#include #include #include namespace llarp { void Logic::tick(llarp_time_t now) { llarp_timer_set_time(this->timer, now); llarp_timer_tick_all(this->timer); llarp_threadpool_tick(this->thread); } void Logic::tick_async(llarp_time_t now) { llarp_timer_tick_all_async(this->timer, this->thread, now); llarp_threadpool_tick(this->thread); } void Logic::stop_timer() { llarp_timer_stop(this->timer); } void Logic::queue_job(struct llarp_thread_job job) { if(job.user && job.work) queue_func(std::bind(job.work, job.user)); } void Logic::stop() { llarp::LogDebug("logic thread stop"); if(this->thread) { llarp_threadpool_stop(this->thread); llarp_threadpool_join(this->thread); } llarp_free_threadpool(&this->thread); llarp::LogDebug("logic timer stop"); if(this->timer) llarp_timer_stop(this->timer); } void Logic::mainloop() { llarp_timer_run(this->timer, this->thread); } bool Logic::queue_func(std::function< void(void) > f) { size_t left = 1000; while(!this->thread->QueueFunc(f)) { // our queue is full if(this->can_flush()) { // we can flush the queue here so let's do it this->tick(llarp::time_now_ms()); } else { // wait a bit and retry queuing because we are not in the same thread as // we are calling the jobs in std::this_thread::sleep_for(std::chrono::milliseconds(5)); } left--; if(left == 0) // too many retries return false; } return true; } uint32_t Logic::call_later(const llarp_timeout_job& job) { llarp_timeout_job j; j.user = job.user; j.timeout = job.timeout; j.handler = job.handler; return llarp_timer_call_later(this->timer, j); } void Logic::cancel_call(uint32_t id) { llarp_timer_cancel_job(this->timer, id); } void Logic::remove_call(uint32_t id) { llarp_timer_remove_job(this->timer, id); } bool Logic::can_flush() const { return ourPID && ourPID == ::getpid(); } } // namespace llarp