view src/gpf2/tst/drv/tr2.c @ 605:07d0dc4431f4

bootloader.s: same MEMIF fix as in int.s plus DPLL BYPASS fix Both MEMIF and DPLL settings are now the same between int.s and bootloader.s assembly code paths. Previously bootloader.s was setting DPLL BYPASS /2 mode, which persisted until _INT_Initialize code with the bootloader body omitted, or was changed to /1 in the hardware init function in the bootloader.lib:start.obj module.
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 17 Jun 2019 18:40:32 +0000
parents cd37d228dae0
children
line wrap: on
line source

/* 
+------------------------------------------------------------------------------
|  File:       tr.c
+------------------------------------------------------------------------------
|  Copyright 2004 Texas Instruments Deutschland, 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 Deutschland, AG. 
+----------------------------------------------------------------------------- 
|  Purpose :  This Modul contains the TR driver
+----------------------------------------------------------------------------- 
*/ 

#ifndef __TR_C__
#define __TR_C__
#endif

#include "string.h"
#include "typedefs.h"
#include "gdi.h"
#include "vsi.h"
#include "os.h"
#ifdef _TOOLS_
  #include <stdio.h>
  #include "glob_defs.h"
  #include "tstdriver.h"
  #include "frame.h"
  #include "frame_const.h"
  #include "printtofile.h"
#endif /* _TOOLS_ */
#include "tstheader.h"
#include "tst_mux.h"


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

typedef struct
{
  T_VOID_STRUCT *RcvBuffer;
  USHORT Handle;
  USHORT EnabledSignalType;
  T_DRV_CB_FUNC Callback;
  USHORT config;
  UBYTE rcv_state;
  UBYTE idle_state;
} T_TR_DATA;


/*==== CONSTANTS ==================================================*/

#define ALLOWED_TR_SIGNALS   (DRV_SIGTYPE_READ|DRV_SIGTYPE_CONNECT|DRV_SIGTYPE_DISCONNECT) 

#define STX                 0x02
#define TI_RIV_ID           0x11
#define TI_L1_ID            0x12
#define TI_L23_ID           0x13
#define TI_STX              0x02
#define TI_ESC              0x10
#define CHAR_ABORT          'A'

#define DATA_SEGMENT_SIZE   223

#define WAIT_FOR_STX        0
#define WAIT_FOR_IDENT      1
#define WAIT_FOR_TIMESTAMP  2
#define WAIT_FOR_LENGTH     3
#define WAIT_FOR_SND        4
#define WAIT_FOR_RCV        5
#define WAIT_FOR_DATA       6
#define WAIT_FOR_CR         7
#define WAIT_FOR_TI_ID      8
#define WAIT_FOR_TI_LEN_0   9
#define WAIT_FOR_TI_LEN_1  10
#define WAIT_FOR_TI_LEN_2  11
#define WAIT_FOR_LENGTH1   12
#define WAIT_FOR_LENGTH2   13
#define WAIT_FOR_RAW_TI_S  14
#define WAIT_FOR_RAW_TI_ID 15
#define WAIT_FOR_RAW_TI_E  16

#define WAIT_FOR_MUX_START_STX  1
#define WAIT_FOR_MUX_CHAN_ID    2
#define WAIT_FOR_MUX_END_STX    3

#define STX_LF_MODE       0x0001
#define TI_TRC_MODE       0x0002
#define TI_RAW_TRC_MODE   0x0004

/*==== EXTERNALS ==================================================*/

extern ULONG TR_RcvBufferSize;
extern ULONG TR_MaxInd;
extern USHORT ext_data_pool_handle;
extern T_TST_MUX_CHANNEL tst_mux_chan_struct[];

/*==== VARIABLES ==================================================*/

#ifndef RUN_INT_RAM
#ifndef _TARGET_
long int accessNum = 0;
#endif
T_TR_DATA TR_Data;
static char *TR_RcvBuffer;
static ULONG TR_EndInd;
static ULONG TR_WrInd;
static ULONG TR_RdInd;
static ULONG MessageLength;
static union {
    unsigned short int val;
    char part[2];
}tst_trailer_size;
#else
extern T_TR_DATA TR_Data;
#endif

