1 // SPDX-License-Identifier: GPL-2.0 2 3 //! Abstractions for the auxiliary bus. 4 //! 5 //! C header: [`include/linux/auxiliary_bus.h`](srctree/include/linux/auxiliary_bus.h) 6 7 use crate::{ 8 bindings, 9 container_of, 10 device, 11 device_id::{ 12 RawDeviceId, 13 RawDeviceIdIndex, // 14 }, 15 devres::Devres, 16 driver, 17 error::{ 18 from_result, 19 to_result, // 20 }, 21 prelude::*, 22 types::Opaque, 23 ThisModule, // 24 }; 25 use core::{ 26 marker::PhantomData, 27 mem::offset_of, 28 ptr::{ 29 addr_of_mut, 30 NonNull, // 31 }, 32 }; 33 34 /// An adapter for the registration of auxiliary drivers. 35 pub struct Adapter<T: Driver>(T); 36 37 // SAFETY: A call to `unregister` for a given instance of `RegType` is guaranteed to be valid if 38 // a preceding call to `register` has been successful. 39 unsafe impl<T: Driver + 'static> driver::RegistrationOps for Adapter<T> { 40 type RegType = bindings::auxiliary_driver; 41 42 unsafe fn register( 43 adrv: &Opaque<Self::RegType>, 44 name: &'static CStr, 45 module: &'static ThisModule, 46 ) -> Result { 47 // SAFETY: It's safe to set the fields of `struct auxiliary_driver` on initialization. 48 unsafe { 49 (*adrv.get()).name = name.as_char_ptr(); 50 (*adrv.get()).probe = Some(Self::probe_callback); 51 (*adrv.get()).remove = Some(Self::remove_callback); 52 (*adrv.get()).id_table = T::ID_TABLE.as_ptr(); 53 } 54 55 // SAFETY: `adrv` is guaranteed to be a valid `RegType`. 56 to_result(unsafe { 57 bindings::__auxiliary_driver_register(adrv.get(), module.0, name.as_char_ptr()) 58 }) 59 } 60 61 unsafe fn unregister(adrv: &Opaque<Self::RegType>) { 62 // SAFETY: `adrv` is guaranteed to be a valid `RegType`. 63 unsafe { bindings::auxiliary_driver_unregister(adrv.get()) } 64 } 65 } 66 67 impl<T: Driver + 'static> Adapter<T> { 68 extern "C" fn probe_callback( 69 adev: *mut bindings::auxiliary_device, 70 id: *const bindings::auxiliary_device_id, 71 ) -> c_int { 72 // SAFETY: The auxiliary bus only ever calls the probe callback with a valid pointer to a 73 // `struct auxiliary_device`. 74 // 75 // INVARIANT: `adev` is valid for the duration of `probe_callback()`. 76 let adev = unsafe { &*adev.cast::<Device<device::CoreInternal>>() }; 77 78 // SAFETY: `DeviceId` is a `#[repr(transparent)`] wrapper of `struct auxiliary_device_id` 79 // and does not add additional invariants, so it's safe to transmute. 80 let id = unsafe { &*id.cast::<DeviceId>() }; 81 let info = T::ID_TABLE.info(id.index()); 82 83 from_result(|| { 84 let data = T::probe(adev, info); 85 86 adev.as_ref().set_drvdata(data)?; 87 Ok(0) 88 }) 89 } 90 91 extern "C" fn remove_callback(adev: *mut bindings::auxiliary_device) { 92 // SAFETY: The auxiliary bus only ever calls the probe callback with a valid pointer to a 93 // `struct auxiliary_device`. 94 // 95 // INVARIANT: `adev` is valid for the duration of `probe_callback()`. 96 let adev = unsafe { &*adev.cast::<Device<device::CoreInternal>>() }; 97 98 // SAFETY: `remove_callback` is only ever called after a successful call to 99 // `probe_callback`, hence it's guaranteed that `Device::set_drvdata()` has been called 100 // and stored a `Pin<KBox<T>>`. 101 drop(unsafe { adev.as_ref().drvdata_obtain::<T>() }); 102 } 103 } 104 105 /// Declares a kernel module that exposes a single auxiliary driver. 106 #[macro_export] 107 macro_rules! module_auxiliary_driver { 108 ($($f:tt)*) => { 109 $crate::module_driver!(<T>, $crate::auxiliary::Adapter<T>, { $($f)* }); 110 }; 111 } 112 113 /// Abstraction for `bindings::auxiliary_device_id`. 