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1// SPDX-License-Identifier: GPL-2.0
2
3// Copyright (C) 2023 FUJITA Tomonori <fujita.tomonori@gmail.com>
4
5//! Network PHY device.
6//!
7//! C headers: [`include/linux/phy.h`](srctree/include/linux/phy.h).
8
9use crate::{error::*, prelude::*, types::Opaque};
10use core::{marker::PhantomData, ptr::addr_of_mut};
11
12pub mod reg;
13
14/// PHY state machine states.
15///
16/// Corresponds to the kernel's [`enum phy_state`].
17///
18/// Some of PHY drivers access to the state of PHY's software state machine.
19///
20/// [`enum phy_state`]: srctree/include/linux/phy.h
21#[derive(PartialEq, Eq)]
22pub enum DeviceState {
23 /// PHY device and driver are not ready for anything.
24 Down,
25 /// PHY is ready to send and receive packets.
26 Ready,
27 /// PHY is up, but no polling or interrupts are done.
28 Halted,
29 /// PHY is up, but is in an error state.
30 Error,
31 /// PHY and attached device are ready to do work.
32 Up,
33 /// PHY is currently running.
34 Running,
35 /// PHY is up, but not currently plugged in.
36 NoLink,
37 /// PHY is performing a cable test.
38 CableTest,
39}
40
41/// A mode of Ethernet communication.
42///
43/// PHY drivers get duplex information from hardware and update the current state.
44pub enum DuplexMode {
45 /// PHY is in full-duplex mode.
46 Full,
47 /// PHY is in half-duplex mode.
48 Half,
49 /// PHY is in unknown duplex mode.
50 Unknown,
51}
52
53/// An instance of a PHY device.
54///
55/// Wraps the kernel's [`struct phy_device`].
56///
57/// A [`Device`] instance is created when a callback in [`Driver`] is executed. A PHY driver
58/// executes [`Driver`]'s methods during the callback.
59///
60/// # Invariants
61///
62/// - Referencing a `phy_device` using this struct asserts that you are in
63/// a context where all methods defined on this struct are safe to call.
64/// - This struct always has a valid `self.0.mdio.dev`.
65///
66/// [`struct phy_device`]: srctree/include/linux/phy.h
67// During the calls to most functions in [`Driver`], the C side (`PHYLIB`) holds a lock that is
68// unique for every instance of [`Device`]. `PHYLIB` uses a different serialization technique for
69// [`Driver::resume`] and [`Driver::suspend`]: `PHYLIB` updates `phy_device`'s state with
70// the lock held, thus guaranteeing that [`Driver::resume`] has exclusive access to the instance.
71// [`Driver::resume`] and [`Driver::suspend`] also are called where only one thread can access
72// to the instance.
73#[repr(transparent)]
74pub struct Device(Opaque<bindings::phy_device>);
75
76impl Device {
77 /// Creates a new [`Device`] instance from a raw pointer.
78 ///
79 /// # Safety
80 ///
81 /// For the duration of `'a`,
82 /// - the pointer must point at a valid `phy_device`, and the caller
83 /// must be in a context where all methods defined on this struct
84 /// are safe to call.
85 /// - `(*ptr).mdio.dev` must be a valid.
86 unsafe fn from_raw<'a>(ptr: *mut bindings::phy_device) -> &'a mut Self {
87 // CAST: `Self` is a `repr(transparent)` wrapper around `bindings::phy_device`.
88 let ptr = ptr.cast::<Self>();
89 // SAFETY: by the function requirements the pointer is valid and we have unique access for
90 // the duration of `'a`.
91 unsafe { &mut *ptr }
92 }
93
94 /// Gets the id of the PHY.
95 pub fn phy_id(&self) -> u32 {
96 let phydev = self.0.get();
97 // SAFETY: The struct invariant ensures that we may access
98 // this field without additional synchronization.
99 unsafe { (*phydev).phy_id }
100 }
101
102 /// Gets the state of PHY state machine states.
103 pub fn state(&self) -> DeviceState {
104 let phydev = self.0.get();
105 // SAFETY: The struct invariant ensures that we may access
106 // this field without additional synchronization.
107 let state = unsafe { (*phydev).state };
108 // TODO: this conversion code will be replaced with automatically generated code by bindgen
109 // when it becomes possible.
