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wireguard-go/tun/tun_linux.go

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/* SPDX-License-Identifier: MIT
*
* Copyright (C) 2017-2023 WireGuard LLC. All Rights Reserved.
*/
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package tun
/* Implementation of the TUN device interface for linux
*/
import (
"errors"
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"fmt"
"os"
"sync"
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"syscall"
"time"
"unsafe"
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"golang.org/x/sys/unix"
"golang.zx2c4.com/wireguard/conn"
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"golang.zx2c4.com/wireguard/rwcancel"
)
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const (
cloneDevicePath = "/dev/net/tun"
ifReqSize = unix.IFNAMSIZ + 64
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)
type NativeTun struct {
tunFile *os.File
index int32 // if index
errors chan error // async error handling
events chan Event // device related events
netlinkSock int
netlinkCancel *rwcancel.RWCancel
hackListenerClosed sync.Mutex
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statusListenersShutdown chan struct{}
batchSize int
vnetHdr bool
closeOnce sync.Once
nameOnce sync.Once // guards calling initNameCache, which sets following fields
nameCache string // name of interface
nameErr error
readOpMu sync.Mutex // readOpMu guards readBuff
readBuff [virtioNetHdrLen + 65535]byte // if vnetHdr every read() is prefixed by virtioNetHdr
writeOpMu sync.Mutex // writeOpMu guards toWrite, tcp4GROTable, tcp6GROTable
toWrite []int
tcp4GROTable, tcp6GROTable *tcpGROTable
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}
func (tun *NativeTun) File() *os.File {
return tun.tunFile
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}
func (tun *NativeTun) routineHackListener() {
defer tun.hackListenerClosed.Unlock()
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/* This is needed for the detection to work across network namespaces
* If you are reading this and know a better method, please get in touch.
*/
last := 0
const (
up = 1
down = 2
)
for {
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sysconn, err := tun.tunFile.SyscallConn()
if err != nil {
return
}
err2 := sysconn.Control(func(fd uintptr) {
_, err = unix.Write(int(fd), nil)
})
if err2 != nil {
return
}
switch err {
case unix.EINVAL:
if last != up {
// If the tunnel is up, it reports that write() is
// allowed but we provided invalid data.
tun.events <- EventUp
last = up
}
case unix.EIO:
if last != down {
// If the tunnel is down, it reports that no I/O
// is possible, without checking our provided data.
tun.events <- EventDown
last = down
}
default:
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return
}
select {
case <-time.After(time.Second):
// nothing
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case <-tun.statusListenersShutdown:
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return
}
}
}
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func createNetlinkSocket() (int, error) {
sock, err := unix.Socket(unix.AF_NETLINK, unix.SOCK_RAW|unix.SOCK_CLOEXEC, unix.NETLINK_ROUTE)
if err != nil {
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return -1, err
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}
saddr := &unix.SockaddrNetlink{
Family: unix.AF_NETLINK,
Groups: unix.RTMGRP_LINK | unix.RTMGRP_IPV4_IFADDR | unix.RTMGRP_IPV6_IFADDR,
}
err = unix.Bind(sock, saddr)
if err != nil {
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return -1, err
}
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return sock, nil
}
func (tun *NativeTun) routineNetlinkListener() {
defer func() {
unix.Close(tun.netlinkSock)
tun.hackListenerClosed.Lock()
close(tun.events)
tun.netlinkCancel.Close()
}()
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for msg := make([]byte, 1<<16); ; {
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var err error
var msgn int
for {
msgn, _, _, _, err = unix.Recvmsg(tun.netlinkSock, msg[:], nil, 0)
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if err == nil || !rwcancel.RetryAfterError(err) {
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break
}
if !tun.netlinkCancel.ReadyRead() {
tun.errors <- fmt.Errorf("netlink socket closed: %w", err)
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return
}
}
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if err != nil {
tun.errors <- fmt.Errorf("failed to receive netlink message: %w", err)
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return
}
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select {
case <-tun.statusListenersShutdown:
return
default:
}
wasEverUp := false
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for remain := msg[:msgn]; len(remain) >= unix.SizeofNlMsghdr; {
hdr := *(*unix.NlMsghdr)(unsafe.Pointer(&remain[0]))
if int(hdr.Len) > len(remain) {
break
}
switch hdr.Type {
case unix.NLMSG_DONE:
remain = []byte{}
case unix.RTM_NEWLINK:
info := *(*unix.IfInfomsg)(unsafe.Pointer(&remain[unix.SizeofNlMsghdr]))
remain = remain[hdr.Len:]
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if info.Index != tun.index {
// not our interface
continue
}
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if info.Flags&unix.IFF_RUNNING != 0 {
tun.events <- EventUp
wasEverUp = true
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}
if info.Flags&unix.IFF_RUNNING == 0 {
// Don't emit EventDown before we've ever emitted EventUp.
