// Copyright 2009 The Go Authors. All rights reserved. // Copyright 2019 The gVisor Authors. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // This is mostly copied from the standard library's sync/rwmutex.go. // // Happens-before relationships indicated to the race detector: // - Unlock -> Lock (via writerSem) // - Unlock -> RLock (via readerSem) // - RUnlock -> Lock (via writerSem) // - DowngradeLock -> RLock (via readerSem) package sync import ( "sync/atomic" "unsafe" ) // CrossGoroutineRWMutex is equivalent to RWMutex, but it need not be unlocked // by a the same goroutine that locked the mutex. type CrossGoroutineRWMutex struct { // w is held if there are pending writers // // We use CrossGoroutineMutex rather than Mutex because the lock // annotation instrumentation in Mutex will trigger false positives in // the race detector when called inside of RaceDisable. w CrossGoroutineMutex writerSem uint32 // semaphore for writers to wait for completing readers readerSem uint32 // semaphore for readers to wait for completing writers readerCount int32 // number of pending readers readerWait int32 // number of departing readers } const rwmutexMaxReaders = 1 << 30 // TryRLock locks rw for reading. It returns true if it succeeds and false // otherwise. It does not block. func (rw *CrossGoroutineRWMutex) TryRLock() bool { if RaceEnabled { RaceDisable() } for { rc := atomic.LoadInt32(&rw.readerCount) if rc < 0 { if RaceEnabled { RaceEnable() } return false } if !atomic.CompareAndSwapInt32(&rw.readerCount, rc, rc+1) { continue } if RaceEnabled { RaceEnable() RaceAcquire(unsafe.Pointer(&rw.readerSem)) } return true } } // RLock locks rw for reading. // // It should not be used for recursive read locking; a blocked Lock call // excludes new readers from acquiring the lock. See the documentation on the // RWMutex type. func (rw *CrossGoroutineRWMutex) RLock() { if RaceEnabled { RaceDisable() } if atomic.AddInt32(&rw.readerCount, 1) < 0 { // A writer is pending, wait for it. semacquire(&rw.readerSem) } if RaceEnabled { RaceEnable() RaceAcquire(unsafe.Pointer(&rw.readerSem)) } } // RUnlock undoes a single RLock call. // // Preconditions: // * rw is locked for reading. func (rw *CrossGoroutineRWMutex) RUnlock() { if RaceEnabled { RaceReleaseMerge(unsafe.Pointer(&rw.writerSem)) RaceDisable() } if r := atomic.AddInt32(&rw.readerCount, -1); r < 0 { if r+1 == 0 || r+1 == -rwmutexMaxReaders { panic("RUnlock of unlocked RWMutex") } // A writer is pending. if atomic.AddInt32(&rw.readerWait, -1) == 0 { // The last reader unblocks the writer. semrelease(&rw.writerSem, false, 0) } } if RaceEnabled { RaceEnable() } } // TryLock locks rw for writing. It returns true if it succeeds and false // otherwise. It does not block. // +checklocksignore func (rw *CrossGoroutineRWMutex) TryLock() bool { if RaceEnabled { RaceDisable() } // First, resolve competition with other writers. if !rw.w.TryLock() { if RaceEnabled { RaceEnable() } return false } // Only proceed if there are no readers. if !atomic.CompareAndSwapInt32(&rw.readerCount, 0, -rwmutexMaxReaders) { rw.w.Unlock() if RaceEnabled { RaceEnable() } return false } if RaceEnabled { RaceEnable() RaceAcquire(unsafe.Pointer(&rw.writerSem)) } return true } // Lock locks rw for writing. If the lock is already locked for reading or // writing, Lock blocks until the lock is available. func (rw *CrossGoroutineRWMutex) Lock() { if RaceEnabled { RaceDisable() } // First, resolve competition with other writers. rw.w.Lock() // Announce to readers there is a pending writer. r := atomic.AddInt32(&rw.readerCount, -rwmutexMaxReaders) + rwmutexMaxReaders // Wait for active readers. if r != 0 && atomic.AddInt32(&rw.readerWait, r) != 0 { semacquire(&rw.writerSem) } if RaceEnabled { RaceEnable() RaceAcquire(unsafe.Pointer(&rw.writerSem)) } } // Unlock unlocks rw for writing. // // Preconditions: // * rw is locked for writing. // +checklocksignore func (rw *CrossGoroutineRWMutex) Unlock() { if RaceEnabled { RaceRelease(unsafe.Pointer(&rw.writerSem)) RaceRelease(unsafe.Pointer(&rw.readerSem)) RaceDisable() } // Announce to readers there is no active writer. r := atomic.AddInt32(&rw.readerCount, rwmutexMaxReaders) if r >= rwmutexMaxReaders { panic("Unlock of unlocked RWMutex") } // Unblock blocked readers, if any. for i := 0; i < int(r); i++ { semrelease(&rw.readerSem, false, 0) } // Allow other writers to proceed. rw.w.Unlock() if RaceEnabled { RaceEnable() } } // DowngradeLock atomically unlocks rw for writing and locks it for reading. // // Preconditions: // * rw is locked for writing. // +checklocksignore func (rw *CrossGoroutineRWMutex) DowngradeLock() { if RaceEnabled { RaceRelease(unsafe.Pointer(&rw.readerSem)) RaceDisable() } // Announce to readers there is no active writer and one additional reader. r := atomic.AddInt32(&rw.readerCount, rwmutexMaxReaders+1) if r >= rwmutexMaxReaders+1 { panic("DowngradeLock of unlocked RWMutex") } // Unblock blocked readers, if any. Note that this loop starts as 1 since r // includes this goroutine. for i := 1; i < int(r); i++ { semrelease(&rw.readerSem, false, 0) } // Allow other writers to proceed to rw.w.Lock(). Note that they will still // block on rw.writerSem since at least this reader exists, such that // DowngradeLock() is atomic with the previous write lock. rw.w.Unlock() if RaceEnabled { RaceEnable() } } // A RWMutex is a reader/writer mutual exclusion lock. The lock can be held by // an arbitrary number of readers or a single writer. The zero value for a // RWMutex is an unlocked mutex. // // A RWMutex must not be copied after first use. // // If a goroutine holds a RWMutex for reading and another goroutine might call // Lock, no goroutine should expect to be able to acquire a read lock until the // initial read lock is released. In particular, this prohibits recursive read // locking. This is to ensure that the lock eventually becomes available; a // blocked Lock call excludes new readers from acquiring the lock. // // A Mutex must be unlocked by the same goroutine that locked it. This // invariant is enforced with the 'checklocks' build tag. type RWMutex struct { m CrossGoroutineRWMutex } // TryRLock locks rw for reading. It returns true if it succeeds and false // otherwise. It does not block. func (rw *RWMutex) TryRLock() bool { // Note lock first to enforce proper locking even if unsuccessful. noteLock(unsafe.Pointer(rw)) locked := rw.m.TryRLock() if !locked { noteUnlock(unsafe.Pointer(rw)) } return locked } // RLock locks rw for reading. // // It should not be used for recursive read locking; a blocked Lock call // excludes new readers from acquiring the lock. See the documentation on the // RWMutex type. func (rw *RWMutex) RLock() { noteLock(unsafe.Pointer(rw)) rw.m.RLock() } // RUnlock undoes a single RLock call. // // Preconditions: // * rw is locked for reading. // * rw was locked by this goroutine. // +checklocksignore func (rw *RWMutex) RUnlock() { rw.m.RUnlock() noteUnlock(unsafe.Pointer(rw)) } // TryLock locks rw for writing. It returns true if it succeeds and false // otherwise. It does not block. func (rw *RWMutex) TryLock() bool { // Note lock first to enforce proper locking even if unsuccessful. noteLock(unsafe.Pointer(rw)) locked := rw.m.TryLock() if !locked { noteUnlock(unsafe.Pointer(rw)) } return locked } // Lock locks rw for writing. If the lock is already locked for reading or // writing, Lock blocks until the lock is available. func (rw *RWMutex) Lock() { noteLock(unsafe.Pointer(rw)) rw.m.Lock() } // Unlock unlocks rw for writing. // // Preconditions: // * rw is locked for writing. // * rw was locked by this goroutine. // +checklocksignore func (rw *RWMutex) Unlock() { rw.m.Unlock() noteUnlock(unsafe.Pointer(rw)) } // DowngradeLock atomically unlocks rw for writing and locks it for reading. // // Preconditions: // * rw is locked for writing. // +checklocksignore func (rw *RWMutex) DowngradeLock() { // No note change for DowngradeLock. rw.m.DowngradeLock() }