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Bootloader Questions/Problems

 
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ferrumvir



Joined: 01 Feb 2006
Posts: 64
Location: England

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Bootloader Questions/Problems
PostPosted: Thu Jan 18, 2007 8:43 am     Reply with quote
Preface: I'm writing a bootloader and all applications loaded with it do not run, I've exhausted my tallent for finding the error, can you help Question

Any help on how to track down the error would be great.

At this point there are 9 posts mainly myself pusuing lines of attack and failing, but could offer information to anyone trying to help.

Original post here on down

Hi,

I'm currently trying to write a bootloader but have got stuck 90% of the way there...

Hoping you can help.

I've included the source files and the list file for the loader, and a memory map of where the application sits.

These are all modifications to the Loader.c ex_bootloader.c ex_bootload.c and bootloader.h files. I first copied loader.c into the file and modified from there. The bootloader works fine, in that I can re-program memory in the program eeprom and data eeprom sections at will. The PC software interprets the application HEX file, checks the check sum, ensures that it will not overwrite the bootloader etc. There are no inturupts used in the bootloader, and even after a "non-working application" has been downloaded the bootloader if triggered still functions. You'll see (if you read through the code) that there are several options for triggering the bootload, at the moment it's pin A4 held low when reset. All the other options work, RS232 Escape Key, and EEPROM (DATA and PROGRAM) strorage of decision. Though the latter two require the application to write to this memory and reboot to trigger bootloading, so not useful yet!

So I'm happy that I can bootload a program, but I can't get the application loaded to run (I can write the values to memory but they don't function). Exclamation Any ideas as to why the "dummy" application flashed with the bootloader works but anything else does not.

The only thing I can see is in the memory map there is a gap of 4 bytes which the bootloader writes which I thought would be empty prior to the interupt vector.

Though niether bootloader or application use interupts I suspect this is where my problems lie, my applications will eventually use interupts.

I'm a little unsure of this section of code, used unchanged from loader.c
Code:

#int_global
void isr(void) {
   jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
}



the code in bootloader.c different
Code:

   void isr(void) {
     #asm
       goto LOADER_END+9
       goto LOADER_END+9
       goto LOADER_END+9
       goto LOADER_END+9
       goto LOADER_END+0x19
     #endasm
   }


I think they are trying to do the same thing? Which is better/correct?
Question

I'm also a little puzzled by the LOADER_END+5*(16/8) - Is this not missing a plus one. Again this is copied code, which I've not had the confidence to alter.

Quick question Question
I had to move the "#use delay" and "#use RS232" from immediately after the "#fuses" statement until after first "#ORG# statement or else the "subroutines" created by these statements are located outside of the bootloader. The example did not seem to require this code order?

Here are the files

The loader/application header

Code:

///////////////////////////////////////////////////////////////////////////
////                    my_bootloader.h                                ////
////                                                                   ////
////  This include file must be included by any application loaded     ////
////  by the example bootloader (ex_bootloader.c).                     ////
////                                                                   ////
////  The directives in this file relocate the reset and interrupt     ////
////  vectors as well as reserving space for the bootloader.           ////
////                                                                   ////
////  LOADER_END and LOADER_SIZE may need to be adjusted for a         ////
////  specific chip and bootloader.                                    ////
////                                                                   ////
///////////////////////////////////////////////////////////////////////////
////        (C) Copyright 1996,2004 Custom Computer Services           ////
//// This source code may only be used by licensed users of the CCS    ////
//// C compiler.  This source code may only be distributed to other    ////
//// licensed users of the CCS C compiler.  No other use,              ////
//// reproduction or distribution is permitted without written         ////
//// permission.  Derivative programs created using this software      ////
//// in object code form are not restricted in any way.                ////
///////////////////////////////////////////////////////////////////////////
////                                                                   ////
//// 2006-11-29 Modified by bairds to test PIC18F258 (PCH options only)////
//// 2006-01-16 Modified by bairds to match bootloader                 ////
////                                                                   ////
//// _bootloader set when compiling the bootloader (obviously realy!)  ////
////                                                                   ////
//// THEREFORE BUILD/ORG STATEMENTS IN THIS FILE ARE COMPILED INTO THE ////
//// APPLICATION.                                                      ////
////                                                                   ////
///////////////////////////////////////////////////////////////////////////

#DEFINE LOADER_END      0x7FF
#DEFINE LOADER_SIZE     0x6FF // 0x100 LESS THAN ABOVE

// THE FOLLOWING TWO HASH DEFINE STATMENTS ARE REQUIRED ONLY IF USING THE
// PROG_EEPROM BOOTLOADER DECISION.
//
// THIS USES A CHUNK OF PROGRAM MEMORY STORE BOOTLOAD/APP DECISION
//
// THIS REQUIRES 0x40 (64) BYTES BECAUSE OF THE ERASE_PROGRAM_EEPROM
// AND ALSO SHOULD BE AT A 0x40 BOUNDARY
#DEFINE LOADER_DECISION 0x00000780
// SETS EPPROM LOCATIONS IN THE PROGRAM MEMORY TO ALLOW THE BOOTLOADER
// TO DECIDE WHETHER TO START THE APPLICATION OR RUN THE BOOTLOADER.
// THIS MUST CALLED IN THE APPLICATION SOMEWHERE OTHERWISE THE BOOTLOADER
// WILL NEVER FUNCTION
#DEFINE R_AND_B erase_program_eeprom(LOADER_DECISION); write_program_eeprom(LOADER_DECISION,0x0000 ); reset_cpu();

#IFNDEF _bootloader

  // THIS WILL PUT THE APPLICATION RESET 4 BYTES
  // FOLLOWED BY FOUR BLANKS
  // FOLLOWED BY THE INTERUPTS
  #BUILD(reset=LOADER_END+1, interrupt=LOADER_END+9)

  // NO FUNCTIONS WILL BE IN THE MEMORY RANGE 0 TO LOADER END
  // THEREFORE THE COMPILER WILL NOT PUT FUNCTIONS OVER THE BOOT LOADER
  // THIS ALLOWS THE COMPILER TO PUT THE APPLICATIONS FUNCTIONS WHERE IT LIKES
  #ORG 0, LOADER_END {}

#ENDIF



The Application

Code:

// TINY APP

#include <18F258.h>
#fuses HS,NOWDT,NOPROTECT,NOLVP
#use delay(clock=10000000)

//#define _bootloader
#include "..\include\my_bootloader.h"

void main(void)
{
  while(true)
  {
    delay_ms(500);
    output_high(PIN_B0) ;
    delay_ms(500);
    output_low(PIN_B0);
  }
}


The memory map at 0x800.

The single digits after the 16 Hex values denote

1 - FLASHED with bootloader - reset to FF when application is loaded.
2 - Application
3 - Both, the application overwrites the bootloader

Code:

0x000800    19 EF 04 F0  07 0E 00 6E  EA 6A 07 0E  E9 6E EF 50  3 3 3 3  1 1 1 1  3 3 3 3  3 3 3 3
0x000810    0F E0 03 0E  01 6E 00 6A  00 2E FE D7  01 2E FB D7  3 3 3 3  3 3 3 3  3 3 3 3  3 3 3 3
0x000820    3C 0E 00 6E  00 2E FE D7  00 00 00 00  EF 2E F1 D7  3 3 3 3  3 3 3 3  3 3 3 3  3 3 3 3
0x000830    00 0C F8 6A  D0 9E EA 6A  E9 6A C1 80  C1 82 C1 84  3 3 3 3  3 3 3 3  3 3 3 3  3 3 3 3
0x000840    C1 96 02 0E  06 6E FA 0E  07 6E DE DF  06 2E FB D7  3 3 3 3  3 3 3 3  3 3 3 3  3 3 3 3
0x000850    93 90 8A 80  02 0E 06 6E  FA 0E 07 6E  D5 DF 06 2E  3 3 3 3  3 3 3 3  3 3 3 3  3 3 3 3
0x000860    FB D7 93 90  8A 90 ED D7  03 00 FF 00  D4 D7 00 0C  3 3 3 3  3 3 3 3  3 3 1 1  1 1 1 1


The Bootloader

Code:

///////////////////////////////////////////////////////////////////////////
////                      EX_BOOTLOADER.C                              ////
////                                                                   ////
///////////////////////////////////////////////////////////////////////////
////        (C) Copyright 1996,2004 Custom Computer Services           ////
//// This source code may only be used by licensed users of the CCS    ////
//// C compiler.  This source code may only be distributed to other    ////
//// licensed users of the CCS C compiler.  No other use,              ////
//// reproduction or distribution is permitted without written         ////
//// permission.  Derivative programs created using this software      ////
//// in object code form are not restricted in any way.                ////
///////////////////////////////////////////////////////////////////////////
////                                                                   ////
//// 2006-11-29 Modified by bairds to test PIC18F258 (PCH options)     ////
//// 2007-01-09 Modified by bairds one file                            ////
//// 2007-01-13 Modified by bairds to suit purpose                     ////
////                                                                   ////
///////////////////////////////////////////////////////////////////////////

#include <18F258.h>
#fuses HS,NOWDT,NOPROTECT,NOLVP

#define _bootloader
#include </include>

#define LOADER_ADDR LOADER_END-LOADER_SIZE
#define BUFFER_LEN_LOD 64

// ============================================================================
// FUNCTION DECLARATIONS
// ============================================================================
// DO NOT INLINE THESE FUNCTION (SPACE SAVING)

