/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2006 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2007 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2007-2013 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2007 Voltaire. All rights reserved. * Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved. * * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #ifndef OPAL_MUTEX_H #define OPAL_MUTEX_H 1 #include "opal_config.h" #include "opal/sys/atomic.h" BEGIN_C_DECLS /** * @file: * * Mutual exclusion functions. * * Functions for locking of critical sections. */ #if OMPI_ENABLE_THREAD_MULTIPLE /* * declaring this here so that CL does not complain */ OPAL_DECLSPEC extern bool opal_uses_threads; #endif /** * Opaque mutex object */ typedef struct opal_mutex_t opal_mutex_t; /** * Try to acquire a mutex. * * @param mutex Address of the mutex. * @return 0 if the mutex was acquired, 1 otherwise. */ static inline int opal_mutex_trylock(opal_mutex_t *mutex); /** * Acquire a mutex. * * @param mutex Address of the mutex. */ static inline void opal_mutex_lock(opal_mutex_t *mutex); /** * Release a mutex. * * @param mutex Address of the mutex. */ static inline void opal_mutex_unlock(opal_mutex_t *mutex); /** * Try to acquire a mutex using atomic operations. * * @param mutex Address of the mutex. * @return 0 if the mutex was acquired, 1 otherwise. */ static inline int opal_mutex_atomic_trylock(opal_mutex_t *mutex); /** * Acquire a mutex using atomic operations. * * @param mutex Address of the mutex. */ static inline void opal_mutex_atomic_lock(opal_mutex_t *mutex); /** * Release a mutex using atomic operations. * * @param mutex Address of the mutex. */ static inline void opal_mutex_atomic_unlock(opal_mutex_t *mutex); END_C_DECLS #include "mutex_unix.h" BEGIN_C_DECLS /** * Check and see if the process is using multiple threads. * * @retval true If the process may have more than one thread. * @retval false If the process only has a single thread. * * The value that this function returns is influenced by: * * - how MPI_INIT or MPI_INIT_THREAD was invoked, * - what the final MPI thread level was determined to be, * - whether the OMPI or MPI libraries are multi-threaded (Jan 2003: * they're not), * - whether configure determined if we have thread support or not * * MPI_INIT and MPI_INIT_THREAD (specifically, back-end OMPI startup * functions) invoke opal_set_using_threads() to influence the value of * this function, depending on their situation. Some examples: * * - if configure determined that we do not have threads, then this * value will always be false. * * - if MPI_INIT is invoked, and the ompi libraries are [still] * single-threaded, this value will be false. * * - if MPI_INIT_THREAD is invoked with MPI_THREAD_MULTIPLE, we have * thread support, and the final thread level is determined to be * MPI_THREAD_MULTIPLE, this value will be true. * * - if the process is a single-threaded OMPI executable (e.g., mpicc), * this value will be false. * * Hence, this function will return false if there is guaranteed to * only be one thread in the process. If there is even the * possibility that we may have multiple threads, true will be * returned. */ #if OMPI_ENABLE_THREAD_MULTIPLE #define opal_using_threads() opal_uses_threads #else #define opal_using_threads() 0 #endif /** * Set whether the process is using multiple threads or not. * * @param have Boolean indicating whether the process is using * multiple threads or not. * * @retval opal_using_threads The new return value from * opal_using_threads(). * * This function is used to influence the return value of * opal_using_threads(). If configure detected that we have thread * support, the return value of future invocations of * opal_using_threads() will be the parameter's value. If configure * detected that we have no thread support, then the retuen from * opal_using_threads() will always be false. */ static inline bool opal_set_using_threads(bool have) { #if OMPI_ENABLE_THREAD_MULTIPLE opal_uses_threads = have; #endif return opal_using_threads(); } /** * Lock a mutex if opal_using_threads() says that multiple threads may * be active in the process. * * @param mutex Pointer to a opal_mutex_t to lock. * * If there is a possibility that multiple threads are running in the * process (as determined by opal_using_threads()), this function will * block waiting to lock the mutex. * * If there is no possibility that multiple threads are running in the * process, return immediately. */ #define OPAL_THREAD_LOCK(mutex) \ do { \ if (opal_using_threads()) { \ opal_mutex_lock(mutex); \ } \ } while (0) /** * Try to lock a mutex if opal_using_threads() says that multiple * threads may be active in the process. * * @param mutex Pointer to a opal_mutex_t to trylock * * If there is a possibility that multiple threads are running in the * process (as determined by opal_using_threads()), this function will * trylock the mutex. * * If there is no possibility that multiple threads are running in the * process, return immediately without modifying the mutex. * * Returns 0 if mutex was locked, non-zero otherwise. */ #define OPAL_THREAD_TRYLOCK(mutex) \ (opal_using_threads() ? opal_mutex_trylock(mutex) : 0) /** * Unlock a mutex if opal_using_threads() says that multiple threads * may be active in the process. * * @param mutex Pointer to a opal_mutex_t to unlock. * * If there is a possibility that multiple threads are running in the * process (as determined by opal_using_threads()), this function will * unlock the mutex. * * If there is no possibility that multiple threads are running in the * process, return immediately without modifying the mutex. */ #define OPAL_THREAD_UNLOCK(mutex) \ do { \ if (opal_using_threads()) { \ opal_mutex_unlock(mutex); \ } \ } while (0) /** * Lock a mutex if opal_using_threads() says that multiple threads may * be active in the process for the duration of the specified action. * * @param mutex Pointer to a opal_mutex_t to lock. * @param action A scope over which the lock is held. * * If there is a possibility that multiple threads are running in the * process (as determined by opal_using_threads()), this function will * acquire the lock before invoking the specified action and release * it on return. * * If there is no possibility that multiple threads are running in the * process, invoke the action without acquiring the lock. */ #define OPAL_THREAD_SCOPED_LOCK(mutex, action) \ do { \ if(opal_using_threads()) { \ opal_mutex_lock(mutex); \ (action); \ opal_mutex_unlock(mutex); \ } else { \ (action); \ } \ } while (0) /** * Use an atomic operation for increment/decrement if opal_using_threads() * indicates that threads are in use by the application or library. */ static inline int32_t OPAL_THREAD_ADD32(volatile int32_t *addr, int delta) { int32_t ret; if (opal_using_threads()) { ret = opal_atomic_add_32(addr, delta); } else { ret = (*addr += delta); } return ret; } #if OPAL_HAVE_ATOMIC_MATH_64 static inline int64_t OPAL_THREAD_ADD64(volatile int64_t *addr, int delta) { int64_t ret; if (opal_using_threads()) { ret = opal_atomic_add_64(addr, delta); } else { ret = (*addr += delta); } return ret; } #endif static inline size_t OPAL_THREAD_ADD_SIZE_T(volatile size_t *addr, int delta) { size_t ret; if (opal_using_threads()) { ret = opal_atomic_add_size_t(addr, delta); } else { ret = (*addr += delta); } return ret; } /* BWB: FIX ME: remove if possible */ #define OPAL_CMPSET(x, y, z) ((*(x) == (y)) ? ((*(x) = (z)), 1) : 0) #if OPAL_HAVE_ATOMIC_CMPSET_32 #define OPAL_ATOMIC_CMPSET_32(x, y, z) \ (opal_using_threads() ? opal_atomic_cmpset_32(x, y, z) : OPAL_CMPSET(x, y, z)) #endif #if OPAL_HAVE_ATOMIC_CMPSET_64 #define OPAL_ATOMIC_CMPSET_64(x, y, z) \ (opal_using_threads() ? opal_atomic_cmpset_64(x, y, z) : OPAL_CMPSET(x, y, z)) #endif #if OPAL_HAVE_ATOMIC_CMPSET_32 || OPAL_HAVE_ATOMIC_CMPSET_64 #define OPAL_ATOMIC_CMPSET(x, y, z) \ (opal_using_threads() ? opal_atomic_cmpset(x, y, z) : OPAL_CMPSET(x, y, z)) #endif END_C_DECLS #endif /* OPAL_MUTEX_H */