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openmpi/ompi/mca/pml/bfo/pml_bfo_hdr.h
Wesley Bland 4e7ff0bd5e By popular demand the epoch code is now disabled by default.
To enable the epochs and the resilient orte code, use the configure flag:

--enable-resilient-orte

This will define both:

ORTE_ENABLE_EPOCH
ORTE_RESIL_ORTE

This commit was SVN r25093.
2011-08-26 22:16:14 +00:00

541 строка
18 KiB
C

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. 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) 2009 IBM Corporation. All rights reserved.
* Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
/**
* @file
*/
#ifndef MCA_PML_BFO_HEADER_H
#define MCA_PML_BFO_HEADER_H
#include "ompi_config.h"
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#ifdef HAVE_NETINET_IN_H
#include <netinet/in.h>
#endif
#include "opal/types.h"
#include "opal/util/arch.h"
#include "ompi/mca/btl/btl.h"
#include "ompi/proc/proc.h"
#define MCA_PML_BFO_HDR_TYPE_MATCH (MCA_BTL_TAG_PML + 1)
#define MCA_PML_BFO_HDR_TYPE_RNDV (MCA_BTL_TAG_PML + 2)
#define MCA_PML_BFO_HDR_TYPE_RGET (MCA_BTL_TAG_PML + 3)
#define MCA_PML_BFO_HDR_TYPE_ACK (MCA_BTL_TAG_PML + 4)
#define MCA_PML_BFO_HDR_TYPE_NACK (MCA_BTL_TAG_PML + 5)
#define MCA_PML_BFO_HDR_TYPE_FRAG (MCA_BTL_TAG_PML + 6)
#define MCA_PML_BFO_HDR_TYPE_GET (MCA_BTL_TAG_PML + 7)
#define MCA_PML_BFO_HDR_TYPE_PUT (MCA_BTL_TAG_PML + 8)
#define MCA_PML_BFO_HDR_TYPE_FIN (MCA_BTL_TAG_PML + 9)
#if PML_BFO
#define MCA_PML_BFO_HDR_TYPE_RNDVRESTARTNOTIFY (MCA_BTL_TAG_PML + 10)
#define MCA_PML_BFO_HDR_TYPE_RNDVRESTARTACK (MCA_BTL_TAG_PML + 11)
#define MCA_PML_BFO_HDR_TYPE_RNDVRESTARTNACK (MCA_BTL_TAG_PML + 12)
#define MCA_PML_BFO_HDR_TYPE_RECVERRNOTIFY (MCA_BTL_TAG_PML + 13)
#endif /* PML_BFO */
#define MCA_PML_BFO_HDR_FLAGS_ACK 1 /* is an ack required */
#define MCA_PML_BFO_HDR_FLAGS_NBO 2 /* is the hdr in network byte order */
#define MCA_PML_BFO_HDR_FLAGS_PIN 4 /* is user buffer pinned */
#define MCA_PML_BFO_HDR_FLAGS_CONTIG 8 /* is user buffer contiguous */
#define MCA_PML_BFO_HDR_FLAGS_NORDMA 16 /* rest will be send by copy-in-out */
#if PML_BFO
#define MCA_PML_BFO_HDR_FLAGS_RESTART 32 /* restart RNDV because of error */
#endif /* PML_BFO */
/**
* Common hdr attributes - must be first element in each hdr type
*/
struct mca_pml_bfo_common_hdr_t {
uint8_t hdr_type; /**< type of envelope */
uint8_t hdr_flags; /**< flags indicating how fragment should be processed */
};
typedef struct mca_pml_bfo_common_hdr_t mca_pml_bfo_common_hdr_t;
#define MCA_PML_BFO_COMMON_HDR_NTOH(h)
#define MCA_PML_BFO_COMMON_HDR_HTON(h)
/**
* Header definition for the first fragment, contains the
* attributes required to match the corresponding posted receive.
