/* * Copyright (c) 2013-2018 Intel, Inc. All rights reserved * Copyright (c) 2017 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2019 Triad National Security, LLC. All rights * reserved. * * Copyright (c) 2018 Amazon.com, Inc. or its affiliates. All Rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #ifndef MTL_OFI_H_HAS_BEEN_INCLUDED #define MTL_OFI_H_HAS_BEEN_INCLUDED #include "ompi/mca/mtl/mtl.h" #include "ompi/mca/mtl/base/base.h" #include "opal/datatype/opal_convertor.h" #include "opal/util/show_help.h" #include "opal/util/printf.h" #include #include #include #include #include #include #include "ompi_config.h" #include "ompi/proc/proc.h" #include "ompi/mca/mtl/mtl.h" #include "opal/class/opal_list.h" #include "ompi/communicator/communicator.h" #include "opal/datatype/opal_convertor.h" #include "ompi/mca/mtl/base/base.h" #include "ompi/mca/mtl/base/mtl_base_datatype.h" #include "ompi/message/message.h" #include "mtl_ofi_opt.h" #include "mtl_ofi_types.h" #include "mtl_ofi_request.h" #include "mtl_ofi_endpoint.h" #include "mtl_ofi_compat.h" BEGIN_C_DECLS extern mca_mtl_ofi_module_t ompi_mtl_ofi; extern mca_base_framework_t ompi_mtl_base_framework; extern int ompi_mtl_ofi_del_procs(struct mca_mtl_base_module_t *mtl, size_t nprocs, struct ompi_proc_t **procs); int ompi_mtl_ofi_progress_no_inline(void); #if OPAL_HAVE_THREAD_LOCAL extern opal_thread_local int per_thread_ctx; extern opal_thread_local struct fi_cq_tagged_entry wc[MTL_OFI_MAX_PROG_EVENT_COUNT]; #endif /* Set OFI context for operations which generate completion events */ __opal_attribute_always_inline__ static inline void set_thread_context(int ctxt) { #if OPAL_HAVE_THREAD_LOCAL per_thread_ctx = ctxt; return; #endif } /* Retrieve OFI context to use for CQ poll */ __opal_attribute_always_inline__ static inline void get_thread_context(int *ctxt) { #if OPAL_HAVE_THREAD_LOCAL *ctxt = per_thread_ctx; #endif return; } #define MTL_OFI_CONTEXT_LOCK(ctxt_id) \ OPAL_LIKELY(!opal_mutex_atomic_trylock(&ompi_mtl_ofi.ofi_ctxt[ctxt_id].context_lock)) #define MTL_OFI_CONTEXT_UNLOCK(ctxt_id) \ opal_mutex_atomic_unlock(&ompi_mtl_ofi.ofi_ctxt[ctxt_id].context_lock) __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_context_progress(int ctxt_id) { int count = 0, i, events_read; ompi_mtl_ofi_request_t *ofi_req = NULL; struct fi_cq_err_entry error = { 0 }; ssize_t ret; #if !OPAL_HAVE_THREAD_LOCAL struct fi_cq_tagged_entry wc[MTL_OFI_MAX_PROG_EVENT_COUNT]; #endif /** * Read the work completions from the CQ. * From the completion's op_context, we get the associated OFI request. * Call the request's callback. */ while (true) { ret = fi_cq_read(ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq, (void *)&wc, ompi_mtl_ofi.ofi_progress_event_count); if (ret > 0) { count+= ret; events_read = ret; for (i = 0; i < events_read; i++) { if (NULL != wc[i].op_context) { ofi_req = TO_OFI_REQ(wc[i].op_context); assert(ofi_req); ret = ofi_req->event_callback(&wc[i], ofi_req); if (OMPI_SUCCESS != ret) { opal_output(0, "%s:%d: Error returned by request event callback: %zd.\n" "*** The Open MPI OFI MTL is aborting the MPI job (via exit(3)).\n", __FILE__, __LINE__, ret); fflush(stderr); exit(1); } } } } else if (OPAL_UNLIKELY(ret == -FI_EAVAIL)) { /** * An error occured and is being reported via the CQ. * Read the error and forward it to the upper layer. */ ret = fi_cq_readerr(ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq, &error, 0); if (0 > ret) { opal_output(0, "%s:%d: Error returned from fi_cq_readerr: %s(%zd).\n" "*** The Open MPI OFI MTL is aborting the MPI job (via exit(3)).\n", __FILE__, __LINE__, fi_strerror(-ret), ret); fflush(stderr); exit(1); } assert(error.op_context); ofi_req = TO_OFI_REQ(error.op_context); assert(ofi_req); ret = ofi_req->error_callback(&error, ofi_req); if (OMPI_SUCCESS != ret) { opal_output(0, "%s:%d: Error returned by request error callback: %zd.\n" "*** The Open MPI OFI MTL is aborting the MPI job (via exit(3)).\n", __FILE__, __LINE__, ret); fflush(stderr); exit(1); } } else { if (ret == -FI_EAGAIN || ret == -EINTR) { break; } else { opal_output(0, "%s:%d: Error returned from fi_cq_read: %s(%zd).\n" "*** The Open MPI OFI MTL is aborting the MPI job (via exit(3)).