libcw/cwAudioDeviceFile.cpp

1196 lines
35 KiB
C++

#include "cwCommon.h"
#include "cwLog.h"
#include "cwCommonImpl.h"
#include "cwMem.h"
#include "cwText.h"
#include "cwFile.h"
#include "cwThread.h"
#include "cwMutex.h"
#include "cwObject.h"
#include "cwTime.h"
#include "cwAudioFile.h"
#include "cwAudioDeviceDecls.h"
#include "cwAudioDevice.h"
#include "cwAudioDeviceFile.h"
#include "cwVectOps.h"
namespace cw
{
namespace audio
{
namespace device
{
namespace file
{
enum {
kInFl = 0x01,
kOutFl = 0x02
};
typedef struct cache_block_str
{
sample_t* buf;
sample_t* ebuf;
unsigned frameN; // allocated frames
unsigned frameIdx; // next frame to fill
struct cache_block_str* link;
} cache_block_t;
typedef struct dev_str
{
char* label;
std::atomic_uint readyCnt;
unsigned framesPerCycle;
double srate;
cbFunc_t cbFunc;
void* cbArg;
unsigned cbDevIdx;
bool isStartedFl;
char* iFname;
audiofile::handle_t iFileH;
unsigned iFlags;
unsigned iChCnt;
bool iEnableFl;
audioPacket_t iPkt;
sample_t* iPktAudioBuf;
unsigned iCbCnt;
sample_t** iChArray; // iChArray[ iChCnt ]
sample_t* iChSmpBuf; //
unsigned iErrCnt; // count of errors
unsigned iFrmCnt; // count of frames read
sample_t* iCacheBuf; // iCacheFrameBuf[ iCacheFrameN * iChCnt ] (interleaved)
unsigned iCacheFrameN; // count of frames in iCacheBuf
unsigned iCacheIdx; // next frame to read (always at channel 0)
char* oFname;
audiofile::handle_t oFileH;
unsigned oFlags;
unsigned oChCnt;
bool oEnableFl;
unsigned oBitsPerSample;
audioPacket_t oPkt;
sample_t* oPktAudioBuf;
unsigned oCbCnt;
sample_t** oChArray; // oChArray[2]
sample_t* oChSmpBuf; //
unsigned oErrCnt; // count of errors
unsigned oFrmCnt; // count of frames written
cache_block_t* oCacheBeg; // Output cache output linked list
cache_block_t* oCacheEnd; // Last output cache output node.
unsigned oCacheBlockSec; // output cache block size in seconds
unsigned oCacheBlockFrameN; // output cache block size in frames
struct dev_str* link;
} dev_t;
typedef struct dev_mgr_str
{
driver_t driver;
dev_t* list;
unsigned threadTimeOutMs;
unsigned threadCbCnt;
thread::handle_t threadH;
mutex::handle_t mutexH;
} dev_mgr_t;
dev_mgr_t* _handleToPtr( handle_t h )
{ return handleToPtr<handle_t,dev_mgr_t>(h); }
dev_mgr_t* _driverToPtr( driver_t* drvr )
{ return (dev_mgr_t*)drvr->drvArg; }
bool _is_thread_active( dev_mgr_t* p )
{ return p->threadTimeOutMs > 0; }
dev_t* _labelToDev( dev_mgr_t* p, const char* label )
{
dev_t* d = p->list;
for(; d!=nullptr; d=d->link)
if( textCompare(d->label,label) == 0 )
return d;
return nullptr;
}
dev_t* _indexToDev( dev_mgr_t* p, unsigned devIdx )
{
unsigned i = 0;
dev_t* d = p->list;
for(; d!=nullptr; d=d->link)
{
if( i == devIdx )
return d;
++i;
}
return nullptr;
}
rc_t _indexToDev( dev_mgr_t* p, unsigned devIdx, dev_t*& devPtrRef )
{
rc_t rc = kOkRC;
if((devPtrRef = _indexToDev(p,devIdx)) == nullptr )
rc = cwLogError(kInvalidArgRC,"The audio file device index %i is invalid.",devIdx);
return rc;
}
dev_t* _findOrCreateDev( dev_mgr_t* p, const char* label )
{
dev_t* d;
if((d = _labelToDev(p,label)) != nullptr )
return d;
d = mem::allocZ<dev_t>();
d->label = mem::duplStr(label);
if(p->list == nullptr)
p->list = d;
else
{
// set d0 to the last dev on the list
dev_t* d0 = p->list;
while( d0->link != nullptr )
d0 = d0->link;
d0->link = d;
}
return d;
}
void _devReport( dev_t* d )