*/
struct mca_pml_bfo_match_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common; /**< common attributes */
uint16_t hdr_ctx; /**< communicator index */
int32_t hdr_src; /**< source rank */
int32_t hdr_tag; /**< user tag */
uint16_t hdr_seq; /**< message sequence number */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[2]; /**< explicitly pad to 16 bytes. Compilers seem to already prefer to do this, but make it explicit just in case */
#endif
};
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
#define OMPI_PML_BFO_MATCH_HDR_LEN 16
#else
#define OMPI_PML_BFO_MATCH_HDR_LEN 14
#endif
typedef struct mca_pml_bfo_match_hdr_t mca_pml_bfo_match_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_MATCH_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
} while(0)
#else
#define MCA_PML_BFO_MATCH_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_MATCH_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
(h).hdr_ctx = ntohs((h).hdr_ctx); \
(h).hdr_src = ntohl((h).hdr_src); \
(h).hdr_tag = ntohl((h).hdr_tag); \
(h).hdr_seq = ntohs((h).hdr_seq); \
} while (0)
#define MCA_PML_BFO_MATCH_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_MATCH_HDR_FILL(h); \
(h).hdr_ctx = htons((h).hdr_ctx); \
(h).hdr_src = htonl((h).hdr_src); \
(h).hdr_tag = htonl((h).hdr_tag); \
(h).hdr_seq = htons((h).hdr_seq); \
} while (0)
/**
* Header definition for the first fragment when an acknowledgment
* is required. This could be the first fragment of a large message
* or a short message that requires an ack (synchronous).
*/
struct mca_pml_bfo_rendezvous_hdr_t {
mca_pml_bfo_match_hdr_t hdr_match;
uint64_t hdr_msg_length; /**< message length */
ompi_ptr_t hdr_src_req; /**< pointer to source request - returned in ack */
#if PML_BFO
ompi_ptr_t hdr_dst_req; /**< pointer to dst req */
uint8_t hdr_restartseq; /**< restart sequence */
#endif /* PML_BFO */
};
typedef struct mca_pml_bfo_rendezvous_hdr_t mca_pml_bfo_rendezvous_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_RNDV_HDR_FILL(h) \
MCA_PML_BFO_MATCH_HDR_FILL((h).hdr_match)
#else
#define MCA_PML_BFO_RNDV_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
/* Note that hdr_src_req is not put in network byte order because it
is never processed by the receiver, other than being copied into
the ack header */
#define MCA_PML_BFO_RNDV_HDR_NTOH(h) \
do { \
MCA_PML_BFO_MATCH_HDR_NTOH((h).hdr_match); \
(h).hdr_msg_length = ntoh64((h).hdr_msg_length); \
} while (0)
#define MCA_PML_BFO_RNDV_HDR_HTON(h) \
do { \
MCA_PML_BFO_MATCH_HDR_HTON((h).hdr_match); \
MCA_PML_BFO_RNDV_HDR_FILL(h); \
(h).hdr_msg_length = hton64((h).hdr_msg_length); \
} while (0)
/**
* Header definition for a combined rdma rendezvous/get
*/
struct mca_pml_bfo_rget_hdr_t {
mca_pml_bfo_rendezvous_hdr_t hdr_rndv;
uint32_t hdr_seg_cnt; /**< number of segments for rdma */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[4];
#endif
ompi_ptr_t hdr_des; /**< source descriptor */
mca_btl_base_segment_t hdr_segs[1]; /**< list of segments for rdma */
};
typedef struct mca_pml_bfo_rget_hdr_t mca_pml_bfo_rget_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_RGET_HDR_FILL(h) \
do { \
MCA_PML_BFO_RNDV_HDR_FILL((h).hdr_rndv); \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
(h).hdr_padding[2] = 0; \
(h).hdr_padding[3] = 0; \
} while(0)
#else
#define MCA_PML_BFO_RGET_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_RGET_HDR_NTOH(h) \
do { \
MCA_PML_BFO_RNDV_HDR_NTOH((h).hdr_rndv); \
(h).hdr_seg_cnt = ntohl((h).hdr_seg_cnt); \
} while (0)
#define MCA_PML_BFO_RGET_HDR_HTON(h) \
do { \
MCA_PML_BFO_RNDV_HDR_HTON((h).hdr_rndv); \
MCA_PML_BFO_RGET_HDR_FILL(h); \
(h).hdr_seg_cnt = htonl((h).hdr_seg_cnt); \
} while (0)
/**
* Header for subsequent fragments.
