1 #![allow(dead_code)] 2 use core::cell::UnsafeCell; 3 use core::ops::{Deref, DerefMut}; 4 use core::ptr::read_volatile; 5 6 use core::sync::atomic::{AtomicBool, Ordering}; 7 8 use crate::arch::asm::irqflags::{local_irq_restore, local_irq_save}; 9 use crate::arch::interrupt::{cli, sti}; 10 use crate::include::bindings::bindings::{spin_lock, spin_unlock, spinlock_t}; 11 use crate::process::preempt::{preempt_disable, preempt_enable}; 12 use crate::syscall::SystemError; 13 14 /// @brief 保存中断状态到flags中,关闭中断,并对自旋锁加锁 15 #[inline] 16 pub fn spin_lock_irqsave(lock: *mut spinlock_t, flags: &mut u64) { 17 local_irq_save(flags); 18 unsafe { 19 spin_lock(lock); 20 } 21 } 22 23 /// @brief 恢复rflags以及中断状态并解锁自旋锁 24 #[inline] 25 pub fn spin_unlock_irqrestore(lock: *mut spinlock_t, flags: &u64) { 26 unsafe { 27 spin_unlock(lock); 28 } 29 // kdebug!("123"); 30 local_irq_restore(flags); 31 } 32 33 /// 判断一个自旋锁是否已经被加锁 34 #[inline] 35 pub fn spin_is_locked(lock: &spinlock_t) -> bool { 36 let val = unsafe { read_volatile(&lock.lock as *const i8) }; 37 38 return if val == 0 { true } else { false }; 39 } 40 41 impl Default for spinlock_t { 42 fn default() -> Self { 43 Self { lock: 1 } 44 } 45 } 46 47 /// @brief 关闭中断并加锁 48 pub fn spin_lock_irq(lock: *mut spinlock_t) { 49 cli(); 50 unsafe { 51 spin_lock(lock); 52 } 53 } 54 55 /// @brief 解锁并开中断 56 pub fn spin_unlock_irq(lock: *mut spinlock_t) { 57 unsafe { 58 spin_unlock(lock); 59 } 60 sti(); 61 } 62 63 /// 原始的Spinlock(自旋锁) 64 /// 请注意,这个自旋锁和C的不兼容。 65 /// 66 /// @param self.0 这个AtomicBool的值为false时,表示没有被加锁。当它为true时,表示自旋锁已经被上锁。 67 #[derive(Debug)] 68 pub struct RawSpinlock(AtomicBool); 69 70 impl RawSpinlock { 71 /// @brief 初始化自旋锁 72 pub const INIT: RawSpinlock = RawSpinlock(AtomicBool::new(false)); 73 74 /// @brief 加锁 75 pub fn lock(&self) { 76 while !self.try_lock() {} 77 } 78 79 /// @brief 关中断并加锁 80 pub fn lock_irq(&self) { 81 cli(); 82 self.lock(); 83 } 84 85 /// @brief 尝试加锁 86 /// @return 加锁成功->true 87 /// 加锁失败->false 88 pub fn try_lock(&self) -> bool { 89 // 先增加自旋锁持有计数 90 preempt_disable(); 91 92 let res = self 93 .0 94 .compare_exchange(false, true, Ordering::Acquire, Ordering::Relaxed) 95 .is_ok(); 96 97 // 如果加锁失败恢复自旋锁持有计数 98 if res == false { 99 preempt_enable(); 100 } 101 return res; 102 } 103 104 /// @brief 解锁 105 pub fn unlock(&self) { 106 // 减少自旋锁持有计数 107 preempt_enable(); 108 self.0.store(false, Ordering::Release); 109 } 110 111 /// @brief 放锁并开中断 112 pub fn unlock_irq(&self) { 113 self.unlock(); 114 sti(); 115 } 116 117 /// @brief 判断自旋锁是否被上锁 118 /// 119 /// @return true 自旋锁被上锁 120 /// @return false 自旋锁处于解锁状态 121 pub fn is_locked(&self) -> bool { 122 return self.0.load(Ordering::Relaxed).into(); 123 } 124 125 /// @brief 强制设置自旋锁的状态 126 /// 请注意,这样操作可能会带来未知的风险。因此它是unsafe的。