src/runtime/netpoll_kqueue.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.

 //go:build darwin || dragonfly || freebsd || netbsd || openbsd
 // +build darwin dragonfly freebsd netbsd openbsd

 package runtime

 // Integrated network poller (kqueue-based implementation).

 import (
 	"runtime/internal/atomic"
 	"unsafe"
 )

 var (
 	kq int32 = -1

 	netpollBreakRd, netpollBreakWr uintptr // for netpollBreak

 	netpollWakeSig uint32 // used to avoid duplicate calls of netpollBreak
 )

 func netpollinit() {
 	kq = kqueue()
 	if kq < 0 {
 		println("runtime: kqueue failed with", -kq)
 		throw("runtime: netpollinit failed")
 	}
 	closeonexec(kq)
 	r, w, errno := nonblockingPipe()
 	if errno != 0 {
 		println("runtime: pipe failed with", -errno)
 		throw("runtime: pipe failed")
 	}
 	ev := keventt{
 		filter: _EVFILT_READ,
 		flags:  _EV_ADD,
 	}
 	*(*uintptr)(unsafe.Pointer(&ev.ident)) = uintptr(r)
 	n := kevent(kq, &ev, 1, nil, 0, nil)
 	if n < 0 {
 		println("runtime: kevent failed with", -n)
 		throw("runtime: kevent failed")
 	}
 	netpollBreakRd = uintptr(r)
 	netpollBreakWr = uintptr(w)
 }

 func netpollIsPollDescriptor(fd uintptr) bool {
 	return fd == uintptr(kq) || fd == netpollBreakRd || fd == netpollBreakWr
 }

 func netpollopen(fd uintptr, pd *pollDesc) int32 {
 	// Arm both EVFILT_READ and EVFILT_WRITE in edge-triggered mode (EV_CLEAR)
 	// for the whole fd lifetime. The notifications are automatically unregistered
 	// when fd is closed.
 	var ev [2]keventt
 	*(*uintptr)(unsafe.Pointer(&ev[0].ident)) = fd
 	ev[0].filter = _EVFILT_READ
 	ev[0].flags = _EV_ADD | _EV_CLEAR
 	ev[0].fflags = 0
 	ev[0].data = 0
 	ev[0].udata = (*byte)(unsafe.Pointer(pd))
 	ev[1] = ev[0]
 	ev[1].filter = _EVFILT_WRITE
 	n := kevent(kq, &ev[0], 2, nil, 0, nil)
 	if n < 0 {
 		return -n
 	}
 	return 0
 }

 func netpollclose(fd uintptr) int32 {
 	// Don't need to unregister because calling close()
 	// on fd will remove any kevents that reference the descriptor.
 	return 0
 }

 func netpollarm(pd *pollDesc, mode int) {
 	throw("runtime: unused")
 }

 // netpollBreak interrupts a kevent.
 func netpollBreak() {
 	if atomic.Cas(&netpollWakeSig, 0, 1) {
 		for {
 			var b byte
 			n := write(netpollBreakWr, unsafe.Pointer(&b), 1)
 			if n == 1 || n == -_EAGAIN {
 				break
 			}
 			if n == -_EINTR {
 				continue
 			}
 			println("runtime: netpollBreak write failed with", -n)
 			throw("runtime: netpollBreak write failed")
 		}
 	}
 }

 // netpoll checks for ready network connections.
 // Returns list of goroutines that become runnable.
 // delay < 0: blocks indefinitely
 // delay == 0: does not block, just polls
 // delay > 0: block for up to that many nanoseconds
 func netpoll(delay int64) gList {
 	if kq == -1 {
 		return gList{}
 	}
 	var tp *timespec
 	var ts timespec
 	if delay < 0 {
 		tp = nil
 	} else if delay == 0 {
 		tp = &ts
 	} else {
 		ts.setNsec(delay)
 		if ts.tv_sec > 1e6 {
 			// Darwin returns EINVAL if the sleep time is too long.
 			ts.tv_sec = 1e6
 		}
 		tp = &ts
 	}
 	var events [64]keventt
 retry:
 	n := kevent(kq, nil, 0, &events[0], int32(len(events)), tp)
 	if n < 0 {
 		if n != -_EINTR {
 			println("runtime: kevent on fd", kq, "failed with", -n)
 			throw("runtime: netpoll failed")
 		}
 		// If a timed sleep was interrupted, just return to
 		// recalculate how long we should sleep now.
 		if delay > 0 {
 			return gList{}
 		}
 		goto retry
 	}
 	var toRun gList
 	for i := 0; i < int(n); i++ {
 		ev := &events[i]

