[PATCH RFC 07/18] rust: drm: mm: Add DRM MM Range Allocator abstraction
From: Asahi Lina
Date: Tue Mar 07 2023 - 09:32:38 EST
drm_mm provides a simple range allocator, useful for managing virtual
address ranges. Add a Rust abstraction to expose this module to Rust
drivers.
Signed-off-by: Asahi Lina <lina@xxxxxxxxxxxxx>
---
rust/kernel/drm/mm.rs | 309 +++++++++++++++++++++++++++++++++++++++++++++++++
rust/kernel/drm/mod.rs | 1 +
2 files changed, 310 insertions(+)
diff --git a/rust/kernel/drm/mm.rs b/rust/kernel/drm/mm.rs
new file mode 100644
index 000000000000..83e27a7dcc7e
--- /dev/null
+++ b/rust/kernel/drm/mm.rs
@@ -0,0 +1,309 @@
+// SPDX-License-Identifier: GPL-2.0 OR MIT
+
+//! DRM MM range allocator
+//!
+//! C header: [`include/linux/drm/drm_mm.h`](../../../../include/linux/drm/drm_mm.h)
+
+use crate::{
+ bindings,
+ error::{to_result, Result},
+ str::CStr,
+ sync::{Arc, LockClassKey, LockIniter, Mutex, UniqueArc},
+ types::Opaque,
+};
+
+use alloc::boxed::Box;
+
+use core::{
+ marker::{PhantomData, PhantomPinned},
+ ops::Deref,
+ pin::Pin,
+};
+
+/// Type alias representing a DRM MM node.
+pub type Node<A, T> = Pin<Box<NodeData<A, T>>>;
+
+/// Trait which must be implemented by the inner allocator state type provided by the user.
+pub trait AllocInner<T> {
+ /// Notification that a node was dropped from the allocator.
+ fn drop_object(&mut self, _start: u64, _size: u64, _color: usize, _object: &mut T) {}
+}
+
+impl<T> AllocInner<T> for () {}
+
+/// Wrapper type for a `struct drm_mm` plus user AllocInner object.
+///
+/// # Invariants
+/// The `drm_mm` struct is valid and initialized.
+struct MmInner<A: AllocInner<T>, T>(Opaque<bindings::drm_mm>, A, PhantomData<T>);
+
+/// Represents a single allocated node in the MM allocator
+pub struct NodeData<A: AllocInner<T>, T> {
+ node: bindings::drm_mm_node,
+ mm: Arc<Mutex<MmInner<A, T>>>,
+ valid: bool,
+ /// A drm_mm_node needs to be pinned because nodes reference each other in a linked list.
+ _pin: PhantomPinned,
+ inner: T,
+}
+
+// SAFETY: Allocator ops take the mutex, and there are no mutable actions on the node.
+unsafe impl<A: Send + AllocInner<T>, T: Send> Send for NodeData<A, T> {}
+unsafe impl<A: Send + AllocInner<T>, T: Sync> Sync for NodeData<A, T> {}
+
+/// Available MM node insertion modes
+#[repr(u32)]
+pub enum InsertMode {
+ /// Search for the smallest hole (within the search range) that fits the desired node.
+ ///
+ /// Allocates the node from the bottom of the found hole.
+ Best = bindings::drm_mm_insert_mode_DRM_MM_INSERT_BEST,
+
+ /// Search for the lowest hole (address closest to 0, within the search range) that fits the
+ /// desired node.
+ ///
+ /// Allocates the node from the bottom of the found hole.
+ Low = bindings::drm_mm_insert_mode_DRM_MM_INSERT_LOW,
+
+ /// Search for the highest hole (address closest to U64_MAX, within the search range) that fits
+ /// the desired node.
+ ///
+ /// Allocates the node from the top of the found hole. The specified alignment for the node is
+ /// applied to the base of the node (`Node.start()`).
+ High = bindings::drm_mm_insert_mode_DRM_MM_INSERT_HIGH,
+
+ /// Search for the most recently evicted hole (within the search range) that fits the desired
+ /// node. This is appropriate for use immediately after performing an eviction scan and removing
+ /// the selected nodes to form a hole.
+ ///
+ /// Allocates the node from the bottom of the found hole.
