1f1284c35SGou Ngai #![allow(dead_code)] 2f1284c35SGou Ngai use core::{ 3f1284c35SGou Ngai cell::UnsafeCell, 4f1284c35SGou Ngai hint::spin_loop, 5f1284c35SGou Ngai mem::{self, ManuallyDrop}, 6f1284c35SGou Ngai ops::{Deref, DerefMut}, 7f1284c35SGou Ngai sync::atomic::{AtomicU32, Ordering}, 8f1284c35SGou Ngai }; 9f1284c35SGou Ngai 1040fe15e0SLoGin use crate::{ 11*1496ba7bSLoGin arch::CurrentIrqArch, 12*1496ba7bSLoGin exception::{InterruptArch, IrqFlagsGuard}, 13*1496ba7bSLoGin process::ProcessManager, 1440fe15e0SLoGin syscall::SystemError, 1540fe15e0SLoGin }; 16f1284c35SGou Ngai 17f1284c35SGou Ngai ///RwLock读写锁 18f1284c35SGou Ngai 19f1284c35SGou Ngai /// @brief READER位占据从右往左数第三个比特位 20f1284c35SGou Ngai const READER: u32 = 1 << 2; 21f1284c35SGou Ngai 22f1284c35SGou Ngai /// @brief UPGRADED位占据从右到左数第二个比特位 23f1284c35SGou Ngai const UPGRADED: u32 = 1 << 1; 24f1284c35SGou Ngai 25f1284c35SGou Ngai /// @brief WRITER位占据最右边的比特位 26f1284c35SGou Ngai const WRITER: u32 = 1; 27f1284c35SGou Ngai 28f1284c35SGou Ngai const READER_BIT: u32 = 2; 29f1284c35SGou Ngai 30f1284c35SGou Ngai /// @brief 读写锁的基本数据结构 31f1284c35SGou Ngai /// @param lock 32位原子变量,最右边的两位从左到右分别是UPGRADED,WRITER (标志位) 32f1284c35SGou Ngai /// 剩下的bit位存储READER数量(除了MSB) 33f1284c35SGou Ngai /// 对于标志位,0代表无, 1代表有 34f1284c35SGou Ngai /// 对于剩下的比特位表征READER的数量的多少 35f1284c35SGou Ngai /// lock的MSB必须为0,否则溢出 36f1284c35SGou Ngai #[derive(Debug)] 37f1284c35SGou Ngai pub struct RwLock<T> { 38f1284c35SGou Ngai lock: AtomicU32, 39f1284c35SGou Ngai data: UnsafeCell<T>, 40f1284c35SGou Ngai } 41f1284c35SGou Ngai 42f1284c35SGou Ngai /// @brief READER守卫的数据结构 43f1284c35SGou Ngai /// @param lock 是对RwLock的lock属性值的只读引用 44f1284c35SGou Ngai pub struct RwLockReadGuard<'a, T: 'a> { 45f1284c35SGou Ngai data: *const T, 46f1284c35SGou Ngai lock: &'a AtomicU32, 47f1284c35SGou Ngai } 48f1284c35SGou Ngai 49f1284c35SGou Ngai /// @brief UPGRADED是介于READER和WRITER之间的一种锁,它可以升级为WRITER, 50f1284c35SGou Ngai /// UPGRADED守卫的数据结构,注册UPGRADED锁只需要查看UPGRADED和WRITER的比特位 51f1284c35SGou Ngai /// 但是当UPGRADED守卫注册后,不允许有新的读者锁注册 52f1284c35SGou Ngai /// @param inner 是对RwLock数据结构的只读引用 53f1284c35SGou Ngai pub struct RwLockUpgradableGuard<'a, T: 'a> { 54f1284c35SGou Ngai data: *const T, 55f1284c35SGou Ngai inner: &'a RwLock<T>, 56f1284c35SGou Ngai } 57f1284c35SGou Ngai 58f1284c35SGou Ngai /// @brief WRITER守卫的数据结构 59f1284c35SGou Ngai /// @param data RwLock的data的可变引用 60f1284c35SGou Ngai /// @param inner 是对RwLock数据结构的只读引用 61f1284c35SGou Ngai pub struct RwLockWriteGuard<'a, T: 'a> { 62f1284c35SGou Ngai data: *mut T, 63f1284c35SGou Ngai inner: &'a RwLock<T>, 64*1496ba7bSLoGin irq_guard: Option<IrqFlagsGuard>, 65f1284c35SGou Ngai } 66f1284c35SGou Ngai 67f1284c35SGou Ngai unsafe