110 match state {
111 bindings::phy_state_PHY_DOWN => DeviceState::Down,
112 bindings::phy_state_PHY_READY => DeviceState::Ready,
113 bindings::phy_state_PHY_HALTED => DeviceState::Halted,
114 bindings::phy_state_PHY_ERROR => DeviceState::Error,
115 bindings::phy_state_PHY_UP => DeviceState::Up,
116 bindings::phy_state_PHY_RUNNING => DeviceState::Running,
117 bindings::phy_state_PHY_NOLINK => DeviceState::NoLink,
118 bindings::phy_state_PHY_CABLETEST => DeviceState::CableTest,
119 _ => DeviceState::Error,
120 }
121 }
122
123 /// Gets the current link state.
124 ///
125 /// It returns true if the link is up.
126 pub fn is_link_up(&self) -> bool {
127 const LINK_IS_UP: u64 = 1;
128 // TODO: the code to access to the bit field will be replaced with automatically
129 // generated code by bindgen when it becomes possible.
130 // SAFETY: The struct invariant ensures that we may access
131 // this field without additional synchronization.
132 let bit_field = unsafe { &(*self.0.get())._bitfield_1 };
133 bit_field.get(14, 1) == LINK_IS_UP
134 }
135
136 /// Gets the current auto-negotiation configuration.
137 ///
138 /// It returns true if auto-negotiation is enabled.
139 pub fn is_autoneg_enabled(&self) -> bool {
140 // TODO: the code to access to the bit field will be replaced with automatically
141 // generated code by bindgen when it becomes possible.
142 // SAFETY: The struct invariant ensures that we may access
143 // this field without additional synchronization.
144 let bit_field = unsafe { &(*self.0.get())._bitfield_1 };
145 bit_field.get(13, 1) == bindings::AUTONEG_ENABLE as u64
146 }
147
148 /// Gets the current auto-negotiation state.
149 ///
150 /// It returns true if auto-negotiation is completed.
151 pub fn is_autoneg_completed(&self) -> bool {
152 const AUTONEG_COMPLETED: u64 = 1;
153 // TODO: the code to access to the bit field will be replaced with automatically
154 // generated code by bindgen when it becomes possible.
155 // SAFETY: The struct invariant ensures that we may access
156 // this field without additional synchronization.
157 let bit_field = unsafe { &(*self.0.get())._bitfield_1 };
158 bit_field.get(15, 1) == AUTONEG_COMPLETED
159 }
160
161 /// Sets the speed of the PHY.
162 pub fn set_speed(&mut self, speed: u32) {
163 let phydev = self.0.get();
164 // SAFETY: The struct invariant ensures that we may access
165 // this field without additional synchronization.
166 unsafe { (*phydev).speed = speed as i32 };
167 }
168
169 /// Sets duplex mode.
170 pub fn set_duplex(&mut self, mode: DuplexMode) {
171 let phydev = self.0.get();
172 let v = match mode {
173 DuplexMode::Full => bindings::DUPLEX_FULL as i32,
174 DuplexMode::Half => bindings::DUPLEX_HALF as i32,
175 DuplexMode::Unknown => bindings::DUPLEX_UNKNOWN as i32,
176 };
177 // SAFETY: The struct invariant ensures that we may access
178 // this field without additional synchronization.
179 unsafe { (*phydev).duplex = v };
180 }
181
182 /// Reads a PHY register.
183 // This function reads a hardware register and updates the stats so takes `&mut self`.
184 pub fn read<R: reg::Register>(&mut self, reg: R) -> Result<u16> {
185 reg.read(self)
186 }
187
188 /// Writes a PHY register.
189 pub fn write<R: reg::Register>(&mut self, reg: R, val: u16) -> Result {
190 reg.write(self, val)
191 }
192
193 /// Reads a paged register.
194 pub fn read_paged(&mut self, page: u16, regnum: u16) -> Result<u16> {
195 let phydev = self.0.get();
196 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
197 // So it's just an FFI call.
198 let ret = unsafe { bindings::phy_read_paged(phydev, page.into(), regnum.into()) };
199 if ret < 0 {
200 Err(Error::from_errno(ret))
201 } else {
202 Ok(ret as u16)
203 }
204 }
205
206 /// Resolves the advertisements into PHY settings.
207 pub fn resolve_aneg_linkmode(&mut self) {
208 let phydev = self.0.get();
209 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
210 // So it's just an FFI call.
