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view src/g23m-fad/fad/fad_sbm.c @ 51:04aaa5622fa7

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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
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/* 
+----------------------------------------------------------------------------- 
|  Project :  GSM-F&D (8411)
|  Modul   :  FAD_SBM
+----------------------------------------------------------------------------- 
|  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 send buffer manager for
|             the component Fax Adaptation 3.45 of the mobile station
+----------------------------------------------------------------------------- 
*/ 

#ifndef FAD_SBM_C
#define FAD_SBM_C
#endif

#define ENTITY_FAD

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

#include <string.h>
#include "typedefs.h"
#include "pconst.cdg"
#include "vsi.h"
#include "custom.h"
#include "gsm.h"
#include "cnf_fad.h"
#include "mon_fad.h"
#include "prim.h"
#include "pei.h"
#include "tok.h"
#include "ccdapi.h"
#include "cl_ribu.h"
#include "fad.h"

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

/*==== TYPES =======================================================*/

/*==== VAR EXPORT ==================================================*/

/*==== VAR LOCAL ===================================================*/

/*==== FUNCTIONS ===================================================*/
 
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-F&D (8411)             MODULE  : FAD_SBM             |
| STATE   : code                       ROUTINE : sbm_init            |
+--------------------------------------------------------------------+

  PURPOSE : 

*/
GLOBAL void sbm_init(USHORT frameSize)
{
  T_SBM *sbm = &fad_data->sbm;
  USHORT n;

  TRACE_FUNCTION ("sbm_init()");

  cl_ribu_init(&sbm->ribu, SBM_PRIMBUF_SIZE);

  for (n = 0; n < sbm->ribu.depth; n++)
    sbm->Prim[n].Prim = NULL;

  sbm->PA = 0;
  sbm->CurrPrimOff = 0;
  sbm->CurrPrimLen = 0;
  sbm->FrameSize   = frameSize;

  fad_data->snd.FD.buf = fad_data->snd.FD_buf;
}

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

  PURPOSE : 

*/

GLOBAL void sbm_store_prim(T_SBM_PRIM *sendPrim)
{
  T_SBM *sbm = &fad_data->sbm;

#ifdef _SIMULATION_
  TRACE_FUNCTION ("sbm_store_prim()");
#endif

  sbm->Prim[sbm->ribu.wi].Prim = sendPrim;

  if (!sbm->ribu.filled) /* Initialize new primitive for read out */
  {
    sbm->CurrPrimOff = sendPrim->sdu.o_buf >> 3;
    sbm->CurrPrimLen = sendPrim->sdu.l_buf >> 3;
  }
  cl_ribu_write_index(&sbm->ribu);
}

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

  PURPOSE : 

*/

GLOBAL void sbm_free_empty_prims(void)
{
  T_SBM *sbm = &fad_data->sbm;

#ifdef _SIMULATION_
  TRACE_FUNCTION ("sbm_free_empty_prims()");
#endif
  
  while (sbm->PA NEQ sbm->ribu.ri)
  {
    PFREE (sbm->Prim[sbm->PA].Prim);
    sbm->PA++;
    if (sbm->PA EQ sbm->ribu.depth)
      sbm->PA = 0;
  }
}

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

  PURPOSE : 

*/

GLOBAL BOOL sbm_get_frame(T_FRAME_DESC *ul_FD, UBYTE reqFrames)
{
  T_SBM *sbm = &fad_data->sbm;

  USHORT requiredData;
  BOOL   insertSync;

#ifdef _SIMULATION_
  TRACE_FUNCTION ("sbm_get_frame()");
#endif

  cl_set_frame_desc_0(ul_FD, NULL, 0);

  if (!sbm->ribu.filled) /* There is no primitive */
  {
    return FALSE;
  }

  insertSync = FALSE;

  if (sbm->syncCycle NEQ SYNC_CYCLE_NONE)
  {
    if (reqFrames > sbm->framesUntilSync)
    {
      insertSync = TRUE;
      reqFrames--;
    }
    else
      sbm->framesUntilSync -= reqFrames;
  }

  requiredData = sbm->FrameSize * (USHORT)reqFrames;

  if (sbm->CurrPrimLen > requiredData)
  {
    /* Current primitive holds more than enough data */
    cl_set_frame_desc_0(ul_FD, sbm->Prim[sbm->ribu.ri].Prim->sdu.buf + sbm->CurrPrimOff, requiredData);

    sbm->CurrPrimOff += requiredData;
    sbm->CurrPrimLen -= requiredData;
  }
  else
  {
    /* 
     * Current primitive doesn't hold enough data
     * or just the right amount of data.
     * -> Switch to next primitive
     */

