gstreamer/sys/audioflingersink/audioflinger_wrapper.cpp
2010-12-03 17:46:27 +01:00

470 lines
13 KiB
C++

/* GStreamer
* Copyright (C) <2009> Prajnashi S <prajnashi@gmail.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#define ENABLE_GST_PLAYER_LOG
#include <media/AudioTrack.h>
#include <utils/Log.h>
#include <AudioFlinger.h>
#include <MediaPlayerInterface.h>
#include <MediaPlayerService.h>
#include "audioflinger_wrapper.h"
#include <glib/glib.h>
//#include <GstLog.h>
#define LOG_NDEBUG 0
#undef LOG_TAG
#define LOG_TAG "audioflinger_wrapper"
using namespace android;
typedef struct _AudioFlingerDevice
{
AudioTrack* audio_track;
bool init;
sp<MediaPlayerBase::AudioSink> audio_sink;
bool audio_sink_specified;
} AudioFlingerDevice;
/* commonly used macro */
#define AUDIO_FLINGER_DEVICE(handle) ((AudioFlingerDevice*)handle)
#define AUDIO_FLINGER_DEVICE_TRACK(handle) \
(AUDIO_FLINGER_DEVICE(handle)->audio_track)
#define AUDIO_FLINGER_DEVICE_SINK(handle) \
(AUDIO_FLINGER_DEVICE(handle)->audio_sink)
AudioFlingerDeviceHandle audioflinger_device_create()
{
AudioFlingerDevice* audiodev = NULL;
AudioTrack *audiotr = NULL;
// create a new instance of AudioFlinger
audiodev = new AudioFlingerDevice;
if (audiodev == NULL) {
LOGE("Error to create AudioFlingerDevice\n");
return NULL;
}
// create AudioTrack
audiotr = new AudioTrack ();
if (audiotr == NULL) {
LOGE("Error to create AudioTrack\n");
return NULL;
}
audiodev->init = false;
audiodev->audio_track = (AudioTrack *) audiotr;
audiodev->audio_sink = 0;
audiodev->audio_sink_specified = false;
LOGD("Create AudioTrack successfully %p\n",audiodev);
return (AudioFlingerDeviceHandle)audiodev;
}
AudioFlingerDeviceHandle audioflinger_device_open(void* audio_sink)
{
AudioFlingerDevice* audiodev = NULL;
// audio_sink shall be an MediaPlayerBase::AudioSink instance
if(audio_sink == NULL)
return NULL;
// create a new instance of AudioFlinger
audiodev = new AudioFlingerDevice;
if (audiodev == NULL) {
LOGE("Error to create AudioFlingerDevice\n");
return NULL;
}
// set AudioSink
audiodev->audio_sink = (MediaPlayerBase::AudioSink*)audio_sink;
audiodev->audio_track = NULL;
audiodev->init = false;
audiodev->audio_sink_specified = true;
LOGD("Open AudioSink successfully : %p\n",audiodev);
return (AudioFlingerDeviceHandle)audiodev;
}
int audioflinger_device_set (AudioFlingerDeviceHandle handle,
int streamType, int channelCount, uint32_t sampleRate, int bufferCount)
{
status_t status = NO_ERROR;
#ifndef STECONF_ANDROID_VERSION_DONUT
uint32_t channels = 0;
#endif
int format = AudioSystem::PCM_16_BIT;
if (handle == NULL)
return -1;
if(AUDIO_FLINGER_DEVICE_TRACK(handle)) {
// bufferCount is not the number of internal buffer, but the internal
// buffer size
#ifdef STECONF_ANDROID_VERSION_DONUT
status = AUDIO_FLINGER_DEVICE_TRACK(handle)->set(streamType, sampleRate,
format, channelCount);
LOGD("SET : handle : %p : Set AudioTrack, status: %d, streamType: %d, sampleRate: %d, "
"channelCount: %d, bufferCount: %d\n",handle, status, streamType, sampleRate,
channelCount, bufferCount);
#else
switch (channelCount)
{
case 1:
channels = AudioSystem::CHANNEL_OUT_FRONT_LEFT;
break;
case 2:
channels = AudioSystem::CHANNEL_OUT_STEREO;
break;
case 0:
default:
channels = 0;
break;
}
status = AUDIO_FLINGER_DEVICE_TRACK(handle)->set(streamType, sampleRate,
format, channels/*, bufferCount*/);
LOGD("SET handle : %p : Set AudioTrack, status: %d, streamType: %d, sampleRate: %d, "
"channelCount: %d(%d), bufferCount: %d\n",handle, status, streamType, sampleRate,
channelCount, channels, bufferCount);
#endif
AUDIO_FLINGER_DEVICE_TRACK(handle)->setPositionUpdatePeriod(bufferCount);
}
