github.com/metacubex/gvisor@v0.0.0-20240320004321-933faba989ec/pkg/tcpip/header/ipv6.go (about)

     1  // Copyright 2018 The gVisor Authors.
     2  //
     3  // Licensed under the Apache License, Version 2.0 (the "License");
     4  // you may not use this file except in compliance with the License.
     5  // You may obtain a copy of the License at
     6  //
     7  //     http://www.apache.org/licenses/LICENSE-2.0
     8  //
     9  // Unless required by applicable law or agreed to in writing, software
    10  // distributed under the License is distributed on an "AS IS" BASIS,
    11  // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    12  // See the License for the specific language governing permissions and
    13  // limitations under the License.
    14  
    15  package header
    16  
    17  import (
    18  	"crypto/sha256"
    19  	"encoding/binary"
    20  	"fmt"
    21  	"unsafe"
    22  
    23  	"github.com/metacubex/gvisor/pkg/tcpip"
    24  )
    25  
    26  const (
    27  	versTCFL = 0
    28  	// IPv6PayloadLenOffset is the offset of the PayloadLength field in
    29  	// IPv6 header.
    30  	IPv6PayloadLenOffset = 4
    31  	// IPv6NextHeaderOffset is the offset of the NextHeader field in
    32  	// IPv6 header.
    33  	IPv6NextHeaderOffset = 6
    34  	hopLimit             = 7
    35  	v6SrcAddr            = 8
    36  	v6DstAddr            = v6SrcAddr + IPv6AddressSize
    37  
    38  	// IPv6FixedHeaderSize is the size of the fixed header.
    39  	IPv6FixedHeaderSize = v6DstAddr + IPv6AddressSize
    40  )
    41  
    42  // IPv6Fields contains the fields of an IPv6 packet. It is used to describe the
    43  // fields of a packet that needs to be encoded.
    44  type IPv6Fields struct {
    45  	// TrafficClass is the "traffic class" field of an IPv6 packet.
    46  	TrafficClass uint8
    47  
    48  	// FlowLabel is the "flow label" field of an IPv6 packet.
    49  	FlowLabel uint32
    50  
    51  	// PayloadLength is the "payload length" field of an IPv6 packet, including
    52  	// the length of all extension headers.
    53  	PayloadLength uint16
    54  
    55  	// TransportProtocol is the transport layer protocol number. Serialized in the
    56  	// last "next header" field of the IPv6 header + extension headers.
    57  	TransportProtocol tcpip.TransportProtocolNumber
    58  
    59  	// HopLimit is the "Hop Limit" field of an IPv6 packet.
    60  	HopLimit uint8
    61  
    62  	// SrcAddr is the "source ip address" of an IPv6 packet.
    63  	SrcAddr tcpip.Address
    64  
    65  	// DstAddr is the "destination ip address" of an IPv6 packet.
    66  	DstAddr tcpip.Address
    67  
    68  	// ExtensionHeaders are the extension headers following the IPv6 header.
    69  	ExtensionHeaders IPv6ExtHdrSerializer
    70  }
    71  
    72  // IPv6 represents an ipv6 header stored in a byte array.
    73  // Most of the methods of IPv6 access to the underlying slice without
    74  // checking the boundaries and could panic because of 'index out of range'.
    75  // Always call IsValid() to validate an instance of IPv6 before using other methods.
    76  type IPv6 []byte
    77  
    78  const (
    79  	// IPv6MinimumSize is the minimum size of a valid IPv6 packet.
    80  	IPv6MinimumSize = IPv6FixedHeaderSize
    81  
    82  	// IPv6AddressSize is the size, in bytes, of an IPv6 address.
    83  	IPv6AddressSize = 16
    84  
    85  	// IPv6AddressSizeBits is the size, in bits, of an IPv6 address.
    86  	IPv6AddressSizeBits = 128
    87  
    88  	// IPv6MaximumPayloadSize is the maximum size of a valid IPv6 payload per
    89  	// RFC 8200 Section 4.5.
    90  	IPv6MaximumPayloadSize = 65535
    91  
    92  	// IPv6ProtocolNumber is IPv6's network protocol number.
    93  	IPv6ProtocolNumber tcpip.NetworkProtocolNumber = 0x86dd
    94  
    95  	// IPv6Version is the version of the ipv6 protocol.
