/* * Carla JACK API for external applications * Copyright (C) 2016-2019 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 "libjack.hpp" #include "CarlaThread.hpp" #include "CarlaJuceUtils.hpp" #include #include #include // --------------------------------------------------------------------------------------------------------------------- CARLA_BACKEND_START_NAMESPACE // --------------------------------------------------------------------------------------------------------------------- static int64_t getCurrentTimeMilliseconds() noexcept { struct timeval tv; gettimeofday (&tv, nullptr); return ((int64_t) tv.tv_sec) * 1000 + tv.tv_usec / 1000; } static int carla_interposed_callback(int, void*); // --------------------------------------------------------------------------------------------------------------------- class CarlaJackRealtimeThread : public CarlaThread { public: struct Callback { Callback() {} virtual ~Callback() {}; virtual void runRealtimeThread() = 0; }; CarlaJackRealtimeThread(Callback* const callback) : CarlaThread("CarlaJackRealtimeThread"), fCallback(callback) {} protected: void run() override { fCallback->runRealtimeThread(); } private: Callback* const fCallback; CARLA_DECLARE_NON_COPY_CLASS(CarlaJackRealtimeThread) }; // -------------------------------------------------------------------------------------------------------------------- class CarlaJackNonRealtimeThread : public CarlaThread { public: struct Callback { Callback() {} virtual ~Callback() {}; virtual void runNonRealtimeThread() = 0; }; CarlaJackNonRealtimeThread(Callback* const callback) : CarlaThread("CarlaJackNonRealtimeThread"), fCallback(callback) {} protected: void run() override { fCallback->runNonRealtimeThread(); } private: Callback* const fCallback; CARLA_DECLARE_NON_COPY_CLASS(CarlaJackNonRealtimeThread) }; // --------------------------------------------------------------------------------------------------------------------- class CarlaJackAppClient : public CarlaJackRealtimeThread::Callback, public CarlaJackNonRealtimeThread::Callback { public: JackServerState fServer; LinkedList fClients; LinkedList fNewClients; CarlaJackAppClient() : fServer(this), fClients(), fNewClients(), fShmAudioPool(), fShmRtClientControl(), fShmNonRtClientControl(), fShmNonRtServerControl(), fAudioPoolCopy(nullptr), fAudioTmpBuf(nullptr), fDummyMidiInBuffer(true), fDummyMidiOutBuffer(false), fMidiInBuffers(nullptr), fMidiOutBuffers(nullptr), fInitialized(false), fIsOffline(false), fIsReady(false), fLastPingTime(-1), fSessionManager(0), fSetupHints(0), fRealtimeThread(this), fNonRealtimeThread(this), fRealtimeThreadMutex() #ifdef DEBUG ,leakDetector_CarlaJackAppClient() #endif { carla_debug("CarlaJackAppClient::CarlaJackAppClient() START"); const char* const shmIds(std::getenv("CARLA_SHM_IDS")); CARLA_SAFE_ASSERT_INT2_RETURN(shmIds != nullptr && std::strlen(shmIds) == 6*4, shmIds != nullptr ? static_cast(std::strlen(shmIds)) : -1, 6*4,); const char* const libjackSetup(std::getenv("CARLA_LIBJACK_SETUP")); CARLA_SAFE_ASSERT_INT_RETURN(libjackSetup != nullptr && std::strlen(libjackSetup) >= 6, libjackSetup != nullptr ? static_cast(std::strlen(libjackSetup)) : -1,); // make sure we don't get loaded again carla_unsetenv("CARLA_SHM_IDS"); // kill ourselves if main carla dies carla_terminateProcessOnParentExit(true); for (int i=4; --i >= 0;) { CARLA_SAFE_ASSERT_RETURN(libjackSetup[i] >= '0' && libjackSetup[i] <= '0'+64,); } CARLA_SAFE_ASSERT_RETURN(libjackSetup[4] >= '0' && libjackSetup[4] <= '0' + LIBJACK_SESSION_MANAGER_NSM,); CARLA_SAFE_ASSERT_RETURN(libjackSetup[5] >= '0' && libjackSetup[5] < '0'+0x4f,); std::memcpy(fBaseNameAudioPool, shmIds+6*0, 6); std::memcpy(fBaseNameRtClientControl, shmIds+6*1, 6); std::memcpy(fBaseNameNonRtClientControl, shmIds+6*2, 6); std::memcpy(fBaseNameNonRtServerControl, shmIds+6*3, 6); fBaseNameAudioPool[6] = '\0'; fBaseNameRtClientControl[6] = '\0'; fBaseNameNonRtClientControl[6] = '\0'; fBaseNameNonRtServerControl[6] = '\0'; fServer.numAudioIns = static_cast(libjackSetup[0] - '0'); fServer.numAudioOuts = static_cast(libjackSetup[1] - '0'); fServer.numMidiIns = static_cast(libjackSetup[2] - '0'); fServer.numMidiOuts = static_cast(libjackSetup[3] - '0'); fSessionManager = static_cast(libjackSetup[4] - '0'); fSetupHints = static_cast(libjackSetup[5] - '0'); if (fSetupHints & LIBJACK_FLAG_MIDI_OUTPUT_CHANNEL_MIXDOWN) fServer.numMidiOuts = 16; jack_carla_interposed_action(LIBJACK_INTERPOSER_ACTION_SET_HINTS_AND_CALLBACK, fSetupHints, (void*)carla_interposed_callback); jack_carla_interposed_action(LIBJACK_INTERPOSER_ACTION_SET_SESSION_MANAGER, fSessionManager, nullptr); fNonRealtimeThread.startThread(false); fInitialized = true; carla_debug("CarlaJackAppClient::CarlaJackAppClient() DONE"); } ~CarlaJackAppClient() noexcept override { carla_debug("CarlaJackAppClient::~CarlaJackAppClient() START"); fLastPingTime = -1; fNonRealtimeThread.stopThread(5000); { const CarlaMutexLocker cms(fRealtimeThreadMutex); for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); delete jclient; } fClients.clear(); fNewClients.clear(); } clearSharedMemory(); carla_debug("CarlaJackAppClient::~CarlaJackAppClient() DONE"); } JackClientState* createClient(const char* const name) { if (! fInitialized) return nullptr; while (fNonRealtimeThread.isThreadRunning() && ! fIsReady) carla_sleep(1); return new JackClientState(fServer, name); } void destroyClient(JackClientState* const jclient) { { const CarlaMutexLocker cms(fRealtimeThreadMutex); fClients.removeOne(jclient); } delete jclient; } bool activateClient(JackClientState* const jclient) { const CarlaMutexLocker cms(fRealtimeThreadMutex); if (! fClients.append(jclient)) return false; if (! fNewClients.append(jclient)) { fClients.removeOne(jclient); return false; } jclient->activated = true; jclient->deactivated = false; return true; } bool deactivateClient(JackClientState* const jclient) { const CarlaMutexLocker cms(fRealtimeThreadMutex); if (! fClients.removeOne(jclient)) return false; jclient->activated = false; jclient->deactivated = true; return true; } const char* getClientNameFromUUID(const jack_uuid_t uuid) const noexcept { for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (jclient->uuid == uuid) return jclient->name; } return nullptr; } jack_uuid_t getUUIDForClientName(const char* const name) const noexcept { for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (std::strcmp(jclient->name, name) == 0) return jclient->uuid; } return JACK_UUID_EMPTY_INITIALIZER; } pthread_t getRealtimeThreadId() const noexcept { return (pthread_t)fRealtimeThread.getThreadId(); } int handleInterposerCallback(const int cb_action, void* const ptr) { carla_debug("handleInterposerCallback(%o, %p)", cb_action, ptr); switch (cb_action) { case LIBJACK_INTERPOSER_CALLBACK_UI_HIDE: { const CarlaMutexLocker cml(fShmNonRtServerControl.mutex); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerUiClosed); fShmNonRtServerControl.commitWrite(); break; } } return 0; // maybe unused (void)ptr; } // ------------------------------------------------------------------- protected: void runRealtimeThread() override; void runNonRealtimeThread() override; private: bool initSharedMemmory(); void clearSharedMemory() noexcept; bool handleRtData(); bool handleNonRtData(); BridgeAudioPool fShmAudioPool; BridgeRtClientControl fShmRtClientControl; BridgeNonRtClientControl fShmNonRtClientControl; BridgeNonRtServerControl fShmNonRtServerControl; float* fAudioPoolCopy; float* fAudioTmpBuf; JackMidiPortBufferDummy fDummyMidiInBuffer; JackMidiPortBufferDummy fDummyMidiOutBuffer; JackMidiPortBufferOnStack* fMidiInBuffers; JackMidiPortBufferOnStack* fMidiOutBuffers; char fBaseNameAudioPool[6+1]; char fBaseNameRtClientControl[6+1]; char fBaseNameNonRtClientControl[6+1]; char fBaseNameNonRtServerControl[6+1]; bool fInitialized; bool fIsOffline; volatile bool fIsReady; int64_t fLastPingTime; uint fSessionManager; uint fSetupHints; CarlaJackRealtimeThread fRealtimeThread; CarlaJackNonRealtimeThread fNonRealtimeThread; CarlaMutex fRealtimeThreadMutex; CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(CarlaJackAppClient) }; // --------------------------------------------------------------------------------------------------------------------- bool CarlaJackAppClient::initSharedMemmory() { if (! fShmAudioPool.attachClient(fBaseNameAudioPool)) { carla_stderr("Failed to attach to audio pool shared memory"); return false; } if (! fShmRtClientControl.attachClient(fBaseNameRtClientControl)) { clearSharedMemory(); carla_stderr("Failed to attach to rt client control shared memory"); return false; } if (! fShmRtClientControl.mapData()) { clearSharedMemory(); carla_stderr("Failed to map rt client control shared memory"); return false; } if (! fShmNonRtClientControl.attachClient(fBaseNameNonRtClientControl)) { clearSharedMemory(); carla_stderr("Failed to attach to non-rt client control shared memory"); return false; } if (! fShmNonRtClientControl.mapData()) { clearSharedMemory(); carla_stderr("Failed to map non-rt control client shared memory"); return false; } if (! fShmNonRtServerControl.attachClient(fBaseNameNonRtServerControl)) { clearSharedMemory(); carla_stderr("Failed to attach to non-rt server control shared memory"); return false; } if (! fShmNonRtServerControl.mapData()) { clearSharedMemory(); carla_stderr("Failed to map non-rt control server shared memory"); return false; } PluginBridgeNonRtClientOpcode opcode; opcode = fShmNonRtClientControl.readOpcode(); CARLA_SAFE_ASSERT_RETURN(opcode == kPluginBridgeNonRtClientVersion, false); const uint32_t apiVersion = fShmNonRtClientControl.readUInt(); CARLA_SAFE_ASSERT_RETURN(apiVersion == CARLA_PLUGIN_BRIDGE_API_VERSION_CURRENT, false); const uint32_t shmRtClientDataSize = fShmNonRtClientControl.readUInt(); CARLA_SAFE_ASSERT_INT2(shmRtClientDataSize == sizeof(BridgeRtClientData), shmRtClientDataSize, sizeof(BridgeRtClientData)); const uint32_t shmNonRtClientDataSize = fShmNonRtClientControl.readUInt(); CARLA_SAFE_ASSERT_INT2(shmNonRtClientDataSize == sizeof(BridgeNonRtClientData), shmNonRtClientDataSize, sizeof(BridgeNonRtClientData)); const uint32_t shmNonRtServerDataSize = fShmNonRtClientControl.readUInt(); CARLA_SAFE_ASSERT_INT2(shmNonRtServerDataSize == sizeof(BridgeNonRtServerData), shmNonRtServerDataSize, sizeof(BridgeNonRtServerData)); if (shmRtClientDataSize != sizeof(BridgeRtClientData) || shmNonRtClientDataSize != sizeof(BridgeNonRtClientData) || shmNonRtServerDataSize != sizeof(BridgeNonRtServerData)) { carla_stderr2("CarlaJackAppClient: data size mismatch"); return false; } opcode = fShmNonRtClientControl.readOpcode(); CARLA_SAFE_ASSERT_RETURN(opcode == kPluginBridgeNonRtClientInitialSetup, false); fServer.bufferSize = fShmNonRtClientControl.readUInt(); fServer.sampleRate = fShmNonRtClientControl.readDouble(); if (fServer.bufferSize == 0 || carla_isZero(fServer.sampleRate)) { carla_stderr2("CarlaJackAppClient: invalid empty state"); return false; } fAudioTmpBuf = new float[fServer.bufferSize]; carla_zeroFloats(fAudioTmpBuf, fServer.bufferSize); fLastPingTime = getCurrentTimeMilliseconds(); CARLA_SAFE_ASSERT(fLastPingTime > 0); { // tell backend we're live const CarlaMutexLocker _cml(fShmNonRtServerControl.mutex); // ready! fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerReady); fShmNonRtServerControl.commitWrite(); fShmNonRtServerControl.waitIfDataIsReachingLimit(); } fIsReady = true; return true; } void CarlaJackAppClient::clearSharedMemory() noexcept { const CarlaMutexLocker cml(fRealtimeThreadMutex); if (fAudioPoolCopy != nullptr) { delete[] fAudioPoolCopy; fAudioPoolCopy = nullptr; } if (fAudioTmpBuf != nullptr) { delete[] fAudioTmpBuf; fAudioTmpBuf = nullptr; } if (fMidiInBuffers != nullptr) { delete[] fMidiInBuffers; fMidiInBuffers = nullptr; } if (fMidiOutBuffers != nullptr) { delete[] fMidiOutBuffers; fMidiOutBuffers = nullptr; } fShmAudioPool.clear(); fShmRtClientControl.clear(); fShmNonRtClientControl.clear(); fShmNonRtServerControl.clear(); } bool CarlaJackAppClient::handleRtData() { if (fNewClients.count() != 0) { for (LinkedList::Itenerator it = fNewClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (jclient->threadInitCb != nullptr) jclient->threadInitCb(jclient->threadInitCbPtr); } fNewClients.clear(); } const BridgeRtClientControl::WaitHelper helper(fShmRtClientControl); if (! helper.ok) return false; bool ret = false; for (; fShmRtClientControl.isDataAvailableForReading();) { const PluginBridgeRtClientOpcode opcode(fShmRtClientControl.readOpcode()); #ifdef DEBUG if (opcode != kPluginBridgeRtClientProcess && opcode != kPluginBridgeRtClientMidiEvent) { carla_debug("CarlaJackAppClientRtThread::run() - got opcode: %s", PluginBridgeRtClientOpcode2str(opcode)); } #endif switch (opcode) { case kPluginBridgeRtClientNull: break; case kPluginBridgeRtClientSetAudioPool: { const CarlaMutexLocker cml(fRealtimeThreadMutex); if (fShmAudioPool.data != nullptr) { jackbridge_shm_unmap(fShmAudioPool.shm, fShmAudioPool.data); fShmAudioPool.data = nullptr; } if (fAudioPoolCopy != nullptr) { delete[] fAudioPoolCopy; fAudioPoolCopy = nullptr; } const uint64_t poolSize(fShmRtClientControl.readULong()); CARLA_SAFE_ASSERT_BREAK(poolSize > 0); fShmAudioPool.data = (float*)jackbridge_shm_map(fShmAudioPool.shm, static_cast(poolSize)); fAudioPoolCopy = new float[poolSize]; break; } case kPluginBridgeRtClientSetBufferSize: if (const uint32_t newBufferSize = fShmRtClientControl.readUInt()) { if (fServer.bufferSize != newBufferSize) { const CarlaMutexLocker cml(fRealtimeThreadMutex); fServer.bufferSize = newBufferSize; for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (jclient->bufferSizeCb != nullptr) jclient->bufferSizeCb(fServer.bufferSize, jclient->bufferSizeCbPtr); } delete[] fAudioTmpBuf; fAudioTmpBuf = new float[fServer.bufferSize]; carla_zeroFloats(fAudioTmpBuf, fServer.bufferSize); } } break; case kPluginBridgeRtClientSetSampleRate: { const double newSampleRate = fShmRtClientControl.readDouble(); if (carla_isNotZero(newSampleRate) && carla_isNotEqual(fServer.sampleRate, newSampleRate)) { const CarlaMutexLocker cml(fRealtimeThreadMutex); fServer.sampleRate = newSampleRate; for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (jclient->sampleRateCb != nullptr) jclient->sampleRateCb(static_cast(fServer.sampleRate), jclient->sampleRateCbPtr); } } } break; case kPluginBridgeRtClientSetOnline: { const bool offline = fShmRtClientControl.readBool(); if (fIsOffline != offline) { const CarlaMutexLocker cml(fRealtimeThreadMutex); fIsOffline = offline; for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); if (jclient->freewheelCb != nullptr) jclient->freewheelCb(offline ? 