LCOV - code coverage report
Current view: top level - src - txrequest.cpp (source / functions) Coverage Total Hit
Test: fuzz_coverage.info Lines: 0.0 % 254 0
Test Date: 2024-11-22 13:24:32 Functions: 0.0 % 52 0
Branches: 0.0 % 292 0

             Branch data     Line data    Source code
       1                 :             : // Copyright (c) 2020-2021 The Bitcoin Core developers
       2                 :             : // Distributed under the MIT software license, see the accompanying
       3                 :             : // file COPYING or http://www.opensource.org/licenses/mit-license.php.
       4                 :             : 
       5                 :             : #include <txrequest.h>
       6                 :             : 
       7                 :             : #include <crypto/siphash.h>
       8                 :             : #include <net.h>
       9                 :             : #include <primitives/transaction.h>
      10                 :             : #include <random.h>
      11                 :             : #include <uint256.h>
      12                 :             : 
      13                 :             : #include <boost/multi_index/indexed_by.hpp>
      14                 :             : #include <boost/multi_index/ordered_index.hpp>
      15                 :             : #include <boost/multi_index/sequenced_index.hpp>
      16                 :             : #include <boost/multi_index/tag.hpp>
      17                 :             : #include <boost/multi_index_container.hpp>
      18                 :             : #include <boost/tuple/tuple.hpp>
      19                 :             : 
      20                 :             : #include <chrono>
      21                 :             : #include <unordered_map>
      22                 :             : #include <utility>
      23                 :             : 
      24                 :             : #include <assert.h>
      25                 :             : 
      26                 :             : namespace {
      27                 :             : 
      28                 :             : /** The various states a (txhash,peer) pair can be in.
      29                 :             :  *
      30                 :             :  * Note that CANDIDATE is split up into 3 substates (DELAYED, BEST, READY), allowing more efficient implementation.
      31                 :             :  * Also note that the sorting order of ByTxHashView relies on the specific order of values in this enum.
      32                 :             :  *
      33                 :             :  * Expected behaviour is:
      34                 :             :  *   - When first announced by a peer, the state is CANDIDATE_DELAYED until reqtime is reached.
      35                 :             :  *   - Announcements that have reached their reqtime but not been requested will be either CANDIDATE_READY or
      36                 :             :  *     CANDIDATE_BEST. Neither of those has an expiration time; they remain in that state until they're requested or
      37                 :             :  *     no longer needed. CANDIDATE_READY announcements are promoted to CANDIDATE_BEST when they're the best one left.
      38                 :             :  *   - When requested, an announcement will be in state REQUESTED until expiry is reached.
      39                 :             :  *   - If expiry is reached, or the peer replies to the request (either with NOTFOUND or the tx), the state becomes
      40                 :             :  *     COMPLETED.
      41                 :             :  */
      42                 :             : enum class State : uint8_t {
      43                 :             :     /** A CANDIDATE announcement whose reqtime is in the future. */
      44                 :             :     CANDIDATE_DELAYED,
      45                 :             :     /** A CANDIDATE announcement that's not CANDIDATE_DELAYED or CANDIDATE_BEST. */
      46                 :             :     CANDIDATE_READY,
      47                 :             :     /** The best CANDIDATE for a given txhash; only if there is no REQUESTED announcement already for that txhash.
      48                 :             :      *  The CANDIDATE_BEST is the highest-priority announcement among all CANDIDATE_READY (and _BEST) ones for that
      49                 :             :      *  txhash. */
      50                 :             :     CANDIDATE_BEST,
      51                 :             :     /** A REQUESTED announcement. */
      52                 :             :     REQUESTED,
      53                 :             :     /** A COMPLETED announcement. */
      54                 :             :     COMPLETED,
      55                 :             : };
      56                 :             : 
      57                 :             : //! Type alias for sequence numbers.
      58                 :             : using SequenceNumber = uint64_t;
      59                 :             : 
      60                 :             : /** An announcement. This is the data we track for each txid or wtxid that is announced to us by each peer. */
      61                 :             : struct Announcement {
      62                 :             :     /** Txid or wtxid that was announced. */
      63                 :             :     const uint256 m_txhash;
      64                 :             :     /** For CANDIDATE_{DELAYED,BEST,READY} the reqtime; for REQUESTED the expiry. */
      65                 :             :     std::chrono::microseconds m_time;
      66                 :             :     /** What peer the request was from. */
      67                 :             :     const NodeId m_peer;
      68                 :             :     /** What sequence number this announcement has. */
      69                 :             :     const SequenceNumber m_sequence : 59;
      70                 :             :     /** Whether the request is preferred. */
      71                 :             :     const bool m_preferred : 1;
      72                 :             :     /** Whether this is a wtxid request. */
      73                 :             :     const bool m_is_wtxid : 1;
      74                 :             : 
      75                 :             :     /** What state this announcement is in. */
      76                 :             :     State m_state : 3 {State::CANDIDATE_DELAYED};
      77   [ #  #  #  #  :           0 :     State GetState() const { return m_state; }
          #  #  #  #  #  
                      # ]
      78                 :           0 :     void SetState(State state) { m_state = state; }
      79                 :             : 
      80                 :             :     /** Whether this announcement is selected. There can be at most 1 selected peer per txhash. */
      81                 :           0 :     bool IsSelected() const
      82                 :             :     {
      83   [ #  #  #  # ]:           0 :         return GetState() == State::CANDIDATE_BEST || GetState() == State::REQUESTED;
      84                 :             :     }
      85                 :             : 
      86                 :             :     /** Whether this announcement is waiting for a certain time to pass. */
      87                 :           0 :     bool IsWaiting() const
      88                 :             :     {
      89   [ #  #  #  # ]:           0 :         return GetState() == State::REQUESTED || GetState() == State::CANDIDATE_DELAYED;
      90                 :             :     }
      91                 :             : 
      92                 :             :     /** Whether this announcement can feasibly be selected if the current IsSelected() one disappears. */
      93                 :           0 :     bool IsSelectable() const
      94                 :             :     {
      95   [ #  #  #  #  :           0 :         return GetState() == State::CANDIDATE_READY || GetState() == State::CANDIDATE_BEST;
             #  #  #  # ]
      96                 :             :     }
      97                 :             : 
      98                 :             :     /** Construct a new announcement from scratch, initially in CANDIDATE_DELAYED state. */
      99                 :           0 :     Announcement(const GenTxid& gtxid, NodeId peer, bool preferred, std::chrono::microseconds reqtime,
     100                 :             :                  SequenceNumber sequence)
     101         [ #  # ]:           0 :         : m_txhash(gtxid.GetHash()), m_time(reqtime), m_peer(peer), m_sequence(sequence), m_preferred(preferred),
     102         [ #  # ]:           0 :           m_is_wtxid{gtxid.IsWtxid()} {}
     103                 :             : };
     104                 :             : 
     105                 :             : //! Type alias for priorities.