impl<T: Send> Send for RwLock<T> {} 68f1284c35SGou Ngai unsafe impl<T: Send + Sync> Sync for RwLock<T> {} 69f1284c35SGou Ngai 70f1284c35SGou Ngai /// @brief RwLock的API 71f1284c35SGou Ngai impl<T> RwLock<T> { 72f1284c35SGou Ngai #[inline] 73f1284c35SGou Ngai /// @brief RwLock的初始化 74f1284c35SGou Ngai pub const fn new(data: T) -> Self { 75f1284c35SGou Ngai return RwLock { 76f1284c35SGou Ngai lock: AtomicU32::new(0), 77f1284c35SGou Ngai data: UnsafeCell::new(data), 78f1284c35SGou Ngai }; 79f1284c35SGou Ngai } 80f1284c35SGou Ngai 81f1284c35SGou Ngai #[allow(dead_code)] 82f1284c35SGou Ngai #[inline] 83f1284c35SGou Ngai /// @brief 将读写锁的皮扒掉,返回内在的data,返回的是一个真身而非引用 84f1284c35SGou Ngai pub fn into_inner(self) -> T { 85f1284c35SGou Ngai let RwLock { data, .. } = self; 86f1284c35SGou Ngai return data.into_inner(); 87f1284c35SGou Ngai } 88f1284c35SGou Ngai 89f1284c35SGou Ngai #[allow(dead_code)] 90f1284c35SGou Ngai #[inline] 91f1284c35SGou Ngai /// @brief 返回data的raw pointer, 92f1284c35SGou Ngai /// unsafe 93f1284c35SGou Ngai pub fn as_mut_ptr(&self) -> *mut T { 94f1284c35SGou Ngai return self.data.get(); 95f1284c35SGou Ngai } 96f1284c35SGou Ngai 97f1284c35SGou Ngai #[allow(dead_code)] 98f1284c35SGou Ngai #[inline] 99f1284c35SGou Ngai /// @brief 获取实时的读者数并尝试加1,如果增加值成功则返回增加1后的读者数,否则panic 100676b8ef6SMork fn current_reader(&self) -> Result<u32, SystemError> { 101f1284c35SGou Ngai const MAX_READERS: u32 = core::u32::MAX >> READER_BIT >> 1; //右移3位 102f1284c35SGou Ngai 103f1284c35SGou Ngai let value = self.lock.fetch_add(READER, Ordering::Acquire); 104f1284c35SGou Ngai //value二进制形式的MSB不能为1, 否则导致溢出 105f1284c35SGou Ngai 106f1284c35SGou Ngai if value > MAX_READERS << READER_BIT { 107f1284c35SGou Ngai self.lock.fetch_sub(READER, Ordering::Release); 108f1284c35SGou Ngai //panic!("Too many lock readers, cannot safely proceed"); 109676b8ef6SMork return Err(SystemError::EOVERFLOW); 110f1284c35SGou Ngai } else { 111f1284c35SGou Ngai return Ok(value); 112f1284c35SGou Ngai } 113f1284c35SGou Ngai } 114f1284c35SGou Ngai 115f1284c35SGou Ngai #[allow(dead_code)] 116f1284c35SGou Ngai #[inline] 117f1284c35SGou Ngai /// @brief 尝试获取READER守卫 118f1284c35SGou Ngai pub fn try_read(&self) -> Option<RwLockReadGuard<T>> { 119*1496ba7bSLoGin ProcessManager::preempt_disable(); 12040fe15e0SLoGin let r = self.inner_try_read(); 12140fe15e0SLoGin if r.is_none() { 122*1496ba7bSLoGin ProcessManager::preempt_enable(); 12340fe15e0SLoGin } 12440fe15e0SLoGin return r; 12540fe15e0SLoGin } 12640fe15e0SLoGin 12740fe15e0SLoGin fn inner_try_read(&self) -> Option<RwLockReadGuard<T>> { 128f1284c35SGou Ngai let reader_value = self.current_reader(); 129f1284c35SGou Ngai //得到自增后的reader_value, 包括了尝试获得READER守卫的进程 