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fixed_size_block.rs
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fixed_size_block.rs
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use super::Locked;
use alloc::alloc::{GlobalAlloc, Layout};
use core::{
mem,
ptr::{self, NonNull},
};
/// The block sizes to use.
///
/// The sizes must each be power of 2 because they are also used as
/// the block alignment (alignments must be always powers of 2).
const BLOCK_SIZES: &[usize] = &[8, 16, 32, 64, 128, 256, 512, 1024, 2048];
/// Choose an appropriate block size for the given layout.
///
/// Returns an index into the `BLOCK_SIZES` array.
fn list_index(layout: &Layout) -> Option<usize> {
let required_block_size = layout.size().max(layout.align());
BLOCK_SIZES.iter().position(|&s| s >= required_block_size)
}
struct ListNode {
next: Option<&'static mut ListNode>,
}
pub struct FixedSizeBlockAllocator {
list_heads: [Option<&'static mut ListNode>; BLOCK_SIZES.len()],
fallback_allocator: linked_list_allocator::Heap,
}
impl FixedSizeBlockAllocator {
/// Creates an empty FixedSizeBlockAllocator.
pub const fn new() -> Self {
FixedSizeBlockAllocator {
list_heads: [None; BLOCK_SIZES.len()],
fallback_allocator: linked_list_allocator::Heap::empty(),
}
}
/// Initialize the allocator with the given heap bounds.
///
/// This function is unsafe because the caller must guarantee that the given
/// heap bounds are valid and that the heap is unused. This method must be
/// called only once.
pub unsafe fn init(&mut self, heap_start: usize, heap_size: usize) {
self.fallback_allocator.init(heap_start, heap_size);
}
/// Allocates using the fallback allocator.
fn fallback_alloc(&mut self, layout: Layout) -> *mut u8 {
match self.fallback_allocator.allocate_first_fit(layout) {
Ok(ptr) => ptr.as_ptr(),
Err(_) => ptr::null_mut(),
}
}
}
unsafe impl GlobalAlloc for Locked<FixedSizeBlockAllocator> {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
let mut allocator = self.lock();
match list_index(&layout) {
Some(index) => {
match allocator.list_heads[index].take() {
Some(node) => {
allocator.list_heads[index] = node.next.take();
node as *mut ListNode as *mut u8
}
None => {
// no block exists in list => allocate new block
let block_size = BLOCK_SIZES[index];
// only works if all block sizes are a power of 2
let block_align = block_size;
let layout = Layout::from_size_align(block_size, block_align).unwrap();
allocator.fallback_alloc(layout)
}
}
}
None => allocator.fallback_alloc(layout),
}
}
unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
let mut allocator = self.lock();
match list_index(&layout) {
Some(index) => {
let new_node = ListNode {
next: allocator.list_heads[index].take(),
};
// verify that block has size and alignment required for storing node
assert!(mem::size_of::<ListNode>() <= BLOCK_SIZES[index]);
assert!(mem::align_of::<ListNode>() <= BLOCK_SIZES[index]);
let new_node_ptr = ptr as *mut ListNode;
new_node_ptr.write(new_node);
allocator.list_heads[index] = Some(&mut *new_node_ptr);
}
None => {
let ptr = NonNull::new(ptr).unwrap();
allocator.fallback_allocator.deallocate(ptr, layout);
}
}
}
}