568 lines
14 KiB
C
568 lines
14 KiB
C
/*****************************************************************************
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*
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* AVRPROG compatible boot-loader
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* Version : 0.83 (Apr. 2008)
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* Compiler : avr-gcc 4.1.2 / avr-libc 1.4.6
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* size : depends on features and startup ( minmal features < 512 words)
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* by : Martin Thomas, Kaiserslautern, Germany
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* eversmith@heizung-thomas.de
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* Additional code and improvements contributed by:
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* - Uwe Bonnes
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* - Bjoern Riemer
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* - Olaf Rempel
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*
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* License : Copyright (c) 2006-2008 M. Thomas, U. Bonnes, O. Rempel
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* Free to use. You have to mention the copyright
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* owners in source-code and documentation of derived
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* work. No warranty! (Yes, you can insert the BSD
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* license here)
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*
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* Tested with ATmega8, ATmega16, ATmega162, ATmega32, ATmega324P,
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* ATmega644, ATmega644P, ATmega128, AT90CAN128
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*
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* - Initial versions have been based on the Butterfly bootloader-code
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* by Atmel Corporation (Authors: BBrandal, PKastnes, ARodland, LHM)
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*
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****************************************************************************
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*
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* See the makefile and readme.txt for information on how to adapt
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* the linker-settings to the selected Boot Size (BOOTSIZE=xxxx) and
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* the MCU-type. Other configurations futher down in this file.
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*
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* With BOOT_SIMPLE, minimal features and discarded int-vectors
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* this bootloader has should fit into a a 512 word (1024, 0x400 bytes)
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* bootloader-section.
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*
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****************************************************************************/
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/*
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TODOs:
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- check lock-bits set
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- __bad_interrupt still linked even with modified
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linker-scripts which needs a default-handler,
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"wasted": 3 words for AVR5 (>8kB), 2 words for AVR4
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- Check watchdog-disable-function in avr-libc.
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*/
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// tabsize: 4
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/* MCU frequency */
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#ifndef F_CPU
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// #define F_CPU 7372800
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#define F_CPU (7372800/2)
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#endif
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/* UART Baudrate */
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// #define BAUDRATE 9600
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// #define BAUDRATE 19200
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#define BAUDRATE 115200
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/* use "Double Speed Operation" */
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//#define UART_DOUBLESPEED
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/* use second UART on mega128 / can128 / mega162 / mega324p / mega644p */
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//#define UART_USE_SECOND
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/* Device-Type:
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For AVRProg the BOOT-option is prefered
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which is the "correct" value for a bootloader.
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avrdude may only detect the part-code for ISP */
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#define DEVTYPE DEVTYPE_BOOT
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// #define DEVTYPE DEVTYPE_ISP
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/*
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* Pin "STARTPIN" on port "STARTPORT" in this port has to grounded
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* (active low) to start the bootloader
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*/
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#define BLPORT PORTC
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#define BLDDR DDRC
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#define BLPIN PINC
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#define BLPNUM PINC7
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/*
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* Define if Watchdog-Timer should be disable at startup
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*/
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#define DISABLE_WDT_AT_STARTUP
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/*
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* Watchdog-reset is issued at exit
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* define the timeout-value here (see avr-libc manual)
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*/
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#define EXIT_WDT_TIME WDTO_250MS
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/*
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* Select startup-mode
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* SIMPLE-Mode - Jump to bootloader main BL-loop if key is
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* pressed (Pin grounded) "during" reset or jump to the
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* application if the pin is not grounded. The internal
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* pull-up resistor is enabled during the startup and
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* gets disabled before the application is started.
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* POWERSAVE-Mode - Startup is separated in two loops
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* which makes power-saving a little easier if no firmware
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* is on the chip. Needs more memory
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* BOOTICE-Mode - to flash the JTAGICE upgrade.ebn file.
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* No startup-sequence in this mode. Jump directly to the
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* parser-loop on reset
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* F_CPU in BOOTICEMODE must be 7372800 Hz to be compatible
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* with the org. JTAGICE-Firmware
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* WAIT-mode waits 1 sec for the defined character if nothing
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* is recived then the user prog is started.
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*/
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#define START_SIMPLE
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//#define START_WAIT
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//#define START_POWERSAVE
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//#define START_BOOTICE
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/* character to start the bootloader in mode START_WAIT */
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#define START_WAIT_UARTCHAR 'S'
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/* wait-time for START_WAIT mode ( t = WAIT_TIME * 10ms ) */
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#define WAIT_VALUE 100 /* here: 100*10ms = 1000ms = 1sec */
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/*
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* enable/disable readout of fuse and lock-bits
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* (AVRPROG has to detect the AVR correctly by device-code
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* to show the correct information).
