view src/g23m-gprs/gmm/gmm_txf.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   :  gmm_txf.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 GMM and implements all 
|             procedures and functions as described in the 
|             SDL-documentation (TX-statemachine)
+----------------------------------------------------------------------------- 
*/ 


#ifndef GMM_TXF_C
#define GMM_TXF_C
#endif

#define ENTITY_GMM

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

#include "typedefs.h"    /* to get Condat data types */
#include "vsi.h"        /* to get a lot of macros */
#include "macdef.h"
#include "gprs.h"
#include "gsm.h"        /* to get a lot of macros */
#include "ccdapi.h"     /* to get CCD API */
#include "cnf_gmm.h"    /* to get cnf-definitions */
#include "mon_gmm.h"    /* to get mon-definitions */
#include "prim.h"       /* to get the definitions of used SAP and directions */
#include "gmm.h"        /* to get the global entity definitions */
#include "gmm_f.h"      /* to get the gmm_get_tlli procedure */
#include <string.h>     /* to get memset */

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

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

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

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



/*
+------------------------------------------------------------------------------
| Function    : txgmm_init
+------------------------------------------------------------------------------
| Description : The function txgmm_init() .... 
|
| Parameters  : void
|
+------------------------------------------------------------------------------
*/
GLOBAL void txgmm_init ( void )
{ 
  TRACE_FUNCTION( "txgmm_init" );

  /*
   * Initialise service TX with state TX_READY.
   */
  INIT_STATE ( TX, TX_READY );
  
} /* txgmm_init() */
/*
+------------------------------------------------------------------------------
| Function    : tx_fill_unitdata_req
+------------------------------------------------------------------------------
| Description : This procedure tx_fill_unitdata_req() fills the primitive
|               ll_unitdata_req with all necessary dafault parameters.except
|               the SDU 
|               
|
| Parameters  : ll_unitdata_req - the primitive, which has to be filled
|               
|
+------------------------------------------------------------------------------
*/
GLOBAL void tx_fill_unitdata_req ( T_LL_UNITDATA_REQ *ll_unitdata_req_p, T_TLLI_TYPE tlli_type, BOOL cipher )
{
  GMM_TRACE_FUNCTION ("tx_fill_unitdata_req");
  ll_unitdata_req_p-> sapi            = LL_SAPI_1;
  ll_unitdata_req_p-> tlli            = gmm_get_tlli ( tlli_type );
  ll_unitdata_req_p-> ll_qos.delay    = LL_DELAY_SUB; 
  ll_unitdata_req_p-> ll_qos.peak     = LL_PEAK_SUB;
  ll_unitdata_req_p-> ll_qos.preced   = LL_PRECED_SUB;
  ll_unitdata_req_p-> ll_qos.mean     = LL_MEAN_SUB;
  ll_unitdata_req_p-> cipher          = 
                                    (gmm_data->config.cipher_on?cipher:FALSE);
  /*
   * all GMM (and SM) messages are transmitted in RLC/MAC acknowledged mode
   */
  ll_unitdata_req_p-> ll_qos.relclass = LL_RLC_PROT;
  /*
   * all GMM messages have highest priority (!!!!! what about SM?)
   */
  ll_unitdata_req_p-> radio_prio      = LL_RADIO_PRIO_1;
  ll_unitdata_req_p->ll_qos.reserved_1  = 0xff;
  ll_unitdata_req_p->ll_qos.reserved_2  = 0xff;
  ll_unitdata_req_p->ll_qos.reserved_3  = 0xff;
  ll_unitdata_req_p->reserved_unitdata_req1.ref_npdu_num = 0xffff;
  ll_unitdata_req_p->reserved_unitdata_req1.ref_nsapi   = 0xff;
  ll_unitdata_req_p->reserved_unitdata_req1.ref_seg_num  = 0xff;
  ll_unitdata_req_p->reserved_unitdata_req4 = 0xffffffff;

#ifdef REL99
  /*
   * This change is related to R99.
   */
  ll_unitdata_req_p->pkt_flow_id        = 0xffff; /* TCS 4.0 */
#else
  ll_unitdata_req_p->reserved_unitdata_req5   = 0xffff;
#endif

  ll_unitdata_req_p->seg_pos            = 0xff;
  ll_unitdata_req_p->attached_counter= 0x00;
  
  GMM_RETURN;
}

/*
+------------------------------------------------------------------------------
| Function    : tx_unitdata_req
+------------------------------------------------------------------------------
| Description : This procedure tx_unitdata_req() fills the primitive
|               ll_unitdata_req with all necessary parameters.and sends
|               the message to LLC
|               
|
| Parameters  : tlli_type       - local, foreign or random
|               
|
+------------------------------------------------------------------------------
*/
GLOBAL void tx_unitdata_req ( T_TLLI_TYPE tlli_type, UBYTE msg_type )
{ 
  U8 *payload;
#ifndef GMM_TCS4
  U16 length;
#endif
  
  GMM_TRACE_FUNCTION( "tx_unitdata_req" );
  _decodedMsg[0] = msg_type;

  /*
   * send the message to LLC
   */
  {
    USHORT bit_size = bit_size_message_table[msg_type] + LLC_SDU_OFFSET_BITS;
    PALLOC_SDU ( ll_unitdata_req_p, LL_UNITDATA_REQ, bit_size );    
    
    ll_unitdata_req_p->sdu.o_buf = LLC_SDU_OFFSET_BITS;
    /*
     * l_buf has to be set to inform CCD how many bit must be reset
     */
    ll_unitdata_req_p->sdu.l_buf = bit_size_message_table[msg_type];
    
