webrtc/video_engine/vie_receiver.cc - src - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/video_engine/vie_receiver.h"

 #include <vector>

 #include "webrtc/modules/remote_bitrate_estimator/include/remote_bitrate_estimator.h"
 #include "webrtc/modules/rtp_rtcp/interface/fec_receiver.h"
 #include "webrtc/modules/rtp_rtcp/interface/receive_statistics.h"
 #include "webrtc/modules/rtp_rtcp/interface/remote_ntp_time_estimator.h"
 #include "webrtc/modules/rtp_rtcp/interface/rtp_cvo.h"
 #include "webrtc/modules/rtp_rtcp/interface/rtp_header_parser.h"
 #include "webrtc/modules/rtp_rtcp/interface/rtp_payload_registry.h"
 #include "webrtc/modules/rtp_rtcp/interface/rtp_receiver.h"
 #include "webrtc/modules/rtp_rtcp/interface/rtp_rtcp.h"
 #include "webrtc/modules/video_coding/main/interface/video_coding.h"
 #include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
 #include "webrtc/system_wrappers/interface/logging.h"
 #include "webrtc/system_wrappers/interface/metrics.h"
 #include "webrtc/system_wrappers/interface/tick_util.h"
 #include "webrtc/system_wrappers/interface/timestamp_extrapolator.h"
 #include "webrtc/system_wrappers/interface/trace.h"

 namespace webrtc {

 static const int kPacketLogIntervalMs = 10000;

 ViEReceiver::ViEReceiver(const int32_t channel_id,
                          VideoCodingModule* module_vcm,
                          RemoteBitrateEstimator* remote_bitrate_estimator,
                          RtpFeedback* rtp_feedback)
     : receive_cs_(CriticalSectionWrapper::CreateCriticalSection()),
       clock_(Clock::GetRealTimeClock()),
       rtp_header_parser_(RtpHeaderParser::Create()),
       rtp_payload_registry_(
           new RTPPayloadRegistry(RTPPayloadStrategy::CreateStrategy(false))),
       rtp_receiver_(
           RtpReceiver::CreateVideoReceiver(channel_id,
                                            clock_,
                                            this,
                                            rtp_feedback,
                                            rtp_payload_registry_.get())),
       rtp_receive_statistics_(ReceiveStatistics::Create(clock_)),
       fec_receiver_(FecReceiver::Create(this)),
       rtp_rtcp_(NULL),
       vcm_(module_vcm),
       remote_bitrate_estimator_(remote_bitrate_estimator),
       ntp_estimator_(new RemoteNtpTimeEstimator(clock_)),
       receiving_(false),
       restored_packet_in_use_(false),
       receiving_ast_enabled_(false),
       receiving_cvo_enabled_(false),
       last_packet_log_ms_(-1) {
   assert(remote_bitrate_estimator);
 }

 ViEReceiver::~ViEReceiver() {
   UpdateHistograms();
 }

 void ViEReceiver::UpdateHistograms() {
   FecPacketCounter counter = fec_receiver_->GetPacketCounter();
   if (counter.num_packets > 0) {
     RTC_HISTOGRAM_PERCENTAGE(
         "WebRTC.Video.ReceivedFecPacketsInPercent",
         static_cast<int>(counter.num_fec_packets * 100 / counter.num_packets));
   }
   if (counter.num_fec_packets > 0) {
     RTC_HISTOGRAM_PERCENTAGE("WebRTC.Video.RecoveredMediaPacketsInPercentOfFec",
                              static_cast<int>(counter.num_recovered_packets *
                                               100 / counter.num_fec_packets));
   }
 }

 bool ViEReceiver::SetReceiveCodec(const VideoCodec& video_codec) {
   int8_t old_pltype = -1;
   if (rtp_payload_registry_->ReceivePayloadType(video_codec.plName,
                                                 kVideoPayloadTypeFrequency,
                                                 0,
                                                 video_codec.maxBitrate,
                                                 &old_pltype) != -1) {
     rtp_payload_registry_->DeRegisterReceivePayload(old_pltype);
   }

   return RegisterPayload(video_codec);
 }

 bool ViEReceiver::RegisterPayload(const VideoCodec& video_codec) {
   return rtp_receiver_->RegisterReceivePayload(video_codec.plName,
                                                video_codec.plType,
                                                kVideoPayloadTypeFrequency,
                                                0,
                                                video_codec.maxBitrate) == 0;
 }

 void ViEReceiver::SetNackStatus(bool enable,
                                 int max_nack_reordering_threshold) {
   if (!enable) {
     // Reset the threshold back to the lower default threshold when NACK is
     // disabled since we no longer will be receiving retransmissions.
     max_nack_reordering_threshold = kDefaultMaxReorderingThreshold;
   }
   rtp_receive_statistics_->SetMaxReorderingThreshold(
       max_nack_reordering_threshold);
   rtp_receiver_->SetNACKStatus(enable ? kNackRtcp : kNackOff);
 }

