| // SPDX-License-Identifier: GPL-2.0 |
| |
| // Copyright (C) 2023 FUJITA Tomonori <fujita.tomonori@gmail.com> |
| |
| //! Network PHY device. |
| //! |
| //! C headers: [`include/linux/phy.h`](srctree/include/linux/phy.h). |
| |
| use crate::{error::*, prelude::*, types::Opaque}; |
| use core::{marker::PhantomData, ptr::addr_of_mut}; |
| |
| pub mod reg; |
| |
| /// PHY state machine states. |
| /// |
| /// Corresponds to the kernel's [`enum phy_state`]. |
| /// |
| /// Some of PHY drivers access to the state of PHY's software state machine. |
| /// |
| /// [`enum phy_state`]: srctree/include/linux/phy.h |
| #[derive(PartialEq, Eq)] |
| pub enum DeviceState { |
| /// PHY device and driver are not ready for anything. |
| Down, |
| /// PHY is ready to send and receive packets. |
| Ready, |
| /// PHY is up, but no polling or interrupts are done. |
| Halted, |
| /// PHY is up, but is in an error state. |
| Error, |
| /// PHY and attached device are ready to do work. |
| Up, |
| /// PHY is currently running. |
| Running, |
| /// PHY is up, but not currently plugged in. |
| NoLink, |
| /// PHY is performing a cable test. |
| CableTest, |
| } |
| |
| /// A mode of Ethernet communication. |
| /// |
| /// PHY drivers get duplex information from hardware and update the current state. |
| pub enum DuplexMode { |
| /// PHY is in full-duplex mode. |
| Full, |
| /// PHY is in half-duplex mode. |
| Half, |
| /// PHY is in unknown duplex mode. |
| Unknown, |
| } |
| |
| /// An instance of a PHY device. |
| /// |
| /// Wraps the kernel's [`struct phy_device`]. |
| /// |
| /// A [`Device`] instance is created when a callback in [`Driver`] is executed. A PHY driver |
| /// executes [`Driver`]'s methods during the callback. |
| /// |
| /// # Invariants |
| /// |
| /// - Referencing a `phy_device` using this struct asserts that you are in |
| /// a context where all methods defined on this struct are safe to call. |
| /// - This struct always has a valid `self.0.mdio.dev`. |
| /// |
| /// [`struct phy_device`]: srctree/include/linux/phy.h |
| // During the calls to most functions in [`Driver`], the C side (`PHYLIB`) holds a lock that is |
| // unique for every instance of [`Device`]. `PHYLIB` uses a different serialization technique for |
| // [`Driver::resume`] and [`Driver::suspend`]: `PHYLIB` updates `phy_device`'s state with |
| // the lock held, thus guaranteeing that [`Driver::resume`] has exclusive access to the instance. |
| // [`Driver::resume`] and [`Driver::suspend`] also are called where only one thread can access |
| // to the instance. |
| #[repr(transparent)] |
| pub struct Device(Opaque<bindings::phy_device>); |
| |
| impl Device { |
| /// Creates a new [`Device`] instance from a raw pointer. |
| /// |
| /// # Safety |
| /// |
| /// For the duration of `'a`, |
| /// - the pointer must point at a valid `phy_device`, and the caller |
| /// must be in a context where all methods defined on this struct |
| /// are safe to call. |
| /// - `(*ptr).mdio.dev` must be a valid. |
| unsafe fn from_raw<'a>(ptr: *mut bindings::phy_device) -> &'a mut Self { |
| // CAST: `Self` is a `repr(transparent)` wrapper around `bindings::phy_device`. |
| let ptr = ptr.cast::<Self>(); |
| // SAFETY: by the function requirements the pointer is valid and we have unique access for |
| // the duration of `'a`. |
| unsafe { &mut *ptr } |
| } |
| |
| /// Gets the id of the PHY. |
| pub fn phy_id(&self) -> u32 { |
| let phydev = self.0.get(); |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| unsafe { (*phydev).phy_id } |
| } |
| |
| /// Gets the state of PHY state machine states. |
| pub fn state(&self) -> DeviceState { |
| let phydev = self.0.get(); |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| let state = unsafe { (*phydev).state }; |
