#include "link_manager.hpp" #include #include #include #include #include namespace llarp { link::Endpoint* LinkManager::GetCompatibleLink(const RouterContact& rc) { if (stopping) return nullptr; for (auto& ep : endpoints) { //TODO: need some notion of "is this link compatible with that address". // iwp just checks that the link dialect ("iwp") matches the address info dialect, // but that feels insufficient. For now, just return the first endpoint we have; // we should probably only have 1 for now anyway until we make ipv6 work. return &ep; } return nullptr; } //TODO: replace with control/data message sending with libquic bool LinkManager::SendTo( const RouterID& remote, const llarp_buffer_t& buf, ILinkSession::CompletionHandler completed, uint16_t priority) { if (stopping) return false; if (not HaveConnection(remote)) { if (completed) { completed(ILinkSession::DeliveryStatus::eDeliveryDropped); } return false; } //TODO: send the message //TODO: if we keep bool return type, change this accordingly return false; } bool LinkManager::HaveConnection(const RouterID& remote, bool client_only) const { for (const auto& ep : endpoints) { if (auto itr = ep.connections.find(remote); itr != ep.connections.end()) { if (not (itr->second.remote_is_relay and client_only)) return true; return false; } } return false; } bool LinkManager::HaveClientConnection(const RouterID& remote) const { return HaveConnection(remote, true); } void LinkManager::DeregisterPeer(RouterID remote) { m_PersistingSessions.erase(remote); for (const auto& ep : endpoints) { if (auto itr = ep.connections.find(remote); itr != ep.connections.end()) { /* itr->second.conn->close(); //TODO: libquic needs some function for this */ } } LogInfo(remote, " has been de-registered"); } void LinkManager::AddLink(const oxen::quic::opt::local_addr& bind, bool inbound) { //TODO: libquic callbacks: new_conn_alpn_notify, new_conn_pubkey_ok, new_conn_established/ready // stream_opened, stream_data, stream_closed, conn_closed oxen::quic::dgram_data_callback dgram_cb = [this](oxen::quic::dgram_interface& dgi, bstring dgram){ HandleIncomingDataMessage(dgi, dgram); }; auto ep = quic->endpoint(bind, std::move(dgram_cb), oxen::quic::opt::enable_datagrams{oxen::quic::Splitting::ACTIVE}); endpoints.emplace_back(); auto& endp = endpoints.back(); endp.endpoint = std::move(ep); if (inbound) { endp.endpoint->listen(tls_creds); endp.inbound = true; } } void LinkManager::Stop() { if (stopping) { return; } util::Lock l(_mutex); LogInfo("stopping links"); stopping = true; quic.reset(); } void LinkManager::PersistSessionUntil(const RouterID& remote, llarp_time_t until) { if (stopping) return; util::Lock l(_mutex); m_PersistingSessions[remote] = std::max(until, m_PersistingSessions[remote]); if (HaveClientConnection(remote)) { // mark this as a client so we don't try to back connect m_Clients.Upsert(remote); } } size_t LinkManager::NumberOfConnectedRouters(bool clients_only) const { size_t count{0}; for (const auto& ep : endpoints) { for (const auto& conn : ep.connections) { if (not (conn.second.remote_is_relay and clients_only)) count++; } } return count; } size_t LinkManager::NumberOfConnectedClients() const { return NumberOfConnectedRouters(true); } bool LinkManager::GetRandomConnectedRouter(RouterContact& router) const { std::unordered_map connectedRouters; for (const auto& ep : endpoints) { for (const auto& [router_id, conn] : ep.connections) { connectedRouters.emplace(router_id, conn.remote_rc); } } const auto sz = connectedRouters.size(); if (sz) { auto itr = connectedRouters.begin(); if (sz > 1) { std::advance(itr, randint() % sz); } router = itr->second; return true; } return false; } //TODO: this? perhaps no longer necessary in the same way? void LinkManager::CheckPersistingSessions(llarp_time_t now) { if (stopping) return; } //TODO: do we still need this concept? void LinkManager::updatePeerDb(std::shared_ptr peerDb) { } //TODO: this util::StatusObject LinkManager::ExtractStatus() const { return {}; } void LinkManager::Init(I_RCLookupHandler* rcLookup) { stopping = false; _rcLookup = rcLookup; _nodedb = router->nodedb(); } void LinkManager::Connect(RouterID router) { auto fn = [this](const RouterID& r, const RouterContact* const rc, const RCRequestResult res){ if (res == RCRequestResult::Success) Connect(*rc); /* TODO: else RC lookup failure callback here */ }; _rcLookup->GetRC(router, fn); } // This function assumes the RC has already had its signature verified and connection is allowed. void LinkManager::Connect(RouterContact rc) { //TODO: connection failed callback if (HaveConnection(rc.pubkey)) return; // RC shouldn't be valid if this is the case, but may as well sanity check... //TODO: connection failed callback if (rc.addrs.empty()) return; //TODO: connection failed callback auto* ep = GetCompatibleLink(rc); if (ep == nullptr) return; //TODO: connection established/failed callbacks oxen::quic::stream_data_callback stream_cb = [this](oxen::quic::Stream& stream, bstring_view packet){ HandleIncomingControlMessage(stream, packet); }; //TODO: once "compatible link" cares about address, actually choose addr to connect to // based on which one is compatible with the link we chose. For now, just use // the first one. auto& selected = rc.addrs[0]; oxen::quic::opt::remote_addr remote{selected.IPString(), selected.port}; //TODO: confirm remote end is using the expected pubkey (RouterID). //TODO: ALPN for "client" vs "relay" (could just be set on endpoint creation) //TODO: does connect() inherit the endpoint's datagram data callback, and do we want it to if so? auto conn_interface = ep->endpoint->connect(remote, stream_cb, tls_creds); std::shared_ptr stream = conn_interface->get_new_stream(); llarp::link::Connection conn; conn.conn = conn_interface; conn.control_stream = stream; conn.remote_rc = rc; conn.inbound = false; conn.remote_is_relay = true; ep->connections[rc.pubkey] = std::move(conn); ep->connid_map[conn_interface->scid()] = rc.pubkey; } void LinkManager::ConnectToRandomRouters(int numDesired) { std::set exclude; auto remainingDesired = numDesired; do { auto filter = [exclude](const auto& rc) -> bool { return exclude.count(rc.pubkey) == 0; }; RouterContact other; if (const auto maybe = _nodedb->GetRandom(filter)) { other = *maybe; } else break; exclude.insert(other.pubkey); if (not _rcLookup->SessionIsAllowed(other.pubkey)) continue; Connect(other); --remainingDesired; } while (remainingDesired > 0); } void LinkManager::HandleIncomingDataMessage(oxen::quic::dgram_interface& dgi, bstring dgram) { //TODO: this } void LinkManager::HandleIncomingControlMessage(oxen::quic::Stream& stream, bstring_view packet) { //TODO: this } } // namespace llarp