net/dcsctp/rx/data_tracker.h - src/ - Git at Google

 /*
  *  Copyright (c) 2021 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 NET_DCSCTP_RX_DATA_TRACKER_H_
 #define NET_DCSCTP_RX_DATA_TRACKER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <cstdint>
 #include <set>
 #include <string>
 #include <utility>
 #include <vector>

 #include "absl/strings/string_view.h"
 #include "net/dcsctp/common/sequence_numbers.h"
 #include "net/dcsctp/packet/chunk/data_common.h"
 #include "net/dcsctp/packet/chunk/sack_chunk.h"
 #include "net/dcsctp/packet/data.h"
 #include "net/dcsctp/public/dcsctp_handover_state.h"
 #include "net/dcsctp/timer/timer.h"

 namespace dcsctp {

 // Keeps track of received DATA chunks and handles all logic for _when_ to
 // create SACKs and also _how_ to generate them.
 //
 // It only uses TSNs to track delivery and doesn't need to be aware of streams.
 //
 // SACKs are optimally sent every second packet on connections with no packet
 // loss. When packet loss is detected, it's sent for every packet. When SACKs
 // are not sent directly, a timer is used to send a SACK delayed (by RTO/2, or
 // 200ms, whatever is smallest).
 class DataTracker {
  public:
   // The maximum number of duplicate TSNs that will be reported in a SACK.
   static constexpr size_t kMaxDuplicateTsnReported = 20;
   // The maximum number of gap-ack-blocks that will be reported in a SACK.
   static constexpr size_t kMaxGapAckBlocksReported = 20;

   // The maximum number of accepted in-flight DATA chunks. This indicates the
   // maximum difference from this buffer's last cumulative ack TSN, and any
   // received data. Data received beyond this limit will be dropped, which will
   // force the transmitter to send data that actually increases the last
   // cumulative acked TSN.
   static constexpr uint32_t kMaxAcceptedOutstandingFragments = 100000;

   DataTracker(absl::string_view log_prefix,
               Timer* delayed_ack_timer,
               TSN peer_initial_tsn)
       : log_prefix_(log_prefix),
         seen_packet_(false),
         delayed_ack_timer_(*delayed_ack_timer),
         last_cumulative_acked_tsn_(
             tsn_unwrapper_.Unwrap(TSN(*peer_initial_tsn - 1))) {}

   // Indicates if the provided TSN is valid. If this return false, the data
   // should be dropped and not added to any other buffers, which essentially
   // means that there is intentional packet loss.
   bool IsTSNValid(TSN tsn) const;

   // Call for every incoming data chunk. Returns `true` if `tsn` was seen for
   // the first time, and `false` if it has been seen before (a duplicate `tsn`).
   bool Observe(TSN tsn,
                AnyDataChunk::ImmediateAckFlag immediate_ack =
                    AnyDataChunk::ImmediateAckFlag(false));
   // Called at the end of processing an SCTP packet.
   void ObservePacketEnd();

   // Called for incoming FORWARD-TSN/I-FORWARD-TSN chunks. Indicates if the
   // chunk had any effect.
   bool HandleForwardTsn(TSN new_cumulative_ack);

   // Indicates if a SACK should be sent. There may be other reasons to send a
   // SACK, but if this function indicates so, it should be sent as soon as
   // possible. Calling this function will make it clear a flag so that if it's
   // called again, it will probably return false.
   //
   // If the delayed ack timer is running, this method will return false _unless_
   // `also_if_delayed` is set to true. Then it will return true as well.
   bool ShouldSendAck(bool also_if_delayed = false);

   // Returns the last cumulative ack TSN - the last seen data chunk's TSN
   // value before any packet loss was detected.
   TSN last_cumulative_acked_tsn() const {
     return TSN(last_cumulative_acked_tsn_.Wrap());
   }

   bool IsLaterThanCumulativeAckedTsn(TSN tsn) const {
     return tsn_unwrapper_.PeekUnwrap(tsn) > last_cumulative_acked_tsn_;
   }

   // Returns true if the received `tsn` would increase the cumulative ack TSN.
   bool will_increase_cum_ack_tsn(TSN tsn) const;

   // Forces `ShouldSendSack` to return true.
   void ForceImmediateSack();

   // Note that this will clear `duplicates_`, so every SackChunk that is
   // consumed must be sent.
   SackChunk CreateSelectiveAck(size_t a_rwnd);

   void HandleDelayedAckTimerExpiry();

   HandoverReadinessStatus GetHandoverReadiness() const;

   void AddHandoverState(DcSctpSocketHandoverState& state);
   void RestoreFromState(const DcSctpSocketHandoverState& state);

  private:
   enum class AckState {
     // No need to send an ACK.
     kIdle,

     // Has received data chunks (but not yet end of packet).
     kBecomingDelayed,

     // Has received data chunks and the end of a packet. Delayed ack timer is
     // running and a SACK will be sent on expiry, or if DATA is sent, or after
     // next packet with data.
     kDelayed,

