modm API documentation
Makefile Build Script Generator

lbuild module: modm:build:make

Make is a simple dependency tracking build system. It's very lightweight and available pretty much everywhere.

This module generates a set of self contained Makefiles for building modm applications:

We do not intend to serve every possible use-case with this module. If you need something special, write your own Makefile, maybe starting by modifying ours.** It is intentionally BSD-licensed so that you do not have to publish your changes to it.

Remember to set modm:build:make:include_makefile to False, so that your custom Makefile does not get overwritten by lbuild build.

Makefile Targets

This module generates these .PHONY targets.

make

Defaults to make build size.

You can add these arguments to any of the Make commands:

For a description of the release and debug profiles, see the modm:build module documentation.

Note
Debug Profile When working with the debug profile, make sure to add profile=debug to all commands, especially make program profile=debug and make debug profile=debug!

make build

make build profile={debug|release}

Compiles your application into an executable.

Example for an embedded target:

$ make build
Compiling C++·· {debug|release}/main.o
Compiling C···· {debug|release}/modm/ext/gcc/cabi.o
...
Compiling C++·· {debug|release}/modm/src/modm/utils/dummy.o
Archiving······ {debug|release}/modm/libmodm.a
Indexing······· {debug|release}/modm/libmodm.a
Linking········ /build/{debug|release}/blink.elf

make clean

make clean profile={debug|release}

Cleans the build artifacts.

$ make clean
Removing······· {debug|release}

make run

Compiles and executes your program on your computer. (* only Hosted targets)

make size

make size profile={debug|release}

Displays the static Flash and RAM consumption of your target.

Example for a STM32 target with 16MB external heap:

$ make size
Memory usage··· /build/{debug|release}/blink.elf
Program: 12.8 KiB (0.6% used)
(.data + .fastcode + .fastdata + .hardware_init + .reset + .rodata +
.table.copy.extern + .table.copy.intern + .table.section_heap +
.table.zero.intern + .text)
Data: 5.8 KiB (1.5% used) = 2936 B static (0.7%) + 3040 B stack (0.8%)
(.bss + .data + .fastdata + .stack)
Heap: 16.4 MiB
(.heap0 + .heap1 + .heap2 + .heap3 + .heap5 + .heap_extern)

make program

make program profile={debug|release} port={serial-port}

Writes the executable onto your target via Avrdude or OpenOCD. This is a convenience wrapper around the programming options and methods defined in the modm:build module. (* only AVR and ARM Cortex-M targets)

Example for a STM32 target:

$ make program
Open On-Chip Debugger 0.10.0
...
Info : using stlink api v2
Info : Target voltage: 3.259396
Info : stm32f4x.cpu: hardware has 6 breakpoints, 4 watchpoints
...
Programming Started **
auto erase enabled
Info : device id = 0x10006434
Info : flash size = 2048kbytes
Info : Dual Bank 2048 kiB STM32F42x/43x/469/479 found
...
wrote 16384 bytes from file {debug|release}/blink.elf in 0.589736s (27.131 KiB/s)
Programming Finished **
Verify Started **
verified 13064 bytes in 0.296308s (43.056 KiB/s)
Verified OK **
shutdown command invoked

make program-fuses

make program-fuses profile={debug|release}

Writes all fuses onto your target connected to avrdude. See the modm:platform:core module for how to define the fuse values. (* only AVR targets)

make program-dfu

make program-dfu profile={debug|release} [delay={seconds}]

Writes the executable onto your target via Device Firmware Update (DFU) over USB. A DFU bootloader is available on many STM32 microcontrollers and can be accessed by pressing the BOOT0-Button during startup.