211 unsafe { bindings::phy_resolve_aneg_linkmode(phydev) };
212 }
213
214 /// Executes software reset the PHY via `BMCR_RESET` bit.
215 pub fn genphy_soft_reset(&mut self) -> Result {
216 let phydev = self.0.get();
217 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
218 // So it's just an FFI call.
219 to_result(unsafe { bindings::genphy_soft_reset(phydev) })
220 }
221
222 /// Initializes the PHY.
223 pub fn init_hw(&mut self) -> Result {
224 let phydev = self.0.get();
225 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
226 // So it's just an FFI call.
227 to_result(unsafe { bindings::phy_init_hw(phydev) })
228 }
229
230 /// Starts auto-negotiation.
231 pub fn start_aneg(&mut self) -> Result {
232 let phydev = self.0.get();
233 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
234 // So it's just an FFI call.
235 to_result(unsafe { bindings::_phy_start_aneg(phydev) })
236 }
237
238 /// Resumes the PHY via `BMCR_PDOWN` bit.
239 pub fn genphy_resume(&mut self) -> Result {
240 let phydev = self.0.get();
241 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
242 // So it's just an FFI call.
243 to_result(unsafe { bindings::genphy_resume(phydev) })
244 }
245
246 /// Suspends the PHY via `BMCR_PDOWN` bit.
247 pub fn genphy_suspend(&mut self) -> Result {
248 let phydev = self.0.get();
249 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
250 // So it's just an FFI call.
251 to_result(unsafe { bindings::genphy_suspend(phydev) })
252 }
253
254 /// Checks the link status and updates current link state.
255 pub fn genphy_read_status<R: reg::Register>(&mut self) -> Result<u16> {
256 R::read_status(self)
257 }
258
259 /// Updates the link status.
260 pub fn genphy_update_link(&mut self) -> Result {
261 let phydev = self.0.get();
262 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
263 // So it's just an FFI call.
264 to_result(unsafe { bindings::genphy_update_link(phydev) })
265 }
266
267 /// Reads link partner ability.
268 pub fn genphy_read_lpa(&mut self) -> Result {
269 let phydev = self.0.get();
270 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
271 // So it's just an FFI call.
272 to_result(unsafe { bindings::genphy_read_lpa(phydev) })
273 }
274
275 /// Reads PHY abilities.
276 pub fn genphy_read_abilities(&mut self) -> Result {
277 let phydev = self.0.get();
278 // SAFETY: `phydev` is pointing to a valid object by the type invariant of `Self`.
279 // So it's just an FFI call.
280 to_result(unsafe { bindings::genphy_read_abilities(phydev) })
281 }
282}
283
284impl AsRef<kernel::device::Device> for Device {
285 fn as_ref(&self) -> &kernel::device::Device {
286 let phydev = self.0.get();
287 // SAFETY: The struct invariant ensures that `mdio.dev` is valid.
288 unsafe { kernel::device::Device::as_ref(addr_of_mut!((*phydev).mdio.dev)) }
289 }
290}
291
292/// Defines certain other features this PHY supports (like interrupts).
293///
294/// These flag values are used in [`Driver::FLAGS`].
295pub mod flags {
296 /// PHY is internal.
297 pub const IS_INTERNAL: u32 = bindings::PHY_IS_INTERNAL;
298 /// PHY needs to be reset after the refclk is enabled.
299 pub const RST_AFTER_CLK_EN: u32 = bindings::PHY_RST_AFTER_CLK_EN;
300 /// Polling is used to detect PHY status changes.
301 pub const POLL_CABLE_TEST: u32 = bindings::PHY_POLL_CABLE_TEST;
302 /// Don't suspend.
303 pub const ALWAYS_CALL_SUSPEND: u32 = bindings::PHY_ALWAYS_CALL_SUSPEND;
304}
305
306/// An adapter for the registration of a PHY driver.
307struct Adapter<T: Driver> {
308 _p: PhantomData<T>,
309}
310
311impl<T: Driver> Adapter<T> {
312 /// # Safety
313 ///
314 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
315 unsafe extern "C" fn soft_reset_callback(
316 phydev: *mut bindings::phy_device,
317 ) -> crate::ffi::c_int {
318 from_result(|| {
319 // SAFETY: This callback is called only in contexts
320 // where we hold `phy_device->lock`, so the accessors on
321 // `Device` are okay to call.
