Cadence/c++/carla-backend/carla_engine_jack.cpp

/*
 * Carla Backend
 * Copyright (C) 2011-2012 Filipe Coelho <falktx@falktx.com>
 *
 * 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 COPYING file
 */

#ifdef CARLA_ENGINE_JACK

#include "carla_engine.h"
#include "carla_plugin.h"

#include <iostream>

CARLA_BACKEND_START_NAMESPACE

// -------------------------------------------------------------------------------------------------------------------
// static JACK<->Engine calls

static int carla_jack_srate_callback(jack_nframes_t newSampleRate, void* arg)
{
    CarlaEngineJack* const engine = (CarlaEngineJack*)arg;
    engine->handleSampleRateCallback(newSampleRate);
    return 0;
}

static int carla_jack_bufsize_callback(jack_nframes_t newBufferSize, void* arg)
{
    CarlaEngineJack* const engine = (CarlaEngineJack*)arg;
    engine->handleBufferSizeCallback(newBufferSize);
    return 0;
}

static void carla_jack_freewheel_callback(int starting, void* arg)
{
    CarlaEngineJack* const engine = (CarlaEngineJack*)arg;
    engine->handleFreewheelCallback(bool(starting));
}

static int carla_jack_process_callback(jack_nframes_t nframes, void* arg)
{
    CarlaEngineJack* const engine = (CarlaEngineJack*)arg;
    engine->handleProcessCallback(nframes);
    return 0;
}

static int carla_jack_process_callback_plugin(jack_nframes_t nframes, void* arg)
{
    CarlaPlugin* const plugin = (CarlaPlugin*)arg;
    if (plugin && plugin->enabled())
    {
        plugin->engineProcessLock();
        plugin->initBuffers();
        plugin->process_jack(nframes);
        plugin->engineProcessUnlock();
    }
    return 0;
}

static void carla_jack_shutdown_callback(void* arg)
{
    CarlaEngineJack* const engine = (CarlaEngineJack*)arg;
    engine->handleShutdownCallback();
}

// -------------------------------------------------------------------------------------------------------------------
// Carla Engine (JACK)

CarlaEngineJack::CarlaEngineJack()
    : CarlaEngine()
#ifndef BUILD_BRIDGE
#  ifdef Q_COMPILER_INITIALIZER_LISTS
    , rackJackPorts{nullptr}
#  endif
#endif
{
    qDebug("CarlaEngineJack::CarlaEngineJack()");

    type = CarlaEngineTypeJack;

    client = nullptr;
    state  = JackTransportStopped;
    freewheel = false;

    memset(&pos, 0, sizeof(jack_position_t));

#ifndef BUILD_BRIDGE
#  ifndef Q_COMPILER_INITIALIZER_LISTS
    for (unsigned short i=0; i < rackPortCount; i++)
        rackJackPorts[i] = nullptr;
#  endif
#endif
}

CarlaEngineJack::~CarlaEngineJack()
{
    qDebug("CarlaEngineJack::~CarlaEngineJack()");
}

// -------------------------------------------------------------------------------------------------------------------

bool CarlaEngineJack::init(const char* const clientName)
{
    qDebug("CarlaEngineJack::init(\"%s\")", clientName);

    client = jackbridge_client_open(clientName, JackNullOption, nullptr);
    state  = JackTransportStopped;
    freewheel = false;

    if (client)
    {
        sampleRate = jackbridge_get_sample_rate(client);
        bufferSize = jackbridge_get_buffer_size(client);

        jackbridge_set_sample_rate_callback(client, carla_jack_srate_callback, this);
        jackbridge_set_buffer_size_callback(client, carla_jack_bufsize_callback, this);
        jackbridge_set_freewheel_callback(client, carla_jack_freewheel_callback, this);
        jackbridge_set_process_callback(client, carla_jack_process_callback, this);
        jackbridge_on_shutdown(client, carla_jack_shutdown_callback, this);

