######################################################################## # # Makefile for compiling Arduino sketches from command line # System part (i.e. project independent) # # Copyright (C) 2012 Sudar , based on # - M J Oldfield work: https://github.com/mjoldfield/Arduino-Makefile # # Copyright (C) 2010,2011,2012 Martin Oldfield , based on # work that is copyright Nicholas Zambetti, David A. Mellis & Hernando # Barragan. # # This file is free software; you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as # published by the Free Software Foundation; either version 2.1 of the # License, or (at your option) any later version. # # Adapted from Arduino 0011 Makefile by M J Oldfield # # Original Arduino adaptation by mellis, eighthave, oli.keller # # Current version: 1.0.1 # # Refer to HISTORY.md file for complete history of changes # ######################################################################## # # PATHS YOU NEED TO SET UP # # We need to worry about three different sorts of file: # # 1. Things which are included in this distribution e.g. ard-reset-arduino # => ARDMK_DIR - Where the *.mk files are stored # => ARDMK_PATH - Where the ard-reset-arduino script is stored # # 2. Things which are always in the Arduino distribution e.g. # boards.txt, libraries, &c. # => ARDUINO_DIR # # 3. Things which might be bundled with the Arduino distribution, but # might come from the system. Most of the toolchain is like this: # on Linux it's supplied by the system. # => AVR_TOOLS_DIR # # Having set these three variables, we can work out the rest assuming # that things are canonically arranged beneath the directories defined # above. # # On the Mac you might want to set: # # ARDUINO_DIR = /Applications/Arduino.app/Contents/Resources/Java # ARDMK_DIR = /usr/local # # On Linux, you might prefer: # # ARDUINO_DIR = /usr/share/arduino # ARDMK_DIR = /usr # AVR_TOOLS_DIR = /usr # # You can either set these up in the Makefile, or put them in your # environment e.g. in your .bashrc # # If you don't specify these, we can try to guess, but that might not work # or work the way you want it to. # # If you don't install the ard-reset-arduino binary to /usr/local/bin, but # instead copy them to e.g. /home/mjo/arduino.mk/bin then set # ARDMK_PATH = /home/mjo/arduino.mk/bin # # If you'd rather not see the configuration output, define ARDUINO_QUIET. # ######################################################################## # # DEPENDENCIES # # The Perl programs need a couple of libraries: # Device::SerialPort # ######################################################################## # # STANDARD ARDUINO WORKFLOW # # Given a normal sketch directory, all you need to do is to create # a small Makefile which defines a few things, and then includes this one. # # For example: # # ARDUINO_LIBS = Ethernet SPI # BOARD_TAG = uno # MONITOR_PORT = /dev/cu.usb* # # include /usr/share/arduino/Arduino.mk # # Hopefully these will be self-explanatory but in case they're not: # # ARDUINO_LIBS - A list of any libraries used by the sketch (we # assume these are in $(ARDUINO_DIR)/hardware/libraries # or your sketchbook's libraries directory) # # MONITOR_PORT - The port where the Arduino can be found (only needed # when uploading) # # BOARD_TAG - The tag for the board e.g. uno or mega # 'make show_boards' shows a list # # If you have your additional libraries relative to your source, rather # than in your "sketchbook", also set USER_LIB_PATH, like this example: # # USER_LIB_PATH := $(realpath ../../libraries) # # If you've added the Arduino-Makefile repository to your git repo as a # submodule (or other similar arrangement), you might have lines like this # in your Makefile: # # ARDMK_DIR := $(realpath ../../tools/Arduino-Makefile) # include $(ARDMK_DIR)/arduino-mk/Arduino.mk # # In any case, once this file has been created the typical workflow is just # # $ make upload # # All of the object files are created in the build-{BOARD_TAG} subdirectory # All sources should be in the current directory and can include: # - at most one .pde or .ino file which will be treated as C++ after # the standard Arduino header and footer have been affixed. # - any number of .c, .cpp, .s and .h files # # Included libraries are built in the build-{BOARD_TAG}/libs subdirectory. # # Besides make upload, there are a couple of other targets that are available. # Do make help to get the complete list of targets and their description # ######################################################################## # # SERIAL MONITOR # # The serial monitor just invokes the GNU screen program with suitable # options. For more information see screen (1) and search for # 'character special device'. # # The