// CONVERT TWO HEX CHARACTERS TO int8
#SEPARATE
unsigned int atoi_b16(char *s);

// READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
#SEPARATE
void read2RS232( int32 a, char c );

// READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
#SEPARATE
void REPP2RS232( int a, char c );


//                                                            real_load_program
// ============================================================================
#ORG LOADER_ADDR+10, LOADER_END auto=0 default
// THESE USE STATEMENTS HAVE TO BE AFTER THE ORG OR ELSE THE COMPILER PUTS THE
// SUBROUTINES IN APPLICATION MEMORY SPACE.
#use delay(clock=10000000)
#use rs232(baud=38400, xmit=PIN_C6, rcv=PIN_C7, ERRORS)
void real_load_program (void)
{
  int1  done=FALSE;
  int1  gotcom;
  char  c;
  int32 addr;
  int8  i;
  int8  data[16];
  int   buffidx;
  char  buffer[BUFFER_LEN_LOD];

   while (!done)  // Loop until the entire program is downloaded
   {
      // QUICK TEST FOR CHIP     
//     printf("ES [%lX]",getenv("FLASH_ERASE_SIZE"));  // 0x40 for PIC18F258
//     printf("WS [%lX]",getenv("FLASH_WRITE_SIZE"));  // 0x08 for PIC18F258

      putc('b');
      buffidx = 0;  // READ INTO THE BUFFER UNTIL ']' IS RECIEVED OR THE BUFFER IS FULL
      gotcom=FALSE; // RECEIPT OF GOOD MESSAGE...
      do
      {
         c = getc();
         if( c=='[' ) // 0x5B
         // START OF COMMAND
         {
           buffidx = 0;
         }
         else if( c==']' ) // 0x5D
         // END OF COMMAND
         {
           gotcom=TRUE;
         }
         else if( (47<c&&c<58) || (64<c&&c<71) || c=='w' || c=='r'  || c=='e' || c=='t' || c=='d' )
         // UPPERCASE HEX CHARACTERS OR COMMAND CHARACTERS
         {
           buffer[buffidx] = c;
           buffidx++;
         }
      } while ( !gotcom && (buffidx <= BUFFER_LEN_LOD) );

      // READ 16 BYTES FROM PROGRAM EEPROM FROM ADDRESS (LAST 4 BIT OF ADDRESS NOT SENT AND ALWAYS ZERO)
      // EXAMPLE COMMAND "[r0050]"
      if(buffer[0] == 'r' && buffidx==5 )
      {
        addr=((int32)atoi_b16(&buffer[1])<<12) + ((int32)atoi_b16(&buffer[3])<<4);
        read2RS232(addr, 'R' );
      }// END - if(buffer[0] == 'r')

      // READ 1 BYTE FROM DATA EEPROM FROM ADDRESS (FULL 8 BIT ADDRESS SENT)
      // EXAMPLE COMMAND "[t50]"
      else if(buffer[0] == 't' && buffidx==3 )
      {
        i=atoi_b16(&buffer[1]);
        REPP2RS232(i, 'T' );
      }// END - else if(buffer[0] == 't')

      // WRITE 16 BYTES TO PROGRAM EEPROM AT ADDRESS (LAST 4 BIT OF ADDRESS NOT SENT AND ALWAYS ZERO)
      // EXAMPLE COMMAND "[w0098AD6E70D6000CFFFFFFFFFFFFFFFF0000]"
      // EXAMPLE COMMAND "[w0098AD6E70D6000CFFFFFFFFFFFFFFFFFFFF]"
      // EXAMPLE COMMAND "[w0098FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF]"
      // EXAMPLE COMMAND "[w009800112233445566778899AABBCCDDEEFF]"
      // EXAMPLE COMMAND "[w009800112233445566778899AABBCC11FFFF]"
      // EXAMPLE COMMAND "[w009800112233445566778899AABBCC223344]"
      // EXAMPLE COMMAND "[r0090]" // HERE FOR CONVIENIENCE
      // EXAMPLE COMMAND "[r0091]" // HERE FOR CONVIENIENCE
      // EXAMPLE COMMAND "[r0092]" // HERE FOR CONVIENIENCE
      // EXAMPLE COMMAND "[w009000112233445566778899AABBCCDDEEFF]"
      // EXAMPLE COMMAND "[w0091FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF]"
      // EXAMPLE COMMAND "[w0092FFEEDDCCBBAA99887766554433221100]"
      else if(buffer[0] == 'w' && buffidx==37 )
      {
        addr=((int32)atoi_b16(&buffer[1])<<12) + ((int32)atoi_b16(&buffer[3])<<4);
        for( i=0; i<16; i++)data[i]=atoi_b16(&buffer[(i*2)+5]);
        i=atoi_b16(&buffer[3])&0x30;
        if( i==0 )erase_program_eeprom(addr);
        write_program_memory(addr,data,16);
        read2RS232(addr, 'W' );
      }// END - else if(buffer[0] == 'w')

      // WRITE 1 BYTE TO DATA EEPROM AT ADDRESS (FULL 8 BIT ADDRESS SENT)
      // EXAMPLE COMMAND "[e50FF]"
      else if(buffer[0] == 'e' && buffidx==5 )
      {
        i=atoi_b16(&buffer[1]);
        data[0]=atoi_b16(&buffer[3]);
        write_eeprom(i,data[0]);
        REPP2RS232(i, 'E' );
      }// END - else if(buffer[0] == 'w')

      // DONE FINISH AND RUN APPLICATION
      // EXAMPLE COMMAND "[d]"
      else if(buffer[0] == 'd')
      {
        done=TRUE;
      }// END - else if(buffer[0] == 'd')

      // PRINT ERROR MESSAGE
      else
      {
        printf("Err%u<s>",buffidx,buffer);
      }
   }
}
//                                                                     atoi_b16
// ============================================================================
// CONVERT TWO HEX CHARACTERS TO int8
unsigned int atoi_b16(char *s)
{
  unsigned int result = 0;
  int i;
  for (i=0; i<2>= 'A') result = (result<<4) + (*s) - 'A' + 10;
    else           result = (result<<4) + (*s) - '0';
  }
  return result;
}
//                                                                   read2RS232
// ============================================================================
// READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
void read2RS232( int32 a, char c )
{
  int d[16];
  int i;
  read_program_memory(a,d,16);
  printf("[%c<lX>",c,a);
  for( i=0; i<16; i++)printf("%X",d[i]);
  printf("]");
}
//                                                                   REPP2RS232
// ============================================================================
// READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
void REPP2RS232( int a, char c )
{
  int v;
  v = read_eeprom(a);
  printf("[%c<X>%X]",c,a,v);
}

//                                                                 load_program
// ============================================================================
#ORG LOADER_ADDR, LOADER_ADDR+9
void load_program(void)
{
   real_load_program();
}

//                                                                  application
// ============================================================================
// THE BOOT LOADED PROGRAM WILL OVER WRITE THIS
// THIS REPEAT SENDS THE 'a' CHARACTER
// THIS NEEDS TO HAVE SOME SORT OF REBOOT COMMAND - TO GO TO BOOTLOADER
#ORG LOADER_END+2,LOADER_END+800
void application(void)
{
  while(TRUE)
  {
    delay_ms(100);
    putc('a');
    if( kbhit() )
    {
      char c;
      c = getc();
      if( c==0x1B )
      {
        R_AND_B // RECIEVE ESCAPE
      }
    }
  }
}
//                                                                         main
// ============================================================================
// THE DECISION TO BOOTLOAD OR NOT TO BOOT LOAD GOES HERE
#ORG 0x50,0x0FF
void main(void)
{
#DEFINE DECISION_PINA4
//#DEFINE DECISION_RS232_ESC // LARGER PROGRAM!!! NEED TO MODIFY MY_BOOTLOADER.H FILE.
//#DEFINE DECISION_DATA_EEPROM
//#DEFINE DECISION_PROG_EEPROM

#IFDEF  DECISION_PINA4
  if(!input(PIN_A4))
  {
#ENDIF
#IFDEF  DECISION_RS232_ESC
  char c;
  int16 icount=0;
  int1  bload=FALSE;
  while( ++icount<10000 && !bload )
  {
    if( kbhit() )
    {
      c = getc();
      if( c==0x1B )bload=TRUE;
    }
  }
  if(bload)
  {
#ENDIF
#IFDEF  DECISION_DATA_EEPROM
  int8 imem=0;
  imem = read_eeprom(LOADER_DECISION);
  if( imem!=0xFF )
  {
    write_eeprom(LOADER_DECISION,0xFF );
#ENDIF
#IFDEF DECISION_PROG_EEPROM
  int16 imem=0;
  imem = read_program_eeprom(LOADER_DECISION);
  if( imem!=0xFFFF )
  {
    erase_program_eeprom(LOADER_DECISION);
    write_program_eeprom(LOADER_DECISION,0xFFFF);
#ENDIF
    load_program();
  }
  application();
}
//                                                                          isr
// ============================================================================
// THIS INTERUPT COLLECTS ALL INTERUPTS AND MOVES THEM TO THE END + TEN
// THE LOACTION OF THE INTERUPTS FROM THE APPLICATION
#ORG default
#int_global
void isr(void) {
   jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
}



The Bootloader List File

Code:

CCS PCH C Compiler, Version 3.249, 31363               18-Jan-07 13:45

               Filename: ex_bootloader.lst

               ROM used: 1826 bytes (6%)
                         Largest free fragment is 29920
               RAM used: 7 (0%) at main() level
                         124 (8%) worst case
               Stack:    5 worst case (4 in main + 1 for interrupts)

*
0000:  GOTO   0050
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                      EX_BOOTLOADER.C                              ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////        (C) Copyright 1996,2004 Custom Computer Services           ////
.................... //// This source code may only be used by licensed users of the CCS    ////
.................... //// C compiler.  This source code may only be distributed to other    ////
.................... //// licensed users of the CCS C compiler.  No other use,              ////
.................... //// reproduction or distribution is permitted without written         ////
.................... //// permission.  Derivative programs created using this software      ////
.................... //// in object code form are not restricted in any way.                ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                                                                   ////
.................... //// 2006-11-29 Modified by bairds to test PIC18F258 (PCH options)     ////
.................... //// 2007-01-09 Modified by bairds one file                            ////
.................... //// 2007-01-13 Modified by bairds to suit purpose                     ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... 
.................... #include <18F258.h>
.................... //////// Standard Header file for the PIC18F258 device ////////////////
.................... #device PIC18F258
.................... #list
.................... 
.................... #fuses HS,NOWDT,NOPROTECT,NOLVP
.................... 
.................... #define _bootloader
.................... #include </include>
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                    my_bootloader.h                                ////
.................... ////                                                                   ////
.................... ////  This include file must be included by any application loaded     ////
.................... ////  by the example bootloader (ex_bootloader.c).                     ////
.................... ////                                                                   ////
.................... ////  The directives in this file relocate the reset and interrupt     ////
.................... ////  vectors as well as reserving space for the bootloader.           ////
.................... ////                                                                   ////
.................... ////  LOADER_END and LOADER_SIZE may need to be adjusted for a         ////
.................... ////  specific chip and bootloader.                                    ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////        (C) Copyright 1996,2004 Custom Computer Services           ////
.................... //// This source code may only be used by licensed users of the CCS    ////
.................... //// C compiler.  This source code may only be distributed to other    ////
.................... //// licensed users of the CCS C compiler.  No other use,              ////
.................... //// reproduction or distribution is permitted without written         ////
.................... //// permission.  Derivative programs created using this software      ////
.................... //// in object code form are not restricted in any way.                ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                                                                   ////
.................... //// 2006-11-29 Modified by bairds to test PIC18F258 (PCH options only)////
.................... //// 2006-01-16 Modified by bairds to match bootloader                 ////
.................... ////                                                                   ////
.................... //// _bootloader set when compiling the bootloader (obviously realy!)  ////
.................... ////                                                                   ////
.................... //// THEREFORE BUILD/ORG STATEMENTS IN THIS FILE ARE COMPILED INTO THE ////
.................... //// APPLICATION.                                                      ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... 
.................... #DEFINE LOADER_END      0x7FF
.................... #DEFINE LOADER_SIZE     0x6FF // 0x100 LESS THAN ABOVE
.................... 
.................... // THE FOLLOWING TWO HASH DEFINE STATMENTS ARE REQUIRED ONLY IF USING THE
.................... // PROG_EEPROM BOOTLOADER DECISION.
.................... //
.................... // THIS USES A CHUNK OF PROGRAM MEMORY STORE BOOTLOAD/APP DECISION
.................... //
.................... // THIS REQUIRES 0x40 (64) BYTES BECAUSE OF THE ERASE_PROGRAM_EEPROM
.................... // AND ALSO SHOULD BE AT A 0x40 BOUNDARY
.................... #DEFINE LOADER_DECISION 0x00000780
.................... // SETS EPPROM LOCATIONS IN THE PROGRAM MEMORY TO ALLOW THE BOOTLOADER
.................... // TO DECIDE WHETHER TO START THE APPLICATION OR RUN THE BOOTLOADER.
.................... // THIS MUST CALLED IN THE APPLICATION SOMEWHERE OTHERWISE THE BOOTLOADER
.................... // WILL NEVER FUNCTION
.................... #DEFINE R_AND_B erase_program_eeprom(LOADER_DECISION); write_program_eeprom(LOADER_DECISION,0x0000 ); reset_cpu();
.................... 
.................... #IFNDEF _bootloader
.................... 
....................   // THIS WILL PUT THE APPLICATION RESET 4 BYTES
....................   // FOLLOWED BY FOUR BLANKS
....................   // FOLLOWED BY THE INTERUPTS
....................   #BUILD(reset=LOADER_END+1, interrupt=LOADER_END+9)
.................... 
....................   // NO FUNCTIONS WILL BE IN THE MEMORY RANGE 0 TO LOADER END
....................   // THEREFORE THE COMPILER WILL NOT PUT FUNCTIONS OVER THE BOOT LOADER
....................   // THIS ALLOWS THE COMPILER TO PUT THE APPLICATIONS FUNCTIONS WHERE IT LIKES
....................   #ORG 0, LOADER_END {}
.................... 
.................... #ENDIF
.................... 
.................... 
.................... #define LOADER_ADDR LOADER_END-LOADER_SIZE
.................... #define BUFFER_LEN_LOD 64
.................... 
.................... // ============================================================================
.................... // FUNCTION DECLARATIONS
.................... // ============================================================================
.................... // DO NOT INLINE THESE FUNCTION (SPACE SAVING)
.................... 
.................... // CONVERT TWO HEX CHARACTERS TO int8
.................... #SEPARATE
.................... unsigned int atoi_b16(char *s);
.................... 
.................... // READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
.................... #SEPARATE
.................... void read2RS232( int32 a, char c );
.................... 
.................... // READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
.................... #SEPARATE
.................... void REPP2RS232( int a, char c );
.................... 
.................... 
.................... //                                                            real_load_program
.................... // ============================================================================
.................... #ORG LOADER_ADDR+10, LOADER_END auto=0 default
.................... // THESE USE STATEMENTS HAVE TO BE AFTER THE ORG OR ELSE THE COMPILER PUTS THE
.................... // SUBROUTINES IN APPLICATION MEMORY SPACE.
