On Tue, Jan 14, 2020 at 12:11 PM Miquel Raynal <miquel.raynal@xxxxxxxxxxx> wrote: > > Hi Rob, > > Rob Herring <robh+dt@xxxxxxxxxx> wrote on Tue, 14 Jan 2020 11:46:18 > -0600: > > > On Mon, Dec 9, 2019 at 4:35 AM Boris Brezillon > > <boris.brezillon@xxxxxxxxxxxxx> wrote: > > > > > > On Wed, 27 Nov 2019 11:55:22 +0100 > > > Miquel Raynal <miquel.raynal@xxxxxxxxxxx> wrote: > > > > > > > Introduce a generic way to define concatenated MTD devices. This may > > > > be very useful in the case of ie. stacked SPI-NOR. Partitions to > > > > concatenate are described in an additional property of the partitions > > > > subnode: > > > > > > > > flash0 { > > > > partitions { > > > > compatible = "fixed-partitions"; > > > > part-concat = <&flash0_part1>, <&flash1_part0>; > > > > > > > > part0@0 { > > > > label = "part0_0"; > > > > reg = <0x0 0x800000>; > > > > }; > > > > > > > > flash0_part1: part1@800000 { > > > > label = "part0_1"; > > > > reg = <0x800000 0x800000>; > > > > > > So, flash0_part1 and flash0_part2 will be created even though the user > > > probably doesn't need them? > > > > I don't follow? > > Well, one will have to create "fake" partitions in order to concatenate > them with this solution, instead of just concatenating the devices (in > the case where you want to concatenate the entire devices). But the real > debate is below, on the representation. So concatenating multiple devices without partitions defined in DT? To support that, then we need to link flash nodes rather than partition nodes. > > > > }; > > > > }; > > > > }; > > > > > > > > flash1 { > > > > partitions { > > > > compatible = "fixed-partitions"; > > > > > > > > flash0_part1: part1@0 { > > > > label = "part1_0"; > > > > reg = <0x0 0x800000>; > > > > }; > > > > > > > > part0@800000 { > > > > label = "part1_1"; > > > > reg = <0x800000 0x800000>; > > > > }; > > > > }; > > > > }; > > > > > > IMHO this representation is far from intuitive. At first glance it's not > > > obvious which partitions are linked together and what's the name of the > > > resulting concatenated part. I definitely prefer the solution where we > > > have a virtual device describing the concatenation. I also understand > > > that this goes against the #1 DT rule: "DT only decribes HW blocks, not > > > how they should be used/configured", but maybe we can find a compromise > > > here, like moving this description to the /chosen node? > > > > > > chosen { > > > flash-arrays { > > > /* > > > * my-flash-array is the MTD name if label is > > > * not present. > > > */ > > > my-flash-array { > > > /* > > > * We could have > > > * compatible = "flash-array"; > > > * but we can also do without it. > > > */ > > > label = "foo"; > > > flashes = <&flash1 &flash2 ...>; > > > partitions { > > > /* usual partition description. */ > > > ... > > > }; > > > }; > > > }; > > > }; > > > > > > Rob, what do you think? > > > > I don't think chosen is the right place to put all the partition > > information. It's not something the bootloader configures. > > > > This suffers from the same issue I have with the original proposal. It > > will not work for existing s/w. There's only 1 logical partition that > > I don't get why it would not work? Current hardware will just not have > the concatenation support, that's all. How is this a problem? No one has multiple flash devices on any h/w already? If I already have a working system that can load and boot a kernel off an MTD partition, but could benefit from concatenating other partitions (i.e. rootfs), why should I have to modify my bootloader(s)? > > concatenated. The rest of the partitions shouldn't need any special > > handling. So we really only need some way to say 'link these 2 > > partitions into 1 logical partition'. Though perhaps one could want to > > combine any number of physical partitions into logical partitions, but > > then none of the proposals could support that. Then again, maybe > > Yes, the flash-array proposal supports having more than two > partitions/devices concatenated, it is also already supported by the > driver (you don't care about this, but I do :) ). I meant for N devices, you'd only have at most N-1 concatenated partitions as there are N-1 device boundaries. Whereas you could define any partition could be combined with any other number of partitions regardless of where they lie. The types of things you can do with LVM and disk partitions is what I'm thinking of. > > that's a userspace problem like with disks. > > I see one big issue with this solution: what about bootloaders? Similar to how it works with disks. Bootloaders (at a minimum) understand physical partitions. Later stages understand logical partitions. > The root cause for such idea is that, in my case, the 2 MTD devices are > too small to contain the images needed to boot. The perfect solution is > to merge the two devices virtually in one single device and let U-Boot > read it like one. Got any actual h/w that the flash devices are smaller than a kernel+ramdisk yet had the $ and board space to put multiple devices down? What about the stages before u-boot? Assume they all use DT, why require adding this support before a stage that actually needs it. > I need to have the same representation both in U-Boot and Linux, hence > a userspace tool and a kernel command line argument do not work, right? I never said u-boot can't gain support for this, it's just requiring it to from the start even if you only wanted to have a concatenated partition for your rootfs or non-boot partition. Only the kernel would need to understand concatenating partitions vs. every component that reads the partitions. Rob