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// Copyright 2018 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package header
import (
"crypto/sha256"
"encoding/binary"
"fmt"
"strings"
"gvisor.dev/gvisor/pkg/tcpip"
)
const (
versTCFL = 0
// IPv6PayloadLenOffset is the offset of the PayloadLength field in
// IPv6 header.
IPv6PayloadLenOffset = 4
// IPv6NextHeaderOffset is the offset of the NextHeader field in
// IPv6 header.
IPv6NextHeaderOffset = 6
hopLimit = 7
v6SrcAddr = 8
v6DstAddr = v6SrcAddr + IPv6AddressSize
// IPv6FixedHeaderSize is the size of the fixed header.
IPv6FixedHeaderSize = v6DstAddr + IPv6AddressSize
)
// IPv6Fields contains the fields of an IPv6 packet. It is used to describe the
// fields of a packet that needs to be encoded.
type IPv6Fields struct {
// TrafficClass is the "traffic class" field of an IPv6 packet.
TrafficClass uint8
// FlowLabel is the "flow label" field of an IPv6 packet.
FlowLabel uint32
// PayloadLength is the "payload length" field of an IPv6 packet, including
// the length of all extension headers.
PayloadLength uint16
// TransportProtocol is the transport layer protocol number. Serialized in the
// last "next header" field of the IPv6 header + extension headers.
TransportProtocol tcpip.TransportProtocolNumber
// HopLimit is the "Hop Limit" field of an IPv6 packet.
HopLimit uint8
// SrcAddr is the "source ip address" of an IPv6 packet.
SrcAddr tcpip.Address
// DstAddr is the "destination ip address" of an IPv6 packet.
DstAddr tcpip.Address
// ExtensionHeaders are the extension headers following the IPv6 header.
ExtensionHeaders IPv6ExtHdrSerializer
}
// IPv6 represents an ipv6 header stored in a byte array.
// Most of the methods of IPv6 access to the underlying slice without
// checking the boundaries and could panic because of 'index out of range'.
// Always call IsValid() to validate an instance of IPv6 before using other methods.
type IPv6 []byte
const (
// IPv6MinimumSize is the minimum size of a valid IPv6 packet.
IPv6MinimumSize = IPv6FixedHeaderSize
// IPv6AddressSize is the size, in bytes, of an IPv6 address.
IPv6AddressSize = 16
// IPv6MaximumPayloadSize is the maximum size of a valid IPv6 payload per
// RFC 8200 Section 4.5.
IPv6MaximumPayloadSize = 65535
// IPv6ProtocolNumber is IPv6's network protocol number.
IPv6ProtocolNumber tcpip.NetworkProtocolNumber = 0x86dd
// IPv6Version is the version of the ipv6 protocol.
IPv6Version = 6
// IPv6AllNodesMulticastAddress is a link-local multicast group that
// all IPv6 nodes MUST join, as per RFC 4291, section 2.8. Packets
// destined to this address will reach all nodes on a link.
//
// The address is ff02::1.
IPv6AllNodesMulticastAddress tcpip.Address = "\xff\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01"
// IPv6AllRoutersMulticastAddress is a link-local multicast group that
// all IPv6 routers MUST join, as per RFC 4291, section 2.8. Packets
// destined to this address will reach all routers on a link.
//
// The address is ff02::2.
IPv6AllRoutersMulticastAddress tcpip.Address = "\xff\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02"
// IPv6MinimumMTU is the minimum MTU required by IPv6, per RFC 8200,
// section 5:
// IPv6 requires that every link in the Internet have an MTU of 1280 octets
// or greater. This is known as the IPv6 minimum link MTU.
IPv6MinimumMTU = 1280
// IPv6Loopback is the IPv6 Loopback address.
IPv6Loopback tcpip.Address = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01"
// IPv6Any is the non-routable IPv6 "any" meta address. It is also
// known as the unspecified address.
IPv6Any tcpip.Address = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"
// IIDSize is the size of an interface identifier (IID), in bytes, as
// defined by RFC 4291 section 2.5.1.