.................... #use delay(clock=10000000)
*
074A:  CLRF   FEA
074C:  MOVLW  08
074E:  MOVWF  FE9
0750:  MOVF   FEF,W
0752:  BZ    0772
0754:  MOVLW  03
0756:  MOVWF  01
0758:  CLRF   00
075A:  DECFSZ 00,F
075C:  BRA    075A
075E:  DECFSZ 01,F
0760:  BRA    0758
0762:  MOVLW  3C
0764:  MOVWF  00
0766:  DECFSZ 00,F
0768:  BRA    0766
076A:  NOP   
076C:  NOP   
076E:  DECFSZ FEF,F
0770:  BRA    0754
0772:  RETLW  00
.................... #use rs232(baud=38400, xmit=PIN_C6, rcv=PIN_C7, ERRORS)
*
011C:  BTFSS  F9E.5
011E:  BRA    011C
0120:  MOVFF  FAB,06
0124:  MOVFF  FAE,01
0128:  BTFSS  06.1
012A:  BRA    0130
012C:  BCF    FAB.4
012E:  BSF    FAB.4
0130:  NOP   
0132:  RETLW  00
.................... void real_load_program (void)
.................... {
....................   int1  done=FALSE;
*
0404:  BCF    07.0
....................   int1  gotcom;
....................   char  c;
....................   int32 addr;
....................   int8  i;
....................   int8  data[16];
....................   int   buffidx;
....................   char  buffer[BUFFER_LEN_LOD];
.................... 
....................    while (!done)  // Loop until the entire program is downloaded
....................    {
0406:  BTFSC  07.0
0408:  BRA    0748
....................       // QUICK TEST FOR CHIP     
.................... //     printf("ES [%lX]",getenv("FLASH_ERASE_SIZE"));  // 0x40 for PIC18F258
.................... //     printf("WS [%lX]",getenv("FLASH_WRITE_SIZE"));  // 0x08 for PIC18F258
.................... 
....................       putc('b');
040A:  MOVLW  62
040C:  BTFSS  F9E.4
040E:  BRA    040C
0410:  MOVWF  FAD
....................       buffidx = 0;  // READ INTO THE BUFFER UNTIL ']' IS RECIEVED OR THE BUFFER IS FULL
0412:  CLRF   1E
....................       gotcom=FALSE; // RECEIPT OF GOOD MESSAGE...
0414:  BCF    07.1
....................       do
....................       {
....................          c = getc();
0416:  RCALL  011C
0418:  MOVFF  01,08
....................          if( c=='[' ) // 0x5B
041C:  MOVF   08,W
041E:  SUBLW  5B
0420:  BNZ   0426
....................          // START OF COMMAND
....................          {
....................            buffidx = 0;
0422:  CLRF   1E
....................          }
....................          else if( c==']' ) // 0x5D
0424:  BRA    047A
0426:  MOVF   08,W
0428:  SUBLW  5D
042A:  BNZ   0430
....................          // END OF COMMAND
....................          {
....................            gotcom=TRUE;
042C:  BSF    07.1
....................          }
....................          else if( (47<c&&c<58) || (64<c&&c<71) || c=='w' || c=='r'  || c=='e' || c=='t' || c=='d' )
042E:  BRA    047A
0430:  MOVF   08,W
0432:  SUBLW  2F
0434:  BC    043C
0436:  MOVF   08,W
0438:  SUBLW  39
043A:  BC    0466
043C:  MOVF   08,W
043E:  SUBLW  40
0440:  BC    0448
0442:  MOVF   08,W
0444:  SUBLW  46
0446:  BC    0466
0448:  MOVF   08,W
044A:  SUBLW  77
044C:  BZ    0466
044E:  MOVF   08,W
0450:  SUBLW  72
0452:  BZ    0466
0454:  MOVF   08,W
0456:  SUBLW  65
0458:  BZ    0466
045A:  MOVF   08,W
045C:  SUBLW  74
045E:  BZ    0466
0460:  MOVF   08,W
0462:  SUBLW  64
0464:  BNZ   047A
....................          // UPPERCASE HEX CHARACTERS OR COMMAND CHARACTERS
....................          {
....................            buffer[buffidx] = c;
0466:  CLRF   03
0468:  MOVF   1E,W
046A:  ADDLW  1F
046C:  MOVWF  FE9
046E:  MOVLW  00
0470:  ADDWFC 03,W
0472:  MOVWF  FEA
0474:  MOVFF  08,FEF
....................            buffidx++;
0478:  INCF   1E,F
....................          }
....................       } while ( !gotcom && (buffidx <= BUFFER_LEN_LOD) );
047A:  BTFSC  07.1
047C:  BRA    0484
047E:  MOVF   1E,W
0480:  SUBLW  40
0482:  BC    0416
.................... 
....................       // READ 16 BYTES FROM PROGRAM EEPROM FROM ADDRESS (LAST 4 BIT OF ADDRESS NOT SENT AND ALWAYS ZERO)
....................       // EXAMPLE COMMAND "[r0050]"
....................       if(buffer[0] == 'r' && buffidx==5 )
0484:  MOVF   1F,W
0486:  SUBLW  72
0488:  BNZ   0534
048A:  MOVF   1E,W
048C:  SUBLW  05
048E:  BNZ   0534
....................       {
....................         addr=((int32)atoi_b16(&buffer[1])<<12) + ((int32)atoi_b16(&buffer[3])<<4);
0490:  CLRF   x69
0492:  MOVLW  20
0494:  MOVWF  x68
0496:  RCALL  0134
0498:  CLRF   x62
049A:  CLRF   x61
049C:  CLRF   x60
049E:  MOVFF  01,5F
04A2:  CLRF   x64
04A4:  RLCF   01,W
04A6:  MOVWF  x65
04A8:  RLCF   x60,W
04AA:  MOVWF  x66
04AC:  RLCF   x61,W
04AE:  MOVWF  x67
04B0:  RLCF   x65,F
04B2:  RLCF   x66,F
04B4:  RLCF   x67,F
04B6:  RLCF   x65,F
04B8:  RLCF   x66,F
04BA:  RLCF   x67,F
04BC:  RLCF   x65,F
04BE:  RLCF   x66,F
04C0:  RLCF   x67,F
04C2:  MOVLW  F0
04C4:  ANDWF  x65,F
04C6:  CLRF   x69
04C8:  MOVLW  22
04CA:  MOVWF  x68
04CC:  RCALL  0134
04CE:  CLRF   x6B
04D0:  CLRF   x6A
04D2:  CLRF   x69
04D4:  MOVFF  01,68
04D8:  RLCF   01,W
04DA:  MOVWF  00
04DC:  RLCF   x69,W
04DE:  MOVWF  01
04E0:  RLCF   x6A,W
04E2:  MOVWF  02
04E4:  RLCF   x6B,W
04E6:  MOVWF  03
04E8:  RLCF   00,F
04EA:  RLCF   01,F
04EC:  RLCF   02,F
04EE:  RLCF   03,F
04F0:  RLCF   00,F
04F2:  RLCF   01,F
04F4:  RLCF   02,F
04F6:  RLCF   03,F
04F8:  RLCF   00,F
04FA:  RLCF   01,F
04FC:  RLCF   02,F
04FE:  RLCF   03,F
0500:  MOVLW  F0
0502:  ANDWF  00,F
0504:  MOVF   00,W
0506:  ADDWF  x64,W
0508:  MOVWF  09
050A:  MOVF   01,W
050C:  ADDWFC x65,W
050E:  MOVWF  0A
0510:  MOVF   02,W
0512:  ADDWFC x66,W
0514:  MOVWF  0B
0516:  MOVF   03,W
0518:  ADDWFC x67,W
051A:  MOVWF  0C
....................         read2RS232(addr, 'R' );
051C:  MOVFF  0C,62
0520:  MOVFF  0B,61
0524:  MOVFF  0A,60
0528:  MOVFF  09,5F
052C:  MOVLW  52
052E:  MOVWF  x63
0530:  RCALL  01F6
....................       }// END - if(buffer[0] == 'r')
.................... 
....................       // READ 1 BYTE FROM DATA EEPROM FROM ADDRESS (FULL 8 BIT ADDRESS SENT)
....................       // EXAMPLE COMMAND "[t50]"
....................       else if(buffer[0] == 't' && buffidx==3 )
0532:  BRA    0746
0534:  MOVF   1F,W
0536:  SUBLW  74
0538:  BNZ   0558
053A:  MOVF   1E,W
053C:  SUBLW  03
053E:  BNZ   0558
....................       {
....................         i=atoi_b16(&buffer[1]);
0540:  CLRF   x69
0542:  MOVLW  20
0544:  MOVWF  x68
0546:  RCALL  0134
0548:  MOVFF  01,0D
....................         REPP2RS232(i, 'T' );
054C:  MOVFF  0D,5F
0550:  MOVLW  54
0552:  MOVWF  x60
0554:  RCALL  0296
....................       }// END - else if(buffer[0] == 't')
.................... 
....................       // WRITE 16 BYTES TO PROGRAM EEPROM AT ADDRESS (LAST 4 BIT OF ADDRESS NOT SENT AND ALWAYS ZERO)
....................       // EXAMPLE COMMAND "[w0098AD6E70D6000CFFFFFFFFFFFFFFFF0000]"
....................       // EXAMPLE COMMAND "[w0098AD6E70D6000CFFFFFFFFFFFFFFFFFFFF]"
....................       // EXAMPLE COMMAND "[w0098FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF]"
....................       // EXAMPLE COMMAND "[w009800112233445566778899AABBCCDDEEFF]"
....................       // EXAMPLE COMMAND "[w009800112233445566778899AABBCC11FFFF]"
....................       // EXAMPLE COMMAND "[w009800112233445566778899AABBCC223344]"
....................       // EXAMPLE COMMAND "[r0090]" // HERE FOR CONVIENIENCE
....................       // EXAMPLE COMMAND "[r0091]" // HERE FOR CONVIENIENCE
....................       // EXAMPLE COMMAND "[r0092]" // HERE FOR CONVIENIENCE
....................       // EXAMPLE COMMAND "[w009000112233445566778899AABBCCDDEEFF]"
....................       // EXAMPLE COMMAND "[w0091FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF]"
....................       // EXAMPLE COMMAND "[w0092FFEEDDCCBBAA99887766554433221100]"
....................       else if(buffer[0] == 'w' && buffidx==37 )
0556:  BRA    0746
0558:  MOVF   1F,W
055A:  SUBLW  77
055C:  BTFSS  FD8.2
055E:  BRA    0692
