xref: /DragonOS/kernel/src/process/kthread.rs (revision c75089286e9d49cef8d039446bf570c1bd4d2550)
1 use core::{
2     hint::spin_loop,
3     sync::atomic::{AtomicBool, Ordering},
4 };
5 
6 use alloc::{
7     boxed::Box,
8     collections::LinkedList,
9     string::{String, ToString},
10     sync::{Arc, Weak},
11 };
12 use atomic_enum::atomic_enum;
13 
14 use crate::{
15     arch::{sched::sched, CurrentIrqArch},
16     exception::InterruptArch,
17     kdebug, kinfo,
18     libs::{once::Once, spinlock::SpinLock},
19     process::{ProcessManager, ProcessState},
20     syscall::SystemError,
21 };
22 
23 use super::{
24     fork::CloneFlags, init::initial_kernel_thread, Pid, ProcessControlBlock, ProcessFlags,
25 };
26 
27 /// 内核线程的创建任务列表
28 static KTHREAD_CREATE_LIST: SpinLock<LinkedList<Arc<KernelThreadCreateInfo>>> =
29     SpinLock::new(LinkedList::new());
30 
31 static mut KTHREAD_DAEMON_PCB: Option<Arc<ProcessControlBlock>> = None;
32 
33 #[derive(Debug)]
34 pub enum WorkerPrivate {
35     KernelThread(KernelThreadPcbPrivate),
36 }
37 
38 #[allow(dead_code)]
39 impl WorkerPrivate {
40     pub fn kernel_thread(&self) -> Option<&KernelThreadPcbPrivate> {
41         match self {
42             Self::KernelThread(x) => Some(x),
43         }
44     }
45 
46     pub fn kernel_thread_mut(&mut self) -> Option<&mut KernelThreadPcbPrivate> {
47         match self {
48             Self::KernelThread(x) => Some(x),
49         }
50     }
51 }
52 
53 bitflags! {
54     pub struct KernelThreadFlags: u32 {
55         const IS_PER_CPU = 1 << 0;
56         const SHOULD_STOP = 1 << 1;
57         const SHOULD_PARK = 1 << 2;
58     }
59 }
60 
61 #[derive(Debug)]
62 pub struct KernelThreadPcbPrivate {
63     flags: KernelThreadFlags,
64 }
65 
66 #[allow(dead_code)]
67 impl KernelThreadPcbPrivate {
68     pub fn new() -> Self {
69         Self {
70             flags: KernelThreadFlags::empty(),
71         }
72     }
73 
74     pub fn flags(&self) -> &KernelThreadFlags {
75         &self.flags
76     }
77 
78     pub fn flags_mut(&mut self) -> &mut KernelThreadFlags {
79         &mut self.flags
80     }
81 }
82 
83 /// 内核线程的闭包,参数必须与闭包的参数一致,返回值必须是i32
84 ///
85 /// 元组的第一个元素是闭包,第二个元素是闭包的参数对象
86 ///
87 /// 对于非原始类型的参数,需要使用Box包装
88 #[allow(dead_code)]
89 pub enum KernelThreadClosure {
90     UsizeClosure((Box<dyn Fn(usize) -> i32 + Send + Sync>, usize)),
91     EmptyClosure((Box<dyn Fn() -> i32 + Send + Sync>, ())),
92     // 添加其他类型入参的闭包,返回值必须是i32
93 }
94 
95 impl KernelThreadClosure {
96     pub fn run(self) -> i32 {
97         match self {
98             Self::UsizeClosure((func, arg)) => func(arg),
99             Self::EmptyClosure((func, _arg)) => func(),
100         }
101     }
102 }
103 
104 pub struct KernelThreadCreateInfo {
105     /// 内核线程的入口函数、传入参数
106     closure: SpinLock<Option<Box<KernelThreadClosure>>>,
107     /// 内核线程的名字
108     name: String,
109     /// 是否已经完成创建 todo:使用comletion机制优化这里
110     created: AtomicKernelThreadCreateStatus,
111     result_pcb: SpinLock<Option<Arc<ProcessControlBlock>>>,
112     /// 不安全的Arc引用计数,当内核线程创建失败时,需要减少这个计数
113     has_unsafe_arc_instance: AtomicBool,
114     self_ref: Weak<Self>,
115     /// 如果该值为true在进入bootstrap stage2之后,就会进入睡眠状态
116     to_mark_sleep: AtomicBool,
117 }
118 
119 #[atomic_enum]
120 #[derive(PartialEq)]
121 pub enum KernelThreadCreateStatus {
122     Created,
123     NotCreated,
124     ErrorOccured,
125 }
126 
127 #[allow(dead_code)]
128 impl KernelThreadCreateInfo {
129     pub fn new(func: KernelThreadClosure, name: String) -> Arc<Self> {
130         let result = Arc::new(Self {
131             closure: SpinLock::new(Some(Box::new(func))),
132             name,
133             created: AtomicKernelThreadCreateStatus::new(KernelThreadCreateStatus::NotCreated),
134             result_pcb: SpinLock::new(None),
135             has_unsafe_arc_instance: AtomicBool::new(false),
136             self_ref: Weak::new(),
137             to_mark_sleep: AtomicBool::new(true),
138         });
139         let tmp = result.clone();
140         unsafe {
141             let tmp = Arc::into_raw(tmp) as *mut Self;
142             (*tmp).self_ref = Arc::downgrade(&result);
