DualOptiboot/Makefile

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Makefile
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2018-07-31 09:45:00 +02:00
# Makefile for ATmegaBOOT
# E.Lins, 18.7.2005
# $Id$
#
# Instructions
#
# To make bootloader .hex file:
# make diecimila
# make lilypad
# make ng
# etc...
#
# To burn bootloader .hex file:
# make diecimila_isp
# make lilypad_isp
# make ng_isp
# etc...
#
# Edit History
# 201303xx: WestfW: Major Makefile restructuring.
# Allows options on Make command line "make xx LED=B3"
# (see also pin_defs.h)
# Divide into "chip" targets and "board" targets.
# Most boards are (recursive) board targets with options.
# Move isp target to separate makefile (fixes m8 EFUSE)
# Some (many) targets will now be rebuilt when not
# strictly necessary, so that options will be included.
# (any "make" with options will always compile.)
# Set many variables with ?= so they can be overridden
# Use arduinoISP settings as default for ISP targets
#
#----------------------------------------------------------------------
#
# program name should not be changed...
PROGRAM = optiboot
# The default behavior is to build using tools that are in the users
# current path variables, but we can also build using an installed
# Arduino user IDE setup, or the Arduino source tree.
# Uncomment this next lines to build within the arduino environment,
# using the arduino-included avrgcc toolset (mac and pc)
# ENV ?= arduino
# ENV ?= arduinodev
# OS ?= macosx
# OS ?= windows
# export symbols to recursive makes (for ISP)
export
# defaults
MCU_TARGET = atmega168
LDSECTIONS = -Wl,--section-start=.text=0x3e00 -Wl,--section-start=.version=0x3ffe
# Build environments
# Start of some ugly makefile-isms to allow optiboot to be built
# in several different environments. See the README.TXT file for
# details.
# default
fixpath = $(1)
ifeq ($(ENV), arduino)
# For Arduino, we assume that we're connected to the optiboot directory
# included with the arduino distribution, which means that the full set
# of avr-tools are "right up there" in standard places.
TOOLROOT = ../../../tools
GCCROOT = $(TOOLROOT)/avr/bin/
ifeq ($(OS), windows)
# On windows, SOME of the tool paths will need to have backslashes instead
# of forward slashes (because they use windows cmd.exe for execution instead
# of a unix/mingw shell?) We also have to ensure that a consistent shell
# is used even if a unix shell is installed (ie as part of WINAVR)
fixpath = $(subst /,\,$1)
SHELL = cmd.exe
endif
else ifeq ($(ENV), arduinodev)
# Arduino IDE source code environment. Use the unpacked compilers created
# by the build (you'll need to do "ant build" first.)
ifeq ($(OS), macosx)
TOOLROOT = ../../../../build/macosx/work/Arduino.app/Contents/Resources/Java/hardware/tools
endif
ifeq ($(OS), windows)
TOOLROOT = ../../../../build/windows/work/hardware/tools
endif
GCCROOT = $(TOOLROOT)/avr/bin/
AVRDUDE_CONF = -C$(TOOLROOT)/avr/etc/avrdude.conf
else
GCCROOT =
AVRDUDE_CONF =
endif
STK500 = "C:\Program Files\Atmel\AVR Tools\STK500\Stk500.exe"
STK500-1 = $(STK500) -e -d$(MCU_TARGET) -pf -vf -if$(PROGRAM)_$(TARGET).hex \
-lFF -LFF -f$(HFUSE)$(LFUSE) -EF8 -ms -q -cUSB -I200kHz -s -wt
STK500-2 = $(STK500) -d$(MCU_TARGET) -ms -q -lCF -LCF -cUSB -I200kHz -s -wt
#
# End of build environment code.
OBJ = $(PROGRAM).o
OPTIMIZE = -Os -fno-inline-small-functions -fno-split-wide-types -mshort-calls
DEFS =
LIBS =
CC = $(GCCROOT)avr-gcc
# Override is only needed by avr-lib build system.
override CFLAGS = -g -Wall $(OPTIMIZE) -mmcu=$(MCU_TARGET) -DF_CPU=$(AVR_FREQ) $(DEFS)
override LDFLAGS = $(LDSECTIONS) -Wl,--relax -nostartfiles -nostdlib
#-Wl,--gc-sections
OBJCOPY = $(GCCROOT)avr-objcopy
OBJDUMP = $(call fixpath,$(GCCROOT)avr-objdump)