     106                 :             : using Priority = uint64_t;
     107                 :             : 
     108                 :             : /** A functor with embedded salt that computes priority of an announcement.
     109                 :             :  *
     110                 :             :  * Higher priorities are selected first.
     111                 :             :  */
     112                 :             : class PriorityComputer {
     113                 :             :     const uint64_t m_k0, m_k1;
     114                 :             : public:
     115                 :           0 :     explicit PriorityComputer(bool deterministic) :
     116         [ #  # ]:           0 :         m_k0{deterministic ? 0 : FastRandomContext().rand64()},
     117         [ #  # ]:           0 :         m_k1{deterministic ? 0 : FastRandomContext().rand64()} {}
     118                 :             : 
     119                 :           0 :     Priority operator()(const uint256& txhash, NodeId peer, bool preferred) const
     120                 :             :     {
     121                 :           0 :         uint64_t low_bits = CSipHasher(m_k0, m_k1).Write(txhash).Write(peer).Finalize() >> 1;
     122                 :           0 :         return low_bits | uint64_t{preferred} << 63;
     123                 :             :     }
     124                 :             : 
     125                 :           0 :     Priority operator()(const Announcement& ann) const
     126                 :             :     {
     127                 :           0 :         return operator()(ann.m_txhash, ann.m_peer, ann.m_preferred);
     128                 :             :     }
     129                 :             : };
     130                 :             : 
     131                 :             : // Definitions for the 3 indexes used in the main data structure.
     132                 :             : //
     133                 :             : // Each index has a By* type to identify it, a By*View data type to represent the view of announcement it is sorted
     134                 :             : // by, and an By*ViewExtractor type to convert an announcement into the By*View type.
     135                 :             : // See https://www.boost.org/doc/libs/1_58_0/libs/multi_index/doc/reference/key_extraction.html#key_extractors
     136                 :             : // for more information about the key extraction concept.
     137                 :             : 
     138                 :             : // The ByPeer index is sorted by (peer, state == CANDIDATE_BEST, txhash)
     139                 :             : //
     140                 :             : // Uses:
     141                 :             : // * Looking up existing announcements by peer/txhash, by checking both (peer, false, txhash) and
     142                 :             : //   (peer, true, txhash).
     143                 :             : // * Finding all CANDIDATE_BEST announcements for a given peer in GetRequestable.
     144                 :             : struct ByPeer {};
     145                 :             : using ByPeerView = std::tuple<NodeId, bool, const uint256&>;
     146                 :             : struct ByPeerViewExtractor
     147                 :             : {
     148                 :             :     using result_type = ByPeerView;
     149                 :           0 :     result_type operator()(const Announcement& ann) const
     150                 :             :     {
     151   [ #  #  #  #  :           0 :         return ByPeerView{ann.m_peer, ann.GetState() == State::CANDIDATE_BEST, ann.m_txhash};
          #  #  #  #  #  
          #  #  #  #  #  
          #  #  #  #  #  
                      # ]
     152                 :             :     }
     153                 :             : };
     154                 :             : 
     155                 :             : // The ByTxHash index is sorted by (txhash, state, priority).
     156                 :             : //
     157                 :             : // Note: priority == 0 whenever state != CANDIDATE_READY.
     158                 :             : //
     159                 :             : // Uses:
     160                 :             : // * Deleting all announcements with a given txhash in ForgetTxHash.
     161                 :             : // * Finding the best CANDIDATE_READY to convert to CANDIDATE_BEST, when no other CANDIDATE_READY or REQUESTED
     162                 :             : //   announcement exists for that txhash.
     163                 :             : // * Determining when no more non-COMPLETED announcements for a given txhash exist, so the COMPLETED ones can be
     164                 :             : //   deleted.
     165                 :             : struct ByTxHash {};
     166                 :             : using ByTxHashView = std::tuple<const uint256&, State, Priority>;
     167                 :             : class ByTxHashViewExtractor {
     168                 :             :     const PriorityComputer& m_computer;
     169                 :             : public:
     170                 :           0 :     explicit ByTxHashViewExtractor(const PriorityComputer& computer) : m_computer(computer) {}
     171                 :             :     using result_type = ByTxHashView;
     172                 :           0 :     result_type operator()(const Announcement& ann) const
     173                 :             :     {
     174         [ #  # ]:           0 :         const Priority prio = (ann.GetState() == State::CANDIDATE_READY) ? m_computer(ann) : 0;
     175                 :           0 :         return ByTxHashView{ann.m_txhash, ann.GetState(), prio};
     176                 :             :     }
     177                 :             : };
     178                 :             : 
     179                 :             : enum class WaitState {
     180                 :             :     //! Used for announcements that need efficient testing of "is their timestamp in the future?".
     181                 :             :     FUTURE_EVENT,
     182                 :             :     //! Used for announcements whose timestamp is not relevant.
     183                 :             :     NO_EVENT,
     184                 :             :     //! Used for announcements that need efficient testing of "is their timestamp in the past?".
     185                 :             :     PAST_EVENT,
     186                 :             : };
     187                 :             : 
     188                 :           0 : WaitState GetWaitState(const Announcement& ann)
     189                 :             : {
     190         [ #  # ]:           0 :     if (ann.IsWaiting()) return WaitState::FUTURE_EVENT;
     191         [ #  # ]:           0 :     if (ann.IsSelectable()) return WaitState::PAST_EVENT;
     192                 :             :     return WaitState::NO_EVENT;
     193                 :             : }
     194                 :             : 
     195                 :             : // The ByTime index is sorted by (wait_state, time).
     196                 :             : //
     197                 :             : // All announcements with a timestamp in the future can be found by iterating the index forward from the beginning.
     198                 :             : // All announcements with a timestamp in the past can be found by iterating the index backwards from the end.
     199                 :             : //
     200                 :             : // Uses:
     201                 :             : // * Finding CANDIDATE_DELAYED announcements whose reqtime has passed, and REQUESTED announcements whose expiry has
     202                 :             : //   passed.
     203                 :             : // * Finding CANDIDATE_READY/BEST announcements whose reqtime is in the future (when the clock time went backwards).