    /* Take all data from first primitive */
    cl_set_frame_desc_0(ul_FD, sbm->Prim[sbm->ribu.ri].Prim->sdu.buf + sbm->CurrPrimOff, sbm->CurrPrimLen);

    cl_ribu_read_index(&sbm->ribu); /* Switch to next primitive */

    if (!sbm->ribu.filled)          /* There is no second primitive */
    {
      ul_FD->Adr[1] = (UBYTE *) NULL;
      ul_FD->Len[1] = 0;
      sbm->CurrPrimOff = 0;
      sbm->CurrPrimLen = 0;
    }
    else                            /* Second primitive is available */
    {
      requiredData -= sbm->CurrPrimLen;

      sbm->CurrPrimOff = sbm->Prim[sbm->ribu.ri].Prim->sdu.o_buf >> 3;
      sbm->CurrPrimLen = sbm->Prim[sbm->ribu.ri].Prim->sdu.l_buf >> 3;

      if (requiredData EQ 0)
      {
        /*
         * First primitive was just used up.
         * We had to switch to next primitive, but don't need data.
         */
        ul_FD->Adr[1] = (UBYTE *) NULL;
        ul_FD->Len[1] = 0;
      }
      else
      {
        /* Data from next primitive is required */
        ul_FD->Adr[1] = sbm->Prim[sbm->ribu.ri].Prim->sdu.buf + sbm->CurrPrimOff;

        if (sbm->CurrPrimLen > requiredData)
        {
          /* Enough data found in second primitive */
          ul_FD->Len[1] = requiredData;
          sbm->CurrPrimOff += requiredData;
          sbm->CurrPrimLen -= requiredData;
        }
        else
        {
          /* Even with the second primitive there are not enough data! */
          ul_FD->Len[1] = sbm->CurrPrimLen;

          /* Second primitive is also emptied, switch to next primitve */
          cl_ribu_read_index(&sbm->ribu);

          if (sbm->ribu.filled)
          {
            sbm->CurrPrimOff = sbm->Prim[sbm->ribu.ri].Prim->sdu.o_buf >> 3;
            sbm->CurrPrimLen = sbm->Prim[sbm->ribu.ri].Prim->sdu.l_buf >> 3;

          }
          else
          {
            sbm->CurrPrimOff = 0;
            sbm->CurrPrimLen = 0;
          }
        }
      }
    }
  }

  if ((ul_FD->Len[0]+ul_FD->Len[1]) < requiredData)
  {
    /*
     * If there are not enough data available align the length to 64 bit 
     * align the length to 64 bit boundaries.
     * This alignment should normally occur at the end of the message phase.
     * The required data are always a multiple of 64 bits.
     */
    int i, k = 0;
    int diff = requiredData - (ul_FD->Len[0]+ul_FD->Len[1]);

    if (ul_FD->Len[1] > 0)
      k = 1;

    for (i = 0; i < ul_FD->Len[k]; i++)
      fad_data->snd.ul_FD_align[i] = ul_FD->Adr[k][i];

    for (i = ul_FD->Len[k]; i < ul_FD->Len[k] + diff; i++)
      fad_data->snd.ul_FD_align[i] = 0;

    ul_FD->Len[k] += diff;
    ul_FD->Adr[k] = fad_data->snd.ul_FD_align;
  }

  if (insertSync)
  {
    USHORT framesUntilSync = sbm->framesUntilSync;
    USHORT frame_off = 0, i, j;

    for (i=0; i<2; i++)
    {
      for (j=0; j<ul_FD->Len[i]; j+=FRAME_SIZE)
      {
        if (framesUntilSync-- EQ 0)
        {
          memcpy((char*)&sbm->frames[frame_off], (char*)FR_SEQ_SYNC, FRAME_SIZE);
          frame_off+=FRAME_SIZE;
        }
        memcpy((char*)&sbm->frames[frame_off], (char*)ul_FD->Adr[i], FRAME_SIZE);
        frame_off+=FRAME_SIZE;

        sbm->framesUntilSync = sbm->syncCycle - reqFrames + framesUntilSync;
      }
    }
    cl_set_frame_desc_0(ul_FD, sbm->frames, (USHORT)((reqFrames+1)*FRAME_SIZE));
  }
  return TRUE;
}