{
cwLogInfo("%s : FpC:%i sr:%f",cwStringNullGuard(d->label),d->framesPerCycle,d->srate);
if( d->iFileH.isValid() )
cwLogInfo(" in: flags:0x%x ch:%i sr:%f : %s", d->iFlags,channelCount(d->iFileH),sampleRate(d->iFileH),cwStringNullGuard(d->iFname));
if( d->oFileH.isValid() )
cwLogInfo(" out: flags:0x%x ch:%i sr:%f : %s", d->oFlags,d->oChCnt,d->srate,cwStringNullGuard(d->oFname));
}
void _close_input( dev_t* d )
{
if( d->iFileH.isValid() )
{
close(d->iFileH);
d->iCbCnt = 0;
mem::release(d->iFname);
mem::release(d->iPktAudioBuf);
mem::release(d->iChArray);
mem::release(d->iChSmpBuf);
mem::release(d->iCacheBuf);
}
}
rc_t _fill_input_packet_from_cache( dev_t* d )
{
rc_t rc = kOkRC;
unsigned n = d->framesPerCycle;
unsigned m = d->framesPerCycle;
// set n to the count of frames to copy from the cache into the pkt
if( d->iCacheIdx + n > d->iCacheFrameN )
n = d->iCacheFrameN - d->iCacheIdx;
if( n > 0 )
{
memcpy( d->iPktAudioBuf, d->iCacheBuf + (d->iCacheIdx * d->iChCnt), n * d->iChCnt * sizeof(sample_t));
d->iCacheIdx += n;
// set m to the count of frames to zero at the end of the pkt
m = d->framesPerCycle - n;
}
if( m > 0 )
{
memset( d->iPktAudioBuf + (n*d->iChCnt), 0, m * d->iChCnt * sizeof(sample_t));
d->iCacheIdx = d->iCacheFrameN;
}
return rc;
}
rc_t _fill_input_packet_from_file( dev_t* d )
{
rc_t rc = kOkRC;
unsigned actualFrameCnt = 0;
// read the file
if((rc = readFloat(d->iFileH, d->framesPerCycle, 0, d->iChCnt, d->iChArray, &actualFrameCnt)) != kOkRC )
{
rc = cwLogError(rc,"File read failed on audio device file: %s.",cwStringNullGuard(d->label));
d->iErrCnt += 1;
goto errLabel;
}
// interleave into the iPkt audio buffer
vop::interleave( d->iPktAudioBuf, d->iChSmpBuf, actualFrameCnt, d->iChCnt );
if( actualFrameCnt < d->framesPerCycle )
{
for(unsigned i=0; i<d->iChCnt; ++i)
vop::fill( d->iPktAudioBuf + (actualFrameCnt * d->iChCnt) + i, 0, d->framesPerCycle-actualFrameCnt, d->iChCnt );
}
// d->iPktAudioBuf[] now contains d->framesPerCycle*d->iChCnt samples
errLabel:
return rc;
}
rc_t _cache_input( dev_t* d, unsigned frameN )
{
rc_t rc = kOkRC;
unsigned n = 0;
d->iCacheFrameN = frameN;
d->iCacheBuf = mem::resize<sample_t>(d->iCacheBuf, d->iCacheFrameN * d->iChCnt);
d->iCacheIdx = 0;
while(n < d->iCacheFrameN )
{
if((rc = _fill_input_packet_from_file(d)) != kOkRC )
{
rc = cwLogError(rc,"Read failed while reading the input cache.");
d->iCacheFrameN = 0; // this will prevent the cache from being used
goto errLabel;
}
unsigned copyFrameN = d->framesPerCycle;
if( n + copyFrameN > d->iCacheFrameN )
copyFrameN = d->iCacheFrameN - n;
memcpy( d->iCacheBuf + n * d->iChCnt, d->iPktAudioBuf, copyFrameN * d->iChCnt * sizeof(sample_t));
n += copyFrameN;
}
if( n % d->iChCnt != 0 )
{
cwLogWarning("The cache buffer seems to have a size mismatch with the input audio file.");
}
errLabel:
return rc;
}
rc_t _open_input( dev_t* d, unsigned devIdx )
{
rc_t rc = kOkRC;
audiofile::handle_t iFileH;
audiofile::info_t info;
if( d->iFname == nullptr )
return rc;
// open the requested audio flie
if((rc = open( iFileH, d->iFname, &info )) != kOkRC )
{
rc = cwLogError(rc,"Audio file device open failed on '%s'.",cwStringNullGuard(d->iFname));
goto errLabel;
}
// if the device input file is already open - then close it
if( d->iFileH.isValid() )
{
