diff options
Diffstat (limited to 'rust/kernel')
-rw-r--r-- | rust/kernel/drm/device.rs | 4 | ||||
-rw-r--r-- | rust/kernel/drm/drv.rs | 2 | ||||
-rw-r--r-- | rust/kernel/drm/gem/mod.rs | 416 | ||||
-rw-r--r-- | rust/kernel/drm/mod.rs | 1 |
4 files changed, 421 insertions, 2 deletions
diff --git a/rust/kernel/drm/device.rs b/rust/kernel/drm/device.rs index c90ce2d71095..8dc1ac7dc2a3 100644 --- a/rust/kernel/drm/device.rs +++ b/rust/kernel/drm/device.rs @@ -83,9 +83,11 @@ impl<T: drm::drv::Driver> Device<T> { driver_features: T::FEATURES, ioctls: T::IOCTLS.as_ptr(), num_ioctls: T::IOCTLS.len() as i32, - fops: core::ptr::null_mut() as _, + fops: &Self::GEM_FOPS as _, }; + const GEM_FOPS: bindings::file_operations = drm::gem::create_fops(); + /// Create a new `drm::device::Device` for a `drm::drv::Driver`. pub fn new(dev: &device::Device, data: T::Data) -> Result<ARef<Self>> { // SAFETY: `dev` is valid by its type invarants; `VTABLE`, as a `const` is pinned to the diff --git a/rust/kernel/drm/drv.rs b/rust/kernel/drm/drv.rs index 895409f04664..0cf3fb1cea53 100644 --- a/rust/kernel/drm/drv.rs +++ b/rust/kernel/drm/drv.rs @@ -118,7 +118,7 @@ pub struct AllocOps { } /// Trait for memory manager implementations. Implemented internally. -pub trait AllocImpl: Sealed { +pub trait AllocImpl: Sealed + drm::gem::IntoGEMObject { /// The C callback operations for this memory manager. const ALLOC_OPS: AllocOps; } diff --git a/rust/kernel/drm/gem/mod.rs b/rust/kernel/drm/gem/mod.rs new file mode 100644 index 000000000000..e4e060d93ad1 --- /dev/null +++ b/rust/kernel/drm/gem/mod.rs @@ -0,0 +1,416 @@ +// SPDX-License-Identifier: GPL-2.0 OR MIT + +//! DRM GEM API +//! +//! C header: [`include/linux/drm/drm_gem.h`](srctree/include/linux/drm/drm_gem.h) + +use crate::{ + alloc::flags::*, + bindings, + drm::{device, drv, file}, + error::{to_result, Result}, + prelude::*, +}; +use core::{marker::PhantomPinned, mem, ops::Deref, ops::DerefMut}; + +/// GEM object functions, which must be implemented by drivers. +pub trait BaseDriverObject<T: BaseObject>: Sync + Send + Sized { + /// Create a new driver data object for a GEM object of a given size. + fn new(dev: &device::Device<T::Driver>, size: usize) -> impl PinInit<Self, Error>; + + /// Open a new handle to an existing object, associated with a File. + fn open( + _obj: &<<T as IntoGEMObject>::Driver as drv::Driver>::Object, + _file: &file::File<<<T as IntoGEMObject>::Driver as drv::Driver>::File>, + ) -> Result { + Ok(()) + } + + /// Close a handle to an existing object, associated with a File. + fn close( + _obj: &<<T as IntoGEMObject>::Driver as drv::Driver>::Object, + _file: &file::File<<<T as IntoGEMObject>::Driver as drv::Driver>::File>, + ) { + } +} + +/// Trait that represents a GEM object subtype +pub trait IntoGEMObject: Sized + crate::private::Sealed { + /// Owning driver for this type + type Driver: drv::Driver; + + /// Returns a reference to the raw `drm_gem_object` structure, which must be valid as long as + /// this owning object is valid. + fn gem_obj(&self) -> &bindings::drm_gem_object; + + /// Converts a pointer to a `drm_gem_object` into a pointer to this type. + fn from_gem_obj(obj: *mut bindings::drm_gem_object) -> *mut Self; +} + +/// Trait which must be implemented by drivers using base GEM objects. +pub trait DriverObject: BaseDriverObject<Object<Self>> { + /// Parent `Driver` for this object. + type Driver: drv::Driver; +} + +#[allow(clippy::missing_safety_doc)] +unsafe extern "C" fn free_callback<T: DriverObject>(obj: *mut bindings::drm_gem_object) { + // SAFETY: All of our objects are Object<T>. + let this = unsafe { crate::container_of!