/* * Carla Plugin Host * Copyright (C) 2011-2014 Filipe Coelho * * 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 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. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ #include "CarlaEngineGraph.hpp" #include "CarlaEngineInternal.hpp" #include "CarlaBackendUtils.hpp" #include "CarlaMathUtils.hpp" #include "CarlaStringList.hpp" #include "RtLinkedList.hpp" #include "jackbridge/JackBridge.hpp" #include "juce_audio_basics.h" #include "rtaudio/RtAudio.h" #include "rtmidi/RtMidi.h" using juce::FloatVectorOperations; CARLA_BACKEND_START_NAMESPACE // ------------------------------------------------------------------------------------------------------------------- // Global static data static CharStringListPtr gDeviceNames; static std::vector gRtAudioApis; // ------------------------------------------------------------------------------------------------------------------- static void initRtAudioAPIsIfNeeded() { static bool needsInit = true; if (! needsInit) return; needsInit = false; // get APIs in a local var, and pass wanted ones into gRtAudioApis std::vector apis; RtAudio::getCompiledApi(apis); for (std::vector::iterator it = apis.begin(), end = apis.end(); it != end; ++it) { const RtAudio::Api& api(*it); if (api == RtAudio::MACOSX_CORE) continue; if (api == RtAudio::WINDOWS_ASIO) continue; if (api == RtAudio::WINDOWS_DS) continue; if (api == RtAudio::WINDOWS_WASAPI) continue; if (api == RtAudio::UNIX_JACK && ! jackbridge_is_ok()) continue; gRtAudioApis.push_back(api); } } static const char* getRtAudioApiName(const RtAudio::Api api) noexcept { switch (api) { case RtAudio::UNSPECIFIED: return "Unspecified"; case RtAudio::LINUX_ALSA: return "ALSA"; case RtAudio::LINUX_PULSE: return "PulseAudio"; case RtAudio::LINUX_OSS: return "OSS"; case RtAudio::UNIX_JACK: #if defined(CARLA_OS_WIN) return "JACK with WinMM"; #elif defined(CARLA_OS_MAC) return "JACK with CoreMidi"; #elif defined(CARLA_OS_LINUX) return "JACK with ALSA-MIDI"; #else return "JACK (RtAudio)"; #endif case RtAudio::MACOSX_CORE: return "CoreAudio"; case RtAudio::WINDOWS_ASIO: return "ASIO"; case RtAudio::WINDOWS_DS: return "DirectSound"; case RtAudio::WINDOWS_WASAPI: return "WASAPI"; case RtAudio::RTAUDIO_DUMMY: return "Dummy"; } carla_stderr("CarlaBackend::getRtAudioApiName(%i) - invalid API", api); return nullptr; } static RtMidi::Api getMatchedAudioMidiAPI(const RtAudio::Api rtApi) noexcept { switch (rtApi) { case RtAudio::UNSPECIFIED: return RtMidi::UNSPECIFIED; case RtAudio::LINUX_ALSA: case RtAudio::LINUX_OSS: case RtAudio::LINUX_PULSE: return RtMidi::LINUX_ALSA; case RtAudio::UNIX_JACK: #if defined(CARLA_OS_WIN) return RtMidi::WINDOWS_MM; #elif defined(CARLA_OS_MAC) return RtMidi::MACOSX_CORE; #elif defined(CARLA_OS_LINUX) return RtMidi::LINUX_ALSA; #else return RtMidi::UNIX_JACK; #endif case RtAudio::MACOSX_CORE: return RtMidi::MACOSX_CORE; case RtAudio::WINDOWS_ASIO: case RtAudio::WINDOWS_DS: case RtAudio::WINDOWS_WASAPI: return RtMidi::WINDOWS_MM; case RtAudio::RTAUDIO_DUMMY: return RtMidi::RTMIDI_DUMMY; } return RtMidi::UNSPECIFIED; } // ------------------------------------------------------------------------------------------------------------------- // RtAudio Engine class CarlaEngineRtAudio : public CarlaEngine { public: CarlaEngineRtAudio(const RtAudio::Api api) : CarlaEngine(), fAudio(api), fAudioInCount(0), fAudioOutCount(0), fLastEventTime(0), fDeviceName(), fMidiIns(), fMidiInEvents(), fMidiOuts(), fMidiOutMutex(), fMidiOutVector(3), leakDetector_CarlaEngineRtAudio() { carla_debug("CarlaEngineRtAudio::CarlaEngineRtAudio(%i)", api); // just