Some DFU devices require additional delay to re-enumerate, which you can specify with the delay parameter (default is 5 seconds). (* only ARM Cortex-M targets)

$ make program-dfu
Binary File···· /build/{debug|release}/blink.bin
dfu_stm32_programmer: program /build/{debug|release}/blink.bin
dfu-util 0.9
Opening DFU capable USB device...
ID 0483:df11
Run-time device DFU version 011a
Claiming USB DFU Interface...
Determining device status: state = dfuIDLE, status = 0
dfuIDLE, continuing
DFU mode device DFU version 011a
Device returned transfer size 2048
DfuSe interface name: "Internal Flash "
Memory segment at 0x08000000 4 x 16384 = 65536 (rew)
Memory segment at 0x08010000 1 x 65536 = 65536 (rew)
Memory segment at 0x08020000 1 x 131072 = 131072 (rew)
Downloading to address = 0x08000000, size = 2060
Download [ ] 0% 0 bytes Poll timeout 100 ms
Poll timeout 0 ms
Download from image offset 00000000 to memory 08000000-080007ff, size 2048
Poll timeout 104 ms
Poll timeout 0 ms
Download from image offset 00000800 to memory 08000800-0800080b, size 12
Poll timeout 104 ms
Poll timeout 0 ms
File downloaded successfully
Poll timeout 104 ms
Poll timeout 0 ms
Transitioning to dfuMANIFEST state

make program-bmp

make program-bmp profile={debug|release} port={serial-port}

Black Magic Probe is convenient tool to convert cheap USB ST-LINK V2 clones to a fully functional GDB compatible debug adaptor for ARM Cortex microcontrollers. GDB can directly communicate with the debug adaptor making debugging easy and accessible. (* only ARM Cortex-M targets)

Black Magic Probe creates two serial devices, the first being the GDB interface and the second a plain serial adaptor for debugging purposes.

$ ls -l /dev/tty.usb*
crw-rw-rw- 1 root wheel 21, 104 Feb 19 09:46 /dev/tty.usbmodemDEADBEEF
crw-rw-rw- 1 root wheel 21, 106 Feb 19 09:46 /dev/tty.usbmodemDEADBEF1

You can let the tool guess the port or explicitly specify it:

$ make program-bmp port=/dev/tty.usbmodemDEADBEEF
Remote debugging using /dev/tty.usbmodemDEADBEEF
Target voltage: unknown
Available Targets:
No. Att Driver
1 STM32F1 medium density
Attaching to Remote target
warning: No executable has been specified and target does not support
determining executable automatically. Try using the "file" command.
0x0800038e in ?? ()
Loading section .vector_rom, size 0xec lma 0x8000000
[...]
Loading section .table.section_heap, size 0xc lma 0x80013f8
Start address 0x8000e6c, load size 5120
Transfer rate: 10 KB/sec, 365 bytes/write.
Detaching from program: , Remote target
[Inferior 1 (Remote target) detached]
make: done building targets.

make program-jlink

make program-jlink profile={debug|release}

Writes the executable onto your target via JLink. This is a convenience wrapper around the programming options and methods defined in the modm:build module. (* only ARM Cortex-M targets)

$ make program-jlink
SEGGER J-Link GDB Server V7.84f Command Line Version
JLinkARM.dll V7.84f (DLL compiled Feb 7 2023 16:45:51)
-----GDB Server start settings-----
GDBInit file: none
GDB Server Listening port: 2331
SWO raw output listening port: 2332
Terminal I/O port: 2333
Accept remote connection: yes
Generate logfile: off
Verify download: off
Init regs on start: off
Silent mode: on
Single run mode: off
Target connection timeout: 0 ms
------J-Link related settings------
J-Link Host interface: USB
J-Link script: none
J-Link settings file: none
------Target related settings------
Target device: stm32l476rg
Target device parameters: none
Target interface: SWD
Target interface speed: 4000kHz
Target endian: little
modm::delay_us (us=<optimized out>) at modm/src/modm/platform/core/delay.cpp:33
33 if (now - start >= cycles) break;
Loading section .text, size 0x188 lma 0x8000000
Loading section .build_id, size 0x24 lma 0x8000188
Loading section .text, size 0xe7c lma 0x80001b0
Loading section .rodata, size 0x6c lma 0x800102c
Loading section .data, size 0x4 lma 0x8001098
Loading section .fastdata, size 0x8 lma 0x800109c
Loading section .rodata, size 0x70 lma 0x80010a4
Start address 0x08000a50, load size 4368
Transfer rate: 4265 KB/sec, 624 bytes/write.
Resetting target