    96  	IPv6Version = 6
    97  
    98  	// IIDSize is the size of an interface identifier (IID), in bytes, as
    99  	// defined by RFC 4291 section 2.5.1.
   100  	IIDSize = 8
   101  
   102  	// IPv6MinimumMTU is the minimum MTU required by IPv6, per RFC 8200,
   103  	// section 5:
   104  	//   IPv6 requires that every link in the Internet have an MTU of 1280 octets
   105  	//   or greater.  This is known as the IPv6 minimum link MTU.
   106  	IPv6MinimumMTU = 1280
   107  
   108  	// IIDOffsetInIPv6Address is the offset, in bytes, from the start
   109  	// of an IPv6 address to the beginning of the interface identifier
   110  	// (IID) for auto-generated addresses. That is, all bytes before
   111  	// the IIDOffsetInIPv6Address-th byte are the prefix bytes, and all
   112  	// bytes including and after the IIDOffsetInIPv6Address-th byte are
   113  	// for the IID.
   114  	IIDOffsetInIPv6Address = 8
   115  
   116  	// OpaqueIIDSecretKeyMinBytes is the recommended minimum number of bytes
   117  	// for the secret key used to generate an opaque interface identifier as
   118  	// outlined by RFC 7217.
   119  	OpaqueIIDSecretKeyMinBytes = 16
   120  
   121  	// ipv6MulticastAddressScopeByteIdx is the byte where the scope (scop) field
   122  	// is located within a multicast IPv6 address, as per RFC 4291 section 2.7.
   123  	ipv6MulticastAddressScopeByteIdx = 1
   124  
   125  	// ipv6MulticastAddressScopeMask is the mask for the scope (scop) field,
   126  	// within the byte holding the field, as per RFC 4291 section 2.7.
   127  	ipv6MulticastAddressScopeMask = 0xF
   128  )
   129  
   130  var (
   131  	// IPv6AllNodesMulticastAddress is a link-local multicast group that
   132  	// all IPv6 nodes MUST join, as per RFC 4291, section 2.8. Packets
   133  	// destined to this address will reach all nodes on a link.
   134  	//
   135  	// The address is ff02::1.
   136  	IPv6AllNodesMulticastAddress = tcpip.AddrFrom16([16]byte{0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01})
   137  
   138  	// IPv6AllRoutersInterfaceLocalMulticastAddress is an interface-local
   139  	// multicast group that all IPv6 routers MUST join, as per RFC 4291, section
   140  	// 2.8. Packets destined to this address will reach the router on an
   141  	// interface.
   142  	//
   143  	// The address is ff01::2.
   144  	IPv6AllRoutersInterfaceLocalMulticastAddress = tcpip.AddrFrom16([16]byte{0xff, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02})
   145  
   146  	// IPv6AllRoutersLinkLocalMulticastAddress is a link-local multicast group
   147  	// that all IPv6 routers MUST join, as per RFC 4291, section 2.8. Packets
   148  	// destined to this address will reach all routers on a link.
   149  	//
   150  	// The address is ff02::2.
   151  	IPv6AllRoutersLinkLocalMulticastAddress = tcpip.AddrFrom16([16]byte{0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02})
   152  
   153  	// IPv6AllRoutersSiteLocalMulticastAddress is a site-local multicast group
   154  	// that all IPv6 routers MUST join, as per RFC 4291, section 2.8. Packets
   155  	// destined to this address will reach all routers in a site.
   156  	//
   157  	// The address is ff05::2.
   158  	IPv6AllRoutersSiteLocalMulticastAddress = tcpip.AddrFrom16([16]byte{0xff, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02})
   159  
   160  	// IPv6Loopback is the IPv6 Loopback address.
   161  	IPv6Loopback = tcpip.AddrFrom16([16]byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01})
   162  
   163  	// IPv6Any is the non-routable IPv6 "any" meta address. It is also
   164  	// known as the unspecified address.
   165  	IPv6Any = tcpip.AddrFrom16([16]byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00})
   166  )
   167  
   168  // IPv6EmptySubnet is the empty IPv6 subnet. It may also be known as the
   169  // catch-all or wildcard subnet. That is, all IPv6 addresses are considered to
   170  // be contained within this subnet.
