view src/g23m-gprs/sndcp/sndcp_sds.c @ 51:04aaa5622fa7

disable deep sleep when Iota LEDB is on TI's Iota chip docs say that CLK13M must be running in order for LEDB to work, and practical experience on Mot C139 which uses Iota LEDB for its keypad backlight concurs: if Calypso enters deep sleep while the keypad backlight is turned on, the light flickers visibly as the chipset goes into and out of deep sleep. TI's original L1 sleep manager code had logic to disable deep sleep when LT_Status() returns nonzero, but that function only works for B-Sample and C-Sample LT, always returns 0 on BOARD 41 - no check of Iota LEDB status anywhere. Change this code for our current hardware: disable deep sleep when Iota LEDB has been turned on through LLS.
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 19 Oct 2020 05:11:29 +0000
parents fa8dc04885d8
children
line wrap: on
line source

/*
+-----------------------------------------------------------------------------
|  Project :  GPRS (8441)
|  Modul   :  sndcp_sds.c
+-----------------------------------------------------------------------------
|  Copyright 2002 Texas Instruments Berlin, AG
|                 All rights reserved.
|
|                 This file is confidential and a trade secret of Texas
|                 Instruments Berlin, AG
|                 The receipt of or possession of this file does not convey
|                 any rights to reproduce or disclose its contents or to
|                 manufacture, use, or sell anything it may describe, in
|                 whole, or in part, without the specific written consent of
|                 Texas Instruments Berlin, AG.
+-----------------------------------------------------------------------------
|  Purpose :  This modul is part of the entity SNDCP and implements all
|             functions to handles the incoming process internal signals as
|             described in the SDL-documentation (SD-statemachine)
+-----------------------------------------------------------------------------
*/


#define ENTITY_SNDCP

/*==== INCLUDES =============================================================*/

#include "typedefs.h"    /* to get Condat data types */
#include "vsi.h"        /* to get a lot of macros */
#include "macdef.h"
#include "gsm.h"        /* to get a lot of macros */
#include "prim.h"       /* to get the definitions of used SAP and directions */

#include "dti.h"

#include "sndcp.h"        /* to get the global entity definitions */
#include "sndcp_f.h"       /* to get the functions to access the global arrays*/

#include "sndcp_sdf.h"    /* to get the internal functions of this service */
#include "sndcp_nds.h"    /* to get signals to nd service */


/*==== CONST ================================================================*/

/*==== LOCAL VARS ===========================================================*/

/*==== PRIVATE FUNCTIONS ====================================================*/

/*==== PUBLIC FUNCTIONS =====================================================*/

/*
+------------------------------------------------------------------------------
| Function    : sig_cia_sd_cia_decomp_ind
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_CIA_SD_CIA_DECOMP_CNF
|
| Parameters  : cia_decomp_ind, p_id
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_cia_sd_cia_decomp_ind (T_CIA_DECOMP_IND* cia_decomp_ind, UBYTE p_id)
{
  UBYTE sapi_index = 0;
  UBYTE sapi = 0;
  UBYTE nsapi = cia_decomp_ind->pdu_ref.ref_nsapi;
  BOOL rec = FALSE;
  T_SN_UNITDATA_IND* sn_unitdata_ind = NULL;

  TRACE_ISIG( "sig_cia_sd_cia_decomp_ind" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_nsapi_sapi(cia_decomp_ind->pdu_ref.ref_nsapi, &sapi);
  sndcp_get_sapi_index(sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
      {
        MALLOC(sn_unitdata_ind, sizeof(T_SN_UNITDATA_IND));

#ifdef _SNDCP_DTI_2_
        sn_unitdata_ind->desc_list2.first = cia_decomp_ind->desc_list2.first;
        sn_unitdata_ind->desc_list2.list_len = 
              cia_decomp_ind->desc_list2.list_len;
#endif /*_SNDCP_DTI_2_*/

#ifdef SNDCP_TRACE_ALL
        sndcp_data->cia.cia_decomp_ind_number[nsapi] --;
        TRACE_EVENT_P1("number of cia_decomp_ind: % d",
                       sndcp_data->cia.cia_decomp_ind_number[nsapi]);
#endif /* SNDCP_TRACE_ALL */


        sn_unitdata_ind->nsapi = nsapi;

        sn_unitdata_ind->p_id = p_id;
        sd_is_nsapi_rec(nsapi, &rec);
        if (rec) {
          sig_sd_nd_unitdata_ind(nsapi, sn_unitdata_ind);
          sd_set_nsapi_rec(nsapi, FALSE);
          sd_get_unitdata_if_nec(sapi);
        } else {
          if (sndcp_data->sd->cur_sn_unitdata_ind[nsapi] NEQ NULL)
          {
#ifndef NTRACE
#ifdef SNDCP_TRACE_ALL
            TRACE_EVENT_P1("Discard cur_sn.. in %s", sndcp_data->sd->state_name);
#endif /* SNDCP_TRACE_ALL */
#endif /*  NTRACE  */
            sd_delete_cur_sn_unitdata_ind(nsapi);
          }
          sndcp_data->sd->cur_sn_unitdata_ind[nsapi] = sn_unitdata_ind;
          sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_WAIT_NSAPI);
        }
      }
      MFREE(cia_decomp_ind);
      break;
    default:
      TRACE_ERROR( "SIG_CIA_SD_CIA_DECOMP_IND unexpected" );
      MFREE_PRIM(cia_decomp_ind); 
      break;
  }
} /* sig_cia_sd_cia_decomp_ind() */

