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|
// Copyright 2010 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 (
"errors"
"io"
"os"
"runtime"
"sync"
"syscall"
"time"
"unsafe"
)
var initErr error
// CancelIo Windows API cancels all outstanding IO for a particular
// socket on current thread. To overcome that limitation, we run
// special goroutine, locked to OS single thread, that both starts
// and cancels IO. It means, there are 2 unavoidable thread switches
// for every IO.
// Some newer versions of Windows has new CancelIoEx API, that does
// not have that limitation and can be used from any thread. This
// package uses CancelIoEx API, if present, otherwise it fallback
// to CancelIo.
var canCancelIO bool // determines if CancelIoEx API is present
func sysInit() {
var d syscall.WSAData
e := syscall.WSAStartup(uint32(0x202), &d)
if e != nil {
initErr = os.NewSyscallError("WSAStartup", e)
}
canCancelIO = syscall.LoadCancelIoEx() == nil
if syscall.LoadGetAddrInfo() == nil {
lookupIP = newLookupIP
}
}
func closesocket(s syscall.Handle) error {
return syscall.Closesocket(s)
}
func canUseConnectEx(net string) bool {
if net == "udp" || net == "udp4" || net == "udp6" {
// ConnectEx windows API does not support connectionless sockets.
return false
}
return syscall.LoadConnectEx() == nil
}
func dialTimeout(net, addr string, timeout time.Duration) (Conn, error) {
if !canUseConnectEx(net) {
// Use the relatively inefficient goroutine-racing
// implementation of DialTimeout.
return dialTimeoutRace(net, addr, timeout)
}
deadline := time.Now().Add(timeout)
_, addri, err := resolveNetAddr("dial", net, addr, deadline)
if err != nil {
return nil, err
}
return dialAddr(net, addr, addri, deadline)
}
// Interface for all IO operations.
type anOpIface interface {
Op() *anOp
Name() string
Submit() error
}
// IO completion result parameters.
type ioResult struct {
qty uint32
err error
}
// anOp implements functionality common to all IO operations.
type anOp struct {
// Used by IOCP interface, it must be first field
// of the struct, as our code rely on it.
o syscall.Overlapped
resultc chan ioResult
errnoc chan error
fd *netFD
}
func (o *anOp) Init(fd *netFD, mode int) {
o.fd = fd
var i int
if mode == 'r' {
i = 0
} else {
i = 1
}
if fd.resultc[i] == nil {
fd.resultc[i] = make(chan ioResult, 1)
}
o.resultc = fd.resultc[i]
if fd.errnoc[i] == nil {
fd.errnoc[i] = make(chan error)
}
o.errnoc = fd.errnoc[i]
}
func (o *anOp) Op() *anOp {
return o
}
// bufOp is used by IO operations that read / write
// data from / to client buffer.
type bufOp struct {
anOp
buf syscall.WSABuf
}
func (o *bufOp) Init(fd *netFD, buf []byte, mode int) {
o.anOp.Init(fd, mode)
o.buf.Len = uint32(len(buf))
if len(buf) == 0 {
o.buf.Buf = nil
} else {
o.buf.Buf = (*byte)(unsafe.Pointer(&buf[0]))
}
}
// resultSrv will retrieve all IO completion results from
// iocp and send them to the correspondent waiting client
// goroutine via channel supplied in the request.
type resultSrv struct {
iocp syscall.Handle
}
func (s *resultSrv) Run() {
var o *syscall.Overlapped
var key uint32
var r ioResult
for {
r.err = syscall.GetQueuedCompletionStatus(s.iocp, &(r.qty), &key, &o, syscall.INFINITE)
switch {
case r.err == nil:
// Dequeued successfully completed IO packet.
case r.err == syscall.Errno(syscall.WAIT_TIMEOUT) && o == nil:
// Wait has timed out (should not happen now, but might be used in the future).
panic("GetQueuedCompletionStatus timed out")
case o == nil:
// Failed to dequeue anything -> report the error.
panic("GetQueuedCompletionStatus failed " + r.err.Error())
default:
// Dequeued failed IO packet.
