view src/g23m-gprs/cci/cci_fbsf.c @ 695:530f71d65c20

uartfax.c: pull from Tourmaline (GTM900 RI output) In addition to the primary intent of bringing in GTM900 RI output support, pulling uartfax.c wholesale from Tourmaline also changes the initial_time argument in the two NU_Create_Timer() calls from 0 to 1. This change is required for the new version of Nucleus used in Tourmaline and Selenite (and apparently also used by TI in LoCosto), and it is harmless (no effect) for the original TCS211 version of Nucleus used in Magnetite. The new philosophical model being adopted is that Tourmaline is our new development head firmware, whereas Magnetite will now be maintained similarly to how Linux maintainers treat stable kernels: changes will be backported from Tourmaline if they are deemed appropriate for stable modem firmware.
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 24 Oct 2020 17:33:10 +0000
parents 219afcfc6250
children
line wrap: on
line source

/* 
+----------------------------------------------------------------------------- 
|  Project :  
|  Modul   : cci_fbsf.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 module implements local functions for service FBS of
|             entity CCI.
+----------------------------------------------------------------------------- 
*/ 


#define CCI_FBSF_C

#define ENTITY_LLC

/*==== INCLUDES =============================================================*/
#include <string.h>

#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 "cnf_llc.h"    /* to get cnf-definitions */
#include "mon_llc.h"    /* to get mon-definitions */
#include "prim.h"       /* to get the definitions of used SAP and directions */
#include "cci.h"        /* to get the global entity definitions */
#include "llc.h"        /* to get the global entity definitions */

#include "cci_fbsf.h"
#include "llc_txp.h"
#include "llc_rxp.h"

#ifndef TI_PS_OP_CIPH_DRIVER

#ifdef _GEA_SIMULATION_
#include "cci_hw_sim.h"
#endif

#if !defined(_GEA_SIMULATION_) && !defined(LL_2to1)
#include "config/chipset.cfg"
#if (CHIPSET == 12) || (CHIPSET == 14)
#include "cci_gea_start.h"
#endif /* CHIPSET */
#endif /* ! _GEA_SIMULATION_ && !LL_2to1 */

/* local buffer for the copy of ciphering key */
static USHORT tmp_key[4];



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

/*==== LOCAL VARS ===========================================================*/
#ifdef _GEA_SIMULATION_
USHORT* hw_reg = NULL;
#endif

/*==== LOCAL FUNCTION ===========================================================*/

LOCAL void ciph_get_result (T_CIPH_out_data *out_data, U8 *status);
LOCAL void ciph_init (void);
LOCAL void ciph_reset_hw (void);
LOCAL UBYTE ciph_fcs_check (UBYTE *fcs_start);
LOCAL void ciph_get_ciphered_data (T_CIPH_out_data *out_data);
LOCAL void ciph_get_deciphered_data (T_CIPH_out_data *out_data, U8 *status);
LOCAL void ciph_fill_ul_reg (T_CIPH_cipher_req_parms *cipher_req_parms,
                              T_CIPH_in_data_list *in_data_list);
LOCAL void ciph_fill_dl_reg (T_CIPH_cipher_req_parms *cipher_req_parms,
                              T_CIPH_in_data_list *in_data_list);

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

#ifdef LLC_TRACE_GEA_PARAM
LOCAL void cci_trace_gea_param( void );
#endif

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

/*
+------------------------------------------------------------------------------
| Function    : ciph_cipher_req_sim
+------------------------------------------------------------------------------
| Description : Handles the primitive ciph_cipher_req. It is used to request 
|               ciphering or deciphering of a LLC PDU. 
|
| Parameters  : 
|
+------------------------------------------------------------------------------
*/
GLOBAL void ciph_cipher_req_sim (T_CIPH_cipher_req_parms *cipher_req_parms_ptr,
                             T_CIPH_in_data_list *in_data_ptr,
                             T_CIPH_out_data *out_data_ptr,
                             U8 *status) {
  
  USHORT volatile *cntl = cci_data->fbs.cntl_reg;
  int i = 0;
  ULONG cnt = 0;


  TRACE_FUNCTION( "ciph_cipher_req" );

  /* reset GEA (enables and then disables clock) */
  ciph_reset_hw();
  
  *cntl |= CL_ENABLE;