// This avoids a startup race with HackListener, which
// might detect Up before we have finished reporting Down.
if wasEverUp {
tun.events <- EventDown
}
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}
tun.events <- EventMTUUpdate
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default:
remain = remain[hdr.Len:]
}
}
}
}
func getIFIndex(name string) (int32, error) {
fd, err := unix.Socket(
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unix.AF_INET,
unix.SOCK_DGRAM|unix.SOCK_CLOEXEC,
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0,
)
if err != nil {
return 0, err
}
defer unix.Close(fd)
var ifr [ifReqSize]byte
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copy(ifr[:], name)
_, _, errno := unix.Syscall(
unix.SYS_IOCTL,
uintptr(fd),
uintptr(unix.SIOCGIFINDEX),
uintptr(unsafe.Pointer(&ifr[0])),
)
if errno != 0 {
return 0, errno
}
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return *(*int32)(unsafe.Pointer(&ifr[unix.IFNAMSIZ])), nil
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}
func (tun *NativeTun) setMTU(n int) error {
name, err := tun.Name()
if err != nil {
return err
}
// open datagram socket
fd, err := unix.Socket(
unix.AF_INET,
unix.SOCK_DGRAM|unix.SOCK_CLOEXEC,
0,
)
if err != nil {
return err
}
defer unix.Close(fd)
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// do ioctl call
var ifr [ifReqSize]byte
copy(ifr[:], name)
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*(*uint32)(unsafe.Pointer(&ifr[unix.IFNAMSIZ])) = uint32(n)
_, _, errno := unix.Syscall(
unix.SYS_IOCTL,
uintptr(fd),
uintptr(unix.SIOCSIFMTU),
uintptr(unsafe.Pointer(&ifr[0])),
)
if errno != 0 {
return fmt.Errorf("failed to set MTU of TUN device: %w", errno)
}
return nil
}
func (tun *NativeTun) MTU() (int, error) {
name, err := tun.Name()
if err != nil {
return 0, err
}
// open datagram socket
fd, err := unix.Socket(
unix.AF_INET,
unix.SOCK_DGRAM|unix.SOCK_CLOEXEC,
0,
)
if err != nil {
return 0, err
}
defer unix.Close(fd)
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// do ioctl call
var ifr [ifReqSize]byte
copy(ifr[:], name)
_, _, errno := unix.Syscall(
unix.SYS_IOCTL,
uintptr(fd),
uintptr(unix.SIOCGIFMTU),
uintptr(unsafe.Pointer(&ifr[0])),
)
if errno != 0 {
return 0, fmt.Errorf("failed to get MTU of TUN device: %w", errno)
}
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return int(*(*int32)(unsafe.Pointer(&ifr[unix.IFNAMSIZ]))), nil
}
func (tun *NativeTun) Name() (string, error) {
tun.nameOnce.Do(tun.initNameCache)
return tun.nameCache, tun.nameErr
}
func (tun *NativeTun) initNameCache() {
tun.nameCache, tun.nameErr = tun.nameSlow()
}
func (tun *NativeTun) nameSlow() (string, error) {
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sysconn, err := tun.tunFile.SyscallConn()
if err != nil {
return "", err
}
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var ifr [ifReqSize]byte
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var errno syscall.Errno
err = sysconn.Control(func(fd uintptr) {
_, _, errno = unix.Syscall(
unix.SYS_IOCTL,
fd,
uintptr(unix.TUNGETIFF),
uintptr(unsafe.Pointer(&ifr[0])),
)
})
if err != nil {
return "", fmt.Errorf("failed to get name of TUN device: %w", err)
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}
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if errno != 0 {
return "", fmt.Errorf("failed to get name of TUN device: %w", errno)
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}
return unix.ByteSliceToString(ifr[:]), nil
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}
func (tun *NativeTun) Write(bufs [][]byte, offset int) (int, error) {
tun.writeOpMu.Lock()
defer func() {
tun.tcp4GROTable.reset()
tun.tcp6GROTable.reset()
tun.writeOpMu.Unlock()
}()
var (
errs error
total int
)
tun.toWrite = tun.toWrite[:0]
if tun.vnetHdr {
err := handleGRO(bufs, offset, tun.tcp4GROTable, tun.tcp6GROTable, &tun.toWrite)
if err != nil {
return 0, err
}
offset -= virtioNetHdrLen
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} else {
for i := range bufs {
tun.toWrite = append(tun.toWrite, i)
}
}
for _, bufsI := range tun.toWrite {
n, err := tun.tunFile.Write(bufs[bufsI][offset:])
if errors.Is(err, syscall.EBADFD) {
return total, os.ErrClosed
}
if err != nil {
errs = errors.Join(errs, err)
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} else {
total += n
}
}
return total, errs
}
// handleVirtioRead splits in into bufs, leaving offset bytes at the front of
// each buffer. It mutates sizes to reflect the size of each element of bufs,
// and returns the number of packets read.
