/* * Copyright (c) 2004-2006 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include "ompi/mca/mtl/mtl.h" #include "ompi/communicator/communicator.h" #include "opal/class/opal_list.h" #include "mtl_portals.h" #include "mtl_portals_endpoint.h" #include "mtl_portals_request.h" #include "mtl_portals_recv_short.h" mca_mtl_portals_module_t ompi_mtl_portals = { { 8191, /* max cid - 2^13 - 1 */ (1UL << 30), /* max tag value - must allow negatives */ 0, /* request reserve space */ 0, /* flags */ ompi_mtl_portals_add_procs, ompi_mtl_portals_del_procs, ompi_mtl_portals_finalize, NULL, ompi_mtl_portals_isend, ompi_mtl_portals_irecv, ompi_mtl_portals_iprobe, NULL /* cancel */ } }; /* BWB - fix me - this should be an ompi_free_list_item_t */ OBJ_CLASS_INSTANCE(ompi_mtl_portals_event_t, opal_list_item_t, NULL, NULL); int ompi_mtl_portals_add_procs(struct mca_mtl_base_module_t *mtl, size_t nprocs, struct ompi_proc_t** procs, struct mca_mtl_base_endpoint_t **mtl_peer_data) { int ret = OMPI_SUCCESS; ptl_process_id_t *portals_procs = NULL; size_t i; assert(mtl == &ompi_mtl_portals.base); /* if we havne't already initialized the network, do so now. We delay until add_procs because if we want the automatic runtime environment setup the common code does for the utcp implementation, we can't do it until modex information can be received. */ if (PTL_INVALID_HANDLE == ompi_mtl_portals.ptl_ni_h) { ptl_md_t md; ptl_handle_md_t md_h; ptl_process_id_t ptlproc; uint64_t match_bits = 0; ret = ompi_common_portals_ni_initialize(&(ompi_mtl_portals.ptl_ni_h)); if (OMPI_SUCCESS != ret) goto cleanup; /* initialize the event queues */ ret = PtlEQAlloc(ompi_mtl_portals.ptl_ni_h, ompi_mtl_portals.ptl_expected_queue_size, PTL_EQ_HANDLER_NONE, &(ompi_mtl_portals.ptl_eq_h)); assert(ret == PTL_OK); ret = PtlEQAlloc(ompi_mtl_portals.ptl_ni_h, ompi_mtl_portals.ptl_unexpected_queue_size, PTL_EQ_HANDLER_NONE, &(ompi_mtl_portals.ptl_unexpected_recv_eq_h)); assert(ret == PTL_OK); /* create insertion point for matched receives */ ptlproc.nid = 0; ptlproc.pid = 0; ret = PtlMEAttach(ompi_mtl_portals.ptl_ni_h, OMPI_MTL_PORTALS_SEND_TABLE_ID, ptlproc, ~match_bits, match_bits, PTL_RETAIN, PTL_INS_AFTER, &(ompi_mtl_portals.ptl_match_ins_me_h)); assert(ret == PTL_OK); /* create unexpected message match entry */ ptlproc.nid = PTL_NID_ANY; ptlproc.pid = PTL_PID_ANY; /* unexpected message match entry should receive from anyone, so ignore bits are all 1 */ ret = PtlMEInsert(ompi_mtl_portals.ptl_match_ins_me_h, ptlproc, match_bits, ~match_bits, PTL_RETAIN, PTL_INS_AFTER, &(ompi_mtl_portals.ptl_unexpected_me_h)); assert(ret == PTL_OK); md.start = NULL; md.length = 0; md.threshold = PTL_MD_THRESH_INF; md.max_size = 0; md.options = (PTL_MD_OP_PUT | PTL_MD_TRUNCATE | PTL_MD_ACK_DISABLE); md.eq_handle = ompi_mtl_portals.ptl_unexpected_recv_eq_h; ret = PtlMDAttach(ompi_mtl_portals.ptl_unexpected_me_h, md, PTL_RETAIN, &md_h); assert(ret == PTL_OK); ret = ompi_mtl_portals_recv_short_enable((mca_mtl_portals_module_t*) mtl); opal_progress_register(ompi_mtl_portals_progress); } /* get the list of ptl_process_id_t structures for the given proc structures. If the Portals runtime environment supports comm_spawn, we'll be able to support it as well. */ portals_procs = malloc(sizeof(ptl_process_id_t) * nprocs); if (NULL == portals_procs) goto cleanup; ret = ompi_common_portals_get_procs(nprocs, procs, portals_procs); if (OMPI_SUCCESS != ret) goto cleanup; /* copy the ptl_process_id_t information into our per-proc data store */ for (i = 0 ; i < nprocs ; ++i) { mtl_peer_data[i] = malloc(sizeof(struct mca_mtl_base_endpoint_t)); if (NULL == mtl_peer_data[i]) goto cleanup; mtl_peer_data[i]->ptl_proc.nid = portals_procs[i].nid; mtl_peer_data[i]->ptl_proc.pid = portals_procs[i].pid; } cleanup: if (NULL != portals_procs) free(portals_procs); return ret; } int ompi_mtl_portals_del_procs(struct mca_mtl_base_module_t *mtl, size_t nprocs, struct ompi_proc_t** procs, struct mca_mtl_base_endpoint_t **mtl_peer_data) { size_t i; assert(mtl == &ompi_mtl_portals.base); for (i = 0 ; i < nprocs ; ++i) { if (NULL != mtl_peer_data[i]) { free(mtl_peer_data[i]); } } return OMPI_SUCCESS; } int ompi_mtl_portals_finalize(struct mca_mtl_base_module_t *mtl) { assert(mtl == &ompi_mtl_portals.base); ompi_mtl_portals_recv_short_disable((mca_mtl_portals_module_t *) mtl); opal_progress_unregister(ompi_mtl_portals_progress); while (0 != ompi_mtl_portals_progress()) { } ompi_common_portals_ni_finalize(); ompi_common_portals_finalize(); return OMPI_SUCCESS; } int ompi_mtl_portals_progress(void) { int count = 0, ret; ptl_event_t ev; ompi_mtl_portals_request_t *ptl_request; while (true) { ret = PtlEQGet(ompi_mtl_portals.ptl_eq_h, &ev); if (PTL_OK == ret) { if (ev.type == PTL_EVENT_UNLINK) continue; if (NULL != ev.md.user_ptr) { ptl_request = ev.md.user_ptr; ret = ptl_request->event_callback(&ev, ptl_request); if (OMPI_SUCCESS != ret) { opal_output(stderr," Error returned from the even callback. Error code - %d \n",ret); abort(); } } } else if (PTL_EQ_EMPTY == ret) { break; } else { opal_output(stderr," Error returned from PtlEQGet. Error code - %d \n",ret); abort(); } } return count; }