kernel/
devres.rs

1// SPDX-License-Identifier: GPL-2.0
2
3//! Devres abstraction
4//!
5//! [`Devres`] represents an abstraction for the kernel devres (device resource management)
6//! implementation.
7
8use crate::{
9    alloc::Flags,
10    bindings,
11    device::Device,
12    error::{Error, Result},
13    ffi::c_void,
14    prelude::*,
15    revocable::Revocable,
16    sync::Arc,
17    types::ARef,
18};
19
20use core::ops::Deref;
21
22#[pin_data]
23struct DevresInner<T> {
24    dev: ARef<Device>,
25    callback: unsafe extern "C" fn(*mut c_void),
26    #[pin]
27    data: Revocable<T>,
28}
29
30/// This abstraction is meant to be used by subsystems to containerize [`Device`] bound resources to
31/// manage their lifetime.
32///
33/// [`Device`] bound resources should be freed when either the resource goes out of scope or the
34/// [`Device`] is unbound respectively, depending on what happens first.
35///
36/// To achieve that [`Devres`] registers a devres callback on creation, which is called once the
37/// [`Device`] is unbound, revoking access to the encapsulated resource (see also [`Revocable`]).
38///
39/// After the [`Devres`] has been unbound it is not possible to access the encapsulated resource
40/// anymore.
41///
42/// [`Devres`] users should make sure to simply free the corresponding backing resource in `T`'s
43/// [`Drop`] implementation.
44///
45/// # Example
46///
47/// ```no_run
48/// # use kernel::{bindings, c_str, device::Device, devres::Devres, io::{Io, IoRaw}};
49/// # use core::ops::Deref;
50///
51/// // See also [`pci::Bar`] for a real example.
52/// struct IoMem<const SIZE: usize>(IoRaw<SIZE>);
53///
54/// impl<const SIZE: usize> IoMem<SIZE> {
55///     /// # Safety
56///     ///
57///     /// [`paddr`, `paddr` + `SIZE`) must be a valid MMIO region that is mappable into the CPUs
58///     /// virtual address space.
59///     unsafe fn new(paddr: usize) -> Result<Self>{
60///         // SAFETY: By the safety requirements of this function [`paddr`, `paddr` + `SIZE`) is
61///         // valid for `ioremap`.
62///         let addr = unsafe { bindings::ioremap(paddr as _, SIZE as _) };
63///         if addr.is_null() {
64///             return Err(ENOMEM);
65///         }
66///
67///         Ok(IoMem(IoRaw::new(addr as _, SIZE)?))
68///     }
69/// }
70///
71/// impl<const SIZE: usize> Drop for IoMem<SIZE> {
72///     fn drop(&mut self) {
73///         // SAFETY: `self.0.addr()` is guaranteed to be properly mapped by `Self::new`.
74///         unsafe { bindings::iounmap(self.0.addr() as _); };
75///     }
76/// }
77///
78/// impl<const SIZE: usize> Deref for IoMem<SIZE> {
79///    type Target = Io<SIZE>;
80///
81///    fn deref(&self) -> &Self::Target {
82///         // SAFETY: The memory range stored in `self` has been properly mapped in `Self::new`.
83///         unsafe { Io::from_raw(&self.0) }
84///    }
85/// }
86/// # fn no_run() -> Result<(), Error> {
87/// # // SAFETY: Invalid usage; just for the example to get an `ARef<Device>` instance.
88/// # let dev = unsafe { Device::get_device(core::ptr::null_mut()) };
89///
90/// // SAFETY: Invalid usage for example purposes.