+ Evict = bindings::drm_mm_insert_mode_DRM_MM_INSERT_EVICT,
+}
+
+/// A clonable, interlocked reference to the allocator state.
+///
+/// This is useful to perform actions on the user-supplied `AllocInner<T>` type given just a Node,
+/// without immediately taking the lock.
+#[derive(Clone)]
+pub struct InnerRef<A: AllocInner<T>, T>(Arc<Mutex<MmInner<A, T>>>);
+
+impl<A: AllocInner<T>, T> InnerRef<A, T> {
+ /// Operate on the user `AllocInner<T>` implementation, taking the lock.
+ pub fn with<RetVal>(&self, cb: impl FnOnce(&mut A) -> RetVal) -> RetVal {
+ let mut l = self.0.lock();
+ cb(&mut l.1)
+ }
+}
+
+impl<A: AllocInner<T>, T> NodeData<A, T> {
+ /// Returns the color of the node (an opaque value)
+ pub fn color(&self) -> usize {
+ self.node.color as usize
+ }
+
+ /// Returns the start address of the node
+ pub fn start(&self) -> u64 {
+ self.node.start
+ }
+
+ /// Returns the size of the node in bytes
+ pub fn size(&self) -> u64 {
+ self.node.size
+ }
+
+ /// Operate on the user `AllocInner<T>` implementation associated with this node's allocator.
+ pub fn with_inner<RetVal>(&self, cb: impl FnOnce(&mut A) -> RetVal) -> RetVal {
+ let mut l = self.mm.lock();
+ cb(&mut l.1)
+ }
+
+ /// Return a clonable, detached reference to the allocator inner data.
+ pub fn alloc_ref(&self) -> InnerRef<A, T> {
+ InnerRef(self.mm.clone())
+ }
+
+ /// Return a mutable reference to the inner data.
+ pub fn inner_mut(self: Pin<&mut Self>) -> &mut T {
+ // SAFETY: This is okay because inner is not structural
+ unsafe { &mut self.get_unchecked_mut().inner }
+ }
+}
+
+impl<A: AllocInner<T>, T> Deref for NodeData<A, T> {
+ type Target = T;
+
+ fn deref(&self) -> &Self::Target {
+ &self.inner
+ }
+}
+
+impl<A: AllocInner<T>, T> Drop for NodeData<A, T> {
+ fn drop(&mut self) {
+ if self.valid {
+ let mut guard = self.mm.lock();
+
+ // Inform the user allocator that a node is being dropped.
+ guard
+ .1
+ .drop_object(self.start(), self.size(), self.color(), &mut self.inner);
+ // SAFETY: The MM lock is still taken, so we can safely remove the node.
+ unsafe { bindings::drm_mm_remove_node(&mut self.node) };
+ }
+ }
+}
+
+/// An instance of a DRM MM range allocator.
+pub struct Allocator<A: AllocInner<T>, T> {
+ mm: Arc<Mutex<MmInner<A, T>>>,
+ _p: PhantomData<T>,
+}
+
+impl<A: AllocInner<T>, T> Allocator<A, T> {
+ /// Create a new range allocator for the given start and size range of addresses.
+ ///
+ /// The user may optionally provide an inner object representing allocator state, which will
+ /// be protected by the same lock. If not required, `()` can be used.
+ pub fn new(
+ start: u64,
+ size: u64,
+ inner: A,
+ name: &'static CStr,
+ lock_key: &'static LockClassKey,
+ ) -> Result<Allocator<A, T>> {
+ // SAFETY: We call `Mutex::init_lock` below.
+ let mut mm: Pin<UniqueArc<Mutex<MmInner<A, T>>>> = UniqueArc::try_new(unsafe {
+ Mutex::new(MmInner(Opaque::uninit(), inner, PhantomData))
+ })?
+ .into();
+
+ mm.as_mut().init_lock(name, lock_key);
+
+ unsafe {
+ // SAFETY: The Opaque instance provides a valid pointer, and it is initialized after
+ // this call.
+ bindings::drm_mm_init(mm.lock().0.get(), start, size);
+ }
+
+ Ok(Allocator {
+ mm: mm.into(),
+ _p: PhantomData,
+ })
+ }
+
+ /// Insert a new node into the allocator of a given size.
+ ///
+ /// `node` is the user `T` type data to store into the node.
