/* * Copyright (c) 2004-2005 The Trustees of Indiana University. * All rights reserved. * Copyright (c) 2004-2005 The Trustees of the University of Tennessee. * 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 Los Alamos National Security, LLC. All rights * reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include "osc_rdma.h" #include "osc_rdma_sendreq.h" #include "osc_rdma_longreq.h" #include "osc_rdma_header.h" #include "osc_rdma_data_move.h" #include "mpi.h" #include "opal/runtime/opal_progress.h" #include "opal/threads/mutex.h" #include "ompi/communicator/communicator.h" #include "ompi/mca/osc/base/base.h" /* Must hold module's lock before calling... */ static inline void ompi_osc_rdma_flip_sendreqs(ompi_osc_rdma_module_t *module) { unsigned int *tmp; tmp = module->m_copy_num_pending_sendreqs; module->m_copy_num_pending_sendreqs = module->m_num_pending_sendreqs; module->m_num_pending_sendreqs = tmp; memset(module->m_num_pending_sendreqs, 0, sizeof(unsigned int) * ompi_comm_size(module->m_comm)); /* Copy in all the pending requests */ opal_list_join(&module->m_copy_pending_sendreqs, opal_list_get_end(&module->m_copy_pending_sendreqs), &module->m_pending_sendreqs); } int ompi_osc_rdma_module_fence(int assert, ompi_win_t *win) { unsigned int incoming_reqs; int ret = OMPI_SUCCESS, i; ompi_osc_rdma_module_t *module = GET_MODULE(win); int num_outgoing = 0; if (0 != (assert & MPI_MODE_NOPRECEDE)) { /* check that the user didn't lie to us - since NOPRECEDED must be specified by all processes if it is specified by any process, if we see this it is safe to assume that there are no pending operations anywhere needed to close out this epoch. */ if (0 != opal_list_get_size(&(module->m_pending_sendreqs))) { return MPI_ERR_RMA_SYNC; } } else { opal_list_item_t *item; /* "atomically" copy all the data we're going to be modifying into the copy... */ OPAL_THREAD_LOCK(&module->m_lock); ompi_osc_rdma_flip_sendreqs(module); OPAL_THREAD_UNLOCK(&module->m_lock); num_outgoing = opal_list_get_size(&(module->m_copy_pending_sendreqs)); /* find out how much data everyone is going to send us. Need to have the lock during this period so that we have a sane view of the number of sendreqs */ ret = module->m_comm-> c_coll.coll_reduce_scatter(module->m_copy_num_pending_sendreqs, &incoming_reqs, module->m_fence_coll_counts, MPI_UNSIGNED, MPI_SUM, module->m_comm); if (OMPI_SUCCESS != ret) { /* put the stupid data back for the user. This is not cheap, but the user lost his data if we don't. */ OPAL_THREAD_LOCK(&(module->m_lock)); opal_list_join(&module->m_pending_sendreqs, opal_list_get_end(&module->m_pending_sendreqs), &module->m_copy_pending_sendreqs); for (i = 0 ; i < ompi_comm_size(module->m_comm) ; ++i) { module->m_num_pending_sendreqs[i] += module->m_copy_num_pending_sendreqs[i]; } OPAL_THREAD_UNLOCK(&(module->m_lock)); return ret; } OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "fence: waiting on %d in and %d out", module->m_num_pending_in, module->m_num_pending_out)); /* try to start all the requests. We've copied everything we need out of pending_sendreqs, so don't need the lock here */ while (NULL != (item = opal_list_remove_first(&(module->m_copy_pending_sendreqs)))) { ompi_osc_rdma_sendreq_t *req = (ompi_osc_rdma_sendreq_t*) item; ret = ompi_osc_rdma_sendreq_send(module, req); if (OMPI_SUCCESS != ret) { opal_list_append(&(module->m_copy_pending_sendreqs), item); break; } } OPAL_THREAD_LOCK(&module->m_lock); /* if some requests couldn't