Exemplo n.º 1
0
int aica_audio_open(int freq, int channels, uint32_t size) {
  
  
	if (audio_mut == NULL) {
		audio_mut = mutex_create();
	}

	sample_rate = freq;
	chans = channels;

	tmpbuf = (uint8*) malloc(BUFFER_MAX_FILL);
	sndbuf = (uint8*) malloc(BUFFER_MAX_FILL);

	memset (tmpbuf, 0, BUFFER_MAX_FILL);
	memset (sndbuf, 0, BUFFER_MAX_FILL);

	sbsize = size;
	sndptr = last_read = snd_ct = 0;
	waiting_for_data = 1;

	shnd = snd_stream_alloc(aica_audio_callback, sbsize);
	
	if(shnd < 0) {
		ds_printf("DS_ERROR: Can't alloc stream\n");
		return -1;
	}
	
	snd_stream_prefill(shnd);
	snd_stream_start(shnd, freq, channels-1);
	return 0;
}
Exemplo n.º 2
0
/* Call this function as a thread to handle playback. Playback will 
   stop and this thread will return when you call sndmp3_shutdown(). */
static void sndmp3_thread() {
	int sj;

	stream_hnd = snd_stream_alloc(NULL, SND_STREAM_BUFFER_MAX);
	
	if(stream_hnd < 0) {
		printf("sndserver: can't alloc stream\r\n");
		return;
	}
	
	/* Main command loop */
	while(sndmp3_status != STATUS_QUIT) {
		switch(sndmp3_status) {
			case STATUS_INIT:
				sndmp3_status = STATUS_READY;
				break;
			case STATUS_READY:
				printf("sndserver: waiting on semaphore\r\n");
				sem_wait(sndmp3_halt_sem);
				printf("sndserver: released from semaphore\r\n");
				break;
			case STATUS_STARTING:
				/* Initialize streaming driver */
				if (snd_stream_reinit(stream_hnd, mpg123_callback) < 0) {
					sndmp3_status = STATUS_READY;
				} else {
					snd_stream_start(stream_hnd, rate, channels - 1);
					sndmp3_status = STATUS_PLAYING;
				}
				break;
			case STATUS_REINIT:
				/* Re-initialize streaming driver */
				snd_stream_reinit(stream_hnd, NULL);
				sndmp3_status = STATUS_READY;
				break;
			case STATUS_PLAYING: {
				sj = jiffies;
				if (snd_stream_poll(stream_hnd) < 0) {
					if (sndmp3_loop) {
						printf("sndserver: restarting '%s'\r\n", mp3_last_fn);
						if (libmpg123_init(mp3_last_fn) < 0) {
							sndmp3_status = STATUS_STOPPING;
							mp3_last_fn[0] = 0;
						}
					} else {
						printf("sndserver: not restarting\r\n");
						snd_stream_stop(stream_hnd);
						sndmp3_status = STATUS_READY;
						mp3_last_fn[0] = 0;
					}
					// stream_start();
				} else
					thd_sleep(50);
				break;
			}
			case STATUS_STOPPING:
				snd_stream_stop(stream_hnd);
				sndmp3_status = STATUS_READY;
				break;
		}
	}
	
	/* Done: clean up */
	libmpg123_shutdown();
	snd_stream_stop(stream_hnd);
	snd_stream_destroy(stream_hnd);

	sndmp3_status = STATUS_ZOMBIE;
}
Exemplo n.º 3
0
/* Call this function as a thread to handle playback. Playback will 
   stop and this thread will return when you call sndmp3_shutdown(). */
static void sndmp3_thread() {
	int sj;
	
	stream_hnd = snd_stream_alloc(NULL, SND_STREAM_BUFFER_MAX);
	//assert( stream_hnd != -1 );
	
	/* Main command loop */
	while(sndmp3_status != STATUS_QUIT) {
		switch(sndmp3_status) {
			case STATUS_INIT:
				sndmp3_status = STATUS_READY;
				break;
			case STATUS_READY:
				printf("sndserver: waiting on semaphore\r\n");
				sem_wait(sndmp3_halt_sem);
				printf("sndserver: released from semaphore\r\n");
				break;
			case STATUS_STARTING:
				/* Initialize streaming driver */
				if (snd_stream_reinit(stream_hnd, mpglib_callback) < 0) {
					sndmp3_status = STATUS_READY;
				} else {
					//snd_stream_start(stream_hnd, decinfo.samprate, decinfo.channels - 1);
					//snd_stream_start(stream_hnd, 44100, 1);
					snd_stream_start(stream_hnd, freqs[mp.fr.sampling_frequency], mp.fr.stereo);
					sndmp3_status = STATUS_PLAYING;
				}
				break;
			case STATUS_REINIT:
				/* Re-initialize streaming driver */
				snd_stream_reinit(stream_hnd, NULL);
				sndmp3_status = STATUS_READY;
				break;
			case STATUS_PLAYING: {
				sj = jiffies;
				if (snd_stream_poll(stream_hnd) < 0) {
					if (sndmp3_loop) {
						printf("sndserver: restarting '%s'\r\n", mp3_last_fn);
						if (mpglib_init(mp3_last_fn) < 0) {
							sndmp3_status = STATUS_STOPPING;
							mp3_last_fn[0] = 0;
						}
					} else {
						printf("sndserver: not restarting\r\n");
						snd_stream_stop(stream_hnd);
						sndmp3_status = STATUS_READY;
						mp3_last_fn[0] = 0;
					}
					// stream_start();
				} else
					thd_sleep(50);
				break;
			}
			case STATUS_STOPPING:
				snd_stream_stop(stream_hnd);
				sndmp3_status = STATUS_READY;
				break;
		}
	}
	
