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package tuntap
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// This manages the tun driver to send/recv packets to/from applications
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// TODO: Crypto-key routing support
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// TODO: Set MTU of session properly
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// TODO: Reject packets that exceed session MTU with ICMPv6 for PMTU Discovery
// TODO: Connection timeouts (call Conn.Close() when we want to time out)
// TODO: Don't block in ifaceReader on writes that are pending searches
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import (
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"bytes"
"encoding/hex"
"errors"
"fmt"
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"net"
"sync"
"time"
"github.com/gologme/log"
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"github.com/songgao/packets/ethernet"
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"github.com/yggdrasil-network/water"
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"github.com/yggdrasil-network/yggdrasil-go/src/address"
"github.com/yggdrasil-network/yggdrasil-go/src/config"
"github.com/yggdrasil-network/yggdrasil-go/src/crypto"
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"github.com/yggdrasil-network/yggdrasil-go/src/defaults"
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"github.com/yggdrasil-network/yggdrasil-go/src/util"
"github.com/yggdrasil-network/yggdrasil-go/src/yggdrasil"
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)
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const tun_IPv6_HEADER_LENGTH = 40
const tun_ETHER_HEADER_LENGTH = 14
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// TunAdapter represents a running TUN/TAP interface and extends the
// yggdrasil.Adapter type. In order to use the TUN/TAP adapter with Yggdrasil,
// you should pass this object to the yggdrasil.SetRouterAdapter() function
// before calling yggdrasil.Start().
type TunAdapter struct {
config *config.NodeState
log *log.Logger
reconfigure chan chan error
listener *yggdrasil.Listener
dialer *yggdrasil.Dialer
addr address.Address
subnet address.Subnet
icmpv6 ICMPv6
mtu int
iface *water.Interface
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mutex sync.RWMutex // Protects the below
addrToConn map[address.Address]*yggdrasil.Conn // Managed by connReader
subnetToConn map[address.Subnet]*yggdrasil.Conn // Managed by connReader
isOpen bool
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}
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// Gets the maximum supported MTU for the platform based on the defaults in
// defaults.GetDefaults().
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func getSupportedMTU(mtu int) int {
if mtu > defaults.GetDefaults().MaximumIfMTU {
return defaults.GetDefaults().MaximumIfMTU
}
return mtu
}
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// Name returns the name of the adapter, e.g. "tun0". On Windows, this may
// return a canonical adapter name instead.
func (tun *TunAdapter) Name() string {
return tun.iface.Name()
}
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// MTU gets the adapter's MTU. This can range between 1280 and 65535, although
// the maximum value is determined by your platform. The returned value will
// never exceed that of MaximumMTU().
func (tun *TunAdapter) MTU() int {
return getSupportedMTU(tun.mtu)
}
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// IsTAP returns true if the adapter is a TAP adapter (Layer 2) or false if it
// is a TUN adapter (Layer 3).
func (tun *TunAdapter) IsTAP() bool {
return tun.iface.IsTAP()
}
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// DefaultName gets the default TUN/TAP interface name for your platform.
func DefaultName() string {
return defaults.GetDefaults().DefaultIfName
}
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// DefaultMTU gets the default TUN/TAP interface MTU for your platform. This can
// be as high as MaximumMTU(), depending on platform, but is never lower than 1280.
func DefaultMTU() int {
return defaults.GetDefaults().DefaultIfMTU
}
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// DefaultIsTAP returns true if the default adapter mode for the current
// platform is TAP (Layer 2) and returns false for TUN (Layer 3).
func DefaultIsTAP() bool {
return defaults.GetDefaults().DefaultIfTAPMode
}
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// MaximumMTU returns the maximum supported TUN/TAP interface MTU for your
// platform. This can be as high as 65535, depending on platform, but is never
// lower than 1280.
func MaximumMTU() int {
return defaults.GetDefaults().MaximumIfMTU
}
// Init initialises the TUN/TAP module. You must have acquired a Listener from
// the Yggdrasil core before this point and it must not be in use elsewhere.
func (tun *TunAdapter) Init(config *config.NodeState, log *log.Logger, listener *yggdrasil.Listener, dialer *yggdrasil.Dialer) {
tun.config = config
tun.log = log
tun.listener = listener
tun.dialer = dialer
tun.addrToConn = make(map[address.Address]*yggdrasil.Conn)
tun.subnetToConn = make(map[address.Subnet]*yggdrasil.Conn)
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tun.icmpv6.Init(tun)
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}
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// Start the setup process for the TUN/TAP adapter. If successful, starts the
// read/write goroutines to handle packets on that interface.
