#include #include "llarp.h" #include "llarp.hpp" #include "util/thread/logic.hpp" #include "router/abstractrouter.hpp" #include #include using namespace std::chrono_literals; namespace tooling { void RouterHive::AddRouter( const std::shared_ptr& config, std::vector* routers) { llarp_main* ctx = llarp_main_init_from_config(config->Copy()); if (llarp_main_setup(ctx) == 0) { llarp::Context::Get(ctx)->InjectHive(this); routers->push_back(ctx); } } void RouterHive::AddRelay(const std::shared_ptr& config) { AddRouter(config, &relays); } void RouterHive::AddClient(const std::shared_ptr& config) { AddRouter(config, &clients); } void RouterHive::StartRouters(std::vector* routers) { for (llarp_main* ctx : *routers) { routerMainThreads.emplace_back([ctx]() { llarp_main_run(ctx, llarp_main_runtime_opts{false, false, false}); }); std::this_thread::sleep_for(2ms); } } void RouterHive::StartRelays() { StartRouters(&relays); } void RouterHive::StartClients() { StartRouters(&clients); } void RouterHive::StopRouters() { llarp::LogInfo("Signalling all routers to stop"); for (llarp_main* ctx : relays) { llarp_main_signal(ctx, 2 /* SIGINT */); } for (llarp_main* ctx : clients) { llarp_main_signal(ctx, 2 /* SIGINT */); } llarp::LogInfo("Waiting on routers to be stopped"); for (llarp_main* ctx : relays) { while (llarp_main_is_running(ctx)) { std::this_thread::sleep_for(10ms); } } for (llarp_main* ctx : clients) { while (llarp_main_is_running(ctx)) { std::this_thread::sleep_for(10ms); } } llarp::LogInfo("Joining all router threads"); for (auto& thread : routerMainThreads) { while (not thread.joinable()) { std::this_thread::sleep_for(500ms); } thread.join(); } llarp::LogInfo("RouterHive::StopRouters finished"); } void RouterHive::NotifyEvent(RouterEventPtr event) { std::lock_guard guard{eventQueueMutex}; eventQueue.push_back(std::move(event)); } RouterEventPtr RouterHive::GetNextEvent() { std::lock_guard guard{eventQueueMutex}; if (not eventQueue.empty()) { auto ptr = std::move(eventQueue.front()); eventQueue.pop_front(); return ptr; } return nullptr; } std::deque RouterHive::GetAllEvents() { std::lock_guard guard{eventQueueMutex}; std::deque events; if (not eventQueue.empty()) { eventQueue.swap(events); } return events; } void RouterHive::VisitRouter(llarp_main* router, std::function visit) { auto ctx = llarp::Context::Get(router); LogicCall(ctx->logic, [visit, ctx]() { visit(ctx); }); } void RouterHive::VisitRelay(size_t index, std::function visit) { if (index >= relays.size()) { visit(nullptr); return; } VisitRouter(relays[index], visit); } void RouterHive::VisitClient(size_t index, std::function visit) { if (index >= clients.size()) { visit(nullptr); return; } VisitRouter(clients[index], visit); } std::vector RouterHive::RelayConnectedRelays() { std::vector results; results.resize(relays.size()); std::mutex results_lock; size_t i = 0; size_t done_count = 0; for (auto relay : relays) { auto ctx = llarp::Context::Get(relay); LogicCall(ctx->logic, [&, i, ctx]() { size_t count = ctx->router->NumberOfConnectedRouters(); std::lock_guard guard{results_lock}; results[i] = count; done_count++; }); i++; } while (true) { size_t read_done_count = 0; { std::lock_guard guard{results_lock}; read_done_count = done_count; } if (read_done_count == relays.size()) break; std::this_thread::sleep_for(100ms); } return results; } std::vector RouterHive::GetRelayRCs() { std::vector results; results.resize(relays.size()); std::mutex results_lock; size_t i = 0; size_t done_count = 0; for (auto relay : relays) { auto ctx = llarp::Context::Get(relay); LogicCall(ctx->logic, [&, i, ctx]() { llarp::RouterContact rc = ctx->router->rc(); std::lock_guard guard{results_lock}; results[i] = std::move(rc); done_count++; }); i++; } while (true) { size_t read_done_count = 0; { std::lock_guard guard{results_lock}; read_done_count = done_count; } if (read_done_count == relays.size()) break; std::this_thread::sleep_for(100ms); } return results; } } // namespace tooling