\n", __FILE__, __LINE__, fi_strerror(-ret), ret); fflush(stderr); exit(1); } } } return count; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_progress(void) { int count = 0, ctxt_id = 0, i; static volatile uint32_t num_calls = 0; get_thread_context(&ctxt_id); if (ompi_mtl_ofi.mpi_thread_multiple) { if (MTL_OFI_CONTEXT_LOCK(ctxt_id)) { count += ompi_mtl_ofi_context_progress(ctxt_id); MTL_OFI_CONTEXT_UNLOCK(ctxt_id); } } else { count += ompi_mtl_ofi_context_progress(ctxt_id); } #if OPAL_HAVE_THREAD_LOCAL /* * Try to progress other CQs in round-robin fashion. * Progress is only made if no events were read from the CQ * local to the calling thread past 16 times. */ if (OPAL_UNLIKELY((count == 0) && ompi_mtl_ofi.mpi_thread_multiple && (((num_calls++) & 0xF) == 0 ))) { for (i = 0; i < ompi_mtl_ofi.total_ctxts_used - 1; i++) { ctxt_id = (ctxt_id + 1) % ompi_mtl_ofi.total_ctxts_used; if (MTL_OFI_CONTEXT_LOCK(ctxt_id)) { count += ompi_mtl_ofi_context_progress(ctxt_id); MTL_OFI_CONTEXT_UNLOCK(ctxt_id); } /* Upon any work done, exit to let other threads take lock */ if (OPAL_LIKELY(count > 0)) { break; } } } #endif return count; } /** * When attempting to execute an OFI operation we need to handle * resource overrun cases. When a call to an OFI OP fails with -FI_EAGAIN * the OFI mtl will attempt to progress any pending Completion Queue * events that may prevent additional operations to be enqueued. * If the call to ofi progress is successful, then the function call * will be retried. */ #define MTL_OFI_RETRY_UNTIL_DONE(FUNC, RETURN) \ do { \ do { \ RETURN = FUNC; \ if (OPAL_LIKELY(0 == RETURN)) {break;} \ if (OPAL_LIKELY(RETURN == -FI_EAGAIN)) { \ ompi_mtl_ofi_progress(); \ } \ } while (OPAL_LIKELY(-FI_EAGAIN == RETURN)); \ } while (0); #define MTL_OFI_LOG_FI_ERR(err, string) \ do { \ opal_output_verbose(1, ompi_mtl_base_framework.framework_output, \ "%s:%d:%s: %s\n", \ __FILE__, __LINE__, string, fi_strerror(-err)); \ } while(0); /* MTL interface functions */ int ompi_mtl_ofi_finalize(struct mca_mtl_base_module_t *mtl); __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_get_error(int error_num) { int ret; switch (error_num) { case 0: ret = OMPI_SUCCESS; break; default: ret = OMPI_ERROR; } return ret; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { assert(ofi_req->completion_count > 0); ofi_req->completion_count--; return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send_error_callback(struct fi_cq_err_entry *error, ompi_mtl_ofi_request_t *ofi_req) { switch(error->err) { case FI_ETRUNC: ofi_req->status.MPI_ERROR = MPI_ERR_TRUNCATE; break; default: ofi_req->status.MPI_ERROR = MPI_ERR_INTERN; } return ofi_req->event_callback(NULL, ofi_req); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send_ack_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { ompi_mtl_ofi_request_t *parent_req = ofi_req->parent; free(ofi_req); parent_req->event_callback(NULL, parent_req); return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send_ack_error_callback(struct fi_cq_err_entry *error, ompi_mtl_ofi_request_t *ofi_req) { ompi_mtl_ofi_request_t *parent_req = ofi_req->parent; free(ofi_req); parent_req->status.MPI_ERROR = MPI_ERR_INTERN; return parent_req->error_callback(error, parent_req); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_isend_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { assert(ofi_req->completion_count > 0); ofi_req->completion_count--; if (0 == ofi_req->completion_count) { /* Request completed */ if (OPAL_UNLIKELY(NULL != ofi_req->buffer)) { free(ofi_req->buffer); ofi_req->buffer = NULL; } ofi_req->super.ompi_req->req_status.MPI_ERROR = ofi_req->status.MPI_ERROR; ofi_req->super.completion_callback(&ofi_req->super); } return OMPI_SUCCESS; } /* Return OFI context ID associated with the specific communicator */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_map_comm_to_ctxt(uint32_t comm_id) { /* For non-thread-grouping use case, only one context is used which is * associated to MPI_COMM_WORLD, so use that. */ if (0 == ompi_mtl_ofi.thread_grouping) { comm_id = 0; } return ompi_mtl_ofi.comm_to_context[comm_id]; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_ssend_recv(ompi_mtl_ofi_request_t *ack_req, struct ompi_communicator_t *comm, fi_addr_t *src_addr, ompi_mtl_ofi_request_t *ofi_req, mca_mtl_ofi_endpoint_t *endpoint, uint64_t *match_bits, int tag) { ssize_t ret = OMPI_SUCCESS; int ctxt_id = 0; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); ack_req = malloc(sizeof(ompi_mtl_ofi_request_t)); assert(ack_req); ack_req->parent = ofi_req; ack_req->event_callback = ompi_mtl_ofi_send_ack_callback; ack_req->error_callback = ompi_mtl_ofi_send_ack_error_callback; ofi_req->completion_count += 1; MTL_OFI_RETRY_UNTIL_DONE(fi_trecv(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, NULL, 0, NULL, *src_addr, *match_bits | ompi_mtl_ofi.sync_send_ack, 0, /* Exact match, no ignore bits */ (void *) &ack_req->ctx), ret); if (OPAL_UNLIKELY(0 > ret)) { opal_output_verbose(1, ompi_mtl_base_framework.framework_output, "%s:%d: fi_trecv failed: %s(%zd)", __FILE__, __LINE__, fi_strerror(-ret), ret); free(ack_req); return ompi_mtl_ofi_get_error(ret); } /* The SYNC_SEND tag bit is set for the send operation only.