From 82b3644d3deab496cc09f29f3449ede6824b3e8e Mon Sep 17 00:00:00 2001 From: Danilo Krummrich Date: Tue, 22 Jul 2025 16:59:59 +0200 Subject: device: rust: expand documentation for DeviceContext Expand the documentation around DeviceContext states and types, in order to provide detailed information about their purpose and relationship with each other. Reviewed-by: Greg Kroah-Hartman Reviewed-by: Alexandre Courbot Reviewed-by: Alice Ryhl Reviewed-by: Daniel Almeida Link: https://lore.kernel.org/r/20250722150110.23565-2-dakr@kernel.org [ Fix two minor typos. - Danilo ] Signed-off-by: Danilo Krummrich --- rust/kernel/device.rs | 69 +++++++++++++++++++++++++++++++++++++++++++-------- 1 file changed, 58 insertions(+), 11 deletions(-) (limited to 'rust/kernel/device.rs') diff --git a/rust/kernel/device.rs b/rust/kernel/device.rs index b8613289de8e..fe095a8eccb1 100644 --- a/rust/kernel/device.rs +++ b/rust/kernel/device.rs @@ -311,28 +311,75 @@ unsafe impl Send for Device {} // synchronization in `struct device`. unsafe impl Sync for Device {} -/// Marker trait for the context of a bus specific device. +/// Marker trait for the context or scope of a bus specific device. /// -/// Some functions of a bus specific device should only be called from a certain context, i.e. bus -/// callbacks, such as `probe()`. +/// [`DeviceContext`] is a marker trait for types representing the context of a bus specific +/// [`Device`]. /// -/// This is the marker trait for structures representing the context of a bus specific device. +/// The specific device context types are: [`CoreInternal`], [`Core`], [`Bound`] and [`Normal`]. +/// +/// [`DeviceContext`] types are hierarchical, which means that there is a strict hierarchy that +/// defines which [`DeviceContext`] type can be derived from another. For instance, any +/// [`Device`] can dereference to a [`Device`]. +/// +/// The following enumeration illustrates the dereference hierarchy of [`DeviceContext`] types. +/// +/// - [`CoreInternal`] => [`Core`] => [`Bound`] => [`Normal`] +/// +/// Bus devices can automatically implement the dereference hierarchy by using +/// [`impl_device_context_deref`]. +/// +/// Note that the guarantee for a [`Device`] reference to have a certain [`DeviceContext`] comes +/// from the specific scope the [`Device`] reference is valid in. +/// +/// [`impl_device_context_deref`]: kernel::impl_device_context_deref pub trait DeviceContext: private::Sealed {} -/// The [`Normal`] context is the context of a bus specific device when it is not an argument of -/// any bus callback. +/// The [`Normal`] context is the default [`DeviceContext`] of any [`Device`]. +/// +/// The normal context does not indicate any specific context. Any `Device` is also a valid +/// [`Device`]. It is the only [`DeviceContext`] for which it is valid to implement +/// [`AlwaysRefCounted`] for. +/// +/// [`AlwaysRefCounted`]: kernel::types::AlwaysRefCounted pub struct Normal; -/// The [`Core`] context is the context of a bus specific device when it is supplied as argument of -/// any of the bus callbacks, such as `probe()`. +/// The [`Core`] context is the context of a bus specific device when it appears as argument of +/// any bus specific callback, such as `probe()`. +/// +/// The core context indicates that the [`Device`] reference's scope is limited to the bus +/// callback it appears in. It is intended to be used for synchronization purposes. Bus device +/// implementations can implement methods for [`Device`], such that they can only be called +/// from bus callbacks. pub struct Core; -/// Semantically the same as [`Core`] but reserved for internal usage of the corresponding bus +/// Semantically the same as [`Core`], but reserved for internal usage of the corresponding bus +/// abstraction. +/// +/// The internal core context is intended to be used in exactly the same way as the [`Core`] +/// context, with the difference that this [`DeviceContext`] is internal to the corresponding bus /// abstraction. +/// +/// This context mainly exists to share generic [`Device`] infrastructure that should only be called +/// from bus callbacks with bus abstractions, but without making them accessible for drivers. pub struct CoreInternal; -/// The [`Bound`] context is the context of a bus