src/runtime/netpoll_aix.go - go - Git at Google

 // Copyright 2018 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 runtime

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

 // This is based on the former libgo/runtime/netpoll_select.c implementation
 // except that it uses poll instead of select and is written in Go.
 // It's also based on Solaris implementation for the arming mechanisms

 //go:cgo_import_dynamic libc_poll poll "libc.a/shr_64.o"
 //go:linkname libc_poll libc_poll

 var libc_poll libFunc

 //go:nosplit
 func poll(pfds *pollfd, npfds uintptr, timeout uintptr) (int32, int32) {
 	r, err := syscall3(&libc_poll, uintptr(unsafe.Pointer(pfds)), npfds, timeout)
 	return int32(r), int32(err)
 }

 // pollfd represents the poll structure for AIX operating system.
 type pollfd struct {
 	fd      int32
 	events  int16
 	revents int16
 }

 const _POLLIN = 0x0001
 const _POLLOUT = 0x0002
 const _POLLHUP = 0x2000
 const _POLLERR = 0x4000

 var (
 	pfds           []pollfd
 	pds            []*pollDesc
 	mtxpoll        mutex
 	mtxset         mutex
 	rdwake         int32
 	wrwake         int32
 	pendingUpdates int32

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

 func netpollinit() {
 	// Create the pipe we use to wakeup poll.
 	r, w, errno := nonblockingPipe()
 	if errno != 0 {
 		throw("netpollinit: failed to create pipe")
 	}
 	rdwake = r
 	wrwake = w

 	// Pre-allocate array of pollfd structures for poll.
 	pfds = make([]pollfd, 1, 128)

 	// Poll the read side of the pipe.
 	pfds[0].fd = rdwake
 	pfds[0].events = _POLLIN

 	pds = make([]*pollDesc, 1, 128)
 	pds[0] = nil
 }

 func netpollIsPollDescriptor(fd uintptr) bool {
 	return fd == uintptr(rdwake) || fd == uintptr(wrwake)
 }

 // netpollwakeup writes on wrwake to wakeup poll before any changes.
 func netpollwakeup() {
 	if pendingUpdates == 0 {
 		pendingUpdates = 1
 		b := [1]byte{0}
 		write(uintptr(wrwake), unsafe.Pointer(&b[0]), 1)
 	}
 }

 func netpollopen(fd uintptr, pd *pollDesc) int32 {
 	lock(&mtxpoll)
 	netpollwakeup()

 	lock(&mtxset)
 	unlock(&mtxpoll)

 	pd.user = uint32(len(pfds))
 	pfds = append(pfds, pollfd{fd: int32(fd)})
 	pds = append(pds, pd)
 	unlock(&mtxset)
 	return 0
 }

 func netpollclose(fd uintptr) int32 {
 	lock(&mtxpoll)
 	netpollwakeup()

 	lock(&mtxset)
 	unlock(&mtxpoll)

 	for i := 0; i < len(pfds); i++ {
 		if pfds[i].fd == int32(fd) {
 			pfds[i] = pfds[len(pfds)-1]
 			pfds = pfds[:len(pfds)-1]

 			pds[i] = pds[len(pds)-1]
 			pds[i].user = uint32(i)
 			pds = pds[:len(pds)-1]
 			break
 		}
 	}
 	unlock(&mtxset)
 	return 0
 }

 func netpollarm(pd *pollDesc, mode int) {
 	lock(&mtxpoll)
 	netpollwakeup()

 	lock(&mtxset)
 	unlock(&mtxpoll)

 	switch mode {
 	case 'r':
 		pfds[pd.user].events |= _POLLIN
 	case 'w':
 		pfds[pd.user].events |= _POLLOUT
 	}
 	unlock(&mtxset)
 }

 // netpollBreak interrupts a poll.
 func netpollBreak() {
 	if atomic.Cas(&netpollWakeSig, 0, 1) {
 		b := [1]byte{0}
 		write(uintptr(wrwake), unsafe.Pointer(&b[0]), 1)
 	}
 }

