#ifndef LLARP_LINK_SERVER_HPP #define LLARP_LINK_SERVER_HPP #include #include #include #include #include #include #include #include #include #include #include namespace llarp { /// handle a link layer message using LinkMessageHandler = std::function< bool(ILinkSession*, const llarp_buffer_t&) >; /// sign a buffer with identity key using SignBufferFunc = std::function< bool(Signature&, const llarp_buffer_t&) >; /// handle connection timeout using TimeoutHandler = std::function< void(ILinkSession*) >; /// get our RC using GetRCFunc = std::function< const llarp::RouterContact&(void) >; /// handler of session established /// return false to reject /// return true to accept using SessionEstablishedHandler = std::function< bool(ILinkSession*) >; /// f(new, old) /// handler of session renegotiation /// returns true if the new rc is valid /// returns false otherwise and the session is terminated using SessionRenegotiateHandler = std::function< bool(llarp::RouterContact, llarp::RouterContact) >; /// handles close of all sessions with pubkey using SessionClosedHandler = std::function< void(llarp::RouterID) >; /// notifies router that a link session has ended its pump and we should flush /// messages to upper layers using PumpDoneHandler = std::function< void(void) >; struct ILinkLayer { ILinkLayer(const SecretKey& routerEncSecret, GetRCFunc getrc, LinkMessageHandler handler, SignBufferFunc signFunc, SessionEstablishedHandler sessionEstablish, SessionRenegotiateHandler renegotiate, TimeoutHandler timeout, SessionClosedHandler closed, PumpDoneHandler pumpDone); virtual ~ILinkLayer(); /// get current time via event loop llarp_time_t Now() const { return llarp_ev_loop_time_now_ms(m_Loop); } bool HasSessionTo(const RouterID& pk); bool HasSessionVia(const Addr& addr); void ForEachSession(std::function< void(const ILinkSession*) > visit, bool randomize = false) const LOCKS_EXCLUDED(m_AuthedLinksMutex); void ForEachSession(std::function< void(ILinkSession*) > visit) LOCKS_EXCLUDED(m_AuthedLinksMutex); static void udp_tick(llarp_udp_io* udp); void SendTo_LL(const llarp::Addr& to, const llarp_buffer_t& pkt) { llarp_ev_udp_sendto(&m_udp, to, pkt); } virtual bool Configure(llarp_ev_loop_ptr loop, const std::string& ifname, int af, uint16_t port); virtual std::shared_ptr< ILinkSession > NewOutboundSession(const RouterContact& rc, const AddressInfo& ai) = 0; virtual void Pump(); virtual void RecvFrom(const Addr& from, ILinkSession::Packet_t pkt) = 0; bool PickAddress(const RouterContact& rc, AddressInfo& picked) const; bool TryEstablishTo(RouterContact rc); bool Start(std::shared_ptr< llarp::Logic > l, std::shared_ptr< thread::ThreadPool > worker); virtual void Stop(); virtual const char* Name() const = 0; util::StatusObject ExtractStatus() const LOCKS_EXCLUDED(m_AuthedLinksMutex); void CloseSessionTo(const RouterID& remote); void KeepAliveSessionTo(const RouterID& remote); virtual bool SendTo(const RouterID& remote, const llarp_buffer_t& buf, ILinkSession::CompletionHandler completed); virtual bool GetOurAddressInfo(AddressInfo& addr) const; bool VisitSessionByPubkey(const RouterID& pk, std::function< bool(ILinkSession*) > visit) LOCKS_EXCLUDED(m_AuthedLinksMutex); virtual uint16_t Rank() const = 0; virtual bool KeyGen(SecretKey&) = 0; const byte_t* TransportPubKey() const; const SecretKey& RouterEncryptionSecret() const { return m_RouterEncSecret; } const SecretKey& TransportSecretKey() const; bool IsCompatable(const llarp::RouterContact& other) const { const std::string us = Name(); for(const auto& ai : other.addrs) if(ai.dialect == us) return true; return false; } bool EnsureKeys(const char* fpath); bool GenEphemeralKeys(); virtual bool MapAddr(const RouterID& pk, ILinkSession* s); void Tick(llarp_time_t now); LinkMessageHandler HandleMessage; TimeoutHandler HandleTimeout; SignBufferFunc Sign; GetRCFunc GetOurRC; SessionEstablishedHandler SessionEstablished; SessionClosedHandler SessionClosed; SessionRenegotiateHandler SessionRenegotiate; PumpDoneHandler PumpDone; std::shared_ptr< Logic > logic() { return m_Logic; } bool operator<(const ILinkLayer& other) const { return Rank() < other.Rank() || Name() < other.Name() || m_ourAddr < other.m_ourAddr; } /// called by link session to remove a pending session who is timed out // void // RemovePending(ILinkSession* s) LOCKS_EXCLUDED(m_PendingMutex); /// count the number of sessions that are yet to be fully connected size_t NumberOfPendingSessions() const { ACQUIRE_LOCK(Lock_t lock, m_PendingMutex); return m_Pending.size(); } private: static void on_timer_tick(void* user, uint64_t orig, uint64_t left) { // timer cancelled if(left) return; static_cast< ILinkLayer* >(user)->OnTick(orig); } void OnTick(uint64_t interval); void ScheduleTick(uint64_t interval); uint32_t tick_id; const SecretKey& m_RouterEncSecret; protected: #ifdef TRACY_ENABLE using Lock_t = std::lock_guard< LockableBase(std::mutex) >; using Mutex_t = std::mutex; #else using Lock_t = util::NullLock; using Mutex_t = util::NullMutex; #endif bool PutSession(const std::shared_ptr< ILinkSession >& s); std::shared_ptr< llarp::Logic > m_Logic = nullptr; std::shared_ptr< llarp::thread::ThreadPool > m_Worker = nullptr; llarp_ev_loop_ptr m_Loop; Addr m_ourAddr; llarp_udp_io m_udp; SecretKey m_SecretKey; using AuthedLinks = std::unordered_multimap< RouterID, std::shared_ptr< ILinkSession >, RouterID::Hash >; using Pending = std::unordered_multimap< llarp::Addr, std::shared_ptr< ILinkSession >, llarp::Addr::Hash >; mutable DECLARE_LOCK(Mutex_t, m_AuthedLinksMutex, ACQUIRED_BEFORE(m_PendingMutex)); AuthedLinks m_AuthedLinks GUARDED_BY(m_AuthedLinksMutex); mutable DECLARE_LOCK(Mutex_t, m_PendingMutex, ACQUIRED_AFTER(m_AuthedLinksMutex)); Pending m_Pending GUARDED_BY(m_PendingMutex); using TrafficEvent_t = std::pair< Addr, ILinkSession::Packet_t >; using TrafficQueue_t = std::vector< TrafficEvent_t >; std::shared_ptr< TrafficQueue_t > m_Recv; }; using LinkLayer_ptr = std::shared_ptr< ILinkLayer >; } // namespace llarp #endif