MLKEM-C-EMBEDDED is a collection of MLKEM implementations optimized for embedded microcontrollers. It is free software licensed under an Apache-2.0 license.
It originates from the pqm4 project, but there are some core differences:
- It is limited to ML-KEM allowing a much simpler build system and richer set of implementation options
- Once reaching v1.0, MLKEM-C-EMBEDDED can be relied on in production environments
- Portability is a high priority. We plan to use assembly only where absolutely necessary
- Speed is not the primary objective. We do not want to sacrifice maintainability and code size
- The scope extends beyond the Arm Cortex-M4 and we plan to have optimized code for many more (micro-)architectures
The goals and features of a future MLKEM-C-EMBEDDED v1.0 release include:
- Provide production-grade portable C code that can be dropped into other projects
- Being permissibly licensed with all code being Apache-2.0 or CC0 licensed
- Tested against the official reference known-answer tests (KATs) and extended KATs (taken from another PQCP project)
- A single source tree with no code duplication (e.g., for stack optimizations, parameter sets)
- Having a make-based build system allowing testing on various platforms (at least stm32f4discovery, nucleo-l4r5zi, and mps2-an386) relying on libopencm3 and openocd
- Supporting the Arm GNU toolchain
- Including speed and stack benchmarks
- Having a CI setup running tests and verifying testvectors using the QEMU Arm system emulator
- Configurable stack optimizations matching the state-of-the-art
- Portable C code speed-optimized for 32-bit platforms
In the medium term, we hope to include:
- Optional Cortex-M4 assembly for core building blocks
- Dynamic parameter selection (for supporting multiple parameter sets with minimal code size)
- Supporting both the Arm GNU toolchain and the Arm Compiler for Embedded
In the long term, possible extensions are
- Support more 32-bit targets (e.g., RISC-V, Arm Cortex-M3. Arm Cortex-M7, Arm Cortex-M55, Arm Cortex-M85) with optional assembly
- Automated checking for secret-dependent timing including data-dependent instruction timing such as
divon most platforms orumullon Cortex-M3
MLKEM-C-EMBEDDED is currently a work in progress and we do not recommend relying on it at this point. WE DO NOT CURRENTLY RECOMMEND RELYING ON THIS LIBRARY IN A PRODUCTION ENVIRONMENT OR TO PROTECT ANY SENSITIVE DATA. Once we have the first stable version, this notice will be removed
The current code is compatible with the standard branch of the official MLKEM repository.
We are actively seeking contributors who can help us build MLKEM-C-EMBEDDED. If you are interested, please contact us, or volunteer for any of the open issues.
If you are a potential consumer of MLKEM-C-EMBEDDED, please reach out to us. We're interested in hearing the way you are considering using MLKEM-C-EMBEDDED and could benefit from additional features. If you have specific feature requests, please open an issue.
All the develop and build dependencies are specified in flake.nix.
-
Setup with nix,
- Running
nix developwill execute a bash shell with the development environment specified in flake.nix. - Alternatively, you can enable
direnvby usingdirenv allow, allowing it to handle the environment setup for you.
- Running
-
If your're not using nix, please ensure you have installed the same version as specified in flake.nix.
For further details, please refer to scripts/README.md
The build system compiles tests and benchmarks for each mlkem parameter set on specified platform, supported platform can be found by running tests --list-platforms.
The PLATFORM configuration is optional, with the default platform set to stm32f4discovery.
For example,
-
make [PLATFORM=<PLATFORM_NAME>] [RNG=HAL|NOTRAND] testassembles all binaries for functional tests. -
make [PLATFORM=<PLATFORM_NAME>] [RNG=HAL|NOTRAND] speedassembles all binaries for speed benchmarking -
make [PLATFORM=<PLATFORM_NAME>] [RNG=HAL|NOTRAND] stackassembles all binaries for stack benchmarking -
make [PLATFORM=<PLATFORM_NAME>] RNG=NISTKAT nistkatassembles all binaries for nistkat -
make [PLATFORM=<PLATFORM_NAME>] (all)assembles all the above targets for all parameter sets. -
make emulaterun emulatation for the binary file onQEMU -
make cleancleans up intermediate artifacts
After generating the specified hex files, you can flash it to the development board using openocd.
For example,
openocd -f hal/stm32f4discovery.cfg -c "program bin/mlkem768-test.hex verify reset exit"
To receive output from the develop board, you can, for example, use pyserial-miniterm:
pyserial-miniterm /dev/<tty_device> 38400
Usage of the tests script
Make sure to run make clean between running tests on QEMU or on board or running func/stack/speed and nistkat tests. In case of any inconsistencies, refer to the help command for the most up-to-date usage information
▶ tests --help
Usage: tests [OPTIONS] COMMAND [ARGS]...
Options:
--list-platforms List the supported platforms
--help Show this message and exit.
Commands:
func Run functional tests
nistkat Run nistkat tests
run Run for the specified platform and hex file without parsing the
output
speed Run speed tests
stack Run stack tests
func/speed tests depends on the iteration parameter, which is passed to the tests in compile time, therefore it is preferred to build the binaries with the tests script
▶ tests func --help
Usage: tests func [OPTIONS] {stm32f4discovery|mps2-an386|nucleo-f767zi|mps2-an
500|nucleo-f207zg|mps2-an385}
Options:
-v, --verbose Show verbose output or not
-u, --uart PATH TTY serial device for UART, default to the 1st
serial device connected to your board or an empty
string
-i, --iterations INTEGER Number of tests [default: 1]
--help Show this message and exit.