 void ViEReceiver::SetRtxPayloadType(int payload_type,
                                     int associated_payload_type) {
   rtp_payload_registry_->SetRtxPayloadType(payload_type,
                                            associated_payload_type);
 }

 void ViEReceiver::SetRtxSsrc(uint32_t ssrc) {
   rtp_payload_registry_->SetRtxSsrc(ssrc);
 }

 bool ViEReceiver::GetRtxSsrc(uint32_t* ssrc) const {
   return rtp_payload_registry_->GetRtxSsrc(ssrc);
 }

 bool ViEReceiver::IsFecEnabled() const {
   return rtp_payload_registry_->ulpfec_payload_type() > -1;
 }

 uint32_t ViEReceiver::GetRemoteSsrc() const {
   return rtp_receiver_->SSRC();
 }

 int ViEReceiver::GetCsrcs(uint32_t* csrcs) const {
   return rtp_receiver_->CSRCs(csrcs);
 }

 void ViEReceiver::SetRtpRtcpModule(RtpRtcp* module) {
   rtp_rtcp_ = module;
 }

 RtpReceiver* ViEReceiver::GetRtpReceiver() const {
   return rtp_receiver_.get();
 }

 void ViEReceiver::RegisterSimulcastRtpRtcpModules(
     const std::list<RtpRtcp*>& rtp_modules) {
   CriticalSectionScoped cs(receive_cs_.get());
   rtp_rtcp_simulcast_.clear();

   if (!rtp_modules.empty()) {
     rtp_rtcp_simulcast_.insert(rtp_rtcp_simulcast_.begin(),
                                rtp_modules.begin(),
                                rtp_modules.end());
   }
 }

 bool ViEReceiver::SetReceiveTimestampOffsetStatus(bool enable, int id) {
   if (enable) {
     return rtp_header_parser_->RegisterRtpHeaderExtension(
         kRtpExtensionTransmissionTimeOffset, id);
   } else {
     return rtp_header_parser_->DeregisterRtpHeaderExtension(
         kRtpExtensionTransmissionTimeOffset);
   }
 }

 bool ViEReceiver::SetReceiveAbsoluteSendTimeStatus(bool enable, int id) {
   if (enable) {
     if (rtp_header_parser_->RegisterRtpHeaderExtension(
         kRtpExtensionAbsoluteSendTime, id)) {
       receiving_ast_enabled_ = true;
       return true;
     } else {
       return false;
     }
   } else {
     receiving_ast_enabled_ = false;
     return rtp_header_parser_->DeregisterRtpHeaderExtension(
         kRtpExtensionAbsoluteSendTime);
   }
 }

 bool ViEReceiver::SetReceiveVideoRotationStatus(bool enable, int id) {
   if (enable) {
     if (rtp_header_parser_->RegisterRtpHeaderExtension(
             kRtpExtensionVideoRotation, id)) {
       receiving_cvo_enabled_ = true;
       return true;
     } else {
       return false;
     }
   } else {
     receiving_cvo_enabled_ = false;
     return rtp_header_parser_->DeregisterRtpHeaderExtension(
         kRtpExtensionVideoRotation);
   }
 }

 int ViEReceiver::ReceivedRTPPacket(const void* rtp_packet,
                                    size_t rtp_packet_length,
                                    const PacketTime& packet_time) {
   return InsertRTPPacket(static_cast<const uint8_t*>(rtp_packet),
                          rtp_packet_length, packet_time);
 }

 int ViEReceiver::ReceivedRTCPPacket(const void* rtcp_packet,
                                     size_t rtcp_packet_length) {
   return InsertRTCPPacket(static_cast<const uint8_t*>(rtcp_packet),
                           rtcp_packet_length);
 }

 int32_t ViEReceiver::OnReceivedPayloadData(const uint8_t* payload_data,
                                            const size_t payload_size,
                                            const WebRtcRTPHeader* rtp_header) {
   WebRtcRTPHeader rtp_header_with_ntp = *rtp_header;
   rtp_header_with_ntp.ntp_time_ms =
       ntp_estimator_->Estimate(rtp_header->header.timestamp);
   if (vcm_->IncomingPacket(payload_data,
                            payload_size,
                            rtp_header_with_ntp) != 0) {
     // Check this...
     return -1;
   }
   return 0;
 }

 bool ViEReceiver::OnRecoveredPacket(const uint8_t* rtp_packet,
                                     size_t rtp_packet_length) {
   RTPHeader header;
   if (!rtp_header_parser_->Parse(rtp_packet, rtp_packet_length, &header)) {
     return false;
   }
   header.payload_type_frequency = kVideoPayloadTypeFrequency;
   bool in_order = IsPacketInOrder(header);
   return ReceivePacket(rtp_packet, rtp_packet_length, header, in_order);
 }

 int ViEReceiver::InsertRTPPacket(const uint8_t* rtp_packet,
                                  size_t rtp_packet_length,
                                  const PacketTime& packet_time) {
   {
     CriticalSectionScoped cs(receive_cs_.get());
     if (!receiving_) {
       return -1;
     }
   }