/*
+------------------------------------------------------------------------------
| Function    : sig_mg_sd_delete_npdus
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_MG_SD_DELETE_NPDUS
|
| Parameters  :
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_mg_sd_delete_npdus (UBYTE nsapi,
                                    UBYTE sapi)
{
  UBYTE sapi_index = 0;

  TRACE_ISIG( "sig_mg_sd_delete_npdus" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_sapi_index(sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
      break;
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
      if (sndcp_data->sd->cur_sn_unitdata_ind[nsapi] != NULL) {
        sd_delete_cur_sn_unitdata_ind(nsapi);
        sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_RECEIVE_FIRST_SEGMENT);
      } else {
        sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_RECEIVE_FIRST_SEGMENT);
      }
      break;
    case SD_UNACK_WAIT_NSAPI:
      if (sndcp_data->sd->cur_sn_unitdata_ind[nsapi] != NULL) {
        sd_delete_cur_sn_unitdata_ind(nsapi);
        sd_get_unitdata_if_nec(sapi);
        sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_RECEIVE_FIRST_SEGMENT);
      }
      break;
    default:
      TRACE_ERROR( "SIG_MG_SD_DELETE_NPDUS unexpected" );
      break;
  }
} /* sig_mg_sd_delete_npdus() */

/*
+------------------------------------------------------------------------------
| Function    : sig_mg_sd_getunitdata
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_MG_SD_GETUNITDATA
|
| Parameters  : sapi
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_mg_sd_getunitdata (UBYTE sapi, UBYTE nsapi)
{
  UBYTE sapi_index = 0;

  TRACE_ISIG( "sig_mg_sd_getunitdata" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_sapi_index(sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  switch( GET_STATE(SD) )
  {
    case SD_DEFAULT:
      sd_get_unitdata_if_nec(sapi);
      sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_RECEIVE_FIRST_SEGMENT);
      break;
    default:
      TRACE_ERROR( "SIG_MG_SD_GETUNITDATA unexpected" );
      break;
  }
} /* sig_mg_sd_getunitdata() */




/*
+------------------------------------------------------------------------------
| Function    : sig_nd_sd_getunitdata_req
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_ND_SD_GETUNITDATA_REQ
|
| Parameters  : affected sapi, affected nsapi
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_nd_sd_getunitdata_req (UBYTE sapi,
                                        UBYTE nsapi)
{
  UBYTE sapi_index = 0;

  TRACE_ISIG( "sig_nd_sd_getunitdata_req" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_sapi_index(sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
      sd_set_nsapi_rec(nsapi, TRUE);
      break;
    case SD_UNACK_WAIT_NSAPI:
      if (sndcp_data->sd->cur_sn_unitdata_ind[nsapi] NEQ NULL) {
        /*
         * Send the just reassembled N-PDU (must be present because of state!).
         */
        sig_sd_nd_unitdata_ind(nsapi, sndcp_data->sd->cur_sn_unitdata_ind[nsapi]);
        sndcp_data->sd->cur_sn_unitdata_ind[nsapi] = NULL;
        sd_get_unitdata_if_nec(sapi);
        sndcp_set_nsapi_rec_state(nsapi, SD_UNACK_RECEIVE_FIRST_SEGMENT);
      } else {
        /*
         * Set the receptive for the given nsapi.
         */
        sd_set_nsapi_rec(nsapi, TRUE);
      }
      break;
    default:
      TRACE_ERROR( "SIG_ND_SD_GETUNITDATA_REQ unexpected" );
      break;
  }
} /* sig_nd_sd_getunitdata_req() */

/*
+------------------------------------------------------------------------------
| Function    : sig_mg_sd_reset_ind
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_MG_SD_RESET_IND
|
| Parameters  : affected nsapi
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_mg_sd_reset_ind (UBYTE nsapi)
{
  TRACE_ISIG( "sig_mg_sd_reset_ind" );

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
    case SD_UNACK_WAIT_NSAPI:
      sndcp_data->cur_dcomp[nsapi] = 0;
      sndcp_data->cur_pcomp[nsapi] = 0;
      break;
    default:
      TRACE_ERROR( "SIG_MG_SD_RESET_IND unexpected" );
      break;
  }
} /* sig_mg_sd_reset_ind() */


/*
+------------------------------------------------------------------------------
| Function    : sig_pd_sd_unitdata_ind
+------------------------------------------------------------------------------
| Description : Handles the signal PD_SD_UNITDATA_IND
|
| Parameters  : *ll_unitdata_ind - Ptr to primitive payload
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_pd_sd_unitdata_ind ( T_LL_UNITDATA_IND *ll_unitdata_ind )
{
  UBYTE sapi_index = 0;
  BOOL valid = FALSE;
  UBYTE nsapi = 0;