114 #[repr(transparent)] 115 #[derive(Clone, Copy)] 116 pub struct DeviceId(bindings::auxiliary_device_id); 117 118 impl DeviceId { 119 /// Create a new [`DeviceId`] from name. 120 pub const fn new(modname: &'static CStr, name: &'static CStr) -> Self { 121 let name = name.to_bytes_with_nul(); 122 let modname = modname.to_bytes_with_nul(); 123 124 // TODO: Replace with `bindings::auxiliary_device_id::default()` once stabilized for 125 // `const`. 126 // 127 // SAFETY: FFI type is valid to be zero-initialized. 128 let mut id: bindings::auxiliary_device_id = unsafe { core::mem::zeroed() }; 129 130 let mut i = 0; 131 while i < modname.len() { 132 id.name[i] = modname[i]; 133 i += 1; 134 } 135 136 // Reuse the space of the NULL terminator. 137 id.name[i - 1] = b'.'; 138 139 let mut j = 0; 140 while j < name.len() { 141 id.name[i] = name[j]; 142 i += 1; 143 j += 1; 144 } 145 146 Self(id) 147 } 148 } 149 150 // SAFETY: `DeviceId` is a `#[repr(transparent)]` wrapper of `auxiliary_device_id` and does not add 151 // additional invariants, so it's safe to transmute to `RawType`. 152 unsafe impl RawDeviceId for DeviceId { 153 type RawType = bindings::auxiliary_device_id; 154 } 155 156 // SAFETY: `DRIVER_DATA_OFFSET` is the offset to the `driver_data` field. 157 unsafe impl RawDeviceIdIndex for DeviceId { 158 const DRIVER_DATA_OFFSET: usize = 159 core::mem::offset_of!(bindings::auxiliary_device_id, driver_data); 160 161 fn index(&self) -> usize { 162 self.0.driver_data 163 } 164 } 165 166 /// IdTable type for auxiliary drivers. 167 pub type IdTable<T> = &'static dyn kernel::device_id::IdTable<DeviceId, T>; 168 169 /// Create a auxiliary `IdTable` with its alias for modpost. 170 #[macro_export] 171 macro_rules! auxiliary_device_table { 172 ($table_name:ident, $module_table_name:ident, $id_info_type: ty, $table_data: expr) => { 173 const $table_name: $crate::device_id::IdArray< 174 $crate::auxiliary::DeviceId, 175 $id_info_type, 176 { $table_data.len() }, 177 > = $crate::device_id::IdArray::new($table_data); 178 179 $crate::module_device_table!("auxiliary", $module_table_name, $table_name); 180 }; 181 } 182 183 /// The auxiliary driver trait. 184 /// 185 /// Drivers must implement this trait in order to get an auxiliary driver registered. 186 pub trait Driver { 187 /// The type holding information about each device id supported by the driver. 188 /// 189 /// TODO: Use associated_type_defaults once stabilized: 190 /// 191 /// type IdInfo: 'static = (); 192 type IdInfo: 'static; 193 194 /// The table of device ids supported by the driver. 195 const ID_TABLE: IdTable<Self::IdInfo>; 196 197 /// Auxiliary driver probe. 198 /// 199 /// Called when an auxiliary device is matches a corresponding driver. 200 fn probe(dev: &Device<device::Core>, id_info: &Self::IdInfo) -> impl PinInit<Self, Error>; 201 } 202 203 /// The auxiliary device representation. 204 /// 205 /// This structure represents the Rust abstraction for a C `struct auxiliary_device`. The 206 /// implementation abstracts the usage of an already existing C `struct auxiliary_device` within 207 /// Rust code that we get passed from the C side. 208 /// 209 /// # Invariants 210 /// 211 /// A [`Device`] instance represents a valid `struct auxiliary_device` created by the C portion of 212 /// the kernel. 