// SPDX-License-Identifier: GPL-2.0 // Copyright (C) 2024 Google LLC. //! Miscdevice support. //! //! C headers: [`include/linux/miscdevice.h`](srctree/include/linux/miscdevice.h). //! //! Reference: use crate::{ bindings, device::Device, error::{to_result, Error, Result, VTABLE_DEFAULT_ERROR}, ffi::{c_int, c_long, c_uint, c_ulong}, fs::File, prelude::*, seq_file::SeqFile, str::CStr, types::{ForeignOwnable, Opaque}, }; use core::{marker::PhantomData, mem::MaybeUninit, pin::Pin}; /// Options for creating a misc device. #[derive(Copy, Clone)] pub struct MiscDeviceOptions { /// The name of the miscdevice. pub name: &'static CStr, } impl MiscDeviceOptions { /// Create a raw `struct miscdev` ready for registration. pub const fn into_raw(self) -> bindings::miscdevice { // SAFETY: All zeros is valid for this C type. let mut result: bindings::miscdevice = unsafe { MaybeUninit::zeroed().assume_init() }; result.minor = bindings::MISC_DYNAMIC_MINOR as _; result.name = self.name.as_char_ptr(); result.fops = create_vtable::(); result } } /// A registration of a miscdevice. /// /// # Invariants /// /// `inner` is a registered misc device. #[repr(transparent)] #[pin_data(PinnedDrop)] pub struct MiscDeviceRegistration { #[pin] inner: Opaque, _t: PhantomData, } // SAFETY: It is allowed to call `misc_deregister` on a different thread from where you called // `misc_register`. unsafe impl Send for MiscDeviceRegistration {} // SAFETY: All `&self` methods on this type are written to ensure that it is safe to call them in // parallel. unsafe impl Sync for MiscDeviceRegistration {} impl MiscDeviceRegistration { /// Register a misc device. pub fn register(opts: MiscDeviceOptions) -> impl PinInit { try_pin_init!(Self { inner <- Opaque::try_ffi_init(move |slot: *mut bindings::miscdevice| { // SAFETY: The initializer can write to the provided `slot`. unsafe { slot.write(opts.into_raw::()) }; // SAFETY: We just wrote the misc device options to the slot. The miscdevice will // get unregistered before `slot` is deallocated because the memory is pinned and // the destructor of this type deallocates the memory. // INVARIANT: If this returns `Ok(())`, then the `slot` will contain a registered // misc device. to_result(unsafe { bindings::misc_register(slot) }) }), _t: PhantomData, }) } /// Returns a raw pointer to the misc device. pub fn as_raw(&self) -> *mut bindings::miscdevice { self.inner.get() } /// Access the `this_device` field. pub fn device(&self) -> &Device { // SAFETY: This can only be called after a successful register(), which always // initialises `this_device` with a valid device. Furthermore, the signature of this // function tells the borrow-checker that the `&Device` reference must not outlive the // `&MiscDeviceRegistration` used to obtain it, so the last use of the reference must be // before the underlying `struct miscdevice` is destroyed. unsafe { Device::as_ref((*self.as_raw()).this_device) } } } #[pinned_drop] impl PinnedDrop for MiscDeviceRegistration { fn drop(self: Pin<&mut Self>) { // SAFETY: We know that the device is registered by the type invariants. unsafe { bindings::misc_deregister(self.inner.get()) }; } } /// Trait implemented by the private data of an open misc device. #[vtable] pub trait MiscDevice: Sized { /// What kind of pointer should `Self` be wrapped in. type Ptr: ForeignOwnable + Send + Sync; /// Called when the misc device is opened. /// /// The returned pointer will be stored as the private data for the file. fn open(_file: &File, _misc: &MiscDeviceRegistration) -> Result; /// Called when the misc device is released. fn release(device: Self::Ptr, _file: &File) { drop(device); } /// Handler for ioctls. /// /// The `cmd` argument is usually manipulated using the utilties in [`kernel::ioctl`]. /// /// [`kernel::ioctl`]: mod@crate::ioctl fn ioctl( _device: ::Borrowed<'_>, _file: &File, _cmd: u32, _arg: usize, ) -> Result { build_error!(VTABLE_DEFAULT_ERROR) } /// Handler for ioctls. /// /// Used for 32-bit userspace on 64-bit platforms. /// /// This method is optional and only needs to be provided if the ioctl relies on structures /// that have different layout on 32-bit and 64-bit userspace. If no implementation is /// provided, then `compat_ptr_ioctl` will be used instead. #[cfg(CONFIG_COMPAT)] fn compat_ioctl( _device: ::Borrowed<'_>, _file: &File, _cmd: u32, _arg: usize, ) -> Result { build_error!(VTABLE_DEFAULT_ERROR) } /// Show info for this fd. fn show_fdinfo( _device: ::Borrowed<'_>, _m: &SeqFile, _file: &File, ) { build_error!