wasm-micro-runtime/product-mini/platforms/zephyr/simple
Daniel Mangum 2175910bac
Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805)
Includes a number of updates to the Zephyr example, including removing a fair
amount of stale configuration. This is part of moving towards supporting WAMR
as a Zephyr module as described in #2782. Some functionality is removed as
part of this diff (e.g. AOT XTENSA support), but it had become stale while not
being actively maintained. It is anticipated that it (and AOT support for other
platforms) will be added back, along with CI support for ensuring they do not
become stale again.

Signed-off-by: Daniel Mangum <georgedanielmangum@gmail.com>
2023-11-23 09:56:04 +08:00
..
boards Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00
src Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00
build_and_run.sh Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00
CMakeLists.txt Fix zephyr sample build errors (#1757) 2022-11-28 11:23:51 +08:00
Dockerfile Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00
prj.conf Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00
README.md Update Zephyr support to v3.5.0 and make instructions generic to boards (#2805) 2023-11-23 09:56:04 +08:00

How to use WAMR with Zephyr

Zephyr is an open source real-time operating system (RTOS) with a focus on security and broad hardware support. WAMR is compatible with Zephyr via the Zephyr WAMR port.

Setup

Using WAMR with Zephyr can be accomplished by either using the provided Docker image, or by installing Zephyr locally. Both approaches are described below.

Docker

The provided Docker image sets up Zephyr and its dependencies for all architectures, meaning that you are ready to build for any supported board. This comes at the expense of building a rather large image, which both can take a long time to build and uses up a large amount of storage (~15 GB).

Execute the following command to build the Docker image. This may take an extended period of time to complete.

docker build -t wamr-zephyr .

Execute the following command to run the image built in the previous step. If you are planning to flash a device after building, make sure to specify it with --device.

docker run -it --rm --device=/dev/ttyUSB0 wamr-zephyr

Local Environment

Zephyr can also be setup locally to enable building this sample application. This allows you have have more control over what modules and tools are installed, which can drastically reduce the storage required compared to the Docker image.

Follow the steps provided in the Zephyr Getting Started guide to setup for local development.

Building for a Specific Board

With an environment setup either locally or in a Docker container, you can build for a Zephyr suppported board using west. There are already configuaration files for a few boards in this sample. However, if you are using a new board, you will need to add your own file for the board, or define configuration in the `prj.conf. After doing so, use the following command with your board identifier to build the sample application.

west build . -b <board-identifier> --pristine -- -DWAMR_BUILD_TARGET=<wamr-arch>

The <board-identifier> can be found in the Zephyr supported boards documentation. It must also be used as the name of the board configuration file. You must define the architecture for WAMR to target with WAMR_BUILD_TARGET. The list of supported architectures can be found in the main project README.md.

It may be necessary to define additional symbols for some boards. For example, WAMR AOT execution may not be supported on all architectures. It and other options can be disabled by modifying the CMakeLists.txt file, or by passing additional arguments at build (e.g. -DWAMR_BUILD_AOT=0).

Example Targets

ESP32-C3 is a 32-bit RISC-V target that does not currently support AOT.

west build . -b esp32c3_devkitm -p always -- -DWAMR_BUILD_TARGET=RISCV32_ILP32 -DWAMR_BUILD_AOT=0

ARM Cortex-A53 QEMU (ARM) is a 64-bit ARM target for emulating the Cortex-A53 platform.

west build . -b qemu_cortex_a53 -p always -- -DWAMR_BUILD_TARGET=AARCH64 

Flashing or Running Image

The board can be flashed with the built image with the following command.

west flash

west will automatically identify the board if it is connected to the host machine.

When using emulated targets, such as those that utilize QEMU, there is no physical device to flash, but west can be used to run the image under emulation.

west build -t run