}
(*anOp)(unsafe.Pointer(o)).resultc <- r
}
}
// ioSrv executes net IO requests.
type ioSrv struct {
submchan chan anOpIface // submit IO requests
canchan chan anOpIface // cancel IO requests
}
// ProcessRemoteIO will execute submit IO requests on behalf
// of other goroutines, all on a single os thread, so it can
// cancel them later. Results of all operations will be sent
// back to their requesters via channel supplied in request.
// It is used only when the CancelIoEx API is unavailable.
func (s *ioSrv) ProcessRemoteIO() {
runtime.LockOSThread()
defer runtime.UnlockOSThread()
for {
select {
case o := <-s.submchan:
o.Op().errnoc <- o.Submit()
case o := <-s.canchan:
o.Op().errnoc <- syscall.CancelIo(syscall.Handle(o.Op().fd.sysfd))
}
}
}
// ExecIO executes a single IO operation oi. It submits and cancels
// IO in the current thread for systems where Windows CancelIoEx API
// is available. Alternatively, it passes the request onto
// a special goroutine and waits for completion or cancels request.
// deadline is unix nanos.
func (s *ioSrv) ExecIO(oi anOpIface, deadline int64) (int, error) {
var err error
o := oi.Op()
// Calculate timeout delta.
var delta int64
if deadline != 0 {
delta = deadline - time.Now().UnixNano()
if delta <= 0 {
return 0, &OpError{oi.Name(), o.fd.net, o.fd.laddr, errTimeout}
}
}
// Start IO.
if canCancelIO {
err = oi.Submit()
} else {
// Send request to a special dedicated thread,
// so it can stop the IO with CancelIO later.
s.submchan <- oi
err = <-o.errnoc
}
switch err {
case nil:
// IO completed immediately, but we need to get our completion message anyway.
case syscall.ERROR_IO_PENDING:
// IO started, and we have to wait for its completion.
err = nil
default:
return 0, &OpError{oi.Name(), o.fd.net, o.fd.laddr, err}
}
// Setup timer, if deadline is given.
var timer <-chan time.Time
if delta > 0 {
t := time.NewTimer(time.Duration(delta) * time.Nanosecond)
defer t.Stop()
timer = t.C
}
// Wait for our request to complete.
var r ioResult
var cancelled, timeout bool
select {
case r = <-o.resultc:
case <-timer:
cancelled = true
timeout = true
case <-o.fd.closec:
cancelled = true
}
if cancelled {
// Cancel it.
if canCancelIO {
err := syscall.CancelIoEx(syscall.Handle(o.Op().fd.sysfd), &o.o)
// Assuming ERROR_NOT_FOUND is returned, if IO is completed.
if err != nil && err != syscall.ERROR_NOT_FOUND {
// TODO(brainman): maybe do something else, but panic.
panic(err)
}
} else {
s.canchan <- oi
<-o.errnoc
}
// Wait for IO to be canceled or complete successfully.
r = <-o.resultc
if r.err == syscall.ERROR_OPERATION_ABORTED { // IO Canceled
if timeout {
r.err = errTimeout
} else {
r.err = errClosing
}
}
}
if r.err != nil {
err = &OpError{oi.Name(), o.fd.net, o.fd.laddr, r.err}
}
return int(r.qty), err
}
// Start helper goroutines.
var resultsrv *resultSrv
var iosrv *ioSrv
var onceStartServer sync.Once
func startServer() {
resultsrv = new(resultSrv)
var err error
resultsrv.iocp, err = syscall.CreateIoCompletionPort(syscall.InvalidHandle, 0, 0, 1)
if err != nil {
panic("CreateIoCompletionPort: " + err.Error())
}
go resultsrv.Run()
iosrv = new(ioSrv)
if !canCancelIO {
// Only CancelIo API is available. Lets start special goroutine
// locked to an OS thread, that both starts and cancels IO.