| // TODO: this conversion code will be replaced with automatically generated code by bindgen |
| // when it becomes possible. |
| match state { |
| bindings::phy_state_PHY_DOWN => DeviceState::Down, |
| bindings::phy_state_PHY_READY => DeviceState::Ready, |
| bindings::phy_state_PHY_HALTED => DeviceState::Halted, |
| bindings::phy_state_PHY_ERROR => DeviceState::Error, |
| bindings::phy_state_PHY_UP => DeviceState::Up, |
| bindings::phy_state_PHY_RUNNING => DeviceState::Running, |
| bindings::phy_state_PHY_NOLINK => DeviceState::NoLink, |
| bindings::phy_state_PHY_CABLETEST => DeviceState::CableTest, |
| _ => DeviceState::Error, |
| } |
| } |
| |
| /// Gets the current link state. |
| /// |
| /// It returns true if the link is up. |
| pub fn is_link_up(&self) -> bool { |
| const LINK_IS_UP: u64 = 1; |
| // TODO: the code to access to the bit field will be replaced with automatically |
| // generated code by bindgen when it becomes possible. |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| let bit_field = unsafe { &(*self.0.get())._bitfield_1 }; |
| bit_field.get(14, 1) == LINK_IS_UP |
| } |
| |
| /// Gets the current auto-negotiation configuration. |
| /// |
| /// It returns true if auto-negotiation is enabled. |
| pub fn is_autoneg_enabled(&self) -> bool { |
| // TODO: the code to access to the bit field will be replaced with automatically |
| // generated code by bindgen when it becomes possible. |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| let bit_field = unsafe { &(*self.0.get())._bitfield_1 }; |
| bit_field.get(13, 1) == bindings::AUTONEG_ENABLE as u64 |
| } |
| |
| /// Gets the current auto-negotiation state. |
| /// |
| /// It returns true if auto-negotiation is completed. |
| pub fn is_autoneg_completed(&self) -> bool { |
| const AUTONEG_COMPLETED: u64 = 1; |
| // TODO: the code to access to the bit field will be replaced with automatically |
| // generated code by bindgen when it becomes possible. |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| let bit_field = unsafe { &(*self.0.get())._bitfield_1 }; |
| bit_field.get(15, 1) == AUTONEG_COMPLETED |
| } |
| |
| /// Sets the speed of the PHY. |
| pub fn set_speed(&mut self, speed: u32) { |
| let phydev = self.0.get(); |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| unsafe { (*phydev).speed = speed as i32 }; |
| } |
| |
| /// Sets duplex mode. |
| pub fn set_duplex(&mut self, mode: DuplexMode) { |
| let phydev = self.0.get(); |
| let v = match mode { |
| DuplexMode::Full => bindings::DUPLEX_FULL as i32, |
| DuplexMode::Half => bindings::DUPLEX_HALF as i32, |
| DuplexMode::Unknown => bindings::DUPLEX_UNKNOWN as i32, |
| }; |
| // SAFETY: The struct invariant ensures that we may access |
| // this field without additional synchronization. |
| unsafe { (*phydev).duplex = v }; |
| } |
| |
| /// Reads a PHY register. |
| // This function reads a hardware register and updates the stats so takes `&mut self`. |
| pub fn read<R: reg::Register>(&mut self, reg: R) -> Result<u16> { |
| reg.read(self) |
| } |
| |
| /// Writes a PHY register. |
| pub fn write<R: reg::Register>(&mut self, reg: R, val: u16) -> Result { |
| reg.write(self, val) |
| } |
| |
| /// Reads a paged register. |
| pub fn read_paged(&mut self, page: u16, regnum: u16) -> Result<u16> { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| let ret = unsafe { bindings::phy_read_paged(phydev, page.into(), regnum.into()) }; |
| if ret < 0 { |
| Err(Error::from_errno(ret)) |
| } else { |
| Ok(ret as u16) |
| } |
| } |
| |
| /// Resolves the advertisements into PHY settings. |
| pub fn resolve_aneg_linkmode(&mut self) { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| unsafe { bindings::phy_resolve_aneg_linkmode(phydev) }; |