cwLogWarning("The audio file device '%s' input file '%s' has been closed prior to opening '%s'.",name(d->iFileH),cwStringNullGuard(d->iFname));
_close_input(d);
}
if( info.srate != d->srate )
cwLogWarning("The audio file sample rate (%f) does not match device sample rate (%f).",info.srate,d->srate);
d->iFileH = iFileH;
d->iPktAudioBuf = mem::resize<sample_t>(d->iPktAudioBuf,d->framesPerCycle*info.chCnt);
d->iChArray = mem::resize<sample_t*>(d->iChArray,info.chCnt);
d->iChSmpBuf = mem::resize<sample_t>(d->iChSmpBuf, d->framesPerCycle*info.chCnt );
d->iChCnt = info.chCnt;
d->iEnableFl = true;
d->iErrCnt = 0;
d->iFrmCnt = 0;
d->iPkt.devIdx = d->cbDevIdx;
d->iPkt.begChIdx = 0;
d->iPkt.chCnt = info.chCnt;
d->iPkt.audioFramesCnt = d->framesPerCycle;
d->iPkt.bitsPerSample = 0;
d->iPkt.flags = kInterleavedApFl | kFloatApFl;
d->iPkt.audioBytesPtr = d->iPktAudioBuf;
d->iPkt.cbArg = d->cbArg;
for(unsigned i=0; i<d->iChCnt; ++i)
d->iChArray[i] = d->iChSmpBuf + i*d->framesPerCycle;
// if input caching was requested
if( cwIsFlag(d->iFlags,kCacheFl) )
if((rc = _cache_input(d,info.frameCnt)) != kOkRC )
cwLogError(rc,"Cache load failed on '%s'.",cwStringNullGuard(d->iFname));
errLabel:
return rc;
}
rc_t _read_input( dev_t* d )
{
rc_t rc = kOkRC;
if( !d->iEnableFl )
{
memset(d->iPkt.audioBytesPtr,0,d->iChCnt*d->framesPerCycle*sizeof(sample_t));
}
else
{
if( d->iCacheFrameN )
rc = _fill_input_packet_from_cache(d);
else
rc = _fill_input_packet_from_file(d);
if( rc == kOkRC )
d->iFrmCnt += d->framesPerCycle;
}
return rc;
}
rc_t _write_cache_to_file( dev_t* d )
{
rc_t rc = kOkRC;
for(cache_block_t* b = d->oCacheBeg; b!=nullptr; b=b->link)
if((rc = writeFloatInterleaved( d->oFileH, b->frameIdx, d->oChCnt, b->buf )) != kOkRC )
rc = cwLogError(rc,"Audio device file cache write failed on device '%s'.",d->label);
return rc;
}
void _close_output( dev_t* d )
{
if( d->oFileH.isValid() )
{
_write_cache_to_file(d);
close(d->oFileH);
d->oCbCnt = 0;
mem::release(d->oFname);
mem::release(d->oPktAudioBuf);
mem::release(d->oChArray);
mem::release(d->oChSmpBuf);
for(cache_block_t* b=d->oCacheBeg; b!=nullptr; )
{
cache_block_t* b0 = b->link;
mem::release(b);
b = b0;
}
}
}
rc_t _alloc_ocache_block( dev_t* d )
{
unsigned bufByteN = sizeof(cache_block_t) + d->oCacheBlockFrameN * d->oChCnt * sizeof(sample_t);
uint8_t* bytes = mem::allocZ<uint8_t>( bufByteN );
cache_block_t* block = (cache_block_t*)bytes;
block->buf = (sample_t*)(block + 1);
block->ebuf = (sample_t*)(bytes + bufByteN);
block->frameN = d->oCacheBlockFrameN;
block->frameIdx = 0;
block->link = nullptr;
if( d->oCacheEnd != nullptr )
d->oCacheEnd->link = block;
d->oCacheEnd = block;
if( d->oCacheBeg == nullptr )
d->oCacheBeg = block;
return kOkRC;
}
rc_t _open_output( dev_t* d, unsigned devIdx )
{
rc_t rc = kOkRC;
audiofile::handle_t oFileH;
unsigned floatBitsPerSample = 0; // set bits per sample to 0 to indicate a floating point file
if( d->oFname == nullptr )
return rc;
// open the requested audio output flie
if((rc = create( oFileH, d->oFname, d->srate, floatBitsPerSample, d->oChCnt )) != kOkRC )
{
rc = cwLogError(rc,"Audio file device open failed on '%s'.",cwStringNullGuard(d->oFname));
goto errLabel;
}
d->oFileH = oFileH;
d->oPktAudioBuf = mem::resize<sample_t>(d->oPktAudioBuf,d->framesPerCycle*d->oChCnt);
d->oChArray = mem::resize<sample_t*>(d->oChArray,d->oChCnt);
d->oChSmpBuf = mem::resize<sample_t>(d->oChSmpBuf, d->framesPerCycle*d->oChCnt );