really useful thing to know is that ^A-k gets you out! # # The fairly useful thing to know is that you can bind another key to # escape too, by creating $HOME{.screenrc} containing e.g. # # bindkey ^C kill # # If you want to change the baudrate, just set MONITOR_BAUDRATE. If you # don't set it, it tries to read from the sketch. If it couldn't read # from the sketch, then it defaults to 9600 baud. # ######################################################################## # # ARDUINO WITH ISP # # You need to specify some details of your ISP programmer and might # also need to specify the fuse values: # # ISP_PROG = stk500v2 # ISP_PORT = /dev/ttyACM0 # # You might also need to set the fuse bits, but typically they'll be # read from boards.txt, based on the BOARD_TAG variable: # # ISP_LOCK_FUSE_PRE = 0x3f # ISP_LOCK_FUSE_POST = 0xcf # ISP_HIGH_FUSE = 0xdf # ISP_LOW_FUSE = 0xff # ISP_EXT_FUSE = 0x01 # # You can specify to also upload the EEPROM file: # ISP_EEPROM = 1 # # I think the fuses here are fine for uploading to the ATmega168 # without bootloader. # # To actually do this upload use the ispload target: # # make ispload # # ######################################################################## # # ALTERNATIVE CORES # # To use alternative cores for platforms such as ATtiny, you need to # specify a few more variables, depending on the core in use. # # The HLT (attiny-master) core can be used just by specifying # ALTERNATE_CORE, assuming your core is in your ~/sketchbook/hardware # directory. For example: # # ISP_PORT = /dev/ttyACM0 # BOARD_TAG = attiny85 # ALTERNATE_CORE = attiny-master # # To use the more complex arduino-tiny and TinyCore2 cores, you must # also set ARDUINO_CORE_PATH and ARDUINO_VAR_PATH to the core # directory, as these cores essentially replace the main Arduino core. # For example: # # ISP_PORT = /dev/ttyACM0 # BOARD_TAG = attiny85at8 # ALTERNATE_CORE = arduino-tiny # ARDUINO_VAR_PATH = ~/sketchbook/hardware/arduino-tiny/cores/tiny # ARDUINO_CORE_PATH = ~/sketchbook/hardware/arduino-tiny/cores/tiny # # or.... # # ISP_PORT = /dev/ttyACM0 # BOARD_TAG = attiny861at8 # ALTERNATE_CORE = tiny2 # ARDUINO_VAR_PATH = ~/sketchbook/hardware/tiny2/cores/tiny # ARDUINO_CORE_PATH = ~/sketchbook/hardware/tiny2/cores/tiny # ######################################################################## arduino_output = # When output is not suppressed and we're in the top-level makefile, # running for the first time (i.e., not after a restart after # regenerating the dependency file), then output the configuration. ifndef ARDUINO_QUIET ifeq ($(MAKE_RESTARTS),) ifeq ($(MAKELEVEL),0) arduino_output = $(info $(1)) endif endif endif ######################################################################## # Makefile distribution path ifndef ARDMK_DIR # presume it's a level above the path to our own file ARDMK_DIR := $(realpath $(dir $(realpath $(lastword $(MAKEFILE_LIST))))/..) else # show_config_variable macro is defined in Common.mk file and is not available yet. # Let's define a variable to know that user specified ARDMK_DIR ARDMK_DIR_MSG = USER endif ifneq ($(wildcard $(ARDMK_DIR)/arduino-mk/Common.mk),) # git checkout ARDMK_FILE = $(ARDMK_DIR)/arduino-mk/arduino.mk include $(ARDMK_DIR)/arduino-mk/Common.mk else ifneq ($(wildcard $(ARDMK_DIR)/Common.mk),) # package install ARDMK_FILE = $(ARDMK_DIR)/arduino.mk include $(ARDMK_DIR)/Common.mk endif endif # show_config_variable macro is available now. So let's print config details for ARDMK_DIR ifndef ARDMK_DIR_MSG $(call show_config_variable,ARDMK_DIR,[COMPUTED],(relative to $(notdir $(lastword $(MAKEFILE_LIST))))) else $(call show_config_variable,ARDMK_DIR,[USER]) endif ifndef ARDMK_PATH ARDMK_PATH = $(ARDMK_DIR)/bin $(call show_config_variable,ARDMK_PATH,[COMPUTED],(relative to ARDMK_DIR)) else $(call show_config_variable,ARDMK_PATH,[USER]) endif ######################################################################## # Arduino Directory ifndef ARDUINO_DIR AUTO_ARDUINO_DIR := $(firstword \ $(call dir_if_exists,/usr/share/arduino) \ $(call dir_if_exists,/Applications/Arduino.app/Contents/Resources/Java) ) ifdef AUTO_ARDUINO_DIR ARDUINO_DIR = $(AUTO_ARDUINO_DIR) $(call show_config_variable,ARDUINO_DIR,[AUTODETECTED]) else echo $(error "ARDUINO_DIR is not defined") endif else $(call show_config_variable,ARDUINO_DIR,[USER]) endif ######################################################################## # Default TARGET to pwd (ex Daniele Vergini) ifndef TARGET TARGET = $(notdir $(CURDIR)) endif ######################################################################## # Arduino version number ifndef ARDUINO_VERSION # Remove all the decimals, and right-pad with zeros, and finally grab the first 3 bytes. # Works for 1.0 and 1.0.1 VERSION_FILE := $(ARDUINO_DIR)/lib/version.txt AUTO_ARDUINO_VERSION := $(shell [ -e $(VERSION_FILE) ] && cat $(VERSION_FILE) | sed -e 's/^[0-9]://g' -e 's/[.]