/* * 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. */ #ifndef WEBRTC_MODULES_RTP_RTCP_SOURCE_RTCP_RECEIVER_H_ #define WEBRTC_MODULES_RTP_RTCP_SOURCE_RTCP_RECEIVER_H_ #include #include #include #include "webrtc/base/criticalsection.h" #include "webrtc/base/thread_annotations.h" #include "webrtc/modules/rtp_rtcp/include/rtp_rtcp_defines.h" #include "webrtc/modules/rtp_rtcp/source/rtcp_receiver_help.h" #include "webrtc/modules/rtp_rtcp/source/rtcp_utility.h" #include "webrtc/typedefs.h" namespace webrtc { namespace rtcp { class TmmbItem; } // namespace rtcp class RTCPReceiver { public: class ModuleRtpRtcp { public: virtual void SetTmmbn(std::vector bounding_set) = 0; virtual void OnRequestSendReport() = 0; virtual void OnReceivedNack( const std::vector& nack_sequence_numbers) = 0; virtual void OnReceivedRtcpReportBlocks( const ReportBlockList& report_blocks) = 0; protected: virtual ~ModuleRtpRtcp() = default; }; RTCPReceiver(Clock* clock, bool receiver_only, RtcpPacketTypeCounterObserver* packet_type_counter_observer, RtcpBandwidthObserver* rtcp_bandwidth_observer, RtcpIntraFrameObserver* rtcp_intra_frame_observer, TransportFeedbackObserver* transport_feedback_observer, ModuleRtpRtcp* owner); virtual ~RTCPReceiver(); bool IncomingPacket(const uint8_t* packet, size_t packet_size); int64_t LastReceived(); int64_t LastReceivedReceiverReport() const; void SetSsrcs(uint32_t main_ssrc, const std::set& registered_ssrcs); void SetRemoteSSRC(uint32_t ssrc); uint32_t RemoteSSRC() const; int32_t IncomingRTCPPacket( RTCPHelp::RTCPPacketInformation& rtcpPacketInformation, RTCPUtility::RTCPParserV2* rtcpParser); void TriggerCallbacksFromRTCPPacket( RTCPHelp::RTCPPacketInformation& rtcpPacketInformation); // get received cname int32_t CNAME(uint32_t remoteSSRC, char cName[RTCP_CNAME_SIZE]) const; // get received NTP bool NTP(uint32_t* ReceivedNTPsecs, uint32_t* ReceivedNTPfrac, uint32_t* RTCPArrivalTimeSecs, uint32_t* RTCPArrivalTimeFrac, uint32_t* rtcp_timestamp) const; bool LastReceivedXrReferenceTimeInfo(RtcpReceiveTimeInfo* info) const; // get rtt int32_t RTT(uint32_t remoteSSRC, int64_t* RTT, int64_t* avgRTT, int64_t* minRTT, int64_t* maxRTT) const; int32_t SenderInfoReceived(RTCPSenderInfo* senderInfo) const; void SetRtcpXrRrtrStatus(bool enable); bool GetAndResetXrRrRtt(int64_t* rtt_ms); // get statistics int32_t StatisticsReceived(std::vector* receiveBlocks) const; // Returns true if we haven't received an RTCP RR for several RTCP // intervals, but only triggers true once. bool RtcpRrTimeout(int64_t rtcp_interval_ms); // Returns true if we haven't received an RTCP RR telling the receive side // has not received RTP packets for too long, i.e. extended highest sequence // number hasn't increased for several RTCP intervals. The function only // returns true once until a new RR is received. bool RtcpRrSequenceNumberTimeout(int64_t rtcp_interval_ms); std::vector TmmbrReceived() const; bool UpdateRTCPReceiveInformationTimers(); std::vector BoundingSet(bool* tmmbr_owner); void UpdateTmmbr(); void RegisterRtcpStatisticsCallback(RtcpStatisticsCallback* callback); RtcpStatisticsCallback* GetRtcpStatisticsCallback(); protected: RTCPUtility::RTCPCnameInformation* CreateCnameInformation( uint32_t remoteSSRC); RTCPUtility::RTCPCnameInformation* GetCnameInformation( uint32_t remoteSSRC) const; RTCPHelp::RTCPReceiveInformation* CreateReceiveInformation( uint32_t remoteSSRC); RTCPHelp::RTCPReceiveInformation* GetReceiveInformation(uint32_t remoteSSRC); void HandleSenderReceiverReport( RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleReportBlock(const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation, uint32_t remoteSSRC) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleSDES(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleSDESChunk(RTCPUtility::RTCPParserV2& rtcpParser) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleXrHeader(RTCPUtility::RTCPParserV2& parser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleXrReceiveReferenceTime( RTCPUtility::RTCPParserV2& parser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleXrDlrrReportBlock( RTCPUtility::RTCPParserV2& parser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleXrDlrrReportBlockItem( const RTCPUtility::RTCPPacket& packet, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleXRVOIPMetric( RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleNACK(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleNACKItem(const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleBYE(RTCPUtility::RTCPParserV2& rtcpParser) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandlePLI(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleSLI(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleSLIItem(const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleRPSI(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandlePsfbApp(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleREMBItem(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleIJ(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleIJItem(const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleTMMBR(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleTMMBRItem(RTCPHelp::RTCPReceiveInformation& receiveInfo, const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation, uint32_t senderSSRC) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleTMMBN(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleSR_REQ(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleTMMBNItem(RTCPHelp::RTCPReceiveInformation& receiveInfo, const RTCPUtility::RTCPPacket& rtcpPacket) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleFIR(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleFIRItem(RTCPHelp::RTCPReceiveInformation* receiveInfo, const RTCPUtility::RTCPPacket& rtcpPacket, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleAPP(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleAPPItem(RTCPUtility::RTCPParserV2& rtcpParser, RTCPHelp::RTCPPacketInformation& rtcpPacketInformation) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); void HandleTransportFeedback( RTCPUtility::RTCPParserV2* rtcp_parser, RTCPHelp::RTCPPacketInformation* rtcp_packet_information) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); private: typedef std::map ReceivedInfoMap; // RTCP report block information mapped by remote SSRC. typedef std::map ReportBlockInfoMap; // RTCP report block information map mapped by source SSRC. typedef std::map ReportBlockMap; RTCPHelp::RTCPReportBlockInformation* CreateOrGetReportBlockInformation( uint32_t remote_ssrc, uint32_t source_ssrc) EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); RTCPHelp::RTCPReportBlockInformation* GetReportBlockInformation( uint32_t remote_ssrc, uint32_t source_ssrc) const EXCLUSIVE_LOCKS_REQUIRED(_criticalSectionRTCPReceiver); Clock* const _clock; const bool receiver_only_; int64_t _lastReceived; ModuleRtpRtcp& _rtpRtcp; rtc::CriticalSection _criticalSectionFeedbacks; RtcpBandwidthObserver* const _cbRtcpBandwidthObserver; RtcpIntraFrameObserver* const _cbRtcpIntraFrameObserver; TransportFeedbackObserver* const _cbTransportFeedbackObserver; rtc::CriticalSection _criticalSectionRTCPReceiver; uint32_t main_ssrc_ GUARDED_BY(_criticalSectionRTCPReceiver); uint32_t _remoteSSRC GUARDED_BY(_criticalSectionRTCPReceiver); std::set registered_ssrcs_ GUARDED_BY(_criticalSectionRTCPReceiver); // Received send report RTCPSenderInfo _remoteSenderInfo; // when did we receive the last send report uint32_t _lastReceivedSRNTPsecs; uint32_t _lastReceivedSRNTPfrac; // Received XR receive time report. RtcpReceiveTimeInfo _remoteXRReceiveTimeInfo; // Time when the report was received. uint32_t _lastReceivedXRNTPsecs; uint32_t _lastReceivedXRNTPfrac; // Estimated rtt, zero when there is no valid estimate. bool xr_rrtr_status_ GUARDED_BY(_criticalSectionRTCPReceiver); int64_t xr_rr_rtt_ms_; // Received report blocks. ReportBlockMap _receivedReportBlockMap GUARDED_BY(_criticalSectionRTCPReceiver); ReceivedInfoMap _receivedInfoMap; std::map _receivedCnameMap; // The last time we received an RTCP RR. int64_t _lastReceivedRrMs; // The time we last received an RTCP RR telling we have successfully // delivered RTP packet to the remote side. int64_t _lastIncreasedSequenceNumberMs; RtcpStatisticsCallback* stats_callback_ GUARDED_BY(_criticalSectionFeedbacks); RtcpPacketTypeCounterObserver* const packet_type_counter_observer_; RtcpPacketTypeCounter packet_type_counter_; RTCPUtility::NackStats nack_stats_; size_t num_skipped_packets_; int64_t last_skipped_packets_warning_; }; } // namespace webrtc #endif // WEBRTC_MODULES_RTP_RTCP_SOURCE_RTCP_RECEIVER_H_