post-11 heap allocator designs
This commit is contained in:
parent
c295ae2b15
commit
22818dca6c
@ -1,17 +1,25 @@
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use alloc::alloc::{GlobalAlloc, Layout};
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use core::ptr::null_mut;
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use x86_64:: {
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structures::paging:: {
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FrameAllocator,
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mapper::MapToError,
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Mapper,
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Page,
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PageTableFlags,
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Size4KiB,
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use x86_64::{
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structures::paging::{
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mapper::MapToError, FrameAllocator, Mapper, Page, PageTableFlags, Size4KiB,
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},
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VirtAddr,
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};
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pub mod bump;
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pub mod fixed_size_block;
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pub mod linked_list;
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// use bump::BumpAllocator;
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use fixed_size_block::FixedSizeBlockAllocator;
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// use linked_list::LinkedListAllocator;
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#[global_allocator]
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static ALLOCATOR: Locked<FixedSizeBlockAllocator> =
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Locked::new(FixedSizeBlockAllocator::new());
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pub const HEAP_START: usize = 0x_4444_4444_0000;
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pub const HEAP_SIZE: usize = 100 * 1024; // 100 KiB
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@ -49,8 +57,33 @@ pub fn init_heap(
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}
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unsafe {
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super::ALLOCATOR.lock().init(HEAP_START, HEAP_SIZE);
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ALLOCATOR.lock().init(HEAP_START, HEAP_SIZE);
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}
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Ok(())
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}
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pub struct Locked<A> {
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inner: spin::Mutex<A>,
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}
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impl<A> Locked<A> {
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pub const fn new(inner: A) -> Self {
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Locked {
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inner: spin::Mutex::new(inner),
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}
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}
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pub fn lock(&self) -> spin::MutexGuard<A> {
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self.inner.lock()
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}
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}
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fn align_up(addr: usize, align: usize) -> usize {
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let remainder = addr % align;
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if remainder == 0 {
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addr // addr already aligned
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} else {
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addr - remainder + align
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}
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}
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58
src/allocator/bump.rs
Normal file
58
src/allocator/bump.rs
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@ -0,0 +1,58 @@
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use super::{align_up, Locked};
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use alloc::alloc::{GlobalAlloc, Layout};
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use core::ptr;
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pub struct BumpAllocator {
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heap_start: usize,
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heap_end: usize,
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next: usize,
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allocations: usize,
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}
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impl BumpAllocator {
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///Creates a new empty bump allocator
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pub const fn new() -> Self {
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BumpAllocator {
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heap_start: 0,
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heap_end: 0,
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next: 0,
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allocations: 0,
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}
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}
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/// Initializes the bump allocator with the given heap bounds.
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///
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/// This method is unsafe because the caller must ensure that the given
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/// memory range is unused. Also, this method must be called only once.
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pub unsafe fn init(&mut self, heap_start: usize, heap_size: usize) {
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self.heap_start = heap_start;
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self.heap_end = heap_start + heap_size;
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self.next = heap_start;
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}
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}
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unsafe impl GlobalAlloc for Locked<BumpAllocator> {
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unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
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let mut bump = self.lock(); // get a mutable reference
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let alloc_start = align_up(bump.next, layout.align());
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let alloc_end = alloc_start + layout.size();
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if alloc_end > bump.heap_end {
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ptr::null_mut() // out of memory
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} else {
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bump.next = alloc_end;
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bump.allocations += 1;
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alloc_start as *mut u8
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}
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}
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unsafe fn dealloc(&self, _ptr: *mut u8, _layout: Layout) {
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let mut bump = self.lock(); // get a mutable reference
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bump.allocations -= 1;
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if bump.allocations == 0 {
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bump.next = bump.heap_start;
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}
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}
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}
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100
src/allocator/fixed_size_block.rs
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100
src/allocator/fixed_size_block.rs
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@ -0,0 +1,100 @@
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use alloc::alloc::{GlobalAlloc, Layout};
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use core::{mem, ptr};
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use super::Locked;
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struct ListNode {
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next: Option<&'static mut ListNode>,
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}
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/// The block sizes to use.
