// // libtgvoip is free and unencumbered public domain software. // For more information, see http://unlicense.org or the UNLICENSE file // you should have received with this source code distribution. // #include "VoIPController.h" #include "JitterBuffer.h" #include "logging.h" #include "VoIPServerConfig.h" #include using namespace tgvoip; JitterBuffer::JitterBuffer(MediaStreamItf *out, uint32_t step):bufferPool(JITTER_SLOT_SIZE, JITTER_SLOT_COUNT){ if(out) out->SetCallback(JitterBuffer::CallbackOut, this); this->step=step; memset(slots, 0, sizeof(jitter_packet_t)*JITTER_SLOT_COUNT); if(step<30){ minMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_min_delay_20", 6); maxMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_delay_20", 25); maxUsedSlots=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_slots_20", 50); }else if(step<50){ minMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_min_delay_40", 4); maxMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_delay_40", 15); maxUsedSlots=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_slots_40", 30); }else{ minMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_min_delay_60", 2); maxMinDelay=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_delay_60", 10); maxUsedSlots=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_max_slots_60", 20); } lossesToReset=(uint32_t) ServerConfig::GetSharedInstance()->GetInt("jitter_losses_to_reset", 20); resyncThreshold=ServerConfig::GetSharedInstance()->GetDouble("jitter_resync_threshold", 1.0); #ifdef TGVOIP_DUMP_JITTER_STATS #ifdef TGVOIP_JITTER_DUMP_FILE dump=fopen(TGVOIP_JITTER_DUMP_FILE, "w"); #elif defined(__ANDROID__) dump=fopen("/sdcard/tgvoip_jitter_dump.txt", "w"); #else dump=fopen("tgvoip_jitter_dump.txt", "w"); #endif tgvoip_log_file_write_header(dump); fprintf(dump, "PTS\tRTS\tNumInBuf\tAJitter\tADelay\tTDelay\n"); #endif Reset(); } JitterBuffer::~JitterBuffer(){ Reset(); } void JitterBuffer::SetMinPacketCount(uint32_t count){ minDelay=count; minMinDelay=count; //Reset(); } int JitterBuffer::GetMinPacketCount(){ return (int)minDelay; } size_t JitterBuffer::CallbackIn(unsigned char *data, size_t len, void *param){ //((JitterBuffer*)param)->HandleInput(data, len); return 0; } size_t JitterBuffer::CallbackOut(unsigned char *data, size_t len, void *param){ return 0; //((JitterBuffer*)param)->HandleOutput(data, len, 0, NULL); } void JitterBuffer::HandleInput(unsigned char *data, size_t len, uint32_t timestamp, bool isEC){ MutexGuard m(mutex); jitter_packet_t pkt; pkt.size=len; pkt.buffer=data; pkt.timestamp=timestamp; pkt.isEC=isEC; PutInternal(&pkt, !isEC); //LOGV("in, ts=%d, ec=%d", timestamp, isEC); } void JitterBuffer::Reset(){ wasReset=true; needBuffering=true; lastPutTimestamp=0; int i; for(i=0;i5){ LOGW("jitter: delay too big upon start (%u), dropping packets", delay); while(delay>GetMinPacketCount()){ for(int i=0;isizesize)); }else{ if(pkt) { pkt->size = slots[i].size; pkt->timestamp = slots[i].timestamp; memcpy(pkt->buffer, slots[i].buffer, slots[i].size); pkt->isEC=slots[i].isEC; } } bufferPool.Reuse(slots[i].buffer); slots[i].buffer=NULL; if(offset==0) Advance(); lostCount=0; needBuffering=false; return JR_OK; } LOGV("jitter: found no packet for timestamp %lld (last put = %d, lost = %d)", (long long int)timestampToGet, lastPutTimestamp, lostCount); if(advance) Advance(); if(!needBuffering){ lostCount++; if(offset==0){ lostPackets++; lostSinceReset++; } if(lostCount>=lossesToReset || (gotSinceReset>minDelay*25 && lostSinceReset>gotSinceReset/2)){ LOGW("jitter: lost %d packets in a row, resetting", lostCount); //minDelay++; dontIncMinDelay=16; dontDecMinDelay+=128; if(GetCurrentDelay()size>JITTER_SLOT_SIZE){ LOGE("The packet is too big to fit into the jitter buffer"); return; } int i; for(i=0;itimestamp){ //LOGV("Found existing packet for timestamp %u, overwrite %d", pkt->timestamp, overwriteExisting); if(overwriteExisting){ memcpy(slots[i].buffer, pkt->buffer, pkt->size); slots[i].size=pkt->size; slots[i].isEC=pkt->isEC; } return; } } gotSinceReset++; if(wasReset){ wasReset=false; outstandingDelayChange=0; nextTimestamp=(int64_t)(((int64_t)pkt->timestamp)-step*minDelay); first=true; LOGI("jitter: resyncing, next timestamp = %lld (step=%d, minDelay=%f)", (long long int)nextTimestamp, step, minDelay); } for(i=0;itimestamp-slots[i].timestamptimestamp-closestTime){ closestTime=slots[i].timestamp; prevTime=slots[i].recvTime; } }*/ double time=VoIPController::GetCurrentTime(); if(expectNextAtTime!