On Fri, Dec 18, 2020 at 02:41:50PM -0400, Jason Gunthorpe wrote:
On Fri, Dec 18, 2020 at 06:03:10PM +0000, Mark Brown wrote:
If it's not supposed to use platform devices so I'm assuming that the intention is that it should use aux devices, otherwise presumably it'd be making some new clone of the platform bus but I've not seen anyone suggesting this.
I wouldn't assume that, I certainly don't want to see all the HW related items in platform_device cloned roughly into aux device.
I've understood the bus type should be basically related to the thing that is creating the device. In a clean view platform code creates platform devices. DT should create DT devices, ACPI creates ACPI devices, PNP does pnp devices, etc
Ah, so we *used* to do that and in fact at least acpi_device still exists but it was realized that this was causing a lot of effort with boilerplate - like Lee said board files, ACPI and DT are all just enumeration methods which have zero effect on the underlying hardware so you end up having duplication on both the bus and driver side. Since this applies to all non-enumerable buses this process gets repeated for all of them, we wouldn't just have an of_device we'd have of_i2c_device, of_spi_device, of_1wire_device and so on or have to jump through hoops to map things into the actual bus type. See eca3930163ba8884060ce9d9 (of: Merge of_platform_bus_type with platform_bus_type) for part of this getting unwound.
Fundamentally this is conflating physical bus type and enumeration method, for enumerable buses they are of course the same (mostly) but for non-enumerable buses not so much.
So, I strongly suspect, MFD should create mfd devices on a MFD bus type.
Historically people did try to create custom bus types, as I have pointed out before there was then pushback that these were duplicating the platform bus so everything uses platform bus.
Alexandre's point is completely valid, and I think is the main challenge here, somehow avoiding duplication.
If we were to look at it with some OOP viewpoint I'd say the generic HW resource related parts should be some shared superclass between 'struct device' and 'struct platform/pnp/pci/acpi/mfd/etc_device'.
Right, duplication is the big issue with separate firmware based bus types particularly as we consider all non-enumerable buses. I think what you're looking for here is multiple inheritance, that's potentially interesting but it's pretty much what we have already TBH. We have the physical bus type as a primary type for devices but we also can enquire if they also have the properties of a DT or ACPI object and then use those APIs on them.
Consider also FPGAs which can have the same problem Alexandre raised, there's the parent device for the FPGA and then we can instantiate bitstreams within that which may expose standard IPs which can also appear directly within a SoC.
The places I see aux device being used are a terrible fit for the cell idea. If there are MFD drivers that are awkardly crammed into that cell description then maybe they should be aux devices?
When you say the MFD cell model it's not clear what you mean - I *think* you're referring to the idea of the subdevices getting all the
I mean using static "struct mfd_cell" arrays to describe things.
OK, but then SOF has been actively pushed into using auxiliary devices since there is a desire to avoid using mfd_cells on PCI devices rather than the fact that it wasn't able to use a static array, and of course you might have devices with a mix of static and dynamic functions, or functions that can be both static and dynamic.
Look at something like wm8994 for example - the subdevices just know which addresses in the device I2C/SPI regmap to work with but some of them have interrupts passed through to them (and could potentially also have separate subdevices for clocks and pinctrl). These subdevices are not memory mapped, not enumerated by firmware and the hardware has indistinct separation of functions in the register map compared to how Linux models the chips.
wm8994 seems to fit in the mfd_cell static arrays pretty well..
I can't tell the difference between what it's doing and what SOF is doing, the code I've seen is just looking at the system it's running on and registering a fixed set of client devices. It looks slightly different because it's registering a device at a time with some wrapper functions involved but that's what the code actually does.
Clearly there's something other than just the registration method going on here.