6a5e039466
id based on the last half of the mapper MAC. This allow us to figure out how to connect peers. This allow the MX BTL to be used in a cluster of cluster configuration where each cluster have MX internally as well as on a multi rail MX system. This commit was SVN r14932.
539 строки
18 KiB
C
539 строки
18 KiB
C
/*
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* Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana
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* University Research and Technology
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* Corporation. All rights reserved.
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* Copyright (c) 2004-2007 The University of Tennessee and The University
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* of Tennessee Research Foundation. All rights
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* reserved.
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* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
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* University of Stuttgart. All rights reserved.
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* Copyright (c) 2004-2005 The Regents of the University of California.
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* All rights reserved.
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* $COPYRIGHT$
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*
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* Additional copyrights may follow
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*
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* $HEADER$
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*/
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#include "ompi_config.h"
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#include "opal/util/if.h"
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#include "btl_mx.h"
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#include "btl_mx_frag.h"
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#include "btl_mx_proc.h"
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#include "btl_mx_endpoint.h"
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#include "ompi/datatype/convertor.h"
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#include "opal/prefetch.h"
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/**
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*
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*/
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int mca_btl_mx_add_procs( struct mca_btl_base_module_t* btl,
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size_t nprocs,
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struct ompi_proc_t** ompi_procs,
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struct mca_btl_base_endpoint_t** peers,
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ompi_bitmap_t* reachable )
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*)btl;
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int i, rc;
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for( i = 0; i < (int) nprocs; i++ ) {
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struct ompi_proc_t* ompi_proc = ompi_procs[i];
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mca_btl_mx_proc_t* mx_proc;
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mca_btl_base_endpoint_t* mx_endpoint;
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/**
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* By default don't allow communications with self nor with any
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* other processes on the same node. The BTL self and sm are
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* supposed to take care of such communications.
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*/
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if( ompi_procs[i]->proc_flags & OMPI_PROC_FLAG_LOCAL ) {
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if( ompi_procs[i] == ompi_proc_local_proc ) {
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if( 0 == mca_btl_mx_component.mx_support_self )
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continue;
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} else {
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if( 0 == mca_btl_mx_component.mx_support_sharedmem )
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continue;
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}
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}
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if( NULL == (mx_proc = mca_btl_mx_proc_create(ompi_proc)) ) {
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continue;
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}
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OPAL_THREAD_LOCK(&mx_proc->proc_lock);
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/* The btl_proc datastructure is shared by all MX BTL
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* instances that are trying to reach this destination.
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* Cache the peer instance on the btl_proc.
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*/
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mx_endpoint = OBJ_NEW(mca_btl_mx_endpoint_t);
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if(NULL == mx_endpoint) {
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OPAL_THREAD_UNLOCK(&mx_proc->proc_lock);
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return OMPI_ERR_OUT_OF_RESOURCE;
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}
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mx_endpoint->endpoint_btl = mx_btl;
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rc = mca_btl_mx_proc_insert( mx_proc, mx_endpoint );
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if( rc != OMPI_SUCCESS ) {
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OBJ_RELEASE(mx_endpoint);
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OBJ_RELEASE(mx_proc);
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OPAL_THREAD_UNLOCK(&mx_proc->proc_lock);
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continue;
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}
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ompi_bitmap_set_bit(reachable, i);
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OPAL_THREAD_UNLOCK(&mx_proc->proc_lock);
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peers[i] = mx_endpoint;
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}
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return OMPI_SUCCESS;
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}
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int mca_btl_mx_del_procs( struct mca_btl_base_module_t* btl,
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size_t nprocs,
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struct ompi_proc_t** procs,
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struct mca_btl_base_endpoint_t** peers )
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{
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opal_output( 0, "MX BTL delete procs\n" );
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/* TODO */
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return OMPI_SUCCESS;
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}
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/**
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* Register callback function to support send/recv semantics
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*/
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int mca_btl_mx_register( struct mca_btl_base_module_t* btl,
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mca_btl_base_tag_t tag,
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mca_btl_base_module_recv_cb_fn_t cbfunc,
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void* cbdata )
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*) btl;
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mx_btl->mx_reg[tag].cbfunc = cbfunc;
