Struct linked_list_allocator::Heap
source · pub struct Heap { /* private fields */ }
Expand description
A fixed size heap backed by a linked list of free memory blocks.
Implementations§
source§impl Heap
impl Heap
sourcepub unsafe fn init(&mut self, heap_bottom: *mut u8, heap_size: usize)
pub unsafe fn init(&mut self, heap_bottom: *mut u8, heap_size: usize)
Initializes an empty heap
The heap_bottom
pointer is automatically aligned, so the bottom()
method might return a pointer that is larger than heap_bottom
after construction.
The given heap_size
must be large enough to store the required
metadata, otherwise this function will panic. Depending on the
alignment of the hole_addr
pointer, the minimum size is between
2 * size_of::<usize>
and 3 * size_of::<usize>
.
The usable size for allocations will be truncated to the nearest
alignment of align_of::<usize>
. Any extra bytes left at the end
will be reclaimed once sufficient additional space is given to
extend
.
§Safety
This function must be called at most once and must only be used on an empty heap.
The bottom address must be valid and the memory in the
[heap_bottom, heap_bottom + heap_size)
range must not be used for anything else.
This function is unsafe because it can cause undefined behavior if the given address
is invalid.
The provided memory range must be valid for the 'static
lifetime.
sourcepub fn init_from_slice(&mut self, mem: &'static mut [MaybeUninit<u8>])
pub fn init_from_slice(&mut self, mem: &'static mut [MaybeUninit<u8>])
Initialize an empty heap with provided memory.
The caller is responsible for procuring a region of raw memory that may be utilized by the allocator. This might be done via any method such as (unsafely) taking a region from the program’s memory, from a mutable static, or by allocating and leaking such memory from another allocator.
The latter approach may be especially useful if the underlying allocator does not perform deallocation (e.g. a simple bump allocator). Then the overlaid linked-list-allocator can provide memory reclamation.
The usable size for allocations will be truncated to the nearest
alignment of align_of::<usize>
. Any extra bytes left at the end
will be reclaimed once sufficient additional space is given to
extend
.
§Panics
This method panics if the heap is already initialized.
It also panics when the length of the given mem
slice is not large enough to
store the required metadata. Depending on the alignment of the slice, the minimum
size is between 2 * size_of::<usize>
and 3 * size_of::<usize>
.
sourcepub unsafe fn new(heap_bottom: *mut u8, heap_size: usize) -> Heap
pub unsafe fn new(heap_bottom: *mut u8, heap_size: usize) -> Heap
Creates a new heap with the given bottom
and size
.
The heap_bottom
pointer is automatically aligned, so the bottom()
method might return a pointer that is larger than heap_bottom
after construction.
The given heap_size
must be large enough to store the required
metadata, otherwise this function will panic. Depending on the
alignment of the hole_addr
pointer, the minimum size is between
2 * size_of::<usize>
and 3 * size_of::<usize>
.
The usable size for allocations will be truncated to the nearest
alignment of align_of::<usize>
. Any extra bytes left at the end
will be reclaimed once sufficient additional space is given to
extend
.
§Safety
The bottom address must be valid and the memory in the
[heap_bottom, heap_bottom + heap_size)
range must not be used for anything else.
This function is unsafe because it can cause undefined behavior if the given address
is invalid.
The provided memory range must be valid for the 'static
lifetime.
sourcepub fn from_slice(mem: &'static mut [MaybeUninit<u8>]) -> Heap
pub fn from_slice(mem: &'static mut [MaybeUninit<u8>]) -> Heap
Creates a new heap from a slice of raw memory.
This is a convenience function that has the same effect as calling
[init_from_slice
] on an empty heap. All the requirements of init_from_slice
apply to this function as well.
sourcepub fn allocate_first_fit(&mut self, layout: Layout) -> Result<NonNull<u8>, ()>
pub fn allocate_first_fit(&mut self, layout: Layout) -> Result<NonNull<u8>, ()>
Allocates a chunk of the given size with the given alignment. Returns a pointer to the
beginning of that chunk if it was successful. Else it returns None
.
This function scans the list of free memory blocks and uses the first block that is big
enough. The runtime is in O(n) where n is the number of free blocks, but it should be
reasonably fast for small allocations.
sourcepub unsafe fn deallocate(&mut self, ptr: NonNull<u8>, layout: Layout)
pub unsafe fn deallocate(&mut self, ptr: NonNull<u8>, layout: Layout)
Frees the given allocation. ptr
must be a pointer returned
by a call to the allocate_first_fit
function with identical size and alignment.
This function walks the list of free memory blocks and inserts the freed block at the
correct place. If the freed block is adjacent to another free block, the blocks are merged
again. This operation is in O(n)
since the list needs to be sorted by address.
§Safety
ptr
must be a pointer returned by a call to the [allocate_first_fit
] function with
identical layout. Undefined behavior may occur for invalid arguments.
sourcepub fn bottom(&self) -> *mut u8
pub fn bottom(&self) -> *mut u8
Returns the bottom address of the heap.
The bottom pointer is automatically aligned, so the returned pointer might be larger than the bottom pointer used for initialization.
sourcepub fn top(&self) -> *mut u8
pub fn top(&self) -> *mut u8
Return the top address of the heap.
Note: The heap may choose to not use bytes at the end for allocations
until there is enough room for metadata, but it still retains ownership
over memory from bottom
to the address returned.
sourcepub unsafe fn extend(&mut self, by: usize)
pub unsafe fn extend(&mut self, by: usize)
Extends the size of the heap by creating a new hole at the end.
Small extensions are not guaranteed to grow the usable size of
the heap. In order to grow the Heap most effectively, extend by
at least 2 * size_of::<usize>
, keeping the amount a multiple of
size_of::<usize>
.
Calling this method on an uninitialized Heap will panic.
§Safety
The amount of data given in by
MUST exist directly after the original
range of data provided when constructing the Heap. The additional data
must have the same lifetime of the original range of data.
Even if this operation doesn’t increase the usable size
by exactly by
bytes, those bytes are still owned by the Heap for
later use.