/* StarPU --- Runtime system for heterogeneous multicore architectures. * * Copyright (C) 2009, 2010-2012 Université de Bordeaux 1 * Copyright (C) 2010, 2011 Centre National de la Recherche Scientifique * * StarPU is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * StarPU is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * See the GNU Lesser General Public License in COPYING.LGPL for more details. */ #include #include #include //#define STARPU_MPI_VERBOSE 1 #include #include /* TODO find a better way to select the polling method (perhaps during the * configuration) */ //#define USE_STARPU_ACTIVITY 1 static void submit_mpi_req(void *arg); static void handle_request_termination(struct _starpu_mpi_req *req); /* The list of requests that have been newly submitted by the application */ static struct _starpu_mpi_req_list *new_requests; /* The list of detached requests that have already been submitted to MPI */ static struct _starpu_mpi_req_list *detached_requests; static pthread_mutex_t detached_requests_mutex; /* Condition to wake up progression thread */ static pthread_cond_t cond_progression; /* Condition to wake up waiting for all current MPI requests to finish */ static pthread_cond_t cond_finished; static pthread_mutex_t mutex; static pthread_t progress_thread; static int running = 0; /* Count requests posted by the application and not yet submitted to MPI, i.e pushed into the new_requests list */ static pthread_mutex_t mutex_posted_requests; static int posted_requests = 0, newer_requests, barrier_running = 0; #define INC_POSTED_REQUESTS(value) { _STARPU_PTHREAD_MUTEX_LOCK(&mutex_posted_requests); posted_requests += value; _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex_posted_requests); } /* * Isend */ static void starpu_mpi_isend_func(struct _starpu_mpi_req *req) { _STARPU_MPI_LOG_IN(); void *ptr = starpu_mpi_handle_to_ptr(req->data_handle); _STARPU_MPI_DEBUG("post MPI isend tag %d dst %d ptr %p req %p\n", req->mpi_tag, req->srcdst, ptr, &req->request); starpu_mpi_handle_to_datatype(req->data_handle, &req->datatype); req->ret = MPI_Isend(ptr, 1, req->datatype, req->srcdst, req->mpi_tag, req->comm, &req->request); STARPU_ASSERT(req->ret == MPI_SUCCESS); TRACE_MPI_ISEND(req->srcdst, req->mpi_tag, 0); /* somebody is perhaps waiting for the MPI request to be posted */ _STARPU_PTHREAD_MUTEX_LOCK(&req->req_mutex); req->submitted = 1; _STARPU_PTHREAD_COND_BROADCAST(&req->req_cond); _STARPU_PTHREAD_MUTEX_UNLOCK(&req->req_mutex); _STARPU_MPI_LOG_OUT(); } static struct _starpu_mpi_req *_starpu_mpi_isend_common(starpu_data_handle_t data_handle, int dest, int mpi_tag, MPI_Comm comm, unsigned detached, void (*callback)(void *), void *arg) { struct _starpu_mpi_req *req = calloc(1, sizeof(struct _starpu_mpi_req)); STARPU_ASSERT(req); _STARPU_MPI_LOG_IN(); INC_POSTED_REQUESTS(1); /* Initialize the request structure */ req->submitted = 0; req->completed = 0; _STARPU_PTHREAD_MUTEX_INIT(&req->req_mutex, NULL); _STARPU_PTHREAD_COND_INIT(&req->req_cond, NULL); req->request_type = SEND_REQ; req->data_handle = data_handle; req->srcdst = dest; req->mpi_tag = mpi_tag; req->comm = comm; req->func = starpu_mpi_isend_func; req->detached = detached; req->callback = callback; req->callback_arg = arg; /* Asynchronously request StarPU to fetch the data in main memory: when * it is available in main memory, submit_mpi_req(req) is called and * the request is actually submitted */ starpu_data_acquire_cb(data_handle, STARPU_R, submit_mpi_req, (void *)req); _STARPU_MPI_LOG_OUT(); return req; } int starpu_mpi_isend(starpu_data_handle_t data_handle, starpu_mpi_req *public_req, int dest, int mpi_tag, MPI_Comm comm) { _STARPU_MPI_LOG_IN(); STARPU_ASSERT(public_req); struct _starpu_mpi_req *req; req = _starpu_mpi_isend_common(data_handle, dest, mpi_tag, comm, 0, NULL, NULL); STARPU_ASSERT(req); *public_req = req; _STARPU_MPI_LOG_OUT(); return 0; } /* * Isend (detached) */ int starpu_mpi_isend_detached(starpu_data_handle_t data_handle, int dest, int mpi_tag, MPI_Comm comm, void (*callback)(void *), void *arg) { _STARPU_MPI_LOG_IN(); _starpu_mpi_isend_common(data_handle, dest, mpi_tag, comm, 1, callback, arg); _STARPU_MPI_LOG_OUT(); return 0; } /* * Irecv */ static void starpu_mpi_irecv_func(struct _starpu_mpi_req *req) { _STARPU_MPI_LOG_IN(); void *ptr = starpu_mpi_handle_to_ptr(req->data_handle); STARPU_ASSERT(ptr); starpu_mpi_handle_to_datatype(req->data_handle, &req->datatype); _STARPU_MPI_DEBUG("post MPI irecv tag %d src %d data %p ptr %p req %p datatype %d\n", req->mpi_tag, req->srcdst, req->data_handle, ptr, &req->request, (int)req->datatype); req->ret = MPI_Irecv(ptr, 1, req->datatype, req->srcdst, req->mpi_tag, req->comm, &req->request); STARPU_ASSERT(req->ret == MPI_SUCCESS); /* somebody is perhaps waiting for the MPI request to be posted */ _STARPU_PTHREAD_MUTEX_LOCK(&req->req_mutex); req->submitted = 1; _STARPU_PTHREAD_COND_BROADCAST(&req->req_cond); _STARPU_PTHREAD_MUTEX_UNLOCK(&req->req_mutex); _STARPU_MPI_LOG_OUT(); } static struct _starpu_mpi_req *_starpu_mpi_irecv_common(starpu_data_handle_t data_handle, int source, int mpi_tag, MPI_Comm comm, unsigned detached, void (*callback)(void *), void *arg) { _STARPU_MPI_LOG_IN(); struct _starpu_mpi_req *req = calloc(1, sizeof(struct _starpu_mpi_req)); STARPU_ASSERT(req); INC_POSTED_REQUESTS(1); /* Initialize the request structure */ req->submitted = 0; _STARPU_PTHREAD_MUTEX_INIT(&req->req_mutex, NULL); _STARPU_PTHREAD_COND_INIT(&req->req_cond, NULL); req->request_type = RECV_REQ; req->data_handle = data_handle; req->srcdst = source; req->mpi_tag = mpi_tag; req->comm = comm; req->detached = detached; req->callback = callback; req->callback_arg = arg; req->func = starpu_mpi_irecv_func; /* Asynchronously request StarPU to fetch the data in main memory: when * it is available in main memory, submit_mpi_req(req) is called and * the request is actually submitted */ starpu_data_acquire_cb(data_handle, STARPU_W, submit_mpi_req, (void *)req); _STARPU_MPI_LOG_OUT(); return req; } int starpu_mpi_irecv(starpu_data_handle_t data_handle, starpu_mpi_req *public_req, int source, int mpi_tag, MPI_Comm comm) { _STARPU_MPI_LOG_IN(); STARPU_ASSERT(public_req); struct _starpu_mpi_req *req; req = _starpu_mpi_irecv_common(data_handle, source, mpi_tag, comm, 0, NULL, NULL); STARPU_ASSERT(req); *public_req = req; _STARPU_MPI_LOG_OUT(); return 