(obj, Object<T>, obj) } as *mut Object<T>; + + // SAFETY: The pointer we got has to be valid + unsafe { bindings::drm_gem_object_release(obj) }; + + // SAFETY: All of our objects are allocated via KBox<>, and we're in the + // free callback which guarantees this object has zero remaining references, + // so we can drop it + unsafe { + let _ = KBox::from_raw(this); + }; +} + +#[allow(clippy::missing_safety_doc)] +unsafe extern "C" fn open_callback<T: BaseDriverObject<U>, U: BaseObject>( + raw_obj: *mut bindings::drm_gem_object, + raw_file: *mut bindings::drm_file, +) -> core::ffi::c_int { + // SAFETY: The pointer we got has to be valid. + let file = unsafe { + file::File::<<<U as IntoGEMObject>::Driver as drv::Driver>::File>::from_raw(raw_file) + }; + let obj = + <<<U as IntoGEMObject>::Driver as drv::Driver>::Object as IntoGEMObject>::from_gem_obj( + raw_obj, + ); + + // SAFETY: from_gem_obj() returns a valid pointer as long as the type is + // correct and the raw_obj we got is valid. + match T::open(unsafe { &*obj }, &file) { + Err(e) => e.to_errno(), + Ok(()) => 0, + } +} + +#[allow(clippy::missing_safety_doc)] +unsafe extern "C" fn close_callback<T: BaseDriverObject<U>, U: BaseObject>( + raw_obj: *mut bindings::drm_gem_object, + raw_file: *mut bindings::drm_file, +) { + // SAFETY: The pointer we got has to be valid. + let file = unsafe { + file::File::<<<U as IntoGEMObject>::Driver as drv::Driver>::File>::from_raw(raw_file) + }; + let obj = + <<<U as IntoGEMObject>::Driver as drv::Driver>::Object as IntoGEMObject>::from_gem_obj( + raw_obj, + ); + + // SAFETY: from_gem_obj() returns a valid pointer as long as the type is + // correct and the raw_obj we got is valid. + T::close(unsafe { &*obj }, &file); +} + +impl<T: DriverObject> IntoGEMObject for Object<T> { + type Driver = T::Driver; + + fn gem_obj(&self) -> &bindings::drm_gem_object { + &self.obj + } + + fn from_gem_obj(obj: *mut bindings::drm_gem_object) -> *mut Object<T> { + // SAFETY: All of our objects are Object<T>. + unsafe { crate::container_of!(obj, Object<T>, obj) as *mut Object<T> } + } +} + +/// Base operations shared by all GEM object classes +pub trait BaseObject: IntoGEMObject { + /// Returns the size of the object in bytes. + fn size(&self) -> usize { + self.gem_obj().size + } + + /// Creates a new reference to the object. + fn reference(&self) -> ObjectRef<Self> { + // SAFETY: Having a reference to an Object implies holding a GEM reference + unsafe { + bindings::drm_gem_object_get(self.gem_obj() as *const _ as *mut _); + } + ObjectRef { + ptr: self as *const _, + } + } + + /// Creates a new handle for the object associated with a given `File` + /// (or returns an existing one). + fn create_handle( + &self, + file: &file::File<<<Self as IntoGEMObject>::Driver as drv::Driver>::File>, + ) -> Result<u32> { + let mut handle: u32 = 0; + // SAFETY: The arguments are all valid per the type invariants. + to_result(unsafe { + bindings::drm_gem_handle_create( + file.raw() as *mut _, + self.gem_obj() as *const _ as *mut _, + &mut handle, + ) + })?; + Ok(handle) + } + + /// Looks up an object by its handle for a given `File`. + fn lookup_handle( + file: &file::File<<<Self as IntoGEMObject>::Driver as drv::Driver>::File>, + handle: u32, + ) -> Result<ObjectRef<Self>> { + // SAFETY: The arguments are all valid per the type invariants. + let ptr = unsafe { bindings::drm_gem_object_lookup(file.raw() as *mut _, handle) }; + + if ptr.is_null() { + Err(ENOENT) + } else { + Ok(ObjectRef { + ptr: ptr as *const _, + }) + } + } + + /// Creates an mmap offset to map the object from userspace. + fn create_mmap_offset(&self) -> Result<u64> { + // SAFETY: The arguments are valid per the type invariant. + to_result(unsafe { + bindings::drm_gem_create_mmap_offset(self.gem_obj() as *const _ as *mut _) + })?; + + // SAFETY: The arguments are valid per the type invariant. + Ok(unsafe { + bindings::drm_vma_node_offset_addr(&self.gem_obj().vma_node as *const _ as *mut _) + }) + } +} + +impl<T: IntoGEMObject> BaseObject for T {} + +/// A base GEM object. +#[repr(C)] +#[pin_data] +pub struct Object<T: DriverObject> { + obj: bindings::drm_gem_object, + // The DRM core ensures the Device exists as long as its objects exist, so we don't need to + // manage the reference count here. + dev: *const bindings::drm_device, + #[pin] + inner: T, + #[pin] + _p: PhantomPinned, +} + +// SAFETY: This struct is safe to zero-initialize +unsafe impl init::Zeroable for bindings::drm_gem_object {} + +impl<T: DriverObject> Object<T> { + /// The size of this object's structure. + pub const SIZE: usize = mem::size_of::<Self>(); + + const OBJECT_FUNCS: bindings::drm_gem_object_funcs = bindings::drm_gem_object_funcs { + free: Some(free_callback::<T>), + open: Some(open_callback::<T, Object<T>>), + close: Some(close_callback::<T, Object<T>>), + print_info: None, + export: None, + pin: None, + unpin: None, + get_sg_table: None, + vmap: None, + vunmap: None, + mmap: None, + status: None, + vm_ops: core::ptr::null_mut(), + evict: None, + rss: None, + }; + + /// Create a new GEM object. + pub fn new(dev: &device::Device<T::Driver>, size: usize) -> Result<Pin<UniqueObjectRef<Self>>> { + let obj: Pin<KBox<Self>> = KBox::pin_init( + try_pin_init!(Self { + // SAFETY: This struct is expected to be zero-initialized + obj: bindings::drm_gem_object { + funcs: &Self::OBJECT_FUNCS, + ..Default::default() + }, + inner <- T::new(dev, size), + // SAFETY: The drm subsystem guarantees that the drm_device will live as long as + // the GEM object lives, so we can conjure a reference out of thin air. + dev: dev.as_raw(), + _p: PhantomPinned + }), + GFP_KERNEL, + )?; + + // SAFETY: The arguments are all valid per the type invariants. + to_result(unsafe { + bindings::drm_gem_object_init(dev.as_raw(), &obj.obj as *const _ as *mut _, size) + })?; + + // SAFETY: We never move out of self + let obj_ref = unsafe { + Pin::new_unchecked(UniqueObjectRef { + // SAFETY: We never move out of the Box + ptr: KBox::leak(Pin::into_inner_unchecked(obj)), + _p: PhantomPinned, + }) + }; + + Ok(obj_ref) + } + + /// Returns the `Device` that owns this GEM object. + pub fn dev(&self) -> &device::Device<T::Driver> { + // SAFETY: The drm subsystem guarantees that the drm_device will live as long as + // the GEM object lives, so we can just borrow from the raw pointer. + unsafe { device::Device::borrow(self.dev) } + } +} + +impl<T: DriverObject> crate::private::Sealed for Object<T> {} + +impl<T: DriverObject> Deref for Object<T> { + type Target = T; + + fn deref(&self) -> &Self::Target { + &self.inner + } +} + +impl<T: DriverObject> DerefMut for Object<T> { + fn deref_mut(&mut self) -> &mut Self::Target { + &mut self.inner + } +} + +impl<T: DriverObject> drv::AllocImpl for Object<T> { + const ALLOC_OPS: drv::AllocOps = drv::AllocOps { + gem_create_object: None, + prime_handle_to_fd: None, + prime_fd_to_handle: None, + gem_prime_import: None, + gem_prime_import_sg_table: None, + dumb_create: None, + dumb_map_offset: None, + }; +} + +/// A reference-counted shared