jack2/common/JackServer.cpp

/*
Copyright (C) 2001 Paul Davis
Copyright (C) 2004-2008 Grame

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
(at your option) 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.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

*/

#include "JackSystemDeps.h"
#include "JackServerGlobals.h"
#include "JackTime.h"
#include "JackFreewheelDriver.h"
#include "JackDummyDriver.h"
#include "JackThreadedDriver.h"
#include "JackGlobals.h"
#include "JackLockedEngine.h"
#include "JackAudioDriver.h"
#include "JackChannel.h"
#include "JackClientControl.h"
#include "JackEngineControl.h"
#include "JackGraphManager.h"
#include "JackInternalClient.h"
#include "JackError.h"
#include "JackMessageBuffer.h"

namespace Jack
{

JackServer::JackServer(bool sync, bool temporary, int timeout, bool rt, int priority, int port_max, bool verbose, jack_timer_type_t clock, const char* server_name)
{
    if (rt) {
        jack_info("JACK server starting in realtime mode with priority %ld", priority);
    } else {
        jack_info("JACK server starting in non-realtime mode");
    }

    fGraphManager = JackGraphManager::Allocate(port_max);
    fEngineControl = new JackEngineControl(sync, temporary, timeout, rt, priority, verbose, clock, server_name);
    fEngine = new JackLockedEngine(fGraphManager, GetSynchroTable(), fEngineControl);

    // A distinction is made between the threaded freewheel driver and the
    // regular freewheel driver because the freewheel driver needs to run in
    // threaded mode when freewheel mode is active and needs to run as a slave
    // when freewheel mode isn't active.
    JackFreewheelDriver *freewheelDriver =
        new JackFreewheelDriver(fEngine, GetSynchroTable());
    fThreadedFreewheelDriver = new JackThreadedDriver(freewheelDriver);

    fFreewheelDriver = freewheelDriver;
    fDriverInfo = new JackDriverInfo();
    fAudioDriver = NULL;
    fFreewheel = false;
    JackServerGlobals::fInstance = this;   // Unique instance
    JackServerGlobals::fUserCount = 1;     // One user
    JackGlobals::fVerbose = verbose;
}

JackServer::~JackServer()
{
    JackGraphManager::Destroy(fGraphManager);
    delete fDriverInfo;
    delete fThreadedFreewheelDriver;
    delete fEngine;
    delete fEngineControl;
}

int JackServer::Open(jack_driver_desc_t* driver_desc, JSList* driver_params)
{
    // TODO: move that in reworked JackServerGlobals::Init()
    JackMessageBuffer::Create();

     if ((fAudioDriver = fDriverInfo->Open(driver_desc, fEngine, GetSynchroTable(), driver_params)) == NULL) {
        jack_error("Cannot initialize driver");
        goto fail_close1;
    }

    if (fChannel.Open(fEngineControl->fServerName, this) < 0) {
        jack_error("Server channel open error");
        goto fail_close2;
    }

    if (fEngine->Open() < 0) {
        jack_error("Cannot open engine");
        goto fail_close3;
    }

    if (fFreewheelDriver->Open() < 0) {
        jack_error("Cannot open freewheel driver");
        goto fail_close4;
    }

    if (fAudioDriver->Attach() < 0) {
        jack_error("Cannot attach audio driver");
        goto fail_close5;
    }

    fFreewheelDriver->SetMaster(false);
    fAudioDriver->SetMaster(true);
    fAudioDriver->AddSlave(fFreewheelDriver);
    InitTime();
    SetClockSource(fEngineControl->fClockSource);
    return 0;

fail_close5:
    fFreewheelDriver->Close();

fail_close4:
    fEngine->Close();

fail_close3:
    fChannel.Close();

fail_close2:
    fAudioDriver->Close();

fail_close1:
    JackMessageBuffer::Destroy();
    return -1;
}

int JackServer::Close()
{
    jack_log("JackServer::Close");
    fEngine->NotifyQuit();
    fChannel.Close();
    fAudioDriver->Detach();
    fAudioDriver->Close();
    fFreewheelDriver->Close();
    fEngine->Close();
    // TODO: move that in reworked JackServerGlobals::Destroy()
    JackMessageBuffer::Destroy();
    return 0;
}

