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#include <sys/poll.h>
#include <limits.h>
#include <math.h> /* abs() */
#include <alsa/asoundlib.h>
#include "pa_linux_alsa.h"
#define MIN(x,y) ( (x) < (y) ? (x) : (y) )
static int wait( PaAlsaStream *stream )
{
int need_capture;
int need_playback;
int capture_avail = INT_MAX;
int playback_avail = INT_MAX;
int common_avail;
if( stream->pcm_capture )
need_capture = 1;
else
need_capture = 0;
if( stream->pcm_playback )
need_playback = 1;
else
need_playback = 0;
while( need_capture || need_playback )
{
int playback_pfd_offset=0;
int total_fds = 0;
/* if the main thread has requested that we stop, do so now */
pthread_testcancel();
/*printf("still polling...\n");
if( need_capture )
printf("need capture.\n");
if( need_playback )
printf("need playback.\n"); */
/* get the fds, packing all applicable fds into a single array,
* so we can check them all with a single poll() call */
if( need_capture )
{
snd_pcm_poll_descriptors( stream->pcm_capture, stream->pfds,
stream->capture_nfds );
total_fds += stream->capture_nfds;
}
if( need_playback )
{
playback_pfd_offset = total_fds;
snd_pcm_poll_descriptors( stream->pcm_playback,
stream->pfds + playback_pfd_offset,
stream->playback_nfds );
total_fds += stream->playback_nfds;
}
/* now poll on the combination of playback and capture fds.
* TODO: handle interrupt and/or failure */
poll( stream->pfds, total_fds, 1000 );
/* check the return status of our pfds */
if( need_capture )
{
short revents;
snd_pcm_poll_descriptors_revents( stream->pcm_capture, stream->pfds,
stream->capture_nfds, &revents );
if( revents == POLLIN )
need_capture = 0;
}
if( need_playback )
{
short revents;
snd_pcm_poll_descriptors_revents( stream->pcm_playback,
stream->pfds + playback_pfd_offset,
stream->playback_nfds, &revents );
//if( revents & POLLOUT )
//if( revents & POLLERR )
// printf("polling error!");
if( revents == POLLOUT )
need_playback = 0;
}
}
/* we have now established that there are buffers ready to be
* operated on. Now determine how many frames are available. */
if( stream->pcm_capture )
capture_avail = snd_pcm_avail_update( stream->pcm_capture );
if( stream->pcm_playback )
playback_avail = snd_pcm_avail_update( stream->pcm_playback );
common_avail = MIN(capture_avail, playback_avail);
common_avail -= common_avail % stream->frames_per_period;
return common_avail;
}
static int setup_buffers( PaAlsaStream *stream, int frames_avail )
{
int i;
int capture_frames_avail = INT_MAX;
int playback_frames_avail = INT_MAX;
int common_frames_avail;
if( stream->pcm_capture )
{
const snd_pcm_channel_area_t *capture_areas;
const snd_pcm_channel_area_t *area;
snd_pcm_uframes_t frames = frames_avail;
/* I do not understand this code fragment yet, it is copied out of the
* alsa-devel archives... */
snd_pcm_mmap_begin( stream->pcm_capture, &capture_areas,
&stream->capture_offset, &frames);
if( stream->capture_interleaved )
{
void *interleaved_capture_buffer;
area = &capture_areas[0];
interleaved_capture_buffer = area->addr +
(area->first + area->step * stream->capture_offset) / 8;
PaUtil_SetInterleavedInputChannels( &stream->bufferProcessor,
0, /* starting at channel 0 */
interleaved_capture_buffer,
0 /* default numInputChannels */
);
}
else
{
/* noninterleaved */
void *noninterleaved_capture_buffers[1000];
for( i = 0; i < stream->capture_channels; i++ )
{
area = &capture_areas[i];
noninterleaved_capture_buffers[i] = area->addr +
(area->first + area->step * stream->capture_offset) / 8;
PaUtil_SetNonInterleavedInputChannel( &stream->bufferProcessor,
i,
noninterleaved_capture_buffers[i]);
}
}
capture_frames_avail = frames;
}
if( stream->pcm_playback )
{
const snd_pcm_channel_area_t *playback_areas;
const snd_pcm_channel_area_t *area;
snd_pcm_uframes_t frames = frames_avail;
/* I do not understand this code fragment yet, it is copied out of the
* alsa-devel archives... */
snd_pcm_mmap_begin( stream->pcm_playback, &playback_areas,
&stream->playback_offset, &frames);
if( stream->playback_interleaved )
{
void *interleaved_playback_buffer;
area = &playback_areas[0];
interleaved_playback_buffer = area->addr +
(area->first + area->step * stream->playback_offset) / 8;
PaUtil_SetInterleavedOutputChannels( &stream->bufferProcessor,
0, /* starting at channel 0 */
interleaved_playback_buffer,
0 /* default numInputChannels */
);
}
else
{
/* noninterleaved */
void *noninterleaved_playback_buffers[1000];
for( i = 0; i < stream->playback_channels; i++ )
{
area = &playback_areas[i];
noninterleaved_playback_buffers[i] = area->addr +
(area->first + area->step * stream->playback_offset) / 8;
PaUtil_SetNonInterleavedOutputChannel( &stream->bufferProcessor,
i,
noninterleaved_playback_buffers[i]);
}
}
playback_frames_avail = frames;