 // 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
 //go:nowritebarrierrec
 func netpoll(delay int64) gList {
 	var timeout uintptr
 	if delay < 0 {
 		timeout = ^uintptr(0)
 	} else if delay == 0 {
 		// TODO: call poll with timeout == 0
 		return gList{}
 	} else if delay < 1e6 {
 		timeout = 1
 	} else if delay < 1e15 {
 		timeout = uintptr(delay / 1e6)
 	} else {
 		// An arbitrary cap on how long to wait for a timer.
 		// 1e9 ms == ~11.5 days.
 		timeout = 1e9
 	}
 retry:
 	lock(&mtxpoll)
 	lock(&mtxset)
 	pendingUpdates = 0
 	unlock(&mtxpoll)

 	n, e := poll(&pfds[0], uintptr(len(pfds)), timeout)
 	if n < 0 {
 		if e != _EINTR {
 			println("errno=", e, " len(pfds)=", len(pfds))
 			throw("poll failed")
 		}
 		unlock(&mtxset)
 		// If a timed sleep was interrupted, just return to
 		// recalculate how long we should sleep now.
 		if timeout > 0 {
 			return gList{}
 		}
 		goto retry
 	}
 	// Check if some descriptors need to be changed
 	if n != 0 && pfds[0].revents&(_POLLIN|_POLLHUP|_POLLERR) != 0 {
 		if delay != 0 {
 			// A netpollwakeup could be picked up by a
 			// non-blocking poll. Only clear the wakeup
 			// if blocking.
 			var b [1]byte
 			for read(rdwake, unsafe.Pointer(&b[0]), 1) == 1 {
 			}
 			atomic.Store(&netpollWakeSig, 0)
 		}
 		// Still look at the other fds even if the mode may have
 		// changed, as netpollBreak might have been called.
 		n--
 	}
 	var toRun gList
 	for i := 1; i < len(pfds) && n > 0; i++ {
 		pfd := &pfds[i]

 		var mode int32
 		if pfd.revents&(_POLLIN|_POLLHUP|_POLLERR) != 0 {
 			mode += 'r'
 			pfd.events &= ^_POLLIN
 		}
 		if pfd.revents&(_POLLOUT|_POLLHUP|_POLLERR) != 0 {
 			mode += 'w'
 			pfd.events &= ^_POLLOUT
 		}
 		if mode != 0 {
 			pds[i].everr = false
 			if pfd.revents == _POLLERR {
 				pds[i].everr = true
 			}
 			netpollready(&toRun, pds[i], mode)
 			n--
 		}
 	}
 	unlock(&mtxset)
 	return toRun
 }
	// Copyright 2018 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 runtime

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

	// This is based on the former libgo/runtime/netpoll_select.c implementation
	// except that it uses poll instead of select and is written in Go.
	// It's also based on Solaris implementation for the arming mechanisms

	//go:cgo_import_dynamic libc_poll poll "libc.a/shr_64.o"
	//go:linkname libc_poll libc_poll

	var libc_poll libFunc

	//go:nosplit
	func poll(pfds *pollfd, npfds uintptr, timeout uintptr) (int32, int32) {
	r, err := syscall3(&libc_poll, uintptr(unsafe.Pointer(pfds)), npfds, timeout)
	return int32(r), int32(err)
	}

	// pollfd represents the poll structure for AIX operating system.
	type pollfd struct {
	fd int32
	events int16
	revents int16
	}

	const _POLLIN = 0x0001
	const _POLLOUT = 0x0002
	const _POLLHUP = 0x2000
	const _POLLERR = 0x4000

	var (
	pfds []pollfd
	pds []*pollDesc
	mtxpoll mutex
	mtxset mutex
	rdwake int32
	wrwake int32
	pendingUpdates int32

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

	func netpollinit() {
	// Create the pipe we use to wakeup poll.
	r, w, errno := nonblockingPipe()
	if errno != 0 {
	throw("netpollinit: failed to create pipe")
	}
	rdwake = r
	wrwake = w

	// Pre-allocate array of pollfd structures for poll.
	pfds = make([]pollfd, 1, 128)

	// Poll the read side of the pipe.
	pfds[0].fd = rdwake
	pfds[0].events = _POLLIN

	pds = make([]*pollDesc, 1, 128)
	pds[0] = nil
	}

	func netpollIsPollDescriptor(fd uintptr) bool {
	return fd == uintptr(rdwake) \|\| fd == uintptr(wrwake)
	}