143             Arc::from_raw(tmp);
144         }
145 
146         return result;
147     }
148 
149     /// 创建者调用这函数,等待创建完成后,获取创建结果
150     ///
151     /// ## 返回值
152     ///
153     /// - Some(Arc<ProcessControlBlock>) 创建成功,返回新创建的内核线程的PCB
154     /// - None 创建失败
155     pub fn poll_result(&self) -> Option<Arc<ProcessControlBlock>> {
156         loop {
157             match self.created.load(Ordering::SeqCst) {
158                 KernelThreadCreateStatus::Created => {
159                     return self.result_pcb.lock().take();
160                 }
161                 KernelThreadCreateStatus::NotCreated => {
162                     spin_loop();
163                 }
164                 KernelThreadCreateStatus::ErrorOccured => {
165                     // 创建失败,减少不安全的Arc引用计数
166                     let to_delete = self.has_unsafe_arc_instance.swap(false, Ordering::SeqCst);
167                     if to_delete {
168                         let self_ref = self.self_ref.upgrade().unwrap();
169                         unsafe { Arc::decrement_strong_count(&self_ref) };
170                     }
171                     return None;
172                 }
173             }
174         }
175     }
176 
177     pub fn take_closure(&self) -> Option<Box<KernelThreadClosure>> {
178         return self.closure.lock().take();
179     }
180 
181     pub fn name(&self) -> &String {
182         &self.name
183     }
184 
185     pub unsafe fn set_create_ok(&self, pcb: Arc<ProcessControlBlock>) {
186         // todo: 使用completion机制优化这里
187         self.result_pcb.lock().replace(pcb);
188         self.created
189             .store(KernelThreadCreateStatus::Created, Ordering::SeqCst);
190     }
191 
192     /// 生成一个不安全的Arc指针(用于创建内核线程时传递参数)
193     pub fn generate_unsafe_arc_ptr(self: Arc<Self>) -> *const Self {
194         assert!(
195             self.has_unsafe_arc_instance
196                 .compare_exchange(false, true, Ordering::SeqCst, Ordering::SeqCst)
197                 .is_ok(),
198             "Cannot generate unsafe arc ptr when there is already one."
199         );
200         let ptr = Arc::into_raw(self);
201         return ptr;
202     }
203 
204     pub unsafe fn parse_unsafe_arc_ptr(ptr: *const Self) -> Arc<Self> {
205         let arc = Arc::from_raw(ptr);
206         assert!(
207             arc.has_unsafe_arc_instance
208                 .compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst)
209                 .is_ok(),
210             "Cannot parse unsafe arc ptr when there is no one."
211         );
212         assert!(Arc::strong_count(&arc) > 0);
213         return arc;
214     }
215 
216     /// 设置是否在进入bootstrap stage2之后,就进入睡眠状态
217     ///
218     /// ## 参数
219     ///
220     /// - to_mark_sleep: 是否在进入bootstrap stage2之后,就进入睡眠状态
221     ///
222     /// ## 返回值
223     /// 如果已经创建完成,返回EINVAL
224     pub fn set_to_mark_sleep(&self, to_mark_sleep: bool) -> Result<(), SystemError> {
225         let result_guard = self.result_pcb.lock();
226         if result_guard.is_some() {
227             // 已经创建完成,不需要设置
228             return Err(SystemError::EINVAL);
229         }
230         self.to_mark_sleep.store(to_mark_sleep, Ordering::SeqCst);
231         return Ok(());
232     }
233 
234     pub fn to_mark_sleep(&self) -> bool {
235         self.to_mark_sleep.load(Ordering::SeqCst)
236     }
237 }
238 
239 pub struct KernelThreadMechanism;
240 
241 impl KernelThreadMechanism {
242     pub fn init_stage1() {
243         assert!(ProcessManager::current_pcb().pid() == Pid::new(0));
244         kinfo!("Initializing kernel thread mechanism stage1...");
245 
246         // 初始化第一个内核线程
247 
248         let create_info = KernelThreadCreateInfo::new(
249             KernelThreadClosure::EmptyClosure((Box::new(initial_kernel_thread), ())),
250             "init".to_string(),
251         );
252         let irq_guard = unsafe { CurrentIrqArch::save_and_disable_irq() };
253         // 由于当前是pid=0的idle进程,而__inner_create要求当前是kthread,所以先临时设置为kthread
254         ProcessManager::current_pcb()
255             .flags
256             .get_mut()
257             .insert(ProcessFlags::KTHREAD);
258         create_info
