Re: [PATCH 5/9] rust: regulator: add Regulator Driver abstraction

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On Thu, Dec 19, 2024 at 2:26 AM Danilo Krummrich <dakr@xxxxxxxxxx> wrote:
>
> On Wed, Dec 18, 2024 at 03:36:35PM -0800, Fabien Parent wrote:
> > From: Fabien Parent <fabien.parent@xxxxxxxxxx>
> >
> > This commit adds a Rust abstraction to write Regulator drivers. Only
> > the features used by the NCV6336 driver were added to this abstraction.
> >
> > Signed-off-by: Fabien Parent <fabien.parent@xxxxxxxxxx>
> > ---
> >  MAINTAINERS                     |   1 +
> >  rust/bindings/bindings_helper.h |   1 +
> >  rust/kernel/regulator.rs        |   4 +-
> >  rust/kernel/regulator/driver.rs | 850 ++++++++++++++++++++++++++++++++++++++++
> >  4 files changed, 855 insertions(+), 1 deletion(-)
> >
> > diff --git a/MAINTAINERS b/MAINTAINERS
> > index 90c231f0aa7381aa8d206fb94c5d1f013dfcae41..87da43251bf0f20d2b5831345778ead592c407dc 100644
> > --- a/MAINTAINERS
> > +++ b/MAINTAINERS
> > @@ -25160,6 +25160,7 @@ F:    drivers/regulator/
> >  F:   include/dt-bindings/regulator/
> >  F:   include/linux/regulator/
> >  F:   rust/kernel/regulator.rs
> > +F:   rust/kernel/regulator/
> >  K:   regulator_get_optional
> >
> >  VOLTAGE AND CURRENT REGULATOR IRQ HELPERS
> > diff --git a/rust/bindings/bindings_helper.h b/rust/bindings/bindings_helper.h
> > index b18d772bc3a0e78d749cc9e5ae81a4237a57f8c5..124129daea73c143c919d05814fc02bb4460ddfd 100644
> > --- a/rust/bindings/bindings_helper.h
> > +++ b/rust/bindings/bindings_helper.h
> > @@ -30,6 +30,7 @@
> >  #include <linux/refcount.h>
> >  #include <linux/regmap.h>
> >  #include <linux/regulator/consumer.h>
> > +#include <linux/regulator/driver.h>
> >  #include <linux/sched.h>
> >  #include <linux/security.h>
> >  #include <linux/slab.h>
> > diff --git a/rust/kernel/regulator.rs b/rust/kernel/regulator.rs
> > index d695ac955193efcfda62770784a92d70d606b93d..bd8202fe5702b944201e76553b9496e1d42cb429 100644
> > --- a/rust/kernel/regulator.rs
> > +++ b/rust/kernel/regulator.rs
> > @@ -2,12 +2,14 @@
> >
> >  //! SoC Regulators
>
> Why "SoC", could be a regulator for anything else too, right?

I used "SoC" to match the C headers "include/linux/regulator/driver.h"
and "include/linux/regulator/consumer.h". But as you
mention this, I just noticed that "SoC" is nowhere to be found in
Documentation/driver-api/regulator.rst, so maybe I should
indeed remove it.

>
> >
> > +pub mod driver;
> > +
> >  use crate::{
> >      bindings,
> >      error::{code::*, Error, Result},
> >  };
> >
> > -/// Regulators operating modes
> > +/// [`driver::Device`] operating modes
> >  #[derive(Copy, Clone)]
> >  #[repr(u32)]
> >  pub enum Mode {
> > diff --git a/rust/kernel/regulator/driver.rs b/rust/kernel/regulator/driver.rs
> > new file mode 100644
> > index 0000000000000000000000000000000000000000..8079ea28fd5bf7b6871a0b1d2cea7a6fffcb43ca
> > --- /dev/null
> > +++ b/rust/kernel/regulator/driver.rs
> > @@ -0,0 +1,850 @@
> > +// SPDX-License-Identifier: GPL-2.0
> > +
> > +//! SoC Device Driver Interface
>
> Should rather be "Regulator Device Driver Interface".