322 let dev = unsafe { Device::from_raw(phydev) };
323 T::soft_reset(dev)?;
324 Ok(0)
325 })
326 }
327
328 /// # Safety
329 ///
330 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
331 unsafe extern "C" fn probe_callback(phydev: *mut bindings::phy_device) -> crate::ffi::c_int {
332 from_result(|| {
333 // SAFETY: This callback is called only in contexts
334 // where we can exclusively access `phy_device` because
335 // it's not published yet, so the accessors on `Device` are okay
336 // to call.
337 let dev = unsafe { Device::from_raw(phydev) };
338 T::probe(dev)?;
339 Ok(0)
340 })
341 }
342
343 /// # Safety
344 ///
345 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
346 unsafe extern "C" fn get_features_callback(
347 phydev: *mut bindings::phy_device,
348 ) -> crate::ffi::c_int {
349 from_result(|| {
350 // SAFETY: This callback is called only in contexts
351 // where we hold `phy_device->lock`, so the accessors on
352 // `Device` are okay to call.
353 let dev = unsafe { Device::from_raw(phydev) };
354 T::get_features(dev)?;
355 Ok(0)
356 })
357 }
358
359 /// # Safety
360 ///
361 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
362 unsafe extern "C" fn suspend_callback(phydev: *mut bindings::phy_device) -> crate::ffi::c_int {
363 from_result(|| {
364 // SAFETY: The C core code ensures that the accessors on
365 // `Device` are okay to call even though `phy_device->lock`
366 // might not be held.
367 let dev = unsafe { Device::from_raw(phydev) };
368 T::suspend(dev)?;
369 Ok(0)
370 })
371 }
372
373 /// # Safety
374 ///
375 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
376 unsafe extern "C" fn resume_callback(phydev: *mut bindings::phy_device) -> crate::ffi::c_int {
377 from_result(|| {
378 // SAFETY: The C core code ensures that the accessors on
379 // `Device` are okay to call even though `phy_device->lock`
380 // might not be held.
381 let dev = unsafe { Device::from_raw(phydev) };
382 T::resume(dev)?;
383 Ok(0)
384 })
385 }
386
387 /// # Safety
388 ///
389 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
390 unsafe extern "C" fn config_aneg_callback(
391 phydev: *mut bindings::phy_device,
392 ) -> crate::ffi::c_int {
393 from_result(|| {
394 // SAFETY: This callback is called only in contexts
395 // where we hold `phy_device->lock`, so the accessors on
396 // `Device` are okay to call.
397 let dev = unsafe { Device::from_raw(phydev) };
398 T::config_aneg(dev)?;
399 Ok(0)
400 })
401 }
402
403 /// # Safety
404 ///
405 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
406 unsafe extern "C" fn read_status_callback(
407 phydev: *mut bindings::phy_device,
408 ) -> crate::ffi::c_int {
409 from_result(|| {
410 // SAFETY: This callback is called only in contexts
411 // where we hold `phy_device->lock`, so the accessors on
412 // `Device` are okay to call.
413 let dev = unsafe { Device::from_raw(phydev) };
414 T::read_status(dev)?;
415 Ok(0)
416 })
417 }
418
419 /// # Safety
420 ///
421 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
422 unsafe extern "C" fn match_phy_device_callback(
423 phydev: *mut bindings::phy_device,
424 ) -> crate::ffi::c_int {
425 // SAFETY: This callback is called only in contexts
426 // where we hold `phy_device->lock`, so the accessors on
427 // `Device` are okay to call.
428 let dev = unsafe { Device::from_raw(phydev) };
429 T::match_phy_device(dev) as i32
430 }
431
432 /// # Safety
433 ///
434 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
435 unsafe extern "C" fn read_mmd_callback(
436 phydev: *mut bindings::phy_device,
437 devnum: i32,
438 regnum: u16,
439 ) -> i32 {
440 from_result(|| {
441 // SAFETY: This callback is called only in contexts
442 // where we hold `phy_device->lock`, so the accessors on
443 // `Device` are okay to call.
444 let dev = unsafe { Device::from_raw(phydev) };
445 // CAST: the C side verifies devnum < 32.