#ifdef _TOOLS_
static int ti_id_not_found;
static int ti_esc_skipped;
extern int tst_message_received;
#else
extern ULONG MaxPrimPartSize;
#endif

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

#ifndef RUN_INT_RAM
USHORT TR_Write ( void *Buffer, ULONG *BytesToWrite ); 
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_Exit             |
+--------------------------------------------------------------------+

  PURPOSE : exit a driver

*/
LOCAL void TR_Exit ( void )
{
  os_DeallocateMemory ( 0, TR_Data.RcvBuffer );
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_Read             |
+--------------------------------------------------------------------+

  PURPOSE : read data from driver

*/
LOCAL USHORT TR_Read ( void *Buffer, ULONG *BytesToRead )
{
ULONG Space = TR_EndInd - (TR_RdInd & TR_MaxInd);
static ULONG bytes_read;

  if ( *BytesToRead == 0 )
  {
    *BytesToRead = MessageLength;
    bytes_read = 0;
  }
  else
  {
    if ( Space > *BytesToRead ) 
    {
      memcpy ( Buffer, &TR_RcvBuffer[TR_RdInd&TR_MaxInd], *BytesToRead );
      bytes_read += *BytesToRead;
    }
    else
    {
      memcpy ( Buffer, &TR_RcvBuffer[TR_RdInd&TR_MaxInd], (unsigned int)Space );
      *BytesToRead = Space;
      bytes_read += Space;
    }
    TR_RdInd += *BytesToRead;
    if ( TR_Data.config & STX_LF_MODE )
      if ( bytes_read == MessageLength )
        TR_RdInd++;  /* skip th LF, its not read by the TIF driver */
  }
  return DRV_OK;
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_Write            |
+--------------------------------------------------------------------+

  PURPOSE : write data to driver

*/
USHORT TR_Write ( void *Buffer, ULONG *BytesToWrite )
{
char *snd_ptr = (char*)Buffer;
ULONG btw;
char ti_mode_header[2];

ti_mode_header[0] = TI_STX;
ti_mode_header[1] = TI_L23_ID;

#ifdef _TOOLS_
btw=(*BytesToWrite) & ~PRIM_FLAG_MASK;
#else
btw=(*BytesToWrite);
#endif

#ifdef _TOOLS_
  if (TR_Data.config & TI_RAW_TRC_MODE)
  {
    ULONG full_btw, segment_size;
    /*lint -e813, suppress Info 813: auto variable 'osver' has size '148' */ 
    char segment[DATA_SEGMENT_SIZE*2+3];
    /*lint +e813 */
    ULONG q;

    full_btw=btw;
    while (full_btw)
    {
      btw= (full_btw>DATA_SEGMENT_SIZE) ? DATA_SEGMENT_SIZE : full_btw;

      /* fill in leading bytes */
      segment_size=0;
      segment[segment_size++]=TI_STX;
      segment[segment_size++]=TI_L23_ID;

      /* fill in payload bytes */
      for (q=0; q<btw; q++)
      {
        /* evtl insert TI_ESC characters */
        if (snd_ptr[q]==TI_STX || snd_ptr[q]==TI_ESC)
        {
          segment[segment_size++]=TI_ESC;
        }
        segment[segment_size++]=snd_ptr[q];
      }

      /* fill in trailing bytes */
      segment[segment_size++]=TI_STX;

      /* write segment */
      if ( vsi_d_write ( TR_Data.Handle, 0, (void*)segment, segment_size) != VSI_OK )
      {
        return DRV_INTERNAL_ERROR;
      }

      full_btw=full_btw-btw;
      if (full_btw)
      {
        snd_ptr=snd_ptr+btw;

        /* let the ti driver on target handle the byte-block */
        vsi_t_sleep ( 0, 100 );
      }
    }

