Hi, On 8-Nov-24 5:42 PM, Sakari Ailus wrote: > Hi Andy, > > On Fri, Nov 08, 2024 at 06:28:05PM +0200, Andy Shevchenko wrote: >> On Fri, Nov 08, 2024 at 04:06:39PM +0000, Sakari Ailus wrote: >>> On Fri, Nov 08, 2024 at 04:50:24PM +0200, Andy Shevchenko wrote: >>>> The driver of OmniVision OV7251 expects "enable" pin instead of "reset". >>>> Remap "reset" to "enable" and update polarity. >>>> >>>> In particular, the Linux kernel can't load the camera sensor >>>> driver on Microsoft Surface Book without this change: >>>> >>>> ov7251 i2c-INT347E:00: supply vdddo not found, using dummy regulator >>>> ov7251 i2c-INT347E:00: supply vddd not found, using dummy regulator >>>> ov7251 i2c-INT347E:00: supply vdda not found, using dummy regulator >>>> ov7251 i2c-INT347E:00: cannot get enable gpio >>>> ov7251 i2c-INT347E:00: probe with driver ov7251 failed with error -2 >> >> ... >> >>> Should this be cc'd to stable? I guess it's not exactly a fix in the driver >>> but a BIOS bug, but it can be worked around in the driver. :-) >> >> It's everything, but a BIOS bug, it's DT bug and whoever first introduced that >> GPIO in the driver. Even in the DT present in kernel the pin was referred as > > How is that a DT (binding?) bug? Since it is not following the datasheet name for the pin, it arguably is a DT binding bug But whatever, the whole discussion about if it is a bug and whose bug it is is not useful. Since we cannot go back in time and change the DT binding DT and ACPI are simply going to disagree on the name and we will need something like this patch. >> CAM_RST_N, which is exactly how this patch names it. >> >> OTOH it's a fix to the driver that never worked for ACPI case, so there never >> was a regression to fix. > > It probably worked just fine, just not with that Surface Book. > > The polarity of the enable gpio appears to be set wrong in devm_gpiod_get() > call. I can post a patch but cannot test it. That is on purpose, at least the polarity if the devm_gpiod_get(..., "reset", ...) is inverted from the existing one for "enable" because reset needs to be inactive/disabled to enable the sensor. > Similarly, you should actually set the flags to GPIOD_OUT_HIGH as reset > should be enabled here -- it's disabled only in power_on() as part of the > power-on sequence. This seems to be a pre-existing bug in this driver, which currently starts driving enable high, enabling the sensor at gpiod_get() time. Note that fixing this is tricky-ish, if the pin was already high at gpiod_get() time then changing the gpiod_get() to drive it low will result in it only being driven low for a very short time since ov7251_set_power_on() will get called almost immediately after this and it will drive the pin high again without any delays. So if the pin was already high then making it low at gpiod_get() time will result in a very short spike to low, immediately followed by the pin going high again. This short spike may very well leave the sensor in a confused state rather then properly resetting it... OTOH if the pin was already high with the old code where gpiod_get("enable") requests the pin as high (so it is left high), then the existing state of the sensor is simply preserved (no reset) which should be fine for the initial probe which just checks the id register. And if the pin was low then it is driven high once and kept high, so again no glitch / spike. So arguably the old code is fine. If this is changed then a delay needs to be added to ensure that the pin is guaranteed to be driven low for some minimum amount of time. Regards, Hans