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Rivendellaudio/rdhpi/rdhpisoundcard.cpp
Fred Gleason f5c812ed1c 2014-11-24 Fred Gleason <fredg@paravelsystems.com> 
* Fixed a bug in 'rdhpi/rdsoundcard.cpp' that caused AES3-only output
	ports to fail to be detected under HPI.
2014-11-24 11:53:56 -05:00

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// rdhpisoundcard.cpp
//
// The audio card subsystem for the HPI Library.
//
// (C) Copyright 2002-2007 Fred Gleason <fredg@paravelsystems.com>
//
// $Id: rdhpisoundcard.cpp,v 1.10.6.3 2012/08/07 15:48:04 cvs Exp $
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation.
//
// 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 <syslog.h>
#include <qtimer.h>
#include <rdhpisoundcard.h>
#include <unistd.h>
RDHPISoundCard::RDHPISoundCard(QObject *parent,const char *name)
: QObject(parent,name)
{
card_quantity=0;
fade_type=RDHPISoundCard::Log;
for(int i=0;i<HPI_MAX_ADAPTERS;i++) {
card_index[i]=0;
card_input_streams[i]=0;
card_output_streams[i]=0;
card_input_ports[i]=0;
card_output_ports[i]=0;
input_mux_type[i]=false;
timescale_support[i]=false;
for(int j=0;j<HPI_MAX_NODES;j++) {
input_port_level[i][j]=false;
output_port_level[i][j]=false;
input_port_meter[i][j]=false;
output_port_meter[i][j]=false;
input_port_mux[i][j]=false;
input_port_mux_type[i][j][0]=false;
input_port_mux_type[i][j][1]=false;
input_mux_index[i][j][0]=0;
input_mux_index[i][j][1]=0;
input_port_aesebu[i][j]=false;
input_port_aesebu_error[i][j]=false;
for(int k=0;k<HPI_MAX_STREAMS;k++) {
input_stream_volume[i][k][j]=false;
output_stream_volume[i][k][j]=false;
}
for(int k=0;k<HPI_MAX_NODES;k++) {
passthrough_port_volume[i][j][k]=false;
}
}
for(int j=0;j<HPI_MAX_STREAMS;j++) {
input_stream_meter[i][j]=false;
output_stream_meter[i][j]=false;
input_port_mode[i][j]=false;
output_stream_mode[i][j]=false;
input_stream_vox[i][j]=false;
input_stream_mux[i][j]=false;
}
}
if(HPI_SubSysCreate()==NULL) {
return;
}
HPIProbe();
}
RDHPISoundCard::~RDHPISoundCard()
{
HPI_SubSysFree(NULL);
}
RDHPISoundCard::Driver RDHPISoundCard::driver() const
{
return RDHPISoundCard::Hpi;
}
RDHPIInformation *RDHPISoundCard::hpiInformation(int card)
{
return &(hpi_info[card]);
}
int RDHPISoundCard::getCardQuantity() const
{
return card_quantity;
}
int RDHPISoundCard::getCardInputStreams(int card) const
{
return card_input_streams[card];
}
int RDHPISoundCard::getCardOutputStreams(int card) const
{
return card_output_streams[card];
}
int RDHPISoundCard::getCardInputPorts(int card) const
{
return card_input_ports[card];
}
int RDHPISoundCard::getCardOutputPorts(int card) const
{
return card_output_ports[card];
}
const void *RDHPISoundCard::getCardInfo(int card) const
{
return &hpi_info[card];
}
QString RDHPISoundCard::getCardDescription(int card) const
{
return card_description[card];
}
QString RDHPISoundCard::getInputStreamDescription(int card,int stream) const
{
return input_stream_description[card][stream];
}