func (tun *TunAdapter) Start() error {
tun.config.Mutex.Lock()
defer tun.config.Mutex.Unlock()
if tun.config == nil || tun.listener == nil || tun.dialer == nil {
return errors.New("No configuration available to TUN/TAP")
}
var boxPub crypto.BoxPubKey
boxPubHex, err := hex.DecodeString(tun.config.Current.EncryptionPublicKey)
if err != nil {
return err
}
copy(boxPub[:], boxPubHex)
nodeID := crypto.GetNodeID(&boxPub)
tun.addr = *address.AddrForNodeID(nodeID)
tun.subnet = *address.SubnetForNodeID(nodeID)
tun.mtu = tun.config.Current.IfMTU
ifname := tun.config.Current.IfName
iftapmode := tun.config.Current.IfTAPMode
addr := fmt.Sprintf("%s/%d", net.IP(tun.addr[:]).String(), 8*len(address.GetPrefix())-1)
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if ifname != "none" {
if err := tun.setup(ifname, iftapmode, addr, tun.mtu); err != nil {
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return err
}
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}
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if ifname == "none" || ifname == "dummy" {
tun.log.Debugln("Not starting TUN/TAP as ifname is none or dummy")
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return nil
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}
tun.mutex.Lock()
tun.isOpen = true
tun.mutex.Unlock()
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if iftapmode {
go func() {
for {
if _, ok := tun.icmpv6.peermacs[tun.addr]; ok {
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break
}
request, err := tun.icmpv6.CreateNDPL2(tun.addr)
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if err != nil {
panic(err)
}
if _, err := tun.iface.Write(request); err != nil {
panic(err)
}
time.Sleep(time.Second)
}
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}()
}
go func() {
for {
e := <-tun.reconfigure
e <- nil
}
}()
go tun.handler()
go tun.ifaceReader()
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return nil
}
func (tun *TunAdapter) handler() error {
for {
// Accept the incoming connection
conn, err := tun.listener.Accept()
if err != nil {
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tun.log.Errorln("TUN/TAP connection accept error:", err)
return err
}
go tun.connReader(conn)
}
}
func (tun *TunAdapter) connReader(conn *yggdrasil.Conn) error {
remoteNodeID := conn.RemoteAddr()
remoteAddr := address.AddrForNodeID(&remoteNodeID)
remoteSubnet := address.SubnetForNodeID(&remoteNodeID)
err := func() error {
tun.mutex.RLock()
defer tun.mutex.RUnlock()
if _, isIn := tun.addrToConn[*remoteAddr]; isIn {
return errors.New("duplicate connection for address " + net.IP(remoteAddr[:]).String())
}
if _, isIn := tun.subnetToConn[*remoteSubnet]; isIn {
return errors.New("duplicate connection for subnet " + net.IP(remoteSubnet[:]).String())
}
return nil
}()
if err != nil {
//return err
panic(err)
}
// Store the connection mapped to address and subnet
tun.mutex.Lock()
tun.addrToConn[*remoteAddr] = conn
tun.subnetToConn[*remoteSubnet] = conn
tun.mutex.Unlock()
// Make sure to clean those up later when the connection is closed
defer func() {
tun.mutex.Lock()
delete(tun.addrToConn, *remoteAddr)
delete(tun.subnetToConn, *remoteSubnet)
tun.mutex.Unlock()
}()
b := make([]byte, 65535)
for {
n, err := conn.Read(b)
if err != nil {
tun.log.Errorln(conn.String(), "TUN/TAP conn read error:", err)
continue
}
if n == 0 {
continue
}
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var w int
if tun.iface.IsTAP() {
var dstAddr address.Address
if b[0]&0xf0 == 0x60 {
if len(b) < 40 {
//panic("Tried to sendb a packet shorter than an IPv6 header...")
util.PutBytes(b)
continue
}
copy(dstAddr[:16], b[24:])
} else if b[0]&0xf0 == 0x40 {
if len(b) < 20 {
//panic("Tried to send a packet shorter than an IPv4 header...")