be started, push into the "queued" list, where we will try to restart them later. */ if (opal_list_get_size(&module->m_copy_pending_sendreqs)) { opal_list_join(&module->m_queued_sendreqs, opal_list_get_end(&module->m_queued_sendreqs), &module->m_copy_pending_sendreqs); } /* possible we've already received a couple in messages, so atomicall add however many we're going to wait for */ module->m_num_pending_in += incoming_reqs; module->m_num_pending_out += num_outgoing; /* now we know how many things we're waiting for - wait for them... */ while (module->m_num_pending_in > 0 || 0 != module->m_num_pending_out) { opal_condition_wait(&module->m_cond, &module->m_lock); } OPAL_THREAD_UNLOCK(&module->m_lock); } /* all transfers are done - back to the real world we go */ if (0 == (assert & MPI_MODE_NOSUCCEED)) { ompi_win_set_mode(win, OMPI_WIN_FENCE); } else { ompi_win_set_mode(win, 0); } return OMPI_SUCCESS; } int ompi_osc_rdma_module_start(ompi_group_t *group, int assert, ompi_win_t *win) { int i, ret = OMPI_SUCCESS; ompi_osc_rdma_module_t *module = GET_MODULE(win); OBJ_RETAIN(group); ompi_group_increment_proc_count(group); OPAL_THREAD_LOCK(&module->m_lock); if (NULL != module->m_sc_group) { OPAL_THREAD_UNLOCK(&module->m_lock); ret = MPI_ERR_RMA_SYNC; goto clean; } module->m_sc_group = group; /* possible we've already received a couple in messages, so add however many we're going to wait for */ module->m_num_post_msgs += ompi_group_size(module->m_sc_group); OPAL_THREAD_UNLOCK(&(module->m_lock)); memset(module->m_sc_remote_active_ranks, 0, sizeof(bool) * ompi_comm_size(module->m_comm)); /* for each process in the specified group, find it's rank in our communicator, store those indexes, and set the true / false in the active ranks table */ for (i = 0 ; i < ompi_group_size(group) ; i++) { int comm_rank = -1, j; /* no need to increment ref count - the communicator isn't going anywhere while we're here */ ompi_group_t *comm_group = module->m_comm->c_local_group; /* find the rank in the communicator associated with this windows */ for (j = 0 ; j < ompi_group_size(comm_group) ; ++j) { if (module->m_sc_group->grp_proc_pointers[i] == comm_group->grp_proc_pointers[j]) { comm_rank = j; break; } } if (comm_rank == -1) { ret = MPI_ERR_RMA_SYNC; goto clean; } module->m_sc_remote_active_ranks[comm_rank] = true; module->m_sc_remote_ranks[i] = comm_rank; } /* Set our mode to access w/ start */ ompi_win_remove_mode(win, OMPI_WIN_FENCE); ompi_win_append_mode(win, OMPI_WIN_ACCESS_EPOCH | OMPI_WIN_STARTED); return OMPI_SUCCESS; clean: ompi_group_decrement_proc_count(group); OBJ_RELEASE(group); return ret; } int ompi_osc_rdma_module_complete(ompi_win_t *win) { int i; int ret = OMPI_SUCCESS; ompi_group_t *group; opal_list_item_t *item; ompi_osc_rdma_module_t *module = GET_MODULE(win); /* wait for all the post messages */ OPAL_THREAD_LOCK(&module->m_lock); while (0 != module->m_num_post_msgs) { opal_condition_wait(&module->m_cond, &module->m_lock); } ompi_osc_rdma_flip_sendreqs(module); /* for each process in group, send a control message with number of updates coming, then start all the requests */ for (i = 0 ; i < ompi_group_size(module->m_sc_group) ; ++i) { int comm_rank = module->m_sc_remote_ranks[i]; module->m_num_pending_out += module->m_copy_num_pending_sendreqs[comm_rank]; } OPAL_THREAD_UNLOCK(&module->m_lock); for (i = 0 ; i < ompi_group_size(module->m_sc_group) ; ++i) { int comm_rank = module->m_sc_remote_ranks[i]; ret = ompi_osc_rdma_control_send(module, module->m_sc_group->grp_proc_pointers[i], OMPI_OSC_RDMA_HDR_COMPLETE, module->m_copy_num_pending_sendreqs[comm_rank], 0); assert(ret == OMPI_SUCCESS); } /* try to start all the requests. We've copied everything we need out of pending_sendreqs, so don't need the lock here */ while (NULL != (item = opal_list_remove_first(&(module->m_copy_pending_sendreqs)))) { ompi_osc_rdma_sendreq_t *req = (ompi_osc_rdma_sendreq_t*) item; ret = ompi_osc_rdma_sendreq_send(module, req); if (OMPI_SUCCESS != ret) { opal_list_append(&(module->m_copy_pending_sendreqs), item); break; } } OPAL_THREAD_LOCK(&module->m_lock); /* if some requests couldn't be started, push into the "queued" list, where we will try to restart them later. */ if (opal_list_get_size(&module->m_copy_pending_sendreqs)) { opal_list_join(&module->m_queued_sendreqs, opal_list_get_end(&module->m_queued_sendreqs), &module->m_copy_pending_sendreqs); } /* wait for all the requests */ while (0 != module->m_num_pending_out) { opal_condition_wait(&module->m_cond, &module->m_lock); } group = module->m_sc_group; module->m_sc_group = NULL; OPAL_THREAD_UNLOCK(&(module->m_lock)); /* remove WIN_POSTED from our mode */ ompi_win_remove_mode(win, OMPI_WIN_ACCESS_EPOCH | OMPI_WIN_STARTED); ompi_group_decrement_proc_count(group); OBJ_RELEASE(group); return ret; } int ompi_osc_rdma_module_post(ompi_group_t *group, int assert, ompi_win_t *win) { int i; ompi_osc_rdma_module_t *module = GET_MODULE(win); OBJ_RETAIN(group); ompi_group_increment_proc_count(group); OPAL_THREAD_LOCK(&(module->m_lock)); assert(NULL == module->m_pw_group); module->m_pw_group = group; /* Set our mode to expose w/ post */ ompi_win_remove_mode(win, OMPI_WIN_FENCE); ompi_win_append_mode(win, OMPI_WIN_EXPOSE_EPOCH | OMPI_WIN_POSTED); /* list how many complete counters we're still waiting on */ module->m_num_complete_msgs += ompi_group_size(module->m_pw_group); OPAL_THREAD_UNLOCK(&(module->m_lock)); /* send a hello counter to everyone in group */ for (i = 0 ; i < ompi_group_size(module->m_pw_group) ; ++i) { ompi_osc_rdma_control_send(module, group->grp_proc_pointers[i], OMPI_OSC_RDMA_HDR_POST, 1, 0); } return OMPI_SUCCESS; } int ompi_osc_rdma_module_wait(ompi_win_t *win) { ompi_group_t *group; ompi_osc_rdma_module_t *module = GET_MODULE(win); OPAL_THREAD_LOCK(&module->m_lock); while (0 != (module->m_num_pending_in) || 0 != (module->m_num_complete_msgs)) { opal_condition_wait(&module->m_cond, &module->m_lock); } group = module->m_pw_group; module->m_pw_group = NULL; OPAL_THREAD_UNLOCK(&module->m_lock); ompi_win_remove_mode(win, OMPI_WIN_EXPOSE_EPOCH | OMPI_WIN_POSTED); ompi_group_decrement_proc_count(group); OBJ_RELEASE(group); return OMPI_SUCCESS; } int ompi_osc_rdma_module_test(ompi_win_t *win, int *flag) { ompi_group_t *group; ompi_osc_rdma_module_t *module = GET_MODULE(win); #if !OMPI_ENABLE_PROGRESS_THREADS opal_progress(); #endif if (0 != (module->m_num_pending_in) || 0 != (module->m_num_complete_msgs)) { *flag = 0; return OMPI_SUCCESS; } *flag = 1; ompi_win_remove_mode(win, OMPI_WIN_EXPOSE_EPOCH | OMPI_WIN_POSTED); OPAL_THREAD_LOCK(&(module->m_lock)); group = module->m_pw_group; module->m_pw_group = NULL; OPAL_THREAD_UNLOCK(&(module->m_lock)); ompi_group_decrement_proc_count(group); OBJ_RELEASE(group); return OMPI_SUCCESS; } struct ompi_osc_rdma_pending_lock_t { opal_list_item_t super; ompi_proc_t *proc; int32_t lock_type; }; typedef struct ompi_osc_rdma_pending_lock_t ompi_osc_rdma_pending_lock_t; OBJ_CLASS_INSTANCE(ompi_osc_rdma_pending_lock_t, opal_list_item_t, NULL, NULL); int