> > Any why is your PHY special, in that is does care about out of range > > delays, when others using new the new core helper don't? > > We are not rounding to nearest here. Basically the helper works to find the > best match > > If the delay passed in is less than or equal to the smallest delay then > return the smallest delay index > > If the delay passed in is greater then the largest delay then return the max > delay index + /* Find an approximate index by looking up the table */ + if (delay > delay_values[i - 1] && + delay < delay_values[i]) { + if (delay - delay_values[i - 1] < delay_values[i] - delay) + return i - 1; + else + return i; This appears to round to the nearest value when it is not an exact match. The documentation is a hint to the DT developer what value to put in DT. By saying it rounders, the developer does not need to go digging through the source code to find an exact value, otherwise -EINVAL will be returned. They can just use the value the HW engineer suggested, and the PHY will pick whatever is nearest. > Not sure what you mean about this PHY being special. This helper is > not PHY specific. As you said, if out of range, the helper returns the top/bottom value. Your PHY is special, the top/bottom value is not good enough, you throw an error. The point of helpers is to give uniform behaviour. We have one line helpers, simply because they give uniform behaviour, rather than have each driver do it subtlety different. But it also means drivers should try to not add additional constraints over what the helper already has, unless it is actually required by the hardware. > After I think about this more I am thinking a helper may be over kill here > and the delay to setting should be done within the PHY driver itself The helper is useful, it will result in uniform handling of rounding between DT values and what the PHY can actually do. But please also move your range check and error message inside the helper. Andrew