to make sure pData->options.transportMode = ENGINE_TRANSPORT_MODE_INTERNAL; } ~CarlaEngineRtAudio() override { CARLA_SAFE_ASSERT(fAudioInCount == 0); CARLA_SAFE_ASSERT(fAudioOutCount == 0); CARLA_SAFE_ASSERT(fLastEventTime == 0); carla_debug("CarlaEngineRtAudio::~CarlaEngineRtAudio()"); } // ------------------------------------- bool init(const char* const clientName) override { CARLA_SAFE_ASSERT_RETURN(fAudioInCount == 0, false); CARLA_SAFE_ASSERT_RETURN(fAudioOutCount == 0, false); CARLA_SAFE_ASSERT_RETURN(fLastEventTime == 0, false); CARLA_SAFE_ASSERT_RETURN(clientName != nullptr && clientName[0] != '\0', false); carla_debug("CarlaEngineRtAudio::init(\"%s\")", clientName); if (pData->options.processMode != ENGINE_PROCESS_MODE_CONTINUOUS_RACK && pData->options.processMode != ENGINE_PROCESS_MODE_PATCHBAY) { setLastError("Invalid process mode"); return false; } const uint devCount(fAudio.getDeviceCount()); if (devCount == 0) { setLastError("No audio devices available for this driver"); return false; } RtAudio::StreamParameters iParams, oParams; bool deviceSet = false; if (pData->options.audioDevice != nullptr && pData->options.audioDevice[0] != '\0') { for (uint i=0; i < devCount; ++i) { RtAudio::DeviceInfo devInfo(fAudio.getDeviceInfo(i)); if (devInfo.probed && devInfo.outputChannels > 0 && devInfo.name == pData->options.audioDevice) { deviceSet = true; fDeviceName = devInfo.name.c_str(); iParams.deviceId = i; oParams.deviceId = i; iParams.nChannels = devInfo.inputChannels; oParams.nChannels = devInfo.outputChannels; break; } } } if (! deviceSet) { iParams.deviceId = fAudio.getDefaultInputDevice(); oParams.deviceId = fAudio.getDefaultOutputDevice(); iParams.nChannels = fAudio.getDeviceInfo(iParams.deviceId).inputChannels; oParams.nChannels = fAudio.getDeviceInfo(oParams.deviceId).outputChannels; carla_stdout("No device set, using %i inputs and %i outputs", iParams.nChannels, oParams.nChannels); } if (oParams.nChannels == 0) { setLastError("Current audio setup has no outputs, cannot continue"); return false; } iParams.nChannels = carla_fixValue(0U, 128U, iParams.nChannels); oParams.nChannels = carla_fixValue(0U, 128U, oParams.nChannels); RtAudio::StreamOptions rtOptions; rtOptions.flags = RTAUDIO_MINIMIZE_LATENCY | RTAUDIO_HOG_DEVICE | RTAUDIO_SCHEDULE_REALTIME | RTAUDIO_NONINTERLEAVED; rtOptions.streamName = clientName; rtOptions.priority = 85; if (fAudio.getCurrentApi() == RtAudio::LINUX_ALSA && ! deviceSet) rtOptions.flags |= RTAUDIO_ALSA_USE_DEFAULT; uint bufferFrames = pData->options.audioBufferSize; try { fAudio.openStream(&oParams, (iParams.nChannels > 0) ? &iParams : nullptr, RTAUDIO_FLOAT32, pData->options.audioSampleRate, &bufferFrames, carla_rtaudio_process_callback, this, &rtOptions); } catch (const RtAudioError& e) { setLastError(e.what()); return false; } if (! pData->init(clientName)) { close(); setLastError("Failed to init internal data"); return false; } pData->bufferSize = bufferFrames; pData->sampleRate = fAudio.getStreamSampleRate(); fAudioInCount = iParams.nChannels; fAudioOutCount = oParams.nChannels; fLastEventTime = 0; pData->graph.create(pData->options.processMode == ENGINE_PROCESS_MODE_CONTINUOUS_RACK, pData->sampleRate, pData->bufferSize, fAudioInCount, fAudioOutCount); try { fAudio.startStream(); } catch (const RtAudioError& e) { close(); setLastError(e.what()); return