/* * Copyright (c) 2004-2005 The Trustees of Indiana University. * All rights reserved. * Copyright (c) 2004-2006 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_header.h" #include "osc_rdma_data_move.h" #include "osc_rdma_obj_convert.h" #include "opal/util/output.h" #include "opal/sys/atomic.h" #include "ompi/mca/bml/bml.h" #include "ompi/mca/bml/base/base.h" #include "ompi/mca/btl/btl.h" #include "ompi/mca/osc/base/base.h" #include "ompi/datatype/datatype.h" #include "ompi/datatype/dt_arch.h" static inline int32_t create_send_tag(ompi_osc_rdma_module_t *module) { #if OMPI_HAVE_THREAD_SUPPORT && OPAL_HAVE_ATOMIC_CMPSET_32 int32_t newval, oldval; do { oldval = module->m_tag_counter; newval = (oldval + 1) % mca_pml.pml_max_tag; } while (0 == opal_atomic_cmpset_32(&module->m_tag_counter, oldval, newval)); return newval; #else int32_t ret; /* no compare and swap - have to lock the module */ OPAL_THREAD_LOCK(&module->m_lock); module->m_tag_counter = (module->m_tag_counter + 1) % mca_pml.pml_max_tag; ret = module->m_tag_counter; OPAL_THREAD_UNLOCK(&module->m_lock); return ret; #endif } static inline void inmsg_mark_complete(ompi_osc_rdma_module_t *module) { int32_t count; bool need_unlock = false; OPAL_THREAD_LOCK(&module->m_lock); count = (module->m_num_pending_in -= 1); if ((0 != module->m_lock_status) && (opal_list_get_size(&module->m_unlocks_pending) != 0)) { need_unlock = true; } OPAL_THREAD_UNLOCK(&module->m_lock); if (0 == count) { if (need_unlock) ompi_osc_rdma_passive_unlock_complete(module); opal_condition_broadcast(&module->m_cond); } } static void rdma_cb(struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor, int status) { ompi_osc_rdma_sendreq_t *sendreq = (ompi_osc_rdma_sendreq_t*) descriptor->des_cbdata; int32_t out_count, rdma_count; assert(OMPI_SUCCESS == status); OPAL_THREAD_LOCK(&sendreq->req_module->m_lock); out_count = (sendreq->req_module->m_num_pending_out -= 1); rdma_count = (sendreq->req_module->m_rdma_num_pending -= 1); OPAL_THREAD_UNLOCK(&sendreq->req_module->m_lock); btl->btl_free(btl, descriptor); ompi_osc_rdma_sendreq_free(sendreq); if ((0 == out_count) || (0 == rdma_count)) { opal_condition_broadcast(&sendreq->req_module->m_cond); } } static int ompi_osc_rdma_sendreq_rdma(ompi_osc_rdma_module_t *module, ompi_osc_rdma_sendreq_t *sendreq) { mca_btl_base_descriptor_t* descriptor; size_t size = sendreq->req_origin_bytes_packed; ompi_osc_rdma_btl_t *rdma_btl = NULL; int index, target, ret; target = sendreq->req_target_rank; if (module->m_peer_info[target].peer_num_btls > 0) { index = ++(module->m_peer_info[target].peer_index_btls); if (index >= module->m_peer_info[target].peer_num_btls) { module->m_peer_info[target].peer_index_btls = 0; index = 0; } rdma_btl = &(module->m_peer_info[target].peer_btls[index]); if (sendreq->req_type == OMPI_OSC_RDMA_PUT) { descriptor = rdma_btl->bml_btl-> btl_prepare_src(rdma_btl->bml_btl->btl, rdma_btl->bml_btl->btl_endpoint, NULL, /* BWB - fix me */ &sendreq->req_origin_convertor, rdma_btl->rdma_order, 0, &size); assert(NULL != descriptor); descriptor->des_dst = sendreq->remote_segs; descriptor->des_dst_cnt = 1; descriptor->des_dst[0].seg_addr.lval = module->m_peer_info[target].peer_base + (sendreq->req_target_disp * module->m_win->w_disp_unit); descriptor->des_dst[0].seg_len = sendreq->req_origin_bytes_packed; descriptor->des_dst[0].seg_key.key64 = rdma_btl->peer_seg_key; #if 0 opal_output(0, "putting to %d: 0x%lx(%d), %d, %d", target, descriptor->des_dst[0].seg_addr.lval, descriptor->des_dst[0].seg_len, rdma_btl->rdma_order, descriptor->order); #endif descriptor->des_cbdata = sendreq; descriptor->des_cbfunc = rdma_cb; ret = rdma_btl->bml_btl-> btl_put(rdma_btl->bml_btl->btl, rdma_btl->bml_btl->btl_endpoint, descriptor); } else { descriptor = rdma_btl->bml_btl-> btl_prepare_dst(rdma_btl->bml_btl->btl, rdma_btl->bml_btl->btl_endpoint, NULL, /* BWB - fix me */ &sendreq->req_origin_convertor, rdma_btl->rdma_order, 0, &size); assert(NULL != descriptor); descriptor->des_src = sendreq->remote_segs; descriptor->des_src_cnt = 1; descriptor->des_src[0].seg_addr.lval = module->m_peer_info[target].peer_base + (sendreq->req_target_disp * module->m_win->w_disp_unit); descriptor->des_src[0].seg_len = sendreq->req_origin_bytes_packed; descriptor->des_src[0].seg_key.key64 = rdma_btl->peer_seg_key; descriptor->des_cbdata = sendreq; descriptor->des_cbfunc = rdma_cb; ret = rdma_btl->bml_btl-> btl_get(rdma_btl->bml_btl->btl, rdma_btl->bml_btl->btl_endpoint, descriptor); } rdma_btl->rdma_order = descriptor->order; if (OPAL_UNLIKELY(OMPI_SUCCESS != ret)) { return ret; } else { OPAL_THREAD_LOCK(&module->m_lock); rdma_btl->num_sent++; sendreq->req_module->m_rdma_num_pending += 1; OPAL_THREAD_UNLOCK(&module->m_lock); } } else { return OMPI_ERR_NOT_SUPPORTED; } return OMPI_SUCCESS; } /********************************************************************** * * Sending a sendreq to target * **********************************************************************/ static void ompi_osc_rdma_sendreq_send_long_cb(ompi_osc_rdma_longreq_t *longreq) { ompi_osc_rdma_sendreq_t *sendreq = (ompi_osc_rdma_sendreq_t*) longreq->cbdata; int32_t count; OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d completed long sendreq to %d", sendreq->req_module->m_comm->c_my_rank, sendreq->req_target_rank)); OPAL_THREAD_LOCK(&sendreq->req_module->m_lock); count = (sendreq->req_module->m_num_pending_out -= 1); OPAL_THREAD_UNLOCK(&sendreq->req_module->m_lock); ompi_osc_rdma_longreq_free(longreq); ompi_osc_rdma_sendreq_free(sendreq); if (0 == count) opal_condition_broadcast(&sendreq->req_module->m_cond); } static void ompi_osc_rdma_sendreq_send_cb(struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t *endpoint, struct mca_btl_base_descriptor_t* descriptor, int status) { ompi_osc_rdma_sendreq_t *sendreq = (ompi_osc_rdma_sendreq_t*) descriptor->des_cbdata; ompi_osc_rdma_send_header_t *header = (ompi_osc_rdma_send_header_t*) descriptor->des_src[0].seg_addr.pval; ompi_osc_rdma_module_t *module = sendreq->req_module; int32_t count; if (OMPI_SUCCESS != status) { /* requeue and return */ /* BWB - FIX ME - figure out where to put this bad boy */ abort(); return; } /* have to look at header, and not the sendreq because in the case of get, it's possible that the sendreq has been freed already (if the remote side replies before we get our send completion callback) and already allocated to another request. We don't wait for this completion before exiting a synchronization point in the case of get, as we really don't care when it completes - only when the data arrives. */ if (OMPI_OSC_RDMA_HDR_GET != header->hdr_base.hdr_type) { #if !defined(WORDS_BIGENDIAN) && OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (header->hdr_base.hdr_flags & OMPI_OSC_RDMA_HDR_FLAG_NBO) { OMPI_OSC_RDMA_SEND_HDR_NTOH(*header); } #endif /* do we need to post a send? */ if (header->hdr_msg_length != 0) { /* sendreq is done. Mark it as so and get out of here */ OPAL_THREAD_LOCK(&sendreq->req_module->m_lock); count = sendreq->req_module->m_num_pending_out -= 1; OPAL_THREAD_UNLOCK(&sendreq->req_module->m_lock); ompi_osc_rdma_sendreq_free(sendreq); if (0 == count) opal_condition_broadcast(&sendreq->req_module->m_cond); } else { ompi_osc_rdma_longreq_t *longreq; ompi_osc_rdma_longreq_alloc(&longreq); longreq->cbfunc = ompi_osc_rdma_sendreq_send_long_cb; longreq->cbdata = sendreq; OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d starting long sendreq to %d (%d)", sendreq->req_module->m_comm->c_my_rank, sendreq->req_target_rank, header->hdr_origin_tag)); mca_pml.pml_isend(sendreq->req_origin_convertor.pBaseBuf, sendreq->req_origin_convertor.count, sendreq->req_origin_datatype, sendreq->req_target_rank, header->hdr_origin_tag, MCA_PML_BASE_SEND_STANDARD, sendreq->req_module->m_comm, &(longreq->request)); /* put the send request in the waiting list */ OPAL_THREAD_LOCK(&mca_osc_rdma_component.c_lock); opal_list_append(&mca_osc_rdma_component.c_pending_requests, &(longreq->super.super)); OPAL_THREAD_UNLOCK(&mca_osc_rdma_component.c_lock); } } /* release the descriptor and sendreq */ btl->btl_free(btl, descriptor); while (opal_list_get_size(&module->m_queued_sendreqs)) { opal_list_item_t *item; int ret; OPAL_THREAD_LOCK(&module->m_lock); item = opal_list_remove_first(&module->m_queued_sendreqs); OPAL_THREAD_UNLOCK(&module->m_lock); if (NULL == item) break; ret = ompi_osc_rdma_sendreq_send(module, (ompi_osc_rdma_sendreq_t*) item); if (OMPI_SUCCESS != ret) { OPAL_THREAD_LOCK(&module->m_lock); opal_list_append(&(module->m_queued_sendreqs), item); OPAL_THREAD_UNLOCK(&module->m_lock); break; } } } /* create the initial fragment, pack header, datatype, and payload (if size fits) and send */ int ompi_osc_rdma_sendreq_send(ompi_osc_rdma_module_t *module, ompi_osc_rdma_sendreq_t *sendreq) { int ret = OMPI_SUCCESS; mca_bml_base_endpoint_t *endpoint = NULL; mca_bml_base_btl_t *bml_btl = NULL; mca_btl_base_descriptor_t *descriptor = NULL; ompi_osc_rdma_send_header_t *header = NULL; size_t written_data = 0; size_t needed_len = sizeof(ompi_osc_rdma_send_header_t); const void *packed_ddt; size_t packed_ddt_len; if ((module->m_eager_send_active) && (module->m_use_rdma) && (ompi_ddt_is_contiguous_memory_layout(sendreq->req_target_datatype, sendreq->req_target_count)) && (!ompi_convertor_need_buffers(&sendreq->req_origin_convertor)) && (sendreq->req_type != OMPI_OSC_RDMA_ACC)) { ret = ompi_osc_rdma_sendreq_rdma(module, sendreq); if (OPAL_LIKELY(OMPI_SUCCESS == ret)) return ret; } packed_ddt_len = ompi_ddt_pack_description_length(sendreq->req_target_datatype); /* we always need to send the ddt */ needed_len += packed_ddt_len; if (OMPI_OSC_RDMA_GET != sendreq->req_type) { needed_len += sendreq->req_origin_bytes_packed; } /* Get a BTL so we have the eager limit */ endpoint = (mca_bml_base_endpoint_t*) sendreq->req_target_proc->proc_bml; bml_btl = mca_bml_base_btl_array_get_next(&endpoint->btl_eager); descriptor = bml_btl->btl_alloc(bml_btl->btl, MCA_BTL_NO_ORDER, needed_len < bml_btl->btl_eager_limit ? needed_len : bml_btl->btl_eager_limit); if (NULL == descriptor) { ret = OMPI_ERR_TEMP_OUT_OF_RESOURCE; goto cleanup; } /* verify at least enough space for header */ if (descriptor->des_src[0].seg_len < sizeof(ompi_osc_rdma_send_header_t)) { ret = OMPI_ERR_OUT_OF_RESOURCE; goto cleanup; } /* setup descriptor */ descriptor->des_cbfunc = ompi_osc_rdma_sendreq_send_cb; descriptor->des_cbdata = (void*) sendreq; descriptor->des_flags = MCA_BTL_DES_FLAGS_PRIORITY; /* pack header */ header = (ompi_osc_rdma_send_header_t*) descriptor->des_src[0].seg_addr.pval; written_data += sizeof(ompi_osc_rdma_send_header_t); header->hdr_base.hdr_flags = 0; header->hdr_windx = sendreq->req_module->m_comm->c_contextid; header->hdr_origin = sendreq->req_module->m_comm->c_my_rank; header->hdr_origin_sendreq.pval = (void*) sendreq; header->hdr_origin_tag = 0; header->hdr_target_disp = sendreq->req_target_disp; header->hdr_target_count = sendreq->req_target_count; switch (sendreq->req_type) { case OMPI_OSC_RDMA_PUT: header->hdr_base.hdr_type = OMPI_OSC_RDMA_HDR_PUT; #if OMPI_ENABLE_MEM_DEBUG header->hdr_target_op = 0; #endif break; case OMPI_OSC_RDMA_ACC: header->hdr_base.hdr_type = OMPI_OSC_RDMA_HDR_ACC; header->hdr_target_op = sendreq->req_op_id; break; case OMPI_OSC_RDMA_GET: header->hdr_base.hdr_type = OMPI_OSC_RDMA_HDR_GET; #if