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mx_btl->mx_reg[tag].cbdata = cbdata;
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if( (NULL != cbfunc) && ( 0 == mca_btl_mx_component.mx_use_unexpected) ) {
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mca_btl_mx_frag_t* frag;
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mx_return_t mx_return;
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mx_segment_t mx_segment;
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int i, rc;
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/* Post the receives if there is no unexpected handler */
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for( i = 0; i < mca_btl_mx_component.mx_max_posted_recv; i++ ) {
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MCA_BTL_MX_FRAG_ALLOC_EAGER( mx_btl, frag, rc );
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if( NULL == frag ) {
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opal_output( 0, "mca_btl_mx_register: unable to allocate more eager fragments\n" );
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if( 0 == i ) {
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return OMPI_ERROR;
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}
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break; /* some fragments are already registered. Try to continue... */
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}
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frag->base.des_dst = frag->segment;
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frag->base.des_dst_cnt = 1;
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frag->base.des_src = NULL;
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frag->base.des_src_cnt = 0;
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frag->mx_frag_list = NULL;
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frag->tag = tag;
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mx_segment.segment_ptr = (void*)(frag+1);
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mx_segment.segment_length = mx_btl->super.btl_eager_limit;
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mx_return = mx_irecv( mx_btl->mx_endpoint, &mx_segment, 1, (uint64_t)tag,
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BTL_MX_RECV_MASK,
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frag, &(frag->mx_request) );
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if( MX_SUCCESS != mx_return ) {
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opal_output( 0, "mca_btl_mx_register: mx_irecv failed with status %d (%s)\n",
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mx_return, mx_strerror(mx_return) );
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MCA_BTL_MX_FRAG_RETURN( mx_btl, frag );
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return OMPI_ERROR;
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}
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}
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}
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return OMPI_SUCCESS;
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}
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/**
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* Allocate a segment.
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*
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* @param btl (IN) BTL module
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* @param size (IN) Request segment size.
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*/
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mca_btl_base_descriptor_t* mca_btl_mx_alloc( struct mca_btl_base_module_t* btl,
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uint8_t order,
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size_t size )
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*) btl;
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mca_btl_mx_frag_t* frag;
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int rc;
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MCA_BTL_MX_FRAG_ALLOC_EAGER(mx_btl, frag, rc);
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if( OPAL_UNLIKELY(NULL == frag) ) {
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return NULL;
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}
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frag->segment[0].seg_len =
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size <= mx_btl->super.btl_eager_limit ?
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size : mx_btl->super.btl_eager_limit ;
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frag->segment[0].seg_addr.pval = (void*)(frag+1);
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frag->base.des_src = frag->segment;
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frag->base.des_src_cnt = 1;
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frag->base.des_flags = 0;
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frag->base.order = MCA_BTL_NO_ORDER;
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return (mca_btl_base_descriptor_t*)frag;
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}
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/**
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* Return a segment
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*/
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int mca_btl_mx_free( struct mca_btl_base_module_t* btl,
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mca_btl_base_descriptor_t* des )
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{
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mca_btl_mx_frag_t* frag = (mca_btl_mx_frag_t*)des;
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assert( 0xff == frag->tag );
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MCA_BTL_MX_FRAG_RETURN(btl, frag);
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return OMPI_SUCCESS;
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}
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/**
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* Pack data and return a descriptor that can be
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* used for send/put.
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*
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* @param btl (IN) BTL module
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* @param peer (IN) BTL peer addressing
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*/
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mca_btl_base_descriptor_t*
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mca_btl_mx_prepare_src( struct mca_btl_base_module_t* btl,
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struct mca_btl_base_endpoint_t* endpoint,
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struct mca_mpool_base_registration_t* registration,
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struct ompi_convertor_t* convertor,
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uint8_t order,
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size_t reserve,
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size_t* size )
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{
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mca_btl_mx_frag_t* frag;
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struct iovec iov;
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uint32_t iov_count = 1;
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size_t max_data;
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int rc;
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max_data = btl->btl_eager_limit - reserve;
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if( (*size) < max_data ) {
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max_data = *size;
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}
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/* If the data is contiguous we can use directly the pointer
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* to the user memory.