  /* fill UL or DL configuration and data registers */

  if (cci_data->fbs.ciph_params.direction == CIPH_UPLINK_DIR) {
    ciph_fill_ul_reg (cipher_req_parms_ptr, in_data_ptr );
#ifdef LL_2to1
    *cntl = (*cntl & UL_DL_UP) | START;
#else /* LL_2to1 */
#if (CHIPSET == 12) || (CHIPSET == 14)
    /* GEA work-around */
    *cntl = (*cntl & UL_DL_UP);
    gea_start();
#else
    *cntl = (*cntl & UL_DL_UP) | START;
#endif
#endif /* LL_2to1 */
  } else {
    ciph_fill_dl_reg (cipher_req_parms_ptr, in_data_ptr );
#ifdef LL_2to1
    *cntl |= (UL_DL_DOWN | START);
#else /* LL_2to1 */
#if (CHIPSET == 12) || (CHIPSET == 14)
    /* GEA work-around */
    *cntl |= (UL_DL_DOWN);
    gea_start();
#else
    *cntl |= (UL_DL_DOWN | START);
#endif
#endif /* LL_2to1 */
  }

  out_data_ptr->len = 0;
  for (i = 0; i < in_data_ptr->c_in_data; i++) {
    out_data_ptr->len += in_data_ptr->ptr_in_data[i].len;
  }

  if (cci_data->fbs.ciph_params.direction == CIPH_DOWNLINK_DIR) {
    out_data_ptr->len -= FCS_SIZE;
  } else {
    out_data_ptr->len += FCS_SIZE;
  }
  

#ifdef _GEA_SIMULATION_
  if (cci_data->fbs.ciph_params.direction == CIPH_UPLINK_DIR) {
    ciph_hw_sim_cipher(out_data_ptr->len);
  } else {
    ciph_hw_sim_decipher();
  }
#endif

  /* poll until data is processed */
  if(cci_data->fbs.cci_info_trace){
    while (*(cci_data->fbs.status_reg) & CHECK_WORKING){
      cnt += 1;
    };
    TRACE_EVENT_P1("INFO CCI: ciphering completed, counter: %d", cnt);
  } else {
    while (*(cci_data->fbs.status_reg) & CHECK_WORKING){ };
  }

  /* verify ciphering key, whether it has been corrupted */
  if(cci_data->fbs.cci_info_trace){
    if(*cci_data->fbs.kc_reg1 != tmp_key[0] ||
       *cci_data->fbs.kc_reg2 != tmp_key[1] ||
       *cci_data->fbs.kc_reg3 != tmp_key[2] ||
       *cci_data->fbs.kc_reg4 != tmp_key[3])
      {
        TRACE_ERROR("CCI ERROR: Ciphering key has been corrupted!!");
        TRACE_EVENT_P4("CCI: original key: %04x %04x %04x %04x %04x %04x",
        tmp_key[0], tmp_key[1], tmp_key[2], tmp_key[3]);
        TRACE_EVENT_P4("CCI: kc key: %04x %04x %04x %04x %04x %04x",
        *cci_data->fbs.kc_reg1, *cci_data->fbs.kc_reg2,
        *cci_data->fbs.kc_reg3, *cci_data->fbs.kc_reg4);
      }
  }

  /* and finally handle the result */
  ciph_get_result(out_data_ptr, status);

  /* disable clock until new frames are to process */
  *cntl &= CL_DISABLE;

}


/*
+------------------------------------------------------------------------------
| Function    : ciph_init_cipher_req_sim
+------------------------------------------------------------------------------
| Description : Handles the primitive ciph_init_cipher_req_sim.
|
| Parameters  : 
|
+------------------------------------------------------------------------------
*/
GLOBAL void ciph_init_cipher_req_sim (T_CIPH_init_cipher_req_parms *init_cipher_req_parms_ptr, 
                                 void (*read_data) (void))
{
  if (!cci_data->fbs.initialized){
    ciph_init();
    cci_data->fbs.initialized = TRUE;
  }
  cci_data->fbs.ciph_params = *init_cipher_req_parms_ptr;
}

