view src/g23m-fad/tcpip/rnet/rnet_rt/rnet_rt_api_new.c @ 281:a75eefbf8be4

Phone boot with PWON: weed out short button presses Every standard end user phone has a design provision, most naturally implemented in firmware, whereby the PWON button effects a boot only if it is held down long enough - short presses of this PWON button are detected, assumed to be spurious and cause the fw to power back off instead of proceeding with boot. The present change introduces this standard function in FreeCalypso.
author Mychaela Falconia <falcon@freecalypso.org>
date Fri, 24 Sep 2021 02:03:08 +0000
parents fa8dc04885d8
children
line wrap: on
line source

/**
 * @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 */