130f1284c35SGou Ngai let value; 131f1284c35SGou Ngai 132f1284c35SGou Ngai if reader_value.is_err() { 133f1284c35SGou Ngai return None; //获取失败 134f1284c35SGou Ngai } else { 135f1284c35SGou Ngai value = reader_value.unwrap(); 136f1284c35SGou Ngai } 137f1284c35SGou Ngai 138f1284c35SGou Ngai //判断有没有writer和upgrader 139f1284c35SGou Ngai //注意, 若upgrader存在,已经存在的读者继续占有锁,但新读者不允许获得锁 140f1284c35SGou Ngai if value & (WRITER | UPGRADED) != 0 { 141f1284c35SGou Ngai self.lock.fetch_sub(READER, Ordering::Release); 142f1284c35SGou Ngai return None; 143f1284c35SGou Ngai } else { 144f1284c35SGou Ngai return Some(RwLockReadGuard { 145f1284c35SGou Ngai data: unsafe { &*self.data.get() }, 146f1284c35SGou Ngai lock: &self.lock, 147f1284c35SGou Ngai }); 148f1284c35SGou Ngai } 149f1284c35SGou Ngai } 150f1284c35SGou Ngai 151f1284c35SGou Ngai #[allow(dead_code)] 152f1284c35SGou Ngai #[inline] 153f1284c35SGou Ngai /// @brief 获得READER的守卫 154f1284c35SGou Ngai pub fn read(&self) -> RwLockReadGuard<T> { 155f1284c35SGou Ngai loop { 156f1284c35SGou Ngai match self.try_read() { 157f1284c35SGou Ngai Some(guard) => return guard, 158f1284c35SGou Ngai None => spin_loop(), 159f1284c35SGou Ngai } 160f1284c35SGou Ngai } //忙等待 161f1284c35SGou Ngai } 162f1284c35SGou Ngai 163f1284c35SGou Ngai #[allow(dead_code)] 164f1284c35SGou Ngai #[inline] 165f1284c35SGou Ngai /// @brief 获取读者+UPGRADER的数量, 不能保证能否获得同步值 166f1284c35SGou Ngai pub fn reader_count(&self) -> u32 { 167f1284c35SGou Ngai let state = self.lock.load(Ordering::Relaxed); 168f1284c35SGou Ngai return state / READER + (state & UPGRADED) / UPGRADED; 169f1284c35SGou Ngai } 170f1284c35SGou Ngai 171f1284c35SGou Ngai #[allow(dead_code)] 172f1284c35SGou Ngai #[inline] 173f1284c35SGou Ngai /// @brief 获取写者数量,不能保证能否获得同步值 174f1284c35SGou Ngai pub fn writer_count(&self) -> u32 { 175f1284c35SGou Ngai return (self.lock.load(Ordering::Relaxed) & WRITER) / WRITER; 176f1284c35SGou Ngai } 177f1284c35SGou Ngai 178f1284c35SGou Ngai #[cfg(target_arch = "x86_64")] 179f1284c35SGou Ngai #[allow(dead_code)] 180f1284c35SGou Ngai #[inline] 181f1284c35SGou Ngai /// @brief 尝试获得WRITER守卫 182f1284c35SGou Ngai pub fn try_write(&self) -> Option<RwLockWriteGuard<T>> { 183*1496ba7bSLoGin ProcessManager::preempt_disable(); 18440fe15e0SLoGin let r = self.inner_try_write(); 18540fe15e0SLoGin if r.is_none() { 186*1496ba7bSLoGin ProcessManager::preempt_enable(); 18740fe15e0SLoGin } 18840fe15e0SLoGin 18940fe15e0SLoGin return r; 19040fe15e0SLoGin } //当架构为arm时,有些代码需要作出调整compare_exchange=>compare_exchange_weak 19140fe15e0SLoGin 19240fe15e0SLoGin #[cfg(target_arch = "x86_64")] 19340fe15e0SLoGin #[allow(dead_code)] 19440fe15e0SLoGin fn inner_try_write(&self) -> Option<RwLockWriteGuard<T>> { 