call/rtp_demuxer.h - src - Git at Google

 /*
  *  Copyright (c) 2017 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 CALL_RTP_DEMUXER_H_
 #define CALL_RTP_DEMUXER_H_

 #include <map>
 #include <string>
 #include <utility>
 #include <vector>

 #include "rtc_base/containers/flat_map.h"
 #include "rtc_base/containers/flat_set.h"

 namespace webrtc {

 class RtpPacketReceived;
 class RtpPacketSinkInterface;

 // This struct describes the criteria that will be used to match packets to a
 // specific sink.
 struct RtpDemuxerCriteria {
   RtpDemuxerCriteria();
   ~RtpDemuxerCriteria();

   bool operator==(const RtpDemuxerCriteria& other) const;
   bool operator!=(const RtpDemuxerCriteria& other) const;

   // If not the empty string, will match packets with this MID.
   std::string mid;

   // If not the empty string, will match packets with this as their RTP stream
   // ID or repaired RTP stream ID.
   // Note that if both MID and RSID are specified, this will only match packets
   // that have both specified (either through RTP header extensions, SSRC
   // latching or RTCP).
   std::string rsid;

   // Will match packets with any of these SSRCs.
   flat_set<uint32_t> ssrcs;

   // Will match packets with any of these payload types.
   flat_set<uint8_t> payload_types;

   // Return string representation of demux criteria to facilitate logging
   std::string ToString() const;
 };

 // This class represents the RTP demuxing, for a single RTP session (i.e., one
 // SSRC space, see RFC 7656). It isn't thread aware, leaving responsibility of
 // multithreading issues to the user of this class.
 // The demuxing algorithm follows the sketch given in the BUNDLE draft:
 // https://tools.ietf.org/html/draft-ietf-mmusic-sdp-bundle-negotiation-38#section-10.2
 // with modifications to support RTP stream IDs also.
 //
 // When a packet is received, the RtpDemuxer will route according to the
 // following rules:
 // 1. If the packet contains the MID header extension, and no sink has been
 //    added with that MID as a criteria, the packet is not routed.
 // 2. If the packet has the MID header extension, but no RSID or RRID extension,
 //    and the MID is bound to a sink, then bind its SSRC to the same sink and
 //    forward the packet to that sink. Note that rebinding to the same sink is
 //    not an error. (Later packets with that SSRC would therefore be forwarded
 //    to the same sink, whether they have the MID header extension or not.)
 // 3. If the packet has the MID header extension and either the RSID or RRID
 //    extension, and the MID, RSID (or RRID) pair is bound to a sink, then bind
 //    its SSRC to the same sink and forward the packet to that sink. Later
 //    packets with that SSRC will be forwarded to the same sink.
 // 4. If the packet has the RSID or RRID header extension, but no MID extension,
 //    and the RSID or RRID is bound to an RSID sink, then bind its SSRC to the
 //    same sink and forward the packet to that sink. Later packets with that
 //    SSRC will be forwarded to the same sink.
 // 5. If the packet's SSRC is bound to an SSRC through a previous call to
 //    AddSink, then forward the packet to that sink. Note that the RtpDemuxer
 //    will not verify the payload type even if included in the sink's criteria.
 //    The sink is expected to do the check in its handler.
 // 6. If the packet's payload type is bound to exactly one payload type sink
 //    through an earlier call to AddSink, then forward the packet to that sink.
 // 7. Otherwise, the packet is not routed.
 //
 // In summary, the routing algorithm will always try to first match MID and RSID
 // (including through SSRC binding), match SSRC directly as needed, and use
 // payload types only if all else fails.
 class RtpDemuxer {
  public:
   // Maximum number of unique SSRC bindings allowed. This limit is to prevent
   // memory overuse attacks due to a malicious peer sending many packets with
   // different SSRCs.
   static constexpr int kMaxSsrcBindings = 1000;

   // Returns a string that contains all the attributes of the given packet
   // relevant for demuxing.
   static std::string DescribePacket(const RtpPacketReceived& packet);

   explicit RtpDemuxer(bool use_mid = true);
   ~RtpDemuxer();

   RtpDemuxer(const RtpDemuxer&) = delete;
   void operator=(const RtpDemuxer&) = delete;