    return DRV_OK;
  }
#endif /* _TOOLS_ */

  /*
   * To avoid reallocation and memcpy() the STX is written in front of the passed 
   * data. This works as long as the sizeof(T_SYST_HEADER) is bigger than the header
   * sent via the test interface.
   */
  if ( TR_Data.config & STX_LF_MODE )
  {
    btw=(*BytesToWrite) & ~PRIM_FLAG_MASK;          /* not really generic, but we need to mask here */
                                                    /* we assume that the TITRC driver is not below */
    if ( *BytesToWrite & PRIM_DATA_FLAG )           /* primitive data -> LF at the end */
    {
      *(snd_ptr+btw) = '\n';
      btw = btw + 1;
    }
    else if ( *BytesToWrite & PRIM_HEADER_FLAG )    /* primitive header -> add STX in front */
    {
      snd_ptr--;                                    /* it is posible to add STX because the first */
      *snd_ptr = STX;                               /* byte of TST_SMALL_HEADER/TST_BIG_HEADER in unused */
      btw = btw + 1;
    }
    else                                            /* trace -> STX in front, LF at the end */
    {
      *(snd_ptr+btw) = '\n';
      snd_ptr--;
      *snd_ptr = STX;
      btw = btw + 2;
    }
  }

  /* Add mux STX and channel id if not already in */
  if (TR_Data.config & TI_RAW_TRC_MODE && *snd_ptr != TI_STX )
  {
    if ( vsi_d_write ( TR_Data.Handle, 0, (void*)ti_mode_header, 2) != VSI_OK )
    {
      return DRV_INTERNAL_ERROR;
    }
  }

  if ( vsi_d_write ( TR_Data.Handle, 0, (void*)snd_ptr, btw) != VSI_OK )
  {
    return DRV_INTERNAL_ERROR;
  }
 
  return DRV_OK;
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_SetSignal        |
+--------------------------------------------------------------------+

  PURPOSE : enable signal for the driver

*/
LOCAL USHORT TR_SetSignal ( USHORT SignalType )
{
  if ( !(SignalType & ALLOWED_TR_SIGNALS) )
    return DRV_INVALID_PARAMS;
  else
    TR_Data.EnabledSignalType |= SignalType;
  
  return DRV_OK;
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_ResetSignal      |
+--------------------------------------------------------------------+

  PURPOSE : disable signal for the driver

*/
LOCAL USHORT TR_ResetSignal ( USHORT SignalType )
{
  if ( !(SignalType & ALLOWED_TR_SIGNALS) )
    return DRV_INVALID_PARAMS;
  else
    TR_Data.EnabledSignalType &= ~SignalType;
  
  return DRV_OK;
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_SetConfig        |
+--------------------------------------------------------------------+

  PURPOSE : set configuration for the driver

*/
LOCAL USHORT TR_SetConfig ( char *Buffer )
{
  if ( !strcmp ( TR_STX_LF, Buffer ) )
  {
    TR_Data.config = STX_LF_MODE;
    TR_Data.rcv_state = WAIT_FOR_STX;
    TR_Data.idle_state = WAIT_FOR_STX;
#ifdef _TOOLS_
    printf ("TR: STX mode enabled\n");
#endif /* _TOOLS_ */
    return DRV_OK;
  }
#ifdef _TOOLS_
  else if ( !strcmp ( DRV_TI_MODE, Buffer ) )
  {
    TR_Data.config = TI_TRC_MODE;
    TR_Data.rcv_state = WAIT_FOR_TI_ID;
    TR_Data.idle_state = WAIT_FOR_TI_ID;
    printf ("TR: TI mode enabled\n");
    return DRV_OK;
  }
#endif /* _TOOLS_ */
  else if ( !strcmp ( DRV_RAW_TI_MODE, Buffer ) )
  {
    TR_Data.config = TI_RAW_TRC_MODE;
    TR_Data.rcv_state = WAIT_FOR_RAW_TI_S;
    TR_Data.idle_state = WAIT_FOR_RAW_TI_S;
#ifdef _TOOLS_
    printf ("TR: raw TI mode enabled\n");
#endif
    return DRV_OK;
  }
  else if ( !strcmp ( DRV_DEFAULT, Buffer ) )
  {
    TR_Data.config = 0;
    TR_Data.rcv_state = WAIT_FOR_IDENT;
    TR_Data.idle_state = WAIT_FOR_IDENT;
#ifdef _TOOLS_
    accessNum++;
    PrintToFile("TR: default mode selected __________________________ (%d)\n", accessNum);
#endif /* _TOOLS_ */
    return DRV_OK;
  }
  else
    return DRV_INVALID_PARAMS;
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : Callback            |
+--------------------------------------------------------------------+