     204                 :             : struct ByTime {};
     205                 :             : using ByTimeView = std::pair<WaitState, std::chrono::microseconds>;
     206                 :             : struct ByTimeViewExtractor
     207                 :             : {
     208                 :             :     using result_type = ByTimeView;
     209                 :           0 :     result_type operator()(const Announcement& ann) const
     210                 :             :     {
     211                 :           0 :         return ByTimeView{GetWaitState(ann), ann.m_time};
     212                 :             :     }
     213                 :             : };
     214                 :             : 
     215                 :             : struct Announcement_Indices final : boost::multi_index::indexed_by<
     216                 :             :     boost::multi_index::ordered_unique<boost::multi_index::tag<ByPeer>, ByPeerViewExtractor>,
     217                 :             :     boost::multi_index::ordered_non_unique<boost::multi_index::tag<ByTxHash>, ByTxHashViewExtractor>,
     218                 :             :     boost::multi_index::ordered_non_unique<boost::multi_index::tag<ByTime>, ByTimeViewExtractor>
     219                 :             : >
     220                 :             : {};
     221                 :             : 
     222                 :             : /** Data type for the main data structure (Announcement objects with ByPeer/ByTxHash/ByTime indexes). */
     223                 :             : using Index = boost::multi_index_container<
     224                 :             :     Announcement,
     225                 :             :     Announcement_Indices
     226                 :             : >;
     227                 :             : 
     228                 :             : /** Helper type to simplify syntax of iterator types. */
     229                 :             : template<typename Tag>
     230                 :             : using Iter = typename Index::index<Tag>::type::iterator;
     231                 :             : 
     232                 :             : /** Per-peer statistics object. */
     233                 :           0 : struct PeerInfo {
     234                 :             :     size_t m_total = 0; //!< Total number of announcements for this peer.
     235                 :             :     size_t m_completed = 0; //!< Number of COMPLETED announcements for this peer.
     236                 :             :     size_t m_requested = 0; //!< Number of REQUESTED announcements for this peer.
     237                 :             : };
     238                 :             : 
     239                 :             : /** Per-txhash statistics object. Only used for sanity checking. */
     240                 :           0 : struct TxHashInfo
     241                 :             : {
     242                 :             :     //! Number of CANDIDATE_DELAYED announcements for this txhash.
     243                 :             :     size_t m_candidate_delayed = 0;
     244                 :             :     //! Number of CANDIDATE_READY announcements for this txhash.
     245                 :             :     size_t m_candidate_ready = 0;
     246                 :             :     //! Number of CANDIDATE_BEST announcements for this txhash (at most one).
     247                 :             :     size_t m_candidate_best = 0;
     248                 :             :     //! Number of REQUESTED announcements for this txhash (at most one; mutually exclusive with CANDIDATE_BEST).
     249                 :             :     size_t m_requested = 0;
     250                 :             :     //! The priority of the CANDIDATE_BEST announcement if one exists, or max() otherwise.
     251                 :             :     Priority m_priority_candidate_best = std::numeric_limits<Priority>::max();
     252                 :             :     //! The highest priority of all CANDIDATE_READY announcements (or min() if none exist).
     253                 :             :     Priority m_priority_best_candidate_ready = std::numeric_limits<Priority>::min();
     254                 :             :     //! All peers we have an announcement for this txhash for.
     255                 :             :     std::vector<NodeId> m_peers;
     256                 :             : };
     257                 :             : 
     258                 :             : /** Compare two PeerInfo objects. Only used for sanity checking. */
     259                 :           0 : bool operator==(const PeerInfo& a, const PeerInfo& b)
     260                 :             : {
     261                 :           0 :     return std::tie(a.m_total, a.m_completed, a.m_requested) ==
     262                 :           0 :            std::tie(b.m_total, b.m_completed, b.m_requested);
     263                 :             : };
     264                 :             : 
     265                 :             : /** (Re)compute the PeerInfo map from the index. Only used for sanity checking. */
     266                 :           0 : std::unordered_map<NodeId, PeerInfo> RecomputePeerInfo(const Index& index)
     267                 :             : {
     268                 :           0 :     std::unordered_map<NodeId, PeerInfo> ret;
     269         [ #  # ]:           0 :     for (const Announcement& ann : index) {
     270         [ #  # ]:           0 :         PeerInfo& info = ret[ann.m_peer];
     271                 :           0 :         ++info.m_total;
     272                 :           0 :         info.m_requested += (ann.GetState() == State::REQUESTED);
     273                 :           0 :         info.m_completed += (ann.GetState() == State::COMPLETED);
     274                 :             :     }
     275                 :           0 :     return ret;
     276                 :           0 : }
     277                 :             : 
     278                 :             : /** Compute the TxHashInfo map. Only used for sanity checking. */
     279                 :           0 : std::map<uint256, TxHashInfo> ComputeTxHashInfo(const Index& index, const PriorityComputer& computer)
     280                 :             : {
     281                 :           0 :     std::map<uint256, TxHashInfo> ret;
     282         [ #  # ]:           0 :     for (const Announcement& ann : index) {
     283         [ #  # ]:           0 :         TxHashInfo& info = ret[ann.m_txhash];
     284                 :             :         // Classify how many announcements of each state we have for this txhash.
     285                 :           0 :         info.m_candidate_delayed += (ann.GetState() == State::CANDIDATE_DELAYED);
     286                 :           0 :         info.m_candidate_ready += (ann.GetState() == State::CANDIDATE_READY);
     287                 :           0 :         info.m_candidate_best += (ann.GetState() == State::CANDIDATE_BEST);
     288                 :           0 :         info.m_requested += (ann.GetState() == State::REQUESTED);
     289                 :             :         // And track the priority of the best CANDIDATE_READY/CANDIDATE_BEST announcements.
     290         [ #  # ]:           0 :         if (ann.GetState() == State::CANDIDATE_BEST) {
     291         [ #  # ]:           0 :             info.m_priority_candidate_best = computer(ann);
     292                 :             :         }
     293         [ #  # ]:           0 :         if (ann.GetState() == State::CANDIDATE_READY) {
     294   [ #  #  #  # ]:           0 :             info.m_priority_best_candidate_ready = std::max(info.m_priority_best_candidate_ready, computer(ann));
     295                 :             :         }
     296                 :             :         // Also keep track of which peers this txhash has an announcement for (so we can detect duplicates).
     297         [ #  # ]:           0 :         info.m_peers.push_back(ann.m_peer);
     298                 :             :     }
     299                 :           0 :     return ret;
     300                 :           0 : }
     301                 :             : 
     302                 :           0 : GenTxid ToGenTxid(const Announcement& ann)
     303                 :             : {
     304         [ #  # ]:           0 :     return ann.m_is_wtxid ? GenTxid::Wtxid(ann.m_txhash) : GenTxid::Txid(ann.m_txhash);
     305                 :             : }
     306                 :             : 
     307                 :             : }  // namespace
     308                 :             : 
     309                 :             : /** Actual implementation for TxRequestTracker's data structure. */
     310                 :           0 : class TxRequestTracker::Impl {
     311                 :             :     //! The current sequence number. Increases for every announcement. This is used to sort txhashes returned by
     312                 :             :     //! GetRequestable in announcement order.