false; } patchbayRefresh(false); callback(ENGINE_CALLBACK_ENGINE_STARTED, 0, pData->options.processMode, pData->options.transportMode, 0.0f, getCurrentDriverName()); return true; } bool close() override { CARLA_SAFE_ASSERT(fAudioOutCount != 0); carla_debug("CarlaEngineRtAudio::close()"); bool hasError = false; // stop stream first if (fAudio.isStreamOpen() && fAudio.isStreamRunning()) { try { fAudio.stopStream(); } catch (const RtAudioError& e) { setLastError(e.what()); hasError = true; } } // clear engine data CarlaEngine::close(); pData->graph.destroy(); for (LinkedList::Itenerator it = fMidiIns.begin(); it.valid(); it.next()) { MidiInPort& inPort(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(inPort.port != nullptr); inPort.port->cancelCallback(); inPort.port->closePort(); delete inPort.port; } fMidiIns.clear(); fMidiInEvents.clear(); fMidiOutMutex.lock(); for (LinkedList::Itenerator it = fMidiOuts.begin(); it.valid(); it.next()) { MidiOutPort& outPort(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(outPort.port != nullptr); outPort.port->closePort(); delete outPort.port; } fMidiOuts.clear(); fMidiOutMutex.unlock(); fAudioInCount = 0; fAudioOutCount = 0; fLastEventTime = 0; fDeviceName.clear(); // close stream if (fAudio.isStreamOpen()) fAudio.closeStream(); return !hasError; } bool isRunning() const noexcept override { return fAudio.isStreamRunning(); } bool isOffline() const noexcept override { return false; } EngineType getType() const noexcept override { return kEngineTypeRtAudio; } const char* getCurrentDriverName() const noexcept override { return CarlaBackend::getRtAudioApiName(fAudio.getCurrentApi()); } // ------------------------------------------------------------------- // Patchbay bool patchbayRefresh(const bool /*external*/) override { CARLA_SAFE_ASSERT_RETURN(pData->graph.isReady(), false); if (pData->options.processMode == ENGINE_PROCESS_MODE_CONTINUOUS_RACK) patchbayRefreshRack(); else patchbayRefreshPatchbay(); return true; } void patchbayRefreshRack() { RackGraph* const graph(pData->graph.getRackGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr,); graph->connections.clear(); char strBuf[STR_MAX+1]; strBuf[STR_MAX] = '\0'; // Main { callback(ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED, RACK_GRAPH_GROUP_CARLA, PATCHBAY_ICON_CARLA, -1, 0.0f, getName()); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_IN1, PATCHBAY_PORT_TYPE_AUDIO|PATCHBAY_PORT_IS_INPUT, 0.0f, "audio-in1"); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_IN2, PATCHBAY_PORT_TYPE_AUDIO|PATCHBAY_PORT_IS_INPUT, 0.0f, "audio-in2"); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_OUT1, PATCHBAY_PORT_TYPE_AUDIO, 0.0f, "audio-out1"); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_OUT2, PATCHBAY_PORT_TYPE_AUDIO, 0.0f, "audio-out2"); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_MIDI_IN, PATCHBAY_PORT_TYPE_MIDI|PATCHBAY_PORT_IS_INPUT, 0.0f, "midi-in"); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_MIDI_OUT, PATCHBAY_PORT_TYPE_MIDI, 0.0f, "midi-out"); } // Audio In { if (fDeviceName.isNotEmpty()) std::snprintf(strBuf, STR_MAX, "Capture (%s)", fDeviceName.buffer()); else std::strncpy(strBuf, "Capture", STR_MAX); callback(ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED, RACK_GRAPH_GROUP_AUDIO_IN, PATCHBAY_ICON_HARDWARE, -1, 0.0f, strBuf); for (uint i=0; i < fAudioInCount; ++i) { std::snprintf(strBuf, STR_MAX, "capture_%i", i+1); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_AUDIO_IN, static_cast(i), PATCHBAY_PORT_TYPE_AUDIO, 