/*
+------------------------------------------------------------------------------
| Function    : ciph_get_result
+------------------------------------------------------------------------------
| Description : Handles the function ciph_get_result. This function gets the 
|               ciphered data in uplink direction or deciphered data in 
|               downlink direction 
|
| Parameters  : 
+------------------------------------------------------------------------------
*/
LOCAL void ciph_get_result (T_CIPH_out_data *out_data, U8 *status)
{ 
  TRACE_FUNCTION( "ciph_get_result" );
  
  switch(cci_data->fbs.ciph_params.direction)
  {
    case CIPH_UPLINK_DIR:
      if( *(cci_data->fbs.status_reg) & CHECK_WORKING )
      {
        break;
      }
      else
      {
        ciph_get_ciphered_data (out_data);
      }
      break;

    case CIPH_DOWNLINK_DIR:
      if( *(cci_data->fbs.status_reg) & CHECK_WORKING )
      {
        break;
      }
      else
      {
        ciph_get_deciphered_data (out_data, status);
      }
      break;
    
    default:
      TRACE_ERROR( "TIMER unexpected" );
      break;
  }

} /* ciph_get_result() */


/*
+------------------------------------------------------------------------------
| Function    : ciph_init
+------------------------------------------------------------------------------
| Description : The function ciph_init() initializes the registers.
|
| Parameters  : 
|
+------------------------------------------------------------------------------
*/
LOCAL void ciph_init ( void )
{ 
  USHORT  *reg;

  TRACE_FUNCTION( "ciph_init" );


#ifdef _GEA_SIMULATION_

  TRACE_EVENT ("GEA simulation is used");

  /* 
   * initialization of registers - do it only once to handle restart of CCI 
   * 'hw_req' points to a set of 16 bit registers
   * 'fbs.simulated_reg_buffer' points to a 1596 bytes buffer for data
   */
  if (hw_reg == NULL)
  {
    MALLOC(hw_reg, sizeof(USHORT) * 26+1 );
  }
  memset(hw_reg, 0, sizeof(USHORT) * 26+1);

  if (cci_data->fbs.simulated_reg_buffer == NULL)
  {
    MALLOC(cci_data->fbs.simulated_reg_buffer, 1596);
  }
  memset(cci_data->fbs.simulated_reg_buffer, 0, 1596);
 
  reg = &hw_reg[0];

#else

  TRACE_EVENT ("GEA hardware is used");

  reg = (USHORT *)START_ADRESS;

#endif

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample*/
  
  /* 01 */ cci_data->fbs.cntl_reg      = reg++;       /* 00 */
  /* 02 */ cci_data->fbs.status_reg    = reg++;       /* 02 */
  /* 03 */ cci_data->fbs.status_irq_reg= reg++;       /* 04 */

  /* 04 */ cci_data->fbs.conf_ul_reg1  = reg++;       /* 06 */
  /* 05 */ cci_data->fbs.conf_ul_reg2  = reg++;       /* 08 */
  /* 06 */ cci_data->fbs.conf_ul_reg3  = reg++;       /* 0A */
  /* 07 */ cci_data->fbs.conf_ul_reg4  = reg++;       /* 0C */
  /* 08 */ cci_data->fbs.conf_ul_reg5  = reg++;       /* 0E */

  /* 09 */ cci_data->fbs.conf_dl_reg1  = reg++;       /* 10 */
  /* 10 */ cci_data->fbs.conf_dl_reg2  = reg++;       /* 12 */
  /* 11 */ cci_data->fbs.conf_dl_reg3  = reg++;       /* 14 */
  /* 12 */ cci_data->fbs.conf_dl_reg4  = reg++;       /* 16 */
  /* 13 */ cci_data->fbs.conf_dl_reg5  = reg++;       /* 18 */

  /* 14 */ cci_data->fbs.kc_reg1       = reg++;       /* 1A */
  /* 15 */ cci_data->fbs.kc_reg2       = reg++;       /* 1C */
  /* 16 */ cci_data->fbs.kc_reg3       = reg++;       /* 1E */
  /* 17 */ cci_data->fbs.kc_reg4       = reg++;       /* 20 */

  /* 22 */                               reg++;       /* 22 */
  /* 22 */                               reg++;       /* 24 */
  /* 22 */                               reg++;       /* 26 */
  /* 22 */                               reg++;       /* 28 */

  /* 18 */ cci_data->fbs.fcs_ul_reg1   = reg++;       /* 2A */
  /* 19 */ cci_data->fbs.fcs_ul_reg2   = reg++;       /* 2C */

  /* 20 */ cci_data->fbs.fcs_dl_reg1   = reg++;       /* 2E */
  /* 21 */ cci_data->fbs.fcs_dl_reg2   = reg++;       /* 30 */
                                            
