/* * $HEADER$ */ #include "mca/oob/tcp/oob_tcp.h" /* * Similiar to unix readv(2) * * @param peer (IN) Opaque name of peer process or MCA_OOB_NAME_ANY for wildcard receive. * @param msg (IN) Array of iovecs describing user buffers and lengths. * @param types (IN) Parallel array to iovecs describing data type of each iovec element. * @param count (IN) Number of elements in iovec array. * @param tag (IN) User supplied tag for matching send/recv. * @param flags (IN) May be MCA_OOB_PEEK to return up to the number of bytes provided in the * iovec array without removing the message from the queue. * @return OMPI error code (<0) on error or number of bytes actually received. */ int mca_oob_tcp_recv( ompi_process_name_t* peer, struct iovec *iov, int count, int* tagp, int flags) { mca_oob_tcp_msg_t *msg; int i, rc, size = 0; int tag = (tagp != NULL) ? *tagp : MCA_OOB_TAG_ANY; if(mca_oob_tcp_component.tcp_debug > 1) { ompi_output(0, "[%d,%d,%d]-[%d,%d,%d] mca_oob_tcp_recv: tag %d\n", OMPI_NAME_COMPONENTS(mca_oob_name_self), OMPI_NAME_COMPONENTS(*peer), tag); } /* lock the tcp struct */ OMPI_THREAD_LOCK(&mca_oob_tcp_component.tcp_match_lock); /* check to see if a matching receive is on the list */ msg = mca_oob_tcp_msg_match_recv(peer, tag); if(NULL != msg) { if(msg->msg_rc < 0) { OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return msg->msg_rc; } /* if we are returning an allocated buffer - just take it from the message */ if(flags & MCA_OOB_ALLOC) { if(NULL == iov || 0 == count) { return OMPI_ERR_BAD_PARAM; } iov[0].iov_base = msg->msg_rwiov->iov_base; iov[0].iov_len = msg->msg_rwiov->iov_len; msg->msg_rwbuf = NULL; } else { /* if we are just doing peek, return bytes without dequeing message */ rc = mca_oob_tcp_msg_copy(msg, iov, count); if(rc >= 0 && MCA_OOB_TRUNC & flags) { rc = 0; for(i=0; imsg_rwcnt; i++) rc += msg->msg_rwiov[i].iov_len; } if(MCA_OOB_PEEK & flags) { OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return rc; } } if(NULL != tagp) { *tagp = msg->msg_hdr.msg_tag; } /* otherwise dequeue the message and return to free list */ ompi_list_remove_item(&mca_oob_tcp_component.tcp_msg_recv, (ompi_list_item_t *) msg); MCA_OOB_TCP_MSG_RETURN(msg); OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return rc; } /* the message has not already been received. So we add it to the receive queue */ MCA_OOB_TCP_MSG_ALLOC(msg, rc); if(NULL == msg) { OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return rc; } /* determine overall size of user supplied buffer */ for(i = 0; i < count; i++) { size += iov[i].iov_len; } /* fill in the struct */ msg->msg_hdr.msg_size = size; msg->msg_hdr.msg_tag = tag; msg->msg_hdr.msg_type = MCA_OOB_TCP_MSG; msg->msg_hdr.msg_src = *peer; msg->msg_hdr.msg_dst = mca_oob_name_self; msg->msg_type = MCA_OOB_TCP_POSTED; msg->msg_rc = 0; msg->msg_flags = flags; msg->msg_uiov = iov; msg->msg_ucnt = count; msg->msg_cbfunc = NULL; msg->msg_cbdata = NULL; msg->msg_complete = false; msg->msg_peer = *peer; msg->msg_rwbuf = NULL; msg->msg_rwiov = NULL; ompi_list_append(&mca_oob_tcp_component.tcp_msg_post, (ompi_list_item_t *) msg); OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); /* wait for the receive to complete */ mca_oob_tcp_msg_wait(msg, &rc); MCA_OOB_TCP_MSG_RETURN(msg); return rc; } /* * Non-blocking version of mca_oob_recv(). * * @param peer (IN) Opaque name of peer process or MCA_OOB_NAME_ANY for wildcard receive. * @param msg (IN) Array of iovecs describing user buffers and lengths. * @param count (IN) Number of elements in iovec array. * @param tag (IN) User supplied tag for matching send/recv. * @param flags (IN) May be MCA_OOB_PEEK to return up to size bytes of msg w/out removing it from the queue, * @param cbfunc (IN) Callback function on recv completion. * @param cbdata (IN) User data that is passed to callback function. * @return OMPI error code (<0) on error. */ int mca_oob_tcp_recv_nb( ompi_process_name_t* peer, struct iovec* iov, int count, int tag, int flags, mca_oob_callback_fn_t cbfunc, void* cbdata) { mca_oob_tcp_msg_t *msg; int i, rc, size = 0; /* lock the tcp struct */ OMPI_THREAD_LOCK(&mca_oob_tcp_component.tcp_match_lock); /* check to see if a matching receive is on the list */ msg = mca_oob_tcp_msg_match_recv(peer, tag); if(NULL != msg) { if(msg->msg_rc < 0) return msg->msg_rc; /* if we are just doing peek, return bytes without dequeing message */ rc = mca_oob_tcp_msg_copy(msg, iov, count); if(rc >= 0 && MCA_OOB_TRUNC & flags) { rc = 0; for(i=0; imsg_rwcnt; i++) rc += msg->msg_rwiov[i].iov_len; } if(MCA_OOB_PEEK & flags) { OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); cbfunc(rc, &msg->msg_peer, iov, count, tag, cbdata); return 0; } /* otherwise dequeue the message and return to free list */ ompi_list_remove_item(&mca_oob_tcp_component.tcp_msg_recv, (ompi_list_item_t *) msg); OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); cbfunc(rc, &msg->msg_peer, iov, count, msg->msg_hdr.msg_tag, cbdata); MCA_OOB_TCP_MSG_RETURN(msg); return 0; } /* the message has not already been received. So we add it to the receive queue */ MCA_OOB_TCP_MSG_ALLOC(msg, rc); if(NULL == msg) { OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return rc; } /* determine overall size of user supplied buffer */ for(i = 0; i < count; i++) { size += iov[i].iov_len; } /* fill in the header */ msg->msg_hdr.msg_src = mca_oob_name_self; msg->msg_hdr.msg_dst = *peer; msg->msg_hdr.msg_size = size; msg->msg_hdr.msg_tag = tag; MCA_OOB_TCP_HDR_HTON(&msg->msg_hdr); msg->msg_type = MCA_OOB_TCP_POSTED; msg->msg_rc = 0; msg->msg_flags = flags; msg->msg_uiov = iov; msg->msg_ucnt = count; msg->msg_cbfunc = cbfunc; msg->msg_cbdata = cbdata; msg->msg_complete = false; msg->msg_peer = *peer; msg->msg_rwbuf = NULL; msg->msg_rwiov = NULL; ompi_list_append(&mca_oob_tcp_component.tcp_msg_post, (ompi_list_item_t *) msg); OMPI_THREAD_UNLOCK(&mca_oob_tcp_component.tcp_match_lock); return 0; }