   RTPHeader header;
   if (!rtp_header_parser_->Parse(rtp_packet, rtp_packet_length,
                                  &header)) {
     return -1;
   }
   size_t payload_length = rtp_packet_length - header.headerLength;
   int64_t arrival_time_ms;
   int64_t now_ms = clock_->TimeInMilliseconds();
   if (packet_time.timestamp != -1)
     arrival_time_ms = (packet_time.timestamp + 500) / 1000;
   else
     arrival_time_ms = now_ms;

   {
     // Periodically log the RTP header of incoming packets.
     CriticalSectionScoped cs(receive_cs_.get());
     if (now_ms - last_packet_log_ms_ > kPacketLogIntervalMs) {
       std::stringstream ss;
       ss << "Packet received on SSRC: " << header.ssrc << " with payload type: "
          << static_cast<int>(header.payloadType) << ", timestamp: "
          << header.timestamp << ", sequence number: " << header.sequenceNumber
          << ", arrival time: " << arrival_time_ms;
       if (header.extension.hasTransmissionTimeOffset)
         ss << ", toffset: " << header.extension.transmissionTimeOffset;
       if (header.extension.hasAbsoluteSendTime)
         ss << ", abs send time: " << header.extension.absoluteSendTime;
       LOG(LS_INFO) << ss.str();
       last_packet_log_ms_ = now_ms;
     }
   }

   remote_bitrate_estimator_->IncomingPacket(arrival_time_ms, payload_length,
                                             header, true);
   header.payload_type_frequency = kVideoPayloadTypeFrequency;

   bool in_order = IsPacketInOrder(header);
   rtp_payload_registry_->SetIncomingPayloadType(header);
   int ret = ReceivePacket(rtp_packet, rtp_packet_length, header, in_order)
       ? 0
       : -1;
   // Update receive statistics after ReceivePacket.
   // Receive statistics will be reset if the payload type changes (make sure
   // that the first packet is included in the stats).
   rtp_receive_statistics_->IncomingPacket(
       header, rtp_packet_length, IsPacketRetransmitted(header, in_order));
   return ret;
 }

 bool ViEReceiver::ReceivePacket(const uint8_t* packet,
                                 size_t packet_length,
                                 const RTPHeader& header,
                                 bool in_order) {
   if (rtp_payload_registry_->IsEncapsulated(header)) {
     return ParseAndHandleEncapsulatingHeader(packet, packet_length, header);
   }
   const uint8_t* payload = packet + header.headerLength;
   assert(packet_length >= header.headerLength);
   size_t payload_length = packet_length - header.headerLength;
   PayloadUnion payload_specific;
   if (!rtp_payload_registry_->GetPayloadSpecifics(header.payloadType,
                                                   &payload_specific)) {
     return false;
   }
   return rtp_receiver_->IncomingRtpPacket(header, payload, payload_length,
                                           payload_specific, in_order);
 }

 bool ViEReceiver::ParseAndHandleEncapsulatingHeader(const uint8_t* packet,
                                                     size_t packet_length,
                                                     const RTPHeader& header) {
   if (rtp_payload_registry_->IsRed(header)) {
     int8_t ulpfec_pt = rtp_payload_registry_->ulpfec_payload_type();
     if (packet[header.headerLength] == ulpfec_pt) {
       rtp_receive_statistics_->FecPacketReceived(header, packet_length);
       // Notify vcm about received FEC packets to avoid NACKing these packets.
       NotifyReceiverOfFecPacket(header);
     }
     if (fec_receiver_->AddReceivedRedPacket(
             header, packet, packet_length, ulpfec_pt) != 0) {
       return false;
     }
     return fec_receiver_->ProcessReceivedFec() == 0;
   } else if (rtp_payload_registry_->IsRtx(header)) {
     if (header.headerLength + header.paddingLength == packet_length) {
       // This is an empty packet and should be silently dropped before trying to
       // parse the RTX header.
       return true;
     }
     // Remove the RTX header and parse the original RTP header.
     if (packet_length < header.headerLength)
       return false;
     if (packet_length > sizeof(restored_packet_))
       return false;
     CriticalSectionScoped cs(receive_cs_.get());
     if (restored_packet_in_use_) {
       LOG(LS_WARNING) << "Multiple RTX headers detected, dropping packet.";
       return false;
     }
     uint8_t* restored_packet_ptr = restored_packet_;
     if (!rtp_payload_registry_->RestoreOriginalPacket(
         &restored_packet_ptr, packet, &packet_length, rtp_receiver_->SSRC(),
         header)) {
       LOG(LS_WARNING) << "Incoming RTX packet: Invalid RTP header";
       return false;
     }
     restored_packet_in_use_ = true;
     bool ret = OnRecoveredPacket(restored_packet_ptr, packet_length);
     restored_packet_in_use_ = false;
     return ret;
   }
   return false;
 }