IIDSize = 8
// IIDOffsetInIPv6Address is the offset, in bytes, from the start
// of an IPv6 address to the beginning of the interface identifier
// (IID) for auto-generated addresses. That is, all bytes before
// the IIDOffsetInIPv6Address-th byte are the prefix bytes, and all
// bytes including and after the IIDOffsetInIPv6Address-th byte are
// for the IID.
IIDOffsetInIPv6Address = 8
// OpaqueIIDSecretKeyMinBytes is the recommended minimum number of bytes
// for the secret key used to generate an opaque interface identifier as
// outlined by RFC 7217.
OpaqueIIDSecretKeyMinBytes = 16
// ipv6MulticastAddressScopeByteIdx is the byte where the scope (scop) field
// is located within a multicast IPv6 address, as per RFC 4291 section 2.7.
ipv6MulticastAddressScopeByteIdx = 1
// ipv6MulticastAddressScopeMask is the mask for the scope (scop) field,
// within the byte holding the field, as per RFC 4291 section 2.7.
ipv6MulticastAddressScopeMask = 0xF
// ipv6LinkLocalMulticastScope is the value of the scope (scop) field within
// a multicast IPv6 address that indicates the address has link-local scope,
// as per RFC 4291 section 2.7.
ipv6LinkLocalMulticastScope = 2
)
// IPv6EmptySubnet is the empty IPv6 subnet. It may also be known as the
// catch-all or wildcard subnet. That is, all IPv6 addresses are considered to
// be contained within this subnet.
var IPv6EmptySubnet = func() tcpip.Subnet {
subnet, err := tcpip.NewSubnet(IPv6Any, tcpip.AddressMask(IPv6Any))
if err != nil {
panic(err)
}
return subnet
}()
// IPv6LinkLocalPrefix is the prefix for IPv6 link-local addresses, as defined
// by RFC 4291 section 2.5.6.
//
// The prefix is fe80::/64
var IPv6LinkLocalPrefix = tcpip.AddressWithPrefix{
Address: "\xfe\x80\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
PrefixLen: 64,
}
// PayloadLength returns the value of the "payload length" field of the ipv6
// header.
func (b IPv6) PayloadLength() uint16 {
return binary.BigEndian.Uint16(b[IPv6PayloadLenOffset:])
}
// HopLimit returns the value of the "Hop Limit" field of the ipv6 header.
func (b IPv6) HopLimit() uint8 {
return b[hopLimit]
}
// NextHeader returns the value of the "next header" field of the ipv6 header.
func (b IPv6) NextHeader() uint8 {
return b[IPv6NextHeaderOffset]
}
// TransportProtocol implements Network.TransportProtocol.
func (b IPv6) TransportProtocol() tcpip.TransportProtocolNumber {
return tcpip.TransportProtocolNumber(b.NextHeader())
}
// Payload implements Network.Payload.
func (b IPv6) Payload() []byte {
return b[IPv6MinimumSize:][:b.PayloadLength()]
}
// SourceAddress returns the "source address" field of the ipv6 header.
func (b IPv6) SourceAddress() tcpip.Address {
return tcpip.Address(b[v6SrcAddr:][:IPv6AddressSize])
}
// DestinationAddress returns the "destination address" field of the ipv6
// header.
func (b IPv6) DestinationAddress() tcpip.Address {
return tcpip.Address(b[v6DstAddr:][:IPv6AddressSize])
}
// Checksum implements Network.Checksum. Given that IPv6 doesn't have a
// checksum, it just returns 0.
func (IPv6) Checksum() uint16 {
return 0
}
// TOS returns the "traffic class" and "flow label" fields of the ipv6 header.
func (b IPv6) TOS() (uint8, uint32) {
v := binary.BigEndian.Uint32(b[versTCFL:])
return uint8(v >> 20), v & 0xfffff
}
// SetTOS sets the "traffic class" and "flow label" fields of the ipv6 header.
func (b IPv6) SetTOS(t uint8, l uint32) {
vtf := (6 << 28) | (uint32(t) << 20) | (l & 0xfffff)
binary.BigEndian.PutUint32(b[versTCFL:], vtf)
}
// SetPayloadLength sets the "payload length" field of the ipv6 header.
