view src/g23m-fad/ra/ra_rlp.c @ 662:8cd8fd15a095

SIM speed enhancement re-enabled and made configurable TI's original code supported SIM speed enhancement, but Openmoko had it disabled, and OM's disabling of speed enhancement somehow caused certain SIM cards to start working which didn't work before (OM's bug #666). Because our FC community is much smaller in year 2020 than OM's community was in their day, we are not able to find one of those #666-affected SIMs, thus the real issue they had encountered remains elusive. Thus our solution is to re-enable SIM speed enhancement and simply wait for if and when someone runs into a #666-affected SIM once again. We provide a SIM_allow_speed_enhancement global variable that allows SIM speed enhancement to be enabled or disabled per session, and an /etc/SIM_spenh file in FFS that allows it to enabled or disabled on a non-volatile basis. SIM speed enhancement is now enabled by default.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 24 May 2020 05:02:28 +0000
parents 90eb61ecd093
children
line wrap: on
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/*
+-----------------------------------------------------------------------------
|  Project :  GSM-F&D (8411)
|  Modul   :  RA_RLP
+-----------------------------------------------------------------------------
|  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 defines the functions for the non-transparent
|             data model (RLP) for the component RA of the mobile
|             station
+-----------------------------------------------------------------------------
*/

#ifndef RA_RLP_C
#define RA_RLP_C
#endif

#define ENTITY_RA

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

#include <string.h>
#include "typedefs.h"
#include "vsi.h"
#include "macdef.h"
#include "pconst.cdg"
#include "custom.h"
#include "gsm.h"
#include "cnf_ra.h"
#include "prim.h"
#include "pei.h"
#include "tok.h"
#include "ccdapi.h"
#include "ra.h"

/*==== CONST ======================================================*/
/*==== TYPES ======================================================*/
/*==== VARIABLES ==================================================*/
/*==== FUNCTIONS ==================================================*/

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_init                 |
+--------------------------------------------------------------------+

  PURPOSE :

*/

GLOBAL void rlp_init(void)
{
  TRACE_FUNCTION("rlp_init()");

  memset(ra_data->rlp, 0, sizeof(T_RLP));
  hCommRLP = vsi_c_open ( VSI_CALLER RLP_NAME );
  hCommMMI = vsi_c_open ( VSI_CALLER ACI_NAME );
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_idle                 |
+--------------------------------------------------------------------+

  PURPOSE : IDLE processing fpr uplink and downlink non-transparent mode
*/

GLOBAL void rlp_idle(void)
{
  TRACE_FUNCTION("rlp_idle()");
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_ul_null              |
+--------------------------------------------------------------------+

  PURPOSE :
*/

GLOBAL void rlp_ul_null(void)
{
  T_RLP *drlp = ra_data->rlp;
  UBYTE i;

  TRACE_FUNCTION("rlp_ul_null()");

  if (ra_data->activated)
  {
#ifdef TRACE_RA_RLP
    drlp->fcs_error = 0L;
#endif
   /*
    * setup the communication parameters
    */
    shm_set_dsp_value (conf_b_itc, V_ITC_DATA);
    shm_set_dsp_value (conf_b_ce, V_CE_NON_TRANSP);

    switch (ra_data->tra_rate)
    {
      case TRA_FULLRATE_14400:
        shm_set_dsp_value (conf_b_ur, V_UR_14400);
        shm_set_dsp_value (conf_b_ct, V_CT_FR);
        break;

      case TRA_FULLRATE_9600:
        shm_set_dsp_value (conf_b_ur, V_UR_9600);
        shm_set_dsp_value (conf_b_ct, V_CT_FR);
        break;

      case TRA_FULLRATE_4800:
        shm_set_dsp_value (conf_b_ur, V_UR_4800);
        shm_set_dsp_value (conf_b_ct, V_CT_FR);
        break;

      case TRA_HALFRATE_4800:
        shm_set_dsp_value (conf_b_ur, V_UR_4800);
        shm_set_dsp_value (conf_b_ct, V_CT_HR);
        break;

      default:
        break;
    }

    shm_set_dsp_value (ntu_M1, 0);
    shm_set_dsp_value (ntu_M2, 0);
    shm_set_dsp_value (ntu_empty, 1);
    shm_set_dsp_value (ntu_byte_cnt, 2);

