#ifndef LLARP_THREADPOOL_H #define LLARP_THREADPOOL_H #include #include #include #include #include #include struct llarp_threadpool { std::unique_ptr< llarp::thread::ThreadPool > impl; std::unique_ptr< llarp::thread::Queue< std::function< void(void) > > > jobs; const pid_t callingPID; llarp_threadpool(int workers, const char *name) : impl( std::make_unique< llarp::thread::ThreadPool >(workers, workers * 128)) , jobs(nullptr) , callingPID(0) { (void)name; } llarp_threadpool() : jobs(new llarp::thread::Queue< std::function< void(void) > >(128)) , callingPID(::getpid()) { jobs->enable(); } size_t size() const { if(jobs) return jobs->size(); return 0; } bool QueueFunc(std::function< void(void) > f) { if(impl) return impl->tryAddJob(f); else return jobs->tryPushBack(f) == llarp::thread::QueueReturn::Success; } }; struct llarp_threadpool * llarp_init_threadpool(int workers, const char *name); /// for single process mode struct llarp_threadpool * llarp_init_same_process_threadpool(); void llarp_free_threadpool(struct llarp_threadpool **tp); typedef void (*llarp_thread_work_func)(void *); /** job to be done in worker thread */ struct llarp_thread_job { /** user data to pass to work function */ void *user; /** called in threadpool worker thread */ llarp_thread_work_func work; #ifdef __cplusplus llarp_thread_job(void *u, llarp_thread_work_func w) : user(u), work(w) { } llarp_thread_job() : user(nullptr), work(nullptr) { } #endif }; /// for single process mode void llarp_threadpool_tick(struct llarp_threadpool *tp); void llarp_threadpool_queue_job(struct llarp_threadpool *tp, struct llarp_thread_job j); void llarp_threadpool_start(struct llarp_threadpool *tp); void llarp_threadpool_stop(struct llarp_threadpool *tp); void llarp_threadpool_join(struct llarp_threadpool *tp); void llarp_threadpool_wait(struct llarp_threadpool *tp); #endif