FreeCalypso > hg > fc-magnetite
view src/g23m-fad/tcpip/rnet/rnet_rt/rnet_rt_api_new.c @ 202:2a93a98a1e26
src/g23m-aci/aci/cmh_smss.c: sAT_PercentCMGS() disabled for !FF_MMI_RIV
like in TCS211 and in Citrine
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 14 Oct 2016 06:02:34 +0000 |
parents | 90eb61ecd093 |
children |
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/** * @file rnet_rt_api_new.c * * RNET_RT API * * @author Regis Feneon * @version 0.1 */ /* * $Id: rnet_rt_api_new.c,v 1.4 2002/10/30 15:23:34 rf Exp $ * $Name: ti_20021030 $ * * History: * * Date Author Modification * -------------------------------------------------- * 3/22/2002 Regis Feneon Create * 6/24/2002 Regis Feneon RNET_SEND_CFM renamed RNET_SEND_RDY * send this message when a connection * is accepted * (C) Copyright 2002 by TI, All Rights Reserved * */ #include "rnet_cfg.h" #ifdef RNET_CFG_REAL_TRANSPORT #include "rnet_rt_i.h" #include "rnet_rt_env.h" #include "rnet_message.h" /* * Send a message back to the user using socket's return path */ static int socket_send_msg( NGsock *so, T_RV_HDR *msg) { if( ((T_RNET_RT_SOCK *) so)->return_path.callback_func != NULL) { /* Send the message using callback function. */ ((T_RNET_RT_SOCK *) so)->return_path.callback_func( msg); return( RV_OK); } else { /* Send the message using mailbox. */ return( rvf_send_msg( ((T_RNET_RT_SOCK *) so)->return_path.addr_id, msg)); } } NGsock *cach_so = NULL ; //pinghua add two function to avoid abormal sock close. OMAPS00173156 patch fix 05122008 void cach_sock_message(NGsock *so) { cach_so = so ; return ; } void Send_cach_message(void ) { union { T_RNET_ERROR_IND eind; T_RNET_CONNECT_IND cind; T_RNET_CONNECT_CFM ccfm; T_RNET_SEND_RDY srdy; T_RNET_RECV_IND rind; } *msg; if(cach_so==NULL) return ; if(cach_so->so_rcv_cc!=0) return ; RNET_RT_SEND_TRACE("RNET_RT: Send_cach_message close! ",RV_TRACE_LEVEL_ERROR); if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_ERROR_IND), RNET_ERROR_IND, (T_RV_HDR **) &msg) == RVF_RED) { return ; } msg->eind.desc = (T_RNET_DESC *) cach_so; msg->eind.error = RNET_CONN_CLOSED; socket_send_msg( cach_so, (T_RV_HDR *) msg); ((T_RNET_RT_SOCK *) cach_so)->flags &= ~RNET_RT_SOCKF_NOTIFY_CLOSED; cach_so= NULL; } // end /* * Socket callback function. * The socket events are translated to RNET messages and sent the application. * */ static void socket_callback( NGsock *so, void *data, int flags) { NGsock *nso; NGsockaddr addr; NGbuf *bufp; char tmp[25]; union { T_RNET_ERROR_IND eind; T_RNET_CONNECT_IND cind; T_RNET_CONNECT_CFM ccfm; T_RNET_SEND_RDY srdy; T_RNET_RECV_IND rind; } *msg; sprintf(tmp,"recv data len %d", so->so_rcv_cc); RNET_RT_SEND_TRACE(tmp,RV_TRACE_LEVEL_ERROR); msg = NULL; if( so->so_error != 0) { /* send RNET_ERROR_IND msg */ RNET_RT_SEND_TRACE("RNET_RT: RNET_ERROR_IND ",RV_TRACE_LEVEL_ERROR); if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_ERROR_IND), RNET_ERROR_IND, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->eind.desc = (T_RNET_DESC *) so; msg->eind.error = rnet_rt_ngip_error( so->so_error); socket_send_msg( so, (T_RV_HDR *) msg); so->so_error = 0; return; } if( flags & NG_SAIO_READ) { if( so->so_state & NG_SS_CANTRCVMORE) { /* connection