| } |
| |
| /// Executes software reset the PHY via `BMCR_RESET` bit. |
| pub fn genphy_soft_reset(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_soft_reset(phydev) }) |
| } |
| |
| /// Initializes the PHY. |
| pub fn init_hw(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::phy_init_hw(phydev) }) |
| } |
| |
| /// Starts auto-negotiation. |
| pub fn start_aneg(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::_phy_start_aneg(phydev) }) |
| } |
| |
| /// Resumes the PHY via `BMCR_PDOWN` bit. |
| pub fn genphy_resume(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_resume(phydev) }) |
| } |
| |
| /// Suspends the PHY via `BMCR_PDOWN` bit. |
| pub fn genphy_suspend(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_suspend(phydev) }) |
| } |
| |
| /// Checks the link status and updates current link state. |
| pub fn genphy_read_status<R: reg::Register>(&mut self) -> Result<u16> { |
| R::read_status(self) |
| } |
| |
| /// Updates the link status. |
| pub fn genphy_update_link(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_update_link(phydev) }) |
| } |
| |
| /// Reads link partner ability. |
| pub fn genphy_read_lpa(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_read_lpa(phydev) }) |
| } |
| |
| /// Reads PHY abilities. |
| pub fn genphy_read_abilities(&mut self) -> Result { |
| let phydev = self.0.get(); |
| // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`. |
| // So it's just an FFI call. |
| to_result(unsafe { bindings::genphy_read_abilities(phydev) }) |
| } |
| } |
| |
| impl AsRef<kernel::device::Device> for Device { |
| fn as_ref(&self) -> &kernel::device::Device { |
| let phydev = self.0.get(); |
| // SAFETY: The struct invariant ensures that `mdio.dev` is valid. |
| unsafe { kernel::device::Device::as_ref(addr_of_mut!((*phydev).mdio.dev)) } |
| } |
| } |
| |
| /// Defines certain other features this PHY supports (like interrupts). |
| /// |
| /// These flag values are used in [`Driver::FLAGS`]. |
| pub mod flags { |
| /// PHY is internal. |
| pub const IS_INTERNAL: u32 = bindings::PHY_IS_INTERNAL; |
| /// PHY needs to be reset after the refclk is enabled. |
| pub const RST_AFTER_CLK_EN: u32 = bindings::PHY_RST_AFTER_CLK_EN; |
| /// Polling is used to detect PHY status changes. |
| pub const POLL_CABLE_TEST: u32 = bindings::PHY_POLL_CABLE_TEST; |
| /// Don't suspend. |
| pub const ALWAYS_CALL_SUSPEND: u32 = bindings::PHY_ALWAYS_CALL_SUSPEND; |
| } |
| |
| /// An adapter for the registration of a PHY driver. |
| struct Adapter<T: Driver> { |
| _p: PhantomData<T>, |
| } |
| |
| impl<T: Driver> Adapter<T> { |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn soft_reset_callback( |
| phydev: *mut bindings::phy_device, |
| ) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::soft_reset(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn probe_callback(phydev: *mut bindings::phy_device) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we can exclusively access `phy_device` because |
| // it's not published yet, so the accessors on `Device` are okay |
| // to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::probe(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn get_features_callback( |
| phydev: *mut bindings::phy_device, |
| ) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::get_features(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn suspend_callback(phydev: *mut bindings::phy_device) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: The C core code ensures that the accessors on |
| // `Device` are okay to call even though `phy_device->lock` |