0; } /* * Irecv (detached) */ int starpu_mpi_irecv_detached(starpu_data_handle_t data_handle, int source, int mpi_tag, MPI_Comm comm, void (*callback)(void *), void *arg) { _STARPU_MPI_LOG_IN(); _starpu_mpi_irecv_common(data_handle, source, mpi_tag, comm, 1, callback, arg); _STARPU_MPI_LOG_OUT(); return 0; } /* * Recv */ int starpu_mpi_recv(starpu_data_handle_t data_handle, int source, int mpi_tag, MPI_Comm comm, MPI_Status *status) { starpu_mpi_req req; _STARPU_MPI_LOG_IN(); starpu_mpi_irecv(data_handle, &req, source, mpi_tag, comm); starpu_mpi_wait(&req, status); _STARPU_MPI_LOG_OUT(); return 0; } /* * Send */ int starpu_mpi_send(starpu_data_handle_t data_handle, int dest, int mpi_tag, MPI_Comm comm) { starpu_mpi_req req; MPI_Status status; _STARPU_MPI_LOG_IN(); memset(&status, 0, sizeof(MPI_Status)); starpu_mpi_isend(data_handle, &req, dest, mpi_tag, comm); starpu_mpi_wait(&req, &status); _STARPU_MPI_LOG_OUT(); return 0; } /* * Wait */ static void starpu_mpi_wait_func(struct _starpu_mpi_req *waiting_req) { _STARPU_MPI_LOG_IN(); /* Which is the mpi request we are waiting for ? */ struct _starpu_mpi_req *req = waiting_req->other_request; req->ret = MPI_Wait(&req->request, waiting_req->status); STARPU_ASSERT(req->ret == MPI_SUCCESS); handle_request_termination(req); _STARPU_MPI_LOG_OUT(); } int starpu_mpi_wait(starpu_mpi_req *public_req, MPI_Status *status) { _STARPU_MPI_LOG_IN(); int ret; struct _starpu_mpi_req *waiting_req = calloc(1, sizeof(struct _starpu_mpi_req)); STARPU_ASSERT(waiting_req); struct _starpu_mpi_req *req = *public_req; INC_POSTED_REQUESTS(1); /* We cannot try to complete a MPI request that was not actually posted * to MPI yet. */ _STARPU_PTHREAD_MUTEX_LOCK(&(req->req_mutex)); while (!(req->submitted)) _STARPU_PTHREAD_COND_WAIT(&(req->req_cond), &(req->req_mutex)); _STARPU_PTHREAD_MUTEX_UNLOCK(&(req->req_mutex)); /* Initialize the request structure */ _STARPU_PTHREAD_MUTEX_INIT(&(waiting_req->req_mutex), NULL); _STARPU_PTHREAD_COND_INIT(&(waiting_req->req_cond), NULL); waiting_req->status = status; waiting_req->other_request = req; waiting_req->func = starpu_mpi_wait_func; waiting_req->request_type = WAIT_REQ; submit_mpi_req(waiting_req); /* We wait for the MPI request to finish */ _STARPU_PTHREAD_MUTEX_LOCK(&req->req_mutex); while (!req->completed) _STARPU_PTHREAD_COND_WAIT(&req->req_cond, &req->req_mutex); _STARPU_PTHREAD_MUTEX_UNLOCK(&req->req_mutex); ret = req->ret; /* The internal request structure was automatically allocated */ *public_req = NULL; free(req); //free(waiting_req); _STARPU_MPI_LOG_OUT(); return ret; } /* * Test */ static void starpu_mpi_test_func(struct _starpu_mpi_req *testing_req) { _STARPU_MPI_LOG_IN(); /* Which is the mpi request we are testing for ? */ struct _starpu_mpi_req *req = testing_req->other_request; _STARPU_MPI_DEBUG("Test request %p - mpitag %d - TYPE %s %d\n", &req->request, req->mpi_tag, (req->request_type == RECV_REQ)?"recv : source":"send : dest", req->srcdst); req->ret = MPI_Test(&req->request, testing_req->flag, testing_req->status); STARPU_ASSERT(req->ret == MPI_SUCCESS); if (*testing_req->flag) { testing_req->ret = req->ret; handle_request_termination(req); } _STARPU_PTHREAD_MUTEX_LOCK(&testing_req->req_mutex); testing_req->completed = 1; _STARPU_PTHREAD_COND_SIGNAL(&testing_req->req_cond); _STARPU_PTHREAD_MUTEX_UNLOCK(&testing_req->req_mutex); _STARPU_MPI_LOG_OUT(); } int starpu_mpi_test(starpu_mpi_req *public_req, int *flag, MPI_Status *status) { _STARPU_MPI_LOG_IN(); int ret = 0; STARPU_ASSERT(public_req); struct _starpu_mpi_req *req = *public_req; STARPU_ASSERT(!req->detached); _STARPU_PTHREAD_MUTEX_LOCK(&req->req_mutex); unsigned submitted = req->submitted; _STARPU_PTHREAD_MUTEX_UNLOCK(&req->req_mutex); if (submitted) { struct _starpu_mpi_req *testing_req = calloc(1, sizeof(struct _starpu_mpi_req)); STARPU_ASSERT(testing_req); // memset(testing_req, 0, sizeof(struct _starpu_mpi_req)); /* Initialize the request structure */ _STARPU_PTHREAD_MUTEX_INIT(&(testing_req->req_mutex), NULL); _STARPU_PTHREAD_COND_INIT(&(testing_req->req_cond), NULL); testing_req->flag = flag; testing_req->status = status; testing_req->other_request = req; testing_req->func = starpu_mpi_test_func; testing_req->completed = 0; testing_req->request_type = TEST_REQ; INC_POSTED_REQUESTS(1); submit_mpi_req(testing_req); /* We wait for the test request to finish */ _STARPU_PTHREAD_MUTEX_LOCK(&(testing_req->req_mutex)); while (!(testing_req->completed)) _STARPU_PTHREAD_COND_WAIT(&(testing_req->req_cond), &(testing_req->req_mutex)); _STARPU_PTHREAD_MUTEX_UNLOCK(&(testing_req->req_mutex)); ret = testing_req->ret; if (*(testing_req->flag)) { /* The request was completed so we free the internal * request structure which was automatically allocated * */ *public_req = NULL; free(req); } } else { *flag = 0; } _STARPU_MPI_LOG_OUT(); return ret; } /* * Barrier */ static void starpu_mpi_barrier_func(struct _starpu_mpi_req *barrier_req) { _STARPU_MPI_LOG_IN(); barrier_req->ret = MPI_Barrier(barrier_req->comm); STARPU_ASSERT(barrier_req->ret == MPI_SUCCESS); handle_request_termination(barrier_req); _STARPU_MPI_LOG_OUT(); } int starpu_mpi_barrier(MPI_Comm comm) { _STARPU_MPI_LOG_IN(); int ret; struct _starpu_mpi_req *barrier_req = calloc(1, sizeof(struct _starpu_mpi_req)); STARPU_ASSERT(barrier_req); /* First wait for *both* all tasks and MPI requests to finish, in case * some tasks generate MPI requests, MPI requests generate tasks, etc. */ _STARPU_PTHREAD_MUTEX_LOCK(&mutex); STARPU_ASSERT_MSG(!barrier_running, "Concurrent starpu_mpi_barrier is not implemented, even on different communicators"); barrier_running = 1; do { while (posted_requests) /* Wait for all current MPI requests to finish */ _STARPU_PTHREAD_COND_WAIT(&cond_finished, &mutex); /* No current request, clear flag */ newer_requests = 0; _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); /* Now wait for all tasks */ starpu_task_wait_for_all(); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); /* Check newer_requests again, in case some MPI requests * triggered by tasks completed and triggered tasks between * wait_for_all finished and we take the lock */ } while (posted_requests || newer_requests); barrier_running = 0; _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); /* Initialize the request structure */ _STARPU_PTHREAD_MUTEX_INIT(&(barrier_req->req_mutex), NULL); _STARPU_PTHREAD_COND_INIT(&(barrier_req->req_cond), NULL); barrier_req->func = starpu_mpi_barrier_func; barrier_req->request_type = BARRIER_REQ; barrier_req->comm = comm; INC_POSTED_REQUESTS(1); submit_mpi_req(barrier_req); /* We wait for the MPI request to finish */ _STARPU_PTHREAD_MUTEX_LOCK(&barrier_req->req_mutex); while (!barrier_req->completed) _STARPU_PTHREAD_COND_WAIT(&barrier_req->req_cond, &barrier_req->req_mutex); _STARPU_PTHREAD_MUTEX_UNLOCK(&barrier_req->req_mutex); ret = barrier_req->ret; //free(waiting_req); _STARPU_MPI_LOG_OUT(); return ret; } /* * Requests */ #ifdef STARPU_MPI_VERBOSE static char *starpu_mpi_request_type(unsigned request_type) { switch (request_type) { case SEND_REQ: return "send"; case RECV_REQ: return "recv"; case WAIT_REQ: return "wait"; case TEST_REQ: return "test"; case BARRIER_REQ: return "barrier"; default: return "unknown request type"; } } #endif static void handle_request_termination(struct _starpu_mpi_req *req) { _STARPU_MPI_LOG_IN(); _STARPU_MPI_DEBUG("complete MPI (%s %d) data %p req %p - tag %d\n", starpu_mpi_request_type(req->request_type), req->srcdst, req->data_handle, &req->request, req->mpi_tag); if (req->request_type != BARRIER_REQ) { MPI_Type_free(&req->datatype); starpu_data_release(req->data_handle); } if (req->request_type == RECV_REQ) { TRACE_MPI_IRECV_END(req->srcdst, req->mpi_tag); } /* Execute the specified callback, if any */ if (req->callback) req->callback(req->callback_arg); /* tell anyone potentiallly waiting on the request that it is * terminated now */ _STARPU_PTHREAD_MUTEX_LOCK(&req->req_mutex); req->completed = 1; _STARPU_PTHREAD_COND_BROADCAST(&req->req_cond); _STARPU_PTHREAD_MUTEX_UNLOCK(&req->req_mutex); _STARPU_MPI_LOG_OUT(); } static void submit_mpi_req(void *arg) { _STARPU_MPI_LOG_IN(); struct _starpu_mpi_req *req = arg; INC_POSTED_REQUESTS(-1); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); _starpu_mpi_req_list_push_front(new_requests, req); newer_requests = 1; _STARPU_MPI_DEBUG("Pushing new request type %d\n", req->request_type); _STARPU_PTHREAD_COND_BROADCAST(&cond_progression); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); _STARPU_MPI_LOG_OUT(); } /* * Scheduler hook */ #ifdef USE_STARPU_ACTIVITY static unsigned progression_hook_func(void *arg __attribute__((unused))) { unsigned may_block = 1; _STARPU_PTHREAD_MUTEX_LOCK(&mutex); if (!_starpu_mpi_req_list_empty(detached_requests)) { _STARPU_PTHREAD_COND_SIGNAL(&cond_progression); may_block = 0; } _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); return may_block; } #endif /* * Progression loop */ static void test_detached_requests(void) { _STARPU_MPI_LOG_IN(); int flag; MPI_Status status; struct _starpu_mpi_req *req, *next_req; _STARPU_PTHREAD_MUTEX_LOCK(&detached_requests_mutex); for (req = _starpu_mpi_req_list_begin(detached_requests); req != _starpu_mpi_req_list_end(detached_requests); req = next_req) { next_req = _starpu_mpi_req_list_next(req); _STARPU_PTHREAD_MUTEX_UNLOCK(&detached_requests_mutex); //_STARPU_MPI_DEBUG("Test detached request %p - mpitag %d - TYPE %s %d\n", &req->request, req->mpi_tag, (req->request_type == RECV_REQ)?"recv : source":"send : dest", req->srcdst); req->ret = MPI_Test(&req->request, &flag, &status); STARPU_ASSERT(req->ret == MPI_SUCCESS); if (flag) { handle_request_termination(req); } _STARPU_PTHREAD_MUTEX_LOCK(&detached_requests_mutex); if (flag) _starpu_mpi_req_list_erase(detached_requests, req); #ifdef STARPU_DEVEL #warning TODO fix memleak #endif /* Detached requests are automatically allocated by the lib */ //if (req->detached) // free(req); } _STARPU_PTHREAD_MUTEX_UNLOCK(&detached_requests_mutex); _STARPU_MPI_LOG_OUT(); } static void handle_new_request(struct _starpu_mpi_req *req) { _STARPU_MPI_LOG_IN(); STARPU_ASSERT(req); /* submit the request to MPI */ _STARPU_MPI_DEBUG("Handling new request type %d\n", req->request_type); req->func(req); if (req->detached) { _STARPU_PTHREAD_MUTEX_LOCK(&mutex); _starpu_mpi_req_list_push_front(detached_requests, req); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); starpu_wake_all_blocked_workers(); /* put the submitted request into the list of pending requests * so that it can be handled by the progression mechanisms */ _STARPU_PTHREAD_MUTEX_LOCK(&mutex); _STARPU_PTHREAD_COND_SIGNAL(&cond_progression); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); } _STARPU_MPI_LOG_OUT(); } static void *progress_thread_func(void *arg) { int initialize_mpi = *((int *) arg); _STARPU_DEBUG("Initialize mpi: %d\n", initialize_mpi); if (initialize_mpi) { #ifdef STARPU_DEVEL #warning get real argc and argv from the application #endif int argc = 0; char **argv = NULL; int thread_support; _STARPU_DEBUG("Calling MPI_Init_thread\n"); if (MPI_Init_thread(&argc, &argv, MPI_THREAD_SERIALIZED, &thread_support) != MPI_SUCCESS) { fprintf(stderr,"MPI_Init_thread failed\n"); exit(1); } if (thread_support == MPI_THREAD_FUNNELED) fprintf(stderr,"Warning: MPI only has funneled thread support, not serialized, hoping this will work\n"); if (thread_support < MPI_THREAD_FUNNELED) fprintf(stderr,"Warning: MPI does not have thread support!\n"); } /* notify the main thread that the progression thread is ready */ _STARPU_PTHREAD_MUTEX_LOCK(&mutex); running = 1; _STARPU_PTHREAD_COND_SIGNAL(&cond_progression); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); while (running || posted_requests || !(_starpu_mpi_req_list_empty(new_requests)) || !(_starpu_mpi_req_list_empty(detached_requests))) { /* shall we block ? */ unsigned block = _starpu_mpi_req_list_empty(new_requests); #ifndef USE_STARPU_ACTIVITY block = block && _starpu_mpi_req_list_empty(detached_requests); #endif if (block) { _STARPU_MPI_DEBUG("NO MORE REQUESTS TO HANDLE\n"); if (barrier_running) /* Tell mpi_barrier */ _STARPU_PTHREAD_COND_SIGNAL(&cond_finished); _STARPU_PTHREAD_COND_WAIT(&cond_progression, &mutex); } /* test whether there are some terminated "detached request" */ _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); test_detached_requests(); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); /* get one request */ struct _starpu_mpi_req *req; while (!