QString RDHPISoundCard::getOutputStreamDescription(int card,int stream) const
{
return output_stream_description[card][stream];
}
QString RDHPISoundCard::getInputPortDescription(int card,int port) const
{
return input_port_description[card][port];
}
QString RDHPISoundCard::getOutputPortDescription(int card,int port) const
{
return output_port_description[card][port];
}
bool RDHPISoundCard::setClockSource(int card,RDHPISoundCard::ClockSource src)
{
hpi_err_t hpi_err=0;
switch(src) {
case RDHPISoundCard::Internal:
hpi_err=HPI_SampleClock_SetSource(NULL,
clock_source_control[card],
HPI_SAMPLECLOCK_SOURCE_LOCAL);
break;
case RDHPISoundCard::AesEbu:
case RDHPISoundCard::SpDiff:
hpi_err=HPI_SampleClock_SetSource(NULL,
clock_source_control[card],
HPI_SAMPLECLOCK_SOURCE_AESEBU_SYNC);
break;
case RDHPISoundCard::WordClock:
hpi_err=HPI_SampleClock_SetSource(NULL,
clock_source_control[card],
HPI_SAMPLECLOCK_SOURCE_WORD);
break;
}
return hpi_err==0;
}
bool RDHPISoundCard::haveTimescaling(int card) const
{
return timescale_support[card];
}
bool RDHPISoundCard::haveInputVolume(int card,int stream,int port) const
{
return input_stream_volume[card][stream][port];
}
bool RDHPISoundCard::haveOutputVolume(int card,int stream,int port) const
{
return output_stream_volume[card][stream][port];
}
bool RDHPISoundCard::haveInputLevel(int card,int port) const
{
return input_port_level[card][port];
}
bool RDHPISoundCard::haveOutputLevel(int card,int port) const
{
return output_port_level[card][port];
}
bool RDHPISoundCard::haveInputStreamVOX(int card,int stream) const
{
return input_stream_vox[card][stream];
}
RDHPISoundCard::SourceNode RDHPISoundCard::getInputPortMux(int card,int port)
{
uint16_t type;
uint16_t index;
LogHpi(HPI_Multiplexer_GetSource(NULL,input_mux_control[card][port],
&type,&index));
return (RDHPISoundCard::SourceNode)type;
}
bool RDHPISoundCard::setInputPortMux(int card,int port,RDHPISoundCard::SourceNode node)
{
switch(node) {
case RDHPISoundCard::LineIn:
if(HPI_Multiplexer_SetSource(NULL,
input_mux_control[card][port],
node,0)!=0) {
return false;
}
break;
case RDHPISoundCard::AesEbuIn:
if(HPI_Multiplexer_SetSource(NULL,
input_mux_control[card][port],node,
input_mux_index[card][port][1])!=0) {
return false;
}
break;
default:
return false;
break;
}
return true;
}
unsigned short RDHPISoundCard::getInputPortError(int card,int port)
{
uint16_t error_word=0;
if(input_port_aesebu[card][port]) {
LogHpi(HPI_AESEBU_Receiver_GetErrorStatus(NULL,
input_port_aesebu_control[card][port],
&error_word));
}
return error_word;
}
RDHPISoundCard::FadeProfile RDHPISoundCard::getFadeProfile() const
{
return fade_type;
}
void RDHPISoundCard::setFadeProfile(RDHPISoundCard::FadeProfile profile)
{
fade_type=profile;
switch(fade_type) {
case RDHPISoundCard::Linear:
hpi_fade_type=HPI_VOLUME_AUTOFADE_LINEAR;
break;
case RDHPISoundCard::Log:
hpi_fade_type=HPI_VOLUME_AUTOFADE_LOG;
break;
}
}
bool RDHPISoundCard::haveInputStreamMeter(int card,int stream) const
