/* 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 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 (at your option) any later version. 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. */ #if defined(HAVE_CONFIG_H) #include "config.h" #endif #ifdef WIN32 #pragma warning (disable : 4786) #endif #include "JackAudioDriver.h" #include "JackTime.h" #include "JackError.h" #include "JackEngineControl.h" #include "JackClientControl.h" #include "JackPort.h" #include "JackGraphManager.h" #include "JackEngine.h" #include "JackException.h" #include namespace Jack { JackAudioDriver::JackAudioDriver(const char* name, const char* alias, JackEngineInterface* engine, JackSynchro* table) : JackDriver(name, alias, engine, table), fCaptureChannels(0), fPlaybackChannels(0), fWithMonitorPorts(false) {} JackAudioDriver::~JackAudioDriver() {} int JackAudioDriver::SetBufferSize(jack_nframes_t buffer_size) { fEngineControl->fBufferSize = buffer_size; fGraphManager->SetBufferSize(buffer_size); fEngineControl->fPeriodUsecs = jack_time_t(1000000.f / fEngineControl->fSampleRate * fEngineControl->fBufferSize); // in microsec if (!fEngineControl->fTimeOut) fEngineControl->fTimeOutUsecs = jack_time_t(2.f * fEngineControl->fPeriodUsecs); return 0; } int JackAudioDriver::SetSampleRate(jack_nframes_t sample_rate) { fEngineControl->fSampleRate = sample_rate; fEngineControl->fPeriodUsecs = jack_time_t(1000000.f / fEngineControl->fSampleRate * fEngineControl->fBufferSize); // in microsec if (!fEngineControl->fTimeOut) fEngineControl->fTimeOutUsecs = jack_time_t(2.f * fEngineControl->fPeriodUsecs); return 0; } int JackAudioDriver::Open(jack_nframes_t nframes, jack_nframes_t samplerate, int capturing, int playing, int inchannels, int outchannels, bool monitor, const char* capture_driver_name, const char* playback_driver_name, jack_nframes_t capture_latency, jack_nframes_t playback_latency) { fCaptureChannels = inchannels; fPlaybackChannels = outchannels; fWithMonitorPorts = monitor; return JackDriver::Open(nframes, samplerate, capturing, playing, inchannels, outchannels, monitor, capture_driver_name, playback_driver_name, capture_latency, playback_latency); } int JackAudioDriver::Attach() { JackPort* port; jack_port_id_t port_index; char name[JACK_CLIENT_NAME_SIZE + JACK_PORT_NAME_SIZE]; char alias[JACK_CLIENT_NAME_SIZE + JACK_PORT_NAME_SIZE]; unsigned long port_flags = JackPortIsOutput | JackPortIsPhysical | JackPortIsTerminal; int i; jack_log("JackAudioDriver::Attach fBufferSize = %ld fSampleRate = %ld", fEngineControl->fBufferSize, fEngineControl->fSampleRate); for (i = 0; i < fCaptureChannels; i++) { snprintf(alias, sizeof(alias) - 1, "%s:%s:out%d", fAliasName, fCaptureDriverName, i + 1); snprintf(name, sizeof(name) - 1, "%s:capture_%d", fClientControl->fName, i + 1); if ((port_index = fGraphManager->AllocatePort(fClientControl->fRefNum, name, JACK_DEFAULT_AUDIO_TYPE, (JackPortFlags)port_flags, fEngineControl->fBufferSize)) == NO_PORT) { jack_error("driver: cannot register port for %s", name); return -1; } port = fGraphManager->GetPort(port_index); port->SetAlias(alias); port->SetLatency(fEngineControl->fBufferSize + fCaptureLatency); fCapturePortList[i] = port_index; jack_log("JackAudioDriver::Attach fCapturePortList[i] port_index = %ld", port_index); } port_flags = JackPortIsInput | JackPortIsPhysical | JackPortIsTerminal; for (i = 0; i < fPlaybackChannels; i++) { snprintf(alias, sizeof(alias) - 1, "%s:%s:in%d", fAliasName, fPlaybackDriverName, i + 1); snprintf(name, sizeof(name) - 1, "%s:playback_%d", fClientControl->fName, i + 1); if ((port_index = fGraphManager->AllocatePort(fClientControl->fRefNum, name, JACK_DEFAULT_AUDIO_TYPE, (JackPortFlags)port_flags, fEngineControl->fBufferSize)) == NO_PORT) { jack_error("driver: cannot register port for %s", name); return -1; } port = fGraphManager->GetPort(port_index); port->SetAlias(alias); // Add more latency if "async" mode is used... port->SetLatency(fEngineControl->fBufferSize + ((fEngineControl->fSyncMode) ? 