SIZE = $(GCCROOT)avr-size
#
# Make command-line Options.
# Permit commands like "make atmega328 LED_START_FLASHES=10" to pass the
# appropriate parameters ("-DLED_START_FLASHES=10") to gcc
#
ifdef BAUD_RATE
BAUD_RATE_CMD = -DBAUD_RATE=$(BAUD_RATE)
dummy = FORCE
else
BAUD_RATE_CMD = -DBAUD_RATE=115200
endif
ifdef LED_START_FLASHES
LED_START_FLASHES_CMD = -DLED_START_FLASHES=$(LED_START_FLASHES)
dummy = FORCE
else
LED_START_FLASHES_CMD = -DLED_START_FLASHES=3
endif
# BIG_BOOT: Include extra features, up to 1K.
ifdef BIGBOOT
BIGBOOT_CMD = -DBIGBOOT=1
dummy = FORCE
endif
ifdef SOFT_UART
SOFT_UART_CMD = -DSOFT_UART=1
dummy = FORCE
endif
ifdef LED_DATA_FLASH
LED_DATA_FLASH_CMD = -DLED_DATA_FLASH=1
dummy = FORCE
endif
ifdef LED
LED_CMD = -DLED=$(LED)
dummy = FORCE
endif
ifdef SINGLESPEED
SSCMD = -DSINGLESPEED=1
endif
COMMON_OPTIONS = $(BAUD_RATE_CMD) $(LED_START_FLASHES_CMD) $(BIGBOOT_CMD)
COMMON_OPTIONS += $(SOFT_UART_CMD) $(LED_DATA_FLASH_CMD) $(LED_CMD) $(SSCMD)
#UART is handled separately and only passed for devices with more than one.
ifdef UART
UARTCMD = -DUART=$(UART)