 void ViEReceiver::NotifyReceiverOfFecPacket(const RTPHeader& header) {
   int8_t last_media_payload_type =
       rtp_payload_registry_->last_received_media_payload_type();
   if (last_media_payload_type < 0) {
     LOG(LS_WARNING) << "Failed to get last media payload type.";
     return;
   }
   // Fake an empty media packet.
   WebRtcRTPHeader rtp_header = {};
   rtp_header.header = header;
   rtp_header.header.payloadType = last_media_payload_type;
   rtp_header.header.paddingLength = 0;
   PayloadUnion payload_specific;
   if (!rtp_payload_registry_->GetPayloadSpecifics(last_media_payload_type,
                                                   &payload_specific)) {
     LOG(LS_WARNING) << "Failed to get payload specifics.";
     return;
   }
   rtp_header.type.Video.codec = payload_specific.Video.videoCodecType;
   rtp_header.type.Video.rotation = kVideoRotation_0;
   if (header.extension.hasVideoRotation) {
     rtp_header.type.Video.rotation =
         ConvertCVOByteToVideoRotation(header.extension.videoRotation);
   }
   OnReceivedPayloadData(NULL, 0, &rtp_header);
 }

 int ViEReceiver::InsertRTCPPacket(const uint8_t* rtcp_packet,
                                   size_t rtcp_packet_length) {
   {
     CriticalSectionScoped cs(receive_cs_.get());
     if (!receiving_) {
       return -1;
     }

     std::list<RtpRtcp*>::iterator it = rtp_rtcp_simulcast_.begin();
     while (it != rtp_rtcp_simulcast_.end()) {
       RtpRtcp* rtp_rtcp = *it++;
       rtp_rtcp->IncomingRtcpPacket(rtcp_packet, rtcp_packet_length);
     }
   }
   assert(rtp_rtcp_);  // Should be set by owner at construction time.
   int ret = rtp_rtcp_->IncomingRtcpPacket(rtcp_packet, rtcp_packet_length);
   if (ret != 0) {
     return ret;
   }

   int64_t rtt = 0;
   rtp_rtcp_->RTT(rtp_receiver_->SSRC(), &rtt, NULL, NULL, NULL);
   if (rtt == 0) {
     // Waiting for valid rtt.
     return 0;
   }
   uint32_t ntp_secs = 0;
   uint32_t ntp_frac = 0;
   uint32_t rtp_timestamp = 0;
   if (0 != rtp_rtcp_->RemoteNTP(&ntp_secs, &ntp_frac, NULL, NULL,
                                 &rtp_timestamp)) {
     // Waiting for RTCP.
     return 0;
   }
   ntp_estimator_->UpdateRtcpTimestamp(rtt, ntp_secs, ntp_frac, rtp_timestamp);

   return 0;
 }

 void ViEReceiver::StartReceive() {
   CriticalSectionScoped cs(receive_cs_.get());
   receiving_ = true;
 }

 void ViEReceiver::StopReceive() {
   CriticalSectionScoped cs(receive_cs_.get());
   receiving_ = false;
 }

 ReceiveStatistics* ViEReceiver::GetReceiveStatistics() const {
   return rtp_receive_statistics_.get();
 }

 bool ViEReceiver::IsPacketInOrder(const RTPHeader& header) const {
   StreamStatistician* statistician =
       rtp_receive_statistics_->GetStatistician(header.ssrc);
   if (!statistician)
     return false;
   return statistician->IsPacketInOrder(header.sequenceNumber);
 }

 bool ViEReceiver::IsPacketRetransmitted(const RTPHeader& header,
                                         bool in_order) const {
   // Retransmissions are handled separately if RTX is enabled.
   if (rtp_payload_registry_->RtxEnabled())
     return false;
   StreamStatistician* statistician =
       rtp_receive_statistics_->GetStatistician(header.ssrc);
   if (!statistician)
     return false;
   // Check if this is a retransmission.
   int64_t min_rtt = 0;
   rtp_rtcp_->RTT(rtp_receiver_->SSRC(), NULL, NULL, &min_rtt, NULL);
   return !in_order &&
       statistician->IsRetransmitOfOldPacket(header, min_rtt);
 }
 }  // namespace webrtc
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/video_engine/vie_receiver.h"