>
> > +//!
> > +//! C header: [`include/linux/regulator/driver.h`](srctree/include/linux/regulator/driver.h)
> > +//!
> > +//! # Examples
> > +//!
> > +//! ```
> > +//! use kernel::regulator::driver::{Config, Desc, Device, Driver, Type};
> > +//!
> > +//! static DESC: Desc =
> > +//!     Desc::new::<MyDeviceDriver>(kernel::c_str!("my-regulator-driver"), Type::Voltage);
> > +//!
> > +//! struct MyDeviceDriver;
> > +//!
> > +//! #[vtable]
> > +//! impl Driver for MyDeviceDriver {
>
> I usually prefer to keep the module prefix for the `Driver` traits, i.e.
> `impl regulator::Driver for ...`, this makes things a bit more obvious.
>
> > +//!     type Data = ();
> > +//!
> > +//!     // Implement supported `Driver`'s operations here.
> > +//!
> > +//!     // Example:
> > +//!     fn is_enabled(reg: &mut Device<Self::Data>) -> Result<bool> {
> > +//!         Ok(true)
> > +//!     }
> > +//! }
> > +//!
> > +//! impl MyDeviceDriver {
> > +//!     fn probe(dev: &mut kernel::device::Device) {
> > +//!         let _ = Device::register(dev, &DESC, Config::<<Self as Driver>::Data>::new(dev, ()));
>
> Like below, this is confusing, the device is immediately unregistered again.
>
> > +//!     }
> > +//! }
> > +//! ```
> > +
> > +use crate::{
> > +    device,
> > +    error::{code::*, from_err_ptr, from_result, Error, Result},
> > +    macros::vtable,
> > +    regulator::Mode,
> > +    str::CStr,
> > +    types::ForeignOwnable,
> > +    ThisModule,
> > +};
> > +use core::{marker::PhantomData, mem::ManuallyDrop, ptr::NonNull};
> > +
> > +/// [`Device`]'s status
> > +#[derive(Eq, PartialEq)]
> > +pub enum Status {
> > +    /// Device is off
> > +    Off,
> > +    /// Device is on
> > +    On,
> > +    /// Device is in an error state
> > +    Error,
> > +    /// Device is on and in Fast mode
> > +    Fast,
> > +    /// Device is on and in Normal mode
> > +    Normal,
> > +    /// Device is on and in Idle mode
> > +    Idle,
> > +    /// Device is on and in Standby mode
> > +    Standby,
> > +    /// Device is enabled but not regulating
> > +    Bypass,
> > +    /// Device is any other status
> > +    Undefined,
> > +}
> > +
> > +impl TryFrom<core::ffi::c_uint> for Status {
> > +    type Error = Error;
> > +
> > +    fn try_from(status: core::ffi::c_uint) -> Result<Self> {
> > +        match status {
> > +            bindings::regulator_status_REGULATOR_STATUS_OFF => Ok(Self::Off),
> > +            bindings::regulator_status_REGULATOR_STATUS_ON => Ok(Self::On),
> > +            bindings::regulator_status_REGULATOR_STATUS_ERROR => Ok(Self::Error),
> > +            bindings::regulator_status_REGULATOR_STATUS_FAST => Ok(Self::Fast),
> > +            bindings::regulator_status_REGULATOR_STATUS_NORMAL => Ok(Self::Normal),
> > +            bindings::regulator_status_REGULATOR_STATUS_IDLE => Ok(Self::Idle),
> > +            bindings::regulator_status_REGULATOR_STATUS_STANDBY => Ok(Self::Standby),
> > +            bindings::regulator_status_REGULATOR_STATUS_BYPASS => Ok(Self::Bypass),
> > +            bindings::regulator_status_REGULATOR_STATUS_UNDEFINED => Ok(Self::Undefined),
> > +            _ => Err(EINVAL),
> > +        }
> > +    }
> > +}
> > +
> > +impl From<Mode> for Status {
> > +    fn from(mode: Mode) -> Self {
> > +        // SAFETY: `regulator_mode_to_status` is a `pure function` that is only doing integer
> > +        // to integer conversion, hence this function call is safe.
