame_time() + _driver->block_length(); } uint64_t Engine::current_time() const { return _clock.now_microseconds(); } void Engine::reset_load() { _reset_load_flag = true; } void Engine::init(double sample_rate, uint32_t block_length, size_t seq_size) { set_driver(SPtr(new DirectDriver(*this, sample_rate, block_length, seq_size))); } bool Engine::supports_dynamic_ports() const { return !_driver || _driver->dynamic_ports(); } bool Engine::activate() { if (!_driver) { return false; } ThreadManager::single_threaded = true; const Ingen::URIs& uris = world()->uris(); if (!_root_graph) { // No root graph has been loaded, create an empty one const Properties properties = { {uris.rdf_type, uris.ingen_Graph}, {uris.ingen_polyphony, Property(_world->forge().make(1), Resource::Graph::INTERNAL)}}; enqueue_event( new Events::CreateGraph( *this, SPtr(), -1, 0, Raul::Path("/"), properties)); flush_events(std::chrono::milliseconds(10)); if (!_root_graph) { return false; } } _driver->activate(); _root_graph->enable(); ThreadManager::single_threaded = false; _activated = true; return true; } void Engine::deactivate() { if (_driver) { _driver->deactivate(); } if (_root_graph) { _root_graph->deactivate(); } ThreadManager::single_threaded = true; _activated = false; } unsigned Engine::run(uint32_t sample_count) { RunContext& ctx = run_context(); _cycle_start_time = current_time(); post_processor()->set_end_time(ctx.end()); // Process events that came in during the last cycle // (Aiming for jitter-free 1 block event latency, ideally) const unsigned n_processed_events = process_events(); // Reset load if graph structure has changed if (_reset_load_flag) { _run_load = Load(); _reset_load_flag = false; } // Run root graph if (_root_graph) { // Apply control bindings to input control_bindings()->pre_process( ctx, _root_graph->port_impl(0)->buffer(0).get()); // Run root graph for this cycle _root_graph->process(ctx); // Emit control binding feedback control_bindings()->post_process( ctx, _root_graph->port_impl(1)->buffer(0).get()); } // Update load for this cycle if (ctx.duration() > 0) { _run_load.update(current_time() - _cycle_start_time, ctx.duration()); } return n_processed_events; } bool Engine::pending_events() const { return !_pre_processor->empty() || _post_processor->pending(); } void Engine::enqueue_event(Event* ev, Event::Mode mode) { _pre_processor->event(ev, mode); } unsigned Engine::process_events() { const size_t MAX_EVENTS_PER_CYCLE = run_context().nframes() / 8; return _pre_processor->process( run_context(), *_post_processor, MAX_EVENTS_PER_CYCLE); } unsigned Engine::process_all_events() { return _pre_processor->process(run_context(), *_post_processor, 0); } Log& Engine::log() const { return _world->log(); } void Engine::register_client(SPtr client) { log().info(fmt("Registering client <%1%>\n") % client->uri().c_str()); _broadcaster->register_client(client); } bool Engine::unregister_client(SPtr client) { log().info(fmt("Unregistering client <%1%>\n") % client->uri().c_str()); return _broadcaster->unregister_client(client); } } // namespace Server } // namespace Ingen