On Mon, Oct 25, 2021 at 12:38:08AM -0500, Frank Rowand wrote: > On 10/23/21 3:56 AM, Greg Kroah-Hartman wrote: > > On Fri, Oct 22, 2021 at 10:18:11AM -0500, Patrick Williams wrote: > >> Hi Greg, > >> > >> On Fri, Oct 22, 2021 at 10:57:21AM +0200, Greg Kroah-Hartman wrote: > >>> On Fri, Oct 22, 2021 at 01:32:32AM -0700, Zev Weiss wrote: > >>>> On Thu, Oct 21, 2021 at 11:46:56PM PDT, Greg Kroah-Hartman wrote: > >>>>> On Thu, Oct 21, 2021 at 07:00:31PM -0700, Zev Weiss wrote: > >> > >>>> So we want the kernel to be aware of the device's existence (so that we > >>>> *can* bind a driver to it when needed), but we don't want it touching the > >>>> device unless we really ask for it. > >>>> > >>>> Does that help clarify the motivation for wanting this functionality? > >>> > >>> Sure, then just do this type of thing in the driver itself. Do not have > >>> any matching "ids" for this hardware it so that the bus will never call > >>> the probe function for this hardware _until_ a manual write happens to > >>> the driver's "bind" sysfs file. > >> > >> It sounds like you're suggesting a change to one particular driver to satisfy > >> this one particular case (and maybe I'm just not understanding your suggestion). > >> For a BMC, this is a pretty regular situation and not just as one-off as Zev's > >> example. > >> > >> Another good example is where a system can have optional riser cards with a > >> whole tree of devices that might be on that riser card (and there might be > >> different variants of a riser card that could go in the same slot). Usually > >> there is an EEPROM of some sort at a well-known address that can be parsed to > >> identify which kind of riser card it is and then the appropriate sub-devices can > >> be enumerated. That EEPROM parsing is something that is currently done in > >> userspace due to the complexity and often vendor-specific nature of it. > >> > >> Many of these devices require quite a bit more configuration information than > >> can be passed along a `bind` call. I believe it has been suggested previously > >> that this riser-card scenario could also be solved with dynamic loading of DT > >> snippets, but that support seems simple pretty far from being merged. > > > > Then work to get the DT code merged! Do not try to create > > yet-another-way of doing things here if DT overlays is the correct > > solution here (and it seems like it is.) > > I don't think this is a case that fits the overlay model. > > We know what the description of the device is (which is what devicetree > is all about), but the device is to be shared between the Linux kernel > and some other entity, such as the firmware or another OS. The issue > to be resolved is how to describe that the device is to be shared (in > this case exclusively by the kernel _or_ by the other entity at any > given moment), and how to move ownership of the device between the > Linux kernel and the other entity. > > In the scenario presented by Zev, it is suggested that a user space > agent will be involved in deciding which entity owns the device and > to tell the Linux kernel when to take ownership of the device (and > presumably when to relinquish ownership, although we haven't seen > the implementation of relinquishing ownership yet). One could > imagine direct communication between the driver and the other > entity to mediate ownership. That seems like a driver specific > defined choice to me, though if there are enough different drivers > facing this situation then eventually a shared framework would > make sense. We have the bind/unbind ability today, from userspace, that can control this. Why not just have Linux grab the device when it boots, and then when userspace wants to "give the device up", it writes to "unbind" in sysfs, and then when all is done, it writes to the "bind" file and then Linux takes back over. Unless for some reason Linux should _not_ grab the device when booting, then things get messier, as we have seen in this thread. thanks, greg k-h