/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2014-2016 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2016 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2016 Mellanox Technologies. All rights reserved. * Copyright (c) 2016 Research Organization for Information Science * and Technology (RIST). All rights reserved. * Copyright (c) 2017 IBM Corporation. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #if !defined(OPAL_THREADS_WAIT_SYNC_H) #define OPAL_THREADS_WAIT_SYNC_H #include "opal/sys/atomic.h" #include "opal/threads/condition.h" #include BEGIN_C_DECLS typedef struct ompi_wait_sync_t { int32_t count; int32_t status; pthread_cond_t condition; pthread_mutex_t lock; struct ompi_wait_sync_t *next; struct ompi_wait_sync_t *prev; volatile bool signaling; } ompi_wait_sync_t; #define REQUEST_PENDING (void*)0L #define REQUEST_COMPLETED (void*)1L #define SYNC_WAIT(sync) (opal_using_threads() ? ompi_sync_wait_mt (sync) : sync_wait_st (sync)) /* The loop in release handles a race condition between the signaling * thread and the destruction of the condition variable. The signaling * member will be set to false after the final signaling thread has * finished operating on the sync object. This is done to avoid * extra atomics in the signalling function and keep it as fast * as possible. Note that the race window is small so spinning here * is more optimal than sleeping since this macro is called in * the critical path. */ #define WAIT_SYNC_RELEASE(sync) \ if (opal_using_threads()) { \ while ((sync)->signaling) { \ continue; \ } \ pthread_cond_destroy(&(sync)->condition); \ pthread_mutex_destroy(&(sync)->lock); \ } #define WAIT_SYNC_RELEASE_NOWAIT(sync) \ if (opal_using_threads()) { \ pthread_cond_destroy(&(sync)->condition); \ pthread_mutex_destroy(&(sync)->lock); \ } #define WAIT_SYNC_SIGNAL(sync) \ if (opal_using_threads()) { \ pthread_mutex_lock(&(sync->lock)); \ pthread_cond_signal(&sync->condition); \ pthread_mutex_unlock(&(sync->lock)); \ sync->signaling = false; \ } #define WAIT_SYNC_SIGNALLED(sync){ \ (sync)->signaling = false; \ } OPAL_DECLSPEC int ompi_sync_wait_mt(ompi_wait_sync_t *sync); static inline int sync_wait_st (ompi_wait_sync_t *sync) { while (sync->count > 0) { opal_progress(); } return sync->status; } #define WAIT_SYNC_INIT(sync,c) \ do { \ (sync)->count = (c); \ (sync)->next = NULL; \ (sync)->prev = NULL; \ (sync)->status = 0; \ (sync)->signaling = (0 != (c)); \ if (opal_using_threads()) { \ pthread_cond_init (&(sync)->condition, NULL); \ pthread_mutex_init (&(sync)->lock, NULL); \ } \ } while(0) /** * Update the status of the synchronization primitive. If an error is * reported the synchronization is completed and the signal * triggered. The status of the synchronization will be reported to * the waiting threads. */ static inline void wait_sync_update(ompi_wait_sync_t *sync, int updates, int status) { if( OPAL_LIKELY(OPAL_SUCCESS == status) ) { if( 0 != (OPAL_THREAD_ADD_FETCH32(&sync->count, -updates)) ) { return; } } else { /* this is an error path so just use the atomic */ sync->status = OPAL_ERROR; opal_atomic_wmb (); opal_atomic_swap_32 (&sync->count, 0); } WAIT_SYNC_SIGNAL(sync); } END_C_DECLS #endif /* defined(OPAL_THREADS_WAIT_SYNC_H) */