     313                 :             :     SequenceNumber m_current_sequence{0};
     314                 :             : 
     315                 :             :     //! This tracker's priority computer.
     316                 :             :     const PriorityComputer m_computer;
     317                 :             : 
     318                 :             :     //! This tracker's main data structure. See SanityCheck() for the invariants that apply to it.
     319                 :             :     Index m_index;
     320                 :             : 
     321                 :             :     //! Map with this tracker's per-peer statistics.
     322                 :             :     std::unordered_map<NodeId, PeerInfo> m_peerinfo;
     323                 :             : 
     324                 :             : public:
     325                 :           0 :     void SanityCheck() const
     326                 :             :     {
     327                 :             :         // Recompute m_peerdata from m_index. This verifies the data in it as it should just be caching statistics
     328                 :             :         // on m_index. It also verifies the invariant that no PeerInfo announcements with m_total==0 exist.
     329         [ #  # ]:           0 :         assert(m_peerinfo == RecomputePeerInfo(m_index));
     330                 :             : 
     331                 :             :         // Calculate per-txhash statistics from m_index, and validate invariants.
     332         [ #  # ]:           0 :         for (auto& item : ComputeTxHashInfo(m_index, m_computer)) {
     333                 :           0 :             TxHashInfo& info = item.second;
     334                 :             : 
     335                 :             :             // Cannot have only COMPLETED peer (txhash should have been forgotten already)
     336         [ #  # ]:           0 :             assert(info.m_candidate_delayed + info.m_candidate_ready + info.m_candidate_best + info.m_requested > 0);
     337                 :             : 
     338                 :             :             // Can have at most 1 CANDIDATE_BEST/REQUESTED peer
     339         [ #  # ]:           0 :             assert(info.m_candidate_best + info.m_requested <= 1);
     340                 :             : 
     341                 :             :             // If there are any CANDIDATE_READY announcements, there must be exactly one CANDIDATE_BEST or REQUESTED
     342                 :             :             // announcement.
     343         [ #  # ]:           0 :             if (info.m_candidate_ready > 0) {
     344         [ #  # ]:           0 :                 assert(info.m_candidate_best + info.m_requested == 1);
     345                 :             :             }
     346                 :             : 
     347                 :             :             // If there is both a CANDIDATE_READY and a CANDIDATE_BEST announcement, the CANDIDATE_BEST one must be
     348                 :             :             // at least as good (equal or higher priority) as the best CANDIDATE_READY.
     349   [ #  #  #  # ]:           0 :             if (info.m_candidate_ready && info.m_candidate_best) {
     350         [ #  # ]:           0 :                 assert(info.m_priority_candidate_best >= info.m_priority_best_candidate_ready);
     351                 :             :             }
     352                 :             : 
     353                 :             :             // No txhash can have been announced by the same peer twice.
     354                 :           0 :             std::sort(info.m_peers.begin(), info.m_peers.end());
     355         [ #  # ]:           0 :             assert(std::adjacent_find(info.m_peers.begin(), info.m_peers.end()) == info.m_peers.end());
     356                 :           0 :         }
     357                 :           0 :     }
     358                 :             : 
     359                 :           0 :     void PostGetRequestableSanityCheck(std::chrono::microseconds now) const
     360                 :             :     {
     361         [ #  # ]:           0 :         for (const Announcement& ann : m_index) {
     362         [ #  # ]:           0 :             if (ann.IsWaiting()) {
     363                 :             :                 // REQUESTED and CANDIDATE_DELAYED must have a time in the future (they should have been converted
     364                 :             :                 // to COMPLETED/CANDIDATE_READY respectively).
     365         [ #  # ]:           0 :                 assert(ann.m_time > now);
     366         [ #  # ]:           0 :             } else if (ann.IsSelectable()) {
     367                 :             :                 // CANDIDATE_READY and CANDIDATE_BEST cannot have a time in the future (they should have remained
     368                 :             :                 // CANDIDATE_DELAYED, or should have been converted back to it if time went backwards).
     369         [ #  # ]:           0 :                 assert(ann.m_time <= now);
     370                 :             :             }
     371                 :             :         }
     372                 :           0 :     }
     373                 :             : 
     374                 :             : private:
     375                 :             :     //! Wrapper around Index::...::erase that keeps m_peerinfo up to date.
     376                 :             :     template<typename Tag>
     377                 :           0 :     Iter<Tag> Erase(Iter<Tag> it)
     378                 :             :     {
     379         [ #  # ]:           0 :         auto peerit = m_peerinfo.find(it->m_peer);
     380         [ #  # ]:           0 :         peerit->second.m_completed -= it->GetState() == State::COMPLETED;
     381                 :           0 :         peerit->second.m_requested -= it->GetState() == State::REQUESTED;
     382         [ #  # ]:           0 :         if (--peerit->second.m_total == 0) m_peerinfo.erase(peerit);
     383                 :           0 :         return m_index.get<Tag>().erase(it);
     384                 :             :     }
     385                 :             : 
     386                 :             :     //! Wrapper around Index::...::modify that keeps m_peerinfo up to date.
     387                 :             :     template<typename Tag, typename Modifier>
     388                 :           0 :     void Modify(Iter<Tag> it, Modifier modifier)
     389                 :             :     {
     390                 :           0 :         auto peerit = m_peerinfo.find(it->m_peer);
     391                 :           0 :         peerit->second.m_completed -= it->GetState() == State::COMPLETED;
     392                 :           0 :         peerit->second.m_requested -= it->GetState() == State::REQUESTED;
     393                 :           0 :         m_index.get<Tag>().modify(it, std::move(modifier));
     394                 :           0 :         peerit->second.m_completed += it->GetState() == State::COMPLETED;
     395                 :           0 :         peerit->second.m_requested += it->GetState() == State::REQUESTED;
     396                 :           0 :     }
     397                 :             : 
     398                 :             :     //! Convert a CANDIDATE_DELAYED announcement into a CANDIDATE_READY. If this makes it the new best
     399                 :             :     //! CANDIDATE_READY (and no REQUESTED exists) and better than the CANDIDATE_BEST (if any), it becomes the new
     400                 :             :     //! CANDIDATE_BEST.