195f1284c35SGou Ngai let res: bool = self 196f1284c35SGou Ngai .lock 1971d489963Skong .compare_exchange(0, WRITER, Ordering::Acquire, Ordering::Relaxed) 1981d489963Skong .is_ok(); 199f1284c35SGou Ngai //只有lock大小为0的时候能获得写者守卫 200f1284c35SGou Ngai if res { 201f1284c35SGou Ngai return Some(RwLockWriteGuard { 202f1284c35SGou Ngai data: unsafe { &mut *self.data.get() }, 203f1284c35SGou Ngai inner: self, 204*1496ba7bSLoGin irq_guard: None, 205f1284c35SGou Ngai }); 206f1284c35SGou Ngai } else { 207f1284c35SGou Ngai return None; 208f1284c35SGou Ngai } 20940fe15e0SLoGin } 210f1284c35SGou Ngai 211f1284c35SGou Ngai #[allow(dead_code)] 212f1284c35SGou Ngai #[inline] 213f1284c35SGou Ngai /// @brief 获得WRITER守卫 214f1284c35SGou Ngai pub fn write(&self) -> RwLockWriteGuard<T> { 215f1284c35SGou Ngai loop { 216f1284c35SGou Ngai match self.try_write() { 217f1284c35SGou Ngai Some(guard) => return guard, 218f1284c35SGou Ngai None => spin_loop(), 219f1284c35SGou Ngai } 220f1284c35SGou Ngai } 221f1284c35SGou Ngai } 222f1284c35SGou Ngai 223f1284c35SGou Ngai #[allow(dead_code)] 224f1284c35SGou Ngai #[inline] 225*1496ba7bSLoGin /// @brief 获取WRITER守卫并关中断 226*1496ba7bSLoGin pub fn write_irqsave(&self) -> RwLockWriteGuard<T> { 227*1496ba7bSLoGin loop { 228*1496ba7bSLoGin let irq_guard = unsafe { CurrentIrqArch::save_and_disable_irq() }; 229*1496ba7bSLoGin match self.try_write() { 230*1496ba7bSLoGin Some(mut guard) => { 231*1496ba7bSLoGin guard.irq_guard = Some(irq_guard); 232*1496ba7bSLoGin return guard; 233*1496ba7bSLoGin } 234*1496ba7bSLoGin None => spin_loop(), 235*1496ba7bSLoGin } 236*1496ba7bSLoGin } 237*1496ba7bSLoGin } 238*1496ba7bSLoGin 239*1496ba7bSLoGin #[allow(dead_code)] 240*1496ba7bSLoGin #[inline] 241f1284c35SGou Ngai /// @brief 尝试获得UPGRADER守卫 242f1284c35SGou Ngai pub fn try_upgradeable_read(&self) -> Option<RwLockUpgradableGuard<T>> { 243*1496ba7bSLoGin ProcessManager::preempt_disable(); 24440fe15e0SLoGin let r = self.inner_try_upgradeable_read(); 24540fe15e0SLoGin if r.is_none() { 246*1496ba7bSLoGin ProcessManager::preempt_enable(); 24740fe15e0SLoGin } 24840fe15e0SLoGin 24940fe15e0SLoGin return r; 25040fe15e0SLoGin } 25140fe15e0SLoGin 25240fe15e0SLoGin fn inner_try_upgradeable_read(&self) -> Option<RwLockUpgradableGuard<T>> { 253f1284c35SGou Ngai // 获得UPGRADER守卫不需要查看读者位 254f1284c35SGou Ngai // 如果获得读者锁失败,不需要撤回fetch_or的原子操作 255f1284c35SGou Ngai if self.lock.fetch_or(UPGRADED, Ordering::Acquire) & (WRITER | UPGRADED) == 0 { 256f1284c35SGou Ngai return Some(RwLockUpgradableGuard { 257f1284c35SGou Ngai inner: self, 258f1284c35SGou Ngai data: unsafe { &mut *self.data.get() }, 259f1284c35SGou Ngai }); 260f1284c35SGou Ngai } else { 261f1284c35SGou Ngai return None; 262f1284c35SGou