_starpu_mpi_req_list_empty(new_requests)) { req = _starpu_mpi_req_list_pop_back(new_requests); /* handling a request is likely to block for a while * (on a sync_data_with_mem call), we want to let the * application submit requests in the meantime, so we * release the lock. */ _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); handle_new_request(req); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); } } STARPU_ASSERT(_starpu_mpi_req_list_empty(detached_requests)); STARPU_ASSERT(_starpu_mpi_req_list_empty(new_requests)); STARPU_ASSERT(posted_requests == 0); if (initialize_mpi) { _STARPU_MPI_DEBUG("Calling MPI_Finalize()\n"); MPI_Finalize(); } _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); return NULL; } /* * (De)Initialization methods */ #ifdef USE_STARPU_ACTIVITY static int hookid = - 1; #endif static void _starpu_mpi_add_sync_point_in_fxt(void) { #ifdef STARPU_USE_FXT int rank; int worldsize; MPI_Comm_rank(MPI_COMM_WORLD, &rank); MPI_Comm_size(MPI_COMM_WORLD, &worldsize); int barrier_ret = MPI_Barrier(MPI_COMM_WORLD); STARPU_ASSERT(barrier_ret == MPI_SUCCESS); /* We generate a "unique" key so that we can make sure that different * FxT traces come from the same MPI run. */ int random_number; /* XXX perhaps we don't want to generate a new seed if the application * specified some reproductible behaviour ? */ if (rank == 0) { srand(time(NULL)); random_number = rand(); } MPI_Bcast(&random_number, 1, MPI_INT, 0, MPI_COMM_WORLD); TRACE_MPI_BARRIER(rank, worldsize, random_number); _STARPU_MPI_DEBUG("unique key %x\n", random_number); #endif } static int _starpu_mpi_initialize(int initialize_mpi, int *rank, int *world_size) { _STARPU_PTHREAD_MUTEX_INIT(&mutex, NULL); _STARPU_PTHREAD_COND_INIT(&cond_progression, NULL); _STARPU_PTHREAD_COND_INIT(&cond_finished, NULL); new_requests = _starpu_mpi_req_list_new(); _STARPU_PTHREAD_MUTEX_INIT(&detached_requests_mutex, NULL); detached_requests = _starpu_mpi_req_list_new(); _STARPU_PTHREAD_MUTEX_INIT(&mutex_posted_requests, NULL); pthread_create(&progress_thread, NULL, progress_thread_func, (void *)&initialize_mpi); _STARPU_PTHREAD_MUTEX_LOCK(&mutex); while (!running) _STARPU_PTHREAD_COND_WAIT(&cond_progression, &mutex); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); if (rank && world_size) { _STARPU_DEBUG("Calling MPI_Comm_rank\n"); MPI_Comm_rank(MPI_COMM_WORLD, rank); MPI_Comm_size(MPI_COMM_WORLD, world_size); } #ifdef STARPU_USE_FXT int prank; MPI_Comm_rank(MPI_COMM_WORLD, &prank); starpu_set_profiling_id(prank); #endif //STARPU_USE_FXT #ifdef USE_STARPU_ACTIVITY hookid = starpu_progression_hook_register(progression_hook_func, NULL); STARPU_ASSERT(hookid >= 0); #endif _starpu_mpi_add_sync_point_in_fxt(); return 0; } int starpu_mpi_initialize(void) { return _starpu_mpi_initialize(0, NULL, NULL); } int starpu_mpi_initialize_extended(int *rank, int *world_size) { return _starpu_mpi_initialize(1, rank, world_size); } int starpu_mpi_shutdown(void) { void *value; /* kill the progression thread */ _STARPU_PTHREAD_MUTEX_LOCK(&mutex); running = 0; _STARPU_PTHREAD_COND_BROADCAST(&cond_progression); _STARPU_PTHREAD_MUTEX_UNLOCK(&mutex); pthread_join(progress_thread, &value); #ifdef USE_STARPU_ACTIVITY starpu_progression_hook_deregister(hookid); #endif /* free the request queues */ _starpu_mpi_req_list_delete(detached_requests); _starpu_mpi_req_list_delete(new_requests); return 0; }