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yggdrasil-go/src/tuntap/icmpv6.go

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package tuntap
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// The ICMPv6 module implements functions to easily create ICMPv6
// packets. These functions, when mixed with the built-in Go IPv6
// and ICMP libraries, can be used to send control messages back
// to the host. Examples include:
// - NDP messages, when running in TAP mode
// - Packet Too Big messages, when packets exceed the session MTU
// - Destination Unreachable messages, when a session prohibits
// incoming traffic
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import (
"encoding/binary"
"errors"
"net"
"time"
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"golang.org/x/net/icmp"
"golang.org/x/net/ipv6"
"github.com/yggdrasil-network/yggdrasil-go/src/address"
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)
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type macAddress [6]byte
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const len_ETHER = 14
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type ICMPv6 struct {
tun *TunAdapter
mylladdr net.IP
mymac macAddress
peermacs map[address.Address]neighbor
}
type neighbor struct {
mac macAddress
learned bool
lastadvertisement time.Time
lastsolicitation time.Time
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}
// Marshal returns the binary encoding of h.
func ipv6Header_Marshal(h *ipv6.Header) ([]byte, error) {
b := make([]byte, 40)
b[0] |= byte(h.Version) << 4
b[0] |= byte(h.TrafficClass) >> 4
b[1] |= byte(h.TrafficClass) << 4
b[1] |= byte(h.FlowLabel >> 16)
b[2] = byte(h.FlowLabel >> 8)
b[3] = byte(h.FlowLabel)
binary.BigEndian.PutUint16(b[4:6], uint16(h.PayloadLen))
b[6] = byte(h.NextHeader)
b[7] = byte(h.HopLimit)
copy(b[8:24], h.Src)
copy(b[24:40], h.Dst)
return b, nil
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}
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// Initialises the ICMPv6 module by assigning our link-local IPv6 address and
// our MAC address. ICMPv6 messages will always appear to originate from these
// addresses.
func (i *ICMPv6) Init(t *TunAdapter) {
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i.tun = t
i.peermacs = make(map[address.Address]neighbor)
// Our MAC address and link-local address
i.mymac = macAddress{
0x02, 0x00, 0x00, 0x00, 0x00, 0x02}
i.mylladdr = net.IP{
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0xFE, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0xFE}
copy(i.mymac[:], i.tun.addr[:])
copy(i.mylladdr[9:], i.tun.addr[1:])
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}
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// Parses an incoming ICMPv6 packet. The packet provided may be either an
// ethernet frame containing an IP packet, or the IP packet alone. This is
// determined by whether the TUN/TAP adapter is running in TUN (layer 3) or
// TAP (layer 2) mode.
func (i *ICMPv6) ParsePacket(datain []byte) {
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var response []byte
var err error
// Parse the frame/packet
if i.tun.IsTAP() {
response, err = i.UnmarshalPacketL2(datain)
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} else {
response, err = i.UnmarshalPacket(datain, nil)
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}
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if err != nil {
return
}
// Write the packet to TUN/TAP
i.tun.iface.Write(response)
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}
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// Unwraps the ethernet headers of an incoming ICMPv6 packet and hands off
// the IP packet to the ParsePacket function for further processing.
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// A response buffer is also created for the response message, also complete
// with ethernet headers.
func (i *ICMPv6) UnmarshalPacketL2(datain []byte) ([]byte, error) {
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// Ignore non-IPv6 frames
if binary.BigEndian.Uint16(datain[12:14]) != uint16(0x86DD) {
return nil, nil
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}
// Hand over to ParsePacket to interpret the IPv6 packet
mac := datain[6:12]
ipv6packet, err := i.UnmarshalPacket(datain[len_ETHER:], &mac)
if err != nil {
return nil, err
}
// Create the response buffer
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dataout := make([]byte, len_ETHER+ipv6.HeaderLen+32)
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// Populate the response ethernet headers
copy(dataout[:6], datain[6:12])
copy(dataout[6:12], i.mymac[:])
binary.BigEndian.PutUint16(dataout[12:14], uint16(0x86DD))
// Copy the returned packet to our response ethernet frame
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copy(dataout[len_ETHER:], ipv6packet)
return dataout, nil
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}
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// Unwraps the IP headers of an incoming IPv6 packet and performs various
// sanity checks on the packet - i.e. is the packet an ICMPv6 packet, does the
// ICMPv6 message match a known expected type. The relevant handler function
// is then called and a response packet may be returned.
func (i *ICMPv6) UnmarshalPacket(datain []byte, datamac *[]byte) ([]byte, error) {
// Parse the IPv6 packet headers
ipv6Header, err := ipv6.ParseHeader(datain[:ipv6.HeaderLen])
if err != nil {
return nil, err
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}
// Check if the packet is IPv6
if ipv6Header.Version != ipv6.Version {
return nil, err
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}
// Check if the packet is ICMPv6
if ipv6Header.NextHeader != 58 {
return nil, err
}
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// Parse the ICMPv6 message contents
icmpv6Header, err := icmp.ParseMessage(58, datain[ipv6.HeaderLen:])
if err != nil {
return nil, err
}
// Check for a supported message type
switch icmpv6Header.Type {
case ipv6.ICMPTypeNeighborSolicitation:
if !i.tun.IsTAP() {
return nil, errors.New("Ignoring Neighbor Solicitation in TUN mode")
}
response, err := i.HandleNDP(datain[ipv6.HeaderLen:])
if err == nil {
// Create our ICMPv6 response
responsePacket, err := CreateICMPv6(
ipv6Header.Src, i.mylladdr,
ipv6.ICMPTypeNeighborAdvertisement, 0,
&icmp.DefaultMessageBody{Data: response})
if err != nil {
return nil, err
}
// Send it back
return responsePacket, nil
} else {
return nil, err
}
case ipv6.ICMPTypeNeighborAdvertisement:
if !i.tun.IsTAP() {
return nil, errors.New("Ignoring Neighbor Advertisement in TUN mode")
}
if datamac != nil {
var addr address.Address
var target address.Address
var mac macAddress
copy(addr[:], ipv6Header.Src[:])
copy(target[:], datain[48:64])
copy(mac[:], (*datamac)[:])
// i.tun.core.log.Printf("Learning peer MAC %x for %x\n", mac, target)
neighbor := i.peermacs[target]
neighbor.mac = mac
neighbor.learned = true
neighbor.lastadvertisement = time.Now()
i.peermacs[target] = neighbor
}
return nil, errors.New("No response needed")
}
return nil, errors.New("ICMPv6 type not matched")
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}
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// Creates an ICMPv6 packet based on the given icmp.MessageBody and other
// parameters, complete with ethernet and IP headers, which can be written
// directly to a TAP adapter.