1 : 0, jclient->freewheelCbPtr); } } } break; case kPluginBridgeRtClientControlEventParameter: break; case kPluginBridgeRtClientControlEventMidiBank: { const uint32_t time = fShmRtClientControl.readUInt(); const uint8_t channel = fShmRtClientControl.readByte(); const uint16_t value = fShmRtClientControl.readUShort(); if (fServer.numMidiIns > 0 && fRealtimeThreadMutex.tryLock()) { JackMidiPortBufferOnStack& midiPortBuf(fMidiInBuffers[0]); if (midiPortBuf.count+1U < JackMidiPortBufferBase::kMaxEventCount && midiPortBuf.bufferPoolPos + 6U < JackMidiPortBufferBase::kBufferPoolSize) { jack_midi_event_t& ev1(midiPortBuf.events[midiPortBuf.count++]); ev1.time = time; ev1.size = 3; ev1.buffer = midiPortBuf.bufferPool + midiPortBuf.bufferPoolPos; ev1.buffer[0] = jack_midi_data_t(MIDI_STATUS_CONTROL_CHANGE | (channel & MIDI_CHANNEL_BIT)); ev1.buffer[1] = MIDI_CONTROL_BANK_SELECT; ev1.buffer[2] = 0; midiPortBuf.bufferPoolPos += 3; jack_midi_event_t& ev2(midiPortBuf.events[midiPortBuf.count++]); ev2.time = time; ev2.size = 3; ev2.buffer = midiPortBuf.bufferPool + midiPortBuf.bufferPoolPos; ev2.buffer[0] = jack_midi_data_t(MIDI_STATUS_CONTROL_CHANGE | (channel & MIDI_CHANNEL_BIT)); ev2.buffer[1] = MIDI_CONTROL_BANK_SELECT__LSB; ev2.buffer[2] = jack_midi_data_t(value); midiPortBuf.bufferPoolPos += 3; } fRealtimeThreadMutex.unlock(true); } break; } case kPluginBridgeRtClientControlEventMidiProgram: { const uint32_t time = fShmRtClientControl.readUInt(); const uint8_t channel = fShmRtClientControl.readByte(); const uint16_t value = fShmRtClientControl.readUShort(); if (fServer.numMidiIns > 0 && fRealtimeThreadMutex.tryLock()) { JackMidiPortBufferOnStack& midiPortBuf(fMidiInBuffers[0]); if (midiPortBuf.count < JackMidiPortBufferBase::kMaxEventCount && midiPortBuf.bufferPoolPos + 2U < JackMidiPortBufferBase::kBufferPoolSize) { jack_midi_event_t& ev(midiPortBuf.events[midiPortBuf.count++]); ev.time = time; ev.size = 2; ev.buffer = midiPortBuf.bufferPool + midiPortBuf.bufferPoolPos; ev.buffer[0] = jack_midi_data_t(MIDI_STATUS_PROGRAM_CHANGE | (channel & MIDI_CHANNEL_BIT)); ev.buffer[1] = jack_midi_data_t(value); midiPortBuf.bufferPoolPos += 2; } fRealtimeThreadMutex.unlock(true); } break; } case kPluginBridgeRtClientControlEventAllSoundOff: { const uint32_t time = fShmRtClientControl.readUInt(); const uint8_t channel = fShmRtClientControl.readByte(); if (fServer.numMidiIns > 0 && fRealtimeThreadMutex.tryLock()) { JackMidiPortBufferOnStack& midiPortBuf(fMidiInBuffers[0]); if (midiPortBuf.count < JackMidiPortBufferBase::kMaxEventCount && midiPortBuf.bufferPoolPos + 3U < JackMidiPortBufferBase::kBufferPoolSize) { jack_midi_event_t& ev(midiPortBuf.events[midiPortBuf.count++]); ev.time = time; ev.size = 3; ev.buffer = midiPortBuf.bufferPool + midiPortBuf.bufferPoolPos; ev.buffer[0] = jack_midi_data_t(MIDI_STATUS_CONTROL_CHANGE | (channel & MIDI_CHANNEL_BIT)); ev.buffer[1] = MIDI_CONTROL_ALL_SOUND_OFF; ev.buffer[2] = 0; midiPortBuf.bufferPoolPos += 3; } fRealtimeThreadMutex.unlock(true); } break; } case kPluginBridgeRtClientControlEventAllNotesOff: { const uint32_t time = fShmRtClientControl.readUInt(); const uint8_t channel = fShmRtClientControl.readByte(); if (fServer.numMidiIns > 0 && fRealtimeThreadMutex.tryLock()) { JackMidiPortBufferOnStack& midiPortBuf(fMidiInBuffers[0]); if (midiPortBuf.count < JackMidiPortBufferBase::kMaxEventCount && midiPortBuf.bufferPoolPos + 3U < JackMidiPortBufferBase::kBufferPoolSize) { jack_midi_event_t& ev(midiPortBuf.events[midiPortBuf.count++]); ev.time = time; ev.size = 3; ev.buffer = midiPortBuf.bufferPool + midiPortBuf.bufferPoolPos; ev.buffer[0] = jack_midi_data_t(MIDI_STATUS_CONTROL_CHANGE | (channel & MIDI_CHANNEL_BIT)); ev.buffer[1] = MIDI_CONTROL_ALL_NOTES_OFF; ev.buffer[2] = 0; midiPortBuf.bufferPoolPos += 3; } fRealtimeThreadMutex.unlock(true); } break; } case kPluginBridgeRtClientMidiEvent: { const uint32_t time = fShmRtClientControl.readUInt(); const uint8_t port = fShmRtClientControl.readByte(); const uint8_t size = fShmRtClientControl.readByte(); CARLA_SAFE_ASSERT_BREAK(size > 0); if (port >= fServer.numMidiIns || size > JackMidiPortBufferBase::kMaxEventSize || ! fRealtimeThreadMutex.tryLock()) { for (uint8_t i=0; i 0) carla_zeroFloats(fdataRealOuts, fServer.bufferSize*fServer.numAudioOuts); if (! fClients.isEmpty()) { // save transport for all clients const BridgeTimeInfo& bridgeTimeInfo(fShmRtClientControl.data->timeInfo); const bool transportChanged = fServer.playing != bridgeTimeInfo.playing || (bridgeTimeInfo.playing && fServer.position.frame + frames != bridgeTimeInfo.frame); fServer.playing = bridgeTimeInfo.playing; fServer.position.frame = static_cast(bridgeTimeInfo.frame); fServer.position.usecs = bridgeTimeInfo.usecs; fServer.position.frame_rate = static_cast(fServer.sampleRate); if (bridgeTimeInfo.validFlags & kPluginBridgeTimeInfoValidBBT) { fServer.position.bar = bridgeTimeInfo.bar; fServer.position.beat = bridgeTimeInfo.beat; fServer.position.tick = static_cast(bridgeTimeInfo.tick + 0.5); fServer.position.beats_per_bar = bridgeTimeInfo.beatsPerBar; fServer.position.beat_type = bridgeTimeInfo.beatType; fServer.position.ticks_per_beat = bridgeTimeInfo.ticksPerBeat; fServer.position.beats_per_minute = bridgeTimeInfo.beatsPerMinute; fServer.position.bar_start_tick = bridgeTimeInfo.barStartTick; #ifdef JACK_TICK_DOUBLE fServer.position.tick_double = bridgeTimeInfo.tick; fServer.position.valid = static_cast(JackPositionBBT|JackTickDouble); #else fServer.position.valid = JackPositionBBT; #endif } else { fServer.position.valid = static_cast(0x0); } int numClientOutputsProcessed = 0; // now go through each client for (LinkedList::Itenerator it = fClients.begin2(); it.valid(); it.next()) { JackClientState* const jclient(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(jclient != nullptr); const CarlaMutexTryLocker cmtl2(jclient->mutex, fIsOffline); // check if we can process if (cmtl2.wasNotLocked() || jclient->processCb == nullptr || ! jclient->activated) { if (fServer.numAudioOuts > 0) carla_zeroFloats(fdataRealOuts, fServer.bufferSize*fServer.numAudioOuts); if (jclient->deactivated) fShmRtClientControl.data->procFlags = 1; } else { // report transport sync changes if needed if (transportChanged && jclient->syncCb != nullptr) { jclient->syncCb(fServer.playing ? JackTransportRolling : JackTransportStopped, &fServer.position, jclient->syncCbPtr); } uint8_t i; // direct access to shm buffer, used only for inputs float* fdataReal = fShmAudioPool.data; // safe temp location for output, mixed down to shm buffer later on float* fdataCopy = fAudioPoolCopy; // wherever we're using fAudioTmpBuf bool needsTmpBufClear = false; // set audio inputs i = 0; for (LinkedList::Itenerator it2 = jclient->audioIns.begin2(); it2.valid(); it2.next()) { JackPortState* const jport = it2.getValue(nullptr); CARLA_SAFE_ASSERT_CONTINUE(jport != nullptr); if (i++ < fServer.numAudioIns) { if (numClientOutputsProcessed == 0 || ! doBufferAddition) jport->buffer = fdataReal; else jport->buffer = fdataRealOuts + (i*fServer.bufferSize); fdataReal += fServer.bufferSize; fdataCopy += fServer.bufferSize; } else { jport->buffer = fAudioTmpBuf; needsTmpBufClear = true; } } if (i < fServer.numAudioIns) { const std::size_t remainingBufferSize = fServer.bufferSize * static_cast(fServer.numAudioIns - i); //fdataReal += remainingBufferSize; fdataCopy += remainingBufferSize; } // location to start of audio outputs float* const fdataCopyOuts = fdataCopy; // set audio outputs i = 0; for (LinkedList::Itenerator it2 = jclient->audioOuts.begin2(); it2.valid(); it2.next()) { JackPortState* const jport = it2.getValue(nullptr); CARLA_SAFE_ASSERT_CONTINUE(jport != nullptr); if (i++ < fServer.numAudioOuts) { jport->buffer = fdataCopy; fdataCopy += fServer.bufferSize; } else { jport->buffer = fAudioTmpBuf; needsTmpBufClear = true; } } if (i < fServer.numAudioOuts) { const std::size_t remainingBufferSize = fServer.bufferSize * static_cast(fServer.numAudioOuts - i); carla_zeroFloats(fdataCopy, remainingBufferSize); //fdataCopy += remainingBufferSize; } // set midi inputs i = 0; for (LinkedList::Itenerator it2 = jclient->midiIns.begin2(); it2.valid(); it2.next()) { JackPortState* const jport = it2.getValue(nullptr); CARLA_SAFE_ASSERT_CONTINUE(jport != nullptr); if (i++ < fServer.numMidiIns) jport->buffer = &fMidiInBuffers[i-1]; else jport->buffer = &fDummyMidiInBuffer; } // set midi outputs i = 0; for (LinkedList::Itenerator it2 = jclient->midiOuts.begin2(); it2.valid(); it2.next()) { JackPortState* const jport = it2.getValue(nullptr); CARLA_SAFE_ASSERT_CONTINUE(jport != nullptr); if (i++ < fServer.numMidiOuts) jport->buffer = &fMidiOutBuffers[i-1]; else jport->buffer = &fDummyMidiOutBuffer; } if (needsTmpBufClear) carla_zeroFloats(fAudioTmpBuf, fServer.bufferSize); jclient->processCb(fServer.bufferSize, jclient->processCbPtr); if (fServer.numAudioOuts > 0) { if (++numClientOutputsProcessed == 1) { // first client, we can copy stuff over carla_copyFloats(fdataRealOuts, fdataCopyOuts, fServer.bufferSize*fServer.numAudioOuts); } else { // subsequent clients, add data (then divide by number of clients later on) carla_add(fdataRealOuts, fdataCopyOuts, fServer.bufferSize*fServer.numAudioOuts); if (doBufferAddition) { // for more than 1 client addition, we need to divide buffers now carla_multiply(fdataRealOuts, 1.0f/static_cast(numClientOutputsProcessed), fServer.bufferSize*fServer.numAudioOuts); } } if (jclient->audioOuts.count() == 1 && fServer.numAudioOuts > 1) { for (uint8_t j=1; j 1 && ! doBufferAddition) { // more than 1 client active, need to divide buffers carla_multiply(fdataRealOuts, 1.0f/static_cast(numClientOutputsProcessed), fServer.bufferSize*fServer.numAudioOuts); } } // fClients.isEmpty() else if (fServer.numAudioOuts > 0) { carla_zeroFloats(fdataRealOuts, fServer.bufferSize*fServer.numAudioOuts); } for (uint8_t i=0; i 0) { uint8_t* midiData = fShmRtClientControl.data->midiOut; carla_zeroBytes(midiData, kBridgeBaseMidiOutHeaderSize); std::size_t curMidiDataPos = 0; for (uint8_t i=0; i= kBridgeRtClientDataMidiOutSize) break; if (doMidiChanMixdown && MIDI_IS_CHANNEL_MESSAGE(jmevent.buffer[0])) jmevent.buffer[0] = static_cast( (jmevent.buffer[0] & MIDI_STATUS_BIT) | (i & MIDI_CHANNEL_BIT)); // set time *(uint32_t*)midiData = jmevent.time; midiData += 4; // set port *midiData++ = doMidiChanMixdown ? 