	#include <vector>

	#include "webrtc/modules/remote_bitrate_estimator/include/remote_bitrate_estimator.h"
	#include "webrtc/modules/rtp_rtcp/interface/fec_receiver.h"
	#include "webrtc/modules/rtp_rtcp/interface/receive_statistics.h"
	#include "webrtc/modules/rtp_rtcp/interface/remote_ntp_time_estimator.h"
	#include "webrtc/modules/rtp_rtcp/interface/rtp_cvo.h"
	#include "webrtc/modules/rtp_rtcp/interface/rtp_header_parser.h"
	#include "webrtc/modules/rtp_rtcp/interface/rtp_payload_registry.h"
	#include "webrtc/modules/rtp_rtcp/interface/rtp_receiver.h"
	#include "webrtc/modules/rtp_rtcp/interface/rtp_rtcp.h"
	#include "webrtc/modules/video_coding/main/interface/video_coding.h"
	#include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
	#include "webrtc/system_wrappers/interface/logging.h"
	#include "webrtc/system_wrappers/interface/metrics.h"
	#include "webrtc/system_wrappers/interface/tick_util.h"
	#include "webrtc/system_wrappers/interface/timestamp_extrapolator.h"
	#include "webrtc/system_wrappers/interface/trace.h"

	namespace webrtc {

	static const int kPacketLogIntervalMs = 10000;

	ViEReceiver::ViEReceiver(const int32_t channel_id,
	VideoCodingModule* module_vcm,
	RemoteBitrateEstimator* remote_bitrate_estimator,
	RtpFeedback* rtp_feedback)
	: receive_cs_(CriticalSectionWrapper::CreateCriticalSection()),
	clock_(Clock::GetRealTimeClock()),
	rtp_header_parser_(RtpHeaderParser::Create()),
	rtp_payload_registry_(
	new RTPPayloadRegistry(RTPPayloadStrategy::CreateStrategy(false))),
	rtp_receiver_(
	RtpReceiver::CreateVideoReceiver(channel_id,
	clock_,
	this,
	rtp_feedback,
	rtp_payload_registry_.get())),
	rtp_receive_statistics_(ReceiveStatistics::Create(clock_)),
	fec_receiver_(FecReceiver::Create(this)),
	rtp_rtcp_(NULL),
	vcm_(module_vcm),
	remote_bitrate_estimator_(remote_bitrate_estimator),
	ntp_estimator_(new RemoteNtpTimeEstimator(clock_)),
	receiving_(false),
	restored_packet_in_use_(false),
	receiving_ast_enabled_(false),
	receiving_cvo_enabled_(false),
	last_packet_log_ms_(-1) {
	assert(remote_bitrate_estimator);
	}

	ViEReceiver::~ViEReceiver() {
	UpdateHistograms();
	}

	void ViEReceiver::UpdateHistograms() {
	FecPacketCounter counter = fec_receiver_->GetPacketCounter();
	if (counter.num_packets > 0) {
	RTC_HISTOGRAM_PERCENTAGE(
	"WebRTC.Video.ReceivedFecPacketsInPercent",
	static_cast<int>(counter.num_fec_packets * 100 / counter.num_packets));
	}
	if (counter.num_fec_packets > 0) {
	RTC_HISTOGRAM_PERCENTAGE("WebRTC.Video.RecoveredMediaPacketsInPercentOfFec",
	static_cast<int>(counter.num_recovered_packets *
	100 / counter.num_fec_packets));
	}
	}

	bool ViEReceiver::SetReceiveCodec(const VideoCodec& video_codec) {
	int8_t old_pltype = -1;
	if (rtp_payload_registry_->ReceivePayloadType(video_codec.plName,
	kVideoPayloadTypeFrequency,
	0,
	video_codec.maxBitrate,
	&old_pltype) != -1) {
	rtp_payload_registry_->DeRegisterReceivePayload(old_pltype);
	}

	return RegisterPayload(video_codec);
	}

	bool ViEReceiver::RegisterPayload(const VideoCodec& video_codec) {
	return rtp_receiver_->RegisterReceivePayload(video_codec.plName,
	video_codec.plType,
	kVideoPayloadTypeFrequency,
	0,
	video_codec.maxBitrate) == 0;
	}

	void ViEReceiver::SetNackStatus(bool enable,
	int max_nack_reordering_threshold) {
	if (!enable) {
	// Reset the threshold back to the lower default threshold when NACK is
	// disabled since we no longer will be receiving retransmissions.
	max_nack_reordering_threshold = kDefaultMaxReorderingThreshold;
	}
	rtp_receive_statistics_->SetMaxReorderingThreshold(
	max_nack_reordering_threshold);
	rtp_receiver_->SetNACKStatus(enable ? kNackRtcp : kNackOff);
	}