func (i *ICMPv6) CreateICMPv6L2(dstmac macAddress, dst net.IP, src net.IP, mtype ipv6.ICMPType, mcode int, mbody icmp.MessageBody) ([]byte, error) {
// Pass through to CreateICMPv6
ipv6packet, err := CreateICMPv6(dst, src, mtype, mcode, mbody)
if err != nil {
return nil, err
}
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// Create the response buffer
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dataout := make([]byte, len_ETHER+len(ipv6packet))
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// Populate the response ethernet headers
copy(dataout[:6], dstmac[:6])
copy(dataout[6:12], i.mymac[:])
binary.BigEndian.PutUint16(dataout[12:14], uint16(0x86DD))
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// Copy the returned packet to our response ethernet frame
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copy(dataout[len_ETHER:], ipv6packet)
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return dataout, nil
}
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// Creates an ICMPv6 packet based on the given icmp.MessageBody and other
// parameters, complete with IP headers only, which can be written directly to
// a TUN adapter, or called directly by the CreateICMPv6L2 function when
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// generating a message for TAP adapters.
func CreateICMPv6(dst net.IP, src net.IP, mtype ipv6.ICMPType, mcode int, mbody icmp.MessageBody) ([]byte, error) {
// Create the ICMPv6 message
icmpMessage := icmp.Message{
Type: mtype,
Code: mcode,
Body: mbody,
}
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// Convert the ICMPv6 message into []byte
icmpMessageBuf, err := icmpMessage.Marshal(icmp.IPv6PseudoHeader(src, dst))
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if err != nil {
return nil, err
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}
// Create the IPv6 header
ipv6Header := ipv6.Header{
Version: ipv6.Version,
NextHeader: 58,
PayloadLen: len(icmpMessageBuf),
HopLimit: 255,
Src: src,
Dst: dst,
}
// Convert the IPv6 header into []byte
ipv6HeaderBuf, err := ipv6Header_Marshal(&ipv6Header)
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if err != nil {
return nil, err
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}
// Construct the packet
responsePacket := make([]byte, ipv6.HeaderLen+ipv6Header.PayloadLen)
copy(responsePacket[:ipv6.HeaderLen], ipv6HeaderBuf)
copy(responsePacket[ipv6.HeaderLen:], icmpMessageBuf)
// Send it back
return responsePacket, nil
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}
func (i *ICMPv6) CreateNDPL2(dst address.Address) ([]byte, error) {
// Create the ND payload
var payload [28]byte
copy(payload[:4], []byte{0x00, 0x00, 0x00, 0x00})
copy(payload[4:20], dst[:])
copy(payload[20:22], []byte{0x01, 0x01})
copy(payload[22:28], i.mymac[:6])
// Create the ICMPv6 solicited-node address
var dstaddr address.Address
copy(dstaddr[:13], []byte{
0xFF, 0x02, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x01, 0xFF})
copy(dstaddr[13:], dst[13:16])
// Create the multicast MAC
var dstmac macAddress
copy(dstmac[:2], []byte{0x33, 0x33})
copy(dstmac[2:6], dstaddr[12:16])
// Create the ND request
requestPacket, err := i.CreateICMPv6L2(
dstmac, dstaddr[:], i.mylladdr,
ipv6.ICMPTypeNeighborSolicitation, 0,
&icmp.DefaultMessageBody{Data: payload[:]})
if err != nil {
return nil, err
}
neighbor := i.peermacs[dstaddr]
neighbor.lastsolicitation = time.Now()
i.peermacs[dstaddr] = neighbor
return requestPacket, nil
}
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// Generates a response to an NDP discovery packet. This is effectively called
// when the host operating system generates an NDP request for any address in
// the fd00::/8 range, so that the operating system knows to route that traffic
// to the Yggdrasil TAP adapter.
func (i *ICMPv6) HandleNDP(in []byte) ([]byte, error) {
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// Ignore NDP requests for anything outside of fd00::/8
var source address.Address
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copy(source[:], in[8:])
var snet address.Subnet
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copy(snet[:], in[8:])
switch {
case source.IsValid():
case snet.IsValid():
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default:
return nil, errors.New("Not an NDP for 0200::/7")
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}
// Create our NDP message body response
body := make([]byte, 28)
binary.BigEndian.PutUint32(body[:4], uint32(0x20000000))
copy(body[4:20], in[8:24]) // Target address
body[20] = uint8(2)
body[21] = uint8(1)
copy(body[22:28], i.mymac[:6])
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// Send it back
return body, nil
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}