xref: /DragonOS/user/apps/test-for-robustfutex/src/main.rs (revision 4b0170bd6bb374d0e9699a0076cc23b976ad6db7)
1 extern crate libc;
2 extern crate syscalls;
3 
4 use std::{
5     ffi::c_void,
6     mem::{self, size_of},
7     process,
8     ptr::{self, NonNull},
9     sync::atomic::{AtomicI32, Ordering},
10     thread,
11     time::Duration,
12 };
13 
14 use syscalls::{
15     syscall0, syscall2, syscall3, syscall6,
16     Sysno::{futex, get_robust_list, gettid, set_robust_list},
17 };
18 
19 use libc::{
20     c_int, mmap, perror, EXIT_FAILURE, MAP_ANONYMOUS, MAP_FAILED, MAP_SHARED, PROT_READ, PROT_WRITE,
21 };
22 
23 const FUTEX_WAIT: usize = 0;
24 const FUTEX_WAKE: usize = 1;
25 
26 // 封装futex
27 #[derive(Clone, Copy, Debug)]
28 struct Futex {
29     addr: *mut u32,
30 }
31 
32 impl Futex {
33     pub fn new(addr: *mut u32) -> Self {
34         return Futex { addr };
35     }
36 
37     pub fn get_addr(&self, offset: isize) -> *mut u32 {
38         return unsafe { self.addr.offset(offset) };
39     }
40 
41     pub fn get_val(&self, offset: isize) -> u32 {
42         return unsafe { self.addr.offset(offset).read() };
43     }
44 
45     pub fn set_val(&self, val: u32, offset: isize) {
46         unsafe {
47             self.addr.offset(offset).write(val);
48         }
49     }
50 }
51 
52 unsafe impl Send for Futex {}
53 unsafe impl Sync for Futex {}
54 
55 #[derive(Clone, Copy, Debug)]
56 struct Lock {
57     addr: *mut i32,
58 }
59 
60 impl Lock {
61     pub fn new(addr: *mut i32) -> Self {
62         return Lock { addr };
63     }
64 
65     pub fn get_val(&self, offset: isize) -> i32 {
66         return unsafe { self.addr.offset(offset).read() };
67     }
68 
69     pub fn set_val(&self, val: i32, offset: isize) {
70         unsafe {
71             self.addr.offset(offset).write(val);
72         }
73     }
74 }
75 
76 unsafe impl Send for Lock {}
77 unsafe impl Sync for Lock {}
78 
79 #[derive(Debug, Clone, Copy)]
80 struct RobustList {
81     next: *const RobustList,
82 }
83 
84 #[derive(Debug, Clone, Copy)]
85 struct RobustListHead {
86     list: RobustList,
87     /// 向kernel提供了要检查的futex字段的相对位置,保持用户空间的灵活性,可以自由
88     /// 地调整其数据结构,而无需向内核硬编码任何特定的偏移量
89     /// futexes中前面的地址是用来存入robust list中(list.next),后面是存放具体的futex val
90     /// 这个字段的作用就是从前面的地址偏移到后面的地址中从而获取futex val
91     #[allow(dead_code)]
92     futex_offset: isize,
93     /// 潜在的竞争条件:由于添加和删除列表是在获取锁之后进行的,这給线程留下了一个小窗口,在此期间可能会导致异常退出,
94     /// 从而使锁被悬挂,为了防止这种可能性。用户空间还维护了一个简单的list_op_pending字段,允许线程在获取锁后但还未添加到
95     /// 列表时就异常退出时进行清理。并且在完成列表添加或删除操作后将其清除
96     /// 这里没有测试这个,在内核中实现实际上就是把list_op_pending地址进行一次唤醒(如果有等待者)
97     #[allow(dead_code)]
98     list_op_pending: *const RobustList,
99 }
100 
101 fn error_handle(msg: &str) -> ! {
102     unsafe { perror(msg.as_ptr() as *const i8) };
103     process::exit(EXIT_FAILURE)
104 }
105 
106 fn futex_wait(futexes: Futex, thread: &str, offset_futex: isize, lock: Lock, offset_count: isize) {
107     loop {
108         let atomic_count = AtomicI32::new(lock.get_val(offset_count));
109         if atomic_count
110             .compare_exchange(1, 0, Ordering::SeqCst, Ordering::SeqCst)
111             .is_ok()
112         {
113             lock.set_val(0, offset_count);
114 
115             // 设置futex锁当前被哪个线程占用
116             let tid = unsafe { syscall0(gettid).unwrap() as u32 };
117             futexes.set_val(futexes.get_val(offset_futex) | tid, offset_futex);
118 
119             break;
120         }
121 
122         println!("{} wating...", thread);
123         let futex_val = futexes.get_val(offset_futex);
124         futexes.set_val(futex_val | 0x8000_0000, offset_futex);
125         let ret = unsafe {
126             syscall6(
127                 futex,
128                 futexes.get_addr(offset_futex) as usize,
129                 FUTEX_WAIT,
130                 futexes.get_val(offset_futex) as usize,
131                 0,
132                 0,
133                 0,
134             )
135         };
136         if ret.is_err() {
137             error_handle("futex_wait failed");
138         }
139 
140         // 被唤醒后释放锁
141         let atomic_count = AtomicI32::new(lock.get_val(offset_count));
142         if atomic_count
143             .compare_exchange(0, 1, Ordering::SeqCst, Ordering::SeqCst)
144             .is_ok()
145         {
146             lock.set_val(1, offset_count);
147 
148             // 释放futex锁,不被任何线程占用