0.0f, strBuf); } } // Audio Out { if (fDeviceName.isNotEmpty()) std::snprintf(strBuf, STR_MAX, "Playback (%s)", fDeviceName.buffer()); else std::strncpy(strBuf, "Playback", STR_MAX); callback(ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED, RACK_GRAPH_GROUP_AUDIO_OUT, PATCHBAY_ICON_HARDWARE, -1, 0.0f, strBuf); for (uint i=0; i < fAudioOutCount; ++i) { std::snprintf(strBuf, STR_MAX, "playback_%i", i+1); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, RACK_GRAPH_GROUP_AUDIO_OUT, static_cast(i), PATCHBAY_PORT_TYPE_AUDIO|PATCHBAY_PORT_IS_INPUT, 0.0f, strBuf); } } // MIDI In { RtMidiIn midiIn(getMatchedAudioMidiAPI(fAudio.getCurrentApi()), "carla-discovery"); callback(ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED, RACK_GRAPH_GROUP_MIDI_IN, PATCHBAY_ICON_HARDWARE, -1, 0.0f, "Readable MIDI ports"); for (uint i=0, count = midiIn.getPortCount(); i < count; ++i) { std::string portName(midiIn.getPortName(i)); std::snprintf(strBuf, STR_MAX, "Readable MIDI ports:%s", portName.c_str()); PortNameToId portNameToId; portNameToId.setData(RACK_GRAPH_GROUP_MIDI_IN, i, portName.c_str(), strBuf); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, portNameToId.group, static_cast(portNameToId.port), PATCHBAY_PORT_TYPE_MIDI, 0.0f, portNameToId.name); graph->midi.ins.append(portNameToId); } } // MIDI Out { RtMidiOut midiOut(getMatchedAudioMidiAPI(fAudio.getCurrentApi()), "carla-discovery"); callback(ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED, RACK_GRAPH_GROUP_MIDI_OUT, PATCHBAY_ICON_HARDWARE, -1, 0.0f, "Writable MIDI ports"); for (uint i=0, count = midiOut.getPortCount(); i < count; ++i) { std::string portName(midiOut.getPortName(i)); std::snprintf(strBuf, STR_MAX, "Writable MIDI ports:%s", portName.c_str()); PortNameToId portNameToId; portNameToId.setData(RACK_GRAPH_GROUP_MIDI_OUT, i, portName.c_str(), strBuf); callback(ENGINE_CALLBACK_PATCHBAY_PORT_ADDED, portNameToId.group, static_cast(portNameToId.port), PATCHBAY_PORT_TYPE_MIDI|PATCHBAY_PORT_IS_INPUT, 0.0f, portNameToId.name); graph->midi.outs.append(portNameToId); } } // Connections graph->audio.mutex.lock(); for (LinkedList::Itenerator it = graph->audio.connectedIn1.begin(); it.valid(); it.next()) { const uint& portId(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(portId < fAudioInCount); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_AUDIO_IN, portId, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_IN1); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } for (LinkedList::Itenerator it = graph->audio.connectedIn2.begin(); it.valid(); it.next()) { const uint& portId(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(portId < fAudioInCount); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_AUDIO_IN, portId, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_IN2); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } for (LinkedList::Itenerator it = graph->audio.connectedOut1.begin(); it.valid(); it.next()) { const uint& portId(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(portId < fAudioOutCount); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_OUT1, RACK_GRAPH_GROUP_AUDIO_OUT, portId); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } for (LinkedList::Itenerator it = graph->audio.connectedOut2.begin(); it.valid(); it.next()) { const uint& portId(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(portId < fAudioOutCount); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_AUDIO_OUT2, RACK_GRAPH_GROUP_AUDIO_OUT, portId); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } graph->audio.mutex.unlock(); for (LinkedList::Itenerator it=fMidiIns.begin(); it.valid(); it.next()) { const MidiInPort& inPort(it.getValue()); const uint portId(graph->midi.getPortId(true, inPort.name)); CARLA_SAFE_ASSERT_CONTINUE(portId < graph->midi.ins.count()); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_MIDI_IN, portId, RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_MIDI_IN); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } fMidiOutMutex.lock(); for (LinkedList::Itenerator it=fMidiOuts.begin(); it.valid(); it.next()) { const MidiOutPort& outPort(it.getValue()); const uint portId(graph->midi.getPortId(false, outPort.name)); CARLA_SAFE_ASSERT_CONTINUE(portId < graph->midi.outs.count()); ConnectionToId connectionToId; connectionToId.setData(++(graph->connections.lastId), RACK_GRAPH_GROUP_CARLA, RACK_GRAPH_CARLA_PORT_MIDI_OUT, RACK_GRAPH_GROUP_MIDI_OUT, portId); std::snprintf(strBuf, STR_MAX, "%i:%i:%i:%i", connectionToId.groupA, connectionToId.portA, connectionToId.groupB, connectionToId.portB); callback(ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED, connectionToId.id, 0, 0, 0.0f, strBuf); graph->connections.list.append(connectionToId); } fMidiOutMutex.unlock(); } void patchbayRefreshPatchbay() noexcept { PatchbayGraph* const graph(pData->graph.getPatchbayGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr,); graph->refreshConnections(this); } // ------------------------------------------------------------------- protected: void handleAudioProcessCallback(void* outputBuffer, void* inputBuffer, uint nframes, double streamTime, RtAudioStreamStatus status) { const PendingRtEventsRunner prt(this); // get buffers from RtAudio const float* const insPtr = (const float*)inputBuffer; float* const outsPtr = (float*)outputBuffer; // assert rtaudio buffers CARLA_SAFE_ASSERT_RETURN(outputBuffer != nullptr,); CARLA_SAFE_ASSERT_RETURN(pData->bufferSize == nframes,); // initialize rtaudio input const float* inBuf[fAudioInCount]; for (uint i=0; i < fAudioInCount; ++i) inBuf[i] = insPtr+(nframes*i); // initialize rtaudio output float* outBuf[fAudioOutCount]; for (uint i=0; i < fAudioOutCount; ++i) outBuf[i] = outsPtr+(nframes*i); FloatVectorOperations::clear(outsPtr, static_cast(nframes*fAudioOutCount)); // initialize events carla_zeroStruct(pData->events.in, kMaxEngineEventInternalCount); carla_zeroStruct(pData->events.out, kMaxEngineEventInternalCount); if (fMidiInEvents.mutex.tryLock()) { uint32_t engineEventIndex = 0; fMidiInEvents.splice(); for (LinkedList::Itenerator it = fMidiInEvents.data.begin(); it.valid(); it.next()) { const RtMidiEvent& midiEvent(it.getValue()); EngineEvent& engineEvent(pData->events.in[engineEventIndex++]); if (midiEvent.time < pData->timeInfo.frame) { engineEvent.time = 0; } else if (midiEvent.time >= pData->timeInfo.frame + nframes) { carla_stderr("MIDI Event in the future!, %i vs %i", engineEvent.time, pData->timeInfo.frame); engineEvent.time = static_cast(pData->timeInfo.frame) + nframes - 1; } else engineEvent.time = static_cast(midiEvent.time - pData->timeInfo.frame); engineEvent.fillFromMidiData(midiEvent.size, midiEvent.data); if (engineEventIndex >= kMaxEngineEventInternalCount) break; } fMidiInEvents.data.clear(); fMidiInEvents.mutex.unlock(); } pData->graph.process(pData, inBuf, outBuf, nframes); fMidiOutMutex.lock(); if (fMidiOuts.count() > 0) { uint8_t size = 0; uint8_t data[3] = { 0, 0, 0 }; const uint8_t* dataPtr = data; for (ushort i=0; i < kMaxEngineEventInternalCount; ++i) { const EngineEvent& engineEvent(pData->events.out[i]); if (engineEvent.type == kEngineEventTypeNull) break; else if (engineEvent.type == kEngineEventTypeControl) { const EngineControlEvent& ctrlEvent(engineEvent.ctrl); ctrlEvent.convertToMidiData(engineEvent.channel, size, data); dataPtr = data; } else if (engineEvent.type == kEngineEventTypeMidi) { const EngineMidiEvent& midiEvent(engineEvent.midi); size = midiEvent.size; if (size > EngineMidiEvent::kDataSize && midiEvent.dataExt != nullptr) dataPtr = midiEvent.dataExt; else dataPtr = midiEvent.data; } else { continue; } if (size > 0) { fMidiOutVector.assign(dataPtr, dataPtr + size); for (LinkedList::Itenerator it=fMidiOuts.begin(); it.valid(); it.next()) { MidiOutPort& outPort(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(outPort.port != nullptr); outPort.port->sendMessage(&fMidiOutVector); } } } } fMidiOutMutex.unlock(); return; // unused (void)streamTime; (void)status; } void handleMidiCallback(double timeStamp, std::vector* const message) { const size_t messageSize(message->size()); if (messageSize == 0 || messageSize > EngineMidiEvent::kDataSize) return; timeStamp /= 2; if (timeStamp > 0.95) timeStamp = 0.95; else if (timeStamp < 0.0) timeStamp = 0.0; RtMidiEvent midiEvent; midiEvent.time = pData->timeInfo.frame + uint64_t(timeStamp * (double)pData->bufferSize); if (midiEvent.time < fLastEventTime) midiEvent.time = fLastEventTime; else fLastEventTime = midiEvent.time; midiEvent.size = static_cast(messageSize); size_t i=0; for (; i < messageSize; ++i) midiEvent.data[i] = message->at(i); for (; i < EngineMidiEvent::kDataSize; ++i) midiEvent.data[i] = 0; fMidiInEvents.append(midiEvent); } // ------------------------------------------------------------------- bool connectRackMidiInPort(const char* const portName) override { CARLA_SAFE_ASSERT_RETURN(portName != nullptr && portName[0] != '\0', false); carla_debug("CarlaEngineRtAudio::connectRackMidiInPort(\"%s\")", portName); RackGraph* const graph(pData->graph.getRackGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr, false); CARLA_SAFE_ASSERT_RETURN(graph->midi.ins.count() > 0, false); CarlaString newRtMidiPortName; newRtMidiPortName += getName(); newRtMidiPortName += ":"; newRtMidiPortName += portName; RtMidiIn* const rtMidiIn(new RtMidiIn(getMatchedAudioMidiAPI(fAudio.getCurrentApi()), newRtMidiPortName.buffer(), 512)); rtMidiIn->ignoreTypes(); rtMidiIn->setCallback(carla_rtmidi_callback, this); bool found = false; uint rtMidiPortIndex; for (uint i=0, count=rtMidiIn->getPortCount(); i < count; ++i) { if (rtMidiIn->getPortName(i) == portName) { found = true; rtMidiPortIndex = i; break; } } if (! found) { delete rtMidiIn; return false; } try { rtMidiIn->openPort(rtMidiPortIndex, portName); } catch(...) { delete rtMidiIn; return false; }; MidiInPort midiPort; midiPort.port = rtMidiIn; std::strncpy(midiPort.name, portName, STR_MAX); midiPort.name[STR_MAX] = '\0'; fMidiIns.append(midiPort); return true; } bool connectRackMidiOutPort(const char* const portName) override { CARLA_SAFE_ASSERT_RETURN(portName != nullptr && portName[0] != '\0', false); carla_debug("CarlaEngineRtAudio::connectRackMidiOutPort(\"%s\")", portName); RackGraph* const graph(pData->graph.getRackGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr, false); CARLA_SAFE_ASSERT_RETURN(graph->midi.ins.count() > 0, false); CarlaString newRtMidiPortName; newRtMidiPortName += getName(); newRtMidiPortName += ":"; newRtMidiPortName += portName; RtMidiOut* const rtMidiOut(new RtMidiOut(getMatchedAudioMidiAPI(fAudio.getCurrentApi()), newRtMidiPortName.buffer())); bool found = false; uint rtMidiPortIndex; for (uint i=0, count=rtMidiOut->getPortCount(); i < count; ++i) { if (rtMidiOut->getPortName(i) == portName) { found = true; rtMidiPortIndex = i; break; } } if (! found) { delete rtMidiOut; return false; } try { rtMidiOut->openPort(rtMidiPortIndex, portName); } catch(...) { delete rtMidiOut; return false; }; MidiOutPort midiPort; midiPort.port = rtMidiOut; std::strncpy(midiPort.name, portName, STR_MAX); midiPort.name[STR_MAX] = '\0'; const CarlaMutexLocker cml(fMidiOutMutex); fMidiOuts.append(midiPort); return true; } bool disconnectRackMidiInPort(const char* const portName) override { CARLA_SAFE_ASSERT_RETURN(portName != nullptr && portName[0] != '\0', false); carla_debug("CarlaEngineRtAudio::disconnectRackMidiInPort(\"%s\")", portName); RackGraph* const graph(pData->graph.getRackGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr, false); CARLA_SAFE_ASSERT_RETURN(graph->midi.ins.count() > 0, false); for (LinkedList::Itenerator it=fMidiIns.begin(); it.valid(); it.next()) { MidiInPort& inPort(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(inPort.port != nullptr); if (std::strcmp(inPort.name, portName) != 0) continue; inPort.port->cancelCallback(); inPort.port->closePort(); delete inPort.port; fMidiIns.remove(it); return true; } return false; } bool disconnectRackMidiOutPort(const char* const portName) override { CARLA_SAFE_ASSERT_RETURN(portName != nullptr && portName[0] != '\0', false); carla_debug("CarlaEngineRtAudio::disconnectRackMidiOutPort(\"%s\")", portName); RackGraph* const graph(pData->graph.getRackGraph()); CARLA_SAFE_ASSERT_RETURN(graph != nullptr, false); CARLA_SAFE_ASSERT_RETURN(graph->midi.outs.count() > 0, false); const CarlaMutexLocker cml(fMidiOutMutex); for (LinkedList::Itenerator it=fMidiOuts.begin(); it.valid(); it.next()) { MidiOutPort& outPort(it.getValue()); CARLA_SAFE_ASSERT_CONTINUE(outPort.port != nullptr); if (std::strcmp(outPort.name, portName) != 0) continue; outPort.port->closePort(); delete outPort.port; fMidiOuts.remove(it); return true; } return false; } // ------------------------------------------------------------------- private: RtAudio fAudio; // useful info uint fAudioInCount; uint fAudioOutCount; uint64_t fLastEventTime; // current device name CarlaString fDeviceName; struct MidiInPort { RtMidiIn* port; char name[STR_MAX+1]; }; struct MidiOutPort { RtMidiOut* port; char name[STR_MAX+1]; }; struct RtMidiEvent { uint64_t time; // needs to compare to internal time uint8_t size; uint8_t data[EngineMidiEvent::kDataSize]; }; struct RtMidiEvents { CarlaMutex mutex; RtLinkedList::Pool dataPool; RtLinkedList data; RtLinkedList dataPending; RtMidiEvents() : mutex(), dataPool(512, 512), data(dataPool), dataPending(dataPool) {} ~RtMidiEvents() { clear(); } void append(const RtMidiEvent& event) { mutex.lock(); dataPending.append(event); mutex.unlock(); } void clear() { mutex.lock(); data.clear(); dataPending.clear(); mutex.unlock(); } void splice() { dataPending.spliceAppendTo(data); } }; LinkedList fMidiIns; RtMidiEvents fMidiInEvents; LinkedList fMidiOuts; CarlaMutex fMidiOutMutex; std::vector fMidiOutVector; #define handlePtr ((CarlaEngineRtAudio*)userData) static int carla_rtaudio_process_callback(void* outputBuffer, void* inputBuffer, uint nframes, double streamTime, RtAudioStreamStatus