*/
struct mca_pml_bfo_frag_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common; /**< common attributes */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[6];
#endif
uint64_t hdr_frag_offset; /**< offset into message */
ompi_ptr_t hdr_src_req; /**< pointer to source request */
ompi_ptr_t hdr_dst_req; /**< pointer to matched receive */
};
typedef struct mca_pml_bfo_frag_hdr_t mca_pml_bfo_frag_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_FRAG_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
(h).hdr_padding[2] = 0; \
(h).hdr_padding[3] = 0; \
(h).hdr_padding[4] = 0; \
(h).hdr_padding[5] = 0; \
} while(0)
#else
#define MCA_PML_BFO_FRAG_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_FRAG_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
(h).hdr_frag_offset = ntoh64((h).hdr_frag_offset); \
} while (0)
#define MCA_PML_BFO_FRAG_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_FRAG_HDR_FILL(h); \
(h).hdr_frag_offset = hton64((h).hdr_frag_offset); \
} while (0)
/**
* Header used to acknowledgment outstanding fragment(s).
*/
struct mca_pml_bfo_ack_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common; /**< common attributes */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[6];
#endif
ompi_ptr_t hdr_src_req; /**< source request */
ompi_ptr_t hdr_dst_req; /**< matched receive request */
uint64_t hdr_send_offset; /**< starting point of copy in/out */
};
typedef struct mca_pml_bfo_ack_hdr_t mca_pml_bfo_ack_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_ACK_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
(h).hdr_padding[2] = 0; \
(h).hdr_padding[3] = 0; \
(h).hdr_padding[4] = 0; \
(h).hdr_padding[5] = 0; \
} while (0)
#else
#define MCA_PML_BFO_ACK_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
/* Note that the request headers are not put in NBO because the
src_req is already in receiver's byte order and the dst_req is not
used by the receiver for anything other than backpointers in return
headers */
#define MCA_PML_BFO_ACK_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
(h).hdr_send_offset = ntoh64((h).hdr_send_offset); \
} while (0)
#define MCA_PML_BFO_ACK_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_ACK_HDR_FILL(h); \
(h).hdr_send_offset = hton64((h).hdr_send_offset); \
} while (0)
/**
* Header used to initiate an RDMA operation.
*/
struct mca_pml_bfo_rdma_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common; /**< common attributes */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[2]; /** two to pad out the hdr to a 4 byte alignment. hdr_req will then be 8 byte aligned after 4 for hdr_seg_cnt */
#endif
uint32_t hdr_seg_cnt; /**< number of segments for rdma */
ompi_ptr_t hdr_req; /**< destination request */
#if PML_BFO
ompi_ptr_t hdr_dst_req; /**< pointer to destination request */
#endif /* PML_BFO */
ompi_ptr_t hdr_des; /**< source descriptor */
uint64_t hdr_rdma_offset; /**< current offset into user buffer */
mca_btl_base_segment_t hdr_segs[1]; /**< list of segments for rdma */
};
typedef struct mca_pml_bfo_rdma_hdr_t mca_pml_bfo_rdma_hdr_t;
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_RDMA_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
} while(0)
#else
#define MCA_PML_BFO_RDMA_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_RDMA_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
(h).hdr_seg_cnt = ntohl((h).hdr_seg_cnt); \
(h).hdr_rdma_offset = ntoh64((h).hdr_rdma_offset); \
} while (0)
#define MCA_PML_BFO_RDMA_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_RDMA_HDR_FILL(h); \
(h).hdr_seg_cnt = htonl((h).hdr_seg_cnt); \
(h).hdr_rdma_offset = hton64((h).hdr_rdma_offset); \
} while (0)
/**
* Header used to complete an RDMA operation.