d->oEnableFl = true;
d->oFrmCnt = 0;
d->oErrCnt = 0;
d->oPkt.devIdx = d->cbDevIdx;
d->oPkt.begChIdx = 0;
d->oPkt.chCnt = d->oChCnt;
d->oPkt.audioFramesCnt = d->framesPerCycle;
d->oPkt.bitsPerSample = 0; // 0==floating point sample format
d->oPkt.flags = kInterleavedApFl | kFloatApFl;
d->oPkt.audioBytesPtr = d->oPktAudioBuf;
d->oPkt.cbArg = d->cbArg;
d->oCacheBlockFrameN = 0;
if( cwIsFlag(d->oFlags,kCacheFl) )
{
// note each cache block has a whole multiple of framesPerCycle
d->oCacheBlockFrameN = ((unsigned)lround((d->oCacheBlockSec * d->srate) + d->framesPerCycle)/d->framesPerCycle) * d->framesPerCycle;
assert( d->oCacheBlockFrameN >= d->framesPerCycle && d->oCacheBlockFrameN % d->framesPerCycle == 0 );
_alloc_ocache_block(d);
}
for(unsigned i=0; i<d->oChCnt; ++i)
d->oChArray[i] = d->oChSmpBuf + i*d->framesPerCycle;
errLabel:
return rc;
}
rc_t _write_cache_output( dev_t* d )
{
rc_t rc = kOkRC;
//sample_t s;
assert( d->oCacheEnd != nullptr );
if( d->oCacheEnd->frameIdx + d->framesPerCycle > d->oCacheEnd->frameN )
if((rc = _alloc_ocache_block(d)) != kOkRC )
goto errLabel;
assert( d->oCacheEnd->frameIdx + d->framesPerCycle <= d->oCacheEnd->frameN );
memcpy(d->oCacheEnd->buf + d->oCacheEnd->frameIdx * d->oChCnt, d->oPktAudioBuf, d->framesPerCycle * d->oChCnt * sizeof(sample_t));
d->oCacheEnd->frameIdx += d->framesPerCycle;
//s = vop::sum(d->oPktAudioBuf,d->framesPerCycle * d->oChCnt);
//printf("w:%i %i %f\n",d->oCacheEnd->frameIdx,d->framesPerCycle * d->oChCnt,s);
errLabel:
return rc;
}
rc_t _write_file_output( dev_t* d )
{
rc_t rc;
if((rc = writeFloatInterleaved( d->oFileH, d->framesPerCycle, d->oChCnt, d->oPktAudioBuf )) != kOkRC )
{
rc = cwLogError(rc,"Audio device file write failed on device '%s'.",d->label);
d->oErrCnt += 1;
}
return rc;
}
rc_t _write_output( dev_t* d )
{
rc_t rc = kOkRC;
if( d->oFileH.isValid() && d->oEnableFl )
{
if( cwIsFlag(d->oFlags,kCacheFl) )
rc = _write_cache_output(d);
else
rc = _write_file_output(d);
if( rc != kOkRC )
d->oFrmCnt += d->framesPerCycle;
}
return rc;
}
rc_t _update_device( dev_t* d, bool inThreadFl )
{
rc_t rc0 = kOkRC;
rc_t rc1 = kOkRC;
audioPacket_t* iPkt = nullptr;
unsigned iPktN = 0;
audioPacket_t* oPkt = nullptr;
unsigned oPktN = 0;
if( d->iFileH.isValid() && inThreadFl == cwIsFlag(d->iFlags,kUseInternalClockFl) )
{
iPkt = &d->iPkt;
iPktN = 1;
d->iCbCnt += 1;
rc0 = _read_input( d );
}
if( d->oFileH.isValid() && inThreadFl == cwIsFlag(d->iFlags,kUseInternalClockFl) )
{
oPkt = &d->oPkt;
oPktN = 1;
d->oCbCnt += 1;
vop::zero( d->oPktAudioBuf, d->oChCnt * d->framesPerCycle );
}
d->cbFunc( d->cbArg, iPkt, iPktN, oPkt, oPktN );
if( d->oFileH.isValid() )
rc1 = _write_output( d );
return rcSelect(rc0,rc1);
}
bool _threadCbFunc( void* arg )
{
rc_t rc = kOkRC;
dev_mgr_t* p = (dev_mgr_t*)arg;
dev_t* d = nullptr;
// block on the cond. var - unlock the mutex
if((rc = mutex::waitOnCondVar(p->mutexH,false,p->threadTimeOutMs)) != kOkRC )
{
if( rc != kTimeOutRC )
{
cwLogError(rc,"Audio device file thread Wait-on-condition-var failed.");
return false;
}
}
p->threadCbCnt += 1;
// if the cond. var was signaled and p->mutexH is locked
if( rc == kOkRC )
{
// check for ready devices
for(d=p->list; d!=nullptr; d=d->link)
{
// if this device is ready
if( std::atomic_load_explicit(&d->readyCnt, std::memory_order_acquire) > 0 ) // ACQUIRE
