src/net/fd_mutex.go - go - Git at Google

 // Copyright 2013 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 net

 import "sync/atomic"

 // fdMutex is a specialized synchronization primitive
 // that manages lifetime of an fd and serializes access
 // to Read and Write methods on netFD.
 type fdMutex struct {
 	state uint64
 	rsema uint32
 	wsema uint32
 }

 // fdMutex.state is organized as follows:
 // 1 bit - whether netFD is closed, if set all subsequent lock operations will fail.
 // 1 bit - lock for read operations.
 // 1 bit - lock for write operations.
 // 20 bits - total number of references (read+write+misc).
 // 20 bits - number of outstanding read waiters.
 // 20 bits - number of outstanding write waiters.
 const (
 	mutexClosed  = 1 << 0
 	mutexRLock   = 1 << 1
 	mutexWLock   = 1 << 2
 	mutexRef     = 1 << 3
 	mutexRefMask = (1<<20 - 1) << 3
 	mutexRWait   = 1 << 23
 	mutexRMask   = (1<<20 - 1) << 23
 	mutexWWait   = 1 << 43
 	mutexWMask   = (1<<20 - 1) << 43
 )

 // Read operations must do RWLock(true)/RWUnlock(true).
 // Write operations must do RWLock(false)/RWUnlock(false).
 // Misc operations must do Incref/Decref. Misc operations include functions like
 // setsockopt and setDeadline. They need to use Incref/Decref to ensure that
 // they operate on the correct fd in presence of a concurrent Close call
 // (otherwise fd can be closed under their feet).
 // Close operation must do IncrefAndClose/Decref.

 // RWLock/Incref return whether fd is open.
 // RWUnlock/Decref return whether fd is closed and there are no remaining references.

 func (mu *fdMutex) Incref() bool {
 	for {
 		old := atomic.LoadUint64(&mu.state)
 		if old&mutexClosed != 0 {
 			return false
 		}
 		new := old + mutexRef
 		if new&mutexRefMask == 0 {
 			panic("net: inconsistent fdMutex")
 		}
 		if atomic.CompareAndSwapUint64(&mu.state, old, new) {
 			return true
 		}
 	}
 }

 func (mu *fdMutex) IncrefAndClose() bool {
 	for {
 		old := atomic.LoadUint64(&mu.state)
 		if old&mutexClosed != 0 {
 			return false
 		}
 		// Mark as closed and acquire a reference.
 		new := (old | mutexClosed) + mutexRef
 		if new&mutexRefMask == 0 {
 			panic("net: inconsistent fdMutex")
 		}
 		// Remove all read and write waiters.
 		new &^= mutexRMask | mutexWMask
 		if atomic.CompareAndSwapUint64(&mu.state, old, new) {
 			// Wake all read and write waiters,
 			// they will observe closed flag after wakeup.
 			for old&mutexRMask != 0 {
 				old -= mutexRWait
 				runtime_Semrelease(&mu.rsema)
 			}
 			for old&mutexWMask != 0 {
 				old -= mutexWWait
 				runtime_Semrelease(&mu.wsema)
 			}
 			return true
 		}
 	}
 }

 func (mu *fdMutex) Decref() bool {
 	for {
 		old := atomic.LoadUint64(&mu.state)
 		if old&mutexRefMask == 0 {
 			panic("net: inconsistent fdMutex")
 		}
 		new := old - mutexRef
 		if atomic.CompareAndSwapUint64(&mu.state, old, new) {
 			return new&(mutexClosed|mutexRefMask) == mutexClosed
 		}
 	}
 }