#ifndef BUILD_BRIDGE
        if (carlaOptions.processMode == PROCESS_MODE_CONTINUOUS_RACK)
        {
            rackJackPorts[rackPortAudioIn1]   = jackbridge_port_register(client, "in1", JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0);
            rackJackPorts[rackPortAudioIn2]   = jackbridge_port_register(client, "in2", JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0);
            rackJackPorts[rackPortAudioOut1]  = jackbridge_port_register(client, "out1", JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0);
            rackJackPorts[rackPortAudioOut2]  = jackbridge_port_register(client, "out2", JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0);
            rackJackPorts[rackPortControlIn]  = jackbridge_port_register(client, "control-in", JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0);
            rackJackPorts[rackPortControlOut] = jackbridge_port_register(client, "control-out", JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0);
            rackJackPorts[rackPortMidiIn]     = jackbridge_port_register(client, "midi-in", JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0);
            rackJackPorts[rackPortMidiOut]    = jackbridge_port_register(client, "midi-out", JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0);
        }
#endif

        if (jackbridge_activate(client) == 0)
        {
            // set client name, fixed for OSC usage
            // FIXME - put this in shared?
            char* fixedName = strdup(jackbridge_get_client_name(client));
            for (size_t i=0; i < strlen(fixedName); i++)
            {
                if (! (std::isalpha(fixedName[i]) || std::isdigit(fixedName[i])))
                    fixedName[i] = '_';
            }

            name = strdup(fixedName);
            free((void*)fixedName);

            CarlaEngine::init(name);

            return true;
        }
        else
        {
            setLastError("Failed to activate the JACK client");
            client = nullptr;
        }
    }
    else
        setLastError("Failed to create new JACK client");

    return false;
}

bool CarlaEngineJack::close()
{
    qDebug("CarlaEngineJack::close()");
    CarlaEngine::close();

    if (name)
    {
        free((void*)name);
        name = nullptr;
    }

    if (jackbridge_deactivate(client) == 0)
    {
#ifndef BUILD_BRIDGE
        if (carlaOptions.processMode == PROCESS_MODE_CONTINUOUS_RACK)
        {
            jackbridge_port_unregister(client, rackJackPorts[rackPortAudioIn1]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortAudioIn2]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortAudioOut1]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortAudioOut2]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortControlIn]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortControlOut]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortMidiIn]);
            jackbridge_port_unregister(client, rackJackPorts[rackPortMidiOut]);
        }
#endif

        if (jackbridge_client_close(client) == 0)
        {
            client = nullptr;
            return true;
        }
        else
            setLastError("Failed to close the JACK client");
    }
    else
        setLastError("Failed to deactivate the JACK client");

    client = nullptr;
    return false;
}

bool CarlaEngineJack::isOffline()
{
    return freewheel;
}

bool CarlaEngineJack::isRunning()
{
    return bool(client);
}

CarlaEngineClient* CarlaEngineJack::addClient(CarlaPlugin* const plugin)
{
    CarlaEngineClientNativeHandle handle;

#ifndef BUILD_BRIDGE
    if (carlaOptions.processMode == PROCESS_MODE_SINGLE_CLIENT)
    {
        handle.jackClient = client;
    }
    else if (carlaOptions.processMode == PROCESS_MODE_MULTIPLE_CLIENTS)
#endif
    {
        handle.jackClient = jackbridge_client_open(plugin->name(), JackNullOption, nullptr);
        jackbridge_set_process_callback(handle.jackClient, carla_jack_process_callback_plugin, plugin);
    }
    //else if (carla_options.process_mode == PROCESS_MODE_CONTINUOUS_RACK)
    //{
    //}

    return new CarlaEngineClient(CarlaEngineTypeJack, handle);
}

// -------------------------------------------------------------------------------------------------------------------

void CarlaEngineJack::handleSampleRateCallback(double newSampleRate)
{
    sampleRate = newSampleRate;
}

void CarlaEngineJack::handleBufferSizeCallback(uint32_t newBufferSize)
{
#ifndef BUILD_BRIDGE
    if (carlaOptions.processHighPrecision)
        return;
#endif

    bufferSizeChanged(newBufferSize);
}

void CarlaEngineJack::handleFreewheelCallback(bool isFreewheel)
{
    freewheel = isFreewheel;
}

void CarlaEngineJack::handleProcessCallback(uint32_t nframes)
{
    if (maxPluginNumber() == 0)
        return;

    state = jackbridge_transport_query(client, &pos);

    timeInfo.playing = (state != JackTransportStopped);

    if (pos.unique_1 == pos.unique_2)
    {
        timeInfo.frame = pos.frame;
        timeInfo.time  = pos.usecs;