specific device reference when it is guaranteed to -/// be bound for the duration of its lifetime. +/// The [`Bound`] context is the [`DeviceContext`] of a bus specific device when it is guaranteed to +/// be bound to a driver. +/// +/// The bound context indicates that for the entire duration of the lifetime of a [`Device`] +/// reference, the [`Device`] is guaranteed to be bound to a driver. +/// +/// Some APIs, such as [`dma::CoherentAllocation`] or [`Devres`] rely on the [`Device`] to be bound, +/// which can be proven with the [`Bound`] device context. +/// +/// Any abstraction that can guarantee a scope where the corresponding bus device is bound, should +/// provide a [`Device`] reference to its users for this scope. This allows users to benefit +/// from optimizations for accessing device resources, see also [`Devres::access`]. +/// +/// [`Devres`]: kernel::devres::Devres +/// [`Devres::access`]: kernel::devres::Devres::access +/// [`dma::CoherentAllocation`]: kernel::dma::CoherentAllocation pub struct Bound; mod private { -- cgit From d6e26c1ae4a602d8b7eeb39e23514f6f98d91eb5 Mon Sep 17 00:00:00 2001 From: Danilo Krummrich Date: Tue, 22 Jul 2025 17:00:00 +0200 Subject: device: rust: expand documentation for Device The documentation for the generic Device type is outdated and deserves much more detail. Hence, expand the documentation and cover topics such as device types, device contexts, as well as information on how to use the generic device infrastructure to implement bus and class specific device types. Reviewed-by: Daniel Almeida Reviewed-by: Greg Kroah-Hartman Reviewed-by: Alexandre Courbot Reviewed-by: Alice Ryhl Link: https://lore.kernel.org/r/20250722150110.23565-3-dakr@kernel.org [ Add empty line after code blocks, "in" -> "within", remove unnecessary pin annotations in class device example. - Danilo ] Signed-off-by: Danilo Krummrich --- rust/kernel/device.rs | 139 +++++++++++++++++++++++++++++++++++++++++++++----- 1 file changed, 126 insertions(+), 13 deletions(-) (limited to 'rust/kernel/device.rs') diff --git a/rust/kernel/device.rs b/rust/kernel/device.rs index fe095a8eccb1..5902b3714a16 100644 --- a/rust/kernel/device.rs +++ b/rust/kernel/device.rs @@ -15,23 +15,130 @@ use crate::c_str; pub mod property; -/// A reference-counted device. +/// The core representation of a device in the kernel's driver model. /// -/// This structure represents the Rust abstraction for a C `struct device`. This implementation -/// abstracts the usage of an already existing C `struct device` within Rust code that we get -/// passed from the C side. +/// This structure represents the Rust abstraction for a C `struct device`. A [`Device`] can either +/// exist as temporary reference (see also [`Device::from_raw`]), which is only valid within a +/// certain scope or as [`ARef`], owning a dedicated reference count. /// -/// An instance of this abstraction can be obtained temporarily or permanent. +/// # Device Types /// -/// A temporary one is bound to the lifetime of the C `struct device` pointer used for creation. -/// A permanent instance is always reference-counted and hence not restricted by any lifetime -/// boundaries. +/// A [`Device`] can represent either a bus device or a class device. /// -/// For subsystems it is recommended to create a permanent instance to wrap into a subsystem -/// specific device structure (e.g. `pci::Device`). This is useful for passing it to drivers in -/// `T::probe()`, such that a driver can store the `ARef` (equivalent to storing a -/// `struct device` pointer in a C driver) for arbitrary purposes, e.g. allocating DMA coherent -/// memory. +/// ## Bus Devices +/// +/// A bus device is a [`Device`] that is associated with a physical or virtual bus. Examples of +/// buses include PCI, USB, I2C, and SPI. Devices attached to a bus are registered with a specific +/// bus type, which facilitates matching devices with appropriate drivers based on IDs or other +/// identifying information. Bus devices are visible in sysfs under `/sys/bus//devices/`. +/// +/// ## Class Devices +/// +/// A class device is a [`Device`] that is associated with a logical category of functionality +/// rather than a physical bus. Examples of classes include block devices, network interfaces, sound +/// cards, and input devices. Class devices are grouped under a common class and exposed to +/// userspace via entries in `/sys/class//`. +/// +/// # Device Context +/// +/// [`Device`] references are generic over a [`DeviceContext`], which represents the type state of +/// a [`Device`]. +/// +/// As the name indicates, this type state represents the context of the scope the [`Device`] +/// reference is valid in. For instance, the [`Bound`] context guarantees that the [`Device`] is +/// bound to a driver for the entire duration of the existence of a [`Device`] reference. +/// +/// Other [`DeviceContext`] types besides [`Bound`] are [`Normal`], [`Core`] and [`CoreInternal`]. +/// +/// Unless selected otherwise [`Device`] defaults to the [`Normal`] [`DeviceContext`], which by +/// itself has no additional requirements. +/// +/// It is always up to the caller of [`Device::from_raw`] to select the correct [`DeviceContext`] +/// type for the corresponding scope the [`Device`] reference is created in. +/// +/// All [`DeviceContext`] types other than [`Normal`] are intended to be used with +/// [bus devices](#bus-devices) only. +/// +/// # Implementing Bus Devices +/// +/// This section provides a guideline to implement bus specific devices, such as [`pci::Device`] or +/// [`platform::Device`]. +/// +/// A bus specific device should be defined as follows. +/// +/// ```ignore +/// #[repr(transparent)] +/// pub struct Device( +/// Opaque, +/// PhantomData, +/// ); +/// ``` +/// +/// Since devices are reference counted, [`AlwaysRefCounted`] should be implemented for `Device` +/// (i.e. `Device`). Note that [`AlwaysRefCounted`] must not be implemented for any other +/// [`DeviceContext`], since all other device context types are only valid within a certain scope. +/// +/// In order to be able to implement the [`DeviceContext`] dereference hierarchy, bus device +/// implementations should call the [`impl_device_context_deref`] macro as shown below. +/// +/// ```ignore +/// // SAFETY: `Device` is a transparent wrapper of a type that doesn't depend on `Device`'s +/// // generic argument. +/// kernel::impl_device_context_deref!(unsafe { Device }); +/// ``` +/// +/// In order to convert from a any [`Device`] to [`ARef`], bus devices can implement +/// the following macro call. +/// +/// ```ignore +/// kernel::impl_device_context_into_aref!(Device); +/// ``` +/// +/// Bus devices should also implement the following [`AsRef`] implementation, such that users can +/// easily derive a generic [`Device`] reference. +/// +/// ```ignore +/// impl AsRef> for Device { +/// fn as_ref(&self) -> &device::Device { +/// ... +/// } +/// } +/// ``` +/// +/// # Implementing Class Devices +/// +/// Class device implementations require less infrastructure and depend slightly more on the +/// specific subsystem. +/// +/// An example implementation for a class device could look like this. +/// +/// ```ignore +/// #[repr(C)] +/// pub struct Device { +/// dev: Opaque, +/// data: T::Data, +/// } +/// ``` +/// +/// This class device uses the sub-classing pattern to embed the driver's private data within the +/// allocation of the class device. For this to be possible the class device is generic over the +/// class specific `Driver` trait implementation. +/// +/// Just like any device, class devices are reference counted and should hence implement +/// [`AlwaysRefCounted`] for `Device`. +/// +/// Class devices should also implement the following [`AsRef`] implementation, such that users can +/// easily derive a generic [`Device`] reference. +/// +/// ```ignore +/// impl AsRef for Device { +/// fn as_ref(&self) -> &device::Device { +/// ... +/// } +/// } +/// ``` +/// +/// An example for a class device implementation is [`drm::Device`]. /// /// # Invariants /// @@ -42,6 +149,12 @@ pub mod property; /// /// `bindings::device::release` is valid to be called from any thread, hence `ARef` can be /// dropped from any thread. +/// +/// [`AlwaysRefCounted`]: kernel::types::AlwaysRefCounted +/// [`drm::Device`]: kernel::drm::Device +/// [`impl_device_context_deref`]: kernel::impl_device_context_deref +/// [`pci::Device`]: kernel::pci::Device +/// [`platform::Device`]: kernel::platform::Device #[repr(transparent)] pub struct Device(Opaque, PhantomData); -- cgit