xref: /DragonOS/kernel/src/mm/c_adapter.rs (revision 2b7818e80e00fcfe4d03533f587cc125ea5e4bec)
1 //! 这是暴露给C的接口,用于在C语言中使用Rust的内存分配器。
2 
3 use core::intrinsics::unlikely;
4 
5 use alloc::vec::Vec;
6 use hashbrown::HashMap;
7 use log::error;
8 use system_error::SystemError;
9 
10 use crate::libs::spinlock::SpinLock;
11 
12 use super::{mmio_buddy::mmio_pool, VirtAddr};
13 
14 lazy_static! {
15     // 用于记录内核分配给C的空间信息
16     static ref C_ALLOCATION_MAP: SpinLock<HashMap<VirtAddr, (VirtAddr, usize, usize)>> = SpinLock::new(HashMap::new());
17 }
18 
19 #[no_mangle]
kzalloc(size: usize, _gfp: u64) -> usize20 pub unsafe extern "C" fn kzalloc(size: usize, _gfp: u64) -> usize {
21     // debug!("kzalloc: size: {size}");
22     return do_kmalloc(size, true);
23 }
24 
25 #[no_mangle]
kmalloc(size: usize, _gfp: u64) -> usize26 pub unsafe extern "C" fn kmalloc(size: usize, _gfp: u64) -> usize {
27     // debug!("kmalloc: size: {size}");
28     // 由于C代码不规范,因此都全部清空
29     return do_kmalloc(size, true);
30 }
31 
do_kmalloc(size: usize, _zero: bool) -> usize32 fn do_kmalloc(size: usize, _zero: bool) -> usize {
33     let space: Vec<u8> = vec![0u8; size];
34 
35     assert!(space.len() == size);
36     let (ptr, len, cap) = space.into_raw_parts();
37     if !ptr.is_null() {
38         let vaddr = VirtAddr::new(ptr as usize);
39         let mut guard = C_ALLOCATION_MAP.lock();
40         if unlikely(guard.contains_key(&vaddr)) {
41             drop(guard);
42             unsafe {
43                 drop(Vec::from_raw_parts(vaddr.data() as *mut u8, len, cap));
44             }
45             panic!(
46                 "do_kmalloc: vaddr {:?} already exists in C Allocation Map, query size: {size}, zero: {_zero}",
47                 vaddr
48             );
49         }
50         // 插入到C Allocation Map中
51         guard.insert(vaddr, (vaddr, len, cap));
52         return vaddr.data();
53     } else {
54         return SystemError::ENOMEM.to_posix_errno() as i64 as usize;
55     }
56 }
57 
58 #[no_mangle]
kfree(vaddr: usize) -> usize59 pub unsafe extern "C" fn kfree(vaddr: usize) -> usize {
60     let vaddr = VirtAddr::new(vaddr);
61     let mut guard = C_ALLOCATION_MAP.lock();
62     let p = guard.remove(&vaddr);
63     drop(guard);
64 
65     if p.is_none() {
66         error!("kfree: vaddr {:?} not found in C Allocation Map", vaddr);
67         return SystemError::EINVAL.to_posix_errno() as i64 as usize;
68     }
69     let (vaddr, len, cap) = p.unwrap();
70     drop(Vec::from_raw_parts(vaddr.data() as *mut u8, len, cap));
71     return 0;
72 }
73 
74 /// @brief 创建一块mmio区域,并将vma绑定到initial_mm
75 ///
76 /// @param size mmio区域的大小(字节)
77 ///
78 /// @param vm_flags 要把vma设置成的标志
79 ///
80 /// @param res_vaddr 返回值-分配得到的虚拟地址
81 ///
82 /// @param res_length 返回值-分配的虚拟地址空间长度
83 ///
84 /// @return int 错误码
85 #[no_mangle]
rs_mmio_create( size: u32, _vm_flags: u64, res_vaddr: *mut u64, res_length: *mut u64, ) -> i3286 unsafe extern "C" fn rs_mmio_create(
87     size: u32,
88     _vm_flags: u64,
89     res_vaddr: *mut u64,
90     res_length: *mut u64,
91 ) -> i32 {
92     // debug!("mmio_create");
93     let r = mmio_pool().create_mmio(size as usize);
94     if let Err(e) = r {
95         return e.to_posix_errno();
96     }
97     let space_guard = r.unwrap();
98     *res_vaddr = space_guard.vaddr().data() as u64;
99     *res_length = space_guard.size() as u64;
100     // 由于space_guard drop的时候会自动释放内存,所以这里要忽略它的释放
101     core::mem::forget(space_guard);
102     return 0;
103 }
104 
105 /// @brief 取消mmio的映射并将地址空间归还到buddy中
106 ///
107 /// @param vaddr 起始的虚拟地址
108 ///
109 /// @param length 要归还的地址空间的长度
110 ///
111 /// @return Ok(i32) 成功返回0
112 ///
113 /// @return Err(i32) 失败返回错误码
114 #[no_mangle]
rs_mmio_release(vaddr: u64, length: u64) -> i32115 pub unsafe extern "C" fn rs_mmio_release(vaddr: u64, length: u64) -> i32 {
116     return mmio_pool()
117         .release_mmio(VirtAddr::new(vaddr as usize), length as usize)
118         .unwrap_or_else(|err| err.to_posix_errno());
119 }
120