func handleVirtioRead(in []byte, bufs [][]byte, sizes []int, offset int) (int, error) {
var hdr virtioNetHdr
err := hdr.decode(in)
if err != nil {
return 0, err
}
in = in[virtioNetHdrLen:]
if hdr.gsoType == unix.VIRTIO_NET_HDR_GSO_NONE {
if hdr.flags&unix.VIRTIO_NET_HDR_F_NEEDS_CSUM != 0 {
// This means CHECKSUM_PARTIAL in skb context. We are responsible
// for computing the checksum starting at hdr.csumStart and placing
// at hdr.csumOffset.
err = gsoNoneChecksum(in, hdr.csumStart, hdr.csumOffset)
if err != nil {
return 0, err
}
}
if len(in) > len(bufs[0][offset:]) {
return 0, fmt.Errorf("read len %d overflows bufs element len %d", len(in), len(bufs[0][offset:]))
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}
n := copy(bufs[0][offset:], in)
sizes[0] = n
return 1, nil
}
if hdr.gsoType != unix.VIRTIO_NET_HDR_GSO_TCPV4 && hdr.gsoType != unix.VIRTIO_NET_HDR_GSO_TCPV6 {
return 0, fmt.Errorf("unsupported virtio GSO type: %d", hdr.gsoType)
}
ipVersion := in[0] >> 4
switch ipVersion {
case 4:
if hdr.gsoType != unix.VIRTIO_NET_HDR_GSO_TCPV4 {
return 0, fmt.Errorf("ip header version: %d, GSO type: %d", ipVersion, hdr.gsoType)
}
case 6:
if hdr.gsoType != unix.VIRTIO_NET_HDR_GSO_TCPV6 {
return 0, fmt.Errorf("ip header version: %d, GSO type: %d", ipVersion, hdr.gsoType)
}
default:
return 0, fmt.Errorf("invalid ip header version: %d", ipVersion)
}
if len(in) <= int(hdr.csumStart+12) {
return 0, errors.New("packet is too short")
}
// Don't trust hdr.hdrLen from the kernel as it can be equal to the length
// of the entire first packet when the kernel is handling it as part of a
// FORWARD path. Instead, parse the TCP header length and add it onto
// csumStart, which is synonymous for IP header length.
tcpHLen := uint16(in[hdr.csumStart+12] >> 4 * 4)
if tcpHLen < 20 || tcpHLen > 60 {
// A TCP header must be between 20 and 60 bytes in length.
return 0, fmt.Errorf("tcp header len is invalid: %d", tcpHLen)
}
hdr.hdrLen = hdr.csumStart + tcpHLen
if len(in) < int(hdr.hdrLen) {
return 0, fmt.Errorf("length of packet (%d) < virtioNetHdr.hdrLen (%d)", len(in), hdr.hdrLen)
}
if hdr.hdrLen < hdr.csumStart {
return 0, fmt.Errorf("virtioNetHdr.hdrLen (%d) < virtioNetHdr.csumStart (%d)", hdr.hdrLen, hdr.csumStart)
}
cSumAt := int(hdr.csumStart + hdr.csumOffset)
if cSumAt+1 >= len(in) {
return 0, fmt.Errorf("end of checksum offset (%d) exceeds packet length (%d)", cSumAt+1, len(in))
}
return tcpTSO(in, hdr, bufs, sizes, offset)
}
func (tun *NativeTun) Read(bufs [][]byte, sizes []int, offset int) (int, error) {
tun.readOpMu.Lock()
defer tun.readOpMu.Unlock()
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select {
case err := <-tun.errors:
return 0, err
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default:
readInto := bufs[0][offset:]
if tun.vnetHdr {
readInto = tun.readBuff[:]
}
n, err := tun.tunFile.Read(readInto)
if errors.Is(err, syscall.EBADFD) {
err = os.ErrClosed
}
if err != nil {
return 0, err
}
if tun.vnetHdr {
return handleVirtioRead(readInto[:n], bufs, sizes, offset)
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} else {
sizes[0] = n
return 1, nil
}
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}
}
func (tun *NativeTun) Events() <-chan Event {
return tun.events
}
func (tun *NativeTun) Close() error {
var err1, err2 error
tun.closeOnce.Do(func() {
if tun.statusListenersShutdown != nil {
close(tun.statusListenersShutdown)
if tun.netlinkCancel != nil {
err1 = tun.netlinkCancel.Cancel()
}
} else if tun.events != nil {
close(tun.events)
}
err2 = tun.tunFile.Close()
})
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if err1 != nil {
return err1
}
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return err2
}
func (tun *NativeTun) BatchSize() int {
return tun.batchSize
}
const (
// TODO: support TSO with ECN bits
tunOffloads = unix.TUN_F_CSUM | unix.TUN_F_TSO4 | unix.TUN_F_TSO6
)
func (tun *NativeTun) initFromFlags(name string) error {
sc, err := tun.tunFile.SyscallConn()
if err != nil {
return err
}
if e := sc.Control(func(fd uintptr) {
var (
ifr *unix.Ifreq
)
ifr, err = unix.NewIfreq(name)
if err != nil {
return
}
err = unix.IoctlIfreq(int(fd), unix.TUNGETIFF, ifr)
if err != nil {
return
}
got := ifr.Uint16()
if got&unix.IFF_VNET_HDR != 0 {
err = unix.IoctlSetInt(int(fd), unix.TUNSETOFFLOAD, tunOffloads)
if err != nil {
return
}
tun.vnetHdr = true
tun.batchSize = conn.IdealBatchSize
} else {
tun.batchSize = 1
}
}); e != nil {
return e
}
return err
}
// CreateTUN creates a Device with the provided name and MTU.