Ngai } 263f1284c35SGou Ngai } 264f1284c35SGou Ngai 265f1284c35SGou Ngai #[allow(dead_code)] 266f1284c35SGou Ngai #[inline] 267f1284c35SGou Ngai /// @brief 获得UPGRADER守卫 268f1284c35SGou Ngai pub fn upgradeable_read(&self) -> RwLockUpgradableGuard<T> { 269f1284c35SGou Ngai loop { 270f1284c35SGou Ngai match self.try_upgradeable_read() { 271f1284c35SGou Ngai Some(guard) => return guard, 272f1284c35SGou Ngai None => spin_loop(), 273f1284c35SGou Ngai } 274f1284c35SGou Ngai } 275f1284c35SGou Ngai } 276f1284c35SGou Ngai 277f1284c35SGou Ngai #[allow(dead_code)] 278f1284c35SGou Ngai #[inline] 279f1284c35SGou Ngai //extremely unsafe behavior 280f1284c35SGou Ngai /// @brief 强制减少READER数 281f1284c35SGou Ngai pub unsafe fn force_read_decrement(&self) { 282f1284c35SGou Ngai debug_assert!(self.lock.load(Ordering::Relaxed) & !WRITER > 0); 283f1284c35SGou Ngai self.lock.fetch_sub(READER, Ordering::Release); 284f1284c35SGou Ngai } 285f1284c35SGou Ngai 286f1284c35SGou Ngai #[allow(dead_code)] 287f1284c35SGou Ngai #[inline] 288f1284c35SGou Ngai //extremely unsafe behavior 289f1284c35SGou Ngai /// @brief 强制给WRITER解锁 290f1284c35SGou Ngai pub unsafe fn force_write_unlock(&self) { 291f1284c35SGou Ngai debug_assert_eq!(self.lock.load(Ordering::Relaxed) & !(WRITER | UPGRADED), 0); 292f1284c35SGou Ngai self.lock.fetch_and(!(WRITER | UPGRADED), Ordering::Release); 293f1284c35SGou Ngai } 294f1284c35SGou Ngai 295f1284c35SGou Ngai #[allow(dead_code)] 29613776c11Slogin pub unsafe fn get_mut(&mut self) -> &mut T { 297f1284c35SGou Ngai unsafe { &mut *self.data.get() } 298f1284c35SGou Ngai } 299f1284c35SGou Ngai } 300f1284c35SGou Ngai 301f1284c35SGou Ngai impl<T: Default> Default for RwLock<T> { 302f1284c35SGou Ngai fn default() -> Self { 303f1284c35SGou Ngai Self::new(Default::default()) 304f1284c35SGou Ngai } 305f1284c35SGou Ngai } 306f1284c35SGou Ngai 307f1284c35SGou Ngai /// @brief 由原有的值创建新的锁 308f1284c35SGou Ngai impl<T> From<T> for RwLock<T> { 309f1284c35SGou Ngai fn from(data: T) -> Self { 310f1284c35SGou Ngai return Self::new(data); 311f1284c35SGou Ngai } 312f1284c35SGou Ngai } 313f1284c35SGou Ngai 314f1284c35SGou Ngai impl<'rwlock, T> RwLockReadGuard<'rwlock, T> { 31590a0a490SLoGin /// @brief 释放守卫,获得保护的值的不可变引用 31690a0a490SLoGin /// 31790a0a490SLoGin /// ## Safety 31890a0a490SLoGin /// 31990a0a490SLoGin /// 由于这样做可能导致守卫在另一个线程中被释放,从而导致pcb的preempt count不正确, 32090a0a490SLoGin /// 因此必须小心的手动维护好preempt count。 32190a0a490SLoGin /// 32290a0a490SLoGin /// 并且,leak还可能导致锁的状态不正确。因此请仔细考虑是否真的需要使用这个函数。 