	/* Done: clean up */
	mpglib_shutdown();
	snd_stream_stop(stream_hnd);
	snd_stream_destroy(stream_hnd);

	sndmp3_status = STATUS_ZOMBIE;
}
Exemplo n.º 4
0
/* sndoggvorbis_thread()
 *
 * this function is called by sndoggvorbis_mainloop and handles all the threads
 * status handling and playing functionality.
 */
void sndoggvorbis_thread()
{
	int stat;

	stream_hnd = snd_stream_alloc(NULL, SND_STREAM_BUFFER_MAX);
	assert( stream_hnd != SND_STREAM_INVALID );

	while(sndoggvorbis_status != STATUS_QUIT)
	{
		switch(sndoggvorbis_status)
		{
			case STATUS_INIT:
				sndoggvorbis_status= STATUS_READY;
				break;

			case STATUS_READY:
				printf("oggthread: waiting on semaphore\n");
				sem_wait(sndoggvorbis_halt_sem);
				printf("oggthread: released from semaphore (status=%d)\n", sndoggvorbis_status);
				break;

			case STATUS_QUEUEING: {
				vorbis_info * vi = ov_info(&vf, -1);

				snd_stream_reinit(stream_hnd, callback);
				snd_stream_queue_enable(stream_hnd);
				printf("oggthread: stream_init called\n");
				snd_stream_start(stream_hnd, vi->rate, vi->channels - 1);
				snd_stream_volume(stream_hnd, sndoggvorbis_vol);
				printf("oggthread: stream_start called\n");
				if (sndoggvorbis_status != STATUS_STOPPING)
					sndoggvorbis_status = STATUS_QUEUED;
				break;
			}

			case STATUS_QUEUED:
				printf("oggthread: queue waiting on semaphore\n");
				sem_wait(sndoggvorbis_halt_sem);
				printf("oggthread: queue released from semaphore\n");
				break;

			case STATUS_STARTING: {
				vorbis_info * vi = ov_info(&vf, -1);

				if (sndoggvorbis_queue_enabled) {
					snd_stream_queue_go(stream_hnd);
				} else {
					snd_stream_reinit(stream_hnd, callback);
					printf("oggthread: stream_init called\n");
					snd_stream_start(stream_hnd, vi->rate, vi->channels - 1);
					printf("oggthread: stream_start called\n");
				}
				snd_stream_volume(stream_hnd, sndoggvorbis_vol);
				sndoggvorbis_status=STATUS_PLAYING;
				break;
			}

			case STATUS_PLAYING:
				/* Preliminary Bitrate Code
				 * For our tests the bitrate is being set in the struct once in a
				 * while so that the user can just read out this value from the struct
				 * and use it for whatever purpose
				 */
				/* if (tempcounter==sndoggvorbis_bitrateint)
				{
					long test;
					if((test=VorbisFile_getBitrateInstant()) != -1)
					{
						sndoggvorbis_info.actualbitrate=test;
					}
					tempcounter = 0;
				}
				tempcounter++; */

				/* Stream Polling and end-of-stream detection */
				if ( (stat = snd_stream_poll(stream_hnd)) < 0)
				{
					printf("oggthread: stream ended (status %d)\n", stat);
					printf("oggthread: not restarting\n");
					snd_stream_stop(stream_hnd);

					/* Reset our PCM buffer */
					pcm_count = 0;
					last_read = 0;
					pcm_ptr = pcm_buffer;

					/* This can also happen sometimes when you stop the stream
					   manually, so we'll call this here to make sure */
					ov_clear(&vf);
					sndoggvorbis_lastfilename[0] = 0;
					sndoggvorbis_status = STATUS_READY;
					sndoggvorbis_clear_comments();
				} else {
					/* Sleep some until the next buffer is needed */
					thd_sleep(50);
				}
				break;

			case STATUS_STOPPING:
				snd_stream_stop(stream_hnd);
				ov_clear(&vf);
				/* Reset our PCM buffer */
				pcm_count = 0;
				last_read = 0;
				pcm_ptr = pcm_buffer;

				sndoggvorbis_lastfilename[0] = 0;
				sndoggvorbis_status = STATUS_READY;
				sndoggvorbis_clear_comments();
				break;
		}
	}

	snd_stream_stop(stream_hnd);
	snd_stream_destroy(stream_hnd);
	sndoggvorbis_status=STATUS_ZOMBIE;

	printf("oggthread: thread released\n");
}