#include #include #include #include #include #include #include #include #include #include #include #include #include #include #if (__FreeBSD__) || (__OpenBSD__) || (__NetBSD__) #include #endif namespace llarp { bool Context::CallSafe(std::function f) { return logic && LogicCall(logic, f); } void Context::Configure(Config conf) { if (nullptr != config.get()) throw std::runtime_error("Config already exists"); config = std::make_shared(std::move(conf)); logic = std::make_shared(); nodedb_dir = fs::path(config->router.m_dataDir / nodedb_dirname).string(); } bool Context::IsUp() const { return router && router->IsRunning(); } bool Context::LooksAlive() const { return router && router->LooksAlive(); } int Context::LoadDatabase() { llarp_nodedb::ensure_dir(nodedb_dir.c_str()); return 1; } void Context::Setup(const RuntimeOptions& opts) { /// Call one of the Configure() methods before calling Setup() if (not config) throw std::runtime_error("Cannot call Setup() on context without a Config"); llarp::LogInfo(llarp::VERSION_FULL, " ", llarp::RELEASE_MOTTO); llarp::LogInfo("starting up"); if (mainloop == nullptr) { auto jobQueueSize = std::max(event_loop_queue_size, config->router.m_JobQueueSize); mainloop = llarp_make_ev_loop(jobQueueSize); } logic->set_event_loop(mainloop.get()); mainloop->set_logic(logic); crypto = std::make_unique(); cryptoManager = std::make_unique(crypto.get()); router = makeRouter(mainloop, logic); nodedb = std::make_unique( nodedb_dir, [r = router.get()](auto call) { r->QueueDiskIO(std::move(call)); }); if (!router->Configure(config, opts.isRouter, nodedb.get())) throw std::runtime_error("Failed to configure router"); // must be done after router is made so we can use its disk io worker // must also be done after configure so that netid is properly set if it // is provided by config if (!this->LoadDatabase()) throw std::runtime_error("Config::Setup() failed to load database"); } std::unique_ptr Context::makeRouter(llarp_ev_loop_ptr netloop, std::shared_ptr logic) { return std::make_unique(netloop, logic); } int Context::Run(const RuntimeOptions& opts) { if (router == nullptr) { // we are not set up so we should die llarp::LogError("cannot run non configured context"); return 1; } if (!opts.background) { if (!router->Run()) return 2; } // run net io thread llarp::LogInfo("running mainloop"); llarp_ev_loop_run_single_process(mainloop, logic); if (closeWaiter) { // inform promise if called by CloseAsync closeWaiter->set_value(); } return 0; } void Context::CloseAsync() { /// already closing if (closeWaiter) return; if (CallSafe(std::bind(&Context::HandleSignal, this, SIGTERM))) closeWaiter = std::make_unique>(); } void Context::Wait() { if (closeWaiter) { closeWaiter->get_future().wait(); closeWaiter.reset(); } } void Context::HandleSignal(int sig) { if (sig == SIGINT || sig == SIGTERM) { SigINT(); } #ifndef _WIN32 if (sig == SIGHUP) { Reload(); } #endif } void Context::Reload() {} void Context::SigINT() { if (router) { /// async stop router on sigint router->Stop(); } else { if (logic) logic->stop(); llarp_ev_loop_stop(mainloop); Close(); } } void Context::Close() { llarp::LogDebug("free config"); config.reset(); llarp::LogDebug("free nodedb"); nodedb.release(); llarp::LogDebug("free router"); router.release(); llarp::LogDebug("free logic"); logic.reset(); } } // namespace llarp extern "C" { ssize_t llarp_vpn_io_readpkt(struct llarp_vpn_pkt_reader* r, unsigned char* dst, size_t dstlen) { if (r == nullptr) return -1; if (not r->queue.enabled()) return -1; auto pkt = r->queue.popFront(); ManagedBuffer mbuf = pkt.ConstBuffer(); const llarp_buffer_t& buf = mbuf; if (buf.sz > dstlen || buf.sz == 0) return -1; std::copy_n(buf.base, buf.sz, dst); return buf.sz; } bool llarp_vpn_io_writepkt(struct llarp_vpn_pkt_writer* w, unsigned char* pktbuf, size_t pktlen) { if (pktlen == 0 || pktbuf == nullptr) return false; if (w == nullptr) return false; llarp_vpn_pkt_queue::Packet_t pkt; llarp_buffer_t buf(pktbuf, pktlen); if (not pkt.Load(buf)) return false; return w->queue.pushBack(std::move(pkt)) == llarp::thread::QueueReturn::Success; } bool llarp_main_inject_vpn_by_name( llarp::Context* ctx, const char* name, struct llarp_vpn_io* io, struct llarp_vpn_ifaddr_info info) { if (name == nullptr || io == nullptr) return false; if (ctx == nullptr || ctx->router == nullptr) return false; auto ep = ctx->router->hiddenServiceContext().GetEndpointByName(name); return ep && ep->InjectVPN(io, info); } void llarp_vpn_io_close_async(struct llarp_vpn_io* io) { if (io == nullptr || io->impl == nullptr) return; static_cast(io->impl)->AsyncClose(); } bool llarp_vpn_io_init(llarp::Context* ctx, struct llarp_vpn_io* io) { if (io == nullptr || ctx == nullptr) return false; llarp_vpn_io_impl* impl = new llarp_vpn_io_impl(ctx, io); io->impl = impl; return true; } struct llarp_vpn_pkt_writer* llarp_vpn_io_packet_writer(struct llarp_vpn_io* io) { if (io == nullptr || io->impl == nullptr) return nullptr; llarp_vpn_io_impl* vpn = static_cast(io->impl); return &vpn->writer; } struct llarp_vpn_pkt_reader* llarp_vpn_io_packet_reader(struct llarp_vpn_io* io) { if (io == nullptr || io->impl == nullptr) return nullptr; llarp_vpn_io_impl* vpn = static_cast(io->impl); return &vpn->reader; } }