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view src/cs/drivers/drv_app/sim/sim32.c @ 547:c3f2f79dc5b8

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l1_rf12.c compiled-in default RF band tables: a round of cleanup * Uncalibrated default g_magic values changed from old Clara RF numbers (yes, Clara, not even Leonardo) to the approximately correct value for our current hw; * Uncalibrated default Rx and Tx channel calibration tables providing neutral correction values: fixed bogus ARFCNs from blind copy-n-paste between different bands; * Restored #if (ORDER2_TX_TEMP_CAL==1) in the Tx temperature compensation tables; * Fully rewrote the big comment before these rf_XXX structures to reflect the current situation. This change is part of the larger transition in FreeCalypso from reverse to forward engineering, from reconstruction of lost original bits to ongoing forward development and maintenance.
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 17 Nov 2018 19:57:34 +0000
parents 945cf7f506b2
children
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/*
 * SIM32.C
 *
 * Pole Star SIM
 *
 * Target : ARM
 *
 * Copyright (c) Texas Instruments 1995
 *
 */

#define SIM32_C   1

#include "chipset.cfg"

#include "main/sys_types.h"
#include <assert.h>
#include "inth/iq.h" 
#include "sim.h"


#ifdef SIM_DEBUG_TRACE
/* working buffer for NULL BYTE */
extern SYS_UWORD8  SIM_dbg_null[];
/* Nucleus variable given the current number of TDMA frames */
extern SYS_UWORD32 IQ_FrameCount;
/* working variable to calculate the TDMA ecart */
extern SYS_UWORD16 SIM_dbg_tdma_diff;
/* working variable storing the current number of TDMA frames elapsed */
SYS_UWORD32 SIM_dbg_local_count;
#endif

/*
 * SIM_IntHandler
 *
 * Read cause of SIM interrupt : 
 * 
 * if receive buffer full, read char
 * if transmitter empty, change direction, transmit a dummy char
 *
 */
void SIM_IntHandler(void)
{
   volatile unsigned short it, i, stat, conf1;
   volatile SYS_UWORD8 ins; 
   volatile SYS_UWORD8 rx;
   volatile SYS_UWORD8 nack;
   volatile SYS_UWORD8 nack1;

   
   SIM_PORT *p;

   p = &(Sim[0]);

   p->rxParityErr = 0;   
   it = p->c->it;

   if ((it & SIM_IT_ITRX) && !(p->c->maskit & SIM_MASK_RX)) // int on reception
   {
      stat = p->c->rx;
      conf1 = p->conf1;

#ifdef SIM_DEBUG_TRACE
      if ((IQ_FrameCount - SIM_dbg_local_count) > SIM_dbg_tdma_diff) {
	     SIM_dbg_tdma_diff = IQ_FrameCount - SIM_dbg_local_count;
	  }
      SIM_dbg_local_count = IQ_FrameCount;
#endif

          // Check if reception parity is enable
      if (((conf1 & SIM_CONF1_CHKPAR) && ((stat & SIM_DRX_STATRXPAR) != 0))\
       || ((conf1 & SIM_CONF1_CHKPAR) == 0))
      {
          rx    = (SYS_UWORD8) (stat & 0x00FF);
          ins   = p->xbuf[1] & p->hw_mask;
          nack  = (~p->xbuf[1]) & p->hw_mask;
            
          switch (p->moderx)
          {
              case 0:                  //mode of normal reception without proc char (like PTS proc)
                  p->rbuf[p->rx_index++] = rx;
                  break;      

              case 1:                  //mode wait for ACK
                  if ((rx & p->hw_mask) == ins)
                  {
                      p->moderx = 2;
                  }  
                  else if ((rx & p->hw_mask) == nack)
                  {
                      p->moderx = 4;          
                  }
                  else if (((rx & 0xF0) == 0x60) || ((rx & 0xF0) == 0x90))
                  {
                      if (rx != 0x60)     //in case of error code (SW1/SW2) returned by sim card
                      {
                          p->rSW12[p->SWcount++] = rx;
                          p->moderx = 5;
                      }
                      else
                      {
                          p->null_received = 1;
#ifdef SIM_DEBUG_TRACE
			  SIM_dbg_null[0]++;
#endif
                      }
                  }
                  else
                  {
                    p->errorSIM = SIM_ERR_ABNORMAL_CASE2;
                  }  
                                        //if rx = 0x60 wait for ACK
                  break;      

              case 2:                  //mode reception by block
                  p->rbuf[p->rx_index++] = rx;

                  if(p->expected_data == 256)
                  {
                      if (p->rx_index == 0)
                      {
                          p->moderx = 5;
                      }
                  }	
                  else
                  {  
                  if (p->rx_index == p->expected_data)
                  {
                      p->moderx = 5;
                  }
                  }
                  break;      
  
