176c01dedSDanilo Krummrich // SPDX-License-Identifier: GPL-2.0 276c01dedSDanilo Krummrich 376c01dedSDanilo Krummrich //! Devres abstraction 476c01dedSDanilo Krummrich //! 576c01dedSDanilo Krummrich //! [`Devres`] represents an abstraction for the kernel devres (device resource management) 676c01dedSDanilo Krummrich //! implementation. 776c01dedSDanilo Krummrich 876c01dedSDanilo Krummrich use crate::{ 976c01dedSDanilo Krummrich alloc::Flags, 1076c01dedSDanilo Krummrich bindings, 1176c01dedSDanilo Krummrich device::Device, 1276c01dedSDanilo Krummrich error::{Error, Result}, 138ff65664SDanilo Krummrich ffi::c_void, 1476c01dedSDanilo Krummrich prelude::*, 1576c01dedSDanilo Krummrich revocable::Revocable, 1676c01dedSDanilo Krummrich sync::Arc, 178ff65664SDanilo Krummrich types::ARef, 1876c01dedSDanilo Krummrich }; 1976c01dedSDanilo Krummrich 2076c01dedSDanilo Krummrich use core::ops::Deref; 2176c01dedSDanilo Krummrich 2276c01dedSDanilo Krummrich #[pin_data] 2376c01dedSDanilo Krummrich struct DevresInner<T> { 248ff65664SDanilo Krummrich dev: ARef<Device>, 258ff65664SDanilo Krummrich callback: unsafe extern "C" fn(*mut c_void), 2676c01dedSDanilo Krummrich #[pin] 2776c01dedSDanilo Krummrich data: Revocable<T>, 2876c01dedSDanilo Krummrich } 2976c01dedSDanilo Krummrich 3076c01dedSDanilo Krummrich /// This abstraction is meant to be used by subsystems to containerize [`Device`] bound resources to 3176c01dedSDanilo Krummrich /// manage their lifetime. 3276c01dedSDanilo Krummrich /// 3376c01dedSDanilo Krummrich /// [`Device`] bound resources should be freed when either the resource goes out of scope or the 3476c01dedSDanilo Krummrich /// [`Device`] is unbound respectively, depending on what happens first. 3576c01dedSDanilo Krummrich /// 3676c01dedSDanilo Krummrich /// To achieve that [`Devres`] registers a devres callback on creation, which is called once the 3776c01dedSDanilo Krummrich /// [`Device`] is unbound, revoking access to the encapsulated resource (see also [`Revocable`]). 3876c01dedSDanilo Krummrich /// 3976c01dedSDanilo Krummrich /// After the [`Devres`] has been unbound it is not possible to access the encapsulated resource 4076c01dedSDanilo Krummrich /// anymore. 4176c01dedSDanilo Krummrich /// 4276c01dedSDanilo Krummrich /// [`Devres`] users should make sure to simply free the corresponding backing resource in `T`'s 4376c01dedSDanilo Krummrich /// [`Drop`] implementation. 4476c01dedSDanilo Krummrich /// 4576c01dedSDanilo Krummrich /// # Example 4676c01dedSDanilo Krummrich /// 4776c01dedSDanilo Krummrich /// ```no_run 4876c01dedSDanilo Krummrich /// # use kernel::{bindings, c_str, device::Device, devres::Devres, io::{Io, IoRaw}}; 4976c01dedSDanilo Krummrich /// # use core::ops::Deref; 5076c01dedSDanilo Krummrich /// 5176c01dedSDanilo Krummrich /// // See also [`pci::Bar`] for a real example. 