> > +        let status = unsafe { bindings::regulator_mode_to_status(mode as _) };
> > +
> > +        if status < 0 {
> > +            Self::Undefined
> > +        } else {
> > +            Self::try_from(status as core::ffi::c_uint).unwrap_or(Self::Undefined)
> > +        }
> > +    }
> > +}
> > +
> > +/// [`Device`]'s operations
> > +#[vtable]
> > +pub trait Driver {
> > +    /// User data that will be accessible to all operations
> > +    type Data: ForeignOwnable + Send + Sync;
> > +
> > +    /// Return one of the supported voltages, in microvolt; zero if the selector indicates a
> > +    /// voltage that is unusable by the system; or negative errno. Selectors range from zero to one
> > +    /// less than the number of voltages supported by the system.
> > +    fn list_voltage(_rdev: &mut Device<Self::Data>, _selector: u32) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Set the voltage for the regulator within the range specified. The driver should select the
> > +    /// voltage closest to `min_uv`.
> > +    fn set_voltage(_rdev: &mut Device<Self::Data>, _min_uv: i32, _max_uv: i32) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Set the voltage for the regulator using the specified selector.
> > +    fn set_voltage_sel(_rdev: &mut Device<Self::Data>, _selector: u32) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Convert a voltage into a selector.
> > +    fn map_voltage(_rdev: &mut Device<Self::Data>, _min_uv: i32, _max_uv: i32) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Get the currently configured voltage for the regulator; Returns
> > +    /// [`ENOTRECOVERABLE`] if the regulator can't be read at bootup and hasn't been
> > +    /// set yet.
> > +    fn get_voltage(_rdev: &mut Device<Self::Data>) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Get the currently configured voltage selector for the regulator; Returns
> > +    /// [`ENOTRECOVERABLE`] if the regulator can't be read at bootup and hasn't been
> > +    /// set yet.
> > +    fn get_voltage_sel(_rdev: &mut Device<Self::Data>) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Configure a limit for a current-limited regulator.
> > +    ///
> > +    /// The driver should select the current closest to `max_ua`.
> > +    fn set_current_limit(_rdev: &mut Device<Self::Data>, _min_ua: i32, _max_ua: i32) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Get the configured limit for a current-limited regulator.
> > +    fn get_current_limit(_rdev: &mut Device<Self::Data>) -> Result<i32> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Enable or disable the active discharge of the regulator.
> > +    fn set_active_discharge(_rdev: &mut Device<Self::Data>, _enable: bool) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Configure the regulator as enabled.
> > +    fn enable(_rdev: &mut Device<Self::Data>) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Configure the regulator as disabled.
> > +    fn disable(_rdev: &mut Device<Self::Data>) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Returns enablement state of the regulator.
> > +    fn is_enabled(_rdev: &mut Device<Self::Data>) -> Result<bool> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Set the configured operating [`Mode`] for the regulator.
> > +    fn set_mode(_rdev: &mut Device<Self::Data>, _mode: Mode) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Get the configured operating [`Mode`] for the regulator.
> > +    fn get_mode(_rdev: &mut Device<Self::Data>) -> Mode {
> > +        Mode::Invalid
> > +    }
> > +
> > +    /// Report the regulator [`Status`].
> > +    fn get_status(_rdev: &mut Device<Self::Data>) -> Result<Status> {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Set the voltage for the regaultor when the system is suspended.
> > +    fn set_suspend_voltage(_rdev: &mut Device<Self::Data>, _uv: i32) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Mark the regulator as enabled when the system is suspended.
> > +    fn set_suspend_enable(_rdev: &mut Device<Self::Data>) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Mark the regulator as disabled when the system is suspended.
