210 lines
5.1 KiB
C++
210 lines
5.1 KiB
C++
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//
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// libtgvoip is free and unencumbered public domain software.
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// For more information, see http://unlicense.org or the UNLICENSE file
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// you should have received with this source code distribution.
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//
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#include "logging.h"
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#include "MediaStreamItf.h"
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#include "EchoCanceller.h"
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#include <stdint.h>
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#include <algorithm>
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#include <math.h>
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#include <assert.h>
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using namespace tgvoip;
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void MediaStreamItf::SetCallback(size_t (*f)(unsigned char *, size_t, void*), void* param){
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callback=f;
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callbackParam=param;
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}
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size_t MediaStreamItf::InvokeCallback(unsigned char *data, size_t length){
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if(callback)
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return (*callback)(data, length, callbackParam);
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return 0;
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}
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AudioMixer::AudioMixer() : bufferPool(960*2, 16), processedQueue(16), semaphore(16, 0){
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running=false;
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}
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AudioMixer::~AudioMixer(){
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}
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void AudioMixer::SetOutput(MediaStreamItf* output){
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output->SetCallback(OutputCallback, this);
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}
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void AudioMixer::Start(){
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assert(!running);
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running=true;
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thread=new Thread(std::bind(&AudioMixer::RunThread, this));
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thread->SetName("AudioMixer");
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thread->Start();
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}
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void AudioMixer::Stop(){
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if(!running){
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LOGE("Tried to stop AudioMixer that wasn't started");
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return;
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}
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running=false;
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semaphore.Release();
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thread->Join();
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delete thread;
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thread=NULL;
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}
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void AudioMixer::DoCallback(unsigned char *data, size_t length){
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//memset(data, 0, 960*2);
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//LOGD("audio mixer callback, %d inputs", inputs.size());
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if(processedQueue.Size()==0)
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semaphore.Release(2);
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else
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semaphore.Release();
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unsigned char* buf=processedQueue.GetBlocking();
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memcpy(data, buf, 960*2);
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bufferPool.Reuse(buf);
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}
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size_t AudioMixer::OutputCallback(unsigned char *data, size_t length, void *arg){
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((AudioMixer*)arg)->DoCallback(data, length);
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return 960*2;
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}
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void AudioMixer::AddInput(std::shared_ptr<MediaStreamItf> input){
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MutexGuard m(inputsMutex);
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MixerInput in;
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in.multiplier=1;
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in.source=input;
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inputs.push_back(in);
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}
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void AudioMixer::RemoveInput(std::shared_ptr<MediaStreamItf> input){
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MutexGuard m(inputsMutex);
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for(std::vector<MixerInput>::iterator i=inputs.begin();i!=inputs.end();++i){
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if(i->source==input){
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inputs.erase(i);
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return;
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}
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}
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}
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void AudioMixer::SetInputVolume(std::shared_ptr<MediaStreamItf> input, float volumeDB){
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MutexGuard m(inputsMutex);
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for(std::vector<MixerInput>::iterator i=inputs.begin();i!=inputs.end();++i){
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if(i->source==input){
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if(volumeDB==-INFINITY)
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i->multiplier=0;
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else
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i->multiplier=expf(volumeDB/20.0f * logf(10.0f));
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return;
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}
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}
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}
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void AudioMixer::RunThread(){
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LOGV("AudioMixer thread started");
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while(running){
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semaphore.Acquire();
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if(!running)
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break;
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unsigned char* data=bufferPool.Get();
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//LOGV("Audio mixer processing a frame");
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if(!data){
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LOGE("AudioMixer: no buffers left");
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continue;
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}
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MutexGuard m(inputsMutex);
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int16_t* buf=reinterpret_cast<int16_t*>(data);
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int16_t input[960];
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float out[960];
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memset(out, 0, 960*4);
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int usedInputs=0;
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for(std::vector<MixerInput>::iterator in=inputs.begin();in!=inputs.end();++in){
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size_t res=in->source->InvokeCallback(reinterpret_cast<unsigned char*>(input), 960*2);
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if(!res || in->multiplier==0){
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//LOGV("AudioMixer: skipping silent packet");
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continue;
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}
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usedInputs++;
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float k=in->multiplier;
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if(k!=1){
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for(size_t i=0; i<960; i++){
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out[i]+=(float)input[i]*k;
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}
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}else{
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for(size_t i=0;i<960;i++){
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out[i]+=(float)input[i];
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}
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}
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}
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if(usedInputs>0){
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for(size_t i=0; i<960; i++){
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if(out[i]>32767.0f)
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buf[i]=INT16_MAX;
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else if(out[i]<-32768.0f)
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buf[i]=INT16_MIN;
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else
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buf[i]=(int16_t)out[i];
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}
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}else{
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memset(data, 0, 960*2);
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}
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if(echoCanceller)
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echoCanceller->SpeakerOutCallback(data, 960*2);
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processedQueue.Put(data);
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}
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LOGI("======== audio mixer thread exiting =========");
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}
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void AudioMixer::SetEchoCanceller(EchoCanceller *aec){
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echoCanceller=aec;
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}
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AudioLevelMeter::AudioLevelMeter(){
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absMax=0;
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count=0;
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currentLevel=0;
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currentLevelFullRange=0;
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}
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float AudioLevelMeter::GetLevel(){
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return currentLevel/9.0f;
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}
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void AudioLevelMeter::Update(int16_t *samples, size_t count){
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// Number of bars on the indicator.
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// Note that the number of elements is specified because we are indexing it
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// in the range of 0-32
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const int8_t permutation[33]={0,1,2,3,4,4,5,5,5,5,6,6,6,6,6,7,7,7,7,8,8,8,9,9,9,9,9,9,9,9,9,9,9};
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int16_t absValue=0;
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for(unsigned int k=0;k<count;k++){
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int16_t absolute=(int16_t)abs(samples[k]);
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if (absolute>absValue)
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absValue=absolute;
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}
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if(absValue>absMax)
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absMax = absValue;
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// Update level approximately 10 times per second
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if (this->count++==10){
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currentLevelFullRange=absMax;
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this->count=0;
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// Highest value for a int16_t is 0x7fff = 32767
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// Divide with 1000 to get in the range of 0-32 which is the range of
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// the permutation vector
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int32_t position=absMax/1000;
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// Make it less likely that the bar stays at position 0. I.e. only if
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// its in the range 0-250 (instead of 0-1000)
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/*if ((position==0) && (absMax>250)){
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position=1;
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}*/
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currentLevel=permutation[position];
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// Decay the absolute maximum (divide by 4)
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absMax >>= 2;
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}
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}
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