OMPI_ENABLE_MEM_DEBUG header->hdr_target_op = 0; #endif break; } /* Set datatype id and / or pack datatype */ ret = ompi_ddt_get_pack_description(sendreq->req_target_datatype, &packed_ddt); if (OMPI_SUCCESS != ret) goto cleanup; memcpy((unsigned char*) descriptor->des_src[0].seg_addr.pval + written_data, packed_ddt, packed_ddt_len); written_data += packed_ddt_len; if (OMPI_OSC_RDMA_GET != sendreq->req_type) { /* if sending data and it fits, pack payload */ if (descriptor->des_src[0].seg_len >= written_data + sendreq->req_origin_bytes_packed) { struct iovec iov; uint32_t iov_count = 1; size_t max_data = sendreq->req_origin_bytes_packed; iov.iov_len = max_data; iov.iov_base = (IOVBASE_TYPE*)((unsigned char*) descriptor->des_src[0].seg_addr.pval + written_data); ret = ompi_convertor_pack(&sendreq->req_origin_convertor, &iov, &iov_count, &max_data ); if (ret < 0) { ret = OMPI_ERR_FATAL; goto cleanup; } assert(max_data == sendreq->req_origin_bytes_packed); written_data += max_data; descriptor->des_src[0].seg_len = written_data; header->hdr_msg_length = sendreq->req_origin_bytes_packed; } else { header->hdr_msg_length = 0; header->hdr_origin_tag = create_send_tag(module); } } else { descriptor->des_src[0].seg_len = written_data; header->hdr_msg_length = 0; } #ifdef WORDS_BIGENDIAN header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; #elif OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (sendreq->req_target_proc->proc_arch & OMPI_ARCH_ISBIGENDIAN) { header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; OMPI_OSC_RDMA_SEND_HDR_HTON(*header); } #endif /* send fragment */ OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d sending sendreq to %d", sendreq->req_module->m_comm->c_my_rank, sendreq->req_target_rank)); ret = mca_bml_base_send(bml_btl, descriptor, MCA_BTL_TAG_OSC_RDMA); goto done; cleanup: if (descriptor != NULL) { mca_bml_base_free(bml_btl, descriptor); } done: return ret; } /********************************************************************** * * Sending a replyreq back to origin * **********************************************************************/ static void ompi_osc_rdma_replyreq_send_long_cb(ompi_osc_rdma_longreq_t *longreq) { ompi_osc_rdma_replyreq_t *replyreq = (ompi_osc_rdma_replyreq_t*) longreq->cbdata; inmsg_mark_complete(replyreq->rep_module); ompi_osc_rdma_longreq_free(longreq); ompi_osc_rdma_replyreq_free(replyreq); } static void ompi_osc_rdma_replyreq_send_cb(struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t *endpoint, struct mca_btl_base_descriptor_t* descriptor, int status) { ompi_osc_rdma_replyreq_t *replyreq = (ompi_osc_rdma_replyreq_t*) descriptor->des_cbdata; ompi_osc_rdma_reply_header_t *header = (ompi_osc_rdma_reply_header_t*) descriptor->des_src[0].seg_addr.pval; if (OMPI_SUCCESS != status) { /* requeue and return */ /* BWB - FIX ME - figure out where to put this bad boy */ abort(); return; } #if !defined(WORDS_BIGENDIAN) && OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (header->hdr_base.hdr_flags & OMPI_OSC_RDMA_HDR_FLAG_NBO) { OMPI_OSC_RDMA_REPLY_HDR_NTOH(*header); } #endif /* do we need to post a send? */ if (header->hdr_msg_length != 0) { /* sendreq is done. Mark it as so and get out of here */ inmsg_mark_complete(replyreq->rep_module); ompi_osc_rdma_replyreq_free(replyreq); } else { ompi_osc_rdma_longreq_t *longreq; ompi_osc_rdma_longreq_alloc(&longreq); longreq->cbfunc = ompi_osc_rdma_replyreq_send_long_cb; longreq->cbdata = replyreq; mca_pml.pml_isend(replyreq->rep_target_convertor.pBaseBuf, replyreq->rep_target_convertor.count, replyreq->rep_target_datatype, replyreq->rep_origin_rank, header->hdr_target_tag, MCA_PML_BASE_SEND_STANDARD, replyreq->rep_module->m_comm, &(longreq->request)); /* put the send request in the waiting list */ OPAL_THREAD_LOCK(&mca_osc_rdma_component.c_lock); opal_list_append(&mca_osc_rdma_component.c_pending_requests, &(longreq->super.super)); OPAL_THREAD_UNLOCK(&mca_osc_rdma_component.c_lock); } /* release the descriptor and replyreq */ btl->btl_free(btl, descriptor); } int ompi_osc_rdma_replyreq_send(ompi_osc_rdma_module_t *module, ompi_osc_rdma_replyreq_t *replyreq) { int ret = OMPI_SUCCESS; mca_bml_base_endpoint_t *endpoint = NULL; mca_bml_base_btl_t *bml_btl = NULL; mca_btl_base_descriptor_t *descriptor = NULL; ompi_osc_rdma_reply_header_t *header = NULL; size_t written_data = 0; /* Get a BTL and a fragment to go with it */ endpoint = (mca_bml_base_endpoint_t*) replyreq->rep_origin_proc->proc_bml; bml_btl = mca_bml_base_btl_array_get_next(&endpoint->btl_eager); descriptor = bml_btl->btl_alloc(bml_btl->btl, MCA_BTL_NO_ORDER, bml_btl->btl_eager_limit); if (NULL == descriptor) { ret = OMPI_ERR_TEMP_OUT_OF_RESOURCE; goto cleanup; } /* verify at least enough space for header */ if (descriptor->des_src[0].seg_len < sizeof(ompi_osc_rdma_reply_header_t)) { ret = OMPI_ERR_OUT_OF_RESOURCE; goto cleanup; } /* setup descriptor */ descriptor->des_cbfunc = ompi_osc_rdma_replyreq_send_cb; descriptor->des_cbdata = (void*) replyreq; descriptor->des_flags = MCA_BTL_DES_FLAGS_PRIORITY; /* pack header */ header = (ompi_osc_rdma_reply_header_t*) descriptor->des_src[0].seg_addr.pval; written_data += sizeof(ompi_osc_rdma_reply_header_t); header->hdr_base.hdr_type = OMPI_OSC_RDMA_HDR_REPLY; header->hdr_base.hdr_flags = 0; header->hdr_origin_sendreq = replyreq->rep_origin_sendreq; header->hdr_target_tag = 0; /* if sending data fits, pack payload */ if (descriptor->des_src[0].seg_len >= written_data + replyreq->rep_target_bytes_packed) { struct iovec iov; uint32_t iov_count = 1; size_t max_data = replyreq->rep_target_bytes_packed; iov.iov_len = max_data; iov.iov_base = (IOVBASE_TYPE*)((unsigned char*) descriptor->des_src[0].seg_addr.pval + written_data); ret = ompi_convertor_pack(&replyreq->rep_target_convertor, &iov, &iov_count, &max_data ); if (ret < 0) { ret = OMPI_ERR_FATAL; goto cleanup; } assert(max_data == replyreq->rep_target_bytes_packed); written_data += max_data; descriptor->des_src[0].seg_len = written_data; header->hdr_msg_length = replyreq->rep_target_bytes_packed; } else { header->hdr_msg_length = 0; header->hdr_target_tag = create_send_tag(module); } #ifdef WORDS_BIGENDIAN header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; #elif OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (replyreq->rep_origin_proc->proc_arch & OMPI_ARCH_ISBIGENDIAN) { header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; OMPI_OSC_RDMA_REPLY_HDR_HTON(*header); } #endif /* send fragment */ ret = mca_bml_base_send(bml_btl, descriptor, MCA_BTL_TAG_OSC_RDMA); goto done; cleanup: if (descriptor != NULL) { mca_bml_base_free(bml_btl, descriptor); } done: return ret; } /********************************************************************** * * Receive a put on the target side * **********************************************************************/ static void ompi_osc_rdma_sendreq_recv_put_long_cb(ompi_osc_rdma_longreq_t *longreq) { OBJ_RELEASE(longreq->req_datatype); ompi_osc_rdma_longreq_free(longreq); inmsg_mark_complete(longreq->req_module); } int ompi_osc_rdma_sendreq_recv_put(ompi_osc_rdma_module_t *module, ompi_osc_rdma_send_header_t *header, void *inbuf) { int ret = OMPI_SUCCESS; void *target = (unsigned char*) module->m_win->w_baseptr + (header->hdr_target_disp * module->m_win->w_disp_unit); ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, header->hdr_origin ); struct ompi_datatype_t *datatype = ompi_osc_rdma_datatype_create(proc, &inbuf); if (NULL == datatype) { opal_output(ompi_osc_base_output, "Error recreating datatype. Aborting."); ompi_mpi_abort(module->m_comm, 