    /*
    * initialize the non-transparent mode data
    */
    drlp->ul_data_pending   = FALSE;
    drlp->m1                = 0;

    ra_data->ra_data_ind.fr_type   = FR_RLP;
    ra_data->ra_data_ind.sdu.o_buf = 0;
    ra_data->ra_data_ind.sdu.l_buf = 0;

    ra_data->ra_ready_ind[0].req_frames = 1;

    cl_ribu_init(&drlp->ulq, RLP_UL_QSIZE);

    for (i = 0; i < drlp->ulq.depth; i++)
    {
      cl_set_frame_desc_0(&drlp->ul_frame_desc[i], NULL, 0);
    }

    cl_set_frame_desc_0(&ra_data->rlp->dl_frame_desc, NULL, 0);
    shm_set_dsp_value (act_b_init, 1);

    INIT_STATE (KER, RLP_INIT_L1);

#ifdef HO_WORKAROUND /* rlp_ul_null */
    _act_d_ra_conf = *ra_data->shm.shm_addr[d_ra_conf];
    TRACE_EVENT("d_ra_conf saved");
#endif

  }
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_ul_init_l1           |
+--------------------------------------------------------------------+

  PURPOSE :

*/

GLOBAL void rlp_ul_init_l1(void)
{
  TRACE_FUNCTION("rlp_ul_init_l1()");

  if (shm_get_dsp_value (act_b_init) EQ 0)
  {
   /*
    * initialisation finished -> enter the data transmission state
    */
    l1i_ra_activate_cnf();
    SET_STATE (KER, RLP_DATA_TRANS);
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_ul_data_trans        |
+--------------------------------------------------------------------+

  PURPOSE :
*/

GLOBAL void rlp_ul_data_trans(void)
{
  T_RLP *drlp = ra_data->rlp;

  TRACE_FUNCTION("rlp_ul_data_trans()");

  if (drlp->ul_data_pending) /* a frame is ready to be sent */
  {
    USHORT len = 0;

    switch (ra_data->tra_rate)
    {
      case TRA_FULLRATE_9600:
      case TRA_HALFRATE_4800:
        len = NT_DATA_SIZE;
        drlp->ul_data_pending = FALSE;
        break;

      case TRA_FULLRATE_4800:
        /* S844: 1=1st half, 0=2nd half */
        if (shm_get_dsp_value (act_b_f48blk_ul) EQ 1)
        {
          TRACE_FUNCTION("send 4800 first half");
          len = NT_DATA_SIZE_4800_FR_A;
          drlp->ul_48_first_half_sent = TRUE;
        }
        else
        {
          if (drlp->ul_48_first_half_sent)
          {
            TRACE_FUNCTION("send 4800 second half");
            len = NT_DATA_SIZE_4800_FR_B;
            drlp->ul_data_pending = FALSE;
            drlp->ul_frame_desc[drlp->ulq.ri].Adr[0] += NT_DATA_SIZE_4800_FR_A;
          }
          else
          {
            TRACE_FUNCTION("wait for 4800 first half");
            len = 0;
          }
        }
        break;

      case TRA_FULLRATE_14400:
        shm_set_dsp_value (ntu_M1, drlp->m1);
        /* S844: 0 = first half, 1 = second half */
        if (drlp->m1 EQ 0)
        {
          len = NT_DATA_SIZE_14400_A;
          drlp->m1 = 1;
        }
        else
        {
          len = NT_DATA_SIZE_14400_B;
          drlp->ul_data_pending = FALSE;
          drlp->ul_frame_desc[drlp->ulq.ri].Adr[0] += NT_DATA_SIZE_14400_A;
        }
        break;
    }
    if (len > 0)
    {
      shm_set_dsp_buffer(&drlp->ul_frame_desc[drlp->ulq.ri],
       ra_data->shm.shm_addr[adr_ntu_data]+wof_ntu_data, 0, len);
      shm_set_dsp_value (ntu_empty, 0);
      shm_set_dsp_value (ntu_byte_cnt, (len+2));
      if (!drlp->ul_data_pending)
      {
        cl_ribu_read_index(&drlp->ulq);
        /* PZ 22.7.99 */
        drlp->ul_data_pending = (drlp->ulq.ri NEQ drlp->ulq.wi);
        /* PZ 22.7.99 */
      }
    }
    else
    {
      shm_set_dsp_value (ntu_M1, 0);
      shm_set_dsp_value (ntu_empty, 1);
      shm_set_dsp_value (ntu_byte_cnt, 2);
    }
  }
  else
  {
    /* no frame is ready to be sent */
    shm_set_dsp_value (ntu_M1, 0);
    shm_set_dsp_value (ntu_empty, 1);
    shm_set_dsp_value (ntu_byte_cnt, 2);
  }

  if (!drlp->ul_data_pending)
  {
    l1i_ra_ready_ind(hCommRLP, 0);
  }
}

/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)        MODULE  : RA_RLP                   |
| STATE   : code                  ROUTINE : rlp_dl_data_trans        |
+--------------------------------------------------------------------+