0 : fEngineControl->fBufferSize) + fPlaybackLatency); fPlaybackPortList[i] = port_index; jack_log("JackAudioDriver::Attach fPlaybackPortList[i] port_index = %ld", port_index); // Monitor ports if (fWithMonitorPorts) { jack_log("Create monitor port "); snprintf(name, sizeof(name) - 1, "%s:%s:monitor_%u", fAliasName, fPlaybackDriverName, i + 1); if ((port_index = fGraphManager->AllocatePort(fClientControl->fRefNum, name, JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, fEngineControl->fBufferSize)) == NO_PORT) { jack_error("Cannot register monitor port for %s", name); return -1; } else { port = fGraphManager->GetPort(port_index); port->SetLatency(fEngineControl->fBufferSize); fMonitorPortList[i] = port_index; } } } return 0; } int JackAudioDriver::Detach() { int i; jack_log("JackAudioDriver::Detach"); for (i = 0; i < fCaptureChannels; i++) { fGraphManager->ReleasePort(fClientControl->fRefNum, fCapturePortList[i]); } for (i = 0; i < fPlaybackChannels; i++) { fGraphManager->ReleasePort(fClientControl->fRefNum, fPlaybackPortList[i]); if (fWithMonitorPorts) fGraphManager->ReleasePort(fClientControl->fRefNum, fMonitorPortList[i]); } return 0; } int JackAudioDriver::Write() { for (int i = 0; i < fPlaybackChannels; i++) { if (fGraphManager->GetConnectionsNum(fPlaybackPortList[i]) > 0) { float* buffer = GetOutputBuffer(i); int size = sizeof(float) * fEngineControl->fBufferSize; // Monitor ports if (fWithMonitorPorts && fGraphManager->GetConnectionsNum(fMonitorPortList[i]) > 0) memcpy(GetMonitorBuffer(i), buffer, size); } } return 0; } int JackAudioDriver::Process() { return (fEngineControl->fSyncMode) ? ProcessSync() : ProcessAsync(); } /* The driver ASYNC mode: output buffers computed at the *previous cycle* are used, the server does not synchronize to the end of client graph execution. */ int JackAudioDriver::ProcessAsync() { // Read input buffers for the current cycle if (Read() < 0) { jack_error("ProcessAsync: read error, skip cycle"); return 0; // Skip cycle, but continue processing... } // Write output buffers from the previous cycle if (Write() < 0) { jack_error("ProcessAsync: write error, skip cycle"); return 0; // Skip cycle, but continue processing... } if (fIsMaster) { if (!fEngine->Process(fLastWaitUst)) // fLastWaitUst is set in the "low level" layer jack_error("JackAudioDriver::ProcessAsync Process error"); fGraphManager->ResumeRefNum(fClientControl, fSynchroTable); if (ProcessSlaves() < 0) jack_error("JackAudioDriver::ProcessAsync ProcessSlaves error"); } else { fGraphManager->ResumeRefNum(fClientControl, fSynchroTable); } return 0; } /* The driver SYNC mode: the server does synchronize to the end of client graph execution, output buffers computed at the *current cycle* are used. */ int JackAudioDriver::ProcessSync() { // Read input buffers for the current cycle if (Read() < 0) { jack_error("ProcessSync: read error, skip cycle"); return 0; // Skip cycle, but continue processing... } if (fIsMaster) { if (fEngine->Process(fLastWaitUst)) { // fLastWaitUst is set in the "low level" layer fGraphManager->ResumeRefNum(fClientControl, fSynchroTable); if (ProcessSlaves() < 0) jack_error("JackAudioDriver::ProcessSync ProcessSlaves error, engine may now behave abnormally!!"); if (fGraphManager->SuspendRefNum(fClientControl, fSynchroTable, fEngineControl->fTimeOutUsecs) < 0) jack_error("JackAudioDriver::ProcessSync SuspendRefNum error, engine may now behave abnormally!!"); } else { // Graph not finished: do not activate it jack_error("ProcessSync: error"); } // Write output buffers for the current cycle if (Write() < 0) { jack_error("ProcessSync: write error, skip cycle"); return 0; // Skip cycle, but continue processing... } } else { fGraphManager->ResumeRefNum(fClientControl, fSynchroTable); } return 0; } void JackAudioDriver::NotifyXRun(jack_time_t callback_usecs, float delayed_usecs) { fEngine->NotifyXRun(callback_usecs, delayed_usecs); } jack_default_audio_sample_t* JackAudioDriver::GetInputBuffer(int port_index) { assert(fCapturePortList[port_index]); return (jack_default_audio_sample_t*)fGraphManager->GetBuffer(fCapturePortList[port_index], fEngineControl->fBufferSize); } jack_default_audio_sample_t* JackAudioDriver::GetOutputBuffer(int port_index) { assert(fPlaybackPortList[port_index]); return (jack_default_audio_sample_t*)fGraphManager->GetBuffer(fPlaybackPortList[port_index], fEngineControl->fBufferSize); } jack_default_audio_sample_t* JackAudioDriver::GetMonitorBuffer(int port_index) { assert(fPlaybackPortList[port_index]); return (jack_default_audio_sample_t*)fGraphManager->GetBuffer(fMonitorPortList[port_index], fEngineControl->fBufferSize); } } // end of namespace