int JackServer::InternalClientLoad1(const char* client_name, const char* so_name, const char* objet_data, int options, int* int_ref, int uuid, int* status)
{
    JackLoadableInternalClient* client = new JackLoadableInternalClient1(JackServerGlobals::fInstance, GetSynchroTable(), objet_data);
    assert(client);
    return InternalClientLoadAux(client, so_name, client_name, options, int_ref, uuid, status);
 }

int JackServer::InternalClientLoad2(const char* client_name, const char* so_name, const JSList * parameters, int options, int* int_ref, int uuid, int* status)
{
    JackLoadableInternalClient* client = new JackLoadableInternalClient2(JackServerGlobals::fInstance, GetSynchroTable(), parameters);
    assert(client);
    return InternalClientLoadAux(client, so_name, client_name, options, int_ref, uuid, status);
}

int JackServer::InternalClientLoadAux(JackLoadableInternalClient* client, const char* so_name, const char* client_name, int options, int* int_ref, int uuid, int* status)
{
    // Clear status
    *status = 0;

    // Client object is internally kept in JackEngine
    if ((client->Init(so_name) < 0) || (client->Open(JACK_DEFAULT_SERVER_NAME, client_name,  uuid, (jack_options_t)options, (jack_status_t*)status) < 0)) {
        delete client;
        int my_status1 = *status | JackFailure;
        *status = (jack_status_t)my_status1;
        *int_ref = 0;
        return -1;
    } else {
        *int_ref = client->GetClientControl()->fRefNum;
        return 0;
    }
 }

int JackServer::Start()
{
    jack_log("JackServer::Start");
    if (fAudioDriver->Start() < 0) {
        return -1;
    }
    return fChannel.Start();
}

int JackServer::Stop()
{
    jack_log("JackServer::Stop");
    if (fFreewheel) {
        return fThreadedFreewheelDriver->Stop();
    } else {
        return fAudioDriver->Stop();
    }
}

bool JackServer::IsRunning()
{
    jack_log("JackServer::IsRunning");
    assert(fAudioDriver);
    return fAudioDriver->IsRunning();
}

int JackServer::SetBufferSize(jack_nframes_t buffer_size)
{
    jack_log("JackServer::SetBufferSize nframes = %ld", buffer_size);
    jack_nframes_t current_buffer_size = fEngineControl->fBufferSize;

    if (current_buffer_size == buffer_size) {
        jack_log("SetBufferSize: requirement for new buffer size equals current value");
        return 0;
    }

    if (fAudioDriver->IsFixedBufferSize()) {
        jack_log("SetBufferSize: driver only supports a fixed buffer size");
        return -1;
    }

    if (fAudioDriver->Stop() != 0) {
        jack_error("Cannot stop audio driver");
        return -1;
    }

    if (fAudioDriver->SetBufferSize(buffer_size) == 0) {
        fEngine->NotifyBufferSize(buffer_size);
        return fAudioDriver->Start();
    } else { // Failure: try to restore current value
        jack_error("Cannot SetBufferSize for audio driver, restore current value %ld", current_buffer_size);
        fAudioDriver->SetBufferSize(current_buffer_size);
        fAudioDriver->Start();
        // SetBufferSize actually failed, so return an error...
        return -1;
    }
}

/*
Freewheel mode is implemented by switching from the (audio + freewheel) driver to the freewheel driver only:

    - "global" connection state is saved
    - all audio driver ports are deconnected, thus there is no more dependancies with the audio driver
    - the freewheel driver will be synchronized with the end of graph execution : all clients are connected to the freewheel driver
    - the freewheel driver becomes the "master"