> > +    fn set_suspend_disable(_rdev: &mut Device<Self::Data>) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +
> > +    /// Set the operating mode for the regulator when the system is suspended.
> > +    fn set_suspend_mode(_rdev: &mut Device<Self::Data>, _mode: Mode) -> Result {
> > +        Err(ENOTSUPP)
> > +    }
> > +}
> > +
> > +/// [`Device`]'s descriptor
> > +///
> > +/// # Examples
> > +///
> > +/// ```
> > +/// use kernel::{
> > +///     c_str,
> > +///     device,
> > +///     regulator::driver::{Config, Desc, Device, Driver, Type},
> > +///     types::ForeignOwnable,
> > +/// };
> > +///
> > +/// struct MyDeviceDriver;
> > +///
> > +/// #[vtable]
> > +/// impl Driver for MyDeviceDriver {
> > +///     type Data = ();
> > +/// }
>
> This seems incomplete.
>
> > +///
> > +/// static BUCK_DESC: Desc = Desc::new::<MyDeviceDriver>(c_str!("my_driver"), Type::Voltage)
> > +///     .with_of_match(c_str!("buck"))
> > +///     .with_enable(0x24, 0x1, 0x1, 0);
> > +///
> > +/// fn example(dev: &mut device::Device, mut config: Config<<MyDeviceDriver as Driver>::Data>) {
> > +///     let _ = Device::register(dev, &BUCK_DESC, config);
> > +/// }
>
> `example`? This should be within a driver trait with `probe` instead.
>
> > +/// ```
> > +///
> > +/// # Invariants
> > +///
> > +/// `self.0` has always valid data.
> > +pub struct Desc(bindings::regulator_desc);
>
> I think this needs `#[repr(transparent)]`.
>
> > +impl Desc {
> > +    /// Create a new [`Device`] descriptor
> > +    pub const fn new<T: Driver>(name: &'static CStr, reg_type: Type) -> Self {
> > +        // SAFETY: `bindings::regulator_desc" is safe to initialize with 0s.
> > +        let mut desc: bindings::regulator_desc = unsafe { core::mem::zeroed() };
> > +        desc.name = name.as_char_ptr();
> > +        desc.type_ = match reg_type {
> > +            Type::Voltage => bindings::regulator_type_REGULATOR_VOLTAGE,
> > +            Type::Current => bindings::regulator_type_REGULATOR_CURRENT,
> > +        };
> > +        desc.ops = Adapter::<T>::build();
> > +        Self(desc)
> > +    }
> > +
> > +    /// Setup the register address, mask, and {en,dis}able values
> > +    pub const fn with_enable(mut self, reg: u32, mask: u32, en_val: u32, dis_val: u32) -> Self {
> > +        self.0.enable_reg = reg;
> > +        self.0.enable_mask = mask;
> > +        self.0.enable_val = en_val;
> > +        self.0.disable_val = dis_val;
> > +        self
> > +    }
> > +
> > +    /// Setup the register address, mask, and {en,dis}able values. {En,Dis}able values are
> > +    /// inverted, i.e. `dis_val` will be use to enable the regulator while `en_val` will be used
> > +    /// to disable the regulator.
> > +    pub const fn with_inverted_enable(
> > +        mut self,
> > +        reg: u32,
> > +        mask: u32,
> > +        en_val: u32,
> > +        dis_val: u32,
> > +    ) -> Self {
> > +        self.0.enable_is_inverted = true;
> > +        self.with_enable(reg, mask, en_val, dis_val)
> > +    }
> > +
> > +    /// Setup the active discharge regiter address, mask, on/off values.