func (b IPv6) SetPayloadLength(payloadLength uint16) {
binary.BigEndian.PutUint16(b[IPv6PayloadLenOffset:], payloadLength)
}
// SetSourceAddress sets the "source address" field of the ipv6 header.
func (b IPv6) SetSourceAddress(addr tcpip.Address) {
copy(b[v6SrcAddr:][:IPv6AddressSize], addr)
}
// SetDestinationAddress sets the "destination address" field of the ipv6
// header.
func (b IPv6) SetDestinationAddress(addr tcpip.Address) {
copy(b[v6DstAddr:][:IPv6AddressSize], addr)
}
// SetHopLimit sets the value of the "Hop Limit" field.
func (b IPv6) SetHopLimit(v uint8) {
b[hopLimit] = v
}
// SetNextHeader sets the value of the "next header" field of the ipv6 header.
func (b IPv6) SetNextHeader(v uint8) {
b[IPv6NextHeaderOffset] = v
}
// SetChecksum implements Network.SetChecksum. Given that IPv6 doesn't have a
// checksum, it is empty.
func (IPv6) SetChecksum(uint16) {
}
// Encode encodes all the fields of the ipv6 header.
func (b IPv6) Encode(i *IPv6Fields) {
extHdr := b[IPv6MinimumSize:]
b.SetTOS(i.TrafficClass, i.FlowLabel)
b.SetPayloadLength(i.PayloadLength)
b[hopLimit] = i.HopLimit
b.SetSourceAddress(i.SrcAddr)
b.SetDestinationAddress(i.DstAddr)
nextHeader, _ := i.ExtensionHeaders.Serialize(i.TransportProtocol, extHdr)
b[IPv6NextHeaderOffset] = nextHeader
}
// IsValid performs basic validation on the packet.
func (b IPv6) IsValid(pktSize int) bool {
if len(b) < IPv6MinimumSize {
return false
}
dlen := int(b.PayloadLength())
if dlen > pktSize-IPv6MinimumSize {
return false
}
if IPVersion(b) != IPv6Version {
return false
}
return true
}
// IsV4MappedAddress determines if the provided address is an IPv4 mapped
// address by checking if its prefix is 0:0:0:0:0:ffff::/96.
func IsV4MappedAddress(addr tcpip.Address) bool {
if len(addr) != IPv6AddressSize {
return false
}
return strings.HasPrefix(string(addr), "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xff\xff")
}
// IsV6MulticastAddress determines if the provided address is an IPv6
// multicast address (anything starting with FF).
func IsV6MulticastAddress(addr tcpip.Address) bool {
if len(addr) != IPv6AddressSize {
return false
}
return addr[0] == 0xff
}
// IsV6UnicastAddress determines if the provided address is a valid IPv6
// unicast (and specified) address. That is, IsV6UnicastAddress returns
// true if addr contains IPv6AddressSize bytes, is not the unspecified
// address and is not a multicast address.
func IsV6UnicastAddress(addr tcpip.Address) bool {
if len(addr) != IPv6AddressSize {
return false
}
// Must not be unspecified
if addr == IPv6Any {
return false
}
// Return if not a multicast.
return addr[0] != 0xff
}
const solicitedNodeMulticastPrefix = "\xff\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\xff"
// SolicitedNodeAddr computes the solicited-node multicast address. This is
// used for NDP. Described in RFC 4291. The argument must be a full-length IPv6
// address.
func SolicitedNodeAddr(addr tcpip.Address) tcpip.Address {
return solicitedNodeMulticastPrefix + addr[len(addr)-3:]
}
// IsSolicitedNodeAddr determines whether the address is a solicited-node
// multicast address.
func IsSolicitedNodeAddr(addr tcpip.Address) bool {
return solicitedNodeMulticastPrefix == addr[:len(addr)-3]
}
// EthernetAdddressToModifiedEUI64IntoBuf populates buf with a modified EUI-64
// from a 48-bit Ethernet/MAC address, as per RFC 4291 section 2.5.1.