}
common_frames_avail = MIN(capture_frames_avail, playback_frames_avail);
common_frames_avail -= common_frames_avail % stream->frames_per_period;
//printf( "%d capture frames available\n", capture_frames_avail );
//printf( "%d frames playback available\n", playback_frames_avail );
//printf( "%d frames available\n", common_frames_avail );
if( stream->pcm_capture )
PaUtil_SetInputFrameCount( &stream->bufferProcessor, common_frames_avail );
if( stream->pcm_playback )
PaUtil_SetOutputFrameCount( &stream->bufferProcessor, common_frames_avail );
return common_frames_avail;
}
void *CallbackThread( void *userData )
{
PaAlsaStream *stream = (PaAlsaStream*)userData;
if( stream->pcm_capture )
snd_pcm_start( stream->pcm_capture );
if( stream->pcm_playback )
snd_pcm_start( stream->pcm_playback );
while(1)
{
int frames_avail;
int frames_got;
PaStreamCallbackTimeInfo timeInfo = {0,0,0}; /* IMPLEMENT ME */
int callbackResult;
int framesProcessed;
pthread_testcancel();
{
/* calculate time info */
snd_timestamp_t capture_timestamp;
snd_timestamp_t playback_timestamp;
snd_pcm_status_t *capture_status;
snd_pcm_status_t *playback_status;
snd_pcm_status_alloca( &capture_status );
snd_pcm_status_alloca( &playback_status );
if( stream->pcm_capture )
{
snd_pcm_status( stream->pcm_capture, capture_status );
snd_pcm_status_get_tstamp( capture_status, &capture_timestamp );
}
if( stream->pcm_playback )
{
snd_pcm_status( stream->pcm_playback, playback_status );
snd_pcm_status_get_tstamp( playback_status, &playback_timestamp );
}
/* Hmm, we potentially have both a playback and a capture timestamp.
* Hopefully they are the same... */
if( stream->pcm_capture && stream->pcm_playback )
{
float capture_time = capture_timestamp.tv_sec +
((float)capture_timestamp.tv_usec/1000000);
float playback_time= playback_timestamp.tv_sec +
((float)playback_timestamp.tv_usec/1000000);
if( fabsf(capture_time-playback_time) > 0.01 )
printf("Capture time and playback time differ by %f\n", fabsf(capture_time-playback_time));
timeInfo.currentTime = capture_time;
}
else if( stream->pcm_playback )
{
timeInfo.currentTime = playback_timestamp.tv_sec +
((float)playback_timestamp.tv_usec/1000000);
}
else
{
timeInfo.currentTime = capture_timestamp.tv_sec +
((float)capture_timestamp.tv_usec/1000000);
}
if( stream->pcm_capture )
{
snd_pcm_sframes_t capture_delay = snd_pcm_status_get_delay( capture_status );
timeInfo.inputBufferAdcTime = timeInfo.currentTime -
(float)capture_delay / stream->streamRepresentation.streamInfo.sampleRate;
}
if( stream->pcm_playback )
{
snd_pcm_sframes_t playback_delay = snd_pcm_status_get_delay( playback_status );
timeInfo.outputBufferDacTime = timeInfo.currentTime +
(float)playback_delay / stream->streamRepresentation.streamInfo.sampleRate;
}
}
/*
IMPLEMENT ME:
- handle buffer slips
*/
/*
depending on whether the host buffers are interleaved, non-interleaved
or a mixture, you will want to call PaUtil_ProcessInterleavedBuffers(),
PaUtil_ProcessNonInterleavedBuffers() or PaUtil_ProcessBuffers() here.
*/
frames_avail = wait( stream );
//printf( "%d frames available\n", frames_avail );
/* Now we know the soundcard is ready to produce/receive at least
* one period. We just need to get the buffers for the client
* to read/write. */
PaUtil_BeginBufferProcessing( &stream->bufferProcessor, &timeInfo );
frames_got = setup_buffers( stream, frames_avail );
if( frames_avail == frames_got )
;//printf("good, they were both %d\n", frames_avail );
else
printf("damn, they were different: avail: %d, got: %d\n", frames_avail, frames_got );
/* this calls the callback */
PaUtil_BeginCpuLoadMeasurement( &stream->cpuLoadMeasurer );
framesProcessed = PaUtil_EndBufferProcessing( &stream->bufferProcessor,
&callbackResult );
PaUtil_EndCpuLoadMeasurement( &stream->cpuLoadMeasurer, framesProcessed );
/* inform ALSA how many frames we wrote */
if( stream->pcm_capture )
snd_pcm_mmap_commit( stream->pcm_capture, stream->capture_offset, frames_avail );
if( stream->pcm_playback )
snd_pcm_mmap_commit( stream->pcm_playback, stream->playback_offset, frames_avail );
/*
If you need to byte swap outputBuffer, you can do it here using
routines in pa_byteswappers.h
*/
if( callbackResult == paContinue )
{
/* nothing special to do */
}
else if( callbackResult == paAbort )
{
stream->callback_finished = 1;
if( stream->pcm_capture )
{
snd_pcm_drop( stream->pcm_capture );
}
if( stream->pcm_playback )
{
snd_pcm_drop( stream->pcm_playback );
}
pthread_exit(NULL);
}
else
{
stream->callback_finished = 1;
if( stream->pcm_capture )
{
snd_pcm_drain( stream->pcm_capture );
}
if( stream->pcm_playback )
{
snd_pcm_drain( stream->pcm_playback );
}
pthread_exit(NULL);
}
}
}
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