#include #include #include #include "router.hpp" namespace llarp { namespace service { Context::Context(llarp_router *r) : m_Router(r) { } Context::~Context() { auto itr = m_Endpoints.begin(); while(itr != m_Endpoints.end()) { itr = m_Endpoints.erase(itr); } } void Context::Tick() { auto now = m_Router->Now(); auto itr = m_Endpoints.begin(); while(itr != m_Endpoints.end()) { itr->second->Tick(now); ++itr; } } bool Context::hasEndpoints() { return m_Endpoints.size() ? true : false; } llarp::service::Endpoint * Context::getFirstEndpoint() { if(!m_Endpoints.size()) { llarp::LogError("No endpoints found"); return nullptr; } auto firstEndpoint = m_Endpoints.begin(); auto *uniqueEndpoint = &firstEndpoint->second; return uniqueEndpoint->get(); } bool Context::iterate(struct endpoint_iter &i) { if(!m_Endpoints.size()) { llarp::LogError("No endpoints found"); return false; } i.index = 0; // llarp::util::Lock lock(access); auto itr = m_Endpoints.begin(); while(itr != m_Endpoints.end()) { i.endpoint = itr->second.get(); if(!i.visit(&i)) return false; // advance i.index++; itr++; } return true; } llarp::handlers::TunEndpoint * Context::getFirstTun() { llarp::service::Endpoint *endpointer = this->getFirstEndpoint(); if(!endpointer) { return nullptr; } llarp::handlers::TunEndpoint *tunEndpoint = dynamic_cast< llarp::handlers::TunEndpoint * >(endpointer); return tunEndpoint; } llarp_tun_io * Context::getRange() { llarp::handlers::TunEndpoint *tunEndpoint = this->getFirstTun(); if(!tunEndpoint) { llarp::LogError("No tunnel endpoint found"); return nullptr; } return &tunEndpoint->tunif; } bool Context::FindBestAddressFor(const llarp::service::Address &addr, huint32_t &ip) { auto itr = m_Endpoints.begin(); while(itr != m_Endpoints.end()) { if(itr->second->HasAddress(addr)) { ip = itr->second->ObtainIPForAddr(addr); return true; } ++itr; } itr = m_Endpoints.find("default"); if(itr != m_Endpoints.end()) { ip = itr->second->ObtainIPForAddr(addr); return true; } return false; } bool Context::Prefetch(const llarp::service::Address &addr) { llarp::handlers::TunEndpoint *tunEndpoint = this->getFirstTun(); if(!tunEndpoint) { llarp::LogError("No tunnel endpoint found"); return false; } // HiddenServiceAddresslookup *lookup = new // HiddenServiceEndpoint(tunEndpoint, callback, addr, // tunEndpoint->GenTXID()); return tunEndpoint->EnsurePathToService( addr, [](Address addr, void *ctx) {}, 10000); } huint32_t Context::GetIpForAddr(const llarp::service::Address &addr) { llarp::handlers::TunEndpoint *tunEndpoint = this->getFirstTun(); if(!tunEndpoint) { huint32_t zero; zero.h = 0; llarp::LogError("No tunnel endpoint found"); return zero; } return tunEndpoint->ObtainIPForAddr(addr); } bool Context::MapAddress(const llarp::service::Address &addr, huint32_t ip) { if(!m_Endpoints.size()) { llarp::LogError("No endpoints found"); return false; } auto firstEndpoint = m_Endpoints.begin(); auto *uniqueEndpoint = &firstEndpoint->second; llarp::service::Endpoint *endpointer = uniqueEndpoint->get(); llarp::handlers::TunEndpoint *tunEndpoint = dynamic_cast< llarp::handlers::TunEndpoint * >(endpointer); if(!tunEndpoint) { llarp::LogError("No tunnel endpoint found"); return false; } return tunEndpoint->MapAddress(addr, ip); } bool MapAddressAllIter(struct Context::endpoint_iter *endpointCfg) { Context::mapAddressAll_context *context = (Context::mapAddressAll_context *)endpointCfg->user; llarp::handlers::TunEndpoint *tunEndpoint = (llarp::handlers::TunEndpoint *)endpointCfg->endpoint; if(!tunEndpoint) { llarp::LogError("No tunnel endpoint found"); return true; // still continue } return tunEndpoint->MapAddress(context->serviceAddr, context->localPrivateIpAddr.xtohl()); } bool Context::MapAddressAll(const llarp::service::Address &addr, llarp::Addr &localPrivateIpAddr) { struct Context::mapAddressAll_context context; context.serviceAddr = addr; context.localPrivateIpAddr = localPrivateIpAddr; struct Context::endpoint_iter i; i.user = &context; i.index = 0; i.visit = &MapAddressAllIter; return this->iterate(i); } bool Context::AddDefaultEndpoint(const std::string &ifaddr, const std::string &ifname) { return AddEndpoint( {"default", {{"type", "tun"}, {"ifaddr", ifaddr}, {"ifname", ifname}}}); } bool Context::AddEndpoint(const Config::section_t &conf) { { auto itr = m_Endpoints.find(conf.first); if(itr != m_Endpoints.end()) { llarp::LogError("cannot add hidden service with duplicate name: ", conf.first); return false; } } // extract type std::string endpointType = "tun"; for(const auto &option : conf.second) { if(option.first == "type") endpointType = option.second; } std::unique_ptr< llarp::service::Endpoint > service; static std::map< std::string, std::function< llarp::service::Endpoint *( const std::string &, llarp_router *) > > endpointConstructors = { {"tun", [](const std::string &nick, llarp_router *r) -> llarp::service::Endpoint * { return new llarp::handlers::TunEndpoint(nick, r); }}, {"null", [](const std::string &nick, llarp_router *r) -> llarp::service::Endpoint * { return new llarp::service::Endpoint(nick, r); }}}; { // detect type auto itr = endpointConstructors.find(endpointType); if(itr == endpointConstructors.end()) { llarp::LogError("no such endpoint type: ", endpointType); return false; } // construct service.reset(itr->second(conf.first, m_Router)); } // configure for(const auto &option : conf.second) { auto &k = option.first; if(k == "type") continue; auto &v = option.second; if(!service->SetOption(k, v)) { llarp::LogError("failed to set ", k, "=", v, " for hidden service endpoint ", conf.first); return false; } } // start if(service->Start()) { llarp::LogInfo("added hidden service endpoint ", service->Name()); m_Endpoints.insert(std::make_pair(conf.first, std::move(service))); return true; } llarp::LogError("failed to start hidden service endpoint ", conf.first); return false; } } // namespace service } // namespace llarp