+ pub fn insert_node(&mut self, node: T, size: u64) -> Result<Node<A, T>> {
+ self.insert_node_generic(node, size, 0, 0, InsertMode::Best)
+ }
+
+ /// Insert a new node into the allocator of a given size, with configurable alignment,
+ /// color, and insertion mode.
+ ///
+ /// `node` is the user `T` type data to store into the node.
+ pub fn insert_node_generic(
+ &mut self,
+ node: T,
+ size: u64,
+ alignment: u64,
+ color: usize,
+ mode: InsertMode,
+ ) -> Result<Node<A, T>> {
+ self.insert_node_in_range(node, size, alignment, color, 0, u64::MAX, mode)
+ }
+
+ /// Insert a new node into the allocator of a given size, with configurable alignment,
+ /// color, insertion mode, and sub-range to allocate from.
+ ///
+ /// `node` is the user `T` type data to store into the node.
+ #[allow(clippy::too_many_arguments)]
+ pub fn insert_node_in_range(
+ &mut self,
+ node: T,
+ size: u64,
+ alignment: u64,
+ color: usize,
+ start: u64,
+ end: u64,
+ mode: InsertMode,
+ ) -> Result<Node<A, T>> {
+ let mut mm_node = Box::try_new(NodeData {
+ // SAFETY: This C struct should be zero-initialized.
+ node: unsafe { core::mem::zeroed() },
+ valid: false,
+ inner: node,
+ mm: self.mm.clone(),
+ _pin: PhantomPinned,
+ })?;
+
+ let guard = self.mm.lock();
+ // SAFETY: We hold the lock and all pointers are valid.
+ to_result(unsafe {
+ bindings::drm_mm_insert_node_in_range(
+ guard.0.get(),
+ &mut mm_node.node,
+ size,
+ alignment,
+ color as core::ffi::c_ulong,
+ start,
+ end,
+ mode as u32,
+ )
+ })?;
+
+ mm_node.valid = true;
+
+ Ok(Pin::from(mm_node))
+ }
+
+ /// Insert a node into the allocator at a fixed start address.
+ ///
+ /// `node` is the user `T` type data to store into the node.
+ pub fn reserve_node(
+ &mut self,
+ node: T,
+ start: u64,
+ size: u64,
+ color: usize,
+ ) -> Result<Node<A, T>> {
+ let mut mm_node = Box::try_new(NodeData {
+ // SAFETY: This C struct should be zero-initialized.
+ node: unsafe { core::mem::zeroed() },
+ valid: false,
+ inner: node,
+ mm: self.mm.clone(),
+ _pin: PhantomPinned,
+ })?;
+
+ mm_node.node.start = start;
+ mm_node.node.size = size;
+ mm_node.node.color = color as core::ffi::c_ulong;
+
+ let guard = self.mm.lock();
+ // SAFETY: We hold the lock and all pointers are valid.
+ to_result(unsafe { bindings::drm_mm_reserve_node(guard.0.get(), &mut mm_node.node) })?;
+
+ mm_node.valid = true;
+
+ Ok(Pin::from(mm_node))
+ }
+
+ /// Operate on the inner user type `A`, taking the allocator lock
+ pub fn with_inner<RetVal>(&self, cb: impl FnOnce(&mut A) -> RetVal) -> RetVal {
+ let mut guard = self.mm.lock();
+ cb(&mut guard.1)
+ }
+}
+
+impl<A: AllocInner<T>, T> Drop for MmInner<A, T> {
+ fn drop(&mut self) {
+ // SAFETY: If the MmInner is dropped then all nodes are gone (since they hold references),
+ // so it is safe to tear down the allocator.
+ unsafe {
+ bindings::drm_mm_takedown(self.0.get());
+ }
+ }
+}
+
+// MmInner is safely Send if the AllocInner user type is Send.
+unsafe impl<A: Send + AllocInner<T>, T> Send for MmInner<A, T> {}
diff --git a/rust/kernel/drm/mod.rs b/rust/kernel/drm/mod.rs
index c44760a1332f..73fab2dee3af 100644
--- a/rust/kernel/drm/mod.rs
+++ b/rust/kernel/drm/mod.rs
@@ -7,3 +7,4 @@ pub mod drv;
pub mod file;
pub mod gem;
pub mod ioctl;
+pub mod mm;
--
2.35.1