sof/tools/rimage
Guennadi Liakhovetski 8bfb4896c7 llext: add or improve comments
Address clarity improvement requests from an earlier pull-request
review.

Signed-off-by: Guennadi Liakhovetski <guennadi.liakhovetski@linux.intel.com>
2024-01-29 18:42:23 +02:00
..
config rimage: add a generic platform.toml 2024-01-26 17:56:14 +02:00
scripts rimage: move everything down to subdir tools/rimage/, prepare move to sof 2023-10-05 10:18:11 -07:00
src llext: add or improve comments 2024-01-29 18:42:23 +02:00
tomlc99@e3a03f5ec7 rimage: move everything down to subdir tools/rimage/, prepare move to sof 2023-10-05 10:18:11 -07:00
.checkpatch.conf rimage: move everything down to subdir tools/rimage/, prepare move to sof 2023-10-05 10:18:11 -07:00
CMakeLists.txt rimage: move everything down to subdir tools/rimage/, prepare move to sof 2023-10-05 10:18:11 -07:00
LICENSE rimage: move everything down to subdir tools/rimage/, prepare move to sof 2023-10-05 10:18:11 -07:00
README.md tools/rimage/README.md: update following transfer to sof.git 2023-10-17 15:36:55 +01:00

README.md

rimage

rimage is a DSP firmware image creation and signing tool targeting the DSP on certain Intel System-on-Chip (SoC). This is used by the Sound Open Firmware (SOF) to generate binary image files.

Building

Most SOF users never build rimage directly but as an ExternalProject defined by CMake in SOF. This makes sure they always use an up-to-date version of rimage and configuration files that have been fully tested.

If needed, rimage can be built manually with the usual CMake commands:

$ cmake -B build/
$ make  -C build/ help # lists all targets
$ make  -C build/

The build/rimage executable can then be copied to a directory in the PATH. Zephyr users can run west config rimage.path /path/to/rimage/build/rimage; Zephyr documentation and west sign -h have more details.

Testing tomlc99 changes with SOF Continuous Integration

This section is about leveraging SOF validation to test tomlc99 changes before submitting them to the tomlc99 repository.

Nothing here is actually specific to SOF and tomlc99; you can apply the same test logic to any submodule and parent on Github. In fact the same logic applies to submodule alternatives. Github is the only requirement.

Get familiar with git submodules

This is unfortunately not optional for SOF and tomlc99.

For various reasons submodules seem to confuse many git users. Maybe because the versions of the submodules are not directly visible in some configuration file like with most alternatives? Either way, an unfortunate prerequisite before doing any tomlc99 work is to get familiar with git submodules in general. As submodules are built-in there are many resources about them on the Internet. One possible starting point is https://git-scm.com/book/en/v2/Git-Tools-Submodules but feel free to use any other good tutorial instead. Make sure you actually practice a tutorial; don't just read it. Practicing on a temporary and throw-away copy of SOF + tomlc99 is a great idea.

Obviously, you also need to be familiar with regular Github pull requests.

Run SOF tests on unmerged tomlc99 commits

First, push the tomlc99 commits you want to be tested to any branch of your tomlc99 fork on Github. Do not submit an tomlc99 pull request yet.

Note your tomlc99 fork must have been created using the actual "fork" button on Github so Github is aware of the connection with the upstream tomlc99 repo. In the top-left corner you should see forked from thesofproject/tomlc99 under the name of your fork. If not then search the Internet for "re-attach detached github fork".

Then, pretend these tomlc99 commits have already been accepted and merged (they have been neither) and submit to SOF a draft pull request that updates the main SOF branch with your brand new tomlc99 commits to test. The only SOF commit in this SOF TEST pull request is an SOF commit that updates the tomlc99 pointer to the SHA of your last tomlc99 commit. If you're not sure how to do this then you must go back to the previous section and practice submodules more.

Submit this SOF pull request as a Github draft so reviewers are not notified. Starting every pull request as a draft is always a good idea but in this case this particular SOF pull request can be especially confusing because it points at commits in a different repo and commits that are not merged yet. So you really don't want to bother busy reviewers (here's a secret: some of the reviewers don't like submodules either). You can freely switch back and forth between draft and ready status and should indeed switch to draft if you forgot at submission time but you can never "un-notify" reviewers.

Github has very good support for submodules and will display your SOF TEST pull request better than what the git command line can show. For instance Github will list your tomlc99 changes directly in the SOF Pull Request. So if something looks unexpected on Github then it means you did something wrong. Stop immediately (except for switching to draft if you forgot) and ask the closest git guru for help.

Search for "Submodule" in the build logs and make sure the last of your new tomlc99 commits has been checked out.

Iterate and force-push your tomlc99 branch and your SOF TEST pull request until all the SOF tests pass. Then you can submit your tomlc99 pull request as usual. In the comments section of the tomlc99 pull request, point at your test results on the SOF side to impress the tomlc99 reviewers and get your tomlc99 changes merged faster.

Finally, after your tomlc99 changes have been merged, you can if you want submit one final SOF pull request that points to the final tomlc99 SHA. Or, if your tomlc99 change is not urgently needed, you can just wait for someone else to do it later. If you do it, copy the tomlc99 git log --oneline in the SOF commit message. Find some good (and less good) commit message examples for submodule updates at https://github.com/thesofproject/sof/commits/main/rimage