     401                 :           0 :     void PromoteCandidateReady(Iter<ByTxHash> it)
     402                 :             :     {
     403         [ #  # ]:           0 :         assert(it != m_index.get<ByTxHash>().end());
     404         [ #  # ]:           0 :         assert(it->GetState() == State::CANDIDATE_DELAYED);
     405                 :             :         // Convert CANDIDATE_DELAYED to CANDIDATE_READY first.
     406         [ #  # ]:           0 :         Modify<ByTxHash>(it, [](Announcement& ann){ ann.SetState(State::CANDIDATE_READY); });
     407                 :             :         // The following code relies on the fact that the ByTxHash is sorted by txhash, and then by state (first
     408                 :             :         // _DELAYED, then _READY, then _BEST/REQUESTED). Within the _READY announcements, the best one (highest
     409                 :             :         // priority) comes last. Thus, if an existing _BEST exists for the same txhash that this announcement may
     410                 :             :         // be preferred over, it must immediately follow the newly created _READY.
     411                 :           0 :         auto it_next = std::next(it);
     412   [ #  #  #  # ]:           0 :         if (it_next == m_index.get<ByTxHash>().end() || it_next->m_txhash != it->m_txhash ||
     413         [ #  # ]:           0 :             it_next->GetState() == State::COMPLETED) {
     414                 :             :             // This is the new best CANDIDATE_READY, and there is no IsSelected() announcement for this txhash
     415                 :             :             // already.
     416         [ #  # ]:           0 :             Modify<ByTxHash>(it, [](Announcement& ann){ ann.SetState(State::CANDIDATE_BEST); });
     417         [ #  # ]:           0 :         } else if (it_next->GetState() == State::CANDIDATE_BEST) {
     418                 :           0 :             Priority priority_old = m_computer(*it_next);
     419                 :           0 :             Priority priority_new = m_computer(*it);
     420         [ #  # ]:           0 :             if (priority_new > priority_old) {
     421                 :             :                 // There is a CANDIDATE_BEST announcement already, but this one is better.
     422         [ #  # ]:           0 :                 Modify<ByTxHash>(it_next, [](Announcement& ann){ ann.SetState(State::CANDIDATE_READY); });
     423         [ #  # ]:           0 :                 Modify<ByTxHash>(it, [](Announcement& ann){ ann.SetState(State::CANDIDATE_BEST); });
     424                 :             :             }
     425                 :             :         }
     426                 :           0 :     }
     427                 :             : 
     428                 :             :     //! Change the state of an announcement to something non-IsSelected(). If it was IsSelected(), the next best
     429                 :             :     //! announcement will be marked CANDIDATE_BEST.
     430                 :           0 :     void ChangeAndReselect(Iter<ByTxHash> it, State new_state)
     431                 :             :     {
     432         [ #  # ]:           0 :         assert(new_state == State::COMPLETED || new_state == State::CANDIDATE_DELAYED);
     433         [ #  # ]:           0 :         assert(it != m_index.get<ByTxHash>().end());
     434   [ #  #  #  # ]:           0 :         if (it->IsSelected() && it != m_index.get<ByTxHash>().begin()) {
     435                 :           0 :             auto it_prev = std::prev(it);
     436                 :             :             // The next best CANDIDATE_READY, if any, immediately precedes the REQUESTED or CANDIDATE_BEST
     437                 :             :             // announcement in the ByTxHash index.
     438   [ #  #  #  # ]:           0 :             if (it_prev->m_txhash == it->m_txhash && it_prev->GetState() == State::CANDIDATE_READY) {
     439                 :             :                 // If one such CANDIDATE_READY exists (for this txhash), convert it to CANDIDATE_BEST.
     440         [ #  # ]:           0 :                 Modify<ByTxHash>(it_prev, [](Announcement& ann){ ann.SetState(State::CANDIDATE_BEST); });
     441                 :             :             }
     442                 :             :         }
     443         [ #  # ]:           0 :         Modify<ByTxHash>(it, [new_state](Announcement& ann){ ann.SetState(new_state); });
     444                 :           0 :     }
     445                 :             : 
     446                 :             :     //! Check if 'it' is the only announcement for a given txhash that isn't COMPLETED.
     447                 :           0 :     bool IsOnlyNonCompleted(Iter<ByTxHash> it)
     448                 :             :     {
     449         [ #  # ]:           0 :         assert(it != m_index.get<ByTxHash>().end());
     450         [ #  # ]:           0 :         assert(it->GetState() != State::COMPLETED); // Not allowed to call this on COMPLETED announcements.
     451                 :             : 
     452                 :             :         // This announcement has a predecessor that belongs to the same txhash. Due to ordering, and the
     453                 :             :         // fact that 'it' is not COMPLETED, its predecessor cannot be COMPLETED here.
     454   [ #  #  #  # ]:           0 :         if (it != m_index.get<ByTxHash>().begin() && std::prev(it)->m_txhash == it->m_txhash) return false;
     455                 :             : 
     456                 :             :         // This announcement has a successor that belongs to the same txhash, and is not COMPLETED.
     457   [ #  #  #  #  :           0 :         if (std::next(it) != m_index.get<ByTxHash>().end() && std::next(it)->m_txhash == it->m_txhash &&
                   #  # ]
     458         [ #  # ]:           0 :             std::next(it)->GetState() != State::COMPLETED) return false;
     459                 :             : 
     460                 :             :         return true;
     461                 :             :     }
     462                 :             : 
     463                 :             :     /** Convert any announcement to a COMPLETED one. If there are no non-COMPLETED announcements left for this
     464                 :             :      *  txhash, they are deleted. If this was a REQUESTED announcement, and there are other CANDIDATEs left, the
     465                 :             :      *  best one is made CANDIDATE_BEST. Returns whether the announcement still exists. */
     466                 :           0 :     bool MakeCompleted(Iter<ByTxHash> it)
     467                 :             :     {
     468         [ #  # ]:           0 :         assert(it != m_index.get<ByTxHash>().end());
     469                 :             : 
     470                 :             :         // Nothing to be done if it's already COMPLETED.
     471         [ #  # ]:           0 :         if (it->GetState() == State::COMPLETED) return true;
     472                 :             : 
     473         [ #  # ]:           0 :         if (IsOnlyNonCompleted(it)) {
     474                 :             :             // This is the last non-COMPLETED announcement for this txhash. Delete all.
     475                 :           0 :             uint256 txhash = it->m_txhash;
     476                 :           0 :             do {
     477                 :           0 :                 it = Erase<ByTxHash>(it);
     478   [ #  #  #  #  :           0 :             } while (it != m_index.get<ByTxHash>().end() && it->m_txhash == txhash);
                   #  # ]
     479                 :             :             return false;
     480                 :             :         }
     481                 :             : 
     482                 :             :         // Mark the announcement COMPLETED, and select the next best announcement (the first CANDIDATE_READY) if
     483                 :             :         // needed.
