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Merge pull request #2213 from jolavillette/bandwidthOptim
bandwith management optimization
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commit
7b2f6a3439
@ -406,8 +406,8 @@ int pqihandler::UpdateRates()
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RsDbg() << "UPDATE_RATES pqihandler::UpdateRates mod_index " << mod_index << " out_max_bw " << out_max_bw << " remaining out bw " << out_remaining_bw << std::endl;
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#endif
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/* Allocate only half the remaining out bw, if any, to make it smoother */
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out_max_bw = out_max_bw + out_remaining_bw / 2;
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/* Allocate only 50 pct the remaining out bw, if any, to make the transition more smooth */
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out_max_bw = out_max_bw + 0.5 * out_remaining_bw;
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/* Calculate the optimal in_max value, taking into account avail_in and the in bw requested by modules */
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@ -437,37 +437,39 @@ int pqihandler::UpdateRates()
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RsDbg() << "UPDATE_RATES pqihandler::UpdateRates mod_index " << mod_index << " in_max_bw " << in_max_bw << " remaining in bw " << in_remaining_bw << std::endl;
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#endif
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/* Allocate only half the remaining in bw, if any, to make it smoother */
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in_max_bw = in_max_bw + in_remaining_bw / 2;
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// allocate only 75 pct of the remaining in bw, to make the transition more smooth
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in_max_bw = in_max_bw + 0.75 * in_remaining_bw;
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// store current total in and ou used bw
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// store current total in and out used bw
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locked_StoreCurrentRates(used_bw_in, used_bw_out);
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#ifdef UPDATE_RATES_DEBUG
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RsDbg() << "UPDATE_RATES pqihandler::UpdateRates setting new out_max " << out_max_bw << " in_max " << in_max_bw << std::endl;
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#endif
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// retrieve down (from peer point of view) bandwidth limits set by peers in their own settings
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// retrieve the bandwidth limits provided by peers via BwCtrl
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std::map<RsPeerId, RsConfigDataRates> rateMap;
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rsConfig->getAllBandwidthRates(rateMap);
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std::map<RsPeerId, RsConfigDataRates>::iterator rateMap_it;
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#ifdef UPDATE_RATES_DEBUG
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// Dump RsConfigurationDataRates
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// dump RsConfigurationDataRates
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RsDbg() << "UPDATE_RATES pqihandler::UpdateRates RsConfigDataRates dump" << std::endl;
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for (rateMap_it = rateMap.begin(); rateMap_it != rateMap.end(); rateMap_it++)
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RsDbg () << "UPDATE_RATES pqihandler::UpdateRates PeerId " << rateMap_it->first.toStdString() << " mAllowedOut " << rateMap_it->second.mAllowedOut << std::endl;
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#endif
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// update max rates taking into account the limits set by peers in their own settings
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// update max rates
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for(it = mods.begin(); it != mods.end(); ++it)
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{
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SearchModule *mod = (it -> second);
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// for our down bandwidth we set the max to the calculated value without taking into account the max set by peers: they will control their up bw on their side
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// for our down bandwidth we use the calculated value without taking into account the max up provided by peers via BwCtrl
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// this is harmless as they will control their up bw on their side
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mod -> pqi -> setMaxRate(true, in_max_bw);
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// for our up bandwidth we limit to the maximum down bw provided by peers via BwCtrl because we don't want to clog our outqueues, the SSL buffers, and our friends inbound queues
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// for our up bandwidth we take into account the max down provided by peers via BwCtrl
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// because we don't want to clog our outqueues, the TCP buffers, and the peers inbound queues
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if ((rateMap_it = rateMap.find(mod->pqi->PeerId())) != rateMap.end())
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{
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if (rateMap_it->second.mAllowedOut > 0)
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@ -550,14 +550,12 @@ int pqistreamer::handleoutgoing_locked()
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if ((!(mBio->cansend(0))) || (maxbytes < sentbytes))
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{
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#ifdef DEBUG_PACKET_SLICING
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if (maxbytes < sentbytes)
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std::cerr << "pqistreamer::handleoutgoing_locked() Stopped sending: bio not ready. maxbytes=" << maxbytes << ", sentbytes=" << sentbytes << std::endl;
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#ifdef DEBUG_PQISTREAMER
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if (sentbytes > maxbytes)
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RsDbg() << "PQISTREAMER pqistreamer::handleoutgoing_locked() stopped sending max reached, sentbytes " << std::dec << sentbytes << " maxbytes " << maxbytes;
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else
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std::cerr << "pqistreamer::handleoutgoing_locked() Stopped sending: sentbytes=" << sentbytes << ", max=" << maxbytes << std::endl;
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RsDbg() << "PQISTREAMER pqistreamer::handleoutgoing_locked() stopped sending bio not ready, sentbytes " << std::dec << sentbytes << " maxbytes " << maxbytes;
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#endif
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return 0;
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}