{
// atomic incr - note that the ordering doesn't matter because the update does not control access to any other variables from another thread
std::atomic_store_explicit(&d->readyCnt, d->readyCnt-1, std::memory_order_relaxed); // decrement
if((rc = _update_device(d,true)) != kOkRC )
cwLogError(rc,"The update of audio device file %s failed.",cwStringNullGuard(d->label));
}
}
}
return true;
}
rc_t _destroy( dev_mgr_t* p )
{
rc_t rc = kOkRC;
// destroy the thread
if((rc = thread::destroy(p->threadH)) != kOkRC )
{
rc = cwLogError(rc,"Audio file device thread destroy failed.");
goto errLabel;
}
// destroy the mutex
if((rc = mutex::destroy( p->mutexH )) != kOkRC )
{
rc = cwLogError(rc,"Audio file device thread mutex destroy failed.");
goto errLabel;
}
// destroy each device
for(dev_t* d = p->list; d != nullptr; )
{
dev_t* d0 = d->link;
_close_input(d);
_close_output(d);
mem::release(d->label);
mem::release(d);
d = d0;
}
mem::release(p);
errLabel:
return rc;
}
}
}
}
}
cw::rc_t cw::audio::device::file::create( handle_t& hRef, struct driver_str*& drvRef )
{
rc_t rc;
if((rc = destroy(hRef)) != kOkRC )
return rc;
dev_mgr_t* p = mem::allocZ<dev_mgr_t>();
p->driver.drvArg = p;
p->driver.deviceCount = deviceCount;
p->driver.deviceLabel = deviceLabel;
p->driver.deviceChannelCount = deviceChannelCount;
p->driver.deviceSampleRate = deviceSampleRate;
p->driver.deviceFramesPerCycle = deviceFramesPerCycle;
p->driver.deviceSetup = deviceSetup;
p->driver.deviceStart = deviceStart;
p->driver.deviceStop = deviceStop;
p->driver.deviceIsStarted = deviceIsStarted;
p->driver.deviceExecute = deviceExecute;
p->driver.deviceEnable = deviceEnable;
p->driver.deviceSeek = deviceSeek;
p->driver.deviceRealTimeReport = deviceRealTimeReport;
if((rc = create( p->threadH, _threadCbFunc, p, "audio_dev_test" )) != kOkRC )
{
rc = cwLogError(rc,"Audio device file thread create failed.");
goto errLabel;
}
// create the audio group thread mutex/cond var
if((rc = mutex::create(p->mutexH)) != kOkRC )
{
rc = cwLogError(rc,"Audio device file mutex create failed.");
goto errLabel;
}
drvRef = &p->driver;
hRef.set(p);
errLabel:
if( rc != kOkRC )
{
_destroy(p);
rc = cwLogError(rc,"Audio device file create failed.");
}
return rc;
}
cw::rc_t cw::audio::device::file::destroy( handle_t& hRef )
{
rc_t rc = kOkRC;
if( !hRef.isValid() )
return rc;
dev_mgr_t* p = _handleToPtr(hRef);
if((rc = _destroy(p)) != kOkRC )
return rc;
hRef.clear();
return rc;
}
cw::rc_t cw::audio::device::file::start( handle_t h )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _handleToPtr(h);
// if there are any audio device files
if( p->list != nullptr )
{
if( _is_thread_active(p) )
if((rc = thread::unpause(p->threadH)) != kOkRC )
{
rc = cwLogError(rc,"Audio file device thread start failed.");
goto errLabel;
}
}
errLabel:
return rc;
}
cw::rc_t cw::audio::device::file::stop( handle_t h )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _handleToPtr(h);
if( _is_thread_active(p) )
if((rc = thread::pause(p->threadH)) != kOkRC )
{
rc = cwLogError(rc,"Audio file device thread stop failed.");
goto errLabel;
}
errLabel:
return rc;
}
unsigned cw::audio::device::file::deviceCount( struct driver_str* drv)
{
dev_mgr_t* p = _driverToPtr(drv);
dev_t* d = p->list;
unsigned n = 0;
for(; d!=nullptr; d=d->link)
++n;
return n;
}