1, false); } if (header->hdr_msg_length > 0) { ompi_convertor_t convertor; struct iovec iov; uint32_t iov_count = 1; size_t max_data; ompi_proc_t *proc; /* create convertor */ OBJ_CONSTRUCT(&convertor, ompi_convertor_t); /* initialize convertor */ proc = ompi_comm_peer_lookup(module->m_comm, header->hdr_origin); ompi_convertor_copy_and_prepare_for_recv(proc->proc_convertor, datatype, header->hdr_target_count, target, 0, &convertor); iov.iov_len = header->hdr_msg_length; iov.iov_base = (IOVBASE_TYPE*)inbuf; max_data = iov.iov_len; ompi_convertor_unpack(&convertor, &iov, &iov_count, &max_data ); OBJ_DESTRUCT(&convertor); OBJ_RELEASE(datatype); inmsg_mark_complete(module); } else { ompi_osc_rdma_longreq_t *longreq; ompi_osc_rdma_longreq_alloc(&longreq); longreq->cbfunc = ompi_osc_rdma_sendreq_recv_put_long_cb; longreq->cbdata = NULL; longreq->req_datatype = datatype; longreq->req_module = module; ret = mca_pml.pml_irecv(target, header->hdr_target_count, datatype, header->hdr_origin, header->hdr_origin_tag, module->m_comm, &(longreq->request)); /* put the send request in the waiting list */ OPAL_THREAD_LOCK(&mca_osc_rdma_component.c_lock); opal_list_append(&mca_osc_rdma_component.c_pending_requests, &(longreq->super.super)); OPAL_THREAD_UNLOCK(&mca_osc_rdma_component.c_lock); } return ret; } /********************************************************************** * * Receive an accumulate on the target side * **********************************************************************/ static void ompi_osc_rdma_sendreq_recv_accum_long_cb(ompi_osc_rdma_longreq_t *longreq) { ompi_osc_rdma_send_header_t *header = (ompi_osc_rdma_send_header_t*) longreq->cbdata; void *payload = (void*) (header + 1); int ret; /* lock the window for accumulates */ OPAL_THREAD_LOCK(&longreq->req_module->m_acc_lock); /* copy the data from the temporary buffer into the user window */ ret = ompi_osc_rdma_process_op(longreq->req_module, header, longreq->req_datatype, longreq->req_op, payload, header->hdr_msg_length); /* unlock the window for accumulates */ OPAL_THREAD_UNLOCK(&longreq->req_module->m_acc_lock); OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d finished receiving long accum message from %d", longreq->req_module->m_comm->c_my_rank, header->hdr_origin)); /* free the temp buffer */ free(longreq->cbdata); /* Release datatype & op */ OBJ_RELEASE(longreq->req_datatype); OBJ_RELEASE(longreq->req_op); inmsg_mark_complete(longreq->req_module); ompi_osc_rdma_longreq_free(longreq); } int ompi_osc_rdma_sendreq_recv_accum(ompi_osc_rdma_module_t *module, ompi_osc_rdma_send_header_t *header, void *payload) { int ret = OMPI_SUCCESS; struct ompi_op_t *op = ompi_osc_rdma_op_create(header->hdr_target_op); ompi_proc_t *proc = ompi_comm_peer_lookup( module->m_comm, header->hdr_origin ); struct ompi_datatype_t *datatype = ompi_osc_rdma_datatype_create(proc, &payload); if (NULL == datatype) { opal_output(ompi_osc_base_output, "Error recreating datatype. Aborting."); ompi_mpi_abort(module->m_comm, 1, false); } if (header->hdr_msg_length > 0) { /* lock the window for accumulates */ OPAL_THREAD_LOCK(&module->m_acc_lock); /* copy the data from the temporary buffer into the user window */ ret = ompi_osc_rdma_process_op(module, header, datatype, op, payload, header->hdr_msg_length); /* unlock the window for accumulates */ OPAL_THREAD_UNLOCK(&module->m_acc_lock); /* Release datatype & op */ OBJ_RELEASE(datatype); OBJ_RELEASE(op); inmsg_mark_complete(module); OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d received accum message from %d", module->m_comm->c_my_rank, header->hdr_origin)); } else { ompi_osc_rdma_longreq_t *longreq; ptrdiff_t lb, extent, true_lb, true_extent; size_t buflen; /* figure out how big a buffer we need */ ompi_ddt_get_extent(datatype, &lb, &extent); ompi_ddt_get_true_extent(datatype, &true_lb, &true_extent); buflen = true_extent + (header->hdr_target_count - 1) * extent; /* get a longreq and fill it in */ ompi_osc_rdma_longreq_alloc(&longreq); longreq->cbfunc = ompi_osc_rdma_sendreq_recv_accum_long_cb; longreq->req_datatype = datatype; longreq->req_op = op; longreq->req_module = module; /* allocate a buffer to receive into ... */ longreq->cbdata = malloc(buflen + sizeof(ompi_osc_rdma_send_header_t)); if (NULL == longreq->cbdata) return OMPI_ERR_TEMP_OUT_OF_RESOURCE; /* fill in tmp header */ memcpy(longreq->cbdata, header, sizeof(ompi_osc_rdma_send_header_t)); ((ompi_osc_rdma_send_header_t*) longreq->cbdata)->hdr_msg_length = buflen; ret = mca_pml.pml_irecv(((char*) longreq->cbdata) + sizeof(ompi_osc_rdma_send_header_t), header->hdr_target_count, datatype, header->hdr_origin, header->hdr_origin_tag, module->m_comm, &(longreq->request)); OPAL_OUTPUT_VERBOSE((50, ompi_osc_base_output, "%d started long recv accum message from %d (%d)", module->m_comm->c_my_rank, header->hdr_origin, header->hdr_origin_tag)); /* put the send request in the waiting list */ OPAL_THREAD_LOCK(&mca_osc_rdma_component.c_lock); opal_list_append(&mca_osc_rdma_component.c_pending_requests, &(longreq->super.super)); OPAL_THREAD_UNLOCK(&mca_osc_rdma_component.c_lock); } return ret; } /********************************************************************** * * Recveive a get on the origin side * **********************************************************************/ static void ompi_osc_rdma_replyreq_recv_long_cb(ompi_osc_rdma_longreq_t *longreq) { ompi_osc_rdma_sendreq_t *sendreq = (ompi_osc_rdma_sendreq_t*) longreq->cbdata; int32_t count; OPAL_THREAD_LOCK(&sendreq->req_module->m_lock); count = (sendreq->req_module->m_num_pending_out -= 1); OPAL_THREAD_UNLOCK(&sendreq->req_module->m_lock); ompi_osc_rdma_longreq_free(longreq); ompi_osc_rdma_sendreq_free(sendreq); if (0 == count) opal_condition_broadcast(&sendreq->req_module->m_cond); } int ompi_osc_rdma_replyreq_recv(ompi_osc_rdma_module_t *module, ompi_osc_rdma_sendreq_t *sendreq, ompi_osc_rdma_reply_header_t *header, void *payload) { int ret = OMPI_SUCCESS; /* receive into user buffer */ if (header->hdr_msg_length > 0) { /* short message. woo! */ struct iovec iov; uint32_t iov_count = 1; size_t max_data; int32_t count; iov.iov_len = header->hdr_msg_length; iov.iov_base = (IOVBASE_TYPE*)payload; max_data = iov.iov_len; ompi_convertor_unpack(&sendreq->req_origin_convertor, &iov, &iov_count, &max_data ); count = sendreq->req_module->m_num_pending_out -= 1; ompi_osc_rdma_sendreq_free(sendreq); if (0 == count) opal_condition_broadcast(&sendreq->req_module->m_cond); } else { ompi_osc_rdma_longreq_t *longreq; ompi_osc_rdma_longreq_alloc(&longreq); longreq->cbfunc = ompi_osc_rdma_replyreq_recv_long_cb; longreq->cbdata = sendreq; longreq->req_module = module; /* BWB - FIX ME - George is going to kill me for this */ ret = mca_pml.pml_irecv(sendreq->req_origin_convertor.pBaseBuf, sendreq->req_origin_convertor.count, sendreq->req_origin_datatype, sendreq->req_target_rank, header->hdr_target_tag, module->m_comm, &(longreq->request)); /* put the send request in the waiting list */ OPAL_THREAD_LOCK(&mca_osc_rdma_component.c_lock); opal_list_append(&mca_osc_rdma_component.c_pending_requests, &(longreq->super.super)); OPAL_THREAD_UNLOCK(&mca_osc_rdma_component.c_lock); } return ret; } /********************************************************************** * * Control message communication * **********************************************************************/ static void ompi_osc_rdma_control_send_cb(struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t *endpoint, struct mca_btl_base_descriptor_t* descriptor, int