   171  var IPv6EmptySubnet = tcpip.AddressWithPrefix{
   172  	Address:   IPv6Any,
   173  	PrefixLen: 0,
   174  }.Subnet()
   175  
   176  // IPv4MappedIPv6Subnet is the prefix for an IPv4 mapped IPv6 address as defined
   177  // by RFC 4291 section 2.5.5.
   178  var IPv4MappedIPv6Subnet = tcpip.AddressWithPrefix{
   179  	Address:   tcpip.AddrFrom16([16]byte{0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0xff, 0x00, 0x00, 0x00, 0x00}),
   180  	PrefixLen: 96,
   181  }.Subnet()
   182  
   183  // IPv6LinkLocalPrefix is the prefix for IPv6 link-local addresses, as defined
   184  // by RFC 4291 section 2.5.6.
   185  //
   186  // The prefix is fe80::/64
   187  var IPv6LinkLocalPrefix = tcpip.AddressWithPrefix{
   188  	Address:   tcpip.AddrFrom16([16]byte{0xfe, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}),
   189  	PrefixLen: 64,
   190  }
   191  
   192  // PayloadLength returns the value of the "payload length" field of the ipv6
   193  // header.
   194  func (b IPv6) PayloadLength() uint16 {
   195  	return binary.BigEndian.Uint16(b[IPv6PayloadLenOffset:])
   196  }
   197  
   198  // HopLimit returns the value of the "Hop Limit" field of the ipv6 header.
   199  func (b IPv6) HopLimit() uint8 {
   200  	return b[hopLimit]
   201  }
   202  
   203  // NextHeader returns the value of the "next header" field of the ipv6 header.
   204  func (b IPv6) NextHeader() uint8 {
   205  	return b[IPv6NextHeaderOffset]
   206  }
   207  
   208  // TransportProtocol implements Network.TransportProtocol.
   209  func (b IPv6) TransportProtocol() tcpip.TransportProtocolNumber {
   210  	return tcpip.TransportProtocolNumber(b.NextHeader())
   211  }
   212  
   213  // Payload implements Network.Payload.
   214  func (b IPv6) Payload() []byte {
   215  	return b[IPv6MinimumSize:][:b.PayloadLength()]
   216  }
   217  
   218  // SourceAddress returns the "source address" field of the ipv6 header.
   219  func (b IPv6) SourceAddress() tcpip.Address {
   220  	return tcpip.AddrFrom16Slice(b[v6SrcAddr:][:IPv6AddressSize])
   221  }
   222  
   223  // DestinationAddress returns the "destination address" field of the ipv6
   224  // header.
   225  func (b IPv6) DestinationAddress() tcpip.Address {
   226  	return tcpip.AddrFrom16Slice(b[v6DstAddr:][:IPv6AddressSize])
   227  }
   228  
   229  // Checksum implements Network.Checksum. Given that IPv6 doesn't have a
   230  // checksum, it just returns 0.
   231  func (IPv6) Checksum() uint16 {
   232  	return 0
   233  }
   234  
   235  // TOS returns the "traffic class" and "flow label" fields of the ipv6 header.
   236  func (b IPv6) TOS() (uint8, uint32) {
   237  	v := binary.BigEndian.Uint32(b[versTCFL:])
   238  	return uint8(v >> 20), v & 0xfffff
   239  }
   240  
   241  // SetTOS sets the "traffic class" and "flow label" fields of the ipv6 header.
   242  func (b IPv6) SetTOS(t uint8, l uint32) {
   243  	vtf := (6 << 28) | (uint32(t) << 20) | (l & 0xfffff)
   244  	binary.BigEndian.PutUint32(b[versTCFL:], vtf)
   245  }
   246  
   247  // SetPayloadLength sets the "payload length" field of the ipv6 header.
   248  func (b IPv6) SetPayloadLength(payloadLength uint16) {
   249  	binary.BigEndian.PutUint16(b[IPv6PayloadLenOffset:], payloadLength)
   250  }
   251  
   252  // SetSourceAddress sets the "source address" field of the ipv6 header.
   253  func (b IPv6) SetSourceAddress(addr tcpip.Address) {
   254  	copy(b[v6SrcAddr:][:IPv6AddressSize], addr.AsSlice())
   255  }
   256  
   257  // SetDestinationAddress sets the "destination address" field of the ipv6
   258  // header.