0560:  MOVF   1E,W
0562:  SUBLW  25
0564:  BTFSS  FD8.2
0566:  BRA    0692
....................       {
....................         addr=((int32)atoi_b16(&buffer[1])<<12) + ((int32)atoi_b16(&buffer[3])<<4);
0568:  CLRF   x69
056A:  MOVLW  20
056C:  MOVWF  x68
056E:  RCALL  0134
0570:  CLRF   x62
0572:  CLRF   x61
0574:  CLRF   x60
0576:  MOVFF  01,5F
057A:  CLRF   x64
057C:  RLCF   01,W
057E:  MOVWF  x65
0580:  RLCF   x60,W
0582:  MOVWF  x66
0584:  RLCF   x61,W
0586:  MOVWF  x67
0588:  RLCF   x65,F
058A:  RLCF   x66,F
058C:  RLCF   x67,F
058E:  RLCF   x65,F
0590:  RLCF   x66,F
0592:  RLCF   x67,F
0594:  RLCF   x65,F
0596:  RLCF   x66,F
0598:  RLCF   x67,F
059A:  MOVLW  F0
059C:  ANDWF  x65,F
059E:  CLRF   x69
05A0:  MOVLW  22
05A2:  MOVWF  x68
05A4:  RCALL  0134
05A6:  CLRF   x6B
05A8:  CLRF   x6A
05AA:  CLRF   x69
05AC:  MOVFF  01,68
05B0:  RLCF   01,W
05B2:  MOVWF  00
05B4:  RLCF   x69,W
05B6:  MOVWF  01
05B8:  RLCF   x6A,W
05BA:  MOVWF  02
05BC:  RLCF   x6B,W
05BE:  MOVWF  03
05C0:  RLCF   00,F
05C2:  RLCF   01,F
05C4:  RLCF   02,F
05C6:  RLCF   03,F
05C8:  RLCF   00,F
05CA:  RLCF   01,F
05CC:  RLCF   02,F
05CE:  RLCF   03,F
05D0:  RLCF   00,F
05D2:  RLCF   01,F
05D4:  RLCF   02,F
05D6:  RLCF   03,F
05D8:  MOVLW  F0
05DA:  ANDWF  00,F
05DC:  MOVF   00,W
05DE:  ADDWF  x64,W
05E0:  MOVWF  09
05E2:  MOVF   01,W
05E4:  ADDWFC x65,W
05E6:  MOVWF  0A
05E8:  MOVF   02,W
05EA:  ADDWFC x66,W
05EC:  MOVWF  0B
05EE:  MOVF   03,W
05F0:  ADDWFC x67,W
05F2:  MOVWF  0C
....................         for( i=0; i<16; i++)data[i]=atoi_b16(&buffer[(i*2)+5]);
05F4:  CLRF   0D
05F6:  MOVF   0D,W
05F8:  SUBLW  0F
05FA:  BNC   063A
05FC:  CLRF   03
05FE:  MOVF   0D,W
0600:  ADDLW  0E
0602:  MOVWF  01
0604:  MOVLW  00
0606:  ADDWFC 03,F
0608:  MOVFF  01,5F
060C:  MOVFF  03,60
0610:  BCF    FD8.0
0612:  RLCF   0D,W
0614:  ADDLW  05
0616:  CLRF   03
0618:  ADDLW  1F
061A:  MOVWF  x63
061C:  MOVLW  00
061E:  ADDWFC 03,W
0620:  MOVWF  x64
0622:  MOVWF  x69
0624:  MOVFF  63,68
0628:  RCALL  0134
062A:  MOVFF  60,FEA
062E:  MOVFF  5F,FE9
0632:  MOVFF  01,FEF
0636:  INCF   0D,F
0638:  BRA    05F6
....................         i=atoi_b16(&buffer[3])&0x30;
063A:  CLRF   x69
063C:  MOVLW  22
063E:  MOVWF  x68
0640:  RCALL  0134
0642:  MOVF   01,W
0644:  ANDLW  30
0646:  MOVWF  0D
....................         if( i==0 )erase_program_eeprom(addr);
0648:  MOVF   0D,F
064A:  BNZ   0662
064C:  BSF    FD0.6
064E:  MOVFF  0B,FF8
0652:  MOVFF  0A,FF7
0656:  MOVFF  09,FF6
065A:  BSF    FA6.4
065C:  BCF    FA6.6
065E:  RCALL  02EC
0660:  CLRF   FF8
....................         write_program_memory(addr,data,16);
0662:  MOVFF  0B,FF8
0666:  MOVFF  0A,FF7
066A:  MOVFF  09,FF6
066E:  CLRF   FEA
0670:  MOVLW  0E
0672:  MOVWF  FE9
0674:  MOVLW  10
0676:  MOVWF  5F
0678:  RCALL  030C
....................         read2RS232(addr, 'W' );
067A:  MOVFF  0C,62
067E:  MOVFF  0B,61
0682:  MOVFF  0A,60
0686:  MOVFF  09,5F
068A:  MOVLW  57
068C:  MOVWF  x63
068E:  RCALL  01F6
....................       }// END - else if(buffer[0] == 'w')
.................... 
....................       // WRITE 1 BYTE TO DATA EEPROM AT ADDRESS (FULL 8 BIT ADDRESS SENT)
....................       // EXAMPLE COMMAND "[e50FF]"
....................       else if(buffer[0] == 'e' && buffidx==5 )
0690:  BRA    0746
0692:  MOVF   1F,W
0694:  SUBLW  65
0696:  BNZ   06EE
0698:  MOVF   1E,W
069A:  SUBLW  05
069C:  BNZ   06EE
....................       {
....................         i=atoi_b16(&buffer[1]);
069E:  CLRF   x69
06A0:  MOVLW  20
06A2:  MOVWF  x68
06A4:  RCALL  0134
06A6:  MOVFF  01,0D
....................         data[0]=atoi_b16(&buffer[3]);
06AA:  CLRF   x69
06AC:  MOVLW  22
06AE:  MOVWF  x68
06B0:  RCALL  0134
06B2:  MOVFF  01,0E
....................         write_eeprom(i,data[0]);
06B6:  MOVFF  0D,FA9
06BA:  MOVFF  0E,FA8
06BE:  BCF    FA6.6
06C0:  BCF    FA6.7
06C2:  BSF    FA6.2
06C4:  MOVFF  FF2,00
06C8:  BCF    FF2.7
06CA:  MOVLB  F
06CC:  MOVLW  55
06CE:  MOVWF  FA7
06D0:  MOVLW  AA
06D2:  MOVWF  FA7
06D4:  BSF    FA6.1
06D6:  BTFSC  FA6.1
06D8:  BRA    06D6
06DA:  BCF    FA6.2
06DC:  MOVF   00,W
06DE:  IORWF  FF2,F
....................         REPP2RS232(i, 'E' );
06E0:  MOVFF  0D,5F
06E4:  MOVLW  45
06E6:  MOVLB  0
06E8:  MOVWF  x60
06EA:  RCALL  0296
....................       }// END - else if(buffer[0] == 'w')
.................... 
....................       // DONE FINISH AND RUN APPLICATION
....................       // EXAMPLE COMMAND "[d]"
....................       else if(buffer[0] == 'd')
06EC:  BRA    0746
06EE:  MOVF   1F,W
06F0:  SUBLW  64
06F2:  BNZ   06F8
....................       {
....................         done=TRUE;
06F4:  BSF    07.0
....................       }// END - else if(buffer[0] == 'd')
.................... 
....................       // PRINT ERROR MESSAGE
....................       else
06F6:  BRA    0746
....................       {
....................         printf("Err%u<s>",buffidx,buffer);
06F8:  MOVLW  45
06FA:  BTFSS  F9E.4
06FC:  BRA    06FA
06FE:  MOVWF  FAD
0700:  MOVLW  72
0702:  BTFSS  F9E.4
0704:  BRA    0702
0706:  MOVWF  FAD
0708:  MOVLW  72
070A:  BTFSS  F9E.4
070C:  BRA    070A
070E:  MOVWF  FAD
0710:  MOVFF  1E,5F
0714:  MOVLW  1B
0716:  MOVWF  x60
0718:  RCALL  0398
071A:  MOVLW  3C
071C:  BTFSS  F9E.4
071E:  BRA    071C
0720:  MOVWF  FAD
0722:  CLRF   FEA
0724:  MOVLW  1F
0726:  MOVWF  FE9
0728:  MOVLW  00
072A:  IORWF  FEF,W
072C:  BZ    073E
072E:  BTFSS  F9E.4
0730:  BRA    072E
0732:  MOVFF  FEF,FAD
0736:  INCF   FE9,F
0738:  BTFSC  FD8.2
073A:  INCF   FEA,F
073C:  BRA    0728
073E:  MOVLW  3E
0740:  BTFSS  F9E.4
0742:  BRA    0740
0744:  MOVWF  FAD
....................       }
....................    }
0746:  BRA    0406
.................... }
0748:  RETLW  00
.................... //                                                                     atoi_b16
.................... // ============================================================================
.................... // CONVERT TWO HEX CHARACTERS TO int8
.................... unsigned int atoi_b16(char *s)
.................... {
....................   unsigned int result = 0;
*
0134:  CLRF   x6A
....................   int i;
....................   for (i=0; i<2>= 'A') result = (result<<4) + (*s) - 'A' + 10;
013E:  MOVFF  69,03
0142:  MOVFF  68,FE9
0146:  MOVFF  69,FEA
014A:  MOVF   FEF,W
014C:  SUBLW  40
014E:  BC    016C
0150:  SWAPF  x6A,W
0152:  MOVWF  x6C
0154:  MOVLW  F0
0156:  ANDWF  x6C,F
0158:  MOVFF  68,FE9
015C:  MOVFF  69,FEA
0160:  MOVF   FEF,W
0162:  ADDWF  x6C,W
0164:  ADDLW  BF
0166:  ADDLW  0A
0168:  MOVWF  x6A
....................     else           result = (result<<4) + (*s) - '0';
016A:  BRA    0184
016C:  SWAPF  x6A,W
016E:  MOVWF  x6C
0170:  MOVLW  F0
0172:  ANDWF  x6C,F
0174:  MOVFF  68,FE9
0178:  MOVFF  69,FEA
017C:  MOVF   FEF,W
017E:  ADDWF  x6C,W
0180:  ADDLW  D0
0182:  MOVWF  x6A
....................   }
0184:  MOVF   x6B,W
0186:  INCF   x6B,F
0188:  INCF   x68,F
018A:  BTFSC  FD8.2
018C:  INCF   x69,F
018E:  BRA    0138
....................   return result;
0190:  MOVFF  6A,01
.................... }
0194:  RETLW  00
.................... //                                                                   read2RS232
.................... // ============================================================================
.................... // READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
.................... void read2RS232( int32 a, char c )
.................... {
....................   int d[16];
....................   int i;
....................   read_program_memory(a,d,16);
*
01F6:  MOVFF  61,FF8
01FA:  MOVFF  60,FF7
01FE:  MOVFF  5F,FF6
0202:  CLRF   FEA
0204:  MOVLW  64
0206:  MOVWF  FE9
0208:  CLRF   x76
020A:  MOVLW  10
020C:  MOVWF  x75
020E:  RCALL  0196
....................   printf("[%c<lX>",c,a);
0210:  MOVLW  5B
0212:  BTFSS  F9E.4
0214:  BRA    0212
0216:  MOVWF  FAD
0218:  MOVF   x63,W
