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EdGull писал(а):Отныне все Миниботы будут на "заводе" программироваться этим бутзагрузчиком.
rig писал(а):сдела простенькую програмку
мигаем диодами
while(1)
{
2 секунды вперед
2 секунды назад
2 секунды моторы в разные стороны (по часовой)
2 секунды моторы еще в разные стороны (против часовой)
}
'--------------------------------------------------------------
' BOOT.BAS
' Bootloader example for the M163
' set fusebit FE to 512 bytes for bootspace for this example
'At start up a message is displayed. When you make PIND.7 low the
'bootloader will be started
'This program serves as an example. It can be changed for other chips.
'Especially the page size and the boot entry location might need a change
'--------------------------------------------------------------
'Our communication settings
$regfile = "m32DEF.dat"
$baud = 19200
$crystal = 8000000
'Osccal = &HAE
'Open "comb.6:9600,8,n,1" For Output As #1
'светодиод
Config Pinc.6 = Output : Led Alias Portc.6 : Led = 0
Config Pina.2 = Input : Ohrana Alias Pina.2
Led = 0
Waitms 1000
Print "Start"
Print "Checking bootloader"
If Ohrana = 0 Then
Print "Entering bootloader"
Led = 1
Waitms 2000
Led = 0
jmp $3800 ' make a jump to the boot code location. See the datasheet for the entrypoint
End If
Print "Not entering bootloader"
Do
Led = 1
Waitms 200
Led = 0
Print "OK"
Waitms 2000
Loop
'you code would continue here
End
'!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
' B O O T L O A D E R
'!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
'The fusebit FE is set so that we have 512 bytes for the boot code
'Only a part is used btw
'But it sets the bootstart address to 1E00 hex. which happens to be in the M161 too
'The $boot diretive will bind the code below into address specified
'This will generate large files with FFFF opcode from the end of the normal program to the start
'of the bootcode
'Note that the bootloader is written in ASM. This because the bootloader may not call routines from
'the main program. Why? Because during programming they get erased!
$boot = $3800
'no interrupts are allowed during bootloader programming
Disable Interrupts
'Standard Intel hex file can be sent
':10 0000 00 0C 94 2400189500001895000018950000 25
':00 0000 01 FF
' size , address,record type, data, checksum
'The sample bootloader does not use the checksum
'The same baudrate is used as the main program is using
'but we can change it here when we like. Just unremark the next line and/or change it
'But take in mind that the bootloader sender must use the same baud rate !!!
'Baud = 19200
clr r18 ; word counter for written data
clr r23 ; page counter
rcall _erase_page ; erase first page
_read_lines:
rcall _rec_line ; get line into SRAM pointed by X
ldi r26,$61 ; point to start of line
clr r27
ld r24,x+ ; get char in r24
rcall _hex2number ; convert result in r17
ld r24,x+
rcall _hex2number2 ; convert second char , r17 holds the number of hex pairs to get
mov r19,r17 ; number of entries
tst r19
brne _readnext ; not the end record
rjmp _write_last_page ; final line so write the last page
_readnext:
adiw xl,6 ; point to first pair
_readnextpair:
ld r24,x+ ; get char in r24
rcall _hex2number ; convert result in r17
ld r24,x+
rcall _hex2number2 ; convert second char , r17 holds the data
mov r0,r17 ; save in r0
dec r19 ; adjust pair data counter
ld r24,x+ ; get char in r24
rcall _hex2number ; convert result in r17
ld r24,x+
rcall _hex2number2 ; convert second char , r17 holds the data
mov r1,r17 ; save data
rcall _write_page ; write into page buffer
cpi r18,64 ; page is 128 bytes is 64 words
breq _writeit ; write page since it is full
_lbl1:
dec r19 ; adjust data pair
brne _readnextpair ; more data
rjmp _read_lines ; next line
_writeit:
rcall _save_page ; save page
rcall _erase_page ; erase next page
Rjmp _lbl1 ; continue
_write_last_page:
rcall _save_page ; save last page
rjmp _exit_page ; exit needs a reset
' get 1 byte from serial port and store in R24
_recbyte:
Sbis USR, 7 ; Wait for character
rjmp _recbyte
in r24, UDR ; get byte
Ret
'get one line from the serial port and store in location pointed by X
_rec_line:
ldi r26,$60 ; point to first location in SRAM
clr r27
_rec_line5:
sbis usr,5
rjmp _rec_line5
ldi r24, 63 ; ?
!out udr,r24 ; show ? so we know we can send next line
_rec_line1:
rcall _recbyte ; get byte
cpi r24,13 ; enter?
breq _rec_line2 ; yes ready
st x+,r24 ; no so store in sram buffer
rjmp _rec_line1 ; next byte
_rec_line2:
clr r24 ; string terminator
st x,r24
ret
' convert HEX byte in r24 into bin value , on exit byte in r17
_hex2number:
clr r17
_hex2number4:
Subi R24,65 ; subtract 65
Brcc _hex2number3 ; in case carry was cleared
Subi R24,249 ; not
_hex2number3:
Subi R24,246
Add R17,R24 ; add to accu
ret
';called for the second byte
_hex2number2:
Lsl R17 ; shift data
Lsl R17
Lsl R17
Lsl R17
rjmp _hex2number4 ; handle the conversion
'page address in z7-z13
_erase_page:
mov r31,r23 ; page address
lsr r31 ; get z8-z13 shift ls bit into carry
clr r30
ror r30 ; get z7
ldi r24,3 ; page erase command
rcall _do_spm
clr r16 ; page cleared indicator
ret
_write_page:
mov r31,r23 ; page address z8-z13
lsr r31
clr r30
ror r30 ; carry to z7
mov r24,r18 ; word address buffer counter
lsl r24
add r30,r24 ; z1-z6
ldi r24,1 ; buffer fill
rcall _do_spm
inc r18
ret
_save_page:
'z0-z6 must be 0
'z7-z13 is the page address
'r0 and r1 are ignored
mov r31,r23
lsr r31
clr r30
ror r30
ldi r24,5 ; write page
rcall _do_spm
clr r18 ; page word address counter
inc r23 ; page counter
ret
_exit_page:
in r24,spmcr
sbrs r24,asb
rjmp _exit_page1
ldi r24,17
rcall _do_spm
rjmp _exit_page
_exit_page1:
End
'; execute spm instruction , data in R24
_do_spm:
sbic eecr, eewe
rjmp _Do_spm
! Out Spmcr , R24
spm
!.obj Ffff ; needs FFFF according to datasheet
nop
_wait_spm:
In r24,spmcr
sbrc r24, 0
rjmp _wait_spm
ret
End
EdGull писал(а):в приложении исходник на делфях
нужно в нем добавить:
выбор ком-порта
выбор хекса
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