{
return input_stream_meter[card][stream];
}
bool RDHPISoundCard::haveInputPortMeter(int card,int port) const
{
return input_stream_meter[card][port];
}
bool RDHPISoundCard::haveOutputStreamMeter(int card,int stream) const
{
return output_stream_meter[card][stream];
}
bool RDHPISoundCard::haveOutputPortMeter(int card,int port) const
{
return output_port_meter[card][port];
}
bool RDHPISoundCard::haveTuner(int card,int port) const
{
return false;
}
void RDHPISoundCard::setTunerBand(int card,int port,
RDHPISoundCard::TunerBand band)
{
}
int RDHPISoundCard::tunerFrequency(int card,int port)
{
return 0;
}
void RDHPISoundCard::setTunerFrequency(int card,int port,int freq)
{
}
bool RDHPISoundCard::tunerSubcarrier(int card,int port,
RDHPISoundCard::Subcarrier sub)
{
return false;
}
int RDHPISoundCard::tunerLowFrequency(int card,int port,
RDHPISoundCard::TunerBand band)
{
return 0;
}
int RDHPISoundCard::tunerHighFrequency(int card,int port,
RDHPISoundCard::TunerBand band)
{
return 0;
}
bool RDHPISoundCard::inputStreamMeter(int card,int stream,short *level)
{
if(card>=card_quantity) {
return false;
}
if(stream>=card_input_streams[card]) {
return false;
}
LogHpi(HPI_MeterGetPeak(NULL,
input_stream_meter_control[card][stream],level));
return true;
}
bool RDHPISoundCard::outputStreamMeter(int card,int stream,short *level)
{
if(card>=card_quantity) {
return false;
}
if(stream>=card_output_streams[card]) {
return false;
}
LogHpi(HPI_MeterGetPeak(NULL,
output_stream_meter_control[card][stream],level));
return true;
}
bool RDHPISoundCard::inputPortMeter(int card,int port,short *level)
{
if(card>=card_quantity) {
return false;
}
if(port>=card_input_ports[card]) {
return false;
}
LogHpi(HPI_MeterGetPeak(NULL,
input_port_meter_control[card][port],level));
return true;
}
bool RDHPISoundCard::outputPortMeter(int card,int port,short *level)
{
if(card>=card_quantity) {
return false;
}
if(port>=card_output_ports[card]) {
return false;
}
LogHpi(HPI_MeterGetPeak(NULL,output_port_meter_control[card][port],level));
return true;
}
bool RDHPISoundCard::haveInputMode(int card,int port) const
{
return input_port_mode[card][port];
}
bool RDHPISoundCard::haveOutputMode(int card,int stream) const
{
return output_stream_mode[card][stream];
}
bool RDHPISoundCard::haveInputPortMux(int card,int port) const
{
return input_port_mux[card][port];
}
bool RDHPISoundCard::queryInputPortMux(int card,int port,SourceNode node) const
{
switch(node) {
case RDHPISoundCard::LineIn:
return input_port_mux_type[card][port][0];
break;
case RDHPISoundCard::AesEbuIn:
return input_port_mux_type[card][port][1];
break;
default:
return false;
break;
}
}
bool RDHPISoundCard::haveInputStreamMux(int card,int stream) const
{
return input_stream_mux[card][stream];
}
int RDHPISoundCard::getInputVolume(int card,int stream,int port)
{
short gain[2];
LogHpi(HPI_VolumeGetGain(NULL,
input_stream_volume_control[card][stream][port],gain));
return gain[0];