021A:  BTFSS  F9E.4
021C:  BRA    021A
021E:  MOVWF  FAD
0220:  MOVLW  3C
0222:  BTFSS  F9E.4
0224:  BRA    0222
0226:  MOVWF  FAD
0228:  MOVFF  62,76
022C:  MOVLW  37
022E:  MOVWF  x77
0230:  RCALL  01B4
0232:  MOVFF  61,76
0236:  MOVLW  37
0238:  MOVWF  x77
023A:  RCALL  01B4
023C:  MOVFF  60,76
0240:  MOVLW  37
0242:  MOVWF  x77
0244:  RCALL  01B4
0246:  MOVFF  5F,76
024A:  MOVLW  37
024C:  MOVWF  x77
024E:  RCALL  01B4
0250:  MOVLW  3E
0252:  BTFSS  F9E.4
0254:  BRA    0252
0256:  MOVWF  FAD
....................   for( i=0; i<16; i++)printf("%X",d[i]);
0258:  CLRF   x74
025A:  MOVF   x74,W
025C:  SUBLW  0F
025E:  BNC   0280
0260:  CLRF   03
0262:  MOVF   x74,W
0264:  ADDLW  64
0266:  MOVWF  FE9
0268:  MOVLW  00
026A:  ADDWFC 03,W
026C:  MOVWF  FEA
026E:  MOVFF  FEF,75
0272:  MOVFF  75,76
0276:  MOVLW  37
0278:  MOVWF  x77
027A:  RCALL  01B4
027C:  INCF   x74,F
027E:  BRA    025A
....................   printf("]");
0280:  CLRF   x75
0282:  MOVF   x75,W
0284:  RCALL  010A
0286:  IORLW  00
0288:  BZ    0294
028A:  INCF   x75,F
028C:  BTFSS  F9E.4
028E:  BRA    028C
0290:  MOVWF  FAD
0292:  BRA    0282
.................... }
0294:  RETLW  00
.................... //                                                                   REPP2RS232
.................... // ============================================================================
.................... // READ PROGRAM EEPROM AND OUTPUT TO RS232 PORT
.................... void REPP2RS232( int a, char c )
.................... {
....................   int v;
....................   v = read_eeprom(a);
0296:  MOVFF  FF2,62
029A:  BCF    FF2.7
029C:  MOVFF  5F,FA9
02A0:  BCF    FA6.6
02A2:  BCF    FA6.7
02A4:  BSF    FA6.0
02A6:  MOVF   FA8,W
02A8:  BTFSC  x62.7
02AA:  BSF    FF2.7
02AC:  MOVWF  x61
....................   printf("[%c<X>%X]",c,a,v);
02AE:  MOVLW  5B
02B0:  BTFSS  F9E.4
02B2:  BRA    02B0
02B4:  MOVWF  FAD
02B6:  MOVF   x60,W
02B8:  BTFSS  F9E.4
02BA:  BRA    02B8
02BC:  MOVWF  FAD
02BE:  MOVLW  3C
02C0:  BTFSS  F9E.4
02C2:  BRA    02C0
02C4:  MOVWF  FAD
02C6:  MOVFF  5F,76
02CA:  MOVLW  37
02CC:  MOVWF  x77
02CE:  RCALL  01B4
02D0:  MOVLW  3E
02D2:  BTFSS  F9E.4
02D4:  BRA    02D2
02D6:  MOVWF  FAD
02D8:  MOVFF  61,76
02DC:  MOVLW  37
02DE:  MOVWF  x77
02E0:  RCALL  01B4
02E2:  MOVLW  5D
02E4:  BTFSS  F9E.4
02E6:  BRA    02E4
02E8:  MOVWF  FAD
.................... }
02EA:  RETLW  00
.................... 
.................... //                                                                 load_program
.................... // ============================================================================
.................... #ORG LOADER_ADDR, LOADER_ADDR+9
.................... void load_program(void)
.................... {
....................    real_load_program();
*
0100:  RCALL  0404
.................... }
0102:  RETLW  00
.................... 
.................... //                                                                  application
.................... // ============================================================================
.................... // THE BOOT LOADED PROGRAM WILL OVER WRITE THIS
.................... // THIS REPEAT SENDS THE 'a' CHARACTER
.................... // THIS NEEDS TO HAVE SOME SORT OF REBOOT COMMAND - TO GO TO BOOTLOADER
.................... #ORG LOADER_END+2,LOADER_END+800
.................... void application(void)
.................... {
....................   while(TRUE)
....................   {
....................     delay_ms(100);
*
0816:  MOVLW  64
0818:  MOVWF  08
081A:  RCALL  074A
....................     putc('a');
081C:  MOVLW  61
081E:  BTFSS  F9E.4
0820:  BRA    081E
0822:  MOVWF  FAD
....................     if( kbhit() )
0824:  BTFSS  F9E.5
0826:  BRA    086C
....................     {
....................       char c;
....................       c = getc();
0828:  RCALL  011C
082A:  MOVFF  01,07
....................       if( c==0x1B )
082E:  MOVF   07,W
0830:  SUBLW  1B
0832:  BNZ   086C
....................       {
....................         R_AND_B // RECIEVE ESCAPE
0834:  BSF    FD0.6
0836:  CLRF   FF8
0838:  MOVLW  07
083A:  MOVWF  FF7
083C:  MOVLW  80
083E:  MOVWF  FF6
0840:  BSF    FA6.4
0842:  BCF    FA6.6
0844:  RCALL  02EC
0846:  CLRF   FF8
0848:  BSF    FD0.6
084A:  CLRF   FF8
084C:  MOVLW  07
084E:  MOVWF  FF7
0850:  MOVLW  80
0852:  MOVWF  FF6
0854:  RCALL  0800
0856:  MOVLW  80
0858:  MOVWF  FF6
085A:  CLRF   FF5
085C:  TBLWT*+
085E:  CLRF   FF5
0860:  TBLWT*
0862:  BCF    FA6.6
0864:  RCALL  02EC
0866:  CLRF   FF8
0868:  CLRF   FF8
086A:  RESET
....................       }
....................     }
....................   }
086C:  BRA    0816
.................... }
086E:  RETLW  00
.................... //                                                                         main
.................... // ============================================================================
.................... // THE DECISION TO BOOTLOAD OR NOT TO BOOT LOAD GOES HERE
.................... #ORG 0x50,0x0FF
.................... void main(void)
.................... {
*
0050:  CLRF   FF8
0052:  BCF    FD0.7
0054:  CLRF   FEA
0056:  CLRF   FE9
0058:  MOVLW  03
005A:  MOVWF  FAF
005C:  MOVLW  22
005E:  MOVWF  FAC
0060:  MOVLW  90
0062:  MOVWF  FAB
0064:  BSF    FC1.0
0066:  BSF    FC1.1
0068:  BSF    FC1.2
006A:  BCF    FC1.3
006C:  CLRF   06
.................... #DEFINE DECISION_PINA4
.................... //#DEFINE DECISION_RS232_ESC // LARGER PROGRAM!!! NEED TO MODIFY MY_BOOTLOADER.H FILE.
.................... //#DEFINE DECISION_DATA_EEPROM
.................... //#DEFINE DECISION_PROG_EEPROM
.................... 
.................... #IFDEF  DECISION_PINA4
....................   if(!input(PIN_A4))
006E:  BSF    F92.4
0070:  BTFSC  F80.4
0072:  BRA    0076
....................   {
.................... #ENDIF
.................... #IFDEF  DECISION_RS232_ESC
....................   char c;
....................   int16 icount=0;
....................   int1  bload=FALSE;
....................   while( ++icount<10000 && !bload )
....................   {
....................     if( kbhit() )
....................     {
....................       c = getc();
....................       if( c==0x1B )bload=TRUE;
....................     }
....................   }
....................   if(bload)
....................   {
.................... #ENDIF
.................... #IFDEF  DECISION_DATA_EEPROM
....................   int8 imem=0;
....................   imem = read_eeprom(LOADER_DECISION);
....................   if( imem!=0xFF )
....................   {
....................     write_eeprom(LOADER_DECISION,0xFF ); 
.................... #ENDIF
.................... #IFDEF DECISION_PROG_EEPROM
....................   int16 imem=0;
....................   imem = read_program_eeprom(LOADER_DECISION);
....................   if( imem!=0xFFFF )
....................   {
....................     erase_program_eeprom(LOADER_DECISION);
....................     write_program_eeprom(LOADER_DECISION,0xFFFF); 
.................... #ENDIF
....................     load_program();
0074:  RCALL  0100
....................   }
....................   application();
0076:  RCALL  0816
.................... }
.................... //                                                                          isr
.................... // ============================================================================
.................... // THIS INTERUPT COLLECTS ALL INTERUPTS AND MOVES THEM TO THE END + TEN
.................... // THE LOACTION OF THE INTERUPTS FROM THE APPLICATION
.................... #ORG default
.................... #int_global
0078:  SLEEP
.................... void isr(void) {
....................    jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
*
0008:  GOTO   0808
000C:  NOP   
000E:  NOP   
0010:  NOP   
0012:  NOP   
0014:  NOP   
0016:  NOP   
0018:  GOTO   0818
.................... }
001C:  RETFIE 0

