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view src/cs/services/mks/mks_api.c @ 134:7d50d8d13711

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FFS code sync with Magnetite + gcc version fix This change brings the new flash autodetection for FC and Pirelli targets from Magnetite, and should also fix the gcc version for C1xx and gtamodem targets, which were previously broken because they used TI's original flash autodetect code (which operates at address 0) while the boot ROM is mapped there.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 11 Dec 2018 08:43:25 +0000
parents b6a5e36de839
children
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/**
 * @file   mks_api.c
 *
 * Implementation of bridge functions.
 *
 * @author   Laurent Sollier (l-sollier@ti.com)
 * @version 0.1
 */

/*
 * History:
 *
 *   Date          Author       Modification
 *  ----------------------------------------
 *  11/19/2001     L Sollier    Create
 *
 *
 * (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved
 */

#include "mks/mks_api.h"
#include "mks/mks_env.h"
#include "mks/mks_i.h"
#include "mks/mks_messages_i.h"

#include "rvm/rvm_use_id_list.h"

#include <string.h>

/** External declaration */
extern T_MKS_ENV_CTRL_BLK* mks_env_ctrl_blk;



/**
 * @name Bridge functions implementation
 *
 */
/*@{*/


/**
 * function: mks_add_key_sequence
 */
T_RV_RET mks_add_key_sequence(T_MKS_INFOS_KEY_SEQUENCE* infos_key_sequence_p)
{
   T_RV_RET ret = RV_INVALID_PARAMETER;
   T_MKS_INFOS_KEY_SEQUENCE_MSG* msg_p;
   T_RVF_MB_STATUS mb_status;

   /* Test validity of structure */
   if ((infos_key_sequence_p->nb_key_of_sequence >=3) && (infos_key_sequence_p->nb_key_of_sequence <= MKS_NB_MAX_OF_KEY_IN_KEY_SEQUENCE))
   {
      if ( (infos_key_sequence_p->completion_type == MKS_SEQUENCE_COMPLETED)
         || ( (infos_key_sequence_p->completion_type == MKS_POST_SEQUENCE)
             && (infos_key_sequence_p->nb_key_for_post_sequence > 0)
             && (infos_key_sequence_p->nb_key_for_post_sequence <= MKS_NB_MAX_OF_KEY_FOR_POST_SEQUENCE)) )
      {
         /* Reserve memory for message */
         mb_status = rvf_get_buf (mks_env_ctrl_blk->prim_id, sizeof(T_MKS_INFOS_KEY_SEQUENCE_MSG), (void **) &msg_p);   

         if (mb_status != RVF_RED) /* Memory allocation success */
         {
            /* Fill the message */
            msg_p->hdr.msg_id = MKS_INFOS_KEY_SEQUENCE_MSG;

            msg_p->key_sequence_infos = *infos_key_sequence_p;

            /* Send message to the MKS task */
            rvf_send_msg(mks_env_ctrl_blk->addr_id, msg_p);

            ret = RV_OK;
         }
         else
         {
            MKS_SEND_TRACE("MKS: Memory allocation error", RV_TRACE_LEVEL_ERROR);
            ret = RV_MEMORY_ERR;
         }
      }
   }

   return ret;
}

/**
 * function: mks_remove_key_sequence
 *
 */
T_RV_RET mks_remove_key_sequence(char name[KPD_MAX_CHAR_NAME+1])
{
   T_MKS_REMOVE_KEY_SEQUENCE_MSG* msg_p;
   T_RVF_MB_STATUS mb_status;
   T_RV_RET ret = RV_OK;

   /* Reserve memory for message */
   mb_status = rvf_get_buf (mks_env_ctrl_blk->prim_id, sizeof(T_MKS_REMOVE_KEY_SEQUENCE_MSG), (void **) &msg_p);   

   if (mb_status != RVF_RED) /* Memory allocation success */
   {
      /* Fill the message */
      msg_p->hdr.msg_id = MKS_REMOVE_KEY_SEQUENCE_MSG;

      memcpy(msg_p->name, name, KPD_MAX_CHAR_NAME+1);

      /* Send message to the MKS task */
      rvf_send_msg(mks_env_ctrl_blk->addr_id, msg_p);

      ret = RV_OK;
   }
   else
   {
      MKS_SEND_TRACE("MKS: Memory allocation error", RV_TRACE_LEVEL_ERROR);
      ret = RV_MEMORY_ERR;
   }


   return ret;
}


/*@}*/