util.PutBytes(b)
continue
}
copy(dstAddr[:4], b[16:])
} else {
return errors.New("Invalid address family")
}
sendndp := func(dstAddr address.Address) {
neigh, known := tun.icmpv6.peermacs[dstAddr]
known = known && (time.Since(neigh.lastsolicitation).Seconds() < 30)
if !known {
request, err := tun.icmpv6.CreateNDPL2(dstAddr)
if err != nil {
panic(err)
}
if _, err := tun.iface.Write(request); err != nil {
panic(err)
}
tun.icmpv6.peermacs[dstAddr] = neighbor{
lastsolicitation: time.Now(),
}
}
}
var peermac macAddress
var peerknown bool
if b[0]&0xf0 == 0x40 {
dstAddr = tun.addr
} else if b[0]&0xf0 == 0x60 {
if !bytes.Equal(tun.addr[:16], dstAddr[:16]) && !bytes.Equal(tun.subnet[:8], dstAddr[:8]) {
dstAddr = tun.addr
}
}
if neighbor, ok := tun.icmpv6.peermacs[dstAddr]; ok && neighbor.learned {
peermac = neighbor.mac
peerknown = true
} else if neighbor, ok := tun.icmpv6.peermacs[tun.addr]; ok && neighbor.learned {
peermac = neighbor.mac
peerknown = true
sendndp(dstAddr)
} else {
sendndp(tun.addr)
}
if peerknown {
var proto ethernet.Ethertype
switch {
case b[0]&0xf0 == 0x60:
proto = ethernet.IPv6
case b[0]&0xf0 == 0x40:
proto = ethernet.IPv4
}
var frame ethernet.Frame
frame.Prepare(
peermac[:6], // Destination MAC address
tun.icmpv6.mymac[:6], // Source MAC address
ethernet.NotTagged, // VLAN tagging
proto, // Ethertype
len(b)) // Payload length
copy(frame[tun_ETHER_HEADER_LENGTH:], b[:])
w, err = tun.iface.Write(b[:n])
}
} else {
w, err = tun.iface.Write(b[:n])
}
if err != nil {
tun.log.Errorln(conn.String(), "TUN/TAP iface write error:", err)
continue
}
if w != n {
tun.log.Errorln(conn.String(), "TUN/TAP iface write mismatch:", w, "bytes written vs", n, "bytes given")
continue
}
}
}
func (tun *TunAdapter) ifaceReader() error {
bs := make([]byte, 65535)
for {
// Wait for a packet to be delivered to us through the TUN/TAP adapter
n, err := tun.iface.Read(bs)
if err != nil {
continue
}
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// If it's a TAP adapter, update the buffer slice so that we no longer
// include the ethernet headers
if tun.iface.IsTAP() {
bs = bs[tun_ETHER_HEADER_LENGTH:]
}
// If we detect an ICMP packet then hand it to the ICMPv6 module
if bs[6] == 58 {
if tun.iface.IsTAP() {
// Found an ICMPv6 packet
b := make([]byte, n)
copy(b, bs)
go tun.icmpv6.ParsePacket(b)
}
}
// From the IP header, work out what our source and destination addresses
// and node IDs are. We will need these in order to work out where to send
// the packet
var srcAddr address.Address
var dstAddr address.Address
var dstNodeID *crypto.NodeID
var dstNodeIDMask *crypto.NodeID
var dstSnet address.Subnet
var addrlen int
// Check the IP protocol - if it doesn't match then we drop the packet and
// do nothing with it
if bs[0]&0xf0 == 0x60 {
// Check if we have a fully-sized IPv6 header
if len(bs) < 40 {
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continue
}
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// Check the packet size
if n != 256*int(bs[4])+int(bs[5])+tun_IPv6_HEADER_LENGTH {
continue
}
// IPv6 address
addrlen = 16
copy(srcAddr[:addrlen], bs[8:])
copy(dstAddr[:addrlen], bs[24:])
copy(dstSnet[:addrlen/2], bs[24:])
} else if bs[0]&0xf0 == 0x40 {
// Check if we have a fully-sized IPv4 header
if len(bs) < 20 {
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continue
}
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// Check the packet size
if bs[0]&0xf0 == 0x40 && n != 256*int(bs[2])+int(bs[3]) {
continue
}
// IPv4 address
addrlen = 4
copy(srcAddr[:addrlen], bs[12:])
copy(dstAddr[:addrlen], bs[16:])
} else {
// Unknown address length or protocol, so drop the packet and ignore it
continue
}
if !dstAddr.IsValid() && !dstSnet.IsValid() {
// For now don't deal with any non-Yggdrasil ranges
continue
}
// Do we have an active connection for this node address?