446 let ret = T::read_mmd(dev, devnum as u8, regnum)?;
447 Ok(ret.into())
448 })
449 }
450
451 /// # Safety
452 ///
453 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
454 unsafe extern "C" fn write_mmd_callback(
455 phydev: *mut bindings::phy_device,
456 devnum: i32,
457 regnum: u16,
458 val: u16,
459 ) -> i32 {
460 from_result(|| {
461 // SAFETY: This callback is called only in contexts
462 // where we hold `phy_device->lock`, so the accessors on
463 // `Device` are okay to call.
464 let dev = unsafe { Device::from_raw(phydev) };
465 T::write_mmd(dev, devnum as u8, regnum, val)?;
466 Ok(0)
467 })
468 }
469
470 /// # Safety
471 ///
472 /// `phydev` must be passed by the corresponding callback in `phy_driver`.
473 unsafe extern "C" fn link_change_notify_callback(phydev: *mut bindings::phy_device) {
474 // SAFETY: This callback is called only in contexts
475 // where we hold `phy_device->lock`, so the accessors on
476 // `Device` are okay to call.
477 let dev = unsafe { Device::from_raw(phydev) };
478 T::link_change_notify(dev);
479 }
480}
481
482/// Driver structure for a particular PHY type.
483///
484/// Wraps the kernel's [`struct phy_driver`].
485/// This is used to register a driver for a particular PHY type with the kernel.
486///
487/// # Invariants
488///
489/// `self.0` is always in a valid state.
490///
491/// [`struct phy_driver`]: srctree/include/linux/phy.h
492#[repr(transparent)]
493pub struct DriverVTable(Opaque<bindings::phy_driver>);
494
495// SAFETY: `DriverVTable` doesn't expose any &self method to access internal data, so it's safe to
496// share `&DriverVTable` across execution context boundaries.
497unsafe impl Sync for DriverVTable {}
498
499/// Creates a [`DriverVTable`] instance from [`Driver`].
500///
501/// This is used by [`module_phy_driver`] macro to create a static array of `phy_driver`.
502///
503/// [`module_phy_driver`]: crate::module_phy_driver
504pub const fn create_phy_driver<T: Driver>() -> DriverVTable {
505 // INVARIANT: All the fields of `struct phy_driver` are initialized properly.
506 DriverVTable(Opaque::new(bindings::phy_driver {
507 name: T::NAME.as_char_ptr().cast_mut(),
508 flags: T::FLAGS,
509 phy_id: T::PHY_DEVICE_ID.id,
510 phy_id_mask: T::PHY_DEVICE_ID.mask_as_int(),
511 soft_reset: if T::HAS_SOFT_RESET {
512 Some(Adapter::<T>::soft_reset_callback)
513 } else {
514 None
515 },
516 probe: if T::HAS_PROBE {
517 Some(Adapter::<T>::probe_callback)
518 } else {
519 None
520 },
521 get_features: if T::HAS_GET_FEATURES {
522 Some(Adapter::<T>::get_features_callback)
523 } else {
524 None
525 },
526 match_phy_device: if T::HAS_MATCH_PHY_DEVICE {
527 Some(Adapter::<T>::match_phy_device_callback)
528 } else {
529 None
530 },
531 suspend: if T::HAS_SUSPEND {
532 Some(Adapter::<T>::suspend_callback)
533 } else {
534 None
535 },
536 resume: if T::HAS_RESUME {
537 Some(Adapter::<T>::resume_callback)
538 } else {
539 None
540 },
541 config_aneg: if T::HAS_CONFIG_ANEG {
542 Some(Adapter::<T>::config_aneg_callback)
543 } else {
544 None
545 },
546 read_status: if T::HAS_READ_STATUS {
547 Some(Adapter::<T>::read_status_callback)
548 } else {
549 None
550 },
551 read_mmd: if T::HAS_READ_MMD {
552 Some(Adapter::<T>::read_mmd_callback)
553 } else {
554 None
555 },
556 write_mmd: if T::HAS_WRITE_MMD {
557 Some(Adapter::<T>::write_mmd_callback)
558 } else {
559 None
560 },
561 link_change_notify: if T::HAS_LINK_CHANGE_NOTIFY {
562 Some(Adapter::<T>::link_change_notify_callback)
563 } else {
564 None
565 },
566 // SAFETY: The rest is zeroed out to initialize `struct phy_driver`,
567 // sets `Option<&F>` to be `None`.