(VTABLE_DEFAULT_ERROR) } } const fn create_vtable() -> &'static bindings::file_operations { const fn maybe_fn(check: bool, func: T) -> Option { if check { Some(func) } else { None } } struct VtableHelper { _t: PhantomData, } impl VtableHelper { const VTABLE: bindings::file_operations = bindings::file_operations { open: Some(fops_open::), release: Some(fops_release::), unlocked_ioctl: maybe_fn(T::HAS_IOCTL, fops_ioctl::), #[cfg(CONFIG_COMPAT)] compat_ioctl: if T::HAS_COMPAT_IOCTL { Some(fops_compat_ioctl::) } else if T::HAS_IOCTL { Some(bindings::compat_ptr_ioctl) } else { None }, show_fdinfo: maybe_fn(T::HAS_SHOW_FDINFO, fops_show_fdinfo::), // SAFETY: All zeros is a valid value for `bindings::file_operations`. ..unsafe { MaybeUninit::zeroed().assume_init() } }; } &VtableHelper::::VTABLE } /// # Safety /// /// `file` and `inode` must be the file and inode for a file that is undergoing initialization. /// The file must be associated with a `MiscDeviceRegistration`. unsafe extern "C" fn fops_open( inode: *mut bindings::inode, raw_file: *mut bindings::file, ) -> c_int { // SAFETY: The pointers are valid and for a file being opened. let ret = unsafe { bindings::generic_file_open(inode, raw_file) }; if ret != 0 { return ret; } // SAFETY: The open call of a file can access the private data. let misc_ptr = unsafe { (*raw_file).private_data }; // SAFETY: This is a miscdevice, so `misc_open()` set the private data to a pointer to the // associated `struct miscdevice` before calling into this method. Furthermore, `misc_open()` // ensures that the miscdevice can't be unregistered and freed during this call to `fops_open`. let misc = unsafe { &*misc_ptr.cast::>() }; // SAFETY: // * This underlying file is valid for (much longer than) the duration of `T::open`. // * There is no active fdget_pos region on the file on this thread. let file = unsafe { File::from_raw_file(raw_file) }; let ptr = match T::open(file, misc) { Ok(ptr) => ptr, Err(err) => return err.to_errno(), }; // This overwrites the private data with the value specified by the user, changing the type of // this file's private data. All future accesses to the private data is performed by other // fops_* methods in this file, which all correctly cast the private data to the new type. // // SAFETY: The open call of a file can access the private data. unsafe { (*raw_file).private_data = ptr.into_foreign() }; 0 } /// # Safety /// /// `file` and `inode` must be the file and inode for a file that is being released. The file must /// be associated with a `MiscDeviceRegistration`. unsafe extern "C" fn fops_release( _inode: *mut bindings::inode, file: *mut bindings::file, ) -> c_int { // SAFETY: The release call of a file owns the private data. let private = unsafe { (*file).private_data }; // SAFETY: The release call of a file owns the private data. let ptr = unsafe { ::from_foreign(private) }; // SAFETY: // * The file is valid for the duration of this call. // * There is no active fdget_pos region on the file on this thread. T::release(ptr, unsafe { File::from_raw_file(file) }); 0 } /// # Safety /// /// `file` must be a valid file that is associated with a `MiscDeviceRegistration`. unsafe extern "C" fn fops_ioctl( file: *mut bindings::file, cmd: c_uint, arg: c_ulong, ) -> c_long { // SAFETY: The ioctl call of a file can access the private data. let private = unsafe { (*file).private_data }; // SAFETY: Ioctl calls can borrow the private data of the file. let device = unsafe { ::borrow(private) }; // SAFETY: // * The file is valid for the duration of this call. // * There is no active fdget_pos region on the file on this thread. let file = unsafe { File::from_raw_file(file) }; match T::ioctl(device, file, cmd, arg) { Ok(ret) => ret as c_long, Err(err) => err.to_errno() as c_long, } } /// # Safety /// /// `file` must be a valid file that is associated with a `MiscDeviceRegistration`. #[cfg(CONFIG_COMPAT)] unsafe extern "C" fn fops_compat_ioctl( file: *mut bindings::file, cmd: c_uint, arg: c_ulong, ) -> c_long { // SAFETY: The compat ioctl call of a file can access the private data. let private = unsafe { (*file).private_data }; // SAFETY: Ioctl calls can borrow the private data of the file. let device = unsafe { ::borrow(private) }; // SAFETY: // * The file is valid for the duration of this call. // * There is no active fdget_pos region on the file on this thread. let file = unsafe { File::from_raw_file(file) }; match T::compat_ioctl(device, file, cmd, arg) { Ok(ret) => ret as c_long, Err(err) => err.to_errno() as c_long, } } /// # Safety /// /// - `file` must be a valid file that is associated with a `MiscDeviceRegistration`. /// - `seq_file` must be a valid `struct seq_file` that we can write to. unsafe extern "C" fn fops_show_fdinfo( seq_file: *mut bindings::seq_file, file: *mut bindings::file, ) { // SAFETY: The release call of a file owns the private data. let private = unsafe { (*file).private_data }; // SAFETY: Ioctl calls can borrow the private data of the file. let device = unsafe { ::borrow(private) }; // SAFETY: // * The file is valid for the duration of this call. // * There is no active fdget_pos region on the file on this thread. let file = unsafe { File::from_raw_file(file) }; // SAFETY: The caller ensures that the pointer is valid and exclusive for the duration in which // this method is called. let m = unsafe { SeqFile::from_raw(seq_file) }; T::show_fdinfo(device, m, file); }