  /* 22 */ cci_data->fbs.switch_reg    = reg++;       /* 32 */
                                            
  /* 25 */ cci_data->fbs.data16_reg    = reg++;       /* 34 */
  /* 26 */ cci_data->fbs.data8_reg     = (UBYTE*)reg; /* 36 */

  *cci_data->fbs.switch_reg = 0;

#else

  /* 01 */ cci_data->fbs.cntl_reg      = reg++;       /* 00 */
  /* 02 */ cci_data->fbs.status_reg    = reg++;       /* 02 */
  /* 03 */ cci_data->fbs.status_irq_reg= reg++;       /* 04 */

  /* 04 */ cci_data->fbs.conf_ul_reg1  = reg++;       /* 06 */
  /* 05 */ cci_data->fbs.conf_ul_reg2  = reg++;       /* 08 */
  /* 06 */ cci_data->fbs.conf_ul_reg3  = reg++;       /* 0A */
  /* 07 */ cci_data->fbs.conf_ul_reg4  = reg++;       /* 0C */
  /* 08 */ cci_data->fbs.conf_ul_reg5  = reg++;       /* 0E */

  /* 09 */ cci_data->fbs.conf_dl_reg1  = reg++;       /* 10 */
  /* 10 */ cci_data->fbs.conf_dl_reg2  = reg++;       /* 12 */
  /* 11 */ cci_data->fbs.conf_dl_reg3  = reg++;       /* 14 */
  /* 12 */ cci_data->fbs.conf_dl_reg4  = reg++;       /* 16 */
  /* 13 */ cci_data->fbs.conf_dl_reg5  = reg++;       /* 18 */

  /* 14 */ cci_data->fbs.kc_reg1       = reg++;       /* 1A */
  /* 15 */ cci_data->fbs.kc_reg2       = reg++;       /* 1C */
  /* 16 */ cci_data->fbs.kc_reg3       = reg++;       /* 1E */
  /* 17 */ cci_data->fbs.kc_reg4       = reg++;       /* 20 */

  /* 18 */ cci_data->fbs.fcs_ul_reg1   = reg++;       /* 22 */
  /* 19 */ cci_data->fbs.fcs_ul_reg2   = reg++;       /* 24 */

  /* 20 */ cci_data->fbs.fcs_dl_reg1   = reg++;       /* 26 */
  /* 21 */ cci_data->fbs.fcs_dl_reg2   = reg++;       /* 28 */
                                            
  /* 22 */                               reg++;       /* 2A */
  /* 23 */                               reg++;       /* 2C */
  /* 24 */                               reg++;       /* 2E */
                                            
  /* 25 */ cci_data->fbs.data16_reg    = reg++;       /* 30 */
  /* 26 */ cci_data->fbs.data8_reg     = (UBYTE*)reg; /* 32 */
#endif /* Board 61 or 71*/

#ifdef _GEA_SIMULATION_
  cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer;
#endif

#ifndef _GEA_SIMULATION_
  TRACE_EVENT ("Received FCS will be verified");
#endif

  /* finaly reset the HW */
  ciph_reset_hw();

  /* initialize flag for CCI info trace */
  cci_data->fbs.cci_info_trace = FALSE;
  /* initialize freed partition counter  */
  cci_data->fbs.cci_freed_partition = 0;

} /* ciph_init() */


/*
+------------------------------------------------------------------------------
| Function    : ciph_reset_hw
+------------------------------------------------------------------------------
| Description : Resets the hardware 
|
+------------------------------------------------------------------------------
*/
LOCAL void ciph_reset_hw ( void )
{ 
  USHORT volatile *cntl = cci_data->fbs.cntl_reg;

  TRACE_FUNCTION( "ciph_reset_hw" );

  /* making the clock enable */
  *cntl |= CL_ENABLE;

  /* start reset in both directions and disable interrupt */
  *cntl &= ~(RESET_UL | RESET_DL | IT_ENABLE);

#ifdef _GEA_SIMULATION_

  *cci_data->fbs.status_reg &= NOT_WORKING;

  /* simulate reset complete */
  *cntl |= RESET_UL;
  *cntl |= RESET_DL;

#endif

  /* wait until reset is ready (both bits back high) */
  while ((*cntl & (RESET_UL|RESET_DL)) != (RESET_UL|RESET_DL))
    ;