  PURPOSE : callback function of the driver

*/
/*lint -esym(644,infoByteAddr) suppress warning -- Symbol 'infoByteAddr' may not have been initialized */
LOCAL void TR_Callback ( T_DRV_SIGNAL *Signal )
{
static T_DRV_SIGNAL TR_Signal;
static USHORT  counter   = 0;
static char* infoByteAddr;
int tr_abort_discard;
int tr_abort;
unsigned char           c;
ULONG          i;
ULONG BytesToRead;
ULONG BytesRead = 0;
ULONG TR_WorkInd;
ULONG Bytes = 0;
USHORT continue_read;
//#ifdef _TOOLS_
static unsigned int ti_len = 0;
static char ti_id = 0;
static int sigtype = 0;
static int lf_found;
static int crlf_found;
static U8 mux_chan_id;
static U8 mux_chan = 0;
static U8 mux_status = WAIT_FOR_MUX_CHAN_ID;
static int stuffed_byte;
//#endif
  
  tr_abort_discard = 0;
  tr_abort = 0;
  TR_Signal.SignalType = 0;
  switch ( Signal->SignalType )
  {
    case DRV_SIGTYPE_READ:
      BytesToRead = TR_EndInd - TR_WrInd;
      TR_WorkInd = TR_WrInd;

      do
      {
        Bytes = 0;
        do 
        {
          continue_read = 0;
          /*
           * write counter must not overtake the read counter. If more bytes to be read
           * than space available, then process the bytes in the buffer first and then
           * continue to store new data in the TR_RcvBuffer.
           */
          if ( TR_WrInd >= (TR_RdInd&TR_MaxInd) )
            BytesToRead = TR_EndInd - TR_WrInd;
          else
            BytesToRead = (TR_RdInd&TR_MaxInd) - TR_WrInd; 
          BytesRead = BytesToRead;
          vsi_d_read ( TR_Data.Handle, 0, (void*)&TR_RcvBuffer[TR_WrInd], &BytesRead ); 
          Bytes += BytesRead;
          if ( BytesRead < BytesToRead )
          {
            TR_WrInd += BytesRead;
          }
          else 
          {
            if ( TR_WrInd >= (TR_RdInd&TR_MaxInd) )
              TR_WrInd = 0;
            else
            {
              TR_WrInd += BytesRead;
              continue_read = 1;
              break;
            }
          }
        } while ( BytesRead != TR_RcvBufferSize && BytesRead == BytesToRead );

        if ( Bytes )
        {
          UBYTE cMasked;

          i=0;

          while (i++ < Bytes)
          {
            c = TR_RcvBuffer[(TR_WorkInd++) & TR_MaxInd];

#ifdef _TOOLS_
            if (TR_Data.config & TI_RAW_TRC_MODE) /* we are receiving rawly in TI mode */
            {
              if (!ti_esc_skipped && c==TI_ESC)
              {
                /* the TI driver has inserted an TI_ESC -> skip it */
                ULONG q;
                for (q=TR_WorkInd-1; q>TR_RdInd; q--)
                {
                  TR_RcvBuffer[q & TR_MaxInd]=TR_RcvBuffer[(q-1) & TR_MaxInd];
                }
                TR_RdInd++;
                ti_esc_skipped=1;
                continue;
              }
              ti_esc_skipped=0;
            }
#endif /* _TOOLS_ */

            if ( tr_abort_discard == 1 )
            {
              TR_RdInd++;
              continue;
            }
            switch (TR_Data.rcv_state)
            {
              case WAIT_FOR_STX:
                if (c == STX)
                {
#ifdef _TOOLS_ 
                  ti_len=0;
#endif 
                  TR_Data.rcv_state = WAIT_FOR_IDENT;
                  TR_RdInd = TR_WorkInd;                   /* do not pass the STX to TIF */
                }
                else
                  TR_RdInd++;
                break;
//#ifdef _TOOLS_
              case WAIT_FOR_RAW_TI_S:
                if (c==TI_STX)
                {
                  TR_Data.rcv_state=WAIT_FOR_RAW_TI_ID;
                  TR_RdInd = TR_WorkInd;  /* do not read TI_STX */
                }
                break;
              case WAIT_FOR_RAW_TI_ID:
                if (c==TI_STX)
                {
                  // last TI_STX was end ID -> ignore this start ID
                }
                else if (c==TI_L23_ID)
                {
                  ti_len = 0;
                  ti_id = c;
                  TR_Data.rcv_state=WAIT_FOR_IDENT;
                }
                else if (c == TI_L1_ID || c == TI_RIV_ID)
                {
                  ti_len = 0;
                  ti_id = c;