	// netpollwakeup writes on wrwake to wakeup poll before any changes.
	func netpollwakeup() {
	if pendingUpdates == 0 {
	pendingUpdates = 1
	b := [1]byte{0}
	write(uintptr(wrwake), unsafe.Pointer(&b[0]), 1)
	}
	}

	func netpollopen(fd uintptr, pd *pollDesc) int32 {
	lock(&mtxpoll)
	netpollwakeup()

	lock(&mtxset)
	unlock(&mtxpoll)

	pd.user = uint32(len(pfds))
	pfds = append(pfds, pollfd{fd: int32(fd)})
	pds = append(pds, pd)
	unlock(&mtxset)
	return 0
	}

	func netpollclose(fd uintptr) int32 {
	lock(&mtxpoll)
	netpollwakeup()

	lock(&mtxset)
	unlock(&mtxpoll)

	for i := 0; i < len(pfds); i++ {
	if pfds[i].fd == int32(fd) {
	pfds[i] = pfds[len(pfds)-1]
	pfds = pfds[:len(pfds)-1]

	pds[i] = pds[len(pds)-1]
	pds[i].user = uint32(i)
	pds = pds[:len(pds)-1]
	break
	}
	}
	unlock(&mtxset)
	return 0
	}

	func netpollarm(pd *pollDesc, mode int) {
	lock(&mtxpoll)
	netpollwakeup()

	lock(&mtxset)
	unlock(&mtxpoll)

	switch mode {
	case 'r':
	pfds[pd.user].events \|= _POLLIN
	case 'w':
	pfds[pd.user].events \|= _POLLOUT
	}
	unlock(&mtxset)
	}

	// netpollBreak interrupts a poll.
	func netpollBreak() {
	if atomic.Cas(&netpollWakeSig, 0, 1) {
	b := [1]byte{0}
	write(uintptr(wrwake), unsafe.Pointer(&b[0]), 1)
	}
	}

	// 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
	//go:nowritebarrierrec
	func netpoll(delay int64) gList {
	var timeout uintptr
	if delay < 0 {
	timeout = ^uintptr(0)
	} else if delay == 0 {
	// TODO: call poll with timeout == 0
	return gList{}
	} else if delay < 1e6 {
	timeout = 1
	} else if delay < 1e15 {
	timeout = uintptr(delay / 1e6)
	} else {
	// An arbitrary cap on how long to wait for a timer.
	// 1e9 ms == ~11.5 days.
	timeout = 1e9
	}
	retry:
	lock(&mtxpoll)
	lock(&mtxset)
	pendingUpdates = 0
	unlock(&mtxpoll)

	n, e := poll(&pfds[0], uintptr(len(pfds)), timeout)
	if n < 0 {
	if e != _EINTR {
	println("errno=", e, " len(pfds)=", len(pfds))
	throw("poll failed")
	}
	unlock(&mtxset)
	// If a timed sleep was interrupted, just return to
	// recalculate how long we should sleep now.
	if timeout > 0 {
	return gList{}
	}
	goto retry
	}
	// Check if some descriptors need to be changed
	if n != 0 && pfds[0].revents&(_POLLIN\|_POLLHUP\|_POLLERR) != 0 {
	if delay != 0 {
	// A netpollwakeup could be picked up by a
	// non-blocking poll. Only clear the wakeup
	// if blocking.
	var b [1]byte
	for read(rdwake, unsafe.Pointer(&b[0]), 1) == 1 {
	}
	atomic.Store(&netpollWakeSig, 0)
	}
	// Still look at the other fds even if the mode may have
	// changed, as netpollBreak might have been called.
	n--
	}
	var toRun gList
	for i := 1; i < len(pfds) && n > 0; i++ {
	pfd := &pfds[i]

	var mode int32
	if pfd.revents&(_POLLIN\|_POLLHUP\|_POLLERR) != 0 {
	mode += 'r'
	pfd.events &= ^_POLLIN
	}
	if pfd.revents&(_POLLOUT\|_POLLHUP\|_POLLERR) != 0 {
	mode += 'w'
	pfd.events &= ^_POLLOUT
	}
	if mode != 0 {
	pds[i].everr = false
	if pfd.revents == _POLLERR {
	pds[i].everr = true
	}
	netpollready(&toRun, pds[i], mode)
	n--
	}
	}
	unlock(&mtxset)
	return toRun
	}