0 : i; // set size *midiData++ = static_cast(jmevent.size); // set data std::memcpy(midiData, jmevent.buffer, jmevent.size); midiData += jmevent.size; curMidiDataPos += kBridgeBaseMidiOutHeaderSize + jmevent.size; } } // make last event null, so server stops when reaching it if (curMidiDataPos != 0 && curMidiDataPos + kBridgeBaseMidiOutHeaderSize < kBridgeRtClientDataMidiOutSize) { carla_zeroBytes(midiData, kBridgeBaseMidiOutHeaderSize); // sort events in case of mixdown if (doMidiChanMixdown) { uint32_t time; uint8_t size, *midiDataPtr; uint8_t tmp[kBridgeBaseMidiOutHeaderSize + JackMidiPortBufferBase::kMaxEventSize]; bool wasSorted = true; for (; wasSorted;) { midiDataPtr = fShmRtClientControl.data->midiOut; uint8_t* prevData = midiDataPtr; uint32_t prevTime = *(uint32_t*)midiDataPtr; uint8_t prevSize = *(midiDataPtr + 5); wasSorted = false; for (;;) { time = *(uint32_t*)midiDataPtr; size = *(midiDataPtr + 5); // time and port if (size == 0) break; if (prevTime > time) { // copy previous data to a temporary place std::memcpy(tmp, prevData, kBridgeBaseMidiOutHeaderSize + prevSize); // override previous data with new one (shifting left) std::memcpy(prevData, midiDataPtr, kBridgeBaseMidiOutHeaderSize + size); // override new data with old one std::memcpy(midiDataPtr, tmp, kBridgeBaseMidiOutHeaderSize + prevSize); // done swapping, flag it wasSorted = true; } prevTime = time; prevSize = size; prevData = midiDataPtr; midiDataPtr += 6 + size; } } } } } } else { carla_stderr2("CarlaJackAppClient: fRealtimeThreadMutex tryLock failed"); } fServer.monotonic_frame += frames; break; } case kPluginBridgeRtClientQuit: ret = true; break; } #ifdef DEBUG if (opcode != kPluginBridgeRtClientProcess && opcode != kPluginBridgeRtClientMidiEvent) { carla_debug("CarlaJackAppClientRtThread::run() - opcode %s done", PluginBridgeRtClientOpcode2str(opcode)); } #endif } return ret; } bool CarlaJackAppClient::handleNonRtData() { bool ret = false; for (; fShmNonRtClientControl.isDataAvailableForReading();) { const PluginBridgeNonRtClientOpcode opcode(fShmNonRtClientControl.readOpcode()); #ifdef DEBUG if (opcode != kPluginBridgeNonRtClientPing) { carla_debug("CarlaJackAppClient::handleNonRtData() - got opcode: %s", PluginBridgeNonRtClientOpcode2str(opcode)); } #endif if (opcode != kPluginBridgeNonRtClientNull && opcode != kPluginBridgeNonRtClientPingOnOff && fLastPingTime > 0) fLastPingTime = getCurrentTimeMilliseconds(); switch (opcode) { case kPluginBridgeNonRtClientNull: break; case kPluginBridgeNonRtClientVersion: { const uint apiVersion = fShmNonRtServerControl.readUInt(); CARLA_SAFE_ASSERT_UINT2(apiVersion == CARLA_PLUGIN_BRIDGE_API_VERSION_CURRENT, apiVersion, CARLA_PLUGIN_BRIDGE_API_VERSION_CURRENT); } break; case kPluginBridgeNonRtClientPing: { const CarlaMutexLocker _cml(fShmNonRtServerControl.mutex); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerPong); fShmNonRtServerControl.commitWrite(); } break; case kPluginBridgeNonRtClientPingOnOff: { const uint32_t onOff(fShmNonRtClientControl.readBool()); fLastPingTime = onOff ? getCurrentTimeMilliseconds() : -1; } break; case kPluginBridgeNonRtClientActivate: case kPluginBridgeNonRtClientDeactivate: break; case kPluginBridgeNonRtClientInitialSetup: // should never happen!! fShmNonRtServerControl.readUInt(); fShmNonRtServerControl.readDouble(); break; case kPluginBridgeNonRtClientSetParameterValue: case kPluginBridgeNonRtClientSetParameterMidiChannel: case kPluginBridgeNonRtClientSetParameterMappedControlIndex: case kPluginBridgeNonRtClientSetParameterMappedRange: case kPluginBridgeNonRtClientSetProgram: case kPluginBridgeNonRtClientSetMidiProgram: case kPluginBridgeNonRtClientSetCustomData: case kPluginBridgeNonRtClientSetChunkDataFile: case kPluginBridgeNonRtClientSetWindowTitle: break; case kPluginBridgeNonRtClientSetOption: fShmNonRtClientControl.readUInt(); fShmNonRtClientControl.readBool(); break; case kPluginBridgeNonRtClientSetOptions: fShmNonRtClientControl.readUInt(); break; case kPluginBridgeNonRtClientSetCtrlChannel: fShmNonRtClientControl.readShort(); break; case kPluginBridgeNonRtClientGetParameterText: fShmNonRtClientControl.readUInt(); break; case kPluginBridgeNonRtClientPrepareForSave: { if (fSessionManager == LIBJACK_SESSION_MANAGER_AUTO && std::getenv("NSM_URL") == nullptr) { struct sigaction