From mboxrd@z Thu Jan 1 00:00:00 1970 From: =?UTF-8?B?VmVzYSBKw6TDpHNrZWzDpGluZW4=?= Subject: Re: Generic RGB LED support was Re: [PATCH 2/2] leds: lp5024: Add the LP5024/18 RGB LED driver Date: Wed, 9 Jan 2019 09:11:03 +0200 Message-ID: <1c53d379-64e5-4e72-5236-de8db77a5048@gmail.com> References: <20190104201256.GA2931@amd> <20190104220726.GA12395@amd> <4cf79414-578e-eea7-4f46-fc8789206988@gmail.com> <20190105123146.GA16354@amd> <8044cdd9-b9b3-fddd-6106-184b906859e2@gmail.com> <20190105221254.GA22322@amd> <20190108225952.GA13299@amd> Mime-Version: 1.0 Content-Type: text/plain; charset=utf-8; format=flowed Content-Transfer-Encoding: 8bit Return-path: In-Reply-To: <20190108225952.GA13299@amd> Content-Language: en-US Sender: linux-kernel-owner@vger.kernel.org To: Pavel Machek , Jacek Anaszewski Cc: Dan Murphy , robh+dt@kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-leds@vger.kernel.org List-Id: linux-leds@vger.kernel.org Hi Pavel, On 09/01/2019 0.59, Pavel Machek wrote: > Hi! > >>>>> Grab yourself an RGB LED and play with it; you'll see what the >>>>> problems are. It is hard to explain colors over email... >>>> >>>> Video [0] gives some overview of lp5024 capabilities. >>>> >>>> I don't see any problems in exposing separate red,green,blue >>>> files and brightness for the devices with hardware support for >>>> that. >>> >>> Well, that's what we do today, as three separate LEDs, right? >> >> No. It doesn't allow for setting color intensity by having >> the color fixed beforehand. Below is relevant excerpt from >> the lp5024 documentation. This is not something that can be >> mapped to RGB color space, but rather to HSV/HSL, with the >> reservation that the hardware implementation uses PWM >> for setting color intensity. > > So they have feature where they have independent controls for each > channel, then one common control per three channels. Other chips have > common control for all the LEDs, for example. We don't support that > currently; lets focus on the RGB thing first. > >>> I don't have problem with that, either; other drivers already do >>> that. He's free to use existing same interface. >>> >>> But that is insufficient, as it does not allow simple stuff, such as >>> turning led "white". >>> >>> So... perhaps we should agree on requirements, first, and then we can >>> discuss solutions? >>> >>> Requirements for RGB LED interface: >>> >>> 1) Userspace should be able to set the white color >>> >>> 2) Userspace should be able to arbitrary color from well known list >>> and it should approximately match what would CRT, LCD or OLED monitor display >> >> The difference is that monitor display driver is pre-calibrated >> for given display by the manufacturer. With the LED controllers the >> manufacturer has no control over what LEDs will be connected to the >> iouts. Therefore it should be not surprising that colors produced >> by custom LEDs are not as user would expect when comparing to >> the RGB color displayed on the monitor display. > > It is true that _chip_ manufacturer can not know what LEDs will be > connected. But _system_ manufacturer can and should know that, and > should tell be able to tell us in the dts. > >> This renders your requirement 2) infeasible with use of custom LEDs >> any fixed algorithm, since the final effect will always heavily depend >> on the LED circuit design. > > Depending on LED circuit design and actual LEDs connected is okay.. we > just need to get information from _system_ designer (not chip > designer), and pass it to a place where color is computed. > >>> a) RGB LEDs are usually not balanced. Setting 100% PWM on >>> red/green/blue channels will result in nothing close to white >>> light. In fact, to get white light on N900, blue and green channel's >>> PWM needs to be set pretty low, as in 5%. >>> >>> b) LED class does not define any relation between "brightness" in >>> sysfs and ammount of light in lumens. Some drivers use close to linear >>> relation, some use exponential relation. Human eyes percieve logarithm >>> of lumens. RGB color model uses even more complex function. >> >> One general question: do you have any solutions in store? > > I played with LEDs on N900 over the weekend, yes. > > And getting reasonable colors seems to be possible, when a) and b) are > solved... a) seems to be more important than b). > > Now... this does not tell us how we should design kernel<->user > interface, but it should tell us that main goals - 1) and 2) are > possible. I was thinking about this calibration and color correctness thing and I am thinking a bit that it should be partly in kernel and partly in user space. For displays and printers there are defined icc-profiles that define how colors are mapped to particular device in cases when you want to have accurate color representation. In theory to get accurate LED output one could model LEDs with icc profile and then pick your color and convert it with icc profile to actual raw hardware values. Then this raw hardware value could be written from user space to kernel. In kernel we could provide raw hardware value support and in case of PWM IC controlled LEDs we could provide curve mapping to linearize the behavior of values entered to enable use in cases where close enough is good enough. Eg. if you want to have "white" then you have your color space picker like sRGB(255,255,255). Then you would define icc profile it might translate to hardware raw values 253%, 230%, 225%. Then you would write this to kernel with: # set red, green and blue color elements echo "253 230 225" > color In this case however behavior of brightness node is challening in accuracy domain. Britghtness value 255 would of course provide 1:1 mapping in this case. To go right to correct color and brightness at one go we could have optional brightness at the end of color value array: # set red, green and blue color element and brightness setting: echo "253 230 225 255" > color If you want to have fancier behavior for brightness in your system then we probably need to have configurable brightness model. - hardware, like in lp5024 case would map to hardware register (would be omitted if there is no such register) - onoff, would act like light switch ON/OFF eg. either configured value or all zeroes. - scaled, would multiply the color elements - hsl, would use hsl formula - and this can be extended later with some other models and allows us to start with with some models now. We could define this in devicetree and from sysfs a bit like with trigger: $ cat brightness_model [hardware] onoff scaled hsl $ echo "hsl" > brightness_model $ cat brightness_model hardware onoff scaled [hsl] Then we could have "color_names" or such sysfs entry to determine allow user space auto detection of led elements): $ cat color_names red green blue I suppose this model would provide flexibilty for multiple cases. Make it simple for most uses, allow accuracy with icc profiles for advanced users, would allow atomic color setting. I have updated (not yet in github) my tests to use color array model and color_names already and can play with brightness_model thing if this is something that is good path? What do you think? Thanks, Vesa Jääskeläinen