#include #include #include #include #include "buffer.hpp" #include "router.hpp" namespace llarp { namespace service { Endpoint::Endpoint(const std::string& name, llarp_router* r) : llarp_pathbuilder_context(r, r->dht, 2, 4), m_Router(r), m_Name(name) { m_Tag.Zero(); } bool Endpoint::SetOption(const std::string& k, const std::string& v) { if(k == "keyfile") { m_Keyfile = v; } if(k == "tag") { m_Tag = v; llarp::LogInfo("Setting tag to ", v); } if(k == "prefetch-tag") { m_PrefetchTags.insert(v); } return true; } struct PathAlignJob { Address remote; PathAlignJob(const Address& addr) : remote(addr) { } void HandleResult(Endpoint::OutboundContext* context) { if(context) { byte_t tmp[128] = {0}; memcpy(tmp, "BEEP", 4); auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); context->AsyncEncryptAndSendTo(buf, eProtocolText); } else { llarp::LogWarn("PathAlignJob timed out"); } delete this; } }; void Endpoint::Tick(llarp_time_t now) { // publish descriptors if(ShouldPublishDescriptors(now)) { std::set< Introduction > I; if(!GetCurrentIntroductions(I)) { llarp::LogWarn("could not publish descriptors for endpoint ", Name(), " because we couldn't get any introductions"); return; } m_IntroSet.I.clear(); for(const auto& intro : I) m_IntroSet.I.push_back(intro); m_IntroSet.topic = m_Tag; if(!m_Identity.SignIntroSet(m_IntroSet, &m_Router->crypto)) { llarp::LogWarn("failed to sign introset for endpoint ", Name()); return; } if(PublishIntroSet(m_Router)) { llarp::LogInfo("publishing introset for endpoint ", Name()); } else { llarp::LogWarn("failed to publish intro set for endpoint ", Name()); } } // expire pending tx { auto itr = m_PendingLookups.begin(); while(itr != m_PendingLookups.end()) { if(itr->second->IsTimedOut(now)) { itr->second->HandleResponse({}); itr = m_PendingLookups.erase(itr); } else ++itr; } } // prefetch tags for(const auto& tag : m_PrefetchTags) { auto itr = m_PrefetchedTags.find(tag); if(itr == m_PrefetchedTags.end()) { itr = m_PrefetchedTags .insert(std::make_pair(tag, CachedTagResult(tag, now))) .first; } for(const auto& introset : itr->second.result) { PathAlignJob* j = new PathAlignJob(introset.A.Addr()); if(!EnsurePathToService(j->remote, std::bind(&PathAlignJob::HandleResult, j, std::placeholders::_1), 10000)) delete j; } itr->second.Expire(now); if(itr->second.ShouldRefresh(now)) { auto path = PickRandomEstablishedPath(); if(path) { itr->second.pendingTX = GenTXID(); m_PendingLookups[itr->second.pendingTX] = &itr->second; itr->second.SendRequestViaPath(path, m_Router); } } } // tick remote sessions { auto itr = m_RemoteSessions.begin(); while(itr != m_RemoteSessions.end()) { if(itr->second->Tick(now)) { delete itr->second; itr = m_RemoteSessions.erase(itr); } else ++itr; } } } uint64_t Endpoint::GenTXID() { uint64_t txid = llarp_randint(); while(m_PendingLookups.find(txid) != m_PendingLookups.end()) ++txid; return txid; } std::string Endpoint::Name() const { return m_Name + ":" + m_Identity.pub.Name(); } bool Endpoint::HandleGotIntroMessage(const llarp::dht::GotIntroMessage* msg) { auto crypto = &m_Router->crypto; std::set< IntroSet > remote; for(const auto& introset : msg->I) { if(!introset.VerifySignature(crypto)) { llarp::LogInfo("invalid introset signature for ", introset, " on endpoint ", Name()); if(m_Identity.pub == introset.A && m_CurrentPublishTX == msg->T) { IntroSetPublishFail(); } return false; } if(m_Identity.pub == introset.A && m_CurrentPublishTX == msg->T) { llarp::LogInfo( "got introset publish confirmation for hidden service endpoint ", Name()); IntroSetPublished(); return true; } else { remote.insert(introset); } } auto itr = m_PendingLookups.find(msg->T); if(itr == m_PendingLookups.end()) { llarp::LogWarn("invalid lookup response for hidden service endpoint ", Name(), " txid=", msg->T); return true; } bool result = itr->second->HandleResponse(remote); m_PendingLookups.erase(itr); return result; } bool Endpoint::Start() { auto crypto = &m_Router->crypto; if(m_Keyfile.size()) { if(!m_Identity.EnsureKeys(m_Keyfile, crypto)) return false; } else { m_Identity.RegenerateKeys(crypto); } return true; } Endpoint::~Endpoint() { } Endpoint::CachedTagResult::~CachedTagResult() { } bool Endpoint::CachedTagResult::HandleResponse( const std::set< IntroSet >& introsets) { auto now = llarp_time_now_ms(); pendingTX = 0; for(const auto& introset : introsets) if(result.insert(introset).second) lastModified = now; llarp::LogInfo("Tag result for ", tag.ToString(), " got ", introsets.size(), " results from lookup, have ", result.size(), " cached last modified at ", lastModified, " is ", now - lastModified, "ms old"); return true; } void Endpoint::CachedTagResult::Expire(llarp_time_t now) { auto itr = result.begin(); while(itr != result.end()) { if(itr->HasExpiredIntros(now)) { llarp::LogInfo("Removing expired tag Entry ", itr->A.Name()); itr = result.erase(itr); lastModified = now; } else { ++itr; } } } llarp::routing::IMessage* Endpoint::CachedTagResult::BuildRequestMessage() { llarp::routing::DHTMessage* msg = new llarp::routing::DHTMessage(); msg->M.push_back(new llarp::dht::FindIntroMessage(tag, pendingTX)); lastRequest = llarp_time_now_ms(); return msg; } bool Endpoint::PublishIntroSet(llarp_router* r) { auto path = PickRandomEstablishedPath(); if(path) { m_CurrentPublishTX = llarp_randint(); llarp::routing::DHTMessage msg; msg.M.push_back(new llarp::dht::PublishIntroMessage( m_IntroSet, m_CurrentPublishTX, 3)); if(path->SendRoutingMessage(&msg, r)) { m_LastPublishAttempt = llarp_time_now_ms(); llarp::LogInfo(Name(), " publishing introset"); return true; } } llarp::LogWarn(Name(), " publish introset failed"); return false; } void Endpoint::IntroSetPublishFail() { llarp::LogWarn("failed to publish introset for ", Name()); m_CurrentPublishTX = 0; } bool Endpoint::ShouldPublishDescriptors(llarp_time_t now) const { if(m_IntroSet.HasExpiredIntros(now)) return m_CurrentPublishTX == 0 && now - m_LastPublishAttempt >= INTROSET_PUBLISH_RETRY_INTERVAL; return m_CurrentPublishTX == 0 && now - m_LastPublish >= INTROSET_PUBLISH_INTERVAL; } void Endpoint::IntroSetPublished() { m_CurrentPublishTX = 0; m_LastPublish = llarp_time_now_ms(); llarp::LogInfo(Name(), " IntroSet publish confirmed"); } struct HiddenServiceAddressLookup : public IServiceLookup { Endpoint* endpoint; Address remote; uint64_t txid; HiddenServiceAddressLookup(Endpoint* parent, const Address& addr, uint64_t tx) : endpoint(parent), remote(addr), txid(tx) { llarp::LogInfo("New hidden service lookup for ", addr.ToString()); } bool HandleResponse(const std::set< IntroSet >& results) { if(results.size() == 1) { llarp::LogInfo("hidden service lookup for ", remote.ToString(), " success"); endpoint->PutNewOutboundContext(*results.begin()); } else { llarp::LogInfo("no response in hidden service lookup for ", remote.ToString()); } delete this; return true; } llarp::routing::IMessage* BuildRequestMessage() { llarp::routing::DHTMessage* msg = new llarp::routing::DHTMessage(); msg->M.push_back(new llarp::dht::FindIntroMessage(remote, txid)); return msg; } }; void Endpoint::PutNewOutboundContext(const llarp::service::IntroSet& introset) { Address addr; introset.A.CalculateAddress(addr); // only add new session if it's not there if(m_RemoteSessions.find(addr) == m_RemoteSessions.end()) { OutboundContext* ctx = new OutboundContext(introset, this); m_RemoteSessions.insert(std::make_pair(addr, ctx)); llarp::LogInfo("Created New outbound context for ", addr.ToString()); } // inform pending auto itr = m_PendingServiceLookups.find(addr); if(itr != m_PendingServiceLookups.end()) { itr->second(m_RemoteSessions.at(addr)); m_PendingServiceLookups.erase(itr); } } bool Endpoint::EnsurePathToService(const Address& remote, PathEnsureHook hook, llarp_time_t timeoutMS) { auto path = PickRandomEstablishedPath(); if(!path) { llarp::LogWarn("No outbound path for lookup yet"); return false; } { auto itr = m_RemoteSessions.find(remote); if(itr != m_RemoteSessions.end()) { hook(itr->second); return true; } } auto itr = m_PendingServiceLookups.find(remote); if(itr != m_PendingServiceLookups.end()) { // duplicate return false; } llarp::LogInfo(Name(), " Ensure Path to ", remote.ToString()); m_PendingServiceLookups.insert(std::make_pair(remote, hook)); HiddenServiceAddressLookup* job = new HiddenServiceAddressLookup(this, remote, GenTXID()); m_PendingLookups.insert(std::make_pair(job->txid, job)); return job->SendRequestViaPath(path, Router()); } Endpoint::OutboundContext::OutboundContext(const IntroSet& intro, Endpoint* parent) : llarp_pathbuilder_context(parent->m_Router, parent->m_Router->dht, 2, 4) , currentIntroSet(intro) , m_Parent(parent) { selectedIntro.Clear(); ShiftIntroduction(); } Endpoint::OutboundContext::~OutboundContext() { } void Endpoint::OutboundContext::ShiftIntroduction() { for(const auto& intro : currentIntroSet.I) { if(intro.expiresAt > selectedIntro.expiresAt) { selectedIntro = intro; } } } bool Endpoint::OutboundContext::HandleGotIntroMessage( const llarp::dht::GotIntroMessage* msg) { auto crypto = m_Parent->Crypto(); if(msg->I.size() == 1) { // found intro set auto itr = msg->I.begin(); if(itr->VerifySignature(crypto) && currentIntroSet.A == itr->A) { currentIntroSet = *itr; ShiftIntroduction(); return true; } else { llarp::LogError("Signature Error for intro set ", *itr); return false; } } llarp::LogError("Bad number of intro sets in response"); return false; } void Endpoint::OutboundContext::AsyncEncryptAndSendTo(llarp_buffer_t data, ProtocolType protocol) { if(sequenceNo) { AsyncEncrypt(data); } else { AsyncGenIntro(data); } } struct AsyncIntroGen { llarp_logic* logic; llarp_crypto* crypto; byte_t* sharedKey; byte_t* remotePubkey; Identity* m_LocalIdentity; ProtocolMessage msg; ProtocolFrame frame; std::function< void(ProtocolFrame&) > hook; AsyncIntroGen(llarp_logic* l, llarp_crypto* c, byte_t* key, byte_t* remote, Identity* localident) : logic(l) , crypto(c) , sharedKey(key) , remotePubkey(remote) , m_LocalIdentity(localident) { } static