323f1284c35SGou Ngai #[allow(dead_code)] 324f1284c35SGou Ngai #[inline] 32590a0a490SLoGin pub unsafe fn leak(this: Self) -> &'rwlock T { 32690a0a490SLoGin let this = ManuallyDrop::new(this); 32790a0a490SLoGin return unsafe { &*this.data }; 328f1284c35SGou Ngai } 329f1284c35SGou Ngai } 330f1284c35SGou Ngai 331f1284c35SGou Ngai impl<'rwlock, T> RwLockUpgradableGuard<'rwlock, T> { 332f1284c35SGou Ngai #[allow(dead_code)] 333f1284c35SGou Ngai #[inline] 334f1284c35SGou Ngai /// @brief 尝试将UPGRADER守卫升级为WRITER守卫 335f1284c35SGou Ngai pub fn try_upgrade(self) -> Result<RwLockWriteGuard<'rwlock, T>, Self> { 336f1284c35SGou Ngai let res = self.inner.lock.compare_exchange( 337f1284c35SGou Ngai UPGRADED, 338f1284c35SGou Ngai WRITER, 339f1284c35SGou Ngai Ordering::Acquire, 340f1284c35SGou Ngai Ordering::Relaxed, 341f1284c35SGou Ngai ); 342f1284c35SGou Ngai //当且仅当只有UPGRADED守卫时可以升级 343f1284c35SGou Ngai 344f1284c35SGou Ngai if res.is_ok() { 345f1284c35SGou Ngai let inner = self.inner; 346f1284c35SGou Ngai 347f1284c35SGou Ngai mem::forget(self); 348f1284c35SGou Ngai 349f1284c35SGou Ngai Ok(RwLockWriteGuard { 350f1284c35SGou Ngai data: unsafe { &mut *inner.data.get() }, 351f1284c35SGou Ngai inner, 352*1496ba7bSLoGin irq_guard: None, 353f1284c35SGou Ngai }) 354f1284c35SGou Ngai } else { 355f1284c35SGou Ngai Err(self) 356f1284c35SGou Ngai } 357f1284c35SGou Ngai } 358f1284c35SGou Ngai 359f1284c35SGou Ngai #[allow(dead_code)] 360f1284c35SGou Ngai #[inline] 361f1284c35SGou Ngai /// @brief 将upgrader升级成writer 362f1284c35SGou Ngai pub fn upgrade(mut self) -> RwLockWriteGuard<'rwlock, T> { 363f1284c35SGou Ngai loop { 364f1284c35SGou Ngai self = match self.try_upgrade() { 365f1284c35SGou Ngai Ok(writeguard) => return writeguard, 366f1284c35SGou Ngai Err(former) => former, 367f1284c35SGou Ngai }; 368f1284c35SGou Ngai 369f1284c35SGou Ngai spin_loop(); 370f1284c35SGou Ngai } 371f1284c35SGou Ngai } 372f1284c35SGou Ngai 373f1284c35SGou Ngai #[allow(dead_code)] 374f1284c35SGou Ngai #[inline] 375f1284c35SGou Ngai /// @brief UPGRADER降级为READER 376f1284c35SGou Ngai pub fn downgrade(self) -> RwLockReadGuard<'rwlock, T> { 377f1284c35SGou Ngai while self.inner.current_reader().is_err() { 378f1284c35SGou Ngai spin_loop(); 379f1284c35SGou Ngai } 380f1284c35SGou Ngai 381f1284c35SGou Ngai let inner: &RwLock<T> = self.inner; 382f1284c35SGou Ngai 383f1284c35SGou Ngai // 自动移去UPGRADED比特位 384f1284c35SGou Ngai mem::drop(self); 385f1284c35SGou Ngai 386f1284c35SGou Ngai RwLockReadGuard { 387f1284c35SGou Ngai data: unsafe { &*inner.data.get() }, 388f1284c35SGou Ngai lock: &inner.lock, 389f1284c35SGou Ngai } 390f1284c35SGou Ngai } 391f1284c35SGou Ngai 392f1284c35SGou Ngai #[allow(dead_code)] 393f1284c35SGou Ngai #[inline] 39490a0a490SLoGin /// @brief 返回内部数据的引用,消除守卫 39590a0a490SLoGin /// 39690a0a490SLoGin /// ## Safety 39790a0a490SLoGin /// 39890a0a490SLoGin /// 由于这样做可能导致守卫在另一个线程中被释放,从而导致pcb的preempt count不正确, 39990a0a490SLoGin /// 因此必须小心的手动维护好preempt count。 