(尽管从Rust语言本身来说,它是safe的) 127 pub unsafe fn set_value(&mut self, value: bool) { 128 self.0.store(value, Ordering::SeqCst); 129 } 130 131 /// @brief 保存中断状态到flags中,关闭中断,并对自旋锁加锁 132 pub fn lock_irqsave(&self, flags: &mut u64) { 133 local_irq_save(flags); 134 self.lock(); 135 } 136 137 /// @brief 恢复rflags以及中断状态并解锁自旋锁 138 pub fn unlock_irqrestore(&self, flags: &u64) { 139 self.unlock(); 140 local_irq_restore(flags); 141 } 142 143 /// @brief 尝试保存中断状态到flags中,关闭中断,并对自旋锁加锁 144 /// @return 加锁成功->true 145 /// 加锁失败->false 146 #[inline(always)] 147 pub fn try_lock_irqsave(&self, flags: &mut u64) -> bool { 148 local_irq_save(flags); 149 if self.try_lock() { 150 return true; 151 } 152 local_irq_restore(flags); 153 return false; 154 } 155 } 156 /// 实现了守卫的SpinLock, 能够支持内部可变性 157 /// 158 #[derive(Debug)] 159 pub struct SpinLock<T> { 160 lock: RawSpinlock, 161 /// 自旋锁保护的数据 162 data: UnsafeCell<T>, 163 } 164 165 /// SpinLock的守卫 166 /// 该守卫没有构造器,并且其信息均为私有的。我们只能通过SpinLock的lock()方法获得一个守卫。 167 /// 因此我们可以认为,只要能够获得一个守卫,那么数据就在自旋锁的保护之下。 168 #[derive(Debug)] 169 pub struct SpinLockGuard<'a, T: 'a> { 170 lock: &'a SpinLock<T>, 171 flag: u64, 172 } 173 174 /// 向编译器保证,SpinLock在线程之间是安全的. 175 /// 其中要求类型T实现了Send这个Trait 176 unsafe impl<T> Sync for SpinLock<T> where T: Send {} 177 178 impl<T> SpinLock<T> { 179 pub const fn new(value: T) -> Self { 180 return Self { 181 lock: RawSpinlock::INIT, 182 data: UnsafeCell::new(value), 183 }; 184 } 185 186 #[inline(always)] 187 pub fn lock(&self) -> SpinLockGuard<T> { 188 self.lock.lock(); 189 // 加锁成功,返回一个守卫 190 return SpinLockGuard { 191 lock: self, 192 flag: 0, 193 }; 194 } 195 196 pub fn lock_irqsave(&self) -> SpinLockGuard<T> { 197 let mut flags: u64 = 0; 198 self.lock.lock_irqsave(&mut flags); 199 // 加锁成功,返回一个守卫 200 return SpinLockGuard { 201 lock: self, 202 flag: flags, 203 }; 204 } 205 206 pub fn try_lock(&self) -> Result<SpinLockGuard<T>, SystemError> { 207 if self.lock.try_lock() { 208 return Ok(SpinLockGuard { 209 lock: self, 210 flag: 0, 211 }); 212 } 213 return Err(SystemError::EAGAIN_OR_EWOULDBLOCK); 214 } 215 216 pub fn try_lock_irqsave(&self) -> Result<SpinLockGuard<T>, SystemError> { 217 let mut flags: u64 = 0; 218 if self.lock.try_lock_irqsave(&mut flags) { 219 return Ok(SpinLockGuard { 220 lock: self, 221 flag: flags, 222 }); 223 } 224 return Err(SystemError::EAGAIN_OR_EWOULDBLOCK); 225 } 226 } 227 228 /// 实现Deref trait,支持通过获取SpinLockGuard来获取临界区数据的不可变引用 229 impl<T> Deref for SpinLockGuard<'_, T> { 230 type Target = T; 231 232 fn deref(&self) -> &Self::Target { 233 return unsafe { &*self.lock.data.get() }; 234 } 235 } 236 237 /// 实现DerefMut trait,支持通过获取SpinLockGuard来获取临界区数据的可变引用 238 impl<T> DerefMut for SpinLockGuard<'_, T> { 239 fn deref_mut(&mut self) -> &mut Self::Target { 240 return unsafe { &mut *self.lock.data.get() }; 241 } 242 } 243 244 /// @brief 为SpinLockGuard实现Drop方法,那么,一旦守卫的生命周期结束,就会自动释放自旋锁,避免了忘记放锁的情况 245 impl<T> Drop for SpinLockGuard<'_, T> { 246 fn drop(&mut self) { 247 if self.flag != 0 { 248 self.lock.lock.unlock_irqrestore(&self.flag); 249 } else { 250 self.lock.lock.unlock(); 251 } 252 } 253 } 254