const char* cw::audio::device::file::deviceLabel( struct driver_str* drv, unsigned devIdx )
{
rc_t rc= kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
return nullptr;
return d->label;
}
unsigned cw::audio::device::file::deviceChannelCount( struct driver_str* drv, unsigned devIdx, bool inputFl )
{
rc_t rc = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
return 0;
audiofile::handle_t fH = inputFl ? d->iFileH : d->oFileH;
return fH.isValid() ? channelCount( fH ) : 0;
}
double cw::audio::device::file::deviceSampleRate( struct driver_str* drv, unsigned devIdx )
{
rc_t rc= kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
return 0;
return d->srate;
}
unsigned cw::audio::device::file::deviceFramesPerCycle( struct driver_str* drv, unsigned devIdx, bool inputFl )
{
rc_t rc= kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
return 0;
return d->framesPerCycle;
}
cw::rc_t cw::audio::device::file::deviceSetup( struct driver_str* drv, unsigned devIdx, double srate, unsigned frmPerCycle, cbFunc_t cbFunc, void* cbArg, unsigned cbDevIdx )
{
rc_t rc0 = kOkRC;
rc_t rc1 = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc0 = _indexToDev( p, devIdx, d )) != kOkRC )
return rc0;
_close_input(d);
_close_output(d);
d->framesPerCycle = frmPerCycle;
d->srate = srate;
d->cbFunc = cbFunc;
d->cbArg = cbArg;
d->cbDevIdx = cbDevIdx;
if( cwIsFlag(d->iFlags,kUseInternalClockFl) || cwIsFlag(d->oFlags,kUseInternalClockFl) )
{
unsigned ms = (frmPerCycle * 1000) / srate;
if( p->threadTimeOutMs==0 || ms < p->threadTimeOutMs )
{
p->threadTimeOutMs = ms;
cwLogInfo("Audio device file time out %i ms.",p->threadTimeOutMs);
}
}
rc0 = _open_input(d, devIdx);
rc1 = _open_output(d, devIdx);
rc0 = rcSelect(rc0,rc1);
if(rc0 != kOkRC )
rc0 = cwLogError(rc0,"Audio device file '%s' setup failed.",cwStringNullGuard(d->label));
return rc0;
}
cw::rc_t cw::audio::device::file::deviceStart( struct driver_str* drv, unsigned devIdx )
{
rc_t rc0 = kOkRC;
rc_t rc1 = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc0 = _indexToDev( p, devIdx, d )) == kOkRC )
{
if( d->iFileH.isValid() && cwIsFlag(d->iFlags,kRewindOnStartFl) )
if((rc0 = seek(d->iFileH,0)) != kOkRC )
rc0 = cwLogError(rc0,"Rewind on start failed on the audio device file input file.");
if( d->oFileH.isValid() && cwIsFlag(d->oFlags,kRewindOnStartFl) )
if((rc1 = seek(d->oFileH,0)) != kOkRC )
rc1 = cwLogError(rc1,"Rewind on start failed on the audio device file output file.");
}
if((rc0 = rcSelect(rc0,rc1)) == kOkRC )
d->isStartedFl = true;
return rc0;
}
cw::rc_t cw::audio::device::file::deviceStop( struct driver_str* drv, unsigned devIdx )
{
rc_t rc = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) == kOkRC )
if( d->isStartedFl && d->oFileH.isValid() )
{
// TODO: implement audiofile::flush()
// if((rc = flush(d->ofileH)) != kOkRC )
// rc = cwLogError(rc,"Flush on stop failed on the audio device file output file.");
d->isStartedFl = false;
}
return rc;
}
bool cw::audio::device::file::deviceIsStarted( struct driver_str* drv, unsigned devIdx )
{
rc_t rc = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) == kOkRC )
return d->isStartedFl;
return false;
}
cw::rc_t cw::audio::device::file::deviceExecute( struct driver_str* drv, unsigned devIdx )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _driverToPtr(drv);
dev_t* d = nullptr;
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