iosrv.submchan = make(chan anOpIface)
iosrv.canchan = make(chan anOpIface)
go iosrv.ProcessRemoteIO()
}
}
// Network file descriptor.
type netFD struct {
// locking/lifetime of sysfd
sysmu sync.Mutex
sysref int
closing bool
// immutable until Close
sysfd syscall.Handle
family int
sotype int
isConnected bool
net string
laddr Addr
raddr Addr
resultc [2]chan ioResult // read/write completion results
errnoc [2]chan error // read/write submit or cancel operation errors
closec chan bool // used by Close to cancel pending IO
// serialize access to Read and Write methods
rio, wio sync.Mutex
// read and write deadlines
rdeadline, wdeadline deadline
}
func allocFD(fd syscall.Handle, family, sotype int, net string) *netFD {
netfd := &netFD{
sysfd: fd,
family: family,
sotype: sotype,
net: net,
closec: make(chan bool),
}
return netfd
}
func newFD(fd syscall.Handle, family, proto int, net string) (*netFD, error) {
if initErr != nil {
return nil, initErr
}
onceStartServer.Do(startServer)
// Associate our socket with resultsrv.iocp.
if _, err := syscall.CreateIoCompletionPort(syscall.Handle(fd), resultsrv.iocp, 0, 0); err != nil {
return nil, err
}
return allocFD(fd, family, proto, net), nil
}
func (fd *netFD) setAddr(laddr, raddr Addr) {
fd.laddr = laddr
fd.raddr = raddr
runtime.SetFinalizer(fd, (*netFD).closesocket)
}
// Make new connection.
type connectOp struct {
anOp
ra syscall.Sockaddr
}
func (o *connectOp) Submit() error {
return syscall.ConnectEx(o.fd.sysfd, o.ra, nil, 0, nil, &o.o)
}
func (o *connectOp) Name() string {
return "ConnectEx"
}
func (fd *netFD) connect(ra syscall.Sockaddr) error {
if !canUseConnectEx(fd.net) {
return syscall.Connect(fd.sysfd, ra)
}
// ConnectEx windows API requires an unconnected, previously bound socket.
var la syscall.Sockaddr
switch ra.(type) {
case *syscall.SockaddrInet4:
la = &syscall.SockaddrInet4{}
case *syscall.SockaddrInet6:
la = &syscall.SockaddrInet6{}
default:
panic("unexpected type in connect")
}
if err := syscall.Bind(fd.sysfd, la); err != nil {
return err
}
// Call ConnectEx API.
var o connectOp
o.Init(fd, 'w')
o.ra = ra
_, err := iosrv.ExecIO(&o, fd.wdeadline.value())
if err != nil {
return err
}
// Refresh socket properties.
return syscall.Setsockopt(fd.sysfd, syscall.SOL_SOCKET, syscall.SO_UPDATE_CONNECT_CONTEXT, (*byte)(unsafe.Pointer(&fd.sysfd)), int32(unsafe.Sizeof(fd.sysfd)))
}
// Add a reference to this fd.
// If closing==true, mark the fd as closing.
// Returns an error if the fd cannot be used.
func (fd *netFD) incref(closing bool) error {
if fd == nil {
return errClosing
}
fd.sysmu.Lock()
if fd.closing {
fd.sysmu.Unlock()
return errClosing
}
fd.sysref++
if closing {
fd.closing = true
}
closing = fd.closing
fd.sysmu.Unlock()
return nil
}
// Remove a reference to this FD and close if we've been asked to do so (and
// there are no references left.
