/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2006 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 * * $HEADER$ * * In windows, many of the socket functions return an EWOULDBLOCK * instead of \ things like EAGAIN, EINPROGRESS, etc. It has been * verified that this will \ not conflict with other error codes that * are returned by these functions \ under UNIX/Linux environments */ #include "ompi_config.h" #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_UIO_H #include #endif #ifdef HAVE_UNISTD_H #include #endif /* HAVE_UNISTD_H */ #include "opal/opal_socket_errno.h" #include "ompi/mca/btl/base/btl_base_error.h" #include "btl_tcp_frag.h" #include "btl_tcp_endpoint.h" #include "orte/util/proc_info.h" static void mca_btl_tcp_frag_common_constructor(mca_btl_tcp_frag_t* frag) { frag->base.des_src = NULL; frag->base.des_src_cnt = 0; frag->base.des_dst = NULL; frag->base.des_dst_cnt = 0; } static void mca_btl_tcp_frag_eager_constructor(mca_btl_tcp_frag_t* frag) { frag->size = mca_btl_tcp_module.super.btl_eager_limit; frag->my_list = &mca_btl_tcp_component.tcp_frag_eager; mca_btl_tcp_frag_common_constructor(frag); } static void mca_btl_tcp_frag_max_constructor(mca_btl_tcp_frag_t* frag) { frag->size = mca_btl_tcp_module.super.btl_max_send_size; frag->my_list = &mca_btl_tcp_component.tcp_frag_max; mca_btl_tcp_frag_common_constructor(frag); } static void mca_btl_tcp_frag_user_constructor(mca_btl_tcp_frag_t* frag) { frag->size = 0; frag->my_list = &mca_btl_tcp_component.tcp_frag_user; mca_btl_tcp_frag_common_constructor(frag); } OBJ_CLASS_INSTANCE( mca_btl_tcp_frag_t, mca_btl_base_descriptor_t, NULL, NULL); OBJ_CLASS_INSTANCE( mca_btl_tcp_frag_eager_t, mca_btl_base_descriptor_t, mca_btl_tcp_frag_eager_constructor, NULL); OBJ_CLASS_INSTANCE( mca_btl_tcp_frag_max_t, mca_btl_base_descriptor_t, mca_btl_tcp_frag_max_constructor, NULL); OBJ_CLASS_INSTANCE( mca_btl_tcp_frag_user_t, mca_btl_base_descriptor_t, mca_btl_tcp_frag_user_constructor, NULL); bool mca_btl_tcp_frag_send(mca_btl_tcp_frag_t* frag, int sd) { int cnt=-1; size_t i, num_vecs; /* non-blocking write, but continue if interrupted */ while(cnt < 0) { cnt = writev(sd, frag->iov_ptr, frag->iov_cnt); if(cnt < 0) { switch(opal_socket_errno) { case EINTR: continue; case EWOULDBLOCK: return false; case EFAULT: BTL_ERROR(("mca_btl_tcp_frag_send: writev error (%p, %d)\n\t%s(%d)\n", frag->iov_ptr[0].iov_base, frag->iov_ptr[0].iov_len, strerror(opal_socket_errno), frag->iov_cnt)); mca_btl_tcp_endpoint_close(frag->endpoint); return false; default: BTL_ERROR(("mca_btl_tcp_frag_send: writev failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); mca_btl_tcp_endpoint_close(frag->endpoint); return false; } } } /* if the write didn't complete - update the iovec state */ num_vecs = frag->iov_cnt; for(i=0; i= (int)frag->iov_ptr->iov_len) { cnt -= frag->iov_ptr->iov_len; frag->iov_ptr++; frag->iov_idx++; frag->iov_cnt--; } else { frag->iov_ptr->iov_base = (ompi_iov_base_ptr_t) (((unsigned char*)frag->iov_ptr->iov_base) + cnt); frag->iov_ptr->iov_len -= cnt; break; } } return (frag->iov_cnt == 0); } bool mca_btl_tcp_frag_recv(mca_btl_tcp_frag_t* frag, int sd) { int cnt, dont_copy_data = 0; size_t i, num_vecs; mca_btl_base_endpoint_t* btl_endpoint = frag->endpoint; repeat: num_vecs = frag->iov_cnt; #if MCA_BTL_TCP_ENDPOINT_CACHE if( 0 != btl_endpoint->endpoint_cache_length ) { size_t length; /* It's strange at the first look but cnt have to be set to the full amount of data * available. After going to advance_iov_position we will use cnt to detect if there * is still some data