  /* disable clock until new frames are to process */
  *cntl &= CL_DISABLE;

} /* ciph_reset_hw() */

/*
+------------------------------------------------------------------------------
| Function    : ciph_fcs_check
+------------------------------------------------------------------------------
| Description : The function compares the 3 bytes FCS for downlink direction
|
| Parameters  : *fcs_start - pointer to beginning of fcs field
|
| Returns     : CCI_FCS_PASSED - if equal
|               CCI_FCS_FAILED - if NOT equal
+------------------------------------------------------------------------------
*/
LOCAL UBYTE ciph_fcs_check (UBYTE* fcs_start)
{ 
  TRACE_FUNCTION( "ciph_fcs_check" );

#ifdef _CHECK_RECEIVED_FCS_
#ifdef _GEA_SIMULATION_
  /*
   * Compare FCS, taking byte ordering of FCS registers into account (Intel
   * format: high-/lowbyte swaped)
   */
  if (* fcs_start    == (UBYTE) (*cci_data->fbs.fcs_dl_reg1 & 0x00FF)       &&
      *(fcs_start+1) == (UBYTE)((*cci_data->fbs.fcs_dl_reg1 & 0xFF00) >> 8) &&
      *(fcs_start+2) == (UBYTE) (*cci_data->fbs.fcs_dl_reg2 & 0x00FF)        )
  {
    /* clear bit to indicate FCS is ok */
    *cci_data->fbs.status_reg &= ~(FCS_FALSE_BIT);
  }
  else
  {
    /* set bit to indicate FCS is false */
    *cci_data->fbs.status_reg |= FCS_FALSE_BIT;
  }

  /*
   * Check, if FCS false bit is set
   */
  if (*cci_data->fbs.status_reg & FCS_FALSE_BIT)
  {
    TRACE_EVENT("Info: Received FCS is wrong");
    return CIPH_FCS_ERROR;
  }
#endif /* _GEA_SIMULATION_ */
#endif /* _CHECK_RECEIVED_FCS_ */


#ifndef _GEA_SIMULATION_
  /*
   * Check, if FCS false bit is set
   */
  if (*cci_data->fbs.status_reg & FCS_FALSE_BIT)
  {
    TRACE_0_INFO("Received FCS is wrong");
    return CIPH_FCS_ERROR;
  }
#endif /* _GEA_SIMULATION_ */

  return CIPH_CIPH_PASS;

} /* ciph_fcs_check() */


/*
+------------------------------------------------------------------------------
| Function    : ciph_get_ciphered_data
+------------------------------------------------------------------------------
| Description : The function ciph_get_ciphered_data() copies the result of the ciphered 
|               data to destination buffer.
|
| Parameters  :
|
+------------------------------------------------------------------------------
*/
LOCAL void ciph_get_ciphered_data (T_CIPH_out_data *out_data)
{  
  int    frame16, 
         frame8, 
         i;
  USHORT *sdu_data16;
  UBYTE  *sdu_data8;

  TRACE_FUNCTION( "ciph_get_ciphered_data" );

  i       = out_data->len - FCS_SIZE;

  frame16 = i / 2; 
  frame8  = i % 2; 

#ifdef _GEA_SIMULATION_
  cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer;
#endif /* _GEA_SIMULATION_ */

  sdu_data16 = (USHORT*)out_data->buf;

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 1;

#ifdef LLC_TRACE_GEA_PARAM
  cci_trace_gea_param();
#endif

#endif

  for (i=0; i<frame16; i++)
  {

#ifdef _GEA_SIMULATION_
    ciph_reg16_read_sim();
#endif

    *sdu_data16 = *cci_data->fbs.data16_reg;

    sdu_data16++;
  }
   
  sdu_data8 = (UBYTE*)sdu_data16;

  if (frame8 != 0)
  {

#ifdef _GEA_SIMULATION_
    ciph_reg8_read_sim();
#endif

   *sdu_data8 = *cci_data->fbs.data8_reg;

    sdu_data8++;
  }

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 0;
#endif

  /*
   * Copy FCS to destination sdu, taking byte ordering of FCS registers
   * into account, e.g.:
   *   reg1   reg2       sdu
   *   29 FC  xx 36  ->  FC 29 36
   */
  *sdu_data8 = (UBYTE) (*cci_data->fbs.fcs_ul_reg1 & 0x00FF);
  sdu_data8++;
  *sdu_data8 = (UBYTE)((*cci_data->fbs.fcs_ul_reg1 & 0xFF00) >> 8);
  sdu_data8++;
  *sdu_data8 = (UBYTE) (*cci_data->fbs.fcs_ul_reg2 & 0x00FF);