                  if (ti_id == TI_L1_ID)
                    sigtype = DRV_SIGTYPE_READ_L1;
                  if (ti_id == TI_RIV_ID)
                    sigtype = DRV_SIGTYPE_READ_RIV;

                  counter = 0;
                  TR_RdInd = TR_WorkInd;  /* do not read ti_id */
                  crlf_found = 0;
                  lf_found = 0;
                  TR_Data.rcv_state=WAIT_FOR_RAW_TI_E;
                }
                else
                {
                  mux_chan_id = c;
                  if ( mux_status == WAIT_FOR_MUX_CHAN_ID )
                  {
                    for ( mux_chan = 0; mux_chan < MAX_TST_CHANNEL; mux_chan++ )
                    {
                      if ( tst_mux_chan_struct[mux_chan].channel_id == c )
                      {
                        mux_status = WAIT_FOR_MUX_END_STX;
                        tst_mux_chan_struct[mux_chan].rcv_data_ptr  = &TR_RcvBuffer[(TR_WorkInd) & TR_MaxInd];
                        tst_mux_chan_struct[mux_chan].rcv_data_size = 0;
                        stuffed_byte = 0;
                        TR_RdInd = TR_WorkInd;  /* do not read id */
                        TR_Data.rcv_state=WAIT_FOR_RAW_TI_E;
                        break;
                      }
                    }
                  }
                }
                break;
#ifdef _TOOLS_
              case WAIT_FOR_TI_ID:
                                      /* skip TI ID byte */
                if (c == TI_L23_ID || c == TI_L1_ID || c == TI_RIV_ID)
                {
                  ti_len = 0;
                  ti_id = c;
                  TR_Data.rcv_state = WAIT_FOR_TI_LEN_0;
                }
                else
                {
                  ti_id_not_found = 1;
                }
                break;
              case WAIT_FOR_TI_LEN_0:
                                      /* 
                 * skip length
                 * if length byte == 0 then the next 2 bytes are the length
                 * (patch to handle messages longer than 255 bytes)
                 */
                if ( c != 0 )
                {
                  if (ti_id == TI_L23_ID)
                    TR_Data.rcv_state = WAIT_FOR_IDENT;

                  if (ti_id == TI_L1_ID || ti_id == TI_RIV_ID)
                  {
                    if (ti_id == TI_L1_ID)
                      sigtype = DRV_SIGTYPE_READ_L1;
                    if (ti_id == TI_RIV_ID)
                      sigtype = DRV_SIGTYPE_READ_RIV;

                    TR_Data.rcv_state = WAIT_FOR_DATA;
                    counter = 0;
                    TR_RdInd += 2;  /* do not read ti_id and length */
                    crlf_found = 0;
                    lf_found = 0;
                  }
                  ti_len = c & 0xff;
                }
                else
                  TR_Data.rcv_state = WAIT_FOR_TI_LEN_1;

                break;
              case WAIT_FOR_TI_LEN_1:
                ti_len = c ;
                TR_Data.rcv_state = WAIT_FOR_TI_LEN_2;
                break;
              case WAIT_FOR_TI_LEN_2:
                ti_len |= c << 8;
                TR_Data.rcv_state = WAIT_FOR_IDENT;
                break;
#endif /* ifdef _TOOLS_ */