   259  func (b IPv6) SetDestinationAddress(addr tcpip.Address) {
   260  	copy(b[v6DstAddr:][:IPv6AddressSize], addr.AsSlice())
   261  }
   262  
   263  // SetHopLimit sets the value of the "Hop Limit" field.
   264  func (b IPv6) SetHopLimit(v uint8) {
   265  	b[hopLimit] = v
   266  }
   267  
   268  // SetNextHeader sets the value of the "next header" field of the ipv6 header.
   269  func (b IPv6) SetNextHeader(v uint8) {
   270  	b[IPv6NextHeaderOffset] = v
   271  }
   272  
   273  // SetChecksum implements Network.SetChecksum. Given that IPv6 doesn't have a
   274  // checksum, it is empty.
   275  func (IPv6) SetChecksum(uint16) {
   276  }
   277  
   278  // Encode encodes all the fields of the ipv6 header.
   279  func (b IPv6) Encode(i *IPv6Fields) {
   280  	extHdr := b[IPv6MinimumSize:]
   281  	b.SetTOS(i.TrafficClass, i.FlowLabel)
   282  	b.SetPayloadLength(i.PayloadLength)
   283  	b[hopLimit] = i.HopLimit
   284  	b.SetSourceAddress(i.SrcAddr)
   285  	b.SetDestinationAddress(i.DstAddr)
   286  	nextHeader, _ := i.ExtensionHeaders.Serialize(i.TransportProtocol, extHdr)
   287  	b[IPv6NextHeaderOffset] = nextHeader
   288  }
   289  
   290  // IsValid performs basic validation on the packet.
   291  func (b IPv6) IsValid(pktSize int) bool {
   292  	if len(b) < IPv6MinimumSize {
   293  		return false
   294  	}
   295  
   296  	dlen := int(b.PayloadLength())
   297  	if dlen > pktSize-IPv6MinimumSize {
   298  		return false
   299  	}
   300  
   301  	if IPVersion(b) != IPv6Version {
   302  		return false
   303  	}
   304  
   305  	return true
   306  }
   307  
   308  // IsV4MappedAddress determines if the provided address is an IPv4 mapped
   309  // address by checking if its prefix is 0:0:0:0:0:ffff::/96.
   310  func IsV4MappedAddress(addr tcpip.Address) bool {
   311  	if addr.BitLen() != IPv6AddressSizeBits {
   312  		return false
   313  	}
   314  
   315  	return IPv4MappedIPv6Subnet.Contains(addr)
   316  }
   317  
   318  // IsV6MulticastAddress determines if the provided address is an IPv6
   319  // multicast address (anything starting with FF).
   320  func IsV6MulticastAddress(addr tcpip.Address) bool {
   321  	if addr.BitLen() != IPv6AddressSizeBits {
   322  		return false
   323  	}
   324  	return addr.As16()[0] == 0xff
   325  }
   326  
   327  // IsV6UnicastAddress determines if the provided address is a valid IPv6
   328  // unicast (and specified) address. That is, IsV6UnicastAddress returns
   329  // true if addr contains IPv6AddressSize bytes, is not the unspecified
   330  // address and is not a multicast address.
   331  func IsV6UnicastAddress(addr tcpip.Address) bool {
   332  	if addr.BitLen() != IPv6AddressSizeBits {
   333  		return false
   334  	}
   335  
   336  	// Must not be unspecified
   337  	if addr == IPv6Any {
   338  		return false
   339  	}
   340  
   341  	// Return if not a multicast.
   342  	return addr.As16()[0] != 0xff
   343  }
   344  
   345  var solicitedNodeMulticastPrefix = [13]byte{0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0xff}
   346  
   347  // SolicitedNodeAddr computes the solicited-node multicast address. This is
   348  // used for NDP. Described in RFC 4291. The argument must be a full-length IPv6
   349  // address.
   350  func SolicitedNodeAddr(addr tcpip.Address) tcpip.Address {
   351  	addrBytes := addr.As16()
   352  	return tcpip.AddrFrom16Slice(append(solicitedNodeMulticastPrefix[:], addrBytes[len(addrBytes)-3:]...))
   353  }
   354  
   355  // IsSolicitedNodeAddr determines whether the address is a solicited-node
   356  // multicast address.
