On Sat, Dec 05, 2015 at 12:35:42PM +0100, Jonas Gorski wrote:
> On Sat, Dec 5, 2015 at 6:19 AM, Brian Norris
> <computersforpeace@xxxxxxxxx> wrote:
> > Hi,
> >
> > There have been several discussions [1] about adding a device tree binding for
> > associating flash devices with the partition parser(s) that are used on the
> > flash. There are a few reasons:
> >
> > (1) drivers shouldn't have to be encoding platform knowledge by listing what
> > parsers might be used on a given system (this is the currently all that's
> > supported)
> > (2) we can't just scan for all supported parsers (like the block system does), since
> > there is a wide diversity of "formats" (no standardization), and it is not
> > always safe or efficient to attempt to do so, particularly since many of
> > them allow their data structures to be placed anywhere on the flash, and
> > so require scanning the entire flash device to find them.
> >
> > So instead, let's support a new binding so that a device tree can specify what
> > partition formats might be used. This seems like a reasonable choice (even
> > though it's not strictly a hardware description) because the flash layout /
> > partitioning is often very closely tied with the bootloader/firmware, at
> > production time.
>
> On a first glance this looks good to me, and looks easily extensible
> for application of non-complete partition parsers.
>
> E.g. for the "brcm,bcm6345-imagetag" we would want to actually do something like
>
> partitions {
> ....
>
> partition@0 {
> reg = <0x0 0x10000>;
> label = "cfe";
> read-only;
> };
>
> partition@10000 {
> reg = <0x10000 0x3d0000>;
> label = "firmware";
> compatible = "brcm,bcm6345-imagetag";
> };
>
> partition@3e0000 {
> reg = <0x3e0000 0x10000>;
> label = "art";
> read-only;
> };
>
> partition@3f0000 {
> reg = <0x3f0000 0x10000>;
> label = "nvram";
> read-only;
> };
> };
>
> as the image tag can only specify the offsets and sizes of the rootfs
> and kernel parts, but not of any other parts.
I had your (and others') prior attempts and suggestions in mind when
planning this, and I agree that the binding looks extendible to cases
like that. I haven't yet worked out what a good MTD infrastructure for
that would look like, so I stuck with defining and implementing only
what I know use :)
> > Also, as an example first-use of this mechanism, I support Google's FMAP flash
> > structure, used on Chrome OS devices.
> >
> > Note that this is an RFC, mainly for the reason noted in patch 6 ("RFC: mtd:
> > partitions: enable of_match_table matching"): the of_match_table support won't
> > yet autoload a partition parser that is built as a module. I'm not quite sure
> > if there's a lot of value in supporting MTD parsers as modules (block partition
> > support can't be), but that is supported for "by-name" parser lookups in MTD
> > already, so I don't feel like dropping that feature yet. Tips or thoughts are
> > particularly welcome on this aspect!
>
> I would assume a lot of the cases these would be a chicken-egg
> problem, you need the parser to be able to find and mount the rootfs,
> but you you need mount the rootfs to load the parser.
Not necessarily. One of my current use cases has a boot SPI NOR flash +
an eMMC rootfs. Modules can be loaded from eMMC.
BTW, I'm realizing that if partition parsers are forced to built-in
only, then we'd have to do the same for the MTD core (or at least, the
MTD core that handles partitioning). Not sure if that's a desirable
trade-off. (Again, block support is 'bool' in Kconfig, if we're trying
to compare.)
Brian
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