Hi Andrew, On 09/30/2015 03:29 PM, Andrew F. Davis wrote: > On 09/30/2015 12:28 PM, Mark Brown wrote: >> On Tue, Sep 29, 2015 at 01:58:41PM -0500, Andrew F. Davis wrote: >>> On 09/29/2015 01:38 PM, Mark Brown wrote: >> >>>> Oh, ick. The binding has a compatible string in the individual >>>> regulator bindings which is broken unless there really are lots of >>>> variants being configured via DT (which is just not the case here). >>>> It's not only more typing in the DT, >> >>> I don't see this, the alternative is matching to this >>> "regulator-compatible", >>> why not just use the existing compatible. >> >> No, you don't need to use regulator-compatible - that's deprecated. >> Just use the node names. >> > > Are we sure matching on node names is a good idea? Most are just arbitrary > names meant to be human readable and reference-able, giving them function > may lead to confusion. This seems to be why we have "compatible", for > specific > identification of node function. But I'm new so maybe I'm wrong? > >>>> it also means that we can't read >>>> back the configuration of the device unless the user goes and creates a >>>> DT which explicitly lists each regulator on the device which is >>>> unhelpful. We should be able to read back the configurations of all >>>> the >>>> regulators by simply listing the device in DT. >> >>> Could you expand this? I'm not sure I understand why we still cant do >>> this >>> using this new way. >> >> I'm not sure what there is to add... if the regulator is only >> instantiated when it features in the device tree then obviously it must >> be included in the device to be instantiated. >> > > This is already the case then, missing regulator nodes in old drivers > will not > get instantiated ether. And old drivers don't always store any more info > about > available regulators than mine does. > >>> Bindings should have compatible strings when they describe hardware >>> like this, >>> we can then do stuff like put the LDO and DCDC drivers in separate >>> modules for >>> instance, letting DT only load what we need. There are other benefits >>> like >>> not having to search our own DT binding for data, and we only get >>> probed for >>> devices in the DT. >> >> Only getting probed for device is in DT is exactly the problem here, and >> nothing prevents us having separate modules for things without >> enumerating everything in DT. >> > > Sure, but then we have to do some fiddling with MFD_CORE to do that work, > why not remove the dependency and let DT do that for DT only drivers? > >>> This also eliminates the need for MFD_CORE, we just call >>> of_platform_populate on ourself and DT helpers do the rest. Why hard >>> code >>> mfd_cell's and do matching when DT does the same thing. >> >> Putting everything in DT means more work for people integrating the >> device and means that we have to have a full and complete understanding >> of the device at the time we write the DT, including decions about how >> we split the functionality of the device between subsystems. >> > > We are not adding anything extra to the DT node, we just use the > "compatible" > string to identify and match the node vs. "regulator-name", or the nodes > name, > or whatever else has been used. The node is then just filled with the > standard > optional properties just like every other driver's node. > >>>> The fact that this is different to the bindings for other regulator >>>> drivers and requires more code ought to have been a big warning sign >>>> here :( >> >>> The binding is the same as the new tps65218 driver, different isn't >>> always >>> a warning sign. And what do you mean "requires more code"? This >>> regulator >>> driver is smaller than almost any other. DT takes care of everything for >>> us relating to hardware instantiation like it should. >> >> That's not a new driver, it's from more than a year ago (before or about >> the same time the helpers got added IIRC). >> > > Newer than a lot, I chose to base my driver off of that not just because > it is a similar TI part, but because it was the cleanest, simplest looking > one IMHO. The helpers would require more code (you need to know how many > regulators you have and call the helpers in a loop). > > I have another PMIC I'm about to push a driver for when this gets > figured out > that does the same thing, and it's more important I think to do it this > way for > this new part. Some of the new regulators are designed without a dedicated > SOC or board to power in mind, so they will have a whole bunch for > different > regulator types on one chip and it will be up to the designer to pick > which ones > to turn on and use. With this DT approach you can just list the ones you > want, > and we may even be able to split different types into different modules, > then > we can use the same regulator driver in different spins of the PMIC with > more > or less of that type of regulator, we just add that same node under a > different > parent PMIC driver. > That's all make sense only if you have all information required for driver probing in DT. But you don't, because a lot of information are still hard-coded in driver: - regulator IDs, - registers required to control regulator - ranges information and etc. So, you will not be be able to easily separate some regulator and reuse it with another PMIC. Actually, both approaches have right to live and which one to select depends on functionality which has to be implemented by regulator driver. For example, with this (your) approach the separate platform device will be created for each regulator, so, if needed, corresponding driver's callback (.remove/shutdown and dev_pm_ops) can be implemented individually for each regulator. Do you need this? As for me, such approach is reasonable if you have devices which represents one/two regulators max. The disadvantage of this approach is that you need separate compatible string fore each regulator - and this, actually, is usually banned by DT maintainers ;) For devices, like this one (or twl, or plamas) which has dozens of regulators it simply make no sense :) Just imaging that tomorrow tps65912-1 will be released and it will be fully compatible with tps65912, but with one exception - it will have dcdc5 and all followed registers offsets will be shifted. What will you do? All this code, based on compatible strings, will not work any more. And you will need to introduce another bunch of compatible strings.. By the way, this implementation is not optimal any way :) - you are using compatible string to get tps65912_pmic_regs structure - then tps65912_pmic_regs is used to get regulator ID - and then, finally, regulator ID is used to get regulator_desc structure And, finally, pay attention pls, that regulator_of_get_init_data() is called from from regulator_register(). So, in my opinion, the tps65217-regulator.c driver is really good example of how it could be done. -- regards, -grygorii -- To unsubscribe from this list: send the line "unsubscribe linux-gpio" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html