ch3_isend.c

mpi并行计算的c++代码 可用vc或gcc编译通过 可以用来搭建并行计算试验环境

/* -*- Mode: C; c-basic-offset:4 ; -*- */
/*
 *  (C) 2001 by Argonne National Laboratory.
 *      See COPYRIGHT in top-level directory.
 */

#include "mpidi_ch3_impl.h"

/*static void update_request(MPID_Request * sreq, void * pkt, MPIDI_msg_sz_t pkt_sz, int nb)*/
#undef update_request
#define update_request(sreq, pkt, pkt_sz, nb) \
{ \
    MPIDI_STATE_DECL(MPID_STATE_UPDATE_REQUEST); \
    MPIDI_FUNC_ENTER(MPID_STATE_UPDATE_REQUEST); \
    /*MPIU_Assert(pkt_sz == sizeof(MPIDI_CH3_Pkt_t));*/ \
    sreq->ch.pkt = *(MPIDI_CH3_Pkt_t *) pkt; \
    sreq->dev.iov[0].MPID_IOV_BUF = (MPID_IOV_BUF_CAST)((char *) &sreq->ch.pkt + nb); \
    sreq->dev.iov[0].MPID_IOV_LEN = pkt_sz - nb; \
    sreq->dev.iov_count = 1; \
    sreq->ch.iov_offset = 0; \
    MPIDI_FUNC_EXIT(MPID_STATE_UPDATE_REQUEST); \
}

#undef FUNCNAME
#define FUNCNAME MPIDI_CH3_iSend
#undef FCNAME
#define FCNAME MPIDI_QUOTE(FUNCNAME)
int MPIDI_CH3_iSend(MPIDI_VC_t * vc, MPID_Request * sreq, void * pkt, MPIDI_msg_sz_t pkt_sz)
{
    int mpi_errno = MPI_SUCCESS;
    int complete;
    MPIDI_STATE_DECL(MPID_STATE_MPIDI_CH3_ISEND);

    MPIDI_FUNC_ENTER(MPID_STATE_MPIDI_CH3_ISEND);

    MPIDI_DBG_PRINTF((50, FCNAME, "entering"));
#ifdef MPICH_DBG_OUTPUT
    if (pkt_sz > sizeof(MPIDI_CH3_Pkt_t))
    {
	mpi_errno = MPIR_Err_create_code(MPI_SUCCESS, MPIR_ERR_FATAL, FCNAME, __LINE__, MPI_ERR_OTHER, "**arg", 0);
	MPIDI_FUNC_EXIT(MPID_STATE_MPIDI_CH3_ISEND);
	return mpi_errno;
    }
#endif

    /* The sock channel uses a fixed length header, the size of which is the maximum of all possible packet headers */
    pkt_sz = sizeof(MPIDI_CH3_Pkt_t);
    MPIDI_DBG_Print_packet((MPIDI_CH3_Pkt_t*)pkt);
    
    if (vc->ch.state == MPIDI_CH3I_VC_STATE_CONNECTED) /* MT */
    {
	/* Connection already formed.  If send queue is empty attempt to send data, queuing any unsent data. */
	if (MPIDI_CH3I_SendQ_empty(vc)) /* MT */
	{
	    int nb;

	    MPIDI_DBG_PRINTF((55, FCNAME, "send queue empty, attempting to write"));
	    
	    /* MT: need some signalling to lock down our right to use the channel, thus insuring that the progress engine does
               also try to write */
	    mpi_errno = MPIDI_CH3I_SHM_write(vc, pkt, pkt_sz, &nb);
	    if (mpi_errno == MPI_SUCCESS)
	    {
		MPIDI_DBG_PRINTF((55, FCNAME, "wrote %d bytes", nb));

		if (nb == pkt_sz)
		{ 
		    MPIDI_DBG_PRINTF((55, FCNAME, "write complete %d bytes, calling MPIDI_CH3U_Handle_send_req()", nb));
		    /* ssm version: */
		    MPIDI_CH3U_Handle_send_req(vc, sreq, &complete);
		    if (!complete)
		    {
			sreq->ch.iov_offset = 0;
			MPIDI_CH3I_SendQ_enqueue_head(vc, sreq);
			vc->ch.send_active = sreq;
		    }
		    /*
		    MPIDI_CH3I_SendQ_enqueue_head(vc, sreq);
		    MPIDI_CH3U_Handle_send_req(vc, sreq);
		    if (sreq->dev.iov_count == 0)
		    {
			if (MPIDI_CH3I_SendQ_head(vc) == sreq)
			{
			    MPIDI_CH3I_SendQ_dequeue(vc);
			}
		    }
		    */
		}
		else
		{
		    MPIDI_DBG_PRINTF((55, FCNAME, "partial write of %d bytes, request enqueued at head", nb));
		    update_request(sreq, pkt, pkt_sz, nb);
		    MPIDI_CH3I_SendQ_enqueue_head(vc, sreq);
		    vc->ch.send_active = sreq;
		}
	    }
	    else
	    {
		MPIDI_DBG_PRINTF((55, FCNAME, "MPIDI_CH3I_SHM_write failed"));
		/* Connection just failed. Mark the request complete and return an error. */
		vc->ch.state = MPIDI_CH3I_VC_STATE_FAILED;
		/* TODO: Create an appropriate error message based on the return value (rc) */
		sreq->status.MPI_ERROR = MPIR_Err_create_code(mpi_errno, MPIR_ERR_FATAL, FCNAME, __LINE__, MPI_ERR_OTHER, "**ssmwrite", 0);
		 /* MT -CH3U_Request_complete() performs write barrier */
		MPIDI_CH3U_Request_complete(sreq);
	    }
	}
	else
	{
	    MPIDI_DBG_PRINTF((55, FCNAME, "send queue not empty, enqueuing"));
	    update_request(sreq, pkt, pkt_sz, 0);
	    MPIDI_CH3I_SendQ_enqueue(vc, sreq);
	}
    }
    else if (vc->ch.state == MPIDI_CH3I_VC_STATE_UNCONNECTED) /* MT */
    {
	/* Form a new connection, queuing the data so it can be sent later. */
	MPIDI_DBG_PRINTF((55, FCNAME, "unconnected.  enqueuing request"));
	update_request(sreq, pkt, pkt_sz, 0);
	MPIDI_CH3I_SendQ_enqueue(vc, sreq);
	mpi_errno = MPIDI_CH3I_VC_post_connect(vc);
	if (mpi_errno != MPI_SUCCESS)
	{
	    mpi_errno = MPIR_Err_create_code(mpi_errno, MPIR_ERR_FATAL, FCNAME, __LINE__, MPI_ERR_OTHER, "**fail", 0);
	}
    }
    else if (vc->ch.state != MPIDI_CH3I_VC_STATE_FAILED)
    {
	/* Unable to send data at the moment, so queue it for later */
	MPIDI_DBG_PRINTF((55, FCNAME, "still connecting.  enqueuing request"));
	update_request(sreq, pkt, pkt_sz, 0);
	MPIDI_CH3I_SendQ_enqueue(vc, sreq);
    }
    else
    {
	/* Connection failed.  Mark the request complete and return an error. */
	/* TODO: Create an appropriate error message */
	sreq->status.MPI_ERROR = MPI_ERR_INTERN;
	/* MT - CH3U_Request_complete() performs write barrier */
	MPIDI_CH3U_Request_complete(sreq);
    }
    
    MPIDI_DBG_PRINTF((50, FCNAME, "exiting"));
    MPIDI_FUNC_EXIT(MPID_STATE_MPIDI_CH3_ISEND);
    return mpi_errno;
}