> > +    pub const fn with_active_discharge(mut self, reg: u32, mask: u32, on: u32, off: u32) -> Self {
> > +        self.0.active_discharge_on = on;
> > +        self.0.active_discharge_off = off;
> > +        self.0.active_discharge_reg = reg;
> > +        self.0.active_discharge_mask = mask;
> > +        self
> > +    }
> > +
> > +    /// Setup the current selection register address, mask, and current table
> > +    pub const fn with_csel(mut self, reg: u32, mask: u32, table: &'static [u32]) -> Self {
> > +        self.0.csel_reg = reg;
> > +        self.0.csel_mask = mask;
> > +        self.0.curr_table = table.as_ptr();
> > +        self
> > +    }
> > +
> > +    /// Voltages are a linear mapping
> > +    pub const fn with_linear_mapping(
> > +        mut self,
> > +        reg: u32,
> > +        mask: u32,
> > +        min_uv: u32,
> > +        uv_step: u32,
> > +        n_voltages: u32,
> > +        linear_min_sel: u32,
> > +    ) -> Self {
> > +        self.0.vsel_reg = reg;
> > +        self.0.vsel_mask = mask;
> > +        self.0.n_voltages = n_voltages;
> > +        self.0.min_uV = min_uv;
> > +        self.0.uV_step = uv_step;
> > +        self.0.linear_min_sel = linear_min_sel;
> > +        self
> > +    }
> > +
> > +    /// Set the regulator owner
> > +    pub const fn with_owner(mut self, owner: &'static ThisModule) -> Self {
> > +        self.0.owner = owner.as_ptr();
> > +        self
> > +    }
> > +
> > +    /// Set the name used to identify the regulator in the DT.
> > +    pub const fn with_of_match(mut self, of_match: &'static CStr) -> Self {
> > +        self.0.of_match = of_match.as_char_ptr();
> > +        self
> > +    }
> > +}
> > +
> > +// SAFETY: `Desc` cannot be modified after its declaration and owns its data, hence it is safe
> > +// to share references between threads.
> > +unsafe impl Sync for Desc {}
> > +
> > +/// [`Device`]'s Config
> > +///
> > +/// # Examples
> > +///
> > +/// ```
> > +/// use kernel::regulator::driver::Config;
> > +/// # use kernel::regulator::driver::{Desc, Device};
> > +/// # use kernel::{device, sync::Arc};
> > +///
> > +/// struct DriverData(u32);
> > +///
> > +/// # fn probe(dev: &device::Device, desc: &'static Desc) -> Result {
> > +/// let config = Config::<Arc<DriverData>>::new(dev, Arc::new(DriverData(128), GFP_KERNEL)?);
>
> Why does this need reference counting?
>
> > +/// let reg = Device::register(dev, desc, config)?;
> > +/// #     Ok(())
> > +/// # }
>
> I think this example is a bit misleading, the regulator device is immediately
> unregistered after probe() returns.
>
> Here you have to rely on the driver to keep `reg` alive until the device is
> dropped. Instead you can use `Devres::new_foreign_owned`, like I do in [1].
>
> [1] https://cgit.freedesktop.org/drm/drm-misc/tree/rust/kernel/drm/drv.rs?h=topic/rust-drm#n173
>
> > +/// ```
> > +///
> > +/// # Invariants
> > +///
> > +/// `self.cfg` always hold valid data.
> > +pub struct Config<T: ForeignOwnable + Send + Sync = ()> {
> > +    cfg: bindings::regulator_config,
> > +    data: T,
> > +}
> > +
> > +impl<T: ForeignOwnable + Send + Sync> Config<T> {
> > +    /// Create a [`Device`] config.
> > +    pub fn new(dev: &device::Device, data: T) -> Self {
> > +        Self {
> > +            cfg: bindings::regulator_config {
> > +                dev: dev.as_raw(),
> > +                ..Default::default()
> > +            },
> > +            data,
> > +        }
> > +    }
> > +}
> > +
> > +/// Regulator device
> > +///
> > +/// Abstraction for `struct regulator_dev`.
> > +///
> > +/// # Invariants
> > +///
> > +/// * `self.rdev` is valid and non-null.
> > +/// * [`Self`] has owns `self.rdev` memory allocation.