has been closed/aborted */ //pinghua add one condiction to avoid close abnormal 20080505 if( ((T_RNET_RT_SOCK *) so)->flags & RNET_RT_SOCKF_NOTIFY_CLOSED && ( so->so_rcv_cc==0 ) ) { /* connection is closed */ /* send RNET_ERROR_IND/RNET_CONN_CLOSED msg */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_ERROR_IND), RNET_ERROR_IND, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->eind.desc = (T_RNET_DESC *) so; msg->eind.error = RNET_CONN_CLOSED; socket_send_msg( so, (T_RV_HDR *) msg); ((T_RNET_RT_SOCK *) so)->flags &= ~RNET_RT_SOCKF_NOTIFY_CLOSED; } else { //buffer this close FIN messgae cach_sock_message(so); } } else if( so->so_options & NG_SO_ACCEPTCONN) { /* accept a new connection */ if( ngSAIOAccept( so, &addr, 0, &nso) == NG_EOK) { /* initialise rnet part of socket */ ((T_RNET_RT_SOCK *) nso)->return_path = ((T_RNET_RT_SOCK *) so)->return_path; ((T_RNET_RT_SOCK *) nso)->flags = RNET_RT_SOCKF_NOTIFY_RECV|RNET_RT_SOCKF_NOTIFY_CLOSED; ((T_RNET_RT_SOCK *) nso)->user_data = NULL; /* install callback */ ngSAIOSetCallback( nso, socket_callback, NULL); /* send RNET_CONNECT_IND msg */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_CONNECT_IND), RNET_CONNECT_IND, (T_RV_HDR **) &msg) == RVF_RED) { ngSAIOClose( nso, 0); goto getbuf_error; } msg->cind.new_desc = (T_RNET_DESC *) nso; msg->cind.listen_desc = (T_RNET_DESC *) so; msg->cind.peer_addr = ngNTOHL( addr.sin_addr); msg->cind.peer_port = ngNTOHS( addr.sin_port); socket_send_msg( so, (T_RV_HDR *) msg); /* send first RNET_SEND_RDY message */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_SEND_RDY), RNET_SEND_RDY, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->srdy.desc = (T_RNET_DESC *) nso; socket_send_msg( so, (T_RV_HDR *) msg); } return; } else { if( ((T_RNET_RT_SOCK *) so)->flags & RNET_RT_SOCKF_NOTIFY_CONNECT) { /* active connection is done */ /* send RNET_CONNECT_CFM msg */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_CONNECT_CFM), RNET_CONNECT_CFM, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->ccfm.desc = (T_RNET_DESC *) so; socket_send_msg( so, (T_RV_HDR *) msg); ((T_RNET_RT_SOCK *) so)->flags &= ~RNET_RT_SOCKF_NOTIFY_CONNECT; ((T_RNET_RT_SOCK *) so)->flags |= RNET_RT_SOCKF_NOTIFY_CLOSED; ((T_RNET_RT_SOCK *) so)->flags |= RNET_RT_SOCKF_NOTIFY_RECV ; } if( (((T_RNET_RT_SOCK *) so)->flags & RNET_RT_SOCKF_NOTIFY_RECV) && (so->so_rcv_cc >= so->so_rcv_lowat)) { /* data has been received */ /* send RNET_RECV_IND msg */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_RECV_IND), RNET_RECV_IND, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->rind.desc = (T_RNET_DESC *) so; /* fillin sender's address */ if( so->so_state & NG_SS_ISCONNECTED) { /* socket is connected, get peer address in socket control block */ msg->rind.peer_addr = ngNTOHL( so->so_faddr); msg->rind.peer_port = ngNTOHS( so->so_fport); } else if( (so->so_proto->pr_flags & NG_PR_ADDR) && ((bufp = (NGbuf *) so->so_rcv_q.qu_tail) != NULL)) { /* get address from last queued buffer */ ngMemCpy( &addr, bufp->buf_iov, sizeof( NGsockaddr)); msg->rind.peer_addr = ngNTOHL( addr.sin_addr); msg->rind.peer_port = ngNTOHS( addr.sin_port); } else { /* cannot get address, this should not happen... */ msg->rind.peer_addr = 0; msg->rind.peer_port = 0; } socket_send_msg( so, (T_RV_HDR *) msg); ((T_RNET_RT_SOCK *) so)->flags &= ~RNET_RT_SOCKF_NOTIFY_RECV; } } } if( flags & NG_SAIO_WRITE) { if( !