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*/
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//#define ENABLEREADFUSELOCK
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/* enable/disable write of lock-bits
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* WARNING: lock-bits can not be reseted by bootloader (as far as I know)
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* Only protection no unprotection, "chip erase" from bootloader only
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* clears the flash but does no real "chip erase" (this is not possible
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* with a bootloader as far as I know)
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* Keep this undefined!
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*/
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//#define WRITELOCKBITS
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/*
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* define the following if the bootloader should not output
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* itself at flash read (will fake an empty boot-section)
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*/
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#define READ_PROTECT_BOOTLOADER
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#define VERSION_HIGH '0'
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#define VERSION_LOW '8'
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#define GET_LOCK_BITS 0x0001
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#define GET_LOW_FUSE_BITS 0x0000
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#define GET_HIGH_FUSE_BITS 0x0003
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#define GET_EXTENDED_FUSE_BITS 0x0002
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#include <stdint.h>
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#include <avr/io.h>
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#include <avr/wdt.h>
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#include <avr/boot.h>
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#include <avr/pgmspace.h>
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#include <avr/eeprom.h>
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#include <avr/interrupt.h>
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#include <util/delay.h>
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#include "chipdef.h"
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uint8_t gBuffer[SPM_PAGESIZE];
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#if defined(BOOTLOADERHASNOVECTORS)
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#warning "This Bootloader does not link interrupt vectors - see makefile"
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/* make the linker happy - it wants to see __vector_default */
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// void __vector_default(void) { ; }
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void __vector_default(void) { ; }
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#endif
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static void sendchar(uint8_t data)
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{
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while (!(UART_STATUS & (1<<UART_TXREADY)));
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UART_DATA = data;
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}
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static uint8_t recvchar(void)
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{
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while (!(UART_STATUS & (1<<UART_RXREADY)));
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return UART_DATA;
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}
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static inline void eraseFlash(void)
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{
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// erase only main section (bootloader protection)
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uint32_t addr = 0;
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while (APP_END > addr) {
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boot_page_erase(addr); // Perform page erase
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boot_spm_busy_wait(); // Wait until the memory is erased.
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addr += SPM_PAGESIZE;
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}
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boot_rww_enable();
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}
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static inline void recvBuffer(pagebuf_t size)
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{
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pagebuf_t cnt;
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uint8_t *tmp = gBuffer;
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for (cnt = 0; cnt < sizeof(gBuffer); cnt++) {
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*tmp++ = (cnt < size) ? recvchar() : 0xFF;
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}
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}
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static inline uint16_t writeFlashPage(uint16_t waddr, pagebuf_t size)
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{
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uint32_t pagestart = (uint32_t)waddr<<1;
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uint32_t baddr = pagestart;
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uint16_t data;
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uint8_t *tmp = gBuffer;
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do {
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data = *tmp++;
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data |= *tmp++ << 8;
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boot_page_fill(baddr, data); // call asm routine.