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*/
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if( 0 == ompi_convertor_need_buffers(convertor) ) {
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/**
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* let the convertor figure out the correct pointer depending
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* on the data layout
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*/
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iov.iov_base = NULL;
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if( 0 == reserve ) {
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MCA_BTL_MX_FRAG_ALLOC_USER(btl, frag, rc);
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if( OPAL_UNLIKELY(NULL == frag) ) {
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return NULL;
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}
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max_data = *size;
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frag->base.des_src_cnt = 1;
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} else {
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MCA_BTL_MX_FRAG_ALLOC_EAGER( mx_btl, frag, rc );
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if( OPAL_UNLIKELY(NULL == frag) ) {
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return NULL;
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}
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frag->base.des_src_cnt = 2;
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}
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} else {
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MCA_BTL_MX_FRAG_ALLOC_EAGER( mx_btl, frag, rc );
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if( OPAL_UNLIKELY(NULL == frag) ) {
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return NULL;
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}
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frag->base.des_src_cnt = 1;
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iov.iov_base = (void*)((unsigned char*)frag->segment[0].seg_addr.pval + reserve);
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}
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iov.iov_len = max_data;
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(void)ompi_convertor_pack(convertor, &iov, &iov_count, &max_data );
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*size = max_data;
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if( 1 == frag->base.des_src_cnt ) {
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frag->segment[0].seg_len = reserve + max_data;
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if( 0 == reserve )
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frag->segment[0].seg_addr.pval = iov.iov_base;
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} else {
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frag->segment[0].seg_len = reserve;
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frag->segment[1].seg_len = max_data;
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frag->segment[1].seg_addr.pval = iov.iov_base;
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}
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frag->base.des_src = frag->segment;
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frag->base.order = MCA_BTL_NO_ORDER;
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return &frag->base;
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}
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/**
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* Prepare a descriptor for send/rdma using the supplied
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* convertor. If the convertor references data that is contigous,
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* the descriptor may simply point to the user buffer. Otherwise,
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* this routine is responsible for allocating buffer space and
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* packing if required.
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*
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* @param btl (IN) BTL module
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* @param endpoint (IN) BTL peer addressing
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* @param convertor (IN) Data type convertor
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* @param reserve (IN) Additional bytes requested by upper layer to precede user data
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* @param size (IN/OUT) Number of bytes to prepare (IN), number of bytes actually prepared (OUT)
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*/
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mca_btl_base_descriptor_t* mca_btl_mx_prepare_dst( struct mca_btl_base_module_t* btl,
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struct mca_btl_base_endpoint_t* endpoint,
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struct mca_mpool_base_registration_t* registration,
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struct ompi_convertor_t* convertor,
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uint8_t order,
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size_t reserve,
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size_t* size)
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*)btl;
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mca_btl_mx_frag_t* frag;
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mx_return_t mx_return;
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mx_segment_t mx_segment;
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int rc;
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MCA_BTL_MX_FRAG_ALLOC_USER(btl, frag, rc);
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if( OPAL_UNLIKELY(NULL == frag) ) {
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return NULL;
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}
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frag->segment[0].seg_len = *size;
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ompi_convertor_get_current_pointer( convertor, (void**)&(frag->segment[0].seg_addr.pval) );
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frag->segment[0].seg_key.key64 = (uint64_t)(intptr_t)frag;
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mx_segment.segment_ptr = frag->segment[0].seg_addr.pval;
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mx_segment.segment_length = frag->segment[0].seg_len;
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mx_return = mx_irecv( mx_btl->mx_endpoint, &mx_segment, 1, frag->segment[0].seg_key.key64,
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BTL_MX_PUT_MASK, NULL, &(frag->mx_request) );
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if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) ) {
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opal_output( 0, "Fail to re-register a fragment with the MX NIC ...\n" );
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MCA_BTL_MX_FRAG_RETURN( btl, frag );
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return NULL;
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}
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/* Allow the fragment to be recycled using the mca_btl_mx_free function */
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frag->tag = 0xff;
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frag->base.des_dst = frag->segment;
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frag->base.des_dst_cnt = 1;
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frag->base.order = MCA_BTL_NO_ORDER;
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return &frag->base;
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}
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/**
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* Initiate an asynchronous put.
