On 11/28/2012 01:47 PM, Andy Green wrote: > On 11/28/2012 07:13 PM, the mail apparently from Roger Quadros included: >> On 11/27/2012 09:22 PM, Andy Green wrote: >>> On 11/28/2012 02:09 AM, the mail apparently from Alan Stern included: >>>> On Wed, 28 Nov 2012, Andy Green wrote: >>>> >>>>>> Greg's advice was simply not to rely on pathnames in sysfs because >>>>>> they >>>>>> aren't fixed in stone. That leaves plenty of other ways to approach >>>>>> this problem. >>>>> >>>>> It's sage advice, but there is zero code provided in my patches that >>>>> "relies on pathnames in sysfs". >>>> >>>> In your 1/5 patch, _device_path_generate() concatenates device name >>>> strings, starting from a device root and separating elements with '/' >>>> characters. Isn't that the same as a sysfs pathname? >>> >>> It's nothing to do with sysfs... yes some unrelated bits of sysfs also >>> walk the device path. If we want to talk about how fragile the device >>> path is as an id scheme over time we need to talk about likelihood of >>> individual device names changing, not "sysfs". Anyway --> >>> >>>>>> Basically, what you want is for something related to device A (the >>>>>> regulator or the GPIO) to happen whenever device B (the ehci-omap.0 >>>>>> platform device) is bound to a driver. The most straightforward >>>>>> way to >>>>>> arrange this is for A's driver to have a callback that is invoked >>>>>> whenever B is bound or unbound. The most straightforward way to >>>>>> arrange _that_ is to allow each platform_device to have a list of >>>>>> callbacks. >>>>> >>>>> Sorry I didn't really understand this proposal yet. You want "A", the >>>>> regulator, driver to grow a callback function that gets called when >>>>> the >>>>> targeted platform_device ("B", ehci-omap.0) probe happens. Could you >>>>> expand what the callback prototype or new members in the struct might >>>>> look like? It's your tuple thing or we pass it an opaque pointer that >>>>> is the struct regulator * or suchlike? >>>> >>>> Well, it won't be exactly the same as the tuple thing because no >>>> strings will be involved, but it would be similar. The callback would >>>> receive an opaque pointer (presumably to the regulator) and a device >>>> pointer (the B device). >>> >>> OK. So I try to sketch it out iteractively to try to get in sync: >>> >>> device.h: >>> >>> enum asset_event { >>> AE_PROBED, >>> AE_REMOVED >>> }; >>> >>> struct device_asset { >>> char *name; /* name of regulator, clock, etc */ >>> void *asset; /* regulator, clock, etc */ >>> int (*handler)(struct device *dev_owner, enum asset_event >>> asset_event, struct device_asset *asset); >>> }; >>> >>> struct device { >>> ... >>> struct device_asset *assets; >>> ... >>> }; >>> >>> >>> drivers/base/dd.c | really_probe(): >>> >>> ... >>> struct device_asset *asset; >>> ... >>> asset = dev->assets; >>> while (asset && asset->name) { >>> if (asset->handler(dev, AE_PROBED, asset)) { >>> /* clean up and bail */ >>> } >>> asset++; >>> } >>> >>> /* do probe */ >>> ... >>> >>> >>> drivers/base/dd.c | __device_release_driver: (is this really the best >>> place to oppose probe()?) >>> >>> ... >>> struct device_asset *asset; >>> ... >>> >>> /* call device ->remove() */ >>> ... >>> asset = dev->assets; >>> while (asset && asset->name) { >>> asset->handler(dev, AE_REMOVED, asset); >>> asset++; >>> } >>> ... >>> >>> >>> board file: >>> >>> static struct regulator myreg = { >>> .name = "mydevice-regulator", >>> }; >>> >>> static struct device_asset mydevice_assets[] = { >>> { >>> .name = "mydevice-regulator", >>> .handler = regulator_default_asset_handler, >>> }, >>> { } >>> }; >>> >>> static struct platform_device mydevice = { >>> ... >>> .dev = { >>> .assets = mydevice_assets, >>> }, >>> ... >>> }; >>> >> >> From Pandaboard's point of view, is mydevice supposed to be referring to >> ehci-omap, LAN95xx or something else? >> >> Strictly speaking, the regulator doesn't belongs neither to ehci-omap >> nor LAN95xx. It belongs to a power domain on the board. And user should >> have control to switch it OFF when required without hampering operation >> of ehci-omap, so that the other USB ports are still usable. > > I'd prefer to deal with that after a try#1 with regulator, I didn't see > any code about power domain in there right now. There's a lot to get > consensus on already with this series. Sure. I meant power domain in the general sense and not referring to any code or framework in the kernel. It could as well be implemented using the existing regulator framework. > > Notice that these assets are generic, I will provide clk and regulator > handlers with try#1, and working examples for Panda case with both, but > presumably power domain can fold into it as well. > > Since I am on usb-next and there's nothing to be seen about power > domains, what is the situation with that support? > Looking around there seems to be some power domain framework tied to runtime PM in drivers/base/power/domain.c The idea is that the power domain is powered on/off by the runtime PM core when the device is runtime resumed/suspended. I think this is meant for SoC power domains and appears to be too complicated for a GPIO based regulator control. -- regards, -roger -- To unsubscribe from this list: send the line "unsubscribe linux-omap" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html