//
// buf MUST be at least 8 bytes.
func EthernetAdddressToModifiedEUI64IntoBuf(linkAddr tcpip.LinkAddress, buf []byte) {
buf[0] = linkAddr[0] ^ 2
buf[1] = linkAddr[1]
buf[2] = linkAddr[2]
buf[3] = 0xFF
buf[4] = 0xFE
buf[5] = linkAddr[3]
buf[6] = linkAddr[4]
buf[7] = linkAddr[5]
}
// EthernetAddressToModifiedEUI64 computes a modified EUI-64 from a 48-bit
// Ethernet/MAC address, as per RFC 4291 section 2.5.1.
func EthernetAddressToModifiedEUI64(linkAddr tcpip.LinkAddress) [IIDSize]byte {
var buf [IIDSize]byte
EthernetAdddressToModifiedEUI64IntoBuf(linkAddr, buf[:])
return buf
}
// LinkLocalAddr computes the default IPv6 link-local address from a link-layer
// (MAC) address.
func LinkLocalAddr(linkAddr tcpip.LinkAddress) tcpip.Address {
// Convert a 48-bit MAC to a modified EUI-64 and then prepend the
// link-local header, FE80::.
//
// The conversion is very nearly:
// aa:bb:cc:dd:ee:ff => FE80::Aabb:ccFF:FEdd:eeff
// Note the capital A. The conversion aa->Aa involves a bit flip.
lladdrb := [IPv6AddressSize]byte{
0: 0xFE,
1: 0x80,
}
EthernetAdddressToModifiedEUI64IntoBuf(linkAddr, lladdrb[IIDOffsetInIPv6Address:])
return tcpip.Address(lladdrb[:])
}
// IsV6LinkLocalAddress determines if the provided address is an IPv6
// link-local address (fe80::/10).
func IsV6LinkLocalAddress(addr tcpip.Address) bool {
if len(addr) != IPv6AddressSize {
return false
}
return addr[0] == 0xfe && (addr[1]&0xc0) == 0x80
}
// IsV6LoopbackAddress determines if the provided address is an IPv6 loopback
// address.
func IsV6LoopbackAddress(addr tcpip.Address) bool {
return addr == IPv6Loopback
}
// IsV6LinkLocalMulticastAddress determines if the provided address is an IPv6
// link-local multicast address.
func IsV6LinkLocalMulticastAddress(addr tcpip.Address) bool {
return IsV6MulticastAddress(addr) && addr[ipv6MulticastAddressScopeByteIdx]&ipv6MulticastAddressScopeMask == ipv6LinkLocalMulticastScope
}
// IsV6UniqueLocalAddress determines if the provided address is an IPv6
// unique-local address (within the prefix FC00::/7).
func IsV6UniqueLocalAddress(addr tcpip.Address) bool {
if len(addr) != IPv6AddressSize {
return false
}
// According to RFC 4193 section 3.1, a unique local address has the prefix
// FC00::/7.
return (addr[0] & 0xfe) == 0xfc
}
// AppendOpaqueInterfaceIdentifier appends a 64 bit opaque interface identifier
// (IID) to buf as outlined by RFC 7217 and returns the extended buffer.
//
// The opaque IID is generated from the cryptographic hash of the concatenation
// of the prefix, NIC's name, DAD counter (DAD retry counter) and the secret
// key. The secret key SHOULD be at least OpaqueIIDSecretKeyMinBytes bytes and
// MUST be generated to a pseudo-random number. See RFC 4086 for randomness
// requirements for security.
//
// If buf has enough capacity for the IID (IIDSize bytes), a new underlying
// array for the buffer will not be allocated.
func AppendOpaqueInterfaceIdentifier(buf []byte, prefix tcpip.Subnet, nicName string, dadCounter uint8, secretKey []byte) []byte {
// As per RFC 7217 section 5, the opaque identifier can be generated as a
// cryptographic hash of the concatenation of each of the function parameters.
