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427 lines
11 KiB
C++
427 lines
11 KiB
C++
/*
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This file is a part of JRTPLIB
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Copyright (c) 1999-2017 Jori Liesenborgs
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Contact: jori.liesenborgs@gmail.com
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This library was developed at the Expertise Centre for Digital Media
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(http://www.edm.uhasselt.be), a research center of the Hasselt University
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(http://www.uhasselt.be). The library is based upon work done for
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my thesis at the School for Knowledge Technology (Belgium/The Netherlands).
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Permission is hereby granted, free of charge, to any person obtaining a
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copy of this software and associated documentation files (the "Software"),
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to deal in the Software without restriction, including without limitation
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the rights to use, copy, modify, merge, publish, distribute, sublicense,
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and/or sell copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included
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in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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IN THE SOFTWARE.
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*/
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#include "rtcpscheduler.h"
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#include "rtpsources.h"
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#include "rtpdefines.h"
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#include "rtcppacket.h"
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#include "rtppacket.h"
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#include "rtcpcompoundpacket.h"
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#include "rtpsourcedata.h"
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#define RTCPSCHED_MININTERVAL 1.0
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namespace qrtplib
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{
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RTCPSchedulerParams::RTCPSchedulerParams() :
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mininterval(RTCP_DEFAULTMININTERVAL)
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{
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bandwidth = 1000; // TODO What is a good value here?
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senderfraction = RTCP_DEFAULTSENDERFRACTION;
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usehalfatstartup = RTCP_DEFAULTHALFATSTARTUP;
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immediatebye = RTCP_DEFAULTIMMEDIATEBYE;
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timeinit.Dummy();
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}
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RTCPSchedulerParams::~RTCPSchedulerParams()
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{
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}
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int RTCPSchedulerParams::SetRTCPBandwidth(double bw)
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{
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if (bw < 0.0)
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return ERR_RTP_SCHEDPARAMS_INVALIDBANDWIDTH;
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bandwidth = bw;
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return 0;
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}
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int RTCPSchedulerParams::SetSenderBandwidthFraction(double fraction)
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{
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if (fraction < 0.0 || fraction > 1.0)
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return ERR_RTP_SCHEDPARAMS_BADFRACTION;
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senderfraction = fraction;
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return 0;
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}
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int RTCPSchedulerParams::SetMinimumTransmissionInterval(const RTPTime &t)
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{
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double t2 = t.GetDouble();
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if (t2 < RTCPSCHED_MININTERVAL)
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return ERR_RTP_SCHEDPARAMS_BADMINIMUMINTERVAL;
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mininterval = t;
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return 0;
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}
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RTCPScheduler::RTCPScheduler(RTPSources &s, RTPRandom &r) :
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sources(s), nextrtcptime(0, 0), prevrtcptime(0, 0), rtprand(r)
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{
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pmembers = 0;
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byemembers = 0;
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pbyemembers = 0;
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avgbyepacketsize = 0;
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Reset();
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//std::cout << (void *)(&rtprand) << std::endl;
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}
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RTCPScheduler::~RTCPScheduler()
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{
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}
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void RTCPScheduler::Reset()
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{
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headeroverhead = 0; // user has to set this to an appropriate value
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hassentrtcp = false;
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firstcall = true;
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avgrtcppacksize = 1000; // TODO: what is a good value for this?