| // might not be held. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::suspend(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn resume_callback(phydev: *mut bindings::phy_device) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: The C core code ensures that the accessors on |
| // `Device` are okay to call even though `phy_device->lock` |
| // might not be held. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::resume(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn config_aneg_callback( |
| phydev: *mut bindings::phy_device, |
| ) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::config_aneg(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn read_status_callback( |
| phydev: *mut bindings::phy_device, |
| ) -> core::ffi::c_int { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::read_status(dev)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn match_phy_device_callback( |
| phydev: *mut bindings::phy_device, |
| ) -> core::ffi::c_int { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::match_phy_device(dev) as i32 |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn read_mmd_callback( |
| phydev: *mut bindings::phy_device, |
| devnum: i32, |
| regnum: u16, |
| ) -> i32 { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| // CAST: the C side verifies devnum < 32. |
| let ret = T::read_mmd(dev, devnum as u8, regnum)?; |
| Ok(ret.into()) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn write_mmd_callback( |
| phydev: *mut bindings::phy_device, |
| devnum: i32, |
| regnum: u16, |
| val: u16, |
| ) -> i32 { |
| from_result(|| { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::write_mmd(dev, devnum as u8, regnum, val)?; |
| Ok(0) |
| }) |
| } |
| |
| /// # Safety |
| /// |
| /// `phydev` must be passed by the corresponding callback in `phy_driver`. |
| unsafe extern "C" fn link_change_notify_callback(phydev: *mut bindings::phy_device) { |
| // SAFETY: This callback is called only in contexts |
| // where we hold `phy_device->lock`, so the accessors on |
| // `Device` are okay to call. |
| let dev = unsafe { Device::from_raw(phydev) }; |
| T::link_change_notify(dev); |
| } |
| } |
| |
| /// Driver structure for a particular PHY type. |
| /// |
| /// Wraps the kernel's [`struct phy_driver`]. |
| /// This is used to register a driver for a particular PHY type with the kernel. |
| /// |
| /// # Invariants |
| /// |
| /// `self.0` is always in a valid state. |
| /// |
| /// [`struct phy_driver`]: srctree/include/linux/phy.h |
| #[repr(transparent)] |
| pub struct DriverVTable(Opaque<bindings::phy_driver>); |
| |
| // SAFETY: `DriverVTable` doesn't expose any &self method to access internal data, so it's safe to |
| // share `&DriverVTable` across execution context boundaries. |
| unsafe impl Sync for DriverVTable {} |
| |
| /// Creates a [`DriverVTable`] instance from [`Driver`]. |
| /// |
| /// This is used by [`module_phy_driver`] macro to create a static array of `phy_driver`. |
| /// |
| /// [`module_phy_driver`]: crate::module_phy_driver |
| pub const fn create_phy_driver<T: Driver>() -> DriverVTable { |
| // INVARIANT: All the fields of `struct phy_driver` are initialized properly. |
| DriverVTable(Opaque::new(bindings::phy_driver { |
| name: T::NAME.as_char_ptr().cast_mut(), |
| flags: T::FLAGS, |
| phy_id: T::PHY_DEVICE_ID.id, |
| phy_id_mask: T::PHY_DEVICE_ID.mask_as_int(), |
| soft_reset: if T::HAS_SOFT_RESET { |
| Some(Adapter::<T>::soft_reset_callback) |
| } else { |
| None |
| }, |
| probe: if T::HAS_PROBE { |
| Some(Adapter::<T>::probe_callback) |
| } else { |
| None |
| }, |
| get_features: if T::HAS_GET_FEATURES { |
| Some(Adapter::<T>::get_features_callback) |
| } else { |
| None |
| }, |
| match_phy_device: if T::HAS_MATCH_PHY_DEVICE { |
| Some(Adapter::<T>::match_phy_device_callback) |
| } else { |
| None |
| }, |
| suspend: if T::HAS_SUSPEND { |