//g' -e 's/$$/0000/' | head -c3) ifdef AUTO_ARDUINO_VERSION ARDUINO_VERSION = $(AUTO_ARDUINO_VERSION) $(call show_config_variable,ARDUINO_VERSION,[AUTODETECTED]) else ARDUINO_VERSION = 100 $(call show_config_variable,ARDUINO_VERSION,[DEFAULT]) endif else $(call show_config_variable,ARDUINO_VERSION,[USER]) endif ######################################################################## # Arduino Sketchbook folder ifndef ARDUINO_SKETCHBOOK ifndef ARDUINO_PREFERENCES_PATH AUTO_ARDUINO_PREFERENCES := $(firstword \ $(call dir_if_exists,$(HOME)/.arduino/preferences.txt) \ $(call dir_if_exists,$(HOME)/Library/Arduino/preferences.txt) ) ifdef AUTO_ARDUINO_PREFERENCES ARDUINO_PREFERENCES_PATH = $(AUTO_ARDUINO_PREFERENCES) $(call show_config_variable,ARDUINO_PREFERENCES_PATH,[AUTODETECTED]) endif else $(call show_config_variable,ARDUINO_PREFERENCES_PATH,[USER]) endif ifneq ($(ARDUINO_PREFERENCES_PATH),) ARDUINO_SKETCHBOOK = $(shell grep --max-count=1 --regexp="sketchbook.path=" \ $(ARDUINO_PREFERENCES_PATH) | \ sed -e 's/sketchbook.path=//' ) endif ifneq ($(ARDUINO_SKETCHBOOK),) $(call show_config_variable,ARDUINO_SKETCHBOOK,[AUTODETECTED],(from arduino preferences file)) else ARDUINO_SKETCHBOOK := $(firstword \ $(call dir_if_exists,$(HOME)/sketchbook) \ $(call dir_if_exists,$(HOME)/Documents/Arduino/) ) $(call show_config_variable,ARDUINO_SKETCHBOOK,[DEFAULT]) endif else $(call show_config_variable,ARDUINO_SKETCHBOOK) endif ######################################################################## # Arduino and system paths ifndef CC_NAME CC_NAME = avr-gcc endif ifndef CXX_NAME CXX_NAME = avr-g++ endif ifndef OBJCOPY_NAME OBJCOPY_NAME = avr-objcopy endif ifndef OBJDUMP_NAME OBJDUMP_NAME = avr-objdump endif ifndef AR_NAME AR_NAME = avr-ar endif ifndef SIZE_NAME SIZE_NAME = avr-size endif ifndef NM_NAME NM_NAME = avr-nm endif ifndef AVR_TOOLS_DIR BUNDLED_AVR_TOOLS_DIR := $(call dir_if_exists,$(ARDUINO_DIR)/hardware/tools/avr) ifdef BUNDLED_AVR_TOOLS_DIR AVR_TOOLS_DIR = $(BUNDLED_AVR_TOOLS_DIR) $(call show_config_variable,AVR_TOOLS_DIR,[BUNDLED],(in Arduino distribution)) # In Linux distribution of Arduino, the path to avrdude and avrdude.conf are different # More details at https://github.com/sudar/Arduino-Makefile/issues/48 and # https://groups.google.com/a/arduino.cc/d/msg/developers/D_m97jGr8Xs/uQTt28KO_8oJ ifeq ($(CURRENT_OS),LINUX) ifndef AVRDUDE AVRDUDE = $(AVR_TOOLS_DIR)/../avrdude endif ifndef AVRDUDE_CONF AVRDUDE_CONF = $(AVR_TOOLS_DIR)/../avrdude.conf endif else ifndef AVRDUDE_CONF AVRDUDE_CONF = $(AVR_TOOLS_DIR)/etc/avrdude.conf endif endif else SYSTEMPATH_AVR_TOOLS_DIR := $(call dir_if_exists,$(abspath $(dir $(shell which $(CC_NAME)))/..)) ifdef SYSTEMPATH_AVR_TOOLS_DIR AVR_TOOLS_DIR = $(SYSTEMPATH_AVR_TOOLS_DIR) $(call show_config_variable,AVR_TOOLS_DIR,[AUTODETECTED],(found in $$PATH)) else echo $(error No AVR tools directory found) endif # SYSTEMPATH_AVR_TOOLS_DIR endif # BUNDLED_AVR_TOOLS_DIR else $(call show_config_variable,AVR_TOOLS_DIR,[USER]) endif #ndef AVR_TOOLS_DIR ifndef AVR_TOOLS_PATH AVR_TOOLS_PATH = $(AVR_TOOLS_DIR)/bin endif ARDUINO_LIB_PATH = $(ARDUINO_DIR)/libraries $(call show_config_variable,ARDUINO_LIB_PATH,[COMPUTED],(from ARDUINO_DIR)) ifndef ARDUINO_CORE_PATH ARDUINO_CORE_PATH = $(ARDUINO_DIR)/hardware/arduino/cores/arduino $(call show_config_variable,ARDUINO_CORE_PATH,[DEFAULT]) else $(call show_config_variable,ARDUINO_CORE_PATH,[USER]) endif # Third party hardware and core like ATtiny or ATmega 16 ifdef ALTERNATE_CORE $(call show_config_variable,ALTERNATE_CORE,[USER]) ifndef ALTERNATE_CORE_PATH ALTERNATE_CORE_PATH = $(ARDUINO_SKETCHBOOK)/hardware/$(ALTERNATE_CORE) endif endif ifdef ALTERNATE_CORE_PATH ifdef ALTERNATE_CORE $(call show_config_variable,ALTERNATE_CORE_PATH,[COMPUTED], (from ARDUINO_SKETCHBOOK and ALTERNATE_CORE)) else $(call show_config_variable,ALTERNATE_CORE_PATH,[USER]) endif ifndef ARDUINO_VAR_PATH ARDUINO_VAR_PATH = $(ALTERNATE_CORE_PATH)/variants $(call show_config_variable,ARDUINO_VAR_PATH,[COMPUTED],(from ALTERNATE_CORE_PATH)) endif ifndef BOARDS_TXT BOARDS_TXT = $(ALTERNATE_CORE_PATH)/boards.txt $(call show_config_variable,BOARDS_TXT,[COMPUTED],(from ALTERNATE_CORE_PATH)) endif else ifndef ARDUINO_VAR_PATH ARDUINO_VAR_PATH = $(ARDUINO_DIR)/hardware/arduino/variants $(call show_config_variable,ARDUINO_VAR_PATH,[COMPUTED],(from ARDUINO_DIR)) else $(call show_config_variable,ARDUINO_VAR_PATH,[USER]) endif ifndef BOARDS_TXT BOARDS_TXT = $(ARDUINO_DIR)/hardware/arduino/boards.txt $(call show_config_variable,BOARDS_TXT,[COMPUTED],(from ARDUINO_DIR)) else $(call show_config_variable,BOARDS_TXT,[USER]) endif endif ######################################################################## # Miscellaneous ifndef USER_LIB_PATH USER_LIB_PATH = $(ARDUINO_SKETCHBOOK)/libraries $(call show_config_variable,USER_LIB_PATH,[DEFAULT],(in user sketchbook)) else $(call show_config_variable,USER_LIB_PATH,[USER]) endif ######################################################################## # boards.txt parsing ifndef BOARD_TAG BOARD_TAG = uno $(call show_config_variable,BOARD_TAG,[DEFAULT]) else # Strip the board tag of any extra whitespace, since it was causing the makefile to fail # https://github.com/sudar/Arduino-Makefile/issues/57 BOARD_TAG := $(strip $(BOARD_TAG)) $(call show_config_variable,BOARD_TAG,[USER]) endif ifndef PARSE_BOARD # result = $(call READ_BOARD_TXT, 'boardname', 'parameter') PARSE_BOARD = $(shell grep -v "^\#" $(BOARDS_TXT) | grep $(1).$(2) | cut -d = -f 2 ) endif # If NO_CORE is set, then we don't have to parse boards.txt file # But the user might have to define MCU, F_CPU etc ifeq ($(strip $(NO_CORE)),) # Which variant ? This affects the include path ifndef VARIANT VARIANT = $(call PARSE_BOARD,$(BOARD_TAG),build.variant) endif # see if we are a caterina device like leonardo or micro CATERINA = $(findstring caterina,$(call PARSE_BOARD,$(BOARD_TAG),bootloader.path)) # processor stuff ifndef MCU MCU = $(call PARSE_BOARD,$(BOARD_TAG),build.mcu) endif ifndef F_CPU F_CPU = $(call PARSE_BOARD,$(BOARD_TAG),build.f_cpu) endif ifneq ($(CATERINA),) # USB IDs for the caterina devices like leonardo or micro ifndef USB_VID USB_VID = $(call PARSE_BOARD,$(BOARD_TAG),build.vid) endif ifndef USB_PID USB_PID = $(call PARSE_BOARD,$(BOARD_TAG),build.pid) endif endif # normal programming info ifndef AVRDUDE_ARD_PROGRAMMER AVRDUDE_ARD_PROGRAMMER = $(call PARSE_BOARD,$(BOARD_TAG),upload.protocol) endif ifndef AVRDUDE_ARD_BAUDRATE AVRDUDE_ARD_BAUDRATE = $(call PARSE_BOARD,$(BOARD_TAG),upload.speed) endif # fuses if you're using e.g. ISP ifndef ISP_LOCK_FUSE_PRE ISP_LOCK_FUSE_PRE = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.unlock_bits) endif ifndef ISP_HIGH_FUSE ISP_HIGH_FUSE = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.high_fuses) endif ifndef ISP_LOW_FUSE ISP_LOW_FUSE = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.low_fuses) endif ifndef ISP_EXT_FUSE ISP_EXT_FUSE = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.extended_fuses) endif ifndef BOOTLOADER_PATH BOOTLOADER_PATH = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.path) endif ifndef BOOTLOADER_FILE BOOTLOADER_FILE = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.file) endif ifndef ISP_LOCK_FUSE_POST ISP_LOCK_FUSE_POST = $(call PARSE_BOARD,$(BOARD_TAG),bootloader.lock_bits) endif ifndef HEX_MAXIMUM_SIZE HEX_MAXIMUM_SIZE = $(call PARSE_BOARD,$(BOARD_TAG),upload.maximum_size) endif endif # Everything gets built in here (include BOARD_TAG now) ifndef OBJDIR OBJDIR = build-$(BOARD_TAG) $(call show_config_variable,OBJDIR,[COMPUTED],(from BOARD_TAG)) else $(call show_config_variable,OBJDIR,[USER]) endif ######################################################################## # Reset ifndef RESET_CMD ifneq ($(CATERINA),) RESET_CMD = $(ARDMK_PATH)/ard-reset-arduino --caterina \ $(ARD_RESET_OPTS) $(call get_monitor_port) else RESET_CMD = $(ARDMK_PATH)/ard-reset-arduino \ $(ARD_RESET_OPTS) $(call get_monitor_port) endif endif ifneq ($(CATERINA),) ERROR_ON_CATERINA = $(error On $(BOARD_TAG), raw_xxx operation is not supported) else ERROR_ON_CATERINA = endif ######################################################################## # Local sources LOCAL_C_SRCS ?= $(wildcard *.c) LOCAL_CPP_SRCS ?= $(wildcard *.cpp) LOCAL_CC_SRCS ?= $(wildcard *.cc) LOCAL_PDE_SRCS ?= $(wildcard *.pde) LOCAL_INO_SRCS ?= $(wildcard *.ino) LOCAL_AS_SRCS ?= $(wildcard *.S) LOCAL_SRCS = $(LOCAL_C_SRCS) $(LOCAL_CPP_SRCS) \ $(LOCAL_CC_SRCS) $(LOCAL_PDE_SRCS) \ $(LOCAL_INO_SRCS) $(LOCAL_AS_SRCS) LOCAL_OBJ_FILES = $(LOCAL_C_SRCS:.c=.o) $(LOCAL_CPP_SRCS:.cpp=.o) \ $(LOCAL_CC_SRCS:.cc=.o) $(LOCAL_PDE_SRCS:.pde=.o) \ $(LOCAL_INO_SRCS:.ino=.o) $(LOCAL_AS_SRCS:.S=.o) LOCAL_OBJS = $(patsubst %,$(OBJDIR)/%,$(LOCAL_OBJ_FILES)) ifeq ($(words $(LOCAL_SRCS)), 0) $(error Atleast one source file (*.ino, *.pde, *.cpp, *c, *cc, *.S) is needed) endif ifeq ($(strip $(NO_CORE)),) # Ideally, this should just check if there are more than one file ifneq ($(words $(LOCAL_PDE_SRCS) $(LOCAL_INO_SRCS)), 1) ifeq ($(words $(LOCAL_PDE_SRCS) $(LOCAL_INO_SRCS)), 0) $(call show_config_info,No .pde or .ino files found. If you are compiling .c or .cpp files then you need to