149             futexes.set_val(futexes.get_val(offset_futex) & 0xc000_0000, offset_futex);
150 
151             break;
152         }
153     }
154 }
155 
156 fn futex_wake(futexes: Futex, thread: &str, offset_futex: isize, lock: Lock, offset_count: isize) {
157     let atomic_count = AtomicI32::new(lock.get_val(offset_count));
158     if atomic_count
159         .compare_exchange(0, 1, Ordering::SeqCst, Ordering::SeqCst)
160         .is_ok()
161     {
162         lock.set_val(1, offset_count);
163 
164         // 释放futex锁,不被任何线程占用
165         futexes.set_val(futexes.get_val(offset_futex) & 0xc000_0000, offset_futex);
166 
167         // 如果没有线程/进程在等这个futex,则不必唤醒, 释放改锁即可
168         let futex_val = futexes.get_val(offset_futex);
169         if futex_val & 0x8000_0000 == 0 {
170             return;
171         }
172 
173         futexes.set_val(futex_val & !(1 << 31), offset_futex);
174         let ret = unsafe {
175             syscall6(
176                 futex,
177                 futexes.get_addr(offset_futex) as usize,
178                 FUTEX_WAKE,
179                 1,
180                 0,
181                 0,
182                 0,
183             )
184         };
185         if ret.is_err() {
186             error_handle("futex wake failed");
187         }
188         println!("{} waked", thread);
189     }
190 }
191 
192 fn set_list(futexes: Futex) {
193     let head = RobustListHead {
194         list: RobustList { next: ptr::null() },
195         futex_offset: 44,
196         list_op_pending: ptr::null(),
197     };
198     let head = NonNull::from(&head).as_ptr();
199     unsafe {
200         // 加入第一个futex
201         let head_ref_mut = &mut *head;
202         head_ref_mut.list.next = futexes.get_addr(0) as *const RobustList;
203 
204         // 加入第二个futex
205         let list_2 = NonNull::from(&*head_ref_mut.list.next).as_ptr();
206         let list_2_ref_mut = &mut *list_2;
207         list_2_ref_mut.next = futexes.get_addr(1) as *const RobustList;
208 
209         //println!("robust list next: {:?}", (*head).list.next );
210         //println!("robust list next next: {:?}", (*(*head).list.next).next );
211 
212         // 向内核注册robust list
213         let len = mem::size_of::<*mut RobustListHead>();
214         let ret = syscall2(set_robust_list, head as usize, len);
215         if ret.is_err() {
216             println!("failed to set_robust_list, ret = {:?}", ret);
217         }
218     }
219 }
220 
221 fn main() {
222     test01();
223 
224     println!("-------------");
225 
226     test02();
227 
228     println!("-------------");
229 }
230 
231 //测试set_robust_list和get_robust_list两个系统调用是否能正常使用
232 fn test01() {
233     // 创建robust list 头指针
234     let head = RobustListHead {
235         list: RobustList { next: ptr::null() },
236         futex_offset: 8,
237         list_op_pending: ptr::null(),
238     };
239     let head = NonNull::from(&head).as_ptr();
240 
241     let futexes = unsafe {
242         mmap(
243             ptr::null_mut::<c_void>(),
244             (size_of::<c_int>() * 2) as libc::size_t,
245             PROT_READ | PROT_WRITE,
246             MAP_ANONYMOUS | MAP_SHARED,
247             -1,
248             0,
249         ) as *mut u32
250     };
251     if futexes == MAP_FAILED as *mut u32 {
252         error_handle("futexes_addr mmap failed");
253     }
254 
255     unsafe {
256         futexes.offset(11).write(0x0000_0000);
257         futexes.offset(12).write(0x8000_0000);
258         println!("futex1 next addr: {:?}", futexes.offset(0));
259         println!("futex2 next addr: {:?}", futexes.offset(1));
260         println!("futex1 val addr: {:?}", futexes.offset(11));
261         println!("futex2 val addr: {:?}", futexes.offset(12));
262         println!("futex1 val: {:#x?}", futexes.offset(11).read());
263         println!("futex2 val: {:#x?}", futexes.offset(12).read());
264     }
265 
266     // 打印注册之前的robust list
267     println!("robust list next(get behind): {:?}", &unsafe { *head });
268 
269     unsafe {
270         let head_ref_mut = &mut *head;
271         head_ref_mut.list.next = futexes.offset(0) as *const RobustList;
272         let list_2 = NonNull::from(&*head_ref_mut.list.next).as_ptr();
273         let list_2_ref_mut = &mut *list_2;
274         list_2_ref_mut.next = futexes.offset(1) as *const RobustList;
275         println!("robust list next addr: {:?}", (*head).list.next);