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///
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/// The sizes must each be a power of 2 because they are also used as
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/// the block alignment (alignments must be always powers of 2).
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const BLOCK_SIZES: &[usize] = &[8, 16, 32, 64, 128, 256, 512, 1024, 2048];
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pub struct FixedSizeBlockAllocator {
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list_heads: [Option<&'static mut ListNode>; BLOCK_SIZES.len()],
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fallback_allocator: linked_list_allocator::Heap,
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}
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impl FixedSizeBlockAllocator {
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/// Creates an empty FixedSizeBlockAllocator.
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pub const fn new() -> Self {
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FixedSizeBlockAllocator {
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list_heads: [None; BLOCK_SIZES.len()],
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fallback_allocator: linked_list_allocator::Heap::empty(),
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}
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}
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/// Initialize the allocator with the given heap bounds.
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///
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/// This function is unsafe because the caller must guarantee that the given
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/// heap bounds are valid and that the heap is unused. This method must be
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/// called only once.
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pub unsafe fn init(&mut self, heap_start: usize, heap_size: usize) {
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self.fallback_allocator.init(heap_start, heap_size);
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}
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/// Allocates using the fallback allocator.
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fn fallback_alloc(&mut self, layout: Layout) -> *mut u8 {
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match self.fallback_allocator.allocate_first_fit(layout) {
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Ok(ptr) => ptr.as_ptr(),
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Err(_) => ptr::null_mut(),
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}
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}
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}
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fn list_index(layout: &Layout) -> Option<usize> {
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let required_block_size = layout.size().max(layout.align());
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BLOCK_SIZES.iter().position(|&s| s >= required_block_size)
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}
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unsafe impl GlobalAlloc for Locked<FixedSizeBlockAllocator> {
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unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
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let mut allocator = self.lock();
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match list_index(&layout) {
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Some(index) => {
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match allocator.list_heads[index].take() {
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Some(node) => {
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allocator.list_heads[index] = node.next.take();
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node as *mut ListNode as *mut u8
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}
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None => {
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// no block exists in list => allocate new block
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let block_size = BLOCK_SIZES[index];
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// only works if all block sizes are a power of 2
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let block_align = block_size;
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let layout = Layout::from_size_align(block_size, block_align)
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.unwrap();
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allocator.fallback_alloc(layout)
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}
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}
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},
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None => allocator.fallback_alloc(layout),
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}
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}
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unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
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let mut allocator = self.lock();
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match list_index(&layout) {
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Some(index) => {
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let new_node = ListNode {
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next: allocator.list_heads[index].take(),
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};
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// verify that block has size and alignment required for storing node
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assert!(mem::size_of::<ListNode>() <= BLOCK_SIZES[index]);
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assert!(mem::align_of::<ListNode>() <= BLOCK_SIZES[index]);
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let new_node_ptr = ptr as *mut ListNode;
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new_node_ptr.write(new_node);
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allocator.list_heads[index] = Some(&mut *new_node_ptr);
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}
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None => {
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let ptr = ptr::NonNull::new(ptr).unwrap();
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allocator.fallback_allocator.deallocate(ptr, layout);
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}
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}
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}
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}
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148
src/allocator/linked_list.rs
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148
src/allocator/linked_list.rs
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@ -0,0 +1,148 @@
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use super::{align_up, Locked};
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use alloc::alloc::{GlobalAlloc, Layout};
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use core::{mem, ptr};
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struct ListNode {
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size: usize,
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next: Option<&'static mut ListNode>,
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}
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impl ListNode {
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const fn new(size: usize) -> Self {
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ListNode { size, next: None }
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}
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fn start_addr(&self) -> usize {
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self as *const Self as usize
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}
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fn end_addr(&self) -> usize {
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self.start_addr() + self.size
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}
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}
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pub struct LinkedListAllocator {
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head: ListNode,
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}
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impl LinkedListAllocator {
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/// Creates an empty LinkedListAllocator.
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pub const fn new() -> Self {
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Self {
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head: ListNode::new(0),
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}
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}
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/// Initialize the allocator with the given heap bounds.