     // Send a SACK immediately after handling this packet.
     kImmediate,
   };

   // Represents ranges of TSNs that have been received that are not directly
   // following the last cumulative acked TSN. This information is returned to
   // the sender in the "gap ack blocks" in the SACK chunk. The blocks are always
   // non-overlapping and non-adjacent.
   class AdditionalTsnBlocks {
    public:
     // Represents an inclusive range of received TSNs, i.e. [first, last].
     struct TsnRange {
       TsnRange(UnwrappedTSN first, UnwrappedTSN last)
           : first(first), last(last) {}
       UnwrappedTSN first;
       UnwrappedTSN last;
     };

     // Adds a TSN to the set. This will try to expand any existing block and
     // might merge blocks to ensure that all blocks are non-adjacent. If a
     // current block can't be expanded, a new block is created.
     //
     // The return value indicates if `tsn` was added. If false is returned, the
     // `tsn` was already represented in one of the blocks.
     bool Add(UnwrappedTSN tsn);

     // Erases all TSNs up to, and including `tsn`. This will remove all blocks
     // that are completely below `tsn` and may truncate a block where `tsn` is
     // within that block. In that case, the frontmost block's start TSN will be
     // the next following tsn after `tsn`.
     void EraseTo(UnwrappedTSN tsn);

     // Removes the first block. Must not be called on an empty set.
     void PopFront();

     const std::vector<TsnRange>& blocks() const { return blocks_; }

     bool empty() const { return blocks_.empty(); }

     const TsnRange& front() const { return blocks_.front(); }

    private:
     // A sorted vector of non-overlapping and non-adjacent blocks.
     std::vector<TsnRange> blocks_;
   };

   std::vector<SackChunk::GapAckBlock> CreateGapAckBlocks() const;
   void UpdateAckState(AckState new_state, absl::string_view reason);
   static absl::string_view ToString(AckState ack_state);

   const absl::string_view log_prefix_;
   // If a packet has ever been seen.
   bool seen_packet_;
   Timer& delayed_ack_timer_;
   AckState ack_state_ = AckState::kIdle;
   UnwrappedTSN::Unwrapper tsn_unwrapper_;

   // All TSNs up until (and including) this value have been seen.
   UnwrappedTSN last_cumulative_acked_tsn_;
   // Received TSNs that are not directly following `last_cumulative_acked_tsn_`.
   AdditionalTsnBlocks additional_tsn_blocks_;
   std::set<TSN> duplicate_tsns_;
 };
 }  // namespace dcsctp

 #endif  // NET_DCSCTP_RX_DATA_TRACKER_H_
	/*
	* Copyright (c) 2021 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 NET_DCSCTP_RX_DATA_TRACKER_H_
	#define NET_DCSCTP_RX_DATA_TRACKER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <cstdint>
	#include <set>
	#include <string>
	#include <utility>
	#include <vector>

	#include "absl/strings/string_view.h"
	#include "net/dcsctp/common/sequence_numbers.h"
	#include "net/dcsctp/packet/chunk/data_common.h"
	#include "net/dcsctp/packet/chunk/sack_chunk.h"
	#include "net/dcsctp/packet/data.h"
	#include "net/dcsctp/public/dcsctp_handover_state.h"
	#include "net/dcsctp/timer/timer.h"

	namespace dcsctp {

	// Keeps track of received DATA chunks and handles all logic for _when_ to
	// create SACKs and also _how_ to generate them.
	//
	// It only uses TSNs to track delivery and doesn't need to be aware of streams.
	//
	// SACKs are optimally sent every second packet on connections with no packet
	// loss. When packet loss is detected, it's sent for every packet. When SACKs
	// are not sent directly, a timer is used to send a SACK delayed (by RTO/2, or
	// 200ms, whatever is smallest).
	class DataTracker {
	public:
	// The maximum number of duplicate TSNs that will be reported in a SACK.
	static constexpr size_t kMaxDuplicateTsnReported = 20;
	// The maximum number of gap-ack-blocks that will be reported in a SACK.
	static constexpr size_t kMaxGapAckBlocksReported = 20;

	// The maximum number of accepted in-flight DATA chunks. This indicates the
	// maximum difference from this buffer's last cumulative ack TSN, and any
	// received data. Data received beyond this limit will be dropped, which will
	// force the transmitter to send data that actually increases the last
	// cumulative acked TSN.
	static constexpr uint32_t kMaxAcceptedOutstandingFragments = 100000;

	DataTracker(absl::string_view log_prefix,
	Timer* delayed_ack_timer,
	TSN peer_initial_tsn)
	: log_prefix_(log_prefix),
	seen_packet_(false),
	delayed_ack_timer_(*delayed_ack_timer),
	last_cumulative_acked_tsn_(
	tsn_unwrapper_.Unwrap(TSN(*peer_initial_tsn - 1))) {}

	// Indicates if the provided TSN is valid. If this return false, the data
	// should be dropped and not added to any other buffers, which essentially
	// means that there is intentional packet loss.
	bool IsTSNValid(TSN tsn) const;