     484                 :           0 :         ChangeAndReselect(it, State::COMPLETED);
     485                 :             : 
     486                 :           0 :         return true;
     487                 :             :     }
     488                 :             : 
     489                 :             :     //! Make the data structure consistent with a given point in time:
     490                 :             :     //! - REQUESTED announcements with expiry <= now are turned into COMPLETED.
     491                 :             :     //! - CANDIDATE_DELAYED announcements with reqtime <= now are turned into CANDIDATE_{READY,BEST}.
     492                 :             :     //! - CANDIDATE_{READY,BEST} announcements with reqtime > now are turned into CANDIDATE_DELAYED.
     493                 :           0 :     void SetTimePoint(std::chrono::microseconds now, std::vector<std::pair<NodeId, GenTxid>>* expired)
     494                 :             :     {
     495   [ #  #  #  # ]:           0 :         if (expired) expired->clear();
     496                 :             : 
     497                 :             :         // Iterate over all CANDIDATE_DELAYED and REQUESTED from old to new, as long as they're in the past,
     498                 :             :         // and convert them to CANDIDATE_READY and COMPLETED respectively.
     499         [ #  # ]:           0 :         while (!m_index.empty()) {
     500                 :           0 :             auto it = m_index.get<ByTime>().begin();
     501   [ #  #  #  # ]:           0 :             if (it->GetState() == State::CANDIDATE_DELAYED && it->m_time <= now) {
     502                 :           0 :                 PromoteCandidateReady(m_index.project<ByTxHash>(it));
     503   [ #  #  #  # ]:           0 :             } else if (it->GetState() == State::REQUESTED && it->m_time <= now) {
     504         [ #  # ]:           0 :                 if (expired) expired->emplace_back(it->m_peer, ToGenTxid(*it));
     505                 :           0 :                 MakeCompleted(m_index.project<ByTxHash>(it));
     506                 :             :             } else {
     507                 :             :                 break;
     508                 :             :             }
     509                 :             :         }
     510                 :             : 
     511         [ #  # ]:           0 :         while (!m_index.empty()) {
     512                 :             :             // If time went backwards, we may need to demote CANDIDATE_BEST and CANDIDATE_READY announcements back
     513                 :             :             // to CANDIDATE_DELAYED. This is an unusual edge case, and unlikely to matter in production. However,
     514                 :             :             // it makes it much easier to specify and test TxRequestTracker::Impl's behaviour.
     515                 :           0 :             auto it = std::prev(m_index.get<ByTime>().end());
     516   [ #  #  #  # ]:           0 :             if (it->IsSelectable() && it->m_time > now) {
     517                 :           0 :                 ChangeAndReselect(m_index.project<ByTxHash>(it), State::CANDIDATE_DELAYED);
     518                 :             :             } else {
     519                 :             :                 break;
     520                 :             :             }
     521                 :             :         }
     522                 :           0 :     }
     523                 :             : 
     524                 :             : public:
     525                 :           0 :     explicit Impl(bool deterministic) :
     526                 :           0 :         m_computer(deterministic),
     527                 :             :         // Explicitly initialize m_index as we need to pass a reference to m_computer to ByTxHashViewExtractor.
     528                 :           0 :         m_index(boost::make_tuple(
     529                 :           0 :             boost::make_tuple(ByPeerViewExtractor(), std::less<ByPeerView>()),
     530                 :           0 :             boost::make_tuple(ByTxHashViewExtractor(m_computer), std::less<ByTxHashView>()),
     531                 :           0 :             boost::make_tuple(ByTimeViewExtractor(), std::less<ByTimeView>())
     532                 :           0 :         )) {}
     533                 :             : 
     534                 :             :     // Disable copying and assigning (a default copy won't work due the stateful ByTxHashViewExtractor).
     535                 :             :     Impl(const Impl&) = delete;
     536                 :             :     Impl& operator=(const Impl&) = delete;
     537                 :             : 
     538                 :           0 :     void DisconnectedPeer(NodeId peer)
     539                 :             :     {
     540                 :           0 :         auto& index = m_index.get<ByPeer>();
     541                 :           0 :         auto it = index.lower_bound(ByPeerView{peer, false, uint256::ZERO});
     542   [ #  #  #  # ]:           0 :         while (it != index.end() && it->m_peer == peer) {
     543                 :             :             // Check what to continue with after this iteration. 'it' will be deleted in what follows, so we need to
     544                 :             :             // decide what to continue with afterwards. There are a number of cases to consider:
     545                 :             :             // - std::next(it) is end() or belongs to a different peer. In that case, this is the last iteration
     546                 :             :             //   of the loop (denote this by setting it_next to end()).
     547                 :             :             // - 'it' is not the only non-COMPLETED announcement for its txhash. This means it will be deleted, but
     548                 :             :             //   no other Announcement objects will be modified. Continue with std::next(it) if it belongs to the
     549                 :             :             //   same peer, but decide this ahead of time (as 'it' may change position in what follows).
     550                 :             :             // - 'it' is the only non-COMPLETED announcement for its txhash. This means it will be deleted along
     551                 :             :             //   with all other announcements for the same txhash - which may include std::next(it). However, other
     552                 :             :             //   than 'it', no announcements for the same peer can be affected (due to (peer, txhash) uniqueness).
     553                 :             :             //   In other words, the situation where std::next(it) is deleted can only occur if std::next(it)
     554                 :             :             //   belongs to a different peer but the same txhash as 'it'. This is covered by the first bulletpoint
     555                 :             :             //   already, and we'll have set it_next to end().
     556   [ #  #  #  # ]:           0 :             auto it_next = (std::next(it) == index.end() || std::next(it)->m_peer != peer) ? index.end() :
     557                 :           0 :                 std::next(it);
     558                 :             :             // If the announcement isn't already COMPLETED, first make it COMPLETED (which will mark other
     559                 :             :             // CANDIDATEs as CANDIDATE_BEST, or delete all of a txhash's announcements if no non-COMPLETED ones are
     560                 :             :             // left).
     561         [ #  # ]:           0 :             if (MakeCompleted(m_index.project<ByTxHash>(it))) {
     562                 :             :                 // Then actually delete the announcement (unless it was already deleted by MakeCompleted).