tun.mutex.RLock()
conn, isIn := tun.addrToConn[dstAddr]
if !isIn || conn == nil {
conn, isIn = tun.subnetToConn[dstSnet]
if !isIn || conn == nil {
// Neither an address nor a subnet mapping matched, therefore populate
// the node ID and mask to commence a search
dstNodeID, dstNodeIDMask = dstAddr.GetNodeIDandMask()
}
}
tun.mutex.RUnlock()
// If we don't have a connection then we should open one
if !isIn || conn == nil {
// Check we haven't been given empty node ID, really this shouldn't ever
// happen but just to be sure...
if dstNodeID == nil || dstNodeIDMask == nil {
panic("Given empty dstNodeID and dstNodeIDMask - this shouldn't happen")
}
// Dial to the remote node
if c, err := tun.dialer.DialByNodeIDandMask(dstNodeID, dstNodeIDMask); err == nil {
// We've been given a connection so start the connection reader goroutine
go tun.connReader(&c)
// Then update our reference to the connection
conn, isIn = &c, true
} else {
// We weren't able to dial for some reason so there's no point in
// continuing this iteration - skip to the next one
continue
}
}
// If we have a connection now, try writing to it
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if isIn && conn != nil {
// If we have an open connection, either because we already had one or
// because we opened one above, try writing the packet to it
w, err := conn.Write(bs[:n])
if err != nil {
tun.log.Errorln(conn.String(), "TUN/TAP conn write error:", err)
continue
}
if w != n {
tun.log.Errorln(conn.String(), "TUN/TAP conn write mismatch:", w, "bytes written vs", n, "bytes given")
continue
}
}
/*if !r.cryptokey.isValidSource(srcAddr, addrlen) {
// The packet had a src address that doesn't belong to us or our
// configured crypto-key routing src subnets
return
}
if !dstAddr.IsValid() && !dstSnet.IsValid() {
// The addresses didn't match valid Yggdrasil node addresses so let's see
// whether it matches a crypto-key routing range instead
if key, err := r.cryptokey.getPublicKeyForAddress(dstAddr, addrlen); err == nil {
// A public key was found, get the node ID for the search
dstPubKey = &key
dstNodeID = crypto.GetNodeID(dstPubKey)
// Do a quick check to ensure that the node ID refers to a vaild Yggdrasil
// address or subnet - this might be superfluous
addr := *address.AddrForNodeID(dstNodeID)
copy(dstAddr[:], addr[:])
copy(dstSnet[:], addr[:])
if !dstAddr.IsValid() && !dstSnet.IsValid() {
return
}
} else {
// No public key was found in the CKR table so we've exhausted our options
return
}
}*/
}
}
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// Writes a packet to the TUN/TAP adapter. If the adapter is running in TAP
// mode then additional ethernet encapsulation is added for the benefit of the
// host operating system.
/*
func (tun *TunAdapter) write() error {
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for {
select {
case reject := <-tun.Reject:
switch reject.Reason {
case yggdrasil.PacketTooBig:
if mtu, ok := reject.Detail.(int); ok {
// Create the Packet Too Big response
ptb := &icmp.PacketTooBig{
MTU: int(mtu),
Data: reject.Packet,
}
// Create the ICMPv6 response from it
icmpv6Buf, err := CreateICMPv6(
reject.Packet[8:24], reject.Packet[24:40],
ipv6.ICMPTypePacketTooBig, 0, ptb)
// Send the ICMPv6 response back to the TUN/TAP adapter
if err == nil {
tun.iface.Write(icmpv6Buf)
}
}
fallthrough
default:
continue
}
case data := <-tun.Recv:
if tun.iface == nil {
continue
}
if tun.iface.IsTAP() {
var dstAddr address.Address
if data[0]&0xf0 == 0x60 {
if len(data) < 40 {
//panic("Tried to send a packet shorter than an IPv6 header...")
util.PutBytes(data)
continue
}
copy(dstAddr[:16], data[24:])
} else if data[0]&0xf0 == 0x40 {
if len(data) < 20 {
//panic("Tried to send a packet shorter than an IPv4 header...")
