From mboxrd@z Thu Jan 1 00:00:00 1970 From: arnd@arndb.de (Arnd Bergmann) Date: Thu, 16 Jan 2014 15:02:11 +0100 Subject: How to support SDIO wifi/bt in DT In-Reply-To: <20140116133649.GV15937@n2100.arm.linux.org.uk> References: <20140116133649.GV15937@n2100.arm.linux.org.uk> Message-ID: <3215037.8HVCjAeS8g@wuerfel> To: linux-arm-kernel@lists.infradead.org List-Id: linux-arm-kernel.lists.infradead.org On Thursday 16 January 2014 13:36:49 Russell King - ARM Linux wrote: > > The Wifi/BT chip can only be detected via probing the SDIO connection, and > only when the device has been powered up and released from reset - so we > have to power up and reset the bcrm device before we probe via the SDIO > bus. This is indeed a common problem, and while we've talked about solving it in the past, nothing has happened code-wise. It indeed needs an implementation in the sdio framework. > While it's possible to attach the power supply for the Wifi/BT chip to the > vmmc-supply property of the host, it's not possible to do that with the > oscillator supply. Neither is there any provision for manipulating the > GPIOs to deal with the resets. > > I can't find any examples of anything similar in our existing set of DT > files, so I suspect either this is a device which no one supports on any > DT platform, or there's some clever way to handle this. The former. > How do other people support this in DT? Do they hack up some platform > specific code (which isn't nice)? What other solutions are there to get > around this problem? How does this kind of thing get represented in DT? > > (Don't suggest adding DT support to the bcrmfmac driver - this is a > chicken-and-egg problem. The driver isn't being probed at the moment > because the device is powered down and/or held in reset, so is > undetectable. The kernel needs to power it up and release the reset > so it becomes detectable.) The problem is two-fold: a) we need to add a generic mechanism to the SDIO probe code to allow specifying clocks, regulators and resets (possibly more) for an SDIO endpoint that get enabled before the probe starts. This parts needs a DT binding for SDIO slots as well as code. b) We need to add a way to attach a device_node to an sdio_func, so that a function driver can find additional DT properties. This part should be relatively simple once (a) is done and should only need a little code but no new binding. The code would be similar to what we do for amba, i2c or spi devices. Note that the same problem exists for a number of other discoverable buses that get used in nondiscoverable ways, e.g. USB, PCI, or even SCSI. It's normally a spec violation if those devices are wired up like this, but of course we still want to support the hardware. Arnd