>> My main issue is the process of freeing ownership of a pin(s) having >> another driver, in this case gpio, to take ownership then free that >> ownership back to the default state, in this case it would be back to >> i2c. >> >> I have tried calling pinmux_disable_setting() and then claiming the >> gpios then enabling them for recovery then disabling them again. This >> causes lots of warnings and some cases the full ownership is not >> transferred. >> >> It seems that what I am attempting to achieve is not doable currently. >> Is this the case or am I missing some extra things needing to prepare >> for this action? > > There are several other i2c bus drivers doing this already, for example > drivers/i2c/busses/i2c-imx.c > > The idea is to have some different pinctrl states and move between > them explicitly in the driver to move pins from i2c mode to GPIO > mode and back. > > The imx driver depend on the ability of the i.MX pin controller to use > the pins as a certain function and GPIO at the same time. But that's because this is a limitation of the imx i2c controller. Usually, if i2c controllers don't have a hardware bus recovery (which is broken in most designs..) they usually have an override bit to bit bang SDA and SCL manually. Do the microchip cores have such bits? Fun fact: also the layerscape SoCs use the imx i2c cores. It's just that layerscape SoCs doesn't support dynamic pinmuxing... -michael > This is due to the imx pin controller not setting the .strict attribute > on the struct pinmux_ops so that pins can be used in parallel for > i2c and GPIO and gpiod_get() will not fail. But the Atmel driver does > not set this so you should be fine I think.