use klog_types::{AllocLogItem, LogSource}; use crate::{ arch::mm::LockedFrameAllocator, debug::klog::mm::mm_debug_log, libs::align::page_align_up, mm::{MMArch, MemoryManagementArch, VirtAddr}, }; use core::{ alloc::{AllocError, GlobalAlloc, Layout}, intrinsics::unlikely, ptr::NonNull, }; use super::{ page_frame::{FrameAllocator, PageFrameCount}, slab::{slab_init_state, SLABALLOCATOR}, }; /// 类kmalloc的分配器应当实现的trait pub trait LocalAlloc { unsafe fn local_alloc(&self, layout: Layout) -> *mut u8; unsafe fn local_alloc_zeroed(&self, layout: Layout) -> *mut u8; unsafe fn local_dealloc(&self, ptr: *mut u8, layout: Layout); } pub struct KernelAllocator; impl KernelAllocator { unsafe fn alloc_in_buddy(&self, layout: Layout) -> Result, AllocError> { // 计算需要申请的页数,向上取整 let count = (page_align_up(layout.size()) / MMArch::PAGE_SIZE).next_power_of_two(); let page_frame_count = PageFrameCount::new(count); let (phy_addr, allocated_frame_count) = LockedFrameAllocator .allocate(page_frame_count) .ok_or(AllocError)?; let virt_addr = unsafe { MMArch::phys_2_virt(phy_addr).ok_or(AllocError)? }; if unlikely(virt_addr.is_null()) { return Err(AllocError); } let slice = unsafe { core::slice::from_raw_parts_mut( virt_addr.data() as *mut u8, allocated_frame_count.data() * MMArch::PAGE_SIZE, ) }; return Ok(NonNull::from(slice)); } unsafe fn free_in_buddy(&self, ptr: *mut u8, layout: Layout) { // 由于buddy分配的页数量是2的幂,因此释放的时候也需要按照2的幂向上取整。 let count = (page_align_up(layout.size()) / MMArch::PAGE_SIZE).next_power_of_two(); let page_frame_count = PageFrameCount::new(count); let phy_addr = MMArch::virt_2_phys(VirtAddr::new(ptr as usize)).unwrap(); LockedFrameAllocator.free(phy_addr, page_frame_count); } } /// 为内核分配器实现LocalAlloc的trait impl LocalAlloc for KernelAllocator { unsafe fn local_alloc(&self, layout: Layout) -> *mut u8 { if allocator_select_condition(layout) { return self .alloc_in_buddy(layout) .map(|x| x.as_mut_ptr()) .unwrap_or(core::ptr::null_mut()); } else { if let Some(ref mut slab) = SLABALLOCATOR { return slab.allocate(layout); }; return core::ptr::null_mut(); } } unsafe fn local_alloc_zeroed(&self, layout: Layout) -> *mut u8 { if allocator_select_condition(layout) { return self .alloc_in_buddy(layout) .map(|x| { let ptr: *mut u8 = x.as_mut_ptr(); core::ptr::write_bytes(ptr, 0, x.len()); ptr }) .unwrap_or(core::ptr::null_mut()); } else { if let Some(ref mut slab) = SLABALLOCATOR { return slab.allocate(layout); }; return core::ptr::null_mut(); } } unsafe fn local_dealloc(&self, ptr: *mut u8, layout: Layout) { if allocator_select_condition(layout) || ((ptr as usize) % 4096) == 0 { self.free_in_buddy(ptr, layout) } else if let Some(ref mut slab) = SLABALLOCATOR { slab.deallocate(ptr, layout).unwrap() } } } /// 为内核slab分配器实现GlobalAlloc特性 unsafe impl GlobalAlloc for KernelAllocator { unsafe fn alloc(&self, layout: Layout) -> *mut u8 { let r = self.local_alloc_zeroed(layout); if allocator_select_condition(layout) { alloc_debug_log(klog_types::LogSource::Buddy, layout, r); } else { alloc_debug_log(klog_types::LogSource::Slab, layout, r); } return r; } unsafe fn alloc_zeroed(&self, layout: Layout) -> *mut u8 { let r = self.local_alloc_zeroed(layout); if allocator_select_condition(layout) { alloc_debug_log(klog_types::LogSource::Buddy, layout, r); } else { alloc_debug_log(klog_types::LogSource::Slab, layout, r); } return r; } unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) { if allocator_select_condition(layout) || ((ptr as usize) % 4096) == 0 { dealloc_debug_log(klog_types::LogSource::Buddy, layout, ptr); } else { dealloc_debug_log(klog_types::LogSource::Slab, layout, ptr); } self.local_dealloc(ptr, layout); } } /// 判断选择buddy分配器还是slab分配器 fn allocator_select_condition(layout: Layout) -> bool { layout.size() > 2048 || !slab_init_state() } fn alloc_debug_log(source: LogSource, layout: Layout, ptr: *mut u8) { mm_debug_log( klog_types::AllocatorLogType::Alloc(AllocLogItem::new(layout, Some(ptr as usize), None)), source, ) } fn dealloc_debug_log(source: LogSource, layout: Layout, ptr: *mut u8) { mm_debug_log( klog_types::AllocatorLogType::Free(AllocLogItem::new(layout, Some(ptr as usize), None)), source, ) } /// 为内核slab分配器实现Allocator特性 // unsafe impl Allocator for KernelAllocator { // fn allocate(&self, layout: Layout) -> Result, AllocError> { // let memory = unsafe {self.local_alloc(layout)}; // if memory.is_null() { // Err(AllocError) // } else { // let slice = unsafe { core::slice::from_raw_parts_mut(memory, layout.size()) }; // Ok(unsafe { NonNull::new_unchecked(slice) }) // } // } // fn allocate_zeroed(&self, layout: Layout) -> Result, AllocError> { // let memory = unsafe {self.local_alloc_zeroed(layout)}; // if memory.is_null() { // Err(AllocError) // } else { // let slice = unsafe { core::slice::from_raw_parts_mut(memory, layout.size()) }; // Ok(unsafe { NonNull::new_unchecked(slice) }) // } // } // unsafe fn deallocate(&self, ptr: NonNull, layout: Layout) { // self.local_dealloc(ptr.cast().as_ptr(), layout); // } // } /// 内存分配错误处理函数 #[cfg(target_os = "none")] #[alloc_error_handler] pub fn global_alloc_err_handler(layout: Layout) -> ! { panic!("global_alloc_error, layout: {:?}", layout); }