func (fd *netFD) decref() {
if fd == nil {
return
}
fd.sysmu.Lock()
fd.sysref--
if fd.closing && fd.sysref == 0 && fd.sysfd != syscall.InvalidHandle {
closesocket(fd.sysfd)
fd.sysfd = syscall.InvalidHandle
// no need for a finalizer anymore
runtime.SetFinalizer(fd, nil)
}
fd.sysmu.Unlock()
}
func (fd *netFD) Close() error {
if err := fd.incref(true); err != nil {
return err
}
defer fd.decref()
// unblock pending reader and writer
close(fd.closec)
// wait for both reader and writer to exit
fd.rio.Lock()
defer fd.rio.Unlock()
fd.wio.Lock()
defer fd.wio.Unlock()
return nil
}
func (fd *netFD) shutdown(how int) error {
if err := fd.incref(false); err != nil {
return err
}
defer fd.decref()
err := syscall.Shutdown(fd.sysfd, how)
if err != nil {
return &OpError{"shutdown", fd.net, fd.laddr, err}
}
return nil
}
func (fd *netFD) CloseRead() error {
return fd.shutdown(syscall.SHUT_RD)
}
func (fd *netFD) CloseWrite() error {
return fd.shutdown(syscall.SHUT_WR)
}
func (fd *netFD) closesocket() error {
return closesocket(fd.sysfd)
}
// Read from network.
type readOp struct {
bufOp
}
func (o *readOp) Submit() error {
var d, f uint32
return syscall.WSARecv(syscall.Handle(o.fd.sysfd), &o.buf, 1, &d, &f, &o.o, nil)
}
func (o *readOp) Name() string {
return "WSARecv"
}
func (fd *netFD) Read(buf []byte) (int, error) {
if err := fd.incref(false); err != nil {
return 0, err
}
defer fd.decref()
fd.rio.Lock()
defer fd.rio.Unlock()
var o readOp
o.Init(fd, buf, 'r')
n, err := iosrv.ExecIO(&o, fd.rdeadline.value())
if err == nil && n == 0 {
err = io.EOF
}
return n, err
}
// ReadFrom from network.
type readFromOp struct {
bufOp
rsa syscall.RawSockaddrAny
rsan int32
}
func (o *readFromOp) Submit() error {
var d, f uint32
return syscall.WSARecvFrom(o.fd.sysfd, &o.buf, 1, &d, &f, &o.rsa, &o.rsan, &o.o, nil)
}
func (o *readFromOp) Name() string {
return "WSARecvFrom"
}
func (fd *netFD) ReadFrom(buf []byte) (n int, sa syscall.Sockaddr, err error) {
if len(buf) == 0 {
return 0, nil, nil
}
if err := fd.incref(false); err != nil {
return 0, nil, err
}
defer fd.decref()
fd.rio.Lock()
defer fd.rio.Unlock()
var o readFromOp
o.Init(fd, buf, 'r')
o.rsan = int32(unsafe.Sizeof(o.rsa))
n, err = iosrv.ExecIO(&o, fd.rdeadline.value())
if err != nil {
return 0, nil, err
}
sa, _ = o.rsa.Sockaddr()
return
}
// Write to network.
type writeOp struct {
bufOp
}
func (o *writeOp) Submit() error {
var d uint32
return syscall.WSASend(o.fd.sysfd, &o.buf, 1, &d, 0, &o.o, nil)
}
func (o *writeOp) Name() string {
return "WSASend"
}
func (fd *netFD) Write(buf []byte) (int, error) {
if err := fd.incref(false); err != nil {
return 0, err
}
defer fd.decref()
fd.wio.Lock()
defer fd.wio.Unlock()
var o writeOp
o.Init(fd, buf, 'w')
return iosrv.ExecIO(&o, fd.wdeadline.value())
}
// WriteTo to network.