pending. */ cnt = length = btl_endpoint->endpoint_cache_length; for( i = 0; i < frag->iov_cnt; i++ ) { if( length > frag->iov_ptr[i].iov_len ) length = frag->iov_ptr[i].iov_len; if( (0 == dont_copy_data) || (length < frag->iov_ptr[i].iov_len) ) { memcpy( frag->iov_ptr[i].iov_base, btl_endpoint->endpoint_cache_pos, length ); } else { frag->segments[0].seg_addr.pval = btl_endpoint->endpoint_cache_pos; frag->iov_ptr[i].iov_base = btl_endpoint->endpoint_cache_pos; } btl_endpoint->endpoint_cache_pos += length; btl_endpoint->endpoint_cache_length -= length; length = btl_endpoint->endpoint_cache_length; if( 0 == length ) { btl_endpoint->endpoint_cache_pos = btl_endpoint->endpoint_cache; break; } } goto advance_iov_position; } /* What's happens if all iovecs are used by the fragment ? It still work, as we reserve one * iovec for the caching in the fragment structure (the +1). */ frag->iov_ptr[num_vecs].iov_base = btl_endpoint->endpoint_cache_pos; frag->iov_ptr[num_vecs].iov_len = mca_btl_tcp_component.tcp_endpoint_cache - btl_endpoint->endpoint_cache_length; num_vecs++; #endif /* MCA_BTL_TCP_ENDPOINT_CACHE */ /* non-blocking read, but continue if interrupted */ cnt = -1; while( cnt < 0 ) { cnt = readv(sd, frag->iov_ptr, num_vecs); if( 0 < cnt ) goto advance_iov_position; if( cnt == 0 ) { mca_btl_tcp_endpoint_close(btl_endpoint); return false; } switch(opal_socket_errno) { case EINTR: continue; case EWOULDBLOCK: return false; case EFAULT: BTL_ERROR(("mca_btl_tcp_frag_recv: readv error (%p, %d)\n\t%s(%d)\n", frag->iov_ptr[0].iov_base, frag->iov_ptr[0].iov_len, strerror(opal_socket_errno), frag->iov_cnt)); mca_btl_tcp_endpoint_close(btl_endpoint); return false; default: BTL_ERROR(("mca_btl_tcp_frag_recv: readv failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); mca_btl_tcp_endpoint_close(btl_endpoint); return false; } }; advance_iov_position: /* if the read didn't complete - update the iovec state */ num_vecs = frag->iov_cnt; for( i = 0; i < num_vecs; i++ ) { if( cnt < (int)frag->iov_ptr->iov_len ) { frag->iov_ptr->iov_base = (ompi_iov_base_ptr_t) (((unsigned char*)frag->iov_ptr->iov_base) + cnt); frag->iov_ptr->iov_len -= cnt; cnt = 0; break; } cnt -= frag->iov_ptr->iov_len; frag->iov_idx++; frag->iov_ptr++; frag->iov_cnt--; } #if MCA_BTL_TCP_ENDPOINT_CACHE btl_endpoint->endpoint_cache_length = cnt; #endif /* MCA_BTL_TCP_ENDPOINT_CACHE */ /* read header */ if(frag->iov_cnt == 0) { if (btl_endpoint->endpoint_nbo) MCA_BTL_TCP_HDR_NTOH(frag->hdr); switch(frag->hdr.type) { case MCA_BTL_TCP_HDR_TYPE_SEND: if(frag->iov_idx == 1 && frag->hdr.size) { frag->segments[0].seg_addr.pval = frag+1; frag->segments[0].seg_len = frag->hdr.size; frag->iov[1].iov_base = (IOVBASE_TYPE*)(frag->segments[0].seg_addr.pval); frag->iov[1].iov_len = frag->hdr.size; frag->iov_cnt++; #ifndef __sparcv9 /* The following cannot be done for sparcv9 (64bit) code * because it causes alignment errors when accessing * structures later on in the btl and pml code. */ dont_copy_data = 1; #endif goto repeat; } break; case MCA_BTL_TCP_HDR_TYPE_PUT: if(frag->iov_idx == 1) { frag->iov[1].iov_base = (IOVBASE_TYPE*)frag->segments; frag->iov[1].iov_len = frag->hdr.count * sizeof(mca_btl_base_segment_t); frag->iov_cnt++; goto repeat; } else if (frag->iov_idx == 2) { for( i = 0; i < frag->hdr.count; i++ ) { frag->iov[i+2].iov_base = (IOVBASE_TYPE*)ompi_ptr_ltop(frag->segments[i].seg_addr.lval); frag->iov[i+2].iov_len = frag->segments[i].seg_len; } frag->iov_cnt += frag->hdr.count; goto repeat; } break; case MCA_BTL_TCP_HDR_TYPE_GET: default: break; } return true; } return false; }