              case WAIT_FOR_IDENT:
                infoByteAddr = &TR_RcvBuffer[(TR_WorkInd - 1) & TR_MaxInd];
                /* analyze INFO  Byte */
                cMasked = (c &  HDR_VERSION_MASK);
#ifdef _TOOLS_
                if (cMasked == HDR_VALID_VERSION_0) 
                {
                  i--; TR_WorkInd--;
                  printf ("TR: changed to OLD header format automatically\n");
//                    tst_drv_write ( NO_TASK, SYS_MASK, FRM_TST_NAME, (char*)SYSPRIM_GET_STACK_TIME );
                  break;
                }
                /* check for lost bytes on interface */
                if (TR_Data.config & TI_TRC_MODE ||
                    TR_Data.config & TI_RAW_TRC_MODE) /* we are receiving from a arm 7 TARGET */
                { /* TR_WorkInd refs position of first size byte now */
                  if (ti_id_not_found) 
                  {
                    *infoByteAddr = (( *infoByteAddr & ~HDR_IDENT_MASK) | IDENT_ABORT); /* mark as bad */
                  }
                }
#endif /* ifdef _TOOLS_ */
                cMasked = (c &  HDR_IDENT_MASK);
                if (((cMasked == IDENT_PS_PRIM) || (cMasked == IDENT_SYS_PRIM) ||
                    (cMasked == IDENT_ABORT)   || (cMasked == IDENT_TRACE))
                    &&
                    ((c != PROT_PRIM_ID) && (c != PROT_PRIM_ID_32BIT) &&
                     (c != SYS_PRIM_ID) && (c != TRACE_ID))
                    )
                {
                  /* Hey fine, everything went OK! */
                  TR_Data.rcv_state = WAIT_FOR_LENGTH1;
                }
                else
                { /* we have to fake a length for abort trace */
                  tst_trailer_size.part[0] = TST_HEADER_LEADING_FIELDS;
                  tst_trailer_size.part[1] = 0; 
                  MessageLength = tst_trailer_size.val + TST_HEADER_TRAILING_FIELDS;