sig; carla_zeroStruct(sig); sigaction(SIGUSR1, nullptr, &sig); if (sig.sa_handler != nullptr) fSessionManager = LIBJACK_SESSION_MANAGER_LADISH; } if (fSessionManager == LIBJACK_SESSION_MANAGER_LADISH) ::kill(::getpid(), SIGUSR1); const CarlaMutexLocker _cml(fShmNonRtServerControl.mutex); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerSaved); fShmNonRtServerControl.commitWrite(); } break; case kPluginBridgeNonRtClientRestoreLV2State: break; case kPluginBridgeNonRtClientShowUI: if (jack_carla_interposed_action(LIBJACK_INTERPOSER_ACTION_SHOW_HIDE_GUI, 1, nullptr) == 1337) { // failed, LD_PRELOAD did not work? const char* const message("Cannot show UI, LD_PRELOAD not working?"); const std::size_t messageSize(std::strlen(message)); const CarlaMutexLocker _cml(fShmNonRtServerControl.mutex); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerUiClosed); fShmNonRtServerControl.commitWrite(); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerError); fShmNonRtServerControl.writeUInt(messageSize); fShmNonRtServerControl.writeCustomData(message, messageSize); fShmNonRtServerControl.commitWrite(); } break; case kPluginBridgeNonRtClientHideUI: jack_carla_interposed_action(LIBJACK_INTERPOSER_ACTION_SHOW_HIDE_GUI, 0, nullptr); break; case kPluginBridgeNonRtClientUiParameterChange: case kPluginBridgeNonRtClientUiProgramChange: case kPluginBridgeNonRtClientUiMidiProgramChange: case kPluginBridgeNonRtClientUiNoteOn: case kPluginBridgeNonRtClientUiNoteOff: break; case kPluginBridgeNonRtClientQuit: ret = true; break; } #ifdef DEBUG if (opcode != kPluginBridgeNonRtClientPing) { carla_debug("CarlaJackAppClient::handleNonRtData() - opcode %s handled", PluginBridgeNonRtClientOpcode2str(opcode)); } #endif } return ret; } void CarlaJackAppClient::runRealtimeThread() { carla_debug("CarlaJackAppClient runRealtimeThread START"); #ifdef __SSE2_MATH__ // Set FTZ and DAZ flags _mm_setcsr(_mm_getcsr() | 0x8040); #endif bool quitReceived = false; for (; ! fRealtimeThread.shouldThreadExit();) { if (handleRtData()) { quitReceived = true; break; } } fNonRealtimeThread.signalThreadShouldExit(); carla_debug("CarlaJackAppClient runRealtimeThread FINISHED"); // TODO return; (void)quitReceived; } void CarlaJackAppClient::runNonRealtimeThread() { carla_debug("CarlaJackAppClient runNonRealtimeThread START"); CARLA_SAFE_ASSERT_RETURN(initSharedMemmory(),); if (fServer.numMidiIns > 0) { fMidiInBuffers = new JackMidiPortBufferOnStack[fServer.numMidiIns]; for (uint8_t i=0; i 0) { fMidiOutBuffers = new JackMidiPortBufferOnStack[fServer.numMidiOuts]; for (uint8_t i=0; i 0 && getCurrentTimeMilliseconds() > fLastPingTime + 30000) { carla_stderr("Did not receive ping message from server for 30 secs, closing..."); timedOut = true; fRealtimeThread.signalThreadShouldExit(); break; } */ } //callback(true, true, ENGINE_CALLBACK_ENGINE_STOPPED, 0, 0, 0, 0.0f, nullptr); if (quitReceived) { ::kill(::getpid(), SIGTERM); } else if (timedOut) { // TODO send shutdown? carla_stderr("CarlaJackAppClient error: runNonRealtimeThread ended with time out"); ::kill(::getpid(), SIGTERM); } else { bool activated; { const CarlaMutexLocker cms(fRealtimeThreadMutex); if (fClients.isEmpty()) { activated = false; } else if (JackClientState* const jclient = fClients.getLast(nullptr)) { const CarlaMutexLocker cms2(jclient->mutex); activated = jclient->activated; } else { activated = true; } } if (activated) { carla_stderr("CarlaJackAppClient error: runNonRealtimeThread ended while client is activated"); const char* const message("Plugin bridge error, process thread has stopped"); const std::size_t messageSize(std::strlen(message)); const CarlaMutexLocker _cml(fShmNonRtServerControl.mutex); fShmNonRtServerControl.writeOpcode(kPluginBridgeNonRtServerError); fShmNonRtServerControl.writeUInt(messageSize); fShmNonRtServerControl.writeCustomData(message, messageSize); fShmNonRtServerControl.commitWrite(); } } if (fRealtimeThread.isThreadRunning()) { fRealtimeThread.signalThreadShouldExit(); const CarlaMutexLocker cml(fRealtimeThreadMutex); if (fShmRtClientControl.data != nullptr) fShmRtClientControl.data->procFlags = 1; } clearSharedMemory(); fRealtimeThread.stopThread(5000); carla_debug("CarlaJackAppClient runNonRealtimeThread FINISHED"); } CARLA_BACKEND_END_NAMESPACE // --------------------------------------------------------------------------------------------------------------------- using CarlaBackend::CarlaJackAppClient; using CarlaBackend::JackClientState; static CarlaJackAppClient gClient; CARLA_BACKEND_START_NAMESPACE static int carla_interposed_callback(int cb_action, void* ptr) { return gClient.handleInterposerCallback(cb_action, ptr); } CARLA_BACKEND_END_NAMESPACE // --------------------------------------------------------------------------------------------------------------------- CARLA_EXPORT jack_client_t* jack_client_open(const char* client_name, jack_options_t