Configuration Fuses:
   Word  1: 2200   HS NOOSCSEN
   Word  2: 0E0F   BROWNOUT WDT128 NOWDT BORV20 NOPUT
   Word  3: 0000 
   Word  4: 0081   STVREN NODEBUG NOLVP
   Word  5: C00F   NOPROTECT NOCPD NOCPB
   Word  6: E00F   NOWRT NOWRTD NOWRTB NOWRTC
   Word  7: 400F   NOEBTR NOEBTRB


What am I missing?

Thanks Scott

Edit: preface added to make the thread readable...

Last edited by ferrumvir on Sun Jan 21, 2007 4:11 pm; edited 1 time in total
ferrumvir



Joined: 01 Feb 2006
Posts: 64
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PostPosted: Thu Jan 18, 2007 8:49 am     Reply with quote
Also,

I can't find any reference to "jump_to_isr" in the manual at all!

I've got PCB, PCM, PCH version 3.249

Cheers Scott
Ttelmah
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PostPosted: Thu Jan 18, 2007 4:02 pm     Reply with quote
It is identical to a normal address jump. Undocumented, but used in the examples...

Best Wishes
PCM programmer



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PostPosted: Thu Jan 18, 2007 4:18 pm     Reply with quote
It's in the current manual.
http://www.ccsinfo.com/downloads/ccs_c_manual.pdf
ckielstra



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Posts: 3680
Location: The Netherlands

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PostPosted: Thu Jan 18, 2007 6:32 pm     Reply with quote
Quote:
I'm a little unsure of this section of code, used unchanged from loader.c
Code:

#int_global
void isr(void) {
jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
}



the code in bootloader.c different
Code:

void isr(void) {
#asm
goto LOADER_END+9
goto LOADER_END+9
goto LOADER_END+9
goto LOADER_END+9
goto LOADER_END+0x19
#endasm
}


I think they are trying to do the same thing? Which is better/correct?
The best way to know the differences is to compile them both and compare the list files.
I didn't notice the jump_to_isr() function before so I investigated it and it turns out to be a smart tricky bastard function.

On a PIC18 it compiles to
Code:
....................    jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
*
0008:  GOTO   0408    // LOADER_END+0x09
000C:  NOP   
000E:  NOP   
0010:  NOP   
0012:  NOP   
0014:  NOP   
0016:  NOP   
0018:  GOTO   0418    // LOADER_END+0x19
.................... }
Notice how there are two jump instructions generated, for both the low and high priority interrupt vector. It is a correct implementation and equal to the other given example code but I didn't expect this behaviour from the function name.

Compiled on a PIC16 this same function is more tricky
Code:
....................    jump_to_isr(LOADER_END+5*(getenv("BITS_PER_INSTRUCTION")/8));
*
0004:  MOVWF  7F
0005:  SWAPF  03,W
0006:  CLRF   03
0007:  MOVWF  21
0008:  MOVF   0A,W         // Save PCLATH
0009:  MOVWF  20
000A:  CLRF   0A
000B:  MOVLW  02
000C:  MOVWF  0A
000D:  GOTO   20B             // Jump to ISR
000E:  RETFIE
The PIC16 has a problem here when compared to the PIC18. At the start of an ISR all important working registers are saved for later restoration on interrupt exit. Especially the PCLATH register is important as it contains the highest 3 address bits. A chicken/egg problem: the relocated ISR will save these registers, but we can only jump to the relocated ISR after modification of these registers. That's why this smart CCS function comes in handy, it knows the working of the ISR and creates equal saving code here as in the ISR.

Conclusion: For a PIC18 you can use either of the given code examples. For a PIC16 use the jump_to_isr() function.

Knowing this difference I think we have found the problem cause in Christophe's bootloader: http://www.ccsinfo.com/forum/viewtopic.php?t=29503
ferrumvir



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PostPosted: Fri Jan 19, 2007 2:40 am     Reply with quote
Thank you ckielstra, Ttelmeh and PCM Programmer,

The relocation of the interupt vector would appear to be correct, jumping from 0x08 to 0x0808 and from 0x18 to 0x0818.

However my applications (none of which work, with or without interrupts) puts non-interupt code accros this memory location. Here is the list file for the TINY application (c code in my original post).

Code:

CCS PCH C Compiler, Version 3.249, 31363               18-Jan-07 13:39

               Filename: ex_bootload.lst

               ROM used: 102 bytes (0%)
                         Largest free fragment is 30614
               RAM used: 6 (0%) at main() level
                         7 (0%) worst case
               Stack:    1 locations

*
0800:  GOTO   0832
.................... // TINY APP
.................... 
.................... #include <18F258.h>
.................... //////// Standard Header file for the PIC18F258 device ////////////////
.................... #device PIC18F258
.................... #list
.................... 
.................... #fuses HS,NOWDT,NOPROTECT,NOLVP
.................... #use delay(clock=10000000)
*
0808:  CLRF   FEA
080A:  MOVLW  07
080C:  MOVWF  FE9
080E:  MOVF   FEF,W
0810:  BZ    0830
0812:  MOVLW  03
0814:  MOVWF  01
0816:  CLRF   00
0818:  DECFSZ 00,F
081A:  BRA    0818
081C:  DECFSZ 01,F
081E:  BRA    0816
0820:  MOVLW  3C
0822:  MOVWF  00
0824:  DECFSZ 00,F
0826:  BRA    0824
0828:  NOP   
082A:  NOP   
082C:  DECFSZ FEF,F
082E:  BRA    0812
0830:  RETLW  00
.................... 
.................... //#define _bootloader
.................... #include "..\include\my_bootloader.h"
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                    my_bootloader.h                                ////
.................... ////                                                                   ////
.................... ////  This include file must be included by any application loaded     ////
.................... ////  by the example bootloader (ex_bootloader.c).                     ////
.................... ////                                                                   ////
.................... ////  The directives in this file relocate the reset and interrupt     ////
.................... ////  vectors as well as reserving space for the bootloader.           ////
.................... ////                                                                   ////
.................... ////  LOADER_END and LOADER_SIZE may need to be adjusted for a         ////
.................... ////  specific chip and bootloader.                                    ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////        (C) Copyright 1996,2004 Custom Computer Services           ////
.................... //// This source code may only be used by licensed users of the CCS    ////
.................... //// C compiler.  This source code may only be distributed to other    ////
.................... //// licensed users of the CCS C compiler.  No other use,              ////
.................... //// reproduction or distribution is permitted without written         ////
.................... //// permission.  Derivative programs created using this software      ////
.................... //// in object code form are not restricted in any way.                ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... ////                                                                   ////
.................... //// 2006-11-29 Modified by bairds to test PIC18F258 (PCH options only)////
.................... //// 2006-01-16 Modified by bairds to match bootloader                 ////
.................... ////                                                                   ////
.................... //// _bootloader set when compiling the bootloader (obviously realy!)  ////
.................... ////                                                                   ////
.................... //// THEREFORE BUILD/ORG STATEMENTS IN THIS FILE ARE COMPILED INTO THE ////
.................... //// APPLICATION.                                                      ////
.................... ////                                                                   ////
.................... ///////////////////////////////////////////////////////////////////////////
.................... 
.................... #DEFINE LOADER_END      0x7FF
.................... #DEFINE LOADER_SIZE     0x6FF // 0x100 LESS THAN ABOVE
.................... 
.................... // THE FOLLOWING TWO HASH DEFINE STATMENTS ARE REQUIRED ONLY IF USING THE
.................... // PROG_EEPROM BOOTLOADER DECISION.
.................... //
.................... // THIS USES A CHUNK OF PROGRAM MEMORY STORE BOOTLOAD/APP DECISION
.................... //
.................... // THIS REQUIRES 0x40 (64) BYTES BECAUSE OF THE ERASE_PROGRAM_EEPROM
.................... // AND ALSO SHOULD BE AT A 0x40 BOUNDARY
.................... #DEFINE LOADER_DECISION 0x00000780
.................... // SETS EPPROM LOCATIONS IN THE PROGRAM MEMORY TO ALLOW THE BOOTLOADER
.................... // TO DECIDE WHETHER TO START THE APPLICATION OR RUN THE BOOTLOADER.
.................... // THIS MUST CALLED IN THE APPLICATION SOMEWHERE OTHERWISE THE BOOTLOADER
.................... // WILL NEVER FUNCTION
.................... #DEFINE R_AND_B erase_program_eeprom(LOADER_DECISION); write_program_eeprom(LOADER_DECISION,0x0000 ); reset_cpu();
.................... 
.................... #IFNDEF _bootloader
.................... 
....................   // THIS WILL PUT THE APPLICATION RESET 4 BYTES
....................   // FOLLOWED BY FOUR BLANKS
....................   // FOLLOWED BY THE INTERUPTS
....................   #BUILD(reset=LOADER_END+1, interrupt=LOADER_END+9)
.................... 
....................   // NO FUNCTIONS WILL BE IN THE MEMORY RANGE 0 TO LOADER END
....................   // THEREFORE THE COMPILER WILL NOT PUT FUNCTIONS OVER THE BOOT LOADER
....................   // THIS ALLOWS THE COMPILER TO PUT THE APPLICATIONS FUNCTIONS WHERE IT LIKES
....................   #ORG 0, LOADER_END {}
.................... 
.................... #ENDIF
.................... 
.................... 
.................... void main(void)
.................... {
0832:  CLRF   FF8
0834:  BCF    FD0.7
0836:  CLRF   FEA
0838:  CLRF   FE9
083A:  BSF    FC1.0
083C:  BSF    FC1.1
083E:  BSF    FC1.2
0840:  BCF    FC1.3
....................   while(true)
....................   {
....................     delay_ms(500);
0842:  MOVLW  02
0844:  MOVWF  06
0846:  MOVLW  FA
0848:  MOVWF  07
084A:  RCALL  0808
084C:  DECFSZ 06,F
084E:  BRA    0846
....................     output_high(PIN_B0) ;
0850:  BCF    F93.0
0852:  BSF    F8A.0
....................     delay_ms(500);
0854:  MOVLW  02
0856:  MOVWF  06
0858:  MOVLW  FA
085A:  MOVWF  07
085C:  RCALL  0808
085E:  DECFSZ 06,F
0860:  BRA    0858
....................     output_low(PIN_B0);
0862:  BCF    F93.0
0864:  BCF    F8A.0
....................   }
0866:  BRA    0842
.................... }
0868:  SLEEP

Configuration Fuses:
   Word  1: 2200   HS NOOSCSEN
   Word  2: 0E0F   BROWNOUT WDT128 NOWDT BORV20 NOPUT
   Word  3: 0000 
   Word  4: 0081   STVREN NODEBUG NOLVP
   Word  5: C00F   NOPROTECT NOCPD NOCPB
   Word  6: E00F   NOWRT NOWRTD NOWRTB NOWRTC
   Word  7: 400F   NOEBTR NOEBTRB


This appears to put the "#use delay" instructions at this location. I know this is not an interupt vector because the 0x0808 instruction is called from the main routine.