*/
struct mca_pml_bfo_fin_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common; /**< common attributes */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[2];
#endif
#if PML_BFO
/* Match info is needed to check for duplicate FIN messages. */
mca_pml_bfo_match_hdr_t hdr_match;
#endif /* PML_BFO */
uint32_t hdr_fail; /**< RDMA operation failed */
ompi_ptr_t hdr_des; /**< completed descriptor */
};
typedef struct mca_pml_bfo_fin_hdr_t mca_pml_bfo_fin_hdr_t;
#if PML_BFO
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_FIN_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
MCA_PML_BFO_MATCH_HDR_FILL((h).hdr_match); \
} while (0)
#else
#define MCA_PML_BFO_FIN_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_FIN_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
MCA_PML_BFO_MATCH_HDR_NTOH((h).hdr_match); \
} while (0)
#define MCA_PML_BFO_FIN_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_MATCH_HDR_HTON((h).hdr_match); \
MCA_PML_BFO_FIN_HDR_FILL(h); \
} while (0)
#else /* PML_BFO */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG
#define MCA_PML_BFO_FIN_HDR_FILL(h) \
do { \
(h).hdr_padding[0] = 0; \
(h).hdr_padding[1] = 0; \
} while (0)
#else
#define MCA_PML_BFO_FIN_HDR_FILL(h)
#endif /* OPAL_ENABLE_HETEROGENEOUS_SUPPORT && OPAL_ENABLE_DEBUG */
#define MCA_PML_BFO_FIN_HDR_NTOH(h) \
do { \
MCA_PML_BFO_COMMON_HDR_NTOH((h).hdr_common); \
} while (0)
#define MCA_PML_BFO_FIN_HDR_HTON(h) \
do { \
MCA_PML_BFO_COMMON_HDR_HTON((h).hdr_common); \
MCA_PML_BFO_FIN_HDR_FILL(h); \
} while (0)
#endif /* PML_BFO */
#if PML_BFO
/**
* Header used to restart a rendezvous request.
*/
struct mca_pml_bfo_restart_hdr_t {
mca_pml_bfo_match_hdr_t hdr_match; /**< needed to avoid duplicate messages */
uint8_t hdr_restartseq; /**< restart sequence */
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
uint8_t hdr_padding[3];
#endif
ompi_ptr_t hdr_src_req; /**< source request */
ompi_ptr_t hdr_dst_req; /**< matched receive request */
int32_t hdr_dst_rank; /**< needed to send NACK */
uint32_t hdr_jobid; /**< needed to send NACK */
uint32_t hdr_vpid; /**< needed to send NACK */
};
typedef struct mca_pml_bfo_restart_hdr_t mca_pml_bfo_restart_hdr_t;
/* Only need to put parts of the restart header in NBO. No need
to do hdr_src_req and hdr_dst_req as they are only used on the
by the process that originated them. */
#define MCA_PML_BFO_RESTART_HDR_NTOH(h) \
do { \
MCA_PML_BFO_MATCH_HDR_NTOH((h).hdr_match); \
(h).hdr_dst_rank = ntohl((h).hdr_dst_rank); \
(h).hdr_jobid = ntohl((h).hdr_jobid); \
(h).hdr_vpid = ntohl((h).hdr_vpid); \
} while (0)
#define MCA_PML_BFO_RESTART_HDR_HTON(h) \
do { \
MCA_PML_BFO_MATCH_HDR_HTON((h).hdr_match); \
(h).hdr_dst_rank = htonl((h).hdr_dst_rank); \
(h).hdr_jobid = htonl((h).hdr_jobid); \
(h).hdr_vpid = htonl((h).hdr_vpid); \
} while (0)
#endif /* PML_BFO */
/**
* Union of defined hdr types.