else if(AUDIO_FLINGER_DEVICE_SINK(handle).get()) {
#ifdef STECONF_ANDROID_VERSION_DONUT
status = AUDIO_FLINGER_DEVICE_SINK(handle)->open(sampleRate, channelCount,
format/*, bufferCount*/); //SDA
LOGD("OPEN : handle : %p : Set AudioSink, status: %d, streamType: %d, sampleRate: %d,"
"channelCount: %d, bufferCount: %d\n", handle, status, streamType, sampleRate,
channelCount, bufferCount);
#else
channels = channelCount;
status = AUDIO_FLINGER_DEVICE_SINK(handle)->open(sampleRate, channels,
format/*, bufferCount*/);
LOGD("OPEN handle : %p : Set AudioSink, status: %d, streamType: %d, sampleRate: %d,"
"channelCount: %d(%d), bufferCount: %d\n", handle, status, streamType, sampleRate,
channelCount, channels, bufferCount);
#endif
AUDIO_FLINGER_DEVICE_TRACK(handle) = (AudioTrack *)(AUDIO_FLINGER_DEVICE_SINK(handle)->getTrack());
if(AUDIO_FLINGER_DEVICE_TRACK(handle)) {
AUDIO_FLINGER_DEVICE_TRACK(handle)->setPositionUpdatePeriod(bufferCount);
}
}
if (status != NO_ERROR)
return -1;
AUDIO_FLINGER_DEVICE(handle)->init = true;
return 0;
}
void audioflinger_device_release (AudioFlingerDeviceHandle handle)
{
if (handle == NULL)
return;
LOGD("Enter\n");
if(! AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified ) {
if (AUDIO_FLINGER_DEVICE_TRACK(handle) ) {
LOGD("handle : %p Release AudioTrack\n", handle);
delete AUDIO_FLINGER_DEVICE_TRACK(handle);
}
}
if (AUDIO_FLINGER_DEVICE_SINK(handle).get()) {
LOGD("handle : %p Release AudioSink\n", handle);
AUDIO_FLINGER_DEVICE_SINK(handle).clear();
AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified = false;
}
delete AUDIO_FLINGER_DEVICE(handle);
}
void audioflinger_device_start (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Start Device\n", handle);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
AUDIO_FLINGER_DEVICE_SINK(handle)->start();
}
else {
AUDIO_FLINGER_DEVICE_TRACK(handle)->start();
}
}
void audioflinger_device_stop (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Stop Device\n", handle);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
AUDIO_FLINGER_DEVICE_SINK(handle)->stop();
}
else {
AUDIO_FLINGER_DEVICE_TRACK(handle)->stop();
}
}
void audioflinger_device_flush (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Flush device\n", handle);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
AUDIO_FLINGER_DEVICE_SINK(handle)->flush();
}
else {
AUDIO_FLINGER_DEVICE_TRACK(handle)->flush();
}
}
void audioflinger_device_pause (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Pause Device\n", handle);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
AUDIO_FLINGER_DEVICE_SINK(handle)->pause();
}
else {
AUDIO_FLINGER_DEVICE_TRACK(handle)->pause();
}
}
void audioflinger_device_mute (AudioFlingerDeviceHandle handle, int mute)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Mute Device\n", handle);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
// do nothing here, because the volume/mute is set in media service layer
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
AUDIO_FLINGER_DEVICE_TRACK(handle)->mute((bool)mute);
}
}
int audioflinger_device_muted (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
// do nothing here, because the volume/mute is set in media service layer
return -1;
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int) AUDIO_FLINGER_DEVICE_TRACK(handle)->muted ();
}
return -1;
}
void audioflinger_device_set_volume (AudioFlingerDeviceHandle handle, float left,
float right)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return;
LOGD("handle : %p Set volume Device %f,%f\n", handle,left,right);
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
// do nothing here, because the volume/mute is set in media service layer
