src/syscall/forkpipe2.go - go - Git at Google

 // Copyright 2017 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.

 //go:build dragonfly || freebsd || linux || netbsd || openbsd || solaris

 package syscall

 import "sync"

 // forkExecPipe atomically opens a pipe with O_CLOEXEC set on both file
 // descriptors.
 func forkExecPipe(p []int) error {
 	return Pipe2(p, O_CLOEXEC)
 }

 var (
 	// Guard the forking variable.
 	forkingLock sync.Mutex
 	// Number of goroutines currently forking, and thus the
 	// number of goroutines holding a conceptual write lock
 	// on ForkLock.
 	forking int
 )

 // hasWaitingReaders reports whether any goroutine is waiting
 // to acquire a read lock on rw. It is defined in the sync package.
 func hasWaitingReaders(rw *sync.RWMutex) bool

 // acquireForkLock acquires a write lock on ForkLock.
 // ForkLock is exported and we've promised that during a fork
 // we will call ForkLock.Lock, so that no other threads create
 // new fds that are not yet close-on-exec before we fork.
 // But that forces all fork calls to be serialized, which is bad.
 // But we haven't promised that serialization, and it is essentially
 // undetectable by other users of ForkLock, which is good.
 // Avoid the serialization by ensuring that ForkLock is locked
 // at the first fork and unlocked when there are no more forks.
 func acquireForkLock() {
 	forkingLock.Lock()
 	defer forkingLock.Unlock()

 	if forking == 0 {
 		// There is no current write lock on ForkLock.
 		ForkLock.Lock()
 		forking++
 		return
 	}

 	// ForkLock is currently locked for writing.

 	if hasWaitingReaders(&ForkLock) {
 		// ForkLock is locked for writing, and at least one
 		// goroutine is waiting to read from it.
 		// To avoid lock starvation, allow readers to proceed.
 		// The simple way to do this is for us to acquire a
 		// read lock. That will block us until all current
 		// conceptual write locks are released.
 		//
 		// Note that this case is unusual on modern systems
 		// with O_CLOEXEC and SOCK_CLOEXEC. On those systems
 		// the standard library should never take a read
 		// lock on ForkLock.

 		forkingLock.Unlock()

 		ForkLock.RLock()
 		ForkLock.RUnlock()

 		forkingLock.Lock()

 		// Readers got a chance, so now take the write lock.

 		if forking == 0 {
 			ForkLock.Lock()
 		}
 	}

 	forking++
 }

 // releaseForkLock releases the conceptual write lock on ForkLock
 // acquired by acquireForkLock.
 func releaseForkLock() {
 	forkingLock.Lock()
 	defer forkingLock.Unlock()

 	if forking <= 0 {
 		panic("syscall.releaseForkLock: negative count")
 	}

 	forking--

 	if forking == 0 {
 		// No more conceptual write locks.
 		ForkLock.Unlock()
 	}
 }
	// Copyright 2017 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.

	//go:build dragonfly \|\| freebsd \|\| linux \|\| netbsd \|\| openbsd \|\| solaris

	package syscall

	import "sync"

	// forkExecPipe atomically opens a pipe with O_CLOEXEC set on both file
	// descriptors.
	func forkExecPipe(p []int) error {
	return Pipe2(p, O_CLOEXEC)
	}

	var (
	// Guard the forking variable.
	forkingLock sync.Mutex
	// Number of goroutines currently forking, and thus the
	// number of goroutines holding a conceptual write lock
	// on ForkLock.
	forking int
	)

	// hasWaitingReaders reports whether any goroutine is waiting
	// to acquire a read lock on rw. It is defined in the sync package.
	func hasWaitingReaders(rw *sync.RWMutex) bool

	// acquireForkLock acquires a write lock on ForkLock.
	// ForkLock is exported and we've promised that during a fork
	// we will call ForkLock.Lock, so that no other threads create
	// new fds that are not yet close-on-exec before we fork.
	// But that forces all fork calls to be serialized, which is bad.
	// But we haven't promised that serialization, and it is essentially
	// undetectable by other users of ForkLock, which is good.
	// Avoid the serialization by ensuring that ForkLock is locked
	// at the first fork and unlocked when there are no more forks.
	func acquireForkLock() {
	forkingLock.Lock()
	defer forkingLock.Unlock()

	if forking == 0 {
	// There is no current write lock on ForkLock.
	ForkLock.Lock()
	forking++
	return
	}

	// ForkLock is currently locked for writing.

	if hasWaitingReaders(&ForkLock) {
	// ForkLock is locked for writing, and at least one
	// goroutine is waiting to read from it.
	// To avoid lock starvation, allow readers to proceed.
	// The simple way to do this is for us to acquire a
	// read lock. That will block us until all current
	// conceptual write locks are released.
	//
	// Note that this case is unusual on modern systems
	// with O_CLOEXEC and SOCK_CLOEXEC. On those systems
	// the standard library should never take a read
	// lock on ForkLock.

	forkingLock.Unlock()

	ForkLock.RLock()
	ForkLock.RUnlock()

	forkingLock.Lock()

	// Readers got a chance, so now take the write lock.

	if forking == 0 {
	ForkLock.Lock()
	}
	}

	forking++
	}

	// releaseForkLock releases the conceptual write lock on ForkLock
	// acquired by acquireForkLock.
	func releaseForkLock() {
	forkingLock.Lock()
	defer forkingLock.Unlock()

	if forking <= 0 {
	panic("syscall.releaseForkLock: negative count")
	}

	forking--

	if forking == 0 {
	// No more conceptual write locks.
	ForkLock.Unlock()
	}
	}