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*
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* @param btl (IN) BTL module
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* @param endpoint (IN) BTL addressing information
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* @param descriptor (IN) Description of the data to be transferred
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*/
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static int mca_btl_mx_put( struct mca_btl_base_module_t* btl,
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struct mca_btl_base_endpoint_t* endpoint,
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struct mca_btl_base_descriptor_t* descriptor )
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*)btl;
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mca_btl_mx_frag_t* frag = (mca_btl_mx_frag_t*)descriptor;
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mx_segment_t mx_segment[2];
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mx_return_t mx_return;
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uint32_t i = 0;
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if( OPAL_UNLIKELY(MCA_BTL_MX_CONNECTED != ((mca_btl_mx_endpoint_t*)endpoint)->status) ) {
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if( MCA_BTL_MX_NOT_REACHEABLE == ((mca_btl_mx_endpoint_t*)endpoint)->status )
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return OMPI_ERROR;
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if( MCA_BTL_MX_CONNECTION_PENDING == ((mca_btl_mx_endpoint_t*)endpoint)->status )
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return OMPI_ERR_OUT_OF_RESOURCE;
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if( OMPI_SUCCESS != mca_btl_mx_proc_connect( (mca_btl_mx_endpoint_t*)endpoint ) )
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return OMPI_ERROR;
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}
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frag->endpoint = endpoint;
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frag->tag = 0xff;
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do {
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mx_segment[i].segment_ptr = descriptor->des_src[i].seg_addr.pval;
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mx_segment[i].segment_length = descriptor->des_src[i].seg_len;
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} while (++i < descriptor->des_src_cnt);
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mx_return = mx_isend( mx_btl->mx_endpoint, mx_segment, descriptor->des_src_cnt,
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endpoint->mx_peer_addr,
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descriptor->des_dst[0].seg_key.key64, frag, &frag->mx_request );
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if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) ) {
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opal_output( 0, "mx_isend fails with error %s\n", mx_strerror(mx_return) );
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return OMPI_ERROR;
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}
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return OMPI_SUCCESS;
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}
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/**
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* Initiate an asynchronous send.
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*
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* @param btl (IN) BTL module
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* @param endpoint (IN) BTL addressing information
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* @param descriptor (IN) Description of the data to be transfered
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* @param tag (IN) The tag value used to notify the peer.
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*/
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int mca_btl_mx_send( struct mca_btl_base_module_t* btl,
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struct mca_btl_base_endpoint_t* endpoint,
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struct mca_btl_base_descriptor_t* descriptor,
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mca_btl_base_tag_t tag )
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{
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mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*)btl;
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mca_btl_mx_frag_t* frag = (mca_btl_mx_frag_t*)descriptor;
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mx_segment_t mx_segment[2];
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mx_return_t mx_return;
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uint64_t total_length = 0;
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uint32_t i = 0;
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if( OPAL_UNLIKELY(MCA_BTL_MX_CONNECTED != ((mca_btl_mx_endpoint_t*)endpoint)->status) ) {
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if( MCA_BTL_MX_NOT_REACHEABLE == ((mca_btl_mx_endpoint_t*)endpoint)->status )