91/// let iomem = unsafe { IoMem::<{ core::mem::size_of::<u32>() }>::new(0xBAAAAAAD)? };
92/// let devres = Devres::new(&dev, iomem, GFP_KERNEL)?;
93///
94/// let res = devres.try_access().ok_or(ENXIO)?;
95/// res.write8(0x42, 0x0);
96/// # Ok(())
97/// # }
98/// ```
99pub struct Devres<T>(Arc<DevresInner<T>>);
100
101impl<T> DevresInner<T> {
102    fn new(dev: &Device, data: T, flags: Flags) -> Result<Arc<DevresInner<T>>> {
103        let inner = Arc::pin_init(
104            pin_init!( DevresInner {
105                dev: dev.into(),
106                callback: Self::devres_callback,
107                data <- Revocable::new(data),
108            }),
109            flags,
110        )?;
111
112        // Convert `Arc<DevresInner>` into a raw pointer and make devres own this reference until
113        // `Self::devres_callback` is called.
114        let data = inner.clone().into_raw();
115
116        // SAFETY: `devm_add_action` guarantees to call `Self::devres_callback` once `dev` is
117        // detached.
118        let ret =
119            unsafe { bindings::devm_add_action(dev.as_raw(), Some(inner.callback), data as _) };
120
121        if ret != 0 {
122            // SAFETY: We just created another reference to `inner` in order to pass it to
123            // `bindings::devm_add_action`. If `bindings::devm_add_action` fails, we have to drop
124            // this reference accordingly.
125            let _ = unsafe { Arc::from_raw(data) };
126            return Err(Error::from_errno(ret));
127        }
128
129        Ok(inner)
130    }
131
132    fn as_ptr(&self) -> *const Self {
133        self as _
134    }
135
136    fn remove_action(this: &Arc<Self>) {
137        // SAFETY:
138        // - `self.inner.dev` is a valid `Device`,
139        // - the `action` and `data` pointers are the exact same ones as given to devm_add_action()
140        //   previously,
141        // - `self` is always valid, even if the action has been released already.
142        let ret = unsafe {
143            bindings::devm_remove_action_nowarn(
144                this.dev.as_raw(),
145                Some(this.callback),
146                this.as_ptr() as _,
147            )
148        };
149
150        if ret == 0 {
151            // SAFETY: We leaked an `Arc` reference to devm_add_action() in `DevresInner::new`; if
152            // devm_remove_action_nowarn() was successful we can (and have to) claim back ownership
153            // of this reference.
154            let _ = unsafe { Arc::from_raw(this.as_ptr()) };
155        }
156    }
157
158    #[allow(clippy::missing_safety_doc)]
159    unsafe extern "C" fn devres_callback(ptr: *mut kernel::ffi::c_void) {
160        let ptr = ptr as *mut DevresInner<T>;
161        // Devres owned this memory; now that we received the callback, drop the `Arc` and hence the
162        // reference.
163        // SAFETY: Safe, since we leaked an `Arc` reference to devm_add_action() in
164        //         `DevresInner::new`.
165        let inner = unsafe { Arc::from_raw(ptr) };
166
167        inner.data.revoke();
168    }
169}
170
171impl<T> Devres<T> {
172    /// Creates a new [`Devres`] instance of the given `data`. The `data` encapsulated within the
173    /// returned `Devres` instance' `data` will be revoked once the device is detached.
174    pub fn new(dev: &Device, data: T, flags: Flags) -> Result<Self> {
175        let inner = DevresInner::new(dev, data, flags)?;
176
177        Ok(Devres(inner))
178    }
179
180    /// Same as [`Devres::new`], but does not return a `Devres` instance. Instead the given `data`
181    /// is owned by devres and will be revoked / dropped, once the device is detached.
182    pub fn new_foreign_owned(dev: &Device, data: T, flags: Flags) -> Result {
183        let _ = DevresInner::new(dev, data, flags)?;
184
185        Ok(())
186    }
187}
188
189impl<T> Deref for Devres<T> {
190    type Target = Revocable<T>;
191
192    fn deref(&self) -> &Self::Target {
193        &self.0.data
194    }
195}
196
197impl<T> Drop for Devres<T> {
198    fn drop(&mut self) {
199        DevresInner::remove_action(&self.0);
200    }
201}