{
goto errLabel;
}
std::atomic_store_explicit(&d->readyCnt, d->readyCnt+1, std::memory_order_relaxed); // atomic incr
if( cwIsFlag(d->iFlags,kUseInternalClockFl) )
{
mutex::signalCondVar(p->mutexH);
}
else
{
rc = _update_device(d,false);
}
errLabel:
return rc;
}
cw::rc_t cw::audio::device::file::deviceEnable( struct driver_str* drv, unsigned devIdx, bool inputFl, bool enableFl )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _driverToPtr(drv);
dev_t* d = nullptr;
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
goto errLabel;
if( inputFl )
d->iEnableFl = enableFl;
else
d->oEnableFl = enableFl;
errLabel:
return rc;
}
cw::rc_t cw::audio::device::file::deviceSeek( struct driver_str* drv, unsigned devIdx, bool inputFl, unsigned frameOffset )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _driverToPtr(drv);
dev_t* d = nullptr;
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
goto errLabel;
if( inputFl )
{
if( d->iFileH.isValid() )
{
if( d->iCacheFrameN )
{
d->iCacheIdx = std::min( frameOffset, d->iCacheFrameN );
}
else
{
if((rc = seek(d->iFileH,frameOffset)) != kOkRC )
rc = cwLogError(rc,"Seek failed on the audio device file input file.");
}
}
}
else
{
if( d->oFileH.isValid())
if((rc = seek(d->oFileH,frameOffset)) != kOkRC )
rc = cwLogError(rc,"Seek failed on the audio device file output file.");
}
errLabel:
return rc;
}
void cw::audio::device::file::deviceRealTimeReport( struct driver_str* drv, unsigned devIdx )
{
rc_t rc = kOkRC;
dev_t* d = nullptr;
dev_mgr_t* p = _driverToPtr(drv);
if((rc = _indexToDev( p, devIdx, d )) != kOkRC )
return;
cwLogInfo("file cb i:%i o:%i err i:%i o:%i frames: i:%i o:%i : th:%i : %s",d->iCbCnt,d->oCbCnt,d->iErrCnt,d->oErrCnt,d->iFrmCnt,d->oFrmCnt,p->threadCbCnt,cwStringNullGuard(d->label));
}
cw::rc_t cw::audio::device::file::createInDevice( handle_t& h, const char* label, const char* audioInFName, unsigned flags )
{
rc_t rc = kOkRC;
handle_t iFileH;
dev_t* d;
dev_mgr_t* p = _handleToPtr(h);
// create or find a device
if((d = _findOrCreateDev(p, label )) == nullptr )
{
rc = cwLogError(kOpFailRC,"Audio file device create failed.");
goto errLabel;
}
d->iFname = mem::duplStr(audioInFName);
d->iFlags = flags;
errLabel:
return rc;
}
cw::rc_t cw::audio::device::file::createOutDevice( handle_t& h, const char* label, const char* audioOutFName, unsigned flags, unsigned chCnt, unsigned bitsPerSample, unsigned cacheBlkSec )
{
rc_t rc = kOkRC;
dev_t* d;
dev_mgr_t* p = _handleToPtr(h);
// create or find a device
if((d = _findOrCreateDev(p, label )) == nullptr )
{
rc = cwLogError(kOpFailRC,"Audio file device create failed.");
goto errLabel;
}
d->oFname = mem::duplStr(audioOutFName);
d->oFlags = flags;
d->oChCnt = chCnt;
d->oBitsPerSample = bitsPerSample;
d->oCacheBlockSec = cacheBlkSec;
errLabel:
return rc;
}
cw::rc_t cw::audio::device::file::report(handle_t h )
{
rc_t rc = kOkRC;
dev_mgr_t* p = _handleToPtr(h);
dev_t* d = p->list;
for(; d!=nullptr; d=d->link)
_devReport(d);
return rc;
}
cw::rc_t cw::audio::device::file::report()
{
rc_t rc = kOkRC;
return rc;
}
namespace cw {
namespace audio {
namespace device {
namespace file {
typedef struct cb_object_str
{
uint8_t* buf;
unsigned byteCnt;
std::atomic<int> readyCnt;
} cb_object_t;
void driverCallback( void* cbArg, audioPacket_t* inPktArray, unsigned inPktCnt, audioPacket_t* outPktArray, unsigned outPktCnt )