util.PutBytes(data)
continue
}
copy(dstAddr[:4], data[16:])
} else {
return errors.New("Invalid address family")
}
sendndp := func(dstAddr address.Address) {
neigh, known := tun.icmpv6.peermacs[dstAddr]
known = known && (time.Since(neigh.lastsolicitation).Seconds() < 30)
if !known {
request, err := tun.icmpv6.CreateNDPL2(dstAddr)
if err != nil {
panic(err)
}
if _, err := tun.iface.Write(request); err != nil {
panic(err)
}
tun.icmpv6.peermacs[dstAddr] = neighbor{
lastsolicitation: time.Now(),
}
}
}
var peermac macAddress
var peerknown bool
if data[0]&0xf0 == 0x40 {
dstAddr = tun.addr
} else if data[0]&0xf0 == 0x60 {
if !bytes.Equal(tun.addr[:16], dstAddr[:16]) && !bytes.Equal(tun.subnet[:8], dstAddr[:8]) {
dstAddr = tun.addr
}
}
if neighbor, ok := tun.icmpv6.peermacs[dstAddr]; ok && neighbor.learned {
peermac = neighbor.mac
peerknown = true
} else if neighbor, ok := tun.icmpv6.peermacs[tun.addr]; ok && neighbor.learned {
peermac = neighbor.mac
peerknown = true
sendndp(dstAddr)
} else {
sendndp(tun.addr)
}
if peerknown {
var proto ethernet.Ethertype
switch {
case data[0]&0xf0 == 0x60:
proto = ethernet.IPv6
case data[0]&0xf0 == 0x40:
proto = ethernet.IPv4
}
var frame ethernet.Frame
frame.Prepare(
peermac[:6], // Destination MAC address
tun.icmpv6.mymac[:6], // Source MAC address
ethernet.NotTagged, // VLAN tagging
proto, // Ethertype
len(data)) // Payload length
copy(frame[tun_ETHER_HEADER_LENGTH:], data[:])
if _, err := tun.iface.Write(frame); err != nil {
tun.mutex.RLock()
open := tun.isOpen
tun.mutex.RUnlock()
if !open {
return nil
} else {
panic(err)
}
}
}
} else {
if _, err := tun.iface.Write(data); err != nil {
tun.mutex.RLock()
open := tun.isOpen
tun.mutex.RUnlock()
if !open {
return nil
} else {
panic(err)
}
}
}
util.PutBytes(data)
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}
}
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}
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// Reads any packets that are waiting on the TUN/TAP adapter. If the adapter
// is running in TAP mode then the ethernet headers will automatically be
// processed and stripped if necessary. If an ICMPv6 packet is found, then
// the relevant helper functions in icmpv6.go are called.
func (tun *TunAdapter) read() error {
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mtu := tun.mtu
if tun.iface.IsTAP() {
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mtu += tun_ETHER_HEADER_LENGTH
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}
buf := make([]byte, mtu)
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for {
n, err := tun.iface.Read(buf)
if err != nil {
tun.mutex.RLock()
open := tun.isOpen
tun.mutex.RUnlock()
if !open {
return nil
} else {
return err
}
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}
o := 0
if tun.iface.IsTAP() {
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o = tun_ETHER_HEADER_LENGTH
}
switch {
case buf[o]&0xf0 == 0x60 && n == 256*int(buf[o+4])+int(buf[o+5])+tun_IPv6_HEADER_LENGTH+o:
case buf[o]&0xf0 == 0x40 && n == 256*int(buf[o+2])+int(buf[o+3])+o:
default:
continue
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}
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if buf[o+6] == 58 {
if tun.iface.IsTAP() {
// Found an ICMPv6 packet
b := make([]byte, n)
copy(b, buf)
go tun.icmpv6.ParsePacket(b)
}
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}
packet := append(util.GetBytes(), buf[o:n]...)
tun.Send <- packet
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}
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}
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// Closes the TUN/TAP adapter. This is only usually called when the Yggdrasil
// process stops. Typically this operation will happen quickly, but on macOS
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// it can block until a read operation is completed.
func (tun *TunAdapter) Close() error {
tun.mutex.Lock()
tun.isOpen = false
tun.mutex.Unlock()
if tun.iface == nil {
return nil
}
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return tun.iface.Close()
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}
*/