On 08/21/2013 11:13 AM, Sylwester Nawrocki wrote:
> On 08/21/2013 10:24 AM, Hans Verkuil wrote:
>>>>> +static const char * const s5k4e5_supply_names[] = {
>>>>> + "svdda",
>>>>> + "svddio"
>>>>> +};
>>>>
>>>> I'm no regulator expert, but shouldn't this list come from the DT or
>>>> platform_data? Or are these names specific to this sensor?
>>>
>>> This is a list of regulator input (aka supply) names. In other words those
>>> are usually names of pins of the consumer device (s5k4e5 chip in this
>>> case) to which the regulators are connected. They are used as lookup keys
>>> when looking up regulators, either from device tree or lookup tables.
>>
>> How does that work if you have two of these sensors? E.g. in a stereo-camera?
>> Can the regulator subsystem map those pins to the correct regulators?
>>
>> Again, sorry for my ignorance in this area as I've never used it. I just
>> want to make sure this information is stored in the right place.
>
> The _voltage regulator supply names_ are fixed but _voltage regulator_
> is matched with a consumer device based on the supply name and name of
> the consumer device. See usage of struct regulator_consumer_supply, e.g.
> in arch/arm/mach-s5pv210/mach-goni.c board file. This is an example of
> non-dt system, and something that would presumably be created by a driver
> like em28xx if it wanted to use that sensor. I.e. em28xx would first
> need to create a voltage regulator device and then pass in a
> struct regulator_init_data the list of voltage supply definitions for
> the consumers to be able to use this regulator.
>
>
> In case of device tree the voltage supplies are specified in
> a DT node, which can be referenced by subsystems/drivers through
> struct device::of_node.
>
> reg_a: voltage-regulator-a {
> compatible = "regulator-fixed";
> regulator-name = "REG_5V_A";
> regulator-min-microvolt = <5000000>;
> regulator-max-microvolt = <5000000>;
> gpio = <...>;
> ...
> };
>
> reg_b: voltage-regulator-b {
> compatible = "regulator-fixed";
> regulator-name = "REG_3.3V_B";
> regulator-min-microvolt = <3300000>;
> regulator-max-microvolt = <3300000>;
> gpio = <...>;
> ...
> };
>
> s5k4e5@20 {
> compatible = "samsung,s5k4e5";
> reg = <0x20>;
> ...
> svdda-supply = <®_a>;
> svddio-supply = <®_b>;
> ...
> };
I forgot to mention that each of the two sensors would of course have
its corresponding DT node, but since they both have same slave address
would likely be attached to separate I2C bus controllers, e.g.
/* I2C bus controller node */
i2c-gpio-0 {
compatible = "i2c-gpio";
gpios = <...>;
...
s5k4e5@20 {
compatible = "samsung,s5k4e5";
reg = <0x20>;
...
svdda-supply = <®_a>;
svddio-supply = <®_b>;
...
};
};
i2c-gpio-1 {
compatible = "i2c-gpio";
gpios = <...>;
...
s5k4e5@20 {
compatible = "samsung,s5k4e5";
reg = <0x20>;
...
svdda-supply = <®_a>;
svddio-supply = <®_b>;
...
};
};
So these sensors have same regulator supply names but different i2c_client
(device) names, since they are children of different I2C bus adapters.
> The regulator supply names are part of name of the property defining
> a voltage regulator for a device. Properties in form of
> [supply_name]-supply are parsed by the regulator core when consumer
> device driver calls regulator_get(). This way drivers don't need to
> care whether the system is booted from Device Tree or not. They just
> keep using the regulator API and the regulator supply lookup is done
> the the core based on data in a board file or in device tree blob.
>
> This is similar to the clock API operation, except that clkdev entries
> are usually defined per SOC/MCU rather than per board.
>
> I hope it helps. I looked yesterday at the em28xx driver. Do you happen
> to know if there is a schematic for one of devices this driver supports ?
> Sorry, I didn't dig to hard yet.
> At first sight I thought it may look a bit problematic and require
> significant amount of code to define regulators for the all supported
> sensors by this driver, should it be made to work with sensors that
> are currently known to be used only in embedded systems and use the
> regulators API. However it should be as simple as defining at least one
> regulator device and attaching regulator supply list definition for all
> supported sensors. Thus not that scary at all. And the subdev drivers
> can continue to use regulator API, without a need for any hacks making
> it optional through e.g. platform_data flag. And IMO if the regulator
> API is disabled currently by some x86 distros it should be enabled,
> as long as some drivers need it.
>
> --
> Regards,
> Sylwester
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