status) { ompi_osc_rdma_control_header_t *header = NULL; header = (ompi_osc_rdma_control_header_t*) descriptor->des_src[0].seg_addr.pval; /* release the descriptor and sendreq */ btl->btl_free(btl, descriptor); } int ompi_osc_rdma_control_send(ompi_osc_rdma_module_t *module, ompi_proc_t *proc, uint8_t type, int32_t value0, int32_t value1) { int ret = OMPI_SUCCESS; mca_bml_base_endpoint_t *endpoint = NULL; mca_bml_base_btl_t *bml_btl = NULL; mca_btl_base_descriptor_t *descriptor = NULL; ompi_osc_rdma_control_header_t *header = NULL; /* Get a BTL and a fragment to go with it */ endpoint = (mca_bml_base_endpoint_t*) proc->proc_bml; bml_btl = mca_bml_base_btl_array_get_next(&endpoint->btl_eager); descriptor = bml_btl->btl_alloc(bml_btl->btl, MCA_BTL_NO_ORDER, sizeof(ompi_osc_rdma_control_header_t)); if (NULL == descriptor) { ret = OMPI_ERR_TEMP_OUT_OF_RESOURCE; goto cleanup; } /* verify at least enough space for header */ if (descriptor->des_src[0].seg_len < sizeof(ompi_osc_rdma_control_header_t)) { ret = OMPI_ERR_OUT_OF_RESOURCE; goto cleanup; } /* setup descriptor */ descriptor->des_cbfunc = ompi_osc_rdma_control_send_cb; descriptor->des_cbdata = NULL; descriptor->des_flags = MCA_BTL_DES_FLAGS_PRIORITY; descriptor->des_src[0].seg_len = sizeof(ompi_osc_rdma_control_header_t); /* pack header */ header = (ompi_osc_rdma_control_header_t*) descriptor->des_src[0].seg_addr.pval; header->hdr_base.hdr_type = type; header->hdr_base.hdr_flags = 0; header->hdr_value[0] = value0; header->hdr_value[1] = value1; header->hdr_windx = module->m_comm->c_contextid; #ifdef WORDS_BIGENDIAN header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; #elif OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (proc->proc_arch & OMPI_ARCH_ISBIGENDIAN) { header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; OMPI_OSC_RDMA_CONTROL_HDR_HTON(*header); } #endif /* send fragment */ ret = mca_bml_base_send(bml_btl, descriptor, MCA_BTL_TAG_OSC_RDMA); goto done; cleanup: if (descriptor != NULL) { mca_bml_base_free(bml_btl, descriptor); } done: return ret; } int ompi_osc_rdma_rdma_ack_send(ompi_osc_rdma_module_t *module, ompi_proc_t *proc, ompi_osc_rdma_btl_t *rdma_btl) { int ret = OMPI_SUCCESS; mca_bml_base_btl_t *bml_btl = rdma_btl->bml_btl; mca_btl_base_descriptor_t *descriptor = NULL; ompi_osc_rdma_control_header_t *header = NULL; /* Get a BTL and a fragment to go with it */ descriptor = bml_btl->btl_alloc(bml_btl->btl, rdma_btl->rdma_order, sizeof(ompi_osc_rdma_control_header_t)); if (NULL == descriptor) { ret = OMPI_ERR_TEMP_OUT_OF_RESOURCE; goto cleanup; } /* verify at least enough space for header */ if (descriptor->des_src[0].seg_len < sizeof(ompi_osc_rdma_control_header_t)) { ret = OMPI_ERR_OUT_OF_RESOURCE; goto cleanup; } /* setup descriptor */ descriptor->des_cbfunc = ompi_osc_rdma_control_send_cb; descriptor->des_cbdata = NULL; descriptor->des_flags = MCA_BTL_DES_FLAGS_PRIORITY; descriptor->des_src[0].seg_len = sizeof(ompi_osc_rdma_control_header_t); /* pack header */ header = (ompi_osc_rdma_control_header_t*) descriptor->des_src[0].seg_addr.pval; header->hdr_base.hdr_type = OMPI_OSC_RDMA_HDR_RDMA_COMPLETE; header->hdr_base.hdr_flags = 0; header->hdr_value[0] = rdma_btl->num_sent; header->hdr_value[1] = 0; header->hdr_windx = module->m_comm->c_contextid; #ifdef WORDS_BIGENDIAN header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; #elif OMPI_ENABLE_HETEROGENEOUS_SUPPORT if (proc->proc_arch & OMPI_ARCH_ISBIGENDIAN) { header->hdr_base.hdr_flags |= OMPI_OSC_RDMA_HDR_FLAG_NBO; OMPI_OSC_RDMA_CONTROL_HDR_HTON(*header); } #endif assert(header->hdr_base.hdr_flags == 0); /* send fragment */ ret = mca_bml_base_send(bml_btl, descriptor, MCA_BTL_TAG_OSC_RDMA); goto done; cleanup: if (descriptor != NULL) { mca_bml_base_free(bml_btl, descriptor); } done: return ret; }