*/
union mca_pml_bfo_hdr_t {
mca_pml_bfo_common_hdr_t hdr_common;
mca_pml_bfo_match_hdr_t hdr_match;
mca_pml_bfo_rendezvous_hdr_t hdr_rndv;
mca_pml_bfo_rget_hdr_t hdr_rget;
mca_pml_bfo_frag_hdr_t hdr_frag;
mca_pml_bfo_ack_hdr_t hdr_ack;
mca_pml_bfo_rdma_hdr_t hdr_rdma;
mca_pml_bfo_fin_hdr_t hdr_fin;
#if PML_BFO
mca_pml_bfo_restart_hdr_t hdr_restart;
#endif /* PML_BFO */
};
typedef union mca_pml_bfo_hdr_t mca_pml_bfo_hdr_t;
#if !defined(WORDS_BIGENDIAN) && OPAL_ENABLE_HETEROGENEOUS_SUPPORT
static inline __opal_attribute_always_inline__ void
bfo_hdr_ntoh(mca_pml_bfo_hdr_t *hdr, const uint8_t hdr_type)
{
if(!(hdr->hdr_common.hdr_flags & MCA_PML_BFO_HDR_FLAGS_NBO))
return;
switch(hdr_type) {
case MCA_PML_BFO_HDR_TYPE_MATCH:
MCA_PML_BFO_MATCH_HDR_NTOH(hdr->hdr_match);
break;
case MCA_PML_BFO_HDR_TYPE_RNDV:
MCA_PML_BFO_RNDV_HDR_NTOH(hdr->hdr_rndv);
break;
case MCA_PML_BFO_HDR_TYPE_RGET:
MCA_PML_BFO_RGET_HDR_NTOH(hdr->hdr_rget);
break;
case MCA_PML_BFO_HDR_TYPE_ACK:
MCA_PML_BFO_ACK_HDR_NTOH(hdr->hdr_ack);
break;
case MCA_PML_BFO_HDR_TYPE_FRAG:
MCA_PML_BFO_FRAG_HDR_NTOH(hdr->hdr_frag);
break;
case MCA_PML_BFO_HDR_TYPE_PUT:
MCA_PML_BFO_RDMA_HDR_NTOH(hdr->hdr_rdma);
break;
case MCA_PML_BFO_HDR_TYPE_FIN:
MCA_PML_BFO_FIN_HDR_NTOH(hdr->hdr_fin);
break;
default:
assert(0);
break;
}
}
#else
#define bfo_hdr_ntoh(h, t) do{}while(0)
#endif
#if OPAL_ENABLE_HETEROGENEOUS_SUPPORT
#define bfo_hdr_hton(h, t, p) \
bfo_hdr_hton_intr((mca_pml_bfo_hdr_t*)h, t, p)
static inline __opal_attribute_always_inline__ void
bfo_hdr_hton_intr(mca_pml_bfo_hdr_t *hdr, const uint8_t hdr_type,
const ompi_proc_t *proc)
{
#ifdef WORDS_BIGENDIAN
hdr->hdr_common.hdr_flags |= MCA_PML_BFO_HDR_FLAGS_NBO;
#else
if(!(proc->proc_arch & OPAL_ARCH_ISBIGENDIAN))
return;
hdr->hdr_common.hdr_flags |= MCA_PML_BFO_HDR_FLAGS_NBO;
switch(hdr_type) {
case MCA_PML_BFO_HDR_TYPE_MATCH:
MCA_PML_BFO_MATCH_HDR_HTON(hdr->hdr_match);
break;
case MCA_PML_BFO_HDR_TYPE_RNDV:
MCA_PML_BFO_RNDV_HDR_HTON(hdr->hdr_rndv);
break;
case MCA_PML_BFO_HDR_TYPE_RGET:
MCA_PML_BFO_RGET_HDR_HTON(hdr->hdr_rget);
break;
case MCA_PML_BFO_HDR_TYPE_ACK:
MCA_PML_BFO_ACK_HDR_HTON(hdr->hdr_ack);
break;
case MCA_PML_BFO_HDR_TYPE_FRAG:
MCA_PML_BFO_FRAG_HDR_HTON(hdr->hdr_frag);
break;
case MCA_PML_BFO_HDR_TYPE_PUT:
MCA_PML_BFO_RDMA_HDR_HTON(hdr->hdr_rdma);
break;
case MCA_PML_BFO_HDR_TYPE_FIN:
MCA_PML_BFO_FIN_HDR_HTON(hdr->hdr_fin);
break;
default:
assert(0);
break;
}
#endif
}
#else
#define bfo_hdr_hton(h, t, p) do{}while(0)
#endif
#endif