	void ViEReceiver::SetRtxPayloadType(int payload_type,
	int associated_payload_type) {
	rtp_payload_registry_->SetRtxPayloadType(payload_type,
	associated_payload_type);
	}

	void ViEReceiver::SetRtxSsrc(uint32_t ssrc) {
	rtp_payload_registry_->SetRtxSsrc(ssrc);
	}

	bool ViEReceiver::GetRtxSsrc(uint32_t* ssrc) const {
	return rtp_payload_registry_->GetRtxSsrc(ssrc);
	}

	bool ViEReceiver::IsFecEnabled() const {
	return rtp_payload_registry_->ulpfec_payload_type() > -1;
	}

	uint32_t ViEReceiver::GetRemoteSsrc() const {
	return rtp_receiver_->SSRC();
	}

	int ViEReceiver::GetCsrcs(uint32_t* csrcs) const {
	return rtp_receiver_->CSRCs(csrcs);
	}

	void ViEReceiver::SetRtpRtcpModule(RtpRtcp* module) {
	rtp_rtcp_ = module;
	}

	RtpReceiver* ViEReceiver::GetRtpReceiver() const {
	return rtp_receiver_.get();
	}

	void ViEReceiver::RegisterSimulcastRtpRtcpModules(
	const std::list<RtpRtcp*>& rtp_modules) {
	CriticalSectionScoped cs(receive_cs_.get());
	rtp_rtcp_simulcast_.clear();

	if (!rtp_modules.empty()) {
	rtp_rtcp_simulcast_.insert(rtp_rtcp_simulcast_.begin(),
	rtp_modules.begin(),
	rtp_modules.end());
	}
	}

	bool ViEReceiver::SetReceiveTimestampOffsetStatus(bool enable, int id) {
	if (enable) {
	return rtp_header_parser_->RegisterRtpHeaderExtension(
	kRtpExtensionTransmissionTimeOffset, id);
	} else {
	return rtp_header_parser_->DeregisterRtpHeaderExtension(
	kRtpExtensionTransmissionTimeOffset);
	}
	}

	bool ViEReceiver::SetReceiveAbsoluteSendTimeStatus(bool enable, int id) {
	if (enable) {
	if (rtp_header_parser_->RegisterRtpHeaderExtension(
	kRtpExtensionAbsoluteSendTime, id)) {
	receiving_ast_enabled_ = true;
	return true;
	} else {
	return false;
	}
	} else {
	receiving_ast_enabled_ = false;
	return rtp_header_parser_->DeregisterRtpHeaderExtension(
	kRtpExtensionAbsoluteSendTime);
	}
	}

	bool ViEReceiver::SetReceiveVideoRotationStatus(bool enable, int id) {
	if (enable) {
	if (rtp_header_parser_->RegisterRtpHeaderExtension(
	kRtpExtensionVideoRotation, id)) {
	receiving_cvo_enabled_ = true;
	return true;
	} else {
	return false;
	}
	} else {
	receiving_cvo_enabled_ = false;
	return rtp_header_parser_->DeregisterRtpHeaderExtension(
	kRtpExtensionVideoRotation);
	}
	}

	int ViEReceiver::ReceivedRTPPacket(const void* rtp_packet,
	size_t rtp_packet_length,
	const PacketTime& packet_time) {
	return InsertRTPPacket(static_cast<const uint8_t*>(rtp_packet),
	rtp_packet_length, packet_time);
	}

	int ViEReceiver::ReceivedRTCPPacket(const void* rtcp_packet,
	size_t rtcp_packet_length) {
	return InsertRTCPPacket(static_cast<const uint8_t*>(rtcp_packet),
	rtcp_packet_length);
	}

	int32_t ViEReceiver::OnReceivedPayloadData(const uint8_t* payload_data,
	const size_t payload_size,
	const WebRtcRTPHeader* rtp_header) {
	WebRtcRTPHeader rtp_header_with_ntp = *rtp_header;
	rtp_header_with_ntp.ntp_time_ms =
	ntp_estimator_->Estimate(rtp_header->header.timestamp);
	if (vcm_->IncomingPacket(payload_data,
	payload_size,
	rtp_header_with_ntp) != 0) {
	// Check this...
	return -1;
	}
	return 0;
	}

	bool ViEReceiver::OnRecoveredPacket(const uint8_t* rtp_packet,
	size_t rtp_packet_length) {
	RTPHeader header;
	if (!rtp_header_parser_->Parse(rtp_packet, rtp_packet_length, &header)) {
	return false;
	}
	header.payload_type_frequency = kVideoPayloadTypeFrequency;
	bool in_order = IsPacketInOrder(header);
	return ReceivePacket(rtp_packet, rtp_packet_length, header, in_order);
	}

	int ViEReceiver::InsertRTPPacket(const uint8_t* rtp_packet,
	size_t rtp_packet_length,
	const PacketTime& packet_time) {
	{
	CriticalSectionScoped cs(receive_cs_.get());
	if (!receiving_) {
	return -1;
	}
	}