> > +/// * [`Self`] has owns memory of type `T` that can be retrieved through `rdev_get_drvdata`.
> > +pub struct Device<T: ForeignOwnable + Send + Sync> {
> > +    rdev: NonNull<bindings::regulator_dev>,
> > +    _data_type: PhantomData<T>,
> > +}
>
> I think you should split this into a `regulator::Device` and a
> `regulator::Registration` structure instead. For regulator this seems to works
> as well, but it gets confusing if we do not stick to the same representations
> between subsystems.
>
> > +
> > +impl<T: ForeignOwnable + Send + Sync> Device<T> {
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be valid and non-null.
> > +    unsafe fn from_raw(rdev: *mut bindings::regulator_dev) -> ManuallyDrop<Self> {
> > +        ManuallyDrop::new(Self {
> > +            // SAFETY: The caller of `Self::from_raw` must garantee that `rdev` is non-null and
> > +            // valid..
> > +            rdev: unsafe { NonNull::new_unchecked(rdev) },
> > +            _data_type: PhantomData::<T>,
> > +        })
> > +    }
> > +
> > +    /// register a Regulator driver
> > +    pub fn register(
> > +        dev: &device::Device,
> > +        desc: &'static Desc,
> > +        mut config: Config<T>,
> > +    ) -> Result<Self> {
> > +        config.cfg.driver_data = config.data.into_foreign() as _;
> > +
> > +        // SAFETY: By the type invariants, we know that `dev.as_ref().as_raw()` is always
> > +        // valid and non-null, and the descriptor and config are guaranteed to be valid values,
> > +        // hence it is safe to perform the FFI call.
> > +        let rdev = from_err_ptr(unsafe {
> > +            bindings::regulator_register(dev.as_raw(), &desc.0, &config.cfg)
> > +        })?;
> > +
> > +        Ok(Self {
> > +            rdev: NonNull::new(rdev).ok_or(EINVAL)?,
> > +            _data_type: PhantomData::<T>,
> > +        })
> > +    }
> > +
> > +    /// List voltages when the regulator is using linear mapping
> > +    pub fn list_voltage_linear(&self, selector: u32) -> Result<i32> {
> > +        // SAFETY: By the type invariants, we know that `self.rdev` is always valid and non-null.
> > +        // The C function is safe to call with any selector values.
> > +        let ret = unsafe { bindings::regulator_list_voltage_linear(self.rdev.as_ptr(), selector) };
> > +        if ret < 0 {
> > +            return Err(Error::from_errno(ret));
> > +        }
> > +        Ok(ret)
> > +    }
> > +
> > +    /// Get regulator's name
> > +    pub fn get_name(&self) -> &'static CStr {
> > +        // SAFETY: By the type invariants, we know that `self.rdev` is always valid and non-null.
> > +        // The C function is guaranteed to return a valid string.
> > +        unsafe { CStr::from_char_ptr(bindings::rdev_get_name(self.rdev.as_ptr())) }
> > +    }
> > +
> > +    /// Get regulator's ID
> > +    pub fn get_id(&self) -> i32 {
> > +        // SAFETY: By the type invariants, we know that `self.rdev` is always valid and non-null.
> > +        unsafe { bindings::rdev_get_id(self.rdev.as_ptr()) }
> > +    }
> > +
> > +    /// Retrieve driver data associated to `self`
> > +    pub fn data(&self) -> T::Borrowed<'_> {
> > +        // SAFETY: By the type invariants, we know that `self.rdev` is always valid and non-null.
> > +        unsafe { T::borrow(bindings::rdev_get_drvdata(self.rdev.as_ptr())) }
> > +    }
> > +}
> > +
> > +impl<T: ForeignOwnable + Send + Sync> Drop for Device<T> {
> > +    fn drop(&mut self) {
> > +        // SAFETY: The type invariants guarantee that `self.rdev` is valid and non-null,
> > +        // so it is safe to perform the FFI call.