 		if uintptr(ev.ident) == netpollBreakRd {
 			if ev.filter != _EVFILT_READ {
 				println("runtime: netpoll: break fd ready for", ev.filter)
 				throw("runtime: netpoll: break fd ready for something unexpected")
 			}
 			if delay != 0 {
 				// netpollBreak could be picked up by a
 				// nonblocking poll. Only read the byte
 				// if blocking.
 				var tmp [16]byte
 				read(int32(netpollBreakRd), noescape(unsafe.Pointer(&tmp[0])), int32(len(tmp)))
 				atomic.Store(&netpollWakeSig, 0)
 			}
 			continue
 		}

 		var mode int32
 		switch ev.filter {
 		case _EVFILT_READ:
 			mode += 'r'

 			// On some systems when the read end of a pipe
 			// is closed the write end will not get a
 			// _EVFILT_WRITE event, but will get a
 			// _EVFILT_READ event with EV_EOF set.
 			// Note that setting 'w' here just means that we
 			// will wake up a goroutine waiting to write;
 			// that goroutine will try the write again,
 			// and the appropriate thing will happen based
 			// on what that write returns (success, EPIPE, EAGAIN).
 			if ev.flags&_EV_EOF != 0 {
 				mode += 'w'
 			}
 		case _EVFILT_WRITE:
 			mode += 'w'
 		}
 		if mode != 0 {
 			pd := (*pollDesc)(unsafe.Pointer(ev.udata))
 			pd.everr = false
 			if ev.flags == _EV_ERROR {
 				pd.everr = true
 			}
 			netpollready(&toRun, pd, mode)
 		}
 	}
 	return toRun
 }
	// 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.

	//go:build darwin \|\| dragonfly \|\| freebsd \|\| netbsd \|\| openbsd
	// +build darwin dragonfly freebsd netbsd openbsd

	package runtime

	// Integrated network poller (kqueue-based implementation).

	import (
	"runtime/internal/atomic"
	"unsafe"
	)

	var (
	kq int32 = -1

	netpollBreakRd, netpollBreakWr uintptr // for netpollBreak

	netpollWakeSig uint32 // used to avoid duplicate calls of netpollBreak
	)

	func netpollinit() {
	kq = kqueue()
	if kq < 0 {
	println("runtime: kqueue failed with", -kq)
	throw("runtime: netpollinit failed")
	}
	closeonexec(kq)
	r, w, errno := nonblockingPipe()
	if errno != 0 {
	println("runtime: pipe failed with", -errno)
	throw("runtime: pipe failed")
	}
	ev := keventt{
	filter: _EVFILT_READ,
	flags: _EV_ADD,
	}
	(uintptr)(unsafe.Pointer(&ev.ident)) = uintptr(r)
	n := kevent(kq, &ev, 1, nil, 0, nil)
	if n < 0 {
	println("runtime: kevent failed with", -n)
	throw("runtime: kevent failed")
	}
	netpollBreakRd = uintptr(r)
	netpollBreakWr = uintptr(w)
	}

	func netpollIsPollDescriptor(fd uintptr) bool {
	return fd == uintptr(kq) \|\| fd == netpollBreakRd \|\| fd == netpollBreakWr
	}