	RTPHeader header;
	if (!rtp_header_parser_->Parse(rtp_packet, rtp_packet_length,
	&header)) {
	return -1;
	}
	size_t payload_length = rtp_packet_length - header.headerLength;
	int64_t arrival_time_ms;
	int64_t now_ms = clock_->TimeInMilliseconds();
	if (packet_time.timestamp != -1)
	arrival_time_ms = (packet_time.timestamp + 500) / 1000;
	else
	arrival_time_ms = now_ms;

	{
	// Periodically log the RTP header of incoming packets.
	CriticalSectionScoped cs(receive_cs_.get());
	if (now_ms - last_packet_log_ms_ > kPacketLogIntervalMs) {
	std::stringstream ss;
	ss << "Packet received on SSRC: " << header.ssrc << " with payload type: "
	<< static_cast<int>(header.payloadType) << ", timestamp: "
	<< header.timestamp << ", sequence number: " << header.sequenceNumber
	<< ", arrival time: " << arrival_time_ms;
	if (header.extension.hasTransmissionTimeOffset)
	ss << ", toffset: " << header.extension.transmissionTimeOffset;
	if (header.extension.hasAbsoluteSendTime)
	ss << ", abs send time: " << header.extension.absoluteSendTime;
	LOG(LS_INFO) << ss.str();
	last_packet_log_ms_ = now_ms;
	}
	}

	remote_bitrate_estimator_->IncomingPacket(arrival_time_ms, payload_length,
	header, true);
	header.payload_type_frequency = kVideoPayloadTypeFrequency;

	bool in_order = IsPacketInOrder(header);
	rtp_payload_registry_->SetIncomingPayloadType(header);
	int ret = ReceivePacket(rtp_packet, rtp_packet_length, header, in_order)
	? 0
	: -1;
	// Update receive statistics after ReceivePacket.
	// Receive statistics will be reset if the payload type changes (make sure
	// that the first packet is included in the stats).
	rtp_receive_statistics_->IncomingPacket(
	header, rtp_packet_length, IsPacketRetransmitted(header, in_order));
	return ret;
	}

	bool ViEReceiver::ReceivePacket(const uint8_t* packet,
	size_t packet_length,
	const RTPHeader& header,
	bool in_order) {
	if (rtp_payload_registry_->IsEncapsulated(header)) {
	return ParseAndHandleEncapsulatingHeader(packet, packet_length, header);
	}
	const uint8_t* payload = packet + header.headerLength;
	assert(packet_length >= header.headerLength);
	size_t payload_length = packet_length - header.headerLength;
	PayloadUnion payload_specific;
	if (!rtp_payload_registry_->GetPayloadSpecifics(header.payloadType,
	&payload_specific)) {
	return false;
	}
	return rtp_receiver_->IncomingRtpPacket(header, payload, payload_length,
	payload_specific, in_order);
	}

	bool ViEReceiver::ParseAndHandleEncapsulatingHeader(const uint8_t* packet,
	size_t packet_length,
	const RTPHeader& header) {
	if (rtp_payload_registry_->IsRed(header)) {
	int8_t ulpfec_pt = rtp_payload_registry_->ulpfec_payload_type();
	if (packet[header.headerLength] == ulpfec_pt) {
	rtp_receive_statistics_->FecPacketReceived(header, packet_length);
	// Notify vcm about received FEC packets to avoid NACKing these packets.
	NotifyReceiverOfFecPacket(header);
	}
	if (fec_receiver_->AddReceivedRedPacket(
	header, packet, packet_length, ulpfec_pt) != 0) {
	return false;
	}
	return fec_receiver_->ProcessReceivedFec() == 0;
	} else if (rtp_payload_registry_->IsRtx(header)) {
	if (header.headerLength + header.paddingLength == packet_length) {
	// This is an empty packet and should be silently dropped before trying to
	// parse the RTX header.
	return true;
	}
	// Remove the RTX header and parse the original RTP header.
	if (packet_length < header.headerLength)
	return false;
	if (packet_length > sizeof(restored_packet_))
	return false;
	CriticalSectionScoped cs(receive_cs_.get());
	if (restored_packet_in_use_) {
	LOG(LS_WARNING) << "Multiple RTX headers detected, dropping packet.";
	return false;
	}
	uint8_t* restored_packet_ptr = restored_packet_;
	if (!rtp_payload_registry_->RestoreOriginalPacket(
	&restored_packet_ptr, packet, &packet_length, rtp_receiver_->SSRC(),
	header)) {
	LOG(LS_WARNING) << "Incoming RTX packet: Invalid RTP header";
	return false;
	}
	restored_packet_in_use_ = true;
	bool ret = OnRecoveredPacket(restored_packet_ptr, packet_length);
	restored_packet_in_use_ = false;
	return ret;
	}
	return false;
	}