                  *infoByteAddr = (( *infoByteAddr & ~HDR_IDENT_MASK) | IDENT_ABORT); /* mark as bad */
                  counter = tst_trailer_size.val; /* don't let us read all the following bytes before let TIF tracing ABORT */
                  TR_Data.rcv_state = WAIT_FOR_DATA;
                  tr_abort = 1;
                }
                TR_RdInd = TR_WorkInd - 1; /* skip all preceeding interface sync bytes before triggering TIF */
                break;
              case WAIT_FOR_LENGTH1:       
                  /* the use of the union does rely on identical byte sex! */
#ifdef _SOLARIS_
                  /* temporary hack */
                  tst_trailer_size.part[1] = c;
#else
                  tst_trailer_size.part[0] = c;
#endif
                  TR_Data.rcv_state = WAIT_FOR_LENGTH2;
                  break;
              case WAIT_FOR_LENGTH2:       
#ifdef _SOLARIS_
                  /* temporary hack */
                  tst_trailer_size.part[0] = c;
#else
                  tst_trailer_size.part[1] = c;
#endif
                  /* Bytes after size + bytes till size (inclusive) */
                  MessageLength = tst_trailer_size.val + TST_HEADER_LEADING_FIELDS;
#ifdef _TOOLS_
                  /* In case of a lost character the two length information elements mismatch. */
                  if ( (ti_len != 0) && (tst_trailer_size.val != (ti_len - 3)) )
                  {
                    tst_trailer_size.val = ti_len - 3;
                  }
                  ti_len = 0;
                  if ((tst_trailer_size.val - TST_HEADER_TRAILING_FIELDS) > (unsigned short int)(MAX_PRIM_PARTITION_SIZE - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER)))
                  {
                    *infoByteAddr = (( *infoByteAddr & ~HDR_IDENT_MASK) | IDENT_ABORT); /* mark as bad */
                    tst_trailer_size.val = (MAX_PRIM_PARTITION_SIZE - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER) -TST_HEADER_TRAILING_FIELDS);
                    counter = tst_trailer_size.val; /* don't let us read all the following bytes before let TIF tracing ABORT */
                    tr_abort = 1;
                  }
#else
                  if ((tst_trailer_size.val - TST_HEADER_TRAILING_FIELDS) > (unsigned short int)(MaxPrimPartSize - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER)))
                  {
                    *infoByteAddr = (( *infoByteAddr & ~HDR_IDENT_MASK) | IDENT_ABORT); /* mark as bad */
                    tst_trailer_size.val = (USHORT)(MaxPrimPartSize - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER) -TST_HEADER_TRAILING_FIELDS);
                    counter = tst_trailer_size.val; /* don't let us read all the following bytes before let TIF tracing ABORT */
                    tr_abort = 1;
                  }
#endif
                  TR_Data.rcv_state = WAIT_FOR_DATA;
                  counter = 0;
                  break;
              case WAIT_FOR_RAW_TI_E:
                if ( mux_status == WAIT_FOR_MUX_END_STX )
                {
                  if ( stuffed_byte )
                  {
                    stuffed_byte = 0;
                    tst_mux_chan_struct[mux_chan].rcv_data_size++;
                  }
                  else
                  {
                    if ( c != TI_STX )
                    {
                      if ( c == 0x10 )
                      {
                        stuffed_byte = 1;
                      }
                      tst_mux_chan_struct[mux_chan].rcv_data_size++;
                    }
                    else
                    {
                      tst_mux_callback (mux_chan,tst_mux_chan_struct[mux_chan].rcv_data_ptr, tst_mux_chan_struct[mux_chan].rcv_data_size);
                      mux_status = WAIT_FOR_MUX_CHAN_ID;
                      MessageLength = tst_mux_chan_struct[mux_chan].rcv_data_size;
                      TR_Data.rcv_state = WAIT_FOR_RAW_TI_S;
                    }
                  }
                }
#ifdef _TOOLS_
                if (c!=TI_STX)
                {
                  if ( counter == 0 && c == 0x0a )
                  {
                    lf_found = 1;
                  }
                  if ( lf_found && counter == 1 && c == 0x0d)
                  {
                    crlf_found = 1;
                  }
                  counter++;
                }
                else
                {
                  if ( TR_Data.EnabledSignalType & DRV_SIGTYPE_READ )
                  {
                    ti_len=counter;
                    if ( crlf_found == 1 )
                    {
                      ti_len -= 2;
                      TR_RdInd += 2;  /* do not read CR and LF at the beginning */
                    }
                    MessageLength = ti_len;
                    TR_Signal.SignalType = sigtype;
                    TR_Signal.DrvHandle = TR_Data.Handle;
                    (TR_Data.Callback)( &TR_Signal );
                  }
                  TR_Data.rcv_state = TR_Data.idle_state;
                }
#endif
                break;
              case WAIT_FOR_DATA:       
#ifdef _TOOLS_
                if ( ti_len )
                { 
                  if ( counter == 0 && c == 0x0a )
                  {
                    lf_found = 1;
                  }
                  if ( lf_found && counter == 1 && c == 0x0d)
                  {
                    crlf_found = 1;
                  }
                  if ( ++counter >= ti_len )
                  {
                    if ( TR_Data.EnabledSignalType & DRV_SIGTYPE_READ )
                    {
                      if ( crlf_found == 1 )
                      {
                        ti_len -= 2;
                        TR_RdInd += 2;  /* do not read CR and LF at the beginning */
                      }
                      MessageLength = ti_len;
                      TR_Signal.SignalType = sigtype;
                      TR_Signal.DrvHandle = TR_Data.Handle;
                      (TR_Data.Callback)( &TR_Signal );
                    }
                    TR_Data.rcv_state = TR_Data.idle_state;
                  }
                  break;
                }
#endif                  
                if (++counter >= tst_trailer_size.val) /* If all went OK up to now we have to read all remaining bytes from the buffer each for each */
                {
                  if (TR_Data.config & STX_LF_MODE )
                  {
                    TR_Data.rcv_state = WAIT_FOR_CR;
                    break;
                  }
                  else
                  {
                    if ( TR_Data.EnabledSignalType & DRV_SIGTYPE_READ )
                    {
#ifdef _TOOLS_
                      tst_message_received = 1;
#endif
                      TR_Signal.SignalType = DRV_SIGTYPE_READ;
                      TR_Signal.DrvHandle = TR_Data.Handle;
                      (TR_Data.Callback)( &TR_Signal );
                    }
                    TR_Data.rcv_state = TR_Data.idle_state;
                    tst_trailer_size.val = 0;
                    if ( tr_abort == 1 ) /* marked as bad */
                      tr_abort_discard = 1;
#ifdef _TOOLS_
                    ti_id_not_found = 0;
#endif
                  }
                }
                break;
              case WAIT_FOR_CR:
#ifdef _TOOLS_     /* check for lost bytes on interface */
                if (TR_Data.config & STX_LF_MODE )  /* we are receiving from a arm 9 TARGET or Windows stack configured stx */
                {
                  if (c != '\n') 
                  {
                    *infoByteAddr = (( *infoByteAddr & ~HDR_IDENT_MASK) | IDENT_ABORT); /* mark as bad */
                  }
                }
#endif /* _TOOLS_ check for lost bytes on interface */
                if ( TR_Data.EnabledSignalType & DRV_SIGTYPE_READ )
                {
#ifdef _TOOLS_
                  tst_message_received = 1;
#endif
                  TR_Signal.SignalType = DRV_SIGTYPE_READ;
                  TR_Signal.DrvHandle = TR_Data.Handle;
                  (TR_Data.Callback)( &TR_Signal );
                }
                TR_Data.rcv_state = TR_Data.idle_state;
                tst_trailer_size.val = 0;
                if ( tr_abort == 1 ) /* marked as bad */
                  tr_abort_discard = 1;
                break;
              default:
                break; 
            }
          } /*  while (i++ < Bytes) */
        } /* if Bytes loop */
      } while ( continue_read == 1 );
    break;
    case DRV_SIGTYPE_CONNECT:
    case DRV_SIGTYPE_DISCONNECT:
      if ( TR_Data.EnabledSignalType & Signal->SignalType )
      {
        TR_Signal.SignalType = Signal->SignalType;
        TR_Signal.DrvHandle = TR_Data.Handle;
        (TR_Data.Callback)( &TR_Signal );
      }
    break;
    default: 
    break;
  }
}
#endif

