/**** BootLoader for PIC16F887
Ussage:
ascii-xfr -s -v -l 100 ./bltest.hex > /dev/ttyUSB0
ascii-xfr is part of 'minicom' package
Add "uf\n\r" to the first line of .HEX. or use this script:
echo uf > /dev/ttyUSB$1
ascii-xfr -s -v -l 100 ./bltest.hex > /dev/ttyUSB$1
Or add "uf\n\r" and add some dummy characters at end or begin of each line (for 100 ms delay) and use:
cp ./bltest.hex > /dev/ttyUSB0
For adding characters you can use this:
echo uf > /dev/ttyUSB0; sed 's/^/pppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppppp/' ./bltest.hex > /dev/ttyUSB0
*/
#define ID "$Id: bloader.c 2811 2013-03-10 07:43:30Z kakl $"
#CASE // Case sensitive compiler
#define FLASH_BLOCK_SIZE getenv("FLASH_ERASE_SIZE")/2 // Minimal length of Flash Block Size
#define RESERVED_BLOCKS 53 // Number of reserved flash blocks for BootLoader
#define LOADER_RESERVED (getenv("PROGRAM_MEMORY")-(RESERVED_BLOCKS*FLASH_BLOCK_SIZE)) // begining of BootLoader
#define BUFFER_LEN_LOD 46 // Length of Working buffer for HEX
#define ERR_BUFFER_OVERRUN 1 // Error 1 - Buffer Overrun
#define ERR_CHECKSUM 2 // Error 2 - Bad CheckSum
#define ERR_TOO_MANY_BYTES 3 // Error 3 - Too many bytes in one line
#define ERR_UNSUPORTED_LINETYPE 4 // Error 4 - Unsuported Line type
#include "bloader.h"
#include <string.h>
#INT_RDA
void rs232_handler() // Test of interrupt
{
putchar(getc()); // Just echo for test
}
void welcome(void) // Welcome message
{
char REV[50]=ID; // Buffer for concatenate of a version string
if (REV[strlen(REV)-1]=='$') REV[strlen(REV)-1]=0;
printf("\r\n\r\n# BLoader 887 (C) 2013 KAKL\r\n"); // Welcome message
printf("#%s\r\n",&REV[4]);
}
/*-------------------------------- MAIN --------------------------------------*/
#SEPARATE
void real_main() // Main of loaded program
{
int8 i=0;
i=rs232_errors; // Just for compiler pleasure (supress Warning)
welcome();
printf("# Reserved: %Lu\r\n", RESERVED_BLOCKS*FLASH_BLOCK_SIZE);
printf("# FLASH_ERASE_SIZE: %Lu\r\n",getenv("FLASH_ERASE_SIZE"));
printf("# FLASH_WRITE_SIZE: %Lu\r\n",getenv("FLASH_WRITE_SIZE"));
printf("# Boot Loader Test >>>\r\n# ");
enable_interrupts(INT_RDA);
enable_interrupts(GLOBAL);
while(TRUE)
{
printf("%u|",i++); // Do something
delay_ms(100);
}
}
/*------------------- BOOT LOADER --------------------------------------------*/
#BUILD(INTERRUPT=FLASH_BLOCK_SIZE) // Redirect Interrupt routine above first flash block
#ORG 4,5
void JumpToTheInterrupt() // Jump to the Interrupt Handler
{ #asm GOTO FLASH_BLOCK_SIZE #endasm }
#ORG 6,FLASH_BLOCK_SIZE-1 {} // First Flash block is reserved
#ORG LOADER_RESERVED,LOADER_RESERVED+FLASH_BLOCK_SIZE-1 auto=0
#SEPARATE
void dummy_main() // Main on the fix position. It will be overwriten by downloaded program reset vector.
{
real_main();
}
#ORG LOADER_RESERVED+FLASH_BLOCK_SIZE,getenv("PROGRAM_MEMORY")-1 auto=0 default //Start of BootLoader
#use rs232(baud=9600,parity=N,xmit=PIN_C6,rcv=PIN_C7,bits=8,ERRORS) //RS232 control routine for BootLoader
#SEPARATE
unsigned int8 atoi_b16(char *s) // Convert two hex characters to an int8
{
unsigned int8 result = 0;
int i;
for (i=0; i<2; i++,s++) {
if (*s >= 'A')
result = 16*result + (*s) - 'A' + 10;
else
result = 16*result + (*s) - '0';
}
return(result);
}
void assert(int1 Condition, int8 ErrorCode) // Send error number to the serial line
{
if(Condition)
{
putchar('E');
putchar(ErrorCode+'0');
reset_cpu();
}
}
void pause()
{
int16 timeout;
for(timeout=0; timeout<65535; timeout++); // Delay cca 300ms
}
#SEPARATE
void boot_loader() // Loads a new program
{
/*
:100240001F2999000A300C1E232999006430A4004C
10 = 16 bytes
0249 = address 0x0120 (0x240/2 because of words)
00 = data
...data...