> > +        unsafe { bindings::regulator_unregister(self.rdev.as_ptr()) };
> > +
> > +        // SAFETY: The type invariants garuantee that `self.rdev` is valid and non-null, and
> > +        // that `rdev_get_drvdata` is valid memory of type `T` stored there by calling
> > +        // `T::into_foreign`.
> > +        unsafe { T::from_foreign(bindings::rdev_get_drvdata(self.rdev.as_ptr())) };
> > +    }
> > +}
> > +
> > +// SAFETY: `Device` has sole ownership of `self.rdev` and is never read outside of the C
> > +// implementation. It is safe to use it from any thread.
> > +unsafe impl<T: ForeignOwnable + Send + Sync> Send for Device<T> {}
> > +
> > +// SAFETY: It is OK to access `Device` through shared references from other threads because
> > +// the C code is insuring proper synchronization of `self.rdev`.
> > +unsafe impl<T: ForeignOwnable + Send + Sync> Sync for Device<T> {}
> > +
> > +/// [`Device`] type
> > +pub enum Type {
> > +    /// Voltage regulator
> > +    Voltage,
> > +    /// Current regulator
> > +    Current,
> > +}
> > +
> > +pub(crate) struct Adapter<T>(PhantomData<T>);
> > +
> > +impl<T: Driver> Adapter<T> {
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn list_voltage_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        selector: core::ffi::c_uint,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| T::list_voltage(&mut rdev, selector))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` and `selector` must be non-null and valid.
> > +    unsafe extern "C" fn set_voltage_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        min_uv: core::ffi::c_int,
> > +        max_uv: core::ffi::c_int,
> > +        selector: *mut core::ffi::c_uint,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        match T::set_voltage(&mut rdev, min_uv, max_uv) {
> > +            Ok(v) => {
> > +                // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +                unsafe { *selector = v as _ };
> > +                0
> > +            }
> > +            Err(e) => e.to_errno(),
> > +        }
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn map_voltage_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        min_uv: core::ffi::c_int,
> > +        max_uv: core::ffi::c_int,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| T::map_voltage(&mut rdev, min_uv, max_uv))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_voltage_sel_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        selector: core::ffi::c_uint,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_voltage_sel(&mut rdev, selector)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn get_voltage_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| T::get_voltage(&mut rdev))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn get_voltage_sel_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| T::get_voltage_sel(&mut rdev))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_current_limit_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        min_ua: core::ffi::c_int,
> > +        max_ua: core::ffi::c_int,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_current_limit(&mut rdev, min_ua, max_ua)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn get_current_limit_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| T::get_current_limit(&mut rdev))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_active_discharge_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        enable: bool,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_active_discharge(&mut rdev, enable)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn enable_callback(rdev: *mut bindings::regulator_dev) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::enable(&mut rdev)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn disable_callback(rdev: *mut bindings::regulator_dev) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::disable(&mut rdev)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn is_enabled_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::is_enabled(&mut rdev)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_mode_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        mode: core::ffi::c_uint,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            let mode = Mode::try_from(mode).unwrap_or(Mode::Invalid);
> > +            T::set_mode(&mut rdev, mode)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn get_mode_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_uint {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        T::get_mode(&mut rdev) as _
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn get_status_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| Ok(T::get_status(&mut rdev)? as _))
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_suspend_voltage_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        uv: core::ffi::c_int,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_suspend_voltage(&mut rdev, uv)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_suspend_enable_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_suspend_enable(&mut rdev)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_suspend_disable_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            T::set_suspend_disable(&mut rdev)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    /// # Safety
> > +    ///
> > +    /// `rdev` must be non-null and valid.
> > +    unsafe extern "C" fn set_suspend_mode_callback(
> > +        rdev: *mut bindings::regulator_dev,
> > +        mode: core::ffi::c_uint,
> > +    ) -> core::ffi::c_int {
> > +        // SAFETY: Per this function safety requirements, `rdev` is non-null and valid.