568 ..unsafe { core::mem::MaybeUninit::<bindings::phy_driver>::zeroed().assume_init() }
569 }))
570}
571
572/// Driver implementation for a particular PHY type.
573///
574/// This trait is used to create a [`DriverVTable`].
575#[vtable]
576pub trait Driver {
577 /// Defines certain other features this PHY supports.
578 /// It is a combination of the flags in the [`flags`] module.
579 const FLAGS: u32 = 0;
580
581 /// The friendly name of this PHY type.
582 const NAME: &'static CStr;
583
584 /// This driver only works for PHYs with IDs which match this field.
585 /// The default id and mask are zero.
586 const PHY_DEVICE_ID: DeviceId = DeviceId::new_with_custom_mask(0, 0);
587
588 /// Issues a PHY software reset.
589 fn soft_reset(_dev: &mut Device) -> Result {
590 kernel::build_error(VTABLE_DEFAULT_ERROR)
591 }
592
593 /// Sets up device-specific structures during discovery.
594 fn probe(_dev: &mut Device) -> Result {
595 kernel::build_error(VTABLE_DEFAULT_ERROR)
596 }
597
598 /// Probes the hardware to determine what abilities it has.
599 fn get_features(_dev: &mut Device) -> Result {
600 kernel::build_error(VTABLE_DEFAULT_ERROR)
601 }
602
603 /// Returns true if this is a suitable driver for the given phydev.
604 /// If not implemented, matching is based on [`Driver::PHY_DEVICE_ID`].
605 fn match_phy_device(_dev: &Device) -> bool {
606 false
607 }
608
609 /// Configures the advertisement and resets auto-negotiation
610 /// if auto-negotiation is enabled.
611 fn config_aneg(_dev: &mut Device) -> Result {
612 kernel::build_error(VTABLE_DEFAULT_ERROR)
613 }
614
615 /// Determines the negotiated speed and duplex.
616 fn read_status(_dev: &mut Device) -> Result<u16> {
617 kernel::build_error(VTABLE_DEFAULT_ERROR)
618 }
619
620 /// Suspends the hardware, saving state if needed.
621 fn suspend(_dev: &mut Device) -> Result {
622 kernel::build_error(VTABLE_DEFAULT_ERROR)
623 }
624
625 /// Resumes the hardware, restoring state if needed.
626 fn resume(_dev: &mut Device) -> Result {
627 kernel::build_error(VTABLE_DEFAULT_ERROR)
628 }
629
630 /// Overrides the default MMD read function for reading a MMD register.
631 fn read_mmd(_dev: &mut Device, _devnum: u8, _regnum: u16) -> Result<u16> {
632 kernel::build_error(VTABLE_DEFAULT_ERROR)
633 }
634
635 /// Overrides the default MMD write function for writing a MMD register.
636 fn write_mmd(_dev: &mut Device, _devnum: u8, _regnum: u16, _val: u16) -> Result {
637 kernel::build_error(VTABLE_DEFAULT_ERROR)
638 }
639
640 /// Callback for notification of link change.
641 fn link_change_notify(_dev: &mut Device) {}
642}
643
644/// Registration structure for PHY drivers.
645///
646/// Registers [`DriverVTable`] instances with the kernel. They will be unregistered when dropped.
647///
648/// # Invariants
649///
650/// The `drivers` slice are currently registered to the kernel via `phy_drivers_register`.
651pub struct Registration {
652 drivers: Pin<&'static mut [DriverVTable]>,
653}
654
655// SAFETY: The only action allowed in a `Registration` instance is dropping it, which is safe to do
656// from any thread because `phy_drivers_unregister` can be called from any thread context.
657unsafe impl Send for Registration {}
658
659impl Registration {
660 /// Registers a PHY driver.
661 pub fn register(
662 module: &'static crate::ThisModule,
663 drivers: Pin<&'static mut [DriverVTable]>,
664 ) -> Result<Self> {
665 if drivers.is_empty() {
666 return Err(code::EINVAL);
667 }
668 // SAFETY: The type invariants of [`DriverVTable`] ensure that all elements of
669 // the `drivers` slice are initialized properly. `drivers` will not be moved.
670 // So it's just an FFI call.
671 to_result(unsafe {
672 bindings::phy_drivers_register(drivers[0].0.get(), drivers.len().try_into()?, module.0)
673 })?;
674 // INVARIANT: The `drivers` slice is successfully registered to the kernel via `phy_drivers_register`.