// Note, we omit the optional Network_ID field.
h := sha256.New()
// h.Write never returns an error.
h.Write([]byte(prefix.ID()[:IIDOffsetInIPv6Address]))
h.Write([]byte(nicName))
h.Write([]byte{dadCounter})
h.Write(secretKey)
var sumBuf [sha256.Size]byte
sum := h.Sum(sumBuf[:0])
return append(buf, sum[:IIDSize]...)
}
// LinkLocalAddrWithOpaqueIID computes the default IPv6 link-local address with
// an opaque IID.
func LinkLocalAddrWithOpaqueIID(nicName string, dadCounter uint8, secretKey []byte) tcpip.Address {
lladdrb := [IPv6AddressSize]byte{
0: 0xFE,
1: 0x80,
}
return tcpip.Address(AppendOpaqueInterfaceIdentifier(lladdrb[:IIDOffsetInIPv6Address], IPv6LinkLocalPrefix.Subnet(), nicName, dadCounter, secretKey))
}
// IPv6AddressScope is the scope of an IPv6 address.
type IPv6AddressScope int
const (
// LinkLocalScope indicates a link-local address.
LinkLocalScope IPv6AddressScope = iota
// UniqueLocalScope indicates a unique-local address.
UniqueLocalScope
// GlobalScope indicates a global address.
GlobalScope
)
// ScopeForIPv6Address returns the scope for an IPv6 address.
func ScopeForIPv6Address(addr tcpip.Address) (IPv6AddressScope, *tcpip.Error) {
if len(addr) != IPv6AddressSize {
return GlobalScope, tcpip.ErrBadAddress
}
switch {
case IsV6LinkLocalMulticastAddress(addr):
return LinkLocalScope, nil
case IsV6LinkLocalAddress(addr):
return LinkLocalScope, nil
case IsV6UniqueLocalAddress(addr):
return UniqueLocalScope, nil
default:
return GlobalScope, nil
}
}
// InitialTempIID generates the initial temporary IID history value to generate
// temporary SLAAC addresses with.
//
// Panics if initialTempIIDHistory is not at least IIDSize bytes.
func InitialTempIID(initialTempIIDHistory []byte, seed []byte, nicID tcpip.NICID) {
h := sha256.New()
// h.Write never returns an error.
h.Write(seed)
var nicIDBuf [4]byte
binary.BigEndian.PutUint32(nicIDBuf[:], uint32(nicID))
h.Write(nicIDBuf[:])
var sumBuf [sha256.Size]byte
sum := h.Sum(sumBuf[:0])
if n := copy(initialTempIIDHistory, sum[sha256.Size-IIDSize:]); n != IIDSize {
panic(fmt.Sprintf("copied %d bytes, expected %d bytes", n, IIDSize))
}
}
// GenerateTempIPv6SLAACAddr generates a temporary SLAAC IPv6 address for an
// associated stable/permanent SLAAC address.
//
// GenerateTempIPv6SLAACAddr will update the temporary IID history value to be
// used when generating a new temporary IID.
//
// Panics if tempIIDHistory is not at least IIDSize bytes.
func GenerateTempIPv6SLAACAddr(tempIIDHistory []byte, stableAddr tcpip.Address) tcpip.AddressWithPrefix {
addrBytes := []byte(stableAddr)
h := sha256.New()
h.Write(tempIIDHistory)
h.Write(addrBytes[IIDOffsetInIPv6Address:])
var sumBuf [sha256.Size]byte
sum := h.Sum(sumBuf[:0])
// The rightmost 64 bits of sum are saved for the next iteration.
if n := copy(tempIIDHistory, sum[sha256.Size-IIDSize:]); n != IIDSize {
panic(fmt.Sprintf("copied %d bytes, expected %d bytes", n, IIDSize))
}
// The leftmost 64 bits of sum is used as the IID.
if n := copy(addrBytes[IIDOffsetInIPv6Address:], sum); n != IIDSize {
panic(fmt.Sprintf("copied %d IID bytes, expected %d bytes", n, IIDSize))
}
return tcpip.AddressWithPrefix{
Address: tcpip.Address(addrBytes),
PrefixLen: IIDOffsetInIPv6Address * 8,
}
}
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