#ifndef LLARP_SERVICE_ENDPOINT_HPP #define LLARP_SERVICE_ENDPOINT_HPP #include #include #include #include namespace llarp { namespace service { struct Endpoint : public llarp_pathbuilder_context { /// minimum interval for publishing introsets static const llarp_time_t INTROSET_PUBLISH_INTERVAL = DEFAULT_PATH_LIFETIME / 4; static const llarp_time_t INTROSET_PUBLISH_RETRY_INTERVAL = 5000; Endpoint(const std::string& nickname, llarp_router* r); ~Endpoint(); bool SetOption(const std::string& k, const std::string& v); void Tick(llarp_time_t now); llarp_logic* Logic(); llarp_crypto* Crypto(); llarp_threadpool* Worker(); llarp_router* Router() { return m_Router; } bool Start(); std::string Name() const; bool ShouldPublishDescriptors(llarp_time_t now) const; bool PublishIntroSet(llarp_router* r); bool HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg); bool HandleHiddenServiceFrame(const llarp::service::ProtocolFrame* msg); /// return true if we have an established path to a hidden service bool HasPathToService(const Address& remote) const; /// return false if we don't have a path to the service /// return true if we did and we removed it bool ForgetPathToService(const Address& remote); Identity* GetIdentity() { return &m_Identity; } /// context needed to initiate an outbound hidden service session struct OutboundContext : public llarp_pathbuilder_context { OutboundContext(const IntroSet& introSet, Endpoint* parent); ~OutboundContext(); /// the remote hidden service's curren intro set IntroSet currentIntroSet; /// the current selected intro Introduction selectedIntro; /// update the current selected intro to be a new best introduction void ShiftIntroduction(); /// tick internal state /// return true to remove otherwise don't remove bool Tick(llarp_time_t now); /// encrypt asynchronously and send to remote endpoint from us void AsyncEncryptAndSendTo(llarp_buffer_t D, ProtocolType protocol); /// issues a lookup to find the current intro set of the remote service void UpdateIntroSet(); bool SelectHop(llarp_nodedb* db, llarp_rc* prev, llarp_rc* cur, size_t hop); bool HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg); private: void AsyncEncrypt(llarp_buffer_t payload); void AsyncGenIntro(llarp_buffer_t payload); /// send a fully encrypted hidden service frame void Send(ProtocolFrame& f); uint64_t sequenceNo = 0; llarp::SharedSecret sharedKey; Endpoint* m_Parent; }; // passed a sendto context when we have a path established otherwise // nullptr if the path was not made before the timeout typedef std::function< void(OutboundContext*) > PathEnsureHook; /// return false if we have already called this function before for this /// address bool EnsurePathToService(const Address& remote, PathEnsureHook h, uint64_t timeoutMS); virtual bool HandleAuthenticatedDataFrom(const Address& remote, llarp_buffer_t data) { /// TODO: imlement me return true; } void PutNewOutboundContext(const IntroSet& introset); protected: virtual void IntroSetPublishFail(); virtual void IntroSetPublished(); IServiceLookup* GenerateLookupByTag(const Tag& tag); void PrefetchServicesByTag(const Tag& tag); private: uint64_t GenTXID(); private: llarp_router* m_Router; std::string m_Keyfile; std::string m_Name; Identity m_Identity; std::unordered_map< Address, OutboundContext*, Address::Hash > m_RemoteSessions; std::unordered_map< Address, PathEnsureHook, Address::Hash > m_PendingServiceLookups; uint64_t m_CurrentPublishTX = 0; llarp_time_t m_LastPublish = 0; llarp_time_t m_LastPublishAttempt = 0; /// our introset service::IntroSet m_IntroSet; /// pending remote service lookups by id std::unordered_map< uint64_t, service::IServiceLookup* > m_PendingLookups; /// hidden service tag Tag m_Tag; /// prefetch descriptors for these hidden service tags std::set< Tag > m_PrefetchTags; struct CachedTagResult : public IServiceLookup { const static llarp_time_t TTL = 10000; llarp_time_t lastRequest = 0; llarp_time_t lastModified; uint64_t pendingTX = 0; std::set< IntroSet > result; Tag tag; CachedTagResult(const Tag& t, llarp_time_t now) : lastModified(now), tag(t) { } ~CachedTagResult(); void Expire(llarp_time_t now); bool ShouldRefresh(llarp_time_t now) const { if(now <= lastRequest) return false; return (now - lastRequest) > TTL && pendingTX == 0; } llarp::routing::IMessage* BuildRequestMessage(); bool HandleResponse(const std::set< IntroSet >& results); }; std::unordered_map< Tag, CachedTagResult, Tag::Hash > m_PrefetchedTags; }; } // namespace service } // namespace llarp #endif