| Some(Adapter::<T>::suspend_callback) |
| } else { |
| None |
| }, |
| resume: if T::HAS_RESUME { |
| Some(Adapter::<T>::resume_callback) |
| } else { |
| None |
| }, |
| config_aneg: if T::HAS_CONFIG_ANEG { |
| Some(Adapter::<T>::config_aneg_callback) |
| } else { |
| None |
| }, |
| read_status: if T::HAS_READ_STATUS { |
| Some(Adapter::<T>::read_status_callback) |
| } else { |
| None |
| }, |
| read_mmd: if T::HAS_READ_MMD { |
| Some(Adapter::<T>::read_mmd_callback) |
| } else { |
| None |
| }, |
| write_mmd: if T::HAS_WRITE_MMD { |
| Some(Adapter::<T>::write_mmd_callback) |
| } else { |
| None |
| }, |
| link_change_notify: if T::HAS_LINK_CHANGE_NOTIFY { |
| Some(Adapter::<T>::link_change_notify_callback) |
| } else { |
| None |
| }, |
| // SAFETY: The rest is zeroed out to initialize `struct phy_driver`, |
| // sets `Option<&F>` to be `None`. |
| ..unsafe { core::mem::MaybeUninit::<bindings::phy_driver>::zeroed().assume_init() } |
| })) |
| } |
| |
| /// Driver implementation for a particular PHY type. |
| /// |
| /// This trait is used to create a [`DriverVTable`]. |
| #[vtable] |
| pub trait Driver { |
| /// Defines certain other features this PHY supports. |
| /// It is a combination of the flags in the [`flags`] module. |
| const FLAGS: u32 = 0; |
| |
| /// The friendly name of this PHY type. |
| const NAME: &'static CStr; |
| |
| /// This driver only works for PHYs with IDs which match this field. |
| /// The default id and mask are zero. |
| const PHY_DEVICE_ID: DeviceId = DeviceId::new_with_custom_mask(0, 0); |
| |
| /// Issues a PHY software reset. |
| fn soft_reset(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Sets up device-specific structures during discovery. |
| fn probe(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Probes the hardware to determine what abilities it has. |
| fn get_features(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Returns true if this is a suitable driver for the given phydev. |
| /// If not implemented, matching is based on [`Driver::PHY_DEVICE_ID`]. |
| fn match_phy_device(_dev: &Device) -> bool { |
| false |
| } |
| |
| /// Configures the advertisement and resets auto-negotiation |
| /// if auto-negotiation is enabled. |
| fn config_aneg(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Determines the negotiated speed and duplex. |
| fn read_status(_dev: &mut Device) -> Result<u16> { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Suspends the hardware, saving state if needed. |
| fn suspend(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Resumes the hardware, restoring state if needed. |
| fn resume(_dev: &mut Device) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Overrides the default MMD read function for reading a MMD register. |
| fn read_mmd(_dev: &mut Device, _devnum: u8, _regnum: u16) -> Result<u16> { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Overrides the default MMD write function for writing a MMD register. |
| fn write_mmd(_dev: &mut Device, _devnum: u8, _regnum: u16, _val: u16) -> Result { |
| kernel::build_error(VTABLE_DEFAULT_ERROR) |
| } |
| |
| /// Callback for notification of link change. |
| fn link_change_notify(_dev: &mut Device) {} |
| } |
| |
| /// Registration structure for PHY drivers. |
| /// |
| /// Registers [`DriverVTable`] instances with the kernel. They will be unregistered when dropped. |
| /// |
| /// # Invariants |
| /// |
| /// The `drivers` slice are currently registered to the kernel via `phy_drivers_register`. |
| pub struct Registration { |
| drivers: Pin<&'static mut [DriverVTable]>, |
| } |
| |
| // SAFETY: The only action allowed in a `Registration` instance is dropping it, which is safe to do |
| // from any thread because `phy_drivers_unregister` can be called from any thread context. |