   // Registers a sink that will be notified when RTP packets match its given
   // criteria according to the algorithm described in the class description.
   // Returns true if the sink was successfully added.
   // Returns false in the following situations:
   // - Only MID is specified and the MID is already registered.
   // - Only RSID is specified and the RSID is already registered.
   // - Both MID and RSID is specified and the (MID, RSID) pair is already
   //   registered.
   // - Any of the criteria SSRCs are already registered.
   // If false is returned, no changes are made to the demuxer state.
   bool AddSink(const RtpDemuxerCriteria& criteria,
                RtpPacketSinkInterface* sink);

   // Registers a sink. Multiple SSRCs may be mapped to the same sink, but
   // each SSRC may only be mapped to one sink. The return value reports
   // whether the association has been recorded or rejected. Rejection may occur
   // if the SSRC has already been associated with a sink. The previously added
   // sink is *not* forgotten.
   bool AddSink(uint32_t ssrc, RtpPacketSinkInterface* sink);

   // Registers a sink's association to an RSID. Only one sink may be associated
   // with a given RSID. Null pointer is not allowed.
   void AddSink(const std::string& rsid, RtpPacketSinkInterface* sink);

   // Removes a sink. Return value reports if anything was actually removed.
   // Null pointer is not allowed.
   bool RemoveSink(const RtpPacketSinkInterface* sink);

   // Demuxes the given packet and forwards it to the chosen sink. Returns true
   // if the packet was forwarded and false if the packet was dropped.
   bool OnRtpPacket(const RtpPacketReceived& packet);

  private:
   // Returns true if adding a sink with the given criteria would cause conflicts
   // with the existing criteria and should be rejected.
   bool CriteriaWouldConflict(const RtpDemuxerCriteria& criteria) const;

   // Runs the demux algorithm on the given packet and returns the sink that
   // should receive the packet.
   // Will record any SSRC<->ID associations along the way.
   // If the packet should be dropped, this method returns null.
   RtpPacketSinkInterface* ResolveSink(const RtpPacketReceived& packet);

   // Used by the ResolveSink algorithm.
   RtpPacketSinkInterface* ResolveSinkByMid(const std::string& mid,
                                            uint32_t ssrc);
   RtpPacketSinkInterface* ResolveSinkByMidRsid(const std::string& mid,
                                                const std::string& rsid,
                                                uint32_t ssrc);
   RtpPacketSinkInterface* ResolveSinkByRsid(const std::string& rsid,
                                             uint32_t ssrc);
   RtpPacketSinkInterface* ResolveSinkByPayloadType(uint8_t payload_type,
                                                    uint32_t ssrc);

   // Regenerate the known_mids_ set from information in the sink_by_mid_ and
   // sink_by_mid_and_rsid_ maps.
   void RefreshKnownMids();

   // Map each sink by its component attributes to facilitate quick lookups.
   // Payload Type mapping is a multimap because if two sinks register for the
   // same payload type, both AddSinks succeed but we must know not to demux on
   // that attribute since it is ambiguous.
   // Note: Mappings are only modified by AddSink/RemoveSink (except for
   // SSRC mapping which receives all MID, payload type, or RSID to SSRC bindings
   // discovered when demuxing packets).
   flat_map<std::string, RtpPacketSinkInterface*> sink_by_mid_;
   flat_map<uint32_t, RtpPacketSinkInterface*> sink_by_ssrc_;
   std::multimap<uint8_t, RtpPacketSinkInterface*> sinks_by_pt_;
   flat_map<std::pair<std::string, std::string>, RtpPacketSinkInterface*>
       sink_by_mid_and_rsid_;
   flat_map<std::string, RtpPacketSinkInterface*> sink_by_rsid_;

   // Tracks all the MIDs that have been identified in added criteria. Used to
   // determine if a packet should be dropped right away because the MID is
   // unknown.
   flat_set<std::string> known_mids_;

   // Records learned mappings of MID --> SSRC and RSID --> SSRC as packets are
   // received.
   // This is stored separately from the sink mappings because if a sink is
   // removed we want to still remember these associations.
   flat_map<uint32_t, std::string> mid_by_ssrc_;
   flat_map<uint32_t, std::string> rsid_by_ssrc_;

   // Adds a binding from the SSRC to the given sink.
   void AddSsrcSinkBinding(uint32_t ssrc, RtpPacketSinkInterface* sink);

   const bool use_mid_;
 };

