moonlight-qt/app/streaming/audio/audio.cpp

140 lines
4.7 KiB
C++

#include "../session.h"
#include "renderers/renderer.h"
#ifdef HAVE_PORTAUDIO
#include "renderers/portaudiorenderer.h"
#else
#include "renderers/sdl.h"
#endif
#include <Limelight.h>
IAudioRenderer* Session::createAudioRenderer()
{
#ifdef HAVE_PORTAUDIO
return new PortAudioRenderer();
#else
return new SdlAudioRenderer();
#endif
}
bool Session::testAudio(int audioConfiguration)
{
IAudioRenderer* audioRenderer;
audioRenderer = createAudioRenderer();
if (audioRenderer == nullptr) {
return false;
}
// Build a fake OPUS_MULTISTREAM_CONFIGURATION to give
// the renderer the channel count and sample rate.
OPUS_MULTISTREAM_CONFIGURATION opusConfig = {};
opusConfig.sampleRate = 48000;
switch (audioConfiguration)
{
case AUDIO_CONFIGURATION_STEREO:
opusConfig.channelCount = 2;
break;
case AUDIO_CONFIGURATION_51_SURROUND:
opusConfig.channelCount = 6;
break;
default:
SDL_assert(false);
return false;
}
bool ret = audioRenderer->prepareForPlayback(&opusConfig);
delete audioRenderer;
return ret;
}
int Session::arInit(int /* audioConfiguration */,
const POPUS_MULTISTREAM_CONFIGURATION opusConfig,
void* /* arContext */, int /* arFlags */)
{
int error;
SDL_memcpy(&s_ActiveSession->m_AudioConfig, opusConfig, sizeof(*opusConfig));
s_ActiveSession->m_OpusDecoder =
opus_multistream_decoder_create(opusConfig->sampleRate,
opusConfig->channelCount,
opusConfig->streams,
opusConfig->coupledStreams,
opusConfig->mapping,
&error);
if (s_ActiveSession->m_OpusDecoder == NULL) {
SDL_LogError(SDL_LOG_CATEGORY_APPLICATION,
"Failed to create decoder: %d",
error);
return -1;
}
s_ActiveSession->m_AudioRenderer = s_ActiveSession->createAudioRenderer();
if (!s_ActiveSession->m_AudioRenderer->prepareForPlayback(opusConfig)) {
delete s_ActiveSession->m_AudioRenderer;
opus_multistream_decoder_destroy(s_ActiveSession->m_OpusDecoder);
return -2;
}
SDL_LogInfo(SDL_LOG_CATEGORY_APPLICATION,
"Audio stream has %d channels",
opusConfig->channelCount);
return 0;
}
void Session::arCleanup()
{
delete s_ActiveSession->m_AudioRenderer;
s_ActiveSession->m_AudioRenderer = nullptr;
opus_multistream_decoder_destroy(s_ActiveSession->m_OpusDecoder);
s_ActiveSession->m_OpusDecoder = nullptr;
}
void Session::arDecodeAndPlaySample(char* sampleData, int sampleLength)
{
int samplesDecoded;
s_ActiveSession->m_AudioSampleCount++;
if (s_ActiveSession->m_AudioRenderer != nullptr) {
samplesDecoded = opus_multistream_decode(s_ActiveSession->m_OpusDecoder,
(unsigned char*)sampleData,
sampleLength,
s_ActiveSession->m_OpusDecodeBuffer,
SAMPLES_PER_FRAME,
0);
if (samplesDecoded > 0) {
if (!s_ActiveSession->m_AudioRenderer->submitAudio(s_ActiveSession->m_OpusDecodeBuffer,
static_cast<int>(
sizeof(short) *
samplesDecoded *
s_ActiveSession->m_AudioConfig.channelCount))) {
SDL_LogWarn(SDL_LOG_CATEGORY_APPLICATION,
"Reinitializing audio renderer after failure");
delete s_ActiveSession->m_AudioRenderer;
s_ActiveSession->m_AudioRenderer = nullptr;
}
}
}
// Only try to recreate the audio renderer every 200 samples (1 second)
// to avoid thrashing if the audio device is unavailable. It is
// safe to reinitialize here because we can't be torn down while
// the audio decoder/playback thread is still alive.
if (s_ActiveSession->m_AudioRenderer == nullptr && (s_ActiveSession->m_AudioSampleCount % 200) == 0) {
s_ActiveSession->m_AudioRenderer = s_ActiveSession->createAudioRenderer();
if (!s_ActiveSession->m_AudioRenderer->prepareForPlayback(&s_ActiveSession->m_AudioConfig)) {
delete s_ActiveSession->m_AudioRenderer;
s_ActiveSession->m_AudioRenderer = nullptr;
}
}
}