/*
* Copyright (C) 2005-2008 by Daniel Wagner
* Copyright (C) 2005-2008 by Pieter Palmers
*
* This file is part of FFADO
* FFADO = Free Firewire (pro-)audio drivers for linux
*
* FFADO is based upon FreeBoB
*
* 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) version 3 of the License.
*
* 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, see .
*
*/
/*
* Implementation of the FFADO external C API
*/
#include "config.h"
#include "../libffado/ffado.h"
#include "libstreaming/generic/StreamProcessor.h"
#include "libstreaming/generic/Port.h"
#include "debugmodule/debugmodule.h"
#include "fbtypes.h"
#include "devicemanager.h"
#include "ffadodevice.h"
#include
#include
#include
#include
#include
DECLARE_GLOBAL_DEBUG_MODULE;
IMPL_GLOBAL_DEBUG_MODULE( FFADO, DEBUG_LEVEL_VERBOSE );
#ifdef __cplusplus
extern "C" {
#endif
// this is very much nescessary, as otherwise the
// message buffer thread doesn't get killed when the
// library is dlclose()'d
static void exitfunc(void) __attribute__((destructor));
static void exitfunc(void)
{
delete DebugModuleManager::instance();
}
#ifdef __cplusplus
}
#endif
const char*
ffado_get_version() {
return PACKAGE_STRING;
}
int
ffado_get_api_version() {
return FFADO_API_VERSION;
}
#warning this should be cleaned up
#include "libavc/general/avc_generic.h"
void ffado_sleep_after_avc_command( int time )
{
AVC::AVCCommand::setSleepAfterAVCCommand( time );
}
struct _ffado_device
{
DeviceManager * m_deviceManager;
ffado_options_t options;
ffado_device_info_t device_info;
};
ffado_device_t *ffado_streaming_init (ffado_device_info_t device_info, ffado_options_t options) {
unsigned int i=0;
setDebugLevel(options.verbose);
struct _ffado_device *dev = new struct _ffado_device;
printMessage("%s built %s %s\n", ffado_get_version(), __DATE__, __TIME__);
if(!dev) {
debugFatal( "Could not allocate streaming device\n" );
return 0;
}
memcpy((void *)&dev->options, (void *)&options, sizeof(dev->options));
dev->m_deviceManager = new DeviceManager();
if ( !dev->m_deviceManager ) {
debugFatal( "Could not allocate device manager\n" );
delete dev;
return 0;
}
dev->m_deviceManager->setVerboseLevel(dev->options.verbose);
dev->m_deviceManager->setThreadParameters(dev->options.realtime, dev->options.packetizer_priority);
for (i = 0; i < device_info.nb_device_spec_strings; i++) {
char *s = device_info.device_spec_strings[i];
if ( !dev->m_deviceManager->addSpecString(s) ) {
debugFatal( "Could not add spec string %s to device manager\n", s );
delete dev->m_deviceManager;
delete dev;
return 0;
}
}
// create a processor manager to manage the actual stream
// processors
if ( !dev->m_deviceManager->setStreamingParams(dev->options.period_size,
dev->options.sample_rate,
dev->options.nb_buffers))
{
debugFatal( "Could not set streaming parameters of device manager\n" );
delete dev->m_deviceManager;
delete dev;
return 0;
}
// set slave mode option
bool slaveMode=(dev->options.slave_mode != 0);
debugOutput(DEBUG_LEVEL_VERBOSE, "setting slave mode to %d\n", slaveMode);
if(!dev->m_deviceManager->setOption("slaveMode", slaveMode)) {
debugWarning("Failed to set slave mode option\n");
}
// set snoop mode option
bool snoopMode=(dev->options.snoop_mode != 0);
debugOutput(DEBUG_LEVEL_VERBOSE, "setting snoop mode to %d\n", snoopMode);
if(!dev->m_deviceManager->setOption("snoopMode", snoopMode)) {
debugWarning("Failed to set snoop mode option\n");
}
if ( !dev->m_deviceManager->initialize() ) {
debugFatal( "Could not initialize device manager\n" );
delete dev->m_deviceManager;
delete dev;
return 0;
}
// discover the devices on the bus
if(!dev->m_deviceManager->discover()) {
debugFatal("Could not discover devices\n");
delete dev->m_deviceManager;
delete dev;
return 0;
}
// are there devices on the bus?