40090a0a490SLoGin /// 40190a0a490SLoGin /// 并且,leak还可能导致锁的状态不正确。因此请仔细考虑是否真的需要使用这个函数。 40290a0a490SLoGin pub unsafe fn leak(this: Self) -> &'rwlock T { 40390a0a490SLoGin let this: ManuallyDrop<RwLockUpgradableGuard<'_, T>> = ManuallyDrop::new(this); 404f1284c35SGou Ngai 405f1284c35SGou Ngai unsafe { &*this.data } 406f1284c35SGou Ngai } 407f1284c35SGou Ngai } 408f1284c35SGou Ngai 409f1284c35SGou Ngai impl<'rwlock, T> RwLockWriteGuard<'rwlock, T> { 410f1284c35SGou Ngai #[allow(dead_code)] 411f1284c35SGou Ngai #[inline] 41290a0a490SLoGin /// @brief 返回内部数据的引用,消除守卫 41390a0a490SLoGin /// 41490a0a490SLoGin /// ## Safety 41590a0a490SLoGin /// 41690a0a490SLoGin /// 由于这样做可能导致守卫在另一个线程中被释放,从而导致pcb的preempt count不正确, 41790a0a490SLoGin /// 因此必须小心的手动维护好preempt count。 41890a0a490SLoGin /// 41990a0a490SLoGin /// 并且,leak还可能导致锁的状态不正确。因此请仔细考虑是否真的需要使用这个函数。 42090a0a490SLoGin pub unsafe fn leak(this: Self) -> &'rwlock T { 421f1284c35SGou Ngai let this = ManuallyDrop::new(this); 422f1284c35SGou Ngai 423f1284c35SGou Ngai return unsafe { &*this.data }; 424f1284c35SGou Ngai } 425f1284c35SGou Ngai 426f1284c35SGou Ngai #[allow(dead_code)] 427f1284c35SGou Ngai #[inline] 428f1284c35SGou Ngai /// @brief 将WRITER降级为READER 429f1284c35SGou Ngai pub fn downgrade(self) -> RwLockReadGuard<'rwlock, T> { 430f1284c35SGou Ngai while self.inner.current_reader().is_err() { 431f1284c35SGou Ngai spin_loop(); 432f1284c35SGou Ngai } 433f1284c35SGou Ngai //本质上来说绝对保证没有任何读者 434f1284c35SGou Ngai 435f1284c35SGou Ngai let inner = self.inner; 436f1284c35SGou Ngai 437f1284c35SGou Ngai mem::drop(self); 438f1284c35SGou Ngai 439f1284c35SGou Ngai return RwLockReadGuard { 440f1284c35SGou Ngai data: unsafe { &*inner.data.get() }, 441f1284c35SGou Ngai lock: &inner.lock, 442f1284c35SGou Ngai }; 443f1284c35SGou Ngai } 444f1284c35SGou Ngai 445f1284c35SGou Ngai #[allow(dead_code)] 446f1284c35SGou Ngai #[inline] 447f1284c35SGou Ngai /// @brief 将WRITER降级为UPGRADER 448f1284c35SGou Ngai pub fn downgrade_to_upgradeable(self) -> RwLockUpgradableGuard<'rwlock, T> { 449f1284c35SGou Ngai debug_assert_eq!( 450f1284c35SGou Ngai self.inner.lock.load(Ordering::Acquire) & (WRITER | UPGRADED), 451f1284c35SGou Ngai WRITER 452f1284c35SGou Ngai ); 453f1284c35SGou Ngai 454f1284c35SGou Ngai self.inner.lock.store(UPGRADED, Ordering::Release); 455f1284c35SGou Ngai 456f1284c35SGou Ngai let inner = self.inner; 457f1284c35SGou Ngai 458f1284c35SGou Ngai mem::forget(self); 459f1284c35SGou Ngai 460f1284c35SGou Ngai return RwLockUpgradableGuard { 461f1284c35SGou Ngai inner, 462f1284c35SGou Ngai data: unsafe { &*inner.data.get() }, 463f1284c35SGou Ngai }; 464f1284c35SGou Ngai } 465f1284c35SGou