675 Ok(Registration { drivers })
676 }
677}
678
679impl Drop for Registration {
680 fn drop(&mut self) {
681 // SAFETY: The type invariants guarantee that `self.drivers` is valid.
682 // So it's just an FFI call.
683 unsafe {
684 bindings::phy_drivers_unregister(self.drivers[0].0.get(), self.drivers.len() as i32)
685 };
686 }
687}
688
689/// An identifier for PHY devices on an MDIO/MII bus.
690///
691/// Represents the kernel's `struct mdio_device_id`. This is used to find an appropriate
692/// PHY driver.
693pub struct DeviceId {
694 id: u32,
695 mask: DeviceMask,
696}
697
698impl DeviceId {
699 /// Creates a new instance with the exact match mask.
700 pub const fn new_with_exact_mask(id: u32) -> Self {
701 DeviceId {
702 id,
703 mask: DeviceMask::Exact,
704 }
705 }
706
707 /// Creates a new instance with the model match mask.
708 pub const fn new_with_model_mask(id: u32) -> Self {
709 DeviceId {
710 id,
711 mask: DeviceMask::Model,
712 }
713 }
714
715 /// Creates a new instance with the vendor match mask.
716 pub const fn new_with_vendor_mask(id: u32) -> Self {
717 DeviceId {
718 id,
719 mask: DeviceMask::Vendor,
720 }
721 }
722
723 /// Creates a new instance with a custom match mask.
724 pub const fn new_with_custom_mask(id: u32, mask: u32) -> Self {
725 DeviceId {
726 id,
727 mask: DeviceMask::Custom(mask),
728 }
729 }
730
731 /// Creates a new instance from [`Driver`].
732 pub const fn new_with_driver<T: Driver>() -> Self {
733 T::PHY_DEVICE_ID
734 }
735
736 /// Get a `mask` as u32.
737 pub const fn mask_as_int(&self) -> u32 {
738 self.mask.as_int()
739 }
740
741 // macro use only
742 #[doc(hidden)]
743 pub const fn mdio_device_id(&self) -> bindings::mdio_device_id {
744 bindings::mdio_device_id {
745 phy_id: self.id,
746 phy_id_mask: self.mask.as_int(),
747 }
748 }
749}
750
751enum DeviceMask {
752 Exact,
753 Model,
754 Vendor,
755 Custom(u32),
756}
757
758impl DeviceMask {
759 const MASK_EXACT: u32 = !0;
760 const MASK_MODEL: u32 = !0 << 4;
761 const MASK_VENDOR: u32 = !0 << 10;
762
763 const fn as_int(&self) -> u32 {
764 match self {
765 DeviceMask::Exact => Self::MASK_EXACT,
766 DeviceMask::Model => Self::MASK_MODEL,
767 DeviceMask::Vendor => Self::MASK_VENDOR,
768 DeviceMask::Custom(mask) => *mask,
769 }
770 }
771}
772
773/// Declares a kernel module for PHYs drivers.
774///
775/// This creates a static array of kernel's `struct phy_driver` and registers it.
776/// This also corresponds to the kernel's `MODULE_DEVICE_TABLE` macro, which embeds the information
777/// for module loading into the module binary file. Every driver needs an entry in `device_table`.
