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|
// Copyright 2012 Google, Inc. All rights reserved.
// Copyright 2009-2011 Andreas Krennmair. All rights reserved.
//
// Use of this source code is governed by a BSD-style license
// that can be found in the LICENSE file in the root of the source
// tree.
package layers
import (
"encoding/binary"
"errors"
"fmt"
"net"
"strings"
"github.com/gopacket/gopacket"
)
type IPv4Flag uint8
const (
IPv4EvilBit IPv4Flag = 1 << 2 // http://tools.ietf.org/html/rfc3514 ;)
IPv4DontFragment IPv4Flag = 1 << 1
IPv4MoreFragments IPv4Flag = 1 << 0
)
func (f IPv4Flag) String() string {
var s []string
if f&IPv4EvilBit != 0 {
s = append(s, "Evil")
}
if f&IPv4DontFragment != 0 {
s = append(s, "DF")
}
if f&IPv4MoreFragments != 0 {
s = append(s, "MF")
}
return strings.Join(s, "|")
}
// IPv4 is the header of an IP packet.
type IPv4 struct {
BaseLayer
Version uint8
IHL uint8
TOS uint8
Length uint16
Id uint16
Flags IPv4Flag
FragOffset uint16
TTL uint8
Protocol IPProtocol
Checksum uint16
SrcIP net.IP
DstIP net.IP
Options []IPv4Option
Padding []byte
}
// LayerType returns LayerTypeIPv4
func (i *IPv4) LayerType() gopacket.LayerType { return LayerTypeIPv4 }
func (i *IPv4) NetworkFlow() gopacket.Flow {
return gopacket.NewFlow(EndpointIPv4, i.SrcIP, i.DstIP)
}
type IPv4Option struct {
OptionType uint8
OptionLength uint8
OptionData []byte
}
func (i IPv4Option) String() string {
return fmt.Sprintf("IPv4Option(%v:%v)", i.OptionType, i.OptionData)
}
// for the current ipv4 options, return the number of bytes (including
// padding that the options used)
func (ip *IPv4) getIPv4OptionSize() uint8 {
optionSize := uint8(0)
for _, opt := range ip.Options {
switch opt.OptionType {
case 0:
// this is the end of option lists
optionSize++
case 1:
// this is the padding
optionSize++
default:
optionSize += opt.OptionLength
}
}
// make sure the options are aligned to 32 bit boundary
if (optionSize % 4) != 0 {
optionSize += 4 - (optionSize % 4)
}
return optionSize
}
// SerializeTo writes the serialized form of this layer into the
// SerializationBuffer, implementing gopacket.SerializableLayer.
func (ip *IPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error {
optionLength := ip.getIPv4OptionSize()
bytes, err := b.PrependBytes(20 + int(optionLength))
if err != nil {
return err
}
if opts.FixLengths {
ip.IHL = 5 + (optionLength / 4)
ip.Length = uint16(len(b.Bytes()))
}
bytes[0] = (ip.Version << 4) | ip.IHL
bytes[1] = ip.TOS
binary.BigEndian.PutUint16(bytes[2:], ip.Length)
binary.BigEndian.PutUint16(bytes[4:], ip.Id)
binary.BigEndian.PutUint16(bytes[6:], ip.flagsfrags())
bytes[8] = ip.TTL
bytes[9] = byte(ip.Protocol)
if err := ip.AddressTo4(); err != nil {
return err
}
copy(bytes[12:16], ip.SrcIP)
copy(bytes[16:20], ip.DstIP)
curLocation := 20
// Now, we will encode the options
for _, opt := range ip.Options {
switch opt.OptionType {
case 0:
// this is the end of option lists
bytes[curLocation] = 0
curLocation++
case 1:
// this is the padding
bytes[curLocation] = 1
curLocation++
default:
bytes[curLocation] = opt.OptionType
bytes[curLocation+1] = opt.OptionLength
// sanity checking to protect us from buffer overrun
if len(opt.OptionData) > int(opt.OptionLength-2) {
return errors.New("option length is smaller than length of option data")
}
copy(bytes[curLocation+2:curLocation+int(opt.OptionLength)], opt.OptionData)
curLocation += int(opt.OptionLength)
}
}
if opts.ComputeChecksums {
// Clear checksum bytes
bytes[10] = 0
bytes[11] = 0
csum := gopacket.ComputeChecksum(bytes, 0)
ip.Checksum = gopacket.FoldChecksum(csum)
}
binary.BigEndian.PutUint16(bytes[10:], ip.Checksum)
return nil
}
func (ip *IPv4) flagsfrags() (ff uint16) {
ff |= uint16(ip.Flags) << 13
ff |= ip.FragOffset
return
}
// DecodeFromBytes decodes the given bytes into this layer.
func (ip *IPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error {
if len(data) < 20 {
df.SetTruncated()
return fmt.Errorf("Invalid ip4 header. Length %d less than 20", len(data))
}
ip.Length = binary.BigEndian.Uint16(data[2:4])
ip.IHL = uint8(data[0]) & 0x0F
// This code is added for the following enviroment:
// * Windows 10 with TSO option activated. ( tested on Hyper-V, RealTek ethernet driver )
if ip.Length == 0 {
// If using TSO(TCP Segmentation Offload), length is zero.