   357  func IsSolicitedNodeAddr(addr tcpip.Address) bool {
   358  	addrBytes := addr.As16()
   359  	return solicitedNodeMulticastPrefix == *(*[13]byte)(unsafe.Pointer(&addrBytes[0]))
   360  }
   361  
   362  // EthernetAdddressToModifiedEUI64IntoBuf populates buf with a modified EUI-64
   363  // from a 48-bit Ethernet/MAC address, as per RFC 4291 section 2.5.1.
   364  //
   365  // buf MUST be at least 8 bytes.
   366  func EthernetAdddressToModifiedEUI64IntoBuf(linkAddr tcpip.LinkAddress, buf []byte) {
   367  	buf[0] = linkAddr[0] ^ 2
   368  	buf[1] = linkAddr[1]
   369  	buf[2] = linkAddr[2]
   370  	buf[3] = 0xFF
   371  	buf[4] = 0xFE
   372  	buf[5] = linkAddr[3]
   373  	buf[6] = linkAddr[4]
   374  	buf[7] = linkAddr[5]
   375  }
   376  
   377  // EthernetAddressToModifiedEUI64 computes a modified EUI-64 from a 48-bit
   378  // Ethernet/MAC address, as per RFC 4291 section 2.5.1.
   379  func EthernetAddressToModifiedEUI64(linkAddr tcpip.LinkAddress) [IIDSize]byte {
   380  	var buf [IIDSize]byte
   381  	EthernetAdddressToModifiedEUI64IntoBuf(linkAddr, buf[:])
   382  	return buf
   383  }
   384  
   385  // LinkLocalAddr computes the default IPv6 link-local address from a link-layer
   386  // (MAC) address.
   387  func LinkLocalAddr(linkAddr tcpip.LinkAddress) tcpip.Address {
   388  	// Convert a 48-bit MAC to a modified EUI-64 and then prepend the
   389  	// link-local header, FE80::.
   390  	//
   391  	// The conversion is very nearly:
   392  	//	aa:bb:cc:dd:ee:ff => FE80::Aabb:ccFF:FEdd:eeff
   393  	// Note the capital A. The conversion aa->Aa involves a bit flip.
   394  	lladdrb := [IPv6AddressSize]byte{
   395  		0: 0xFE,
   396  		1: 0x80,
   397  	}
   398  	EthernetAdddressToModifiedEUI64IntoBuf(linkAddr, lladdrb[IIDOffsetInIPv6Address:])
   399  	return tcpip.AddrFrom16(lladdrb)
   400  }
   401  
   402  // IsV6LinkLocalUnicastAddress returns true iff the provided address is an IPv6
   403  // link-local unicast address, as defined by RFC 4291 section 2.5.6.
   404  func IsV6LinkLocalUnicastAddress(addr tcpip.Address) bool {
   405  	if addr.BitLen() != IPv6AddressSizeBits {
   406  		return false
   407  	}
   408  	addrBytes := addr.As16()
   409  	return addrBytes[0] == 0xfe && (addrBytes[1]&0xc0) == 0x80
   410  }
   411  
   412  // IsV6LoopbackAddress returns true iff the provided address is an IPv6 loopback
   413  // address, as defined by RFC 4291 section 2.5.3.
   414  func IsV6LoopbackAddress(addr tcpip.Address) bool {
   415  	return addr == IPv6Loopback
   416  }
   417  
   418  // IsV6LinkLocalMulticastAddress returns true iff the provided address is an
   419  // IPv6 link-local multicast address, as defined by RFC 4291 section 2.7.
   420  func IsV6LinkLocalMulticastAddress(addr tcpip.Address) bool {
   421  	return IsV6MulticastAddress(addr) && V6MulticastScope(addr) == IPv6LinkLocalMulticastScope
   422  }
   423  
   424  // AppendOpaqueInterfaceIdentifier appends a 64 bit opaque interface identifier
   425  // (IID) to buf as outlined by RFC 7217 and returns the extended buffer.
   426  //
   427  // The opaque IID is generated from the cryptographic hash of the concatenation
   428  // of the prefix, NIC's name, DAD counter (DAD retry counter) and the secret
   429  // key. The secret key SHOULD be at least OpaqueIIDSecretKeyMinBytes bytes and
   430  // MUST be generated to a pseudo-random number. See RFC 4086 for randomness
   431  // requirements for security.