 func (mu *fdMutex) RWLock(read bool) bool {
 	var mutexBit, mutexWait, mutexMask uint64
 	var mutexSema *uint32
 	if read {
 		mutexBit = mutexRLock
 		mutexWait = mutexRWait
 		mutexMask = mutexRMask
 		mutexSema = &mu.rsema
 	} else {
 		mutexBit = mutexWLock
 		mutexWait = mutexWWait
 		mutexMask = mutexWMask
 		mutexSema = &mu.wsema
 	}
 	for {
 		old := atomic.LoadUint64(&mu.state)
 		if old&mutexClosed != 0 {
 			return false
 		}
 		var new uint64
 		if old&mutexBit == 0 {
 			// Lock is free, acquire it.
 			new = (old | mutexBit) + mutexRef
 			if new&mutexRefMask == 0 {
 				panic("net: inconsistent fdMutex")
 			}
 		} else {
 			// Wait for lock.
 			new = old + mutexWait
 			if new&mutexMask == 0 {
 				panic("net: inconsistent fdMutex")
 			}
 		}
 		if atomic.CompareAndSwapUint64(&mu.state, old, new) {
 			if old&mutexBit == 0 {
 				return true
 			}
 			runtime_Semacquire(mutexSema)
 			// The signaller has subtracted mutexWait.
 		}
 	}
 }

 func (mu *fdMutex) RWUnlock(read bool) bool {
 	var mutexBit, mutexWait, mutexMask uint64
 	var mutexSema *uint32
 	if read {
 		mutexBit = mutexRLock
 		mutexWait = mutexRWait
 		mutexMask = mutexRMask
 		mutexSema = &mu.rsema
 	} else {
 		mutexBit = mutexWLock
 		mutexWait = mutexWWait
 		mutexMask = mutexWMask
 		mutexSema = &mu.wsema
 	}
 	for {
 		old := atomic.LoadUint64(&mu.state)
 		if old&mutexBit == 0 || old&mutexRefMask == 0 {
 			panic("net: inconsistent fdMutex")
 		}
 		// Drop lock, drop reference and wake read waiter if present.
 		new := (old &^ mutexBit) - mutexRef
 		if old&mutexMask != 0 {
 			new -= mutexWait
 		}
 		if atomic.CompareAndSwapUint64(&mu.state, old, new) {
 			if old&mutexMask != 0 {
 				runtime_Semrelease(mutexSema)
 			}
 			return new&(mutexClosed|mutexRefMask) == mutexClosed
 		}
 	}
 }

 // Implemented in runtime package.
 func runtime_Semacquire(sema *uint32)
 func runtime_Semrelease(sema *uint32)
	// Copyright 2013 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 net

	import "sync/atomic"

	// fdMutex is a specialized synchronization primitive
	// that manages lifetime of an fd and serializes access
	// to Read and Write methods on netFD.
	type fdMutex struct {
	state uint64
	rsema uint32
	wsema uint32
	}

	// fdMutex.state is organized as follows:
	// 1 bit - whether netFD is closed, if set all subsequent lock operations will fail.
	// 1 bit - lock for read operations.
	// 1 bit - lock for write operations.
	// 20 bits - total number of references (read+write+misc).
	// 20 bits - number of outstanding read waiters.
	// 20 bits - number of outstanding write waiters.
	const (
	mutexClosed = 1 << 0
	mutexRLock = 1 << 1
	mutexWLock = 1 << 2
	mutexRef = 1 << 3
	mutexRefMask = (1<<20 - 1) << 3
	mutexRWait = 1 << 23
	mutexRMask = (1<<20 - 1) << 23
	mutexWWait = 1 << 43
	mutexWMask = (1<<20 - 1) << 43
	)

	// Read operations must do RWLock(true)/RWUnlock(true).
	// Write operations must do RWLock(false)/RWUnlock(false).
	// Misc operations must do Incref/Decref. Misc operations include functions like
	// setsockopt and setDeadline. They need to use Incref/Decref to ensure that
	// they operate on the correct fd in presence of a concurrent Close call
	// (otherwise fd can be closed under their feet).
	// Close operation must do IncrefAndClose/Decref.