} /* ciph_get_ciphered_data() */

/*
+------------------------------------------------------------------------------
| Function    : ciph_get_deciphered_data
+------------------------------------------------------------------------------
| Description : The function ciph_get_deciphered_data() .... 
|
| Parameters  : T_CCI_DECIPHER_CNF *decipher_cnf
|
+------------------------------------------------------------------------------
*/
LOCAL void ciph_get_deciphered_data (T_CIPH_out_data *out_data, U8 *status)
{  
  int    i,
         frame8,
         frame16;
  USHORT *sdu_data16;
  UBYTE  *sdu_data8;


  TRACE_FUNCTION( "ciph_get_deciphered_data" );

  i       = out_data->len;

  frame16 = i / 2;
  frame8  = i % 2;

#ifdef _GEA_SIMULATION_
  cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer;
#endif

  sdu_data16 = (USHORT*)out_data->buf;

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 1;
#endif

  for (i=0; i<frame16; i++)
  {

#ifdef _GEA_SIMULATION_
    ciph_reg16_read_sim();
#endif

    *sdu_data16 = *cci_data->fbs.data16_reg;

    sdu_data16++;
  }
  
  sdu_data8 = (UBYTE*)sdu_data16;

  if (frame8 != 0)
  {

#ifdef _GEA_SIMULATION_
    ciph_reg8_read_sim();
#endif

    *sdu_data8 = *cci_data->fbs.data8_reg;

    sdu_data8++;
  }

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 0;
#endif

  /*
   * Get result from FCS calculation
   */
  *status = ciph_fcs_check(sdu_data8);

} /* ciph_get_deciphered_data() */



/*
+------------------------------------------------------------------------------
| Function    : ciph_fill_ul_reg
+------------------------------------------------------------------------------
| Description : The function ciph_fill_ul_reg() fills the uplink registers. 
|
| Parameters  : 
+------------------------------------------------------------------------------
*/
LOCAL void ciph_fill_ul_reg ( T_CIPH_cipher_req_parms *cipher_req_parms,
                              T_CIPH_in_data_list *in_data_list )
{ 
  int    i, j; 
  int    frame8;
  UBYTE  *desc_data8;
  U16 len = 0;

  TRACE_FUNCTION( "ciph_fill_ul_reg" );

  /* 
   * setting the protected mode variable 
   */
  if (cipher_req_parms->gprs_parameters.pm EQ CIPH_PM_PROTECTED)    
  {
    *cci_data->fbs.conf_ul_reg1 |= PROTECTED;
  }
  else
  {   
    *cci_data->fbs.conf_ul_reg1 &= NON_PROTECTED;
  }
    
  /* 
   * FCS is always calculated
   */
  *cci_data->fbs.conf_ul_reg1 |= FCS_COMPUTED; 

  /*
   * direction is uplink 
   */
  /* Direction muss noch in init function gesetzt werden */
  *cci_data->fbs.conf_ul_reg1 &= D_UL;

  if (cci_data->fbs.ciph_params.algo NEQ CIPH_EA0) 
  {
    *cci_data->fbs.conf_ul_reg1 |= ENCRYPT;
         
    if(cci_data->fbs.ciph_params.algo EQ CIPH_EA1) 
    {
      *cci_data->fbs.conf_ul_reg1 &= GEA_FIRST;
    }
    else
    if(cci_data->fbs.ciph_params.algo EQ CIPH_EA2)
    {
      *cci_data->fbs.conf_ul_reg1 |= GEA_SECOND;
    }
    else
    {
      TRACE_ERROR ("Illegal ciphering_algorithm");
    }

    /* 
     * if the condition is CCI_CIPHER_NO_ALGORITHM we don't use subsequent statements 
     */
    *cci_data->fbs.kc_reg1 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[1]) << 8)+
                             (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[0]);
    *cci_data->fbs.kc_reg2 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[3]) << 8)+ 
                             (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[2]);
    *cci_data->fbs.kc_reg3 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[5]) << 8)+ 
                             (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[4]);
    *cci_data->fbs.kc_reg4 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[7]) << 8)+ 
                             (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[6]);