5276c01dedSDanilo Krummrich /// struct IoMem<const SIZE: usize>(IoRaw<SIZE>); 5376c01dedSDanilo Krummrich /// 5476c01dedSDanilo Krummrich /// impl<const SIZE: usize> IoMem<SIZE> { 5576c01dedSDanilo Krummrich /// /// # Safety 5676c01dedSDanilo Krummrich /// /// 5776c01dedSDanilo Krummrich /// /// [`paddr`, `paddr` + `SIZE`) must be a valid MMIO region that is mappable into the CPUs 5876c01dedSDanilo Krummrich /// /// virtual address space. 5976c01dedSDanilo Krummrich /// unsafe fn new(paddr: usize) -> Result<Self>{ 6076c01dedSDanilo Krummrich /// // SAFETY: By the safety requirements of this function [`paddr`, `paddr` + `SIZE`) is 6176c01dedSDanilo Krummrich /// // valid for `ioremap`. 6276c01dedSDanilo Krummrich /// let addr = unsafe { bindings::ioremap(paddr as _, SIZE as _) }; 6376c01dedSDanilo Krummrich /// if addr.is_null() { 6476c01dedSDanilo Krummrich /// return Err(ENOMEM); 6576c01dedSDanilo Krummrich /// } 6676c01dedSDanilo Krummrich /// 6776c01dedSDanilo Krummrich /// Ok(IoMem(IoRaw::new(addr as _, SIZE)?)) 6876c01dedSDanilo Krummrich /// } 6976c01dedSDanilo Krummrich /// } 7076c01dedSDanilo Krummrich /// 7176c01dedSDanilo Krummrich /// impl<const SIZE: usize> Drop for IoMem<SIZE> { 7276c01dedSDanilo Krummrich /// fn drop(&mut self) { 7376c01dedSDanilo Krummrich /// // SAFETY: `self.0.addr()` is guaranteed to be properly mapped by `Self::new`. 7476c01dedSDanilo Krummrich /// unsafe { bindings::iounmap(self.0.addr() as _); }; 7576c01dedSDanilo Krummrich /// } 7676c01dedSDanilo Krummrich /// } 7776c01dedSDanilo Krummrich /// 7876c01dedSDanilo Krummrich /// impl<const SIZE: usize> Deref for IoMem<SIZE> { 7976c01dedSDanilo Krummrich /// type Target = Io<SIZE>; 8076c01dedSDanilo Krummrich /// 8176c01dedSDanilo Krummrich /// fn deref(&self) -> &Self::Target { 8276c01dedSDanilo Krummrich /// // SAFETY: The memory range stored in `self` has been properly mapped in `Self::new`. 8376c01dedSDanilo Krummrich /// unsafe { Io::from_raw(&self.0) } 8476c01dedSDanilo Krummrich /// } 8576c01dedSDanilo Krummrich /// } 8676c01dedSDanilo Krummrich /// # fn no_run() -> Result<(), Error> { 8776c01dedSDanilo Krummrich /// # // SAFETY: Invalid usage; just for the example to get an `ARef<Device>` instance. 8876c01dedSDanilo Krummrich /// # let dev = unsafe { Device::get_device(core::ptr::null_mut()) }; 8976c01dedSDanilo Krummrich /// 9076c01dedSDanilo Krummrich /// // SAFETY: Invalid usage for example purposes. 9176c01dedSDanilo Krummrich /// let iomem = unsafe { IoMem::<{ core::mem::size_of::<u32>() }>::new(0xBAAAAAAD)? }; 9276c01dedSDanilo Krummrich /// let devres = Devres::new(&dev, iomem, GFP_KERNEL)?; 9376c01dedSDanilo Krummrich /// 9476c01dedSDanilo Krummrich /// let res = devres.try_access().ok_or(ENXIO)?; 95*040b17aeSFiona Behrens /// res.write8(0x42, 0x0); 9676c01dedSDanilo Krummrich /// # Ok(()) 9776c01dedSDanilo Krummrich /// # } 9876c01dedSDanilo Krummrich /// ``` 9976c01dedSDanilo Krummrich pub struct Devres<T>(Arc<DevresInner<T>>); 10076c01dedSDanilo Krummrich 10176c01dedSDanilo Krummrich impl<T> DevresInner<T> { new(dev: &Device, data: T, flags: Flags) -> Result<Arc<DevresInner<T>>>10276c01dedSDanilo Krummrich fn new(dev: &Device, data: T, flags: Flags) -> Result<Arc<DevresInner<T>>> { 10376c01dedSDanilo Krummrich let inner = Arc::pin_init( 10476c01dedSDanilo Krummrich pin_init!