ompi_osc_rdma_module_lock(int lock_type, int target, int assert, ompi_win_t *win) { ompi_osc_rdma_module_t *module = GET_MODULE(win); ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, target ); assert(lock_type != 0); /* set our mode on the window */ ompi_win_remove_mode(win, OMPI_WIN_FENCE); ompi_win_append_mode(win, OMPI_WIN_ACCESS_EPOCH | OMPI_WIN_LOCK_ACCESS); OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d sending lock request to %d", module->m_comm->c_my_rank, target)); /* generate a lock request */ ompi_osc_rdma_control_send(module, proc, OMPI_OSC_RDMA_HDR_LOCK_REQ, module->m_comm->c_my_rank, lock_type); /* return */ return OMPI_SUCCESS; } int ompi_osc_rdma_module_unlock(int target, ompi_win_t *win) { int32_t out_count; opal_list_item_t *item; int ret; ompi_osc_rdma_module_t *module = GET_MODULE(win); ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, target ); OPAL_THREAD_LOCK(&module->m_lock); while (0 == module->m_lock_received_ack) { opal_condition_wait(&module->m_cond, &module->m_lock); } module->m_lock_received_ack -= 1; /* start all the requests */ ompi_osc_rdma_flip_sendreqs(module); /* try to start all the requests. We've copied everything we need out of pending_sendreqs, so don't need the lock here */ out_count = opal_list_get_size(&module->m_copy_pending_sendreqs); /* we want to send all the requests, plus we wait for one more completion event for the control message ack from the unlocker saying we're done */ module->m_num_pending_out += (out_count + 1); OPAL_THREAD_UNLOCK(&module->m_lock); /* send the unlock request */ OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d sending unlock request to %d", module->m_comm->c_my_rank, target)); ompi_osc_rdma_control_send(module, proc, OMPI_OSC_RDMA_HDR_UNLOCK_REQ, module->m_comm->c_my_rank, out_count); /* try to start all the requests. We've copied everything we need out of pending_sendreqs, so don't need the lock here */ while (NULL != (item = opal_list_remove_first(&(module->m_copy_pending_sendreqs)))) { ompi_osc_rdma_sendreq_t *req = (ompi_osc_rdma_sendreq_t*) item; ret = ompi_osc_rdma_sendreq_send(module, req); if (OMPI_SUCCESS != ret) { opal_list_append(&(module->m_copy_pending_sendreqs), item); break; } } OPAL_THREAD_LOCK(&module->m_lock); /* if some requests couldn't be started, push into the "queued" list, where we will try to restart them later. */ if (opal_list_get_size(&module->m_copy_pending_sendreqs)) { opal_list_join(&module->m_queued_sendreqs, opal_list_get_end(&module->m_queued_sendreqs), &module->m_copy_pending_sendreqs); } /* wait for all the requests */ while (0 != module->m_num_pending_out) { opal_condition_wait(&module->m_cond, &module->m_lock); } OPAL_THREAD_LOCK(&module->m_lock); /* set our mode on the window */ ompi_win_remove_mode(win, OMPI_WIN_ACCESS_EPOCH | OMPI_WIN_LOCK_ACCESS); return OMPI_SUCCESS; } int ompi_osc_rdma_passive_lock(ompi_osc_rdma_module_t *module, int32_t origin, int32_t lock_type) { bool send_ack = false; int ret = OMPI_SUCCESS; ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, origin ); ompi_osc_rdma_pending_lock_t *new_pending; OPAL_THREAD_LOCK(&(module->m_lock)); if (lock_type == MPI_LOCK_EXCLUSIVE) { if (module->m_lock_status == 0) { module->m_lock_status = MPI_LOCK_EXCLUSIVE; ompi_win_append_mode(module->m_win, OMPI_WIN_EXPOSE_EPOCH); send_ack = true; } else { OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d queuing lock request from %d (%d)", module->m_comm->c_my_rank, origin, lock_type)); new_pending = OBJ_NEW(ompi_osc_rdma_pending_lock_t); new_pending->proc = proc; new_pending->lock_type = lock_type; opal_list_append(&(module->m_locks_pending), &(new_pending->super)); } } else if (lock_type == MPI_LOCK_SHARED) { if (module->m_lock_status != MPI_LOCK_EXCLUSIVE) { module->m_lock_status = MPI_LOCK_SHARED; module->m_shared_count++; ompi_win_append_mode(module->m_win, OMPI_WIN_EXPOSE_EPOCH); send_ack = true; } else { OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "queuing lock request from %d (%d) lock_type:%d", module->m_comm->c_my_rank, origin, lock_type)); new_pending = OBJ_NEW(ompi_osc_rdma_pending_lock_t); new_pending->proc = proc; new_pending->lock_type = lock_type; opal_list_append(&(module->m_locks_pending), &(new_pending->super)); } } else { ret = OMPI_ERROR; } OPAL_THREAD_UNLOCK(&(module->m_lock)); if (send_ack) { OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d sending lock ack to %d", module->m_comm->c_my_rank, origin)); ompi_osc_rdma_control_send(module, proc, OMPI_OSC_RDMA_HDR_LOCK_REQ, module->m_comm->c_my_rank, OMPI_SUCCESS); } return OMPI_SUCCESS; } int ompi_osc_rdma_passive_unlock(ompi_osc_rdma_module_t *module, int32_t origin, int32_t count) { ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, origin ); ompi_osc_rdma_pending_lock_t *new_pending = NULL; assert(module->m_lock_status != 0); OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "received unlock request from %d with %d requests\n", origin, count)); new_pending = OBJ_NEW(ompi_osc_rdma_pending_lock_t); new_pending->proc = proc; new_pending->lock_type = 0; OPAL_THREAD_LOCK(&(module->m_lock)); module->m_num_pending_in += count; opal_list_append(&module->m_unlocks_pending, &(new_pending->super)); OPAL_THREAD_UNLOCK(&(module->m_lock)); return ompi_osc_rdma_passive_unlock_complete(module); } int ompi_osc_rdma_passive_unlock_complete(ompi_osc_rdma_module_t *module) { ompi_osc_rdma_pending_lock_t *new_pending = NULL; if (module->m_num_pending_in != 0) return OMPI_SUCCESS; OPAL_THREAD_LOCK(&module->m_lock); if (module->m_lock_status == MPI_LOCK_EXCLUSIVE) { ompi_win_remove_mode(module->m_win, OMPI_WIN_EXPOSE_EPOCH); module->m_lock_status = 0; } else { module->m_shared_count -= opal_list_get_size(&module->m_unlocks_pending); if (module->m_shared_count == 0) { ompi_win_remove_mode(module->m_win, OMPI_WIN_EXPOSE_EPOCH); module->m_lock_status = 0; } } /* issue whichever unlock acks we should issue */ while (NULL != (new_pending = (ompi_osc_rdma_pending_lock_t*) opal_list_remove_first(&module->m_unlocks_pending))) { OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "sending unlock reply to proc")); ompi_osc_rdma_control_send(module, new_pending->proc, OMPI_OSC_RDMA_HDR_UNLOCK_REPLY, OMPI_SUCCESS, OMPI_SUCCESS); OBJ_DESTRUCT(new_pending); } /* if we were really unlocked, see if we have more to process */ new_pending = (ompi_osc_rdma_pending_lock_t*) opal_list_remove_first(&(module->m_locks_pending)); OPAL_THREAD_UNLOCK(&(module->m_lock)); if (NULL != new_pending) { OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "sending lock request to proc")); ompi_win_append_mode(module->m_win, OMPI_WIN_EXPOSE_EPOCH); /* set lock state and generate a lock request */ module->m_lock_status = new_pending->lock_type; ompi_osc_rdma_control_send(module, new_pending->proc, OMPI_OSC_RDMA_HDR_LOCK_REQ, module->m_comm->c_my_rank, OMPI_SUCCESS); OBJ_DESTRUCT(new_pending); } return OMPI_SUCCESS; }