259             .set_to_mark_sleep(false)
260             .expect("Failed to set to_mark_sleep");
261         KernelThreadMechanism::__inner_create(
262             &create_info,
263             CloneFlags::CLONE_VM | CloneFlags::CLONE_SIGNAL,
264         )
265         .unwrap_or_else(|e| panic!("Failed to create initial kernel thread, error: {:?}", e));
266 
267         ProcessManager::current_pcb()
268             .flags
269             .get_mut()
270             .remove(ProcessFlags::KTHREAD);
271         drop(irq_guard);
272         kinfo!("Initializing kernel thread mechanism stage1 complete");
273     }
274 
275     pub fn init_stage2() {
276         assert!(ProcessManager::current_pcb()
277             .flags()
278             .contains(ProcessFlags::KTHREAD));
279         static INIT: Once = Once::new();
280         INIT.call_once(|| {
281             kinfo!("Initializing kernel thread mechanism stage2...");
282             // 初始化kthreadd
283             let closure = KernelThreadClosure::EmptyClosure((Box::new(Self::kthread_daemon), ()));
284             let info = KernelThreadCreateInfo::new(closure, "kthreadd".to_string());
285             let kthreadd_pid: Pid = Self::__inner_create(
286                 &info,
287                 CloneFlags::CLONE_VM | CloneFlags::CLONE_FS | CloneFlags::CLONE_SIGNAL,
288             )
289             .expect("Failed to create kthread daemon");
290 
291             let pcb = ProcessManager::find(kthreadd_pid).unwrap();
292             ProcessManager::wakeup(&pcb).expect("Failed to wakeup kthread daemon");
293             unsafe {
294                 KTHREAD_DAEMON_PCB.replace(pcb);
295             }
296             kinfo!("Initializing kernel thread mechanism stage2 complete");
297         });
298     }
299 
300     /// 创建一个新的内核线程
301     ///
302     /// ## 参数
303     ///
304     /// - func: 内核线程的入口函数、传入参数
305     /// - name: 内核线程的名字
306     ///
307     /// ## 返回值
308     ///
309     /// - Some(Arc<ProcessControlBlock>) 创建成功,返回新创建的内核线程的PCB
310     #[allow(dead_code)]
311     pub fn create(func: KernelThreadClosure, name: String) -> Option<Arc<ProcessControlBlock>> {
312         let info = KernelThreadCreateInfo::new(func, name);
313         while unsafe { KTHREAD_DAEMON_PCB.is_none() } {
314             // 等待kthreadd启动
315             spin_loop()
316         }
317         KTHREAD_CREATE_LIST.lock().push_back(info.clone());
318         ProcessManager::wakeup(unsafe { KTHREAD_DAEMON_PCB.as_ref().unwrap() })
319             .expect("Failed to wakeup kthread daemon");
320         return info.poll_result();
321     }
322 
323     /// 创建并运行一个新的内核线程
324     ///
325     /// ## 参数
326     ///
327     /// - func: 内核线程的入口函数、传入参数
328     /// - name: 内核线程的名字
329     ///
330     /// ## 返回值
331     ///
332     /// - Some(Arc<ProcessControlBlock>) 创建成功,返回新创建的内核线程的PCB
333     #[allow(dead_code)]
334     pub fn create_and_run(
335         func: KernelThreadClosure,
336         name: String,
337     ) -> Option<Arc<ProcessControlBlock>> {
338         let pcb = Self::create(func, name)?;
339         ProcessManager::wakeup(&pcb)
340             .expect(format!("Failed to wakeup kthread: {:?}", pcb.pid()).as_str());
341         return Some(pcb);
342     }
343 
344     /// 停止一个内核线程
345     ///
346     /// 如果目标内核线程的数据检查失败,会panic
347     ///
348     /// ## 返回值
349     ///
350     /// - Ok(i32) 目标内核线程的退出码
351     #[allow(dead_code)]
352     pub fn stop(pcb: &Arc<ProcessControlBlock>) -> Result<usize, SystemError> {
353         if !pcb.flags().contains(ProcessFlags::KTHREAD) {
354             panic!("Cannt stop a non-kthread process");
355         }
356 
357         let mut worker_private = pcb.worker_private();
358         assert!(
359             worker_private.is_some(),
360             "kthread stop: worker_private is none, pid: {:?}",
361             pcb.pid()
362         );
363         worker_private
364             .as_mut()
365             .unwrap()
366             .kernel_thread_mut()
367             .expect("Error type of worker private")
368             .flags
369             .insert(KernelThreadFlags::SHOULD_STOP);
370 
371         drop(worker_private);
372 