  PURPOSE :
*/

GLOBAL void rlp_dl_data_trans(void)
{
  BOOL frame_complete = FALSE;

  TRACE_FUNCTION("rlp_dl_data_trans()");

#ifdef HO_WORKAROUND /* rlp_dl_data_trans */
  if (*ra_data->shm.shm_addr[d_ra_conf] NEQ _act_d_ra_conf)
  {
    *ra_data->shm.shm_addr[d_ra_conf] = _act_d_ra_conf; /* rlp_dl_data_trans */
    TRACE_EVENT("HO_REFRESH rlp_dl_data_trans");
  }
#endif

  /*
   * read out the received downlink data
   */
  if (shm_get_dsp_value (ntd_byte_cnt) > 0)
  {
    USHORT len = 0;

    switch (ra_data->tra_rate)
    {
    case TRA_FULLRATE_9600:
    case TRA_HALFRATE_4800:
      if (shm_get_dsp_value (ntd_fcs_ok) EQ 0)
      {
        frame_complete = TRUE;
        len = NT_DATA_SIZE;

#ifdef _SIMULATION_
        cl_set_frame_desc_0(&ra_data->rlp->dl_frame_desc, ra_data->rlp->dl_buf, NT_DATA_SIZE);
        ra_data->ra_data_ind.sdu.l_buf = NT_DATA_SIZE << 3;
#else
        rlp_rbm_get_next_buffer(&ra_data->rlp->dl_frame_desc);
#endif
      }
      else
      {
#ifdef TRACE_RA_RLP
        TRACE_EVENT("FCS-Error");
        ra_data->rlp->fcs_error++;
#endif
        frame_complete = FALSE;
        len = 0;
      }
      break;

    case TRA_FULLRATE_4800:
      /* S844: 0=1st half, 1=2nd half */
      if (shm_get_dsp_value (act_b_f48blk_dl) EQ 0)
      {
        len = NT_DATA_SIZE_4800_FR_A;
        frame_complete = FALSE;
#ifdef _SIMULATION_
        cl_set_frame_desc_0(&ra_data->rlp->dl_frame_desc, ra_data->rlp->dl_buf, NT_DATA_SIZE_4800_FR_A+NT_DATA_SIZE_4800_FR_B);
        ra_data->ra_data_ind.sdu.l_buf = (NT_DATA_SIZE_4800_FR_A+NT_DATA_SIZE_4800_FR_B) << 3;
#else
        rlp_rbm_get_next_buffer(&ra_data->rlp->dl_frame_desc);
#endif
      }
      else if (shm_get_dsp_value (ntd_fcs_ok) EQ 0)
      {
        frame_complete = TRUE;
        len = NT_DATA_SIZE_4800_FR_B;
        ra_data->rlp->dl_frame_desc.Adr[0] += NT_DATA_SIZE_4800_FR_A;
      }
      else
      {
#ifdef TRACE_RA_RLP
        TRACE_EVENT("FCS-Error");
        ra_data->rlp->fcs_error++;
#endif
        frame_complete = FALSE;
        len = 0;
      }
      break;

    case TRA_FULLRATE_14400:
      /* S844: 0 = first half, 1 = second half */
      if (shm_get_dsp_value (ntd_M1) EQ 0)
      {
        frame_complete = FALSE;
        len = NT_DATA_SIZE_14400_A;
#ifdef _SIMULATION_
        cl_set_frame_desc_0(&ra_data->rlp->dl_frame_desc, ra_data->rlp->dl_buf, NT_DATA_SIZE_14400_A + NT_DATA_SIZE_14400_B);
        ra_data->ra_data_ind.sdu.l_buf = (NT_DATA_SIZE_14400_A + NT_DATA_SIZE_14400_B) << 3;
#else
        rlp_rbm_get_next_buffer(&ra_data->rlp->dl_frame_desc);
#endif
      }
      else if (shm_get_dsp_value (ntd_fcs_ok) EQ 0)
      {
        frame_complete = TRUE;
        len = NT_DATA_SIZE_14400_B;
        ra_data->rlp->dl_frame_desc.Adr[0] += NT_DATA_SIZE_14400_A;
      }
      else
      {
#ifdef TRACE_RA_RLP
        TRACE_EVENT("FCS-Error");
        ra_data->rlp->fcs_error++;
#endif
        frame_complete = FALSE;
        len = 0;
      }
      break;
    }
    if (len > 0)
    {
      shm_get_dsp_buffer(&ra_data->rlp->dl_frame_desc, ra_data->shm.shm_addr[adr_ntd_data]+wof_ntd_data, len);
      shm_set_dsp_value (ntd_byte_cnt, 0);

      if (frame_complete)
      {
        l1i_ra_data_ind(hCommRLP);
      }
    }
  }
}