On Fri, Aug 21, 2020 at 9:14 AM Rob Herring <robh@xxxxxxxxxx> wrote: > > On Thu, Aug 20, 2020 at 8:53 PM Olof Johansson <olof@xxxxxxxxx> wrote: > > > > On Wed, Aug 19, 2020 at 04:17:50PM -0600, Rob Herring wrote: > > > While bracketing doesn't matter for a DTB, the DT schema checks rely on > > > bracketing around each distinct entry. Reformat ranges and dma-ranges > > > entries to fix warnings such as: > > > > > > arch/arm64/boot/dts/rockchip/rk3399-sapphire-excavator.dt.yaml: pcie@f8000000: ranges: [[2197815296, 0, 4194304000, 0, 4194304000, 0, 31457280, 2164260864, 0, 4225761280, 0, 4225761280, 0, 1048576]] is not valid under any of the given schemas (Possible causes of the failure): > > > arch/arm64/boot/dts/rockchip/rk3399-sapphire-excavator.dt.yaml: pcie@f8000000: ranges: True was expected > > > arch/arm64/boot/dts/rockchip/rk3399-sapphire-excavator.dt.yaml: pcie@f8000000: ranges:0: [2197815296, 0, 4194304000, 0, 4194304000, 0, 31457280, 2164260864, 0, 4225761280, 0, 4225761280, 0, 1048576] is too long > > > arch/arm64/boot/dts/rockchip/rk3399-sapphire-excavator.dt.yaml: pcie@f8000000: ranges:0:0: 2197815296 is not one of [16777216, 33554432, 50331648, 1107296256, 1124073472] > > > > Seems like a bug in your tool? Why would we bother with this churn? > > It's a feature. :) The feature is better linting of ranges, the new lack of being able to do that for the way we've always been allowed to write ranges is a bug. > In this case, with the entries bracketed, we can check the PCI top > address cell contents in the common PCI schema and check how many > ranges entries in the specific bridge schemas if they have some > constraints. The use of bracketing is useful to defining the number of > entries not just for ranges, but everywhere. A device binding defines > how many register regions or interrupts for example. It makes sense to > delineate entries in some way. While yes, we have #.*-cells, there's > not really any way to handle that in json-schema. And let's face it, > #.*-cells is an odd construct. > > Currently, the dtc dts->yaml output maintains all this formatting. I > suppose we could change that such that we parse #.*-cells and define > the boundaries based on them. But then dtc has to know about every > case of #.*-cells. That's not impossible to do, but doesn't keep the > tool and binding data separate. That's already the case, isn't it? Run that part of the check if you have a new enough dtc, otherwise warn that it's too old but do all the other checks. It's also just a change in one place: the tool, instead of evolving the language by adding ad-hoc restrictions that the compiler doesn't even know about, and requiring old code to change. This way DTC could even warn/recommend bracketing per cell, when you give it the ability to parse/handle it. > Looking at it another way, do we really want to just allow anything? A > device with 3 interrupts could be written as: > > interrupts = <1>, <2>, <3>; > interrupts = <1 2 3>; > interrupts = <1>, <2 3>; > interrupts = [ 00 00 00 01 00 00 00 02 00 00 00 03 ]; > > Or can we have some coding standards that are no more onerous or > pedantic than what we have everywhere else? We're generally quite careful about applying new restrictions and expectations on coding standards all across the tree, and when we add new ones we usually don't require legacy code to change overnight, only when there are other relevant changes to those files. -Olof