 }  // namespace webrtc

 #endif  // CALL_RTP_DEMUXER_H_
	/*
	* Copyright (c) 2017 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 CALL_RTP_DEMUXER_H_
	#define CALL_RTP_DEMUXER_H_

	#include <map>
	#include <string>
	#include <utility>
	#include <vector>

	#include "rtc_base/containers/flat_map.h"
	#include "rtc_base/containers/flat_set.h"

	namespace webrtc {

	class RtpPacketReceived;
	class RtpPacketSinkInterface;

	// This struct describes the criteria that will be used to match packets to a
	// specific sink.
	struct RtpDemuxerCriteria {
	RtpDemuxerCriteria();
	~RtpDemuxerCriteria();

	bool operator==(const RtpDemuxerCriteria& other) const;
	bool operator!=(const RtpDemuxerCriteria& other) const;

	// If not the empty string, will match packets with this MID.
	std::string mid;

	// If not the empty string, will match packets with this as their RTP stream
	// ID or repaired RTP stream ID.
	// Note that if both MID and RSID are specified, this will only match packets
	// that have both specified (either through RTP header extensions, SSRC
	// latching or RTCP).
	std::string rsid;

	// Will match packets with any of these SSRCs.
	flat_set<uint32_t> ssrcs;

	// Will match packets with any of these payload types.
	flat_set<uint8_t> payload_types;

	// Return string representation of demux criteria to facilitate logging
	std::string ToString() const;
	};

	// This class represents the RTP demuxing, for a single RTP session (i.e., one
	// SSRC space, see RFC 7656). It isn't thread aware, leaving responsibility of
	// multithreading issues to the user of this class.
	// The demuxing algorithm follows the sketch given in the BUNDLE draft:
	// https://tools.ietf.org/html/draft-ietf-mmusic-sdp-bundle-negotiation-38#section-10.2
	// with modifications to support RTP stream IDs also.
	//
	// When a packet is received, the RtpDemuxer will route according to the
	// following rules:
	// 1. If the packet contains the MID header extension, and no sink has been
	// added with that MID as a criteria, the packet is not routed.
	// 2. If the packet has the MID header extension, but no RSID or RRID extension,
	// and the MID is bound to a sink, then bind its SSRC to the same sink and
	// forward the packet to that sink. Note that rebinding to the same sink is
	// not an error. (Later packets with that SSRC would therefore be forwarded
	// to the same sink, whether they have the MID header extension or not.)
	// 3. If the packet has the MID header extension and either the RSID or RRID
	// extension, and the MID, RSID (or RRID) pair is bound to a sink, then bind
	// its SSRC to the same sink and forward the packet to that sink. Later
	// packets with that SSRC will be forwarded to the same sink.
	// 4. If the packet has the RSID or RRID header extension, but no MID extension,
	// and the RSID or RRID is bound to an RSID sink, then bind its SSRC to the
	// same sink and forward the packet to that sink. Later packets with that
	// SSRC will be forwarded to the same sink.
	// 5. If the packet's SSRC is bound to an SSRC through a previous call to
	// AddSink, then forward the packet to that sink. Note that the RtpDemuxer
	// will not verify the payload type even if included in the sink's criteria.
	// The sink is expected to do the check in its handler.
	// 6. If the packet's payload type is bound to exactly one payload type sink
	// through an earlier call to AddSink, then forward the packet to that sink.
	// 7. Otherwise, the packet is not routed.
	//
	// In summary, the routing algorithm will always try to first match MID and RSID
	// (including through SSRC binding), match SSRC directly as needed, and use
	// payload types only if all else fails.
	class RtpDemuxer {
	public:
	// Maximum number of unique SSRC bindings allowed. This limit is to prevent
	// memory overuse attacks due to a malicious peer sending many packets with
	// different SSRCs.
	static constexpr int kMaxSsrcBindings = 1000;

	// Returns a string that contains all the attributes of the given packet
	// relevant for demuxing.
	static std::string DescribePacket(const RtpPacketReceived& packet);

	explicit RtpDemuxer(bool use_mid = true);
	~RtpDemuxer();

	RtpDemuxer(const RtpDemuxer&) = delete;
	void operator=(const RtpDemuxer&) = delete;