void Result(void* user) { AsyncIntroGen* self = static_cast< AsyncIntroGen* >(user); self->hook(self->frame); delete self; } static void Work(void* user) { AsyncIntroGen* self = static_cast< AsyncIntroGen* >(user); // randomize Nounce self->frame.N.Randomize(); // derive session key self->crypto->dh_server(self->sharedKey, self->remotePubkey, self->m_LocalIdentity->enckey, self->frame.N); // encrypt and sign self->frame.EncryptAndSign(self->crypto, &self->msg, self->sharedKey, self->m_LocalIdentity->signkey); // inform result llarp_logic_queue_job(self->logic, {self, &Result}); } }; void Endpoint::OutboundContext::AsyncGenIntro(llarp_buffer_t payload) { AsyncIntroGen* ex = new AsyncIntroGen(m_Parent->Logic(), m_Parent->Crypto(), sharedKey, currentIntroSet.A.enckey, m_Parent->GetIdentity()); ex->hook = std::bind(&Endpoint::OutboundContext::Send, this, std::placeholders::_1); ex->msg.PutBuffer(payload); llarp_threadpool_queue_job(m_Parent->Worker(), {ex, &AsyncIntroGen::Work}); } void Endpoint::OutboundContext::Send(ProtocolFrame& msg) { // in this context we assume the message contents are encrypted auto now = llarp_time_now_ms(); if(currentIntroSet.HasExpiredIntros(now)) { UpdateIntroSet(); } if(selectedIntro.expiresAt <= now || now - selectedIntro.expiresAt > 1000) { ShiftIntroduction(); } auto path = GetPathByRouter(selectedIntro.router); if(path) { routing::PathTransferMessage transfer; transfer.T = &msg; transfer.Y.Randomize(); transfer.P = selectedIntro.pathID; llarp::LogInfo("sending frame via ", path->Upstream(), " to ", path->Endpoint()); path->SendRoutingMessage(&transfer, m_Parent->Router()); } else { llarp::LogWarn("No path to ", selectedIntro.router); } } void Endpoint::OutboundContext::UpdateIntroSet() { auto path = PickRandomEstablishedPath(); if(path) { uint64_t txid = llarp_randint(); routing::DHTMessage msg; msg.M.push_back( new llarp::dht::FindIntroMessage(currentIntroSet.A.Addr(), txid)); path->SendRoutingMessage(&msg, m_Parent->Router()); } else { llarp::LogWarn( "Cannot update introset no path for outbound session to ", currentIntroSet.A.Addr().ToString()); } } bool Endpoint::OutboundContext::Tick(llarp_time_t now) { if(selectedIntro.expiresAt >= now || selectedIntro.expiresAt - now < 5000) { UpdateIntroSet(); } // TODO: check for expiration return false; } bool Endpoint::OutboundContext::SelectHop(llarp_nodedb* db, llarp_rc* prev, llarp_rc* cur, size_t hop) { // TODO: don't hard code llarp::LogInfo("Select hop ", hop); if(hop == 3) { auto localcopy = llarp_nodedb_get_rc(db, selectedIntro.router); if(localcopy) { llarp_rc_copy(cur, localcopy); return true; } else { // we don't have it? llarp::LogError( "cannot build aligned path, don't have router for introduction ", selectedIntro); return false; } } else return llarp_pathbuilder_context::SelectHop(db, prev, cur, hop); } void Endpoint::OutboundContext::AsyncEncrypt(llarp_buffer_t payload) { // TODO: implement me } llarp_logic* Endpoint::Logic() { return m_Router->logic; } llarp_crypto* Endpoint::Crypto() { return &m_Router->crypto; } llarp_threadpool* Endpoint::Worker() { return m_Router->tp; } } // namespace service } // namespace llarp