  TRACE_ISIG( "sig_pd_sd_unitdata_ind" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_sapi_index(ll_unitdata_ind->sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  sd_get_nsapi(ll_unitdata_ind, &nsapi);
  sndcp_data->big_head[nsapi] = FALSE;

  /*
   * LLC has now "used up" it's pending LL_GETUNITDATA_REQ and will have
   * to wait for the next one.
   */
  sndcp_data->sd->llc_may_send = FALSE;

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
      /*
       * Invalid segments are discarded without error notification
       */
      sd_is_seg_valid(ll_unitdata_ind, &valid);
      if (!valid) {
        if (ll_unitdata_ind != NULL) {
          UBYTE sapi = ll_unitdata_ind->sapi;
          PFREE(ll_unitdata_ind);
          sd_get_unitdata_if_nec(sapi);
        }
        return;
      }
      if (sd_f_bit(ll_unitdata_ind)) {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_d_f1_m1(ll_unitdata_ind);
        } else {
          sd_un_d_f1_m0(ll_unitdata_ind);
        }
      } else {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_d_f0_m1(ll_unitdata_ind);
        } else {
          sd_un_d_f0_m0(ll_unitdata_ind);
        }
      }
      break;
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
      /*
       * Invalid segments are discarded without error notification
       */
      sd_is_seg_valid(ll_unitdata_ind, &valid);
      if (!valid) {
        if (ll_unitdata_ind != NULL) {
          UBYTE sapi = ll_unitdata_ind->sapi;
          PFREE (ll_unitdata_ind);
          sd_get_unitdata_if_nec(sapi);
        }
        return;
      }
      if (sd_f_bit(ll_unitdata_ind)) {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_f_f1_m1(ll_unitdata_ind);
        } else {
          sd_un_f_f1_m0(ll_unitdata_ind);
        }
      } else {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_f_f0_m1(ll_unitdata_ind);
        } else {
          sd_un_f_f0_m0(ll_unitdata_ind);
        }
      }

      break;
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
      /*
       * Invalid segments are discarded without error notification
       */
      sd_is_seg_valid(ll_unitdata_ind, &valid);
      if (!valid) {
        if (ll_unitdata_ind != NULL) {
          UBYTE sapi = ll_unitdata_ind->sapi;
          PFREE(ll_unitdata_ind);
          sd_get_unitdata_if_nec(sapi);
        }
        return;
      }
      if (sd_f_bit(ll_unitdata_ind)) {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_s_f1_m1(ll_unitdata_ind);
        } else {
          sd_un_s_f1_m0(ll_unitdata_ind);
        }
      } else {
        if (sd_m_bit(ll_unitdata_ind)) {
          sd_un_s_f0_m1(ll_unitdata_ind);
        } else {
          sd_un_s_f0_m0(ll_unitdata_ind);
        }
      }

      break;

    case SD_UNACK_WAIT_NSAPI:
      /*
       * This NSAPI is waiting for the DL flow control prim
       * from upper layer. The data for other NSAPI's could get passed,
       * but since this packet is for the blocked NSAPI, the prim is discarded
       * and next packet is not requested.
       */
      if (ll_unitdata_ind != NULL) {
        PFREE (ll_unitdata_ind);
      }
      break;

    default:
      TRACE_ERROR( "SIG_PD_SD_UNITDATA_IND unexpected" );
      if (ll_unitdata_ind != NULL) {
        UBYTE sapi = ll_unitdata_ind->sapi;
        PFREE (ll_unitdata_ind);
        sd_get_unitdata_if_nec(sapi);
      }
      break;
  }

} /* sig_pd_sd_unitdata_ind() */

/*
+------------------------------------------------------------------------------
| Function    : sig_cia_sd_getunitdata
+------------------------------------------------------------------------------
| Description : Handles the internal signal SIG_CIA_SD_GETUNITDATA
|
| Parameters  : sapi
|
+------------------------------------------------------------------------------
*/
GLOBAL void sig_cia_sd_getunitdata (UBYTE sapi, UBYTE nsapi)
{
  UBYTE sapi_index = 0;

  TRACE_ISIG( "sig_cia_sd_getunitdata" );

   /*
    * set service instance according to sapi in primitive
    */
  sndcp_get_sapi_index(sapi, &sapi_index);
  sndcp_data->sd = & sndcp_data->sd_base[sapi_index];

  switch( sndcp_get_nsapi_rec_state(nsapi) )
  {
    case SD_UNACK_DISCARD:
    case SD_UNACK_RECEIVE_FIRST_SEGMENT:
    case SD_UNACK_RECEIVE_SUBSEQUENT_SEGMENT:
    case SD_UNACK_WAIT_NSAPI:
      sd_get_unitdata_if_nec(sapi);
      break;
    default:
      TRACE_ERROR( "SIG_CIA_SD_GETUNITDATA unexpected" );
      break;
  }
} /* sig_cia_sd_getunitdata() */