endif
# Not supported yet
# ifdef SUPPORT_EEPROM
# SUPPORT_EEPROM_CMD = -DSUPPORT_EEPROM
# dummy = FORCE
# endif
# Not supported yet
# ifdef TIMEOUT_MS
# TIMEOUT_MS_CMD = -DTIMEOUT_MS=$(TIMEOUT_MS)
# dummy = FORCE
# endif
#
#---------------------------------------------------------------------------
# "Chip-level Platform" targets.
# A "Chip-level Platform" compiles for a particular chip, but probably does
# not have "standard" values for things like clock speed, LED pin, etc.
# Makes for chip-level platforms should usually explicitly define their
# options like: "make atmega1285 AVR_FREQ=16000000L LED=D0"
#---------------------------------------------------------------------------
#
# Note about fuses:
# the efuse should really be 0xf8; since, however, only the lower
# three bits of that byte are used on the atmega168, avrdude gets
# confused if you specify 1's for the higher bits, see:
# http://tinker.it/now/2007/02/24/the-tale-of-avrdude-atmega168-and-extended-bits-fuses/
#
# similarly, the lock bits should be 0xff instead of 0x3f (to
# unlock the bootloader section) and 0xcf instead of 0x2f (to
# lock it), but since the high two bits of the lock byte are
# unused, avrdude would get confused.
#---------------------------------------------------------------------------
#
# Test platforms
# Virtual boot block test
virboot328: TARGET = atmega328
virboot328: MCU_TARGET = atmega328p
virboot328: CFLAGS += $(COMMON_OPTIONS) '-DVIRTUAL_BOOT'
virboot328: AVR_FREQ ?= 16000000L
virboot328: LDSECTIONS = -Wl,--section-start=.text=0x7e00 -Wl,--section-start=.version=0x7ffe
virboot328: $(PROGRAM)_atmega328.hex
virboot328: $(PROGRAM)_atmega328.lst
# Diecimila, Duemilanove with m168, and NG use identical bootloaders
# Call it "atmega168" for generality and clarity, keep "diecimila" for
# backward compatibility of makefile
#
atmega168: TARGET = atmega168
atmega168: MCU_TARGET = atmega168
atmega168: CFLAGS += $(COMMON_OPTIONS)
atmega168: AVR_FREQ ?= 16000000L
atmega168: $(PROGRAM)_atmega168.hex
atmega168: $(PROGRAM)_atmega168.lst
atmega168_isp: atmega168
atmega168_isp: TARGET = atmega168
# 2.7V brownout
atmega168_isp: HFUSE ?= DD
# Low power xtal (16MHz) 16KCK/14CK+65ms
atmega168_isp: LFUSE ?= FF
# 512 byte boot
atmega168_isp: EFUSE ?= 04
atmega168_isp: isp
atmega328: TARGET = atmega328
atmega328: MCU_TARGET = atmega328p
atmega328: CFLAGS += $(COMMON_OPTIONS)
atmega328: AVR_FREQ ?= 16000000L
atmega328: LDSECTIONS = -Wl,--section-start=.text=0x7c00 -Wl,--section-start=.version=0x7ffe
atmega328: $(PROGRAM)_atmega328.hex
atmega328: $(PROGRAM)_atmega328.lst
atmega328_isp: atmega328
atmega328_isp: TARGET = atmega328
atmega328_isp: MCU_TARGET = atmega328p
# 512 byte boot, SPIEN
atmega328_isp: HFUSE ?= DE
# Low power xtal (16MHz) 16KCK/14CK+65ms
atmega328_isp: LFUSE ?= FF
# 2.7V brownout
atmega328_isp: EFUSE ?= FD
atmega328_isp: isp
atmega644p: TARGET = atmega644p
atmega644p: MCU_TARGET = atmega644p
atmega644p: CFLAGS += $(COMMON_OPTIONS) -DBIGBOOT $(LED_CMD)
atmega644p: AVR_FREQ ?= 16000000L
atmega644p: LDSECTIONS = -Wl,--section-start=.text=0xfc00 -Wl,--section-start=.version=0xfffe
atmega644p: CFLAGS += $(UARTCMD)
atmega644p: $(PROGRAM)_atmega644p.hex
atmega644p: $(PROGRAM)_atmega644p.lst
atmega1284: TARGET = atmega1284p
atmega1284: MCU_TARGET = atmega1284p