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return OMPI_ERROR;
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if( MCA_BTL_MX_CONNECTION_PENDING == ((mca_btl_mx_endpoint_t*)endpoint)->status )
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return OMPI_ERR_OUT_OF_RESOURCE;
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if( OMPI_SUCCESS != mca_btl_mx_proc_connect( (mca_btl_mx_endpoint_t*)endpoint ) )
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return OMPI_ERROR;
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}
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frag->endpoint = endpoint;
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frag->tag = 0xff;
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do {
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mx_segment[i].segment_ptr = descriptor->des_src[i].seg_addr.pval;
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mx_segment[i].segment_length = descriptor->des_src[i].seg_len;
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total_length += descriptor->des_src[i].seg_len;
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} while (++i < descriptor->des_src_cnt);
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mx_return = mx_isend( mx_btl->mx_endpoint, mx_segment, descriptor->des_src_cnt, endpoint->mx_peer_addr,
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(uint64_t)tag, frag, &frag->mx_request );
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if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) ) {
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opal_output( 0, "mx_isend fails with error %s\n", mx_strerror(mx_return) );
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return OMPI_ERROR;
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}
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#if MX_HAVE_FORGET
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{
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uint32_t mx_result;
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mx_return = mx_ibuffered( mx_btl->mx_endpoint, &(frag->mx_request), &mx_result );
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if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) ) {
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opal_output( 0, "mx_ibuffered failed with error %d (%s)\n",
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mx_return, mx_strerror(mx_return) );
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return OMPI_ERROR;
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}
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if( mx_result ) {
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mx_return = mx_forget( mx_btl->mx_endpoint, &(frag->mx_request) );
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frag->base.des_cbfunc( &(mx_btl->super), frag->endpoint, &(frag->base), OMPI_SUCCESS);
|
|
if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) ) {
|
|
opal_output( 0, "mx_forget failed with error %d (%s)\n",
|
|
mx_return, mx_strerror(mx_return) );
|
|
return OMPI_ERROR;
|
|
}
|
|
return OMPI_SUCCESS;
|
|
}
|
|
}
|
|
#endif
|
|
if( 4096 > total_length ) {
|
|
mx_status_t mx_status;
|
|
uint32_t mx_result;
|
|
|
|
/* let's check for completness */
|
|
mx_return = mx_test( mx_btl->mx_endpoint, &(frag->mx_request), &mx_status, &mx_result );
|
|
if( OPAL_UNLIKELY(MX_SUCCESS != mx_return) )
|
|
return OMPI_SUCCESS;
|
|
/* call the completion callback */
|
|
if( mx_result ) {
|
|
frag->base.des_cbfunc( &(mx_btl->super), frag->endpoint, &(frag->base), OMPI_SUCCESS);
|
|
return OMPI_SUCCESS;
|
|
}
|
|
}
|
|
|
|
return OMPI_SUCCESS;
|
|
}
|
|
|
|
|
|
/*
|
|
* Cleanup/release module resources.
|
|
*/
|
|
|
|
int mca_btl_mx_finalize( struct mca_btl_base_module_t* btl )
|
|
{
|
|
mca_btl_mx_module_t* mx_btl = (mca_btl_mx_module_t*) btl;
|
|
|
|
if( NULL != mx_btl->mx_endpoint )
|
|
mx_close_endpoint(mx_btl->mx_endpoint);
|
|
|
|
OBJ_DESTRUCT( &mx_btl->mx_lock );
|
|
OBJ_DESTRUCT( &mx_btl->mx_peers );
|
|
free(mx_btl);
|
|
return OMPI_SUCCESS;
|
|
}
|
|
|
|
|
|
int mca_btl_mx_ft_event(int state) {
|
|
if(OPAL_CRS_CHECKPOINT == state) {
|
|
;
|
|
}
|
|
else if(OPAL_CRS_CONTINUE == state) {
|
|
;
|
|
}
|
|
else if(OPAL_CRS_RESTART == state) {
|
|
;
|
|
}
|
|
else if(OPAL_CRS_TERM == state ) {
|
|
;
|
|
}
|
|
else {
|
|
;
|
|
}
|
|
|
|
return OMPI_SUCCESS;
|
|
}
|
|
|
|
mca_btl_mx_module_t mca_btl_mx_module = {
|
|
{
|
|
&mca_btl_mx_component.super,
|
|
0, /* max size of first fragment */
|
|
0, /* min send fragment size */
|
|
0, /* max send fragment size */
|
|
0, /* btl_rdma_pipeline_offset */
|
|
0, /* btl_rdma_pipeline_frag_size */
|
|
0, /* btl_min_rdma_pipeline_size */
|
|
0, /* exclusivity */
|
|
0, /* latency */
|
|
0, /* bandwidth */
|
|
MCA_BTL_FLAGS_SEND_INPLACE | MCA_BTL_FLAGS_PUT, /* flags */
|
|
mca_btl_mx_add_procs,
|
|
mca_btl_mx_del_procs,
|
|
mca_btl_mx_register,
|
|
mca_btl_mx_finalize,
|
|
mca_btl_mx_alloc,
|
|
mca_btl_mx_free,
|
|
mca_btl_mx_prepare_src,
|
|
mca_btl_mx_prepare_dst,
|
|
mca_btl_mx_send,
|
|
mca_btl_mx_put, /* put */
|
|
NULL, /* get */
|
|
mca_btl_base_dump,
|
|
NULL, /* mpool */
|
|
NULL, /* register error */
|
|
mca_btl_mx_ft_event
|
|
}
|
|
};
|