4C = checksum
:00000001FF
00 = 0 bytes
0000 = address 0
01 = END
FF = checksum
http://cs.wikipedia.org/wiki/Intel_HEX
*/
int buffidx;
char buffer[BUFFER_LEN_LOD]; // Buffer for HEX line
int8 checksum, num_of_bytes, line_type; // Extracted values from HEX line
int16 l_addr,h_addr=0;
int16 addr; // Address of word in PIC
int32 next_addr; // Helper variable for for
int8 dataidx, i; // Buffer for program bytes and pointers
union program_data {
int8 i8[16];
int16 i16[8];
} data;
disable_interrupts(GLOBAL);
/*
putchar('@'); //Start Erase
//Erase program memory is not necessary.
{
int8 i;
for(i=0;i<32;i++)buffer[i]=0xFF;
}
for(addr=FLASH_BLOCK_SIZE;addr<LOADER_RESERVED+FLASH_BLOCK_SIZE;addr+=FLASH_BLOCK_SIZE)
{
write_program_memory(addr, &buffer[0], 32);
putchar('.');
restart_wdt();
}
*/
putchar('!'); //Erase completed
//---WDT
while(!kbhit()) restart_wdt(); //Wait for HEX
putc('\r'); putc('\n');
while(TRUE)
{
//---WDT
while (getc()!=':') restart_wdt(); // Only process data blocks that starts with ':'
putchar(':');
buffidx = 0; // Read into the buffer until CR is received or buffer is full
do
{
buffer[buffidx] = getc();
putc(buffer[buffidx]);
} while ( (buffer[buffidx++] != '\r') && (buffidx < BUFFER_LEN_LOD) );
assert(buffidx == BUFFER_LEN_LOD, ERR_BUFFER_OVERRUN); // Error 1 - Buffer Overrun
buffidx--;
//---WDT
restart_wdt();
checksum = 0; // Sum the bytes to find the check sum value
for (i=0; i<(buffidx); i+=2)
{
checksum += atoi_b16 (&buffer[i]);
}
assert(checksum != 0, ERR_CHECKSUM); // Error 2 - Bad CheckSum
// Get the lower 16 bits of address
l_addr = make16(atoi_b16(&buffer[2]),atoi_b16(&buffer[4]));
line_type = atoi_b16 (&buffer[6]);
num_of_bytes = atoi_b16 (&buffer[0]);
assert (num_of_bytes > 16, ERR_TOO_MANY_BYTES); // Error 3 - Too many bytes in one line
addr = make32(h_addr,l_addr);
addr /= 2; // PIC16 uses word addresses
// If the line type is 1 then END
if (line_type == 1)
{
putchar('#');
reset_cpu();
}
assert (line_type != 0, ERR_UNSUPORTED_LINETYPE); // Error 4 - Unsuported Line type
{
// Read old program memory content
for (i=0,next_addr=addr;i<8;i++)
data.i16[i]=read_program_eeprom(next_addr++);
// Loops through all of the data and stores it in data
// The last 2 bytes are the check sum, hence buffidx-2
for (i=8,dataidx=0; i < (buffidx-2); i += 2)
data.i8[dataidx++]=atoi_b16(&buffer[i]);
if (addr == 0)
{
// Write 8 words to the Loader location (jump to the main())
addr=LOADER_RESERVED;
write_program_memory(addr, &data.i8[0], 16);
putchar('%');
}
else
if ( (addr > 7) && (addr <= (LOADER_RESERVED-16)) ) // Do not overwrite BootLoader
{
// Write program
write_program_memory(addr, &data.i8[0], 16);
putchar('$');
}
else putchar('.'); // Possibly there was prevented write to the location of BootLoader
putc('\r'); putc('\n');
//---WDT
restart_wdt();
}
}
}
void main()
{
int8 timeout;
disable_interrupts(GLOBAL);
setup_wdt(WDT_2304MS); // Setup Watch Dog
setup_adc_ports(NO_ANALOGS);
setup_adc(ADC_OFF);
setup_timer_0(RTCC_INTERNAL|RTCC_DIV_1);
setup_timer_1(T1_DISABLED);
setup_timer_2(T2_DISABLED,0,1);
setup_comparator(NC_NC_NC_NC);
setup_vref(FALSE);
setup_oscillator(OSC_8MHZ|OSC_INTRC);
for(timeout=0; timeout<255; timeout++) //cca 50s
{
if (kbhit())
if (getc()=='u') // Send "uf" for Update Firmware
{
putchar('*');
if (getc()=='f')
{
restart_wdt();
boot_loader(); // Update Firmware starter
}
}
else break;
putchar('u'); putchar('f'); putchar('?');
pause();
restart_wdt();
};
restart_wdt();
goto_address(LOADER_RESERVED); // Jump to the location where is the jump to the main
}
#ORG default // End of BootLoader