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// send a out_pkt., else send out_data. unless there is a pending packet. The strategy is to
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@ -1019,12 +1017,11 @@ continue_packet:
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if(maxin > readbytes && mBio->moretoread(0))
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goto start_packet_read ;
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#ifdef DEBUG_TRANSFERS
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if (readbytes >= maxin)
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{
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std::cerr << "pqistreamer::handleincoming() Stopped reading as readbytes >= maxin. Read " << readbytes << " bytes ";
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std::cerr << std::endl;
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}
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#ifdef DEBUG_PQISTREAMER
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if (readbytes > maxin)
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RsDbg() << "PQISTREAMER pqistreamer::handleincoming() stopped reading max reached, readbytes " << std::dec << readbytes << " maxin " << maxin;
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else
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RsDbg() << "PQISTREAMER pqistreamer::handleincoming() stopped reading no more to read, readbytes " << std::dec << readbytes << " maxin " << maxin;
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#endif
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return 0;
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@ -1157,18 +1154,19 @@ int pqistreamer::outAllowedBytes_locked()
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// this is used to take into account a possible excess of data sent during the previous round
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mCurrSent -= int(dt * maxout);
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// we dont allow negative value, any quota not used during the previous round is therefore lost
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if (mCurrSent < 0)
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mCurrSent = 0;
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mCurrSentTS = t;
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// now calculate the max amount of data allowed to be sent during the next round
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// we limit this quota to what should be sent at most during mAvgDtOut, taking into account the excess of data possibly sent during the previous round
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// now calculate the amount of data allowed to be sent during the next round
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// we take into account the possible excess (but not deficit) of the previous round
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// (this is handled differently when reading data, see below)
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double quota = mAvgDtOut * maxout - mCurrSent;
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#ifdef DEBUG_PQISTREAMER
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uint64_t t_now = 1000 * getCurrentTS();
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std::cerr << std::dec << t_now << " DEBUG_PQISTREAMER pqistreamer::outAllowedBytes_locked PeerId " << this->PeerId().toStdString() << " dt " << (int)(1000 * dt) << "ms, mAvgDtOut " << (int)(1000 * mAvgDtOut) << "ms, maxout " << (int)(maxout) << " bytes/s, mCurrSent " << mCurrSent << " bytes, quota " << (int)(quota) << " bytes" << std::endl;
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RsDbg() << "PQISTREAMER pqistreamer::outAllowedBytes_locked() dt " << std::dec << (int)(1000 * dt) << "ms, mAvgDtOut " << (int)(1000 * mAvgDtOut) << "ms, maxout " << (int)(maxout) << " bytes/s, mCurrSent " << mCurrSent << " bytes, quota " << (int)(quota) << " bytes";
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#endif
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return quota;
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@ -1198,27 +1196,27 @@ int pqistreamer::inAllowedBytes()
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double maxin = getMaxRate(true) * 1024.0;
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// this is used to take into account a possible excess of data received during the previous round
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// this is used to take into account a possible excess/deficit of data received during the previous round
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mCurrRead -= int(dt * maxin);
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if (mCurrRead < 0)
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mCurrRead = 0;
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// we allow negative value up to the average amount of data received during one round
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// in that case we will use this credit during the next around
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if (mCurrRead < - mAvgDtIn * maxin)
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mCurrRead = - mAvgDtIn * maxin;
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mCurrReadTS = t;
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// now calculate the max amount of data allowed to be received during the next round
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// we limit this quota to what should be received at most during mAvgDtOut, taking into account the excess of data possibly received during the previous round
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// we now calculate the max amount of data allowed to be received during the next round
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// we take into account the excess/deficit of the previous round
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double quota = mAvgDtIn * maxin - mCurrRead;
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#ifdef DEBUG_PQISTREAMER
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uint64_t t_now = 1000 * getCurrentTS();
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std::cerr << std::dec << t_now << " DEBUG_PQISTREAMER pqistreamer::inAllowedBytes PeerId " << this->PeerId().toStdString() << " dt " << (int)(1000 * dt) << "ms, mAvgDtIn " << (int)(1000 * mAvgDtIn) << "ms, maxin " << (int)(maxin) << " bytes/s, mCurrRead " << mCurrRead << " bytes, quota " << (int)(quota) << " bytes" << std::endl;
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RsDbg() << "PQISTREAMER pqistreamer::inAllowedBytes() dt " << std::dec << (int)(1000 * dt) << "ms, mAvgDtIn " << (int)(1000 * mAvgDtIn) << "ms, maxin " << (int)(maxin) << " bytes/s, mCurrRead " << mCurrRead << " bytes, quota " << (int)(quota) << " bytes";
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#endif
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return quota;
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}
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void pqistreamer::outSentBytes_locked(uint32_t outb)
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{
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#ifdef DEBUG_PQISTREAMER
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