    /* store ciphering key in the local buffer for later verification */
    if(cci_data->fbs.cci_info_trace){
      tmp_key[0] = *cci_data->fbs.kc_reg1;
      tmp_key[1] = *cci_data->fbs.kc_reg2;
      tmp_key[2] = *cci_data->fbs.kc_reg3;
      tmp_key[3] = *cci_data->fbs.kc_reg4;
    }

    /* 
     * FRAME DEPENDENT CIPHERING INPUT entity is ULONG in the primitive 
     */
    *cci_data->fbs.conf_ul_reg4 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input);
    *cci_data->fbs.conf_ul_reg5 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input >> 16);

    /*
     * it is assumed that MSB is first 16 bit and LSB part is last 16 bits 
     */ 
  }
  else 
  {     
    /* 
     * in this case we don't fill the registers that contain ciphering keys
     */
    *cci_data->fbs.conf_ul_reg1 &= NO_ENCRYPT;
  }

  /*
   * Enter LLC-PDU size in bytes
   */
  for (i = 0; i < in_data_list->c_in_data; i++) {
    len += in_data_list->ptr_in_data[i].len;
  }
  *cci_data->fbs.conf_ul_reg2 = (USHORT)len;
  /*
   * conf_ul_reg3 is seperated into 2 parts of UBYTE:
   * -> lowbyte   = N202
   * -> hightbyte = LLC-PDU header size in bytes (indicate the offset of information)
   */ 
  *cci_data->fbs.conf_ul_reg3 = (USHORT)((cipher_req_parms->gprs_parameters.header_size << 8) | CIPH_N202);

#ifdef _GEA_SIMULATION_
  cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer;
#endif

  *cci_data->fbs.conf_ul_reg1 &= NO_INPUT_SHIFT;

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 1;

#ifdef LLC_TRACE_GEA_PARAM  
  cci_trace_gea_param();
#endif

#endif

  for (i = 0; i < in_data_list->c_in_data; i++) {
    desc_data8 = (U8*)in_data_list->ptr_in_data[i].buf;
    frame8 = in_data_list->ptr_in_data[i].len;
    for (j=0; j < frame8; j++)
    {
      *cci_data->fbs.data8_reg = *desc_data8;

  #ifdef _GEA_SIMULATION_
      ciph_reg8_write_sim();
  #endif
      desc_data8++;
    }
  }

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 0;
#endif
} /* ciph_fill_ul_reg() */



/*
+------------------------------------------------------------------------------
| Function    : ciph_fill_dl_reg
+------------------------------------------------------------------------------
| Description : The function ciph_fill_dl_reg() 
|
| Parameters  : 
|
+------------------------------------------------------------------------------
*/
LOCAL void ciph_fill_dl_reg (T_CIPH_cipher_req_parms *cipher_req_parms,
                             T_CIPH_in_data_list *in_data_list )
{ 
  ULONG    i, j;
  ULONG    frame8;
  UBYTE    *desc_data8;
  ULONG    len = 0;
  
  TRACE_FUNCTION( "ciph_fill_dl_reg" );

  /* 
   * setting the protected mode variable
   */
  if(cipher_req_parms->gprs_parameters.pm EQ CIPH_PM_PROTECTED)    
  {
    *cci_data->fbs.conf_dl_reg1 |= PROTECTED;
  } 
  else
  {   
    *cci_data->fbs.conf_dl_reg1 &= NON_PROTECTED;
  }

  /* 
   * FCS is always calculated
   */
  *cci_data->fbs.conf_dl_reg1 |= FCS_COMPUTED; 

  /*
   * data always copied aligned independent 
   */
  *cci_data->fbs.conf_dl_reg1 &= NO_INPUT_SHIFT;

  /*
   * direction is downlink 
   */
  *cci_data->fbs.conf_dl_reg1 |= D_DL; 

  if(cci_data->fbs.ciph_params.algo NEQ CIPH_EA0)
  {
    *cci_data->fbs.conf_dl_reg1 |= ENCRYPT; 

    if(cci_data->fbs.ciph_params.algo EQ CIPH_EA1)
    {
      *cci_data->fbs.conf_dl_reg1 &= GEA_FIRST;
    }     
    else
    if(cci_data->fbs.ciph_params.algo EQ CIPH_EA2)
    {
      *cci_data->fbs.conf_dl_reg1 |= GEA_SECOND;
    }
    else
    {
      TRACE_ERROR ("Illegal ciphering_algorithm");
    }
   