// The actual packet length is the length of data.
ip.Length = uint16(len(data))
}
if ip.Length < 20 {
return fmt.Errorf("Invalid (too small) IP length (%d < 20)", ip.Length)
} else if ip.IHL < 5 {
return fmt.Errorf("Invalid (too small) IP header length (%d < 5)", ip.IHL)
} else if int(ip.IHL*4) > int(ip.Length) {
return fmt.Errorf("Invalid IP header length > IP length (%d > %d)", ip.IHL, ip.Length)
}
if cmp := len(data) - int(ip.Length); cmp > 0 {
data = data[:ip.Length]
} else if cmp < 0 {
df.SetTruncated()
if int(ip.IHL)*4 > len(data) {
return errors.New("Not all IP header bytes available")
}
}
ip.Options = ip.Options[:0]
ip.Contents = data[:ip.IHL*4]
ip.Payload = data[ip.IHL*4:]
// From here on, data contains the header options.
headerOptionsData := data[20 : ip.IHL*4]
// Pull out IP options
for len(headerOptionsData) > 0 {
if ip.Options == nil {
// Pre-allocate to avoid growing the slice too much.
ip.Options = make([]IPv4Option, 0, 4)
}
opt := IPv4Option{OptionType: headerOptionsData[0]}
switch opt.OptionType {
case 0: // End of options
opt.OptionLength = 1
ip.Options = append(ip.Options, opt)
ip.Padding = headerOptionsData[1:]
return nil
case 1: // 1 byte padding
opt.OptionLength = 1
headerOptionsData = headerOptionsData[1:]
ip.Options = append(ip.Options, opt)
default:
if len(headerOptionsData) < 2 {
df.SetTruncated()
return fmt.Errorf("Invalid ip4 option length. Length %d less than 2", len(headerOptionsData))
}
opt.OptionLength = headerOptionsData[1]
if len(headerOptionsData) < int(opt.OptionLength) {
df.SetTruncated()
return fmt.Errorf("IP option length exceeds remaining IP header size, option type %v length %v", opt.OptionType, opt.OptionLength)
}
if opt.OptionLength <= 2 {
return fmt.Errorf("Invalid IP option type %v length %d. Must be greater than 2", opt.OptionType, opt.OptionLength)
}
opt.OptionData = headerOptionsData[2:opt.OptionLength]
headerOptionsData = headerOptionsData[opt.OptionLength:]
ip.Options = append(ip.Options, opt)
}
}
flagsfrags := binary.BigEndian.Uint16(data[6:8])
ip.Version = data[0] >> 4
ip.TOS = data[1]
ip.Id = binary.BigEndian.Uint16(data[4:6])
ip.Flags = IPv4Flag(flagsfrags >> 13)
ip.FragOffset = flagsfrags & 0x1FFF
ip.TTL = data[8]
ip.Protocol = IPProtocol(data[9])
ip.Checksum = binary.BigEndian.Uint16(data[10:12])
ip.SrcIP = data[12:16]
ip.DstIP = data[16:20]
ip.Padding = nil
return nil
}
func (i *IPv4) CanDecode() gopacket.LayerClass {
return LayerTypeIPv4
}
func (i *IPv4) NextLayerType() gopacket.LayerType {
if i.Flags&IPv4MoreFragments != 0 || i.FragOffset != 0 {
return gopacket.LayerTypeFragment
}
return i.Protocol.LayerType()
}
func decodeIPv4(data []byte, p gopacket.PacketBuilder) error {
ip := &IPv4{}
err := ip.DecodeFromBytes(data, p)
p.AddLayer(ip)
p.SetNetworkLayer(ip)
if err != nil {
return err
}
return p.NextDecoder(ip.NextLayerType())
}
func checkIPv4Address(addr net.IP) (net.IP, error) {
if c := addr.To4(); c != nil {
return c, nil
}
if len(addr) == net.IPv6len {
return nil, errors.New("address is IPv6")
}
return nil, fmt.Errorf("wrong length of %d bytes instead of %d", len(addr), net.IPv4len)
}
func (ip *IPv4) AddressTo4() error {
var src, dst net.IP
if addr, err := checkIPv4Address(ip.SrcIP); err != nil {
return fmt.Errorf("Invalid source IPv4 address (%s)", err)
} else {
src = addr
}
if addr, err := checkIPv4Address(ip.DstIP); err != nil {
return fmt.Errorf("Invalid destination IPv4 address (%s)", err)
} else {
dst = addr
}
ip.SrcIP = src
ip.DstIP = dst
return nil
}
func (ip *IPv4) VerifyChecksum() (error, gopacket.ChecksumVerificationResult) {
existing := ip.Checksum
verification := gopacket.ComputeChecksum(ip.Contents, 0)
correct := gopacket.FoldChecksum(verification - uint32(existing))
return nil, gopacket.ChecksumVerificationResult{
Valid: correct == existing,
Correct: uint32(correct),
Actual: uint32(existing),
}
}
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