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byescheduled = false;
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sendbyenow = false;
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}
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void RTCPScheduler::AnalyseIncoming(RTCPCompoundPacket &rtcpcomppack)
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{
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bool isbye = false;
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RTCPPacket *p;
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rtcpcomppack.GotoFirstPacket();
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while (!isbye && ((p = rtcpcomppack.GetNextPacket()) != 0))
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{
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if (p->GetPacketType() == RTCPPacket::BYE)
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isbye = true;
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}
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if (!isbye)
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{
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std::size_t packsize = headeroverhead + rtcpcomppack.GetCompoundPacketLength();
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avgrtcppacksize = (std::size_t)((1.0 / 16.0) * ((double) packsize) + (15.0 / 16.0) * ((double) avgrtcppacksize));
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}
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else
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{
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if (byescheduled)
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{
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std::size_t packsize = headeroverhead + rtcpcomppack.GetCompoundPacketLength();
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avgbyepacketsize = (std::size_t)((1.0 / 16.0) * ((double) packsize) + (15.0 / 16.0) * ((double) avgbyepacketsize));
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byemembers++;
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}
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}
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}
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void RTCPScheduler::AnalyseOutgoing(RTCPCompoundPacket &rtcpcomppack)
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{
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bool isbye = false;
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RTCPPacket *p;
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rtcpcomppack.GotoFirstPacket();
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while (!isbye && ((p = rtcpcomppack.GetNextPacket()) != 0))
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{
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if (p->GetPacketType() == RTCPPacket::BYE)
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isbye = true;
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}
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if (!isbye)
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{
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std::size_t packsize = headeroverhead + rtcpcomppack.GetCompoundPacketLength();
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avgrtcppacksize = (std::size_t)((1.0 / 16.0) * ((double) packsize) + (15.0 / 16.0) * ((double) avgrtcppacksize));
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}
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hassentrtcp = true;
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}
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RTPTime RTCPScheduler::GetTransmissionDelay()
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{
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if (firstcall)
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{
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firstcall = false;
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prevrtcptime = RTPTime::CurrentTime();
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pmembers = sources.GetActiveMemberCount();
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CalculateNextRTCPTime();
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}
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RTPTime curtime = RTPTime::CurrentTime();
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if (curtime > nextrtcptime) // packet should be sent
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return RTPTime(0, 0);
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RTPTime diff = nextrtcptime;
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diff -= curtime;
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return diff;
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}
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bool RTCPScheduler::IsTime()
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{
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if (firstcall)
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{
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firstcall = false;
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prevrtcptime = RTPTime::CurrentTime();
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pmembers = sources.GetActiveMemberCount();
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CalculateNextRTCPTime();
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return false;
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}
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RTPTime currenttime = RTPTime::CurrentTime();
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// // TODO: for debugging
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// double diff = nextrtcptime.GetDouble() - currenttime.GetDouble();
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//
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// std::cout << "Delay till next RTCP interval: " << diff << std::endl;
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if (currenttime < nextrtcptime) // timer has not yet expired
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return false;
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RTPTime checktime(0, 0);
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if (!byescheduled)
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{
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bool aresender = false;
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RTPSourceData *srcdat;
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if ((srcdat = sources.GetOwnSourceInfo()) != 0)
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aresender = srcdat->IsSender();
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checktime = CalculateTransmissionInterval(aresender);
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}
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else
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checktime = CalculateBYETransmissionInterval();
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// std::cout << "Calculated checktime: " << checktime.GetDouble() << std::endl;
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checktime += prevrtcptime;
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if (checktime <= currenttime) // Okay
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{
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byescheduled = false;
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prevrtcptime = currenttime;
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pmembers = sources.GetActiveMemberCount();
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CalculateNextRTCPTime();
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return true;
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}
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// std::cout << "New delay: " << nextrtcptime.GetDouble() - currenttime.GetDouble() << std::endl;
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nextrtcptime = checktime;
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pmembers = sources.GetActiveMemberCount();
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return false;
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}
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void RTCPScheduler::CalculateNextRTCPTime()
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{
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bool aresender = false;
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RTPSourceData *srcdat;
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if ((srcdat = sources.GetOwnSourceInfo()) != 0)
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aresender = srcdat->IsSender();
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nextrtcptime = RTPTime::CurrentTime();
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nextrtcptime += CalculateTransmissionInterval(aresender);
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}
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RTPTime RTCPScheduler::CalculateDeterministicInterval(bool sender /* = false */)
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{
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int numsenders = sources.GetSenderCount();
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int numtotal = sources.GetActiveMemberCount();
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// std::cout << "CalculateDeterministicInterval" << std::endl;
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// std::cout << " numsenders: " << numsenders << std::endl;
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// std::cout << " numtotal: " << numtotal << std::endl;
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// Try to avoid division by zero:
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if (numtotal == 0)
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numtotal++;
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double sfraction = ((double) numsenders) / ((double) numtotal);