| unsafe impl Send for Registration {} |
| |
| impl Registration { |
| /// Registers a PHY driver. |
| pub fn register( |
| module: &'static crate::ThisModule, |
| drivers: Pin<&'static mut [DriverVTable]>, |
| ) -> Result<Self> { |
| if drivers.is_empty() { |
| return Err(code::EINVAL); |
| } |
| // SAFETY: The type invariants of [`DriverVTable`] ensure that all elements of |
| // the `drivers` slice are initialized properly. `drivers` will not be moved. |
| // So it's just an FFI call. |
| to_result(unsafe { |
| bindings::phy_drivers_register(drivers[0].0.get(), drivers.len().try_into()?, module.0) |
| })?; |
| // INVARIANT: The `drivers` slice is successfully registered to the kernel via `phy_drivers_register`. |
| Ok(Registration { drivers }) |
| } |
| } |
| |
| impl Drop for Registration { |
| fn drop(&mut self) { |
| // SAFETY: The type invariants guarantee that `self.drivers` is valid. |
| // So it's just an FFI call. |
| unsafe { |
| bindings::phy_drivers_unregister(self.drivers[0].0.get(), self.drivers.len() as i32) |
| }; |
| } |
| } |
| |
| /// An identifier for PHY devices on an MDIO/MII bus. |
| /// |
| /// Represents the kernel's `struct mdio_device_id`. This is used to find an appropriate |
| /// PHY driver. |
| pub struct DeviceId { |
| id: u32, |
| mask: DeviceMask, |
| } |
| |
| impl DeviceId { |
| /// Creates a new instance with the exact match mask. |
| pub const fn new_with_exact_mask(id: u32) -> Self { |
| DeviceId { |
| id, |
| mask: DeviceMask::Exact, |
| } |
| } |
| |
| /// Creates a new instance with the model match mask. |
| pub const fn new_with_model_mask(id: u32) -> Self { |
| DeviceId { |
| id, |
| mask: DeviceMask::Model, |
| } |
| } |
| |
| /// Creates a new instance with the vendor match mask. |
| pub const fn new_with_vendor_mask(id: u32) -> Self { |
| DeviceId { |
| id, |
| mask: DeviceMask::Vendor, |
| } |
| } |
| |
| /// Creates a new instance with a custom match mask. |
| pub const fn new_with_custom_mask(id: u32, mask: u32) -> Self { |
| DeviceId { |
| id, |
| mask: DeviceMask::Custom(mask), |
| } |
| } |
| |
| /// Creates a new instance from [`Driver`]. |
| pub const fn new_with_driver<T: Driver>() -> Self { |
| T::PHY_DEVICE_ID |
| } |
| |
| /// Get a `mask` as u32. |
| pub const fn mask_as_int(&self) -> u32 { |
| self.mask.as_int() |
| } |
| |
| // macro use only |
| #[doc(hidden)] |
| pub const fn mdio_device_id(&self) -> bindings::mdio_device_id { |
| bindings::mdio_device_id { |
| phy_id: self.id, |
| phy_id_mask: self.mask.as_int(), |
| } |
| } |
| } |
| |
| enum DeviceMask { |
| Exact, |
| Model, |
| Vendor, |
| Custom(u32), |
| } |
| |
| impl DeviceMask { |
| const MASK_EXACT: u32 = !0; |
| const MASK_MODEL: u32 = !0 << 4; |
| const MASK_VENDOR: u32 = !0 << 10; |
| |
| const fn as_int(&self) -> u32 { |
| match self { |
| DeviceMask::Exact => Self::MASK_EXACT, |
| DeviceMask::Model => Self::MASK_MODEL, |
| DeviceMask::Vendor => Self::MASK_VENDOR, |
| DeviceMask::Custom(mask) => *mask, |
| } |
| } |
| } |
| |
| /// Declares a kernel module for PHYs drivers. |
| /// |
| /// This creates a static array of kernel's `struct phy_driver` and registers it. |
| /// This also corresponds to the kernel's `MODULE_DEVICE_TABLE` macro, which embeds the information |
| /// for module loading into the module binary file. Every driver needs an entry in `device_table`. |
| /// |
| /// # Examples |
| /// |
| /// ``` |
| /// # mod module_phy_driver_sample { |
| /// use kernel::c_str; |
| /// use kernel::net::phy::{self, DeviceId}; |
| /// use kernel::prelude::*; |
| /// |
| /// kernel::module_phy_driver! { |
| /// drivers: [PhySample], |
| /// device_table: [ |
| /// DeviceId::new_with_driver::<PhySample>() |
| /// ], |