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baddr += 2; // Select next word in memory
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size -= 2; // Reduce number of bytes to write by two
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} while (size); // Loop until all bytes written
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boot_page_write(pagestart);
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boot_spm_busy_wait();
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boot_rww_enable(); // Re-enable the RWW section
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return baddr>>1;
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}
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static inline uint16_t writeEEpromPage(uint16_t address, pagebuf_t size)
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{
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uint8_t *tmp = gBuffer;
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do {
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eeprom_write_byte( (uint8_t*)address, *tmp++ );
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address++; // Select next byte
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size--; // Decreas number of bytes to write
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} while (size); // Loop until all bytes written
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// eeprom_busy_wait();
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return address;
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}
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static inline uint16_t readFlashPage(uint16_t waddr, pagebuf_t size)
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{
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uint32_t baddr = (uint32_t)waddr<<1;
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uint16_t data;
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do {
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#ifndef READ_PROTECT_BOOTLOADER
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#warning "Bootloader not read-protected"
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#if defined(RAMPZ)
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data = pgm_read_word_far(baddr);
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#else
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data = pgm_read_word_near(baddr);
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#endif
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#else
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// don't read bootloader
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if ( baddr < APP_END ) {
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#if defined(RAMPZ)
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data = pgm_read_word_far(baddr);
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#else
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data = pgm_read_word_near(baddr);
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#endif
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}
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else {
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data = 0xFFFF; // fake empty
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}
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#endif
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sendchar(data); // send LSB
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sendchar((data >> 8)); // send MSB
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baddr += 2; // Select next word in memory
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size -= 2; // Subtract two bytes from number of bytes to read
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} while (size); // Repeat until block has been read
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return baddr>>1;
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}
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static inline uint16_t readEEpromPage(uint16_t address, pagebuf_t size)
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{
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do {
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sendchar( eeprom_read_byte( (uint8_t*)address ) );
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address++;
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size--; // Decrease number of bytes to read
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} while (size); // Repeat until block has been read
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return address;
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}
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#if defined(ENABLEREADFUSELOCK)
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static uint8_t read_fuse_lock(uint16_t addr)
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{
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uint8_t mode = (1<<BLBSET) | (1<<SPMEN);
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uint8_t retval;
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asm volatile
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(
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"movw r30, %3\n\t" /* Z to addr */ \
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"sts %0, %2\n\t" /* set mode in SPM_REG */ \
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"lpm\n\t" /* load fuse/lock value into r0 */ \
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"mov %1,r0\n\t" /* save return value */ \
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: "=m" (SPM_REG),
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"=r" (retval)
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: "r" (mode),
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"r" (addr)
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: "r30", "r31", "r0"
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);
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return retval;
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}
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#endif
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static void send_boot(void)
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{
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sendchar('A');
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sendchar('V');
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sendchar('R');
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sendchar('B');
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sendchar('O');
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sendchar('O');
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sendchar('T');
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}
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static void (*jump_to_app)(void) = 0x0000;
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int main(void)
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{
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uint16_t address = 0;
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uint8_t device = 0, val;
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#ifdef DISABLE_WDT_AT_STARTUP
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#ifdef WDT_OFF_SPECIAL
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#warning "using target specific watchdog_off"
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bootloader_wdt_off();
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#else
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cli();
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wdt_reset();
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wdt_disable();
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#endif
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#endif
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#ifdef START_POWERSAVE
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uint8_t OK = 1;
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#endif
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BLDDR &= ~(1<<BLPNUM); // set as Input
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BLPORT |= (1<<BLPNUM); // Enable pullup
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// Set baud rate
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UART_BAUD_HIGH = (UART_CALC_BAUDRATE(BAUDRATE)>>8) & 0xFF;
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UART_BAUD_LOW = (UART_CALC_BAUDRATE(BAUDRATE) & 0xFF);
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#ifdef UART_DOUBLESPEED
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UART_STATUS = ( 1<<UART_DOUBLE );
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#endif
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UART_CTRL = UART_CTRL_DATA;
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UART_CTRL2 = UART_CTRL2_DATA;
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#if defined(START_POWERSAVE)
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/*
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This is an adoption of the Butterfly Bootloader startup-sequence.
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It may look a little strange but separating the login-loop from
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the main parser-loop gives a lot a possibilities (timeout, sleep-modes
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etc.).
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*/
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for(;OK;) {
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if ((BLPIN & (1<<BLPNUM))) {
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// jump to main app if pin is not grounded
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BLPORT &= ~(1<<BLPNUM); // set to default
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jump_to_app(); // Jump to application sector
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} else {
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val = recvchar();
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/* ESC */
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if (val == 0x1B) {
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// AVRPROG connection
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// Wait for signon
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while (val != 'S')
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val = recvchar();
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send_boot(); // Report signon
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OK = 0;
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} else {
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sendchar('?');
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}
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}
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// Power-Save code here
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}
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#elif defined(START_SIMPLE)
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if ((BLPIN & (1<<BLPNUM))) {
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// jump to main app if pin is not grounded
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BLPORT &= ~(1<<BLPNUM); // set to default
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jump_to_app(); // Jump to application sector
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}
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#elif defined(START_WAIT)
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uint16_t cnt = 0;
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while (1) {
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if (UART_STATUS & (1<<UART_RXREADY))
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if (UART_DATA == START_WAIT_UARTCHAR)
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break;
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if (cnt++ >= WAIT_VALUE) {
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BLPORT &= ~(1<<BLPNUM); // set to default
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jump_to_app(); // Jump to application sector
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}
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_delay_ms(10);
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}
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send_boot();
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#elif defined(START_BOOTICE)
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#warning "BOOTICE mode - no startup-condition"
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#else
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#error "Select START_ condition for bootloader in main.c"
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#endif
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for(;;) {
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val = recvchar();
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// Autoincrement?