              case 3:                  //mode reception char by char. reception of proc char
                  if ((rx & p->hw_mask) == ins)
                  {
                      p->moderx = 2;
                  }            
                  else if ((rx & p->hw_mask) == nack)
                  {
                      p->moderx = 4;          
                  }                      //if rx = 0x60 wait for ACK  
                  else if (rx == 0x60)
                  {
                      p->null_received == 1;
#ifdef SIM_DEBUG_TRACE
		      SIM_dbg_null[1]++;
#endif
                  }  
                    
                  break;

              case 4:                  //mode reception char by char. reception of data
                  p->rbuf[p->rx_index++] = rx;
                  p->moderx = 3;        //switch to receive proc char mode      

                  if(p->expected_data == 256)
                  {
                      if (p->rx_index == 0)
                      {
                          p->moderx = 5;
                      }
                  }
                  else
                  {  
                  if (p->rx_index == p->expected_data)
                  {
                      p->moderx = 5;
                  }
                  }
                  break;
              
              case 5:                  //mode wait for procedure character except NULL
                  if ((rx != 0x60) || (p->SWcount != 0))  //treat NULL character only if arriving before SW1 SW2
                  {
                      p->rSW12[p->SWcount++] = rx;
                  }
                  else
                  {
                      p->null_received = 1;
#ifdef SIM_DEBUG_TRACE
		      SIM_dbg_null[2]++;
#endif
                  }


                  break;
                  
              case 6:                  //give the acknowledge char
                  if (((rx & 0xF0) == 0x60) || ((rx & 0xF0) == 0x90))
                  {
                      if (rx != 0x60)       //in case of error code (SW1/SW2) returned by sim card
                      {
                          p->rSW12[p->SWcount++] = rx;
                          p->moderx = 5;
                      }
                      else
                      {
                          p->null_received = 1;
#ifdef SIM_DEBUG_TRACE
		          SIM_dbg_null[3]++;
#endif
                      }
                  }
                  else
                  {                     
                     p->ack = rx;
                  }
          }
      }
      else
      {
        p->rxParityErr = 1;
      }
   }

   if ((it & SIM_IT_ITTX) && !(p->c->maskit & SIM_MASK_TX))
   {
#ifdef SIM_DEBUG_TRACE
      SIM_dbg_local_count = IQ_FrameCount;
#endif
      // check the transmit parity
      stat = p->c->stat;


      if ((stat & SIM_STAT_TXPAR) || ((p->conf1 & SIM_CONF1_CHKPAR) == 0))  //parity disable
      {
         if (p->xOut != (p->xIn - 1))       //if only one char transmitted (already transmitted)
         {                                  //just need to have confirmation of reception
             if (p->xOut == (p->xIn - 2))
             {
                p->xOut++;
                p->c->tx = *(p->xOut);         // transmit

                p->conf1 &= ~SIM_CONF1_TXRX;   // return the direction
                p->c->conf1 = p->conf1;
             }
             
             if (p->xOut < (p->xIn - 2))
             {
                p->xOut++;
                p->c->tx = *(p->xOut);         // transmit
             }                                 
         }   
      }
      else
      {
         p->c->tx = *(p->xOut);            // transmit same char
         p->txParityErr++;                 // count number of transmit parity errors 
      }

   }

   // Handle errors
   if ((it & SIM_IT_ITOV) && !(p->c->maskit & SIM_MASK_OV))
   {
      p->errorSIM = SIM_ERR_OVF;
      
   }
   if ((it & SIM_IT_WT) && !(p->c->maskit & SIM_MASK_WT))
   {
      p->errorSIM = SIM_ERR_READ;
   }

   // Reset the card in case of NATR to let the program continue
   if ((it & SIM_IT_NATR) && !(p->c->maskit & SIM_MASK_NATR))
   {
      p->c->cmd = SIM_CMD_STOP;
      p->errorSIM = SIM_ERR_NATR;
   }

#if ((CHIPSET == 2) || (CHIPSET == 3))
   // SIM card insertion / extraction
   if ((it & SIM_IT_CD) && !(p->c->maskit & SIM_MASK_CD))
   {
      stat = p->c->stat;
      if ((stat & SIM_STAT_CD) != SIM_STAT_CD)
      {
        (p->RemoveFunc)();
        p->errorSIM = SIM_ERR_NOCARD;
      }
   }
#endif
}

#if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12))
  /*
   * SIM_CD_IntHandler
   *
   * Read cause of SIM interrupt : 
   * 
   */
  void SIM_CD_IntHandler(void)
  {
    volatile unsigned short it_cd, stat;
    SIM_PORT *p;

    p = &(Sim[0]);

    p->rxParityErr = 0;   
    it_cd = p->c->it_cd;

    // SIM card insertion / extraction
    if ((it_cd & SIM_IT_CD) && !(p->c->maskit & SIM_MASK_CD))
    {
      stat = p->c->stat;
      if ((stat & SIM_STAT_CD) != SIM_STAT_CD)
      {
        (p->RemoveFunc)();
        p->errorSIM = SIM_ERR_NOCARD;
      }
    }
}
#endif


// to force this module to be linked
SYS_UWORD16 SIM_Dummy(void)
{
   
}