778///
779/// # Examples
780///
781/// ```
782/// # mod module_phy_driver_sample {
783/// use kernel::c_str;
784/// use kernel::net::phy::{self, DeviceId};
785/// use kernel::prelude::*;
786///
787/// kernel::module_phy_driver! {
788/// drivers: [PhySample],
789/// device_table: [
790/// DeviceId::new_with_driver::<PhySample>()
791/// ],
792/// name: "rust_sample_phy",
793/// author: "Rust for Linux Contributors",
794/// description: "Rust sample PHYs driver",
795/// license: "GPL",
796/// }
797///
798/// struct PhySample;
799///
800/// #[vtable]
801/// impl phy::Driver for PhySample {
802/// const NAME: &'static CStr = c_str!("PhySample");
803/// const PHY_DEVICE_ID: phy::DeviceId = phy::DeviceId::new_with_exact_mask(0x00000001);
804/// }
805/// # }
806/// ```
807///
808/// This expands to the following code:
809///
810/// ```ignore
811/// use kernel::c_str;
812/// use kernel::net::phy::{self, DeviceId};
813/// use kernel::prelude::*;
814///
815/// struct Module {
816/// _reg: ::kernel::net::phy::Registration,
817/// }
818///
819/// module! {
820/// type: Module,
821/// name: "rust_sample_phy",
822/// author: "Rust for Linux Contributors",
823/// description: "Rust sample PHYs driver",
824/// license: "GPL",
825/// }
826///
827/// struct PhySample;
828///
829/// #[vtable]
830/// impl phy::Driver for PhySample {
831/// const NAME: &'static CStr = c_str!("PhySample");
832/// const PHY_DEVICE_ID: phy::DeviceId = phy::DeviceId::new_with_exact_mask(0x00000001);
833/// }
834///
835/// const _: () = {
836/// static mut DRIVERS: [::kernel::net::phy::DriverVTable; 1] =
837/// [::kernel::net::phy::create_phy_driver::<PhySample>()];
838///
839/// impl ::kernel::Module for Module {
840/// fn init(module: &'static ThisModule) -> Result<Self> {
841/// let drivers = unsafe { &mut DRIVERS };
842/// let mut reg = ::kernel::net::phy::Registration::register(
843/// module,
844/// ::core::pin::Pin::static_mut(drivers),
845/// )?;
846/// Ok(Module { _reg: reg })
847/// }
848/// }
849/// };
850///
851/// const _DEVICE_TABLE: [::kernel::bindings::mdio_device_id; 2] = [
852/// ::kernel::bindings::mdio_device_id {
853/// phy_id: 0x00000001,
854/// phy_id_mask: 0xffffffff,
855/// },
856/// ::kernel::bindings::mdio_device_id {
857/// phy_id: 0,
858/// phy_id_mask: 0,
859/// },
860/// ];
861/// #[cfg(MODULE)]
862/// #[no_mangle]
863/// static __mod_device_table__mdio__phydev: [::kernel::bindings::mdio_device_id; 2] = _DEVICE_TABLE;
864/// ```
865#[macro_export]
866macro_rules! module_phy_driver {
867 (@replace_expr $_t:tt $sub:expr) => {$sub};
868
869 (@count_devices $($x:expr),*) => {
870 0usize $(+ $crate::module_phy_driver!(@replace_expr $x 1usize))*
871 };
872
873 (@device_table [$($dev:expr),+]) => {
874 // SAFETY: C will not read off the end of this constant since the last element is zero.
875 const _DEVICE_TABLE: [$crate::bindings::mdio_device_id;
876 $crate::module_phy_driver!(@count_devices $($dev),+) + 1] = [
877 $($dev.mdio_device_id()),+,
878 $crate::bindings::mdio_device_id {
879 phy_id: 0,
880 phy_id_mask: 0
881 }
882 ];
883
884 #[cfg(MODULE)]
885 #[no_mangle]
886 static __mod_device_table__mdio__phydev: [$crate::bindings::mdio_device_id;
887 $crate::module_phy_driver!(@count_devices $($dev),+) + 1] = _DEVICE_TABLE;
888 };
889
890 (drivers: [$($driver:ident),+ $(,)?], device_table: [$($dev:expr),+ $(,)?], $($f:tt)*) => {
891 struct Module {
892 _reg: $crate::net::phy::Registration,
893 }
894
895 $crate::prelude::module! {
896 type: Module,
897 $($f)*
898 }
899
900 const _: () = {
901 static mut DRIVERS: [$crate::net::phy::DriverVTable;
902 $crate::module_phy_driver!(@count_devices $($driver),+)] =
903 [$($crate::net::phy::create_phy_driver::<$driver>()),+];
904
905 impl $crate::Module for Module {
906 fn init(module: &'static ThisModule) -> Result<Self> {
907 // SAFETY: The anonymous constant guarantees that nobody else can access
908 // the `DRIVERS` static. The array is used only in the C side.
909 let drivers = unsafe { &mut DRIVERS };
910 let mut reg = $crate::net::phy::Registration::register(
911 module,
912 ::core::pin::Pin::static_mut(drivers),
913 )?;
914 Ok(Module { _reg: reg })
915 }
916 }
917 };
918
919 $crate::module_phy_driver!(@device_table [$($dev),+]);
920 }
921}