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double C, n;
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if (sfraction <= schedparams.GetSenderBandwidthFraction())
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{
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if (sender)
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{
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C = ((double) avgrtcppacksize) / (schedparams.GetSenderBandwidthFraction() * schedparams.GetRTCPBandwidth());
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n = (double) numsenders;
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}
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else
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{
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C = ((double) avgrtcppacksize) / ((1.0 - schedparams.GetSenderBandwidthFraction()) * schedparams.GetRTCPBandwidth());
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n = (double) (numtotal - numsenders);
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}
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}
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else
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{
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C = ((double) avgrtcppacksize) / schedparams.GetRTCPBandwidth();
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n = (double) numtotal;
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}
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RTPTime Tmin = schedparams.GetMinimumTransmissionInterval();
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double tmin = Tmin.GetDouble();
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if (!hassentrtcp && schedparams.GetUseHalfAtStartup())
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tmin /= 2.0;
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double ntimesC = n * C;
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double Td = (tmin > ntimesC) ? tmin : ntimesC;
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// TODO: for debugging
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// std::cout << " Td: " << Td << std::endl;
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return RTPTime(Td);
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}
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RTPTime RTCPScheduler::CalculateTransmissionInterval(bool sender)
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{
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RTPTime Td = CalculateDeterministicInterval(sender);
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double td, mul, T;
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// std::cout << "CalculateTransmissionInterval" << std::endl;
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td = Td.GetDouble();
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mul = rtprand.GetRandomDouble() + 0.5; // gives random value between 0.5 and 1.5
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T = (td * mul) / 1.21828; // see RFC 3550 p 30
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// std::cout << " Td: " << td << std::endl;
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// std::cout << " mul: " << mul << std::endl;
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// std::cout << " T: " << T << std::endl;
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return RTPTime(T);
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}
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void RTCPScheduler::PerformReverseReconsideration()
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{
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if (firstcall)
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return;
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double diff1, diff2;
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int members = sources.GetActiveMemberCount();
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RTPTime tc = RTPTime::CurrentTime();
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RTPTime tn_min_tc = nextrtcptime;
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if (tn_min_tc > tc)
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tn_min_tc -= tc;
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else
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tn_min_tc = RTPTime(0, 0);
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// std::cout << "+tn_min_tc0 " << nextrtcptime.GetDouble()-tc.GetDouble() << std::endl;
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// std::cout << "-tn_min_tc0 " << -nextrtcptime.GetDouble()+tc.GetDouble() << std::endl;
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// std::cout << "tn_min_tc " << tn_min_tc.GetDouble() << std::endl;
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RTPTime tc_min_tp = tc;
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if (tc_min_tp > prevrtcptime)
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tc_min_tp -= prevrtcptime;
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else
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tc_min_tp = 0;
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if (pmembers == 0) // avoid division by zero
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pmembers++;
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diff1 = (((double) members) / ((double) pmembers)) * tn_min_tc.GetDouble();
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diff2 = (((double) members) / ((double) pmembers)) * tc_min_tp.GetDouble();
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nextrtcptime = tc;
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prevrtcptime = tc;
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nextrtcptime += RTPTime(diff1);
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prevrtcptime -= RTPTime(diff2);
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pmembers = members;
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}
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void RTCPScheduler::ScheduleBYEPacket(std::size_t packetsize)
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{
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if (byescheduled)
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return;
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if (firstcall)
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{
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firstcall = false;
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pmembers = sources.GetActiveMemberCount();
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}
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byescheduled = true;
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avgbyepacketsize = packetsize + headeroverhead;
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// For now, we will always use the BYE backoff algorithm as described in rfc 3550 p 33
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byemembers = 1;
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pbyemembers = 1;
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if (schedparams.GetRequestImmediateBYE() && sources.GetActiveMemberCount() < 50) // p 34 (top)
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sendbyenow = true;
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else
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sendbyenow = false;
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prevrtcptime = RTPTime::CurrentTime();
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nextrtcptime = prevrtcptime;
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nextrtcptime += CalculateBYETransmissionInterval();
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}
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void RTCPScheduler::ActiveMemberDecrease()
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{
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if (sources.GetActiveMemberCount() < pmembers)
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PerformReverseReconsideration();
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}
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RTPTime RTCPScheduler::CalculateBYETransmissionInterval()
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{
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if (!byescheduled)
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return RTPTime(0, 0);
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if (sendbyenow)
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return RTPTime(0, 0);
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double C, n;
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C = ((double) avgbyepacketsize) / ((1.0 - schedparams.GetSenderBandwidthFraction()) * schedparams.GetRTCPBandwidth());
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n = (double) byemembers;
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RTPTime Tmin = schedparams.GetMinimumTransmissionInterval();
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double tmin = Tmin.GetDouble();
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if (schedparams.GetUseHalfAtStartup())
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tmin /= 2.0;
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double ntimesC = n * C;
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double Td = (tmin > ntimesC) ? tmin : ntimesC;
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double mul = rtprand.GetRandomDouble() + 0.5; // gives random value between 0.5 and 1.5
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double T = (Td * mul) / 1.21828; // see RFC 3550 p 30
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return RTPTime(T);
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}
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} // end namespace
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