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///
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/// This function is unsafe because the caller must guarantee that the given
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/// heap bounds are valid and that the heap is unused. This method must be
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/// called only once.
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pub unsafe fn init(&mut self, heap_start: usize, heap_size: usize) {
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self.add_free_region(heap_start, heap_size);
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}
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/// Adds the given memory region to the front of the list
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unsafe fn add_free_region(&mut self, addr: usize, size: usize) {
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// ensure that the freed region is capable of holding ListNode
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assert!(align_up(addr, mem::align_of::<ListNode>()) == addr);
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assert!(size >= mem::size_of::<ListNode>());
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// create a new list node and append it at the start of the list
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let mut node = ListNode::new(size);
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node.next = self.head.next.take();
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let node_ptr = addr as *mut ListNode;
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node_ptr.write(node);
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self.head.next = Some(&mut *node_ptr)
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}
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/// Looks for a free region with the given size and alignment and removes
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/// it from the list.
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///
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/// Returns a tuple of the list node and the start address of the allocation
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fn find_region(&mut self, size: usize, align: usize) -> Option<(&'static mut ListNode, usize)> {
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// reference to the current list node, updated for each iteration
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let mut current = &mut self.head;
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// look for a large enough memory region in linked list
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while let Some(ref mut region) = current.next {
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if let Ok(alloc_start) = Self::alloc_from_region(®ion, size, align) {
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// region suitable for allocation -> remove node from list
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let next = region.next.take();
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let ret = Some((current.next.take().unwrap(), alloc_start));
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current.next = next;
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return ret;
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} else {
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// region not suitable -> continue with next region
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current = current.next.as_mut().unwrap();
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}
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}
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// no suitable region found
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None
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}
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/// Try to use the given region for an allocation with given size and
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/// alignment.
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///
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/// Returns the allocation start address on success.
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fn alloc_from_region(region: &ListNode, size: usize, align: usize) -> Result<usize, ()> {
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let alloc_start = align_up(region.start_addr(), align);
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let alloc_end = alloc_start + size;
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if alloc_end > region.end_addr() {
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// region too small
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return Err(());
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}
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let excess_size = region.end_addr() - alloc_end;
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if excess_size > 0 && excess_size < mem::size_of::<ListNode>() {
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// rest of region too small to hold a ListNode (required because the
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// allocation splits the region in a used and a free part)
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return Err(());
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}
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// region suitable for allocation
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Ok(alloc_start)
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}
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/// Adjust the given layout so that the resulting allocated memory
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/// region is also capable of storing a `ListNode`.
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///
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/// Returns the adjusted size and alignment as a (size, align) tuple.
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fn size_align(layout: Layout) -> (usize, usize) {
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let layout = layout
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.align_to(mem::align_of::<ListNode>())
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.expect("adjusting alignment failed")
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.pad_to_align();
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let size = layout.size().max(mem::size_of::<ListNode>());
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(size, layout.align())
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}
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}
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unsafe impl GlobalAlloc for Locked<LinkedListAllocator> {
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unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
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// perform layout adjustments
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let (size, align) = LinkedListAllocator::size_align(layout);
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let mut allocator = self.inner.lock();
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if let Some((region, alloc_start)) = allocator.find_region(size, align) {
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let alloc_end = alloc_start + size;
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let excess_size = region.end_addr() - alloc_end;
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if excess_size > 0 {
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allocator.add_free_region(alloc_end, excess_size);
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}
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alloc_start as *mut u8
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} else {
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ptr::null_mut()
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}
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}
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unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
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// perform layout adjustments