make debug

make debug profile={debug|release} ui={tui|gdbgui}

Launches OpenOCD in the background, then launches GDB in foreground with the correct executable with text-based or web-based GDBGUI UI. When GDB exits, it stops the OpenOCD process. (* only ARM Cortex-M targets)

This is just a convenience wrapper for the debug functionality defined in the modm:build module. To use GDBGUI you must have it installed via pip install gdbgui.

Note
Choose the correct profile When debugging, make sure to select the correct compilation profile. The firmware and the executable given to GDB have to be the same or you'll see GDB translate the program counter to the wrong code locations. When you suspect a bug in your firmware, consider that it was most likely compiled with the release profile, since that's the default. First try to make debug profile=release, and if that doesn't help, compile and make program profile=debug and try make debug profile=debug again.

make debug-bmp

make debug-bmp profile={debug|release} ui={tui|gdbgui} port={serial-port}

Launches GDB to debug via Black Magic Probe. (* only ARM Cortex-M targets)

make debug-jlink

make debug-jlink profile={debug|release} ui={tui|gdbgui}

Launches GDB to debug via JLink. (* only ARM Cortex-M targets)

make debug-coredump

make debug-coredump profile={debug|release} ui={tui|gdbgui}
coredump={path/to/coredump.txt}

Launches GDB for post-mortem debugging with the latest firmware using the data from the coredump={filepath} argument. (* only ARM Cortex-M targets)

See the modm:platform:fault module for details how to receive the coredump data.

make coredump

make coredump

Launches GDB via OpenOCD and creates a coredump.txt file containing all volatile memories and prints the GNU build ID of the firmware under debug. Note that this command does not require an ELF file, so it can be used to coredump any firmware whose ELF file is currently unavailable. (* only ARM Cortex-M targets)

make coredump-bmp

make coredump-bmp port={serial-port}

Creates a coredump via Black Magic Probe. (* only ARM Cortex-M targets)

make coredump-jlink

make coredump-jlink

Creates a coredump via JLink. (* only ARM Cortex-M targets)

make reset

make reset

Resets the executable via OpenOCD. (* only ARM Cortex-M targets)

make reset-bmp

make reset-bmp port={serial-port}

Resets the executable via Black Magic Probe. (* only ARM Cortex-M targets)

make reset-jlink

make reset-jlink

Resets the executable via JLink. (* only ARM Cortex-M targets)

make log-itm

make log-itm fcpu={HCLK in Hz}

Configures OpenOCD in tracing mode to output ITM channel 0 on SWO pin and displays the serial output stream. (* only ARM Cortex-M targets)

$ make log-itm fcpu=64000000
Open On-Chip Debugger 0.10.0
Licensed under GNU GPL v2
Info : The selected transport took over low-level target control.
loop: 57
loop: 58
loop: 59
loop: 60
loop: 61

See the modm:platform:itm module for details how to use the ITM as a logging output.

make log-itm-jlink

make log-itm-jlink [channel={int}]

Outputs the ITM channel via JLinkSWOViewer. Note that JLink auto-detects the CPU frequency. (* only ARM Cortex-M targets)

make log-rtt

make log-rtt [channel={int}]

Configures OpenOCD in RTT mode to output the chosen channel (default 0) via a simple telnet client. Disconnect with Ctrl+D. (* only ARM Cortex-M targets)

$ make log-rtt
Info : rtt: Searching for control block 'SEGGER RTT'
Info : rtt: Control block found at 0x20000008
loop: 57
loop: 58
loop: 59
loop: 60
loop: 61

See the modm:platform:rtt module for details how to use RTT for data transfer.

make log-rtt-jlink

make log-rtt-jlink [channel={int}]

Configures JLink in RTT mode to output the chosen channel (default 0) via a simple telnet client. Disconnect with Ctrl+D. (* only ARM Cortex-M targets)

make library

make library profile={debug|release}

Generates only the static library libmodm.a without linking it to the application.