        if (pos.valid & JackPositionBBT)
        {
            timeInfo.valid = CarlaEngineTimeBBT;
            timeInfo.bbt.bar  = pos.bar;
            timeInfo.bbt.beat = pos.beat;
            timeInfo.bbt.tick = pos.tick;
            timeInfo.bbt.bar_start_tick = pos.bar_start_tick;
            timeInfo.bbt.beats_per_bar  = pos.beats_per_bar;
            timeInfo.bbt.beat_type      = pos.beat_type;
            timeInfo.bbt.ticks_per_beat = pos.ticks_per_beat;
            timeInfo.bbt.beats_per_minute = pos.beats_per_minute;
        }
        else
            timeInfo.valid = 0;
    }
    else
    {
        timeInfo.frame = 0;
        timeInfo.valid = 0;
    }

#ifndef BUILD_BRIDGE
    if (carlaOptions.processMode == PROCESS_MODE_SINGLE_CLIENT)
    {
        for (unsigned short i=0, max=maxPluginNumber(); i < max; i++)
        {
            CarlaPlugin* const plugin = getPluginUnchecked(i);

            if (plugin && plugin->enabled())
            {
                plugin->engineProcessLock();
                plugin->initBuffers();
                plugin->process_jack(nframes);
                plugin->engineProcessUnlock();
            }
        }
    }
    else if (carlaOptions.processMode == PROCESS_MODE_CONTINUOUS_RACK)
    {
        // get buffers from jack
        float* audioIn1  = (float*)jackbridge_port_get_buffer(rackJackPorts[rackPortAudioIn1], nframes);
        float* audioIn2  = (float*)jackbridge_port_get_buffer(rackJackPorts[rackPortAudioIn2], nframes);
        float* audioOut1 = (float*)jackbridge_port_get_buffer(rackJackPorts[rackPortAudioOut1], nframes);
        float* audioOut2 = (float*)jackbridge_port_get_buffer(rackJackPorts[rackPortAudioOut2], nframes);
        void* controlIn  = jackbridge_port_get_buffer(rackJackPorts[rackPortControlIn], nframes);
        void* controlOut = jackbridge_port_get_buffer(rackJackPorts[rackPortControlOut], nframes);
        void* midiIn     = jackbridge_port_get_buffer(rackJackPorts[rackPortMidiIn], nframes);
        void* midiOut    = jackbridge_port_get_buffer(rackJackPorts[rackPortMidiOut], nframes);

        // assert buffers
        CARLA_ASSERT(audioIn1);
        CARLA_ASSERT(audioIn2);
        CARLA_ASSERT(audioOut1);
        CARLA_ASSERT(audioOut2);
        CARLA_ASSERT(controlIn);
        CARLA_ASSERT(controlOut);
        CARLA_ASSERT(midiIn);
        CARLA_ASSERT(midiOut);

        // create temporary audio buffers
        float ains_tmp_buf1[nframes];
        float ains_tmp_buf2[nframes];
        float aouts_tmp_buf1[nframes];
        float aouts_tmp_buf2[nframes];

        float* ains_tmp[2]  = { ains_tmp_buf1, ains_tmp_buf2 };
        float* aouts_tmp[2] = { aouts_tmp_buf1, aouts_tmp_buf2 };

        // initialize audio input
        memcpy(ains_tmp_buf1, audioIn1, sizeof(float)*nframes);
        memcpy(ains_tmp_buf2, audioIn2, sizeof(float)*nframes);

        // initialize control input
        memset(rackControlEventsIn, 0, sizeof(CarlaEngineControlEvent)*MAX_ENGINE_CONTROL_EVENTS);
        {
            jackbridge_midi_event_t jackEvent;
            const uint32_t    jackEventCount = jackbridge_midi_get_event_count(controlIn);

            uint32_t carlaEventIndex = 0;

            for (uint32_t jackEventIndex=0; jackEventIndex < jackEventCount; jackEventIndex++)
            {
                if (jackbridge_midi_event_get(&jackEvent, controlIn, jackEventIndex) != 0)
                    continue;