   432  //
   433  // If buf has enough capacity for the IID (IIDSize bytes), a new underlying
   434  // array for the buffer will not be allocated.
   435  func AppendOpaqueInterfaceIdentifier(buf []byte, prefix tcpip.Subnet, nicName string, dadCounter uint8, secretKey []byte) []byte {
   436  	// As per RFC 7217 section 5, the opaque identifier can be generated as a
   437  	// cryptographic hash of the concatenation of each of the function parameters.
   438  	// Note, we omit the optional Network_ID field.
   439  	h := sha256.New()
   440  	// h.Write never returns an error.
   441  	prefixID := prefix.ID()
   442  	h.Write([]byte(prefixID.AsSlice()[:IIDOffsetInIPv6Address]))
   443  	h.Write([]byte(nicName))
   444  	h.Write([]byte{dadCounter})
   445  	h.Write(secretKey)
   446  
   447  	var sumBuf [sha256.Size]byte
   448  	sum := h.Sum(sumBuf[:0])
   449  
   450  	return append(buf, sum[:IIDSize]...)
   451  }
   452  
   453  // LinkLocalAddrWithOpaqueIID computes the default IPv6 link-local address with
   454  // an opaque IID.
   455  func LinkLocalAddrWithOpaqueIID(nicName string, dadCounter uint8, secretKey []byte) tcpip.Address {
   456  	lladdrb := [IPv6AddressSize]byte{
   457  		0: 0xFE,
   458  		1: 0x80,
   459  	}
   460  
   461  	return tcpip.AddrFrom16Slice(AppendOpaqueInterfaceIdentifier(lladdrb[:IIDOffsetInIPv6Address], IPv6LinkLocalPrefix.Subnet(), nicName, dadCounter, secretKey))
   462  }
   463  
   464  // IPv6AddressScope is the scope of an IPv6 address.
   465  type IPv6AddressScope int
   466  
   467  const (
   468  	// LinkLocalScope indicates a link-local address.
   469  	LinkLocalScope IPv6AddressScope = iota
   470  
   471  	// GlobalScope indicates a global address.
   472  	GlobalScope
   473  )
   474  
   475  // ScopeForIPv6Address returns the scope for an IPv6 address.
   476  func ScopeForIPv6Address(addr tcpip.Address) (IPv6AddressScope, tcpip.Error) {
   477  	if addr.BitLen() != IPv6AddressSizeBits {
   478  		return GlobalScope, &tcpip.ErrBadAddress{}
   479  	}
   480  
   481  	switch {
   482  	case IsV6LinkLocalMulticastAddress(addr):
   483  		return LinkLocalScope, nil
   484  
   485  	case IsV6LinkLocalUnicastAddress(addr):
   486  		return LinkLocalScope, nil
   487  
   488  	default:
   489  		return GlobalScope, nil
   490  	}
   491  }
   492  
   493  // InitialTempIID generates the initial temporary IID history value to generate
   494  // temporary SLAAC addresses with.
   495  //
   496  // Panics if initialTempIIDHistory is not at least IIDSize bytes.
   497  func InitialTempIID(initialTempIIDHistory []byte, seed []byte, nicID tcpip.NICID) {
   498  	h := sha256.New()
   499  	// h.Write never returns an error.
   500  	h.Write(seed)
   501  	var nicIDBuf [4]byte
   502  	binary.BigEndian.PutUint32(nicIDBuf[:], uint32(nicID))
   503  	h.Write(nicIDBuf[:])
   504  
   505  	var sumBuf [sha256.Size]byte
   506  	sum := h.Sum(sumBuf[:0])
   507  
   508  	if n := copy(initialTempIIDHistory, sum[sha256.Size-IIDSize:]); n != IIDSize {
   509  		panic(fmt.Sprintf("copied %d bytes, expected %d bytes", n, IIDSize))
   510  	}
   511  }
   512  
   513  // GenerateTempIPv6SLAACAddr generates a temporary SLAAC IPv6 address for an
   514  // associated stable/permanent SLAAC address.
   515  //
   516  // GenerateTempIPv6SLAACAddr will update the temporary IID history value to be
   517  // used when generating a new temporary IID.
   518  //
   519  // Panics if tempIIDHistory is not at least IIDSize bytes.