status, void* userData) { handlePtr->handleAudioProcessCallback(outputBuffer, inputBuffer, nframes, streamTime, status); return 0; } static void carla_rtmidi_callback(double timeStamp, std::vector* message, void* userData) { handlePtr->handleMidiCallback(timeStamp, message); } #undef handlePtr CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(CarlaEngineRtAudio) }; // ----------------------------------------- CarlaEngine* CarlaEngine::newRtAudio(const AudioApi api) { initRtAudioAPIsIfNeeded(); RtAudio::Api rtApi(RtAudio::UNSPECIFIED); switch (api) { case AUDIO_API_NULL: rtApi = RtAudio::RTAUDIO_DUMMY; break; case AUDIO_API_JACK: rtApi = RtAudio::UNIX_JACK; break; case AUDIO_API_ALSA: rtApi = RtAudio::LINUX_ALSA; break; case AUDIO_API_OSS: rtApi = RtAudio::LINUX_OSS; break; case AUDIO_API_PULSE: rtApi = RtAudio::LINUX_PULSE; break; case AUDIO_API_CORE: rtApi = RtAudio::MACOSX_CORE; break; case AUDIO_API_ASIO: rtApi = RtAudio::WINDOWS_ASIO; break; case AUDIO_API_DS: rtApi = RtAudio::WINDOWS_DS; break; } return new CarlaEngineRtAudio(rtApi); } uint CarlaEngine::getRtAudioApiCount() { initRtAudioAPIsIfNeeded(); return static_cast(gRtAudioApis.size()); } const char* CarlaEngine::getRtAudioApiName(const uint index) { initRtAudioAPIsIfNeeded(); CARLA_SAFE_ASSERT_RETURN(index < gRtAudioApis.size(), nullptr); return CarlaBackend::getRtAudioApiName(gRtAudioApis[index]); } const char* const* CarlaEngine::getRtAudioApiDeviceNames(const uint index) { initRtAudioAPIsIfNeeded(); if (index >= gRtAudioApis.size()) return nullptr; const RtAudio::Api& api(gRtAudioApis[index]); RtAudio rtAudio(api); const uint devCount(rtAudio.getDeviceCount()); if (devCount == 0) return nullptr; CarlaStringList devNames; for (uint i=0; i < devCount; ++i) { RtAudio::DeviceInfo devInfo(rtAudio.getDeviceInfo(i)); if (devInfo.probed && devInfo.outputChannels > 0 /*&& (devInfo.nativeFormats & RTAUDIO_FLOAT32) != 0*/) devNames.append(devInfo.name.c_str()); } gDeviceNames = devNames.toCharStringListPtr(); return gDeviceNames; } const EngineDriverDeviceInfo* CarlaEngine::getRtAudioDeviceInfo(const uint index, const char* const deviceName) { initRtAudioAPIsIfNeeded(); if (index >= gRtAudioApis.size()) return nullptr; const RtAudio::Api& api(gRtAudioApis[index]); RtAudio rtAudio(api); const uint devCount(rtAudio.getDeviceCount()); if (devCount == 0) return nullptr; uint i; RtAudio::DeviceInfo rtAudioDevInfo; for (i=0; i < devCount; ++i) { rtAudioDevInfo = rtAudio.getDeviceInfo(i); if (rtAudioDevInfo.name == deviceName) break; } if (i == devCount) return nullptr; static EngineDriverDeviceInfo devInfo = { 0x0, nullptr, nullptr }; static uint32_t dummyBufferSizes[] = { 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, 0 }; static double dummySampleRates[] = { 22050.0, 32000.0, 44100.0, 48000.0, 88200.0, 96000.0, 176400.0, 192000.0, 0.0 }; // reset devInfo.hints = 0x0; devInfo.bufferSizes = dummyBufferSizes; // cleanup if (devInfo.sampleRates != nullptr && devInfo.sampleRates != dummySampleRates) { delete[] devInfo.sampleRates; devInfo.sampleRates = nullptr; } if (size_t sampleRatesCount = rtAudioDevInfo.sampleRates.size()) { double* const sampleRates(new double[sampleRatesCount+1]); for (size_t j=0; j < sampleRatesCount; ++j) sampleRates[j] = rtAudioDevInfo.sampleRates[j]; sampleRates[sampleRatesCount] = 0.0; devInfo.sampleRates = sampleRates; } else { devInfo.sampleRates = dummySampleRates; } return &devInfo; } // ----------------------------------------- CARLA_BACKEND_END_NAMESPACE