atmega1284: CFLAGS += $(COMMON_OPTIONS) -DBIGBOOT $(LED_CMD)
atmega1284: AVR_FREQ ?= 16000000L
atmega1284: LDSECTIONS = -Wl,--section-start=.text=0x1fc00 -Wl,--section-start=.version=0x1fffe
atmega1284: CFLAGS += $(UARTCMD)
atmega1284: $(PROGRAM)_atmega1284p.hex
atmega1284: $(PROGRAM)_atmega1284p.lst
atmega1284p: atmega1284
atmega1284_isp: atmega1284
atmega1284_isp: TARGET = atmega1284p
atmega1284_isp: MCU_TARGET = atmega1284p
# 1024 byte boot
atmega1284_isp: HFUSE ?= DE
# Full Swing xtal (16MHz) 16KCK/14CK+65ms
atmega1284_isp: LFUSE ?= F7
# 2.7V brownout
atmega1284_isp: EFUSE ?= FD
atmega1284_isp: isp
#Atmega1280
atmega1280: MCU_TARGET = atmega1280
atmega1280: CFLAGS += $(COMMON_OPTIONS) -DBIGBOOT $(UART_CMD)
atmega1280: AVR_FREQ ?= 16000000L
atmega1280: LDSECTIONS = -Wl,--section-start=.text=0x1fc00 -Wl,--section-start=.version=0x1fffe
atmega1280: $(PROGRAM)_atmega1280.hex
atmega1280: $(PROGRAM)_atmega1280.lst
# ATmega8
#
atmega8: TARGET = atmega8
atmega8: MCU_TARGET = atmega8
atmega8: CFLAGS += $(COMMON_OPTIONS)
atmega8: AVR_FREQ ?= 16000000L
atmega8: LDSECTIONS = -Wl,--section-start=.text=0x1e00 -Wl,--section-start=.version=0x1ffe
atmega8: $(PROGRAM)_atmega8.hex
atmega8: $(PROGRAM)_atmega8.lst
atmega8_isp: atmega8
atmega8_isp: TARGET = atmega8
atmega8_isp: MCU_TARGET = atmega8
# SPIEN, CKOPT (for full swing xtal), Bootsize=512B
atmega8_isp: HFUSE ?= CC
# 2.7V brownout, 16MHz Xtal, 16KCK/14CK+65ms
atmega8_isp: LFUSE ?= BF
atmega8_isp: isp
# ATmega88
#
atmega88: TARGET = atmega88
atmega88: MCU_TARGET = atmega88
atmega88: CFLAGS += $(COMMON_OPTIONS)
atmega88: AVR_FREQ ?= 16000000L
atmega88: LDSECTIONS = -Wl,--section-start=.text=0x1e00 -Wl,--section-start=.version=0x1ffe
atmega88: $(PROGRAM)_atmega88.hex
atmega88: $(PROGRAM)_atmega88.lst
atmega88_isp: atmega88
atmega88_isp: TARGET = atmega88
atmega88_isp: MCU_TARGET = atmega88
# 2.7V brownout
atmega88_isp: HFUSE ?= DD
# Low power xtal (16MHz) 16KCK/14CK+65ms
atemga88_isp: LFUSE ?= FF
# 512 byte boot
atmega88_isp: EFUSE ?= 04
atmega88_isp: isp
atmega32: TARGET = atmega32
atmega32: MCU_TARGET = atmega32
atmega32: CFLAGS += $(COMMON_OPTIONS)
atmega32: AVR_FREQ ?= 11059200L
atmega32: LDSECTIONS = -Wl,--section-start=.text=0x7e00 -Wl,--section-start=.version=0x7ffe
atmega32: $(PROGRAM)_atmega32.hex
atmega32: $(PROGRAM)_atmega32.lst
atmega32_isp: atmega32
atmega32_isp: TARGET = atmega32
atmega32_isp: MCU_TARGET = atmega32
# No OCD or JTAG, SPIEN, CKOPT (for full swing xtal), Bootsize=512B
atmega32_isp: HFUSE ?= CE
# 2.7V brownout, 16MHz Xtal, 16KCK/14CK+65ms
atemga32_isp: LFUSE ?= BF
atmega32_isp: isp
#---------------------------------------------------------------------------
# "Board-level Platform" targets.
# A "Board-level Platform" implies a manufactured platform with a particular
# AVR_FREQ, LED, and so on. Parameters are not particularly changable from
# the "make" command line.
# Most of the board-level platform builds should envoke make recursively
# appropriate specific options
#---------------------------------------------------------------------------
# 20MHz clocked platforms
#
# These are capable of 230400 baud, or 115200 baud on PC (Arduino Avrdude issue)
#
pro20: TARGET = pro_20mhz
pro20: CHIP = atmega168
pro20:
$(MAKE) atmega168 AVR_FREQ=20000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
pro20_isp: pro20