	func netpollopen(fd uintptr, pd *pollDesc) int32 {
	// Arm both EVFILT_READ and EVFILT_WRITE in edge-triggered mode (EV_CLEAR)
	// for the whole fd lifetime. The notifications are automatically unregistered
	// when fd is closed.
	var ev [2]keventt
	(uintptr)(unsafe.Pointer(&ev[0].ident)) = fd
	ev[0].filter = _EVFILT_READ
	ev[0].flags = _EV_ADD \| _EV_CLEAR
	ev[0].fflags = 0
	ev[0].data = 0
	ev[0].udata = (*byte)(unsafe.Pointer(pd))
	ev[1] = ev[0]
	ev[1].filter = _EVFILT_WRITE
	n := kevent(kq, &ev[0], 2, nil, 0, nil)
	if n < 0 {
	return -n
	}
	return 0
	}

	func netpollclose(fd uintptr) int32 {
	// Don't need to unregister because calling close()
	// on fd will remove any kevents that reference the descriptor.
	return 0
	}

	func netpollarm(pd *pollDesc, mode int) {
	throw("runtime: unused")
	}

	// netpollBreak interrupts a kevent.
	func netpollBreak() {
	if atomic.Cas(&netpollWakeSig, 0, 1) {
	for {
	var b byte
	n := write(netpollBreakWr, unsafe.Pointer(&b), 1)
	if n == 1 \|\| n == -_EAGAIN {
	break
	}
	if n == -_EINTR {
	continue
	}
	println("runtime: netpollBreak write failed with", -n)
	throw("runtime: netpollBreak write failed")
	}
	}
	}

	// netpoll checks for ready network connections.
	// Returns list of goroutines that become runnable.
	// delay < 0: blocks indefinitely
	// delay == 0: does not block, just polls
	// delay > 0: block for up to that many nanoseconds
	func netpoll(delay int64) gList {
	if kq == -1 {
	return gList{}
	}
	var tp *timespec
	var ts timespec
	if delay < 0 {
	tp = nil
	} else if delay == 0 {
	tp = &ts
	} else {
	ts.setNsec(delay)
	if ts.tv_sec > 1e6 {
	// Darwin returns EINVAL if the sleep time is too long.
	ts.tv_sec = 1e6
	}
	tp = &ts
	}
	var events [64]keventt
	retry:
	n := kevent(kq, nil, 0, &events[0], int32(len(events)), tp)
	if n < 0 {
	if n != -_EINTR {
	println("runtime: kevent on fd", kq, "failed with", -n)
	throw("runtime: netpoll failed")
	}
	// If a timed sleep was interrupted, just return to
	// recalculate how long we should sleep now.
	if delay > 0 {
	return gList{}
	}
	goto retry
	}
	var toRun gList
	for i := 0; i < int(n); i++ {
	ev := &events[i]

	if uintptr(ev.ident) == netpollBreakRd {
	if ev.filter != _EVFILT_READ {
	println("runtime: netpoll: break fd ready for", ev.filter)
	throw("runtime: netpoll: break fd ready for something unexpected")
	}
	if delay != 0 {
	// netpollBreak could be picked up by a
	// nonblocking poll. Only read the byte
	// if blocking.
	var tmp [16]byte
	read(int32(netpollBreakRd), noescape(unsafe.Pointer(&tmp[0])), int32(len(tmp)))
	atomic.Store(&netpollWakeSig, 0)
	}
	continue
	}

	var mode int32
	switch ev.filter {
	case _EVFILT_READ:
	mode += 'r'

	// On some systems when the read end of a pipe
	// is closed the write end will not get a
	// _EVFILT_WRITE event, but will get a
	// _EVFILT_READ event with EV_EOF set.
	// Note that setting 'w' here just means that we
	// will wake up a goroutine waiting to write;
	// that goroutine will try the write again,
	// and the appropriate thing will happen based
	// on what that write returns (success, EPIPE, EAGAIN).
	if ev.flags&_EV_EOF != 0 {
	mode += 'w'
	}
	case _EVFILT_WRITE:
	mode += 'w'
	}
	if mode != 0 {
	pd := (*pollDesc)(unsafe.Pointer(ev.udata))
	pd.everr = false
	if ev.flags == _EV_ERROR {
	pd.everr = true
	}
	netpollready(&toRun, pd, mode)
	}
	}
	return toRun
	}