Hi Laurent, On Sat, Dec 9, 2023 at 4:29 PM Laurent Pinchart <laurent.pinchart@xxxxxxxxxxxxxxxx> wrote: > On Sat, Dec 09, 2023 at 10:13:59PM +0900, Chen-Yu Tsai wrote: > > On Thu, Dec 7, 2023 at 11:38 PM Laurent Pinchart > > <laurent.pinchart@xxxxxxxxxxxxxxxx> wrote: > > > On Thu, Dec 07, 2023 at 10:27:23PM +0800, Chen-Yu Tsai wrote: > > > > On Sun, Dec 03, 2023 at 05:34:01PM +0200, Laurent Pinchart wrote: > > > > > On Fri, Dec 01, 2023 at 08:54:42PM -0700, Simon Glass wrote: > > > > > > Add a script which produces a Flat Image Tree (FIT), a single file > > > > > > containing the built kernel and associated devicetree files. > > > > > > Compression defaults to gzip which gives a good balance of size and > > > > > > performance. > > > > > > > > > > > > The files compress from about 86MB to 24MB using this approach. > > > > > > > > > > > > The FIT can be used by bootloaders which support it, such as U-Boot > > > > > > and Linuxboot. It permits automatic selection of the correct > > > > > > devicetree, matching the compatible string of the running board with > > > > > > the closest compatible string in the FIT. There is no need for > > > > > > filenames or other workarounds. > > > > > > > > > > > > Add a 'make image.fit' build target for arm64, as well. Use > > > > > > FIT_COMPRESSION to select a different algorithm. > > > > > > > > > > > > The FIT can be examined using 'dumpimage -l'. > > > > > > > > > > > > This features requires pylibfdt (use 'pip install libfdt'). It also > > > > > > requires compression utilities for the algorithm being used. Supported > > > > > > compression options are the same as the Image.xxx files. For now there > > > > > > is no way to change the compression other than by editing the rule for > > > > > > $(obj)/image.fit > > > > > > > > > > > > While FIT supports a ramdisk / initrd, no attempt is made to support > > > > > > this here, since it must be built separately from the Linux build. > > > > > > > > > > FIT images are very useful, so I think this is a very welcome addition > > > > > to the kernel build system. It can get tricky though: given the > > > > > versatile nature of FIT images, there can't be any > > > > > one-size-fits-them-all solution to build them, and striking the right > > > > > balance between what makes sense for the kernel and the features that > > > > > users may request will probably lead to bikeshedding. As we all love > > > > > bikeshedding, I thought I would start selfishly, with a personal use > > > > > case :-) This isn't a yak-shaving request though, I don't see any reason > > > > > to delay merging this series. > > > > > > > > > > Have you envisioned building FIT images with a subset of DTBs, or adding > > > > > DTBOs ? Both would be fairly trivial extensions to this script by > > > > > extending the supported command line arguments. It would perhaps be more > > > > > difficult to integrate in the kernel build system though. This leads me > > > > > to a second question: would you consider merging extensions to this > > > > > script if they are not used by the kernel build system, but meant for > > > > > users who manually invoke the script ? More generally, is the script > > > > > > > > We'd also be interested in some customization, though in a different way. > > > > We imagine having a rule file that says X compatible string should map > > > > to A base DTB, plus B and C DTBO for the configuration section. The base > > > > DTB would carry all common elements of some device, while the DTBOs > > > > carry all the possible second source components, like different display > > > > panels or MIPI cameras for instance. This could drastically reduce the > > > > size of FIT images in ChromeOS by deduplicating all the common stuff. > > > > > > Do you envision the "mapping" compatible string mapping to a config > > > section in the FIT image, that would bundle the base DTB and the DTBOs ? > > > > That's exactly the idea. The mapping compatible string could be untied > > from the base board's compatible string if needed (which we probably do). > > > > So something like: > > > > config { > > config-1 { > > compatible = "google,krane-sku0"; > > fdt = "krane-baseboard", "krane-sku0-overlay"; > > }; > > }; > > > > With "krane-sku0-overlay" being an overlay that holds the differences > > between the SKUs, in this case the display panel and MIPI camera (not > > upstreamed) that applies to SKU0 in particular. > > The kernel DT makefiles already contain information on what overlays to > apply to what base boards, in order to test the overlays and produce > "full" DTBs. Maybe that information could be leveraged to create the > configurations in the FIT image ? Although the "full" DTBs created may only be a subset of all possible combinations (I believe Rob just started with creating one "full" DTB for each overlay, cfr. the additions I made in commit a09c3e105a208580 ("arm64: dts: renesas: Apply overlays to base dtbs")), that could definitely be a start. Now, since the kernel build system already creates "full" DTBs, does that mean that all of the base DTBs, overlays, and "full" DTBs will end up in the FIT image? Gr{oetje,eeting}s, Geert -- Geert Uytterhoeven -- There's lots of Linux beyond ia32 -- geert@xxxxxxxxxxxxxx In personal conversations with technical people, I call myself a hacker. But when I'm talking to journalists I just say "programmer" or something like that. -- Linus Torvalds