   520  func GenerateTempIPv6SLAACAddr(tempIIDHistory []byte, stableAddr tcpip.Address) tcpip.AddressWithPrefix {
   521  	addrBytes := stableAddr.As16()
   522  	h := sha256.New()
   523  	h.Write(tempIIDHistory)
   524  	h.Write(addrBytes[IIDOffsetInIPv6Address:])
   525  	var sumBuf [sha256.Size]byte
   526  	sum := h.Sum(sumBuf[:0])
   527  
   528  	// The rightmost 64 bits of sum are saved for the next iteration.
   529  	if n := copy(tempIIDHistory, sum[sha256.Size-IIDSize:]); n != IIDSize {
   530  		panic(fmt.Sprintf("copied %d bytes, expected %d bytes", n, IIDSize))
   531  	}
   532  
   533  	// The leftmost 64 bits of sum is used as the IID.
   534  	if n := copy(addrBytes[IIDOffsetInIPv6Address:], sum); n != IIDSize {
   535  		panic(fmt.Sprintf("copied %d IID bytes, expected %d bytes", n, IIDSize))
   536  	}
   537  
   538  	return tcpip.AddressWithPrefix{
   539  		Address:   tcpip.AddrFrom16(addrBytes),
   540  		PrefixLen: IIDOffsetInIPv6Address * 8,
   541  	}
   542  }
   543  
   544  // IPv6MulticastScope is the scope of a multicast IPv6 address, as defined by
   545  // RFC 7346 section 2.
   546  type IPv6MulticastScope uint8
   547  
   548  // The various values for IPv6 multicast scopes, as per RFC 7346 section 2:
   549  //
   550  //	+------+--------------------------+-------------------------+
   551  //	| scop | NAME                     | REFERENCE               |
   552  //	+------+--------------------------+-------------------------+
   553  //	|  0   | Reserved                 | [RFC4291], RFC 7346     |
   554  //	|  1   | Interface-Local scope    | [RFC4291], RFC 7346     |
   555  //	|  2   | Link-Local scope         | [RFC4291], RFC 7346     |
   556  //	|  3   | Realm-Local scope        | [RFC4291], RFC 7346     |
   557  //	|  4   | Admin-Local scope        | [RFC4291], RFC 7346     |
   558  //	|  5   | Site-Local scope         | [RFC4291], RFC 7346     |
   559  //	|  6   | Unassigned               |                         |
   560  //	|  7   | Unassigned               |                         |
   561  //	|  8   | Organization-Local scope | [RFC4291], RFC 7346     |
   562  //	|  9   | Unassigned               |                         |
   563  //	|  A   | Unassigned               |                         |
   564  //	|  B   | Unassigned               |                         |
   565  //	|  C   | Unassigned               |                         |
   566  //	|  D   | Unassigned               |                         |
   567  //	|  E   | Global scope             | [RFC4291], RFC 7346     |
   568  //	|  F   | Reserved                 | [RFC4291], RFC 7346     |
   569  //	+------+--------------------------+-------------------------+
   570  const (
   571  	IPv6Reserved0MulticastScope         = IPv6MulticastScope(0x0)
   572  	IPv6InterfaceLocalMulticastScope    = IPv6MulticastScope(0x1)
   573  	IPv6LinkLocalMulticastScope         = IPv6MulticastScope(0x2)
   574  	IPv6RealmLocalMulticastScope        = IPv6MulticastScope(0x3)
   575  	IPv6AdminLocalMulticastScope        = IPv6MulticastScope(0x4)
   576  	IPv6SiteLocalMulticastScope         = IPv6MulticastScope(0x5)
   577  	IPv6OrganizationLocalMulticastScope = IPv6MulticastScope(0x8)
   578  	IPv6GlobalMulticastScope            = IPv6MulticastScope(0xE)
   579  	IPv6ReservedFMulticastScope         = IPv6MulticastScope(0xF)
   580  )
   581  
   582  // V6MulticastScope returns the scope of a multicast address.
   583  func V6MulticastScope(addr tcpip.Address) IPv6MulticastScope {
   584  	addrBytes := addr.As16()
   585  	return IPv6MulticastScope(addrBytes[ipv6MulticastAddressScopeByteIdx] & ipv6MulticastAddressScopeMask)
   586  }