| /// name: "rust_sample_phy", |
| /// author: "Rust for Linux Contributors", |
| /// description: "Rust sample PHYs driver", |
| /// license: "GPL", |
| /// } |
| /// |
| /// struct PhySample; |
| /// |
| /// #[vtable] |
| /// impl phy::Driver for PhySample { |
| /// const NAME: &'static CStr = c_str!("PhySample"); |
| /// const PHY_DEVICE_ID: phy::DeviceId = phy::DeviceId::new_with_exact_mask(0x00000001); |
| /// } |
| /// # } |
| /// ``` |
| /// |
| /// This expands to the following code: |
| /// |
| /// ```ignore |
| /// use kernel::c_str; |
| /// use kernel::net::phy::{self, DeviceId}; |
| /// use kernel::prelude::*; |
| /// |
| /// struct Module { |
| /// _reg: ::kernel::net::phy::Registration, |
| /// } |
| /// |
| /// module! { |
| /// type: Module, |
| /// name: "rust_sample_phy", |
| /// author: "Rust for Linux Contributors", |
| /// description: "Rust sample PHYs driver", |
| /// license: "GPL", |
| /// } |
| /// |
| /// struct PhySample; |
| /// |
| /// #[vtable] |
| /// impl phy::Driver for PhySample { |
| /// const NAME: &'static CStr = c_str!("PhySample"); |
| /// const PHY_DEVICE_ID: phy::DeviceId = phy::DeviceId::new_with_exact_mask(0x00000001); |
| /// } |
| /// |
| /// const _: () = { |
| /// static mut DRIVERS: [::kernel::net::phy::DriverVTable; 1] = |
| /// [::kernel::net::phy::create_phy_driver::<PhySample>()]; |
| /// |
| /// impl ::kernel::Module for Module { |
| /// fn init(module: &'static ThisModule) -> Result<Self> { |
| /// let drivers = unsafe { &mut DRIVERS }; |
| /// let mut reg = ::kernel::net::phy::Registration::register( |
| /// module, |
| /// ::core::pin::Pin::static_mut(drivers), |
| /// )?; |
| /// Ok(Module { _reg: reg }) |
| /// } |
| /// } |
| /// }; |
| /// |
| /// #[cfg(MODULE)] |
| /// #[no_mangle] |
| /// static __mod_mdio__phydev_device_table: [::kernel::bindings::mdio_device_id; 2] = [ |
| /// ::kernel::bindings::mdio_device_id { |
| /// phy_id: 0x00000001, |
| /// phy_id_mask: 0xffffffff, |
| /// }, |
| /// ::kernel::bindings::mdio_device_id { |
| /// phy_id: 0, |
| /// phy_id_mask: 0, |
| /// }, |
| /// ]; |
| /// ``` |
| #[macro_export] |
| macro_rules! module_phy_driver { |
| (@replace_expr $_t:tt $sub:expr) => {$sub}; |
| |
| (@count_devices $($x:expr),*) => { |
| 0usize $(+ $crate::module_phy_driver!(@replace_expr $x 1usize))* |
| }; |
| |
| (@device_table [$($dev:expr),+]) => { |
| // SAFETY: C will not read off the end of this constant since the last element is zero. |
| #[cfg(MODULE)] |
| #[no_mangle] |
| static __mod_mdio__phydev_device_table: [$crate::bindings::mdio_device_id; |
| $crate::module_phy_driver!(@count_devices $($dev),+) + 1] = [ |
| $($dev.mdio_device_id()),+, |
| $crate::bindings::mdio_device_id { |
| phy_id: 0, |
| phy_id_mask: 0 |
| } |
| ]; |
| }; |
| |
| (drivers: [$($driver:ident),+ $(,)?], device_table: [$($dev:expr),+ $(,)?], $($f:tt)*) => { |
| struct Module { |
| _reg: $crate::net::phy::Registration, |
| } |
| |
| $crate::prelude::module! { |
| type: Module, |
| $($f)* |
| } |
| |
| const _: () = { |
| static mut DRIVERS: [$crate::net::phy::DriverVTable; |
| $crate::module_phy_driver!(@count_devices $($driver),+)] = |
| [$($crate::net::phy::create_phy_driver::<$driver>()),+]; |
| |
| impl $crate::Module for Module { |
| fn init(module: &'static ThisModule) -> Result<Self> { |
| // SAFETY: The anonymous constant guarantees that nobody else can access |
| // the `DRIVERS` static. The array is used only in the C side. |
| let drivers = unsafe { &mut DRIVERS }; |
| let mut reg = $crate::net::phy::Registration::register( |
| module, |
| ::core::pin::Pin::static_mut(drivers), |
| )?; |
| Ok(Module { _reg: reg }) |
| } |
| } |
| }; |
| |
| $crate::module_phy_driver!(@device_table [$($dev),+]); |
| } |
| } |