    /*
     * fills the primitive with all necessary data
     */

    if ( gmm_data->cipher ) 
    {
      switch ( _decodedMsg [0] )
      {
        case ATTACH_REQUEST:
        case ATTACH_REJECT:
        case AUTHENTICATION_AND_CIPHERING_REQUEST:
        case AUTHENTICATION_AND_CIPHERING_RESPONSE:
        case AUTHENTICATION_AND_CIPHERING_REJECT:
        case IDENTITY_RESPONSE:
        case ROUTING_AREA_UPDATE_REQUEST:
         /*
          * <R.GMM.CIPHMSG.M.001>
          */
          tx_fill_unitdata_req ( ll_unitdata_req_p,
                           tlli_type,
                           LL_CIPHER_OFF );

          break;
        default:
          tx_fill_unitdata_req ( ll_unitdata_req_p,
                           tlli_type,
                           LL_CIPHER_ON );
          break;
      }
    }
    else
    {
          tx_fill_unitdata_req ( ll_unitdata_req_p,
                           tlli_type,
                           LL_CIPHER_OFF );

    }

    if ( ccd_codeMsg ( CCDENT_GMM,
                        UPLINK,
                        (T_MSGBUF  *) &ll_unitdata_req_p->sdu,
                        _decodedMsg,
                        NOT_PRESENT_8BIT) != ccdOK
      )
    {

     /*
      * Error Handling
      */
      TRACE_ERROR( "CCD_ERROR: Error Handling for ccd-output not yet supported" ) ;
      PFREE ( ll_unitdata_req_p );
    } 
    else
    {
      /*
       * Set the Protocol discriminator to PD_GMM, defined in GSM 4.0.8
       * Set the Skip indicater to 0 
       */     
      ccd_codeByte (ll_unitdata_req_p->sdu.buf,
                   (USHORT)(ll_unitdata_req_p->sdu.o_buf - 8),
                    8,
                    PD_GMM);
      ll_unitdata_req_p->sdu.l_buf += 8;
      ll_unitdata_req_p->sdu.o_buf -= 8;
    
      #ifndef NTRACE

      payload = &(ll_unitdata_req_p->sdu.buf[0]);     /* beginning of buffer      */
      payload += (ll_unitdata_req_p->sdu.o_buf) >> 3; /*  plus offset (bytes)     */
#ifndef GMM_TCS4
      length  = (ll_unitdata_req_p->sdu.l_buf) >> 3;  /* length (bytes, bits / 8) */
#endif

      switch ( _decodedMsg [0] )
        {
        case ATTACH_REQUEST:
          TRACE_0_OUT_PARA ( "ATTACH_REQ" );
#ifndef GMM_TCS4
          TRACE_BINDUMP( GMM_handle,
             TC_USER4,
             "ATTACH REQUEST",
             payload,
             length);
#endif
          break;
        case ATTACH_COMPLETE:
          TRACE_0_OUT_PARA ( "ATTACH_COMPLETE" ); 
          break;
        case U_DETACH_REQUEST:
          TRACE_0_OUT_PARA ( "DETACH_REQ" );
          break;
        case U_DETACH_ACCEPT:
          TRACE_0_OUT_PARA ( "DETACH_ACC" );
          break;
        case ROUTING_AREA_UPDATE_REQUEST:
          TRACE_0_OUT_PARA ( "RAU_REQ" );
#ifndef GMM_TCS4
          TRACE_BINDUMP( GMM_handle,
             TC_USER4,
             "ROUTING AREA UPDATE REQUEST",
             payload,
             length);
#endif
          break;
        case ROUTING_AREA_UPDATE_COMPLETE:
          TRACE_0_OUT_PARA ( "RAU_COMPLETE" );
          break;
        case P_TMSI_REALLOCATION_COMPLETE:
          TRACE_0_OUT_PARA ( "PTMSI_REALLOC_COMPLETE" );
          break;
        case AUTHENTICATION_AND_CIPHERING_RESPONSE:
          TRACE_0_OUT_PARA ( "A&C_RES" );
          break;
        case IDENTITY_RESPONSE:
          TRACE_0_OUT_PARA ( "ID_RES");
          break;
        case GMM_STATUS:
          TRACE_0_OUT_PARA ( "GMM_STATUS");
          break;
        /* wrong direction: */
        case ATTACH_ACCEPT:      
          TRACE_ERROR ( "ATTACH_ACC not uplink direction");
          break;
        case ATTACH_REJECT:
          TRACE_ERROR ( "ATTACH_REJECT not uplink direction");
          break;
        case ROUTING_AREA_UPDATE_ACCEPT:
          TRACE_ERROR ( "ROUTING_AREA_UPDATE_ACCEPT not uplink direction");
          break;
        case ROUTING_AREA_UPDATE_REJECT:
          TRACE_ERROR ( "ROUTING_AREA_UPDATE_REJECT not uplink direction");
          break;
        case P_TMSI_REALLOCATION_COMMAND:
          TRACE_ERROR ( "PTMSI_REALLOC_CMD not uplink direction");
          break;
        case AUTHENTICATION_AND_CIPHERING_REQUEST:
          TRACE_ERROR ( "A&C_REQ not uplink direction");
          break;
        case AUTHENTICATION_AND_CIPHERING_REJECT:
          TRACE_ERROR ( "A&C_REJ not uplink direction");
          break;
        case IDENTITY_REQUEST:
          TRACE_ERROR ( "ID_REQ not uplink direction");
          break;
        case GMM_INFORMATION:
          TRACE_ERROR ( "GMM_INFO not uplink direction");
          break;
        default:
          TRACE_ERROR ("Unknown GMM PDU");
          break;
      }
    #endif /* _SIMULATION_ */

    PSEND ( hCommLLC, ll_unitdata_req_p);

    }
  }
  GMM_RETURN;
} /* tx_fill_unitdata_req() */