213 #[repr(transparent)] 214 pub struct Device<Ctx: device::DeviceContext = device::Normal>( 215 Opaque<bindings::auxiliary_device>, 216 PhantomData<Ctx>, 217 ); 218 219 impl<Ctx: device::DeviceContext> Device<Ctx> { 220 fn as_raw(&self) -> *mut bindings::auxiliary_device { 221 self.0.get() 222 } 223 224 /// Returns the auxiliary device' id. 225 pub fn id(&self) -> u32 { 226 // SAFETY: By the type invariant `self.as_raw()` is a valid pointer to a 227 // `struct auxiliary_device`. 228 unsafe { (*self.as_raw()).id } 229 } 230 } 231 232 impl Device<device::Bound> { 233 /// Returns a bound reference to the parent [`device::Device`]. 234 pub fn parent(&self) -> &device::Device<device::Bound> { 235 let parent = (**self).parent(); 236 237 // SAFETY: A bound auxiliary device always has a bound parent device. 238 unsafe { parent.as_bound() } 239 } 240 } 241 242 impl Device { 243 /// Returns a reference to the parent [`device::Device`]. 244 pub fn parent(&self) -> &device::Device { 245 // SAFETY: A `struct auxiliary_device` always has a parent. 246 unsafe { self.as_ref().parent().unwrap_unchecked() } 247 } 248 249 extern "C" fn release(dev: *mut bindings::device) { 250 // SAFETY: By the type invariant `self.0.as_raw` is a pointer to the `struct device` 251 // embedded in `struct auxiliary_device`. 252 let adev = unsafe { container_of!(dev, bindings::auxiliary_device, dev) }; 253 254 // SAFETY: `adev` points to the memory that has been allocated in `Registration::new`, via 255 // `KBox::new(Opaque::<bindings::auxiliary_device>::zeroed(), GFP_KERNEL)`. 256 let _ = unsafe { KBox::<Opaque<bindings::auxiliary_device>>::from_raw(adev.cast()) }; 257 } 258 } 259 260 // SAFETY: `auxiliary::Device` is a transparent wrapper of `struct auxiliary_device`. 261 // The offset is guaranteed to point to a valid device field inside `auxiliary::Device`. 262 unsafe impl<Ctx: device::DeviceContext> device::AsBusDevice<Ctx> for Device<Ctx> { 263 const OFFSET: usize = offset_of!(bindings::auxiliary_device, dev); 264 } 265 266 // SAFETY: `Device` is a transparent wrapper of a type that doesn't depend on `Device`'s generic 267 // argument. 268 kernel::impl_device_context_deref!(unsafe { Device }); 269 kernel::impl_device_context_into_aref!(Device); 270 271 // SAFETY: Instances of `Device` are always reference-counted. 272 unsafe impl crate::sync::aref::AlwaysRefCounted for Device { 273 fn inc_ref(&self) { 274 // SAFETY: The existence of a shared reference guarantees that the refcount is non-zero. 275 unsafe { bindings::get_device(self.as_ref().as_raw()) }; 276 } 277 278 unsafe fn dec_ref(obj: NonNull<Self>) { 279 // CAST: `Self` a transparent wrapper of `bindings::auxiliary_device`. 280 let adev: *mut bindings::auxiliary_device = obj.cast().as_ptr(); 281 282 // SAFETY: By the type invariant of `Self`, `adev` is a pointer to a valid 283 // `struct auxiliary_device`. 284 let dev = unsafe { addr_of_mut!((*adev).dev) }; 285 286 // SAFETY: The safety requirements guarantee that the refcount is non-zero. 287 unsafe { bindings::put_device(dev) } 288 } 289 } 290 291 impl<Ctx: device::DeviceContext> AsRef<device::Device<Ctx>> for Device<Ctx> { 292 fn as_ref(&self) -> &device::Device<Ctx> { 293 // SAFETY: By the type invariant of `Self`, `self.as_raw()` is a pointer to a valid 294 // `struct auxiliary_device`. 295 let dev = unsafe { addr_of_mut!((*self.as_raw()).dev) }; 296 297 // SAFETY: `dev` points to a valid `struct device`. 298 unsafe { device::Device::from_raw(dev) } 299 } 300 } 301 302 // SAFETY: A `Device` is always reference-counted and can be released from any thread. 