373         ProcessManager::wakeup(pcb).ok();
374 
375         // 忙等目标内核线程退出
376         // todo: 使用completion机制优化这里
377         loop {
378             if let ProcessState::Exited(code) = pcb.sched_info().state() {
379                 return Ok(code);
380             }
381             spin_loop();
382         }
383     }
384 
385     /// 判断一个内核线程是否应当停止
386     ///
387     /// ## 参数
388     ///
389     /// - pcb: 目标内核线程的PCB
390     ///
391     /// ## 返回值
392     ///
393     /// - bool 是否应当停止. true表示应当停止,false表示不应当停止. 如果目标进程不是内核线程,返回false
394     ///
395     /// ## Panic
396     ///
397     /// 如果目标内核线程的数据检查失败,会panic
398     #[allow(dead_code)]
399     pub fn should_stop(pcb: &Arc<ProcessControlBlock>) -> bool {
400         if !pcb.flags().contains(ProcessFlags::KTHREAD) {
401             return false;
402         }
403 
404         let worker_private = pcb.worker_private();
405         assert!(
406             worker_private.is_some(),
407             "kthread should_stop: worker_private is none, pid: {:?}",
408             pcb.pid()
409         );
410         return worker_private
411             .as_ref()
412             .unwrap()
413             .kernel_thread()
414             .expect("Error type of worker private")
415             .flags
416             .contains(KernelThreadFlags::SHOULD_STOP);
417     }
418 
419     /// A daemon thread which creates other kernel threads
420     fn kthread_daemon() -> i32 {
421         let current_pcb = ProcessManager::current_pcb();
422         kdebug!("kthread_daemon: pid: {:?}", current_pcb.pid());
423         {
424             // 初始化worker_private
425             let mut worker_private_guard = current_pcb.worker_private();
426             let worker_private = WorkerPrivate::KernelThread(KernelThreadPcbPrivate::new());
427             *worker_private_guard = Some(worker_private);
428         }
429         // 设置为kthread
430         current_pcb.flags().insert(ProcessFlags::KTHREAD);
431         drop(current_pcb);
432 
433         loop {
434             let mut list = KTHREAD_CREATE_LIST.lock();
435             while let Some(info) = list.pop_front() {
436                 drop(list);
437 
438                 // create a new kernel thread
439                 let result: Result<Pid, SystemError> =
440                     Self::__inner_create(&info, CloneFlags::CLONE_FS | CloneFlags::CLONE_SIGNAL);
441 
442                 if result.is_err() {
443                     // 创建失败
444                     info.created
445                         .store(KernelThreadCreateStatus::ErrorOccured, Ordering::SeqCst);
446                 };
447                 list = KTHREAD_CREATE_LIST.lock();
448             }
449             drop(list);
450 
451             let irq_guard = unsafe { CurrentIrqArch::save_and_disable_irq() };
452             ProcessManager::mark_sleep(true).ok();
453             drop(irq_guard);
454             sched();
455         }
456     }
457 }
458 
459 /// 内核线程启动的第二阶段
460 ///
461 /// 该函数只能被`kernel_thread_bootstrap_stage1`调用(jmp到该函数)
462 ///
463 /// ## 参数
464 ///
465 /// - ptr: 传入的参数,是一个指向`Arc<KernelThreadCreateInfo>`的指针
466 pub unsafe extern "C" fn kernel_thread_bootstrap_stage2(ptr: *const KernelThreadCreateInfo) -> ! {
467     let info = KernelThreadCreateInfo::parse_unsafe_arc_ptr(ptr);
468 
469     let closure: Box<KernelThreadClosure> = info.take_closure().unwrap();
470     info.set_create_ok(ProcessManager::current_pcb());
471     let to_mark_sleep = info.to_mark_sleep();
472     drop(info);
473 
474     if to_mark_sleep {
475         // 进入睡眠状态
476         let irq_guard = CurrentIrqArch::save_and_disable_irq();
477         ProcessManager::mark_sleep(true).expect("Failed to mark sleep");
478         drop(irq_guard);
479         sched();
480     }
481 
482     let mut retval = SystemError::EINTR.to_posix_errno();
483 
484     if !KernelThreadMechanism::should_stop(&ProcessManager::current_pcb()) {
485         retval = closure.run();
486     }
487 
488     ProcessManager::exit(retval as usize);
489 }
490 
491 pub fn kthread_init() {
492     static INIT: Once = Once::new();
493     INIT.call_once(|| {
494         KernelThreadMechanism::init_stage1();
495     });
496 }
497