}
int RDHPISoundCard::getOutputVolume(int card,int stream,int port)
{
short gain[2];
LogHpi(HPI_VolumeGetGain(NULL,
output_stream_volume_control[card][stream][port],gain));
return gain[0];
}
int RDHPISoundCard::getInputLevel(int card,int port)
{
short gain[2];
LogHpi(HPI_VolumeGetGain(NULL,input_port_level_control[card][port],gain));
return gain[0];
}
int RDHPISoundCard::getOutputLevel(int card,int port)
{
short gain[2];
LogHpi(HPI_VolumeGetGain(NULL,output_port_level_control[card][port],gain));
return gain[0];
}
void RDHPISoundCard::setInputVolume(int card,int stream,int level)
{
if(!haveInputVolume(card,stream,0)) {
return;
}
short gain[2];
gain[0]=level;
gain[1]=level;
LogHpi(HPI_VolumeSetGain(NULL,
input_stream_volume_control[card][stream][0],gain));
}
void RDHPISoundCard::setOutputVolume(int card,int stream,int port,int level)
{
if(!haveOutputVolume(card,stream,port)) {
return;
}
short gain[2];
gain[0]=level;
gain[1]=level;
LogHpi(HPI_VolumeSetGain(NULL,
output_stream_volume_control[card][stream][port],
gain));
}
void RDHPISoundCard::fadeOutputVolume(int card,int stream,int port,
int level,int length)
{
if(!haveOutputVolume(card,stream,port)) {
return;
}
short gain[2];
gain[0]=level;
gain[1]=level;
LogHpi(HPI_VolumeAutoFadeProfile(NULL,
output_stream_volume_control[card][stream][port],
gain,length,hpi_fade_type));
}
void RDHPISoundCard::setInputLevel(int card,int port,int level)
{
short gain[HPI_MAX_CHANNELS];
if(!haveInputLevel(card,port)) {
return;
}
for(unsigned i=0;i<HPI_MAX_CHANNELS;i++) {
gain[i]=level;
}
LogHpi(HPI_LevelSetGain(NULL,input_port_level_control[card][port],gain));
}
void RDHPISoundCard::setOutputLevel(int card,int port,int level)
{
short gain[HPI_MAX_CHANNELS];
if(!haveOutputLevel(card,port)) {
return;
}
for(unsigned i=0;i<HPI_MAX_CHANNELS;i++) {
gain[i]=level;
}
LogHpi(HPI_LevelSetGain(NULL,output_port_level_control[card][port],gain));
}
void RDHPISoundCard::setInputMode(int card,int port,
RDHPISoundCard::ChannelMode mode)
{
if(!haveInputMode(card,port)) {
return;
}
LogHpi(HPI_ChannelModeSet(NULL,input_port_mode_control[card][port],mode+1));
}
void RDHPISoundCard::setOutputMode(int card,int stream,
RDHPISoundCard::ChannelMode mode)
{
if(!haveOutputMode(card,stream)) {
return;
}
LogHpi(HPI_ChannelModeSet(NULL,output_stream_mode_control[card][stream],
mode+1));
}
void RDHPISoundCard::setInputStreamVOX(int card,int stream,short gain)
{
LogHpi(HPI_VoxSetThreshold(NULL,input_stream_vox_control[card][stream],gain));
}
bool RDHPISoundCard::havePassthroughVolume(int card,int in_port,int out_port)
{
return passthrough_port_volume[card][in_port][out_port];
}
bool RDHPISoundCard::setPassthroughVolume(int card,int in_port,int out_port,
int level)
{
if(!passthrough_port_volume[card][in_port][out_port]) {
return false;
}
short gain[2];
gain[0]=level;
gain[1]=level;
LogHpi(HPI_VolumeSetGain(NULL,
passthrough_port_volume_control[card][in_port][out_port],
gain));
return true;
}
