// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package sync provides basic synchronization primitives such as mutual // exclusion locks. Other than the Once and WaitGroup types, most are intended // for use by low-level library routines. Higher-level synchronization is // better done via channels and communication. // // Values containing the types defined in this package should not be copied. package sync import ( "internal/race" "sync/atomic" "unsafe" ) func throw(string) // provided by runtime // A Mutex is a mutual exclusion lock. // Mutexes can be created as part of other structures; // the zero value for a Mutex is an unlocked mutex. // // A Mutex must not be copied after first use. type Mutex struct { state int32 sema uint32 } // A Locker represents an object that can be locked and unlocked. type Locker interface { Lock() Unlock() } const ( mutexLocked = 1 << iota // mutex is locked mutexWoken mutexWaiterShift = iota ) // Lock locks m. // If the lock is already in use, the calling goroutine // blocks until the mutex is available. func (m *Mutex) Lock() { // Fast path: grab unlocked mutex. if atomic.CompareAndSwapInt32(&m.state, 0, mutexLocked) { if race.Enabled { race.Acquire(unsafe.Pointer(m)) } return } awoke := false iter := 0 for { old := m.state new := old | mutexLocked if old&mutexLocked != 0 { if runtime_canSpin(iter) { // Active spinning makes sense. // Try to set mutexWoken flag to inform Unlock // to not wake other blocked goroutines. if !awoke && old&mutexWoken == 0 && old>>mutexWaiterShift != 0 && atomic.CompareAndSwapInt32(&m.state, old, old|mutexWoken) { awoke = true } runtime_doSpin() iter++ continue } new = old + 1<<mutexWaiterShift } if awoke { // The goroutine has been woken from sleep, // so we need to reset the flag in either case. if new&mutexWoken == 0 { throw("sync: inconsistent mutex state") } new &^= mutexWoken } if atomic.CompareAndSwapInt32(&m.state, old, new) { if old&mutexLocked == 0 { break } runtime_SemacquireMutex(&m.sema) awoke = true iter = 0 } } if race.Enabled { race.Acquire(unsafe.Pointer(m)) } } // Unlock unlocks m. // It is a run-time error if m is not locked on entry to Unlock. // // A locked Mutex is not associated with a particular goroutine. // It is allowed for one goroutine to lock a Mutex and then // arrange for another goroutine to unlock it. func (m *Mutex) Unlock() { if race.Enabled { _ = m.state race.Release(unsafe.Pointer(m)) } // Fast path: drop lock bit. new := atomic.AddInt32(&m.state, -mutexLocked) if (new+mutexLocked)&mutexLocked == 0 { throw("sync: unlock of unlocked mutex") } old := new for { // If there are no waiters or a goroutine has already // been woken or grabbed the lock, no need to wake anyone. if old>>mutexWaiterShift == 0 || old&(mutexLocked|mutexWoken) != 0 { return } // Grab the right to wake someone. new = (old - 1<<mutexWaiterShift) | mutexWoken if atomic.CompareAndSwapInt32(&m.state, old, new) { runtime_Semrelease(&m.sema) return } old = m.state } }