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let (size, _) = LinkedListAllocator::size_align(layout);
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self.inner.lock().add_free_region(ptr as usize, size)
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}
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}
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11
src/lib.rs
11
src/lib.rs
@ -1,8 +1,11 @@
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#![no_std]
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#![cfg_attr(test, no_main)]
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#![feature(alloc_error_handler)]
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#![feature(custom_test_frameworks)]
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#![feature(abi_x86_interrupt)]
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#![feature(alloc_error_handler)]
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#![feature(alloc_layout_extra)]
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#![feature(const_fn)]
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#![feature(const_in_array_repeat_expressions)]
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#![feature(custom_test_frameworks)]
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#![test_runner(crate::test_runner)]
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#![reexport_test_harness_main = "test_main"]
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@ -17,8 +20,8 @@ use bootloader::{entry_point, BootInfo};
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#[cfg(test)]
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entry_point!(test_kernel_main);
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#[global_allocator]
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static ALLOCATOR: LockedHeap = LockedHeap::empty();
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// #[global_allocator]
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// static ALLOCATOR: LockedHeap = LockedHeap::empty();
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#[alloc_error_handler]
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fn alloc_error_handler(layout: alloc::alloc::Layout) -> ! {
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24
src/main.rs
24
src/main.rs
@ -6,12 +6,7 @@
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extern crate alloc;
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use alloc::{
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boxed::Box,
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vec,
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vec::Vec,
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rc::Rc,
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};
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use alloc::{boxed::Box, rc::Rc, vec, vec::Vec};
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use core::panic::PanicInfo;
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use blog_os::println;
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@ -42,12 +37,9 @@ fn kernel_main(boot_info: &'static BootInfo) -> ! {
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blog_os::init();
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let mut mapper = unsafe { memory::init(VirtAddr::new(boot_info.physical_memory_offset)) };
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let mut frame_allocator = unsafe {
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BootInfoFrameAllocator::init(&boot_info.memory_map)
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};
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let mut frame_allocator = unsafe { BootInfoFrameAllocator::init(&boot_info.memory_map) };
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allocator::init_heap(&mut mapper, &mut frame_allocator)
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.expect("heap initialization failed");
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allocator::init_heap(&mut mapper, &mut frame_allocator).expect("heap initialization failed");
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// allocate a number on the heap
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let heap_value = Box::new(41);
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@ -63,9 +55,15 @@ fn kernel_main(boot_info: &'static BootInfo) -> ! {
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// create a reference counted vector -> will be freed when count reaches 0
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let reference_counted = Rc::new(vec![1, 2, 3]);
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let cloned_reference = reference_counted.clone();
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println!("current reference count is {}", Rc::strong_count(&cloned_reference));
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println!(
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"current reference count is {}",
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Rc::strong_count(&cloned_reference)
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);
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core::mem::drop(reference_counted);
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println!("reference count is {} now", Rc::strong_count(&cloned_reference));
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println!(
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"reference count is {} now",
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Rc::strong_count(&cloned_reference)
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);
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#[cfg(test)]
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test_main();
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|
@ -8,6 +8,7 @@ extern crate alloc;
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use alloc::boxed::Box;
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use alloc::vec::Vec;
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use blog_os::allocator::HEAP_SIZE;
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use blog_os::{serial_print, serial_println};
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use bootloader::{entry_point, BootInfo};
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use core::panic::PanicInfo;
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@ -22,11 +23,8 @@ fn main(boot_info: &'static BootInfo) -> ! {
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blog_os::init();
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let phys_mem_offset = VirtAddr::new(boot_info.physical_memory_offset);
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let mut mapper = unsafe { memory::init(phys_mem_offset) };
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let mut frame_allocator = unsafe {
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BootInfoFrameAllocator::init(&boot_info.memory_map)
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};
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allocator::init_heap(&mut mapper, &mut frame_allocator)
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.expect("heap initialization failed");
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let mut frame_allocator = unsafe { BootInfoFrameAllocator::init(&boot_info.memory_map) };
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allocator::init_heap(&mut mapper, &mut frame_allocator).expect("heap initialization failed");
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test_main();
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@ -67,3 +65,15 @@ fn many_boxes() {
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}
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serial_println!("[ok]");
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}
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|
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#[test_case]
|
||||
fn many_boxes_long_lived() {
|
||||
serial_print!("many_boxes_long_lived... ");
|
||||
let long_lived = Box::new(1);
|
||||
for i in 0..HEAP_SIZE {
|
||||
let x = Box::new(i);
|
||||
assert_eq!(*x, i);
|
||||
}
|
||||
assert_eq!(*long_lived, 1);
|
||||
serial_println!("[ok]");
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user