options, jack_status_t* status, ...) { carla_debug("%s(%s, 0x%x, %p)", __FUNCTION__, client_name, options, status); if (JackClientState* const client = gClient.createClient(client_name)) { if (status != nullptr) *status = static_cast(0x0); return (jack_client_t*)client; } if (status != nullptr) *status = JackServerError; return nullptr; // unused (void)options; } CARLA_EXPORT jack_client_t* jack_client_new(const char* client_name) { return jack_client_open(client_name, JackNullOption, nullptr); } CARLA_EXPORT int jack_client_close(jack_client_t* client) { carla_debug("%s(%p)", __FUNCTION__, client); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, 1); gClient.destroyClient(jclient); return 0; } CARLA_EXPORT int jack_activate(jack_client_t* client) { carla_debug("%s(%p)", __FUNCTION__, client); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, 1); return gClient.activateClient(jclient) ? 0 : 1; } CARLA_EXPORT int jack_deactivate(jack_client_t* client) { carla_debug("%s(%p)", __FUNCTION__, client); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, 1); return gClient.deactivateClient(jclient) ? 0 : 1; } // --------------------------------------------------------------------------------------------------------------------- CARLA_EXPORT char* jack_get_client_name_by_uuid(jack_client_t* const client, const char* const uuidstr) { carla_debug("%s(%p, %s)", __FUNCTION__, client, uuidstr); jack_uuid_t uuid = JACK_UUID_EMPTY_INITIALIZER; CARLA_SAFE_ASSERT_RETURN(jack_uuid_parse(uuidstr, &uuid) == 0, nullptr); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, nullptr); const char* clientName; if (jclient->server.uuid == uuid) return strdup("system"); if (jclient->uuid == uuid) { clientName = jclient->name; CARLA_SAFE_ASSERT_RETURN(clientName != nullptr, nullptr); } else { CarlaJackAppClient* const jackAppPtr = jclient->server.jackAppPtr; CARLA_SAFE_ASSERT_RETURN(jackAppPtr != nullptr && jackAppPtr == &gClient, nullptr); clientName = jackAppPtr->getClientNameFromUUID(uuid); CARLA_SAFE_ASSERT_RETURN(clientName != nullptr, nullptr); } return strdup(clientName); } CARLA_EXPORT char* jack_get_uuid_for_client_name(jack_client_t* client, const char* name) { carla_debug("%s(%p, %s)", __FUNCTION__, client, name); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, nullptr); if (std::strcmp(name, "system") == 0) { char* const uuidstr = static_cast(std::malloc(JACK_UUID_STRING_SIZE)); CARLA_SAFE_ASSERT_RETURN(uuidstr != nullptr, nullptr); jack_uuid_unparse(jclient->server.uuid, uuidstr); return uuidstr; } else { CarlaJackAppClient* const jackAppPtr = jclient->server.jackAppPtr; CARLA_SAFE_ASSERT_RETURN(jackAppPtr != nullptr && jackAppPtr == &gClient, nullptr); const jack_uuid_t uuid = jackAppPtr->getUUIDForClientName(name); CARLA_SAFE_ASSERT_RETURN(uuid != JACK_UUID_EMPTY_INITIALIZER, nullptr); char* const uuidstr = static_cast(std::malloc(JACK_UUID_STRING_SIZE)); CARLA_SAFE_ASSERT_RETURN(uuidstr != nullptr, nullptr); jack_uuid_unparse(jclient->uuid, uuidstr); return uuidstr; } } // --------------------------------------------------------------------------------------------------------------------- CARLA_EXPORT pthread_t jack_client_thread_id(jack_client_t* client) { carla_debug("%s(%p)", __FUNCTION__, client); JackClientState* const jclient = (JackClientState*)client; CARLA_SAFE_ASSERT_RETURN(jclient != nullptr, 0); CarlaJackAppClient* const jackAppPtr = jclient->server.jackAppPtr; CARLA_SAFE_ASSERT_RETURN(jackAppPtr != nullptr && jackAppPtr == &gClient, 0); return jackAppPtr->getRealtimeThreadId(); } // --------------------------------------------------------------------------------------------------------------------- #include "jackbridge/JackBridge2.cpp" #include "CarlaBridgeUtils.cpp" // --------------------------------------------------------------------------------------------------------------------- // TODO CARLA_BACKEND_USE_NAMESPACE CARLA_EXPORT int jack_client_real_time_priority(jack_client_t* client) { carla_debug("%s(%p)", __FUNCTION__, client); // code as used by water const int minPriority = sched_get_priority_min(SCHED_RR); const int maxPriority = sched_get_priority_max(SCHED_RR); return ((maxPriority - minPriority) * 9) / 10 + minPriority; // unused (void)client; } int jack_client_create_thread(jack_client_t* client, pthread_t* thread, int priority, int realtime, void *(*start_routine)(void*), void* arg) { carla_stderr2("%s(%p, %p, %i, %i, %p, %p)", __FUNCTION__, client, thread, priority, realtime, start_routine, arg); return ENOSYS; } typedef void (*JackSessionCallback)(jack_session_event_t*, void*); CARLA_EXPORT int jack_set_session_callback(jack_client_t* client, JackSessionCallback callback, void* arg) { carla_stderr2("%s(%p, %p, %p)", __FUNCTION__, client, callback, arg); return 0; } // ---------------------------------------------------------------------------------------------------------------------