explicitly include Arduino header files) else #TODO: Support more than one file. https://github.com/sudar/Arduino-Makefile/issues/49 $(error Need exactly one .pde or .ino file. This makefile doesn't support multiple .ino/.pde files yet) endif endif endif # core sources ifeq ($(strip $(NO_CORE)),) ifdef ARDUINO_CORE_PATH CORE_C_SRCS = $(wildcard $(ARDUINO_CORE_PATH)/*.c) CORE_CPP_SRCS = $(wildcard $(ARDUINO_CORE_PATH)/*.cpp) ifneq ($(strip $(NO_CORE_MAIN_CPP)),) CORE_CPP_SRCS := $(filter-out %main.cpp, $(CORE_CPP_SRCS)) $(call show_config_info,NO_CORE_MAIN_CPP set so core library will not include main.cpp,[MANUAL]) endif CORE_OBJ_FILES = $(CORE_C_SRCS:.c=.o) $(CORE_CPP_SRCS:.cpp=.o) CORE_OBJS = $(patsubst $(ARDUINO_CORE_PATH)/%, \ $(OBJDIR)/%,$(CORE_OBJ_FILES)) endif else $(call show_config_info,NO_CORE set so core library will not be built,[MANUAL]) endif ######################################################################## # Determine ARDUINO_LIBS automatically ifndef ARDUINO_LIBS # automatically determine included libraries ARDUINO_LIBS += $(filter $(notdir $(wildcard $(ARDUINO_DIR)/libraries/*)), \ $(shell sed -ne "s/^ *\# *include *[<\"]\(.*\)\.h[>\"]/\1/p" $(LOCAL_SRCS))) ARDUINO_LIBS += $(filter $(notdir $(wildcard $(ARDUINO_SKETCHBOOK)/libraries/*)), \ $(shell sed -ne "s/^ *\# *include *[<\"]\(.*\)\.h[>\"]/\1/p" $(LOCAL_SRCS))) endif ######################################################################## # Serial monitor (just a screen wrapper) # Quite how to construct the monitor command seems intimately tied # to the command we're using (here screen). So, read the screen docs # for more information (search for 'character special device'). ifeq ($(strip $(NO_CORE)),) ifndef MONITOR_BAUDRATE ifeq ($(words $(LOCAL_PDE_SRCS) $(LOCAL_INO_SRCS)), 1) SPEED = $(shell egrep -h 'Serial.begin\([0-9]+\)' $(LOCAL_PDE_SRCS) $(LOCAL_INO_SRCS) | sed -e 's/[^0-9]//g'| head -n1) MONITOR_BAUDRATE = $(findstring $(SPEED),300 1200 2400 4800 9600 14400 19200 28800 38400 57600 115200) endif ifeq ($(MONITOR_BAUDRATE),) MONITOR_BAUDRATE = 9600 $(call show_config_variable,MONITOR_BAUDRATE,[ASSUMED]) else $(call show_config_variable,MONITOR_BAUDRATE,[DETECTED], (in sketch)) endif else $(call show_config_variable,MONITOR_BAUDRATE, [USER]) endif ifndef MONITOR_CMD MONITOR_CMD = screen endif endif ######################################################################## # Include file to use for old .pde files ifndef ARDUINO_HEADER # We should check for Arduino version, if the file is .pde because a # .pde file might be used in Arduino 1.0 ifeq ($(shell expr $(ARDUINO_VERSION) '<' 100), 1) ARDUINO_HEADER=WProgram.h else ARDUINO_HEADER=Arduino.h endif endif ######################################################################## # Rules for making stuff # The name of the main targets TARGET_HEX = $(OBJDIR)/$(TARGET).hex TARGET_ELF = $(OBJDIR)/$(TARGET).elf TARGET_EEP = $(OBJDIR)/$(TARGET).eep TARGETS = $(OBJDIR)/$(TARGET).* CORE_LIB = $(OBJDIR)/libcore.a # Names of executables CC = $(AVR_TOOLS_PATH)/$(CC_NAME) CXX = $(AVR_TOOLS_PATH)/$(CXX_NAME) AS = $(AVR_TOOLS_PATH)/$(AS_NAME) OBJCOPY = $(AVR_TOOLS_PATH)/$(OBJCOPY_NAME) OBJDUMP = $(AVR_TOOLS_PATH)/$(OBJDUMP_NAME) AR = $(AVR_TOOLS_PATH)/$(AR_NAME) SIZE = $(AVR_TOOLS_PATH)/$(SIZE_NAME) NM = $(AVR_TOOLS_PATH)/$(NM_NAME) REMOVE = rm -rf MV = mv -f CAT = cat ECHO = echo MKDIR = mkdir -p # General arguments USER_LIBS = $(wildcard $(patsubst %,$(USER_LIB_PATH)/%,$(ARDUINO_LIBS))) USER_LIB_NAMES = $(patsubst $(USER_LIB_PATH)/%,%,$(USER_LIBS)) # Let user libraries override system ones. SYS_LIBS = $(wildcard $(patsubst %,$(ARDUINO_LIB_PATH)/%,$(filter-out $(USER_LIB_NAMES),$(ARDUINO_LIBS)))) SYS_LIB_NAMES = $(patsubst $(ARDUINO_LIB_PATH)/%,%,$(SYS_LIBS)) # Error here if any are missing. LIBS_NOT_FOUND = $(filter-out $(USER_LIB_NAMES) $(SYS_LIB_NAMES),$(ARDUINO_LIBS)) ifneq (,$(strip $(LIBS_NOT_FOUND))) $(error The following libraries specified in ARDUINO_LIBS could not be found (searched USER_LIB_PATH and ARDUINO_LIB_PATH): $(LIBS_NOT_FOUND)) endif SYS_LIBS := $(wildcard $(SYS_LIBS) $(addsuffix /utility,$(SYS_LIBS))) USER_LIBS := $(wildcard $(USER_LIBS) $(addsuffix /utility,$(USER_LIBS))) SYS_INCLUDES = $(patsubst %,-I%,$(SYS_LIBS)) USER_INCLUDES = $(patsubst %,-I%,$(USER_LIBS)) LIB_C_SRCS = $(wildcard $(patsubst %,%/*.c,$(SYS_LIBS))) LIB_CPP_SRCS = $(wildcard $(patsubst %,%/*.cpp,$(SYS_LIBS))) USER_LIB_CPP_SRCS = $(wildcard $(patsubst %,%/*.cpp,$(USER_LIBS))) USER_LIB_C_SRCS = $(wildcard $(patsubst %,%/*.c,$(USER_LIBS))) LIB_OBJS = $(patsubst $(ARDUINO_LIB_PATH)/%.c,$(OBJDIR)/libs/%.o,$(LIB_C_SRCS)) \ $(patsubst $(ARDUINO_LIB_PATH)/%.cpp,$(OBJDIR)/libs/%.o,$(LIB_CPP_SRCS)) USER_LIB_OBJS = $(patsubst $(USER_LIB_PATH)/%.cpp,$(OBJDIR)/libs/%.o,$(USER_LIB_CPP_SRCS)) \ $(patsubst $(USER_LIB_PATH)/%.c,$(OBJDIR)/libs/%.o,$(USER_LIB_C_SRCS)) # Dependency files DEPS = $(LOCAL_OBJS:.o=.d) $(LIB_OBJS:.o=.d) $(USER_LIB_OBJS:.o=.d) $(CORE_OBJS:.o=.d) # Optimization level for the compiler. # You can get the list of options at http://www.nongnu.org/avr-libc/user-manual/using_tools.html#gcc_optO # Also read http://www.nongnu.org/avr-libc/user-manual/FAQ.html#faq_optflags ifndef OPTIMIZATION_LEVEL OPTIMIZATION_LEVEL=s $(call show_config_variable,OPTIMIZATION_LEVEL,[DEFAULT]) else $(call show_config_variable,OPTIMIZATION_LEVEL,[USER]) endif ifndef MCU_FLAG_NAME MCU_FLAG_NAME = mmcu $(call show_config_variable,MCU_FLAG_NAME,[DEFAULT]) else $(call show_config_variable,MCU_FLAG_NAME,[USER]) endif # Using += instead of =, so that CPPFLAGS can be set per sketch level CPPFLAGS += -$(MCU_FLAG_NAME)=$(MCU) -DF_CPU=$(F_CPU) -DARDUINO=$(ARDUINO_VERSION) \ -I. -I$(ARDUINO_CORE_PATH) -I$(ARDUINO_VAR_PATH)/$(VARIANT) \ $(SYS_INCLUDES) $(USER_INCLUDES) -Wall -ffunction-sections \ -fdata-sections ifdef DEBUG CPPFLAGS += -O0 -g else CPPFLAGS += -O$(OPTIMIZATION_LEVEL) endif # USB IDs for the Caterina devices like leonardo or micro ifneq ($(CATERINA),) CPPFLAGS += -DUSB_VID=$(USB_VID) -DUSB_PID=$(USB_PID) endif ifndef CFLAGS_STD CFLAGS_STD = -std=gnu99 $(call show_config_variable,CFLAGS_STD,[DEFAULT]) else $(call show_config_variable,CFLAGS_STD,[USER]) endif CFLAGS += $(EXTRA_FLAGS) $(EXTRA_CFLAGS) CXXFLAGS += -fno-exceptions $(EXTRA_FLAGS) $(EXTRA_CXXFLAGS) ASFLAGS += -$(MCU_FLAG_NAME)=$(MCU) -I. -x assembler-with-cpp LDFLAGS += -$(MCU_FLAG_NAME)=$(MCU) -Wl,--gc-sections -O$(OPTIMIZATION_LEVEL) $(EXTRA_FLAGS) $(EXTRA_CXXFLAGS) $(EXTRA_LDFLAGS) SIZEFLAGS ?= --mcu=$(MCU) -C # for backwards compatibility, grab ARDUINO_PORT if the user has it set MONITOR_PORT ?= $(ARDUINO_PORT) # Returns the Arduino port (first wildcard expansion) if it exists, otherwise it errors. get_monitor_port = $(if $(wildcard $(MONITOR_PORT)),$(firstword $(wildcard $(MONITOR_PORT))),$(error Arduino port $(MONITOR_PORT) not found!)) # Returns the ISP port (first wildcard expansion) if it exists, otherwise it errors. get_isp_port = $(if $(wildcard $(ISP_PORT)),$(firstword $(wildcard $(ISP_PORT))),$(error ISP port $(ISP_PORT) not found!)) # Command for avr_size: do $(call avr_size,elffile,hexfile) ifneq (,$(findstring AVR,$(shell $(SIZE) --help))) # We have a patched version of binutils that mentions AVR - pass the MCU # and the elf to get nice output. avr_size = $(SIZE) $(SIZEFLAGS) --format=avr $(1) $(call show_config_info,Size utility: AVR-aware for enhanced output,[AUTODETECTED]) else # We have a plain-old binutils version - just give it the hex. avr_size = $(SIZE) $(2) $(call show_config_info,Size utility: Basic (not AVR-aware),[AUTODETECTED]) endif ifneq (,$(strip $(ARDUINO_LIBS))) $(call arduino_output,-) $(call show_config_info,ARDUINO_LIBS =) endif ifneq (,$(strip $(USER_LIB_NAMES))) $(foreach lib,$(USER_LIB_NAMES),$(call show_config_info, $(lib),[USER])) endif ifneq (,$(strip $(SYS_LIB_NAMES))) $(foreach lib,$(SYS_LIB_NAMES),$(call show_config_info, $(lib),[SYSTEM])) endif # end of config output $(call show_separator) # Implicit rules for building everything (needed to get everything in # the right directory) # # Rather than mess around with VPATH there are quasi-duplicate rules # here for building e.g. a system C++ file and a local C++ # file. Besides making things simpler now, this would also make it # easy to change the build options in future # library sources $(OBJDIR)/libs/%.o: $(ARDUINO_LIB_PATH)/%.c @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CFLAGS) $< -o $@ $(OBJDIR)/libs/%.o: $(ARDUINO_LIB_PATH)/%.cpp @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ $(OBJDIR)/libs/%.o: $(USER_LIB_PATH)/%.cpp @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CFLAGS) $< -o $@ $(OBJDIR)/libs/%.o: $(USER_LIB_PATH)/%.c @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CFLAGS) $< -o $@ ifdef COMMON_DEPS COMMON_DEPS := $(COMMON_DEPS) Makefile else COMMON_DEPS := Makefile endif # normal local sources $(OBJDIR)/%.o: %.c $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CFLAGS) $< -o $@ $(OBJDIR)/%.o: %.cc $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ $(OBJDIR)/%.o: %.cpp $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ $(OBJDIR)/%.o: %.S $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(ASFLAGS) $< -o $@ $(OBJDIR)/%.o: %.s $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CC) -c $(CPPFLAGS) $(ASFLAGS) $< -o $@ # the pde -> o file $(OBJDIR)/%.o: %.pde $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -x c++ -include $(ARDUINO_HEADER) -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ # the ino -> o file $(OBJDIR)/%.o: %.ino $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -x c++ -include Arduino.h -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ # generated assembly $(OBJDIR)/%.s: %.pde $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -x c++ -include $(ARDUINO_HEADER) -MMD -S -fverbose-asm $(CPPFLAGS) $(CXXFLAGS) $< -o $@ $(OBJDIR)/%.s: %.ino $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -x c++ -include Arduino.h -MMD -S -fverbose-asm $(CPPFLAGS) $(CXXFLAGS) $< -o $@ #$(OBJDIR)/%.lst: $(OBJDIR)/%.s # $(AS) -$(MCU_FLAG_NAME)=$(MCU) -alhnd $< > $@ # core files $(OBJDIR)/%.o: $(ARDUINO_CORE_PATH)/%.c $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CC) -MMD -c $(CPPFLAGS) $(CFLAGS) $< -o $@ $(OBJDIR)/%.o: $(ARDUINO_CORE_PATH)/%.cpp $(COMMON_DEPS) | $(OBJDIR) @$(MKDIR) $(dir $@) $(CXX) -MMD -c $(CPPFLAGS) $(CXXFLAGS) $< -o $@ # various object conversions $(OBJDIR)/%.hex: $(OBJDIR)/%.elf $(COMMON_DEPS) @$(MKDIR) $(dir $@) $(OBJCOPY) -O ihex -R .eeprom $< $@ @$(ECHO) $(call avr_size,$<,$@) ifneq ($(strip $(HEX_MAXIMUM_SIZE)),) @if [ `$(SIZE) $@ | awk 'FNR == 2 {print $$2}'` -le $(HEX_MAXIMUM_SIZE) ]; then touch $@.sizeok; fi else @$(ECHO) Maximum flash memory of $(BOARD_TAG) is not specified. Make sure the size of $@ is less than $(BOARD_TAG)\'s flash memory @touch $@.sizeok endif $(OBJDIR)/%.eep: $(OBJDIR)/%.elf $(COMMON_DEPS) @$(MKDIR) $(dir $@) -$(OBJCOPY) -j .eeprom --set-section-flags=.eeprom="alloc,load" \ --change-section-lma .eeprom=0 -O ihex $< $@ $(OBJDIR)/%.lss: $(OBJDIR)/%.elf $(COMMON_DEPS) @$(MKDIR) $(dir $@) $(OBJDUMP) -h --source --demangle --wide $< > $@ $(OBJDIR)/%.sym: $(OBJDIR)/%.elf $(COMMON_DEPS) @$(MKDIR) $(dir $@) $(NM) --size-sort --demangle --reverse-sort --line-numbers $< > $@ ######################################################################## # Avrdude # If avrdude is installed separately, it can find its own config file ifndef AVRDUDE AVRDUDE = $(AVR_TOOLS_PATH)/avrdude endif # Default avrdude options # -V Do not verify # -q - suppress progress output # -D - Disable auto erase for flash memory # (-D is needed for Mega boards. See https://github.com/sudar/Arduino-Makefile/issues/114#issuecomment-25011005) ifndef AVRDUDE_OPTS AVRDUDE_OPTS = -q -V -D endif AVRDUDE_COM_OPTS = $(AVRDUDE_OPTS) -p $(MCU) ifdef AVRDUDE_CONF AVRDUDE_COM_OPTS += -C $(AVRDUDE_CONF) endif AVRDUDE_ARD_OPTS = -c $(AVRDUDE_ARD_PROGRAMMER) -b $(AVRDUDE_ARD_BAUDRATE) -P $(call get_monitor_port) ifndef ISP_PROG ifneq ($(strip $(AVRDUDE_ARD_PROGRAMMER)),) ISP_PROG = $(AVRDUDE_ARD_PROGRAMMER) else ISP_PROG = stk500v1 endif endif ifndef AVRDUDE_ISP_BAUDRATE ifneq ($(strip $(AVRDUDE_ARD_BAUDRATE)),) AVRDUDE_ISP_BAUDRATE = $(AVRDUDE_ARD_BAUDRATE) else AVRDUDE_ISP_BAUDRATE = 19200 endif endif # Fuse settings copied from Arduino IDE. # https://github.com/arduino/Arduino/blob/master/app/src/processing/app/debug/AvrdudeUploader.java#L254 # Pre fuse settings ifndef AVRDUDE_ISP_FUSES_PRE ifneq ($(strip $(ISP_LOCK_FUSE_PRE)),) AVRDUDE_ISP_FUSES_PRE += -U lock:w:$(ISP_LOCK_FUSE_PRE):m endif ifneq ($(strip $(ISP_EXT_FUSE)),) AVRDUDE_ISP_FUSES_PRE += -U efuse:w:$(ISP_EXT_FUSE):m endif ifneq ($(strip $(ISP_HIGH_FUSE)),) AVRDUDE_ISP_FUSES_PRE += -U hfuse:w:$(ISP_HIGH_FUSE):m endif ifneq ($(strip $(ISP_LOW_FUSE)),) AVRDUDE_ISP_FUSES_PRE += -U lfuse:w:$(ISP_LOW_FUSE):m endif endif # Bootloader file settings # TODO: Handle relative bootloader file path as well ifndef AVRDUDE_ISP_BURN_BOOTLOADER ifneq ($(strip $(BOOTLOADER_PATH)),) ifneq ($(strip $(BOOTLOADER_FILE)),) AVRDUDE_ISP_BURN_BOOTLOADER += -U flash:w:$(BOOTLOADER_PATH)/$(BOOTLOADER_FILE):i endif endif endif # Post fuse settings ifndef AVRDUDE_ISP_FUSES_POST ifneq ($(strip $(ISP_LOCK_FUSE_POST)),) AVRDUDE_ISP_FUSES_POST += -U lock:w:$(ISP_LOCK_FUSE_POST):m endif endif AVRDUDE_ISP_OPTS = -c $(ISP_PROG) -b $(AVRDUDE_ISP_BAUDRATE) ifneq ($(strip $(ISP_PROG)),usbasp) AVRDUDE_ISP_OPTS += -P $(call get_isp_port) endif ifndef ISP_EEPROM ISP_EEPROM = 0 endif AVRDUDE_UPLOAD_HEX = -U flash:w:$(TARGET_HEX):i AVRDUDE_UPLOAD_EEP = -U eeprom:w:$(TARGET_EEP):i AVRDUDE_ISPLOAD_OPTS = $(AVRDUDE_UPLOAD_HEX) ifneq ($(ISP_EEPROM), 0) AVRDUDE_ISPLOAD_OPTS += $(AVRDUDE_UPLOAD_EEP) endif ######################################################################## # Explicit targets start here all: $(TARGET_EEP) $(TARGET_HEX) # Rule to create $(OBJDIR) automatically. All rules with recipes that # create a file within it, but do not already depend on a file within it # should depend on this rule. They should use a "order-only # prerequisite" (e.g., put "| $(OBJDIR)" at the end of the prerequisite # list) to prevent