*/ MTL_OFI_SET_SYNC_SEND(*match_bits); return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send_generic(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int dest, int tag, struct opal_convertor_t *convertor, mca_pml_base_send_mode_t mode, bool ofi_cq_data) { ssize_t ret = OMPI_SUCCESS; ompi_mtl_ofi_request_t ofi_req; int ompi_ret, ctxt_id = 0; void *start; bool free_after; size_t length; uint64_t match_bits; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; ompi_mtl_ofi_request_t *ack_req = NULL; /* For synchronous send */ fi_addr_t src_addr = 0; fi_addr_t sep_peer_fiaddr = 0; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); /** * Create a send request, start it and wait until it completes. */ ofi_req.event_callback = ompi_mtl_ofi_send_callback; ofi_req.error_callback = ompi_mtl_ofi_send_error_callback; ompi_proc = ompi_comm_peer_lookup(comm, dest); endpoint = ompi_mtl_ofi_get_endpoint(mtl, ompi_proc); /* For Scalable Endpoints, gather target receive context */ sep_peer_fiaddr = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); ompi_ret = ompi_mtl_datatype_pack(convertor, &start, &length, &free_after); if (OPAL_UNLIKELY(OMPI_SUCCESS != ompi_ret)) { return ompi_ret; } ofi_req.buffer = (free_after) ? start : NULL; ofi_req.length = length; ofi_req.status.MPI_ERROR = OMPI_SUCCESS; ofi_req.completion_count = 0; if (OPAL_UNLIKELY(length > endpoint->mtl_ofi_module->max_msg_size)) { opal_show_help("help-mtl-ofi.txt", "message too big", false, length, endpoint->mtl_ofi_module->max_msg_size); return OMPI_ERROR; } if (ofi_cq_data) { match_bits = mtl_ofi_create_send_tag_CQD(comm->c_contextid, tag); src_addr = sep_peer_fiaddr; } else { match_bits = mtl_ofi_create_send_tag(comm->c_contextid, comm->c_my_rank, tag); /* src_addr is ignored when FI_DIRECTED_RECV is not supported */ } if (OPAL_UNLIKELY(MCA_PML_BASE_SEND_SYNCHRONOUS == mode)) { ofi_req.status.MPI_ERROR = ompi_mtl_ofi_ssend_recv(ack_req, comm, &src_addr, &ofi_req, endpoint, &match_bits, tag); if (OPAL_UNLIKELY(ofi_req.status.MPI_ERROR != OMPI_SUCCESS)) goto free_request_buffer; } if (ompi_mtl_ofi.max_inject_size >= length) { if (ofi_cq_data) { MTL_OFI_RETRY_UNTIL_DONE(fi_tinjectdata(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, comm->c_my_rank, sep_peer_fiaddr, match_bits), ret); } else { MTL_OFI_RETRY_UNTIL_DONE(fi_tinject(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, sep_peer_fiaddr, match_bits), ret); } if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, ofi_cq_data ? "fi_tinjectdata failed" : "fi_tinject failed"); if (ack_req) { fi_cancel((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, &ack_req->ctx); free(ack_req); } ofi_req.status.MPI_ERROR = ompi_mtl_ofi_get_error(ret); goto free_request_buffer; } } else { ofi_req.completion_count += 1; if (ofi_cq_data) { MTL_OFI_RETRY_UNTIL_DONE(fi_tsenddata(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, NULL, comm->c_my_rank, sep_peer_fiaddr, match_bits, (void *) &ofi_req.ctx), ret); } else { MTL_OFI_RETRY_UNTIL_DONE(fi_tsend(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, NULL, sep_peer_fiaddr, match_bits, (void *) &ofi_req.ctx), ret); } if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, ofi_cq_data ? "fi_tsenddata failed" : "fi_tsend failed"); ofi_req.status.MPI_ERROR = ompi_mtl_ofi_get_error(ret); goto free_request_buffer; } } /** * Wait until the request is completed. * ompi_mtl_ofi_send_callback() updates this variable. */ while (0 < ofi_req.completion_count) { ompi_mtl_ofi_progress(); } free_request_buffer: if (OPAL_UNLIKELY(NULL != ofi_req.buffer)) { free(ofi_req.buffer); } return ofi_req.status.MPI_ERROR; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_isend_generic(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int dest, int tag, struct opal_convertor_t *convertor, mca_pml_base_send_mode_t mode, bool blocking, mca_mtl_request_t *mtl_request, bool ofi_cq_data) { ssize_t ret = OMPI_SUCCESS; ompi_mtl_ofi_request_t *ofi_req = (ompi_mtl_ofi_request_t *) mtl_request; int ompi_ret, ctxt_id = 0; void *start; size_t length; bool free_after; uint64_t match_bits; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; ompi_mtl_ofi_request_t *ack_req = NULL; /* For synchronous send */ fi_addr_t sep_peer_fiaddr = 0; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); ofi_req->event_callback = ompi_mtl_ofi_isend_callback; ofi_req->error_callback = ompi_mtl_ofi_send_error_callback; ompi_proc = ompi_comm_peer_lookup(comm, dest); endpoint = ompi_mtl_ofi_get_endpoint(mtl, ompi_proc); /* For Scalable Endpoints, gather target receive context */ sep_peer_fiaddr = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); ompi_ret = ompi_mtl_datatype_pack(convertor, &start, &length, &free_after); if (OPAL_UNLIKELY(OMPI_SUCCESS != ompi_ret)) return ompi_ret; ofi_req->buffer = (free_after) ? start : NULL; ofi_req->length = length; ofi_req->status.MPI_ERROR = OMPI_SUCCESS; ofi_req->completion_count = 1; if (OPAL_UNLIKELY(length > endpoint->mtl_ofi_module->max_msg_size)) { opal_show_help("help-mtl-ofi.txt", "message too big", false, length, endpoint->mtl_ofi_module->max_msg_size); return OMPI_ERROR; } if (ofi_cq_data) { match_bits = mtl_ofi_create_send_tag_CQD(comm->c_contextid, tag); } else { match_bits = mtl_ofi_create_send_tag(comm->c_contextid, comm->c_my_rank, tag); /* src_addr is ignored