	void ViEReceiver::NotifyReceiverOfFecPacket(const RTPHeader& header) {
	int8_t last_media_payload_type =
	rtp_payload_registry_->last_received_media_payload_type();
	if (last_media_payload_type < 0) {
	LOG(LS_WARNING) << "Failed to get last media payload type.";
	return;
	}
	// Fake an empty media packet.
	WebRtcRTPHeader rtp_header = {};
	rtp_header.header = header;
	rtp_header.header.payloadType = last_media_payload_type;
	rtp_header.header.paddingLength = 0;
	PayloadUnion payload_specific;
	if (!rtp_payload_registry_->GetPayloadSpecifics(last_media_payload_type,
	&payload_specific)) {
	LOG(LS_WARNING) << "Failed to get payload specifics.";
	return;
	}
	rtp_header.type.Video.codec = payload_specific.Video.videoCodecType;
	rtp_header.type.Video.rotation = kVideoRotation_0;
	if (header.extension.hasVideoRotation) {
	rtp_header.type.Video.rotation =
	ConvertCVOByteToVideoRotation(header.extension.videoRotation);
	}
	OnReceivedPayloadData(NULL, 0, &rtp_header);
	}

	int ViEReceiver::InsertRTCPPacket(const uint8_t* rtcp_packet,
	size_t rtcp_packet_length) {
	{
	CriticalSectionScoped cs(receive_cs_.get());
	if (!receiving_) {
	return -1;
	}

	std::list<RtpRtcp*>::iterator it = rtp_rtcp_simulcast_.begin();
	while (it != rtp_rtcp_simulcast_.end()) {
	RtpRtcp* rtp_rtcp = *it++;
	rtp_rtcp->IncomingRtcpPacket(rtcp_packet, rtcp_packet_length);
	}
	}
	assert(rtp_rtcp_); // Should be set by owner at construction time.
	int ret = rtp_rtcp_->IncomingRtcpPacket(rtcp_packet, rtcp_packet_length);
	if (ret != 0) {
	return ret;
	}

	int64_t rtt = 0;
	rtp_rtcp_->RTT(rtp_receiver_->SSRC(), &rtt, NULL, NULL, NULL);
	if (rtt == 0) {
	// Waiting for valid rtt.
	return 0;
	}
	uint32_t ntp_secs = 0;
	uint32_t ntp_frac = 0;
	uint32_t rtp_timestamp = 0;
	if (0 != rtp_rtcp_->RemoteNTP(&ntp_secs, &ntp_frac, NULL, NULL,
	&rtp_timestamp)) {
	// Waiting for RTCP.
	return 0;
	}
	ntp_estimator_->UpdateRtcpTimestamp(rtt, ntp_secs, ntp_frac, rtp_timestamp);

	return 0;
	}

	void ViEReceiver::StartReceive() {
	CriticalSectionScoped cs(receive_cs_.get());
	receiving_ = true;
	}

	void ViEReceiver::StopReceive() {
	CriticalSectionScoped cs(receive_cs_.get());
	receiving_ = false;
	}

	ReceiveStatistics* ViEReceiver::GetReceiveStatistics() const {
	return rtp_receive_statistics_.get();
	}

	bool ViEReceiver::IsPacketInOrder(const RTPHeader& header) const {
	StreamStatistician* statistician =
	rtp_receive_statistics_->GetStatistician(header.ssrc);
	if (!statistician)
	return false;
	return statistician->IsPacketInOrder(header.sequenceNumber);
	}

	bool ViEReceiver::IsPacketRetransmitted(const RTPHeader& header,
	bool in_order) const {
	// Retransmissions are handled separately if RTX is enabled.
	if (rtp_payload_registry_->RtxEnabled())
	return false;
	StreamStatistician* statistician =
	rtp_receive_statistics_->GetStatistician(header.ssrc);
	if (!statistician)
	return false;
	// Check if this is a retransmission.
	int64_t min_rtt = 0;
	rtp_rtcp_->RTT(rtp_receiver_->SSRC(), NULL, NULL, &min_rtt, NULL);
	return !in_order &&
	statistician->IsRetransmitOfOldPacket(header, min_rtt);
	}
	} // namespace webrtc