use crate::{ kdebug, libs::align::{page_align_down, page_align_up}, mm::{ allocator::bump::BumpAllocator, MemoryManagementArch, PhysAddr, PhysMemoryArea, VirtAddr, }, }; use super::{X86_64MMBootstrapInfo, BOOTSTRAP_MM_INFO, PHYS_MEMORY_AREAS}; impl BumpAllocator { pub unsafe fn arch_remain_areas( ret_areas: &mut [PhysMemoryArea], mut res_count: usize, ) -> usize { let info: X86_64MMBootstrapInfo = BOOTSTRAP_MM_INFO.clone().unwrap(); let load_base = info.kernel_load_base_paddr; let kernel_code_start = MMA::virt_2_phys(VirtAddr::new(info.kernel_code_start)) .unwrap() .data(); let offset_start = page_align_up(core::cmp::max(load_base + 16384, 0x200000)); let offset_end = page_align_down(kernel_code_start - 16384); // 把内核代码前的空间加入到可用内存区域中 for area in &PHYS_MEMORY_AREAS { let area_base = area.area_base_aligned().data(); let area_end = area.area_end_aligned().data(); if area_base >= offset_end { break; } if area_end <= offset_start { continue; } let new_start = core::cmp::max(offset_start, area_base); let new_end = core::cmp::min(offset_end, area_end); if new_start >= new_end { continue; } ret_areas[res_count] = PhysMemoryArea::new(PhysAddr::new(new_start), new_end - new_start); kdebug!("new arch remain area: {:?}", ret_areas[res_count]); res_count += 1; } return res_count; } }