    *cci_data->fbs.kc_reg1 = 
    (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[1]) << 8) +
    (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[0]);
    
    *cci_data->fbs.kc_reg2 = 
    (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[3]) << 8) +
    (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[2]);
    
    *cci_data->fbs.kc_reg3 = 
    (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[5]) << 8) +
    (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[4]);
    
    *cci_data->fbs.kc_reg4 = 
    (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[7]) << 8) +
    (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[6]);

    /* store ciphering key in local buffer for later verification */
    if(cci_data->fbs.cci_info_trace){
      tmp_key[0] = *cci_data->fbs.kc_reg1;
      tmp_key[1] = *cci_data->fbs.kc_reg2;
      tmp_key[2] = *cci_data->fbs.kc_reg3;
      tmp_key[3] = *cci_data->fbs.kc_reg4;
    }

    /* 
     * FRAME DEPENDENT CIPHERING INPUT  entity is ULONG in the primitive
     */
    *cci_data->fbs.conf_dl_reg4 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input);
    *cci_data->fbs.conf_dl_reg5 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input >> 16);
  }
  else 
  {
    /*
     * in this case we don't fill the registers that contain ciphering keys 
     */
    *cci_data->fbs.conf_dl_reg1 &= NO_ENCRYPT; 
  }

  /*
   * Write length of LLC-PDU in bytes including FCS
   */
  for (i = 0; i < in_data_list->c_in_data; i++) {
    len += in_data_list->ptr_in_data[i].len;
  }

  *cci_data->fbs.conf_dl_reg2 = (USHORT)len;

  /* 
   * conf_dl_reg3 is seperated into 2 parts of UBYTE:
   * -> lowbyte   = N202
   * -> hightbyte = LLC-PDU header size in bytes (indicate the offset of information)
   */ 
  *cci_data->fbs.conf_dl_reg3 = (USHORT)((cipher_req_parms->gprs_parameters.header_size << 8) | CIPH_N202);


#ifdef _GEA_SIMULATION_
  cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer;
#endif

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 1;
#endif

  for (i = 0; i < in_data_list->c_in_data; i++) {
    desc_data8 = (UBYTE*)in_data_list->ptr_in_data[i].buf;
    frame8 = in_data_list->ptr_in_data[i].len;

    for (j=0; j < frame8; j++){
      *cci_data->fbs.data8_reg = desc_data8[j];
#ifdef _GEA_SIMULATION_
      ciph_reg8_write_sim();
#endif
    }
  }

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */
  *cci_data->fbs.switch_reg = 0;
#endif

} /* ciph_fill_dl_reg() */

#if (BOARD == 61 OR BOARD == 71)	/* G-Sample or I-Sample */

#ifdef LLC_TRACE_GEA_PARAM
LOCAL void cci_trace_gea_param( void )
{
  TRACE_EVENT_P9( "cci_trace_gea_param_1 %04X %04X %04X %04X %04X %04X %04X %04X %04X",
                  *cci_data->fbs.cntl_reg      ,
                  *cci_data->fbs.status_reg    ,
                  *cci_data->fbs.status_irq_reg,
                  *cci_data->fbs.conf_ul_reg1  ,
                  *cci_data->fbs.conf_ul_reg2  ,
                  *cci_data->fbs.conf_ul_reg3  ,
                  *cci_data->fbs.conf_ul_reg4  ,
                  *cci_data->fbs.conf_ul_reg5  ,
                  *cci_data->fbs.conf_dl_reg1   );

  TRACE_EVENT_P9( "cci_trace_gea_param_2 %04X %04X %04X %04X %04X %04X %04X %04X %04X",
                  *cci_data->fbs.conf_dl_reg2  ,
                  *cci_data->fbs.conf_dl_reg3  ,
                  *cci_data->fbs.conf_dl_reg4  ,
                  *cci_data->fbs.conf_dl_reg5  ,
                  *cci_data->fbs.fcs_ul_reg1   ,
                  *cci_data->fbs.fcs_ul_reg2   ,
                  *cci_data->fbs.fcs_dl_reg1   ,
                  *cci_data->fbs.fcs_dl_reg2   ,
                  *cci_data->fbs.switch_reg     );
}
#endif
#endif
#endif /* TI_PS_OP_CIPH_DRIVER */