1 use core::{ffi::c_void, ptr::null_mut, sync::atomic::compiler_fence};
2 
3 use alloc::boxed::Box;
4 
5 use crate::{
6     arch::asm::current::current_pcb,
7     include::bindings::bindings::{
8         process_control_block, CLONE_CLEAR_SIGHAND, CLONE_SIGHAND, CLONE_THREAD,
9     },
10     ipc::{
11         signal::{flush_signal_handlers, DEFAULT_SIGACTION},
12         signal_types::{sigaction, sighand_struct, signal_struct, SigQueue},
13     },
14     libs::{
15         atomic::atomic_set,
16         ffi_convert::FFIBind2Rust,
17         refcount::{refcount_inc, RefCount},
18         spinlock::{spin_lock_irqsave, spin_unlock_irqrestore},
19     },
20     syscall::SystemError,
21 };
22 
23 #[no_mangle]
process_copy_sighand(clone_flags: u64, pcb: *mut process_control_block) -> i3224 pub extern "C" fn process_copy_sighand(clone_flags: u64, pcb: *mut process_control_block) -> i32 {
25     // kdebug!("process_copy_sighand");
26 
27     if (clone_flags & (CLONE_SIGHAND as u64)) != 0 {
28         let r = RefCount::convert_mut(unsafe { &mut (*(current_pcb().sighand)).count }).unwrap();
29         refcount_inc(r);
30     }
31 
32     // 在这里使用Box::leak将动态申请的内存的生命周期转换为static的
33     let mut sig: &mut sighand_struct = Box::leak(Box::new(sighand_struct::default()));
34     if (sig as *mut sighand_struct) == null_mut() {
35         return SystemError::ENOMEM.to_posix_errno();
36     }
37 
38     // 将新的sighand赋值给pcb
39     unsafe {
40         (*pcb).sighand = sig as *mut sighand_struct as usize
41             as *mut crate::include::bindings::bindings::sighand_struct;
42     }
43 
44     // kdebug!("DEFAULT_SIGACTION.sa_flags={}", DEFAULT_SIGACTION.sa_flags);
45 
46     // 拷贝sigaction
47     let mut flags: usize = 0;
48 
49     spin_lock_irqsave(unsafe { &mut (*current_pcb().sighand).siglock }, &mut flags);
50     compiler_fence(core::sync::atomic::Ordering::SeqCst);
51 
52     for (index, x) in unsafe { (*current_pcb().sighand).action }
53         .iter()
54         .enumerate()
55     {
56         compiler_fence(core::sync::atomic::Ordering::SeqCst);
57         if !(x as *const crate::include::bindings::bindings::sigaction).is_null() {
58             sig.action[index] =
59                 *sigaction::convert_ref(x as *const crate::include::bindings::bindings::sigaction)
60                     .unwrap();
61         } else {
62             sig.action[index] = DEFAULT_SIGACTION;
63         }
64     }
65     compiler_fence(core::sync::atomic::Ordering::SeqCst);
66 
67     spin_unlock_irqrestore(unsafe { &mut (*current_pcb().sighand).siglock }, flags);
68     compiler_fence(core::sync::atomic::Ordering::SeqCst);
69 
70     // 将信号的处理函数设置为default(除了那些被手动屏蔽的)
71     if (clone_flags & (CLONE_CLEAR_SIGHAND as u64)) != 0 {
72         compiler_fence(core::sync::atomic::Ordering::SeqCst);
73 
74         flush_signal_handlers(pcb, false);
75         compiler_fence(core::sync::atomic::Ordering::SeqCst);
76     }
77     compiler_fence(core::sync::atomic::Ordering::SeqCst);
78 
79     return 0;
80 }
81 
82 #[no_mangle]
process_copy_signal(clone_flags: u64, pcb: *mut process_control_block) -> i3283 pub extern "C" fn process_copy_signal(clone_flags: u64, pcb: *mut process_control_block) -> i32 {
84     // kdebug!("process_copy_signal");
85     // 如果克隆的是线程,则不拷贝信号(同一进程的各个线程之间共享信号)
86     if (clone_flags & (CLONE_THREAD as u64)) != 0 {
87         return 0;
88     }
89     let sig: &mut signal_struct = Box::leak(Box::new(signal_struct::default()));
90     if (sig as *mut signal_struct) == null_mut() {
91         return SystemError::ENOMEM.to_posix_errno();
92     }
93     atomic_set(&mut sig.sig_cnt, 1);
94     // 将sig赋值给pcb中的字段
95     unsafe {
96         (*pcb).signal = sig as *mut signal_struct as usize
97             as *mut crate::include::bindings::bindings::signal_struct;
98     }
99 
100     // 创建新的sig_pending->sigqueue
101     unsafe {
102         (*pcb).sig_pending.signal = 0;
103         (*pcb).sig_pending.sigqueue =
104             Box::leak(Box::new(SigQueue::default())) as *mut SigQueue as *mut c_void;
105     }
106     return 0;
107 }
108 
109 #[no_mangle]
process_exit_signal(pcb: *mut process_control_block)110 pub extern "C" fn process_exit_signal(pcb: *mut process_control_block) {
111     // 回收进程的信号结构体
112     unsafe {
113         // 回收sighand
114         let sighand = Box::from_raw((*pcb).sighand as *mut sighand_struct);
115 
116         drop(sighand);
117         (*pcb).sighand = 0 as *mut crate::include::bindings::bindings::sighand_struct;
118 
119         // 回收sigqueue
120         let queue = Box::from_raw((*pcb).sig_pending.sigqueue as *mut SigQueue);
121         drop(queue);
122     }
123 }
124 
125 #[no_mangle]
process_exit_sighand(pcb: *mut process_control_block)126 pub extern "C" fn process_exit_sighand(pcb: *mut process_control_block) {
127     // todo: 回收进程的sighand结构体
128     unsafe {
129         let sig = Box::from_raw((*pcb).signal as *mut signal_struct);
130         drop(sig);
131         (*pcb).signal = 0 as *mut crate::include::bindings::bindings::signal_struct;
132     }
133 }
134 
135 /// 拷贝进程的地址空间
136 ///
137 /// ## 参数
138 ///
139 /// - `clone_vm`: 是否与父进程共享地址空间。true表示共享
140 /// - `new_pcb`: 新进程的pcb
141 ///
142 /// ## 返回值
143 ///
144 /// - 成功:返回Ok(())
145 /// - 失败:返回Err(SystemError)
146 ///
147 /// ## Panic
148 ///
149 /// - 如果当前进程没有用户地址空间,则panic
copy_mm(clone_vm: bool, new_pcb: &mut process_control_block) -> Result<(), SystemError>150 pub fn copy_mm(clone_vm: bool, new_pcb: &mut process_control_block) -> Result<(), SystemError> {
151     // kdebug!("copy_mm, clone_vm: {}", clone_vm);
152     let old_address_space = current_pcb()
153         .address_space()
154         .expect("copy_mm: Failed to get address space of current process.");
155 
156     if clone_vm {
157         unsafe { new_pcb.set_address_space(old_address_space) };
158         return Ok(());
159     }
160 
161     let new_address_space = old_address_space.write().try_clone().unwrap_or_else(|e| {
162         panic!(
163             "copy_mm: Failed to clone address space of current process, current pid: [{}], new pid: [{}]. Error: {:?}",
164             current_pcb().pid, new_pcb.pid, e
165         )
166     });
167     unsafe { new_pcb.set_address_space(new_address_space) };
168     return Ok(());
169 }
170