> > +        let mut rdev = unsafe { Device::from_raw(rdev) };
> > +        from_result(|| {
> > +            let mode = Mode::try_from(mode).unwrap_or(Mode::Invalid);
> > +            T::set_suspend_mode(&mut rdev, mode)?;
> > +            Ok(0)
> > +        })
> > +    }
> > +
> > +    const VTABLE: bindings::regulator_ops = bindings::regulator_ops {
> > +        list_voltage: if T::HAS_LIST_VOLTAGE {
> > +            Some(Adapter::<T>::list_voltage_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_voltage: if T::HAS_SET_VOLTAGE {
> > +            Some(Adapter::<T>::set_voltage_callback)
> > +        } else {
> > +            None
> > +        },
> > +        map_voltage: if T::HAS_MAP_VOLTAGE {
> > +            Some(Adapter::<T>::map_voltage_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_voltage_sel: if T::HAS_SET_VOLTAGE_SEL {
> > +            Some(Adapter::<T>::set_voltage_sel_callback)
> > +        } else {
> > +            None
> > +        },
> > +        get_voltage: if T::HAS_GET_VOLTAGE {
> > +            Some(Adapter::<T>::get_voltage_callback)
> > +        } else {
> > +            None
> > +        },
> > +        get_voltage_sel: if T::HAS_GET_VOLTAGE_SEL {
> > +            Some(Adapter::<T>::get_voltage_sel_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_current_limit: if T::HAS_SET_CURRENT_LIMIT {
> > +            Some(Adapter::<T>::set_current_limit_callback)
> > +        } else {
> > +            None
> > +        },
> > +        get_current_limit: if T::HAS_GET_CURRENT_LIMIT {
> > +            Some(Adapter::<T>::get_current_limit_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_active_discharge: if T::HAS_SET_ACTIVE_DISCHARGE {
> > +            Some(Adapter::<T>::set_active_discharge_callback)
> > +        } else {
> > +            None
> > +        },
> > +        enable: if T::HAS_ENABLE {
> > +            Some(Adapter::<T>::enable_callback)
> > +        } else {
> > +            None
> > +        },
> > +        disable: if T::HAS_DISABLE {
> > +            Some(Adapter::<T>::disable_callback)
> > +        } else {
> > +            None
> > +        },
> > +        is_enabled: if T::HAS_IS_ENABLED {
> > +            Some(Adapter::<T>::is_enabled_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_mode: if T::HAS_SET_MODE {
> > +            Some(Adapter::<T>::set_mode_callback)
> > +        } else {
> > +            None
> > +        },
> > +        get_mode: if T::HAS_GET_MODE {
> > +            Some(Adapter::<T>::get_mode_callback)
> > +        } else {
> > +            None
> > +        },
> > +        get_status: if T::HAS_GET_STATUS {
> > +            Some(Adapter::<T>::get_status_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_suspend_voltage: if T::HAS_SET_SUSPEND_VOLTAGE {
> > +            Some(Adapter::<T>::set_suspend_voltage_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_suspend_enable: if T::HAS_SET_SUSPEND_ENABLE {
> > +            Some(Adapter::<T>::set_suspend_enable_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_suspend_disable: if T::HAS_SET_SUSPEND_DISABLE {
> > +            Some(Adapter::<T>::set_suspend_disable_callback)
> > +        } else {
> > +            None
> > +        },
> > +        set_suspend_mode: if T::HAS_SET_SUSPEND_MODE {
> > +            Some(Adapter::<T>::set_suspend_mode_callback)
> > +        } else {
> > +            None
> > +        },
> > +        // SAFETY: The rest is zeroed out to initialize `struct regulator_ops`,
> > +        // sets `Option<&F>` to be `None`.
> > +        ..unsafe { core::mem::zeroed() }
> > +    };
> > +
> > +    const fn build() -> &'static bindings::regulator_ops {
> > +        &Self::VTABLE
> > +    }
> > +}
> >
> > --
> > 2.45.2
> >
> >





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