#include #include #include #include "logger.hpp" #include "router.hpp" #if(__FreeBSD__) #include #endif namespace llarp { Context::Context(std::ostream &stdout, bool singleThread) : singleThreaded(singleThread), out(stdout) { llarp::Info(LLARP_VERSION, " ", LLARP_RELEASE_MOTTO); } Context::~Context() { } void Context::progress() { out << "." << std::flush; } bool Context::ReloadConfig() { llarp::Info("loading config at ", configfile); if(!llarp_load_config(config, configfile.c_str())) { llarp_config_iterator iter; iter.user = this; iter.visit = &iter_config; llarp_config_iter(config, &iter); llarp::Info("config loaded"); return true; } llarp_free_config(&config); llarp::Error("failed to load config file ", configfile); return false; } void Context::iter_config(llarp_config_iterator *itr, const char *section, const char *key, const char *val) { Context *ctx = static_cast< Context * >(itr->user); if(!strcmp(section, "router")) { if(!strcmp(key, "worker-threads") && !ctx->singleThreaded) { int workers = atoi(val); if(workers > 0 && ctx->worker == nullptr) { ctx->worker = llarp_init_threadpool(workers, "llarp-worker"); } } if(!strcmp(key, "net-threads")) { ctx->num_nethreads = atoi(val); if(ctx->num_nethreads <= 0) ctx->num_nethreads = 1; if(ctx->singleThreaded) ctx->num_nethreads = 0; } } if(!strcmp(section, "netdb")) { if(!strcmp(key, "dir")) { strncpy(ctx->nodedb_dir, val, sizeof(ctx->nodedb_dir)); } } } int Context::Run() { llarp::Info("starting up"); llarp_ev_loop_alloc(&mainloop); llarp_crypto_libsodium_init(&crypto); nodedb = llarp_nodedb_new(&crypto); if(!nodedb_dir[0]) { llarp::Error("no nodedb_dir configured"); return 0; } nodedb_dir[sizeof(nodedb_dir) - 1] = 0; if(!llarp_nodedb_ensure_dir(nodedb_dir)) { llarp::Error("nodedb_dir is incorrect"); return 0; } llarp::Info("nodedb_dir configured!"); ssize_t loaded = llarp_nodedb_load_dir(nodedb, nodedb_dir); llarp::Info("nodedb_dir configured! loaded ", loaded, " RCs"); if(loaded < 0) { // shouldn't be possible llarp::Error("nodedb_dir directory doesn't exist"); return 0; } // ensure worker thread pool if(!worker && !singleThreaded) worker = llarp_init_threadpool(2, "llarp-worker"); else if(singleThreaded) { llarp::Info("running in single threaded mode"); worker = llarp_init_same_process_threadpool(); } // ensure netio thread if(singleThreaded) { logic = llarp_init_single_process_logic(worker); } else logic = llarp_init_logic(); router = llarp_init_router(worker, mainloop, logic); if(llarp_configure_router(router, config)) { if(custom_dht_func) { llarp::Info("using custom dht function"); llarp_dht_set_msg_handler(router->dht, custom_dht_func); } llarp_run_router(router, nodedb); // run net io thread if(singleThreaded) { llarp::Info("running mainloop"); llarp_ev_loop_run_single_process(mainloop, worker, logic); } else { auto netio = mainloop; while(num_nethreads--) { netio_threads.emplace_back([netio]() { llarp_ev_loop_run(netio); }); #if(__APPLE__ && __MACH__) #elif(__FreeBSD__) pthread_set_name_np(netio_threads.back().native_handle(), "llarp-netio"); #else pthread_setname_np(netio_threads.back().native_handle(), "llarp-netio"); #endif } llarp::Info("running mainloop"); llarp_logic_mainloop(logic); } return 0; } else llarp::Error("Failed to configure router"); return 1; } void Context::HandleSignal(int sig) { if(sig == SIGINT) { llarp::Info("SIGINT"); SigINT(); } if(sig == SIGHUP) { llarp::Info("SIGHUP"); ReloadConfig(); } } void Context::SigINT() { Close(); } void Context::Close() { llarp::Debug("stop router"); if(router) llarp_stop_router(router); llarp::Debug("stop workers"); if(worker) llarp_threadpool_stop(worker); llarp::Debug("join workers"); if(worker) llarp_threadpool_join(worker); llarp::Debug("stop logic"); if(logic) llarp_logic_stop(logic); llarp::Debug("free config"); llarp_free_config(&config); llarp::Debug("free workers"); llarp_free_threadpool(&worker); llarp::Debug("free nodedb"); llarp_nodedb_free(&nodedb); for(size_t i = 0; i < netio_threads.size(); ++i) { if(mainloop) { llarp::Debug("stopping event loop thread ", i); llarp_ev_loop_stop(mainloop); } } llarp::Debug("free router"); llarp_free_router(&router); llarp::Debug("free logic"); llarp_free_logic(&logic); for(auto &t : netio_threads) { llarp::Debug("join netio thread"); t.join(); } netio_threads.clear(); llarp::Debug("free mainloop"); llarp_ev_loop_free(&mainloop); } bool Context::LoadConfig(const std::string &fname) { llarp_new_config(&config); configfile = fname; return ReloadConfig(); } } extern "C" { struct llarp_main { std::unique_ptr< llarp::Context > ctx; }; struct llarp_main * llarp_main_init(const char *fname, bool multiProcess) { if(!fname) fname = "daemon.ini"; llarp_main *m = new llarp_main; m->ctx.reset(new llarp::Context(std::cout, !multiProcess)); if(!m->ctx->LoadConfig(fname)) { m->ctx->Close(); delete m; return nullptr; } return m; } void llarp_main_set_dht_handler(struct llarp_main *ptr, llarp_dht_msg_handler func) { ptr->ctx->custom_dht_func = func; } void llarp_main_signal(struct llarp_main *ptr, int sig) { ptr->ctx->HandleSignal(sig); } int llarp_main_run(struct llarp_main *ptr) { return ptr->ctx->Run(); } void llarp_main_free(struct llarp_main *ptr) { delete ptr; } }