(so->so_state & NG_SS_CANTSENDMORE) && (((T_RNET_RT_SOCK *) so)->flags & RNET_RT_SOCKF_NOTIFY_SEND) && ((so->so_snd_hiwat - so->so_snd_cc) >= so->so_snd_lowat)) { /* send data has been acknowledged by peer */ /* send RNET_SEND_RDY msg */ if( rvf_get_msg_buf( rnet_rt_env_ctrl_blk_p->mb_id, sizeof(T_RNET_SEND_RDY), RNET_SEND_RDY, (T_RV_HDR **) &msg) == RVF_RED) { goto getbuf_error; } msg->srdy.desc = (T_RNET_DESC *) so; socket_send_msg( so, (T_RV_HDR *) msg); ((T_RNET_RT_SOCK *) so)->flags &= ~RNET_RT_SOCKF_NOTIFY_SEND; } } return; getbuf_error: RNET_RT_SEND_TRACE("RNET_RT: cannot allocate MSG ",RV_TRACE_LEVEL_ERROR); return; } /** * Creates a new connection identifier (T_RNET_DESC). * * The connection ID is not active until it has either been bound * to a local address or connected to a remote address. * * @param proto Protocol that should be used [IN]. * @param desc Connection identifier created [OUT]. * @param return_path Return path that should be used to send * the messages like accept, connect, etc [IN]. * @return RNET_MEMORY_ERR No available memory to create the new connection id. * RNET_NOT_INITIALIZED NET subsystem not initialized (internal error). * RNET_INTERNAL_ERR Network subsystem failed. * or No more socket descriptors available. * RNET_NOT_READY Still processing a callback function. * RNET_NOT_SUPPORTED Specified protocol not supported. * RNET_OK Connection ID successfully created. */ T_RNET_RET rnet_rt_new (T_RNET_IPPROTO proto, T_RNET_DESC ** desc, T_RV_RETURN_PATH return_path) { NGsock *so; int type, err; /* check if SW entity has been initialised */ if( rnet_rt_env_ctrl_blk_p == NULL) { return( RNET_NOT_INITIALIZED); } /* select type of socket, only TCP and UDP allowed */ switch( proto) { case RNET_IPPROTO_TCP: type = NG_SOCK_STREAM; break; case RNET_IPPROTO_UDP: type = NG_SOCK_DGRAM; break; default: /* invalid protocol */ /* could create raw IP socket... */ return( RNET_NOT_SUPPORTED); } /* create ngip socket */ rvf_lock_mutex( &rnet_rt_env_ctrl_blk_p->mutex); err = ngSAIOCreate( &so, NG_AF_INET, type, 0, NG_O_NONBLOCK); if( err == NG_EOK) { /* initialise rnet part of socket */ ((T_RNET_RT_SOCK *) so)->return_path = return_path; #if 0 /* RNET_RT bug!? [ni 2003-12-05 */ ((T_RNET_RT_SOCK *) so)->flags = RNET_RT_SOCKF_NOTIFY_RECV | RNET_RT_SOCKF_NOTIFY_SEND; #else if (proto == RNET_IPPROTO_UDP) { /* A UDP socket is ready for communication right after it has been * created, ... */ ((T_RNET_RT_SOCK *) so)->flags = RNET_RT_SOCKF_NOTIFY_RECV | RNET_RT_SOCKF_NOTIFY_SEND; } else { /* ... whereas a TCP socket has to be connected first. */ ((T_RNET_RT_SOCK *) so)->flags = 0 ; } #endif /* 0 */ ((T_RNET_RT_SOCK *) so)->user_data = NULL; /* install callback */ ngSAIOSetCallback( so, socket_callback, NULL); } rvf_unlock_mutex( &rnet_rt_env_ctrl_blk_p->mutex); /* returns new socket */ if( err == NG_EOK) { *desc = (T_RNET_DESC *) so; return( RNET_OK); } /* convert error code */ return( rnet_rt_ngip_error( err)); } #endif /* ifdef RNET_CFG_REAL_TRANSPORT */