if(dev->m_deviceManager->getAvDeviceCount() == 0) {
debugFatal("There are no devices on the bus\n");
delete dev->m_deviceManager;
delete dev;
return 0;
}
// prepare here or there are no ports for jack
if(!dev->m_deviceManager->initStreaming()) {
debugFatal("Could not init the streaming system\n");
return 0;
}
// we are ready!
return dev;
}
int ffado_streaming_prepare(ffado_device_t *dev) {
debugOutput(DEBUG_LEVEL_VERBOSE, "Preparing...\n");
// prepare here or there are no ports for jack
if(!dev->m_deviceManager->prepareStreaming()) {
debugFatal("Could not prepare the streaming system\n");
return -1;
}
return 0;
}
void ffado_streaming_finish(ffado_device_t *dev) {
assert(dev);
if(!dev->m_deviceManager->finishStreaming()) {
debugError("Could not finish the streaming\n");
}
delete dev->m_deviceManager;
delete dev;
return;
}
int ffado_streaming_start(ffado_device_t *dev) {
debugOutput(DEBUG_LEVEL_VERBOSE,"------------- Start -------------\n");
if(!dev->m_deviceManager->startStreaming()) {
debugFatal("Could not start the streaming system\n");
return -1;
}
return 0;
}
int ffado_streaming_stop(ffado_device_t *dev) {
debugOutput(DEBUG_LEVEL_VERBOSE,"------------- Stop -------------\n");
if(!dev->m_deviceManager->stopStreaming()) {
debugFatal("Could not stop the streaming system\n");
return -1;
}
return 0;
}
int ffado_streaming_reset(ffado_device_t *dev) {
debugOutput(DEBUG_LEVEL_VERBOSE,"------------- Reset -------------\n");
if(!dev->m_deviceManager->resetStreaming()) {
debugFatal("Could not reset the streaming system\n");
return -1;
}
return 0;
}
ffado_wait_response
ffado_streaming_wait(ffado_device_t *dev) {
static int periods=0;
static int periods_print=0;
static int xruns=0;
periods++;
if(periods>periods_print) {
debugOutputShort(DEBUG_LEVEL_NORMAL, "\nffado_streaming_wait\n");
debugOutputShort(DEBUG_LEVEL_NORMAL, "============================================\n");
debugOutputShort(DEBUG_LEVEL_NORMAL, "Xruns: %d\n", xruns);
debugOutputShort(DEBUG_LEVEL_NORMAL, "============================================\n");
dev->m_deviceManager->showStreamingInfo();
debugOutputShort(DEBUG_LEVEL_NORMAL, "\n");
periods_print+=100;
}
enum DeviceManager::eWaitResult result;
result = dev->m_deviceManager->waitForPeriod();
if(result == DeviceManager::eWR_OK) {
return ffado_wait_ok;
} else if (result == DeviceManager::eWR_Xrun) {
debugOutput(DEBUG_LEVEL_NORMAL, "Handled XRUN\n");
xruns++;
return ffado_wait_xrun;
} else if (result == DeviceManager::eWR_Shutdown) {
debugWarning("Streaming system requests shutdown.\n");
return ffado_wait_shutdown;
} else {
debugError("Error condition while waiting (Unhandled XRUN)\n");
xruns++;
return ffado_wait_error;
}
}
int ffado_streaming_transfer_capture_buffers(ffado_device_t *dev) {
return dev->m_deviceManager->getStreamProcessorManager().transfer(Streaming::StreamProcessor::ePT_Receive);
}
int ffado_streaming_transfer_playback_buffers(ffado_device_t *dev) {
return dev->m_deviceManager->getStreamProcessorManager().transfer(Streaming::StreamProcessor::ePT_Transmit);
}
int ffado_streaming_transfer_buffers(ffado_device_t *dev) {
return dev->m_deviceManager->getStreamProcessorManager().transfer();
}
int ffado_streaming_get_nb_capture_streams(ffado_device_t *dev) {
return dev->m_deviceManager->getStreamProcessorManager().getPortCount(Streaming::Port::E_Capture);
}
int ffado_streaming_get_nb_playback_streams(ffado_device_t *dev) {
return dev->m_deviceManager->getStreamProcessorManager().getPortCount(Streaming::Port::E_Playback);
}
int ffado_streaming_get_capture_stream_name(ffado_device_t *dev, int i, char* buffer, size_t buffersize) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Capture);
if(!p) {
debugWarning("Could not get capture port at index %d\n",i);
return -1;
}
std::string name=p->getName();
if (!strncpy(buffer, name.c_str(), buffersize)) {
debugWarning("Could not copy name\n");
return -1;
} else return 0;