	// RWLock/Incref return whether fd is open.
	// RWUnlock/Decref return whether fd is closed and there are no remaining references.

	func (mu *fdMutex) Incref() bool {
	for {
	old := atomic.LoadUint64(&mu.state)
	if old&mutexClosed != 0 {
	return false
	}
	new := old + mutexRef
	if new&mutexRefMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	if atomic.CompareAndSwapUint64(&mu.state, old, new) {
	return true
	}
	}
	}

	func (mu *fdMutex) IncrefAndClose() bool {
	for {
	old := atomic.LoadUint64(&mu.state)
	if old&mutexClosed != 0 {
	return false
	}
	// Mark as closed and acquire a reference.
	new := (old \| mutexClosed) + mutexRef
	if new&mutexRefMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	// Remove all read and write waiters.
	new &^= mutexRMask \| mutexWMask
	if atomic.CompareAndSwapUint64(&mu.state, old, new) {
	// Wake all read and write waiters,
	// they will observe closed flag after wakeup.
	for old&mutexRMask != 0 {
	old -= mutexRWait
	runtime_Semrelease(&mu.rsema)
	}
	for old&mutexWMask != 0 {
	old -= mutexWWait
	runtime_Semrelease(&mu.wsema)
	}
	return true
	}
	}
	}

	func (mu *fdMutex) Decref() bool {
	for {
	old := atomic.LoadUint64(&mu.state)
	if old&mutexRefMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	new := old - mutexRef
	if atomic.CompareAndSwapUint64(&mu.state, old, new) {
	return new&(mutexClosed\|mutexRefMask) == mutexClosed
	}
	}
	}

	func (mu *fdMutex) RWLock(read bool) bool {
	var mutexBit, mutexWait, mutexMask uint64
	var mutexSema *uint32
	if read {
	mutexBit = mutexRLock
	mutexWait = mutexRWait
	mutexMask = mutexRMask
	mutexSema = &mu.rsema
	} else {
	mutexBit = mutexWLock
	mutexWait = mutexWWait
	mutexMask = mutexWMask
	mutexSema = &mu.wsema
	}
	for {
	old := atomic.LoadUint64(&mu.state)
	if old&mutexClosed != 0 {
	return false
	}
	var new uint64
	if old&mutexBit == 0 {
	// Lock is free, acquire it.
	new = (old \| mutexBit) + mutexRef
	if new&mutexRefMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	} else {
	// Wait for lock.
	new = old + mutexWait
	if new&mutexMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	}
	if atomic.CompareAndSwapUint64(&mu.state, old, new) {
	if old&mutexBit == 0 {
	return true
	}
	runtime_Semacquire(mutexSema)
	// The signaller has subtracted mutexWait.
	}
	}
	}

	func (mu *fdMutex) RWUnlock(read bool) bool {
	var mutexBit, mutexWait, mutexMask uint64
	var mutexSema *uint32
	if read {
	mutexBit = mutexRLock
	mutexWait = mutexRWait
	mutexMask = mutexRMask
	mutexSema = &mu.rsema
	} else {
	mutexBit = mutexWLock
	mutexWait = mutexWWait
	mutexMask = mutexWMask
	mutexSema = &mu.wsema
	}
	for {
	old := atomic.LoadUint64(&mu.state)
	if old&mutexBit == 0 \|\| old&mutexRefMask == 0 {
	panic("net: inconsistent fdMutex")
	}
	// Drop lock, drop reference and wake read waiter if present.
	new := (old &^ mutexBit) - mutexRef
	if old&mutexMask != 0 {
	new -= mutexWait
	}
	if atomic.CompareAndSwapUint64(&mu.state, old, new) {
	if old&mutexMask != 0 {
	runtime_Semrelease(mutexSema)
	}
	return new&(mutexClosed\|mutexRefMask) == mutexClosed
	}
	}
	}

	// Implemented in runtime package.
	func runtime_Semacquire(sema *uint32)
	func runtime_Semrelease(sema *uint32)