	// Call for every incoming data chunk. Returns `true` if `tsn` was seen for
	// the first time, and `false` if it has been seen before (a duplicate `tsn`).
	bool Observe(TSN tsn,
	AnyDataChunk::ImmediateAckFlag immediate_ack =
	AnyDataChunk::ImmediateAckFlag(false));
	// Called at the end of processing an SCTP packet.
	void ObservePacketEnd();

	// Called for incoming FORWARD-TSN/I-FORWARD-TSN chunks. Indicates if the
	// chunk had any effect.
	bool HandleForwardTsn(TSN new_cumulative_ack);

	// Indicates if a SACK should be sent. There may be other reasons to send a
	// SACK, but if this function indicates so, it should be sent as soon as
	// possible. Calling this function will make it clear a flag so that if it's
	// called again, it will probably return false.
	//
	// If the delayed ack timer is running, this method will return false _unless_
	// `also_if_delayed` is set to true. Then it will return true as well.
	bool ShouldSendAck(bool also_if_delayed = false);

	// Returns the last cumulative ack TSN - the last seen data chunk's TSN
	// value before any packet loss was detected.
	TSN last_cumulative_acked_tsn() const {
	return TSN(last_cumulative_acked_tsn_.Wrap());
	}

	bool IsLaterThanCumulativeAckedTsn(TSN tsn) const {
	return tsn_unwrapper_.PeekUnwrap(tsn) > last_cumulative_acked_tsn_;
	}

	// Returns true if the received `tsn` would increase the cumulative ack TSN.
	bool will_increase_cum_ack_tsn(TSN tsn) const;

	// Forces `ShouldSendSack` to return true.
	void ForceImmediateSack();

	// Note that this will clear `duplicates_`, so every SackChunk that is
	// consumed must be sent.
	SackChunk CreateSelectiveAck(size_t a_rwnd);

	void HandleDelayedAckTimerExpiry();

	HandoverReadinessStatus GetHandoverReadiness() const;

	void AddHandoverState(DcSctpSocketHandoverState& state);
	void RestoreFromState(const DcSctpSocketHandoverState& state);

	private:
	enum class AckState {
	// No need to send an ACK.
	kIdle,

	// Has received data chunks (but not yet end of packet).
	kBecomingDelayed,

	// Has received data chunks and the end of a packet. Delayed ack timer is
	// running and a SACK will be sent on expiry, or if DATA is sent, or after
	// next packet with data.
	kDelayed,

	// Send a SACK immediately after handling this packet.
	kImmediate,
	};

	// Represents ranges of TSNs that have been received that are not directly
	// following the last cumulative acked TSN. This information is returned to
	// the sender in the "gap ack blocks" in the SACK chunk. The blocks are always
	// non-overlapping and non-adjacent.
	class AdditionalTsnBlocks {
	public:
	// Represents an inclusive range of received TSNs, i.e. [first, last].
	struct TsnRange {
	TsnRange(UnwrappedTSN first, UnwrappedTSN last)
	: first(first), last(last) {}
	UnwrappedTSN first;
	UnwrappedTSN last;
	};

	// Adds a TSN to the set. This will try to expand any existing block and
	// might merge blocks to ensure that all blocks are non-adjacent. If a
	// current block can't be expanded, a new block is created.
	//
	// The return value indicates if `tsn` was added. If false is returned, the
	// `tsn` was already represented in one of the blocks.
	bool Add(UnwrappedTSN tsn);

	// Erases all TSNs up to, and including `tsn`. This will remove all blocks
	// that are completely below `tsn` and may truncate a block where `tsn` is
	// within that block. In that case, the frontmost block's start TSN will be
	// the next following tsn after `tsn`.
	void EraseTo(UnwrappedTSN tsn);

	// Removes the first block. Must not be called on an empty set.
	void PopFront();

	const std::vector<TsnRange>& blocks() const { return blocks_; }

	bool empty() const { return blocks_.empty(); }

	const TsnRange& front() const { return blocks_.front(); }

	private:
	// A sorted vector of non-overlapping and non-adjacent blocks.
	std::vector<TsnRange> blocks_;
	};

	std::vector<SackChunk::GapAckBlock> CreateGapAckBlocks() const;
	void UpdateAckState(AckState new_state, absl::string_view reason);
	static absl::string_view ToString(AckState ack_state);

	const absl::string_view log_prefix_;
	// If a packet has ever been seen.
	bool seen_packet_;
	Timer& delayed_ack_timer_;
	AckState ack_state_ = AckState::kIdle;
	UnwrappedTSN::Unwrapper tsn_unwrapper_;

	// All TSNs up until (and including) this value have been seen.
	UnwrappedTSN last_cumulative_acked_tsn_;
	// Received TSNs that are not directly following `last_cumulative_acked_tsn_`.
	AdditionalTsnBlocks additional_tsn_blocks_;
	std::set<TSN> duplicate_tsns_;
	};
	} // namespace dcsctp

	#endif // NET_DCSCTP_RX_DATA_TRACKER_H_