( DevresInner { 1058ff65664SDanilo Krummrich dev: dev.into(), 1068ff65664SDanilo Krummrich callback: Self::devres_callback, 10776c01dedSDanilo Krummrich data <- Revocable::new(data), 10876c01dedSDanilo Krummrich }), 10976c01dedSDanilo Krummrich flags, 11076c01dedSDanilo Krummrich )?; 11176c01dedSDanilo Krummrich 11276c01dedSDanilo Krummrich // Convert `Arc<DevresInner>` into a raw pointer and make devres own this reference until 11376c01dedSDanilo Krummrich // `Self::devres_callback` is called. 11476c01dedSDanilo Krummrich let data = inner.clone().into_raw(); 11576c01dedSDanilo Krummrich 11676c01dedSDanilo Krummrich // SAFETY: `devm_add_action` guarantees to call `Self::devres_callback` once `dev` is 11776c01dedSDanilo Krummrich // detached. 1188ff65664SDanilo Krummrich let ret = 1198ff65664SDanilo Krummrich unsafe { bindings::devm_add_action(dev.as_raw(), Some(inner.callback), data as _) }; 12076c01dedSDanilo Krummrich 12176c01dedSDanilo Krummrich if ret != 0 { 12276c01dedSDanilo Krummrich // SAFETY: We just created another reference to `inner` in order to pass it to 12376c01dedSDanilo Krummrich // `bindings::devm_add_action`. If `bindings::devm_add_action` fails, we have to drop 12476c01dedSDanilo Krummrich // this reference accordingly. 12576c01dedSDanilo Krummrich let _ = unsafe { Arc::from_raw(data) }; 12676c01dedSDanilo Krummrich return Err(Error::from_errno(ret)); 12776c01dedSDanilo Krummrich } 12876c01dedSDanilo Krummrich 12976c01dedSDanilo Krummrich Ok(inner) 13076c01dedSDanilo Krummrich } 13176c01dedSDanilo Krummrich as_ptr(&self) -> *const Self1328ff65664SDanilo Krummrich fn as_ptr(&self) -> *const Self { 1338ff65664SDanilo Krummrich self as _ 1348ff65664SDanilo Krummrich } 1358ff65664SDanilo Krummrich remove_action(this: &Arc<Self>)1368ff65664SDanilo Krummrich fn remove_action(this: &Arc<Self>) { 1378ff65664SDanilo Krummrich // SAFETY: 1388ff65664SDanilo Krummrich // - `self.inner.dev` is a valid `Device`, 1398ff65664SDanilo Krummrich // - the `action` and `data` pointers are the exact same ones as given to devm_add_action() 1408ff65664SDanilo Krummrich // previously, 1418ff65664SDanilo Krummrich // - `self` is always valid, even if the action has been released already. 1428ff65664SDanilo Krummrich let ret = unsafe { 1438ff65664SDanilo Krummrich bindings::devm_remove_action_nowarn( 1448ff65664SDanilo Krummrich this.dev.as_raw(), 1458ff65664SDanilo Krummrich Some(this.callback), 1468ff65664SDanilo Krummrich this.as_ptr() as _, 1478ff65664SDanilo Krummrich ) 1488ff65664SDanilo Krummrich }; 1498ff65664SDanilo Krummrich 1508ff65664SDanilo Krummrich if ret == 0 { 1518ff65664SDanilo Krummrich // SAFETY: We leaked an `Arc` reference to devm_add_action() in `DevresInner::new`; if 1528ff65664SDanilo Krummrich // devm_remove_action_nowarn() was successful we can (and have to) claim back ownership 1538ff65664SDanilo Krummrich // of this reference. 