type writeToOp struct {
bufOp
sa syscall.Sockaddr
}
func (o *writeToOp) Submit() error {
var d uint32
return syscall.WSASendto(o.fd.sysfd, &o.buf, 1, &d, 0, o.sa, &o.o, nil)
}
func (o *writeToOp) Name() string {
return "WSASendto"
}
func (fd *netFD) WriteTo(buf []byte, sa syscall.Sockaddr) (int, error) {
if len(buf) == 0 {
return 0, nil
}
if err := fd.incref(false); err != nil {
return 0, err
}
defer fd.decref()
fd.wio.Lock()
defer fd.wio.Unlock()
var o writeToOp
o.Init(fd, buf, 'w')
o.sa = sa
return iosrv.ExecIO(&o, fd.wdeadline.value())
}
// Accept new network connections.
type acceptOp struct {
anOp
newsock syscall.Handle
attrs [2]syscall.RawSockaddrAny // space for local and remote address only
}
func (o *acceptOp) Submit() error {
var d uint32
l := uint32(unsafe.Sizeof(o.attrs[0]))
return syscall.AcceptEx(o.fd.sysfd, o.newsock,
(*byte)(unsafe.Pointer(&o.attrs[0])), 0, l, l, &d, &o.o)
}
func (o *acceptOp) Name() string {
return "AcceptEx"
}
func (fd *netFD) accept(toAddr func(syscall.Sockaddr) Addr) (*netFD, error) {
if err := fd.incref(false); err != nil {
return nil, err
}
defer fd.decref()
// Get new socket.
// See ../syscall/exec_unix.go for description of ForkLock.
syscall.ForkLock.RLock()
s, err := syscall.Socket(fd.family, fd.sotype, 0)
if err != nil {
syscall.ForkLock.RUnlock()
return nil, &OpError{"socket", fd.net, fd.laddr, err}
}
syscall.CloseOnExec(s)
syscall.ForkLock.RUnlock()
// Associate our new socket with IOCP.
onceStartServer.Do(startServer)
if _, err := syscall.CreateIoCompletionPort(s, resultsrv.iocp, 0, 0); err != nil {
closesocket(s)
return nil, &OpError{"CreateIoCompletionPort", fd.net, fd.laddr, err}
}
// Submit accept request.
var o acceptOp
o.Init(fd, 'r')
o.newsock = s
_, err = iosrv.ExecIO(&o, fd.rdeadline.value())
if err != nil {
closesocket(s)
return nil, err
}
// Inherit properties of the listening socket.
err = syscall.Setsockopt(s, syscall.SOL_SOCKET, syscall.SO_UPDATE_ACCEPT_CONTEXT, (*byte)(unsafe.Pointer(&fd.sysfd)), int32(unsafe.Sizeof(fd.sysfd)))
if err != nil {
closesocket(s)
return nil, &OpError{"Setsockopt", fd.net, fd.laddr, err}
}
// Get local and peer addr out of AcceptEx buffer.
var lrsa, rrsa *syscall.RawSockaddrAny
var llen, rlen int32
l := uint32(unsafe.Sizeof(*lrsa))
syscall.GetAcceptExSockaddrs((*byte)(unsafe.Pointer(&o.attrs[0])),
0, l, l, &lrsa, &llen, &rrsa, &rlen)
lsa, _ := lrsa.Sockaddr()
rsa, _ := rrsa.Sockaddr()
netfd := allocFD(s, fd.family, fd.sotype, fd.net)
netfd.setAddr(toAddr(lsa), toAddr(rsa))
return netfd, nil
}
// Unimplemented functions.
func (fd *netFD) dup() (*os.File, error) {
// TODO: Implement this
return nil, os.NewSyscallError("dup", syscall.EWINDOWS)
}
var errNoSupport = errors.New("address family not supported")
func (fd *netFD) ReadMsg(p []byte, oob []byte) (n, oobn, flags int, sa syscall.Sockaddr, err error) {
return 0, 0, 0, nil, errNoSupport
}
func (fd *netFD) WriteMsg(p []byte, oob []byte, sa syscall.Sockaddr) (n int, oobn int, err error) {
return 0, 0, errNoSupport
}
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