return ;
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
AUDIO_FLINGER_DEVICE_TRACK(handle)->setVolume (left, right);
}
}
ssize_t audioflinger_device_write (AudioFlingerDeviceHandle handle, const void *buffer,
size_t size)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
return AUDIO_FLINGER_DEVICE_SINK(handle)->write(buffer, size);
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return AUDIO_FLINGER_DEVICE_TRACK(handle)->write(buffer, size);
}
#ifndef STECONF_ANDROID_VERSION_DONUT
return -1;
#endif
}
int audioflinger_device_frameCount (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
return (int)AUDIO_FLINGER_DEVICE_SINK(handle)->frameCount();
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int)AUDIO_FLINGER_DEVICE_TRACK(handle)->frameCount();
}
return -1;
}
int audioflinger_device_frameSize (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
return (int)AUDIO_FLINGER_DEVICE_SINK(handle)->frameSize();
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int)AUDIO_FLINGER_DEVICE_TRACK(handle)->frameSize();
}
#ifndef STECONF_ANDROID_VERSION_DONUT
return -1;
#endif
}
int64_t audioflinger_device_latency (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
return (int64_t)AUDIO_FLINGER_DEVICE_SINK(handle)->latency();
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int64_t)AUDIO_FLINGER_DEVICE_TRACK(handle)->latency();
}
return -1;
}
int audioflinger_device_format (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
// do nothing here, MediaPlayerBase::AudioSink doesn't provide format()
// interface
return -1;
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int)AUDIO_FLINGER_DEVICE_TRACK(handle)->format();
}
return -1;
}
int audioflinger_device_channelCount (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return -1;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
return (int)AUDIO_FLINGER_DEVICE_SINK(handle)->channelCount();
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int)AUDIO_FLINGER_DEVICE_TRACK(handle)->channelCount();
}
return -1;
}
uint32_t audioflinger_device_sampleRate (AudioFlingerDeviceHandle handle)
{
if (handle == NULL || AUDIO_FLINGER_DEVICE(handle)->init == false)
return 0;
if(AUDIO_FLINGER_DEVICE(handle)->audio_sink_specified) {
// do nothing here, MediaPlayerBase::AudioSink doesn't provide sampleRate()
// interface
return -1;
}
else if (AUDIO_FLINGER_DEVICE_TRACK(handle)) {
return (int)AUDIO_FLINGER_DEVICE_TRACK(handle)->getSampleRate();
}
return(-1);
}
int audioflinger_device_obtain_buffer (AudioFlingerDeviceHandle handle,
void **buffer_handle, int8_t **data, size_t *samples, uint64_t offset)
{
AudioTrack *track = AUDIO_FLINGER_DEVICE_TRACK (handle);
status_t res;
AudioTrack::Buffer *audioBuffer;
if(track == 0) return(-1);
audioBuffer = new AudioTrack::Buffer();
audioBuffer->frameCount = *samples;
res = track->obtainBufferAtOffset (audioBuffer, offset, -1);
if (res < 0) {
delete audioBuffer;
return (int) res;
}
*samples = audioBuffer->frameCount;
*buffer_handle = static_cast<void *> (audioBuffer);
*data = audioBuffer->i8;
return res;
}
void audioflinger_device_release_buffer (AudioFlingerDeviceHandle handle,
void *buffer_handle)
{
AudioTrack *track = AUDIO_FLINGER_DEVICE_TRACK (handle);
AudioTrack::Buffer *audioBuffer = static_cast<AudioTrack::Buffer *>(buffer_handle);
if(track == 0) return;
track->releaseBuffer (audioBuffer);
delete audioBuffer;
}
uint32_t audioflinger_device_get_position (AudioFlingerDeviceHandle handle)
{
status_t status;
uint32_t ret = -1;
AudioTrack *track = AUDIO_FLINGER_DEVICE_TRACK (handle);
if(track == 0) return(-1);
status = track->getPosition (&ret);
return ret;
}