	// Registers a sink that will be notified when RTP packets match its given
	// criteria according to the algorithm described in the class description.
	// Returns true if the sink was successfully added.
	// Returns false in the following situations:
	// - Only MID is specified and the MID is already registered.
	// - Only RSID is specified and the RSID is already registered.
	// - Both MID and RSID is specified and the (MID, RSID) pair is already
	// registered.
	// - Any of the criteria SSRCs are already registered.
	// If false is returned, no changes are made to the demuxer state.
	bool AddSink(const RtpDemuxerCriteria& criteria,
	RtpPacketSinkInterface* sink);

	// Registers a sink. Multiple SSRCs may be mapped to the same sink, but
	// each SSRC may only be mapped to one sink. The return value reports
	// whether the association has been recorded or rejected. Rejection may occur
	// if the SSRC has already been associated with a sink. The previously added
	// sink is not forgotten.
	bool AddSink(uint32_t ssrc, RtpPacketSinkInterface* sink);

	// Registers a sink's association to an RSID. Only one sink may be associated
	// with a given RSID. Null pointer is not allowed.
	void AddSink(const std::string& rsid, RtpPacketSinkInterface* sink);

	// Removes a sink. Return value reports if anything was actually removed.
	// Null pointer is not allowed.
	bool RemoveSink(const RtpPacketSinkInterface* sink);

	// Demuxes the given packet and forwards it to the chosen sink. Returns true
	// if the packet was forwarded and false if the packet was dropped.
	bool OnRtpPacket(const RtpPacketReceived& packet);

	private:
	// Returns true if adding a sink with the given criteria would cause conflicts
	// with the existing criteria and should be rejected.
	bool CriteriaWouldConflict(const RtpDemuxerCriteria& criteria) const;

	// Runs the demux algorithm on the given packet and returns the sink that
	// should receive the packet.
	// Will record any SSRC<->ID associations along the way.
	// If the packet should be dropped, this method returns null.
	RtpPacketSinkInterface* ResolveSink(const RtpPacketReceived& packet);

	// Used by the ResolveSink algorithm.
	RtpPacketSinkInterface* ResolveSinkByMid(const std::string& mid,
	uint32_t ssrc);
	RtpPacketSinkInterface* ResolveSinkByMidRsid(const std::string& mid,
	const std::string& rsid,
	uint32_t ssrc);
	RtpPacketSinkInterface* ResolveSinkByRsid(const std::string& rsid,
	uint32_t ssrc);
	RtpPacketSinkInterface* ResolveSinkByPayloadType(uint8_t payload_type,
	uint32_t ssrc);

	// Regenerate the known_mids_ set from information in the sink_by_mid_ and
	// sink_by_mid_and_rsid_ maps.
	void RefreshKnownMids();

	// Map each sink by its component attributes to facilitate quick lookups.
	// Payload Type mapping is a multimap because if two sinks register for the
	// same payload type, both AddSinks succeed but we must know not to demux on
	// that attribute since it is ambiguous.
	// Note: Mappings are only modified by AddSink/RemoveSink (except for
	// SSRC mapping which receives all MID, payload type, or RSID to SSRC bindings
	// discovered when demuxing packets).
	flat_map<std::string, RtpPacketSinkInterface*> sink_by_mid_;
	flat_map<uint32_t, RtpPacketSinkInterface*> sink_by_ssrc_;
	std::multimap<uint8_t, RtpPacketSinkInterface*> sinks_by_pt_;
	flat_map<std::pair<std::string, std::string>, RtpPacketSinkInterface*>
	sink_by_mid_and_rsid_;
	flat_map<std::string, RtpPacketSinkInterface*> sink_by_rsid_;

	// Tracks all the MIDs that have been identified in added criteria. Used to
	// determine if a packet should be dropped right away because the MID is
	// unknown.
	flat_set<std::string> known_mids_;

	// Records learned mappings of MID --> SSRC and RSID --> SSRC as packets are
	// received.
	// This is stored separately from the sink mappings because if a sink is
	// removed we want to still remember these associations.
	flat_map<uint32_t, std::string> mid_by_ssrc_;
	flat_map<uint32_t, std::string> rsid_by_ssrc_;

	// Adds a binding from the SSRC to the given sink.
	void AddSsrcSinkBinding(uint32_t ssrc, RtpPacketSinkInterface* sink);

	const bool use_mid_;
	};

	} // namespace webrtc

	#endif // CALL_RTP_DEMUXER_H_