/* * RateBasedAdaptationLogic.cpp ***************************************************************************** * Copyright (C) 2010 - 2011 Klagenfurt University * * Created on: Aug 10, 2010 * Authors: Christopher Mueller * Christian Timmerer * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation; either version 2.1 of the License, or * (at your option) any later version. * * This program 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA. *****************************************************************************/ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "RateBasedAdaptationLogic.h" #include "Representationselectors.hpp" #include "../playlist/BaseRepresentation.h" #include "../playlist/BasePeriod.h" #include "../http/Chunk.h" #include "../tools/Debug.hpp" using namespace adaptive::logic; using namespace adaptive; RateBasedAdaptationLogic::RateBasedAdaptationLogic (vlc_object_t *obj) : AbstractAdaptationLogic (obj), bpsAvg(0), currentBps(0) { usedBps = 0; dllength = 0; dlsize = 0; vlc_mutex_init(&lock); } RateBasedAdaptationLogic::~RateBasedAdaptationLogic() { vlc_mutex_destroy(&lock); } BaseRepresentation *RateBasedAdaptationLogic::getNextRepresentation(BaseAdaptationSet *adaptSet, BaseRepresentation *currep) { if(adaptSet == nullptr) return nullptr; vlc_mutex_lock(&lock); size_t availBps = currentBps + ((currep) ? currep->getBandwidth() : 0); vlc_mutex_unlock(&lock); if(availBps > usedBps) availBps -= usedBps; else availBps = 0; RepresentationSelector selector(maxwidth, maxheight); BaseRepresentation *rep = selector.select(adaptSet, availBps); if ( rep == nullptr ) { rep = selector.select(adaptSet); if ( rep == nullptr ) return nullptr; } return rep; } void RateBasedAdaptationLogic::updateDownloadRate(const ID &, size_t size, vlc_tick_t time, mtime_t) { if(unlikely(time == 0)) return; /* Accumulate up to observation window */ dllength += time; dlsize += size; if(dllength < CLOCK_FREQ / 4) return; const size_t bps = CLOCK_FREQ * dlsize * 8 / dllength; vlc_mutex_lock(&lock); bpsAvg = average.push(bps); // BwDebug(msg_Dbg(p_obj, "alpha1 %lf alpha0 %lf dmax %ld ds %ld", alpha, // (double)deltamax / diffsum, deltamax, diffsum)); BwDebug(msg_Dbg(p_obj, "bw estimation bps %zu -> avg %zu", bps / 8000, bpsAvg / 8000)); currentBps = bpsAvg * 3/4; dlsize = dllength = 0; BwDebug(msg_Info(p_obj, "Current bandwidth %zu KiB/s using %u%%", (bpsAvg / 8000), (bpsAvg) ? (unsigned)(usedBps * 100.0 / bpsAvg) : 0)); vlc_mutex_unlock(&lock); } void RateBasedAdaptationLogic::trackerEvent(const TrackerEvent &ev) { if(ev.getType() == TrackerEvent::Type::RepresentationSwitch) { const RepresentationSwitchEvent &event = static_cast(ev); vlc_mutex_lock(&lock); if(event.prev) usedBps -= event.prev->getBandwidth(); if(event.next) usedBps += event.next->getBandwidth(); BwDebug(msg_Info(p_obj, "New bandwidth usage %zu KiB/s %u%%", (usedBps / 8000), (bpsAvg) ? (unsigned)(usedBps * 100.0 / bpsAvg) : 0 )); vlc_mutex_unlock(&lock); } } FixedRateAdaptationLogic::FixedRateAdaptationLogic(vlc_object_t *obj, size_t bps) : AbstractAdaptationLogic(obj) { currentBps = bps; } BaseRepresentation *FixedRateAdaptationLogic::getNextRepresentation(BaseAdaptationSet *adaptSet, BaseRepresentation *) { if(adaptSet == nullptr) return nullptr; RepresentationSelector selector(maxwidth, maxheight); BaseRepresentation *rep = selector.select(adaptSet, currentBps); if ( rep == nullptr ) { rep = selector.select(adaptSet); if ( rep == nullptr ) return nullptr; } return rep; }