303 unsafe impl Send for Device {} 304 305 // SAFETY: `Device` can be shared among threads because all methods of `Device` 306 // (i.e. `Device<Normal>) are thread safe. 307 unsafe impl Sync for Device {} 308 309 /// The registration of an auxiliary device. 310 /// 311 /// This type represents the registration of a [`struct auxiliary_device`]. When its parent device 312 /// is unbound, the corresponding auxiliary device will be unregistered from the system. 313 /// 314 /// # Invariants 315 /// 316 /// `self.0` always holds a valid pointer to an initialized and registered 317 /// [`struct auxiliary_device`]. 318 pub struct Registration(NonNull<bindings::auxiliary_device>); 319 320 impl Registration { 321 /// Create and register a new auxiliary device. 322 pub fn new<'a>( 323 parent: &'a device::Device<device::Bound>, 324 name: &'a CStr, 325 id: u32, 326 modname: &'a CStr, 327 ) -> impl PinInit<Devres<Self>, Error> + 'a { 328 pin_init::pin_init_scope(move || { 329 let boxed = KBox::new(Opaque::<bindings::auxiliary_device>::zeroed(), GFP_KERNEL)?; 330 let adev = boxed.get(); 331 332 // SAFETY: It's safe to set the fields of `struct auxiliary_device` on initialization. 333 unsafe { 334 (*adev).dev.parent = parent.as_raw(); 335 (*adev).dev.release = Some(Device::release); 336 (*adev).name = name.as_char_ptr(); 337 (*adev).id = id; 338 } 339 340 // SAFETY: `adev` is guaranteed to be a valid pointer to a `struct auxiliary_device`, 341 // which has not been initialized yet. 342 unsafe { bindings::auxiliary_device_init(adev) }; 343 344 // Now that `adev` is initialized, leak the `Box`; the corresponding memory will be 345 // freed by `Device::release` when the last reference to the `struct auxiliary_device` 346 // is dropped. 347 let _ = KBox::into_raw(boxed); 348 349 // SAFETY: 350 // - `adev` is guaranteed to be a valid pointer to a `struct auxiliary_device`, which 351 // has been initialized, 352 // - `modname.as_char_ptr()` is a NULL terminated string. 353 let ret = unsafe { bindings::__auxiliary_device_add(adev, modname.as_char_ptr()) }; 354 if ret != 0 { 355 // SAFETY: `adev` is guaranteed to be a valid pointer to a 356 // `struct auxiliary_device`, which has been initialized. 357 unsafe { bindings::auxiliary_device_uninit(adev) }; 358 359 return Err(Error::from_errno(ret)); 360 } 361 362 // INVARIANT: The device will remain registered until `auxiliary_device_delete()` is 363 // called, which happens in `Self::drop()`. 364 Ok(Devres::new( 365 parent, 366 // SAFETY: `adev` is guaranteed to be non-null, since the `KBox` was allocated 367 // successfully. 368 Self(unsafe { NonNull::new_unchecked(adev) }), 369 )) 370 }) 371 } 372 } 373 374 impl Drop for Registration { 375 fn drop(&mut self) { 376 // SAFETY: By the type invariant of `Self`, `self.0.as_ptr()` is a valid registered 377 // `struct auxiliary_device`. 378 unsafe { bindings::auxiliary_device_delete(self.0.as_ptr()) }; 379 380 // This drops the reference we acquired through `auxiliary_device_init()`. 381 // 382 // SAFETY: By the type invariant of `Self`, `self.0.as_ptr()` is a valid registered 383 // `struct auxiliary_device`. 384 unsafe { bindings::auxiliary_device_uninit(self.0.as_ptr()) }; 385 } 386 } 387 388 // SAFETY: A `Registration` of a `struct auxiliary_device` can be released from any thread. 389 unsafe impl Send for Registration {} 390 391 // SAFETY: `Registration` does not expose any methods or fields that need synchronization. 392 unsafe impl Sync for Registration {} 393