On 05/18/2012 01:27 PM, Johan Hovold wrote: > On Wed, May 16, 2012 at 03:21:14PM +0100, Jonathan Cameron wrote: >> On 5/16/2012 2:05 PM, Johan Hovold wrote: >>> On Tue, May 15, 2012 at 09:00:46PM +0100, Jonathan Cameron wrote: >>>> On 05/15/2012 05:44 PM, Johan Hovold wrote: >>>>> On Tue, May 08, 2012 at 02:47:19PM +0100, Jonathan Cameron wrote: >>>>>> On 5/3/2012 5:36 PM, Johan Hovold wrote: >>>>>>> On Thu, May 03, 2012 at 12:40:10PM +0100, Jonathan Cameron wrote: >>>>>>>> On 5/3/2012 11:26 AM, Johan Hovold wrote: >>>>>>>>> Add sub-driver for the ambient light sensor interface on National >>>>>>>>> Semiconductor / TI LM3533 lighting power chips. >>>>>>>>> >>>>>>>>> The sensor interface can be used to control the LEDs and backlights of >>>>>>>>> the chip through defining five light zones and three sets of >>>>>>>>> corresponding brightness target levels. >>>>>>>>> >>>>>>>>> The driver provides raw and mean adc readings along with the current >>>>>>>>> light zone through sysfs. A threshold event can be generated on zone >>>>>>>>> changes. >>>>>>>> Code is fine. Pretty much all my comments are to do with the interface. >>>>>>> [...] >>>>>>> >>>>>>>>> diff --git a/drivers/staging/iio/Documentation/sysfs-bus-iio-light-lm3533-als b/drivers/staging/iio/Documentation/sysfs-bus-iio-light-lm3533-als >>>>>>>>> new file mode 100644 >>>>>>>>> index 0000000..9849d14 >>>>>>>>> --- /dev/null >>>>>>>>> +++ b/drivers/staging/iio/Documentation/sysfs-bus-iio-light-lm3533-als >>>>>>>>> @@ -0,0 +1,62 @@ >>>>>>>>> +What: /sys/bus/iio/devices/iio:deviceX/gain >>>>>>>>> +Date: April 2012 >>>>>>>>> +KernelVersion: 3.5 >>>>>>>>> +Contact: Johan Hovold<jhovold@xxxxxxxxx> >>>>>>>>> +Description: >>>>>>>>> + Set the ALS gain-resistor setting (0..127) for analog input >>>>>>>>> + mode, where >>>>>>>>> + >>>>>>>>> + 0000000 - ALS input is high impedance >>>>>>>>> + 0000001 - 200kOhm (10uA at 2V full-scale) >>>>>>>>> + 0000010 - 100kOhm (20uA at 2V full-scale) >>>>>>>>> + ... >>>>>>>>> + 1111110 - 1.587kOhm (1.26mA at 2V full-scale) >>>>>>>>> + 1111111 - 1.575kOhm (1.27mA at 2V full-scale) >>>>>>>>> + >>>>>>>>> + R_als = 2V / (10uA * gain) (gain> 0) >>>>>>>> Firstly, no magic numbers. These are definitely magic. >>>>>>> Not that magic as they're clearly documented (in code and public >>>>>>> datasheets), right? What would you prefer instead? >>>>>> The numbers on the right of the - look good to me though then this isn't >>>>>> a gain. (200kohm) and the infinite element is annoying. Why not >>>>>> compute the actual gains? >>>>>> Gain = (Rals*10e-6)/2 and use those values? Yes you will have to do >>>>>> a bit of fixed point maths in the driver but the advantage is you'll >>>>>> have real values that are standardizable across multiple devices >>>>>> and hence allow your device to be operated by generic userspace >>>>>> code. Welcome to standardising interfaces - my favourite occupation ;) >>>>>> >>>>>>>> Secondly see in_illuminance0_scale for a suitable existing attribute. >>>>>>> I didn't consider scale to be appropriate given the following >>>>>>> documentation (e.g, for in_voltageY_scale): >>>>>> sorry I just did this to someone else in another review (so I'm >>>>>> consistently wrong!) >>>>>> >>>>>> in_voltageY_calibscale is what I should have said. That one applies a >>>>>> scaling before the raw reading is generated (so in hardware). >>>>> >>>>> Ok, then calibscale is the appropriate attribute for the resistor >>>>> setting. But as this is a device-specific hardware-calibration setting >>>>> I would suggest using the following interface: >>>>> >>>>> What: /sys/bus/iio/devices/iio:deviceX/in_illuminance_calibscale >>>>> Description: >>>>> Set the ALS calibration scale (internal resistors) for >>>>> analog input mode, where the scale factor is the current in uA >>>>> at 2V full-scale (10..1270, 10uA step), that is, >>>>> >>>>> R_als = 2V / in_illuminance_calibscale >>>>> >>>>> This setting is ignored in PWM mode. >>>> This is a generic element that really ought to just fit in with the >>>> equivalent in sysfs-bus-iio for calibscan. It's a ratio, so it should >>>> be unit free for starters. >>> >>> I'm starting to doubt that calibscale is really appropriate in this case. >>> >>> For starters, the description in sysfs-bus-iio doesn't really apply: >>> >>> "Hardware applied calibration scale factor. (assumed to fix >>> production inaccuracies)." >> Hmm.. if you really don't like this, Michael Hennerich had a case >> where this made even less sense, so we now have hardwaregain. >> Use that if you like... > > I really think that this should remain a device specific attribute as I > originally suggested. It's an integration parameter that needs to be set > precisely depending on the actual hardware setup (which analog light > sensor and other external components). Then it shouldn't be exposed to userspace. If there is reason to vary it from userspace then it is a calibration parameter and should be treated like the other ones we have, if not it should be done from dt or platform data. > > The lm3533 also supports two types