pro20_isp: TARGET = pro_20mhz
# 2.7V brownout
pro20_isp: HFUSE ?= DD
# Full swing xtal (20MHz) 258CK/14CK+4.1ms
pro20_isp: LFUSE ?= C6
# 512 byte boot
pro20_isp: EFUSE ?= 04
pro20_isp: isp
# 16MHz clocked platforms
#
# These are capable of 230400 baud, or 115200 baud on PC (Arduino Avrdude issue)
#
pro16: TARGET = pro_16MHz
pro16: CHIP = atmega168
pro16:
$(MAKE) $(CHIP) AVR_FREQ=16000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
pro16_isp: pro16
pro16_isp: TARGET = pro_16MHz
# 2.7V brownout
pro16_isp: HFUSE ?= DD
# Full swing xtal (20MHz) 258CK/14CK+4.1ms
pro16_isp: LFUSE ?= C6
# 512 byte boot
pro16_isp: EFUSE ?= 04
pro16_isp: isp
diecimila: TARGET = diecimila
diecimila: CHIP = atmega168
diecimila:
$(MAKE) $(CHIP) AVR_FREQ=16000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
diecimila_isp: diecimila
diecimila_isp: TARGET = diecimila
# 2.7V brownout
diecimila_isp: HFUSE ?= DD
# Low power xtal (16MHz) 16KCK/14CK+65ms
diecimila_isp: LFUSE ?= FF
# 512 byte boot
diecimila_isp: EFUSE ?= 04
diecimila_isp: isp
# Sanguino has a minimum boot size of 1024 bytes, so enable extra functions
#
sanguino: TARGET = $@
sanguino: CHIP = atmega644p
sanguino:
$(MAKE) $(CHIP) AVR_FREQ=16000000L LED=B0
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
sanguino_isp: sanguino
sanguino_isp: TARGET = sanguino
sanguino_isp: MCU_TARGET = atmega644p
# 1024 byte boot
sanguino_isp: HFUSE ?= DE
# Full swing xtal (16MHz) 16KCK/14CK+65ms
sanguino_isp: LFUSE ?= F7
# 2.7V brownout
sanguino_isp: EFUSE ?= FD
sanguino_isp: isp
mighty1284: TARGET = $@
mighty1284: CHIP = atmega1284p
mighty1284:
$(MAKE) $(CHIP) AVR_FREQ=16000000L LED=D7
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
mighty1284_isp: mighty1284
mighty1284_isp: TARGET = mighty1284
mighty1284_isp: MCU_TARGET = atmega1284p
# 1024 byte boot
mighty1284_isp: HFUSE ?= DE
# Full swing xtal (16MHz) 16KCK/14CK+65ms
mighty1284_isp: LFUSE ?= F7
# 2.7V brownout
mighty1284_isp: EFUSE ?= FD
mighty1284_isp: isp
bobuino: TARGET = $@
bobuino: CHIP = atmega1284p
bobuino:
$(MAKE) $(CHIP) AVR_FREQ=16000000L LED=B5
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
bobuino_isp: bobuino
bobuino_isp: TARGET = bobuino
bobuino_isp: MCU_TARGET = atmega1284p
# 1024 byte boot
bobuino_isp: HFUSE ?= DE
# Full swing xtal (16MHz) 16KCK/14CK+65ms
bobuino_isp: LFUSE ?= F7
# 2.7V brownout
bobuino_isp: EFUSE ?= FD
bobuino_isp: isp
# MEGA1280 Board (this is different from the atmega1280 chip platform)
# Mega has a minimum boot size of 1024 bytes, so enable extra functions
# Note that optiboot does not (can not) work on the MEGA2560
#mega: TARGET = atmega1280
mega1280: atmega1280
mega1280_isp: mega1280
mega1280_isp: TARGET = atmega1280
mega1280_isp: MCU_TARGET = atmega1280
# 1024 byte boot
mega1280_isp: HFUSE ?= DE
# Low power xtal (16MHz) 16KCK/14CK+65ms
mega1280_isp: LFUSE ?= FF
# 2.7V brownout; wants F5 for some reason...
mega1280_isp: EFUSE ?= F5
mega1280_isp: isp
# 8MHz clocked platforms
#
# These are capable of 115200 baud
# Note that "new" Arduinos with an AVR as USB/Serial converter will NOT work
# with an 8MHz target Arduino. The bitrate errors are in opposite directions,
# and total too large a number.
#
lilypad: TARGET = $@
lilypad: CHIP = atmega168
lilypad:
$(MAKE) $(CHIP) AVR_FREQ=8000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