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if (val == 'a') {
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sendchar('Y'); // Autoincrement is quicker
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//write address
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} else if (val == 'A') {
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address = recvchar(); //read address 8 MSB
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address = (address<<8) | recvchar();
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sendchar('\r');
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// Buffer load support
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} else if (val == 'b') {
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sendchar('Y'); // Report buffer load supported
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sendchar((sizeof(gBuffer) >> 8) & 0xFF); // Report buffer size in bytes
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sendchar(sizeof(gBuffer) & 0xFF);
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// Start buffer load
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} else if (val == 'B') {
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pagebuf_t size;
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size = recvchar() << 8; // Load high byte of buffersize
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size |= recvchar(); // Load low byte of buffersize
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val = recvchar(); // Load memory type ('E' or 'F')
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recvBuffer(size);
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if (device == DEVTYPE) {
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if (val == 'F') {
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address = writeFlashPage(address, size);
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} else if (val == 'E') {
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address = writeEEpromPage(address, size);
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}
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sendchar('\r');
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} else {
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sendchar(0);
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}
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// Block read
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} else if (val == 'g') {
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pagebuf_t size;
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size = recvchar() << 8; // Load high byte of buffersize
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size |= recvchar(); // Load low byte of buffersize
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val = recvchar(); // Get memtype
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if (val == 'F') {
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address = readFlashPage(address, size);
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} else if (val == 'E') {
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address = readEEpromPage(address, size);
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}
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// Chip erase
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} else if (val == 'e') {
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if (device == DEVTYPE) {
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eraseFlash();
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}
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sendchar('\r');
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// Exit upgrade
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} else if (val == 'E') {
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wdt_enable(EXIT_WDT_TIME); // Enable Watchdog Timer to give reset
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sendchar('\r');
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#ifdef WRITELOCKBITS
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#warning "Extension 'WriteLockBits' enabled"
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// TODO: does not work reliably
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// write lockbits
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} else if (val == 'l') {
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if (device == DEVTYPE) {
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// write_lock_bits(recvchar());
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boot_lock_bits_set(recvchar()); // boot.h takes care of mask
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boot_spm_busy_wait();
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}
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sendchar('\r');
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#endif
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// Enter programming mode
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} else if (val == 'P') {
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sendchar('\r');
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// Leave programming mode
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} else if (val == 'L') {
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sendchar('\r');
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// return programmer type
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} else if (val == 'p') {
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sendchar('S'); // always serial programmer
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#ifdef ENABLEREADFUSELOCK
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#warning "Extension 'ReadFuseLock' enabled"
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// read "low" fuse bits
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} else if (val == 'F') {
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sendchar(read_fuse_lock(GET_LOW_FUSE_BITS));
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// read lock bits
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} else if (val == 'r') {
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sendchar(read_fuse_lock(GET_LOCK_BITS));
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// read high fuse bits
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} else if (val == 'N') {
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sendchar(read_fuse_lock(GET_HIGH_FUSE_BITS));
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// read extended fuse bits
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} else if (val == 'Q') {
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sendchar(read_fuse_lock(GET_EXTENDED_FUSE_BITS));
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#endif
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// Return device type
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} else if (val == 't') {
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sendchar(DEVTYPE);
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sendchar(0);
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// clear and set LED ignored
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} else if ((val == 'x') || (val == 'y')) {
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recvchar();
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sendchar('\r');
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// set device
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} else if (val == 'T') {
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device = recvchar();
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sendchar('\r');
|
|
|
|
// Return software identifier
|
|
} else if (val == 'S') {
|
|
send_boot();
|
|
|
|
// Return Software Version
|
|
} else if (val == 'V') {
|
|
sendchar(VERSION_HIGH);
|
|
sendchar(VERSION_LOW);
|
|
|
|
// Return Signature Bytes (it seems that
|
|
// AVRProg expects the "Atmel-byte" 0x1E last
|
|
// but shows it first in the dialog-window)
|
|
} else if (val == 's') {
|
|
sendchar(SIG_BYTE3);
|
|
sendchar(SIG_BYTE2);
|
|
sendchar(SIG_BYTE1);
|
|
|
|
/* ESC */
|
|
} else if(val != 0x1b) {
|
|
sendchar('?');
|
|
}
|
|
}
|
|
return 0;
|
|
}
|