                CarlaEngineControlEvent* const carlaEvent = &rackControlEventsIn[carlaEventIndex++];

                uint8_t midiStatus  = jackEvent.buffer[0];
                uint8_t midiChannel = midiStatus & 0x0F;

                carlaEvent->time    = jackEvent.time;
                carlaEvent->channel = midiChannel;

                if (MIDI_IS_STATUS_CONTROL_CHANGE(midiStatus))
                {
                    uint8_t midiControl = jackEvent.buffer[1];

                    if (MIDI_IS_CONTROL_BANK_SELECT(midiControl))
                    {
                        uint8_t midiBank = jackEvent.buffer[2];
                        carlaEvent->type  = CarlaEngineEventMidiBankChange;
                        carlaEvent->value = midiBank;
                    }
                    else if (midiControl == MIDI_CONTROL_ALL_SOUND_OFF)
                    {
                        carlaEvent->type = CarlaEngineEventAllSoundOff;
                    }
                    else if (midiControl == MIDI_CONTROL_ALL_NOTES_OFF)
                    {
                        carlaEvent->type = CarlaEngineEventAllNotesOff;
                    }
                    else
                    {
                        uint8_t midiValue     = jackEvent.buffer[2];
                        carlaEvent->type       = CarlaEngineEventControlChange;
                        carlaEvent->controller = midiControl;
                        carlaEvent->value      = double(midiValue)/127;
                    }
                }
                else if (MIDI_IS_STATUS_PROGRAM_CHANGE(midiStatus))
                {
                    uint8_t midiProgram = jackEvent.buffer[1];
                    carlaEvent->type  = CarlaEngineEventMidiProgramChange;
                    carlaEvent->value = midiProgram;
                }
            }
        }

        // initialize midi input
        memset(rackMidiEventsIn, 0, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);
        {
            uint32_t i = 0, j = 0;
            jackbridge_midi_event_t jackEvent;

            while (jackbridge_midi_event_get(&jackEvent, midiIn, j++) == 0)
            {
                if (i == MAX_ENGINE_MIDI_EVENTS)
                    break;

                if (jackEvent.size < 4)
                {
                    rackMidiEventsIn[i].time = jackEvent.time;
                    rackMidiEventsIn[i].size = jackEvent.size;
                    memcpy(rackMidiEventsIn[i].data, jackEvent.buffer, jackEvent.size);
                    i += 1;
                }
            }
        }

        // initialize outputs (zero)
        memset(aouts_tmp_buf1, 0, sizeof(float)*nframes);
        memset(aouts_tmp_buf2, 0, sizeof(float)*nframes);
        memset(rackControlEventsOut, 0, sizeof(CarlaEngineControlEvent)*MAX_ENGINE_CONTROL_EVENTS);
        memset(rackMidiEventsOut, 0, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);

        bool processed = false;

        // process plugins
        for (unsigned short i=0, max=maxPluginNumber(); i < max; i++)
        {
            CarlaPlugin* const plugin = getPluginUnchecked(i);

            if (plugin && plugin->enabled())
            {
                if (processed)
                {
                    // initialize inputs (from previous outputs)
                    memcpy(ains_tmp_buf1, aouts_tmp_buf1, sizeof(float)*nframes);
                    memcpy(ains_tmp_buf2, aouts_tmp_buf2, sizeof(float)*nframes);
                    memcpy(rackMidiEventsIn, rackMidiEventsOut, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);

                    // initialize outputs (zero)
                    memset(aouts_tmp_buf1, 0, sizeof(float)*nframes);
                    memset(aouts_tmp_buf2, 0, sizeof(float)*nframes);
                    memset(rackMidiEventsOut, 0, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);
                }

                // process
                plugin->engineProcessLock();

                plugin->initBuffers();

                if (carlaOptions.processHighPrecision)
                {
                    float* ains_buffer2[2];
                    float* aouts_buffer2[2];

                    for (uint32_t j=0; j < nframes; j += 8)
                    {
                        ains_buffer2[0] = ains_tmp_buf1 + j;
                        ains_buffer2[1] = ains_tmp_buf2 + j;

                        aouts_buffer2[0] = aouts_tmp_buf1 + j;
                        aouts_buffer2[1] = aouts_tmp_buf2 + j;

                        plugin->process(ains_buffer2, aouts_buffer2, 8, j);
                    }
                }
                else
                    plugin->process(ains_tmp, aouts_tmp, nframes);

                plugin->engineProcessUnlock();