Normal mode is restored with the connections state valid before freewheel mode was done. Thus one consider that
no graph state change can be done during freewheel mode.
*/

int JackServer::SetFreewheel(bool onoff)
{
    jack_log("JackServer::SetFreewheel is = %ld want = %ld", fFreewheel, onoff);

    if (fFreewheel) {
        if (onoff) {
            return -1;
        } else {
            fFreewheel = false;
            fThreadedFreewheelDriver->Stop();
            fGraphManager->Restore(&fConnectionState);   // Restore previous connection state
            fEngine->NotifyFreewheel(onoff);
            fFreewheelDriver->SetMaster(false);
            fAudioDriver->SetMaster(true);
            return fAudioDriver->Start();
        }
    } else {
        if (onoff) {
            fFreewheel = true;
            fAudioDriver->Stop();
            fGraphManager->Save(&fConnectionState);     // Save connection state
            fGraphManager->DisconnectAllPorts(fAudioDriver->GetClientControl()->fRefNum);
            fEngine->NotifyFreewheel(onoff);
            fAudioDriver->SetMaster(false);
            fFreewheelDriver->SetMaster(true);
            return fThreadedFreewheelDriver->Start();
        } else {
            return -1;
        }
    }
}

// Coming from the RT thread
void JackServer::Notify(int refnum, int notify, int value)
{
    switch (notify) {

        case kGraphOrderCallback:
            fEngine->NotifyGraphReorder();
            break;

        case kXRunCallback:
            fEngine->NotifyXRun(refnum);
            break;
    }
}

void JackServer::ClientKill(int refnum)
{
    jack_log("JackServer::ClientKill ref = %ld", refnum);
    if (fEngine->ClientDeactivate(refnum) < 0) {
        jack_error("JackServer::ClientKill ref = %ld cannot be removed from the graph !!", refnum);
    }
    if (fEngine->ClientExternalClose(refnum) < 0) {
        jack_error("JackServer::ClientKill ref = %ld cannot be closed", refnum);
    }
}

//----------------------
// Backend management
//----------------------

JackDriverInfo* JackServer::AddSlave(jack_driver_desc_t* driver_desc, JSList* driver_params)
{
    JackDriverInfo* info = new JackDriverInfo();
    JackDriverClientInterface* slave = info->Open(driver_desc, fEngine, GetSynchroTable(), driver_params);
    if (slave == NULL) {
        delete info;
        return NULL;
    }
    slave->Attach();
    slave->SetMaster(false);
    fAudioDriver->AddSlave(slave);
    return info;
}

void JackServer::RemoveSlave(JackDriverInfo* info)
{
    JackDriverClientInterface* slave = info->GetBackend();
    fAudioDriver->RemoveSlave(slave);
    slave->Detach();
    slave->Close();
}

int JackServer::SwitchMaster(jack_driver_desc_t* driver_desc, JSList* driver_params)
{
    /// Remove current master
    fAudioDriver->Stop();
    fAudioDriver->Detach();
    fAudioDriver->Close();

    // Open new master
    JackDriverInfo* info = new JackDriverInfo();
    JackDriverClientInterface* master = info->Open(driver_desc, fEngine, GetSynchroTable(), driver_params);

    if (master == NULL) {
        delete info;
        return -1;
    }

    // Get slaves list
    std::list<JackDriverInterface*> slave_list = fAudioDriver->GetSlaves();
    std::list<JackDriverInterface*>::const_iterator it;

    // Move slaves in new master
    for (it = slave_list.begin(); it != slave_list.end(); it++) {
        JackDriverInterface* slave = *it;
        master->AddSlave(slave);
    }

    // Delete old master
    delete fDriverInfo;

    // Activate master
    fAudioDriver = master;
    fDriverInfo = info;
    fAudioDriver->Attach();
    fAudioDriver->SetMaster(true);
    return fAudioDriver->Start();
}

//----------------------
// Transport management
//----------------------

int JackServer::ReleaseTimebase(int refnum)
{
    return fEngineControl->fTransport.ResetTimebase(refnum);
}

int JackServer::SetTimebaseCallback(int refnum, int conditional)
{
    return fEngineControl->fTransport.SetTimebaseMaster(refnum, conditional);
}

JackLockedEngine* JackServer::GetEngine()
{
    return fEngine;
}

JackSynchro* JackServer::GetSynchroTable()
{
    return fSynchroTable;
}

JackEngineControl* JackServer::GetEngineControl()
{
    return fEngineControl;
}

JackGraphManager* JackServer::GetGraphManager()
{
    return fGraphManager;
}


} // end of namespace