void RDHPISoundCard::clock()
{
uint16_t error_word;
for(int i=0;i<card_quantity;i++) {
for(int j=0;j<HPI_MAX_NODES;j++) {
if(input_port_aesebu[i][j]) {
error_word=getInputPortError(i,j);
if(error_word!=input_port_aesebu_error[i][j]) {
input_port_aesebu_error[i][j]=error_word;
emit inputPortError(i,j);
}
}
}
}
}
void RDHPISoundCard::HPIProbe()
{
uint16_t hpi_adapter_list[HPI_MAX_ADAPTERS];
uint32_t dummy_serial;
uint32_t dummy_hpi;
uint16_t dummy_version;
uint16_t dummy_type;
uint16_t l;
uint16_t type;
uint16_t index;
QString str;
hpi_fade_type=HPI_VOLUME_AUTOFADE_LOG;
#if HPI_VER < 0x00030600
LogHpi(HPI_SubSysGetVersion(NULL,&dummy_hpi));
HPI_SubSysFindAdapters(NULL,(uint16_t *)&card_quantity,
hpi_adapter_list,HPI_MAX_ADAPTERS);
#else
LogHpi(HPI_SubSysGetVersionEx(NULL,&dummy_hpi));
LogHpi(HPI_SubSysGetNumAdapters(NULL,&card_quantity));
#endif // HPI_VER
for(int i=0;i<card_quantity;i++) {
#if HPI_VER < 0x00030600
card_index[i]=i;
#else
LogHpi(HPI_SubSysGetAdapter(NULL,i,card_index+i,hpi_adapter_list+i));
#endif // HPI_VER
if((hpi_adapter_list[i]&0xF000)==0x6000) {
timescale_support[i]=true;
}
else {
timescale_support[i]=false;
}
switch(hpi_adapter_list[i]) {
case 0x5111:
case 0x5211:
input_mux_type[i]=true;
break;
default:
input_mux_type[i]=false;
break;
}
card_input_ports[i]=0;
card_output_ports[i]=0;
card_description[i]=QString().sprintf("AudioScience %04X [%d]",
hpi_adapter_list[i],i+1);
LogHpi(HPI_AdapterOpen(NULL,card_index[i]));
LogHpi(HPI_AdapterGetInfo(NULL,card_index[i],
&card_output_streams[i],
&card_input_streams[i],
&dummy_version,(uint32_t *)&dummy_serial,
&dummy_type));
hpi_info[i].setSerialNumber(dummy_serial);
hpi_info[i].setHpiVersion(dummy_hpi);
hpi_info[i].setDspMajorVersion((dummy_version>>13)&7);
hpi_info[i].setDspMinorVersion((dummy_version>>7)&63);
hpi_info[i].setPcbVersion((char)(((dummy_version>>3)&7)+'A'));
hpi_info[i].setAssemblyVersion(dummy_version&7);
LogHpi(HPI_AdapterClose(NULL,card_index[i]));
str=QString(tr("Input Stream"));
for(int j=0;j<card_input_streams[i];j++) {
input_stream_description[i][j]=
QString().sprintf("%s - %s %d",(const char *)card_description[i],
(const char *)str,j+1);
}
str=QString(tr("Output Stream"));
for(int j=0;j<card_output_streams[i];j++) {
output_stream_description[i][j]=
QString().sprintf("%s - %s %d",(const char *)card_description[i],
(const char *)str,j+1);
}
}
//
// Mixer Initialization
//
for(int i=0;i<card_quantity;i++) {
LogHpi(HPI_MixerOpen(NULL,card_index[i],&hpi_mixer[i]));
//
// Get Input Ports
//
str=QString(tr("Input Port"));
for(int k=0;k<HPI_MAX_NODES;k++) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i],
0,0,
HPI_DESTNODE_ISTREAM,k,
HPI_CONTROL_MULTIPLEXER,
&input_stream_volume_control[i][0][k])==0) {
card_input_ports[i]++;
input_port_description[i][k]=
QString().sprintf("%s - %s %d",(const char *)card_description[i],
(const char *)str,
card_input_ports[i]);
}
//
// Get Input Mode Controls
//
if(HPI_MixerGetControl(NULL,hpi_mixer[i],0,0,