Ngai } 466f1284c35SGou Ngai 467f1284c35SGou Ngai impl<'rwlock, T> Deref for RwLockReadGuard<'rwlock, T> { 468f1284c35SGou Ngai type Target = T; 469f1284c35SGou Ngai 470f1284c35SGou Ngai fn deref(&self) -> &Self::Target { 471f1284c35SGou Ngai return unsafe { &*self.data }; 472f1284c35SGou Ngai } 473f1284c35SGou Ngai } 474f1284c35SGou Ngai 475f1284c35SGou Ngai impl<'rwlock, T> Deref for RwLockUpgradableGuard<'rwlock, T> { 476f1284c35SGou Ngai type Target = T; 477f1284c35SGou Ngai 478f1284c35SGou Ngai fn deref(&self) -> &Self::Target { 479f1284c35SGou Ngai return unsafe { &*self.data }; 480f1284c35SGou Ngai } 481f1284c35SGou Ngai } 482f1284c35SGou Ngai 483f1284c35SGou Ngai impl<'rwlock, T> Deref for RwLockWriteGuard<'rwlock, T> { 484f1284c35SGou Ngai type Target = T; 485f1284c35SGou Ngai 486f1284c35SGou Ngai fn deref(&self) -> &Self::Target { 487f1284c35SGou Ngai return unsafe { &*self.data }; 488f1284c35SGou Ngai } 489f1284c35SGou Ngai } 490f1284c35SGou Ngai 491f1284c35SGou Ngai impl<'rwlock, T> DerefMut for RwLockWriteGuard<'rwlock, T> { 492f1284c35SGou Ngai fn deref_mut(&mut self) -> &mut Self::Target { 493f1284c35SGou Ngai return unsafe { &mut *self.data }; 494f1284c35SGou Ngai } 495f1284c35SGou Ngai } 496f1284c35SGou Ngai 497f1284c35SGou Ngai impl<'rwlock, T> Drop for RwLockReadGuard<'rwlock, T> { 498f1284c35SGou Ngai fn drop(&mut self) { 499f1284c35SGou Ngai debug_assert!(self.lock.load(Ordering::Relaxed) & !(WRITER | UPGRADED) > 0); 500f1284c35SGou Ngai self.lock.fetch_sub(READER, Ordering::Release); 501*1496ba7bSLoGin ProcessManager::preempt_enable(); 502f1284c35SGou Ngai } 503f1284c35SGou Ngai } 504f1284c35SGou Ngai 505f1284c35SGou Ngai impl<'rwlock, T> Drop for RwLockUpgradableGuard<'rwlock, T> { 506f1284c35SGou Ngai fn drop(&mut self) { 507f1284c35SGou Ngai debug_assert_eq!( 508f1284c35SGou Ngai self.inner.lock.load(Ordering::Relaxed) & (WRITER | UPGRADED), 509f1284c35SGou Ngai UPGRADED 510f1284c35SGou Ngai ); 511f1284c35SGou Ngai self.inner.lock.fetch_sub(UPGRADED, Ordering::AcqRel); 512*1496ba7bSLoGin ProcessManager::preempt_enable(); 513f1284c35SGou Ngai //这里为啥要AcqRel? Release应该就行了? 514f1284c35SGou Ngai } 515f1284c35SGou Ngai } 516f1284c35SGou Ngai 517f1284c35SGou Ngai impl<'rwlock, T> Drop for RwLockWriteGuard<'rwlock, T> { 518f1284c35SGou Ngai fn drop(&mut self) { 519f1284c35SGou Ngai debug_assert_eq!(self.inner.lock.load(Ordering::Relaxed) & WRITER, WRITER); 520f1284c35SGou Ngai self.inner 521f1284c35SGou Ngai .lock 522f1284c35SGou Ngai .fetch_and(!(WRITER | UPGRADED), Ordering::Release); 523*1496ba7bSLoGin self.irq_guard.take(); 524*1496ba7bSLoGin ProcessManager::preempt_enable(); 525f1284c35SGou Ngai } 526f1284c35SGou Ngai } 527