of light sensors: pwm- and analog- > output ones. The resistor select settings only applies when in analog > mode as the input is always high impedance otherwise. Thus a generic > attribute (such as calibscale or hardware gain) shouldn't be used as it > will have no effect whatsoever in PWM-mode. > > I'm thus back at my original proposal, albeit with a different name (I > think a lot of this discussion could have been avoided had I not > misnamed the parameter "gain"): > > What: /sys/bus/iio/devices/iio:deviceX/r_select > Description: > Set the ALS internal pull-down resistor for analog input mode > (1..127), such that, > > R_als = 200000 / r_select (ohm) > > This setting is ignored in PWM-mode (input is always high > impedance in PWM-mode). > > I don't think much is gained from using ohm as the unit: it just adds > complexity and the selected resistor setting will likely not match the > input value anyway. It's better that the chip integrators have full > control over which resistor setting is actually used so that it matches > external components. This smacks of something that should never be exposed to users. I'd hide it away in platform data. > > >>> The resistor setting of the lm3533 is about fitting an external analog >>> light sensor to the lm3533 als interface (which is basically just an adc >>> with some extra logic), that is, it is used to match the output current >>> of the chosen sensor so that the ADC measures 2V at full LUX. >>> >>> It's not a setting to calibrate "inaccuracies", but rather an >>> integration parameter that is set once when the characteristics of the >>> light sensor is known. (Sure, it could be used later to increase >>> sensitivity as well, but the main purpose is to fit a new light sensor >>> to a generic input interface.) >>> >>>>> [...] >>>>> >>>>>>>>> +What: /sys/bus/iio/devices/iio:deviceX/target[m]_[n] >>>>>>>>> +Date: April 2012 >>>>>>>>> +KernelVersion: 3.5 >>>>>>>>> +Contact: Johan Hovold<jhovold@xxxxxxxxx> >>>>>>>>> +Description: >>>>>>>>> + Set the target brightness for ALS-mapper m in light zone n >>>>>>>>> + (0..255), where m in 1..3 and n in 0..4. >>>>>>>> Don't suppose you could do a quick summary of what these zones are >>>>>>>> and why there are 3 ALS-mappers? I'm not getting terribly far on a >>>>>>>> quick look at the datasheet! >>>>>>> Of course. The average adc readings are mapped to five light zones using >>>>>>> eight zone boundary registers (4 boundaries with hysteresis) and a set >>>>>>> of rules. >>>>>> This is going to be fun. We'll need the boundaries and attached >>>>>> hysteresis attributes to fully specify these (nothing would indicate >>>>>> that hysterisis is involved otherwise). >>>>> >>>>> You can't define the hysteresis explicitly with the lm3533 register >>>>> interface, rather it's is defined implicitly in case threshY_falling is >>>>> less than threshY_rasising. >>>>> >>>>> So the raising/falling attributes should be enough, right? >>>> Nope, because they don't tell a general userspace application what is >>>> going on. Without hysterisis attributes it has no way of knowing there >>>> is hysterisis present. >>> >>> Well an application could simply look at the difference between raising >>> and falling to determine the hysteresis? >> Only if it knows it has your sensor. For other sensors it could be >> completely separate or not present. If the parameter is missing >> assumption is that there is no hysterisis. >>> >>> It gets more complicated as the lm3533 allow the raising threshold to >>> be lower than the falling. It appears the device is using whichever >>> register is lower for the falling threshold. I guess I should compensate >>> for this in the driver. >> That's nasty. >>> >>> Furthermore, you can define threshold 1 to be lower than threshold 0, >>> effectively preventing zone 1 to be reached. In this case, dropping >>> below thres1_falling gives zone 0, and raising above thres1_raising gives >>> zone 2. In particular, no threshold event is generated when >>> thres0_{falling/raising} is passed in either direction. But perhaps this >>> should just be documented as a feature/quirk of the device. >> Seems sensible... >>> >>>> Feel free to make them read only though. >>> >>> So you're suggesting something like: >>> >>> events/in_illuminance0_threshY_falling_value >>> events/in_illuminance0_threshY_raising_value >>> events/in_illuminance0_threshY_hysteresis >>> >>> where hysteresis is a read-only attribute whose value is >>> >>> threshY_raising_value - threshY_falling_value >> yes. Annoying it may be but it matches existing interface. > > I'm posting a v4 which includes the above proposal for resistor select. > I've also added the hysteresis attributes as requested and fixed the > device threshold quirkiness mentioned above (the device is using > whichever register value is smaller as the falling threshold). cool. I'll take a look soon. > > Thanks, > Johan _______________________________________________ devel mailing list devel@xxxxxxxxxxxxxxxxxxxxxx http://driverdev.linuxdriverproject.org/mailman/listinfo/devel