remaking the target when any file in the directory # changes. $(OBJDIR): $(MKDIR) $(OBJDIR) $(TARGET_ELF): $(LOCAL_OBJS) $(CORE_LIB) $(OTHER_OBJS) $(CC) $(LDFLAGS) -o $@ $(LOCAL_OBJS) $(CORE_LIB) $(OTHER_OBJS) -lc -lm $(CORE_LIB): $(CORE_OBJS) $(LIB_OBJS) $(USER_LIB_OBJS) $(AR) rcs $@ $(CORE_OBJS) $(LIB_OBJS) $(USER_LIB_OBJS) error_on_caterina: $(ERROR_ON_CATERINA) # Use submake so we can guarantee the reset happens # before the upload, even with make -j upload: $(TARGET_HEX) verify_size $(MAKE) reset $(MAKE) do_upload raw_upload: $(TARGET_HEX) verify_size $(MAKE) error_on_caterina $(MAKE) do_upload do_upload: $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ARD_OPTS) \ $(AVRDUDE_UPLOAD_HEX) do_eeprom: $(TARGET_EEP) $(TARGET_HEX) $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ARD_OPTS) \ $(AVRDUDE_UPLOAD_EEP) eeprom: $(TARGET_HEX) verify_size $(MAKE) reset $(MAKE) do_eeprom raw_eeprom: $(TARGET_HEX) verify_size $(MAKE) error_on_caterina $(MAKE) do_eeprom reset: $(call arduino_output,Resetting Arduino...) $(RESET_CMD) # stty on MacOS likes -F, but on Debian it likes -f redirecting # stdin/out appears to work but generates a spurious error on MacOS at # least. Perhaps it would be better to just do it in perl ? reset_stty: for STTYF in 'stty -F' 'stty --file' 'stty -f' 'stty <' ; \ do $$STTYF /dev/tty >/dev/null 2>&1 && break ; \ done ; \ $$STTYF $(call get_monitor_port) hupcl ; \ (sleep 0.1 2>/dev/null || sleep 1) ; \ $$STTYF $(call get_monitor_port) -hupcl ispload: $(TARGET_EEP) $(TARGET_HEX) verify_size $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ISP_OPTS) \ $(AVRDUDE_ISPLOAD_OPTS) burn_bootloader: ifneq ($(strip $(AVRDUDE_ISP_FUSES_PRE)),) $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ISP_OPTS) -e $(AVRDUDE_ISP_FUSES_PRE) endif ifneq ($(strip $(AVRDUDE_ISP_BURN_BOOTLOADER)),) $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ISP_OPTS) $(AVRDUDE_ISP_BURN_BOOTLOADER) endif ifneq ($(strip $(AVRDUDE_ISP_FUSES_POST)),) $(AVRDUDE) $(AVRDUDE_COM_OPTS) $(AVRDUDE_ISP_OPTS) $(AVRDUDE_ISP_FUSES_POST) endif clean: $(REMOVE) $(LOCAL_OBJS) $(CORE_OBJS) $(LIB_OBJS) $(CORE_LIB) $(TARGETS) $(DEPS) $(USER_LIB_OBJS) ${OBJDIR} size: $(TARGET_HEX) $(call avr_size,$(TARGET_ELF),$(TARGET_HEX)) show_boards: @cat $(BOARDS_TXT) | grep -E "^[[:alnum:]]" | cut -d . -f 1 | uniq monitor: $(MONITOR_CMD) $(call get_monitor_port) $(MONITOR_BAUDRATE) disasm: $(OBJDIR)/$(TARGET).lss @$(ECHO) The compiled ELF file has been disassembled to $(OBJDIR)/$(TARGET).lss symbol_sizes: $(OBJDIR)/$(TARGET).sym @$(ECHO) A symbol listing sorted by their size have been dumped to $(OBJDIR)/$(TARGET).sym verify_size: ifeq ($(strip $(HEX_MAXIMUM_SIZE)),) @$(ECHO) @$(ECHO) Maximum flash memory of $(BOARD_TAG) is not specified. Make sure the size of $(TARGET_HEX) is less than $(BOARD_TAG)\'s flash memory @$(ECHO) endif @if [ ! -f $(TARGET_HEX).sizeok ]; then echo >&2 "\nThe size of the compiled binary file is greater than the $(BOARD_TAG)'s flash memory. \ See http://www.arduino.cc/en/Guide/Troubleshooting#size for tips on reducing it."; false; fi generate_assembly: $(OBJDIR)/$(TARGET).s @$(ECHO) Compiler-generated assembly for the main input source has been dumped to $(OBJDIR)/$(TARGET).s generated_assembly: generate_assembly @$(ECHO) "generated_assembly" target is deprecated. Use "generate_assembly" target instead help: @$(ECHO) "\nAvailable targets:\n\ make - no upload\n\ make upload - upload\n\ make clean - remove all our dependencies\n\ make depends - update dependencies\n\ make reset - reset the Arduino by tickling DTR on the serial port\n\ make raw_upload - upload without first resetting\n\ make show_boards - list all the boards defined in boards.txt\n\ make monitor - connect to the Arduino's serial port\n\ make size - show the size of the compiled output (relative to\n\ resources, if you have a patched avr-size)\n\ make disasm - generate a .lss file in build-cli that contains\n\ disassembly of the compiled file interspersed\n\ with your original source code.\n\ make verify_size - Verify that the size of the final file is less than\n\ the capacity of the micro controller.\n\ make eeprom - upload the eep file\n\ make raw_eeprom - upload the eep file without first resetting\n\ make burn_bootloader - Burn bootloader and/or fuses\n\ make help - show this help\n\ " @$(ECHO) "Please refer to $(ARDMK_FILE) for more details." .PHONY: all upload raw_upload raw_eeprom error_on_caterina reset reset_stty ispload \ clean depends size show_boards monitor disasm symbol_sizes generated_assembly \ generate_assembly verify_size burn_bootloader help # added - in the beginning, so that we don't get an error if the file is not present -include $(DEPS)