     563                 :           0 :                 Erase<ByPeer>(it);
     564                 :             :             }
     565                 :           0 :             it = it_next;
     566                 :             :         }
     567                 :           0 :     }
     568                 :             : 
     569                 :           0 :     void ForgetTxHash(const uint256& txhash)
     570                 :             :     {
     571                 :           0 :         auto it = m_index.get<ByTxHash>().lower_bound(ByTxHashView{txhash, State::CANDIDATE_DELAYED, 0});
     572   [ #  #  #  # ]:           0 :         while (it != m_index.get<ByTxHash>().end() && it->m_txhash == txhash) {
     573                 :           0 :             it = Erase<ByTxHash>(it);
     574                 :             :         }
     575                 :           0 :     }
     576                 :             : 
     577                 :           0 :     void ReceivedInv(NodeId peer, const GenTxid& gtxid, bool preferred,
     578                 :             :         std::chrono::microseconds reqtime)
     579                 :             :     {
     580                 :             :         // Bail out if we already have a CANDIDATE_BEST announcement for this (txhash, peer) combination. The case
     581                 :             :         // where there is a non-CANDIDATE_BEST announcement already will be caught by the uniqueness property of the
     582                 :             :         // ByPeer index when we try to emplace the new object below.
     583         [ #  # ]:           0 :         if (m_index.get<ByPeer>().count(ByPeerView{peer, true, gtxid.GetHash()})) return;
     584                 :             : 
     585                 :             :         // Try creating the announcement with CANDIDATE_DELAYED state (which will fail due to the uniqueness
     586                 :             :         // of the ByPeer index if a non-CANDIDATE_BEST announcement already exists with the same txhash and peer).
     587                 :             :         // Bail out in that case.
     588                 :           0 :         auto ret = m_index.get<ByPeer>().emplace(gtxid, peer, preferred, reqtime, m_current_sequence);
     589         [ #  # ]:           0 :         if (!ret.second) return;
     590                 :             : 
     591                 :             :         // Update accounting metadata.
     592                 :           0 :         ++m_peerinfo[peer].m_total;
     593                 :           0 :         ++m_current_sequence;
     594                 :             :     }
     595                 :             : 
     596                 :             :     //! Find the GenTxids to request now from peer.
     597                 :           0 :     std::vector<GenTxid> GetRequestable(NodeId peer, std::chrono::microseconds now,
     598                 :             :         std::vector<std::pair<NodeId, GenTxid>>* expired)
     599                 :             :     {
     600                 :             :         // Move time.
     601                 :           0 :         SetTimePoint(now, expired);
     602                 :             : 
     603                 :             :         // Find all CANDIDATE_BEST announcements for this peer.
     604                 :           0 :         std::vector<const Announcement*> selected;
     605                 :           0 :         auto it_peer = m_index.get<ByPeer>().lower_bound(ByPeerView{peer, true, uint256::ZERO});
     606   [ #  #  #  # ]:           0 :         while (it_peer != m_index.get<ByPeer>().end() && it_peer->m_peer == peer &&
     607         [ #  # ]:           0 :             it_peer->GetState() == State::CANDIDATE_BEST) {
     608         [ #  # ]:           0 :             selected.emplace_back(&*it_peer);
     609                 :           0 :             ++it_peer;
     610                 :             :         }
     611                 :             : 
     612                 :             :         // Sort by sequence number.
     613                 :           0 :         std::sort(selected.begin(), selected.end(), [](const Announcement* a, const Announcement* b) {
     614   [ #  #  #  #  :           0 :             return a->m_sequence < b->m_sequence;
          #  #  #  #  #  
          #  #  #  #  #  
          #  #  #  #  #  
             #  #  #  #  
                      # ]
     615                 :             :         });
     616                 :             : 
     617                 :             :         // Convert to GenTxid and return.
     618                 :           0 :         std::vector<GenTxid> ret;
     619         [ #  # ]:           0 :         ret.reserve(selected.size());
     620         [ #  # ]:           0 :         std::transform(selected.begin(), selected.end(), std::back_inserter(ret), [](const Announcement* ann) {
     621                 :           0 :             return ToGenTxid(*ann);
     622                 :             :         });
     623                 :           0 :         return ret;
     624                 :           0 :     }
     625                 :             : 
     626                 :           0 :     void RequestedTx(NodeId peer, const uint256& txhash, std::chrono::microseconds expiry)
     627                 :             :     {
     628                 :           0 :         auto it = m_index.get<ByPeer>().find(ByPeerView{peer, true, txhash});
     629         [ #  # ]:           0 :         if (it == m_index.get<ByPeer>().end()) {
     630                 :             :             // There is no CANDIDATE_BEST announcement, look for a _READY or _DELAYED instead. If the caller only
     631                 :             :             // ever invokes RequestedTx with the values returned by GetRequestable, and no other non-const functions
     632                 :             :             // other than ForgetTxHash and GetRequestable in between, this branch will never execute (as txhashes
     633                 :             :             // returned by GetRequestable always correspond to CANDIDATE_BEST announcements).
     634                 :             : 
     635                 :           0 :             it = m_index.get<ByPeer>().find(ByPeerView{peer, false, txhash});
     636   [ #  #  #  # ]:           0 :             if (it == m_index.get<ByPeer>().end() || (it->GetState() != State::CANDIDATE_DELAYED &&
     637         [ #  # ]:           0 :                                                       it->GetState() != State::CANDIDATE_READY)) {
     638                 :             :                 // There is no CANDIDATE announcement tracked for this peer, so we have nothing to do. Either this
     639                 :             :                 // txhash wasn't tracked at all (and the caller should have called ReceivedInv), or it was already
     640                 :             :                 // requested and/or completed for other reasons and this is just a superfluous RequestedTx call.
     641                 :             :                 return;
     642                 :             :             }
     643                 :             : 
     644                 :             :             // Look for an existing CANDIDATE_BEST or REQUESTED with the same txhash. We only need to do this if the
     645                 :             :             // found announcement had a different state than CANDIDATE_BEST. If it did, invariants guarantee that no
     646                 :             :             // other CANDIDATE_BEST or REQUESTED can exist.
     647                 :           0 :             auto it_old = m_index.get<ByTxHash>().lower_bound(ByTxHashView{txhash, State::CANDIDATE_BEST, 0});
     648   [ #  #  #  # ]:           0 :             if (it_old != m_index.get<ByTxHash>().end() && it_old->m_txhash == txhash) {
     649         [ #  # ]:           0 :                 if (it_old->GetState() == State::CANDIDATE_BEST) {
     650                 :             :                     // The data structure's invariants require that there can be at most one CANDIDATE_BEST or one
     651                 :             :                     // REQUESTED announcement per txhash (but not both simultaneously), so we have to convert any
     652                 :             :                     // existing CANDIDATE_BEST to another CANDIDATE_* when constructing another REQUESTED.
     653                 :             :                     // It doesn't matter whether we pick CANDIDATE_READY or _DELAYED here, as SetTimePoint()
     654                 :             :                     // will correct it at GetRequestable() time. If time only goes forward, it will always be
     655                 :             :                     // _READY, so pick that to avoid extra work in SetTimePoint().