1548ff65664SDanilo Krummrich let _ = unsafe { Arc::from_raw(this.as_ptr()) }; 1558ff65664SDanilo Krummrich } 1568ff65664SDanilo Krummrich } 1578ff65664SDanilo Krummrich 15876c01dedSDanilo Krummrich #[allow(clippy::missing_safety_doc)] devres_callback(ptr: *mut kernel::ffi::c_void)15976c01dedSDanilo Krummrich unsafe extern "C" fn devres_callback(ptr: *mut kernel::ffi::c_void) { 16076c01dedSDanilo Krummrich let ptr = ptr as *mut DevresInner<T>; 16176c01dedSDanilo Krummrich // Devres owned this memory; now that we received the callback, drop the `Arc` and hence the 16276c01dedSDanilo Krummrich // reference. 16376c01dedSDanilo Krummrich // SAFETY: Safe, since we leaked an `Arc` reference to devm_add_action() in 16476c01dedSDanilo Krummrich // `DevresInner::new`. 16576c01dedSDanilo Krummrich let inner = unsafe { Arc::from_raw(ptr) }; 16676c01dedSDanilo Krummrich 16776c01dedSDanilo Krummrich inner.data.revoke(); 16876c01dedSDanilo Krummrich } 16976c01dedSDanilo Krummrich } 17076c01dedSDanilo Krummrich 17176c01dedSDanilo Krummrich impl<T> Devres<T> { 17276c01dedSDanilo Krummrich /// Creates a new [`Devres`] instance of the given `data`. The `data` encapsulated within the 17376c01dedSDanilo Krummrich /// returned `Devres` instance' `data` will be revoked once the device is detached. new(dev: &Device, data: T, flags: Flags) -> Result<Self>17476c01dedSDanilo Krummrich pub fn new(dev: &Device, data: T, flags: Flags) -> Result<Self> { 17576c01dedSDanilo Krummrich let inner = DevresInner::new(dev, data, flags)?; 17676c01dedSDanilo Krummrich 17776c01dedSDanilo Krummrich Ok(Devres(inner)) 17876c01dedSDanilo Krummrich } 17976c01dedSDanilo Krummrich 18076c01dedSDanilo Krummrich /// Same as [`Devres::new`], but does not return a `Devres` instance. Instead the given `data` 18176c01dedSDanilo Krummrich /// is owned by devres and will be revoked / dropped, once the device is detached. new_foreign_owned(dev: &Device, data: T, flags: Flags) -> Result18276c01dedSDanilo Krummrich pub fn new_foreign_owned(dev: &Device, data: T, flags: Flags) -> Result { 18376c01dedSDanilo Krummrich let _ = DevresInner::new(dev, data, flags)?; 18476c01dedSDanilo Krummrich 18576c01dedSDanilo Krummrich Ok(()) 18676c01dedSDanilo Krummrich } 18776c01dedSDanilo Krummrich } 18876c01dedSDanilo Krummrich 18976c01dedSDanilo Krummrich impl<T> Deref for Devres<T> { 19076c01dedSDanilo Krummrich type Target = Revocable<T>; 19176c01dedSDanilo Krummrich deref(&self) -> &Self::Target19276c01dedSDanilo Krummrich fn deref(&self) -> &Self::Target { 19376c01dedSDanilo Krummrich &self.0.data 19476c01dedSDanilo Krummrich } 19576c01dedSDanilo Krummrich } 19676c01dedSDanilo Krummrich 19776c01dedSDanilo Krummrich impl<T> Drop for Devres<T> { drop(&mut self)19876c01dedSDanilo Krummrich fn drop(&mut self) { 1998ff65664SDanilo Krummrich DevresInner::remove_action(&self.0); 20076c01dedSDanilo Krummrich } 20176c01dedSDanilo Krummrich } 202