                // if plugin has no audio inputs, add previous buffers
                if (plugin->audioInCount() == 0)
                {
                    for (uint32_t j=0; j < nframes; j++)
                    {
                        aouts_tmp_buf1[j] += ains_tmp_buf1[j];
                        aouts_tmp_buf2[j] += ains_tmp_buf2[j];
                    }
                }

                // if plugin has no midi output, add previous midi input
                if (plugin->midiOutCount() == 0)
                {
                    memcpy(rackMidiEventsOut, rackMidiEventsIn, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);
                }

                processed = true;
            }
        }

        // if no plugins in the rack, copy inputs over outputs
        if (! processed)
        {
            memcpy(aouts_tmp_buf1, ains_tmp_buf1, sizeof(float)*nframes);
            memcpy(aouts_tmp_buf2, ains_tmp_buf2, sizeof(float)*nframes);
            memcpy(rackMidiEventsOut, rackMidiEventsIn, sizeof(CarlaEngineMidiEvent)*MAX_ENGINE_MIDI_EVENTS);
        }

        // output audio
        memcpy(audioOut1, aouts_tmp_buf1, sizeof(float)*nframes);
        memcpy(audioOut2, aouts_tmp_buf2, sizeof(float)*nframes);

        // output control
        {
            jackbridge_midi_clear_buffer(controlOut);

            for (unsigned short i=0; i < MAX_ENGINE_CONTROL_EVENTS; i++)
            {
                CarlaEngineControlEvent* const event = &rackControlEventsOut[i];

                if (event->type == CarlaEngineEventControlChange && MIDI_IS_CONTROL_BANK_SELECT(event->controller))
                    event->type = CarlaEngineEventMidiBankChange;

                uint8_t data[4] = { 0 };

                switch (event->type)
                {
                case CarlaEngineEventNull:
                    break;
                case CarlaEngineEventControlChange:
                    data[0] = MIDI_STATUS_CONTROL_CHANGE + event->channel;
                    data[1] = event->controller;
                    data[2] = event->value * 127;
                    jackbridge_midi_event_write(controlOut, event->time, data, 3);
                    break;
                case CarlaEngineEventMidiBankChange:
                    data[0] = MIDI_STATUS_CONTROL_CHANGE + event->channel;
                    data[1] = MIDI_CONTROL_BANK_SELECT;
                    data[2] = event->value;
                    jackbridge_midi_event_write(controlOut, event->time, data, 3);
                    break;
                case CarlaEngineEventMidiProgramChange:
                    data[0] = MIDI_STATUS_PROGRAM_CHANGE + event->channel;
                    data[1] = event->value;
                    jackbridge_midi_event_write(controlOut, event->time, data, 2);
                    break;
                case CarlaEngineEventAllSoundOff:
                    data[0] = MIDI_STATUS_CONTROL_CHANGE + event->channel;
                    data[1] = MIDI_CONTROL_ALL_SOUND_OFF;
                    jackbridge_midi_event_write(controlOut, event->time, data, 2);
                    break;
                case CarlaEngineEventAllNotesOff:
                    data[0] = MIDI_STATUS_CONTROL_CHANGE + event->channel;
                    data[1] = MIDI_CONTROL_ALL_NOTES_OFF;
                    jackbridge_midi_event_write(controlOut, event->time, data, 2);
                    break;
                }
            }
        }

        // output midi
        {
            jackbridge_midi_clear_buffer(midiOut);

            for (unsigned short i=0; i < MAX_ENGINE_MIDI_EVENTS; i++)
            {
                if (rackMidiEventsOut[i].size == 0)
                    break;

                jackbridge_midi_event_write(midiOut, rackMidiEventsOut[i].time, rackMidiEventsOut[i].data, rackMidiEventsOut[i].size);
            }
        }
    }
#else
    Q_UNUSED(nframes);
#endif
}

void CarlaEngineJack::handleShutdownCallback()
{
    //for (unsigned short i=0, max=maxPluginNumber(); i < max; i++)
    //{
        //CarlaPlugin* const plugin = getPluginUnchecked(i);
        //plugin->x_client
    //}

    client = nullptr;
    callback(CALLBACK_QUIT, 0, 0, 0, 0.0);
}

CARLA_BACKEND_END_NAMESPACE

#endif // CARLA_ENGINE_JACK