lilypad_isp: lilypad
lilypad_isp: TARGET = lilypad
# 2.7V brownout
lilypad_isp: HFUSE ?= DD
# Internal 8MHz osc (8MHz) Slow rising power
lilypad_isp: LFUSE ?= E2
# 512 byte boot
lilypad_isp: EFUSE ?= 04
lilypad_isp: isp
# lilypad_resonator is the same as a 8MHz lilypad, except for fuses.
lilypad_resonator: lilypad
lilypad_resonator_isp: lilypad
lilypad_resonator_isp: TARGET = lilypad
# 2.7V brownout
lilypad_resonator_isp: HFUSE ?= DD
# Full swing xtal (20MHz) 258CK/14CK+4.1ms
lilypad_resonator_isp: LFUSE ?= C6
# 512 byte boot
lilypad_resonator_isp: EFUSE ?= 04
lilypad_resonator_isp: isp
pro8: TARGET = pro_8MHz
pro8: CHIP = atmega168
pro8:
$(MAKE) $(CHIP) AVR_FREQ=8000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
pro8_isp: pro8
pro8_isp: TARGET = pro_8MHz
# 2.7V brownout
pro8_isp: HFUSE ?= DD
# Full swing xtal (20MHz) 258CK/14CK+4.1ms
pro8_isp: LFUSE ?= C6
# 512 byte boot
pro8_isp: EFUSE ?= 04
pro8_isp: isp
atmega328_pro8: TARGET = atmega328_pro_8MHz
atmega328_pro8: CHIP = atmega328
atmega328_pro8:
$(MAKE) $(CHIP) AVR_FREQ=8000000L LED_START_FLASHES=3
mv $(PROGRAM)_$(CHIP).hex $(PROGRAM)_$(TARGET).hex
mv $(PROGRAM)_$(CHIP).lst $(PROGRAM)_$(TARGET).lst
atmega328_pro8_isp: atmega328_pro8
atmega328_pro8_isp: TARGET = atmega328_pro_8MHz
atmega328_pro8_isp: MCU_TARGET = atmega328p
# 512 byte boot, SPIEN
atmega328_pro8_isp: HFUSE ?= DE
# Low power xtal (16MHz) 16KCK/14CK+65ms
atmega328_pro8_isp: LFUSE ?= FF
# 2.7V brownout
atmega328_pro8_isp: EFUSE ?= DE
atmega328_pro8_isp: isp
# 1MHz clocked platforms
#
# These are capable of 9600 baud
#
luminet: TARGET = luminet
luminet: MCU_TARGET = attiny84
luminet: CFLAGS += $(COMMON_OPTIONS) '-DSOFT_UART' '-DBAUD_RATE=9600'
luminet: CFLAGS += '-DVIRTUAL_BOOT_PARTITION'
luminet: AVR_FREQ ?= 1000000L
luminet: LDSECTIONS = -Wl,--section-start=.text=0x1d00 -Wl,--section-start=.version=0x1efe
luminet: $(PROGRAM)_luminet.hex
luminet: $(PROGRAM)_luminet.lst
luminet_isp: luminet
luminet_isp: TARGET = luminet
luminet_isp: MCU_TARGET = attiny84
# Brownout disabled
luminet_isp: HFUSE ?= DF
# 1MHz internal oscillator, slowly rising power
luminet_isp: LFUSE ?= 62
# Self-programming enable
luminet_isp: EFUSE ?= FE
luminet_isp: isp
#---------------------------------------------------------------------------
#
# Generic build instructions
#
FORCE:
baudcheck: FORCE
- @$(CC) $(CFLAGS) -E baudcheck.c -o baudcheck.tmp.sh
- @sh baudcheck.tmp.sh
isp: $(TARGET)
$(MAKE) -f Makefile.isp isp TARGET=$(TARGET)
isp-stk500: $(PROGRAM)_$(TARGET).hex
$(STK500-1)
$(STK500-2)
%.elf: $(OBJ) baudcheck $(dummy)
$(CC) $(CFLAGS) $(LDFLAGS) -o $@ $< $(LIBS)
$(SIZE) $@
clean:
rm -rf *.o *.elf *.lst *.map *.sym *.lss *.eep *.srec *.bin *.hex *.tmp.sh
%.lst: %.elf
$(OBJDUMP) -h -S $< > $@
%.hex: %.elf
$(OBJCOPY) -j .text -j .data -j .version --set-section-flags .version=alloc,load -O ihex $< $@
%.srec: %.elf
$(OBJCOPY) -j .text -j .data -j .version --set-section-flags .version=alloc,load -O srec $< $@
%.bin: %.elf
$(OBJCOPY) -j .text -j .data -j .version --set-section-flags .version=alloc,load -O binary $< $@