276         println!(
277             "robust list next next addr: {:?}",
278             (*(*head).list.next).next
279         );
280     }
281 
282     unsafe {
283         let len = mem::size_of::<*mut RobustListHead>();
284         let ret = syscall2(set_robust_list, head as usize, len);
285         if ret.is_err() {
286             println!("failed to set_robust_list, ret = {:?}", ret);
287         }
288     }
289 
290     println!("get before, set after: {:?}", head);
291     println!("get before, set after: {:?}", &unsafe { *head });
292     unsafe {
293         let len: usize = 0;
294         println!("len = {}", len);
295         let len_ptr = NonNull::from(&len).as_ptr();
296         let ret = syscall3(get_robust_list, 0, head as usize, len_ptr as usize);
297         println!("get len = {}", len);
298         if ret.is_err() {
299             println!("failed to get_robust_list, ret = {:?}", ret);
300         }
301 
302         println!("futex1 val: {:#x}", futexes.offset(11).read());
303         println!("futex2 val: {:#x}", futexes.offset(12).read());
304         println!("robust list next: {:?}", futexes.offset(0));
305         println!("robust list next next: {:#x?}", futexes.offset(0).read());
306     }
307     println!("robust list head(get after): {:?}", head);
308     println!("robust list next(get after): {:?}", &unsafe { *head });
309 }
310 
311 //测试一个线程异常退出时futex的robustness(多线程测试,目前futex还不支持多进程)
312 fn test02() {
313     let futexes = unsafe {
314         mmap(
315             ptr::null_mut::<c_void>(),
316             (size_of::<c_int>() * 2) as libc::size_t,
317             PROT_READ | PROT_WRITE,
318             MAP_ANONYMOUS | MAP_SHARED,
319             -1,
320             0,
321         ) as *mut u32
322     };
323     if futexes == MAP_FAILED as *mut u32 {
324         error_handle("mmap failed");
325     }
326     let count = unsafe {
327         mmap(
328             ptr::null_mut::<c_void>(),
329             (size_of::<c_int>() * 2) as libc::size_t,
330             PROT_READ | PROT_WRITE,
331             MAP_ANONYMOUS | MAP_SHARED,
332             -1,
333             0,
334         ) as *mut i32
335     };
336     if count == MAP_FAILED as *mut i32 {
337         error_handle("mmap failed");
338     }
339 
340     unsafe {
341         // 在这个示例中,第一段和第二段地址放入robust list,第11段地址和第12段地址存放futex val
342         futexes.offset(11).write(0x0000_0000);
343         futexes.offset(12).write(0x0000_0000);
344         println!("futex1 next addr: {:?}", futexes.offset(0));
345         println!("futex2 next addr: {:?}", futexes.offset(1));
346         println!("futex1 val addr: {:?}", futexes.offset(11));
347         println!("futex2 val addr: {:?}", futexes.offset(12));
348         println!("futex1 val: {:#x?}", futexes.offset(11).read());
349         println!("futex2 val: {:#x?}", futexes.offset(12).read());
350 
351         count.offset(0).write(1);
352         count.offset(1).write(0);
353         println!("count1 val: {:?}", count.offset(0).read());
354         println!("count2 val: {:?}", count.offset(1).read());
355     }
356 
357     let futexes = Futex::new(futexes);
358     let locks = Lock::new(count);
359 
360     // tid1 = 7
361     let thread1 = thread::spawn(move || {
362         set_list(futexes);
363         thread::sleep(Duration::from_secs(2));
364         for i in 0..2 {
365             futex_wait(futexes, "thread1", 11, locks, 0);
366             println!("thread1 times: {}", i);
367             thread::sleep(Duration::from_secs(3));
368 
369             let tid = unsafe { syscall0(gettid).unwrap() as u32 };
370             futexes.set_val(futexes.get_val(12) | tid, 12);
371 
372             if i == 1 {
373                 // 让thread1异常退出,从而无法唤醒thread2,检测robustness
374                 println!("Thread1 exiting early due to simulated error.");
375                 return;
376             }
377             futex_wake(futexes, "thread2", 12, locks, 1);
378         }
379     });
380 
381     // tid2 = 6
382     set_list(futexes);
383     for i in 0..2 {
384         futex_wait(futexes, "thread2", 12, locks, 1);
385         println!("thread2 times: {}", i);
386 
387         let tid = unsafe { syscall0(gettid).unwrap() as u32 };
388         futexes.set_val(futexes.get_val(11) | tid, 11);
389 
390         futex_wake(futexes, "thread1", 11, locks, 0);
391     }
392 
393     thread1.join().unwrap();
394 }
395