It also occurs to me that the bootloader is not generating an interupt vector at 0x0808 but as I never plan to enable interupts (in the bootloader) this, I assume, is correct and not a problem.

Am I heading in the correct direction trying to discover why my applications don't work or is there a mistake somewhere else Question

Thanks for your help, and quick responses.

Scott
ferrumvir



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Posts: 64
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PostPosted: Fri Jan 19, 2007 3:27 am     Reply with quote
Here's some more info.

I've just compiled and both the "Tiny App" and a test application with interupts.

They both put the same intructions over the 0x0008 and 0x0018 locations when compiled for direct flashing as they put over the 0x0808 and 0x0818 locations when compiled for the bootloader (offset 0x0800, and offseting GOTOs etc.) which is correct.

So now I think maybe I'm looking in the wrong place for my problem.

Cheers Scott
ferrumvir



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Posts: 64
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PostPosted: Fri Jan 19, 2007 3:51 am     Reply with quote
I think there is a problem with the location of the application in the bootloader, i.e. it's not at 0x0800...

This is part of the list file, the "dummy" application is located at 0x0816 and this is what is called when the bootloader finishes and runs the application.

But this is not where the loaded application starts Exclamation

The line "0854: RCALL 0800" is in this file, but nowhere in the bootloader list file can I find the instruction 0800 (the full list file is in my original post)

FYI, The R_AND_B macro is in my_bootloader.h, which is what generates this instruction.

Still puzzled Confused , but think I'm getting closer

Code:

.................... //                                                                  application
.................... // ============================================================================
.................... // THE BOOT LOADED PROGRAM WILL OVER WRITE THIS
.................... // THIS REPEAT SENDS THE 'a' CHARACTER
.................... // THIS NEEDS TO HAVE SOME SORT OF REBOOT COMMAND - TO GO TO BOOTLOADER
.................... #ORG LOADER_END+1,LOADER_END+200
.................... void application(void)
.................... {
....................   while(TRUE)
....................   {
....................     delay_ms(100);
*
0816:  MOVLW  64
0818:  MOVWF  08
081A:  RCALL  074A
....................     putc('a');
081C:  MOVLW  61
081E:  BTFSS  F9E.4
0820:  BRA    081E
0822:  MOVWF  FAD
....................     if( kbhit() )
0824:  BTFSS  F9E.5
0826:  BRA    086C
....................     {
....................       char c;
....................       c = getc();
0828:  RCALL  011C
082A:  MOVFF  01,07
....................       if( c==0x1B )
082E:  MOVF   07,W
0830:  SUBLW  1B
0832:  BNZ   086C
....................       {
....................         R_AND_B // RECIEVE ESCAPE
0834:  BSF    FD0.6
0836:  CLRF   FF8
0838:  MOVLW  07
083A:  MOVWF  FF7
083C:  MOVLW  80
083E:  MOVWF  FF6
0840:  BSF    FA6.4
0842:  BCF    FA6.6
0844:  RCALL  02EC
0846:  CLRF   FF8
0848:  BSF    FD0.6
084A:  CLRF   FF8
084C:  MOVLW  07
084E:  MOVWF  FF7
0850:  MOVLW  80
0852:  MOVWF  FF6
0854:  RCALL  0800



....................   application();
0076:  RCALL  0816


Cheers Scott

Edit: I also meant to say that there intruction in the bootloader hex file for 0x0800? but that is generating them I don't know?
ferrumvir



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Posts: 64
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PostPosted: Fri Jan 19, 2007 10:36 am     Reply with quote
More info... can anyone help?

The function Write_program_EEPROM puts 14 words infront of the "dummy" application.

Here are sections frmo two list files.

Code:

.................... #ORG LOADER_END+2,LOADER_END+200
.................... void application(void)
.................... {
....................   while(TRUE)
....................   {
....................     putc('a');
*
0816:  MOVLW  61
0818:  BTFSS  F9E.4
081A:  BRA    0818
081C:  MOVWF  FAD
....................     if( kbhit() )
081E:  BTFSS  F9E.5
0820:  BRA    0866
....................     {
....................       char c;
....................       c = getc();
0822:  RCALL  011C
0824:  MOVFF  01,07
....................       if( c==0x1B ) // RECIEVE ESCAPE
0828:  MOVF   07,W
082A:  SUBLW  1B
082C:  BNZ   0866
....................       {
....................         // R_AND_B MACRO COPIED IN 
....................         erase_program_eeprom(LOADER_DECISION);
082E:  BSF    FD0.6
0830:  CLRF   FF8
0832:  MOVLW  07
0834:  MOVWF  FF7
0836:  MOVLW  80
0838:  MOVWF  FF6
083A:  BSF    FA6.4
083C:  BCF    FA6.6
083E:  RCALL  02EC
0840:  CLRF   FF8
....................         write_program_eeprom(LOADER_DECISION,0x0000 );
0842:  BSF    FD0.6
0844:  CLRF   FF8
0846:  MOVLW  07
0848:  MOVWF  FF7
084A:  MOVLW  80
084C:  MOVWF  FF6
084E:  RCALL  0800
0850:  MOVLW  80
0852:  MOVWF  FF6
0854:  CLRF   FF5
0856:  TBLWT*+
0858:  CLRF   FF5
085A:  TBLWT*
085C:  BCF    FA6.6
085E:  RCALL  02EC
0860:  CLRF   FF8
0862:  CLRF   FF8
....................         reset_cpu();
0864:  RESET
....................       }
....................     }
....................     delay_ms(100);
0866:  MOVLW  64
0868:  MOVWF  08
086A:  RCALL  074A
....................   }
086C:  BRA    0816
.................... }
086E:  RETLW  00


and now with the write_program_eeprom commented out.

Code:

.................... #ORG LOADER_END+2,LOADER_END+200
.................... void application(void)
.................... {
....................   while(TRUE)
....................   {
....................     putc('a');
*
0800:  MOVLW  61
0802:  BTFSS  F9E.4
0804:  BRA    0802
0806:  MOVWF  FAD
....................     if( kbhit() )
0808:  BTFSS  F9E.5
080A:  BRA    082E
....................     {
....................       char c;
....................       c = getc();
080C:  RCALL  011C
080E:  MOVFF  01,07
....................       if( c==0x1B ) // RECIEVE ESCAPE
0812:  MOVF   07,W
0814:  SUBLW  1B
0816:  BNZ   082E
....................       {
....................         // R_AND_B MACRO COPIED IN 
....................         erase_program_eeprom(LOADER_DECISION);
0818:  BSF    FD0.6
081A:  CLRF   FF8
081C:  MOVLW  07
081E:  MOVWF  FF7
0820:  MOVLW  80
0822:  MOVWF  FF6
0824:  BSF    FA6.4
0826:  BCF    FA6.6
0828:  RCALL  02EC
082A:  CLRF   FF8
.................... //        write_program_eeprom(LOADER_DECISION,0x0000 );
....................         reset_cpu();
082C:  RESET
....................       }
....................     }
....................     delay_ms(100);
082E:  MOVLW  64
0830:  MOVWF  08
0832:  RCALL  074A
....................   }
0834:  BRA    0800
.................... }
0836:  RETLW  00



These additoinal instructions are not in the list file at all? If I comment out the #nolist in the device header the list file shows the instructions are generated by "#device PIC18F258". The compiler is storing setup functions which is "lists" here should they be required.

The application still does not run, these program_eeprom fuctions are not required to run the bootloader, so have been commented out for the time being. Now, even with the application starting at 0x0800 and the bootloaded aplication starting at 0x0800 it still does not run.

Any help would be appreciated. Thanks

Cheers Scott

edit: more info on instruction generation.
ferrumvir



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Posts: 64
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Bootloaded program does not run
PostPosted: Sat Jan 20, 2007 4:06 pm     Reply with quote
Hi,

Can anyone help?

I've exhausted all my knowledge on investigating why the bootloaded program does not run. Even a pointer - have you checked X would be useful. I'm at a dead end. Sad

Thanks Scott
ferrumvir



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Posts: 64
Location: England

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bump
PostPosted: Sun Jan 21, 2007 4:13 pm     Reply with quote
Sorry to bump this, but I need to resolve this asap, and for that I need help!

Thanks Scott
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