{
cb_object_t* p = (cb_object_t*)cbArg;
if( inPktCnt )
{
audioPacket_t* pkt = inPktArray;
unsigned pktByteN = pkt->audioFramesCnt * pkt->chCnt * sizeof(sample_t);
unsigned byteN = std::min(p->byteCnt,pktByteN);
vop::copy(p->buf,(const uint8_t*)pkt->audioBytesPtr,byteN);
p->readyCnt++;
}
if( outPktCnt && p->readyCnt.load() > 0)
{
audioPacket_t* pkt = outPktArray;
unsigned pktByteN = pkt->audioFramesCnt * pkt->chCnt * sizeof(sample_t);
unsigned byteN = std::min(p->byteCnt,pktByteN);
vop::copy((uint8_t*)pkt->audioBytesPtr,p->buf,byteN);
p->readyCnt--;
}
}
}
}
}
}
cw::rc_t cw::audio::device::file::test( const object_t* cfg)
{
rc_t rc = kOkRC;
rc_t rc1 = kOkRC;
rc_t rc2 = kOkRC;
const char* ifname = nullptr;
const char* ofname = nullptr;
struct driver_str driver = {0};
struct driver_str* driver_ptr = &driver;
unsigned bitsPerSample = 0; // zero indicates floating point sample format for output audio file
unsigned sleepMicrosec = 0;
const char* devLabel = "dev_file";
unsigned devIdx = 0;
unsigned framesPerCycle = 0;
cb_object_t obj = { 0 };
void* cbArg = &obj;
audiofile::info_t info;
handle_t h;
// parse the test args
if((rc = cfg->getv("inAudioFname",ifname,
"outAudioFname",ofname,
"framesPerCycle",framesPerCycle)) != kOkRC || ifname==nullptr || ofname==nullptr )
{
rc = cwLogError(rc,"Parsing audiio device file test cfg. failed.");
goto errLabel;
}
// create the audioDeviceFile mgr
if((rc = create(h,driver_ptr)) != kOkRC )
{
rc = cwLogError(rc,"Error creating audio device file mgr.");
goto errLabel;
}
// get input file srate and channel count
if((rc = getInfo( ifname, &info )) != kOkRC )
{
rc = cwLogError(rc,"Error parsing input audio file '%s' header.",cwStringNullGuard(ifname));
goto errLabel;
}
// create an input audio file device
if((rc = createInDevice( h, devLabel, ifname, kRewindOnStartFl | kCacheFl)) != kOkRC )
{
rc = cwLogError(rc,"Error creating the audio device file input device from the file:%s.",cwStringNullGuard(ifname));
goto errLabel;
}
// create an output audio file device
if((rc = createOutDevice( h, devLabel, ofname, kRewindOnStartFl | kCacheFl, info.chCnt, bitsPerSample )) != kOkRC )
{
rc = cwLogError(rc,"Error creating the audio device file output device from the file:%s.",cwStringNullGuard(ofname));
goto errLabel;
}
// setup the audio device file device
if((rc = deviceSetup( driver_ptr, devIdx, info.srate, framesPerCycle, driverCallback, cbArg, devIdx )) != kOkRC )
{
rc = cwLogError(rc,"Error setting up the audio device file.");
goto errLabel;
}
sleepMicrosec = (framesPerCycle * 1e6) / info.srate;
report(h);
obj.byteCnt = framesPerCycle * info.chCnt * sizeof(sample_t);
obj.buf = mem::allocZ<uint8_t>( obj.byteCnt );
// start the audio device file
if((rc = start(h)) != kOkRC )
{
rc = cwLogError(rc,"Audio device file start failed.");
goto errLabel;
}
// run the audio device file
for(unsigned i=0; i<10; ++i)
{
deviceExecute( driver_ptr, devIdx );
deviceRealTimeReport( driver_ptr, devIdx );
sleepUs( sleepMicrosec );
}
errLabel:
mem::release(obj.buf);
// stop the audio device file mgr.
if((rc2 = stop(h)) != kOkRC )
rc2 = cwLogError(rc2,"Audio device file mgr. stop failed.");
// destroy the audio device file mgr
if((rc1 = destroy(h)) != kOkRC )
rc1 = cwLogError(rc1,"Audio device file mgr. destroy failed.");
return rcSelect(rc,rc1,rc2);
}