#ifndef LLARP_PATH_HPP #define LLARP_PATH_HPP #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace llarp { namespace path { struct TransitHopInfo { TransitHopInfo() = default; TransitHopInfo(const TransitHopInfo& other); TransitHopInfo(const RouterID& down, const LR_CommitRecord& record); PathID_t txID, rxID; RouterID upstream; RouterID downstream; friend std::ostream& operator<<(std::ostream& out, const TransitHopInfo& info) { out << ""; } bool operator==(const TransitHopInfo& other) const { return txID == other.txID && rxID == other.rxID && upstream == other.upstream && downstream == other.downstream; } bool operator!=(const TransitHopInfo& other) const { return !(*this == other); } bool operator<(const TransitHopInfo& other) const { return txID < other.txID || rxID < other.rxID || upstream < other.upstream || downstream < other.downstream; } struct Hash { std::size_t operator()(TransitHopInfo const& a) const { std::size_t idx0, idx1, idx2, idx3; memcpy(&idx0, a.upstream, sizeof(std::size_t)); memcpy(&idx1, a.downstream, sizeof(std::size_t)); memcpy(&idx2, a.txID, sizeof(std::size_t)); memcpy(&idx3, a.rxID, sizeof(std::size_t)); return idx0 ^ idx1 ^ idx2; } }; }; struct PathIDHash { std::size_t operator()(const PathID_t& a) const { std::size_t idx0; memcpy(&idx0, a, sizeof(std::size_t)); return idx0; } }; struct IHopHandler { virtual ~IHopHandler(){}; virtual bool Expired(llarp_time_t now) const = 0; /// send routing message and increment sequence number virtual bool SendRoutingMessage(llarp::routing::IMessage* msg, llarp_router* r) = 0; // handle data in upstream direction virtual bool HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r) = 0; // handle data in downstream direction virtual bool HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r) = 0; protected: uint64_t m_SequenceNum = 0; }; struct TransitHop : public IHopHandler, public llarp::routing::IMessageHandler { TransitHop(); TransitHop(const TransitHop& other); TransitHopInfo info; SharedSecret pathKey; ShortHash nonceXOR; llarp_time_t started = 0; // 10 minutes default llarp_time_t lifetime = DEFAULT_PATH_LIFETIME; llarp_proto_version_t version; llarp::routing::InboundMessageParser m_MessageParser; friend std::ostream& operator<<(std::ostream& out, const TransitHop& h) { return out << "[TransitHop " << h.info << " started=" << h.started << " lifetime=" << h.lifetime << "]"; } bool Expired(llarp_time_t now) const; // send routing message when end of path bool SendRoutingMessage(llarp::routing::IMessage* msg, llarp_router* r); // handle routing message when end of path bool HandleRoutingMessage(const llarp::routing::IMessage* msg, llarp_router* r); bool HandlePathConfirmMessage(const llarp::routing::PathConfirmMessage* msg, llarp_router* r); bool HandlePathTransferMessage(const llarp::routing::PathTransferMessage* msg, llarp_router* r); bool HandlePathLatencyMessage(const llarp::routing::PathLatencyMessage* msg, llarp_router* r); bool HandleHiddenServiceFrame(const llarp::service::ProtocolFrame* frame) { /// TODO: implement me llarp::LogWarn("Got hidden service data on transit hop"); return false; } bool HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg); bool HandleDHTMessage(const llarp::dht::IMessage* msg, llarp_router* r); // handle data in upstream direction bool HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r); // handle data in downstream direction bool HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r); }; /// configuration for a single hop when building a path struct PathHopConfig { /// path id PathID_t txID, rxID; // router contact of router llarp_rc router; // temp public encryption key SecretKey commkey; /// shared secret at this hop SharedSecret shared; /// hash of shared secret used for nonce mutation ShortHash nonceXOR; /// next hop's router id RouterID upstream; /// nonce for key exchange TunnelNonce nonce; // lifetime llarp_time_t lifetime = DEFAULT_PATH_LIFETIME; ~PathHopConfig(); PathHopConfig(); }; /// A path we made struct Path : public IHopHandler, public llarp::routing::IMessageHandler { typedef std::function< void(Path*) > BuildResultHookFunc; typedef std::vector< PathHopConfig > HopList; typedef std::function< bool(const service::ProtocolFrame*) > DataHandlerFunc; HopList hops; llarp::service::Introduction intro; llarp_time_t buildStarted; PathStatus status; Path(llarp_path_hops* path); void SetBuildResultHook(BuildResultHookFunc func); void SetDataHandler(DataHandlerFunc func) { m_DataHandler = func; } llarp_time_t ExpireTime() const { return buildStarted + hops[0].lifetime; } bool Expired(llarp_time_t now) const; void Tick(llarp_time_t now, llarp_router* r); bool SendRoutingMessage(llarp::routing::IMessage* msg, llarp_router* r); bool HandlePathConfirmMessage(const llarp::routing::PathConfirmMessage* msg, llarp_router* r); bool HandlePathLatencyMessage(const llarp::routing::PathLatencyMessage* msg, llarp_router* r); bool HandlePathTransferMessage(const llarp::routing::PathTransferMessage* msg, llarp_router* r); bool HandleHiddenServiceFrame(const llarp::service::ProtocolFrame* frame); bool HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg); bool HandleDHTMessage(const llarp::dht::IMessage* msg, llarp_router* r); bool HandleRoutingMessage(llarp_buffer_t buf, llarp_router* r); // handle data in upstream direction bool HandleUpstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r); // handle data in downstream direction bool HandleDownstream(llarp_buffer_t X, const TunnelNonce& Y, llarp_router* r); bool IsReady() const; // Is this deprecated? // nope not deprecated :^DDDD const PathID_t& TXID() const; RouterID Endpoint() const; const PathID_t& RXID() const; RouterID Upstream() const; protected: llarp::routing::InboundMessageParser m_InboundMessageParser; private: BuildResultHookFunc m_BuiltHook; DataHandlerFunc m_DataHandler; llarp_time_t m_LastLatencyTestTime = 0; uint64_t m_LastLatencyTestID = 0; }; enum PathBuildStatus { ePathBuildSuccess, ePathBuildTimeout, ePathBuildReject }; struct PathContext { PathContext(llarp_router* router); ~PathContext(); /// called from router tick function void ExpirePaths(); /// called from router tick function /// builds all paths we need to build at current tick void BuildPaths(); /// called from router tick function void TickPaths(); /// track a path builder with this context void AddPathBuilder(llarp_pathbuilder_context* set); void AllowTransit(); void RejectTransit(); bool AllowingTransit() const; bool HasTransitHop(const TransitHopInfo& info); bool HandleRelayCommit(const LR_CommitMessage* msg); void PutTransitHop(TransitHop* hop); IHopHandler* GetByUpstream(const RouterID& id, const PathID_t& path); IHopHandler* GetByDownstream(const RouterID& id, const PathID_t& path); PathSet* GetLocalPathSet(const PathID_t& id); routing::IMessageHandler* GetHandler(const PathID_t& id); bool ForwardLRCM(const RouterID& nextHop, std::deque< EncryptedFrame >& frames); bool HopIsUs(const PubKey& k) const; bool HandleLRUM(const RelayUpstreamMessage* msg); bool HandleLRDM(const RelayDownstreamMessage* msg); void AddOwnPath(PathSet* set, Path* p); typedef std::multimap< PathID_t, TransitHop* > TransitHopsMap_t; typedef std::pair< util::Mutex, TransitHopsMap_t > SyncTransitMap_t; // maps path id -> pathset owner of path typedef std::map< PathID_t, PathSet* > OwnedPathsMap_t; typedef std::pair< util::Mutex, OwnedPathsMap_t > SyncOwnedPathsMap_t; llarp_threadpool* Worker(); llarp_crypto* Crypto(); llarp_logic* Logic(); llarp_router* Router(); byte_t* EncryptionSecretKey(); const byte_t* OurRouterID() const; private: llarp_router* m_Router; SyncTransitMap_t m_TransitPaths; SyncTransitMap_t m_Paths; SyncOwnedPathsMap_t m_OurPaths; std::list< llarp_pathbuilder_context* > m_PathBuilders; bool m_AllowTransit; }; } // namespace path } // namespace llarp #endif