reference to a base GEM object. +pub struct ObjectRef<T: IntoGEMObject> { + // Invariant: the pointer is valid and initialized, and this ObjectRef owns a reference to it. + ptr: *const T, +} + +impl<T: IntoGEMObject> ObjectRef<T> { + /// Downgrade this reference to a shared reference. + pub fn from_pinned_unique(pin: Pin<UniqueObjectRef<T>>) -> Self { + // SAFETY: A (shared) `ObjectRef` doesn't need to be pinned, since it doesn't allow us to + // optain a mutable reference. + let uq = unsafe { Pin::into_inner_unchecked(pin) }; + + uq.into_ref() + } +} + +/// SAFETY: GEM object references are safe to send between threads. +unsafe impl<T: IntoGEMObject> Send for ObjectRef<T> {} +/// SAFETY: GEM object references are safe to share between threads. +unsafe impl<T: IntoGEMObject> Sync for ObjectRef<T> {} + +impl<T: IntoGEMObject> Clone for ObjectRef<T> { + fn clone(&self) -> Self { + self.reference() + } +} + +impl<T: IntoGEMObject> Drop for ObjectRef<T> { + fn drop(&mut self) { + // SAFETY: Having an ObjectRef implies holding a GEM reference. + // The free callback will take care of deallocation. + unsafe { + bindings::drm_gem_object_put((*self.ptr).gem_obj() as *const _ as *mut _); + } + } +} + +impl<T: IntoGEMObject> Deref for ObjectRef<T> { + type Target = T; + + fn deref(&self) -> &Self::Target { + // SAFETY: The pointer is valid per the invariant + unsafe { &*self.ptr } + } +} + +/// A unique reference to a base GEM object. +pub struct UniqueObjectRef<T: IntoGEMObject> { + // Invariant: the pointer is valid and initialized, and this ObjectRef owns the only reference + // to it. + ptr: *mut T, + _p: PhantomPinned, +} + +impl<T: IntoGEMObject> UniqueObjectRef<T> { + /// Downgrade this reference to a shared reference. + pub fn into_ref(self) -> ObjectRef<T> { + let ptr = self.ptr as *const _; + core::mem::forget(self); + + ObjectRef { ptr } + } +} + +impl<T: IntoGEMObject> Drop for UniqueObjectRef<T> { + fn drop(&mut self) { + // SAFETY: Having a UniqueObjectRef implies holding a GEM + // reference. The free callback will take care of deallocation. + unsafe { + bindings::drm_gem_object_put((*self.ptr).gem_obj() as *const _ as *mut _); + } + } +} + +impl<T: IntoGEMObject> Deref for UniqueObjectRef<T> { + type Target = T; + + fn deref(&self) -> &Self::Target { + // SAFETY: The pointer is valid per the invariant + unsafe { &*self.ptr } + } +} + +impl<T: IntoGEMObject> DerefMut for UniqueObjectRef<T> { + fn deref_mut(&mut self) -> &mut Self::Target { + // SAFETY: The pointer is valid per the invariant + unsafe { &mut *self.ptr } + } +} + +pub(super) const fn create_fops() -> bindings::file_operations { + // SAFETY: As by the type invariant, it is safe to initialize `bindings::file_operations` + // zeroed. + let mut fops: bindings::file_operations = unsafe { core::mem::zeroed() }; + + fops.owner = core::ptr::null_mut(); + fops.open = Some(bindings::drm_open); + fops.release = Some(bindings::drm_release); + fops.unlocked_ioctl = Some(bindings::drm_ioctl); + #[cfg(CONFIG_COMPAT)] + { + fops.compat_ioctl = Some(bindings::drm_compat_ioctl); + } + fops.poll = Some(bindings::drm_poll); + fops.read = Some(bindings::drm_read); + fops.llseek = Some(bindings::noop_llseek); + fops.mmap = Some(bindings::drm_gem_mmap); + fops.fop_flags = bindings::FOP_UNSIGNED_OFFSET; + + fops +} diff --git a/rust/kernel/drm/mod.rs b/rust/kernel/drm/mod.rs index a767942d0b52..c44760a1332f 100644 --- a/rust/kernel/drm/mod.rs +++ b/rust/kernel/drm/mod.rs @@ -5,4 +5,5 @@ pub mod device; pub mod drv; pub mod file; +pub mod gem; pub mod ioctl; |