func CreateTUN(name string, mtu int) (Device, error) {
nfd, err := unix.Open(cloneDevicePath, unix.O_RDWR|unix.O_CLOEXEC, 0)
if err != nil {
if os.IsNotExist(err) {
return nil, fmt.Errorf("CreateTUN(%q) failed; %s does not exist", name, cloneDevicePath)
}
return nil, err
}
ifr, err := unix.NewIfreq(name)
if err != nil {
return nil, err
}
// IFF_VNET_HDR enables the "tun status hack" via routineHackListener()
// where a null write will return EINVAL indicating the TUN is up.
ifr.SetUint16(unix.IFF_TUN | unix.IFF_NO_PI | unix.IFF_VNET_HDR)
err = unix.IoctlIfreq(nfd, unix.TUNSETIFF, ifr)
if err != nil {
return nil, err
}
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err = unix.SetNonblock(nfd, true)
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if err != nil {
unix.Close(nfd)
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return nil, err
}
// Note that the above -- open,ioctl,nonblock -- must happen prior to handing it to netpoll as below this line.
fd := os.NewFile(uintptr(nfd), cloneDevicePath)
return CreateTUNFromFile(fd, mtu)
}
// CreateTUNFromFile creates a Device from an os.File with the provided MTU.
func CreateTUNFromFile(file *os.File, mtu int) (Device, error) {
tun := &NativeTun{
tunFile: file,
events: make(chan Event, 5),
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errors: make(chan error, 5),
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statusListenersShutdown: make(chan struct{}),
tcp4GROTable: newTCPGROTable(),
tcp6GROTable: newTCPGROTable(),
toWrite: make([]int, 0, conn.IdealBatchSize),
}
name, err := tun.Name()
if err != nil {
return nil, err
}
err = tun.initFromFlags(name)
if err != nil {
return nil, err
}
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// start event listener
tun.index, err = getIFIndex(name)
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if err != nil {
return nil, err
}
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tun.netlinkSock, err = createNetlinkSocket()
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if err != nil {
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return nil, err
}
tun.netlinkCancel, err = rwcancel.NewRWCancel(tun.netlinkSock)
if err != nil {
unix.Close(tun.netlinkSock)
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return nil, err
}
tun.hackListenerClosed.Lock()
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go tun.routineNetlinkListener()
go tun.routineHackListener() // cross namespace
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err = tun.setMTU(mtu)
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if err != nil {
unix.Close(tun.netlinkSock)
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return nil, err
}
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return tun, nil
}
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// CreateUnmonitoredTUNFromFD creates a Device from the provided file
// descriptor.
func CreateUnmonitoredTUNFromFD(fd int) (Device, string, error) {
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err := unix.SetNonblock(fd, true)
if err != nil {
return nil, "", err
}
file := os.NewFile(uintptr(fd), "/dev/tun")
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tun := &NativeTun{
tunFile: file,
events: make(chan Event, 5),
errors: make(chan error, 5),
tcp4GROTable: newTCPGROTable(),
tcp6GROTable: newTCPGROTable(),
toWrite: make([]int, 0, conn.IdealBatchSize),
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}
name, err := tun.Name()
if err != nil {
return nil, "", err
}
err = tun.initFromFlags(name)
if err != nil {
return nil, "", err
}
return tun, name, err
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}