}
int ffado_streaming_get_playback_stream_name(ffado_device_t *dev, int i, char* buffer, size_t buffersize) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Playback);
if(!p) {
debugWarning("Could not get playback port at index %d\n",i);
return -1;
}
std::string name=p->getName();
if (!strncpy(buffer, name.c_str(), buffersize)) {
debugWarning("Could not copy name\n");
return -1;
} else return 0;
}
ffado_streaming_stream_type ffado_streaming_get_capture_stream_type(ffado_device_t *dev, int i) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Capture);
if(!p) {
debugWarning("Could not get capture port at index %d\n",i);
return ffado_stream_type_invalid;
}
switch(p->getPortType()) {
case Streaming::Port::E_Audio:
return ffado_stream_type_audio;
case Streaming::Port::E_Midi:
return ffado_stream_type_midi;
case Streaming::Port::E_Control:
return ffado_stream_type_control;
default:
return ffado_stream_type_unknown;
}
}
ffado_streaming_stream_type ffado_streaming_get_playback_stream_type(ffado_device_t *dev, int i) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Playback);
if(!p) {
debugWarning("Could not get playback port at index %d\n",i);
return ffado_stream_type_invalid;
}
switch(p->getPortType()) {
case Streaming::Port::E_Audio:
return ffado_stream_type_audio;
case Streaming::Port::E_Midi:
return ffado_stream_type_midi;
case Streaming::Port::E_Control:
return ffado_stream_type_control;
default:
return ffado_stream_type_unknown;
}
}
int ffado_streaming_set_audio_datatype(ffado_device_t *dev,
ffado_streaming_audio_datatype t) {
switch(t) {
case ffado_audio_datatype_int24:
if(!dev->m_deviceManager->getStreamProcessorManager().setAudioDataType(
Streaming::StreamProcessorManager::eADT_Int24)) {
debugError("Could not set datatype\n");
return -1;
}
break;
case ffado_audio_datatype_float:
if(!dev->m_deviceManager->getStreamProcessorManager().setAudioDataType(
Streaming::StreamProcessorManager::eADT_Float)) {
debugError("Could not set datatype\n");
return -1;
}
break;
default:
debugError("Invalid audio datatype\n");
return -1;
}
return 0;
}
ffado_streaming_audio_datatype ffado_streaming_get_audio_datatype(ffado_device_t *dev) {
switch(dev->m_deviceManager->getStreamProcessorManager().getAudioDataType()) {
case Streaming::StreamProcessorManager::eADT_Int24:
return ffado_audio_datatype_int24;
case Streaming::StreamProcessorManager::eADT_Float:
return ffado_audio_datatype_float;
default:
debugError("Invalid audio datatype\n");
return ffado_audio_datatype_error;
}
#warning FIXME
}
int ffado_streaming_stream_onoff(ffado_device_t *dev, int i,
int on, enum Streaming::Port::E_Direction direction) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, direction);
if(!p) {
debugWarning("Could not get %s port at index %d\n",
(direction==Streaming::Port::E_Playback?"Playback":"Capture"),i);
return -1;
}
if(on) {
p->enable();
} else {
p->disable();
}
return 0;
}
int ffado_streaming_playback_stream_onoff(ffado_device_t *dev, int number, int on) {
return ffado_streaming_stream_onoff(dev, number, on, Streaming::Port::E_Playback);
}
int ffado_streaming_capture_stream_onoff(ffado_device_t *dev, int number, int on) {
return ffado_streaming_stream_onoff(dev, number, on, Streaming::Port::E_Capture);
}
int ffado_streaming_set_capture_stream_buffer(ffado_device_t *dev, int i, char *buff) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Capture);
// use an assert here performancewise,
// it should already have failed before, if not correct
assert(p);
p->setBufferAddress((void *)buff);
return 0;
}
int ffado_streaming_set_playback_stream_buffer(ffado_device_t *dev, int i, char *buff) {
Streaming::Port *p = dev->m_deviceManager->getStreamProcessorManager().getPortByIndex(i, Streaming::Port::E_Playback);
// use an assert here performancewise,
// it should already have failed before, if not correct
assert(p);
p->setBufferAddress((void *)buff);
return 0;
}