=0){ double dev=expectNextAtTime-time; //LOGV("packet dev %f", dev); deviationHistory.Add(dev); expectNextAtTime+=step/1000.0; }else{ expectNextAtTime=time+step/1000.0; } if(pkt->timestamptimestamp); latePacketCount++; lostPackets--; }else if(pkt->timestamptimestamp); latePacketCount++; return; } if(pkt->timestamp>lastPutTimestamp) lastPutTimestamp=pkt->timestamp; for(i=0;i=maxUsedSlots){ int toRemove=JITTER_SLOT_COUNT; uint32_t bestTimestamp=0xFFFFFFFF; for(i=0;itimestamp; slots[i].size=pkt->size; slots[i].buffer=bufferPool.Get(); slots[i].recvTimeDiff=time-prevRecvTime; slots[i].isEC=pkt->isEC; if(slots[i].buffer) memcpy(slots[i].buffer, pkt->buffer, pkt->size); else LOGE("WTF!!"); #ifdef TGVOIP_DUMP_JITTER_STATS fprintf(dump, "%u\t%.03f\t%d\t%.03f\t%.03f\t%.03f\n", pkt->timestamp, time, GetCurrentDelay(), lastMeasuredJitter, lastMeasuredDelay, minDelay); #endif prevRecvTime=time; } void JitterBuffer::Advance(){ nextTimestamp+=step; } unsigned int JitterBuffer::GetCurrentDelay(){ unsigned int delay=0; int i; for(i=0;i=resyncThreshold){ LOGV("resyncing: avgLate16=%f, resyncThreshold=%f", avgLate16, resyncThreshold); wasReset=true; } if(absolutelyNoLatePackets){ if(dontDecMinDelay>0) dontDecMinDelay--; } delayHistory.Add(GetCurrentDelay()); avgDelay=delayHistory.Average(32); double stddev=0; double avgdev=deviationHistory.Average(); for(i=0;i<64;i++){ double d=(deviationHistory[i]-avgdev); stddev+=(d*d); } stddev=sqrt(stddev/64); uint32_t stddevDelay=(uint32_t)ceil(stddev*2*1000/step); if(stddevDelaymaxMinDelay) stddevDelay=maxMinDelay; if(stddevDelay!=minDelay){ int32_t diff=(int32_t)(stddevDelay-minDelay); if(diff>0){ dontDecMinDelay=100; } if(diff<-1) diff=-1; if(diff>1) diff=1; if((diff>0 && dontIncMinDelay==0) || (diff<0 && dontDecMinDelay==0)){ //nextTimestamp+=diff*(int32_t)step; minDelay+=diff; outstandingDelayChange+=diff*60; dontChangeDelay+=32; //LOGD("new delay from stddev %f", minDelay); if(diff<0){ dontDecMinDelay+=25; } if(diff>0){ dontIncMinDelay=25; } } } lastMeasuredJitter=stddev; lastMeasuredDelay=stddevDelay; //LOGV("stddev=%.3f, avg=%.3f, ndelay=%d, dontDec=%u", stddev, avgdev, stddevDelay, dontDecMinDelay); if(dontChangeDelay==0){ if(avgDelay>minDelay+0.5){ outstandingDelayChange-=avgDelay>minDelay+2 ? 60 : 20; dontChangeDelay+=10; }else if(avgDelay0) dontChangeDelay--; //LOGV("jitter: avg delay=%d, delay=%d, late16=%.1f, dontDecMinDelay=%d", avgDelay, delayHistory[0], avgLate16, dontDecMinDelay); /*if(!adjustingDelay) { if (((minDelay==1 ? (avgDelay>=3) : (avgDelay>=minDelay/2)) && delayHistory[0]>minDelay && avgLate16<=0.1 && absolutelyNoLatePackets && dontDecMinDelay<32 && min>minDelay)) { LOGI("jitter: need adjust"); adjustingDelay=true; } }else{ if(!absolutelyNoLatePackets){ LOGI("jitter: done adjusting because we're losing packets"); adjustingDelay=false; }else if(tickCount%5==0){ LOGD("jitter: removing a packet to reduce delay"); GetInternal(NULL, 0); expectNextAtTime=0; if(GetCurrentDelay()<=minDelay || min<=minDelay){ adjustingDelay = false; LOGI("jitter: done adjusting"); } } }*/ tickCount++; } void JitterBuffer::GetAverageLateCount(double *out){ double avgLate64=lateHistory.Average(), avgLate32=lateHistory.Average(32), avgLate16=lateHistory.Average(16); out[0]=avgLate16; out[1]=avgLate32; out[2]=avgLate64; } int JitterBuffer::GetAndResetLostPacketCount(){ MutexGuard m(mutex); int r=lostPackets; lostPackets=0; return r; } double JitterBuffer::GetLastMeasuredJitter(){ return lastMeasuredJitter; } double JitterBuffer::GetLastMeasuredDelay(){ return lastMeasuredDelay; } double JitterBuffer::GetAverageDelay(){ return avgDelay; }