use core::{alloc::Layout, ptr::NonNull, sync::atomic::AtomicBool}; use alloc::boxed::Box; use slabmalloc::*; // 全局slab分配器 pub(crate) static mut SLABALLOCATOR: Option = None; // slab初始化状态 pub(crate) static mut SLABINITSTATE: AtomicBool = AtomicBool::new(false); /// slab分配器,实际为一堆小的allocator,可以在里面装4K的page /// 利用这些allocator可以为对象分配不同大小的空间 pub(crate) struct SlabAllocator { zone: ZoneAllocator<'static>, } impl SlabAllocator { /// 创建slab分配器 pub fn new() -> SlabAllocator { kdebug!("trying to new a slab_allocator"); SlabAllocator { zone: ZoneAllocator::new(), } } /// 为对象(2K以内)分配内存空间 pub(crate) unsafe fn allocate(&mut self, layout: Layout) -> *mut u8 { match self.zone.allocate(layout) { Ok(nptr) => nptr.as_ptr(), Err(AllocationError::OutOfMemory) => { let boxed_page = ObjectPage::new(); let leaked_page = Box::leak(boxed_page); self.zone .refill(layout, leaked_page) .expect("Could not refill?"); self.zone .allocate(layout) .expect("Should succeed after refill") .as_ptr() } Err(AllocationError::InvalidLayout) => panic!("Can't allocate this size"), } } /// 释放内存空间 pub(crate) unsafe fn deallocate( &mut self, ptr: *mut u8, layout: Layout, ) -> Result<(), AllocationError> { if let Some(nptr) = NonNull::new(ptr) { self.zone .deallocate(nptr, layout) .expect("Couldn't deallocate"); return Ok(()); } else { return Ok(()); } } } /// 初始化slab分配器 pub unsafe fn slab_init() { kdebug!("trying to init a slab_allocator"); SLABALLOCATOR = Some(SlabAllocator::new()); SLABINITSTATE = true.into(); } // 查看slab初始化状态 pub fn slab_init_state() -> bool { unsafe { *SLABINITSTATE.get_mut() } } pub unsafe fn slab_usage() -> SlabUsage { if let Some(ref mut slab) = SLABALLOCATOR { slab.zone.usage() } else { SlabUsage::new(0, 0) } }