#ifndef RUN_INT_RAM
/*
+--------------------------------------------------------------------+
| PROJECT : GSM-Frame (8415)           MODULE  : TR                  |
| STATE   : code                       ROUTINE : TR_Init             |
+--------------------------------------------------------------------+

  PURPOSE : initialize driver

*/
USHORT TR_Init ( USHORT DrvHandle, T_DRV_CB_FUNC CallbackFunc, T_DRV_EXPORT const **DrvInfo )
{                
USHORT j;
ULONG size = 0;
static const T_DRV_EXPORT TR_Info =
{
  "TR",
  0,
  {
#ifdef _TOOLS_
    TR_Init,
#endif
    TR_Exit,
    TR_Read,
    TR_Write,
    NULL,
    NULL,
    NULL,
    TR_SetSignal,
    TR_ResetSignal,
    TR_SetConfig,
    NULL,
    TR_Callback,
  }
};

  TR_Data.Handle = DrvHandle;

  TR_Data.EnabledSignalType = 0;

  TR_Data.config = 0;

  TR_Data.rcv_state = WAIT_FOR_IDENT;

  TR_Data.idle_state = WAIT_FOR_IDENT;

  TR_Data.Callback = CallbackFunc;

  *DrvInfo = &TR_Info;

  /* 
   * TR_RcvBufferSize must be a power of 2 for proper wrap-around
   */
#ifndef _TOOLS_
  TR_RcvBufferSize = MaxPrimPartSize;
#endif
  j = 0;
  do
  {
    if ( (ULONG)(1 << j) >= TR_RcvBufferSize )  /* Size must be a power of 2 */
    {
      size = 1 << j;
      break;
    }
    else
      j++;
  } while ( size < 0xffff );

  TR_RcvBufferSize = size;
  TR_MaxInd = TR_RcvBufferSize - 1;

  if ( os_AllocateMemory ( NO_TASK, &TR_Data.RcvBuffer, (ULONG)TR_RcvBufferSize,
                           OS_NO_SUSPEND, ext_data_pool_handle ) != OS_OK )
  {
      vsi_o_assert ( NO_TASK, OS_SYST_ERR_NO_MEMORY, __FILE__, __LINE__,
                     "No memory available in TR driver, TR_RcvBufferSize = %d",
                     TR_RcvBufferSize );
    return DRV_INITFAILURE;
  }

  TR_RcvBuffer = (char*)TR_Data.RcvBuffer;
  TR_EndInd = TR_RcvBufferSize;
  TR_WrInd = 0;
  TR_RdInd = 0;
  tst_trailer_size.val = 0;
#ifdef _TOOLS_
  ti_id_not_found = 0;
  ti_esc_skipped = 0;
#endif

  return DRV_OK;           
}
#endif