1 /// 为virtio-drivers库提供的操作系统接口
2 use crate::include::bindings::bindings::{
3     alloc_pages, free_pages, memory_management_struct, Page, PAGE_2M_SHIFT, PAGE_2M_SIZE,
4     PAGE_OFFSET, PAGE_SHARED, ZONE_NORMAL,
5 };
6 use crate::mm::virt_2_phys;
7 use core::mem::size_of;
8 use core::ptr::NonNull;
9 use virtio_drivers::{BufferDirection, Hal, PhysAddr, PAGE_SIZE};
10 pub struct HalImpl;
11 unsafe impl Hal for HalImpl {
12     /// @brief 申请用于DMA的内存页
13     /// @param pages 页数(4k一页)
14     /// @return PhysAddr 获得的内存页的初始物理地址
dma_alloc(pages: usize, _direction: BufferDirection) -> (PhysAddr, NonNull<u8>)15     fn dma_alloc(pages: usize, _direction: BufferDirection) -> (PhysAddr, NonNull<u8>) {
16         let page_num = (pages * PAGE_SIZE - 1 + PAGE_2M_SIZE as usize) / PAGE_2M_SIZE as usize;
17         unsafe {
18             let pa = alloc_pages(ZONE_NORMAL, page_num as i32, PAGE_SHARED as u64);
19             let page = *pa;
20             //kdebug!("alloc pages num:{},Phyaddr={:#x}",pages,page.addr_phys);
21             (
22                 page.addr_phys as PhysAddr,
23                 NonNull::new((page.addr_phys as PhysAddr + PAGE_OFFSET as usize) as _).unwrap(),
24             )
25         }
26     }
27     /// @brief 释放用于DMA的内存页
28     /// @param paddr 起始物理地址 pages 页数(4k一页)
29     /// @return i32 0表示成功
dma_dealloc(paddr: PhysAddr, _vaddr: NonNull<u8>, pages: usize) -> i3230     unsafe fn dma_dealloc(paddr: PhysAddr, _vaddr: NonNull<u8>, pages: usize) -> i32 {
31         let page_num = (pages * PAGE_SIZE - 1 + PAGE_2M_SIZE as usize) / PAGE_2M_SIZE as usize;
32         unsafe {
33             let pa = (memory_management_struct.pages_struct as usize
34                 + (paddr >> PAGE_2M_SHIFT) * size_of::<Page>()) as *mut Page;
35             //kdebug!("free pages num:{},Phyaddr={}",page_num,paddr);
36             free_pages(pa, page_num as i32);
37         }
38         return 0;
39     }
40     /// @brief mmio物理地址转换为虚拟地址,不需要使用
41     /// @param paddr 起始物理地址
42     /// @return NonNull<u8> 虚拟地址的指针
mmio_phys_to_virt(_paddr: PhysAddr, _size: usize) -> NonNull<u8>43     unsafe fn mmio_phys_to_virt(_paddr: PhysAddr, _size: usize) -> NonNull<u8> {
44         NonNull::new((0) as _).unwrap()
45     }
46     /// @brief 与真实物理设备共享
47     /// @param buffer 要共享的buffer _direction:设备到driver或driver到设备
48     /// @return buffer在内存中的物理地址
share(buffer: NonNull<[u8]>, _direction: BufferDirection) -> PhysAddr49     unsafe fn share(buffer: NonNull<[u8]>, _direction: BufferDirection) -> PhysAddr {
50         let vaddr = buffer.as_ptr() as *mut u8 as usize;
51         //kdebug!("virt:{:x}", vaddr);
52         // Nothing to do, as the host already has access to all memory.
53         virt_2_phys(vaddr)
54     }
55     /// @brief 停止共享(让主机可以访问全部内存的话什么都不用做)
unshare(_paddr: PhysAddr, _buffer: NonNull<[u8]>, _direction: BufferDirection)56     unsafe fn unshare(_paddr: PhysAddr, _buffer: NonNull<[u8]>, _direction: BufferDirection) {
57         // Nothing to do, as the host already has access to all memory and we didn't copy the buffer
58         // anywhere else.
59     }
60 }
61