HPI_DESTNODE_ISTREAM,k,
HPI_CONTROL_CHANNEL_MODE,
&input_port_mode_control[i][k])==0) {
input_port_mode[i][k]=true;
}
}
//
// Get Output Ports
//
str=QString(tr("Output Port"));
for(int k=0;k<HPI_MAX_NODES;k++) {
if((HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_OSTREAM,0,
HPI_DESTNODE_LINEOUT,k,
HPI_CONTROL_VOLUME,
&output_stream_volume_control[i][0][k])==0)||
(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_OSTREAM,0,
HPI_DESTNODE_AESEBU_OUT,k,
HPI_CONTROL_VOLUME,
&output_stream_volume_control[i][0][k])==0)) {
output_stream_volume[i][0][k]=true;
card_output_ports[i]++;
output_port_description[i][k]=
QString().sprintf("%s - %s %d",(const char *)card_description[i],
(const char *)str,
card_output_ports[i]);
}
}
LogHpi(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_CLOCK_SOURCE,0,
0,0,
HPI_CONTROL_SAMPLECLOCK,
&clock_source_control[i]));
for(int j=0;j<card_input_streams[i];j++) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // VOX Controls
0,0,
HPI_DESTNODE_ISTREAM,j,
HPI_CONTROL_VOX,
&input_stream_vox_control[i][j])==0) {
input_stream_vox[i][j]=true;
}
else {
input_stream_vox[i][j]=false;
}
if(input_mux_type[i]) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // MUX Controls
0,0,
HPI_DESTNODE_ISTREAM,j,
HPI_CONTROL_MULTIPLEXER,
&input_mux_control[i][j])==0) {
input_stream_mux[i][j]=true;
l=0;
input_port_mux_type[i][j][0]=false;
input_port_mux_type[i][j][1]=false;
while(HPI_Multiplexer_QuerySource(NULL,
input_mux_control[i][j],
l++,&type,&index)==0) {
switch(type) {
case HPI_SOURCENODE_LINEIN:
input_port_mux_type[i][j][0]=true;
input_mux_index[i][j][0]=index;
break;
case HPI_SOURCENODE_AESEBU_IN:
input_port_mux_type[i][j][1]=true;
input_mux_index[i][j][1]=index;
break;
}
}
}
else {
input_stream_mux[i][j]=false;
}
}
}
for(int j=0;j<card_output_streams[i];j++) {
for(int k=0;k<HPI_MAX_NODES;k++) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_LINEIN,j,
HPI_DESTNODE_ISTREAM,k,
HPI_CONTROL_VOLUME,
&input_stream_volume_control[i][j][k])==0) {
input_stream_volume[i][j][k]=true;
}
else {
input_stream_volume[i][j][k]=false;
}
if((HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_OSTREAM,j,
HPI_DESTNODE_LINEOUT,k,
HPI_CONTROL_VOLUME,
&output_stream_volume_control[i][j][k])==0)||
(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_OSTREAM,j,
HPI_DESTNODE_AESEBU_OUT,k,
HPI_CONTROL_VOLUME,
&output_stream_volume_control[i][j][k])==0)) {
output_stream_volume[i][j][k]=true;
}
else {
output_stream_volume[i][j][k]=false;
}
}
if(HPI_MixerGetControl(NULL,hpi_mixer[i],
0,0,
HPI_DESTNODE_ISTREAM,j,
HPI_CONTROL_METER,
&input_stream_meter_control[i][j])==0) {
input_stream_meter[i][j]=true;
}
else {
input_stream_meter[i][j]=false;
}
if(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_OSTREAM,j,
0,0,
HPI_CONTROL_METER,
&output_stream_meter_control[i][j])==0) {
output_stream_meter[i][j]=true;
}
else {
output_stream_meter[i][j]=false;
}
}