when FI_DIRECTED_RECV is not supported */ } if (OPAL_UNLIKELY(MCA_PML_BASE_SEND_SYNCHRONOUS == mode)) { ofi_req->status.MPI_ERROR = ompi_mtl_ofi_ssend_recv(ack_req, comm, &sep_peer_fiaddr, ofi_req, endpoint, &match_bits, tag); if (OPAL_UNLIKELY(ofi_req->status.MPI_ERROR != OMPI_SUCCESS)) goto free_request_buffer; } if (ofi_cq_data) { MTL_OFI_RETRY_UNTIL_DONE(fi_tsenddata(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, NULL, comm->c_my_rank, sep_peer_fiaddr, match_bits, (void *) &ofi_req->ctx), ret); } else { MTL_OFI_RETRY_UNTIL_DONE(fi_tsend(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, start, length, NULL, sep_peer_fiaddr, match_bits, (void *) &ofi_req->ctx), ret); } if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, ofi_cq_data ? "fi_tsenddata failed" : "fi_tsend failed"); ofi_req->status.MPI_ERROR = ompi_mtl_ofi_get_error(ret); } free_request_buffer: if (OPAL_UNLIKELY(OMPI_SUCCESS != ofi_req->status.MPI_ERROR && NULL != ofi_req->buffer)) { free(ofi_req->buffer); } return ofi_req->status.MPI_ERROR; } /** * Called when a completion for a posted recv is received. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_recv_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { int ompi_ret, ctxt_id = 0; ssize_t ret; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; int src = mtl_ofi_get_source(wc); ompi_status_public_t *status = NULL; struct fi_msg_tagged tagged_msg; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(ofi_req->comm->c_contextid); assert(ofi_req->super.ompi_req); status = &ofi_req->super.ompi_req->req_status; /** * Any event associated with a request starts it. * This prevents a started request from being cancelled. */ ofi_req->req_started = true; status->MPI_SOURCE = src; status->MPI_TAG = MTL_OFI_GET_TAG(wc->tag); status->_ucount = wc->len; if (OPAL_UNLIKELY(wc->len > ofi_req->length)) { opal_output_verbose(1, ompi_mtl_base_framework.framework_output, "truncate expected: %ld %ld", wc->len, ofi_req->length); status->MPI_ERROR = MPI_ERR_TRUNCATE; } /** * Unpack data into recv buffer if necessary. */ if (OPAL_UNLIKELY(ofi_req->buffer)) { ompi_ret = ompi_mtl_datatype_unpack(ofi_req->convertor, ofi_req->buffer, wc->len); if (OPAL_UNLIKELY(OMPI_SUCCESS != ompi_ret)) { opal_output_verbose(1, ompi_mtl_base_framework.framework_output, "%s:%d: ompi_mtl_datatype_unpack failed: %d", __FILE__, __LINE__, ompi_ret); status->MPI_ERROR = ompi_ret; } } /** * We can only accept MTL_OFI_SYNC_SEND in the standard recv callback. * MTL_OFI_SYNC_SEND_ACK should only be received in the send_ack * callback. */ assert(!MTL_OFI_IS_SYNC_SEND_ACK(wc->tag)); /** * If this recv is part of an MPI_Ssend operation, then we send an * acknowledgment back to the sender. * The ack message is sent without generating a completion event in * the completion queue by not setting FI_COMPLETION in the flags to * fi_tsendmsg(FI_SELECTIVE_COMPLETION). * This is done since the 0 byte message requires no * notification on the send side for a successful completion. * If a failure occurs the provider will notify the error * in the cq_readerr during OFI progress. Once the message has been * successfully processed the request is marked as completed. */ if (OPAL_UNLIKELY(MTL_OFI_IS_SYNC_SEND(wc->tag))) { /** * If the recv request was posted for any source, * we need to extract the source's actual address. */ if (ompi_mtl_ofi.any_addr == ofi_req->remote_addr) { ompi_proc = ompi_comm_peer_lookup(ofi_req->comm, src); endpoint = ompi_mtl_ofi_get_endpoint(ofi_req->mtl, ompi_proc); ofi_req->remote_addr = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); } tagged_msg.msg_iov = NULL; tagged_msg.desc = NULL; tagged_msg.iov_count = 0; tagged_msg.addr = ofi_req->remote_addr; /** * We must continue to use the user's original tag but remove the * sync_send protocol tag bit and instead apply the sync_send_ack * tag bit to complete the initator's sync send receive. */ tagged_msg.tag = (wc->tag | ompi_mtl_ofi.sync_send_ack) & ~ompi_mtl_ofi.sync_send; tagged_msg.context = NULL; tagged_msg.data = 0; MTL_OFI_RETRY_UNTIL_DONE(fi_tsendmsg(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, &tagged_msg, 0), ret); if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, "fi_tsendmsg failed"); status->MPI_ERROR = OMPI_ERROR; } } ofi_req->super.completion_callback(&ofi_req->super); return OMPI_SUCCESS; } /** * Called when an error occured on a recv request. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_recv_error_callback(struct fi_cq_err_entry *error, ompi_mtl_ofi_request_t *ofi_req) { ompi_status_public_t *status; assert(ofi_req->super.ompi_req); status = &ofi_req->super.ompi_req->req_status; status->MPI_TAG = MTL_OFI_GET_TAG(ofi_req->match_bits); status->MPI_SOURCE = mtl_ofi_get_source((struct fi_cq_tagged_entry *) error); switch (error->err) { case FI_ETRUNC: status->MPI_ERROR = MPI_ERR_TRUNCATE; break; case FI_ECANCELED: status->_cancelled = true; break; default: status->MPI_ERROR = MPI_ERR_INTERN; } ofi_req->super.completion_callback(&ofi_req->super); return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_irecv_generic(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, struct opal_convertor_t *convertor, mca_mtl_request_t *mtl_request, bool ofi_cq_data) { int ompi_ret = OMPI_SUCCESS, ctxt_id = 0; ssize_t ret; uint64_t match_bits, mask_bits; fi_addr_t remote_addr = ompi_mtl_ofi.any_addr; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; ompi_mtl_ofi_request_t *ofi_req = (ompi_mtl_ofi_request_t*) mtl_request; void *start; size_t length; bool free_after; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); if (ofi_cq_data) { if (MPI_ANY_SOURCE != src) { ompi_proc = ompi_comm_peer_lookup(comm, src); endpoint = ompi_mtl_ofi_get_endpoint(mtl, ompi_proc); remote_addr = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); } mtl_ofi_create_recv_tag_CQD(&match_bits, &mask_bits, comm->c_contextid, tag); } else { mtl_ofi_create_recv_tag(&match_bits, &mask_bits, comm->c_contextid, src, tag); /* src_addr is ignored when FI_DIRECTED_RECV is not used */ } ompi_ret = ompi_mtl_datatype_recv_buf(convertor, &start, &length, &free_after); if (OPAL_UNLIKELY(OMPI_SUCCESS != ompi_ret)) { return ompi_ret; } ofi_req->type = OMPI_MTL_OFI_RECV; ofi_req->event_callback = ompi_mtl_ofi_recv_callback; ofi_req->error_callback = ompi_mtl_ofi_recv_error_callback; ofi_req->comm = comm; ofi_req->buffer = (free_after) ? start : NULL; ofi_req->length = length; ofi_req->convertor = convertor; ofi_req->req_started = false; ofi_req->status.MPI_ERROR = OMPI_SUCCESS; ofi_req->remote_addr = remote_addr; ofi_req->match_bits = match_bits; MTL_OFI_RETRY_UNTIL_DONE(fi_trecv(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, start, length, NULL, remote_addr, match_bits, mask_bits, (void *)&ofi_req->ctx), ret); if (OPAL_UNLIKELY(0 > ret)) { if (NULL != ofi_req->buffer) { free(ofi_req->buffer); } MTL_OFI_LOG_FI_ERR(ret, "fi_trecv failed"); return ompi_mtl_ofi_get_error(ret); } return OMPI_SUCCESS; } /** * Called when a mrecv request completes. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_mrecv_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { struct mca_mtl_request_t *mrecv_req = ofi_req->mrecv_req; ompi_status_public_t *status = &mrecv_req->ompi_req->req_status; status->MPI_SOURCE = mtl_ofi_get_source(wc); status->MPI_TAG = MTL_OFI_GET_TAG(wc->tag); status->MPI_ERROR = MPI_SUCCESS; status->_ucount = wc->len; free(ofi_req); mrecv_req->completion_callback(mrecv_req); return OMPI_SUCCESS; } /** * Called when an error occured on a mrecv request. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_mrecv_error_callback(struct fi_cq_err_entry *error, ompi_mtl_ofi_request_t *ofi_req) { struct mca_mtl_request_t *mrecv_req = ofi_req->mrecv_req; ompi_status_public_t *status = &mrecv_req->ompi_req->req_status; status->MPI_TAG = MTL_OFI_GET_TAG(ofi_req->match_bits); status->MPI_SOURCE = mtl_ofi_get_source((struct fi_cq_tagged_entry *) error); switch (error->err) { case FI_ETRUNC: status->MPI_ERROR = MPI_ERR_TRUNCATE; break; case FI_ECANCELED: status->_cancelled = true; break; default: status->MPI_ERROR = MPI_ERR_INTERN; } free(ofi_req); mrecv_req->completion_callback(mrecv_req); return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_imrecv(struct mca_mtl_base_module_t *mtl, struct opal_convertor_t *convertor, struct ompi_message_t **message, struct mca_mtl_request_t *mtl_request) { ompi_mtl_ofi_request_t *ofi_req = (ompi_mtl_ofi_request_t *)(*message)->req_ptr; void *start; size_t length; bool free_after; struct iovec iov; struct fi_msg_tagged msg; int ompi_ret, ctxt_id = 0; ssize_t ret; uint64_t msgflags = FI_CLAIM | FI_COMPLETION; struct ompi_communicator_t *comm = (*message)->comm; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); ompi_ret = ompi_mtl_datatype_recv_buf(convertor, &start, &length, &free_after); if (OPAL_UNLIKELY(OMPI_SUCCESS != ompi_ret)) { return ompi_ret; } ofi_req->type = OMPI_MTL_OFI_RECV; ofi_req->event_callback = ompi_mtl_ofi_mrecv_callback; ofi_req->error_callback = ompi_mtl_ofi_mrecv_error_callback; ofi_req->buffer = (free_after) ? start : NULL; ofi_req->length = length; ofi_req->convertor = convertor; ofi_req->status.MPI_ERROR = OMPI_SUCCESS; ofi_req->mrecv_req = mtl_request; /** * fi_trecvmsg with FI_CLAIM */ iov.iov_base = start; iov.iov_len = length; msg.msg_iov = &iov; msg.desc = NULL; msg.iov_count = 1; msg.addr = 0; msg.tag = ofi_req->match_bits; msg.ignore = ofi_req->mask_bits; msg.context = (void *)&ofi_req->ctx; msg.data = 0; MTL_OFI_RETRY_UNTIL_DONE(fi_trecvmsg(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, &msg, msgflags), ret); if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, "fi_trecvmsg failed"); return ompi_mtl_ofi_get_error(ret); } return OMPI_SUCCESS; } /** * Called when a probe request completes. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_probe_callback(struct fi_cq_tagged_entry *wc, ompi_mtl_ofi_request_t *ofi_req) { ofi_req->match_state = 1; ofi_req->match_bits = wc->tag; ofi_req->status.MPI_SOURCE = mtl_ofi_get_source(wc); ofi_req->status.MPI_TAG = MTL_OFI_GET_TAG(wc->tag); ofi_req->status.MPI_ERROR = MPI_SUCCESS; ofi_req->status._ucount = wc->len; ofi_req->completion_count--; return OMPI_SUCCESS; } /** * Called when a probe request encounters an error. */ __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_probe_error_callback(struct fi_cq_err_entry *error, ompi_mtl_ofi_request_t *ofi_req) { ofi_req->status.MPI_ERROR = MPI_ERR_INTERN; ofi_req->completion_count--; return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_iprobe_generic(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, int *flag, struct ompi_status_public_t *status, bool ofi_cq_data) { struct ompi_mtl_ofi_request_t ofi_req; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; fi_addr_t remote_proc = ompi_mtl_ofi.any_addr; uint64_t match_bits, mask_bits; ssize_t ret; struct fi_msg_tagged msg; uint64_t msgflags = FI_PEEK | FI_COMPLETION; int ctxt_id = 0; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); if (ofi_cq_data) { /* If the source is known, use its peer_fiaddr. */ if (MPI_ANY_SOURCE != src) { ompi_proc = ompi_comm_peer_lookup( comm, src ); endpoint = ompi_mtl_ofi_get_endpoint(mtl, ompi_proc); remote_proc = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); } mtl_ofi_create_recv_tag_CQD(&match_bits, &mask_bits, comm->c_contextid, tag); } else { mtl_ofi_create_recv_tag(&match_bits, &mask_bits, comm->c_contextid, src, tag); /* src_addr is ignored when FI_DIRECTED_RECV is not used */ } /** * fi_trecvmsg with FI_PEEK: * Initiate a search for a match in the hardware or software queue. * The search can complete immediately with -ENOMSG. * If successful, libfabric will enqueue a context entry into the completion * queue to make the search nonblocking. This code will poll until the * entry is enqueued. */ msg.msg_iov = NULL; msg.desc = NULL; msg.iov_count = 0; msg.addr = remote_proc; msg.tag = match_bits; msg.ignore = mask_bits; msg.context = (void *)&ofi_req.ctx; msg.data = 0; ofi_req.type = OMPI_MTL_OFI_PROBE; ofi_req.event_callback = ompi_mtl_ofi_probe_callback; ofi_req.error_callback = ompi_mtl_ofi_probe_error_callback; ofi_req.completion_count = 1; ofi_req.match_state = 0; MTL_OFI_RETRY_UNTIL_DONE(fi_trecvmsg(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, &msg, msgflags), ret); if (-FI_ENOMSG == ret) { /** * The search request completed but no matching message was found. */ *flag = 0; return OMPI_SUCCESS; } else if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, "fi_trecvmsg failed"); return ompi_mtl_ofi_get_error(ret); } while (0 < ofi_req.completion_count) { opal_progress(); } *flag = ofi_req.match_state; if (1 == *flag) { if (MPI_STATUS_IGNORE != status) { *status = ofi_req.status; } } return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_improbe_generic(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, int *matched, struct ompi_message_t **message, struct ompi_status_public_t *status, bool ofi_cq_data) { struct ompi_mtl_ofi_request_t *ofi_req; ompi_proc_t *ompi_proc = NULL; mca_mtl_ofi_endpoint_t *endpoint = NULL; fi_addr_t remote_proc = ompi_mtl_ofi.any_addr; uint64_t match_bits, mask_bits; ssize_t ret; struct fi_msg_tagged msg; uint64_t msgflags = FI_PEEK | FI_CLAIM | FI_COMPLETION; int ctxt_id = 0; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(comm->c_contextid); set_thread_context(ctxt_id); ofi_req = malloc(sizeof *ofi_req); if (NULL == ofi_req) { return OMPI_ERROR; } /** * If the source is known, use its peer_fiaddr. */ if (ofi_cq_data) { if (MPI_ANY_SOURCE != src) { ompi_proc = ompi_comm_peer_lookup( comm, src ); endpoint = ompi_mtl_ofi_get_endpoint(mtl, ompi_proc); remote_proc = fi_rx_addr(endpoint->peer_fiaddr, ctxt_id, ompi_mtl_ofi.rx_ctx_bits); } mtl_ofi_create_recv_tag_CQD(&match_bits, &mask_bits, comm->c_contextid, tag); } else { /* src_addr is ignored when FI_DIRECTED_RECV is not used */ mtl_ofi_create_recv_tag(&match_bits, &mask_bits, comm->c_contextid, src, tag); } /** * fi_trecvmsg with FI_PEEK and FI_CLAIM: * Initiate a search for a match in the hardware or software queue. * The search can complete immediately with -ENOMSG. * If successful, libfabric will enqueue a context entry into the completion * queue to make the search nonblocking. This code will poll until the * entry is enqueued. */ msg.msg_iov = NULL; msg.desc = NULL; msg.iov_count = 0; msg.addr = remote_proc; msg.tag = match_bits; msg.ignore = mask_bits; msg.context = (void *)&ofi_req->ctx; msg.data = 0; ofi_req->type = OMPI_MTL_OFI_PROBE; ofi_req->event_callback = ompi_mtl_ofi_probe_callback; ofi_req->error_callback = ompi_mtl_ofi_probe_error_callback; ofi_req->completion_count = 1; ofi_req->match_state = 0; ofi_req->mask_bits = mask_bits; MTL_OFI_RETRY_UNTIL_DONE(fi_trecvmsg(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, &msg, msgflags), ret); if (-FI_ENOMSG == ret) { /** * The search request completed but no matching message was found. */ *matched = 0; free(ofi_req); return OMPI_SUCCESS; } else if (OPAL_UNLIKELY(0 > ret)) { MTL_OFI_LOG_FI_ERR(ret, "fi_trecvmsg failed"); free(ofi_req); return ompi_mtl_ofi_get_error(ret); } while (0 < ofi_req->completion_count) { opal_progress(); } *matched = ofi_req->match_state; if (1 == *matched) { if (MPI_STATUS_IGNORE != status) { *status = ofi_req->status; } (*message) = ompi_message_alloc(); if (NULL == (*message)) { return OMPI_ERR_OUT_OF_RESOURCE; } (*message)->comm = comm; (*message)->req_ptr = ofi_req; (*message)->peer = ofi_req->status.MPI_SOURCE; (*message)->count = ofi_req->status._ucount; } else { (*message) = MPI_MESSAGE_NULL; free(ofi_req); } return OMPI_SUCCESS; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_cancel(struct mca_mtl_base_module_t *mtl, mca_mtl_request_t *mtl_request, int flag) { int ret, ctxt_id = 0; ompi_mtl_ofi_request_t *ofi_req = (ompi_mtl_ofi_request_t*) mtl_request; ctxt_id = ompi_mtl_ofi_map_comm_to_ctxt(ofi_req->comm->c_contextid); switch (ofi_req->type) { case OMPI_MTL_OFI_SEND: /** * Cannot cancel sends yet */ break; case OMPI_MTL_OFI_RECV: /** * Cancel a receive request only if it hasn't been matched yet. * The event queue needs to be drained to make sure there isn't * any pending receive completion event. */ ompi_mtl_ofi_progress(); if (!ofi_req->req_started) { ret = fi_cancel((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, &ofi_req->ctx); if (0 == ret) { if (ofi_req->req_started) goto ofi_cancel_not_possible; } else { ofi_cancel_not_possible: /** * Could not cancel the request. */ ofi_req->super.ompi_req->req_status._cancelled = false; } } break; default: return OMPI_ERROR; } return OMPI_SUCCESS; } static int ompi_mtl_ofi_init_contexts(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, mca_mtl_ofi_ep_type ep_type) { int ret; int ctxt_id = ompi_mtl_ofi.total_ctxts_used; struct fi_cq_attr cq_attr = {0}; cq_attr.format = FI_CQ_FORMAT_TAGGED; cq_attr.size = ompi_mtl_ofi.ofi_progress_event_count; if (OFI_REGULAR_EP == ep_type) { /* * For regular endpoints, just create the Lock object and register * progress function. */ goto init_regular_ep; } /* * We only create upto Max number of contexts asked for by the user. * If user enables thread grouping feature and creates more number of * communicators than available contexts, then we set the threshold * context_id so that new communicators created beyond the threshold * will be assigned to contexts in a round-robin fashion. */ if (ompi_mtl_ofi.num_ofi_contexts <= ompi_mtl_ofi.total_ctxts_used) { ompi_mtl_ofi.comm_to_context[comm->c_contextid] = comm->c_contextid % ompi_mtl_ofi.total_ctxts_used; if (!ompi_mtl_ofi.threshold_comm_context_id) { ompi_mtl_ofi.threshold_comm_context_id = comm->c_contextid; opal_show_help("help-mtl-ofi.txt", "SEP thread grouping ctxt limit", true, ctxt_id, ompi_process_info.nodename, __FILE__, __LINE__); } return OMPI_SUCCESS; } /* Init context info for Scalable EPs */ ret = fi_tx_context(ompi_mtl_ofi.sep, ctxt_id, NULL, &ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, NULL); if (ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_tx_context failed"); goto init_error; } ret = fi_rx_context(ompi_mtl_ofi.sep, ctxt_id, NULL, &ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, NULL); if (ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_rx_context failed"); goto init_error; } ret = fi_cq_open(ompi_mtl_ofi.domain, &cq_attr, &ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq, NULL); if (ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_cq_open failed"); goto init_error; } /* Bind CQ to TX/RX context object */ ret = fi_ep_bind(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep, (fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq, FI_TRANSMIT | FI_SELECTIVE_COMPLETION); if (0 != ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_bind CQ-EP (FI_TRANSMIT) failed"); goto init_error; } ret = fi_ep_bind(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep, (fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq, FI_RECV | FI_SELECTIVE_COMPLETION); if (0 != ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_bind CQ-EP (FI_RECV) failed"); goto init_error; } /* Enable Endpoint for communication. This commits the bind operations */ ret = fi_enable(ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep); if (0 != ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_enable (send context) failed"); goto init_error; } ret = fi_enable(ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep); if (0 != ret) { MTL_OFI_LOG_FI_ERR(ret, "fi_enable (recv context) failed"); goto init_error; } init_regular_ep: /* Initialize per-context lock */ OBJ_CONSTRUCT(&ompi_mtl_ofi.ofi_ctxt[ctxt_id].context_lock, opal_mutex_t); if (MPI_COMM_WORLD == comm) { ret = opal_progress_register(ompi_mtl_ofi_progress_no_inline); if (OMPI_SUCCESS != ret) { opal_output_verbose(1, ompi_mtl_base_framework.framework_output, "%s:%d: opal_progress_register failed: %d\n", __FILE__, __LINE__, ret); goto init_error; } } ompi_mtl_ofi.comm_to_context[comm->c_contextid] = ompi_mtl_ofi.total_ctxts_used; ompi_mtl_ofi.total_ctxts_used++; return OMPI_SUCCESS; init_error: if (ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep) { (void) fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep); } if (ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep) { (void) fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep); } if (ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq) { (void) fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq); } return ret; } static int ompi_mtl_ofi_finalize_contexts(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, mca_mtl_ofi_ep_type ep_type) { int ret = OMPI_SUCCESS, ctxt_id = 0; if (OFI_REGULAR_EP == ep_type) { /* For regular EPs, simply destruct Lock object and exit */ goto finalize_regular_ep; } if (ompi_mtl_ofi.thread_grouping && ompi_mtl_ofi.threshold_comm_context_id && ((uint32_t) ompi_mtl_ofi.threshold_comm_context_id <= comm->c_contextid)) { return OMPI_SUCCESS; } ctxt_id = ompi_mtl_ofi.thread_grouping ? ompi_mtl_ofi.comm_to_context[comm->c_contextid] : 0; /* * For regular EPs, TX/RX contexts are aliased to SEP object which is * closed in ompi_mtl_ofi_finalize(). So, skip handling those here. */ if ((ret = fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].tx_ep))) { goto finalize_err; } if ((ret = fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].rx_ep))) { goto finalize_err; } if ((ret = fi_close((fid_t)ompi_mtl_ofi.ofi_ctxt[ctxt_id].cq))) { goto finalize_err; } finalize_regular_ep: /* Destroy context lock */ OBJ_DESTRUCT(&ompi_mtl_ofi.ofi_ctxt[ctxt_id].context_lock); return OMPI_SUCCESS; finalize_err: opal_show_help("help-mtl-ofi.txt", "OFI call fail", true, "fi_close", ompi_process_info.nodename, __FILE__, __LINE__, fi_strerror(-ret), ret); return OMPI_ERROR; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_add_comm(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm) { int ret; mca_mtl_ofi_ep_type ep_type = (0 == ompi_mtl_ofi.enable_sep) ? OFI_REGULAR_EP : OFI_SCALABLE_EP; /* * If thread grouping enabled, add new OFI context for each communicator * other than MPI_COMM_SELF. */ if ((ompi_mtl_ofi.thread_grouping && (MPI_COMM_SELF != comm)) || /* If no thread grouping, add new OFI context only * for MPI_COMM_WORLD. */ (!ompi_mtl_ofi.thread_grouping && (MPI_COMM_WORLD == comm))) { ret = ompi_mtl_ofi_init_contexts(mtl, comm, ep_type); if (OMPI_SUCCESS != ret) { goto error; } } return OMPI_SUCCESS; error: return OMPI_ERROR; } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_del_comm(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm) { int ret = OMPI_SUCCESS; mca_mtl_ofi_ep_type ep_type = (0 == ompi_mtl_ofi.enable_sep) ? OFI_REGULAR_EP : OFI_SCALABLE_EP; /* * Clean up OFI contexts information. */ if ((ompi_mtl_ofi.thread_grouping && (MPI_COMM_SELF != comm)) || (!ompi_mtl_ofi.thread_grouping && (MPI_COMM_WORLD == comm))) { ret = ompi_mtl_ofi_finalize_contexts(mtl, comm, ep_type); } return ret; } #ifdef MCA_ompi_mtl_DIRECT_CALL __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_send(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int dest, int tag, struct opal_convertor_t *convertor, mca_pml_base_send_mode_t mode) { return ompi_mtl_ofi_send_generic(mtl, comm, dest, tag, convertor, mode, ompi_mtl_ofi.fi_cq_data); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_isend(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int dest, int tag, struct opal_convertor_t *convertor, mca_pml_base_send_mode_t mode, bool blocking, mca_mtl_request_t *mtl_request) { return ompi_mtl_ofi_isend_generic(mtl, comm, dest, tag, convertor, mode, blocking, mtl_request, ompi_mtl_ofi.fi_cq_data); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_irecv(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, struct opal_convertor_t *convertor, mca_mtl_request_t *mtl_request) { return ompi_mtl_ofi_irecv_generic(mtl, comm, src, tag, convertor, mtl_request, ompi_mtl_ofi.fi_cq_data); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_iprobe(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, int *flag, struct ompi_status_public_t *status) { return ompi_mtl_ofi_iprobe_generic(mtl, comm, src, tag, flag, status, ompi_mtl_ofi.fi_cq_data); } __opal_attribute_always_inline__ static inline int ompi_mtl_ofi_improbe(struct mca_mtl_base_module_t *mtl, struct ompi_communicator_t *comm, int src, int tag, int *matched, struct ompi_message_t **message, struct ompi_status_public_t *status) { return ompi_mtl_ofi_improbe_generic(mtl, comm, src, tag, matched, message, status, ompi_mtl_ofi.fi_cq_data); } #endif END_C_DECLS #endif /* MTL_OFI_H_HAS_BEEN_INCLUDED */