$ make library
Compiling C++·· {debug|release}/modm/ext/gcc/assert.o
...
Compiling C++·· {debug|release}/modm/src/modm/utils/dummy.o
Archiving······ {debug|release}/modm/libmodm.a
Indexing······· {debug|release}/modm/libmodm.a

make symbols

make symbols profile={debug|release}

Dumps the symbol table for your executable.

$ make symbols
536871656 00000001 b (anonymous namespace)::nextOperation
536871657 00000001 b (anonymous namespace)::checkNextOperation
536871658 00000001 b (anonymous namespace)::error
536871444 00000001 b read_touch()::initialized
...
134228236 00000668 T I2C1_EV_IRQHandler
134224924 00001136 T otm8009a_init(unsigned char)
134221192 00001378 t _GLOBAL__sub_I_p
536871782 00002054 b (anonymous namespace)::txBuffer

make listing

make listing profile={debug|release}

Decompiles your executable into an annotated assembly listing. This is very useful for checking and learning how the compiler translates C++ into assembly instructions:

$ make listing
Listing········ {debug|release}/blink.lss
$ less {debug|release}/blink.lss
...
Disassembly of section .text:
...
08000d74 <main>:
main():
./main.cpp:315
int
main()
{
8000d74: b508 push {r3, lr}
Board::initialize();
8000d76: f7ff fcc9 bl 800070c <_ZN5Board10initializeEv>
Board::initializeDisplay();
8000d7a: f000 fd91 bl 80018a0 <_ZN5Board17initializeDisplayEv>
Board::initializeTouchscreen();
8000d7e: f7ff fc55 bl 800062c <_ZN5Board21initializeTouchscreenEv>
blink();
8000d82: f7ff feff bl 8000b84 <_Z12blinkv>
...

make bin

make bin profile={debug|release}

Creates a binary file of your executable.

$ make bin
Binary File···· {debug|release}/blink.bin

make hex

make hex profile={debug|release}

Creates a Intel-hex file of your executable.

$ make bin
Hex File······· {debug|release}/blink.hex

make uf2

make uf2 profile={debug|release} [firmware={hash or file}]

Creates a UF2 compatible file of your executable. UF2 is a bootloader by Microsoft.

$ make uf2
UF2 File······· {debug|release}/blink.uf2

(* only ARM Cortex-M targets)

Information Tool

This tool generates a set of header files containing information about the repository state.

Setting the modm:build:info.git option will generate a <info_git.h> header file and add these two defines to the command line CPP options:

Note
Increased build time Since the git repository status can change at any time, it needs to be checked on every build. This adds less than a second to every build.

Setting the modm:build:info.build option will generate a <info_build.h> header file and add this define to the command line CPP options:

Warning
Respect developers privacy This information is placed into the firmware in cleartext, so it will be trivial to extract from a memory dump. Consider this information public as soon as it is uploaded to your target. Make sure you only use the information you absolutely need!

Bitmap Tool

If the modm:build:image.source is defined as a path, it'll be searched for .pbm files to convert into C++ data files using the bitmap tool.

See the GraphicsDisplay::drawImage() method in the modm:ui:display module for how to use these generated files. The directory is added to the include search paths, so the generated files can be accessed as #include <image.hpp>.

Module Options

modm:build:make:include_makefile: Generate a Makefile

Warning
This overwrites any top-level Makefile!

Generated with: yes in [yes, no]