for(int j=0;j<HPI_MAX_NODES;j++) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // Input Level Controls
HPI_SOURCENODE_LINEIN,j,
0,0,
HPI_CONTROL_LEVEL,
&input_port_level_control[i][j])==0) {
input_port_level[i][j]=true;
}
else {
input_port_level[i][j]=false;
}
if((HPI_MixerGetControl(NULL,hpi_mixer[i], // Output Level Controls
0,0,
HPI_DESTNODE_LINEOUT,j,
HPI_CONTROL_LEVEL,
&output_port_level_control[i][j])==0)||
(HPI_MixerGetControl(NULL,hpi_mixer[i],
0,0,
HPI_DESTNODE_AESEBU_OUT,j,
HPI_CONTROL_LEVEL,
&output_port_level_control[i][j])==0)) {
output_port_level[i][j]=true;
}
else {
output_port_level[i][j]=false;
}
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // Input Port Meter
HPI_SOURCENODE_LINEIN,j,
0,0,
HPI_CONTROL_METER,
&input_port_meter_control[i][j])==0) {
input_port_meter[i][j]=true;
}
else {
input_port_meter[i][j]=false;
}
if((HPI_MixerGetControl(NULL,hpi_mixer[i], // Output Port Meter
0,0,
HPI_DESTNODE_LINEOUT,j,
HPI_CONTROL_METER,
&output_port_meter_control[i][j])==0)||
(HPI_MixerGetControl(NULL,hpi_mixer[i],
0,0,
HPI_DESTNODE_AESEBU_OUT,j,
HPI_CONTROL_METER,
&output_port_meter_control[i][j])==0)) {
output_port_meter[i][j]=true;
}
else {
output_port_meter[i][j]=false;
}
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // Input Port AES/EBU
HPI_SOURCENODE_AESEBU_IN,j,
0,0,
HPI_CONTROL_AESEBU_RECEIVER,
&input_port_aesebu_control[i][j])==0) {
input_port_aesebu[i][j]=true;
}
else {
input_port_aesebu[i][j]=false;
}
if(!input_mux_type[i]) {
if(HPI_MixerGetControl(NULL,hpi_mixer[i], // Input Port Mux
HPI_SOURCENODE_LINEIN,j,
0,0,
HPI_CONTROL_MULTIPLEXER,
&input_mux_control[i][j])==0) {
input_port_mux[i][j]=true;
l=0;
input_port_mux_type[i][j][0]=false;
input_port_mux_type[i][j][1]=false;
while(HPI_Multiplexer_QuerySource(NULL,
input_mux_control[i][j],
l++,&type,&index)==0) {
switch(type) {
case HPI_SOURCENODE_LINEIN:
input_port_mux_type[i][j][0]=true;
input_mux_index[i][j][0]=index;
break;
case HPI_SOURCENODE_AESEBU_IN:
input_port_mux_type[i][j][1]=true;
input_mux_index[i][j][1]=index;
break;
}
}
}
else {
input_port_mux[i][j]=false;
}
}
}
//
// Get The Passthroughs
//
for(int j=0;j<HPI_MAX_NODES;j++) {
for(int k=0;k<HPI_MAX_NODES;k++) {
if((HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_LINEIN,j,
HPI_DESTNODE_LINEOUT,k,
HPI_CONTROL_VOLUME,
&passthrough_port_volume_control[i][j][k])==0)||
(HPI_MixerGetControl(NULL,hpi_mixer[i],
HPI_SOURCENODE_LINEIN,j,
HPI_DESTNODE_AESEBU_OUT,k,
HPI_CONTROL_VOLUME,
&passthrough_port_volume_control[i][j][k])==0)) {
passthrough_port_volume[i][j][k]=true;
}
else {
passthrough_port_volume[i][j][k]=false;
}
}
}
}
clock_timer=new QTimer(this,"clock_timer");
connect(clock_timer,SIGNAL(timeout()),this,SLOT(clock()));
clock_timer->start(METER_INTERVAL);
}
hpi_err_t RDHPISoundCard::LogHpi(hpi_err_t err)
{
char err_txt[200];
if(err!=0) {
HPI_GetErrorText(err,err_txt);
syslog(LOG_NOTICE,"HPI Error: %s",err_txt);
}
return err;
}
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