#include "config.h" #include "iothread.h" #include "common.h" #include #include #include #include #include #include #include #include #include #include #ifdef _POSIX_THREAD_THREADS_MAX #if _POSIX_THREAD_THREADS_MAX < 64 #define IO_MAX_THREADS _POSIX_THREAD_THREADS_MAX #endif #endif #ifndef IO_MAX_THREADS #define IO_MAX_THREADS 64 #endif static int s_active_thread_count; typedef unsigned char ThreadIndex_t; static struct WorkerThread_t { ThreadIndex_t idx; pthread_t thread; } threads[IO_MAX_THREADS]; struct ThreadedRequest_t { int sequenceNumber; int (*handler)(void *); void (*completionCallback)(void *, int); void *context; int handlerResult; }; static struct WorkerThread_t *next_vacant_thread_slot(void) { for (ThreadIndex_t i=0; i < IO_MAX_THREADS; i++) { if (! threads[i].thread) return &threads[i]; } return NULL; } static pthread_mutex_t s_request_queue_lock; static std::queue s_request_queue; static int s_last_sequence_number; static int s_read_pipe, s_write_pipe; static void iothread_init(void) { static bool inited = false; if (! inited) { inited = true; /* Initialize the queue lock */ VOMIT_ON_FAILURE(pthread_mutex_init(&s_request_queue_lock, NULL)); /* Initialize the completion pipes */ int pipes[2] = {0, 0}; VOMIT_ON_FAILURE(pipe(pipes)); s_read_pipe = pipes[0]; s_write_pipe = pipes[1]; // 0 means success to VOMIT_ON_FAILURE. Arrange to pass 0 if fcntl returns anything other than -1. VOMIT_ON_FAILURE(-1 == fcntl(s_read_pipe, F_SETFD, FD_CLOEXEC)); VOMIT_ON_FAILURE(-1 == fcntl(s_write_pipe, F_SETFD, FD_CLOEXEC)); /* Tell each thread its index */ for (ThreadIndex_t i=0; i < IO_MAX_THREADS; i++) { threads[i].idx = i; } } } static void add_to_queue(struct ThreadedRequest_t *req) { ASSERT_IS_LOCKED(s_request_queue_lock); s_request_queue.push(req); } static ThreadedRequest_t *dequeue_request(void) { ThreadedRequest_t *result = NULL; scoped_lock lock(s_request_queue_lock); if (! s_request_queue.empty()) { result = s_request_queue.front(); s_request_queue.pop(); } return result; } /* The function that does thread work. */ static void *iothread_worker(void *threadPtr) { assert(threadPtr != NULL); struct WorkerThread_t *thread = (struct WorkerThread_t *)threadPtr; // We don't want to receive signals on this thread sigset_t set; sigfillset(&set); VOMIT_ON_FAILURE(pthread_sigmask(SIG_SETMASK, &set, NULL)); /* Grab a request off of the queue */ struct ThreadedRequest_t *req = dequeue_request(); /* Run the handler and store the result */ if (req) { req->handlerResult = req->handler(req->context); } /* Write our index to wake up the main thread */ VOMIT_ON_FAILURE(! write_loop(s_write_pipe, (const char *)&thread->idx, sizeof thread->idx)); /* We're done */ return req; } /* Spawn another thread if there's work to be done. */ static void iothread_spawn_if_needed(void) { ASSERT_IS_LOCKED(s_request_queue_lock); if (! s_request_queue.empty() && s_active_thread_count < IO_MAX_THREADS) { struct WorkerThread_t *thread = next_vacant_thread_slot(); assert(thread != NULL); /* Spawn a thread */ int err; do { err = 0; if (pthread_create(&thread->thread, NULL, iothread_worker, thread)) { err = errno; } } while (err == EAGAIN); assert(err == 0); /* Note that we are spawned another thread */ s_active_thread_count += 1; } } int iothread_perform_base(int (*handler)(void *), void (*completionCallback)(void *, int), void *context) { ASSERT_IS_MAIN_THREAD(); ASSERT_IS_NOT_FORKED_CHILD(); iothread_init(); /* Create and initialize a request. */ struct ThreadedRequest_t *req = new ThreadedRequest_t(); req->handler = handler; req->completionCallback = completionCallback; req->context = context; req->sequenceNumber = ++s_last_sequence_number; /* Take our lock */ scoped_lock lock(s_request_queue_lock); /* Add to the queue */ add_to_queue(req); /* Spawn a thread if necessary */ iothread_spawn_if_needed(); return 0; } int iothread_port(void) { iothread_init(); return s_read_pipe; } void iothread_service_completion(void) { ASSERT_IS_MAIN_THREAD(); ThreadIndex_t threadIdx = (ThreadIndex_t)-1; VOMIT_ON_FAILURE(1 != read_loop(iothread_port(), &threadIdx, sizeof threadIdx)); assert(threadIdx < IO_MAX_THREADS); struct WorkerThread_t *thread = &threads[threadIdx]; assert(thread->thread != 0); struct ThreadedRequest_t *req = NULL; VOMIT_ON_FAILURE(pthread_join(thread->thread, (void **)&req)); /* Free up this thread */ thread->thread = 0; assert(s_active_thread_count > 0); s_active_thread_count -= 1; /* Handle the request */ if (req) { if (req->completionCallback) req->completionCallback(req->context, req->handlerResult); delete req; } /* Maybe spawn another thread, if there's more work to be done. */ VOMIT_ON_FAILURE(pthread_mutex_lock(&s_request_queue_lock)); iothread_spawn_if_needed(); VOMIT_ON_FAILURE(pthread_mutex_unlock(&s_request_queue_lock)); } void iothread_drain_all(void) { ASSERT_IS_MAIN_THREAD(); ASSERT_IS_NOT_FORKED_CHILD(); while (s_active_thread_count > 0) { iothread_service_completion(); } }