     656         [ #  # ]:           0 :                     Modify<ByTxHash>(it_old, [](Announcement& ann) { ann.SetState(State::CANDIDATE_READY); });
     657         [ #  # ]:           0 :                 } else if (it_old->GetState() == State::REQUESTED) {
     658                 :             :                     // As we're no longer waiting for a response to the previous REQUESTED announcement, convert it
     659                 :             :                     // to COMPLETED. This also helps guaranteeing progress.
     660         [ #  # ]:           0 :                     Modify<ByTxHash>(it_old, [](Announcement& ann) { ann.SetState(State::COMPLETED); });
     661                 :             :                 }
     662                 :             :             }
     663                 :             :         }
     664                 :             : 
     665                 :           0 :         Modify<ByPeer>(it, [expiry](Announcement& ann) {
     666                 :           0 :             ann.SetState(State::REQUESTED);
     667         [ #  # ]:           0 :             ann.m_time = expiry;
     668                 :             :         });
     669                 :             :     }
     670                 :             : 
     671                 :           0 :     void ReceivedResponse(NodeId peer, const uint256& txhash)
     672                 :             :     {
     673                 :             :         // We need to search the ByPeer index for both (peer, false, txhash) and (peer, true, txhash).
     674                 :           0 :         auto it = m_index.get<ByPeer>().find(ByPeerView{peer, false, txhash});
     675         [ #  # ]:           0 :         if (it == m_index.get<ByPeer>().end()) {
     676                 :           0 :             it = m_index.get<ByPeer>().find(ByPeerView{peer, true, txhash});
     677                 :             :         }
     678         [ #  # ]:           0 :         if (it != m_index.get<ByPeer>().end()) MakeCompleted(m_index.project<ByTxHash>(it));
     679                 :           0 :     }
     680                 :             : 
     681                 :           0 :     size_t CountInFlight(NodeId peer) const
     682                 :             :     {
     683                 :           0 :         auto it = m_peerinfo.find(peer);
     684         [ #  # ]:           0 :         if (it != m_peerinfo.end()) return it->second.m_requested;
     685                 :             :         return 0;
     686                 :             :     }
     687                 :             : 
     688                 :           0 :     size_t CountCandidates(NodeId peer) const
     689                 :             :     {
     690                 :           0 :         auto it = m_peerinfo.find(peer);
     691         [ #  # ]:           0 :         if (it != m_peerinfo.end()) return it->second.m_total - it->second.m_requested - it->second.m_completed;
     692                 :             :         return 0;
     693                 :             :     }
     694                 :             : 
     695                 :           0 :     size_t Count(NodeId peer) const
     696                 :             :     {
     697                 :           0 :         auto it = m_peerinfo.find(peer);
     698         [ #  # ]:           0 :         if (it != m_peerinfo.end()) return it->second.m_total;
     699                 :             :         return 0;
     700                 :             :     }
     701                 :             : 
     702                 :             :     //! Count how many announcements are being tracked in total across all peers and transactions.
     703                 :           0 :     size_t Size() const { return m_index.size(); }
     704                 :             : 
     705                 :           0 :     uint64_t ComputePriority(const uint256& txhash, NodeId peer, bool preferred) const
     706                 :             :     {
     707                 :             :         // Return Priority as a uint64_t as Priority is internal.
     708                 :           0 :         return uint64_t{m_computer(txhash, peer, preferred)};
     709                 :             :     }
     710                 :             : 
     711                 :             : };
     712                 :             : 
     713                 :           0 : TxRequestTracker::TxRequestTracker(bool deterministic) :
     714                 :           0 :     m_impl{std::make_unique<TxRequestTracker::Impl>(deterministic)} {}
     715                 :             : 
     716                 :           0 : TxRequestTracker::~TxRequestTracker() = default;
     717                 :             : 
     718                 :           0 : void TxRequestTracker::ForgetTxHash(const uint256& txhash) { m_impl->ForgetTxHash(txhash); }
     719                 :           0 : void TxRequestTracker::DisconnectedPeer(NodeId peer) { m_impl->DisconnectedPeer(peer); }
     720                 :           0 : size_t TxRequestTracker::CountInFlight(NodeId peer) const { return m_impl->CountInFlight(peer); }
     721                 :           0 : size_t TxRequestTracker::CountCandidates(NodeId peer) const { return m_impl->CountCandidates(peer); }
     722                 :           0 : size_t TxRequestTracker::Count(NodeId peer) const { return m_impl->Count(peer); }
     723                 :           0 : size_t TxRequestTracker::Size() const { return m_impl->Size(); }
     724                 :           0 : void TxRequestTracker::SanityCheck() const { m_impl->SanityCheck(); }
     725                 :             : 
     726                 :           0 : void TxRequestTracker::PostGetRequestableSanityCheck(std::chrono::microseconds now) const
     727                 :             : {
     728                 :           0 :     m_impl->PostGetRequestableSanityCheck(now);
     729                 :           0 : }
     730                 :             : 
     731                 :           0 : void TxRequestTracker::ReceivedInv(NodeId peer, const GenTxid& gtxid, bool preferred,
     732                 :             :     std::chrono::microseconds reqtime)
     733                 :             : {
     734                 :           0 :     m_impl->ReceivedInv(peer, gtxid, preferred, reqtime);
     735                 :           0 : }
     736                 :             : 
     737                 :           0 : void TxRequestTracker::RequestedTx(NodeId peer, const uint256& txhash, std::chrono::microseconds expiry)
     738                 :             : {
     739                 :           0 :     m_impl->RequestedTx(peer, txhash, expiry);
     740                 :           0 : }
     741                 :             : 
     742                 :           0 : void TxRequestTracker::ReceivedResponse(NodeId peer, const uint256& txhash)
     743                 :             : {
     744                 :           0 :     m_impl->ReceivedResponse(peer, txhash);
     745                 :           0 : }
     746                 :             : 
     747                 :           0 : std::vector<GenTxid> TxRequestTracker::GetRequestable(NodeId peer, std::chrono::microseconds now,
     748                 :             :     std::vector<std::pair<NodeId, GenTxid>>* expired)
     749                 :             : {
     750                 :           0 :     return m_impl->GetRequestable(peer, now, expired);
     751                 :             : }
     752                 :             : 
     753                 :           0 : uint64_t TxRequestTracker::ComputePriority(const uint256& txhash, NodeId peer, bool preferred) const
     754                 :             : {
     755                 :           0 :     return m_impl->ComputePriority(txhash, peer, preferred);
     756                 :             : }
        

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